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2024-11-19 Council PPW CommitteeAgenda Edmonds City Council PARKS AND PUBLIC WORKS COMMITTEE CITY COUNCIL CONFERENCE ROOM 121 - 5TH AVENUE N, EDMONDS, WA 98020 NOVEMBER 19, 2024, 1:30 PM COUNCIL COMMITTEE MEETINGS ARE WORK SESSIONS FOR THE COUNCIL AND CITY STAFF. COMMITTEE MEETING AGENDAS DO NOT INCLUDE AUDIENCE COMMENTS OR PUBLIC HEARINGS. PERSONS WISHING TO JOIN THIS MEETING VIRTUALLY IN LIEU OF IN -PERSON ATTENDANCE CAN CLICK ON OR PASTE THE FOLLOWING ZOOM MEETING LINK INTO A WEB BROWSER USING A COMPUTER OR SMART PHONE: HTTPS://ZOOM. US/J/95798484261 OR JOIN BY DIAL -UP PHONE: US: +1 253 215 8782 WEBINAR ID: 957 9848 4261 STAFF AND COUNCILMEMBERS ATTEND COMMITTEE MEETINGS VIRTUALLY, AND MEMBERS OF THE PUBLIC ARE ENCOURAGED TO ATTEND THE SAME WAY. IF MEMBERS OF THE PUBLIC CANNOT ACCESS THE VIRTUAL COMMITTEE MEETINGS WITH THEIR PERSONAL DEVICES, A MONITOR IS PROVIDED AT THE CITY COUNCIL CONFERENCE ROOM AT 121 5TH AVE N, EDMONDS WA. COMMITTEE MEMBERS: SUSAN PAINE (CHAIR), MICHELLE DOTSCH, COUNCIL PRESIDENT (EX- OFFICIO MEMBER) 1. CALL TO ORDER 2. COMMITTEE BUSINESS 1. Boys & Girls Club Building Design - Second Review (20 min) 2. Yost Park Update (5 min) 3. Int'I District Banner Update (10 min) 4. Creative District Gateway Art Project (10 min) 5. Presentation of an Interlocal Agreement with Snohomish County and Mountlake Terrace, to renew an on -going water quality monitoring program for Lake Ballinger (10 min) 6. Subaward Safety Action Plan Agreement between Puget Sound Regional Council and City of Edmonds (10 min) 7. Presentation of Professional Services Agreement Supplement for Phase 12 (2025) & 13 (2026) Sewer Replacement (10 min) 8. Frances Anderson Center Investment Grade Audit (10 min) Edmonds City Council Agenda November 19, 2024 Page 1 9. Proposed Ordinance Amending ECC 18.00.050 & 18.00.060 (10 min) ADJOURNMENT Edmonds City Council Agenda November 19, 2024 Page 2 2.1 City Council Agenda Item Meeting Date: 11/19/2024 Boys & Girls Club Building Design - Second Review Staff Lead: Angie Feser Department: Parks, Recreation & Human Services Preparer: Angie Feser Background/History The City of Edmonds and the Boys & Girls Club of Snohomish County (BGCSC) have a Ground Lease Agreement (Attachment #4) which allows for construction of a new facility in the allocated 12,000 square foot area within Civic Center Playfield Park. This agreement, approved in February 2023, requires the City Council's review and approval of the proposed building design at two different development phases. The first one, including a Public Hearing was completed July 2023. This is the second review of the developing building design and an opportunity for BGCSC to share their responses to the council's previous design concerns, questions and suggestions ensuring they were adequately addressed. Attached are the updated design drawings including elevations (Attachment #1) and BGCSC's details responses to the 2023 Council's comments (Attachment #2). One new design element is being proposed located outside the BGCSC's allocated footprint and is within the park. It is a short concrete stairway which allows building users to better access Civic Park. An illustration (Attachment #3) is attached showing the proposed stairs. If Council supports this small renovation of the park, it will be formalized later along with other park impacts during the future construction of the new building in an agreement between the City and BGCSC. It is important to note this is only a review of the aesthetics and design of the building as it relates to Civic Center Playfield Park and surrounding area and not a part of the required formal building permit process. Representatives from BGCSC will be present during the meeting to answer questions and provide additional information. Staff Recommendation Staff recommends the Parks & Public Works Committee review the materials and either move this item forward to consent or regular agenda (council presentation) at the next available council meeting. Narrative The Boys and Girls Club of Snohomish County has occupied the Field House since 1968 with an initial arrangement with the Edmonds School District. Although the property was not purchased by the City of Edmonds until 2016, the City had a property lease with the School District starting in 1975 for the entire park site including the Field House. In 2010, the City and BGCSC entered into a five (5) year Building Use Agreement for the Club's use of the Field House. This agreement included a five (5) year extension clause which was executed in both 2015 and 2020. Packet Pg. 3 2.1 Attachments: City of Edmonds - Boys and Girls Club Ground Lease BGC Building Plans 2023 Council Comments - BGC Responses Access Stairs in Park Packet Pg. 4 2.1.a GROUND LEASE CITY OF EDMONDS AND BOYS & GIRLS CLUBS OF SNOHOMISH COUNTY Packet Pg. 5 2.1.a TABLE OF CONTENTS LISTOF EXHIBITS..................................................................................................................... ii GROUNDLEASE......................................................................................................................... 1 SECTION 1. AGREEMENT TO LEASE PROPERTY.......................................................... 1 SECTION2. TERM..................................................................................................................... 2 SECTION3. RENT..................................................................................................................... 2 SECTION 4. BGCSC'S OTHER OBLIGATIONS.................................................................. 3 SECTION 5. CITY AUTHORITY AND OBLIGATIONS...................................................... 5 SECTION 6. INDEMNITY, INSURANCE................................................................................ 5 SECTION7. DEFAULT............................................................................................................. 8 SECTION 8. REPRESENTATIONS....................................................................................... 10 SECTION 9. GENERAL PROVISIONS................................................................................. 10 Packet Pg. 6 2.1.a LIST OF EXHIBITS EXHIBIT A: Property Description/Boys & Girls Club Footprint EXHIBIT B: Schematic of adopted Civic Park Master Plan EXHIBIT C: Civic Park Design Guidelines Packet Pg. 7 2.1.a GROUND LEASE CITY OF EDMONDS / BOYS & GIRLS CLUBS OF SNOHOMISH COUNTY THIS GROUND LEASE (this "Lease"), effective the day of 2023 ("Effective Date") is between the CITY OF EDMONDS, a municipal corporation of the State of Washington (the "City"), and the BOYS & GIRLS CLUBS OF SNOHOMISH COUNTY, a nonprofit corporation under the laws of the State of Washington (the "BGCSC"). WHEREAS, the City and the BOYS & GIRLS CLUBS OF SNOHOMISH COUNTY entered into a Lease dated October 29, 2015, the Term of which was scheduled to expire in 2021 unless extended by one or both of the two five-year extensions in that Lease (the "2015 Lease"). WHEREAS, the 2015 Lease encompasses the same real property as this Lease and the parties intend that this Lease supersede the 2015 Lease. The parties, for good and valuable consideration, the receipt and sufficiency of which are hereby acknowledged, and intending to be legally bound by the terms and conditions of this Lease, agree as follows: SECTION 1. AGREEMENT TO LEASE PROPERTY 1.1 Agreement to Lease and Description of Property. The City hereby leases to the BGCSC and the BGCSC leases from the City that certain real property described and shown on Exhibit A attached hereto located thereon or to be located thereon (the "Property"). The footprint for the ground lease consists of a 12,000-sf area on the Civic Park site, as shown in Exhibit B, Civic Park Master Plan. The BGCSC will own and have the option to propose a plan to accommodate a 20,000-sf new construction building onsite, with the addition of required infrastructure improvements, utilities, landscaping and any other enhancements located on the Property or to be located on the Property during the term of this Lease. This will need to be consistent with the adopted Civic Park Master Plan (see Exhibit B) and the Civic Park Design Guidelines (see Exhibit Q. As used in this Lease, the term "Improvements" shall mean all buildings, driveways, infrastructure improvements, utilities, landscaping and any other enhancements located on the Property or to be located on the Property during the term of this Lease and made to the Property by the BGCSC. 1.2 Use of the Property. 1.2.1 Allowed Uses of the Property by the BGCSC. Except as otherwise provided herein, the BGCSC shall use the Property for the purpose of operating a non-profit community resource center serving the needs of the local youth members of the community. 1.2.1.1 Notwithstanding the foregoing, the BGCSC may from time to time utilize portions of the Property for revenue -generating activities including, but not limited to, rentals and events; provided, that all revenues generated therefrom are utilized by the BGCSC exclusively for the purposes set forth in Section 1.2.1, above. CES\21798\0001 \01198017.v 1 Packet Pg. 8 2.1.a 1.2.2 Allowed Uses of the Property by the City. The City of Edmonds may be given access to the building so it may offer recreational and other programs to the public. A separate operating agreement will be created to determine City use and City funding. The City will be allowed use as mutually agreed upon with the Lessee. The City and the BGCSC agree to meet on a regular on -going basis to review the schedule and plan for uses for both parties other than what is outlined in this section. The City also will remain the responsible and controlling party for the grounds surrounding the building. The BGCSC acknowledges that the grounds surrounding the building are a public park and shall remain open to the public subject to the City's reasonable regulations related to uses, hours, etc. SECTION 2. TERM 2.1 Initial Term. The term of this Lease ("Lease Term") shall extend for a period of Forty (40) years commencing on January 1, 2023, and terminating on December 31, 2062, subject to the right of the BGCSC to extend the Lease Term as provided herein. 2.2 Extension Term. The Lease Term may be extended by the BGCSC for one additional period of fifteen (15) years. 2.2.1 Conditions of Extension. In order for the BGCSC to extend the Lease Term, it shall: (i) not be in material default at the time of providing notice of its Lease Extension and thereafter; (ii) it shall provide written notice of its Lease Extension at least one hundred eighty (180) days prior to the expiration of the Lease Term. 2.2.2 Process for Extension. No sooner than three hundred sixty-five (365) days and no later than one hundred eighty (180) days prior to the expiration of the Lease Term, the BGCSC shall provide written notice of its intention to exercise the Extension Term. The City and the BGCSC shall meet no later than one hundred twenty (120) days prior to the expiration of the Lease Term to confirm the Extension Term, discuss any matters pertaining thereto and sign a Lease Addendum incorporating the Extension Term and any mutually acceptable matters pertaining to the Extension Term. SECTION 3. RENT 3.1 Rent. In consideration for the use of the Property as specified in this Lease, the BGCSC shall pay to the City a total payment of Ten Dollars ($10.00) per year, and such sum shall be paid within ten (10) days from the date of execution of this Lease and within ten (10) days following January 1 St of each calendar year of each year during the Term of this Lease. The parties mutually agree and acknowledge that the BGCSC's operation of the BGCSC upon the Property effectuates a fundamental government purpose and public benefit such as to obviate the necessity of additional rental payment compensation. Furthermore, because the BGCSC's mission is to enrich the social, physical, and intellectual wellbeing of youth, the City is able to lease the Property to the BGCSC for less than fair market value under the poor and infirm exception to the constitutional (Article 8, Section 7) prohibition on gifting or loaning of public funds. 2 CES\21798\0001\01198017.v1 Packet Pg. 9 2.1.a SECTION 4. BGCSC'S OTHER OBLIGATIONS 4.1 Construction of Improvements. 4.1.1 City Approval and Ownership. The BGCSC shall undertake no demolition, construction, alteration, or changes ("Work") on or to the Property without the prior written consent of the City, which shall be within the discretion of the City to withhold or deny. Consent shall not be unreasonably denied. In applying its discretion, the City shall consider, among other factors deemed relevant by the City Council, the intended uses of the Property as described in Section 1.2 as well as the Property's functionality as a park. The City will allow the BGCSC to consider three (3) options: (1) improve existing facility; (2) add to existing facility; or (3) demolish existing facility and build new facility; however, the proposal must be consistent with the Civic Park Master Plan and Civic Park Design Guidelines and will be subject to City Council approval. The consent contemplated in this subsection 4.1.1 is separate and apart from the City's regulatory authority and the discretion to withhold or deny approval under this subsection 4.1.1 is not limited in the same way that the City's regulatory discretion is limited. Any deviation from approved plans must also be approved, in writing, by the City. Improvements constructed by the BGCSC during the term of this Lease shall be considered the 13GCSC's property until the date this Lease is terminated. Upon termination of the Lease Term, together with Extension, if applicable, all improvements located on the Property shall become the property of the City, excepting trade fixtures, which may be removed by the BGCSC at its option. The BGCSC will bring forth the schematic design of the facility, including its footprint on the Property, to the City Council for approval. The City Council will consider in a reasonable time frame not to exceed 60 days, and may opt to hold one or more public hearings on the schematic design prior to taking action. The BGCSC agrees not to proceed with the design development phase of the design process until the schematic design of the facility, including its footprint on the Property, is approved by the City Council. The BGCSC will also bring forth the design development phase drawings of the facility to the City Council for approval. The BGCSC agrees not to proceed with the construction document phase of the design process until the drawings from the design development phase have been approved by the City Council. Any proposed substantive design changes that are inconsistent with a previous design approval (schematic or design development), including proposed changes to the facility's footprint on the Property, shall also be subject to City Council approval and shall be returned to the City Council as soon as practicable and not be deferred until the approval of the next phase. In the event there are any disputes that arise concerning decisions made by the City under this Section 4.1.1, those disputes shall be subject to the dispute resolution provisions in Section 9.18. 4.1.2 Permits. Once approvals have been given by the City under 4.1.1, above, no Work may commence until the BGCSC obtains and delivers to the City copies of all necessary governmental permits. The BGCSC must also supply the City with a copy of any occupancy permit required and any certification required by the fire marshal, prior to the BGCSC's occupancy of the Property. 4.1.3 Construction Schedule. The consent to perform work in section 4.1.1 must be given within three (3) years of the signing of this Lease. Construction Work must be completed within three (3) years of the receipt of consent to perform the Work obtained under Section 4.1.1. If construction is begun within one (1) year of the receipt of consent and diligently performed CES\21798\0001 \01198017.v 1 Packet Pg. 10 2.1.a thereafter, the City will grant the BGCSC a one (1) year extension to complete construction, if needed, so long as the BGCSC notifies the City of its need for additional time at least thirty (30) days in advance of the completion deadline. Failure to complete construction within the specified time shall be an event of default under Section 7.1 unless any delay in construction occurred as a result of failure by the City to allow the BGCSC's construction to commence in a timely manner in which case, the BGCSC shall be given a commensurate amount of time for completion of construction. All Work done on the Property at any time during the term of this Lease must be done in a good workman -like manner and in accordance with all applicable laws and all building, land use, and other permit requirements. All Work shall be done with reasonable dispatch. If requested by the City, within thirty (30) days after the completion of any Work, the BGCSC shall deliver to the City complete and fully detailed as -built drawings of the completed Work, in both electronic and paper forms, prepared by an architect licensed by the State of Washington. All landscaping shall be designed by a landscape architect licensed in the State of Washington. 4.1.4 The BGCSC shall be responsible for all repairs for any and all impacts or damages attributable to the actions of the BGCSC and its invitees to City improvements of Civic Center Playfield and city street right-of-way and agrees to return improvements to their original condition at the start of the BGCSC project, including demolition and construction as deemed acceptable by the City. The BGCCSC shall submit for City review and approval a site access plan detailing how equipment and materials will be moved in and out of the construction site and how excavation, grading and construction adjacent to park and street improvements will minimize impact and prevent damages. 4.2 Maintenance. At all times during the Lease Term and Extension Term, if any, the BGCSC shall reasonably keep and maintain the BGCSC Improvements located on the Property in good repair and operating condition and shall make all necessary and appropriate preventive maintenance, repairs, and replacements. On each fifth anniversary of this Lease (meaning every five years), the City and the BGCSC shall conduct a thorough inspection of the BGCSC Improvements on the Property and City shall inform the BGCSC of any needed repairs, maintenance or clean-up to be done in order to maintain the quality of any of the BGCSC Improvements to the Property, reasonable wear and tear excepted. Such repairs, maintenance and clean-up shall be done with reasonable dispatch. Prior to entering into the Extension Term of this Lease such an inspection will also be required and all reasonable repairs and maintenance needed to be done must be done to the Improvements before the Extension Term of the Lease commences 4.3 No Liens. The BGCSC agrees to pay, when due, all sums for labor, services, materials, supplies, utilities, furnishings, machinery, or equipment which have been provided to the Property. If any lien is filed against the Work which the BGCSC wishes to protest, then the BGCSC shall immediately deposit cash with the City, or procure a bond acceptable to the City, in an amount sufficient to cover the cost of removing the lien from the Work. Failure to remove the lien or furnish the cash or bond acceptable to the City within thirty (30) days shall constitute an event of default under this Lease and the City shall automatically have the right, but not the obligation, to pay the lien in full with no notice to the BGCSC and the BGCSC shall immediately reimburse the City for any sums so paid to remove any such lien. The BGCSC shall not encumber the Property or any Improvements thereon without prior written approval of the City. The BGCSC shall obtain a performance bond in the full amount of the contract it has signed with its contractor to complete the facility and provide such performance bond to the City prior to demolition of the 0 CES\21798\0001 \01198017.v 1 Packet Pg. 11 2.1.a existing facility. The performance bond shall ensure that the construction of the facility is completed and that all workers, contractors, subcontractors, and suppliers will be paid. 4.4 Utilities and Services. The BGCSC must make arrangements for all utilities and shall promptly pay all utility charges before they become delinquent. The BGCSC is solely responsible for verifying the existence, location, capacity and availability of all utilities it may need for the BGCSC's planned use of the Property. The BGCSC shall be solely responsible for the cost of extending any existing utility lines into the Property. The Property, as made available to the BGCSC by the City, shall include utility access for water, sewer, electrical power and telephone to the edge (back of curb) of the Property. The BGCSC shall be solely responsible for securing all permits and for meeting all requirements necessary to achieve all of the above. 4.5 Ste. Any signs erected by the BGCSC must comply with all local sign ordinances. The BGCSC shall remove all signs and sign hardware upon termination of this Lease and restore the sign location(s) to its (their) former state(s) unless the City elects to retain all or any portion(s) of the signage. Signage requirements may reasonably change during the term and, to maintain uniformity and continuity, the BGCSC will comply with any new sign code requirements within a reasonable time after the adoption of such new requirements. SECTION 5. CITY AUTHORITY AND OBLIGATIONS 5.1 Delivery of Property. The BGCSC shall have the right to possession of the Property as of the Commencement Date. In the event the City shall permit the BGCSC to occupy the Property prior to the Commencement Date, such occupancy shall be subject to all provisions of this Lease. Early or delayed possession shall not advance or defer the Expiration Date of this Lease. 5.2 Quiet Enjoyment. Subject to the BGCSC performing all of the BGCSC's obligations under this Lease and subject to the City's rights under this Lease and its rights of condemnation under Washington law, the BGCSC's possession of the Property will otherwise not be disturbed by the City. Any sublease shall be subject to prior approval by the City and, if approval is granted, this quiet enjoyment provision shall apply to the BGCSC's sub -lessees. 5.3 Condition of Property. The City makes no warranties or representations regarding the condition of the Property, including, without limitation, the suitability of the Property for the BGCSC's intended uses or the availability of accessible utilities or roadways needed for the BGCSC's intended purposes. The BGCSC has inspected the Property, conducted its own feasibility and due diligence analysis, and accepts the Property in "AS IS" condition, upon taking possession. SECTION 6. INDEMNITY, INSURANCE 6.1 General Indemnity. Upon the Commencement Date of this Lease, the BGCSC agrees to defend (using legal counsel reasonably acceptable to the City), indemnify, and hold the City harmless from and against any and all actual or alleged claims, suits, actions, or liabilities for injury or death of any person, or for loss or damage to property, damages, expenses, costs, fees (including, but not limited to, attorney, accountant, paralegal, expert, and escrow fees), fines, CES\21798\0001 \01198017.v 1 Packet Pg. 12 2.1.a and/or penalties (collectively "Costs"), which may be imposed upon or claimed against the City, and which, in whole or in part, directly or indirectly, arise from or are in any way connected with the BGCSC's use of the Property, or from the conduct of the BGCSC's business, or from any activity, work or thing done, permitted, or suffered by the BGCSC in or about the Property; this includes any act, omission or negligence of the BGCSC, its sub -lessees, or its event space renters; any use, occupation, management or control of the Property by the BGCSC; any condition created in, on or about the Property by the BGCSC, an agent, sub -lessee, or event space renter, including any accident, injury or damage occurring in, on or about the Property after the Effective Date; any breach, violation, or nonperformance of any of the BGCSC's obligations under this Lease by the BGCSC, its sub -lessees, or event space renters; any damage caused by the BGCSC, its sub -lessees, or event space renters on or to the Property. The BGCSC's obligations and liabilities hereunder shall commence on the Effective Date of this Lease, if earlier than the Commencement Date and if caused by the activities of the BGCSC or its agents or invitees on the Property. As used herein, the indemnification provided by the BGCSC is intended to include indemnification for the actions of the BGCSC and its employees and other agents and all of the BGCSC's sub -lessees, event space renters and all of their respective employees and other agents. The BGCSC's obligations to indemnify, defend and hold harmless the City hereunder include indemnification of the employees, agents and elected officials of the City. The City covenants to protect, save and indemnify the BGCSC, its elected and appointed officials, volunteers, members and employees while acting within the scope of their duties as such, and hold the same harmless from and against all claims, demands and causes of action of any kind or character, including the cost of defense thereof, brought by the City's employees or third parties on account of personal injuries, death or damage to property arising out of the City's obligations under this Lease or in any way resulting from the willful or negligent acts or omissions of the City and/or its agents, employees or respresentatives. 6.2 insurance Requirements. The BGCSC shall procure and maintain for the duration of the Lease insurance against claims for injuries to persons or damage to property which may arise from or in connection with the BGCSC's operation and use of the leased Property. The BGCSC's maintenance of insurance as required by the Lease shall not be construed to limit the liability of the BGCSC to the coverage provided by such insurance, or otherwise limit the City's recourse to any remedy available at law or in equity. The amounts listed indicate only the minimum amounts of insurance coverage the City is willing to accept to help insure full performance of all terms and conditions of this Lease. All insurance required by the BGCSC under this Lease shall meet the following minimum requirements: 6.2.1 Certificates: Notice of Cancellation. On or before the Commencement Date, the BGCSC shall furnish the City with original certificates and a copy of any amendatory endorsements, including but not necessarily limited to the additional insured endorsement, evidencing the existence of all insurance required under Section 6.3. Thereafter, the City must receive notice of the expiration or renewal of any policy at least thirty (30) days prior to the expiration or cancellation of any insurance policy; provided, that the BGCSC shall provide the City with written notice of any policy expiration or cancellation, within two business days of its receipt of such notice. No insurance policy may be canceled, revised, terminated or allowed to lapse without at least thirty (30) days prior written notice being given to the City. Insurance must be maintained without any lapse in coverage during the entire Lease Term and Extension Term, if 0 CES\21798\0001\01198017.v 1 Packet Pg. 13 2.1.a any. Insurance shall not be canceled without the City's consent. The City shall also be given copies of the BGCSC's policies of insurance, upon request. 6.2.2 Additional Insured. The City shall be named as an additional insured in each required policy using ISO Additional Insured -Managers or Lessors of Premises Form CG 20 11 or a substitute endorsement providing equivalent coverage and, for purposes of damage to the Property, as a loss payee to the extent of its interest therein. Such insurance shall not be invalidated by any act, neglect or breach of contract by the BGCSC and shall not in any way be construed by the carrier to make the City liable for payment of any of the BGCSC's insurance premiums. 6.2.3 Primary Coverage. The required policies are to contain, or be endorsed to contain, that they shall be primary insurance as respect the City. Any insurance, self-insurance, or insurance pool coverage maintained by the City shall be excess of the BGCSC's insurance and shall not contribute with it. 6.2.4 Company Rating. All policies of insurance must be written by companies having an A.M. Best rating of not less than A: VII. The City may, upon thirty (30) days' written notice to the BGCSC, require the BGCSC to change any carrier whose rating drops below such rating. 6.3 Required Insurance. At all times during this Lease, the BGCSC shall provide and maintain the following types of coverage: 6.3.1 Commercial General Liability Insurance. The BGCSC shall maintain an occurrence form commercial general liability policy (including coverage for broad form contractual liability; and personal injury liability) for the protection of the BGCSC and the City, insuring the BGCSC and the City against liability for damages because of personal injury, bodily injury, death, or damage to property, including loss of use thereof, and occurring on or in any way related to the Property or occasioned by reason of the operations of the BGCSC. Such coverage shall name the City as an additional insured using ISO Additional Insured -Managers or Lessors of Premises Form CG 20 11 or a substitute endorsement providing equivalent coverage. Commercial General Liability insurance shall be written with limits no less than $1,000,000 each occurrence, $2,000,000 general aggregate. Commercial General Liability insurance shall be written on Insurance Services Office (ISO) occurrence form CG 00 01 and shall cover premises and contractual liability. 6.3.2 Property Insurance. The BGCSC shall maintain, in full force and effect during the Lease Term, "All Risk" property insurance covering all buildings, fixtures, equipment, and all other Improvements located on the Property. Coverage shall be in an amount equal to One Hundred Percent (100%) of the new replacement value thereof with no coinsurance provisions. 6.3.3 Builder's Risk. The BGCSC shall maintain, in full force and effect during construction of the BGCSC's facility described in this Lease, Builders Risk insurance covering interests of the BGCSC, the City, the Contractor, Subcontractors, and Sub -subcontractors in the Work. Builders Risk insurance shall be on an all-risk policy form and shall insure against the perils of fire and extended coverage and physical loss or damage including flood, earthquake, theft, 7 CES\21798\0001 \01198017.v 1 Packet Pg. 14 2.1.a vandalism, malicious mischief, collapse, temporary buildings and debris removal. Coverage shall include: 1) formwork in place; 2) all materials and equipment on the Property; 3) all structures including temporary structures; and 4) all supplies related to the Work being performed. The insurance required hereunder shall have a deductible of not more than Five Thousand Dollars ($5,000), which will be the responsibility of the Contractor. Higher deductibles for flood and earthquake perils may be accepted by the City upon written request by the Contractor and written acceptance by the City. Any increased deductibles accepted by the City will remain the responsibility of the Contractor. The Builders Risk insurance shall be maintained until final acceptance of the Work. 6.4 Waiver of Subrogation. The BGCSC and the City hereby release and discharge each other from all claims, losses and liabilities arising from or caused by any hazard covered by property insurance on or in connection with the Property or said facility. This release shall apply only to the extent that such claim, loss or liability is covered by insurance. 6.5 Periodic Review. The City shall have the right to periodically review the limits and terms of insurance coverage. In the event the City determines that such limits and/or terms should be changed, the City will give the BGCSC a minimum of thirty (30) days' notice of such determination and the BGCSC shall modify its coverage to comply with the new insurance requirements of the City. The City agrees that it shall be reasonable in any coverage change required, and that such change will be in accordance with standard market requirements for the BGCSC's facilities or similar activity centers. The BGCSC shall also provide the City with proof of such compliance by giving the City an updated certificate of insurance within thirty (30) days. 6.6 Failure to Maintain Insurance. Failure on the part of the BGCSC to maintain the insurance as required shall constitute a material breach of lease, upon which the City may, after giving five (5) business days' notice to the BGCSC to correct the breach, terminate the Lease or, at its discretion, procure or renew such insurance and pay any and all premiums in connection therewith, with any sums so expended to be repaid to the City on demand. SECTION 7. DEFAULT 7.1 BGCSC Default. 7.1.1 The occurrence of any one or more of the following shall constitute a material default and breach of this Lease by the BGCSC: 7.1.1.1 Vacating the Property. The vacation or abandonment of the Property by the BGCSC for more than thirty (30) days. 7.1.1.2 Failure to Pay Rent. The failure bythe BGCSC to make anypayment of rent or any other payment required to be made by the BGCSC under this Lease, as and when due, where such failure shall continue for a period of thirty (30) days after written notice thereof by the City to the BGCSC. 7.1.1.3 Unpermitted Use of the Property. The use of the Property for any purpose not authorized by Section 1.2.1 of this Lease where such unpermitted use of the Property CES\21798\0001\01198017.v1 Packet Pg. 15 2.1.a shall continue for a period of thirty (30) days after written notice thereof shall be grounds for default. 7.1.1.4 Failure to Perform. Failure by the BGCSC to observe or perform any of the covenants or provisions of this Lease to be observed or performed by the BGCSC, specifically including, without limitation, the BGCSC's utilization of the Property for purposes materially inconsistent with those set forth in this Lease where such failure shall continue for a period of thirty (30) days after written notice thereof from the City to the BGCSC; provided, that if the nature of the BGCSC's default is such that more than thirty (30) days are reasonably required for its cure, then the BGCSC shall not be deemed to be in default if the BGCSC shall commence such cure within the thirty (30) day period and thereafter diligent prosecute such cure to completion. Notice shall specify the portion of the lease the BGCSC has failed to perform. 7.1.2 Remedies in Default. In the event of any default or breach by the BGCSC under this Lease, in addition to any other remedies at law or in equity, the City may: 7.1.2.1 Terminate the Lease. Terminate the BGCSC's right to possession of the Property by providing written notice of at least ninety (90) days; 7.1.2.2 Continue the Lease. Maintain the BGCSC's right to possession, in which case the Lease shall continue in effect whether or not the BGCSC shall have abandoned the leased Property. In such event, the City shall be entitled to enforce all landlord's rights and remedies under this Lease; and/or 7.1.2.3 Other remedies. Pursue any other remedy now or hereafter available to a landlord under the laws of the State of Washington. The City expressly reserves the right to recover from the BGCSC any and all actual expenses, costs and damages caused in any manner by reason of the BGCSC's default or breach. 7.1.3 Legal Action. If either party commences legal action relating to this lease, its terms, conditions or enforcements thereof, the prevailing party shall be entitled to all reasonable costs and attorney's fees incurred in bringing such action. Venue for any such legal action shall lie exclusively in Snohomish County Superior court. 7.2 Default by the City. The City shall not be in default unless the City fails to perform obligations required of the City under this Lease within a reasonable time, but in no event later than thirty (30) days after written notice by the BGCSC to the City; provided, that if the nature of the City's obligation is such that more than thirty (30) days are required for performance, then the City shall not be in default if the City commences performance within such thirty (30) day period and thereafter diligently prosecutes the same to completion. The notice shall specify the portion of the Lease that the City has failed to perform and the action that the BGCSC seeks to be taken by the City to prevent the default. The BGCSC further agrees not to invoke any remedies until such thirty (30) days have elapsed. CES\21798\0001 \01198017.v 1 Packet Pg. 16 2.1.a SECTION 8. REPRESENTATIONS 8.1 Representations of the BGCSC. 8.1.1 The BGCSC is a duly organized and legally existing corporation under the laws of the State of Washington. 8.1.2 The BGCSC's execution, delivery and performance of all of the terms and conditions of this Lease have been duly authorized by all requisite corporate action on the part of the BGCSC. This Lease constitutes the BGCSC's legal, valid and binding obligations, enforceable against the BGCSC in accordance with its terms subject to the effects of bankruptcy, insolvency, fraudulent conveyance or similar laws affecting creditor's rights and to equitable principles. Execution of the Lease does not conflict with any provision of the BGCSC's Articles of Incorporation, Bylaws or other corporate documents. 8.1.3 There is no claim, action, proceeding or investigation pending or, to the actual knowledge of the BGCSC, threatened in writing, nor is there any legal determination or injunction that calls into question the BGCSC's authority or right to enter into this Lease or perform the obligations specified in the Lease. 8.1.4 The BGCSC has not employed any broker, finder, consultant or other intermediary in connection with the Lease who might be entitled to a fee or commission in connection with the BGCSC and the City entering into the Lease. 8.2 Representations of the City. 8.2.1 The City is a municipal corporation duly organized, validly existing and in good standing under the laws of the State of Washington, with full power and authority to own and lease the Property. The City has the power to enter into and perform its obligations pursuant to this Lease. 8.2.2 The City's execution, delivery and performance of this Lease have been duly authorized consistent with its requirements under Washington law. 8.2.3 There is no claim, action, proceeding or investigation pending or, to the actual knowledge of the City, threatened in writing, nor is there any outstanding judicial determination or injunction that calls into question the City's authority or right to enter into this Lease. SECTION 9. GENERAL PROVISIONS 9.1 No Partnership. It is understood and agreed that this Lease does not create a partnership or joint venture relationship between the City and the BGCSC. The City assumes no liability hereunder or otherwise for the operation of the business of the BGCSC. The provisions of this Lease with reference to rents are for the sole purpose of fixing and determining the total rents to be paid by the BGCSC to the City. 10 CES\21798\0001 \01198017.v 1 Packet Pg. 17 2.1.a 9.2 Governing Law. This Lease shall be governed and construed according to the laws of the State of Washington, without regard to its choice of law provisions. Venue shall be in Snohomish County. 9.3 No Benefit to Third Parties. The City and the BGCSC are the only parties to this Lease and as such are the only parties entitled to enforce its terms. Nothing in this Lease gives or shall be construed to give or provide any benefit, direct, indirect, or otherwise to third parties. Nothing in this Lease shall be construed as intending to create a special relationship with any third party; neither the City not the BGCSC intend to create benefits in favor of any third parties as a result of this Lease. 9.4 Notices. All notices required or desired to be given under this Lease shall be in writing and may be delivered by hand delivery, in certain cases sent by facsimile, or by placement in the U.S. mail, postage prepaid, as certified mail, return receipt requested, addressed to the City at: And to the BGCSC at: City of Edmonds 121 5th Avenue North Edmonds, Washington 98020 Attn: City Clerk Boys & Girls Clubs of Snohomish County 8223 Broadway — Ste 100 Everett, Washington 98203 Attn: Executive Director Any notice delivered by hand delivery shall be conclusively deemed received by the addressee upon actual delivery; any notice delivered by certified mail as set forth herein shall be conclusively deemed received by the addressee on the third Business Day after deposit. The addresses to which notices are to be delivered may be changed by giving notice of such change in accordance with this notice provision. 9.5 Time of the Essence. Time is of the essence in the performance of and adherence to each and every covenant and condition of this Lease. 9.6 Non -waiver. Waiver by the City or the BGCSC of strict performance of any provision of this Lease shall not be deemed a waiver of or prejudice the City's or the BGCSC's right to require strict performance of the same provision in the future or of any other provision. 9.7 Survival. Any covenant or condition (including, but not limited to, indemnification agreements), set forth in this Lease, the full performance of which is not specifically required prior to the expiration or earlier termination of this Lease, and any covenant or condition which by their 11 CES\21798\0001 \01198017. v 1 Packet Pg. 18 2.1.a terms are to survive, shall survive the expiration or earlier termination of this Lease and shall remain fully enforceable thereafter. 9.8 Partial Invalidity. If any provision of this Lease is held to be invalid or unenforceable, the remainder of this Lease, or the application of such provision to persons or circumstances other than those to which it is held invalid or unenforceable, shall not be affected thereby, and each provision of this Lease shall be valid and enforceable to the fullest extent permitted by law. 9.9 Calculation of Time. All periods of time referred to in this Lease shall include Saturdays, Sundays, and legal holidays. However, if the last day of any period falls on a Saturday, Sunday, or legal holiday, then the period shall be extended to include the next day which is not a Saturday, Sunday or legal holiday. "Legal Holiday" shall mean any holiday observed by the Federal Government. As used in this Lease, "Business Days" shall exclude Saturdays, Sundays, legal holidays and the week between December 25 and January 1. 9.10 Headings. The article and section headings contained herein are for convenience in reference and are not intended to define or limit the scope of any provisions of this Lease. 9.11 Exhibits Incorporated by Reference. All Exhibits attached to this Lease are incorporated by reference herein for all purposes. 9.12 Modification. This Lease may not be modified except by a writing signed by the parties hereto. 9.13 Engagement of Brokers. The BGCSC and the City each represent to one another that if a broker's commission is claimed, the party who engaged the broker shall pay any commission owed and shall defend, indemnify and hold the other party harmless from any such claim. 9.14 Right of Parties and Successors in Interest. The rights, liabilities and remedies provided for herein shall extend to the heirs, legal representatives, successors and, so far as the terms of this Lease permit, successors and assigns of the parties hereto. The words "City" and "BGCSC" and their accompanying verbs or pronouns, wherever used in this Lease, shall apply equally to all persons, firms, or corporations which may be or become such parties hereto. 9.15 Execution of Multiple Counterparts. This Lease may be executed in two or more counterparts, each of which shall be an original, but all of which shall constitute one instrument. 9.16 Defined Terms. Capitalized terms shall have the meanings given them in the text of this Lease. 9.17 No Limit on City's Powers. Nothing in this Lease shall limit, in any way, the power and right of the City to exercise its governmental rights and powers, including its powers of eminent domain. 12 CES\21798\0001 \01198017.v 1 Packet Pg. 19 2.1.a 9.18 Non -Binding Mediation. Should any dispute arise between the parties to this Lease, other than a dispute regarding the failure to pay Rent or other payments (including taxes) as required by this Lease, it is agreed that any such dispute will be submitted to a mediator prior to litigation. The parties agree to exercise good faith efforts to agree on a mediator and to resolve disputes covered by this section through the mediation process. The parties agree that the mediation will be conducted through Judicial Dispute Resolution (JDR) in Seattle. If the parties cannot agree on a mediator, one shall be appointed by JDR. The mediation fee shall be shared equally by the City and the BGCSC. Either party may commence the mediation process by contacting JDR and notifying the other party by mail. The mediation shall become binding upon the parties only upon the execution of a settlement agreement based on the mediator's recommendation. If a party refuses to participate in the mediation process, either by not paying the mediation fees or not appearing for mediation, the Superior Court may issue an appropriate enforcement order or sanction relating to this mediation provision in its discretion. 9.19 This Lease Supersedes. This Lease shall replace and supersede the 2015 Lease. The parties hereby terminate the 2015 Lease in its entirety as of the effective date of this Lease. 9.20 Rccording. A Memorandum of this Lease may be recorded after execution by the parties. 9.21 Entire Agreement. This Lease represents the entire agreement between the City and the BGCSC relating to the BGCSC's leasing of the Property. It is understood and agreed by both parties that neither party nor an official or employee of a party has made any representations or promises with respect to this Lease or the making or entry into this Lease, except as expressly set forth in this Lease. No claim for liability or cause for termination shall be asserted by either party against the other for, and neither party shall be liable by reason of, any claimed breach of any representations or promises not expressly set forth in this Lease; all oral agreements with the parties are expressly waived by both parties. This Lease has been extensively negotiated between the parties. Therefore, no alleged ambiguity or other drafting issues of the terms of this Lease shall be construed, by nature of the drafting, against either party. IN WITNESS HEREOF, the parties have subscribed their names hereto effective as of the day, month and year first written above. LESSEE: LESSOR: BOYS & GIRLS CLUBS CITY OF EDMONDS OF SNO )_HDM1Sjj COUNTY r Bill Tsoukalas, Executive Director 13 CES\21798\0001 \01198017. v 1 Mike Nelson, Mayor APPROVED BY CITY COUNCIL ON: Packet Pg. 20 2.1.a ATTEST: Scott Passey, City Clerk APPROVED AS TO FORM: Office of the City Attorney STATE OF WASHINGTON ) ) ss. COUNTY OF SNOHOMISH ) I certify that I have evidence that Mike Nelson is the person who appeared before me, and said person acknowledged that he signed this instrument, on oath stated that he was authorized to execute the instrument and acknowledged it as the Mayor of the City of Edmonds, to be the free and voluntary act of such party for the uses and purposes mentioned in the instrument. DATED: PRINTED NAME: NOTARY PUBLIC In and for the State of Washington. My commission expires: 14 CES\21798\0001 \01198017.V1 Packet Pg. 21 2.1.a STATE OF WASHINGTON ) ) ss. COUNTY OF SNOHOMISH ) I certify that I have evidence that Bill Tsoukalas is the person who appeared before me, and said person acknowledged that he signed this instrument, on oath stated that s/he was authorized to execute the instrument and acknowledged it as the Executive Director of the Boys & Girls Clubs of Snohomish County, to be the free and voluntary act of such party for the uses and purposes mentioned in the instrument. DATED: ac d O�Q) ��Sg10N fka PRINTED NAME: �c NOTARYiPP NOTARY PUBLIC License No. 9W In and for the State of Washington. N PL)BLIC My commission expires: ) (;L0_7_0_k Ct 12-27-2024 �F VVASN�C� 15 CE S\21798\0001 \01198017.V1 Packet Pg. 22 2.1.a EDMONDS CIVIC CENTER PLAYFIELD ?1N BOYS & GIRLS CLUB SITE FOOTPRINT 0 5 10 20 10 NORTH WALKER MACY - FEBRUARY 2023 SCALE: 1 " = 20'-0" Packet Pg. 23 4, i - " m Packet Pg. 24 EXHIBIT "C" 2.1.a WALKERI MACY LANDSCAPE ;RCH TECTURE To: Carrie Hite, City of Edmonds Topic: Boys & Girls Club Design Date: 09/11/2018 Guidelines From: Walker Macy Project: Edmonds Civic Center Playfield Project #: P3282.04 SD -CA CIVIC CENTER PLAYFIELD DESIGN GUIDELINES Site Design — Sidewalk Zones and Streetscape Features Intent. To produce a streetscape that is safe, convenient, comfortable and appealing for people on foot. 1. Sidewalk materials and design shall meet and match the surrounding park and the design established in the Civic Center Playfield Master Plan. 2. Amenity Area: Signs, street furniture, lighting, landscaping, etc., shall be located in the amenity area. Requirements for this area are associated with the Civic Field Master Plan 3. Clear Walkway Area: Sidewalk area shall maintain a clear 5 foot dimension for pedestrian travel. Signs, street furniture, planters and other amenities shall not encroach upon the clear walkway area. 4. Storefront Area: Sidewalk area outside the pedestrian travel area may be used for outdoor dining and/or display. Site Design - Service and Storage Intent. To reduce the visual impacts of storage, trash, and service areas. 1. Storage of trash and recycling and other goods shall be included within the building envelope. This standard does not apply to temporary uses such as material storage during construction or street vendors. 2. Any mechanical equipment located on the ground, roof, or wall -mounted and visible from the street, common areas, the park, or a public vantage point shall be screened. 3. All on -site service areas, loading zones, outdoor storage areas and similar activities shall be located in an area not visible from public streets and consider adjacent public spaces. Consideration shall be given to developing common service courts at the interior of blocks. Service areas should accommodate loading, trash bins, recycling facilities, storage areas, utility cabinets, utility meters, transformers, etc. Service areas shall be located and designed for easy 1213 3P.0 AVE. SL!TE y_ I S-ATT_E 'A'A.J6101 I - 1.111, 11 1 'jE3 A'A:_K-R%1ACv p',4 Packet Pg. 25 2.1.a Edmonds Civic Center Playfield Design Guidelines 9/11 /2018 Page 2 of 6 access by service vehicles and for convenient access by each tenant. Any emissions of noise, vapor, heat or fumes shall be mitigated. Site Design — Public Spaces Intent. To provide an enhanced pedestrian experience by linking public plazas, courtyards and other gathering spaces. 1. Outdoor gathering spaces should be oriented toward the south (for solar exposure) when possible to create a more comfortable space. 2. Buffer plantings should be a minimum of 12' and align with the Civic Center Playfield plan. 3. Setbacks from the ROW shall meet City Code. Building Design — Prominent Entrances Intent: To ensure that entrances are easily identifiable and accessible from streets and sidewalks. 1. Locate primary entrances so that they are visible from the public right of way. The entry shall be marked by architectural elements such as canopies, ornamental lighting fixtures and/or fixed seating that offer visual prominence. 2. The finished floor of the ground floor shall have the same grade as the street sidewalk and/or adjacent public space and match with the Civic Center Playfield plan. 3. Ground level detail shall reinforce the character and attractiveness of the streetscape, provide pedestrian friendly amenities. Facades shall be designed to be pedestrian friendly through the inclusion of at least four of the following elements: a. Kick plates for storefront windows b. Projecting window sills c. Pedestrian -scale signage d. Exterior lighting sconces e. Containers for seasonal plantings f. Window box planters g. Benches and seat walls along 30% of the length of the facade h. Cafe tables and chairs on the south side of the building. i. Match Civic Center Playfield paving system. j. Brick, tile or stone work on the ground floor facade k. A feature not on the list that meets the intent and is approved by Director. Building Design — Transparency Zone Intent: To provide a visual connection between activities inside and outside of buildings. Packet Pg. 26 2.1.a Edmonds Civic Center Playfield Design Guidelines 9/11/2018 Page 3 of 6 On all streets: buildings shall include windows with clear vision glass on at least 60% of the area between two and twelve feet above grade for all ground floor building facades that are visible from an adjacent street or public space. If windows are not appropriate, decorative art (such as noncommercial murals or relief sculpture), significant architectural detailing, or wall -covering landscaping may be used, as approved by the COE. Building Design — Treatment of Blank Walls Intent. To soften the visual impact of any wall that does not have windows Any blank wall shall incorporate at least five of the following features: 1. An architectural plinth (a stone or masonry base at least 36" high) 2. Belt course(s) of masonry 3. A Green Wall. For the purposes of this subsection, a "Green Wall" is defined as a vertical trellis or cable/wire net systems installed as part of the building envelope system where climbing plants or cascading groundcovers are trained to cover these specially designed supporting structures (also commonly referred to as biowalls, vertical gardens, modular living walls). A Green Wall should be located in association with a raised planter at least 2 feet high and 3 feet wide integrated into the building design. A Green Wall shall be planted with climbing vines or plant materials sufficient to obscure or screen at least 60% of the wall surface within 3 years 4. Recesses at least 4 feet wide and 2 feet deep 5. Overhanging roof 6. Decorative tile work 7. Accent lighting 8. Artwork that does not contain a commercial message 9. Landscape planting bed at least 5 feet wide, or raised planter bed at least 2 feet high and three feet wide, in front of the wall. Such planting areas shall include plant materials sufficient to obscure or screen at least 60% of the wall surface within 3 years. The applicant shall utilize plant materials that complement the natural character of the Pacific Northwest; are adaptable to the climatic, topographic, and hydrologic characteristics of the site; and should include native species. 10. Seating (benches or ledges) 11. A feature not on the list that meets the intent, as approved by the City of Edmonds. Building Design — Massing and Articulation Intent. To reduce the apparent bulk of buildings and maintain a pedestrian scale, achieved through consistent building details and proportions on all sides to ensure a `Your -sided" quality to a building and upper -story features that improve the relationship between the upper stories and the street. 1. Buildings 30 feet in height and taller shall distinguish a "base" at ground level using articulation and materials such as stone, masonry, or decorative concrete. Packet Pg. 27 2.1.a Edmonds Civic Center Playfield Design Guidelines 9/11/2018 Page 4 of 6 2. The "top" of the building shall emphasize a distinct profile or outline with elements such as a projecting parapet, cornice, upper level step back or pitched roofline. 3. The "middle" of the building should be distinguished by a change in materials or color, windows, balconies, step backs and signage. 4. The design of the building shall provide consistent architectural details; colors and materials shall be consistent on all building walls. 5. Upper stories of buildings should maintain an expression line along the fagade-- such as a change of material, projections, or setbacks —to reduce the perceived building mass. Upper floor windows should be divided into individual units and not consist of a "ribbon" of glass. 6. Buildings shall include articulation along all facades Facade details and elements should be integral to the overall building design and should not appear added on. The purpose is not to create a regular rigid solution but rather to break up the mass in creative ways to add visual interest and to reduce a building's apparent scale. To provide interest and variation appropriately scaled to the building and all facades shall incorporate all of the following methods: a. Distinctive roof forms. b. Integrally textured, colored or patterned materials, such as stone or other masonry. c. Windows articulated with mullions, recessed windows, punched windows, etc., as well as application of complementary articulation around doorways and balconies. d. Landscaping: 1. Preferred: A Green Wall. For the purposes of this subsection, a "Green Wall" is defined as a vertical trellis or cable /wire net system installed as part of the building envelope system where climbing plants or cascading groundcovers are trained to cover these specially designed supporting structures (also commonly referred to as biowalls, vertical gardens, modular living walls). A Green Wall should be located in association with a raised planter at least 2 feet high and 3 feet wide integrated into the building design. A Green Wall shall be planted with climbing vines or plant materials sufficient to obscure or screen at least 60% of the wall surface within 3 years. 2. Alternative if the applicant can demonstrate to the satisfaction of the City of Edmonds that a Green Wall is not appropriate, alternative landscaping, architectural, or site design feature(s) of equal or better means of satisfying the intent may be allowed. 3. Architectural methods of breaking down the fagade, such as changes of plane or vertical fins. 4. A facade design that provides an alternative method for creating visual interest at the pedestrian level, reducing the perceived building mass, and meets the intent, may be approved by the City of Edmonds. Packet Pg. 28 2.1.a Edmonds Civic Center Playfield Design Guidelines 9/11/2018 Page 5 of 6 Building Design — Roofline and Roof Mounted Equipment Intent: To ensure that roof forms provide distinctive profiles and interest and to screen rooftop mechanical and communications equipment from the ground level of nearby streets and residential areas. To insure that a buildings mechanical equipment and/or other utility hardware is well screened from public view to enhance the buildings appearance. 1. Mechanical equipment shall be screened by an extended parapet wall or other roof form that is integrated with the architecture of the building. 2. No roofline ridge should run unbroken for more than 80 feet. 3. Mechanical equipment and/or other utility hardware for a building located on the roof, ground or wall mounted on the building, shall be screen from public view with architectural and/or landscape materials, or they shall be located so as not to be visible from any street, common areas, or public vantage point. 4. Screening shall be compatible with the building architecture (materials, color, and scale) and the surrounding landscaping. 5. When using landscaping to screen equipment, plants shall be arranged with a minimum of 50% coverage at time of installation and be able to grow to fully screen or shield the equipment within 3 years. 6. Screening with landscaping shall utilize plant materials that complement the natural character of the Pacific Northwest; are adaptable to the climatic, topographic, and hydrologic characteristics of the site; and that include native plant species whenever possible. Building Design — General Intent: To require additional features to be incorporated into higher density residential development when located adjacent to properties zoned for lower density single-family use in order to enhance the compatibility between uses. Mechanical equipment shall be screened by an extended parapet wall or other roof form that is integrated with the architecture of the building. 1. Incorporate at least four of the following architectural features: a. Recessed Entry b. Dormers c. Higher Quality Materials d. Distinctive Roof Forms e. Upper Level Balconies f. Gables g. Window Patterns h. A feature not on the list that meets the intent and is approved by the City of Edmonds. i. Flat blank walls shall not be visible from the street or common areas, or public vantage point. 2. Exterior cladding shall utilize masonry, concrete, and metal materials and color palette as approved by City of Edmonds for the use within the park. 3. Utilize sunscreens and metal canopies at entries and all glazed openings on south and west facades to match the character and materials of the restroom structures within the park. Packet Pg. 29 2.1.a Edmonds Civic Center Playfield Design Guidelines 9/11 /2018 Page 6 of 6 4. Integrate wood feature elements to match materials used at park shade structure. *Design Standards for the BD Zones remain applicable. Packet Pg. 30 PER-- .4;'�aoo* 15/A : VC"! i5�► it _ r'7100 ! C ■ -- AN ', 1 i` 'Aid, 71 1 11 MA W, 'l 1 -- _ - �. 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O q- c(� O A o W U ~ W W Y Z H H a x J N 0U v 3 L,J W as WQ X o AW OD o ¢¢ L.L O U) m D J C) Cn Z J =) N N 0 U 00 00 M OZ5= z o LL U) �� 0 z z Z 0 j MO W ='ao W 0 m �w0 z J ,�0 Z=zoo Q 'MoW� M 0 Q U) 0 U Drawing: A2. 1 Job Number: 22c-4396 Packet Pg. 35 2.1.b 116 -0" 111-4" 1q'-411 1�'-411 1�'-4" '-411 '-4" UPPER FL00R TAN 1 /8 I' = 11 -oil 0 z_ LU LU x Lu wLuw z nC > > LU d W W X w z W W LHXZZ O w w o LL m �r LU N Qj CDzga�� LL --ILPL =3 Z ccl O — m O E O U a) A.- C � Q N O A.- N (0 Q rn Q N N N -r-- y U N N -0 N 3 v NWT in .N m C:)a) 06 C) N 0 m o � c R IL c =a m tU C9 m _ d E t t� is r Q H O VMJ W D J U C) Z J =) O O N CU°° O oeS = = o O� (� U) — O >_z= z Q z o0oz� J O D m TUj i i Q 0 z OJ LL W Q z Z Z oc� Q 1 VJ � �W � 0 0 5) 0 U Drawing: A2.2 Job Number: 22c-4396 Packet Pg. 36 2.1.b RED LINE INDIGO 12,000 S.F. LEA BOUNDARY SITE FLAN 1" = 40'-0" GO:TAGTS OWNER: BOYS 4 GIRLS CLUB OF SNOHOMISH COUNTY 5225 BROADWAY AVENUE, SUITE 100 EVERETT, WA g8203 CONTACT: MR. BILL T50UKALAS (425) 258-2436 ARCHITECT: 2512 ARCHITECTURE 2812 GOLBY AVE. EVERETT, WA g8201 CONTACT: ADAM CLARK (425) 252-2155 G I TY OF EDMONDS 700 MAIN STREET EDMONDS, WA g8020 (425) -7-71 -0250 PROJECT CRITERIA: JURISDICTION: TAX PARCEL NUMBER: GIN OF EDMONDS 00454210000000 LE6AL DESCRIPTION: SECTION 24 TOWNSHIP 21 RAN6E 3 QUARTER SW CITY OF EDMONDS BLK 100 D-00 - ALL BLK 100 T6W VAC EDMONDS ST 4 5PRA6UE ST 4 ALLEY PER CITY OF ED ORD #4028 REC AFN 201606250542. APPLICABLE CODES: 2010 INTERNATIONAL 5UILDIN6 CODE 2018 INTERNATIONAL FIRE CODE 2010 NFPA 13 2018 NFPA 12 2018 INTERNATIONAL MECHANICAL CODE 2018 UNIFORM PLUMBING GORE ANSI A11-7.1-200q AGGE55I5LE AND USABLE 5UILPIN65 AND FACILITIES 2018 WA5HIN6TON STATE ENER6Y CODE ZONING: COMPREHENSIVE PLAN: LOT SIZE: MAX. HEI6HT: OCCUPANCY: CONSTRUCTION TYPE: EXI57IN6 5UILDIN6 AREA (TO BE DEMOLISHED) NEW BUILDIN6 AREA: P - PUBLIC USE PUBLIC USE 5. 01' 1 AGRES ( 110, 520s F ) 25' A-3 GYMNASIUM VB - TWO STORY (SPRIKLERED) FIRST FLOOR = 2,7g2 5.F. SECOND FLOOR = 2,716 5.F. TOTAL AREA = 5,505 5.F. 16, 4q3 S.F. w D z w BUILDIN6 5ITE PLAN 1" = 20'-0" NORTH 3LEN 5T-I SIT SITE ST 1 —1 rCI SPR4GL'E ST FD1,40NDS ST iz F Sr VIGIIT� GAF SCALE: NOT TO SCALE ri Z LLI LLI x LL I W H x O v LLI LLI z / /- LLI LLI z cx nc W X O 0 w kf) kf) I' W W(� LLI LLI a_li Q u- Q Q m �r LLI LL � LLI7) z LL LL � � ohm o cm�I LL O U) m J U U) J !2� - V 0-1 O (f)LL 00 J 1M z � � m w w z Q � E O U O i N � � � U O Q Q � � U >Q N N O > U) 00 U N °N° 00 > N N w Z ON U°° 0 =O cf) �~ — O z z= Oz< z O0 Q =z Q a z o0 �oN w r� w cn 0 U Drawing: Al. 1 Job Number: 22c-4396 Packet Pg. 37 a 2.1.c November 8, 2024 EDMONDS BOYS & GIRLS CLUB Council Meeting Summary from June 20, 2023, and July 05, 2023 This is a summary of responses to each of the Council members' requests and questions associated with the Schematic Design review meetings conducted on the dates above. An outline of responses from the Boys & Girls and the design team is also incorporated. The project was presented to the council by Bill Tsoukalas (Executive Director — Boys & Girls Clubs of Snohomish County) and Adam Clark (Architect and Owner of 2812 architecture). Council member requests and responses associated with the June 20 meeting are as follows: Councilmember Nand Why there were no ground level windows on the north side of the building? Response: The gym is located on the north side of the building. Windows are located up high on this fagade to provide natural light. Ground level windows would prevent a safety hazard to users of the gymnasium. Edmonds' downtown historic business district, she has seen new buildings replacing old buildings; the style people in Edmonds enjoy is the charming red brick fagade like the Carnegie Library. If the design is not completely tied to the brown brick, she suggested red brick may be a way to incorporate design elements of the previous building in the new building. Edmonds does a good job with historic, interpretive signs on buildings that have replaced historic buildings explaining to the public what was there before. That could be done to provide historical acknowledgement and design elements. People are used to seeing a large red brick building here; using red brick on the new building could make it look less brutalist and more vintage looking. Response: The existing club is indeed red, but it is not a brick building. We did consider brick in the overall design. The natural colors proposed for the CMU and other exterior elements are intended to help tie the building into the surrounding park and complement the surrounding neighborhood. We do hope to utilize some of the existing gym floor in the new club, which will provide a nod to the history. Interpretive signs and other elements related to the history of the site are also being planned to be incorporated into the overall project. Council President Pro Tern Olson • Passed on a comment emailed by a resident regarding whether retaining the fagade would be an option and building beyond it. She recalled the faQade would not be in same plane it was currently. Council President Pro Tern Olson recognized that suggestion may be impractical, but there are people with comments about the historical reference. 2812 Colby Avenue Everett WA 98201 (425)252-2153 www.2812architecture.com Packet Pg. 38 2.1.c Response: The existing building is in a different plane as noted above. It is also a wood framed building that is over 100 years old. To revitalize the existing structure would be as costly as building a new building due to the various upgrades required (seismic, energy, life safety etc.). The existing building is also not large enough to serve the current needs of the Boys & Girls Club as well as a new building. She noted in the west facing rendering does not reflect the garage doors shown in the elevation drawings. She asked if that was because the garage doors were the result of a recent suggestion. Response: The doors were added as an element requested by one of the council members. They do provide windows at street level as suggested in the city design standards and are shown in the current renderings. We are currently looking at other ways to meet the design standards. Recalled when that suggestion was made at a committee meeting, she loved the indoor/outdoor feel and opportunity to have the doors open. Now she wondered if the garage doors created a security issue with kids being able to run out onto the sidewalk. She asked if the doors were a good idea since the doors do not face the park and the area is not fenced. Response: In the existing building, kids are inside and outside but always supervised. If the doors were up, there would be adequate staffing to ensure kids were not wandering off and/or individuals did not wander in from the street. See response above regarding the doors. Councilmember Paine • Referred to the building exceeding the height limit and asked if the gym could be countersunk into the ground, so height was not an issue. Response: The building height has been reduced to 30' (25' is the height limit in this zoning designation) Countersinking the building is a possibility, but there are serious ground water issues in the park which was why the gym is proposed to be at sidewalk level. • Asked if the building was on the Edmonds historic registry or has it just existed for 100 years. Response: It is an iconic building, but it is not on the registry. • Solar panels are essential, not so much design but as an implementation feature; they are good for the environment and the community and would set a good example. Response: Solar panels are planned to be incorporated into the project. • When will the facility be completed? Response: Construction will take 10 -12 months. Construction will start after the permit process is completed which is anticipated to occur in Spring of 2026. The facility has to go through design review and a conditional use hearing prior to applying for building permits. These two processes are anticipated to be completed by Spring of 2025. Once completed, we will submit for building permits with the anticipation of being approved in the Spring of 2026. • Asked if the plan is to have the building at the edge of the property line and how wide the sidewalk would be. Response: The sidewalk width will remain unchanged from its current width. The club portion of the building will be up to the property line, the gym is set back about two feet. Councilmember Teitzel 2812 Colby Avenue Everett WA 98201 (425)252-2153 www.2812architecture.com Packet Pg. 39 2.1.c The HPC looked at designating the BGC building as historic, but it did not qualify because it has been extensively remodeled. It is not historic from that standpoint although it is treasured in the community. With regard to a question Council President Pro Tern Olson asked via email, he asked if having the western wall of the building at the edge of the sidewalk would comply with the lot coverage restrictions. He recalled a certain amount of impervious surface was allowed and asked if allowing the west wall to be at the edge of the sidewalk within the existing setback would still meet the lot coverage requirements. Response: (Ms. Fesler) The northwest corner is exempt from grant requirements related to imperious surface which is why the tennis, petanque and basketball courts and the BGC are in that corner. Councilmember Buckshnis • She liked the idea of utilizing the old fagade, recalling discussions about putting something on the north wall facing the park such as a living wall. Response: The north wall is a perfect place to dress up the building; the five panels could include scenes, images of the original building, etc. The Boys & Girls Club is open to adding art or historical displays on this side of the building Councilmember Chen • Commented that the new Boys & Girls Club has been a long time coming and it was exciting to see something happening. He asked if the building will have community meeting space for use by other nonprofits. Response: The space will be available for use outside the BGC's hours; the ground floor is an open floor plan which could provide an opportunity for groups to hold meetings and there are restrooms and a kitchen on that floor. The gym will also be available for public use outside of times when B & G programs are being conducted. • Observed the building appears to be a brick structure and asked if the design would be earthquake resistant. Response: The CMU block is a fagade on the outside of the structure; the main structure will be wood framing with steel cross -bracing. The building will be required to meet all code -related seismic regulations. Council member requests and responses associated with the July 05 meeting are as follows: Council President Pro Tern Olson COUNCIL PRESIDENT PRO TEM OLSON MOVED, SECONDED BY COUNCILMEMBER TEITZEL, TO APPROVE THE DESIGN AS IT RELATES TO THE PARK WITH CAVEATS, POINTING OUT DISCREPANCIES WITH THE EDMONDS CIVIC PARK PLAYFIELD DESIGN GUIDELINES ON PAGE 3, SECTION 1, MASSING AND ARTICULATION, AND SECTION 5, ROOFLINE AND ROOF MOUNTED EQUIPMENT. Identified at least two caveats and possibly other council members could add to the lists of caveats; there are items in the Civic Field Park Playfield Design Guidelines that this design does not meet. She was unsure the original author of the design guidelines, and if the ADB, staff or planning board via the public hearing process decided to deviate from the design guidelines, she would not personally take offense, but she did not support council approving a design that does not meet elements of the design guidelines. Her motion to approve the design as it relates to the park with those two specific caveats 2812 Colby Avenue Everett WA 98201 (425)252-2153 www.2812architecture.com Packet Pg. 40 2.1.c where it does not meet design guidelines allows the BGC to continue to move forward and gives a heads up to the entities that receive this approval that those are two specific areas the council highlighted. Response: The Design Review Board will review compliance with the Civic Field Park Playfield Design Guidelines. The overall design requires the approval of the board. Commented an indoor graffiti wall was a good, creative solution as was a meditation space. She suggested the petanque courts, when not in use, would be a good place for meditation. With regard to having this level of design reviewed by the ADB, she wondered if the ADB would be willing to have an informal conversation to provide early input to the BGC which could help expedite later stages. She summarized that might be of value if staff could make it happen. Response: The design team and B & G are open to early dialogue with the DRB, but we have not yet had an opportunity to do this. Councilmember Paine Commented her children attended the BGC and she agreed it was difficult to reach the upper floor. The building has been well loved by the community and has served its purpose. She appreciated that the building would be LEED which guarantees some sustainability of materials, etc., which was very appropriate. She liked the idea of collaborating with the ECA to have artwork on both buildings that pulls them together visually. In her mind, solar panels were a giant plus. She agreed compliance with the current code was paramount. Building height is an area of focus and she agreed the guidelines do need to be followed. She summarized it was an exciting project that will be refined by other processes. Response: The Design Review Board will review compliance with the Civic Field Park Playfield Design Guidelines. The overall design requires the approval of the board. Referred to the Civic Park Design Guidelines that were referenced and asked if they were guidelines or requirements. Ms. Feser answered they are guidelines, strong suggestions, ideas, concepts or practices that were envisioned to help the building fit aesthetically into the park. The guidelines were developed by Walker Macy during the park master planning process to create guardrails for the BGC if their building was renovated or rebuilt to help the structure fit within the park. Mr. Tsoukalas commented that the guidelines and the design were not developed in parallel timeframes. When Walker Macy was going through the design phase, the BGC was still contemplating whether they would stay at Civic Park. If the guidelines and the BGC design had been developed on simultaneous timelines, the guidelines may have been different. Response: The Design Review Board will review compliance with the Civic Field Park Playfield Design Guidelines. The overall design requires the approval of the board. Councilmember Buckshnis Commented on the Civic Field Park Playfield Design Guidelines were developed in 2018 when there was not a clear idea of the BGC's plans so she understood why Walker Macy was very conservative in the design guidelines document. With regard to height, she referred to the variance process such as was granted for the Waterfront Center. She agreed the guidelines were important, but the gym could not be 2' feet short. She referred to a citizen's recommendation that this goes to the Architectural Design Board (ADB). 2812 Colby Avenue Everett WA 98201 (425)252-2153 www.2812architecture.com Packet Pg. 41 2.1.c Response: The Design Review Board will review compliance with the Civic Field Park Playfield Design Guidelines. The overall design requires the approval of the board. The building height issue will be addressed as part of the Conditional Use Permit process. It should be noted that the minimum clear interior height for a volleyball court is 23'. With structure and roof slope, the 25' maximum zoning code height will need to be exceeded in order to have a regulation height gymnasium. Councilmember Nand Thanked the BGC for incorporating the feedback from the public hearing and from the city council. Noting there is a significant footprint on top of the gymnasium which may be reduced by the placement of solar panels, she asked if there was an opportunity for rooftop access such as a meditation space, community garden, etc. With activities geared toward children, there is an understanding that behavioral issues can be addressed by children having access to a calming environment and places to de - stimulate themselves. She asked if that could be incorporated into this design or would it be too challenging. Response: The option for a green roof was considered, but the utilization of solar is more important to stakeholders. Allowing people on the rooftop presents additional challenges because two exits would be required as well as elevator access to the roof which would extend the building height an additional 8-10 feet. There is also a safety concern with human use of the roof. Councilmember Chen Recalled the graffiti in the $22M Civic Park and asked how that could be prevented on this building coupled with keeping kids safe. He suggested the addition of a fence or other ways to protect the building and also keep kids safe. He thanked the BGC for listening to the public comments about solar panels and agreed that would be a good feature. Response: Other BGC projects include an indoor graffiti wall where kids can express themselves without damaging the building. Councilmember Chen was hopeful those who were doing the graffiti would come inside and use the graffiti wall. It was also suggested that adding a graffiti coating to the building to make it easier to clean off. Fencing would reduce the overall square footage of the building due to current site constraints. Councilmember Teitzel Commented looking from the west, it appears the roof is entirely flat. Councilmember Teitzel relayed his understanding the BGC will be asking for a 5-foot variance to accommodate the height of the gym. He asked about additional height if solar panels are added to the roof. Response: The roof is sloped behind the parapet to drain water to the north and south. There is a parapet that varies in height between 8" and 24" that surrounds the gym portion of the roof. Solar panels will add an additional 12"-18" above the roof surface. They would be screened by the parapet. It should be noted that the minimum clear interior height for a volleyball court is 23'. With structure and roof slope, the 25' maximum zoning code height will need to be exceeded in order to have a regulation height gymnasium. 2812 Colby Avenue Everett WA 98201 (425)252-2153 www.2812architecture.com Packet Pg. 42 2.1.d Packet Pg. 43 2.2 City Council Agenda Item Meeting Date: 11/19/2024 Yost Park Update Staff Lead: Angie Feser Department: Parks, Recreation & Human Services Preparer: Scott Passey Background/History N/A Staff Recommendation Information only. Narrative Staff will provide a status update on Yost Park. Packet Pg. 44 2.3 City Council Agenda Item Meeting Date: 11/19/2024 Int'I District Banner Update Staff Lead: Frances Chapin Department: Arts Commission Preparer: Laurie Rose Background/History Starting in 2005, Economic Development, Engineering and Cultural Services worked together to apply for a federal Transportation Enhancements grant for the Edmonds International District (238"-224th) on SR 99, receiving the first of three awards in 2006. The project goals were to strengthen the International District identity through improving visual identity/aesthetics and pedestrian comfort with new gateway elements including new artist made pedestrian level lighting, new district identification signage on custom light poles, resurfacing of the island at 76th and the addition of a solar lit sculptural piece on the island as part of the gateway. With additional funding awarded in 2008 - 2011 the project was expanded to 14 custom light poles with 7 artist enhanced pedestrian lights. The artist, Pam Beyette, selected through a competitive process and approved by City Council in 2008, designed pedestrian level lighting lanterns called "Eight Paths of Light". In addition to the custom red poles, and artwork lanterns, the project included a graphic district identification used on signage and banners that were added to the light poles. The project was completed and dedicated in early 2014. The temporary fiber banners, approximately 18" x 120", were taken down about a year later. The original project intended to replace the fiber banners when worn, but replacement with standard temporary banner materials was impractical and hazardous because of the wear from windy conditions. The current project is to replace those banners with permanent artist designed cut metal banners.The Arts Commission identified permanent replacement banners as a placemaking opportunity to add art elements in the Hwy 99 corridor and approved use of additional funds from the municipal arts fund for this purpose. City Council approved the artist RFQ and funding for the project in 2023. To ensure consistency of fabrication and installation meeting City defined standards the banners are designed by artists but fabrication and installation will be contracted out by the City as done with gateway signage projects. Staff Recommendation Provide update at full Council showing recommended final banner designs and placement for approval. Narrative Twenty-one artists responded to the City Council approved RFQ for design work and 7 were selected to create concepts. After review of 21 concepts, 5 artists were selected to create final designs. The selection panel included two City Councilmembers (Susan Paine and Jenna Nand), two Arts Commissioners (Richard Chung and Katie Leute) and a member of the International District community (Robert Ha). Eight final designs were selected and developed for fabrication. The next phase of the Packet Pg. 45 2.3 project is for the City to proceed with fabrication of the artist designed banners and contract for installation. Designs to be fabricated in cut metal will be viewable from both sides and the range of artist themes includes reflecting the cultural and environmental contexts of the Edmonds International District. The designs shown are by 5 artists, with 6 of the designs repeated twice and two designs used on one banner each, for a total of 14 banners. The multiple ethnic and cultural traditions of the International District are reflected in the various designs, from textile to print patterns, Hispanic to Japanese and Filipino, with additional references to the nearby habitats of lake and forest. The five artists are Romson Regarde Bustillo, Rebecca Elaynow, Stuart Nakamura, June Sekiguchi, and Gabrielle Wildheart. Attachments: Hwy. 99 Banner Designs Hwy. 99 Banner Locations Packet Pg. 46 vm 1 ., 115 k flq, 1 � 1 pa 99 Banner Graphics- Panel Collection- 14 C Group A #1-4 B #5-7 C #8.11 Pt00 Ot it LALJ1 EALJ1 L► 1 L 1 1 Nal �`�� Rom♦ - - �� 99 Banner Graphics- P 2.4 City Council Agenda Item Meeting Date: 11/19/2024 Creative District Gateway Art Project Staff Lead: Frances Chapin Department: Arts Commission Preparer: Laurie Rose Edmonds was designated as the first State certified Creative District at the end of 2018 by the Washington State Arts Commission (ArtsWA). ArtsWA provides grants to the Creative Districts to advance arts and culture in their districts. In 2024, Edmonds received a grant to provide a visual art installation as a key placemaking element in Anway Park, a gateway to the Creative District located by the ferry holding lanes. The funding for the state grant is matched by a donation from the Edmonds Arts Festival Foundation and the project must be completed at the end of June 2025. The goal of the project is to draw in visitors with an engaging artwork installation that reflects community creativity and promotes Edmonds as a vibrant hub for cultural activities and creative businesses. The location next to the busy ferry lanes provides an opportunity for a creative visual installation that will bring focus to the arts and cultural elements integral to Edmonds Creative District. In addition to the artwork, informational elements about the Creative District will be located in the park. The project supports three main goals of the Edmonds Creative District: to enhance the creative identity of Edmonds; enhance creative experience and placemaking; and support retention and expansion of a strong creative sector through engagement in art. The Gateway Art Project will activate the space and provide a welcoming focal point for visitors who plan to return to the Creative District. In order to allow adequate time for the selected artist to fabricate and install the artwork, place review of the artist proposal recommended by Edmonds Arts Commission on the agenda December 10 for a public hearing and subsequent consideration of approval of the contract with the selected artist. Due to the terms of the grant which require completion of the project by the end of June 2025, the timeline for the project is very tight. A budget of $115,000 is available for the final design, fabrication and installation of the artwork by the selected artist/artist team. The budget includes, but is not limited to: artist fees, materials, fabrication, storage, delivery, foundation design/engineering, site preparation and foundation construction, insurance, travel, and sales tax. The selected artist/artist team will work closely with City staff on integrating the proposed artwork into the park property and landscape. The artist is being selected through an RFQ process. The selection panel includes members representing the Edmonds City Council, Edmonds Arts Commission, Edmonds Arts Festival Foundation, and Edmonds Creative District, plus a professional public artist who is a resident of Edmonds. The selection panel reviewed 21 submissions and selected three to develop concept proposals for the site. The three finalists are presenting their concept proposals to the selection panel at an in -person public meeting starting at 4:30 pm on November 22, 2024. Following the public meeting and review of public comments, the selection panel will reconvene to review the finalists' concept proposals and select one artist for the commission. Packet Pg. 49 2.4 The selected artist will be required to present their proposal to the Edmonds City Council for approval during a virtual or in -person Public Hearing followed by City Council consideration of approval of the contract with the artist. Packet Pg. 50 2.5 City Council Agenda Item Meeting Date: 11/19/2024 Presentation of an Interlocal Agreement with Snohomish County and Mountlake Terrace, to renew an on -going water quality monitoring program for Lake Ballinger Staff Lead: Rob English Department: Engineering Preparer: Emiko Rodarte Background/History On June 11, 2019, staff presented this item to the Parks & Public Works committee and it was forwarded to the June 18th consent agenda for City Council approval. On June 18, 2018 City Council approved this item on the consent agenda. Staff Recommendation Forward item to the consent agenda for approval. Narrative This is a renewal of an existing ILA that will expire on December 31, 2024. Through staff work with the City of Mountlake Terrace, Snohomish County, and Lake Ballinger residents, a desire for continuous and on -going monitoring of the water quality health within Lake Ballinger was identified by both residents and staff. Employees and residents have worked to identify the most appropriate method of establishing a long-term program and have reached the conclusion again that a volunteer -based monitoring program which is overseen by trained technical staff from Snohomish County would be the most appropriate mechanism to monitor lake water quality. The 'Lakewise Program' administered through Snohomish County, manages several lakes throughout the County and has staff who are technically trained in lake water quality data gathering and reporting. The proposed program utilizes the County's technical staff to properly train lake residents in methods of gathering samples and following required chain of custody for date validation. Snohomish County staff will review the water quality data and provide a full report annually, along with a quick summary 'water quality report card' for the lake. The information and data will also be publicly available on the County water quality database webpage. Through the previous iteration of the ILA, volunteer residents have been identified, trained, and have filled their designated role of Water Quality Monitors. These volunteers will continue in their role as the Lake Ballinger Water Quality Monitors. Staff hopes to also add more volunteers as the program continues. Packet Pg. 51 2.5 The City of Edmonds will share all costs of the program equally with the City of Mountlake Terrace. Edmonds direct costs for 2025 are limited to $3,012.50, which is covered by the annual stormwater budget for Lake Ballinger related work that is part of our NPDES permit. Future years will require the County to provide cost estimates for written City approval prior to commencing work. At the same time, by the agreement, it also includes a 'max cost' clause so that the program cannot cost more than $50,000, with the City's share being $25,000 before its expiration on December 31, 2029. These costs are within currently projected annual budget amounts in the stormwater utility fund and would not require additional funding to support. At the end of this ILA, on December 31, 2029, the City can consider the option to continue the program or allow it to expire. In addition, the agreement does include several potential additional services which are currently outside of staff technical abilities, and which the City can request in writing when needed. The ability to tap into those services, gives staff and residents better flexibility to respond to concerns, algae blooms, or other issues which could arise quickly as lake conditions change. Attachments: Attachment 1 - ILA Packet Pg. 52 2.5.a INTERGOVERNMENTAL SERVICES AGREEMENT FOR LAKE MANAGEMENT AND WATER QUALITY SERVICES This AGREEMENT FOR LAKE MANAGEMENT AND WATER QUALITY SERVICES (this "Agreement") is made and entered by and between the CITY OF EDMONDS, a Washington municipal corporation, the CITY OF MOUNTLAKE TERRACE, a Washington municipal corporation, (together the "Cities"), and SNOHOMISH COUNTY, a political subdivision of the State of Washington (the "County"). RECITALS A. Lake Ballinger lies within the boundaries of the City of Edmonds and the City of Mountlake Terrace. B. Lake Ballinger is an important water resource for both the City of Edmonds and the City of Mountlake Terrace which provides opportunities for swimming, boating, fishing and aesthetic enjoyment. C. The Cities and the County recognize the importance of performing certain water quality monitoring services at Lake Ballinger. D. The Cities do not have the staff or resources to monitor water quality at Lake Ballinger. E. The Cities desire to retain the services of the County to perform certain water quality monitoring at Lake Ballinger and the County has the staff and resources to perform said services, all under the terms and conditions described in this Agreement. AGREEMENT NOW, THEREFORE, in consideration of the respective agreements set forth below and for other good and valuable consideration, the receipt and sufficiency of which are hereby acknowledged, the Cities and the County agree as follows: 1. TERM a The term of this Agreement (the "Term") shall commence upon execution (the J "Commencement Date") and shall expire on December 31, 2029 (the "Expiration Date"); provided, however, that both the Cities and the County's obligations after December 31, 2024, are contingent upon local legislative appropriation of the necessary funds for this specific purpose in accordance with applicable law. r 2. CATEGORIES OF SERVICES PERFORMED BY COUNTY AND RIGHT OF ENTRY During the Term of this Agreement, the County shall perform for the Cities the following services (collectively, the "Services"): (i) lake monitoring services, as more fully described in Section 3 below (the "Lake Monitoring Services"); and (ii) any additional services related to water quality or quantity issues that may be mutually agreed upon in writing by the AGREEMENT FOR LAKE MANAGEMENT pg. I AND WATER QUALITY SERVICES Packet Pg. 53 2.5.a Cities and the County pursuant to Section 4 below (the "Additional Services"). The Services shall be performed in a good and professional manner, consistent with accepted industry standards and in accordance with both the substantive and procedural requirements specified in this Agreement. The Cities shall provide the County with reasonable access to any location where Services are to be provided. If the Cities are unable to provide such access, the County shall have no obligation to perform any Services under this Agreement unless and until the Cities provides reasonable access. 