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Home My WebLink AboutDAQ-2024-011395G Tnexs-Jonoent INTEGRATEO SOLIO WASTE MANACEMENT To: Executive Secretary, Utah Division of Air Quality DEPARTMENT OF ENVTRONMENTAL OUALITY fi an d de| tleftc'( ocT 3 1 2024 DMSION OF AIR OUAI.JTYFrom: Trans-Jordan Re:Semiannual Monitoring Report for Title V Permit No. 3500535004 October 30,2024Date: ln accordance with Operating Permit provision 1.S.2.a, and Utah Administrative Code (UAC) R307-415-6a(3XcXi), Trans-Jordan Landfill is submitting this semiannual monitoring report for the monitoring period from April 1. 2024, throueh September 30, 2024. During this period, the Landfill had zero deviations from Permit conditions. ln accordance with Operating Permit provision l.K and UAC R307-415-5d and based on information and belief formed after reasonable inquiry, I certify that the statements and information in this document are true, accurate, and complete. LOCATION TYEBS!TE CONTACT 10475 SourH BAccHrrs Hr,vY Sourx JoRoAN, UT 84009-6002 WWW.TRANSJORDAN.ORG INFO@TRANSJORDAN,ORC (8Ol) s69-8994 I SANDv r Sot-lrrJolronN r Wrst Jopoaru Trans-Jordan Cities DpApLR I MIDVALT t Muppav I RrvrploN REVIEWEDInitials:Date: Nov 06, 2024Compliance status: MeetsFile #: 11977 (B2) , Bright Mpre. Right 'p,lutiot,6.\, SEMIANNUAL TITTE V COMPTIANCE REPORT APRIL 1,2O24TO SEPTEMBER 30,2024 TRANS.JORDAN IANDFILL TITLE V PERMIT NO.35OO535OO4 KLEINFETDER PROJECT NO: 24002568.001A ocToBER 3,.,2024 Copyrfiht 2024 Klelnfelder All Rlthts Reserved ATIVES MAY USE THIS DOCUMENTANO ONIY FOR THE SPECIFIC PROJECT FOR WHICH THIS REPORT WAS PREPAREO. October 31,2024 www.klelnfeHer.com ENVIRONMENTAL QUALIW DIVISION OF AIR QUALIW Page i of iii { 7I xteuvretEEn '- nrl^*''r*\-. A Report Prepared For: Trans-Jordan Cities PO Box 95610 South Jordan, Utah 84095 SEMIANNUAT TITTE V COMPLIANCE REPORf, APRTL 1, 2O24TO SEPTEMBER ?O,2024 TrTrE V PERM]T NO. 3s00535004 Prepared by: / ":z', t/.- ,,":/ Megan McNabb Project Professional Amit Nair Principal Air Quality Professional t v ' ' l- - KTEINFETDER 849 West Levoy Drive, Suite 200 Salt Lake City, Utah 84t23 Phone: 801.251.3335 october 3L,2024 Kleinfelder Project No. : 24002568.0014 24002558.00 1A,001A/SLC24 L7 417 0 @ 2024 Kleinfelder I1l i I I October 3L,2024 www.klelnfelder.com Page ii of iii 7,( xtetNrztDEn. U,'4 "Bfu\=- TABTE OF CONTENTS Section 1 INTRODUCTION AND OPERATIONAL OVERVIEW APPENDICES A Source Compliance Statement B LGCS Wellfield Monitoring Data C Surface Emissions Monitoring Data D TSM Plan and Report 24002s68.00 1A.00 1AlSLC24 77 417 0 @ 2024 Kleinfelder Pate ...............1 SEMI.AN N UAL MON ITO RI NG RESU 1TS................................4 2.L LGCS WELLFIELD MONITORING ...,.,..,.4 2.2 LANDFTLL SURFACE EM|SS|ONS MONTTORTNG ................. ..........5 2.2-L April2024 SEM Event ...........................5 2.2.2 August 2024 SEM Event........... .............5 2.3 TREATMENT SYSTEM, CONTROL DEVICE AND COLLECTION SYSTEM DOWNTIME ............5 CONCLUSIONS october 31,2024 www.kleinfelder.com Page iii of iii ( xtetruretDER ' \-**4Rfu 1 INTRODUCTION AND OPERATIONAL OVERVIEW The Trans-Jordan Landfill (Trans-Jordan or Landfill) operates under Title V Operating Permit (Permit) No. 3500535004, issued to Trans-Jordan on July 2L,2020. ln accordance with Operating Permit provision 1.S.2.a, and Utah Administrative Code (UAC) R307 a15 5a(3)(cXi), this semiannual monitoring report is submitted to the Utah Division of Air Quality (UDAQ). This report is for the monitoring period from April L,2024, to September 30,2024. This is Trans-Jordan's first report that includes monitoring data from the landfillgas collection system (LGCS), since the applicable requirements became effective in March 2024. 1.1 REGULATORYOVERVIEW Trans-Jordan's Title V Permit has been revised (dated January 12,2023l.by the Utah Division of Air Quality (UDAQ) to incorporate NSPS regulations that apply to Trans-Jordan. The Landfill is subject to 40 CFR Part 62 NSPS Subpart OOO. 7.2 REPORTING REQUIREMNT Annual Non-Methane Organic Carbon (NMOC) emissions for calendar year 2020 were estimated to be 34.2 megagrams (Mg) and reported to UDAQ in September 2O2L. Since the NMOC emission rate exceeds the 34 Mg/year threshold, requirements of a LGCS will apply to Trans-Jordan. As required by Condition ll.B.2.a(bX1)(i) of TransJordan Landfill's Operating Permit and NSPS Subpart OOO 40 CFR 62.L6724(dl, a LGCS Design Plan, prepared and approved by a professional engineer and meeting requirements in Subpart OOO 40 CFR 62.16714(b) and (c), and 40 CFR 62.t6728 was submitted to UDAQ on September L6,2022. As of March L6,2024, Trans-Jordan has completed installation and started operation of the LGCS, as required by Condition ll.B,2.a(bX2) of the Operating Permit. Trans-Jordan has started following applicable monitoring, recordkeeping, and reporting requirements under Conditions 11.B,2.a.1 through 11.8.2.a.3 of the Operating Permit. An original letter certifying Trans-Jordan compliance during this reporting period, in accordance with Operating Permit provision l.K. and Utah Annotated Code R307-415-5d, has been signed by Mr. Jaren Scott, the designated responsible official, and is submitted to the UDAQ with this report. A copy of the compliance certification is provided in Appendix A. 24002s 68.00 1 Al SLC24RL7 477 O @ 2024 Kleinfelder October 31,2024 www.kleinfelder.com Page 1 of 8 ( xtetNretDER \- **4Efu 1.3 OPERATIONALOVERVIEW The Trans-Jordan Landfill has been operating a LGCS since 2005. ln 2008, Trans-Jordan contracted Granger Energy to beneficially use the collected landfill gas (LFG) to Benerate renewable electricity via three internal combustion engine LFG-to energy engines. Trans-Jordan's most recent Approval Order (AO # DAQE-AN119770012-22) includes the three LFG engines (currently operated by Energy Developments Limited or EDL) and an enclosed combustor LFG flare. Prior to the NMOC Tier 2 report of September 2021, Trans-Jordan's LGCS was voluntary and not required under NSPS regulations. Trans- Jordan's AO and Title V Operating Permit include operations of the landfill and those of EDL (i.e the three LFG engines). The LGCS, comprised of 130 LFG wellheads, conveys approximately 1,500 cubic feet per minute (cfm) of LFG flow to the three LFG engines. All LFG collected by the LGCS is routed to either the Landfill's flare or EDL's engines. Trans-Jordan's flare operates only as a backup when EDL's engines are non-operational. No collected LFG is released uncombusted to the atmosphere. Due to the significant uptime of the EDL operations, Trans-Jordan's flare operates only minimally. Prior to combustion in the engines, EDL's LFG treatment system treats the LFG through the processes of compression, dewatering, and filtration per the definitions of NSPS Subpart OOO 40 CFR 62.L6730. A site-specific treatment system monitoring plan (TSM Plan) was prepared to satisfy the requirements of Subpart OOO 40 CFR 62.L6725(bX5Xii). Trans-Jordan has prepared a site-specific TSM Plan and Continuous Monitoring System (CMS) Quality Control Program (QCP) for the onsite landfill gas to energy facility. Copies of the TSM Plan and CMS QCP are included as Appendix D. L.4 LGCS EXPANSION, RETROFIT AND REPAIR ACTIVITIES Expansions and retrofits to the LGCS have been completed periodically since 2005. Trans-Jordan places final cover on and caps areas that have reached final waste elevation. LGCS compliance monitoring information for this reporting period is included in Chapter 2 of this report. Repair activities performed on the system during this reporting period include routine maintenance, condensate removal activities, LGCS collector piping and wellhead repairs, and servicing and maintenance of the LFG engines. No LFG was diverted or bypassed uncontrolled to the atmosphere during any period of LGCS operations, repair, or system servicing. 24002568.00 1 Al SLC24RL7 4L7 O @ 2024 Kleinfelder October 37,2024 www.kl€infelder.com Page 2 of 8 7 - tlxEqr*,\=, 1.5 FUTURE REPORTING REQUIREMENTS The next semiannual report (for the period of October 1,2024, to March 3t,20251will be submitted on or before April 30, 2025. 24002558.001A15LC24RL74L70 Page 3 of8 @ 2024 Kleinfelder October 31,2024 *uw,klelnfeHer,cofli I xtetruretoen \- **,'kfu 2 SEMI-ANNUAL MONITORING RESULTS Records are prepared and maintained in accordance with conditions 1.C.3, l.S and various specific conditions in Section ll of the Landfill's Permit. The primary location for records storage is the Trans- Jordan facility. 2.T LGCS WELLFIELD MONITORING During this reporting period, LGCS wellfield monitoring was performed at least monthly, in accordance with the Operating Permit requirements (Conditions ll.B.2.a(c) and 11.8.2.a.1). The LGCS wellheads are monitored for gas flow, temperature, and quality at least once per month to comply with permit conditions and are balanced as needed to optimize gas extraction from the Landfill. Wellheads are monitored for temperature, system static pressure (indicating flow), oxygen (Oz), and nitrogen (Nz) content. To comply with the Permit provisions: The temperature is required to be less than or equal to 55 degrees Celsius (131 degrees Fahrenheit). Wells must have negative static pressure. Monitor Oz and N2 concentrations. Keep records of all monitored parameters including instances where the Oz and Nz concentrations were greater than 5 percent and 20 percent, respectively. The following Permit operational exceedances were noted during the six-month monitoring period. For each instance, actions to correct the exceedance were promptly initiated and corrective actions were implemented as necessary. o On April 17, 2024, no temperature was recorded at wellhead N2. During the May 2024 monitoring event a compliant temperature measurement was completed for N2. . On May 14, 2024, no vacuum (positive static pressure) was recorded at G7. During the June 2024 monitoring event compliant readings were achieved for G7. The LGCS monthly wellhead data, including parameters of static pressure, temperature, Oz, ilrd Nz and date and time of their measurements are included in Appendix B. 24002568.00 1 Al SLC24RL7 4r7 0 O 2024 Kleinfelder october 31,2024 www.kleinfelder.com Page 4 of 8 I ,<LETNFELDER \-- "-'* "Rtu 2.2 LANDFILL SURFACE EMISSIONS MONITORING Two quarterly (April 2024 and August 2024) surface emission monitoring (SEM) events were performed at the Landfill during this reporting period. Surface emissions were measured across the Landfill surface using a pre-calibrated flame ionization detector (FlD) meeting the specifications of EPA Method 21 and per requirements of Permit conditions ll.B.2.a(c). The FID probe was held within approximately 5 to 10 centimeters above the ground surface while walking along parallel paths spaced approximately 30 meters apart. Measurements were made continuously while traversing across the surface of the landfill and from cover penetrations that are within an area of the landfill where waste has been placed and a gas collection system is required (ll.B.2.a(c)). 