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Home My WebLink AboutDAQ-2025-0005161 DAQC-086-25 Site ID 10209 (B4) MEMORANDUM TO: STACK TEST FILE – KINDER MORGAN ALTAMONT LLC – East Compressor Station THROUGH: Harold Burge, Major Source Compliance Section Manager FROM: Robert Sirrine, Environmental Scientist DATE: January 10, 2025 SUBJECT: Location: East Compressor Station near Altamont, Duchesne County, Utah Contact: Erin Dunman – 303-914-7605 Tester: Engineering and Technical Services – Emissions Testing Group Source: Engine Unit CE-5 FRS ID#: UT0000004901300039 Permit# TV Permit 1300039005 dated June 16, 2022, revised February 20, 2023 Action Code: Tr Subject: Review of Stack Test Report received December 31, 2024 On December 31, 2024, the Utah Division of Air Quality (DAQ) received (via email) a stack test report for the Kinder Morgan Altamont – East Compressor Station, Unit CE-5 natural gas compressor engine located near Altamont, Utah. Testing was performed on November 5, 2024, to demonstrate compliance with the NOX, CO, and VOC emission limits found in permit Conditions II.B.9.a, and 40 CFR 60 Subpart JJJJ. The DAQ results are: Source Test Date RM/Pollutant DAQ Result Tester Result Limit CE-5 11/5/24 7/NOX 0.85 lb/hr 0.85 lb/hr 3.70 lb/hr 18 ppmvd* 18 ppmvd* 82 ppmvd* 0.3 g/BHP-Hr 0.3 g/BHP-Hr 1.0 g/BHP-Hr 10/CO 0.89 lb/hr 0.89 lb/hr 7.41 lb/hr 31 ppmvd* 31 ppmvd* 270 ppmvd* 0.3 g/BHP-Hr 0.3 g/BHP-Hr 2.0 g/BHP-Hr 6348**/VOC 0.15 lb/hr^ 0.15 lb/hr^ 0.59 lb/hr^ 3 ppmvd* 3 ppmvd* 60 ppmvd* 0.0 g/BHP-Hr 0.0 g/BHP-Hr 0.7 g/BHP-Hr **ASTM D6348-03, *@15% Oxygen ^Permit required VOC as propane + CH2O, Subpart JJJJ requires that CH2O not be included as a VOC for the limits of ppmdv and g/BHP-Hr * - / $ - - $ ) 2 DEVIATIONS: None noted. CONCLUSION: VOC as propane and total VOC + CH2O was determined using method ASTM D6348-03. All stipulated QA/QC requirements appear to have been met as determined by a review of the report and entering the VOC data into the excel spreadsheet minus calibration bias check. The lb/hr limits are specified in their Title V Permit and the ppmdv @15% O2 and g/BHP-Hr limits are contained in 40 CFR 60 Subpart JJJJ. The KMA East engine CE-5 NOX, CO, and VOC emissions test report appears to be acceptable. RECOMMENDATION: Unit CE-5 should be considered to have been in compliance with the NOx, CO, and VOC applicable missions limits at the time of the test. HPV: No. ATTACHMENTS: KMA East CS stack test report received December 31, 2024 DAQ generated excel spreadsheets. FedEx 2835 2945 4771 Harold Burge, Manager Major Source Compliance Section Utah Division of Air Quality 195 North 1950 West,4th Floor Salt Lake City, UT ffnder Morgan Altamont LIC Altamont East Comprusor Station, Title V Permit 130m39005 Engine CE-5, Emission Test Report LTTAH DEPARruENT OF ENVIRONMENTAL OUruTY !- -,1 D;.''S;ON OF AIR QUALIT, Dear Mr. Burge, As required by Condition ll.B.9.a. of Title V Operating Permit 1300039005, Kinder Morgan Altamont LLC conducted initial emission testing on engine CE-5 at Altamont East Compressor Station to demonstrate compliance with applicable emission limits and standards listed in Condition ll.B.9.a(1) of the referenced Title V Operating Permit. The compliance testing was conducted on November 5,2024 and followed Emission Test Protocol dated August 19, 2024. Attached is a report from the test for your review. As demonstrated in the attached report, Engine CE-5 tested below permit emission limits and applicable emission standards specified in 40 CFR 50 subpart JJJJ. Testing was conducted while the source was operating at the rate and/or conditions specified in the applicable approval order, operating permit, or federal regulation. During testing, the source combusted fuels, used raw materials, and maintained process conditions representative of normal operations, and operated under such other relevant conditions specified by the Director. Based on information and belief formed after reasonable inquiry the statements and information contained in the report are true, accurate, and complete. Please contact David De Cesari at (713) 420-5311 or via email at David_DeCesari@kindermorgan.com if you have any technical questions related to the attached emission test report. You may contact Erin Dunman at (303) 914- 7605 or at Erin_Dunman@kindermorgan.com with other questions related to air permit compliance for this facility. Don Perkins Director, Operations KTNDEFI-JMORGAN 7 ALrAmoNr LLc Enclosures - Emissions Test Report cc: Mechanical Testing File # 24-168 KINDEntnoncAx-/ ALTAHoNT LLc Emissions T$ting Group 1001 Louisiana St., Suite '1000 Houston, TX77oo2 Emissions Test Report One (1)\Ahukesha LTOI4GSI NatrralC,as Fired Ergire UnitCE-5 Title V Operating Permit Number 1300039005 Emissions Testing Group File #24-168 Test Date: November 5,2024 l(nder Morgan Altamont LLC East Com pressor Station Duchesne fuunty, UT Date: Prepared for: Prepared by: Reviewed by: December 1Or 2o24 Utah Department of Environmental Quality (UDEA) Division of Air Quality (DAO) David De Gesari Emissions Testing Group (7131420-5311 Johndunn Johnston Emissions Testing Group (713) 42O-33sO Table of Gontents INTRODUCTION.... EMSSTONS GROUP IMORMATION.................. ........................2 RESI,LTS EMISSIONS SAMPLING PROCESS ......................4 GENERAL TESTING PROCEDURE ......................6 EPA REFERENCE AND ASTM METHODS ..........,......,..............6 METHOD3,A. INSTRUMENT CFIECKS AND CALIBRATIONS........... ............8 EPA PRorocol GASES (40CFR60, AppEnox A - M78.7 .l)........... ................... 8 IN"TERTERE\CE nrsroNse (40CFR60, AppElrDx A - M7E.8.2.7) ................ ............................... 8 ANaryzsn CelrBRAnoN ERRoR TESr (40CFR60, AppENDx A -M7E.8.2.3) ......................... 8 NO2 ro NO Col.rvERSroN EFFTCTENCY (40CFR60, APPENDD( A - M7E.8.2.4)..... ...................... 8 RESPoNSE TING TEsr (40CFR60, AppENDx A-M78.8.2.6).. ............................9 SysrEM BrAs Cmcr (40CFR60, Areruox A-M7E.8.2.5 & M78.8.5)... ................................9 VOC AND CHzO DetsRvmrnrroN............... ............................... l0 SAMpLE LocATroN AND SEr-tp ..........................12 DETERrvfi.JAnoNoFSrRArFrcAnoN(40CFR60,AppENoxA-M7E.8.1.2) . .... . .... CALCIJ'LATIONS CONCENTRATION CORRECTION........... ..,,..... 13 15% oxYGEN CORR8CTION.................... ......... 14 MASS EMSSION CALCLTLATIONS, METHOD 19.................... .....................15 ASTM D6348 EQUAIONS .......... 16 M$refl,'tvt DETECTABLE CoNcmrrRa1oN................... ............... 16 REFERENCE CELL ABSORPTION PATH LENGTH ........................... 17 SA.r/pLE CELL ABSoRprroN PATH L${GTH.. ............................... l8 WET _ DRY PoLLL"TANT CONCENTRATION CoRRECnoN ..........20 VOC CALCT,'I-ATIoNS By RESPoNSE FACTORS... .........................20 t2 t2 t2 l3 APPENDtx 2l List of Figures Figure l: Sample System Schematic List of Tables Table 1: Engine Detail I Table 2: Emission Units and Requirements I 3 5 Table 3: Emission Unit & Summary Results for Unit CE-5 Table 4: Available Instrumentation.................... List of Equations Equation 1: Bias Correction Calculation Equation 2: EPA Fuel Specific Fd factor 3 4I Equation 3: Emissions Corrected to L1o/o Oxygen t4 15 l5 Equation 4: Mass f,mission Rate Qb/hr) Equation 5: Mass Emission Rate (g/bhphr) Equation 6: Noise Limited Vlinimum Detectable Concentration #1 ................I I I I 6 6 7 7 8 E 9 9 Equation 7: Analytical Minimum Detectable Concentration #2................ .......... I Equation 8: Analytical iVlinimum Detectable Concentration #3................ .......... I Equation 9: Reference Cell Path Length Equation 13: Spike Recoveryr Percent Equation 14: Moisture Corrected Concentration 20 20 20 20 Equation 15: VOC as Methane by Response Factors............... Equation 16: VOC as Propane.... Equation 17: Total VOC for Approval Order Permit Limits........... Hfoauctbn The Company's Emissions Testing Grcup (ETG) conducted souroe emissions testing at the Kinder Morgan Altamont LLC East Compressor Stration in fulfillment of the State of Utah Department of Environrnental Quality (UDEO) Title V Operating Permik"l{urnber 1300039005. Thepurposeofthistestistodemonstratemmpliancewithpermittedemission limiB and 40CFR60 Subpart JJJJ ficrthe unit listed belorv, Table I and Table 2 present the emission units and species that were measured during the testing along with applicable permit limits. All testing was conduded in accordance wlth Environmental Protec'tion Agency (EPA)test methods as described in 40CFR60, Appendix A, and the test protocol dated August 19,2024. Concentrations of Volatile Organic Compounds (VOC) and Formaldehyde (CHzo) werc determined using an FTIR folloring ASTM D6348 as allorued by 40CFR60 Subpart JJJJ. Non-methane non-ethane VOC is rcported on a propane basis. Formaldehyde emissions are excluded f,cr the purpose of compliance demonstration with 40CFR60 Subpart JJJJ standards (VOC) but are included ficr the purpose of compliance with VOC permit limits ffotalVoc). Unit CE-S was tested on November 5,2024. David De Cesari and John Wllis conduc'ted the test. Table 1: Engine Detail Table 2: Emisslon Units and Requirements Title V Operating Permit Number 1300039005 Title V Operating Permit Number 1300039005 40CFR60 Subpart JJJJ Tille V Operating Permit Number 1300039005 r.:: I q i*il;11 FACILITY INFORMATION Facility: Kinder Morgan Altamont LLC East Compressor Stiation Duchesne Couty, UT GPS Coordinates: LAT 40.359278 LONG -110.249692 Erin Dunman Air Compliance 1667 Cole Blvd., Suite 300 Lakewood, CO 8M01 Erin_Dunman@kindermorgan.com (303) 914-7605 David De Cesari Emissions Testing Group David_Decesari@kindermorgan.com (713) 420-s311 EM ISSIONS GROUP INFORMATION Facility:Emissions Testing Group Contact: 1001 Louisiana St., Suite 1000 Houston, TX77002 T6tSumnrary The exhaust gases from the unit were sampled continuously for three (3) runs at the highest achievable operating load. There were no starts, stops, upsets or malfunctions that occurred of process, control equipment, or monitoring equipment during testing. Summaries of results from the unit are presented in Table 3. The three run average below shows that the unit tested below the emission limits. Detailed summaries of the test results are included in the APPENDIX. RESULTS Table 3: Emission Unit & Summary Results for Unit CE-S Emissions Summary For Emissions Test Report - CE-s Date tu05t24 Average Permit f .imitsParameterRun I Run 2 Run 3 Time lO:32 12:05 13:27 Speed (RPM) Load (%) Fuel Flow (SCFH) I .145 1,422 84.6 I t.4t7 t.t45 1,41 8 84.4 1,145 1,419 84.4 I 1,588 NO- (oomvd (4.15Yo O"\l8 l8 18 l8 82 NO- (LB/HR)0.82 0.85 0.87 0.85 3.70 NO. (g/BHP-HR)0.3 0.3 0.3 0.3 1.0 CO CO (ppmvd @ 15Yo O.)3l 30 31 31 270 CO (LBIFIR)0.89 0.86 0.90 0.89 7.41 Co (P/BHP-HR)0.3 0.3 0.3 0.3 2.0 voc VOC (ppmvd @,15Yo O.\,3 3 3 60 VOC (g/BHP-HR)0.0 0.0 0.0 0.0 o.7 VOC + CH,O VOC + CH,O (LB,tlR)0.1 5 0.1 5 0.15 0.1 5 0.s9 o2 O" 9o Bias Corrected)o.oolo.oolo.oolo.oo Emissions Sampling Process PROCESS DESCRIPTION The Waukesha L7044GSl (1,680 hp) reciprocating compressor engine is a four stroke, rich burn, natural gas fired internal combustion engine, equipped with an NSCR catalyst, driving gas compressors. The energy released during the combustion process drives gas compressors, raising the pressure of the incoming gas from an initial "suction" state to a more compressed "discharge" state. EMISSIONS TESTVEHICLE The ETG has conducted emission tests on reciprocating engines and turbines for many years. This testing experience has enabled the ETG to design and assemble an accurate and versatile emissions test vehicle (ETV). The ETV is one of three environmentally controlled box trailers housing all analyzers, computers and auxiliary equipment. A Data Acquisition Control System (DACS) scans instrument outputs and the data is transferred to a computer for analysis and storage. The computer monitors the readings in real-time and outputs the data averages to a video monitor and the hard drive. The readings are recorded and represented in Central Standard Time (CST) due to our headquarters located in Houston, Texas. SAMPLING SYSTEM Continuous analyzers were used to determine the oxides of nitrogen (NOx), carbon monoxide (CO), non-methane, non-ethane, excluding formaldehyde volatile organic compounds (VOC) and formaldehyde (CHzO) and orygen (Oz) emission concentrations. Available instrumentation and analyzers are listed in Table 4. Brand names and specific models are for reference only and instruments of equal nominal performance may be substituted from time to time. Exhaust gas enters the system through a stainless steel probe and a 3-way sample valve assembly. The sample is transported via a heat-traced Teflon sample line through a stainless steel sample pump and into a minimum contact condenser specially designed to dry the sample. The sample is then passed through 3/8" Teflon tubing to a Balston Microfiber coalescing filter and then to the sample manifold. The sample manifold is maintained at a constant pressure by means of a pressure bypass regulator. Stainless steel needle valves control the sample flow to each analyzer. See Figure 1 for the flow schematic. For the FTIR analyzer, the exhaust gas is brought into the trailer through the same stainless steel probe and $way sample valve, however, it is next directed through a heated sample line to the FTIR hotbox where the temperature, pressure and flqr rate are kept constant by way of a pressure regulator, temperature controller and needle-valve flow meter until the sample enters the analyzer. Afterthe sample has passed through the analyzer, it is purged outside of the trailer. See Figure I for the flow schematic. ()--! sl-r!<- L EG END Pump F l,lo"rln"',"0 ,9-_ 5.waY vare . a P I Prsssurac,uoe Snap F rrlng -1><- dano v atso \-,-' il;,1;o'' _6f- 81",ffi;: .pp F'owuere, s oreno id -qf- t-w ay v ave -fl- orsrFrn'r 4-..- !311i1".." Figure 1: Sample System Schematic Table 4: Available lnstrumentation Paramaters tlanufacturcr modol Detecton ftincipls Range NOx Thermo Fisher Scientific 42i Thermal reduction of NOz to NO. Chemiluminescent reaction of NO with O: Variable to '10.000 oom CO Teledyne T3OOM NDIR with Gas Filter Conelation Variable to 10,000 oom VOC / CHzO MAX iR Fourier Transform I nfrared Soectroscoov Oz Servomex 4900 Paramaqnetic O lo 25o/o Barometnc Pressure Rosemount 3051 20 - 31 "Hg WEUDry Tempemture Humiditu Vaisala Model HMP 233 40 "F to 140'F 0o/o '1OOo/o General Testing Procedune EPA Reference methods as described in 40CFR60, Appendix A, and ASTM D6348 designations were followed in the conduct of this testing. Calibration and test procedures were detailed under their respective sections of the emissions test protocol dated 08/19/2024. All emission species were measured post-catalyst. Concentrations of NOx were determined by the procedure described in 40CFR60, Appendix A, Method 7E. Concentrations of CO were determined by the procedure described in 40CFR60, Appendix A, Method 10. Dilution concentration of exhaust orygen was determined by the procedure described in 40CFR60, Appendix A, Method 3A. Determination of exhaust effluent flow and mass emission rates were determined by the procedure in 40CFR60, Appendix A, Method '19. Compliance with VOC and CHzO were determined using an FTIR following ASTM D6348 as allowed by 40CFR60 Subpart JJJJ. EPA REFERENCE AND ASTM METHODS Memoo 1 "Sample and Velocity Traverses for Stationary Sources" The objective of Method 1 is to determine the selection of sampling ports and traverse points for a representative velocity measurement. Method 1 entails selecting sampling ports at least two stack diameters downstream and a half diameter upstream from any flow disturbance. Based on the upstream and downstream measurements of a flow disturbance, a selection of minimum traverse points was selecled. Method 1 was performed on the engine. A diagram is found in the APPENDIX. Meruoo 3A "Determination of Oxygen and Carbon Dioxide Concentrations rn Emrbsions from Stationary Sources (lnstrumental Analyzer Procedure)" The objective of Method 3A is to determine the Oz concentrations from the source. Method 34 entails extraction of a gas sample from a stationary source and routing the sample through a conditioning system to an analyzer for the measurement of Oz in percent. Method 34 testing was performed on the engine for the determination of Oz. The calibration enor, system bias and system drift data were within the tolerances of the method. The previously mentioned data and the testing data were recorded on a DACS. Calibrations and test results are found in the APPENDIX. Memoo4 "Determination of Moisture Content in Stack Gases" The objective of Method 4 is to determine the moisture content of stack gas. Section 16.3 of this method allons the use of an FTIR as an acceptable alternative to determine stack gas moisture. Mentoo 7E "Determination of Nitrogen Oxides Emissions from Stationary Sources (lnstrumental AnalVer Procedure)" The objective of Method 7E testing is to determine the NOx concentration from the source. Method 7E entails extraction of a gas sample from a stationary source and routing the sample through a conditioning system to an anaiyzer for the measurement of NOx (NO and NOz) in ppmvd. Method 7E testing was performed on the engine forthe determination of NOx. The calibration error, system bias and system drift data were within the tolerances of the method. The previousiy mentioned data and the testing datia were recorded on a DACS. This data and test results are ficund in the APPENDIX along with NOx converter check resuhs and calibration gas certificates. Menpo 1O "Determination of Carbon Monoxide Emrssrons from Stationary Sources (lnstrumental Analyzer Procedure)" The objective of Method 10 is to determine the CO concentrations from the source. Method 10 entails eXraction of a gas sample from a stationary sourrc and routing the sample through a conditioning system to an analyzer for the measurement of CO in ppmvd. Method 10 testing was performed on the engine for the determination of CO. The calibration error, system bias and system drift data were within the tolerances of the method. The previously mentioned data and the testing data were recorded on a DACS. Calibrations and test results are found in the APPENDIX. Menroo19 "Determination of Suffur Dioxide Removal Efficiency and Particulate Malter, Sulfur Dioxide, and Nitrogen Oxide Emission Rates' The objective of Method 19 testing is to determine the emissions exhaust flow. Method 19 entails a NOx emission rate determined by an Orygen-Based F-Factor on a dry basis. An F-Factor is the ratio of gas volume of the products of combustion to the heat content of the fuel. Method 19 testing was performed on the engine for the determination of NOx emission rates. The NOx pollutant concentration, dry F-Factor and percent of dry Orygen concentration were collected and calculated for the method. Test results are found in the APPENDIX along with the emission rate formulas found in and Equation 4 and Equation 5.1 ASTM D6344 "Determination of Gaseous Compounds by Extnctive Direct lnterface Fourier Transtorm lnfrared (FTIR) Specfroscopy" The objective of ASTM D6348 is to determine the VOC and CHzO concentrations from the source. ASTM D6348 entails extraction of a gas sample from a stationary source and routing the sample through a heated system to an FTIR for measurement. ASTM 06348 testing was performed on the engine for the determination of VOC and CHzO in ppmvd. The acetaldehydefiracer spike, recovery analysis and minimum detectible concentration for VOC and CHzO were within the tolerances of the method. The previously mentioned data and the testing data were recorded on FTIR softr,vare. Calibrations and test results are found in the APPENDIX. 1 The same exhaust iortr calculation was used for CO and Total VOC. 7 I NSTRUMENT CH ECKS AN D CALIBMTIONS The folloaring instrument checks and calibrations guarantee the integnty of our sampling system and the accuracy of our datia. EPA PRorocol Gases (4(rcFR6O, ArFEr\rDD( A - MTE.7.1I Calibration sheets for EPA Protocol 1 calibration gases are included in the APPENDIX. IurenrensrcE REsFor{sE (4{IGFR6O, Aneexox A - MTE.8^Z.[ Vendor instrument data concerning interference response in the NOx, CO and 02 ana[yzers are included in the APPENDIX. Analyzn CauBRATrottr ERRoR TEsr (4{)CFR6O, AppE{DD( A - M7E823) The measurement system was first prepared for use. Each analyzer was set to the correct response and that response was recorded by the data acquisition system. A calibration curve was established to convert each analyzer's response to equivalent gas concentrations as introduced to each analyzer. Then zero, mid and high calibration gases were introduced without adjustment to the analyzers and their responses was recorded. These linearity checks were performed daily, and these responses were considered acceptable within +l- 2 percent of the span. This curve remained unchanged throughout the test. The analyzer calibration checks (linearity) sheets are included in the APPENDIX. NOz ro NO @uvenspir EFFrcENcy (4OCFR6O, ArpErDx A -VflE,BzAl An NOz to NO conversion efiiciency test was performed on the day of testing folloruing the procedure descnbed in 40CFR60, Appendix A, Method 7E Section 8.2.4.1. The results of the conversion efficiency test are included in the APPENDIX. Sarupr- Lrxe l-elx Gmecr< The sample line was leak checked before and after the test by closing the calibration valve assembly while the sample pump is operating. Once the maximum vacuum is reached (approximatety 12 - 15 inches of mercury) the valve on the pressure side of the pump is closed (See Figure 1)thus sealing offthevacuum section of the sampling system. The leak tests for each unit were considered acceptable if the vacuum gauge reading drops by an amount less than 1 inch of mercury over a period of 1 minute. The results of the sample line leak checks are included in the APPENDIX. tlEspoNsE TIME TEsr (4OGFR6O, AppEuDD( A- M7E&26) Before sampling began, it was determined the midJevel calibration gas best approximated the emissions and was the more appropriate gas to be used as the upscale gas. A response time testwas performed by first introducing the zero gas into the sample system at the outlet of the probe untilall readings are stable. The calibration valve was then switched to sample the upscale gas at the outlet of the probe until a stable reading is obtained, within 95% of the certified value of the upscale gas. The upscale response time was then recorded. Next, the lonJevel gas was introduced in the same manner as the upscale gas. Once a stable reading is noted, within 5% of the certified value of the upscale gas, the downscale response time was recorded. This process was completed once per anatyzer to determine upscale and downscale responses. The greater of the upscale or dorynscale response was classified as the response time and all test points were monitored for a period of time at least twice the response time. The results of the response time tests are included in the APPENDIX. Svsreu Btns CHEo( (4(rcFR6O, A,pE{Dx A- M7E825 & M7E85) Before sampling began, the upscale gas was determined as mentioned in the Response Irme Iesf section. The system bias check was conducted once prior to and once follottting the test runs of the series and consists of first introducing the NOx analyze/s upscale gas directly at the analyzer. The analyzer was allowed to stabilize and the reading noted. The same gas was then introduced at the probe, passing through the entire sample train to the analyzer and the reading noted. The resulting readings indicate any bias attributed to the sample train. This process was repeated with the NOx analyze/s low gas. The bias check was acceptable if the direct gas reading of the analyzer is within +l- 5o/o of the complete sample train reading of the analper [per 7E.13.21. This same procedure was repeated for CO and Oz analyzers. Sample system bias check forms are included in the APPENDIX. Bias checks before and after each test run of the series are used to determine a zero and span drift for the NOx, CO and 02 analyzers. The zero and span drift for the test run period was less than +/- 3 percent of the span value for each of the analyzers [per 7E.1 3.3]. The system bias (drift) checks sheet for each test are included in the APPENDIX. VOG and CHd) Determination VOC and CHzO were determined using ASTM D6348. The instrumentation for this test program was an MAX-iR FTIR analyzer. To determine compliance with the emission standard the, FTIR was used to measure the pollutant concentration on a wet basis then convert the concentration to a dry basis using the FTIR moisture determined dunng the run. Target Analytes include but are not limited to: Data Qual ity Objectives Accuracv: The accuracy of the measurements were ensured by performing analyte spiking, priorto the test series, in which spike recoveries met +l-3Oo/o of predicted value (see ASIM D6348 EQUATIONS sectrbn below). Precision: The precision of the measurements were ensured by consecutive Calibration Transfer Standard (CTS) analysis, performed pnor to and following the test series, in which measured values met +/- 5% of certified value. Test Runs: Three test runs, each 60 minutes in duration were collected The QA/QC checks outlined belor were performed on the anatyzer. 2 Acetaldehyde was used as a sunogate for VOC and CHzO during spike and recoveries. 3 CFr was used as a tracer gas for acetjaldehde spiking. a Ethylene was utilized as a Calibration TransEr Standard (CTS). lo Pre-test Analysis the parameters outlined in Annex A-2 of Method ASTM D6348. D6348. was determined. sampling and analytical system for transporting and quantifying the target analytes. This technique followed procedures outlined in Annex A-5 of Method ASTM D6348. outlined in Annex A-6 of Method ASTM D6348. Noise Equivalent Analysis (NEA) Line Position Resolution Linearity A commercially prepared spectral library was utilized for quantification of collected sample spectra. As such, the resolution, line position and apodization function used for the reference spectra were the same for field spectral data. Field Sampling & Analysis Post-test Analysis Following data collection, the following checks was performed again for verification against pre-test values: identified in Annex A-8 of Method ASTM D6348 P 11 EMISSIONS TESTING SatvIPT.E I-oGArPN AIID SET.r,P A single point probe consisting of 3/8 inch stainless tubing open at one end was used to collect the sample. The sampling point in the exhaust stack was at least eight stack diameters downstream from any disturbance and at least two stack diameters upstream from any disturbances as specified in Method 1, 40CFR60, Appendix A. to ensure a high integrity sample from the engine's exhaust. Ilermrulranon (lr StrRATrFrcATroN (4OGFR6O, Alns{rD( ^ - M7E8.f 2) A stratification check was performed on unit CE-5 using the sample probe. Three points on a line passing through the centroidal area were used, spaced al 16.7%, 50.0% and 83.3% of the measurement line. The sampling time was at least twice the system response time at each traverse point. Reciprocating lntemal Combustion Engines witfi Gircular Stacks For exhaust stacks larger than four inches in diameter, a stratification check was performed before the flrst run of each test. ln orderto ascertain the presence or absence of stratification on engines with circular stacks, exhaust concentrations of Oz were measured at three points on a line passing through the centroidal area of the exhaust stack. The mean concentrations were used to determine the amount of stratification. The concentration at each traverse point differs from the mean concentration for all traverse points by no more than t 0.3% difference of mean concentration, the gas stream was considered unstratified and samples were collected ftom a single point that most closely matches the mean. RJELGASANALYSIS A fuel gas sample was taken during the testing. The sample was analyzed by a pipeline gas chromatograph. This analysis gives the actual specific gravity and BTU so that fuel flow and mass emissions are accurately calculated. The test summary for the analysis is included in the APPENDIX. @napuancsTEsil RuNs The exhaust gas from the engine was sampled continuously to determine NOx, CO, VOC, CHzO and Ozconcentrations forthree (3) individual sixty (60) minute test runs @ highest achievable load of 84.5o/o. The load developed was dependent on the pipeline conditions available during the day of the test. Other important parameters such as compressor suction and discharge pressures, engine speed and ambient conditions were monitored during the test. Catalyst measurements such as inlet catalyst temperature and the pressure drop across the catalyst were obtained during the test. The data acquisition system scanned the analyzers every second during the test run, and computer averaged the outputs every ten seconds^ A summary of the data, with each test run averaged is given in the APPENDIX. 12 Galculations CON CENTRATION CORRECTION Emission concentration conections required in 40CFR60, Appendix A, Method 7E were calculated by using the bias check zero and span values from before and afier the test. The equation is as ficllorys: cs*=G-co)Hem vo Equation 1: Bias Corrcction Calculation Itlomenclature: Cgas'.Effluent gas concentration (ppmvd) e : Average gas concentration indicated by analyzer (ppmvd) Col C^l C^rl Average of initial & final system calibration bias check responses for the zero gas (ppmv) Average of initial & final system calibration bias check responses for the span gas (ppmv) Ac'tualconcentration of the upscale calibration gas (ppmv) i.2f t. lat?c?4 t3 EPA F-FACTOR A fuel specific Fd factor was calculated as described in EPA Method 19, "Determination of Sutfur Dioxide Removal Efficienry and Particulate, Sulfur Dioxide and Nitrogen Oxides Emission Rates from Electric Utility Steam Generators" for natural gas. Equation 2 was used to determine the EPA fuel specific Fd tactor. Fd-l(3.64. H*ton) + (1.53 . C*tvo) + (0.14 . Nzwton) - (0.46. Oz*tv)) GCV PFuetcas Equation 2: EPA Fuel Specific Fd factor Nomenclafure: Fa: Fuelspecific F-factor (dscf/lvlMBTU) Hwt%t Hydrogen weight percent Cwt%t Carbon weight percent Nz*t%t Nitrogen weight percent 0z*tyi Orygen weight percent GCV: Heating value of the fuel (BTU/dscf) pFuetcost Density of the fuel gas (lb/scf) 15% OXYGEN CORRECTION The measured concentration of NOx was conected to 15% Ozas set forth in 40CFR60, Appendix A, Method 7E. Noxoo,"(#fu1 Equation 3: Emissions Corrected to 15% Orygen Nomerrclafurc: NOx'. Conected emission concentration (ppmvd) 5 NOy66;. Observedemissionconcentration (ppmvd) 0/oO2: ObservedO2@ncentration(%) 5 The same formula is used for CO and VOC. 14 MASS EMISSON CALCULATIONS, METHOD 19 The F-factor MEthod and guidance firorn Part 75 wre used to calcuHe rnass emlssion rates (lb/hr) and (g/bhphr) tor NOx, CO, CHzo and VOC. Equatlon 4 and Equatlon 5 were used to delemine the rnass emission ratEs. 20.9Em- C6x F4x (20.9 - %Or) GCVxQxx15f, ilornerutatre: Eum. Ca'. Fa, ohoz.. Qn: GCY: BHP: Equatlon 4: Mass Emission Rate (lb/hr) 20.9 GCV 453.6 Em - c7x F4* 1n.s - o6gr)x Qn x 10. " BHp Equatlon 5: tass Emlgslon Rate (g/bhp-hr) Pollutant ernlssion nates (lMrr and gbhtrhr) Poll utant concentration 0b/sc0 Fuel speciftc F-factor br dry Cl measur€npnt (dssf/I\tlMBTU) Orygen concEntratbn in percent, neasured on a dry basb Fuel rate fiorn calibrated ACrA complhnt meter (scftt) Heting value of the tud (BTU/scfl Brake horseporer The conversion Hors in Table 5 werc used to conEd the pollutant concenhation in ppm to lUscf Table 5: Unit Conveslon Factonr 1.194 x 1O7 7.268 x 1ff REV4'| 0412024 l5 ASTM D6348 EQUATIONS MINIMUM DETEGTABuE GOiICEAIIRATIO].I MDC#2: P: Cave, cp: MDC#I.