3. LAKE MONITORING SERVICES 3.1. Lake Water Quality Monitoring Beginning in 2025, the County, through the assistance of trained citizen volunteers, will perform basic water quality monitoring of Lake Ballinger two times per month from May through October of each contract year depending on volunteer availability. Basic monitoring will be conducted in the deepest portion of the lake and will consist of measurements of water clarity (Secchi depth) and near -surface water temperature, as well as observations of water color and algae abundance. Water column profiles for temperature and dissolved oxygen will also be taken as a part of basic monitoring per availability of a dissolved oxygen/temperature meter (meter). If the Cities provide a meter, the profiles will be included every year as part of basic monitoring. The County will provide basic maintenance of a Cities -provided meter, but will not be responsible for repairs. If the Cities do not provide a meter, then Lake Ballinger volunteers will be provided with a County meter at least every third year. The County will be responsible for all maintenance and repairs of County -provided instruments. The County will also provide more detailed monitoring of Lake Ballinger from June through September of each contract year including in months when a volunteer is not available. The detailed monitoring will be conducted in the deepest portion of the lake and will include water samples for laboratory analysis. The sampling depths and associated parameters to be analyzed are as follows: Parameter 1 meter 5 meter 15 meter Total Phosphorus TP X X X Soluble reactive phosphorus SRP X X X Total Persulfate Nitrogen TPN X Chlorophyll a X All monitoring will be conducted in accordance with the "Quality Assurance Monitoring Plan for the Snohomish County Lake Management Program" as updated. Citizen volunteers will be trained by the County in proper monitoring techniques and will be supervised by County staff. Water samples will be analyzed by a Washington State Department AGREEMENT FOR LAKE MANAGEMENT pg. 2 AND WATER QUALITY SERVICES Packet Pg. 54 2.5.a of Ecology -accredited laboratory. The laboratory results are sent to the County in electronic format. The cost for all such services shall be as set forth in Section 5 below. 3.2. Reporting of Water Quality Data All data collected from Lake Ballinger will be summarized annually in two written reports that will be made available to the Cities and the general public. The first is a water quality report card, a short summary for the public of lake health. The second report is a more detailed report with a summary of all data collected through the monitoring program. The reports for a given calendar year shall be delivered to the Cities on or before March 15 after the close of the calendar year at issue. The reports will also be made available on Snohomish County's website unless otherwise directed by the Cities. The raw water quality data shall be available on the County's online water quality database following completion of quality assurance checks. Copies of the raw data shall also be provided to the Cities upon request. If requested by the Cities, County staff will also provide one annual public presentation on the condition of water quality in Lake Ballinger. The County will also provide comments on documents, reports, or grant proposals related to lake water quality that may be developed by the Cities for the management of Lake Ballinger. 3.3. Technical Assistance County staff will be available to respond to questions from the public and the Cities about the water quality conditions in Lake Ballinger via email or phone. The County will also provide plant identification services as requested. The County will refer all other inquiries, including those regarding lake management actions, to the Cities. 4. ADDITIONAL SERVICES 4.1. Desire for Additional Services The County and the Cities anticipate that, during the Term of this Agreement, the Cities a may desire for the County to provide additional water quality monitoring or related services (the "Additional Services") to the Cities, and the County may be willing to provide some or all a. of such Additional Services. By way of example, and not by way of limitation, the parties a anticipate Additional Services could involve any one or more of the following: (i) sampling J one or more water quality monitoring sites for additional or different water quality parameters at Lake Ballinger and/or its tributaries; (ii) monitoring of blooms of potentially toxic algae; (iii) commencement of other activities as requested or as mutually agreed that enhance the Cities' water quality program. a 4.2. Request for Additional Services Subject to the total cost limitation described in Section 5.4 below, at any time and from time to time during the Term of this Agreement, the Cities may request that the County perform one or more Additional Services. The Cities may request that such Additional Services be performed a specific number of times, or on an ongoing basis, for a single calendar year, or for multiple calendar years. The County may, but need not, agree to perform some or all of the AGREEMENT FOR LAKE MANAGEMENT pg. 3 AND WATER QUALITY SERVICES Packet Pg. 55 2.5.a requested Additional Services under terms and conditions acceptable to both parties. Any agreement to add Additional Services must be memorialized in writing and signed by the City Manager of Mountlake Terrace or the Mayor of Edmonds and the County's Director (as those terms are defined in Section 4.3 below). 4.3. Authority to Request and Approve Additional Services Subject to the total cost limitation described in Section 5.4 below, the City Manager of Mountlake Terrace and the Mayor of Edmonds shall have the authority to request, authorize and memorialize Additional Services on behalf of the Cities without the need to obtain additional approvals from the City Council of Edmonds or the Mayor of Mountlake Terrace. Subject to the total cost limitation described in Section 5.4 below, the Director of the County's Department of Conservation and Natural Resources (the "County's Director") shall have the authority to agree to perform and memorialize Additional Services on behalf of the County without the need to obtain additional approvals from the County Executive. 5. COMPENSATION 5.1. Cost of Lake Monitoring Services in 2025 The Cities shall pay the County $6,025 in 2025 for the cost of Lake Monitoring Services. The City of Edmonds shall pay 50% of the costs ($3,012.50 in 2025). The City of Mountlake Terrace shall pay 50% of the costs ($3,012.50 in 2025). The Cities will be notified of costs for subsequent years as noted in Section 5.3 below. 5.2. Cost of Additional Services Unless specifically otherwise provided herein, the County shall be compensated for all - Additional Services on a time and materials basis. The County's time shall be calculated based o on the base hourly rate of each of the individual County Personnel (as that term is defined in Section 6 below) performing the Services. The actual reasonable cost of benefits shall be added to the base hourly rate of all County Personnel. The time billed to the Cities shall consist only L of personnel time that is actually spent and is reasonably required to perform the Services. The a Cities shall reimburse the County for all reasonable costs actually incurred by the County in J connection with performing the Services, including, but not limited to, laboratory fees. The - Cities shall reimburse the County for the reasonable costs of materials and/or equipment the County uses in connection with performing any one or more of the Additional Services. Reimbursement for Additional Services will be split between the Cities, with each bearing responsibility for 50% of the costs incurred. r 5.3. Cost of Services in Following Years Beginning in 2025, on or before October 1 st of each year, the County shall provide the Cities with a written estimate for the total cost of performing the Services for the following calendar year. The Cities must provide written acceptance of the cost estimate to the County on or before November 1 of the year that the County's cost estimate is provided. This AGREEMENT FOR LAKE MANAGEMENT pg. 4 AND WATER QUALITY SERVICES Packet Pg. 56 2.5.a Agreement shall terminate on December 31 st of the year that the County's cost estimate is provided to the Cities if either: (1) one or both of the Cities do not provide written acceptance of the County's cost estimate; or (2) one or both of the Cities rejects the County's cost estimate. 5.4. Total Services Not to Exceed $50,000 Maximum Cost Notwithstanding anything to the contrary contained elsewhere in this Agreement, the total cumulative cost of all Services performed by the County under this Agreement shall not exceed Fifty Thousand Dollars ($50,000.00) (the "Maximum Cost"). Accordingly, if any proposal to add one or more Additional Services to this Agreement would cause the total cost of Services to exceed the Maximum Cost, the Cities shall not submit a request for such Additional Services to the County. Should the County receive a request for Additional Services that would cause the total cost of all Services to exceed the Maximum Cost, the County shall reject said request. 5.5. Invoicing and Payment The County shall submit one invoice to the Cities by October 1 st of each year itemizing the cost of providing the Lake Monitoring Services for the current calendar year. The County shall also submit one or more invoices each year to the Cities for any Additional Services agreed to by the County and the Cities. Invoices for Additional Services shall describe in reasonable detail the cost of time and materials spent by the County on Additional Services during the period at issue. The Cities shall pay each invoice within thirty (30) days of receiving same. Invoices shall be emailed to the following addresses: City of Edmonds City of Mountlake Terrace Attn: Patrick Johnson Attn: Laura Reed 121 5th Avenue N 6100 219th Street SW, Suite 200 Edmonds, WA 98020 Mountlake Terrace, WA 98043 Pat.Johnson@edmondswa.gov LReed@mltwa.gov 6. INDEPENDENT CONTRACTOR All work performed by the County pursuant to this Agreement shall be performed by the County as an independent contractor and not as an agent or employee of the Cities. The County shall furnish, employ, and have exclusive control of all persons (including, but not limited to volunteers) to be engaged in performing the County's obligations under this Agreement (collectively, the "County Personnel") and shall prescribe and control the means and methods of performing such obligations by providing adequate and proper supervision. The County Personnel shall for all purposes be solely the employees, agents or volunteers of the County and shall not be deemed to be employees or agents of the Cities for any purpose whatsoever. With respect to the County Personnel, the County shall be solely responsible for compliance with all rules, laws, and regulations relating to employment of labor, hours of labor, working conditions, payment of wages and payment of taxes, such as employment, Social Security, and other payroll taxes including applicable contributions from the County Personnel when required by law. AGREEMENT FOR LAKE MANAGEMENT pg. 5 AND WATER QUALITY SERVICES a J Packet Pg. 57 2.5.a 7. TERMINATION FOR CONVENIENCE This Agreement may be terminated by either party for any reason or for no reason, by giving thirty (30) days advance written notice of termination to the other parties. Any termination notice delivered pursuant to this Section 7 shall specify the date on which the Agreement will terminate. If this Agreement is terminated pursuant to this Section 7, the County shall continue performing Services through the date of termination. The Cities shall compensate the County for all Services performed by the County through the date of termination on a pro -rated basis. The Cities' obligation to make such final payment to the County shall survive the termination of this Agreement. 8. COMPLIANCE WITH LAWS The Cities and the County shall at all times exercise their rights and perform their respective obligations under this Agreement in full compliance with all applicable laws, ordinances, rules and regulations of any public authority having jurisdiction. 9. INDEMNIFICATION Each party to this Agreement shall indemnify, defend and hold the other party and its agents, employees and contractors harmless from and against any and all costs, liabilities, suits, losses, damages, claims, expenses, penalties or charges, including, without limitation, reasonable attorneys' fees and disbursements, that the other party may incur or pay out by reason of. (i) any accidents, damages or injuries to persons or property occurring during the Term of this Agreement, but only to the extent the same are caused by any negligent or wrongful act of the indemnifying party; or (ii) any breach or Default (as such term is defined in Section 10 below) of the indemnifying party under this Agreement. The provisions of this Section 9 shall survive the expiration or earlier termination of this Agreement. 10. DEFAULT AND REMEDIES If either party to this Agreement fails to perform any act or obligation required to beco performed by it hereunder, the party to whom such performance was due shall deliver written N notice of such failure to the non -performing party. The non -performing party shall have thirty a (30) days after its receipt of such notice in which to correct its failure to perform the act or a obligation at issue, after which time it shall be in default ("Default") under this Agreement; provided, however, that if the non-performance is of a type that could not reasonably be cured within said thirty (30) day period, then the non -performing party shall not be in Default if it c commences cure within said thirty (30) day period and thereafter diligently pursues cure to E completion. In the event of a parry's Default under this Agreement, then after giving notice CU and an opportunity to cure, the party to whom the performance was due shall have the right to a exercise any or all rights and remedies available to it at law or in equity. 11. PUBLIC DISCLOSURE LAWS The Cities and the County each acknowledge, agree and understand that the other parties are public agencies subject to certain disclosure laws, including, but not limited to Washington's Public Records Act, chapter 42.56 RCW. Each party understands that records AGREEMENT FOR LAKE MANAGEMENT pg. 6 AND WATER QUALITY SERVICES Packet Pg. 58 2.5.a related to this Agreement and the County's performance of Services under this Agreement may be subject to disclosure pursuant to the Public Records Act or other similar law. Neither the Cities nor the County anticipate that the performance of any party's obligations under this Agreement will involve any confidential or proprietary information. 12. NOTICES Each notice, demand, request, consent, approval, disapproval, designation or other communication that is permitted or required to be given by one parry to the other parry under this Agreement shall be in writing and shall be given or made or communicated by: (i) United States registered or certified mail, postage prepaid, return receipt requested; (ii) any nationally recognized overnight carrier or express mail service (such as FedEx or DHL) that provides receipts to indicate delivery; (iii) by personal delivery; or (iv) by facsimile (with proof of successful transmission); (v) or by email (with a request for and receipt of proof of successful transmission). All such communications shall be addressed to the appropriate Administrator of this Agreement (or their designee) as follows: To the City of Edmonds: ATTN: Patrick Johnson 121 5t' Avenue N Edmonds, WA 98020 Telephone: 425-771-0220 x1322 Email: patJohnsonkedmondswa.gov To the County: Snohomish County ATTN: Surface Water Management 3000 Rockefeller Avenue M/S 303 Everett, Washington 98201 Telephone: (425) 388-3204 Email: Marisa Burghdoff To the City of Mountlake Terrace. ATTN: Laura Reed 6100 219t1i Street SW, Suite 200 Mountlake Terrace, WA 98043 Telephone: 425-744-6226 Email: lreedkci.mlt.wa.us All notices shall be deemed given on the day each such notice is personally delivered, transmitted by facsimile (with evidence of receipt), or delivered by overnight courier service, or on the third business day following the day such notice is mailed if mailed in accordance with this Section. 13. MISCELLANEOUS 13.1. Entire Agreement This Agreement constitutes the entire agreement between the parties regarding the subject matter hereof and supersedes any and all prior oral or written agreements between the parties regarding the subject matter contained herein. This Agreement may not be modified or amended in any manner except by a written document signed by the party against whom such modification is sought to be enforced. AGREEMENT FOR LAKE MANAGEMENT pg. 7 AND WATER QUALITY SERVICES a J Packet Pg. 59 2.5.a 13.2. Interpretation This Agreement shall be governed by and enforced in accordance with the laws of the State of Washington. This Agreement and each of the terms and provisions of it are deemed to have been explicitly negotiated by the parties, and the language in all parts of this Agreement shall, in all cases, be construed according to its fair meaning and not strictly for or against either of the parties hereto. The captions and headings in this Agreement are used only for convenience and are not intended to affect the interpretation of the provisions of this Agreement. This Agreement shall be construed so that wherever applicable the use of the singular number shall include the plural number, and vice versa, and the use of any gender shall be applicable to all genders. 13.3. Severability If any provision of this Agreement or the application thereof to any person or circumstance shall, for any reason and to any extent, be found invalid or unenforceable, the remainder of this Agreement and the application of that provision to other persons or circumstances shall not be affected thereby, but shall instead continue in full force and effect, to the extent permitted by law. 13.4. No Waiver A parry's forbearance or delay in exercising any right or remedy with respect to a Default by another party under this Agreement shall not constitute a waiver of the Default at issue. Nor shall a waiver by a party of any particular Default constitute a waiver of any other Default or any similar future Default. 13.5. Assignment This Agreement shall not be assigned, either in whole or in part, by the parties hereto. Any attempt to assign this Agreement in violation of the preceding sentence shall be null and void and shall constitute a Default under this Agreement. 13.6. Warranty of Authority Each of the signatories hereto warrants and represents that he or she is competent and authorized to enter into this Agreement on behalf of the party for whom he or she purports to sign this Agreement. c 13.7. No Joint Venture Nothing contained in this Agreement shall be construed as creating any type or manner of partnership, joint venture or other joint enterprise between the parties. AGREEMENT FOR LAKE MANAGEMENT Po. 8 AND WATER QUALITY SERVICES Packet Pg. 60 2.5.a 13.8. No Third Party Beneficiaries This Agreement is made and entered into for the sole benefit of the Cities and the County. No third party shall be deemed to have any rights under this Agreement; there are no third parry beneficiaries to this Agreement. 13.9. Execution in Counterparts This Agreement may be executed in two or more counterparts, each of which shall constitute an original and all of which shall constitute one and the same agreement. IN WITNESS WHEREOF, the Cities and the County have executed this Agreement as of the date of the last party to sign. CITY OF EDMONDS: CITY OF MOUNTLAKE TERRACE: City of Edmonds, a Washington Municipal City of Mountlake Terrace, a Washington Corporation municipal corporation Mike Rosen, Mayor Date: Attest/Authenticate: Scott Passey, City Clerk Approved as to Form: Office of the City Attorney SNOHOMISH COUNTY: Snohomish County, a political subdivision of the State of Washington County Executive Date: Approved as to Form: Deputy Prosecuting Attorney Name, Title: Date: Approved as to Form: City Attorney AGREEMENT FOR LAKE MANAGEMENT Po. 9 AND WATER QUALITY SERVICES Packet Pg. 61 2.6 City Council Agenda Item Meeting Date: 11/19/2024 Subaward Safety Action Plan Agreement between Puget Sound Regional Council and City of Edmonds Staff Lead: Rob English Department: Engineering Preparer: Emiko Rodarte Background/History On June 18, 2024, staff presented this item to the Parks & Public Works committee. The Committee recommendation was a presentation to the City Council with clarification on the funding source. Staff Recommendation Forward item to City Council for approval. Narrative In late 2023, the City of Edmonds secured a $300,000 federal grant through the U.S. Department of Transportation's Safe Streets and Roads for All (SS4A) Grant Program. This program is focused on the development of local roadway safety action plans by developing well-defined strategies to prevent roadway fatalities and serious injuries. It will also identify and prioritize future projects to help address roadway safety issues. The scope of work will include data collection, speed studies, accident history and analysis of the City's transportation network, review and update of existing policies, develop a Vision Zero Policy, identify and prioritize transportation projects to improve safety and document findings in a Comprehensive Safety Action Plan. This item was presented at the June PPW committee with the recommendation to have the 112 Fund provide the 20% local match and not REET funds as outlined in the agenda memo. There were discussions about the availability of 112 funding and staff capacity to manage this project. The item was placed on -hold until: 1. Staff could complete a review of the 112 Fund after development of the proposed 2025- 2026 Budget 2. More progress was made on the Transportation Plan update 3. Staff capacity to manage the project. Staff will provide an update on the local match and proposed schedule to complete the study. Background: The City partnered with ten other agencies, including Puget Sound Regional Council (PSRC), on a $2.87 million grant application. PSRC is the Metropolitan Planning Organization for the Seattle metropolitan area. The City will be working closely with the agency to support the goal of reducing fatalities and serious injuries on roadways in the Puget Sound region. As part of this project, a subaward agreement is required between PSRC and City of Edmonds. Packet Pg. 62 2.6 Attachments: Attachment 1 - Agreement Packet Pg. 63 2.6.a Puget Sound Regional Council Subaward Agreement Between Puget Sound Regional Council and City of Edmonds for "Safety Action Plan" Date Entered into Agreement: Subaward Agreement M 2024-09 Packet Pg. 64 2.6.a Pass -through Entity (PTE): Puget Sound Subrecipient: City of Edmonds Regional Council Subaward Period of Performance: Amount Funded: Subaward Agreement #: Start: August 1, 2024 $300,000 2024-09 End: Jul 31, 2025 Federal Awarding Agency: U.S Department of FAIN: 693JJ32440280 Transportation Federal Award Issue Date: Total Amount of Matching Funds: $75,000 ALN No. and Name: 20.939, Safe Streets and Roads for All Project Title: Safety Action Plan R & D Award ❑ Yes ® No Unique Entity ID #NF1AQNT457R7 This SUBAWARD (hereinafter the "Award"), is made and entered into as of signing by and between the Pass -through Entity, Puget Sound Regional Council, (hereinafter "PSRC") and Subrecipient, City of Edmonds (hereinafter "City of Edmonds"), and supports the work described in the approved final scope of work, which is incorporated by reference into this Award and attached in Exhibit A. All work on this project should be consistent with the Authorized Scope of Work unless modified by the appropriate authority as described in 4.2 below. PSRC is a Metropolitan Planning Organization under federal law (23 USC 134) and a Regional Planning Transportation Planning Organization under state law (RCW 47.80) and has all powers necessary for the performance of the work and obligations of this Agreement, and has the authority to contract with member and non-member agencies for special services; and City of Edmonds is a US Local Government under state law (RCW 43.21 C.120) and has all powers necessary for the performance of the work and obligations of this Agreement; The U.S. Department of Transportation (hereinafter the "USDOT"), has expressly consented to this Award; and NOW, THEREFORE, in consideration of the covenants, assurances and mutual promises herein the Parties agree as follows: To ensure effective intergovernmental cooperation and efficiencies, the Parties each designate a representative (the "Designated Representative") who shall be responsible for coordination of communications between the Parties and shall act as a central point of contact for each Party. The Designated Representatives shall each be responsible for the administration and performance of the Scope of Work of this Award, as well as ensuring that schedule, budget, and funding limitations of this Agreement are satisfied. Each Designated Representative is also responsible for coordinating the input and work of its respective governmental agency or department staff, consultants and contractors as it relates to the scope of this Agreement. A Party may change its Designated Representative by written notice to the other Party. Each Party's Designated Representative is named below with the individual's contact information. PSRC Designated Representative. The Designated Representative for PSRC is Gary Simonson. They may designate other staff as the principal contact for daily work coordination. All official correspondence concerning this Agreement shall be directed to the Designated Representative at the following address: Puget Sound Regional Council Attn: Gary Simonson, Senior Planner 1201 3rd Avenue, Suite 500 Seattle, WA 98101 Phone: 206-971-3276 Email: gsimonson@psrc.org m E Q d bi Packet Pg. 65 2.6.a City of Edmonds Designated Representative. The Designated Representative for City of Edmonds is Mr. Bertrand Hauss. They may designate other staff as the principal contact for daily work coordination. All official correspondence concerning this Agreement shall be directed to the Designated Representative at the following address: City of Edmonds Phone: 425-754-5325 Attn: Bertrand Hauss Title: Transportation Engineer 121 51h Ave. N Edmonds, WA 98020 Email: bertrand.hauss@edmondswa.gov 3.1. In its performance of this Subaward Agreement, City of Edmonds shall be an independent entity and not an employee or agent of PSRC. 3.2. City of Edmonds must obtain the prior written approval of PSRC whenever any programmatic changes are anticipated, including but not limited to the following: a) Any revision of the Scope of Work or objectives of the project (regardless of whether there is an associated budget revision requiring prior approval). b) Changes in key persons in cases where specified in an application or a grant award. In research projects, a change in the project director or principal investigator shall always require approval unless waived by the USDOT. C) Under non -construction projects, contracting out, subgranting (if authorized by law) or otherwise obtaining the services of a third party to perform activities, which are central to the purposes of the award. d) Transfer of budgeted amounts. e) No -cost extensions. 3.3. Governmentwide Debarment and Suspension City of Edmonds shall comply with the provisions of 2 C.F.R. Part 200, Appendix II, "Contract Provisions for Non -Federal Entity Contracts Under Federal Award", Section I, (published in the Federal Register on December 26, 2013, 78 FR 78608), which generally prohibit entities that have been debarred, suspended, or voluntarily excluded from participating in Federal non -procurement transactions either through primary or lower tier covered transactions, and which sets forth the responsibilities of recipients of Federal financial assistance regarding transactions with other persons, including subrecipients and contractors. City of Edmonds (and all subcontractors, if any) must maintain current registration in the System for Award Management (www.sam.gov) at all times during which they have active federal awards or subawards, including for this Agreement. 3.4. Indemnification To the extent permitted by law, each Party to this Agreement shall indemnify the other Party and its officers, officials, employees, and agents, while acting within the scope of their employment, from any and all costs, claims, demands, judgments, damages, or liability of any kind including injuries to persons or damages to property, which arise out of, or in any way result from, due to, any acts or omissions of the indemnifying Party in the implementation of this Agreement or any agreement between City of Edmonds and its subcontractor(s). No Party shall be required to indemnify the other Party if the claim, suit, or action for injuries, death, or damages is caused by the sole negligence of the Party seeking indemnification. Where such claims, suits, or actions result from concurrent negligence of the Parties, the indemnity provisions provided herein shall be valid and enforceable only to the extent of the Party's own negligence. bi Packet Pg. 66 2.6.a Each Party by mutual negotiation, hereby waives, with respect to the other Party only, any immunity that would otherwise be available against such claims under the industrial insurance provisions of Title 51 RCW. This indemnification shall survive the termination of this Agreement. 3.5. Compliance with Federal Award Obligations. The Award is subject to, and City of Edmonds shall comply with, the terms and conditions of the Award and the Department of Transportation General Terms and Conditions (February 8, 2023) (see attachments 1 and 2), including all applicable statutes, regulations, executive orders (E.O.$), Office of Management and Budget (OMB) circulars, provisions of the OMB Uniform Administrative Requirements, Cost Principles, and Audit Requirements for Federal Awards (codified at 2 C.F.R. Part 200) (OMB Uniform Guidance), and approved applications. City of Edmonds is also a party to the award, and the parties want City of Edmonds to carry out certain Project components with PSRC's assistance, financial management, internal controls, and oversight as described in Article 17 of this agreement. PSRC, as a pass -through entity, shall monitor the activities of City of Edmonds in compliance with 2 C.F.R 200 332(d) with respect to a subrecipient's performance of work under a subaward of this SS4A Grant. 4.1. Budget The estimated budget to accomplish the tasks described in the Scope of Work for this project is incorporated in Exhibit B of this Agreement. This budget reflects the Parties' best estimates of the amounts that may be required to accomplish the total work under this Agreement. Actual amounts reimbursable shall be based on actual work performed. In the event it is determined that the Scope of Work has been accomplished by City of Edmonds for a lesser amount, PSRC shall only pay reimbursements for documented costs. In no event shall City of Edmonds be paid for costs that are not documented pursuant to the requirements of this Agreement. 4.2. Payments/Invoices PSRC shall reimburse City of Edmonds not more often than monthly for costs incurred in the performance of this Award, which are determined to be allowable, allocable, & reasonable in accordance with 2 CFR Part 200. All invoices shall be submitted using City of Edmonds' standard invoice, but at a minimum shall include current and cumulative costs, subaward number, and certification (Exhibit C), as required in 2 CFR 200.415 (a). PSRC shall not transfer nor be obligated to transfer any funds in advance of its approval of such requests. Documentation of all expenses eligible for reimbursement shall be maintained by City of Edmonds and shall, upon request by PSRC, be provided prior to reimbursement as required by this Award. All invoices presented for payment shall include a reasonable description of the tasks performed that correspond to E the amounts invoiced. d a� To assure payment processing in a timely manner, City of Edmonds shall submit all invoices, required Q reports, and documentation to the attention of: PSRC Attn: Finance 1201 3rd Avenue, Suite 500 Seattle, WA 98101 206-464-7090 Finance(a)psrc.orq PSRC shall review and pay reimbursable amounts within 45 days of receipt of the invoice. PSRC reserves the right to withhold payments pending timely delivery and proper completion of the reports or documents as may be reasonably required under this Agreement. Packet Pg. 67 2.6.a 4.3. Prohibited Use of Funds City of Edmonds may not use funds for the following ineligible activities: (a) Ineligible costs under 2 C.F.R Part 200, Uniform Administrative Requirements, Cost Principles, and Audit Requirements for Federal Awards; (b) Any activities prohibited under the Grant between USDOT and PSRC dated April 17, 2024. 4.4. Final Payment Final payment will be made to City of Edmonds upon final completion of the work and upon written acceptance by PSRC's Designated Representative. Any required adjustments shall be reflected in the final invoice. 4.5. Use of Consultants/Contractors For all proposals and contracts where costs are expected to exceed $100,000, the scope of work and the costs of such must be submitted to and approved by USDOT prior to employment of such consultants or contractors. City of Edmonds will ensure that any consultant or contractor paid from funds provided under this Award is bound by all applicable award terms and conditions. USDOT shall not be liable hereunder to a third party nor to any party other than PSRC. In addition, all procurements shall adhere to PSRC's Procurement Policies and Procedures as updated March 2023. $10,000 or under Micro purchase: No competition required. $10,001-$250,000* Small purchase: Competition required with documentation of an adequate number of price/rate quotes. Over $250,000* Competitive proposal: Competition required with documentation of at least two formal, written bids, proposals or qualifications, as well as an independent cost estimate. Pre -approval required Noncompetitive proposal: Only when competitive method is infeasible and certain situations apply. *In addition, all contracts over $100,000 shall include applicable lobbying certifications as stated in section 10.15. 5.1. Reports and Documentation Project Progress Reports: City of Edmonds agrees to assist PSRC with Project Progress Reports on a quarterly basis for the period(s) ending June 2024, or any portion thereof. City of Edmonds will supply report content, e.g. summaries of work completed, to PSRC no later than 10 days following the end of the period. Reports are due no later than 30 days following the end of the period. Performance Progress Reports submitted to USDOT by PSRC should include the following: L Provide a clear, concise overview of the activities undertaken during the Project Period; ii. Document accomplishments, benefits, and impacts that the Project and Activities are having. Recipients should note specific outcomes where activities have led to job creation/retention, private investment, increased regional collaboration, engagement with historically excluded groups or regions, enhanced regional capacity, and other positive economic benefits; iii. Highlight any upcoming or potential press events or opportunities for collaborative press events to highlight benefits of the USDOT investment; bi Packet Pg. 68 2.6.a iv. Compare progress with the project timeline, explaining any departures from the targeted schedule, identifying how these departures are going to be remedied, and projecting the course of work for the next period; V. Outline challenges that currently impact or could impact progress on the grant over the next reporting period and identify ways to mitigate this risk; and vi. Outline any areas where USDOT assistance is needed to support the project or any other key information that would be helpful for your USDOT Project Officer to know. Final Project Reports may be posted on USDOT's website, used for promotional materials or policy reviews, or may be otherwise shared. Recipients should not include any copyrighted or other sensitive business information in these reports. There is no specific page limit for Final Project Reports; however, such reports should concisely communicate key project information, and should: i. Outline the specific regional need that the project was designed to address and update on progress made during the reporting period that will mitigate need and advance economic development; ii. Provide a high-level overview of the activities undertaken; iii. Detail lessons learned during the project period that may be of assistance to USDOT or other communities undertaking similar efforts; iv. Outline the expected and actual economic benefits of the project as the time that the report is written; and V. Any other key information from the relevant project period 5.2. Availability of Records All project records in support of all costs and actual expenditures incurred by City of Edmonds and its Sub-Contractor(s) under this Agreement shall be maintained by City of Edmonds and its Sub- Contractor(s) and open to inspection by PSRC (or its federal funding agency) during normal business hours, and shall be retained and made available for such inspection for the duration of the State and Federal records retention requirements from final payment of funds under this Agreement to PSRC. Copies of said records shall be furnished to PSRC and/or its federal funding agency upon request. This requirement shall be included in all subcontracts related to the work entered into by City of Edmonds to fulfill the terms of this Agreement. By signing the Subaward Agreement, the Authorized Official of Subrecipient certifies, to the best of his/her knowledge and belief, that: Certification Regarding Lobbying 3 C0 1) No Federal appropriated funds have been paid or will be paid, by or on behalf of the Subrecipient, to any person for influencing or attempting to influence an officer or employee of any agency, a Member of Congress, an officer or employee of Congress, or an employee of a Member of E Congress in connection with the awarding of any Federal contract, the making of any Federal Q grant, the making of any Federal loan, the entering into of any cooperative agreement, and the extension, continuation, renewal, amendment, or modification of any Federal contract, grant, Q loan, or cooperative agreement. 2) If any funds other than Federal appropriated funds have been paid or will be paid to any person c for influencing or intending to influence an officer or employee of any agency, a Member of E Congress, an officer or employee of Congress, or an employee of a Member of Congress in s connection with this Federal contract, grant, loan, or cooperative agreement, the Subrecipient shall complete and submit Standard Form -LLL, "Disclosure Form to Report Lobbying," to the Q Pass -through Entity. 3) The Subrecipient shall require that the language of this certification be included in the award documents for all subawards at all tiers (including subcontracts, subgrants, and contracts under s grants, loans, and cooperative agreements) and that all subrecipients shall certify and disclose accordingly. Q Packet Pg. 69 2.6.a This certification is a material representation of fact upon which reliance was placed when this transaction was made or entered into. Submission of this certification is a prerequisite for making or entering into this transaction imposed by section 1352, title 31, U. S. Code. Any person who fails to file the required certification shall be subject to a civil penalty of not less than $10,000 and not more than $100,000 for each such failure. Debarment, Suspension, and Other Responsibility Matters Subrecipient certifies by signing this Subaward Agreement that neither it nor its principals are presently debarred, suspended, proposed for debarment, declared ineligible or voluntarily excluded from participation in this transaction by any federal department or agency. Audit and Access to Records Subrecipient certifies by signing this Subaward Agreement that it complies with the Uniform Guidance, will provide notice of the completion of required audits and any adverse findings which impact this subaward as required by 2 C.F.R. parts 200.501 and 200.521, and will provide access to records as required by parts 200.336, 200.337, and 200.201 as applicable. Right to Audit and Disallow and Recover Funds The Federal government reserves the right to seek recovery of any funds that were not expended in accordance with the requirements or conditions of this Agreement based upon USDOT review, the final audit, or any other special audits or reviews undertaken. USDOT has the right to order a special audit, even if PSRC's auditor or a cognizant agency has already conducted one. City of Edmonds shall be solely responsible for the administration of and the completion and quality of work performed under any contracts executed by City of Edmonds. In no event shall any contract executed by City of Edmonds be construed as obligating PSRC. Any claims arising out of the separate a contracts of City of Edmonds for work under this Agreement are the sole responsibility of City of Edmonds. All contracts shall comply with all applicable public works and procurement laws and a regulations, including, but not limited to, applicable bonding, prevailing wage, nondiscrimination, retainage, insurance, and workers compensation requirements. .2 Q 7.1. Direct Supervision r m Nothing in PSRC's exercise of the right to inspect or accept the work performed by City of Edmonds shall in reduce City of Edmonds' responsibility for the proper execution of the work or relieve City of Edmonds -a from its responsibility for direct supervision of the work. When PSRC exercises its right to inspect or 3 accept the work performed by City of Edmonds, it shall not be deemed or construed to be in control of the work under this Agreement. 7.2. Sub -recipient Monitoring E PSRC reserves the right to monitor and manage subrecipients, including lower tier subrecipients. At a Q minimum, monitoring of City of Edmonds will include: Q i. Review of financial and programmatic reports; ii. Following -up and ensuring that City of Edmonds takes timely and appropriate action on all c deficiencies pertaining to the Federal award provided to City of Edmonds from PSRC detected E E through audits, on -site reviews, and other means; and s iii. If applicable, issuing a management decision for audit findings pertaining to the Federal award provided to City of Edmonds from PSRC as required by 2 C.F.R. § 200.521 (Management Q decision). PSRC requires all subrecipients, including lower tier subrecipients, under the Award to comply with the provisions of the Award, including applicable provisions of the OMB Uniform Guidance (2 C.F.R. Part s 200) and all associated terms and conditions. Packet Pg. 70 2.6.a City of Edmonds will maintain at all times during the term of this Agreement, satisfactory limits of insurance and/or self-insurance to protect against claims arising out of this Agreement. Such insurance or self-insurance shall include General Liability, Business Automobile Liability, and Workers' Compensation in accordance with statutory requirements under Title 51 RCW. Each Party will require and cause its respective subcontractors of all tiers to maintain such insurance as described above in sufficient amounts to protect the interest of the Parties. Such insurance shall be confirmed by a Certificate of Insurance prior to commencement of the work. The Parties hereby agree to require their respective insurers and their respective subcontractors of all tiers, to waive subrogation rights against the other Party and such other Party's insurers. It is understood and agreed that insurance and/or self-insurance provided by the Parties under this Agreement is not intended to and shall not in any manner limit or qualify the liabilities and obligations assumed by the Parties or their Contractors of any tier under their respective contracts or imposed by applicable laws or regulations. 9.1. Termination for Default Either Party may terminate this Agreement, in whole or in part, if the other Party substantially fails to fulfill any or all of its obligations under this Agreement through no fault of the other Party, provided that insofar as practicable, the Party terminating the Agreement will give: a. Notice of intent to terminate at least thirty (30) calendar days prior to the date of termination stating the manner in which the other Party has failed to perform the obligations under this Agreement; and b. An opportunity for the other Party to cure the default. If City of Edmonds is the party in default, PSRC shall provide an opportunity for City of Edmonds to cure the default as provided in Section 14.2. If PSRC is the party in default, City of Edmonds shall give PSRC a Notice of Termination stating the time period in which cure is permitted and any other appropriate conditions. c. Provided however, that if PSRC's funding agency terminates financial support for the project at any time, either party shall have the right to immediately terminate this Agreement by giving written notice thereof. If the other Party fails to remedy the default or the breach to the satisfaction of the other Party within the time period established in the Notice of Termination or any extension thereof granted by the Party not at 3 fault, the other Party may terminate this Agreement. However, any terms of this Agreement relevant to a dispute that is unresolved at the time of termination shall survive until the dispute is finally resolved. m 9.2. Termination for Convenience E Q d Either Party may terminate this Agreement, in whole or in part, for its convenience provided that the Q terminating Party shall provide the other Party with an advance notice of at least thirty (30) calendar days. 9.3. Notice of Termination r Notice of termination shall be given by the Party terminating this Agreement to the other Party in writing The notice shall specify the effective date of termination, which shall not be sooner than the non - terminating Party's receipt of the notice. 9.4. Rights and Duties of Parties Upon Termination A termination by any Party shall not extinguish or release either Party from liability, claims, or obligations to third parties existing as of the time of termination. Any costs incurred prior to the effective date of termination will be borne by the Parties in accordance with the terms of this Agreement and this Section. Packet Pg. 71 2.6.a The record keeping requirements, payment, release and indemnification provisions set forth in this Agreement and all remedial provisions shall survive termination of this Agreement. Upon termination of this Agreement by expiration of the term or upon termination for the convenience of the Parties, the Parties agree to work together cooperatively to develop a coordinated plan for terminating the scope of work rendered up until the time of termination and determining reasonable contract close-out costs for termination for convenience or as a result of PSRC's default or breach. In the event of termination by default or breach, PSRC shall only be obligated to compensate City of Edmonds for the portion of work that has been satisfactorily rendered to the date of termination according to the terms of this Agreement. 10.1. Rights and Remedies The rights and remedies of the Parties to this Agreement are in addition to any other rights and remedies provided by law, except as otherwise provided in this Agreement. 10.2. No Agency No joint venture or partnership is formed as a result of this Agreement. No employees, agents or subcontractors of one Party shall be deemed, or represent themselves to be, employees of any other Party. 10.3. Third Party Rights It is understood and agreed that this Agreement is solely for the benefit of the Parties hereto and USDOT, and gives no right to any other entity. Nothing in this Agreement, whether express or implied, is intended to confer any rights or remedies under or by reason of this Agreement on any persons other than the Parties and USDOT. 10.4. Assignment/Successors No Party shall assign any interest, obligation, or benefit in this Agreement or transfer any interest in the same, whether by assignment or novation, without prior written consent by the other Party. This limitation does not, however, prevent City of Edmonds from selecting subcontractors or consultants to perform the work authorized by this Agreement. All of the terms, provisions, and conditions of this Agreement will be binding upon and inure to the benefit of the Parties hereto and their respective successors, permitted assigns, and legal representatives. 10.5. Compliance with Laws City of Edmonds shall comply, and to the best of its ability shall ensure, that its employees, agents, cn consultants, and representatives comply with all federal, state, and local laws, regulations, and ordinances applicable to the work to be performed. The work performed by City of Edmonds under this a=i Agreement shall comply with all applicable public works and procurement laws and regulations, including, E Q but not limited to, bonding, prevailing wage, nondiscrimination, retainage, insurance, and workers compensation requirements. a' Q 10.6. Governing Law and Venue This Agreement will be governed by, and construed and enforced in accordance with, the laws of the State of Washington. Any legal action resulting from this Agreement shall be brought in the Superior Court of King County. 10.7. Notice All notices or requests required or permitted under this Agreement shall be in writing, shall be personally delivered or sent by certified mail, return receipt requested, postage prepaid, or by facsimile transmission and shall be deemed received three (3) business days following the date when mailed or on the date Packet Pg. 72 2.6.a when delivered or faxed (provided the fax machine has issued a printed confirmation of receipt). All notices or requests shall be sent to PSRC and City of Edmonds addressed as shown in Section 3.0. 10.8. Waiver of Default Waiver of any default shall not be deemed to be a waiver of any subsequent default. Waiver of breach of -a a provision of this Agreement, including failure to require full and timely performance of any provision, shall not be deemed to be a waiver of any other or subsequent breach and shall not be construed to be a modification of the terms of this Agreement unless stated to be such in writing, signed by authorized = parties, and attached to the original Agreement. o U 10.9. Severability c 0 If any of the terms and conditions of this Agreement are determined to be invalid or unenforceable by a Q court of competent jurisdiction, the remaining terms and conditions unaffected thereby shall remain in full force and effect. The Parties agree to negotiate in good faith to reform the Agreement to replace any invalid or unenforceable term and/or condition with a valid and enforceable term and/or condition that 0 comes as close as possible to the intention of the stricken term and/or condition. N a� 10.10. Warranty of Right to Enter into Agreement a The Parties each warrant that they have the authority to enter into this Agreement and that the persons 3 signing this Agreement have the authority to bind such person's respective entity. 10.11. Publicity E The Parties to this Agreement shall not make any formal press releases, news conferences or similar public statements concerning this Agreement without prior consultation with the other Party. a� Q 10.12. Future Support M a PSRC makes no commitment of future support and assumes no obligation for future support of the 0 activity contracted herein except as set forth in this Agreement. Q 10.13. Exhibits r m �a All exhibits referenced in and attached to this Agreement are incorporated herein, except to the extent N otherwise provided herein. 3 c� 10.14. Limitation on Payments to Influence Certain Federal Transactions 3 Section 1352 of Title 31 of the U.S. Code provides in part that no appropriated funds may be expended by the recipient of a Federal contract, grant, loan, or cooperative agreement to pay any person for influencing or attempting to influence an officer or employee of any agency, a Member of Congress, and E Q officer or employee of Congress, or an employee of Member of Congress in connection with any of the following covered Federal actions: the awarding of any Federal contract, the making of any Federal grant, a' Q the making of any Federal loan, the entering into of any cooperative agreement, and the extension, continuation, renewal, amendment, or modification of any Federal contract, grant, loan, or cooperative r agreement. E 10.15. Lobbying Restrictions s Q Statutory Provisions 1. Non -Federal entities shall comply with 2 C.F.R. § 200.450 ("Lobbying"), which incorporates the E provisions of 31 U.S.C. § 1352; the "New Restrictions on Lobbying" published at 55 FR 6736 (February 26, 1990); and OMB guidance and notices on lobbying restrictions. In addition, non -Federal r entities must comply with the DOC regulations published at 15 C.F.R. Part 28, which implement the Q "New Restrictions on Lobbying". These provisions prohibit the use of Federal funds for lobbying the Packet Pg. 73 2.6.a executive or legislative branches of the Federal Government in connection with the award, and require the disclosure of the use of non -Federal funds for lobbying. Lobbying includes attempting to improperly influence, meaning any influence that induces or tends to induce a Federal employee or officer to give consideration or to act regarding a Federal award or regulatory matter on any basis other than the merits of the matter, either directly or indirectly. Costs incurred on to improperly influence are unallowable. See 2 C.F.R. § 200.450(b) and (c). 2. Disclosure of Lobbying Activities Any non -Federal entity that receives more than $100,000 in Federal funding shall submit a completed Form SF-LLL, "Disclosure of Lobbying Activities," regarding the use of non -Federal funds for lobbying. The Form SF-LLL shall be submitted within 30 days following the end of the calendar quarter in which there occurs any event that requires disclosure or that materially affects 22 1 December 26, 2014 the accuracy of the information contained in any disclosure form previously filed. The non -Federal entity must submit any required Forms SF-LLL, including those received from subrecipients, contractors, and subcontractors, to the Grants Officer. 10.16. Confidentiality The Parties acknowledge that the prohibitions against disclosure of information or records described in this Section 10.16 is limited by and not applicable where any law, rule, regulation or court proceeding requires or allows disclosure of information and documents, and neither Party is required to notify the other or any program beneficiary regarding such allowed or required disclosure. City of Edmonds and any subgrantees, subcontractors or vendors must maintain confidential files on individual program beneficiaries served associated with this Agreement. Recipient staff must keep paper files in a locked filing cabinet and protect all electronic files related to individual beneficiaries with a personal password. The service providers shall maintain primary access to individual beneficiary files. Other project management staff may have access to these files only if they contain a "release of information" consent form signed by the individual beneficiary. A release of information form must clearly indicate which parties may have access to an individual beneficiary's file. Such parties might include the management staff and USDOT staff. City of Edmonds may only share individual beneficiary files with those parties listed on the signed form. If an individual beneficiary has not signed the consent form the parties listed may not read that individual beneficiary's file. These categories serve as guidelines to City of Edmonds staff and management staff. City of Edmonds must determine if the individual beneficiary's confidential information will significantly affect the safety and security of that individual or City of Edmonds itself. 10.17. Entire Agreement This Agreement, including its Recitals and Exhibits, embodies the Parties entire Agreement on the matters covered by it, except as supplemented by subsequent amendments to this Agreement. All prior E Q negotiations and draft written agreements are merged into and superseded by this Agreement. a� i FLOW DOWN PROVISIONSQ If City of Edmonds contracts or subawards funds under this Agreement with a person or entity to perform work under this Award, City of Edmonds shall include in the contract or subaward agreement such provisions as may be necessary to ensure that all contractors and subgrantees comply with the requirements of the grant and reporting provisions as set forth in these terms and conditions or as established by USDOT and the Office of Management and Budget (OMB). All subgrantees are required to obtain a Unique Entity ID (or update its existing record), in the System for Award Management prior to award. IN WITNESS WHEREOF, the parties hereby agree to the terms and conditions of this Agreement as of the date written below. Packet Pg. 74 2.6.a City of Edmonds: 121 5t" Ave. N Edmonds, WA 98020 By: Mike Rosen Mayor, City of Edmonds Date: Approved as to form: Bv: Office of the City Attorney City of Edmonds PSRC: Puget Sound Regional Council 1201 V Avenue, Suite 500 Seattle, Washington 98101 By: Date: Josh Brown, Executive Director Puget Sound Regional Council bi Packet Pg. 75 2.6.a Exhibit A Scope of Work for City of Edmonds' Safety Action Plan City of Edmonds Tasks and Timeline: Objective/Task Date/Period of Completion 1. Project Management Winter 2025 to Fall 2025 • Project initiation and management • Prepare for and participate in team meetings • Monitor scope of work and budget • Review invoices and prepare grant bills 2. Data Collection and Analysis Winter 2025 • Counts • Speed Studies • Crash Analysis 3. Existing Policy Review and Documentation Spring 2025 • Comprehensive Plan • Complete Street Ordinance • Transportation Improvement Plan 4. Outreach and Community Engagement Summer 2025 5. Policy Development Summer 2025 • Vision Zero Framework • Review of Street Standard Details • Traffic Calming Program • Complete Streets Checklist 6. Scoping and Development of Prioritized Safety Projects Summer 2025 • High Risk Corridor / Network Projects • Pedestrian Safety Projects • Bicycle Safety Projects • Intersection & Spot Safety Improvements 7. Final Report Fall 2025 • Vision Zero Policy • Crash Data Analysis and Evaluation • Proposed Actions including countermeasures and transportation projects w Packet Pg. 76 2.6.a El Q Packet Pg. 77 2.6.a Exhibit B Project Budget Amounts Based on $300,000 Grant Award, $75,000 Match Item Grant Share Match Personnel $42,400 $10,600 Fringe Benefits $17,600 $4,400 Travel Equipment Supplies Contractual Construction Other Consultant $240,000 $60,000 Total Direct Charges $300,000 $75,000 Indirect Charges Total Charges $300,000 $75,000 a) E L III Packet Pg. 78 2.6.a To: Puget Sound Regional Council Attn: Accounts Payable 1201 3rd Avenue, Suite 500 Seattle, Washington 98101 Project Title: City of Edmonds Project Agreement Number: 2024-09 Invoice Period: From to Requisition for Payment and Reporting Template From: City of Edmonds 121 5t" Ave. N Edmonds, WA 98020 Exhibit C Budget Table Line Item Current Expense Total Expense to Date Contract Budget Personnel $ $ $ Fringe Benefits $ $ $ Travel $ $ $ Equipment $ $ $ Supplies $ $ $ Contractual $ $ $ Other (Consultant) $ $ $ Total Direct Charges $ $ $ Indirect Charges $ $ $ Total Requisition this Period $ $ $ I certify that the expenses listed above have been properly incurred in the accomplishment of the services of this Agreement. Name, Title Date i Packet Pg. 79 2.7 City Council Agenda Item Meeting Date: 11/19/2024 Presentation of Professional Services Agreement Supplement for Phase 12 (2025) & 13 (2026) Sewer Replacement Staff Lead: Rob English Department: Engineering Preparer: Emiko Rodarte Background/History On March 12, 2024, staff presented the PSA for design services to the Parks and Public Works Committee and it was forwarded to the consent agenda. On March 19, 2024, City Council approved the PSA on the consent agenda. Staff Recommendation Forward item to consent agenda for approval. Narrative This contract is intended to be a supplement to complete the design, bidding, construction support, and related engineering services for the Phase 12 Sewerline Replacement and Rehabilitation Project. This phase will rehabilitate, via mainly trenchless methods, select sewer pipe segments throughout the City of Edmonds sewer collection system. Additional work will involve preparation of more detailed cost estimates for sewer segments planned for the future Phase 13 design, which will be scoped separately in 2025 to ensure that the project costs don't exceed the currently allotted budget. The City has negotiated a consultant fee of $199,954 for the additional scope of work covered by this supplement agreement. There is $95,794.54 in remaining unspent budget from the initial agreement that will be moved to this next segment of work and will reduce the supplement agreement amount to $104,159. These project costs are being funded by the sewer utility fund. In total, the Phase 12 Sewer Replacement Project will rehabilitate/replace approximately 9,000 linear feet of the City's sewer pipe network and associated appurtenances at various locations within the City. In addition, various sewer lateral repairs, within City Rights of Way, will be included as part of the project due to significant and constant root intrusion issues. These locations are experiencing root intrusion that requires maintenance staff to perform pipe cleaning and root cutting multiple times per year to ensure that these systems do no experience backups. Selection of the sites were determined using the data supplied in the 2013 Comprehensive Sewer System Plan dated August 2013, coordinating with upcoming road, water, and storm drain projects, and input from Public Works maintenance. Projects for Phase 12 will focus on lining pipe segments and replacement/rehabilitation of pipes that our Public Works maintenance department staff needs to root Packet Pg. 80 2.7 cut clean and unclog pipes multiple times a year to ensure that these pipes do not get fully clogged and would cause sewer backups/overflows in Edmonds residences and business. Attachments: Attachment 1 - Agreement Packet Pg. 81 of ED,V CITY OF EDMONDS MIKE ROSEN 121 5T" AVENUE NORTH - EDMONDS, WA 98020 - 425-771-0220 WWW.EDMONDSWA.GOV MAYOR C N PUBLIC WORKS DEPARTMENT I ENGINEERING DIVISION AMENDMENT NO. 1 TO PROFESSIONAL SERVICES AGREEMENT WHEREAS, the City of Edmonds, Washington, hereinafter referred to as the "City", and David Evans and Associates, Inc., hereinafter referred to as the "Consultant", entered into an underlying agreement for design, engineering and consulting services with respect to a project known as Phase 12 and Phase 13 Sewer Replacement and Rehabilitation project, dated April 4, 2024 ("Underlying Agreement"); and WHEREAS, Section 12 of the Underlying Agreement authorizes revisions to its terms only upon a written amendment approved by both parties; and WHEREAS, additional tasks to the original Scope of Work have been identified with regard to providing Phase 12 Final Design, Bidding, and Construction Support; NOW THEREFORE, in consideration of the mutual benefits accruing, it is agreed by and between the parties thereto as follows: 1. The Underlying Agreement of April 4, 2024 between the parties, incorporated by this reference as fully as if herein set forth, is amended in, but only in, the following respects: 1.1 Scope of Work. The Scope of Work set forth in Section 1 and Exhibit A to the Underlying Agreement is hereby amended to include the additional services and material necessary to accomplish the stated objectives as outlined in the attached Exhibit A, incorporated by this reference as fully as if herein set forth. 1.2 Pam. The $237,624.00 amount set forth in Section 2.A of the Underlying Agreement and stated as an amount which shall not be exceeded, is hereby amended to include an additional not to exceed amount of $104,159.00 for the additional scope of work identified in Exhibit A to this Amendment No. 1. As a result of this Amendment No. 1, the total contract amount is increased to a new total not -to -exceed amount of $341,783.00 ($237,624.00 plus $104,159.00). 1.3 Fee Schedule. Exhibit B to the Underlying Agreement consisting of the rate and cost reimbursement schedule is hereby amended to include the form set forth on the attached Exhibit B, incorporated by this reference as fully as if herein set forth. 1 Packet Pg. 82 2.7.a 2. In all other respects, the Underlying Agreement between the parties shall remain in full force and effect, amended as set forth in this Amendment No. 1 but only as set forth herein. DONE this day of , 2024. CITY OF EDMONDS DAVID EVANS AND ASSOCIATES, INC. Mike Rosen, Mayor Craig Christensen, Associate ATTEST/AUTHENTICATE: Scott Passey, City Clerk APPROVED AS TO FORM: Office of the City Attorney 2 Packet Pg. 83 2.7.a STATE OF WASHINGTON ) )ss COUNTY OF KING ) On this day of , 2024, before me, the under -signed, a Notary Public in and for the State of Washington, duly commissioned and sworn, personally appeared Craig Christensen, to me known to bean Associate of David Evans and Associates, Inc., the corporation that executed the foregoing instrument, and acknowledged the said instrument to be the free and voluntary act and deed of said corporation, for the uses and purposes therein mentioned, and on oath stated that he/she was authorized to execute said instrument and that the seal affixed is the corporate seal of said corporation. WITNESS my hand and official seal hereto affixed the day and year first above written. NOTARY PUBLIC My commission expires: Packet Pg. 84 2.7.a EXHIBIT A SCOPE OF WORK AND SCHEDULE Phase 12 and 13 Sewer Replacement and Rehabilitation — Assessment, Design, Bidding, and Construction Engineering Services City of Edmonds October 29, 2024 This scope of work is the second of three proposals anticipated for this project as described below: • Phase 12 and 13 Assessment and 30% Design (previous scope) • Phase 12 Final Design, Bidding, and Construction Support (this scope) • Phase 13 Final Design, Bidding, and Construction Support This second scope of work (Phase 12 Final Design, Bidding, and Construction Support) describes the final design, bidding, and construction support, and related engineering services to be provided in support of the proposed Phase 12 replacement and rehabilitation of select sewer segments throughout the City of Edmonds sewer collection system. The Phase 12 project will focus primarily on the trenchless rehabilitation of sewer mains with only open -cut replacement as necessary. The primary goal of this project is to address the identified structural and hydraulic capacity deficiencies that result in service and maintenance problems for the City. The anticipated work elements for Phase 12 are 26 sewer sites totaling approximately 446 feet of 6-inch, approximately 6,365 feet of 8-inch, approximately 333 feet of 12-inch, and approximately 193 feet of 18-inch pipe including 2 individual side sewer tees/laterals. DEA understands that the City continuously evaluates its collection system and that the preliminary information used to prepare this estimate may be supplemented by new information for pipes with a higher priority for rehabilitation and repair via the use of the Management Reserve. DEA understands that although priorities may change, the goal is to design this Phase 12 work on approximately the number of work elements identified, presuming similar site constraints and design considerations. The final design activities include additional site visits (if necessary) as well as the final review of CCTV video inspection records and easement, as -built, and GIS information. The site visits and information review will be used to confirm the type of repair(s) selected to address the existing deficiencies at each of the different sites. DEA will also request from the respective purveyor, maps showing the location of all franchise and City -owned utilities (water, sewer, storm, gas, power, communications, internet, fiber, TV, etc) and continue to update the base maps from that information. DEA will complete 90% plans, specifications, and cost estimate (PSE) and send them to the City for review and approval by the end of February 2025 with the goal of bidding the project by the end of March 2025. The estimated duration of construction of the project is 6 months. PAC\C0ED00001716\0100PM\Phase 12 - Design\archive\COED00001716-Ph 12 Sewer Design & Construction Support -Scope of Work1.docx 1 Packet Pg. 85 2.7.a DEA will also support the City in bidding and construction as indicated in the Scope of Work. In addition to the above -listed work on Phase 12, DEA will also complete more detailed cost estimates (including survey, design, permitting, geotechnical, and construction costs) for the eleven Phase 13 sites identified during the DEA and City 30% review meeting. These cost estimates will be completed and sent to the City for review by the end of December 2024. Once the Phase 12 design has been completed, a separate scope of work will be prepared for the final design, bidding, and construction support of Phase 13. SCOPE OF WORK The scope of engineering services is as follows: 1. Project Management 1.1. Planning, Scoping, and Coordination 1.2. Monitoring and Control 1.2.1. Submit monthly invoices with status reports if requested. The status report shall summarize activities completed for each task during the billing period and anticipated deliverables for the next month. DEA shall also summarize problems encountered and actions taken for their resolution, potential future delays, and issues requiring City direction. Any element that may impact the schedule and design fee shall be included in the report. 1.3. Closeout 2. Assessment (Work completed under the previous scope) 3. 30% Design (Work completed under the previous scope) 4. Final Assessment 4.1. Additional Existing Information 4.1.1. Review additional easements, as-builts, and GIS sewer data 4.1.2. Confirm repairs by reviewing CCTV video inspection logs and videos 4.2. Additional Site Visits 4.2.1. Review of site information and available City sewer easements, generally confirm space available for access and construction staging 4.3. City -Identified Phase 13 Site Cost Estimates 4.3.1. Including survey, design, permitting, geotechnical (by HWA), and construction 5. Final Design 5.1. Prepare plans using City GIS layers (30 sheets estimated) 5.1.1. Cover sheet, notes, legend, vicinity map, sheet index (2 sheets) 5.1.2. All sites — civil plan (1 site per sheet, 26 sheets total) PAC\C0ED00001716\0100PM\Phase 12 - Design\archive\COED00001716-Ph 12 Sewer Design & Construction Support -Scope of Work1.docx 2 Packet Pg. 86 2.7.a 5.1.3. Details (1 sheet) 5.1.4. TESC plan & details (1 sheet — general notes and details) 5.2. Prepare contract documents/specifications (COE/WSDOT format) 5.2.1. Bidding & contract documents with special provisions (COE standard) 5.2.2. Special provisions — civil 5.2.2.1. CIPP (full length, spot repair, tee/lateral, etc) liner and open cut (full length, spot repair, tee/lateral, etc) replacement for main rehabilitation and replacement 5.2.2.2. Bypass/continual operation 5.3. Prepare quantity take -off 5.3.1. Prepare and report final quantity take -off broken down per plan sheet 5.4. Prepare construction cost estimate 5.4.1. Final engineer's construction cost estimate in accordance with the City's Estimating Policy 5.5. Submittals 5.5.1. QAQC-confirmed plans, quantity take -off, specs, and estimate at 95% 5.5.2. QAQC-confirmed final plans, quantity take -off, specs, and estimate ready for bidding 6. Bidding and Construction Support 6.1. Answer RFIs (assume 2) 6.2. Prepare addendum (assume 1) 6.3. Review material submittals (assume 4) 6.4. Review and complete as-builts 7. Manaaement Reserve 7.1. Tasks not included in the scope but that may be authorized in writing by the City Project Manager on a time and expense basis The City shall provide the following to complete the corresponding work for this project: • Available record drawings and sewer easements • GIS data • Access to CCTV videos • Payment for permit fees and costs of advertising as required for permits or other governmental approvals • Advertisement and publishing documents for bidding • Management/Inspection of construction project Other Significant Assumptions: • Civil sheets will include plan view only — no profile. • Project is presumed to be completed without the need for significant excavation or modification of existing buried utilities. Plans will be prepared without the benefit of utility locates or a field survey of existing improvements. Utility locates will be requested and other non -exploratory site research will be conducted when excavation within the right of way, such as for sewer main spot PAC\C0ED00001716\0100PM\Phase 12 - Design\archive\COED00001716-Ph 12 Sewer Design & Construction Support -Scope of Work1.docx 3 Packet Pg. 87 2.7.a repairs, manhole installation/repair, or other similar scales of excavation, are required for the project. • Existing sewer is presumed to be in existing right of way or sewer easement. Work to correct right of way deficiencies or to secure additional access rights or easements for this work is presently not part of the scope of work. • SEPA review is not required due to the rehabilitation nature of the project. • The City will secure all necessary permits. • The consultant will not charge for additional addenda if they are needed to correct or clarify errors or omissions in the bid documents. • The consultant will not charge for RFls if they are needed to correct or clarify errors or omissions in the bid documents. SCHEDULE Presuming approval by the City in late November 2024, the following is the proposed schedule. The timing of bidding and construction will be at the discretion of the City. 2024 2025 Task Nov Dec Jan Feb Mar Apr May Jun Jul AugSep Oct Ph 13 Cost Estimates Final Assessment Final Design 90% PSE Submittal City Review Bid -Set PSE Submittal Bidding Support Construction Support BUDGET Due to remaining budget in several tasks from the previous scope and per discussion with City staff, DEA proposes moving the remaining $95,794.54 in unspent budget (as of 10/16/24 invoice) as detailed in the attached project fee estimate. P:\C\COED00001716\0100PM\Phase 12 - Design\archive\COED00001716-Ph 12 Sewer Design & Construction Support -Scope of Work1.docx 4 Packet Pg. 88 EXHIBIT B 2.7.a David Evans and Associates, Inc. Fee Estimate Phase 12 and 13 Sewer Replacement and Rehabilitation - Phase 12 Final Design, Bidding, and Construction Support CITY OF EDMONDS Estimated DEA Labor - Civil Engineering Services Project Number COED00001716 Date 10/29/2024 Prepared By CFCH Task/Subtask t11 Personnel Positions and Approximate Hourly Billing Rates DEA Labor Total - w/ Expenses and Subs. Project Manager QAQC Project Engineer Designer Survey Manager Survey Crew CAD/GIS Technician Admin. Assistant Total Hours Additional Estimated Fee $244.80 $278.40 $261.60 $131.20 $233.60 $268.80 $169.60 $118.40 1 Project Management 88 $16,185 $16,185 1.1 Planning, Scoping, and Coordination 24 4 24 52 $13,267 1.2 Monitoring and Control 18 12 30 $5,827 1.3 Closeout 2 2 2 6 $1,250 Minus Unspent Project Management Budget ($4,159) 4 Final Assessment 240 $25,197 $52,661 4.1 Additional Existing Information 16 32 16 64 $14,387 4.2 Additional Site Visits 16 16 16 48 $10,202 4.3 City -Identified Phase 13 Site Cost Estimates 24 12 40 40 12 128 $27,731 4.4 Minus Unspent Assessment Budget ($27,122.54) 5 Final Design 274 $12,471 $12,619 5.1 Plans 16 2 16 16 64 114 $21,613 5.2 Specifications 161 2 32 321 82 $17,043 5.3 Quantity Take -off 4 2 12 12 30 $6,250 5.4 Construction Cost Estimate 4 2 12 12 30 $6,250 5.5 Submittals 2 8 4 4 18 $4,288 5.6 Minus Unspent30% Design Budget ($42,972) 6 Bidding and Construction Support 110 $22,694 $22,694 6.1 RFIs (2) 2 1 4 4 11 $2,339 6.2 Addendum (1) 2 1 4 4 11 $2,339 6.3 1 Material Submittals (4) 16 1 16 16 48 $10,202 6.4 As-builts 8 81 81 1 16 40 $7,814 7 Management Reserve $0 $0 7.1 Management Reserve $21,541 7.2 Minus Unspent Management Reserve Budget ($21,541) Total 170 34 222 180 12 01 801 141 712 1 $76,548 1 $104,159 Estimated Direct Expenses Mileage & Other Expenses $590 Subconsultants $27,022 Total Expenses 1 $27,611 Notes and Assumptions: (1) See detailed Scope of Work dated 10/29/2024. (2) The City must approve all transfers of available budget between tasks prior to exceeding the estimated budget for an individual task. Project Fee Estimate Summary and Total Total Estimated Labor $76,548 Total Estimated Ex enses $27,611 Total Unspent Budget 1 ($95,794.54) Total Fee Estimate 1 $104,159 (3) Client shall be responsible for direct payment of all permit, agency review, advertisement, service or other project expenses not expressly included in the Project Fee Estimate and/or Scope of Work. David Evans and Associates, Inc. 14432 SE Eastgate Way, Suite 400, Bellevue, WA 98007 425.519.6500 www.deainc.com 1 Of Packet Pg. 89 2.8 City Council Agenda Item Meeting Date: 11/19/2024 Frances Anderson Center Investment Grade Audit Staff Lead: Phil Williams Department: Public Works & Utilities Preparer: Royce Napolitino Background/History The Frances Anderson Center was built in 1928 and renovated in 1947 and 1952. Formerly an Edmonds School District grade school, the building is on the local historic registry and has 55,000 s.f. of multi -use space and offices. Now, the Frances Anderson Center is owned and operated by the City of Edmonds and functions as the primary building for Parks department's recreation facility and administrative office spaces, as well as home to several community organizations and businesses. In 2019 the State enacted RCW 19-27A for Energy Performance Standards for commercial buildings. Now called the State Clean Buildings Act, it calls for existing building of 50,000 s.f. and above to meet new Energy Usage Index numbers in 2028 with a measurement and verification starting in 2026. The stated goal of the Clean Buildings Act is to increase energy efficiency and to lower the emissions created by the burning of fossil fuels. The Frances Anderson Center is the only City owned building meeting the 50,000 s.f. threshold and is heated by natural gas boilers that are near the end of their useful lives. In June, 2023 the presentation of the proposal for an Investment Grade Audit by McKinstry was made to the City Council and PPW Committee Meeting. The council moved forward in acceptance of McKinstry's proposal to identify and analyze performance -based contracting measures and produce a comprehensive Energy Services Proposal for upgrading the HVAC system at Frances Anderson Center. The payment and funding for this proposal, previously signed in 2023 by former Public Works Director Antillon, relies on an ending fund balance from 2023 fund 016.100 bond. Staff Recommendation Forward completed Investment Grade Audit document to City Council for filing. Authorize the Mayor to sign for payment of audit expenses. Narrative The Investment Grade Audit (IGA) identifies several Facility Improvement Measures, including: equipment recommendations; energy compliance strategies; projected energy/cost savings; maximum allowable project expense; and other data for creation of a project. The IGA Report demonstrates an HVAC update to bring the Frances Anderson Center in to measured compliance with the Washington State Clean Buildings Act. The update would de -carbonize the buildings heating infrastructure and provide building resilience to climate change, and eliminate fossil Packet Pg. 90 2.8 fuel emissions all while bringing the building into compliance with the mandated standards in the Clean Buildings Act. This IGA brings this project to 20% design with an estimated maximum price in 2024 dollars and guaranteed energy savings when implemented through the Department of Energy Services ESCO program. Attachments: IGA scope and definition_Aug2023 IGA payment app_Nov2024 City of Edmonds -Frances Anderson Center_IGA Report_24.10.23 Packet Pg. 91 DocuSign Envelope ID: 91DFDAF5-D3DF-475A-95B7-DOBD532869B8 2.8.a 4 0 try ile DI Your Building March 29, 2023 To: Thom Sullivan, Facilities Manager, City of Edmonds Cc: Novella Randall — Energy Engineer; Department of Enterprise Services From: Andrew Williamson — Municipal Business Manager; McKinstry Project: Frances Anderson Center (FAC) HVAC Upgrade Subject: Investment Grade Audit Proposal Dear Mr. Sullivan: The Frances Anderson Center is a pivotal recreation and cultural facility in the City of Edmonds. It also has a historical significance. The City is interested in upgrading the building's HVAC system to provide improved occupant comfort and experience. The City would like this upgrade to enhance the energy efficiency and operation of the City buildings through a performance -based contract with McKinstry. This proposal will provide the guidelines for which McKinstry will provide the following tasks: 1. Conduct an Investment Grade Audit of the HVAC system at the Frances Anderson Center (700 Main St, Edmonds, WA 98020) 2. Develop a comprehensive Energy Services Proposal for upgrading the HVAC System. INVESTMENT GRADE AUDIT (IGA): The audit will be a collaborative effort with City of Edmonds and the Washington State Department of Enterprise Services (DES). It will identify and analyze performance -based contracting measures along with their associated savings, costs, and potential for utility rebates and grants. The final deliverable of the IGA will be an Energy Services Proposal (ESP) for implementation of viable initiatives with associated energy cost savings. The following scope of work is included: ✓ Preliminary evaluation of the building's existing electrical infrastructure's available capacity. ✓ Identify and document existing HVAC system and its operation. ✓ Code review. ✓ Preliminary Load Analysis to establish new system's capacity and system alternatives. ✓ Preliminary system selection, zoning and sizing. ✓ Evaluation of Clean Building Performance Standard compliance for the proposed system. ✓ Preliminary Structural review to confirm installation of new system components. ✓ Review existing good faith surveys, identify and communicate any data gaps to the City ✓ Initiate discussion with local AHJ for clarifications etc as necessary. REQUESTED INFORMATION: For effective execution of this proposal we ask that the City of Edmonds provide access to the following: ✓ Good Faith Survey for the building in scope. ✓ Historical utility bills for the last 60 months. ✓ All mechanical, electrical, architectural, structural and building controls drawings. ✓ Access to Building Automation System (BAS). ✓ All operational and maintenance manuals, balancing records, & specifications. ✓ Operational records related to the cost of maintaining specific equipment. ✓ Information with regards to any on -going maintenance contracts. ✓ Access to individuals that have relevant information pertaining to the day-to-day operation of energy using systems on site. 5005 Third Avenue South * Seattle, WA * 98124-0567 * 206.762.3311 * Fax 206.762.2624 Packet Pg. 92 DocuSign Envelope ID: 91 DFDAF5-D3DF-475A-95B7-DOBD532869B8 2.8.a try Page 2 4: 0/ Your Building TIMELINEAND MILESTONES: McKinstrywill initiate this scope of work immediately upon acceptance of this proposal and establishment of a professional services agreement based on McKinstry's existing master agreement with the Department of Enterprise Services (DES). Formal progress review meetings will be conducted regularly throughout the study phase. During these review meetings, McKinstry will recommend measures based on the analysis, while the City of Edmonds and DES will provide final direction regarding recommended measures. The goal of these review meetings is to focus engineering efforts, budgeting, and savings assessment on those solutions that possess a high probability for implementation. McKinstry will target completion of the IGA within 105 calendar days of a notice to proceed. CRITERIA FOR IMPLEMENTATION: It is the City of Edmonds's intent that McKinstry will implement all approved projects that meet the following criteria. ✓ Facility Improvement Measures shall be life cycle cost effective as an aggregate using the Office of Financial Management (OFM) life cycle cost model tool. ✓ Not more than 90% of the energy cost savings may be used to help repay a loan, if applicable. ✓ McKinstry will work with the clients' utilities and other entities to secure conservation grant funding or low interest loans for applicable measures. ✓ Client may list favorable subs and equipment Investment Grade Audit Fee: The City of Edmonds will reimburse McKinstry for a lump sum of $92,500 for this scope of work. All fees assessed under this proposal will be included in the final project implementation costs. In the event that McKinstry is unable to recommend projects that meet the criteria above, the City of Edmonds has no financial obligation to McKinstry. However, if the recommendations meet or exceed the Criteria for Implementation and the City of Edmonds chooses not to enter into an agreement with McKinstry to install the projects, the City of Edmonds will reimburse McKinstry for the Investment Grade Audit fee. All associated information, including deliverables, will become the property of the City of Edmonds upon final receipt of payment. Deliverables are listed in attachment (A). We look forward to working with the City of Edmonds and DES on a successful project. Please call should you have any questions. Shelby Sawyers, McKinstry Energy Services Account Executive 206.658.4389 5005 Third Avenue South * Seattle, WA * 98124-0567 * 206.762.3311 * Fax 206.762.2624 Packet Pg. 93 DocuSign Envelope ID: 91 DFDAF5-D3DF-475A-95B7-DOBD532869B8 2.8.a instry Page 3 life 01 rour Building Attachment A Investment Grade Audit Deliverables The Investment Grade Audit for the City of Edmonds Frances Anderson Center will include the following elements: 1. A description of the systems which shall receive new Equipment and Services; 2. The cost-effective Facility Improvement Measures (FIMs) to be installed or caused to be installed by McKinstry and a description of the FIMs analyzed but disqualified under the cost effectiveness criteria; 3. A description of the services that McKinstry will perform or cause to be performed on or in the infrastructure, including but not limited to engineering, construction management, the operations and maintenance procedures for use on Equipment, training for personnel, warranty service provided, and equipment maintenance provided; 4. The Maximum Allowable Project Cost, itemized in detail, which may be amended to represent actual costs; 5. Recommendations for replacement of existing equipment, along with recommendations for improvements to existing equipment and operating conditions; 6. The service standards appropriate for the infrastructure; 7. The baseline energy consumption, including the data, methodology and variables used to compute the baseline, and the baseline calendar period which shall not be less than twelve (12) months; 8. The estimated energy savings and energy cost savings that are expected to result from the installation of the Equipment and from the Services, and an explanation of the method used to make the estimate; 9. The method by which Energy Savings and Energy Cost Savings will be calculated during the term of the Energy Services Agreement; 10. A description of how project financing (if allowed by the client) will be completed; 11. A description of how the Energy Savings will be guaranteed by McKinstry; 12. A description of how McKinstry proposes to be compensated; 13. The term of the Energy Services Authorization; 14. The Termination Value for each year during the term of the Energy Services Authorization; 15. The schedule for project completion; 16. The nature and extent of the Work and equipment that ESCO anticipates it will receive from other firms under subcontract. 