2.2.1 April2024 SEM Event The initial monitoring event for second quarter 2024 was performed from April 22 through 24,2024.The walking traverse pattern was conducted following an east to west traverse, illustrated by the red lines on Figure C-1 in Appendix C. A surface inspection was performed concurrently with the surface emission monitoring to identify cracks, erosion fissures, or other anomalies in the landfill cap that may create escape pathways for LFG. Two methane exceedances (in the cap or at cover penetrations) greater than or equal to 500 parts per million (ppm) were identified during the April 2024 monitoring event. The exceedance locations are identified on Figure C-1 in Appendix C. Corrective action, in the form of cover maintenance (adding cover and re-compacting), was performed at the exceedance locations. The exceedance locations were re-monitored after 10 days and no methane exceedances were measured with methane concentrations over 500 ppm. At the 30 days of initial exceedance, both exceedance locations were re-monitored and no methane exceedances were measured during the 30 day re-monitoring events. Field forms for this quarterly monitoring event are provided in Appendix C. 2.2.2 August 2024 SEM Event The initial monitoring event for third quarter 2024 was performed from July 22 through July 31, 2024. The walking pattern was conducted following a north to south traverse, as illustrated by the green lines on Figure C-2 in Appendix C. A surface inspection was performed concurrently with the surface emission monitoring to identify cracks, erosion fissures, or other anomalies in the landfill cap that may create escape pathways for LFG. 240025 68.00 1 Al SLC24RL7 477 0 @ 2024 Kleinfelder October 37,2024 www.kleinfelder.com Page 5 of 8 I xtetruretoen \- **.ryRM One methane exceedance (in the cap or at cover penetrations) greater than or equal to 500 parts per million (ppm) was identified during this monitoring event. The exceedance location is identified on Figure C-2 in Appendix C. Corrective action, in the form of cover maintenance (adding cover and re-compacting), was performed at the exceedance location. The exceedance location was re-monitored after 10 days had no methane concentration over 500 ppm. At the 30 days of initial exceedance, the methane exceedance location was re-monitored and no methane exceedance was measured during the 30 day re-monitoring event. Field forms for this quarterly monitoring event are provided in Appendix C. 2.3 TREATMENT SYSTEM, CONTROL DEVICE AND COLLECTION SYSTEM DOWNTIME Trans-Jordan's LGCS directs collected LFG to EDL's LFG engines andl or the enclosed combustor flare. As presented in the TSM Plan dated November 15, 2OZt (included in Appendix D), the EDL operations are a treatment and control system for LFG. A copy of the most recent semi-annual TSM Plan report is included in Appendix D. During the reporting period, there were no parameter exceedances or deviations. Trans-Jordan's enclosed flare operated only minimally during the six month reporting period. Trans- Jordan is currently modifying its AO to clarify operational requirements of the flare. Trans-Jordan has completed a performance test of emissions from the flare during initial startup and commissioning. Trans-Jordan plans (in the next six months) to complete a regulatory performance test on the flare's emissions per requirements of the Permit and applicable NSPS. Performance testing information will be provided to UDAQ under a separate cover. 240025 68. 00 1 A I SLC24R77 477 O @ 2024 Kleinfelder October 3L,2024 www.kleinfelder.com Page 6 of 8 I I<LEINFELDET? \- **.'hfu 3 CONCLUSTONS The Trans-Jordan Landfill was operating in compliance with conditions mandated by the current Title V Operating Permit during the period covered by this report. Zero deviations from Operating Permit Conditions occurred during this monitoring period. There were no recorded uncontrolled releases of excess LFG to the atmosphere from the LGCS during the monitoring period. These conclusions are based on the data collected by Kleinfelder and/or provided by Trans-Jordan that are included in this report. This is the first semi-annual monitoring report with detailed information about LGCS monitoring parameters; the format and contents of this report may be adjusted for future reporting periods as Trans-Jordan continues to understand and meet monitoring, recordkeeping and reporting requirements of the Operating Permit and applicable regulations. This report is solely intended for use by the UDAQ for purposes of compliance assessment, and by the Trans-Jordan Landfill as a facility compliance document. lt should be recognized that this report presents information specific to compliance issues that have occurred within the six-month timeframe of this report. Ongoing compliance requirements and future activities which may affect air quality are required to be presented semiannually for review by the facility's Title V Operating Permit. 240025 68.00 1 Al SLC24RL7 477 0 @ 2024 Kleinfelder October 31,2024 www.kleinfelder.com Page 7 of 8 To: Executive Secretary, Utah Division of Air Quality From: Trans-Jordan Date: Semiannual Monitoring Report for Title V Permit No. 3500535004 October 30,2024 Re: ln accordance with Operating Permit provision 1.S.2.a, and Utah Administrative Code (UAC) R307-415-6a(3XcXi), Trans-Jordan Landfill is submitting this semiannual monitoring report for the monitoring period from April 1, 2024. throush September 30, 2024. During this period, the Landfill had zero deviations from Permit conditions. ln accordance with Operating Permit provision l.K and UAC R307-415-5d and based on information and belief formed after reasonable inquiry, I certify that the statements and information in this document are true, accurate, and complete. Date xecutive Director I<LEINFELDER \_ Bright People. Risht Solutions. I<LEINFELDER \ Bright People. Right Solutions. \-z ( xtetnretE Ef,?. triE-Jh*'\, APPENDIXA SOURCE COMPUANCE STATEMENT 24002568.00 1A.001A/SLC24Rt7 4L7 CI @ 2024 Kleinfelder October 37,2024 wrlv.klelnfeHerrom -\I xtetNretDEFr \-'-*4tu@ APPENDIX B LGCS WELLFIELD MONITORING DATA 24002 5 68. 00 1 Al SlCz4Rtt 4 77 0 @ 2024 Kleinfelder October 31,2024 www.kleinfelder.com 240025 68. 00 1AlSLC24RI7 4 t7 0 O 2024 Kleinfelder Trans-Jordan Landfill Landfil! Gas Collection System Wellhead Monitoring April 2024 Well lD Date / Time cH. (%)co, (%)Oz(%l Balance Gas (% N' Temperature fF) Static Pressure (inches H20) A1 4h712024 8:39 56.7 30.9 o.7 t7.7 54 -0.11 A2 4lL7 12024 I 31 60.2 33.3 0.1 6.4 52 -0.06 A3 4/L7 12024 8:27 47.0 29.7 4.5 18.8 52 -0.04 A4 4/t7 12O24 8:r8 57.7 35.2 0.1 7.O 56 -0.32 B1 4ll7 12O24 8:4O 39.6 30.4 0.0 30.0 58 -0.08 B2 411712024 70:22 53.2 33.5 0.0 13.3 56 -0.07 B3 4/17/2024 70:24 50.4 36.5 0.1 3.0 60 -0.11 B4 4lt7l2O24 tO:26 54.0 33.6 2.5 9.9 58 -0.15 B5 4177/2024 7O:3O 62.7 35.3 0.1 1.9 62 -0.04 C1 4/17 12O24 *M 44.5 30.1 0.0 25.4 52 -0.0s c2 4lt7 12024 tO:38 0.0 0.6 20.6 78.8 66 -0.12 c3 4lt7/2024 70:34 56.S 32.9 0.3 10.3 74 -0.16 c4 4117/2024 70:32 53.5 33.5 o.2 72.7 70 -1.51 D10 4/17/2024 17:05 51.4 32.O 0.4 L5.2 55 -L.O7 D11 4117/2024 t7:QB 32.8 29.2 o.7 37.3 62 1.16 D1 4/77 /2024 8:a8 51.5 34.1 0.0 t4.4 56 -0.07 D2 4/t7/2024 tO:42 44.7 28.1 o.2 27.O 50 -0.30 D3 417712024 10:46 56.7 33.3 0.1 9.9 76 1.16 ut 4177 12024 LO:49 44.4 32.7 0.0 19.5 50 -0.39 D5 413012024 14:06 57.4 33.8 0.3 8.5 78 -0.39 D6 4h7/2024 LO:54 45.8 35.1 0.0 19.1 52 -0.46 D7 4ll7 12024 10:57 36.4 31.3 0.0 32.3 68 -0.86 D8 4l17 12024 LL:OO 24.4 27.5 0.1 48.0 62 -0.99 D9 4l17/2024 L1:O3 29.9 24.O 5.1 40.0 50 -1.(X E10 4117l2OZ4 17:12 29.5 L7.3 10.3 42.9 66 1.23 E11 4l17l2O24 t7:7O 0.1 0.9 20.3 78.7 64 -1.08 E1 4177 12024 8:57 52.0 33.5 0.1 t4.4 54 -0.08 E2 4lL7 /2024 LL:28 47.0 29.O o.2 23.8 58 -0.33 E3 4/t7 /2024 7t:26 11.5 9.2 14.8 54.5 54 -0.31 E4 4117 12024 7t:24 49.9 33.1 1.1 15.9 74 1.96 E5 4lt7 /2024 1t:22 50.8 35.5 0.1 13.6 80 -0.7s E6 4177 /2024 7L:2O 51.1 34.9 0.1 13.9 70 -0.53 E7 4177 /2024 7L:78 49.6 34.1 o.2 16.1 86 1.52 E8 4/17/2024 7L:76 53.4 34.7 0.1 11.8 76 t.32 E9 4177 12024 1].:74 s3.2 35.1 0.2 11.5 80 t.46 F10 4h7/202413:04 50.1 32.2 7.4 16.3 80 -2.03 F11 4lL7/2024 r3:O5 50.6 36.2 o.2 3.0 70 1.08 F1 417712024 8:54 37.S 28.0 0.1 34.4 64 -0.14 F2 4177/2024 t2:46 51.0 25.5 0.5 23.0 64 -0.26 F3 4177/2024 12:48 s2.l 28.8 0.3 18.8 78 1.05 F4 4ll7 /2024 l2:5O 59.5 33.0 o.2 7.3 48 -0.s0 FS 4/17/2024 L2:52 55.9 32.t 0.8 10.5 80 1.54 F6 4/t7/2024 L2:55 44.4 32.6 0.0 23.0 70 -0.32 F7 4l17 /2074 L2:57 59.4 36.4 0.0 4.2 68 -0.86 F8 4lL7 12024 t2:5a 57.4 36.2 0.0 6.4 84 -2.54 F9 4lL7/2024 L3:O2 44.7 30.5 0.9 24.5 78 -2.O7 G10 4lL7 /2024 t3:t2 54.3 35.0 0.0 ta.7 84 -4.77 G11 4117 /2024 13:LO 54.8 35.9 0.1 9.2 86 2.40 G12 4177 /2024 73:07 60.3 36.4 0.0 3.3 78 -5.91 G1 4177 12024 8:57 34.7 27.2 0.0 38.1 50 -0.16 G2 417712024 73:35 38.0 26.3 o.2 35.s 60 -0.39 G3 4177/2024 13:32 2.2 2.8 18.4 76.6 60 -0.12 G4 4/17/2024 73:29 39.9 28.1 o.2 31.8 78 -o.29 G5 4/1712024 73:2t 41.1 27.6 5.5 25.7 62 -0.25 G6 4/77/2024 73:24 56.7 37.0 0.0 5.3 80 -0.15 G7 4177 12024 73:22 s2.8 34.6 7.7 10.9 90 1.27 1of18 october 30, 2024 240025 58. 00 1AlSLC2 4R77 4 r? O O 2024 Kleinfelder Trans{ordan Landfill Landfill Gas Collection System Wellhead Monitoring Apnl 2024 Well lD Date / Time cHr (%)co2 (%)O, (%)Balance Gas (% Nz) Temperature fF) Static Pressure (inches HrO) G8 4117 12024 L3:17 52.8 34.3 2.7 10.2 74 -o.97 G9 4177/2024 t3:L4 59.1 37.5 0.0 3.4 90 -2.01 H11 4h7/2024 r4:O3 53.4 34.5 o.2 11.9 92 t.64 H1 4/t7 /2024 8:59 35.0 26.4 0.0 37.6 58 -0.20 H2 4177 /2024 !3:37 20.0 24.L 0.1 55.8 62 -o.21 H3 4ll7 /2024 13:19 t7.6 24.1 0.0 58.3 58 -0.23 H4 4177 12024 !3:47 11.1 7.6 L6.4 64.9 64 -0.19 H5 4ll7 /2024 73:43 37.7 32.2 o.2 29.9 86 -0.19 H6 4/77/2024 73:45 0.0 0.7 20.5 78.8 66 -o.27 H7 4117 12024 13:47 55.8 38.3 0.5 5.4 100 -2.12 H8 4h7/2024 73:49 s4.4 36.1 1.0 8.5 100 -t.23 H9 417712024 73:SL s3.6 36.1 0.1 10.2 95 -3.55 H-r11V 4l\7 12024 !4:O5 59.4 38.2 0.1 2.3 90 -5.14 H.I6V 4h7/202414:13 s8.6 39.s 0.1 1.8 64 -0.65 H-t7V 4177/2024 14'.72 58.8 38.8 0.1 2.3 70 -4.87 H-I8V 417712024 74:71 s9.5 38.6 o.2 L.7 74 -4.75 H-I9V 411712024 74:09 59.8 36.7 0.1 3.4 70 -4.88 r10 411812024 I 33 2.O 1.9 19.9 76.2 50 -0.09 r11 4/18120248 35 58.7 36.4 0.8 4.7 90 -1.46 t1 4117 12024 9:07 42.3 28.1 0.0 29.6 52 -0.27 t2 4ltLl2024 8:03 18.1 23.1 0.8 58.0 26 -0.46 t3 4lL8l2O24 8:06 45.t 33.7 o.2 20.o 56 -0.45 t4 4118120248 13 54.9 33.7 0.1 11.3 82 1.13 t5 41t817024 8 16 31.5 19.8 9.1 39.6 50 -0.s8 r6 4hBl2O24 8:20 56.5 36.4 0.6 6.5 105 1.48 t7 4l!812024 8i24 57.7 37.2 0.1 5.0 t02 -2.22 l8 417812024 8:27 58.3 36.6 0.0 5.1 104 -2.45 r9 417812024a30 54.0 36.5 0.0 9.5 100 -2.33 J10 417812024 8:56 57.2 36.9 0.s 5.4 88 -2.27 J11 4h8/2O24 8:53 s9.4 38.0 0.1 2.5 80 -2.41 J1 4ll7 12024 9:O3 38.8 28.1 0.2 32.9 56 -0.48 t2 4/78/2024 9:27 55.1 37.2 0.3 7.4 76 -0.36 J3 411812024 9:19 55.8 37.O 0.1 7.7 96 L.24 )4 4178120249:r7 58.5 39.3 0.1 2.O 100 -0.8s J5 4/7812024 9:t5 58.4 39.2 0.0 2.4 102 -2.16 )6 417812A24 9:t2 s5.3 39.1 0.0 5.6 106 -7.87 )7 4h8/2O249:O7 56.5 39.3 0.1 4.1 106 -2.18 J8 417812024 9:O4 58.0 40.5 0.1 7.4 106 -2.20 J9 4178/2024 9:OL 56.5 39.6 0.3 3.5 105 1.43 K10 4/7812024 9:44 58.6 39.8 0.0 1.6 104 -2.38 K11 417812024 9:46 59.7 39.6 0.1 0.6 80 -2.62 K1 4/77 /2024 9:O5 3.6 3.4 20.3 72.7 58 -0.11 K2 4h812O249:25 47.O 31.8 0.3 20.9 80 -0.83 K3 4178/20249:28 s2.8 34.2 1.3 77.7 100 1.53 K4 417812024 9:3O 57.4 38.5 0.0 4.1 100 1.87 K5 417812024 9:32 57.4 39.3 0.0 3.3 110 L.47 K6 4/18/2024 9:35 49.3 37.7 0.3 72.7 90 1.65 K7 4l18l2024 9:37 47.4 35.2 1.6 74.4 94 -3.04 K8 4h812O24 9:39 56.0 40.9 0.4 7.7 60 -0.56 K9 4/78/20249:42 50.5 35.s t.2 11.8 100 -2.63 110 41312024 O:00 54.8 39.6 0.3 5.3 100 -4.93 L1 4h7/2024 9:O8 s5.8 36.4 1.0 5.8 50 -2.74 L2 17812O24 tO:22 55.7 37.8 0.8 5.7 72 -o.12 L3 4lLBl2024 tO:2O 56.1 38.2 r..0 4.7 100 -0.46 L4 4lL8/2O24 tO:t6 s5.8 39.5 o.7 3.0 106 1.55 L5 4ll8/2O24 lO:12 52.7 37.8 L.7 8.4 110 2.62 2of18 October 30, 2024 Well lD Date / Time cH. (%)co, (%)oz lohl Balance Gas (% Nz) Temperature fF) Static Pressure (inches HaO) L6 4lt8l2O24 1O:OB 56.7 39.9 0.1 3.3 70 -o.o7 L7 4/t8/2024 LO:OO s4.7 39.6 0.9 4.8 100 -0.59 L8 4/18120249:56 56.0 38.4 0.1 5.5 110 -1.97 L9 4l!812024 9:52 57.2 39.1 0.1 3.6 106 -2.25 M1 4/77 12024 9:72 59.1 37.7 0.0 3.2 72 -0.23 M2 4117 12024 9:14 6.5 15.5 75.7 51.1 50 -0.35 N1 4117 12024 9:79 53.4 37.3 0.6 8.7 54 -0.11 N2 4h7/2O249:36 s7.9 38.7 o.7 3.2 NM -2.90 o1 4117 12024 9:46 33.4 23.1 7.S 35.0 56 -2.48 o2 4l17 12024 9:57 6.9 4.9 18.9 69.3 52 -2.93 P1 4/L7120249:55 