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Home My WebLink AboutDRC-2024-004530?jSr£r-1 --7_1 ~ _,J r ENERGYFUELS February 12, 2024 Div of Waste Management and Radiation Control FEB 2 O 2024 Sent VIA EXPEDITED DELIVERY Mr . Doug Hansen Director Division of Waste Management and Radiation Control Utah Department of Environmental Quality 195 North 1950 West Salt Lake City, UT 84116 Re: Transmittal of 4th Quarter 2023 Nitrate Monitoring Report Energy Fuels Resources (USA) Inc. 225 Union Blvd. Suite 600 Lakewood, CO, US, 80228 303 974 2140 www.ener 0 fuels .com Stipulation and Consent Order Docket Number UGW12-04 White Mesa Uranium Mill Dear Mr. Hansen : Enclosed are two copies of the White Mesa Uranium Mill Nitrate Monitoring Report for the 4th Quarter of 2023 as required by the Stipulation and Consent Order Docket Number UGW12-04, as well as two CDs each containing a word searchable electronic copy of the report . If you should have any questions regarding this report, please contact me or Jordan App at (303) 389-4131. Yours very truly, ENERGY FUELS RESOURCES (USA) INC. Kathy Weinel Director, Regulatory Compliance cc : David Frydenlund Logan Shwnway Garrin Palmer Scott Bakken Jordan App Dawn Kolkman DRC-2024-004530 gj;ir, "-f'F:~ERGYFUELS February 12, 2024 Sent VIA EXPEDITED DELIVERY Mr. Doug Hansen Director Division of Waste Management and Radiation Control Utah Department of Environmental Quality 195 North 1950 West Salt Lake City, UT 84116 Re: Transmittal of 4th Quarter 2023 Nitrate Monitoring Report Energy Fuels Resources (USA) Inc. 225 Union Blvd. Suite 600 Lakewood, CO, US, 80228 303 974 2140 www .energyfuels.com Stipulation and Consent Order Docket Number UGW12-04 White Mesa Uranium Mill Dear Mr. Hansen: Enclosed are two copies of the White Mesa Uranium Mill Nitrate Monitoring Report for the 4th Quarter of 2023 as required by the Stipulation and Consent Order Docket Number UGW12-04, as well as two CDs each containing a word searchable electronic copy of the report. If you should have any questions regarding this report, please contact me or Jordan App at (303) 389-4131. Yours very truly, ENERGY FUELS RESOURCES {USA) INC. Kathy Weinel Director, Regulatory Compliance cc: David Frydenlund Logan Shumway Garrin Palmer Scott Bakken Jordan App Dawn Kolkman White Mesa Uranium Mill Nitrate Monitoring Report State of Utah Stipulated Consent Agreement, December 2014 Docket No. UGW12-04 4th Quarter (October thru December) 2023 Prepared by: ?:i-a-t£ -1/, -~ 1 , ENERGYFUELS Energy Fuels Resources (USA) Inc. 225 Union Boulevard, Suite 600 Lakewood, CO 80228 February 12, 2024 TABLE OF CONTENTS 1.0 INTRODUCTION ................................................................................................. 1 2.0 GROUNDWATER NITRATE MONITORING ................................................. 1 2.1 Samples and Measurements Taken During the Quarter ...................................... 1 2.1.1 Nitrate Monitoring ....................................................................................... 2 2.1.2 Parameters Analyzed ................................................................................... 3 2.1.3 Groundwater Head and Level Monitoring ................................................... 3 2.2 Sampling Methodology and Equipment and Decontamination Procedures ....... .4 2.2.1 Well Purging, Sampling and Depth to Groundwater .................................. .4 2.2.2 Piezometer Sampling ................................................................................... 5 2.3 Field Data ............................................................................................................. 5 2.4 Depth to Groundwater Data and Water Table Contour Map ............................... 5 2.5 Laboratory Results ............................................................................................... 5 2.5.1 Copy of Laboratory Results ......................................................................... 5 2.5.2 Regulatory Framework ................................................................................ 6 3.0 QUALITY ASSURANCE AND DATA VALIDATION .................................... 6 3.1 Field QC Samples ................................................................................................ 6 3.2 Adherence to Mill Sampling SOPs ...................................................................... 7 3.3 Analyte Completeness Review ............................................................................ 7 3 .4 Data Validation .................................................................................................... 7 3.4.1 Field Data QA/QC Evaluation ..................................................................... 7 3.4.2 Holding Time Evaluation ............................................................................ 8 3 .4 .3 Analytical Method Checklist ....................................................................... 8 3.4.4 Reporting Limit Evaluation ......................................................................... 8 3.4.5 QA/QC Evaluation for Sample Duplicates .................................................. 8 3.4.6 Other Laboratory QA/QC ............................................................................ 9 3.4.7 Receipt Temperature Evaluation ............................................................... 10 3.4.8 Rinsate Check ............................................................................................ 10 4.0 INTERPRETATION OF DATA ........................................................................ 10 4.1 Interpretation of Groundwater Levels, Gradients and Flow Directions ............ 10 4.1.1 Current Site Groundwater Contour Map ................................................... 10 4.1.2 Comparison of Current Groundwater Contour Map to Groundwater Contour Map for Previous Quarter .................................................................................. 15 4.1.4 Depth to Groundwater Measured and Groundwater Elevation ................. 16 4.2 Effectiveness of Hydraulic Containment and Capture ...................................... 16 4.2.1 Hydraulic Containment and Control. ......................................................... 16 4.2.2 Current Nitrate and Chloride Isoconcentration Maps ................................ 20 4.2.3 Comparison of Areal Extent ............................................................................. 20 4.2.4 Nitrate and Chloride Concentration Trend Data and Graphs .................... 22 4.2.5 Interpretation of Analytical Data ............................................................... 22 4.3 Estimation of Pumped Nitrate Mass and Residual Nitrate Mass within the Plume ···························································································································24 5.0 LONG TERM PUMP TEST AT TWN-02, TW4-22, TW4-24, and TW4-25 OPERATIONS REPORT ................................................................................... 26 5.1 Introduction ........................................................................................................ 26 5.2 Pumping Well Data Collection .......................................................................... 27 Water Level Measurements ............................................................................... 27 Pumping Rates and Volumes ............................................................................. 28 5.3 5.4 6.0 CORRECTIVE ACTION REPORT .................................................................. 28 Assessment of Previous Quarter's Corrective Actions ...................................... 28 6.1 7.0 8.0 9.0 CONCLUSIONS AND RECOMMENDATIONS ............................................ 28 ELECTRONIC DAT A FILES AND FORMAT ............................................... 33 SIGNATURE AND CERTIFICATION ............................................................ 34 Table 1 Table 2 Table 3 Table 4 Table 5 Table 6 Table 7 Table 8 Table 9 Table 10 LIST OF TABLES Summary of Well Sampling and Constituents for the Period Nitrate Mass Removal Per Well Per Quarter Nitrate Well Pumping Rates and Volumes Quarterly Calculation of Nitrate Mass Removed and Total Volume of Water Pumped Nitrate Data over Time for MW-30, MW-31, MW-5, and MW-11 Slug Test Results Pre-Pumping Saturated Thickness Pre-Pumping Hydraulic Gradients and Flow Calculations Recalculated Background Flow Summary of 'Background' Flow Estimates 11 INDEX OF TABS Tab A Site Plan and Perched Well Locations White Mesa Site Tab B Order of Sampling and Field Data Worksheets Tab C Kriged Current Quarter Groundwater Contour Map and Weekly, Monthly and Quarterly Depth to Water Data Tab D Kriged Previous Quarter Groundwater Contour Map Tab E Hydrographs of Groundwater Elevations over Time for Nitrate Monitoring Wells Tab F Depths to Groundwater and Elevations over Time for Nitrate Monitoring Wells Tab G Laboratory Analytical Reports Tab H Quality Assurance and Data Validation Tables H-1 Field Data QA/QC Evaluation H-2 Holding Time Evaluation H-3 Analytical Method Check H-4 Reporting Limit Evaluation H-5 QA/QC Evaluation for Sample Duplicates H-6 QC Control limits for Analysis and Blanks H-7 Receipt Temperature Evaluation H-8 Rinsate Evaluation Tab I Kriged Current Quarter Nitrate and Chloride Isoconcentration Maps Tab J Analyte Concentration Data Over Time Tab K Nitrate and Chloride Concentration Trend Graphs Tab L CSV Transmittal Letter Tab M Residual Mass Estimate Analysis Figure 111 ACRONYM LIST CA CAP CIR CTF DIFB DWMRC DRC EFRI ft amsl GWDP LCS MS MSD QA QAP QC RPD sco SOPs UDEQ voe Consent Agreement Corrective Action Plan Contamination Investigation Report Chemtech-Ford Deionized Field Blanks Utah Division of Waste Management and Radiation Control Utah Division of Radiation Control Energy Fuels Resources (USA) Inc. feet above mean sea level Groundwater Discharge Permit Laboratory Control Spike Matrix Spike Matrix Spike Duplicate Quality Assurance Groundwater Monitoring Quality Assurance Plan Quality Control , Relative Percent Difference Stipulated Consent Order Standard Operating Procedures Utah Department of Environmental Quality Volatile Organic Compound IV 1.0 INTRODUCTION The Utah Department of Environmental Quality ("UDEQ") Division of Waste Management and Radiation Control ("DWMRC") noted in a Request dated September 30, 2008 (the "Request"), for a Voluntary Plan and Schedule to Investigate and Remediate Nitrate Contamination at the White Mesa Uranium Mill (the "Mill") (the "Plan"), that nitrate levels have exceeded the State water quality standard of 10 mg/L in certain monitoring wells. As a result of the Request, Energy Fuels Resources (USA) Inc. ("EFRI") entered into a Stipulated Consent Agreement with the Utah Water Quality Board in January 2009 which directed the preparation of a Nitrate Contamination Investigation Report ("CIR"). A subsequent letter dated December 1, 2009, among other things, recommended that EFRI also address elevated chloride concentrations in the CIR. The Stipulated Consent Agreement was amended in August 2011. Under the amended Consent Agreement ("CA"), EFRI submitted a Corrective Action Plan ("CAP"), pursuant to the requirements of the Utah Groundwater Quality Protection Rules [UAC R317-6-6.15(C -E)] on November 29, 2011 and revised versions of the CAP on February 27, 2012 and May 7, 2012. On December 12, 2012, DWMRC signed the Stipulation and Consent Order ("SCO"), Docket Number UGW12-04, which approved the EFRI CAP, dated May 7, 2012. The SCO ordered EFRI to fully implement all elements of the May 7, 2012 CAP. Based on the schedule included in the CAP and as delineated and approved by the SCO, the activities associated with the implementation of the CAP began in January 2013. The reporting requirements specified in the CAP and SCO are included in this quarterly nitrate report. This is the Quarterly Nitrate Monitoring Report, as required under the SCO, State of Utah Docket No. UGW12-04 for the fourth quarter of 2023. This report meets the requirements of the SCO, State of UDEQ Docket No. UGW12-04 and is the document which covers nitrate corrective action and monitoring activities during the fourth quarter of 2023. 2.0 GROUNDWATER NITRATE MONITORING 2.1 Samples and Measurements Taken During the Quarter A map showing the location of all groundwater monitoring wells, piezometers, existing wells, temporary chloroform contaminant investigation wells and temporary nitrate investigation wells is attached under Tab A. Nitrate samples and measurements taken during this reporting period are discussed in the remainder of this section. 1 2.1.1 Nitrate Monitoring Quarterly sampling for nitrate monitoring parameters was performed in the following wells: TWN-1 TWN-2 TWN-3 TWN-4 TWN-7 TWN-18 TWN-20 TWN-21 TW4-22* TW4-24* TW4-25* Piezometer 1 Piezometer 2 Piezometer 3A * * As discussed in Section 2.1.2 the analytical constituents required by the CAP are inorganic chloride and nitrate+nitrite as N (referred to as nitrate in this document) * Wells TW4-22, TW4-24, TW4-25 are chloroform investigation wells (wells installed and sampled primarily for the chloroform investigation) and are sampled as part of the chloroform program. The analytical suite for these three wells includes nitrate, chloride and a select list of Volatile Organic Compounds ("VOCs") as specified in the chloroform program. These three wells are included here because they are being pumped as part of the remediation of the nitrate contamination as required by the SCO and the CAP. The nitrate and chloride data are included in this report as well as in the chloroform program quarterly report. The VOC data for these three wells will be reported in the chloroform quarterly monitoring report only. ** Piezometer 3 was abandoned and replaced with Piezometer 3A in March 2016. The December 12, 2012 SCO approved the CAP, which specified the cessation of sampling in TWN-5, TWN-6, TWN-8, TWN-9, TWN-10, TWN-11, TWN-12, TWN-13, TWN-14, TWN-15, TWN-16, TWN-17, and TWN-19. The CAP and SCO also approved the abandonment ofTWN- 5, TWN-8, TWN-9, TWN-10, TWN-11, TWN·-12, TWN-13, TWN-15, and TWN-17 within 1 year of the SCO approval. These wells were abandoned in accordance with the DWMRC- approved Well Abandonment Procedure on July 31, 2013. Wells TWN-6, TWN-14, TWN-16, and TWN-19 have been maintained for depth to groundwater monitoring only, as noted in the CAP. Table 1 provides an overview of all locations sampled during the current period, along with the date samples were collected from each location, and the date(s) upon which analytical data were received from the contract laboratory. Table 1 also identifies rinsate samples collected, as well as sample numbers associated with any required duplicates. As indicated in Table I, nitrate monitoring was performed in the nitrate monitoring wells, chloroform wells TW4-22, TW4-24, TW4-25 and Piezometers 1, 2, and 3A. Analytical data for all of the above-listed wells, and the piezometers, are included in Tab G. 2 Nitrate and chloride are also monitored in all of the Mill's groundwater monitoring wells and chloroform investigation wells. Data from those wells for this quarter are incorporated in certain maps and figures in this report but are discussed in their respective programmatic reports. 2.1.2 Parameters Analyzed Locations sampled during this reporting period were analyzed for the following constituents: • Inorganic Chloride • Nitrate plus Nitrite as Nitrogen (referred to herein as nitrate) Use of analytical methods consistent with the requirements found in the White Mesa Mill Groundwater Quality Assurance Plan, ("QAP") Revision 7.7, dated February 15, 2022 was confirmed for all analytes, as discussed later in this report. 2.1.3 Groundwater Head and Level Monitoring Depth to groundwater was measured in the following wells and/or piezometers, pursuant to Part I.E.3 of the Groundwater Discharge Permit ("GWDP"): • The quarterly groundwater compliance monitoring wells • Existing well MW-4 and all of the temporary chloroform investigation wells • Piezometers -P-1, P-2, P-3A, P-4 and P-5 • MW-20, MW-22, and MW-34 • The DR piezometers that were installed during the Southwest Hydrogeologic Investigation • Nitrate wells TWN-1, TWN-2, TWN-3, TWN-4, TWN-6, TWN-7, TWN-14, TWN-16, TWN-18, TWN-19, TWN-20 and TWN-21 In addition to the above, depth to water measurements are routinely observed in conjunction with sampling events for all wells sampled during quarterly and accelerated efforts, regardless of the sampling purpose. All well levels used for groundwater contour mapping were measured and recorded within 5 calendar days of each other as indicated by the measurement dates in the summary sheet under Tab C. Field data sheets for groundwater measurements are also provided in Tab C. Weekly and monthly depth to groundwater measurements were taken in the chloroform pumping wells MW-4, MW-26, TW4-1, TW4-2, TW4-11, TW4-19, TW4-4, TW4-21, TW4-37, TW4-39, TW4-40, TW4-41, and the nitrate pumping wells TW4-22, TW4-24, TW4-25, and TWN-2. In addition, monthly water level measurements were taken in non-pumping wells MW-27, MW- 30, MW-31, TWN-1, TWN-3, TWN-4, TWN-7, and TWN-18 as required by the CAP. 3 2.2 Sampling Methodology and Equipment and Decontamination Procedures The QAP provides a detailed presentation of procedures utilized for groundwater sampling activities under the GWDP. The sampling methodology, equipment and decontamination procedures that were performed for the nitrate contaminant investigation, as summarized below, are consistent with the QAP. 2.2.1 Well Purging, Sampling and Depth to Groundwater A list of the wells in order of increasing nitrate contamination is generated quarterly. The order for purging is thus established. The list is included with the Field Data Worksheets under Tab B. Mill personnel start purging with all the nondetect wells and then move to the wells with detectable nitrate concentrations, progressing from the wells having the lowest nitrate contamination to wells with the highest nitrate contamination. Before leaving the Mill office, the pump and hose are decontaminated using the cleaning agents described in Attachment 2-2 of the QAP. Rinsate blanks are collected at a frequency of one rinsate per 20 field samples. Purging is completed to remove stagnant water from the casing and to assure that representative samples of formation water are collected for analysis. There are three purging strategies specified in the QAP that are used to remove stagnant water from the casing during groundwater sampling at the Mill. The three strategies are as follows: 1. Purging three well casing volumes with a single measurement of field parameters 2. Purging two casing volumes with stable field parameters (within 10% Relative Percent Difference ["RPD"]) 3. Purging a well to dryness and stability (within 10% RPD) of a limited list of field parameters after recovery. Mill personnel proceed to the first well, which is the well with the lowest concentration (i.e. non- detect) of nitrate based on the previous quarter's sampling results. Well depth measurements are taken and the one casing volume is calculated. The purging strategy that will be used for the well is determined at this time based on the depth to water measurement and the previous production of the well. The Grundfos pump (a 6 to 10 gallon per minute [gpm] pump) is then lowered to the appropriate depth in the well and purging is started. At the first well, the purge rate is measured for the purging event by using a calibrated 5 gallon bucket. After the evacuation of the well has been completed, the well is sampled when possible, and the pump is removed from the well and the process is repeated at each well location moving from the least contaminated to most contaminated well. If sample collection is not possible due to the well being purged dry, a sample is collected after recovery using a disposable bailer and as described in Attachment 2-3 of the QAP. Sample collection follows the procedures described in Attachment 2-4 of the QAP. After the samples have been collected for a particular well, the samples are placed into a cooler that contains ice. The well is then recapped, and Mill personnel proceed to the next well. If a bailer has been used it is disposed of. 4 Decontamination of non-dedicated equipment, using the reagents in Attachment 2-2 of the QAP, is performed between each sample location, and at the beginning of each sampling day, m addition to the pre-event decontamination described above. 2.2.2 Piezometer Sampling Samples are collected from Piezometers 1, 2 and 3A, if possible. Samples are collected from piezometers using a disposable bailer after one set of field measurements have been collected. Due to the difficulty in obtaining samples from the piezometers, the purging protocols set out in the QAP are not followed. After samples are collected, the bailer is disposed of and samples are placed into a cooler containing ice for sample preservation and transit to the Mill's contract analytical laboratory, Chemtech-Ford ("CTF"). 2.3 Field Data Attached under Tab B are copies of all Field Data Worksheets that were completed during the quarter for the nitrate investigation monitoring wells and piezometers identified in Section 2.1.1 and Table 1. 2.4 Depth to Groundwater Data and Water Table Contour Map Depth-to-groundwater measurements that were utilized for groundwater contours are included on the Quarterly Depth to Water Sheet at Tab C of this Report along with the kriged groundwater contour map for the current quarter generated from this data. All well levels used for groundwater contour mapping were measured and recorded within 5 calendar days of each other as indicated by the measurement dates in the summary sheet under Tab C. A copy of the kriged groundwater contour map generated from the previous quarter's data is provided under Tab D. 2.5 Laboratory Results 2.5.1 Copy of Laboratory Results The analytical results were provided by CTF. Table 1 lists the dates when analytical results were reported to the Director, Regulatory Compliance for each well or other sample. Analytical results for the samples collected for this quarter's nitrate investigation and a limited list of chloroform investigation nitrate and chloride results are provided under Tab G of this Report. Also included under Tab G are the results of analyses for duplicate samples and rinsate samples for this sampling effort, as identified in Table 1. See the Groundwater Monitoring Report and Chloroform Monitoring Report for this quarter for nitrate and chloroform analytical results for the groundwater monitoring wells and chloroform investigation wells not listed in Table 1. 5 2.5.2 Regulatory Framework As discussed in Section 1.0 above, the Request, Plan, and CA each triggered a series of actions on EFRI's part. Potential surficial sources of nitrate and chloride have been described in the December 30, 2009 CIR and additional investigations into potential sources were completed and discussed with DWMRC in 2011. Pursuant to the CA, the CAP was submitted to the Director of the Division Waste Management and Radiation Control (the "Director") on May 7, 2012. The CAP describes activities associated with the nitrate in groundwater. The CAP was approved by the Director on December 12, 2012. This quarterly report documents the monitoring consistent with the program described in the CAP. 3.0 QUALITY ASSURANCE AND DATA VALIDATION EFRI's Director, Regulatory Compliance performed a Quality Assurance/Quality Control ("QA/QC") review to confirm compliance of the monitoring program with the requirements of the QAP. As required in the QAP, data QA includes preparation and analysis of QC samples in the field, review of field procedures, an analyte completeness review, and QC review of laboratory data methods and data. Identification of field QC samples collected and analyzed is provided in Section 3.1. Discussion of adherence to Mill sampling Standard Operating Procedures ("SOPs") is provided in Section 3.2. Analytical completeness review results are provided in Section 3.3. The steps and tests applied to check field data QA/QC, holding times, receipt temperature and laboratory data QA/QC are discussed in Sections 3.4.1 through 3.4.7 below. The analytical laboratory has provided summary reports of the analytical QA/QC measurements necessary to maintain conformance with National Environmental Laboratory Accreditation Conference certification and reporting protocol. The Analytical Laboratory QA/QC Summary Reports, including copies of the Mill's Chain of Custody and Analytical Request Record forms for each set of Analytical Results, follow the analytical results under Tab G. Results of the review of the laboratory QA/QC information are provided under Tab H and discussed in Section 3.4, below. 3.1 Field QC Samples The following QC samples were generated by Mill personnel and submitted to the analytical laboratory in order to assess the quality of data resulting from the field sampling program. Field QC samples for the nitrate investigation program consist of one field duplicate sample for each 20 samples, DI Field Blanks ("DIFB"), and equipment rinsate samples. During the quarter, one duplicate sample was collected as indicated in Table 1. The duplicate was sent blind to the analytical laboratory and analyzed for the same parameters as the nitrate wells. One rinsate blank sample was collected as indicated on Table 1. Rinsate samples are labeled with the name of the subsequently purged well with a terminal letter "R" added ( e.g. TWN-7R). 6 The field QC sample results are included with the routine analyses under Tab G. 3.2 Adherence to Mill Sampling SOPs The Director, Regulatory Compliance review of Mill Personnel's adherence to the ex1stmg SOPs, confirmed that the QA/QC requirements established in the QAP and Nitrate QAP were met. 3.3 Analyte Completeness Review All analyses required by the GWDP for nitrate monitoring for the period were performed. 3.4 Data Validation The QAP and GWDP identify the data validation steps and data QC checks required for the nitrate monitoring program. Consistent with these requirements, the Director, Regulatory Compliance performed the following evaluations: a field data QA/QC evaluation, a holding time evaluation, an analytical method check, a reporting limit evaluation, a QC evaluation of sample duplicates, a QC evaluation of control limits for analysis and blanks, a receipt temperature evaluation, and a rinsate evaluation. Because no VOCs are analyzed for the nitrate contamination investigation, no trip blanks are required in the sampling program. Each evaluation is discussed in the following sections. Data check tables indicating the results of each test are provided under TabH. 3.4.1 Field Data QA/QC Evaluation The Director, Regulatory Compliance performs a review of all field recorded parameters to assess their adherence with QAP requirements. The assessment involved review of two sources of information: the Field Data Sheets and the Quarterly Depth to Water summary sheet. Review of the Field Data Sheets addresses well purging volumes and stability of five parameters: conductance, pH, temperature, redox potential, turbidity, and dissolved oxygen ("DO"). Review of the Depth to Water data confirms that all depth measurements used for development of groundwater contour maps were conducted within a five-day period of each other. The results of this quarter's review are provided under Tab H. Based upon the review of the field data sheets, field work was completed in compliance with the QAP purging and field measurement requirements. A summary of the purging techniques employed and field measurements taken is described below: Purging Two Casing Volumes with Stable Field Parameters (within 10% RPD) Wells TWN-01, TWN-04, and TWN-18 were sampled after two casing volumes were removed. Field parameters pH, specific conductivity, turbidity, water temperature, DO, and redox potential were measured during purging. All field parameters for this requirement were stable within 10% RPD. Purging a Well to Dryness and Stability of a Limited List of Field Parameters Wells TWN-03, TWN-07, TWN-20, and TWN-21 were purged to dryness before two casing 7 volumes were evacuated. After well recovery, one set of measurements for the field parameters of pH, specific conductivity, and water temperature only were taken; the samples were collected, and another set of measurements for pH, specific conductivity, and water temperature were taken. Stabilization of pH, conductivity and temperature are required within 10% RPD under the QAP. All field parameters for this requirement were stable within 10% RPD. Continuously Pumped Wells Wells TWN-02, TW4-22, TW4-24, and TW4-25 are continuously pumped wells. These wells are pumped on a set schedule per the remediation plan and are considered sufficiently evacuated to immediately collect a sample. As previously noted, TW4-22, TW4-24, and TW4-25 are chloroform investigation wells and are sampled under the chloroform program. Data for nitrate and chloride are provided here for completeness purposes. During review of the field data sheets, it was observed that sampling personnel consistently recorded depth to water to the nearest 0.01 foot. All field parameters for all wells were within the QAP required limits, as indicated below. The field data collected during the quarter were in compliance with QAP requirements. 