5005 Third Avenue South * Seattle, WA * 98124-0567 * 206.762.3311 * Fax 206.762.2624 Packet Pg. 94 2.8.a rr Q Packet Pg. 95 DocuSign Envelope ID: 91 DFDAF5-D3DF-475A-9567-DOBD532869B8 2.8.a STATE OF WASHINGTON DEPARTMENT OF ENTERPRISE SERVICES 1500 Jefferson St. SE, Olympia, WA 98501 PO Box 41476, Olympia, WA 98504-1476 April 11, 2023 TO: Mayor Mike Nelson, City of Edmonds FROM: Kim Obi, Contracts Specialist, (360) 972-5003 RE Agreement No. 2023-037 A (1) Investment Grade Audit — Francis Anderson Center (FAC) HVAC Upgrade IAA No. K5211 McKinstry Essention, LLC SUBJECT: Funding Approval - REVISED The Dept. of Enterprise Services (DES), Energy Program, requires funding approval for the above referenced contract documents. The amount required is as follows: ESCO Audit Total Funding $ 92,500.00 $ 92,500.00 In accordance with the provisions of RCW 43.88, the signature affixed below certifies to the DES Energy Program that the above identified funds are appropriated, allotted or that funding will be obtained from other sources available to the using client/agency. The using/client agency bears the liability for any issues related to the funding for this project DoeuSlgnod by: By (S�scaur ainiliel� 8/7/2023 Name / Title Date Please sign and return this form to E&AS. If you have any questions, please call me. 202303 7Aagrfund RE Vko Packet Pg. 96 2.8.a rr Q Packet Pg. 97 2.8.a ENERGY SERVICES AUTHORIZATION NO. 2023-037 A (1) - REVISED Detailed Investment Grade Energy Audit & Energy Services Proposal Agreement City of Edmonds Francis Anderson Center (FAC) HVAC Upgrade April 11, 2023 MAIN ENERGY SERVICES AGREEMENT NO. 2021-121 H (8) The Owner and the Energy Services Company (ESCO) named below do hereby enter into this Authorization under terms described in the following sections: Authorization to Proceed Project Conditions Compensation for Energy Services I. AUTHORIZATION TO PROCEED: Energy Services Company: McKinstry Essention, LLC PO Box 24567 Seattle, WA 98134 Telephone No. (206) 762-3311 Fax No. (206) 658-1769 E-Mail wades(&nick inst .com By Name Robert Hail Title Regional Director Date 4/11/2023 Owner: City of Edmonds acting through the Department of Enterprise Services Energy Program PO Box 41476 Olympia, WA 98504 By Name Kirsten G. Wilson. PE Title Energy Program Manager Date 8.8.23 State of Washington Contractor's License No. MCKINEL874CL State of Washington Revenue Registration No. 603 259 907 MWBE Certification No. II. COMPENSATION FOR ENERGY SERVICES: Basic Services COMPENSATION — Energy Audit and Ener�� Services Proposal $ 92,500.00 Grand Total(phis NI'SST as applicable) $ 92,500.00 Authorization No. 2023-037 A (1) Page 1 of 2 Packet Pg. 98 2.8.a III. PROJECT CONDITIONS: The Project Conditions contained in the Main Energy Services Agreement will be used unless specifically changed herein. The cost effectiveness criteria for this project are per the McKinstry Essention, LLC proposal dated March 29, 2023. IV. SCOPE OF WORK: Per the ESCO proposal dated March 29, 2023, conduct a Detailed Investment Grade Energy Audit of City of Edmonds, Francis Anderson Center (FAC), to identify cost effective energy conservation measures and present a written Energy Services Proposal, including all energy audit documentation. The ESCO shall prepare the final Energy Services Proposal, detailing the actual energy services and ESCO equipment to be provided, energy savings and cost guarantees, measurement and verification plans, and commissioning plans for the proposed measures. Measures will include items that save energy, water and other resources. The Cost Effectiveness Criteria for this project shall be as established in the Main Energy Services Agreement or as modified in Section III above. V. SCHEDULE FOR COMPLETION Final completion of the Energy Audit and Energy Services Proposal within 105 calendar days after Authorization to Proceed. 2023037AagrREVko Authorization No. 2023-037 A (1) Page 2 of 2 Packet Pg. 99 2.8.b Owner approved IGA report 10/30/24 FORM STATE OF WASHINGTON A;,2aE1 INVOICE VOUCHER AGENCY NAME City of Edmonds c/o Energy Program, Department of Enterprise Services 1500 Jefferson Street SE, P.O. Box 41476 Olympia, WA 98504-1476 A«n: Novella Randall VENDOR OR CLAIMANT McKinstry Essention LLC. PO Box 3895 (5005 3rd Ave. S.) Seattle, WA 98124 AGREEMENT NO. AGENCY NAME City of Edmonds c/o Energy Program, Department of Enterprise Services 1500 Jefferson Street SE, P.O. Box 41476 Olympia, WA 98504-1476 A«n: Novella Randall VENDOR OR CLAIMANT McKinstry Essention LLC. PO Box 3895 (5005 3rd Ave. S.) Seattle, WA 98124 AGREEMENT NO. 'NVOICF DATF 'NVOICr NO 2023-037 A (1) 10/9/2024 1 VENDOR'S CERTIFICATE. I HEREBY CERTIFY UNDER PENALTY OF PERJURY THAT THE ITEMS AND TOTALS LISTED HEREIN ARE PROPER CHARGES FOR MATERIALS, MERCHANDISE OR SERVICES FURNISHED TO THE STATE OF WASHINGTON, AND THAT ALL GOODS FURNISHED OR SERVICES RENDERED HAVE BEEN PROVIDED WITHOUT DISCRIMINATION ON THE GROUNDS OF RACE, CREED, COLOR, NATIONAL ORIGIN, SEX, OR AGE. FEDERAL TAX ID NO.: 46-1563231 FAII LIRF TD PROVIDE THIS IAW-FIR VJILI RPSLR T IN DELAY OF PAVMF I JT McKinSLly E,1110on Pro;ecL #207791/ 1— #20076426 City or Edmonds F—ca., And- on Center HVAC Witt ur4d IIII nee CN GUS E �.wamLie <an. Dave Robinau h'* r"`& E.<. «� BY: 9 OU-IICWDrrRoew.. am M41004 vu soorw .NAM1 TITLE Operations Man ag or DATE DESCRIPTION AMOUNT FOR AGENCY USE Total Earned to Date $92,500.00 Plus 0.0% Washington State Sales Tax $0.00 Gross Earned to Date $92,500.00 Less Previously Invoiced $0.00 AMOUNT DUE THIS INVOICE $92,500.00 . :li&deC6;1�G8d+ith: iWVC�bCCn:rBCCvCQ) : � ') : )' � ; C : � • �' � ; � ; � •) :) •) : � ;) ; � ; _ .. - t•-:••el't�Rci:Pfj riaM :::::::::::::::.:::.i;i;:;:;:;:j:j:j;j:j: 4epaoineoi oTSoiejx� 5e•irtajes: � : � • � : � : � :: -:::: � : � ::::::: � :::: • � :: No i FR°NARFD B� T-1 FPHONE NUMBER )AIF AGENCY APPROVAI J 7ArF DOC UAIF PVI I;IIr DAII :URRI NI DOC NO IREF DOC NO JFNDOR NUMBER USE IAX VINDOR MLSSAGE JRI NUMBER REF SUI IRANS COUI M 0 I: FUND MASTrR INDEX SUB OI;J gIIR SUB OBIFCI ORC INDrX WORK Cl ASS Al IOC C0 CITY/ !OWN PROJECT SUB PRnj PROJ PIIAG AMOUNI INVOICE NUMBER A('PFN INI)IX FROG INDIX APPRCVrD ron PAYMr NIT BY 1ATr WARRANT TOTAI WARRANT NUMBER Packet Pg. 100 2.8.b STATE OF WASHINGTON DEPARTMENT OF ENTERPRISE SERVICES ENERGY PROGRAM 1500 Jefferson Street SE, P.O. Box 41476 Olympia, Washington 98504-1476 APPLICATION FOR PAYMENT JPROJECT NO. ESCO PROJECTNX%IF INVOICE 2023-037 A (1) McKinstry Essention LLC. City of Edmonds Frances Anderson Center 1 DATE PROFESSIONAL SERVICES (PS) AGREEMENT SUMMARY 10/9/2024 BASIC SERVICES LUMP SUM or TIME AND MATERIALS DESCk1PTIGN of WORK fee amount % total earned previously inv. this invoice Audit/ESP $92,500.00 100% $92,500.00 $0.00 $92,500.00 Design $0.00 0% $0.00 $0.00 $0.00 Construction Management S0.00 0% $0.00 $0.00 $0.00 Overhead and Profit $0.00 0% $0.00 $0.00 $0.00 Apprenticeship Fee $0.00 0% $0.00 $0.00 $0.00 BASIC SERVICES SUBTOTAL $92,500.00 $92,500.00 $0.00 $92,500.00 ADDITIONAL SERVICES item authorization item description amendment fee IL total earned pfeviously inv. this inv. 1 Amendment 1 $0.00 0% $0.00 $0.00 $0.00 2 Amendment 2 $0.00 0% $0.00 $0.00 $0.00 3 Amendment 3 $0.00 0% $0.00 $0.00 $0.00 ADDITIONAL SERVICE SUBTOTAL $0.00 $0.00 $0.00 $0.00 authorized total earned prewocjsly inv. ties inv. PS SUBTOTAL (Basic +Additional Services) $92,500.00 $92,500.00 $0.00 $92.500.00 Plus WSST (Tax Location Code) 0.0% $0.00 $0.00 $0.00 $0.00 INVOICE TOTAL 592.500.00 S92 500.00 $0.00 $92,500.00 Packet Pg. 101 2.8.b A0 Washington State Department of Enterprise Services ENERGY PROJECT AGREEMENT COMPLETION NOTICE PROJECT NO. PROJECT TITLE 2023-037 Francis Anderson Center HVAC Upgrade THE FOLLOWING PORTION OF THIS PROJECT IS COMPLETED: ❑✓ Audit ❑ Professional Services ❑ M&V [_]Other (Specify) I � ACTION TO BE TAKEN: ❑✓ Close Agreement No. 2023-037 A (1) ❑ Close Project ❑ Files Other (IAA) ❑✓ CHECK B2Gnow Closeout ESCO CONSULTANT PROJECT MANAGER'S SIGNATURE DATE CLIENT AGENCY'S SIGNATURE DATE HERAMB AMONKAR 10/30/2024 ENERGY PROJECT MANAGER'S SIGNATURE DATE ENERGY PROGRAM MANAGER'S SIGNATURE DATE "Novella Randall, DES 10/30/24 Energy Completion Notice 2/16 NOTES: (Close audit 2023-037 A (1). IGA report delivered and approved Packet Pg. 102 2.8.b a m /L^ V E cn L d c d U c O N L a N d C,1 C m L N O N O Z I O_ O_ O w c d E m O_ Q 0 C a� E t c� Q Packet Pg. 103 .................... City of Edmonds Frances Anderson Center HVAC Upgrades DES Project # 2023-037A(1) INVESTMENT GRADE AUDIT REPORT EDMONDS, WASHINGTON OCTOBER 10, 2024 For the Life of Your Building For 2.8.c Project Contacts AREA OF RESPONSIBILITY NAME CONTACT NUMBER EMAIL Primary Client Contact Thom Sullivan (425) 275-4515 thom.sullivan@edmondswa.gov WA DES Representative Novella Randall (360) 790-3667 novella.randaII@des.wa.gov McKinstry Account Shelby Hinkle Executive (206) 658-4389 shelbyh@mckinstry.com heramba@mckinstry.com McKinstry Program I Heramb Amonkar (206) 832-8765 Manager CONFIDENTIAL & PROPRIETARY I CITY OF EDMONDS FRANCES ANDERSON CENTER Pag Packet Pg. 105 2.8.c Contents SECTION 1. EXECUTIVE SUMMARY.................................................4 1.1 Overview 1.2 Current Situation 1.3 Solutions 1.4 Summary of Benefits 1.5 McKinstry Differentiators 1.6 Environmental Impact Calculator SECTION 2. SCOPE OF WORK.......................................................9 2.1 Facility Improvement Measure (FIM) List 2.2 McKinstry Services SECTION 3. ENERGY SAVINGS GUARANTEE ................................... 55 3.1 Energy Savings Methodology 3.2 Energy Savings Summary SECTION 4. PROJECT COST ....................................................... 57 4.1 Items Included in Project Cost 4.2 Budget Table 4.3 Value Engineering Opportunities SECTION 5. APPENDICES.......................................................... 66 5.1 Items Included in Project Cost 5.2 Equipment Cutsheets 5.3 Clean Buildings Performance Standard Benchmarking Report 5.4 Energy Calculations CONFIDENTIAL & PROPRIETARY I CITY OF EDMONDS FRANCES ANDERSON CENTER Pag Packet Pg. 106 2.8.c 1. Executive Summary 1.1 Overview Through the Washington State Department of Enterprise Services (DES) Energy Savings Performance Contracting (ESPC) program, McKinstry has completed an extensive study and investigation of energy upgrades for City of Edmonds. Our Energy Services Proposal presents a holistic project solution for improving the overall facility efficiency and operation. Our proposed solutions will result in lower utility use and cost along with improved building system performance and occupant productivity. 1.2 Current Situation CHALLENGES • The building has two natural gas fired boilers, one for steam and one for hot water that are beyond useful life. Replacing with natural gas boilers commits the building to fossil fuel use for the life of the equipment. • The building does not have cooling causing comfort issues in the summer and at times requiring change to space programming. • The building does not have mechanical ventilation and uses operable windows. There is a lack of Indoor Air Quality Control. • The current Building Management System is a simple interface with system level scheduling, on/off commands, and alarms. The hot water plant is run on an aging natural gas fired circulating water heater (manuf. 2003) and storage tank. GOALS • Replacing fossil fuel based heating system with high efficiency all electric heat pumps. • Providing cooling and mechanical ventilation to improve occupant comfort and experience. • Carbon emissions reduction to support the City's Climate Action Plan. • Improved reliability of equipment and reduced maintenance. Planning and executing construction with consideration to the extensive building use and requirements of the tenants. 1.3 Solutions This project includes: FIM ID #50943 — 03.01-FAC: Upgrade HVAC System to VRF The proposed project would install a new variable refrigerant flow (VRF) system for heating and cooling as well as a dedicated outdoor air system (DOAS) for ventilation. All existing thermostats, radiators, unit ventilators, pumps, boilers and associated hydronic piping would be demolished. The gymnasium AHUs would be refurbished with new fans, VRF coils, filters, and variable frequency drives. The existing natural gas domestic hot water plant would be demolished and replaced with a new electric hybrid system. CONFIDENTIAL & PROPRIETARY I CITY OF EDMONDS FRANCES ANDERSON CENTER Pag Packet Pg. 107 2.8.c 1. Executive Summary 1.4 Summary of Benefits FINANCIAL BENEFITS The preliminary project budget is $9,180,909 - $10,201,009 for turnkey engineering, procurement, and implementation. The proposed project schedule is developed strategically to advance the engineering and procurements efforts as interim funds become available. This will align the project construction start with funding availability, resulting in shorter project development and implementation durations. Earlier implementation mitigates cost escalations and advances carbon emission reductions. ENVIRONMENTAL BENEFITS By taking the necessary steps to reduce energy consumption through the implementation of the various facility improvement measures detailed in this report, City of Edmonds will attain the savings outlined in the outcome snapshot on the left. This is equivalent to: • 17 average -sized homes being removed from the power grid; or • 26,515 light bulbs (13.5 Watt LED) not energized; or • 675,156 miles not driven by an average size vehicle. NEXT STEPS • Proceed with Engineering Design to complete selection of long lead time equipment and engage external stakeholders including the local Historic Preservation Committee, utility, and energy code AHJ. • Establish project Guaranteed Maximum Budget (GMAX) based on design updates and stakeholder approvals. Deliver Energy Services Proposal (ESP) to the City. • Update project financial plan to align cash flows for expected funding allocation, long lead time procurement, and construction costs. 1.5 McKinstry Differentiators COMPANY OVERVIEW McKinstry has over 50 years of experience assessing and improving facilities in the Pacific Northwest. With more than 1,500 successful energy and facility improvement projects completed in the past 15 years, McKinstry has the expertise to offer comprehensive solutions to City of Edmonds. McKinstry is more than just another energy services company, we believe in serving as your trusted advisor "For the Life of Your Building." MCKINSTRY APPROACH ADVANTAGES • Vendor- and product -neutral for truly consultative role • Transparent pricing • Total cost of ownership consideration • No "shared savings" model CONFIDENTIAL & PROPRIETARY I CITY OF EDMONDS FRANCES ANDERSON CENTER Pag Packet Pg. 108 2.8.c THIS PAGE LEFT INTENTIONALLY BLANK Pag Packet Pg. 109 City of Edmonds Environmental Impact Calculator Total Load Factor to Use TPU Commerce 2020 Select Factor Amount Each Utility Type Will Be Reduced Per Yeai Electricity 0.00454 Ibs COZe/kWh (Electricity Emissions Factor) -182,884 kWh = -829 Ibs CO2 -0.4 Metric Tonnes CO2 Fossil Natural Gas 19,171 Therms = 382,651 Ibs COZ 173.6 Metric Tonnes CO2 Steam 0 Mlbs = 0 Ibs CO2 0.0 Metric Tonnes CO2 Fuel Oil 0 Gallons = 0 Ibs CO2 0.0 Metric Tonnes CO2 Propane 0 Gallons = 0 Ibs CO2 0.0 Metric Tonnes CO2 Total Reduction = 381,822 Ibs CO2 173.2 Metric Tonnes CO2 Other Emissions Factors Fossil Natural Gas (ASHRAE Std. 189-2017 Table 7.5.2): 19.96 Ibs CO2 / Therm Steam (Seattle Steam): 195.364 Ibs CO2 / Mlbs Fuel Oil: 22.384 Ibs CO2 / gal Propane: 12.5 Ibs CO2 / gal Conversion: 2204.62 Ibs CO2 / Metric Tonnes CO2 Eauivalents Conversions Car Emmissions: 11,470 Ibs CO Z/ car / yr Tree Carbon Sequestation: 8,066 Ibs COZ/ acre / yr Vehicle Mileage Emmissions: 0.59 Ibs CO2/ mile 13.5 W Light Bulb Emmissions: 14.4 Ibs CO z/ Light Bulb / yr Tree Carbon Sequestation: 8,066 Ibs COZ/ acre / yr Coal Emmisions: 2.14 Ibs COZ/ pound Coal Houses Removed: 22,880 Ibs CO2/ house Sources: * Energy Information Agency (EIA) * Environmental Protection Agency (EPA) * ENERGY STAR * eGRID 2020 (If eGrid Subregion or Local Utilities Chosen) * NWPCC Report dated June 13, 2008 (If WADES Factor Chosen) 2.8.c 4�nstry IhM M1n MwM Y This Annual Emissions Reduction Is Equivalent To The Following: 33 Number of Vehicles Removed From Roads (Avg Size); or 647,156 Number of Miles Not Driven Per Year (Avg Size); or 26,515 Number of 13.5 Watt Light bulbs Not Energized; or 17 Number of Avg Sized Houses Removed From Power Grid; or 47 Acres of Trees Planted; or 178,421 Pounds of Coal Not Burned Per Year Pag Packet Pg. 110 2.8.c THIS PAGE LEFT INTENTIONALLY BLANK .r Q Pag Packet Pg. 111 2.8.c 2. Scope of Work 2.1 Facility Improvement Measure(FIM) List For full descriptions of the scope of work of each measure, please refer to Section 2 - Detailed Scope of Work. FIM ID #50943 — 03.01-FAC: Upgrade HVAC System to VRF CONFIDENTIAL & PROPRIETARY I CITY OF EDMONDS FRANCES ANDERSON CENTER Pag Packet Pg. 112 2.8.c Detailed Scope of Work FIM ID # 50943 03.01-FAC: Upgrade HVAC System to VRF Edmonds Frances Anderson Center GENERAL Existing: The facility is currently heated using two (2) natural gas -fired hot water and steam boilers. These boilers serve radiators and unit ventilators that are controlled room -by -room via local thermostats. The gymnasium is served by two (2) air handling units also served by the hydronic system. No mechanical cooling exists, and ventilation is via operable windows. The existing BMS is a simple interface with scheduling, on/off commands, and alarms. The existing domestic hot water plant consists of a natural gas -fired, circulating water heater (manuf. 2003) and a storage tank. Proposed: Demo all existing thermostats, radiators, unit ventilators, pumps, boilers and associated hydronic piping. Install a new variable refrigerant flow (VRF) system for heating/cooling and a dedicated outdoor air system (DOAS) for ventilation. Refurbish the gymnasium AHUs with new fans, VRF coils, filters, and variable frequency drives. Demo the existing natural gas domestic hot water plant and replace with a new electric hybrid system. SCOPE OF WORK INCLUDES Equipment Furnished by ESCO A. See Equipment List for more information and accessories. B. VRF Master System Controller C. VRF Master System Controller to BMS Gateway D. Furnish and install new thermostats from VRF manufacturer. See sketches for quantity. E. AHU-1 Fan F. AHU-2 Fan G. AHU-1 Coil H. AHU-2 Coil I. DOAS-1 J. DOAS-2 K. DOAS-3 L. ODU-1.1 through ODU-10 (QTY: 14) M. UCK-1.1 through UCK-5 (QTY: 7) N. MCU-1.1 through MCU-7 (QTY: 12) 0. HWH-1 P. HWH-2 Q. DWCP-1 R. ET-1 S. TMV-1 (to be furnished by the plumbing contractor) T. AC-1 U. CU-1 V. RCP-1 through RCP-14 (QTY: 14) (specified by mechanical, furnished and installed by electrical) W. IDU-1.1 through IDU-58 (QTY: 101) X. CP-1.1 through CP-49.3 (QTY: 50) Mechanical A. Demo — Mechanical Contractor to cap existing piping that is not being removed and make safe all mechanical items to be removed. 1) See Mechanical Demolition Sketches for detailed information. 2) Sheet Metal (i) Demo all existing thermostats throughout the entire building. (i i) Demo exhaust fans, all associated ductwork, and grilles (where noted on sketches). (iii) Demo louver adjacent to existing electrical room. (iv) Demo existing fan in (2) existing gym AHUs in the Gym Mezzanines. (v) Demo existing filter in (2) existing gym AHUs in the Gym Mezzanines. 3) Piping (i) Demo all steam and hot water radiators, unit ventilators, and wall heaters, including their associated control valves throughout the entire building (QTY: 79). (i i) Demo all accessible steam and hydronic piping throughout the entire building. Cap and abandon inaccessible piping. (iii) Demo all natural gas piping throughout the entire building, including the gas meter. Cap and abandon natural gas piping running to utility. h pstly PROPRIETARY AND CONFIDENTIAL Page °'"'""°'" Packet Pg. 113 2.8.c Detailed Scope of Work iv Demo steam and hot water natural as boilers and all associated piping entire) including: (� ) 9 P�P� 9 Y � 9: Q (a) Flue d (b) Combustion air (c) Natural gas L (d) Hot Water/Steam (e) Valves (f) Chemical Treatment E (g) Drains -' (v) Demo pumps in Mechanical room (QTY: 4) (vi) Demo existing coil in (2) existing gym AHUs in the Gym Mezzanines. _ 4) Plumbing (i) Demo natural gas water heater. (i i) Demo expansion tank. y (iii) Demo storage tank. C) (iv) Demo thermostatic mixing valve. _ (v) Demo hot water recirculation pump in Mechanical room. N (vi) Demo existing plumbing only as far as needed to install new system. 4) B. New Work = 1) See Mechanical New Work Sketches for detailed information. Q 2) Sheet Metal 00) (i) Install (3) new DOAS units on the roof on 4X douglas fir sleepers (see Structural scope of work). (i i) Furnish and install all new supply and exhaust ductwork. M (iii) Furnish and install sidewall and ceiling supply and exhaust grilles with manual balancing dampers. Sizes as LL shown on the mechanical drawings. (iv) Clean and refurbish (2) Gym AHUs in Gym Mezzanine: N (a) Install new plenum fan in the existing cabinet. c (b) Install new VRF coil in the existing cabinet. 7 (c) Furnish and install new MERV-13 filters in the existing cabinet. N (d) Furnish and install new drain pan in the existing cabinet. 1 3) Piping C (i) Furnish and install all new refrigerant piping. C (a) Provide white PVC covers for all exposed refrigerant piping. W (i i) Furnish and install all new condensate piping. Q (iii) Install new floor or wall -mounted indoor units. (iv) Furnish and install refrigerant Iineset covers where noted on sketches. LI (v) Install condensate pumps either in indoor unit cabinets or Iineset covers. w (vi) Install new outdoor units. y (vii) Install new Samsung universal communication kits. U (viii) Install new mode control units. _ 4) Plumbing y (i) Install new hybrid water heaters. m (i i) Install new recirculation pump. (iii) Install new expansion tank. Q (iv) Furnish and install new thermostatic mixing valve. v� (v) Furnish and install new plumbing as needed to reconnect new domestic hot water plant equipment to the existing plumbing. 5) Misc. LL (i) Permanent Fall Protection for Construction and Maintenance N (a) For (2) rooftop DOAS units (DOAS-1 & 2), no parapet or permanent fall protection exists. Provide permanent tie -off locations for fall protection for construction and maintenance. Refer to Structural p scope of work for more information. E (i i) Insulation W W (a) Insulate all new piping per 2021 WSEC requirements. .- (b) Insulate all new ductwork per 2021 WSEC requirements. 0 3. Controls A. Refer to attached points list/narrative for detailed Controls scope. U 1) Note: VRF Master System Controller and VRF Master System Controller to BMS Gateway are furnished by ESCO, not Controls Contractor. m B. Demo all existing thermostats throughout the building. E C. Demo all existing controls wiring and conduit throughout the building. D. Furnish and install all new controls wiring, conduit, raceways throughout the building. This includes all wiring w Q h nstry PROPRIETARY AND CONFIDENTIAL Page Packet Pg. 114 2.8.c Detailed Scope of Work needed for VRF system. E. All new control points and schedules to be visible from the BMS. Upgrade existing graphics and BMS to fully accommodate new system. 4. Acoustical A. No acoustical analysis was provided as part of this IGA. Acoustical review of the new mechanical systems and impact to building environment can be included in Design at direction of Owner. 5. Vibration Isolation A. Provide min thickness 1/8" neoprene pads and isolated anchor bolts for all outdoor condensing units. 6. Electrical A. Basic Scope: Electrical service upgrade -- driven by comprehensive HVAC upgrade in building - and the electrical work associated with the new HVAC equipment. B. 30-Day Metering: 30-Day Metering will be required for (12) panels: SBD-1, SBD-2, 1A sec. 1, 1B, 1C, 1D sec. 1, 1E sec. 1, 2A, 2B, 2D sec. 1+2, and 3A. C. Demo: 1) See Electrical Scope Table' and Electrical Sketch Package'. D. New Work 1) Provide (6) new service outlets at new Outdoor Unit locations. 120 volt, 20 amp, GFCI, Weatherproof Cover. 2) Furnish and install fourteen (14) radiant ceiling panels that are specified by the mechanical engineer. 3) Relocate existing light bollard in central courtyard. Intercept existing, buried branch circuit to bollard. Extend conduit from interception point to new location of bollard, -20 ft. west. Pull new branch circuit conductors all the way from the electrical panel to the new bollard location. Assume 200 lineal feet total for new circuit conductors. Trenching and backfill by others. 4) For additional new work, see 'Electrical Scope Table' and Electrical Sketch Package'. E. Exterior Work in SnoPUD transformer area: 1) Electrical contractor: There will be electrical contractor scope on the exterior of the building, related to the new Snohomish County PUD transformer and service run. See 'Electrical Sketch Package'. 2) Other Trades: There will be construction scope on the exterior of the building for other trades, related to the new Snohomish County PUD transformer and service run, including, but not limited to excavation and backfill. See Electrical Sketch Package'. 7. Structural A. Wood 1) Pressure treated 6x8 Douglas Fir sleepers to be provided each side of DOAS units at low roof wings and span to a minimum of (2) existing glulam beams. Sleepers to fully support each longitudinal side of the DOAS units as well. Provide lag screws and A35 clips for seismic/wind attachment to existing roof framing. 2) At new openings in wood frame diaphragms, provide 4x8 Douglas Fir block out framing with LU hangers to existing framing. 3) Screen wall design is excluded from scope for DOAS 1 and 2 over the low roofs. 4) Fall protection assembly to include (2) stanchions per DOAS unit. Provide 3" vertical steel pipe with 1/2" plate and 1/4" lag screws to side of existing glulam beams. 5) At DOAS-3, provide a pre -manufactured permanent external ladder. Attach mounting points to existing wall studs with lag screws or other recommended fasteners per manufacturer's direction. 6) At mechanical piping and ducts above the roof, provide 16" long pressure treated 4x8 Hem Fir sleepers and light gage angles positively attached to existing framing below. Provide cap flashing, cant strip and strut base with caddy block infills. Provide pipe support spacing in accordance with ANSI/MSS SP-69 & SP-58. B. Concrete 1) At exterior conditions, provide 4" concrete housekeeping pads with 18" deep by 6" wide thickened perimeter lip for new outdoor units. Provide #4 bars at 18" on center each direction. 2) At interior conditions, provide 4" concrete housekeeping pads new indoor units. Provide #4 bars at 18" on center each direction. 3) Concrete requires special inspection per IBC Table 1705.3. 4) Design seismic/wind attachment connection of mech equipment to new concrete housekeeping pads. Provide expansion anchors at each corner of units. Special inspection is required for concrete anchorage. 5) All saw -cutting and core drilling locations shall be submitted to the structural engineer for approval prior to construction. Contractor to image wall/floors as necessary to locate existing reinforcement and minimize cutting. Contractor shall field verify all existing conditions and coordinate openings with existing structure. 6) See typical electrical duct bank detail for concrete reinforcement and encasement of electrical conduit. Refer to the 'Electrical Sketch Package' for location of the conduit duct bank. C. Steel 1) At DOAS-3, provide a steel screen wall per GMAX detail and notes below. (i) 4" diameter galvanized 10 ft tall pipe posts spaced at 12 ft maximum. h nstI'y PROPRIETARY AND CONFIDENTIAL Page Packet Pg. 115 2.8.c Detailed Scope of Work (ii) (3) HSS 6x4x1/4 galvanized girts per bay. (iii) 3" diameter galvanized steel diagonal pipe braces. (iv) 1/2" corrugated metal deck with minimum 20 gage painted and maximum span of 5 ft. (v) 6x8 flush wood beams at post and brace landings with LU hangers to existing framing and lag bolts to steel base plates above. 8. Roofing A. Weather-proof all roof penetrations patched by carpentry. B. Wood sleepers for (3) DOAS rooftop units to be fastened directly to roof. Provide roofing/weatherproofing work for these (3) units. C. Weatherproof new roof penetrations for ductwork and piping. See sketches for locations. 9. Landscaping A. Remove existing trees and shrubbery required to install new concrete housekeeping pads for new condensing units. B. Remove existing tree and shrubbery required for installation of the new electrical duct bank. 10. Excavation and Backfill A. Provide necessary excavation and backfill for the new electrical duct bank as shown on Electrical Drawing E-5, Detail 3. 11. Carpentry A. Demo 1) Demo existing plywood ceiling for demolition and new construction work where noted on sketches. B. General Carpentry 1) Modifications required at existing door out of Main Electrical Room. See "Electrical Sketch Set". 2) Patch all interior and exterior wall penetrations leftover from demolition work and not reused for new construction. 3) Patch all roof penetrations leftover from demolition work and not reused for new construction. 4) Where wall penetrations are through wood -framed walls, provide new wall penetrations for new ductwork and piping. See sketches for locations. 5) Provide new roof penetrations for ductwork and piping to rooftop equipment. See sketches for locations. C. Ceilings 1) Repair/install new plywood ceiling wherever demolished for new construction work. See sketches. 2) Provide 24"x24" access panels for new mode control units above plywood ceilings. D. Drywall — patch all walls where existing equipment is being removed. E. Flooring — patch existing flooring where needed as existing equipment is being removed. 12. Glazing A. Main Electrical Room shall remain as -is. The window will be covered by the new switchgear. B. Window removal as required in the courtyard for refrigerant piping routing to interior of the building as shown on Mechanical Drawing 1 of 9, Note 8. 13. Painting A. Paint all patched interior and exterior wall penetrations leftover from demolition work and not reused for new construction. B. Assume touch-up paint work will be required for all demolished steam and hot water radiators, unit ventilators, and wall heaters. Field verify extent. 14. Fire Alarm A. Existing manual pull -station at door out of Main Electrical Room to be relocated as a result of modifications to that door. See Electrical Sketch Set'. 15. Fire Sprinkler A. Where new electrical distribution equipment is installed below existing fire sprinkler piping and/or heads, the piping and heads will need to be relocated. Fire sprinkler piping and heads are not permitted above electrical equipment. B. Modify existing fire sprinkler system as needed for installation of new ductwork and piping. Field verify extent. 16. Testing, Adjusting, and Balancing (TAB) A. Provide full TAB of all new equipment and grilles. 17. Commissioning A. Provide full functional performance testing of all new equipment. 18. Demolition and Removal Specialty Contractor A. Mechanical contractor to cap existing piping and make safe all mechanical demolition items to be removed by demo contractor. 19. Training A. Provide training as required for this FIM. nstr I PROPRIETARY AND CONFIDENTIAL Page Packet Pg. 116 2.8.c Detailed Scope of Work ALLOWANCES INCLUDED IN THIS BUDGET A. Reduce Building Operations Impact — Allowance to include efforts to reduce impact to building operations during construction. This include changes to the proposed phasing plan, weekend or shift work etc. B. Historic Preservation Adherence — Allowance to support necessary change to proposed solutions, related Energy Code impacts in order to meet requirements of the Historic Preservation Committee. C. Equipment, Material, and Labor Escalations for 2025 Allowances INCLUDED in the Budget Budget Reduce Building Operations Impact $ 100,000 Historic Preservation Adherence $ 25,000 Equipment, Material and Labor Escalations for 2025 $ 250 000 ALLOWANCES NOT INCLUDED IN THIS BUDGET A. Haz Mat testing and abatement B. Electric Utility Costs (SnoPUD) and Requirements C. Gas Utility Costs (PSE) Allowances NOT INCLUDED in the Budget Budget Haz Mat testing and abatement $ 50,000 Electric Utility Costs SnoPUD and Requirements $ 25,000 Gas Utility Costs (PSE) $ 5,000 CLARIFICATIONS AND EXCLUSIONS Below items were reviewed for approval with the City of Edmonds. 1. The scope and budget exclude hazardous material testing and abatement. Limited good faith survey information was available at the time for the IGA and considering the scope impact, the City will conduct testing during pre -construction and perform necessary abatement before construction. McKinstry will provide information on the spaces disturbed by the project and support the City in coordinating the testing and if required, the abatement. The testing and if required abatement scope will be contracted by the City. 2. If existing equipment or components are reused, repairs to existing are not included unless specifically noted in the scope above. At this point, all other related equipment that has been inspected is operating properly. 3. All work shall be performed during regular work hours. A. Shutdown associated with utility service upgrade is budgeted as weekend work. B. Work within the building is planned to be implemented in phases to minimize operation disruptions. Preliminary phasing plan is included in the scope of work and is used for the budgeting. Per the plan, the work area where work is being performed will be vacated during the respective phase. C. During pre -construction, McKinstry will coordinate with the City and their building tenant groups to further develop the phasing plan taking into account the flexibility for tenant usage, public events etc. at the time of construction. D. An allowance is carried in the construction budget to allow flexibility to the current plan to best meet the construction time requirements. The budget is listed in the scope of work. E. McKinstry will coordinate the work schedule and space impact with the City in advance. The City will communicate and coordinate the impacts with the building tenants and users. The City will move or remove necessary equipment, furniture etc. from the work area F. During crane pick of rooftop equipment, the spaces under the area of work will need to be vacated. G. McKinstry will perform cleaning of construction dust, debris etc from the work area at the end of the phase. 4. Temporary heating and ventilation of the building spaces is not included in the scope and budget. McKinstry will coordinate the shutdown plans and impact with the City during pre -construction. 5. Temporary roof access, roof protection and fall protection during construction is included in the scope. 6. Per coordination with the Owner, for maintenance access to the DOAS units, the use of temporary ladder of access to DOAS units around West courtyard is acceptable. A permanent ladder attached to the wall for access to the Gym DOAS unit is included in the scope. h nstry PROPRIETARY AND CONFIDENTIAL Page Packet Pg. 117 2.8.c Detailed Scope of Work 7. The building is in the residential zone (RS-6) and the park on the East side is an Open Space (OS). Per conversation with the City's Permits Department, the Edmonds Municipal code does not require equipment screening for buildings in residential zones. Equipment screening for new rooftop DOAS units is not required by code and is not included. 8. Paint and patching of walls, ceiling and floors around the equipment and area impacted by scope is included. For walls and ceiling, the City will provide the paint. For floor mount units, where footprint is expected to reduce, a trim around the new unit will be applied to blend with the existing floor type. Painting of entire wall, ceiling or replacement of entire floor is not necessary and not included in the scope. 9. The main three floor building is on the Edmonds Register of Historic Places. Per discussion with the City only the exterior appearance has preservation requirements, and there are no requirements for the building interior. Other sections of the facility are not on the historic resister and have no historic preservation requirements. A. McKinstry will support the City to present and review the project with the Historic Preservation Committee. B. An In contract allowance, as shown is above table is included in the project cost to support the review and approval effort. 10. Per coordination with the controls contractor, upgrades to City wide controls supervisory hardware and software is not expected and not included. 11. The City will provide Ethernet ports necessary for connecting the BAS. 12. Fire Alarm scope is limited to relocation of existing pull stations impacted by the Electrical Room door scope. Upgrades to the building fire alarm system is not anticipated and not included in the scope. 13. Fire Sprinkler scope is limited to changes to head locations near the new electrical panel boards in the Electrical Room. Upgrades to the building fire alarm system is not anticipated and not included in the scope. 14. West courtyard changes A. To accommodate the new condensing units in the West Courtyard, removal of one tree is anticipated. This is identified in the scope of work. McKinstry will coordinate with the City project team to negotiate the requirements with the City of Edmonds Permits Department. B. Removal of the existing landscaping, changes to existing walkway, irrigation lines, lighting bollard are anticipated and included in the scope as shown. C. The City has informed presence of an abandoned underground fuel storage tank in the courtyard. Additional details are not available. Scope related to the underground tank is not included in the scope. 15. Exterior Utility work A. Removal of the existing landscaping in this area is anticipated and is included the scope. The City will perform replacement landscaping. B. The City is interested in providing a covered walkway for the day care entrance. This is not included is the scope and is suggested as an allowance budget. 16. Electrical Upgrades A. Per discussion with Snohomish County PUD (SnoPUD), the existing transformer will be replaced to provide the new requested 480V and 1000A service to the building. The existing transformer vault and primary feeders are compatible to the new service. B. The existing 208V panelboard SBD-2 has a temporary generator tie-in, this will remain as -in. Per discussion with the City generator tie-in for the new 480V switchgear is not necessary for the building use and is not included in the scope. C. A temporary generator and necessary fuel are budgeted for a duration of one week. This is to reduce the impact of building power shutdown. Short duration building power shutdown are still anticipated to perform certain steps of the upgrade scope. McKinstry will coordinate the shutdowns in advance with the City and the Utility. D. Additional equipment and panel level electrical shutdowns are anticipated. These will be identified and coordinated in advance with the City during pre -construction. E. A Preliminary sequence of work associated with the service upgrade is provided in scope and is used for establishing the budgets. 17. After removal of the gas boilers and replacement of the Domestic Water Heaters, there will be no natural gas consuming equipment in the building. The scope includes demolition of gas piping up to the utility gas meter. Removal of the Utility gas meter will be required for installation of new condensing units. McKinstry will coordinate with the Utility (PSE) for meter removal. City will be complete necessary applications and fee payment with the Utility. These are not included in the project scope and budget. An allowance budget is suggested for the Utility charges. I)Stry PROPRIETARY AND CONFIDENTIAL Page IhN 6w... Packet Pg. 118 2.8.c THIS PAGE LEFT INTENTIONALLY BLANK Page Packet Pg. 119 2.8.c Q Page Packet Pg. 120 2.8.c THIS PAGE LEFT INTENTIONALLY BLANK Page Packet Pg. 121 2.8.c �j L F, �r -� EXTERIOR LIGHTING E7.1 CONTROL CONTACT( Western Washington 18311 Bothell -Everett Hwy. # 260 Bothell, WA 98012 Ph- 425.402.6029 Fax 425.483.3989 Eastern Washington 103 Palouse. # 10 Wenatchee, WA 98801 Ph:509.667.1625 Fax: 509.6672433 www.em-engineering.com DATE MARCH 2O02 SCALE 1 /8"=1'—O" DESIGNED BY: RBF DRAWN BY: RSMIDRW CHECKED BY: LD APPROVED BY: SE f, 28 W I O( AL FzPIRES 2/10/03 REVISIONS (CITY OF EDMONDS ,FRANCES ANDERSLN CENTER ELErTRICAL RENO`✓/-k 101, LIGHTING FLAN FIRST FLOOR NOTES: CENTER FIXTURES BETWEEN BEAMS. SURFACE MOUNT FIXTURES ON LOW CEILING AND MAINTAIN SAME MOUNTING HEIGHT IN HIGH CEILING AREA, USING PENDANTS. 2�REWIRE BRANCH CIRCUITING ONLY TO DARKROOM EXHAUST FAN/LIGHT FIXTURE (1.5A, 120V). 3. REMOVE ALL LIGHTING FIXTURES, WIRE AND SWITCHES IN THE ENTIRE FACILITY AND REPLACE WITH NEW AS DISCRIBED ON PLANS AND IN SPECIFICATIONS. REVIEW EXISTING FACILITY PRIOR TO BID TO DETERMINE EXTENT OF REMOVAL WORK. 4�REMOVE EXISTING HID FIXTURE AND ALL ASSOCIATED WIRING BACK TO SOURCE. FIELD VERIFY SOURCE. 5�HOLD FIXTURES TIGHT TO BOTTOM OF BEAMS. 6�MOUNT TOP OF FIXTURE 9" DOWN FROM CEILING (NOT BOTTOM BEAM). 7�NOT USED. 8�MOUNT FIXTURES AT THE SAME HEIGHT AS SURFACE MOUNT FIXTURES IN THIS AREA. 9. WHEREVER THE WORD "PROVIDE" IS USED, IT MEANS, "PROVIDE AND INSTALL COMPLETE AND READY FOR USE." 10. SEE DETAIL 3 FOR TYPICAL INSTALLATION OF OS E7.1 DRAWING NUMBER F2.1 SHEET NUMBER 5 of 24 Packet Pg. 122 1 2.8.c ?10)I 121OA 1 b a a 1 1 1 •- 5 B2 B2 1 TYP b a I KL 605 1 1 2A b a a _ 1 11 1 7 7 5' 171 OS 1 t�l 5 -�s� 516 11 bS �g U 2B- , I TYP 6 it Al i a3 a3 a3 a3 (1 a3 o3 a3 b a a 3 3 3 _� �� } r- K�� be (209 1 5 B2 3 a o a Ic 9'-10" TYP 1 1 1 A3 b a B2 TYP 3 3 9P. 1 I 1 b Cl Cl b �3 b b b b 10 a 3 3 3 1 1 1 1 3 !I Western Washington 18311 Bothell -Everett Hwy. # 260 Bothell, WA 98012 Ph:425.402.6029 Fax: 425-483.3989 Eastern Washington i/ 103 Palouse, # 10 Wenatchee, WA 98801 �j �� t5 �, r. �l\� r Ph: 509.667.1625 Fax: 509.667.2433 i I I www ecs-engineering.com DATE MARCH 2O02 SCALE 1 /8"=1 '-0" b 5 �I a 5 5 ba DESIGNED BY: R B F DRAWN BY: RSM DRW CHECKED BY: LD APPROVED BY: SE \; b 206 I 5 5 - 8,-6„ A4 - TYP 1I3 � OS 5 b ci A2 A2 bb Al kTYP --� - -- -- o3 a3 a3 a LIGHTING PLAN SECOND FLOOR WEST 1/8 =1 -o 8' 0 8' 1 6' 1/8" = 1'-0" 1yr10N y °ASS �Z EXPIRES 2/10/03 REVISIONS O 2 EXISTING 1 TRACK 13 Q LIGHTING V� TYP- Al 2C- 13 7 % i 3 Y v B1 1 a,b A3 O Bl 8' O' B 1 � B l •L v SEE SHEET E2.3 FOR CONTINUATION CITY OF EDMONDS FRANCES ANDERSON CENTER ELECTRICAL RENOVATION NOTES: INSTALL NEW SWITCH AND BRANCH CIRCUIT TO DISPLAY CASE. WIRING IN DISPLAY CASE TO REMAIN (5@ 75W, 120V) BEHIND STAINED GLASS WINDOW INSTALL THREE TWO -LAMP STRIP FIXTURES (120V). TWO FIXTURES MOUNTED VERTICALLY, ONE MOUNTED HORIZONTALLY AT BOTTOM SAME AS EXISTING. 3. REMOVE ALL LIGHTING FIXTURES, WIRE AND SWITCHES IN THE ENTIRE FACILITY AND REPLACE WITH NEW AS DETAILED ON PLANS AND IN SPECIFICATIONS. RECYCLE AND/OR DISPOSE OF ALL MATERIALS PROPERLY. 4�INSTALL NEW SWITCH AND BRANCH CIRCUIT TO DISPLAY CASE. WIRING IN DISPLAY CASE TO REMAIN (10@ 75W, 120V) S�CENTER FIXTURES BETWEEN BEAMS. SURFACE MOUNT FIXTURES ON LOW CEILING AND MAINTAIN SAME MOUNTING HEIGHT IN HIGH CEILING AREA, USING PENDANTS. MOUNT FIXTURE 2" ABOVE TOP EDGE OF HIGHEST TRANSOM WINDOW MOLDING. MAINTAIN SAME MOUNTING HEIGHT FOR, ASSOCIATED FIXTURES. ADJUST FIXTURES FOR STRAIGHT FRONT EDGE. REMOVE EXISTING TRACK LIGHTING AND ALL ASSOCIATED FIXTURES AND RETURN TO OWNER. REPLACE WITH NEW AS SHOWN, SURFACE MOUNTED. MOUNT FIXTURES AT THE SAME HEIGHT AS SURFACE MOUNT FIXTURES IN THIS AREA. 9. SEE DETAIL 3 FOR TYPICAL INSTALLATION OF OS E7.1 COORDINATE LOCATION OF THESE SWITCHES WITH OWNER. 10 SWITCH CONTROLS TRACK LIGHTING ON SLOPED CEILING AND FIXTURE OVER RECEPTIONIST DESK ALL LOCATED IN MAIN LOBBY. LIGHTING PLAN SECOND FLOOF1 WEST KEY PLAN SCALE: NONE DRAWING NUMBER E2.2 SHEET NUMBER 6 OF Page Packet Pg. 123 2.8.c Western Washington 18311 Bothell -Everett Hwy. # 260 Bothell, WA 98012 Ph:425.402.6029 Fax 425.483.3989 Eastern Washington 103 Palouse, # 10 Wenatchee, WA 98801 Ph: 509.667.1625 Fax- 509 667,2433 www.ecs-engineenng.com 3 11 E7.1 PLACARD 2 REWIRE ONLY, 4 NO FIXTURES E7.1 NO LAMPS SEE SHEET E2.2 FOR CONTINUATION 1 1 f ( SAUNA oy� 1 I I 15 I I *f1f 1 f 1 .75 J 1 S I I _ � I i /B1) 5 13 _ 15 15� g1 — 1 i ,C �\ C ' �7] 13 3v b a 3 b — 15 - i 13 rF Y 3Ct '.5 a 5 �" a 5 � 1 7� I 7 c Ll 61 I13 ' m l I DATE MARCH 2O02 SCALE 1 /8"-1'-0" 11 k I 13wg� 13 2D 2D_7 11,13, REWIRE ONLY, NO FIXTURES NO LAMPS LIGHTING PLAN SECOND FLOOR EAST 1 /8"=: '-0„ 8' 0 8' 1 6 ' 1 /8" = 1 '-0" DESIGNED BY: R B F DRAWN BY: RSMMZDRW CHECKED BY: LD APPROVED BY: SE Q•�NONWA E� 0�;�° ASS 10NAL�1 15 15 15 15 O L17 � ;•i E TO MECHANICAL ROOM UP TO MECHANICAL ROOM /A\ REVISIONS 6-6-02 INCORPORATE ADDEMDUN, #3 NOTES: 1� PROVIDE WIRE GUARD TO THIS FIXTURE TYPE IN THIS ROOM. REMOVE EXISTING LIGHTING CONTROL RELAY CABINET, PANELBOARD AND 100A DISCONNECTING MEANS (CB). 3� MOUNT LIGHT SWITCHES BETWEEN COLUMN AND DOOR CASING. 4� MOUNT LIGHTING PLACARD ABOVE LIGHT SWITCHES. 5. REMOVE ALL LIGHTING FIXTURES, WIRE AND SWITCHES IN THE ENTIRE FACILITY AND REPLACE WITH NEW AS DISCRIBED ON PLANS AND IN SPECIFICATIONS. REVIEW EXISTING FACILITY PRIOR TO BID TO DETERMINE EXTENT OF REMOVAL WORK. 6. SEE DETAIL 3 FOR TYPICAL INSTALLATION OF E7.1 7� PROVIDE NEW KEYED SWITCH TO CONTROL DOOR ALARM AND MAINTAIN EXISTING FUNCTION. LOCATE KEYED SWITCH ABOVE LIGHT SWITCHES FOR GYM. CITY OF EDMONDS FRANCES ANDER.SON CENTER ELECTRICAL RENOVATION v .YEIGHT ROOM EQUIPMENT ROOM WEST DOWN TO CORRIDOR EQUIPMENT ROOM EAST PARTIAL PLAN MECHANICAL EQUIPMENT ROOMS 1/8 "= 1 '-0" LIGHTING PLAN SECOND FLOOR EAST KEY PLAN SCALE: NONE Page Packet Pg. 124 2.8.c Western Washington 18311 Bothell -Everett Hwy. # 260 Bothell, WA 98012 Ph:425.402.6029 Fax: 425.483-3989 Eastern Washington 103 Palouse, # 10 Wenatchee, WA 98801 FV N I; Ph:509.667.1625 Fax. 509,667-2433 www.ecs-engineering.com or DATE MARCH 2O02 SCALE 1 1 O A2 A2 75" b5 b5 1 — 1 b5 TYP 9 9 a a b5 A2 04 LL B2 TYP b b b 1 1 1 a a a 3A-1 1 1 1 ba PNL 3A --- - - L liji b5 b5 2 TYP Al 07 ca 7 i a a 7 a b5 b 1 9 4 9 H 9 910 ��--- — a a a a 3A-9 `-J TYP 9 9 9 4 F_)_— b b b b DESIGNED BY. R EIF DRAWN BY: R S M D R W CHECKED BY: LD APPROVED BY: SE ab 9 9 i b b 11 B2TYP 302 b b 3 3 8'-6" A3 TYP a a t 3 3 Al b5 TYP 2 LIGHTING PLAN THIRD FLOOR 1 /8"=1 '-0" 8' 0 8' 1 6' 1/8" = 1'-0" a- b3 , r abcd l 301' 11 11 11 �' Cl Cl a a b b b b 3A-1 1 11 11 11 11 d d AS d d TYP REVISIONS CITY OF EDMONDS FRANCES ANDERSON CENTER ELECTRICAL RENOVATION NOTES: 1. REMOVE ALL LIGHTING FIXTURES, WIRE AND SWITCHES IN THE ENTIRE FACILITY AND REPLACE WITH NEW AS DISCRIBED ON PLANS AND IN SPECIFICATIONS. REVIEW EXISTING FACILITY PRIOR TO BID TO DETERMINE EXTENT OF REMOVAL WORK. P_____�_MOUNT FIXTURE 2" ABOVE TOP EDGE OF HIGHEST TRANSOM WINDOW MOLDING. MAINTAIN SAME MOUNTING HEIGHT FOR ASSOCIATED FIXTURES. 3�EACH ROW OF LAMPS IN CROSS SECTION SHALL BE INDIVIDUALLY SWITCHED. 4. SEE DETAIL 3 FOR TYPICAL INSTALLATION OF OS E7.1 LIGHTING PLAN THIRD FLOOR DRAWING NUMBER E2.4 SHEET NUMBER 8 of 24 Page Packet Pg. 125 2.8.c THIS PAGE LEFT INTENTIONALLY BLANK .r Q Page Packet Pg. 126 2.8.c NEW DRAWINGS Page Packet Pg. 127 2.8.c THIS PAGE LEFT INTENTIONALLY BLANK Page Packet Pg. 128 NEW -PIPING 2.8.c z a, • g � 3 MIN 3'-9" 122 (121 b a a a a b 5 5 5 2 1 13 4 �g �I 10 b " a a b 5 5 C B2 B2 TYP. 14 I TYP. 5 b a a a 0 b 10 2 1 _ r - 1 2 1 O 13 13 ) O 5 I C - b a b 1 2 1 ;' 7 7 O 13 5A4 C II 2 1 a ! 13 O9 _ 1 7 7 7 24 . I 3 O 3 I B2 C a OTYP. a 1 2B2 -; 1 3 -� 13 7 9 7 • 0P. 13 - 5 UCK-2.2 14 14 6(ON 1315 ROOF�,�-----------, I- 1 O_ DUI ,' 11 b a a _ 16 3 3 3 C 14 . 14 �/ " 12 -1 - DOAS-2 )1 13 - ON ROOF ' 14 ( ) _ O MIN B 2 9 - 30'-0" ■ _ O O .•� DOo �� y DOo � � _ w� - - Q ODU 2.1 Q ODU-7.1 Q ODU-6 Q ODU-4 Q C 75 Q ODU-7.2 Q ODU-1., I ® ®I��- �1 0 IDU 9.1 IDU-9.2 Q • r O �,•� g. • e© 3 3 5� 13 -- 15 18 n TYP. 18 C� 13 13 n 18 -C B2 b a a O 18 3 3 3 1 f4-H 1 1+++ 5 D r C O 75" 18 14 1 B2TYP. \'` 5 1 C ; B1 1 ' � 1 2 14 -- -- - 15 9 b 0 ] _ 1 I n 18 /� 3 11 5 O jD � 3 1 1 1 5 B2 B2 11 5 C ( TYP. 16 OS 13 ;1 , 14 ' 3 1 B T b a 1� 3a 3 1A 13 5 0 1 3 3 14 1 _ 3 O 5 OlA-2 �: 14 - Off, 18 U b b - 14 0 3 3 3 TYP. 2 1 1 O Tyl EXTERIOR --- -) n 3 3 3 7 LIGHTING E7.1 CONTROL 6 CONTACTOR - w Western Washington 18311 Bothell -Everett Hwy. # 260 Bothell, WA 98012 Ph: 425.402 6029 Fax: 425.483.3989 Eastern Washington 103 Palouse. # 10 Wenatchee. WA 98801 F rq, G Ph 509.667.1625 Fax. 509.667.2433 www.ecs-engineedng.com L 0 DATE MARCH 2O02 SCALE 1/8"= V-0" DESIGNED BY: RBF DRAWN BY: RSM/DRW CHECKED BY: LD APPROVED BY: SE 3 a 3 3 11 b -- b 14 I �I I B2 O TYP 18 18 EXPIRES 2/10/03 (1 38A 1 b a a 5 ' NOTES: KD 10 1 2 a 0 13� 7 9 7 2 1 - �] - 1 CENTER FIXTURES BETWEEN BEAMS. SURFACE MOUNT FIXTURES ON LOW CEILING AND 1 B2 14 13 10 I I MAINTAIN SAME MOUNTING HEIGHT IN HIGH P. O O 14 CEILING AREA, USING PENDANTS. b 2�REWIRE BRANCH CIRCUITING ONLY TO 1 2 b DARKROOM EXHAUST FAN/LIGHT FIXTURE (1 .5A, 1 O I 13 t 13 14 7 120V). C B2 3. REMOVE ALL LIGHTING FIXTURES, WIRE AND - `�y SWITCHES IN THE ENTIRE FACILITY AND REPLACE 14 w""`' I t5 13 14 TYP. WITH NEW AS DISCRIBED ON PLANS AND IN SPECIFICATIONS. REVIEW EXISTING FACILITY b a ° b t PRIOR TO BID TO DETERMINE EXTENT OF ^, , -] ' , 7 0-0- REMOVAL WORK. 1 2 I 1 7 1 O9 - - 10 13 14 1 2 trl 7 7 ' 4�REMOVE EXISTING HID FIXTURE AND ALL ASSOCIATED WIRING BACK TO SOURCE. FIELD VERIFY SOURCE. S�HOLD FIXTURES TIGHT TO BOTTOM OF BEAMS. - b 0 a 13 ° b 9 b ° F MOUNT TOP OF FIXTURE 9" DOWN FROM 1 z 3 3 9 9 9 9 <; 2 1 CEILING (NOT BOTTOM BEAM). O 13 I 5 11 NOT USED. C B2 TYP. 14 10 8 _MOUNT FIXTURES AT THE SAME HEIGHT AS SURFACE MOUNT FIXTURES IN THIS AREA. b a a 0 b 10 10` - fk )-'14 9, WHEREVER THE WORD "PROVIDE" IS USED, IT 3 3 3 _ MEANS, "PROVIDE AND INSTALL COMPLETE AND READY FOR USE." I 13 TYP. 0 - 2 1 10. SEE DETAIL 3 FOR TYPICAL INSTALLATION b OFU be OS E7.1 a b 0 Og 0 3 13 I 0 a b C 9 a 9 14 15 , , UCK-1.1 4 O - - UCK-'I 4 C = (ON ROOF) 10 14 3 ---, D ,1 1 1 ° -- aO b -_ 00 C ' DOAS-1 1 12 2 1 - 11 11 11 (ON ROOF) ' - _ _ - _ - - 13 - - ' AnU CONDENSATE b � DRAIN PAN C PTRAPREO'DWI SEPARATE DRAIN , a / TO EXISTING TRAP 1> ) 1 - C ---- PED SEPARATELVVERFLOW ITO ' _.. 9 13 r CONSPICUOUS LOCATION 1 2 ---s -3---� z _ a a b _ 3 SUSPENDED CEILING O O BY OTHERS 1 1 1 1 1 1 BY PLUMBING GALV IXAMP 75" 75" 10 FIXTURE RAINAROMA O INDENSATE DRAIN FROM ABOVE I X SIZE) B2TYP. I 2:413 13 14 Og - .5, a a b TRAP �� --.t 5 � � P-TRAP DRAIN TO SINK NOTES: SE PLANS OR RISER FOR PIPE 18 I 18 _ \ 18 iU E 2. REFER TO SECTION 814.3 OF UPCFORCONDENSATE WASTE PIPE MATERIAL AND SIZING. ��/ 1 o CONDENSATE DRAIN TO SINK AND VENTS DETAIL 3 3 O TYP. 14 ' 1 1. INSTALL NEW FLOOR OR WALL -MOUNTED INDOOR UNIT AND ASSOCIATED GENERAL NOTE: APPURTENANCES IN APPROXIMATE LOCATION SHOWN. INSTALL IN PLACE OF ROUTE ALL PIPING, INCLUDING PRE -INSULATED DEMOLISHED RADIATOR, IF APPLICABLE. ASSUME TOUCH-UP TILE, CARPET, AND 0 --- LINESETS, IN A NEAT AND ORDERLY FASHION, PAINT WORK WILL BE REQUIRED. 3 B2 ESPECIALLY IN AREAS WHERE PIPING IS EXPOSED. 2. FURNISH AND INSTALL REFRIGERANT PIPING LINESET COVER AND INSTALL 13 13 TYP. CONDENSATE PUMP IN THE COVER. CONTRACTOR MUST COORDINATE FINAL PIPING 3. INSTALL NEW OUTDOOR UNIT AND ASSOCIATED APPURTENANCES IN _ 1 ROUTING WITH MANUFACTURER TO ENSURE PIPE APPROXIMATE LOCATION SHOWN. INSTALL ALL OUTDOOR UNITS WITH MINIMUM LENGTHS ARE ACCURATE IN MANUFACTURER PIPE 118" THICK NEOPRENE PADS. _- LENGTHS CALCULATIONS. 4. INSTALL NEW SAMSUNG UCK. 5. INSTALL NEW MODE CONTROL UNIT IN APPROXIMATE LOCATION SHOWN. 6. PROVIDE NEW CONCRETE FOOTING. SEE FLOOR PLAN FOR DIMENSIONS. SEE EFRIGERANT PIPING P 13 STRUCTURAL SCOPE OF WORK FOR MORE INFORMATION. 0 2ND LEVEL THROU �° 7. PROVIDE NON-STRUCTURAL FENCING WITH A LOCKABLE ACCESS GATE FOR ISTING CHASE. OUTDOOR UNIT YARD. K� _ _ `� 14 8. PROVIDE CORES AS NEEDED TO RUN ALL REFRIGERANT PIPING INTO BUILDING. -F Li DO NOT PENETRATE WINDOWS. 13 9. PIPING TO RUN EXPOSED. -- - - 9 10. PIPING TO RUN ABOVE PLYWOOD CEILING. a (j 1 ^r 11. PROVIDE A PERMANENT 24" X 24" ACCESS HATCH TO ACCESS MODE CONTROL 13' 5 b 0 18 5 b - I O UNIT (NOT SHOWN). 12. PROVIDE ROOF PENETRATION FOR PIPING UP TO DOAS UNIT. WEATHERPROOF _5 PENETRATION. . . - 13. PROVIDE WALL PENETRATION. 14. ROUTE 1" CONDENSATE WITH A MINIMUM SLOPE OF 1/8" PER LINEAL FOOT TO THE NEAREST SINK OR DRAIN. 15. TIE IN CONDENSATE DOWNSTREAM OF THE EXISTING SINK P-TRAP OR DRAIN B2 TO EXISTING MOP SINK OR FLOOR DRAIN. SEE DETAIL ON THIS SHEET FOR MORE 14 P. INFORMATION FOR P-TRAP OPTION. O LIGHTING PLAN 16. ROUTE REFRIGERANT PIPING VERTICALLY THROUGH EXISTING CHIMNEY. SEE 9 O STRUCTURAL SCOPE OF WORK FOR MORE INFORMATION. b 17. PROVIDE CONDENSATE TRAP FOR DOAS COIL AND ROUTE CONDENSATE TO 5 5 14 O FIRSTFLOOR N NEAREST ROOF DRAIN. b 14 b b 1 / 8,. =1 0 18. CONDENSATE FROM UPPER LEVEL. I 8' 0 8' 16' >. B2 82 0 TYP. TYP. 18 1/8" = 1'-0" ' 18 18 -) !;l C 13 18 REFRIGERANT LINES UP THROUGH EXISTING WINDOW WELL. REVISIONS CITY OF EDMONDS FRANCES ANDERSLN CENTER ELE-TRICAL REN0V/-k1-I=O1NJ LIGHTING FLAN FIRST FLOOR 1 i • DRAWING NUMBER F2.1 SHEET NUMBER 5 of 24 Page Packet Pg. 129 N1pwmp1p1Njr=1 2.8.c 18 U 18,U O b a a 10 1 1 1 1 b a j 211 1 2 n In O9 13 C- 14 13 3 3 5 B2 TYP 1 2 a a 9 13 C 14 13 b Cl a b a 3 3 3 E Kj G i f-_ CQ_ 1. (\'I, CF.. Western Washington 18311 Bothell -Everett Hwy. # 260 Bothell, WA 98012 Ph:425.402.6029 Fax: 425-483.3989 Eastern Washington 103 Palouse, # 10 Wenatchee, WA 98801 Ph:509.667.1625 Fax: 509.667.2433 www ecs-engineenng.com DATE MARCH 2O02 SCALE 1 /8" =1 ' —0" 1. INSTALL NEW FLOOR OR WALL -MOUNTED INDOOR UNIT AND ASSOCIATED APPURTENANCES IN APPROXIMATE LOCATION SHOWN. INSTALL IN PLACE OF DEMOLISHED RADIATOR, IF APPLICABLE. ASSUME TOUCH-UP TILE, CARPET, AND PAINT WORK WILL BE REQUIRED. 2. FURNISH AND INSTALL REFRIGERANT PIPING LINESET COVER AND INSTALL CONDENSATE PUMP IN THE COVER. 3. INSTALL NEW OUTDOOR UNIT AND ASSOCIATED APPURTENANCES IN APPROXIMATE LOCATION SHOWN. INSTALL ALL OUTDOOR UNITS WITH MINIMUM 1/8" THICK NEOPRENE PADS. 4. INSTALL NEW SAMSUNG LICK. 5. INSTALL NEW MODE CONTROL UNIT IN APPROXIMATE LOCATION SHOWN. 6. PROVIDE NEW CONCRETE FOOTING. SEE FLOOR PLAN FOR DIMENSIONS. SEE STRUCTURAL SCOPE OF WORK FOR MORE INFORMATION. 7. PROVIDE NON-STRUCTURAL FENCING WITH A LOCKABLE ACCESS GATE FOR OUTDOOR UNIT YARD. 8. REMOVE EXISTING WINDOW AND PROVIDE AN INSULATED PLYWOOD BLANK FOR PIPE PENETRATIONS. 9. PIPING TO RUN EXPOSED. PROVIDE WHITE PVC REFRIGERANT PIPE INSULATION COVERS. 10. PIPING TO RUN ABOVE PLYWOOD CEILING. 11. PROVIDE A PERMANENT 24" X 24" ACCESS HATCH TO ACCESS MODE CONTROL UNIT (NOT SHOWN). 12. PROVIDE ROOF PENETRATION FOR PIPING UP TO DOAS UNIT. WEATHERPROOF PENETRATION. 13. PROVIDE WALL PENETRATION. 14. ROUTE 1" CONDENSATE WITH A MINIMUM SLOPE OF 1/8" PER LINEAL FOOT TO THE NEAREST SINK OR DRAIN. 15. TIE IN CONDENSATE DOWNSTREAM OF THE EXISTING SINK P-TRAP OR DRAIN TO EXISTING MOP SINK OR FLOOR DRAIN. SEE DETAIL ON THIS SHEET FOR MORE INFORMATION FOR P-TRAP OPTION. 16. ROUTE REFRIGERANT PIPING VERTICALLY THROUGH EXISTING CHIMNEY. SEE STRUCTURAL SCOPE OF WORK FOR MORE INFORMATION. 17. PROVIDE CONDENSATE TRAP FOR DOAS COIL AND ROUTE CONDENSATE TO NEAREST ROOF DRAIN. 18. ROUTE CONDENSATE DOWN TO LOWER LEVEL. 19. CONDENSATE COMING FROM UPPER LEVEL. DESIGNED BY: R B F DRAWN BY: RSM/DRW CHECKED BY: LD APPROVED BY: SE LIGHTING PLAN SECOND FLOOR WEST 1/8 =1 —0 8' 0 8' 1 6' 1/8" = 1'-0" 1yr10N rn °ASS �Z EXPIRES 2/10/03 REVISIONS SEE SHEET E2.3 FOR CONTINUATION APO CONDENSATE DRAIN PAN P-TRAP REDO WI SEPARATE DRAIN TO EXISTING TRAP _-_---- OVERFLOW PIPED SEPARATELY TO CONSPICUOUS LOCATION SUSPENDED CEILING BY OTHERS BY PLUMBING --GALV CLAMP FIXTURE _CONDENSATE DRAIN FROM ABOVE (314' MAX SIZE) TRAP P-TRAP DRAIN TO SINK NOTES: 1. SEE PLANS OR RISER FOR PIPE SIZES, 2. REFER TO SECTION 814.3 OF UPC FOR CONDENSATE WASTE PIPE MATERIAL AND SIZING. CONDENSATE DRAIN TO SINK AND VENTS DETAIL u SCALE. NTS CITY OF EDMONDS FRANCES ANDERSON CENTER ELECTRICAL RENOVATION NOTES: INSTALL NEW SWITCH AND BRANCH CIRCUIT TO DISPLAY CASE. WIRING IN DISPLAY CASE TO REMAIN (5@ 75W, 120V) BEHIND STAINED GLASS WINDOW INSTALL THREE TWO —LAMP STRIP FIXTURES (120V). TWO FIXTURES MOUNTED VERTICALLY, ONE MOUNTED HORIZONTALLY AT BOTTOM SAME AS EXISTING. 3. REMOVE ALL LIGHTING FIXTURES, WIRE AND SWITCHES IN THE ENTIRE FACILITY AND REPLACE WITH NEW AS DETAILED ON PLANS AND IN SPECIFICATIONS. RECYCLE AND/OR DISPOSE OF ALL MATERIALS PROPERLY. INSTALL NEW SWITCH AND BRANCH CIRCUIT TO DISPLAY CASE. WIRING IN DISPLAY CASE TO REMAIN (10@ 75W, 120V) S�CENTER FIXTURES BETWEEN BEAMS. SURFACE MOUNT FIXTURES ON LOW CEILING AND MAINTAIN SAME MOUNTING HEIGHT IN HIGH CEILING AREA, USING PENDANTS. MOUNT FIXTURE 2" ABOVE TOP EDGE OF HIGHEST TRANSOM WINDOW MOLDING. MAINTAIN SAME MOUNTING HEIGHT FOR, ASSOCIATED FIXTURES. ADJUST FIXTURES FOR STRAIGHT FRONT EDGE. 7�REMOVE EXISTING TRACK LIGHTING AND ALL ASSOCIATED FIXTURES AND RETURN TO OWNER. REPLACE WITH NEW AS SHOWN, SURFACE MOUNTED. MOUNT FIXTURES AT THE SAME HEIGHT AS SURFACE MOUNT FIXTURES IN THIS AREA. 9. SEE DETAIL 3 FOR TYPICAL INSTALLATION OF OS E7.1 COORDINATE LOCATION OF THESE SWITCHES WITH OWNER. 10 SWITCH CONTROLS TRACK LIGHTING ON SLOPED CEILING AND FIXTURE OVER RECEPTIONIST DESK ALL LOCATED IN MAIN LOBBY. LIGHTING PLAN SECOND FLOOF1 WEST KEY PLAN SCALE: NONE DRAWING NUMBER E2.2 SHEET NUMBER 6 OF ? Page Packet Pg. 130 NEW - PIPING 2.8.c �r Western Washington 18311 Bothell -Everett Hwy. # 260 Bothell, WA 98012 Ph:425.402.6029 Fax 425.483.3989 I lJ Eastern Washington 103 Palouse, # 10 Wenatchee, WA 98801 F(Nquc3i.m (,4 C Ph: 509.667.1625 Fax 509 667.2433 www.ecs-engineedng.com 3 _ 11 �J E7.1 PLACARD REWIRE ONLY, 2 4 NO FIXTURES E7.1 NO LAMPS SEE SHEET E2.2 FOR CONTINUATION m!k - - SEE EQUIPMENT ROOM - ° - I WEST PLAN ON THIS SHEET C 15 I `�j - 1 i E TYP SAUNA II 1�f 1"f 1' "f p �. r� ' 15 1 W .75 J 1 S I I ,I i5 , 1" CDNS DN FROM AHU-2 13 B1 1 , 15 15 EE ' m 13 TYP 15 15 TO 7 � :D MECHANICAL 3v'b 5 3 b 13�. �' - - - - - - _ ROOM 15 1S 13 U 7 -c 1 2 O TYP 9 O 4 5 1 5 14 UCK-3 13 T 1 (ON ROOF ) � " " ' (jl 15 DOAS-3 1 2 b (ON ROOF) 1 I I' 17 f 061 113 m l I I 11k 11 k 11 k DATE MARCH 2O02 SCALE 1 /8"-1'-0" y I. 2 D} - -�il 15 2D-7, - --- - 7-- i� 1 u4i 13 3 B1 � I •� 17E • 11 I �- _ 1 � O 13 75 I SAUNA - 7_77 REWIRE ONLY, NO FIXTURE NO LAMPS LIGHTING PLAN SECOND FLOOR EAST 1 /8"=1 '-O" 8' 0 8' 16' DESIGNED BY. R B F DRAWN BY: RSMZDRW CHECKED BY: LD APPROVED BY: SE P�y14ON p WASH,! G� 0�'�1 S10NAL 0© UP TO MECHANICAL ROOM 1" CDNS DN FROM AHU-1 i ZA� SEE EQUIPMENT ROOM EAST PLAN ON THIS SHEET 7 I 11 14 ' I I J I I REVISIONS 6-6-02 INCORPORATE ADDEMDUM #3 NOTES: 1� PROVIDE WIRE GUARD TO THIS FIXTURE TYPE IN THIS ROOM. REMOVE EXISTING LIGHTING CONTROL RELAY CABINET, PANELBOARD AND 100A DISCONNECTING MEANS (CB). 3� MOUNT LIGHT SWITCHES BETWEEN COLUMN AND DOOR CASING. MOUNT LIGHTING PLACARD ABOVE LIGHT SWITCHES. 5- REMOVE ALL LIGHTING FIXTURES, WIRE AND SWITCHES IN THE ENTIRE FACILITY AND REPLACE WITH NEW AS DISCRIBED ON PLANS AND IN SPECIFICATIONS. REVIEW EXISTING FACILITY PRIOR TO BID TO DETERMINE EXTENT OF REMOVAL WORK. 6. SEE DETAIL 3 FOR TYPICAL INSTALLATION OF E7.1 7� PROVIDE NEW KEYED SWITCH TO CONTROL DOOR ALARM AND MAINTAIN EXISTING FUNCTION. LOCATE KEYED SWITCH ABOVE LIGHT SWITCHES FOR GYM. 1. INSTALL NEW FLOOR OR WALL -MOUNTED INDOOR UNIT AND ASSOCIATED APPURTENANCES IN APPROXIMATE LOCATION SHOWN. INSTALL IN PLACE OF DEMOLISHED RADIATOR, IF APPLICABLE. ASSUME TOUCH-UP TILE, CARPET, AND PAINT WORK WILL BE REQUIRED. 2. FURNISH AND INSTALL REFRIGERANT PIPING LINESET COVER AND INSTALL CONDENSATE PUMP IN THE COVER. 3. INSTALL NEW OUTDOOR UNIT AND ASSOCIATED APPURTENANCES IN APPROXIMATE LOCATION SHOWN. INSTALL ALL OUTDOOR UNITS WITH MINIMUM 1/8" THICK NEOPRENE PADS. 4. INSTALL NEW SAMSUNG LICK. 5. INSTALL NEW MODE CONTROL UNIT IN APPROXIMATE LOCATION SHOWN. 6. PROVIDE NEW CONCRETE FOOTING. SEE FLOOR PLAN FOR DIMENSIONS. SEE STRUCTURAL SCOPE OF WORK FOR MORE INFORMATION. 7. PROVIDE NON-STRUCTURAL FENCING WITH A LOCKABLE ACCESS GATE FOR OUTDOOR UNIT YARD. 8. REMOVE EXISTING WINDOW AND PROVIDE AN INSULATED PLYWOOD BLANK FOR PIPE PENETRATIONS. 9. PIPING TO RUN EXPOSED. PROVIDE WHITE PVC REFRIGERANT PIPE INSULATION COVERS. 10. PIPING TO RUN ABOVE PLYWOOD CEILING. 11. PROVIDE A PERMANENT 24" X 24" ACCESS HATCH TO ACCESS MODE CONTROL UNIT (NOT SHOWN). 12. PROVIDE ROOF PENETRATION FOR PIPING UP TO DOAS UNIT. WEATHERPROOF PENETRATION. 13. PROVIDE WALL PENETRATION. 14. ROUTE 1" CONDENSATE WITH A MINIMUM SLOPE OF 1/8" PER LINEAL FOOT TO THE NEAREST SINK OR DRAIN. 15. TIE IN CONDENSATE DOWNSTREAM OF THE EXISTING SINK P-TRAP OR DRAIN TO EXISTING MOP SINK OR FLOOR DRAIN. SEE DETAIL ON THIS SHEET FOR MORE INFORMATION FOR P-TRAP OPTION. 16. ROUTE REFRIGERANT PIPING VERTICALLY THROUGH EXISTING CHIMNEY. SEE STRUCTURAL SCOPE OF WORK FOR MORE INFORMATION. 17. PROVIDE CONDENSATE TRAP FOR DOAS COIL AND ROUTE CONDENSATE TO NEAREST ROOF DRAIN. 18. PROVIDE CONDENSATE TRAP FOR AHU COIL. i IN PAN L_ � P-TRAP RE11 DWI SEPARATE DRAIN Uj TO EXISTING TRAP OVERFLOW OVERFLOW PIPED _ SEPARATELY TO CONSPICUOUS LOCATION BY PLUMBING FIXTURE GALV CLAMP CONDENSATE DRAIN FROM ABOVE (3W' MAX SIZE) DRAIN TO SINK NOTES: 1. SEE PLANS OR RISER FOR PIPE SIZES. 2. REFER TO SECTION 814.3 OF UPC FOR CONDENSATE WASTE PIPE MATERIAL AND SIZING. CONDENSATE DRAIN TO SINK AND VENTS DETAIL SCALE: NTS ;ITS" JF EDMONDS FRANCES ANDER.SON CENTER ELECTRICAL RENOVATION O TYP. I� 15 AHU-2.2 AHU-2 UCK-5 U 4 TO WEIGHT ROOM EQUIPMENT ROOM WEST DOWN TO CORRIDOR EQUIPMENT ROOM EAST PARTIAL PLAN MECHANICAL EQUIPMENT ROOMS 1 /8"=1 '-0" LIGHTING PLAN SECOND FLOOR EAST KEY PLAN SCALE: NONE DRAWING NUMBER E2.3 SHEET NUMBER 7 OF 24 U Page Packet Pg. 131 NEW - PIPING 2.8.c Western Washington 18311 Bothell -Everett Hwy. # 260 Bothell, WA 98012 Ph:425.402.6029 Fax: 425.483-3989 Eastern Washington �\ 103 Palouse, # 10 Wenatchee, WA 98801 r I; Ph: 509.667.1625 Fax. 509,667-2433 www.ecs-engineering.com DATE MARCH 2O02 SCALE DESIGNED BY: R B F DRAWN BY: R S M f D R W CHECKED BY: LD APPROVED BY: SE LIGHTING PLAN THIRD FLOOR 1 /8"=1 '—O" 8' 0 8' 1 6' 1/8" = 1'-0" REVISIONS iuu-0 1. i 1 IIIIIIIIIIIINIIIIII IDU-51.2 1. INSTALL NEW FLOOR OR WALL -MOUNTED INDOOR UNIT AND ASSOCIATED APPURTENANCES IN APPROXIMATE LOCATION SHOWN. INSTALL IN PLACE OF DEMOLISHED RADIATOR, IF APPLICABLE. ASSUME TOUCH-UP TILE, CARPET, AND PAINT WORK WILL BE REQUIRED. 2. FURNISH AND INSTALL REFRIGERANT PIPING LINESET COVER AND INSTALL CONDENSATE PUMP IN THE COVER. 3. INSTALL NEW OUTDOOR UNIT AND ASSOCIATED APPURTENANCES IN APPROXIMATE LOCATION SHOWN. INSTALL ALL OUTDOOR UNITS WITH MINIMUM 1/8" THICK NEOPRENE PADS. 4. INSTALL NEW SAMSUNG LICK. 5. INSTALL NEW MODE CONTROL UNIT IN APPROXIMATE LOCATION SHOWN. 6. PROVIDE NEW CONCRETE FOOTING. SEE FLOOR PLAN FOR DIMENSIONS. SEE STRUCTURAL SCOPE OF WORK FOR MORE INFORMATION. 7. PROVIDE NON-STRUCTURAL FENCING WITH A LOCKABLE ACCESS GATE FOR OUTDOOR UNIT YARD. 8. REMOVE EXISTING WINDOW AND PROVIDE AN INSULATED PLYWOOD BLANK FOR PIPE PENETRATIONS. 9. PIPING TO RUN EXPOSED. PROVIDE WHITE PVC REFRIGERANT PIPE INSULATION COVERS. 10. PIPING TO RUN ABOVE PLYWOOD CEILING. 11. PROVIDE A PERMANENT 24" X 24" ACCESS HATCH TO ACCESS MODE CONTROL UNIT (NOT SHOWN). 12. PROVIDE ROOF PENETRATION FOR PIPING UP TO DOAS UNIT. WEATHERPROOF PENETRATION. 13. PROVIDE WALL PENETRATION. 14. ROUTE 1" CONDENSATE WITH A MINIMUM SLOPE OF 1/8" PER LINEAL FOOT TO THE NEAREST SINK OR DRAIN. 15. TIE IN CONDENSATE DOWNSTREAM OF THE EXISTING SINK P-TRAP OR DRAIN TO EXISTING MOP SINK OR FLOOR DRAIN. SEE DETAIL ON THIS SHEET FOR MORE INFORMATION FOR P-TRAP OPTION. 16. ROUTE REFRIGERANT PIPING VERTICALLY THROUGH EXISTING CHIMNEY. SEE STRUCTURAL SCOPE OF WORK FOR MORE INFORMATION. 17. PROVIDE CONDENSATE TRAP FOR DOAS COIL AND ROUTE CONDENSATE TO NEAREST ROOF DRAIN. 18. ROUTE CONDENSATE DOWN TO LOWER LEVEL. CITY OF EDMONDS FRANCES ANDERSON CENTER ELECTRICAL RENOVATION NOTES: 1. REMOVE ALL LIGHTING FIXTURES, WIRE AND SWITCHES IN THE ENTIRE FACILITY AND REPLACE WITH NEW AS DISCRIBED ON PLANS AND IN SPECIFICATIONS. REVIEW EXISTING FACILITY PRIOR TO BID TO DETERMINE EXTENT OF REMOVAL WORK. P_____�_MOUNT FIXTURE 2" ABOVE TOP EDGE OF HIGHEST TRANSOM WINDOW MOLDING. MAINTAIN SAME MOUNTING HEIGHT FOR ASSOCIATED FIXTURES. 3�EACH ROW OF LAMPS IN CROSS SECTION SHALL BE INDIVIDUALLY SWITCHED. 4. SEE DETAIL 3 FOR TYPICAL INSTALLATION OF OS E7.1 AHU CONDENSATE DRAIN PAN I �P-TRAP REO'D WI SEPARATE DRAIN J'. TO EXISTING TRAP OVERFLOW PIPED SEPARATELY TO CONSPICUOUS LOCATION SUSPENDED CEILING BY OTHERS BY PLUMBING GALV CLAMP FIXTURE CONDENSATE DRAIN FROM ABOVE (314" MAX SIZE) TRAP P-TRAP DRAIN TO SINK NOTES: 1. SEE PLANS OR RISER FOR PIPE SIZES. 2. REFER TO SECTION 814.3 OF UPC FOR CONDENSATE WASTE PIPE MATERIAL AND SIZING. CONDENSATE DRAIN TO SINK AND VENTS DETAIL SCALE: NTS LIGHTING PLAN THIRD FLOOR DRAWING NUMBER E2.4 SHEET NUMBER 8 of 24 Page Packet Pg. 132 NEW - PLUMBING 2.8.c b a a 1 1 b a a 1 1 ' b a a 1 1 1 b a a 1 1 U - b - 0,000? II 1 3 I� 3 3 3 B2 B2 9TYP. \5 a a 10 3 3 82 TYP. ,; r a a b a b a a 3 10 to 3 3 ---- b 5 7 7 A4 7 7 7 -b B2 -a TYP. 7 1f 1.38A) 1 112)FFA - b a a I ` 1 1 1 \\ B2 TYP . b a a� 1 1 1 1 b a a _j b (114)� b a a FO 3 3 3 B2 `-'TYP. b a a 3 3 3 � I I b-bq b a c _ 3 -� �I10 /01, I 3 3 O C O 3 3 - O 3 3 ,I OD 3 OD 3 75" 75" -- - a a , 7 NOTES: 7 1 CENTER FIXTURES BETWEEN BEAMS. SURFACE 5 MOUNT FIXTURES ON LOW CEILING AND MAINTAIN SAME MOUNTING HEIGHT IN HIGH CEILING AREA, USING PENDANTS. 1 REWIRE BRANCH CIRCUITING ONLY TO b DARKROOM EXHAUST FAN/LIGHT FIXTURE (1 .5A, 7 120V). 1D-7 1 B2 3. REMOVE ALL LIGHTING FIXTURES, WIRE AND 8_ - TYP. SWITCHES IN THE ENTIRE FACILITY AND REPLACE WITH NEW AS DISCRIBED ON PLANS AND IN SPECIFICATIONS. REVIEW EXISTING FACILITY PRIOR TO BID TO DETERMINE EXTENT OF REMOVAL WORK. 1.' 7 7 7 4�REMOVE EXISTING HID FIXTURE AND ALL ASSOCIATED WIRING BACK TO SOURCE. FIELD $ VERIFY SOURCE. A4�P S�HOLD FIXTURES TIGHT TO BOTTOM OF BEAMS. a b a b a MOUNT TOP OF FIXTURE 9" DOWN FROM 9 9 9 9 9 CEILING (NOT BOTTOM BEAM). 7�NOT USED. 8 MOUNT FIXTURES AT THE SAME HEIGHT AS SURFACE MOUNT FIXTURES IN THIS AREA. 9, WHEREVER THE WORD "PROVIDE" IS USED, IT MEANS, "PROVIDE AND INSTALL COMPLETE AND READY FOR USE." 10. SEE DETAIL 3 FOR TYPICAL INSTALLATION OF OS E7.1 (5 - •.' 5 5 11 11 11 -- 1 GE S 1 i - ,; O 3 O TYP. 75" 5 — 1 C /� M. 71 / 3 - \` / TYP. 1 i 1 5 _ 3 0/ 3 - 1 E32 5 B2 _._... ..._.-. B2 TYP. ...;.,::... - - 3 �17 3 3 1B 3 -V COS a 3 1A ' 13 Cl 135A 1B- 13 [� U 1 K TYP. . 5 a / a f a 3 3 3 1 3 3 3 1- l O 1 A- 2 3 5 3 ,, 3 �� 5 IQ b b b b b b b b b OC - - - 3 3 3 82 B2 E32 B2 TYP. 1 O 1 1 1 IYP. TYP. TYP. TYP. EXTERIOR 7 LIGHTING 3 3 3 - - — - - E7.1 CONTROL CONTACTOR - _ - _za 5 -- 5 j 5 �� 5 5 132 132A� ---- OYP.aD6 3 R Ay _T ' ` b a a - 5 nF 3 3 3 t 1 1 1 1 B2 Q\ TYP. b a 1 1 OS w Western Washington 18311 Bothell -Everett Hwy. # 260 Bothell, WA 98012 Ph: 425.402 6029 Fax: 425.483.3989 Eastern Washington 103 Palouse. # 10 Wenatchee. WA 98801 F rVI G cm,, vj Ph 509.667.1625 Fax: 509.667.2433 www.ecs-engineedng.com DATE MARCH 2O02 SCALE 1 /8"=1'-0" DESIGNED BY: RBF DRAWN BY: RSM/DRW CHECKED BY: LD APPROVED BY: SE 2M AL EXPIRES 2/10 3' 3 REVISIONS a 5 S 5 b B2 P. b 5 CITY OF EDMONDS FRANCES ANDERSLN C ELECTRICAL RENOVA 1. PROVIDE NEW HOUSEKEEPING PAD FOR (2) WATER HEATERS AND (1) EXPANSION TANK. MINIMUM T' DIMENSIONS: 100" X 36". 0 2. GENERAL LOCATION FOR THE INSTALLATION OF: HWH-1 HWH-2 DWCP-1 ET-1 TMV-1 HYBRID WATER HEATERS AND EXPANSION TANK TO BE INSTALLED ON NEW HOUSEKEEPING PAD. INSTALL MIXING VALVE ON THE WALL. INSTALL NEW RECIRC PUMP. REWORK EXISTING PLUMBING AS NECESSARY TO INSTALL THE NEW SYSTEM CLEANLY. ROUTE DRAINS FROM THE WATER HEATERS TO THE NEAREST FLOOR DRAIN IN THE MECH ROOM. SEE DETAIL ON THIS SHEET FOR A DIAGRAMMATIC SENSE OF NEW SYSTEM. LIGHTING PLAN FIRST FLOOR , N 1/8 -1 -0' 8' 0 8' 16' ENTER T ,ON `ft,� m ,nrz,anroxw—_ �.--f------Ir I—D------------------�-----.--y ) BE INSTALLED Er „r,�EDx� - --J V HK PAD., rD� 1-- 7DDw--� I I I ,rro,s• xor' rav nEllEE�ER TO E%ISTINGe I TEMPER -RE DRAIN AIN(ttV) I � I L ~ � � EWH � EVM SE SMIC 9MCIa:is W LL(TYV) r� IMME T.T I i �z x�EENDD�N �E,rYPI uT FLOOD DRAIN O DxwD REFER TDxaNx P o ELECTRIC HOT WATER HEATER DIAGRAM (FOR REFERENCE ONLY) NIT TO 1-1 LIGHTING FLAN FIRST FLOOR DRAWING NUMBER F2.1 SHEET NUMBER 5 OF 24 Page Packet Pg. 133 NEW - SHEETMETAL 2.8.c 3 16 I T 3 B 7 s EXTERIOR LIGHTING E7.1 CONTROL CONTACTOR - --- - - - ---- Western Washington 18311 Bothell -Everett Hwy. # 260 Bothell, WA 98012 � Ph:425.402.6029 Fax: 425.483.3989 G 1 Eastern Washington 103 Palouse. # 10 Wenatchee, WA 98801 F Rq; � , r�r. f` F ��, L � Ph: 509.667.1625 Fax. 509.667.2433 www.ecs-engineedng.com b a o Q 10 3 3 3 B2 TYP. _ 7 8 b a a 10 Kp 3 3 — �+ b a b a a 3 3 16 .6j I I3 [I3 [I3 DATE MARCH 2O02 SCALE 1 /8"=1 '-0" DESIGNED BY: RBF DRAWN BY: RSM/DRW CHECKED BY: LD APPROVED BY: SE 1�ON if • � A 28509y ° 1 O�AL [EXPIRES 2/10,'03 1B— 00 REVISIONS 3 1 00 B2 TYP. a 131 .� 5 8 5 �5 7 8 b ` 7 8 � 5 r-+ ri 16 T B2 TYP. $� 5 5 b b b B2 TYP. I 16 �, _l 7 .. 7 16 T b 7 8 7 7 7 8 P. a b a b a 9 9 9 9 9 16 :1 a n r a 9 9 B2 7 8 TYP. 1 a a Cl b - a 9 7 8 16 T 0 o b �---- 11 11 11 LIGHTING PLAN FIRST FLOOR (,ITY OF EDMONDS FRANCES ANDERSLN CENTER ELEr-TRICAL RENOVA� "41NI 1 j8"=1'-0" 0 8' 1/81, = 1'-0" NOTES: 1�CENTER FIXTURES BETWEEN BEAMS. SURFACE MOUNT FIXTURES ON LOW CEILING AND MAINTAIN SAME MOUNTING HEIGHT IN HIGH CEILING AREA, USING PENDANTS. 2�REWIRE BRANCH CIRCUITING ONLY TO DARKROOM EXHAUST FAN/LIGHT FIXTURE (1 .5A, 120V). 3. REMOVE ALL LIGHTING FIXTURES, WIRE AND SWITCHES IN THE ENTIRE FACILITY AND REPLACE WITH NEW AS DISCRIBED ON PLANS AND IN SPECIFICATIONS. REVIEW EXISTING FACILITY PRIOR TO BID TO DETERMINE EXTENT OF REMOVAL WORK. 4�REMOVE EXISTING HID FIXTURE AND ALL ASSOCIATED WIRING BACK TO SOURCE. FIELD VERIFY SOURCE. S�HOLD FIXTURES TIGHT TO BOTTOM OF BEAMS. :MOUNT TOP OF FIXTURE 9" DOWN FROM CEILING (NOT BOTTOM BEAM). 7�NOT USED. R:::---MOUNT FIXTURES AT THE SAME HEIGHT AS SURFACE MOUNT FIXTURES IN THIS AREA. 9. WHEREVER THE WORD "PROVIDE" IS USED, IT MEANS, "PROVIDE AND INSTALL COMPLETE AND READY FOR USE." 10. SEE DETAIL 3 FOR TYPICAL INSTALLATION OF OS E7.1 1. INSTALL NEW DOAS UNIT ROOF MOUNTED ON 4X DOUGLAS FIR SLEEPERS. REFER TO MCKINSTRY ENERGY TEAM FOR PROPOSED CRANE PICK LOCATION. 2. NO EXISTING PARAPET OR PERMANENT FALL PROTECTION ON ROOF. PROVIDE PERMANENT TIE -OFF FALL PROTECTION (FOR CONSTRUCTION AND OWNER MAINTENANCE). REFER TO STRUCTURAL SCOPE OF WORK FOR MORE INFORMATION. 3. DUCTWORK INSTALLED ON ROOF. 4. DUCTWORK TO BE EXPOSED. 5. DUCTWORK TO BE INSTALLED ABOVE PLYWOOD CEILING. 6. PROVIDE ROOF PENETRATION (DUCT SIZES ARE NOTED ON PLANS, BUT DO NOT INCLUDE INSULATION). 7. PROVIDE WALL PENETRATION (DUCT SIZES NOTED ON PLANS, BUT DO NOT INCLUDE INSULATION). 8. INSTALL SIDEWALL OR CEILING GRILLE WITH MANUAL VOLUME DAMPER. BALANCE TO CFM TO BE DETERMINED IN DESIGN. 9. EXISTING SIDEWALL OR CEILING GRILLE TO REMAIN. ADD MANUAL VOLUME DAMPER. BALANCE TO CFM TO BE DETERMINED IN DESIGN. 10. INSTALL NEW FAN IN EXISTING AIR HANDLING UNIT CABINET IN A DRAW -THROUGH CONFIGURATION. ISOLATE FAN WITH SPRINGS (BOD: MASON SLRS). NEW FAN TO BE SPEED -CONTROLLED VIA A VFD FURNISHED AND INSTALLED BY EC. SEE ELECTRICAL SKETCHES FOR VFD LOCATION. 11. INSTALL NEW REFRIGERANT COIL IN EXISTING AIR HANDLING UNIT CABINET IN A DRAW -THROUGH CONFIGURATION. 12. INSTALL NEW MERV-13 FILTER BANK IN EXISTING AHU CABINET. 13. INSTALL NEW DRAIN PAN IN EXISTING AIR HANDLING UNIT CABINET. 14. EXTEND EXISTING RETURN AIR DUCTWORK TO THE GYM WALL AND PROVIDE A RETURN AIR GRILLE WITH MANUAL VOLUME DAMPER. BALANCE TO CFM TO BE DETERMINED IN DESIGN. 15. REMOVE RETURN AIR GRILLE AND CAP. 16. NEW THERMOSTAT. 17. NEW DUCTWORK AND PIPING IN MAIN CORRIDOR WILL REQUIRE A LOT OF FIRE SPRINKLER MODIFICATIONS. ASSUME FIRE SPRINKLER WILL NEED TO BE DEMOLISHED AND MODIFIED THROUGHOUT CORRIDOR. LIGHTING FLAN FIRST FLOOR DRAWING NUMBER F2.1 SHEET NUMBER 5 of 24 Page Packet Pg. 134 NEW - SHEETMETAL 2.8.c b a a I 1 1 1 b a j 7 g 1 1 b a 1-- 1 1 I b a a 3 3 b Cl a10 W. 8 3 3 3 7 8 v ENj(,—A cfc"[Qcf.m(J, Western Washington 18311 Bothell -Everett Hwy. # 260 Bothell, WA 98012 Ph:425.402.6029 Fax: 425.483.3989 Eastern Washington 103 Palouse, # 10 Wenatchee, WA 98801 Ph:509.667.1625 Fax: 509.667.2433 www ecs-engineenng.com 20"x16" SUPPLY & EXHAUST UP 1. INSTALL NEW DOAS UNIT ROOF MOUNTED ON 4X DOUGLAS FIR SLEEPERS. REFER TO MCKINSTRY ENERGY TEAM FOR PROPOSED CRANE PICK LOCATION. 2. NO EXISTING PARAPET OR PERMANENT FALL PROTECTION ON ROOF. PROVIDE PERMANENT TIE -OFF FALL PROTECTION (FOR CONSTRUCTION AND OWNER MAINTENANCE). REFER TO STRUCTURAL SCOPE OF WORK FOR MORE INFORMATION. 3. DUCTWORK INSTALLED ON ROOF. 4. DUCTWORK TO BE EXPOSED. 5. DUCTWORK TO BE INSTALLED ABOVE PLYWOOD CEILING. 6. PROVIDE ROOF PENETRATION (DUCT SIZES ARE NOTED ON PLANS, BUT DO NOT INCLUDE INSULATION). 7. PROVIDE WALL PENETRATION (DUCT SIZES NOTED ON PLANS, BUT DO NOT INCLUDE INSULATION). 8. INSTALL SIDEWALL OR CEILING GRILLE WITH MANUAL VOLUME DAMPER. BALANCE TO CFM TO BE DETERMINED IN DESIGN. 9. EXISTING SIDEWALL OR CEILING GRILLE TO REMAIN. ADD MANUAL VOLUME DAMPER. BALANCE TO CFM TO BE DETERMINED IN DESIGN. 10. INSTALL NEW FAN IN EXISTING AIR HANDLING UNIT CABINET IN A DRAW -THROUGH CONFIGURATION. ISOLATE FAN WITH SPRINGS (BOD: MASON SLRS). NEW FAN TO BE SPEED -CONTROLLED VIA A VFD FURNISHED AND INSTALLED BY EC. SEE ELECTRICAL SKETCHES FOR VFD LOCATION. 11. INSTALL NEW REFRIGERANT COIL IN EXISTING AIR HANDLING UNIT CABINET IN A DRAW -THROUGH CONFIGURATION. 12. INSTALL NEW MERV-13 FILTER BANK IN EXISTING AHU CABINET. 13. INSTALL NEW DRAIN PAN IN EXISTING AIR HANDLING UNIT CABINET. 14. EXTEND EXISTING RETURN AIR DUCTWORK TO THE GYM WALL AND PROVIDE A RETURN AIR GRILLE WITH MANUAL VOLUME DAMPER. BALANCE TO CFM TO BE DETERMINED IN DESIGN. 15. REMOVE RETURN AIR GRILLE AND CAP. 16. NEW THERMOSTAT. DATE MARCH 2O02 SCALE 1 /8"=1 '-0" DESIGNED BY: R B F DRAWN BY: RSM/DRW CHECKED BY: LD APPROVED BY: SE LIGHTING PLAN SECOND FLOOR WEST 1/8 =1 —0 8' 0 8' 1 6' 1/8" = 1'-0" 1ytAON y °ASS �Z EXPIRES 2/10/03 REVISIONS SEE SHEET E2.3 FOR CONTINUATION CITY OF EDMONDS FRANCES ANDERSON CENTER ELECTRICAL RENOVATION NOTES: INSTALL NEW SWITCH AND BRANCH CIRCUIT TO DISPLAY CASE. WIRING IN DISPLAY CASE TO REMAIN (5@ 75W, 120V) BEHIND STAINED GLASS WINDOW INSTALL THREE TWO —LAMP STRIP FIXTURES (120V). TWO FIXTURES MOUNTED VERTICALLY, ONE MOUNTED HORIZONTALLY AT BOTTOM SAME AS EXISTING. 3. REMOVE ALL LIGHTING FIXTURES, WIRE AND SWITCHES IN THE ENTIRE FACILITY AND REPLACE WITH NEW AS DETAILED ON PLANS AND IN SPECIFICATIONS. RECYCLE AND/OR DISPOSE OF ALL MATERIALS PROPERLY. 4�INSTALL NEW SWITCH AND BRANCH CIRCUIT TO DISPLAY CASE. WIRING IN DISPLAY CASE TO REMAIN (10@ 75W, 120V) S�CENTER FIXTURES BETWEEN BEAMS. SURFACE MOUNT FIXTURES ON LOW CEILING AND MAINTAIN SAME MOUNTING HEIGHT IN HIGH CEILING AREA, USING PENDANTS. MOUNT FIXTURE 2" ABOVE TOP EDGE OF HIGHEST TRANSOM WINDOW MOLDING. MAINTAIN SAME MOUNTING HEIGHT FOR, ASSOCIATED FIXTURES. ADJUST FIXTURES FOR STRAIGHT FRONT EDGE. 7�REMOVE EXISTING TRACK LIGHTING AND ALL ASSOCIATED FIXTURES AND RETURN TO OWNER. REPLACE WITH NEW AS SHOWN, SURFACE MOUNTED. MOUNT FIXTURES AT THE SAME HEIGHT AS SURFACE MOUNT FIXTURES IN THIS AREA. 9. SEE DETAIL 3 FOR TYPICAL INSTALLATION OF OS E7.1 COORDINATE LOCATION OF THESE SWITCHES WITH OWNER. 10 SWITCH CONTROLS TRACK LIGHTING ON SLOPED CEILING AND FIXTURE OVER RECEPTIONIST DESK ALL LOCATED IN MAIN LOBBY. LIGHTING PLAN SECOND FLOOF1 WEST KEY PLAN SCALE: NONE DRAWING NUMBER E2.2 SHEET NUMBER 6 OF ? Page Packet Pg. 135 NEW - SHEETMETAL 2.8.c �r Western Washington 18311 Bothell -Everett Hwy. # 260 Bothell, WA 98012 Ph:425.402.6029 Fax 425.483.3989 I /J Eastern Washington 103 Palouse, # 10 Wenatchee, WA 98801 F(Nquc3i.m (,4 C Ph: 509.667.1625 Fax 509 667.2433 www.ecs-engineer ng.com 3 _ 11 �J E7.1 PLACARD REWIRE ONLY, 2 4 NO FIXTURES E7-1 NO LAMPS SEE SHEET E2.2 FOR CONTINUATION SEE EQUIPMENT ROOM °_ " — _ " —r " — WEST PLAN ON THIS SHEET 15 �� 1 I SAIJIVA D 16 TYPE r 15 T 1�f 1f 114f L 1� 75 U 16 15 17 17 rr �� ..�—a-�i— I T I / I 17 I I I 161 17 17 1 13 occ T 15 15 1 CI ,�i'" � I C E TYP TO 7 m 13 �/ - - - MECHANICAL 3 b a 3 b 13�. "— — — ROOM — 8 P 150 - 13 F 4 . TYP O O 15 5 U 7 —c 61 13 `'" m I , 16 (+� O _o 8 D 13 T 'I �----- 3 Q 5i�♦ OAS 3 b (ON ROOF)' 5 I ► __ 6 0 7 Tc "1 s • d Ji T 15 0 -i 2D-71 11,1.3 �j�i DATE MARCH 2O02 SCALE 1 /8"-1'-0" OCCUPANCY SENSOR FOR DCV SEQUENCE (TYP 2) B � k I 17 17 14" X 14" DN THROUGH ROOF 5 B2 TYP 0 5 0 UP TO MECHANICAL ROOM 1 OCC CO2 T i O O i /A\ 11 tk 11 k 11 i — - - - 1 ' SEE EQUIPMENT ROOM II�� 17 • I � O r� EAST PLAN ON THIS SHEET -- I I 16 16 1717 17 1' r 1 T -T II • E 17 ' 1 17 75> 17 TYP IRCP-8 17 . . ' 17 17 17 17 I REWIRE ONLY, NO FIXTURES NO LAMPS LIGHTING PLAN SECOND FLOOR EAST 1 /8"=1 '-01, 8' 0 8' 16' DESIGNED BY: R B F DRAWN BY: RSMZDRW CHECKED BY: LD APPROVED BY: SE P�y14ON p WASH,! G� 0�'�1 S10NAL NOTES: 1� PROVIDE WIRE GUARD TO THIS FIXTURE TYPE IN THIS ROOM. REMOVE EXISTING LIGHTING CONTROL RELAY CABINET, PANELBOARD AND 100A DISCONNECTING MEANS (CB). 3� MOUNT LIGHT SWITCHES BETWEEN COLUMN AND DOOR CASING. MOUNT LIGHTING PLACARD ABOVE LIGHT SWITCHES. 5- REMOVE ALL LIGHTING FIXTURES, WIRE AND SWITCHES IN THE ENTIRE FACILITY AND REPLACE WITH NEW AS DISCRIBED ON PLANS AND IN SPECIFICATIONS- REVIEW EXISTING FACILITY PRIOR TO BID TO DETERMINE EXTENT OF REMOVAL WORK. 6. SEE DETAIL 3 FOR TYPICAL INSTALLATION OF E7.1 77 PROVIDE NEW KEYED SWITCH TO CONTROL DOOR ALARM AND MAINTAIN EXISTING FUNCTION. LOCATE KEYED SWITCH ABOVE LIGHT SWITCHES FOR GYM. 1. INSTALL NEW DOAS UNIT ROOF MOUNTED ON 4X DOUGLAS FIR SLEEPERS. REFER TO MCKINSTRY ENERGY TEAM FOR PROPOSED CRANE PICK LOCATION. 2. NO EXISTING PARAPET OR PERMANENT FALL PROTECTION ON ROOF. PROVIDE PERMANENT TIE -OFF FALL PROTECTION (FOR CONSTRUCTION AND OWNER MAINTENANCE). REFER TO STRUCTURAL SCOPE OF WORK FOR MORE INFORMATION. 3. DUCTWORK INSTALLED ON ROOF. 4. DUCTWORK TO BE EXPOSED. 5. DUCTWORK TO BE INSTALLED ABOVE PLYWOOD CEILING. 6. PROVIDE ROOF PENETRATION (DUCT SIZES ARE NOTED ON PLANS, BUT DO NOT INCLUDE INSULATION). 7. PROVIDE WALL PENETRATION (DUCT SIZES NOTED ON PLANS, BUT DO NOT INCLUDE INSULATION). 8. INSTALL SIDEWALL OR CEILING GRILLE WITH MANUAL VOLUME DAMPER. BALANCE TO CFM TO BE DETERMINED IN DESIGN. 9. EXISTING SIDEWALL OR CEILING GRILLE TO REMAIN. ADD MANUAL VOLUME DAMPER. BALANCE TO CFM TO BE DETERMINED IN DESIGN. 10. INSTALL NEW FAN IN EXISTING AIR HANDLING UNIT CABINET IN A DRAW -THROUGH CONFIGURATION. ISOLATE FAN WITH SPRINGS (BOD: MASON SLRS). NEW FAN TO BE SPEED -CONTROLLED VIA A VFD FURNISHED AND INSTALLED BY EC. SEE ELECTRICAL SKETCHES FOR VFD LOCATION. 