=ffi.+ Equation 5: Noise Limited Minimum Detectable Concentration #1 Nomenclafure: MDC#7: NEA: REF: Cr"fl Lr"fl Lcettl _ Ctr), Noise limited minimum detectable concentmtion for analyte m (ppm) RMS noise fur analyte m Root mean square absorbance value obtiained on the reference spectrum Concentration used in generating the reference spectra for analyte m (ppm) Path length used in generating the reference spectm for analyte m (ppm) Path length of the cell used to perform the measurements (m) Analytical algorithm enor minimum detectiable concentration for analyte m (ppm) Number of sample spectra used Average concentration for analyte m representing the analytical bias (ppm) Concentration results produced by the analytical algorithm for the analyte m on spectra P of the set (ppm) MDC#Z = 3 * Equation 7: Analytica! Minimum Detectable Concentration #2 Nomerrclafure: p lZr,*, P=1 ft:; i' :L,;\.:;,, t6 MDC#3 =Y%' *Cret* Lref' REF"#IS Lceu Equation 8: Analytical Minimum Detectable Concentration #3 Nomenclature: MDC#3: Analytical algorithm enor minimum detectable concentration for analyte m (ppm) REA: Residual equivalent absorbance for analyte m REF: Root mean square absorbance value obtained on the reference spectrum C,"ft Concentration used in generating the reference spectra for analyte m (ppm) Lr"f I Path length used in generating the reference spectra for analyte m (ppm) Lceut Path length of the cell used to perform the measurements (m) Rerenexce Cgr AssoRpnoil PATH l-srartr L,: Equation 9: Reference Cell Path Length Nomenclature: Lr, Reference cellabsorption path length (m) Lf, FundamentalCTS absorption path length (m) Tr Absolute temperature of reference CTS gas (R) Tf , Absolute temperature of fundamental CTS gas (R) Pr Absolute pressure of reference CTS gas (ton) Pf , Absolute pressure of fundamental CTS gas (ton) C,, Concentration of reference CTS gas (ton) Cf Concentration of fundamental CTS gas (ton) (l). Ratio of reference CTS absorbance to the fundamental CTS absorbance,\er/ determined by classical least squares ,,(+)(H@e) 17 SAwrpr-E Getr AesoRp'noN PATH l-r+grx Lr=,.(+)(f)e)c) Equation 10: Sample Cell Path Length Nomenclature: Ls, Lr Ts: Tr, P5, Pr, C", C, Sample cell absorption path length (m) Reference CTS absorption path length (m) Absolute temperature of sample CTS gas (R) Absolute temperature of reference CTS gas (R) Absolute pressure of sample CTS gas (torr) Absolute pressure of reference CTS gas (ton) Concentration of sample CTS gas (ton) Concentration of reference CTS gas (ton) Ratio of sample CTS absorbance to the reference CTS determined by classical least squares (f)absorbance, DF=Tracer-sp1ys Tracer-p1p667 Equation 11 : Dilution Factor Dilution hctor of the spike gas Diluted tracer concentration measured in a spiked sample (ppm) Tracer concentration measured directly in undiluted spike gas (ppm) Arar-rrrSpnono Nomenclafurc: DF: Tracer-5p1ys: Tracer-p1ps6y: C"w=Udil+CS Equation 12: Expected Spike Concentration Nomerrclature: Cexp Ua, Uail cs: CS DF: R: Cobs: Cerp: Erpected spike concentration of the ana$e (ppm) Concentration of the analytes in the unspiked samples (ppm) Concentration of ana$es in spiked sample effiuent accounting for dilution (ppm); Ucr = U" x (1 - DF) Certified concentmtion of the calibration standard for the anaMe (ppm) CS=C.xDF Dilution factor of the spike gas ^ Coast?--X100rt - ^LexP Equation 13: Spike Recovery, Percent Nomenclafure: Percent spike recovery (%) Observed spike concentration of the ana$e (ppm) Erpected spike concentration of the ana$e (ppm) ?.?/ 4i uncza l9 UUET - DRY PoIruTANr GOiICEITERATION GORRECTION /- C^"o,td - , lo/of,l/\'- [-T0T-/ Equation 14: Moisture Corrected Concentration Nomenclature: Ca, Cmeas, o/oH20 VOC CALGULATpNS BY RESPIOI{SE FAGTORS VOC = ethylene (ethene) acetylene (ethyne) propane propylene (propene) butane Conected pollutant concentration on a dry basis (ppmvd) Measured pollutant concentration on a wet basis (ppmvw) Measured efiluent moisture concentration (%) 1.9 x c72 * 2.4 x c73 * 3xc14* 2.85 x c15 * 4xc\6 Equation 15: VOC as Methane by Response Factorso Nomenclature: c12 ethylene (ethene) (ppmwr) c13 acetylene (ethyne) (ppmtnv) c14 propane (ppmwr) c15 propylene (propene) (ppmvw) c16 butane (ppmvw) VOC as propane = VOC as methanef 3 Equation 16:VOC as Prcpane TotalVOC = VOC as propane + CH2O Equation 17: Total VOC for Approval Onder Permit LimitsT 6 Using FID response factors, wih ethylene, acetylene, propylene rrveighEd dorvn wfpn belo,rr 0 ppm, and straight readings for propane and butane. 7 Used for: lUhr. 20 APPENDIX Kinder Morgan Altamont LLC East Com pressor Station UnitCE6 SECTION 1 : DETAtr,ED ENASSTOXS SIN&IARY SECTION 2 : GENERAL TNFORMATION SECTION 3: INSTRI,nMM CMCKSAND CALIBRATION NOzTONO Cor.ryrnrsnCuecrFoRM............. .............................64 INTERTERB.TCE RESPoNSE CERTFTCATES ............ ............................ 68 L['rEARrry CIECK (CALBRATIoN ERRoR) FoRMs..................... ............................77 SysrEM INrEGRrry (BrAs CrGcK)FoRMs ..............81 ANevzm.DnrrFoRMs ....................... 83 FTIR- VALTDATIoN TEsr SLlv[vIARy er.tn QA/QC A8 ..................... ..................... 93 SECTION 4: RAWDATA R.?! t,l 2,tr2A.)c 212 SECTION 1: DETAILED EMISSIONS SUMMARY Tesr SuurmnnY 24 CqoI Nbr kdW! btffi tP^ @fl: AGA @R: UMmh6: U udo------;E- urnd., --i;;;E;i;;;;a- wr h., -----1ffi;ii- sN'____i3rM_qdf Tr Xm IIII l.tu tu J AVERAGI'tm.l0:32 l2:flI 13t27 ne Onamtinr Prrana tcd(RPM)1.145 1.t45 l.l,ltt 1.145 lEl Hon.Dorer lAzt lJlt 1.419 1.420 -o.d (%)u.6 u.4 a4A &rJ d Torq@ (%)tt.7 rt-t trl tl-6 \crul TorqE (%)ttJ la.0 tt.0 ttt rnidon Tlnlnr CBTITC)lt.9 l9.l t9.t 19.l furto ErLrut Oud,.t TdFntr (-D LEtrT l.lt0 1.lt{t 1.179 1,1&, lurbo Erirut Oud.t T@Fntun Cf, RIGET lror 1207 t2o7 1201 :.tdy.t trLt T.0pcntuE Ctr)1,016 lp95 r,095 1,095 :rtilYLt DiILMdrl PGrE C'H,O)0.1 0-l 0,t 0.1 lir Meifold Putm (P!|IG) LEPT 13 4.1 42 12 \Ir M&llold Putm (PSIG) RICrT 12 4.1 42 12 Lir Mmifold Pilsm a'rHrl LIFT t-7 IJ tJ tl \lr Mdifold Pmtm ("Hrl RIGIT t.6 t..t tJ t.5 lir Mriltold Tdmrrrln frl 122 ll9 120 lm l..krl Wrtr Outtct Tcmocrrtuc fFl 113 l?5 r75 t7s ,ub. O,ll Oud.t T@Bn@ f-E)t71 t79 t19 t'tt ,ub. Oll Pnr.@ (PSIG)54,55.0 5S.r s4J Dmor6tor SEdo! Pil.@ (PSIG)ll ll ll 11 :oEDEror IX!.ie. PulE (ISIC)5to 3t3 st5 5t3 t'low Mcrruremerti tucl GE Strdc Pnrr@ (PSIG)133.1 135.1 135.6 tv.6 .ud Ce Irlfr.Endd P6r@ ("I1O)30J ,95 29-7 29t .udcuTrEEnmCT)5{',t5 45 17 t T.dtsiltun atr)IttS [3 ttli a&i '@l Fud rbr (SCFH)ll,4l?lr,4ol,I l,stt tt,a71 t Flffi tLB/HR'l - M.rhod 19 lJ33 tJ21 t,r42 e.,.66 Nilrurt trlffi fl)SCFIn - M.thod 19 tto,432 I I0J5t I I zJ)Er ll0Js9 hh.ut trlq (WACtrM) - Mrthod 19 7,135 7,ltt 1 A4A 7,t73 Ur Flo? (WSCIM) - indhod 19 to1 r19 107106 lO9/496 lorJ94 {crt nrE (ETU/HP-Hf,)t,0t3 t,101 t225 t,136 lPA Fel F-Frcton O, BDi! (NCTA{MATU),,702 t,702 t.702 a3t2 lmbietri lnt Ti (-E),at 4l 15 45 c Pd.m (rrHcl t3.tt a!79 23-79 23-tO i R.trtiv. HMidltY (?6),7.1 32t 32.0 \brolut. Hmiditv (Gnlny'LB)73.4 15.4 t42 17.7 enisioni Concetrtntions & Cdculrted Mu Enisioni {Or (ppwd Rrr MouEd D?y)60Jl 62.$62-70 6t,at {Or (ppmvd Bi$ Coffifi)62-04 51,,7 55.05 63Jt lO, (D!0vd A 15% 0,)It It It l8 {or &B/Hn)0J2 0.65 0,t,0J5 ior (y'BHP-HR)o-J OJ OJ OJ lO (ppEvd Rn M.uurcd Dry)lml4 103J6 10615 10612 lO aoDEYd Bis Cor,td)l10rt r07.71 rto.vt tw.77 lO (DoDvd @ 15% Oi),r 30 l1 !1 :O(LB/HR)0.E9 0J6 0-90 0.,9 :O (JBHP.HR)0l 0l OJ 03 {ro (%)l6J{t 11 29 l6J0 17.o1 lH,O (DDEwl l.ta l.l4 r.l4 l.ll lH'O (DD6vd)lJ7 lJt t31 131 ]rl,O (LBIIIR)0.0r 0.01 0.01 0.01 /OC I CH. (Dpdw)7G.s9 21 t7 27 -O1 27-16 /w e crH. llDew)t.t6 929 9.01 9J}r '/OC (!DEvd)10.67 1123 10J3 10.91 r'OC (Dnilvd a l!7. O,l 3 3 !I /Oc (r/BIIP-ER)0-0 0.0 0.0 o-o /(r('+ C-H.o {oDEvd}l2.tx 12.61 1220 tz.,,3 i OC + CH,O (L!,/HR)0.ts 0,15 0.15 0.15 :O, (% RD M.uund W.l)991 9"94 10.00 997 lor (% Dry)lr-m 17,.17 t2-o2 1201 L ('/6 R8 M.rt@d Dry)4.O7 {}.06 4.O7 .{t.07 ), (0/6 Bt$ Colcttd)0.00 0-m 0.00 0Jl0 r a@l4qq6fl lffr Lrtl l&6 d& r tJrlm 25 OpenarrNc Dara 26 tuotIJ J (,rtq .\ aa\_t - C'I .lI q6@ (. ,(, co oto {- ooro (, I{ qt NN c3 loN o€ €o(\ l (ooto. o ro€@ zfd 6lq?o ror( ' NNt- oo) o@@ o) 'r i (o o(. , o6 of.- - o@(, c! rq . + oc\, 1 o) r. - ororr , IDf. - o@ o)o(\t _ rr )o)o- o |r )@@ r{ )t $6ts- o?@ q@@ |f ,tN NCio o(, tf- - @tr ) s\t (ot N o)F- q(,o ta tN o)t-: t- -ool_ (oo)o_ o ros (oN$- CDcd oo; (o @(o rocio oro o(o - o@tr ) cs Ns C)N t-F- (7 )ri6 r,l )F- o6 t-oN- (oo)o- ci lot o)t- O)@ qo)@ (o(') (ooca l o) \l !tF o@r.( ) (o{ arr l roN lot- F- rolr ) @t. o6: (Do(\, t _ |r )o)o- o o-G. (LEdt ooFdl s oqo- oI u-o IIIo@ U) (L a(L a(L U' (L tro u- U' CL tLo u- L r o IL oI l!o o0l IJ JFUJ=0lo. 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(LILl!aFtoJF _( L=uJFYoFU)Fvt fIxill tNIozI rlo aE + * E@ o EE a! a! d0 l trf >trt!CLoo oG' -(o - eo(\ t €(or( ,oc)€Nro ootto(Eoo.lrg= loIUJo o(!UJ oEa!a lr rodul totq o)!i ol q€o (olo., , \olN ro{ oooto - looo llo a\ t .!t oN C'I loro lo o) o.l lo(r lq o roo6 ar lzfd F.N(. j lr )$ (oC\Tt_ co) o@@ arf ) (7 ) c;(9 t-$ (\ I r{ , (D - r\ .@lo at (r ,s oN o,F ,d|r ) lr ) f. - o)F. t-o6l- l. r , (Do- o rr )@@ ro.t t (7 'Nt_ o) q@@ @rn(7 ' oq(DN (o\f o(7 ' (o - (o@r. o (\ ts c?s o(\ l o)F- |r ) lf, tr ) r. - o@ F-o(\t _ r^ ( ) (Do_ c; los t- Noi ocC ,@ (ori (7 ' rooiGI (7 'rt (Dt|r ) - $@(, o* o+ oN o)F- lr ,ro lr )F- o)N @oc!- (,CDo_ o rot- $t- o) o@d, @,r j (') ao) (\ l (' )$ loN|r ) - tao lr , N$ t o) o ) F. |f , r{ ) lr ) f- - (DF. @o6l- ()o)o- o (LE. o-Idl ooFco s (,U)L o- IL IILoU) -o(L -@o -c t )6_ 6CL TLo ILo U' IL ILo TLo l.l - o tL oN I tl-o U'x.UJFUJ.do.uJzozUJ FooUI=t- ouJuJo-oIJ JzozUJ JuJz oz=FuJzoz u. l latroF-)lFo UJtlU)au. l to-oFFoU)oJUJ llr lutrf.t )U)t!d.o-LLLL6@(,JUJf,lr o-=u. lFo(,JUI llr BoJl!U)(,JuJ flJ -JuJz UJtf@oUJ tr . (LzIFofaFz UJtfa(nulto-uJotroU)oFz FLLUJ)uJG,fU)a[r Jt&oJoILz=d Fx(,tUJtfat)ot!tILoJocz=tr (L=U.lFoJocz=tr o-=LlJFFl!JFfo)6IU@l lJtfoU)UJto-J6UJof (LuJFFlr JJFlooNIFUJYo FlJ - u. tJ(L=uJFFlorxuJodl tr .fL FroE, (L=t!FFfoIxUJodltf 0.=uJFFuJJzFa)F II JtrlU)U)UJtro-ul!6FQ)F (L=t!FYoFU)FU' f=xtr l tNIozIlo iE E E # # + * 5. i J I E E o E6 = BE vr - E + ' ., = EE oG'@- oo6t 6(oroo(,@Nlo U'o+{o.E-t roq, JG= r. )IuJo oouJ troEa! 29 SECTION 2: GENERAL INFORMATION Rrlnrnxr GonnesPoN DENcE goEc! -o '; -g ';r!9RE 6d:EN9ab r3er .5 .E ;€o>gg64$l qE* dEiori !;Eg5; E EE E o: e coq9Eoco!.ga,Ec,6IcEo3raoE8-go .9 .! 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Gns Aranvsrs 45 Upp.r ory H.d v.lu._______lJll_bb/dlcr Low Ory H..t V.lu. 1,M btu/dlcl Stsclk G..vrty MDENslfr ru lUcl Tot.l Cr6on! 1 112007972 Tobl H 1006.79 HHV Brl 1 113.82 Compn!!rbility 0.997359837 74.7E3351 23.3315S6 1.403495 0.481550 100.0000 Upp.r Ory H..t V.lu._______L.1!L brud!clLo* Ory Hrd V.lu. r,006 btddlcl uohwohhr ffi EPA F4.dor lo.lcl E /U d.druMbtu 4_2455 Sfiflc Orrvfiy (]ffi Don.ltY______!.9!!L lb/3"r 1.1420 100E 29 HHV r.rl 1111.53 Compn..rbdity 0.9s735S837 46 Condiu.ni LHVIi) d.!l LHV(i) o.l BHv(i) d..l rHV(r) Br DOO o CAEEOtr DEI,0 o 1012 3 aalsTa5 3E IJ n 5251il x.o5t oa Conrffiu.nt LHv(l) ro.1 HHVII) d..l Smcx Dncnarr 47 Stack Diameters Upstrearn: 6.86 Stack Diameters Downstream: 17.14 123 Test Sample Port o.>6oo Waukesha L7044GS| Unit CE- 5 4A Geu eRATrotu Gns GenrrrrcArEs 49 iii.rnc,)ra,rrlIl l:0tt r:ri)liltaiirr" DocNumber: 514216 Linde Gas & Equipment lnc. 5700 S. Alameda Street Los Angeles CA 90058 Tel: 323-585-2154 Fax: 714-542-6689 PGVP lD: F22O22 CERTIFICATE OF ANALTSI^S / EPA PROTOCOL G/t' Customer & Order Information LGEPKG HOUSTON TX HP 10205 SWEETWATER LN HOUSTON TX 77037-1240 cerfiicate I ssuance Date. o912w2022 Llnde Oder Number 721 85535 Parl Number: EV NICDOXE4o-AS Customer PA Numbe[ 801 90356 Ftl Date Ogl1Z2O22 Lot Number: 70086225503 Cylinder Style & Outlelr AS CGA 580 CylinderPEssuE andVolume 2OOOpsig 140ft3 Concentrution Expiration Date: Cylinder Number: 09t2612030 cc145597 NIS T I raceable Expanded Uncertainty 5.04 % 5.06 % Balance Carbon dioxide Orygen Nitrogen r 0.05 % r 0.03 % C ertiJic atio n Informatio n :Ce ft ific ation Date : O912612022 Ierrn. 96 Months E x pi ratio n D ate : 0912612030 This cy'inder was certified a@rding to the 2012 EPA TEceability ProlNol, Document #EPA-6001R-12/531, using Prccedure G1. Un@rtainty abov€ is expressed as absolute expanded un@rtainty at a level of @nfiden@ of approximately 95% wth a @veEge fac,lor k = 2. Oo Not Uss this Standard i, Pre$urs is less than 100 PSIG. CO2 responses hava been @rsted for Oxygen lR B@dening effecl. AnulVtiCAl Data: (R=Reterencestandad z=zercGas 1. Component: Carbon dioxido Requested ConcentEtion: 5 % Certifi€d Con@ntration: 5.04 % lnstrument Us€d: Honba VIA-510 S/N 20c194wK Analyti€l Method: NDIR Last Multipoint Calib?lion: OBl29l2O22 Rslorenco Standard; Typs / Cyiinder #: Concentration / UncertaintY: Expiration Date: TE@ablo lo: SRM # / Sampls f / cylinder #: SRM Concentsaiion / un@rtainty: SRM ExpiEtion Oate: RolGroncr Standard: Type / Cyiinder #: Con@ntration / Uncertainty: Expiratlon Date: TE@ablo to: SRM # / Sample # / Cylinder #: SRM Corcentration / Uncertainty: SRM ExpiEtion Oate: NTRM / OT0030310 7 O11 o/o tO O58 o/o o'U2712027 NTRM#OT0030296 / 190702 / DT0030296 7.01 1 / 10.058 o'!/2712027 NTRM / DTOO10262 9875%r0040% 1111U2022 NTRM / 170701 / DT0010262 9.475% I lO.O4O% 11118t2022 C=Gas Candidate) FiEl Analysir Data: Dalo 0912 z: o R: 7.01 C: 5.034 Conc: 5.03 R: 7 .02 Zi 0 C: 5.054 Conc: 5.05 Z: 0 C: 5.054 R: 7.03 Conc: 5.05 UOM: % Moan T€st Aslay: 5.04 '/. Component:Oxygon Requ€sted Con@ntEtion: 5 % Cortifi€d ConcentEtion: 5.06 o/o lnstrument Us€d: Siemens Orymat 6E S/N 7M82021 1AA000CA1 Analyti@l Method: PaEmagnetic Last Multipoint Calibtilion: OBl3Ol2O22 Fi6t Analysi! Dala: Dato 0912612022 zi 0 R: 9.875 c: 5.056 conc: 5.05 R: 9.884 Zi o C: 5.06 conc: 5.06 z: o C: 5.059 R: 9.88'l Conc: 5.06 UOM; % Moan T€t Arsay: 5.06 % z:oR:0C:0Conc;o R:02:oc;0Conc:o Zioc:0R:0Conc:o UOt: % ltleaf, Tost Assay: % Analyzed By Courtnqy Ziolk.Certitied By of the use of lhe infomation @ntained herein ex@d the f@ established for provrdinq such infoEilllion. ProSpec EZ Cert Analy!i! ZiOR;0C:0Conc:o R:0Zt0c:0Conc;o Zi0C:0R:0conc:o UOM: % Mean Tost Alsay: '/. 4[\/-() !'itii rnC litf ,lijtirl T',t)lr irr.;rlllaliLrr Linde Gas & Equipment lnc. 6055 Brent Drive Toledo OH 43611 Tel: +1 (419) 729-7732 Fax: +1 (419) 729-2411 PGVP lD: F12024 DocNumber: 571547 CERTIFICATE OF ANALYSIS / EPA PROTOCOL GAS Customer & Order Inlormation LGEPKG HOUSTON TX HP,10205 SWEETWATER LN HOUSTON TX 77037-1240 Cediicate I ssu ance Date : Ul25l2O24 Ltnde ader Numbe( 727A9172 Pai Numbet Nl CD11O3E-AS Customer PO N\mbet 80802184 Fill Date. o4t1612024 Lol Number 7000'14107FA CylindetStyle& Ourelr AS CGA590 Cyhnder Pressue and yolume 2000 psig 140 lt3 Concentration ProSpec EZ CertffiffiffiEXprrauon uale: Cylinder Number: 0412512032 E80001266 Nt5 I lraceaDte Expanded Uncertainty 10.9 % '|1.00 0/o Balance Carbon dloxide Orygen Nitrogen to.1 % r 0.03 % C ertific atio n I nfor matio n :Ce iific atio n D ate : 0412512024 Ierm: 96 Months Expiration Date: O412512032 uncertainty at a lev€l of @nfidence of apprcximately 95% wilh a @veBge faclor k = 2. Do Not Use this Standard il Pressure is l€ss than 100 PSIG. 02 rgsponses have bs€n @rected for CO2 interf€ren@. Analvtical Data:rR=Releence Standad. Z=Zea Gas. C =Gas Candidate) '1. Componenl: Carbon dioxido RefoBnc!Standard: Typo/cylinder#: NTRM/CC725962 ConcentGtion / Uncortainty: 19.34 % 10.03 % Expiration Date: o'111212027 Traaablrto: SRM#/Sample#/Cy'inderf: NTRM/ 1 701 I CC725962 SRM Concsntration / Uncertainty: 19.Uo/o I !0.16o/0 SRM ErpiEtion Oate: 0111212027 Requesl€d ConentEtion: 1'1.0 % C€rtified Conc€ntEtion: 10.9 % lnstrument Used: Horiba VA-5000 Analyti€l Method: NDIR Last Multipoint Calibalion: 04|OU2O24 FiEt Analyli! Data: Dato 04125/2024 Zi O R: 19.34 C: '10.89 Conc: 10.9 R: 19.34 Z: O C: 10.89 Conc: 10.9 Zi O C: 10.89 R: 19.34 Conc: 10.9 UOil: % Moan To3tAlsay: 10.9 % Socond Analysi! Data; Daie ZiOR:0C:0Conc:o R:OZi0C:0Conc:o ZiOC:0R:0Conc:0 UOil: % Moan T.3tA!say: % Component: Oxygrn Roqu€sted ConcentEtion: C€riifi ed Conc€ntEtion: lnstrument Ussd: Analyti€l Method: Last Multircint Calibration: 11.0 yr 1 1.00 % Servomex 575 Paramagn€tic 04109t2024 Roforonco Standard: Type / cy'inder #: ConcentEtion / Un@rtainty: Expiration Date: TEaable to: SRM # / Sample # / Cylinder #: SRM Concentration / uncertainty: SRM ErpiEtion Date: GMtS / E80022483 22.U oh rO.O5 ok 03t2212029 2659a / 71-D-04 / CALo15785 20.72% l!.O43Yo 0u23t2021 FlEtAnalyri! Data: Dato 0412512024 Zi O Ri 22.il C: 11 Conc: 11 R: 22.54 Z: o c: 11 conc: 11 Zi O C: 11 Rt 22.54 Conc: 11 I,JOM: % Moan T6t Aslay: 11 % Socond AnalysiE Oata: oale ZioR:0C:0Conc;o R:0Zi0C:0Conc:o ZiOC:0R:0Conc:o UOM: % MeanToslAisay: % tii,^ rt/.*^s L ,f,, ,;-(t"r Analfzed By Certified By Lroyo ^napp of the use of the infomation @ntained herein er@d the fre established for providinq such infonadion. 'l Of 1 Making our world more productive 571s23 Linde Gas & Equipment lnc. 5700 S. Alameda Street Los Angeles CA 90058 Tel:323-585-2154 Fax: 71 4-542-6689 PGYP lDl. F22024 CERTIFICATE OF A:NALYSIS:/:EPA PROTOCOL GAS Cedificate lssuance Oete: 05i0312024 Linde Ordet Nunbe. f2789187 Paft Number Nl NO195Z3E-AS Custamet PO Number 80802198 Cuslomer & Order Information LGEPKG HCUSTON TX HP 10205 SWEETWATER LN HOUSTON TX 77037-1240 Fiil Ddto: O4l2Ol2O24 Lot Numbet: 7008641 1 105 Ct4lnder Style & Oul€t; AS CGA 660 Cylindot Pressure and Volumer 2000 psig i42 lt3 C e rtifie d C o n c e ntr atio n Expiration Date: 05/03/2032 NIST Traceable Cylinder Number: CC2M446 Expanded Uncertainty 194 ppm Nitric oxide t 1 ppm 195 ppm Nitric oxide (as NOx) t 1 ppm Balance Nitrogen C e rtifi c atio tt I nfo r m ati o n :C e ilifi c ati o n D ate : O5l 03 12024 ferm; 96 Months Expiration Date : 0510312032 This cyllnderwas cerlifi€d a@dlng to the 2o12 EPA Tracsability Protocol, DoelMl fEPA.500iR-12]531, using Procedure G1. Uncertainty abovo is expressed as absolut€ expanded uncenainty al a levsl of conlidencs of approximately 95% with a covorage factor k = 2. Do Not Uso thrs Standa.cl rl Pr€ssur€ is l6ss than ,00 PSIG. Analvtical Data:Z=Zob Gas, C=Gas Cdndidate)(R=Roference Standard Nltric oxide R6qu6sted Concentration: 195 ppm Cerulled Concentration: 194 ppm lnsltumant Used: Analy{@l [rethod Lasl Multipoint Callbratlon: 04/05/2024 Themo Eleclron 421-HL S/N 1030545087 Chemilumines@nce Ref.r.nco Standard: Type / Cylinder#: GMIS / OT0010509 Concentralion / Unce(ainty: 256 ppm tl ppm Expiratloh Date: OSIOT 12028 Tr.ce.ble to: SRM#/Samplo#/Cyllnde.#: 1685b/43-L-11 /CAL0'17304 SRM Concentration / Unertainty: 243.9 ppm / t1.'l ppm SRM Expiration Da(o: 05/09/2020 llefe.enceStandard: Type/Cylinder#: GMIS/DT0010509 Concenfalon / tlncertainty: 256 ppm !1 ppm Erplration Date: 05/09/2028'lrlc.able to: SRM#/Sample#/Cylinder#: 1685b/43-L-1I /CAL017304 SRM Con@nirauon / Uncertainty: 243.9 ppm / 11.1 ppm SRM Expiratlon Date: 05/09/2020 I Flrst Anslysls Oata: i:: 0 R: :Z56 Cr ,i-.2 C: 194.3 R: 256 Oale Conc: Conc: Concr 04125/2024 194 194 Second Anolysi! D.ta: Datc O5l03l2O?-4 Z'. O R: 256 C: fiA.7 Conc: 195 R: 256 Z: 0 C: 194.4 Conc: '194 Z: 0 C: 194.5 R: 256 Conc: 195 UOM: ppm Mean Tost Assay: 195 ppm R: 256 Zi O Z: 0 C: 194.3 LJOM: ppm Codponent. Niiric oxide (aE Nox) Requested Concentration: 195 ppm Certillsd Concontration: 195 ppm M6an Test Assay: lnslrument Used: Analytical Method: The/mo El€ctron 42I-HL S/N 1030545087 Chemiluminescence Last Multiooint Callbration: 04/0y2024 Z, o R: 256 C: 194.5 Conc: 195 R: 256 Zi 0 C: 194.6 Conc: 195 Z: 0 C: 1S4.6 R: 256 Conc: 195 UOM: ppm Mcan Test Assay: 195 ppm Socond Ahalysls Dala: Date 05/l Zi 0 R: 256 C: 195 Conci 195 R: 256 Z: O Cr 194.7 Conc: 195 Zi 0 C: 194.8 R: 2$ Conc: 195 UOM: ppm Mean Te-st Assay: 195 ppm Analyz6d By Certified By of the use ol the infomation contained herern exceed the fee Elablished lor providing such information. 52 DocNumber: 1143235 \rit,rq in wld Rlqql.d C-66trr!dr. C&6.6 C(re.(r!!o.rfEruedUS AErpcc lilcthod LeMrdtmlcCinrton &d}'..d 8y $ffi Llndr Gar E Equtpmenl lnc5700 S. Alrmode SlroetLor Angclcr CA 900i8Tel: 323-S8i-21 !4Fer: 714-542.6689 PGVP lD: F22021 (-rrrdra .t t'lrdar lalonaioa LGEN(C q]IISTO\ ;I HF-rro5 suG,Er\va:IR Ll\lrorrsTo\ -\ ::ili;-!lao a€4,rcArt lrluilr'tt DAb t/!td, (:!dot rd,m6o.- nil n{lmbs Cu(lo@ fio wurrhr 1 2'!01202t 7t88.?0{ Nl No{aoz2E.AS 7980.000 FitDel" 11t)}m21 Ld Nttntb4t ltnl.11321rto Cltndarswlodtil AS aGL$2rt Cyflnrtot P\$un $d Volu@ z$n oy, t a0 't3 C ertifi catio n I nforn oti on :Cortriication D ate. 12 Og 12021 Ierm: 96 Months Expimtpn Data: 12JO9|2O29rhrc16qrg35666t6ffihr!I!2€PAT6BaustyPtolo@l,o!&nrntrEPr{00/Rnz53l.usnop@rdqeGl uo@riaoryaboycarrp.&da!abrclut!rrp6nd.duryle?v e ' b.l cl *rtonto -ot ap"omltay s5x uil ; :;;;i.;;; : z oo Not us o'tr st ndad rr pmur rs rru rhao l oo pslc .4nah'tiCal DAA: fR.-*.,!v!6 sLadld. z"zorc Grs, c-Gss canddarr,1. Cmpormr; t{Hc odd. aS *tt a$a pp,n Isrc ELdM a2i &N 0720024326ChemikqqGsw r1t12t2021 Rdrnnc.Strnd.rd: typ.,/Cy'rdqa GM|Sl010022869 Co@nt tion / Urcrrlahty- 5O5 pgn , ggm E$rrrlon Oato G.'t21nO28 Tmbh to: SRM t / Samplo * / Cylftds I 1686b / 42.t1.57 / CALO,7655 SRMCo@ntr.loo I LJmfirnty 493 1 gpfi I t2 1 ppfi SRM Esds Dato 03/312023 Rar.r.nq Z 0 Rr 5O5 C: a55 Core 465 R: 305 & 0 Ci .16{ Conc: 464 Zt O C: a65 R: 5O5 Conc: ,165 Uoilr pph tl..nl[tA...yi 465 pgm GM|S / DT0022869 506 gpm i2 pDm ut21no28 :ffi ffi?x&?Hffi Iffiffi"xr*.'ffi iffiF,ffi ffi kTh. nlo.rlce.t 6 crlf,ad $lh lh. un<krr.a,se ,1.l ry Ea o, tE E{md;nr, t r s oil tf, ,romdd coniaffd lfe .Er.d rha !- [E!hh.d td prcv o.ta: L o R: sos c: ,a64 cohc: 464R. 5O5 Z: 0 Cr 4&{ Cooc: 464z: o c: {6a R: 5o5 cone 464tofl: m Jq. T..t &sy: 1&1 mm2. Chwt NtEic orid. (B ,{Or) RA.H.d Crylqrate 45O pOfiCt!fid C66nFds 165 ,F0kr$,l:rtJsd Stmdrrd. Iypo r Cy''nde. il Concontralon / Unerianty ErgEtff OatoThct@ Elodcn {2t S/N 0Z?60?4326 Trruo tcr sRM r I ss4ri- r / cylndBr tr 16€6b,t a2.t -:7 / cALq17o55SRM Ctrdradon / Um{tlinty: ,ag0-7 pprD f t2:3 gl,a SRM Expkrt o Orb: Oa/O6f2O23 IZ: 0 R: Sm C: {6at C6c a66R: 506 Z: O C: ,t55 Corc: ,a6SZi 0 C: 466 R: 506 Cqc 4e6UOlt: m ',6 fEt Ar{y: 4S6 9om 12/0912029 NIST Traceabla cyiinder Number: DT00367g7 Expanded uncerlalnty ,tO{ ppm Nitrlc oxide t 3 ppm {65 ppm Nttrtc oxtde (ar tlor} t 3 ppm Balanco Nltrogen Andytaa lr.trcd. Chrmilqnry@6LC U'&drr Cdtb.a[o.t 1111212921 &utyah 2: O n: 5ffi C: 4Er Conc: a6rti- 506 L O C: 4Et Conc: ,a&4Z 0 C: 464 R: !06 Co^c: 4BttOI: Fg.n x.rnf.rt^..ry: tA4 mm 53 P.0.ldl ",, ?:l' J,T; n' "-,G "*s""y- "1"i"'"'' LA 711o1 800'551'8150 ---- Crlnder ilsmb.c Produc{ lD Numb.n C)llrxter he!tdr.:coAi CurtornrPO, NO.: Cullomen Ce.tlflcrtlon Otle ErPlrttlon Dcto: MFG Faclllty: Lot Numbor: I:::ii:: Il[,3]';,", o,,,' i6Ti€i{7li6ffi6Tarocot' Gertifiod Concontra ffiffiAa-eiiurc*ent osit Availabls Reference Standard(s) ooroiJnJo'l,oiG12o27 SMART.CERT siInairo nas ueen Analytica, ,{6 256t 1A(x' F rc_ x6 ,0?31 ?0i,0 Meko Mode,Sarirl Mh5 MKS 2O3IOJC2EKVSl3T 0171a&87 12115n02t Thrs rs to certfy the gases .eferenc€d have been calibrated/tested, and venfied to meet the defined sp€cilications. This ctrbratron/test was pacrmed usrng Gases or Scales lhat are traceable through Nattonal lnstituto of Standards and Technolooy (Nl5T. 11 lhe lnlernatronal System of Unri's (Sl). The basrs of compliance staled is e comparison of the measurement praramrrlr:r9 to the speotied or required cahbratloMesting process. The expanded uneertainties use a coveEge ladot ol k=2 lo app,.r ,r ii'.e,$e 95% cDnlldence level of the measurement. unless otherws€ noted, Thl3 cahbration cedlficate app,res only lc lr., n..fn descnbed and shall not be reproduced other than rn futl, wtthout wnlen approval from Red Eall Technrcal Gas Se", ,:r : It not inctuded, the uncerlarnty of cahbration$ are avatlable upon reql84 and were taken into accounly/hen determtnlng pass or farl ,/arra* tkuhu Aaron Varolag Analytlcal Cheml.t Assay Laboralory: Red Bail TGSVrns 0?-J. Rovricd m:k0l&O+17 'vlirrnC rlrt,l,,tlr1 lrOI:' r'rti){irr(1r1.'- DocNumber: 563154 Linde Gas & Equipment lnc. 6055 Brent Drive Toledo OH 43611 Tel: +'l (419) 729-7732 Fax: +1 (419) 729-2411 PGVP lD: F12024 CERTIFICATE OF ANALYSIS / EPA PROTOCOL GAS Customer & Order Information LGEPKG HOUSTON TX HP 10205 SWEETWATER LN HOUSTON TX 77037-1240 C ertift ed C onc entr ation Date: OyO2J2O32 Cylinder Number: DT0O16S64 Expanded Uncertainty 197 ppm Carbon monoxide t'l ppm Balanco Nitrogen ProSpec EZ Cert C ertiJicatio n I nformatio n :Certification Date:011022024 Term: 96 Months Expiration Date : 01 |OZ2O32 This cy'inder was @rtified a@rding to the 2012 EPA Tra@ability Prct@ol, Documont #EPA-600/R-12531, using P@edure G1. Un@rtainty above is expEssed as absolute expanded uncenainty at a level of @nfiden@ of approximately 95% with a @varag€ factor k = 2. Do Not Uso ihis Standard if PB$UE is less than 100 PSIG. AnalVtical Data: (R=Rereence standard z=zero Gas, c=Gas candidate) '1. Component: Carbon monoride Roforonco Standard: Type / Cylind.r #: Cenitcate /ssuance Date O1lO2l2O24 Ltnde Oder Number: 72653272 Parl Number: Nl CO1gsZE-AS Cuslomer PO Number 80664554 Fill Date 1210612023 Lot Number: 700013340F4 cylinder style & outlel: AS cGA 350 Cylinder Pressue and Volume 2OO0 psig 145 n3 Requsstad ConentEtion: 195 ppm Csrtif€d Con@ntration: '197 ppm lnstrurcnt Used: Hdba VIA 510 Analyti€l Method: NDIR Last Multipoint Calibrctian: 12lOGl2O23 Analysir Dala: Dale O1lO2l2O24 Zt 0 R: 249 C: 197 Conc; 197 R; 249 Zi O C: 197 Conc: 197 Zi 0 C: 197 R; 245 Conc; 197 UOM: ppm ilc.nToltA$ay: 197 ppm TE@able to: SRM # / Sample # / Cylinder #: 2636a / 57-F-15 I FFg792 SRM Concent-ation / Un@rtainty: 247.1 ppm I ! O.27 ppm SRM ExDiction Oate: 0/.l'1312024 Cenified By Lroyo MaPP Socond Analysis Data: Oat. ZiOR:0C:0Conc:o R:02:0C:0Conc:o Z:oC:0R:0Conc:o UOM: ppm iloan Telt Alsay: ppm /r/ { /r- Con@ntEtjon / Uncortainty ExpiEtion Date GMtS / CC180720 248.9 ppm r0.4 ppm 0u2212031 ('a!, ^rtY"'" Analyzed By of the use of the infomation @ntained herein ex@d the fe established for providing such info[iCion. 1 Ot 1 ) fvlartnr:,llI *0ljr Trotf i:,r)tll!aiitr 503698 Linde Gas & Equipment lnc. 6055 Brent Drive Toledo OH 43611 Tel: +1 (419) 729-7732 Fax: +1 (419) 729-241'l PGVP lD: F12022 CERTIFICATE OF ANALYSIS / EPA PROTOCOL GAS Customer & Ordet Information LGEPKG HOUSTON TX HP 10205 SWEETWATER LN HOUSTON TX 17037-1240 CeftiDate lssuan@ Date Ogl21l2o22 Ltnde Oder Number 72185538 Paft Number Nl C0450E-AS Customer PO Number 801 90362 Fill Date:0813112022 Lot Number 7OO012243F4 Cylinder Style & Outlel. AS CGA 350 Cylinder Pressure and Volune 2OO0 p3ig 145 ft3 C e rt iJi e d C o n c entr ati o n 09tz'U2030 Cylinder Number: SA11711 Expanded Uncertainty 448 ppm Carbon monoxide t 2 ppm Balance Nitrogen C e rtiJi c atio n Info rmatio n :Ce rtific ation D ate. 09 121 12022 Ierm: 96 Months Expiration Date : 09121 12030 This cylinder was @rtifgd a@rding to th6 20'12 EPA Trac@bility Pro(@ol. Oocument #EPA600/R-12y531 , using Procodure G1. Uncertainty above is expressed as absolute expand€d uncertainty at a level of @nfiden@ ol approximately 95% with a @veEg6 factor k = 2. Do Not Use this Standard if Pressurs is less than 100 PSIG. AnalVtical Duta: lR=Rereence standa'd z=zerc Gas '1. Component: Carbon monoxido Roforenco Standard: Typ€ / Cylinder #: GMIS / ND243'13 Con@nlration / Uncertainty: 1 000 ppm t3 ppm ExpiEtion Date: 0210112029 Tra@ablo to: SRM # / Sample # / Crinder #: 1681 b /'1-K-42 / CAL0'15913 SRM Concentsation / Un@rtainty: 983.5 / 13.0 PPM SRM ExpiEtion Oate: 0912612021 Certified By C=Gas Candidate) Requested ConentGtion: C6rtifi ed Concentration: lnstrument Us€d: Analyti€l Method: Lasi Multipoint CalibEtion: 450 ppm 448 ppm Horiba VA-3000 NDIR 08t25t2022 FiEt Analyrii Data: Dalo Ogl21l2o22 Zi o R: 1000 c: 447 Conc: 447 R; 1000 zt o C: 448 conc: 448 Zi 0 C: 44A R: 1000 Conc: 448 UOil: ppm Uean TsllAlray: UA ppm t4J^,^ ftf"".S) Analrzed By Analysis ZioR:0C:0Conc:o R:oZi0C:0Conc:o Z:OC:0R:0Conc:o UoM: ppm Msan TstAslay: ppm {ur', ./,r* of the u$ of the intomation @ntained herein ex@d the f@ esiablished for p.oviding such infoirlDllon. Page 1 of 1 'v1:(in! ctr *orl.J x1i{9 0ri)(hjflrvil Customer & Order lnformation: LGEPKG HOUSTON TX HP 10205 SWEETWATER LN, HOUSTON, TX77037-1240 Linde Order Number: 72642748 Customer PO Number: 80653928 Cylinder Style: Cylinder Pressure @70 F: Cylinder Volume: Valve Outlet Connection: Cylinder Number(s): Linde Gas & Eouioment lnc. ISO 9001 Reglstered 37256 Hlghway 30 Geismar, LA 70734 Tel:225-677.770O Fax: 225-673-3531 Certificate lssuance Date: 121612023 Certifi cation Date: 1 21612023 Lot Number:70340 3339 51 Part Number: Nl AYI 00H1ZP-AS DocNumber:722188 Expiration Date: 1 21 512024 CERTIFICATE OF ANALYSIS Primary Standard AS 2000 psig 13s ft3 cGA 350 cc245503 Fill Date:121512023 Analysis D ate: 1 21 512023 Filling Method: Gravimetric 1 'L..- j., ,'./ .?'-'' ) Analyst:Craig Billiot QA Reviewer: Mark Hebing Requested Certified Concentration Concentration Analytical AnalyticalComponent (Molar) (Molar) Reference Uncertainty ,cetaldehyde 100 ppm 104 ppm 1 !'l % etrafluoromethane 10 ppm 10.8 ppm 2 !1% Nitrogen 99.989% 99.98852% 3 N/A Key to Analytical Techniques: Referance Analytlcal lnstrumont - Analytical Principle 1 2 3 Agilent 78908 - Gas Chromatography with FID Agilent 78908 - Gas Chromatography with TCD N/A - By Difference of Other Components National lnstifuts of Standards and Techrclogy (NIST) or MeasuEm€nt Canada, or thDugh NIST Standard R6iacn@ Mai8rials or equivalont wh€re avaflable. Note: All expre$ions for @n@ntEtion (e.9., % or ppm) aE for gas phase, by mole unle$ otheMis noted. Analyli€l un@rtanity is expEsiad as a Rslative % unle$ otheruise noted IMPORTANT use of the inbmatim contained h€Bin exe6d tho fue Gtablish€d lor prcviding such infomation. Pagd{ of 1 \,lakinq cur !'JoIld rr)rrl prili.hr(lrvf' Linde Gas & Eouloment lnc. 6055 Brent Drlve Toledo, OH 43611 Tel: +1 (4'19) 729-7732 Fax: +1 (4191 729-24'l'l Customer & Order lnformation: LGEPKG HOUSTON TX HP 10205 SWEETWATER LN, HOUSTON, TX77037-1240 Linde Order Number: 72778822 Customer PO Number: 80791694 Certifi cate lssuance Dale: 4117 12024 Revision Number:0 Certification Dale: 4l'17 12024 Lot Number: 7000141 01 UA Part Number: A! EYI 00C-AS DocNumber:751342 Expiration Date: 41 1 512029 CERTIFICATE OF ANALYSIS Certified Standard Requested Certified Concentration Concentration Analytical AnalyticalComponent (Molar) (Molar) Reference Unce Ethylene 100 ppm 100 ppm 1 !2% Balance Balance Cylinder Style: AS Cylinder Pressure @70F: 2000 psig Cylinder Volume: 145 ft3 Valve Outlet Connection: CGA 590 Cylinder Number(s): CC49943Y Fill Date:411012024 Analysis Date: 41 1 512024 Filling Method: Gravimetric /./ r /,n nnL rly"*S QA Reviewer: Lloyd Knapp Approved Signer: Mike Monnette Key to Analytical Techniques: Reference Analytlcal lnstrument - Analytlcal Principle 1 MKS-2010 - FTIR Tho gas €libEtion cy'indor standard pBparsd by Lind€ Gas & Equipmnt lnc. is @nsilerd a @rlifed standard. lt is pEpaBd by gmvimetric, volumt ic, or partial pEssuB lachnhuB. The National lnstitul€ of Standards and Tochrclogy (NIST) or Measurem€nl Canada, or thrcugh NIST Standard Referen@ Malerials or €quivalont wh6r€ available. Note: All exp@$ions for @n@ntration (e.9., % or ppm) ac br gas phase, by mols unles othoNis noted. Amlyti6l unGrtanity is €xpEsd as a Rolativa % unles oth€Mi$ noted. IMPORTANT uss of th€ inbmation contained h6Ein €x@ed the fee stablished tor providing sucfi infomatjon. 