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REVIEWED BLD2022-1104+Energy_Code_Sheet_or_Envelope_Summary+8.17.2022_2.17.15_PM+3057347PRESCRIPTIVE CHECKLIST (TYPICAL ALL UNITS) 2018 Washington State Energy Code - Residential Prescriptive Energy Code Compliance for All Climate Zones in Washington Single Family - New & Additions (effective February 1, 2021) Version 10 2018 Washington State Energy Code - Residential Prescriptive Energy Code Compliance for All Climate Zones in Washington Single Family -- New & Additions (effective February 1 2021) LN ry, W�,< These requirements apply to all IRC building types, including detached one- and two-family dwellings and multiple single-family dwellings (townhouses)- P "t b4brmiation Contact to turn Pine Park Townhomec Bu Id ro 8 CrO.Q Pontius C:Bren Design 614 165th Ave S- Edmonds. WA 98020 1206 370 9908 epontiu&@mllaWatNem.com Instructions: This single-family project will use the requirements of the Prescriptive Path below and incorporate the minimum values listed. Based on the size of the structure, the appropriate number of additional credits are checked as chosen by the permit applicant Provide all Information from the following tables as building permit drawings: Table R402-1 - Insulation and Fenestration Requirements by Component, Table R406-2 Fuel Normalization Credits and 406.3 -Energy Credits. Authorised RepresentabW Daft Aq Climate, Zones able R402.1.1 R-_Value_ lt4a4w • Fenestration U-Factor n/a 0.30 O.SO Skylight U-factor • n/a n/a Glazed Fenestration SHGC i"'' n/a Ceiling • 49 0.026 Wood Frame Wall 21 int 0.OS6 Floor 0.029 30 Below Grade Wall ° 10/1S/21 int • TB 0.042 Slab iTR Value 8 Depth 10, 2 ft n%a R-values are minimums. U-factors and SI4GC are maximums. When Insulation is installed In a cavity that is less a than the label or design thickness of the Insulation, the compressed R-value of the msulatton from Appendix Table A1014 shall not be less than the R-value specified in the table hts, b The fenestrat►on U-factor column excludes skylights, -' '10/15/21.5T8' means R-10 continuous insulation on the exterior of the wall, or R-15 continuous insulation on the interior of the wall, or R-21 cavity Insulation plus a thermal break between the slab and the basement wall at c the interior of the basement wall, '10/15/21 •STB' shall be permitted to be met with R-13 cavity Insulation on the Interior of the basement wall plus R-5 continuous insulation on the interior or extenor of the wall, "5TB' means R-S thermal break between floor slab and basement wall. d R•10 continuous insulation is required under heated slab on grade floors. See Section R402-L9.1. For single rafter- or joist -vaulted ceilings, the insulation may be reduced to R-38 If the full insulation depth extends over the top plate of the exterior wall. R•7.S continuous insulation installed over an existing slab is deemed to be equivalent to the required perimeter f slab insulation when appked to existing slabs complying with Section R503.1.1. if foam plastic is used, it shalt meet the requirements for thermal barriers protecting foam plastics. For log structures developed in compliance with Standard ICC 400, log walls shall meet the requirements for g climate zone S of ICC 40& Int (Intermediate framing) denotes framing and insulation as described in Section A103.2.2 including standard h framing 16 inches on center, 79% of the wall cavity Insulated and headers insulated with a minimum of R-10 Insulation. PrseopWe Path, - Singe Family 2018 wasn,ngton State Energy Code 2018 Washington State Energy Code - Residential Prescriptive Energy Code Compliance for All Climate Zones in Washington Single Family - New & Additions (effective February 1, 2021) Each dwelling unit in o residential building shall comply with sufficient options from Table R406.2 (fuel normalization credits) and Table 406.3 (energy credits) to achieve the following minimum number of credits. To claim this credit, the building permit drawings shall specify the option selected and the maximum tested building air leakage, and show the qualifying ventilation system and its control sequence of operation. 1 Small Dwelling Unit:.1 credits Dwelling units less than 1,500 sf in conditioned floor area wrth less than 300 sf of fenestration area. Additions to existing building that are greater than 500 sf of heated floor area but less than 1,500 sf 2 Medium Dwelling Unit: 6 credits All dwelling units that are not included in pl or #3 3. large Dwelling Unit: 7 credits Dwelling units exceeding S,000 sf of conditioned floor area 4 Additions less than SOO square feet:: ; rredIt5 All other additions shall meet 1-3 above Before selecting your credits on this Summary table, review the details in Table 406 3 (Single Family), on page 4 Pleating Summary of Table I Fuel Normalization Descriptions Combustion heating minimum NAECA' Hest pump _ 'Electric resistance heat only - furnace or zonal R406.2 Credits - select heating option OA -0 1.0 -1.0 ONE User Notes O O 1 2 3 4 S Energy Options, 1.1 1.2 1.3 1.4 1.5 2.6 DHP with tonal electric resistance per option 3 4 All other heating systems Energy Credit Option Descriptions Efficient Building Envelope Efficient Building Envelope Efficient Building Envelope Efficient Building Envelope ! Efficient Bolding Envelope Efficient Building Envelope O S -1 o Credits - select energy option from category ' 0.5 1.0 0.5 1.0 2.0 3.0 O l7 ONE each O O 0 O O O 1.7 Efficient Building E nvellope as O 2.1 AW Leakage_ Control and Efficient Ventilation Air Leakage Control and Efficient Ventilation as I LO O O 2.2 2.3 Air Leakage Control and Efficient Ventilation I 1.5 O O O 2.4 Air Leakage Control and Efficient Ventilation 2.0 3.1' High Efficiency HVAC 1.0 3.2 High Efficiency HVAC 1A O - O O O 0 3.3' Efficieritcy HVAC 1.5 _High 3.4 High Efficiency HVAC 1.5 3.S High Efficie HVAC 1.s 3,6' High Efficiency HVAC 2.0 4.1 -High Efficiency HVAC Distribution System 0.s O O 4.2 High Efficiency HVAC Distribution System 1.0 Fimicigtlive Path - Single Family 2018 wasnirgWn State Energy Code-R 2 Summary of Table R406.2 (cont-) gnmw Credits - select ONE Energy Credit Option Descriptions (cant) energy option from User Notes each category' S.1' (Efficient Water Heatinit OS 1 ❑ S.2 I Efficient Water H_eatIng as Efficient Water Heating 1.0 Efficient Water Heating 1.5 p 5.3 O 1 SA O S.S Effident Water Heating 2.0 0 SA Efficient Water Heating 0 2.5 O 6.1' Renewable Electric Energy (3 credits max) 1.0 Q { 7.1 Acchance Packate 0.5 Tote!CFedRs I a -a I� I Ckw Potm a An alternative heating source sized at a maximum of 0-5 W/sf (equivalent) of heated floor area or S00 W. whichever is bigger, may be installed in the dwelling unit. b. Equipment listed in Table C403.3.2(4) or C403.3.2(S) c Equipment listed in Table C403 3 2(1) or C403.3.2(2) d. You cannot select more than one option from any category EXCEPT in category S. Option S.1 may be combined with options 5.2 through 5.6. See Table 406.3. e 1-0 credit for each 1,200 kWh of electrical generation provided annually, up to 3 credits max See the complete Table R406.2 for all requirements and option descnptions f Use the smgle radioibutton in the upper right of the second column to deselect radlobutions in that gfmv Please p&d only pages 1 through 3 of this worksheet for submission to your building official. Wescnptwe Palls - Suxye Fumiy 2016 Washington Stag Energy Code-R 3 ................................................ REVIEWED BY CITY OF EDMONDS BUILDING DEPARTMENT CITIZEN DESIGN w Q 0 0 r- Z O 0 w Z w O Z) Z Q IY tl) Z W tL0 L) �o Lu Z •o City of EDMONDS Permit August 15, 2022 � 1 I I 1 ,leiwtt RECEIVED 9/1 /22 CITY OF EDMONDS DEVELOPMENT SERVICES DEPARTMENT FOR PLANNING DEPT USE ONLY ENERGY CODE COMPLIANCE SCALE: AS NOTED BLD2022-1104- B101 BLD2022-1103- B102 BLD2022-1102- B103 A002 UNIT B1 HEAT LOSS CALCULATION 2021 Balderston Associates HeatCAD 314 First Ave S Seattle, WA 98104 Phone:425-243-7290 Email: Hello@baiderstonassociates.com Project Information Project #: Pine Park 614-B (North)_21-12-15 Name: Pine Park 614-B (North Unit) Location: Edmonds, WA Notes: 3 of 14 Total Units. Building B Manual J Load Summary Total Heating: 16,928 Btu/hr Total Sensible: 11,803 Btu/hr Total Latent: 600 Btu/hr Outdoor Conditions Location: Everett, Paine AFB,Washington Elevation: 596' Latitude: 47 Heating Cooling Dry Bulb: 250 "F 76.0 *F Daily Range: Medium Wet Bulb: 64.0 *F Load Report Manual J8 Load Calculation Project #:Pine Park 614-B (North)_21-12-15 Indoor Conditions Heating Cooling Room Temp: 68 "F 78 "F Design Temp Diff: 43.0 *F -2.0 "F Humidity: 35 50 Moisture Diff (Grains): -1.3 Infiltration Ventilation Method: SimpilNum Occupants: 3 Stories: 3 Heating Cooling Construction: Tight Type: Heat Recovery Type: Heat Recovery Exposure Category: Three or Four Exposures ACH: 0.27 ACH : 0.37 Num Fireplaces: None Outside Air: 75 cfm Outside Air: 75 cfm Net Air Changes (Heat/Cool): 0.19 / 0.12 Sensible Eff: 50 % Sensible Eff: 50 % Net Flow (Heat/Cool): 53 cfm / 24 cfm Name:Pine Park 614-B (North Unit) Project #:Pine Park 614-B (North)_21-12-15 Load Breakdown Name Heating Sensible Latent Windows* 3,901 5,667 Skylights' 0 0 Doors 764 80 Walls 5,255 747 Below Grade Walls 0 Ceilings 784 0 Floors 2,028 -27 Infiltration 2,447 -52 0 Internal 1,890 600 Other 0 Duct Loads 0 0 0 Ventilation 1,749 -81 0 Humidification 0 Piping Load 0 Radiant Back Loss 0 Blower Heat 1,706 AED* 1,873 Total 16,928 1 11,803 600 Total Area 1,865 ft' I 1,317 ft' *Average Load Procedure Heatina AT': 70.0 JSHR: 0.95 Coolina AT': 18.0 MJ8 Tons: 1.03 Est. Heating CFM2: 0 SoFt/Ton: 1274 Est. Coolina CFM': 524 CFM/SaFt: 0.40 Load Report Name:Pine Park 614-B (North Unit) Project #:Pine Park 614-B (North)_21-12-15 Coolina Rooms Load Report Room Area Room Temp AED Sensible Load* Bed #1 128 78 NO 1,942 Kitchen Living Dining 589 78 NO 4,891 Primary Bed 157 78 NO 1,880 Work Suite 443 78 NO 2,963 (Average Load Procedure) The sum of room loads may not equal the project total due to variations in solar gain and system loads. Floorplan/Levels Floor 607 ft2 Total Heated Area: 1,865 Frst Second Floor 629 ft2 Total Cooled Area: 1,317 fN Third Floor 629 ft2 (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Created Using HeatCAD 2021 (12/1512021) (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Created Using HeatCAD 2021 (12/15/2021) Length = It Area = ft2 Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btu/hr Unit Heat Loss = Btu/(heft2) Rv = heft2.