s5.4 38.1 o.2 6.3 70 -0.92 P2 4ll7 12024 9:57 58.4 40.3 0.1 1.2 53 -0.41 Q1 4lL7l2O24 LO:O1 s2.0 37.0 0.3 10.7 76 -0.11 Q2 41111202.4].O:O1 37.2 28.1 6.0 28.7 53 -2.88 R1 al17 12024 LO:O8 35.9 31.0 o.2 31.9 78 -0.03 R2 4ll7 12024 LO:LO 51.7 42.4 0.1 5.8 56 -0.23 s1 411712024 l0trs 49.2 38.9 0.1 11.8 54 -0.05 NM - Not Measured 24002568.001A/S1C24R174170 O 2024 Kleinfelder Trans{ordan Landfill Landfill Gas Collection System Wellhead Monitoring April 2024 3of18 october 30, 2024 TransJordan Landfill Landfill Gas Collection System Wellhead Monitoring iiay 2021 Well lD Date / Time cH. (%)corl%l o, (%)Balance Gas (% Nr) Temperature ("F) Static Prcssuro (inches HrO) A1 5114120247:rr 60.4 36.1 0.1 3.4 54 -0.09 A2 5114120247:OB 59.0 37.2 o.2 3.6 52 -0.04 A3 511412O247:M 54.9 32.6 2.4 10.1 S6 -0.0s A4 5l14l2O24 7:O2 57.1 34.9 0.5 7.5 60 -o.M B1 5/14120247:14 35.0 30.2 0.1 14.7 58 -0.14 B2 5ll4l2O24 9:rO 50.6 32.7 0.2 16.5 60 -0.19 B3 511412024972 59.9 37.3 o.2 2.6 74 -0_18 B4 Sl14l2O249:75 51.9 33.3 3.0 11.8 74 -0.18 B5 Sll4l2O24 9:77 61.6 36.0 0.1 2.3 70 -0.15 c1 Sl14l2O247:78 17.7 27.2 1.9 33.8 56 -0.09 c2 5l14l2024 9:24 1.5 1.6 19.7 77.2 72 -0.18 c3 SlL4l2O24 9:22 54.9 33.8 0.3 11.0 80 -0.32 c4 SlL4l2O24 9:19 50.1 34.7 0.3 15.5 80 -2.30 D10 Slt4l2O249:M 30.4 26.4 1.1 42.7 79 1.56 011 5lL4l2O24 9:45 25.t 26.7 1.1 46.7 76 1.U D1 SIM/2O247:27 47.4 32.2 0.1 20.3 56 -0.12 D2 5l14l2O24 9:27 47.6 28.9 o.2 29.3 u -0.28 D3 shal2o2a93o 54.1 34.2 0.1 11.5 80 -7.42 D4 Sl14l2O24 9:32 444 33.4 0.1 22.7 82 -0.54 D5 Sl14l2O24 9:33 45.3 33.4 0.1 27.2 85 -0.51 D6 511412024 9:35 46.5 34.9 0.3 18.3 74 -0.61 D7 5174120249:37 3t.2 31.9 0.1 36.8 u 1.13 D8 5l14l2O24 9:4O 17.7 25.6 o.2 56.5 78 1.38 D9 5h4120249:42 10.3 10.9 72.7 55.1 80 -1.49 E10 S/7412024 9:5O 59.9 37.4 0.3 2.4 a2 1.85 E11 S/14120249:47 7.6 9.3 18.9 u.2 82 -7.il E1 511412024 7:3O 49.8 32.5 0.1 17.6 56 -10.72 E2 5lt4l2O24 rO:M 39.s 26.7 0.s 33.3 70 -0.29 E3 5l14l2O24 lO:.O2 8.1 7.1 15.3 59.5 a2 -0.33 E4 Sh4/2O24lO:07 48.5 34.0 1.0 16.5 80 t.01 E5 5114120249.,38 47.7 35.8 0.1 17.0 u -0.91 E5 5/74/20249:56 45.5 34.9 0.1 18.5 86 -o.67 E7 S/74/20249,,55 50.0 35.0 0.3 74.7 88 t.77 E8 517412O24 9:53 51.6 35.4 0.2 72.8 80 1.80 E9 sh4l2o2a9:57 50.9 35.3 0.1 12.7 82 -2.05 F10 5lL4l2O24 LO:.2O 51.0 35.3 0.5 73.2 u -2.82 F11 5h4/2o24 Lo:22 s9.3 39.0 o.2 1.5 79 -1.69 F1 517412024 7:32 50.3 33.0 0.8 15.9 60 -0.20 F2 SlLal2O2a LO:OS 46.4 29.2 o.2 24.2 80 -0.33 F3 5/L4l2024lO:O7 48.5 31.0 0.3 20.1 80 t.22 F4 Slt4l2O24lO:O9 50.4 31.7 o.2 77.7 76 -o.77 F5 5lL4l2O24 lO:LL 53.5 34.8 0.8 10.8 70 r.95 F6 Slr4l2O24 tO:L3 39.5 33.5 0.1 26.4 72 -o.s7 F7 Sl14l2O24 10:16 57.O 39.1 0.1 3.8 70 1.33 F8 Sll4l2o24 l1:rl 55.8 39.1 0.1 5.0 90 -3.32 F9 5lL4l2024 rO:79 43.7 34.1 0.4 21.8 80 -2.82 G10 5l14l2O24 LO:Za s1.6 37.8 0.1 10.5 u -5.15 G11 5l14l2O24 10:26 52.2 38.5 0.1 9.2 80 -3.29 G12 Sll4l2024 lO:24 59.3 39.0 0.1 1.5 80 -6.94 G1 Sl74l2024 7:34 29.0 27.6 0.1 43.3 66 -o.21 G2 Slt4l2124 lO:47 34.5 26.8 0.1 38.5 70 -0.4s G3 Sl!412024 lO:38 7.6 12.9 10.0 69.5 90 -o.27 G4 5/L4l2O24 tO:37 35.0 28.3 o.2 35.S 7A -o.44 G5 5/r412O24 lO:35 35.1 26.t 5.3 31.5 80 -o.42 G5 Sl1412024 LO:14 50.7 37.4 0.1 11.8 86 -0.30 G7 S|L4/2O24 lO:32 47.4 34.2 3.3 15.1 82 NM G8 5lL4l2O24 Lo:31,s1.4 35.S 2.5 9.5 u -1.59 october 30, 2024 24002558.001A/SLC24R 174170 O 2024 Kleinfelder Trans-Jordan Landfi!! Landfill Gas Collection System Wellhead Monitoring May 2021 Well lD Date / Time cH. (%)co, (%)o, (%)Balance Gas (% Nr) Temperature fF) Static Pressure (inches HuO) G9 5/r412024 rO:29 56.6 38.6 0.1 4.7 82 2.86 H11 5lt4l2O24 rO:59 49.8 37.7 0.1 13.0 102 2.U H1 Sl74/2024 7:36 33.2 26.4 0.0 40.4 62 -o.27 H2 5l14l2O24 10:45 t6.4 24.4 0.1 59.1 86 -0.30 H3 5lt4l2O24 LO:46 15.2 23.8 0.1 60.9 74 -0.40 H4 5/1412024 10:48 6.4 6.5 t7.9 69.2 u -o.44 H5 5/14/2O24 lO:49 28.1 29.9 0.3 47.7 u -o.47 H5 5/1412024 rO:5O 5.4 6.0 19.5 69.0 80 .0.52 H7 5l14l2O24 lO:52 54.4 38.0 0.6 7.O 100 2.44 H8 Slul2o2a LO:53 52.7 38.0 1.5 7.8 i00 1.98 H9 5ll4l2}24 10:56 51.l 37.5 o.2 tl.2 96 -4.U H-r 11V Sll4l2}24 1l:O2 55.5 38.8 0.3 44 7A -6.11 H-I6V Sll4l2O24 t7:14 57.S 41.3 0.2 1.0 7a 1.09 H-I7V 5lr4/2O24 tl:rz 58.5 40.7 0.1 o.7 80 -5.\7 H-I8V 5/ul2O24 rL:.7L 50.s 39.1 o.2 o.2 90 -6.34 H-I9V Sl14l2O24 ll:O9 59.4 397 0.1 0.8 80 -6.06 r10 5/75/2O247:25 3.0 3.0 20.2 73.8 50 L.O2 r11 Sl75l2O24 7:29 55.2 37.3 0.8 5.7 92 2.47 t1 5/74120247:37 40.2 28.8 0.0 31.0 58 ,0.34 t2 517512024 7:06 10.7 22.O 1.8 65.5 37 -0.36 r3 5175120247:O9 47.7 33.9 0.1 24.9 40 .0.34 t4 5h5/2O247:12 52.4 35.3 o.2 t2.l 84 1.85 r5 S/75/2024 7:74 49.7 32.4 2.6 1S.3 39 -o.72 r6 5175120247:79 52.8 36.7 0.8 9.7 110 -2.a6 t7 5/lSl2O247:21 54.1 37.0 0.3 8.6 108 .4.50 r8 5lLSl7O247:23 56.4 38.2 0.1 5.3 110 -4.60 t9 5ll5/2O247:25 50.7 37.3 0.1 11.9 to7 4.23 .J10 5lrSl2O247:34 57.4 38.3 0.6 3.7 100 -4.08 J11 S/rSl20247:31 57.3 37.3 0.1 5.3 100 -4.51 J1 5114/2024 7:39 38.5 28.6 0.2 32.7 50 -0_52 J2 5115/2024 7:5O 54.5 37.6 0.3 7.5 86 -0.31 J3 5h5120247:48 58.7 40.0 0.1 1.2 94 1_85 )4 5115120247:47 57.7 39.9 0.1 2.3 90 r.27 r5 5/7512O247:45 s7.4 39.9 0.1 2.5 to2 4.03 l6 517512024 7:.43 s3.7 39.8 0.0 6.5 110 -3.51 t7 5/75120247:4O 55.1 40.2 0.1 4.5 110 -4.1,7 J8 517512024 7:38 55.2 40.3 0.1 3.4 108 -4.72 t9 5115120247:36 55.7 38.9 0.3 5.1 106 -3.16 K10 5175l2O24 8:25 s7.1 39.4 0.1 3.4 100 4.37 K11 5h512O248:27 57.3 40.5 o.2 2.O 82 -4.35 K1 517412O247:41 0.6 1.0 20.1 78.3 u -0.14 K2 5/7512O24 8:O9 45.7 31.3 0.4 22.6 u r.20 K3 517512024 8:1r 52.5 35.3 1.3 10.8 99 -2.54 K4 5/L5/2024 8:73 55.2 392 0.1 4.5 toz -3.40 K5 5lrSl2O24 8:75 55.5 40.0 0.1 4.4 110 -2.99 K6 5lt5l2O24 8:77 52.7 40.1 0.4 74 95 -3.18 K7 5lrSl2O24 8:19 45.8 35.8 1.8 15.6 100 -5.23 K8 5l15l2O24 8:22 55.1 42.4 0.3 2.2 60 1.83 K9 slLSl2O2a 8:23 49.5 37.6 1.3 11.S 100 -3.94 110 5/7512024 8:32 s6.8 40.9 0.4 1.9 95 -3.11 L1 511,4120247:48 55.5 37.8 0.9 4.7 64 -3.74 L2 5l15/2024 9:O4 57.7 40.9 0.1 1.3 70 -0.40 L3 5h512O249:O2 57.6 41.0 0.1 1.3 98 t.46 L4 5l1Sl2O24 8:57 53.7 38.3 1.1 5.9 110 -2.25 L5 shSl2O2a8:53 s2.2 39.9 1.9 6.0 110 -4.39 L6 5/75/2024 8:48 15.3 12.0 15.1 57.6 85 -0.66 L7 sl7sl2o2a 8:a3 53.s 40.5 t.2 4.8 t14 1.76 5of18 october 30, 2024 24002568.001vSIC24R174170 O 2024 Kleinfelder Tans-rordan Landfill Landfill Gas Collection Systom Weflhead ilonitoring ltay 2021 Well lD Date / Timo cH1(%)co, (%)ozl%l Balance Gas (% Nr) Temperaturc fF) Static Prcssurp (inches H20) L8 317512024 8:39 54.5 40.4 0.1 4.9 110 -3.42 L9 3/LS/2024 8:35 s6.s 40.4 0.1 3.0 tu -4.36 M1 517412024'7:52 59.1 38.2 0.1 2.6 80 -0.39 M2 5/14120247:53 12.8 19.1 M.A s3.3 60 -0.45 N1 5174120247,57 s3.3 38.5 0.3 7.9 52 -0.42 N2 Sl74l2O24 8:58 58.8 40.3 0.1 0.8 57 4.93 o1 Sh4l2O248:OS 31.8 24.2 7.5 36.5 62 2.51 o2 911412024 8:O7 36.0 25.5 8.0 30.5 47 .4.29 P1 S/74/2024 8:7O 54.1 39.1 0.2 5.6 70 7.77 P2 517412024 8:73 57.2 40.7 o.2 1.9 57 -o.97 Q1 Sl74l2O24 8:17 50.1 38.9 0.5 10.5 80 -o.42 o2 517412024 8:79 20.3 r.5.9 72.5 51.3 52 -s.27 R1 Sl14l2O24a:23 33.6 33.s 0.2 f2.7 78 -0.34 R2 511412024 8:26 48.1 43.6 0.4 7.9 55 -o,44 s1 511412024 8:29 43.3 37.8 0.5 18.4 50 -0.28 6of18 october 30, 2024 240025 58. 001A/SLC24RI7 471 O O 2024 Kleinfelder TransJordan Landfill Landfill Gas Collection System Wellhead Monitoring June 2024 Well lD Date / Time CH. (%)cor(%l ozl%l Balance Gas (% Nr) Temperature ("F) Static Pressure (inches H2O) A1 6l7tl2O24 9:36 49.3 36.6 0.0 14.1 94 -o.72 A2 6l7t/2O24 9:33 54.9 39.7 0.1 5.3 88 .0.05 A3 6l7tl2O24 9:29 41.1 26.0 5.7 27.2 96 .0.13 A4 6/7712O24 9:26 53.8 36.2 0.1 9.9 74 -0.51 B1 6l7tl2O24 9:41 26.8 30.3 0.1 42.8 78 ,0.23 B2 6/7712024 77:09 50.8 35.3 0.1 13.8 u -0.14 B3 617712O24 t7:lt 55.2 36.1 0.1 8.6 104 -0.08 B4 617712O24 77:11 51.9 33.9 2.4 t1-.4 100 -0.05 B5 6hll2O24 77:16 60.6 36.9 0.1 2.4 LOz -0.07 C1 6l77l2o2a 9:a5 38.0 29.4 0.1 32.s 90 -0.21 c2 617712024 72:44 o.7 0.9 18.4 80.0 106 -0.02 c3 6l77l2O2a 72:a2 53.4 34.4 o.2 11.6 108 -0.14 c4 617712074 72:39 46.9 32.5 0.6 20.0 u 2.18 D10 611712024 L3:OS 27.t 23.7 1.1 54.7 96 1.44 D11 6lLL/2O24 73:07 30.7 28.3 o.4 40.5 85 1.52 D1 6hrl2O249:sl 30.1 30.9 0.0 39.0 94 -0.26 D7 6hL/2o24 72:46 44.8 29.8 o.2 25.2 104 "0.10 D3 617 12024 t2:48 54.2 34.5 0.1 11.1 80 1.20 D4 617 12024 12:52 46.L 34.0 o.2 79.7 104 -0.25 D5 6/1 /2024 72:53 46.0 33.8 0.2 20.0 105 -o.22 D6 617 12024 12:56 s2.4 35.5 2.t 9.9 90 -0.43 D7 6l 12024 12:59 3S.3 32.2 0.1 32.4 104 -0.94 D8 617 12024 l3:Ol 2S.3 27.7 0.2 45.8 90 7.23 D9 6l 12024 l3:M 19.6 t7.2 7.3 55.9 90 7.40 E10 517 12024 13:73 38.8 24.8 5.3 30.1 100 7.72 E11 6//2024 L1:7O 0.3 0.8 18.9 80.0 100 1.52 E1 617 12024 9:55 43.2 32.0 0.1 24.7 90 -0.28 E2 6/12024 73:30 46.2 31.3 o.2 22.1 86 -0.05 E3 617 12O24 73:28 1.3 1.5 18.3 78.9 108 -0.09 E4 6/12O24 73:26 48.6 34.6 0.6 76.2 84 -0.69 E5 617712024 73:22 32.6 20.6 7.3 39.5 100 -0.30 E6 6/71/2O24 t3:2O 55.4 38.6 0.1 5.9 104 -0.36 E7 617 12024 73:18 48.0 36.2 0.3 15.5 94 1.60 E8 6/12024 73:16 57.7 36.5 0.1 1L.7 80 1.60 E9 6t 12024 r3:rS 51.5 36.3 o.2 12.0 80 1.91 F10 6l /2024 73:49 49.3 34.8 0.5 15.4 80 -2.58 F11 611112024 13:53 56.3 36.8 o.2 6.7 105 1.45 F1 6lLrl2o2a 9:58 2s.6 27.9 0.1 46.4 95 -o.17 F2 6t l2o2a 7f:32 444 27.5 o.2 27.9 108 -0.12 F3 6//2024 Lf:34 48.9 32.0 0.2 18.9 90 1.00 F4 6t 12024 13:35 57.L 35.9 0.1 6.9 98 -0.38 FS 6l /2024 11:38 54.8 35.9 0.5 4.7 80 1.63 F6 6llll2O24 13:47 s2.6 36.0 0.1 11.3 80 -0.25 F7 6/LLl2O24 13:44 58.5 40.5 0.1 0.9 100 -1.03 F8 611l/2O24 13:46 55.1 39.6 0.1 5.2 94 -3.05 F9 6h1l2O2a B:47 45.1 35.0 0.3 19.6 82 -2.57 G10 611212024 8:7O 54.2 35.4 0.1 9.3 u -5.16 G11 6h2l2o2a8:oB 53.9 38.0 0.3 7.4 86 -3.21 G12 611212O24 8:OS 59.7 40.0 o.2 0.1 84 -6.91 G1 611112O24 1O:O7 21.2 2s.2 0.0 53.6 92 -0.39 G2 6/7212O24 a:28 31.6 26.7 0.3 42.O 70 -0.s5 G3 6/72/2o2a 8:2s 3.5 5.5 13.8 77.2 95 -0.40 G4 6/1212O748:.23 3s.3 28.9 0.1 35.7 80 -0.56 G5 6172/2O2a 8:2o 38.0 25.9 5.9 30.2 88 -0.51 G6 6/72/2024 8:78 56.7 37.9 0.1 5.3 94 -0.36 G7 6lL2l2O24 8:t6 52.5 35.6 1.7 10.2 u t.79 G8 6ll2l2O24 a:L4 32.6 20.5 8.8 38.1 94 1. SS 7of18 October 30, 2024 24002568.001A/S1C24R174170 O 2024 Kleinfelder TransJordan Landfill Landfil! Gas Collection System Wellhead Monitoring June 2024 Well lD Date / Time cHlft)co, (%)ozl%l Balance Gas (% Nr) Tempeaturr fF) Static Pressuio (inches HrO) G9 6h212O248:72 56.2 35.4 o.1 7.3 90 -2.80 H11 611212024 8:53 s2.7 39.2 0.0 8.1 86 2.68 H1 6hI12024 7O:O3 13.2 24.O 0.1 62.7 88 -0.49 H2 61721202a 8:29 14.9 24.O 0.1 61.0 80 -0.39 H3 6/121202a833 13.0 23.s 0.1 53.4 7A -0.41 H4 6/72/20248:34 1.3 1.8 77.8 79.r 86 -0.58 H5 617212O24 8:f7 33.2 51. b 0.1 35.1 86 -0.34 H5 6/721202a839 5.2 5.0 7t.9 7L.9 82 -0.51 H7 617212024 8:4O 53.0 38.5 0.9 7.6 100 -2.50 H8 6172120248:43 51.8 36.1 1.3 10.8 100 2.00 H9 617212024 8:45 52.4 37.5 o.2 9.9 96 -4.70 H-r11V 6h212o748:s6 57.0 38.9 0.3 3.8 80 -5.70 H-t5V 6lL2l2O24 9:OS 57.3 40.1 0.1 2.5 u t.22 H-I7V 6172/2O24 9:03 s7.s 40.2 0.1 2.2 88 -6.26 H-t8V 6/7212O24 9:O2 58.1 39.8 0.1 2.0 78 -6.30 H-t9V 6/7211o24 9:oo 58.4 39.3 0.1 2.2 70 -6.21 t10 617212024 lO:M 1.1 L.2 L7.2 80.5 98 1.88 r11 517212024 70:45 54.3 17.4 1.0 7.3 90 -3.28 t1 6l7ll2O24 7O:O5 36.8 28.9 0.1 34.2 78 -o.62 t2 6hzl2O249:O8 70.2 20.9 t.7 67.2 82 -0.49 t3 6ll2l2O24 9:17 o.2 0.5 18.0 81.3 96 -0.48 t4 6h212O249:r3 51.2 36.9 o.2 11.7 88 2.31 r5 6ll2l2024 9:L5 39.8 27.7 5.5 27.O 94 1.13 t6 6h2/2o249:r7 s2.0 17.9 0.5 9.5 104 -3.72 l7 6ll2l2o24 70:39 57.8 5.5 0.5 36.2 100 -5.61 t8 6l12l2O24 70:47 55.4 37.4 o.2 5.5 100 -5.53 t9 6h212O24 70:42 50.6 37.O 0.2 t2.2 98 -5.14 110 6lL2l2O24 12:4O 55.6 36.7 0.4 7.3 ro2 -4.88 111 6lL2l2o24 72i37 58.4 38.8 0.3 2.5 100 -5.57 J1 6llll2O24 7O:O7 36.2 28.6 0.4 34.8 76 -0.86 J2 6h212O24 72:56 53.6 17.2 0.1 9.1 90 -0.20 J3 6/L2l2O2a LZ:SS 55.3 38.9 0.1 5.7 95 1.97 J4 6lL2l2O24 72:54 58.4 39.7 0.0 1.9 90 1.35 l5 6h212O24 t2:57 s3.4 38.9 0.3 7.4 1M -4.72 l5 6lr2l2O24 72:50 54.5 39.3 0.s 5.6 110 -4.27 J7 611212024 72:49 55.4 39.4 0.1 s.1 110 -4.85 J8 6l\212024 12i47 