1 oflf SECTION 3: INSTRUMENT CHECKSAND CALIBRATION l Leax Gxecx 60 SAMPLE LINE LEAK CHECK East Pre-test Leak Check Time of Day Duration lnitialVacuum FinalVacuum 8:12:00 1 minute-18 " Hg Time of Day Duration lnitialVacuum FinalVacuum 14:59:00 1 minute -1I " Hg SrnanFrcATrou Gxecx 62 STRAT|F|CATION CHECK (7E.8.1.21 Station: Unit: Date: East CE-5 5-Nov-24 Location Time Orl%l Diff of Mean (%) Port 1 Point 1 9:55:1 1 -0.07 0.00 Port 1 Point 2 9:58:56 -0.07 0.00 Port 1 Point 3 10:03:04 -0.08 0.01 Mean:{.07 0.00 Highest Stratification: 0.01% Difference of mean is less than 0.3%: Single sampling point Point Used: 2 NOz To NO GomleRTER Gxecx Fonm il NOz - NO CONVERTER CHECK (7E.8.2.41 1 21 3651 51 02 NO2 Cylinder Nu NO2 Calibration Gas Cylinder Percent Conversion = (Response / Cylinder Value) ' 100 Time NOx (ppm) 8:43:54 41.66 8:44:04 41.79 8:44:14 42.31 8:44:24 42.50 8:44:34 42.95 8:44:44 43.11 42.39 Average 65 RespoNsE Trnne Tesr Response Time Check Station: Unit: Date: East cE-5 5-Nov-24 Slowest Average Time 75 seconds 02 Analyzer: Servomex 4900 S/N: 200150 Mid Gas Concentration: Analyzer Span Setting: 5.06 11.00 Upscale Response Low Response seconds seconds NOx Analyzer: Thermo 42i S/N:12136515102 Mid Gas Concentration: Analyzer Span Setting: 195 465 Upscale Response: Low Response: CO Analyzer: S/N: Teledyne T300M 777 Mid Gas Concentration: Analyzer Span Setting: 197 448 Upscale Response: Low Response: IurenrERENGE RESPONSE GENTIFrcAIES THE EFFECT OF VARIATIONS IN SAMPLE COMPOSITIONS ON SERVOMEX MAGNETO' DYNAMIC OXYGEN ANALYSERS Servomex Ir{ cAS rN.rLYStsL=A9E.:lS figure I ShaPed Pcla Pieczs Oumb-bellon torque suspension Cell Figure 2 'lfih'L a. l0% COu -0-29 x l0-2 x I0 = 4.O29 5%CO +0.07xI0-rx5 =+0.OO4 5yo n{crane 4TOxldxg = {.135 78% Nr +0-0O x lfrrx 78 = 0'000 . Effectof bac-kground gas = -O'1607o Or This effectcan be corrected by zeroing and spanning the analyser in the ustnl way and then offieaing tre zero by-({'r0l =.- +O.l6Y" Oz. For gises not listed in ttre uble. standand . tables of iolume magnetic susceptibility can be .o"irfiea and the relative rnagnetic suscepribility obained from: Ks-K, lq -K. Where: Ko = Volume magnetic suscepobility of gas (" = Volume magnetic suscepntilty of nirogen Ko = Volume rnagnetic susceptibility of o:oygen N8: Nitrogen dioxide is significandy paramagnedc- Rs it eiists in tnermal duilibrium *iO An]trWen teroxide. which is weaktY aiamagnetii its effecc varies markedly with ternpe€R re. 69 I Orygen is very s'iong:Y perama.gnetic'-ie anracted i-nto a mag.:ic iield' Vinually all other ;;;;; ; weakly die::agnerc. i'e' repelled from a magnetic field.- ln the Servome( magnetodYnamic measuring cell (F9r:= l). orfgen molecules are acracted -i,nto a .rery sirong mignetic field' This cztuses the deflectibr of a Cumbbelt' moun(ed on " toiq,ru sr.p.ntlon ,'rom its null (i-e'zgrot posititn- ft ii Ounu--on is Cetected opdcally and a current is applied to: coil rcund the dtmbtell which resto,' s it to =e nult positioo- The curenc reguired to do this's CirecW proponionat to the orrygeo concentraoo: (see tgure 21. . Servomex oq/:€n analyseis are calibrated oo a scale which is nocatiseC for nitrogen a( O and orygen at 1OO. For the highes: acctrrec'f it is necessany to correct for the iero :.-r of the background gas in the sarnple. The paramage:ic e,'fect varies with (e(nperature. Theloto."n'ng tables list measuring cell temperarures oi 20'C (foi analysers with unhea(ed cellsl, 5O'C (54o rangel. 60'C (l l00Al and I lo'C (l looHl. Octrer yalues can be found by hcerpolauion.-Assuming the tollowing composidon. and the analysis at sO'C: t: Volqmo Magnotic Surcoptibiti"/ o( G""o'(not-"ti"" Formula Molar rneg.iusc ZO'C x 10r' x 0-01% Zrro Errocso'c 6o'c I ldc x 0.01% x 0.0'l% x 0'31%/,5E:.: €+-i' . .aldehYde ic acid tone c/lene lonitrile 'l alcohol monia Jon rlene ,'on chloride ron trifluoride )rnine : Eutadiene lSutadiene lutane r-Eutane 3utene Butyl acetate :-Burylene cHrcHo cHrcorH CHTCOCHT HCCH cHr-cHcN cHrcHcHroH NHr Ar C.Ht 8Cl: 8F: 8rr C.Hr C.H. C.Hto (CHTLCHCHT CHlCHlCH=CH1 CHTCOOC.HT (CH:LCH=Ci{r CH:CrHz COr CSr CO ccl. CF. CIr CICHTCHTOH cHch (CHIITCHQH: QlHrr CrHro Crt{r C.Hr (CHOh (CrHr)rO CCtHTCHFT cFCI=cFCl COrFr CH{OCHI}I (CHJlNH CHOCHT (CHrlrNCtHr CrHrFrClO CrH. ctHroH CHTCOOCTH, CrHrNHr QHrCrHr CrHrBr crHrcl CrH. Buryne (EthYlacerYlene) irbon dioxide arbon disulPhide arbon rnonoxide arbon tetrachloride .arbcn tetrafluoride .hlorine irloro ethanol frlorofocm lumene lldohexane )lrctopentane llactopropane Oiacetylene Oictrloroethylene Oiethyl cther 2.2 Oifluoro 1 chloroethane 1.2 Oifluoro 1,2 dichloroethYlene Oifluoro dichloro methane (Freon 12) Oirnedroxy methane Oimethylamine Oimedrylether Oimethylethylamine Enflurane (Ethrane) Ethane Ethanol Edryl acetate. Echyl amine Ethyl beneene Etfiyl bromide Ethyl ctrloo'de Ectytene -22.70 -31.50 -33-70 -20.80 -24.10 -36.70 -1a.00 -19-60 -51-84 -59.90 -19-00 -73.50 -35.60 -30.60 -50J0 -51-70 -41.10 -77.50 -44.40 -{3.50 -21.00 -42.20 -9.80 -oo-bU -31.20 -r0-50 -51.40 -59.30 {9.53 -54.13 -59.18 -39.90 -37.50 -4920 -55.10 -3L10 -€0.00 --5L20 -47.30 -39.90 -26.30 -63.60 -80.10 -26.80 -33.60 -54.20 -39.90 -77.20 -5..70 -46.00 -r8,g070 -o.31 -0.56 -4.63 4.25 -{.35 -{.71 4.17 4.ZZ -1.24 -1.38 4.20 -1-784.64 -{-54 -1.1 1 -1-15 -.0.84 -r.89 -{1.9 4 -0.91 -a.26 4-87 0.06 -1.58 {J-r3 4.82 -1.14 -l-37 -L74 -1.62 035 4.81 {.74 . -1.07 -1.25 -1.17 -1-39 -1.r6 -'t.024.81 4.41 -1.49 -1.974-43 -o.62 -1.2? 4.81 -1.88 -t.23 -o.98 4.20 4.31 4.62 4-69 4.28 -{.39 4.79 -4.i9 4-24 -r.36 -1.53 4.22 -1-s6 4.75 -0_59 -1.22 -1.26 -{.93 -2.09 -r.03 -r.00 4.29 -4-96 0.07 -1-7 L -4.61 -4.91 -1.25 -r.5 1 -L17 -r-79 0J8 4.89 -{-81 -l-18 -1-37 -1.29 -1.53 -r.28 -1.12 -{-89 {.46 -r.64 -L174.{7 {.59 -1.3.r{.89 -208 -IJ6 -r.0s 4.2? -0.35 {.64, -o.71 -o.29 4.4{) 4.81 4.20 4.75 -1.41 -r.57 -o.23 -7-0?4-n 4-61 -1.25 -r.30. -{-s5 -2-15 -1.05 -1.03 _-n :1 -J'l c: 0.c7 -1.i3 -o.8 4.S{ -r ?o -r-=5 -z->1 -1-81oi9 -{-c2 -{.84 -127 -l-rl -1J3 -lJo -1i2 -l-t6{s2 -{-47 -'r.69 -221 -o-d3 -{-7r -rJS] 41,2 -?-14 -r-.0 -r-124-2. 4.4J 4.7{ 4-a2 4:3 4.45 jc3 423 4:9 -1-i2 -1.31 -{ 76 -2324i9 -{-70 -1.r5.=n -i.r0 t .., _i 1? -:.I9 -:Jt !-c8 -:06 -:-l Z -:-08_.O -.-r 6 -1 q1 -aI2 !-45 -i-05 -dJ6 :-1.40 -r-63 -r-52 -1-81 -r5z -IJ3 -l-05-{54 -r.95 -L57 -0-56 -o.92 -1.59 -r.05 -L16 -1.61 -r.28 {I-26 t 2 'l i:! :iiii': r Ges EthYlene glYcol i Ethylene oxide €thYl mercaPtan Fluorochlorobromom e:rane Fluorodichloromethane (Freon 2 I ) Fluroxene Freon 114 Furan Germanium tetrachlorije Halothane Helium n-HePtane n-Hexane Hydrogen Hydrogen bromide Hydrogen chloride Hydrogen cYanide Hydrogen iodide Hydrogen selenide Hydrogen sulPhide lsoflurane (Forane) lsoprene Ketene Krypton Methane Methanol Methoxyfluorane tvlethyl acetate Methyl cYcloPent>ne Methylene chlon.e Methylethlyketone Methyl fluoride Methyl formate Methl iodide Methl iso'butyl keta':e irrilerQ Methyl mercaPtan Mo lybdenum hexafl urcride Monochlorobenzene Neon Nitric oxide Nitrobenzene Nitrogen Nitrogen dioxide ortho-Nitrotoluene para-Nitrotoluene Nitrous oxide n-[r{onane n€ctane Orygen Ozone iso-Pentane Molar zero Etrot rnag-ruic zo'C so'c '60'c 110'c i rd' x o.o1% x o-01% x o-01% x o.o1% Formula (CHrOHh -38'80 (cHrho -30-70 crHrosolH -47.00 CFCIBT -5E'00 cHchF -48-80 CFTCHTOCHCHT -56'70 CrClrFr -77'10 C.H.O -43.09 GeCl. -7L00 crH8rctF: -78.80 He -1'88 CrH,r -{5'24 CrHr. -73'60 Hr -3-98 HBr -35'30 HCI -?.2'60 HcN -14.50 Ht -48.20 HrSe -39'20 HrS -25.50 CrHrFsClO -80'10 CrHc -44'80 cHrCO -15.70 Kr -28'80 CH. -17'40 cHpH -21-40 cHCtzCFrOCHr. -47.10 GH:COCHT -42-60 CeHrz -70'20 CH€lz -46'60 CH.cocHrcH, -45'50 cHrF -25.50 HCOOCHT -32.oO CHrl -57'20c.HrCOCHr -6930 cHrsH -35-30 MoFc " -26'00 -- c<HsCl . -7o.oo Ne -6-70 NO 1461.00 Q.|l1NOz -€1'80 Nz -1200 NOr 150'00 QH.CalrNOr -7230 CeH.CHTNOT -76'90 i{.o -18'90 GH:o -108.13 CrHr -96'63 ot 3449.00 or 6-70 QHrr . -€4'40 QH,r Tttl.to 4.77 4.54 -1.01 -1.33 -1.06 -1.29 -1.89 -{.90 -1.73 _t:.93 0.29 -2.12 -1.78 o.23 -{.67 -c.31{.07 -1-05 -{.79 -o.39 -1.97 -{.95 -{.11 {.49 -{.16 4.27 -L17 4.88 -1.68 -r.00 4.97 4.39 -{.58 -131 -1.66 -o.6-I -o.40 -r-68 0.15 42.56 -1-44 0.00 5.00 -1.71 -1.88 -{.20 -2-78 -L15 100.00 0.54 -l5r -l.,lS 4.85 -0.88 -1.01 -0.60 -0.61 -0.71 -1.11 -1.15 -1-32 -r.46 -1.51 -l-74 -1.17 -1.21 -l -39 -1-12 -1-47 -1.69 -2.0B -2.15 -2-17 4.99 -1.02 -1.17 -r.91 -1.97 -2-26 -2-13 -2-19 -2-52 0.32 0.33 0.38 -2.33 -2-40 -2-76 -1.96 -?.02 -2-32 0-26 0.28 0.30 -{.74 -0.76 {-88 -o.34 -o.3: -o.ro 4-08 -{.0e -o.09 -1.15 -'l.ls -1.37 _{.87 _o.89 _1.03 -o.43 4.1! -o-51 -2.17 -?.2t -7-57 -1-04 -l -0a -1'7L {.12 -o-12 -o' l r -O.54 -{.5: -0'63 -{.17 -o.13 4-20 -o-30 -o-3-. +.3s -2.39 -z-!1 -2.83 -{.97 -1.0: -l-15 -'1.85 -1-S' -2'20 -1.10 -1.'l ! -1.31 -1.07 -1.i; -1-26 4.43 4-dJ {-51 -0.64 4.65 -o-75 -1.44 -I.ts -l-7'l -1.82 -1.8s -2-16 -o.74 {-75 -o.88 -o.45 4-45 4-53 -1.85 -1-oJ -2.19 0.17 o-:7 0.20 42l,6 1L9L 4l-52 -1.59 -1-3 -l-8u o.0o o.io 0.0o 16.00 2o.io 35-00 -lsz -1-€ '2-28 -2.07 -zi3 -2'r5 4.22 4j3 -{.26 -3.06 -3-i6 -3.63 -L70 -zr8 -3-t9 1oo.o0 IOO-00 100-00 0.60 051 0.71 -1.6, -1J2 -1.98 -l-tl -r5I -t.93n-Pentaoe Formule Mol:r m.g.suJc Z0'C x l0{ x 0.01Yr Zcro Ertocso'C 60'c 110'C x O.O1% x 0.0'l% x 0.01% Gr: Phen:l ?hos:hine Phos:horou s o)c/chloride P,:'oprne isof.rcPanol Propene n-Propyl ace(a(e ?cogyl amine Propyt chloride ProgTlene Propylene oxide iso-?roPyt erher PcoVll fluoride Pyri:ine Sila;e Siliccn terrachtoride Sry-ne Sulphur dioxide Sul:hur hexafuoride Tet=choroethYlene Ter:hydroiuran Tol':Ene l.I.l Trichloroethane (Freon 113) Tria':toroethylene Triiuo roch loroethYlene T;inethylamine Tuigsten fluoride Ur:r\ane Vacuum Vinyl bromide Vir.:fi chloride Vinl fluoride Water Xenon Xytene (CHJIQH' S.riradr.r hrr a tor<y oa coot(rr< pro<g< impm(nd( 'dd ctfrfon ""-t' t' djrx = <rrragr rorciltcrtiors wirhost notkr C-t ClLa6lFr (rlxrl C.HTOH PH: POCh CrH. (CH:)TCHOH CHrCH=qg. CHTCOOCTHT CrHrNHr CrHrCl Crl-L OCHzCHCHT (CH:I.CHOCH CrHrF N(CH)r SiH. SiCI. CTHTCH=CHr 9o. SFr CllC=CCl1 C.HrO C;HTCH: cHChcH2cl CHCt=CClz CrFrCl (CH:):N WFr CO(NHrlOCrHr CHI=CHBr CH:=CHCI CHr=CHF Hro Xe {0.21 -26-00 -59.00 -38.60 -47.60 -3r.50 45.90 -52.10 -56.10 -3r:s0 -42.50 -79.40 -5?.-20 -t9.21 -20.50 -€8.30 -68-20 -r8-20 -44.00 -81.60 -32.OO -€6.11 -{o.zu {5.80 -49.1 0 -5 r.70 -.40-00 -57.00 0.00 -44.80 -35-60 -28.80 -r3.00 -43.90 -Tl-78 -t.39 4.40 -1.63 4.77 -r.03 -{.56 -1.56 -1.17 -1.27 4.56 -0.88 -1.95 -1.16 -1.08 4.25 -2.2O -r.62{.r8 4.92 -2.01 -I.16 -1.56 -1.57 -1.55 -1-07 -1-15 -{.81 -1.30 0-35 {.95 -o.68 4.49 {.03 4s2 -1.90 -I.54 4.45 -1.82 4.85 -1.13 4.62 -1.72 -1-29 -1.40 4.62 4.97 -2.15 -1.28 -1.19 4.27 -2.13 -r.79 4-ZO -r.02 -2.22 -1.27 -1-72 -1.73 -t -71 -1.18 -1.26 -o.89 -1-43 0.38 -r -04 {-75 -o.54 {.03 -1.02 -209 -r.58 -o.46 -r.87 4.A7 -r.17 -o.64 -1.77 -r.33 -1.45 4.64 -1.00 -2.21 -1.32 -1.22 -o.28 -2.50 -1.85 4.20 -1.05 -2.28 -1.31 -1.78 -1.78 -1.77 -1.22 -1.30 4.92 -1.48 0.39 -1.08 4.77 -o.55 -o.03 -1.05 -2.16 -1.82 -0.53 -2.15 -r.00 -1.34 4.74 -2.03 -1.52 -r.66 4.74 -r.15 -2.5e -1.5?. -1.40 4.32 -2.88 -2.12 -{.23 -1-21 -2-63 -1.51 -2-04 -?.os -2-03 -1.40 -1-50 -1.06 -1.70 0.45 -1.21 -o.89 {.63 -o.04 -1.20 -L{€, il rj il.t: ,l' Servomex A=:N GAS INA'-YSIS tarp&c.Jrdr 3.cotC,ot a{orf\ 3u ScrqDif IXL -ooqlra' 3G. Citt r. t c. ! b.rY 4.G.. l{lraoa. ltA(trollllSl tme tlLL t Ar ftqldrc+ 3t St rrlttlr lL'.. ! 0r& ftrrcr 3d. av-f! !a €l. Dqt r(lorcnrr. $ror*r*rsrellzZ, i'l &eirm'-''lr{E ll. t '.at kitt?\ciilcf,(!'<X.. !f clef G- L.( f&i frit".R'oCffi*:r;Lx.g*,n*;#r#r*r E F{ ltn$lltl. = lltalrJo-nl(a 0I lrt:lLg.rl.:r 0l| tlJl ,l al.:r l&xl l.ItGtrL E tla r{i}all lloL = (.{ l3rltlllcL Fr< lr{ls,l@ fr< llt6UJ8t-iErfc otr lrr.llctSlf.c Oll IHlc3tt ft< tEaft.rtl@f.< l3O t'rl'5' fr< lr4 liel ltl$l Anrlvzcr lnterference end Menufacturer Stabilitv Tests In an effort to assist our customers with meeting the requirements of the Instmmental Methods for testing 3A, 6C,?E, 10, and 20, we are providing I $ummary of interferences for certain Thermo Fisher Scieilific analpers- The requirement for conducting analyzer interference checks for potential interfering gases is the responsibility of thc testing organizations- The Methods do, however, allow for the manufacturer of instrumcnts to provide this data. Tests are required to be conducted on the same "make and model" as thoss being usod for mothod testing The information contained in the accompanying tables pertains to the "make" of analyzers under the name of: Therrno Electron Corporation, Thermo Environmental lnstruments, and Thermo Scientific. Thc "model" of anallzers are: Model 42for NO, NOr, NO*, Modcl 43 for SOz, Model43 tbr CO, and Model4l0 for CO:. The specific polluiant detection and analytical technology foreach of the above listed specific models have remained the same for various series of rnalyzers manufactured ov€r the past years. Therefore the interferencc test results shown for the iQ series analyzers in this document would produce essentially fie sarne results for iSeries and earlier series of these models. The potential interfererrcs g,rs test results shown in tho following tables indicate that none of the Thermo Scientific analyzers tested have a collective analytical detection interference that would sum more than 0-5% of the anallzer span value. The acceptance criterion based on Section 13.4 of Method 7E, states that thc sum of the responses must not be greater than 2.5% of the analyzer calibration value, If you hwe any questions regarding the information contained herein, please do not hesitatc to contact us. Line Manager. Environrnental Anal yzers Environmental & Process Monitoring Thermo Fisher Scientific 27 Forge Parkway Franklin, MA 02038 Phone +l (508) 553-1651 | Mobile +l (508) eI-4629 m ichael.loncar@lhermofisher,com I www.thermofisher,co,fn ThermoFisherSCIENTIFIC 73 thermoscientific Manufacturer's Stsbility Tef,t Thermo Fisher Scientific certifies that the 42iQ Series of anallzers and the 48iQ analper have been tested in accordance with the USEPA procedures outlined in 40 CFR Part 52.23, as well as Methods 7E and 10, and have the results shown below: Test Ilescription Acceptrnce Criterir Results:42iQ FrmilY Rrsults: 4ElQ Thermal Stability Drift S 3Yo of Range @80o/, of Range Drift < ZYoof Range @ 80% of Range between 0 and 40 C Drift < 2% of Range @80o/o of Range bstween 5 and a5 C Fault Conditions Alarm if conditions result in performance outside of compliance Visible and electronic alarms are a standird feature Insensitivity to Supply Voltage Variations *10% variation from nominal voltage produces drift S 270 of span (El80P/o of Ranse < l% dcviation from span for voltage change from 90 VAC to 130 VAC Analyzer Calibration Error (Response-Span Valuef <ZYoof Span Value for high, mediurn arrd low calibration sas <2o/o of Calibratiorr Span ThermoFisherSCIENTIFIC 74 thermoscientific Thgrmo Scientifi c Model 42iOLS/IIL NO-NO1-NOx Analvzer Potential InterfcTent Ges Responsm Potential lnterferent Model42iqts Test 6as Concentration As ppm NO As ppm NO2 As ppm NOr COz 5%-0.01 0.01 -0.02 COr t5%-0.02 -0.01 -0.03 HrO 316 -0.04 0.02 -0.02 NrO 47 oorn 0.03 -0.01 0.02 c0 S0 oorn 0.03 0.00 0.03 soz 27 ppm 0.00 -o.01 -0.01 CHo 50 pprn 0.01 0.o1 0,00 HCI 20 ppm 0.02 0.m 0,02 NHa 9 oorn 0.00 0.00 -0.01 Sum of Responses 0.17 0.07 0.L6 Span Value 150 128 160 % of Calibration SDan 0.1196 0.05%0.10% Potential lnterferent Model42iQHL Test Gas Concentratlon As oom ttto As oom NO2 As ppm NOx Coa 596 0.00 0.00 0.00 COz 15%0.00 o.00 0.00 HrO 1%0.03 -0.01 0.01 Nzo 47 oom 0.03 0.00 0,03 CO 50 oom o.00 0.02 0,02 SOr 77 ppm 0_00 0.00 0.00 CHq 50 ppm 0.00 0.00 0,00 HCr 20 pom -0.01 0.09 0.08 iJH,,9 ppm 0.01 6.61 6.68 Surn of Responses 0.08 0.12 0.L5 Span Value 160 128 160 % of Calibration Span 0.0s96 0.09% o.09% Note: Acceptance criterion based on Section 13.4 of Method 7E, states that the sum of the respons€s must not be greater thrn 2.5% of the anallzer calibration value.ThermoFisher 75 SCIENTIFIC Teledyne T200H and T300M Interference Check Below is the factory interference check for the Teledyne T200H and T300M as well as other Teledyne analyzers as allowed in EPA Method 7E, Section 8.2.7...You may olso meet the interference check requirement if the instrument manufacturer performs this or a similar check on on onolyzer of the same moke and model of the anolyzer that you use and provides you with documented results. Z Bslt tdTAPl Hiri L€mlca Pdential PGntial lntErf eEnt lntErf erent GE G6 ConcntEtion MXI}EH CD2M2SEHSe@r z19B $oom tvt*EM M3xf Mffio2 MGECo2 Sawr Sen-r sol NG N02 Nro ca cH4 t-E 20ppmv 15 ppmv 15ppru lOppmv sPFm SOppmv 9Cppmv c02 NH3 7SA$ 10Fpfr licl loppmv , AbElutE Sum of fieJpo6Es 1.186 L71A Calibrilim sEil S 6fi 9ooom L268 lSoom oTlo Smm o4; 8.* q175 t5 t6 10585 9oom o.1Ea o.c53 -ollB -o0e4 -oGt -a2s o.36r o.m o.o{7 ocs 0.o12 -o.c83 o.c22 {?.04? {.45 -2.97 4.7l]7 ,0.166 {.211 4.461 {.!5i{.s {133 OCTE -o€[4 osz -oo25 -o{85 ocoo -o.oq3 oo40 4.ffi a087 -L476 ra@5 "aG1o{ro o.@ ofilc {.a2 4.0&e s.m 4.CG' 4.m 4.128 c3rl {106 4.061 -OCls {o35 4051 -OGls 0041 {.o51 -OCA7 4041 -OG4 .2.918 4164 -A.H {o6a 6.ao -c015 oc00 {o10 -otr8 7.*3 4025 o{r73 -oo€ -a. 7om offi) occo Pere6i of Glhration The prefix "M" and the suffix "E" ate no longer used in the Teledyne lexicon to designate their analyzers. The "M" stood for model and the "E" saw for the "E" series which has been upgrade to the "T" series. 76 Lrneeruw Gnecx (GerlBRATron Ennon) Fonms 77 q) !9tr E oq ) 9L r- 0) a) 9. ' ' ! F.c. l \o :. ostt ?O o=aJ = o) E !lEE AE cn r- - q) aDanq) l.oNcl6l IEI =l-l _ IO z!i "t :ll= .a ; z9 "t :l6l l- Jq = z9 L- o () o \ tvtr 6 ) ,t ? \J > \o,r ; L0)zLq)Q \oo\ .f , oo$No. l t- -o\ \n(n+UU \o\oNOr! ,nGI olr0. )N rJA o0 a)t<J\Btrh ila)Ua)La)Es Or{x q)U|-qJLqJ\aAJ$at4.a ': g t- o -sz s ?E : Ho A <a 0 ao$$t- - r. lcn0) J4dq)-trE2 (nNnI rr . lU ii5. :sc a)Oo\$X(. )EliC)a.to. lIzI (()cl (n(Br! L. l lSE -h 0 r' -.! t r ^\ ., r \J F l 7A c) !9o{ ) (J t r L6 ) 6) F o\ \o\nrn rOo\r-O.{ c) = cl =E: I 6) E Ll ll : .g AE c. t r- . v. lN cnc. tC, q)?nrnc) ilL0)NGIcl .lol1l 'l _ IO z!l "t3l-l -ln J( \ I z2 _lEI-l - l\ o -r + \o$ z?, ir EoaEV>r t \J ct rno\ t\o+ Lc)EzLq)U Lro(6L<C)C) lrolioN (os$t$NC)o N@f-(o (f )c)oo 0(t l ok(.)N Ea o0 OFlx q)tBBS. c4 Iq)Ua.)La) \Hs a)(Jq)Lq)aq) !ov, ) |r l \ovq) .- rr o= sz g ?E = - Ho a <a a aos$t- *Jdch0) .! 1o=aL.=2 C. l tr ) tr l \ocac\ l ra ) Ir!U gEa= c. t$trFC)F$elIzt tr )0)€rn(€ rI ] LST >E t r \ Gt \J tr t h '6 1xc ) At r \J .- zi 79 q) fc )tr t r o( ) 9t r Lq ) l- i \o,{ \oo\c. lc] 1O€ 6) = e) = E: I 6) E Ll !g E r- \ E ln a orAEe0oilLq)Ncl6t -l3l -l l- IO zI .lsl-l -lq -\ o I z9 =l :l l- I c- t -r i l $sl ' z!2 Lr t r oaEgEV>a , \J G t-o\ oo$.+ Lq)EzLoU t<oCd !()ot<oLr0)N v\o\n\oFo F- (a lacl l- , (. )N Ez oo aFlx q)CJLBlr 1 ilAJUq)t-a)\s AJUsqJLq)q-\aq) l)aVlas oos$U .- b9 E N- > *E = L Ho a <a a a(,$+t- -Jdrn(. ) j4(€()-zLHa EIOIul s El (r ) IHO oE. : sH a)+c. lIozI (nq)GaC') (€rI ] Lvo6 Nq ) >. f ?Y o. H QJ Svsrem lureanrw (Bns Gxecx) Fonnns EaBt Sample Line lntegrity Gheck Unlt: CE-s Drt:_:L!g5L CO Anrlyzei: Tol€dyne 1300M02 Anrlyz.r: Servomex 4900 NOr Anrlyz.r: S.rl.l Numb.r: 3p.n: Themo 42i 12136515102 --d5-- S.rlrl Numb.r: 200150 Sp.n:_______g_ Slrlrl Numbei: 777SPrn:-------?E- ' lio;shaomt ::LDlGltrlIftclI-r:r Hr*8rdpolrirffi.*;sir:|M,RariolE! a I o o I (Jlllorlilon gra mrcugn compl.t. crllbrrtlon .vfm rltl Scrn Tlm. | 8:19:00 {.03 ppm Scrn Tlm. | 8:36:00 5.06 ppm og a{ o a oc Sc.n Tlm. I 8:19:00 o.03 ppm Scrn Tlm. | 8:36:00 5.6 ppm GrllbnUon g.3 0rrougn ;omplste fmpllng 3yrt.EIt.l Scrn Tlm! | s:Zt:Oo 0.00 pPm Scrn Tlm. I s:ot:oo 5.1 1 PPM Scrn Tlm. | 14:32:00 {.03 ppm Scrn Tlm. | 14:38:00 5.11 oom S.m Crllbrrdm BIr!o.zt ![0rt L 0.00 r 0t5 * - a( o2 !o I utilonuon gtr rnrcugn complat. crllbntlonrvriafr lltl Scrn Tlmr | 8:19:00 4.03 ppm sc.n Tlm. | 8:36:00 192.43 ppm o.zi g" t5c Scrn Tlmo | 8:19:00 -0.03 ppm Scrn Tlm. t 192.43 8:36:00 Ppm Crllbrrtlon gr! thrcugh rompl.t. 3rmpllng 3y.tan ,lcl Scrn Tlm. | 9:26:00 0.75 ppm Sc.n Tlma | 9:21:00 '188.58 ppm Sc.n Tfm. | fiA2:Oo 0.07 ppm Sc.n Tlm. | 1a:32:00 '187.38 ppm S.m CrllDr.{on Blrt o.tt *O.ES lt o.o2 1 t.09 x o iE oo so aa ctllbnflon gra thmuoh complct. callbrrtlons.t.fi lltl Sc.n Tlme | 8:19:00 4.05 ppm Scrn Tlmo | 8:36:00 196.00 Ppm o ic o(, I o4 Scrn Tlme | 8:19:00 -0.05 PPm Scrn rlm. | 8;36:00 196.00 ppm Crllbrrtlon glt thrcugh Scrn Tlm. | 9:21:00 4.73 ppm sc.n Tlmo | 9:26:00 195.00 ppm Scrn Tlm. | 14:32:00 -1.75 ppm Sen Ttm. | 14:42:00 '191.00 ppmllcl SFt.m Crllbr.tlon Blr3 o.tr %o.xt *0.te *1.12 r a2 Axar-vzrn Drurr Fonms Xsl CJ UI '- cl .: ol s bl s | \l B E 5l > .S ol S !{ tl i I t l ' ' o 3 l E al Pr t .a J u \(J c HLq .o ) :\ !a-a x { oU 6; cq NE > iE e E6 L <a a U)L/$tOc-Jc,()JZ(dBo2L2 oa. lIr!L) ir .= cE F .h ) $x(. )otq)a+c. l,1(9cl (l(t LE (l ) oN5>1 9! 6t € E6 l<U At r \J c!q)N .E =q )3. b <; i q)-* s c! t r iaEc ( eL€) o\ ,r 5 v tr c ) ,+ " v> \oo\+€<tc.loa.l \oo\ t€$Ne.l {,z€)U i'-o\ .+UU r-o\$O(- ) \oo\t€$Nooa. l c-o\$OU 84 oHx q)BtrV) Ia)UULq)as sUa)LsaoaA GI€l(ilooLq)aa) .a \o$ .. ' : g bt " !i - > 3E e Eb E . <a q a(, !itl' -Jd() Idq,zz_ c. lo\o(\I rr . lU e. = cl - O)N$4'F$NIzI.J6! .!c! q) AN. 9 >\ : 6:tr E<5 A:z: oN 0)on.E =e )3. b <x €t-€ q)N>a C) E6<r .r d oclq)C)oqJN {)zoU drc)(,Eo(.)N ordLC)()oLqJN \o++$INQU 85 xol CJ UI E sl H hl s | \l B r El > E il l rr tl h o 1 l E =l ti l .O S 5UFS aLq. U 3\ !E{s €$$ .. ' : 3 Ir s i? c E' 5 3 <a a U)s$r. .FloJ'C,o22 =l _ ol t - fl s - EI Ir!U a=sa. lIozi;(t ln(c 6l o:N. : -.dGl -o <8 AE \J t r f ) 6q)N "3 =q )A .e ) <) : i {)N>r o c! E tr o (o .e; rEoo Eq>i l t\or)\oFIJ odEC'().:oE()N ruzo!U oGl (.)(JLe()N Eo(6C)oo.:0)N Bns GonnecrroN Gar-cuLATloNs Bias Correction Calculations Station Mfr/lVIodel East Waukesha L7044GSI Unit Date CE.5 5-Nov-24 Run 1 2 3 AVERAGE C2 Measured PPM (Cb"r)-0.07 -0.06 -0.07 -0.07 )2 Average Low Gas Bias (Co)-0.02 -0.04 -0.03 -0.03 32 Average Upscale Gas Bias (Cr)5.10 5.08 5.10 5.09 C2 Calibration Gas Concentration (Crr)5.06 5.06 s.06 5.06 C, Corrected PPM (Cn"")0.00 0.00 0.00 0.00 \rlO1 Measured PPM (C6"r)60.21 62.56 62.70 61.82 lOl Average Low Gas Bias (Co)0.47 0.23 0.17 0.29 [Ol Average Upscale Gas Bias (Cr)188.13 187.75 187.60 187.82 NOy Calibration Gas Concentration (Cr")195 195 195 195 NOy Corrected PPM (Cg"")62.08 64.82 65.06 63.99 CO Measured PPM (Go"r)108.34 103.96 106.66 106.32 CO Average Low Gas Bias (Co)-1.1 5 -1.65 -1.74 -1.51 CO Average Upscale Gas Bias (C,")193.50 191 .50 191.00 192.00 CO Calibration Gas Concentration (C-")197 197 197 197 CO Corrected PPM (Cg"")110.81 107.71 1 10.79 109.77 * 02 LOWER DETECTION LIMIT REACHED: 02 = O o/o UTAH DEPARTMENT OF ENVIBONMENTAL OUALITV llC :,i ,:"r'l Di\,,:SiON OF AIR QUALTT^T FTIRVOGSumrnw 89 ob i>EOdE E Crao OE O) o.CL onFd .Eoc L CL ((\o oE (!(ca iE i Jo s ocn(r l+o -- o. -i (ntr OoEE =6Eu . l((C o:^EL F g, - d rC L tt vo o4c oo^ LE i5 a rE l o t-ooCJ E =c L CL I o =v , O CL - ; =g - i E 6 = ir 3 {:!: E* - = = d- . i Eg = {'t oEozgl! e: oL(, I 4 I at(C I F l'. (E o): tt: c, o I ti I I I I (t!CC ori C)cj N (ortci od 6Ed I I |r( -o I lr I I I I c|r!a T!t rMi\ EF Frtl( rarC o(tl I I I !( -o I trEC I I I I rr tE iti\:\ {F. o, IC |t I I I No -o I I I I I rE(ll JcC c( icI Ilc{o Nqo ttF.qo I I I r Io I €qo ro(r ,qNo I 'o|oqo I n c, t oD,i E (\ lF..q ( tt-qo I .D(oqo c:l o(, I I I I I @tr )ci {il, c (.,ci (t,, !,,5 t,,5 I I I ! o! t I I a I @$@d N\(. , l, )Nol 1l) (? ) roo)<, g,oqt'- 6to€q(o I I I I= lto I ooc, Itol6lc i t- t\ N(oci T cai ?3 tta; rt ( tt I r-Noqo t3i c?3 o4o I tlr, I oo)o?3 I to?r,o NN (,|( ) il (r ,Nci I)N I og,C; cr! I tq3 I tI oi9Ets il EEl = t I I I cI I I 3N I I I I I I I I troCLa,ooo ofeoYr!D IJz o:l2 E(uon2) tro)=JJOJE0)or!E OJ=ol)E6c oq,{0)ot) zq,lIJo=c,ooDqoL v I ?,trI o0)52J Eo,6n2 oo,!Eq,ot) 0, IJoootr.Fo !: s lnln; rottr jN"i I |nlntr l |f,In- ro 1{] In o o ,n q I I I 90 ,9o->(Utraoooott,trGo.Y l- CL (t , tlroot,F-opG+Joo aGEE=o+,ooF(EL+,ooctogCLEGo dto{o- 8 oEE sttr F fr ! FTIR MDG/GTS SUmMARY 91 0.t. CompanyIt{lon 5-Nos2,l------Atta;dt---------Easi - Unit cE5 -=N-- FTIR Anatyz.r 00441 Minimum Detectible Goncentration & Calibration Transfer Standard Minimum Detectible Concentration for NM NE VOC Constitutes MOC c"H.c,H,c,H.c.H. c.H., R.rldurl(pPmwl 3 2A5l 1 gtg o /300 Run 2 r,3.3231 1 / 6UBtr o t225 Mlnimumht dlbl. L_-" TUC'J NM NE VOC Equation ssmmad Nil ilE YOC R - AEEC6 r6sponse oflh. Ew data RF - R6spons6 multiplled the FID R6spon3. F.doE CTS edm.d(pml taEuEd EfrO'(i(l !t 101 9ra cTl utffi ruuE Elru Con.thu.nt (ppmwl Iamr Anal6 c,H.c.H._g_crH.c.H.- CHJ Run 1 Rts 1SA 5, | {.ta 1 lo o.o1 Run 2 K 204 23 tl Run 3 K lu5 -g_23 u.tg,in not MKS FIO Rc.poN. FrdoE 1.9 2.1 2.16 I {0.'tE 92 FTlR-Vru;oarlou Tesr Suuuenv AND QA/QG A8 Date Company Station 5-Nov-24 Unit FTIR Analyzer cE-5 Altamont Post 00441East Validation Summary Table FTIR lnstrument Make Model Serial MAX iR 04441 lnstrument Checks Readino Soecification Pass or Fail Sional lntensitv 0.0736 > u.u4 Absorbance PASS Detector Linearitv 0.0273 < 0.1 o/o PASS lnstrument Resolution 1.035 1.O4 +l- 0.04 cm PASS I nstrument Frequencv Precision 3133.070 3133 068 +/- 0.020 cm-'PASS Orioinal Laser Fequencv 1 5799.1 87 Calculated Laser Fequency 1 5799.1 76 lnstrument Laser Fequencv Shift 0.01 +O OA nm'PASS Direct Calibrations Readino Soecification Pass or Fail Elnvlene(UcF1e)-Ulb 2.O4%t 5% Certified Value PASS Acetaldehyde (GH"O)0.37%t lOo/o Certified Value PASS Svstem Resoonse Times Readino Soecification Pass or Fail CTS > 95% of Full Scale 1.20 < 5 minutes PASS Svstem CTS -0.37o/o t5% Direct CTS PASS Min imum Detectable Concentrations Calculated MDC #3 Units Ethvlene (CrHr)3.3873 ppm Acetylene (GHr)17.4295 ppm Propylene (C"H")5.8661 DDM ProDane (C"H*)2.0114 ppm Butane (C.H,n)0.7385 Dpm Formaldehvde (CHrO)1.1392 DOm Soike Gomoound % Soike Recoverv Soecification Pass or Fail Acetaldehyde (C?H10)95.63%70 - 130o/o PASS Run Validation: Automated vs. Manual Taroet Analvte Soecification Pass or Fail Test Run #1 Averaoe SDectrum EthVlene (CeHa)f2oo/o PASS Test Run #1 Outlier Spectrum Ethylene (CrHo)r20%PASS Test Run #2 Averaqe Spectrum Ethvlene (CrH,)*2Oo/o PASS Test Run #2 Outlier Soectrum Ethvlene (C,H")l2Oo/o PASS Test Run #3 Averaqe Spectrum Ethylene (CrHo)*20%PASS Test Run #3 Outlier Spectrum Ethylene (CrH,)l20o/o PASS Test Run #1 Averaqe Soectrum Formaldehyde (CHzO)t2oo/o PASS Test Run #1 Outlier Spectrum Formaldehyde (CHrO)r20%PASS Test Run #2 Averaqe Spectrum Formaldehyde (CHrO)t20o/o PASS Test Run #2 Outlier Soectrum Formaldehyde (CHzO r2OV.PASS Test Run #3 Averaqe Spectrum Formaldehyde (CHrO r20%PASS Test Run #3 Outlier Spectrum Formaldehvde (CH,O *20o/o PASS 94 Date Company Station 5-Nov-24 Unit FTIR Analyzer cE-5 Altamont Post 00441East Appendix A8: QA/QC Procedures A8.2-A8.3: System Performance Verification - Dry Ambient Air A8.4: Spectral Comparison of Difference Spectrum - Effluent Pre-Test Post-Test {nalysis Region 3131 to 3135 3131 to 3135 cm Sample Spectra Llne Position (Freq)3133.070 3133.065 cm Reference Spectra Line Position (Freq)3133.068 3133.068 cm-' Sample Spectral Resolution (FWHM)1.035 1.005 cm Pre-test Spectral Resolution (FWHM)1.046 1.046 cm Line Position Shift o.'19%-0.30% Resolution Shift -1.05%A.92o/. HrO Ethvlene cH2o Run 1 o EDo o, Manual(ppm)16.529 1.053 0.063 Auto (opm)16.554 1.061 0.061 Error (o/ol -0.1s%4.71%3.68% .9 fo Manual(ppm)16.'139 1.O24 0.127 Auto (oom)16.159 1.030 0.129 Error (o/ol -0.13%-0.59%-'l.30Yo Run 2 ll,c,!(6() Manual(pom)17.862 1.094 0.027 Auto (oom)17.883 1.091 0.028 Error (%)4.12o/"0.31olo -3.96% .o =o Manual(opm)18.644 0.937 0.100 Auto (nom)18.685 0.940 0.099 Error (%)4.22o/o {.30%0.69% Run 3 6)o)oo Manual (oom)16.853 1.089 0.043 Auto (oom)16.888 1.083 0.044 Error (%)-0.21%0.51%-2.15% .c, fo Manual(oom)16.036 1.105 o.141 Auto (ppm)16.055 1.108 0.1 39 Error (%)-0.12%4.24%'l .64Yo 95 Unit CE-S Vatidation 96 e Mstqrtfu{r s. K.lRi Unit CE-S Pre QA/QC 97 B UiX &ssJuil :4 . Ht*l R, Unit CE.S Post QA/QC 98 EftI $S 9 8 o 3 ! 5 o H s oo - : o Z o - o Z - d 3a : s ? : h : ? : s E . - [* * E- 1 3 e ^ l Ii il s[ ! l q s l r $ l $ ;3 + E $ H i e r ; i ;r L = O A ! n = ; , i , != = Y - - o ! - 9 3 i? t i { t g + ? i i I; ; : S E E i 6 : E .> ' * ; i ; ; : . 1 ; * EEv6!5 €& x-i I e s . * : : - * s 6 - -€ !: e e E - e* ;3 * ' - ' - ' E * * 5 1P a 8 : : i S : - . 6 -E r! r t [ 1 c , 8 - e I {6 - * - * e - * E * r t : 36 : ; P : 3 1 : 9il 6 = - 1 Q i Y Es a . l : = 5 E e - 5= = = q a C * i t =- v - u q ! 5 ! I jr . ? E + E M E * i! -E ? s s s s l-o:-d' .E ; E6E?3hE tL , ru i+idlE:eio:&, d,,iU, K8 i 3 fr;J I i. i i! ! {= , i: ? l- . : r? i r Ittli 99 )[t; iIIIlLI 'lti.i i ,l il)l li ti IIII tl,l I :],1 I ;' I Eir el --. - e 6 - Z - - - - - i d - - E - i -E - - - o d ; d r . . :8 s * : t o ; : E I 8 ; E- [[ ; 1 - a ^ i [ - & 1 [ [ I :8 i = f : g ; 3 ! 8 ; i3 f ; = s ' f S c q x s 9? 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C; E : E I E [ 8 . : i fr > z z z z ; i , t \ E, I 3r i TI ti lE sl ff i , {:d:Eiqiqi&lo>. 1 Dif a r ; ts d ti{ -l il ., - , ,3 7 aJ j 16 , E€ }B cI-E - -E !: e E E - E * -i i $& s i i , 3* lS a P * i l ] q a oo z - 6 a 6 : z <o -E E . eE . - i= * $ 5 n* ** f . 1 i ;e e I : ; a : . , i ; Ei I l s i S l i q -ii i l q Y 6 : o r ;: : . = 8 3 . * r I l =" - - 2 - ! i i l u $? i ? g ; J I E E ;T i E g E i E E i l t' e,g:' I H ff i r{'disgiOiAr$tr l ff i l i, $l , gl * f f ,i i E , ii t = ii i = *s ,, r; i a t * gE f i i E $ $ t f ; l $ ; i ; s *: Ii ri 3 I ? s a E + $ i Ig 5 3 { t [ : ' gi i ? : i ii ti i E i ! i i i i : i i i ; I{, fl ^i E e g . - - B R x 6 o B I tr i Zd d o Z d 6 - Il*l3li , EE$d r*? t t tr , 8 ; a !€ ; 5 E I. * " ' " s ir.9 ii 1o 2 ff i i {td: !l ,eiQ!dlO: iifl i I= r u r : B i : I r i i : l = E i ; e E i : e i i ii !: g i .t n r i e " ss l s i : * Fs F .[ * ": i: r: 3 ; E: r EE g i 3 -, j : I *: : :' I ,5 i i t ; : u i E s f i a E S ; l f i i { r i ; $ i Ei l [ [ s 3 a * s a E + $ f i g E 3 $ 1 { r i 'l i i ? ? i i t i ? i E i l i i i l i i i i r i I{HI ri l : t a I Er s te H E l at i ! I J3 " ' " I8in l0 3 .i 9l*t=l{, I -a ; I l: I t. E i o o l do e o Z 6 ; o d o d -i I g : . , r ; E E : , r 6 G P -- l III rlgtdi-l"l II l{ t l* l hu I i. I i; gi , i$ i f i, t# s i t i = r$ i s i r ,: ii $ t ; E f i5 $ g E f i; i * ; i ; $ ; t , ii i i s i S ? E i i E i i E i i l i i i i i B{5n=aE,x 8H *,i I q .J ! :r - I E -i ? 3 r: I t 10 4 FTIR Pne.Tesr QA/QC 105 Appendix At Test Plan Requirements - MAX-iR SN 00441ZnSe DTGS Test Run No. 1 Background Scans 100 Test Run DurationTbt-hrs Sample Scans-6- Spectral Averaging Time T60- min Comoound Formula lnterterants Expected Goncentration ML'G#1 MUG#Z ML'G#3 Accuracvl Precrsror Acetaldehyde c2H10 Hzo 0 to 50 ppm CH2O 0.1615 0.4909 0.6454 +l- 3oo/o Carbon Dioxide Coz 5 to 15%0.0021 0.0187 0.06lt8 Ethane c2H6 Coz 0.0172 0.1407 0.5269 Ethylene CzHo Coz 0.1 557 +l- 5o/o Formaldehyde cH20 Hzo 0 to 100 ppm 0.0213 0.0000 0.0000 +l- 3Oo/o Propane CrHt Hzo 0 to 10 ppm 0.0717 0.8159 0.4/,92 +l- 3Oo/o Water Hzo 5 lo 2Oo/o o.oo12 2.7758 0.0639 l06 Refemnce S6ectE Oate conc Patn Lsngtn conc Re30lulton femprcl Pcss SpectEl Appodiretion A@taldehyde 11114t21 10 073 9. 86 99 320 192 Tffi 111 / 9E7 1 10 lo 1,218.434 Cosine54 995 986 542.251 o 1 93.204 109 01 1 9.86 |.o14.844 n 193.120 Ethane 1t5no21 65 I)67 2858.000 to 3064.000 cm-1 Cosin€ a 191 16 000 1ql 51 000 9.86 502.860 '1.0 192.424 1.( 127 000 9.86 1.252.220 1.0 192.91 5 0.996 203 000 986 2 001 580 1.0 192.612 0 994 500 000 9.86 4.930.000 n 192.395 0.994 Water 4t1QO21 ]U 1,088.303 to 1,156.747 cc1 Cosine 0 24.244 9. a6 29 I .4 t6 200 35.990.000 9.86 354.861.400 4 1.740 000 9.86 41 1.556.400 o 47 420.OOO 9.86 467.561.200 o 1EE 699 o.999 53 030 000 985 522.475 AOO 1.0 189 448 0 989 64 060 000 s86 531 531 600 10 189 230 0 989 c 737 922 400 10 189 575 0 s8s u 10 189 7f 0 sso 100. /i 163 3291 10.670 000 9.66 1.091.206.200 1.O 120 410.000 9.86 1 .147 .242 .600 o 149 3t7 129 930 000 s85 't.28't.109 800 1.0 189.140 0.989 139 250 000 986 1 373 005 000 '1.0 1as 607 0.989 14a 370 000 986 1 462 924 200 10 183 283 0 989 s 10 1AA ?22 0 gag 166,050 172.920 192,850 000 000 ooo 1 9S 2,042,693 400 7t7 t2021 't.0 192.053 1.006 674.700 to 1,134.600 m-1 Cosine 986 202 665 433 10 191 952 1 006 q s 10 192 06 I 006 10 006 60,1 I q ) 2?5 1q2 01 1 71,449 890 9.46 .o4.495.91 5 80.409 088 9.86 792.833.60E 1.O 192_126 90.645.834 986 893.767.923 1.0 192.057 100 657 156 986 992 479.558 1.0 192.O20 I 10 450 421 986 1 08S 041 151 10 192 004 038078 10 192 14 1 192 032 m 1! 