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2019-10-11 Dougs Lynnwood Mazda ABT Report.pdfDoug’s Lynnwood Mazda / 1910-1014 10/14/2019 Page 1 of 10 DOUG’S LYNNWOOD MAZDA WHOLE BUILDING AIR BARRIER TEST Project Name: Doug’s Lynnwood Mazda Today’s Date: 10/14/2019 Air Barrier Testing E779 Project #: 1910-1014 Project Address: 22130 Highway 99 Edmonds, WA 98026 Field Rep: Onsite Date: Chris Shafer, Test Specialist 10/11/2019 Client: Doug’s Lynnwood Mazda Weather: Clear Skies, ~45 °F Present at Site: (BEE) – Chris S. (BEE) – Nate V BEE was retained by Doug’s Lynnwood Mazda for the purpose of providing whole building air barrier testing in accordance with ASTM E779 as required by the Washington State Energy Code 2015. The Doug’s Lynnwood Mazda project is a two story car dealership with one level of below grade parking. This report contains the data for the whole building and completes the building air barrier test requirements in total. Testing was completed on 10/11/2019. BEE Consulting LLC performed the building air barrier test procedure with positive and negative pressures. The whole building air testing was completed using a total of two mechanical blower door fans. The fans were placed in the entryway on the South elevation. Flow rates of each fan were recorded at different building pressures ranging between 25 (pa) to 80 (pa). Data was taken over 12 separate points. Final Results for Doug’s Lynnwood Mazda: 0.235 CFM/SQFT at 75 Pa Combined Test,Pass Final overall results of the building performance was an air leakage rate of 0.235 CFM/ SQFT of envelope at 75 Pa at the upper 95% confidence interval with the code maximum allowable defined as 0.40 CFM/ SQFT of envelope at 75 Pa. Final pressurization results of the building performance was an air leakage rate of 0.248 CFM/ SQFT of envelope at 75 Pa at the upper 95% confidence interval. Final depressurization results of the building performance was an air leakage rate of 0.222 CFM/ SQFT of envelope at 75 Pa at the upper 95% confidence interval. Below are the results with diagrams attached. BEE Consulting LLC 170 West Dayton St., Suite 206 Edmonds, WA 98020 P: 425 672 3900 F: 425 712 8608 Doug’s Lynnwood Mazda / 1910-1014 10/14/2019 Page 2 of 10 Prepared by: X Chris Shafer Testin g Specialist Reviewed and Approved by: X Nathan R. VanVoorst Testin g Manager X Chad Smith, P.E. Princip al Engineer DISCLAIMER Please note that there is no guarantee expressed, written or implied by this report. The data complied herein is subject to change in case of new or additional data discovery. The information contained in this report is based on information available at the time that this report was prepared. Concerns do not represent a total listing of all locations with issues nor do they imply all similar locations to have issues. If additional information is discovered, it should be forwarded to our office for further review and