Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
DAQ-2025-000481
1 DAQC-042-25 CAERS ID 101671 (B4) MEMORANDUM TO: STACK TEST FILE – UINTA WAX OPERATING, LLC – Kendall South Pad – Uintah County THROUGH: Rik Ombach, Minor Source Oil and Gas Compliance Section Manager FROM: Kyle Greenberg, Environmental Scientist DATE: January 15, 2025 SUBJECT: Source: One (1) Caterpillar G3508B Engine; SN: RBK01135 Contact: Karen Pratt: 720-990-9927 Location: Latitude: 40.198902, Longitude: -109.93374, Uintah County Test Contractor: Oasis Emissions Consultants Permit/AO#: Permit by Rule Action Code: TR Subject: Review of Stack Test Report dated October 3, 2024 On October 16, 2024, DAQ received a test report for the above listed unit. Testing was performed on September 11, 2024, to demonstrate compliance with the emission limits found in Utah Administrative Code R307-510 and 40 CFR Part 60, Subpart JJJJ. The calculated test results are: Source Test Date Test Method Pollutant Tester Results DAQ Results Limits Caterpillar G3508B Engine SN: RBK01135 Sept. 11, 2024 7E NOx 0.53 g/hp-hr 0.832 g/hp-hr 1.0 g/hp-hr 10 CO 0.02 g/hp-hr 0.018 g/hp-hr 2.0 g/hp-hr 25A NMNEOC 0.24 g/hp-hr 0.240 g/hp-hr 0.7 g/hp-hr DEVIATIONS: None. CONCLUSION: The stack test report appears to be acceptable. RECOMMENDATION: The emissions from the one (1) Caterpillar G3508B Engine should be considered to have been in compliance with the emission limits of Utah Administrative Code R307-510 and 40 CFR Part 60 Subpart JJJJ during the time of testing. ATTACHMENTS: DAQ stack test review Excel Spreadsheets; Uinta Wax Operating Test Report. Emissions Uinta Wax Operating, LLC – Kendall South Pad ; Site ID 101671 Uintah County, Utah Caterpillar G3508B Engine; SN: RBK01135 Test Date: 9/11/2024 Run # 1 2 3 Average Start Time 9:02 10:11 11:21 Stop Time 10:02 11:11 12:21 Sample Duration (minutes) 60 60 60 60 BHP Engine Load - Actual (bhp) 335 345 335 338 DS Stack Diameter (inches) 10.0 10.0 10.0 10.0 PAVG Average (Delta P)½ (" H2O)½0.7930 0.7930 0.7820 0.7893 CP Pitot Tube Constant (unitless) 0.84 0.84 0.84 0.84 TS Stack Temperature (°F) 653 657 661 657 Pbar Barometric Pressure (" Hg) 24.92 24.90 24.89 24.90 Ps Stack Pressure ('' H2O)0.27 0.27 0.27 0.27 Yd Meter Y Factor (unitless) 0.9540 0.9540 0.9540 0.9540 Tm Meter Temperature (°F) 57 58 61 59 Vm Sample Volume (ft3)26.000 26.000 26.000 26.000 H Orifice Pressure Delta H (" H2O)0.4 0.4 0.4 0.4 Vlc Moisture (g) 63.1 59.0 61.9 61.3 Fd Fd value (dscf/MMBtu)8710 8710 8710 8710 O2%vd O2 (%vd)8.2 8.3 8.4 8.3 CO2%vd CO2 (%vd)7.6 7.6 7.6 7.6 N2%vd N2 (%vd)84.2 84.1 84.0 84.1 dry NOX (ppmvd)68.2 69.2 67.8 68.4 dry CO (ppmvd) 4.1 3.8 3.2 3.7 wet TVOC (ppmvw as C3H8)27.4 28.8 28.8 28.4 Run # 1 2 3 Average Vmstd Sample Volume (dscf) 21.131 21.063 20.913 21.036 Vwstd Moisture Volume (scf) 2.98 2.78 2.92 2.89 Bws Measured Moisture Content (%/100) 0.123 0.117 0.122 0.121 Bws Saturated Moisture Content (%/100) 179.159 184.008 189.602 184.256 Bws Actual Moisture Content (%/100) 0.123 0.117 0.122 0.121 MD Molecular Weight Dry (lb/lb-mole) 29.54 29.55 29.55 29.55 MA Molecular Weight Wet (lb/lb-mole) 28.12 28.20 28.14 28.15 VS Gas Velocity (ft/sec) 71.7 71.8 71.0 71.5 FACFM Gas Flow (acfm) 2348 2349 2325 2340 FDSCFM Gas Flow (dscfm) 813 817 799 810 FWSCFM Gas Flow (wscfm) 928 925 911 922 FKWSCFH Gas Flow (kwscfh) 56 56 55 55 FKWSCFM Gas Flow (kwscfm) 1 1 1 1 lb/hr Gas Flow (lb/hr) 4065 4062 3992 4040 Fo Fo (unitless)1.675 1.661 1.648 1.661 Est. FC Estimated Fuel Consumption (MMBtu/hr) 3.4 3.4 3.3 3.4 Est. bhp Estimated Engine Load from BSFC (bhp) 362.9 361.5 350.9 358.5 wet O2 (%vw)7.2 7.3 7.3 7.3 wet CO2 (%vw)6.7 6.7 6.7 6.7 wet NOX (ppmvw)59.785 61.150 59.516 60.150 15 NOX (ppmvd @ 15% O2)31.618 32.349 31.948 31.972 lb/hr NOX (lb/hr)0.397 0.405 0.388 0.397 g/bhp-hr NOX (g/bhp-hr)0.538 0.532 0.526 0.532 1.0 Fd NOX (lb/MMBtu)0.116 0.119 0.118 0.118 wet CO (ppmvw) 3.587 3.356 2.851 3.265 15 CO (ppmvd @ 15% O2)1.897 1.776 1.530 1.734 lb/hr CO (lb/hr) 0.015 0.014 0.011 0.013 g/bhp-hr CO (g/bhp-hr) 0.020 0.018 0.015 0.018 2.0 Fd CO (lb/MMBtu) 0.004 0.004 0.003 0.004 dry TVOC (ppmvd as C3H8)31.272 32.656 32.872 32.267 15 TVOC (ppmvd as C3H8 @ 15% O2)14.497 15.260 15.484 15.080 lb/hr TVOC (lb/hr as C3H8)0.174 0.183 0.180 0.179 g/bhp-hr TVOC (g/bhp-hr as C3H8)0.236 0.240 0.244 0.240 0.7 Fd TVOC (lb/MMBtu as C3H8)0.051 0.054 0.055 0.053 Permit Limits Field Reference Method Data Reference Method Calculations Page 1 of 5 Linearity Uinta Wax Operating, LLC – Kendall South Pad ; Site ID 101671 Uintah County, Utah Caterpillar G3508B Engine; SN: RBK01135 Test Date: 9/11/2024 O2 NOX CO VOC 20.9 502.3 1199.0 1000.0 10.09 250.4 498.3 502.0 0.1 0.2 0.1 0.1 10.1 249.9 500.2 502.7 Linearity Bias (Zero) 0.1 0.1 0.1 0.1 Linearity Bias (Span) 10.1 251.5 497.4 501.1 % (ppm) (ppm) (ppm) 0.00 0.0 0.0 0.0 10.09 250.4 498.3 301.4 20.88 502.3 1199.0 502.0 851.4 0.1 0.1 0.1 0.1 10.1 251.5 497.4 301.7 20.9 501.6 1196.5 501.1 849.9 0.1 0.1 0.1 0.1 0.0 1.1 0.9 0.8 0.0 0.7 2.5 -0.1 0.0 0.0 0.0 1.5 0.00% 0.02% 0.00% 0.00% 0.00% 0.32% 0.23% 0.16% 0.48% 0.22% 0.21% 0.25% Gas Concentration 1 2 3 Linearity Information Gas Span Gas Value/Range Bias Gas Value 4 Difference 1 4 Response 1 2 Span Bias Max Calibration Error Bias Check (Zero) Bias Check (Span) 2 3 4 Results 3 Zero Bias Page 2 of 5 Run 1 Uinta Wax Operating, LLC Run 1 – Kendall South Pad ; Site ID 101671 Uintah County, Utah Start Time 9:02 Caterpillar G3508B Engine; SN: RBK01135 Run Length 60 Test Date: 9/11/2024 Stop Time 10:02 O2 NOX CO VOC 20.9 502 1199 1000 10.09 250.4 498.3 502.0 0.1 0.2 0.1 0.1 10.1 249.9 500.2 502.7 0.1 0.1 0.1 0.1 10.1 250.8 498.4 499.9 0.0% 0.0% 0.0% 0.0% 0.0% 0.1% 0.1% 0.1% 0.0% 0.0% 0.0% 0.0% 0.0% 0.2% 0.2% 0.3% Corrected O2 % Corrected NOX ppm Corrected CO ppm Corrected TVOC ppm 8.2 68.2 4.1 28.8 Run Length (Minutes) Time Uncorrected O2 % Uncorrected NOX ppm Uncorrected CO ppm Uncorrected TVOC ppm 8.2 68.3 4.2 28.9 Zero% Span% Absolute Bias (Zero) Absolute Bias (Span) Absolute Drift (Zero) Absolute Drift (Span) Results Post Test Calibration Calibration Information Instrument Range Span Gas Value Gas Calibration Pretest Calibration Zero% Span% Page 3 of 5 Run 2 Uinta Wax Operating, LLC Run 2 – Kendall South Pad ; Site ID 101671 Uintah County, Utah Start Time 10:11 Caterpillar G3508B Engine; SN: RBK01135 Run Length 60 Test Date: 9/11/2024 Stop Time 11:11 O2 NOX CO VOC 20.9 502 1199 1000 10.09 250.4 498.3 502.0 0.1 0.1 0.1 0.1 10.1 250.8 498.4 499.9 0.1 0.1 0.1 0.1 10.1 250.0 498.4 501.3 0.0% 0.0% 0.0% 0.0% 0.0% 0.3% 0.1% 0.0% 0.0% 0.0% 0.0% 0.0% 0.0% 0.2% 0.0% 0.1% Corrected O2 % Corrected NOX ppm Corrected CO ppm Corrected TVOC ppm 8.3 69.2 3.8 27.9 Run Length (Minutes) Time Uncorrected O2 % Uncorrected NOX ppm Uncorrected CO ppm Uncorrected TVOC ppm 8.3 69.3 3.9 27.9 Gas Instrument Range Post Test Calibration Zero% Span Gas Value Calibration Pretest Calibration Zero% Calibration Information Results Absolute Bias (Zero) Absolute Bias (Span) Absolute Drift (Zero) Absolute Drift (Span) Span% Span% Page 4 of 5 Run 3 Uinta Wax Operating, LLC Run 3 – Kendall South Pad ; Site ID 101671 Uintah County, Utah Start Time 11:21 Caterpillar G3508B Engine; SN: RBK01135 Run Length 60 Test Date: 9/11/2024 Stop Time 12:21 O2 NOX CO VOC 20.9 502 1199 1000 10.09 250.4 498.3 502.0 0.1 0.1 0.1 0.1 10.1 250.0 498.4 501.3 0.1 0.3 0.2 0.1 10.1 252.5 498.7 498.8 0.0% 0.0% 0.0% 0.0% 0.0% 0.2% 0.1% 0.2% 0.0% 0.0% 0.0% 0.0% 0.0% 0.5% 0.0% 0.3% Corrected O2 % Corrected NOX ppm Corrected CO ppm Corrected TVOC ppm 8.4 67.8 3.2 27.4 Run Length (Minutes) Time Uncorrected O2 % Uncorrected NOX ppm Uncorrected CO ppm Uncorrected TVOC ppm 8.4 68.2 3.4 27.4 Post Test Calibration Instrument Range Zero% Results Absolute Bias (Zero) Span% Span% Zero% Absolute Bias (Span) Absolute Drift (Zero) Absolute Drift (Span) Calibration Information Span Gas Value Calibration Pretest Calibration Gas Page 5 of 5 UDEQ Source Test Report Uinta Wax Operating, LLC RD Tribal 19N-31E-H4UB, H4CP, H5CP, H6UB, H6CP, H7CP, H8UB (Kendall