1,4 1 16 625 1t1 1,5/a 1,686 1,780 1 AA3 582.1 15 625 629 3247fi ]U ]U L lb7n200.o4 1 471 qq8 211 043 415 946 2.0E1.2E6 416 n 192_200 ffi 220.759 131 986 2.176.685 091 n 1 90 090 230 199 998 9.86 2.269.77194O 1.0 192.080 r.006 240.425.O52 9.86 2.370.591 013 1.0 192.'165 t.0062* 2S2.O12 9ffi 2.50 /.319.430 o 191.952 .06 Elhylene 6122nO21 ]U Cosrne s 4gs 986 10 1Sl 77S r 000 ]U 9 .494_2 t9 ,998 t3 ffi9S 191_I1t 0.992 3,OO1.O00 9.66 29,569.ffi0 0 191./65 0.992 Prcpane 1t4t2021 10 192 81 1 1 009 Cosine 23 ffia I 305 Sa7 10 r93 r92 , 003 50 761 I I OUU c q 1q3 I 49/ JUU 9.&509.9 rU I 2/14t2022 4.200 9.86 41.412 1 90.1 66 1.040 2723.84 to 2935.39 cm-1 Cosine 10.500 9.86 103.530 o I 3.800 986 136.068 1.0 190 268 14 700 986 144 942 10 190.2()4 21.000 9.86 207 060 1.0 190.141 34.500 9.86 340.170 1.0 190.242 48 300 986 476 234 1.0 190 281 9.86 680 340 1.0 90 026 Appendix A3: FTIR Reference Spectra {08 Appendix A4: Pretest Procedures - MAX-iR SN 00441 AoDendix A4.4: Determrnatron ot sample cell rbsorotion oath lenoth CzHo Quality Control Checks Absolute Temperature (K)T,464.929 0.85 </ (TsiTo >/ 1.15 YEST"464.234 Absolute Pressure (torr)P,760 000 0.85 </ (PrlPs) >/ 1 15 YESP,739.5 15 Concentration (ppm)c,96.499 l(Ls-Cs)-(Lr-Cr)l </ Factor of 2 YES c,102.210 Absorbance Ratio &/A 1.013 Path Length (m)L,9.860 Ls 9 672 llleasurement System Capabi I ities Gas Concentration Path Length Kesponse Time (min:sec) Dilution Factor Recovery (%) System Zero - Moisture Analysis (A4.3)N2 062 Path Length (A4.4)CrHo 102.21 9.67 Mechanical Response Time (A4.5 CrHo 101.73 0:53 Equilibration Response Time (A4.6)c2H4o 101.33 1:46 Analyte Spike Recovery (A5)c2H4o 8.29 0.08 98.74o/" System Zero (44.E Arr 3:27 eo ooot $c,a, s ,, s s ,, sIF E saqao sFq 0 ? n OE-saglc tI E N o , c I q 3 .Eo&\II E o o o\@ F \@ I,D D ccr ao oi ,Io€I o o oi c t a, .Eooq 1o ,9o t a?o E t n.t iEEi6! o oo oorio oc? o tso? o Na o Dq f o o a F6lo CLOoE3 =c6L t i oco , , , i oT^OEo-qrOLvo !,:@qo ,? l ,,, oo^sc6b- JO () :j f r E D a =ro ?) G(c oj ,q 6 o oD5 l sgGOfisqoo- E u?o €oo (a\omo No oot!tsou3 o- c I ai c oo o t tr so ao oEEoAEod6ZEO>=gLoEc oa tc)riN 3 3 o =o r{! I( ;\ =o:c E{li 3 o ! 5 3 oZo !( \!, ? 3 o 6n EN I o =o +so za & IX H2 I o(J o 0( g aa o (! .o X oaa .o oootr sq6o $Ei,, f a ;!a oo $ ix, s =a!,$l$ EI; oesb_all o !N ci c t ,\F o \\ .Eo&( {ry@ !{ ! N 6 @ ai ts d @6€\ E .e.E i {c!o E 6 ! €(om6 .Eor oo o\@ r E E c € o\@ \@ o€E E, =1E i56s o o oc 6 o!1Ic @ aio oloo N$oc oaoo {d qo a o Nio !!9c o OoEE =G6r @qo E x I E a ! o=^EFfJ,-drALY(,) clc lJ = Dloooloo?o olo oO^LC6are(, 3! f FFo )ooqo o : .E=r oo 66 I a = (c i =:o5tbsooo- o @ aa:\l f\f oo!t U4 0- oc E e l I a €Ic o3 o ioAEos EO>=ELoI6o0 E l a\Ifl 3 o I ! 1 N 32I o = I 1 E: =o @IoNoo8 o:o I( I o (I) 5;oo8 o ! 5NDD3f, 3 o 6 Es q c 1{O Appendix A6: System Parameters - MAX-iR SN 00441, A6.1: NEA See Appendix A2 calculations. A5.2 & A6.3: Line Position and Resolution - Zero Air A6.4: Detector Linearity Siqnal Avq. Below Culoff (averaqe from 1OO-5OO cm r) l,H" Direct to Cell -0.0009 \llowed Pedormance Hanqe -0.1 to +0.1 /sts Heoton 31 3U-31 J /lm iamole Soectra Line Position (Freo)31 33.0670 leference Soectra Line Position (Freo)3133 0680 tm-' Soectral Resolution (FWHM)1 046 -ine Position Shift O.1Oo/" 111 Appendix A7: Verification of Quantification Algorithm Reference Spectn Date Iomp lc) Pre3a latml genfted conc aooml MeaiuEd looml ulmEnce IDDmI Eror (%) Acetaldehyde 11t18D1 1 92 766 1.O2 10 0/3 10.0 /3 0.0 0.oo 193 )Ot 101 5d 995 54 710 o3 o52 r c3.12U LUl r u9.ul 1U6.2U4 U.U !. t4 Ethane 1t5t2021 t92.Ig ItlU 6 nl4 0l I/u lSl 919 1 006 a 300 8 404 01 130 rv1.6b2 006 16000 16 )17 o) 192 424 1 003 51.OOO 51 4/9 0.5 0.94 19? 915 n 9c6 127 (](]0 1)7 179 o)o 1d 1C2.6 t2 o.994 203.000 2U3.000 0.0 0.0u 192 395 0 9s4 500 000 500 14S 01 003 4t1 12021 1aa 45 0 999 I 860 000 I 460 000 o0 000 t6a. /6 1q 50, ooo 1C 505 754 1A o.o2 149 89 0.999 24.28O.000 24.204. t61 0.31 189 33 0 ccg 30 1 70 000 30 106 S06 o )1 189 13 o 999 35.990.OO0 35.923.22 /66.4 0.19 189 37 0 999 41 740 000 41 634 856 105 1 o)5 1 E8. /0 0.9s9 4 t 420.OOO 3ti.1 0.oa 18C 58 0 gas 74 440 000 74 609 879 230 1 031 1 E9. /6 0 990 a5 3/O 000 a5 041 256 2AA. I 0.34 189 83 o 990 s5 650 000 95 315 506 344 5 036 r u9.59 o.9ag 1 UU.39U.952 :a)1 t1 o.32 189 33 0 990 10 570 000 110 413 447 255 5 o23 1UC,3U U,gUV 2U.U /U.b36 J31.4 u_26 189 14 o s89 29 S30 000 129 645 294 244 1 o22 1UC.bl U.9U9 J9,25O.UUU r J6 /4J.294 5Ub./U$ 18S 28 o s89 148 370 000 14t 941 157 424 A o29 188 /2 1 57 300 000 157 064 il)235 5 0.15 190 03 0.s89 1 66. O50.OOO 165 341. /OO /04 3 043 189.38 1q2 a50 000 192.372.545 a77 5 0.25 1u9.13 U,99U 296.639 522 350.5 o.1 I 7nDO21 1 92.053 1 1 263 a3U o.0 o.oo 191 952 22 216 1 14 22 241 553 48 o02 I 92.U46 t.u6 04 U.UU 192 019 43.542.45/ 43 540.01 1 24 o 01 192.O2J .006 55 587.335 55.590 913 J.b U U] 192 01 1 65 639.895 65 &45 707 58 o 01 19) OOA 006 77 1 00 693 77 088 583 1)1 o.o2 192.126,E6. /O2.163 66. /01 850 0.9 0.00 1C2 057 97 555 650 97 662 560 69 o 01 192.O20 1 04.344.91 2 104 336 922 12.O 0.0'l 19, 00d 006 1a 791 673 1 18 804 031 't) I 0 01 r 92.1 4 o.o2 19) 03?ito 365 426 140 371 764 63 000 151.424 421)20.tt 0.01 t92 094 006 160 907 970 1 60 493 563 144 0 01 16 :t 0 I)l | 92.O18 ta3,04l 31 0.ol 192 037 193 047 091 1S3 053 447 64 000 r 92.036 1.006 204.O22.6U 204.029 830 7.2 U,UU 192 073 213 530 936 213 521 tO3 92 000 9? )OO )r5 1rl1 $A ))5 030 d53 t1 1 UU3 1 90 090 235 22 / a6 235.208.95 I 14.9 0.o1 t92 080 o05 245 092 /73 245 074 389 14 4 001 255. /59.539 t55,bcu 6u2 6U. /U,U2 1 91.952 0&i 2 /0. r 69.349 2 I O .245 .5',t 1 t6.2 003 Ethylene 6t2t2021 191 620 0.9c9 49.U35 49 034 u.0 000 191 t79 1 000 96 499 95 594 o1 010 t9t /6u 0 996 240 736 239.975 u.u u.32 191 /77 o.992 494 823 494 855 00 0 01 776 )OA US 191.850 o 992 994.249 991.585 6.t 0.67 1e 710 0 993 I 194 ?79 't 489 975 83 055 1q1 6q:1 u.993 1.9U/ 6til I o.stt 717 0 992 2 504 599 16 8 066 J.UUI UUU zu.b U,OY Propane 1Ia12021 1g? 81 1 1 009 0a(}4 10 80a 00 UUU 1 93.1 92 1.003 23. ttti6 23.509 o.2 0 6/'t92.636 1.000 50.261 49.834 0.4 0.85 193 309 0 997 99 4'11 9A 122 t3 130 1 93.1 32 0.9s 246 513 245.3UU 3.3 r 93.344 49/ 3rJ0 490.560 6./1 .36 Fomaldehyde 211412022 1 9U.166 4.2UU 4 20U u.u o.u0 190 052 040 10 500 to 502 00 o02 I 9U.zbU J 6UU ]J,6U2 U,U 0.01 1 90 204 040 14 tOO 14 702 00 001 1t wu /] U] J uU U,W 190.242 34 50{J 34.5{i5 0.0 0.o1 1 90 281 4a 300 4a 303 00 001 u4l b9 UUU bY.u/4 u.l u.t 1 112 r HE r s s E ; r B E E l Hh R E r e s e l E 3 3 3 3 3 3 : : 3 : : 3 1 ; ; : ; ; : ; : ' - , . 1 oo a o " . . . l : - o o F N F - - * - - -l r o @ { o F F ! O @ F O @ i @ O O r @ @ l @l @ 6 - @ O O I O E E! : E E I : B : 3 s l :: : S : : : I l S o @ N * o O O O O t s @ O l t$ 6 N v o o O l - N @ @ @ N @ N N O O r t s l @N { { @ @ F N I N 3 E: : 3 r I E : g e H l :: i : i : : i , s '' l o@ o o " ' : l : o c o N o * - - - - l o @ 6 F - r N c o @t* - O @ N @ o ; o l @6 O N O O @ O l @ \ N 6o N N N F l F@ t s @ @ @ t s N l @ q oo r N { o o - o @ F l @@ @ @ @ @ @ @ l @ " =- " - - - : " - " - l =" - . r . - - 1 . O O O O O N @ O F O t O l lF O S t 6 - $ l ! 5 E: 5 3 : E : 3 E E E I :S i : : E : ! ' - | 'l = il F$ E E $ E F e r $ ; l EH F E E * f i e l H ;; i l ; = ; i l H i l | ;f f i f f i | ; t= l 3 3 r 3 r; r; l s n P * x P l P E B E S & l gE $ 3 3 P P R l e : E s F s * = + R R E 6 l xN R R R R E N I i - -- - " - " : - - : : l :. : : : " : . 1 : * i i N @ O @ F 6 o 6 O l OO O s O t s O = l o = ts @ n o 6 o o @ c N o l NN F o N @ @ : l F 5 e!q q : o @ o - o N l N@ q q ? \ o l X l a - :: : : : : :: : : : l :: : : : : : -l : , n N o o d N o o o o a l N@ o N o o o @ l o a F3 = E $ : 3 i X ? 3 1 q3 3 5 ; R N { l E : :: : : : . - " - -: l - -, : -: . "l - 6 @ i O @ o { $ @ N $ o l ts - @ o Q N o o l o 3 EE E S E E ! E E F T I IE I E T I T T I E ,o l o o o o o o o o l o i gE E H E E B $ g B E I E$ B g d $ E E I E = SE E F g E E : o @ $ l oo c j o " " ' l : 3 $$ $ E $ $ H $ E E E I Eg g H e E E B r c d ci c j d c i ci oo o - - - l -; - - - - - - l - E O O r N o - O O q @ q l Ot o @ 6 o F O t N n F{ F O O @ N O N @ @ l NO O O N t F O I ! r E 5 3 E 5 5 5 5 B E E l 8E 8 5 3 5 3 8 1 E P EE E E E E E E E E E I EE E E E E E F I E B -t s N t s N - - - . . ] l * ;; - : : : " " 1 ; O r - N N o o { { O O O J : N $ Q F O { O Nl6 i ss s s s s s s s s s l i ss s s s e e e l ! d @ @ @ @ @ @ @ @ @ @ @ l - @@ @ @ @ @ @ @ l < oo o o o o o o o c c l oo o c o o o o l $d 8 E 8 8 8 E S E $ I , E EE B S E E E E I NN d I T NN N N N N N N I d d a d d 6 6 dd E0 l s E E E E E E E El ;5 ; 5 ; ; ; ; 5 ; ; 1 5 ;5 ; 5 5 5 5 5 le l oo . o @ o o m 6 . a r r l 5s s r 5 5 5 1 5 5 s s l I 'd o o - c i d { r i d F @ l I O @ @ ts F ts F F F F r : El o I gE E E E E E E E F F E I ; i i B i i B i f l OF F F F F F F F F F F I FF F F F F F F F I = o o (- ) o o o o o o o ol o (J o o o o o o ol <O F o O t 6 O oo @ n @ 6 s N l@ $ o o o o @ a! ! a a ! r ! oo o o o o o o Q6 @ - O N O O 6@ O @ O O N F o@ 6 t s o @ o N ci o d c i c i c i o c i oN Nt s @ N @ + @ @ os o F o 6 N N 6@ N O O @ O N qo ? q q q q q q Oo o o - O - O @N N @ @ N O O o< 6 0 N o n N 6N F O F @ O O qq F : \ q q q q ts@o @O F t e @ O O @o N o { t s @ o +o 6 0 0 q o { qq 9 q 9 q o u 1 oo Q o o o o o @O O 6 N @ - O 60 0 0 N N F O N@ N @ N N @ @ oo o o o o o o cr o o c i d o o o 60 6 r o @ o o i- @ o r o i t F- @ N N F - O oq q q q q q q oo o o o o o o TN N F F - N O FN F - 6 t N @ @O F N @ N n o c? 9 u 2 \ 9 q q \ NN N N N N N N Ol@ t s O @ O - OO @ O F a { F oo @ 6 0 @ t s t la a l a l J l oo o o o o o a N6 6 o O 6 o O 3P 5 9 R : P S uo e o e o o u 9d 9 o 9 o o q @6 6 N O O @ A @N t s o - O O t F@ O i O N t s O @@ @ 6 @ @ @ o oo o o o o o o 6O O F @ t s O - 90 @ o o o F o OO @ O N t s F O -O O O - O { i d+ d a i d . i e i e i oo o o o o o o @F @ O O O O N oo o o o o o o NF F N F t s N t s qq q q q q e q oo o o o o o o N- o @ O @ @ O O@ O N F o O O 66 @ O N t F O qc q q q 9 q q oo o o o o o o -t s O @ O @ N @ 9r i a | ! 9 9 9 OO O O O O O - ** q ! n q ' l 9 9 c l @@ @ @ @ @ @ @ oo o o o o o o il$ 9 t 9 ! l NN N N N N N N oo o o o o o o NN N N N N N N oo o o o o o o 66 6 6 @m d ) c 0 6 0 0 0 r5 5 5 1 5 5 1 1 OO @ N @ O O F N -:6 0 0 0 6 @ @ @ o8 8 8 8 8 8 8 8 oo o o o o o o o !o o o o o o o o >o o o o o o o o Et t t t t t t -a o o o o o o o o l: I I I I I I I I () ( ) ( ) o ( J o o o xo o o o o o o o ;II I I I I I I <o o o o o o o o o tt 3 N@ F @ O O N 60 N t 6 N t 6o o O N N d no r r F * @ 6 N- o N * ; F r FN t O N I i N - oo q q q c i 9 o 99 9 9 9 o 9 9 NO O 6 @ @ O @ @T O O F O O O oo 6 @ N o o F ar a a a a a a 66 6 6 6 6 6 0 O@ - N @ t @ N VN F F N O N @ oo @ @ @ 6 6 @ @@ @ @ @ @ @ @ dd d c i c i d o d nO r @ @ F r N oN @ o o o @ o to 9 9 0 t t o \r : \ \ \ \ T : \ oo o o o o o Q @O O e t s t s t s O @6 N O O N O O ot o t s F o o o .! N a 1 a q . ! a ? @@ @ @ @ @ @ @ o@ o o N o o @o N o o t 6 N@ N N N N O \q q q : q q tt o o 6 6 0 oo o o o o o N@ O O N N Q so i o 9 N @ ON F t s N O O c!q q q c ? a ? o ! @@ @ @ @ @ @ o- - F o N F @@ o o @ o @ OQ O - O N O @@ @ @ @ @ @ oo o o o o o I oo t s N - o o - l = @O t s - t - 6 O l F - F @ @ @ @ @ @ ts l @ - oo q o q q o c l q oo o o o o o o l o II 6N Q q 6 - - - o l - NF U O @ @ N 6 I € o 3E E 3 8 3 8 3 1 E oo Y o o o o o l o I @@ o 6 0 0 0 q t @ 66 r O @ 6 0 0 1 O - NN N N N N N N I N - oo o o o o o o l o oo o o o o o o l o III . EE g g E E g E I E 99 o o o o o q l 9 II co @ o o r 6 o l F {o @ N F O O O I O - 6* s { O q i t l o - oo o o o o o o l o od o o o o o o l c i II Ft s - O O @ @ { l N o{ u F @ r o o l o ^ OO ; o F @ F o l n v o- i j q - o o q l q oo ; o o o o o l o ,, - , | ' II No o 6 o c c o l o oN @ r t r r 6 t N O O- O O O O - O l o ::: : : - : : l - oo o o o o o o l o III 6O F S N - 6 . . 1 @ Nr @ + o o x i : l @ ^ Nr O r O - x h l o u oo o o o o . 5 : ; l o ee e e q q E E l i III @o l t s o o o o l e @@ F F O O o F I @ - OO O N O O O A I O FN O O T @ F l o oo o o o o o o l c i III NL t O t i @ O l o -: i N O o o t l H -O N O O F O I o e ob o o o o o o l o qo q q q q q q l e II {@ o - o * o - l = OO @ O N @ N O I F o @O 6 O O 6 O t l 6 NN N N N N N N I N ci c i o o o c i d c i l c i II $$ N t s o o * o l - @o 6 0 N r o o l @ ^ NN O t @ - t O l ! -N O O N - F l F 99 9 9 q q q q l q I ol I o o @ N @ o * o l - xi s 9 $ t o o o o l n : N N N N N N N N I N Y qo o o o q o o ? l d ! o o o o o o o o o t o -l 9 o o 6 @ N - o o l - I O r O O O @ 6 @ t @ Y o O O N - N < N l N 3 co o q q o o q l q -- o o F F F F t - I O O O O O O O O T O F _ _ t_ -1 . t @@ - V N O o @ l O O N - F O O 6 q Ol d ri 6, b r t b 6 o i o - l b : : r : : r - N qll t @ @ @ @ @ @ @ @ @ l < o o o o o o o o o l r r f * = r r t N N N N N N N I o o o o o o o o o l NN N N N N N I ; ; ; ; ; ; ; ; ; l - - - - - - -t 6 6 0 6 6 6 0 l IIIIII ml1l rc l YIol I i 3 m6 6 @ . . . . 1 't !@ N d o c i - o i e i l NO O O O T : r ' -o o o o o o o o l = . o o o o o o o o o l = a - o o o O o o O ol A g :8 , 8, 8 , 8, 8, 8 , 8 , 8,1 6 6 U U U U U U U U U I [0 @ ZZ Z Z Z Z Z Z Z I FO @ N F - O ts o $ @ 6 Q t @F @ t s F @ @ qq o 9 q q q oo o o o o 6 oF @ o o { @ 9- @ @ O O - . {@ 6 { 6 @ @ q9 u ? 9 q ( ] u l oa o a a o o o@ N o @ @ @ oo o @ t o N @o 6 @ N @ O qq q c q c q oo o o o o o oo @ @ N @ o NF F @ @ O F @O O O O Q F 9c ? c ? o i c ! : . 1 oo o o o o o @O O Q - N N NN N O O O O Nts N t s t s F t s qq q q q q q oo o o o o o @N @ l O O e q1 Y ? 9 q ! : r 9 : *io o a o @ !! ! ! 9 . l C t $ 9 1 ! 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E E E H E E E H P S $ H E E H H E * E H S E E E S 3 f , 3 $ 3 I P @ { ri G i ; ; - ; ; ci c j d o o o - o c i c j ; o o c j c i ; cj c i c i c j c j I OF N { O O F O F @ O O O $ $ O O $ t O O 9 $ l i O O S S 9 6 6 @ @ @ @ O O o 6O + { t t * T O F O O O O O O O O O O O O O O O O O O O O O O O O O O O O O @@ @ @ @ @ @ @ @ o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o q q q q q q q q q q q q q q q q q o? q q q q q @ o ? q q q q q q q q q q q q q q oo o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o OF F N @ t N t 6 O @ O O O O N @ @ N Q N t O O t s O O @ O n O t s * O @ O @ O @ -O O N N - O FF @ N @ @ t s - O O F O N - FO @ 6 F F O @ @ O O @ @ O F O O O OO O @ O O O -O O O O O O O O O O O O O O O O O O O O O O O O O @ O O O O O C q C q q ' : r .: . : ' : q q q': ' : ' : q ' : .: q q q q ' : ' : q .: . : q q q ' : q q q q ' : .: . : oo o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o 6-@ e F N N N @ O @ S O t O O O O F @ F F N N N @ O @ 9 O S O 6 O O F@ e F c! 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A q q q S e !! t q A S q q q q S q q q q q ! q q q oo @ o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o oo o o @ o o o o o o o o o o o o o o o o o o o o o o o o o @ o o o o o o o o a@ 6 6 O 6 6 8 ( D O O 6 O E 6 O 6 O O 6 6 6 O O O m O 6 c 0 O ( } 6 O O d ) m m 6 @ @ O] JJ ) ) ) J J J J J J J J J J J J J J J J J J J J J J J J J J J J J JJ J J N v o o ts d oj o - 6i o * o o x d o c j - o aj s o <j s o o o - N cj v rj @ ts d oj o - .i ' @@ @ @ @ @ t s t s F F N N F F N F @ @ @ @ @ @ @ @ @ @ O O O O O O O O O O O O O oo o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o 9 t s co o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o .= o o o o o o o o o o o o o o o o o o o o a o o o a a o o a o o o o o o o o o o FO O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O , o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o i r' * ' * ' * ' t ' *' a' -' *' * l *' *l * ' tl -l t' * l a ' t ' * l *l tl- l t l t l * l * ' * ' * ' * ' t ' t ' * ' * ' t ' * ' * ' * ' * ' E 0( tr d t d t e t d t d. t t t r d t t d d t t t d d t t d d t d s . d n t E t t d tr 9E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E ;o o o o o o o @ o o o o o o o o o o o o o o o o o o o o o o o o o o o @ o o o oo 6 6 46 6 6 @ @ 6 0 6 6 0 6 A 6 q A O 6 q q q A O da ao a o a a a a a o @o oo o o o o a a o o o o o o o o o a a a a a a a a a ;e e e e 9 9 9 e 9 9 9 9 e 9 9 9 9 9 9 e e 9 e e 9 e 9 e e e g e e e e e 9 9 e >o o o o o o o o o o o o o o o o o o o o Q Q o o o o o o o o o o o o o o o o o U, N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N Nn o o - o * * l - d 6 o N F 6 N Fl6 o @ 6 N N O 6 0 l O F-N N | I " - : :- : " =l : @ o N o o @ o @1 6 - 6 6 0 6 t s 6 0 l O : : : : : : :: l : @ o F 6 - - - -l - 6 + @ O @ O @ O l @ 6 0 0 @ @ @ @ N l 6 FFF F I F ci d d d o ' d d d l d + F o o * - * =l - 6 < F O i F N N I O N d 6 N N N F o l N 6 6 6 6 @ @ 6 6 1 6 ru r u a i r u N N ^ i ^ i l c i NN 6 @ - _ _ _ l - t N N 6 6 F O @ l t 6 0 @ o o o o o l o N N .1 N N N c? c? l n l o o o o o o o o l o o N N N - - * -l - @ o @ 6 6 @ N @ l N N 6 6 6 1 6 o { c? o @ @ v ql a I 9 I I I I I9 1 9 o r 6 o - = * -l - = 6 O @ F @ O N I N o o 6 < @ o * o l @ o6 o 6 o o o g l ( | o 6 o o o o o o 1 6 @r r _ _ _ * * l _ o F o O O O Fts l o 99 9 9 p 9 9 : l ! o ci o ci o o o o l c i I *- r - - l - +r @ 6 o @ I o l F 6O o - r o - f @ l - -O O F 6 O r - 6 l N sr r o < i c t P d l t s I *- - - l - N6 N 6 N 6 N N I O OF F t s O v O F I < {o @ o 6 @ o o l @ :: : " _ : : - l : @O O N O N N N I O FO F O O + @ 6 l i 60 0 0 0 0 0 0 1 o o c i c i c i d i c i . i c; lc i co r o - - * - l - OO @ @ ! @ O N I F Go N o 1 6 - 9 c2 u? ot c! o. t l c ? c I I I I I I gl 9 66 6 o - - - - l - N N N N O O O O I O o o o o o o o o l o 6 0 6 0 6 6 0 6 1 0 o ci c i o ci o ci dlc ; -_ - * l * N { t - t @ O F l { @ 6 @ @ F @ O O I N :: : : : : : : l : o 6 o o o o o o l o -- - - l - r o o - * - -. 1 3 , N t 6 - N W O -1 6 6 6 6 Ai di 6 ai Nl : o o o o o o 6 9 1 ; Nt s N N N N N N I < oo o o o o o o l + + + cl NN N N N N N N I oo o o o o o o l NN N N N N N N I a; ; ; ; ; ; ; l F F F F I oo o o @ o o o l II 3l ;lrli. . . . . . . . 1 qlJ J ) ) ) ) r l I r i d i o o i o - ru l =@ @ @ @ 6 0 0 0 1 ts $ v $ t l 9 s s l u8 8 8 8 8 8 8 8 t o o o o o o o o o l c o o o o o o o o l =r t t r t r t [ 9 o o o o o o o o l ! 6 6 6 6 6 6 6 6 l .E a o d o c a o ol E6 d 6 d d m 6 m t - - - - - l o a 6 a a a a a a l o o o o o o o o o l o c 0- 0 - a o o- o- [l Fo @ o - - * l - @ 6 O F t @ tl@ N t s - 6 O - Olo o o o N N r NI Q : = " - ": : l - o ts o o @ o @l o o O @ @ O t F I F : : : : : :: l : ts - F @ * - -l - @ o o o o o t s 1 6 6 F o O O O O l o N N o ! c l . l .l c! l. . l o o o o o 6 0 l o 6 o o r - -- l - oo @ @ o N o l { 6 6 N I N 6 o 6 6 O r ol ( ! 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N l c ! m 6 6 6 6 6 @1 6 r r < i - -. 1 = f + $ q i t t l t 6 6 @ @ 6 0 6 1 6 o o o o o o o l o . . - - - - "l - E r N @ 6 F NIO o o o o o o @l o :: : : : : : l : oo o o o o o l o :- : : : - - l ; N t O F O t O l d TT T T T s F I : oo o o o o o l *- * o = o o l NN N N N N N I oo o o o o o l s! ! ! ! ! s s t l o6 0 6 0 6 6 1 :: : : : : : l << < < < < < l ) ) ) ) ) ) J l 6N @ o o F N l NN N N 6 O O I oo o o o o o l oo o o o o o l 88 8 8 8 8 8 1 o, o , o , o , o , o , o , l o o o o o o o l v ! r ! ! ! ! l aa d o a d d l oo a a a a a l ooc?@I@o.!o@oqN@Fci@@\o@@o@ociooqtsF\Nq@@@qoo@oI6!!Foooo@)oNooooIoa(n +$za&IXtsaIQPooFoIetraBqg& aN O t s 6 N O Q O t s N S F N @ O @ N Q @ @ O N t s O O O O O r @ N S @ O F @ O O : r o o N t s N o $ o o o o o t F Fo o 6 9 @ o @ N N N o N o N @ F @ @ o 6 i @ ;O O O O t O { O O F t - O 6 O @ O N O t s - e t s O O O O @ t e @ @ F r t O O O d q q q q \ q \ I q 1 c2 a ? c ? o! . ! r q c ! r - c! q . ! q n .! - - a r : a n r : c! r r ci 1 T9 r 9 9 I q9 g 9 g q I g I 9C q I 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 ll 6 o@ o o @ o @ @ l - F N o o i i F o l - OO O N O { @ O l O @ O O O @ F O O I o FT O O O { - N l t O@ O i N F F O I N NN N N N N N N I 6 ! 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" " " - - " 1 " "" " " - - " . 1 " @o O N f OiO I F @O i O N @ 6 - 1 6 rO r - ! - O - - l F FO N N N N F N I N - F - FtF - - - -t- ci ci o c i d d d d l c i d d d d d d d d l c ; ss $ E ; t * n l s sE E E l u : s l u 9? 9 9 C 9 9 9 1 9 oo d g o g o ? l c ; lr *- * * l - o* N F o o - o l * 60 6 @ F 6 6 o l N @N N @ O @ O O I N ON = O - O @ - l F O@ t s N 6 O O @ l E - N. . { . ! o l r: o! 1 . ! . ! q . ! c! o l c! . ! . 1 1 6 ! oo o o 6 o o o 1 6 oo o o o o o 0 1 6 lr @N o @ - o . - l - o @ o o o o o - l - O6 * - O @ 6 @ l o 6O - F O N t O l o ON O t s O N @ t l t s 6- @ O O O 9 6 1 t s oF Q o a - o a l o oF o o o o o o l o oo o o o o o o l o oo o o o o o o l o I *F 6 t s o - - - l - No @ o - o o @ l @ I i- et ; 6 io ; 5 +1 5 g E I R 5 b Nh l s -F 6 6 n O r O l O ; ; a i 6 f l a d ( b f , l i ; n r { o o q N u ? @ l G q - -: - : - : : [ :: : : : : : : l : @N F N - N O @ l N OF O O @ { N 0 1 6 Oit s o N N @ N l N qO @ O O N @ - l { oo o o o o o o l o NN N N N N N N I F 99 c 9 9 9 9 9 1 9 9 q 9 9 9 q 9 q 1 9 tt o- - - l - d 6 o 6 - - - - l - NN O t s + O F O I @ O F t s @ F N O 0 1 6 o6 6 6 l a NN - O O O N O 1 6 o6 0 9 * s i { l t @@ @ @ @ o o o l @ ci. i . i 6 o c i c i c i l e i oo c i c i o c i o o l e i _- _ _ l - _ 6 o 6 - . _ _ l - ER E E E E E E I g 5: E E E $ : E l i I q g I I o o 91 9 o g g o o cj o olc i lr 6o o 6 * - - * l * c@ 6 6 - * - - l - oi - o o o o o l o @@ o @ N a @ N l @ oo o o o o o o l o @@ @ o N N N N l o o6 o o o o o o l o oo o o o o o o l o -- - " - - - - l - ". - . - . : : l : FO O @ @ O @ O l @ @{ N o N N @ O l F -o o @ N a @ @ l @ oo - - o - F F l - oo o o o o o o l o ! oo o o o o o o l o -F o o o o o o l o -r F F l - oo o o o o o 6 l o 66 0 0 0 0 6 0 1 o o o o F * - - ol g , @ N ts o. . - -l g , i: i : I E i l l i EE E E E E g : l i oo o o o o o o t FF F F I -- = - l as r a = = = = l dn c n d n n d d l NN N N r oo o o o o o o r o- - o l n; n ; n an n n n; n t r: !! ! s l! ! t! sl l ;6 6 ; ; 6 b ; l RR R R R R R R I :: : : : : : : l = P P E = = ' = = l ) ) ) ) ) ) ) ) l I ri a i x o o i . i ; ^ i l S I @6 6 6 6 6 @ @ @ l : I :g g E E g g E g l -[ e e e ? ? 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F o - o = o o EE S g E S E B oq d o o o 9 o FO O O @ N @ Q o* o 6 i 6 n o - Oo o o o O O O - oo o o o o o o oo o o o o o o q! r o N N 9 ! ! r !O O O F Y Y O o 88 8 8 8 8 8 8 gc j o a o 9 9 a FF Q N F O @ 6 ON O r t @ O O NO O O N N N O NN N N N N N N oo o o o o o o O@ N O E 6 @ 9 ON O @ { e t N ot t o s 9 0 0 cc c q c c q q oa o a a o o o ts O Q - @ t @ F 66 - F N @ O @ OO 6 - t s O * t s @6 N O t s N t s @ -- ; ; ; - ; ; OO ^ N 6 - t N oN X @ ? @ 6 o rN X a N o o N qs ? c j 6 r q N c ? 99 o 9 9 9 9 9 O@ @ 6 F @ O t OO O t o - @ - 6@ N O 6 N 6 0 qq 9 q q q q q NN N N N N N N oN @ @ o t s Q N F@ N @ O t s @ F Ni@ 6 N N O O N6 @ O 6 @ 6 N oo o o o o o o @N F t O O O F NO O O O N i O FO q O O S O O qq q q c q q c oo o a o o o o N{ O 6 @ t s r O FO O 6 O N F N oo O o S r t s @ CC q q q ' : q q oo o o o o o o rO @ 6 O @ O O OF O @ @ l F O F{ @ l O @ O O oo 6 6 0 0 0 0 +a i d o * c i = c i OO @ F N F @ 6 @F F O O O O O O@ O N @ - 6 t \q q \ q r \ q oo o o o o o o QO N 6 F O @ -6 l F 9 O N sii o 6 0 0 @@ 6 @ @ @ @ oo o o o o o @6 { F O @ O O rr r F O t s t O NO @ r @ 6 = O elq . ! c ! c ? . ! c 2 q oo o o o o o o l@ F @ o 9 0 @ oN @ N N @ @ O o@ @ t s @ t s t s Q @@ @ @ @ @ @ @ ss t 9 $ s 9 i OO O - 6 @ N O SQ t s N - 6 t s F io @ t s F o o @ \q \ \ \ \ \ \ oo o o o o o o oooINNoooocoN6qoFci@\@N@@IoFa NN F F O 6 O SO O F N t s N @@ t s o o q @ eq q q q o q q oo o o o o o On @ F F @ @ NN e t O 6 O @o o o F o o qq . : q q ' : q O@ N O e o O FF O @ - - F 6O O F @ N @ oo o o o o 6 ci- c i - c i d c i FO N @ O N i @o @ @ @ o o o@ 9 6 6 N O qq q q q q a 99 9 9 9 C 9 oqlNo@o {l a NO F O O O O 9Q O O O F O oo o o @ a o qq o q q r q oo o o o o o NO O d N - o EE E E E E E C9 9 o 9 o q ts 6 N 6 6 * N OS O F O O O ts N @ @ t - O o@ o 6 N o 6 o* + q o * * 66 0 0 @ o @ ts o N o @ N o $$ { S - O o qq q 9 ' : q o l to o s i s o O@ O N t N F O6 O F d d O FO @ @ O 6 0 \\| : \ \ \ F : NN N N N N N @o o o { { o Ft s @ O O O O oo @ F @ t N 1q ? q q q l a oo o Q o o o @N F t s @ O N FO O T N O $ NN O N N N N qq q q q c q oo o o a o o No Q 6 = 9 o oo e r N U r F 88 5 8 E E 5 ;;o : o o o -^ . - - $ F , ^ +i : o H 9 Q ! r x NO X O : : N 66 Y 6 V V 6 oo , P o : P o FO O O @ O N oo @ 6 0 @ o ON - N O O O aq q q ? u ? a a oo o o o o o rN o @ o o @ 6O O O 9 O - FN F F @ O N qq s 9 q q 9 oo 6 N + o @ oN o a o o 6 @@ @ @ @ o * 9. : . ! c ! q c . 1 q -N N N N N N oo o o o o o o6 n @ 6 N N o@ 9 @ o o o @@ O O O F N oq : : : : : tl t s 9 t s -O @ @ @ 9 @ @o 6 0 N 6 6 NO N @ N N F FO o O o o o -; ; ; - ; - @N @ t 6 F O NN N N N t s @ oo o o o o o oo o o o o o oo o o o o o Nca @O N @ - o o @@ * o o N 6 F- 6 O O 6 - \\\ q q \ o q @@ @ @ @ @ @ o6 0 t o N F Oit t s O N F oN @ @ o 6 0 qq q q q q 9 oo o o o o o Q@ N N o o @ 9- O E O O F vo o 9 0 0 0 9o d 9 o o a NF N F O N @ @ @ O @ N @ F F O OF o N + @ F N O { F @ O O O - @@ @ @ @ @ @ F @ @ @ @ @ € O O v= s t v ! ! s s s v v { t v v oo o o o o o o a a o o o o o o ON N N O N t s @ - 6 t s F N . ^ O N ON @ @ O i 6 O 6 ; O F N = F o FN @ o N 6 o F O I - - N t u N F qq o 9 q q o q q o q q q d q o 99 g g 9 9 9 9 9 o q g g o q g 9! ? 9 P o @ 6 6 @ o 6 r o t s o N =: : Y E + O * O @ O O { O O O O :q ; ; N $ 8 S 5 E E E S 8 5 5 ::: : d d d d c j d r j 6 d d r j < , @6 6 N t s 6 @ 6 6 6 * 6 6 6 0 0 66 o N @ o t s o N @ 6 O @ O N F O6 t s - F @ O O N O F O O O F O oD N N t q @ { @ a o o i a o @ -- - - - - - - - - - - - - - - OF o 6 O @ N F N O @ 6 F N O @ ts O @ N F @ O @ O O t s O O t n @ OO O O F @ O O F O N O N O O O O- O O F F F N N N N N N N N N oo o o o o o o o o o o o o o o oio N o r o o N o @ o F N t s Q 60 0 @ o o @ t s o o N o t s @ o o OO F O N O O { O O t + O t l t oo o o o o o o o o 6 0 0 0 6 0 oo o o a o a a o o a o o o o o ;E * B f i i F a R F E E s R E R NN N o : L : Y f N O F N O O N N Ei i i t r H N E ; ; : E * i E : 66 F O t O F O O O F O < r ^ , ^ t s oa F @ 6 0 @ o @ o { o 6 x = o 35 s R 3 R € S R 8 : 8 3 H 9 + lc q T q ' i Q 9 + q q g 9 6 . ; 9 @@ o F t s @ o @ @ F F A t O N O oo o F N F N t o @ t s * o @ o o @t s o N @ N 6 N O 6 @ N 6 N O O NN @ F O @ t s @ O O O O O O O O c, , i ci . i . i - - - - - - - 6i . i . i . i . i F@ O + O n O O F t s O N O O O O NO t s t s 9 O O F o 6 @ N O F F A {@ O O O F A @ O O @ O @ 0 O A oF o o @ @ o o @ o 6 @ o o F o d d d d e i ; - ci o o c i c i c i o d c ; OO O F @ @ N N O O F ! O F t O FD @ F D @ O @ @ O t s O @ F O N OO @ - @ O O O N @ @ O F F @ t @N N N * F @ F O @ @ @ @ 6 O O qi ai d d d Gi - - ci c i c i c i c i o c i c ; oo o o N @ o o o @ @ o @ o o o -F @ @ N N I N t s O O @ F @ F l F@ @ F F O t s 6 @ O O N O O F O u? q q q q q o? q q' : . . ! ! : ' : r: r OO O O O O O F oo o F o @ o o t s o o o o r h o NO @ O O N @ N O + @ O N O O t OT t O F O O F F O O O O F 6 @ oI6 i F F o S F O F F O O O O -- ; - ; - c i - ; ; - - ; ; ; c i EE R & 9 F o ! i { o @ o o t s @@ 6 N i r . a : Y . o F o @ o 9 & 8 66 F N Y = v r - 6 N 6 6 - S g $ 6i 6 i 6 i ; Y Y : : 9 q ! : F : ' : oa o o ; l : l a Y @ o N F F O O a NN N @ O O 6 0 0 F @ O 6 N N O OO F { 6 O @ O @ { N @ O F N O N- O O O @ O @ O O l N 6 O @ @ FF - O A n O @ @ @ O @ @ @ @ @ i r { r 6i ; ; ci c i o o d o c i o c; oO F @ { @ F O O @ O O { t s O O @N i o O O @ O O O O F @ N t O OtN t O N O F O O t N O ? - F -O - 6 O 6 * t - N O o O + O O ; - - - ci c i c i c i c i d c i d c i c i c i c i O@ @ F O F F O * @ O * O O @ O 6O N @ O t l O { 6 N O F O @ n NN N N O O N O @ @ l O O - N O oo o o o o @ N o t 6 0 @ @ @ @ ao c i d - c i e i t s s s * + n s i RP x o E P * : 3 3 $ 9 6 E R E 88 E = E H g E s E s s s E E P gg c i c i + t s 6 i o j P 9 9 P 3 9 3 P I{o sb3g ECI Pd ,? ar vO o- : CCI6o(C o (. ) gr TaqoICc opoi5cooo.=z = ot .9 0 ooZo zE C=Iq 3q GoEc CccII "i r' E (J ! uJ q CCc1!a0 -9 IGN!of i (I oEoEoFo6Eo 11 9 O@ - o $ o t o @F @ O O @ { O OO N N O N N N NN N N N N N N oo o o o o c i o FIN @ t t s F N @o + t s @ N F @ NN O Q N O N O ': ' : q q q q 9 q @@ @ @ @ @ @ o ts S @ F N N O F @@ O F @ S F o r* * 6 * { i i oo o o o o o o oo o o o o o o o@ o N t + o o -N @ t s 6 0 N 1 oN t o @ o t a \\ r : r : \ o q q r : NN N N N N N N N* O F O - O @ @O F { N O @ O N@ @ @ F @ O N 6N N E O N N 6 @a O N h F - F 6;F FO li O O O t FN qo : c ? q . ! c 2 A . - ! 9c i 9 9 9 9 9 9 N{ O O @ O N - 6@ N F @ F O O N@ t s @ F @ O 1 NN N N N N N N NO N F N @ { N NO - @ @ - t @ -N N N O O F F 66 N O 6 @ @ O oo o c i o o o o 9- s o $ o N F yN O O t O t O XO O - - 9 t o '1 S + { O O N N I ci . r . , ai ci ar a , oN @ o o 6 n o @- - o @ F N O FF A @ O r e N .t! t a q c ! q F : u ? @o o N o o N N OF t s @ O O Q F ts t o o t s N @ o FO @ O @ @ @ @ oN O F O { - @ o+ c i o i ; - - o i @F F F F F N @ oO - @ O @ @ @ 60 $ @ { @ $ { 69 0 @ @ F $ @ OF N @ F r t @ oS t r i n $ o OO N O F S O NN N N Q O N NO N N F O @ I + V r + OO @oI NN O @ N O O @ o6 @ o N t o { NT O 6 O O O o qo q o q q o q e e q oo o o o o o o tN @ i ? o 6 0 OO 6 + F N { @ 60 @ i @ @ 6 0 q' : ' : ' : ' : ' : ' : r oo o o o o o o @F @ t s O 6 @ o -- Q o n O O @ oN @ o N 6 @ O o6 $ Q 6 6 V { FT O O O N Q O oo F @ o o * 6 66 0 0 ! _ o 6 N oo @ o o o o o ci c i c i o; ct c; o tsNts 9t s @ @ N 6 @ @o N 6 N @ 6 ts o F o N o o e? 6 2 1 a q a a ' l O-@ O F C O FO O N F O F -O O o O O O @N t s N @ @ @ FN @ l - O O F @N O @ O O S @ tt v l { v t s q@ o q q q q q q oo o o o o o o @N N O F O F @N - e O t g -t N O F @ O qa 9 s q q v l oo o o o o a NO O F F { n 6N O 6 + F @ b@ @ @ F @ @ aa ! a l a a oQ o o o o o Nt s o ! 2 @ Q o 55 9 t P : ! oo S o 6 o b 99 c i 9 c i 9 o @F @ @ O t s @ SF l O i O o FO N O A F @ qq q a q q q 66 6 6 6 6 6 NN F N @ t - O NN { * - € O t 60 0 0 0 N N o ..1 . ! c ! c ! o l o ! N q oo o o o Q o o oo o N $ N @ t s @O N o r O N @ o6 @ O N F 6 @ FO O F O N O O oc i o o d o o o ts @ @ N N i oo o N t s o so a @ o l oo o o a o @o oo .i 6i @o @ o o o o @ Ot s F t O O O t s O- N @ O @ O O q? a a l c ? q ? l a OO 9 o o - o N t@ F - N O O t 60 ? o o i N o oN O O O O F o 6@ @ t s @ Q t s O FO N O @ @ O n r: q' : q ' : q q oo o o o o o o F@ @ N N @ @ @ OQ O - @ - S @ @O N O O - N $ qc ? c l c ? c ? c l c ? c l oo o o o o o o $F @ @ @ N @ t s N@ N O @ @ O @ 60 t + t 6 { a qq q q q q q q r9 i s t i 9 v FO O $ l O O t s @F @ o @ o F o @@ N @ @ @ O @ NN N F N N N N oo o o o o o o ts o o o t N o OO F F @ O O ia N o o @ N $O O - F O F oN @ o o o o NQ @ O O N @ a@ @ 9 6 0 $ 6g * q l t t oo o o o a o \o * - r N F 9N F O O O N !F - F O F r eo o o o o o 9d d o c i c i c i 12 t J oO t s O r F oN @ o @ @ NO O N O O c! c l N N N q oo o o o o NO N @ F - oF o - o o ot t $ 6 6 90 q q 9 9 oo o o o o N{ N O F - @$ o o t t @N O @ 6 @ qq o q q t r : NN F t _ - E NO . ^ 6 - F il o i i N o 6 @ @ i^ @ oo oo = t s F - 99 o 9 9 9 @@ { o { t @t o o r F nN o o o o oq q q q q NN N N N N oo o N s t o@ o a @ @ N@ F @ O O 9q q t N q q oo o o o o N@ N O O O ON O T F F ot s @ o o o r{ t t t { dd o e i e i c i *t l P 5 5 6! i i 5 9 q oe o o Y Y og o o 9 9 6N F N O O IO N O N N N@ O t @ @ qq q q q q oo o @ o o l@ o o @ o N- F N F r @6 @ F @ @ aq \ q q u 1 to @ @ t s F ts O O F N t s NO F @ 6 0 qq q q q o ? 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I c q oq q o? q q q q \ o oq a 6 @ I a e? o q c, ! q : q q ON N N N F F F r- N - - - - N x9 e B S P B s 5 9 ; 4 3 6 s : * r gP B X B h B p S S e R s p s 5 e S S e E E3 s H 3 & 3 E 3 5 s B P $ 5 E N 8 R { g R 5 E S E 3 : n 3 3 E e 3 3 5 N H 3 o go 9 9 9 g o q g 9 o g 9 o o o o 9 9 9 9 9 o 9 o 9 9 o 9 o o o 9 o 9 9 o q N@ N O N O O @ @ @ @ O N F O T O O N O - O @ 6 @ O O NF @ 6 O O O @ O @ @ - i@ t s O F t s - O r t s O O @ O @ t s N O N F O O O F @ F @ @@ O O - @ F F N @ F O ts O N O - O O N @ F O O F t s O F O @ @ t s O S O N N O @ O O ? r N @ O @ @ N N @ *6 t s @ O - A O O O O @ @ @ O O @ @ @ @ @ @ @ @ @ @ t s t s t s F N t s @ t s @ @ @ @ @ ; ; - - ; ; - - cj o o o o o o o o o o c j o o a o o o o o a ci d a o c j c i o o o o 9O @ @ T O O O N T T N F O O N 6 O O O O t s O N N O N O O O A O O O O @ N @ N OO O N F @ O @ O O @ @ N N O - O N @ N N t s 6 O O t s @ N N F O @ t t O N O O O @O N S O t s O F O O r A F O @ Q 6 O @ @ F @ O F @ O O N t s @ l @ @ O O O t s F t s c! - a2 q : \ q \ A a q q c? a q q a q q q \ q q I o u? q q q q \ I q q q q r: e ql oo o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o @O - F o@ @ @ OO ' _ o NO O @o N cq q r 6 q s o 9 9 * I l 9 o SX I I o o o o o l N N o - @ o t s o o @ F @ l @ N @ F N F H p I [ $ B E r: sj ; i c 5 s F il g : $ S E : E E E : E E : H fi H E E 5 H $ E ; ru o oi o i o : : : I P P P P P + o + + + r + * r $ s * ai o ^i - ; ; - - - - - - - 6O O O O @ F O F O @ S N t r @ O t s O @ O O N @ t s e F N O F O N N @ F O S 6 o o FO O @ @ F O N o @ N $ i ts @ N @ @ @ N ; i. t o io + 3 q 3 N & 3 8 F S S 5 5 E P S S 8 I S 6 F $ B I 3 5 3 i o q o @ o @ @ @ r o N 6 .! ts 6 (j 6i 6 i, F d i : 6 N o ot : o o o @ io 6 N 6 F: 5 ct $ q C I I I q .i Y Y q q o 9 - - ; ; d d - ^i - .i ".i * a - - - ; : - ; oi c. i - - ; O- O O e- O F O @ @ @ 9 O O l O t F - F 6 O t s O t { ts 6 O @ @ O @ t s O N O N 6O t t s @ F O O O N @ t i N @ O @ @ O @ F O N O N O @ OO O O O @ @ O O O 6 O @O O @ @ O O 6 @ O O F O @ F@ O O t O O O O O @ O F FO t s O O @ - O t @ @ O a q .2 q I \ I q e \ .: \ q N q q a q q q u? : q cq q c! ry q \ a q. ! c? u? q q 6! 