55.5 39.2 0.1 5.2 110 -4.86 J9 6h2/2o2472:44 5S.4 39.S o.4 4.7 102 -3.35 K10 6h212O24 t3:77 57.0 40.3 0.1 2.5 100 -5.18 K11 6/1212024 73:13 56.7 40.1 0.8 2.4 86 -5.14 K1 6hLl2O24 LO:O9 0.4 o.7 18.1 80.8 78 -0.25 K2 6lt2l2O24 12:58 47.3 33.1 0.3 19.3 82 1.33 K3 6lt2l2O24 12:59 51.2 34.2 1.1 13.5 98 -2.98 K4 611212024 l3:OI 55.1 39.0 0.1 s.8 100 -4.11 K5 6h212024 l3:Oz 55.3 39.4 0.1 5.2 110 -3.68 K6 6h212O24 B:oa 45.5 37.5 0.4 15.5 88 -3.81 K7 6/72/2024 13:06 44.4 36.0 1.S 18.1 100 -5.14 K8 611212024 l3:Oa 55.4 41.9 0.1 2.6 94 -2.32 K9 511212024 l3:7O 45.5 34.6 1.8 18.1 98 -4.A2 110 6lL2l2O24 13:75 54.7 37.7 0.5 7.1 100 -3.70 L1 6h1l2124 tO:72 55.5 38.3 0.9 5.3 88 -4.68 L2 6l72l2o2a B:4t 5S.3 37.2 0.1 7.4 82 -0.31 L3 6h21202a1337 57.O 39.7 0.1 3.2 t72 1.69 L4 611212O24 L3:33 54.0 38.1 0.9 7.O 106 -2.58 L5 6h212O2413:30 49.'t 39.1 t.4 9.8 100 -4.80 L6 6h2l2o2aB:26 o.7 1.1 t7.6 80.6 100 -0.58 L7 617212O24 13:23 51.6 39.6 1.1 7.'t 108 -2.70 8of18 october 30, 2024 24002568.001A/SLC24R77 477 0 O 2024 Kleinfelder TransJordan Landfil! Landfill Gas Collection System Wellhead Monitoring June 2024 Well lD Date / Time cH. (%)cor(%l Oz lolol Balance Gas (% Ne) Temperature fF) Static Pressure (inches H20) L8 6h2/2O2413:79 53.7 47.7 0.0 5.2 110 -4.72 L9 617212024 73:17 52.3 39.4 0.1 4.2 108 -4.88 M1 617112024 70:77 56.8 39.7 0.1 3.4 100 -o.7? M2 6/1,712024 7O:2O 6.4 t6.7 t1.7 61.2 80 -0.39 N1 617L12024 70:25 48.6 37.5 0.8 13.1 80 -0.50 N2 617112024 70:28 57.5 40.9 0.1 1.5 53 -5.75 o1 6/77/2024 10:33 32.1 24.3 6.8 36.5 80 2.43 o2 6h1/2O24 70:36 57.1 42.O 0.1 0.5 62 -s.55 P1 617712024 7O:4O 52.3 39.3 0.1 8.3 72 7.92 P2 6ht/2O24 tl4a 55.8 41.3 0.2 2.7 94 1.03 Q1 6llll2O24 lO:5O 46.9 38.0 0.6 14.5 u -o.44 Q2 slrt/2o24 to:53 20.4 r.5.9 10.8 52.9 64 -5.83 R1 6lLll2O24 LO:58 29.1 32.1 o.2 38.6 u -0.18 R2 6/71/2024 ll:Ol 46.7 45.8 0.3 7.4 94 -0.40 S1 6/7r/2024 rt:OS 39.7 37.9 0.5 27.9 68 -0.27 9of18 octobef 30, 2024 24002558. 001A/SLC24R77 4 t7 O O 2024 Kleinfelder TransJordan Landlill Landfill Gas Collection System Wellhead ilonitoring July 2021 Well lD Date / Time cHl (%)co2 (%)oz(fhl Balance Ga; (% Nr) Temperature fF) Static Prcssure (inches H20) A1 7 /912024 8:50 59.2 38.1 0.0 2.7 94 {.07 A2 71912024 8:46 58.5 39.2 0.0 2.3 90 -0.02 A3 71912024 8:43 55.5 34.4 2.O 8.0 98 -0.07 A4 71912024 8:43 55.6 34.S 1.9 8.0 82 -0.08 B1 719120248:53 37.2 31.S 0.0 31.3 80 -0.14 B2 7 /9/2024 tO:46 54.1 34.3 0.1 11.5 90 -0.09 B3 7 l9l2124 10148 60.5 37.6 0.1 1.8 7U -0.06 B4 719/2024 7O:5O 57.7 36.0 7.7 9.6 100 -0.04 B5 719/2o2a Lo:s3 62.4 36.9 0.1 0.6 702 -0.02 c1 71912024 8:56 45.7 31.2 0.0 23.1 86 -0.12 c2 71912024 10:59 !.7 1.5 21.3 75.4 106 -0.06 c3 7 l9/2O24 1O:56 5 2.1 34.1 o.2 13.6 110 -o.77 c4 71912024 70:55 53.2 35.0 0.1 t7.7 98 -1.46 o10 71912024 tL:t1 43.3 31.1 0.2 25.4 1L2 -0.89 D11 71912024 1r'.19 26.9 29.6 0.2 43.3 96 -0.91 D1 71912024 9:00 54.2 35.9 0.0 9.9 94 -0.13 D2 719/2024 1L:01 44.4 29.9 o.2 25.t 100 -0.14 D3 71912024 tL:O4 53.9 33.8 0.1 L2.2 u -0.97 D4 71912024 1L:05 53.5 35.7 0.2 10.5 105 -0.14 D5 719/20?4 7L:07 s6.2 37.7 0.1 6.0 110 -0.13 D6 7 l9/2O24 7r:09 51.3 37,9 0.0 10.8 106 -0.26 D7 71912024 1L:72 24.9 30.5 0.0 40.6 106 -0.55 D8 7 l9l2O24 tl:74 t7.4 26.1 0.1 56.4 98 -0.85 D9 71912024 tL:16 27.3 27.4 2.3 43.0 110 -0.89 E10 7 /9/2024 72:79 49.4 30.5 3.8 16.2 106 -1.08 E11 7 l9l2O24 12:77 0.3 0.3 21.4 78.0 110 -0.89 E1 71912024 9:O5 52.0 33.5 0.1 L4.4 90 -0.16 E2 7 /9/2024 72:36 46.4 29.7 0.1 23.8 98 -0.05 E3 71912024 72:34 29.6 25.3 2.0 43.1 115 -0.11 E4 719/2024 t2:32 49.7 33.8 0.5 16.0 90 -0.54 E5 7 /9/2024 72:29 38.1 25.5 6.0 30.4 108 -o.22 E6 719/2024 t2:26 52.5 36.6 o.2 10.7 110 -o.23 E7 71912024 t2:24 48.7 35.1 0.2 16.6 92 t.29 E8 7 /912024 t2:23 51.0 35.3 0.1 13.6 92 -1.1 1 E9 71912024 12:27 50.4 34.9 0.2 14.5 96 -L.32 F10 71912024 73:O3 50.5 35.6 0.6 13.3 82 -t.97 F11 7 l9/2O24 t3:O5 58.9 38.1 o.4 2.6 108 -0.91 F1 71912024 9:O9 33.0 28.3 0.0 38.7 90 -o.27 F2 7 l9/2O24 t2:48 o.2 0.3 22 77.5 112 -0.10 F3 71912024 72:57 48.8 32.1 o.4 78.7 106 -0.78 F4 71912024 72:53 57.4 35.4 0.1 7.7 90 -0.32 F5 7 l9/2O24 72:55 55.0 3S.5 0.5 7.9 84 -1.38 F6 719/2024 72:56 38.6 33.6 0.1 27.7 106 -0.25 F7 7 /9/2024 12:58 57.4 40.1 0.0 2.5 88 -o.77 F8 71912024 l3:OO s4.7 38.9 0.0 6.4 90 2.54 F9 71912024 73:Ot 53.7 38.2 1.0 7 .1)u -2.00 G10 7 llOl2O24 8:LO s2.s 35.1 0.1 12.3 86 -5.17 G11 7 llOl2O24 8:O8 51.1 35.1 o.7 13.1 u -3.57 G12 7 ltOl202a 8:06 60.0 38.0 o.2 1.8 86 7.28 G1 71912024 9:12 28.8 26.A 0.0 44.4 100 -o.22 G2 7l1Ol2O24 8:25 32.8 25.9 0 41.3 78 -0.58 G3 7l1Ol2O24 8:2O 20.4 26.4 0.1 53.1 95 -0.45 G4 7 l1Ol2O24 8:79 33.2 27.6 o.2 39.0 90 -0.63 G5 7 l7Ol2O24 8:78 29.3 20.9 8.2 4L.6 88 -0.77 G6 7 ltO/2O24 8:76 49.3 34.5 o.2 1S.9 94 -1.40 G7 7 l7Ol2O24 8:75 50.5 33.7 2.2 13.6 94 2.03 10 of 18 october 30, 2024 TransJordan Landfill Landfill Gas Collection SyEtem Wellhead Monitoring July 2024 Well lD Date / Time cH. (%)co, (%)ozlohl Balance Gas (% Nz) Temperature fF) Static Pressure (inches H2O) G8 7 lLO|2O24 8:t3 22.7 t4.4 9.1 54.4 92 1.84 G9 7 llOl2O24 a:12 58.1 37.7 o.2 4.0 90 -3.24 H11 7 lLO|2O24 8:46 54.5 38.4 0.0 7.7 100 3.17 H1 7 l9/2O24 9:4 29.L 26.7 0.0 44.2 90 -o.26 H2 7 /7O12O24 8:27 22.O 25.L 0.0 52.9 88 -o.44 H3 7 lLO|2O24 8:3O 13.8 23.5 0.1 62.6 96 -0.45 H4 7lto12024a3L 3.5 4.9 19.6 72.O 94 -0.66 H5 7 hOl2024 8:33 23.2 28,0 o.2 48.6 98 -0.49 H6 7 1L012024 8:34 1.0 1.4 20.4 77.2 84 -0.82 H7 7170/2024a36 52 37.4 1.0 9.5 702 -2.77 H8 7 17Q12024 8:37 51.3 35.s 1.7 10.5 100 2.23 H9 7 ltOl2O24 8:39 51.4 36.0 0.6 12.0 98 4.79 H-r10v 7 l7Ol2O24 8:58 44.7 31.4 2.7 77.4 100 -5.13 H-t 11V 7 /\O/2O24 8:48 53.4 36.9 2.7 7.6 92 -6.13 H.I6V 7 llOl2O24 9:tO 57.6 40.1 0.1 2.2 90 4.29 H-t7V 7hO/20249:09 57.1 40.2 0.0 2.5 94 -5.28 H-t8V 7l70l2O24 9:O7 56.8 38.6 0.3 4.3 100 -5.34 H-I9V T ltOlZO2a 9:Oa 58.5 38.6 0.1 2.8 80 -6.77 r10 7 /\Ol2O24 9:16 o.7 1.0 27.2 77.1 104 -3.11 r11 7l70l2024 9:38 55.8 39.2 1.0 4.O 90 4.O7 t1 71912024 9:16 40.s 29.2 0.0 30.3 80 -0.37 t2 7 l7Ol2O24 9:13 8.2 20.5 1.9 69.4 70 -0.59 t3 7 l7Ol2O24 9:16 1.6 1.6 20 76.8 98 -0.60 6 7 /\O/2O24 9:18 49.7 33.9 o.2 76.2 90 -2.42 r5 7 /LO/2O2a 9:22 44.4 33.8 2.4 15.4 100 7.29 r6 7l1Ol2O24 9:25 50.3 36.5 o.7 72.5 104 3.88 t7 7l1Ol2O24 9:3O 55.1 39.1 o.2 5.6 106 -5.83 t8 7l1Ol2O24 9:32 56.7 40.1 0.1 3.1 108 -5.88 r9 7 /lO/2O24 9:34 49.1 38.2 0.0 12.7 108 -5.57 J10 7 /7O/2O24 9:43 56.4 39.5 o.7 3.4 96 -5.23 J11 7 lrOl2O24 9:47 56.7 39.7 0.0 3.6 90 -6.19 t1 71912024 9:tB 35.7 24.9 o.2 35.2 80 -0.54 )2 7hOl2O24 7O:OL 52.4 37.8 0.6 9.2 92 -0.51 l3 7llOl2O24 9:59 52.6 37.7 o.2 9.5 96 2.26 )4 7 /t012O24 9:55 57.3 40.5 0.0 2.2 86 1.66 J5 7 lLO|2O24 9:54 55.9 40.7 0.1 3.3 104 -4.98 J6 7 lt1l2l24 9:57 54.0 40.7 0.0 5.3 t72 -4.46 )7 7 lLO|2O24 9:5O s5.0 4t.2 0.0 3.8 108 -5.14 J8 7 lLO|2O24 9:48 55.5 4t.2 0.0 3.2 104 -s.72 J9 7 llOl2O24 9:46 54.5 39.2 0.3 6.0 71.2 -4.57 K10 7l7O/2O24 70:54 56.9 4t.7 0.0 2.O 100 -6.L7 K11 7 /LO/2O24 7057 s6.1 40.2 0.4 3.3 84 -6.t7 K1 71912024 9:!9 2.0 2.6 20.7 74.7 u -0.15 K2 7/7O/2O24 70:39 44.2 30.5 0.5 24.8 88 r.64 K3 7ltOl2O24 70:41 s0.9 34.7 t.4 13.0 100 3.34 K4 7hO/2O2410:42 54.6 39.9 0.1 5.4 100 -4.51 K5 7lrOl2O24 LO:44 54.6 40.2 0.1 s.1 110 -4.11. K6 7l7Ol2O24 10:46 42.5 36.9 0.6 20.0 90 4.32 K7 7/7O/2O24 70:48 42.O 35.4 1.8 20.8 88 -5.83 K8 7 l7Ol2O24 lO:5O 54.8 42.9 0.1 2.2 100 2.78 K9 7/7O12O24 LO:52 44.4 36.0 2.O 17.6 LOz -5.30 110 7/tO/2O24 tO:59 52.1 39.1 o.7 8.1 94 4.55 L1 71912024 9:23 55.9 38.0 0.8 5.3 70 4.01 L2 7l1O/2O2a t:26 s6.8 40.3 0.1 2.8 86 -0.75 L3 7lLO|2O24 LL:24 57.t 40.3 0.1 2.5 100 2.16 L4 7l1Ol2O24 Ll:27 52.8 38.s 1.1 7.6 tL4 3.11 24002568.001A/SLC24R 174170 @ 2024 Kleinfelder October 30, 2024 24002558.001A/S tC24Rt7 477 O @ 2024 Kleinfelder TransJordan Landfill Landfill Gas Collection System Wellhead Monitoring July 2O24 Well lD Date / Time cH. (%)co, (%)oz lohl Balance Gas (% Nr) Temperature ('F) Static Pressure (inches HzO) L5 7hOl2O24 t1:77 49.8 39.0 7.7 9.5 172 -5.48 L6 7 l1Ol2O24 Lt:L3 8.8 6.6 20.1 64.5 105 -0.90 L7 7 hOl2O24 t7:08 5t,7 40.5 0.9 6.9 Ltz -2.59 L8 7 /LO/2O24 rL:05 52.8 41.8 0.0 5.4 108 -4.75 L9 7 lr0l2o24 Ll:O2 5L.7 39.9 0.1 8.3 108 -5.91 M1 71912024 9:28 59.1 39.4 0.0 1.5 94 -0.41 M2 71912024 9:3o 6.3 15.3 15.9 51.5 84 -o.26 N1 71912024 9:35 54.3 39.7 o.2 5.8 80 -0.70 N2 71912024 9:37 58.1 40.7 0.1 1.1 70 -4.57 o1 71912024 9'.42 35.7 25.7 7.4 37.2 80 -0.69 o2 71912024 9:44 57.L 41.8 0.1 1.0 68 -4.51 P1 71912024 9:49 55.7 39.0 0.1 s.2 76 -4.67 P2 7l23l2OZ4 9:L7 58.6 40.7 0.0 o.7 w -0.48 Q1 7 /912024 9:56 52 39.4 0.2 8.4 90 -0.29 Q2 7 l9/2O24 LO:OO 30.8 24.7 8.4 36.7 76 -4.53 R1 719/2024 lO:04 35.5 33.9 o.2 30.4 u -0.11 R2 7 /9/2024 10:06 49.7 44.8 0.1 5.4 94.O -o.29 S1 7 1912024 t}:LO 43.9 37.4 0.5 t8.2 80.0 -0.20 12 of 18 october 30, 2024 24002568.00 1A/SLC24RL7 4t7 O 0 2024 Kleinfelder Trans-Jordan Landfill Landfil! Gas Collection System Wellhead Monitoring August 2024 Well lD Date / Time cH1(%)co, (%)o2lo/ol Balance Gas (% N' Temperature ("F) Static Pressure (inches H2O) A1 al6l2O248:M 59.3 39.0 0.0 7.7 82 -0.08 A2 816l2o2a7:s8 s9.6 39.7 0.0 o.7 80 -0.02 A3 81612O247:.53 s0.9 30.9 3.9 14.3 86 -0.0s M 8/5/2O247:51 s8.9 35.9 0.0 5.2 80 -0.35 B1 8/612O24 8:O7 45.3 33.0 0.0 20.7 80 -0.16 82 8/612O24 9:41 56.9 36.0 0.0 7.7 85 -0.10 B3 81612O24 9:42 59.7 37.5 0.0 2.8 96 -0.07 84 81612O24 9:45 50.5 33.7 3.4 L2.4 94 -0.05 B5 816/2O24 9:47 61.9 37.7 0.0 0.4 100 -0.04 c1 816/2O24 8:O9 50.0 32.1 0.0 t7.9 u -0.16 c2 8/612024 9:56 0.3 0.5 22.3 76.4 102 -0.09 c3 816/2024 9:51 57.7 34.9 0.0 7.4 108 -o.22 C4 8/6120249:5O s4.7 35.7 0.0 9.6 u 1.61 Dl0 al612024 70:19 13.0 79.7 2.2 65.1 100 t.64 D11 a/612O24 lO:27 2t.o 26.4 0.3 s2.3 100 1.69 D,I 816120248:73 s0.5 35.2 0.0 14.2 88 -0.20 D2 816120247O:O7 46.5 29.7 0.0 24.4 96 -0.20 D3 al5/2024 tO:O3 34.5 34.3 o.4 70"7 80 L.l4 D4 8/6120247O:OS 53.5 33.3 0.0 13.1 100 -o.42 D5 816120247O:O9 54.9 37.1 0.0 8.0 108 -0.39 D6 816/2024 tO:7O 54.8 38.0 0.0 7.2 94 -0.50 D7 81612024 lO:73 31.5 31.4 0.0 37.7 702 r.77 D8 al6/202470:75 15.3 24.O 0.9 59.8 98 t.49 D9 81612024 tO:77 13.9 18.5 6.8 60.8 100 1.61 E10 81612024 LO:27 41.7 26.2 6.6 25.5 100 1.95 El1 81612024 rO:24 0.4 0.9 22.O 76.7 100 r.77 E1 81612O24 8:76 52.2 34.4 0_0 73.4 80 -o.24 E2 81612024 10:44 37.7 27.9 0.0 34.4 88 -0.72 E3 8l6l2O2a 10:43 37.2 26.4 1_1 4L.3 100 -0.24 E4 816/2O24 7O:4O 50.9 34.5 o.7 13.9 88 -0.81 E5 8/612O2470:38 46.9 35.0 0.0 77.7 100 -0.49 E6 81612O24 70:35 52.5 37.5 0.0 10.0 90 -0.58 E7 816/2024 70:34 48.6 35.7 0.0 rs.7 90 1.80 E8 81612024 70:32 49.5 35.7 0.0 74.8 90 1.81 E9 816/20247O:3O 48.8 36.0 0.0 1S.2 90 2.15 F'10 81612024 Ll:O2 51.5 37.2 o.2 11.1 80 2.90 F11 816/202417:04 59.4 39.0 0.0 1.b 94 L.77 F1 81612024 8:78 37.6 28.4 0.0 34.0 96 -0.29 F2 815l2o24to:4s 26.2 t2.7 21.O 40.7 702 -o.17 F3 815/2024 rO:4a 49.0 32.1 o.2 74.7 88 1.03 F4 8/612024 LO:SO 57.0 35.9 0.0 7.\toz -0.60 F5 81612024 70:53 54.1 35.9 0.3 9.7 86 1.74 F6 8/612024 10:55 35.3 32.7 0.0 31.0 90 -0.50 F7 81612O2410:58 56.8 40.6 0.0 2.6 96 7.42 F8 8/61202410:59 55.4 39.7 0.0 4.9 85 -3.37 F9 8/612O24 7t:O7 43.4 35.3 0.1 27.2 82 -2.92 G10 Al612O24 72:17 51.4 37.4 0.0 10.8 86 -4.74 Gt1 81612024 72iO9 51.9 37.3 0.0 10.8 94 -3.40 G12 81612024 72:O4 58.8 40.3 0.0 0.9 90 -6.19 G1 8l5l2O24A:22 34.3 26.9 0.0 38.8 90 -0.30 G2 816/202472:25 36.8 27.9 0.0 35.3 u -0.08 G3 8/612024 72:23 34.0 29.8 0.0 36.2 110 -o.o7 G4 8/612024 t2:22 37.4 29.s 0.0 33.1 98 -0.23 G5 816/2024 l2:2O 35.1 26.6 6.6 30.7 104 -0.35 G6 81612024 12:74 46.4 36.9 0.0 75.7 96 -7.U G7 Al6l2O24 12:76 51.3 36.7 1.9 10.1 100 L.72 G8 8/612024 l2:r4 34.7 24.3 9.2 31.8 tt2 7.62 13 of 18 october 30, 2024 24002568. 