South Pad) Uintah County, Utah September 11, 2024 Utah Administrative Code Rule R307-510-4 Engine: Caterpillar G3508B SN: RBK01135 Prepared By: Oasis Emission Consultants, Inc. 2730 Commercial Way Rock Springs, WY 82901 October 3, 2024 Ms. Karen Pratt Uinta Wax Operating, LLC Dear Ms. Pratt: Re: Engine Emission Testing For Uinta Wax Operating, LLC, RD Tribal 19N-31E- H4UB, H4CP, H5CP, H6UB, H6CP, H7CP, H8UB (Kendall South Pad), Utah Administrative Code Rule R307-510-4. Oasis Emission Consultants, Inc. was requested to perform an engine emission test on a Caterpillar G3508B lean burn engine located in Uintah County, Utah. Testing was conducted in accordance with the Utah Administrative Code Rule R307-510-4 Utah Administrative Code Rule R307-510-4 Emission Levels The average recorded levels were found to comply with emission levels stipulated by Utah Administrative Code Rule R307-510-4, as shown in the attached report and summarized below. *Please note: VOC levels are reported as NMHC through the use of a Methane Cutter as previously described in the testing protocol. Catalyst Parameters (Averaged Over 3 Test Runs) Inlet Temp (deg F) DP (in H2O) 802 2.5 Engine Load (Averaged Over 3 Test Runs) BHP % Load 338.2 65.7 Testing Protocol The attached report was generated using standard CEMS equipment and methodologies as required by EPA 40 CFR 60(A) Methods 1-4, 7E, 10 and 25A. Emission Unit Avg NOx NOx Standard Avg CO CO Standard Avg NMHC* VOC Standard g/bhp-hr 0.53 1.0 0.02 2.0 0.24 0.7 Quality Assurance Oasis has performed a full review of the raw data and calculated results in this report. Any errors we have encountered have been listed in the body of this report. After performing the review, we are confident that this engine has met the requirements of Utah Administrative Code Rule R307-510-4. If you have any questions or require further information, please contact the undersigned at (307) 382-3297. Yours truly, Oasis Emission Consultants, Inc. _______________________ _________________________ Cember Crawley Charles A. Chapman Environmental Scientist Manager of Technical Services _________________________ Christopher N. Knott, P.Eng. Director, Engineering & Operations TABLE OF CONTENTS 1.1 INTRODUCTION 2.1 EQUIPMENT UTILIZATION 3.1 DISCUSSION OF TEST RESULTS 3.1.1 SOURCE TEST 1 (NOx, CO & NMHC) 3.1.2 SOURCE TEST 2 (NOx, CO & NMHC) 3.1.3 SOURCE TEST 3 (NOx, CO & NMHC) 4.1 STACK SAMPLING LOCATION 4.2 STACK SAMPLING METHODS & PROCEDURES 5.1 LOAD APPROXIMATION 6.1 QUALITY ASSURANCE APPENDIX A: NOx, CO & NMHC RAW & CALCULATED TEST DATA APPENDIX B: QUALITY ASSURANCE/CALIBRATION DATA APPENDIX C: LOAD APPROXIMATION APPENDIX D: FIELD NOTES SOURCE EMISSION TEST REPORT Utah Administrative Code Rule R307-510-4 Test Performed By: Oasis Emission Consultants, Inc. Facility Name: RD Tribal 19N-31E-H4UB, H4CP, H5CP, H6UB, H6CP, H7CP, H8UB (Kendall South Pad) Emission Source: Caterpillar G3508B Date of Test: September 11, 2024 Date of Report: October 3, 2024 1.1 Introduction The purpose of this source test was to demonstrate that source emissions from a Caterpillar G3508B engine were below maximum allowable levels specified by Utah Administrative Code Rule R307-510-4. The Caterpillar G3508B engine is a lean burn engine that employs an Oxidation Catalytic Convertor to regulate emission levels. Three test runs were performed on September 11, 2024 to analyze NOx, CO & VOC emission levels according to methodologies outlined in the EPA 40 CFR 60(A) Protocol. Each of the three test runs consisted of sixty (60) readings taken at one (1) minute intervals. Test runs were observed by the following individuals: David Rosette, OEC 2.1 Equipment Utilization The following equipment was used during the tests performed at the RD Tribal 19N-31E- H4UB, H4CP, H5CP, H6UB, H6CP, H7CP, H8UB (Kendall South Pad) in conjunction with procedures outlined in our standard testing protocol according to EPA Reference Methods 1- 4, 7E, 10 & 25A. API 300M CO NDIR Analyzer, S/N 71, Range 0-3000 ppm API 200AH NOx/O2 Chemiluminescent/Paramagnetic Analyzer, S/N 495, Range 0-5000 ppm CAI 600HFID Analyzer, c/w Methane Cutter Universal Analyzer 3040SSP Sample Gas Conditioner 75 ft. Heated Sample Line S Type Pitot Tube c/w 20 ft. Heated Sample Line Fyrite Analyzer for CO2 Measurement Method 4 Impinger System c/w Ice Box Tray Apex Meter Box EPA G1 Protocol Calibration Gas Laptop Computer to download Raw Analyzer Data 3.1 Discussion of NOx, CO & NMHC Test Results Please refer to the Appendices for a listing of all raw data, calibration error response and calculations performed per EPA 40 CFR 60(A) requirements. Each test run was performed at the maximum achievable load. Overall the average emission levels complied with permitted requirements. Testing for NOx, CO & NMHC were run concurrently with one another. 3.1.1 Source Test 1: Caterpillar G3508B, NOx, CO & NMHC The first test was performed from 9:02 to 10:01 for NOx, CO & NMHC. Based on the approximated load of 334.8 bhp, the average NOx and CO levels were found to be 0.54 g/bhp-hr and 0.02 g/bhp-hr respectively, below limitations. The NMHC level (derived from THC and CH4 measured by the analyzer) tested at 0.25 g/bhp-hr, which tested in compliance with the standards. 3.1.2 Source Test 2: Caterpillar G3508B, NOx, CO & NMHC The second test was performed from 10:11 to 11:10 for NOx, CO & NMHC. Based on the approximated load of 345.1 bhp, the average NOx and CO levels were found to be 0.53 g/bhp-hr and 0.02 g/bhp-hr respectively, below limitations. The NMHC level (derived from THC and CH4 measured by the analyzer) tested at 0.23 g/bhp-hr, which tested in compliance with the standards. 3.1.3 Source Test 3: Caterpillar G3508B, NOx, CO & NMHC The third test was performed from 11:21 to 12:20 for NOx, CO & NMHC. Based on the approximated load of 334.8 bhp, the average NOx and CO levels were found to be 0.53 g/bhp-hr and 0.02 g/bhp-hr respectively, below limitations. The NMHC level (derived from THC and CH4 measured by the analyzer) tested at 0.23 g/bhp-hr, which tested in compliance with the standards. Test Run NOx (ppm) NOx (g/bhp-hr) CO (ppm) CO (g/bhp-hr) NMHC (ppm) NMHC (g/bhp-hr) O2 (%) H2O (%) Flow (dscfm) 1 68.18 0.54 4.06 0.02 32.82 0.25 8.3 12.4 813.8 Test Run NOx (ppm) NOx (g/bhp-hr) CO (ppm) CO (g/bhp-hr) NMHC (ppm) NMHC (g/bhp-hr) O2 (%) H2O (%) Flow (dscfm) 2 69.26 0.53 3.80 0.02 31.60 0.23 8.3 11.7 817.7 Test Run NOx (ppm) NOx (g/bhp-hr) CO (ppm) CO (g/bhp-hr) NMHC (ppm) NMHC (g/bhp-hr) O2 (%) H2O (%) Flow (dscfm) 3 67.82 0.53 3.28 0.02 31.22 0.23 8.4 12.3 799.6 4.1 Stack Sampling Location The sampling port for moisture, flow, NOx, CO & NMHC measurements was approximately 4.0 pipe diameters from the nearest upstream flow disturbance and 0.6 pipe diameters from the nearest downstream disturbance. By EPA 40 CFR 60(A), Method 1, we performed a total of 16 traverses to approximate the exhaust flow. 4.2 Stack Sampling Methods & Procedures Testing followed EPA 40 CFR 60(A) methodologies per our standard protocol, with no exceptions. 5.1 Load Approximation The engine load was approximated by using the load percentage readings obtained from the engine display panel. 