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O tO O O @ @ O O N i @ e @ @ F O O O F O O O { N @ @ t s + F N @ F O @ a - @ - - NF O O t s @ @ @ @ t s O @ O O @ @ O O @ q { + { O {O O O O O N N N N N N F N N sr u s i - - - -- ; - - ; - - - ;- ; -; - ; - - -- ; ;- - ; - ; - - ; ; - - NO O O @ N O O to s @ N l o @ O@ t O O O F ! .i. i 6 i c i o a i d c i @t @ 9 0 @ o o FF F O O F F @ $N N $ @ t { t eq 9 e ? e q q e ts 6 @ t o t t s N FN F t s @ F F N ts { N @ F 9 ! @ N @@ @ N - 9 O @ NO 6 0 N T O N @N @ O N r @ @ 66 i 6 i d o g a i - o@ F o o o o o NN @ @ @ O N @ tO - + @ O @ O +O O N N N O N $H g $ R F E I H T E H E : E i E H E E E R ; E H E $ E i l H F E H $ E q H f r E @F o @ S N - O O - V o I : V 9 : o :V 9 o O 9 9 9 F O 9 O - - o o - O -O O ao o o o o o o o o g o 9 9 C 9 9 o 9 9 9 o o 9 9 9 o o 9 o o o o o o o o o o 6O N N O t s S O @ F O O SV F O @ @ O t @ N - 6 t s N @ Q @ Q @ 6 N r - F O O t s OO 6 O @ F 6 O O i N { 6 $ N O @ 6 S O @ N @ N @ @ @ @ O O t s @ O @ @ a 6 O @ N@ N O N O O O O O O I { * O O - V N N O @ @ N O @ 6 -$ @ O N @ N $ - r F t oq I q r C ol q \ q \ q q cq q r : r r r c! r q q q ' : q oq q q \ q q q \ \ q q r: q eO O O O O O O O O T T F- O O Q O O O O O O O O O A Oo O O O O @ @ O O @ O r - @ O F F @ N F - @ O O F @ eO O 9 O @ @ N O 6 O @ FO F O @ 6 t s 6 O O F @ F - - 6 @ @ @ N O O O F N N N O - O { N O O N @ O Q O OF O N O N O O O O $ q O O @ O O N @ @ O O N S @ F O O @ O @ N O N O N V Q - o 6 { o { c! N I q r q q r q r I N : - I r r N . ! I r I : q r q - N n c? .! : q q oo o o o o o o o o o o o o o o o o o o o o o o o Q o o o o o o o o o o o o o -- F O F t s { @ N F N O - O N O O O O O O @ N i N @ N O O { @ N t O @ N s N F @S O O O O d O O t o O t s o O V @ F @ * t O N @ @ - @ O @ O @ O * O N F @ @ A OO @ t s @ O O S O F @ N t s t s 6 S 1 9 $t t S O I t O N N F O O O O O O O O O O ! q 1 q q n \ q q q o! q n o! o ! . ! N . ! o ! q c ! q ! q . ! o { . ! n 6! c ! c ! q n .! n N . ! q n NO O O N - A O O O O O O O O O O O O O O O O O O O O O Q O O O O O O O O O O -F N O N O O T O - N - t s @ t s O f -@ t s N O O 6 F @ 6 @ t O @ O O @ \ O N O O qO O O F O F @ t s @ O O O F - O N O @ N n $ F F F O O O @ t t s @ O O 9 N @ O F NS S O @ @ A o F F a O o @ o O o N FF F r - O O O F -O O O O F - ! O O A O e? q q q q ! a e q a1 q r qq q q I q c c c q q q o o o o o oo o o o v o o o o o @ F ts s N F o o o o o a o o o o a o o o o o o o o o o o ci o o cj o g ci o o o @o @ N @ o o @@ o a N 9 0 @@ o o @ N @ :. : a N . ! q c ? 66 6 6 0 0 6 N$ @ 6 0 N O o@ N N O O O FO N N O F O I: I : : . ! q NN N N N N N @o OO e 9 @ O - oo o o @ r o @F @ @ @ o @ oo o c i o o d ts N t 6 6 6 0 OO O @ { F O oo o o 6 0 0 9q : r q r q oo o o o o o NN O 6 @ @ F O -O @ N F N N @ -- @ t s t s O O O F- o o o F o o oo o c r d c , d o ts N O N @ O 6 Q @@ N o O @ @ F ea o a O O O O FF F O oo o o o o o c i oo 6 F @ o @ o NO @ O F O n O @@ O @ e q O O :a I r 6 ! q c l a ' ) oQ o Q o o o o o O$ N O F F O @o t s t o @ F OO O O F O O qq q q c q c oo o o o o o o 60 @ @ o o @ @ FO t @ F O @ @ FF F O O O F O oo o o 6 6 6 0 oo o o o o o o O@ 6 6 O - - @o o o o N i 6C N 6 d 6 d q. ! q c ! . ! c ! o ! oo o o o o o NO t s O q N @ @@ N O O O F ot s t o @ $ @ qq q 9 l a : ts @ @ @ @ @ t s O@ N @ N F N O 6@ t @ @ N @ O 6- @ 6 6 O 6 O q9 9 0 t 9 u ? 9 NO @ O 6 ^ ' f - @o @ @ o H : ; 6O t F F ; ! i oN o r q l i l - i - 99 9 9 9 o o o O< O - 6 F N O N-O t F r N @ NN O F Q 6 N N c2 9 t n c ! . ! e ? c . ! oo < o t F @ oo N o 6 0 0 @o N o $ o @ \q € q . : q o q oo o o o o o sr o 9 ! ? I ? o il $ H d H i i s @@ @ P 9 ! @ Nc;tstsaqNoNoulo@ooo@qo tO - F O - N oF o o o o 6 ON @ N O { F \c q q @ q q oo o o o o o O@ N @ t s F @ qO @ @ N O F O@ - N r O N aa q q 9 q q NN N N N N N \o@1@oN\N @@ N N o o q 85 3 3 E g H i @@ o 6 0 0 I dd d c i c i d g N@ O O F N O @o @ l a @ @ OA - N I N O elq q q q q l @@ - F O o - @6 F O @ @ @ 8: s B E B i -= O F X F : @., o @ v ' o ' , @P d o P @ = sR P 3 3 3 8 @@ N S : I I : N or t s I ( l u l o r, < j @ q 9 \ o @O N 9 O N t s FO N N T O @ OF N O T T @ {l a a e ? a a O- O - O F F @r o @ $ o N O{ @ F * N F ON N N N O N ao c i o o d c i N@ 6 @ O 6 0 0 FA 9 0 N O r @ @io o F o N { No O n t { o o oo o o a o a o @o o N o N @ o r@ @ @ r Q @ N li@ N o o o N 9@ q q q \ q q oo o o o o o o N @ I o v o N @ Q N { q! @ r o - { E t s Q o - N o @ \ o @ F a ? o 6 o Q o @ o o o F O v t O { @ @ {) @ O q) O @ O { @ 9 @ t @ @ @ 6 N Y N N - s? O O N ql N F O F N o@ f {o { ! O F O O : t o N @ - 9 @ ! { O @ + t s 9 o o O I F O o q o @ ! o o NO 9 @ t s O O N I N o V N o N o r 9 O 9 O o o - O e - -N 9 e - o 9 O O - O - o o ? c, o c , o d I o o 9 o o o c , o 9 o I o c j o d o 9 ci o d 9 ci o o I o o o o o ON Q O Q O @ N O O O@ q @ O O T O N 9 O O O@ N O O o F N @ 6 O6 O O @ O @ @ - @ 6 o @@ 6 O -- O O r O t- @ @ N O S o N O O O q q c q q o q o o o l o l q q o q q q q q q \ @ q -F o F o o o o o o o o o o o o o o @N @ t s N F N O O O t t s O O N O O NF F F O @ N O O e O O O N @ t O @@ @ @ t s O N O O @ ! N F F N O N O+ n < O N N N -- F O O oo N @ @ t s o o rN O F @ { O O -s N O $ @ 6 O <n t t { ? < < o@ o o 6 0 N F !{ @ O N - r F NN O O - - N O 6@ @ @ @ @ 6 N o{ N o 6 0 N r@ O @ N F @ -N 6 6 @ @ - .! q q : - q ' : oo o o o o o oo o @ o o @ oo @ o N N o OO O F F N N qq c ? q 9 9 c ? oo o o o o o 12 1 @o o N - o * o l o o+ t s @ F 6 0 N l @ +{ + t + s < { l { oo o o o 6 6 0 1 6 =- - - - " " " l - 6+ N t o N F N l r Nr o 6 6 o O O l o qq q q q o q o q l 6 l oo 6 0 1 6 o@ o N - - * - l - Nq @ o q @ o N I 6 Ot O f t s O t s F l O rq q q q q c c l c :: : . . : : : t : OF O O F o o @ l n No - F o 6 6 a l t oc ! - o N N o q l q oo o o o o o o l o oo o 6 - - - - l * @o N o o 6 @ o l o t@ q { o o N N l n oo o o o o o o l a l oo o o o o o o l o HH H $ : e s s l e OF O - I F o o l o oo o o g g o o l c i F i 6 6 _ _ _ -l - 6N @ O @ N - @ 1 6 F6 { O F F O O 1 6 :: : : : : : : l : Fo o o - - - - l - NO O N O O O O I I --6 N N N - 6 l d qq q q t \ q q l q OF O O O O O O 1 6 EE s e s e e ; l s @+ o o o 6 0 { | t s NO N O F O O O I @ d^ i ^ i ^ i ; - ; ; l - .- " = : - " - 1 " o6 0 6 0 @ o o 1 6 66 6 O F 6 O F l 6 elc 2 o c ? a r r u ? 1 " 2 oo o o o o o o l o 66 N c _ - _ - l _ 6 O @ N - N O O I N o6 N N @ @ @ 6 1 @ @@ @ @ @ @ @ @ l @ _ - - - " " - "1 " iN O i + N F O I O 60 6 r o N 6 0 1 6 6o N N @ @ N 6 l N ci o i s i o a i r u t r l c i I o- @ @ - - - * l - oo N 6 o a s N l t qN O F O F N 0 1 6 @6 0 6 0 6 @ 0 1 6 ci c i c i o . i c i c i o l d Be E E s e s e l : 9c i og o o Q o l c i 6c o o o - - - l - F< O O < N - N l N N6 6 N d 6 6 6 l L 9c ? o q c ? q o c ? l r ? oo o o o o o o l o _6 F F _ = ^ ^ l * @N - 6 F { ; : l F rN @ 6 0 N l I l { ao O - o o o d l o Cg g q g g o o l g I N@ c + - - o - l - @6 + i N @ N @ l F OO O O l - -e- e l F ci d c i o d c i d c i l . ; I ro F o - - - o l - ON F F F O - F l F oo o o o o o o l o oq q q o o o q l q oo o o o o o o l o Ns @ F @ o o o N6 N @ F @ 6 t vo o o o o o o qq q q c q q q oo o o o o o o OO @ N N N N O q@ @ F F O N @ o6 0 N o N @ o r: 9 q q 9 u ? q l q l oo 6 0 0 0 0 0 o6 N @ = N O O NO 6 @ @ O - - OO @ N O t s F - F@ @ O @ F @ @ cio o o o o o c , gE f t E H g E H ;o o A o o o d AF S @ @ @ O i OF O @ 6 - O @ NO @ F @ @ @ @ oN N T N C ! a , t N oo a o o o o o -@ @ @ N O @ @ @o o < n @ 6 N NO O o 6 0 N O au ? . ! c ? $ s e l a OO @ - t o @ @ @F F O Q i O N oo o o F o o o qq q q q q q o ? oo t s o @ @ * o 6n N O N @ 6 0 O@ F F @ 9 o O 9a q 9 q q q \ 60 r t @ @ o o r@ 6 N O @ O N OO @ o - O o F ts O - @ @ O I o oo $ $ s 6 0 0 NN N N N N N N N< O O t s @ N N @O @ N O O - O ts @ t s @ N O { O q: c 2 ' t F : q o ? q OF F - F F F N N@ N N @ N N O FO O q ! @ O t s @O F @ O i N F s? a ! a $ l a a oo o o o o o o 66 t s N r @ O @ QN T F O @ 6 F @@ N @ O t F 9 qq q q q q q q oo o o o o o o OO @ - @ @ o @ NN < O n O O O oO N F { N t s O ti o o < { o { oo o o o o o o $O O n O O F O{ F O O N O 6N O 6 - O N oo o o o o o oo o o Q o o @o @ @ o o t FO O @ O O i {N - O O @ @ c? c ? c ? q 6 ! q o ! oo o o o a o 66 N O O ^ , O O Fr o o o ; d o t s N< N O O ^ O 6 cq q q q 6 : q 99 9 9 9 o 9 9 ts - O @ @ t F n o@ 6 N O 6 r F NO 9 6 @ @ t s t s od o c i c i o c i o ts A @ o o r o @ -N O O @ @ @ F 88 8 8 8 8 8 8 oo o o a o a a oEqoF!e6i@o@oooooooqo @!ofEots!6(.) 12 2 MAX.iR Basic Validation Report Validation Status: Unit Model: DTGS Spectrometer: Detector Model: StarBoost Filter: Attenuator Screen: Gas Cell Model: Pressure Transducer: Gas Cell Window Material: O-rings: Voltage:120VAC Laser Frequency (water band@ 3133.068 cm-1): At water band 31 33.068 cm-1 (+/- 0.02 cm-1) FWHM: 1.046 cm-1 (1.04+40.04cm-1) 'r-ffi;r"dsJ&.. 1825352 N/A S/N: 1426177 MA)( Analytica I Tech nologies part of Thermo Fisher Scientific PASSED I 0 l -0343 DTGS None None t0t-0324 20 psia ZnSe Viton S/N: S/N: S/N: S/N: 00441 1841377 t- ;* r@fr rrdlqd u 'd lsa, l.jblBl6ibl6 ffiE toir' I;;C 'rklaur :'uui lE;-rU!6 1.1t4 IMI qtutrtgdlElE rt&1& id#ktu6er* 1ffr-rur*trurt=tuss iEE h.* , []ruulm \ |-s-\\^ CTS check at temperature (191"C): Ethylene certified cylinder # CC106195 MAX-iR measured ethylene: 102.299 ppm 08-1 9-2025 conc: 101 ppm (t 1%) [(102.299 / 101)-1]" 100 = 1.29o/o difference Specification: < + 2% certified value exp: 123 Signal@ 191'C: 0.07 (0.04) Linearity: 0.01 1 3% (<0.1 %) Resolution= 1cm-l Scans= 10 Detector Gain = 27 Johndunn Johnston Print Signature 09-05-2024 Date 124 Specrnar- RereneNcE ,12!J :3 3 = E ?& :lJ3 ?I .t!e=!33 ss s s HE E E E E E 8 q4 3 5 ! *H i l 8S i E fl } "* E. E E = EE ! Eq 5 r -- , I -- JJ E,$r Ll i - - - i l 12 6 lEPcEg! eTft. ,| ,I,1!rr!aIrr.I,iE I- : l - i l - ; i r - " ; e - ; i - - - -- - 1 6l ?o ? o q o lI hE p g E s F] ; 9 P S H ** i . , r / d * d . l i l t q_ N n - ^ il a Q 9 . 5 9 o - 6 q 9 oh o r y + d ..- d 6 6 a,t 6 a q i 4 . ! F q 9 6d 6 j 6 - H* * $ G $ lr i 3 l l ra l f t f i e EX E N E N 6 !:J3 . I !eJ:! IE i ! r E h i= Ea-lf!E I ' ** s u $ r r u t u u H i, i i l r i i i i g i r i H ii , i -, . - *- . -. , . ,* ! st d l; l t lE l { l f t -- t El E sl l i r > ll l j F4tl a 12 4 *. * 8 r t * ;d * . * *. t e # I * *, * . ! )t * n * oo Q g P9 9 99 9 9o o< 5 o 6 oo ? q o ot s t F -6 6 ^ r d . d o - - ^ 6 <,' i c 6 i-r u d ^ $ ts g s g s e c e s E t c * 9 c a 8 s g 8 n* 8 * * * 3 S B 8 S A * S q * * S 8 8 S aa A ? A a A a A ? a Z a 4 - : i < - E B i H H g, g E E E E 3 E E E s s E B E E .1 . , . 1 ; ' ' ' E E T E 5 E E E E E E E E E E E _. ! ! Q e F . 6 N i d d 6 r i d ; il d 6 d . a n iE I ' E gI gH ; FE : E $ E : i E T } -: [ ] . :: _ D ! : : l ] : r D i: - :- : r] ! - -l a^ . * i&€tI: . i,t-rtr i5 9 :! i. ! , ; t- ' I ={! z> . ig IiII ?E t_ e T!$ IT l" g r - I t z a, EI i S n ii r t l er i 6 | >* 5 i : a g, ' qolar , {i i8idi&i -., , , , , , , , , iE! i' e&{ i 1ittal<i. ? lr I II 5aEsxEi,i "f r $ $ 11 3 E EE E n ) - , - ' g s" + s :ii a r , | $ f r ! i 31 i ,, - i llr : i I - 1. 8 I ia I l; , i5 It . - . g lt i l t :i E . ,v i I r !e c e I = : i # lE E E lI r ! lt > - l- l I t lo - tJ r __ 12 9 E#r&ITq+o6.I { 3 ii 99 - i'd r d d d d d d - 6 e o r a q I q l'{ t t q 8B r 3 8 s i 8 P t € E I ri 6 8 n ??{32J3 iTil i I i{ lti I . EE 6 E $ g $ $ E & $ $ << < t f J t t i ! l t r i J n : 8 3 e t r : E IE E E 8 8 8 a 8 a e E g? ? ? n d r d E r e e q9 q i d d d i d d j I n r - : - n : l n ! = , 1 E&LE.sI tIiEf x, aa iIgJ!T&Iq* 1!93 , $TtrIcIrtiEi 13 0 ITdI$t]rtIEt$E} -- - t ,;i -ii "f - i i - r? -- - - - - - - - - . TE ! i E $ :E 8 E g 6 ii!:J{ !t[;UE !r3E Fe -* rE$ $- l rr - 5{ 9: , $E I f ' ii f l l l tt i ; I t: 5t 5i : l 5 sialql ol 'lri l ;, 1 ff i i i .. -!3EiEi t3 ic -. : ; ss 8 8 $8 8 9 : 1 1 El H I 8: 8 8 f, X E E -. 3 & * :. 1 8S l] - - n ': H , i E3 E F i' ! - Ea5iJ $g t; t l! 1: t l l I i t i EI l L : r l- r iIIlrt{t:Iti!r6 13 2 t5J:ia6E, - lld ttNII,titE,osITts tttTIt?!tE'*t, ,$ET tTIIITttEzIrEl SECTION 4: RAW DATA GE€ O2y NOxAitD GO 137 Company Slaton Unit TimeStamp 1 1/05/2024 08:19:05 11/05/2024 08:'19:'15 1110512024 oa:19:25 1'1105/2024 08:19:35 1110512024 Oatl9:45 1 1/05/2024 08:19:55 Avorag. 1110512024 oa.3O:1'l 1110512024 O8:3O:21 11l0sl2o24 O8:3O:31 1110512024 O8:3O:41 1 1/05/2024 08:30:51 1'l/05/2024 08:31:01 Averago 11lOSl2O24 08:36:41 '11105/2024 08:36:sl 1110,512024 08:37:O1 1110512024 08:37:11 'l1losl2o24 oa:X7:21 1110512024 08:37:31 Avemge 11lOSl2O24 08:43:54 'l1loil2o24 O8:44:O4 1110512024 08:44:14 'l1tO5l2O24 08:44:24 1110512024 08:44:34 11lOSl2O24 08:44:44 Awrago 11/05/2024 09:01:36 11n512O24 O9:o1:46 11/05/2024 09:01:56 't1l05t2024 09:02:06 11n512O24 09:02:16 1110512024 09.O2.26 Avomgc 1110512024 09.21:5O 11N5t2024 09.22.00 11lO5nO24 O9:22:1O 11n5n024 O9:22:2o 1110512024 o9:22:3o 11nSl2O21 Og:22:4O Avengo 11nSnO24 09:26:38 11n512O24 09:2e:48 11n5no24 09:24:54 11n1no24 09:27:oa 11lOSl2O24 Og:27.18 11NSl2o24 O9:27:24 Avsngo 1110512024 09:55:11 1 1/05/2024 09:55:21 1 1/05/2024 09:55:31 11NSDO24 O9:55:41 '11105/2024 09:55:51 1 1/05/2024 09:56:0'l 1 1/05/2024 09:56:'l 1 11n512O24 Og:54:21 1 1/05/2024 09:56:31 '11/0t2024 09:56:41 '11lD5/2024 09:56:51 1110512024 09:57:01 11lOSl2O24 09:57 .1'l 11l0sl2024 09:57..21 'l1lOSl2O24 Og:57:31 11lo1l2o24 09:57 .41 1110512024 09:57:51 I l/05/2024 09:58:01 Avengr 1'1105/2024 0g:58:56 1'1105/2024 09:59:oG 1 1/05/2024 09:59:18 11n512O24 09:59:26 Group name Calibration Check Calibration Check Calibration Check Calibration Ch€ck Calibratiofl Check Calibration Check Calibration Ch6ck Calibration Chack Calibration Check CalibEtim Check CalibEtim Check Calibration Check Calibraton Chsck Calibration Check Calibration Check Calibration Ch€ck Calibration Ch€ck Calibration Check Converter Check Converler Check Converter Chack Converler Check Converter Check Converter Check Pro Bias Check Pr€ Bias Check Pm Bias Check Prc Bias Check Pre Bias Check Pra Bias Check Pre Bias Check Pre Bias Check PE Bias Check Pre Bias Check Pre Bias Check Pe Bias Check Prs Bias Check Prc Bias Check Pre Bias Check Pre Bias ChEk Pro Bias Check Pre Bias Check StEtilication Trav6rs6 Stratifietion TraveBe Stratifi cation Traverse StEtifi@tion TraveBe Stmtification TEveBe StEtifi€tion TEveB€ Stratifi cation Traverse Stratification TEv€Be StEtiti€tion Traverse StEtifcation TEveEe Stratificatlon TmveBe Stratifietion Traverse Stratifi€tion TEverse Stratifi@tion TEveBe Stratification TEverse Stratification TraveBe Stralification Traverse StEtifi€tion TEveBe Stratili€tion TraveBe Stratfication Trav€rse Straiiti€tion TEvoBe Stratitication Traverse Run name Zero Cal Check Zero Cal Check Zerc Cal Check Zem Cal Check Zero Cal Check Zero Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Mid Cal Check Mid Cal Check Mid Cal Check Mid Cal Check Mid Cal Check Mid Cal Check NO2-NOx Cal Check N02-NOx Cal Check NO2-NOX Cal Check NO2-NOX Cal Check NO2-NOX Cal Check NO2-NOx Cal Check 02 Bias 02 Bias 02 Bias 02 Bias 02 Bias 02 Bias NOx Bias NOx Bias NOx Bias NOx Bias NOx Bias NOx Bias CO Blas CO Bias CO Bias CO Bias CO Blas CO Bias #1 Strat Ch6ck #1 Strat Check #1 Strat Check #1 Strat Ch€ck #1 Strat Check #1 Strat Check #1 Strat Check *'l StEt Check #1 Strat Check #1 Stmt Check #1 StEt Ch6ck #1 Strat Check *1 Slrat Check *1 Strat Check *'l StEt Check #l Slmt Check *1 Strat Check *1 Stmt Chack #2 Stral Ch6ck #2 Slrat Check *2 Strat Ch6ck #2 Strat Check Altamont East CE-5 o2 -0.04 -0.02 -0.04 -0.02 -0.04 -0.02 {r.03 11.05 '11.11 11.O7 11.08 11.06 11.06 11.07 5.04 5.08 5.05 5.08 5.04 5.09 5.06 21.00 2'1.00 21.OO 21.O4 21.OO 21.O4 21.O1 5.13 5.10 5.13 5.10 5.10 5.12 5.11 0.02 -0.01 0.02 -0.02 0.00 0.00 0.00 0.00 -0.02 0.00. -0.04 0.00 -0.02 {t.01 -0.08 :0.05 -0.08 -0.06 -0.09 -0.08 -0.08 -0.06 -0.09 -0.07 -0.08 -0.08 -0.09 -0.07 -0.08 -0.06 -0.10 -0.07 .{1.07 NOx -0.02 -0.02 -0.03 -0.03 -0.03 -0.03 -0.03 484.21 464.50 464.73 46/.70 464.97 404.89 464.87 '192.86 192.70 1 92.53 192.24 1 92.1 5 1 92.08 192.4s 41.66 41.79 42.3',1 42.50 42.95 43.1 1 12.19 5.68 5.20 2.'15 '1.91 1.'t1 0.99 2.81 1 88.37 '186.37 188.38 188.44 1 88.95 '188.96 1 88.58 0.90 0.87 0.76 o.72 0.65 0.62 0.75 58.36 58.37 58.37 58.38 58.35 58.39 58.50 58.45 58.3s 58.62 59.03 59.1 2 59.47 59.60 59.78 60.19 60.92 80.87 59.06 co 0.00 -0.02 -0.03 -0.05 -0.09 -o.12 -0.05 447.40 446.00 447.4O 446.20 448.00 448.00 u7.20 196.00 196.00 196.00 196.00 196.00 196.00 196.00 -1.77 -1.82 -'t.83 -1.86 -1.89 -1.89 -1.E4 -2.25 -2.32 -2.30 -2.31 -2.31 -2.31 -2.31 -0.68 -0.69 -o.72 -o.74 -0.76 -o.76 .{,,73 195.00 195.00 195.00 195.00 195.00 195.00 195.00 'tol.70 101.95 101.25 100.50 99.75 99.15 99.00 99.00 99.00 99.50 100.35 101.20 101.80 101.70 101.15 100.45 99.95 99.50 100.3E tunbient PBarc 23.82 23.82 23.42 23.82 23.82 23.82 23.82 23.82 2s.82 23.82 23.82 23.82 23.82 23.62 23.82 23.82 23.82 23.82 23.82 23.82 23.E2 23.82 23.82 23.82 23.82 23.82 23.82 23.82 23.82 23.82 23.42 23.82 23.82 23.82 27.82 23.82 23.82 23.82 23.82 23.82 23.42 23.82 23.82 23.42 23.82 23.82 23.42 23.82 23.82 23.42 23.82 23.42 23.82 23.82 23.82 23.42 23.42 23.82 23.82 23.82 23.82 23.82 23.82 23.82 23.82 23.82 23.82 23.E2 Humidity 59.6 58.9 58.8 58.7 58.6 58:9 47.4 47.6 47.8 48.3 48.8 48.7 dtrt1 48.s 46.8 47.3 47.9 44.7 49.4 17.E 55.1 54.8 54.7 54.5 53.9 52.2 u.2 52.0 52.1 52.3 52.8 52.9 52.5 50.5 50.5 50.6 50.7 50.9 51.1 50.7 50.7 50.9 51.1 5't.1 51.'1 51.1 51.0 44.3 44.1 43.9 43.8 43.8 43.8 43.7 43.7 43.8 44.3 44.5 44.2 44.1 44.O 44.O 44.1 44.2 44.3 u.0 35 35 35 35 35 35 35 38 38 38 38 38 38 38 -0.09 ao.12 97.50 44 23.82 45.4-0.06 60.28 96.E5 44 23.82 45.2-0.09 60.57 96.45 44 23.82 45.1-0.08 60.50 96.00 44 23.42 45.2 42 42 41 41 41 41 41 40 40 40 40 39 ao /t0 39 39 39 39 40 40 39 37 37 37 37 37 37 37 38 38 38 38 38 38 38 44 44 44 44 44 44 44 44 44 41 44 44 44 44 44 44 44 44 11 138 Company Station Unit TimeStamp 'l 1/05/2024 09:59:38 1110512024 09:59:48 1 1/05/2024 09:59:58 1 1/05/2024 10:00:06 11lOSl2O24 10:trl1a 1110512024 1O:OO:24 1110512024 10:00:36 'l1lOSl2O24 10:00:46 1 1/05/2024 10:00:56 '1'1/05/2024 10:01:06 1 1/05/2024 10:01:16 1110512024 1O:O1:28 1 1/05/2024 10:0'l:36 1110.512424 1O:O1:48 Average 1110512024 1O:O3:O4 11lOSl2O24 10:03:14 1110512024 1O:O3:24 1110512024 1O:03:Y 11lOSl2O24 10:03:44 1110512024 10:O3iil 1110512024 1O:O4:O4 1110,512024 1O:O1:14 11lOSl2O24 10:04:24 1'llO5l2O24 1O:O4:U 11lOSl2O24 1O:M:44 1110512024 1O:U:* 1 1/05/2024 10:05:04 1110512024 10:05:14 1110512024 1O:O5.24 11lOSl2O24 1O:O5:U 11lOSl2O24 1O:o5:44 1110512024 1O:O5:54 Awnge 1110512024 10:32.11 1110512024 10:32:21 11lOSl2O24 10:32:31 1110512024 10:32:41 1110512024 10:32:51 1'1105/2024 10:33:01 1110512024 10:33:11 1110512024 10:33:21 11lOSl2O24 10:33:31 1110512024 10:33:41 1110512024 10:33:51 1110512024 1O:U'.O1 11lOSl2O24 10:34:11 1110512024 1O:U:21 11lOSl2O24 10:34:31 .1110512024 1O:U:41 1'llO5l2O24 10:34:51 'l1lO5l2O24 1O:35:O1 11lOSl2O24 10:35:11f lOSr2O24 10:35.21 11nil2024 10:35:31 11N5t2O24 10:35:41 11nSnO24 10:35.51 '11lO5/2024 10:36:01 11niDO24 10:36:11 11n512O24 10:36:21 '11lO5/2024 10:36:31 11/05/2024 10:36:41 11lOSl2O24 10:36:51 1110512024 10:37:O1 'l1lO5l2O24 10:37:11 1 1 to5t2024 10 .3't .21 1110512024 10:37:31 11lOSl2O24 10:37:4'l 11lOSl2O21 10:37:51 '11105/2024 10:38:01 1110512024 10:38:11 1110512024 1O:U:21 1'1105/2024 10:38:31 1 1/05/2024 10:38:41 1'l1012024 10:38:51 '11/052024 10:39:0'l 1 1/052024 10:39:1 1 11n512O24 10:39:21 Ambient PBam Grcup name StEtifi€tion TEwBe Stratifi cation Traverss Stratifi cation Traverse Stratifi€tion TEvaBs StEtifi€tion TEveBe StEtifiGtion TEveBe StEtification TraveBe Stmlifi€tion TEveBe StEtili€tion TEvsrse Stratification TEveBe StEilliEtion TEveBe Stratifi cation Trav€rs€ StEtilication TEve86 StEtification TEvsEe Stratification TrawBe Stratilication Travarse Stratili€tion TEvaBe Stratifl€tion TEwre Stratilication Trav6rs6 Stratifi cation Traverse Stratifi€tion TEwre Stratification TEveBe Stratilication Traverse Stratilication TEveBe Stratification Trav€Bo Stratifi€tion TEve6e Stratilication Travers€ Stratifi€tion TEveBe Stratificstion Trav€Be Stralifietion TEwBe Stratili€tion TEveBe Stratilication Traversg #1 Tast Run - 80 #1 Test Run - 00 #1 Test Run - 60 *1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 80 #1 T6st Run - 60 #1 TBst Run - 60 #1 Test Run - 80 #1 Tost Run - 60 #1 Test Run - 60 #1 Test Run - 00 #'1 Tast Run - 60 #1 Test Run:60 #1 Test Run - 00 #1 Test Run - 60 #1 Test Run - 60 ,1 Test Run - 60 #1 Test Run - 60 #1 Tast Run - 60 #1 Tsst Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Tsst Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 T$t Run - 60 *1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #'l Test Run - 60 *1 Tast Run - 60 #'l Test Run - 80 #1 T€st Run - 60 #1 Test Run - 80 #1 T6st Run - 60 #1 Test Run - 60 #1 Test Run - 60 #'l T€st Run - 60 #1 T€sl Run - 60 #1 Test Run - 60 Run namo #2 StEt Check #2 Strat Chsck #2 Strat Chsck #2 Strat Chect ,2 StEt Check #2 StEt Check #2 Strat Chec.F *2 StEt Check #2 StEt Chock #2 Strat Ch6ck *2 Strat Chsck #2 Strat Check #2 Strat Check #2 Strst Cheek #3 Strat Chsck #3 StEt Check #3 Strat Chack #3 Strat Ch€ck #3 StEt Check #3 Strat Check #3 StEt Check*i StEt Check #3 Strat Check #3 Strat Check ,,3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Ch6ck #3 Stmt Check #3 Strat Chsck #3 Strai Check #3 Strat Check Test Run Test Run Test Run Tast Run Tesl Run Test Run Tesl Run Tesl Run Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Tast Run Test Run Test Run Tert Run Test Run T6st Run Test Run Tast Run Test Run Test Run T$t Run Test Run Test Run T6st Run Tsst Run Test Run Test Run Test Run Tesi Run Test Run Test Run Test Run TBt Run Test Run Test Run Test Run Test Run Test Run T6st Run Altamont East cE-5 02 -0.1 0 -0.08 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.08 -0.07 -0.09 -0.00 -0.08 -0.06 {.07 -0.07 -0.09 -0.07 -0.09 -0.07 -0.09 -0.07 -0.10 -0.08 -0.09 -0.07 -0.08 -0.06 -0.09 -0.08 -0.07 -0.08 -0.05 {.0E -0.07 -0.08 4.07 -0.09 -0.06 -0.09 -0.06 4.12 -0.05 -0.07 -0.06 -0.10 -0.07 -0.08 -0.07 -0.08 -0.05 -0.09 -0.05 -0.07 -0.06 -0.08 -0.06 -0.07 -0.05 -0.08 -0.09 -0.06 -0.07 -o.08 -0.00 4.07 4.06 -0.07 -0.08 -0.08 -0.08 -0.07 -0.07 -0.07 -0.08 -0.00 -0.09 -o.07 NOx 80.43 60.26 60.05 60.08 60.1 3 60.28 60.51 60.47 60.40 60.33 80.00 4o.12 60.29 60.29 60.2E 60.56 60.32 80.4,1 80.94 60.87 60.88 80.60 60.1 5 59.92 59.65 59.09 59.83 59.93 80.06 60.1 9 60.34 60.30 80.59 60,30 00.06 60.1 I 80.66 80.38 5S.82 59.68 59.34 60.10 60.87 80.84 80.89 80.85 60.08 60.70 60.74 80.38 60.05 80.08 59.88 59.96 60.1 5 80.06 59.97 59.96 60.04 80.14 60.31 60.57 61.30 61.08 60.81 60.65 60.36 59.88 59.31 59.49 59.74 59.77 59.85 s9,61 58,43 s8.69 59.43 59.40 co 96.00 96.00 96.55 97.00 97.45 97.70 98.00 98.05 98.50 98.50 98.00 98.00 98.00 98.65 97./t0 99.20 99.50 99.25 99.00 98.55 98.00 97.85 97.50 97.50 97.50 97.95 98.75 99.50 101 .00 10'1.85 1 02.60 103.00 103.00 99.53 1 13.45 114.70 116.'10 1 17.30 't17.15 1 16.50 115.30 111.70 115.00 1 15.40 1 1 5.50 1 15.1s 1'14.20 1 15.00 1 15.40 1'16.50 118.30 119.90 120.85 120.35 120.00 120.30 121.10 121.85 121.5O 120.70 1 1 9.55 1 18.20 117.70 1 16.80 1 16.50 't 16.80 1 17.90 'I 18.45 1 17.60 1 15.20 '113.35 112.N 112.OO 112.40 112.50 1 '12.50 1 1 1.55 110.65 23.42 23.82 23.42 23.42 23.82 23.O2 23.42 23.A2 23.82 23.E2 23.82 23.82 23.82 23.82 23.82 23.82 23.82 23.42 23.82 23.81 23.41 23.81 23.U 23.81 23.81 23.41 23.81 23.81 23.81 23.81 23.81 23.81 23.8'l 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.8'1 23.81 23.81 23.8'1 23.8'1 23.81 23.81 23.8',1 23.81 23.81 23.81 23.81 r39 Humidity 45.2 45.0 44.7 44.4 44.O 43.7 43.8 44.1 44.3 44.5 44.6 44.5 44.5 44.7 4.6 44.9 45.0 45.2 45.4 45.6 45.6 45.6 45.7 46.1 46.2 48.3 46.2 46.'l 46.2 48.4 46.5 48.6 46.6 45.9 40.9 40.9 41.0 41.2 4't.4 41.7 42.2 42.2 42.4 42.7 42.5 42.2 42.1 42.1 422 42.3 42.3 42.1 42.O 42.O 42.O 42.O 4't.9 41.8 41.8 42.O 42.2 42.5 42.4 42.4 42.4 42.7 42.9 43.1 43.'l 43.0 43.0 42.9 42.7 42.3 42.'l 42.O 42.'l 42.O 44 23.4244 23.4245 23.8245 23.8245 23.A244 23.4244 23.4244 23.4244 23.8244 23.4244 23.A244 23.8244 23.4244 23.8211 23.42 t- 44 44 44 44 44 44 44 43 43 43 43 43 43 43 43 43 43 43 11 46 46 48 4A 45 45 45 45 46 48 46 46 46 46 40 48 46 46 46 4A 46 40 45 45 45 45 45 45 45 45 45 45 46 46 46 48 46 46 46 46 46 46 46 46 Company Station Unit TimeStamp 11/05/2024 10:39:31 1110'512024 10:39:41 11n512o24 10:39:51 1110512024 1O:4O:o1 1110512024 1o:4o'.11 1110512024 1O:4O:21 1110512024 1O:4o:31 1110512024 1o:4O:41 1110512024 1o:4o:51 111O5t2O24 10:41:O'l 1110512024 10:41:11 1110512024 10:41:21 1110'512024 10:41:31 11N512o24 10:41:4'l 11lOSl2O24 10:41:51 1110512024 1O:42:O1 1'llO5l2O24 10:42:11 11nSl2O24 10:42:21 1110512024 10:42:31 1110512O24 10:42:41 11lo1l2o24 10:42:51 1110512024 1O:43:o1 1110512024 10:43:11 11n512O24 10:43:21 1110512024 10:43:31 11n5no24 10:43:41 1110512O24 10:43:51 11lOSl2O24 1O:44:O1 1110512024 1O:M:11 1110512024 10:44:21 1110512024 10:44:31 11n512O24 1O:M:41 1110512024 10:44:51 1110512024 1O:45:O1 11lOSl2O24 10:45:11 11n5/2O24 10:45:21 11lo5l2o24 10:45:31 1110512024 10:45:41 11/05/2024 10:45:51 11/05/2024 10:40:01 1110512024 10:44:11 1110,512024 10:46:21 11/05/2024 10:46:31 1110512024 10:46:41 11lOSl2O24 10:46:51 'l 1 lO5l2O24 1O:47 :O1 1110,512024 10:47:11 1110512024 10:47:21 1 1 lO5l2O24 10:47 :31 11N512O24 10:47:41 11lOSl2O24 10:47:5'l 1110512024 10:48:01 111O5t2O24 10:48:11 1',11o5t2024 10,4A:21 11nil2024 10:48:31 11nSl2O24 10:48:41 11n5PO24 10.48:51 1 1/05/2024 1 0:49:01 11lO5nO24 10:49:'11 11lo5no24 10:49:21 11lO5nO21 10:49:31 11n5n024 10:49:41 11lOSnO24 'lO:49:51 1 1/05/2024 '10:50:01 11/05/2024 10:50:11 11lOSl2O24 1O:5O:21 1 1/05/2024 1 0:50:31 l1loslzo24 1O:5o:41 1110512024 1O:5O:51 1110512024 10:51:O1 1110512O24 1O:5'l:11 11lOSl2O21 10:51:21 11/05/2024 10:51:31 11NSl2o24 10:51:41 11&5/2024 10:51:51 11n512O24 1O:52:o1 11n5f2024 1oi52:11 11fi5no24 10:52:21 11rc5no24 10:52:31 11rc5no24 10:52:41 PBaro 23.81 23.81 23.81 23.81 23.4'1 23.8',1 23.81 23.4'l 23.81 23.81 23.81 23.81 23.81 23.81 23.8'.1 23.81 23.41 23.81 23.81 23.81 23.81 23.81 23.8'l 23.4'1 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.41 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.41 23.81 23.81 23.81 23.81 23.81 23.8'l 23.81 23.81 23.6'l 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.8'l 23.81 14() Grcup name #1 Tesl Run - 60 #1 Test Run - 60 #1 Tast Run - 60 #1 Tsst Run - 80 #'l Test Run - 60 #l Test Run - 00 #1 Tast Run - 80 #1 Test Run - 60 #1 Test Run - 00 #1 Test Run - 60 #1 Tsst Run - 60 #1 Tsst Run - 80 #1 Tsst Run - 00 #1 Tesl Run - E0 #1 TBst Run - 60 #1 Test Run - 60 #1 Tost Run - 60 #'l Test Run - 60 #1 Tsst Run - 60 *1 Test Run - €0 #'1 T6st Run - 00 #'l T6st Run - 80 #1 Tast Run - 60 #1 Test Run - 60 #'l Test Run - 60 #1 TBst Run - 60 #1 Test Run - 80 #1 Test Run - 60 #1 Test Run - 00 #1 Test Run - 60 #1 Test Run - 60 *'1 Test Run - 60 #'1 Tost Run - 60 #1 Test Run - 60 #1 TBst Run - 60 ,1 Test Run - 80 *1 Test Run - 60 #1 Test Run - 60 *1 Test Run - 60 #1 T6st Run - 60 #'l Test Run - 80 #1 Tsst Run - 60 #1 Test Run - 60 #1 Test Run - 80 #1 T6st Run - 80 #'1 Tsst Run - 60 #1 Tast Run - 80 #1 Tsst Run - 60 ,1 Tast Run - 80 *1 Tesl Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Tost Run - 60 *1 Test Run - 60 #1 Tast Run - 60 #1 Test Run - 60 #1 Test Run - 00 #1 Test Run - 60 #1 Test Run - 80 #1 Tsst Run - 80 f,1 Test Run - 60 #1 Test Run - 60 #1 T6st Run - 60 #1 Test Run - 60 11 Test Run - 60 #1 Tost Run - 80 #1 Test Run - 60 #1 Test Run - 60 #1 Tost Run - 60 #1 Tsst Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 T€st Run - 8O #'l Test Run - 60 #1 Test Run - 60 #1 Tost Run - 60 #1 Test Run - 50 #1 Test Run - 60 *1 T€st Run - e0 #1 Test Run - 60 Altamont East cE-5 02 -0.10 -0.05 -0.09 -0.00 -0.08 -0.06 -0.07 -0.07 -0.08 -0.06 -0.09 -0.05 -0.08 -0.06 -0.09 -0.06 -0.09 -0.05 -0.08 -0.05 -0.09 -0.07 -0.09 -0.06 -0.08 -0.07 -0.08 -0.06 -0.08 -0.08 -0.08 -0.06 -0.08 -0.09 -0.1 1 -0,06 -0.07 -0.09 -0.07 -0.09 -0.07 -0.08 -0.07 -0.08 -0.06 -0.08 -0.05 -0.09 -0.04 -0.08 -0.05 -0.09 -0.07 -0.06 -0.06 -0.08 -0.06 -0.06 -0.06 -0.07 -0.05 -0,07 -0.06 -0.08 {.0€ -0.09 -0.06 -0.10 -0.05 -0.08 -0.05 -0.09 -0.07 -0.10 -0.06 -0.09 -0.05 -0.06 -0.07 -0.08 NOx 59.27 59.40 59.64 59.1 1 58.53 58.54 58.55 58.45 58.39 58.08 57.67 57.78 58.73 58.91 60.07 60.05 60.12 59.89 59.63 58.99 57.86 58.1 3 58.94 58.93 58.8/t 58.90 58.98 58.98 59.06 59.02 58.93 58.86 58.76 58.71 58.81 59.37 60.17 60.01 59.87 60.23 60.75 60.38 60.06 60.04 59.52 59.69 60.