00 1A/SLC2 4RL7 4L7 O @ 2024 Kleinfelder Trans.Jordan Landfill Landfill Gas Collection System Wellhead tonitoring August 202t1 Well lD Date / Time cH. (%)co, (%)Ozf/ol Balance Gar (% Nr) Temperature fF) Static PrEssurc (inches H2O) G9 8/6/2O2a 72:73 s6.7 39.5 0.0 3.8 92 3.26 H11 8161202472:M 55.3 40.6 2.3 1.8 \M -s.87 H1 816120248i25 22.4 27.O 0.0 50.6 88 -0.41 H2 81612024 12:27 18.3 24.6 0.0 57.1 104 -0.07 H3 81612024t2:29 t7.o 24.5 0.0 s8.s 102 -o.12 H4 Al6l2O24 t2:31 20.9 14.0 13.2 51.9 108 -0.23 H5 816/2o2a72:33 25.0 29.6 0.0 45.4 1(N -0.15 H6 81612024 12:.35 0.8 1.S 22.5 75.2 104 -o.42 H7 81612024!2:36 5t.7 38.6 o.7 9.0 102 2.37 H8 81612024 L2:38 50.8 38.6 1.3 9.3 99 1.91 H9 8161202412:39 52.5 38.3 0.5 4.7 96 -4.58 H-t10v 81612024 L2,,57 55.6 40.3 0.0 4.7 92 2.96 H-I1 1V 81612024 t2:49 57.2 40.4 o.0 2.4 90 -s.74 H-I6V 8161202413:OO 10.1 10.1 15.7 il.1 106 -5.57 H-I7V 816l2o2a 12:57 55.6 40.0 0.0 4.4 98 -5.SS H.I8V 81612O2412:56 57.5 40.0 0.5 1.9 88 -5.51 H.I9V 816/2024 72:54 55.7 38.4 0.0 5.9 80 -s.50 t'10 81712024 9:3O 0.3 0.5 22.6 76.6 106 2.37 1 81712O24 9:32 5S.8 39.4 1.1 3.7 98 -3.28 al512024a:28 4t.5 29.9 0.0 28.5 78 -0.55 2 81712024 9:O5 19.8 23.2 1.1 s5.9 70 -0.50 3 al7l2O249:ll 24.O 19.1 8.8 48.1 104 -0.52 14 8/712024 9:L3 s2.4 36.9 0.0 to.7 92 -2.15 t5 Al7l2O24 9:rS 12.7 22.8 9.3 35.2 105 -0.95 t6 81712024 9:lA 50.8 39.0 o.4 9.8 110 3.2s 17 Al7l2O249:2O 54.7 40.9 0.0 4.4 102 -4.80 t8 817120249:25 s6.3 40.9 0.1 2.7 100 -4.80 l9 al7l2O249:27 51.4 39.3 0.0 9.3 100 -4.71 J10 817 /2024 9:39 55.5 39.2 0.3 5.0 100 -4.66 J11 al7l2O24 9:35 36.7 40.4 0.0 2.9 98 -s.44 J,I 81612024430 35.2 28.8 0.0 36.0 80 -0.81 J2 81712024 tO:N 53.1 38.4 0.2 8.3 98 -o.27 J3 817120249:Sa 53.5 39.3 0.0 7.2 95 1.85 J4 81712024 9:SS 57.0 40.6 0.0 2.4 92 7.27 J5 81712024 9:54 55.5 41.5 o.2 2.7 104 -4.36 J6 8/7 12024 9:49 52.8 40.9 0.0 5.3 112 -3.8s J7 817 /2024 9:47 S3.S 41.0 0.0 5.5 106 -4.49 J8 8/7 /2024 9:44 56.4 42.7 0.0 1.S 106 -4.98 J9 8l'712024 9:47 s4.4 41.0 0.3 4.3 108 -3.14 Kl0 8l7l2o2a 7o:2a 56.0 41.4 0.0 2.6 104 -5.14 Kl 1 al7l2O24 70:26 56.6 41..7 0.0 7.7 90 -5.14 K1 81612O24 8:33 o.2 0.5 2L_7 77.6 82 -o.24 K2 81712024 7O:O2 47.O 33.0 0.0 20.0 86 L.26 K3 8nno247o:M s2.r 36.S 1.1 10.3 100 -2.42 K4 81712024 7O:!l s5.5 4t.2 0.0 3.3 100 -3.85 K5 8128120247127 s2.l 39.6 0.3 8.0 110 -4.27 K5 812812024 7:27 52.L 39.6 0.3 8.0 110 -4.27 K6 81712024 tO:73 M.l 38.3 0.3 17.3 90 -3.52 R7 8l7l2O24lO:75 43.9 37.6 t.4 17.1 98 .4.48 K8 8/712024 Lo:77 55.3 43.8 0.0 0.9 100 -2.L2 K9 81712024 tO:22 47.1 38.4 0.9 13.6 100 -4.89 L10 8l7l2O24 tO:29 55.8 42.5 0.1 7.6 94 -4.2t L1 81612O248:38 56.3 38.7 0.5 4.5 72 -4.80 12 8l7l2O2a t:OO 57.3 40.6 0.0 2.7 84 -0.33 L3 8n12024 LO'.58 53.6 39.2 0.0 7.2 100 -7.67 L4 81712024 Lo:s4 51.5 37.6 t.5 9.4 110 -2.54 L5 8l7l2O24lO:5O 49.2 39.2 L,7 9.9 110 -4.46 14 of 18 october 30, 2024 24002568.001A/SLC24R[7 4t7 O @ 2024 Kleinfelder Trans.Jordan Landfill Landfill Gac Collection System Wellhead Monitoring August 2024 Well lD Date I Time cH. (%)co, (%)oz (%)Balance Gas (% Nr) Temperaturu (oF) Static Prcssurc (inches H2O) L6 817/2024 70:45 5.8 4.3 20.t 69.2 106 -o.M L7 81712024 7O:42 s2.6 40.8 o.2 6.4 772 1.98 L8 81712024 70:37 s3.1 42.5 0.0 44 106 -4.06 L9 81712024 70:14 s4.8 43.2 0.0 2.O 106 -s.05 M1 816l2O2a8:42 58.2 39.5 0.0 2.2 92 -o.?4 M2 816120248:43 6.7 77.7 15.0 60.2 80 -0.64 N'l 8/6120248:48 51.1 39.4 0.4 9.1 76 1.14 N2 81612O248:5O 58.0 41.0 0.0 1.0 76 -5.53 o1 816/2O2a8:56 40.2 29.7 5.4 25.3 u -0.45 02 816120248:58 55.9 4t.5 0.0 1.5 79 -5.53 Pl 816120249:Ot s4.2 39.8 0.0 6.0 80 1.93 P2 816120249:OS s7.o 42.O 0.0 1.0 92 -0.94 Q1 8/6120249:tO 44.7 40.2 0.2 10.9 u -0.41 Q2 815/20249:13 26.7 21.9 9.8 4L.6 82 -5.21 R1 81612024 9:t7 34.9 3S.3 0.0 29.8 82 -o.2t R2 8/6120249:2O 49.6 45.1 0.0 5.3 89.0 -o.44 S1 816120249:24 42.3 38.2 0.4 19.1 84.0 -o.21 15 of 18 october 30, 2024 24002558.001A/SrC24R174170 O 2024 Kleinfelder TransJordan Landfil! Landfil! Gas Collection System Wellhaad tonitoring September 2024 Well lD Date / Time CH. (%)co, (%)oz(%l Balance Gas (% Nr) Temperaturc fF) Static Prcssurs (inches HrO) A1 913120249:33 58.9 41.0 0.0 0.1 80 -0.09 A2 913120249:30 58.9 41.1 0.0 0.0 78 -0.14 A3 91412024 72:37 53.3 39.4 0.6 6.7 94 -s.14 A4 914/2024 72:14 55.3 40.2 0.0 3.5 88 -6.23 B1 91312024 9:36 50.8 35.4 0.0 13.8 80 {.23 B2 9l4l2O2a'7:43 58.8 35.6 0.1 4.5 64 -0.31 B3 914120247:43 60.9 39.1 0.0 0.0 60 -0.35 B4 9lal2O24 7:47 49.5 33.1 4.0 13.4 54 -0.35 BS 91412024'l:SO 61.7 38.3 0.0 0.0 60 -0.23 c1 9/3120249:38 51.0 33.8 0.0 15.2 a2 -0.11 c2 91412024 7:59 0.3 0.5 20.4 78.8 64 -0.39 c3 9la/2O2a7:54 57.0 37.0 0.0 5.0 72 -0.53 c4 91412O24 7:53 55.7 38.1 o.2 5.0 74 1.96 D10 91412O24 8:22 4.3 13.3 8.5 73.8 80 2.13 D11 914120248:.25 27.9 28.3 0.6 49.2 76 2.22 D1 913/20249:42 58.3 38.8 0.0 2.9 80 -0.10 o2 91412O24 8:O7 48.8 29.s 0.2 21.5 54 -0.55 D3 91412024 8:O3 57.t 35.4 0.1 7.4 7A 1.59 D4 91412O24 8:06 54.8 35.9 0.0 9.3 74 -0.84 D5 91412O24 8:O8 54.5 36.3 0.0 9.1 70 -0.70 o6 91412O24 8:lO 52.1 38.9 0.0 9.0 70 -o.97 07 91412O24 8:13 33.5 32.7 0.0 33.7 78 1.55 D8 91412024 8:t6 16.2 26.3 0.3 57.2 80 1.98 D9 91412024 8:19 7.2 15.3 8.0 69.5 80 2.L\ E10 9lal2O2a 8:29 59.7 39.0 o.2 1.1 80 2.59 E11 91412O24 8:27 0.4 0.8 20.1 78.7 78 2.26 E1 91312O24 9:46 58.0 37.7 0.0 4.3 80 -0.03 E2 91412024 8:48 49.0 30.7 0.0 20.3 75 -0.57 E3 914/2024 8146 31.4 26.4 2.7 40.1 76 -o.72 E4 91412O24 8:44 51.3 34.8 0.9 13.0 84 1.40 E5 9/al2O24 8:47 39.1 30.5 3.0 27.4 84 -7.70 E5 9/412O24 8:37 49.1 36.8 0.3 13.8 u 1.09 E7 91412O24 8:36 49.3 36.7 0.2 13.8 90 2.32 E8 914120248:U 50.7 36.8 0.0 12.5 82 -2.47 E9 91412O24 8:3L 49.8 37.0 0.0 73.2 82 -2.77 F10 9la/20249:O9 51.5 37.3 o.6 10.6 80 -1.62 F11 91412024 9:11 59.9 39.8 0.1 o.2 74 -2.54 F1 9/3120249:48 47.7 31.4 0.0 20.9 7A -0.09 F2 9/412024 8:5O 0.6 0.7 20.4 78.3 78 -0.66 F3 9lal2O2a 8:53 51.1 33.2 0.5 15.2 80 1.58 F4 91412024 8:55 55.1 34.4 0.1 to.4 80 L.27 F5 91412024 a:59 52.9 34.2 1.0 11.9 80 -2.33 F6 914/7024 9:O2 35.0 32.8 0.0 32.2 84 1.19 F7 914/20249:M 58.5 41.5 0.0 0.0 80 -2.08 F8 91412024 9:06 54.8 40.4 0.0 4.8 80 -4,O4 F9 91412024 9:O7 45.9 37.3 0.3 16.5 80 -3.51 G10 91412024 9:44 52.7 38.9 0.0 9.0 80 -5.27 G11 91412024 9:3O 51.1 38.8 0.1 10.0 80 -4.28 G12 91412024 9:27 58.8 40.5 0.0 0.7 82 -7.t6 G1 9ltl2O24 9:52 48.3 32.2 0.0 19.5 82 -0.11 G2 914/?024 7O:O3 26.5 2s.9 0.0 47.6 78 -0.78 G3 91412024 7O:O7 20.1 26.2 0.0 53.7 90 -0.80 G4 914120249:59 37.7 29.7 0.1 39.1 u 1.03 G5 91412024 9:55 17.8 t3.7 L3.2 55.3 78 -1.25 G5 91412024 9:54 44.2 36.7 0.1 19.0 94 L.87 G7 914120249:Sl 49.4 35.5 2.7 12.3 80 -2.65 G8 91412024 9:49 36.5 26.8 7.3 29.3 88 -2.62 16 of 18 october 30, 2024 240025 68.00 1A/SLC2 4R77 417 O O 2024 Kleinfelder Tians-Jordan Landfi!! Landfill Gas Collection System Wellhead Monitoring September 2024 Well lD Date / Time cH1(%)co, (%)orl%l Balance Gas (% xrl Temperature ("F) Static Pr€ssuro (inches HzO) G9 9/412024 9:46 57,9 41.6 0.0 0.5 u -4.23 H11 9/4/2024 70:32 50.9 38.4 2.3 8.4 92 -6.62 H1 91312024 9:54 43.7 32.4 0.0 23.9 80 -0.15 H2 9/412024 IO:OS 18.8 25.4 0.0 s5.8 82 -0.83 H3 91412024 lA:O7 18.1 24.9 0.1 s5.9 88 -0.80 H4 91412024 7O:O9 4.2 3.2 ta.7 73.9 86 1.11 H5 91412024 70:13 22.3 27.7 0.3 49.'1 88 -0.85 H5 9/4/2024 70:75 o.2 o.7 20.2 78.9 u 1.32 H7 91417024 70:17 51.4 38.7 0.9 9.0 100 -3.27 H8 91412024 lO:L9 48.3 36.8 2.2 t2.7 100 -2.87 H9 91412024 lO:2L 54.4 39.7 0.0 s.9 96 -5.10 H-t10v 9/412024 rO:43 56.7 39.6 0.0 3.7 94 -3.90 H-r11V 91412024 LO:41 s8.5 39.7 0.1 l.'1 90 -6.17 H-I5V 9141202411:01 22.5 77.O 17.7 48.8 LU -5.36 H.I7V 9/412024 lO:59 57.3 4L.4 0.2 1.1 90 -6.32 H-I8V 9l4l2O24 tO:56 55.9 39.5 0.9 3.5 80 -6.26 H-I9V 91412024 lO:52 58.9 40.8 0.0 0.3 80 -6.50 t10 91412O24 L2:26 0.4 0.8 20.0 78.8 92 -2.90 r11 91412O2412:28 55.8 39.7 1.1 3.4 94 -4.59 91312024 9:56 43.1 31.5 0.0 25.4 7a -0.32 2 9/412024 L7:O7 13.9 23.0 0.9 62.2 84 -o.78 3 9/412024 17:73 3t.7 29.7 2.6 36.6 94 -0.84 4 9/412024 1l:LS 49.7 36.4 0.0 13.9 90 -2.75 5 91412024 72:15 9.1 5.9 16.7 68.3 88 r.42 t5 9la/2o2a 72:t7 51.4 38.2 o.7 9.7 110 -4.O2 t7 91412024 72:19 53.8 39.1 0.1 7.O 100 -5.57 t8 9lal2o2a 72:2r 56.7 40.3 0.0 3.0 98 -5.81 r9 914120247/24 52.4 39.8 0.0 7.8 92 -5.47 J10 9la/2o2a 72:aa 54.4 40.3 0.5 4.7 98 -5.19 J11 91417024 12:42 56.5 40.5 0.0 2.9 92 -5.20 )7 9/312O24 9:59 36.2 29.7 0.0 34.1 7A -0.55 )2 91412024 t2:58 53.5 39.0 0.1 74 88 -0.66 l3 9/al2O24 t2:57 s4.2 39.5 0.0 5.3 96 -2.64 J4 91412024 L2:55 57.6 40.7 0.0 t.7 90 t.79 l5 9la/2o2a 12:53 54.0 40.9 1.0 4.7 105 -4.80 J6 9la/2O2a Q:52 54.1 41.9 0.0 4.O 110 -4.70 J7 9/al2O2a L2:5O s5.3 41.8 0.0 2.9 110 -5.10 J8 91412O24 t2:48 55.4 4t.3 0.0 3.3 110 -5.70 l9 91412O24 12:46 53.9 40.4 1.1 4.6 108 -4.77 K10 91412024 1315 56.5 4t.4 0.0 2.7 106 -5.42 K11 9lal2o2a B:17 55.9 4t.2 o.2 1.7 94 -5.21 K1 9/312O241O:Ol 0.3 o.7 23.3 75.7 76 -0.13 K2 9/a/2o2a B:oo 45.4 31.8 o.2 22.6 84 -9.28 K3 9/412024 73:02 45.8 32.4 1.3 20.5 100 3.48 K4 9/412024 73:O4 55.2 41.0 0.0 3.8 100 -5.44 K5 91417024 73:06 54.1 41.7 0.0 4.2 102 -4.85 K6 9/allo2a 7308 43.4 38.4 0.5 17.7 90 -4.63 K7 91412024 73:09 42.6 36.9 t.7 18.8 100 -5.76 K8 9/a/2o2a B:fi 55.5 43.4 0.0 1.0 98 -2.97 K9 91412024 73:\3 47.O 38.4 t.2 13.4 100 -5.57 110 9/4/2024 73:20 55.4 41.5 0.3 1.8 96 -4.U L1 9l3l2o24lO:O4 54.t 37.9 t.2 6.8 70 -4.54 t2 914/2024 13:44 57.7 47.3 0.0 1.0 80 -o.79 L3 91412O24 13:41 58.0 41.3 0.0 0.7 102 2.30 L4 91412024 L3:38 50.7 37.5 2.2 9.6 71.2 -3.29 L5 9/412024 73:33 50.2 39.1 2.7 8.5 108 -5.66 L6 91412024 t3:3O 1.8 2.2 20.0 76.O 90 -o.78 17 of 18 october 30, 2024 24002558.001A/S1C24R174170 O 2024 Kleinfelder Trans.Jordan Landfill Landfill Gas Collection System Wellhead tonitoring September 2024 Well lD Date / Time cH. (%)co, (%)or (%)Balance Gas (% t{r) Temperaturc fF) Static Prcssurc (inchec H1O) L7 91412024 73:26 s3.7 42.2 0.3 3.8 108 -2.64 L8 9l4l2O2a B:24 s3.7 43.1 0.0 3.2 102 4.89 L9 91412024 13:23 55.3 42.2 0.0 2.5 100 -5.86 M1 9l3l2o2a LO:O9 58.6 41.4 0.0 0.0 86 -0.38 M2 91312024 LO:71 58.1 40.s 0.0 7.4 80 -2.32 N1 913l2O24 tO:36 51.2 37.2 o.7 10.9 74 -0.86 N2 9l3l2O24lO:38 56.3 41.9 0.0 1.8 74 -5.14 o1 9l3l2O2a LO:44 47.6 30.9 5.0 22.5 82 -0.40 02 91312024 10:46 53.9 40.6 1.0 4.5 73 4.88 P1 9l3l2O2a tO:49 53.O 38.3 0.0 8.7 7A 1.83 P2 91312O24 IO:SO 56.9 47.9 0.0 1.2 85 {.53 Q1 9131202410:53 53.2 41.3 0.0 5.5 a2 -0.38 Q2 91312O2410:57 25.5 20.8 17.4 41.3 83 -5.18 R1 9131202411:@ 37.0 34.7 0.0 28.3 84 -0.14 R2 91312O2417:07 51.0 46.4 0.0 2.6 89 -0.40 s1 9/31202417:u 45.9 39.3 0.1 14.7 76.0 -0.25 18 of 18 october 30, 2024 I(LEINFELDER \ Eright People. Right Solutions. \.