3.4.2 Holding Time Evaluation QAP Table 1 identifies the method holding times for each suite of parameters. Sample holding time checks are provided in Tab H. All samples were received and analyzed within the required holding time. 3.4.3 Analytical Method Checklist All analytical methods reported by the laboratory were checked against the required methods enumerated in the QAP. Analytical method checks are provided in Tab H. All methods were consistent with the requirements of the QAP. 3.4.4 Reporting Limit Evaluation All analytical method reporting limits ("RLs") reported by the laboratory were checked against the reporting limits enumerated in the QAP. Reporting Limit Checks are provided in Tab H. All analytes were measured and reported to the required reporting limits, with the exception of several samples that had increased reporting limits due to matrix interference or required dilution due to the sample concentration. However, in all of those cases the analytical results were greater than the reporting limit used. 3.4.5 QA/QC Evaluation for Sample Duplicates Section 9 .1.4 a) of the QAP states that RPDs will be calculated for the comparison of duplicate and original field samples. The QAP acceptance limits for RPDs between the duplicate and original field sample is less than or equal to 20% unless the measured results are less than 5 times the required detection limit. This standard is based on the EPA Contract Laboratory Program National Functional Guidelines for Inorganic Data Review, February 1994, 9240.1-05- 8 01 as cited in the QAP. The RPDs are calculated for duplicate pairs for all analytes regardless of whether or not the reported concentrations are greater than 5 times the required detection limits. However, data will be considered noncompliant only when the results are greater than 5 times the required detection limit and the RPD is greater than 20%. The duplicate results were within a 20% RPD in the samples. Results of the RPD test are provided in Tab H. 3.4.6 Other Laboratory QA/QC Section 9.2 of the QAP requires that the laboratory's QA/QC Manager check the following items in developing data reports: (1) sample preparation information is correct and complete, (2) analysis information is correct and complete, (3) appropriate Analytical Laboratory procedures are followed, (4) analytical results are correct and complete, (5) QC samples are within established control limits, (6) blanks are within QC limits, (7) special sample preparation and analytical requirements have been met, and (8) documentation is complete. In addition to other laboratory checks described above, EFRI's Director, Regulatory Compliance rechecks QC samples and blanks (items (5) and (6)) to confirm that the percent recovery for spikes and the relative percent difference for spike duplicates are within the method-specific required limits, or that the case narrative sufficiently explains any deviation from these limits. Results of this quantitative check are provided in Tab H. The lab QA/QC results met these specified acceptance limits. The QAP, Section 8.1.2 states that an MS/MSD pair may be analyzed with each analytical batch depending on the analytical method specifications. The QAP does not specify acceptance limits for the MS/MSD pair, and the QAP does not specify that the MS/MSD pair be prepared on EFRI samples only. Acceptance limits for MS/MSDs are set by the laboratories. The review of the information provided by the laboratories in the data packages verified that the specifications in the analytical methods to analyze either an MS or MS/MSD pair with each analytical batch were met as applicable to each method. While the QAP does not require it, the recoveries were reviewed for compliance with the laboratory established acceptance limits. The QAP does not require this level of review and the results of this review are provided for information only. The information from the Laboratory QA/QC Summary Reports indicates that the MS/MSDs recoveries and the associated RPDs for the samples were within acceptable laboratory limits except as indicated in Tab H. The data recoveries and RPDs which are outside the laboratory established acceptance limits do not affect the quality or usability of the data because the recoveries and RPDs above or below the acceptance limits are indicative of matrix interference most likely caused by other constituents in the samples. Matrix interferences are applicable to the individual sample results only. The specifications in the analytical methods to analyze a MS/MSD pair with each analytical batch ( as applicable to the methods) was met and as such the data are compliant with the QAP. The information from the Laboratory QA/QC Summary Reports indicates that the Laboratory Control Sample recoveries were acceptable, which indicate that the analytical system was operating properly. 9 The QAP Section 8.1.2 requires that each analytical batch shall be accompanied by a reagent blank. All analytical batches routinely contain a blank, which is a laboratory-grade water blank sample made and carried through all analytical steps. For the Mill samples, a method blank is prepared for all analytical methods. The information from the Laboratory QA/QC Summary Reports indicates that the method blanks did not contain detections of any target analytes above the RL. 3.4. 7 Receipt Temperature Evaluation Chain of Custody sheets were reviewed to confirm compliance with the QAP requirement in QAP Table 1 that samples be received at 6°C or lower. Sample temperatures checks are provided in Tab H. All samples were received within the required temperature limit. 3.4.8 Rinsate Check Rinsate checks are provided in Tab H. A comparison of the rinsate blank sample concentration levels to the QAP requirements -that rinsate sample concentrations be one order of magnitude lower than that of the actual well -indicated that all of the rinsate blank analytes met this criterion. All rinsate and DIFB blank samples were non-detect for the quarter. 4.0 INTERPRETATIONOFDATA 4.1 Interpretation of Groundwater Levels, Gradients and Flow Directions. 4.1.1 Current Site Groundwater Contour Map As stated above, a listing of groundwater level readings for the current quarter (shown as depth to groundwater in feet) is included under Tab C. The data from this tab has been interpreted (interpolated by kriging) and plotted in a water table contour map, provided under the same tab. The contour map is based on the current quarter's data for all wells. The water level contour maps indicate that perched water flow ranges from generally southwesterly beneath the Mill site and tailings cells to generally southerly along the eastern and western margins of White Mesa south of the tailings management system. Perched water mounding associated with the wildlife ponds is still evident and locally changes the generally southerly perched water flow patterns. For example, northeast of the Mill site, mounding associated with formerly used wildlife ponds disrupts the generally southwesterly flow pattern, to the extent that locally northwesterly flow occurs near MW-19 and PIEZ-1. The impact of the mounding associated with the northern ponds, to which water has not been delivered since March 2012, is diminishing and is expected to continue to diminish as the mound decays due to reduced recharge. The perched groundwater mound associated with the southern wildlife pond is also diminishing due to reduced recharge at that location. Not only has recharge from the wildlife ponds impacted perched water elevations and flow directions at the site, but the cessation of water delivery to the northern ponds, which are generally upgradient of the nitrate and chloroform plumes at the site, resulted in changing conditions that were expected to impact constituent concentrations and migration rates within the 10 plumes. Specifically, past recharge from the ponds helped limit many constituent concentrations within the plumes by dilution while the associated groundwater mounding increased hydraulic gradients and contributed to plume migration. Since use of the northern ponds was discontinued in March, 2012, increases in constituent concentrations in many wells, and decreases in hydraulic gradients within the plumes, are attributable to reduced recharge and the decay of the associated groundwater mound. EFRI and its consultants anticipated these changes and discussed these and other potential effects during discussions with DWMRC in March 2012 and May 2013. The impacts associated with cessation of water delivery to the northern ponds were expected to propagate downgradient (south and southwest) over time. Wells close to the ponds were generally expected to be impacted sooner than wells farther downgradient of the ponds. Therefore, constituent concentrations were generally expected to increase in downgradient wells close to the ponds before increases were detected in wells farther downgradient of the ponds. Although such increases were anticipated to result from reduced dilution, the magnitude and timing of the increases were anticipated to be and have been difficult to predict due to the complex permeability distribution at the site and factors such as pumping and the rate of decay of the groundwater mound. Because of these complicating factors, some wells completed in higher permeability materials were expected to be impacted sooner than other wells completed in lower permeability materials even though the wells comple_ted in lower permeability materials were closer to the ponds. In general, nitrate concentrations within and adjacent to the nitrate plume appear to have been impacted to a lesser extent than chloroform and nitrate concentrations within and in the vicinity of the chloroform plume. This behavior is reasonable considering that the chloroform plume is generally more directly downgradient of and more hydraulically connected (via higher permeability materials) to the wildlife ponds. Localized increases in concentrations of constituents such as nitrate and chloride within and near the nitrate plume may occur even when the nitrate plume is under control based on the Nitrate • CAP requirements. Ongoing mechanisms that can be expected to increase the concentrations of nitrate and chloride locally as a result of reduced wildlife pond recharge include but are not limited to: 1) Reduced dilution -the m1xmg of low constituent concentration pond recharge into existing perched groundwater will be reduced over time. 2) Reduced saturated thicknesses -dewatering of higher permeability zones receiving primarily low constituent concentration pond water will result in wells intercepting the zones receiving a smaller proportion of the low constituent concentration water. The combined impact of the above two mechanisms was anticipated to be more evident at chloroform pumping wells MW-4, MW-26, TW4-4, TW4-19, and TW4-20 (now abandoned); nitrate pumping wells TW4-22, TW4-24, TW4-25, and TWN-2; and non-pumped wells adjacent to the pumped wells. Impacts were also expected to occur over time at wells subsequently added to the chloroform pumping network: TW4-1, TW4-2, TW4-11, TW4-21 and TW4-37 (added during 2015); TW4-39 (added during the fourth quarter of 2016); TW4-41 (added during the second quarter of 2018); and TW4-40 (added during the second quarter of 2019). The overall impact was expected to be generally higher constituent concentrations in these wells over time 11 until mass reduction resulting from pumping and natural attenuation eventually reduces concentrations. Short-term changes in concentrations at pumping wells and wells adjacent to pumping wells are also expected to result from changes in pumping conditions. In addition to changes in the flow regime caused by wildlife pond recharge, perched flow directions are locally influenced by operation of the chloroform and nitrate pumping wells. Well- defined cones of depression were typically evident in the vicinity of all chloroform pumping wells except TW4-4 and TW4-37, which began pumping in the first quarter of 2010 and the second quarter of 2015, respectively. The third quarter of 2018 was the first quarter that a well- defined cone of depression was associated with TW4-4, primarily the result of pumping at adjacent well TW4-41. The lack of well-defined capture associated with chloroform pumping well TW4-4 was consistent prior to the third quarter of 2018, even though pumping since the first quarter of 2010 has depressed the water table in the vicinity of this well. The lack of a well-defined cone of depression near TW4-4 likely resulted from 1) variable permeability conditions in the vicinity of TW4-4, and 2) persistent relatively low water levels at adjacent well TW4-14. ·Pumping of nitrate wells TW4-22, TW4-24, TW4-25, and TWN-2 began during the first quarter of 2013. Water level patterns near these wells are expected to be influenced by the presence of and the decay of the groundwater mound associated with the northern wildlife ponds, and by the historically relatively low water level elevation at TWN-7. Although positioned up-to cross- gradient of the nitrate pumping wells, TWN-7 is also typically downgradient of TWN-3 and the northern (upgradient) extremity of the nitrate plume. Since 2012, water levels in TWN-7 have risen while water levels in nearby wells have generally dropped due to pumping and the decay of the northern groundwater mound. These factors have reduced water level differences between TWN-7 and nearby wells. Capture associated with nitrate pumping is expected to continue to increase over time as water levels decline due to pumping and to cessation of water delivery to the northern wildlife ponds. Interaction between nitrate and chloroform pumping is expected to enhance the capture of the nitrate pumping system. The long-term interaction between the nitrate and chloroform pumping systems is evolving, and changes will be reflected in data collected during routine monitoring. As discussed above, variable permeability conditions are one likely reason for the prior lack of a well-defined cone of depression near chloroform pumping well TW4-4. Changes in water levels at wells immediately south and southeast (downgradient) of TW4-4 resulting from TW4-4 pumping were expected to be muted because TW 4-4 is located at a transition from relatively high to relatively low permeability conditions south and southeast of TW4-4. As will be discussed below, the permeability of the perched zone at TW4-6, TW4-26, TW4-29, TW4-30, TW4-31, TW4-33, TW4-34, and TW4-35 is one to two orders of magnitude lower than at TW4- 4, and the permeability at TW4-27 is approximately three orders of magnitude lower than at TW4-4. Detecting water level drawdowns in wells immediately south and southeast of TW4-4 resulting from TW4-4 pumping has also been complicated by a former, long-term increase in water levels in this area that has been attributable to past wildlife pond recharge. Between the fourth quarter 12 of 2007 and the fourth quarter of 2009 Gust prior to the start of TW 4-4 pumping), water levels at TW4-4 and TW4-6 increased by nearly 2.7 and 2.9 feet at rates of approximately 1.2 feet/year and 1.3 feet/year, respectively. However, between the start of pumping at TW4-4 (first quarter of 2010) and the fourth quarter of 2013, the rate of increase in water level at TW4-6 was reduced to less than 0.5 feet/year suggesting that TW4-6 is within the hydraulic influence of TW4-4. Water levels in wells currently within the chloroform plume south of TW4-4 (TW4-26, TW4-29 and TW4-40) are generally decreasing to stable. Note that water levels at TW4-30, which was incorporated within the plume between the fourth quarter of 2020 and second quarter of 2022, have been decreasing since 2020. Generally decreasing to stable water levels are evident at TW4-26 and TW4-29 since the fourth quarter of 2013; and at TW4-40 since installation in the first quarter of 2018. The water level in TW4-6 (remaining outside the plume again this quarter) has also trended generally downward since the fourth quarter of 2013; likewise the water level at TW4-33 (outside the chloroform plume since the first quarter of 2021) has trended downward since 2013. These generally downward trends are attributable to both reduced wildlife pond recharge and pumping. Although water levels at some of the wells marginal to the chloroform plume such as TW4-14, TW4-27 and TW4-31 were generally increasing until about the first quarter of 2018, these water levels now appear to be relatively stable to decreasing. Water level trends at TW4-30 have been similar to those at TW4-27. These spatially variable water level trends likely result from pumpmg conditions, the permeability distribution, and distance from the wildlife ponds. Wells that are relatively hydraulically isolated ( due to completion in lower permeability materials or due to intervening lower permeability materials) and that are more distant from pumping wells and the wildlife ponds, are expected to respond more slowly to pumping and reduced recharge than wells that are less hydraulically isolated and are closer to pumping wells and the wildlife ponds. Wells that are more hydraulically isolated will also respond more slowly to changes in pumping. The previous lack of a well-defined cone of depression associated with TW4-4 was also influenced by the persistent, relatively low water level at non-pumping well TW 4-14, located east of TW4-4 and TW4-6. Although water level differences among these three wells had diminished, the water level at TW 4-14 was typically lower than the water level at TW 4-6 and several feet lower than the water level at TW 4-4 even though TW 4-4 has been pumping since 2010. However, since the first quarter of 2018, as a result of pumping at TW4-41 (adjacent to TW4-4), and declining water levels at TW4-6, the water level at TW4-14 was typically higher than the water levels at both TW4-4 and TW4-6. During the current quarter the water level at TW4-14 (approximately 5535.4 feet above mean sea level ["ft amsl"]) is approximately 7 feet higher than the water level at TW4-6 (approximately 5528.4 ft amsl), and is more than 7 feet higher than the water level at TW4-4 (approximately 5528.3 ft. amsl). The static water levels at wells TW4-14 and downgradient well TW4-27 (installed south of TW4-14 in the fourth quarter of 2011) were similar (within 1 to 2 feet) until the third quarter of 2014; both appeared anomalously low. Prior to the installation of TW4-27, the persistently low water level at TW 4-14 was considered anomalous because it appeared to be downgradient of all three wells TW4-4, TW4-6, and TW4-26, yet chloroform had not been detected at TW4-14. Chloroform had apparently migrated from TW4-4 to TW4-6 and from TW4-6 to TW4-26. This suggested that TW4-26 was actually downgradient of TW4-6, and TW4-6 was actually 13 downgradient of TW4-4, regardless of the flow direction implied by the relatively low water level at TW4-14. The water level at TW4-26 (5526.3 feet amsl) is, however, lower than water levels at adjacent wells TW4-6 (5528.4 feet amsl) and TW4-23 (5530.5 feet amsl), as shown in the detail water level map under Tab C. Hydraulic tests indicate that the permeability at TW4-27 is an order of magnitude lower than at TW4-6 and three orders of magnitude lower than at TW4-4 (see Hydro Geo Chem, Inc. [HGC], September 20, 2010: Hydraulic Testing of TW4-4, TW4-6, and TW4-26, White Mesa Uranium Mill, July 2010; and HGC, November 28, 2011: Installation, Hydraulic Testing, and Perched Zone Hydrogeology of Perched Monitoring Well TW4-27, White Mesa Uranium Mill Near Blanding, Utah). Past similarity of water levels at TW4-14 and TW4-27, and the low permeability estimate at TW4-27, suggested that both wells were completed in materials having lower permeability than nearby wells. The low permeability condition likely reduced the rate of long-term water level increase at TW4-14 and TW4-27 compared to nearby wells, yielding water levels that appeared anomalously low. This behavior is consistent with hydraulic test data collected from more recently installed wells TW4-29, TW4-30, TW4-31, TW4-33, TW4-34 and TW4-35, which indicate that the permeability of these wells is one to two orders of magnitude higher than the permeability of TW4-27 (see: HGC, January 23, 2014, Contamination Investigation Report, TW4-12 and TW4-27 Areas, White Mesa Uranium Mill Near Blanding, Utah; and HGC, July 1, 2014, Installation and Hydraulic Testing of TW4-35 and TW4-36, White Mesa Uranium Mill Near Blanding, Utah [As-Built Report]). Hydraulic tests also indicate that the permeability at TW4-36 is slightly higher than but comparable to the low permeability at TW4-27, suggesting that TW4-36, TW4-14 and TW4-27 are completed in a continuous low permeability zone. The current quarterly water level at TW4-27 (approximately 5528.7 ft. amsl) is nearly 7 feet lower than the water level at TW4-14 (5535.4 ft. amsl). Increases in water level differences between TW4-14 and TW4-27 since 2013 are attributable to more rapid increases in water levels at TW4-14 compared to TW4-27. This behavior likely results primarily from: the relative positions of the wells; past water delivery to the northern wildlife ponds; and the permeability distribution. Past seepage from the ponds caused propagation of water level increases in all directions including downgradient to the south. The relative hydraulic isolation of TW 4-14 and TW4-27 delayed responses at these locations. Until pumping started at TW4-41, water levels at both these wells were consistently lower than in surrounding higher permeability materials even though water levels in surrounding materials were generally decreasing due to reduced pond seepage and pumping. Although water levels at TW4-14 and TW4-27 appear to have stabilized, the previous rate of increase was higher at TW 4-14 due to factors that include: closer proximity to the northern pond seepage source and a smaller thickness of low permeability materials separating TW 4-14 from surrounding higher permeability materials. In addition, hydraulic gradients between TW 4-14 and surrounding higher permeability materials were relatively large and were consistently directed toward TW4-14 prior to TW4-41 pumping. Slowing of the rates of water level increase at TW4-14 (since 2015) and TW4-27 (since early 2014), and relative stabilization since about the first quarter of 2018, are attributable to changes in hydraulic gradients between these wells and surrounding higher permeability materials. In addition, water levels in this area are affected by reduced recharge at the southern wildlife pond and the decay of the associated groundwater mound. The decay of the mound is expected to 14 contribute to changes in hydraulic gradients between the low permeability materials penetrated by TW4-14 and TW4-27 and the surrounding higher permeability materials. Because TW4-27 is closer to the southern wildlife pond than TW4-14, changes in hydraulic gradients attributable to decay of the southern groundwater mound are expected to impact TW4-27 sooner and to a greater extent than TW4-14, consistent with the lower rate of increase in water levels at TW4-27, and the earlier reduction in the rate of increase (since early 2014) as discussed above). 4.1.2 Comparison of Current Groundwater Contour Map to Groundwater Contour Map for Previous Quarter The groundwater contour map for the Mill site for the previous quarter, as submitted with the Nitrate Monitoring Report for the previous quarter, is attached under Tab D. A comparison of the water table contour maps for the current quarter (fourth quarter of 2023) to the water table contour maps for the previous quarter (third quarter of 2023) indicates the following: water level changes at the majority of site wells were small ( < 1 foot); and water level contours have not changed significantly except in the vicinities of many of the nitrate and chloroform pumping wells. Overall, total capture resulting from pumping is about the same as last quarter's capture. The drawdowns at chloroform pumping wells MW-26, TW4-1, TW4-2, TW4-19, TW4-21 and TW4-39; and nitrate pumping well TWN-2 increased by more than 2 feet this quarter, whereas drawdowns at chloroform pumping wells TW4-4 and TW4-37 decreased by more than 2 feet this quarter. Water level changes at other nitrate and chloroform pumping wells were 2 feet or less, although both increases (decreases in drawdown) and decreases (increases in drawdown) occurred. Water level fluctuations at pumping wells typically occur in part because of fluctuations in pumping conditions just prior to and at the time the measurements are taken. The reported water levels for chloroform pumping wells TW4-1, TW4-2 and TW4-11 are below the depth of the Brushy Basin contact this quarter. Although both increases and decreases in drawdown occurred in pumpi~g wells, the overall apparent capture area of the combined pumping system is about the same as last quarter. As discussed in Section 4.1.1, pumping at chloroform well TW4-4, which began in the first quarter of 2010, depressed the water table near TW4-4, but a well-defined cone of depression was not clearly evident until the third quarter of 2018, likely due to variable permeability conditions near TW4-4 and the historic persistently low water level at adjacent well TW4-14. The expanded cone of depression associated with TW4-4 and adjacent pumping well TW4-41 since the initiation of pumping at TW 4-41 in the second quarter of 2018 has contributed to southerly expansion of total pumping system capture. Southerly expansion of capture was - additionally enhanced in the second quarter of 2019 by the initiation of pumping at TW4-40. The water levels at Piezometers 1 through 3A; and at TWN-4 decreased this quarter, with a maximum decrease of approximately 0.55 ft at PIEZ-3A. However, water levels at Piezometers 4 and 5; and at TWN-1 increased this quarter, with a maximum increase of approximately 2 ft at Piez-4. Water levels at these installations typically decrease in response to cessation of water delivery to the wildlife ponds as discussed in Section 4.1.1 and the consequent continuing decay of the associated perched water mounds. 15 Typically variable, the reported water level at MW-20 decreased by approximately 3.1 ft compensating for the nearly 3.3 ft increase last quarter. Water level variability at this well has likely resulted from low permeability and variable intervals between purging/sampling and water level measurement. Measurable water was not reported at DR-22. Although DR-22 is typically dry, measurable water was reported in the bottom of its casing between the second quarter of 2015 and the third quarter of 2016. Similarly, no measurable water was reported at DR-12. Measurable water has not been reported at DR-12 since the end of 2021. 