comment. We reserve the right to amend and/or modify this report if new and/or significant data becomes available that impacts the situation and parameters of this investigation. Our services were performed using the degree of skill normally exercised by practicing investigation individuals in this area and similar locales. No other warranty is either expressed or implied. BEE Consulting LLC 170 West Dayton St., Suite 206 Edmonds, WA 98020 P: 425 672 3900 F: 425 712 8608 r ciaallilillilillllilllst Doug’s Lynnwood Mazda / 1910-1014 10/14/2019 Page 3 of 10 Doug’s Lynnwood Mazda Air Barrier Test Report In accordance with ASTM E779 WSEC 2015 Air Leakage Protocol Performed by: BEE Consulting, LLC 170 W Dayton St, Ste. 206 Edmonds, WA 98020 425.672.3900 FanTestic version: 5.11.46 licensed to: BEE Consulting, LLC Building Address: 22130 Highway 99 Edmonds, WA 98026 Performed for: Dougs Lynnwood Mazda Performed by: Chris Shafer, Testing Specialist Test Date: 10/11/2019 Associated Test file: Dougs Mazda USACE 2019-10-11 1053 Project Number: 1910-1014 Testing Location: Doug’s Lynnwood Mazda Doug’s Lynnwood Mazda / 1910-1014 10/14/2019 Page 4 of 10 Summary Building and Test Information Test file name:Dougs Mazda USACE 2019-10-11 1053 Building Height (from ground to top) [ft]:22 Envelope Area [ft2]:35,133 Building Elevation (of ground, above sea level) [ft]: 351 Results Average air flowSTP at 75 Pa [CFM]8183.0 Average equivalent leakage area at 75 Pa [sq in] 879.0 Mean 95% Confidence Interval Lower Upper Average CFM / sq ft of envelope at 75 Pa 0.233 0.231 0.235 Building Information Building Measurements Building elevation above sea level [ft]351 Building Envelope Area [ft]35,133 Building Height [ft]22 Isolation / Heating / Ventilation System All external HVAC and exhaust fan systems were properly set or isolated. All isolations were performed from the exterior with the exceptions for any unique interior conditioned spaces containing intentional penetrations through the building envelope. Doug’s Lynnwood Mazda / 1910-1014 10/14/2019 Page 5 of 10 Discussion of Results Combined Test Data (Average Values) Combined Test Data (Average Values) Average air flowSTP at +75 Pa [CFM] 8183.0 Average equivalent leakage area at 75 Pa [sq in] 879.0 Mean 95% Confidence Interval Lower upper Average CFM / sq ft of envelope at 75 Pa 0.233 0.231 0.235 Building Air Leakage Test Photo Documentation Doug’s Lynnwood Mazda / 1910-1014 10/14/2019 Page 6 of 10 Air Leakage Test Data Appendix– Depressurize Data Set Test Dataset Date and Time: 2019-10-11-10:48:55 Finish Time: 10:51:33 Environmental Conditions Operator Location: Inside the building Greatest Initial Baseline Pressure -0.254 Pa Initial Bias Pressure: -0.03 Pa Final Bias Pressure: -0.45 Pa Initial Temperature:indoors: 68 outdoors: 45. Final Temperature: indoors: 68 outdoors: 45. Test Analysis Squared correlation coefficient r2 : 0.99848 Exponent, n: 0.592 Air