6.1 Quality Assurance All pre and post calibration error checks, leak checks, and other quality assurance issues conformed with the requirements specified in EPA 40 CFR 60(A), Methods 1-4, 7E, 10 & 25A. Please refer to Appendix B for all quality assurance data sheets. APPENDIX A Test Run 1 date_and_time co (ppm)nox (ppm)voc (ppm)o2 (%) 9/11/2024 9:02 4.5 68.4 29.4 8.3 9/11/2024 9:03 4.5 68.1 29.8 8.3 9/11/2024 9:04 4.5 69 29.8 8.3 9/11/2024 9:05 4.4 67.7 29.8 8.3 9/11/2024 9:06 4.5 67.2 29.8 8.3 9/11/2024 9:07 4.8 67.6 29.5 8.3 9/11/2024 9:08 4.4 70.6 29.5 8.3 9/11/2024 9:09 5 68.4 29.2 8.3 9/11/2024 9:10 5 70.8 29.5 8.3 9/11/2024 9:11 4.6 67.4 29.5 8.3 9/11/2024 9:12 5 67.5 29.5 8.3 9/11/2024 9:13 4.4 67 29.5 8.3 9/11/2024 9:14 4.5 70.6 29.2 8.3 9/11/2024 9:15 4.5 67.7 29.8 8.3 9/11/2024 9:16 4.1 66.8 29.8 8.3 9/11/2024 9:17 4.8 67.3 29.5 8.3 9/11/2024 9:18 4.2 68.9 29.5 8.3 9/11/2024 9:19 4.3 70.8 29.2 8.3 9/11/2024 9:20 4.2 69.4 28.9 8.3 9/11/2024 9:21 4.1 67.2 29.5 8.3 9/11/2024 9:22 4.1 68.9 29.2 8.3 9/11/2024 9:23 4.4 66.4 29.5 8.3 9/11/2024 9:24 4.1 66.7 29.2 8.3 9/11/2024 9:25 4.2 68.5 29.2 8.3 9/11/2024 9:26 4.1 68.4 29.2 8.3 9/11/2024 9:27 4.3 68.6 28.9 8.3 9/11/2024 9:28 3.9 68 29.2 8.3 9/11/2024 9:29 4 71.4 28.6 8.3 9/11/2024 9:30 3.8 64.3 28.9 8.3 9/11/2024 9:31 3.9 69.8 28.9 8.3 9/11/2024 9:32 4.1 69.7 29.2 8.3 9/11/2024 9:33 3.8 67.5 28.9 8.3 9/11/2024 9:34 3.8 67.9 28.3 8.3 9/11/2024 9:35 4 68 28 8.3 9/11/2024 9:36 3.8 68.3 28.9 8.3 9/11/2024 9:37 4.3 67 28.6 8.3 9/11/2024 9:38 3.9 67 28.3 8.3 9/11/2024 9:39 3.9 66.5 28.3 8.3 9/11/2024 9:40 4.2 67.2 28.6 8.3 9/11/2024 9:41 3.9 67.9 28.9 8.3 9/11/2024 9:42 3.9 67.7 28.6 8.3 9/11/2024 9:43 3.9 67.5 28.3 8.3 9/11/2024 9:44 3.9 66.4 28.3 8.3 9/11/2024 9:45 4 70.6 28.3 8.3 9/11/2024 9:46 4.2 69.9 28 8.3 9/11/2024 9:47 4 69.3 28.3 8.3 9/11/2024 9:48 4.1 69.3 28 8.3 9/11/2024 9:49 3.8 65.6 28.6 8.3 9/11/2024 9:50 3.7 67.5 28.6 8.3 9/11/2024 9:51 3.6 67.2 28.6 8.3 9/11/2024 9:52 3.9 68.3 28.3 8.3 9/11/2024 9:53 4 68.3 28 8.3 9/11/2024 9:54 4 68.5 28 8.3 9/11/2024 9:55 4.2 69.5 27.7 8.3 9/11/2024 9:56 4.5 68.5 28.3 8.3 9/11/2024 9:57 4.1 68.5 28.6 8.3 9/11/2024 9:58 4 69.3 28.3 8.3 9/11/2024 9:59 3.6 69.2 28 8.3 9/11/2024 10:00 3.9 68.6 28 8.3 9/11/2024 10:01 3.9 70.7 28 8.3 AVG 4.2 68.3 28.9 8.3 AVG Corrected 4.1 68.2 32.8 8.3 RD Tribal 19N-31E-H4UB, H4CP, H5CP, H6UB, H6CP, H7CP, H8UB (Kendall South Pad) Graphical Analysis of Test Run 1 0 10 20 30 40 50 60 70 80 90 100 PP M v Readings Source Test 1 CO NOx NMHC -460 -460 EPA REFERENCE METHOD 1 EPA REFERENCE METHOD 2 Stack Diameter 10 Inches Kp=85.49 ft/sec Cp=0.84 Traverse Points 16 Port Point Insertion Depth dP Ts Stat P sqrt dP Ports 2 (inches)(in h2O)(deg R)(in H2O) EPA REFERENCE METHOD 3 A 1 0.50 0.60 1112 0.27 0.775 Average O2 8.3 (% dry)A 2 1.05 0.56 1112 0.27 0.748 Average CO2 7.6 (% dry)A 3 1.94 0.64 1112 0.27 0.800 Average N2 + CO 84.13 (% dry)A 4 3.23 0.62 1112 0.27 0.787 Dry Molecular Weight 29.55 lb/lbmol A 5 6.77 0.68 1112 0.27 0.825 Wet Molecular Weight 28.12 lb/lbmol A 6 8.06 0.63 1112 0.27 0.794 EPA REFERENCE METHOD 4 A 7 8.95 0.64 1112 0.27 0.800 Barometric Pressure 24.92 in Hg A 8 9.50 0.58 1112 0.27 0.762 Gas Meter Constant 0.954 A 9 Gas Volume Constant 17.64 deg R/in Hg A 10 Dry Gas Volume 26 dcf A 11 Water Vapor Volume 2.975 scf A 12 Moisture Content 12.35 %A 13 Initial Final A 14 Dry Gas Met. Vol 598 624 dcf A 15 Gas Met. Inlet Temp.59 43 deg F A 16 Gas Met. Outlet Temp.61 63 deg F B 1 0.50 0.63 1111 0.27 0.794 Mass Liquid H2O 0 58.8 grams B 2 1.05 0.59 1111 0.27 0.768 Mass Of Silica Gel 918.6 922.9 grams B 3 1.94 0.66 1111 0.27 0.812 B 4 3.23 0.64 1111 0.27 0.800 1 2 3 (empty)4 (si gel)B 5 6.77 0.71 1111 0.27 0.843 643.4 642.6 594.8 918.6 B 6 8.06 0.65 1111 0.27 0.806 699.1 644.6 595.9 922.9 B 7 8.95 0.62 1111 0.27 0.787 EPA REFERENCE METHOD 7E B 8 9.50 0.61 1111 0.27 0.781 Average Analyzer NOx Level 68.28 ppm B 9 Average Corrected NOx Level 68.18 ppm B 10 Calculated NOx Mass Output 0.40 lbs/hr B 11 Calculated NOx Mass Output 1.74 tons/yr B 12 Calculated NOx Output 0.54 g/bhp-hr B 13 EPA REFERENCE METHOD 10 B 14 Average Analyzer CO Level 4.17 ppm B 15 Average Corrected CO Level 4.06 ppm B 16 Calculated CO Mass Output 0.01 lbs/hr Averages 0.629 1112 0.270 0.793 Calculated CO Mass Output 0.06 tons/yr Average Stack Gas Velocity 71.66 ft/sec Calculated CO Output 0.02 g/bhp-hr Average Dry Flowrate 813.81 dscfm EPA REFERENCE METHOD 25A w/ Methane Cutter Average Analyzer NMHC Level 28.86 ppm Average Corrected NMHC Level (wet)28.76 ppm Average Corrected NMHC Level (dry)32.82 ppm Calculated NMHC Mass Output 0.18 lbs/hr Calculated NMHC Mass Output 0.80 tons/yr Calculated NMHC Output 0.25 g/bhp-hr LOAD APPROXIMATION Estimated Engine Load 334.8 BHP TEST RUN # 1 IMPINGER DATA Test Run 2 date_and_time co (ppm)nox (ppm)voc (ppm)o2 (%) 9/11/2024 10:11 3.8 67.1 28 8.3 9/11/2024 10:12 4.1 67.5 28 8.3 9/11/2024 10:13 4.5 67.7 28 8.3 9/11/2024 10:14 3.6 67.7 27.7 8.3 9/11/2024 10:15 3.9 65.6 28.3 8.3 9/11/2024 10:16 3.6 66.7 28.3 8.3 9/11/2024 10:17 4.2 67.6 27.4 8.3 9/11/2024 10:18 3.8 67.2 27.7 8.3 9/11/2024 10:19 4.1 67.5 27.7 8.3 9/11/2024 10:20 4.3 67.6 28 8.3 9/11/2024 10:21 4.3 68.1 28 8.3 9/11/2024 10:22 3.8 66.4 28.3 8.3 9/11/2024 10:23 3.9 67.2 27.7 8.3 9/11/2024 10:24 4.2 67.7 28 8.3 9/11/2024 10:25 3.9 71.1 28 8.3 9/11/2024 10:26 4.4 69.1 28 8.3 9/11/2024 10:27 4.5 69.9 28.3 8.3 9/11/2024 10:28 3.9 69.6 28 8.3 9/11/2024 10:29 3.9 69.9 28 8.3 9/11/2024 10:30 3.8 71 28 8.3 9/11/2024 10:31 3.8 70.9 28.6 8.3 9/11/2024 10:32 3.9 72 28.3 8.3 9/11/2024 10:33 4.2 70.6 27.7 8.3 9/11/2024 10:34 4.2 69.5 27.4 8.3 9/11/2024 10:35 3.9 73.4 28 8.3 9/11/2024 10:36 3.9 71.1 28 8.3 9/11/2024 10:37 4.2 70.7 28.3 8.3 9/11/2024 10:38 3.5 69.8 28.3 8.3 9/11/2024 10:39 3.8 69.8 28 8.3 9/11/2024 10:40 4.1 68.7 28 8.3 9/11/2024 10:41 3.8 71.9 28.3 8.3 9/11/2024 10:42 3.9 70.9 28 8.3 9/11/2024 10:43 3.8 69 28 8.3 9/11/2024 10:44 3.6 66.6 28.3 8.3 9/11/2024 10:45 3.6 68.8 28 8.3 9/11/2024 10:46 3.6 68.9 28 8.3 9/11/2024 10:47 4.2 70 28.3 8.3 9/11/2024 10:48 3.7 70 28.3 8.3 9/11/2024 10:49 3.6 68.3 28 8.3 9/11/2024 10:50 4 68.2 28 8.3 9/11/2024 10:51 4 77.7 27.4 8.3 9/11/2024 10:52 3.8 71.1 28 8.3 9/11/2024 10:53 4 68.6 27.7 8.3 9/11/2024 10:54 3.8 68.5 27.7 8.3 9/11/2024 10:55 3.5 61.8 28.3 8.4 9/11/2024 10:56 3.6 70.2 27.7 8.3 9/11/2024 10:57 3.6 70.5 28 8.3 9/11/2024 10:58 3.6 69.9 27.4 8.3 9/11/2024 10:59 3.7 70.3 27.7 8.3 9/11/2024 11:00 3.7 70 27.7 8.3 9/11/2024 11:01 3.7 69.6 27.7 8.3 9/11/2024 11:02 3.7 68.1 27.7 8.3 9/11/2024 11:03 3.9 69.3 27.7 8.3 9/11/2024 11:04 4.4 70.2 27.7 8.3 9/11/2024 11:05 3.7 70.6 27.4 8.3 9/11/2024 11:06 3.7 71.1 27.7 8.3 9/11/2024 11:07 3.8 71.4 27.4 8.3 9/11/2024 11:08 3.8 70.8 28.3 8.3 9/11/2024 11:09 4 66.7 27.7 8.3 9/11/2024 11:10 4 72.1 27.4 8.3 AVG 3.9 69.3 27.9 8.3 AVG Corrected 3.8 69.3 31.6 8.3 RD Tribal 19N-31E-H4UB, H4CP, H5CP, H6UB, H6CP, H7CP, H8UB (Kendall South Pad) Graphical Analysis of Test Run 2 0 10 20 30 40 50 60 70 80 90 100 PP M v Readings Source Test 2 CO NOx NMHC -460 -460 EPA REFERENCE METHOD 1 EPA REFERENCE METHOD 2 Stack Diameter 10 Inches Kp=85.49 ft/sec Cp=0.84 Traverse Points 16 Port Point Insertion Depth dP Ts Stat P sqrt dP Ports 2 (inches)(in h2O)(deg R)(in H2O) EPA REFERENCE METHOD 3 A 1 0.50 0.61 1115 0.27 0.781 Average O2 8.3 (% dry)A 2 1.05 0.58 1115 0.27 0.762 Average CO2 7.6 (% dry)A 3 1.94 0.64 1115 0.27 0.800 Average N2 + CO 84.12 (% dry)A 4 3.23 0.61 1115 0.27 0.781 Dry Molecular Weight 29.55 lb/lbmol A 5 6.77 0.66 1115 0.27 0.812 Wet Molecular Weight 28.20 lb/lbmol A 6 8.06 0.63 1115 0.27 0.794 EPA REFERENCE METHOD 4 A 7 8.95 0.64 1115 0.27 0.800 Barometric Pressure 24.90 in Hg A 8 9.50 0.60 1115 0.27 0.775 Gas Meter Constant 0.954 A 9 Gas Volume Constant 17.64 deg R/in Hg A 10 Dry Gas Volume 26 dcf A 11 Water Vapor Volume 2.782 scf A 12 Moisture Content 11.68 %A 13 Initial Final A 14 Dry Gas Met. Vol 624 650 dcf A 15 Gas Met. Inlet Temp.59 44 deg F A 16 Gas Met. Outlet Temp.63 65 deg F B 1 0.50 0.64 1115 0.27 0.800 Mass Liquid H2O 0 55.0 grams B 2 1.05 0.60 1116 0.27 0.775 Mass Of Silica Gel 922.9 926.9 grams B 3 1.94 0.66 1116 0.27 0.812 B 4 3.23 0.63 1116 0.27 0.794 1 2 3 (empty)4 (si gel)B 5 6.77 0.69 1116 0.27 0.831 699.1 644.6 595.9 922.9 B 6 8.06 0.65 1116 0.27 0.806 750.8 647.2 596.6 926.9 B 7 8.95 0.63 1116 0.27 0.794 EPA REFERENCE METHOD 7E B 8 9.50 0.60 1116 0.27 0.775 Average Analyzer NOx Level 69.33 ppm B 9 Average Corrected NOx Level 69.26 ppm B 10 Calculated NOx Mass Output 0.41 lbs/hr B 11 Calculated NOx Output 1.78 tons/yr B 12 Calculated NOx Output 0.53 g/bhp-hr B 13 EPA REFERENCE METHOD 10 B 14 Average Analyzer CO Level 3.90 ppm B 15 Average Corrected CO Level 3.80 ppm B 16 Calculated CO Mass Output 0.01 lbs/hr Averages 0.629 1115 0.270 0.793 Calculated CO Output 0.06 tons/yr Average Stack Gas Velocity 71.76 ft/sec Calculated CO Output 