°Flbtu Verslon21.0.0080 R (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Created Using HeatCAD 2021 (12/1512021) Length = ft Area = ft' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btulhr Unit Heat Loss = Btul(he(t') Rv = heft2-°F/btu Version:21.0.0080 R Head Loss = ft water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated Length = it Area = ft' Temperature = "F Flowrate = USGPM Air Flow = cfm Heat Loss = Btuthr Unit Heat Loss = Btu/(heft') Rv = hr•ft2•°F/btu Version:21.0.0080 R Head Loss = It water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated Head Loss = ft water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Healed See end of report for important Notes and Disclaimers. Page 1 of8 See end of report for important Notes and Disclaimers. Page 7 of 8 See end of report for important Notes and Disclaimers. Page 4 of 8 Name:Pine Park 614-B (North Unit) Load Report Name:Pine Park 614-B (North Unit) Load Report Name:Pine Park 614-B (North Unit) Load Report Project #:Pine Park 614-B (North)_21-12-15 Project #:Pine Park 614-B (North) 21-12-15 Project #:Pine Park 614-B (North)_21-12-15 Constructions Walls Code Description U-Value Area Heating Cooling R-21, U0.056 0.056 1,646 3,931 681 R-21, U0.056 0.056 790 1 0 0 Int. R-26 Double Wall Fire wall / sound insulated 0.038 800 1 1,323 66 Doors Code Description U-Value Area Heating Cooling 0.37 Swing U-value - 0.37 Opaque Swing Doors 0.370 24 382 80 0.37 Swing U-value - 0.37 Opaque Swing Doors 0.370 24 382 0 Floors Code Description U-Value Area Heating Cooling 22D-10 P 22D - Vertical Board Insulation Covers Slab Ede Turns Under the Slab and 9 Extends Four Feet Horizontally, any Floor Cover 0.100 102'- 2" (P) 2 003 • 0 R-38p WSEC R-38 Floors 0.026 22 25 -4 R-38p WSEC R-38 Floors 0.026 125 0 -23 Ceilings Code Description U-Value Area Heating Cooling R-38 Code Flat Roof Ceiling On Exposed Beams; R-38 Insulation; Roof Material: Membrane; Roof 0.029 305 0 0 Color: Light; R-38 Code Flat Roof Ceiling On Exposed Beams; R-38 Insulation; Roof Material: Membrane; Roof 0.029 128 160 0 Color: Light; 1.75" x 7.25"LVL @12" oc Ceiling On Exposed Beams; R-38 Insulation; Roof Material: Membrane; Roof 0.029 501 625 0 Color: Light; Glazing Windows Code Description Exposure U-Value SHGC Area Heating Cooling 0.28, 0.25SHGC 0.28, BlindsMedium45 (50%), 1% V above. W 0.28 0.25 186 2,239 3,330 0.28, 0.25SHGC 0.28, BlindsMedium45 (50%), 11% V above. E 0.28 0.25 131 1,571 2,337 0.28, 0.25SHGC 0.28, BlindsMedium45 (50%), 1% V above. E 0.28 0.25 8 90 0 AED O Average Load: 6,157 Btu/hr Peak Load: 9,878 Btu/hr Excursion Limit: 8,004 Btu/hr AED Load:1,873 Btu/hr (1) AT: Difference between supply air and return air (2) Estimated air flow based on specified supply air AT Created Using HeatCAD 2021 (12115/2021) (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Length = ft Area = ft' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btufhr Unit Heat Loss = Btu/(heft) Rv = hr•R'•'Flbtu Version:21.0.0080 R Length = ft Area = ft2 Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btufhr Unit Heat Loss = Btu/(heft') Rv = heft'-*F/btu Head Loss = it water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated Head Loss = It water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated See end of report for important Notes and Disclaimers. Page 2 of 8 See end of report for important Notes and Disclaimers. Name: Pine Park 614-B (North Unit) Load Report Name: Pine Park 614-B (North Unit) Project #:Pine Park 614-B (North)_21-12-15 Project #:Pine Park 614-B (North)_21-12-15 Internal Loads Description Default (1,200 Btuh) 3 Occupants: Total Sensible Latent 1,200 0 690 600 1,890 600 Other Loads Blower Load 1,706 Btulllr Created Using HeatCAD 2021 (12/15/2021) Version:21.0.0080 R Page 5 of 8 Load Report Heating Zones Zone Area Room Temp Total Load Zone 101 97 68 1,825 Zone 102 67 68 832 Zone 103 443 68 5,044 Zone 201 40 68 352 Zone 202 589 68 4,244 Zone 301 49 68 436 Zone 302 33 68 218 Zone 303 155 68 866 Zone 304 157 68 1,384 Zone 305 108 68 438 Zone 306 128 68 1,290 Heatina Rooms Room Area Room Temp Total Load* Bath #1 49 68 436 Bed #1 128 68 1,290 Entry 97 68 1,825 Kitchen Living Dining 589 68 4,244 Laundry 33 68 218 Primary Bath 108 68 438 Primary Bed 157 68 1,384 Pwdr 40 68 352 Stair Hall - Third 155 68 866 Work Restroom 67 68 832 Work Suite 443 1 68 1 5,044 * The sum of room loads may not be equal to the project total due to additional system loads. Cooling Zones Zone Area Room Temp AED Sensible Load Cl 128 78 NO 1,942 C2 157 78 NO 1,880 C3 589 78 NO 4,891 C4 443 78 NO 2,963 (Average Load Procedure) Warnings This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. Disclaimers With the permission of the Air Conditioning Contractors of America ("ACCA"), material is reproduced from Manual J Residential Load Calculation (8th Edition) which is copyrighted by ACCA. The program and data are provided "as is" without warranty of any kind either expressed or implied. The entire risk as the quality and performance of the program and data is with you. In no event will ACCA be liable to you for any damages, including without limitation any lost profits, lost savings, or other incidental or consequential damages arising out of the use or inability to use this program or the data. ® 2015 Air Conditioning Contractors of America. All Rights Reserved. www.acca.org ACCA, Manual J and Powered by ACCA Manual J are registered trademarks of the Air Conditioning Contractors of America. All rights reserved. Cold weather humidification or some lifes les that produce excessive moisture may cause condensation to occur if the absolute humidity of the indoor air is too high for the momenta circumstances. Condensation can occur on lifestyles, P Y tY 9 momentary surfaces or concealed within the structure, and can lead to mold, mildew, frost damage, and moisture damage. The software does not perform calculations for the estimation or detection of possible condensation problems, and it is the designers i.e. software users responsibility to do so independently if required. For guidance and additional cautions refer to ACCA Manual J 8th Edition including Section 1-11 and Section 27. 