leakage coefficient, C [CFM/Pan]: 597.16 CFM referenced to STP at 75 Pa 7697.2 Equivalent leakage area at 75 Pa [sq in] 827.0 Mean 95% confidence limits Lower Upper CFM/sq ft of envelope at 75 0.219 0.2163 0.2219 Induced Pressure [Pa] -24.9 -30.0 -35.6 -40.9 -45.6 -50.9 -55.4 -59.9 -64.7 -70.1 -74.7 -79.8 Total Flow [CFM] 4171.30 4616.77 5058.88 5435.40 5750.02 6195.11 6535.67 6903.97 7261.08 7610.11 7935.20 8340.07 Total Corrected flow [CFM] 4005.6 4433.4 4857.9 5219.5 5521.6 5949.0 6276.1 6629.7 6972.6 7307.8 7620.0 8008.8 Error [%]1.8% 0.9% -0.3% -1.3% -2.1% -1.2% -0.9% -0.1% 0.4% 0.3% 0.7% 1.8% 12 induced pressures each taken for 12 of the required 12 seconds. 12 baseline pressures each taken for 12 of required 12 seconds. Greatest Initial Baseline Pressure: -0.254 Pa Static Pressure Averages: initial [Pa]¨3-0.03 ¨3- -0.10 ¨30.06 final [Pa]¨3-0.45 ¨3- -0.54 ¨30.04 Baseline, initial [Pa] 0.23 -0.04 0.03 0.03 0.00 -0.01 0.01 -0.02 -0.25 -0.20 -0.06 -0.11 Baseline, final [Pa] -1.10 -0.86 -0.96 -0.62 -0.36 -0.49 -0.29 -0.32 -0.32 -0.12 0.08 0.00 Doug’s Lynnwood Mazda / 1910-1014 10/14/2019 Page 7 of 10 Induced Pressure vs. Flow (Depressurize Set) Building Gauge Pressure (Depressurize Set) Doug’s Lynnwood Mazda / 1910-1014 10/14/2019 Page 8 of 10 Pressurize Data Set Test Dataset Date and Time: 2019-10-11-10:29:52 Finish Time: 10:32:30 Environmental Conditions Operator Location: Inside the building Greatest Initial Baseline Pressure -1.175 Pa Initial Bias Pressure: -0.79 Pa Final Bias Pressure: -0.03 Pa Initial Temperature:indoors: 68 outdoors: 45. Final Temperature: indoors: 68 outdoors: 45. Test Analysis Squared correlation coefficient r2 : 0.99954 Exponent, n: 0.599 Air leakage coefficient, C [CFM/Pan]: 653.14 CFM referenced to STP at 75 Pa 8668.3 Equivalent leakage area at 75 Pa [sq in] 931.4 Mean 95% confidence limits Lower Upper CFM/sq ft of envelope at 75 0.247 0.2451 0.2484 Induced Pressure [Pa] 25.3 30.4 35.2 40.1 44.6 50.4 55.9 60.6 64.9 69.9 75.4 80.4 Total Flow [CFM] 4458.10 4961.66 5383.39 5915.22 6310.08 6780.56 7155.24 7440.29 7804.52 8151.99 8468.06 8920.4 Total Corrected flow [CFM] 4577.2 5094.2 5527.2 6073.2 6478.6 6961.7 7346.4 7639.0 8013.0 8369.8 8694.3 9158.8 Error [%]-0.2% -0.4% -0.8% 0.8% 0.9% 0.9% 0.1% -0.8% -0.1% -0.1% -0.9% 0.5% 12 induced pressures each taken for 12 of the required 12 seconds. 12 baseline pressures each taken for 12 of required 12 seconds. Greatest Initial Baseline Pressure: -1.175 Pa Static Pressure Averages: initial [Pa]¨3-0.79 ¨3- -0.90 ¨30.39 final [Pa]¨3-0.03 ¨3- -0.10 ¨30.06 Baseline, initial [Pa] -1.07 -1.18 -0.68 0.39 -0.78 -1.07 -0.84 -0.64 -0.92 -0.77 -1.18 -0.81 Baseline, final [Pa] 0.23 -0.04 0.03 0.03 0.00 -0.01 0.01 -0.02 -0.25 -0.20 -0.06 -0.11 Doug’s Lynnwood Mazda / 1910-1014 10/14/2019 Page 9 of 10 Induced Pressure vs. Flow (Pressurize Set) Building Gauge Pressure (Pressurize Set) Doug’s Lynnwood Mazda / 1910-1014 