0.02 g/bhp-hr Average Dry Flowrate 817.73 dscfm EPA REFERENCE METHOD 25A w/ Methane Cutter Average Analyzer NMHC Level 27.93 ppm Average Corrected NMHC Level (wet)27.91 ppm Average Corrected NMHC Level (dry)31.60 ppm Calculated NMHC Mass Output 0.18 lbs/hr Calculated NMHC Output 0.78 tons/yr Calculated NMHC Output 0.23 g/bhp-hr LOAD APPROXIMATION Estimated Engine Load 345.1 BHP TEST RUN # 2 IMPINGER DATA Test Run 3 date_and_time co (ppm)nox (ppm)voc (ppm)o2 (%) 9/11/2024 11:21 3.8 68.9 28 8.3 9/11/2024 11:22 3.6 67.3 27.7 8.3 9/11/2024 11:23 3.5 68.5 28 8.4 9/11/2024 11:24 3.8 65.8 28 8.4 9/11/2024 11:25 3.8 69.7 27.7 8.4 9/11/2024 11:26 3.6 71 27.1 8.3 9/11/2024 11:27 3.4 69.3 27.7 8.3 9/11/2024 11:28 3.5 68.2 28 8.3 9/11/2024 11:29 3.6 68.2 27.7 8.4 9/11/2024 11:30 3.2 68.5 27.7 8.4 9/11/2024 11:31 3.2 69.1 28.3 8.4 9/11/2024 11:32 3.3 69.8 28.3 8.3 9/11/2024 11:33 3.5 69.9 27.4 8.3 9/11/2024 11:34 3.8 70.8 27.7 8.4 9/11/2024 11:35 3.4 61.7 28.3 8.4 9/11/2024 11:36 3.4 68.4 27.7 8.4 9/11/2024 11:37 3.7 68 27.7 8.4 9/11/2024 11:38 3.3 65.7 28 8.4 9/11/2024 11:39 3.2 67 27.7 8.4 9/11/2024 11:40 3.4 67.8 27.4 8.4 9/11/2024 11:41 3.3 67.8 27.4 8.3 9/11/2024 11:42 3.2 65.9 27.7 8.4 9/11/2024 11:43 3.6 67.5 27.4 8.3 9/11/2024 11:44 3.3 68 28 8.4 9/11/2024 11:45 4 67.3 27.7 8.4 9/11/2024 11:46 3.3 67.6 27.7 8.4 9/11/2024 11:47 3.4 68.4 28 8.4 9/11/2024 11:48 3.4 68.5 28 8.4 9/11/2024 11:49 3.2 68.1 27.7 8.4 9/11/2024 11:50 3.3 68.1 27.7 8.4 9/11/2024 11:51 3.1 68.3 27.7 8.4 9/11/2024 11:52 3.8 68.9 27.7 8.4 9/11/2024 11:53 3.4 68.5 27.4 8.4 9/11/2024 11:54 3.4 67 28 8.4 9/11/2024 11:55 3.2 69.2 27.4 8.4 9/11/2024 11:56 3.4 65.1 27.7 8.4 9/11/2024 11:57 3.3 72 27.1 8.4 9/11/2024 11:58 3.3 69.7 27.7 8.4 9/11/2024 11:59 3.8 69.4 27.1 8.4 9/11/2024 12:00 3.3 68.2 27.4 8.4 9/11/2024 12:01 3.3 68.5 27.1 8.4 9/11/2024 12:02 3.4 68.4 27.4 8.4 9/11/2024 12:03 3.8 67.9 27.1 8.4 9/11/2024 12:04 3.3 66.9 27.1 8.4 9/11/2024 12:05 3.2 68 27.1 8.4 9/11/2024 12:06 3.6 68.5 27.1 8.4 9/11/2024 12:07 3.4 67.7 26.5 8.4 9/11/2024 12:08 3.5 67.3 26.8 8.4 9/11/2024 12:09 3.2 68.1 26.5 8.4 9/11/2024 12:10 3.2 69 26.2 8.4 9/11/2024 12:11 3.4 67.6 26.8 8.4 9/11/2024 12:12 3.2 68.6 26.2 8.4 9/11/2024 12:13 3.6 69.5 26.5 8.4 9/11/2024 12:14 3.4 69.2 26.8 8.4 9/11/2024 12:15 3.4 68.9 26.2 8.4 9/11/2024 12:16 3.4 68.5 26.5 8.4 9/11/2024 12:17 3.4 69.1 26.5 8.4 9/11/2024 12:18 4 68.3 26.8 8.4 9/11/2024 12:19 3.1 67.4 26.5 8.4 9/11/2024 12:20 3 67.2 26.5 8.4 AVG 3.4 68.2 27.4 8.4 AVG Corrected 3.3 67.8 31.2 8.4 RD Tribal 19N-31E-H4UB, H4CP, H5CP, H6UB, H6CP, H7CP, H8UB (Kendall South Pad) Graphical Analysis of Test Run 3 0 10 20 30 40 50 60 70 80 90 100 PP M v Readings Source Test 3 CO NOx NMHC -460 -460 EPA REFERENCE METHOD 1 EPA REFERENCE METHOD 2 Stack Diameter 10 Inches Kp=85.49 ft/sec Cp=0.84 Traverse Points 16 Port Point Insertion Depth dP Ts Stat P sqrt dP Ports 2 (inches)(in h2O)(deg R)(in H2O) EPA REFERENCE METHOD 3 A 1 0.50 0.60 1120 0.27 0.775 Average O2 8.4 (% dry)A 2 1.05 0.56 1120 0.27 0.748 Average CO2 7.6 (% dry)A 3 1.94 0.63 1121 0.27 0.794 Average N2 + CO 84.04 (% dry)A 4 3.23 0.59 1120 0.27 0.768 Dry Molecular Weight 29.55 lb/lbmol A 5 6.77 0.65 1120 0.27 0.806 Wet Molecular Weight 28.13 lb/lbmol A 6 8.06 0.62 1120 0.27 0.787 EPA REFERENCE METHOD 4 A 7 8.95 0.59 1120 0.27 0.768 Barometric Pressure 24.89 in Hg A 8 9.50 0.56 1120 0.27 0.748 Gas Meter Constant 0.954 A 9 Gas Volume Constant 17.64 deg R/in Hg A 10 Dry Gas Volume 26 dcf A 11 Water Vapor Volume 2.919 scf A 12 Moisture Content 12.26 %A 13 Initial Final A 14 Dry Gas Met. Vol 650 676 dcf A 15 Gas Met. Inlet Temp.65 44 deg F A 16 Gas Met. Outlet Temp.66 70 deg F B 1 0.50 0.62 1120 0.27 0.787 Mass Liquid H2O 0 58.0 grams B 2 1.05 0.58 1120 0.27 0.762 Mass Of Silica Gel 926.9 930.8 grams B 3 1.94 0.64 1120 0.27 0.800 B 4 3.23 0.61 1121 0.27 0.781 1 2 3 (empty)4 (si gel)B 5 6.77 0.67 1121 0.27 0.819 750.8 647.2 596.6 926.9 B 6 8.06 0.64 1120 0.27 0.800 806.7 649.0 596.9 930.8 B 7 8.95 0.62 1120 0.27 0.787 EPA REFERENCE METHOD 7E B 8 9.50 0.60 1120 0.27 0.775 Average Analyzer NOx Level 68.20 ppm B 9 Average Corrected NOx Level 67.82 ppm B 10 Calculated NOx Mass Output 0.39 lbs/hr B 11 Calculated NOx Output 1.70 tons/yr B 12 Calculated NOx Output 0.53 g/bhp-hr B 13 EPA REFERENCE METHOD 10 B 14 Average Analyzer CO Level 3.43 ppm B 15 Average Corrected CO Level 3.28 ppm B 16 Calculated CO Mass Output 0.01 lbs/hr Averages 0.611 1120 0.270 0.782 Calculated CO Output 0.05 tons/yr Average Stack Gas Velocity 70.96 ft/sec Calculated CO Output 0.02 g/bhp-hr Average Dry Flowrate 799.56 dscfm EPA REFERENCE METHOD 25A w/ Methane Cutter Average Analyzer NMHC Level 27.38 ppm Average Corrected NMHC Level (wet)27.39 ppm Average Corrected NMHC Level (dry)31.22 ppm Calculated NMHC Mass Output 0.17 lbs/hr Calculated NMHC Output 0.75 tons/yr Calculated NMHC Output 0.23 g/bhp-hr LOAD APPROXIMATION Estimated Engine Load 334.8 BHP TEST RUN # 3 IMPINGER DATA APPENDIX B Compound Calibration Gas Level Analyzer Response % Error NOx Zero (ppm):0.0 0.1 0.02 NOx Mid (ppm):250.4 251.5 0.22 NOx Upscale (ppm):502.3 501.6 0.14 NOx Span Used (ppm):250.4 251.5 CO Zero (ppm):0.0 0.1 0.01 CO Mid (ppm):498.2 497.4 0.07 CO Upscale (ppm):1199.0 1196.5 0.21 CO Span Used (ppm):498.2 497.4 VOC Zero (ppm):0.0 0.1 0.01 VOC Low (ppm):301.4 301.7 0.04 VOC Mid (ppm):502.0 501.1 0.11 VOC Upscale (ppm):851.4 849.9 0.18 VOC Span Used (ppm):502.0 501.1 O2 Zero (%):0.0 0.1 0.48 O2 Mid (%):10.09 10.1 0.05 O2 Upscale (%):20.88 20.9 0.10 O2 Span Used (%):10.09 10.0 Compound Analyzer Response System Bias Response % Cal Error NOx Zero (ppm)0.1 0.2 0.02 NOx Span (ppm)251.5 249.9 0.32 CO Zero (ppm)0.1 0.1 0.00 CO Span (ppm)497.4 500.2 0.23 VOC Zero (ppm)0.1 0.2 0.01 VOC Span (ppm)501.1 502.7 0.19 O2 Zero (%)0.1 0.1 0.00 O2 Span (%)10.0 10.1 0.48 Compound Analyzer Response System Bias Response % Cal Error % Zero Drift Error % Cal Drift Error NOx Zero (ppm)0.1 0.1 0.00 0.02 NOx Span (ppm)251.5 250.8 0.14 0.18 CO Zero (ppm)0.1 0.1 0.00 0.00 CO Span (ppm)497.4 498.4 0.08 0.15 VOC Zero (ppm)0.1 0.1 0.00 0.01 VOC Span (ppm)501.1 499.9 0.14 0.33 O2 Zero (%)0.1 0.1 0.00 0.00 O2 Span (%)10.0 10.1 0.48 0.00 Compound Analyzer Response System Bias Response % Cal Error % Zero Drift Error % Cal Drift Error NOx Zero (ppm)0.1 0.1 0.00 0.00 NOx Span (ppm)251.5 250.0 0.30 0.16 CO Zero (ppm)0.1 0.1 0.00 0.00 CO Span (ppm)497.4 498.4 0.08 0.00 VOC Zero (ppm)0.1 0.1 0.00 0.00 VOC Span (ppm)501.1 501.3 0.02 0.16 O2 Zero (%)0.1 0.1 0.00 0.00 O2 Span (%)10.0 10.1 0.48 0.00 Compound Analyzer Response System Bias Response % Cal Error % Zero Drift Error % Cal Drift Error NOx Zero (ppm)0.1 0.3 0.04 0.04 NOx Span (ppm)251.5 252.5 0.20 0.50 CO Zero (ppm)0.1 0.2 0.01 0.01 CO Span (ppm)497.4 498.7 0.11 0.03 VOC Zero (ppm)0.1 0.1 0.00 0.00 VOC Span (ppm)501.1 498.8 0.27 0.29 O2 Zero (%)0.1 0.1 0.00 0.00 O2 Span (%)10.0 10.1 0.48 0.00 Calibration Summary Tables LINEARITY PRE CAL 1 POST CAL 1 POST CAL 2 POST CAL 3 Airgas an Air Liquide company Part Number: Cylinder Number: Laboratory: PGVP Number: Gas Code: Airgas USALLC 525 North Industrial Loop Road Tooele,UT 84074 Airgas.com CERTIFICATE OF ANALYSIS Grade of Product:EPA PROTOCOL STANDARD E02N199E15A0919 CC277490 124 -Tooele (SAP)-UT 872021 Reference Number: Cylinder Volume: Cylinder Pressure: Valve Outlet: Certification Date: 153-402288874-1144.4 CF 2015 PSIG 660 Dec 06,2021 Expiration Date:Dec 06 2029 Certification performed in accordance with "EPA Traceabili:y Protocol for Assay and Certification of Gaseous Calibration Standards (May 2012)"document EPA600/R-12/531 ,using the assay procedures listed.Analytical Methodology does not require correction for analytical interference. This cylinder has a total analytical uncertainty as stated below with a confidence level of 95%.There are no significant impurities which affect the use of thiscalibration mixture.All are on a mole/mole basis unless otherwise noted. Do Not Use This C inder below ICO si ,i.e.0.7m a ascals. ANALYTICAL RESULTSComponent NOX NITRIC