9 ( ) P lY P Y9 9 The calculated values shown in this report are based on the data input by the user of the software. Inaccurate or erroneous data input will result in inaccurate or erroneous results. You are strongly advised to review all input data carefully, and to have the calculated results reviewed by an experienced heating professional to ensure reasonableness and suitability for your application. IN NO EVENT WILL AVENIR SOFTWARE INC. ("AVENIR") OR ITS AFFILIATES BE LIABLE UNDER ANY CONTRACT, NEGLIGENCE, STRICT LIABILITY OR OTHER LEGAL OR EQUITABLE THEORY FOR ANY CONSEQUENTIAL, INCIDENTAL, INDIRECT OR SPECIAL OR PUNITIVE DAMAGES WHATSOEVER (INCLUDING, BUT NOT LIMITED TO, DAMAGES FOR LOSS OF BUSINESS PROFITS, BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORMATION OR DATA AND THE LIKE) EVEN IF SUCH PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. AVENIR'S CUMULATIVE LIABILITY FROM ANY CAUSE RELATED TO OR ARISING FROM THE USE THIS REPORT, AND REGARDLESS OF THE FORM OF THE ACTION, SHALL BE LIMITED TO NO GREATER THAN THE AMOUNT OF FEES PAID TO AVENIR UNDER THE SOFTWARE LICENSE AGREEMENT. (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Length = ft Area = ft' Temperature = OF Flowrate = USGPM Air Flow = cfm Heat Loss = BhAr Unit Heat Loss = Btu/(heft') Rv = heft2-°F/btu Head Loss = It water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated See end of report for important Notes and Disclaimers. Created Using HeatCAD 2021 (12/15/2021) Version:21.0.0080 R Page 8 of 8 LN ry, W�,< MINN-, CITIZEN DESIGN r. w Q Z 0 0 W Z W 0 QZ W � � Q Z W LI 0 O r_ W Z •o City of EDMONDS Permit August 15, 2022 RECEIVED 9/1 /22 CITY OF EDMONDS DEVELOPMENT SERVICES DEPARTMENT FOR PLANNING DEPT USE ONLY ENERGY CODE COMPLIANCE SCALE: AS NOTED (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Created Using HeatCAD 2021 (12/15/2021) (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Length = ft Area = It' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btulhr Unit Heat Loss = Btu/(heft) Rv = hr•R'•'Flbtu Version:21.0.0080 R Length = ft Area = ft' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btufhr Unit Heat Loss = Btu/(heft') Rv = heft'-*F/btu Head Loss = It water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated Head Loss = It water RH = Radiant Floor Heating Be = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated See end of report for important Notes and Disclaimers. Page 3of8 See end of report for important Notes and Disclaimers. Created Using HeatCAD 2021 (12/15/2021) Version:21.0.0080 R Page 6 of 8 BLD2022-1104- B101 BLD2022-1103- B102 BLD2022-1102- B103 A003 UNIT B2 HEAT LOSS CALCULATION 2021 Balderston Associates HeatCAD 314 First Ave S Seattle, WA 98104 Phone:425-243-7290 Email: Hello@baiderstonassociates.com Project Information Project #: Pine Park 614-B (Mid Unit)_21-12-15 Name: Pine Park 614-B (Mid Unit) Location: Edmonds, WA Notes: 3 of 14 Total Units. Building B Manual J Load Summary Total Heating: 14,306 Btu/hr Total Sensible: 11,302 Btu/hr Total Latent: 600 Btu/hr Outdoor Conditions Location: Everett, Paine AFB,Washington Elevation: 596' Latitude: 47 Heating Cooling Dry Bulb: 250 "F 76.0 "F Daily Range: Medium Wet Bulb: 64.0 "F Load Report Manual J8 Load Calculation Project #:Pine Park 614-B (Mid Unit)_21-12-15 Indoor Conditions Heating Cooling Room Temp: 68 °F 78 -F Design Temp Diff: 43.0 "F -2.0 "F Humidity: 35 50 Moisture Diff (Grains): -1.3 Infiltration Ventilation Method: Simple Num Occupants: 3 Stories: 3 Heating Cooling Construction: Tight Type: Heat Recovery Type: Heat Recovery Exposure Category: Three or Four Exposures ACH: 0.26 ACH : 0.37 Num Fireplaces: None Outside Air: 74 cfm Outside Air: 74 cfm Net Air Changes (Heat/Cool): 0.19 / 0.12 Sensible Eff: 50 % Sensible Eff: 50 % Net Flow (Heat/Cool): 52 cfm / 24 cfm Name:Pine Park 614-B (Mid Unit) Project #:Pine Park 614-B (Mid Unit)_21-12-15 Load Breakdown Name Heating Sensible Latent Windows* 3,901 5,667 Skylights' 0 0 Doors 764 80 Walls 3,262 342 Below Grade Walls 0 Ceilings 776 0 Floors 1,449 -124 Infiltration 2,429 -52 0 Internal 1,890 600 Other 0 Duct Loads 0 0 0 Ventilation 1,725 -80 0 Humidification 0 Piping Load 0 Radiant Back Loss 0 Blower Heat 1,706 AED* 1 1,873 Total 14,306 1 11,302 600 Total Area 1,842 ft- 1 1,296 ft' `Average Load Procedure Heatina AT': 70.0 JSHR: 0.95 Coolino AT': 18.0 MJ8 Tons: 0.99 Est. Heating CFM': 0 SoFt/Ton: 1307 Est. Coolina CFM': 498 CFM/SoFt: 0.38 Load Report Name:Pine Park 614-B (Mid Unit) Project #:Pine Park 614-B (Mid Unit)_21-12-15 Floorplan/Levels Floor 599 ft' Total Heated Area: 1,842 Frst Second Floor 621 ft' Total Cooled Area: 1,296 ft� Third Floor 621 