10/14/2019 Page 10 of 10 Test Equipment The following test equipment was used in the performance of the building air leakage tests. Fan Model Fan Serial Fan Location Gauge Gauge Serial #1 Retrotec 3000SR PH001507 South Top DM32 400796 #2 Retrotec 3000SR PH001510 South Bottom DM32 407027 Certificate of Gauge Calibration Issued by:Retrotec Certificate Number:215213 084058 Calibration Date:2016-09-08 Results:As Found 1060 E Pole Rd. Everson, WA, USA 98247 T: +1 (360) 738-9835 This calibration laboratory has been assessed by the ANSI- ASQ National Accreditation Board and meets the requirements of international standard ISO/IEC 17025. E: calibration@retrotec.com W: www.retrotec.com Instrument: Description: Pressure and Flow Gauge Calibrated by: Mike Shtunyuk Manufacturer: Retrotec Model Number: DM32 10A Serial Number: 400796 Signature Environmental conditions: Temperature: 20°C ±2°C Relative Humidity: 50% ±10% Mains Voltage: 120V ±10V Mains Frequency: 60Hz ±1Hz Comments: Results recorded as received. No adjustment performed. Calibration Information: The Device was calibrated against laboratory standards whose values are traceable to recognized national standards. The uncertainty represents an expanded uncertainty using a coverage factor of K=2 to approximate a 95% confidence level. In tolerance conditions are based on test results falling within specified limits without taking uncertainty into account. The uncertainty evaluation has been carried out in accordance with ISO/IEC 17025 requirements. Calibration Procedure: CP-35-01 This Calibration Certificate shall not be reproduced except in full, without written approval from Retrotec. Certificate of Gauge Calibration Issued by:Retrotec Certificate Number:215213 084058 Calibration Date:2016-09-08 Results:As Found Calibration Results Channel A Channel B Applied Value (Pa)Reading (Pa)Error (%)Applied Value (Pa)Reading (Pa)Error (%) -749.97 -753.88 0.52 -749.97 -754.82 0.65 -600.01 -603.22 0.53 -600.01 -603.94 0.65 -300.03 -301.55 0.51 -300.03 -301.75 0.57 -150.05 -150.70 0.43 -150.05 -150.87 0.55 -74.99 -75.28 0.39 -74.99 -75.33 0.45 -49.99 -50.17 0.36 -49.99 -50.21 0.44 -25.00 -25.10 0.40 -25.00 -25.07 0.28 -15.00 -15.02 0.13 -15.00 -15.00 0.00 0.00 -0.02 N/A 0.00 -0.03 N/A 14.99 15.10 0.73 14.99 15.12 0.87 25.01 25.12 0.44 25.01 25.22 0.84 49.99 50.28 0.58 49.99 50.37 0.76 75.00 75.41 0.55 75.00 75.47 0.63 150.00 150.68 0.45 150.00 150.87 0.58 300.02 301.30 0.43 300.02 301.50 0.49 599.98 602.55 0.43 599.98 602.70 0.45 749.99 752.96 0.40 749.99 753.11 0.42 Instrument display resolution is 0.1 Pa. Uncertainties Calibration and measurement capability (Expanded Uncertainty) is .01 Pa + 0.3% of reading (Range 0 - 20 000 Pa) based on a 95% confidence interval, using coverage of K=2. Initial The Pressure Range uncertainty limits are compliant with (meets or exceeds requirements from) the following standards or guidelines: NFPA 2001 EN13829 