-. I xtetruretoen \- **4ifu APPENDIX C SURFACE EMISSIONS MONITORING DATA 24002s58.00 1 Al SLC24R17 417 0 @ 2024 Kleinfelder October 37,2024 www.kleinfelder.com Trans Jordan INITIAL SURFACE MONITORING AND INSPECTION DAILY REPORT FORM Pase I ol3 04t2212024 I nstructions I hr form r b he used m conlunction t'ilh quarterly surlb.e montkrnng erenls. l)etailsd tn\truclons ureJourul m l mns Jordan Montktrng I'rotoct)l I) Methone lim$sron SurJdce Morubrrng) Note thrs Jbrm ts onl1, o he used litr nttol monrktnng. litl ktv-up monilonng must he recorded on the I;ollov-[ lp SurJuce Montonng Pro;cct /'l ask x 2400:568 / 02 Projcct Managcr Amit Nair ['ield Personnel: Meuan McNabb Background Concentrations Direction Results (nnm)[,ocation []nwind 00 LI [)ownwind It3 ll22 Celibration Standard Calibration Time Cal Results Calibration Gas Cvlinder # Cylinder [:xp. Date 7,ero Ai I 000 00 t448t40 Aug'26 Mcthanc I 000 496 I 450408 Sep'26 Note Calbnuon gas must be wrth,n 2olo of 500 ppm (490 510 ppm) @ Model: TVA 2020 Scrial #:202016061416 Record of Measurements > 250 ppm r A(' Add covcr. RC Rccompact, NC No Chmge Amit Nair QA Review: I om tipdllcd t.:8.1e Date: Project/laskH: Project Manager ["ield Personnel: Trans Jordan INITIAL SURFACE MONITORJNG AND INSPECTION DAILY REPORT FORM 04/23/2024 Instructions T hrs form r to be use<l n co4lunctrtn t,th quorterly surfitce morulonng erents l)etotled ttuttruclon\ are fburul n'l mn\ Jordon blon,toilng I'rolocol l) Melhane l,iltssnn Surlitce Monrtonng). Note thn.lbrm ts only to he used /ir ntt,dl monitonng. Itollo* -up montk)nng must be recoftled on the li)lbv -l lp Surfdce Monilormg l.orm. 24002s68 I 02 Mesm McNabb Paee 2 of3 Model: TVA 2020 Serial H 20201 Weather Wind Direction S al 9 moh I Temo: 56'l- Beckground Concentrrtions Direction Results (nnm)I-ocation Upwind 6.1 oo8 Downwind t.3 ilt8 ' AC Add cover, RC Recompact, NC = No Chmgc QA Rcvicw Calibrution Standard Calibration Time Cal. Results Calibration Cas Cylinder H Cylinder F)xp Zero air 0810 0.0 1448140 Aug 26 Melhane 0830 505 1450408 Sep'26 Record of Measurements > 250 ppm Exceedance Localion (Map Ftt) Reading (ppm') Marked On Map (y/n ) Marked on GPS (y/n) (]PS [.ocation II) [.ocation Staked (y/n) Contact l-andfill Personnel l.andllll Action Takenr Comments Nme l'ime Trans Jordan 04/24/2024Datc: Project/ Iaski/: Projcct Manager ljield Personnel INITIAL SURFACE MONITORING AND INSPECTION DAILY REPORT FORM I'agc 3 ol'3 24002568 / 02 Instructions 'l hts Jitrm n n be used m conlunctntn v th quarterly surJizce morulonng erents- l)etotle.l o\rlru.lons ure fiturul m I mns Jonlon MonilonnE l'roto.ol l) Methone l'-lmtssrtn Surlace Momtonng). Note th$Jitm 6 onlyn he usedJir mrtnl mtnilonng. l'olktt-up monrtonng must he retonled on the litll(tv-( lp Surloce lvlonilonng Model: TVA 2020 il 2020t606t416Megan McNabb WeatherConditions: Clear Wind Direction S al 2 mnh I l'emn: 58 "l: Brckpround Concentrations Direction Results IDDm)[,ocation Upwind 65 JJ22 Downwind 20 CI Calibration Standard Calibration 'l'imc Cal. Results Calibration Gas Cylrndcr H Cylindcr l')xp. Datc Z,ero air 091 5 00 t448140 Aus'26 Methane 091 5 s03 r 45M08 Sep 26 Note Calrbratron gas must be wrthrn 2qo of 500 ppm (490 - 510 ppm) l.ocation: LL7 l.ocation] DD2l QA Rcvicw l-raverseDircction: [:/W i AC Add covcr. RC Rccompact, N(- No ('hagc fonn liodlrcd i 13.]L) Record of Measurements > 250 oom l:xcecdancc l-ocation (Map ljll) Rcading (ppm' ) Marked On Map (v/n) Markcd on CPS (v/n) (;PS Location II) Location Staked (v/n) Contact [-andfill Personncl l.andli ll Action 'l'akcn * Comments Name 'l imc Dt)21 1735 Y Y t735 Y Jason T Ambient Conditions and Instrument Calibration Log Date:0412212024 Project:'l'rans-Jordan Land fi ll Proiect / Task #: 24002568 I 02 Iask 2Q2024 Cap Walk Project Manager: A. Nair lnstrument: -l'hermo l:ischer'IVA 2020 (l-lD) F'ield Personnel: Megan McNabb ieriel N umber: 20201 6061 41 6 Notc Calibration span valuc must bc within 2o,i, ot 500 ppm (490 - 5 l0 ppm) Note Calibration span value must be within 2o,o ol'500 ppm (490 - 510 ppm) Initial Calibrrtion Additional Calibration Additional Calibration Celibrrtion Standard Calibration Time Cal. Results (ppm)Detector Count Cal. Gas Cylinder #Cylinder Exp. Date 4ero air I 000 0.0 1448140 Aug'26 i00 ppm Mcthanc r 000 496 l 450408 Sep'26 Note Cahbratron span value musl be wrthrn 29i, o1 500 ppm (490 - 510 ppm) Backercund Conccotretions Direction Results (ppm)l,ocation Jpwind 0.0 CI )ownwind I 1.3 n22 Wcrtbcr iky: Partly Cloudy Wind: SSI: At 7 MPH I'emp: 56 "F Pressure: "llg Precioitation: -- Crlibrrtion Standard Calibration Time Oal. Results (ppm)Detector Count al. Gas Cylinder #Cylinder Exp. Date l.ero air 1448140 Aug'26 i00 ppm Mcthanc I 450408 Sep'26 Beckground Conccotrrtioos Direction Results (ppm)l.ocation jpwind )ownwind Wcathcr skv:Wind: At MPtI l'emp: '[:Pressure: "l lg Precipitation: Calibration Standard Calibration Time Cal. Results (ppm)Detector Count al. Gas Cylinder #Oylinder ll,xp. Date l.ero air 1448140 Aug'26 i00 ppm \{cthanc I 450408 Sep'26 Background Concentrations Dlrection Results (ppm)l,ocation Jpwind )ownwind Weether Jkv:Wind:MPIIAt I'emp: oll Pressure:"llg Precioitation: Ambient Conditions and Instrument Calibration Log Dste:04123/2024 Project: -frans-Jordan l.andfi ll Project /'l'ask #: 24002568 I 02 Iask 2Q2024 Cap Walk Project Manager: A. Nair nstrument: I'hermo lrischcr-['VA 2020 (F'lD) l.'ield Personnel: Mcgan McNabb Serial Number:. 2020 I 606 I 4 I 6 Celibrrtioo Standard Calibration 'l'ime Oal. Results (ppm)Detector Count al. Gas Cylindcr #Oylinder l,xp. Date 4cro air 0830 0.0 1448140 Aug'26 ;00 ppm \{cthanc 0830 505 I 450408 Sep'26 Note Calibratron span value must be wrthrn 2o,o o1 500 ppm (490 - 5 l0 ppm) lnitial Calibration Additional Calibration Additional Calibration Background Concentrations Dircction Results (ppm)Location Ipwind 6.1 oo8 )ownwind t.3 il18 Wcethcr iky: Partly Cloudy Wind: Nli At 8 MPH l'emp: 56 "ll Pressure: "l Ig Precioitation: Calibretion Standard Calibration 'I'imc Cal. Results (ppm)Detector Count al. Gas Cylinder # (iylindcr Exp. Date 4cro air 1448140 Aug'26 i00 ppm Mcthanc | 450408 Sep'26 Notc Calibration span value must be within 2qi, o1 500 ppm (490 - 510 ppm) Background Conccntretions Direction Results (ppm)Location Jpwind )ownwind Weethcr ikv:Wind: Ar MPll l'emp: oli Pressure: "l Ig Precipitation: Calibretion Standard (lalibration 'l'ime Cal. Results (ppm)Detector Count Cal. Gas Cylinder # (lylinder Exp. Date l.cro air I448140 Aug'26 ;00 ppm \lcthanc l 450408 Sep'26 Notc Calibratron span valut must be wrthin 20 o o1 500 ppm (4q0 - 5 1 0 ppm) Background Concentrations Direction Results (ppm)Location Jpwind )ownwind Wcather ikv:Wind: At MPTI l'emp: oli Pressure:"l Ig Precipitation: Ambient Conditions and Instrument Calibration Log Date:04124/2024 Proiect: Trans-Jordan Landfi ll Proiect /Tesk #z 24002568 / 02 l'ask 2Q2024 Cap Walk Project Manager: A. Nair nstrument: Thermo Fischer l'VA 2020 (lilD) Field Personnel: Mesan McNabb ierial l{umber: 20201 606 I 4 I 6 Note Calibratron span valuc must be wrthin 29i, o1500 ppm 1490 - 510 ppm) Initial Calibration Additional Calibration Additional Calibration Crlibrrtion Standard Calibration 'I'ime Oal. Results (ppm)Detector Counl Cal. Gas Cylinder #Cylinder l)xp. Date '|.ero air 091 5 0.0 1448140 Aug'26 i00 ppm Methanc 091 5 503 I 450408 Sep'26 Beckground Coacentretions Direction Results (ppm)Location Upwind 6.5 JJ22 Downwind 2.0 Ct Wcrthcr Sky: Partly Cloudy Wind: SE At 14 MPtl femp: 58 oli Pressure: "IIg Precipitation: --- Crlibretion Standard (lalibration Time Cal. Results (ppm)Detector Count Cal. Gas Cylinder H Cylinder lixp. Datc 7.ero air 1448140 Aug'26 i00 ppm Methanc l 450408 Sep'26 Note Calibration span value must be within 2o.t of 500 ppm (.190 - 5 l0 ppm) Beckground Concentretions Direction Results (ppm)Location [Jpwind Downwind Wcether Skv:Wind: At MPtl femp: "F Prcssure: "Ilg Precioitation: Calibretion Standard Calibration Time Oal. Results (ppm)Detector Count (lal. Gas Cylinder #Cylinder Exp. Date /.ero air 1448140 Aug'26 i00 ppm Mcthanc I 450408 Sep'26 Notc: Calibration span valuc must be within 2% ot'500 ppm (490 - 510 ppm) Brckcround Concentrations Direction Results (ppm)l,ocation LJpwind Downwind Weether skv:Wind: At MPII Temp: o[;Pressure:"Hg Precioitation: TRANS JORDAN INITIAL PENETRATION MONITORING DAILY REPORT FORM Date: 2Q2t Weather Conditions: Proiect / Task #: 24002568 I 0i Partly Cloudy Project Manager Amit Nail Wind from: NNW at 3 mpt Field Personnel: Mesan McNabt Iemp: 56 ol Backsround Concentrations Calibration )irection Results (ppm)Location Itandard alibration Timt Cal. Results (ppm) Cal. Gas Cylinder # Cylinder Exp. Date Jpwind 0.8 CI Zero air r 000 0.0 1448140 26-Aup. )ownwind l 1.3 fi21 Vethane 1000 496 r 450408 26-Sep Calibration span value must be with of500ppm(490-5l0ppm) A E G H.I AI 2.1 EI t.6 cl 1.6 H.I6V 2.1 A2 6.6 E2 r.3 G2 1.4 H-I7V 1.5 A3 t.5 E3 l.l G3 1.2 H-I8V 1.4 A4 1.4 E4 0.9 c4 1.7 H-I9V 0.9 E5 0.9 G5 0.9 H-il0v 1.0 BI 1.7 E6 2.t G6 2.1 H-il lv 0.9 82 1.4 E7 t.4 G7 1.4 B3 1.4 E8 1.3 G8 r.3 I 4 B4 l.l E9 0.9 G9 1.0 2 4 B5 47.7 Et0 0.7 Gl0 l.l 3 C Elt 0.7 Glt 0.7 4 CI t.7 F G12 0.6 5 0.9 C2 1.3 FI 5 H 6 1.6 C3 75.7 F2 4 HI 1.6 7 1.4 C4 581 F3 H2 t.4 8 3.0 D F4 .4 H3 1.3 9 1.9 DI t.7 F5 0.9 H4 0.7 n0 0.9 D2 1.4 F6 2.6 H5 0.8 Il I 0.7 D3 1.0 F7 2.1 H6 2.4 D4 23.7 F8 1.8 H7 1.5 JI 1.4 D5 l.l F9 0.9 H8 1.4 J2 1.2 D6 2.5 Fl0 0.8 H9 0.9 J3 4.7 D7 2.9 Fl I 0.9 J4 0.7 D8 3.4 J5 t.0 D9 0.9 J6 1.5 Dl0 0.8 J7 1.4 Dll 0.7 J8 0.9 J9 0.9 Jl0 0.8 Jl I 2.6 Date:TRANS JORDAN INITIAL PENETRATION MONITORING DAILY REPORT FORM K M a South Vrlvcs KI 1.3 MI 54.0 Ql 1.3 DV 0.7 K2 4.7 M2 54.0 Q2 1.3 EV 0.8 K3 l l M3 -X R FV 0.5 K4 0.7 M4 l--RI 2.1 GV 0_5 K5 1.6 M5 ><R2 3.3 KO3V 0.5 K6 1.6 M6 _-s HV 0.6 K7 2.0 M+X SI l2inV 0.6 K8 2.3 M8 North Vrlvcs Knock Outs K9 1.9 M9 : MAINV 0.7 KOI 39.5 Kl0 1.3 M-ls DV 0.6 KO2 9.4 Kll 0.7 N EV 0.5 KO3 0.5 NI 4.8 FV 0.6 KO5 55.5 LI t.3 Nl (old)2.3 GV 0.6 Une Vrlvcs L2 1.4 N2 J.J HV 0.5 G LINE V 0.9 L3 7.2 N3 l--IV 0.5 H LINE V 0.8 L4 6.9 N4 - JV 0.5 Nortlr L5 1.5 N5 KV 0.7 I LINE V 0.8 L6 2.3 N6 l><-LV 103 J LINE V 0.7 L7 2.2 N7 x MAINV 20t K LINE V 0.7 L8 3.0 N8 _-X =< OV 8.6 L LINE V 1.2 L9 1.9 N9 Qv 1.9 Sonth Lt0 0.6 Nt€RV 1.7 I LINE V 0.6 o Nll SV 1.0 J LINE V 0.6 ol 6.3 P L LINE V 3.7 02 4.1 PI t.5 P2 1.3 Notes: Thtsfomistobeused.[orlollowupnonitoihgohly(t0da!,2"c l0duy,and,orlmonth)required.loraochinitialreading>5O0pph, Project / T83k #:24002568t02 ProiEt Mansger: Amit Nair Page I of 1 I Month Field Personnel : _!!g!!$![_D^t,____)W_ Weather: Mostly Sunny Wind from: NE @ 8 mPh Tempqature: 50 o F l0 Dsy Field Pcrsonnel: Megan McNabb Date 2d to Dry Ficld Pmomel: Weathfr: Mostly Sunny Wind from: N @ t3 tt ph Tempsature: 48 o F Equipmmt Model: TVA2020 EquipmmtSerialC: 202021358609 Results Cmister Cuister Exp. Date l0 day trield Signature McNabb 2nd l0 day Field Signature: r AC = Add cover, RC = Recompact, NC - No Chm8e. RP = Replace/repair pds, AW = Add Mter Date: Wather: Windfrm: Tempqshrre: Equipment Modcl: Equipmant Scrial #: @ mph Equipment Model: TVA2020 EquipmentSerialH: 202021358609 I Month Field Signature QASrgnarure: 4*z?1la4L TRANS-JORDAN FOLLOW-UP PEn-ETRATION / SURFACE MONITORING AND INSPECTION DAILY REPORT FORM 2nd l0 dry Crllbrrtlon I Month Cslibrstion Excrcdence Locstion (Map Coordinrtes / Penetrrtion lD): l0 dav 2'd l0 dsY I Month Excedence Locstion (M8p Coordinates / Penetrrtion lD): lodev 2dlodrv I Month -t-:5--lLL4 ppm @ 30'N l?0 pp;@ Y"t n ^.-o I Yes ll No -l p Time : 1 pp, @-l!! Yes I No -l Yes tr No -l Y* rl Nil1 Yes rl No -l Locstion (M8p CoordiDat$ / Penetrrtion lD): l0 dsv 2'd l0 d.Y I Month FID Reading: Upwind Reading: Downwind Reading: Mrked on Map: Location Staked: Landfill Persomel Contacted (Nme) l !rT_(9_Y6 - No i-l yes trl No -lYes - No -1Yes -l No al Yes -l No rlYes T No -l ^ I I<LEINFELE'EF?- ttnt*'ryntul\=. Trans Jordan 08/05/2024 INITIAL SURFACE MONITORING AND INSPECTION DAILY REPORT FORM I'aee I of'3 [)at€Instructions 'I his lbrm $ lo he use.l n conJunctutn * ilh quorterly surJitce morubnng ewnts. I)etaled tnstmctons ure fourul n'l rans Jonlun Montlormg I'rolocol l) (Methane Llmrsston Surface Momhnng). Nole th$lorm 6 only to be usedlbr nttel ilonilorug. litlk*-up monrtonng must be recorded on the litlktt-( /p Surlitce Monrutnng Prqect/'l'ask H. 24002568/ 0) Project Manager Amit Nair Field Personnel: Daniel Salas I Weather Conditions Panlv Cloudy Wind Direction SSll at 7 mph | ]-emp 89 'lr Beckground ('oncentretions Direction Resrrlfs (nnm [,ocation Upwind t.8 CCzI Downwind 3.5 YI Calibration Standard Calibration l'ime Cal. Results Calibration (ias Cvlinder # Cylinder [:xp. Date Zero Air I 140 0.0 I 45879 I May'27 Methane lt50 505 I 4691 t7 May'2'7 Note Calrbratron gas musi be wlthrn 270 of 500 ppm (490 - 5l 0 ppm) ffi Model: TVA 2020 Serial ll: 20201606141 6 Record of Measurements > 250 ppm 'AC Add cover. RC Rccompact. N(' No ('hugc QA Rcvicw:. '4/""i" '/y'"'t4- I dnr I rFJrrcd 5.18. lu TTANS JOTdAN INITIAL SURFACE MONITORING AND INSPECTION DAILY REPORT FORIVI PAqC 2 OI3 Datc: 08106/2024 Instructions monitonng e|enls. l)etailed nslmcnons are lirun<l n 1 runs Jonlsn Monilonng I'rotocol l) (Methone l..mtssron Surfbce Montonng). Note th$ fbrm is only to he usecl Jitr nrlnl moillorng. l;ollor'-up monttoflng mutt he recorcled on the litlbt-(lp Surhce Morutorng I,orm. Project / Task H. 24002568 / 02 tlsed Model: TVA 2020 Serial H:202016061416 Prolect Manager Amil Nalr Field Pcrsonnel: Daniel Salas Weather Condrtions irection S al I 8l 'F Brckground Concentrations Direction Results (nnm)l-ocation tJpwind 13 BB22 Downwind 8.5 xl Calibrution Standard Calibration'l'ime Cal. Results Calibration Gas Cylinder # Cylinder Exp Date Zero air 0845 00 I 45879 I May'27 Methane 0850 502 t469tt7 Mav '27 Note Calrbratron gas must be wrthrn 2ol. of500 ppm (490 - 510 ppm) fr';;;6;;;;,. N/s l Record of Meesurements > 250 ppm [']xceedance [.ocation (Map Coordinate) FID Reading (ppm, ) Marked On Map (v/n) Marked on CPS ( y/n) GPS l-ocalion II) Localion Slaked (y/n ) Contact Landfill Personnel l-andfill Action"l'aken'Commenls Name Timc * A(' Add cover, RC Recompact. NC No Chags QA Rcvicw 4,,,i.')lap I ,trh I ddcd t :x. l') TTANS JOTdAN INITIAL SURFACE MONITORING AND INSPECTION DAILY REPORT FORM I)AqC 3 OI'3 I)ate 08to7;2021 ln I hrs /itrm n o he used n conlunclron \rilh qudrterlt'.tutlir.e nt(tntbnn!