ft' (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Created Using HeatCAD 2021 (12/1512021) Length = ft Area = ft' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btu/hr Unit Heat Loss = Btu/(heft') Rv = heft'-°F/btu Vemlon21.0.0080 R (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Created Using HeatCAD 2021 (12/1512021) Head Loss = it water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated Length = ft Area = ft' Temperature = "F Flowrate = USGPM Air Flow = cfm Heat Loss = Btuthr Unit Heat Loss = Btu/(heft') Rv = heft'•°F/btu Version:21.0.0080 R Head Loss = ft water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Healed See end of report for important Notes and Disclaimers. Page 1 of See end of report for important Notes and Disclaimers. Page 4 of 8 Name:Pine Park 614-B (Mid Unit) Load Report Name:Pine Park 614-B (Mid Unit) Load Report Project #:Pine Park 614-B (Mid Unit)_21-12-15 Project #:Pine Park 614-B (Mid Unit)_21-12-15 Constructions Walls Code Description U-Value Area Heating Cooling R-21, U0.056 0.056 812 1,939 276 R-21, U0.056 0.056 412 0 0 Int. R-26 Double Wall Fire wall / sound insulated 0.038 800 1,323 66 Doors Code Description U-Value Area Heating Cooling 0.37 Swing U-value - 0.37 Opaque Swing Doors 0.370 24 382 80 0.37 Swing U-value - 0.37 Opaque Swing Doors 0.370 24 382 0 Floors Code Description U-Value Area Heating Cooling 22D-10 P 22D - Vertical Board Insulation Covers Slab Ede Turns Under the Slab and 9 Extends Four Feet Horizontally, any Floor Cover 0.100 71'- 10" (P) 1 408 • 0 R-38p WSEC R-38 Floors 0.026 36 41 -6 R-38p WSEC R-38 Floors 0.026 639 0 -118 Ceilings Code Description U-Value Area Heating Cooling R-38 Code Flat Roof Ceiling On Exposed Beams; R-38 Insulation; Roof Material: Membrane; Roof 0.029 777 0 0 Color: Light; R-38 Code Flat Roof Ceiling On Exposed Beams; R-38 Insulation; Roof Material: Membrane; Roof 0.029 126 157 0 Color: Light; 1.75" x 7.25"LVL @12" oc Ceiling On Exposed Beams; R-38 Insulation; Roof Material: Membrane; Roof 0.029 496 619 0 Color: Light; Glazing Windows Code Description Exposure U-Value SHGC Area Heating Cooling 0.28, 0.25SHGC 0.28, BlindsMedium45 (50%), 1% V above. W 0.28 0.25 186 2,239 3,330 0.28, 0.25SHGC 0.28, BlindsMedium45 (50%), 11% V above. E 0.28 0.25 131 1,571 2,337 0.28, 0.25SHGC 0.28, BlindsMedium45 (50%), 1% V above. E 0.28 0.25 8 90 0 AED O Average Load: 6,157 Btu/hr Peak Load: 9,878 Btu/hr Excursion Limit: 8,004 Btu/hr AED Load:1,873 Btu/hr (1) AT: Difference between supply air and return air (2) Estimated air flow based on specified supply air AT Created Using HeatCAD 2021 (12115/2021) (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Length = ft Area = ft' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btufhr Unit Heat Loss = Btu/(heft) Rv = hr•ff'•'Flbtu Version:21.0.0080 R Length = ft Area = ft' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btufhr Unit Heat Loss = Btu/(heft') Rv = heft'•°F/btu Head Loss = It water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated Head Loss = ft water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated See end of report for important Notes and Disclaimers. Page 2 of 8 See end of report for important Notes and Disclaimers. Name: Pine Park 614-B (Mid Unit) Load Report Name: Pine Park 614-B (Mid Unit) Project #:Pine Park 614-B (Mid Unit)_21-12-15 Project #:Pine Park 614-B (Mid Unit)_21-12-15 Internal Loads Other Loads Description Sensible Latent Blower Load 1,706 Btu/hr Default (1,200 Btuh) 200 1LJ�-J 0 3 Occupants: 600 Total 600 Created Using HeatCAD 2021 (12/15/2021) Version:21.0.0080 R Page 5 of 8 Load Report Heating Zones Zone Area Room Temp Total Load Zone 101 97 68 1,930 Zone 102 67 68 890 Zone 103 435 68 3,473 Zone 201 40 68 393 Zone 202 581 68 3,583 Zone 301 49 68 476 Zone 302 33 68 239 Zone 303 155 68 938 Zone 304 154 68 1,104 Zone 305 106 68 220 Zone 306 125 68 1,059 Heatina Rooms Room Area Room Temp Total Load' Bath #1 49 68 476 Bed #1 125 68 1,059 Entry 97 68 1,930 Kitchen Living Dining 581 68 3,583 Laundry 33 68 239 Primary Bath 106 68 220 Primary Bed 154 68 1,104 Pwdr 40 68 393 Stair Hall - Third 155 68 938 Work Restroom 67 68 890 Work Suite 435 1 68 1 3,473 ' The sum of room loads may not be equal to the project total due to additional system loads. Cooling Zones Zone Area Room Temp AED Sensible Load Cl 125 78 NO 1,898 C2 154 78 NO 1,828 C3 581 78 NO 4,659 C4 435 78 NO 2,789 (Average Load Procedure) Coolina Rooms Load Report Room Area Room Temp AED Sensible Load* Bed #1 125 78 NO 1,898 Kitchen Living Dining 581 78 NO 4,659 Primary Bed 154 78 NO 1,828 Work Suite 435 78 NO 2,789 (Average Load Procedure) The sum of room loads may not equal the project total due to variations in solar gain and system loads. (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Created Using HeatCAD 2021 (12/15/2021) Length = R Area = ft' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btulhr Unit Heat Loss = Btul(he(t') Rv = heft'-°F/btu Version:21.0.0080 R Head Loss = it water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated See end of report for important Notes and Disclaimers. Page 7 of 8 Name:Pine Park 614-B (Mid Unit) Load Report Project #:Pine Park 614-B (Mid Unit)_21-12-15 Warnings This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. Disclaimers With the permission of the Air Conditioning Contractors