4.1.3 Hydrographs Attached under Tab E are hydrographs showing groundwater elevation in each nitrate contaminant investigation monitor well over time. Per the CAP, nitrate wells TWN-6, TWN-14, TWN-16, and TWN-19 have been maintained for depth to groundwater monitoring only. These hydrographs are also included in Tab E. 4.1.4 Depth to Groundwater Measured and Groundwater Elevation Attached in Tab Fare tables showing depth to groundwater measured and groundwater elevation over time for each of the wells listed in Section 2.1.1 above. 4.2 Effectiveness of Hydraulic Containment and Capture 4.2.1 Hydraulic Containment and Control The CAP ~tates that hydraulic containment and control will be evaluated in part based on water level data and in part on concentrations in wells downgradient of pumping wells TW4-22 and TW4-24. As per the CAP, the fourth quarter of 2013 was the first quarter that hydraulic capture associated with nitrate pumping wells TW4-22, TW4-24, TW4-25, and TWN-2 was evaluated. Hydraulic containment and control based on water level data is considered successful per the CAP if the entire nitrate plume upgradient of TW4-22 and TW4-24 falls within the combined capture of the nitrate pumping wells. Capture zones based on water level contours calculated by kriging the current quarter's water level data are provided on water level contour maps included under Tab C. The nitrate capture zones are defined by the bounding stream tubes associated with nitrate pumping wells. Each bounding stream tube represents a flow line parallel to the hydraulic gradient and therefore perpendicular to the intersected water level contours. Assuming that the stream tubes do not change over time, all flow between the bounding stream tubes associated with a particular pumping well is presumed to eventually reach and be removed by that well. Capture associated with chloroform pumping wells is also included on these maps because the influence of the chloroform and nitrate pumping systems overlap. The specific methodology for calculating the nitrate capture zones is substantially the same as that used since the fourth quarter of 2005 to calculate the capture zones for the chloroform program, as agreed to by the DWMRC and EFRI. The procedure for calculating nitrate capture zones is as follows: 16 1) Calculate water level contours by gridding the water level data on approximately 50-foot centers using the ordinary linear kriging method in Surfer™. Default kriging parameters are used that include a linear variogram, an isotropic data search, and all the available water level data for the quarter, including relevant seep and spring elevations. 2) Calculate the capture zones by hand from the kriged water level contours following the rules for flow nets: -From each pumping well, reverse track the stream tubes that bound the capture zone of each well, -maintain perpendicularity between each stream tube and the kriged water level contours. Compared to last quarter, both increases and decreases in water levels occurred at nitrate and chloroform pumping wells, although changes in water levels in chloroform pumping wells MW- 4, TW4-11, TW4-40 and TW4-41; and nitrate pumping wells TW4-22, TW4-24 and TW4-25 were less than two feet. Water level decreases occurred in chloroform pumping wells MW 4-4 (approximately 1.1 feet); MW-26 (approximately 2.6 feet); TW4-1 nearly 3 feet); TW4-2 (nearly 11 feet); TW4-11 (approximately 0.02 feet); TW4-19 (nearly 14.5 feet); TW4-21 (nearly 4.7 feet); TW4-39 (nearly 4 feet); TW4-40 (more than 0.5 feet); and TW4-41 more than 0.7 feet; and in nitrate pumping wells TW4-25 (nearly 1.8 feet); and TWN-2 (more than 2 feet). Water level increases occurred in chloroform pumping wells TW4-4 (approximately 2.9 feet); TW4-37 (nearly 5 feet); and in nitrate pumping wells TW4-22 (more than 1.7 feet); and TW4-24 (nearly 1.4 feet). Overall, the apparent combined capture area of the nitrate and chloroform pumping systems is about the same as last quarter. The capture associated with nitrate pumping wells and the eight chloroform pumping wells added since the first quarter of 2015 is expected to generally increase over time as water levels continue to decline due to pumping and to cessation of water delivery to the northern wildlife ponds. Slow development of hydraulic capture is consistent with and expected based on the relatively low permeability of the perched zone at the site. Furthermore, although the perched groundwater mound has diminished, and water levels at TWN-7 have risen, the definition of capture associated with the nitrate pumping system continues to be influenced by the remaining perched groundwater mound and the historically relatively low water level at TWN-7. That pumping is likely sufficient to eventually capture the entire plume upgradient of TW4-22 and TW4-24 can be demonstrated by comparing the combined average pumping rates of all nitrate pumping wells for the current quarter to estimates of pre-pumping flow through the nitrate plume near the locations of TW4-22 and TW4-24. The pre-pumping flow calculation presented from the fourth quarter of 2013 through the second quarter of 2015 was assumed to represent a steady state 'background' condition that included constant recharge, hydraulic gradients, and saturated thicknesses; the calculation did not account for reduced recharge and saturated thickness caused by cessation of water delivery to the northern wildlife ponds since March, 2012. Because significant water level declines have occurred in upgradient portions of the nitrate plume due to reduced recharge, hydraulic gradients within the plume have been reduced independent of pumping. Changes related to reduced wildlife pond recharge have also resulted in reduced well productivity. Generally reduced productivities of nitrate pumping well TW4-24 and 17 chloroform pumping well TW 4-19 since the third quarter of 2014 are at least partly the result of reduced recharge. The pre-pumping flow through the nitrate plume near TW4-22 and TW4-24 that was presented from the fourth quarter of 2013 through the second quarter of 2015 was estimated using Darcy's Law to lie within a range of approximately 1.31 gpm to 2. 79 gpm. Calculations were based on an average hydraulic conductivity range of 0.15 feet per day (ft. /day) to 0.32 ft. /day ( depending on the calculation method), a pre-pumping hydraulic gradient of 0.025 feet per foot (ft. /ft.), a plume width of 1,200 feet, and a saturated thickness (at TW4-22 and TW4-24) of 56 feet. The hydraulic conductivity range was estimated by averaging the results obtained from slug test data that were collected automatically by data loggers from wells within the plume and analyzed using the KGS unconfined slug test solution available in Aqtesolv™ (see Hydro Geo Chem, Inc. [HGC], August 3, 2005: Perched Monitoring Well Installation and Testing at the White Mesa Uranium Mill, April Through June 2005; HGC, March 10, 2009: Perched Nitrate Monitoring Well Installation and Hydraulic Testing, White Mesa Uranium Mill; and HGC, March 17 2009: Letter Report to David Frydenlund, Esq, regarding installation and testing of TW4-23, TW4-24, and TW4-25). These results are summarized in Table 6. Data from fourth quarter 2012 were used to estimate the pre-pumping hydraulic gradient and saturated thickness. These data are summarized in Tables 7 and 8. The average hydraulic conductivity was estimated to lie within a range of 0.15 ft. /day to 0.32 ft. /day. Averages were calculated four ways. As shown in Table 6 arithmetic and geometric averages for wells MW-30, MW-31, TW4-22, TW4-24, TW4-25, TWN-2, and TWN-3 were calculated as 0.22 and 0.15 ft. /day, respectively. Arithmetic and geometric averages for a subset of these wells (MW-30, MW-31, TW4-22, and TW4-24) were calculated as 0.32 and 0.31 ft./day, respectively. The lowest value, 0.15 ft. /day, represented the geometric average of the hydraulic conductivity estimates for all the plume wells. The highest value, 0.32 ft. /day, represented the arithmetic average for the four plume wells having the highest hydraulic conductivity estimates (MW-30, MW-31, TW4-22, and TW4-24). Pre-pumping hydraulic gradients were estimated at two locations; between TW4-25 and MW-31 (estimated as 0.023 ft. /ft.), and between TWN-2 and MW-30 (estimated as 0.027 ft. /ft.). These results were averaged to yield the value used in the calculation (0.025 ft. /ft.). The pre-pumping saturated thickness of 56 feet was an average of pre-pumping saturated thicknesses at TW4-22 and TW4-24. As discussed above the hydraulic gradient and saturated thickness used in the pre-pumping calculations were assumed to represent a steady state 'background' condition that was inconsistent with the cessation of water delivery to the northern wildlife ponds, located upgradient of the nitrate plume. Hydraulic gradients and saturated thicknesses within the plume have declined since nitrate pumping began as a result of two factors: reduced recharge from the ponds, and the effects of pumping. A more representative 'background' flow condition that accounted for reduced wildlife pond recharge was presented in Attachment N (Tab N) of the third quarter 2015 Nitrate Monitoring report. The original pre-pumping 'background' flow range of 1.31 gpm to 2. 79 gpm was recalculated to range from 0. 79 gpm to 1.67 gpm, as presented in Table 9. This calculation was still considered conservative because the high end of the range 18 assumed an arithmetic average hydraulic conductivity of a subset of plume wells having the highest conductivities. However, since recalculation of the 'background' flow in 2015, saturated thicknesses and hydraulic gradients within the plume have continued to decline, further reducing the rate of flow through the plume. To account for this additional reduction, the 'background' flow was recalculated to range from 0.63 gpm to 1.34 gpm, as presented in HGC, June 21, 2023; Nitrate Corrective Action Comprehensive Monitoring Evaluation (CACME) Report, White Mesa Uranium Mill Near Blanding, Utah. Table 10 summarizes the pre-pumping; second quarter 2015; and latest 'background' flow estimates. The cumulative volume of water removed by nitrate pumping wells TW4-22, TW4-24, TW4-25, and TWN-2 during the current quarter was approximately 220,836 gallons. This equates to an average total extraction rate of approximately 1. 7 gpm over the 90-day quarter. This average accounts for time periods when pumps were off due to insufficient water columns in the wells. The current quarter's pumping of approximately 1. 7 gpm, which is about the same as last quarter's, exceeds the high end of the most recently calculated 'background' flow range of 0.63 gpm to 1.34 gpm. Although TW4-22, TW4-24, TW4-25, and TWN-2 are designated nitrate pumping wells, some chloroform pumping wells are also located within the nitrate plume because the northwest portion of the chloroform plume commingles with the central portion of the nitrate plume. Chloroform pumping well TW 4-19 is periodically within the nitrate plume; chloroform pumping well TW4-21, since pumping began in 2015, is typically within the nitrate plume; and TW4-37 is consistently within the nitrate plume. TW4-21 was outside the plume during the second quarter of 2017; the third quarter of 2018; the first quarter of 2019; the fourth quarter of 2019; the first quarter of 2020; the first, second and fourth quarters of 2022; and the third quarter of 2023. Both TW4-19 and TW4-21 are outside the plume this quarter. However, because TW4-19 is located near the plume margin, nitrate plume remediation benefits from pumping TW4-19. Although periodically within the nitrate plume, due to collapse, TW4-20 was abandoned during October, 2020. Because chloroform pumping well TW4-37 is unambiguously within the nitrate plume, and TW4-21 is typically within the plume and is close to the plume margin this quarter, it is appropriate to include both in estimating total pumping from the nitrate plume. Including TW4- 21 and TW4-37, the volume of water removed by TW4-21, TW4-22, TW4-24, TW4-25, TW4- 37, and TWN-2 this quarter is approximately 346,726 gallons or approximately 2.7 gpm, which exceeds the high end of the most recently calculated 'background' flow range by nearly 1.4 gpm, or a factor of approximately 2. Because the arithmetic average hydraulic conductivity of a subset of plume wells having the highest conductivities was used to calculate the high end of the 'background' flow range, the high end is considered less representative of actual conditions than using the geometric average conductivity of all of the plume wells. Therefore, nitrate pumping likely exceeds the actual flow through the plume by more than a factor of 2 as calculated above. Nitrate pumping is therefore considered adequate at the present time even with reduced productivity at TW4-24. 19 The CAP states that MW-5, MW-11, MW-30 and MW-31 are located downgradient of TW4-22 and TW4-24. MW-30 and MW-31 are within the plume near its downgradient edge and MW-5 and MW-11 are outside and downgradient of the plume. Per the CAP, hydraulic control based on concentration data will be considered successful if the nitrate concentrations in MW-30 and MW-31 remain stable or decline, and the nitrate concentrations in downgradient wells MW-5 and MW-11 do not exceed the 10 mg/L standard. Table 5 presents the nitrate concentration data for MW-30, MW-31, MW-5 and MW-11, which are down-gradient of pumping wells TW4-22 and TW4-24. Based on these concentration data, the nitrate plume is under control. The nitrate plume has not migrated downgradient to MW-5 or MW-11; nitrate at MW-11 was detected at a concentration of nearly 4 mg/L; and was detected at MW-5 at approximately 0.3 mg/L. Between the previous and current quarters, nitrate concentrations increased at both MW- 30 and MW-31. Nitrate in MW-30 increased slightly from approximately 16.6 mg/L to 16.7 mg/L; and nitrate in MW-31 increased from 16.6 mg/L to 18 mg/L. Although short-term fluctuations have occurred, nitrate concentrations in MW-30 and MW-31 have been relatively stable, demonstrating that plume migration to the south is minimal or absent. However, recent increases in nitrate at downgradient well MW-11 suggest that downgradient migration is still occurring but at a low rate. MW-30 and MW-31 are located at the toe of the nitrate plume which has associated elevated chloride. Chloride is generally increasing at MW-31, as well as at MW-3 0, but at a lower rate (see Tab J and Tab K, discussed in Section 4.2.4). These increases are consistent with continuing downgradient migration of the elevated chloride associated with the nitrate plume. The increases in chloride and relatively stable nitrate at both wells suggest a natural attenuation process that is affecting nitrate but not chloride. A likely process that would degrade nitrate but leave chloride unaffected is reduction of nitrate by pyrite. The likelihood of this process in the perched zone is discussed in HGC, December 7 2012; Investigation of Pyrite in the Perched Zone, White Mesa Uranium Mill Site, Blanding, Utah. A more detailed discussion is presented in the June 21, 2023 CACME Report. 4.2.2 Current Nitrate and Chloride Isoconcentration Maps Included under Tab I of this Report are current nitrate and chloride iso-concentration maps for the Mill site. Nitrate iso-contours start at 5 mg/L and chloride iso-contours start at 100 mg/L because those values appear to separate the plumes from background. Except for wells not sampled this quarter, all nitrate and chloride data used to develop these iso-concentration maps are from the current quarter's sampling events. During quarters when some wells are not sampled, the previous quarter's values are used. 4.2.3 Comparison of Areal Extent Although the plume expanded in some areas and contracted in others, the plume area is about the same as last quarter. Specifically, the plume boundary has contracted away from MW-28 and TW4-25 due to the decreases in concentrations at these wells. Conversely, an increase in concentration at MW-26 caused a slight expansion of the plume boundary towards MW-26; and 20 the plume expanded slightly in the vicinities of TWN-3 and TWN-7 due to the increased concentrations at these wells. TWN-7, which was incorporated within the plume for the first time during the second quarter of 2018, and was temporarily outside the plume during the fourth quarter of 2021, remains within the plume this quarter. TWN-7 has historically been located down-to cross-gradient of the northeastern (upgradient) extremity of the plume, but migration of the plume toward TWN-7 has been slow presumably due to the low permeability at TWN-7. Relatively recently installed well TWN-20 bounds the plume to the west of TWN-7. TW 4-18 remained outside the plume with a concentration of approximately 3 .5 mg/L. TW 4-18 was encompassed by an eastward-extending 'spur' in the plume during the third quarter of 2015, similar to an occurrence during the third quarter of 2013. Changes in nitrate concentrations near TW 4-18 are expected to result from changes in pumping and from the cessation of water delivery to the northern wildlife ponds. The reduction in low-nitrate recharge from the wildlife ponds appeared to be having the anticipated effect of generally increased nitrate concentrations in some wells downgradient of the ponds. However, decreasing to relatively stable nitrate concentrations at most wells in the vicinity of TW 4-18 between the first quarter of 2014 and the second quarter of 2015 after previous increases suggested that conditions in this area had stabilized. Since the second quarter of 2015, concentrations at TW4-18 exceeded 10 mg/L only once (third quarter of 2015). Over this same time period, concentrations at nearby wells TW4-3 and TW4-9 remained below 10 mg/L; concentrations at TW4-5 exceeded 10 mg/L only once (first quarter of 2016); and, until the first quarter of 2019, concentrations at TW 4-10 remained above 10 mg/L. Since the first quarter of 2019, concentrations at TW4-10 have remained below 10 mg/L. Although increases in concentration in the area downgradient of the wildlife ponds have been anticipated as the result of reduced dilution, the magnitude and timing of the increases are difficult to predict due to the measured variations in hydraulic conductivity at the site and other factors. Nitrate in the area directly downgradient (south to south-southwest) of the northern wildlife ponds is associated with the chloroform plume, is cross-gradient of the nitrate plume as defined in the CAP, and is within the capture zone of the chloroform pumping system. Perched water flow in the area is to the southwest in the same approximate direction as the main body of the nitrate plume. Nitrate concentrations at the downgradient edge of the plume (MW-30 and MW-31) have been relatively stable, demonstrating that nitrate plume migration to the south is minimal or absent; however, recent increases in nitrate at downgradient well MW-11 suggest that downgradient migration is still occurring but at a low rate. As discussed in Section 4.2.1, relatively stable nitrate at MW-30 and MW-31 is consistent with a natural attenuation process affecting nitrate but not chloride, as elevated chloride associated with the nitrate plume continues to migrate downgradient. With regard to chloroform, changes in the boundary of the chloroform plume are attributable in part to the initiation of nitrate pumping. Once nitrate pumping started, the boundary of the chloroform plume migrated to the west toward nitrate pumping well TW4-24, and then to the southwest to reincorporate chloroform monitoring wells TW 4-6 and TW 4-16. Concentration increases leading to the reincorporation of these wells occurred first at TW4-24, then at TW4-16 and TW4-6. Reduced recharge at the southern wildlife pond and decay of the associated 21 groundwater mound are also expected to influence chloroform concentrations in the vicinity of TW4-6. Subsequent contraction of the chloroform plume eastward away from TW4-24 and TW4-16 through the first quarter of 2016 is attributable in part to the start-up of additional chloroform pumping wells during the first half of 2015, and reduced productivity at TW 4-24. TW 4-16 is just within and TW4-24 is just outside the chloroform plume this quarter. In addition, due to contraction of the plume away from TW4-6, TW4-6 has been outside the plume since the third quarter of 2018. More details regarding the chloroform data and interpretation are included in the Quarterly Chloroform Monitoring Report submitted under separate cover. 4.2.4 Nitrate and Chloride Concentration Trend Data and Graphs Attached under Tab J is a table summarizing values for nitrate and chloride for each well over time. Attached under Tab K are graphs showing nitrate and chloride concentration plots in each monitor well over time. 4.2.5 Interpretation of Analytical Data Comparing the nitrate analytical results to those of the previous quarter, as summarized in the tables included under Tab J, the following observations can be made for wells within and immediately surrounding the nitrate plume: a) Nitrate concentrations have increased by more than 20% in the following wells compared to last quarter: MW-11, MW-26, TW4-21, TWN-1, TWN-3 and TWN-4; b) Nitrate concentrations have decreased by more than 20% in the following wells compared to last quarter: TW4-19, TW4-22, TW4-25, and TW4-39; c) Nitrate concentrations have remained within 20% in the following wells compared to last quarter: MW-27, MW-28, MW-30, MW-31, TW4-16, TW4-18, TW4-24, TW4-37, TWN-2, TWN-7 and TWN-20; d) MW-25 and MW-32 remained non-detect; and e) The concentration at TWN-18 increased from non-detect to 0.34 mg/L. As indicated, nitrate concentrations for many of the wells with detected nitrate were within 20% of the values reported during the previous quarter, suggesting that variations are within the range typical for sampling and analytical error. The remaining wells had changes in concentration greater than 20%. The latter includes chloroform pumping wells MW-26, TW4-19, TW4-21 and TW4-39; nitrate pumping well TW4-25; and non-pumping wells MW-11, TWN-1, TWN-3 and TWN-4. MW-11 is located immediately downgradient (south) of the plume; TWN-1 and TWN-4 are located east and generally cross-gradient of the plume; and TWN-3 is located within the northern (upgradient) extremity of the plume. TWN-18, which went from non-detect to 0.34 mg/L, is located immediately upgradient of the plume. TWN-1 is located near chloroform 22 pumping well TW4-21 and nitrate pumping well TW4-25; and TWN-4 is located adjacent to the northern wildlife ponds. Fluctuations in concentrations at pumping wells and wells adjacent to pumping wells likely result in part from the effects of pumping as discussed in Section 4.1.1. Fluctuations in concentration can also be expected at wells located near the plume margins (such as TWN-3 and TWN-18). In addition, concentration fluctuations can be expected at wells such as TWN-4 located near formerly used wildlife ponds. Although quarter to quarter concentration fluctuations occur in individual wells, as discussed in the June 21, 2023 CACME Report, the overall average nitrate concentration within the plume has declined. This decline is primarily the result of mass removal by pumping and natural attenuation. MW-27, located west of TWN-2; TWN-20, located west ofTWN-7; and TWN-18, located north of TWN-3, bound the nitrate plume to the west and north (See Figure I-1 under Tab I). In addition, MW-28 and MW-29 bound the plume to the west; and the southernmost (downgradient) boundary of the plume remains between MW-30/MW-31 and MW-5/MW-1 l. Nitrate concentrations at MW-5 (adjacent to MW-11) and MW-11 have historically been low (typically< 1 mg/L) or non-detect for nitrate; however, since the fourth quarter of 2021, nitrate at MW-11 has exceeded 1 mg/Land was detected at nearly 4 mg/L this quarter (See Table 5). The nitrate concentrations at MW-5 (approximately 0.29 mg/L) and MW-11 (nearly 4 mg/L) are consistent with the relative stability of the downgradient margin of the nitrate plume; although recent increases at MW-11 suggest continued, but slow, downgradient plume migration. MW- 25, MW-26, MW-32, TW4-16, TW4-19, TW4-21, TW4-25, TW4-39, TWN-1 and TWN-4 bound the nitrate plume to the east. Nitrate concentrations outside the nitrate plume are typically greater than 10 mg/L at a few locations: TW4-12 (13.8 mg/L during the third quarter of2022 and 7.1 mg/L this quarter); TW4- 26 (10.3 mg/L); TW4-27 (approximately 12 mg/L); and TW4-28 (11.5 mg/L last quarter; 9.3 mg/L this quarter). In the past concentrations at TW4-10 and TW4-38 typically exceeded 10 mg/L. However, TW4-10 dropped below 10 mg/L during the first quarter of 2019; and TW4-38 dropped below 10 mg/L during the first quarter of 2018. In addition, TW4-12 remained below 10 mg/L between the second quarter of 2019 and first quarter of 2022. Concentrations at TW4-18 have also occasionally exceeded 10 mg/L. Each of these wells is located southeast of the nitrate plume as defined in the CAP and is separated from the plume by a well or wells where nitrate concentrations are either non-detect, or, if detected, are less than 10 mg/L. Except for TW4-10, TW4-12 and TW4-27, the nitrate concentrations at all of the above wells are within 20% of last quarter's concentrations. Since 2010, nitrate concentrations at TW 4-10 and TW 4-18 have been above and below 10 mg/L Concentrations were below 10 mg/L between the first quarter of 2011 and second quarter of 2013, and mostly close to or above 10 mg/L between the second quarter of 2013 and third quarter of 2015. However, concentrations at TW 4-18 have been below 10 mg/L since the third quarter of 2015 and (as discussed above) the concentration at TW4-10 dropped below 10 mg/L during the first quarter of 2019. Concentrations at nearby well TW4-5 have exceeded 10 mg/L only twice since 2010, and concentrations at nearby wells TW4-3 and TW4-9 have remained 23 below 10 mg/L. Nitrate at TW4-5, TW4-10, and TW4-18 is associated with the chloroform plume, and is within the capture zone of the chloroform pumping system. Elevated nitrate at TW4-12, TW4-26, TW4-27, TW4-28 and TW4-38 is likely related to former cattle ranching operations at the site. Elevated nitrate at relatively recently installed well MW-38 and at MW-20 (far cross-gradient and far downgradient, respectively, of the tailings management system at the site) is also likely related to former cattle ranching operations. Chloride concentrations are measured because elevated chloride (greater than 100 mg/L) is associated with the nitrate plume. Chloride concentrations at all sampled locations this quarter are within 20% of their respective concentrations during the previous quarter except at chloroform pumping wells TW4-21 , TW4-37 and TW4-39; nitrate pumping well TW4-24; and non-pumping wells TW4-3, TW4-12, TW4-32, TW4-34, TW4-35, TW4-36 and TWN-4. Except for TW4-21 and TWN-4, chloride concentrations decreased at all of these wells. Non-pumping well TWN-4 is located adjacent to the northern wildlife ponds; and TW4-3, TW4- 12 and TW4-32 are in an area impacted by cessation of water delivery to the northern wildlife ponds. TW4-3 is also located near chloroform pumping well TW4-11; and TW4-36 is located near chloroform pumping wells MW-4, TW4-1 and TW4-2. Concentration fluctuations at pumping wells and at wells near pumping wells likely result in part from the effects of pumping as discussed in Section 4.1.1. Concentration fluctuations are also expected at wells located near the chloride plume margins and at wells affected by former water delivery to the wildlife ponds. TWN-7 (located upgradient [north] of the tailings management system) was positioned historically cross-to downgradient of the upgradient (northeastern) extremities of the commingled nitrate and chloride plumes. Relatively recent increases in both nitrate and chloride at TWN-7, which remains incorporated into the chloride and nitrate plumes, likely result from northwesterly migration of the elevated nitrate and chloride contained within the upgradient extremities of these commingled plumes. The change in chloride at TWN-7 since last quarter is less than 20%. Piezometer PIEZ-3A was installed in the second quarter of 2016 as a replacement to piezometer PIEZ-3. The chloride concentration at piezometer PIEZ-3A (76.7 mg/L) is more than twice as high this quarter than the pre-abandonment first quarter 2016 concentration at PIEZ-3 (approximately 33 mg/L). The nitrate concentration at PIEZ-3A (approximately 12 mg/L) is also higher this quarter than the pre-abandonment first quarter 2016 PIEZ-3 concentration ( approximately 2.2 mg/L ). 