{ erenti l)ekillt.l tn\tructkrh-\ ore kturul rn I rant .htrLlan lv|onntnng I'rouxttl I ) (lllcthune l,.ntrssnn SurluL-e Llontktnngl. Note thr /irm tt onl.y tt he u.sed lor nttrul moruktrtng. l;olkx-up montktnng must he recorded on the litlh^r-( /p Surldcc Montu)flng l)ro.1cct i'l rsk , 24002568 / 02 [:sed Model: 'l VA 2020 Senal ! 202016061416 [)ro.;cct Managcr Amit Nair Irrcld Pcrsonncl l)aniel Salas Wcather Wind 2 -lemo: 76 "I: Brckground Conccntrations Dircction Results (DDm)[-ocatl0n [Jpwrnd t2 U2 I)ownwind t0 SI Start Monitorinu l.ocation: Ol ' A(' Add covcr. R(' Rccompacl, NC \o ('hagc Calibretion Standard Calibration 'l imc Cal. Results Calibration Cas Cylrndcr // Cylindcr Lxp Z.ero atr I 205 00 I 45879 I Mav '27 Methanc r 210 s08 t469t t7 Mav '27 L gas must be w{hrn 2o,o of 500 ppm (490 - 510 ppm) l Tr"r-* lrtr".ti"" r.l,s I QA Rcvicw rti,"* " )lD^* Record of Measurements > 250 opm llxceedance l.ocation (Map Coordrnatc) I]It) Itcading (ppm, ) Marked On Map (y/n ) Markcd on (i['S (y/n) CI)S l,ocation II) l-ocation Stakcd (y/n) Contact [.andfill Pcrsonnel t-andfl ll Action 'l akenr Commcnts Namc 'I imc Dile:816124 Proiect: Trans-Jordan l,andfi ll Proiect / Task #: 24002568 I 02 Iask 3Q2024 Cap Walk Project Manager: A. Nair nstrument: Thermo FischerTVA 2020 (FlD) Field Personnel: D. Salas Serial Numberl. 2020 I 606 I 41 6 Ambient Conditions and Instrument Calibration Log lnitial Calibration Additionsl Calibration Additional (lalibration Celibntion Standard Calibration I'ime Oal. Results (ppm)Detector Count Cal. Gas Cylinder #Cylinder Exp. Date l.ero air 845 00 5472 r 45879 I May'27 i00 ppm Methane 850 502 r 20s08 t469tt7 Mav'27 Note Calrbration span value must be wrthrn 2o'o of 500 ppm (490 - 5 l0 ppm) Beckground Concentrations Direction Results (ppm)Location .Jpwind 1.3 uu22 )ownwind 8.5 xl Wcrtber iky: Clear Wind:S At 9MPII I-emp: 8l o['Pressure: 29.91 "llg Precipitation: Celibntion Standard Calihretion Time Oal. Results (ppm)Detector Count al. Gas Cylinder il Cylinder [ixp. Date Lero air t2l7 0.0 4983 I 45879 I Mav'27 ;00 ppm Methane t220 507 r 09088 14691 t7 May'27 Note Calibration span value must bc wrthrn 2"" o1 500 ppm (490 510 ppm) Becksround Concentrrtions Direction Results (ppm)Locntion Jpwind )ownwind Weather iky: Clcar Wind: SE At I I MPII l-emp: 9l oll Pressure: 29.89 "llg Precipitation: None Celibretioo Standerd Calibration -fime Oal. Results (ppm)Detector Count (lal. Gas Cylinder #Cylinder Exp. Date 7,ero air I 535 0.0 4736 r 45879 I May'27 500 ppm Methane I 538 498 12t308 14691 t7 May'27 Note: Calibration span value must be within 20ro o1 500 ppm (490 - 510 ppm) Background Conccntretions Direction Results (ppm)Location Upwind Downwind Werther Skv: llig.h Clouds Wind: NW At 5 MPtl f'emp: 9'7 "lf Pressure: 29.8 I "llg Precipitation: None Ambient Conditions and lnstrument Calibration Log Date: E/5/24 Project:'l'rans-Jordan l.andfi I I Proiect / Task #: 24002568 / 02 1'ask: 3Q2024 Cap Walk Project Manager: A. Nair lnstrument:'l'hcrmo lrischcr'l'VA 2020 (FID) [ield Personnel: D. Salas Serial Number: 20201606 l4 l6 Note Cahbratlon span value must be wrthrn 29o o1 500 ppm (490 - 510 ppm) Note Calibration span value must be within 2"" o1 500 ppm (490 510 ppm) Notc: Calibration span valuc must bc wrthin 2o," ot 500 ppm (490 - 510 ppm) lnitial (lalibration Additional (lalibration Additional (lalibration Celibratioa Standard Calibration I'ime (ial. Results (ppm)Detector Count Cal. (lrs (lylinder #Cylinder Exp. Date 4ero air I 140 0.0 523 I t45879t May'27 i00 ppm Methane I 150 505 t26300 1469t l7 Mav'2'l Backeround Concentrations )irection Rcsults (ppm)l.ocation Jpwind t.8 CC2 I )ownwind 3.5 YI Weather iky: l'}artly Cloudy Wind: SSI: At 7 MPII I'emp: 89 ol;Pressure: 29.88 "tlg Precioitation: Celibretion Standard (lalibration 'l'ime (lal. Results (ppm)Detector Count (lal. Gas Cylinder #Oylinder Exp. Date 4ero air I 45879 I May'27 i00 ppm \4ethanc t469t t7 Vlav'27 Backeround Conccntrrtioos Direction Results (ppm)Location .Jpwind )ownwind Weather ikv:Wind: At MPII l'emp: oll Pressure:"l Ig Precioitation: Celibrrtion Standard (lalibration 'l'ime Cal. Results (ppm)Detector Count (lal. Gas (lylinder #Oylinder lixp. Datc Lcro air t4s879t May'27 ;00 ppm Methane t469t t7 Mav'27 Background Concentrations Direction Results (ppm)l,ocation Ipwind )ownwind Weather ikv:Wind: At MPll I'emp: "l;Pressure: "l Ig Precipitation: Ambient Conditions and Instrument Calibration Log Date:817124 Project: -l'rans-Jordan Landfi ll Project /'[ask #: 24002568 I 02 Task 3Q2024 Cap Walk Project Manager: A. Nair Instrument: Thermo Fischer TVA 2020 (FID) Field Personnel: I). Salas Serial )tiumber: 20201606 l4l6 Note Cahbratron span valuc must be wtthtn 2% of500 ppm (,190 - 510 ppm) lnitial Calibration Additional Calibration Additional Calibration Crlibretion Standard (lelibration Time Cal. Rcsults (ppm)Detector Count Cal. Gas Oylinder #Oylinder l)xp. Date 7.cro air 0849 0.0 5478 1458791 May'27 500 ppm Methanc 08s2 506 t22892 1469|L7 Mav'27 Beckgrou nd Concentrations Dircction Results (ppm)Locetion Jpwind 1.2 u22 )ownwind 1.0 SI Wcrthcr iky: Clear Wind:S At 2MPH femp: 76 oF Pressu re: 29.91 " Flg Precioitation: None Celibretion Standard Calibration Time Cal. Results (ppm)Detector Count Cal. (ias Cylinder #Cylinder Exp. Date l.ero air I 205 0.0 5033 l 45879 r May'27 i00 ppm \'lcthane r 2l0 508 72776 I 469t t7 May'27 Note Calibration span value must be within 2"r ot 500 ppm (490 - 5 l0 ppm) Beckground Concentrrtions Direction Results (ppm)Location ..lpwind )ownwind Wcether iky: Clear Wind:NAt5MPH femp: 93 ol-Pressure: 29.89 "l{g Precioitation: None Calibrrtion Standard (lalibration '[ime Oal. Results (ppm)Detector Count Cal. Gas Oylinder #Oylinder Exp. Date t.ero air t623 0.0 4756 l 45879 r May'27 i00 ppm Vcthanc 1626 509 72270 t469n7 Mav'27 Note Calibration span value must be wrthrn 2oi, ot 500 ppm (490 5 l0 ppm) Baclrsround Conccntrations Direction Results (ppm)l,ocation .Jpwind )ownwind Wcethcr iky: Clear Wind: NNW At 12 MPH I'emo: 95 ol-Pressure: 29.80 "lle Precioitation: None Trans Jordan lNlTlAL PENETRATION MONITORING DAILY REPORT FORM Oate Poloct / Task # PrcJect Mansger Freld Per$nn6l o8n5t2024 f o ow6t2024 24000052 / 05 Amrt Na( Danrsl Salas A 2 G E-l x f, AI t2 EI 2 cr H.16V 5 KI 56 NI 02 A2 li I1 c2 H-t7V 2 K2 JO Nl (old) A]F:]01 G]H.IEV I K]22 N2 02 l7 E{07 G{H-0v 8 KJ l9 N] I E5 c5 H-il0v K5 2l N4 BI 08 E6 ll C(,t H-U lV K6 N5 a2 20 E7 0 C7 K?l B1 l5 E8 o8 Clt U II 5 Ktt l(,N7 B{ll E9 5l G9 t2 I K9 2t N{i B5 0.lt Et0 t7 cr0 0 I]8 Kl0 t9 N9 c EII 5.1 cil I4 5 Klt l8 Nt0 CI 26 Gt2 o t5 5 Nlt C2 t2 FI t2 tf l0 L cl 5 F2 o5 Hl t2 t1 t.t5 ol ll C{27 F]02 il2 I8 L 221 02 ->< D F,I t{H3 t1 I.,)4 L.1 1(, DI l4 F5 06 H4 t4 il0 l L5 PI 19 D2 l9 F6 03 lt5 05 ilt L(t l.l P2 >< D]tx F7 03 H()t1 L7 l3 tN t6 F8 .t H7 2t JI t2 Llt 252 Qr II DS 2S F9 o5 H8 l8 !2 21 1.9 l0 5 02 -;< D6 ll Fl0 OE t{9 IE J]l6 Lt0 ].1 D7 2l Fil OE J{22 IU RI 0l DE 25 J5 l9 MI l{R2 ->.< D9 l7 J6 23 M2 q1 Dl0 t8 J7 7 M]---- --:><><: - st 0l DI x J8 tl MJ Sor&YdB J()18 MS DV 2t ,to t2 M6 EV 07 Jil t.5 M7 0.6 Mtt GV 0{t M9 KOIV lt Ml0 uv t2 I 2!nv l6 Dste Prci8c1 / Ta8k, Pmlacl Managsr Fi6ld P6Mnn6l 08/052024 To 08O@024 240m052 / 05 Trans Jordan lNlTlAL PENETRATION MONITORING DAILY REPORT FORilI oA Reid: Amit Nair Amil Nsir Daniol Ssles 'IRANS-JORDAN FOLLOW-I.]P PENETRATION / STJRF'ACE MONITORING AND INSPECTION DAILY REPORT FORM lhrsformrnheuvdforlrilkttupnonmringonll(l0day,2"'l0dor,,dtulorlnnnth)rcqutrcdlorcmhntrulreadnq>-500ppil, Projct / Trsk #:2400256E t 07 Projet Msnrger:Amit Nair Page ofl Field Persomel: Date: Weather: Wind from: Temperature: Equipment Modcl: Equipment Serial d ; 2"d lo Dey FicldPmmel: I Month ficld Pcrsonnel; Megm McNabb Date: 915t2024w""th"r,----Siiif@ Wind fiom: ENE @ 3 mph Temperature: 66 'F Equipment Model: TVA2020 [iquipmentScrial#; 20202135t609 Sr""Y SE@llmph 75 0F Date: Weatha: Wind frun: Tapcmture: Equipmmt Model: Equipmat Saial # : TVA2020 20202 I 358609 Results: Cmister #: ('anister Iixp. Datc: Norc Cahbrauon qas musl bc ulthrn 2'l' of 5l)0 DDmv (4r)ll - 5 l0 l0 doy Crlibrrtion Iime: I 0938 lnd l0 drv Crfibmrio Time I Month Crlibrrtion 'r 0909 Zero ()as Methmc ZemGA Melhec 7,ero Aas Methile 0.0 oom 497 oom m m 0.0 oom 501 oom I 45879 I 14691 l7 458191 t4691 I May-2'7 May-27 \1ay-21 MaY:2'l Erceedcnce l,ocation Map Coordinate / Pe l0 day retration lD): 2d lo KO-2 Exccedcncc lmrtim (Mrp Cmrdinrcr / Pcr l0 Etmdon lD): 2'd loI Month I Moott F'lD Rcading 3.2 ppm Ppn 3. I ppm FID ppn PPtr pPn Upwind Reading I 3 oom @ l0' NNI ppm @ 2.E ppm @ 30'E Upwind Rcading:ppm @ ppm @ ppm @ Downwind Reading a r0' ssu ppm 2.E ppm frD 30'W Domwind Rading:DDM @ !lo,m@ Marked on Map l-mation Staked Ludfill Pemonne Contacted (Nmc) Lmdfill Action 'lakcn' Comments Ycs|,Nof Yes -l No -YesTNof Yes?\ot 'f ime.ason I o9-lo Marted on Map:Ycs iNotr Yes .-l No I Yesfi Notr Yes i, No t TimeJason l'Dunng Yes il No Lc8tim Si8kcd:Ycs l- No t Ycs -l No i I Yes il No f Time:Lmdfill Pemmel Contactcd (Nme): Timc 0930 Time:Time: Lmdfill Action Taken': Commts: Ercccdmcc lmrtion Mrp Cmrdinrtcs / Pc l0 dey nctretiotr lD): 2od lo Ercccdcncr lnrtion (Mrp Cmrdinres / Pcr l0 drv Etrrtion lD): 2'd toI Month I Month FID Pptr ppn FID Ppn pptr pPn Upwind Rcading pPm @ ppm @ ppm @ Upwind Rcading:PPM @ Ppm @ pPm @ Domwind DDM @ DDM @ r/r/n@ Domwind Reading:DDM (A DDM@ Dpm 6) Markcd on YesfNof Yes -l No -l Ycs - No [-Mar*ed on Map:Yes I-l No l'-Yes I No-l YcsfNof Laation Ycs f No Yes :-l No -l Ycs - No f-Lcation Stakcd:Yes I-l No t Ycs I No-l Ycsfl No[- Lmdfill Pmnnr Contacted (Nmc)Time:Timc:Timc:Ludfill Pemmc Contacted (Nmc)Time:Time:Timc: mdfill Actim Takm.Lmdfill Actim Talen' Commts Commts: I 0 day t-ield Signaturc 2nd l0 day ljield Signature ' AC Add cover. R( R6ompacl. \C No Change, RP - Replacey'repair pans, AW Add waler Month t'ield Signature: QA Signature: 7( xtetNretoea. rtiid.rtffft3\-. I<LEINFELDER \ Eriqht People. Right Solutions \- 7\( xtetNretDEF? \--*4bfu APPENDIX D TSM PI.AN, TSM PIAN REPORT 24002 5 68. 