ATTMA: TS1 ASTM E779-10 CGSB GAP50-784 ±1 Pa ±2 Pa ±2 Pa ±5% or 0.25 Pa ±1 Pa ±1% or 1 Pa ±(10 to 50) Pa (up to ±60 Pa) (up to ±100 Pa) whichever is greater (up to ±50 Pa)whichever is greater ISO14520 EN15004 USACE TITLE 24 RESNET ±1 Pa ±1 Pa ±1% or 0.25 Pa ±1% or 0.2 Pa ±1% or 0.5 Pa (up to ±60 Pa) (up to ±100 Pa) ±(25 to 250) Pa whichever is greater whichever is greater Certificate of Gauge Calibration Issued by:Retrotec Certificate Number:215214 090025 Calibration Date:2017-07-06 Results:As Found 1060 E Pole Rd. Everson, WA, USA 98247 T: +1 (360) 738-9835 This calibration laboratory has been assessed by the ANSI- ASQ National Accreditation Board and meets the requirements of international standard ISO/IEC 17025. E: calibration@retrotec.com W: www.retrotec.com Instrument: Description: Pressure and Flow Gauge Calibrated by: Mike Shtunyuk Manufacturer: Retrotec Model Number: DM32 10A Serial Number: 407027 Signature Environmental conditions: Temperature: 20°C ±2°C Relative Humidity: 50% ±10% Mains Voltage: 120V ±10V Mains Frequency: 60Hz ±1Hz Comments: Results recorded as received. No adjustment performed. Calibration Information: The Device was calibrated against laboratory standards whose values are traceable to recognized national standards. The uncertainty represents an expanded uncertainty using a coverage factor of K=2 to approximate a 95% confidence level. In tolerance conditions are based on test results falling within specified limits without taking uncertainty into account. The uncertainty evaluation has been carried out in accordance with ISO/IEC 17025 requirements. Calibration Procedure: CP-35-01 This Calibration Certificate shall not be reproduced except in full, without written approval from Retrotec. Certificate of Gauge Calibration Issued by:Retrotec Certificate Number:215214 090025 Calibration Date:2017-07-06 Results:As Found Calibration Results Channel A Channel B Applied Value (Pa)Reading (Pa)Error (%)Applied Value (Pa)Reading (Pa)Error (%) -749.97 -755.31 0.71 -749.97 -754.33 0.58 -600.01 -604.40 0.73 -600.01 -603.68 0.61 -300.03 -301.96 0.64 -300.03 -301.73 0.57 -150.00 -150.86 0.57 -150.00 -150.80 0.53 -74.99 -75.41 0.56 -74.99 -75.40 0.55 -50.00 -50.21 0.42 -50.00 -50.20 0.40 -25.00 -25.11 0.44 -25.00 -25.17 0.68 -15.01 -15.06 0.33 -15.01 -15.02 0.07 0.00 -0.02 N/A 0.00 0.04 N/A 15.00 15.12 0.80 15.00 15.10 0.67 25.00 25.11 0.44 25.00 25.15 0.60 50.00 50.31 0.62 50.00 50.25 0.50 75.00 75.43 0.57 75.00 75.34 0.45 150.03 150.80 0.51 150.03 150.76 0.49 299.99 301.48 0.50 299.99 301.36 0.46 599.96 602.27 0.39 599.96 602.31 0.39 749.94 752.72 0.37 749.94 753.02 0.41 Instrument display resolution is 0.1 Pa. Uncertainties Calibration and measurement capability (Expanded Uncertainty) is .01 Pa + 0.3% of reading (Range 0 - 20 000 Pa) based on a 95% confidence interval, using coverage of K=2. Initial The Pressure Range uncertainty limits are compliant with (meets or