(x 60.27 61.02 60.67 60.1 1 60.1 6 60.07 60.06 60.14 60.1 6 60.30 60.38 60.50 60.52 60.42 60.43 60.44 60.51 60.01 60.63 60.69 60.88 61.12 60.98 60.51 60.61 60.78 60.69 60.60 60.34 59.19 58.92 57.93 58.09 co 110.00 110.00 1'.to.25 110.95 111.40 111.25 110.4s 109.50 108.85 108.50 109.05 109.90 110.70 1 1'1.40 111.50 110.90 110.50 110.50 '110.75 '111 .00 110.95 110.25 110.00 110.00 1'1o.60 1 1 t.00 110.80 109.85 109.50 109.50 '109.80 110.55 111 .00 1 10.00 1 10.15 109.80 109.40 '109.00 '108.90 109.20 109.65 1 10.55 1 11 .70 1 '12.00 11 1 .85 1 10.95 109.70 108.15 107.00 106.1 0 105.40 104.75 1(X.80 105.t5 1 06.10 107.80 109.15 1 10.00 1 10.00 1 09.60 1 08.30 107.70 107.20 1 06.50 1 00.1 5 '106.00 106.05 '100.50 106.90 107.50 108.05 108.50 108.35 '1o7.70 106_80 106.30 106.50 106.35 1 05.70 1 0r1.80 AInbient 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 48 46 46 46 46 46 48 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 48 48 48 48 48 48 48 48 48 48 48 49 49 49 49 49 49 49 49 Humidity 41.9 41.7 41.7 41.8 41.9 41.8 41.4 41.8 41.7 41.7 41.7 41.7 41.7 41.8 41.7 41.6 41.6 41.5 41.4 41.4 41.3 41.4 41.4 41.2 41.0 41.1 41.2 41.2 41.2 41.1 40.9 41.0 4't.1 41.2 41.2 41.2 41.2 41.1 41.0 40.E 40.5 40.3 40.0 39.8 3S.7 39.7 39.7 39.7 39.8 39.9 40.1 40.2 40.2 40.0 39.6 39.3 39.2 39.2 39.2 39.1 39.1 39.1 38.9 38.8 38.6 38.5 38.7 38.5 38.1 37.6 37.2 36.8 36.4 36.2 36.0 35.9 35.9 35.9 35.9 Run name Test Run Tost Run Test Run Test Run Test Run Tssl Run Test Run T6st Run Tesl Run Test Run Tsst Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Te3t Run Test Run Test Run Test Run Test Run Tesl Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Tost Run Test Run Test Run Test Run Tast Run Test Run Test Run Test Run Test Run Test Run Test Run Tsst Run Test Run Tast Run Test Run Test Run Test Run Test Run T6st Run Tsst Run Test Run T6st Run Test Run Test Run Test Run Tsst Run Test Run Test Run Test Run T€st Run Tesl Run Test Run Test Run Tesi Run Test Run Tost Run T€st Run Test Run T6t Run Test Run Test Run TBt Run Test Run Test Run Test Run Test Run T$t Run Company Station Unit TimeStamp 1110512024 10:52:51 1110512024 1O:53:O1 11lOSl2O24 10:53:11 1110512024 10:53:21 11lOSl2O24 10:53:31 11n512O24 10.53:41 1110512024 10.53:51 'l 1 lO5l2O24 1O:54:O1 'l1lO5l2O24 10:54:11 11lOSl2O24 10.il:21 11n5no24 10.54:31 1110512024 10:54:41 11lo5l2o24 10:54:51 1110512024 1O:55:O1 1110512024 'lO:55:11 1110512024 10:55:21 1110512024 10:55:31 1110512024 10:55:41 1 1/05/2024 10:55:51 1110.512024 1O:54:O1 11lOSl2O24 10:56.11 11lOSl2O24 10:56:21 11lOSl2O24 1O:56t31 11lO5lZO24 10:56:41 'l l/05/2024 10:56:51 11lOSl2O24 10:57 .O1 1110512024 10:57:11 11lOSl2O24 10:57.21 'l1lO5l2O24 10:57:31 1110512024 10:57 .41 1110512024 10:57 .5'l 1110512024 1O:58:O1 11/05/2024 10:58:11 111O512O24 10:58:21 '1 1/05/2024 l0:58:31 11/05/2024 10:58:41 11n5t2024 10.58.51 1110512024 1O:59:O1 11/05r'2024 10:59111 111O5t2024 10.59.21 11lOSl2O24 10.59:31 1110512024 10'.59:41 11/05/2024 10:59:5'l 11nSl2O24 11.OO:O1 1110512024 11:OO:11 11lOSl2O24 11:OO:21 1 1/05/2024 1 1:00;31 't1lO5l2O24 11:OO:41 1110512024 11:OO:51 1110512024 11:O1:01 11nSl2O24 1'l:O1:11 1110512024 11:O1:21 1110512024 1'l:O1:31 111O5t2O24 11:01:41 11n5f2024 11:01:51 11lOSl2O24 11:02:01 11nil2024 11:O2:11 11n512O24 '11:02:21 11n512O24 11:O2.31 11n512O24 11:02:41 1110512024 11:02:51 'l1lO5l2O24 11:o3:O1 11lOSl2O24 11:03:11 1110512024 11:03:21 1'llO5l2O24 11:03.31 11lOSl2O24 11:O3,41 1110512024 11:O3.51 1110512024 '11:O4:O1 11lOSl2O24 11:O4:11 1110512024 11:U:21 'l1lO5l2O24 11:U:31 11lOStzO24 11:U.41 11lOSnOz4 11:O4.5'l 11n5no24 11:05:O'l 11n512O21 11:05:11 11N5nO24 11:05:21 1 1O5/2024 1 1:05:31 1'l/05/2024 11 :05:41 11IO5PO24 11:O5:5'l 11lOSnO24 '11:06:01 PBarc 23.81 23.41 23.81 23.81 23.81 23.81 23.41 23.41 23.8'l 23.81 23.8',1 23.81 23.8'.1 23.81 23.8'l 23.81 23.81 23.81 23.81 23.81 23.8'l 23.81 23.8'l 23.81 23.81 23.41 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.8'l 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.8',1 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.8'l 23.81 23.81 23.8'l 23.81 23.81 23.E1 23.81 23.81 23.8'l 23.81 23.81 23.81 23.81 23.81 23.E'1 23.81 23.81 23.81 23.81 23.A1 23.81 141 Grcup nama #1 Test Run - 60 *1 Test Run - 80 #'l TBt Run - 60 #1 Test Run - 80 #1 Tast Run - 60 #1 Test Run - 80 #1 Test Run - 60 #'l T6st Run - 60 #1 Test Run - 80 #1 Tesl Run - 80 #'l Test Run - 60 #1 T6st Run - 60 #1 Test Run - 80 *1 TBst Run - 60 #1 Test Run - 00 #1 Tsst Run - 60 #1 Test Run - 80 #1 Tsst Run - 00 #1 Test Run - 60 #1 Tsst Run - 60 #1 Tsst Run - 80 #1 Test Run - 60 #1 Tsst Run - 60fl Test Run - 60 #1 Tsst Run - 60 #1 Test Run - 60 #1 TBst Run - 80 #1 Tsst Run - 60 #1 Test Run - 60 #1 Tsst Run - 60 #1 Test Run - 60 #1 Tsst Run - 60 #1 Tsst Run - 60 #1 Test Run - e0 #1 Tost Run - 00 #1 Tast Run - 60 #1 Test Run - 60 #1 Tast Run - 60 #1 Tsst Run - 80 #1 Tsst Run - 60 #1 Test Run - e0 #1 Tsst Run - 80 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 T6st Run - 60 #1 Test Run - 80 #1 Tsst Run - 60 #1 Tsst Run - 60 #1 Tast Run - 80 #1 Tsst Run - 60 #1 Tsst Run - 60 #1 T6st Run - 80 #1 Tost Run - 60 #1 Test Run - 60 #1 Test Run - 00 #1 Test Run - 60 #1 Tast Run - 60 #1 Test Run - 60 #1 T6st Run - 60 f1 Tast Run - 80 #1 Test Run - 60 #1 Test Run - 60 #1 Tesl Run - 80 #1 Test Run - 80 #1 T6st Run - 60 #1 Test Run - 80 #1 Test Run - 60 *1 TBsl Run - 60 #1 Test Run - 60 #1 lest Run - 60 #'l Test Run - 60 #1 Test Run - 60 #1 Tast Run - 60*l TBt Run - 60 #'l Tsst Run - 60 #1 Test Run - 60 #1 Tsst Run - 60 *1 T6st Run - 60 #1 Test Run - 80 Altamont East cE-s 02 -0.07 -0.08 -0.06 -0.08 -0.06 -0.07 -0.07 -0.07 -0.08 -0.07 -0.07 -0.07 -0.06 -0.07 -0.08 -0.07 -0.08 -0.06 -0.09 -0.08 -0.08 -0.06 -0.08 -o.o7 -0.07 -0.07 -0.08 -0.08 -0.08 -0.07 -0.09 -0.07 -0.09 -0.05 -0.07 -0.05 -0.09 -0.05 -0.08 -0.05 -0.06 -0.06 -0.08 -0.07 -0.09 -0.08 -0.08 -0.05 -0.09 -0.07 -0.08 -0.07 -0.0E -0.07 -0.08 -0.0s -0.08 -0.08 -0.07 -0.07 -0.07 -0.07 -0.09 -0.07 4.07 -0.04 -0.07 -0.07 -0.09 -0.04 -0.09 -0.07 -0.09 -0.06 -0.08 -0.09 -0.08 -0.08 -0.07 -0.08 NOx 58.37 58.21 58.04 58.05 58.47 58.68 58.78 59.39 40.21 60.03 58.83 58.89 58.24 58.45 59.17 58.99 58.71 58.82 59.40 59.34 59.21 59.39 59.61 59.85 60.'18 59.93 58.64 58.83 59.44 59.87 60.39 59.77 s9.23 59.63 60.48 80.98 61.86 41.82 61.39 61.25 00.87 8O.42 59.23 59.92 61.53 61.38 81.20 61.33 61.33 6't.23 6'l.31 61.27 61.24 60.97 60.44 60.67 63.31 63.16 82.43 62.32 61.96 61.99 62.O1 61 .95 61.9!t 61.69 d1.17 60.84 60.25 60.49 81.39 61.11 60.18 60.23 60.34 60.47 60.64 60.71 80.91 60.88 co 1 03.1 5 102.40 101.90 101.75 '102.00 '102.00 102.00 102.20 102.50 102.45 101.75 101 .10 100.50 99.70 99.30 98.60 98.40 98.95 101 .95 104.90 107.05 107.50 106.80 105.10 104.'10 103.70 103.25 103.60 104.70 100.20 107.05 107.40 107.00 107.00 107.45 107.50 106.95 105.95 104.90 10/.25 103.75 103.00 1 02.50 1 02.80 104.70 107.20 108.00 108.75 107.75 106.75 '106.85 107 .70 109.35 110.85 111 .50 110.65 108,85 107.80 107.50 107.50 107.85 108.10 108.50 108.50 108.40 1 08.00 107.85 107.15 106.60 106.05 105.25 104.90 104.80 105.15 '105.80 106.00 105.95 104.80 1(N.05 104.00 Arnbiant 4g 49 49 49 49 49 49 49 49 48 48 48 48 48 48 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 4A 48 48 4A 4A 48 48 4A 48 48 4A 48 48 48 48 4A 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 Humidity 35.9 36.0 36.0 36.0 35.7 35.6 35.7 35.8 35.8 35.7 35.6 35.8 36.0 36.0 36.1 36.3 36.3 36.5 36.6 36.5 36.4 36.3 36.4 36.4 36.5 36.6 36.8 36.9 30.7 36.6 36.5 3€.4 36.3 36.3 36.0 35.9 35.9 35.9 35.7 35.7 35.6 35.5 35.4 35.5 35.8 36.0 36.1 36.3 38.4 38.s 36.6 36.7 36.8 36.9 36.9 36.9 38.9 36.9 38.9 38.9 36.8 36.9 36.7 36.6 36.5 36.s 36.7 38.9 36.9 36.9 36.9 36.7 36.6 36.6 30.6 36.9 36.8 36.7 36.7 Run name Test Run Test Run Tast Run Test Run Tast Run Test Run Test Run Test Run Tagt Run Test Run Tast Run Test Run Test Run Test Run Tsst Run Test Run Test Run Tast Run Tsst Run Tsst Run Test Run Test Run Tast Run Test Run Test Run Test Run Test Run Test Run Tast Run Test Run Test Run Tsst Run T6st Run Test Run Test Run Test Run Tetl Run Test Run Test Run Test Run Test Run Tsst Run Test Run Tesl Run T6st Run Test Run Tost Run Test Run Test Run Test Run Tesl Run Tast Run Test Run Tsst Run T6st Run Test Run Test Run Test Run T€st Run Test Run Test Run T6st Run Test Run Test Run Te3t Run Test Run Test Run Test Run Test Run Tst Run Tast Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Comparry Station Unit TimeStamp 111O512024 11.06:'11 11lOSl2O24 11tO8:21 11to512024 't 1 .04.31 1110512024 11:OA.41 1 1 lOSl2O24 1 I :O8:5'l 1110512021 11:O7:O1 11t05t2024 11 .O7 .11 1110512024 11:07:2'l 111051202411:O7 i1 1110512024 11:07:41 1110512024 11:O7'.51 1110512024 11:O8:O1 11lOg2O24 11:08:11 1110512024 '11:Og:21 1'llOSl2O24 11:Oa3'l 11lOSl2O24 11:08:41 11lOSl2O24 11:08:51 111O512O24 11 .O9:O1 11t05t2024 ',t1 .09:11 11lOSl2O24 11 .09:21 11lOSl2O24 11:09:31 11nil2g24 11:09'.41 11t05t2024 11 .O9.51 11lOSl2O24 '11:1O'.O1 11lOSl2O24 11:10:'11 1110512024 11:10:21 1 I l05l2o24 1 1 .1O:3'l 11lo'l2o24 11:'lO:41 1110512024 11:10:51 1'llO5l2O24 11:11:O'l 11lOSl2O24 11 .11:11 11losl2g24 11:11 .2'l 111O512O24 11:11:31 1110512024 11:11:41 1110512O24 11:11 .5'l 1110512024 11:12:01 1110512024 11:12:11 11lOSl2O24 11:12:21 11lOSl2O24 11:12:31 1110512024 11:12:41 1110512024 11:12:51 11lOSl2O24 11:13:01 1110512024 11:13:11 11lo5l2o24 11:13:21 1110512O24 11:13:31 1110512024 11:13141 11lo5l2o24 11:13:51 1'llO5l2O24 11:14:01 11lOSl2O24 11:14:11 1110512024 11:14:21 11lo1l2o24 1'l:14:31 1'UOSI2O24 1'l:14:41 'l1lO5l2O24 11:14:51 111O5120.24'11:15:01 1110512024'11:15:11 1110512024 11:15.21 11n5no24 11:'15:31 11n6noz4 11:15:4'l 11lO5nO24 11:15:51 11lOSl2O24 11:14:01 11105120,24 11:14111 11lOSl2O24 11:16:21 11/0t2024 11:16:31 11lO5l2O24 11 .16:41 1 1 lO5l2O24 1 1 :'18:51 11lOSl2O24 11.17:O1 1110512O24 11:17:11 1110512024 11:17:21 1110512024 11.',t1.31 1110512024 11 .17:41 'l1lO5l2O24 11:17:5'l 'l1l05l2O24 11:14:o1 11rc5nq24 11:14:11 11lO5l-2O24 11:18.21 11nSnO24 11:18:31 11nSnO24 11:18:41 11N512O24 11:14:51 1110512024 11.19:01 11Nsno24 11:19:11 1110512024 11:19:21 PBarc 23.81 23.81 23.E'1 23.8't 23.81 23.81 23.81 23.8'.1 23.81 23.81 23.81 23.91 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 2X.81 23.81 23.81 23.E,1 23.81 23.81 23.81 23.61 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.8 1 23.81 23.81 23.A1 23.8 1 23.41 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.41 23.8'1 23.81 23.81 23.81 23.81 23.81 23.81 23.8'1 23.61 23.81 23.81 23.81 23.81 23.81 23.81 23.81 142 Group name #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 00 #1 Test Run - 60 #'1 Tsst Run - 60 #1 Test Run - 60 #1 Test Run - 60fl Test Run - 60 #1 Test Run - 60 #1 Tesi Run - 60 #1 Tsst Run - 60 #1 Test Run - 60 #1 Tsst Run - 60 #1 Test Run - 60 #1 Tesi Run - 80 #1 Test Run - 00 #1 Test Run - 60 #1 T6st Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Tsst Run - 00 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 00 #'l Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #'1 Test Run - 00 #1 Tost Run - 60 #1 Test Run - 00 #1 Test Run - 80 #1 Tast Run - 60 *1 Test Run - 80 #1 Test Run - 60 #1 Test Run - 60 #1 Tast Run - 60 #1 Test Run - 60 #1 Tast Run - 80 #1 Tast Run - 60 #1 Test Run - 60 #'l Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #'1 Test Run - 60 # l Test Run - 60 #1 Test Run - 60 #1 Tesl Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 00 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #l Test Run - 0O #'l Test Run - 60 #1 Test Run - 60 #l Test Run - 60 *1 Test Run - 60 *1 Tsst Run - 60 #1 Test Run - 60 #1 Test Run - 60 ,1 Test Run - 80 #1 Test Run - 60 Altamonl East 02 -0.08 -0.07 -0.07 -0.07 -0.08 -0.07 -0.09 -0.06 -0.07 -0.08 -0.08 -0.09 -0.07 -0.07 -0.00 -0.07 -0.00 -0.07 -0.06 -0.07 -0.07 -0.07 -0.06 -0.08 -0.07 -0.08 -0.05 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.09 -0.06 -0.07 -0.05 -0.08 -0.06 -0.10 -0.07 -0.09 -0.06 -0.10 -0.07 -0.09 -0.06 -0.1 0 -0.05 -0.09 -0.06 -0.09 -0.07 -0.08 -0.06 -0.08 -0.04 -0.09 -0.06 -0.08 -0.07 -0.07 4.06 -0.07 -0.07 -0.08 -0.06 -0.07 -0.06 -0.07 -0.06 -0.09 -0.09 -0.09 -0.04 -0.07 -0.08 -0.07 -0.07 -0.07 NOx 61.08 61 .19 01.20 81.21 61.60 61.55 81.55 61.55 61.42 60.95 60.26 60.41 60.45 00.19 59.91 60.59 61.60 61.38 41.23 81.2E 61.38 6'l.6rl 62.15 62.10 61.99 61.90 01.80 61.66 60.89 60.85 60.64 61.23 62.22 62.20 63.01 62.60 60.61 00.6s 60.71 60.73 60.82 80.47 59.90 59.74 59.08 59.51 60.32 59.69 59.04 59.19 60.43 60.43 60.72 60.30 59.01 59.32 59.87 60.49 61.19 61.02 60.48 59.85 58.83 59.18 59.53 59.65 60.35 60.35 60.41 60.04 61.32 61.98 63.02 62.80 62.50 42.70 62.90 62.64 62.48 62.44 co 104.35 '105.00 106.45 107.95 108.50 '108.40 107.60 106.55 106.00 108.20 100.75 107,40 107.50 107.50 107.05 106.20 105.30 l0/..70 105.50 107.40 '109.90 'I 12.'10 1 13.00 1'11 .85 110.40 '109.30 109.00 10s.10 109.50 109.20 '108.20 107.50 '108.80 10e.50 105.05 106.00 '106.00 106.00 '106.30 'to7.20 107.85 108.00 107.90 107.50 107.80 108.30 109.30 109.50 108.80 1 08.1 0 107.50 '107.60 108.30 1 09.1 0 109.50 1 09.70 1 09.50 109.50 109.40 109.30 109.35 108.50 107.40 1 06.1 0 1 05.50 '105.80 108.00 106.00 105.70 '104.85 104.25 1()4.30 105.40 'to7.40 109.70 1 1 1.50 1 1 '1.50 110.15 108.1 0 1 08.35 tunbiant 48 48 48 48 4A 48 48 48 48 48 48 48 49 49 49 50 50 51 51 51 52 s2 52 52 52 52 52 52 52 52 53 53 53 53 53 53 53 53 53 53 53 53 52 52 52 52 52 52 52 52 51 51 51 51 51 51 51 51 51 51 50 50 50 50 50 50 50 50 50 50 49 49 49 49 49 49 49 49 49 49 Humidity 36.6 36.6 36.7 38.8 37.1 37.1 37.',1 37.2 37.4 37.8 37.6 38.3 38.9 39.4 39.6 39.5 39.1 38.0 37 .1 38.5 35.4 34.8 34.3 34.1 33.9 33.5 33.6 33.7 33.7 33.6 33.3 33.4 32.5 31.6 30.9 30.5 30.4 30.4 30.e 30.9 31.3 31.6 31 .9 32.2 32.5 33.0 39.4 33.6 33.7 33.8 33.8 33.7 33.6 33.6 33.5 33.6 33.7 33.8 33.9 34.0 33.9 33.8 33.8 33.9 33.9y.1 v.4 v.7 34.8 34.8 34.8 34.E 34.8 35.1 35.3 35.7 35.9 36.1 36.2 Run name Test Run Test Run Test Run Tast Run Test Run Test Run Testflun Tast Run Test Run Test Run Test Run TestRm Test Run Test Run Test Run Test Run Tesl Run Test Run Test Run Test Run Tesl Run Test Run Test Run Test Run Tesl Run Tesl Run Test Run Test Run Test Run Tesl Run Tesl Run Tesl Run Test Run Tegl Run Tast Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesl Run Test Run Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesl Run Tesi Run Test Run Tesl Run Test Run Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesi Run Test Run Test Run Test Run Tesl Run Test Run Test Run T€st Run Test Run T4t Run Test Run Company Station Unit TimeStamp 1110512024 11:19:31 11lOSl2O24 11:19:41 1110512024 11:19:5'l 11lOSl2O24 11:2O:O1 1110512024 '11:2O:1'l 1110512024 11:20:21 11lOSl2O24 11:20:31 1110512024 11.20.41 1110512024 1'l:20:51 1110512024 11:21:O1 11lOSl2O24 1'l:21.11 1110512024 11:21.21 1110'512024 11:2'l:31 11n5t2024 11.21.41 1110512024 11:21:51 11t05t2024 11.22.01 11N512O24 11:22:11 11t05t2024 11"22.21 1110'512024 11:?2:3'l 1110512024 11:22:41 11to5t2024 11.22.s'l 11n512O24 11:23:01 1'110512024 11t23t11 1'l lO5l2O24 11:23:21 11lO5nA24 'l.1:23:31 1110512024 11 .23:41 1110512024 11:23:5'l I',t 10512024 ',l 1 :24:01 11lO5lZO24 '11:24:11 1'l lO5l2O24 1'l:24:21 1110512024 11:24:31 11l0sl20z4 11:24:41 1110512024 'l.1:24:51 1'llOSl2O24 '11:25:01 1'l lO5l2O24'l 1 :25. 1'l 11lOSl2O24 11:25:21 11lOSl2O24 11:25:31 1110512024 11:25:4'l 11lOSl2O24 11:25:51 1110512024 11:28.0'l 1110512024 11:26:11 1110512024 11:26:21 1110512024 11:26.31 1110512024 11:26:41 11lOSl2O24 11:26.51 1110512024 1'l:27 01 11lOSl2O24 11:27 11 11lOSl2O24 1'l:27 .21 11lOSl2O24 11:27'.31 1110512024 11:27.41 1110512024 11:27.51 1110512024 1'l:28:01 11rc5n024 11:28:11 11nil2024 11:2A.21 11n512O24 1'l:28:31 1110512024 11:28:41 11N5nO24 11:28:51 11N512O24 '11:29:01 11n5no24 '11:29:11 11NS/2O24 11:29:21 1110512024 'l.1:29:31 11lOSl2O24 11:29:4'l 11D5nO21 11:29:51 11lOSl2O24 11:30:01 11lOSl2O24 11:3O:11 1'llo5l2o24 11:3O:2'l 1110512024 11:30:31 I1lO5l2O24'l1 30:41 11lOSl2O24 11:30:51 11 lO5l2O24 'l 1 :31 :O1 1110512024 11:31:11 rlOSnO24 11:31:21 11rc5no24 11:31:31 'l1lO5l2O21 11:31:11 11n5no24 11:31:51 11lOSf2O24 11:32:01 AYorlg. 11n5n024 11:37.23 11fi5n024 11:37:33 PBam 23.81 23.8'l 23.81 23.81 23.81 23.81 23.81 23.41 23.81 23.41 23.81 23.81 23.81 23.41 23.81 23.E'1 23.81 23.81 23.81 23.81 23.41 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.8'l 23.81 23.81 23.E,l 23.81 23.8'1 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.8't 23.81 23.81 23.81 23.El 23.41 23.81 23,41 23.41 23.81 23.41 23,81 23.81 23.41 23.41 23.81 23.41 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.81 23.80 23.80 143 Group name f1 Test Run - 60 #1 Tast Run - 60 #1 Test Run - 00 #1 Test Run - 60 #l Test Run - 60 #1 Test Run - 00 #l Test Run - 60 #1 Tsst Run - 60 #1 Test Run - 60 #'l Tast Run - 50 #1 Tast Rm - 60 #1 Test Run - 80 #1 T6st Run - 60 #1 T6st Run - 60 #1 Tast Run - 60 #'l Test Run - 60 #1 Tsst Run - 60 #1 Test Run - 60 #1 Tast Run - 60 #1 Test Run - 60 #1 TBst Run - 60 #1 Tsst Run - 60 f1 Test Run - 00 *1 Test Run - 60 #1 Test Run - 60 *1 Test Run - 60 #'1 Tast Run - 60 #1 T6st Run - 80 ll Tast Run - e0 #1 T$t Run - 80 #1 Test Run - 60 #1 Tost Run - 80 #1 Tast Run - 80 *1 Test Run - 00 fl Tasl Run - 60 #1 Test Run - 60 #1 Test Run - 60fl T6st Run - 60 #1 Tast Run - 60 *1 T6st Run - 60 #1 Test Run - 60 #1 Tast Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Tast Run - 60 #1 Test Run - 60 #'l Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Tesl Run - 60 #1 Test Run - 60 #'l Test Run - 60 #1 Test Run - 60 #1 Test Run - 00 #1 Tast Run - 60 #1 Tast Run - 60 #1 Test Run - 60 #1 Test Run - 00 #1 Test Run - 60 #1 Test Run - 60 #'1 Test Run - 60 #1 Tost Run - 60 *1 TBt Run - 80 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 80 #1 Test Run - 60 *1 Test Run - 60 #1 Test Run - 60 #1 T€st Run - 60 #1 Test Run - 60 #1 T6st Run - 60 #1 Test Run - 80 #1 Test Run - 60 *1 Test Run - 80 #1 Tsst Run - 60 #1 Bias Check #1 Bias Check Altamont East cE-5 o2 -0.09 -0.05 -0.09 -0.07 -0.08 -0.08 -0.08 -0.05 -0.10 -0.07 -0.10 -0.08 -0.08 -0.06 -0.10 -0.07 -0.08 -0.07 -0.08 -0.06 -0.07 -0.05 -0.09 -0.07 -0.08 -0.08 -0.08 -0.05 -0.08 -0.07 -0.06 -0.06 -0.08 -0.07 -0.09 -0.06 -0.10 -0.07 -0.06 -0.08 -0.08 -0.00 -0.07 -0.07 -0.08 -0.08 -0.06 -0.05 -0.09 -0.05 -0.09 -0.07 -0.08 -0.07 -0.09 -0.07 -0.07 -0.06 -0.08 -0.07 -0.09 -0.07 4.O7 -0.07 -0.06 -0.06 -0.07 -0.00 -0.07 -0.08 -0.07 -0.08 -0.08 -0.M -0.08 -0.07 {.07 -0.05 -0.03 NOx 42.17 62.14 61.67 61.91 42.54 82.1'1 81.48 62.31 83.05 81.72 59.90 61.3'l 63.48 63.37 61.98 61.96 61.65 61.85 62.58 61.73 60.35 60.38 60.40 oo.77 61.65 61.40 81.1 1 4o.47 59.85 59.97 60.1 7 60.02 59.1 3 59.04 58.96 58.95 58.89 58.82 58.74 58.79 59.05 58.41 57.48 57.53 59.73 59.46 58.42 58.77 s9.49 s8.84 57.22 57.83 58.50 58.64 58.90 59.04 59.40 59.27 59.'14 59.15 59.37 59.30 58.86 58.59 58.04 58.45 59.03 55.27 59.39 59.39 59.67 59.57 59.37 59.39 59.10 59.1 1 60.2'l 187.41 147.M CO 109.55 1 10.95 1 1 1.35 1 10.50 109.60 109.00 109.35 109.50 109.50 109.50 109.50 109.50 '109.50 '109.50 109.20 108.00 106.80 105.70 105.50 105.50 105.45 '1M.80 103.70 103.00 103.00 103.50 1(x.15 104.85 105.00 1U.75 1U.75 105.40 106.20 107.20 108.20 '108.40 108.00 107.65 108,00 108.00 107.85 107.50 '107.10 107.00 107,00 100.90 106.35 106.00 106.00 106.50 106.50 105.85 105,20 105.00 105.40 '108.50 107.55 1 08.35 108.50 108.45 108.00 107.90 107.20 107.00 106.80 1 06.50 '106.10 1 05.50 1 05.1 0 104.50 1(x.50 10/1.50 105.15 105.55 't06.00 106.00 10E.34 -1.52 -1.55 Ambient 49 48 48 48 48 48 48 4A 48 4A 4A 48 49 49 49 49 49 49 49 49 49 49 49 49 49 48 48 48 48 48 48 48 48 4A 48 48 48 4A 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 4A 48 48 48 48 48 48 48 48 49 50 Humidity 3€.5 36.9 37.1 37.2 37 .1 36.9 36.7 36.5 36.5 38.4 38.4 36.6 34.4 38.3 38.0 35.9 35.8 35.9 36.0 38.1 36.1 36.1 38.1 36.1 36.1 38.3 36.5 36.7 38.8 36.9 36.9 36.9 38.9 37.0 37.1 37.2 37.2 37.0 36.9 30.8 36.9 36.9 36.9 37.0 37.2 37.4 37.5 37.6 37.7 37.9 38.0 38.1 38.1 38.2 38.5 38.8 39.0 38.9 38.7 38.7 38.8 38.8 38.7 38.8 38.9 39.0 38.8 38.4 3{t.4 34.2 38.2 38.1 38.3 38.4 38.5 38.8 37.7 37.2 36.5 Run name Test Run Tast Run Test Run Test Run Tast Run Test Run Test Run Test Run Test Run Test Run Tesl Run Tesl Run Test Run Test Run T6sl Run Tesl Run Tesi Run Test Run Test Run Test Run Test Run Tesl Run Test Run T$t Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Tesl Run Test Run Tesl Run Test Run Test Run Test Run Test Run Test Run Tesl Run Test Run Test Run Test Run NOx Bias NOt Bias Company Station Unit TimeStamp 1110512024 11:37:43 11lo5l2o24 11:37:53 1110512024 11:38:03 111O512O24 11:34:13 Avenga 43:54 44:U 44:14 44:24 44:U 44:44 48:48 48:58 49:08 49:18 49:28 49:38 111O5t2024 11: 11tO512024 1',!) 1110512024 1't: 11t05t2024 1'.t: 11t05t2024 11: 11tO512024 11. Avoraqa 11n5t2024 1',|. 11n5t2024 11: 111O5t2024 1',ll 11t05t2024 11: 1110'512024 11: 11t05t2024 11. AverSqs 1110512024 12:05:28 1110512024 12:o53a '1110512024 12:05:48 111O512024 12:o5:5a 11lOSl2O24 12:04:08 1110512024 12:04i8 '1110512024 12:06:28 'l1lO5l2O24 12:06:34 1110512024 12:06:44 'l1lOSl2O24 12:06:58 11105t2024 12.07.O8 11tO512024 12.07.18 1 1 1O5t2024 ',t2 .O7 "2811lOSl2O24 '12:07:34 1'llo5l2o24 12:07:44 'l 1 lO5l2O24 12:07 :58 1110512024 12.Oa:O8 1110512024 12:Oa:14 11tO512024 12'.08.28 11lo5l2024 12:08:38 1110512024 12:OA.4A 1110512024 12:08:58 1110512024 12:O9:OA 11lOSl2O24 12:09:18 1110512024 12:09:24 11lOSl2O24 12:09:38 1110512024 12:09:48 11t05t2024 12'.O9:5A 1110512024 12:1O:Oa 1110512024 12:10:18 1110512024 12:'lo:24 1110512O24 12:10:34 11lOSl2O24 12:10:44 11lOSl2O24 12:lO:58 1110512024 12:11:Oo 1110512024 12:11:14 11lOSl2O21 12:11:28 1110512024 12:11:34 1110512024 12:11:44 11losl2o24 12:11:58 11lOSl2O24 12:'12:OB 11lOSl2O24 12:12:18 11n512o24 12.12:24 11lOSl2O24 12:12:38 11n512O24 12112:48 1110512024 12:12:54 11nSl2O24 12:13:Oa 11lOSl2O24 12:13:18 1110512024 12:13:24 1'llOSl2O24 12:13:36 1110512O24 12:13:44 11n5no24 12:13:58 11lO5nO24 12:14:04 1110512024 12:14.14 'l1lOSl2O24 12:14:28 1110512024 12:14:38 1110512024 12:14:48 1110512024 12:14:58 PBarc 23.80 23.80 23.80 23.80 23.80 23.80 23.80 23.80 23.80 23.80 23.80 23.E0 23.80 23.80 23.80 23.80 23.80 23.80 23.80 23.79 25.79 23.79 23.79 23.75 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23."19 23.79 23.79 23.79 23.79 23.79 23.19 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 14 Group nam€ #'1 Bias Check #'l Bias Check #1 Bias Check #1 Bias Check #'l Bias Check #l BiEs Chec* #1 Bias Chek #1 Bias Check #1 Bias Ch*k #1 Bias Ch6ck #1 Bias Check #1 Bias Chek #1 Bias Chek #1 Bias Check #1 Bias Chmk #1 Bias Check #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Tesl Run - 60 #2 TBst Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 00 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 TBst Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 Test Run - 60 #2 Test Run - 60 *2 Test Run - 80 #2 Tsst Run - 00 #2 Test Run - 60 *2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 T6st Run - 60 #2 Tast Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 80 #2 Tost Run - 60 #2 Test Run - 80 *2 TBt Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 i2 Test Run - 60 *2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 60 #2 Test Run - 60 Altamont Eact o2 -0.04 -0.03 -0.04 -o.o2 {,04 5.13 5.07 5.09 5.06 5.09 5.06 5.08 -0.02 -0.02 -0.01 -0.03 -0.(]4 -0.04 -0.03 -0.06 -0.08 -0.05 -0.08 -0.05 -0.07 -0.05 -0.05 -0.06 -0.06 -0.07 -0.07 -0.05 -0.07 -0.05 -0.06 -0.05 -0.06 -0.04 -0.06 -0.06 -0.06 -0.06 -0.06 -0.06 -0.06 -0.06 -0.05 -0.08 -o.06 -0.07 -0.06 -0.07 -0.06 -0.06 -0.06 -0.05 -0.06 -0.06 -0.08 -0.06 -0.06 -0.07 -0.07 -0.06 -0.04 -0.06 -0.06 -0.06 -0.07 {.07 -0.07 -0.05 4.06 -0.08 -0.06 -0.06 -0.07 NOx 187.69 187.77 187.75 187.75 18f.87 1.62 1 .33 1.04 1.00 o.71 0.65 1.06 0.19 0.19 0.19 0.19 0.'19 0.20 0.1 9 84.91 65.24 64.67 64.16 64.1 9 64.28 63.86 63.19 83.30 84.26 64.22 64.14 u.26 64.48 64.39 84.23 64.23 64.20 64.47 65.1 0 64.47 64.51 64.36 63.82 63.80 63.37 63.29 62.57 63.14 64.76 64.37 63.51 63.14 62.64 62.33 61.39 62.28 63.73 63.88 u.12 84.15 64.33 64.1 1 63.07 42.70 61.77 61.78 01.70 61.53 61 .09 61 .39 02.19 61 .91 61 .43 61 .47 62.34 e2.28 62.04 co -1.58 -1.59 -1.59 -1.58 -1.57 - t.43 -1.34 -1.2s -1.20 -1.20 -1.20 -1.27 192.00 192.00 192.00 192.00 192.00 192.00 192.00 100.50 100.90 101.00 101.40 10't.95 102.65 104.10 105.75 106.75 106.75 1 05.90 1 04.60 103.60 103.00 1 03.00 1 03.00 1 02.80 1 02.50 1 02.50 1 02.50 1 02.50 102.40 1 02.00 101 .50 101 .50 101 .70 1 02.00 102.00 101 .45 1 00.20 99.80 100.25 101 .80 103.25 104.85 105.45 105.50 105.50 105.'15 104.80 '104.45 1 04.00 1 03.70 103.25 1 02.65 102.20 101 .50 101.15 1 00.55 100.40 1 00.00 100.45 '100.80 101 .20 101 .90 102.80 104.00 104.50 Ambient 50 50 50 49 5o 48 47 47 47 47 47 17 47 47 47 47 47 47 17 Humidity 36.0 35.9 35.9 36.1 36.3 37.5 37.5 37 .7 37.8 37.9 37.f 39.2 39.'1 39.1 39.3 39.2 39.1 39.2 42.3 41.4 40.2 39.2 38.4 38.0 37.7 36.9 36.3 35.8 35.6 34.8 v.2 33.9 33.8 lto 34.3 34.3 34.0 33.9 33.4 33.0 33.0 33.0 33.0 33.0 33.2 3:t.3 33.3 33.6 33.8 33.9 34.1 34.3 u.4 34.5 34.5 34.5 34.5 34.5 34.5 34.7 34.9 35.0 35.0 34.9 35.0 35.1 34.8 u.7 34.5 34.5 u.5 34.7 34.8 u.6 u.3 34.4 Run name NOx Bias NOx Bias NOx Bias NOx Bias 02 Bias 02 Bias O2 Bias 02 Bias 02 Bias 02 Bias CO Bias CO Bias CO Bias CO Bias CO Bias CO Bias Tesl Run Test Run Tesl Run Test Run Tast Run Test Run Test Run Test Run Tesl Run Test Run Test Run Test Run Tesl Run Tsst Run Test Run Test Run Tesl Run Test Run Test Run T€st Run Tesl Run Test Run Test Run Test Run Test Run T€st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Tesl Run Test Run Test Run Test Run Test Run Tesi Run Test Run T€st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Tesl Run T$t Run 39 40 40 40 41 41 41 41 41 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 41 41 41 41 41 41 41 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 Company Stration Unit TimeStamp 'l1lO5l2O24 12:'15:OA 1110512O24 12:15:18 1110512024 12:15:2A 11lOSnO24 12:15:U 1110512024 12:15:48 1'llO5l2O24 12:15:58 1110512024 12:16:0A 11lOSl2O24 12:16:18 1110512024 12:18:29 1llOSl?O24 12:16:34 11t05t2024 12iA.4A 1110512024 12:16:58 11N512O24 12:17.OA 11t05t2024 12..17..1A 1110512024 12:17:28 11lOSl2O24'12:17:* 'l1lO5l2O24 12:'17:44 1110512024 't2:17 .58 1110512024 '12:'l.8:Oo 1110'512024 12:18:18 11lOSl2O24 12:18:28 111O5t2024 12.1838 11n512O24 12.18:48 1110512024 12:14:54 1110512024 12:19:08 1'llOSl2O24 12:19.1A 1'llOil2o24 12:19:2a 1110512024 1219t38 1110512024 12:19:48 11tO512024 12.19.58 11tO512024 12,20.O8 1110512024 12:20:18 111O512024 12.2O:28 '11to512024 12"20:34 1110512024 12:20:44 1110512024 '12.20:58 1110512024 12:21:Og 111O512024 12:21:18 '1110512024 12:21:24 1110512024 12:21:34 1110512024 '12.21:48 1110512024 12:21:58 11n512O24 12:22:08 'l1lO5l2O24 '12:22:14 1110512024 12:22:28 1110512024 12:22:38 11to5l2o24 '12:22.4a 1'lt05t2024 't2:22.58 1110512O24 12:23:08 1110512024 12:23j8 1110512024 12:23.28 1110512024 12:23.38 1110512024 12:23:48 1110512024 12:23:54 11n5r'2024 12:24:Oa 11n512O24 12:24:18 11n512O24 12:24:29 11oSQO24 12:2434 11N5nO24 12.24:44 'l1lOSl2O24 12.24:5A 1110512024 12.25:0A 111O512O24 12:25:18 1110'512024 12:25:28 1110512024 122534 1110512024 12.25:48 1110512024 12:25:54 1110512024 12:28:OA 1110512024 12:2gtg 1 1 lO5l2O24 12:26:28 1110512024 12:26:U 'l1lO5l2O24 12:24:48 11lOg2O24 12:26.58 11rc5no24 12.27:Oa 11n5f2024 12:27:18 11n512424 12:27:24 11N512O24 12:27:38 11n5no24 12:27.4A 11n5no24 12:27:58 11NSI2O24 12:28:08 1110512024 12:28:18 Altamont East cE-5 02 -0.05 -0.07 -0.06 -0.06 -0.06 -0.06 -0.06 -0.07 -0.07 -0.06 -0.06 -0.00 -0.06 -0.07 -0.06 -0.06 -0.07 -0.07 -0.06 -0.05 -0.07 -0.08 -o.08 -0.05 -0.06 -0.05 -0.06 -0.05 -0.08 -0.08 -0.08 -0.05 -0.00 -0.06 -0.07 -0.08 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.00 -0.07 -0.07 -0.07 -0.06 -0.06 -0.04 -0.07 -0.05 -0.0s -0.05 -0.05 -0.05 -0.05 -0.05 -0.07 -0.06 -0.07 -0.05 -0.07 -0.05 -0.05 {.05 -0.06 -0.05 -0.05 -o.04 -0.04 -0.08 -0.07 -0.07 -0.08 -0.07 -0.05 {.06 -0.07 -0.00 -0.05 NOx 61 .'16 59.02 59.82 60.53 60.78 61.49 61.53 61.42 61.20 60.95 61.26 81.45 81.46 62.16 62.1 5 82.17 62.24 42.36 62.80 43.12 02.86 62.42 62.36 82.21 42.46 62.89 62.85 62.44 62.59 63.32 63.27 63.1 I 63.1 0 42.94 62.74 62.58 82.62 62.55 82.40 42.27 62.27 62.U 61.89 81.80 63.03 65.89 65.72 65"56 85.24 04.78 64.92 65.01 65.09 65.37 64.61 63.49 63.45 62.96 42.92 62.63 61.99 60.19 60.08 60.13 61.55 62.U 62.46 81.96 62.27 62.77 82.05 60.80 80.73 60.31 60.43 60.93 01..14 62.96 83.58 64.60 co 104.05 103.70 102.95 102.50 '101.80 101.05 '100.25 100.00 100.30 101.25 '102.35 103.80 104.85 105.70 106.00 105.75 104.90 104.20 1(x.00 103.65 103.40 102.30 10'l .55 100.85 100.50 100.50 100.50 100.50 '100.50 100.50 100.50 100.80 101.75 102.50 102.90 103.00 102.30 101.80 101.50 101 .50 101.85 102.70 103.25 1 03.50 103.40 '102.80 102.45 102.00 101 .60 101.05 100.50 100.50 100.s0 100.95 101 .'10 100.80 1 00.1 5 '100.00 '100.00 100.00 '100.60 101 .50 1 02.55 103.40 1@.10 '104.55 105.00 105.45 '105.30 104.45 103.'t 5 101.40 100.60 100.50 '100.50 '100.50 100.50 100.50 100.50 100 50 tunbiBnt 40 40 40 40 40 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 41 41 11 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 4'l 41 41 41 41 41 41 41 41 4'l 41 41 1'1 PBam 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.75 23.79 23.75 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.?9 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 2t.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 145 Humidity u.4 u.2 34.0 34.0 34.0 u.1 34.3 34.6 34.7 u.8 34.9 35.'t 35.4 35.5 35.5 35.4 35.3 35.5 35.6 35.4 35.'1 35.0 35.0 35.1 35.0 35.1 35.3 35.4 35.5 35.7 36.1 36.2 35.5 35.2 35.1 u.7 u.4 u.1 34.0 33.5 33.1 32.9 32.9 32.9 32.8 32.4 32.7 32.3 31.8 31.7 31.8 32.1 32.4 32.7 32.7 Jt.o 32.6 32.4 32.1 31.7 31.0 30.5 30.2 30.1 30.0 30.0 30.0 30.0 N.2 30.4 30.5 30.8 30.8 30.9 31.0 30.9 30.9 31.1 31.4 31.1 Run name Test Rln Test Run Test Run Test Run Tast Run Tsst Run Test Run T6st Run Tost Run Test Run Test Run Test Run Test Run Test Run Tsst Run Test Run Te3l Run Test Run Test Run Test Run Test Run Test Run Tesl Run Test Run Test Run T6st Run Test Run Tast Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tsst Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run T$t Run Test Run T6st Run Test Run Test Run Test Run T6st Run Test Run Tast Run Test Run Test Run T6st Run Group nam6 #2 Test Run - 60 #2 Tesl Run - 60 #2 Test Run - 80 #2 Tesl Run - 80 #2 Tast Run - 60 #2 T6st Run - 80 #2 Tesi Run - 60 #2 T6st Run - 60 #2 Tsst Run - 60 #2 Tsst Run - 60 #2 Tsst Run - 00 *2 Test Run - 80 f2 Tsst Run - 80 #2 Test Run.00 #2 Test Run - 80 #2 Tost Run - 60 #2 Test Run - 00 #2 Tast Run - 60 #2 Test Run - 80 #2 Tesi Run - 00 #2 Test Run - 00 *2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tesl Run - 60 #2 Tost Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tesl Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tsst Run - 60 #2 Test Run - 60 #2 Tsst Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 00 #2 Test Run - 60 #2 Tost Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 f2 Tsst Run - 60 #2 Tsst Run - 80 #2 T6st Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 Test Run - 60 #2 Test Run - 60 #2 Test Ruf, - 60 #2 T€st Run - 60 #2 T$t Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 50 #2 Test Run - 60 #2 Test Run - 80 TimeStamp 1110512024 12.28:24 111O5t2024 12.2A..39 11tO512024 12.28.44 1110512024 12.28.58 11lo5l2024 12:29:oa 11lo1l2o24 12:29:14 1'llOSl2O24 12:29:24 1110512024 12:29:34 111O5t2024 ',t2.29:48 1110512024 12:29:54 11l05t2024 12:3O:OA 'l1lo5l2i24 12:30:18 1110512024 12:30:24 1110512024 12:30:34 1110512024 12:30:48 11lOSl2O24 12:30:54 1110512024 12:31:oa 1 'l lO5l2O24 '12:31 :18 1 1 lO5l2O24 '12:31 :29 1110512024 12:31:3A 11lOSl2O24 12:31:48 11lOSl2O24 12:31:54 1'llO5l2O24 12:32:Oa 11lOSl2O24 12:32:14 11lOSl2O24 12:32:29 11lOSl2O24 12:32:38 11lo5l2o24 12:32:48 11lOSl2O24 12:32.5A 1110512024 12:33:oa 1110512024 12:33:14 1110512024 12:33:24 1110512024 12:33.38 1110512024 12:33:44 1110512024 12:33:54 1110512024 12:U.Og 1110512024 12:34:18 1110512024 12:34:24 11lOSl2O24 12:34.38 1110512024 12:34:44 1110512024 12:34:58 1110512024 12:35:OA 111O512O24 12:35:14 'l1lOSl2O24 12:35:24 11t05t2024 12.35.38 1110512024 12:35:48 1110512024 12:35:58 1 1 lOSl2O24 12:34:OA 11lOSl2O24 12:36:18 1110,512024 12:36.24 1110512024 12:36:38 'l1lOSl2O24 12:36:48 11lOSl2O24 12:36:58 1110512024 ''12:37:08 11rc5no24 '12:37:14 11lOSl2O24 12:37:24 11n5nt24 12:37.34 1110512o24 12:37:44 1110512024 12:37:54 1110512024 123A:Og 1110512024 12:3AiA 1110512024 12:38:2A 1110512024 12343fJ 11lOSl2O24 12:38:48 1110512024 12.38:58 1'llOSl2O24 12:39:oa 'l1lo5l2L2412:39 18 1110512024 12:39'.28 'l1l05l2o24 12:39:34 1110512021 12:39'.48 11lOSl2O24 12:39:58 1110512024 12:40:Oa 1110512024 12:40:14 11lO5nO24 12.40.28 11n5r'2021 12:40:38 11n5no24 12:40:44 11n5f2024 12:40:58 11nWO2412:41:OA 'l1lO5l2O24 12:41:18 1110512024 12:41'.28 11lO5nO24 12:41 .38 A/tamont East cE-5 o2 -0.06 -0.06 -0.06 -0.05 -0.06 -0.07 -0.07 -0.07 -0.06 -0.07 -0.05 -0.07 -0.07 -0.07 -0.05 -0.08 -0.06 -0.07 -o.o7 -0.07 -0.05 -0.07 -0.06 -0.06 -0.09 -0.06 -0.07 -0.06 -0.06 -0.05 -0.07 -0.07 -0.07 -0.07 -0.06 -0.06 -0.06 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.06 -0.07 -0.06 -0.07 -0.06 -0.06 -0.08 -0.06 -0.07 -0.06 -0.08 -0.07 -0.07 -0.07 -0.08 -0.07 -0,06 -0.06 -0.07 -0.05 -0.07 -0.06 -0.06 -0.07 -0.07 -0.07 -0.06 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.08 NOx 63.94 62.92 62.53 61.38 60.77 59.68 60.38 61.14 60.93 60.00 60.31 51.07 61.14 61.56 61.96 62.55 62.00 80.84 60.9'l 60.85 60.79 60.89 61.08 60.22 60.13 60.95 61.24 61.93 61.52 60.61 61.70 62.87 62.39 61.01 61.65 82.37 64.00 66.26 66.21 64.22 64.18 63.45 63.27 62.68 82.62 62.62 62.71 62.90 63.29 63.92 64.21 64.69 04.66 64.55 64.33 63.50 63.45 63.21 62.73 6l .96 61.74 61.24 61 .06 60.96 61.20 61.39 61.60 61.95 62.O4 62.72 62.74 62.56 62.05 61 .15 61.69 62.16 62.13 63.21 62.47 60.88 co 101 .70 102.95 103.75 104.20 103.80 102,50 101 .40 100.80 1 00.55 101 .1 5 102.05 103.60 104.50 105.35 105.10 104.75 104.05 104.00 103.75 103.05 102.70 1 02.55 103.00 104.60 106.35 108.40 110.25 11 '1.00 1 10.00 108.20 '106.15 '105.10 105.15 105.60 106.00 '106.05 105.50 104.80 104.25 104.00 104.30 104.50 '104.95 105.35 105.70 106.00 105.55 105,20 105.00 105.00 104.80 '104.25 1 02.90 102.50 1 02.50 102.75 '103.00 103.00 103.20 103.75 104.80 106.30 107.2s 107.50 1 07.50 107.35 107.00 106.30 105.65 105.05 104.50 1(X.00 103.35 102.45 101.75 100.75 100.40 1 00.1 0 100.50 101.45 Ambiant 41 41 41 41 41 41 41 4',| 4'l 41 41 41 4',! 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 4',! 