of America ("ACCA"), material is reproduced from Manual J Residential Load Calculation (8th Edition) which is copyrighted by ACCA. The program and data are provided "as is" without warranty of any kind either expressed or implied. The entire risk as the quality and performance of the program and data is with you. In no event will ACCA be liable to you for any damages, including without limitation any lost profits, lost savings, or other incidental or consequential damages arising out of the use or inability to use this program or the data. ® 2015 Air Conditioning Contractors of America. All Rights Reserved. www.acca.org ACCA, Manual J and Powered by ACCA Manual J are registered trademarks of the Air Conditioning Contractors of America. All rights reserved. Cold weather humidification or some lifes les that produce excessive moisture may cause condensation to occur if the absolute humidity of the indoor air is too high for the momenta circumstances. Condensation can occur on lifestyles, P Y tY 9 momentary surfaces or concealed within the structure, and can lead to mold, mildew, frost damage, and moisture damage. The software does not perform calculations for the estimation or detection of possible condensation problems, and it is the designers i.e. software users responsibility to do so independently if required. For guidance and additional cautions refer to ACCA Manual J 8th Edition including Section 1-11 and Section 27. 9 ( ) P lY P Y9 9 The calculated values shown in this report are based on the data input by the user of the software. Inaccurate or erroneous data input will result in inaccurate or erroneous results. You are strongly advised to review all input data carefully, and to have the calculated results reviewed by an experienced heating professional to ensure reasonableness and suitability for your application. IN NO EVENT WILL AVENIR SOFTWARE INC. ("AVENIR") OR ITS AFFILIATES BE LIABLE UNDER ANY CONTRACT, NEGLIGENCE, STRICT LIABILITY OR OTHER LEGAL OR EQUITABLE THEORY FOR ANY CONSEQUENTIAL, INCIDENTAL, INDIRECT OR SPECIAL OR PUNITIVE DAMAGES WHATSOEVER (INCLUDING, BUT NOT LIMITED TO, DAMAGES FOR LOSS OF BUSINESS PROFITS, BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORMATION OR DATA AND THE LIKE) EVEN IF SUCH PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. AVENIR'S CUMULATIVE LIABILITY FROM ANY CAUSE RELATED TO OR ARISING FROM THE USE THIS REPORT, AND REGARDLESS OF THE FORM OF THE ACTION, SHALL BE LIMITED TO NO GREATER THAN THE AMOUNT OF FEES PAID TO AVENIR UNDER THE SOFTWARE LICENSE AGREEMENT. (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Length = ft Area = ft' Temperature = OF Flowrate = USGPM Air Flow = cfm Heat Loss = BhAr Unit Heat Loss = Btu/(heft') Rv = heft'-°F/btu Head Loss = It water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated See end of report for important Notes and Disclaimers. Created Using HeatCAD 2021 (12/15/2021) Version:21.0.0080 R Page 8 of 8 LN ry, W�,< MINN-, CITIZEN DESIGN r. w Q Z O 0 W Z W O H Z Q W � � Q Z W LI 0 O r_ W Z •o City of EDMONDS Permit August 15, 2022 RECEIVED 9/1 /22 CITY OF EDMONDS DEVELOPMENT SERVICES DEPARTMENT FOR PLANNING DEPT USE ONLY ENERGY CODE COMPLIANCE SCALE: AS NOTED (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Created Using HeatCAD 2021 (12/15/2021) (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Length = ft Area = it' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btulhr Unit Heat Loss = Btu/(heft) Rv = hr•ff'•'Flbtu Vemion21.0.0080 R Length = ft Area = ft' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btufhr Unit Heat Loss = Btu/(heft') Rv = heft'•°F/btu Head Loss = It water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated Head Loss = It water RH = Radiant Floor Heating Be = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated See end of report for important Notes and Disclaimers. Page 3of8 See end of report for important Notes and Disclaimers. Created Using HeatCAD 2021 (12/15/2021) Version:21.0.0080 R Page 6 of 8 BLD2022-1104- B101 BLD2022-1103- B102 BLD2022-1102- B103 A004 UNIT B3 HEAT LOSS CALCULATION 2021 Balderston Associates HeatCAD 314 First Ave S Seattle, WA 98104 Phone:425-243-7290 Email: Hello@baiderstonassociates.com Project Information Project #: Pine Park 614-B (South)_21-12-15 Name: Pine Park 614-B (South Unit) Location: Edmonds, WA Notes: 3 of 14 Total Units. Building B Manual J Load Summary Total Heating: 16,931 Btu/hr Total Sensible: 11,707 Btu/hr Total Latent: 600 Btu/hr Outdoor Conditions Location: Everett, Paine AFB,Washington Elevation: 596' Latitude: 47 Heating Cooling Dry Bulb: 250 "F 76.0 *F Daily Range: Medium Wet Bulb: 64.0 *F Load Report Manual J8 Load Calculation Project #:Pine Park 614-B (South)_21-12-15 Indoor Conditions Heating Cooling Room Temp: 68 "F 78 "F Design Temp Diff: 43.0 *F -2.0 "F Humidity: 35 50 Moisture Diff (Grains): -1.3 Infiltration Ventilation Method: SimpilNum Occupants: 3 Stories: 3 Heating Cooling Construction: Tight Type: Heat Recovery Type: Heat Recovery Exposure Category: Three or Four Exposures ACH: 0.27 ACH : 0.37 Num Fireplaces: None Outside Air: 75 cfm Outside Air: 75 cfm Net Air Changes (Heat/Cool): 0.19 / 0.12 Sensible Eff: 50 % Sensible Eff: 50 % Net Flow (Heat/Cool): 53 cfm / 24 cfm Name:Pine Park 614-B (South Unit) Project #:Pine Park 614-B (South)_21-12-15 Load Breakdown Name Heating Sensible Latent Windows* 3,901 5,667 Skylights' 0 0 Doors 764 80 Walls 5,255 747 Below Grade Walls 0 Ceilings 785 0 Floors 2,029 -123 Infiltration 2,447 -52 0 Internal 1,890 600 Other 0 Duct Loads 0 0 0 Ventilation 1,749 -81 0 Humidification 0 Piping Load 0 Radiant Back Loss 0 Blower Heat 1,706 AED* 1,873 Total 16,931 1 11,707 1 600 Total Area 1,865 ft' I 1,317 ft' *Average Load Procedure Heatina AT': 70.0 JSHR: 0.95 Coolino AT': 18.0 MJ8 Tons: 1.03 Est. Heating CFM2: 0 SaFtTon: 1284 Est. Coolina CFM': 519 CFM/SaFt: 0.39 Load Report Name:Pine Park 614-B (South Unit) Project #:Pine Park 614-B (South)_21-12-15 Coolina Rooms Load Report Room Area Room Temp AED Sensible Load* Bed #1 128 78 NO 1,942 Kitchen Living Dining 589 78 NO 4,795 Primary Bed 157 78 NO 1,880 Work Suite 443 78 NO 2,963 (Average Load Procedure) The sum of room loads may not equal the project total due to variations in solar gain and system loads. Floorplan/Levels Floor 607 ft2 Total Heated Area: 1,865 Frst Second Floor 629 ft2 Total Cooled Area: 1,317 fN Third Floor 629 ft2 (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Created Using HeatCAD 2021 (12/1512021) (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Created Using HeatCAD 2021 (12/15/2021) Length = ft Area = ft2 Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btu/hr Unit Heat Loss = Btu/(heft2) Rv = heft2.°Flbtu Verslon21.0.0080 R (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Created Using HeatCAD 2021 (12/1512021) Length = ft Area = ft' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btulhr Unit Heat Loss = Btul(he(t') Rv = heft2-°F/btu Version:21.0.0080 R Head Loss = ft water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated Length = it Area = ft' Temperature = "F Flowrate = USGPM Air Flow = cfm Heat Loss = Btuthr Unit Heat Loss = Btu/(heft') Rv = hr•ft2•°F/btu Version:21.0.0080 R Head Loss = It water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated Head Loss = ft water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Healed See end of report for important Notes and Disclaimers. Page 1 of8 See end of report for important Notes and Disclaimers. Page 7 of 8 See end of report for important Notes and Disclaimers. Page 4 of 8 Name:Pine Park 614-B (South Unit) Load Report Name:Pine Park 614-B (South Unit) Load Report Name:Pine Park 614-B (South Unit) Load Report Project #:Pine Park 614-B (South)_21-12-15 Project #:Pine Park 614-B (South)_21-12-15 Project #:Pine Park 614-B (South)_21-12-15 Constructions Walls Code Description U-Value Area Heating Cooling R-21, U0.056 0.056 1,646 3,931 681 R-21, U0.056 0.056 790 1 0 0 Int. R-26 Double Wall Fire wall / sound insulated 0.038 800 1 1,323 66 Doors Code Description U-Value Area Heating Cooling 0.37 Swing U-value - 0.37 Opaque Swing Doors 0.370 24 382 80 0.37 Swing U-value - 0.37 Opaque Swing Doors 0.370 24 382 0 Floors Code Description U-Value Area Heating Cooling 22D-10 P 22D - Vertical Board Insulation Covers Slab Ede Turns Under the Slab and 9 Extends Four Feet Horizontally, any Floor Cover 0.100 102'- 2" (P) 2 003 • 0 R-38p WSEC R-38 Floors 0.026 23 26 -4 R-38p WSEC R-38 Floors 0.026 647 0 -119 Ceilings Code Description U-Value Area Heating Cooling R-38 Code Flat Roof Ceiling On Exposed Beams; R-38 Insulation; Roof Material: Membrane; Roof 0.029 784 0 0 Color: Light; R-38 Code Flat Roof Ceiling On Exposed Beams; R-38 Insulation; Roof Material: Membrane; Roof 0.029 129 161 0 Color: Light; 1.75" x 7.25"LVL @12" oc Ceiling On Exposed Beams; R-38 Insulation; Roof Material: Membrane; Roof 0.029 501 625 0 Color: Light; Glazing Windows Code Description Exposure U-Value SHGC Area Heating Cooling 0.28, 0.25SHGC 0.28, BlindsMedium45 (50%), 1% V above. W 0.28 0.25 186 2,239 3,330 0.28, 0.25SHGC 0.28, BlindsMedium45 (50%), 11% V above. E 0.28 0.25 131 1,571 2,337 0.28, 0.25SHGC 0.28, BlindsMedium45 (50%), 1% V above. E 0.28 0.25 8 90 0 AED O Average Load: 6,157 Btu/hr Peak Load: 9,878 Btu/hr Excursion Limit: 8,004 Btu/hr AED Load:1,873 Btu/hr (1) AT: Difference between supply air and return air (2) Estimated air flow based on specified supply air AT Created Using HeatCAD 2021 (12115/2021) (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Length = ft Area = ft' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btufhr Unit Heat Loss = Btu/(heft) Rv = hr•R'•'Flbtu Version:21.0.0080 R Length = ft Area = ft2 Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btufhr Unit Heat Loss = Btu/(heft') Rv = heft'-*F/btu Head Loss = it water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated Head Loss = It water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated See end of report for important Notes and Disclaimers. Page 2 of 8 See end of report for important Notes and Disclaimers. Name:Pine Park 614-B (South Unit) Load Report Name:Pine Park 614-B (South Unit) Project #:Pine Park 614-B (South)_21-12-15 Project #:Pine Park 614-B (South)_21-12-15 Internal Loads Other Loads Description Sensible Latent Blower Load 1,706 Btu/hr Default (1,200 Btuh) 1,200 0 3 Occupants: 690 600 Total 1,890 600 Created Using HeatCAD 2021 (12/15/2021) Version:21.0.0080 R Page 5 of 8 Load Report Heating Zones Zone Area Room Temp Total Load Zone 101 97 68 1,825 Zone 102 67 68 832 Zone 103 443 68 5,045 Zone 201 40 68 352 Zone 202 589 68 