exceeds requirements from) the following standards or guidelines: NFPA 2001 EN13829 ATTMA: TS1 ASTM E779-10 CGSB GAP50-784 ±1 Pa ±2 Pa ±2 Pa ±5% or 0.25 Pa ±1 Pa ±1% or 1 Pa ±(10 to 50) Pa (up to ±60 Pa) (up to ±100 Pa) whichever is greater (up to ±50 Pa)whichever is greater ISO14520 EN15004 USACE TITLE 24 RESNET ±1 Pa ±1 Pa ±1% or 0.25 Pa ±1% or 0.2 Pa ±1% or 0.5 Pa (up to ±60 Pa) (up to ±100 Pa) ±(25 to 250) Pa whichever is greater whichever is greater Fan Calibration Verification Report Calibrated Equipment Fan Shell Serial Number PH001507 Fantop Serial Number 1AC000217(SD) Fan Model 3350 Manufacturer Retrotec Calibration Date 2016-07-28 Calibration Facility Company Retrotec Address 1060 E Pole Rd Location Everson, WA USA Phone (360) 738-9835 Technician QA Tester Flow calibration verification data The accuracy of this system was checked against an orifice plate mounted in a chamber which was verified with fans calibrated to ASTM E-1258. Pressure gauge 400830 used for calibration was checked against one of two NIST tracable Furness 550 pressure calibrators: 0704353, 0907002 Total Leakage Test Background Leakage Test Number of samples Range Ring / Plate Chamber pressure PrA (Pa) Fan pressure PrB (Pa) Fan speed (%) Leakage area (in²) System flow (CFM) 114 A -50.0 65.6 22 340.0 2234 114 L1 -60.4 176.2 32 1.9 14 Measured Orifice Flow (CFM) Actual Orifice Flow (CFM) Error 2220 2147 3.4% Measured flow calculation (using flow equations) System flow = [65.6 - (-50.0 * -0.075)]^0.503 * [264.9959 + 65.6 * 0] = 2234 CFM System flow = [176.2 - (-60.4 * 0.1)]^0.4925 * [1.1614 + 176.2 * 0] = 14 CFM System flow equations Depressurization with operator indoors ( air flow away from operator): System flow (cfm) = (PrB - PrA*K1) N * (K + PrB*K3) Pressurization with operator indoors (air flow towards the operator): System flow (cfm) = [(PrB - PrA) - PrA*K1] N * [K + (PrB - PrA)*K3] Range System flow equation constants Min Fan Pressure* Ring / Plate N K K1 K2* K3 (Pa) Open A B C8 C6 C4 C2 C1 L4 L2 L1 0.5214 0.5030 0.5000 0.5000 0.5050 0.5077 0.5200 0.5410 0.4800 0.5020 0.4925 519.6 265.0 174.9 78.50 61.30 42.00 22.00 11.92 4.099 2.068 1.161 -0.070 -0.075 0.000 -0.020 0.054 0.009 0.110 0.1300 0.003 0.000 0.100 0.8 1.0 0.3 0.5 0.5 0.5 0.5 0.4 1.0 0.5 0.5 -0.1150 0.0000 0.0000 0.0160 0.0040 0.0005 -0.0010 0.0014 0.0004 0.0001 0.0001 8.6 12 10 10 10 10 10 10 10 10 10 * Fan Pressure "PrB" must be greater than "Min Fan Pressure" and greater than (PrA*K2) Door fan systems should be checked for calibration every 5 years Calibration for the Door Fan should be checked before:2021-07-28 The flow accuracy requirements of the following Standards are: ATTMA: TS1 EN13829 ISO 9972 ASTM E779 CGSB EN15004 ISO14520 Title 24 7% 7% 7% 5% 5% 5% 5% 5% Fan Calibration Verification Report Calibrated Equipment Fan Shell Serial Number PH001510 Fantop Serial Number 1AC000217(SD) Fan Model 3350 Manufacturer Retrotec Calibration