11. INSTALL NEW REFRIGERANT COIL IN EXISTING AIR HANDLING UNIT CABINET IN A DRAW -THROUGH CONFIGURATION. 12. INSTALL NEW MERV-13 FILTER BANK IN EXISTING AHU CABINET. 13. INSTALL NEW DRAIN PAN IN EXISTING AIR HANDLING UNIT CABINET. 14. EXTEND EXISTING RETURN AIR DUCTWORK TO THE GYM WALL AND PROVIDE A RETURN AIR GRILLE WITH MANUAL VOLUME DAMPER. BALANCE TO CFM TO BE DETERMINED IN DESIGN. 15. REMOVE RETURN AIR GRILLE AND CAP. 16. NEW THERMOSTAT. 17. INSTALL NEW ELECTRIC -RESISTANCE RADIANT CEILING PANEL. PROVIDE WITH PANEL MANUFACTURER'S SURFACE MOUNTING FRAME. REVISIONS 6-6-02 INCORPORATE ADDEMDUM #3 CIT'VJF* EDMONDS FRANCES ANDER.SON CENTER ELECTRICAL RENOVATION 14" X 14" OA 10 11 15 O 12 13 ' AHU 2 M NEW 14" X 14" OA LOUVER O EXH DN TO ECG. 15 (TYP 4) 0 EXISTING RETURN AIR TO WEIGHT DUCTWORK DOWN ROOM EQUIPMENT ROOM WEST RETURN AIR DUCTWORK IS UNDERNEATH WEIGHT ROOM, ACCESSIBLE FROM 15 THE GYM. O 10 11 12 13 AHU-1 0 EXH DN TO ECG. (TYP 4) ®O TYi F' K O Ma DOWN TO CORRIDOR EXISTING RETURN AIR DUCTWORK DOWN I�M NEW 14" X 14" OA LOUVER EQUIPMENT ROOM EAST PARTIAL PLAN MECHANICAL EQUIPMENT ROOMS 1 /8"=1 '-0" LIGHTING PLAN SECOND FLOOR EAST KEY PLAN SCALE: NONE u Page Packet Pg. 136 NEW - SHEETMETAL 2.8.c Western Washington 18311 Bothell -Everett Hwy. # 260 Bothell, WA 98012 Ph:425.402.6029 Fax: 425.483-3989 Eastern Washington �\ 103 Palouse, # 10 Wenatchee, WA 98801 r I; Ph: 509.667.1625 Fax. 509,667-2433 www.ecs-engineering.com 10" X 6" EAG (TYP UNO) or DATE MARCH 2O02 SCALE 20"x16" SUPPLY AND EXHAUST DN 10" X 6" SAG (TYP UNO) a DESIGNED BY: R B F DRAWN BY: R S M f D R W CHECKED BY: LD APPROVED BY: SE 9 9 t b b LIGHTING PLAN THIRD FLOOR 1 /8"=1 '-0" 8' 0 8' 1 6' 1/8" = 1'-0" a- b3 , 16 10,T 11 11 11 ii �' - Cl a a Cl b b b b 11 11 11 11 d d A� d d TYP 9'-10" REVISIONS 1. INSTALL NEW DOAS UNIT ROOF MOUNTED ON 4X DOUGLAS FIR SLEEPERS. REFER TO MCKINSTRY ENERGY TEAM FOR PROPOSED CRANE PICK LOCATION. 2. NO EXISTING PARAPET OR PERMANENT FALL PROTECTION ON ROOF. PROVIDE PERMANENT TIE -OFF FALL PROTECTION (FOR CONSTRUCTION AND OWNER MAINTENANCE). REFER TO STRUCTURAL SCOPE OF WORK FOR MORE INFORMATION. 3. DUCTWORK INSTALLED ON ROOF. 4. DUCTWORK TO BE EXPOSED. 5. DUCTWORK TO BE INSTALLED ABOVE PLYWOOD CEILING. 6. PROVIDE ROOF PENETRATION (DUCT SIZES ARE NOTED ON PLANS, BUT DO NOT INCLUDE INSULATION). 7. PROVIDE WALL PENETRATION (DUCT SIZES NOTED ON PLANS, BUT DO NOT INCLUDE INSULATION). 8. INSTALL SIDEWALL OR CEILING GRILLE WITH MANUAL VOLUME DAMPER. BALANCE TO CFM TO BE DETERMINED IN DESIGN. 9. EXISTING SIDEWALL OR CEILING GRILLE TO REMAIN. ADD MANUAL VOLUME DAMPER. BALANCE TO CFM TO BE DETERMINED IN DESIGN. 10. INSTALL NEW FAN IN EXISTING AIR HANDLING UNIT CABINET IN A DRAW -THROUGH CONFIGURATION. ISOLATE FAN WITH SPRINGS (BOD: MASON SLRS). NEW FAN TO BE SPEED -CONTROLLED VIA A VFD FURNISHED AND INSTALLED BY EC. SEE ELECTRICAL SKETCHES FOR VFD LOCATION. 11. INSTALL NEW REFRIGERANT COIL IN EXISTING AIR HANDLING UNIT CABINET IN A DRAW -THROUGH CONFIGURATION. 12. INSTALL NEW MERV-13 FILTER BANK IN EXISTING AHU CABINET. 13. INSTALL NEW DRAIN PAN IN EXISTING AIR HANDLING UNIT CABINET. 14. EXTEND EXISTING RETURN AIR DUCTWORK TO THE GYM WALL AND PROVIDE A RETURN AIR GRILLE WITH MANUAL VOLUME DAMPER. BALANCE TO CFM TO BE DETERMINED IN DESIGN. 15. REMOVE RETURN AIR GRILLE AND CAP. 16. NEW THERMOSTAT. CITY OF EDMONDS FRANCES ANDERSON CENTER ELECTRICAL RENOVATION NOTES: 1. REMOVE ALL LIGHTING FIXTURES, WIRE AND SWITCHES IN THE ENTIRE FACILITY AND REPLACE WITH NEW AS DISCRIBED ON PLANS AND IN SPECIFICATIONS. REVIEW EXISTING FACILITY PRIOR TO BID TO DETERMINE EXTENT OF REMOVAL WORK. P_____�_MOUNT FIXTURE 2" ABOVE TOP EDGE OF HIGHEST TRANSOM WINDOW MOLDING. MAINTAIN SAME MOUNTING HEIGHT FOR ASSOCIATED FIXTURES. 3�EACH ROW OF LAMPS IN CROSS SECTION SHALL BE INDIVIDUALLY SWITCHED. 4. SEE DETAIL 3 FOR TYPICAL INSTALLATION OF OS E7.1 LIGHTING PLAN THIRD FLOOR DRAWING NUMBER E2.4 SHEET NUMBER 8 of 24 Page Packet Pg. 137 2.8.c THIS PAGE LEFT INTENTIONALLY BLANK .r Q Page Packet Pg. 138 2.8.c MARKUP DRAWINGS Page Packet Pg. 139 2.8.c THIS PAGE LEFT INTENTIONALLY BLANK Page Packet Pg. 140 MARKUPS - ELECTRICAL -NEMA 5-20R 2.8.c M 0 ?4 4 v E�= 10 1 8- [Cfl) I, 1 6 �e Il 7 N 1 2 -16, i18,20,22 . I N U 11/20/23 REVISION 1 E-24,26 (E) PANEL 1 2 1 E-8, -- 4 12,14 F14 1 G F I' 1 =� 1 E-32, �-� 34,36 (126) Im- I T � G� I ,8 �•-G�� QreA T i p>< Fml J 18 - 7 } 16 J 20 22 123 ) 7 N 28 II DOAS-2 (ON ROOF) ' ------ ----' J / �34 2 I J 1 / ; 38 40 � I i 32 7 32 38 f � 1 B-38,40 (E) PANEL 1B 1 UP TO I 40 r PANEL 2A 1 I ►t 14 ODU-2.1 ODU-7.1 ODU-2.2 ODU-7.3 1 /r It3-1a 1b In 1 1 B-32,34,36 17 1 B I B-24,,zb,28.30 7 SEE ENLARGED ELECTRICAL _ \ ROOM PLAN FOR NEW 34 1 EQUIPMENT LOCATIONS ___ --32, 3/4" C, 3# 10 1 `2 1 34; 34,3z 1 4-38 40� -- - - - - - _ LXHAUST FAN t RYER J -- I 2 KWITY/IN 3 H M 3 M 4 3F 4 361 1 DEM 20 ' -- 10 '-1 r5 39 2 19 iA=28,30 10 2 WP I - i XFMR-1 , �i T 1A,�1A 12 r131;� i� SBD-02 __ ( q3 J 10 SBD-1 ( 4 4 F p 6 L (I J� 6,12 ! 2 SEB I J (E) PANEL 1A NTACTOR CONTROL 12 1 2 -' 1 C I ' 1 A- 1 "C, 1 A-14 !I I IDU-20 I 14 14 RANIUErT - CITY OF EDMONDS - PRANCES ANDERSON CENTER FIM# 50943-0301 UPGRADE HVAC SYSTEM TO VRF GMAX SCOPE DOCUMENT 11 /20/2023 4 7 J, . 6 1 8 I I Al I � I W/M 4000 1 I 6 r r 4 1 1 D-3-4"Ch \ / GFCI 62 (ON ROOF) ' 1 IL----- -----' M 41 0 0 V l 1 D-3/4" P SHUNT TRIP CB-1 16,18 16 Jl W • 1 Li 1 DISRI PROD o LOCP 20 37A) EQU IUP TO EQUI 18 �2C SCOF 18 22 g 20 �. 16 _ 2? 18 Iv1 •j M _ T W/M 4000 POWER PLAN FIRST FLOOR 1 /8"=1 '-0" 0 8' 1/81, = 1'-01, CONSTRUCTION NOTES: 1�REPLACE EXISTING RECEPTACLE AND WIRE WITH NEW IN SAME LOCATION. CEPTACLES WITHIN THISROOMSHALLBE LISTED <;T;AMPER RESISTANT, FOR DAYCARE ENVIRONMENT. L PO ER DISTRIBUTION, LIGHTI G, RANCH CIRCUIT AND FIRE ALARM WIRING ON THIS PROJECT IS TO BE REPLACED. REMOVE ALL ELECTRICAL INTERIORS, MODIFY AS REQUIRED TO ROUTE NEW BRANCH CIRCUITS. NOT USED MAXIMUM PANEL DIMENSIONS 6" DEEP BY 20" WIDE 74 UNLESS PRIOR WRITTEN APPROVAL IS GIVEN BY A/E. �_lNP 7�INSTALL EXTENSION RING AND EXTEND AS NECESSARY (2) 1 " 88 HALF OF OUTLET IS SWITCHED. INSTALL NEW BRANCH CIRCUITING TO EXISTING EQUIPMENT, IN THIS ROOM. A 10 THE OWNER WILL FUR S AN INSTALL R`OOF FAN. CONTRACTOR IS TO PROVIDE AND TERMINATE BRANCH CIRCUIT TO FAN AND PROVIDE GFCI RECEPTACLE ON ROOF. 11II IN CRAWL SPACE BELOW CLASSROOM, FIELD VERIFY LOCATION, SIZE AND VOLTAGE. SIZE BOOST XFMR ACCORDINGLY. 12 LOCATED IN CEILING ATTIC SPACE FIELD VERIFY LOCATION, SIZE AND VOLTAGE. 13 CONTRACT WITH ELEVATOR MANUFACTURER TO MODIFY ELEVATOR CONTROLS TO ALLOW FIRE ALARM SYSTEM SHUT DOWN. COMPLY WITH ALL ELEVATOR INSPECTOR REQUIREMENTS. 14 PROVIDE PANEL SKIRT TO FLOOR AND TO WITH ONE FOOT OF CEILING. 15 MARK DEDICATED SPACE ON FLOOR WITH YELLOW PAINT. IDENTIFY PAINTED SPACE WITH BLACK LETTERS STATING "ELECTRICAL AREA - KEEP CLEAR". 16 PROVIDE OUTLET IN WATER FOUNTAIN ALCOVE FOR FUTURE WATER COOLER. 17 PROVIDE PANEL SKIRT TO FLOOR. 18 CITY WILL RELOCATE STEAM PIPES AND ALL STORAGE BOXES IN THIS ROOM TO ACCOMMODATE ELECTRICAL EQUIPMENT INSTALLATION. 19 PROVIDE 0.75 KVA BOOST XFMR GENERAL NOTES: Al ADDITIVE BID ALTERNATE #1: WIREMOLD 4000 WITH DIVIDER AND TWO GANG DEVICE PLATE WITH GFCI COVER 5' ON CENTER. CONDUIT-1" C.O. FOR FUTURE DATA CABLING 3/4" HOME RUN FOR WP POWER CIRCUITS AS SHOWN. BASE BID 7 RECEPTACLES SHOWN TO BE INSTALLED IN WIREMOLD IF ALTERNATE IS ACCEPTED AS SHOWN. EQUIPMENT SCHEDULE DESIGNATOR DESCRIPTION ELECTRICAL REQUIREMENT BBP-1 BOILER BLOWER PACKAGE 10, 0.25 5A, 1 15V, 1-1 /2HP KVA BUCK -BOOST 10, 9A, 23OV, VIA XFMR, WALL-MTD BBP-1 BOILER BLOWER PACKAGE 10, KVA 5A, 1 15V, 1 HP 10, BUCK -BOOST XFMR, 7A, 230V, VIA 0.25 WALL-MTD CP-1 CIRCULATING PUMP 1 /3 HP, 1 15V CP-2 CIRCULATING PUMP 1 /4 HP, 1 15V CP-3 CIRCULATING PUMP 1 /3 HP, 1 15V CP-4 CIRCULATING PUMP 1 /3 HP, 'I 15V CP-5 CIRCULATING PUMP 1 /3 HP, 1 15V HW-1 HOT WATER HEATER 12A, 1 15V ELECTRICAL SCOPE PLAN - FIRST FLOOR El SCOPE DOCUMENTS ARE COMPRISED OF THIS SKETCH PACKAGE, THE FIM DOCUMENT, AND ELECTRICAL SCOPE TABLE. Packet Pg. 141 R A A Hill inn ri rnTnin A I 2.8.c SWITCHED KILN BOOST XFMRS SEE FOR CIRCUITING SWITCH CONTROLS RECEPTACLES ON CKT 8 18 SWITCHED KILN BOOST XFMRS SEE F /R CIRCUITING 10 g I GFC ~ GFC 22 20 0 210 1 20 1 7 1 I 8 �! 108 1 E7.1 1 9 22 2A E7.1 1, POW$' ) KILN-1 I J 14 16 �`� ZO -- - 10 2A-14,16,18 8 D 12 10 GFCI 8 GFCI �i (E)PANEL 2A 6 2A-2,4,6 4 CI 2 2A-5,7 2 I M M 5 KILN-31 16 24 KILN-4 _ 6:- - KILN-5 i 4 - 6i 19 Z� M 14 r? M M 6 2 2 __- -- 6 GfCI 7 — - SWITCHED SWI TCH 18 CONTROLS RECEPTACLES ON CKT 6— CITY OF EDMONDS - PRANCES ANDERSON CENTER FIM# 50943-0301 UPGRADE HVAC SYSTEM TO VRF GMAX SCOPE DOCUMENT 11 /20/2023 I� 4 3�N` V YV� �32tt30 3� ttjz1 N a c 2B (E) PANEL 213 16 10 I 16 209 1 8 1 14 8 i 10 1 f 11/20/23 REVISION i C? 11/20/23 REVISION 1 IDU-38 2 2B-34 SECOND FLOOR PLAN WEST N 1 /8"=1 '-01, 8' 0 8' 16, 6P�� Omni 1 /8" = 1'-0" 2 0 3/4" C.0 2C-2,4,6"' 2C u `r 4 ,FCI WID 14 GFCI 15 a3lcgp 41GFC1 14 WP GFCI 15 gyve CONSTRUCTION NOTES: P�___REPLACE EXISTING RECEPTACLE AND WIRE WITH NEW IN Qr-ATI A 2�RECEPTACLES WITHIN THIS ROOM SHALL BE LISTED TAMPER RESISTANT, FOR DAYCARE ENVIRONMENT. 3�REPLACE EXISTING SWITCH AND WIRE WITH NEW IN SAME LOCATION. 4�REMOVE ALL ELECTRICAL INTERIORS, MODIFY AS REQUIRED TO ROUTE NEW BRANCH CIRCUITS. SNOT USED R:::�>NOT USED INSTALL EXTENSION RING AND EXTEND AS NECESSARY. B�NOT USED INSTALL NEW BRANCH CIRCUITING TO EXISTING EQUIPMENT. 10 INSTALL SWITCHED CIRCUIT TO J-BOX. LOCATE J-BOX ON CEILING. 11 INSTALL HUBBELL FIRE RATED POKE -THROUGH WITH IVORY DUPLEX OUTLET AND BRASS TRIM PLATE WITH HINGED OUTLET COVERS. 12 NOT USED 13 REMOVE EXISTING RACEWAY AND INSTALL NEW. ROUTL RACEWAY AT CEILING LEVEL. BUILD STRUT RACK W/ TWO POLES. 14 MOUNT ON WALL 18" BELOW EVES. SWITCH LOCATED IN PARKS DEPT. OFFICE. 15 MOUNT ON WALL 18" ABOVE FINISHED GRADE. SWITCH LOCATED IN PARKS DEPT. OFFICE. 16 MOUNTED ON INSIDE OF BEAM AT CENTER LINE, FACING CENTER OF ROOM. 17 PROVIDE FOURPLEX ON STRUT POLE, ANCHOR TO BEAM AND FLOOR. 18 SWITCH WITH LIGHTED HANDLE IN THE ON POSITION. 19 REMOVE FLOOR HEAT POWER AND SWITCH IN ALL LOCATIONS TYPICAL. PROVIDE PANEL SKIRT TO FLOOR AND TO WITHIN ONE FOOT OF CEILING. 21 FOR FUTURE AIR CURTAIN. GENERAL NOTES: Al ADDITIVE BID ALTERNATE #1: WIREMOLD 4000 WITH DIVIDER AND TWO GANG DEVICE PLATE WITH COVER 5' ON CENTER. CONDUIT-1 " C.O. FOR FUTURE DATA CABLING 3/4" HOME RUN FOR POWER CIRCUITS AS SHOWN. BASE BID RECEPTACLES SHOWN TO BE INSTALLED IN WIREMOLD IF ALTERNATE IS ACCEPTED AS SHOWN. EQUIPMENT SCHEDULE DESIGNATOR DESCRIPTION ELECTRICAL REQUIREMENT 1 1 ,520W, 10, 240V, 48A, KILN-1 POTTERY KILN VIA 2.0 KVA BUCK --BOOST XFMR, WALL -MOUNTED 1 1,520W, 10, 240V, 48A, KILN-2 POTTERY KILN VIA 2.0 KVA BUCK -BOOST XFMR, WALL -MOUNTED 1 1,520W, 10, 240V, 48A, KILFJ-3 POTTERY KILN VIA 2.0 KVA BUCK -BOOST XFMR, WALL -MOUNTED 1 1,520W, 10, 240V, 48A, KILN-4 POTTERY KILN VIA 2.0 KVA BUCK -BOOST XFMR, WALL -MOUNTED 5,000W, 10, 240V, 21A, KILN-5 POTTERY KILN VIA 0.75 KVA BUCK -BOOST XFMR, WALL -MOUNTED KEY PLAN SCALE: NONE ELECTRICAL SCOPE PLAN - SECOND FLOOR - WEST E2 SCOPE DOCUMENTS ARE COMPRISED OF THIS SKETCH PACKAGE. THE FIM DOCUMENT. AND ELECTRICAL SCOPE TABLE. Packet Pg. 142 MARKUPS - ELECTRICAL CONSTRUCTION NOTES: 2.8.c 72 -1- - EF-1 AND EF-2 LOCAL CONTROLS SWITCHED RECEPTACLES FOR STAGE LIGHTING, MOUNTED ON CEILING CONTROLLED BY SWITCHES ON NORTH WALL. 58 ° 60 NEMA L5-20R TYP. UP TO EF-3 SAUNA CONTR LLER CONTROLLER SEE EQUIPMENT ROOM 4 WEST PLAN ON THIS SHEET. GFCI 52,54 MU, JI SH-1 SFr 7 VHD:-1AUNA50 2D-66,~ 68,70,72- 3/4"C, 2D-56,58 60,62 �f) TO EF-4 TROLLER - I' SAlir I POWER PLAN SECOND FLOOR EAST 1 /8"=1'-0., 8' 0 8' 16' CITY OF EDMONDS - PRANCES ANDERSON CENTER FIM# 50943-0301 UPGRADE HVAC SYSTEM TO VRF GMAX SCOPE DOCUMENT 11 /20/2023 CONTINUED ON EQUIPMENT ROOM WEST, THIS SHEET. D�S{�OfJNL _ DOWN TO HAND -OFF -AUTO CONTROL STATION FOR BLOWER ABOVE WOMEN'S LOCKER -ROOM HAND -OFF -AUTO CONTROL STATION FOR BLOWER ABOVE MEN'S LOCKER -ROOM UP TO BLOWER CONTROLER ABOVE MEN'S LOCKER ROOM �4�vl is, /%�/-��'Jj' 409 ,L , tld I T�4 I V 34 2D-32,34 �11 I I 34 34 ' SEE EQUIPMENT ROOM / 34 GFCI I _ EAST PLAN ON THIS SHEET. 'MOTIOt, SEN HD 2 2D-L�,�u 1 "C, 2#4 i 28,30 3 T 10 10 SAUNA CONTI ILLER SH-2 i I -------------- EXHAUST FAN CONTROLLER 21 POLE CONTAc-TOP. WITH M(-)TIl_. SENSOR. MOTION SENSOR SHOWER ROOM BELOW J nBFM-1GFL114 M24,26 %AID 16,18 J i itM EF-3 AHU-2.2 3/4"C, 4#12, 2#10 2D-16,18, 20,22,24,26--, , -FF 1 AHU 2 i 20, 22 2#10 CONTINUE TO EAST EQUIPMENT ROOM 14 CONTINUE TO HAND -OFF -AUTO CONTROLS, THIS SHEET EQUIPMENT ROOM WEST CONTINUE TO WEST EQUIPMENT ROOM 1 "C, 6#12, 2#10 2D-2,4,6,8,10,12,14 J i 14 AHU-1.2 AHU-1 BFM-2 j tvl.f`;f> I AL ; M 2,4 GF� 3/4"C, J WF' 4 M 2#10� HW-3 DOWN TO START/STOP CONTROLS STATION, THIS SHEET i 10,12 I T I � --)6,81 L 14 EXHAUST FAN CONTROLLER 2 9 POLE CONTACTOR WITH MOTION SENSOR. MOTION SENSOR IN ::HOWF.R ROOM BF 1 OW. EQUIPMENT ROOM EAST PARTIAL PLAN MECHANICAL EQUIPMENT ROOMS 1 /8"=1 '-0.1 8 E7.1 1�REPLACE EXISTING RECEPTACLE AND WIRE WITH NEW IN SAME LOCATION. 2�PROVIDE GFCI RECEPTACLE ON ROOF ADJACENT TO EXHAUST FAN. 3�PROVIDE HOA SWITCHES WITH LOCKABLE HASP COVER. 4�NOT USED S�SURFACE MOUNT NEMA L5-20R ON CEILING. SUPPLY MATCHING CORD CAP WITH DEVICE. LOCATE ADJACENT TO THE FAN MOTOR SWITCHES. 7�INSTALL EXTENSION RING AND EXTEND AS NECESSARY. HALF OF OUTLET IS SWITCHED. P::�INSTALL NEW BRANCH CIRCUITING TO EXISTING EQUIPMENT. CONTRACTOR TO INVESTIGATE AND GIVE AN ALLOWANCE TO PERFORM WORK. 10 RELOCATE EXISTING SAUNA CONTROLLER AND MAKE UP ALL EQUIPMENT CONNECTIONS. 11 LOCATE MOTOR DISCONNECT ADJACENT TO MOTOR. 12 PROVIDE OUTLET IN WATER FOUNTAIN ALCOVE FOR FUTURE WATER COOLER. EQUIPMENT SCHEDULE DESIGNATOR DESCRIPTION ELECTRICAL REQUIREMENT BFM-1 BLOWER FAN MOTOR 3/4 HP, 230V, 1 0, VIA 0.15 KVA BUCK -BOOST XFMR, WALL -MOUNTED BFM-2 BLOWER FAN MOTOR 3/4 HP, 230V, 1 0, VIA 0.15 KVA BUCK -BOOST XFMR, WALL -MOUNTED HW-2 HOT WATER HEATER 240V, 10, 450OW, (CONNECT ® 208V) HW-3 HOT WATER HEATER 240V, 10, 450OW (CONNECT @ 208V) EF-1 EXHAUST FAN 1 /4 HP, 120V, (5.4A) EF-2 EXHAUST FAN 1/4 HP, 120V, (5.1A) EF-3 EXHAUST FAN (WOMEN'S) 1 /2 HP, 240V, 10, VIA 0.15 KVA BUCK -BOOST XFMR, WALL -MOUNTED EF-4 EXHAUST FAN (MEN'S) 1 /2 HP, 240V, 10, VIA 0.15 KVA BUCK -BOOST XFMR, WALL -MOUNTED HD-1 HAND DRYER (WOMEN'S) 120V, 15A, 1 .3A MOTOR HD-2 HAND DRYER (MEN'S) 120V, 15A, 1.3A MOTOR SH-1 SAUNA HEATER (WOMEN'S) 240V, 10, 10KW, VIA 1.5 KVA BUCK -BOOST XFMR, WALL -MOUNTED SH-2 SAUNA HEATER (MEN'S) 240V, 10, 10KW, VIA 1.5 KVA BUCK -BOOST XFMR, WALL -MOUNTED ELECTRICAL SCOPE PLAN - SECOND FLOOR EAST, MECHANICAL EQUIPMENT ROOMS SCOPE DOCUMENTS ARE COMPRISED OF THIS SKETCH PACKAGE, THE FIM DOCUMENT, AND ELECTRICAL SCOPE TABLE. KEY PLAN SCALE.- NONE E3 Packet Pg. 143 RAAr%1/I IMn rl rnTr%1nAI 2.8.c IDU 54. j IDU-54.2 U-54. S ID11-54. � - 24 3 1 -- --- 11/20/23 REVISION --- 26 1115 Ni CITY OF EDMONDS — PRANCES ANDERSON CENTER FIM# 50943-0301 UPGRADE HVAC SYSTEM TO VRF GMAX SCOPE DOCUMENT 11 /20/2023 F W/M 4000 'j 3/ "C, 1 ; 3A 20,22, 24,10 28 3/4"C, 26 D 3A-26,28, 30,10 L: 26 28 ' , — -- = L— i w— 10 3A 10 CU 1"C.O. 5 1 "C, 3A-2,4,6,8,12 1 C, 3A-14,16,1 1 "C.O. 3/4"C 3A-13MIN" o 1 n 71 7Z u 3 18 1Jj IDU 55.5 11/20/23 REVISION i 12 c POWER PLAN THIRD FLOOR 1 /8"=1 '-0" Abtov e ®r 1 -To P o E' ) ELECTRICAL SCOPE PLAN — THIRD FLOOR SCOPE DOCUMENTS ARE COMPRISED OF THIS SKETCH PACKAGE, THE FIM DOCUMENT, AND ELECTRICAL SCOPE TABLE. H041--1 � }'v S Cc, 5+ ',� A (—, . CONSTRUCTION_ NOTES: 1� REPLACE EXISTING RECEPTACLE AND WIRE WITH NEW I SAME CAT ON. 2 RECEPTACLES WITHIN THIS ROOM SHALL BE LISTED TAMPER RESISTANT, FOR DAYCARE ENVIRONMENT. REPLACE EXISTING SWITCH AND WIRE WITH NEW IN SAME LOCATION. 4� REMOVE ALL ELECTRICAL INTERIORS, MODIFY AS REQUIRED TO ROUTE NEW BRANCH CIRCUITS. 5� PROVIDE PANEL SKIRT TO FLOOR AND TO WITHIN ONE FOOT OF CIELING. GENERAL NOTES: Al ADDITIVE BID ALTERNATE # 1: WIREMOLD 4000 WITH DIVIDER AND TWO GANG DEVICE PLATE WITH COVER 5' ON CENTER. CONDUIT-1" C.O. FOR FUTURE DATA CABLING 3/4" HOME RUN FOR POWER CIRCUITS AS SHOWN. BASE BID RECEPTACLES SHOWN TO BE INSTALLED IN WIREMOLD IF ALTERNATE IS ACCEPTED AS SHOWN. i i � l M N O Po - y I Packet Pg. 144 MARKUPS -ELECTRICAL a m m 0 w 0 D Cn w 0 � Q o EXISTING FIRE SPRINKLER U) / PIPING AND HEADS o6 w w IU)i SHELVES & STORAGE ------------- GENERATOR CONNECTION CABINET -- - - - - - - - - -- - ENLARGED ELECTRICAL ROOM AND YARD - EXISTING rQ SCALE:1/4"=1'-0" 0 2' 4' 8' �� ENLARGED ELECTRICAL ROOM AND YARD - NEW r-L. SCALE:1/4"=1'-0" SEE ONE -LINE FOR SPECS. OF NEW FEEDERS CITY OF EDMONDS - PRANCES ANDERSON CENTER FIM# 50943-0301 UPGRADE HVAC SYSTEM TO VRF GMAX SCOPE DOCUMENT 11 /20/2023 0 2' 4' 8' TAP -> Generator Ti 2.8.c FA -> Fire Alarm ni r- n„+A„or Light Contra Meter ENLARGED ELECTRICAL ROOM AND YARD - TEMP. POWER �Q SCALE:1 /4"=1'-0" KEYNOTES: 1. MODIFICATIONS AT DOOR BY OTHERS. DOOR TO BE EQUIPPED WITH PANIC HARDWARE, SWING OUT, AND NOT PROTRUDE INTO THE PATH OF EGRESS WHEN OPEN. 2. TRENCHING AND BACKFILL BY OTHERS. 3. CONCRETE ENCASEMENT (MINIMUM 2") AROUND NEW SERVICE CONDUCTORS BY OTHERS. 4. NEW EXTERIOR WALL PENETRATION AND SEALING OF PENETRATION BY OTHERS. 5. CONCRETE HOUSEKEEPING PAD BY OTHERS. 6. EXISTING UTILITY TRANSFORMER WITH 2O8V / 3-PH. SECONDARY TO BE DEMO'D BY SNOHOMISH COUNTY PUD. NEW UTILITY TRANSFORMER WITH 480V / 3-PH. SECONDARY TO BE PROVIDED BY SNOHOMISH COUNTY PUD. 7. EXISTING PAD -VAULT FOR UTILITY TRANSFORMER TO BE RE -USED. KLER 8. DRIP SHIELDS ABOVE ELECTRICAL GEAR TO BE PROVIDED BY OTHERS. 9. EXISTING FIRE ALARM PULL STATION TO BE RELOCATED BY FIRE ALARM CONTRACTOR. 10. EXISTING WINDOW OPENING TO BE FILLED IN BY OTHERS. 11. FLOOR SLAB TO BE SAWCUT BY OTHERS TO ALLOW NEW SERVICE CONDUITS TO STUB UP INTO NEW SWITCHBOARD. 12. EXISTING SHELVES AND STORED ITEMS TO BE REMOVED BY OTHERS. 13. EXISTING UTILITY SECTION OF MAIN SWITCHBOARD 'SB D- VTO BE MODIFIED TO BE NON -SERVICE EQUIPMENT, AND ACCEPT NEW OVERHEAD'BACK-FEED' FROM NEW SERVICE SWITCH BOARD'4MSBN1A' VIA TRANSFORMER'TSBD-1'. CT'S TO BE REMOVED BY SNOHOMISH COUNTY PUD. MODIFICATIONS TO GEAR TO BE FIELD EVALUATED BY UL OR OTHER NATIONALLY RECOGNIZED TESTING LABORATORY. 14. EXISTING SERVICE CONDUCTORS TO BE DISCONNECTED AND REMOVED FROM EXISTING SERVICE CONDUITS. CONDUITS TO BE CAPPED OFF AND ABANDONED. 15. NEW SERVICE CONDUCTORS TO BE MEGGERED BEFORE ENERGIZATION OF NEW SERVICE. 11/20/23 REVISION ENLARGED PLAN - MAIN ELECTRICAL ROOM AND UTILITY TRANSFORMER AREA SCOPE DOCUMENTS ARE COMPRISED OF THIS SKETCH PACKAGE, THE FIM DOCUMENT, AND ELECTRICAL SCOPE TABLE. 0 2' E5 M N O Packet Pg. 145 A A A rm% 1/ 1 1 rm% r1 r 1 r Am1 T rm% 1 Am1 A I 2.8.c FEEDER SCHEDULE FEEDER NO. FEEDER DESCRIPTION (4) 3-1/2" C, 4 — 350 KCMIL © NOT USED C (2) 3" C, 4 — 350 KCMIL, 1 # 1 GND OD 2"C, 4 — # 1, 1 #8GND 3" C, 4—#4/0, 1 #4GND 0 3" C, 4 — # 4/0, 1 # 4 GND KWH XFMR © 3" C, 4 — # 4/0, 1 # 4 GND DEM GROUNDING ELECTRODE qO OH 2"C, 4 — # 1, 1 #8GND CONDUCTOR #3/0 ' TO SNO. CO. A UTILITY POLE PUD K 3" C, 4 — # 4/0, 1 # 4 GND _Ly N © 3" C, 4 — # 4/0, 1 # 4GND 1200/3 SEB OUTDOOR PAD MOUNTED TRANSFORMER G 12,470-208Y/120 VAC O 2" C, 4 — # 1, 1 # 8 G N D i 225KVA, 30, 4W WATER PIPE 41 SNO. CO. PUD 41,670 AVAILABLE FAULT CURRENT L �. .J 3" C, 4 — # 4/0, 1 # 4 GND GROUND RODS (4) I ' sBD_1 © 3" C, 4 — 300 KCMIL, 1 # 2 GND _ ® (2) 3-1/2" C, 4 — 350 KCMIL, 1 # 1 GND 1200A, 208Y/120V, 34, 4W, 65,000 AIC 1-1/2" C, 3 — # 1, 1 # 4GND K........ T600/3 100/3 225/3 225/3 225/3 100/3 225/3 150/3 100/3 225/3 225/3 100/3 i O O O O SPARE SPARE SPARE SPARE SPACE ' 0C E 0 © 0 0 0 BUCK -BOOST TRANSFORMERS 202KVA (OPEN DELTA) 208V LOW VOLTAGE 240V HIGH VOLTAGE J J B iD 1D 1E 1E 2A 26 3A 0 3PWALL MOUNTED XFMR-1 SEC 1 SEC 2 SEC 1 SEC 2 I DAY CARE SCULPTURE MAIN CORRIDOR MAIN CORRIDOR WEST WING WEST WING NORTH SOUTH WORKSHOP SECOND FLOOR THIRD FLOOR 20 1 / EELEV ............................................. SBD-2 -' - - - - - - - - - - - - - - - - - - - - - - - - - - ENERAL NOTES: • ' % V 60°A, 2°8Y/12° , 0 4 3 W, 65,000 AIC ' 1. INTERLOCK CIRCUIT BREAKER IN SBD-1 FEEDING SBD-2 K WITH CIRCUIT BREAKER TO STANDY GENERATOR IN SBD-2 i3 225/3 100/3 225/3 225/3 100/3 225/3 SUCH THAT ONLY ONE CIRCUIT BREAKER CAN BE CLOSED ( L AT ANY ONE TIME. 4 0 9 Q O O 1A 1A SEC 1 SEC 2 KITCHEN CITY OF EDMONDS - PRANCES ANDERSON CENTER FIM# 50943-0301 UPGRADE HVAC SYSTEM TO VRF GMAX SCOPE DOCUMENT 11 /20/2023 0 BOILER ROOM SPARE SPARE SPACE SPACE ' o PARKS OFFICE GYM ONE -LINE DIAGRAM - EXISTING SCOPE DOCUMENTS ARE COMPRISED OF THIS SKETCH PACKAGE, THE FIM DOCUMENT, AND ELECTRICAL SCOPE TABLE. E6 Packet Pg. 146 A A A 1"1 1 r% n r l r t1 T r" % 1 t1 A I 2.8.c GROUNDING ELECTRODE CONDUCTOR #3/0 I I WATER PIPE GROUND RODS (4) N 1200/3 SEB V XFMR TO SNO. CO. PUD A UTILITY POLE OUTDOOR PAD MOUNTED TRANSFORMER 12,470-20BY/120 VAC 225KVA, 30, 4W BY SNO. CO. PUD 41,670 AVAILABLE FAULT CURRENT i L- - - - - - - 1200A, 208Y/ 120V, SBD-1 - - - 30, 4W, 65,000 AIC - - - - - - - - - - - - - - - - - - - - - - - - - K........ 600/3 100/3 225/3 225/3 225/3 100/3 225/3 150/3 100/3 225/3 225/3 100/3 i O O O O I V SPARE SPARE SPARE SPARE SPACE L- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 0C E 0 © 0 0 0 BUCK -BOOST TRANSFORMERS 202KVA (OPEN DELTA) 208V LOW VOLTAGE 240V HIGH VOLTAGE ✓ B iD 1D 1E 1E 2A 26 3A 3PWALL MOUNTED O XFMR 1 SEC 1 SEC 2 SEC 1 SEC 2 I DAY Car[ WEST WING WEST WING SCULPTURE MAIN CORRIDOR MAIN CORRIDOR NORTH SOUTH WORKSHOP SECOND FLOOR THIRD FLOOR 20 1 / E�EV V ............................................ SBD-2 GENERAL NOTES. I � 600A, 208Y/120V, 30, 4W, 65,000 AIC 1. INTERLOCK CIRCUIT BREAKER IN SBD-1 FEEDING SBD-2 K v U WITH CIRCUIT BREAKER TO STANDY GENERATOR IN SBD-2 i3 225/3 100/3 225/3 225/3 100/3 225/3 SUCH THAT ONLY ONE CIRCUIT BREAKER CAN BE CLOSED (�)AT ANY ONE TIME. nO 0 V _V SPARE SPARE SPACE SPACE - - - - - - - - - I - - - - - - - - - - - - - - - - —. © O O 1A 1A SEC 1 SEC 2 KITCHEN CITY OF EDMONDS - PRANCES ANDERSON CENTER FIM# 50943-0301 UPGRADE HVAC SYSTEM TO VRF GMAX SCOPE DOCUMENT 11 /20/2023 BOILER PARKS ROOM OFFICE 2D 2D SEC 1 SEC 2 GYM ONE -LINE DIAGRAM - TEMP. POWER FEEDER SCHEDULE FEEDER NO. FEEDER DESCRIPTION (4) 3-1/2" C, 4 - 350 KCMIL © NOT USED 0 (2) 3" C, 4 - 350 KCMIL, 1 # 1 GND OD 2"C, 4 - # 1, 1 #8GND 3" C, 4-#4/0, 1 #4GND 0 3" C, 4 - # 4/0, 1 # 4 GND 3" C, 4 - # 4/0, 1 # 4 GND OH 2"C, 4 - # 1, 1 #8GND 3" C, 4 - # 4/0, 1 # 4 GND © 3" C, 4 - # 4/0, 1 # 4 GND 0 2" C, 4 - # 1, 1 # 8 GND 3" C, 4 - # 4/0, 1 # 4 GND © 3" C, 4 - 300 KCMIL, 1 # 2 GND ® (2) 3-1/2" C, 4 - 350 KCMIL, 1 # 1 GND 1-1/2" C, 3 - # 1, 1 # 4 GND SEQUENCE FOR SETUP OF TEMPORARY POWER PROVIDES TEMPORARY POWER FOR WHOLE BUILDING. 1. TEMP. GENERATOR: SET UP 150 KW, 208V / 3-PHASE TEMPORARY GENERATOR. 2. MAIN BREAKER IN SERVICE SWITCHBOARD 'SBD-1': OPEN BREAKER. 3. REMOVE THE KIRK -KEY INTERLOCK BETWEEN BREAKERS 4 AND 5. 4. GENERATOR INFEED BREAKER INTO'SBD-2': CLOSE BREAKER. 5. GENERATOR SUB -FEED BREAKER IN 'SBD-1': CLOSE BREAKER. NOTE: DURING MODIFICATIONS TO UTILITY SECTION IN 'SBD-1', IT WILL BE NECESSARY TO DISCONNECT'SBD-1' FROM TEMP. POWER. (OPEN BREAKER 5.) SCOPE DOCUMENTS ARE COMPRISED OF THIS SKETCH PACKAGE, THE FIM DOCUMENT, AND ELECTRICAL SCOPE TABLE. E7 Packet Pg. 147 MARKUPS - ELECTRICAL 11/2923 REVISION 2.8.c (4)'+ U, (4) JJU NUMIL FEEDER SCHEDULE TENTANT METER NEW OUTDOOR PAD MOUNTED TRANSFORMER BY SNOPUD KWH FEEDER NO. FEEDER DESCRIPTION 12,470 9 VAC 480Y/277V DEM KVA 30, 4W EST. 500 KVA BYSNO.CO. PUD ■■■ NEW SERVICE SWITCHBOARD 4MSBN1A 1200A BUS 480Y/277V 3-PH. / 4-WIRE ■■■■■■F (4) 3-1/2" C, 4 — 350 KCMIL G IRRENT A 1,67C) AVAILABLE E FAULT ■ ■_ : © NOT USED ■ UTILITY METER Y o ' : 1200/3 l ■ ■ 0 (2) 3" C, 4 — 350 KCMIL, 1 # 1 GND rl : OD 2"C, 4—# 1, 1 #8GND : ■ ■ • N ; E G 350/3 500/3 500/3 �' 400/3 SPACE ■ 400/3 SPACE : © " 3 C, 4—#4/0, 1 #4GND EXISTING UTILITY TRANSFORMER TO BE DEMO'D BY SNOPUD. 7000000001■■■■■■■■ ■■■■■■■■■■...... �...■■■■■■■■ ■■■■■..... ...■■■■■■. Elm ■■■■■■■■■■�■■■■■■■■■■■` O ,� 3 C, 4 — # 4/0, 1 # 4GND KWH MR TSBD-1 - (2) 2-1/2"C, (4) 250 KCMIL, G 3" C, 4 — # 4/0, 1 # 4GND DEM 480:208/120 #2 AWG GNDGRUNDNG ELEOCTROIDE 225KVA PNL add provisions for pv breaker H 2"C, 4 — # 1, 1 #8GND CONDUCTOR #3/0 T S 0. CO. PUD PNL 4PNLN1A 4PNLN1B K 3" C, 4 — # 4/0, 1 # 4GND Q TILITY POLE N 480V13-PH. 480V/3-PH. © 3" C, 4 — # 4/0, 1 # 4GND G 1200/3 SEB OUTDOOR P MOUNTED TRAN RMER 600A BUS MLO 600A BUS MLO G * 12,470-2 Y/120 VAC O 2" C, 4 — # 1, 1 # 8GND 225KV , 30, 4W BY 0. CO. PUD #2/0 BONDING JUMPER, 3-1/2"C, (3) 500 KCMIL, WATER PIPE 670 AVAILABLE FAULT CURRENT #2/0 GROUNDING ELECTRODE CONDUCTOR #2 AWG GND � n 3 C, 4 — # 4/0, 1 # 4GND GROUND RODS (4) I sBD-1 © 3" C, 4 — 300 KCMIL, 1 # 2 GND - ® (2) 3-1/2" C, 4 — 350 KCMIL, 1 # 1 GND REMOVE NEUTRAL -TO -GROUND EQU PM NTONGER SERVICE 1200A, 208Y/12OV, 30, 4W, 65,000 AIC i OS 1-1/2" C, 3 — # 1, 1 # 4GND K 600/3 100/3 225/3 225/3 225/3 100/3 225/3 150/3 100/3 225/3 )225/3 i 100/3 O O O O SPARE SPARE SPARE SPARE SPACE - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 0C E 0 © 0 0 0 BUCK -BOOST TRANSFORMERS 202KVA (OPEN DELTA) 208V LOW VOLTAGE 240V HIGH VOLTAGE ✓ B ,D 1D 1E 1E 2A 26 3A O 3P,WALL MOUNTED XFMRI SEC 1 SEC 2 SEC 1 SEC 2 I DAY (-AP[ WEST WING SCULPTURE MAIN CORRIDOR MAIN CORRIDOR WEST WING NORTH SOUTH WORKSHOP SECOND FLOOR THIRD FLOOR 20 1 / E�EV ............................................. SBD-2 - - - F.1 - - - - - - - - - - - - - - - - - - - - - - -� ENERAL NOTES: I V 0 sooA, zosY/,2o , 3 , 4 w, s5,000 AIC SBD-1 FEEDING SBD-2 K 1. INTERLOCK CIRCUIT BREAKER IN WITH CIRCUIT BREAKER TO STANDY GENERATOR IN SBD-2 i3 225/3 100/3 225/3 225/3 100/3 225/3 SUCH THAT ONLY ONE CIRCUIT BREAKER CAN BE CLOSED (0 AT ANY ONE TIME. O O SPARE SPARE SPACE SPACE o 1A 1A SEC 1 SEC 2 KITCHEN CITY OF EDMONDS - PRANCES ANDERSON CENTER FIM# 50943-0301 UPGRADE HVAC SYSTEM TO VRF GMAX SCOPE DOCUMENT 11 /20/2023 BOILER PARKS ROOM OFFICE 2D 2D SEC 1 SEC 2 GYM ONE -LINE DIAGRAM - NEW SCOPE DOCUMENTS ARE COMPRISED OF THIS SKETCH PACKAGE, THE FIM DOCUMENT, AND ELECTRICAL SCOPE TABLE. Packet Pg. 148 R A A 1ZI ins r7i r7 n Ir I n A I 2.8.c PANEL: 4MSBN1A CITY OF EDMONDS - FRANCES ANDERSON CENTER 10/2012023 IlStry LOCATION: MAIN ELECTRICAL ROOM SYSTEM: SUPPLY FROM: UTILITY (SNOHOMISH CTY PUD) GROUND BUS: MTG ! ENCL: FREE-STANDING i NEMA 1 SPD: 277Y,48OV.30,01+G YES YES SCCR: 65 K-. MAINS TYPE: MAIN DIST SABID BUS MATERIAL: CU MCB: 1200A BUS RATING: 1200A CKT DESCRIPTION POLES OPD FRAME OPD TRIP LOAD (KVA) REMARKS SERVICE DISCONN #1 SUBFEED TO 4PNLN 1A 3 600 500 30000 2 SERVICE DISCONN #2 SUBFEED TO 4PNLN I B 3 600 500 30000 6 SERVICE DISCONN #3 BACKFEED OF SBD-1 1IA TSBD-1 3 400 350 20000 7 SPACE 3 400 — FULLY PRO\'ISIONED SPACE 8 SPACE 3 400 — FULLY PRO\ ISIONED SPACE 10 11 12 CONNECTED LOAD: 800.00 KVA LOAD CLASSIFICATION CONNECTED LOAD DEMAND FACTOR DEMAND LOAD PANEL TOTALS R RECEPTACLES 0 00 WA NEC220 44 0 00 WA L LIGHTING 000 WA 125 00% 0 00 WA CONNECTED LOAD: 800 00 WA E EQUIPMENT 80000 WA 100 00% 800.00 WA LM LARGEST MOTOR 0 00 WA 125 00% 0.00 WA M MOTOR 0 00 WA 100 00% 0 00 WA K KITCHEN 0 00 WA 100 00% 1 0 00 WA DEMAND LOAD: 800 00 KVA x EXISTING LOAD 0 00 WA 125 00% 1 0.00 WA DEMAND: 962 70 AMPS NOTES: ' SEE SPECIFICATIONS FOR ADDITIONAL REQUIREMENTS PANEL: 4PNLN 1 A CITY OF EDMONDS -FRANCES ANDERSON CENTER 10 20 2023 � ww_r' 0 LOCATION MAIN ELECTRICAL RC SYSTEM 277Yl480V,30,4W+C SCCR 65 KA MAINS TYF h'LC SUPPLY FROM UTILITY (SNOHOMISH CTY PUD) GROUND BUS YES BUS MATERIAL: CU MCB h'LC MTG , ENCL. SURFACE / NEMA 1 SPD NO BUS RATING: 600A CKT DESCRIPTION LOAD AMPS POLES A B C POLES AMPS LOAD DESCRIPTION CKT DOAS-1 1 (FANS) 35 3 3 15 DOAS-3 1 (FAIJS) 3 - 5 7 DOAS-1 2 (HEATERI OAS-3 2 (HEATER; 8 10 11 12 13 DOAS-2 1 (FANS) 35 ODU-1 1 14 15 16 17 18 19 DOAS-2 2 (NEATER) c3 ? ODU-1 2 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 F 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 CITY OF EDMONDS - PRANCES ANDERSON CENTER FIM# 50943-0301 UPGRADE HVAC SYSTEM TO VRF GMAX SCOPE DOCUMENT 11 /20/2023 SECTION 26 2413 - SWITCHBOARDS SUBMITTALS: REQUIRED. 1. MANUFACTURERS: SIEMENS, EATON, GE/ABB, SCHNEIDER/SQUARE-D. 2. PRODUCTS: A. CIRCUIT BREAKERS SHALL BE BOLT -ON TYPE ONLY B. SERIES RATED EQUIPMENT IS NOT ACCEPTABLE C. 100% NEUTRAL BUS UNLESS OTHERWISE NOTED IN THE DRAWINGS D. INCLUDE 25% PHYSICAL SPACE FOR FUTURE BREAKERS. E. PROVIDE PHASE -LOSS RELAY. F. ARC FLASH REDUCTION PER CODE. G. TENANT METERING ON INCOMING FEED. H. PROVIDE LABEL PER NEC 110.16 (B). I. PROVIDE FULLY RATED VERTICAL BUS IN EACH SECTION. 3. EXECUTION: A. PANEL BOARDS SHALL BE INSTALLED IN STRICT ACCORDANCE TO THE NEC. B. INCLUDE ACCEPTANCE TESTING BY NETA CERTFIED TESTING AGENCY. SECTION 26 24 16 - PANELBOARDS SUBMITTALS: REQUIRED. 1. MANUFACTURERS: SQUARE-D. SIEMENSIABB OR EATON. 2. PRODUCTS: A. CIRCUIT BREAKERS SHALL BE BOLT -ON TYPE ONLY B. SERIES RATED EQUIPMENT IS NOT ACCEPTABLE C. 100% NEUTRAL BUS UNLESS OTHERWISE NOTED IN THE DRAWINGS 3. EXECUTION: A. PANEL BOARDS SHALL BE INSTALLED IN STRICT ACCORDANCE TO THE NEC B. FOR PANELBOARDS, INCLUDE A TOTAL OF 20% SPARE CAPACITY FOR BREAKERS AND SPACES (COMBINED). INCLUDE AT LEAST ONE SPARE BREAKER OF EACH TYPE INCLUDED WITHIN PANELBOARDS. PANEL- 4PNLN 1 B CITY OF EDMONDS - FRANCES ANDERSON CENTER 1012012023 i1S'A 0-j.rr- LOCATION: MAIN ELECTRICAL ROOM SYSTEM: 277YA80v.30Aw+c SCCR: 65 K= MAINS TYF I'ALO SUPPLY FROM: UTILITY (SNOHOMISH CTY PUD) GROUND BUS: YES BUS MATERIAL: CU MCB: I'ALO MTG I ENCL: SURFACE NEMA 1 SPD: NO BUS RATING: 600A CKT DESCRIPTION LOAD AMPS POLES A B C POLES AMPS LOAD DESCRIPTION CKT 1 ODU-21 20 3 25 ODU-71 2 3 4 5 6 7 ODU-2 2 40 3 35 ODU-7 2 8 9 10 11 12 13 ODU-3 5 3 40 ODU-7 3 14 15 16 17 18 19 ODU-4 35 3 50 ODU-8 20 21 22 23 24 25 ODU-5 35 3 20 ODU-9 26 27 28 29 30 31 ODU-6 25 3 20 ODU-10 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 PANEL SCHEDULES AND SPECIFICATIONS SCOPE DOCUMENTS ARE COMPRISED OF THIS SKETCH PACKAGE, THE FIM DOCUMENT, AND ELECTRICAL SCOPE TABLE. E9 Packet Pg. 149 207791 Structural Drawing - GMAX 10-24-23 2ac MARKUPS -STRUCTURAL T A FOUNDATI ONM I RST FLOOR PLAN — OEST SCALE IN FEET NORTH 4 0 4 8 12 16 20 SCALE: 1/8" = 1'-0" f — -- - I 1 EI 3 L— ! I --- 3 ---- I ) S3.01 i o ! I{ 15 It w' — . (E) GONG 5WI--- CONN Ici4? GONG 5LAB TO IQ25 GONG WALL PER 6/55.26 TYP WHERE 5HONN G r04 FOR— GONTINUA ION OF FOUND I kTION 5/55.01 8 —(D 11' 12' MATGHL I NE FOR 00N7INU,4TION 5EE 51.02 I PARTIAL PLAN TYPICAL HOUSEKEEPING PAD DETAIL GENERAL NOTES: 1. REFER TO MECHANICAL GMAX SET DATED 10-24-2023 FOR ADDITIONAL INFORMATION NOT SHOWN HERE. 2. USE THIS DRAWING AND WORK WITH MECH DRAWING FOR ALL MP DISTRIBUTION. KEYED NOTES O EXTERIOR 4" CONCRETE HOUSE KEEPING PAD WITH #4 BARS AT 18" ON CENTER EACH WAY. PROVIDE AN 18" DEEP BY 6" WIDE THICKENED PERIMETER LIP. PROVIDE SEISMIC EXPANSION ANCHORS AT EACH CORNER OF OUTDOOR UNITS. O INTERIOR 4" CONCRETE HOUSE KEEPING PAD PER DETAIL 2. PROVIDE SEISMIC EXPANSION ANCHORS AT EACH CORNER OF INDOOR UNITS. O CONCRETE DUCT BANK GRADE BEAM PER DETAIL 1 AND LOCATION PER ELECTRICAL DRAWINGS. 0 w O � 3" MIN COVER, z TYP co H SEE ELECT DWGS, TYP (3" MIN) -Q d •Q 'Q 'Q • d 4 - v #4 CONT EA CORNER #4 IF 12" LAP ANS AT 15" OF TOP, BOT @24" OC AND SIDES. (FIELD BEND) NOTE: SEE ELECTRICAL DRAWINGS FOR SIZE AND NUMBER OF CONDUITS, AND FOR LOCATIONS OF BANKS. ' � TYP ELECTRICAL DUCT BANK DETAIL 10, SCALE: NTS 6 (N) #4x-1 EPDXY DOWELS @ 12" OC, SET W/ HILTI HY-200 EPDXY W/ 2-1/2" MIN EMBED BASE RAIL JICAL CURB z w H r, AS REQ'D r �� • 4 •• •Q • • Q • • . as a :EEPING PAD )TE 2 (E) CONC SLAB, CONFIRM EPDXY DOWEL EMBEDMENT MAINTAINS MIN LAB SCALE: NTS NOTES: 1. PROVIDE HOUSEKEEPING PAD AT MECH EQUIPMENT PER MECH DRAWINGS; COORDINATE HK PAD LAYOUT & LOCAATIONS WITH MECH DRAWINGS. 2. HT = 4" MIN OR MATCH EXISTING HT AT HK PAD LOCATIONS TYP LINO. 3. SEE GENERAL NOTES FOR ADDED INFO. SECTION A 0 i�N Yrwiit WKINSTRY Co, LLC SEATTLE: 5005 3RD AVENUE S PO BOX 24567 SEATTLE, WA 98124 1-800-669-6223 www.mckinstry.com PROJECT: CITY OF EDMONDS FRANCES ANDERSON CENTER GMAX 1*]01[Yn11111r_101r01 I� CONDUIT, TYP SEE ELEC DWGS REGISTRATION: ISSUES: �(N) #4@18" OC EACH WA (N) CONCRETE HOUSEKEEPING PAD fc = 2500 PSI MIN DESIGNED: DRAWN: INTERNALLY ROUGHEN CHECKED: OR BOND JOB NO: SHEET TITLE: SHEET NUMBER: si-0 KAB KAB JWG FOUNDAT I ONM I RST FLOOR PLAN - EAST 1/811=11-011 Page Packet Pg. 150 MARKUPS - STRUCTURAL 2 m NJ A B C D E F G H � 0� 0TY �tn Oc �_x CIN Ln I — _ L-1 -----------------, r— I I I /55.24 I q 5.25 1/55.25 II OFF L8x4x'�& ! I DRA6 STRUT I (E) 6LULAM BM (E) 6LULAM BM I I II I MONITOR ROOF B AGE I �— TYP (a) FLr,5 AL0146 GRIDS 2, 5, 8 � a I j L (E) GLUE M BM I (E) 6LULAM BM I_ 11 /55 4/55.25 { ; TYi:1 (16) F ALONG 6RIDE O 11/55.23 7YF (5) PL05 I ®� O O II G8x13.7 GBxl .7 G F, M 4 P �� — DRA6 STRUT DRAG 57RUT d co I v �— MONITOR ROOF BRACE I J TYP ALONG 6 ID 6 TYP LONG GRID I I I E 6LULAM BM O (L TYP (S) 6RD5 G LG5 ALO 6 --- — (E, 6LULAM BM -- Q I _ lee (E) 6LULAM BM fv1 I III I I (E) 6LULAM BM I I I i i DRA6 STRUT I TYP ALONG j GRID A ,n 6LULAM BM (E) 6LULAM M (E) 6LULAM BM(E) I I � I I E 15T FRA IN6 ABOVEm Ld LdLU m {'. ' ' (E) 6LULAM BM U) (E) 6LULAM BM _ I (E) 6LULAM BM 4/55.24 I JRAGED INN FRAME I _ (E) 6LULAM BM (E) L00AM BNI - - - f 11 I I O I II O I DOAS-2 I DOAS-1 i I (ON ROOF) I I I (ON ROOF) I i !f I I (E) 6LULAM BM I (E) 6LULAM BM I ) 6LULAM BM — I 1 4/55 2 STRUG PNL � STRU PNL OVERLAY — I OVERLAY I — SEE OTE I (E) 6LULAM BM SEE NOTE I (E) 6LULAM BM (E) 6LULAM BM I_J — — — I x O2 n2 x x low �I I � STRUG PNL I OVERLAY ! SEE NOTE I 1 1 --- i i Y (N) NC (E) GLB PER F 2 INSTALL WALL./ IAPHRA6M INSTALL WALL/DIA I / 'Cx1Q, I I F, SEE 12/55.26 CONN, TYP, SEE 8/55.26 mm�m NOTE: I. FOR ROOF STRUCTURAL PANEL OVERLAY USE 1/32" STRUCTURAL SHEATHING, GRADE I, WITH Iodx5" NAILS AT 6" ON CENTER AT PANEL EDGES AND 12" ON CENTER IN FIELD. (N) RTU AND BASERAIL ROOF FiRAM I N(5 PLAN ® VeST (N) (4) #12 SCREWS (N) (2) 1/4" DIA x 5" LAG -SCREW (N) L3 x 3 x 10 GAUGE X 4" MIN, GALV (N) PT DF #1, 6x8 SLEEPER PER PLAN WITH TOP PLATE, CANT STRIP & CAP FLASHING, NOTES: 1 &2 (N) (2) 3/4" DIA x 12" LAG -SCREWS PROVIDE 3" DEEP PLUGS . TYP :AM STALL IDES OF SLEEKER EQUALLY 3FJAUED NOTES: 1. PROVIDE CANT STRIP AND CAP FLASHING AT ALL SLEEPER LOCATIONS, TYP. 2. PROVIDE 3x TOP PLATE (RIPPED) TO LEVEL TOP OF SLEEPER AS NECESSARY, FASTEN WITH 1/4" x 4-1/2" DIA SIMPSON SIDS SCREWS AT 12" OC. 3. CONTRACTOR TO COORDINATE SLEEPER LOCATIONS TO SPAN V-0" MIN BEYOND LONGITUDINAL SIDE OF RTU UNIT ON BOTH SIDES. 4. SEE MECH DRAWINGS FOR UNIT WEIGHTS AND LOCATIONS. 5. NEW ROOFING, CANT STRIP AND HAT FLASHING REQ'D AT ALL SLEEPER LOCATIONS, TYP. N 0 P 0 � R r — /55.25 �i/55.25 I 1 /55.24 OFF L8x4x�/Ib 1 DRAG STRUT (E) 6LULAM BM I (E) 6LULAM BM II If I I I 7 ) I ! G8xl3.�f DRA6 STRUT ! TYP ALONG GRID (E) 6LULAM BM fF I� (E) 6LULAM BM I� I' I. EXIST FRA IN6 AB E Uv' (E) 6LULAM SM ! I I 6 I E l fj I _ (E) 6LULAM BM I L ---------------- I I�I (E) 6LULAM BM I II I � I 5TRUG PNL -3 UJ m OVERLAY SEE NOTE I (E) 6LULAM BM -I� If f DIAPHRAGM CONN UP6RA E, SEE 1 /5526, TYP ALONG RID N I 12/55.24 i { 5TRUG PNL 1 i OVERLAY N SEE NOTE I u- XI 4x6 YVD tD1 DRAG STRUT I I 1 _7,0/5_- 5 I 1` ATCiHL (NE FOR CONTINUATIOi SEE 5 1.0-1 SCALE IN FEET NORTH 4 0 4 8 12 16 20 cr'AI C• 1 /Q" — 1'—o" 207791 Structural Drawing - GMAX 10-24-23 GENERAL NOTES: 1. REFER TO MECHANICAL GMAX SET DATED 10-24-2023 FOR ADDITIONAL INFORMATION NOT SHOWN HERE. 2. USE THIS DRAWING AND WORK WITH MECH DRAWING FOR ALL MP DISTRIBUTION. KEYED NOTES O NEW MECH UNIT TO BE CENTERED ON THE LOW ROOF WINGS BETWEEN EXISTING GLULAM BEAMS. APPROX WEIGHT = 6000 LBS EACH. PROVIDE 6x8 PRESSURE TREATED DOUGLAS FIR SLEEPERS EACH SIDE TO SPAN TO (2) MINIMUM BEAMS BELOW PER DETAIL 3. O NEW MECH ROOF OPENING. PROVIDE 4x8 DOUG FIR BLOCKOUT FRAMING WITH LU HANGERS AT CORNERS TO EXISTING FRAMING. Of Yriftilit WKINSTRY Co, LLC SEATTLE: 5005 3RD AVENUE S PO BOX 24567 SEATTLE, WA 98124 1-800-669-6223 www.mckinstry.com PROJECT: CITY OF EDMONDS FRANCES ANDERSON CENTER GMAX CONSULTANTS: REGISTRATION: ISSUES: DESIGNED: KAB DRAWN: KAB CHECKED: JWG JOB NO: - SHEET TITLE SHEET NUMBER: SLEEPER CONNECTION S1.1 SCALE: NTS Page Packet Pg. 151 2ac MARKUPS -STRUCTURAL ROOF FRAMING PLAN - EAST TYP @ Exer PIER ALONG 6RI 26 N' SCALE IN FEET NORTH mum 4 0 4 8 12 16 20 SCALE: 1 /8" = 1'-0" 1-1/2 MIN CORRUGATED MTL, PAINTED 4 ISCREEN WALL DETAIL SCALE: NTS f�4 FT MINN -I SCREEN WALL BM'S TYP (3) LOCATIONS SCREEN WALL POST DIAG BRACE ROOF BOOT 207791 Structural Drawing - GMAX 10-24-23 GENERAL NOTES: 1. REFER TO MECHANICAL GMAX SET DATED 10-24-2023 FOR ADDITIONAL INFORMATION NOT SHOWN HERE. 2. USE THIS DRAWING AND WORK WITH MECH DRAWING FOR ALL MP DISTRIBUTION. KEYED NOTES O NEW MECH UNIT TO BE CENTERED ON THE LOW ROOF WINGS BETWEEN EXISTING GLULAM BEAMS. APPROX WEIGHT = 2250 LBS EACH. PROVIDE 6x8 PRESSURE TREATED DOUGLAS FIR SLEEPERS EACH SIDE TO SPAN TO (2) MINIMUM BEAMS BELOW PER DETAIL 3. O EXTERIOR 4" CONCRETE HOUSE KEEPING PAD WITH #4 BARS AT 18" ON CENTER EACH WAY. PROVIDE AN 18" DEEP BY 6" WIDE THICKENED PERIMETER LIP. PROVIDE SEISMIC EXPANSION ANCHORS AT EACH CORNER OF OUTDOOR UNITS. O STEEL SCREEN WALL FOR DOAS UNIT PER DETAIL 4 AND SOW NOTES. EXTENT AND LOCATION PER MECH. Wry oi raurBrtiisfing WKINSTRY Co, LLC SEATTLE: 5005 3RD AVENUE S PO BOX 24567 SEATTLE, WA 98124 1-800-669-6223 www.mckinstry.com PROJECT: CITY OF EDMONDS FRANCES ANDERSON CENTER GMAX [K0P►6*111mf_10111101 O/ REGISTRATION: ISSUES: DESIGNED: KAB DRAWN: KAB CHECKED: JWG JOB NO: - SHEET TITLE: y:I��R11►�I l�:�l S1.2 Page Packet Pg. 152 2.8.c Project Name Edmonds FAC HVAC Upgrade http,://mcki,,try871.,h,r,point.mm/sites/GPE_Engi-ftg/207791/002/08 EleRrica1/02 Working Files/[FAC EleRrical Scope Table..k.JScope Table Template 11/20/2023 20:27 Project Name: Edmonds Frances Anderson Center FIM No: 50943 FIM Name: Upgrade HVAC System to VRF Location: Edmonds, WA Project Phase: GMAX Purpose: The following MEP Scope Table is intended to be referenced along with the SOW document. Date: 11/20/2023 EXISTING ELECTRICAL CONNECTION INFORMATION NEW ELECTRICAL CONNECTION INFORMATION LOAD CHANGE EXISTING. EQUIP. TAG LOCATION V PH HP FLA MCA KVA PANEL CKT BRKR CONDUIT WIRE DISCONNECT (SIZE/NEMA/FUSE) MOTOR CONTROLLER NEW EQUIP. TAG V PH HP FLA MCA KVA MOCP PANEL CKT BRKR CONDUIT WIRE DISCONNECT (SIZE NEMA FUSE) MOTOR CONTROLLER MIN SCCR B-1 BOILER ROOM 138A 240 1 1.5 10.00 12.50 2.40 1C-4,6 20 3/4" 2#12 UNKNOWN UNKNOWN -2.40 B-1-13 BOILER ROOM 138A 120 1 -- 3.20 4.00 0.38 1C-2 20 3/4" 2#12 UNKNOWN UNKNOWN -0.38 B-2 BOILER ROOM 138A 240 1 1 8.00 10.00 1.92 1C-10,12 20 3/4" 2#12 UNKNOWN UNKNOWN -1.92 B-2-C BOILER ROOM 138A 120 1 -- 5.00 6.25 0.60 iC-8 20 3/4" 2#12 UNKNOWN UNKNOWN -0.60 P-1 BOILER ROOM 138A 120 1 0.333 9.80 12.25 1.18 1C-22 20 3/4" 2#12 UNKNOWN UNKNOWN -1.18 P-2 BOILER ROOM 138A 120 1 0.333 9.80 12.25 1.18 1C-20 20 3/4" 2#12 UNKNOWN UNKNOWN -1.18 P-3 BOILER ROOM 138A 120 1 0.333 9.80 12.25 1.18 1C-32,34,36 20 3/4" 2#12 UNKNOWN UNKNOWN -1.18 P-4 BOILER ROOM 138A 120 1 -- 0.40 0.50 0.05 1C-16 20 3/4" 2#12 UNKNOWN UNKNOWN -0.05 WH-1 BOILER ROOM 138A 120 1 -- <12.0 15.00 1.44 1C-32,34,26 20 3/4" 2#12 UNKNOWN UNKNOWN -1.44 FEED AHUs 208 3 2D SEC 2-13,15,17 15 3/4" 3#12, 1#12G NO CHANGE AHU-1 GYM MEZZANINE - EAST 240 1 0.75 6.90 8.63 1.66 2D-10,12 20 3/4" 2#12 DISCONNECT UNKNOWN AHU-1.1 208 3 1 4.60 5.75 1.66 15.00 FEED AHUs -- 3/4" 3#12, 1#12G INTEGRAL TO VFD VFD[31 42kA +0.00 AHU-2 GYM MEZZANINE -WEST 240 1 0.75 6.90 8.63 1.66 2D-24,26 20 3/4" 2#12 DISCONNECT UNKNOWN AHU-2.1 208 3 1 4.60 5.75 1.66 15.00 FEED AHUs -- 3/4" 3#12, 1#12G INTEGRAL TO VFD VFD[31 42kA +0.00 EF-1 KITCHEN 133 -- -- frac -- -- -- 1A-45 20 3/4" 2612 UNKNOWN UNKNOWN NO CHANGE EF-2 DARKROOM 136 -- -- 0.25 -- -- -- 111-8 20 3/4" 2612 UNKNOWN UNKNOWN NO CHANGE EF-3 DAYCARE 137 -- -- frac - - - 1B-22 20 3/4" 2612 UNKNOWN UNKNOWN NO CHANGE EF-4 DAYCARE 137E -- -- frac - - - 1B-24 20 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE EF-5 DAYCARE 137E -- -- frac - - - 1B-28 20 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE EF-6 GYM 200 -- -- 0.333 - - - 2D-66 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE EF-7 GYM 200 -- -- 0.333 - - - 2D-66 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE EF-8 GYM MEZZ ROOF -- -- 0.5 - - - 2D-2,4 15 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE EF-9 GYM MEZZ ROOF -- -- 0.5 - - - 2D-16,18 15 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE EF-10 ROOF -- -- 0.167 - - - UNKNOWN - 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE EF-11 ROOF -- -- 0.167 - - - UNKNOWN - 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE WH-1 RECEPTION -- -- - - - UNKNOWN - 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE UV-1 CLASSROOM 206 -- -- 0.5 - - - UNKNOWN - 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE UV-2 GYMNASTICS207 -- -- 0.5 - - - UNKNOWN - 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE UV-3 GYMNASTICS207 -- -- 0.5 - - - UNKNOWN - 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE UV-4 208 -- -- 0.5 - - - UNKNOWN - 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE UV-5 GYMNASTICS 209 -- -- 0.5 - - - UNKNOWN - 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE UV-6 CLASSROOM 301 -- -- 0.5 - - - UNKNOWN - 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE UV-7 CLASSROOM 301 -- -- 0.5 - - - UNKNOWN - 3/4" 2612 UNKNOWN UNKNOWN NO CHANGE UV-8 STUDIO B 304 -- -- 0.5 - - - UNKNOWN - 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE UV-9 STUDIOA305 -- -- 0.5 - - - UNKNOWN - 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE UV-10 STUDIOA305 - -- 0.5 - - - UNKNOWN - 3/4" 2#12 UNKNOWN UNKNOWN NO CHANGE DOAS-1.1 480 3 -- 20.43 22.70 16.98 35.00 4PNLNIA-1,3,5 35 3/4" 3#10, 1#10G 60/3R/35 INTEGRAL 42kA + 16.98 DOAS-1.2 480 3 -- 30.07 37.59 25.00 40.00 4PNLNIA-7,9,11 40 3/4" 3#8,1#10G 60/3R/40 INTEGRAL 42kA + 25.00 DOAS-2.1 480 3 -- 18.90 21.00 15.71 35.00 4PNLNIA-13,15,17 35 3/4" 1 3#10, 1810G 60/3R/35 INTEGRAL 42kA + 15.71 DOAS-2.2 480 3 -- 30.07 37.59 25.00 40.00 4PNLNIA-19,21,23 40 3/4" 3#8,1#10G 60/3R/40 INTEGRAL 42kA + 25.00 DOAS-3.1 480 3 -- 3.42 3.80 2.84 15.00 4PNLNIA-2,4,6 15 3/4" 3#12, 1#12G 30/3R/15 INTEGRAL 42kA + 2.84 DOAS-3.2 480 3 -- 6.01 7.52 5.00 15.00 4PNLNIA-8,10,12 15 3/4" 3#12, 1#12G 30/3R/15 INTEGRAL 42kA + 5.00 ODU-1.1 480 3 -- 10.20 18.00 8.48 20.00 4PNLNIA-14,16,18 20 3/4" 3#12,1#12G 30/3R/20 INTEGRAL 42kA + 8.48 ODU-1.2 480 3 -- 17.60 34.00 14.63 40.00 4PNLNIA-20,22,24 35 3/4" 3#8,1#10G 60/3R/40 INTEGRAL 42kA +14.63 ODU-2.1 480 3 -- 10.20 18.00 8.48 20.00 4PNLNIB-1,3,5 20 3/4" 3#12, 1#12G 30/3R/20 INTEGRAL 42kA +8.48 ODU-2.2 480 3 -- 17.60 34.00 14.63 40.00 4PNLNIB-7,9,11 35 3/4" 3#8,1#10G 60/3R/40 INTEGRAL 42kA +14.63 ODU-3 208 1 - 9.30 9.80 1.93 15.00 4PNLNI13-13,15,17 15 3/4" 2#12, 1#12G 30/3R/15 INTEGRAL 42kA + 1.93 ODU-4 480 3 -- 13.80 26.20 11.47 35.00 4PNL14I13-19,21,23 35 3/4" 3#10, 1#10G 60/3R/35 INTEGRAL 42kA +11.47 ODU-5 480 3 -- 13.80 26.20 11.47 35.00 4PNLNI13-25,27,29 35 3/4" 3#10, 1810G 60/3R/35 INTEGRAL 42kA +11.47 ODU-6 480 3 - 10.80 19.40 8.98 25.00 4PNLNI13-31,33,35 25 3/4" 3#12, 1#12G 30/3R/25 INTEGRAL 42kA + 8.98 ODU-7.1 480 3 -- 10.80 19.40 8.98 25.00 4PNLNIB-2,4,6 25 3/4" 3#12, 1#12G 30/3R/25 INTEGRAL 42kA +8.98 ODU-7.2 480 3 -- 13.80 26.20 11.47 35.00 4PNLNIB-8,10,12 35 3/4" 3#10, 1k10G 60/3R/35 INTEGRAL 42kA +11.47 ODU-7.3 480 3 -- 17.60 34.00 14.63 40.00 4PNLNI13-14,16,18 40 3/4" 3#8, 1#10G 60/3R/40 INTEGRAL 42kA +14.63 ODU-8 480 3 -- 19.40 38.00 16.13 50.00 4PNLNI13-20,22,24 50 3/4" 388,1#1OG 60/3R/50 INTEGRAL 42kA +16.13 a Page Packet Pg. 153 2.8.c ODU-9 480 3 -- 12.30 15.00 10.23 20.00 4PNLNIB-26,28.30 20 3/4" 3#12, 1#12G 30/311/20 INTEGRAL 42kA +10.23 ODU-10 480 3 -- 10.20 18.00 8.48 20.00 4PNLNIB-32,34,36 20 3/4" 3#12, 1#12G 30/311/20 INTEGRAL 42kA +8.48 FEED-MCU-1.1, 1.2 208 1 1D SEC 1-21, 23 15 3/4" 2#12, 1#12G 42kA NO CHANGE MCU-1.1 208 1 -- 1.70 2.00 0.35 15.00 FEED-MCU-1.1, 1.2 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.35 MCU-1.2 208 1 -- 1.70 2.00 0.35 15.00 FEED-MCU-1.1, 1.2 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.35 FEED-MCU-2.1, 2.2 208 1 lE SEC 1-9, 11 15 3/4" 2#12, 1#12G 42kA NO CHANGE MCU-2.1 208 1 -- 1.70 2.00 0.35 15.00 FEED-MCU-2.1, 2.2 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.35 MCU-2.2 208 1 -- 1.70 2.00 0.35 15.00 FEED-MCU-2.1, 2.2 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.35 FEED-MCU-3.1,3.2 208 1 1B-19,21 15 3/4" 2#12, 1#12G 42kA NO CHANGE MCU-3.1 208 1 -- 1.70 2.00 0.35 15.00 FEED-MCU-3.1, 3.2 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.35 MCU-3.2 208 1 -- 1.70 2.00 0.35 15.00 FEED-MCU-3.1, 3.2 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.35 FEED-MCU-4.1, 4.2,4.3 208 1 2B-25,27 15 3/4" 2#12, 1#12G 42kA NO CHANGE MCU-4.1 208 1 -- 1.70 2.00 0.35 15.00 FEED-MCU-4.1, 4.2, 4.3 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.35 MCU-4.2 208 1 -- 1.70 2.00 0.35 15.00 FEED-MCU-4.1, 4.2, 4.3 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.35 MCU-4.3 208 1 -- 1.70 2.00 0.35 15.00 FEED-MCU-4.1, 4.2, 4.3 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.35 FEED-MCU-5.1,5.2,5.3 208 1 3A-31,33 15 3/4" 2#12, 1#12G 42kA NO CHANGE MCU-5.1 208 1 -- 1.70 2.00 0.35 15.00 FEED-MCU-5.1,5.2,5.3 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.35 MCU-5.2 208 1 -- 1.70 2.00 0.35 15.00 FEED-MCU-5.1,5.2,5.3 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.35 MCU-5.3 208 1 -- 0.40 0.70 0.08 15.00 FEED-MCU-5.1,5.2,5.3 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.08 FEED-MCU-6, 7 208 1 2D SEC 1-2,4 15 3/4" 2#12, 1#12G 42kA NO CHANGE MCU-6 208 1 -- 0.40 0.70 0.08 15.00 FEED-MCU-6, 7 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.08 MCU-7 208 1 -- 1.60 2.00 0.33 15.00 FEED-MCU-6, 7 -- 3/4" 2#12, 1#12G 30/1/15 INTEGRAL 42kA +0.33 HWH-1 208 1 -- 80.00 100.00 16.64 125.00 SBD-2 125 11/4" 2#1,1#8G 200/1/125 BMS 42kA +16.64 HWH-2 208 1 -- 80.00 100.00 16.64 125.00 SBD-2 125 11/4" 2#1,1#8G 200/1/125 BMS 42kA +16.64 DWCP-1 120 1 0.17 4.40 5.50 0.53 15.00 1C-23 15 3/4" 2#12, 1#12G MRS BMS 42kA +0.53 AC-1 208 1 -- 20.00 25.00 4.16 35.00 IA SEC 1-25,27 35 3/4" 2#8, 1#10G 60/1/35 BMS 42kA +4.16 CU-1 208 1 -- -- -- -- 35 Ill -- 3/4" 2#8, 1#10G 60/1/35 BMS 42kA FEED-RCP-1, 6, 7 208 1 2D SEC 1-16,18 15 3/4" 2#12, 1#12G 42kA NO CHANGE RCP-1 208 1 -- 3.61 4.51 0.75 15.00 FEED-RCP-1, 6, 7 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 RCP-6 208 1 -- 3.61 4.51 0.75 15.00 FEED-RCP-1, 6, 7 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 RCP-7 208 1 -- 3.61 4.51 0.75 15.00 FEED-RCP-1, 6, 7 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 FEED-RCP-2,3 208 1 2D SEC 1-10,12 15 3/4" 2#12, 1#12G 42kA NO CHANGE RCP-2 208 1 -- 3.61 4.51 0.75 15.00 FEED-RCP-2, 3 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 RCP-3 208 1 -- 3.61 4.51 0.75 15.00 FEED-RCP-2, 3 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 FEED-RCP-4, 5 208 1 2D SEC 1-25,27 15 3/4" 2#12, 1#12G 42kA NO CHANGE RCP-4 208 1 -- 3.61 4.51 0.75 15.00 FEED-RCP-4, 5 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 RCP-5 208 1 -- 3.61 4.51 0.75 15.00 FEED-RCP-4, 5 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 FEED-RCP-8,9 208 1 2D SEC 1-29,31 15 3/4" 2#12, 1#12G 42kA NO CHANGE RCP-8 208 1 -- 3.61 4.51 0.75 15.00 FEED-RCP-8,9 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 RCP-9 208 1 -- 3.61 4.51 0.75 15.00 FEED-RCP-8,9 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 FEED-RCP-10, 11, 12 208 1 2D SEC 1-33,35 15 3/4" 2#12, 1#12G 42kA NO CHANGE RCP-10 208 1 -- 3.61 4.51 0.75 15.00 FEED-RCP-10, 11, 12 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 RCP-11 208 1 -- 3.61 4.51 0.75 15.00 FEED-RCP-10, 11, 12 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 RCP-12 208 1 -- 3.61 4.51 0.75 15.00 FEED-RCP-10, 11, 12 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 FEED RCP-13, 14 208 1 2D SEC 1-24,26 15 3/4" 2#12, 1#12G 42kA NO CHANGE RCP-13 208 1 -- 3.61 4.51 0.75 15.00 FEED RCP-13, 14 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 RCP-14 208 1 -- 3.61 4.51 0.75 15.00 FEED RCP-13, 14 -- 3/4" 2#12, 1#12G MRS TSTAT 42kA +0.75 FEED-IDU-lA 208 1 1D SEC 1-25, 27 15 3/4" 2#12, 1#12G 42kA NO CHANGE IDU-1.1 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-1.2 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-1.3 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-2.1 208 1 - 0.53 0.70 0.11 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA + 0.11 IDU-2.2 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-3 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-4 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-5.1 208 1 -- 0.24 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-5.2 208 1 -- 0.24 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-6 208 1 -- 0.24 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-7 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-7.1 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-7.2 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-7.3 208 1 -- 0.16 0.20 0.03 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.03 IDU-7.4 208 1 - 0.16 0.20 0.03 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA + 0.03 IDU-8 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G I MRS INTEGRAL 42kA +0.05 IDU-9.1 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-9.2 208 1 - 0.22 0.30 0.05 15.00 FEED-IDU-lA -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 FEED-IDU-l8 208 1 lE SEC 1-13, 15 15 3/4" 2#12, 1#12G 42kA NO CHANGE Q Page Packet Pg. 154 2.8.c IDU-30.1 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-18 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-10.2 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-18 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-11.1 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-1B -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-11.2 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-1B -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-11.3 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-1B -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-11.4 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-1B -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-12 208 1 -- 0.24 0.30 0.05 15.00 FEED-IDU-1B -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-13 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-1B -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-14 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-1B -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-15 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-1B -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-16 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-1B -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-17.1 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-1B -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-17.2 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-1B -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-18 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-1B -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 FEED-IDU-IC 208 1 -- 18-23,25 15 3/4" 2#12, 1#12G 42kA NO CHANGE IDU-19.1 208 1 -- 0.27 0.34 0.06 15.00 FEED-IDU-IC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.06 IDU-19.2 208 1 -- 0.27 0.34 0.06 15.00 FEED-IDU-IC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.06 IDU-20 208 1 -- 0.25 0.31 0.05 15.00 FEED-IDU-iC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-21 208 1 -- 0.25 0.31 0.05 15.00 FEED-IDU-IC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-22 208 1 - 0.25 0.31 0.05 15.00 FEED-IDU-IC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-23 208 1 -- 0.25 0.31 0.05 15.00 FEED-IDU-IC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-24.1 208 1 -- 0.25 0.31 0.05 15.00 FEED-IDU-IC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-24.2 208 1 -- 0.25 0.31 0.05 15.00 FEED-IDU-IC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-25 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-IC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-26 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-IC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-27 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-IC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-28 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-IC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-29 208 1 -- 0.13 0.16 0.03 15.00 FEED-IDU-IC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.03 IDU-30 208 1 -- 0.13 0.16 0.03 15.00 FEED-IDU-IC -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.03 FEED-IDU-2A 208 1 2A-19,21 15 3/4" 2#12, 1#12G 42kA NO CHANGE IDU-31.1 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-2A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-31.2 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-2A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-31.3 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-2A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-32.1 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-2A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-32.2 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-2A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-32.3 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-2A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-33 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-2A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-34 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-2A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-35 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-2A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 FEED-IDU-2B 208 1 28-29,31 15 3/4" 2#12, 1#12G 42kA NO CHANGE IDU-36.1 208 1 -- 0.24 0.30 0.05 15.00 FEED-IDU-26 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-36.2 208 1 -- 0.24 0.30 0.05 15.00 FEED-IDU-26 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-36.3 208 1 -- 0.24 0.30 0.05 15.00 FEED-IDU-213 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-37.1 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-26 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-37.2 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-26 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-37.3 208 1 - 0.53 0.70 0.11 15.00 FEED-IDU-213 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-37.4 208 1 - 0.53 0.70 0.11 15.00 FEED-IDU-26 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-37.5 208 1 - 0.53 0.70 0.11 15.00 FEED-IDU-26 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA + 0.11 IDU-37.6 208 1 - 0.53 0.70 0.11 15.00 FEED-IDU-213 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-38 208 1 - 0.22 0.30 0.05 15.00 FEED-IDU-213 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-39.1 208 1 - 0.24 0.30 0.05 15.00 FEED-IDU-213 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-39.2 208 1 - 0.24 0.30 0.05 15.00 FEED-IDU-213 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-39.3 208 1 -- 0.24 0.30 0.05 15.00 FEED-IDU-213 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-40.1 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-213 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-40.2 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-213 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-40.3 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-213 -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 FEED-IDU-2C 208 1 2B SEC 1-33,35 15 3/4" 2#12, 1#12G 42kA NO CHANGE IDU-41 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-2C -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-42 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-2C -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-43 208 1 - 0.22 0.30 0.05 15.00 FEED-IDU-2C -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-44 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-2C -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-45 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-2C -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-46 208 1 - 0.22 0.30 0.05 15.00 FEED-IDU-2C -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-47 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-2C -- 3/4" 2#12, 1#12G I MRS INTEGRAL I 42kA +0.05 IDU-48 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-2C -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 FEED-IDU-21) 208 1 2D SEC 1-37,39 15 3/4" 2#12, 1#12G 42kA NO CHANGE IDU-49.1 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-21) -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 Q Page Packet Pg. 155 2.8.c IDU-49.2 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-21D -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-49.3 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-21D -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 FEED-IDU-3A 208 1 3A-35,37 15 3/4" 2#12, 1#12G 42kA NO CHANGE IDU-50 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-51.1 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-51.2 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-52.1 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-52.2 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-53 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-54.1 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-54.2 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-54.3 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-54.4 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-55.1 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-55.2 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-55.3 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-55.4 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-55.5 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-55.6 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 IDU-56 208 1 - 0.22 0.30 0.05 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-57 208 1 -- 0.22 0.30 0.05 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.05 IDU-58 208 1 -- 0.53 0.70 0.11 15.00 FEED-IDU-3A -- 3/4" 2#12, 1#12G MRS INTEGRAL 42kA +0.11 CP-1.1 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-1.2 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-1.3 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-2.1 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-2.2 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-3 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-4 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-5.1 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-5.2 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-6 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-7 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-7.1 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-7.2 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-7.3 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-7.4 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-8 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-9.1 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-9.2 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-10.1 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-10.2 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-11.1 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-11.2 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-11.3 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-11.4 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-12 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-13 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-14 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-15 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-16 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-17.1 208 1 - 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-17.2 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-18 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA + 0.03 CP-25 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-26 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-27 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-28 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-32.1 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-32.2 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-32.3 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-41 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-42 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-43 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-44 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-45 1 208 1 1--1 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA +0.03 CP-46 208 1 1 1--1 0.151 0.19 0.03 [2] [2] 1-- 3/4" 2#12, 1#12G 30/1/1 INTEGRAL 42kA + 0.03 Q Page Packet Pg. 156 2.8.c CP-47 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1612G 30/1/1 INTEGRAL 42kA +0.03 CP-48 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1612G 30/1/1 INTEGRAL 42kA +0.03 CP-49.1 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1612G 30/1/1 INTEGRAL 42kA +0.03 CP-49.2 208 1 -- 0.15 0.19 0.03 [2] [2] -- 3/4" 2#12, 1612G 30/l/1 INTEGRAL 42kA +0.03 CP-49.3 208 1 0.15 0.19 D-1-REC [4] 120 1 -- 5.80 7.25 0.70 15 lE SEC 1-17 15 3/4" 2#12, 1#12G CORD&PLUG INTEGRAL 42kA +0.70 FEED-D-2,3 REC 120 1 213-33 15 3/4" 2#12, 1#12G 42kA D-2-REC [4] 120 1 -- 5.80 7.25 0.70 15 FEED-D-2, 3 REC -- 3/4" 2#12, 1612G CORD&PLUG INTEGRAL 42kA +0.70 D-3-REC [4] 120 1 -- 5.80 7.25 0.70 15 FEED-D-2, 3 REC -- 3/4" 2#12, 1612G CORD&PLUG INTEGRAL 42kA +0.70 FEED-D-4,5 REC 120 1 3A-39 15 3/4" 1 2#12, 1612G I 42kA D-4-REC [4] 120 1 -- 5.80 7.25 0.70 15 FEED-D-4, 5 REC -- 3/4" 2#12, 1B12G CORD&PLUG INTEGRAL 42kA +0.70 D-S-REC [4] 120 1 -- 5.80 7.25 0.70 15 FEED-D-4, 5 REC -- 3/4" 2812, 1612G CORD&PLUG INTEGRAL 42kA +0.70 TOTALS +295.68 GENERAL NOTES: A. BOLD TEXT IN 'EXISTING'COLUMNS INDICATES WORK THAT IS TO BE DEMOLISHED. BOLD TEXT IN 'NEW'COLUMNS INDICATES NEW WORK. B. THIS PROJECT WILL RESULT IN A NET LOAD INCREASE. 30-DAY METERING WILL BE REQUIRED FOR (12) PANELS AS SPECIFIED IN FIM DOCUMENT. NUMBERED NOTES: [1] CU-1 is fed from indoor unit AC-1. [2] ALL CP'S TO BE POWERED FROM CORRESPONDING IDU'S. EC TO INSTALL WIRE AND INLINE 1A FUSED DISCONNECT. 11/20/2023 VFD TO BE FURNISHED, INSTALLED AND WIRED BY EC. ABB ACH580 SERIES DRIVE. INPUT CURRENT RATING 4.8 AMPS, NEMA 1 ENCLOSURE, NO BYPASS, INTEGRAL NON -FUSED DISCONNECT. REVISION [4] NEW CEILING RECEPTACLE TO BE INSTALLED AND WIRED BY EC TO FEED CORRESPONDING EQUIPMENT. d 10 L 11 /20/20: REVISIOI 0 E r.+ N C si El Page Packet Pg. 157 2.8.c I Energy Savings 3.1 Energy Savings Methodology Energy savings were computed using an Excel -based, 8760 hourly energy calculation that simulates one -years' worth of energy consumption using TMY3 weather data. The model is tuned against real monthly utility data to model the existing and proposed systems based on inputs including building use and mechanical system type and operation. Savings calculations are based upon both baseline operating characteristics and proposed operation criteria: 1. Baseline: Baseline refers to the existing operating characteristics that were used to calculate energy savings In general, the baseline associated with any specific measure has been derived from the following sources: Actual operating information gathered through field observation, measurement, micro -data loggers, and Owner's operating logbooks. Owner provided information concerning stipulated factors such as burn hours, occupancy, or operational expenditures. iii. In some instances, a modified baseline may have been developed to address areas whereby pre -retrofit conditions do not reflect a system that is operating per current code or what the Owner may deem as normal operation. The actual impact to energy usage will be identified along with the "avoided costs" associated with the modified baseline. 2. Proposed: The proposed operating values, including system performance and operational conditions, factor in increased heating and cooling efficiency of the new air handlers as well as the conversion from natural gas to electric as the heating supply source. 3. Utility Rate: For calculating energy cost savings, the utility rates used are the utility rates as paid by the Owner to the utility company at the time the study was developed (see table below). In the event that a building has multiple meters on different rate schedules, the per -unit cost of the utility will be the average of all the rate schedules in effect at that facility. CONFIDENTIAL & PROPRIETARY I CITY OF EDMONDS FRANCES ANDERSON CENTER Page Packet Pg. 158 2.8.c 3. Energy Savings Guarantee 3.2 Energy Savings Summary The following table summarizes the estimated electric and natural gas utility savings (negative values indicate increased usage, positive values indicate decreased usage). This project would result in the elimination of natural gas usage for space heating and increased electricity usage due to the added heating and cooling loads CONFIDENTIAL & PROPRIETARY I CITY OF EDMONDS FRANCES ANDERSON CENTER Page Packet Pg. 159 2.8.c 4. Project Cost 4.1 Items Included in Project Cost The project preliminary budgets are turn -key for Year 2025 construction and include the following: 1) Hard Construction Costs (i.e. demolition, installation, equipment, material, labor) 2) Permitting 3) Construction Bonds 4) Audit Fees 5) Engineering and Design 6) Construction Management and Project Administration 7) Owner Project Contingency 8) Apprenticeship Incentive 9) Measurement and Verification 10) As -Built and Closeout Documentation 11) Overhead and Profit, WA DES Interagency Fee 12) Sales Tax 13) Allowance for scope modifications related to Historic Preservation requirements, scope related to reducing building operations impact, scope related to Utility Service changes and Upgrade. The project scheduled is proposed to prioritize and expedite the procurement of long lead time items like switchgear (about 12 months lead time) including Utility -provided transformer . The project Design phase will prioritize finalization of calculations and equipment selections to complete enough information to review submittals and procure the equipment. Required information will be provided to the Utility to initiate transformer procurement. This will allow the equipment to be on order while the remaining design is completed. CONFIDENTIAL & PROPRIETARY I CITY OF EDMONDS FRANCES ANDERSON CENTER Page Packet Pg. 160 2.8.c THIS PAGE LEFT INTENTIONALLY BLANK Page Packet Pg. 161 2.8.c Project Budget City of Edmonds 2023 FAC HVAC Upgrade October 1, 2024 L W _ W U try N G!T Building C 7 Existing: The facility is currently heated using two (2) natural gas -fired hot water and steam boilers. These boilers serve radiators and unit ventilators that are controlled room -by -room via local thermostats. The gymnasium is served by two (2) air handling units also served by the hydronic system. No mechanical cooling exists, and ventilation is via operable windows. The existing BMS is a simple interface with scheduling, on/off commands, and alarms. The existing domestic hot water plant consists of a natural gas -fired, circulating water 03.01-FAC: Upgrade HVAC heater (manuf. 2003) and a storage tank. Edmonds Frances $9 180,909 $10,201,009 System to VRF Anderson Center Proposed: Demo all existing thermostats, radiators, unit ventilators, pumps, boilers and associated hydronic piping. Install a new variable refrigerant flow (VRF) system for heating/cooling and a dedicated outdoor air system (DOAS) for ventilation. Refurbish the gymnasium AHUs with new fans, VRF coils, filters, and variable frequency drives. Demo the existing natural gas domestic hot water plant and replace with a new electric hybrid system. Totals $9,IL80,909 sIL0,201 009 * Project budgets are turn -key and include the following: Hard construction costs (Demolition, installation, equipment, material, labor), Permitting, Construction Bonds, Audit Fees, Engineering and Design, Construction Management and Project Administration, Owner Project Contingency, Apprenticeship Incentive, Measurement and Verification, As - Built and Closeout Documentation, Overheat and Profit, WA DES Interagency Fee, Sales Tax. Allowance for scope modifications related to reducing building operations impact, historic preservation adherence in included in above budget. Allowance for scope modifications related HazMat testing and abatement, Electric Utility Design and Installation, Gas Utility Resizing is not included in the above budget. Budget is for construction in year 2025. Confidential and Proprietary El to d V C L LL Sheet 1 of 1 Page Packet Pg. 162 2.8.c THIS PAGE LEFT INTENTIONALLY BLANK .r Q Page Packet Pg. 163 2.8.c Frances Anderson Center — HVAC Upgrades VALUE ENGINEERING OPPORTUNITIES UPDATE- 06/24/2024 Note: Full determination of some items may need to be during design and pre -construction. VE ITEMS SELECTED FOR FURTHER CONSIDERATION 01/18/2 Scope Item Expected Cost Deduct (Budgetary) Project budget (Turnkey, GMAX) Initial Project Budget (Jan 2024) $10,120,000 VE-01: VRF Indoor units quantity and locations $725,000 VE-02: Electrical Service Upgrade $350,000 VE-2: Fire/Smoke Damper Exemption $500,000 Revised Project Budget with VE Deducts 1 $8,545,000 Above Revised Budget Includes: Escalation for Equipment & Labor $410,000 DOAS System $1,845,000 try (ML!T Building CONFIDENTIAL & PROPRIETARY Page Packet Pg. 164 2.8.c Frances Anderson Center — HVAC Upgrades 1. VRF Indoor units quantity and locations a. Current: Each room is a separate zone. There is a total of X Indoor Units (IDU). IDUs are in place of existing HW/steam radiant heaters. The units are floor mount type to match existing installation. b. VE1: No changes to room zoning. Change IDUs to wall mount type and locate on the interior hallway wall. This will reduce refrigerant piping run, associated insulation. Similar reduction will occur for electrical conduit and conductor run. The quantity and capacity (tons) are not expected to change. Desired air distribution in the space will be maintained. The existing HW/steam radiators to be demolished as per current scope. The removal will expose wall and floor area and there will be additional scope to patch/paint the newly visible wall and floor to match as much as possible to existing. c. VE2: The existing HA/steam radiatorsto be abandoned in place. This will reduce the need of wall patch/paint and floor patching scope. The piping will be disconnected and capped at the unit. Remaining visible piping in the room will be demolished as per cu rrent scope. r% OQ , Figure 1: Red rectangles are current location of IDUs, on perimeter wall. Green arrows point to the potential new location, on interior wall 2. Electrical Service Upgrade a. Current: New 480V/ 313h service with a step-down transformer to serve existing 208V switchgear. b. Based on equipment changes from above opportunities, the electrical load to be re-evaluated for downsizing the new switchgear or using existing gear to service all new loads. c. Discuss City's switchgear % spare capacity expectations. d. Note: Full determination of this item may need to be during final design. instry ito Of Your Building CONFIDENTIAL & PROPRIETARY Page Packet Pg. 165 2.8.c Frances Anderson Center — HVAC Upgrades EVALUATED AND NOT SELECTED 1. DOAS Equipment a. Current: Selection includes a heat recovery DOAS with remote heat pump condenser to provide cooling/heating. b. VE: Assessing alternate selection of packaged AHU with heat recovery and integral heat pump for cooling/heating. Expecting cost reduction from - the AHU equipment itself, elimination of remote condenser and associated refer piping scope. Feasibility review of footprint and weight will be needed. REASON: Need to further discuss with the AHJ. 2. Construction Duration a. Current: The work will be implemented in three phases and the expected duration is 24-28 weeks. b. VE1: Discuss with City if phasing can be reduced to reduce the construction duration. REASON: Construction season will depend on project approval timeline. Need inputs from all stakeholders on acceptable construction duration impacts. 3. Ventilation Air distribution points in the room a. Current: Multiple distribution points (supply diffusers) are provided for each room. In most cases, a distribution point is a separate wall penetration into the room. Additionally, each wall penetration may need a Fire/Smoke Damper. b. VE1: Reduce the distribution points where feasible. Reduction will be dependent on avoiding high airflow from a supply diffuser and potential to create draft. This will reduce the quantity of wall penetrations and duct run. Though, the size (cross section) of the duct and the wall penetrations will increase. Overall, cost savings are expected. REASON: Reducing the number of points will result in increased duct size, associated dampers and penetrations. This could be a wash budget wise. instry ito Of Your Building CONFIDENTIAL & PROPRIETARY Page Packet Pg. 166 2.8.c Frances Anderson Center — HVAC Upgrades Figure 2: Consolidation of ventilation air distribution points 4. Electrical circuit consolidation a. VE1: Assessing consolidating multiple IDUs, ODUs, MCUs on respective single circuit. REASON: There are diminishing returns when conduit size is increases to 1%" and above. 5. Additional 480V sub -panels. a. Current: 480V circuits to the ODUs originate from the mail electrical room. b. VE1: Add 480V subpanels near to the equipment and consolidate the circuit from the main electrical room to the sub -panel. This again has diminishing returns. REASON: There are diminishing returns when conduit size increases, number of sub -panels increase. instry ito Of Your Building CONFIDENTIAL & PROPRIETARY Page Packet Pg. 167 2.8.c Frances Anderson Center — HVAC Upgrades EVALUATED AND NOT RECOMMENDED 6. Hard piping V/S Line sets for refrigerant piping a. Not recommended at this time upon through discussion. b. As discussed previously, the had piped refer lines do not have sagging in long term. Additionally, they offer flexibility in routing and require less support, both of which provide benefits for this installation. The downside is higher material costs associated field install of the pipe and its insulation. c. The line sets will require additional supports to be installed along the ceiling and wall. There are limitations on the 'turning' of the lines, which could be challenging in this application considering the quality of IDUs and limited/exposed ceiling space. 7. Run refer piping below floor in the main building. a. Current: The refrigerant piping for the second and third floor is routed along the ceiling of the hallway, the room and it them drops down to the floor mounted unit. b. VE1: For third floor, run the refer piping on the ceiling of 2"d floor, core drill through the floor to connect the IDU. Similar approach for the second floor IDUs. c. Not recommended at this time. This impacts only a small area, the refer line reduction is limited to the wall height. Overall cost reductions limited. The relocation of IDUs to wall is a better alternative and makes this option less relevant. 8. DOAS Code Requirements a. Consideringthe building has operable windows, revisited to evaluate code requirements for the DOAS. It is required per WSEC as cooling is added to the building. instry ito Of Your Building CONFIDENTIAL & PROPRIETARY Page Packet Pg. 168 2.8.c 5. Appendices Utility Data Analysis Equipment Cutsheets Clean Buildings Performance Standard Benchmarking Report Energy Calculations CONFIDENTIAL & PROPRIETARY I CITY OF EDMONDS FRANCES ANDERSON CENTER Page Packet Pg. 169 2.8.c Q • CONFIDENTIAL AND PROPRIETARY Page Packet Pg. 170 UTILITY DATA ANALYSIS instry ......................... .................................. . • �••� CITY OF EDMONDS - FRANCES ANDERSON CENTER:::::::::::: City of Edmonds 51,470ftz Frances Anderson Center • Year1: January2020 to December2020 EUI: 42.5 kBtu/ft2 Cost: $0.51 / ft2 700 Main St, Edmonds, WA 98020 •• Snohomish PUD I 1000136948-E Puget Sound Energy 39 1155-0 Year 2: January 2021 to December2021 EUI: 44.2 kBtu/ft2 Cost: $0.49 / ft2 Year3: January2022 to December2022 EUI: 50.1 kBtu/ft2 Cost: $0.58 / ft2 Average: January 2020 to December 2022 EUI: 45.6 kBtu/ft2 Cost: $0.53 / ft2 WNEUI: 0.0 kBtu/ft2 1. . • 1- 14,320 $1,376.30 3,381 $2,390.49 386,973 $3,766.79 •7.52 $0.07 • 2,720 $263.57 3,115 $2,237.11 320,736 $2,500.68 6.23 $0.05 1,600 $232.48 2,799 $2,098.47 285,344 $2,330.95 5.54 $0.05 11,120 12,000 $1,046.28 $1,101.89 1,622 1,293 $1,439.18 $1,204.40 200,110 170,272 $2,485.46 $2,306.29 3.89 3.31 $0.05 $0.04 5,600 $495.90 758 $903.86 94,903 $1,399.76 1.84 $0.03 8,720 $829.67 127 $715.98 42,418 $1,545.65 0.82 $0.03 • 2,320 $272.57 100 $689.85 17,923 $962.42 0.35 $0.02 • 8,960 $824.74 200 $675.11 50,603 $1,499.85 0.98 $0.03 12,960 10,400 $1,256.39 $1,005.20 947 1,935 $1,058.83 $1,487.61 138,966 229,006 $2,315.22 $2,492.81 2.70 4.45 $0.04 $0.05 8,240 $803.71 2,239 $1,657.56 252,030 $2,461.27 4.90 $0.05 10,560 $1,024.06 2,562 $1,829.00 292,217 $2,853.06 5.68 $0.06 8,480 $816.69 2,610 $1,822.70 289,965 $2,639.39 5.63 $0.05 6,080 $578.26 2,618 $1,899.69 282,589 $2,477.95 5.49 $0.05 6,320 $586.71 1,868 $1,485.99 208,413 $2,072.70 4.05 $0.04 5,920 $541.89 1,257 $1,177.15 145,850 $1,719.04 2.83 $0.03 7,600 $740.81 642 $803.97 90,159 $1,544.78 1.75 $0.03 7,840 $761.85 83 $504.61 35,099 $1,266.46 0.68 $0.02 8,000 $778.36 163 $527.76 43,612 $1,306.12 0.85 $0.03 8,480 $826.61 627 $728.26 91,664 $1,554.87 1.78 $0.03 9,120 $888.58 1,515 $1,173.04 182,590 $2,061.62 3.55 $0.04 9,840 $957.41 2,257 $1,633.91 259,306 $2,591.32 5.04 $0.05 8,400 $816.34 3,265 $2,244.14 355,130 $3,060.48 6.90 $0.06 8,640 $836.19 3,733 $2,537.60 402,812 $3,373.79 7.83 $0.07 7,920 $766.35 2,648 $1,870.64 291,782 $2,636.99 5.67 $0.05 81080 7,520 $782.41 $721.16 2,799 2,502 $1,971.33 $1,820.21 307,420 275,866 $2,753.74 $2,541.37 5.97 5.36 $0.05 $0.05 9,280 $898.52 1,731 $1,372.35 204,808 $2,270.87 3.98 $0.04 7,680 $744.48 793 $884.30 105,463 $1,628.78 2.05 $0.03 7,440 $721.68 332 $823.66 58,553 $1,545.34 1.14 $0.03 9,200 $890.92 101 $704.71 41,499 $1,595.63 0.81 $0.03 9,680 $934.95 281 $801.31 61,141 $1,736.26 1.19 $0.03 11,520 $1,111.26 1,193 $1,390.37 158,580 $2,501.63 3.08 $0.05 10,000 $965.34 2,554 $2,394.33 289,476 $3,359.67 5.62 $0.07 9,520 $911.19 3,511 $3,248.14 383,561 $4,159.33 7.45 $0.08 Annual Average Consumption and Electric Year Energy 98,960 Cost Total Electric Cost Blended Rate $9,509 S 0.096 Natural Gas 18,516 Natural Gas Cost 516,558 Total Energy Total Cost 2,189 526,067 Energy Use Index 43 Cost Index S 0.51 96,640 $9,318 $ 0.096 19,469 $15,830 2,277 $25,148 44 $ 0.49 106,480 S10,284 $ 0.097 22,177 $19,819 2,581 $30,103 50 $0.58 100,693 $9,704 $ 0.096 $616 $531 20,054 $17,403 $2,252 $1,977 $1,990 2,349 $27,106 46 720 692 651 $ 0.53 0 0 0 $3,331 $2,592 $2,521 $785 $1,582 $2,367 485 3 $847 $1,251 $2,099 358 8 $660 $864 $1,524 198 52 $771 $681 $1,452 123 76 $647 1641 $1,288 102 93 �• • $862 $1,085 $735 $1,207 $1,597 $2,293 157 392 38 7 $976 $844 $9,704 $1,839 $2,383 $17,403 $2,815 $3,227 1 $27,106 619 807 5,304 0 0 276 Page Packet Pg. 171 2.8.c • CONFIDENTIAL AND PROPRIETARY Page Packet Pg. 172 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-1 / Description: Geniox 22 - Roof (Gable roof plates - Steel) Unit width / Weight: 91.8in / 5538 lb Delivery: 1 sections; Mounted on 8.6in base frame Unit color 11 Insulation 11 Hygienic ZincMagnesium 11 2.36" mineral wool / Density 3.75 Ib/ft3 Standard Control system Controller ready Power supply Unit L1 + L2 + L3 + PE (3x460V) 60 Hz MCA 11 MOP Unit MCA 21.0 A 11 MOP 30.1 A Power supply e-heater L1 + L2 + L3 + PE (3x461OV) 60 Hz / 37.6 A Sound break out 11 Supply air 62 dB(A) 1182 dB(A) Supply... Air density 0.075 Ib/ft3 Airflow 11 Face velocity 11 Ext. op 7650 CFM 11 315 ft/min 112.00 in we Supply air, Winter 11 Summer 75.2°F / RH 33% 11 76.6°F / RH 48% Filter 11 Stages F7 - ePM1 55% Fan 11 Voltage Rated current 11 RPM 7.37 hp 11 3x460 V 119.07 A 111401 RPM Cooling, water Fluid 0 BTU/hr ; 76.6/76.6°F Cooling, water Fluid 0 BTU/hr ; 76.6/76.6°F Heating, electric 11 Power 30.0 kW; 63.0/75.2°F Airflow 11 Face velocity 11 Ext. op Filter 11 Stages Fan 11 Voltage 11 Rated current 11 RPM Systemair Commercial AHU Ltd. 8 Rouse Street Tillsonburg, ON N4G 5W8 7650 CFM 11 315 ft/min 112.00 in we M5 - ePM10 60% 7.37 hp 11 3x460 V 119.07 A 111381 RPM Telephone:1-800-263-7081 www.systemair.net info@systemair.net Unit n Date 10/20/2023 Page 1 /15 •�"' systemair Page Packet Pg. 173 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Winter Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-1 / 2.8.c Date 10/20/2023 Page 2/15 C Temperature after ['F] 35.0 35.0 35.0 35.0 34.2 72.0 72.0 72.0 Humidity after [%] 73 73 73 73 75 42 42 42 Pressure drop [in w.c.] Jw 0.00 0.01 0.01 0.12 0.66 0.01 0.38 2.00 Pressure after function [in w.c.] - 0.01 0.01 0.02 -3.05 -2.38 -2.38 -2.00 ° M5 ePM10 60 /o Filter Efficiency 80.0% (Total Pressure) Summer Temperature after [°F] 182.41 82.4 1 82.4 1 82.4 1 81.5 75.0 75.0 Humidity after [%] 46 46 46 46 48 48 48 Exhaust 86 Air dB(A) � f E vv f I k Outdoor 79 �SF O 1 O W2 I H1 Air dB(A) Winter Summer 75.0 48 73 Extrac dB(A) Air ; 82 Suppl, ; dB(A) Air T Temperature after [°F] 24.0 24.0 24.0 25.1 63.0 63.0 63.0 63.0 63.0 75.2 75.2 Humidity after [%] 87 87 87 83 51 51 51 51 51 33 33 Pressure drop [in w.c.] 0.00 0.01 0.48 0.12 0.66 0.00 0.01 0.00 0.01 0.05 2.00 Pressure after function [in w.c.] -0.00 -0.01 -0.49 2.72 2.06 2.06 2.05 2.05 2.05 2.00 - Efficiency F7 - ePM1 79.9% 80.6/80.6% 55% Filter 30.00 kW (Total Wet/dry Pressure) Temperature after [°F] 182.01 82.0 Humidity after [%] 1 49 1 49 82.0 83.1 76.6 76.6 49 47 48 48 80.6% wet 0 BTU/hr 76.6 76.6 76.6 48 48 48 0 BTU/hr 76.6 76.6 E t 48 48 v R r r Q �:•�• S na� Packet Pg. 174 ..... Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Quotation no Project Plant no. Plan view 11 u frances anderson center Frances Anderson Center DOAS-1 / Systemair Commercial AHU Ltd. Telephone: 1 -800-263-7081 Unit n Date 10/20/2023 Page 3/15 Access side M s io l� 1 89.8 98.5 8 Rouse Street www.systemair.net Tillsonburg, ON info@systemair.net :• s y s t e m a i r N4G 5W8 �•: Page Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 175 Quotation no Project Plant no. E Right end Q- m r^) r—. M frances anderson center Frances Anderson Center DOAS-1 / 86.6 y 89.8 91.6 , Doors and panels dimensions 7.7.9 35.1 ,il.8, 19-7,11, 8, 19�715.E 23.6 1,9 IS.7, rt Unit n Date 10/20/2023 Page 4/15 Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net . � s y s t e m a i r Tillsonburg, ON info@systemair.net �•. .. N4G 5W8 �•: Page Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 176 Quotation no Project Plant no. R G frances anderson center Frances Anderson Center DOAS-1 / Inspection side 4864 Baseframe I (V m N N Unit n Date 10/20/2023 Page 5/15 Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net ••�' Tillsonburg, ON info@systemair.net systemair �• ti;: N4G 5W8 �': Page Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 177 Quotation no Project Plant no. Technical specification Unit frances anderson center Frances Anderson Center DOAS-1 / Unit n Date 10/20/2023 Page 6/15 Frequency band [Hz] 63 125 250 500 1K 2K 4K 8K Total Sound power level I [dB] [dB] [dB] [dB] [dB] [dB] [dB] [dB] [dB(A)] Supply air Outdoor air Exhaust air Extract air Sound break out 70 64 72 61 65 79 78 81 76 69 77 74 79 71 57 80 78 71 65 74 75 71 67 83 83 78 73 71 70 64 58 58 59 52 46 56 66 68 54 29 82 79 86 73 62 Panels Steel sheets coated with ZM310, corrosion class C5 Frame profiles Steel profiles coated wiht z225 painted, corrosion class C4 Mullion profiles Steel profiles coated with ZM310, corrosion class C5 Corners PA6 fiber rienforced Insulation 2.36" mineral wool / Density 3.75 Ib/ft' Corrosion protection Class C4 according to EN ISO 12944-2:2018 Operating pressure 0 - 8 in w.c. (Geniox10 - Geniox31) Operating temperatures -40/+104 *F (Standard) - -40/+140 °F (Special design) Classifications EN 1886, 2. edition 2008 ' Mechanical Strength Class D1(M)* Casing air leakage -1.6 in w.c.: Class L1(M)* +2.81 in w.c.: Class L1(M)* Filter by-pass leakage -1.6 in w.c.: Class G1-179 +1.6 in w.c.: Class G1-F9 Thermal transmittance Class T2(M)* _ Thermal bridging factor Class TB2(M)* Acoustic insulation of casing Octave band Hz Insulation dB 63 10 125 17 250 24 500 27 1000 28 2000 28 4000 32 8000 40 Roof Gable roof plates - Steel * (M) = Classification according to EN1886 Modelbox test Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net 00*0systemai. r ••�' Tillsonburg, ON info@systemair.net �• ti;:. N4G 5W8 �': Page Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 1 Packet Pg. 178 Quotation no Project Plant no. frances anderson center Frances Anderson Center DOAS-1 / Unit n Date 10/20/2023 Page 7/15 Object Pre fuse I max ' Main switch Rated voltage Control cabinet gG/C 25 A 21 A No 3x460V + PE Pre -heater electric 40 A 38 A No 3x460V + PE ") Main switch; Yes= loose deliveried from Systemair, No= Not supplied from systemair, Mounted = Factory installed and connected The supply unit consist of Pressure drop 0.01 in we Pressure drop 0.01 in we - Damper blades Standard Required actuator torque 177.0 in lb Number of shafts 1 Number of dampers 1 PCs Dimensioning pressure drop 0.48 in we Initial pressure drop/Final pressure drop 0.28/0.68 in we Velocity, face area 351.5 ft/min Velocity, filter area 11.0 ft/min 11 Filter class F7 - ePM1 55% i Filter size 6x[23.3x19.3x3.8] + 2x[11.3x19.3x3.8] in Filter length 3.8 in Filter description Camfil Ecopleat Spare filter set F7 - ePM 1 55% 1 PCs Filter to be 4" F7 (MERV13) Must be 4" F7 filter and spares Air flow 7650 CFM External pressure 2.00 in we Pressure drop 0.12 in we Static pressure (Designed at wet conditions) 3.33 in we / Total pressure 3.56 in we Absorbed power 5.37 hp Fan speed 1401 RPM Maximum fan speed 1500 RPM Efficiency by static pressure 74.9 % Efficiency by total pressure 79.9 % K-factor (p=0.075 Ib/ft3) 23.79 Fan type - Impeller ZAmid M-RH63Cpro ErP efficiency n(stat,A) 72.3 % ErP efficiency class N(actual)/ N(target) 76.4 / 62 % ErP-conformity Yes Direct drive - Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net 00*0systemai. r ••�' Tillsonburg, ON info@systemair.net �•:.;:. N4G 5W8 �': Page Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 179 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-1 / Unit n Date 10/20/2023 Page 8/15 Motor type IE3, AC Motor Motor types -size ACA132M4-460/7.4 Motor protection Thermistor Rated power 7.37 hp Speed (nominal) 1752 RPM Current, Amp. 9.07 A Efficiency 91.7 % Efficiency, actual working point 91.7 % Voltage 3x460 V Operation frequency 48 Hz Max. operating frequency 51 Hz Consumed power from mains power supply, excluding frequency converter 5.86 hp Consumed power from mains power supply, including frequency converter 6.16 hp Winter: Temperature before / after "M� 24.0 / 25.1 °F Summer: Temperature before / after 82.0 / 83.1 °F Winter: Humidity before / after ' 87 / 83 % Summer: Humidity before / after 49 / 47 % Frequency converter wired from factory. Supply air., [12.01 A 1 PCs Frequency converter IP 20 mounted next to the fan inside the section. Shielded cable installed between frequency converter and motor. All necessary parameters have been set to suite motor and fan wheel configuration according to delivered documentation. The power supply to the converter must be provided and secured according to local statutory regulations for additional protection of frequency converters. Rotary heat exchanger Supply Extract -- Air flow 7650 7650 CFM Pressure drop 0.66 0.66 in we Air temperature before/after 25.1/63.0 72.0/34.2 °F Wet bulb temperature before/after 22.7/52.5 58.0/30.4 °F Capacity 459616 BTU/hr Temperature efficiency 80.6 % Dry efficiency according to EN 308 at 3.61 m'/s 80.6 % Humidity efficiency 82.2 % Energy class for heatrecovery (EN13053) H1 Air temperature before/after 83.1/76.6 75.0/81.5 °F Wet bulb temperature before/after 68.8/63.6 62.1/67.6 °F Capacity 134438 BTU/hr Temperature efficiency 80.6 % Humidity efficiency 80.6 % Heat exchanger type HIM - Sorption Efficiency (Wave height) B - High Wheel Diameter 02040 Description HM1-SL-WV-2040-SM-WO-DU-0 Speed controller: Exchanger Variable speed Electrical data 1x230V, 145W, 0.6Amp Safety screen 1 PCs Purging sector 1 PCs Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net Tillsonburg, ON info@systemair.net N4G 5W8 •00*' systemair Page Packet Pg. 180 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-1 / Empty section for future coil CA Air flow Drip tray material Water trap Pressure drop Length Unit n� Date 10/20/2023 7650 Stainless steel 1 0.01 15.7 Page 9/15 CFM PCs in we in Empty section for future coil Air flow 7650 CFM --- Drip tray material Stainless steel Water trap 1 PCs Pressure drop Length Air flow Pressure drop Face velocity for the coil Air temperature before/after Wet bulb temperature before/after Capacity Number of steps Voltage Current, Amp. Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net Tillsonburg, ON info@systemair.net N4G 5W8 0.01 15.7 7650 0.05 398.4 63.0/75.2 52.5/58.0 30.00 Modulating 3x460 37.6 V A in we in CFM in we ft/min T °F kW systemair Page Packet Pg. 181 Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Quotation no Project Plant no. frances anderson center Frances Anderson Center DOAS-1 / Unit n Date 10/20/2023 Connection side Service side Electrical coils must have separate power supply The extract unit consist of Page 10/15 Dimensioning pressure drop 0.38 in we Initial pressure drop/Final pressure drop 0.19/0.57 in we u Velocity, face area 351.5 ft/min III Velocity, filter area 23.0 ft/min Filter class M5 - ePM10 60% Filter size 6x[23.3x19.3x1.91 + 2x[11.3x19.3x1.91 in Filter length 1.9 in Filter description Camfil Ecopleat G Spare 2" Panel filter M5 ePM10 60% 1 PCs Inspection section Pressure drop 0.01 in we Length 11.8 in 1 11 I � - 1, Data are stated on supply. Air flow 7650 CFM External pressure 2.00 in we Pressure drop 0.12 in we Static pressure (Designed at wet conditions) 3.19 in we Total pressure 3.42 in we Absorbed power 5.15 hp Fan speed 1381 RPM Maximum fan speed 1500 RPM Efficiency by static pressure 74.8 % Efficiency by total pressure 80.0 % K-factor (p=0.075 Ib/ft3) 23.79 Fan type - Impeller ZAmid M-RH63Cpro ErP efficiency n(stat,A) 72.3 % ErP efficiency class N(actual)/ N(target) 76.4 / 62 % ErP-conformity Yes Direct drive Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net ••�' Tillsonburg, ON info@systemair.net systemair �• ti;: N4G 5W8 �•: Page Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 182 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-1 / Unit n Date 10/20/2023 Page 11/15 Motor type IE3, AC Motor Motor types -size ACA132M4-460/7.4 Motor protection Thermistor Rated power 7.37 hp Speed (nominal) 1752 RPM Current, Amp. 9.07 A Efficiency 91.7 % Efficiency, actual working point 91.6 % Voltage 3x460 V Operation frequency 47 Hz Max. operating frequency 51 Hz Consumed power from mains power supply, excluding frequency converter 5.62 hp Consumed power from mains power supply, including frequency converter 5.91 hp Winter: Temperature before / after "M� 34.2 / 35.0 °F Summer: Temperature before / after 81.5 / 82.4 °F Winter: Humidity before / after ' 75 / 73 % Summer: Humidity before / after 48 / 46 % Frequency converter wired from factory. Extract air., [12.01 A 1 PCs Frequency converter IP 20 mounted next to the fan inside the section. Shielded cable installed between frequency converter and motor. All necessary parameters have been set to suite motor and fan wheel configuration according to delivered documentation. The power supply to the converter must be provided and secured according to local statutory regulations for additional protection of frequency converters. Empty section Pressure drop 0.01 in we Length 7.9 in I I II I Pressure drop 0.01 in we Damper blades Standard Required actuator torque 177.0 in lb Number of shafts 1 Number of dampers 1 PCs Pressure drop 0.01 in we Systemair Commercial AHU Ltd. 8 Rouse Street Tillsonburg, ON N4G 5W8 Telephone:1-800-263-7081 www.systemair.net info@systemair.net systemair Page Packet Pg. 183 Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Quotation no Project Plant no. frances anderson center Frances Anderson Center DOAS-1 / Unit n Date 10/20/2023 Page 12/15 Other arts Feet or baseframe Feet or Baseframe Baseframe Baseframe height 8.6 in Corrosion protection Galvanized ZM310 Section 1 Weights 4 a Supply 87x39 in Exhaust 87x39 in Supply 87x39 in Extract 87x39 in 93.8 x 103.1 x 207.2 in 5546 lb The unit sections are delivered mounted on base frame. 5533 lb Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net ••�' Tillsonburg, ON info@systemair.net systemair �• ti;: N4G 5W8 �': Page Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 184 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-1 / Unit n Date 10/20/2023 Page 13/15 1 Casing Length 84.3 in 3022 Casing 1152 Damper 90 Filter 180 Fan 348 Rotary heat exchanger 814 Fan 348 Empty section 0.2 Damper 90 2 Casing Length 33.1 in 843 Casing 491 Cooling coil 185 Filter 112 Inspection section 0.2 Control system 56 3 Casing Length 74.1 in 920 Casing 645 Inspection section 0.2 Cooling coil 160 Inspection section 0.2 Heating coil 114 4 Baseframe Length 191.5 in 496 Other components 427 Weight of unit 5709 Controller ready With Controller Ready, the customer has the possibility of installing exactly the desired controller for the unit. The Controller Ready cabinet includes ducts, earth rail and rail -mounted terminals for connection of all internal sensors and control components according to selection. The cabinet does not include any power components, relays, etc. The cabinet can be selected as mounted inside the unit or on the unit. All selected internal sensors and control components in the section with the cabinet are factory -mounted and wired to the terminals in the cabinet. If the unit is divided into sections, the sensors and control components in sections without the cabinet have plugs for easy assembly of the control system after installation of the unit on the site. Internal cabling, components and sensors have been function tested before leaving the factory. The test report is included as part of the documentation. The electrical installation (cabling, mounting of components, connections, plugs, etc.) has been carried out according to EN 60204-1. Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net Tillsonburg, ON info@systemair.net N4G 5W8 •�"' systemair :�:.::: Page Packet Pg. 185 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Quotation no Project Plant no. Flow chart Exhaust Outdoor MOM!. frances anderson center Frances Anderson Center DOAS-1 / QM32 BP2 BT2 TA2 BP4 BT3 QM31 BT1 BP3 BP1 Detailed technical specification Electric heater: Power supply EB51 Temperature sensor: Supply air BT5 Speed controller: Exchanger TA2 Pressure transmitter: Exchanger supply air BP7 Temperature sensor: Efficiency BT4 Damper motor on/off - outdoor air QM31 Pressure transmitter: Supply air filter BP3 Temperature sensor: Intake air BT1 Pressure transmitter: Supply air Fan (flow) BP1 Frequency inverter: Supply air Fan (AC 1) TA21 BP7 BT4 W355 PT1000 W232 1x230V AC W832 Alarm signal relay "Speed" Input: 0-10V DC W365 Input: 24v AC/DC Output: 0-10V DC W343 PT1000 W331 Input: 24V AC/DC Control Input: 24V AC/DC W377 Input: 24v AC/DC Output: 0-10V DC W341 PT1000 W375 Input: 24v AC/DC Output: 0-10V DC W121 3x400V AC Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 EB51 Unit n Date 10/20/2023 Page 14/15 T BT5 L1 L2 L3 N PE X4:9-10 X2: 1-1-N-PE X6:7-8 X6:9-10 X5:19-20 X5:21 X4:7-8 X6:1-2 X6:3 X5:7-8 X5:9 X4:1-2 X5:1-2 X5:3 X1.1: 1-1-1-2-1-3-PE 8 Rouse Street www.systemair.net ••�' . r Tillsonburg, ON info@systemair.net systemai�•• :. N4G 5W8 "' ••• Page Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 1 Packet Pg. 186 Quotation no Project Plant no. frances anderson center Frances Anderson Center DOAS-1 / Unit n Date 10/20/2023 Page 15/15 W821 Ready signal - Relay X3:1-2 Start signal Relay - jumper X3:3-4 "Speed" Input: 0-10V DC X3:5-6 Heater: Electric EB51 W351 Alarm overheating - Relay X9:1-2 "Control" Input: 0-10V X9:3-4 Power 230V AC X9:5-6 Damper actuator: Extract (Exhaust) air QM32 W432 Input: 24V AC/DC X6:4-5 "Control" Input: 24V AC/DC X6:6 Pressure transmitter: Extract air filter BP4 W462 Input: 24v AC/DC X5:10-11 Output: 0-10V DC X5:12 Temperature sensor: Extract air BT3 W444 PT1000 X4:5-6 Temperature sensor: Exhaust air BT2 W442 PT1000 X4:3-4 Pressure transmitter: Extract air Fan (flow) BP2 W460 Input: 24v AC/DC X5:4-5 Output: 0-10V DC X5:6 Frequency inverter: Extract air Fan (AC1) TA22 W122 3x400VAC X1.2: 1-1-1-2-1-3-PE W822 Ready signal - Relay X3:7-8 Start signal Relay - jumper X3:9-10 "Speed" Input: 0-10V DC X3:11-12 Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net 00*0systemai. r ••�' Tillsonburg, ON info@systemair.net �• ti;:. N4G 5W8 �': Page Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 1 Packet Pg. 187 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-2/ Description: Geniox 20 - Roof (Gable roof plates - Steel) Unit width / Weight: 83.9in / 4899 lb Delivery: 1 sections; Mounted on 8.6in base frame 189.53 Unit color 11 Insulation 11 Hygienic ZincMagnesium 11 2.36" mineral wool / Density 3.75 Ib/ft3 Standard Control system Controller ready Power supply Unit L1 + L2 + L3 + PE (3x460V) 60 Hz MCA 11 MOP Unit MCA 21.0 A 11 MOP 30.1 A Power supply e-heater L1 + L2 + L3 + PE (3x461OV) 60 Hz / 23.8 A Sound break out 11 Supply air 66 dB(A) 1186 dB(A) Supply... Air density 0.075 Ib/ft3 Airflow 11 Face velocity 11 Ext. op 7160 CFM 11 359 ft/min 112.50 in we Supply air, Winter 11 Summer 71.8°F / RH 37% 11 76.5°F / RH 48% Filter 11 Stages F7 - ePM1 55% Fan 11 Voltage Rated current 11 RPM 7.37 hp 11 3x460 V 119.07 A 111783 RPM Cooling, water Fluid 0 BTU/hr ; 76.5/76.5°F Cooling, water Fluid 0 BTU/hr ; 76.5/76.5°F Heating, electric 11 Power 19.0 kW; 63.5/71.8°F Airflow 11 Face velocity 11 Ext. op Filter 11 Stages Fan 11 Voltage 11 Rated current 11 RPM Systemair Commercial AHU Ltd. 8 Rouse Street Tillsonburg, ON N4G 5W8 7160 CFM 11 359 ft/min 112.50 in we M5 - ePM10 60% 7.37 hp 11 3x460 V 119.07 A 111759 RPM Telephone:1-800-263-7081 www.systemair.net info@systemair.net Unit n Date 10/20/2023 Page 1 /15 •�"' systemair Page Packet Pg. 188 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Winter Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-2/ 2.8.c Date 10/20/2023 Page 2/15 C Temperature after ['F] 34.9 34.9 34.9 34.9 33.8 72.0 72.0 72.0 Humidity after [%] 74 74 74 74 77 42 42 42 Pressure drop [in w.c.] Jw 0.00 0.01 0.01 0.17 0.88 1 0.01 0.45 2.50 Pressure after function [in w.c.] - 0.01 0.02 0.02 -3.85 -2.95 -2.95 -2.50 ° M5 ePM10 60 /° Filter Efficiency 80.0% (Total Pressure) Summer Temperature after [°F] 182.91 82.9 1 82.9 1 82.9 1 81.9 75.0 75.0 Humidity after [%] 46 46 1 46 46 47 48 48 Exhaust 90 r - - - - - Air dB(A) f E vv Outdoor 81 I � f �SF F[--aN I O � O W2 I H1 Air dB(A) Winter Summer 75.0 48 76 Extrac dB(A) Air ; 86 Suppl, ; dB(A) Air T Temperature after [°F] 24.0 24.0 24.0 25.4 63.5 63.5 63.5 63.5 63.5 71.8 71.8 Humidity after [%] 87 87 87 82 49 49 49 49 49 37 37 Pressure drop [in w.c.] 0.00 0.01 0.58 0.17 0.88 0.00 0.01 0.00 0.01 0.06 2.50 Pressure after function [in w.c.] -0.00 -0.02 -0.59 3.46 2.58 2.58 2.57 2.57 2.56 2.50 - Efficiency F7 - ePM1 79.9% 81.8/81.8% 55% Filter 19.00 kW (Total Wet/dry Pressure) Temperature after [°F] 182.01 82.0 Humidity after [%] 1 49 1 49 82.0 83.4 76.5 76.5 49 47 48 48 81.8% wet 0 BTU/hr 76.5 76.5 76.5 76.5 48 48 48 48 0 BTU/hr w 76.5 E t 48 v R r r Q Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 0:•0• SY 12arLL Packet Pg. 189 Quotation no. frances anderson center unit n Project Frances Anderson Center Date 10/20/2023 Plant no. DOAS-2/ Page 3/15 Plan view Access side 1 63.9 i 42•i6 62.0 90.6 l9 Systemair Commercial AHU Ltd. Telephone: 1 -800-263-7081 8 Rouse Street www.systemair.net Tillsonburg, ON info@systemair.net :• s y s t e m a i r N4G 5W8 �•: Page Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 190 Quotation no Project Plant no. Right end 2� 78.7 v _- M -� frances anderson center Frances Anderson Center DOAS-2/ CD m v CD M a' 82.0 83.9 Doors and panels dimensions C1 7.9.9 31.5 ,n-8, 19.7 ; n-8 19.? , 15.723.6 15.715.7 Unit n Date 10/20/2023 Page 4/15 Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net ••�' Tillsonburg, ON info@systemair.net syste m air �• ti;: N4G 5W8 �': Page Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 191 Quotation no Project Plant no. 0 frances anderson center Frances Anderson Center DOAS-2/ 4764 Inspection side 4764 Baseframe I Unit n Date 10/20/2023 Page 5/15 Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net ••�' Tillsonburg, ON info@systemair.net systemair �• ti;: N4G 5W8 �': Page Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 192 Quotation no. frances anderson center Unit n Project Frances Anderson Center Date 10/20/2023 Plant no. DOAS-2/ Page 6/15 Technical specification Unit Frequency band [Hz] 63 125 250 500 1K 2K 4K 8K Total Sound power level [dB] [dB] [dB] [dB] [dB] [dB] [dB] I[dB] [dB(A)] Supply air Outdoor air Exhaust air Extract air Sound break out 75 67 77 65 70 78 73 80 72 68 88 84 89 81 67 85 81 73 67 76 75 71 68 88 86 79 76 73 70 64 59 63 62 53 48 64 71 76 59 37 86 81 90 76 66 Panels Steel sheets coated with ZM310, corrosion class C5 Frame profiles Steel profiles coated wiht z225 painted, corrosion class C4 Mullion profiles Steel profiles coated with ZM310, corrosion class C5 Corners PA6 fiber rienforced Insulation 2.36" mineral wool / Density 3.75 Ib/ft' Corrosion protection Class C4 according to EN ISO 12944-2:2018 Operating pressure 0 - 8 in w.c. (Geniox10 - Geniox31) Operating temperatures -40/+104 *F (Standard) - -40/+140 °F (Special design) Classifications EN 1886, 2. edition 2008 ' Mechanical Strength Class D1(M)* Casing air leakage -1.6 in w.c.: Class L1(M)* +2.81 in w.c.: Class L1(M)* Filter by-pass leakage -1.6 in w.c.: Class G1-179 +1.6 in w.c.: Class G1-F9 Thermal transmittance Class T2(M)* _ Thermal bridging factor Class TB2(M)* Acoustic insulation of casing Octave band Hz Insulation dB _ 63 10 125 17 _ 250 24 500 27 1000 28 2000 28 4000 32 8000 40 Roof Gable roof plates - Steel * (M) = Classification according to EN1886 Modelbox test Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net 00*0. ••�' Tillsonburg, ON info@systemair.net systemair �• ti;: N4G 5W8 �': Page Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 193 Quotation no Project Plant no. frances anderson center Frances Anderson Center DOAS-2/ Unit n Date 10/20/2023 Page 7/15 Object Pre fuse I max ' Main switch Rated voltage Control cabinet gG/C 25 A 21 A No 3x460V + PE Pre -heater electric 25 A 24 A No 3x460V + PE ') Main switch; Yes= loose deliveried from Systemair, No= Not supplied from systemair, Mounted = Factory installed and connected The supply unit consist of Pressure drop 0.01 in we Pressure drop 0.01 in we Damper blades Standard Required actuator torque 177.0 in lb Number of shafts 1 Number of dampers 1 PCs Dimensioning pressure drop 0.58 in we Initial pressure drop/Final pressure drop 0.37/0.78 in we Velocity, face area 426.1 ft/min Velocity, filter area 12.9 ft/min Filter class F7 - ePM1 55% Filter size 3x[23.3x23.3x3.8] + 3x[23.3x11.3x3.8] in Filter length 3.8 in Filter description Camfil Ecopleat Spare filter set F7 - ePM 1 55% 1 PCs Filter to be 4" F7 (MERV13) Must be 4" F7 filter and spares Air flow 7160 CFM External pressure 2.50 in we Pressure drop 0.17 in we Static pressure (Designed at wet conditions) 4.22 in we Total pressure 4.53 in we Absorbed power 6.39 hp Fan speed 1783 RPM Maximum fan speed 1810 RPM Efficiency by static pressure 74.5 % Efficiency by total pressure 79.9 % K-factor (p=0.075 Ib/ft3) 19.23 Fan type - Impeller ZAmid M-RH56Cpro ErP efficiency n(stat,A) 72.0 % ErP efficiency class N(actual)/ N(target) 74.9 / 62 % ErP-conformity Yes Direct drive - Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net ••�' . r Tillsonburg, ON info@systemair.net systemai�•• :. N4G 5W8 ' •' ••• Page Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 194 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-2/ Unit n Date 10/20/2023 Page 8/15 Motor type IE3, AC Motor Motor types -size ACA132M4-460/7.4 Motor protection Thermistor Rated power 7.37 hp Speed (nominal) 1752 RPM Current, Amp. 9.07 A Efficiency 91.7 % Efficiency, actual working point 91.5 % Voltage 3x460 V Operation frequency 61 Hz Max. operating frequency 62 Hz Consumed power from mains power supply, excluding frequency converter 6.99 hp Consumed power from mains power supply, including frequency converter 7.36 hp Winter: Temperature before / after "M� 24.0 / 25.4 °F Summer: Temperature before / after 82.0 / 83.4 °F Winter: Humidity before / after ' 87 / 82 % Summer: Humidity before / after 49 / 47 % Frequency converter wired from factory. Supply air., [12.01 A 1 PCs Frequency converter IP 20 mounted next to the fan inside the section. Shielded cable installed between frequency converter and motor. All necessary parameters have been set to suite motor and fan wheel configuration according to delivered documentation. The power supply to the converter must be provided and secured according to local statutory regulations for additional protection of frequency converters. Rotary heat exchanger Supply Extract -- Air flow 7160 7160 CFM Pressure drop 0.88 0.88 in we Air temperature before/after 25.4/63.5 72.0/33.8 °F Wet bulb temperature before/after i 22.9/52.7 58.0/30.3 °F Capacity 433001 BTU/hr Temperature efficiency 81.8 % Dry efficiency according to EN 308 at 3.38 m3/s 81.8 % Humidity efficiency 81.7 % Energy class for heatrecovery (EN13053) H1 Air temperature before/after 83.4/76.5 75.0/81.9 °F Wet bulb temperature before/after 68.9/63.4 62.1/67.7 °F Capacity 125908 BTU/hr Temperature efficiency 81.8 % Humidity efficiency 79.8 % Heat exchanger type HM - Sorption Efficiency (Wave height) A - High Wheel Diameter 01840 Description H M 1-XL-W V-1840-SM-W O-D U-0 Speed controller: Exchanger 'variable speed Electrical data 1x230V, 145W, 0.6Amp Purging sector 1 PCs Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net Tillsonburg, ON info@systemair.net N4G 5W8 •00*' systemair Page Packet Pg. 195 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Quotation no. frances anderson center unit n� Project Frances Anderson Center Date 10/20/2023 Plant no. DOAS-2/ Page 9/15 Empty section for future coil L - CAir flow 7160 , CFM Drip tray material Stainless steel Water trap 1 PCs — Pressure drop 0.01 in we Length 15.7 in I I � Empty section for future coil Air flow 7160 CFM --- Drip tray material Stainless steel Water trap 1 PCs Pressure drop 0.01 in we Length 15.7 in �iI 1i 1 I - Air flow 7160 CFM Pressure drop 0.06 in we Face velocity for the coil 452.5 ft/min Air temperature before/after 63.5/71.8 T Wet bulb temperature before/after 52.7/56.4 °F Capacity 19.00 kW Number of steps Modulating Voltage 3x460 V Current, Amp. 23.8 A Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net ••�' . r Tillsonburg, ON info@systemair.net systemai�•.:. N4G 5W8 "' ••• Page Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 196 Quotation no Project Plant no. frances anderson center Frances Anderson Center DOAS-2/ Unit n Date 10/20/2023 Connection side Service side Electrical coils must have separate power supply The extract unit consist of Page 10/15 Dimensioning pressure drop 0.45 in we Initial pressure drop/Final pressure drop 0.24/0.65 in we u Velocity, face area 426.1 ft/min III Velocity, filter area 27.5 ft/min Filter class M5 - ePM10 60% Filter size 3x[23.3x23.3x1.91 + 3x[23.3x11.3x1.91 in Filter length 1.9 in Filter description Camfil Ecopleat G Spare 2" Panel filter M5 ePM10 60% 1 PCs Inspection section Pressure drop 0.01 in we Length 11.8 in 1 11 I � - 1, Data are stated on supply. Air flow 7160 CFM External pressure 2.50 in we Pressure drop 0.17 in we (� )� Static pressure (Designed at wet conditions) 4.04 in we Total pressure 4.35 in we Absorbed power 6.13 hp Fan speed 1759 RPM Maximum fan speed 1810 RPM Efficiency by static pressure 74.4 % Efficiency by total pressure 80.0 % K-factor (p=0.075 Ib/ft3) 19.23 Fan type - Impeller ZAmid M-RH56Cpro ErP efficiency n(stat,A) 72.0 % ErP efficiency class N(actual)/ N(target) 74.9 / 62 % ErP-conformity Yes Direct drive Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net ••�' Tillsonburg, ON info@systemair.net systemair �• ti;: N4G 5W8 �•: Page Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 197 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-2/ Unit n Date 10/20/2023 Page 11/15 Motor type IE3, AC Motor Motor types -size ACA132M4-460/7.4 Motor protection Thermistor Rated power 7.37 hp Speed (nominal) 1752 RPM Current, Amp. 9.07 A Efficiency 91.7 % Efficiency, actual working point 91.6 % Voltage 3x460 V Operation frequency 60 Hz Max. operating frequency 62 Hz Consumed power from mains power supply, excluding frequency converter 6.69 hp Consumed power from mains power supply, including frequency converter 7.04 hp Winter: Temperature before / after "M� 33.8 / 34.9 °F Summer: Temperature before / after 81.9 / 82.9 °F Winter: Humidity before / after ' 77 / 74 % Summer: Humidity before / after 47 / 46 % Frequency converter wired from factory. Extract air., [12.01 A 1 PCs Frequency converter IP 20 mounted next to the fan inside the section. Shielded cable installed between frequency converter and motor. All necessary parameters have been set to suite motor and fan wheel configuration according to delivered documentation. The power supply to the converter must be provided and secured according to local statutory regulations for additional protection of frequency converters. Empty section Pressure drop 0.01 in we Length 7.9 in I I II I Pressure drop 0.01 in we Damper blades Standard Required actuator torque 177.0 in lb Number of shafts 1 Number of dampers 1 PCs Pressure drop 0.01 in we Systemair Commercial AHU Ltd. 8 Rouse Street Tillsonburg, ON N4G 5W8 Telephone:1-800-263-7081 www.systemair.net info@systemair.net •00*' systemair Page Packet Pg. 198 Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Quotation no Project Plant no. frances anderson center Frances Anderson Center DOAS-2/ Unit n Date 10/20/2023 Page 12/15 Other arts Feet or baseframe Feet or Baseframe Baseframe Baseframe height 8.6 in Corrosion protection Galvanized ZM310 Section 1 Weights Supply 79x35 in Exhaust 79x35 in Supply 79x35 in Extract 79x35 in 85.9 x 95.3 x 203.3 in 4906 lb The unit sections are delivered mounted on base frame. 4894 lb Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net ••�' Tillsonburg, ON info@systemair.net systemair �• ti;: N4G 5W8 �': Page Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 199 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-2/ Unit n Date 10/20/2023 Page 13/15 1 Casing Length 80.4 in 2627 Casing 1013 Damper 76 Filter 144 Fan 306 Rotary heat exchanger 705 Fan 306 Empty section 0.2 Damper 76 2 Casing Length 33.1 in 738 Casing 421 Cooling coil 166 Filter 95 Inspection section 0.2 Control system 56 3 Casing Length 74.1 in 828 Casing 592 Inspection section 0.2 Cooling coil 144 Inspection section 0.2 Heating coil 91 4 Baseframe Length 187.6 in 472 Other components 386 Weight of unit 5052 Controller ready With Controller Ready, the customer has the possibility of installing exactly the desired controller for the unit. The Controller Ready cabinet includes ducts, earth rail and rail -mounted terminals for connection of all internal sensors and control components according to selection. The cabinet does not include any power components, relays, etc. The cabinet can be selected as mounted inside the unit or on the unit. All selected internal sensors and control components in the section with the cabinet are factory -mounted and wired to the terminals in the cabinet. If the unit is divided into sections, the sensors and control components in sections without the cabinet have plugs for easy assembly of the control system after installation of the unit on the site. Internal cabling, components and sensors have been function tested before leaving the factory. The test report is included as part of the documentation. The electrical installation (cabling, mounting of components, connections, plugs, etc.) has been carried out according to EN 60204-1. Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net Tillsonburg, ON info@systemair.net N4G 5W8 •�"' systemair :�:.::: Page Packet Pg. 200 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Quotation no Project Plant no. Flow chart Exhaust Outdoor MOM!. frances anderson center Frances Anderson Center DOAS-2/ QM32 BP2 BT2 TA2 BP4 BT3 QM31 BT1 BP3 BP1 Detailed technical specification Electric heater: Power supply EB51 Temperature sensor: Supply air BT5 Speed controller: Exchanger TA2 Pressure transmitter: Exchanger supply air BP7 Temperature sensor: Efficiency BT4 Damper motor on/off - outdoor air QM31 Pressure transmitter: Supply air filter BP3 Temperature sensor: Intake air BT1 Pressure transmitter: Supply air Fan (flow) BP1 Frequency inverter: Supply air Fan (AC 1) TA21 BP7 BT4 W355 PT1000 W232 1x230V AC W832 Alarm signal relay "Speed" Input: 0-10V DC W365 Input: 24v AC/DC Output: 0-10V DC W343 PT1000 W331 Input: 24V AC/DC Control Input: 24V AC/DC W377 Input: 24v AC/DC Output: 0-10V DC W341 PT1000 W375 Input: 24v AC/DC Output: 0-10V DC W121 3x400V AC Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 EB51 Unit n Date 10/20/2023 Page 14/15 T BT5 L1 L2 L3 N PE X4:9-10 X2: 1-1-N-PE X6:7-8 X6:9-10 X5:19-20 X5:21 X4:7-8 X6:1-2 X6:3 X5:7-8 X5:9 X4:1-2 X5:1-2 X5:3 X1.1: 1-1-1-2-1-3-PE 8 Rouse Street www.systemair.net ••�' . r Tillsonburg, ON info@systemair.net systemai�•• :. N4G 5W8 "' ••• Page Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 201 Quotation no Project Plant no. frances anderson center Frances Anderson Center DOAS-2/ Unit n Date 10/20/2023 Page 15/15 W821 Ready signal - Relay X3:1-2 Start signal Relay - jumper X3:3-4 "Speed" Input: 0-10V DC X3:5-6 Heater: Electric EB51 W351 Alarm overheating - Relay X9:1-2 "Control" Input: 0-10V X9:3-4 Power 230V AC X9:5-6 Damper actuator: Extract (Exhaust) air QM32 W432 Input: 24V AC/DC X6:4-5 "Control" Input: 24V AC/DC X6:6 Pressure transmitter: Extract air filter BP4 W462 Input: 24v AC/DC X5:10-11 Output: 0-10V DC X5:12 Temperature sensor: Extract air BT3 W444 PT1000 X4:5-6 Temperature sensor: Exhaust air BT2 W442 PT1000 X4:3-4 Pressure transmitter: Extract air Fan (flow) BP2 W460 Input: 24v AC/DC X5:4-5 Output: 0-10V DC X5:6 Frequency inverter: Extract air Fan (AC1) TA22 W122 3x400VAC X1.2: 1-1-1-2-1-3-PE W822 Ready signal - Relay X3:7-8 Start signal Relay - jumper X3:9-10 "Speed" Input: 0-10V DC X3:11-12 Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net 00*0systemai. r ••�' Tillsonburg, ON info@systemair.net �• ti;:. N4G 5W8 �': Page Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 1 Packet Pg. 202 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-3/ Description: Geniox 10 - Roof (Gable roof plates - Steel) Unit width / Weight: 44.6in / 2049 lb Delivery: 1 sections; Mounted on 8.6in base frame 181.65 Unit color 11 Insulation 11 Hygienic ZincMagnesium 11 2.36" mineral wool / Density 3.75 Ib/ft3 Standard Control system Controller ready Power supply Unit L1 + L2 + L3 + PE (3x460V) 60 Hz MCA 11 MOP Unit MCA 3.8 A II MOP 5.2 A Power supply e-heater L1 + L2 + L3 + PE (3x460V) 60 Hz / 3.8 A Sound break out 11 Supply air 54 dB(A) 1174 dB(A) Supply... Air density 0.075 Ib/ft3 Airflow 11 Face velocity 11 Ext. op 980 CFM 11 213 ft/min 111.00 in we Supply air, Winter 11 Summer 74.3°F / RH 36% 1176.1 T / RH 48% Filter 11 Stages F7 - ePM1 55% Fan 11 Voltage Rated current 11 RPM 1.01 hp 11 3x460 V 111.49 A 112887 RPM Cooling, water Fluid 0 BTU/hr ; 76.1/76.1°F Cooling, water Fluid 0 BTU/hr ; 76.1/76.1°F Heating, electric 11 Power 3.0 kW; 64.8/74.3°F Airflow 11 Face velocity 11 Ext. op Filter 11 Stages Fan 11 Voltage 11 Rated current 11 RPM Systemair Commercial AHU Ltd. 8 Rouse Street Tillsonburg, ON N4G 5W8 980 CFM 11 213 ft/min 111.00 in we M5 - ePM10 60% 1.01 hp 11 3x460 V 111.49 A 112831 RPM Telephone:1-800-263-7081 www.systemair.net info@systemair.net Unit n Date 10/20/2023 Page 1 /15 c� CV Ln •�"' systemair Page 1 Packet Pg. 203 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Winter Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-3/ 2.8.c Date 10/20/2023 Page 2/15 C Temperature after ['F] 32.3 32.3 32.3 32.3 31.8 72.0 72.0 72.0 72.0 Humidity after [%] 73 73 73 73 74 42 42 42 42 Pressure drop [in w.c.] JW 0.00 0.00 0.00 0.08 0.54 0.00 0.30 0.00 1.00 Pressure after function [in w.c.] - 0.00 0.01 0.01 -1.84 -1.30 -1.30 0.00 -1.00 Efficiency 77.3% (Total Pressure) M5 - ePM10 60% Filter Summer Temperature after [°F] 182.01 82.0 1 82.0 1 82.0 1 81.5 75.0 75.0 1 75.0 Humidity after [%] 48 48 1 48 48 49 48 48 48 Exhaust 79 r - - - - - Air dB(A) f E vv Outdoor 70 f I k �SF W2 I H1 Air dB(A) Winter Summer 75.0 48 65 Extrac dB(A) Air ; s a C C 74 Suppl, ; dB(A) Air T Temperature after [°F] 24.0 24.0 24.0 24.6 64.8 64.8 64.8 64.8 64.8 74.3 74.3 Humidity after [%] 87 87 87 85 50 50 50 50 50 36 36 Pressure drop [in w.c.] 0.00 0.00 0.41 0.08 0.54 0.00 0.00 0.00 0.00 0.03 1.00 Pressure after function [in w.c.] -0.00 -0.01 -0.42 1.58 1.04 1.04 1.04 1.04 1.03 1.00 - Efficiency F7 - ePM1 78.0% 84.6/84.6% 55% Filter 3.00 kW (Total Wet/dry Pressure) Temperature after [°F] 76.1 :F 76.' 48 48 84.6% wet 0 BTl 76.1 76.1 76.1 48 48 48 /hr 0 BTU/hr 76.1 [ 76.1 E t 48 48 v R r r Q S \� Packet Pg. 204 Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Quotation no. frances anderson center unit n Project Frances Anderson Center Date 10/20/2023 Plant no. DOAS-3/ Page 3/15 Plan view 99.b 00 Ili --4) P -4,3 Ln Access side 92.6 i 8.6 22.9 51.3 M Systemair Commercial AHU Ltd. Telephone: 1 -800-263-7081 8 Rouse Street www.systemair.net Tillsonburg, ON info@systemair.net :• s y s t e m a i r N4G 5W8 �•: Page 1 Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 205 Quotation no Project Plant no. Right end frances anderson center Frances Anderson Center DOAS-3/ U-i t- ° rn U-) � CV U) CV .� LO of 42.6 44.6 Doors and panels dimensions 7.97.9 27.6 15.7 11.8 19.E 11.8 15.7 216 15.7 15.7 cc Ln 14' co CV 4564 Inspection side r Unit n Date 10/20/2023 Page 4/15 Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net ••�' ystemair Tillsonburg, ON info@systemair.net s �• ti;: N4G 5W8 �': Page 1 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 206 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-3/ Systemair Commercial AHU Ltd. 8 Rouse Street Tillsonburg, ON N4G 5W8 CI. E Baseframe 1 Telephone:1-800-263-7081 www.systemair.net info@systemair.net Unit n Date 10/20/2023 Page 5/15 M N O •�"' systemair �:..�: Page 1 Packet Pg. 207 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Quotation no Project Plant no. Technical specification Unit frances anderson center Frances Anderson Center DOAS-3/ Unit n Date 10/20/2023 Page 6/15 Frequency band [Hz] 63 125 250 500 1K 2K 4K 8K Total Sound power level [dB] [dB] [dB] [dB] [dB] [dB] [dB] [dB] [dB(A)] Supply air Outdoor air Exhaust air Extract air Sound break out 64 64 66 62 59 63 63 65 60 53 70 66 72 63 50 70 71 66 61 68 65 61 60 72 76 72 69 65 60 54 50 47 52 47 41 52 57 64 45 25 74 70 79 65 54 Panels Steel sheets coated with ZM310, corrosion class C5 Frame profiles Steel profiles coated wiht z225 painted, corrosion class C4 Mullion profiles Steel profiles coated with ZM310, corrosion class C5 Corners PA6 fiber rienforced Insulation 2.36" mineral wool / Density 3.75 Ib/ft' Corrosion protection Class C4 according to EN ISO 12944-2:2018 Operating pressure 0 - 8 in w.c. (Geniox10 - Geniox31) Operating temperatures -40/+104 *F (Standard) - -40/+140 °F (Special design) Classifications EN 1886, 2. edition 2008 ' Mechanical Strength Class D1(M)* Casing air leakage -1.6 in w.c.: Class L1(M)* +2.81 in w.c.: Class L1(M)* Filter by-pass leakage -1.6 in w.c.: Class G1-179 +1.6 in w.c.: Class G1-F9 Thermal transmittance Class T2(M)* _ Thermal bridging factor Class TB2(M)* Acoustic insulation of casing Octave band Hz Insulation dB 63 10 125 17 250 24 500 27 1000 28 2000 28 4000 32 8000 40 Roof Gable roof plates - Steel * (M) = Classification according to EN1886 Modelbox test Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net t0*0. • ••�' systemair Tillsonburg, ON info@systemair.net �•e-o N4G 5W8 �': Page 1 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 208 Quotation no Project Plant no. frances anderson center Frances Anderson Center DOAS-3/ Unit n Date 10/20/2023 Page 7/15 Object Pre fuse I max ' Main switch Rated voltage Control cabinet gG/C 10 A 6 A No 3x460V + PE Pre -heater electric 10 A 4 A No 3x460V + PE ") Main switch; Yes= loose deliveried from Systemair, No= Not supplied from systemair, Mounted = Factory installed and connected The supply unit consist of Pressure drop 0.00 in we Pressure drop 0.00 in we - Damper blades Standard Required actuator torque 44.3 in lb Number of shafts 1 Number of dampers 1 PCs Dimensioning pressure drop 0.41 in we y' Initial pressure drop/Final pressure drop 0.21/0.61 in we Velocity, face area 293.3 ft/min Velocity, filter area 8.9 ft/min 11 Filter class F7 - ePM1 55% i Filter size 1x[31.2x15.4x3.8] in Filter length 3.8 in Filter description Camfil Ecopleat Spare filter set F7 - ePM 1 55% 1 PCs Filter to be 4" F7 (MERV13) Must be 4" F7 filter and spares Air flow 980 CFM External pressure 1.00 in we Pressure drop 0.08 in we Static pressure (Designed at wet conditions) 2.08 in we / Total pressure 2.21 in we Absorbed power 0.44 hp Fan speed 2887 RPM Maximum fan speed 3430 RPM Efficiency by static pressure 73.2 % Efficiency by total pressure 78.0 % K-factor (p=0.075 Ib/ft3) 3.75 Fan type - Impeller ZAmid M-RH25Cpro ErP efficiency n(stat,A) 64.7 % ErP efficiency class N(actual)/ N(target) 75.9 / 62 % ErP-conformity Yes Direct drive - Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net 00*0stemai. r y s ••�' Tillsonburg, ON info@systemair.net �•:.;:. N4G 5W8 �': Page 1 Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 209 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-3/ Unit n Date 10/20/2023 Page 8/15 Motor type IE3, AC Motor Motor types -size ACA80M2-460/1 Motor protection Thermistor Rated power 1.01 hp Speed (nominal) 3456 RPM Current, Amp. 1.49 A Efficiency 77.0 % Efficiency, actual working point 73.3 % Voltage 3x460 V Operation frequency 50 Hz Max. operating frequency 60 Hz Consumed power from mains power supply, excluding frequency converter 0.60 hp Consumed power from mains power supply, including frequency converter 0.63 hp Winter: Temperature before / after "M� 24.0 / 24.6 °F Summer: Temperature before / after 82.0 / 82.6 °F Winter: Humidity before / after ' 87 / 85 % Summer: Humidity before / after 49 / 48 % Frequency converter wired from factory. Supply air., [2.21 A 1 PCs Frequency converter IP 20 mounted next to the fan inside the section. Shielded cable installed between frequency converter and motor. All necessary parameters have been set to suite motor and fan wheel configuration according to delivered documentation. The power supply to the converter must be provided and secured according to local statutory regulations for additional protection of frequency converters. Rotary heat exchanger Supply Extract -- Air flow 980 980 CFM Pressure drop 0.54 0.54 in we Air temperature before/after 24.6/64.8 72.0/31.8 °F I Wet bulb temperature before/after 22.4/53.9 58.0/28.1 °F Capacity 62783 BTU/hr Temperature efficiency 84.6 % Dry efficiency according to EN 308 at 0.46 m'/s 84.6 % Humidity efficiency 88.8 % Energy class for heatrecovery (EN13053) H1 Air temperature before/after 82.6/76.1 75.0/81.5 °F Wet bulb temperature before/after 68.6/63.0 62.1/67.8 °F Capacity 18084 BTU/hr Temperature efficiency 84.6 % Humidity efficiency 87.7 % Heat exchanger type HIM - Sorption Efficiency (Wave height) A - High Wheel Diameter 0880 Description HM1-XL-WV-0880 Speed controller: Exchanger Variable speed Electrical data 1x230V, 85W, 0.4Amp Purging sector 1 PCs Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net Tillsonburg, ON info@systemair.net N4G 5W8 •00*' systemair Page 1 Packet Pg. 210 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Quotation no Project Plant no. Empty section for future coil Empty section for future coil frances anderson center Frances Anderson Center DOAS-3/ Air flow Drip tray material Water trap Pressure drop Length Air flow Drip tray material Water trap Pressure drop Length Unit n� Date 10/20/2023 980 Stainless steel 1 0.00 15.7 980 Stainless steel 1 0.00 15.7 Page 9/15 CFM PCs in we in CFM PCs in we in Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net ••�' . systemair Tillsonburg, ON info@systemair.net �•• :. N4G 5W8 "' • • • Page 1 Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 211 Quotation no Project Plant no. frances anderson center Frances Anderson Center DOAS-3/ Air flow Pressure drop r Face velocity for the coil Air temperature before/after Wet bulb temperature before/after �l Capacity Number of steps Voltage Current, Amp. Connection side Electrical coils must have separate power supply The extract unit consist of Pressure drop Length Dimensioning pressure drop Initial pressure drop/Final pressure drop Velocity, face area Velocity, filter area 11 Filter class i Filter size Filter length Filter description Spare 2" Panel filter M5 ePM10 60% Pressure drop Length Unit n Date 10/20/2023 980 0.03 347.5 64.8/74.3 53.9/58.1 3.00 Modulating 3x460 3.8 Service side 0.00 11.8 0.30 0.15/0.45 293.3 19.4 M5 - ePM10 60% 1 x[31.2x 15.4x1.9] 1.9 Camfil Ecopleat G 1 0.00 11.8 Page 10/15 V A CFM in we ft/min T T kW in we in in we in we ft/min ft/min in in PCs in we in Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net ••�' . systemair Tillsonburg, ON info@systemair.net �•.:. N4G 5W8 "' • • • Page 1 Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Packet Pg. 212 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-3/ Data are stated on supply. Unit n Date 10/20/2023 Air flow 980 External pressure 1.00 Pressure drop 0.08 Static pressure (Designed at wet conditions) 1.93 Total pressure 2.07 Absorbed power 0.41 Fan speed 2831 Maximum fan speed 3430 Efficiency by static pressure 72.1 Efficiency by total pressure 77.3 K-factor (p=0.075 Ib/ft3) 3.75 Fan type - Impeller ZAmid M-RH25Cpro ErP efficiency n(stat,A) 64.7 ErP efficiency class N(actual)/ N(target) 75.9 / 62 ErP-conformity Yes Direct drive Motor type IE3, AC Motor Motor types -size ACA80M2-460/1 Motor protection Thermistor Rated power 1.01 Speed (nominal) 3456 Current, Amp. 1.49 Efficiency 77.0 Efficiency, actual working point 72.7 Voltage 3x460 Operation frequency 49 Max. operating frequency 60 Consumed power from mains power supply, excluding frequency converter 0.57 Consumed power from mains power supply, including frequency converter 0.60 Winter: Temperature before / after 31.8 / 32.3 Summer: Temperature before / after 81.5 / 82.0 Winter: Humidity before / after 74 / 73 Summer: Humidity before / after 49 / 48 Frequency converter wired from factory. Extract air., [2.2] A 1 Frequency converter IP 20 mounted next to the fan inside the section. Shielded cable installed between frequency converter and motor. All necessary parameters have been set to suite motor and fan wheel configuration according to delivered documentation. The power supply to the converter must be provided and secured according to local statutory regulations for additional protection of frequency converters. Systemair Commercial AHU Ltd. 8 Rouse Street Tillsonburg, ON N4G 5W8 Telephone:1-800-263-7081 www.systemair.net info@systemair.net Page 11/15 CFM in we in we in we in we hp RPM RPM hp RPM A V Hz Hz hp hp °F °F PCs •00*' systemair Page 1 Packet Pg. 213 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Quotation no Project Plant no. frances anderson center Frances Anderson Center DOAS-3/ Unit n Date 10/20/2023 Page 12/15 Empty section Pressure drop 0.00 in we Length 7.9 in y I � I I � I � _ E N d C L y.• Pressure drop 0.00 d in we V Damper blades Standard Required actuator torque 44.3 in lb i _ Number of shafts 1 Number of dampers 1 PCs Q to d C� C L ILL Pressure drop 0.00 in we Other parts Feet or baseframe Feet or baseframe Baseframe Baseframe height 8.6 in Corrosion protection Galvanized ZM310 Supply 39x16 in Exhaust 39x16 in Supply 39x16 in Extract 39x16 in Section 1 46.5 x 55.9 x 195.4 in 2051 lb The unit sections are delivered mounted on base frame. Systemair Commercial AHU Ltd. Telephone: 1 -800-263-7081 8 Rouse Street www.systemair.net Tillsonburg, ON info@systemair.net N4G 5W8 Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 2045 lb •�"' systemair Page 1 Packet Pg. 214 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-3/ Weights 1 Casing Length 105.6 in Casing Damper Filter Fan Rotary heat exchanger Control system Cooling coil Empty section Filter Inspection section Fan Empty section Damper 2 Casing Length 74.1 in Casing Inspection section Cooling coil Inspection section Heating coil 3 Baseframe Length 179.7 in Other components Weight of unit Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net Tillsonburg, ON info@systemair.net N4G 5W8 658 21 43 122 126 45 68 0.2 22 0.2 122 0.2 21 290 0.2 60 0.2 40 Unit n Date 10/20/2023 Page 13/15 1248 391 280 191 2110 •�"' systemair Page 1 Packet Pg. 215 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 Quotation no. frances anderson center Project Frances Anderson Center Plant no. DOAS-3/ Unit n Date 10/20/2023 Page 14/15 Controller ready With Controller Ready, the customer has the possibility of installing exactly the desired controller for the unit. The Controller Ready cabinet includes ducts, earth rail and rail -mounted terminals for connection of all internal sensors and control components according to selection. The cabinet does not include any power components, relays, etc. The cabinet can be selected as mounted inside the unit or on the unit. All selected internal sensors and control components in the section with the cabinet are factory -mounted and wired to the terminals in the cabinet. If the unit is divided into sections, the sensors and control components in sections without the cabinet have plugs for easy assembly of the control system after installation of the unit on the site. Internal cabling, components and sensors have been function tested before leaving the factory. The test report is included as part of the documentation. The electrical installation (cabling, mounting of components, connections, plugs, etc.) has been carried out according to EN 60204-1. Flow chart Exhaust Outdoor QM32 — B=2 B=2 — TA2 BP4 BT3 OM31 BT1 BP3 Bpi BP7 BT4 Detailed technical specification Electric heater: Power supply EB51 Temperature sensor: Supply air BT5 W355 PT1000 componentsInternal Speed controller: Exchanger TA2 W232 1x230V AC W832 Alarm signal relay "Speed" Input: 0-10V DC Pressure transmitter: Exchanger supply air 13P7 W365 Input: 24v AC/DC Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 8 Rouse Street www.systemair.net Tillsonburg, ON info@systemair.net N4G 5W8 ELM 07 EB51 BT5 L1 L2 L3 N PE X4:9-10 X2: L1-N-PE X6:7-8 X6:9-10 X5:19-20 El N d V _ L Extract M N O 7 N a El N d V _ !4 �i systemair • • • Page 1 Packet Pg. 216 Systemair - Air handling unit design SystemairCAD 2.0 Geniox-1/C2023-10.26.J6 1 10/20/2023 Quotation no Project Plant no. frances anderson center Frances Anderson Center DOAS-3/ Temperature sensor: Efficiency BT4 W343 Damper motor on/off - outdoor air QM31 W331 Pressure transmitter: Supply air filter BP3 W377 Temperature sensor: Intake air BT1 W341 Pressure transmitter: Supply air Fan (flow) BP1 W375 Frequency inverter: Supply air Fan (AC 1) TA21 W 121 W821 Heater: Electric EB51 W351 Damper actuator: Extract (Exhaust) air QM32 W432 Pressure transmitter: Extract air filter BP4 W462 Temperature sensor: Extract air BT3 W444 Temperature sensor: Exhaust air BT2 W442 Pressure transmitter: Extract air Fan (flow) BP2 W460 Frequency inverter: Extract air Fan (AC1) TA22 W122 W822 Systemair Commercial AHU Ltd. Telephone: 1-800-263-7081 Unit n Date 10/20/2023 Page 15/15 Output: 0-10V DC X5:21 Al PT1000 X4:7-8 Al Input: 24V AC/DC X6:1-2 Control Input: 24V AC/DC X6:3 DO Input: 24v AC/DC X5:7-8 Output: 0-10V DC X5:9 Al PT1000 X4:1-2 Al Input: 24v AC/DC X5:1-2 Output: 0-10V DC X5:3 Al 3x400V AC X1.1: 1-1-1-2-1-3-PE Ready signal - Relay X3:1-2 DI Start signal Relay - jumper X3:3-4 DO "Speed" Input: 0-10V DC X3:5-6 AO Alarm overheating - Relay X9:1-2 DI "Control" Input: 0-10V X9:3-4 AO Power 230V AC X9:5-6 DO Input: 24V AC/DC X6:4-5 "Control" Input: 24V AC/DC X6:6 DO Input: 24v AC/DC X5:10-11 Output: 0-10V DC X5:12 Al PT1000 X4:5-6 Al PT1000 X4:3-4 Al Input: 24v AC/DC X5:4-5 Output: 0-10V DC X5:6 Al 3x400V AC X1.2: 1-1-1-2-1-3-PE Ready signal - Relay X3:7-8 DI Start signal Relay - jumper X3:9-10 DO "Speed" Input: 0-10V DC X3:11-12 AO 8 Rouse Street www.systemair.net 00*0. ••�' ystemair Tillsonburg, ON info@systemair.net s �• ti;: N4G 5W8 �': Page 1 Systemair - Air handling unit design SystemairCAD 2.0 Gen iox-1/C2023-10.26.J6 1 10/20/2023 1 Packet Pg. 217 sn M S U N G SUBMITTAL AM168BXVGJR/AA Pa e 1 oft Samsung, DVM S2 Series, Heat Recovery Condensin 2 8 c Job Name Location Purchaser Submitted to Unit Designation Engineer Reference Approval 0 Construction 0 Schedule # US Ton (nominal) 14 Capacity (Btu/h) Nominal / Rated Cooling 168,000 / 160,000 Nominal / Rated Heating 189,000 / 180,000 Performance EER Ducted / Mixed / Non -Ducted 11.10 / 11.15 / 11.20 IEER Ducted / Mixed / Non -Ducted 24.83 / 26.81 / 28.80 SCHE Ducted / Mixed / Non -Ducted 25.50 / 26.40 / 27.30 Heat COP I Ducted / Mixed / Non -Ducted 1 3.65 / 3.62 / 3.60 Voltage (oN/Hz) 3 / 460 / 60 Power Maximum Circuit Breaker (MCCB/ELB/ELCB) 35 Minimum Circuit Ampacity (MCA) 29.0 SCCR kA 5 Indoor Units Total Capacity (%) 50 - 184 % Of outdoor unit capacity' Maximum Indoor Unit Quantity 29 Type X City. Inverter Scroll X 2 Compressor RLA (A) 11.0 Compressor Modulation Range 6 - 100 % Refrigerant R410A Factory Charge (lbs.) 23.1 Pipe Connections Liquid X Suction X HP Gas (inches) 5/8 X 1 1/8 X 7/8 Max. Length - ODU to Farthest IDU (feet) 656 (722 equivalent) Refrigerant Pipe Limitations 3 Max. Vertical Separation ODU to IDU (feet) 4 361 Highest/Lowest IDU (feet) 131 Max. Total Refrigerant Pipe Length (feet) 3,280 Fan Type X City. Propeller X 2 Output (CFM) 10,665 Condenser Fan Motor Type DC Output (W) 620 X 2 FLA (A) 2.1 (each) Max. External Static Pressure (in. WC) 0.43 W X H X D Inches 51 X 66 3/4 X 30 1 /8 Dimensions Weight lbs. 676.8 Shipping Weight lbs. 714.3 Sound Level dB (A) Max. 60 Operating Cooling 5 -F (°C) 5 -122 (-15 - 50) Temperatures Heating 'F (°C) -22 - 75 (-30 - 24) Safety Certifications ETL & ETLc Intelligent logic to ensure proper operation within unit design limitations and Protection Devices High pressure sensor, low pressure sensor, over -voltage protection, compressor over -current protection, current transformer, fan motor voltage protection, fan motor thermal protection, overheat protection, phase detection protection, high voltage City. Model Number Description WHG-T2-B Top wind/hail guard (8 - 14 ton outdoor units) WHG-SL-B Left side wind/hail guard WHG-SR-B Right side wind/hail guard WHG-R2-B Rear wind/hail guard for 8 - 14 ton units WHG-FI-B Front wind/hail guard for 8 - 14 ton outdoor units LACH-2-KIT-13 Low ambient cooling hood and side guards (medium chassis, 1 required) BPHK-46OV-2 I Base pan heater kit (base pan pan heater and control box, 1 required) MIM-1314 External contact control interface module for operation and error output and night silent mode manual activation (1 required) 1 Certified in accordance with the AHRI Variable Refrigerant Flow Multi -Split Air -Conditioners and Heat Pump (VRF) Certification Program which is based on the latest edition of AHRI Standard 1230. 2 Restrictions apply. Refer to DVM S2 technical data books for full details. a Other pipe restrictions and requirements exist. Please consult technical data book or installation manuals for full details regarding limitations and other requirements. 4 When the outdoor unit is lower than indoor units, and vertical separation is greater than 131 feet, additional conditions apply. When the outdoor unit is higher than the indoor units, and vertical separation is greater than 163 feet, additional conditions apply. Please refer to supporting documents at www.SamsungHVAC.com. s Cooling operation range is 23-122T (-5 - 50"C) as standard. When in Main Heating, cooling operation down to 5"F (-15°C) outdoor temperature is possible with modified pipe design for indoor units that require cooling. Cooling or Main cooling is possible down to -137 (-25°C) when using a low ambient cooling kit (LACH -KIT-B). Consult technical documents or Samsung HVAC for details. Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. Compatibility DVM S indoor units (AM****N****/AA, ACL-***NN), AHU Kits (MXD-K***AN), Universal Communication Kits (MCM-D211 UN), and Hydro Units (AM****NB***/AA). Construction The unit shall be galvanized steel with a baked on powder coated finish. Refrigerant System The Heat Recovery system shall allow simultaneous heating and cooling (conditions apply, to technical data book for more information). Mode Control Units (MCU) are required for proper operation. Indoor units that will only opel cooling mode year-round (cooling -only) may be piped directly to the liquid and suction pipe: bypassing MCU connection. Please consult Technical Data Books and supporting technica documents for compatible MCU models and details. The compressors shall be hermetically sealed, inverter driven, direct flash injected, DC scrc with soft -start capability manufactured by Samsung. The compressor(s) shall feature an asymmetrical scroll design with rotating compressor operation/priority (where applicable). F injected compressors provide advanced low ambient heating performance. The system shall have subcooling devices to maintain capacity at extreme system refrigera lengths and to minimize refrigerant noise. The system shall allow a reduction of the main liquid refrigerant pipe (outdoor unit to first un joint) by one diameter reducing total system refrigerant volume and pipe and insulation cost lengths and vertical separation are within the reduced pipe diameter guidelines. Refer to supporting documents for complete guideline details. Heat Exchanger The heat exchanger shall be mechanically bonded fin to copper tube. The aluminum fins of heat exchanger shall have a protective coating. Salt spray test method: ASTM-13117-18 - The heat exchanger showed no unusual rust or corrosion development to 3,000 hours. The heat exchanger shall consist of two separate circuits to enhance the heat pump defrost The unit shall use the entire coil initially for the defrost cycle. To resume heating faster in e; conditions, the upper section shall return to heating operation while the lower section contin defrost. Active Artificial Intelligence The outdoor unit shall feature Active Artificial Intelligence (AI) shall monitor environmental a system operational data and use Deep Neural Network algorithms to provide optimal systen performance and reliability. Active Artificial Intelligence (AI) shall be used to optimize high pressure control, low pressur control, defrost cycle activation and operation, and low refrigerant detection. The outdoor unit shall use Active Artificial Intelligence (AI) to monitor system refrigerant vole in real-time while in cooling mode to detect possible leaks or low refrigerant charge and pro an error code before system shutdown (conditions apply). Controls The outdoor unit shall have a removable EEPROM that stores unit serial number, startup information, system settings, system tag/name, and other information. Control wiring shall be 16 AWG X 2 shielded wire. Other Features Inverter PCB cooling shall be done with liquid refrigerant and air to maintain optimal and sal operating temperatures. The system shall feature advanced oil recovery cycle logic (maximum duration in cool mode minutes, maximum duration in heat mode: 6 minutes, defrost cycles lasting over 3 minutes t considered oil recovery cycles). Oil recovery operation shall not interrupt heating or cooling operation. The outdoor unit shall feature optional night quiet modes to reduce outdoor unit sound (4 le, with automatic activation or manual activation (with MIM-614 accessory). The outdoor unit shall feature advanced intelligent defrost logic to significantly reduce defro: cycle frequency by monitoring air resistance across the condenser coil during heating opera determine defrost operation initiation to prevent unnecessary defrost cycles. The outdoor unit shall feature optional snow blowing logic to prevent snow accumulation on outdoor units The outdoor unit shall feature maximum current control settings to limit current (50 % - 100 design current) adjustable at outdoor unit, supported central controls, and supported indoor wired controllers. The outdoor unit shall feature energy savings options to reduce system energy consumptiol average indoor room temperatures are greater than average indoor set temperatures in hee mode or when average indoor room temperatures are lower than average indoor set temper in cooling mode. 10_� 1 Packet Pg. 218 Intertek © 2022 Samsung HVAC SHA-DVMS-05232022A www.SamsungHVAC.com SAMSUNG SUBMITTAL AM168BXVGJR/AA Pa eIof2 2.8.c Samsung, DVM S2 Series, Heat Recovery Condensin Dimensional Drawing Section B-B 000®r Door 000 000@ 000 000 000 E00 21 15/16" 30 1/8" SIIMSUNG r„tr!�an�i�io■i �� ■= ' 1 Notes 1. Detail A and SECTION B-B indicate the dimensions after connecting piping 2. View C indicates knockout hole dimensions (bottom) No. Description Remark 1 Gas refrigerant pipe High pressure gas refrigerant pipe 1 1/8" 2 7/8" 3 Liquid refrigerant pipe 5/8" 4 Power conduit knockout 1 3/4" 5 Communication wire knockout 1 3/8" 6 Knockout for refrigerant piping Bottom 7 Knockout for refrigerant piping Front View C 3 3/8" 7 9/16" N� v M M I 4 - 7/4" X 3/8" Foundation hole pitch Detail A (Scale 1:2) 1 2 OO OO EIT] 000 aoo aoo aoo 000 aoo EIDE] m 0 0 �m � ft7 3/8" v C _ I 0 LL Foundation hole detail www.SamsungHVAC.com Page 1 Packet Pg. 219 SAMSUNG SUBMITTAL AM288BXVGJR/AA Pa e 1 of4 Samsung, DVM S2 Series, Heat Recovery Condensin 2 8 c Job Name Purchaser Submitted to _ Unit Designation System Specifications System Modules Module 1 AM096BXVGJR/AA Connected Module 2 AM192BXVGJR/AA Location Engineer Reference Approval 0 Construction 0 Schedule # Performance US Ton (nominal) 24 Capacity (Btu/h) Nominal / Rated Cooling 288,000 / 274,000 Nominal / Rated Heating 324,000 / 308,000 EER Ducted / Mixed / Non -Ducted 11.40 / 11.65 / 11.90 IEER Ducted / Mixed / Non -Ducted 22.50 / 24.20 / 25.90 SCHE Ducted / Mixed / Non -Ducted 23.70 / 24.10 / 24.50 High Heat COP Ducted / Mixed / Non -Ducted 3.50 / 3.55 / 3.60 Power Voltage (o/V/Hz) 3 / 460 / 60 Maximum Circuit Breaker (MCCB/ELB/ELCB) 20 + 40 Minimum Circuit Ampacity (MCA) 18.0 + 34.0 Indoor Units Total Capacity N 50 - 184 % Of outdoor unit capacity 2 Maximum Indoor Unit Quantity 49 Refrigerant R410A Factory Charge (Ibs.) 45.2 Pipe Connections Liquid X Suction X HP Gas (inches) 3/4 X 1 3/8 X 1 1/8 Refrigerant Pipe Limitations a Max. Length - ODU to Farthest IDU (feet) 656 (722 equivalent) Max. Vertical Separation ODU to IDU (feet) ° 361 Highest/Lowest IDU (feet) 131 Max. Total Refrigerant Pipe Length (feet) 3,280 Sound Level dB (A) Max. 64 Operating Temperatures Cooling 5 -F (°C) 5 -122 (-15 - 50) Heating °F (*C) -22 - 75 (-30 - 24) Safety Certifications ETL & ETLc Protection Devices Intelligent logic to ensure proper operation within unit design limitations and operational parameters. High pressure sensor, low pressure sensor, over -voltage protection, compressor over -current protection, current transformer, fan motor voltage protection, fan motor thermal protection, overheat protection, phase detection protection, high voltage fuses Accessories Qty. Model Number Description 1 MXJ-TA3819M Outdoor unit tee (liquid and suction fittings, <-461,000 Btu/h ) 1 MXJ-TA3100M Outdoor unit tee (HP gas fitting, < 461,000 Btu/h) WHG-T2-B Top wind/hail guard (8 - 14 ton outdoor units) WHG-T3-B Top wind/hail guard (16 - 20 ton outdoor units) WHG-SL-B Left side wind/hail guard WHG-SR-B Right side wind/hail guard WHG-R1-B Rear wind/hail guard for 6, 16 - 20 ton units (2 required for 16 - 20 ton units) WHG-R2-B Rear wind/hail guard for 8 - 14 ton units WHG-F1-B Front wind/hail guard for 8 - 14 ton outdoor units LACH-2-KIT-B Low ambient cooling hood and side guards (medium chassis, 1 required) LACH-3-KIT-B Low ambient cooling hood and side guards (large chassis, 1 required) BPHK460V-2 Base pan heater kit (base pan pan heater and control box, 1 required) BPHK460V-3 Base pan heater kit (base pan pan heater and control box, 1 required) MIM-1314 External contact control interface module for operation and error output and night silent mode manual activation (1 required) Certified in accordance with the AHRI Variable Refrigerant Flow Multi -Split Air -Conditioners and Heat Pump (VRF) Certification Program which is based on the latest edition of AHRI Standard 1230. z Restrictions apply. Refer to DVM S2 technical data books for full details. 3 Other pipe restrictions and requirements exist. Please consult technical data book or installation manuals for full details regarding limitations and other requirements. When the outdoor unit is lower than indoor units, and vertical separation is greater than 131 feet, additional conditions apply. When the outdoor unit is higher than the indoor units, and vertical separation is greater than 163 feet, additional conditions apply. Please refer to supporting documents at www.SamsungHVAC.com. s Cooling operation range is 23-122OF (-5 - 50°C) as standard. When in Main Heating, cooling operation down to 5°F (-15"C) outdoor temperature is possible with modified pipe design for indoor units that require cooling. Cooling or Main cooling is possible down to -130F Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice INN II Compatibility DVM S indoor units (AM****N****/AA, ACL-***NN), AHU Kits (MXD-K***AN), Universal Communication Kits (MCM-D211UN), and Hydro Units (AM****NB***/AA). Construction The outdoor units shall be galvanized steel with a baked on powder coated finish. Refrigerant System The Heat Recovery system shall allow simultaneous heating and cooling (conditions apply, to technical data book for more information). Mode Control Units (MCU) are required for proper operation. Indoor units that will only ope cooling mode year-round (cooling -only) may be piped directly to the liquid and suction pipe: bypassing MCU connection. Please consult Technical Data Books and supporting technics documents for compatible MCU models and details. The compressors shall be hermetically sealed, inverter driven, direct flash injected, DC scrc with soft -start capability manufactured by Samsung. The compressor(s) shall feature an asymmetrical scroll design with rotating compressor operation/priority (where applicable). F injected compressors provide advanced low ambient heating performance. The system shall have subcooling devices to maintain capacity at extreme system refrigera lengths and to minimize refrigerant noise. The system shall allow a reduction of the main liquid refrigerant pipe (outdoor unit to first ur joint) by one diameter reducing total system refrigerant volume and pipe and insulation cost lengths and vertical separation are within the reduced pipe diameter guidelines. Refer to supporting documents for complete guideline details. Optional rotational defrost capability to provide heating while performing defrost operation Heat Exchanger The heat exchanger shall be mechanically bonded fin to copper tube. The aluminum fins of heat exchanger shall have a protective coating. Salt spray test method: ASTM-13117-18 - The heat exchanger showed no unusual rust or corrosion development to 3,000 hours. The heat exchanger shall consist of two separate circuits to enhance the heat pump defrost The units shall use the entire coil initially for the defrost cycle. To resume heating faster in extreme conditions, the upper section shall return to heating operation while the lower secti continues to defrost. Active Artificial Intelligence The outdoor units shall feature Active Artificial Intelligence (AI) shall monitor environmental system operational data and use Deep Neural Network algorithms to provide optimal syster performance and reliability. Active Artificial Intelligence (AI) shall be used to optimize high pressure control, low pressur control, defrost cycle activation and operation, and low refrigerant detection. The outdoor unit shall use Active Artificial Intelligence (AI) to monitor system refrigerant Vol in real-time while in cooling mode to detect possible leaks or low refrigerant charge and prc an error code before system shutdown (conditions apply). Controls The outdoor units shall have a removable EEPROM that stores unit serial number, startup information, system settings, system tag/name, and other information. Control wiring shall be 16 AWG X 2 shielded wire. Other Features Inverter PCB cooling shall be done with liquid refrigerant and air to maintain optimal and sa operating temperatures. The system shall feature advanced oil recovery cycle logic (maximum duration in cool modf minutes, maximum duration in heat mode: 6 minutes, defrost cycles lasting over 3 minutes considered oil recovery cycles). Oil recovery operation shall not interrupt heating or cooling operation. The outdoor units shall feature optional night quiet modes to reduce outdoor unit sound (4 I with automatic activation or manual activation (with MIM-1314 accessory). The outdoor units shall feature advanced intelligent defrost logic to significantly reduce defr cycle frequency by monitoring air resistance across the condenser coil during heating opera determine defrost operation initiation to prevent unnecessary defrost cycles. The outdoor units shall feature optional snow blowing logic to prevent snow accumulation o outdoor units The outdoor units shall feature maximum current control settings to limit current (50%- 100 design current) adjustable at outdoor unit, supported central controls, and supported indoor wired controllers. The outdoor units shall feature energy savings options to reduce system energy consumptii when average indoor room temperatures are greater than average indoor set temperatures heating mode or when average indoor room temperatures are lower than average indoor Se temperatures in cooling mode. © 2022 Samsung HVAC SHA-DVMS-05232022A www.SamsungHVAC.com Packet Pg. 220 Intertek SAMSUNG SUBMITTAL AM288BXVGJR/AA Pa e 2 of4 Samsung, DVM S2 Series, Heat Recovery Condensin 2 8 c Module Specifications Module Model Number AM096BXVGJR/AA AM19213XVGJR/AA US Ton (nominal) 8 16 Pertormance Capacity (Btu/h) Nominal 96,000 192,000 Nominal 108,000 216,000 Voltage (o/V/Hz) 3 / 460 / 60 3 / 460 / 60 Maximum Circuit Breaker (MCCB/ELB/ELCB) 20 40 PowerZ Minimum Circuit Ampacity (MCA) 18.0 34.0 SCCR 7 kA 5 5 Type X Qty. Inverter Scroll X 2 Inverter Scroll X 2 Compressor RLA A 6 13 Compresssor Modulation Range 5 - 100% 6 - 100% Refrigerant R410A Factory Charge jibs. 17.6 1 27.6 Pipe Connections Liquid X Suction X HP Gas Inches 3/8 X 7/8 X 3/4 5/8 X 1 1/8 X 1 1/8 Fan Type X Qty. Propeller X 2 Propeller X 2 Output (CFM) 9,924 12,855 Condenser Fan Motor Type DC DC Output (W) 620 X 2 630 X 2 FLA (A) 2.1 (each) 2.3 (each) Max. External Static Pressure In. WC 0.43 0.31 W X H X D Inches 51 X 66 3/4 X 30 1/8 73 1/4 X 66 3/4 X 30 1/8 Dimensions Weight lbs. 584.2 848.8 Shipping Weight lbs. 621.7 906.5 Sound Level dB (A) Max. 57 63 ' Certified in accordance with the AHRI Variable Refrigerant Flow Multi -Split Air -Conditioners and Heat Pump (VRF) Certification Program which is based on the latest edition of AHRI Standard 1230. z Each condensing unit requires a separate electrical connection with overcurrent protection. Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. www.SamsungHVAC.com Page 1 Packet Pg. 221 ISAMSUNG SUBMITTAL AM288BXVGJR/AA Pa e3of4 Samsung, DVM S2 Series, Heat Recovery Condensin 2•8 c AM096BXVGJR/AA Dimensional Drawing Section B-B 000 o 000 0 000 000 000 ooa 21 15/16" 30 1/8" A N I i 4 5/16' Notes 1. Detail A and SECTION B-B indicate the dimensions after connecting piping 2. View C indicates knockout hole dimensions (bottom) No. Description Remark 1 Gas refrigerant pipe 7/8" 2 High pressure gas refrigerant pipe 3/4" 3 Liquid refrigerant pipe 3/8" 4 Power conduit knockout 1 3/4" 5 Communication wire knockout 1 3/8" 6 Knockout for refrigerant piping Bottom 7 Knockout for refrigerant piping Front go W— Mits sn10, OEM IMF�tr!Aal��i��l■ Ir��li rlrl�rllrl��)dl� 1 View C 3 3/8" 7 9/16" E - -TF 4 - 7/4" X 3/8" Foundation bolt holes) N M 7D� OII Moll M Foundation hole pitch 5 ,4 rn B 3 Detail A (Scale 1:2) 1 2 3 OO OO 1:1E:11:1 000 000 aoo 000 000 000 �00 -2 0 t3/80 C3/8" 0 LL Foundation hole detail www.SamsungHVAC.com Page 1 Packet Pg. 222 SAMSUNG SUBMITTAL AM288BXVGJR/AA Pa e4of4 2.8.c Samsung, DVM S2 Series, Heat Recovery Condensin AM192BXVGJR/AA Dimensional Drawing Section B-B p OOOr EI EI E100 OOOO 000 E100 E100. 1 21 15/16" 1 4 5/16" snmsuruc snmsuruc Notes 1. Detail A and SECTION B-B indicate the dimensions after connecting piping 2. View C indicates knockout hole dimensions (bottom) 1 Descriptio Gas refrigerant pipe 1 1/8" 2 High pressure gas refrigerant pipe 1 1/8" 3 Liquid refrigerant pipe 5/8" 4 Power conduit knockout 1 3/4" 5 Communication wire knockout 1 3/8" 6 Knockout for refrigerant piping Bottom 7 Knockout for refrigerant piping Front f c View C a i< Foundation hole pitch Detail A 14-- A 3/0 idation bolt holes) L U .Q m 0 3/8" 0 0 3/8" v C L° Foundation hole detail www.SamsungHVAC.com Page 1 Packet Pg. 223 sn M S U N G SUBMITTAL AM120BXVGJR/AA Pa e 1 oft Samsung, DVM S2 Series, Heat Recovery Condensin 2 8 c Job Name Location Purchaser Submitted to Unit Designation Engineer Reference Approval 0 Construction 0 Schedule # US Ton (nominal) 10 Capacity (Btu/h) Nominal / Rated Cooling 120,000 / 114,000 Nominal / Rated Heating 135,000 / 129,000 Performance EER Ducted / Mixed / Non -Ducted 12.00 / 12.45 / 12.90 IEER Ducted / Mixed / Non -Ducted 24.60 / 28.22 / 31.85 SCHE Ducted / Mixed / Non -Ducted 26.50 / 28.80 / 31.10 Heat COP I Ducted / Mixed / Non -Ducted 1 3.80 / 3.96 / 4.13 Voltage (oN/Hz) 3 / 460 / 60 Power Maximum Circuit Breaker (MCCB/ELB/ELCB) 25 Minimum Circuit Ampacity (MCA) 19.4 SCCR kA 5 Indoor Units Total Capacity (%) 50 - 184 % Of outdoor unit capacity' Maximum Indoor Unit Quantity 20 Type X City. Inverter Scroll X 2 Compressor RLA (A) 6.6 Compressor Modulation Range 5 - 100% Refrigerant R410A Factory Charge (lbs.) 17.6 Pipe Connections Liquid X Suction X HP Gas (inches) 1/2 X 1 1/8 X 3/4 Max. Length - ODU to Farthest IDU (feet) 656 (722 equivalent) Refrigerant Pipe Limitations 3 Max. Vertical Separation ODU to IDU (feet) 4 361 Highest/Lowest IDU (feet) 131 Max. Total Refrigerant Pipe Length (feet) 3,280 Fan Type X City. Propeller X 2 Output (CFM) 9,924 Condenser Fan Motor Type DC Output (W) 620 X 2 FLA (A) 2.1 (each) Max. External Static Pressure (in. WC) 0.43 W X H X D Inches 51 X 66 3/4 X 30 1 /8 Dimensions Weight lbs. 584.2 Shipping Weight lbs. 621.7 Sound Level dB (A) Max. 57 Operating Cooling 5 -F (°C) 5 -122 (-15 - 50) Temperatures Heating 'F (°C) -22 - 75 (-30 - 24) Safety Certifications ETL & ETLc Intelligent logic to ensure proper operation within unit design limitations and Protection Devices High pressure sensor, low pressure sensor, over -voltage protection, compressor over -current protection, current transformer, fan motor voltage protection, fan motor thermal protection, overheat protection, phase detection protection, high voltage Qty. Model Number Description WHG-T2-B Top wind/hail guard (8 - 14 ton outdoor units) WHG-SL-B Left side wind/hail guard WHG-SR-B Right side wind/hail guard WHG-R2-B Rear wind/hail guard for 8 - 14 ton units WHG-FI-B Front wind/hail guard for 8 - 14 ton outdoor units LACH-2-KIT-B Low ambient cooling hood and side guards (medium chassis, 1 required) BPHK-460V-2 Base pan heater kit (base pan pan heater and control box, 1 required) MIM-1314 External contact control interface module for operation and error output and night silent mode manual activation (1 required) 1 Certified in accordance with the AHRI Variable Refrigerant Flow Multi -Split Air -Conditioners and Heat Pump (VRF) Certification Program which is based on the latest edition of AHRI Standard 1230. 2 Restrictions apply. Refer to DVM S2 technical data books for full details. a Other pipe restrictions and requirements exist. Please consult technical data book or installation manuals for full details regarding limitations and other requirements. 4 When the outdoor unit is lower than indoor units, and vertical separation is greater than 131 feet, additional conditions apply. When the outdoor unit is higher than the indoor units, and vertical separation is greater than 163 feet, additional conditions apply. Please refer to supporting documents at www.SamsungHVAC.com. s Cooling operation range is 23-122T (-5 - 50"C) as standard. When in Main Heating, cooling operation down to 5T (-15°C) outdoor temperature is possible with modified pipe design for indoor units that require cooling. Cooling or Main cooling is possible down to -137 (-25°C) when using a low ambient cooling kit (LACH -KIT-B). Consult technical documents or Samsung HVAC for details. Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. Compatibility DVM S indoor units (AM****N****/AA, ACL-***NN), AHU Kits (MXD-K***AN), Universal Communication Kits (MCM-D211 UN), and Hydro Units (AM****NB***/AA). Construction The unit shall be galvanized steel with a baked on powder coated finish. Refrigerant System The Heat Recovery system shall allow simultaneous heating and cooling (conditions apply, to technical data book for more information). Mode Control Units (MCU) are required for proper operation. Indoor units that will only ope cooling mode year-round (cooling -only) may be piped directly to the liquid and suction pipe: bypassing MCU connection. Please consult Technical Data Books and supporting technica documents for compatible MCU models and details. The compressors shall be hermetically sealed, inverter driven, direct flash injected, DC scrc with soft -start capability manufactured by Samsung. The compressor(s) shall feature an asymmetrical scroll design with rotating compressor operation/priority (where applicable). F injected compressors provide advanced low ambient heating performance. The system shall have subcooling devices to maintain capacity at extreme system refrigera lengths and to minimize refrigerant noise. The system shall allow a reduction of the main liquid refrigerant pipe (outdoor unit to first un joint) by one diameter reducing total system refrigerant volume and pipe and insulation cost lengths and vertical separation are within the reduced pipe diameter guidelines. Refer to supporting documents for complete guideline details. Heat Exchanger The heat exchanger shall be mechanically bonded fin to copper tube. The aluminum fins of heat exchanger shall have a protective coating. Salt spray test method: ASTM-13117-18 - The heat exchanger showed no unusual rust or corrosion development to 3,000 hours. The heat exchanger shall consist of two separate circuits to enhance the heat pump defrost The unit shall use the entire coil initially for the defrost cycle. To resume heating faster in e: conditions, the upper section shall return to heating operation while the lower section contin defrost. Active Artificial Intelligence The outdoor unit shall feature Active Artificial Intelligence (AI) shall monitor environmental a system operational data and use Deep Neural Network algorithms to provide optimal syster performance and reliability. Active Artificial Intelligence (AI) shall be used to optimize high pressure control, low pressur control, defrost cycle activation and operation, and low refrigerant detection. The outdoor unit shall use Active Artificial Intelligence (AI) to monitor system refrigerant Vol in real-time while in cooling mode to detect possible leaks or low refrigerant charge and prc an error code before system shutdown (conditions apply). Controls The outdoor unit shall have a removable EEPROM that stores unit serial number, startup information, system settings, system tag/name, and other information. Control wiring shall be 16 AWG X 2 shielded wire. Other Features Inverter PCB cooling shall be done with liquid refrigerant and air to maintain optimal and sa operating temperatures. The system shall feature advanced oil recovery cycle logic (maximum duration in cool mod( minutes, maximum duration in heat mode: 6 minutes, defrost cycles lasting over 3 minutes, considered oil recovery cycles). Oil recovery operation shall not interrupt heating or cooling operation. The outdoor unit shall feature optional night quiet modes to reduce outdoor unit sound (4 le, with automatic activation or manual activation (with MIM-614 accessory). The outdoor unit shall feature advanced intelligent defrost logic to significantly reduce defro cycle frequency by monitoring air resistance across the condenser coil during heating open determine defrost operation initiation to prevent unnecessary defrost cycles. The outdoor unit shall feature optional snow blowing logic to prevent snow accumulation on outdoor units The outdoor unit shall feature maximum current control settings to limit current (50%- 1000/ design current) adjustable at outdoor unit, supported central controls, and supported indoor wired controllers. The outdoor unit shall feature energy savings options to reduce system energy consumptiol average indoor room temperatures are greater than average indoor set temperatures in hee mode or when average indoor room temperatures are lower than average indoor set temps in cooling mode. a C(l Packet Pg. 224 Intertek © 2022 Samsung HVAC SHA-DVMS-05232022A www.SamsungHVAC.com SAMSUNG SUBMITTAL AM120BXVGJR/AA Pa eIof2 Samsung, DVM 2 8 c S2 Series, Heat Recovery Condensin Dimensional Drawing Section B-B 000®r Door 000 000@ 000 000 000 E00 21 15/16" 30 1/8" SIIMSUNG §071 ■■ Mom u� i��_�;r��ll�■l�i�r��lrr_>di 11 1=111i 0 Notes 1. Detail A and SECTION B-B indicate the dimensions after connecting piping 2. View C indicates knockout hole dimensions (bottom) No. Description Remark 1 Gas refrigerant pipe High pressure gas refrigerant pipe 1 1/8" 2 3/4" 3 Liquid refrigerant pipe 1/2" 4 Power conduit knockout 1 3/4" 5 Communication wire knockout 1 3/8" 6 Knockout for refrigerant piping Bottom 7 Knockout for refrigerant piping Front View C 3 3/8" 7 9/16" N� v M M I 4 - 7/4" X 3/8" Foundation hole pitch Detail A (Scale 1:2) 1 2 OO OO EIT] 000 aoo aoo aoo 000 aoo EIDE]11 m 0 0 �m � ft7 3/8" v C _ I 0 LL Foundation hole detail www.SamsungHVAC.com Page 1 Packet Pg. 225 sn M S U N G SUBMITTAL AM144BXVGJR/AA Pa e 1 oft Samsung, DVM S2 Series, Heat Recovery Condensin 2 8 c Job Name Location Purchaser Submitted to Unit Designation Engineer Reference Approval 0 Construction 0 Schedule # US Ton (nominal) 12 Capacity (Btu/h) Nominal / Rated Cooling 144,000 / 138,000 Nominal / Rated Heating 162,000 / 154,000 Performance EER Ducted / Mixed / Non -Ducted 12.10 / 12.05 / 12.00 IEER Ducted / Mixed / Non -Ducted 25.70 / 27.50 / 29.30 SCHE Ducted / Mixed / Non -Ducted 26.00 / 26.90 / 27.80 Heat COP I Ducted / Mixed / Non -Ducted 1 3.68 / 3.76 / 3.85 Voltage (oN/Hz) 3 / 460 / 60 Power Maximum Circuit Breaker (MCCB/ELB/ELCB) 35 Minimum Circuit Ampacity (MCA) 26.2 SCCR kA 5 Indoor Units Total Capacity (%) 50 - 184 % Of outdoor unit capacity' Maximum Indoor Unit Quantity 25 Type X City. Inverter Scroll X 2 Compressor RLA (A) 9.6 Compressor Modulation Range 5 - 100 % Refrigerant R410A Factory Charge (lbs.) 23.1 Pipe Connections Liquid X Suction X HP Gas (inches) 1/2 X 1 1/8 X 7/8 Max. Length - ODU to Farthest IDU (feet) 656 (722 equivalent) Refrigerant Pipe Limitations 3 Max. Vertical Separation ODU to IDU (feet) 4 361 Highest/Lowest IDU (feet) 131 Max. Total Refrigerant Pipe Length (feet) 3,280 Fan Type X City. Propeller X 2 Output (CFM) 10,171 Condenser Fan Motor Type DC Output (W) 620 X 2 FLA (A) 2.1 (each) Max. External Static Pressure (in. WC) 0.43 W X H X D Inches 51 X 66 3/4 X 30 1/8 Dimensions Weight lbs. 626.1 Shipping Weight lbs. 663.6 Sound Level dB (A) Max. 60 Operating Cooling 5 'F (°C) 5 -122 (-15 - 50) Temperatures Heating 'F (°C) -22 - 75 (-30 - 24) Safety Certifications ETL & ETLc Intelligent logic to ensure proper operation within unit design limitations and Protection Devices High pressure sensor, low pressure sensor, over -voltage protection, compressor over -current protection, current transformer, fan motor voltage protection, fan motor thermal protection, overheat protection, phase detection protection, high voltage Qty. Model Number Description WHG-T2-B Top wind/hail guard (8 - 14 ton outdoor units) WHG-SL-B Left side wind/hail guard WHG-SR-B Right side wind/hail guard WHG-R2-B Rear wind/hail guard for 8 - 14 ton units WHG-FI-B Front wind/hail guard for 8 - 14 ton outdoor units LACH-2-KIT-B Low ambient cooling hood and side guards (medium chassis, 1 required) BPHK-460V-2 Base pan heater kit (base pan pan heater and control box, 1 required) MIM-1314 External contact control interface module for operation and error output and night silent mode manual activation (1 required) 1 Certified in accordance with the AHRI Variable Refrigerant Flow Multi -Split Air -Conditioners and Heat Pump (VRF) Certification Program which is based on the latest edition of AHRI Standard 1230. 2 Restrictions apply. Refer to DVM S2 technical data books for full details. a Other pipe restrictions and requirements exist. Please consult technical data book or installation manuals for full details regarding limitations and other requirements. 4 When the outdoor unit is lower than indoor units, and vertical separation is greater than 131 feet, additional conditions apply. When the outdoor unit is higher than the indoor units, and vertical separation is greater than 163 feet, additional conditions apply. Please refer to supporting documents at www.SamsungHVAC.com. s Cooling operation range is 23-122°F (-5 - 50°C) as standard. When in Main Heating, cooling operation down to 5"F (-15°C) outdoor temperature is possible with modified pipe design for indoor units that require cooling. Cooling or Main cooling is possible down to -137 (-25°C) when using a low ambient cooling kit (LACH *-KIT-B). Consult technical documents or Samsung HVAC for details. Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. Compatibility DVM S indoor units (AM****N****/AA, ACL ***NN), AHU Kits (MXD-K***AN), Universal Communication Kits (MCM-D21 1 UN), and Hydro Units (AM****NB***/AA). Construction The unit shall be galvanized steel with a baked on powder coated finish. Refrigerant System The Heat Recovery system shall allow simultaneous heating and cooling (conditions apply, to technical data book for more information). Mode Control Units (MCU) are required for proper operation. Indoor units that will only opei cooling mode year-round (cooling -only) may be piped directly to the liquid and suction pipe. bypassing MCU connection. Please consult Technical Data Books and supporting technics documents for compatible MCU models and details. The compressors shall be hermetically sealed, inverter driven, direct Flash injected, DC scrc with soft -start capability manufactured by Samsung. The compressor(s) shall feature an asymmetrical scroll design with rotating compressor operation/priority (where applicable). F injected compressors provide advanced low ambient heating performance. The system shall have subcooling devices to maintain capacity at extreme system refrigera lengths and to minimize refrigerant noise. The system shall allow a reduction of the main liquid refrigerant pipe (outdoor unit to first un joint) by one diameter reducing total system refrigerant volume and pipe and insulation cost lengths and vertical separation are within the reduced pipe diameter guidelines. Refer to supporting documents for complete guideline details. Heat Exchanger The heat exchanger shall be mechanically bonded fin to copper tube. The aluminum fins of heat exchanger shall have a protective coating. Salt spray test method: ASTM-6117-18 - The heat exchanger showed no unusual rust or corrosion development to 3,000 hours. The heat exchanger shall consist of two separate circuits to enhance the heat pump defrost The unit shall use the entire coil initially for the defrost cycle. To resume heating faster in a: conditions, the upper section shall return to heating operation while the lower section contin defrost. Active Artificial Intelligence The outdoor unit shall feature Active Artificial Intelligence (AI) shall monitor environmental a system operational data and use Deep Neural Network algorithms to provide optimal syster performance and reliability. Active Artificial Intelligence (AI) shall be used to optimize high pressure control, low pressur control, defrost cycle activation and operation, and low refrigerant detection. The outdoor unit shall use Active Artificial Intelligence (AI) to monitor system refrigerant vole in real-time while in cooling mode to detect possible leaks or low refrigerant charge and pro an error code before system shutdown (conditions apply). Controls The outdoor unit shall have a removable EEPROM that stores unit serial number, startup information, system settings, system tag/name, and other information. Control wiring shall be 16 AWG X 2 shielded wire. Other Features Inverter PCB cooling shall be done with liquid refrigerant and air to maintain optimal and sal operating temperatures. The system shall feature advanced oil recovery cycle logic (maximum duration in cool mode minutes, maximum duration in heat mode: 6 minutes, defrost cycles lasting over 3 minutes I considered oil recovery cycles). Oil recovery operation shall not interrupt heating or cooling operation. The outdoor unit shall feature optional night quiet modes to reduce outdoor unit sound (4 le, with automatic activation or manual activation (with MIM-1314 accessory). The outdoor unit shall feature advanced intelligent defrost logic to significantly reduce defro cycle frequency by monitoring air resistance across the condenser coil during heating open determine defrost operation initiation to prevent unnecessary defrost cycles. The outdoor unit shall feature optional snow blowing logic to prevent snow accumulation on outdoor units The outdoor unit shall feature maximum current control settings to limit current (50%-100 design current) adjustable at outdoor unit, supported central controls, and supported indoor wired controllers. The outdoor unit shall feature energy savings options to reduce system energy consumptiol average indoor room temperatures are greater than average indoor set temperatures in hea mode or when average indoor room temperatures are lower than average indoor set tempe in cooling mode. C('_ 1 Packet Pg. 226 Intertek © 2022 Samsung HVAC SHA-DVMS-05232022A www.SamsungHVAC.com SAMSUNG SUBMITTAL AM144BXVGJR/AA Pa eIof2 Samsung, DVM 2 8 c S2 Series, Heat Recovery Condensin Dimensional Drawing Section B-B 000®r Door 000 000@ 000 000 000 E00 21 15/16" 30 1/8" SIIMSUNG §071 ■■ Mom u� 11 1=111i 0 Notes 1. Detail A and SECTION B-B indicate the dimensions after connecting piping 2. View C indicates knockout hole dimensions (bottom) No. Description Remark 1 Gas refrigerant pipe High pressure gas refrigerant pipe 1 1/8" 2 7/8" 3 Liquid refrigerant pipe 1/2" 4 Power conduit knockout 1 3/4" 5 Communication wire knockout 1 3/8" 6 Knockout for refrigerant piping Bottom 7 Knockout for refrigerant piping Front View C 3 3/8" 7 9/16" N� v M M I 4 - 7/4" X 3/8" Foundation hole pitch Detail A (Scale 1:2) 1 2 OO OO EIT] 000 aoo aoo aoo 000 aoo EIDE]11 m 0 0 �m � ft7 3/8" v C _ I 0 LL Foundation hole detail www.SamsungHVAC.com Page 1 Packet Pg. 227 sn M S U N G SUBMITTAL AM456BXVGJR/AA Pa e 1 of4 Samsung, DVM S2 Series, Heat Recovery Condensin 2 8 c Job Name Location Purchaser Submitted to Unit Designation System Specifications Engineer Reference Approval 0 Construction 0 Schedule # System Modules Connected Module 1 AM120BXVGJR/AA Module 2 AM144BXVGJR/AA Module 3 AM192BXVGJR/AA US Ton (nominal) 38 Nominal / Rated Cooling 456,000 / 436,000 Capacity (Btu/h) Nominal / Rated Heating 513,000 / 488,000 Performance EER Ducted / Mixed / Non -Ducted 9.50 / 9.50 / 9.50 IEER Ducted / Mixed / Non -Ducted 19.80 / 19.90 / 20.00 SCHE Ducted / Mixed / Non -Ducted 19.50 / 20.90 / 22.30 High Heat COP Ducted / Mixed / Non -Ducted 3.20 / 3.20 / 3.20 Voltage (o/V/Hz) 3 / 460 / 60 Power Maximum Circuit Breaker (MCCB/ELB/ELCB) 25 + 35 + 40 Minimum Circuit Ampacity (MCA) 19.4 + 26.2 + 34.0 Indoor Units Total Capacity N 50 - 184% Of outdoor unit capacity 2 Maximum Indoor Unit Quantity 64 Refrigerant R410A Factory Charge (Ibs.) 68.3 Pipe Connections Liquid X Suction X HP Gas (inches) 3/4 X 1 5/8 X 1 3/8 Max. Length - ODU to Farthest IDU (feet) 656 (722 equivalent) Refrigerant Pipe Limitations s Max. Vertical Separation ODU to IDU (feet) ° 361 Highest/Lowest IDU (feet) 131 Max. Total Refrigerant Pipe Length (feet) 3,280 Sound Level dB (A) Max. 65 Operating Cooling s °F (°C) 5 -122 (-15 - 50) Temperatures Heating 'F (*C) -22 - 75 (-30 - 24) Safety Certifications ETL & ETLc Intelligent logic to ensure proper operation within unit design limitations and operational parameters. Protection Devices High pressure sensor, low pressure sensor, over -voltage protection, compressor over -current protection, current transformer, fan motor voltage protection, fan motor thermal protection, overheat protection, phase detection protection, high voltage Accessories Qty. Model Number Description 1 MXJ-TA3819M Outdoor unit tee (liquid and suction fittings, 5 461,000 Btu/h ) 1 MXJ-TA4422M Outdoor unit tee (liquid and suction fittings, t 478,400 Btu/h) 1 MXJ-TA3100M Outdoor unit tee (HP gas fitting, 5 461,000 Btu/h) 1 MXJ-TA3800M Outdoor Unit Tee (HP gas fitting, z 478,400 Btu/h) WHG-T2-B Top wind/hail guard (8 - 14 ton outdoor units) WHG-T3-B Top wind/hail guard (16 - 20 ton outdoor units) WHG-SL-B Left side wind/hail guard WHG-SR-B Right side wind/hail guard WHG-R1-B Rear wind/hail guard for 6, 16 - 20 ton units (2 required for 16 - 20 ton units) WHG-R2-B Rear wind/hail guard for 8 - 14 ton units WHG-F1-B Front wind/hail guard for 8 - 14 ton outdoor units LACH-2-KIT-B Low ambient cooling hood and side guards (medium chassis, 2 required) LACH-3-KIT-B Low ambient cooling hood and side guards (large chassis, 1 required) BPHK-460V-2 Base an heater kit (base pan pan heater and control box, 2 required) BPHK-460V-3 Base pan heater kit (base pan pan heater and control box, 1 required) MIM-614 External contact control interface module for operation and error output and night silent mode manual activation (1 required) Certified in accordance with the AHRI Variable Refrigerant Flow Multi -Split Air -Conditioners and Heat Pump (VRF) Certification Program which is based on the latest edition of AHRI Standard 1230. 