11 41 41 41 41 41 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 PBarc 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.?9 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.75 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.?9 23.19 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23_79 146 Humidity 31.3 31.1 3'1.2 31.2 31.2 31.2 31.5 31.8 31.7 31.5 31.6 31.8 31.9 31 .5 31.1 30.7 30.6 30.4 30.4 30.3 30.1 29.4 29.7 29.7 29.8 30.0 30.2 30.3 30.4 30.4 30.5 30.9 Jt.t 31.2 31 .4 31 .9 31 .9 31 .9 31.8 31.7 31.6 31 .6 31.6 31.6 31.8 32.0 32.2 32.3 32.3 32.3 32.1 31.9 31.8 31.8 31.7 31.8 31.6 31.6 31.6 31.1 30.6 30.3 30.2 30.0 29.9 29.7 29.7 29.4 29.2 29.3 29.5 29.7 29.7 29.7 29.7 30.2 30.4 30.5 30.4 Run name Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tost Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T€st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T€3t Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Tesl Run Tesl Run Test Run Test Run T6st Run Tsst Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Tesi Run Test Run Test Run Test Run Group narn6 #2 Test Run - 60 #2 Test Run - 60 *2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 f2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 Tast Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 *2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Tesl Run - 60 f2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 80 il2 Test Run - 60 #2 Tesl Run - 80 #2 Test Run - 60 il2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 *2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 f2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 TBt Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 T$t Run - 60 #2 Test Run - 60 Company Station Unit TimeStamp 11lOSl2O24 12:41:48 11lOSl2O24 12:41.58 11t05t2024 12.42.OE 11nSl2O24 12:12.18 11lOSl2O24 12:42:28 't1lO5l2O24 12:42:38 11lOSl2O24 12:42.48 't1lo5t2024 't2.42.58 11nSl2O24 12:43.O9 1110512024 12:43:18 1'llO5l2O24 12:43.28 1110512024 12:43.3A 1110512024 12:43'.48 1110512024 12:43:58 11lOSl2O24 12:44.OA 1110512021 12:44:18 1110512024 12:44:28 11lOSl2O24 12:44.3A 11lOSl2O24 12:44:48 1110512024 12:44:54 111O512024 12.45:OB 11lOSl2O24 12:45:18 'l1tOSl2O24 '12:45:28 1110512024 12:45:34 1110512024 12:45:48 11tO512024 '12.45:58 1114512024 12:44:AA 11lOSl2O24 12:16:18 1110512024 12:44:28 1110512024 12:48:38 I I 10512024 't2:16'.48 1'110512024 12:44:58 1110512024 12:47:Og 11tO512O24 12:47.18 1'110,512024 12:47.2A 1110512024 12:47 .38 1110512024 12:47:44 1110512024 12:47:58 11lOSl2O24 12:4A.Og 11lOSl2O24 12:4A:18 11lOSl2O24 12:44.24 11lOSl2O24 12:1938 1110512024 12:48.48 1110512024 12:48.58 1110512024 12:49.OA 1110512024 12:49j9 1110512024 12:49.28 11lOSl2O24 12:49:34 1110512024 12:49.44 11tO512024 12.49.58 1110512024 12:50.OA 1110512024 12:5O'.1A 1110512024 12:50.2A 1'll05l2024 12:50'.38 11lO5nO24 12"50.48 11lOSl2O24 12:50.58 11rc5no24 12:51:Og 11n512O24 12:51:18 11nil2l24 12:51:2A 11lOSl2O24 12:51:38 1110512024 12:51:48 11lOSl2O24 12:il.5A 1110512024 12:52.0a 1110512024 12:52.18 11lOSl2O24 12:52:24 11lOSl2O24 12:52:Xg 1110512024 12:52:49 1110512024 12:52:54 1110512024 12:53:Oa 1110512024 12:g:18 1110512024 12:53:24 11losl2o24 12:53:38 11nSf2O24 12:53:48 1110512024 12:53:58 11nil2o24 12:il:OA 11n5no24 12:54:18 11NS|2O24 12:54'.28 11n5no24 12:54:34 11n512O24 12:54:48 1110512024 12:54'.58 PBaro 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.75 23.79 23.79 23.79 2s.79 23.79 23.79 ?3.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23_79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.?9 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.19 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.19 23.79 23.79 23.19 23.79 23.79 23.79 23.79 23.79 23.75 23.79 23.79 23.79 23.79 23.79 23.79 147 Group name #2 Test Run - 60 #2 Test Run - 80 *2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - g0 il2 Tesl Run - 80 *2 Test Run - €0 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - e0 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Tesl Run - 00 #2 Test Run - 80 ,2 T$1 Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 fZ Test Run - 60 #2 Test Run - 80 #2 Tesl Run - 60 *2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tesi Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 80 ,2 Test Run - B0 ,2 Tesi Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 *2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 Altamont Easi cE-5 o2 -0.06 -0.07 -0.06 -0.07 -0.07 -0.06 -0.06 -0.06 -0.07 -0.06 -0.06 -0.07 -0.06 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.47 -0.07 -0.07 -0.07 -0.06 -0.06 -0.06 -0.07 -0.06 -0.06 -0.08 -0.06 -0.06 -0.06 -0.06 -0.06 -0.08 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.08 -0.06 -0.06 -0.07 -0.07 -0.06 -0.06 -0.06 -0.07 -0.06 -o.o7 -0.06 -0.00 -0.07 -0.06 -0.08 -0.06 -0.07 -0.06 -0.06 -0.07 -0.06 -0.07 -0.06 -0.06 -0.07 -0.06 NOx 61.63 62.57 67.54 63.05 62.99 62.78 62.54 61.97 62.15 62.35 82.32 62.37 62.32 62.09 61.64 80.98 41.22 61.41 81.44 61.50 6'1.61 62.55 62.09 60.77 61.86 83.54 42.* 62.36 62.09 61.57 60.82 59.43 59.50 8't.53 61.57 42.15 62.12 81.85 62.97 44.73 87.O7 69.85 68.09 63.50 63.20 62.54 42.52 62.90 63.1 1 63.75 63.76 63.80 63.40 62.69 42.32 61.54 61.06 00.61 61.37 62.62 82.11 8't.12 81.20 83.19 63.01 62.44 62.34 61.98 62.16 62.30 62.62 63.18 83.09 62.93 63.14 63.53 63.52 62.41 62.35 61 .10 co 103.30 104.55 105.00 1 04.50 103.20 102.10 '101.50 101.70 't02.70 103.50 '104.00 103.35 101 .85 101.20 '101 .00 101 .85 1 02.35 1 02-50 1 02.1 5 102.00 102.00 1 02.50 1 03.1 0 1 03.50 103.00 102.75 102.60 103.40 1 04.1 s 104.60 104.50 '104.05 103.1 5 '102.80 102.50 102.50 101 .90 101 .30 100.30 100.00 100.00 100.40 100.75 101 .00 101 .50 102.85 104.55 '106.50 107.40 107.10 105.95 104.55 103.85 1 03.1 5 102.60 101 .80 100.55 100.05 100.00 100,s5 100.85 '101 .65 102.45 1 03.60 1 04.1 0 '104,50 104.50 104.50 104.50 't04. t5 104.00 104.45 105.15 105.60 106.00 '105.5s 105.50 '105.50 105.75 '106.00 Ambienl 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 41 4',| 41 4'l 41 41 41 41 41 41 41 41 40 40 41 41 41 40 40 40 40 40 40 Humidity 30.4 30.4 30.6 30.8 31 .0 30.9 30.8 30.7 30.3 30.1 30.1 30.3 30.4 30.6 30.5 30.3 30.3 30.4 30.6 30.9 31.1 30.9 N.7 30.8 30.7 30.6 30.5 30.5 30.5 30.7 30.9 30.8 30.8 30.8 30.9 31 .1 31.2 31.2 31.5 31.9 32.1 31 .7 31.1 30.9 30.8 30.4 30.2 30.1 30.1 30.4 30.6 30.7 30.8 30.9 30.7 30.5 30.3 30.2 30.2 30.1 30.0 30.'l 30.2 30.2 30.2 30.3 30.5 30.7 30.8 31 .0 31.4 31.5 3l .4 31.3 31.3 31.7 32.O 32.2 32.2 32.2 Run name Test Run Test Run Test Run Tast Run Tast Run Tesl Run Tasl Run Test Run T6st Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Tast Run T6st Run Test Run Test Run Test Run Tssl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tast Run Test Run TBlt Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tast Run T6st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T'estRun Tost Run Test Run T6st Run Test Run T*t Run T6st Run Test Run Test Run Test Run TBt Run T$t Run Test Run Test Run Test Run TimeStamp ln5no24 12:55:08 1110512024 12:55:18 11lo5t2024 12:55:24 111O512O24 12:55:38 11lo1l2o24 12:55:44 1 1 lO5l2O24 '12 .s5:54 1 1 lO5l2O24 '12 .Sa:OB 1110512024 12'.56:18 1110512024 12:54:24 1110512024 12156:38 1 1 tO512024 ',12 .5e:48 1110512024 12:54:5E 1110612024 12:57:oa 11nSl2O24 12:57:14 1 1 tO5l2O24 '12 .57 :24 11lO5l2O24 12.57:34 1110512024 12:57:48 1110512024 12.57:54 1110512024 12:54:Oa 1 1 lo5l2o24 12 .58:14 1110612o24 12:54:24 111051202412:58:38 11lOSl2O24 12:58:44 1110512024 12:5a:58 1110512024 12:59:Oa 1110512024 12:59:14 1110512024 12:59:24 1110512024 12:59:34 1 1 l15l2o24 't2:59:48 1110512024 12:59:58 'I1105/2024 I3:00:08 1uO5l2O24 13:Oo:14 11lOSl2O24 13:00:26 1 1 lOSl2O24 13:OO:38 1110512024 13t0O:48 1 '1l0t2024 13:o0:54 11/05/2024 13:01:08 1110512024 13.o1:14 1110512024 13:01:28 1 1 /05/2024 1 3:01 :38 1110512024 13:01:48 1110512024 13:01:58 1110512024 13.O2:OA 11nsl2l24 13:02:18 1110512O24 13:02:28 1110512024 13:02:38 1110512024 13:02:44 111O5t2024 13"02:58 1110512024 13:O3:oa 1110512024 13:03:14 'l1lOSl2O24 13:03:24 11lOSl2O24 13:03:38 11lOSl2O24 13:03:48 'l 1/05/2024 13:03:58 11lost2024 13:O4:Og 1110512024 13:04:18 11lOSl2O24 13:04.28 1110512024 13:04:38 11N512O24 13:04:44 110sl2o24 13:U:58 '11105/2024 13:05:08 1110512024 13:05:18 Avorags 11losl2o24 13:09:47 1110612024 13:09:57 1110512024 13:1O:O7 1110512024 13:1o:17 1110612024 13:10:27 1110512024 13:10:37 Avorage 11lOSl2O24 13:14:47 1110512024 13:14:57 11n5n0z4 13:15:O7 1110512024 '13:15:17 11nil2024 13:15:27 11N5nO24 13:15:37 Avenge Altamont East cE-5 o2 -0.07 -0.06 -0.07 -0.07 -0.06 -0.07 -0.06 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.06 -0.08 -0.06 -0.06 -0.07 -0.07 -0.06 -0.06 -0.06 -0.00 -0.07 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.06 -0.06 -0.07 -0.06 -0.04 -0.06 -0.07 -0.06 -0.08 -0.06 -0.07 -0.08 -0.06 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.08 -0.06 -0.08 -0.06 -0.07 -0.07 .0.06 -0.03 -0.04 {.04 -0.03 -0.03 -0.03 -0.03 5.09 5.09 5.07 5.08 5.06 5.07 5.08 PBaro 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.?9 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 2t.f I 144 Grcup name #2 Test Run - 60 f2 Test Run - 60 #2 Test Run - 60 #2 Tssl Run - 60 #2 Test Run - 60 #2 Test Run - 60 *2 Tsst Run - 60 #2 T6st Run - 60 #2 Tsst Run - 00 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 80 *2 Test Run - 60 #2 Test Run - 60 f2 Tsst Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 f2 Test Run - 80 #2 Test Run - 60 #2 Tsst Run - 60 #2 Tsst Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Tesl Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tsst Run - 60 #2 Test Run - 00 #2 Test Run - 60 #2 Test Run - 60 #2 TBst Run - 60 #2 Tast Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 T6st Run - 60 #2 Tssi Run - 60 #2 T6st Run - 60 #2 Test Run - 60 f2 Test Run - 00 #2 Tesl Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 T€st Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 T6st Run - 60 #2 Test Run - 60 #2 T6st Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Bias Check #2 Bias Chock #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check Run name Test Run Tsst Run Test Run Test Run Test Run T€st Run Test Run Test Run T€st Run Test R!n Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tsst Run Tsst Run Test Run Tast Run Test Run Test Run T6st Run Tast Run Test Run Test Run Test Run Tost Run Tast Run Test Run Test Run Test Run Test Run Tast Run T6st Run Test Run Test Run Tsst Run Test Run Test Run Test Run Test Run Test Run Tesl Run Test Run Tast Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run NOx Bias NOx Bias NOx Bias NOx Bias NOx Bias NOx Bias 02 Bias 02 Bias 02 Bias 02 Bias O2 Bias 02 Bias NOx 61 .32 62.06 62.48 63.35 63.29 63.38 04.07 84.69 64.07 62.59 43.24 a4.26 64.00 61.69 62.01 64.32 64.46 65.1 9 64.81 63.99 83.1 1 61.70 62.06 62.33 61.88 81.05 61.98 63.06 63.02 62.E9 62.93 83.52 64.1 5 65.24 04.85 63.83 83.90 63.51 63.08 42.29 02.06 El.U 41.82 00.93 61.16 61.89 61.43 61.16 61.03 60.74 60.59 60.03 60.20 60.45 81.00 81.91 61.85 41.42 61.54 41.22 61.36 61.38 62.56 187.23 187 .76 187.74 187.88 '187.98 188.27 187.62 1.77 1.ll 1.O7 0.79 0.74 0.59 1.01 co 105.70 106.00 106.00 105.65 106.00 106.40 106.50 106.40 105.25 103.60 102.45 102.40 I 03.1 0 '103.80 '104.90 105.25 '106.00 106.80 107.65 108.35 108.50 108.85 109.00 108.60 107.20 105.15 103.30 102.70 '103.10 10,4..20 105.40 106.80 108.00 109.35 'l l 1.00 1 1 3.10 114.40 1 15.00 't14.20 112.95 't 12.00 11 1 ,50 11 1.55 112.10 112.95 1 13.00 1 13,00 1 13.00 't12.50 112.10 112.00 111.70 1 10.75 1 10.15 1 09.50 '107.80 1 06.35 1 05.30 1 05.00 105.15 105.55 100.00 103.98 -1.66 -1.68 -1.70 -1.72 -1.75 -1.78 -1.72 -1.80 -'1.48 -1.41 -1.36 -1.35 -1.36 -1./B Ambient 40 40 40 40 39 39 39 39 39 39 39 39 39 39 39 39 39 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 39 39 39 39 39 39 39 40 40 40 40 40 40 40 40 41 41 41 41 41 41 41 41 41 41 41 42 42 /tl 42 42 42 42 42 42 12 43 43 43 43 43 43 /E Humidity 32.2 32.2 32.3 32.4 32.4 32.4 32.5 32.7 32.8 33.0 33.1 33.2 33.5 33.6 33.8 33.7 33.7 33.8 33.7 33.7 33.6 33.6 33.6 33.7 33.7 34.1 v.4 v.7 u.9 35.0 35.2 35.4 35.7 35.9 36.0 36.1 36.1 35.9 35.6 35.2 35.0 v.7 u.5 34.3 33.9 33.7 33.6 JJ.C 33.4 33.1 33.0 32.7 32.s 32.2 32.1 31.9 31.7 31.6 31.5 31.4 31.4 31.4 32.5 31 .1 31.3 31 .4 31.5 31.7 31 .9 31.5 30.6 30.7 30.8 30.9 30.9 30.8 30.1 Company Station Unit TimaStamp 1110512024 13:18:34 11lOSl2O24 13:18:44 1110512024 13:18:54 1110512024 13:19:U 11lOSl2O24 13:19:'14 1110512024 13:19:24 AYerag. 1110512024 13:27:35 11lOSl2O24 13:27:45 1110512024 13:27.55 1110512024 13:2a:O5 11n512O24 13:28:15 1110512024 13:28:25 11t05t2024 13.28.35 1110512021 13:28:45 'l1lO5l2O24 13:28:55 1 1 lOSl2024 ',13 .29 .O5 11lOSl2O24 13:29:15 1110512024 13:29:25 11li5l2o24 13:29:35 1110512024 13:29:45 11lOSl2O24 13129.55 1 1/05/2024 13:30:05 1'l105/2024 13:30:15 1 't lO5t2O24 13:30 .25 1110512024 13:30'.35 11lo1l2o24 13:30:45 11/05/2024 13:30:55 1110512024 13:31.O5 11lOSl2O24 13:31:15 111O5t2024 13.31.25 11/05/2024'13:31:35 11n5t2024 13.31.45 11/05/2024 13:31:55 1110512O24 13:32:OS 1110512024 13:32:15 1110512024 13:32:25 11lOSl2O24 13:32:35 1110'512024 13:32:45 1'llO5l2O24 13:32.55 1'l105/2024 13:33:05 1110512024 13:33:15 1110512024 13.33.25 1 l/05/2024 13:33:35 11lOSl2O24 13:33.45 1 1/05/2024 13:33:55 111O512024 13:34:05 111O512024 13:i4:15 1 1 lOSl2O24 13:34 .25 1110512024 13:34.35 11lOSl2O24 13:34:45 1110512024 13:34:55 11/05/2024 13:35:05 '1 1/05/2024 13:35:15 1110512024 13:35:25 1 1/05/2024 13:35:35 11n512O24 13:35:45 '1105/2024 13:35:55 1'105/2024 13:36:05 1 1/05/2024 1 3:38:1 5 11lOSl2O24 1334:25 1 1/05/2024 1 3;36:35 111O5r2O24 13.3A:45 1110512024 13:36:55 1110512024 13:31:Os 1110512024 13:37'.15 1110512024 13:37 .25 11lOSl2O24 13:31:35 1110512024 13:37:45 1110512024 13:37:55 1'1l0t2024 13:38:05 11/012024 13:38:15 1110512024 13:38'.25 1 1/05/2024 13:38:35 11n512O24 13:38:45 1 1/052024 13:38:55 11/Ot2024 13:39:05 11/05/2024 13:39:15 11n512O24 13:39:25 Altamont East cE-5 o2 -0.04 -0.03 -0.(X -0.04 -0.04 -0.04 {t.04 -0.07 -0.07 -0.07 -0.06 -0.08 -0.07 -0.07 -0.06 -0.06 -0.08 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.07 -0.06 -0.0E -0.07 -0.07 -0.07 -0.08 -0.07 -0.08 -0.08 -0.07 -0.07 -0.07 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 4.07 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.06 -0.08 -0.07 -0.07 -0.07 -0.08 -0,08 -0.06 -0.07 -0.07 NOx 0.29 0.28 o.27 o.25 o.22 o.22 0.26 03.1 1 63.06 82.92 63.06 63.56 63.09 62.2'l 62.29 62.42 62.59 62.99 83.54 04.51 64.51 84.29 84.03 63.05 63.12 63.20 63.07 a2.u 62.93 63.37 63.40 63.45 63.22 42.75 63.07 63.52 63.42 82.g',l. 63,07 63.66 63.65 63.35 63.94 64.93 64.79 63.99 63.97 63.67 63.87 64.43 64.55 85.29 64.95 63.86 84.02 64.58 63.69 82.40 62.83 63.'16 83.17 63.19 62.05 60.39 61.01 62.03 61 .93 60.52 60.31 59.18 59.85 61.21 62.O7 63.82 63.39 62.88 62.76 62.19 82.24 co 191.00 19't.00 191.00 '191 .00 191 .00 191 .00 191.00 106.00 105.70 105.00 't(x.'15 104.00 104.40 104.7s 105.00 't05.00 105.00 105.45 106.30 107.40 '108.20 109.70 I 10.80 1 1 1.95 1 13.10 1 1 3.80 1't3.75 1 12.95 1 11.40 1 10.00 108.80 107.95 1 07.50 1 07.50 '107.30 '107.00 107.25 108.35 '109.50 'I 10.80 't l 1.45 11 1.15 1 10.60 1 10.55 11 1.00 111.00 1 10.70 109.45 108.00 106.95 106.55 107.00 107.00 1 07.00 107.00 '107.00 107.20 107.50 '107.55 108.25 109.05 109.50 109.50 109.15 1 08.15 107.60 100.85 106.50 '106.90 107.1s 107.60 108.35 108.90 109.05 109.25 108.50 107.30 100.15 105.30 tunbienl 43 43 43 43 43 43 43 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 44 44 45 45 45 45 45 45 46 46 46 46 47 47 47 47 47 47 47 46 46 46 46 46 46 46 45 45 45 45 45 45 45 45 45 45 Humidity 30.1 30.0 30.0 30.1 30.4 30.5 30.2 28.9 28.8 24.4 28.0 27.8 27.8 28.0 28.2 24.5 28.7 28.8 28.7 28.2 27.7 27.4 27.1 26.9 26.9 27.7 28.0 28.3 28.3 28.2 28.3 28.4 28.5 28.5 28.5 28.7 29.2 29.',1 28.6 28.3 28.3 30.1 32.X 32.4 32.2 30.9 29.2 28.6 29.2 28.8 28.9 29.5 29.8 29.3 27.8 26.3 25.5 24.4 24.4 24.1 23.9 24.O 24.1 24.0 23.8 23.7 23.6 23.5 23.6 23.8 24.1 24.4 24.6 24.7 24.7 24.8 24.9 Run name CO Bias CO Bias CO Bias CO Bias CO Bias CO Bias T6st Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Tast Run Test Run Tast Run Test Run Test Run Test Run Test Run Test Run Test Run Tost Run Test Run Test Run Test Run Test Run Telt Run T€sl Run Tosl Run Test Run T€st Run Test Run Test Run T€st Run Test Run T6st Run Test Run T6st Run Test Run Tsst Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tsst Run Test Run T6sl Run T6st Run Test Run Test Run Test Run Test Run Test Run T€st Run TBst Run Test Run Test Run Test Run Test Run T€st Run Test Run Test Run Tesi Run Tost Run Test Run Tesi Run Test Run Tesl Run Test Run Tast Run T€st Run Test Run PBarc 23.79 23.79 23.?9 23.79 23.79 23.79 ' 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 2X.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.75 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 2X.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 149 Group name #2 Bias Check #2 Bias Ch*k #2 Bias Chmk #2 Bias Chek #2 Bias Check #2 Bias Check #3 T6st Run - 50 #3 Tesl Run - 60 #3 Tast Run - 80 #3 Test Run - 80 #3 T6st Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tost Run - 60 ,r3 Test Run - 80 *3 Tast Run - 50 ,3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 80 #3 Tasi Run - 80 #3 Tesl Run - 80 #3 Test Run - 60 #3 Test Run - 60 #3 Tsst Run - 60 #3 Tsst Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 f3 Test Run - 60 ,,3 Test Run - 60 #3 Test Run - 60 ,13 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 T6st Run - 60 #3 Test Run - 60 #3 Test Run - 60 {.3 Test Run - 60 #3 Tost Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 T6st Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 {3 Test Run - 60 #€ Test Run - 60 #3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 60 *3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tesl Run - 60 #3 T6st Run - 60 #3 Test Run - 00 #3 Test Run - 60 #3 Ta3t Run - 60 #3 T6st Run - 60 Company Station Unit TimeStamp 1110512O24 13:39:35 1110512024 13:39:45 'l'llO5l2O24 13:39:55 1110512024 13.4O:O5 1110512024 13:40:15 11lo5l2o24 13:40:25 1110512024 13:40:35 11lo5l2o24 13:40:45 1'llO5l2O24 13:40:55 't 1 lo5l2024 't3 .4',t :o5 1'l lo5l2o24'13.41 :'l 5 1110512024 13:41:25 11lo5l2o24 13:41:35 1110512024 13.41,45 11t05t2024 13.41.55 1110512024 13:42.05 't't lo5l2024 't3 .42 .15 'l'll05l2o24 13:42:25 11lOSl2O24 'l.3:42:35 1110512024 13:42:45 1110512024 13.42.55 11lOSl2O24 13:43:05 'l1lO5l2O24 '13:43:15 't1lo5l2024 't3.43.25 1 1 lOSl2O24 13:43:35 1 1 lO5l2O24 13:43:45 111O5t2024 13..43.55 1110512021 13:44:05 1110512024 13:44.15 1110512024 13:44:25 11t05t2024 13.44.35 1110512O24 13.44:45 1110612124 13:44:55 11lOSl2O24 13:45:05 11lOSl2O24 13:45.15 11lOSl2O24 13:45:25 11lOSl2O24 13:45:35 11n512O24 13:45:45 1110512O24 13:45:55 'l1lo5l2o24 13:46:05 1110512024 13:46:15 1'llo5l2124 13:46:25 1110'512024 13:46:35 1110512024 13:16:45 11/05/2024 13:46:55 1110512024 13:47:O5 1110512024 13:47:15 1110512024 13:47:25 11lOSl2O24 13:47:35 1 1 lO5l2O24 '13:47 :45 1 'l lO5l2O24 13:47 :55 1 1/05/2024 'l 3:48:05 11lOSl2O24 13:48:15 '1110il2424 13:44:25 1 1/0512024 1 3:48:35 11|O5EO24 13:44:45 11n5no24 13:18:55 11N512O24 13:49:05 'l1lO5l2O24 13:49:15 11nSl2O24 13:49:25 1110512021 '13.49:35 11lO5l'2O24 13.49:45 1 1/05/202,1 I 3:49:55 1 1/05/2024 1 3:50:05 1110512024 13:50:15 11lOSl2O24 13:50:25 1 1/05/2024 13:50:35 1110512024 '13:50:45 1 1/05/2024 '1 3:50:55 1110512024 13:51:o5 1110512024 13:51:15 111O5f2O24 13:51:25 1 1/05/2024 1 3:5'l :35 1 1/05r'2024 13:51:45 1 1/05/2024 '13:5'l :55 11nSl2O24 13:52:05 11nSl2O24 1.3:52:15 11n512024 '.t3.52.25 11n512O24 13:52:35 11tO5120.24 ',t3.52.45 Aliamont Ea3t cE-5 o2 -0.08 -0.07 -0.08 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.08 -0.07 -0.08 -0.06 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.07 -0.07 -0.08 -0.08 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.08 -0.07 -0.07 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.07 -o.08 -0.07 -0.08 -0.07 -0.08 -0.08 -0.07 -0.08 -0.o7 -0.07 -0.07 -0.08 -0.08 -0.07 -0.08 NOx 42.40 62.33 61.58 61.92 62.91 62.91 93.36 63.09 82.89 02.83 02.83 63.07 63.59 83.80 84.23 64.58 64.87 04.90 65.52 65.26 64.09 44.26 64.85 84.74 64.98 04.03 62.96 63.50 64.64 64.47 64.22 63.85 63.51 63.5/t 83.53 63.55 83.54 03.54 63.57 64.01 65.09 64.17 63.1 I 63.20 63.15 62.78 61.93 61.99 83.38 e3.37 63.1 1 63.44 64.54 64.49 64.45 83.81 63.09 63.06 62.64 62.95 03.50 63.13 02.68 02.74 62.97 62.87 82.50 62.74 63.42 63.34 63.1 6 83.47 64.'15 83.67 62.42 62.21 61.71 61.'13 60.58 60.58 co 105.15 105.85 '107.00 '108.50 110.60 '112.05 113.00 112.85 112.15 112.20 1 12.80 1 13.90 '114.50 114.00 't12.40 111.15 1 1 1.00 11 1.35 't12.70 1 13.80 111.75 1 15.35 1 15.00 1 13.80 112.40 112.10 1 12.90 't 13.45 1 13.65 112.70 1 10.95 109.40 108.50 108.80 109.60 1 10.50 111.00 1 10.55 110.50 110.65 111 .35 1 11 .95 1 11 .90 1 11 .0s 1 10.05 '109.20 108.45 107 .75 107.00 106.40 104.25 106.60 107.00 107,35 106.80 1 0€.1 0 106.00 1 06.00 106.40 1 06.50 1 06.35 1 05.05 1(X.60 1 04.1 5 104.00 '104.05 1 04.75 1 05.30 1 05.50 105.50 '105.20 105.00 105.00 105.00 105.40 105.20 '104.6s 104.30 104.00 104.25 Ambient 45 45 45 45 44 44 44 44 44 44 44 44 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 44 44 44 44 14 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 PBarc 23.79 23.79 23.75 23.79 23.79 23.79 23.79 23.79 23.79 23.75 23.79 23.79 23.?9 23.79 2X.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.75 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.75 23.79 23.79 Humidity 24.E 24.8 24.5 24.5 24.7 24.9 25.1 25.4 25.4 26.0 m.1 20.0 25.9 25.8 26.0 28.3 26.4 28.3 24.1 26.1 26.O 26.2 24.4 26.6 26.8 28.9 26.9 26.9 26.8 26.8 26.7 28.7 28.8 28.8 24.8 26.9 27.O 27.O 26.9 26.7 28.6 26.5 24.3 26.3 24.4 26.5 26.6 26.5 28.4 26.5 26.6 26.7 26.8 27.O 27.2 27.3 27.3 27.2 27.7 29.8 30.0 29.7 29.3 29.0 29.0 25.5 27.8 28.9 26.1 25.4 25.3 25.0 24.7 24.4 24.1 24.O 23.9 23.9 23.6 23.5 Run namE Test Run Test Run Test Run Test Run T6sl Run Tost Run Test Run Test Run Tssl Run Test Run Test Run Test Run Test Run Test Run Test Run Tast Run Test Run Tast Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tsst Run Test Run Test Run Tesl Run Test Run Test Run Test Run Test Run Test Run Tssl Run Test Run Test Run Test Run Tast Run Test Run Test Run Test Run Tost Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Tost Run Tesl Run Test Run Test Run T6st Run T€st Run Tast Run Test Run Test Run Test Run Grcup name #3 Tsst Run - 60 #3 Test Run - 60 #3 Test Run - 00 ,,3 T6st Run - 60 #3 Test Run - 60 ,,3 Tesi Run - 00 #3 Tasi Run - 60 #3 Test Run - 60 #3 Test Run - 60 *(i TBst Run - 60 {.3 T6st Run - 60 *3 Test Run - 80 #3 Test Run - 00 #3 Tsst Run - 60 il3 Test Run - 00 ,13 Tost Run - 60 *3 Tost Run - 00 #3 Tast Run - 60 #3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 80 *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 80 #3 T6st Run - 80 #3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 00 ,,3 Test Run - 60 #3 Tast Run - 60 #3 Tesl Run - 80 #3 Test Run - 60 #3 Tasl Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tssl Run - 60 #3 Test Run - 60 ,l3 Test Run - 60 #3 Test Run - 80 #3 Tasl Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 TBst Run - 60 #3 T6st Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tsst Run - 60 #3 Test Run - 60 #3 Tast Run - 60 #3 Tsst Run - 60 #3 Test Run - 60 *3 Test Run - 60 #{l Tast Run - 60 #3 Tsst Run - 60 #3 T€st Run - 60 #3 Tost Run - 60 *3 TBt Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 TBst Run - 60 #3 Test Run - 60 #3 Tsst Run - 60 #3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 Tast Run - 60 #3 Test Run - 60 #3 Tesi Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 Company Siation Unit TimeStamp 1110512024 13:52:55 '1 1/05i2024 13:53:05 1 1/05/2024 13:53:15 11lOSl2O24 13:53:25 1 1/05i2024 13:53:35 1 1/05i2024 1 3:53:45 '1 1/05/2024 1 3:53:55 1 1/05/2024 I 3:54:05 'l1lO5l2O24 13:54:15 1110512024 13:54:25 1110512O24 13.54:35 1110512024 13:il:45 111O512024 13.54:55 11/05i2024 13:55:05 'l1lO5l2O24 13:55:15 11t05t2024 13.55..25 11/05/2024'13:55:35 1110512024 13:55'.45 1'1/05/2024 13:55:55 11lOSl2O24 13:56.Os 1110512024 13:5415 11lOSl2O24 13:56.25 1'l lO5l2O24 13:54:35 1110512024 13:56.45 1 1/05i2024 13:56:55 1 'l lOSl2024 13:57 :O5 11lOSl2O24 13:57 .15 1110'512024 13:57:25 11t05t2024 13.57.35 1110512024 13:57:45 1110512024 13.57.s5 1 1/05/2024 1 3:58:05 111O5t2021 13 5A 15 111O5t2024 13 54 25 1110512024 13:58:35 11lOSl2O24 13:5A:45 11/05/2024 13:58:55 11/05/2024 13:59:05 11/05/2024 13:59:'15 1110512024 13:59:25 1 1 tO5I2024 ',t3 .59 .35 1110512024 13:59:45 11/05/2024 13:59:55 11tO512024 14..OO.O5 1110512024 14:00:15 1110512024 14:00:25 11lOSl2O24 14:0O.35 11lOSl2O24 14:00:45 1110512024 14:OO:55 1110512024 14:O1:O5 1110512024 14:01.15 11lOSl2O2414:01 25 11lOSl2O24 '14:01 .35 11lOSnO24 14:01.45 11n5r'2024 14:01:55 11N512O24 14:02:O5 11n5/2O24 14:02.15 11n512024 14.02.25 11n512O24 14:02:35 11nSl2O24 14.02:45 11lOSl2O24 14:02:55 1110512024 14:O3:O5 11n512O24 14:03:15 1110512024 14:03:25 1110512024 14:03.35 1110512024 14:03:45 1110512024 14:03:55 1110512024 14:M:O5 11lOSl2O24 14:04.15 11lOSl2O24 14:04.25 1110512024 14:U:35 11lOSnO24 14:U.45 'l1lO5l2O24 14:04.55 11nil-2024 '14:O5,O5 1110512024 'l.4:05:15 11n512O24 14:05:25 11nSl2O24 14:05:35 11lOSf2O24 't4:o5:45 11N512O24 '14:05.55 1110512024 14:O6:05 Group name #3 Test Run - 60 /,3 Test Run - 60 #3 Tsst Run - 60 #3 Tsst Run - 60 #3 Test Run - 60 *13 Test Run - 60 #3 Test Run - 80 #3 TBst Run - 60 #3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 80 #3 Test Run - 80 *3 Test Run - 60 #3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 T6st Run - 60 #3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 60 *l3 Test Run - 60 #3 Tsst Run - 60 #3 Test Run - 60 #3 T6st Run - 60 #3 Tast Run - 60 #3 Test Run - 60 f3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 *3 TBt Run - 60 *3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 ,3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 60 #3 Tost Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 T€st Run - B0 #3 Test Run - 60 #3 Test Run - 60 *3 Test Run - 60 ,,3 T€st Run - 60 #3 T€st Run - 60 #3 Test Run - 60 #3 Tast Run - 80 *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 *3 Tost Run - 60 #3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 T6st Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tsst Run - 60 #3 Test Run - 50 'flun name Test Run Test Run Test Run Test Run Test Run TEsi Run Test Run T6st Run Tast Run Tast Run Test Run Test Run Jest Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tsst Run Test Run Test Run Tesl Run Tast Run Test Run Test Run Tast Run Test Run Tesl Run Test Run Test Run Tast Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Tsst Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tast Run Test Run Test Run Test Run T€st Run Tast Run Test Run Telt Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T€st Run Test Run Test Run Test Run Tost Run Test Run Altamonl East cE-5 o2 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.07 -0.08 -0.07 -0.08 -0.08 -0.08 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.08 -0.07 -0.08 -0.07 -0.08 -0.06 -o.o7 -0.07 -0.00 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 4.07 4.07 -0.08 -0.07 -0.07 -0.08 -0.07 -0.07 -0.06 -0.08 -0.07 -0.08 -0.07 -0.07 -0.08 -o 07 NOx 59.87 60.06 61.09 el.21 61.51 61.80 62.31 62.22 61.71 62.01 62.61 42.21 81.60 61.60 62.05 61.68 60.08 60.78 62.20 82.1 3 62.24 61.93 81.38 61.83 62.58 82.42 62.03 62.26 62.42 62.03 63.44 63.00il.'t7 63.53 61.92 62.43 63.21 63.19 62.71 62.81 63.19 63.97 45.27 64.91 64.57 84.49 83.50 83.51 63.53 63.1 5 82.22 62.48 82.83 62.99 63.45 83.65 84.'18 63.95 03.71 63.77 83.06 42.92 82.61 62.39 61 .42 6'1.97 63.21 83.25 63.41 63.00 62.00 62.32 62.81 82.30 61.90 81 .97 6 1.54 61.42 60.78 81.20 co 104.75 '105.10 105.20 104.55 '104.00 '103.10 103.00 103.00 103.00 102.75 102.30 102.70 103.70 104.55 105.40 105.45 105.00 1 05.30 105.65 '106,00 105,95 105.25 104.20 103.25 102.60 '102.50 102.50 102.50 103.20 103.55 104.00 1(X.40 104.35 103.55 102.80 102.50 102.55 103.35 104.90 106.20 106.60 107.00 106.85 106.30 106.00 105.80 '104.80 104.00 103.00 103,00 103,05 1 04.1 0 104.80 105,60 1 06.30 1 06.50 106.65 1 07.00 107.00 '106.95 106.25 105.60 1o{..25 1 03.55 1 03.50 1(}4.65 106.30 107.90 108.90 1 09.1 5 '109.50 109.80 110.65 111.50 111.30 1 10.70 109.65 108.50 107.85 107 50 Ambienl 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 48 46 4e 45 45 45 46 46 46 4A 46 46 46 46 46 46 46 48 46 46 46 46 45 45 45 45 45 45 45 45 45 45 45 46 46 46 4A 46 48 46 46 46 48 4A 46 46 46 48 46 46 46 46 46 48 48 46 46 PBaro 23.79 23.79 23.79 23.79 23.?9 23.79 23.79 23.19 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 2s.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.75 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.19 23.19 23.?9 23.79 23.79 23.19 23.79 23.79 23.79 23.79 23.79 23.79 23.19 23.19 23.79 23.79 23.19 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 Humidity 23.4 23.2 23.1 23.0 22.9 23.1 23.2 23.3 23.3 23.3 23.3 23.3 23.3 23.3 23.3 23.O 22.8 23.O 23.4 23.0 22.8 22.7 22.7 22.4 22.5 22.3 22.3 22.3 22.8 23.O 22.6 22.3 22.1 22.O 21.9 22.O 22.1 22.2 22.3 22.5 22.s 22.5 22.7 22.8 23.1 23.1 23.1 23.O 22.9 22.9 23.1 23.4 23.5 23.8 23.7 24.4 24.6 24.2 23.9 23.7 23.7 23.7 23.4 23.5 23.5 23.4 23.5 23.5 23.6 23.7 23.8 24.O 24.O 24.O 24.O 24.O 24.1 24.2 24.4 24.6 {5{ Company Slation Unit TimeStamp 1110512024'14:06.15 1'110512024 14:06:25 111O512Q24 14:O6:35 11lOSl?O24 14:06:45 1'llO5l2O24 14:06.55 1110512024 14:07:o5 1110512O24 '14:O7..15 1110512024 14:07:25 1110512024 14:O7:35 1110512024 14:07'.45 1110512024 14:07.55 1110,512024 14:O8:O5 1110,512024 14:OA:15 1110512024 14.oa:25 11lo5l2o24 't4:08:35 111Q512O24 14:O8:45 1'llOSl2O24 14:08:55 1110512024 14:O9:O5 1110,512024 14:09:15 1110512024 '14:09:25 'l1lOSl2O24 14:09.35 'l1lo5l2024 14:09:45 1110512024 14:09:55 1110512024 14:1o.Os 11lOSl2O24 14:1O:15 1110512024 14:10:25 'l1lO5l2O24 14:1O:35 1110512024 14:10.45 1110512024 14:10:55 111A512024 14:11:os 1110512024 14:11:15 1110512024 14:11:25 1110512024 14:11:35 1110512024 14:11:45 1110512024 14:11:55 1'l lO5l2O24 14:12:05 111O512Q24 14:12:15 11lOSl2O24 14:12:25 1110512024 14:12:35 11lOSl2O24 14:12:45 1110512024 14:12:55 1110612024 14:13:05 1110512024 14:13:15 1110512024 14:13:25 111O512024 14:13:35 1110512024 14:13:45 1110512024 14:13:55 111O512024 14:14:05 11lOSl2O24 14:14:15 11lOSl2O24 14:14:25 11lOSl2O24 14:14:35 'l1lO5l2O24 14:'14:45 11lOSl2O24 14:14:55 1uO5l2O24 14:15:05 1'1l0t2024 14:15:15 11n512O24 14:15:25 11lOSl2O24 14'.15t35 1110512024 14:15:45 111O512024 14:15:55 11nSl2O24 14:16:Os 11lo5l2024 14:16:15 1110512024 14:16:25 1110612024 14:16:35 1110512024 14:16:45 11l0sl2o24 14:16:55 11lOSl2O24 14:17:os 1110512024 14:17:15 11lOSl2O24 14:17 .25 1110512024 14:17 :35 11lo5l2024 14:17:45 1 1 lO5l2O24 1 4:17 ..55 1 1/05/2024 14:18:05 11lOSnO24 14:18:15 11lOSnOz4 14:14:25 11lo5no24 '14:'18:35 11lO5nO24 14:'18:45 11lOSnO24 14la:55 11N5PO24'14:19.O5 11N512O24 14:19:15 11lisl2o24 14:19.25 PBarc 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.75 23.79 23.79 23.79 23.79 2X.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23,79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.?9 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 152 Group name *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 #3 Tast Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 f3 TBt Run - 60 *3 Test Run - 80 #3 Test Run - 80 #3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 80 ,3 Test Run . 