4.3 Estimation of Pumped Nitrate Mass and Residual Nitrate Mass within the Plume Nitrate mass removed by pumping as summarized in Table 2 includes mass removed by both chloroform and nitrate pumping wells. Table 3 shows the volume of water pumped at each well and Table 4 provides the details of the nitrate removal for each well. Mass removal calculations begin with the third quarter of 2010 because the second quarter, 2010 data were specified to be used to establish a baseline mass for the nitrate plume. As stated in the CAP, the baseline mass is to be calculated using the second quarter, 2010 concentration and saturated thickness data "within the area of the kriged 10 mg/L plume boundary." The second 24 quarter, 2010 data set was considered appropriate because "the second quarter, 2010 concentration peak at TWN-2 likely identifies a high concentration zone that still exists but has migrated away from the immediate vicinity of TWN-2." As shown in Table 2, since the third quarter of 2010, a total of approximately 4,249 lb. of nitrate has been removed directly from the perched zone by pumping. Prior to the first quarter of 2013, all direct nitrate mass removal resulted from operation of chloroform pumping wells MW-4, MW-26, TW4-4, TW4-19, and TW4-20. During the current quarter: • A total of approximately 46 lb. of nitrate was removed by the chloroform pumping wells and by nitrate pumping wells TW4-22, TW4-24, TW4-25, and TWN-2. • Of the 46 lb. removed during the current quarter, approximately 22 lb. (or 48 %) was removed by the nitrate pumping wells. The calculated nitrate mass removed directly by pumpmg 1s smaller than last quarter's approximately 49 lbs. As discussed in Section 4.3.1, achievable pumping rates are expected to diminish over time as saturated thicknesses are reduced by pumping and by cessation of water delivery to the northern wildlife ponds. Attachment N (Tab N) of the third quarter 2015 Nitrate Monitoring report provides an evaluation of reduced productivity at chloroform pumping well TW 4-19 and nitrate pumping well TW4-24. Baseline mass and current quarter mass estimates (nitrate + nitrite as N) for the nitrate plume are approximately 43,700 lb. and 25,500 lbs., respectively. Mass estimates were calculated within the plume boundaries as defined by the kriged 10 mg/L isocon by 1) gridding (kriging) the nitrate concentration data on 50-foot centers; 2) calculating the volume of water in each grid cell based on the saturated thickness and assuming a porosity of 0.18; 3) calculating the mass of nitrate+nitrite as N in each cell based on the concentration and volume of water for each cell; and 4) totaling the mass of all grid cells within the 10 mg/L plume boundary. Data used in these calculations included data from wells listed in Table 3 of the CAP. The nitrate mass estimate for the current quarter (25,500 lb.) is larger than the mass estimate for the previous quarter (25,039 lb.) by 461 lb. Since pumping began, calculated nitrate mass within the plume has generally decreased at a rate that is on average higher than would be expected based on direct mass removal by pumping. Changes in the quarterly mass estimates are expected to result from several factors, primarily 1) nitrate mass removed directly by pumping, 2) natural attenuation of nitrate, and 3) re-distribution of nitrate within the plume and changes in saturated thicknesses. Nitrate mass removed by pumping and natural attenuation ( expected to result primarily from pyrite oxidation/nitrate reduction) act to lower both nitrate mass and concentrations within the plume. Both mechanisms are expected to continuously reduce both nitrate mass and concentrations within the plume. Reductions in saturated thickness that are not accompanied by increases in concentration will also reduce nitrate mass within the plume. 25 However, redistribution of nitrate within the plume is expected to result in both increases and decreases in concentrations at wells within the plume and therefore increases and decreases in mass estimates based on those concentrations, thus generating 'noise' in the mass estimates. In addition, because the sum of sampling and analytical error is typically about 20%, changes in the mass estimates from quarter to quarter of up to 20% could result from typical sampling and analytical error alone. Furthermore, redistribution of nitrate within the plume and changes in saturated thicknesses will be impacted by changes in pumping and in background conditions such as the decay of the perched water mound associated with the northern wildlife ponds. Cessation of water delivery to the northern wildlife ponds is expected to result in reduced saturated thicknesses and reduced dilution, which in tum is expected to result in increased nitrate concentrations in many wells. Because of quarter to quarter variations in factors that impact the mass estimates, only longer- term analyses of the mass estimates that minimize the impacts of 'noise' can provide useful information on plume mass trends. Over the long term, nitrate mass estimates are expected to trend downward as a result of direct removal by pumping and through natural attenuation. The slight increase in the mass estimate this quarter is attributable in part to the increased concentrations at non-pumping wells TWN-3 and TWN-7. An increase in concentration at TW4- 21 (located just outside the plume), which would typically cause the plume boundary to expand toward TW4-21, caused little change in the plume boundary due to the decrease in concentration at TW4-22 (located within the plume). As specified in the CAP, once eight quarters of data were collected (starting with the first quarter of 2013 ), a regression trend line was to be applied to the quarterly mass estimates and evaluated. The trend line was to be updated quarterly and reevaluated as additional quarters of data were collected. The evaluation was to determine whether the mass estimates were increasing, decreasing, or stable. As the fourth quarter of 2014 constituted the eighth quarter as specified in the CAP, the mass estimates were plotted, and a regression line was fitted to the data and evaluated. The regression line has been updated each quarter since the fourth quarter of 2014 as shown in Figure M.l of Tab M. The fitted line shows a decreasing trend in the mass estimates. 5.0 LONG TERM PUMP TEST AT TWN-02, TW4-22, TW4-24, and TW4- 25 OPERATIONS REPORT 5.1 Introduction Beginning in January 2013, EFRI began long term pumping of TW4-22, TW4-24, TW4-25, and TWN-02 as required by the Nitrate CAP, dated May 7, 2012 and the SCO dated December 12, 2012. In addition, as a part of the investigation of chloroform contamination at the Mill site, EFRI has been conducting a Long Term Pump Test on MW-4, TW4-19, MW-26, and TW4-20, and, since January 31, 2010, TW4-4. In anticipation of the final approval of the GCAP, beginning on January 14, 2015, EFRI began long term pumping of TW4-1, TW4-2, and TW4-11 and began 26 long term pumping of TW4-21 and TW4-37 on June 9, 2015. In addition, EFRI is pumping TW4-39, TW4-40 and TW4-41. The purpose of the test is to serve as an interim action that will remove a significant amount of chloroform-contaminated water while gathering additional data on hydraulic properties in the area of investigation. TW4-20 collapsed in August of 2020 and was abandoned in October 2020. Because wells MW-4, TW4-19, MW-26, TW4-4, TW4-01, TW4-02, TW4-11, TW4-21, TW4- 37, TW4-39, TW4-40 and TW4-41 are pumping wells that may impact the removal of nitrate, they are included in this report and any nitrate removal realized as part of this pumping is calculated and included in the quarterly reports. The following information documents the operational activities during the quarter. 5.2 Pumping Well Data Collection Data collected during the quarter included the following: • Measurement of water levels at MW-4, TW4-19, MW-26, and, commencing regularly on March 1, 2010, TW4-4, on a weekly basis, • Measurement of water levels weekly at TW4-22, TW4-24, TW4-25, and TWN-02 commencing January 28, 2013, • Measurement of water levels weekly at TW4-01, TW4-02, and TW4-11 commencing on January 14, 2015, • Measurement of water levels weekly at TW4-21 and TW4-37 commencing on June 9, 2015, and on a monthly basis selected temporary wells and permanent monitoring well, • Measurement of water levels weekly at TW4-39 commencing on December 7, 2016, • Measurement of water levels weekly at TW4-41 commencing on April 3, 2018, • Measurement of water levels weekly at TW4-40 commencing on May 13, 2019. • Measurement of pumping history, including: -pumping rates -total pumped volume -operational and non-operational periods. • Periodic sampling of pumped water for chloroform and nitrate/nitrite analysis and other constituents 5.3 Water Level Measurements Beginning August 16, 2003, water level measurements from chloroform pumping wells MW-4, MW-26, and TW4-19 were conducted weekly. From commencement of pumping and regularly after March 1, 2010 water levels in these chloroform pumping wells have been measured weekly. From commencement of pumping in January 2013, water levels in wells TW4-22, TW4-24, TW4-25, and TWN-02 have been measured weekly. From the commencement of pumping in December 2016, water levels in TW4-39 have been measured; from the commencement of pumping in April 2018 water levels in TW 4-41 have been measured and from the commencement of pumping in May 2019 water levels in TW4-40 have been measured weekly. 27 Copies of the weekly Depth to Water monitoring sheets for MW-4, MW-26, TW4-19, TW4-4, TW4-22, TW4-24, TW4-25, TWN-02, TW4-01, TW4-02, TW4-11, TW4-21, TW4-37, TW4-39, TW4-40, and TW4-41 are included under Tab C. Monthly depth to water monitoring is required for all of the chloroform contaminant investigation wells and non-pumping wells MW-27, MW-30, MW-31, TWN-1, TWN-3, TWN- 4, TWN-7, and TWN-18. Copies of the monthly depth to Water monitoring sheets are included under Tab C. 5.4 Pumping Rates and Volumes The pumping wells do not pump continuously, but are on a delay device. The wells purge for a set amount of time and then shut off to allow the well to recharge. Water from the pumping wells is either transferred to the Cell 1 evaporation pond or is used in the Mill process. The pumped wells are fitted with a flow meter which records the volume of water pumped from the well in gallons. The flow meter readings shown in Tab Care used to calculate the gallons of water pumped from the wells each quarter as required by Section 7 .2.2 of the CAP. The average pumping rates and quarterly volumes for each of the pumping wells are shown in Table 3. The cumulative volume of water pumped from each of the wells is shown in Table 4. Specific operational problems observed with the well(s) or pumping equipment which occurred during the quarter are noted below. Unless specifically noted below, no operational problems were observed with the well or pumping equipment during the quarter. 6.0 CORRECTIVE ACTION REPORT There are no corrective actions required during the current monitoring period. 6.1 Assessment of Previous Quarter's Corrective Actions There were no corrective actions required during the previous quarter's monitoring period. 7.0 CONCLUSIONS AND RECOMMENDATIONS As per the CAP, the fourth quarter of 2013 was the first quarter that hydraulic capture associated with nitrate pumping wells TW4-22, TW4-24, TW4-25, and TWN-2 was evaluated. Since then, quarterly evaluation of hydraulic capture resulting from both nitrate and chloroform pumping has been performed. Evaluation of hydraulic capture during the current quarter indicates that, while both increases and decreases in drawdown occurred in chloroform and nitrate pumping wells, the overall capture area this quarter is about the same as last quarter's. Capture associated with nitrate pumping wells is expected to increase over time as water levels decline due to pumping and due to cessation of water delivery to the northern wildlife ponds. Nitrate capture is enhanced by the interaction of the nitrate pumping system with the chloroform 28 pumping system. Chloroform pumping wells located within or adjacent to the nitrate plume not only increase overall capture, but account for much of the nitrate mass removed each quarter. The long term interaction between nitrate and chloroform pumping systems is evolving as revealed by data collected as part of routine monitoring. Slow development of hydraulic capture by the nitrate pumping system was expected and is consistent with the relatively low permeability of the perched zone at the site. The capture associated with the nitrate pumping system has been impacted by the perched groundwater mound and historically relatively low water levels at TWN-7. Although the perched groundwater mound has diminished, and water levels at TWN-7 have risen, definition of capture associated with the nitrate pumping system continues to be influenced by the remaining perched groundwater mound and the relatively low water level at TWN-7. Nitrate pumping is likely sufficient to eventually capture the entire nitrate plume upgradient of TW4-22 and TW4-24 even with reduced productivity at TW4-24 since the third quarter of 2014. Hydraulic gradients and saturated thicknesses within the plume have declined since nitrate pumping began as a result of two factors: reduced recharge from the ponds, and nitrate pumping. A more representative 'background' flow condition that accounts for reduced wildlife pond recharge was presented in Attachment N (Tab N) of the third quarter, 2015 Nitrate Monitoring report. The original pre-pumping 'background' flow range of 1.31 gpm to 2.79 gpm was recalculated to range from 0.79 gpm to 1.67 gpm. This calculation was still considered conservative because the high end of the calculated range assumed an arithmetic average hydraulic conductivity of a subset of plume wells having the highest conductivities. However, since recalculation of the 'background' flow in 2015, saturated thicknesses and hydraulic gradients within the plume have continued to decline, further reducing the rate of flow through the plume. To account for this additional reduction, the 'background' flow was recalculated to range from 0.63 gpm to 1.34 gpm, as presented in HGC, June 21, 2023; Nitrate Corrective Action Comprehensive Monitoring Evaluation (CACME) Report, White Mesa Uranium Mill Near Blanding, Utah. The current nitrate pumping of approximately 1.7 gpm, based on water removed by TW4-22, TW4-24, TW4-25, and TWN-2, exceeds the high end of the most recently calculated 'background' flow range of 0.63 gpm to 1.34 gpm. If water removed from the nitrate plume by chloroform pumping wells TW4-21 and TW4-37 is included, the current nitrate pumping of approximately 2. 7 gpm exceeds the most recently calculated 'background' flow range by nearly 1.4 gpm, or a factor of approximately 2. Including TW4-37 is appropriate because this well has been within the nitrate plume consistently since initiation of pumping in 2015. Including TW4-21 is also appropriate because TW4-21 is typically within the plume and is close to the plume margin this quarter. In addition, because the arithmetic average hydraulic conductivity of a subset of plume wells having the highest conductivities was used in recalculating the high end of the 'background' flow range, the high end is considered less representative of actual conditions than using the geometric average conductivity of all of the plume wells. Therefore, nitrate pumping likely exceeds flow through the plume by a factor greater than 2 as calculated above. Nitrate pumping 29 is considered adequate at the present time even with reduced productivity at TW4-24. Furthermore, as the groundwater mound associated with former water delivery to the northern wildlife ponds continues to decay, hydraulic gradients and saturated thicknesses will continue to decrease, and 'background' flow will be proportionally reduced, thereby reducing the amount of pumping needed. This quarter nitrate concentrations at many of the wells within and adjacent to the nitrate plume were within 20% of the values reported during the previous quarter, suggesting that variations are within the range typical for sampling and analytical error. Changes in concentration (both increases and decreases) greater than 20% also typically occur in many wells. This quarter, changes greater than 20% occurred in chloroform pumping wells MW-26, TW4-19, TW4-21 and TW4-39; nitrate pumping well TW4-25; and non-pumping wells MW-11, TWN-1, TWN-3 and TWN-4. TWN-18, which went from non-detect to 0.34 mg/L, is located immediately upgradient of the plume. TWN-1 is located near chloroform pumping well TW4-21 and nitrate pumping well TW4-25; and TWN-4 is located adjacent to the northern wildlife ponds. Fluctuations in concentrations at pumping wells and wells adjacent to pumping wells likely result in part from the effects of pumping as discussed in Section 4.1.1. Fluctuations in concentration can also be expected at wells located near the plume margins (such as TWN-3 and TWN-18). In addition, concentration fluctuations can be expected at wells such as TWN-4 located near formerly used wildlife ponds. Concentrations at MW-25 and MW-32 remained non- detect. As discussed in Section 4.2.3, although the plume expanded in some areas and contracted in others, the plume area is about the same as last quarter. Specifically, the plume boundary has contracted away from MW-28 and TW4-25 due to the decreases in concentrations at these wells. Conversely, an increase in concentration at MW-26 caused a slight expansion of the plume boundary towards MW-26; and the plume expanded slightly in the vicinities of TWN-3 and TWN-7 due to the increased concentrations at these wells. MW-27, located west of TWN-2; TWN-20, located west of TWN-7; and TWN-18, located north of TWN-3, bound the nitrate plume to the west and north. During the second quarter of 2021, TWN-20 was installed west ofTWN-7 because TWN-7 no longer bounded the plume to the west (see Figure I-1 under Tab I). In addition, the southernmost (downgradient) boundary of the plume remains between MW-30/MW-31 and MW-5/MW-l l. Nitrate concentrations at MW-5 (adjacent to MW-11) and MW-11 have historically been low (typically< 1 mg/L) or non-detect for nitrate; however, since the fourth quarter of 2021, nitrate at MW-11 has exceeded 1 mg/Land was detected at nearly 4 mg/L this quarter (See Table 5). The nitrate concentrations at MW-11 are consistent with the relative stability of the downgradient margin of the nitrate plume; however, the recent increases at MW-11 suggest that downgradient migration is still occurring but at a low rate. MW-25, MW-26, MW-32, TW4-16, TW4-19, TW4-21, TW4-25, TW4-39, TWN-1 and TWN-4 bound the nitrate plume to the east. Although short-term fluctuations have occurred, nitrate concentrations in MW-30 and MW-31 have been relatively stable, demonstrating that plume migration is minimal or absent. Nitrate concentrations increased at both MW-30 and MW-31. Nitrate in MW-30 increased slightly from approximately 16.6 mg/L to 16.7 mg/L; and nitrate in MW-31 increased from 16.6 mg/L to 18 30 mg/L. Based on the concentration data at MW-5, MW-11, MW-30, and MW-31, the nitrate plume is under control; although, as discussed above, recent increases in nitrate at downgradient well MW-11 suggest that slow downgradient migration is still occurring. Chloride is increasing at MW-31 and at MW-30, but at a lower rate. These increases are consistent with continuing downgradient migration of the elevated chloride associated with the nitrate plume. The increasing chloride and relatively stable nitrate at both wells suggests a natural attenuation process that is affecting nitrate but not chloride. A likely process that would degrade nitrate but leave chloride unaffected is reduction of nitrate by pyrite. The likelihood of this process in the perched zone is discussed in HGC, December 7 2012; Investigation of Pyrite in the Perched Zone, White Mesa Uranium Mill Site, Blanding, Utah. A more detailed discussion is presented in the June 21, 2023 CACME Report. Nitrate mass within the plume boundary has been calculated on a quarterly basis beginning with the first quarter of 2013. Calculated mass within the plume is expected to be impacted by factors that include pumping, natural attenuation, redistribution of nitrate within the plume, and changes in saturated thickness. Nitrate mass removal by pumping and natural attenuation ( expected to result primarily from pyrite oxidation/nitrate reduction) act to lower nitrate mass within the plume. Reductions in saturated thickness that are not accompanied by increases in concentration will also reduce nitrate mass within the plume. , Changes resulting from redistribution of nitrate within the plume are expected to result in both increases and decreases in concentrations at wells within the plume and therefore increases and decreases in mass estimates based on those concentrations, thus generating 'noise' in the mass estimates. Furthermore, because the sum of sampling and analytical error is typically about 20%, changes in the mass estimates from quarter to quarter of up to 20% could result from typical sampling and analytical error alone. Longer-term analyses of the mass estimates that minimize the impact of these quarter to quarter variations are expected to provide useful information on plume mass trends. Over the long term, nitrate mass estimates are expected to trend downward as a result of direct removal by pumping and through natural attenuation. As specified in the CAP, once eight quarters of data were collected (starting with the first quarter of 2013 ), a regression trend line was to be applied to the quarterly mass estimates and evaluated. The trend line was to be updated quarterly and reevaluated as additional quarters of data were collected. As the fourth quarter of 2014 constituted the eighth quarter as specified in the CAP, the mass estimates were plotted, and a regression line was fitted to the data and evaluated. The regression line was updated this quarter as shown in Figure M.1 of Tab M. The fitted line shows a decreasing trend in the mass estimates. During the current quarter, a total of approximately 46 lb. of nitrate was removed by the chloroform pumping wells and by nitrate pumping wells TW4-22, TW4-24, TW4-25, and TWN- 2. Of the 46 lb. removed during the current quarter, approximately 22 lb. ( or 48%) was removed by the nitrate pumping wells. 31 The baseline nitrate (nitrate+nitrite as N) plume mass calculated as specified in the CAP (based on second quarter, 2010 data) was approximately 43,700 lb. The mass estimate for the current quarter (25,500 lb.) is larger than the mass estimate for the previous quarter (25,039 lb.) by 461 lb or approximately 2 %. The current quarter's estimate is smaller than the baseline estimate by approximately 18,200 lb. The quarterly difference is attributable in part to the increased concentrations at non-pumping wells TWN-3 and TWN-7. An increase in concentration at TW4- 21 (located just outside the plume), which would typically cause the plume boundary to expand toward TW4-21, caused little change in the plume boundary due to the decrease in concentration at TW4-22 (located within the plume). The concentration at bounding well MW-28 decreased this quarter and MW-28 remains outside the plume. Nitrate concentrations outside the nitrate plume are typically greater than 10 mg/L at a few locations: TW4-12 (13.8 mg/L during the third quarter of 2022 and 7.1 mg/L this quarter); TW4- 26 (10.3 mg/L); TW4-27 (approximately 12 mg/L); and TW4-28 (11.5 mg/L last quarter; 9.3 mg/L this quarter). In the past concentrations at TW4-10 and TW4-38 typically exceeded 10 mg/L. However, TW 4-10 dropped below 10 mg/L during the first quarter of 2019; and TW 4-3 8 dropped below 10 mg/L during the first quarter of 2018. In addition, TW4-12 remained below 10 mg/L between the second quarter of 2019 and first quarter of 2022. Concentrations at TW4-18 have also occasionally exceeded 10 mg/L. Each of these wells is located southeast of the nitrate plume as defined in the CAP and is separated from the plume by a well or wells where nitrate concentrations are either non-detect, or, if detected, are less than 10 mg/L. Except for TW4-10, TW4-12 and TW4-27, the nitrate concentrations at all of the above wells are within 20% of last quarter's concentrations. Since 2010, nitrate concentrations at TW 4-10 and TW 4-18 have been above and below 10 mg/L. Concentrations were below 10 mg/L between the first quarter of 2011 and second quarter of 2013, and mostly close to or above 10 mg/L between the second quarter of 2013 and third quarter of 2015. However, concentrations at TW4-18 have been below 10 mg/L since the third quarter of 2015 and (as discussed above) the concentration at TW4-10 dropped below 10 mg/L during the first quarter of 2019. Concentrations at nearby well TW4-5 have exceeded · IO mg/L only twice since 2010, and concentrations at nearby wells TW4-3 and TW4-9 have remained below 10 mg/L. Nitrate at TW4-5, TW4-10, and TW4-18 is associated with the chloroform plume, and is within the capture zone of the chloroform pumping system. Elevated nitrate at TW4-12, TW4-26, TW4-27, TW4-28, and TW4-38 is likely related to former cattle ranching operations at the site. Elevated nitrate at relatively recently installed well MW-38 and at MW-20 (far cross-gradient and far downgradient, respectively, of the tailings management system at the site) is also likely related to former cattle ranching operations. Increases in both nitrate and chloride concentrations at wells near the northern wildlife ponds (for example TW4-18) were anticipated as a result of reduced dilution caused by cessation of water delivery to the northern wildlife ponds. However, decreasing nitrate concentrations at TW 4-10 and TW 4-18 from the first through third quarters of 2014 after previously increasing trends (interrupted in the first quarter of 2014) suggested that conditions in this area had stabilized. The temporary increase in nitrate concentration at TW 4-18 in the third quarter of 2015 and the generally increased nitrate at TW4-5 and TW4-10 during the three quarters following the second quarter of 2015 suggested the continuing impact of reduced wildlife pond recharge on 32 downgradient wells. However, since the first quarter of 2016, concentrations at TW4-5, TW4-10 and TW 4-18 have generally been stable to decreasing. EFRI and its consultants have raised the issues and potential effects associated with cessation of water delivery to the northern wildlife ponds in March 2012 during discussions with DWMRC in March 2012 and May 2013. While past recharge from the northern wildlife ponds has helped limit many constituent concentrations within the chloroform and nitrate plumes by dilution, the associated groundwater mounding has increased hydraulic gradients and contributed to plume migration. Since use of the northern wildlife ponds ceased in March 2012, the reduction in recharge and decay of the associated groundwater mound was expected to increase many constituent concentrations within the plumes while reducing hydraulic gradients and rates of plume migration. Reduced recharge and decay of the groundwater mound associated with the southern wildlife pond is also expected to have an impact on water levels and concentrations at wells within and marginal to the downgradient (southern) extremity of the chloroform plume. The net impact of reduced wildlife pond recharge was expected to be beneficial even though temporarily higher concentrations were also expected until continued mass reduction via pumping and natural attenuation ultimately reduced concentrations. Temporary increases in nitrate concentrations were judged less important than reduced nitrate migration rates; and, as discussed in the June 21, 2023 CACME Report, the average plume nitrate concentration has declined. Future impacts of reduced recharge, pumping and natural attenuation on plume concentrations and migration rates will be defined by continued monitoring. Nitrate mass removal from the perched zone was increased substantially by the start-up of nitrate pumping wells TW4-22, TW4-24, TW4-25, and TWN-2 during the first quarter of 2013. Continued operation of these wells is therefore recommended. Pumping these wells, regardless of any short term fluctuations in concentrations detected at the wells, helps to reduce downgradient nitrate migration by removing nitrate mass and reducing average hydraulic gradients, thereby allowing natural attenuation to be more effective. Continued operation of the nitrate pumping system is expected to continue to reduce the average plume nitrate concentration and to further reduce or halt downgradient nitrate migration. 