2 Restrictions apply. Refer to DVM S2 technical data books for full details. 3 Other pipe restrictions and requirements exist. Please consult technical data book or installation manuals for full details regarding limitations and other requirements. ° When the outdoor unit is lower than indoor units, and vertical separation is greater than 131 feet, additional conditions apply. When the outdoor unit is higher than the indoor units, and vertical separation is greater than 163 feet, additional conditions apply. Please refer to supporting documents at www.SamsungHVAC.com. s Cooling operation range is 23-1227 (-5 - 50°C) as standard. When in Main Heating, cooling operation down to 57 (-15"C) outdoor temperature is possible with modified pipe design for indoor units that require cooling. Cooling or Main cooling is possible down to -13"F (-25"C) when using a low ambient cooling kit (LACH-`-KIT-B). Consult technical documents or Samsung HVAC for details. Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. Compatibility DVM S indoor units (AM****N****/AA, ACL-***NN), AHU Kits (MXD-K***AN), Universal Communication Kits (MCM-13211 UN), and Hydro Units (AM****NB***/AA). Construction The outdoor units shall be galvanized steel with a baked on powder coated finish. Refrigerant System The Heat Recovery system shall allow simultaneous heating and cooling (conditions apply, to technical data book for more information). Mode Control Units (MCU) are required for proper operation. Indoor units that will only ope cooling mode year-round (cooling -only) may be piped directly to the liquid and suction pipe: bypassing MCU connection. Please consult Technical Data Books and supporting technics documents for compatible MCU models and details. The compressors shall be hermetically sealed, inverter driven, direct flash injected, DC scrc with soft -start capability manufactured by Samsung. The compressor(s) shall feature an asymmetrical scroll design with rotating compressor operation/priority (where applicable). I injected compressors provide advanced low ambient heating performance. The system shall have subcooling devices to maintain capacity at extreme system refrigera lengths and to minimize refrigerant noise. The system shall allow a reduction of the main liquid refrigerant pipe (outdoor unit to first ur joint) by one diameter reducing total system refrigerant volume and pipe and insulation cost lengths and vertical separation are within the reduced pipe diameter guidelines. Refer to supporting documents for complete guideline details. Optional rotational defrost capability to provide heating while performing defrost operation Heat Exchanger The heat exchanger shall be mechanically bonded fin to copper tube. The aluminum fins of heat exchanger shall have a protective coating. Salt spray test method: ASTM-13117-18 - The heat exchanger showed no unusual rust or corrosion development to 3,000 hours. The heat exchanger shall consist of two separate circuits to enhance the heat pump defrost The units shall use the entire coil initially for the defrost cycle. To resume heating faster in extreme conditions, the upper section shall return to heating operation while the lower secti continues to defrost. Active Artificial Intelligence The outdoor units shall feature Active Artificial Intelligence (AI) shall monitor environmental system operational data and use Deep Neural Network algorithms to provide optimal syster performance and reliability. Active Artificial Intelligence (AI) shall be used to optimize high pressure control, low pressur control, defrost cycle activation and operation, and low refrigerant detection. The outdoor unit shall use Active Artificial Intelligence (AI) to monitor system refrigerant vol in real-time while in cooling mode to detect possible leaks or low refrigerant charge and prc an error code before system shutdown (conditions apply). Controls The outdoor units shall have a removable EEPROM that stores unit serial number, startup information, system settings, system tag/name, and other information. Control wiring shall be 16 AWG X 2 shielded wire. Other Features Inverter PCB cooling shall be done with liquid refrigerant and air to maintain optimal and sa operating temperatures. The system shall feature advanced oil recovery cycle logic (maximum duration in cool mod( minutes, maximum duration in heat mode: 6 minutes, defrost cycles lasting over 3 minutes considered oil recovery cycles). Oil recovery operation shall not interrupt heating or cooling operation. The outdoor units shall feature optional night quiet modes to reduce outdoor unit sound (4 I with automatic activation or manual activation (with MIM-1314 accessory). The outdoor units shall feature advanced intelligent defrost logic to significantly reduce defr cycle frequency by monitoring air resistance across the condenser coil during heating open determine defrost operation initiation to prevent unnecessary defrost cycles. The outdoor units shall feature optional snow blowing logic to prevent snow accumulation o outdoor units The outdoor units shall feature maximum current control settings to limit current (50% - 100 design current) adjustable at outdoor unit, supported central controls, and supported indoor wired controllers. The outdoor units shall feature energy savings options to reduce system energy consumptii when average indoor room temperatures are greater than average indoor set temperatures heating mode or when average indoor room temperatures are lower than average indoor se temperatures in cooling mode. © 2022 Samsung HVAC SHA-DVMS-05232022A www.SamsungHVAC.com 4�0 goffl 1 Packet Pg.n Intertek S n M S U N G SUBMITTAL AM456BXVGJR/AA Pa e 2 of4 Samsung, DVM S2 Series, Heat Recovery Condensin 2 8 c Module Specifications Module Model Number AM120BXVGJR/AA AM144BXVGJR/AA AM192BXVGJRIAA .-. US Ton (nominal) 10 12 16 r.+ 'a Performance Nominal 120,000 144,000 192,000 a Nominal 135,000 162,000 Capacity (Btu/h)' 216,000 N Voltage (o/V/Hz) 3 / 460 / 60 3 / 460 / 60 3 / 460 / 60 i Maximum Circuit Breaker (MCCB/ELB/ELCB) 25 35 40 0 Power2 Minimum Circuit Ampacity (MCA) 19.4 26.2 34.0 4' C SCCR kA 5 5 5 4) Type X Qty. Inverter Scroll X 2 Inverter Scroll X 2 Inverter Scroll X 2 }' N Compressor RLA A 6.6 9.6 13 Compresssor Modulation Range 5 - 100% 5 - 100% 6 - 100% C Refrigerant R410A Factory Charge lbs. 17.6 23.1 27.6 L. y Pipe Connections Liquid X Suction X HP Gas Inches 1/2 X 1 1/8 X 3/4 1/2 X 1 1/8 X 7/8 5/8 X 1 1/8 X 1 1/8 r.+ = d V Type X Qty. Propeller X 2 Propeller X 2 Propeller X 2 Fan 12,855 p Output(CFM) 9,924 10,171 Type DC DC DC i Condenser Fan Output (W) 620 X 2 620 X 2 Motor 630 X 2 FLA (A) 2.1 (each) 2.1 (each) 2.3 (each) Max. External Static Pressure In. WC 0.43 0.43 0.31 N W X H X D Inches 51 X 66 3/4 X 30 1/8 51 X 66 3/4 X 30 1 /8 73 1 /4 X 66 3/4 X 30 1/8 v Dimensions Weight lbs. 584.2 626.1 848.8 = lC Shipping Weight lbs. 621.7 663.6 906.5 tL Sound Level dB (A) Max. 57 60 63 c ) Certified in accordance with the AHRI Variable Refrigerant Flow Multi -Split Air -Conditioners and Heat Pump (VRF) Certification Program which is based on the latest edition of AHRI Standard 1230. N z Each condensing unit requires a separate electrical connection with overcurrent protection. O r Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. Iq N I O Q d a c� it C d V O U) L d a d c.i C L LL to C O E W O A r_r 0 r-� C O E t t) M a Page 1 I Packet Pg. 229 www.SamsungHVAC.com ISAMSUNG SUBMITTAL AM456BXVGJR/AA Pa e3of4 Samsung, DVM S2 Series, Heat Recovery Condensin 2•8 c AM120BXVGJR/AA, AM144BXVGJR/AA Dimensional Drawing Section B-B 000 000 000 000 000 000 000 000 21 15/16" 30 1 /8" A N 4 5/161 U U SIIMSUNG � r�tr+Rall�l�ll■ �s,�IIWI� IN Ir��rillllllllllllllll■I�I�willll��>di Notes 1. Detail A and SECTION B-B indicate the dimensions after connecting piping 2. View C indicates the knockout hole dimensions (bottom) 3. Refrigerant pipe diameters Model Number Liquid Suction H.P. Gas AM120BXVGJR/AA 1/2" 11/8" 3/4" AM144BXVGJR/AA 1/2" 11/8" 7/8" No. Description Remark 1 Gas refrigerant pipe See note 3 2 Liquid refrigerant pipe See note 3 3 H.P refrigerant pipe See note 4 4 Power conduit knockout 1 3/4" 5 Communication wire knockout 1 3/8" 6 Knockout for refrigerant piping Bottom 7 Knockout for refrigerant piping Front owe Detail A (Scale 1:2) 1 2 3 111111 OOO EIE]EI 000 EIE]EI aoo 000 DDE] 1 c View C 3 3/8" 7 9/16" - 4 - 7/4" X 3/8" Foundation bolt holes) N M 0 0 0 0) M O 0 0 0 00 0 0 � 3" 0 00 0 6 • 0 0 0 `14 m ft7 3/8" 0 o 0 0 0 C i �---- Foundation hole detail 45 1/2" Foundation hole pitch Page 1 Packet Pg. KO www.SamsungHVAC.com SAMSUNG SUBMITTAL AM456BXVGJR/AA Pa e4of4 E. Samsung, DVM S2 Series, Heat Recovery Condensin AM192BXVGJR/AA Dimensional Drawing Section B-B pt 000r 000 1 000 0009 000 000 0000 000 21 15/16" 30 1/8" 4 5/16' snmsuruc snmsuNc M1 o. ��E-10 3/8" Notes 1. Detail A and SECTION B-B indicate the dimensions after connecting piping 2. View C indicates knockout hole dimensions (bottom) No. Description Remark 1 Gas refrigerant pipe 1 1/8" 2 High pressure gas refrigerant pipe 1 1/8" 3 Liquid refrigerant pipe 5/8" 4 Power conduit knockout 1 3/4" 5 Communication wire knockout 1 3/8" 6 Knockout for refrigerant piping Bottom 7 Knockout for refrigerant piping Front View C Foundation hole pitch Detail A a jo 2 3 R v co m CD ' 4" X 3/8" idation bolt holes) L U 'a m O 3/8" '0 ttQ 3/8" C L° Foundation hole detail www.SamsungHVAC.com Page 1 Packet Pg. 231 s n M S U N G SUBMITTAL AM072BXVGJR/AA Pa e 1 oft Samsung, DVM S2 Series, Heat Recovery Condensin 2 8 c Job Name Location Purchaser Submitted to Unit Designation Engineer Reference Approval 0 Construction 0 Schedule # US Ton (nominal) 6 Capacity (Btu/h) Nominal / Rated Cooling 72,000 / 69,000 Nominal / Rated Heating 81,000 / 77,000 Performance EER Ducted / Mixed / Non -Ducted 11.50 / 12.52 / 13.55 IEER Ducted / Mixed / Non -Ducted 24.20 / 29.40 / 34.60 SCHE Ducted / Mixed / Non -Ducted 26.40 / 27.50 / 28.60 Heat COP I Ducted / Mixed / Non -Ducted 1 3.80 / 3.95 / 4.11 Voltage (oN/Hz) 3 / 460 / 60 Power Maximum Circuit Breaker (MCCB/ELB/ELCB) 20 Minimum Circuit Ampacity (MCA) 15.0 SCCR kA 5 Indoor Units Total Capacity (%) 50 - 164 % Of outdoor unit capacity' Maximum Indoor Unit Quantity 12 Type X city. Inverter Scroll X 1 Compressor RLA (A) 10.0 Compressor Modulation Range 9 - 100% Refrigerant R410A Factory Charge (lbs.) 13.7 Pipe Connections Liquid X Suction X HP Gas (inches) 3/8 X 3/4 X 5/8 Max. Length - ODU to Farthest IDU (feet) 656 (722 equivalent) Refrigerant Pipe Limitations 3 Max. Vertical Separation ODU to IDU (feet) 4 361 Highest/Lowest IDU (feet) 131 Max. Total Refrigerant Pipe Length (feet) 3,280 Fan Type X city. Propeller X 1 Output (CFM) 5,580 Condenser Fan Motor Type DC Output (W) 630 X 1 FLA (A) 2.3 Max. External Static Pressure (in. WC) 0.43 W X H X D Inches 36 5/8 X 66 3/4 X 30 1/8 Dimensions Weight lbs. 410.1 Shipping Weight lbs. 440.9 Sound Level dB (A) Max. 54 Operating Cooling 5 'F (°C) 5 -122 (-15 - 50) Temperatures Heating 'F (°C) -22 - 75 (-30 - 24) Safety Certifications ETL & ETLc Intelligent logic to ensure proper operation within unit design limitations and Protection Devices High pressure sensor, low pressure sensor, over -voltage protection, compressor over -current protection, current transformer, fan motor voltage protection, fan motor thermal protection, overheat protection, phase detection protection, high voltage fuses Qty. Model Number Description WHG-TI-B Top wind/hail guard (6 ton outdoor units) WHG-SL-B Left side wind/hail guard WHG-SR-B Right side wind/hail guard WHG-RI-B Rear wind/hail guard for 6, 16 - 20 ton units (2 required for 16 - 20 ton units) LACH-I-KIT-B Low ambient cooling hood and side guards (small chassis, 1 required) BPHK-460V-1 Base pan heater kit (base pan pan heater and control box, 1 required) MIM-1314 External contact control interface module for operation and error output and night silent mode manual activation (1 required) Certified in accordance with the AHRI Variable Refrigerant Flow Multi -Split Air -Conditioners and Heat Pump (VRF) Certification Program which is based on the latest edition of AHRI Standard 1230. 2 Restrictions apply. Refer to DVM S2 technical data books for full details. a Other pipe restrictions and requirements exist. Please consult technical data book or installation manuals for full details regarding limitations and other requirements. 4 When the outdoor unit is lower than indoor units, and vertical separation is greater than 131 feet, additional conditions apply. When the outdoor unit is higher than the indoor units, and vertical separation is greater than 163 feet, additional conditions apply. Please refer to supporting documents at www.SamsungHVAC.com. s Cooling operation range is 23-122T (-5 - 50°C) as standard. When in Main Heating, cooling operation down to 5"F (-15°C) outdoor temperature is possible with modified pipe design for indoor units that require cooling. Cooling or Main cooling is possible down to -130F (-25°C) when using a low ambient cooling kit (LACH -KIT-B). Consult technical documents or Samsung HVAC for details. Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. Compatibility DVM S indoor units (AM****N****/AA, ACL-***NN), AHU Kits (MXD-K***AN), Universal Communication Kits (MCM-D211 UN), and Hydro Units (AM****NB***/AA). Construction The outdoor unit shall be galvanized steel with a baked on powder coated finish. Refrigerant System The Heat Recovery system shall allow simultaneous heating and cooling (conditions apply, to technical data book for more information). Mode Control Units (MCU) are required for proper operation. Indoor units that will only opei cooling mode year-round (cooling -only) may be piped directly to the liquid and suction pipe: bypassing MCU connection. Please consult Technical Data Books and supporting technics documents for compatible MCU models and details. The compressor shall be hermetically sealed, inverter driven, direct flash injected, DC scroll with soft -start capability manufactured by Samsung. Flash injected compressors provide advanced low ambient heating performance. The compressor shall feature an asymmetrica design. The system shall have subcooling devices to maintain capacity at extreme system refrigerai lengths and to minimize refrigerant noise. Heat Exchanger The heat exchanger shall be mechanically bonded fin to copper tube. The aluminum fins of heat exchanger shall have a protective coating. Salt spray test method: ASTM-13117-18 - The heat exchanger showed no unusual rust or corrosion development to 3,000 hours. The heat exchanger shall consist of two separate circuits to enhance the heat pump defrost The unit shall use the entire coil initially for the defrost cycle. To resume heating faster in e: conditions, the upper section shall return to heating operation while the lower section contin defrost. Active Artificial Intelligence The outdoor unit shall feature Active Artificial Intelligence (AI) shall monitor environmental a system operational data and use Deep Neural Network algorithms to provide optimal syster performance and reliability. Active Artificial Intelligence (AI) shall be used to optimize high pressure control, low pressur control, defrost cycle activation and operation, and low refrigerant detection. The outdoor unit shall use Active Artificial Intelligence (AI) to monitor system refrigerant vole in real-time while in cooling mode to detect possible leaks or low refrigerant charge and pro an error code before system shutdown (conditions apply). Controls The outdoor unit shall have a removable EEPROM that stores unit serial number, startup information, system settings, system tag/name, and other information. Control wiring shall be 16 AWG X 2 shielded wire. Other Features Inverter PCB cooling shall be done with liquid refrigerant and air to maintain optimal and sai operating temperatures. The system shall feature advanced oil recovery cycle logic (maximum duration in cool mode minutes, maximum duration in heat mode: 6 minutes, defrost cycles lasting over 3 minutes; considered oil recovery cycles). Oil recovery operation shall not interrupt heating or cooling operation. The outdoor unit shall feature optional night quiet modes to reduce outdoor unit sound (4 le, with automatic activation or manual activation (with MIM-1314 accessory). The outdoor unit shall feature advanced intelligent defrost logic to significantly reduce defro: cycle frequency by monitoring air resistance across the condenser coil during heating opera determine defrost operation initiation to prevent unnecessary defrost cycles. The outdoor unit shall feature optional snow blowing logic to prevent snow accumulation on outdoor units The outdoor unit shall feature maximum current control settings to limit current (50%- 100% design current) adjustable at outdoor unit, supported central controls, and supported indoor wired controllers. The outdoor unit shall feature energy savings options to reduce system energy consumptiol average indoor room temperatures are greater than average indoor set temperatures in has mode or when average indoor room temperatures are lower than average indoor set temper in cooling mode. © 2022 Samsung HVAC SHA-DVMS-05232022A www.SamsungHVAC.com 1 c u Packet Pg.•232 Intertek Sn M S U N G SUBMITTAL AM072BXVGJR/AA Pa e 2 of 2 Samsung, DVM S2 Series, Heat Recovery Condensin Dimensional Drawing Section B-B Detail A ❑0❑ u 000 0009 000 000 000 DEII 21 15/16" TL Notes 1. Detail A and SECTION B-B indicate the dimensions after connecting piping 2. View C indicates knockout hole dimensions (bottom) No. Descriptio Remark 1 Gas refrigerant pipe 3/4" 2 High pressure gas refrigerant pipe 5/8" 3 Liquid refrigerant pipe 3/8" 4 Power conduit knockout Communication wire knockout 1 3/4" 5 1 3/8" 6 Knockout for refrigerant piping Bottom 7 Knockout for refrigerant piping Front N 4 5/16' View C 81/16" 215/16" 27 11/16" 36 5/8" I C 4 - 7/4" X 3/8" 7 9/16 [Foundation bolt holes) DO EIE]E] Oooa ooa ooa @ooa ooa 000 @00EI a-Lr ---------------- I -. e o ow v 0 0 Cl)0 a "' 0 a)_ o o 0 0 0 0. ® 0 3/8" N 0 0 0 -0 D 3/8" 0 ° OLL----� Foundation hole detail 31 1/8" Foundation hole pitch www.SamsungHVAC.com Page 1 Packet Pg. 233 sn M S U N G SUBMITTAL AM216BXVGJR/AA Pa e 1 oft Samsung, DVM S2 Series, Heat Recovery Condensin 2 8 c Job Name Location Purchaser Submitted to Unit Designation Engineer Reference Approval 0 Construction 0 Schedule # US Ton (nominal) 18 Capacity (Btu/h) Nominal / Rated Cooling 216,000 / 206,000 Nominal / Rated Heating 243,000 / 232,000 Performance EER Ducted / Mixed / Non -Ducted 10.90 / 11.05 / 11.20 IEER Ducted / Mixed / Non -Ducted 23.70 / 24.25 / 24.80 SCHE Ducted / Mixed / Non -Ducted 23.90 / 25.15 / 26.40 Heat COP I Ducted / Mixed / Non -Ducted 1 3.45 / 3.49 / 3.53 Voltage (oN/Hz) 3 / 460 / 60 Power Maximum Circuit Breaker (MCCB/ELB/ELCB) 50 Minimum Circuit Ampacity (MCA) 38.0 SCCR kA 5 Indoor Units Total Capacity (%) 50 - 184 % Of outdoor unit capacity' Maximum Indoor Unit Quantity 37 Type X City. Inverter Scroll X 2 Compressor RLA (A) 14.8 Compressor Modulation Range 6 - 100% Refrigerant R410A Factory Charge (lbs.) 34.2 Pipe connections Liquid X Suction X HP Gas (inches) 5/8 X 1 1/8 X 1 1/8 Max. Length - ODU to Farthest IDU (feet) 656 (722 equivalent) Refrigerant Pipe Limitations 3 Max. Vertical Separation ODU to IDU (feet) 4 361 Highest/Lowest IDU (feet) 131 Max. Total Refrigerant Pipe Length (feet) 3,280 Fan Type X City. Propeller X 2 Output (CFM) 13,314 Condenser Fan Motor Type DC Output (W) 630 X 2 FLA (A) 2.3 (each) Max. External Static Pressure (in. WC) 0.31 W X H X D Inches 73 1/4 X 66 3/4 X 30 1/8 Dimensions Weight lbs. 868.6 Shipping Weight lbs. 926.4 Sound Level dB (A) Max. 64 Operating Cooling 5 -F (°C) 5 -122 (-15 - 50) Temperatures Heating 'F (°C) -22 - 75 (-30 - 24) Safety Certifications ETL & ETLc, Intelligent logic to ensure proper operation within unit design limitations and Protection Devices High pressure sensor, low pressure sensor, over -voltage protection, compressor over -current protection, current transformer, fan motor voltage protection, fan motor thermal protection, overheat protection, phase detection protection, high voltage Qty. Model Number Description WHG-T3-B Top wind/hail guard (16 - 20 ton outdoor units) WHG-SL-B Left side wind/hail guard WHG-SR-B Right side wind/hail guard WHG-RI-B Rear wind/hail guard for 6, 16 - 20 ton units (2 required for 16 - 20 ton units) LACH-3-KIT-B Low ambient cooling hood and side guards (large chassis, 1 required) BPHK-460V-3 Base pan heater kit (base pan pan heater and control box, 1 required) MIM-1314 External contact control interface module for operation and error output and night silent mode manual activation (1 required) Certified in accordance with the AHRI Variable Refrigerant Flow Multi -Split Air -Conditioners and Heat Pump (VRF) Certification Program which is based on the latest edition of AHRI Standard 1230. 2 Restrictions apply. Refer to DVM S2 technical data books for full details. a Other pipe restrictions and requirements exist. Please consult technical data book or installation manuals for full details regarding limitations and other requirements. 4 When the outdoor unit is lower than indoor units, and vertical separation is greater than 131 feet, additional conditions apply. When the outdoor unit is higher than the indoor units, and vertical separation is greater than 163 feet, additional conditions apply. Please refer to supporting documents at www.SamsungHVAC.com. s Cooling operation range is 23-122T (-5 - 50"C) as standard. When in Main Heating, cooling operation down to 5'F (-15°C) outdoor temperature is possible with modified pipe design for indoor units that require cooling. Cooling or Main cooling is possible down to -130F (-25°C) when using a low ambient cooling kit (LACH -KIT-B). Consult technical documents or Samsung HVAC for details. Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. Compatibility DVM S indoor units (AM****N****/AA, ACL-***NN), AHU Kits (MXD-K***AN), Universal Communication Kits (MCM-D211 UN), and Hydro Units (AM****NB***/AA). Construction The unit shall be galvanized steel with a baked on powder coated finish. Refrigerant System The Heat Recovery system shall allow simultaneous heating and cooling (conditions apply, to technical data book for more information). Mode Control Units (MCU) are required for proper operation. Indoor units that will only ope cooling mode year-round (cooling -only) may be piped directly to the liquid and suction pipe: bypassing MCU connection. Please consult Technical Data Books and supporting technics documents for compatible MCU models and details. The compressors shall be hermetically sealed, inverter driven, direct flash injected, DC scrc with soft -start capability manufactured by Samsung. The compressor(s) shall feature an asymmetrical scroll design with rotating compressor operation/priority (where applicable). F injected compressors provide advanced low ambient heating performance. The system shall have subcooling devices to maintain capacity at extreme system refrigera lengths and to minimize refrigerant noise. The system shall allow a reduction of the main liquid refrigerant pipe (outdoor unit to first ur joint) by one diameter reducing total system refrigerant volume and pipe and insulation cost lengths and vertical separation are within the reduced pipe diameter guidelines. Refer to supporting documents for complete guideline details. Heat Exchanger The heat exchanger shall be mechanically bonded fin to copper tube. The aluminum fins of heat exchanger shall have a protective coating. Salt spray test method: ASTM-13117-18 - The heat exchanger showed no unusual rust or corrosion development to 3,000 hours. The heat exchanger shall consist of two separate circuits to enhance the heat pump defrost The unit shall use the entire coil initially for the defrost cycle. To resume heating faster in e: conditions, the upper section shall return to heating operation while the lower section contin defrost. Active Artificial Intelligence The outdoor unit shall feature Active Artificial Intelligence (AI) shall monitor environmental a system operational data and use Deep Neural Network algorithms to provide optimal syster performance and reliability. Active Artificial Intelligence (AI) shall be used to optimize high pressure control, low pressur control, defrost cycle activation and operation, and low refrigerant detection. The outdoor unit shall use Active Artificial Intelligence (AI) to monitor system refrigerant vol in real-time while in cooling mode to detect possible leaks or low refrigerant charge and prc an error code before system shutdown (conditions apply). Controls The outdoor unit shall have a removable EEPROM that stores unit serial number, startup information, system settings, system tag/name, and other information. Control wiring shall be 16 AWG X 2 shielded wire. Other Features Inverter PCB cooling shall be done with liquid refrigerant and air to maintain optimal and sal operating temperatures. The system shall feature advanced oil recovery cycle logic (maximum duration in cool mode minutes, maximum duration in heat mode: 6 minutes, defrost cycles lasting over 3 minutes considered oil recovery cycles). Oil recovery operation shall not interrupt heating or cooling operation. The outdoor unit shall feature optional night quiet modes to reduce outdoor unit sound (4 le with automatic activation or manual activation (with MIM-1314 accessory). The outdoor unit shall feature advanced intelligent defrost logic to significantly reduce defro cycle frequency by monitoring air resistance across the condenser coil during heating opera determine defrost operation initiation to prevent unnecessary defrost cycles. The outdoor unit shall feature optional snow blowing logic to prevent snow accumulation on outdoor units The outdoor unit shall feature maximum current control settings to limit current (50%- 100i design current) adjustable at outdoor unit, supported central controls, and supported indoor wired controllers. The outdoor unit shall feature energy savings options to reduce system energy consumptiol average indoor room temperatures are greater than average indoor set temperatures in hea mode or when average indoor room temperatures are lower than average indoor set tempe in cooling mode. © 2022 Samsung HVAC SHA-DVMS-05232022A www.SamsungHVAC.com c-,1 Packet Pg. 234 Intertek SAMSUNG SUBMITTAL AM216BXVGJR/AA Pa e 2 of 2 Samsung, DVM 2.8.c S2 Series, Heat Recovery Condensin Dimensional Drawing Section B-B 7 E10�r E:1E1E1 I E:1E1E1 E:IEIEI@ E:1E1E1 E:1E1E1 E:IEIE]e OE1E1 21 15/16" 30 1/8" t[ rn 4 5/16' snmsurucSEEN&nmsuNc l��:�lllltlllil�ir�l Ir��Nillr lil�i�� Notes View C 1. Detail A and SECTION B-B indicate the 3 3/8" 7 9/1 dimensions after connecting piping 2. View C indicates knockout hole dimensions (bottom) o. Descriptio Remark 1 Gas refrigerant pipe High pressure gas refrigerant pipe 1 1/8" 1 1/8" 2 3 Liquid refrigerant pipe 5/8" 4 Power conduit knockout 1 3/4" 5 Communication wire knockout 1 3/8" 6 Knockout for refrigerant piping Bottom 7 Knockout for refrigerant piping Front 1 C 30 7/8" 5 7/8" Foundation hole pitch Detail A R 1 2 31 R 8 - 7/4" X 3/8" Foundation bolt holes) z 0 0�o w a� O� 0 0 t 3/8" � M C • N o N 3/8" c t�Q 0 c 01 ii Foundation hole detail 10 7/8" www.SamsungHVAC.com Page 1 Packet Pg. 5 sn M S U N G SUBMITTAL AM096BXVGJR/AA Pa e 1 oft Samsung, DVM S2 Series, Heat Recovery Condensin 2 8 c Job Name Location Purchaser Submitted to Unit Designation Engineer Reference Approval 0 Construction 0 Schedule # US Ton (nominal) 8 Capacity (Btu/h) Nominal / Rated Cooling 96,000 / 92,000 Nominal / Rated Heating 108,000 / 103,000 Performance EER Ducted / Mixed / Non -Ducted 12.40 / 13.05 / 13.70 IEER Ducted / Mixed / Non -Ducted 25.10 / 30.05 / 35.00 SCHE Ducted / Mixed / Non -Ducted 27.20 / 29.65 / 32.10 Heat COP I Ducted / Mixed / Non -Ducted 1 3.83 / 4.01 / 4.20 Voltage (oN/Hz) 3 / 460 / 60 Power Maximum Circuit Breaker (MCCB/ELB/ELCB) 20 Minimum Circuit Ampacity (MCA) 18.0 SCCR kA 5 Indoor Units Total Capacity (%) 50 - 184 % Of outdoor unit capacity' Maximum Indoor Unit Quantity 16 Type X City. Inverter Scroll X 2 Compressor RLA (A) 6.0 Compressor Modulation Range 5 - 100% Refrigerant R410A Factory Charge (lbs.) 17.6 Pipe Connections Liquid X Suction X HP Gas (inches) 3/8 X 7/8 X 3/4 Max. Length - ODU to Farthest IDU (feet) 656 (722 equivalent) Refrigerant Pipe Limitations 3 Max. Vertical Separation ODU to IDU (feet) 4 361 Highest/Lowest IDU (feet) 131 Max. Total Refrigerant Pipe Length (feet) 3,280 Fan Type X City. Propeller X 2 Output (CFM) 9,924 Condenser Fan Motor Type DC Output (W) 620 X 2 FLA (A) 2.1 (each) Max. External Static Pressure (in. WC) 0.43 W X H X D Inches 51 X 66 3/4 X 30 1 /8 Dimensions Weight lbs. 584.2 Shipping Weight lbs. 621.7 Sound Level dB (A) Max. 57 Operating ling Coo5 -F (°C) 5 -122 (-15 - 50) Temperatures Heating 'F (°C) -22 - 75 (-30 - 24) Safety Certifications ETL & ETLc Intelligent logic to ensure proper operation within unit design limitations and Protection Devices High pressure sensor, low pressure sensor, over -voltage protection, compressor over -current protection, current transformer, fan motor voltage protection, fan motor thermal protection, overheat protection, phase detection protection, high voltage Qty. Model Number Description WHG-T2-B Top wind/hail guard (8 - 14 ton outdoor units) WHG-SL-B Left side wind/hail guard WHG-SR-B Right side wind/hail guard WHG-R2-B Rear wind/hail guard for 8 - 14 ton units WHG-FI-B Front wind/hail guard for 8 - 14 ton outdoor units LACH-2-KIT-13 Low ambient cooling hood and side guards (medium chassis, 1 required) BPHK-460V-2 Base pan heater kit (base pan pan heater and control box, 1 required) MIM-1314 External contact control interface module for operation and error output and night silent mode manual activation (1 required) 1 Certified in accordance with the AHRI Variable Refrigerant Flow Multi -Split Air -Conditioners and Heat Pump (VRF) Certification Program which is based on the latest edition of AHRI Standard 1230. 2 Restrictions apply. Refer to DVM S2 technical data books for full details. a Other pipe restrictions and requirements exist. Please consult technical data book or installation manuals for full details regarding limitations and other requirements. 4 When the outdoor unit is lower than indoor units, and vertical separation is greater than 131 feet, additional conditions apply. When the outdoor unit is higher than the indoor units, and vertical separation is greater than 163 feet, additional conditions apply. Please refer to supporting documents at www.SamsungHVAC.com. s Cooling operation range is 23-122"F (-5 - 50"C) as standard. When in Main Heating, cooling operation down to 5"F (-15°C) outdoor temperature is possible with modified pipe design for indoor units that require cooling. Cooling or Main cooling is possible down to -137 (-25°C) when using a low ambient cooling kit (LACH -KIT-B). Consult technical documents or Samsung HVAC for details. Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. L_ _■■ Compatibility DVM S indoor units (AM****N****/AA, ACL-***NN), AHU Kits (MXD-K***AN), Universal Communication Kits (MCM-D21 1 UN), and Hydro Units (AM****NB***/AA). Construction The outdoor unit shall be galvanized steel with a baked on powder coated finish. Refrigerant System The Heat Recovery system shall allow simultaneous heating and cooling (conditions apply, to technical data book for more information). Mode Control Units (MCU) are required for proper operation. Indoor units that will only opei cooling mode year-round (cooling -only) may be piped directly to the liquid and suction pipe. bypassing MCU connection. Please consult Technical Data Books and supporting technica documents for compatible MCU models and details. The compressor shall be hermetically sealed, inverter driven, direct flash injected, DC scroll with soft -start capability manufactured by Samsung. Flash injected compressors provide advanced low ambient heating performance. The compressor shall feature an asymmetrica design. The system shall have subcooling devices to maintain capacity at extreme system refrigerai lengths and to minimize refrigerant noise. Heat Exchanger The heat exchanger shall be mechanically bonded fin to copper tube. The aluminum fins of heat exchanger shall have a protective coating. Salt spray test method: ASTM-13117-18 - The heat exchanger showed no unusual rust or corrosion development to 3,000 hours. The heat exchanger shall consist of two separate circuits to enhance the heat pump defrost The unit shall use the entire coil initially for the defrost cycle. To resume heating faster in e: conditions, the upper section shall return to heating operation while the lower section contin defrost. Active Artificial Intelligence The outdoor unit shall feature Active Artificial Intelligence (AI) shall monitor environmental a system operational data and use Deep Neural Network algorithms to provide optimal syster performance and reliability. Active Artificial Intelligence (AI) shall be used to optimize high pressure control, low pressur control, defrost cycle activation and operation, and low refrigerant detection. The outdoor unit shall use Active Artificial Intelligence (AI) to monitor system refrigerant vole in real-time while in cooling mode to detect possible leaks or low refrigerant charge and pro an error code before system shutdown (conditions apply). Controls The outdoor unit shall have a removable EEPROM that stores unit serial number, startup information, system settings, system tag/name, and other information. Control wiring shall be 16 AWG X 2 shielded wire. Other Features Inverter PCB cooling shall be done with liquid refrigerant and air to maintain optimal and sat operating temperatures. The system shall feature advanced oil recovery cycle logic (maximum duration in cool mode minutes, maximum duration in heat mode: 6 minutes, defrost cycles lasting over 3 minutes; considered oil recovery cycles). Oil recovery operation shall not interrupt heating or cooling operation. The outdoor unit shall feature optional night quiet modes to reduce outdoor unit sound (4 le, with automatic activation or manual activation (with MIM-614 accessory). The outdoor unit shall feature advanced intelligent defrost logic to significantly reduce defro: cycle frequency by monitoring air resistance across the condenser coil during heating opera determine defrost operation initiation to prevent unnecessary defrost cycles. The outdoor unit shall feature optional snow blowing logic to prevent snow accumulation on outdoor units The outdoor unit shall feature maximum current control settings to limit current (50 % - 100 design current) adjustable at outdoor unit, supported central controls, and supported indoor wired controllers. The outdoor unit shall feature energy savings options to reduce system energy consumptiol average indoor room temperatures are greater than average indoor set temperatures in hea mode or when average indoor room temperatures are lower than average indoor set temper in cooling mode. © 2022 Samsung HVAC SHA-DVMS-05232022A www.SamsungHVAC.com Packet Pg. 236 Intertek SAMSUNG SUBMITTAL AM096BXVGJR/AA Pa e 2 of 2 Samsung, DVM S2 Series, Heat Recovery Condensin E. Dimensional Drawing Section B-B 000®r Door 000 000@ 000 000 000 E00 21 15/16" 30 1/8" SIIMSUNG §071 ■■ Mom u� i��_�;r��ll�■l�i�r��lrr_>di 11 1=111i 0 Notes 1. Detail A and SECTION B-B indicate the dimensions after connecting piping 2. View C indicates knockout hole dimensions (bottom) No. Description Remark 1 Gas refrigerant pipe High pressure gas refrigerant pipe 7/8" 2 3/4" 3 Liquid refrigerant pipe 3/8" 4 Power conduit knockout 1 3/4" 5 Communication wire knockout 1 3/8" 6 Knockout for refrigerant piping Bottom 7 Knockout for refrigerant piping Front View C 3 3/8" 7 9/16" N� v M M I 4 - 7/4" X 3/8" Foundation hole pitch Detail A (Scale 1:2) 1 2 OO OO EIT] 000 aoo aoo aoo 000 aoo EIDE]11 m 0 0 �m � ft7 3/8" v C _ I 0 LL Foundation hole detail www.SamsungHVAC.com Page 1 Packet Pg. 237 s n M S u N G SUBMITTAL AC012BNLDCH/AA / AC012BXADCH/AA (CNH12LDB / CXH12/inR�l of`4 Samsung Slim Duct, Single Zone Duct, Split System 2•8•c Job Name Purchaser Submitted to Unit Designation Specifications Model Indoor Unit Wodel Number (US Code) AC012BNLDCH/AA (CNH12LDB) Outdoor Unit Model Number (US Code) AC012BXADCH/AA (CXHI2ADB) Nominal Capacity Cooling / Heating (Btu/h) 12,000 / 14,000 Capacity Range Cooling (Btu/h) 3,200 — 14,000 Heating (Btu/h) 3,000 — 17,000 Performance 1 SEER / EER 20.7 / 12.00 COP (nominal heating) 3.6 HSPF 10.8 AHRI Certification Number 207465443 Voltage o / V / Hz 1 / 208-230 / 60 Working Voltage Range (VAC) 176 - 254 (max. 3% deviation from each) Power Operating Current (min. / std. / max.) Cooling (A) 1.3 / 4.7 / 5.9 Heating (A) 1.1 / 5.1 / 9.3 Max. Breaker Amps 15 Min. Circuit Ampacity (A) 9.8 W X H X D (in.) Indoor Unit 35 7/16 X 7 13/16 X 17 5/16 Outdoor Unit 31 1/8 X 21 9/16 X 11 1/4 Dimensions Duct Connections (W X H) Supply (in.) 29 3/8 X 5 15/16 Return (ID, in.) 30 5/8 X 6 5/8 Weight (lbs.) Indoor Unit 41.7 Outdoor Unit 74.3 Sound Pressure Indoor Unit dB(A) L / M / H 27 / 31 / 34 Level Outdoor Unit dB(A) Cooling / Heating (high) 47 / 48 Operating Outdoor Cooling 23 — 122°F -5 — 50°C 0 — 122°F -18 — 50°C w/ baffle Heating -4 — 75°F -20 — 24°C Temperatures Indoor Cooling 61 — 90°F 16 — 32°C Heating T 15 80°F 27°C Indoor & Outdoor High side (flare) 1/4" Low side (flare) 3/8" Pipe Connections Maximum (ft.) 65.6 Maximum Vertical Separation (ft.) 49.2 Condensate Connection (with included adapter) 1 1/16" ID for 3/4" PVC Type R410A Control Method Electronic Expansion Valve Refrigerant Factory Charge lbs. 2.6 Charged for 24.6 ft Additional Refrigerant 0.11 oz/ft over 24.6 ft Manufacturer Samsung Compressor Type Inverter Driven, BLDC Rotary RLA Amps 6.0 Type BLDC (1) With Sirocco Fan (2) Air Volume CFM (UM/H) 300 / 353 / 399 (at standard ESP) Evaporator Fan Output (W) / FLA (A) 84 W / 1.06 A Static Pressure Standard ("WC) 0.10 Min. / Max. ("WC) 0.01 - 0.24 Condenser Fan Motor I BLDC With Axial Type Fan 1 FLA / Watts / CFM (max.) 1 0.42 A / 40 W / 1,060 CFM Certifications ETL (UL 1995) Safety Devices: PCB fuses, indoor unit terminal block thermal fuse, current transformer, over -voltage protection, crankcase heating, temperature limit protection logic, compressor overload sensing Certified in accordance with the AHRI Unitary Small Air -Source Heat Pumps (USHP) Certification Program which is based on the latest edition of AHRI Standard 210/240. Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. Refer to www.AHRidirectory.org for current reference numbers. Location Engineer Reference 0 Approval 0 Construction 0 Schedule # r �a 3 - fllMftlMe a It s NIT I Iiiiaw r•+ C O �+ N O General Information > • The outdoor unit shall supply power to indoor unit via 14 AWG X 3 power win S • High -voltage terminal block temperature sensor to disable unit in the event of L power connection overheating +O' • Integral condensate pump with maximum 29" lift from bottom of the unit with y check valve and float switch that disables indoor should condensate overflow () be detected. • Auto -restart after power loss O • Soft -start compressor minimizing current inrush i • All heat exchangers shall be mechanically bonded aluminum fin to copper tut 4) • The condensing unit heat exchanger salt spray test method: ASTM-B117-18 r heat exchanger showed no unusual rust or corrosion development to 500 hol a • Base pan heaters equipped as standard N O Option settings v • The outdoor unit shall have snow accumulation prevention option setting to M prevent snow drifting against an idle outdoor unit. L • Night-time Quiet Mode: reduction of operational sound during (automatic or ILL manual activation). M • Emergency Temperature Output (ETO) function: when indoor unit is in error: N or when room temperature exceeds configurable temperature level, the syste O outputs a signal to an external source, e.g., backup system, building manage r system, alert device (ex: status light, warning lamp, buzzer). Iq • System can be set up as heating/cooling, cooling only, or heating only via NI outdoor unit option setting. • Maximum Current Control configurable from 50% - 100% via outdoor unit, Q wired controller or central control d Indoor Fan a • Indoor fan is sirocco type (� • Three fan speed settings and auto setting —I • Washable filter as standard L O �.r Construction = N • Outdoor unit shall be galvanized steel with a baked -on powder coated finish f L) durability = • Indoor Unit: Insulated, galvanized steel. N L Controls d • Control wiring shall be 2 X 16 AWG wire = • No additional interface modules/adapters are required when connecting to a Samsung central control options. N • The unit shall be operated via a wireless or wired remote control with DDC ty v signal • Dual set temperature support when connected to MWR-WGOOUN Advanced M Wired Controller or central control options. IL .Wired or wireless controllers must be purchased separately I Refrigerant System . The compressor shall be hermetically sealed, inverter -controlled BLDC rotary O . Refrigerant flow shall be controlled by an electronic expansion valve at outdo -0 unit W w Warranty O 10 Years compressor, 10 years parts, 1 year limited labor when registered ATTENTION r•+ This air handling unit is intended for free -air discharge or for connection to a duct C supplying only one room. Improper installation could contribute to the spread of sl 4) or flame in the event of a fire. t v M a © 2022 Samsung HVAC SHA-CAC-01132022 www.SamsungHVAC.com S n M S u N G SUBMITTAL AC012BNLDCH/AA / AC012BXADCH/AA (CNH12LDB / CXH12 Page 2of4 Samsung Slim Duct, Single Zone Duct, Split System 2.8.c Optional Accessories Wired Controller Advanced 0 MWR-WGOOUN Touchscreen 0 MWR-SH11UN Thermostat Adaptor (for connection to a standard 24VAC thermostat) Q MIM-A60UN Wireless Signal Control Wireless Signal Receiver 0 MRK-A10N Wireless Controller 0 AR-EH04U Wi-Fi Adapter 0 MIM-H04UN External Temperature Sensor 0 MRW-TA Filter Box 0 FB-SLIM2 External Contact Control 0 MIM-B14 Wall Bracket (for outdoor unit) CKN-250 Wind Baffles Front 0 WBF-3M Back 0 WBB-5M Hail Guard 0 TBD Line Sets - insulated and flared, interconnect cables included 0 25' - ILS-2506 0 50' - ILS-5006 888-699-6067 www.SamsungHVAC.com Page 1 Packet Pg. 239 AMSUN SUBMITTAL AC012BNLDCH/AA / AC012BXADCH/AA (CNH12LDB / CXH12A�Rge3of4 Samsung Slim Duct, Single Zone Duct, Split System AC012BNLDCH/AA Dimensional Drawing 27 9/16" I No. Name Description Refrigerant Liquid Pipe 0 1/4" Refrigerant Gas Pipe 0 3/8" O Condensate Drain 3/4" (OD 1.05") ® Power& Comm. Wiring Conduits _ O Supply Air Flange _ © Return Air Flange _ Hook _ 888-699-6067 www.SamsungHVAC.com Page 1 Packet Pg. 240 S A M S U N G SUBMITTAL AC012BNLDCH/AA / AC012BXADCH/AA (CNH12LDB / CXH12 2.8.Pcle4°f4 Samsung Slim Duct, Single Zone Duct, Split System AC012BXADCH/AA Dimensional Drawing WA 'A/a R 4/16 No. Name Description 1 Refrigerant liquid pipe 0 1/4 2 Refrigerant gas pipe 0 3/8 3 Drain hole Connect with provided drain plug 888-699-6067 www.SamsungHVAC.com Page 1 Packet Pg. 241 snnnsuNc SUBMITTAL AM005TNVDCH/AA Page 1 of2 Samsung DVM S Series, Wind -Free TM Wall -Mounted Job Name Purchaser Submitted to Unit Designation Specifications Nominal Cooling (Btu/h) 5,000 Performance Capacity' Heating (Btu/h) 5,800 Location Engineer Reference 0 Approval 0 Construction Schedule # Voltage (0/V/Hz) 1 / 208-230 / 60 Nominal Running Current (A) 0.13 Power MCA 0.16 MOP 15 Type Crossflow Fan Type BLDC (1) Motor Output (W) 27 Airflow CFM (UL) L/M/H 145 / 159 / 173 Type R410A Refrigerant Control Method Electronic Expansion Valve Liquid (flare) Inches 1/4 Piping Connections Suction (flare) Inches 1/2 Drain Inches ID 11/16 Hose WXHXD Inches 32 5/16 X 11 3/4 X 8 7/16 Unit Dimensions Weight lbs. 19.8 Sound Level L / M / H dB(A) 27 / 30 / 31 External Contact Control Q MIM-1314 Condensate Aspen Mini Orange Q ASP-MO-UNIV 110-250 Accessories Pump Blue Diamond Q BD-BLUE230 External Temperature Sensor Q MRW-TA Safety Certifications ETL (UL 1995) Nominal cooling capacities are based on: Indoor temperature: 80'F DB, 67'F WB. Outdoor temperature: 95'F DB, 75'F WB Nominal heating capacities are based on: Indoor temperature: 70'F DB, 60'F WB. Outdoor temperature: 47°F DB, 43'F WB *The Wind -Free TM unit delivers an air current that is under 0.15 m/s while in Wind -Free- mode. Air velocity that is below 0.15 m/s is considered "still air" as defined by ASHRAE (American Society of Heating, Refrigerating, and Air -Conditioning Engineers). Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice • Compatible with Samsung DVM S, DVM S Water, and DVM S Ecc systems (AM**********AA). • Electro-static, washable, pleated filters as standard (included with unit) • 7-segment digital display on front of unit to display temperature an unit status • High -voltage terminal block temperature sensor to disable unit in the event overheating of power connection. • Wind -Free TM function will close the supply air outlet louver while it cooling mode to gently disperse cool air into the space without blowing directly onto occupants. The Wind -Free TM feature is optional and can be enabled using central or local control options (MWR-SH11 UN, MWR-WE13UN, MWR-WG00*N, and AR-EHO*L only). Construction HIPS chassis certified to UL94 VO with galvanized steel mounting bracket Heat Exchanger The heat exchanger shall be mechanically bonded fin to copper tube Indoor Fan Indoor fan is a single, antibacterial, crossflow type Three fan speed settings and auto setting Automatic (motorized) vertical swing (up/down) and horizontal swini, (left/right) louvers Controls The unit shall be operated via a wireless or wired remote control with DDC type signal The unit shall integrate with the Samsung NASA Controls Network Solution Controls shall integrate with a BMS system Control wiring shall be 2 X 16 AWG shielded wire © 2020 Samsung HVAC SHA-DVMS-05052020 www.SamsungHVAC.com 888-699-6067 Page 1 Packet Pg. 242 SAMSUNG SUBMITTAL AM005TNVDCH/AA Page z of Samsung DVM S Series, Wind -Free TM Wall-Mounte 5" Minimur Minimum clearances from walls and ceiling Minimum Unit: inches www.SamsungHVAC.com Page 1 Packet Pg. 243 SAMSUNG Job Name SUBMITTAL AM006JNGDCH/AA Samsung DVM S Series Floor Standing Indoor Unit Location Page 1 of 2 2.8.c Purchaser _ Submitted to Unit Designation Specifications Engineer Reference Approval 0 Construction 0 Schedule # Nominal Performance Capacity1 Cooling (Btu/h) 6,000 Heating (Btu/h) 6,700 Voltage (o / V / Hz) 1 / 208-230 / 60 Power Nominal Running Current (A) 0.20 MCA 0.3 MOP 15 Type Sirocco Fan Motor Type BLDC Output (W) 10 X 1 Airflow CFM (UL) UM/H 105 / 140 / 175 Refrigerant Type R410A Control Method Electronic Expansion Valve Liquid (flare) Inches 1/4 Piping Connections Suction (flare) Inches 1/2 Drain Inches ID 11/16 Unit W X H X D Inches 46 X 23 5/8 X 8 5/8 Dimensions Weight lbs. 57.3 Sound Level UM/H dB 20 / 22 / 23 External Temperature Sensor Q MRW-TA External Contact Control Q MIM-1314 Wireless Signal Receiver Q MRK-A10N Accessories Wireless Controller Q AR-EH03U Condensate Pump Aspen Mini Orange Q ASP-MO-UNIV 110-250 Blue Diamond Q BD-BLUE230 CN83 Pigtail (for external float switch connection) DB39-01263A Safety Certifications ETL (UL 1995) Nominal cooling capacities are based on: Indoor temperature: 80 OF DB, 670F WB. Outdoor temperature: 95OF DB, 75OF WB. Nominal heating capacities are based on: Indoor temperature: 70 OF DB, 60OF WB. Outdoor temperature: 470F DB, 430F WB. Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. • Compatible with Samsung DVM S, DVM S Water, and DVM systems (AM*********/AA). • Electro-static, washable, pleated filters as standard (includes with unit) • High -voltage terminal block temperature sensor to disable ur the event overheating of power connection. Construction The unit shall be constructed of galvanized steel and HIPS chassis certified to UL94 V0. Heat Exchanger The heat exchanger shall be mechanically bonded fin to copp, tube Indoor Fan Indoor fan is a single sirocco type Three fan speed settings and auto setting Controls The unit shall be operated via a wireless or wired remote cont with DDC type signal The unit shall integrate with the Samsung NASA Controls Net, Solution Controls shall integrate with a BMS system Control wiring shall be 2 X 16 AWG shielded wire © 2021 Samsung HVAC SHA-DVMS-04122021 www.SamsungHVAC.com 888-699-6067 TIIA Page 1 s Packet Pg. 244 Here Sn M S u N G SUBMITTAL AM006JNGDCH/AA Page 2of2 Samsung DVM S Series Floor Standing Indoor Unit 1 3/8" LEFT SIDE TOP M11 IIIICL 13/16" minimum 3 15/16" minimum Front ' 3 15/16" minimum 39 3/8" minimum ,,-Air outlet Control Box (inside chassis Control Box rn N CO 1/16" RIGHT SIDE N Wire opening 6 7/8" minimum Air outlet Air inlet www.SamsungHVAC.com Page 1 Packet Pg. 245 snnnsuNc SUBMITTAL AM007TNVDCH/AA Page 1 of2 Samsung DVM S Series, Wind -Free TM Wall -Mounted Job Name Purchaser Submitted to Unit Designation Specifications Nominal Cooling (Btu/h) 7,500 Performance Capacity' Heating (Btu/h) 8,500 Location Engineer Reference 0 Approval 0 Construction Schedule # Voltage (0/V/Hz) 1 / 208-230 / 60 Nominal Running Current (A) 0.16 Power MCA 0.20 MOP 15 Type Crossflow Fan Type BLDC (1) Motor Output (W) 27 Airflow CFM (UL) L/M/H 159 / 177 / 201 Type R410A Refrigerant Control Method Electronic Expansion Valve Liquid (flare) Inches 1/4 Piping Connections Suction (flare) Inches 1/2 Drain Inches ID 11/16 Hose WXHXD Inches 32 5/16 X 11 3/4 X 8 7/16 Unit Dimensions Weight lbs. 19.8 Sound Level L / M / H dB(A) 30 / 32 / 34 External Contact Control Q MIM-1314 Condensate Aspen Mini Orange Q ASP-MO-UNIV 110-250 Accessories Pump Blue Diamond Q BD-BLUE230 External Temperature Sensor Q MRW-TA Safety Certifications ETL (UL 1995) Nominal cooling capacities are based on: Indoor temperature: 80'F DB, 67'F WB. Outdoor temperature: 95'F DB, 75'F WB Nominal heating capacities are based on: Indoor temperature: 70'F DB, 60'F WB. Outdoor temperature: 47°F DB, 43'F WB *The Wind -Free TM unit delivers an air current that is under 0.15 m/s while in Wind -Free- mode. Air velocity that is below 0.15 m/s is considered "still air" as defined by ASHRAE (American Society of Heating, Refrigerating, and Air -Conditioning Engineers). Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice • Compatible with Samsung DVM S, DVM S Water, and DVM S Ecc systems (AM**********AA). • Electro-static, washable, pleated filters as standard (included with unit) • 7-segment digital display on front of unit to display temperature an unit status • High -voltage terminal block temperature sensor to disable unit in the event overheating of power connection. • Wind -Free TM function will close the supply air outlet louver while it cooling mode to gently disperse cool air into the space without blowing directly onto occupants. The Wind -Free TM feature is optional and can be enabled using central or local control options (MWR-SH11 UN, MWR-WE13UN, MWR-WG00*N, and AR-EHO*L only). Construction HIPS chassis certified to UL94 VO with galvanized steel mounting bracket Heat Exchanger The heat exchanger shall be mechanically bonded fin to copper tube Indoor Fan Indoor fan is a single, antibacterial, crossflow type Three fan speed settings and auto setting Automatic (motorized) vertical swing (up/down) and horizontal swini, (left/right) louvers Controls The unit shall be operated via a wireless or wired remote control with DDC type signal The unit shall integrate with the Samsung NASA Controls Network Solution Controls shall integrate with a BMS system Control wiring shall be 2 X 16 AWG shielded wire © 2020 Samsung HVAC SHA-DVMS-05052020 www.SamsungHVAC.com 888-699-6067 Page 1 Packet Pg. 246 SAMSUNG SUBMITTAL AM007TNVDCH/AA Page z of Samsung DVM S Series, Wind -Free TM Wall-Mounte 5" Minimur Minimum clearances from walls and ceiling Minimum Unit: inches www.SamsungHVAC.com Page 1 Packet Pg. 247 SAMSUNG Job Name SUBMITTAL AM009JNGDCH/AA Samsung DVM S Series Floor Standing Indoor Unit Location Page 1 of 2 2.8.c Purchaser _ Submitted to Unit Designation Specifications Engineer Reference 0 Approval 0 Construction 0 Schedule # Performance Nominal Capacity' Cooling (Btu/h) 9,500 Heating (Btu/h) 10,500 Voltage (o / V / Hz) 1 / 208-230 / 60 Power Nominal Running Current (A) 0.22 MCA 0.3 MOP 15 Type Sirocco Fan Motor Type BLDC Output (W) 10 X 1 Airflow CFM (UL) L/M/H 160 / 195 / 250 Refrigerant Type R410A Control Method Electronic Expansion Valve Liquid (flare) Inches 1/4 Piping Connections Suction (flare) Inches 1/2 Drain Inches ID 11/16 Unit W X H X D Inches 46 X 23 5/8 X 8 5/8 Dimensions Weight lbs. 57.3 Sound Level L/M/H dB 21 / 24 / 26 External Temperature Sensor Q MRW-TA External Contact Control Q MIM-614 Wireless Signal Receiver Q MRK-A10N Accessories Wireless Controller Q AR-EH03U Condensate Pump Aspen Mini Orange ASP-MO-UNIV 110-250 Blue Diamond Q BD-BLUE230 CN83 Pigtail (for external float switch connection) Q DB39-01263A Safety Certifications ETL (UL 1995) Nominal cooling capacities are based on: Indoor temperature: 80 OF DB, 67OF WB. Outdoor temperature: 95OF DB, 75OF WB. Nominal heating capacities are based on: Indoor temperature: 70 OF DB, 60OF WB. Outdoor temperature: 470F DB, 430F WB. Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. • Compatible with Samsung DVM S, DVM S Water, and DVM systems (AM*********/AA). • Electro-static, washable, pleated filters as standard (include( with unit) • High -voltage terminal block temperature sensor to disable ur the event overheating of power connection. Construction The unit shall be constructed of galvanized steel and HIPS chassis certified to UL94 V0. Heat Exchanger The heat exchanger shall be mechanically bonded fin to copp tube Indoor Fan Indoor fan is a single sirocco type Three fan speed settings and auto setting Controls The unit shall be operated via a wireless or wired remote cont with DDC type signal The unit shall integrate with the Samsung NASA Controls Net Solution Controls shall integrate with a BMS system Control wiring shall be 2 X 16 AWG shielded wire © 2021 Samsung HVAC SHA-DVMS-04122021 www.SamsungHVAC.com 888-699-6067 TIN Page 1 s Packet Pg. 248 S n M S u N G SUBMITTAL AM009JNGDCH/AA Page 2of2 Samsung DVM S Series Floor Standing Indoor Unit 1 3/8" LEFT SIDE TOP M11 IIIICL 13/16" minimum 3 15/16" minimum 3 15/16" minimum Front 39 3/8" minimum ,,-Air outlet Control Box (inside chassis Control Box rn N CO 1/16" RIGHT SIDE N Wire opening 6 7/8" minimum Air outlet Air inlet www.SamsungHVAC.com Page 1 Packet Pg. 249 Sn M S u N G SUBMITTAL AM012JNGDCH/AA Page 1 of Samsung DVM S Series Floor Standing Indoor Unit Job Name _ Purchaser _ Submitted to Unit Designation Performance Nominal Capacity' Specifications Cooling (Btu/h) Heating (Btu/h) 12,000 13,500 Location Engineer Reference Approval 0 Construction 0 Schedule # Voltage (o / V / Hz) 1 / 208-230 / 60 Power Nominal Running Current (A) 0.24 MCA 0.3 MOP 15 Type Sirocco Fan Motor Type BLDC Output (W) 10 X 1 Airflow CFM (UL) L/M/H 210 / 300 / 350 Refrigerant Type R410A L Control Method Electronic Expansion Valve Liquid (flare) Inches 1/4 Piping Connections Suction (flare) Inches 1/2 Drain Inches ID 11/16 Unit W X H X D Inches 46 X 23 5/8 X 8 5/8 Dimensions Weight lbs. 57.3 Sound Level L/M/H dB 27 / 32 / 37 External Temperature Sensor Q MRW-TA External Contact Control Q MIM-1314 Wireless Signal Receiver Q MRK-A10N Accessories Wireless Controller Q AR-EH03U Condensate Pump Aspen Mini Orange ASP-MO-UNIV 110-250 Blue Diamond Q BD-BLUE230 CN83 Pigtail (for external float switch connection) Q DB39-01263A Safety Certifications ETL (LI 1995) Nominal cooling capacities are based on: Indoor temperature: 80 OF DB, 670F WB. Outdoor temperature: 95OF DB, 75OF WB. Nominal heating capacities are based on: Indoor temperature: 70 OF DB, 60OF WB. Outdoor temperature: 470F DB, 430F WB. Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. Mq �Q- A. J • Compatible with Samsung DVM S, DVM S Water, and DVM E systems (AM"""""""/AA). • Electro-static, washable, pleated filters as standard (included with unit) • High -voltage terminal block temperature sensor to disable unit the event overheating of power connection. Construction The unit shall be constructed of galvanized steel and HIPS chassis certified to UL94 V0. Heat Exchanger The heat exchanger shall be mechanically bonded fin to copper tube Indoor Fan Indoor fan is a single sirocco type Three fan speed settings and auto setting Controls The unit shall be operated via a wireless or wired remote contrc with DDC type signal The unit shall integrate with the Samsung NASA Controls Netw, Solution Controls shall integrate with a BMS system Control wiring shall be 2 X 16 AWG shielded wire © 2021 Samsung HVAC SHA-DVMS-04122021 www.SamsungHVAC.com 888-699-6067 TIN Page 1 S Packet Pg. 250 S n M S u N G SUBMITTAL AM012JNGDCH/AA Page 2of2 Samsung DVM S Series Floor Standing Indoor Unit 1 3/8" LEFT SIDE TOP M11 IIIICL 13/16" minimum 3 15/16" minimum 3 15/16" minimum Front 39 3/8" minimum ,,-Air outlet Control Box (inside chassis Control Box rn N CO 1/16" RIGHT SIDE N Wire opening 6 7/8" minimum Air outlet Air inlet www.SamsungHVAC.com Page 1 Packet Pg. 251 snnnsuNc SUBMITTAL AM012TNVDCH/AA Page 1 of2 Samsung DVM S Series, Wind -Free TM Wall -Mounted Job Name Purchaser Submitted to Unit Designation Specifications Nominal Cooling (Btu/h) 12,000 Performance Capacity' Heating (Btu/h) 13,500 Location Engineer Reference 0 Approval 0 Construction Schedule # Voltage (0/V/Hz) 1 / 208-230 / 60 Nominal Running Current (A) 0.25 Power MCA 0.31 MOP 15 Type Crossflow Fan Type BLDC (1) Motor Output (W) 27 Airflow CFM (UL) L/M/H 293 / 321 / 364 Type R410A Refrigerant Control Method Electronic Expansion Valve Liquid (flare) Inches 1/4 Piping Connections Suction (flare) Inches 1/2 Drain Inches ID 11/16 Hose WXHXD Inches 32 5/16 X 11 3/4 X 8 7/16 Unit Dimensions Weight lbs. 20.9 Sound Level L / M / H dB(A) 34 / 36 / 40 External Contact Control Q MIM-1314 Condensate Aspen Mini Orange Q ASP-MO-UNIV 110-250 Accessories Pump Blue Diamond Q BD-BLUE230 External Temperature Sensor Q MRW-TA Safety Certifications ETL (UL 1995) Nominal cooling capacities are based on: Indoor temperature: 80'F DB, 67'F WB. Outdoor temperature: 95'F DB, 75'F WB Nominal heating capacities are based on: Indoor temperature: 70'F DB, 60'F WB. Outdoor temperature: 47°F DB, 43'F WB *The Wind -Free TM unit delivers an air current that is under 0.15 m/s while in Wind -Free- mode. Air velocity that is below 0.15 m/s is considered "still air" as defined by ASHRAE (American Society of Heating, Refrigerating, and Air -Conditioning Engineers). Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice • Compatible with Samsung DVM S, DVM S Water, and DVM S Ecc systems (AM**********AA). • Electro-static, washable, pleated filters as standard (included with unit) • 7-segment digital display on front of unit to display temperature an unit status • High -voltage terminal block temperature sensor to disable unit in the event overheating of power connection. • Wind -Free TM function will close the supply air outlet louver while it cooling mode to gently disperse cool air into the space without blowing directly onto occupants. The Wind -Free TM feature is optional and can be enabled using central or local control options (MWR-SH11 UN, MWR-WE13UN, MWR-WG00*N, and AR-EHO*L only). Construction HIPS chassis certified to UL94 VO with galvanized steel mounting bracket Heat Exchanger The heat exchanger shall be mechanically bonded fin to copper tube Indoor Fan Indoor fan is a single, antibacterial, crossflow type Three fan speed settings and auto setting Automatic (motorized) vertical swing (up/down) and horizontal swini, (left/right) louvers Controls The unit shall be operated via a wireless or wired remote control with DDC type signal The unit shall integrate with the Samsung NASA Controls Network Solution Controls shall integrate with a BMS system Control wiring shall be 2 X 16 AWG shielded wire © 2020 Samsung HVAC SHA-DVMS-05052020 www.SamsungHVAC.com 888-699-6067 Page 1 Packet Pg. 252 SAMSUNG SUBMITTAL AM012TNVDCH/AA Page z of Samsung DVM S Series, Wind -Free TM Wall-Mounte 5" Minimur Minimum clearances from walls and ceiling Minimum Unit: inches www.SamsungHVAC.com Page 1 Packet Pg. 253 snnnsuNc SUBMITTAL AM015TNVDCH/AA Page 1 of2 Samsung DVM S Series, Wind -Free TM Wall -Mounted Job Name Purchaser Submitted to Unit Designation Specifications Nominal Cooling (Btu/h) 15,000 Performance Capacity' Heating (Btu/h) 17,000 Location Engineer Reference 0 Approval 0 Construction Schedule # Voltage (0/V/Hz) 1 / 208-230 / 60 Nominal Running Current (A) 0.27 Power MCA 0.34 MOP 15 Type Crossflow Fan Type BLDC (1) Motor Output (W) 27 Airflow CFM (UL) L/M/H 371 / 403 / 442 Type R410A Refrigerant Control Method Electronic Expansion Valve Liquid (flare) Inches 1/4 Piping Connections Suction (flare) Inches 1/2 Drain Inches ID 11/16 Hose WXHXD Inches 41 1/2 X 11 3/4 X 8 7/16 Unit Dimensions Weight lbs. 26.5 Sound Level L / M / H dB(A) 33 / 34 / 37 External Contact Control Q MIM-1314 Condensate Aspen Mini Orange Q ASP-MO-UNIV 110-250 Accessories Pump Blue Diamond Q BD-BLUE230 External Temperature Sensor Q MRW-TA Safety Certifications ETL (UL 1995) Nominal cooling capacities are based on: Indoor temperature: 80'F DB, 67'F WB. Outdoor temperature: 95'F DB, 75'F WB Nominal heating capacities are based on: Indoor temperature: 70'F DB, 60'F WB. Outdoor temperature: 47°F DB, 43'F WB *The Wind -Free TM unit delivers an air current that is under 0.15 m/s while in Wind -Free- mode. Air velocity that is below 0.15 m/s is considered "still air" as defined by ASHRAE (American Society of Heating, Refrigerating, and Air -Conditioning Engineers). Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice • Compatible with Samsung DVM S, DVM S Water, and DVM S Ecc systems (AM**********AA). • Electro-static, washable, pleated filters as standard (included with unit) • 7-segment digital display on front of unit to display temperature an unit status • High -voltage terminal block temperature sensor to disable unit in the event overheating of power connection. • Wind -Free TM function will close the supply air outlet louver while it cooling mode to gently disperse cool air into the space without blowing directly onto occupants. The Wind -Free TM feature is optional and can be enabled using central or local control options (MWR-SH11 UN, MWR-WE13UN, MWR-WG00*N, and AR-EHO*L only). Construction HIPS chassis certified to UL94 VO with galvanized steel mounting bracket Heat Exchanger The heat exchanger shall be mechanically bonded fin to copper tube Indoor Fan Indoor fan is a single, antibacterial, crossflow type Three fan speed settings and auto setting Automatic (motorized) vertical swing (up/down) and horizontal swini, (left/right) louvers Controls The unit shall be operated via a wireless or wired remote control with DDC type signal The unit shall integrate with the Samsung NASA Controls Network Solution Controls shall integrate with a BMS system Control wiring shall be 2 X 16 AWG shielded wire © 2020 Samsung HVAC SHA-DVMS-05052020 www.SamsungHVAC.com 888-699-6067 Page 1 Packet Pg. 254 SAMSUNG SUBMITTAL AM015TNVDCH/AA Pa e2of2 Samsung DVM S Series, Wind -Free TM Wall-Mounte 5" Minimur Minimum clearances from walls and ceiling Minimum Unit: inches www.SamsungHVAC.com Page 1 Packet Pg. 255 SAMSUNG SUBMITTAL AM018JNGDCH/AA Page 1of2 Samsung DVM S Series Floor Standing Indoor Unit Job Name Location Purchaser Engineer Submitted to Reference 0 Approval 0 Construction 0 Unit Designation Schedule # Specifications Performance Nominal Cooling (Btu/h) 18,000 Capacity 1 Heating (Btu/h) 20,000 Voltage (o / V / Hz) 1 / 208-230 / 60 Nominal Running Current (A) 0.53 Power MCA 0.7 i MOP 15 Type Sirocco Fan Motor Type BLDC Output (W) 50 X 1 • Compatible with Samsung DVM S, DVM S Water, and DVM Airflow CFM (UL) L/M/H 390 / 4951550 systems (AM"""""""/AA). Type R410A • Electro-static, washable, pleated filters as standard (included Refrigerant with unit) Control Method Electronic Expansion Valve • High -voltage terminal block temperature sensor to disable un Liquid (flare) Inches 1/4 the event overheating of power connection. Piping Suction (flare) Inches 1/2 Construction Connections The unit shall be constructed of galvanized steel and HIPS Drain Inches ID 11/16 chassis certified to UL94 V0. Unit Dimensions W X H X D Inches 57 X 23 9/16 X 8 5/8 Heat Exchanger The heat exchanger shall be mechanically bonded fin to coppe tube Weight lbs. 69.4 Sound Level L/M/H dB 32 / 36 / 40 External Temperature Sensor Q MRW-TA External Contact Control Q MIM-1314 Wireless Signal Receiver Q MRK-A10N Accessories Wireless Controller Q AR-EH03U Condensate Pump Aspen Mini Orange ASP-MO-UNIV 110-250 Blue Diamond Q BD-BLUE230 CN83 Pigtail (for external float switch connection) 0 DB39-01263A Safety Certifications ETL (UL 1995) Nominal cooling capacities are based on: Indoor temperature: 80 OF DB, 670F WB. Outdoor temperature: 95OF DB, 75OF WB Nominal heating capacities are based on: Indoor temperature: 70 OF DB, 60OF WB. Outdoor temperature: 470F DB, 430F WB Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. Indoor Fan Indoor fan is a single sirocco type Three fan speed settings and auto setting Controls The unit shall be operated via a wireless or wired remote contr with DDC type signal The unit shall integrate with the Samsung NASA Controls Net% Solution Controls shall integrate with a BMS system Control wiring shall be 2 X 16 AWG shielded wire © 2021 Samsung HVAC SHA-DVMS-04122021 www.SamsungHVAC.com 888-699-6067 TIN Page 1 Packet Pg. 256 S n M S u N G SUBMITTAL AM018JNGDCH/AA Page 2of2 Samsung DVM S Series Floor Standing Indoor Unit 00 LO M N LEFT SIDE 1 3/8" Air outlet Control B itrol (inside & Qo N fD M RIGHT SIDE 6" N Air inlet BACK Pipe opening Wire opening BOTTOM Air inlet 13/16" minimum LuL—J I I I I I I I I I I I I I i 3 15/16" minimum 3 15/16" minimum Front 139 3/8" minimum 6 7/8" minimum Air outlet I Air inlet d V �) c O to L 4) El www.SamsungHVAC.com Page 1 Packet Pg. 257 SAMSUNG Job Name SUBMITTAL AM024JNGDCH/AA Samsung DVM S Series Floor Standing Indoor Unit Location Page 1 of 2 2.8.c Purchaser _ Submitted to Unit Designation Specifications Engineer Reference 0 Approval 0 Construction 0 Schedule # Performance Nominal Capacity p ty 1 Cooling (Btu/h) 24,000 Heating (Btu/h) 27,000 Voltage (o / V / Hz) 1 / 208-230 / 60 Power Nominal Running Current (A) 0.53 MCA 0.7 MOP 15 Type Sirocco Fan Motor Type BLDC Output (W) 50 X 1 Airflow CFM (UL) L/M/H 390 / 495 / 550 Type R410A Refrigerant Control Method Electronic Expansion Valve Liquid (flare) Inches 3/8 Piping Connections Suction (flare) Inches 5/8 Drain Inches ID 11/16 WXHXD Inches 57 X 23 9/16 X 8 5/8 nsions E Weight lbs. 69.4 Sound Level L/M/H dB 32 / 36 / 40 External Temperature Sensor Q MRW-TA External Contact Control Q MIM-1314 Wireless Signal Receiver Q MRK-A10N Accessories Wireless Controller Q AR-EH03U Condensate Pump Aspen Mini Orange ASP-MO-UNIV 110-250 Blue Diamond Q BD-BLUE230 CN83 Pigtail (for external float switch connection) Q DB39-01263A Safety Certifications ETL (UL 1995) Nominal cooling capacities are based on: Indoor temperature: 80 OF DB, 670F WB. Outdoor temperature: 95OF DB, 750F WB. Nominal heating capacities are based on: Indoor temperature: 70 OF DB, 60OF WB. Outdoor temperature: 470F DB, 430F WB. Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. • Compatible with Samsung DVM S, DVM S Water, and DVM systems (AMA""'""""/AA). • Electro-static, washable, pleated filters as standard (included with unit) • High -voltage terminal block temperature sensor to disable ur the event overheating of power connection. Construction The unit shall be constructed of galvanized steel and HIPS chassis certified to UL94 V0. Heat Exchanger The heat exchanger shall be mechanically bonded fin to coppt tube Indoor Fan Indoor fan is a single sirocco type Three fan speed settings and auto setting Controls The unit shall be operated via a wireless or wired remote contl with DDC type signal The unit shall integrate with the Samsung NASA Controls Net Solution Controls shall integrate with a BMS system Control wiring shall be 2 X 16 AWG shielded wire © 2021 Samsung HVAC SHA-DVMS-04122021 www.SamsungHVAC.com 888-699-6067 TIA Page 1 s Packet Pg. 258 s A M S U N G SUBMITTAL AM024JNGDCH/AA Page 2of2 Samsung DVM S Series Floor Standing Indoor Unit 00 LO M N LEFT SIDE 1 3/8" Air outlet Control B itrol (inside & Qo N fD M RIGHT SIDE 6" N Air inlet BACK Pipe opening Wire opening BOTTOM Air inlet 13/16" minimum LuL—J I I I I I I I I I I I I I i 3 15/16" minimum 3 15/16" minimum Front 139 3/8" minimum 6 7/8" minimum Air outlet I Air inlet d V �) c O to L 4) El www.SamsungHVAC.com Page 1 Packet Pg. 259 Sin M S u N G SUBMITTAL MCU-S8NEK1UN Samsung DVM S Series, Mode Control Unit (MCU) Job Name Location Page 1 of 2 2.8.c Purchaser _ Submitted to Unit Designation Specifications Voltage (a/V/Hz) 1 / 208-230 / 60 Engineer Reference Approval 0 Construction 0 Schedule # Max. Current A 1.7 Power Rated Controller Current A 0.6 Minimum Circuit Ampacity A 2 Max. Breaker MOP (A) 15 Capacity Maximum Btu/h MCU total' 290,000 Each Port' <- 54,000 (108,000)' Number of Ports 8 Quantity of Connectable Indoor Units2 1 - 64 Piping Connections (inches) Inlet Pipes From ODU / Outlet Pipes To Other MCU's To Indoor Units Liquid (braze) 5/8 Suction (braze) 1 1/8 HP Gas (braze) 1 1/8 Liquid (braze) 3/8 X 8 Suction (braze) High dB (A) 5/8 X 8 38 SoundLevel Standard Operation V4114 �c•G IMode Switching High dB (A) 50 Unit W X H X D Inches 38 9/16 X 11 3/4 X 18 7/16 Dimensions Weight lbs. 88.6 Safety Certifications UL 60335-2-40 I If connecting an indoor unit > 54,000 Btu/h and 5 108,000 Btu/h, 2 consecutive ports must be twinned using Y-Joint kit part number MXJ-YM1509M. Y-Joint kits are purchased separately. 2 Maximum of 8 indoor units allowed on a single port. Twinned ports cannot connect to multiple indoor units. Please use DVM Pro 2 design software for system design. Accessory Y-Joint - Combining Two Ports ---------------------------------------------------- Connect to an indoor unit > 54,000 Btu/h and <- 108,000 Btu/h (if less than 54,000 Btu/h, connect direct to MCU without Y-connector using a single set of ports) MXJ-YM1509M -------------------------------------------------- • Compatible with Samsung DVM S Heat Recovery (AM""'X"" R/A AM"""X""" R2AA) systems only. • Allows for simultaneous heating and cooling on a single system. • Serial connection capability to supply refrigerant to other MCU's t reducing Y-joint installation quantity (see example below). • The MCU shall have pressure equalization valves (480 steps) to reduce refrigerant sounds during mode changing of connected inc units. • Using solenoid valves, the MCU shall control the path of refrigerar the indoor unit(s) based on the mode of operation required. • The unit shall contain internal subcoolers with an electronic expan valve to maximize performance of connected units and reduce refrigerant sounds • If connecting an indoor unit > 54,000 Btu/h and <- 108,000 Btu/h, 2 consecutive ports must be twinned. • The MCU must be mounted indoors, level, with the pipes running horizontally in and out of unit. • No drain connection required Construction • Galvanized steel cabinet • Most internal devices can be serviced via top panel. The PCB anc wiring is accessible from the back. Controls • The unit shall be operated via a DDC type signal • Control wiring shall be 16 AWG X 2 shielded wire • Supports auto -pairing • Contains 2 X control PCBs. The outdoor unit will count MCU-S8NEK1 UN as two (2) MCUs. Connection Example Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. © 2022 Samsung HVAC www.SamsungHVAC.com SHA-DVMS-12082022 888-699-6067 TIA Page 1 s Packet Pg. 260 Here Sn M S u N G SUBMITTAL MCU-S8NEK1UN Page 2of2 Samsung DVM S Series, Mode Control Unit 2.8•� v M TOP FRONT 2 3/8" X 3 = 7116" 2 3/8" X 3 = 7 /16" 41/2" 7 co OO Qe Qs Qs Qs Qs Qs e0 0 0 0 o no 0 0 0 (O r 7 5/8" 5 3/4" 23/8"X3 771/16" j 23/8"X3=7/16" 20" or m ressure gas )ressure gas Recommended Installation Clearances C SIDE Control Box 3" minimum (recommended) www.SamsungHVAC.com Page 1 Packet Pg. 261 Sin M S u N G SUBMITTAL MCU-S12NEK1UN Samsung DVM S Series, Mode Control Unit (MCU) Job Name Location Page 1 of 2 2.8.c Purchaser _ Submitted to Unit Designation Specifications Engineer Reference Approval 0 Construction 0 Schedule # Voltage (a/V/Hz) 1 / 208-230 / 60 Max. Current A 1.7 Power Rated Controller Current A 0.6 Minimum Circuit Ampacity A 2 Max. Breaker MOP (A) 15 Capacity Maximum Btu/h MCU total' 290,000 Each Port' <— 54,000 (108,000)' Number of Ports 12 Quantity of Connectable Indoor Units2 1 - 64 Piping Connections (inches) Inlet Pipes From ODU / Outlet Pipes To Other MCU's To Indoor Units Liquid (braze) 5/8 Suction (braze) 1 1/8 HP Gas (braze) 1 1/8 Liquid (braze) 3/8 X 12 Suction (braze) High dB (A) 5/8 X 12 38 SoundLevel Standard Operation V4114 �c•G IMode Switching High dB (A) 50 Unit W X H X D Inches 38 9/16 X 11 3/4 X 18 7/16 Dimensions Weight lbs. 101.9 Safety Certifications UL 60335-2-40 I If connecting an indoor unit > 54,000 Btu/h and 5 108,000 Btu/h, 2 consecutive ports must be twinned using Y-Joint kit part number MXJ-YM1509M. Y-Joint kits are purchased separately. 2 Maximum of 8 indoor units allowed on a single port. Twinned ports cannot connect to multiple indoor units. Please use DVM Pro 2 design software for system design. Accessory Y-Joint - Combining Two Ports ---------------------------------------------------- Connect to an indoor unit > 54,000 Btu/h and <- 108,000 Btu/h ; (if less than 54,000 Btu/h, connect direct to MCU without Y-connector using a single set of ports) T MXJ-YM1509M --------------------------------------------------- • Compatible with Samsung DVM S Heat Recovery (AM""'X"" R/A AM"""X""" R2AA) systems only. • Allows for simultaneous heating and cooling on a single system. • Serial connection capability to supply refrigerant to other MCU's t reducing Y-joint installation quantity (see example below). • The MCU shall have pressure equalization valves (480 steps) to reduce refrigerant sounds during mode changing of connected inc units. • Using solenoid valves, the MCU shall control the path of refrigerar the indoor unit(s) based on the mode of operation required. • The unit shall contain internal subcoolers with an electronic expan valve to maximize performance of connected units and reduce refrigerant sounds • If connecting an indoor unit > 54,000 Btu/h and :5 108,000 Btu/h, 2 consecutive ports must be twinned. • The MCU must be mounted indoors, level, with the pipes running horizontally in and out of unit. • No drain connection required Construction • Galvanized steel cabinet • Most internal devices can be serviced via top panel. The PCB anc wiring is accessible from the back. Controls • The unit shall be operated via a DDC type signal • Control wiring shall be 16 AWG X 2 shielded wire • Supports auto -pairing • Contains 2 X control PCBs. The outdoor unit will count MCU-S12NEK1 UN as two (2) MCUs. Connection Example Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. © 2022 Samsung HVAC www.SamsungHVAC.com SHA-DVMS-12082022 888-699-6067 TIA Page 1 s Packet Pg. 262 Here Sn M S u N G SUBMITTAL MCU-S12NEK1UN Page 2of2 Samsung DVM S Series, Mode Control Unit 2.8•� 4 1/16" 2 3/8" X 5 = 11 13/16" 215/16" I_ 2 3/8" X 5X 5 =11 13/1613/16" 20" or m TOP 42 1/16" L 310-- A 0= I I IJ/10-- 4 11L-- 8" 5 3/4" 2 3/8" X 5 = 11 13/16" m Low pressure gas High pressure gas Liquid Recommended Installation Clearances SIDE 18 7/16" Ceiling 3" minimum (recommended) www.SamsungHVAC.com Page 1 Packet Pg. 263 SAMSUNG Job Name SUBMITTAL MCU-S4NEE1N Samsung DVM S Series, Mode Change Unit Location Page 1 of 2 2.8.c Purchaser _ Submitted to Unit Designation Specifications Power Voltage I (o/V/Hz) 1 / 208 - 230 / 60 Running Current A (max.) 0.4 Capacity Maximum Btu/h MCU total* < 198,000 I Each Port` < 36,000 Number of Ports 4 Qty. of Connectable Indoor Units 1 - 4* Piping Connections (inches) From Outdoor Unit Liquid (flare) 1/2 Suction 11/8 High Pressure Gas 3/4 To Indoor Units Liquid (flare) 3/8 X 4 Suction (flare) 5/8 X 4 Drain 1 OD 1", ID 7/8" Sound Level dB (A) Standard Operation Low / High 26.2 - 33.4 Mode Switching I Low / High 33.2 - 50.8 Unit Dimensions W X H X D Inches 32 1/8 X 7 11/16 X 22 13/32 Weight lbs. 57 Safety Certifications ETL & ETLc *If connecting indoor units >_ 36,000 Btu/h and < 48,000 Btu/h, 2 consecutive ports must be twinned with provided Y-connectors. Drain connection is required when MCU installation location RH is 85% or higher AND temperature is 85°F or warmer. REFRIGERAN- OUTDOOR UN PCB Box QS-DVMS-042016B Engineer Reference 0 Approval 0 Construction 0 Schedule # • Mandatory component for Samsung DVM S Series heat recovery systen • Compatible with Samsung DVM S Heat Recovery (AM****X**R/AA) systems only. • Allows for simultaneous heating and cooling on a single system. • The MCU shall have pressure equalization valves to reduce refrigerant sounds during mode changing of connected indoor units. • Maximum individual indoor unit capacity: < 48,000 Btu/h • The unit shall include 4 (2 X liquid, 2 X gas) Y-connectors with flare connections to twin 2 MCU ports together for connection of indoor units that units that are >_ 36,000 Btu/h and :548,000 Btu/h. • Using solenoid valves, the MCU shall control the path of refrigerant to thl indoor unit(s) based on the mode of operation required. • The unit shall contain internal subcoolers with electronic expansion valve maximize performance of connected units and reduce refrigerant sounds • Under -ceiling (AMO**FNCDCH/AA) evaporators will require a separate, single unit EEV kit MEV-A32SA) each when using this MCU. • MCU must be mounted indoors, level, with the pipes running horizontally and out of unit. • MCU produces condensation and must be drained appropriately.' Construction • Galvanized steel cabinet Controls • The unit shall be operated via a DDC type signal • Control wiring shall be 16 AWG X 2 shielded wire Included with MCU ------------------ ----------------- Included with MCU Connect to indoor unit >_ 36,000 Btu/h (if less than 36,000 Btu/h connect direct to MCU without Y-connector using a single set of ports) Connect to indoor unit >- 36,000 Btu/h (if less than 36,000 Btu/h connect direct to MCU without Y-connector using a single set of ports) \NIERrek TOP VIEW (PICTURED WITHOUT COVER) Samsung and Quietside maintains a policy of ongoing development, specifications are subject to change without notice. Page 1 www.SamsungHVAC.com Packet Pg. 264 888-699-6067 SAMSUNG Page 2 of 2 2.8.c co _ Lo SUBMITTAL MCU-S4NEE1 N Samsung DVM S Series, Mode Change Unit 32 1/8" OUTLET SIDE - TO INDOOR UNITS Minimum Clearances 16" Min. 16" Min. MCU TOP 20" Min. 28" Min. Maintain 10" minimum clearance between bulling and top of MCU. This is the main access point for service of valves and sensors. ea 1815/32" INLET SIDE - FROM OUTDOOR UNIT No. Description 10 Liquid pipe connection from outdoor unit (01/2" flare) High pressure gas pipe connection from outdoor unit (0 3/4" braze) Gas pipe connection from outdoor unit (01 1/8" braze) ® Liquid pipe connection to indoor units 0 Gas pipe connection to indoor units © Condensate drain pipe connection 0 Power and communication conduit openings on bottom side of PCB box www.SamsungHVAC.com Page 1 Packet Pg. 265 S n M S U N G SUBMITTAL MCU-S2NEK2N Samsung DVM S Series, Mode Control Unit (MCU) Job Name Location Page 1 of 2 2.H.c Purchaser Submitted to _ Unit Designation Engineer Reference 0 Approval 0 Construction 0 Schedule # Specifications Voltage (la/V/Hz) 1 / 208-230 / 60 Power Max Current A Rated Controller Current A 1.6 0.2 Minimum Circuit Ampacity A 2 Max. Breaker MOP (A) 15 Capacity Maximum Btu/h MCU total' 108,000 Each Port' :5 54,000' Number of Ports 2 Quantity of Connectable Indoor Unitsz 1 - 16 Piping Connections (inches) Sound Level Inlet Pipes From ODU / Outlet Pipes To Other MCU's To Indoor Units Standard Operation Liquid (braze) 5/8 Suction (braze) 1 1/8 HP Gas (braze) 1 1/8 Liquid (braze) 3/8 X 2 Suction (braze) 1 5/8 X 2 High dB (A) 34 Unit Mode Switching High dB (A) W X H X D Inches 50 28 11/16 X 7 13/16 X 18 7/16 Dimensions Weight lbs. 46.29 • Compatible with Samsung DVM S Heat Recovery (AM' X" R/A AM"'"X"""R2AA) systems only. • Allows for simultaneous heating and cooling on a single system. • Serial connection capability to supply refrigerant to other MCU's t reducing Y-joint installation quantity (see example below). • The MCU shall have pressure equalization valves (480 steps) to reduce refrigerant sounds during mode changing of connected inc units. • Using solenoid valves, the MCU shall control the path of refrigerar the indoor unit(s) based on the mode of operation required. • The unit shall contain internal subcoolers with an electronic expan valve to maximize performance of connected units and reduce refrigerant sounds • If connecting an indoor unit > 54,000 Btu/h and <_ 108,000 Btu/h, 2 consecutive ports must be twinned. • The MCU must be mounted indoors, level, with the pipes running horizontally in and out of unit. • No drain connection required Construction • Galvanized steel cabinet Safety Certifications ETL (UL 1995) • Most internal devices can be serviced via bottom panel. The PCB and wiring is accessible from the back. If connecting an indoor unit > 54,000 Btu/h and s 108,000 Btu/h, 2 consecutive ports must be twinned using Y-Joint kit part number MXJ-YM1509M. Y-Joint kits are purchased separately. 2 Maximum of 8 indoor units allowed on a single port. Twinned ports cannot connect to multiple indoor units. Please use DVM Pro design software for system design. Accessory Y-Joint - Combining Two Ports MXJ-YM1509M ------------------ T lnect to an indoor unit > 54,000 Btu/h and <_ 108,000 /h (if less than 54,000 Btu/h connect direct to MCU lout Y-connector using a single set of ports) Controls • The unit shall be operated via a DDC type signal • Control wiring shall be 16 AWG X 2 shielded wire • Supports auto -pairing Connection Example TOP VIEW (PICTURED WITHOUT COVER) Samsung HVAC maintains a policy of ongoing development, specifications are subject to change without notice. ©2020 Samsung HVAC www.SamsungHVAC.com SHA-DVMS-04212020 888-699-6067 i] TIN Page 1 s Packet Pg. 266 nere SAMSUNG SUBMITTAL MCU-S2NEK2N Page 2 of 2 Samsung DVM S Series, Mode Control Unit TOP 32 1/8" x FRONT SIDE 18 7/16" Recommended Installation Clearances 16" or more Ceiling 28 5/8" 3" minimum (recommended) mcu mcu (TOP) 28" or. %'�'ormore 20" or more or m7 www.SamsungHVAC.com Page 1 I Packet Pg. 267 ] CSmithy 2.8.c COMMERCIAL HEAT PUMP WATER HEATERS CHP SERIES FULLY INTEGRATED HEAT PUMP WATER HEATER The CHN 20 heat pump water heater is an integrated system designed specifically for the commercial market. FEATURES ENERGY SAVING AND ENVIRONMENTALLY FRIENDLY • Heat pump transfers heat from surrounding area into the tank • Industry leading 4.2 COP • Multiple operating modes maximizes efficiency while meeting specific hot water needs • Large capacity tank enables heat pump to operate more frequently than electric elements, saving money for the end user • Meets the standby loss requirements of U.S. Department of Energy and the current edition ofASHRAE 118.1 • Environmentally friendly R-134a refrigerant • ENERGY STAR® Qualified COMMERCIAL PERFORMANCE • First hour delivery of 179 GPH • Rated heat pump power of 3.15 HP (240Vac) or 3.05 (208Vac) • Electric heating element capacity of 12 kW (240Vac) or 9 kW (208Vac) • Max water temperature of 150°F in efficiency/ Hybrid modes and 180°F in electric mode • Operating ambient range of 40-110' F • Low operating sound measured at 59 dB (A) • Dual evaporator fans maximize performance and provide room cooling • 3/4" NPT water inlet and outlet EASE OF OPERATION • Integrated design and pre -charged refrigeration system makes for quick and easy install • Large touch screen LCD display allows for mode selection, provides run information and includes troubleshooting alerts and detail • Choose from three operating modes: Efficiency, Hybrid or Electric DEPENDABLE AND LONG LASTING DESIGN • A. 0. Smith -developed glass coated tank • Tank rated at 160 PSI working pressure • Commercial grade anode protects the tank and extends the service life • Proven heat pump technology • Electric elements have incoloy sheathing and provide excellent protection from oxidation and scaling THREE YEAR LIMITED TANK WARRANTY • Backed by 3-year tank and 1-year parts/ compressor limited warranties • For complete warranty information, consult written warranty or go to hotwater.com MODEL CAHP 120 611 C" NSF m LISTED —d��«� _ E L as s, El © April 2023 A. 0. Smith Corporation. All rights reserved. Page 1 of 4 hotwater.com 1 800-527-1953 Toll -Free USA I A. 0. Smith Corporation 1 500 Tennessee Waltz Parkway I Ashland City, TN 37015 Page 1 Packet Pg. 268 XSmithy ROUGH -IN DIMENSIONS COMMERCIAL HEAT PUMP WATER HEATERS C Air Inlet Q� Water Connection 0 (3/4" NPT) a Relief Valve Air Inlet Air Outlet D 2.8.c Physical Dimensions Total Height (A) Tank Diameter Maximum Service Panel Relief Valve Water Outlet Height Water Inlet Relief Valve Angle Maximum (B) Depth (C) Width (D) Height (E) (F) Height (G) a (°) Width (H) 69 11/16 28 1/32 39 11/64 23 5/8 58 7/64 57 51/64 6 1/32 22 30 29/32 MODEL SPECIFICATIONS Model Nominal Number of Total Element First Hour Delivery Recovery in GPH at Depends on mode of Approx. Number Capacity COP Elements Wattage (both in Hybrid Mode 100' Temperature operation per chart Shipping elements at 240V) (Gallons) Rise in Hybrid Mode below: Weight (Ibs) Efficiency = 41 CAHP 120 119 4.2 2 12,000 179 90 Hybrid = 90 620 Electric = 50 Page 2 of 4 Page 1 Packet Pg. 269 2.8.c •Sm'It hy RECOVERY CAPACITIES COMMERCIAL HEAT PUMP WATER HEATERS Recovery Rate In Gallons Per Hour Input Temperature Rise °F Mode of Operation BTU/ FkWHour°C °F 30°F 40°F 50°F 60°F 70°F 80°F 90°F 100°F 110°F 120°F 130°F 140°F 17°C 22°C 28°C 33°C 39°C 45°C 50°C 56°C 61°C 67°C 72°C 78°C Efficiency 33,678 10 GPH 136 102 82 68 58 51 45 41 37 34 31 29 LPH 515 386 309 258 221 193 172 155 140 129 119 110 Hybrid 74,624 22 GPH 302 226 181 151 129 113 101 90 82 75 70 65 LPH 1141 856 685 571 489 428 380 342 311 285 263 245 Electric 40,946 12 GPH 165 124 99 83 71 62 55 50 45 41 38 35 LPH 626 470 376 313 268 235 209 188 171 157 145 134 Technical Characteristics Model Type Integrated Heat Pump Water Heater COP 4.2 HP Rated Input Power 3.15 HP (2.35 kW) HP Rated Heating Output Capacity 11.13 kW Power Specification 208/240Vac — 60Hz 1 Ph Maximum Operation Current 67A Refrigerant R134a Refrigerant Charge Quantity 3.3 Lbs (1.5 Kg) Electrical Heating Capacity 12.0 kW @ 240Vac and 9.0 kW @ 208Vac Measured Tank Capacity 111.76 Gal (423 Q Operation Modes Efficiency, Hybrid, Electric Max. Water Temperature Efficiency/Hybrid 150°F(66°C) 180°F(82°C) Operating Ambient Temperature 40 - 110°F (4.4 - 43.3°C) Unit Operation Noise 59 dB (A) Approx. Heater Weight 498 Lbs (226 Kg) Approx. Shipping Weight 620 Lbs (281 Kg) Page 3 of 4 Page 1 Packet Pg. 270 CSmithy COMMERCIAL HEAT PUMP WATER HEATERS 2.8.c Service clearances Installation Key Considerations A service clearance of 24 inches should be maintained from serviceable parts such as the T&P valve, control system components, drain valve, and anode. Ambient air temperature In Efficiency Mode the ambient air temperature must be above 40°F and below 110°F Room size requirement Recommended to have a minimum installation space of approximately 3,200 cubic feet. Installation spaces less than the recommended could result in reduced water heater efficiency and performance. If the water heater is installed in a confined space with less than 3,200 cubic feet, provisions should be made to ensure sufficient airflow, such as installing louvered grills or fully louvered doors to ensure the most efficient operation of the water heater. Failure to do so could result in reduced heater efficiency and performance. Amperage/Overcurrent protection This water heater requires a 208 or 240 VAC single phase power supply. 