OXIDE NITROGEN RequestedConcentration 500.0 PPM 500.0 PPM Balance Actual Concentration 502.3 PPM 500.8 PPM Protocol Method Gl Total RelativeUncertainty +1-0.6%NIST Traceable +1-0.6%NIST Traceable Type NTRM PRM GMIS Lot ID 15010110 12386 401648675102 Cylinder No KAL003425 D685025 CC500959 CALIBRATION STANDARDS Concentration 494.6 PPM NITRIC OXIDE/NITROGEN 9.91 PPM NITROGEN DIOXIDE/AIR 5.074 PPM NITROGEN DIOXIDE/NITROGEN Uncertainty 0.5% 2.0% 2.1% AssayDates 11129/2021, 12106/2021 11/29/2021,12/06/2021 Expiration Date Aug 16,2027 Feb 20,2020 Feb 01,2023 The SRM,PRM or RGM noted above is only in reference to the GMIS used in the assay and not part of the analysis. Instrument/Make/Model Nicolet iS50 AUP2110269 NO MNO Nicolet iS50 AUP2110269 N02 impurity Triad Data Available Upon Request ANALYTICAL EQUIPMENT Analytical Principle FTIR FTIR N02 impurity Approved for Release Last Multipoint Calibration Nov 17,2021 Nov 17,2021 Page 1 of 153-402288874-1 Airgas an Air Liquide company Part Number: Cylinder Number: Laboratory: PGVP Number: Gas Code: Airgas Specialty Gases AirgasUSA LLC 525 North Industrial Loop Road Tooele,UT 84074 Airgas.com CERTIFICATE OF ANALYSIS Grade ofProduct:EPA PROTOCOL STANDARD E02N199E15A0979 XC009107B 124 -Tooele (SAP)-UT B72022 CO,BALN Reference Number: Cylinder Volume: Cylinder Pressure: Valve Outlet: Certification Date: 153-402538506-1 144.0 CF 2015 PSIG 350 sep 12,2022 Expiration Date:Se 12 2030 Certificationperformed in accordance with "EPA Traceability Protocol for Assay and Certificationof Gaseous Calibration Standards (May 2012)"document EPA 600/R-12/531,using the assay procedures listed.Analytical Methodology does not require correction for analytical interference.This cylinder has a total analytical uncertainty as stated with a confidencelevel of 95%.There are no significant impurities which affect the use of this calibrationmixture.All concentrations are on amole/mole basis unless otherwisenoted. Do Not Use This C inder below 100 si ,i.e.0.7 me a ascals. ANALYTICAL RESULTSComponent CARBON MONOXIDE NITROGEN RequestedConcentration 1200 PPM Balance Cylinder No CC733060 ActualConcentration 1199 PPM ProtocolMethod Type NTRM Lot ID 210601-11 CALIBRATION STANDARDS Concentration 977.3 PPM CARBON MONOXIDE/NITROGEN ANALYTICAL EQUIPMENTAnalyticalPrinciple FTIR Total RelativeUncertainty +1-0.4%NIST Traceable Uncertainty 0.2% AssayDates 09/12/2022 Expiration Date Aug 31,2027 Instrument/Make/Model Nicolet iS50 AUP2010228 CO HCO Triad Data Available Upon Request Last Multipoint Calibration Aug 16,2022 Approved for Rele Page I of I Airgas an Air Liquide company Part Number: Cylinder Number: Laboratory PGVP Number: Gas Code: Airgas Specialty Gases Airgas USA LLC 525 North Industrial Loop Road Tooele,UT 84074 Airgas.com CERTIFICATE OF ANALYSIS Grade of Product:EPA PROTOCOL STANDARD E03N180E15A0138 CC349454 124 -Tooele (SAP)-UT B72022 Reference Number: Cylinder Volume: Cylinder Pressure: Valve Outlet: Certification Date: 153-402554387-1 141.0 CF 2015 PSIG 590 sep 27,2022 Expiration Date:Se 27 2030 Certificationperformed in accordance with 'EPA Traceability Protocol for Assay and Certificationof Gaseous Calibration Standards (May 2012)"document EPA 600/R-12/531,using the assay procedures listed.Analytical Methodology does not require correction for analytical interference.This cylinder has a total analytical uncertainty as stated below with a confidence level of 95%.There are no significantimpurities Which affect the use Of this calibration mixture.All concentrations are on amole/mole basis unless otherwise noted. Do Not Use This C linder below 100 si ,i.e.0.7 me a ascaiS. ANALYTICAL RESULTS Component CARBON DIOXIDE OXYGEN NITROGEN RequestedConcentration 10.00 % 10.00 % Balance Cylinder No CC411744 SG9161286BAL ActualConcentration 9.924 %10.09 % ProtocolMethod Gl Type NTRM NTRM Lot ID 13060405 98051010 CALIBRATION STANDARDS Concentration 7.489 %CARBON DIOXIDE-INITROGEN 12.05 %OXYGEN/NITROGEN ANALYTICAL EQUIPMENT Analytical Principle C02 NDIR (Dixon) 02 Paramagnetic (Mason) Total Relative Uncertainty +1-1.2%NIST Traceable +1-0.7%NIST Traceable Uncertainty 0.6% 0.7% AssayDates 09/27/2022 09/27/2022 Expiration Date May 14,2025 Dec 14,2023 Instrument/Make/ModeI Horiba VIA-510 SV4MEUTJ C02 Horiba MPA-510 W603MM58 02 Triad Data Available Upon Request Last Multipoint Calibration sep 14,2022 Sep 14,2022 Approved for Relea Page 1 of •i Airgas an Air Liquide company Part Number: Cylinder Number: Laboratory: PGVP Number: Gas Code: Airgas Specialty GasesAirgasUSALLC 525 North Industrial Loop Road Tooele,UT 84074 Airgas.com CERTIFICATE OF ANALYSIS Grade of Product:EPA PROTOCOL STANDARD E02N199E15A0681 CC709863 124 -Tooele (SAP)-UT 872022 BALN Reference Number: Cylinder Volume: Cylinder Pressure: Valve Outlet: Certification Date: 153-402586702-1 144.0 CF 2015 PSIG 350 Nov 07,2022 Expiration Date:Nov 07 2030 Certificationperformed in accordance with "EPA Traceabi ity Protocol for Assay and Certificationof Gaseous Calibration Standards (May 2012)"documentEPA600/R-12/531,using the assay procedures listed.Analytical Methodology does not require correction for analytical interferenæ.This cylinder has a total analytical uncertainty as stated below with a confidence level of 95%.There are no significantimpurities which affect the use of this calibrationmixture.All concentrations are on amole/mole basis unless Otherwise noted.The results relate only to the items tested.The report shall not be reproduced except in full without approval of the laboratory.DoNotUseThisCylinderbelow100psig,i.e.0.7 megapascals. ANALYTICAL RESULTS Component PROPANE NITROGEN Type NTRM RequestedConcentration ActualConcentration 301.4 ProtocolMethod Total RelativeUncertainty +1-0.9%NIST Traceable300.0 PPM Balance Lot ID 1 2010923 Cylinder No ND46382 CALIBRATION STANDARDS Concentration 487 PPM PROPANE/AIR ANALYTICAL EQUIPMENTAnalyticalPrinciple FTIR Uncertainty 0.6% AssayDates 11/07/2022 Expiration Date Apr 24,2024 Instrument/Make/ModeI Nicolet iS50 AUP2110269 C3H8 MC3H8 Triad Data Available Upon Request Approve Last Multipoint Calibration Oct 27,2022 or Rel .Page I of I Airgas an Air Liquide company Part Number: Cylinder Number: Laboratory: PGVP Number: Gas Code: Airgas Specialty Gases Airgas USA LLC 12722 S.WentworthAveo Chicago,IL 60628 Airgas.com CERTIFICATE OF ANALYSIS Grade of Product:EPA PROTOCOL STANDARD E02A199E15A0332 CC89102 124 -Chicago (SAP)-IL 312023 p p N BALA Reference Number: Cylinder Volume: Cylinder Pressure: Valve Outlet: Certification Date: 54-402768752-1 146.0 CF 2015 PSIG 590 Jun 12,2023 Expiration Date:Jun 12 2031 Certificationperformed in accordance with 'EPA Traceability Protocol for Assay and Certificationof Gaseous Calibration Standards (May 2012)"document EPA 600/R-12/531,using the assay procedures listed.Analytical Methodologydoes not require correction for analytical interference.This cylinder has a total analytical uncertainty as stated below with a confidence level of 95%.There are no significant impurities which affect the use of this calibration mixture.All concentrationsare on a mole/mole basis unless otherwisenoted.The results relate only to the items tested.The report shall not be reproduced except in fullwithout approval of the laboratory.Do Not Use This Cylinder below 100 psig,i.e.0.7 megapascals. ANALYTICAL RESULTS Component PROPANE AIR Type NTRM Requested Concentration Actual Concentration 502.0 PPM Protocol Method 500.0 PPM Balance Lot ID 12010904 Cylinder No ND46344 CALIBRATION STANDARDS Concentration 487.0 PPM PROPANE-IAR ANALYTICAL EQUIPMENT Total RelativeUncertainty +1-1%NIST Traceable Uncertainty 0.6% AssayDates 06/12/2023 Expiration Date Apr 24,2024 Instrument/Make/ModeI Nicolet iS50 AUP2110277 Analytical Principle FTIR Last Multipoint Calibration Jun 08,2023 Triad Data Available Upon Request Approved for Release Page 1 of 1 CERTIFICATE OF ANALYSIS Grade of Product: EPA Protocol Part Number:E02AI99E15A0333 Reference Number:153-401464128-1 Cylinder Number:ALM014418 Cylinder Volume:146.3 CF