8.0 ELECTRONIC DATA FILES AND FORMAT EFRI has provided to the Director an electronic copy of all laboratory results for groundwater quality monitoring conducted under the nitrate contaminant investigation during the quarter, in Comma Separated Values ("CSV") format. A copy of the transmittal e-mail is included under TabL. 33 9.0 SIGNATURE AND CERTIFICATION This document was prepared by Energy Fuels Resources (USA) Inc. Energy Fuels Resources (USA) Inc. By: Scott A. Bakken Vice President, Regulatory Affairs 34 Certification: I certify, under penalty of law, that this document and all attachments were prepared under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the information submitted. Based on my inquiry of the person or persons who manage the system, or those persons directly responsible for gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fine and imprisonment for knowing violations. Scott Bakken Vice President, Regulatory Affairs Energy Fuels Resources (USA) Inc. 35 Tables Table 1 Summary of Well Sampling and Constituents for the Period ~rn,p~ lle:cf{on -.a Date ~,n1' Lab Report• Piezometer-01 11/14/2023 12/1/2023 Piezometer-02 11/14/2023 12/1/2023 Piezometer-03A 11/14/2023 12/1/2023 TWN-01 11/14/2023 12/1/2023 ·1--.,w~g 111#1:'41/2028 Witf ij/20~ TWN-03 11/15/2023 12/1/2023 TWN-04 11/14/2023 12/1/2023 TWN-07 11/15/2023 12/1/2023 TWN-18 11/14/2023 12/1/2023 TWN-18R 11/14/2023 12/1/2023 TWN-20 11/15/2023 12/1/2023 TWN-21 11/15/2023 12/1/2023 TW4~ 1 ffi/29~021 Jffl.t'f'EI)}'~. -:r.w~,11 l V~9/.202S 14/1 ~:20;23 ~r2S l Cf29/'2QD 1~19/2.023' TWN-60 11/14/2023 12/1/2023 TW4-60 11/29/2023 12/19/2023 TWN-65 11/14/2023 12/1/2023 Note: All wells were sampled for Nitrate and Chloride. Multiple dates shown for a single laboratory depict resubmission dates for the data. Resubmissions were required to correct reporting errors. Dates in Italics are the original laboratory submission dates. TWN-60 is a DI Field Blank. TWN-65 is a duplicate of TWN-04 TW4-60 is the chloroform program DI Field Blank. ~·, tt11liPTui¥ •um~w~ll\ Table 2 Nitrate Mass Removal Per Well Per Quarter - MW-4 MW-26 TW4-19 TW4-20 TW4-4 TW4-22 TW4-24 TW4-25 TWN-02 TW4-01 TW4-02 TW4-11 TW4-21 TW4-37 TW4-39 TW4-40 TW4-41 Qtr. Quarter (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) Totals (lbs.) 2 3.20 0.3 5.8 1.7 4.7 NA NA NA NA NA NA NA NA NA NA NA NA 15.69 Q4 2010 3.76 0.4 17.3 1.4 5.1 NA NA NA NA NA NA NA NA NA NA NA NA 27.97 QI 2011 2.93 0.2 64.5 1.4 4.3 NA NA NA NA NA NA NA NA NA NA NA NA 73.30 Q2 2011 3.51 0.1 15.9 2.7 4.7 NA NA NA NA NA NA NA NA NA NA NA NA 27.01 Q3 2011 3.49 0.5 3.5 3.9 5.4 NA NA NA NA NA NA NA NA NA NA NA NA 16.82 Q4 2011 3.82 0.8 6.2 25 6.4 NA NA NA NA NA NA NA NA NA NA NA NA 19.71 Ql 2012 3.62 0.4 0.7 5.0 6.0 NA NA NA NA NA NA NA NA NA NA NA NA 15.86 Q2 2012 3.72 0.6 3.4 2.1 5.2 NA NA NA NA NA NA NA NA NA NA NA NA 15.03 Q3 2012 3.82 0.5 3.6 2.0 4.7 NA NA NA NA NA NA NA NA NA NA NA NA 14.67 Q4 2012 3.16 0.4 5.4 1.8 4.2 NA NA NA NA NA NA NA NA NA NA NA NA 14.92 Ql 2013 2.51 0.4 14.1 1.4 3.6 8.1 43.4 7.5 14.8 NA NA NA NA NA NA NA NA 95.73 Q2 2013 2.51 0.4 5.6 1.6 3.4 10.7 37.1 6.4 23.9 NA NA NA NA NA NA NA NA 91.71 Q3 2013 2.97 0.4 48.4 1.4 3.8 6.3 72.8 6.9 33.4 NA NA NA NA NA NA NA NA 176.53 Q4 2013 3.08 0.3 15.8 1.6 3.9 9.4 75.2 6.4 46.3 NA NA NA NA NA NA NA NA 162.07 QI 2014 2.74 0.4 4.1 1.2 3.6 11.2 60.4 2.3 17.2 NA NA NA NA NA NA NA NA 103.14 Q2 2014 2.45 0.3 3.3 0.9 3.0 9.5 63.4 1.3 17.8 NA NA NA NA NA NA NA NA 101.87 Q3 2014 2.31 0.1 4.1 0.6 3.1 8,5 56.2 1.6 16.4 NA NA NA NA NA NA NA NA 92.99 Q4 2014 2.67 0.2 7.8 1.0 3.8 11.0 53.2 0.9 28.0 NA NA NA NA NA NA NA NA 108.57 QI 2015 3.67 0.5 4.3 1.3 2.4 12.7 26.7 8.6 19.2 1.45 1.07 0.72 NA NA NA NA NA 82.61 Q2 2015 1.28 0.2 0.6 0.9 3.6 9.1 16.6 0.9 21.4 1.22 0.79 0.37 3.4 8.6 NA NA NA 68 .86 Q3 2015 3.58 0.3 11.3 1.4 3.5 13.3 14.0 I. 7 20.2 1.24 0.68 0.29 15.4 31.9 NA NA NA 118.63 Q4 2015 3.68 0.2 10.0 0.8 3.1 11.I 26.6 1.7 17.5 0.3 0.9 0.3 16.1 32.3 NA NA NA 124.50 QI 2016 3.91 0.23 15.28 1.23 3.21 6.36 24.30 0.81 34.33 0.02 0.93 0.22 15.29 26.45 NA NA NA 132.55 Q2 2016 3.66 0.21 1.31 1.48 3.36 12.92 13.17 1.01 19.24 0.02 1.15 0.25 14.46 27.76 NA NA NA 99.98 Q3 2016 3.30 0.22 9.08 1. 15 3.02 11.33 14.86 1.56 12.47 0.72 0.59 0,22 15.20 27.42 NA NA NA 101 12 04 2016 3.48 0.18 8.76 1.23 1.79 12.14 26.49 1.02 12.14 0.10 1.00 0.23 14.68 22.20 0.62 NA NA 106.06 QI 2017 3.19 0.17 10.23 1.36 1.35 14.02 34.16 0.02 10.35 0.63 0.79 0.20 8.02 26.16 5.54 NA NA 116.19 02 2017 2.94 0.20 0.22 1.02 1.37 13.99 17.58 0.83 8.88 0.87 0.77 0.19 4.85 24.26 2.15 NA NA 80.12 03 2017 3.65 0.36 1.05 1.31 1.29 13.56 18.55 1.27 9.31 0.73 0.82 0.18 18.24 20.81 2.23 NA NA 93.37 Q4 2017 4.67 0.23 0.34 1.06 1.32 15.89 28.04 1.26 10.37 0.68 0.47 0.17 17.84 22.35 1.51 NA NA 106.21 QI 2018 3.92 0.35 7.89 1.13 1.18 12.47 36.31 2.18 7.09 0.51 0.40 0.17 15.54 21.22 1.65 NA NA 111.99 Q2 2018 3.94 0.20 0.46 l.16 0.96 14.07 14.89 1.12 7.22 0.40 0.47 0.16 13.73 19.96 1.38 NA 4.02 84.14 Q3 2018 3.63 0.60 2.25 0,85 0.78 9.82 14.99 0.75 6.48 0.35 0.60 0.13 0.22 16.42 1.69 NA 2.30 61.86 Q4 2018 3.81 0.39 0.21 1.04 0.77 15.27 32.56 0.61 6.30 0.38 0.45 0.14 15.43 17.38 1.97 NA 1.78 98.49 QI 2019 4.71 0.41 6.38 0.82 I.OJ 15.69 32.04 0.48 ' 7.10 0.40 0,53 0.15 9.25 19.49 0.85 NA 1.79 101.08 Q2 2019 4.07 0.57 7.53 1.08 1.24 16.15 14.74 0,60 16.35 0.11 0,51 0.15 15.61 16.91 2.42 2.4 1.26 101.72 Q3 2019 3.74 0.62 0.28 1.17 0.77 14.95 16.54 0.40 8.01 0.13 0.56 0.12 13.26 14.55 0.54 3,3 1.25 80. 19 Q4 2019 3.59 0.18 0.44 0.68 0.78 12.02 28.83 0.60 5.17 0.30 0.40 0.12 5.55 14.20 0.41 2.6 1.08 76.97 Ql 2020 5.33 0.24 8.16 0.78 0.55 11.91 26.73 0.43 4.44 0.38 0.67 0.11 7.95 15.48 0.29 2.5 0.88 86.86 Q2 2020 4.28 0.62 1.30 6.08 0.93 12.77 20.05 0.64 404 0.04 0.43 0.13 14.26 15.39 1.56 2.4 0.98 85.95 03 2020 3.48 0.08 14.96 0.00 0.85 12.46 17.40 0.70 3.05 0.18 0.39 0.11 10.46 13.95 0.80 2.1 0.75 81.69 Q4 2020 3,52 0,87 1.33 0.00 0.85 12.38 31.15 1.18 2.57 0.33 0.28 0.08 14.56 14.69 2.75 I. 7 0.93 89.15 QI 2021 3,60 0.08 7.36 0.00 0.77 13.13 28.63 2.30 3.00 0.21 0.36 0.13 12.33 13.45 0.69 1.5 0.72 88.22 Table 2 Nitrate Mass Removal Per Well Per Quarter - MW-4 MW-26 TW4-19 TW4-20 TW4-4 TW4-22 TW4-24 TW4-25 TWN-02 TW4-01 TW4-02 TW4-11 TW4-21 TW4-37 TW4-39 TW4-40 TW4-41 Qtr. Quarter (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) (lbs.) Totals (lbs.) Q2 2021 5.04 0.20 5.10 0.00 1.01 17.06 21.78 1.08 2.62 0.05 0.39 0.12 17.43 13.00 3.29 2.1 0.82 91.09 Q3 2021 2.87 0.16 8.79 0.00 0.40 6.52 11.88 0.55 2.57 0.10 0.21 0.08 10.05 10.76 0.71 0.7 0.43 56.81 Q4 2021 3.89 0.13 11.41 0.00 0.70 13.01 35.12 0.73 1.85 0.32 0 36 0.09 14.72 12.18 0.83 1.2 0.70 97.29 QI 2022 3.86 O.Q7 1.59 0.00 0.57 7.44 22.22 1.40 2.07 0.27 0.31 0.09 1.67 10.67 0.86 1.1 0.63 54.84 Q2 2022 3.04 0.05 1.44 0,00 0.57 8.44 14.70 0.75 1.87 0.01 0.30 0.07 6.81 9.81 2,35 0.8 0.55 51.61 Q3 2022 2.90 0.16 5.46 0.00 0.44 12.80 15.61 1.24 1.75 0.03 0.28 0.08 10.40 8.80 0.97 0.8 0.55 62.30 Q4 2022 3.12 0.08 4.11 0.00 0.48 11.59 23. JO 1.17 1.82 0.26 0.38 0.08 1.67 11.15 2.56 0.9 0.59 63 .06 QI 2023 3.34 0.16 1.93 0.00 0.49 8.92 22.78 1.43 1.62 0.11 0.17 0.06 7.64 7.10 0.41 0.5 0.42 57.06 Q2 2023 3.20 0.06 6.53 0.00 0.42 9.30 15.60 0.81 2.63 0.25 0.37 0.06 12.05 12.77 1.91 0.8 0.54 67.30 Q3 2023 3.12 O.D7 1.36 0.00 0.44 11.49 12.51 0.78 2.07 0.27 0.31 0.06 4.57 9.75 1.43 0.7 0.50 49.42 04 2023 4.97 0.21 1.00 0.00 0.22 7.36 12.18 0.40 1.65 0.24 0.25 0.06 6.50 9 43 0.77 0.7 0.53 46.43 Well Totals 188.2 16.5 409.3 63.4 12S.3 508.2 124S.l 76.4 (pounds) 496.4 13.6 19.4 S.9 38S.l S98.7 4S.1 28.9 24.0 4249.3 ,, Table 3 Well Pumping Rates and Volumes Pumping Well Volume of Water Pumped Name During the Quarter (gals) Average Pump Rate (gpm) MW-4 85275.0 4.0 MW-26 21628.4 15.3 TW4-19 104814.1 15.3 TW4-4 5943.9 15.9 TWN-2 13534.0 16.0 TW4-22 20555.5 16.0 TW4-24 86337.4 16.0 TW4-25 100409.1 14.6 TW4-01 7329.3 12.6 TW4-02 10133.2 16.0 TW4-11 1084.1 15.5 TW4-21 82763.3 16.0 TW4-37 43126.4 18.0 TW4-39 33586.9 18.0 TW4-40 38061.9 18.0 TW4-41 10952.1 6.0 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped MW-4 MW-26 Total Total Pumped Total Total Total Pumped Cone Cone Total Quarter Pumped Cone(mg/L) Cone (ug/L) Total (ug) Pumped Total (ug) Total Total (gal) (liters) (grams) (pounds) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) Q3 2010 79859.1 4.80 4800 302266.7 1450880129 1450.9 3.20 63850.0 0.60 600 241672.3 145003350 145 0.32 Q4 2010 90042.2 5.00 5000 340809.7 1704048635 1704.0 3.76 60180.0 0.70 700 227781.3 159446910 159 0.35 Ql 2011 76247.6 4.60 4600 288597.2 1327546964 1327.S 2.93 55130.0 0.50 500 208667.1 104333525 104 0.23 Q22011 85849.3 4.90 4900 324939.6 1592204042 1592.2 3.51 55800.6 0.30 300 211205.3 6.34E+07 63 0.14 Q3 2011 85327.7 4.90 4900 322965.3 1582530188 1582.5 3.49 65618.0 0.90 900 248364.1 223527717 224 0.49 Q4 2011 89735.0 5.10 5100 339647.0 1732199573 1732.2 3.82 50191.3 2.00 2000 189974.1 379948141 380 0.84 Ql 2012 90376.4 4.80 4800 342074.7 1641958435 1642.0 3.62 31440.1 1.70 1700 119000.8 202301323.S 202 0.45 Q2 2012 90916.S 4.90 4900 344118.8 1686181940 1686.2 3.72 26701.2 2.50 2500 101064.1 252660294.3 253 0.56 Q3 2012 91607.0 5.00 5000 346732.S 1733662475 1733.7 3.82 25246.0 2.60 2600 95556.1 248445886 248 0.55 Q4 2012 78840.0 4.80 4800 298409.4 1432365120 1432.4 3.16 30797.0 1.46 1460 116566.6 170187301.7 170 0.38 Ql 2013 62943.7 4.78 4780 238241.9 1138796304 1138.8 2.51 22650.7 2.27 2270 85732.9 194613681.9 195 0.43 Q2 2013 71187.3 4.22 4220 269443.9 1137053387 1137.1 2.51 25343.4 2.11 2110 95924.8 202401262.6 202 0.45 Q3 2013 72898.8 4.89 4890 275922.0 1349258375 1349.3 2.97 25763.0 1.98 1980 97513.0 193075650.9 193 0.43 Q42013 70340.4 5.25 5250 266238.4 1397751674 1397.8 3.08 24207.6 1.38 1380 91625.8 126443557.1 126 0.28 Ql 2014 69833.8 4.70 4700 264320.9 1242308385 1242.3 2.74 23263.1 2.12 2120 88050.8 186667767 187 0.41 Q2 2014 71934.9 4.08 4080 272273.6 1110876274 1110.9 2.45 23757.5 1.42 1420 89922.1 127689435.3 128 0.28 Q3 2014 74788.2 3.70 3700 283073.3 1047371347 1047.4 2.31 24062.4 0.70 700 91076.2 63753328.8 64 0.14 Q4 2014 63093.0 5.07 5070 238807.0 1210751515 1210.8 2.67 21875.8 0.93 934 82799.9 77335109.4 77 0.17 Ql 2015 76454.3 5.75 5750 289379.5 1663932272 1663.9 3.67 24004.9 2.68 2680 90858.5 243500904.6 244 0.54 Q2 2015 60714.7 2.53 2530 229805.1 581407002.9 581.4 1.28 27804.6 0.85 845 105240.4 88928147.3 89 0.20 Q3 2015 89520.8 4.79 4790 338836.2 1623025532 1623.0 3.58 21042.0 1.75 1750 79644.0 139376947.5 139 0.31 Q4 2015 99633.4 4.43 4430 377112.4 1670608016 1670.6 3.68 19355.6 1.11 1110 73260.9 81319650.1 81 0.18 Ql 2016 90882.1 5.15 5150 343988.7 1771542055 1771.5 3.91 19150.8 1.45 1450 72485.8 105104378.1 105 0.23 Q2 2016 96540.5 4.54 4540 365405.8 1658942298 1658.9 3.66 22105.7 1.12 1120 83670.1 93710483.4 94 0.21 Q3 2016 79786.4 4.95 4950 301991.5 1494858044 1494.9 3.30 17149.5 1.57 1570 64910.9 101910046.3 102 0.22 Q4 2016 85414.0 4.88 4880 323292.0 1577664911 1577.7 3.48 18541.6 1.18 1180 70180.0 82812348.1 83 0.18 Ql 2017 76642.3 4.99 4990 290091.1 1447554616 1447.6 3.19 26107.0 0.768 768 98815.0 75889916.2 76 0.17 Q2 2017 72299.8 4.88 4880 273654.7 1335435146 1335.4 2.94 25921.8 0.922 922 98114.0 90461120.0 90 0.20 Q3 2017 95349.3 4.59 4590 360897.1 1656517691 1656.5 3.65 27489.9 1.56 1560 104049.3 162316863.5 162 0.36 Q4 2017 106679.8 5.25 5250 403783.0 2119860976 2119.9 4.67 26445.8 1.04 1040 100097.4 104101247.1 104 0.23 Ql 2018 105060.4 4.47 4470 397653.6 1777511655 1777.5 3.92 27004.7 1.57 1570 102212.8 160474079.5 160 0.35 Q2 2018 101786.2 4.64 4640 385260.8 1787609959 1787.6 3.94 26654.7 0.90 901 100888.0 90900123.6 91 0.20 Q3 2018 95480.5 4.55 4550 361393.8 1644341817.S 1644.3 3.63 25536.1 2.80 2800 96654.1 270631587 .8 271 0.60 Q4 2018 102844.8 4.44 4440 389267.5 1728347833.9 1728.3 3.81 23791.3 1.96 1960 90050.1 176498138.2 176 0.39 Ql 2019 111746.9 5.05 5050 422961.9 2135957801.0 2136.0 4.71 26798.5 1.85 1850 101432.3 187649796.6 188 0.41 Q2 2019 94540.7 5.16 5160 357836.5 1846436595.4 1846.4 4.07 24050.2 2.83 2830 91030.0 257614919.8 258 0.57 Q3 2019 95517.8 4.69 4690 361534.9 1695598554.4 1695.6 3.74 24181.1 3.08 3080 91525.5 281898427.6 282 0.62 Q4 2019 99220.8 4.34 4340 375550.9 1629890816.6 1629.9 3.59 22384.8 0.977 977 84726.5 82777759.2 83 0.18 Ql 2020 102597.0 6.22 6220 388329.6 2415410391.9 2415.4 5.33 24107.0 1.17 1170 91245.0 106756644.2 107 0.24 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped MW-4 MW-26 Total Total Pumped Total Total Total Pumped Cone Cone Total Total Total Quarter Pumped Cone (mg/L) Cone (ug/L) Total (ug) Pumped Total (ug) (gal) (liters) (grams) (pounds) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) Q2 2020 101850.7 5.04 5040 385504.9 1942944502. 7 1942.9 4.28 25418.4 2.93 2930 96208.6 281891326.9 282 0.62 Q3 2020 84607.8 4.93 4930 320240.6 1578786151.6 1578.8 3.48 23663.7 0.416 416 89567.1 37259915.5 37 0.08 Q42020 91258.6 4.62 4620 345413.8 1595811760.6 1595.8 3.52 28934.5 3.620 3620 109517.1 396451838.7 396 0.87 Ql 2021 93486.7 4.61 4610 353847.3 1631235928.8 1631.2 3.60 27898.0 0.349 349 105593.9 36852281.6 37 0.08 Q2 2021 93252.4 6.48 6480 352960.3 2287182964.3 2287.2 5.04 29124.1 0.810 810 110234.7 89290122.0 89 0.20 Q3 2021 89693.5 3.83 3830 339489.8 1300246017 .5 1300.2 2.87 27945.6 0.671 671 105774.1 70974418.4 71 0.16 Q4 2021 95091.4 4.90 4900 3"59920.8 1763611908.2 1763.6 3.89 30045.3 0.518 518 113721.5 58907716.5 59 0.13 Q1 2022 96291.3 4.80 4800 364462.6 17 49420338.4 1749.4 3.86 29113.3 0.300 300 110193.8 33058152.2 33 0.07 Q2 2022 93554.5 3.90 3900 354103.9 1381005047.0 1381.0 3.04 29385.9 0.220 220 111225.6 24469638.9 24 0.05 Q3 2022 82718.6 4.20 4200 313089.9 1314977584.2 1315.0 2.90 28531.3 0.662 662 107991.0 71490022.5 71 0.16 Q4 2022 91487.4 4.09 4090 346279.8 1416284573.6 1416.3 3.12 29411.4 0.337 337 111322.1 37515564.2 38 0.08 Ql 2023 90044.0 4.44 4440 340816.6 1513225773.7 1513.2 3.34 27474.7 0.694 694 103991.7 72170267.2 72 0.16 Q2 2023 91310.8 4.20 4200 345611.5 1451568105.5 1451.6 3.20 25207.6 0.294 294 95410.8 28050765.2 28 0.06 Q3 2023 95944.3 3.90 3900 363149.2 1416281784.5 1416.3 3.12 26841.5 0.324 324 101595.1 32916805.1 33 0.07 Q4 2023 85275.0 6.99 6990 322766.0 2256134524.5 2256.1 4.97 21628.4 1.17 1170 81863.5 95780288.0 96 0.21 Totals Since Q3 2010 4730400.48 188.2 1566129.02 16.5 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-19 TW4-20 Total Pumped Cone Cone Total Total Total Total Pumped Cone Cone Total Pumped Total Quarter Pumped Total (ug) Total (ug) Total (grams) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) (gal) (mg/L) (ug/L) (liters) (pounds) Q3 2010 116899.2 5.90 5900 442463.S 2610534485 2611 5.76 39098.3 5.30 5300 147987.1 784331447.2 784 1.73 Q4 2010 767970.5 2.70 2700 2906768.3 7848274525 7848 17.30 36752.5 4.60 4600 139108.2 639897777.S 640 1.41 Ql 2011 454607.9 17.00 17000 1720690.9 29251745326 29252 64.49 37187.S 4.40 4400 140754.7 619320625 619 1.37 Q2 2011 159238.9 12.00 12000 602719.2 7232630838 7233 15.95 67907.7 4.80 4800 257030.6 1233747094 1234 2.72 Q3 2011 141542.6 3.00 3000 535738.7 1607216223 1607 3.54 72311.2 6.50 6500 273697.9 1779036298 1779 3.92 Q4 2011 147647.2 5.00 5000 558844.7 2794223260 2794 6.16 72089.3 4.20 4200 272858.0 1146003602 1146 2.53 Ql 2012 148747.0 0.60 600 563007.4 337804437 338 0.74 76306.0 7.90 7900 288818.2 2281663859 2282 5.03 Q2 2012 172082.0 2.40 2400 651330.5 1563193161 1563 3.45 22956.4 11.00 11000 86890.1 955790963.1 956 2.11 Q3 2012 171345.0 2.50 2500 648540.8 1621352063 1621 3.57 22025.0 10.80 10800 83364.6 900337950 900 1.98 Q4 2012 156653.0 4.10 4100 592931.6 2431019581 2431 5.36 20114.0 11.00 11000 76131.5 837446390 837 1.85 Ql 2013 210908.0 7.99 7990 798286.8 6378311372 6378 14.06 18177.0 9.07 9070 68799.9 624015501.2 624 1.38 Q22013 226224.0 2.95 2950 856257.8 2525960628 2526 5.57 20252.4 9.76 9760 76655.3 748156059.8 748 1.65 Q3 2013 329460.1 17.60 17600 1247006.5 21947314022 21947 48.39 19731.0 8.65 8650 74681.8 645997872.8 646 1.42 Q4 2013 403974.0 4.70 4700 1529041.6 7186495473 7186 15.84 19280.2 9.64 9640 72975.6 703484369.S 703 1.55 Ql 2014 304851.0 1.62 1620 1153861.0 1869254877 1869 4.12 18781.6 7.56 7560 71088.4 537427971.4 537 1.18 Q2 2014 297660.0 1.34 1340 1126643.1 1509701754 1510 3.33 18462.4 5.95 5950 69880.2 415787094.8 416 0.92 Q3 2014 309742.0 1.60 1600 1172373.5 1875797552 1876 4.14 17237.9 4.30 4300 65245.5 280555441.5 281 0.62 Q42014 198331.0 4.72 4720 750682.8 3543222981 3543 7.81 16341.8 7.67 7670 61853.7 474417978.7 474 1.05 Ql 2015 60553.0 8.56 8560 229193.1 1961892979 1962 4.33 15744.7 9.80 9800 59593.7 584018157.1 584 1.29 Q2 2015 75102.8 0.92 916 284264.1 260385913.8 260 0.57 18754.1 5.76 5760 70984.3 408869386.6 409 0.90 Q3 2015 116503.9 11.60 11600 440967.3 5115220233 5115 11.28 17657.3 9.27 9270 66832.9 619540802.2 620 1.37 Q4 2015 112767.7 10.60 10600 426825.7 4524352892 4524 9.97 15547.4 6.23 6230 58846.9 366616243.1 367 0.81 Ql 2016 116597.0 15.70 15700 441319.6 6928718427 6929 15.28 14353.5 10.30 10300 54328.0 559578374.3 560 1.23 Q2 2016 123768.0 1.27 1270 468461.9 594946587.6 595 1.31 15818.3 11.20 11200 59872.3 670569373.6 671 1.48 Q3 2016 103609.0 10.50 10500 392160.1 4117680683 4118 9.08 12186.6 11.30 11300 46126.3 521226975.3 521 1.15 Q4 2016 104919.4 10.00 10000 397119.9 3971199290 3971 8.76 12879.6 11.40 11400 48749.3 555741860.4 556 1.23 Ql 2017 110416.7 11.10 11100 417927.2 4638992025 4639 10.23 13552.8 12.00 12000 51297.3 615568176 616 1.36 Q2 2017 109943.0 0.24 243 416134.3 101120624 101 0.22 12475.3 9.76 9760 47219.0 460857542.5 461 1.02 Q3 2017 112626.4 1.12 1120 426290.9 477445834.9 477 1.05 14556.8 10.80 10800 55097.5 595052870.4 595 1.31 Q4 2017 108891.2 0.38 377 412153.2 155381753 .4 155 0.34 14271.0 8.91 8910 54015.7 481280198.9 481 1.06 Ql 2018 109856.3 8.61 8610 415806.1 3580090482 3580 7.89 14258.4 9.50 9500 53968.0 512696418 513 1.13 Q2 2018 111271.4 0.49 494 421162.2 208054151.0 208 0.46 13367.6 10.40 10400 50596.4 526202206.4 526 1.16 Q3 2018 105821.8 2.55 2550 400535.5 1021365558.2 1021 2.25 12443.6 8.14 8140 47099.0 383385763.5 383 0.85 Q4 2018 107197.4 0.23 233 405742.2 94537923.0 95 0.21 12841.1 9.72 9720 48603.6 472426637 .2 472 1.04 Ql 2019 116132.8 6.58 6580 439562.6 2892322223.8 2892 6.38 14623.9 6.70 6700 55351.3 370853777.7 371 0.82 Q2 2019 100704.0 8.96 8960 381164.6 3415235174.4 3415 7.53 13439.2 9.59 9590 50867.4 487818097.S 488 1.08 Q3 2019 101026.8 0.33 332 382386.4 126952297.4 127 0.28 13787.0 10.20 10200 52183.8 532274709.0 532 1.17 Q4 2019 98806.8 0.54 535 373983.7 200081299.8 200 0.44 8317.7 9.75 9750 31482.5 306953952.3 307 0.68 Ql 2020 96857.9 10.10 10100 366607.2 3702732230.2 3703 8.16 9505.1 9.81 9810 35976.6 352930585.8 353 0.78 Quarter Q2 2020 Q3 2020 Q4 2020 Ql 2021 Q2 2021 Q3 2021 Q4 2021 Ql 2022 Q2 2022 Q3 2022 Q4 2022 Ql 2023 Q2 2023 Q3 2023 Q4 2023 Totals Since Q32010 Total Pumped (gal) 136619.7 154514.4 144512.0 133462.3 151242.8 157632.4 124359.9 112209.2 123246.5 137486.6 137474.5 132291.8 117218.0 104098.2 104814.1 8892439.10 Cone (mg/L) 1.14 11.60 1.10 6.61 4.04 6.68 11.00 1.70 1.40 4.76 3.58 1.75 6.68 1.57 1.14 TW4-19 Cone Total Pumped (ug/L) (liters) 1140 517105.6 11600 584837.0 1100 546977.9 6610 505154.8 4040 572454.0 6680 596638.6 11000 470702.2 1700 424711.8 1400 466488.1 4760 520386.7 3580 520340.8 1750 500724.3 6680 443670.3 1570 394011.7 1140 396721.4 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-20 Total Total Total Pumped Cone Cone Total Pumped Total Total (ug) Total (ug) Total (grams) (grams) (pounds) (gal) (mg/L) (ug/L) (liters) (pounds) 589500343 .5 590 1.30 100713.8 7.23 7230 381201.6 2756087708.6 2756 6.08 6784109246.4 6784 14.96 12476.2 Well collapsed and not sampled 601675712.0 602 1.33 Well collapsed and not sampled 3339073264.4 3339 7.36 Well collapsed and not sampled 2312714151.9 2313 5.10 Well collapsed and not sampled 3985546075.1 3986 8.79 Well collapsed and not sampled 5177724436.5 5178 11.41 Well collapsed and not sampled 722010097.4 722 1.59 Well collapsed and not sampled 653083362.5 653 1.44 Well collapsed and not sampled 2477040717 .2 2477 5.46 Well collapsed and not sampled 1862820039.8 1863 4.11 Well collapsed and not sampled 876267545.3 876 1.93 Well collapsed and not sampled 2963717479.8 2964 6.53 Well collapsed and not sampled 618598348.6 619 1.36 Well collapsed and not sampled 452262403.2 452 1.00 Well collapsed and not sampled 409.3 1018583.08 63.4 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-4 TW4-22 Total Pumped Cone Cone Total Pumped Total Total Total Cone Cone Total Pumped Total Total Quarter Total (ug) Pumped Total (ug) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) Q3 2010 76916.8 7.30 7300 291130.1 2125249642.4 2125.25 4.69 NA NA NA NA NA NA NA Q42010 86872.1 7.10 7100 328810.9 2334557379.4 2334.56 5.15 NA NA NA NA NA NA NA Ql 2011 73360.0 7.00 7000 277667.6 1943673200.0 1943.67 4.29 NA NA NA NA NA NA NA Q2 2011 80334.6 7.00 7000 304066.5 2128465227 .0 2128.47 4.69 NA NA NA NA NA NA NA Q3 2011 97535.0 6.60 6600 369170.0 2436521835.0 2436.52 5.37 NA NA NA NA NA NA NA Q4 2011 109043.5 7.00 7000 412729.6 2889107532.5 2889.11 6.37 NA NA NA NA NA NA NA Ql 2012 101616.8 7.10 7100 384619.6 2730799074.8 2730.80 6.02 NA NA NA NA NA NA NA Q2 2012 87759.1 7.10 7100 332168.2 2358394173.9 2358.39 5.20 NA NA NA NA NA NA NA Q3 2012 80006.0 7.10 7100 302822.7 2150041241.0 2150.04 4.74 NA NA NA NA NA NA NA Q4 2012 71596.0 7.00 7000 270990.9 1896936020.0 1896.94 4.18 NA NA NA NA NA NA NA Ql 2013 58716.8 7.36 7360 222243.1 1635709127.7 1635.71 3.61 16677.4 58.0 58000.0 63124.0 3661189622.0 3661.2 8.07 Q2 2013 65603.4 6.30 6300 248308.9 156434587 4. 7 1564.35 3.45 25523.2 50.2 50200.0 96605.3 4849586662.4 4849.6 10.69 Q3 2013 63515.4 7.22 7220 240405.8 1735729796.6 1735.73 3.83 25592.9 29.7 29700.0 96869.1 2877013057 .1 2877.0 6.34 Q4 2013 60233.6 7.84 7840 227984.2 1787395939.8 1787.40 3.94 24952.2 45.2 45200.0 94444.1 4268872280.4 4268.9 9.41 Ql 2014 58992.9 7.28 7280 223288.1 1625537560.9 1625.54 3.58 24532.0 54.6 54600.0 92853.6 5069807652.0 5069.8 11.18 Q2 2014 60235.3 5.91 5910 227990.6 1347424508.1 1347.42 2.97 24193.9 47.2 47200.0 91573.9 4322288622.8 4322.3 9.53 Q3 2014 69229.4 5.30 5300 262033.3 1388776378. 7 1388.78 3.06 24610.9 41.5 41500.0 93152.3 3865818644.8 3865.8 8.52 Q4 2014 64422.6 7.02 7020 243839.5 1711753577.8 1711.75 3.77 23956.9 54.9 54900.0 90676.9 4978159970.9 4978.2 10.97 Ql 2015 36941.3 7.70 7700 139822.8 1076635717.9 1076.64 2.37 22046.9 69.2 69200.0 83447.5 5774568141.8 5774.6 12.73 Q2 2015 68162.8 6.33 6330 257996.2 1633115933.3 1633.12 3.60 23191.6 47.1 47100.0 87780.2 4134447702.6 4134.4 9.11 Q3 2015 64333.0 6.45 6450 243500.4 1570577612.3 1570.58 3.46 24619.9 64.7 64700.0 93186.3 6029155001.1 6029.2 13.29 Q4 2015 59235.1 6.27 6270 224204.9 1405764431.4 1405.76 3.10 23657.6 56.1 56100.0 89544.0 5023419297 .6 5023.4 11.07 Ql 2016 57274.0 6.71 6710 216782.1 1454607823.9 1454.61 3.21 24517.8 31.1 31100.0 92799.9 2886076050.3 2886.1 6.36 Q2 2016 61378.0 6.56 6560 232315.7 1523991188.8 1523.99 3.36 26506.3 58.4 58400.0 100326.3 5859058577.2 5859.1 12.92 Q3 2016 50104.2 7.22 7220 189644.4 1369232546.3 1369.23 3.02 22144.1 61.3 61300.0 83815.4 5137885154.1 5137.9 11.33 Q4 2016 31656.0 6.77 6770 119818.0 811167589.2 811.17 1.79 23646.8 61.5 61500.0 89503.1 5504442987 .0 5504.4 12.14 Ql 2017 23526.8 6.87 6870 89048.9 611766204.1 611.77 1.35 24066.2 69.8 69800.0 91090.6 6358121576.6 6358.1 14.02 Q2 2017 23244.9 7.06 7060 87981.9 621152542.3 621.15 1.37 23685.0 70.8 70800.0 89647.7 6347058930.0 6347.1 13.99 Q3 2017 23937.3 6.47 6470 90602.7 586199342.8 586.20 1.29 24583.2 66.1 66100.0 93047.4 6150433933.2 6150.4 13.56 Q4 2017 22900.6 6.90 6900 86678.8 598083519.9 598.08 1.32 23779.6 80.1 80100.0 90005.8 7209463458.6 7209.5 15.89 Ql 2018 23103.4 6.12 6120 87446.4 535171778.3 535.17 1.18 23982.8 62.3 62300.0 90774.9 5655276145.4 5655.3 12.47 Q2 2018 18137.0 6.34 6340 68648.5 435231775.3 435.23 0.96 23256.6 72.5 72500.0 88026.2 63819017 4 7.5 6381.9 14.07 Q3 2018 15366.0 6.10 6100 58160.3 354777891.0 354.78 0.78 21248.7 55.4 55400.0 80426.3 4455618654.3 4455.6 9.82 Q4 2018 15420.2 6.02 6020 58365.5 351360051.1 351.36 0.77 24171.0 75.7 75700.0 91487.2 6925583689.5 6925.6 15.27 Ql 2019 16655.0 7.26 7260 63039.2 457664410.5 457.66 1.01 26149.9 71.9 71900.0 98977.4 7116473010.9 7116.5 15.69 Q2 2019 14311.9 10.4 10400 54170.5 563373631.6 563.37 1.24 23073.1 83.9 83900.0 87331.7 7327128245.7 7327.1 16.15 Q3 2019 14520.0 6.32 6320 54958.2 347335824.0 347.34 0.77 24711.7 72.5 72500.0 93533.8 6781199376.3 6781.2 14.95 Q4 2019 14399.8 6.52 6520 54503.2 355361144.4 355.36 0.78 24052.5 59.9 59900.0 91038.7 5453218878.8 5453.2 12.02 Ql 2020 14439.2 4.58 4580 54652.4 250307863.8 250.31 0.55 24746.1 57.7 57700.0 93664.0 5404412136.5 5404.4 11.91 Quarter Q2 2020 Q3 2020 Q4 2020 Ql 2021 Q2 2021 Q3 2021 Q4 2021 Ql 2022 Q2 2022 Q3 2022 Q4 2022 Ql 2023 Q2 2023 Q3 2023 Q4 2023 Tota Is Since Q32010 Total Pumped (gal) 15347.0 14389.9 15061.S 13740.8 13425.7 12021.0 11401.1 10434.1 11463.2 7928.5 8777.0 8236.0 7407.0 8580.2 5943.9 2199192.70 TW4-4 Cone Cone Total Pumped (mg/L) (ug/L) (liters) 7.26 7260 58088.4 7.04 7040 54465.8 6.77 6770 57007.8 6.75 6750 52008.9 9.02 9020 50816.3 4.00 4000 45499.5 7.32 7320 43153.2 6.60 6600 39493.1 6.00 6000 43388.2 6.65 6650 30009.4 6.59 6590 33220.9 7.12 7120 31173.3 6.82 6820 28035.5 6.08 6080 32476.1 4.44 4440 22497.7 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-22 Total Total Total Cone Cone Total Pumped Total Total Total (ug) Pumped Total (ug) (grams) (pounds) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) 421721747.7 421.72 0.93 25295.3 60.S 60500.0 95742.7 5792433985.3 5792.4 12.77 383439031.4 383.44 0.85 23050.6 64.8 64800.0 87246.S 5653574560.8 5653.6 12.46 385942653. 7 385.94 0.85 22866.1 64.9 64900.0 86548.2 5616977433.7 5617.0 12.38 351060264.0 351.06 0.77 22605.6 69.6 69600.0 85562.2 5955128841.6 5955.1 13.13 458362796.0 458.36 1.01 22893.3 89.3 89300.0 86651.1 773 7946846. 