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 TBt Run - 80 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 f3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tast Run - 60 #3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 60 ,3 Test Run - 60 #3 Test Run - 00 #3 T6st Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 *3 Test Run - m #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 50 Altamont East cE-5 o2 -0.08 -0.07 -0.07 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.07 -0.08 -0.07 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.08 -0.08 -0.08 -0.08 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.08 -0.08 -0.08 -0.07 -0.08 -0.07 -0.08 -0.08 -0.07 -0.08 -0.08 -0.08 -0.08 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 {.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 -0.08 -0.08 -0.08 NOx 62.22 62.63 63.31 63.30 63.8/t 63.50 62.51 62.32 61.82 61.08 60.70 00.68 e1.21 61.06 60.46 60.79 61.46 61.39 61.55 61.41 01.05 60.61 59.84 80.1 I 60.82 60.93 61.63 61.58 6',t.47 6't.32 60.38 60.75 61.84 61.68 61.52 61.58 61.73 62.31 63.28 63.35 61.76 61.80 62.72 82.89 63.91 63.74 63.2s 63.16 62.93 62.63 82.41 62.37 61.99 61.99 62.16 62.24 62.41 62.33 62.29 42.24 62.10 62.36 63.16 83.29 63.54 63.42 62.98 62.79 4234 62.77 63.43 63.33 82.87 62.94 63.24 63.34 03.1 1 63.10 63.58 63.81 co 107.20 106,55 105.60 104.75 1U.40 '1(x.00 104.00 104.30 104.65 '105.25 105.70 106.00 106.00 106.00 106.00 '106.00 '106.00 105.50 1 05.10 105.15 106.05 107.30 107.90 107.50 106.55 105.95 105.50 105.05 104.05 103.15 1 02.30 102.15 102.70 103.10 103.50 102.90 102.40 '101 .70 101 ,85 102.20 '103.20 1()4.15 105.45 107.40 108.90 1 10.10 '1 10.50 109.90 108.65 107.85 107.20 107.00 '106.50 105.80 104.95 1M.85 105.10 1 05.50 1 05.95 1 05.80 105.00 1 04.65 104.25 103.40 102.75 1 02.50 1 02.50 1 02.85 103.15 '103.50 104.00 104.00't04.00 104.00 104.1 5 '104.40 103.80 102.95 1 02.1 5 102.00 Ambient 46 46 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 46 46 46 46 46 46 46 46 46 46 46 46 45 45 45 45 45 45 45 45 45 46 46 46 46 46 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 Humidity 24.8 24.8 24.9 25.1 25.1 25.1 25.0 25.O 25.O 25.2 25.2 25.3 25.3 25.5 25.8 28.1 26.8 27.O 27.0 27 .1 27.3 27.4 ,1 1 27.7 27.9 24.1 28.3 28.5 28.6 28.7 28.8 29.1 29.4 29.6 29.7 29.A 29.7 29.5 29.4 29.3 29.2 29.1 29.2 29.3 29.4 29.5 29.6 29.9 29,9 29.8 29.8 29.8 29.4 29.1 24.9 28.9 28.9 29.1 29.4 29.6 29.8 30.0 30.'! 30.'l 29.9 29.8 29.7 29.6 29.6 29.0 29.7 29.6 29.4 29.3 29.2 29.1 28,8 2A.8 2A.O 259 Run name T€st Run Test Run Tsst Run Test Run Tost Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tsst Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tsst Run Test Run Test Run T€st Run Test Run Test Run Test Run Test Run T€st Run Test Run T€st Run Test Run Test Run Test Run Test Run Test Run Test Run T€st Run T€st Run Test Run Test Run T6sl Run Test Run Test Run Tesi Run Test Run 16st Run Tast Run Test Run Tast Run Te$t Run Test Run T$t Run Test Run Test Run Test Run Test Run Test Run Company Station Unit TimeStamp 't1lO5l2O24 14:1.9:35 1110512024 14:1|9:45 1110512024 14:19:55 1110512024 14:2O:O5 1110512024 14:20:15 1'tto5t2024 14.20,.25 1110512024 14120:35 11t05t2024 14.20.4s 1110512024 14:20.55 1110512024 14:21:O5 111O5t2024 14.21 .15 11n512O24 14:21:25 1110512024 14:21:35 1110512024 14:21:45 11lOSl2O24 14:21:55 'l1lOSl2O24 14:22:05 1110512024 14:22:15 1110512024 14:22:25 'l1lO5l2O24 11:22:35 'l1lO5t2o24 14:22.45 1'llO5l2O24 14:22.55 1110512024 14:23:05 11lOSt2O24 14:23:15 1110512024 14i23.25 'l 1 lO5l2O24 1 4:23 .35 1110512024 14:23.45 1110512024 14:23.55 1110512O24 14:24:05 1110512024 '14:24:15 1110512024 14:24:25 1110512A24 U.24.35 11tO512024 14.24.45 11lOSl2O24 14:24:55 1110512024 14:25:05 11lOSl2O24 14:25:15 11lOSl2O24 14:25:25 'l1lOSl2O24 14:25:35 1110512024 14:25:45 1110512O24 14:25:55 1110512024 14:26:Os 't1lo5l2024 14:26:15 'l1l05l2o24 14:28:25 11n5n024 14:28:35 1110512024 14:26:45 11lOSl2O24 14:28:55 'l1lOSl2O24 14:27:Os 1110512024 14:27:15 11lOSl2O24 14:27.25 Avengo 1110512024 14:32:Og 11lOSl2O24 14:32:19 11lOSl2O24 14:32:29 11lOSl2O24 14:32:39 11lOSl2O24 14:32.49 1'|.10512024 14:32:59 Averaqe 1110512O24 14:38:54 1110512024 14:39:04 1'110512024 14:39:14 1110512024 14:39 24 11rc5f2024 14:39:34 11n5ni24 14:39:44 AErage 11lOSl2O24 14:42:03 11lOSl2O24 14:42:13 1110512024 '14:42:23 11rc5ng24 14:42:33 1110512024 14:12:43 '11N512O24 14:42:53 Average Altamont East cE-5 02 -0.08 -0.06 -0.0E -0.08 -0.08 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 -0.07 -0.08 -0.08 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.07 -0.08 -o.o7 .0.07 -0.07 -0.08 -0.07 -0.07 -0.07 -0.07 -0.08 -0.08 -o.o7 -0.08 -0.07 -0.08 -0.07 -0.07 -0.03 -0.03 -0.04 -0.04 -0.02 -0.01 -0.03 5.12 5..11 5..11 5.11 5.09 5.10 5.1 1 0.00 -0.01 0.00 0.00 0.00 0.00 0.00 NOx 63.97 63.63 42.74 62.58 82.26 82.27 82.25 82.1 I 61.24 81.31 41.52 41.44 61.34 41.42 61.62 6'1.60 61.38 81.19 60.66 61.09 61.61 61.55 62.99 62.99 63.55 a3.27 61.96 62.13 62.45 4237 62.14 62.33 42.78 62.69 62.41 62.77 63.20 03.08 02.55 62.50 00.9E 60.92 00.93 81.37 62.25 62.31 a2.5'l 61.83 82.70 147.O2 187.10 187.35 1A7.42 187.61 187.78 1 87.3E 0.53 o.47 0.36 0.34 0.29 o.2E 0.38 0.11 0.09 0.08 0.05 0.05 0.04 0.07 co 1 02.00 1 02.00 1 02.00 1 02.00 1 02.35 '103.05 104.00 '105.95 107.60 108.90 109.30 108.85 108.20 107.00 105.E5 104.40 103.55 '103.00 103.00 103.00 '103.45 1 03.50 104.05 104:55 105.70 107.20 108.50 108.60 108.00 106.85 106.50 '108.70 '107.40 107.95 107.90 107.20 106.60 106.00 106.00 105.60 105.25 104.30 103.70 104.00 10/..70 105.45 106.05 106.50 't06.68 -1.69 -1.74 -1.75 -1.77 -1.79 -1.77 -1.15 -1.1 1 -1.1 3 -'1.'15 -'1.15 -1 .17 -1.20 -1.15 191.00 '191 .00 191.00 '191 .00 191.00 19'1.00 191.00 Ambienl 45 45 45 45 45 45 45 45 44 44 44 44 44 44 44 44 44 44 44 45 45 45 45 45 45 44 44 44 44 44 44 44 14 44 44 44 44 44 44 44 43 43 43 43 43 43 43 43 tts 43 43 43 43 44 44 /13 PBarc 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 21.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 23.79 Humidity 26.3 25.8 24.9 23.9 22.7 22.2 22.O 21 .9 21.8 22.O 22.3 22.7 22.9 23.1 23.3 23.4 23.5 23.4 23.2 22.9 22.6 22.4 22.',| 21.4 21.s 21.2 21.O 21.0 21.3 21.4 21.4 21.4 21.7 21.8 21.9 21 .9 21.8 21.8 21.9 21.8 2't.7 21.7 2',1.7 21.4 22.O 22.2 22.2 22.1 25.7 21.1 21.1 21.1 21.1 21.1 21.0 21.1 19.9 19.9 '19.8 19.5 '19.5 19.6 19.7 19.3 19.3 't9.2 '19.1 19.0 18.9 19.1 Run name Tost Run Tast Run Tesl Run Tasl Run Test Run Test Run Test Run Test Run Test Run Tost Ron T€st Run Tast Run T€st Run Test Run Tsst Run Tesi Run Tast Run Test Run Tast Run Test Run Test Run Test Run Tesl Run T6st Run Test Run Test Run Tosl Run Test Run Test Run Test Run Tast Run Tast Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run TBst Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run T€st Run NOx Bias NOx Bias NOx BiEs NOx Bias NOx Bias NOx Bias 02 Bias 02 Bias OZ BiEs 02 Bias 02 Bias O2 Bias CO Bias CO Bias CO Bias CO Bias CO Bias CO Bias 23.80 23.80 23.80 23.80 23.80 23.80 23.E0 Group name #3 Test Run - 80 #3 Test Run - 60 #3 Tast Run - 80 #dl Tast Run - 60 #3 Test Run - 60 #3 Tesl Run - 60 #3 Test Run - 60 #3 Tsst Run - 60 #3 Test Run - 60 #3 TBst Run - 60 ,,3 Tsst Run - 60 #3 Test Run - 00 #3 Test Run - 60 ,l3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 {.3 Tast Run - 60 {.3 Test Run - 00 *3 Test Run - 60 tr3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 T6st Run - 60 #3 T6st Run - 60 #3 Test Run - 60 #3 Test Run - 00 #3 Test Run - 60 #3 T6si Run - 80 #3 Tesl Run - 60 #3 Test Run - 60 #3 Tast Run - 60 ,,3 Test Run - 60 #3 Test Run - 80 ,,3 Test Run - 00 #3 Tesi Run - 60 #3 Test Run - 60 #3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 60 #3 Tast Run - 60 ,,3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 ,,3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 80 ,,3 Test Run - 60 #3 Bias Chsck #3 Bias Check #3 Blas Check #3 Bias Check #3 Bias Check #3 Eias Chect #3 Bias Chack #3 Bias Check #3 Bias Chack #3 Bia3 Chsck ,l3 Bias Chck frl Bias Chrck ,Kl Bias Check #3 Bias Chsk ,,3 Bias Chek #3 Bias Ch*k l,3 Bias Chack S3 BiB Chrck 45 45 45 45 45 45(i 46 46 46 I /+8 46 46 23.81 23.81 23.81 23.81 23.81 23.8'1 23.81 23.82 23.82 23.82 23.82 23.82 23.82 23.82 153 CE6 FTIRVOG AND GHaO 1il 88 8 8 8 8 8 8 8 8 8 8 8 ;; ; ; ; ; ; ; J ; J ; : ii ; E E E 6 E E a t t t EE E R 3 3 & 8 8 . 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P : d = = : 6 P 9 9 : o o 6 d o o d € @ d P d o 9 6 = d o e o 9 o 6 : o 39 C t s S 5 R S : g P g g ; 3 S S 9 3 8 3 3 3 N 3 h 8 8 8 8 3 € 8 9 R 5 : p 8 B S 5 * 8 gd d d d d d d d d d d d d d d d d d d d d d d d o d d d d d d ? d d d d ? d d d d d d o 33 8 8 5 8 : 8 S 8 8 9 8 3 b 3 5 t 9 : 8 3 8 : 3 E t t t = 9 P 8 5 8 8 t 8 8 P 8 P 8 8 t 33 E 3 i 8 3 E E 8 3 E t s 3 3 3 r b 8 S 6 r 6 S b 8 3 g f , il 3 8 S E E s 3 3 3 3 S 8 3 b P do d d d d o o d d o d o d d d d d d d d d d d d d d d d d o d d d d o o o d o o o o o o 6F o N r E F d F N N i o d 6 i l N F o N o N o o d 6 i l o 6 L o d @ i o o d o d L - d \ \ d 88 8 8 8 3 3 8 3 3 3 8 8 8 = 8 3 8 3 3 3 8 3 8 : 3 3 3 8 3 3 3 8 3 3 3 8 3 I 3 3 3 3 S 8 9? 9 9 ? ? C C ? 9 9 9 9 9 9 9 9 + 9 9 ? " 9 9 9 9 i 9 9 9 9 9 C 9 9 9 C 9 9 9 9 9 9 9 ? dd d o d d d d i d d d d d d d d d o d d d d d d d d o d d n d d d d 6 o 6 6 d d d d d d dd d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d o d o d o d o Ef l pH E E i l E E i E S p p E H i E B $ 8 f i SE P E gE i g H E : B E S E E S $ E : X H S 9o d o o d d o o 6 6 d o d o d o o P d 9 o P P d 9 d e P d o P P d S P : P o o 9 : o o o d.i3 3 3 3 3 3 1 3 3 3 3 3 3 3 q 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 da 6 - d d - - d N d o d - N 6 r d o N d 6 o - N d r d 6 i l d o o - d o iI i i i i i i E H H I E H i i F t I E I H I I t l t E t F l I E F i i I I F i E l i E i i ; & d d & t c e t d c E u d d t E d e n t t t E n d t t & G G d &ie t t e t e n t n G t c l ,r l $E4E NN N N N N N d N d d d d ^ i l N d N N N N d f t NN N N d N d d d d N N N N N N N N N N N N 6o d d d d 9 d d d d d o d d 6 d d 6 d o d 9 o 6 o d o d d o d d d 6 d o 6 d 6 6 o 6 o o d-N d 6 r 6 6 N d ilN d N N N d d d d d d d N N N N N d N d d d N N N N d N d N d N d N d N N d d d N N N d $$ $ t $ t s s s $ t $ t $ s s E $ t Q $ t f af f ff fr tt a t E f r rt E $ E r f f E$ f r E$ 'l , l , l .. 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": : : : " : : : : :: : :: : : : : : : : : : : : : : : : : : : : : " 1 : c3 3 8 8 ; 3 8 8 8 6 3 8 5 8 3 t r 8 8 3 3 t S t s 3 8 3 3 3 8 8 E S 3 3 3 ; E S t q q B ". . " " ". _. " " " " ". " _ " " _ _ " _ ". _ ". " ". . ". " _. " " " "" t " I : 9t I : : : I = I : : * : : : l I : : P I I I I : I 9 . : I : : : : I f I &1 9I o6 6 o f t N - @ l a d 6 6 d 6 d o 6 6 - 6 d o 6 6 d O O O - O o o 6 0 6 6 0 0 0 0 0 0 N -lo I .- - - - . - . . 1 - dd d d 6 6 6 d 6 - 6o o 0 6 0 o 6 1 6 9 9 c + 9 o 99 9 o c ? g ? c 9 c 9 9 c c 9 9 9 I 9 9 9 9c a 9 ? 9 9 9 o 9 9 9 9 + 1 9 II -- ^ - - - - * t - N d N tu N N ft N N N N d N N N d N N ^ N NN d N N d N N d N N d N N N d N d N N dN l d II -. - . . - " . 1 . Nf r o 6 6 6 -lY o l n o d o o o o o I o o o d o o o o d o o o o o o o o o g old . .. *. -. . ; ,. , * = nlu N6 i 6 6 n 6 o 6 6 No 6 6 - N l > o6 6 - 6 o 0 o o 0 NN N o o d l = 99 PP I : : = == = : = = : = : : : : : : : : : =: : : : : : S : = - - r - - - -l E -- - - - - - l < - -. . - - * * * l $$ H r $ $ $ t $ f r ft tt t t f f $$ 8 f f rf tf f r$ t t f f ff tt t t f t ff tt r r $ s t i6 6 N d o o - d o - 6 d t 6 o d - N o { d 6 F d o o -d 6 r o @ N € l EE S E E f Sg g E C C C C C C C C C C g E C C g C C g S g E C C E S C C C E C C E t rl r r : r : r : r : r : r : r r r r r r r r F r - r - r F r - r F r ? r _ r - r r r ? r - r E r - r _ r - r - r - r _ r - r _ r - l _ r - l - l cc c c . . t et G d c G d d tt t n t t E e t c d dt E t d E dt d &t & dG d & e d d G d d t l 15 7 8r 8 8 8 5 8 r r 8 8 8 r 8 8 8 r 8 8 r r 8 8 8 8 r r r r r 8 r 8 8 8 8 8 8 8 8 8 8 8 8 8 8 r 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 r F r r ; ; r J ; -;;; ; : - r F ; ; r -;;; ; - F - F; ? ; F F -;; r; J ; ; i ; - - ; ; J;; r - F F - !E E H : 8 3 ! K E E H E S E { E E I i l E gE i E E h B R : 5 i E ! E E 3 X 5 : H R E F T E : : H R S E S S g E K } 3 : P R f i d9 d d o q o 9 o o o d d d o d 9 9 d d q o d 9 9 9 d ? o d 9 9 9 q d d d o d F d d d d d d i d d d 9 d d o o d d o d d o o d 5s 5 8 8 8 8 8 8 8 8 t t E 5 5 ; 5 5 5 5 5 t t 8 8 t 8 8 8 8 8 8 8 8 5 6 5 ; E E t 8 8 8 8 8 8 8 8 8 ; E 5 6 E 5 5 5 t t t t J:J - e - - -;- : ; J:r e -? - ; - - J;- - - -;; - - F; -- Jr -- J- - -- J- - J - - - - - - - J EP t Q r g ii E E E ia E 88 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 ;J e ; - - r - - - ; ; ; J i r - r ; ; - F - 88 t t t t t 6 5 E 5 5 5 5 5 8 8 8 8 t t t t -- - - - - ; - - ; - - i - ; J - NE o o a 6 6 d-o N 6 a E :9 8 3 8 t t E 5 5 t 3 8 5 3 8 3 t 3 t s 3 3 E 8 t E t 8 8 E 8 8 5 8 3 8 8 8 8 8 5 8 t 3 5 t t 3 8 8 8 8 8 8 8 5 6 8 s 8 8 5 8 dd d d d d d d d d d d d d d d d d d ? d d d d d d d d d 9 d d d d d d d d d d d d d d ? d d d d d d d d d d d d d ? d d d g Bg d g S E E E JE E S E E E E E S E E i : E dd d ? ? d 9 9 d ? d d d d o 9 o d d d d 9 d dd d o d o d d d d d d d d d d d d d d d d q n: { 8 ! i l 8 9 t 8 3 9 N 5 S 8 3 U 3 8 8 6 9 8 NN - d N d - d N N - - - - d - r N d N N - - r !d r N ! i q n I n d n a r 9 q r y ! q q ! : € dd d d d o o - o o d o d o d d d d d o - d d d o d o o d d o d o d d d o o d d o d d d d o o o o o o d o o o o o d d o o d o d6 6 6 o 6 o 6 o 6 o 6 6 o d 6 o d d 6 o 6 6 i d 6 6 6 d 6 6 6 d 6 6 d 6 d d d d d o d 6 d a o6 o 6 d o e 6 o o 6-6 ; 6 6 6 ; 6 ; 6 d 6 oo 6 0 a o d d o o 6 d 6 d d d d o d d o d o dd d d d d o d d 6 d o d 6 d d d o d o 6 d d d d d o o o d o d - o o o 6 o 6 d d d 6 d d d d d d 6 d d 6 d d d d d d 6 o o o do d o o o o o o d d o o o d o d d o d d d d d o d o o d d o d d d d d o o d d d d d 6 d o d d d 6 d d d d a d d d d d d d d dd d N N N d d N d N N N d n d N d N d N d d 83 E 5 P I S 3 3 S 5 ; I 3 R 3 E R 9 ; T E E E S P I P F 9 S B N 9 S E S S N B T P E S R P P E S J: F 3 P F 3 E h A 8 E J E Nd d d d d N d d N d d d d d d d d d d N d d N d d N d d d d d d d N N d d d d d d d d N d d d d N d d d d d d d d d d d d d EE T E E E S T S E B f l E3 E f r EB i i l E E : i E E i E E q E E T N E E q H H T S g f i $T B 3 R R gi g H U E H E f l gR E f l ts d9 9 9 9 d o 9 9 d o 9 9 9 9 9 o d 9 9 d d 9 o d d 9 d g 9 d o d d ? q 9 9 q o 9 ? 9 q 9 9 d q 9 9 q i 9 i 9 9 9 i 9 9 9 9 9 : I =3 : : I : = > P P I = : P : P 3 F P =: : :: F r P P: I : : 9 : : : > = P: = = : P | : : I : : :3 : P -- I p p I 3 p ft E! S : E m p R E E H f r ts f t i: i h E E i E i E i B p f f : ; i l * S E : E E E ; t E i l 8 S i : e 3 9 i i 3 5 i l f l 89 f f ; gC E No 9 d 6 o o i l 9 o d @ o : 6 d o d d d n d d i d d S d = i d d d d d 9 d 9 9 d 9 9 9 P d d d d d o d d 9 9 9 9 d 9 3 = : = 9 Ei l S H S E F E H H E i E T S E S E E E i E E i I E S F S H ! E t E g B J E i E n S S p E ; ! A S * E S I R e H E T g B E E E 9P d o d P P ? d P 9 P P o P P P P P ? e S P P P P o P d d 9 9 P P d e e d P P d o d o P d 9 d d d : : d 6 9 d : d d d d d d @r d N - 6 o 6 N i6 6 - i 6 d o o d € i d o r o d @ d o d d d o d d @ d N d @ d N d @ d @ d d € o 6 o F d o t s d N N o d i l N 99 9 9 9 " 9 9 ? gC C C C C ? ? 9 9 C t ? 9 9 9 9 9 ? 9 9 9 9 ? 9 9 9 9 9 9 9 9 9 9 9 9 ? 9 9 9 9 ? g C C g g g ? ? 9 9 9 9 SE E S E S g E E I B E E g E g ; E P E H ! E P 5 : } S 8 D E E 3 E gF E dd d d d d d d d d d d d d d q d 9 d d d d d d o d d d d d d g 6 d 6 d d B ;S 3* t 3 8f i 3 g I 55 3 3 3 3 8E 3 t t P : r : : I P I : p -. R i N :P ! P ! * P P P T T : : : : : : J : : : : : J : : : = = : = : : : : : : xr x r x x r r r r x x r r r x x E H E $ H E H H H B H E i l E E E H E E H Ef ; E F E E E E E E E E E E E E E E ;i3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 1 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 Ed - d d i d o F o o d - d d i d d i l a o o r d d r 6 d i d d d ; d o i d d d d d d - d d + d d i l 6 d d F d d i 6 d i l d a 6 - & ES 3 3 3 3 3 3 3 3 3 t t S S i l t i l iH H H H H H H H H H H H H H H H E H H H H H H H H H H H H H H H H H H H H H f l H H H H H H H H H H H H H H H H H H H H H H H H -r r r r : aa ) t a a t . t t i Gc t t n d t a e G t d u t E dG t d d a G c d e d tE t t d d t t t d t c d n e a d e c & c e E dd e d d d & c e a d t d d 33 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 -d d r d d N d d d r d d i d 6 a3 J 3 A r 3 t 3 r 3 3 3 3 3 3 8 8 8 8 8 8 8 :, : : : : :: : : : , : : , : : :: : :, : :, : : : 5 5 S 5 5 5 r1 t t r 5 5 t 5 5 5 5 5 5 5 5 5 il d ( n d d d d d d u e d e E e & n e & G E n 99 9 ? 9 C ? 9 9 9 C 9 9 9 9 9 e 9 9 9 ? 9 0 6F - d F @ i t s d o o o i l i l i l N i l d d r d N d gg p t s n E S : 3 f , FX i * g E * $ R n F p t od d P d S { d P : P d d d d : d P P d 9 d o --; J J - J; ; ; - ; - J-- - - J - r d o 99 ? 9 9 ? e 9 C C C g g 9 9 ? C 9 9 9 ? 9 9 od d d 6 o o d o d d d d d d d d d !d 6 5 F : N o r 6 6 N d 6 o 6 - d od i d 6 o o o o d 6 b d d d d 6 - aE a E E i E A A A A E i A E E A ! oN N r o o r r 9 6 d - 6 o9 o d d o o o 9 o o o d o o o o oe r N d r NN N N N N N N N f t o o 6 o d o aa a r i r a i r a E i a a i a r a r E a r a P: 3 b : 8 8 P 8 P 8 t 5 P 8 g : 8 ! 8 8 3 = -J - - - - J - J i J ; - i - r - ; r - r - ; 9o - 6 ! 9 o e o o F - o 6 6 P P Sr h g J g s g s S E q S B x r S S g B h E : d@ d d o o 9 d o 6 9 9 d 9 o o d o d o d 9 9 s E 8 J 3 E3i E 3E E 3t E il 3qi EI Er t Ir{dtr 15 8 IrEl = 88 8 8 8 8 8 t; 5 8 8 t t 5B S 3 3 R R Tg R s i I s :! : : : : : aE e a E a a sR p S = 3 t$ t $ $ e 33 t 3 3 3 8 gB q d q q q EE E I E E E :3 3 3 3 3 3 3 :E X E E i E E JE E E E E E E : ! . t EE q r . 1 33 3 s: 3 33 33 3 3 3 3 a9 e 9 9 e HH E E E E _t _ t _ t -t _t _t 1t 1 t t 1 6i.{ 5;E69a! .b9Fl r 33 3 3 3 3 EE E E E $ S EE g,E g , E , E E5 E 5 5 E E d (q q q l q lr r r r r r xo o o o o o {g r e r s r t# * t , * , * , * 33 3 3 3 3 : -- - - - - t - - " - - - " " ^ t ^ 88 8 8 8 8 1 E 88 8 € 3 8 8 8 1 q ;; ; ; = ; l = ; ; ; ; ; ; ; ; l = ae e e ; ; l d B8 B ; ; ; e s l s ;; ; ; ; ; l ; ; ; ; ; ; ; ; ; l ; -" ; - r r l ; od d o o o o o l d BE E s B E I J EE E s P E S E I T ;, ; ; ; ; 1 , = ;, - :- . -1 , do o o d a l i 6d 6 o 6 o d o l d nx x E r e L r: n s * e * l n .. . . - " l . o d @ o @ d @ o l d 3: B E E : I 3 [[ E E - 8 F I E I E "" " " " " t - " " " " " " " " t " Ef i E P C T E EI E $ S P F F I E do o o d d l d :" : _ - : : : l l No o N o 6 t F rrj t i r r r t i ** " * = ' l * ; ; - ; ; = ; ; l ; lr i r . n l q P i 9 1 9 q . - l q 99 9 9 ? 9 l g 9 r 9 r q 9 t Y l . l r; x s c u L u= u r * * r r l * := = : P e l } oo o d o d d o l d 33 8 5 6 6 ; ; B: E E E E S I I E ;; ; ; i l ; f f i | ; ;; ; ; ; ; l ; ;i l ; ; ; ; l ; : : : :" : [ :: : : : :: : l . o6 6 6 6 6 1 6 !!t ! : t a r l ! *u r * r r l , ** * * * * u r l o ;; ; ; l ; ;; f f i | ; il i l ; l ; ;; ; ; ; ; ; ; l ; _" . . . . t _ . " . " " . " . t _ --- - - r l ) 6d a d 6 d d 6 l d tt sE B E : C I I TE T E T E g g I E 99 9 9 C C l q 9 C g C q g d o l 9 tt 66 6 o - N l F x- r o * o o - h :: : : " 1 " " " " " . . " 1 ao a a a o l d 6o 6 d 6 6 d 6 l d H: : ; ; l l H ;: : : 3 H I ; I H -- - - - - l E - - r r * r * r l E -- - - - - l < -- - - - - - - l < s$ s $ $ E t $E E E E f $ $ t :: = = = = l :: : : = E : = l tt tttt 33 3 3 3 3 1 is r E e q q q s l Eg H g g g I I E E E E E E E E I E.. . . E l -6 a 6 6 a o a a l tE t G t d l -o o o o o o o o l 5: 3 8 8 9 8 Eg E E E C B Sd B E g T 6 rB E : d g i SP E P S T g 88 8 8 8 8 8 ts 8 a 8 3 8 8 EE B E E E d 38 E 8 3 r 8 98 8 r 3 g g 33 8 E E E E ie i q e i i ?e q q g i e E8 n g 8 E 3 ES E E E E E t3 3 3 3 3 3 tfdB Sr s s S E h tt{tE 15 9 LAST PAGE OF REPORT UTAH DEPARTMENT OF ENVIRONMENTAL OUATITY '-:i"', :) 1 llll,'.i D;1::SION OF AIR QUAUT{ 160 KMA East CS CE-5 2024 rev Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name Kinder Morgan Altamont - East Plant Company Contact:Erin Dunman Contact Phone No.303-914-7605 Stack Designation:CE-5 Test Date:11/5/2024 High Flow Test Date: 1/0/1900 Review Date: 1/10/2025 Mid Flow Test Date: 1/0/1900 Observer: none Low Flow Test Date: 1/0/1900 Reviewer:Robert Sirrine Emission Limits Emission Rates NMHC NOX CO NOX CO g/bhp-hr 0.7 1.0 2.0 0.048 0.3 0.3 lbs/hr 0.59 3.70 7.41 0.15 0.85 0.88 ppm 60 82 270 3.327 18.010 30.850 Percent %O2 Correction as a whole #15.00 15.00 15.00 Test Information Heat Input Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static) fuel flow rate (Btu/hr) Heat Input (Btu/hr.) 14.00 1.07 9489 Contractor Information Contact: Nathan Liebmann Contracting Company: KMA Emissions Test Group Address: 1001 Lousiana St. Ste 1000 Houston TX 77002 Phone No.: 713-420-3664 Project No.: 8702 Round Division of Air Quality Instrumental Reference Methods - Gaseous Measurements Method 19 - F factors for Coal, Oil, and Gas Fd Fw Fc scf/MMBtu scf/MMBtu scf/MMBtu Diluent F factor used O2 CO2 Anthrocite 2 Bituminous 2 Lignite Natural Propane Butane 10100 COAL OIL GAS 9780 9860 9190 8710 8710 8710 10540 10640 11950 320 10610 10200 10390 1970 1800 1910 1420 1040 1190 1250 Wet CEM Yes Yes Correct For O2 CO2 Interferece w/CO Yes KMA East CS CE-5 2024 rev Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification Kinder Morgan Altamont - East Plant CE-5 Average Emission Dry NMHC NOX CO g/bhp/hr 0.0 0.3 0.3 Average % concentration lbs/hr 0.150 0.85 0.885 CO2 O2 ppm 3.33 18.01 30.85 -0.07 Run 1 Enter O2 or CO2 Dry NMHC NOX CO CO2 O2 O2 Atomic Weight 44 46 28 lbs/MMBtu (O2)1.19E-02 6.43E-02 6.97E-02 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs/MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs/cu.ft 1.38E-06 7.4E-06 8.0E-06 lbs/hr 0.152 0.819 0.888 -0.08 ppm corrected for %O2 3.39 17.46 31.10 -0.07 Run 2 Dry NMHC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs/MMBtu (O2)1.11E-02 6.72E-02 6.78E-02 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs/MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs/cu.ft 1.28E-06 7.7E-06 7.82E-06 lbs/hr 0.14160 0.85421 0.86257 -0.05 ppm corrected for %O2 3.16 18.25 30.27 -0.06 Raw Value Run 3 Dry NMHC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs/MMBtu (O2)1.21E-02 6.74E-02 6.99E-02 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs/MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs/cu.ft 1.39E-06 7.8E-06 8.06E-06 lbs/hr 0.156242 0.87161 0.90299 -0.07 ppm corrected for %O2 3.43 18.32 31.175 -0.07 Raw Value Run 4 Dry NMHC NOX CO CO2 O2 Atomic Weight 64 46 28 lbs/MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs/MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs/cu.ft lbs/hr ppm corrected for %O2 0.00 Raw Value C For Cal Drift ppm corrected for %O2 C For Cal Drift C For Cal Drift C For Cal Drift Raw Value O2 CO2 Clear lbs/MMBTU KMA East CS CE-5 2024 rev Calibration Error Test Test Date November 5, 2024 O2 CS - Cal. Span 11.00 Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 -0.03 0.03 0.27% Passed Cal. Mid-level 5.06 5.06 0.00 0.00% Passed Cal. High-level 11.00 11.07 0.07 0.64% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of CS - Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 46.00% 100% of Cal. Span High-level 100.00% Test Date CO2 CS - Cal. Span Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date NMHC CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date November 5, 2024 NOx CS - Cal. Span 465.00 Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 -0.03 0.03 0.006% Passed Cal. Mid-level 195.00 192.43 2.57 0.553% Passed Cal. High-level 465.00 464.67 0.33 0.071% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 41.94% 100% of Cal. Span High-level 100.00% Test Date November 5, 2024 CO 7.41 CS - Cal. Span 448.00 270 Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 -0.05 0.05 0.011% Passed Cal. Mid-level 197.00 196.00 1.00 0.223% Passed Cal. High-level 448.00 447.20 17.80 3.973%Failed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 43.97% 100% of Cal. Span High-level 100.00% KMA East CS CE-5 2024 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont - East Plant NMHC NOX CO CO2 O2 CE-5 CS Calibration Span 465.00 448.00 11.00 Units ppm ppm ppm % %Unprotected CV - Cylinder Value:NMHC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 195.00 197.00 5.06 High-Level 465.00 448.00 11.00 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 41.9% 44.0% 46.0% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CDir CMA 195.00 197.00 5.06 Calibration Error Test Cs - Measured Concentration NMHC NOX CO CO2 O2Low-Level -0.03 -0.05 -0.03 Mid-Level 192.43 196.00 5.06 High-Level 464.67 447.20 11.07 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 192.43 196.00 5.06 Low-Level 0.01% 0.01% 0.27% ppmdv Difference 0.03 0.05 0.03 Status Passed Cal. Passed Cal. Passed Cal. Mid-Level 0.55% 0.22% 0.00% ppmdv Difference 2.57 1 0 Status Passed Cal. Passed Cal. Passed Cal.High-Level 0.07% 0.18% 0.64% ppmdv Difference 0.33 0.8 0.07 Status Passed Cal. Passed Cal. Passed Cal. Pre-Test Sampling System Bias Initial Values NMHC NOX CO CO2 O2 CO - Low-Level 0.75 -0.73 0.00 System Bias. SBi - Zero Bias TRUE 0.17% 0.15%TRUE 0.27%± 5% of Span Difference TRUE 0.78 0.68 TRUE 0.03 Pass or Failed Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 188.58 195.00 5.11 SBi - Up-Scale Bias TRUE 0.83% 0.22%TRUE 0.45% Difference TRUE 3.85 1.00 TRUE 0.05 Pass or Failed Invalid Run TRUE Passed Cal. Passed Cal.TRUE Passed Cal. Raw Test Data Time Start Stop Test Date:11/5/2024 NMHC NMHC NOX CO CO2 O2 NOX12.0 60.210 108.340 -0.070 CO 0.0%12.9% 24.2%0.0% 0.6%CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values NMHC NOX CO CO2 O2 CO - Low-Level 0.19 -0.57 -0.04 System Bias. SBi - Zero Bias TRUE 0.05% 0.12%TRUE 0.09%± 5% of Span Difference TRUE 0.2 0.5 TRUE 0.0 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 187.67 192.00 5.08 SBi - Up-Scale Bias TRUE 1.02% 0.89%TRUE 0.18% Difference TRUE 4.8 4.0 TRUE 0.0 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.12% 0.04%TRUE 0.18% Drift Difference TRUE 0.6 0.2 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.20% 0.67%TRUE 0.27% Difference TRUE 0.9 3.0 TRUE 0.0 Pass or Re-Calibrate Pass Pass Pass CE-5 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.07 0.00 0.00 0.00 -0.08 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 0.00 0.999 Load - Megawatts AvgSqrtDlp Vs scfm wet acfm Qsd dscfh Heat InputBtu/hr Low Mid High #VALUE! #VALUE! 1.104E+5 12.69570178 #1 - Times Date Point No.dl "p"sqrt dl "p"ts F tm F (in) tm F (out)Cp 3D Probe Final Vf Initial Vi 1 1.000 1.00 0 2 1.000 1.00 0 3 1.000 1.00 04 0 5 0 6 7 8 9 10 11 12 13 14 15 1617 1819 2021 2223 24 NOTEThese cells scans for the appropriate Cafter the Cm-entered. If this scan is incorrect change the Cmaand Cdir to the correct gas value. Failed Failed Failed Cal CO Wet CEM Yes Yes Correct For O2 CO2 Interference w/COYe Correct For O2 Failed KMA East CS CE-5 2024 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont - East Plant NMHC NOX CO CO2 O2 CE-5 CS Calibration Span 465.00 448.00 11.00 Units ppm ppm ppm % % CV - Cylinder Value:NMHC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 195.00 197.00 5.06 High-Level 465.00 448.00 11.00 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 41.9% 44.0% 46.0% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 195.00 197.00 5.06 Calibration Error Test Measured Concentration NMHC NOX CO CO2 O2Low-Level -0.03 -0.05 -0.03Mid-Level 192.43 196.00 5.06 High-Level 464.67 447.20 11.07 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 192.43 196.00 5.06 Low-Level 0.01% 0.01% 0.27% ppmdv Difference 0.03 0.05 0.03 Status Passed Cal. Passed Cal. Passed Cal. Mid-Level 0.55% 0.22% 0.00% ppmdv Difference 2.57 1 0 Status Passed Cal. Passed Cal. Passed Cal. High-Level 0.07% 0.18% 0.64% ppmdv Difference 0.33 0.8 0.07 Status Passed Cal. Passed Cal. Passed Cal. Pre-Test Sampling System Bias Initial Values NMHC NOX CO CO2 O2 CO - Low-Level 0.19 -0.57 -0.04 System Bias. SBi - Zero Bias TRUE 0.05% 0.12%TRUE 0.09%± 5% of Span Difference TRUE 0.22 0.52 TRUE 0.01Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 187.67 192.00 5.08 SBi - Up-Scale Bias TRUE 1.02% 0.89%TRUE 0.18% Difference TRUE 4.76 4 TRUE 0.02 Pass or Invalid Run TRUE Passed Cal. Passed Cal.TRUE Passed Cal. Raw Test Data Time Start Stop Test Date:11/5/2024 NMHC NMHC NOX CO CO2 O2 NOX11.2 62.560 103.960 -0.060 CO 0.0%13.5% 23.2%0.0% 0.5%CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values NMHC NOX CO CO2 O2 CO - Low-Level 0.26 -1.72 -0.03 System Bias. SBi - Zero Bias TRUE 0.06% 0.37%TRUE 0.00%± 5% of Span Difference TRUE 0.3 1.7 TRUE 0.0 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 187.82 191.00 5.11 SBi - Up-Scale Bias TRUE 0.99% 1.12%TRUE 0.45% Difference TRUE 4.6 5.0 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.02% 0.26%TRUE 0.09% Response Spec. Difference TRUE 0.1 1.2 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.03% 0.22%TRUE 0.27% Difference TRUE 0.2 1.0 TRUE 0.0 Pass or Re-Calibrate Pass Pass Pass CE-5 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.07 0.00 0.00 0.00 -0.05 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 0.00 0.999 Load - Megawatts AvgSqrtDlp Vs scfm wet acfm Qsd dscfh Heat InputBtu/hr Low Mid High #VALUE! #VALUE! 110358.000 12.686808 #1 - Times Date Point No.dl "p"sqrt dl "p"ts F tm F (in) tm F (out)Cp 3D Probe Final Vf Initial Vi1 1.000 1.00 0 2 1.000 1.00 03 1.000 1.00 0 4 0 5 0 6 7 8 9 10 1112 13 1415 16 1718 19 20 21 22 23 24 Failed Failed Failed Cal WET CEM Yes YesCorrect For O2 CO2 Interference w/COYe Correct For O2 Correct For O2 Failed KMA East CS CE-5 2024 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont - East Plant NMHC NOX CO CO2 O2 CE-5 CS Calibration Span 465.00 448.00 11.00 Units ppm ppm ppm % % CV - Cylinder Value:NMHC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 195.00 197.00 5.06 High-Level 465.00 448.00 11.00 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 41.9% 44.0% 46.0% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 195.00 197.00 5.06 Calibration Error Test Measured Concentration NMHC NOX CO CO2 O2Low-Level -0.03 -0.05 -0.03Mid-Level 192.43 196.00 5.06 High-Level 464.67 447.20 11.07 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 192.43 196.00 5.06 Low-Level 0.01% 0.01% 0.27% ppmv Difference 0.03 0.05 0.03 Status Passed Cal. Passed Cal. Passed Cal. Mid-Level 0.55% 0.22% 0.00% ppmv Difference 2.57 1 0 Status Passed Cal. Passed Cal. Passed Cal. High-Level 0.07% 0.18% 0.64% ppmv Difference 0.33 0.8 0.07 Status Passed Cal. Passed Cal. Passed Cal. Pre-Test Sampling System Bias Initial Values NMHC NOX CO CO2 O2 CO - Low-Level 0.26 -1.72 -0.03 System Bias. SBi - Zero Bias TRUE 0.06% 0.37%TRUE 0.00%± 5% of Span Difference TRUE 0.29 1.67 TRUE 0Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 187.82 191.00 5.11 SBi - Up-Scale Bias TRUE 0.99% 1.12%TRUE 0.45% Difference TRUE 4.61 5 TRUE 0.05 Pass or Invalid Run TRUE Passed Cal. Passed Cal.TRUE Passed Cal. Raw Test Data Time Start Stop Test Date:11/5/2024 NMHC NMHC NOX CO CO2 O2 NOX12.2 62.700 106.660 -0.070 CO 0.0%13.5% 23.8%0.0% 0.6%CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values NMHC NOX CO CO2 O2 CO - Low-Level 0.07 -1.75 -0.03 System Bias. SBi - Zero Bias TRUE 0.02% 0.38%TRUE 0.00%± 5% of Span Difference TRUE 0.1 1.7 TRUE 0.0 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 187.38 191.00 5.11 SBi - Up-Scale Bias TRUE 1.09% 1.12%TRUE 0.45% Difference TRUE 5.1 5.0 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.04% 0.01%TRUE 0.00% Response Spec. Difference TRUE 0.19 0.03 TRUE 0.00 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.09% 0.00%TRUE 0.00% Difference TRUE 0.4 0.0 TRUE 0.0 Pass or Re-Calibrate Pass Pass Pass CE-5 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.07 0.00 0.00 0.00 -0.07 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 0.00 0.999 Load - Megawatts AvgSqrtDlp Vs scfm wet acfm Qsd dscfh Heat InputBtu/hr Low Mid High #VALUE! #VALUE! 1.121E+5 12.88583376 #1 - Times Date Point No.dl "p"sqrt dl "p"ts F tm F (in) tm F (out)Cp 3D Probe Final Vf Initial Vi1 1.000 1.00 0 2 1.000 1.00 03 1.000 1.00 0 4 0 5 0 6 7 8 9 10 1112 13 1415 16 1718 19 20 21 22 23 24 Failed Failed Cal Wet CEM YesYesCorrect For O2 CO2 Interference w/COYe Correct For O2 Failed Correct For O2 Failed