Laboratory:124 - Tooele (SAP) - UT Cylinder Pressure:2015 PSIG PGVP Number:B72019 Valve Outlet:590 Gas Code:PPN,BALA Certification Date:Apr 05, 2019 Expiration Date:Apr 05, 2027 Certification performed in accordance with “EPA Traceability Protocol for Assay and Certification of Gaseous Calibration Standards (May 2012)” document EPA 600/R-12/531, using the assay procedures listed. Analytical Methodology does not require correction for analytical interference. This cylinder has a total analytical uncertainty as stated below with a confidence level of 95%. There are no significant impurities which affect the use of this calibration mixture. All concentrations are on a mole/mole basis unless otherwise noted. Do Not Use This Cylinder below 100 psig, i.e. 0.7 megapascals. ANALYTICAL RESULTS Component Requested Actual Protocol Total Relative Assay Concentration Concentration Method Uncertainty Dates PROPANE 850.0 PPM 851.4 PPM G1 +/- 0.8% NIST Traceable 04/05/2019 AIR Balance CALIBRATION STANDARDS Type Lot ID Cylinder No Concentration Uncertainty Expiration Date NTRM 01010307 K010660 499.3 PPM PROPANE/AIR 0.6%Jun 02, 2024 ANALYTICAL EQUIPMENT Instrument/Make/Model Analytical Principle Last Multipoint Calibration Nicolet 6700 AMP0900119 C3H8 MC3H8 FTIR Mar 20, 2019 Triad Data Available Upon Request Airgas Specialty GasesAirgas USA, LLC 525 North Industrial Loop Road Tooele, UT 84074 Airgas.com Signature on file Approved for Release Page 1 of 153-401464128-1 Meter Console Information APEX INSTRUMENTS METHOD 5 PRE-TEST CONSOLE CALIBRATION USING CALIBRATED CRITICAL ORIFICES 5-POINT ENGLISH UNITS Calibration Conditions Console Model Number Console Serial Number DGM Model Number DGM Serial Number 522 1412041 Silo 234705 Date Time Barometric Pressure Theoretical Critical Vacuum Calibration Technician 27-Se 23 24.2 11.4 David Rosette in H Hg IFor valid test results,theActual Vacuum should be I to 2 in.Hg greater than the Theoretical Critical Vacuum shown above. 2The Critical Orifice Coefficient,K',must be entered in English units,*min). Run Time Elapsed (0) 6.0 7.0 9.0 12.0 17.0 D (V m(std)) cubicfeet 5.232 4.624 4.514 4.595 4.337 DGM Orifice (Prn) in H20 2.2 1.2 0.6 0.4 0.2 Volume Initial cubic feet 110.800 116.900 122.307 127.605 133.002 Meterin Console Volume Final cubic feet 116.900 122.307 127.605 133.002 138.104 Outlet Temp Initial (tmi) 63 64 64 64 Results Calibration Data Outlet Temp Final (tmf) 63 63 64 65 Serial Number QD-73 QD-63 QD-55 QD-48 QD-40 D Gas Meter Flowrate std &corr 0.830 0.636 0.474 0.366 0.244 10:14 in Hg in Hg Coefficient K' see above2 0.7866 0.6025 0.4498 0.3470 0.2315 0.75 SCFM in H20 1.620 1.497 1.337 I.497 1.678 1.526 Critical Orifice Amb Temp Initial (tam5) 66 66 66 67 67 Variation (AAH@) 0.094 -0.029 -0.189 -0.029 0.152 Average Date Std Tem Std Press Amb Temp Final (tarnb) 66 66 67 67 67 Factors/Conversions 534 29.00 18.414 Actual Vacuum in Hg 11 13 14 16 17 Standardized Data Calibration Factor Gas Meter (Qrn(std)) cfm 0.872 0.661 0.502 0.333 0.255 Critical Orifice (Vcqst<D cubicfeet 4.980 4.450 4.270 4.390 4.149 (Qcr(std)) 0.830 0.636 0.474 0.366 0.244 Value 0.952 0.962 0.946 0.955 0.957 0.954 Variation -0.003 0.008 -0.008 0.001 0.002 Y Avera e Note:For Calibration Factor Y,the ratio Of the readin Of the calibration meter to the d I certify thatthe above Dry Gas Meter was calibrated i ccor nc with U as meter,acceptable tolerance Of individual values from the avera e is +-0.02. Methods,CFR 40 Part60,using the Precision Wet Test Meter #1 IAE6, 107,which is traæable to the National Bureau of Standards (N.I.S.T.).which in tum wascalibrated using Signatu n Bell #7 ,certifi Methane Response Factor And Non-Methane Cutter Penetration Factor Determination 1065.360 (d)1-10 CH4 Response Factor Determination for FID 1.C3H8 Span Gas Value (As C1)=1506.00 2.CH4 Span Gas Value =513.00 3.Insure Analyzer Flow/Pressure/Temps Ok yes Pass 4.Insure FID Analyzer Calibrated using C3H8 to C1 Value yes Pass 5.Zero FID Analyzer Zero=0.00 6.Span FID Analyzer with C3H8 Gas Listed in (1) Above Span=1506.00 7.Arithmetic Mean of 30 Seconds of Sampling CH4 Span Gas Mean [30 sec CH4]=516.00 8.Determine CH4 Response Factor by Dividing Step 7. by 2. RFCH4[THC-FID]=1.006 Pass 1065.365(e) Non-Methane Cutter Penetration Factor Determination 1.CH4 Span Gas Value =513.00 2.C2H6 Span Gas Value (As C1)=1006.00 3.C3H8 Span Gas Value (As C1)=1506.00 4.Zero FID In THC Mode Zero=0.00 5.Span FID with C3H8 in THC Mode (As C1)Span=1506.00 6.C3H8 Span Gas in CH4 Mode =-5.00 7.C3H8 Penetration Factor by Dividing Step 6. by Step 5.PF C3H8[MHC-FID]=-0.0033 Pass 8.C2H6 Span Gas in THC Mode =1009.00 9.C2H6 Span Gas in CH4 Mode =7.00 10.C2H6 Penetration Factor by Dividing Step 9. by Step 8.PF C2H6[MHC-FID]=0.007 Pass 11.CH4 Span Gas in THC Mode =558.00 12.CH4 Span Gas in CH4 Mode =515.00 13.CH4 Penetration Factor by Dividing Step 24. by Step 23.PFCH4[MHC-FID]=0.923 Pass 14.Check Zero Zero Check=-2.00 Pass 15.Check C3H8 Span Span Check=1499.00 Pass Methane Response Factor RFCH4[THC-FID]=1.006 Methane Penetration Factor PFCH4[MHC-FID]=0.923 Ethane Penetration Factor PF C2H6[MHC-FID]=0.007 Propane Penetration Factor PF C3H8[MHC-FID]=-0.0033 Test Result NMHC FID Response & Penetration Factors Pass Calibration Gas Level Analyzer Response Eff_NOx NO2 ppm NOx ppm % 145.2 147.9 102 Eff_NOx must be ≥ 90%. Method 7E - NOx Converter Efficiency Test APPENDIX C Test Run Load %Site Rated Load, bhp Load Approx., bhp 1 65 515 334.8 2 67 515 345.1 3 65 515 334.8 Engine Load Approximation based on Panel Levels APPENDIX D RAW CALIBRATION DATA LINEARITY AND PRE CAL date_and_time test_number nox co voc o2 9/11/2024 8:34 1065 0 1 0.1 20.9 9/11/2024 8:34 1065 0.2 1 0.1 20.9 9/11/2024 8:34 1065 0 0.6 0.1 20.9 9/11/2024 8:34 1065 0.3 1.1 0.1 20.9 9/11/2024 8:34 1065 0 1.1 0.1 20.9 9/11/2024 8:34 1065 0.1 1 0.1 20.9 9/11/2024 8:35 1065 0 0.5 0.1 20.9 9/11/2024 8:35 1065 0.2 0.9 0.1 20.9 9/11/2024 8:35 1065 0.2 0.1 0.1 20.9 9/11/2024 8:35 1065 0.1 0.9 0.1 20.9 9/11/2024 8:35 1065 0.1 0.8 0.1 16.7 9/11/2024 8:35 1065 0.2 1 0.1 13.3 9/11/2024 8:35 1065 0.2 0.9 0.1 11.1 9/11/2024 8:35 1065 0.1 0.5 0.1 10.5 9/11/2024 8:35 1065 0 0.9 0.1 10.3 9/11/2024 8:35 1065 0.3 1.1 0.1 10.2 9/11/2024 8:35 1065 0.2 0.9 0.1 10.2 9/11/2024 8:35 1065 0.1 1 0.1 10.2 9/11/2024 8:36 1065 0 0.1 0.1 10.2 9/11/2024 8:36 1065 0.2 0.1 0.1 10.2 9/11/2024 8:36 1065 0.1 0.1 0.1 10.2 9/11/2024 8:36 1065 0.3 0.5 0.1 10.2 9/11/2024 8:36 1065 0 0.1 0.1 10.1 9/11/2024 8:36 1065 0.3 0.1 0.1 10.1 9/11/2024 8:36 1065 0 0.1 0.1 10.1 9/11/2024 8:36 1065 0.2 0.1 0.1 10.1 9/11/2024 8:36 1065 0 0.3 0.1 10.1 9/11/2024 8:36 1065 0.2 0 0.1 10.1 9/11/2024 8:36 1065 0.1 0.1 0.1 10.1 9/11/2024 8:36 1065 0.1 0.1 0.1 10.1 9/11/2024 8:37 1065 0.1 0.3 0.1 10.1 9/11/2024 8:37 1065 0.2 0.4 0.1 10.1 9/11/2024 8:37 1065 0.1 0.1 0.1 11.6 9/11/2024 8:37 1065 0.2 0.1 0.1 14.6 9/11/2024 8:37 1065 0 0.1 0.1 20.0 9/11/2024 8:37 1065 0.2 0 0.1 20.6 9/11/2024 8:37 1065 0.1 0.2 0.1 20.9 9/11/2024 8:37 1065 0.1 0.5 0.1 20.9 9/11/2024 8:37 1065 0.1 0 0.1 20.9 9/11/2024 8:37 1065 0.3 0.7 0.1 20.9 9/11/2024 8:37 1065 0.1 0.4 301.7 20.9 9/11/2024 8:37 1065 0.1 0.1 301.7 20.9 9/11/2024 8:38 1065 0 0.1 301.7 20.9 9/11/2024 8:38 1065 0.2 0 302.2 20.9 9/11/2024 8:38 1065 0.1 0.6 302.3 20.9 9/11/2024 8:38 1065 0.2 0.5 302.2 19.9 9/11/2024 8:38 1065 0.1 0.1 302.2 7.8 9/11/2024 8:38 1065 0.1 0 302.3 2.8 9/11/2024 8:38 1065 0.1 0 397.9 1.0 9/11/2024 8:38 1065 119.4 0.6 397.9 0.4 9/11/2024 8:38 1065 119.6 0.1 397.9 0.2 9/11/2024 8:38 1065 119.4 0 397.9 0.2 9/11/2024 8:38 1065 119.5 0.1 397.9 0.2 9/11/2024 8:38 1065 119.5 0 397.9 0.2 9/11/2024 8:39 1065 119.6 0 397.9 0.1 9/11/2024 8:39 1065 243.5 0.2 398.0 0.1 9/11/2024 8:39 1065 243.7 0.1 501.1 0.1 9/11/2024 8:39 1065 245.7 0 501.1 0.1 9/11/2024 8:39 1065 245.7 0.1 501.1 0.1 9/11/2024 8:39 1065 245.6 0 501.1 0.1 9/11/2024 8:39 1065 246.9 0 501.1 0.1 9/11/2024 8:39 1065 246.8 0.6 501.1 0.1 9/11/2024 8:39 1065 247 0.1 501.1 0.1 9/11/2024 8:39 1065 250.1 0.1 501.1 0.1 9/11/2024 8:39 1065 