7 7737.9 17.06 181997940.0 182.00 0.40 22272.5 35.1 35100.0 84301.4 2958979578.8 2959.0 6.52 315881156.8 315.88 0.70 22667.3 68.8 68800.0 85795.7 5902746258.4 5902.7 13.01 260654252.1 260.65 0.57 22083.6 40.4 40400.0 83586.4 3376891610.4 3376.9 7.44 260329272.0 260.33 0.57 22489.0 45.0 45000.0 85120.9 3830438925.0 3830.4 8.44 199562327 .1 199.56 0.44 21940.2 69.9 69900.0 83043.7 5804751624.3 5804.8 12.80 218926027 .6 218.93 0.48 22398.4 62.0 62000.0 84777.9 5256232528.0 5256.2 11.59 221953611.2 221.95 0.49 21783.0 49.1 49100.0 82448.7 4048228960.5 4048.2 8.92 191202075.9 191.20 0.42 22375.4 49.8 49800.0 84690.9 4217606272.2 4217.6 9.30 197 454426.6 197.45 0.44 23422.7 58.8 58800.0 88654.9 5212909266.6 5212.9 11.49 99889617.1 99.89 0.22 20555.5 42.9 42900.0 77802.6 3337730145.8 3337.7 7.36 125.3 1030575.3 508.2 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-24 TW4-25 Total Pumped Cone Cone Total Pumped Total Total Total Pumped Cone Cone Total Total Total Quarter Total (ug) Pumped Total (ug) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) Q3 2010 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q42010 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2013 144842.6 35.9 35900 548229.2 19681429751.9 19681.4 43.39 99369.9 9.00 9000 376115.1 3385035643.5 3385.0 7.46 Q2 2013 187509.3 23.7 23700 709722.7 16820428001.9 16820.4 37.08 147310.4 5.24 5240 557569.9 2921666087.4 2921.7 6.44 Q3 2013 267703.5 32.6 32600 1013257.7 33032202568.S 33032.2 72.82 145840.9 5.69 5690 552007.8 3140924419.0 3140.9 6.92 Q4 2013 260555.3 34.6 34600 986201.8 34122582643.3 34122.6 75.23 126576.S 6.10 6100 479092.1 2922461520.3 2922.5 6.44 Ql 2014 229063.9 31.6 31600 867006.9 27397416823.4 27397.4 60.40 129979.2 2.16 2160 491971.3 1062657947.5 1062.7 2.34 Q2 2014 216984.1 35.0 35000 821284.8 28744968647.5 28745.0 63.37 124829.8 1.21 1210 472480.8 571701759.5 571.7 1.26 Q3 2014 213652.5 31.S 31500 808674.7 25473253443.8 25473.3 56.16 119663.9 1.60 1600 452927.9 724684578.4 724.7 1.60 Q42014 178468.7 35.7 35700 675504.0 24115493853.2 24115.5 53.17 107416.1 1.03 1030 406569.9 418767036.7 418.8 0.92 Ql 2015 92449.3 34.6 34600 349920.6 12107252777.3 12107.3 26.69 71452.4 14.40 14400 270447.3 3894441609.6 3894.4 8.59 Q2 2015 62664.2 31.8 31800 237184.0 7542451104.6 7542.5 16.63 91985.3 1.14 1140 348164.4 396907371.0 396.9 0.88 Q3 2015 66313.2 25.3 25300 250995.5 6350185188.6 6350.2 14.00 124137.1 1.63 1630 469858.9 765870045.3 765.9 1.69 Q4 2015 107799.1 29.6 29600 408019.6 12077379967.6 12077.4 26.63 116420.1 1.78 1780 440650.1 784357139.7 784.4 1.73 Ql 2016 100063.2 29.1 29100 378739.2 11021311069.2 11021.3 24.30 115483.2 0.84 837 437103.9 365855974.3 365.9 0.81 Q2 2016 65233.6 24.2 24200 246909.2 5975202059.2 5975.2 13.17 125606.0 0.96 959 475418.7 455926542.9 455.9 1.01 Q3 2016 51765.8 34.4 34400 195933.6 6740114223.2 6740.1 14.86 104983.6 1.78 1780 397362.9 707306008.3 707.3 1.56 Q4 2016 99522.5 31.9 31900 376692.7 12016495933.8 12016.5 26.49 98681.2 1.24 1240 373508.3 463150344.1 463.2 1.02 Ql 2017 99117.4 41.3 41300 375159.4 15494081526.7 15494.1 34.16 161.2 17.00 17000 610.1 10372414.0 10.4 0.02 Q2 2017 52808.7 39.9 39900 199880.9 7975249087 .1 7975.2 17.58 101617.2 0.98 976 384621.1 375390195.6 375.4 0.83 Q3 2017 55574.6 40.0 40000 210349.9 8413994440.0 8414.0 18.55 124138.4 1.23 1230 469863.8 577932528.1 577.9 1.27 Q4 2017 106021.4 31.7 31700 401291.0 12720924668.3 12720.9 28.04 116731.9 1.29 1290 441830.2 569961011.5 570.0 1.26 Ql 2018 96900.2 44.9 44900 366767.3 16467849839.3 16467.8 36.31 116991.7 2.23 2230 442813.6 987474293.4 987.S 2.18 Q2 2018 53117.9 33.6 33600 201051.3 6755322050.4 6755.3 14.89 117758.3 1.14 1140 445715.2 508115288. 7 508.1 1.12 Q3 2018 53142.6 33.8 33800 201144.8 6798693525.1 6798.7 14.99 111657.S 0.81 810 422623.6 342325146.4 342.3 0.75 Q4 2018 101606.4 38.4 38400 384580.2 14767880601.6 14767.9 32.56 114458.2 0.63 634 433224.3 274664198.0 274.7 0.61 Ql 2019 97701.0 39.3 39300 369798.4 14533077063.0 14533.1 32.04 90789.S 0.64 639 343638.1 219584725.6 219.6 0.48 Q2 2019 53197.3 33.2 33200 201351.9 6684881625.8 6684.9 14.74 88302.0 0.82 821 334223.1 274397140.5 274.4 0.60 Q3 2019 54445.7 36.4 36400 206077.0 7501201871.8 7501.2 16.54 87609.5 0.55 548 331602.0 181717872.7 181.7 0.40 Q4 2019 102211.0 33.8 33800 386868.7 13076162421.7 13076.2 28.83 85928.5 0.84 841 325239.5 273526407 .8 273.5 0.60 Ql 2020 86344.4 37.1 37100 326813.5 12124780044.9 12124.8 26.73 85049.5 0.61 607 321912.2 195400732.1 195.4 0.43 Quarter Q2 2020 Q3 2020 Q4 2020 Ql 2021 Q2 2021 Q3 2021 Q4 2021 Ql 2022 Q2 2022 Q3 2022 Q4 2022 Ql 2023 Q2 2023 Q3 2023 Q4 2023 Totals Since Q32010 Total Pumped (gal) 57634.7 53316.1 103987.2 81891.2 54377.9 53333.1 96534.8 73545.0 50341.7 58456.5 100289.8 75424.S 52081.4 57213.1 86337.4 4411543.7 Cone Cone (mg/L) (ug/L) 41.7 41700 39.1 39100 35.9 35900 41.9 41900 48.0 48000 26.7 26700 43.6 43600 36.2 36200 35.0 35000 32.0 32000 27.6 27600 36.2 36200 35.9 35900 26.2 26200 16.9 16900 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-24 Total Pumped Total Total Total Pumped Cone Cone Total (ug) (liters) (grams) (pounds) (gal) (mg/L) (ug/L) 218147.3 9096744057.2 9096.7 20.05 90767.9 0.85 851 201801.4 7890436245.4 7890.4 17.40 83956.3 0.99 994 393591.6 14129936716.8 14129.9 31.15 86254.4 1.64 1640 309958.3 12987251416.6 12987.3 28.63 80272.2 3.43 3430 205820.4 98793 76872.0 9879.4 21.78 82692.8 1.57 1570 201865.8 5389817430.0 5389.8 11.88 82802.3 0.79 793 365384.1 15930745303.8 15930.7 35.12 89361.5 0.98 978 278367.8 10076915265.0 10076.9 22.22 92972.1 1.80 1800 190543.2 6669011408.5 6669.0 14.70 101724.9 0.88 880 221257.7 7080245224.0 7080.2 15.61 98357.6 1.51 1510 379596.9 10476875291.S 10476.9 23.10 95056.0 1.47 1470 285481.6 10334433235.8 10334.4 22.78 87269.8 1.96 1960 197128.0 7076894677. 7 7076.9 15.60 94118.3 1.03 1030 216551.6 5673651487.7 5673.7 12.51 117564.3 0.79 790 326787.1 5522701297 .1 5522.7 12.18 100409.1 0.480 480 1245.1 4474508.52 TW4-25 Total Total Total Pumped Total (ug) (liters) (grams) (pounds) 343556.6 292366679.4 292.4 0.64 317774.6 315867910.3 315.9 0.70 326472.7 535415252.2 535.4 1.18 303830.4 1042138109.8 1042.1 2.30 312992.2 491397829.4 491.4 1.08 313406.8 248531607.5 248.5 0.55 338233.3 330792182.4 330.8 0.73 351899.4 633418917.3 633.4 1.40 385028.7 338825230.3 338.8 0.75 372283.7 562148337 .8 562.1 1.24 359787.1 528886998.1 528.9 1.17 330316.2 647419812.5 647.4 1.43 356237.8 366924976.4 366.9 0.81 444980.9 351534891.6 351.S 0.78 380048.3 182423180.2 182.4 0.40 76.4 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TWN-02 TW4-01 Total Cone Cone Total Pumped Total Total Total Cone Cone Total Pumped Total Total Quarter Total (ug) Pumped Total (ug) Pumped (gal) (mg/L) (ug/L) (liters) (grams) (pounds) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) Q3 2010 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2010 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q42012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2013 31009.4 57.3 57300 117370.6 6725334176. 7 6725.3 14.83 NA NA NA NA NA NA NA Q2 2013 49579.3 57.7 57700 187657.7 10827846433.9 10827.8 23.87 NA NA NA NA NA NA NA Q3 2013 50036.5 80.0 80000 189388.2 15151052200.0 15151.1 33.40 NA NA NA NA NA NA NA Q4 2013 49979.9 111.0 111000 189173.9 20998305286.5 20998.3 46.29 NA NA NA NA NA NA NA Ql 2014 48320.4 42.6 42600 182892.7 7791229616.4 7791.2 17.18 NA NA NA NA NA NA NA Q2 2014 47611.9 44.7 44700 180211.0 8055433555.1 8055.4 17.76 NA NA NA NA NA NA NA Q3 2014 46927.2 42.0 42000 177619.5 7460016984.0 7460.0 16.45 NA NA NA NA NA NA NA Q42014 47585.6 70.6 70600 180111.5 12715871617.6 12715.9 28.03 NA NA NA NA NA NA NA Ql 2015 47262.2 48.6 48600 178887.4 8693928952.2 8693.9 19.17 24569.2 7.06 7060 92994.4 656540619.3 656.5 1.45 Q2 2015 48497.3 52.8 52800 183562.3 9692088410.4 9692.1 21.37 23989.9 6.07 6070 90801.8 551166753.0 551.2 1.22 Q3 2015 48617.4 49.7 49700 184016.9 9145637892.3 9145.6 20.16 23652.0 6.28 6280 89522.8 562203309.6 562.2 1.2 Q4 2015 46754.1 44.9 44900 176964.3 7945695655.7 7945.7 17.52 20764.3 1.55 1550 78592.9 121818957 .0 121.8 0.27 Ql 2016 47670.2 86.3 86300 180431.7 15571256314.1 15571.3 34.33 19255.6 0.15 148 72882.4 10786602.0 10.8 0.02 Q2 2016 50783.0 45.4 45400 192213.7 8726499937 .0 8726.5 19.24 19588.2 0.14 138 74141.3 10231504.5 10.2 0.02 Q3 2016 42329.6 35.3 35300 160217.5 5655679020.8 5655.7 12.47 15613.5 5.49 5490 59097.1 324443065.3 324.4 0.72 Q4 2016 44640.6 32.6 32600 168964.7 550824827 4.6 5508.2 12.14 16756.8 0.75 746 63424.5 47314668.0 47.3 0.10 Ql 2017 45283.2 27.4 27400 171396.9 4696275388.8 4696.3 10.35 16931.8 4.44 4440 64086.9 284545671.7 284.5 0.63 Q2 2017 42550.6 25.0 25000 161054.0 4026350525.0 4026.4 8.88 18200.2 5.74 5740 68887.8 395415725.2 395.4 0.87 03 2017 46668.9 23.9 23900 176641.8 4221738697 .4 4221.7 9.31 17413.6 5.04 5040 65910.5 332188799.0 332.2 0.73 Q4 2017 38964.7 31.9 31900 147481.4 4704656325.1 4704.7 10.37 14089.8 5.78 5780 53329.9 308246781.5 308.2 0.68 Ql 2018 43341.0 19.6 19600 164045.7 3215295426.0 3215.3 7.09 12505.7 4.84 4840 47334.1 229096920.6 229.1 0.51 Q2 2018 43697.0 19.8 19800 165393.1 3274784271.0 3274.8 7.22 10814.8 4.38 4380 40934.0 179290998.8 179.3 0.40 Q3 2018 41776.0 18.6 18600 158122.2 2941072176.0 2941.1 6.48 9727.3 4.30 4300 36817.8 158316671.2 158.3 0.35 Q4 2018 38545.8 19.6 19600 145895.9 2859558718.8 2859.6 6.30 9836.7 4.57 4570 37231.9 170149826.4 170.1 0.38 Ql 2019 44752.8 19.0 19000 169389.3 3218397612.0 3218.4 7.10 10603.6 4.51 4510 40134.6 181007163.3 181.0 0.40 Q2 2019 43432.2 45.1 45100 164390.9 7414028552.7 7414.0 16.35 9393.9 1.43 1430 35555.9 50844953.4 50.8 0.11 03 2019 41377.5 23.2 23200 156613.8 3633441030.0 3633.4 8.01 9734.1 1.65 1650 36843.6 60791888.0 60.8 0.13 Q4 2019 34011.4 18.2 18200 128733.1 2342943311.8 2342.9 5.17 9184.3 3.91 3910 34762.6 135921670.2 135.9 0.30 Ql 2020 32230.0 16.5 16500 121990.6 2012844075.0 2012.8 4.44 9796.7 4.67 4670 37080.5 173165979.4 173.2 0.38 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TWN-OZ TW4-01 Total Cone Cone Total Pumped Total Total Total Cone Cone Total Pumped Total Total Quarter Total (ug) Pumped Total (ug) Pumped (gal) (mg/L) (ug/L) (liters) (grams) (pounds) (gal) (mg/L) (ug/L} (liters) (grams) (pounds) Q2 2020 30078.9 16.1 16100 113848.6 1832963047.7 1833.0 4.04 9600.2 0.44 443 36336.8 16097183.4 16.1 0.04 Q3 2020 21279.1 17.2 17200 80541.4 1385311968.2 1385.3 3.05 9487.3 2.22 2220 35909.4 79718935.7 79.7 0.18 Q42020 25682.1 12.0 12000 97206.7 1166480982.0 1166.5 2.57 9318.7 4.30 4300 35271.3 151666501.9 151.7 0.33 Ql 2021 23310.5 15.4 15400 88230.2 1358745734.5 1358.7 3.00 9066.4 2.72 2720 34316.3 93340401.3 93.3 0.21 Q2 2021 22717.2 13.8 13800 85984.6 1186587507.6 1186.6 2.62 8764.1 0.73 728 33172.1 24149302.3 24.1 0.05 Q3 2021 20130.8 15.3 15300 76195.0 1165783535.2 1165.8 2.57 8677.2 1.38 1380 32843.2 45323618.8 45.3 0.10 Q4 2021 17425.3 12.7 12700 65954.8 837626419.7 837.6 1.85 8873.4 4.37 4370 33585.8 146770029.0 146.8 0.32 Ql 2022 16188.7 15.3 15300 61274.2 937495711.4 937.5 2.07 8251.8 3.90 3900 31233.1 121808945. 7 121.8 0.27 Q2 2022 16024.1 14.0 14000 60651.0 849114409.5 849.1 1.87 7616.0 0.18 180 28826.6 5188780.8 5.2 0.01 Q3 2022 15082.1 13.9 13900 57085.6 793489799.7 793.5 1.75 8512.1 0.42 420 32218.3 13531685.4 13.5 0.03 Q4 2022 15606.0 14.0 14000 59068.7 826962469.9 827.0 1.82 8450.8 3.62 3620 31986.3 115790326.4 115.8 0.26 Ql 2023 17321.5 11.2 11200 65562.0 734294299.8 734.3 1.62 7985.1 1.71 1710 30223.6 51682362.0 51.7 0.11 Q2 2023 23193.7 13.6 13600 87788.3 1193920960.2 1193.9 2.63 7825.6 3.87 3870 29619.9 114628997.5 114.6 0.25 Q3 2023 17749.7 14.0 14000 67182.6 940556603.0 940.6 2.07 8419.4 3.83 3830 31867.4 122052253.1 122.1 0.27 Q4 2023 13534.0 14.6 14600 51226.1 747900716.2 747.9 1.65 7329.3 3.91 3910 27741.4 108468876.0 108.5 0.24 Totals Since Q3 2010 1579559.4 496.4 450599.40 13.6 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-0Z TW4-11 Total Pumped Cone Cone Total Pumped Total Total Total Cone Cone Total Total Total Quarter Total (ug) Pumped Pumped Total (ug) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) Q3 2010 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2010 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q42011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q42012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2013 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q22013 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2013 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2013 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2014 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2014 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2014 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2014 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2015 24156.7 5.32 5320 91433.1 486424142.5 486.4 1.07 9898.7 8.72 8720 37466.6 326708573.2 326.7 0.72 Q2 2015 22029.9 4.30 4300 83383.2 358547637.5 358.5 0.79 5243.3 8.48 8480 19845.9 168293151.4 168.3 0.37 Q3 2015 21586.9 3.8 3760 81706.4 307216126.0 307.2 0.7 3584.4 9.6 9610 13567.0 130378427 .9 130.4 0.3 Q4 2015 21769.8 5.18 5180 82398.7 426825229.7 426.8 0.94 4110.3 7.50 7500 15557.5 116681141.3 116.7 0.26 Ql 2016 20944.6 5.30 5300 79275.3 420159148.3 420.2 0.93 3676.2 7.13 7130 13914.4 99209793.2 99.2 0.22 Q2 2016 20624.0 6.67 6670 78061.8 520672472.8 520.7 1.15 3760.4 7.81 7810 14233.1 111160620.3 111.2 0.25 Q3 2016 17487.4 4.07 4070 66189.8 269392522.6 269.4 0.59 2953.8 8.83 8830 11180.1 98720574.4 98.7 0.22 Q4 2016 19740.6 6.07 6070 74718.2 453539298.0 453.S 1.00 3050.2 8.92 8920 11545.0 102981462.4 103.0 0.23 Ql 2017 19869.7 4.74 4740 75206.8 356480300. 7 356.S 0.79 2984.2 8.12 8120 11295.2 91716999.6 91.7 0.20 Q2 2017 18716.7 4.90 4900 70842.7 347129276.6 347.1 0.77 2845.9 7.92 7920 10771.7 85312113.5 85.3 0.19 Q3 2017 19338.8 5.08 5080 73197.4 371842578.6 371.8 0.82 2830.0 7.78 7780 10711.6 83335859.0 83.3 0.18 Q4 2017 17327.6 3.28 3280 65585.0 215118688.5 215.1 0.47 2612.7 7.79 7790 9889.1 77035851.4 77.0 0.17 Ql 2018 16232.3 2.94 2940 61439.3 180631411.2 180.6 0.40 2571.0 7.89 7890 9731.2 76779444.2 76.8 0.17 Q2 2018 16051.4 3.50 3500 60754.5 212640921.5 212.6 0.47 2513.5 7.51 7510 9513.6 71447117.2 71.4 0.16 Q3 2018 14927.2 4.83 4830 56499.5 272892353.2 272.9 0.60 2170.2 7.15 7150 8214.2 58731580.1 58.7 0.13 Q4 2018 15464.1 3.52 3520 58531.6 206031297 .1 206.0 0.45 2379.5 6.85 6850 9006.4 61693891.4 61.7 0.14 Ql 2019 16169.9 3.92 3920 61203.1 239916040.3 239.9 0.53 2342.4 7.50 7500 8866.0 66494880.0 66.5 0.15 Q2 2019 13893.7 4.38 4380 52587.7 230333926.7 230.3 0.51 2195.1 8.30 8300 8308.5 68960164.1 69.0 0.15 Q3 2019 14106.9 4.79 4790 53394.6 255760213.0 255.8 0.56 2046.0 7.15 7150 7744.1 55370386.5 55.4 0.12 Q42019 14220.9 3.40 3400 53826.1 183008762.1 183.0 0.40 1983.9 7.14 7140 7509.1 53614699.1 53.6 0.12 Ql 2020 13162.1 6.07 6070 49818.5 302398589.4 302.4 0.67 1947.4 7.07 7070 7370.9 52112326.6 52.1 0.11 Quarter Q2 2020 Q3 2020 Q4 2020 Ql 2021 Q2 2021 Q3 2021 Q4 2021 Ql 2022 Q2 2022 Q3 2022 Q4 2022 Ql 2023 Q2 2023 Q3 2023 Q4 2023 Totals Since Q32010 Total Pumped (gal) 14155.6 14009.5 14582.9 13189.6 11975.9 12694.S 12351.3 11380.6 11518.1 10953.7 12148.6 10275.4 11931.8 11513.8 10133.2 560635.70 Cone Cone (mg/L) (ug/L) 3.62 3620 3.35 3350 2.34 2340 3.30 3300 3.89 3890 1.97 1970 3.49 3490 3.30 3300 3.10 3100 3.07 3070 3.74 3740 2.03 2030 3.70 3700 3.23 3230 2.97 2970 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-02 TW4-11 Total Pumped Total Total Total Cone Cone Total Total Total Total (ug) Pumped Pumped Total (ug) (liters) (grams) (pounds) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) 53578.9 193955784.5 194.0 0.43 2003.9 7.56 7560 7584.8 57340796.9 57.3 0.13 53026.0 177636957.6 177.6 0.39 1784.1 7.59 7590 6752.8 51253892.4 51.3 0.11 55196.3 129159287 .0 129.2 0.28 1394.6 7.19 7190 5278.6 37952853.6 38.0 0.08 49922.6 164744698.8 164.7 0.36 2195.1 7.21 7210 8308.5 59904495.S 59.9 0.13 45328.8 176328960.0 176.3 0.39 1694.5 8.17 8170 6413.7 52399786.0 52.4 0.12 48048.7 94655904.S 94.7 0.21 1560.8 5.78 5780 5907.5 34145214.7 34.1 0.08 46749.7 163156350.0 163.2 0.36 1485.S 7.44 7440 5622.6 41832274.2 41.8 0.09 43075.6 142149384.3 142.1 0.31 1497.2 7.40 7400 5666.9 41935074.8 41.9 0.09 43596.0 135147626.4 135.1 0.30 1473.1 5.90 5900 5575.S 32895416.1 32.9 0.07 41459.8 127281446.3 127.3 0.28 1304.3 6.90 6900 4936.9 34064273.3 34.1 0.08 45982.5 171974366.7 172.0 0.38 1442.4 7.05 7050 5459.5 38489362.2 38.5 0.08 38892.4 78951549.7 79.0 0.17 1326.4 5.68 5680 5020.3 28515578.3 28.5 0.06 45161.9 167098893.1 167.1 0.37 1159.5 6.70 6700 4388.6 29403325.9 29.4 0.06 43579.7 140762537 .6 140.8 0.31 1277.7 6.05 6050 4836.1 29258371.7 29.3 0.06 38354.2 113911861.1 113.9 0.25 1084.1 6.69 6690 4103.4 27451960.4 27.5 0.06 19.4 90382.22 5.9 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-21 TW4-37 Quarter Total Cone Cone Total Pumped Total (ug) Total Total Total Pumped Cone Cone Total Pumped Total (ug) Total Total Pumped (gal) (mg/L) (ug/L) (liters) (grams) (pounds) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) Q3 2010 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2010 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q42011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2013 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2013 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2013 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q42013 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2014 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2014 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2014 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2014 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2015 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2015 30743.7 13.1 13100 116364.9 1524380249.0 1524.4 3.4 29206.0 35.2 35200 110544.7 3891173792.0 3891.2 8.6 Q3 2015 125285.4 14.7 14700 474205.2 6970817013.3 6970.8 15.4 118063.9 32.4 32400 446871.9 14478648312.6 14478.6 31.9 Q4 2015 134774.9 14.30 14300 510123.0 7294758850.0 7294.8 16.08 111737.S 34.60 34600 422926.4 14633254737.S 14633.3 32.26 Ql 2016 125513.3 14.60 14600 475067.8 6935990471.3 6936.0 15.29 111591.0 28.40 28400 422371.9 11995362954.0 11995.4 26.45 Q2 2016 132248.7 13.10 13100 500561.3 6557353416.S 6557.4 14.46 119241.2 27.90 27900 451327.9 12592049581.8 12592.0 27.76 Q3 2016 110381.9 16.50 16500 417795.S 6893625609.8 6893.6 15.20 98377.6 33.40 33400 372359.2 12436797814.4 12436.8 27.42 Q4 2016 130311.3 13.50 13500 493228.3 6658581651.8 6658.6 14.68 101949.1 26.10 26100 385877.3 10071398665.4 10071.4 22.20 Ql 2017 54333.S 17.70 17700 205652.3 3640045665.8 3640.0 8.02 97071.7 32.30 32300 367416.4 11867549219.4 11867.5 26.16 Q2 2017 60969.7 9.53 9530 230770.3 2199241097.2 2199.2 4.85 93191.3 31.20 31200 352729.1 11005146999.6 11005.1 24.26 Q3 2017 120116.2 18.2 18200 454639.8 8274444669.4 8274.4 18.24 81749.3 30.S 30500 309421.1 9437343565.3 9437.3 20.81 Q42017 126492.S 16.9 16900 478774.1 8091282501.3 8091.3 17.84 87529.6 30.6 30600 331299.S 10137765801.6 10137.8 22.35 Ql 2018 117832.0 15.8 15800 445994.1 7046707096.0 7046.7 15.54 84769.3 30.0 30000 320851.8 9625554015 .0 9625.6 21.22 Q2 2018 116681.0 14.1 14100 441637.6 6227089948.S 6227.1 13.73 83653.1 28.6 28600 316627.0 9055531728.1 9055.S 19.96 Q3 2018 110001.4 0.236 236 416355.3 98259850.6 98.3 0.22 77457.8 25.4 25400 293177.8 7446715434.2 7446.7 16.42 Q4 2018 121686.3 15.2 15200 460582.6 7000856211.6 7000.9 15.43 76271.4 27.3 27300 288687.2 7881161897.7 7881.2 17.38 Ql 2019 123264.1 8.99 8990 466554.S 4194325339.8 4194.3 9.25 77591.4 30.1 30100 293683.4 8839871814.9 8839.9 19.49 Q2 2019 106893.6 17.S 17500 404592.3 7080364830.0 7080.4 15.61 64950.1 31.2 31200 245836.1 7670087209.2 7670.1 16.91 Q3 2019 108132.9 14.7 14700 409283.0 6016460489.6 6016.S 13.26 67572.0 25.8 25800 255760.0 6598608516.0 6598.6 14.55 Q4 2019 116167.6 5.73 5730 439694.2 2519447632.8 2519.4 5.55 66732.4 25.S 25500 252582.1 6440844417.0 6440.8 14.20 Ql 2020 106622.0 8.93 8930 403564.3 3603829269.1 3603.8 7.95 65554.2 28.3 28300 248122.6 7021870910.1 7021.9 15.48 Quarter Q2 2020 Q3 2020 Q4 2020 Ql 2021 Q2 2021 Q3 2021 Q4 2021 Ql 2022 Q2 2022 Q3 2022 Q4 2022 Ql 2023 Q2 2023 Q3 2023 Q42023 Totals Since Q32010 Total Pumped (gal) 110999.1 99515.1 107061.2 97211.S 97157.6 93390.4 102535.0 91105.4 91682.S 87160.0 94463.6 83943.S 83501.7 89276.6 82763.3 3590218.S Cone Cone (mg/L) (ug/L) 15.4 15400 12.6 12600 16.3 16300 15.2 15200 21.S 21500 12.9 12900 17.2 17200 2.2 2200 8.9 8900 14.3 14300 2.12 2120 10.9 10900 17.3 17300 6.13 6130 9.41 9410 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-21 TW4-37 Total Pumped Total (ug) Total Total Total Pumped Cone Cone Total Pumped Total (ug) Total Total (llters) (grams) (pounds) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) 420131.7 6470028288.6 6470,0 14.26 65163.8 28.3 28300 246645.0 6980053018.9 6980.1 15.39 376664.7 4745975111.0 4746.0 10.46 56659.3 29.5 29500 214455.S 6326435789.8 6326.4 13.95 405226.5 6605191796.8 6605.2 14.56 61323.9 28.7 28700 232111.0 6661584595.1 6661.6 14.69 367945.S 5592771442.7 5592.8 12.33 59907.4 26.9 26900 226749.S 6099561792.1 6099.6 13.45 367741.S 7906442594.0 7906.4 17.43 58564.2 26.6 26600 221665.S 5896302220.2 5896.3 13.00 353482.7 4559926365.6 4559.9 10.05 49987.5 25.8 25800 189202.7 4881429337.S 4881.4 10.76 388095.0 6675234221.0 6675.2 14.72 46649.1 31.3 31300 176566.8 5526542201.6 5526.5 12.18 344833.9 758634665.8 758.6 1.67 42923.S 29.8 29800 162465.4 4841470335.5 4841.S 10.67 347018.3 3088462536.3 3088.5 6.81 41998.3 28.0 28000 158963.6 4450979834.0 4451.0 9.81 329900.7 4717580203.8 4717.6 10.40 39640.3 26.6 26600 150038.S 3991025044.3 3991.0 8.80 357544.6 757994578.4 758.0 1.67 43251.9 30.9 30900 163708.4 5058590842.3 5058.6 11.15 317726.1 3463214595.2 3463.2 7.64 44536.9 19.1 19100 168572.2 3219728380.2 3219.7 7.10 316053.9 5467732412.0 5467.7 12.05 42641.9 35.9 35900 161399.6 5794245334.9 5794.2 12.77 337911.9 2071400137.0 2071.4 4.57 46548.S 25.1 25100 176186.1 4422270419.8 4422.3 9.75 313259.2 2947769110.1 2947.8 6.50 43126.4 26.2 26200 163233.4 4276715708.8 4276.7 9.43 385.1 2457182.8 598.7 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-39 TW4-40 Total Pumped Cone Cone Total Total Total Total Pumped Total Total Quarter Pumped Total (ug) Cone(mg/L) Cone (ug/L) Pumped Total (ug) Total (grams) (gal) (mg/L) (ug/L) (liters) (grams) (pounds) (gal) (liters) (pounds) Q3 2010 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2010 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2011 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2012 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2013 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2013 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2013 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2013 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2014 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2014 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2014 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2014 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2015 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2015 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2015 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2015 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Ql 2016 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q2 2016 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q3 2016 NA NA NA NA NA NA NA NA NA NA NA NA NA NA Q4 2016 3589.3 20.70 20700 13585.5 281219860.4 281.2 0.62 NA NA NA NA NA NA NA Ql 2017 103117.8 6.44 6440 390300.9 2513537622.1 2513.5 5.54 NA NA NA NA NA NA NA Q2 2017 41313.0 6.25 6250 156369.7 977310656.3 977.3 2.15 NA NA NA NA NA NA NA Q3 2017 34546.3 7.74 7740 130757.7 1012064950.2 1012.1 2.23 NA NA NA NA NA " NA NA Q4 2017 68180.2 2.65 2650 258062.1 683864451.1 683.9 1.51 NA NA NA NA NA NA NA Ql 2018 59262.2 3.33 3330 224307.4 746943731.9 746.9 1.65 NA NA NA NA NA NA NA Q2 2018 34259.8 4.84 4840 129673.3 627618980.1 627.6 1.38 NA NA NA NA NA NA NA Q3 2018 33473.4 6.05 6050 126696.8 766515755.0 766.5 1.69 NA NA NA NA NA NA NA Q4 2018 37003.6 6.39 6390 140058.6 894974620.1 895.0 1.97 NA NA NA NA NA NA NA Ql 2019 49116.9 2.08 2080 185907.5 386687530.3 386.7 0.85 NA NA NA NA NA NA NA Q2 2019 34285.7 8.45 8450 129771.4 1096568114.5 1096.6 2.42 81762.8 3.55 3550.0 309472.2 1098626302.9 1098.6 2.4 Q3 2019 36976.2 1.75 1750 139954.9 244921104.8 244.9 0.54 116414.2 3.39 3390.0 440627.7 1493728062.3 1493.7 3.3 Q4 2019 51808.6 0.948 948 196095.6 185898582.3 185.9 0.41 108281.9 2.89 2890.0 409847.0 1184457696.0 1184.S 2.6 Ql 2020 43169.3 0.792 792 163395.8 129409474.0 129.4 0.29 102021.S 2.98 2980.0 386151.4 1150731217.7 1150.7 2.5 Quarter Q2 2020 Q3 2020 Q4 2020 Ql 2021 Q2 2021 Q3 2021 Q4 2021 Ql 2022 Q2 2022 Q3 2022 Q4 2022 Ql 2023 Q2 2023 Q3 2023 Q4 2023 Totals Since Q32010 Total Pumped (gal) 37352.7 35628.2 46794.2 38932.4 32865.2 31436.6 42730.6 35550.2 31354.2 31305.9 39072.6 35659.0 28777.7 34299.4 33586.9 Cone (mg/L) 5.01 2.69 7.03 2.12 12.0 2.70 2.33 2.90 9.00 3.72 7.86 1.37 7.96 5.01 2.74 TW4-39 Cone Total Pumped (ug/L) (liters) 5010 141380.0 2690 134852.7 7030 177116.0 2120 147359.1 12000 124394.8 2700 118987.5 2330 161735.3 2900 134557.5 9000 118675.6 3720 118492.8 7860 147889.8 1370 134969.3 7960 108923.6 5010 129823.2 2740 127126.4 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-40 Total Total Total Pumped Total Total Total (ug) Cone(mg/L) Cone (ug/L) Pumped Total (ug) Total (grams) (grams) (pounds) (gal) (liters) (pounds) 708313647.2 708.3 1.56 100757.1 2.91 2910.0 381365.7 1109774294.8 1109.8 2.4 362753862.5 362.8 0.80 86264.5 2.88 2880.0 326511.1 940352061.6 940.4 2.1 1245125810.4 1245.1 2.75 77535.9 2.58 2580.0 293473.5 757161617.2 757.2 1.7 312401364.1 312.4 0.69 72543.4 2.43 2430.0 274576.7 667221272.7 667.2 1.5 1492737384.0 1492.7 3.29 66866.4 3.77 3770.0 253089.3 954146751.5 954.1 2.1 321266333.7 321.3 0.71 58841.0 1.50 1500.0 222713.1 334069664.0 334.1 0.7 376843297.9 376.8 0.83 57357.9 2.60 2600.0 217099.6 564458897.1 564.5 1.2 390216770.3 390.2 0.86 53009.2 2.50 2500.0 200639.8 501599555.0 501.6 1.1 1068080823.0 1068.1 2.35 52135.2 1.90 1900.0 197331.8 374930506.5 374.9 0.8 440793333.2 440.8 0.97 45416.2 2.22 2220.0 171900.4 381618871.8 381.6 0.8 1162413757.3 1162.4 2.56 48263.2 2.24 2240.0 182676.1 409194545.3 409.2 0.9 184907961.6 184.9 0.41 45062.1 1.28 1280.0 170560.2 218317007.4 218.3 0.5 867031812.2 867.0 1.91 45516.3 2.04 2040.0 172279.0 351449172.8 351.4 0.8 650414377.3 650.4 1.43 43550.1 1.88 1880.0 164837.1 309893801.6 309.9 0.7 348326381.2 348.3 0.77 38061.9 2.09 2090.0 144064.2 301094131.9 301.1 0.7 45.1 1299660.8 28.9 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-41 Total Total Quarter Total Pumped Cone Cone Pumped Total (ug) Total Total Removed (gal) (mg/L) (ug/L) (grams) (pounds) by All (liters) w .. 11., Q3 2010 NA NA NA NA NA NA NA 15.69 Q42010 NA NA NA NA NA NA NA 27.97 Ql 2011 NA NA NA NA NA NA NA 73.30 Q2 2011 NA NA NA NA NA NA NA 27.01 Q3 2011 NA NA NA NA NA NA NA 16.82 Q4 2011 NA NA NA NA NA NA NA 19.71 Ql 2012 NA NA NA NA NA NA NA 15.86 Q2 2012 NA NA NA NA NA NA NA 15.03 Q3 2012 NA NA NA NA NA NA NA 14.67 Q4 2012 NA NA NA NA NA NA NA 14.92 Ql 2013 NA NA NA NA NA NA NA 95.73 Q2 2013 NA NA NA NA NA NA NA 91.71 Q3 2013 NA NA NA NA NA NA NA 176.53 Q4 2013 NA NA NA NA NA NA NA 162.07 Ql 2014 NA NA NA NA NA NA NA 103.14 Q2 2014 NA NA NA NA NA NA NA 101.87 Q3 2014 NA NA NA NA NA NA NA 92.99 Q4 2014 NA NA NA NA NA NA NA 108.57 Ql 2015 NA NA NA NA NA NA NA 82.61 Q2 2015 NA NA NA NA NA NA NA 68.86 Q3 2015 NA NA NA NA NA NA NA 118.63 Q4 2015 NA NA NA NA NA NA NA 124.50 Ql 2016 NA NA NA NA NA NA NA 132.55 Q2 2016 NA NA NA NA NA NA NA 99.98 Q3 2016 NA NA NA NA NA NA NA 101.12 Q4 2016 NA NA NA NA NA NA NA 106.06 Ql 2017 NA NA NA NA NA NA NA 116.19 Q2 2017 NA NA NA NA NA NA NA 80.12 Q3 2017 NA NA NA NA NA NA NA 93.37 Q4 2017 NA NA NA NA NA NA NA 106.21 Ql 2018 NA NA NA NA NA NA NA 111.99 Q2 2018 73711.2 6.54 6540 278996.9 1824639673.7 1824.6 4.02 84.14 Q3 2018 44981.6 6.13 6130 170255.2 1043664404.2 1043.7 2.30 61.86 Q4 2018 35431.5 6.02 6020 134108.2 807331529.6 807.3 1.78 98.49 Ql 2019 31903.6 6.71 6710 120755.1 810266895 .5 810.3 1.79 101.08 Q2 2019 25146.5 6.00 6000 95179.5 5 71077015 .0 571.1 1.26 101.72 Q3 2019 24045.6 6.22 6220 91012.6 566098347.1 566.1 1.25 80.19 Q4 2019 21186.4 6.11 6110 80190.5 489964101.6 490.0 1.08 76.97 Ql 2020 17289.9 6.12 6120 65442.3 400506701.6 400.5 0.88 86.86 Quarter Q2 2020 Q3 2020 Q42020 Ql 2021 Q2 2021 Q3 2021 Q4 2021 Ql 2022 Q2 2022 Q3 2022 Q4 2022 Ql 2023 Q2 2023 Q3 2023 Q4 2023 Totals Since Q3 2010 Table 4 Quarterly Calculation of Nitrate Removed and Total Volume of Water Pumped TW4-41 Total Total Total Pumped Cone Cone Pumped Total (ug) Total Total Removed (gal) (mg/L) (ug/L) (grams) (pounds) by All (liters) w .. 