208V requires 80 amp power supply at 60 Hz; 240V requires 90 amp power supply at 60 Hz. Condensate draining This water heater produces condensate and must be properly drained. Ducting There is not an optional ducting kit. Discharge air from the front of the water heater must be into a suitable room. Indoor/Outdoor This water heater is approved for indoor use only. This is a partial list. Please reference the Installation Manual for detailed installation considerations. SUGGESTED SPECIFICATION The heater(s) shall be Commercial Heat Pump Model Number CAHP 120 as manufactured by A. 0. Smith Water Products Company or equivalent. Heater(s) shall be rated at 12 kW @ 240V or 9 kW @ 208V, single phase, 60 cycle AC as listed by Underwriters' Laboratories. All models meet National Sanitation Foundation NSF-5 requirements. Water heater shall have LCD display with built-in diagnostic and troubleshooting information. Tank(s) shall be 119 gallon capacity with 160 psi working pressure and equipped with a commercial grade anode. All internal surfaces of the heater(s) exposed to water shall be glass -lined with an alkaline borosilicate composition that has been fused to steel by firing at a temperature range of 1400°F to 1600°F. Internal power circuit fusing shall be provided. The heat pump water heater shall be capable of operating in Efficiency, Hybrid or Electric only modes. 3/4" NPT inlet and outlet water connections shall be provided. The water heater tank shall have a three year limited warranty; the compressor, refrigeration components and all other parts shall have a one year limited warranty. Fully illustrated instruction manual to be included. Meets or exceeds the efficiency and standby loss requirements of the U.S. Department of Energy and current edition of ASHRAE 118.1. © April 2023 A. 0. Smith Corporation. All rights reserved. Page 4 of 4 hotwater.com 1 800-527-1953 Toll -Free USA I A. 0. Smith Corporation 1 500 Tennessee Waltz Parkway I Ashland City, TN 37015 Page 1 Packet Pg. 271 ASPEN"" SUBMITTAL DATA SHEET Maxi Orange Mini -Split Condensate Pump Kit 100-250v 83919 (ASP-MAXO-UNI) Job Name: Location: Engineer: Submitted to: For: ❑ Reference ❑Approval ❑Construction Submitted by: Reference: l0J.& 111L1CIIF]I11h14-11I 1U11 Approval: Date: Construction: Unit #: Drawing #: (Sec. 1) Product Specifications: Pump Length - 4.875" Pump Width - 1.75" Pump Height - 2.625" Capacity - 8.9 GPH @ 0' Head / 1.5 GPH @ 49' Head Max BTUs - 157,000 @ 115 v Max Head in Feet - 49 Max Temperature - 1040F Max Suction Lift - 5' Sound Level - 35dB(A) Dry Contact Rating - 3A NC Voltage - 100 - 250v Amperes - .15 Watts - 16 Remote Reservoir - Y Plenum Rated - N Cable Length - 5' Pump Selector & Wiring Diagrams Available at http://www.rectorseal.com/aspenpump.html (Sec. 11) Ordering Information: Product Code - 83919 Model - ASPMAXOUNI Carton Qty - 1 Carton Weight - 6 (Sec. III) Carton Contents: Pump Assembly Inline Reservoir Submersible Reservoir 5'x1/4" W. Vinyl Discharge Tube Modular 5' Power Cable 6"x1/4" W. Vinyl Breather Tube Drain Hose Adaptor (Fig. 1) Product Image: (Fig. 11) Typical Pump Locations: FALSE CEILING COIL Inline Fuse Cable Ties (6) Self Adhesive Velcro Strips (2) 8"x5/8" i.d. Inlet Tube Installation Manual Anti -Siphon Device 900 Elbow • ABOVE CEILING LINNEESET COVER r • INSIDE LINESET COVER / 1 \ VINYL TUBE CONDENSATE DRAIN TRAY RESERVOIR BREATHER TUBE (RectorSeal's products are subject to continuous improvements; RectorSeal reserves the right to modify product design, specifications & information in this data sheet without notice and without incurring any obligations) ASPEN® is a registered trademark of Aspen Oldco Limited Company UK Page 1 Packet Pg. 272 2.8.c Maxi Orange Mini -Split Condensate Pump Kit 100-250v 83819 (ASP-MAXO-UNI) I Aspen Pump BTU Calculator 1 Maxi Orange 115v 60Hz Head GPH BTU 0 9 157000 5 7.1 122000 10 6 103300 15 5 86100 20 4.2 72300 25 3.6 62000 30 3 52500 35 2.5 42600 40 2.2 37500 45 1.9 33250 49 1.5 25800 Maxi Orange 230v 60Hz Head GPH BTU 0 8 137850 5 6.3 108450 10 5.2 90000 15 4.5 77500 20 3.8 66500 25 3.2 54600 30 2.8 48000 35 2.4 42000 40 2 34000 ou 50 40 M 30 a, = 20 10 0 60 50 —40 x @ 30 ry = 20 10 0 Maxi Orange 115v 60Hz _115v 60Hz Maxi Orange 230v 60Hz _230v 60Hz 45 1.7 1 29250 1.3 2 2.7 3.4 4.1 4.8 5.5 6.2 6.9 7. Flow Rate (GPH) 27500 w Q Pump Selector &Wiring Diagrams Available at (RectorSeal's products are subject to continuous improvements; RectorSeal reserves the right to modify product design, specifications & information in this data sheet without notice and without incurring any obligations) http://www.rectorseal.com/aspenpump.html ASPEN® is a registered trademark of Aspen Oldco Limited Company UK Contact: RectorSeal® 2601 Spenwick Drive, Houston, TX Q 713-263-8001 800-231-3345 Q 713-263-7577 1800-441-0051 © www.rectorseal.com Page 1 © 2015 RectorSeal® Packet Pg. 273 Back to Table of contents Toll Free: 800.772.2099 ■ Order Online: www.StateSupply.com ■ Fax: 651.774.7156 ■ Sales@StateSupply.com Lawler 800 Series Thermostatic Mixing Valves Includes dial thermometer and shut-off valve. ,N 11/2" IN x 2" OUT Connection 0 Lead Free Model 804, 11/2" x 2" Part No: 86308-05 Valve Order No: LW1135 7.. . 8 Minimum Flow: 4 GPM, or 0.50 gpm when used with circulating pump. Weight: 44 lbs. Features and Benefits of Lawler Model 804: ■ 11/2" inlets (2) x 2" outlet (1), NPT pipe. ■ Master domestic water mixing valve: 124 gpm flow @ 30 psi. ■ ASSE 1017 & Lead Free certified; Liquid -filled thermal thermostat. ■ Checkstops with integral strainers located on each inlet. ■ Factory tested and assembled, universal mounting capability. ■ Adjustable temperature range: 900 to 1200 F. Set point @ 1100 F ■ Accurate temperature control within f 3° F. ■ Adjustable set -point within the set temperature range. ■ Positive flow shut-off if failure of cold supply or thermostat. ■ Dial thermometer & outlet shut-off valve included (not shown). ■ Max. inlet pressure: 125 psi; Max. inlet temperature: 2000 F. Repair Parts Guide Detail P1 22 24 28 25 26 27 29 32 41 35 34 33 14 19 .Z _- 18 1 Detail of 36. Bottom Portion 37 11 38 12 Model 804 Repair Kits Complete Repair Kit Items included 7, 10, 12, 13, 18, 22, 24, 31, 32, 35 Wgt Order No. 5.9 LW5525 Piston and Liner Assembly 10, 11, 12, 24, 41 4.0 LW5522 Stop and Check Repair Kit 28, 29, 31, 32, 33, 35 7,22 3.6 LW5403 Thermostat Replacement Kit 4.2 LW5600 Bonnet Assembly 1, 2, 18, 19, 21 3.6 LW5155 O-Ring and Gasket Kit 7, 10, 18, 24, 29, 35, 41 1.4 LW5303 Local: 651.774.5985 40 State aSluae 1p 11 Packet Pg. 274 MANUFACTURING CO., INC. temperedw 5330 East 25th St. Indianapolis, IN 46218 Phone (317) 261-1212 Fax (317) 261-1208 Model 804 Thermostatic Water Controller High -Low Water Mixer Unit No. 73005-12 CAPACITIES — MODEL 804 Pressure Drop PSI 5 10 20 30 45 60 80 Valve Number Capacity 804-GPM 52 72 100 124 150 174 193 804-LPM 197 273 379 469 568 659 731 1/2 gpm when properly installed in recirculated system Master water mixing valve shall be of the thermostatic type with liquid -filled thermal motor. It shall have lead free brass body construction with replaceable corrosion -resistant components. Valve construction shall employ a sliding piston control mechanism. Sliding piston and liner shall be of stainless steel material. Valve shall come equipped with union end stop and check inlets with removable stainless a steel strainers. Valve shall control temperature from a low g flow of 4 GPM" up to a maximum flow rate for a given w pressure differential. Valve shall provide protection against N hot or cold supply line failure and thermostat failure. a FINISH: Brass ❑ Rough Chrome ❑ Other ❑ TEMP. RANGE SET POINT 70' to 100°F 80OF ❑ 900 to 120OF 110°F ❑ 110' to 140°F 130°F ❑ Special ❑ Optional Test Connection ❑ Including garden hose connection, shut-off and thermometer. Brass ❑ Rough Chrome ❑ 3 4 5 10 20 30 40 50 60 70 80 90100 200 300 ElALLOWABLE FLOWS FLOW (GPM) ....0000 MAX ----------- MIN Ofl55E ASSE 1017 Approved Design and specifications subject to change without notice. temperedwater.com/patents ASSE Lead Free Certified Please refer to temperedwater.com to ensure most O. 73005-A current data sheet and other design solutions. Page 1 o� Certified to CSA 6125.3 Packet Pg. 275 MANUFACTURING CO., INC. V y A 61 C A DIMENSIONS Valve Number A N.P.T. B N.P.T. C D 804 1-1/2" 2" 15" 13-1 /2" Dimensions are for reference purposes only. For rough -in dimensions please refer to Lawler's Revit/BIM models found at temperedwater.com. Figure 1 When used in a single temperature recirculating system /. NCWillilimmiliIIIII a STORAGE TANK WATER HEATER Water heater must be ii per 1 Iv - c ? GV BALANCING RECIRCULATION VALVE PUMP AQUASTAT temperedw 5330 East 25th St. Indianapolis, IN 46218 Phone (317) 261-1212 Fax (317) 261-1208 Model 804 Unit No. 73005 Typical Installation Install the mixing valve below the hot water tank or heater If this is not possible, pipe in a heat trap as shown in Figure 1 with an approximate 2' drop. Connect a tempered water return line as shown in Figure 1. This allows flow through both ports of the mixing valve during periods of no draw. If a dual temperature system is used, a separate recirculating loop and pump are required to return high temperature hot water to the water heater. See Figure 2. Install an aquastat at the tempered water return pump. Install the water heater per manufacturer's instructions Figure 2 When used in a dual temperature recirculating system CV TO HIGH FIXTURESTURE CWi TO LOW 1 TEMPERATURE FIXTURES � 1 1 HEAT TRAP 27" DROP CV —CW HW CA AQUASTAT 11 CV — BALANCING RECIRCULATION VALVE PUMP STORAGE TANK CV WATER HEATER Water heater must RECIRCULATION be Installed Per PUMP Design and specifications subject to change without notice. Please refer to temperedwater.com to ensure most current data sheet and other design solutions. Page 1 Packet Pg. 276 Bell & Gossett a xylem brand JOB: UNITTAG: ENGINEER: CONTRACTOR: 2.8.c SUBMITTAL A- SH� cL us LISTED REPRESENTATIVE: ORDER NUMBER: DATE: SUBMITTED BY: DATE: APPROVED BY: DATE: ecocirc° 20-18 1 ecocirc+ 20-18 High Efficiency Wet Rotor Circulator with Electronically • Commutated Motor (ECM) DESCRIPTION The ecocirc 20-18 circulators are designed with a highly efficient electronically commutated permanent magnet motor (ECM Technology). Cast iron flanged models are designed for closed loop hydronic heating and cooling systems, and stainless steel flanged and union body pumps for plumbing systems or open loop heating and cooling systems. CONSTRUCTION MATERIALS Pump Body: Cast Iron or Stainless Steel Impeller: Impact Modified PPE Shah: Ceramic/Alumina Rotor Can: 316 Stainless Steel Bearings: Ceramic/Alumina O-Ring: EPDM All Other Wetted Parts: 304 or 316 Stainless Steel Motor Type: Electronically Commutated Permanent Magnet Motor Insulation Class: F Check Valve: 1" Noryl Check Valve shipped loose for field installation OPERATING DATA Maximum Working Pressure: 145 psi (10 Bar) Minimum Working Temperature: 14°F (-10°C) Maximum Working Temperature: 230°F (110°C) Ambient Temperature Range: 32°F - 104°F (0°C - 40°C) SCHEDULE ecocirc 20-18 PERFORMANCE Fixed Speed Curve Proportional Pressure Curve m /hr 0 0.9 0.8 1.2 1.6 2 2.4 2.8 3.2 3.6 4 h m 61 Constant Pressure Curve 0 0.4 0.8 1.2 1.6 2 2.4 2.8 3.2 3.6 4 m•/hr CAST IRON BODY (Flanged) STAINLESS STEEL BODY (Flanged and Union) RATED MOTOR CHARACTERISTICS MODEL NUMBER PART NUMBER MODEL NUMBER PART NUMBER VOLTAGE PHASE Hz WATTS RANGE AMP RANGE ecocirc 20-18 60BOB1000 ecocirc 20-18 60BOB1001 115V 1 50/60 0-70 flanged stainless steel flanged .06-1.02 ecocirc 20-18 60BOB1002 115V 1 50/60 0-70 .06-1.02 stainless steel union Note: Where potable water is pumped, use a stainless steel circulator. ecocirc 20-18 and ecocirc+ 20-18 circulators are recommended for indoor use only. SCHEDULE ecocirc+ 20-18 CAST IRON BODY (Flanged) STAINLESS STEEL BODY (Flanged and Union) RATED MOTOR CHARACTERISTICS MODEL NUMBER PART NUMBER MODEL NUMBER PART NUMBER VOLTAGE PHASE Hz WATTS RANGE AMP RANGE ecocirc+ 20-18 ecocirc+ 20-18 60BOB1003 60BOB1004 115V 1 50/60 0-70 .06-1.02 flanged stainless steel flanged ecocirc+ 20-18 60BOB1005 115V 1 50/60 0-70 .06-1.02 stainless steel union Note: Where potable water is pumped, use a stainless steel circulator. ecocirc 20-18 and ecocirc+ 20-18 circulators are recommended for indoor use only. Page 1 Packet Pg. 277 ecocirc/ecocirc+ 20-18 PUMP DIMENSIONS (FLANGED) DIMENSIONS - INCHES (mm) APPROX. SHIPPING WEIGHT LB. (KG) MODEL NUMBER A B E F H H1 H2 H3 I CAST IRON STAINLESS STEEL ecocirc 20-18 flanged 6.38" (162) 3.54" (90) 4.57" (116) 5.9" (150) 3.54" (90) 4.29" (109) 1.73" (44) 1.73" (44) 3.74" (95) 6.2 Ib. (2.81) 5.86 lb. (2.66) ecocirc+ 20-18 6.38" (162) 3.54" (90) 4.57" (116) 5.9" (150) 3.54" (90) 4.29" (109) 1.73" (44) 1.73" (44) 3.74" (95) 6.2 lb. 5.86 lb. flan ed (2.81) (2.66) vr DIMENSIONS - INCHES (mm) COMPANION FLANGE PART NUMBERS MODEL NUMBER FLANGED SIZE INCHES -NPT #OF BOLTS C D G CAST IRON PN STAINLESS STEEL PN ecocirc 20-18 W. 1 ", 1-1/a", 1-1/z" 2 .47" (12) 3.15" (80) 3.74" (95) 101201-101204 101501 LF - 101504LF flanged ecocirc+ 20-18 3/a" 1 ", 1-1/a", 1/z" 2 .47" (12) 3.15" (80) 3.74" (95) 101201-101204 101501 LF - 101504LF flanged ecocirc/ecocirc+ 20-18 PUMP DIMENSIONS (UNION) H DIMENSIONS -INCHES (mm) APPROX. SHIPPINGWEIGHT LB. (KG) MODEL NUMBER A B E F H H1 H2 H3 I CAST STAINLESS IRON STEEL ecocirc 20-18 6" (152.4) 3.36" (85.4) 4.57" (116) 5.9" (150) 3.54" (90) 4.29" (109) 1.73" (44) 1.73" (44) 3.74" (95) N/A 4.61 Ib. (2.09) union ecocirc+ 20-18 6" (152) 3.36" (85.4) 4.57" (116) 5.9" (150) 3.54" (90) 4.29" (109) 1.73" (44) 1.73" (44) 3.74" (95) N/A 4.61 Ib. (2.09) union DIMENSIONS- INCHES (mm) UNION CONNECTOR KIT PART NUMBERS MODEL NUMBER UNION TAILPIECE # OF SIZE INCHES - NPT BOLTS G CAST IRON PN BRONZE PN ecocirc 20-18 1/z" Sweat, 3/a" Sweat, 3/a" NPT 0 1 1/a" NPSM N/A 113203LF, 113201 LF, 113202LF union ecocirc+ 20-18 1/z" Sweat, 3/a" Sweat,'/a" NPT 0 1 1/a" NPSM N/A 113203LF, 113201 LF, 113202LF union Page 1 Packet Pg. 278 2.8.c SAFETY STANDARDS AND PROTECTION Enclosure: Class 1, IP44 (equivalent to NEMA Type 2) UL Listed to UL 778; UL 1004-1, 1004-7; and UL 60730-1 cUL Listed to C22.2 #108 Electronically Thermally Protected (Integrated Motor Protection) Motor Insulation Class: F Stainless steel models are NSF/ANSI-61 certified STANDARD OPERATING MODES hCONSTANT SPEED The pump maintains a constant speed at any flow \ rate. The desired speed is set on the interface panel of the pump. LCONSTANT PRESSURE (Ap-c) The pump maintains a constant differential pressure at any flow demand until the maximum speed is reached. The desired head of the pump can be set via user interface. Recommended for use in systems Ll with small or constant pressure losses. LPROPORTIONAL PRESSURE (Ap-v) The differential pressure continuously increases or \ deceases based on the flow demand. The set point head can be set on the pump user interface. Use for systems with large pressure losses. QNIGHT MODE (ecocirc+ 20-18 only) The pump will automatically reduce speed when there is an abrupt change in fluid temperature. The change in fluid temperature is from a boiler operating in night time setback mode. The external temperature sensor is used. (Fixed Speed, Constant Pressure, Proportional Pressure) INPUT SIGNALS (ecocirc+ 20-18 only) TEMPERATURE DEPENDENT OPERATING MODES (ecocirc+ 20-18 only) SET POINT TEMPERATURE (Ap-T) (ecocirc+ 20-18 only) The nominal differential pressure set point is modified \ based on the fluid temperature. Uses an external temperature sensor. SET POINT TEMPERATURE (T) (ecocirc+ 20-18 only) The pump maintains a constant temperature in a system, \ such as domestic hot water system or a single temperature heating system. Uses an external temperature sensor. eAdapt (ecocirc+ 20-18 only) The pump will optimize the energy consumption by identifying the ideal duty point. F . Air Purge Air purge will remove the dissolved gases from the pump. One 0-10V (Analog): Speed Control by external controller One external temperature sensor input for temperature modes. Sensor Type: KYT38, P/N: 104502 ONBOARD USER INTERFACE 4 2 1 xylem Xylem Inc. 820000 N. Austin Avenue Let's Solve Water Morton Grove, IL 60053 Tel: (847) 966-3700 Fax: (847) 965-8379 www.xylem.com/bellgossett © 2020 Xylem 5 3 3 �--= lw� 6 'r , W_oc V I I. 1 Control mode knob 2 Control mode indicators 3 Status/Fault indicators 4 Numeric display 5 Parameter indicators 6 Control mode button 7 Remote control status indicator Page 1 Packet Pg. 279 Bell & Gossett is a trademark of Xylem Inc. or one of its subsidiaries. A-ECO20-18 November 2020 %Bell & Gossett a xylem brand JOB: UNITTAG: ENGINEER: CONTRACTOR: REPRESENTATIVE: ORDER NUMBER: DATE: SUBMITTED BY: DATE: APPROVED BY: DATE: DESCRIPTION Series "PTA" expansion tanks are ASME rated, pre -charged diaphragm -type vessels. The Series "PTA" tank is designed to absorb the forces of expanding water and protect the domestic water system from pressure build up. The FDA approved heavy duty butyl diaphragm and polypropylene liner (sizes PTA-5 through PTA-210V) or replaceable full acceptance butyl bladder (sizes PTA-447 through PTA-457) completely isolates the water from the shell. All units include an integrated bladder integrity monitor. Models PTA-5 through PTA-210V comply with NSF/ANSI Standard 61 Factory Pre -charged Pressure: 40 PSI SCHEDULE 2.8.c SUBMITTA Series "PTA" (ASME) Residential/Commercial Potable Water Diaphragm Expansion Tanks For Potable Water Systems CONSTRUCTION Shell: Carbon Steel System Connection: Stainless Steel PTA-5 through PTA-210V. Butyl diaphragm; Polypropylene Liner PTA-447 through PTA-457: Replaceable Butyl Bladder PERFORMANCE LIMITATIONS PTA-5 through PTA-210V- 240oF (115°C), 150 PSI (1035 kPa) PTA-447 through PTA-457: 240°F (115°C), 150 PSI (1035 kPa) PART NUMBER MODEL NUMBER GALLONS (LITERS) TAGGING INFORMATION QUANTITY TANK VOLUME ACCEPTANCE VOLUME 1 BN346LF PTA-5 3.5 (13) 2.3 (9) 1 BN347LF PTA-12 5 (19) 3.3 (12) 1 BN348LF I PTA-20V 8 (30) 5.3 (20) 1 BN349LF PTA-30V 15 (57) 10 (38) 1 BN350LF PTA-42V 22 (83) 14 (53) 1 BN351 LF PTA-60V 26 (98) 18 (68) 1 BN352LF PTA-80V 35 (132) 24 (91) 1BN353LF PTA-100V 45 (170) 30 (113) 1 BN354LF PTA-125V 60 (227) 40 (151) 1 BN355LF PTA-160V 70 (265) 47 (178) 1 BN356LF PTA-180V 80 (302) 53 (200) 1 BN357LF PTA-210V 90 (340) 60 (227) 1 BN358LF PTA-447 53 (200) 53 (200) 1 BN359LF PTA-448 80 (300) 80 (300) 1 BN360LF PTA-449 106 (400) 106 (400) 1 BN361 LF PTA-450 132 (500) 132 (500) 1 BN362LF PTA-451 158 (600) 158 (600) 1 BN363LF PTA-452 211 (800) 211 (800) 1BN364LF PTA-453 264 (1,000) 264 (1,000) 1BN365LF PTA-454 317 (1,200) 317 (1,200) 1BN366LF PTA-455 370 (1,400) 370 (1,400) 1BN367LF PTA-456 422 (1,600) 422 (1,600) 1 BN368LF PTA-457 528 (2,000) 528 (2,000) Page 1 Packet Pg. 280 SERIES PTA 2.8.c DIAPHRAGM EXPANSION TANKS — PRE -PRESSURIZED (ASME CONSTRUCTION) DIMENSIONS AND WEIGHTS A O O o A t �j1 B B PTA-5 thru PTA-12 DIMENSIONS IN INCHES (MM) PTA-20V thru PTA-210V PTA-447thru PTA-449 PTA-450 thru PTA-457 MODEL NUMBER DIMENSIONS - INCHES (MM) SYSTEM CONNECTION CHARGING VALVE SHIPPING WEIGHT LBS. (KG.) A HEIGHT B DIAMETER PTA-5 14 (356) 10 (254) 3/4" NPTF .302"-32 NC 22 (10) PTA-12 14 (356) 12 (305) 3/4" NPTF .302"-32 NC 28 (13) PTA-20V 21 (508) 12 (305) 3/4" NPTF .302"-32 NC 34 (15) PTA-30V 25 (610) 16 (406) 1 " NPTF .302"-32 NC 50 (23) PTA-42V 31 (787) 16 (406) 1 " NPTF .302"-32 NC 57 (26) PTA-60V 34 (864) 16 (406) 1 " NPTF .302"-32 NC 62 (28) PTA-80V 45 (1,143) 16 (406) 1 " NPTF .302"-32 NC 80 (36) PTA-100V 39 (991) 20 (508) 1 " NPTF .302"-32 NC 110 (50) PTA-125V 50 (1,270) 20 (508) 1" NPTF .302"-32 NC 134 (61) PTA-160V 47 (1,194) 24 (610) 1-1/2" NPTF .302"-32 NC 177 (80) PTA-180V 50 (1,270) 24 (610) 1-1/2" NPTF .302"-32 NC 184 (83) PTA-210V 53 (1,346) 24 (610) 1-1/2" NPTF .302"-32 NC 193 (88) PTA-447 43 (1,092) 24 (610) 1-1/2" NPTF .302"-32 NC 220 (100) PTA-448 55 (1,397) 24 (610) 1-1/2" NPTF .302"-32 NC 236 (107) PTA-449 49 (1,245) 30 (762) 1-1/2" NPTF .302"-32 NC 315 (143) PTA-450 57 (1,448) 30 (762) 2" NPTF .302"-32 NC 347 (158) PTA-451 65 (1,651) 30 (762) 2" NPTF .302"-32 NC 378 (172) PTA-452 76 (1,930) 32 (813) 2" NPTF .302"-32 NC 503 (229) PTA-453 86.5 (2,197) 36 (914) 3" NPTF .302"-32 NC 795 (361) PTA-454 98.5 (2,502) 36 (914) 3" NPTF .302"-32 NC 820 (373) PTA-455 110.5 (2,807) 36 (914) 3" NPTF .302"-32 NC 980 (445) PTA-456 84 (2,134) 48 (1,219) 3" NPTF .302"-32 NC 1,395 (634) PTA-457 96 (2,438) 48 (1,219) 3" NPTF .302"-32 NC 1,525 (693) Dimensions are subject to change. Notto be used for construction purposes unless certified. SPECIFICATION Furnish and install as shown on plans a gallon ( liter), " ( mm) diameter x " ( mm) high pre - charged vertical steel expansion tank with integral FDA approved, heavy duty butyl blend diaphragm and lined dome, for domestic potable water. The tank shall have a " NPT system connection, and a .302"-32 charging valve connection (standard tire valve) to facilitate on -site charging of the tank to meet system requirements. The tank shall include an integrated bladder integrity monitor. xylem Xylem Inc. 8200 N. Austin Avenue Let's Solve Water Morton Grove, IL 60053 Tel: (847) 966-3700 Fax: (847) 965-8379 www.xylem.com/bellgossett The tank must be constructed in accordance with ASME Code Section VIII Division 1. The tank must be designed for a maximum working pressure of PSI ( kPa) and maximum working temperature of °F ( °C). Each tank shall be Xylem — Bell & Gossett Model No. Page 1 BelI & Gossett is a trademark of Xylem Inc. or one of its subsidiaries. Packet Pg. 281 02021 Xylem Inc. A-31BG January2021 01M RK @ 470 Beauty Spot Rd. E, Bennettsville, SC 29512 c&s File # E21609 HEATING PANEL CEILING PANELS SUBMITTAL SHEET CP SERIES ELECTRIC RADIANT CEILING PANELS SIDE P FRAME 9 END FRAME CORNER <L Ll Recess Mounting Kit v \ ENDFRAME SCREWS / SIDE FRAME MOUNTII HOLES Surface Mounting Kit TAG QTY. CATALOG NUMBER SIZE VOLTS WATTS CUSTOM FEATURES TAG QTY. CAT. NO. DESCRIPTION ACCESSORIES AND CONTROLS DATE: PROJECT: ARCHITECT: ENGINEER: CONTRACTOR: SUBMITTED BY: I" C r r- C. I - r rc C C 00 C - r i s< r; r< t. ZSS-QCPOO (07-23) Printed in U.S.A. Page 1 Packet Pg. 282 2.8.c STANDARD FEATURES CUTAWAY DRAWING OF A HEATING PANEL 24 CAUSE Sim RAa<CFLNIT MIN.1 INCH, 1 PCIUND DENSITY HIGH TEMPERATURE FIBERGLASS I NSULATICN 11 --22 CA.UGESTEEL FRONTOFUNIT CRYSTALLINESURFACE T-BAR SYSTEM RADIANT UNIVERSAL HEATING PANCL MCUMING C INGTILE CLIP CBLINGTILE TEAR GRID • VOLTS WATTS • CP251F 120 CP258F 208 CP252F 240 250 CP257F 277 CP253F 347 24 CP311F 120 CP318F 208 x CP312F 240 310 24 CP317F 277 x CP313F 347 1 CP371F 120 CP378F 208 CP372F 240 375 CP377F 277 CP373F 347 CP501F 120 CP508F 208 CP502F 240 500 CP507F 277 CP503F 347 24 CP621F 120 CP628F 208 x CP622F 240 625 48 CP627F 277 x CP623F 347 1 CP751F 120 CP758F 208 CP752F 240 750 CP757F 277 CP753F 347 CRYSTALLINE SURFACE - The panel's unique crystalline surface greatly enhances the radiant characteristics of the heating panel. Radiant output is in the 8-10 micron wavelength. This is ideal for comfort. Human skin will absorb 99% of the radiant energy in these wavelengths. Humans themselves radiate heat predominately in that micron range. Without the panel's crystalline surface a panel will be less radiant, operate at higher temperature and produce energy at shorter wavelengths. ELEMENT - Encapsulated cassette heating element assures uniform temperatures and long life. METAL: Back - 24 Gauge Galvanized or Aluminized Steel. Front - 22 Gauge Galvanized or Aluminized Steel. Sides - Overlapping Front and Back. WIRE: Internal - 200'C, 14 Gauge, Teflon insulated. External - Pig Tails with 48" of 1/2" flexible conduit and connector forJ-Box. ELEMENT. The encapsulated cassette element delivers a uniform temperature distribution over entire panel surface. INSULATION: Minimum 1 inch, 1 pound density, high temperature fiberglass. SURFACE: All ceiling panels are coated with unique crystalline surface. Flurry white finish. WIRING - For connection to the main power supply, the heater is completely prewired including green ground wire, with the lead wires housed in a 48-inch length of flexible metal conduit and connector for J-Box mounting. WIRING DIAGRAMS: HEATERS MUST BE PROPERLY GROUNDED 208V & 240V 120V. 277V & 347V SUPPLY SUPPLY LINE VOLTAGE THERMOSTAT OR SWITCH (NOT INCLUDED SEE CATALOG B R G 8 1N G HEATER HEATER UNIVERSAL HANGING CLIPS -All radiant ceiling panels are supplied with COMBINATION EARTHQUAKE/T-BAR GRIP CLIPS as a standard feature. These clips have holes for support chains or can be folded over the T-BAR to reduce lateral movement. CERTIFICATION AND SAFETY FIRE RATING - Heating panels do not have a fire rating, but construction is of fire retardant materials. Panels normally are treated like light fixtures. If necessary, acoustical tile can be placed on top of the panels. HAZARDOUS AREAS - Heating panels do not have a hazardous rating. ACCESSORIES PRODUCT Surface Mounting Frame for QSF2424 24" x 24" Panels Surface Mounting Frame for QSF2448 24" x 48" Panels Recess Mounting Frame for QRF2424 24" x 24" Panels Recess Mounting Frame for F2448 F 24" x 48" Panels STANDARD FINISH - Standard mounting kits finished white to blend with standard panel flurry white finish. END FRAME M.",NG HCLES ,IDE FRAME FRAME CONSTRUCTION FOR SURFACE MOUNT PANELS EXTRUDED ALUMINUM FRAME RADIANT METAL: Extruded Aluminum. HEATER Decorative Frame: .062"thick, 3"deep. WOOD: Heaters can be framed in wood Consult your factory representative for specifics. SIDE FRAME P END FRAME COMER �2YZ7o oZLI� FRAME CONSTRUCTION FOR RECESSED PANELS JOIST RADIANT HEATER METAL: Extruded aluminum inverted'T'. -- FRAME 'T' .125 thick by 1.432 wide by 1.875" high. Measuring for Custom Ceiling Panels: • Panels are built to fit inside the dimensions given. • Measurements must be from "T" Bar OCenter Line to "T" Bar Center Line • Do Not Measure Opening 1 Ii —_ - - - - -- Page 1 Packet Pg. 283 CUSTOM FEATURES 1. CUSTOM SIZE PANELS While a wide variety of panel sizes are listed as standard, the factory produces thousands of panels each year of varying widths and lengths to order. SELECTION CHART NUMBER WIDTH =11:10S.11 High 155 235 315 390^ N/A N/A N/A 10-13 Med. 130 195 260 325^ N/A N/A N/A Low 105 155 210 260^ N/A N/A N/A High 235 350 470 585^ N/A N/A N/A 14-17 Med. 195 295 390 490^ N/A N/A N/A. QTI—@@# Low 155 235 315 390^ N/A N/A N/A High 315 470 625 780 940^ N/A N/A 18-21 Med. 260 390 520 650 780^ N/A N/A Low 210 315 415 520 625^ N/A N/A High 375 565 750 940 1125 1315 1500 22-28 Med. 310 470 625 785 940 1095 1250 Low 1 250 375 500 625 1 750 875 1000 LEGEND: + Watt Density: H = High, M = Medium, L = Low A Maximum Panel Length = 60 inches "Width of Panel AA Maximum Panel Length = 72 Inches. @@Length of Panel # Voltage Designation: 1 = 120, 8 = 208, 2 = 240, 7 = 277, 3 = 347 2. CUSTOM SIZE FRAMES ACCESSORIES QSF**@@ Surface Mounting Frame QRF**@@ Recess Mounting Frame ** Width of Heater (10" to 28") @@Length of Heater (10" to 96") 3. TEGULAR (revealed edge) Tegular systems may utilize a standard grid with a 15/16" cross-T or a "fine line" grid with a 9/16" cross-T. The acoustical tile is notched to hang below the grid creating the revealed edge. Tegular panels are built with a support angle on all four sides to allow the panel front to drop flush with the finished ceiling. REVEALED EDGE CEILING SYSTEM TEGULAR FINELINE TEGULAR UNIVERSAL Ma -MI NG n N8_INE- Mips TEQILPR- 9I16"GRID RADIANT 15/16"GWD HEATINGPANe_ I� 2 Elm \ TE ULARCBLINGTILE—_� Tegular and Fine line Tegular panels are supplied standard with universal mounting clips installed for support chain. 4. CONCEALED SPLINE SYSTEMS These systems utilize ceiling tiles notched to hide the T-bar grid. heating panels will be treated in a manner similar to the lights in such a system. We will build a custom recessed frame and panel to fit inside the grid opening. The recessed frame will be suspended independently from the T-bar grid. The result is a flush -mounted panel with an exposed trim finishing off the adjacent tiles and supporting the panel. 5. SILKSCREEN Radiant heating panels can be silk screened to provide an architectural blend with leading acoustical tiles. For T- bar, concealed spline and tegular ceiling systems. 6. CUSTOM COLORS Radiant heating panels can be painted any color desired with high temperature acrylic paints without affecting panel performance. Radiant energy is emitted from heating panels in the 8-10 micron wavelength range. One of the principal characteristics of this wavelength is that it is not color selective as are shorter wavelengths. Consequently, the surface color of the panel is unimportant to heating efficiency and can be considered solely in the light of aesthetics. 2.8.c 7. PANEL FRONTS FOR A CONTINUOUS CEILING LINE To provide a continuous ceiling line aroun the perimeter of a building, the factory car provide panel fronts to be interspersed between the functioning heating panels. Field-trimmable filler panels also are available. &SEAL TIGHT FLEXIBLE CONDUIT AN CONNECTORS Radiant ceiling panels come with 1/2" Greenfield flexible conduit and straight connectors as standard equipment. Seal tight connectors and conduit can be substituted at the factory if panels are to t used in high moisture areas or if required by local electrical codes. 9. FACTORY SILICONE SEALED PANELS FOR USE IN HIGH MOISTURE AREAS - Exterior moisture and condensation do not affect heating panel performance, but water inside the unit car cause the panel to fail. Panels being used in locker rooms and swimming pool areas should be totally sealed with silicone at th factory before shipment. If there is a chance of moisture above the ceiling, thet seal tight conduit and seal tight connector also should be used. 10. LONGER FLEXIBLE CONDUIT Panels will replace the standard 48" Greenfield with up to 11' of 1/2" flexible conduit. 11. CONTROLS P/E Switches - factory prewired to heater: 20 amps - 120V, 240V, 208V and 277V. Power Relay - factory prewired to heaters 30 amps single pole, 120 volt holding coil. 12. HEAVIER DUTY PANELS For special installations the factory can u: heavier gauge steel in the construction of the panels. 13. STAINLESS STEEL CONSTRUCTIOI PANELS FOR CHLORINE STORAGE AREAS - Special stainless steel panels at available for chlorine storage areas. Panels will be equipped with seal tight connectors and silicone sealed. 14. MODULAR WIRING SYSTEMS For specific jobs, the factory can substitu modular connectors for the straigl connectors and pig tails that are standal equipment. Page 1 3 Packet Pg. 284 2.8.c W W_ 2 W W a U ARCHITECT'S & ENGINEER'S SPECIFICATIONS * The electric ceiling heating panel shall be as manufactured by QMark, A Division of Marley Engineered Products, Bennettsville, SC. The construction and design shall permit it to be: recessed ceiling mounted with the use of Recessed Mounting Kit, fit into standard or custom designed modules of a T-bar suspended ceiling, or surface mounted with the use of a Surface Mounting Kit. Panels shall include the custom features listed below. HEATING ASSEMBLY: The heating assembly shall be UL Listed and CSA Certified and shall consist of powdered graphite encapsulated in a plastic laminate with heavy duty copper buss bars running the entire length, backed by 1 inch, 1 pound density high temperature fiberglass insulation to insulate against heat loss to the ceiling and separated from the inside of the panel by a dielectric insulation to assure uniform heat transfer throughout the entire radiating surface of the heater. The rated input shall be: (62.5 watts/sq. ft. with an average temperature of not more than 165 degree F.) or (95 watts/sq. ft. with an average surface temperature of 200 degree F.), to assure long trouble free life. The panel voltage shall be (120, 208, 240, 277) WIRING: For connection to the main power supply, the heater shall be completely prewired, with the lead wires housed in a 48 inch length of flexible metal conduit and connector for J-Box mounting. Appropriate wiring diagrams shall appear on the back of the panel. PANEL ASSEMBLY: The metal heating panel, containing the completely prewired heating assembly, shall be of 22 gauge formed galvanized steel front and 24 gauge formed galvanized steel back. Sides are overlapping front and back panels riveted together. FINISH: The front of the heating panel shall be QMark's unique multi -faceted crystalline type surface finished with high temperature silicone paint. CUSTOM FEATURES: Radiant heating panels shall be provided with the following custom features: SURFACE MOUNTING CUSTOM SIZE in. Length, in Width. SILK SCREENING to blend with acoustical tile. TEGULAR (Revealed edge) CUSTOM COLOR to match architectural samples. PAINTED FRAME to match heater (Surface or Recess only) FACTORY SILICONE SEALED SEAL TIGHT FLEXIBLE CONDUIT and CONNECTORS LONGER FLEXIBLE CONDUIT Surface Mounting Kit shall come in a separate carton which contains: two side frames, two end frames and eight assembly screws. Frame shall be field assembled before installing on ceiling q �\\ EN%FRAME SCREWS /, ETINGS V Total length in. by 1/2" (Max Length 132") HEAVY DUTY CONSTRUCTION _Gauge front _Gauge back _STAINLESS STEEL CONSTRUCTION _Panel _Frame EARTHQUAKE CLIPS SURFACE MOUNTING Surface Mounting Kit shall come in a separate carton which contains: two side frames, two end frames and eight assembly screws. Frame shall be field assembled before installing on ceiling. RECESS MOUNTING Recess Mounting Kit shall come in a separate carton which contains: four frame sections and four corner pieces Recess mounting shall require a: (Panel Length + 3/8") X (Panel Width + 3/8") cutout in the ceiling and a secure method of support. *QMark reserves the right to change specifications without prior notice. RECESS MOUNTING Recess Mounting Kit shall come in a separate carton which contains: four frame sections and four corner pieces. Recess mounting shall requires a: (Panel Length + 3/8") X (Panel Width + 3/8") cutout in the ceiling and a secure method of support. SIDE FRAME P `� END FRAME CORNER -a Page 1 Packet Pg. 285 GREENHECK ® Building Value in Air. Model: APD-315-Al Plenum fan, coated steel steel, bolted construction. 2.8.c Job Name: APD-315-Al Cut Sneef Tag: MK ] Quantity: Printed Date: October 16, 202; Standard Construction Features: Galvanized steel, bolted construction. Centrifugal coated steel seven bladed, backward curved wheel. Direct driven motor in the airstream. Fan Configuration Fan material Aluminum Drive type Direct Performance Requested Volume (CFM) 1,000 Actual Volume (CFM) 1,000 Total External SP (in. wg) 1 Operating frequency (Hz) 54 Fan RPM 1,600 Operating Power (bhp) 0.22 Startup Power (bhp) 0.3 FEI 1.97 Air Stream Temp (F) 70 Start-up Temp (F) 70 Air Density (lbs/ft^3) 0.075 Elevation (ft) 100 Static Efficiency (%) 70 Outlet Velocity (ft/min) 870 Motor Size (hp) 1 V/C/P 460/60/3 NEC FLA (Amps) 2.1 Min Circuit Ampacity (MCA) 2.6 Max Overload Production (MOP) 15 FLA - based on tables 150 or 148 of National Electric Code 2002. Actual motor FLA may vary, for sizing thermal overload, consult factory. MCA and MOP values shown only account for the motor, not accessories (damper actuator, field supplied VFD, etc.). 0.9 a 0.6 IZ V M 0.3 Ln 0 a � � r '6 Oo moo.. 0 2 4 6 8 10 12 Volume (CFM) x 100 Fan curve - - - Brake horsepower curve 0 Operating Point SP 0 Operating Bhp point Max system curve - - System curve Sound 14 16 18 0.25 a 0.2 co v 0.15 0 Q v U, 0.1 0 _ v 0.05 m I Octave Bands (hz) LwA dBA Sones 62.5 125 250 500 1000 2000 4000 8000 Inlet 59 66 63 63 60 59 55 54 66 54 7.3 QmCp Greenheck Fan Corporation certifies that the model shown herein WORIDWIDi is licensed to bear the AMCA Seal. The ratings shown are based on CERTIFIED tests and procedures performed in accordance with AMCA RRTIIIGS Publication 211 and AMCA Publication 311 and comply with the (CURD requirements of the AMCA Certified Ratings Program.The AMCA nno AIR certified ratings seal applies to sound and air performance and FEI PEIFORMADOE FEI ratings only.Performance certified is for installation type A: Free inlet, free outlet.Power rating does not include transmission losses. Performance ratings do not include the effects of appurtenances.The AMCA licensed air and/or sound performance data has been modified for installation, appurtenances, etc. not included in the certified data. The modified performance is not AMCA licensed but is provided to aid in selection and applications of the product.The sound power level ratings are shown in decibels, referred to 10^-12 watts calculated per AMCA Standard 301. The A -weighted sound ratings shown have been calculated per AMCA International Standard 301.Values shown are for inlet Lwi and LwiA sound power levels for installation Type A: free inlet, free outlet.dBA levels are not licensed by AMCA International. The AMCA Certified Ratings Seal for Sound applies to LwiA ratings only. ❑0 27. Page 1 of 2 Version Packet Pg. 286 ff,GREENHECK Building Value in Air. I 2.8.c Job Name: APD-315-A1 Cut Sneec Tag: MK-] Quantity: ' Printed Date: October 16, 202--- Dimensions and Weights Label Value Description 86 Weight w/o accessories (lbs) A 18 Overall Height (in) B 18 Overall Width (in) C 19 Overall Length (in) E 0 ci *All dimensions are in inches. Page 2 of 2 Version 3.6DQie9 I Packet Pg. 287 2.8.c 1. Specification Wall Mounted Type Model Name Indoor Unit AC030BNTDCH/AA AC036BNTDCH/AA Outdooru Unit AC030BXADCH/AA AC036BXADCH/AA US Code Indoor Unit CNH30TDB CNH36TDB Outdooru Unit CXH30ADB CXH36ADB Mode Heat Pump Heat Pump Performance Capacity (Min/Std/Max) Cooling kW 2.49/8.79/9.67 3.22 /10.55 /11.43 Btu/h 8,500 / 30,000 / 33,000 11,000 / 36,000 / 39,000 US RT 0.71 / 2.50 / 2.75 0.92 / 3.00 / 3.25 Heating kW 2.11 / 9.38 / 12.31 2.78 111.72 / 13.77 Btu/h 7,200 / 32,000 / 42,000 9,500 / 40,000 / 47,000 USRT 0.60/2.67/3.50 0.79/3.33/3.92 Power Input (Min/Std/Max) Cooling kW 0.50 / 3.03 / 3.85 0.90 / 3.79 / 4.30 Heating 0.41 / 3.35 / 5.40 0.56 / 4.51 / 5.82 Power Current Input (Min/Std/Max) Cooling A 2.5 / 13.6 / 17.1 5.0 / 16.8 / 19.1 Heating 2.1 / 15.0 / 24.0 3.0 / 20.0 / 24.0 Current MCA A 24.0 24.5 MOP A 30 35 EER2 Cooling 2.90 2.78 Cooling(US) (Btu/h)/W 9.90 9.50 Efficiency COP2 Heating W/W 2.80 2.60 SEER2 20.0 19.2 System HSPF2 8.3 8.5 Liquid Pipe Type Flare Flare m, mm(inch) 9.52 (3/8) 9.52 (3/8) Pipe Gas Pipe Type Flare Flare m, mm(inch) 15.88 (5/8) 15.88 (5/8) Connections Heat Insulation Both liquid and gas pipes Both liquid and gas pipes Pipe Length (ODU-IDU) Standard m (ft) 7.5 (24.6) 7.5 (24.6) Max. m (ft) 50 (164.0) 75 (246.0) Elevation m (ft) 30 (98.4) 30 (98.4) Chargeless m (ft) 7.5 (24.6) 7.5 (24.6) Wiring Connections Communication Min. MM2 0.75 0.75 Remark F1,F2 F1,F2 Type R410A R-410A Refrigerant Factory Charging kg 2.6 2.9 lbs 5.73 6.39 Option Code Standard 0113FF-193572-275A5E-371700 0113FF-194593-276975-371700 Install - 020010-100000-200000-300000 020010-100000-200000-300000 Power Supply m,#,V,Hz 1,2,208-230,60 1,2,208-230,60 Type F&T F&T Heat Exchanger Material Fin Al Al Tube Cu Cu Fin Treatment = Green Hydrophile Green Hydrophile Type Sirocco Sirocco Quantity EA 2 2 Fan Air Flow Rate H/M/L m3/min 22.0/20.5/19.0 23.5/21.3/19.8 ft3/min 777/724/671 830/752/699 l/s 367/342/317 392/355/330 ndoor External Static Pressue Min/Std/Max In Wg - - Unit Fan Motor Type BLDC BLDC Output Wxn 58x1 58x1 Drain Drain Pipe m, mm ID18 ID18 Sound Sound Pressure Level FH/M/L/Sbnt dB(A) 49/47/45/37 51/48/46/38 Sound Power Level dB(A) 63 65 Net Weight kg(lbs) 18.5 (40.8) 18.5 (40.8) Gross Weight kg(lbs) 22.0 (48.5) 22.0 (48.5) External Dimension Net Dimensions (WxHxD) mm 1,280 x 253 x 345 1,280 x 253 x 345 inch 50.39 x 9.96 x 13.58 50.39 x 9.96 x 13.58 Gross Dimensions (WxHxD) mm 1,352 x 326 x 420 1,352 x 326 x 420 inch 53.23 x 12.83 x 16.54 53.23 x 12.83 x 16.54 L) r-� C O E t v R a Page 1 Packet Pg. 288 2.8.c 1. Specification Wall Mounted Type Model Name Indoor Unit AC030BNTDCH/AA AC036BNTDCH/AA Outdooru Unit AC030BXADCH/AA AC036BXADCH/AA US Code Indoor Unit CNH30TDB CNH36TDB Outdooru Unit CXH30ADB CXH36ADB Casing Material Plastic Plastic Control Infrared remote control DB96-24901P DB96-24901P Indoor System Wired remote control MWR-WGOOUN / MWR-SH11UN MWR-WGOOUN / MWR-SH11UN Unit Drain Pump Drain Pump Max.lifting Height/ Displacement in / gal/h Additional Accessories Air Filter Washable Washable Power Supply m,#,V,Hz 1,2,208-230,60 1,2,208-230,60 Type Fin & Tube Fin & Tube Heat Exchanger Material Fin Al Al Tube Cu Cu Fin Treatment Anti -Corrosion Anti -Corrosion Compressor Model UG8T300FUBJUSG UG5TK1450FJXSG Type Twin BLDC Twin BLDC Output kW 2.82 4.19 Oil Type POE PVE Initial Charge cc (fl oz) 1200 1700 Type Propellar Propellar Discharge direction Front Front Quantity EA 1 2 Outdoor Unit Fan Air Flow Rate H/M/L m3/min 76 100 ft3/min 2,684 3,532 l/s 1,267 1,667 Fan Motor Type BLDC BLDC Output W x n 125 x 1 125 x 2 Sound Sound Pressure Level Cooling dB(A) 50 52 Heating dB(A) 52 54 Sound Power Level dB(A) 67 69 Net Weight kg(lbs) 72.0 (158.7) 86.0 (189.6) Gross Weight kg(lbs) 77.0 (169.8) 95.5 (210.5) External Dimension Net Dimensions (WxHxD) mm 940 x 998 x 330 940 x 1,210 x 330 inch 37.01 x 39.29 x 12.99 37.00 x 47.64 x 12.99 Gross Dimensions (WxHxD) mm 995 x 1,096 x 426 995 x 1,388 x 426 inch 39.17 x 43.15 x 16.77 39.17 x 54.65 x 16.77 Casing Material Body Steel Steel Operating Cooling °C (°F) -18-50 (0-122) -18-50 (0-122) Temp. Range Heating °C (°F) -20-24 (-4-75) -20-24 (-4-75) Aft NOTE • Specification may be subject to change without prior notice. 1) Performances are based on the following test conditions. Cooling: Indoortemperature : 80°F(26.7°C) DB, 67°F(19.4°C) WB, Outdoortemperature : 95°F(35°C) DB, 75°F(23.9°C) WB Heating: Indoortemperature:70°F(21.1°C) DB, 60°F(15.6°C) WB, Outdoortemperature:47°F(8.3°C) DB, 43°F(6.1°C) WB Equivalent refrigerant piping length 7.5m(24.6ft), Level differences : Om(Oft)) 2) Select wire size based on the value of MCA 3) Sound pressure level is obtained in an anechoic room. Sound pressure level is a relative value, depending on the distance and acoustic environment. Sound pressure level may differ depending on operation condition. dBA = A -weighted sound pressure eve[/ Reference acoustic pressure 0 dB = 20uPa 4) Sound power level is an absolute value that a sound source generates. dBA = A -weighted sound power level Reference power:1pW / Measured according to ISO 3741 5) These products contain R410Awhich is fluorinated greenhouse gas. Page 1 Packet Pg. 289 2.8.c S A M S U N G 1:, DVM Pro 2.0 Report Project Customer: Jaron Burbank Project Name: Francis Anderson Location: USA, Seattle -Tacoma, WA Date: 2023-10-11 Designer Name: Bryce Hobday Phone: bryce@croswa.com Email: bryce@croswa.com Address: Software Version: 2.0.0.96 DB version: 20231005-223223 Page 1 Packet Pg. 290 2.8.c Table of Abbreviations Abbreviation Description Add. Ref. Additional Refrigerant AM Airflow Mode Block Load Block Load CM Cooling Operation Mode Corr. Capa Correction Capacity Corr. PI Correction Power Input CR Combination Ratio DB Dry Bulb Temperature Des Temp Design Temperature Dis. Temp. Discharge Temperature Equip. Name Equipment Name EWT Entering Water Temperature FR Flow Rate HM Heating Operation Mode IDU Indoor Unit LWT Leaving Water Temperature Max. Capa Maximum Capacity Min. HOR Minimum Heating Operation Ratio ODU Outdoor Unit Op. WF Range Operating Water Flow Range Op. WT Range Operating Water Temperature Range Operating Temp. Range Operating Temperature Range PHE Plate Heat Exchanger Pipe Mat. Piping Material PL Pressure Loss PWL Sound Power level Ref. Pipe Refrigerant Pipe Rq. Vent. Vol. Required Ventilation Volume SHC Sensible Heat Capacity SPL Sound Pressure Level TC Total Capacity WB Wet Bulb Temperature 47/43, 120 DB / WB, LWT (for DVM Chiller Heating capacity) Page 1 Packet Pg. 291 2.8.c S A M S U N G DVM Pro 2.0 Equipment List Type Type Model Code Description Unit Qty. AM0966XVGJR/AA DVM 52 Heat Recovery EA 1 AM1446XVGJR/AA DVM 52 Heat Recovery EA 2 AM1686XVGJR/AA DVM 52 Heat Recovery EA 1 AM1926XVGJR/AA DVM 52 Heat Recovery EA 1 ODU AM2166XVGJR/AA DVM 52 Heat Recovery EA 1 AM2646XVGJR/AA -AM0966XVGJR/AA x 1 -AM 1686XVGJR/AA x 1 DVM 52 Heat Recovery EA 1 AMOOSTNVDCH/AA Wall -Mounted (WindFree) EA 3 AM007TNVDCH/AA Wall -Mounted (WindFree) EA 6 AM012TNVDCH/AA Wall -Mounted (WindFree) EA 12 AM015TNVDCH/AA Wall -Mounted (WindFree) EA 3 IDU AM006JNGDCH/AA Floor Standing EA 14 AM009JNGDCH/AA Floor Standing EA 12 AM012JNGDCH/AA Floor Standing EA 4 AM018JNGDCH/AA Floor Standing EA 12 AM024JNGDCH/AA Floor Standing EA 31 MCU-S12NEK1UN MCU (New), 12 Ports EA 4 MXJ-YA3100M Y-joint EA 1 MXJ-YA3419M Y-joint EA 1 Pipe Mat. MXJ-TA3100M Outdoor joint EA 1 MXJ-TA3819M Outdoor joint EA 1 MCU-S8NEKIUN MCU (New), 8 Ports EA 7 MWR-WGOOUN Wired remote controller EA 97 Controller MCM-A300UN Touch centralized controller EA 1 MIM-6176UN BACnet Gateway EA 1 Accessory BD-BLUE230 Blue Diamond Maxi Blue Condensate Pump EA 46 Add. Ref. R410A Refrigerant Ibs 146.08 Type Size Length [ft] /Quantity [EA] Liquid Pipe Gas Pipe H.P. Gas Total 6.35(1/4") 1299.69 0.00 0.00 1299.69 9.52(3/8") 608.27 0.00 0.00 608.27 12.7(1/2") 60.00 1299.69 0.00 1359.69 Ref. Pipe 15.88(5/8") 79.69 518.43 40.00 638.11 19.05(3/4") 20.00 40.00 49.84 109.84 22.22(7/8") 0.00 49.84 89.84 139.69 Page 1 Packet Pg. 292 2.8.c S A M S U N G Equipment List (Continued) DVM Pro 2.0 Type Size Length [ft] /Quantity [EA] Liquid Pipe Gas Pipe H.P. Gas Total 28.58(11/8") 0.00 139.69 69.84 209.53 Ref. Pipe 34.92(13/8") 0.00 20.00 0.00 20.00 Page 1 Packet Pg. 293 2.8.c S A M S U N G Piping System (ODU-4) Design Condition DVM Pro 2.0 Installation Design Condition (Air) Outdoor Indoor CM HM CM HM Temperature (DB/W B) [°F] 84.0 / 64.9 21.0 / 17.2 80.6 / 66.2 68.0 / 59.0 Altitude Correction - Type Floor Room Name Equip. Name Model Code ODU 1F - ODU-4 AM1446XVGJR/AA IDU 1F - IDU-3 AM006J NG DCH/AA - IDU-4 AM006J NG DCH/AA - IDU-2.1 AM018JNGDCH/AA - IDU-2.2 AM018JNGDCH/AA - IDU-1.1 AM009JNGDCH/AA - IDU-1.2 AM009JNGDCH/AA - IDU-1.3 AM009JNGDCH/AA - IDU-8 AM009J NG DCH/AA - IDU-7.1 AM009JNGDCH/AA - IDU-7.2 AM009JNGDCH/AA - IDU-7.3 AM007TNVDCH/AA - IDU-7.4 AM007TNVDCH/AA - IDU-7 AM009J NG DCH/AA - IDU-5.1 AM012JNGDCH/AA - IDU-5.2 AM012JNGDCH/AA - IDU-6 AM012JNGDCH/AA Equip. Name Model Code CR [%] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM ODU-4 AM1446XVG1R/AA 114.93 161031 185967 161031 185967 Page 1 Packet Pg. 294 2.8.c S A M S U N G Piping (Continued) System (ODU-4) (Continued) Indoor Unit DVM Pro 2.0 Equip. Name Model Code AM Des Temp[°F] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM CM HM WB DB TC SHC TC TC SHC TC IDU-3 AM006JNGDCH/AA H 66.2 68.0 5947 4423 7180 5839 4343 7072 IDU-4 AM006JNGDCH/AA H 66.2 68.0 5947 4423 7180 5839 4343 7072 IDU-2.1 AM018JNGDCH/AA H 66.2 68.0 17840 14191 20480 17516 13933 20173 IDU-2.2 AM018JNGDCH/AA H 66.2 68.0 17840 14191 20480 17516 13933 20173 IDU-1.1 AM009JNGDCH/AA H 66.2 68.0 9393 7585 10700 9223 7448 10539 IDU-1.2 AM009JNGDCH/AA H 66.2 68.0 9393 7585 10700 9223 7448 10539 IDU-1.3 AM009JNGDCH/AA H 66.2 68.0 9393 7585 10700 9223 7448 10539 IDU-8 AM009JNGDCH/AA H 66.2 68.0 9393 7585 10700 9223 7448 10539 IDU-7.1 AM009JNGDCH/AA H 66.2 68.0 9393 7585 10700 9223 7448 10539 IDU-7.2 AM009JNGDCH/AA H 66.2 68.0 9393 7585 10700 9223 7448 10539 IDU-7.3 AM007TNVDCH/AA H 66.2 68.0 7500 5000 8500 7364 4909 8372 IDU-7.4 AM007TNVDCH/AA H 66.2 68.0 7500 5000 8500 7364 4909 8372 IDU-7 AM009JNGDCH/AA H 66.2 68.0 9393 7585 10700 9223 7448 10539 IDU-5.1 AM012JNGDCH/AA H 66.2 68.0 11893 9356 13860 11678 9186 13652 IDU-5.2 AM012JNGDCH/AA H 66.2 68.0 11893 9356 13860 11678 9186 13652 IDU-6 AM012JNGDCH/AA H 66.2 68.0 11893 9356 13860 11678 9186 13652 Equip. Name Model Code Address Accessory Main RMC ODU-4 AM1446XVGJR/AA - - - - IDU-3 AM006JNGDCH/AA - - - - BD-BLUE230 IDU-4 AM006JNGDCH/AA - - - - BD-BLUE230 IDU-2.1 AM018JNGDCH/AA - - - - BD-BLUE230 IDU-2.2 AM018JNGDCH/AA - - - - BD-BLUE230 IDU-1.1 AM009JNGDCH/AA - - - - BD-BLUE230 IDU-1.2 AM009JNGDCH/AA - - - - BD-BLUE230 IDU-1.3 AM009JNGDCH/AA - - - - BD-BLUE230 IDU-8 AM009JNGDCH/AA - - - - BD-BLUE230 IDU-7.1 AM009JNGDCH/AA - - - - BD-BLUE230 IDU-7.2 AM009JNGDCH/AA - - - - BD-BLUE230 IDU-7.3 AM007TNVDCH/AA - - - - BD-BLUE230 Page 1 Packet Pg. 295 2.8.c S A M S U N G Piping (Continued) System (ODU-4) (Continued) Accessory 11. DVM Pro 2.0 Combination Ratio Equip. Name Model Code Address Accessory Main RMC IDU-7.4 AM007TNVDCH/AA - - - - BD-BLUE230 IDU-7 AM009JNGDCH/AA - - - - BD-BLUE230 IDU-5.1 AM012JNGDCH/AA - - - - BD-BLUE230 IDU-5.2 AM012JNGDCH/AA - - - - BD-BLUE230 IDU-6 AM012JNGDCH/AA - - - - BD-BLUE230 Model Code CR [%] Operation Mode Min. HOR [%] Block Load [Btu/h] Max. Capacity [Btu/h] CM HM CM HIM AM1446XVGJR/AA 114.93 HR - - - 161031 185967 Checklist Restriction Value Design Result Long pipe length is 60.98 ft (Restriction: 666.17 ft). 656.17 ft 60.98 ft Total pipe length is 380.98 ft (Restriction: 3280.84 ft). 3280.84 ft 380.98 ft Pipe length from first Y-Joint to the farthest IDU is 40.98 ft (Restriction: 147.64 ft). 147.64 ft 40.98 ft Height difference between ODU and IDU is 0.00 ft (restriction: 361.00 ft) (ODU higher 361.00 ft 0.00 ft than IDUs). Height difference between ODU and IDU is 6.66 ft (restriction: 361.00 ft) (ODU lower 361.00 ft 6.66 ft than IDUs). Height difference between IDUs when there is no wall mounts with EEV is 0.00 ft 131.23 ft 0.00 ft (restriction: 131.23 ft). Height difference between IDUs when there are wall mounts with EEV is 6.66 ft 98.43 ft 6.66 ft (restriction: 98.43 ft). Height difference between the lowest IDU and the highest wall mount with EEV is 6.6 49.21 ft 6.66 ft ft (restriction: 49.21 ft). Height difference between MCUs is 0.00 ft (restriction: 98.43 ft). 98.43 ft 0.00 ft Page 1 Packet Pg. 296 2.8.c S A M S U N G Piping (Continued) System (ODU-4) (Continued) Refrigerant DVM Pro 2.0 Factory Charging and Additional Refrigerant Amount Refrigerant Amount [lbs] Factory Charging Refrigerant Amount 23.10 Additional Refrigerant Amount 19.45 Total 42.55 Q Page 1 Packet Pg. 297 2.8.c SAMSUNG Piping (Continued) System (ODU-4) (Continued) Piping Diagram t AM144BXVG_ a :.:. 1F 1"03118tt111 11868675r., r- 0.00 1;, DVM Pro 2.0 MCU1.1 _ -1.2 WU-5BNE-+Vti _ MCU 58NEKIM MCU f1CU IDU AM009JNGDCHIAA I IDU-7.1 82238tu1h 174480tuM 1106388tuM 30001110EI _ O AM009JNGDCHIAA I IDU-7.2 82238tu/h 17448BtWh 1106399MM 9 o AM007TNVDCH/AA I IDU-7.3 17364MUM 149086tWh 163728W/h ]O.ODRpE� 6 +N'pTln; AM007TNVDCHIAA I IDU-7.4 i73648tWh 14909BtuM 18372Btu1h 3000RpE1 AM009JNGDCH/AA I IDU-7 :o oonoE� - 82238tuM 17448Blut" 1105388tu/h O AM012JNGDCH/AA I IDU-5.1 _ 11678BtWh 191868tWh 1136528tu/h ]O OORNEI O o AM012JNGDCHIAA I IDU-5.2 ]O OORNEI _ 116788tulh 181868tulh 1136528tuwr 9 o AM012JNGDCH/AA I IDU-6 aonoE� 116788tum 181868tulh 1136528tu1r m 0 AM006JNGDCHIAA I IDU-3 A - 68396tWh 14343Btulh 170726tu/h 10001 6 ° AM006JNGDCH/AA I IDU-4 6839Btu/h 143438t" 170728tum t0 mIUEI O vrprl'yn; — ^ AM018JNGDCH/AA I IDU-2.1 - 17518Btuni 113933Btut" 1201738tu1h m OORaEA O vrgrrr�; o AM018JNGDCH/AA I IDU-2.2 m—E. 175166tu1h 113833Btulh 1201738tu/h O vnn; -_ _ o AM009JNGDCHIAA I IDU-1.1 m-E. 92238tulh 17448BtWh 1105398W/h 6 AM009JNGDCHIAA I IDU-1.2 _ 92236tulh 17448Btulh 11053MU/h M 0 IDEA AM009JNGDCHIAA I IDU-1.3 92236tu/h 17448BtWh 1105398tu/h m oortaE,. 6 AM009JNGDCH/AA I IDU-8 oortaE� 9223Btu/h 17448BtWh 1105398tu/h za O The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. Page 1 Packet Pg. 298 2.8.c S A M S U N G Piping (Continued) System (ODU-6) Design Condition DVM Pro 2.0 Installation Design Condition (Air) Outdoor Indoor CM HM CM HM Temperature (DB/W B) [°F] 84.0 / 64.9 21.0 / 17.2 80.6 / 66.2 68.0 / 59.0 Altitude Correction - Type Floor Room Name Equip. Name Model Code ODU 1F - ODU-6 AM1446XVGJR/AA IDU 1F - IDU-20 AM012TNVDCH/AA - IDU-21 AM012TNVDCH/AA - IDU-19.1 AM015TNVDCH/AA - IDU-19.2 AM015TNVDCH/AA - IDU-28 AM009J NG DCH/AA - IDU-25 AM018JNGDCH/AA - IDU-26 AM018JNGDCH/AA - IDU-27 AM009J NG DCH/AA - IDU-9.1 AM009JNGDCH/AA - IDU-9.2 AM009JNGDCH/AA - IDU-29 AMOOSTNVDCH/AA - IDU-22 AM012TNVDCH/AA - IDU-23 AM012TNVDCH/AA - IDU-24.1 AM012TNVDCH/AA - IDU-24.2 AM012TNVDCH/AA - IDU-30 AMOOSTNVDCH/AA Equip. Name Model Code CR [%] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM ODU-6 AM1446XVGJR/AA 129.17 179110 202316 179110 202316 Page 1 Packet Pg. 299 2.8.c S A M S U N G Piping (Continued) System (ODU-6) (Continued) Indoor Unit DVM Pro 2.0 Equip. Model Code AM Des Temp[°F] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HIMCM HIMCM HIMName WB DB TC SHC TC TC SHC TC IDU-20 AM012TNVDCH/AA H 66.2 68.0 12000 8000 13500 11602 7735 12984 IDU-21 AM012TNVDCH/AA H 66.2 68.0 12000 8000 13500 11602 7735 12984 IDU-19.1 AM015TNVDCH/AA H 66.2 68.0 15000 10100 17000 14503 9765 16350 IDU-19.2 AM015TNVDCH/AA H 66.2 68.0 15000 10100 17000 14503 9765 16350 IDU-28 AM0091NGDCH/AA H 66.2 68.0 9393 7585 10700 9082 7334 10291 IDU-25 AM0181NGDCH/AA H 66.2 68.0 17840 14191 20480 17248 13720 19697 IDU-26 AM018JNGDCH/AA H 66.2 68.0 17840 14191 20480 17248 13720 19697 IDU-27 AM0091NGDCH/AA H 66.2 68.0 9393 7585 10700 9082 7334 10291 IDU-9.1 AM0091NGDCH/AA H 66.2 68.0 9393 7585 10700 9082 7334 10291 IDU-9.2 AM0091NGDCH/AA H 66.2 68.0 9393 7585 10700 9082 7334 10291 IDU-29 AM005TNVDCH/AA H 66.2 68.0 5000 3400 5800 4834 3287 5578 IDU-22 AM012TNVDCH/AA H 66.2 68.0 12000 8000 13500 11602 7735 12984 IDU-23 AM012TNVDCH/AA H 66.2 68.0 12000 8000 13500 11602 7735 12984 IDU-24.1 AM012TNVDCH/AA H 66.2 68.0 12000 8000 13500 11602 7735 12984 IDU-24.2 AM012TNVDCH/AA H 66.2 68.0 12000 8000 13500 11602 7735 12984 IDU-30 AMOOSTNVDCH/AA H 66.2 68.0 5000 3400 5800 4834 3287 5578 Equip. Name Model Code Address Accessory Main RMC ODU-6 AM1446XVG1R/AA - - - - IDU-20 AM012TNVDCH/AA - - - - BD-BLUE230 IDU-21 AM012TNVDCH/AA - - - - BD-BLUE230 IDU-19.1 AM015TNVDCH/AA - - - - BD-BLUE230 IDU-19.2 AM015TNVDCH/AA - - - - BD-BLUE230 IDU-28 AM0091NGDCH/AA - - - - BD-BLUE230 IDU-25 AM0181NGDCH/AA - - - - BD-BLUE230 IDU-26 AM0181NGDCH/AA - - - - BD-BLUE230 IDU-27 AM0091NGDCH/AA - - - - BD-BLUE230 IDU-9.1 AM0091NGDCH/AA - - - - BD-BLUE230 IDU-9.2 AM0091NGDCH/AA - - - - BD-BLUE230 IDU-29 AMOOSTNVDCH/AA - - - - BD-BLUE230 Page 1 Packet Pg. 300 2.8.c S A M S U N G Piping (Continued) System (ODU-6) (Continued) Accessory 11. DVM Pro 2.0 Combination Ratio Equip. Name Model Code Address Accessory Main RMC IDU-22 AM012TNVDCH/AA - - - - BD-BLUE230 IDU-23 AM012TNVDCH/AA - - - - BD-BLUE230 IDU-24.1 AM012TNVDCH/AA - - - - BD-BLUE230 IDU-24.2 AM012TNVDCH/AA - - - - BD-BLUE230 IDU-30 AMOOSTNVDCH/AA - - - - BD-BLUE230 Model Code CR [%] Operation Mode Min. HOR [%] Block Load [Btu/h] Max. Capacity [Btu/h] CM HM CM HIM AM1446XVGJR/AA 129.17 HR - - - 179110 202316 Checklist Restriction Value Design Result Long pipe length is 60.98 ft (Restriction: 666.17 ft). 666.17 ft 60.98 ft Total pipe length is 380.98 ft (Restriction: 3280.84 ft). 3280.84 ft 380.98 ft Pipe length from first Y-Joint to the farthest IDU is 40.98 ft (Restriction: 147.64 ft). 147.64 ft 40.98 ft Height difference between ODU and IDU is 0.00 ft (restriction: 361.00 ft) (ODU higher 361.00 ft 0.00 ft than IDUs). Height difference between ODU and IDU is 6.66 ft (restriction: 361.00 ft) (ODU lower 361.00 ft 6.66 ft than IDUs). Height difference between IDUs when there is no wall mounts with EEV is 0.00 ft 131.23 ft 0.00 ft (restriction: 131.23 ft). Height difference between IDUs when there are wall mounts with EEV is 6.66 ft 98.43 ft 6.66 ft (restriction: 98.43 ft). Height difference between the lowest IDU and the highest wall mount with EEV is 6.5 49.21 ft 6.66 ft ft (restriction: 49.21 ft). Height difference between MCUs is 0.00 ft (restriction: 98.43 ft). 98.43 ft 0.00 ft Page 1 Packet Pg. 301 2.8.c S A M S U N G Piping (Continued) System (ODU-6) (Continued) Refrigerant DVM Pro 2.0 Factory Charging and Additional Refrigerant Amount Refrigerant Amount [lbs] Factory Charging Refrigerant Amount 23.10 Additional Refrigerant Amount 21.95 Total 45.05 Q Page 1 Packet Pg. 302 2.8.c SAMSUNG Piping (Continued) System (ODU-6) (Continued) Piping Diagram 1F 1791108tu/h 120231661u r 0.00 1;, DVM Pro 2.0 MCU3.1 - MCU3.2 mu-SBNE-1Uti MCU 58NEKIM MCU f1CU o„ AM009JNGDCH/AA I IDU-9.1 m aonaE� - 90828tWh 173348tWh 11029/8tulh O AM009JNGDCHIAA I IDU-9.2 :- oonaE� 80828tWh 173348t" 1102919tWh o AMOOSTNVDCH/AA I IDU-29 '4834BtWh 132678tulh 155780tulh m aoRgE� 0 1N-p Tln; AM012TNVDCH/AA I IDU-22 m aoRgE1 '116028tWh 177358tWh 1129848tuth • , r.ln: ^ AM012TNVDCH/AA I IDU-23 116028t" 177358tu1h 11296481u/h :o BOflgE. 0 va-,1rr1n: ^ AM012TNVDCH/AA I IDU-24.1 116028t" 177358tu1h 11296481u/t- m aortgEA O 1N-ilrrtn: o AM012TNVDCHIAA I IDU-24.2 30 aongEl _ 11602MUM 177358tWh 1129848tufi c 1ri� o AMOOSTNVDCHIAA I IDU-30 1N-EA - - 48348tWh 1326TOW/h 1557880th 0 AM012TNVDCHIAA I IDU-20 1t000RpEI 116028tWh 17735OW/h 1129848tulh vrgrri�: o AM012TNVDCH/AA I IDU-21 _ 11602Btulh 177386tWh 112984Btu1h m aongE� 0 vrgrri�: u AM01STNVDCH/AA I IDU-19.1 14503M/h 19765Btu/h 116350Btu/" m OortaE� 0 vr,lrin: o AM01STNVDCH/AA I IDU-19.2 3000RgEI 145038tultt 197658tulh 11635OBtulh 0 AM009JNGDCHIAA I IDU-28 m OORaEI 90828tu/h 173348tu/h 110291Btulh 0 AM018JNGDCHIAA I IDU-25 - 17248BtWh 113720BtWh 119697Btu/h m oaeaE. 0 AM018JNGDCHIAA I IDU-26 17248Btulh 113720Btulh 1196978tu/h m oortaE,. 0 vrnrin: — ^ AM009JNGDCH/AA I IDU-27 - 90826tu/h 173348tWh 1102918tu/h m oaeaE. O The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. Page 2 Packet Pg. 303 2.8.c S A M S U N G Piping (Continued) System (ODU-5) Design Condition DVM Pro 2.0 Installation Outdoor Unit Design Condition (Air) Outdoor Indoor CM HM CM HM Temperature (DB/W B) [°F] 84.0 / 64.9 21.0 / 17.2 80.6 / 66.2 68.0 / 59.0 Altitude Correction - Type Floor Room Name Equip. Name Model Code ODU 1F - ODU-5 AM1686XVGJR/AA IDU 1F - IDU-11.1 AM024JNGDCH/AA - IDU-11.2 AM024JNGDCH/AA - IDU-11.3 AM024JNGDCH/AA - IDU-11.4 AM024JNGDCH/AA - IDU-13 AM007TNVDCH/AA - IDU-17.1 AM018JNGDCH/AA - IDU-17.2 AM018JNGDCH/AA - IDU-18 AM009J NG DCH/AA - IDU-10.1 AM018JNGDCH/AA - IDU-10.2 AM018JNGDCH/AA - IDU-12 AM012JNGDCH/AA - IDU-14 AM007TNVDCH/AA - IDU-15 AM006J NG DCH/AA - IDU-16 AM006J NG DCH/AA Equip. Name Model Code CR [%] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM ODU-5 AM1686XVGJR/AA 128.87 202145 233611 202145 233611 Equip. Name Model Code AM Des Temp[°F] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM CM HM WB DB TC SHC TC TC SHC TC IDU-11.1 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 22397 17788 25974 IDU-11.2 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 22397 17788 25974 Page 2 Packet Pg. 304 2.8.c S A M S U N G Piping (Continued) System (ODU-5) (Continued) Indoor Unit DVM Pro 2.0 Equip. Name Model Code AM Des Temp[°F] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM CM HM WB DB TC SHC TC TC SHC TC IDU-11.3 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 22397 17788 25974 IDU-11.4 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 22397 17788 25974 IDU-13 AM007TNVDCH/AA H 66.2 68.0 7500 5000 8500 7062 4708 7999 IDU-17.1 AM0181NGDCH/AA H 66.2 68.0 17840 14191 20480 16798 13362 19273 IDU-17.2 AM0181NGDCH/AA H 66.2 68.0 17840 14191 20480 16798 13362 19273 IDU-18 AM0091NGDCH/AA H 66.2 68.0 9393 7585 10700 8845 7142 10069 IDU-10.1 AM0181NGDCH/AA H 66.2 68.0 17840 14191 20480 16798 13362 19273 IDU-10.2 AM0181NGDCH/AA H 66.2 68.0 17840 14191 20480 16798 13362 19273 IDU-12 AM0121NGDCH/AA H 66.2 68.0 11893 9356 13860 11199 8809 13043 IDU-14 AM007TNVDCH/AA H 66.2 68.0 7500 5000 8500 7062 4708 7999 IDU-15 AM0061NGDCH/AA H 66.2 68.0 5947 4423 7180 5599 4165 6757 IDU-16 AM0061NGDCH/AA H 66.2 68.0 5947 4423 7180 5599 4165 6757 Equip. Name Model Code Address Accessory Main RMC ODU-5 AM1686XVGJR/AA - - - - IDU-11.1 AM024JNGDCH/AA - - - - BD-BLUE230 IDU-11.2 AM0241NGDCH/AA - - - - BD-BLUE230 IDU-11.3 AM0241NGDCH/AA - - - - BD-BLUE230 IDU-11.4 AM0241NGDCH/AA - - - - BD-BLUE230 IDU-13 AM007TNVDCH/AA - - - - BD-BLUE230 IDU-17.1 AM0181NGDCH/AA - - - - BD-BLUE230 IDU-17.2 AM0181NGDCH/AA - - - - BD-BLUE230 IDU-18 AM0091NGDCH/AA - - - - BD-BLUE230 IDU-10.1 AM0181NGDCH/AA - - - - BD-BLUE230 IDU-10.2 AM0181NGDCH/AA - - - - BD-BLUE230 IDU-12 AM0121NGDCH/AA - - - - BD-BLUE230 IDU-14 AM007TNVDCH/AA - - - - BD-BLUE230 IDU-15 AM0061NGDCH/AA - - - - BD-BLUE230 IDU-16 AM0061NGDCH/AA - - - - BD-BLUE230 Page 2 Packet Pg. 305 2.8.c S A M S U N G 11. DVM Pro 2.0 Piping (Continued) System (ODU-5) (Continued) Combination Ratio System Check Result Refrigerant Factory Charging and Additional Refrigerant Amount Refrigerant Amount [lbs] Factory Charging Refrigerant Amount 23.10 Additional Refrigerant Amount 22.15 Total 45.25 Model Code CR [%] Operation Mode Min. HOR [%] Block Load [Btu/h] Max. Capacity [Btu/h] CM HM CM HM AM1686XVGJR/AA 128.87 HR - - - 202145 233611 Checklist Restriction Value Design Result Long pipe length is 60.98 ft (Restriction: 656.17 ft). 656.17 ft 60.98 ft Total pipe length is 380.98 ft (Restriction: 3280.84 ft). 3280.84 ft 380.98 ft Pipe length from first Y-Joint to the farthest IDU is 40.98 ft (Restriction: 147.64 ft). 147.64 ft 40.98 ft Height difference between ODU and IDU is 0.00 ft (restriction: 361.00 ft) (ODU higher 361.00 ft 0.00 ft than IDUs). Height difference between ODU and IDU is 6.56 ft (restriction: 361.00 ft) (ODU lower 361.00 ft 6.56 ft than IDUs). Height difference between IDUs when there is no wall mounts with EEV is 0.00 ft 131.23 ft 0.00 ft (restriction: 131.23 ft). Height difference between IDUs when there are wall mounts with EEV is 6.56 ft 98.43 ft 6.56 ft (restriction: 98.43 ft). Height difference between the lowest IDU and the highest wall mount with EEV is 6.5 49.21 ft 6.56 ft ft (restriction: 49.21 ft). Height difference between MCUs is 0.00 ft (restriction: 98.43 ft). 98.43 ft 0.00 ft Page 2 Packet Pg. 306 2.8.c SAMSUNG Piping (Continued) System (ODU-5) (Continued) Piping Diagram ODU S AM168B%VGJRIAA 1F 2021456tu/h 1233611Btu4- 0.00 11. DVM Pro 2.0 MCU2.1 _ MGV38NEK1llti MCU2.2 MCV-SBNEKIUM1 MCU R1LU IDU u. AM018JNGDCHIAA I IDU-10.1 - 167988tWh 1133620 Wh 11927361Wh m twnpEl O ^ AM018JNGDCH/AA I IDU-10.2 167845W/h 1133625tU/h 11927361WI' 20 WIDE. 0 v 1zy., u AM012JNGDCH/AA I IDU-12 1119981Wh 18809Btulh 113wolu h 0 I.I � AM007TNVDCH/AA I IDU-14 70628t" 14708MUth 179998101 ]O OORIUEI. Q va-nrs'1.r .. u AM006JNGDCHIAA I IDU-15 - 5589BtWh 141638101 157570101 m tpllpEl O u AM006JNGDCH/AA I IDU-16 - 5598BtWh 1416581Wh 167578101 "—OE. 0 IDU RP, Mat DU Pi 1.1..t sa-Ivri.r . " AM024JNGDCHIAA I IDU-11.1 m - 223978101 117THOW/h 125874BtWh tprtpEw 0 xa.lyy„i�: o AM024JNGDCH/AAI IDU-11.2 - 22397MUlh 1177888t" 1259748t" ]O OORgE� 0 AM024JNGDCH/AAI IDU-11.3 223978tt0h 1177680tulh 12597461Wh m oongE� 0 WIWI., - o AM024JNGDCH/AAI IDU-11.4 - 2239781Wh 1177888t" 12597451" m—,.E; O ucna-1a: AM007TNVDCH/AAIIDUA3 7062MWh 14TOOMUh 1799919" m tanoE� 0 1N.Mn.1a: u AM018JNGDCH/AAI IDU-17.1 - 1679881Wh 1133628t" 11927351" n oon oE� 0 u AM018JNGDCH/AAI IDU-17.2 _ 1679601Wh 1133628t11lh 11927351" AM009JNGDCHIAA I IDU-18 6"WlWh 171428tWh 11006961Wh 0 The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. Page 2 Packet Pg. 307 2.8.c S A M S U N G Piping (Continued) System (ODU-7.1) Design Condition DVM Pro 2.0 Installation Outdoor Unit Design Condition (Air) Outdoor Indoor CM HM CM HM Temperature (DB/W B) [°F] 84.0 / 64.9 21.0 / 17.2 80.6 / 66.2 68.0 / 59.0 Altitude Correction - Type Floor Room Name Equip. Name Model Code ODU 1F - ODU-7.1 AM2166XVGJR/AA IDU 1F - IDU-31.1 AM024JNGDCH/AA - IDU-31.2 AM024JNGDCH/AA - IDU-31.3 AM024JNGDCH/AA - IDU-32.1 AM024JNGDCH/AA - IDU-32.2 AM024JNGDCH/AA - IDU-32.3 AM024JNGDCH/AA - IDU-33 AM024J NG DCH/AA - IDU-34 AMOOSTNVDCH/AA - IDU-35 AM007TNVDCH/AA - IDU-40.1 AM024JNGDCH/AA - IDU-40.2 AM024JNGDCH/AA - IDU-40.3 AM024JNGDCH/AA Equip. Name Model Code CR [%] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM ODU-7.1 AM2166XVGJR/AA 116.90 247389 284829 247389 284829 Equip. Name Model Code AM Des Temp[°F] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM CM HM WB DB TC SHC TC TC SHC TC IDU-31.1 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23504 18667 27080 IDU-31.2 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23504 18667 27080 IDU-31.3 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23504 18667 27080 IDU-32.1 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23504 18667 27080 Page 2 Packet Pg. 308 2.8.c S A M S U N G Piping (Continued) System (ODU-7.1) (Continued) Indoor Unit DVM Pro 2.0 Accessory Equip. Name Model Code AM Des Temp[°F] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM CM HM WB DB TC SHC TC TC SHC TC IDU-32.2 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23504 18667 27080 IDU-32.3 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23504 18667 27080 IDU-33 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23504 18667 27080 IDU-34 AM005TNVDCH/AA H 66.2 68.0 5000 3400 5800 4941 3360 5691 IDU-35 AM007TNVDCH/AA H 66.2 68.0 7500 5000 8500 7411 4941 8340 IDU-40.1 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23504 18667 27080 IDU-40.2 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23504 18667 27080 IDU-40.3 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23504 18667 27080 Equip. Name Model Code Address Accessory Main RMC ODU-7.1 AM2166XVGJR/AA - - - - IDU-31.1 AM024JNGDCH/AA - - - - IDU-31.2 AM024JNGDCH/AA - - - - IDU-31.3 AM024JNGDCH/AA - - - - IDU-32.1 AM024JNGDCH/AA - - - - IDU-32.2 AM024JNGDCH/AA - - - - IDU-32.3 AM024JNGDCH/AA - - - - IDU-33 AM024JNGDCH/AA - - - - IDU-34 AMOOSTNVDCH/AA - - - - IDU-35 AM007TNVDCH/AA - - - - IDU-40.1 AM024JNGDCH/AA - - - - IDU-40.2 AM024JNGDCH/AA - - - - IDU-40.3 AM024JNGDCH/AA Model Code CR [%] Operation Mode Min. HOR [%] Block Load [Btu/h] Max. Capacity [Btu/h] CM HM CM HM AM2166XVGJR/AA 116.90 HR - - - 247389 284829 Page 2 Packet Pg. 309 2.8.c S11MSUNG Piping (Continued) System (ODU-7.1) (Continued) System Check Result 11. DVM Pro 2.0 Checklist Restriction Value Design Result Long pipe length is 20.18 ft (Restriction: 656.17 ft). 656.17 ft 20.18 ft Total pipe length is 138.29 ft (Restriction: 3280.84 ft). 3280.84 ft 138.29 ft Pipe length from first Y-Joint to the farthest IDU is 10.33 ft (Restriction: 147.64 ft). 147.64 ft 10.33 ft Height difference between ODU and IDU is 0.00 ft (restriction: 361.00 ft) (ODU higher 361.00 ft 0.00 ft than IDUs). Height difference between ODU and IDU is 6.56 ft (restriction: 361.00 ft) (ODU lower 361.00 ft 6.56 ft than IDUs). Height difference between IDUs when there is no wall mounts with EEV is 0.00 ft 131.23 ft 0.00 ft (restriction: 131.23 ft). Height difference between IDUs when there are wall mounts with EEV is 6.56 ft 98.43 ft 6.56 ft (restriction: 98.43 ft). Height difference between the lowest IDU and the highest wall mount with EEV is 6.5 49.21 ft 6.56 ft ft (restriction: 49.21 ft). Height difference between VICUs is 0.00 ft (restriction: 98.43 ft). 98.43 ft 0.00 ft Refrigerant Factory Charging and Additional Refrigerant Amount Refrigerant Amount [lbs] Factory Charging Refrigerant Amount 34.20 Additional Refrigerant Amount 1 15.70 1 Total 49.90 Page 2 Packet Pg. 310 2.8.c S11MSUNG Piping (Continued) System (ODU-7.1) (Continued) Piping Diagram M 00U-7.1 , AM216BXVGJR/AA 1F 247389Btu/h 1284829Btu/h 0.00 MCU4.1 MCU-812N KIUh M 11. DVM Pro 2.0 Leryyb..(,n: o AM024JNGDCH/AA I IDU-31.1 23504Btu/h 118667Btu/h 127080Btu/h e.64awE, 0 34"Ie16'0 o AM024JNGDCH/AA I IDU-31.2 23504Btu/h 118667Btu/h 127080Btu/h e.a4nioea 0 v67e�6-im; o AM024JNGDCH/AA I IDU-31.3 23504Btu/h 118667Btu/h 127080Btu/h e 6agoEw 0 y67y6-pn• o AM024JNGDCH/AA I IDU-32.1 23604Btu/h 118667Btu/h 127080Btu/h e.wgoEw 0 ue•ryero'(in; o AM024JNGDCH/AA I IDU-32.2 23504Btu/h 118667Btu/h 127080Btu/h e augoEw va7sro-pn• o AM024JNGDCH/AA I IDU-32.3 23504Btu/h 118667Btu/h 127080Btu/h e eagoEw O sro•1e+e•Im; - o AM024JNGDCH/AA I IDU-33 23504Btu/h 118667Btu/h 127080Btu/h e.aagoE� - o AMOOSTNVDCH/AA I IDU-34 .49410tuth 13360Btu/h 15691Btu/h e.6elgoE� 8 o AM007TNVDCH/AA I IDU-35 �741IStu/h 14941Btu/h 18340Btu/h 9"IOOE* 3ro-jW'(1n; o AM024JNGDCH/AA I IDU-40.1 23504Btu/h 118667Btu/h 127080Btu/h 9wdoE _ 8 WI&S, pe; _ o AM024JNGDCH/AA I IDU-40.2 23504Btu/h 118667Btu/h 1270808tu/h e.U/tloEw - b6-1e16•nn; . o AM024JNGDCH/AA I IDU-40.3 23504Btu/h 118667Btu/h 1270808tu/h 9 "IgoE _ 0 The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. Page 2 Packet Pg. 311 2.8.c S A M S U N G Piping (Continued) System (ODU-7.2) Design Condition DVM Pro 2.0 Installation Outdoor Unit Design Condition (Air) Outdoor Indoor CM HM CM HM Temperature (DB/W B) [°F] 84.0 / 64.9 21.0 / 17.2 80.6 / 66.2 68.0 / 59.0 Altitude Correction - Type Floor Room Name Equip. Name Model Code ODU 1F - ODU-7.2 AM1926XVGJR/AA IDU 1F - IDU-37.1 AM024JNGDCH/AA - IDU-37.2 AM024JNGDCH/AA - IDU-37.3 AM024JNGDCH/AA - IDU-37.4 AM024JNGDCH/AA - IDU-37.5 AM024JNGDCH/AA - IDU-37.6 AM024JNGDCH/AA - IDU-36.1 AM012TNVDCH/AA - IDU-36.2 AM012TNVDCH/AA - IDU-36.3 AM012TNVDCH/AA - IDU-39.1 AM012TNVDCH/AA - IDU-39.2 AM012TNVDCH/AA - IDU-39.3 AM012TNVDCH/AA Equip. Name Model Code CR [%] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM ODU-7.2 AM192BXVGJR/AA 112.50 210949 244702 210949 244702 Equip. Name Model Code AM Des Temp[°F] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM CM HM WB DB TC SHC TC TC SHC TC IDU-37.1 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23369 18560 27388 IDU-37.2 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23369 18560 27388 IDU-37.3 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23369 18560 27388 IDU-37.4 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23369 18560 27388 Page 2 Packet Pg. 312 2.8.c S A M S U N G Piping (Continued) System (ODU-7.2) (Continued) Indoor Unit DVM Pro 2.0 Accessory Equip. Name Model Code AM Des Temp[°F] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM CM HM WB DB TC SHC TC TC SHC TC IDU-37.5 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23369 18560 27388 IDU-37.6 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23369 18560 27388 IDU-36.1 AM012TNVDCH/AA H 66.2 68.0 12000 8000 13500 11789 7859 13396 IDU-36.2 AM012TNVDCH/AA H 66.2 68.0 12000 8000 13500 11789 7859 13396 IDU-36.3 AM012TNVDCH/AA H 66.2 68.0 12000 8000 13500 11789 7859 13396 IDU-39.1 AM012TNVDCH/AA H 66.2 68.0 12000 8000 13500 11789 7859 13396 IDU-39.2 AM012TNVDCH/AA H 66.2 68.0 12000 8000 13500 11789 7859 13396 IDU-39.3 AM012TNVDCH/AA H 66.2 68.0 12000 8000 13500 11789 7859 13396 Equip. Name Model Code Address Accessory Main RMC ODU-7.2 AM1926XVG1R/AA - - - - IDU-37.1 AM024JNGDCH/AA - - - - IDU-37.2 AM024JNGDCH/AA - - - - IDU-37.3 AM024JNGDCH/AA - - - - IDU-37.4 AM024JNGDCH/AA - - - - IDU-37.5 AM024JNGDCH/AA - - - - IDU-37.6 AM024JNGDCH/AA - - - - IDU-36.1 AM012TNVDCH/AA - - - - IDU-36.2 AM012TNVDCH/AA - - - - IDU-36.3 AM012TNVDCH/AA - - - - IDU-39.1 AM012TNVDCH/AA - - - - IDU-39.2 AM012TNVDCH/AA - - - - IDU-39.3 AM012TNVDCH/AA Model Code CR [%] Operation Mode Min. HOR [%] Block Load [Btu/h] Max. Capacity [Btu/h] CM HM CM HM AM1926XVGJR/AA 112.50 HR - - - 210949 244702 Page 2 Packet Pg. 313 2.8.c S11MSUNG Piping (Continued) System (ODU-7.2) (Continued) System Check Result 11. DVM Pro 2.0 Checklist Restriction Value Design Result Long pipe length is 40.49 ft (Restriction: 656.17 ft). 656.17 ft 40.49 ft Total pipe length is 280.49 ft (Restriction: 3280.84 ft). 3280.84 ft 280.49 ft Pipe length from first Y-Joint to the farthest IDU is 20.49 ft (Restriction: 147.64 ft). 147.64 ft 20.49 ft Height difference between ODU and IDU is 0.00 ft (restriction: 361.00 ft) (ODU higher 361.00 ft 0.00 ft than IDUs). Height difference between ODU and IDU is 6.56 ft (restriction: 361.00 ft) (ODU lower 361.00 ft 6.56 ft than IDUs). Height difference between IDUs when there is no wall mounts with EEV is 0.00 ft 131.23 ft 0.00 ft (restriction: 131.23 ft). Height difference between IDUs when there are wall mounts with EEV is 6.56 ft 98.43 ft 6.56 ft (restriction: 98.43 ft). Height difference between the lowest IDU and the highest wall mount with EEV is 6.5 49.21 ft 6.56 ft ft (restriction: 49.21 ft). Height difference between VICUs is 0.00 ft (restriction: 98.43 ft). 98.43 ft 0.00 ft Refrigerant Factory Charging and Additional Refrigerant Amount Refrigerant Amount [lbs] Factory Charging Refrigerant Amount 27.60 Additional Refrigerant Amount 1 19.57 1 Total 47.17 Page 2 Packet Pg. 314 2.8.c S11MSUNG Piping (Continued) System (ODU-7.2) (Continued) Piping Diagram MCU4.2 MCU412NEKIUN ue-iu8-im: 1 sro-iere•n�; 20.o 10E aro-18+8-u�; 20.OMIOEA aro-18+8-u�; 20.00RIOEA sro-18re•'n�; 20.O 10EA 1ld-IbrB"Un; 20.00RIOEA 20.00RIOEA 1N-1 V2. m; 1 v�-Ivrro�; :000rtloEw 20.00RIOEA i�a.. vrlm; 20.00RIOEA UA'11'T(,n: 20.00RJOEA ODU-7.2 AM192BXVGJR/AA 1F 210949Btu/h 1244702Btu/h 0.00 The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. 11. DVM Pro 2.0 o AM024JNGDCH/AA I IDU-37.1 23369Btu/h 118560Btu/h 127388Btulh 0 o AM024JNGDCH/AA I IDU-37.2 23369Btu/h 118560Btu/h 127388Btulh 0 o AM024JNGDCH/AA I IDU-37.3 23369Btu/h 118560Btu/h 12738881ulh o AM024JNGDCH/AA I IDU-37.4 23369Btu/h 118560Btu/h 127388Btulh 0 o AM024JNGDCH/AA I IDU-37.5 23369Btu/h 118560Btu/h 127388Btu/h 0 o AM024JNGDCH/AA I IDU-37.6 23369Btu/h 118560Btu/h 127388B1u/h 0 o AM012TNVDCH/AA I IDU-36.1 11789Btu/h 17859Btulh 1133968tu/h 0 o AM012TNVDCH/AA I IDU-36.2 11789Btu/h 17859Btulh 113396Btulh 0 o AM012TNVDCH/AA I IDU-36.3 11789Btu/h 17859Btulh 113396Btulh 0 o AM012TNVDCH/AA I IDU-39.1 11789Btu/h 17859Btu/h 113396Btulh 0 o AM012TNVDCH/AA I IDU-39.2 11789Btu/h 17859Btulh 113396Btu/h 0 o AM012TNVDCH/AA I IDU-39.3 11789Btulh 17859Btulh 113396Btu/h 0 Page 2 Packet Pg. 315 2.8.c S A M S U N G Piping (Continued) System (ODU-7.3) Design Condition 11. DVM Pro 2.0 Installation Outdoor Unit Design Condition (Air) Outdoor Indoor CM HM CM HM Temperature (DB/WB) [°F] 84.0 / 64.9 21.0 / 17.2 80.6 / 66.2 68.0 / 69.0 Altitude Correction - Type Floor Room Name Equip. Name Model Code ODU 1F - ODU-7.3 AM0966XVGJR/AA IDU 1F - IDU-38 AM006J NG DCH/AA - IDU-41 AM016TNVDCH/AA - IDU-42 AM006J NG DCH/AA - IDU-43 AM006J NG DCH/AA - IDU-44 AM006JNGDCH/AA - IDU-45 AM006J NG DCH/AA - IDU-46 AM006J NG DCH/AA - IDU-47 AM006J NG DCH/AA - IDU-48 AM024J NG DCH/AA Equip. Name Model Code CR [%] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM ODU-7.3 AM0966XVGJR/AA 84.38 79233 94148 79233 94148 Equip. Name Model Code AM Des Temp[°F] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM CM HM WB DB TC SHC TC TC SHC TC IDU-38 AM006JNGDCH/AA H 66.2 68.0 5947 4423 7180 5859 4358 7126 IDU-41 AM016TNVDCH/AA H 66.2 68.0 15000 10100 17000 14780 9962 16872 IDU-42 AM006JNGDCH/AA H 66.2 68.0 5947 4423 7180 5859 4358 7126 IDU-43 AM006JNGDCH/AA H 66.2 68.0 5947 4423 7180 5859 4358 7126 IDU-44 AM006JNGDCH/AA H 66.2 68.0 5947 4423 7180 5859 4358 7126 IDU-45 AM006JNGDCH/AA H 66.2 68.0 5947 4423 7180 5859 4358 7126 IDU-46 AM006JNGDCH/AA H 66.2 68.0 5947 4423 7180 5859 4358 7126 Page 2 Packet Pg. 316 2.8.c S A M S U N G Piping (Continued) System (ODU-7.3) (Continued) Indoor Unit 11. DVM Pro 2.0 Accessory Combination Ratio Equip. Model Code AM Des Temp[°F] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HIMCM HIMCM HIMName WB DB TC SHC TC TC SHC TC IDU-47 AM006JNGDCH/AA H 66.2 68.0 6947 4423 7180 6869 4368 7126 IDU-48 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 23438 18615 27393 Equip. Name Model Code Address Accessory Main RMC ODU-7.3 AM0966XVGJR/AA - - - - IDU-38 AM006JNGDCH/AA - - - - IDU-41 AM016TNVDCH/AA - - - - IDU-42 AM006JNGDCH/AA - - - - IDU-43 AM006JNGDCH/AA - - - - IDU-44 AM006JNGDCH/AA - - - - IDU-45 AM006JNGDCH/AA - - - - IDU-46 AM006JNGDCH/AA - - - - IDU-47 AM006JNGDCH/AA - - - - IDU-48 AM024JNGDCH/AA - - - - Model Code CR [%] Operation Mode Min. HOR [%] Block Load [Btu/h] Max. Capacity [Btu/h] CM HIMCM HIM AM0966XVGJR/AA 84.38 HR - - - 79233 94148 Checklist Restriction Value Design Result Long pipe length is 40.49 ft (Restriction: 666.17 ft). 656.17 ft 40.49 ft Total pipe length is 280.49 ft (Restriction: 3280.84 ft). 3280.84 ft 280.49 ft Pipe length from first Y-Joint to the farthest IDU is 20.49 ft (Restriction: 147.64 ft). 147.64 ft 20.49 ft Page 2 Packet Pg. 317 2.8.c S A M S U N G 11. DVM Pro 2.0 Piping (Continued) System (ODU-7.3) (Continued) System Check Result Refrigerant Factory Charging and Additional Refrigerant Amount Refrigerant Amount [lbs] Factory Charging Refrigerant Amount 17.60 Additional Refrigerant Amount 11.13 Total 28.73 Checklist Restriction Value Design Result Height difference between ODU and IDU is 0.00 ft (restriction: 361.00 ft) (ODU higher 361.00 ft 0.00 ft than IDUs). Height difference between ODU and IDU is 6.56 ft (restriction: 361.00 ft) (ODU lower 361.00 ft 6.66 ft than IDUs). Height difference between IDUs when there is no wall mounts with EEV is 0.00 ft 131.23 ft 0.00 ft (restriction: 131.23 ft). Height difference between IDUs when there are wall mounts with EEV is 6.66 ft 98.43 ft 6.56 ft (restriction: 98.43 ft). Height difference between the lowest IDU and the highest wall mount with EEV is 6.5 49.21 ft 6.66 ft ft (restriction: 49.21 ft). Height difference between MCUs is 0.00 ft (restriction: 98.43 ft). 98.43 ft 0.00 ft Page 2 Packet Pg. 318 2.8.c S11MSUNG Piping (Continued) System (ODU-7.3) (Continued) Piping Diagram MCU4.3 MGU512NEN1UN 3'8" 7,8 3'J"Iin; I ODU-7.3 AM096BXVGJR/AA - - 1F 79233Btu/h 9414813tu/h 0.00 The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. 11. DVM Pro 2.0 IDU Pipc-A a AM006JNGDCH/AA I IDU-38 58598tuth 43588tullt 7126Btu/h O a AM015TNVDCH/AA I IDU-41 147608tu/h 99528tu/h 16872Btu/h O a AM006JNGDCH/AA I IDU-42 56598tu/h 43588tu/h 71268tu/h O a AM006JNGDCH/AA I IDU-43 58598tum 43585tuth 7126Btu/h O a AM006JNGDCH/AA I IDU-44 56596tuth 43588tu/h 712613tu/I, O ¢ AM006JNGDCH/AA I IDU-45 58598tuth 43588tu/h 71268tu/h O a AM006JNGDCH/AA I IDU-46 56590tu/h 4358Etulh 71268tu/h O a AM006JNGDCH/AA I IDU-47 56598tuth 43588tu/h 71268tu/h O a AM024JNGDCH/AA I IDU-48 23438Btu/h 18615Btu/h 27393Btu/h O IDU Pi Pc MCI IDU Pi Pc MCI IDU Pi Pc MCI Page 2 Packet Pg. 319 2.8.c S A M S U N G Piping (Continued) System (ODU-8) Design Condition DVM Pro 2.0 Installation Design Condition (Air) Outdoor Indoor CM HM CM HM Temperature (DB/W B) [°F] 84.0 / 64.9 21.0 / 17.2 80.6 / 66.2 68.0 / 59.0 Altitude Correction - Type Floor Room Name Equip. Name Model Code ODU 1F - ODU-8 AM2646XVGJR/AA IDU 1F - IDU-62.1 AM018JNGDCH/AA - IDU-62.2 AM018JNGDCH/AA - IDU-64.1 AM024JNGDCH/AA - IDU-64.2 AM024JNGDCH/AA - IDU-64.3 AM024JNGDCH/AA - IDU-64.4 AM024JNGDCH/AA - IDU-56 AM007TNVDCH/AA - IDU-57 AM006J NG DCH/AA - IDU-50 AM006J NG DCH/AA - IDU-53 AM006J NG DCH/AA - IDU-65.1 AM024JNGDCH/AA - IDU-65.2 AM024JNGDCH/AA - IDU-65.3 AM024JNGDCH/AA - IDU-65.4 AM024JNGDCH/AA - IDU-65.5 AM024JNGDCH/AA - IDU-65.6 AM024JNGDCH/AA - IDU-61.1 AM018JNGDCH/AA - IDU-61.2 AM018JNGDCH/AA Equip. Name Model Code CR [%] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM ODU-8 AM264BXVGJR/AA 127.84 319427 366113 319427 366113 Page 2 Packet Pg. 320 2.8.c S A M S U N G Piping (Continued) System (ODU-8) (Continued) Indoor Unit DVM Pro 2.0 Equip. Name Model Code AM Des Temp[°F] Max. Capa. [Btu/h] Corr. Capa. [Btu/h] CM HM CM HM CM HM WB DB TC SHC TC TC SHC TC IDU-52.1 AM0181NGDCH/AA H 66.2 68.0 17840 14191 20480 17033 13549 19327 IDU-52.2 AM018JNGDCH/AA H 66.2 68.0 17840 14191 20480 17033 13549 19327 IDU-54.1 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 22710 18037 26046 IDU-54.2 AM0241NGDCH/AA H 66.2 68.0 23787 18892 27600 22710 18037 26046 IDU-54.3 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 22710 18037 26046 IDU-54.4 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 22710 18037 26046 IDU-56 AM007TNVDCH/AA H 66.2 68.0 7500 5000 8500 7161 4774 8021 IDU-57 AM006JNGDCH/AA H 66.2 68.0 5947 4423 7180 5678 4223 6776 IDU-50 AM006JNGDCH/AA H 66.2 68.0 5947 4423 7180 5678 4223 6776 IDU-53 AM006JNGDCH/AA H 66.2 68.0 5947 4423 7180 5678 4223 6776 IDU-55.1 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 22710 18037 26046 IDU-55.2 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 22710 18037 26046 IDU-55.3 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 22710 18037 26046 IDU-55.4 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 22710 18037 26046 IDU-55.5 AM024JNGDCH/AA H 66.2 68.0 23787 18892 27600 22710 18037 26046 IDU-55.6 AM0241NGDCH/AA H 66.2 68.0 23787 18892 27600 22710 18037 26046 IDU-51.1 AM0181NGDCH/AA H 66.2 68.0 17840 14191 20480 17033 13549 19327 IDU-51.2 AM0181NGDCH/AA H 66.2 68.0 17840 14191 20480 17033 13549 19327 Equip. Name Model Code Address Accessory Main RMC ODU-8 AM2646XVGJR/AA - - - - IDU-52.1 AM0181NGDCH/AA - - - - IDU-52.2 AM0181NGDCH/AA - - - - IDU-54.1 AM024JNGDCH/AA - - - - IDU-54.2 AM024JNGDCH/AA - - - - IDU-54.3 AM024JNGDCH/AA - - - - IDU-54.4 AM024JNGDCH/AA - - - - IDU-56 AM007TNVDCH/AA - - - - IDU-57 AM006JNGDCH/AA - - - - IDU-50 AM006JNGDCH/AA - - - - Page 2 Packet Pg. 321 2.8.c S A M S U N G Piping (Continued) System (ODU-8) (Continued) Accessory 11. DVM Pro 2.0 Combination Ratio Equip. Name Model Code Address Accessory Main RMC IDU-63 AM006JNGDCH/AA - - - - IDU-56.1 AM024JNGDCH/AA - - - - IDU-66.2 AM024JNGDCH/AA - - - - IDU-56.3 AM024JNGDCH/AA - - - - IDU-65.4 AM024JNGDCH/AA - - - - IDU-56.6 AM024JNGDCH/AA - - - - IDU-56.6 AM024JNGDCH/AA - - - - IDU-61.1 AM018JNGDCH/AA - - - - IDU-61.2 AM018JNGDCH/AA - - - - Model Code CR [%] Operation Mode Min. HOR [%] Block Load [Btu/h] Max. Capacity [Btu/h] CM HM CM HM AM2646XVGJR/AA 127.84 HR - - - 319427 366113 Checklist Restriction Value Design Result Long pipe length is 72.30 ft (Restriction: 656.17 ft). 666.17 ft 72.30 ft Total pipe length is 622.64 ft (Restriction: 3280.84 ft). 3280.84 ft 522.64 ft Pipe length from first Y-Joint to the farthest IDU is 41.48 ft (Restriction: 147.64 ft). 147.64 ft 41.48 ft Height difference between ODU and IDU is 0.00 ft (restriction: 361.00 ft) (ODU higher 361.00 ft 0.00 ft than IDUs). Height difference between ODU and IDU is 6.56 ft (restriction: 361.00 ft) (ODU lower 361.00 ft 6.66 ft than IDUs). Height difference between IDUs when there is no wall mounts with EEV is 0.00 ft 131.23 ft 0.00 ft (restriction: 131.23 ft). Height difference between IDUs when there are wall mounts with EEV is 6.66 ft 98.43 ft 6.56 ft (restriction: 98.43 ft). Page 2 Packet Pg. 322 2.8.c S A M S U N G Piping (Continued) System (ODU-8) (Continued) System Check Result 11. DVM Pro 2.0 Refrigerant Factory Charging and Additional Refrigerant Amount Refrigerant Amount [lbs] Factory Charging Refrigerant Amount 40.70 Additional Refrigerant Amount 36.14 Total 76.84 Checklist Restriction Value Design Result Height difference between the lowest IDU and the highest wall mount with EEV is 6.5 49.21 ft 6.66 Page 2 Packet Pg. 323 2.8.c SAMSUNG Piping (Continued) System (ODU-8) (Continued) Piping Diagram 3114271 The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. 11. DVM Pro 2.0 o AM018JNGDCHIAA I IDU-62.1 17033BOYt• 113MOB 116327Wt 0 o AM018JNGDCHIAAIIDU-62.2 17033E 113666atur 116327wt o AM024JNGDCHIAA I IDU-64.1 22710I6W0• IIM3TB 126a6Btu o AM024JNGDCHIAA I IOU-64.2 22710p JIMTB 126"M. o AM024JNGDCHIAA I IDU-64.3 22710E 11603TB 1260$WB o AM024JNGOCHIAA II OU-64.4 22710RIWF II6037BI& 126"iwwW - o ♦M007TNVOGMI" I IOU44 7161Bt.1h 147748t.th 18021Bt./h 0 o ♦MOWJNODt MIMIIDU 47 6678Bt.th 142238t.th I6776Btulh 0 o ♦W06J NODCHIMIIDU4C 66788t.th 142238t.th I6776Btulh 0 o ♦W06J NODCMIMIIDU42 6678Bt.th 142238t.th I6776Btulh 0 o AM024JNGOCHIAA I IDU-66.1 22710BIWh 1160370b& 126016MWF O o AM024JNGDCHIAA I IDU-66.2 227f066WH 1160370h& 1260"Wwt - O o AM024JNGDCHIAA I IDU-66.3 227100IWF 1160370WR 1260MBtWF G o AM024JNGDCHIAA II DU-66.4 22710BW- 11603M& 1260KBtWF G o AM024JNGDCHIAA I IDU-66.6 22710E 116037E 1260$WB • ,e AM024JNGDCHIAA I DU-66.6 22710E 11M3Tf 1260 $WB e AM018JNGDCHIAA I IDU-61.1 17033E 113M6B 116327Wt . AM011JNGDCHIAA I IDU-61.2 17033 113MOB 116327Wt O Page 2 Packet Pg. 324 2.8.c S A M S U N G 11. DVM Pro 2.0 Wiring and Controller Wiring and Controller Diagram g3 _-.. LE MOT E E E _ E At EEI j . .11.11 m =T _ mr y - a- WaT_ MaT- weg- Nov mr SAV siff— EAT- MOT -The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. Page 2 Packet Pg. 325 2.8.c S A M S U N G 11. DVM Pro 2.0 Controller Controller Diagram m .m w w -The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. Page 2 Packet Pg. 326 2.8.c S A M S U N G 11. DVM Pro 2.0 Wiring System (ODU-4) Wiring Diagram C C � C o -The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. Page 2 Packet Pg. 327 2.8.c S A M S U N G 11. DVM Pro 2.0 Wiring System (ODU-6) Wiring Diagram o -The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. Page 2 Packet Pg. 328 2.8.c S A M S U N G 11. DVM Pro 2.0 Wiring System (ODU-5) Wiring Diagram ro C -The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. Page 2 Packet Pg. 329 2.8.c S A M S U N G 11. DVM Pro 2.0 Wiring System (ODU-7.1) Wiring Diagram ■ -The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. Page 2 Packet Pg. 330 2.8.c S A M S U N G 11. DVM Pro 2.0 Wiring System (ODU-7.2) Wiring Diagram ■ ^J ..