Date 2017-07-17 Calibration Facility Company Retrotec Address 1060 E Pole Rd Location Everson, WA USA Phone (360) 738-9835 Technician QA Tester Flow calibration verification data The accuracy of this system was checked against an orifice plate mounted in a chamber which was verified with fans calibrated to ASTM E-1258. Pressure gauge 406268 used for calibration was checked against one of two NIST tracable Furness 550 pressure calibrators: 0704353, 0907002 Total Leakage Test Background Leakage Test Number of samples Range Ring / Plate Chamber pressure PrA (Pa) Fan pressure PrB (Pa) Fan speed (%) Leakage area (in²) System flow (CFM) 114 A -50.5 66.7 21 341.0 2253 114 L1 -54.1 114.9 15 1.7 12 Measured Orifice Flow (CFM) Actual Orifice Flow (CFM) Error 2241 2158 3.9% Measured flow calculation (using flow equations) System flow = [66.7 - (-50.5 * -0.075)]^0.503 * [264.9959 + 66.7 * 0] = 2253 CFM System flow = [114.9 - (-54.1 * 0.1)]^0.4925 * [1.1614 + 114.9 * 0] = 12 CFM System flow equations Depressurization with operator indoors ( air flow away from operator): System flow (cfm) = (PrB - PrA*K1) N * (K + PrB*K3) Pressurization with operator indoors (air flow towards the operator): System flow (cfm) = [(PrB - PrA) - PrA*K1] N * [K + (PrB - PrA)*K3] Range System flow equation constants Min Fan Pressure* Ring / Plate N K K1 K2* K3 (Pa) Open A B C8 C6 C4 C2 C1 L4 L2 L1 0.5214 0.5030 0.5000 0.5000 0.5050 0.5077 0.5200 0.5410 0.4800 0.5020 0.4925 519.6 265.0 174.9 78.50 61.30 42.00 22.00 11.92 4.099 2.068 1.161 -0.070 -0.075 0.000 -0.020 0.054 0.009 0.110 0.1300 0.003 0.000 0.100 0.8 1.0 0.3 0.5 0.5 0.5 0.5 0.4 1.0 0.5 0.5 -0.1150 0.0000 0.0000 0.0160 0.0040 0.0005 -0.0010 0.0014 0.0004 0.0001 0.0001 8.6 12 10 10 10 10 10 10 10 10 10 * Fan Pressure "PrB" must be greater than "Min Fan Pressure" and greater than (PrA*K2) Door fan systems should be checked for calibration every 5 years Calibration for the Door Fan should be checked before:2022-07-17 The flow accuracy requirements of the following Standards are: ATTMA: TS1 EN13829 ISO 9972 ASTM E779 CGSB EN15004 ISO14520 Title 24 7% 7% 7% 5% 5% 5% 5% 5% SE A L E D CO N C R E T E FL O O R 19 ' - 6 " 19 ' 27 ' 28 ' - 8 " 1 A2 A B C D E F F. 3 1 2 3 5 6 7 15'-1112"18'-4"23'-10"22'-10"19' 14 6 ' - 8 " F. 2 126' 23 ' - 2 " 4 29 ' - 4 " UP 26'-012" 'B 'A 12 ' - 3 " 24'-7"14'16'-7" 2' 65'-9" 131'-9" 60' - 1 1 2" 15 5 ° 115° 24'-2"41'-10" 12' BB A A 12 ' - 2 " 10 ' LO W E R L E V E L I N V E N T O R Y ST O R A G E SE A L E D CO N C R E T E FL O O R 7'- 4 " P I T 21'-10" ST O R M DE T E N T I O N VA U L T (S E E S T R U C T U R A L & C I V I L D R A W I N G S ) 11 ' - 1 1 " 3' 1' - 1 0 " 1'3'-4"1'-4"9'-7"1'-4" 3'- 1 0 " J A5 . 2 MA Z D A L O W E R LE V E L S E M I H E A T E D CO N T I N U O U S R - 1 0 S L A B I N S U L A T I O N SE E D E T A I L S 1 & 2 S H E E T A 2 . 2 2 A2. 2 1 A2 . 2 5'-7" 4' W A L K 5' 3' 3' 13' - 4 1 2" 13' - 4 1 2" 13' - 4 1 2" 13' - 4 1 2" 5'-9" PIT A A2 . 