250.1 0.1 767.3 0.1 9/11/2024 8:39 1065 250.1 0.1 767.3 0.1 9/11/2024 8:40 1065 250.2 0.6 767.3 0.1 9/11/2024 8:40 1065 251.4 0.1 767.3 0.1 9/11/2024 8:40 1065 251.5 0.2 767.3 0.1 9/11/2024 8:40 1065 251.5 0.5 767.3 0.1 9/11/2024 8:40 1065 252 0.4 767.3 0.1 9/11/2024 8:40 1065 251.9 0 767.3 0.1 9/11/2024 8:40 1065 252 0.1 849.9 0.1 9/11/2024 8:40 1065 252.2 0.1 849.9 0.1 9/11/2024 8:40 1065 252.2 0.1 849.9 0.1 9/11/2024 8:40 1065 251.9 0.2 849.9 0.1 9/11/2024 8:40 1065 251.8 0 849.9 0.1 9/11/2024 8:40 1065 251.9 0.1 849.9 1.8 9/11/2024 8:41 1065 251.7 0 849.9 6.3 9/11/2024 8:41 1065 251.9 0.7 849.9 4.0 9/11/2024 8:41 1065 253.3 0.1 4.8 1.6 9/11/2024 8:41 1065 253.2 0 4.8 0.5 9/11/2024 8:41 1065 253.3 0.1 4.8 0.1 9/11/2024 8:41 1065 360.2 0.1 4.8 0.1 9/11/2024 8:41 1065 360.3 0 4.8 0.1 9/11/2024 8:41 1065 360.3 0 1.6 0.1 9/11/2024 8:41 1065 360.4 0.1 1.6 0.1 9/11/2024 8:41 1065 360.2 0.1 1.6 0.1 9/11/2024 8:41 1065 487.9 0.1 1.6 0.1 9/11/2024 8:41 1065 487.8 0 1.6 0.1 9/11/2024 8:42 1065 488 0.1 1.6 0.1 9/11/2024 8:42 1065 494.8 0.1 0.9 0.1 9/11/2024 8:42 1065 494.9 0.5 0.9 0.1 9/11/2024 8:42 1065 494.9 0 0.9 0.1 9/11/2024 8:42 1065 494.9 0.1 0.9 0.1 9/11/2024 8:42 1065 494.8 0.1 0.9 0.1 9/11/2024 8:42 1065 501.1 0.1 0.9 0.1 9/11/2024 8:42 1065 501 0 0.9 0.1 9/11/2024 8:42 1065 501.6 0.3 0.9 0.1 9/11/2024 8:42 1065 501.5 0.7 0.9 0.1 9/11/2024 8:42 1065 501.5 0.1 0.4 0.1 9/11/2024 8:42 1065 501.5 0 0.4 0.1 9/11/2024 8:43 1065 501.6 1.5 0.4 0.1 9/11/2024 8:43 1065 501.6 54.3 0.4 0.1 9/11/2024 8:43 1065 501.5 150.1 0.1 0.1 9/11/2024 8:43 1065 501.6 233.4 0.1 0.1 9/11/2024 8:43 1065 501.6 313.7 0.1 0.1 9/11/2024 8:43 1065 501.6 373.8 0.1 0.1 9/11/2024 8:43 1065 501.4 412.8 0.1 0.1 9/11/2024 8:43 1065 282.8 445.6 0.1 0.1 9/11/2024 8:43 1065 282.9 465.2 0.1 0.1 9/11/2024 8:43 1065 282.8 477.6 0.1 0.1 9/11/2024 8:43 1065 282.8 485.5 0.1 0.1 9/11/2024 8:43 1065 282.9 490.8 0.1 0.1 9/11/2024 8:44 1065 33.7 493.1 0.1 0.1 9/11/2024 8:44 1065 33.7 494.2 0.1 0.1 9/11/2024 8:44 1065 33.6 495.1 0.1 0.1 9/11/2024 8:44 1065 4.6 496.2 0.1 0.1 9/11/2024 8:44 1065 4.5 497 0.1 0.1 9/11/2024 8:44 1065 2.4 496.7 0.1 0.1 9/11/2024 8:44 1065 2.4 497 0.1 0.1 9/11/2024 8:44 1065 2.3 496.2 0.1 0.1 9/11/2024 8:44 1065 2.4 497.4 0.1 0.1 9/11/2024 8:44 1065 2.3 497.3 0.1 0.1 9/11/2024 8:44 1065 1.3 496.5 0.1 0.1 9/11/2024 8:44 1065 1.2 497.2 0.1 0.1 9/11/2024 8:45 1065 1.4 496.5 0.1 0.1 9/11/2024 8:45 1065 0.6 496.9 0.1 0.1 9/11/2024 8:45 1065 0.7 497.5 0.1 0.1 9/11/2024 8:45 1065 0.6 497 0.1 0.1 9/11/2024 8:45 1065 0.7 497.3 0.1 0.1 9/11/2024 8:45 1065 0.5 497 0.1 0.1 9/11/2024 8:45 1065 0.6 497.4 0.1 0.1 9/11/2024 8:45 1065 0.5 497.2 0.1 0.1 9/11/2024 8:45 1065 0.7 497.7 0.1 0.1 9/11/2024 8:45 1065 0.5 496.9 0.1 0.1 9/11/2024 8:45 1065 0.5 527 0.2 2.3 9/11/2024 8:45 1065 0.2 641.4 0.2 4.3 9/11/2024 8:46 1065 0.5 761.3 0.2 1.7 9/11/2024 8:46 1065 0.3 867.8 0.2 0.5 9/11/2024 8:46 1065 0.4 953.9 0.2 0.2 9/11/2024 8:46 1065 0.3 1018.9 0.2 0.1 9/11/2024 8:46 1065 0.4 1062.4 0.2 0.1 9/11/2024 8:46 1065 0.2 1089.7 0.2 0.1 9/11/2024 8:46 1065 0.4 1119.6 0.2 0.1 9/11/2024 8:46 1065 0.1 1141.9 0.2 0.1 9/11/2024 8:46 1065 0.3 1164.3 0.2 0.1 9/11/2024 8:46 1065 0.3 1178.7 0.2 0.1 9/11/2024 8:46 1065 0.3 1185.2 0.2 0.1 9/11/2024 8:46 1065 0.2 1189.4 0.2 0.1 9/11/2024 8:47 1065 0.4 1192.3 0.2 0.1 9/11/2024 8:47 1065 0.1 1194.9 0.2 0.1 9/11/2024 8:47 1065 0.1 1195.8 0.2 0.1 9/11/2024 8:47 1065 0.1 1196.2 0.2 0.1 9/11/2024 8:47 1065 0.2 1196.5 0.2 0.1 9/11/2024 8:47 1065 0.2 1196.4 0.2 0.1 9/11/2024 8:47 1065 0.1 1196.8 0.2 0.1 9/11/2024 8:47 1065 0 1196.7 0.2 0.1 9/11/2024 8:47 1065 0.2 1196.5 0.2 0.1 9/11/2024 8:47 1065 0.1 1190.3 0.2 0.1 9/11/2024 8:47 1065 0.1 1041.3 0.1 1.4 9/11/2024 8:47 1065 0.1 922.4 0.1 7.2 9/11/2024 8:48 1065 0.2 779.6 0.1 15.1 9/11/2024 8:48 1065 0.5 619.8 0.1 14.5 9/11/2024 8:48 1065 0.6 455.1 0.1 12.3 9/11/2024 8:48 1065 0.4 332 0.1 7.5 9/11/2024 8:48 1065 90.5 224 0.1 1.4 9/11/2024 8:48 1065 90.4 151.1 0.1 0.8 9/11/2024 8:48 1065 90.3 93 0.2 0.6 9/11/2024 8:48 1065 90.4 58.8 0.2 0.4 9/11/2024 8:48 1065 90.5 35.2 0.2 0.3 9/11/2024 8:48 1065 210 22 0.2 0.3 9/11/2024 8:48 1065 209.9 13.5 0.2 0.3 9/11/2024 8:48 1065 246.2 8.2 0.2 0.3 9/11/2024 8:49 1065 246.3 4.6 0.2 0.3 9/11/2024 8:49 1065 246.1 2.7 0.2 0.3 9/11/2024 8:49 1065 249 1.8 0.2 0.3 9/11/2024 8:49 1065 248.8 0.4 0.2 0.2 9/11/2024 8:49 1065 248.9 0.1 0.2 0.2 9/11/2024 8:49 1065 248.9 0 0.2 0.2 9/11/2024 8:49 1065 248.9 0.1 0.2 0.2 9/11/2024 8:49 1065 248.1 0 0.2 0.1 9/11/2024 8:49 1065 249.2 0.1 0.2 0.1 9/11/2024 8:49 1065 249.3 0.1 0.2 0.1 9/11/2024 8:49 1065 249.9 0.3 0.2 0.1 9/11/2024 8:49 1065 249.9 0.2 0.2 0.1 9/11/2024 8:50 1065 249.9 0.1 0.2 0.1 9/11/2024 8:50 1065 249.7 5.2 0.2 0.1 9/11/2024 8:50 1065 249.9 61.2 0.2 0.1 9/11/2024 8:50 1065 249.5 146.3 0.2 0.1 9/11/2024 8:50 1065 249.5 233.6 0.2 0.1 9/11/2024 8:50 1065 250.8 307.7 0.2 0.1 9/11/2024 8:50 1065 251 368.4 0.2 0.1 9/11/2024 8:50 1065 250.9 408.4 0.2 0.1 9/11/2024 8:50 1065 142 442.1 0.2 0.1 9/11/2024 8:50 1065 141.8 461.7 0.2 0.1 9/11/2024 8:50 1065 142 475.9 0.2 0.1 9/11/2024 8:50 1065 142 484.4 0.2 0.1 9/11/2024 8:51 1065 142 488.8 0.2 0.1 9/11/2024 8:51 1065 21 491.7 0.2 0.1 9/11/2024 8:51 1065 21.2 494.6 0.2 0.1 9/11/2024 8:51 1065 21.2 495.5 0.2 0.1 9/11/2024 8:51 1065 3.3 495.2 0.2 0.1 9/11/2024 8:51 1065 3.2 496 0.2 0.1 9/11/2024 8:51 1065 1 497.3 0.2 0.1 9/11/2024 8:51 1065 0.6 497.8 0.2 0.1 9/11/2024 8:51 1065 0.4 498.4 0.2 0.1 9/11/2024 8:51 1065 0.3 498.9 0.2 0.1 9/11/2024 8:51 1065 0.2 499.3 0.2 0.1 9/11/2024 8:51 1065 0.1 499.6 0.2 0.1 9/11/2024 8:52 1065 0.2 499.8 0.2 0.1 9/11/2024 8:52 1065 0.2 500.2 0.2 0.1 9/11/2024 8:52 1065 0.1 500 0.2 0.1 9/11/2024 8:52 1065 0.2 500.3 0.2 0.1 9/11/2024 8:52 1065 0.3 500.5 0.2 0.1 9/11/2024 8:52 1065 0.2 500.2 0.2 0.1 9/11/2024 8:52 1065 0.2 500.4 0.2 0.1 9/11/2024 8:52 1065 0.4 500.8 0.2 0.1 9/11/2024 8:52 1065 0.2 497.9 0.2 1.2 9/11/2024 8:52 1065 0.2 395.8 0.2 3.7 9/11/2024 8:52 1065 0.2 312.1 0.7 6.9 9/11/2024 8:52 1065 0.1 233.4 0.7 8.8 9/11/2024 8:53 1065 0.2 164.4 0.7 9.9 9/11/2024 8:53 1065 0.2 110.5 0.7 10.0 9/11/2024 8:53 1065 0.3 69.6 457.4 10.1 9/11/2024 8:53 1065 0.2 43.1 457.4 10.1 9/11/2024 8:53 1065 0.2 25.2 502.9 10.1 9/11/2024 8:53 1065 0.2 14.7 502.9 10.1 9/11/2024 8:53 1065 0.2 8.6 502.9 10.1 9/11/2024 8:53 1065 0.2 4.2 502.9 10.1 9/11/2024 8:53 1065 0.1 2 502.9 10.1 9/11/2024 8:53 1065 0.2 0.7 502.7 10.1 9/11/2024 8:53 1065 0.2 0.1 502.7 10.1 9/11/2024 8:53 1065 0.1 0.2 502.7 10.1 9/11/2024 8:54 1065 0.2 0 502.7 10.1 9/11/2024 8:54 1065 0.2 0.1 502.7 10.1 9/11/2024 8:54 1065 0.2 0 502.7 10.1 9/11/2024 8:54 1065 0.1 0.1 502.7 10.1 9/11/2024 8:54 1065 0.2 0 502.7 10.1 9/11/2024 8:54 1065 0.2 0.1 502.7 10.1 POST CAL 1 date_and_time test_number nox co voc o2 9/11/2024 10:02 1065 69.4 4.1 29.2 8.3 9/11/2024 10:02 1065 69.2 4 29.2 8.3 9/11/2024 10:02 1065 72 3.9 29.2 8.3 9/11/2024 10:02 1065 72.1 3.8 29.2 8.3 9/11/2024 10:02 1065 72.2 3.9 29.2 8.3 9/11/2024 10:02 1065 72.3 4 29.2 8.3 9/11/2024 10:02 1065 72.3 4.2 0.1 8.3 9/11/2024 10:02 1065 72.2 3.9 0.1 5.9 9/11/2024 10:02 1065 72.2 3.5 0.1 3 9/11/2024 10:02 1065 72.3 3.4 0.1 1.3 9/11/2024 10:02 1065 72.2 2.9 0.1 0.7 9/11/2024 10:02 1065 72.2 3 0.1 0.3 9/11/2024 10:03 1065 158.6 1.9 0.1 0.3 9/11/2024 10:03 1065 158.8 1.5 0.1 0.3 9/11/2024 10:03 1065 158.5 1 0.1 0.3 9/11/2024 10:03 1065 244.5 0.4 0.1 0.3 9/11/2024 10:03 1065 244.6 0 0.1 0.3 9/11/2024 10:03 1065 244.6 0.5 0.1 0.3 9/11/2024 10:03 1065 245.2 0 0.1 0.2 9/11/2024 10:03 1065 245.5 0.1 0.1 0.2 9/11/2024 10:03 1065 248.3 0.1 0.1 0.2 9/11/2024 10:03 1065 248.4 0.2 0.1 0.2 9/11/2024 10:03 1065 248.2 0.3 0.1 0.2 9/11/2024 10:03 1065 247.7 0.1 0.1 0.1 9/11/2024 10:04 1065 247.6 0 0.1 0.1 9/11/2024 10:04 1065 247.6 0 0.1 0.1 9/11/2024 10:04 1065 250.3 0.5 0.1 0.1 9/11/2024 10:04 1065 250.5 0.3 0.1 0.1 9/11/2024 10:04 1065 251 0 0.1 0.1 9/11/2024 10:04 1065 251.2 0.2 0.1 0.1 9/11/2024 10:04 1065 250.9 20.1 0.1 0.1 9/11/2024 10:04 1065 250.8 91.2 0.1 0.1 9/11/2024 10:04 1065 250.8 185.3 0.1 0.1 9/11/2024 10:04 1065 