- `J c9 -The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. Page 2 Packet Pg. 331 2.8.c S A M S U N G 11. DVM Pro 2.0 Wiring System (ODU-7.3) Wiring Diagram -The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. Page 2 Packet Pg. 332 2.8.c S A M S U N G 11. DVM Pro 2.0 Wiring System (ODU-8) Wiring Diagram — — — — — �} �f wmv 16V �f �f �f -The above system configuration may differ from The actual installation conditions. Please refer to The installation manual for full details. Page 2 Packet Pg. 333 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-4 Outdoor Unit Model Name Model Name AM1446XVGJR/AA Module Single Power Supply 0, #, V, Hz 3 13 1 460 160 Mode HR Ton 12 Performance Capacity Cooling Nominal Btu/h 144000 Rated Btu/h 138000 Heating Nominal Btu/h 162000 Rated Btu/h 154000 Power Current MCA A 26.20 MOP A 35.00 Casing Material Body GI Steel Plate Base GI Steel Plate Type Fin &Tube Heat Exchanger Material Fin Al Tube Cu Fin Treatment Anti -corrosion Compressor Quantity EA 2 Type Propeller Discharge direction Top discharge Fan Air Flow Rate High CFM 10171.00 External Static Pressure Max W G 0.43 Type BLDC Fan Motor Quantity EA 2 Output W 620 Liquid Pipe Type Welding Diameter in 1/2" Piping Connections Gas Pipe Type Welding Diameter in 11/8" High Pressure Gas Pipe Type Welding Diameter in 7/8" Wiring connections Communication Min. mm' 0.75 Comm.Layer F1,F2 Type R410A Refrigerant Factory Charging Ibs 23.10 Page 2 Packet Pg. 334 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-4 (Continued) Outdoor UnitPressure Sound Cooling dB(A) 60 Sound Sound Power Level Cooling dB(A) 81 Net Weight Ibs 626.00 Shipping Weight Ibs 664.00 External Dimension Net Dimensions W in 51.00 H in 66.00 D in 30.00 Shipping Dimensions W in 53.00 H in 74.00 D in 32.00 Operating Cooling Min. °F 5.0 Max. °F 122.0 Temp. Range Heating Min. °F -22.0 Max. °F 75.0 Page 2 Packet Pg. 335 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-4 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM006JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 336 2.8.c S A M S U N G Product Specification ODU-4 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 57.32 Shipping Weight Ibs 65.04 External Dimension Net Dimensions W in 46.02 H in 23.62 D in 8.66 Shipping Dimensions W in 49.41 H in 27.17 D in 12.20 Page 2 Packet Pg. 337 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-4 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM018JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 338 2.8.c S A M S U N G Product Specification ODU-4 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 69.45 Shipping Weight Ibs 80.47 External Dimension Net Dimensions W in 57.05 H in 23.62 D in 8.66 Shipping Dimensions W in 60.43 H in 27.17 D in 12.20 Page 2 Packet Pg. 339 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-4 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM009JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 340 2.8.c S A M S U N G Product Specification ODU-4 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 57.32 Shipping Weight Ibs 65.04 External Dimension Net Dimensions W in 46.02 H in 23.62 D in 8.66 Shipping Dimensions W in 49.41 H in 27.17 D in 12.20 Page 2 Packet Pg. 341 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-4 (Continued) Indoor Unit Pressure 160 Model Name Model Name AM007TNVDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 342 2.8.c S A M S U N G Product Specification ODU-4 (Continued) Indoor UnitPower DVM Pro 2.0 Sound Mid dB(A) Ley I Sound Pressure Level 32 Low dB(A) 30 Sound Cooling dB(A) 61 Net Weight Ibs 19.80 Shipping Weight Ibs 23.10 External Dimension Net Dimensions W in 32.30 H in 11.80 D in 8.60 Shipping Dimensions W in 34.60 H in 11.40 D in 14.80 Page 2 Packet Pg. 343 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-4 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM012JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 344 2.8.c S A M S U N G Product Specification ODU-4 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 57.32 Shipping Weight Ibs 65.04 External Dimension Net Dimensions W in 46.02 H in 23.62 D in 8.66 Shipping Dimensions W in 49.41 H in 27.17 D in 12.20 Page 2 Packet Pg. 345 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-6 Outdoor Unit Model Name Model Name AM1446XVGJR/AA Module Single Power Supply 0, #, V, Hz 3 13 1 460 160 Mode HR Ton 12 Performance Capacity Cooling Nominal Btu/h 144000 Rated Btu/h 138000 Heating Nominal Btu/h 162000 Rated Btu/h 154000 Power Current MCA A 26.20 MOP A 35.00 Casing Material Body GI Steel Plate Base GI Steel Plate Type Fin &Tube Heat Exchanger Material Fin Al Tube Cu Fin Treatment Anti -corrosion Compressor Quantity EA 2 Type Propeller Discharge direction Top discharge Fan Air Flow Rate High CFM 10171.00 External Static Pressure Max W G 0.43 Type BLDC Fan Motor Quantity EA 2 Output W 620 Liquid Pipe Type Welding Diameter in 1/2" Piping Connections Gas Pipe Type Welding Diameter in 11/8" High Pressure Gas Pipe Type Welding Diameter in 7/8" Wiring connections Communication Min. mm' 0.75 Comm.Layer F1,F2 Type R410A Refrigerant Factory Charging Ibs 23.10 Page 2 Packet Pg. 346 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-6 (Continued) Outdoor UnitPressure Sound Cooling dB(A) 60 Sound Sound Power Level Cooling dB(A) 81 Net Weight Ibs 626.00 Shipping Weight Ibs 664.00 External Dimension Net Dimensions W in 51.00 H in 66.00 D in 30.00 Shipping Dimensions W in 53.00 H in 74.00 D in 32.00 Operating Cooling Min. °F 5.0 Max. °F 122.0 Temp. Range Heating Min. °F -22.0 Max. °F 75.0 Page 2 Packet Pg. 347 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-6 (Continued) Indoor Unit Pressure 160 Model Name Model Name AM012TNVDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 348 2.8.c S A M S U N G Product Specification ODU-6 (Continued) Indoor UnitPower 11. DVM Pro 2.0 Sound Mid dB(A) Ley I Sound Pressure Level 36 Low dB(A) 34 Sound Cooling dB(A) 66 Net Weight Ibs 20.90 Shipping Weight Ibs 24.30 External Dimension Net Dimensions W in 32.30 H in 11.80 D in 8.60 Shipping Dimensions W in 34.60 H in 11.40 D in 14.80 Page 2 Packet Pg. 349 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-6 (Continued) Indoor Unit Pressure 160 Model Name Model Name AM015TNVDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 350 2.8.c S A M S U N G Product Specification ODU-6 (Continued) Indoor UnitPower 11. DVM Pro 2.0 Sound Mid dB(A) Ley I Sound Pressure Level 34 Low dB(A) 33 Sound Cooling dB(A) 66 Net Weight Ibs 26.60 Shipping Weight Ibs 30.90 External Dimension Net Dimensions W in 41.60 H in 11.80 D in 8.60 Shipping Dimensions W in 43.90 H in 11.40 D in 14.80 Page 2 Packet Pg. 351 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-6 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM009JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 352 2.8.c S A M S U N G Product Specification ODU-6 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 57.32 Shipping Weight Ibs 65.04 External Dimension Net Dimensions W in 46.02 H in 23.62 D in 8.66 Shipping Dimensions W in 49.41 H in 27.17 D in 12.20 Page 2 Packet Pg. 353 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-6 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM018JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 354 2.8.c S A M S U N G Product Specification ODU-6 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 69.45 Shipping Weight Ibs 80.47 External Dimension Net Dimensions W in 57.05 H in 23.62 D in 8.66 Shipping Dimensions W in 60.43 H in 27.17 D in 12.20 Page 2 Packet Pg. 355 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-6 (Continued) Indoor Unit Pressure 160 Model Name Model Name AMOOSTNVDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 356 2.8.c S A M S U N G Product Specification ODU-6 (Continued) Indoor UnitPower 11. DVM Pro 2.0 Sound Mid dB(A) Ley I Sound Pressure Level 30 Low dB(A) 27 Sound Cooling dB(A) 60 Net Weight Ibs 19.80 Shipping Weight Ibs 23.10 External Dimension Net Dimensions W in 32.30 H in 11.80 D in 8.60 Shipping Dimensions W in 34.60 H in 11.40 D in 14.80 Page 2 Packet Pg. 357 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-5 Outdoor Unit Model Name Model Name AM1686XVGJR/AA Module Single Power Supply 0, #, V, Hz 3 13 1 460 160 Mode HR Ton 14 Performance Capacity Cooling Nominal Btu/h 168000 Rated Btu/h 160000 Heating Nominal Btu/h 189000 Rated Btu/h 180000 Power Current MCA A 29.00 MOP A 35.00 Casing Material Body GI Steel Plate Base GI Steel Plate Type Fin &Tube Heat Exchanger Material Fin Al Tube Cu Fin Treatment Anti -corrosion Compressor Quantity EA 2 Type Propeller Discharge direction Top discharge Fan Air Flow Rate High CFM 10665.00 External Static Pressure Max W G 0.43 Type BLDC Fan Motor Quantity EA 2 Output W 620 Liquid Pipe Type Welding Diameter in 5/8" Piping Connections Gas Pipe Type Welding Diameter in 11/8" High Pressure Gas Pipe Type Welding Diameter in 7/8" Wiring connections Communication Min. mm' 0.75 Comm.Layer F1,F2 Type R410A Refrigerant Factory Charging Ibs 23.10 Page 2 Packet Pg. 358 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-5 (Continued) Outdoor UnitPressure Sound Cooling dB(A) 60 Sound Sound Power Level Cooling dB(A) 83 Net Weight Ibs 677.00 Shipping Weight Ibs 714.00 External Dimension Net Dimensions W in 51.00 H in 66.00 D in 30.00 Shipping Dimensions W in 53.00 H in 74.00 D in 32.00 Operating Cooling Min. °F 5.0 Max. °F 122.0 Temp. Range Heating Min. °F -22.0 Max. °F 75.0 Page 2 Packet Pg. 359 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-5 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM024JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 360 2.8.c S A M S U N G Product Specification ODU-5 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 69.45 Shipping Weight Ibs 80.47 External Dimension Net Dimensions W in 57.05 H in 23.62 D in 8.66 Shipping Dimensions W in 60.43 H in 27.17 D in 12.20 Page 2 Packet Pg. 361 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-5 (Continued) Indoor Unit Pressure 160 Model Name Model Name AM007TNVDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 362 2.8.c S A M S U N G Product Specification ODU-5 (Continued) Indoor UnitPower 11. DVM Pro 2.0 Sound Mid dB(A) Ley I Sound Pressure Level 32 Low dB(A) 30 Sound Cooling dB(A) 61 Net Weight Ibs 19.80 Shipping Weight Ibs 23.10 External Dimension Net Dimensions W in 32.30 H in 11.80 D in 8.60 Shipping Dimensions W in 34.60 H in 11.40 D in 14.80 Page 2 Packet Pg. 363 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-5 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM018JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 364 2.8.c S A M S U N G Product Specification ODU-5 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 69.45 Shipping Weight Ibs 80.47 External Dimension Net Dimensions W in 57.05 H in 23.62 D in 8.66 Shipping Dimensions W in 60.43 H in 27.17 D in 12.20 Page 2 Packet Pg. 365 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-5 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM009JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 366 2.8.c S A M S U N G Product Specification ODU-5 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 57.32 Shipping Weight Ibs 65.04 External Dimension Net Dimensions W in 46.02 H in 23.62 D in 8.66 Shipping Dimensions W in 49.41 H in 27.17 D in 12.20 Page 2 Packet Pg. 367 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-5 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM012JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 368 2.8.c S A M S U N G Product Specification ODU-5 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 57.32 Shipping Weight Ibs 65.04 External Dimension Net Dimensions W in 46.02 H in 23.62 D in 8.66 Shipping Dimensions W in 49.41 H in 27.17 D in 12.20 Page 2 Packet Pg. 369 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-5 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM006JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 370 2.8.c S A M S U N G Product Specification ODU-5 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 57.32 Shipping Weight Ibs 65.04 External Dimension Net Dimensions W in 46.02 H in 23.62 D in 8.66 Shipping Dimensions W in 49.41 H in 27.17 D in 12.20 Page 2 Packet Pg. 371 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.1 Outdoor Unit Model Name Model Name AM2166XVGJR/AA Module Single Power Supply 0, #, V, Hz 3 13 1 460 160 Mode HR Ton 18 Performance Capacity Cooling Nominal Btu/h 216000 Rated Btu/h 206000 Heating Nominal Btu/h 243000 Rated Btu/h 232000 Power Current MCA A 38.00 MOP A 60.00 Casing Material Body GI Steel Plate Base GI Steel Plate Type Fin &Tube Heat Exchanger Material Fin Al Tube Cu Fin Treatment Anti -corrosion Compressor Quantity EA 2 Type Propeller Discharge direction Top discharge Fan Air Flow Rate High CFM 13314.00 External Static Pressure Max W G 0.31 Type BLDC Fan Motor Quantity EA 2 Output W 630 Liquid Pipe Type Welding Diameter in 6/8" Piping Connections Gas Pipe Type Welding Diameter in 11/8" High Pressure Gas Pipe Type Welding Diameter in 1 1/8" Wiring connections Communication Min. mm' 0.76 Comm.Layer F1,F2 Type R410A Refrigerant Factory Charging Ibs 34.20 Page 2 Packet Pg. 372 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.1 (Continued) Outdoor UnitPressure Sound Cooling dB(A) 64 Sound Sound Power Level Cooling dB(A) 85 Net Weight Ibs 869.00 Shipping Weight Ibs 926.00 External Dimension Net Dimensions W in 73.00 H in 66.00 D in 30.00 Shipping Dimensions W in 75.00 H in 74.00 D in 32.00 Operating Cooling Min. °F 5.0 Max. °F 122.0 Temp. Range Heating Min. °F -22.0 Max. °F 75.0 Page 2 Packet Pg. 373 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.1 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM024JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 374 2.8.c S A M S U N G Product Specification ODU-7.1 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 69.45 Shipping Weight Ibs 80.47 External Dimension Net Dimensions W in 57.05 H in 23.62 D in 8.66 Shipping Dimensions W in 60.43 H in 27.17 D in 12.20 Page 2 Packet Pg. 375 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.1 (Continued) Indoor Unit Pressure 160 Model Name Model Name AMOOSTNVDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 376 2.8.c S A M S U N G Product Specification ODU-7.1 (Continued) Indoor UnitPower 11. DVM Pro 2.0 Sound Mid dB(A) Ley I Sound Pressure Level 30 Low dB(A) 27 Sound Cooling dB(A) 60 Net Weight Ibs 19.80 Shipping Weight Ibs 23.10 External Dimension Net Dimensions W in 32.30 H in 11.80 D in 8.60 Shipping Dimensions W in 34.60 H in 11.40 D in 14.80 Page 2 Packet Pg. 377 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.1 (Continued) Indoor Unit Pressure 160 Model Name Model Name AM007TNVDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 378 2.8.c S A M S U N G Product Specification ODU-7.1 (Continued) Indoor UnitPower 11. DVM Pro 2.0 Sound Mid dB(A) Ley I Sound Pressure Level 32 Low dB(A) 30 Sound Cooling dB(A) 61 Net Weight Ibs 19.80 Shipping Weight Ibs 23.10 External Dimension Net Dimensions W in 32.30 H in 11.80 D in 8.60 Shipping Dimensions W in 34.60 H in 11.40 D in 14.80 Page 2 Packet Pg. 379 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.2 Outdoor Unit Model Name Model Name AM1926XVGJR/AA Module Single Power Supply 0, #, V, Hz 3 13 1 460 160 Mode HR Ton 16 Performance Capacity Cooling Nominal Btu/h 192000 Rated Btu/h 184000 Heating Nominal Btu/h 216000 Rated Btu/h 206000 Power Current MCA A 34.00 M 0 P A 40.00 Casing Material Body GI Steel Plate Base GI Steel Plate Type Fin &Tube Heat Exchanger Material Fin Al Tube Cu Fin Treatment Anti -corrosion Compressor Quantity EA 2 Type Propeller Discharge direction Top discharge Fan Air Flow Rate High CFM 12855.00 External Static Pressure Max W G 0.31 Type BLDC Fan Motor Quantity EA 2 Output W 630 Liquid Pipe Type Welding Diameter in 5/8" Piping Connections Gas Pipe Type Welding Diameter in 11/8" High Pressure Gas Pipe Type Welding Diameter in 1 1/8" Wiring connections Communication Min. mm' 0.75 Comm.Layer F1,F2 Type R410A Refrigerant Factory Charging Ibs 27.60 Page 2 Packet Pg. 380 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.2 (Continued) Outdoor UnitPressure Sound Cooling dB(A) 63 Sound Sound Power Level Cooling dB(A) 85 Net Weight Ibs 849.00 Shipping Weight Ibs 907.00 External Dimension Net Dimensions W in 73.00 H in 66.00 D in 30.00 Shipping Dimensions W in 75.00 H in 74.00 D in 32.00 Operating Cooling Min. °F 5.0 Max. °F 122.0 Temp. Range Heating Min. °F -22.0 Max. °F 75.0 Page 2 Packet Pg. 381 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.2 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM024JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 382 2.8.c S A M S U N G Product Specification ODU-7.2 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 69.45 Shipping Weight Ibs 80.47 External Dimension Net Dimensions W in 57.05 H in 23.62 D in 8.66 Shipping Dimensions W in 60.43 H in 27.17 D in 12.20 Page 2 Packet Pg. 383 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.2 (Continued) Indoor Unit Pressure 160 Model Name Model Name AM012TNVDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 384 2.8.c S A M S U N G Product Specification ODU-7.2 (Continued) Indoor UnitPower 11. DVM Pro 2.0 Sound Mid dB(A) Ley I Sound Pressure Level 36 Low dB(A) 34 Sound Cooling dB(A) 66 Net Weight Ibs 20.90 Shipping Weight Ibs 24.30 External Dimension Net Dimensions W in 32.30 H in 11.80 D in 8.60 Shipping Dimensions W in 34.60 H in 11.40 D in 14.80 Page 2 Packet Pg. 385 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.3 Outdoor Unit Model Name Model Name AM0966XVGJR/AA Module Single Power Supply 0, #, V, Hz 3 13 1 460 160 Mode HR Ton 8 Performance Capacity Cooling Nominal Btu/h 96000 Rated Btu/h 92000 Heating Nominal Btu/h 108000 Rated Btu/h 103000 Power Current MCA A 18.00 MOP A 20.00 Casing Material Body GI Steel Plate Base GI Steel Plate Type Fin &Tube Heat Exchanger Material Fin Al Tube Cu Fin Treatment Anti -corrosion Compressor Quantity EA 2 Type Propeller Discharge direction Top discharge Fan Air Flow Rate High CFM 9924.00 External Static Pressure Max W G 0.43 Type BLDC Fan Motor Quantity EA 2 Output W 620 Liquid Pipe Type Welding Diameter in 3/8" Piping Connections Gas Pipe Type Welding Diameter in 7/8" High Pressure Gas Pipe Type Welding Diameter in 3/4" Wiring connections Communication Min. mm' 0.76 Comm.Layer F1,F2 Type R410A Refrigerant Factory Charging Ibs 17.60 Page 2 Packet Pg. 386 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.3 (Continued) Outdoor UnitPressure Sound Cooling dB(A) 57 Sound Sound Power Level Cooling dB(A) 79 Net Weight Ibs 584.00 Shipping Weight Ibs 622.00 External Dimension Net Dimensions W in 51.00 H in 66.00 D in 30.00 Shipping Dimensions W in 53.00 H in 74.00 D in 32.00 Operating Cooling Min. °F 5.0 Max. °F 122.0 Temp. Range Heating Min. °F -22.0 Max. °F 75.0 Page 2 Packet Pg. 387 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.3 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM006JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 388 2.8.c S A M S U N G Product Specification ODU-7.3 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 57.32 Shipping Weight Ibs 65.04 External Dimension Net Dimensions W in 46.02 H in 23.62 D in 8.66 Shipping Dimensions W in 49.41 H in 27.17 D in 12.20 Page 2 Packet Pg. 389 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.3 (Continued) Indoor Unit Pressure 160 Model Name Model Name AM015TNVDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 390 2.8.c S A M S U N G Product Specification ODU-7.3 (Continued) Indoor UnitPower 11. DVM Pro 2.0 Sound Mid dB(A) Ley I Sound Pressure Level 34 Low dB(A) 33 Sound Cooling dB(A) 66 Net Weight Ibs 26.60 Shipping Weight Ibs 30.90 External Dimension Net Dimensions W in 41.60 H in 11.80 D in 8.60 Shipping Dimensions W in 43.90 H in 11.40 D in 14.80 Page 2 Packet Pg. 391 2.8.c S A M S U N G 11. DVM Pro 2.0 Product Specification ODU-7.3 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM024JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 392 2.8.c S A M S U N G Product Specification ODU-7.3 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 69.45 Shipping Weight Ibs 80.47 External Dimension Net Dimensions W in 57.05 H in 23.62 D in 8.66 Shipping Dimensions W in 60.43 H in 27.17 D in 12.20 Page 2 Packet Pg. 393 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-8 Outdoor Unit Pressure Power Ley I 160 Model Name Model Name AM2646XVGJR/AA Module Module Power Supply 0, #, V, Hz 3 13 1 460 Page 2 Packet Pg. 394 2.8.c S A M S U N G DVM Pro 2.0 Product Specification ODU-8 (Continued) Outdoor Unit Min. °F 5.0 Cooling Operating Max. °F 122.0 Temp. Range Min. °F -22.0 Heating Max. °F 75.0 Page 2 Packet Pg. 395 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-8 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM018JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 396 2.8.c S A M S U N G Product Specification ODU-8 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 69.45 Shipping Weight Ibs 80.47 External Dimension Net Dimensions W in 57.05 H in 23.62 D in 8.66 Shipping Dimensions W in 60.43 H in 27.17 D in 12.20 Page 2 Packet Pg. 397 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-8 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM024JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 398 2.8.c S A M S U N G Product Specification ODU-8 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 69.45 Shipping Weight Ibs 80.47 External Dimension Net Dimensions W in 57.05 H in 23.62 D in 8.66 Shipping Dimensions W in 60.43 H in 27.17 D in 12.20 Page 2 Packet Pg. 399 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-8 (Continued) Indoor Unit Pressure 160 Model Name Model Name AM007TNVDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 400 2.8.c S A M S U N G Product Specification ODU-8 (Continued) Indoor UnitPower 11. DVM Pro 2.0 Sound Mid dB(A) Ley I Sound Pressure Level 32 Low dB(A) 30 Sound Cooling dB(A) 61 Net Weight Ibs 19.80 Shipping Weight Ibs 23.10 External Dimension Net Dimensions W in 32.30 H in 11.80 D in 8.60 Shipping Dimensions W in 34.60 H in 11.40 D in 14.80 Page 2 Packet Pg. 401 2.8.c S A M S U N G 1:, DVM Pro 2.0 Product Specification ODU-8 (Continued) Indoor Unit Power Level 160 Model Name Model Name AM006JNGDCH/AA Power Supply 0, #, V, Hz 1 1 2 1 208-230 Page 2 Packet Pg. 402 2.8.c S A M S U N G Product Specification ODU-8 (Continued) Indoor Unit 11. DVM Pro 2.0 Net Weight Ibs 57.32 Shipping Weight Ibs 65.04 External Dimension Net Dimensions W in 46.02 H in 23.62 D in 8.66 Shipping Dimensions W in 49.41 H in 27.17 D in 12.20 Page 3 Packet Pg. 403 2.8.c WN Frances Anderson Center City of Edmonds CLEAN BUILDINGS PERFORMANCE STANDARD (CBPS) PHASE 1 EDMONDS, WA DECEMBER 12, 2023 Together, Building a Thriving Plqnpt tLDinstry l ilr OI rw. /mrinp a Page 3 Packet Pg. 404 2.8.c Table of Contents BENCHMARKING OVERVIEW.............................................................................. 1 1. Introduction................................................................................................ 1 1.1. TIMELINE..................................................................................................1 1.2. THE MCKINSTRY APPROACH..............................................................................2 2. Scope of Work.............................................................................................2 2.1. DELIVERABLES............................................................................................2 3. Analysis......................................................................................................2 3.1. EUIT CALCULATION........................................................................................2 3.2. BUILDING EUI GAP ANALYSIS.............................................................................3 3.3. UTILITY DATA.............................................................................................3 3.4. RESULTS...................................................................................................4 4. Compliance Roadmap...................................................................................4 4.1. CBPS COMPLIANCE REQUIREMENTS......................................................................4 4.2. RECOMMENDATIONS......................................................................................4 4.3. CBPS CLIENT COMPLIANCE PATHWAYS..................................................................5 4.4. RECOMMENDED COMPLIANCE TIMELINE.................................................................6 Page 3 Packet Pg. 405 2.8.c City of Edmonds I CBPS Report Benchmarking Overview 1. Introduction Buildings are the most rapidly growing source of greenhouse gas emissions in Washington state. As our population continues to grow, so does the number of new homes and business spaces being constructed. Each time we construct a new building or remodel one, we either lock in inefficient energy use or we embrace materials and technologies that will save energy and reduce emissions for decades to come. The buildings sector is the state's second -biggest carbon polluter behind transportation. Investment in building energy efficiency is also the most cost-efficient way to significantly reduce greenhouse gas emissions. The solution to cutting building emissions lies in energy efficiency — the fastest, cheapest way to cut carbon emissions and other harmful pollution. Washington State's new Commercial Clean Buildings Performance Standard (CBPS) - signed into law on May 7, 2019 and kick started on October 13, 2021 - is designed to secure this energy efficiency opportunity. The objective isto reduce greenhouse gas emissions from buildings by capping energy consumption from fossil fuel sources in the state's existing buildings. The standard applies to large non-residential building greater than 50,000 square feet in floor area. There are some exemptions to the law including but not limited to: multifamily residential, manufacturing, industrial and agricultural buildings. The first mandatory compliance dates based on gross floor area are: • Tier 1.A: June 1, 2026 for all buildings greater than 220,000 SF • Tier 1.13: June 1, 2027 for all buildings between 90,001— 220,000 SF • Tier 1.C: June 1, 2028 for all buildings between 50,000 — 90,000 SF Buildings will be required to maintain compliance with the specific energy use intensity target and report again every 5 years. 1.1. TIMELINE 10/13/2021 Early Adoption Incentive Program Opened Jan 2022 Building Owners Notified 10/13/2021 6/1/2027 Tier 1.8 Compliance Tier 2 6/1/2026 Compliance 7/t/2023 Tier 1.A 8enchmmkmg i Early Compliance Opens Compliance EMP/O&M Plan Jan 2023 Jan 2024 Jan 2025 Jan 2026 Jan 2027 Jan 2028 Tier lA Tier 1.8 Tier l.0 Data Collection Data Collection Data Collection .EMP/O&M .EMp/O&M +EMPIO&M Implementation Implementation Implementation 6/1/2025 6/1/2026 6/1/2027 6/1/2028 Tier LC Compliance June 2028 "nary a Srwaliw.r CONFIDENTIAL & PROPRIETARY ICBPS REPORTI 1 Page 3 Packet Pg. 406 2.8.c City of Edmonds I CBPS Report 1.2. THE MCKINSTRY APPROACH To support building owners in meeting the intent of the Washington State Commercial Clean Buildings Performance Standard, McKinstry created a holistic 4-phase approach to developing building -specific roadmap to compliance. This report encapsulatesthe results of the first phase. The Compliance Roadmap section of this report describe McKinstry's best recommendations to help Frances Anderson Center achieve CBPS compliance in the most effective and most efficient manner. 2. Scope of Work This project covered the following items: • The Frances Anderson Center ENERGY STAR Portfolio Manager (ESPM) profile was evaluated and updated for HB1257 compliance. • A utility data analysis was performed. • Space use types were evaluated and reported per HB1257 guidelines. • Reported gross floor area discrepancies were analyzed and resolved from all sources: King County Assessor data, ESPM reported data, building plans. • Hours of Operation for each space use type were evaluated and documented. • The building specific EUI target was calculated per CBPS requirements by a Qualified Person i.e., McKinstry (required per WAC 194-50). • A comprehensive roadmap to compliance was developed and is covered under Next Steps. • The Early Adopter Incentive Program was considered however, the facility is already compliant and not eligible. McKinstry proposes to provide support for the initial phase of compliance with the Washington State Clean Buildings Performance Standard (CBPS). The scope of work includes an update of the facility benchmarking profile, compliance planning based on energy benchmarking, development of required compliance materials, and an energy audit to identify energy efficiency measures and predicted impacts on EUI. 2.1. DELIVERABLES A summary of the deliverables is below: • ENERGY STAR Portfolio Manager profile update • HB 1257 compliance roadmap 3. Analysis 3.1. EUIT CALCULATION The energy use intensity (EUI) calculations are below: o CONFIDENTIAL& PROPRIETARY ICBPS REPORTI 2inty Page 3 Packet Pg. 407 2.8.c City of Edmonds I CBPS Report Education, K-12School, Elementary/Middle 49 School Education, 59 Preschool/Daycare Entertainment/public assembly, Performing Arts 55 Entertainment/public assembly, Other- 73 Recreation Entertainment/public assembly, Fitness 73 Center/Health Club/Gym Office, Office, 66 Government Office Office, Office, Other 66 Office 3.2. BUILDING EUI GAP ANALYSIS 5028 9.8 % 4.8 65 1.1 5.3 6671 13 % 7.6 65 1.1 8.4 4719 9.2 % 5 65 1.1 5.5 2067 4% 2.9 65 1.1 3.2 8567 16.6% 12.2 60 1.1 13.4 21261 41.3% 27.3 65 1.0 27.3 3157 6.1% 4 65 1.0 4 Frances Anderson 4C 45.5 67.1 -21.6 51,470 June 1, 2028 Center 3.3. UTILITY DATA The Frances Anderson Center facility is serviced by: • Puget Sound Energy for natural gas. • Snohomish PUD for electricity. The electricity from Snohomish PUD and natural gas from Puget Sound Energy does not have automatic data uploads set up in ENERGY STAR as this time. All electric and natural gas data must be manually uploaded into ENERGY STAR profile by a primary user. (M-Sity CONFIDENTIAL& PROPRIETARY ICBPS REPORTI 3 Page 3 Packet Pg. 408 2.8.c City of Edmonds I CBPS Report 3.4. RESULTS The current Weather Normalized Site EUI for Frances Anderson Center is 45.5. The CBPS target EUI for Frances Anderson Center is 67.1. This puts the facility 21.6 EUI points below the target, making it currently compliant. However, space use changes and occupancy changes can cause the site EUI to change and potentially increase above the target. Without employing an energy management program there is no guarantee the facility will remain under target before its June 1, 2028 compliance date. 4. Compliance Roadmap 4.1. CBPS COMPLIANCE REQUIREMENTS The Frances Anderson Center has been found to be compliant with the Clean Buildings Performance Standard through this process. The main goal now is to maintain a Weather Normalized Site EUI below the target of 67.1 and to complete all activities necessary to submit for early compliance. To submit for compliance, all covered buildings will need: • A compliant ENERGY STAR Portfolio Manager profile. • An Energy Management Plan (EMP) in line with WAC 194-50 and ASHRAE Standard 100. o Update annually with accounting and relevant activity. • An Operations and Maintenance (O&M) Plan in line with WAC 194-50 and ASHRAE Standard 100. o This program must be active, with documented proof, for a minimum of 12 months prior to submitting for compliance. • 12 months of Weather Normalized Site EUI data below the EUI target taken within the 24 months prior to the compliance date. 4.2. RECOMMENDATIONS • Submit for early compliance, McKinstry to support if desired. o Early compliance for the first round of the Clean Buildings Performance Standard is currently open. Due to its size, the official compliance date for Frances Anderson Center is June 1, 2028 with a requirementto resubmit for compliance on a recurring 5-year cycle. If the facility submits for early compliance in 2024, it will not need to address compliance again until 2033. o All compliance submissions must be reviewed and submitted by a Qualified Person per WAC 194-50. McKinstry can serve as the Qualified Person in all areas. • Developmentof an Energy Management Plan (EMP)/Operations and Maintenance (O&M) Program with McKinstry. o An Energy Management Plan will be designed to maximize energy efficient operations while supporting occupant comfort. It will be a tool for energy accounting as well as capital planning and will help preserve the condition of the building systems and their elements while planning a way to maintain CBPS compliance. o The O&M program will be designed to support the building energy -using systems in achieving their intended energy efficiency throughout their service life. The program will contain an instry CONFIDENTIAL & PROPRIETARY I CBPS REPORTS 4 uemroo,e.aeieD Page 3 Packet Pg. 409 2.8.c City of Edmonds I CBPS Report inventory of equipment, building systems and controls to be inspected. This will be supplemented with an equipment maintenance plan. 4.3. CBPS CLIENT COMPLIANCE PATHWAYS The City of Edmonds must choose a compliance path; the compliance deadline for this facility is June 1, 2028. The below options are available and summarized in the table following this list: Energy target compliance: implement all energy efficiency measures that will get the facility to perform at or below the EU It. o Due date: EMP and O&M plan implementation would need to be completed no later than June 1, 2027. o This is the recommended compliance path for Frances Anderson Center. Investment Criteria: Complete an ASHRAE Level 2 Energy Audit with Lifecycle Cost Analysis of measures and implement an optimized bundle of all cost-effective energy efficiency measures ("cost effective" is defined by CBPS as a savings to investment ratio >_ 1 based on a life cycle cost analysis) o The EEMs must be installed and commissioned prior to the compliance date, and ongoing reporting is required until measurement and verification is completed o Note: this option can be done in phases and further built out following the completion of the Level 2 energy audit and report. Pay the penalty rather than pursue compliance o CBPS section Z5.4.1.2 provides an option to pay the required fines rather than comply, which is $5,000 plus a daily amount equal to $1/GSF not to exceed a value greater than 18 months of accrued penalty, which is $82,205. o Due date: the earliest fines would be assessed 30 days after compliance is due o Note: additional fines can be assessed based on inflation or interest accrual, and otherfines may be assessed for any compliance past the due date Frances Anderson Center is EUIt n/a 6/1/2028 currently 21.6 points below their EUIt Investment criteria 12/3/2025 Penalty 0-sity n/a 6/1/2028 Simple payback identified in Level 2 audit Supplemental LCCA required 6/1/2028 $82,205 every 5 years CONFIDENTIAL & PROPRIETARY ICBPS REPORTI 5 Employ an energy management plan to ensure EUI does not increase Implement all cost- effective EEMs While Frances Anderson Center is currently under their Page 3 Packet Pg. 410 2.8.c City of Edmonds I CBPS Report EUI target, failure to submit for compliance with an EMP and O&M plan would result in noncompliance with CBPS 4.4. RECOMMENDED COMPLIANCE TIMELINE If Francis Anderson Center complies via the recommended compliance path of meeting their EUI target, the belowtimeline outlines relevant targets and deadlines. Both the EMP and O&M plan must be completed byJune 1, 2027 and the building must be at it's EUI target by this date as well. As the City of Edmonds shifts to a biennial budget cycle starting 2025, plans for this new two year budget must be made in the 2024-2025 existingannual budget. Asthe EMP and 0&M must be completed byJune 1, 2027, we recommend applying for the budget to complete these documents in the 2024-2025 budget. 2023 - 2027 Energy Management Plan and Operations & Maintenance plan implementation, update benchmarking 2024-2025 2025-2027 October 2021 budg MAnn.aI et Biennial budget Building Owners cycle cycle Notified CONFIDENTIAL& PROPRIETARY ICBPS REPORTI 6 (M-StLy 2028 Frances Anderson Center Compliance IS 2027 Reach EUlt of 67.1 Page 3 Packet Pg. 411 2.8.c • CONFIDENTIAL AND PROPRIETARY Page 3 Packet Pg. 412 2.8.c McKinstry Calculation Template nstry 03.01-FAC: Upgrade HVAC System to VRF Q. - Description of FIM From TCO Tool Existing: The facility is currently heated using two (2) natural gas -fired hot water and steam boilers. These boilers serve radiators and unit ventilators that are controlled room -by -room via local thermostats. The gymnasium is served by two (2) air handling units also served by the hydronic system. No mechanical cooling exists, and ventilation is via operable windows. The existing BMS is a simple interface with scheduling, on/off commands, and alarms. The existing domestic hot water plant consists of a natural gas -fired, circulating water heater (manuf. 2003) and a storage tank.Proposed: Demo all existing thermostats, radiators, unit ventilators, pumps, boilers and associated hydronic piping. Install a new variable refrigerant flow (VRF) system for heating/cooling and a dedicated outdoor air system (DOAS) for ventilation. Refurbish the gymnasium AHUs with new fans, VRF coils, filters, and variable frequency drives. Demo the existing natural gas domestic hot water plant and replace with a new electric hybrid FIM Calculation Method From TCO Tool: Energy savings are estimated using a custom, Excel -based, 8760 hour energy calculation that simulates one -year's worth of energy consumption using TMY3 weather data to model the existing and proposed systems based on inputs including building use and mechanical system type and operation. Proposed conditions factor in increased heating and cooling efficiency of the new air handlers as well as the conversion from natural gas to electric as the heating supply source. A penalty is factored in for the added cooling load. An elevated baseline is used due to the added ventilation and cooling. Summary BASELINE ADJUSTMENT FOR INCREASED VENTILATION METERED DATA MODELED BASELINE ADJUSTED BASELINE Electricity Natural Gas Electricity Natural Gas Electricity Natural Gas kWh/yr Therms/Yr kWh/yr Therms/Yr kWh/yr Therms/Yr Adjusted Baseline - For Ventilation Airflow 726,621 25,173 710,203 22,401 698,443 32,555 EUI (kBtu/sf) 104 97 117 UPGRADE STRATEGIES & ENERGY SAVINGS Strategy Base Electricity Building Controls Upgrade - Schedules & Set Points 698,443 Boiler Plant Upgrade - Condensing Boiler 591,812 Proposed Savings Natural Gas Electricity Natural Gas Electricity Natural Gas Post Install Building EUI Therms Yr kWh r Therms Yr kWh r Therms Yr kBtu sf 32,555 592,423 17,639 106,019 14,916 79 17,639 591,812 15,123 0 2,516 74 106,019 17,432 Page 3 Packet Pg. 413 2.8.c MCK8760 - General Information 0. nstiry 03.01-FAC: Upgrade HVAC System to VRF - ect Information: 995 50943 Jacob Keith 10/22/2024 VRF Weather Data: WA, SNOHOMISH CO jjjjjff. 727937TY.xls Description of FIM From TCO Tool Existing: The facility is currently heated using two (2) natural gas -fired hot water and steam boilers. These boilers serve radiators and unit ventilators that are controlled room -by -room via local thermostats. The gymnasium is served by two (2) air handling units also served by the hydronic system. No mechanical cooling exists, and ventilation is via operable windows. The existing BMS is a simple interface with scheduling, on/off commands, and alarms. The existing domestic hot water plant consists of a natural gas -fired, circulating water heater (manuf. 2003) and a storage tank.Proposed: Demo all existing thermostats, radiators, unit ventilators, pumps, boilers and associated hydronic piping. Install a new variable refrigerant flow (VRF) system for heating/cooling and a dedicated outdoor air system (DOAS) for ventilation. Refurbish the gymnasium AHUs with new fans, VRF coils, filters, and variable frequency drives. Demo the existing natural gas domestic hot water plant and replace with a new electric hybrid system. Load Schedules: Schedule A Title BoilerNormal • - ASHRAE Schedule Type Schedule B Title Boilers • - ASHRAE Schedule Type Schedule C Title ASHRAE Schedule Tvve Utility Rate Schedules Rate Schedule 1 Rate Schedule 2 Rate Schedule 3 Zone Data (for multi -model buildi Zone Name (e.g. RTU-1 or West Wing) Zone Description Savings Tracker (Use if Modeling Multiple Efficiency Measures) Measure Description Electric Demand Natural Gas Steam (kW) Electricity (kWh) (therm) (kLB) EUI (kBTU/SqFt/Yr) Savings ► 63.42 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Notes: Page 3 Packet Pg. 414 2.8.c McK8760 - HVAC Schedules 03.01-FAC: Upgrade HVAC System to VRF Baseline HVAC Equipment Daily Schedules Hour Schedule To A Sun - Normal Mon Boiler Tue Operation Wed (Winter) Thu Fri Sat 000000000 0©0000000 ©©0000000 ©00000000 0©0000000 ©00000000 000000000 000000000 000000000 Om0000000 mm0000000 m®0000000 ®®0000000 ®m0000000 m®0000000 ®m0000000 mm0000000 m�0000000 �m0000000 mm0000000 m®0000000 ®®0000000 ®®0000000 ®�0000000 Daily Totals 0 14 14 14 14 14 7, Proposed HVAC Equipment Daily Schedules Hour ---� Sn, Sun ormal Mon 2 Boiler Tue 3 Operation Wed 4 (� Thu ��- 5 ��- 000000000 0©0000000 ©©0000000 ©00000000 0©0000000 ©00000000 000000000 000000000 000000000 Om0000000 mm0000000 m®0000000 ®®0000000 ®m0000000 m®0000000 ®m0000000 mm0000000 m�0000000 �m0000000 mm0000000 m®0000000 ®®0000000 ®®0000000 ®m0000000 -1 Sun 1 Wed 4 Thu Fri Sat 000000000 0©0000000 ©©0000000 ©00000000 0©0000000 ©00000000 000000000 000000000 000000000 Om0000000 mm0000000 m®D000000 ®®D000000 ®m0000000 m®D000000 ®m00000©0 mm0000000 m�0000000 �m0000000 mm0000000 m®0000000 ®®0000000 ®®0000000 ®�0000000 Epaily Totals 0 14 14 14 14 14 7 Sun Mon Tue Wed Thu Fri Sat om T1 2 3 4-- 000000000 0©0000000 ©©0000000 ©00000000 0©0000000 ©00000000 000000000 000000000 000000000 Om0000000 mm0000000 m®0000000 ®®0000000 ®m0000000 m®0000000 ®m0000000 mm0000000 m�0000000 �m0000000 mm0000000 m®0000000 ®®0000000 ®®0000000 ®m0000000 Daily Totals 0 14 14 14 14 14 7 nstry 0=Fan Off 1=Fan On crh—h,iP r - Ki- I i-A L Hour Sun Mon Tue Wed Thu Fri Sat 000000000 0©0000000 ©©0000000 ©00000000 0©0000000 ©00000000 000000000 000000000 000000000 Om0000000 mm0000000 m®0000000 ®®0000000 ®m0000000 m®0000000 ®m0000000 mm0000000 m�0000000 �m0000000 mm0000000 m®0000000 ®®0000000 ®®0000000 ®�0000000 Daily Totals _______ Hour Sun Mon Tue Wed Thu Fri Sat 000000000 0©0000000 ©©0000000 ©00000000 0©0000000 ©00000000 000000000 000000000 000000000 Om0000000 mm0000000 m®0000000 ®®0000000 ®m0000000 m®0000000 ®m0000000 mm0000000 m�0000000 �m0000000 mm0000000 m®0000000 ®®0000000 ®®0000000 ®m0000000 Page 3 Packet Pg. 415 2.8.c McK8760 - Occupancy Schedules 11Stry 03.01-FAC: Upgrade HVAC System to VRF - Baseline Occupancy Load Profiles (Percent of Peak Occupancy) Hour 0 1 A Sun 0% - Normal Mon 0% Boiler Tue 0% OperationSchedule Wed 0% Thu 0% 0% 0% 1 2 0% 0% 0% 0% 0% 0% 0% 2 3 0% 0% 0% 0% 0% 0% 0% 3 4 0% 0% 0% 0% 0% 0% 0% 4 5 0% 0% 0% 0% 0% 0% 0% 5 6 0% 0% 0% 0% 0% 0% 0% 6 7 0% 0% 0% 0% 0% 0% 0% 7 8 0% 5% 5% 5% 5% 5% 0% 8 9 0% 75% 75% 75% 75% 75% 300/b 9 10 0% 90% 90% 90% 90% 90% 30% 10 11 0% 90% 90% 90% 90% 90% 300b 11 12 0% 80% 80% 80% 80% 80% 300b 12 13 0% 80% 80% 80% 80% 80% 300b 13 14 0% 80% 80% 80% 80% 80% 30% 14 15 0% 80% 80% 1 80% 80% 800% 300% 15 16 0% 45% 45% 45% 45% 45% 30% 16 17 0% 15% 15% 15% 15% 15% 30% 17 18 0% 5% 5% 5% 5% 5% 30% 18 19 0% 15% 15% 15% 15% 15% 0% 19 20 0% 20% 20% 20% 20% 20% 0% 20 21 0% 20% 20% 20% 20% 20% 0% 21 22 0% 10% 10% 10% 10% 10% 0% 22 23 00% 00% 00% 00% 00%. 0% 1 0% 23 24 0% 0% 0% 00% 00/b 1 0% 1 0% 0 1 0% 0% 0% 0% 0% 0% 0% 1 2 0% 0% 0% 0% 0% 0% 0% 2 3 0% 0% 0% 0% 0% 0% 0% 3 4 0% 0% 0% 0% 0% 0% 0% 4 5 0% 0% 0% 0% 0% 0% 0% 5 6 0% 0% 0% 0% 0% 0% 0% 6 7 0% 0% 0% 0% 0% 0% 0% 7 8 0% 5% 5% 5% 5% 5% 0% 8 9 0% 60% 60% 60% 60% 60% 30% 9 10 0% 60% 60% 60% 60% 60% 30% 10 11 0% 60% 60% 60% 60% 60% 30% 11 12 0% 60% 60% 60% 60% 60% 30% 12 13 0% 60% 60% 60% 60% 60% 30% 13 14 0% 60% 60% 60% 60% 60% 30% 14 15 0% 60% 60% 60% 60% 60% 30% 15 16 0% 45% 45% 45% 45% 45% 30% 16 17 0% 15% 15% 15% 15% 15% 30% 17 18 0% 5% 5% 5% 5% 5% 30% 18 19 0% 15% 15% 15% 15% 15% 0% 19 20 0% 201/b 200% 20% 1 20% 20% 0% 20 21 0% 20% 20% 20% 1 20% 20% 0% 21 22 0% 10% 100% 10% 100/0 10% 00% 22 23 0% 0% 0% 0% 0% 0% 0% 23 24 0% 0% 0% 0% 0% 0% 0% Proposed Occupancy Load Profiles (Percent of Peak Occupancy) Hour 0 Schedule 1 A Sun 0% - Normal Mon 0% Boiler Tue 0% Operation Wed 0% Thu 0% Fri 0% Sat 0% 1 2 0% 0% 0% 0% 0% 0% 0% 2 3 0% 0% 0% 0% 0% 0% 0% 3 4 0% 0% 0% 0% 0% 0% 0% 4 5 0% 0% 0% 0% 0% 0% 0% 5 6 0% 0% 0% 0% 0% 0% 0% 6 7 0% 0% 0% 0% 0% 0% 0% 7 8 0% 5% 5% 5% 5% 5% 0% 8 9 0% 75% 75% 75% 75% 75% 30% 9 10 0% 90% 90% 90% 90% 90% 30% 10 11 0% 90% 90% 90% 90% 90% 300. 11 12 0% 80% 80% 80% 80% 80% 30% 12 13 0% 80% 80% 80% 80% 80% 3006 13 14 0% 80% 80% 80% 80% 80% 303% 14 15 0% 80% 80% 80% 80% 80% 303% 15 16 0% 45% 45% 45% 45% 45% 30% 16 17 0% 15% 15% 15% 15% 15% 30% 17 18 0% 5% 5% 5% 5% 5% 303/o 18 19 0% 15% 15% 15% 15% 15% 0% 19 20 0% 20% 20% 20% 20% 20% 0% 20 21 0% 20% 20% 20% 20% 20% 00b 21 22 0% 10% 10% 10% 10% 10% 0% 22 23 0% 1 0% 0% 0% 0% 0% 0% 23 24 0% 1 0% 0% 0% 0% 0% 0% MMMM Hour 0 1 Schedule Sun 0% B - Mon 0% Boilers Tue 0% Off (Summer) Wed 0% Thu 0% Fri_� 0% 0% 1 2 0% 0% 0% 0% 0% 0% 0% 2 3 0% 0% 0% 0% 0% 0% 0% 3 4 0% 0% 0% 0% 0% 0% 0% 4 5 0% 0% 0% 0% 0% 0% 0% 5 6 0% 0% 0% 0% 0% 0% 0% 6 7 0% 0% 0% 0% 0% 0% 0% 7 8 0% 5% 5% 5% 5% 5% 0% 8 9 0% 60% 60% 60% 60% 60% 30% 9 10 0% 60% 60% 60% 60% 60% 30% 10 11 0% 60% 60% 60% 60% 60% 30% 11 12 0% 60% 60% 60% 60% 60% 30% 12 13 0% 60% 60% 60% 60% 60% 30% 13 14 0% 60% 60% 60% 60% 60% 30% 14 15 0% 60% 60% 60% 60% 60% 30% 15 16 0% 45% 45% 45% 45% 45% 30% 16 17 0% 15% 15% 15% 15% 15% 30% 17 18 0% 5% 5% 5% 5% 5% 30% 18 19 0% 15% 15% 15% 15% 15% 0% 19 20 0% 20% 20% 20% 20% 20% 0% 20 21 0% 20% 20% 20% 20% 20% 0% 21 22 0% 10% 10% 10% 10% 10% 0% 22 23 0% 0% 0% 0% 0% 0% 1 0% 23 24 0% 0% 0% 0% 0% 0% 0% Hour Sun Mon Tue Wed Thu Fri Sat 0 1 0% 0% 0% 0% 0% 0% 0% 1 2 0% 0% 0% 0% 0% 0% 0% 2 3 0% 0% 0% 0% 0% 0% 0% 3 4 0% 0% 0% 0% 0% 0% 0% 4 5 0% 0% 0% 0% 0% 0% 0% 5 1 6 0% 0% 0% 0% 0% 0% 0% 6 7 0% 0% 0% 0% 0% 0% 0% 7 8 0% 0% 0% 0% 0% 0% 0% 8 9 0% 0% 0% 0% 0% 0% 0% 9 10 0% 0% 0% 0% 0% 0% 0% 10 11 0% 0% 0% 0% 0% 0% 0% 11 12 0% 0% 0% 0% 0% 0% 0% 12 13 0% 0% 0% 0% 0% 0% 0% 13 14 1 01% 00/b 01% 00/b 01% 00/b 0% 14 15 0% 0% 0% 0% 0% 0% 0% 15 16 0% 0% 0% 0% 0% 0% 0% 16 17 0% 0% 0% 0% 0% 0% 0% 17 18 0% 0% 0% 0% 0% 0% 0% 18 19 0% 0% 0% 0% 0% 0% 0% 19 20 0% 0% 0% 0% 0% 0% 0% 20 21P%0 0% 0% 0% 0% 0% 21 22 0% 0% 0% 0% 0% 22 23 0% 0% 0% 0% 0% 23 24 001 0% 0% 0% 1 0% Hour Sun Mon Tue Wed Thu Fri Sat 0 1 0% 0% 0% 0% 0% 0% 0% 1 2 0% 0% 0% 0% 0% 0% 0% 2 3 0% 0% 0% 0% 0% 0% 0% 3 4 0% 0% 0% 0% 0% 0% 0% 4 5 0% 0% 0% 0% 0% 0% 0% 5 6 0% 0% 0% 0% 0% 0% 0% 6 7 0% 0% 0% 0% 0% 0% 0% 7 8 0% 0% 0% 0% 0% 0% 0% 8 9 0% 0% 0% 0% 0% 0% 0% 9 10 0% 0% 0% 0% 0% 0% 0% 10 11 0% 0% 0% 0% 0% 0% 0% 11 12 0% 0% 0% 0% 0% 0% 0% 12 13 0% 0% 0% 0% 0% 0% 0% 13 14 0% 0% 0% 0% 0% 0% 0% 14 15 0% 0% 0% 0% 0% 0% 0% 15 16 0% 0% 0% 0% 0% 0% 0% 16 17 0% 0% 0% 0% 0% 0% 0% 17 18 0% 0% 0% 0% 0% 0% 0% 18 19 0% 0% 0% 0% 0% 0% 0% 19 20 0% 0% 0% 0% 0% 00% 0% 20 21 0% 0% 0% 0% 0% 0% 0% 21 22 00/0 0% 0% 00/0 0% 00/0 00/0 22 23 00/0 00/0 0% 00/0 00% 1 00% 0% 23 24 0% 0% 0% 0% 0% 0% 0% d c m U C O N L a) C Q N d V C fC L LL M N O 7 le N i t O Q d a L W C d U C O N m c Q N m V C M L U. N C O E W 4- 0 U C d E t V fSf w Q Page 3 Packet Pg. 416 2.8.c MCK8760 - Calendar 03.01-FAC: Upgrade HVAC System to VRF (-;::iIPnriar a- Wooleandc Hinhlinhfarl Valln"i Fnr Rafaranerp Vaar 1 QAQ Month -000000000000 1 Jan 2 Feb 3 Mar 4 Apr 5 May 6 Jun 7 Jul 8 Aug 9 Sep 10 Oct 11 Nov 12 Dec -0000000--000 -000000---000 -000000---000 -000000---000 -000000---000 -000000---000 -000000--0000 �000000aa0000 �000000000000 �000000000000 �000000000000 �000000000000 �000000000000 �00000000�000 �00000a000000 �000000000000 �00000�o�0000 �00000��0000 �00000��0000 �00000�o�0000 �00000�o�0000 �00000�o�0000 �00000�o�0000 �00000so�0000 �0000000�0000 �0000000�0000 �00000©000000 �o 0000000000 �o 0000�00000 Holidays and Observances: (Reference Year 1989) Jan 1 New Year's Day May 29 Memorial Day Oct 31 Halloween Jan 16 MLK Day Jul 4 Independence Day Nov 11 Veterans Day Feb 20 Presidents' Day Sep 4 Labor Day Nov 23 Thanksgiving Day Mar 26 Easter Sunday Oct 9 Columbus Day Dec 25 Christmas Day Schedules Summa Schedule A I Normal Boiler Operation (Wil 273 1 6,552 1 2,989 1 2,989 Schedule B 113oilers Off (Summer) 92 1 2,208 1 1,015 1 1,015 Schedule C I Not Used 1 0 1 0 1 0 1 0 Page 3 Packet Pg. 417 McK8760 - Inputs fry 03.01-FAC: Upgrade HVAC System to VRF 2.8.c Zone Inputs: Floor Area Roof Area Moll k 44,683 34 446 44 683, 34 446 Per FA Seismic Stmct-1 Retrofit Dw s •m m Sheet A1.01 Per 2018 FAC Roof Re lacement Dw s m Sheet A6 0 a ue Wall Area Glazin Area Glazin k k 13 394 6, 802 13 394 6 802 Per FAC Seismic Structuml Retmft Dw s m Sheet A3.01-03 Per FAC Seismic Structuml Retmft Dw s m Sheet A3.01-03 Roof U-Factor 0 a ue Wall U-Factor Roo! Wads BTU k F BTU k F 0.033 0.200 0.033 0.200 Estimatetl R-30 2018 remofn m'eR Estimatetl R-5 historical fa atle Glazin U-Facor Glazin .-Inc F 0.800 0.800 Estimated tlouble a metal frame Glazin Solar Heat Gain Coefficient SHGC Glazin 0.380 0.380 Estimated (doublePane) Glazin Solar Gain Bld Sha a Facor 0.300 0.300 Estimatetl Avers e S ace Hei ht Floor to Ceilin k 12 12 Estimated classrooms hallways, stutli os Infiltration ach 0.300 0.300 Estimated higher infiltration o wintlows for ventilation Peak Number of Occu ants t 250 250 Estimatetl basetl on owner- mvitled occupancy values Sensible Heat Gain Per Person Btu/h 2]5 2J5 Mix of school/tlaycare +gymnastics Latent Heat Gain Per Person Btu/h 2]5 2]5 Mix of school/daycare + gymnastics Peak Li htin Loatl Power Densit Peak Plu Loatl Power Densit W fit W k 0.4] 0.15 0.47 0.15 Per li htin as-builts from 2020 MCK lighting upgrade (excludingm locker, eights) Com uters kitchen a liances clothes washer ventlin machines estimated Peak Extenor Li htin Loatl Peak Miscellaneous Loatl Electnwl kW Watt 0 0 0 0 Not modeled Not modeled Miscellaneous Loatl Located in Contlitioned Space HVAC On Coolin S ace Tem erature Set Point HVAC Off Coolin S ace Tem e2ture Set Point HVAC On Heatin S ace Tem e2ture Set Point Yes/No °F °F °F No 75.0 80.0 69.0 No 75.0 B0.0 69.0 Not motleletl Ebvatetl baseBx vs. VRF Ebvatetl based" vs. VRF an Estimated lb on site visit ®HVAC Off Heating Space Temperature Set Point .F 62.0 Estimatetl basetl on site visit AHU & Plant Inputs: Fan Power based on Control T T CV;C,, CV • Constant volume fan o s. DOAS Occu ietl Fan 0 e2tion T Continuousinuous Assumetl mmAHU CFMCFM 14 810 810 Elev W bas i1o, vs. DOHS-1 +DOAS-3 excluolin AHU CFM % of Max CFM If CV+ Iles: min occ %run time % 100.0%0.0% Constant volume fan o vs. DOAS-1 + DOAS-2 M% 100.0%0.0% Elevatetl baseBx vs. DOHSMinimum % Outside Air Occu led % 25.0% Estimatetl basetl on unlit tlata vs. DOAS(minus nymnasium)mum%OutsideAirUnoccu ied % 3.0%0% Windows shut at ni ht Economizer Hi h Limit Set Point °F 0 0 No ezistin economizerEconomizer Low Limit Set Point °F 0 0 No ezistinDemand (motleletl Controlled Ventilation FoOtside Air Control Yes No NoNo Not a licable not DCV Airflow Per Person Based on S ace T e OCV Tab CFM Per i&:00 i&:00 Not a licable not motleletl DCV Airflow Per Area Based on Space Type) DCV Tab CFM k 406 40E Not applicable not modeled) AHU Fan TSP At Max CFM In%c 6.0 6.0 Ebvab,v bases" vs. DOHS fans Dal seek W fan BHP Fan Efficien 60% 60% Ebvatetlba-lioe vs. VRF m JAHU Occu ied Su Air Temperature @OAT ----------> B0.0 °F Sin le Zone Sin le Zone Constant volume fan ower Occu ied Su Air Temperature @OAT ----------> 65.0 °F 60 60 Constant volume fan power Unoccu ietl Heatin Su 1 Air Tem 2ture Set Dint °F Use Occ SAT Use Occ SAT Constant volume fan o Unoccu ietl Coolin Su Air Temperature Setpoint °F 55 §§ Constant volume fan o AHU Coolin EfficiencyIEER BTU Watt 14.0 EbvaW based" wtleeminimu vs. VR ZEER a ra edacrossad ODUs Evaporative Coolin Effectiveness Air side % 0.0% 0.0% Not applicable not motleletl AHU CoolingLockout Below °F 60 60 Ebva. bases" vs. M m AHU Heatin Efficien or COP 2.OAT--------------> 4J.0 COP 0.80 : No existingcoolin (locked out vs. VRF system avers etl across all ODUs AHU Heatin Efficien or COP @OAT-------------->i 17.0 COP 0.80 1 No ezistin coolin locketl out vs. VRF s stem esti matetl AHU Heatin Efficien or COP < OAT --------------> 9.0 COP 0.80 r r No ezistin coolin locketl out vs. VRF s stem etimatetl AHU Heatin Ene Source T s Natural Gas 2 natural as boilers vs. VRF system AHU HeatingLockout Above °F JO 70 Estimated Eva o2tive Pre-Coolin on Condenser Yes No No No Not applicable not modeled) Heat Recove %Effectiveness % nh DOHS enemyeffiden code minimum Onsite Central Plant? Yes/No Yes (2) natural gas boilers vs. VRF system Terminal Devices Inputs (Reheat Coils, VAV Boxes, Baseboard Heaters, etc) Terminal Devices Yes No Yes posed ,Yes Ratliators unit ventilators B-i� vs. VRF IDUs Zone Heatin Lockout Above °F ]0.0 J0.0 Ratliators unit ventilators vs. VRF IDUs Zone Heatin Efficien or COP @OAT -------------> 4J.0 COP 0.80 Ratliators unit ventilators vs. VRF IDUs Zone Heatin Efficien or COP @OAT -------------> 1J.0 COP 0.80 Ratliators unit ventilators vs. VRF IDUs Zone Heatin Efficien or COP < OAT --------------> Heatin Ene Source Zone Unoccu ietl Heatin Done B 9.0 COP T e Zone AHU 0.80 Natural Gas I Zone Coil I Zone Coil Ratliators Ratliators unit ventilators unit ventilators vs. VRF IDUs vs. VRF IDUs PMBI Chilled Water and Heating Plants Inputs: 1I111F.il .iiF.GTiAOIIX 178 Chiller Source illerT e T T e Chilled o Chiller Water P-ps No Chiller No chiller not motleletl No chiller not motleletl iller Nominal Tonnage illed Water Flow Rate Tonna a GPM i12 268 i12 268 No chiller not modeled) No chiller not motleletl illed Water stem Desi n Pressure Drop k w i20 i-20 No chiller not motleletl illed Water Pum in CV or VFD Type VFB VFB No chiller not modeled) illed Water Pum Enable Method nimum Chilled Water GPM % of Max Flow Rate Type % Demand 33.E% Beman9 33.E% No chiller not modeled) No chiller not motleletl illetl Water PumpEfficien Motorand Pump)% illetl Water Su Tem e2ture °F 6&0% 4B 6&0% 4B No chiller not motleletl No chiller not motleletl illetl Water Tem e2ture Control St2te illetl Water stem Delta CHWRT -CHWS T e F Fixed }§ Fixed }§ No chiller not motleletl No chiller (not motleletl) ntlenser Water Flow Rate GPM 0 0 No contlenser not motleletl ntlenser Water stem Doe n Pressure Drop k w 0 0 No condenser not modeletl ntlenser Water Pum in CV or VFD 1CCCMWW1ater Type VFB VFB No contlenser not motleletl ndenser Water Pum Enable Method nimum Contlenser Water Flow Rate % of Max Flow Rate Type % Demand 33.0% Demand 33.E% No condenser not modeletl No contlenser not modeled ndenser Water Pug Efficien Motor and Pum ntlenser Water stem Delta T CW RT-CW Sr % °F 6B$% 20 6B$% 20 No contlenser not modeletl No contlenser not modeled) olin Tower Desi n CW Sf °F 85 85 No coolin tower not motleletl olin Tower Desi n Wet Bulb °F 68 68 No coolin tower not motleletl olin Tower Design Fan Brake HP bh i-1.2 i-1.2 No coolin tower not modeled) olin Tower Fan Desi n Flow Rate CFM 0 0 No coolin tower not modeled n TowerFanControlT e VFD VFB No coolin tower not moeletlolin Tower CW Sr ControlStr to T e No coolin tower notmodeletlol Tower Min CWSr Tem °F §0 §0 Nocoolin towernotmodeletlnimum Coolin Tower Fan S eed Side Economizer % Yes No 33.E% No 33.9% Ne No coolin tower not motleletlater No coolin tower not motleletl Side Economizer HX Tem A mach F § Heating § Water Plant No cooling tower (not motleletl) n Water Flow Rate GPM 350 0 Estimatetl - h tlmnic s stem vs. none VRF n Water stem Desi n Pressure Dm ft w 45 0 Estimatetl - h tlmnic s stem vs. none VRFn Water Pum in CV orFDT e Estimatetl - h tlmnic s stem vs. noneVRFn WN!Water Pum Enable Method T e Schetl Demantl Schetl Demantl Estimatetl - h tlmnic s stem vs. none VRFum Heatin WaterFlow Rate % of Max Flow Rate % 400%40.0% Estimattlh tlmnics stem vs. noneVRFn Water Pum Efficien Motor and Pum % 60.0% 60.0% Estimatetl - h tlmnic s stem vs. none VRFn Water stem DeltaT HWST-HWRT F 20.0 20.0 Estimatetl-h tlmnics stem vs. none VRF 1118 Water Source Heat Pum Boiler Heat Pum Boiler Eaiden Yes No % Pie 80% Pie 80% No water source heat um boiler not motleletl No water source heat um boiler not motleletl Heat Pum Loo Water Flow Rate Heat Pum Loo Water stem Desi n Pressure Dro Heat Pum Loo Water Pumping CV or VFD GPM k w T e 0 0 VFD B 1 B VFD No water source heat um boiler not motleletl No water source heat um boiler not motleletl No water source heat um boiler not motleletl Heat Pum Loo Water Pum Enable Method T 1 0eman9 1 Demand No water source heat um boiler not motleletl Minimum Heat Pum Loo Water Flow Rate % of Max Flow Rate % 40.0% 40.9% No water source heat um boiler not motleletl Heat Pum Loop Water Pum Efficien Motor and Pump)% 6Bb% 60d46 No water source heat um boiler not motleletl Heat PumpLoopWater stem Delta HW Sr - HWRT F 24g 20.0 No water source heat pump boiler (not motleletl) Domestic Hot Water Inputs: DHW Fuel T e Ene Facor W Orkin Da sPer Year Used Onl For DHW Calc Type t Natu21 Gas 0.80 300 - 300 1 Lochinvar as firetl DHW manul. 2003 84%AFUE on final tle2tetl vs. 2 new h bntl DHW Estimated Avers a Dail Hot Water Consum lion Per Person Gallons 1.0 1.0 School tla ca a kitchen m locker moms Avers a Entenn Cold Water Temperature °F 55.0 55.0 Estimatetl . Supply Hot Water Temperature F 120.0 120.0 Per site visit Page 3 Packet Pg. 418 2.8.c McK8760 - Outputs 03.01-FAC: Upgrade HVAC System to VRF Electric Demand M. in Coolin Peak kW I 36 . -. 20 16 • AHU Heatin Peak kW I 7kW 0 0 0 70.0% Zone Heatin Peak kW 0 0 0 Fan Peak kW 18 19 -1 Interior Lighting Peak kW 18 18 0 • Exterior Lighting Peak kW kW 0 0 0 0.0% • Plug Load Peak kW kW 6 6 0 0.0% • - Pumps Peak kW kW 5 0 5 100.0% • Heat Rejection kW kW 0 0 0 0.0% • Miscellaneous Load Peak kW kW 0 0 0 0.0% • Other Peak kW kW 13 28 -15-111.1% Electricity . kWh/Yr 9658 0.74 • ... 5 210 0.40 4448 46.1% 0.34 in kWh/Yr 0 0.00 55 609 4.25 55 609 0.0% 4.25 F.AHU tin kWh/Yr 0 0.00 62 413 4.77 62413 0.0% 4.77 kWh/Yr 145 246 11.09 147314 11.25 -2068 -1.4% -0.16 s kWh/Yr 0 0.00 6 626 0.51 6 626 0.0% 0.51 LightingkWh/Yr 55,297 4.22 55,297 4.22 0 0.0% 0.00 • Exterior Lighting kWh/Yr 0 0.00 0 0.00 0 0.0% 0.00 • Plug Loads kWh/Yr 17,653 1.35 17,653 1.35 0 0.0% 0.00 M 1PUMI)s kWh/Yr 16,350 1.25 0 0.00 16,350 100.0% 1.25 • Heat Rejection kWh/Yr 0 0.00 0 0.00 0 0.0% 0.00 • Miscellaneous Loads kWh/Yr 0 0.00 0 0.00 0 0.0% 0.00 • - Domestic Hot Water kWh/Yr 0 0.00 2 824 0.22 -2 824 0.0% -0.22 • G m ElectricitykWh/Yr 22 935 1.75 51 693 3.95 -28 758 -125.4% -2.20 Natural Gas Steam DescriptionTag AHU Heating kLB/Yr 1 0 1 0.00 • ... 1 0 1 0.00 1 0 1 0.0% 10.00 Zone Heating kLB/Yr 0 0.00 1 0 0.00 1 0 0.0% 1 0.00 Domestic Hot Water kLB/Yr 0 0.00 0 0.00 1 0 0.0% 0.00 Other Steam kLB/Yr 0 0.00 0 0.00 1 0 0.0% 0.00 Total Page 3 Packet Pg. 419 2.8.c MCK8760 - General Information 0. nstiry 03.01-FAC: Upgrade HVAC System to VRF - ect Information: 995 50943 Jacob Keith 10/22/2024 VRF Weather Data: WA, SNOHOMISH CO jjjjjff. 727937TY.xls Description of FIM From TCO Tool Existing: The facility is currently heated using two (2) natural gas -fired hot water and steam boilers. These boilers serve radiators and unit ventilators that are controlled room -by -room via local thermostats. The gymnasium is served by two (2) air handling units also served by the hydronic system. No mechanical cooling exists, and ventilation is via operable windows. The existing BMS is a simple interface with scheduling, on/off commands, and alarms. The existing domestic hot water plant consists of a natural gas -fired, circulating water heater (manuf. 2003) and a storage tank.Proposed: Demo all existing thermostats, radiators, unit ventilators, pumps, boilers and associated hydronic piping. Install a new variable refrigerant flow (VRF) system for heating/cooling and a dedicated outdoor air system (DOAS) for ventilation. Refurbish the gymnasium AHUs with new fans, VRF coils, filters, and variable frequency drives. Demo the existing natural gas domestic hot water plant and replace with a new electric hybrid system. Load Schedules: Schedule A Title BoilerNormal • - ASHRAE Schedule Type Schedule B Title Boilers • - ASHRAE Schedule Type Schedule C Title ASHRAE Schedule Tvve Utility Rate Schedules Rate Schedule 1 Rate Schedule 2 Rate Schedule 3 Zone Data (for multi -model buildi Zone Name (e.g. RTU-1 or West Wing) Zone Description Savings Tracker (Use if Modeling Multiple Efficiency Measures) Measure Description Electric Demand Natural Gas Steam (kW) Electricity (kWh) (therm) (kLB) EUI (kBTU/SqFt/Yr) Savings ► 42.16 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Savings ► 0.00 Usage ► 0.00 Notes: Page 3 Packet Pg. 420 2.8.c McK8760 - HVAC Schedules 03.01-FAC: Upgrade HVAC System to VRF Baseline HVAC Equipment Daily Schedules Hour Schedule To A Sun - Normal Mon Boiler Tue Operation Wed (Winter) Thu Fri Sat 000000000 0©0000000 ©©0000000 ©00000000 0©0000000 ©00000000 000000000 000000000 000000000 Om0000000 mm0000000 m®0000000 ®®0000000 ®m0000000 m®0000000 ®m0000000 mm0000000 m�0000000 �m0000000 mm0000000 m®0000000 ®®0000000 ®®0000000 ®�0000000 Daily Totals 0 13 13 13 13 -_ Proposed HVAC Equipment Daily Schedules Hour ---� Sn, Sun ormal Mon 2 Boiler Tue 3 Operation Wed 4 (� Thu ��- 5 ��- 000000000 0©0000000 ©©0000000 ©00000000 0©0000000 ©00000000 000000000 000000000 000000000 Om0000000 mm0000000 m®0000000 ®®0000000 ®m0000000 m®0000000 ®m0000000 mm0000000 m�0000000 �m0000000 mm0000000 m®0000000 ®®0000000 ®®0000000 ®m0000000 —1 000000000 Sun 1 Wed 4 Thu Fri Sat 0©0000000 ©©o000000 ©oo000000 0©0000000 ©00000000 000000000 000000000 000000000 Om0000000 mm0000000 m®D000000 ®®D000000 ®m0000000 m®D000000 ®m00000©0 mm0000000 m�0000000 �m0000000 mm0000000 m®0000000 ®®0000000 ®®0000000 ®�0000000 Epaily Totals 0 13 13 Sun Mon Tue Wed Thu Fri Sat om T1 2 3 4-- 000000000 0©0000000 ©©0000000 ©00000000 0©0000000 ©00000000 000000000 000000000 000000000 Om0000000 mm0000000 m®0000000 ®®0000000 ®m0000000 m®0000000 ®m0000000 mm0000000 m�0000000 �m0000000 mm0000000 m®0000000 ®®0000000 ®®0000000 ®m0000000 Daily Totals 0 13 13 13 13 13 13 nstry 0=Fan Off 1=Fan On crh—h,iP r - Ki- I i-A L Hour Sun Mon Tue Wed Thu Fri Sat 000000000 0©0000000 ©©0000000 ©00000000 0©0000000 ©00000000 000000000 000000000 000000000 Om0000000 mm0000000 m®0000000 ®®0000000 ®m0000000 m®0000000 ®m0000000 mm0000000 m�0000000 �m0000000 mm0000000 m®0000000 ®®0000000 ®®0000000 ®�0000000 Daily Totals _______ Hour Sun Mon Tue Wed Thu Fri Sat 000000000 0©0000000 ©©0000000 ©00000000 0©0000000 ©00000000 000000000 000000000 000000000 Om0000000 mm0000000 m®0000000 ®®0000000 ®m0000000 m®0000000 ®m0000000 mm0000000 m�0000000 �m0000000 mm0000000 m®0000000 ®®0000000 ®®0000000 ®m0000000 Page 3 Packet Pg. 421 2.8.c McK8760 - Occupancy Schedules 11Stry 03.01-FAC: Upgrade HVAC System to VRF Baseline Occupancy Load Profiles (Percent of Peak Occupancy) Hour 0 1 A Sun 0% - Normal Mon 0% Boiler Tue 0% OperationSchedule Wed 0% Thu 0% 0% 0% 1 2 0% 0% 0% 0% 0% 0% 0% 2 3 0% 0% 0% 0% 0% 0% 0% 3 4 0% 0% 0% 0% 0% 0% 0% 4 5 0% 0% 0% 0% 0% 0% 0% 5 6 0% 0% 0% 0% 0% 0% 0% 6 7 0% 0% 0% 0% 0% 0% 0% 7 8 0% 5% 5% 5% 5% 5% 0% 8 9 0% 75% 75% 75% 75% 75% 300/b 9 10 0% 90% 90% 90% 90% 90% 30% 10 11 0% 90% 90% 90% 90% 90% 300b 11 12 0% 80% 80% 80% 80% 80% 300b 12 13 0% 80% 80% 80% 80% 80% 300b 13 14 0% 80% 80% 80% 80% 80% 30% 14 15 0% 80% 80% 1 80% 80% 800% 300% 15 16 0% 45% 45% 45% 45% 45% 30% 16 17 0% 15% 15% 15% 15% 15% 30% 17 18 0% 5% 5% 5% 5% 5% 30% 18 19 0% 15% 15% 15% 15% 15% 0% 19 20 0% 20% 20% 20% 20% 20% 0% 20 21 0% 20% 20% 20% 20% 20% 0% 21 22 0% 10% 10% 10% 10% 10% 0% 22 23 00% 00% 00% 00% 00%. 0% 1 0% 23 24 0% 0% 0% 00% 00/b 1 0% 1 0% 0 1 0% 0% 0% 0% 0% 0% 0% 1 2 0% 0% 0% 0% 0% 0% 0% 2 3 0% 0% 0% 0% 0% 0% 0% 3 4 0% 0% 0% 0% 0% 0% 0% 4 5 0% 0% 0% 0% 0% 0% 0% 5 6 0% 0% 0% 0% 0% 0% 0% 6 7 0% 0% 0% 0% 0% 0% 0% 7 8 0% 5% 5% 5% 5% 5% 0% 8 9 0% 75% 75% 75% 75% 75% 30% 9 10 0% 90% 90% 90% 90% 90% 30% 10 11 0% 90% 90% 90% 90% 90% 30% 11 12 0% 80% 80% 80% 80% 80% 30% 12 13 0% 80% 80% 80% 80% 80% 30% 13 14 0% 80% 80% 80% 80% 80% 30% 14 15 0% 80% 80% 80% 80% 80% 30% 15 16 0% 45% 45% 45% 45% 45% 30% 16 17 0% 15% 15% 15% 15% 15% 30% 17 18 0% 5% 5% 5% 5% 5% 30% 18 19 0% 15% 15% 15% 15% 15% 0% 19 20 0% 201/b 200% 20% 1 20% 20% 0% 20 21 0% 20% 20% 20% 1 20% 20% 0% 21 22 0% 10% 100% 10% 100/0 10% 00% 22 23 0% 0% 0% 0% 0% 0% 0% 23 24 0% 0% 0% 0% 0% 0% 0% Proposed Occupancy Load Profiles (Percent of Peak Occupancy) Hour 0 Schedule 1 A Sun 0% - Normal Mon 0% Boiler Tue 0% Operation Wed 0% Thu 0% Fri 0% Sat 0% 1 2 0% 0% 0% 0% 0% 0% 0% 2 3 0% 0% 0% 0% 0% 0% 0% 3 4 0% 0% 0% 0% 0% 0% 0% 4 5 0% 0% 0% 0% 0% 0% 0% 5 6 0% 0% 0% 0% 0% 0% 0% 6 7 0% 0% 0% 0% 0% 0% 0% 7 8 0% 5% 5% 5% 5% 5% 0% 8 9 0% 75% 75% 75% 75% 75% 30% 9 10 0% 90% 90% 90% 90% 90% 30% 10 11 0% 90% 90% 90% 90% 90% 300. 11 12 0% 80% 80% 80% 80% 80% 30% 12 13 0% 80% 80% 80% 80% 80% 3006 13 14 0% 80% 80% 80% 80% 80% 303% 14 15 0% 80% 80% 80% 80% 80% 303% 15 16 0% 45% 45% 45% 45% 45% 30% 16 17 0% 15% 15% 15% 15% 15% 30% 17 18 0% 5% 5% 5% 5% 5% 303/o 18 19 0% 15% 15% 15% 15% 15% 0% 19 20 0% 20% 20% 20% 20% 20% 0% 20 21 0% 20% 20% 20% 20% 20% 00b 21 22 0% 10% 10% 10% 10% 10% 0% 22 23 0% 1 0% 0% 0% 0% 0% 0% 23 24 0% 1 0% 0% 0% 0% 0% 0% MMMM Hour 0 1 Schedule Sun 0% B - Mon 0% Boilers Tue 0% Off (Summer) Wed 0% Thu 0% Fri_� 0% 0% 1 2 0% 0% 0% 0% 0% 0% 0% 2 3 0% 0% 0% 0% 0% 0% 0% 3 4 0% 0% 0% 0% 0% 0% 0% 4 5 0% 0% 0% 0% 0% 0% 0% 5 6 0% 0% 0% 0% 0% 0% 0% 6 7 0% 0% 0% 0% 0% 0% 0% 7 8 0% 5% 5% 5% 5% 5% 0% 8 9 0% 75% 75% 75% 75% 75% 30% 9 10 0% 90% 90% 90% 90% 90% 30% 10 11 0% 90% 90% 90% 90% 90% 30% 11 12 0% 80% 80% 80% 80% 80% 30% 12 13 0% 80% 80% 80% 80% 80% 30% 13 14 0% 80% 80% 80% 80% 80% 30% 14 15 0% 80% 80% 80% 80% 80% 30% 15 16 0% 45% 45% 45% 45% 45% 30% 16 17 0% 15% 15% 15% 15% 15% 30% 17 18 0% 5% 5% 5% 5% 5% 30% 18 19 0% 15% 15% 15% 15% 15% 0% 19 20 0% 20% 20% 20% 20% 20% 0% 20 21 0% 20% 20% 20% 20% 20% 0% 21 22 0% 10% 10% 10% 10% 10% 0% 22 23 0% 0% 0% 0% 0% 0% 1 0% 23 24 0% 0% 0% 0% 0% 0% 0% Hour Sun Mon Tue Wed Thu Fri Sat 0 1 0% 0% 0% 0% 0% 0% 0% 1 2 0% 0% 0% 0% 0% 0% 0% 2 3 0% 0% 0% 0% 0% 0% 0% 3 4 0% 0% 0% 0% 0% 0% 0% 4 5 0% 0% 0% 0% 0% 0% 0% 5 1 6 0% 0% 0% 0% 0% 0% 0% 6 7 0% 0% 0% 0% 0% 0% 0% 7 8 0% 0% 0% 0% 0% 0% 0% 8 9 0% 0% 0% 0% 0% 0% 0% 9 10 0% 0% 0% 0% 0% 0% 0% 10 11 0% 0% 0% 0% 0% 0% 0% 11 12 0% 0% 0% 0% 0% 0% 0% 12 13 0% 0% 0% 0% 0% 0% 0% 13 14 1 01% 00/b 01% 00/b 01% 00/b 0% 14 15 0% 0% 0% 0% 0% 0% 0% 15 16 0% 0% 0% 0% 0% 0% 0% 16 17 0% 0% 0% 0% 0% 0% 0% 17 18 0% 0% 0% 0% 0% 0% 0% 18 19 0% 0% 0% 0% 0% 0% 0% 19 20 0% 0% 0% 0% 0% 0% 0% 20 21P%0 0% 0% 0% 0% 0% 21 22 0% 0% 0% 0% 0% 22 23 0% 0% 0% 0% 0% 23 24 001 0% 0% 0% 1 0% Hour Sun Mon Tue Wed Thu Fri Sat 0 1 0% 0% 0% 0% 0% 0% 0% 1 2 0% 0% 0% 0% 0% 0% 0% 2 3 0% 0% 0% 0% 0% 0% 0% 3 4 0% 0% 0% 0% 0% 0% 0% 4 5 0% 0% 0% 0% 0% 0% 0% 5 6 0% 0% 0% 0% 0% 0% 0% 6 7 0% 0% 0% 0% 0% 0% 0% 7 8 0% 0% 0% 0% 0% 0% 0% 8 9 0% 0% 0% 0% 0% 0% 0% 9 10 0% 0% 0% 0% 0% 0% 0% 10 11 0% 0% 0% 0% 0% 0% 0% 11 12 0% 0% 0% 0% 0% 0% 0% 12 13 0% 0% 0% 0% 0% 0% 0% 13 14 0% 0% 0% 0% 0% 0% 0% 14 15 0% 0% 0% 0% 0% 0% 0% 15 16 0% 0% 0% 0% 0% 0% 0% 16 17 0% 0% 0% 0% 0% 0% 0% 17 18 0% 0% 0% 0% 0% 0% 0% 18 19 0% 0% 0% 0% 0% 0% 0% 19 20 0% 0% 0% 0% 0% 00% 0% 20 21 0% 0% 0% 0% 0% 0% 0% 21 22 00/0 0% 0% 00/0 0% 00/0 00/0 22 23 00/0 00/0 0% 00/0 00% 1 00% 0% 23 24 0% 0% 0% 0% 0% 0% 0% d c m U C O N L a) C Q N d V C fC L LL M N O 7 le N i t O Q d a L W C d U C O N m c Q N m V C M L U. N C O E W 4- 0 U C d E t V fSf w Q Page 3 Packet Pg. 422 2.8.c MCK8760 - Calendar 03.01-FAC: Upgrade HVAC System to VRF (-;::iIPnriar a- Wooleandc Hinhlinhfarl Valln"i Fnr Rafaranerp Vaar 1 QAQ Month -000000000000 1 Jan 2 Feb 3 Mar 4 Apr 5 May 6 Jun 7 Jul 8 Aug 9 Sep 10 Oct 11 Nov 12 Dec -0000000--000 -000000---000 -000000---000 -000000---000 -000000---000 -000000---000 -000000--0000 �000000aa0000 �000000000000 �000000000000 �000000000000 �000000000000 �000000000000 �00000000�000 �00000a000000 �000000000000 �00000�o�0000 �00000��0000 �00000��0000 �00000�o�0000 �00000�o�0000 �00000�o�0000 �00000�o�0000 �00000so�0000 �0000000�0000 �0000000�0000 �00000©000000 �o 0000000000 �o 0000�00000 Holidays and Observances: (Reference Year 1989) Jan 1 New Year's Day May 29 Memorial Day Oct 31 Halloween Jan 16 MLK Day Jul 4 Independence Day Nov 11 Veterans Day Feb 20 Presidents' Day Sep 4 Labor Day Nov 23 Thanksgiving Day Mar 26 Easter Sunday Oct 9 Columbus Day Dec 25 Christmas Day Schedules Summa Schedule A I Normal Boiler Operation (Wil 273 1 6,552 1 3,029 1 3,029 Schedule B 113oilers Off (Summer) 92 1 2,208 1 1,027 1 1,027 Schedule C I Not Used 1 0 1 0 1 0 1 0 Page 3 Packet Pg. 423 2.8.c McK8760 - Inputs nstry 03.01-FAC: Upgrade HVAC System to VRF Zone Innuts: Floor Area Roof Area ft ft2 6,787 6 787 6 787 ' 6 787 Per FAC Seismic Structural Retrofit Dw s gymnasium onlySheet A1.01 Per 2018 FAC Roof Replacement Dw s mnasium onl Sheet A6 O a ue wall Area •r Glazin Area G/e W W 6,825 340 6 825 340 Per FAC Seismic Structural Retrofit Ow s mnasium onl Sheet A3.01-03 Per FAC Seismic Structural Retrofit Dw sgymnasium only Sheet A3.01-03 Roof U-Factor O a ue Wall U-Factor Roof Walls BTU/ft2/°F BTU/ft2/°F 0.030 0.125 0.030 0.125 R-38 er 2018 FAC Roof Re lacement Dw s gymnasium onlySheet A3 Estimated R-10 Glazin U-Factor Glazing Solar Heat Gain Coefficient SHGC GI -in Glazing BTU/ft2/°F 0.800 0.380 0.800 1 0.380 Estimated double pane, metal frame Estimated doublepane) Glazin Solar Gain Bld Sha a Factor Avers e S ace Hei h[ Floor to Ceilin ft 0.300 20 0.300 20 Estimated Averaged for ceilin hei htsgym, ocker weights) Infiltration Peak Number of Occupants ach 0.250 50 0.250 50 Estimated loose infiltration Estimated r Sensible Heat Gain Per Person Latent Heat Gain Per Person Btu/h Btu/h 710 1090 710 1,090 Athletics (ASHRAE) Athletics (ASHRAE) Peak Li htin Load Power Densi Peak Plu Load Power Densi W/ft2 W/ft, 0.62 0 0.62 0 Per lighting as-builts from 2020 MCK lighting upgrade m locker, weights) G mnasium no plugload Peak Exterior Lighting Load Peak Miscellaneous Load Electrical kW Watt 0 1 0 0 1 0 Not modeled 1 Not modeled Miscellaneous Load Located in Conditioned Space Yes/No No No Not modeled HVAC On Coolin Space Temperature Set Point °F 75.0 75.0 E/evated baseline vs. VRF system HVAC Off Coolin S ace Temperature Set Point °F 80.0 80.0 E/evated baseline vs. VRF system HVAC On HeatingSpace Temperature Set Point °F 60.0 60.0 Per site visit HVAC Off Heating Space Temperature Set Point I °F 1 60.0 IPer site visit AHU & Plant Inputs: AHU Fan Power based on Control Type , Type7,n V Constant volume fan ower occu ied Fan O eration T e uous cous Assumed MaximumAHU CFMCFM00Assumed vsAHU-1 +U-2 + DOAS-3 mnasium onlMin AHU CFM % of Max CFM If CV+C cles: min occ % run time % 0% % Constant volumefan ower Maximum %Outside Air Economizer % OSA% 0% % E/evated baseline vs. DOAS Minimum % Outside Air Occu ied % % E/evated baseline vs. DOAS Minimum % Outside Air Unoccu ied % % E/evated baseline vs. DOAS EcnomierHi hLimitSetPoint °F No existin economizerEconomizerLow Limit SetPoint °F 7:�one No existin economizer Demand Controlled Ventilation For Outside Air Control Yes/Noo Not a licable not modeledDCV Airflow Per Person Basedon S ace T e DCV Tab CFM/Per00 0 No[ a licable not modeledDCVAirflow Per Area Based on S ace T e DCV Tab CFM/ft'6 Not a licable not modeledAHU Fan TSP At Max CFM in w.c.0 Goal seek to total fan BHFanEfficient% % EstimatedefficientOCCu ied Su I Air Tem erature @OAT ----------> 80.0 °F Zone Sione Constant volume fan ower OCCu iedSu I AirTem erature @OAT----------65.0°F0 Constantvolume fan owerr Unoccu ied Heatin Su I Air Tem erature Set oint °F c SAT UsSAT Constant volume fan pow Unoccu ied Coolin Su I Air Temperature Set oint °F 5 55 Constant volume fan power AHU Coolin Efficient IEER BTU/Watt 13.7 Elevated baseline code minimum vs. VRFIEER (averaged for ODU-3 -10 Eva orative Cooling Effectiveness Air side % 0.0 % 0.0 % Not a licable not modeled AHU Coolin Lockout Below °F 60 60 Elevated baseline vs. VRFs system AHU Heatin Efficient or COP @ OAT --------------> 47.0 COP 0.80 Gas boilers vs. VRF s Stem (averaged for ODU-3 ODU-30 AHU Heatin Efficient or COP @OAT 17.0 COP 0.80 Gas boilers vs. VRF s stem estimated AHU Heat Efficienc Or COP < OAT --------------> 9.0 COP 0.80 Gas boilers vs. VRF s Stem estimated AHU Heatin En Source Type Natural Gas Gas boilers vs. VRF s Stem AHU Heatin Lockout Above °F 70 70 Estimated . ,11 Evaporative Pre-Coolingon Condenser Yes/No No No Not a licable not modeled Heat Recovery% Effectiveness % 0.0 DOAS heat recove effectiveness code minimum Onsite Central Plant? Yes/No No No Central plant modeled in main bldg. Terminal Devices Innuts (Reheat Coils VAV Boxes Basehoard Heaters etc) Terminal Devices Yes/No No No terminal devices vs. new electric radiant ceilin anels Zone Heatin Lockout Above °F 7G.0 70.0 No terminal devices vs. new electric radian[ ceilin anels Zone Heatin Efficienc or COP @ OAT > 47. COP 0-.80 No terminal devices vs. new electric radiant ceilin anels Zone Heatin Efficienc or COP @OAT -------------> 17.0 •: COP 0�0 No terminal devices vs. new electric radiant ceilin anels Zone Heatin Efficienc or COP < OAT 11 9.0 COP 0.-80 No terminal devices vs. new electric radian[ ceilin anels HeatingEnergySource Zone Type NatHraf-Gas No terminal devices vs. new electric radian[ ceilin anels Unoccu ied Heatin Done B Zone AHU A+IU-CeiF No terminal devices vs. new electric radiant ceilingpane:: SFPMB Terminal Unit Power W/CFM G..98 0.00 No terminal devices vs. new electric radiant ceiling panels Chilled Water and Heating Plants Inputs: Domestic Hot Water Inputs: Tag Variable Description OHW Fuel T e Units T e Baseline Natural Gas Proposed Natural Gas Basis Excluded - DHW modeled in main buildin ner Factor 0 0 Excluded - DHW modeled in main buildinorkin Da s Per Year Used Onl For DHW Calc 0 0 Excluded -DHW modeled in main buildinvers a Dail Ho[ Water Consum [ion Per Person A Gallons 0 0 Excluded - DHW modeledinmbuildinverse Enterin Cold Water Tem erature °F 55.0 55.0 Excluded - DHW modeled in main buildinupply Hot Water Temperature °F 120.0 120.0 Ezduded -DHW modeled in main building Page 3 Packet Pg. 424 2.8.c McK8760 - Outputs 03.01-FAC: Upgrade HVAC System to VRF Electric Demand M. in Coolin Peak kW I 9 . -.1111 5 3 • 37.9% 'AHU M. Heatin Peak kW I 7kW 0 0 0 0.0%Zone Heatin Peak kW 0 0 0 0.0%Fan Peak kW 1 2 -1 -100.0%Interior Lighting Peak kW 4 4 0 0.0% • Exterior Lighting Peak kW kW 0 0 0 0.0% • PlugLoad Peak kW kW 0 0 0 0.0% • - Pumps Peak kW kW 0 0 0 0.0% • Heat Rejection kW kW 0 0 0 0.0% • Miscellaneous Load Peak kW kW 0 0 0 0.0% • Other Peak kW kW 0 0 0 0.0% • Electricity • Coolin kWh/Yr •1219 0.61 1419 0.71 200 16.4% 0.10 • - AHU Heatin kWh/Yr 0 0.00 3,041 1.53 -3 041 0.0% -1.53 • Zone Heatin kWh/Yr 0 0.00 17,790 8.94 -17 790 0.0% -8.94 • AHU Fans kWh/Yr 9,677 4.86 17,403 8.75 -7 727 -79.8% -3.88 • Zone Fans kWh/Yr 0 0.00 0 0.00 0 0.0% 0.00 • Interior LightingkWh/Yr 12,039 6.05 12,039 6.05 0 0.0% 0.00 • Exterior Lighting kWh/Yr 0 0.00 0 0.00 0 0.0% 0.00 • Plu Loads kWh/Yr 0 0.00 0 0.00 0 0.0% 0.00 • Pum s kWh/Yr 0 0.00 0 0.00 0 0.0% 0.00 • Heat Rejection kWh/Yr 0 0.00 0 0.00 0 0.0% 0.00 • Miscellaneous Loads kWh/Yr 0 0.00 0 0.00 0 0.0% 0.00 • - Domestic Hot Water kWh/Yr 0 0.00 0 0.00 0 0.0% 0.00 • Other Electricity kWh/Yr 0 0.00 0 0.00 0 0.0% 0.00 llllll• Natural Gas Steam DescriptionTag AHU Heating kLB/Yr 1 0 1 0.00 • ... 1 0 1 0.00 1 0 1 0.0% 10.00 Zone Heating kLB/Yr 0 0.00 1 0 0.00 1 0 0.0% 1 0.00 Domestic Hot Water kLB/Yr 0 0.00 0 0.00 1 0 0.0% 0.00 Other Steam kLB/Yr 0 0.00 0 0.00 1 0 0.0% 0.00 Total Page 3 Packet Pg. 425 2.9 City Council Agenda Item Meeting Date: 11/19/2024 Proposed Ordinance Amending ECC 18.00.050 & 18.00.060 Staff Lead: Rob English and Sharon Cates Department: Engineering Preparer: Rob English Background/History Staff Recommendation Forward to City Council for approval. Narrative Attached is a proposed ordinance drafted by the City Attorney amending ECC 18.00.050 (Apprentice Requirements) and 18.00.060 (Bidder Responsibility Criteria) to comply with changes made by the State Legislature to the use of apprentices and bidder responsibility criteria on public works projects. Attachments: Attachment 1 - Proposed Ordinance Amending ECC 18.00.050 and .060 10.30.2024 Packet Pg. 426 2.9.a ORDINANCE NO. AN ORDINANCE OF THE CITY OF EDMONDS, WASHINGTON, AMENDING CHAPTER 18.00 ECC (PUBLIC WORKS REQUIREMENTS; GENERAL REQUIREMENTS) TO UPDATE THE APPRENTICE REQUIREMENTS OF RCW 39.04.320 AND THE RESPONSIBLE BIDDER CRITERIA REQUIREMENTS UNDER RCW 39.04.350; PROVIDING FOR SEVERABILITY; AND SETTING AN EFFECTIVE DATE. WHEREAS, the Washington State Legislature has enacted legislation revising the requirements in RCW 39.04.320 relating to the use of apprentices and the requirements in RCW 39.04.350 relating to bidder responsibility criteria; and WHEREAS, the City Council has recently adopted a comprehensive update to the City of Edmonds Contracting and Purchasing Policies and Procedures that includes these updates to state law; and WHEREAS, after review and discussion, the City Council has determined it to be appropriate to amend Sections 18.00.050 ("Apprentice Requirements") and 18.00.060 ECC ("Bidder Responsibility Criteria") to update the language in the City Code to reflect these changes in state law; NOW, THEREFORE, THE CITY COUNCIL OF THE CITY OF EDMONDS, WASHINGTON, DO ORDAIN AS FOLLOWS: Section 1. ECC 18.00.050 is amended to revise the opening sentence and Subsection (B) as follows (deleted text is shown in stfi e gffo g ; new text is shown in underline): This section is intended to supplement, and to be followed in conjunction with, the City of Edmonds Purchasing Policies and Procedures, dated ai+u _; 2012 October 2024, or as amended. B. Apprentice Utilization. Apprentices shall be utilized for the construction of public works by contractors and subcontractors in accordance with this section. 1. Apprenticeship Utilization Program Requirements GeW. For- publie works eentr-aets with an estimated eest of $ > , ,t,..,, to f and s„r.,.,,,.t,..,, to f hattfs be per f ,.ri,o,a by a en+iees As of July 1, 2024, for Packet Pg. 427 2.9.a all public works contracts awarded with an estimated cost of Two Million Dollars ($2,000,000) or more, all specifications must require that no less than fifteen percent (15%) of the labor hours be performed bapprentices. For contracts advertised for bid on or after July 1, 2026, for all public works contracts awarded with an estimated cost of One Million Five Hundred Thousand Dollars ($1,500,000) or more, all specifications must require that no less than fifteen percent (15%) of the labor hours be performed bapprentices. For contracts advertised for bid on or after July 1, 2028, for all public works contracts awarded with an estimated cost of One Million Dollars ($1,000,000) or more, all specifications must require that no less than fifteen percent (15%) of the labor hours be performed by apprentices. 2. Contract Requirements. Contract documents for such public works construction projects L shall include provisions detailing the apprentice labor requirements. There must be a O specific line item in the contract specifyingthat hat apprenticeship utilization goals should be N met, monetary incentives for meeting the goals, monetM penalties for not meeting the o a goals, and an expected cost value to be included in the bid associated with meeting the o goals. All contracts must include a provision that a contractor or subcontractor may not be a required to exceed these apprenticeship utilization requirements. N 0 N 3. Monitoring. The city will make available an appfenfiee u4il zatio pla- f fm include an o M Apprenticeship Utilization Form for contractors to complete when submitting their bid o documents, which identifies the intended usage of apprentices by the contractor and any o cfl subcontractors. This document :s to be submiAed by the sueeessful bidde,..,f*o. the e„ fact o has been .,..,afdea will require the identification of individual apprentices by name and � Washington State apprenticeship registration number, an estimate of the total apprentice c labor hours, and the identification of apprentice hours to be worked by minorities, women, c persons with disabilities and disadvantaged youth. This provision is not intended and shall c not be used to discriminate against any applicant for training. In addition, the city will 00 require pefiodie mporting on appfeatiee tAilization, to inelude the submittal of a monthly t) appfen4ieeship utilizationro .� � the submittal of an Apprenticeship Verification Form by w the contractor at the conclusion of the public works project that will identify the actual work performed by apprentices for the contractor and subcontractors on ^ mopAh y basis c m E a 4) disabilities and disadvantaged youth. This provision is not intended and shall not be use to diser-iminate—against apphe��ortfaining, The city must report apprentice = utilization by contractor and subcontractor to the supervisor of apprenticeship at the Department of Labor & Industries by final project acceptance. V 4. Failure to Meet Utilization Goal. Failure by a contractor to comply with established apprenticeship requirements, unless otherwise adjusted or waived in writing as set forth below, shall may be deemed a breach of contract for which the city shall be entitled to all remedies allowed by law under the contract. Failure to comply with the apprenticeship requirements may also be considered evidence bearing on a contractor's qualification for award of future contracts with the city. 5. Adjustment and Waiver. The responsible department directorof publie wes, or his designee, may adjust or waive the requirements of this section for a specific project at any time for the following reasons: Packet Pg. 428 2.9.a a. The demonstrated lack of availability of apprentices in specific geographic areas; b. A disproportionately high ratio of material costs to labor hours, which does not make feasible the required minimum levels of apprentice participation; fits, ,gEf ec. The participating contractor has demonstrated a good faith effort to comply with the requirements of this section; and/or €d. Other criteria deemed appropriate that are not inconsistent with the purpose and goals of this section, which are subject to review by the city council. v N O N O M O Section 2. ECC 18.00.060 is amended to revise subsection (A) as follows (deleted text o cfl 0 is shown in stfi e through; new text is shown in underline): -0 A. Mandatory Responsible Bidder Criteria. 1. The bidder responsibility criteria set forth in this section shall be used by the public works department to establish the minimum requirements for all contractors and subcontractors bidding on city contracts for public work (as those terms are defined in RCW 39.04.010). The bid documents shall set forth the documentation to be submitted by bidders to demonstrate their compliance with the mandatory responsible bidder criteria. 2. To be considered a responsible bidder and qualified to be awarded a city contract for public work, the bidder must: a. At the time of bid submittal, have a certificate of contractor registration in compliance with Chapter 18.27 RCW a plumbing contractor license in compliance with Chanter 18.106 RCW. an elevator contractor license in compliance with Chapter 70.87 RCW, or an electrical contractor license in compliance with Chapter 19.28 RCW, as required under the provisions of those chapters; b. Have a current state unified business identifier (UBI) number; c. If applicable, have: i. Industrial insurance coverage for the bidder's employees working in Washington as required in RCW Title 51; Packet Pg. 429 2.9.a ii. A state employment security department number as required in RCW Title 50; and iii. A state excise tax registration number as required in RCW Title 82; d. Not be disqualified from bidding on any public works contract under RCW 39.06.010 E or 39.12.065(3); and a) E e. UfAil Deeember 31, 2013, fivt have vieit'tt€d RPAI 39.n-04.370 more +mtn ene 6ii�2-&S Q detei=mined by the State DepaAment of Labef and If bidding on a public works project subject to the apprenticeship utilization requirements in RCW 39.04.320, not have been found out of compliance by the Washington state apprenticeship and training council for working apprentices out of ratio, without appropriate supervision, O or outside their approved work processes as outlined in their standards of apprenticeship under chapter 49.04 RCW for the one-year period immediately preceding the date of o the bid solicitation; o L a f. Have received training on the requirements related to public works and prevailing wage under this chapter and chapter 39.12 RCW. The bidder must designate a person N or persons to be trained on these requirements. The training must be provided by the c department of labor and industries or by a training provider whose curriculum is "' 0 approved by the department. The department, in consultation with the prevailing wage c advisory committee, must determine the length of the training. Bidders that have c completed three or more public works projects and have had a valid business license in Washington for three or more years are exempt from this subsection. The department a of labor and industries must keep records of entities that have satisfied the training ,or, requirement or are exempt and make the records available on its website. Responsible c parties may rely on the records made available by the department regarding satisfaction 00 of the training requirement or exemption; and t) t) g. Within the three -,period immediately preceding the date of the bid solicitation, w a not have been determined by a final and binding citation and notice of assessment issued = by the department of labor and industries or through a civil judgment entered by a court of limited or en'aljurisdiction to have willfully violated, as defined in RCW E 49.48.082, any provision of chapter 49.46, 49.48, or 49.52 RCW. Q 3. A bidder must verify mandatory responsibility criteria for each first tier subcontractor, and a subcontractor of any tier that hires other subcontractors must verify mandatory responsibility criteria for each of its subcontractors. Verification shall include that each subcontractor, at the time of subcontract execution, meets the responsibility criteria listed in RCW 39.04.350(1) and this section and possesses an electrical contractor license, if required by Chapter 19.28. RCW, of an elevator contractor license, if required by Chapter 70.87 RCW. or a nlumbine contractor license. if reauired by Chanter 18.106 RCW. This verification requirement, as well as the mandatory responsibility criteria, must be included in every public works contract and subcontract of every tier. Section 3. Severability. If any section, sentence, clause or phrase of this ordinance should be held to be invalid or unconstitutional by a court of competent jurisdiction, such Packet Pg. 430 2.9.a invalidity or unconstitutionality shall not affect the validity or constitutionality of any other section, sentence, clause or phrase of this ordinance. Section 4. Effective Date. This ordinance, being an exercise of a power specifically delegated to the City legislative body, is not subject to referendum, and shall take effect five (5) days after passage and publication of an approved summary thereof consisting of the title. APPROVED: MAYOR MIKE ROSEN ATTEST/AUTHENTICATED: CITY CLERK, SCOTT PASSEY APPROVED AS TO FORM: OFFICE OF THE CITY ATTORNEY: IM JEFF TARADAY FILED WITH THE CITY CLERK: PASSED BY THE CITY COUNCIL: PUBLISHED: EFFECTIVE DATE: ORDINANCE NO. Packet Pg. 431 2.9.a On the Ordinance No. provides as follows: SUMMARY OF ORDINANCE NO. of the City of Edmonds, Washington day of 2024, the City Council of the City of Edmonds, passed A summary of the content of said ordinance, consisting of the title, AN ORDINANCE OF THE CITY OF EDMONDS, WASHINGTON, AMENDING CHAPTER 18.00 ECC (PUBLIC WORKS REQUIREMENTS; GENERAL REQUIREMENTS) TO UPDATE THE APPRENTICE REQUIREMENTS OF RCW 39.04.320 AND THE RESPONSIBLE BIDDER CRITERIA REQUIREMENTS UNDER RCW 39.04.350; PROVIDING FOR SEVERABILITY; AND SETTING AN EFFECTIVE DATE. The full text of this Ordinance will be mailed upon request. DATED this day of i► OZ111 CITY CLERK, SCOTT PASSEY v N O N O M O 0 to 0 Packet Pg. 432