00 1 A / SLC24RL7 477 0 @ 2024 Kleinfelder October 37,2024 www.kleinfeher.com Transdordan Generati ng Station Treatment System Monitoring PIan Pursuant to 40 CFR 62, Subpart OOO and 40 CFR 63, SubpaTt ArtuM Utah DEQ Permit Number: 3500535002 NOVEMBER 15,2021 209-4211035 PRESENTED TO TransJordan Generating Station 10873 S Bacchus Hwy (US 11 1) South Jordan, UT 84095 PREPARED BY Tetra Tech 39395 W. Twelve Mile Road, Suite 103 Farmington Hills, Ml 48331 TABLE OF CONTENTS I.O BACKGROI.IND. MON]ITORING RECORDS MON]]TORING MET}()DS, FREQUE]IICIES, AND OPERATING RANGES coNnNuous moNromNc 1-1 2.0 3.0 1.O 5.0 X:\PROJECTS\ENERGY DEVELOPMENTS\TRANS JORDAN\TRANS.JORDAN GENERATING FACILITY\ROOT\EDL Trans-Jordan TSM Plan DRAFT.docx PAGE ii EDLCL Treatment System Monitorrng Plan Last Revised Date February 18,2022 Tetra Tech This Site-Specific Treatment System Monitoring Plan is being prepared because Trans-Jordan Generating Station (Trans-Jordan) is or will be subject to control requirements under 40 CFR 62, Subpart OOO and 40 CFR 63, Subpart AAAA. The facility is located at 10873 S Bacchus Hwy (US 11 1), in South Jordan, UT in Salt Lake County. Trans-Jordan receives landfill gas (LFG) generated by normal landfill operation from the adjacent Trans-Jordan Landfill facility (Landfill) via pipeline from the landfill's gas collection and control system (GCCS). The Trans- Jordan facility design includes three internal combustion engines, which use the LFG as fuel to produce electricity for sale. Prior to combustion in the engines, the facility's LFG treatment system treats the LFG through the processes of compression, dewatering, and filtration per the definitions of 40 CFR 62, Subpart OOO and 40 CFR 63, Subpart AAAA (562.16730 and 563.1990). A treatment system is one of the acceptable "control systems" for LFG under the above cited rules. As set forth in $62.1671a(c)(3) and 563.1959(b)(2XiiiXC), the owner may: Route the collected gas to a treatnent system that processes the collected gas for subsequent sale or beneficial use such as fuel for combustion... Venting of trcated landfill gas b the ambient air is not allowed. lf the treated landfill gas cannot be rcuted for subsequent sale or beneficial use, then the treated landtill gas must be controlled according to 562.16711 (c)(1) or (c)(2)/ 563.1959(b)(2)(iii)(A) or (B). \r'Vlren using a treatment system as a control system for LFG subject to NSPS/NESHAP control, monitoring requirements, specifically $62.16722(g) and $63.1961 (g), require the owner/operator to: ...maintain and operale all monitoring sysferns associated with the treatment sysbm in accordance with the site-specific trcatment system monitoring plan required in $62.16726(b)(5)(ii) and $63.1983(b)(5)(ii). This site-specific treatment system monitoring plan was prepared to satisfy the requirements of 562.16726(b)(sXii) and 563.1983(b)(5)(ii) referenced above. These requirements are listed below. Details of compliance are detailed in the following sections for each requirement. A) Monitoring rccords of parameterc that are identified in the trcatment system monitoring plan and that errsule the treatmenf systerT, is openting properly for each intended end use of the treated landfill gas. At a minimum, records should include rccords of filtntion, de-watering, and compression parameterc that ensure the treatment system is operating properly for each intended end use of the treated landfill gas. B) Monitoring methods, frequencies, and operating ra,nges for each monitored openting parameter based on manufacturer's recommendations or engineering analysis for each intended end use of the fieated landfill gas.C) Documentation of the monitoring methods and ranges, along with justification for their use.D) ldenttfy who is responsible (by job title) for data collection.E) Processes and methods used to collect the necessary data.F) Description of the procedures and methods that are used for quality assurance, maintenance, and repair of all continuous monitoring sysfems. X \PROJECTS\ENERGY DEVELOPMENTS\TRANS JORDAN\IRANS JORDAN GENERAIING FACILITY\ROOT\EDL Trans Jordan TSM Plan DRAFT docx EDLCL Treatment Last Revised Date System Monitoring Plan February 18,2022 Tetra Tech 962.16726(b)(5[ii)(4/503.1983(b)(5)(ii)(A): ltonitoring rccords ot panmeterc that are identified in the trcatment system monitoring plan and that ensurc the teatment system is openting ptoperly lor each intended end use of the trcated landfill gas. At a minimum, records should include records of filtntion, de watering, and comprcssion parameterc that ensure the trcatment system ls operating prcperly for each intended end use of the treated landfill gas. Table 1 in the following section describes which treatment system equipment parameters will be monitored to indicate proper operation. The Trans-Jordan personnel performing monitoring operations will record the observed value and determine if the value is within the range of operation. lf the recorded value is out of the range of operation, they will immediately take corrective action, including contacting all relevant staff, as necessary. Furthermore, collected data and a description of the actions taken will be placed into the plant file. ln addition to the parameters described in Table 1, records of flow to the treatment system will also be maintained per $62.16722(g)(1) and $63.1961(g)(1), which require that treatment system flow must be continuously (at least once every 15 minutes) monitored. At Trans-Jordan, the treatment system flow is continuously measured by a flowmeter, which will be maintained and calibrated per manufacturer's recommendations. There is no bypass line from the treatment system at Trans-Jordan. All LFG received from the Landfill's GCCS is routed through the facility treatment system. Parameter monitoring records willbe maintained per $62.16726 and $63.1983, which require that allrecords must be 5 years up-to-date, readily accessible, on-site. Off-site records may be maintained if they are retrievable within 4 hours. Either paper copy or electronic formats are acceptable. X \PROJECIS\ENERGY DEVELOPMENTS\TRANS JORDAN\TRANS.JORDAN GENERATING FACILITY\ROONEDL Trans'Jordan TSM Plan DRAFT docx EDLCL Treatment System Monitoring Plan Last Revised Date February 18,2022 Tetra Tech 562J6726 (b[S)(i0@y963.1983(b[5)(ii)(B): Monitoring methods, frequencies, and openting ranges for each monitored operating panmeter based on manufacturefs rccommendations or engineering analysis for each intended end use of the teated landtill gas. 562.16726 (b)(iNii)(Cy 563.1983(b)(5)(ii)(C): Documenbtion of the monitoring methods and ranges, along with justification for their use. 562.16726 (b)(5)(i08y563.1983(b)(5fiii)(E): Prccesses and methods used to collectthe necessary dab. Table 1 below describes monitoring methods, frequencies, and operating ranges for each monitored treatment operating parameter, justification for each parameter used, and a description of how monitoring data will be collected. The justification for the monitoring methods and ranges for each monitored treatment operating parameter is based on operational experience and/or manufacturer recommendation. Data will be reviewed at least monthly by Landfill personnel. Table 1: Landfill Gas Treatment System Monitoring Plan Particulate Filters Filtration of particles < 10 microns in diameter by use of filter media Differential Pressure Monthly pressure monitoring device 0-1 5 psi Manufacturer's specifications. Filters are changed when the differential pressure is measured outside the specified operating range. Aftercooler Dewatering by reduction of LFG dew point Process Temperature Monthly temperature gauge <1 85'F lncoming LFG is approximately 200- 275'F.The aftercooler is designed to reduce LFG temperature to <185'F to allow for effective removal of moisture and containments. X \PROJECTS\ENERGY DEVEL OP[,4ENTS\TRANS JORDAN\TRANS,JORDAN GENERATING FACILIry\ROOT\EDL Trans-Jordan TSM Plan DRAFT docx EDLCL Treatment System Monitoring Plan Last Revised Date February 18,2022 Tetra Tech 562.1672C (bNSXitNDyS63.1983(bN5)(tt)(D): ldenttty who ts responsiDle (byiob fiAQ for data collecton. The table below details the specific supervisory and field personnel responsible for overseeing the inspections for the routine monitoring activities of the affected equipment detailed in this plan. Table 2: Responsible Personnel Comoliance Manaoer Reoion Manaoer Maintenance Manaoer Plant Ooerator X \PROJECTS\ENERGY DEVELOPMENTS\TRANS JOROAN\TRANS.JORDAN GENERATING FACILIry\ROOT\EDL Trans-Jordan TSM Plan DRAFT docx EDLCL Treatment System Monitoring Plan Last Revised Date February 18,2022 Tetra Tech 562.1A726 (bX5XitNFyS63.1983(bNSNil)(F): Description of the prccedures and methods that are used for quality assunnce, malntenance, and repair of all confrnuous monitoring systems. Continuous monitoring data (CMS) data is reviewed monthly at a minimum to verify accuracy and to evaluate for trends that may be characteristic of diminishing performance. Staff will perform visual inspections of the equipment and note issues as they arise. CMS component repairs and/or replacement will be made as necessary. X,\PROJECTS\ENERGY DEVELOPMENTS\TRANS JORDAN\TRANS-JORDAN GENERATI NG FACI LIry\ROONEDL Trans-Jordan TSM Plan DRAFT.docx Trane-lordan @mrating Sfiation Semi-Annual Tremnent Sy!fun Ionitoring Plan Report Rcporttrg Period: .lanuary L n'iL - Jurp n, nU fiorfie Tranrs Jordan Lrntr[ Energy DedWments, LLC (EDL) owrs and operabs the Tnans-Jorda Ceneratlng Station (IJGS), a LandfillGas b Energy (LFGTE) fadlity loc#d aqacerilto the Trans-Jordan tandfill in Salt L*e Cor*y, Utah. ln acordane with the sib.sp€dfic Tteatnent SyGn Monibrirq Plan (S63.19e1OX5rc0), TJC'S is provi<lirB this sfiaErnent of sndiae br lncilsirn in the Tnans-Jordan l-mdf0 serni-arxrd dnpfrarce r€port Th€ TJGS trdlity is no( e(pipp€d wih vents wittin the teatnent sy*m u,ftacfi dw venting of untreabd gas b the atnoapfpre. The toatnent sysilem is rrt design€d mr equip@ to bypass a qrfd devb ad vent direcfy b fie afinosph€re. A calibrated flouv rnebr is installed to contilurousty morflor flow b the tetnent sy$m. The TJGS mahtair and operabs all mmitoriq sy$ns assoctahd with fp teafinent sysfiern h acoordance ui0r lhe siEspecrfic featnent sysHn mmibring plar. Bffing tte reportirU period there were m ptramebr exceedarc or deviatims. I confirm thd the irfrrmdion proviled withh frp &or€ silafnent b trrE ad rc.rab b the bestof my tspwledge- Treatnent Sysgn ReprceO4ive stur*ne: @ **, +lnlaz+--1'- Tel +1 (517) ZJ8O743 edlanergy.ccn Suite 100, 25Ot CoolktgB Rd EadLansing. Ml4€fi23 Ur$ted States of Ameri:a PO Box 15217 t n ang, Ml zl8€lo1 umted Stab6 of Amerir A '+;crici cf ri(}\^v €t^t8fclr,i i-i ;,aid DrE\]VIR' r | 1 ,,trl-,l;ri (.i.1 1l.liy I I EXHIBIT D ESTIMATED COSTS wBs 10009't.86 MJRTBD/ruTBD Sandy Waste Transfer Staton --_---Jr , . i.l..,l oF Aifj ol , \l- ITY Project Cost Estimate Enbndge Oistributaon Engineering uT.84m9 2f'24 10473 S Bacchus Hwy EnYironrnentEl1 Envrronmental Permits anl Fees 2 EnuronmentalConsultants3 Envrrmmental LaDor and Expenses Rightof-Way4 Rrght-of-WayProcurement5 Rqht-of-way Pemtits and Fees 6 Right-of-WayConsultants 7 Rrght-of-Way Latror and Expenses Srvey and t tilaty LocatingI Survey Consultants9 Survey Labor and Expenses Engineering md Desigt10 Engineering Consultants 11 Engineenng Lal)or and Expenses 12 Design Labor and Expenses Construction - Moin and Service Line 13 Construction Costs' hspectim14 lnspectm Contractors 15 lnspectm Laborand Expenses lleter Set 16 Other Expenses 17 Legal Expenses Miscellaneous 10 't0 10 10 10 10 10 10 10 10 10 10 10 10 1.0 't 0 10 10 Lump Sunr Lump Sunr Lump Sunr Lump Sunr Lump Sunr Lump Sunt Lump Sunr Lump Sunr Lump Sunr Lump Sunr Lump Sunr Lump Sunr Lump Sunr Lump Sunr Lump Sunr Lump Sunr Lump Sunr $0 $0 $0 $0 $0 $0 $0 $0 $0 $0 $0 $0 $ 12,125 $0 $0 $0 s0 s0 $0 $0 s0 SO s0 s0 s0 $0 s0 $ 12.125 s0 $0 s0 s0 0 t'12,125 $3 $ 185 $2,425 $ 15,038 Rate $0 0 Suilotal AFUT)c Consffuctin Orcrtpad Contitgency EstimEte Tota! Thrs estam3te rs prelinrinary end rs based upon fie rnformabon rvsrlable Jt the trme h is provrdad lt rs gublect to revrsion ind ange. Nerther Enbndge or the customer rre bound by the @ntJrned rn thrs e5trmJte and nothin€ herern an offer or enltcrceable agreement Any agreement Enbndge Jnd the cusbmer .tre subrect tD lhe ereculron a final wntten Jgreement contJrnrng all mJtenil terms 'Construclron CostS rnclude Jll nrJtenrl Jnd lJbor to Lngtdl or remove the mSrn.lnd servrce l,nes Exhibit D to Pipeline Relocation Agreement Confibtlbn $0