250.8 261 0.1 0.1 9/11/2024 10:04 1065 248 338.4 0.1 0.1 9/11/2024 10:04 1065 248.1 388.3 0.1 0.1 9/11/2024 10:05 1065 248.1 426.6 0.1 0.1 9/11/2024 10:05 1065 248.1 453.5 0.1 0.1 9/11/2024 10:05 1065 139.4 470.4 0.1 0.1 9/11/2024 10:05 1065 139.5 480.6 0.1 0.1 9/11/2024 10:05 1065 139.4 487.8 0.1 0.1 9/11/2024 10:05 1065 139.6 492.5 0.1 0.1 9/11/2024 10:05 1065 139.5 494.3 0.1 0.1 9/11/2024 10:05 1065 15.3 495.4 0.1 0.1 9/11/2024 10:05 1065 15.4 495.7 0.1 0.1 9/11/2024 10:05 1065 15.3 497.3 0.1 0.1 9/11/2024 10:05 1065 2.2 498 0.1 0.1 9/11/2024 10:05 1065 1.3 497.4 0.1 0.1 9/11/2024 10:06 1065 0.8 497.7 0.1 0.1 9/11/2024 10:06 1065 0.5 497.7 0.1 0.1 9/11/2024 10:06 1065 0.6 496.7 0.1 0.1 9/11/2024 10:06 1065 0.4 498 0.1 0.1 9/11/2024 10:06 1065 0.3 498.4 0.1 0.1 9/11/2024 10:06 1065 0.4 498.4 0.1 0.1 9/11/2024 10:06 1065 0.3 498 0.1 0.1 9/11/2024 10:06 1065 0.4 497.9 0.1 0.1 9/11/2024 10:06 1065 0.3 497.4 0.1 0.1 9/11/2024 10:06 1065 0.3 419.6 0.1 1.5 9/11/2024 10:06 1065 0.3 338 0.1 4.4 9/11/2024 10:06 1065 0.3 252 0.1 9.1 9/11/2024 10:07 1065 0.2 182.2 0.1 9.8 9/11/2024 10:07 1065 0.1 125.2 0.1 10 9/11/2024 10:07 1065 0.3 81 0.1 10.1 9/11/2024 10:07 1065 0.4 50.1 0.1 10.1 9/11/2024 10:07 1065 0.2 29.1 0.1 10.1 9/11/2024 10:07 1065 0.2 17.1 0.1 10.1 9/11/2024 10:07 1065 0.3 9.6 0.1 10.1 9/11/2024 10:07 1065 0.1 5 0.1 10.1 9/11/2024 10:07 1065 0.2 2.7 489.4 10.1 9/11/2024 10:07 1065 0.2 0.4 489.4 10.1 9/11/2024 10:07 1065 0.1 0 489.4 10.1 9/11/2024 10:07 1065 0.1 0.1 499.8 10.1 9/11/2024 10:08 1065 0.3 0 499.8 10.1 9/11/2024 10:08 1065 0.4 0.1 499.9 10.1 9/11/2024 10:08 1065 0.2 0.6 499.8 10.1 9/11/2024 10:08 1065 0.1 0 499.9 10.1 9/11/2024 10:08 1065 0.3 0.2 500 10.1 9/11/2024 10:08 1065 0 0.1 499.9 10.1 9/11/2024 10:08 1065 0.3 0.2 499.8 10.1 POST CAL 2 date_and_time test_number nox co voc o2 9/11/2024 11:11 1066 70.2 4 29.5 8.3 9/11/2024 11:11 1066 70.2 4.1 29.5 8.3 9/11/2024 11:11 1066 70.3 3.5 29.5 8.3 9/11/2024 11:11 1066 70.4 3.8 29.5 8.3 9/11/2024 11:11 1066 70.3 3.6 29.5 8.3 9/11/2024 11:11 1066 68.7 3.8 29.5 8.3 9/11/2024 11:11 1066 68.7 4 29.5 8.3 9/11/2024 11:11 1066 68.6 3.6 29.5 6.8 9/11/2024 11:11 1066 68.8 3.4 0.1 4 9/11/2024 11:12 1066 68.8 3 0.1 1.5 9/11/2024 11:12 1066 150.8 2.6 0.1 0.8 9/11/2024 11:12 1066 150.8 2.6 0.1 0.3 9/11/2024 11:12 1066 151 2.1 0.1 0.3 9/11/2024 11:12 1066 151 1.5 0.1 0.2 9/11/2024 11:12 1066 150.8 0.7 0.1 0.2 9/11/2024 11:12 1066 239 0.2 0.1 0.2 9/11/2024 11:12 1066 239.1 0.2 0.1 0.2 9/11/2024 11:12 1066 239 0.1 0.1 0.2 9/11/2024 11:12 1066 247.2 0.5 0.1 0.2 9/11/2024 11:12 1066 247.2 0.1 0.1 0.2 9/11/2024 11:12 1066 247.3 0.2 0.1 0.2 9/11/2024 11:13 1066 248.7 0 0.1 0.1 9/11/2024 11:13 1066 248.8 0.2 0.1 0.1 9/11/2024 11:13 1066 251.1 0.5 0.1 0.1 9/11/2024 11:13 1066 251.2 0.8 0.1 0.1 9/11/2024 11:13 1066 251.3 0.1 0.1 0.1 9/11/2024 11:13 1066 250 0.1 0.1 0.1 9/11/2024 11:13 1066 250 0 0.1 0.1 9/11/2024 11:13 1066 249.9 0.2 0.1 0.1 9/11/2024 11:13 1066 250 0.5 0.1 0.1 9/11/2024 11:13 1066 250 0.1 0.1 0.1 9/11/2024 11:13 1066 252.3 0.1 0.1 0.1 9/11/2024 11:13 1066 252.5 26.5 0.1 0.1 9/11/2024 11:14 1066 253.4 103.8 0.1 0.1 9/11/2024 11:14 1066 253.3 197.3 0.1 0.1 9/11/2024 11:14 1066 253.4 273.6 0.1 0.1 9/11/2024 11:14 1066 256.7 346.5 0.1 0.1 9/11/2024 11:14 1066 256.6 391.2 0.1 0.1 9/11/2024 11:14 1066 142.7 430.2 0.1 0.1 9/11/2024 11:14 1066 142.8 455.2 0.1 0.1 9/11/2024 11:14 1066 142.7 472.6 0.1 0.1 9/11/2024 11:14 1066 142.8 483.2 0.1 0.1 9/11/2024 11:14 1066 142.8 488.6 0.1 0.1 9/11/2024 11:14 1066 142.6 491.2 0.1 0.1 9/11/2024 11:14 1066 13.8 494 0.1 0.1 9/11/2024 11:15 1066 13.9 496.5 0.1 0.1 9/11/2024 11:15 1066 3.4 496.5 0.1 0.1 9/11/2024 11:15 1066 0.6 496.8 0.1 0.1 9/11/2024 11:15 1066 0.5 497.2 0.1 0.1 9/11/2024 11:15 1066 0.3 497.4 0.1 0.1 9/11/2024 11:15 1066 0.4 496.9 0.1 0.1 9/11/2024 11:15 1066 0.2 497.7 0.1 0.1 9/11/2024 11:15 1066 0.3 497.2 0.1 0.1 9/11/2024 11:15 1066 0.1 498 0.1 0.1 9/11/2024 11:15 1066 0 498.4 0.1 0.1 9/11/2024 11:15 1066 0.2 498.4 0.1 0.1 9/11/2024 11:15 1066 0 498.4 0.1 0.1 9/11/2024 11:16 1066 0.1 497.7 0.1 0.1 9/11/2024 11:16 1066 0.1 431 0.1 0.8 9/11/2024 11:16 1066 0.1 352.1 0.1 6.3 9/11/2024 11:16 1066 0.1 262.5 0.1 8.6 9/11/2024 11:16 1066 0.3 194.7 0.1 9.6 9/11/2024 11:16 1066 0.3 132.3 0.1 9.9 9/11/2024 11:16 1066 0.3 86 0.1 10.1 9/11/2024 11:16 1066 0.5 53.3 0.1 10.1 9/11/2024 11:16 1066 0.3 32 0.1 10.1 9/11/2024 11:16 1066 0.3 19 0.1 10.1 9/11/2024 11:16 1066 0.3 10.7 0.1 10.1 9/11/2024 11:16 1066 0.6 5.5 0.1 10.1 9/11/2024 11:17 1066 0.3 2.6 93.4 10.1 9/11/2024 11:17 1066 0.4 0.8 492.5 10.1 9/11/2024 11:17 1066 0.3 0.1 492.4 10.1 9/11/2024 11:17 1066 0.3 0.1 501.3 10.1 9/11/2024 11:17 1066 0.3 0.2 501.3 10.1 9/11/2024 11:17 1066 0.2 0 501.3 10.1 9/11/2024 11:17 1066 0.1 0 501.4 10.1 9/11/2024 11:17 1066 0.3 0 501.3 10.1 9/11/2024 11:17 1066 0.2 0.1 501.3 10.1 9/11/2024 11:17 1066 0.2 0.4 501.4 10.1 9/11/2024 11:17 1066 0.4 0 501.3 10.1 POST CAL 3 date_and_time test_number nox co voc o2 9/11/2024 12:20 1067 69 3 1.8 8.4 9/11/2024 12:20 1067 69 3.2 1.8 8.4 9/11/2024 12:21 1067 69.3 3 1.8 8.4 9/11/2024 12:21 1067 69.3 3.3 1.8 8.4 9/11/2024 12:21 1067 69.2 3 0.7 8.4 9/11/2024 12:21 1067 69.2 3.1 0.7 8.4 9/11/2024 12:21 1067 69.1 3 0.7 8.4 9/11/2024 12:21 1067 69.1 3.2 0.7 8.4 9/11/2024 12:21 1067 69.2 3.5 0.7 7.8 9/11/2024 12:21 1067 68.3 2.8 0.7 2.8 9/11/2024 12:21 1067 68.3 2.8 0.7 1 9/11/2024 12:21 1067 68.4 2.2 0.7 0.5 9/11/2024 12:21 1067 153.3 1.9 0.1 0.3 9/11/2024 12:21 1067 153.2 1.8 0.1 0.2 9/11/2024 12:22 1067 153.2 0.8 0.1 0.2 9/11/2024 12:22 1067 153.3 0.6 0.1 0.2 9/11/2024 12:22 1067 153.2 0.1 0.1 0.2 9/11/2024 12:22 1067 153.1 0.3 0.1 0.2 9/11/2024 12:22 1067 153.3 0.1 0.1 0.2 9/11/2024 12:22 1067 245.3 0.4 0.1 0.1 9/11/2024 12:22 1067 245.2 0.1 0.1 0.1 9/11/2024 12:22 1067 245.4 0.3 0.1 0.1 9/11/2024 12:22 1067 250.9 0.5 0.1 0.1 9/11/2024 12:22 1067 250.8 0.5 0.1 0.1 9/11/2024 12:22 1067 250.9 0.1 0.1 0.1 9/11/2024 12:22 1067 251.4 0.2 0.1 0.1 9/11/2024 12:23 1067 251.6 0.1 0.1 0.1 9/11/2024 12:23 1067 252.2 0.2 0.1 0.1 9/11/2024 12:23 1067 252.1 0.1 0.1 0.1 9/11/2024 12:23 1067 252.1 0.9 0.1 0.1 9/11/2024 12:23 1067 252.5 5.9 0.1 0.1 9/11/2024 12:23 1067 252.6 61.8 0.1 0.1 9/11/2024 12:23 1067 252.5 155.2 0.1 0.1 9/11/2024 12:23 1067 252.4 237.9 0.1 0.1 9/11/2024 12:23 1067 252.6 315.3 0.1 0.1 9/11/2024 12:23 1067 173.9 375.6 0.1 0.1 9/11/2024 12:23 1067 173.9 413.7 0.1 0.1 9/11/2024 12:23 1067 173.8 447 0.1 0.1 9/11/2024 12:24 1067 173.9 466.6 0.1 0.1 9/11/2024 12:24 1067 173.9 479 0.1 0.1 9/11/2024 12:24 1067 49.9 485.7 0.1 0.1 9/11/2024 12:24 1067 50 491 0.1 0.1 9/11/2024 12:24 1067 49.8 494 0.1 0.1 9/11/2024 12:24 1067 49.8 496.2 0.1 0.1 9/11/2024 12:24 1067 49.9 496.8 0.1 0.1 9/11/2024 12:24 1067 3.5 497.4 0.1 0.1 9/11/2024 12:24 1067 3.6 497.5 0.1 0.1 9/11/2024 12:24 1067 3.5 498.3 0.1 0.1 9/11/2024 12:24 1067 1.3 498.4 0.1 0.1 9/11/2024 12:24 1067 1.3 498.8 0.1 0.1 9/11/2024 12:25 1067 1.3 499.1 0.1 0.1 9/11/2024 12:25 1067 0.8 498.7 0.1 0.1 9/11/2024 12:25 1067 0.8 498.5 0.1 0.1 9/11/2024 12:25 1067 0.7 498.6 0.1 0.1 9/11/2024 12:25 1067 0.8 498.7 0.1 0.1 9/11/2024 12:25 1067 0.4 463.7 0.1 0.6 9/11/2024 12:25 1067 0.4 384.3 0.1 2.7 9/11/2024 12:25 1067 0.4 301.9 0.1 8.6 9/11/2024 12:25 1067 0.4 220.5 0.1 9.6 9/11/2024 12:25 1067 0.5 156.5 0.1 9.9 9/11/2024 12:25 1067 0.4 102.7 0.1 10 9/11/2024 12:25 1067 0.5 66 0.1 10.1 9/11/2024 12:26 1067 0.5 39.6 0.5 10.1 9/11/2024 12:26 1067 0.4 24.2 0.5 10.1 9/11/2024 12:26 1067 0.4 13.6 0.5 10.1 9/11/2024 12:26 1067 0.3 7.5 0.5 10.1 9/11/2024 12:26 1067 0.3 3.8 0.5 10.1 9/11/2024 12:26 1067 0.4 1.4 0.5 10.1 9/11/2024 12:26 1067 0.3 0.3 56.4 10.1 9/11/2024 12:26 1067 0.3 0.8 493.8 10.1 9/11/2024 12:26 1067 0.3 0.2 493.5 10.1 9/11/2024 12:26 1067 0.3 0.6 498.7 10.1 9/11/2024 12:26 1067 0.4 0.2 498.7 10.1 9/11/2024 12:26 1067 0.3 0.3 498.8 10.1 9/11/2024 12:27 1067 0.4 0.5 498.7 10.1 9/11/2024 12:27 1067 0.3 0.1 498.9 10.1 9/11/2024 12:27 1067 0.2 0.2 498.8 10.1 9/11/2024 12:27 1067 0.4 0 498.7 10.1 9/11/2024 12:27 1067 0.4 0.2 498.9 10.1