4,245 Zone 301 49 68 436 Zone 302 33 68 218 Zone 303 155 68 867 Zone 304 157 68 1,384 Zone 305 108 68 438 Zone 306 1 128 1 68 1,290 Heatina Rooms Room Area Room Temp Total Load* Bath #1 49 68 436 Bed #1 128 68 1,290 Entry 97 68 1,825 Kitchen Living Dining 589 68 4,245 Laundry 33 68 218 Primary Bath 108 68 438 Primary Bed 157 68 1,384 Pwdr 40 68 352 Stair Hall - Third 155 68 867 Work Restroom 67 68 832 Work Suite 443 1 68 1 5,045 * The sum of room loads may not be equal to the project total due to additional system loads. Cooling Zones Zone Area Room Temp AED Sensible Load Cl 128 78 NO 1,942 C2 157 78 NO 1,880 C3 589 78 NO 4,795 C4 443 78 NO 2,963 (Average Load Procedure) Warnings This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. This application has glass areas that produced large cooling loads for part of the day. Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system, or provide zone control (individual, motorized, thermostatically controlled dampers) for problem room. Single speed equipment may not be suitable for the application. Disclaimers With the permission of the Air Conditioning Contractors of America ("ACCA"), material is reproduced from Manual J Residential Load Calculation (8th Edition) which is copyrighted by ACCA. The program and data are provided "as is" without warranty of any kind either expressed or implied. The entire risk as the quality and performance of the program and data is with you. In no event will ACCA be liable to you for any damages, including without limitation any lost profits, lost savings, or other incidental or consequential damages arising out of the use or inability to use this program or the data. ® 2015 Air Conditioning Contractors of America. All Rights Reserved. www.acca.org ACCA, Manual J and Powered by ACCA Manual J are registered trademarks of the Air Conditioning Contractors of America. All rights reserved. Cold weather humidification or some lifestyles that produce excessive moisture may cause condensation to occur if the absolute humidity of the indoor air is too high for the momenta circumstances. Condensation can occur on tY P Y tY 9 momentary surfaces or concealed within the structure, and can lead to mold, mildew, frost damage, and moisture damage. The software does not perform calculations for the estimation or detection of possible condensation problems, and it is the designers i.e. software users responsibility to do so independently W required. For guidance and additional cautions refer to ACCA Manual J 8th Edition including Section 1-11 and Section 27. 9 ( ) P lY P Y9 9 The calculated values shown in this report are based on the data input by the user of the software. Inaccurate or erroneous data input will result in inaccurate or erroneous results. You are strongly advised to review all input data carefully, and to have the calculated results reviewed by an experienced heating professional to ensure reasonableness and suitability for your application. IN NO EVENT WILL AVENIR SOFTWARE INC. ("AVENIR") OR ITS AFFILIATES BE LIABLE UNDER ANY CONTRACT, NEGLIGENCE, STRICT LIABILITY OR OTHER LEGAL OR EQUITABLE THEORY FOR ANY CONSEQUENTIAL, INCIDENTAL, INDIRECT OR SPECIAL OR PUNITIVE DAMAGES WHATSOEVER (INCLUDING, BUT NOT LIMITED TO, DAMAGES FOR LOSS OF BUSINESS PROFITS, BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORMATION OR DATA AND THE LIKE) EVEN IF SUCH PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. AVENIR'S CUMULATIVE LIABILITY FROM ANY CAUSE RELATED TO OR ARISING FROM THE USE THIS REPORT, AND REGARDLESS OF THE FORM OF THE ACTION, SHALL BE LIMITED TO NO GREATER THAN THE AMOUNT OF FEES PAID TO AVENIR UNDER THE SOFTWARE LICENSE AGREEMENT. (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Length = ft Area = ft' Temperature = OF Flowrate = USGPM Air Flow = cfm Heat Loss = BhAr Unit Heat Loss = Btu/(heft') Rv = heft2-°F/btu Head Loss = It water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated See end of report for important Notes and Disclaimers. Created Using HeatCAD 2021 (12/15/2021) Version:21.0.0080 R Page 8 of 8 LN ry, W�,< MINN-, CITIZEN DESIGN r. w Q Z O 0 LIJ Z Lu O H Z Q LLI � � Q tl') Z W LI 0 �O r_ ED Z •o City of EDMONDS Permit August 15, 2022 � 1 I I , , Lim P1 RECEIVED 9/1 /22 CITY OF EDMONDS DEVELOPMENT SERVICES DEPARTMENT FOR PLANNING DEPT USE ONLY ENERGY CODE COMPLIANCE SCALE: AS NOTED (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Created Using HeatCAD 2021 (12/15/2021) (1) AT: Difference between supply air and return air (2) Estimated air Flow based on specified supply air AT Length = ft Area = ft' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btulhr Unit Heat Loss = Btu/(heft) Rv = hr•R'•'Flbtu Version:21.0.0080 R Length = ft Area = ft' Temperature ='F Flowrate = USGPM Air Flow = cfm Heat Loss = Btufhr Unit Heat Loss = Btu/(heft') Rv = heft'-*F/btu Head Loss = It water RH = Radiant Floor Heating BB = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated Head Loss = It water RH = Radiant Floor Heating Be = Baseboard FA = Forced Air OTH = Other Heating SM = Snowmelt N = Not Heated See end of report for important Notes and Disclaimers. Page 3of8 See end of report for important Notes and Disclaimers. Created Using HeatCAD 2021 (12/15/2021) Version:21.0.0080 R Page 6 of 8 BLD2022-1104- B101 BLD2022-1103- B102 BLD2022-1102- B103 A005