1 7'-4" 7'- 4 " 5 A2 . 5 2 A2 . 2 1 A2 . 2 LO W E R L E V E L S E M I H E A T E D 1- T H E I N S T A L L E D H E A T I N G S Y S T E M I S R E Q U I R E D T O H A V E A N O U T P U T C A P AC I T Y O F 3. 4 B T U / ( H - F T 2 ) B U T N O T G R E A T E R T H A N 8 B T U / ( H - F T 2 ) 2- W A L L I N S U L A T I O N I S N O T R E Q U I R E D W H E R E T H E S P A C E I S N O T H E A T E D BY EL E C T R I C R E S I S T A N C E H E A T I N G E Q U I P M E N T . A2 . 2 SH E E T : Ma r k RE V I S I O N S : Da t e DA T E : telephone: 425.444.6782 email: nednelson@msn.com Bellevue, Washington 98004 1021 92nd Avenue Northeast LOWER LEVEL PLAN STORAGE NE D H . N E L S O N , J R . 8/ 1 6 / 1 7 1 1 1 06 . 2 5 . 1 8 15 5 ° LOWE R L E V E L I N V E N T ORY STORA GE SEA L E D SE A L E D CO NCRE T E CO N C R E T E FL OO R FL O O R 21'-10" MAZ D A L OWE R LE V E L SEM I H E A T E D CO N T I N U O U S R - 1 0 S L A B I N S U L A T I O N N O NIINNNN SE E D E T A I L S 1 & 2 S H E E T A 2 . 2 DDDD 3' UP 115° 7'-4" PI T 3' 3 7'-4" 7'- 4 " 10 , 2 9 9 s f 1 A3 1 2 4 6 7 A B C D E F3 27 ' 23 ' - 2 " 28 ' - 8 " 29 ' - 4 " CA N O P Y A B O V E EN T R A N C E F. 2 26'18'-4"23'-10"22'-10"19' 126' OU T D O O R DI S P L A Y D E C K 19 ' - 6 " 3 19 ' 5 2' - 6 " UP DN 88 ' - 8 " F 'A'B 4' 48'-8" 24 ' - 2 " 4' 2'- 8 " 22 ' 2'- 8 " 22 ' 7' - 4 " 32 ' 23' 41'-4" 19'-2"2'-2"20'-312" 9' - 7 " 0"3'- 9 " 26 ' - 7 " 3'- 2 " 11 ' 12 ' - 4 " 11 " 22 ' - 3 " 89 ' - 4 " 1'-4"5'-2"8' 18' 25 ' 8" 21' 18'-4" 10'5'-4"10'5'-4"10'4' 4'- 8 " 6'19'22'-10" 5' 4'- 1 0 " 3' - 8 " 10' 2'-8"14'2'-8" 6' 18 ' - 4 " 2' - 6 " 6' 42'-412" BB A A 7'- 6 " 48" MIN 5'-9" 15 ' - 6 " 10 ' 8' - 3 12" 10 ' 10 ' 27 ' - 7 " 16 ' - 1 1 " 11 ' - 4 " 12'-1112"9'9' 13' 24'-5"17'-7"13'-1"9'-6" 6' 11 ' - 5 " 22'-8"6'-8" 6' A A2 . 1 H A5 . 2 A A2 . 1 J A5 . 2 C A2 . 5 B A2 . 5 D A2 . 5 E A2 . 5 A A2 . 5 A A2 . 5 10 ' 9' 5' 6'-2" 4' 6'3' 10 ' - 6 " 9'- 1 1 " 7'-012"3'-212" 7'-6" 6 2 A3DN 5 28 ' - 8 " A'A'B 19'-1" 7' 12'-1" 12 ' - 1 1 " 12 ' - 1 1 " 6' - 3 " 60 " 4' - 1 " 33'-4" 5 A2 . 5 1 1 / 2 " Ø R A I L I N G . A A2 . 1 A A2 . 1 7" MAX ON E T R E A D WI D T H (1 1 " ) 36" (34" MIN) 12 " M I N RE T U R N T O W A L L TO P & B O T T O M 11 " M I N HA N D R A I L O N BO T H S I D E S O F ST A I R SH E E T : Ma r k RE V I S I O N S : Da t e DA T E : telephone: 425.444.6782 email: nednelson@msn.com Bellevue, Washington 98004 1021 92nd Avenue Northeast OFFICE MEZZANINE MAIN LEVEL PLAN A2 . 1 NE D H . N E L S O N , J R . 8/ 1 6 / 1 7 1 1 1 05 . 3 1 . 1 8 UP DN 24 ' - 2 " 1'-4" 21' 5' 4'- 1 0 " 3'- 8" 3 10' 7'- 6" 48" MIN 48 MIN 15'- 6" 10' 8' - 3 12" 10' 10' 27 ' - 7 " 16'- 1 1 " 11 ' - 4 " 12'-11122"9''9 9'9 13' 24'-5"17'-7"13'-1"9'-6" 11 ' - 5" C A2 . 5 B A2 . 5 D A2 . 5 E A2 . 5 10' 9'9 5' 6'-2" 4' 6'3' 10'- 6" 9'- 1 1 " 6' 11 10 , 1 2 6 s f DN 19'-1" 7'' 12'-1" 12 ' - 1 1 " 12 ' - 1 1 " 6'- 3" 60 " 4' - 1 " 95 6 s f