11 .. 17294.9 6.78 6780 65461.1 443826399.0 443.8 0.98 85.95 13411.4 6.69 6690 50762.3 339599536.S 339.6 0.75 81.69 17765.7 6.25 6250 67243.3 420270313.8 420.3 0.93 89.15 13407.S 6.41 6410 50747.3 325290026.0 325.3 0.72 88.22 13168.7 7.45 7450 49843.S 371334294.8 371.3 0.82 91.09 13821.0 3.77 3770 52312.4 197217640.4 197.2 0.43 56.81 12449.1 6.72 6720 47119.7 316644076.6 316.6 0.70 97.29 12247.8 6.20 6200 46357.9 287419122.6 287.4 0.63 54.84 11013.9 6.00 6000 41687.4 250124533.5 250.1 0.55 51.61 11108.0 5.92 5920 42043.9 248899849.8 248.9 0.55 62.30 11722.6 6.00 6000 44369.9 266219337 .6 266.2 0.59 63.06 11577.2 4.30 4300 43819.8 188425206.9 188.4 0.42 57.06 10239.7 6.27 6270 38757.2 243007811.1 243.0 0.54 67.30 10780.6 5.59 5590 40804.6 228097551.9 228.1 a.so 49.42 10952.1 5.78 5780 41453.7 239602377.3 239.6 0.53 46.43 464656.34 24.0 4249.3 Table S Nitrate Data Over Time for MW-30, MW-31, MW-5, and MW-11 Date MW-30 Q2 2010 Q3 2010 Q4 2010 QI 2011 Q2 2011 Q32011 Q42011 QI 2012 Q2 2012 Q3 2012 Q42012 QI 2013 Q2 2013 Q3 2013 Q42013 QI 2014 Q2 2014 Q3 2014 Q4 2014 QI 2015 Q2 2015 Q3 2015 Q42015 QI 2016 Q22016 Q3 2016 Q42016 QI 2017 Q2 2017 Q3 2017 Q42017 QI 2018 Q22018 Q3 2018 Q4 2018 QI 2019 Q2 2019 Q3 2019 Q42019 QI 2020 Q22020 Q3 2020 Q42020 QI 2021 Q2 2021 Q3 2021 Q42021 QI 2022 Q2 2022 Q3 2022 Q42022 QI 2023 Q2 2023 Q3 2023 Q42023 ND = Not detected NS = Not Sampled 15.8 15 16 16 17 16 16 17 16 17 18.5 21.4 18.8 17.6 19.5 18.4 19.4 16.8 16.2 14.9 17.0 17.9 16.3 20.0 17.3 18.0 17.2 17.4 17.5 19.2 17.4 17.6 17.3 18.0 17.3 17.9 18.5 19.3 18.2 16.4 18.l 18.4 16.8 17.7 17.7 20.6 14.3 14.5 17.0 17.6 17.9 18.l 15.9 16.6 16.7 MW-31 22.5 21 20 21 22 21 21 21 20 21 23.6 19.3 23.8 21.7 23.9 20.6 23.1 18.9 20.9 18.7 19.0 19.9 18.4 18.8 18.6 19.7 18.8 21.1 18.3 19.5 19.2 18.8 19.0 20.1 18.3 19.0 19.7 19.8 19.8 17.5 18.8 19.2 18.6 17.1 18.6 18.7 18.1 18.0 18.0 16.9 17.0 18.7 14.3 16.6 18.0 MW-5 MW-11 ND ND NS ND 0.2 ND NS ND 0.2 ND NS ND 0.2 ND NS ND 0.1 ND NS ND ND ND NS ND ND ND NS ND 0.279 ND NS ND ND ND NS ND 0.21 ND NS ND 0.142 ND NS ND 0.118 ND NS ND 0.156 0.117 NS ND 0.241 ND NS ND 0.133 ND NS ND 0.337 ND NS ND 0.216 ND NS ND 0.309 ND NS ND 0.260 ND NS 0.558 0.235 0.160 NS 0.308 0.142 0.297 NS 0.651 0,191 0.933 NS 1.21 <0.100 0.948 NS 0.924 0.313 1.50 NS 2.55 0.3 2.2 NS 2.12 0.21 2.90 NS 3.49 1.77 2.98 NS 3.22 0.290 3.96 TABLE 6 Slug Test Results (Using KGS Solution and Automatically Logged Data) Well K (cm/sl MW-30 1.0E-04 MW-31 7.1 E-05 TW4-22 1.3E-04 TW4-24 1.6E-04 TW4-25 5.8E-05 TWN-2 1.5E-05 TWN-3 8.6E-06 Average 1 Average 2 Average3 Average4 Notes: Average 1 = arithemetic average of all wells Average 2 = geometric average of all wells K (ft/davl 0.28 0.20 0.36 0.45 0.16 0.042 0.024 0.22 0.15 0.32 0.31 Average 3 = arithemetic average of MW-30, MW-31, 1W4-22, and 1W4-24 Average 4 = geometric average of MW-30, MW-31, 1W4-22, and 1W4-24 emfs = centimeters per second ft/day = feet per day K = hydraulic conductivity KGS = KGS Unconfined Slug Test Solution in Aqtesolve TM. Z:\Shared\Lakewood\Environmental\UnWhiteMesaMill\Required Reports\Nitrate Quarterly Report\2023 Q1\FlowCalcs -Tables 6-7-8: Table 6 TABLE 7 Pre-Pumping Saturated Thicknesses Depth to Depth to Water Saturated Thickness Well Brushy Basin Fourth Quarter, 2012 Above Brushy Basin (ft) (ft) (ft) TW4-22 112 53 58 TW4-24 110 55 55 Notes: ft= feet Z:\Shared\Lakewood\Environmental\UnWhiteMesaMill\Required Reports\Nitrate Quarterly Report\2023 Q1\FlowCalcs -Tables 6-7-8: Table 7 TABLE 8 Pre-Pumping Hydraulic Gradients and Flow Calculations Pathline Boundaries TW4-25 to MW-31 TWN-2 to MW-30 Notes: ft= feet ft/ft = feet per foot gpm = gallons per minute Path Length (ft) 2060 2450 Head Change Hydraulic Gradient (ft) (ft/ft) 48 0.023 67 0.027 average 0.025 1 min flow (gpm) 1.31 2 max flow (gpm) 2.79 1 assumes width = 1,200 ft; saturated thickness = 56 ft; K = 0.15 ft/day; and gradient = 0.025 ft/ft 2 assumes width = 1,200 ft; saturated thickness = 56 ft; K = 0.32 ft/day; and gradient = 0.025 ft/ft Z:\Shared\Lakewood\Environmental\UnWhiteMesaMill\Required Reports\Nitrate Quarterly Report\2023 O1\FlowCalcs -Tables 6-7-8: Table 8 Table 9 *Recalculated Background Flow Background *Recalculated Flow Background Flow laom) (apm) minimum 1.31 0.79 maximum 2.79 1.67 * recalculated based on reduced widlife pond recharge as presented in the third quarter, 2015 Nitrate Monitoring Report gpm = gallons per minute Table 10 Summary of 'Background' Flow Estimates minimum maximum (gpm) (gpm) pre-pumping (Q2, 2010) 1.31 2.79 Q2 2015 re-calculation 0.79 1.67 Q2 2022 re-calculation 0.63 1.34 Notes: Q2 = second quarter gpm = gallons per minute INDEX OF TABS Tab A Site Plan and Perched Well Locations White Mesa Site Tab B Order of Sampling and Field Data Worksheets Tab C Kriged Current Quarter Groundwater Contour Map, Capture Zone Map, Capture Zone Details Map, and Weekly, Monthly and Quarterly Depth to Water Data Tab D Kriged Previous Quarter Groundwater Contour Map Tab E Hydrographs of Groundwater Elevations over Time for Nitrate Monitoring Wells Tab F Depths to Groundwater and Elevations over Time for Nitrate Monitoring Wells Tab G Laboratory Analytical Reports Tab H Quality Assurance and Data Validation Tables H-1 Field Data QA/QC Evaluation H-2 Holding Time Evaluation H-3 Analytical Method Check H-4 Reporting Limit Evaluation H-5 QA/QC Evaluation for Sample Duplicates H-6 QC Control Limits for Analyses and Blanks H-7 Receipt Temperature Evaluation H-8 Rinsate Evaluation Tab I Kriged Current Quarter Isoconcentration Maps Tab J Analyte Concentration Data over Time Tab K Concentration Trend Graphs Tab L CSV Transmittal Letter Tab M Residual Mass Estimate Analysis Figure Tab A Site Plan and Perched Well Locations White Mesa Site DR·1' . OR-17 . Oil-2D . MW-41B perched monitoring well 4 installed April, 2023 TW4-43 ~ temporary perched monitoring well installed September, 2021 TWN-20 Cl temporary perched nitrate monitoring well installed April, 2021 MW-24A perched monitoring well installed • December 2019 TW4-42 ¢ temporary perched monitoring well installed April 2019 TW4-40 perched chloroform pumping well EB installed February 2018 TW4-19 EB perched chloroform or nitrate pumping well MW-5 • perched monitoring well TW4-12 0 temporary perched monitoring well TWN-7 temporary perched nitrate monitoring ~ well PIEZ-1 perched piezometer Q RUIN SPRING c!) seep or spring • MW•29 .. OR,06 . f)~;10 ORcH . OR•12• . dR,13 • • MW-31\\ M~Zi .,, • /,IW-01 •~nda1111, ~-05 • 111w-1, -0 olum,:- 'fWN.IS , u 11d~r-.d '1:n..t 1WN·11 wit-t• 1wt-~·o &Nndolltd 0 TWN~ 'JVil~G ,nrf"fl9(/ ~:cJII • PlEZ-01 ,.,:,19 J ,20TWt~7 'JV/N.f8 a 'IWN41 Cell 1 MW•2,8 ;-, Cel I -11'.U 1 • MW-30, Cell 3 • MW-17, J. ~-03 Ill • o e -TWN.-02 • J,WN.• ~-"lJ WLS'!~e \, r ,..:,;1~ ,~ .,,..,! AP\~ 'TWA-°18 : 2 W~fl,:(;~oW4s,11 ~W'2&$ 1tia, .Q. • 0 tw,.32 •• •• ~'U)'W'~, rwi.28,(;) .. • i,IW~1 l'Y,!4-11~•-11 ' -o!i 9'443 ~ ' ! 1l't.;w-o, ~~~l?w,-s.i. , ... -.W4:o1 . /,IV/,J, ::;;,;,,-,n"4· .. ~~ \· ....... ~ . 4-;1, • rt-,,,oee ~w~,~!W4'3i ~ . .;i:w•~· a<:>lW•~ ~~iw•-~ 9wf.W4-43 TW4-i~ fJ twAtQo: 1,1:.:..~ .t- ~16 OR,15 . '. .. , .'U ~: ~!:)',.!.:,. Ql:!-21 . • ~ MW.-3!1. UJ· • ,. LU • MW•20 ~ MW-3J ' 'IJJ ~ ·---... ~_:: 1 .~::.·~ -,~z~/ • MW:·2Z ~ -, . rtJ 1 mile HYDRO GED CHEM.INC. I WHITE MESA SITE PLAN SHOWING LOCATIONS OF PERCHED WELLS AND PIEZOMETERS /\PPROVED DATE REFERENCE H:/718000/aug23/Uwelloc0923.srf FIGURA-1 Tab B Order of Sampling and Field Data Worksheets Nitrate Mg/L Previous Name Qrt. TWN-18 ND TWN-20 0.33 TWN-21 1.01 TWN-04 1.08 TWN-01 2.46 TWN-07 13.70 TWN-02 14.0 TWN-03 26.1 Duplicate of T\ot,E• O'i DI Sample Piez-02 Piez-01 Piez-03A 0.735 5.65 12.8 Nitrate Samples Date/Purge sample ,,,1111; u.osl. 1:: ln,rsl.7.3 101'-!S 11/l'f/~ !11/15{)5] o, SS U 1,s1 : o is I'"''/~ I ~~ 11/l"l{~ 101"\LI 11/1"1/:i., l~l5 11/1 IX, l'i H) Nitrate Order 4th Quarter 2023 Depth Total Depth MSI ~, 108.6S1 125.7 112.5 10sl :1 Name TWN-lgR. Samplers: Rinsate Samples Date Sample I 111,v2.5 I 01'15 "1«711fer HoJl•½_j .Deet1 L~'l'V)().,.. Groundwater Discharge Permit ~~ ~.-EIVERIGYFVIEZ..S Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID PIEZ-01 Sampling Prog_ram Nitrate Quarterly Field Sample ID Piez-01 11142023 Sampling Event 2023 Q4 Nitrate Purge Date & Time 11/14/2023 13:44 Sample Date & Time 11/14/2023 13:45 [sampler TH/DL Purging Equipment Bailer Weather Conditions Sunny Pump Type Grundfos External Ambient Temperature (C) 14 Purging Method 2 Casings Previous Well Sampled Piez-02 Casing Volume () Calculated Casing Volumes Purge Duration () pH Buffer 7.0 7.0 Well Depth (ft) 107.50 pH Buffer 4.0 4.0 Well Casing Diameter (in) 1 Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) 68.00 Conductivity Dissolved Date/Time Gallons Purged (um hos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/14/2023 13:45 2489 7.27 15.12 387 10.6 59.3 [volume of water purged() Pumping_ Rate Calculations - Flow Rate (Q = S/60) () Time to evacuate 2 Casing Volumes () [Final Depth to Water (feet) 68.48 Number of casing Volumes Volume, if well evacuated to dryness () 0 Name of Certified Anal¥_tical Laboratory AWSL Analytical Samples Information Sample Container Preservative Type of Sample/Analysis Collected? Matrix Number Type Sample Filtered? Type Added? Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HOPE u H2SO4 (pH<2), 4 Deg C y Comments: I Arrived on site at 1340. Samples bailed and collected at 1345. Water was murky. Left site at 1354. Signature of Field Technician -,_ ,;· //--; / ------.J,~ ~..__.n.,~---r:....--l/ I -·~--d<) Groundwater Discharge Permit ~s-.. ~ i.-·· . J: . j ,.I • l --~YFLJEZ.S • , ' Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID PIEZ-02 Sam_eling Program Nitrate Quarterly Field Sample ID Piez-02 11142023 Sampling Event 2023 Q4 Nitrate Purge Date & Time 11/14/2023 13:19 Sample Date & Time 11/14/2023 13:30 [sampler TH/DL Purging Equipment Bailer Weather Conditions Sunny Pump Type Grundfos External Ambient Temperature (C) 14 Purging Method 2 Casings Previous Well Sampled TWN-60 Casing Volume () Calculated Casing Volumes Purge Duration () pH Buffer 7.0 7.0 Well Depth (ft) 100.00 pH Buffer 4.0 4.0 Well Casing Diameter (in) 1 Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) 47.93 Conductivity Dissolved Date/Time Gallons Purged (umhos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/14/2023 13:30 908.0 7.40 15.51 399 0 27.1 Pumping Rate Calculations [volume of water purged() Flow Rate (Q = S/60) () Time to evacuate 2 Casing Volumes () [Final Depth to Water (feet) 48.45 Number of casing Volumes Volume, if well evacuated to dryness () 0 Name of Certified Analytical Laboratory AWSL Analytical Samples Information Sample Container Preservative Type of Sample/Analysis Collected? Matrix Number Type Sample Filtered? Type Added? Chloride y WATER 1 500-mL Poly u None N Nitrate/nitrite as N y WATER 1 250-mL HDPE u H2SO4 (pH<2), 4 Deg C y Comments: [ Arrived on site at 1325. Samples bailed and collected at 1330. Water was clear. Left site at 1337. Signature of Field Technician ~ . ./,' ,: / ...._____J',, ~N-<----f-/· -'..,-~ <.<.1 Groundwater Discharge Permit ~~~m~s ~~~ Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID PIEZ-03A Samp__ling Program Nitrate Quarterly Field Sample ID Piez-03A 11142023 Sampling_ Event 2023 Q4 Nitrate Purge Date & Time 11/14/2023 14:09 Sample Date & Time 11/14/2023 14:10 [sampler TH/DL Purging Equipment Bailer Weather Conditions Sunny Pump Type Grundfos External Ambient Temperature (C) 14 Purging Method 2 Casings Previous Well Sampled Piez-01 Casing Volume () Calculated Casing Volumes Purge Duration () pH Buffer 7 .0 7.0 Well Depth (ft) 79.00 pH Buffer 4.0 4.0 Well Casing Diameter (in) 1 Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) 57.97 Conductivity Dissolved Date/Time Gallons Purged (um hos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/14/2023 14:10 1028 7.43 14.97 354 6.2 89.0 Pumping Rate Calculations IYolume of water purged () Flow Rate (Q = S/60) () Time to evacuate 2 Casing Volumes O I Final Depth to Water (feet) 58.65 Number of casing Volumes Volume, if well evacuated to dryness () 0 Name of Certified Analytical Laboratory AWSL Analy_tical Samples Information Sample Container Preservative Type of Sample/Analysis Collected? Matrix Number Type Sample Filtered? Type Added? Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HOPE u H2S04 (pH<2), 4 Deg C y Comments: [ Arrived on site at 1404. Bailed samples at 1410. Water was mostly clear. Left site at 1419. Signature of Field Technician --=:)c,, cr.rA__,. -/-;/-«~, <.,1 Groundwater Discharge Permit ~F-y~ Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TWN-01 Sampling Program Nitrate Quarterly Field Sample ID TWN-01 11142023 Sampling Event 2023 Q4 Nitrate Purge Date & Time 11/14/2023 10:34 Sample Date & Time 11/14/2023 10:39 [sampler TH/DL Purging Equipment Pump Weather Conditions Partly cloudy Pump Type Grundfos External Ambient Temperature (C) 12 Purging Method 2 Casings Previous Well Sampled TWN-04 Casing Volume (gal) 22.78 Calculated Casing Volumes Purge Duration (min) 4.14 pH Buffer 7.0 7.0 Well Depth (ft) 106.13 pH Buffer 4.0 4.0 Well Casing Diameter (in) 4 Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) 71.24 Conductivity Dissolved Date/Time Gallons Purged (gal) (umhos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/14/2023 10:36 22.00 946.0 7.27 15.23 538 0 52.0 11/14/2023 10:37 33.00 930.2 7.30 15.29 518 1.0 52.0 11/14/2023 10:38 44.00 926.0 7.33 15.31 509 1.0 53.0 11/14/2023 10:39 55.00 934.1 7.37 15.31 503 1.1 54.1 !Volume of water pur_ged (gals) Pumping_ Rate Calculations 55.00 Flow Rate (Q = S/60) (gal/min) 11.00 Time to evacuate 2 Casing Volumes (min) 5.00 [ Final Depth to Water (feet) 101.34 Number of casing Volumes 2.00 Volume, if well evacuated to dryness () \ 0 Name of Certified Analytical Laboratory AWSL Analytical S_amples Information Sample Container Preservative Type of Sample/ Analysis Collected? Matrix Number Type Sample Filtered? Type Added? Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HDPE u H25O4 (pH<2), 4 Deg C y Comments: I Arrived on site at 1029. Purge began at 1034. Purged well for a total of 5 minutes. Purge ended and samples collected at 1039. Water was clear. Left site at 1043. Signature of Field Technician ~ , , Cr.;• ,C--/-/ --~'~J Groundwater Discharge Permit -3~ •• ~~y~ Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TWN-02 Sampling Prog_ram Nitrate Quarterly Field Sample ID TWN-02 11142023 Sampling Event 2023 Q4 Nitrate Purge Date & Time 11/14/2023 12:14 Sample Date & Time 11/14/2023 12:15 [sampler TH/DL Purging Equipment Pump Weather Conditions Sunny Pump Type Grundfos External Ambient Temperature (C) 14 Purging Method 2 Casings Previous Well Sampled TWN-07 Casing Volume (gal) 23.84 Calculated Casing Volumes Purge Duration () pH Buffer 7.0 7.0 Well Depth (ft) 95.90 pH Buffer 4.0 4.0 Well Casing Diameter (in) 4 Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) 59.38 Conductivity Dissolved Date/Time Gallons Purged (umhos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/14/2023 12:14 1931 7.11 15.21 393 0 106.0 Pumping Rate Calculations !volume of water purged () Flow Rate (Q = S/60) (gal/min) 16.00 Time to evacuate 2 Casing Volumes () [Final Depth to Water (feet) 87.21 Number of casing Volumes Volume, if well evacuated to dryness () 0 Name of Certified Analytical Laboratory AWSL Anal~tical Samples Information Sample Container Preservative Type of Sample/Analysis Collected? Matrix Number Type Sample Filtered? Type Added? Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HDPE u H2SO4 (pH<2), 4 Deg C y Comments: I Arrived on site at 1210. Samples collected at 1215. Water was clear. Left site at 1218. Signature of Field Technician -=Y, ,~,,.,~~ .;-/-a~~ Groundwater Discharge Permit ~4?~v~-s Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TWN-03 Samplin~ Program Nitrate Quarterly Field Sample ID TWN-03 11152023 Sampling Event 2023 Q4 Nitrate Purge Date & Time 11/14/2023 12:50 Sample Date & Time 11/15/2023 8:05 !sampler TH/DL Purging Equipment Pump Weather Conditions Sunny Pump Type Grundfos External Ambient Temperature (C) 14 Purging Method 2 Casings Previous Well Sampled TWN-02 Casing Volume (gal) 33.64 Calculated Casing Volumes Purge Duration (min) 6.11 pH Buffer 7.0 7.0 Well Depth (ft) 96.00 pH Buffer 4.0 4.0 Well Casing Diameter (in) 4 Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) 44.47 Conductivity Dissolved Date/Time Gallons Purged (gal) (um hos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/14/2023 12:54 47.66 2398 7.08 14.82 469 5.4 31.0 11/15/2023 8:05 2377 7.34 13.60 Before 11/15/2023 8:06 2380 7.31 13.65 After Pumping Rate Calculations !volume of water purged (gals) 47.66 Flow Rate (Q == S/60) (gal/min) 11.00 Time to evacuate 2 Casing Volumes (min) 4.33 [Final DeJ>_th to Water (feet) 92.87 Number of casing Volumes 1.41 Volume, if well evacuated to dryness (gals) 47.66 Name of Certified Analytical Laboratory AWSL Analytical Samples Information Sample Container Preservative Type of Sample/Analysis Collected? Matrix Number Type Sample Filtered? Type Added? Chloride y WATER 1 500-mL Poly u None N Nitrate/nitrite as N y WATER 1 250-mL HOPE u H2SO4 (pH<2), 4 Deg C y Comments: Arrived on site at 124-6. Purge began at 1250. Purged well for a total of 4 minutes and 20 seconds. Purged well dry. Purge ended at 1254. Water was clear. Left site at 1257. Arrived on site at 0801 . De_e_th to water was 44.83. Samples bailed and collected at 0805. Left site at 0807. Signature of Field Technician ~-,,~,,_,._,,__ -/-;/s-::2'~) Groundwater Discharge Permit ~e --~-... ~·· /~; ' -I -·,_,!·,.··· ~y~ Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TWN-04 Sampling Program Nitrate Quarterly Field Sample ID TWN-04 11142023 Samplin_g Event 2023 Q4 Nitrate Purge Date & Time 11/14/2023 9:55 Sample Date & Time 11/14/2023 10:04 [sampler TH/DL Purging Equipment Pump Weather Conditions Partly cloudy Pump Type Grundfos External Ambient Temperature (C) 11 Purging Method 2 Casings Previous Well Sampled TWN-21 Casing Volume (gal) 40.49 Calculated Casing Volumes Purge Duration (min) 7.36 pH Buffer 7.0 7.0 Well Depth (ft) 126.40 pH Buffer 4.0 4.0 Well Casing Diameter (in) 4 Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) 64.39 Conduct1v1ty Dissolved Date/Time Gallons Purged (gal) (umhos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/14/2023 10:01 66.00 1077 6.95 14.78 519 0 89.0 11/14/2023 10:02 77.00 1072 7.00 14.78 512 0 91.0 11/14/2023 10:03 88.00 1068 7.04 14.78 505 0 89.0 11/14/2023 10:04 99.00 1065 7.08 14.80 499 0 87.0 \volume of water purged (gals) Pumping Rate Calculations 99.00 - Flow Rate (Q = S/60) (gal/min) 11.00 Time to evacuate 2 Casing Volumes (min) 9.00 [Final Depth to Water (feet) 65.03 Number of casing Volumes 2.00 Volume, if well evacuated to dryness () 0 Name of Certified Analytical Laboratory AWSL Analytical Samples Information Sample Container Preservative Type of Sample/Analysis . Collected? Matrix Number Type Sample Filtered? Type Added? Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HOPE u H2SO4 (pH<2), 4 Deg C y Comments: I Arrived on site at 0951 . Purge began at 0955. Purged well for a total of 9 minutes. Purge ended and samples collected at 1004. Water was clear. Left site at 1008. Signature of Field Technician ~,,,,.,-,.,,~-1-/-«~, Groundwater Discharge Permit ~~ .. - c~~;,,.i~, • Y~S- ----' /l •~ ._ J I Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TWN-07 Sampling Program Nitrate Quarterly Field Sample ID TWN-07 11152023 Sampling Event 2023 Q4 Nitrate Purge Date & Time 11/14/2023 11:55 Sample Date & Time 11/15/2023 7:55 [sampler TH/DL Purging_ Equipment Pump Weather Conditions Sunny Pump Type Grundfos External Ambient Temperature (C) 14 Purging Method 2 Casings Previous Well Sampled TWN-01 Casing Volume (gal) 18.02 Calculated Casing Volumes Purge Duration (min) 3.27 pH Buffer 7.0 7.0 Well Depth (ft) 107.20 pH Buffer 4.0 4.0 Well Casing Diameter (in) 4 Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) 79.60 Conductivity Dissolved Date/Time Gallons Purged (gal) (umhos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/14/2023 11:56 19.25 1796 7.61 15.16 380 1.1 91.0 11/15/2023 7:55 1924 7.53 14.00 Before 11/15/2023 7:56 1928 7.52 14.06 After Pumping Rate Calculations I Volume of water e_urged (gals) 19.25 Flow Rate (Q = S/60) (gal/min) 11.00 Time to evacuate 2 Casir19 Volumes (min) 1.75 [ ~inal Depth to Water (feet) 104.93 Number of casing Volumes 1.06 Volume, if well evacuated to dryness (gals) 19.25 Name of Certified Analytical Laboratory AWSL Analytical Samples Information Sample Container Preservative Type of Sample/Analysis Collected? Matrix Number Type Sample Filtered? Type Added? Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HOPE u H2SO4 (pH<2), 4 Deg C y Comments: Arrived on site at 1151 . Purge began al 1155_ Purged well for a total of 1 m1nute and 45 seconds. Purgedwelldry. Purge ended at 1156. Wate(was clear. Left site at 1159. Arrived on sfte af0751 . Depth to water was 90.40. Samples bailed and collected at 0755. Left site at 0757. Signature of Field Technician ----"\ . /2-:: / ......__J,,, cn,•--cc--,'--/c -C/,. ~~\ <.J Groundwater Discharge Permit ~·~ . ~ ~y~ Groundwater Monttoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TWN-18 Sampling Program Nitrate Quarterly Field Sample ID TWN-18 11142023 Sampling Event 2023 Q4 Nitrate Purge Date & Time 11/14/2023 8:15 Sample Date & Time 11/14/2023 8:26 !sampler TH/DL Purging Equipment Pump Weather Conditions Cloudy Pump Type Grundfos External Ambient Temperature (C) 7 Purging Method 2 Casings Previous Well Sampled TWN-18R Casing Volume (gal) 54.60 Calculated Casing Volumes Purge Duration (min) 9.92 pH Buffer 7 .0 7.0 Well Depth (ft) 147.00 pH Buffer 4.0 4.0 Well Casing Diameter (in) 4 Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) 63.38 Conductivity Dissolved Date/Time Gallons Purged (gal) (um hos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/14/2023 8:23 88.00 2926 6.74 14.54 349 0 1.0 11/14/2023 8:24 99.00 2931 6.79 14.55 340 0 1.0 11/14/2023 8:25 110.00 2932 6.85 14.55 335 0 1.1 11/14/2023 8:26 121.00 2930 6.88 14.54 332 0 1.1 !Volume of water purged (gals) Pumping_ Rate Calculations 121.00 Flow Rate (Q = S/60) (gal/min) 11.00 Time to evacuate 2 Casing Volumes (min) 11.00 I Final Depth to Water (feet) 65.21 Number of casing Volumes 2.00 Volume. if well evacuated to dryness() 0 Name of Certified Analytical Laboratory AWSL Analytical Samples Information Sample Container Preservative Type of Sample/ Analysis Collected? Matrix Number Type Sample Filtered? Type Added? Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HDPE u H2SO4 (pH<2), 4 Deg C y Comments: [ Arrived on site at 0811 . Purge b_egan at 0815. Purg_ed well for a total of 11 minutes. Purg_e ended and samples collected at 0826. Water was clear. Left site at 0829. Signature of Field Technician --=:'), , , """_,_-I -A.-«~) Groundwater Discharge Permit ---t~· ~~y~ Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TWN-18R Sampling Program Field Sample ID TWN-18R 11142023 Sampling Event 2023 Q4 Nitrate Purge Date & Time Sample Date & Time 11/14/2023 7:45 [sampler TH/DL Purging Equipment Weather Conditions Pump Type External Ambient Temperature () Purging Method Previous Well Sampled Casing Volume () Calculated Casing Volumes Purge Duration () pH Buffer 7.0 Well Depth (ft) pH Buffer 4.0 Well Casing Diameter () Specific Conductance () Depth to Water Before Purging (ft) Conductivity Dissolved Date/Time Gallons Purged (gal) (um hos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/14/2023 7:43 133.00 8.2 8.17 15.53 359 0 20.1 [volume of water purged() Pumping Rate Calculations Flow Rate (Q = S/60) () Time to evacuate 2 Casing Volumes () !Final Depth to Water (feet) Number of casing Volumes Volume, if well evacuated to dryness () Name of Certified Analytical Laborato~ AWSL Analytical Samples Information Sample Container Preservative Type of Sample/Analysis Collected? Matrix Number Type Sample Filtered? Type Added? Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HDPE u H2SO4 (pH<2), 4 Deg C y Comments: Signature of Field Technician ~~, c,v_,c_,-/7'-t2~) Groundwater Discharge Permit <:~s -..,-E i ·· r /i . , --_} i,' f ~y~ Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TWN-20 Sampling Program Nitrate Quarterly Field Sample ID TWN-20 11152023 Sampling Event 2023 Q4 Nitrate Purge Date & Time 11/14/2023 9:00 Sample Date & Time 11/15/2023 7:35 !sampler TH/DL Purging Equipment Pump Weather Conditions Partly cloudy Pump Type Grundfos External Ambient Temperature (C) 8 Purging Method 2 Casings Previous Well Sampled TWN-18 Casing Volume (gal) 12.92 Calculated Casing Volumes Purge Duration (min) 2.34 pH Buffer 7.0 7.0 Well Depth (ft) 98.20 pH Buffer 4.0 4.0 Well Casing Diameter (in) 4 Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) 78.41 Conductivity Dissolved Date/Time Gallons Purged (gal) (umhos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/14/2023 9:01 14.66 2947 7.03 14.89 423 0 8.0 11/15/2023 7:35 2849 7.30 15.68 Before 11/15/2023 7:36 2860 7.28 15.60 After !Yolume of water purged (gals) Pumping_ Rate Calculations 14.66 Flow Rate (Q = S/60) (gal/min) 11.00 Time to evacuate 2 Casing Volumes (min) 1.33 !Final Depth to Water (feet) 96.11 Number of casing Volumes 1.13 Volume, if well evacuated to dryness (gals) 14.66 Name of Certified Analytical Laboratory AWSL Analytical Samples Information Sample Container Preservative Type of Sample/Analysis Collected? Matrix Number Type Sample Filtered? Type Added? Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HOPE u H2S04 (pH<2), 4 Deg C y Comments: Arrived on site at 0855. Purge began at 0900. Purged well for a total of 1 minute and 20 seconds. Purged well dry. Purge ended at 0901. Water was clear. Left site at 0904. Arrived on site at 0731 . Depth to water was 78.50. Samples bailed and collected at 0735. Left site at 0738. Signature of Field Technician ~ u'.J,_._,_-J-/-,::1/.~) l.·· .,. ' ' ~ s~ ' , ' .• ~ y ~l"FZ :S Location ID Field Sample ID Purge Date & Time Sample Date & Time Purging Equipment Pump Type Purging Method Casing Volume (gal) Calculated Casing Volumes Purge Duration (min) pH Buffer 7.0 pH Buffer 4.0 Specific Conductance (micromhos) Date/Time Gallons Purged (gal) 11/14/2023 9:28 22.0 11/15/2023 7:45 11/15/2023 7:46 [volume of water pu_r:_g~d (gals) [Final Depth to Water (feet) Name of Certified Analytical Laboratory AWSL Analytical Samples Information Type of Sample/Analysis Chloride Nitrate/nitrite as N Comments: Groundwater Discharge Permit Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater TWN-21 Sampling Program Nitrate Quarterly TWN-21 11152023 Sampling Event 2023 Q4 Nitrate 11/14/2023 9:26 11/15/2023 7:45 [sampler TH/DL Pump Weather Conditions Partly cloudy Grundfos External Ambient Temperature (C) 9 2 Casings Previous Well Sampled TWN-20 19.19 3.49 7.0 Well Depth (ft) 108.65 4.0 Well Casing Diameter (in) 4 1000 Depth to Water Before Purging (ft) 79.25 Dissolved mductivity (umhos/c pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 3751 7.20 14.87 306 1.0 105.0 3735 7.39 14.02 Before 3739 7.33 14.13 After Pumping Rate Calculations - 22.00 Flow Rate (Q = S/60) (gal/min) 11.00 Time to evacuate 2 Casing Volumes (min) 2.00 106.47 Number of casing Volumes 1.14 Volume, if well evacuated to dryness (gals) 22.00 Sample Container Preservative Collected? Matrix Number Type Sample Filtered? Type Added? y WATER 1 500-ml Poly u None N y WATER 1 250-ml HOPE u H2SO4 (pH<2), 4 Deg C y Arrived on site at 0922. Purge began at 0926. Purged well for a total of 2 minutes. Purged well dry. Purge ended at 0928. Water was clear. Left site at 0931. Arrived on site at 07 41. Depth to water was 79.30. Samples bailed and collected at 0745. Left site at 0747. Signature of Field Technician ~o ,'..FU'_,~ +/4~) Groundwater Discharge Permit ~~ -s--,---~\-----....... ./·' --,, ' -_,,.,--~y-~ Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TW4-22 Sampling Program Chloroform Monitoring Field Sample ID TW4-22 11292023 Samplin_g_ Event 2023 Q4 Chloroform Purge Date & Time 11/29/2023 10:31 Sample Date & Time 11/29/2023 10:32 !sampler TH/DL Purging Equipment Pump Weather Conditions Cloudy Pump Type Grundfos External Ambient Temperature (C) 4 Purging Method 2 Casings Previous Well Sampled TW4-24 Casing Volume (gal) 28.71 Calculated Casing Volumes Purge Duration () pH Buffer 7 .0 7.0 Well Depth (ft) 114.70 pH Buffer 4.0 4.0 Well Casing Diameter (in) 4 Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) 70.72 Conductivity Dissolved Date/Time Gallons Purged {umhos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/29/2023 10:32 5399 6.54 14.00 375 0.8 34.9 [volume of water purged() Pumping Rate Calculations Flow Rate (Q = S/60) (gal/min) 16.00 Time to evacuate 2 Casing Volumes () [Final Depth to Water (feet) 104.66 Number of casing Volumes Volume, if well evacuated to dryness () 0 Name of Certified Analytical Laboratory AWSL Analytical Samples Information Sample Container Sample Preservative Type of Sample/ Analysis Collected? Matrix Number Type Filtered? Type Added? voes-Chloroform y WATER 3 40mlVOA u HCI (pH<2), 4 Deg C y Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HDPE u H2SO4 (pH<2), 4 Deg C y Comments: I Arrived on site at 1027. Samples collected at 1032. Water was clear. Left site at 1034. Signature of Field Technician ~"" ,,,.,._c--1-/ -«-:~) Groundwater Discharge Permit Z1i-S·/·_.F-::.l ,,; f . ~y~ • ~· . Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TW4-24 Sampling Program Chloroform Monitoring Field Sample ID TW4-24 11292023 Sampling Event 2023 Q4 Chloroform Purge Date & Time 11/29/2023 10:24 Sample Date & Time 11/29/2023 10:25 jsampler TH/DL Purging Equipment Pump Weather Conditions Cloudy Pump Type Grundfos External Ambient Temperature (C) 3 Purging Method 2 Casings Previous Well Sampled TW4-25 Casing Volume (gal) 29.24 Calculated Casing Volumes Purge Duration () pH Buffer 7.0 7.0 Well Depth (ft) 114.80 pH Buffer 4.0 4.0 Well Casing Diameter (in) 4 Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) 70.01 Dissolved Date/Time Gallons Purged Conductivity (umhos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/29/2023 10:25 6367 6.92 14.10 332 0 21.3 Pumping Rate Calculations [Yolume of water purged () Flow Rate (Q = S/60) (gal/min) 16.00 Time to evacuate 2 Casing Volumes () §ial Depth to Water (feet) 77.38 Number of casing Volumes Volume, if well evacuated to dryness () 0 Name of Certified Analytical Laboratory AWSL Analytical Samples Information Sample Container Preservative Type of Sample/Analysis Collected? Matrix Number Type Sample Filtered? Type Added? voes-Chloroform y WATER 3 40mlVOA u HCI (pH<2), 4 Deg C y Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HDPE u H2SO4 (pH<2), 4 Deg C y Comments: [ Arrived on site at 1020. Samples collected at 1025. Water was clear. Left site at 1027. Signature of Field Technician ~.,, ,,,,._,._ -/7/,.-.2:~) Groundwater Discharge Permit z er--·_ F-::.,--. _ .. ""/ /i' -' • --~ .' ~y~ J.-. i Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TW4-25 Sampling Program Chloroform Monitoring Field Sample ID TW4-25 11292023 Sampling Event 2023 Q4 Chloroform Purge Date & Time 11/29/2023 10:14 Sample Date & Time 11/29/2023 10:15 [sampler TH/DL Purging Equipment Pump Weather Conditions Cloudy Pump Type Grundfos External Ambient Temperature (C) 3 Purging Method 2 Casings Previous Well Sampled TW4-21 Casing Volume (gal) 43.41 Calculated Casing Volumes Purge Duration () pH Buffer 7.0 7.0 Well Depth (ft) 136.70 pH Buffer 4.0 4.0 Well Casing Diameter (in) 4 Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) 69.76 Conductivity Dissolved Date/Time Gallons Purged (um hos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/29/2023 10:15 2511 7.16 14.88 319 55.0 64.0 Pumping Rate Calculations !Volume of water pu~ged () Flow Rate (Q = S/60) (gal/min) 14.00 Time to evacuate 2 Casing Volumes () [Final Depth to Water (feet) 91.24 Number of casing Volumes Volume, if well evacuated to dryness () 0 Name of Certified Anal~tical Laboratory AWSL Analytical Samples Information Sample Container Preservative Type of Sample/ Analysis Collected? Matrix Number Type Sample Filtered? Type Added? voes-Chloroform y WATER 3 40ml VOA u HCI (pH<2), 4 Deg C y Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HDPE u H2SO4 (pH<2), 4 Deg C y Comments: [Arrived on site at 1010. Samples collected at 1015. Water was clear. Left site at 1017. Signature of Field Technician ----... , ~~ / -..____) "' , ~, "">L.--J-/.-. -:% ;<.'.<) Groundwater Discharge Permit ,~e-~· -r~•·· L ' , E""1EJR!GY.F-IUIEL.S Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TWN-60 Sampling Program Nitrate Quarterly Field Sample ID TWN-60 11142023 Sampling Event 2023 Q4 Nitrate Purge Date & Time 11/14/2023 13:14 Sample Date & Time 11/14/2023 13:15 !sampler TH/DL Purging Equipment Pump Weather Conditions Sunny Pump Type Grundfos External Ambient Temperature (C) 14 Purging Method 2 Casings Previous Well Sampled TWN-03 Casing Volume () Calculated Casing Volumes Purge Duration () pH Buffer 7.0 7.0 Well Depth (ft) pH Buffer 4.0 4.0 Well Casing Diameter () Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) Conductivity Dissolved Date/Time Gallons Purged (umhos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/14/2023 13:14 1.3 8.30 16.54 377 0 22.2 Pumping Rate Calculations [volu~ o_f w~tel'_purged () Flow Rate (Q = S/60) () Time to evacuate 2 Casing Volumes () I F_i_na!_ Depth to Water (feet) Number of casing Volumes Volume. if well evacuated to dryness () 0 Name of Certified Analytical Laboratory AWSL Analytical Samples Information Sample Container Preservative Type of Sample/Analysis Collected? Matrix Number Type Sample Filtered? Type Added? Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HOPE u H2SO4 {pH<2), 4 Deg C y Comments: I _Di sample collected in the lab at 1315. Left lab at 1317. Signature of Field Technician ---,.,. , / /2-:. / ----.) , , ,_,.,,._.,___ -;,--; •• '.D. d :;) Groundwater Discharge Permit ~ ,. ~~ ,' I .• • ' •. _,· ~y~ Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TW4-60 Sampling Program Chloroform Monitoring Field Sample ID TW4-60 11292023 Sampling Event 2023 Q4 Chloroform Purge Date & Time 11/29/2023 13:59 Sample Date & Time 11/29/2023 14:00 [~ampler TH/DL Purging Equipment Pump Weather Conditions Cloudy Pump Type Grundfos External Ambient Temperature (C) 5 Purging Method 2 Casings Previous Well Sampled TW4-19 Casing Volume () Calculated Casing Volumes Purge Duration () pH Buffer 7.0 7.0 Well Depth (ft) pH Buffer 4.0 4.0 Well Casing Diameter () Specific Conductance (micromhos) 1000 Depth to Water Before Purging (ft) Conductivity Dissolved Date/Time Gallons Purged (um hos/cm) pH (pH Units) Temp (deg C) Redox (mV) Turbidity (NTU) Oxygen(%) Before/After 11/29/2023 14:00 4.3 8.01 15.45 351 0 23.0 Pumping Rate Calculations [volume of water purged() Flow Rate (Q = S/60) () Time to evacuate 2 Casing Volumes () [ Final Depth to Water (feet) Number of casing Volumes Volume, if well evacuated to dryness () 0 Name of Certified Analytical Laboratory AWSL Analytical Samples Information Sample Container Preservative Type of Sample/Analysis Collected? Matrix Number Type Sample Filtered? Type Added? VO Cs-Chloroform y WATER 3 40ml VOA u HCI (pH<2), 4 Deg C y Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HOPE u H2SO4 (pH<2), 4 Deg C y Comments: [ DI sample collected in the lab at 1400. Left site at 1402. Signature of Field Technician ~,, ,,,,. __ <___, F/ ~~) Groundwater Discharge Permit t~ ~~y~ Groundwater Monitoring Quality Assurance Plan White Mesa Mill Field Data Worksheet For Groundwater Location ID TWN-65 Sampling Program Field Sample ID TWN-65 11142023 Sampling Event 2023 Q4 Nitrate Purge Date & Time Sample Date & Time 11/14/2023 10:04 [sampler TH/DL Purging Equipment Weather Conditions Pump Type External Ambient Temperature () Purging Method Previous Well Sampled Casing Volume O Calculated Casing Volumes Purge Duration () pH Buffer 7 .0 Well Depth (ft) pH Buffer 4.0 Well Casing Diameter() Specific Conductance () Depth to Water Before Purging (ft) Dissolved Date/Time Gallons Purged Conductivity pH Temp Redox Turbidity Oxygen I Before/After Pumping Rate Calculations [volume of water purged () Flow Rate (Q = S/60) () Time to evacuate 2 Casing Volumes () [Final Depth to Water (feet) Number of casing Volumes Volume, if well evacuated to dryness () Name of Certified Analytical Laboratory AWSL Analytical Samples Information Sample Container Preservative Type of Sample/Analysis Collected? Matrix Number Type Sample Filtered? Type Added? Chloride y WATER 1 500-ml Poly u None N Nitrate/nitrite as N y WATER 1 250-ml HDPE u H2SO4 (pH<2), 4 Deg C y Comments: [ Duplicate of TWN-04 Signature of Field Technician ~", "".r-<--/-;,,;-, -«~~) TabC Kriged Current Quarter Groundwater Contour Map, Capture Zone Map, Capture Zone Details Map, and Weekly, Monthly and Quarterly Depth to Water Data Name: Tanner 1-lolliday, Deen Lyman Dmc.11/20/2023 -t 1121no23 Depth to Depth to Depth to Water Date Time Well Water (ft.) Date Time Well Water (ft.) Date Time Well (ft.) 11/21/2023 I 153 MW-01 65.30 11/20/2023 1052 MW-04 82.34 11/21/2023 1214 PIEZ-01 68 23 I l/2J/2023 1332 MW-02 109_65 I 1/20/2023 1238 TW4-0l ]05.69 11/21/2023 1207 PIEZ-02 48 14 I 1/21/2023 1252 MW-03A 84.36 11/20/2023 1045 TW4-02 108.22 I 1/21/2023 1249 PJEZ-03A 58.23 11/21/2023 1157 MW-05 107 90 11/20/2023 1428 TW4-03 65.91 11/21/2023 1236 PIEZ-04 67.55 I 1/21/2023 I 147 MW-JI 85,33 11/20/2023 1324 TW4-04 85 24 11/21/2023 1240 PIEZ-05 66.22 11/21/2023 1200 MW-12 I 09.48 11/20/2023 1422 TW4-05 73 65 11/21/2023 1344 TWN-01 70.12 I 1/21/2023 1222 MW-14 I 02.34 11/20/2023 1350 TW4-06 80.43 11/21/2023 845 TWN-02 63 18 11/21/2023 1219 MW-15 105 71 I 1/20/2023 1244 TW4-07 82.78 11/21/2023 1258 TWN-03 44.72 11/21/2023 1247 MW-17 72.33 I l/20/2023 1248 TW4-08 85.19 1 l/21/2023 1253 TWN-04 64 52 ll/21/2023 1158 MW-18 74.77 I 1/20/2023 1425 TW4-09 71 41 I 1/21/2023 1203 TWN-06 81-64 11/21/2023 1211 MW-19 67.53 I 1/20/2023 1416 TW4-10 70.96 11/21/2023 1056 TWN-07 80.52 11/21/2023 1416 MW-20 87 89 I 1/20/2023 1036 TW4-IJ 88 78 11/21/2023 1220 TWN-14 59.09 11/21/2023 1002 MW-22 65.88 11/20/2023 1443 TW4-12 56.81 11/21/2023 1225 TWN-16 48 38 I 1/21/2023 1357 MW-23 I 15,35 11/20/2023 1440 TW4-l3 58.10 I 1/21/2023 1243 TWN-18 63 55 11/21/2023 1310 MW-24A 109.65 I 1/20/2023 1433 TW4-14 77.41 11/21/2023 949 TWN-19 53.57 11 /2 1/2023 1313 MW-24 108 64 11/20/2023 1411 TW4-16 74.90 11/21/2023 1049 TWN-20 78 20 11/21/2023 1423 MW-25 83.00 11/20/2023 1340 TW4-18 74 45 11/21/2023 1053 TWN-21 79.35 11/21/2023 1027 MW-26 76 75 11/20/2023 1442 TW4-19 86.66 11/21/2023 1123 DR-05 81.95 11/21/2023 1237 MW-27 59.54 11/20/2023 829 TW4-21 76 86 11/21/2023 1116 DR-06 93.88 I 1/21/2023 1319 MW-28 74 82 11/20/2023 1004 TW4-22 68.45 11/21/2023 1227 DR-07 91.99 11 /21/2023 1323 MW-29 106,68 11/20/2023 1340 TW4-23 76,89 11/21/2023 1109 DR-08 51-35 11/21/2023 1419 MW-30 75 72 11/20/2023 856 TW4-24 67.9] 11/21/2023 1104 DR-09 85 38 I 1/21/2023 1428 MW-31 70.15 11/20/2023 836 TW4-25 71.47 11/21/2023 1100 DR-10 78.29 11 /21/2023 1433 MW-32 83,78 11/20/2023 1344 TW4-26 75.35 I 1/21/2023 1305 DR-11 98.15 11/21/2023 1209 MW-33 DRY 11/20/2023 1409 TW4-27 79 21 11/21/2023 1301 DR-12 DRY 11 /21/2023 1213 MW-34 107.63 I 1/20/2023 1447 TW4-28 50.39 11/21/2023 1257 DR-13 70,06 11/21/2023 1203 MW-35 112.80 11/20/2023 1430 TW4-29 79,78 I 1/21/2023 1049 DR-14 76.28 11/21/2023 1206 MW-36 I 10 79 11/20/2023 1420 TW4-30 75,27 11/21/2023 ]054 DR-15 92 47 11/21/2023 1216 MW-37 107 01 11/20/2023 1412 TW4-31 75.98 11/21/2023 1045 DR-17 64.11 ll/21/2023 1017 MW-38 69,85 11/20/2023 1451 TW4-32 57 64 11/21/2023 1029 DR-19 62 88 11/21/2023 JOJO MW-39 63,88 11/20/2023 1406 TW4-33 79.28 11/21/2023 1025 DR-20 55 08 ll/21/2023 1458 MW-40 79.75 11/20/2023 1426 TW4-34 77 91 11/21/2023 1017 DR-21 ]00.07 I 1/21/2023 1328 MW-4IB !08,84 11/20/2023 1423 TW4-35 76.05 I 1/21/2023 1035 DR-22 DRY MW-26=TW4-15 ll/20/2023 1437 TW4-36 58.71 11/21/2023 1021 DR-23 70.18 MW-32=TW4-17 I 1/20/2023 1012 TW4-37 67 83 11/21/2023 1039 DR-24 44 45 Comments: ll/20/2023 1434 TW4-38 61.68 11/20/2023 1020 TW4-39 74.50 l l/20/2023 1331 TW4-40 72.6] I J/20/2023 1317 TW4-41 89 65 I 1/20/2023 1401 TW4-42 71 77 11/20/2023 1416 TW4-43 73.15 Weekly Inspection Form Date ,a-,-aa Name Dem G-Lrcno~ Z:-Mu &;r;,/,.,1 • ystem O perationafc1t no note Time -Well Depth* Comments anv problems/corrective actions) nqD,_ MW-4 ~~ "1/A Flow "'' () 1M No Meter -1 7 S? 1 q 1. 1 1 '-I ~ No ()B"l"f MW-26 fU. <c, Flow It~ I) ~ No Meter ~ ,.-, r: t;"' 11 r 1ils No I (ll} ,;' TW4-19 7J RO Flow I I',. D ... No Meter ~ 2 i R '-I q, :::i o .. No n.Q...t :t TW4-4 9.C 01,. Flow 1 /_ 2. .. No Meter 9, ~ 1 -, tr '-I, r ,_ No /)~l)~ TWN-2 9. 41 1,2 Flow I t'.. n .. No Meter :z ~ c:-i:-~ ~ 41 ~ No D~\q TW4-22 (. ~ ~,, Flow I I. fl "91& No Meter , n n q ct r::-.c:-. ~ ,.. No a \Jrnt TW4-24 I.-,, f!:1 Flow J /_ 11 .. No Meter :2 .2 c;t 7t.. ~ ~-~~ flE No 1)7,:t;' TW4-25 t:;'8 1() Flow I t;", :J. '-No Meter , -, ~ 11 <;( 'f</'. '-I' 7 ~ No (JC:,::l~ TW4-1 t()-=-. ,.., Flow /::J. /.. • No Meter ,., I./ '1 "l. -4 n 1 .. No lnR5'/2 TW4-2 q~ 10 Flow I (ft /") .. No Meter .;-r:: n c;-I') -, ~ .. No OR'-lq TW4-11 ~~ q(,. Flow Ir:'. I. ... No Meter , t~ 4 1 r,. ~ 7 .. No 0 "1,., I./ TW4-21 7~,. /,. I Flow ''-· ".) ._ No .,, Meter -,.c:D7'-{~ 7 1, .. No ()fl~/-TW4-37 ~q. -::t ~/ Flow) ,~.o ,_ No Meter 1~/'-/0ljt,. '-I .. No O~'.'-«" TW4-39 7'/ i.J ~ Flow J« 0 '9!t No Meter , , ~ , -a~ 1 , ::2. ... No nctl,fW TW4-40 -,"j,t:;O Flow 1<;(,l'J .. No Meter ,~/-1 i:::-~ <? «IJ ... No ll)q~c; TW4-41 'I.Cf "1,./_ Flow r.. n --No Meter J.t<:3"1n '-J, 2,~ "1ilri No Operational Problems (Please list well number): Corrective Action(s) Taken (Please list well number): * Depth is measured to the nearest 0.01 feet. Date 10/1;/.2A?-J Weekly Inspection Form Name -(Marr N0J 1,r)Ol d System Operational (If no note Time Well Depth* Comments anv oroblems/correctlve actions) o,"\1, MW-4 K~ S'-1 Flow L.\.O Ct'_es~No Meter :_\"]gq'f'\O, 'O ( YeS) No . - oct~I MW-26 S<'i .(\3 Flow ~ . --;:; I'-.0 C-Yes )'-Jo Meter S5355~. ~ ( Ye~ No ' 10"1t TW4-19 7 ::J. ,C!L/ Flow 15.0 (Yes l)Jo Meter 8'35~. :2 7 ,-~No ~ -IODt; TW4-4 K{,.J I Flow 1'1.~ ( YAc:: ---No Meter 852.~ '1 L./ f< ( Yes No 0 9fl"i TWN-2 ,"3.;).. ~ Flow lb-0 (Y.ei) No Meter .l-3b81'-1 . .?.8' (Yes)No -- O'W-1 TW4-22 7 I. '-1:k Flow 1',.D C ..-¥es )Jo Meter I 0 1 l ~;q .5 ( Yes') No -- 0'10'1 TW4-24 G.t. l.{l) Flow lb.O <Yee:: )No Meter l.~ q 'l. '-11~ 5"-(Yes)No ,,Ki::.b TW4-25 C:>8.'tl Flow 15 .D <Y~o Meter 113 05 lb . LI, (Yes ..)fJo O'lS'1 TW4-1 102.'t.S Flow }:t. ') CYes }Jo f Meter 44i1i,,.s ( Yes J.Jo - 0'14!2. TW4-2 100.:n Flow H .. o (Xes')No Meter BS 15 S1\ .3 ( Yes') No i'\RC. L TW4-11 "ii, u.. Flow \S .S (Yes.,A-.Jo Meter ., 1:::. ,u-i.:, ~ --; 3 rYe'$ No 1l,,,J:".,1:.1 &ij - 08'51 TW4-21 7b-'ib Flow ,~.o <YE§s.,,No Meter ~s11..111H. q1, ( Ves.) No -oq.!ll) TW4-37 70.01 Flow 18.0 (.Ye~') No Meter ~~Igj(12 s c Yes _)No o ci:>..'-TW4-39 1'i-.50 Flow \8'.0 (Yes')No Meter 1, 33'-Lt'-l . :i (~No 1011 TW4-40 -,,.21 Flow \k.O ( _yes-.._ JNo Meter \ ~'-soc:;'-\ Si? (-v-e-s? No ,~ TW4-41 s, . .2.0 Flow ~-0 CYes No Meter 4~Y7O.~ 3-S r Yes )Jo Operational Problems (Please list well number): Corrective Action(s) Taken (Please list well number): • Depth is measured to tt)e nearest 0.01 feet. Weekly Inspection Form Date ,a-a:;-;.,3 System Operational (If no note Time Well Depth* Comments anv problems/corrective actions) J/) ,.::t MW-4 ~'i 0~ Flow l.J. (J .... No Meter -i 1 q c;-~ q ::1 '--1 ~ No 1n1~ MW-26 ~~ -:Ji::' Flow JI. (j 111a No Meter ~ ,;-t: J 'I I./. ct ~ No -l~ I I TW4-19 ; ~-"\S" Flow /{,,.fl ... No Meter 'i'-1 ~ '?q s:t _,._.,.,,_ --.s No II)~() TW4-4 qq" '-4 I Flow I l. n '91a No Meter (l ~ 1 , 1-1 ; .. No oq~7 TWN-2 "· '-· -9. '1 Flow J(. 1 ... No Meter -1 ~ 7~ 111: "'~ ... No n4t:'III TW4-22 /.,Q. l'1 Flow ,,~ 0 .. No Meter , n , -i, 1 3 ~ -, .. No n~:u::1.1 TW4-24 /,,~. 4i Flow 11~ 0 ... No Meter ~ ~<½~'I 6'1 '3'f • No oq-;~ TW4-25 t.t.t .>l Flow /i.l ~ ... No Meter , 7 1 -, 1 . .2 .g "-,,,. ... No ID~«it TW4-1 , o ,;', '3 '. Flow I :1. • (,. -·· ..... No Meter ~ '-i ?, Lf q ~ .:z. 'Wli6 No ft}~, .. TW4-2 1 o~.~n Flow It~ () ..... No Meter t"~ ~,., 11,.., • No IO 2.1 TW4-11 'l.C\ IQ. Flow J { •. {) ... No Meter , t.. t. q J.. r. 1. .... No "q .,_ '-I TW4-21 7c:;_ -,n Flow It.. 0 .. No Meter ~<'~.t?.::2 "· 2., '-I ,,. No tDnt:' TW4-37 ,Y lfu Flow I?. t> .... No Meter '.I. IJ '.'.l , /,. .-, n -, 111118 No 11,1n TW4-39 "'11 11 l.f Flow 1'9C/J ~No Meter , , ·2J...--Y &.11 ,q .... No I n it:J' -, TW4-40 .., 2. ~ /. Flow I Cl. n 'IDs No Meter 11 /_ ,,q ,-,, 2 7 .,_ No /01.,(t;;' TW4-41 1l.c:t ~ I Flow C. .0 .. No Meter "' .;--c;-&.1 ~ °' . o ~ ... No Operational Problems (Please list well number): Corrective Action(s) Taken (Please list well number): * Depth is measured to the nearest 0.01 feet. Weekly Inspection Form Date Nam~_ Time Well Depth* Comments anv oroblems/corrective actions} - I( [)q I/ 'I. MW-4 ~-; __ t~ Flow v/, tJ .,_ No Meter ~ 5?(),2 7otJ t1q .... No G'l1..t MW-26 ~ :1 2 _q Flow I I. /J .. No Meter -o;t t; r~ c:i~ I('_~ " .la-No J 11 ( TW4-19 T"\ 1~ Flow I In n .... No Meter ~ 5' ;z q L t--.. q 1 .. No //')/} /,. TW4-4 '!~, 1'1,{-Flow //2, I) --No Meter 9., r; ~ 3 c, 1. j,. .. No O'o I i TWN-2 ~.("".1/A Flow /(..,(1 ... No Meter iJ.. ~ 9 ,t ~ 1 ~ n ... No og31 TW4-22 t,, q c.f O Flow //,. . IJ .... No Meter J n , ~ /'} '3 In n "-No O<a2.4 TW4-24 {,,'if/7 Flow It. n .,._ No Meter i 'J, o o '.1> 7 9. 3 .2 ,_ No O'i If TW4-25 -11,q~ Flow I i./ ~ ... No Meter , ., 1-1 '5 5/ o i. --r :i ~ No oq t;-i, TW4-'-1 /0~ I ':J Flow 12.~ 'fas No Meter -1 ... ;.J,/ ct 1 ~ .... No oq43 TW4-2 11n /,,(;-, Flow I (,. '1 ... No Meter Ji" .t; ~ n -c. , . -, ._ No oq1L.J TW4-11 g:a 'BI Flow JIL,. 0 ~ No Meter u,. ;qt:,. ,;rq ... No 1J 'r( D '> TW4-21 --,:<.~I Flow Jr_ a ~ No -Meter 1,c;-;;i,,,.i;-q~ ~, 11s No " Ot'//J:'C. TW4-37 '"1"3 5' I Flow J'B n 'lliis No Meter 2 '-l 1 <" -:1, .2 tf1 q .... No O'l I~. TW4-39 "'f .1,/ t,{9, Flow I~ () .. No Meter , 1 'l.. ~ 1 ~-.q n .. No I() I Cl TW4-40 -,~ !Cl Flow ,~.o ,._ No Meter , :i -, 1 n ,; '-I 1 2 ,_ No f D 11 I TW4-41 ~~ .ct~ Flow ~ f) Wll8.. No Meter t./ ~ r,, 3 n I A / s:t 111s No Operational Problems (Please list well number): Corrective Action(s) Taken (Please list well number): ... Depth is measured to the nearest 0.01 feet. Monthly Depth Check Form fuoa t:/,«tf/3/ Date u:z -JO-it3 Name oc;s;n,,,,c-~tmo<;; Time Well Depth* Time Well Depth* ng~s::-MW-4 S?a.l3 L33~ TWN-1 ~-lr3l og 5'1 TW4-1 rQ!:": ta. 06(7 TWN-2 B£,N, . tl9~~ TW4-2 tlOc tia~ ,3 3 LJ TWN-3 ':/..'i,12,. l:15:?z TW4-3 ~(;;. u.. l33Q TWN-4 "!1.3-r: lD.Qfa. TW4-4 S&.Z!:t iJaa TWN-7 1~.~,o l 3 l;'"f TW4-5 :t:3 ,a., 8 n~, TWN-18 ,3.~~ ·t3!f~ TW4-6 Sa16:3 l31l MW-27 !~1 q ( l3¥:t TW4-7 s.2.•.~" 1:?a ~Q MW-30 1f.t fL ~ l3$:0 TW4-8 9£~~ l3Q< MW-31 -:t.tl..QS L3~~ TW4-9 ·1,.~ L3~1~-TW4-10 ll1'2:'- Q!::3~ TW4-11 S9.SL l31!t TW4-12 5:7.•3~- l 3.a.<-TW4-13 s-s.~ J:30'2 TW4-29 :Z9,9t l:33$ TW4-14 -::,..:t.~3 1$fi: TW4-30 7.,:-. (.Q og aJ MW-26 -iS2.. as l31~ TW4-31 zr..~o ,;aif~ TW4-16 7:GtO ,32,,i TW4-32 $'1,S.0 ' tl.'22. MW-32 SJ. t.S l312A TW4-33 7!,?3 l:3~1 TW4-18 z~~a L.33~ TW4-34 21,a., ,au TW4-19 :Z3, 2..!'.'.: £ "?,O 9. TW4-35 :zt. .. , ' OS0.'5 TW4-21 7..,, ~I L3~!f TW4-36 (;""!l:t ~ 0831 TW4-22 ~9.~'2 t28S:fil TW4-37 731-~J l3lS TW4-23 7.7.~Q l3~8 TW4-38 I.,[. i6 QS~ TW4-24 la!,17 12g11 TW4-39 Z~a~B D~ll TW4-25 Zti9:::3. tai!t TW4-40 :za., ,~ l 3 !I. l TW4-26 15; 1& ,tQQJ TW4-41 iSag~ t3Q!:/, TW4-27 l!:J-is:'.::.a.. J.3QQ TW4-42 :ZJ1!:l 1 , :3 a., TW4-28 512«7'2 r 311 TW4-43 7?u5"~ Comments: (Please note the well number for any comments) * Depth is measured to the nearest 0.01 feet Weekly Inspection Form Date U-S-£3: Name Dea i:::ry,-..7, 7G«:: 64,ff f System Ope ratio :.«f no note Time -Well Depth* Comments anv problems/corrective actions) nq-ig MW-4 -., It~ Flowi "'· n ... No Meter "'2, ~ 1 1 "1 r; '-I: 7 7 'lie No ' nQfHi: MW-26 Stl/. l{IJ Flow "-n 'llli No Meter ~ ~ q :2 c:1 ~ _ , llD No ({jt;I; TW4-19 7~ o< Flow J~ 0 ... No Meter g/,.'-/~l..~,qq-.,._ No nqz:~ TW4-4 'l.l.,00 Flow 11,.. n ... No Meter 'fl I(~ q <JI, <f ,.. No /Ht~ "1 TWN-2 t.l ~ ("' Flow J/... /J ... No Meter .2 .. , n '-In ~, .2 < .. No Ot'/1 TW4-22 .,, .()~ Flow J~ n --No Meter , n , 7 , n -.,. . "' ... No D~4l'l TW4-24 /..-,, :J..'I Flow JI.~ .... No Meter ~ -z..n'fl.~r1 ~ . ..r~ --No n~t~ TW4-25 ~ q_ /./ Flow '""' <;t. ., No Meter , ., t:' r,. 5" fl.7. o 5:" ta No nql,/~ TW4-1 ,,,,~ -:,iq Flow I -;l.,~ ... No Meter "u " 7 ,-11.,. ":t .. No OQ"a. I TW4-2 q~ ~~ Flow 1/4.. 0 ... No Meter '1' i: "1 ~ o . o .. No net~, TW4-11 «'4.1?. Flow , t<. /,. .. No Meter I t. ~ 11 1 , 1 ~ ,.. No /} 7<"1 TW4-21 'iJI DLf Flow II... '1.. ... No Meter ·:.H· "! " ff q /_ o 7 s--No /)~,;'~ TW4-37 (,..~ ,< Flow ,~ n ~ No Meter .., "'.1qSJ 7"1, ~ 11111 No nqo, TW4-39 7A/, 7 I Flow ,~ rr ... No Meter , J .,. , c:;-1 ~ , ~ 'Wms No J/j l!J/5 TW4-40 ..,, \ \ Flow I 9. /} .. No Meter , ,:, 7c:-1nl'.. C?n ~ No nq S'"I TW4-41 ~q.1 .. -; Flow /.. n ~ No Meter ...,1;-,~ 4 ~ H ~ • No , Operational Problems (Please list well number): Corrective Action(s) Taken (Please list well number): ________________ _ ... Depth is measured to the nearest 0.01 feet. Weekly Inspection Form Date ,i-,3-,a Name Dsca r-~tazaa G System Operational Clf no note Time Well -Depth* Comments anv problems/corrective actions) 04/~ MW-4 CZ'-' 7,< Flow "' t'J ..... No Meter 3 $? J Ca go 4 11 • No O<l. I.I« MW-26 4~ "~ Flow ,<:a -No Meter S? I. 0 I:{'" LI -, ... No 11 "t~ TW4-19 -r-:i. s/7 Flow /(,. 2. -No Meter s11 ~ -ro ~/ .. No /)q~, TW4-4 ~q 10 Flow I J.f, () --No Meter 9,efq 1 -,,,.1. '{ .,_ No O~J~ TWN-2 l'J> 2.< Flow JI,. D 1IIIF, No Meter !J.,,,, :2 q '-I '-'<:II -.s No n9. !J« TW4-22 .r,:q /'_ '3 Flow 1 u .. o .__ No Meter , n, ~ L{ ~ 4~ 3 ~ No OSl.21 TW4-24 /.'1 D~ Flow II-1 ... No Meter ~ ~ , '-J '.2. t. ':I , 1 ,.. No I tJ~nq TW4-25 ,n ,-, Flow / I-{ () ,.._ No Meter t ; 1. :.2. '-I .q s-: l. 1, \,.. No /JG\ rsr TW4-1 I O"i II Flow ,-2 n ,._ No Meter c../"" c; :i n ~ . n ..._No ntlnt:' TW4-2 I rn '1~ Flow , /_ n ,._ No Meter r::--<'--1--f, a, I ,_ No n9.l:'.<:" TW4-11 stC\ I-:.: Flow l "'J. 9,, ... No Meter , /. q /. ,_, ~ ~ ... No n~n"'I TW4-21 1"1 .SI I Flow I l.. n 91: No Meter 3~ 39" '-/4.. 5'"~ "DIE No lH{ '1 < TW4-37 t .. i '.l..'i Flow ,~.o -No Meter :J. ..,-:z, :i-:,, i:; ().4 ae No nq~( TW4-39 -,~.'3"2. Flow I~ D ,._.. No Meter 1 1 '! '-I 'A ~~.o ... No nq"fl( TW4-40 '1~. ,n Flow H( /l ... No Meter 1 ~ -r -r ~ 1-114 « r;-,.__ No nq:i..,:; TW4-41 c;tq. ~ ~ Flow t. n ... No Meter ~ ~ ~ t 1 ... -<i '8 ~ ... No Operational Problems (Please list well number): Corrective Action(s) Taken (Please list well number): * Depth is measured to the nearest 0.01 feet. Weekly Inspection Form Date H-a.p-p Name 1 Time Well Depth* Comments anv problems/corrective actions) 10<:1 MW-4 <i(1. "'l,~ Flow "l /J 41111& No Meter ~fl A 4-J.:, J. "f 1 ... No ,n 'J.-, MW-26 -, t. -, ,;; Flow 1:2,~-~ No Meter 511.. 1."' ? , • ~ !la No I '-1 o.,f '.l. TW4-19 ~l,. ~{.. Flow It:. 0 ... No Meter ~ tJn~-:, 1.. l;'r;-' ... No 1-:r. ::J 4 TW4-4 ~< 'J~ Flow I&, 0 ... No Meter "l.t;-4 7'13,,'i -No 09.14< TWN-2 I.~ Is? Flow ,<. a ~No Meter HI.,_ -:i. :1,. nq -No I f) fl J.f TW4-22 (.~ I.Jr;-Flow I(,. n ~ No Meter '"' -:1 n ,.t n 1 ... -WE No n'51<"~ TW4-24 ~'1 q l Flow rt. D ... No Meter ~-:i. -:1 21 ... -1n. 2Q ,__ No . 09t'l./. TW4-25 ~, ... ,.., Flow I c./. (} Ill& No Meter , -, -, o -, eu. , rz 11 l1lls No I "1 ':I <i TW4-1 Int:'. G,(t Flow /::J .'i? -No Meter ,,w~q, 1 ~ 1ili6 No 1n&.J5"" TW4-2 tn'it . 2. '2 Flow Jr;'.~ .. No Meter .;-~~~ c;-~ 2. ~ No J 0~ I~ TW4-11 ~t« '1f! Flow I/,. f') ... No Meter ,-rn i:;r:-a . < Ills No tJ 'iJ-2.'1 TW4-21 7/,,. ~L. Flow ,~ n .,_. No ' Meter -;,.z:; I.{~ r,. :::1 "l Jf 1 • No ... _ TW4-37 ✓.7.fl':t Flow ~ No ~ ,,..,~ ,-,_r,. Meter ..:2 .o.J 1 r:'i1.:. <". , l9S No ' TW4-39 -,~. t;O Flow I 'II.(\ .. No -10!:I.I'! Meter .,, 1-17ctt::n ~ 'fllfi No ~ , ~,. \ TW4-40 ..,~ .1..1 Flow I~ D ... No Meter , -1 q n "l 3 "-l t,, ~ ,. No I 1 I '"T TW4-41 ~q ,.,.-Flow t; /4 ... No Meter "'~~q"4.2 --:i.r. "1s No Operational Problems (Please list well number): Corrective Action(s) Taken (Please list well number): * Depth is measured to the nearest 0.01 feet. Weekly Inspection Form Date Time Nam~~-%:..-= d,,;f,~ Well System Operatio~t(lf no note Depth* Comments anv problems/corr~ctive actions) lnQ'it;"' MW-4 g~ le:' Flow '-1.0 .. No Meter '3 ~ ~ 1 '31 ~ i 7 ..., No ' ()9, ~Sl MW-26 9.1.1 q/A Flow /',, /,,. w. No Meter -Kt,¥O 1~ -, .... No 1"<.1...rY TW4-19 -, I £/ I-/ Flow I b. () .... No V Met~· ·;"l't:t;&.1 a,t>>i • No . /()()~ TW4-4 s:r;.z;-: i I Flow u~ o .. No Meter~~~ :J '"\ '1 g .... No 01J I I TWN-2 «~ 7/ Flow I/. 0 ---No Meter 2..., -,,,r<1q :i 'I • No ni"17 TW4-22 / ..• /.,:' Flow I la I) 111a No Meter In ., 1 -, /1 7. ~ -. No {)Q .1 '<' TW4-24 ~q 9)J.{ Flow I/.. 0 1!ls. No Meter .1. ~ '! ocr~ "3 c.t3 .... No Q ?,D -_a, TW4-25 "10, I q Flow J'-'/ n 'tlaE No Meter 1 ; 1 q 2 11''1 1 q • No /)(:4 ,::""2. TW4-1 q$4 '-f () Flow I 1J. • {. ., No Meter 4/ 1/ t.. '{ 11 5.. .r;-.. No oq~ r. TW4-2 q(:\.2-Z. Flow /{.,. .0 ,,. No Meter 5"~t~"l~ c:, , .. No oq?.o TW4-11 <ii;~ qq Flow I I. I) ~ No Meter , , 1 ... , .2-rJ 3 .. No /}..,~I') TW4-21 .,..~ #7 Flow J/o, 0 ~No Meter '3 ;-.c-~ q a :2 • ,;-'1' .. No /)~"/2 TW4-37 /-A ,;~ Flow 11' 0 ... No Meter 1 .. , 7-ct :z 1 n n .. No l?S~IJ TW4-39 7 I-/ "{ r::;-Flow 19.0 ... No Meter II c;noLf~ .() ... No lllte:' TW4-40 "'1~ ()~ Flow l~.n ~ No Meter J :l. st '"!, lo '.l s.f, (,. ~ 'las No rnn 1 TW4-41 Qq "2,~ Flow ~ f} WM; No Meter J..f lj ttt ~ 1. q ~ "Ji Y»s No Operational Problems (Please list well number): Corrective Action(s) Taken (Please list well number): ---------------- * Depth is measured to the nearest 0.01 feet. Weekly Inspection Form Date Name l2:ca C-lrow7, U4n«'. 6(~ System Opera onal (If no note Time Well -Depth* Comments any problems/corrective actions) /J ~ "t:" MW-4 9; 1 I~ n Flow J./0 11111 No Meter ·'.Hi -H~ , L 1 t; 3 ---No . n{l'lll:' MW-26 q(J 1'1 Flow J ,;'. I-{ JIN No Meter ~.,;.< -r~q ~ ,_ No 1/Jq'l, TW4-19 "7 ~ -C,..,() Flow --"' If. I) ... No . # Meter fq7t;"t;1R ::2'A 111s No n c, n r:; TW4-4 gq. 'W Flow 11,. n 11s No Meter ,r r:,:; 7 £t "· 1 ,_ No I0-,~q TWN-2 'i{ &;', I lJ Flow ,~ n ... No Meter "] ,. £/ c., 1, ~ .. q 1. ..... No 0910 TW4-22 I~~ 17 Flow I(. I) 1a. No Meter rn 1 '"7,,J../ :2 7. 7-lam. No OBAC"" TW4-24 1.q 11q Flow 1' I) ... No Meter -'l -; ?o ci t.t 7 I'} <-1 t::" ~ No 0'7t:::''-I TW4-25 t::.tl -Z,3 Flow , ,_,, (,. ~ No Meter 1 7g_; :i :i. ~ L.f4 ,._ No nil<~ TW4-1 In 41 '1-r Flow I -:J. ~ .... No Meter Lf Lf 7 a o .;--. 1 '1111 No lt'11l~Q TW4-2 llf'J 1"1 Flow I/,. ;:i ... No Meter ~,; '7 .1 , c:-. 1. ... No j l)Cf~~ TW4-11 G!Q '2 L-1 Flow ,.,, n ..... No Meter , --r, ~-i,.! 1 l ..... No fJ 1 '1 (,. TW4-21 -71; ,,g I Flow ;:::,,..~ ~ I I - ,~ IJ .. No Meter '3 ~ ~ , 2 ,g 'if :J. 2 WIie No /)~,< TW4-37 /A7t3&. Flow HL/) ... No Meter .i. ,., "'f -i_-r "' q ~ .. No ltl~ ~ o TW4-39 ~-"' c;-t:;' Flow I A /) ll!s No Meter 1 1._" ~ , r. ~ , g 111& No aq 12 rrw4-40 "7' '.:I. -,r:, Flow ,~ n 'll!s No Meter , "'.l Cl c 1-r .., 41:H'# ~ No 0'U){J TW4-41 ~~ ~./,,, Flow /,..a k No . Meter "" ,-. n ~ ~ n 1: oz. ..._ No Operational Problems (Please list well number): Corrective Action(s) Taken (Please list well number): * Depth is measured to the nearest 0.01 feet. Weekly Inspection Form Date Name 0«4 f-~~ t;;~ d:.!:;ff; stem ;;rationllt no note Time -Well Depth* Comments anv problems/corrective actions) OQ. u:; MW-4 fl~ It. Flow '-I[) .. No Meter .\ 'i "{ ~ t 'it q ~ -2 l!ls No IJ!'.C::l;' MW-26 ..., ,:; !.? 4 Flow ,I tr, le, .,.. No Meter ~1-1~~<.s "111s No [)~ ,:;-, TW4-19 ,..,,, ~() Flow I 1 ~ .... No Meter q o c; -x 1 t-1. 1 I.. -No /)q ~" TW4-4 « ~-2._q Flow I/,. t} '1l!E No . Meter ~5'1 .. 2 1 3 , ,_ No 081G, TWN-2 Si -' I I Flow It,, ~ ... No Meter ~ ,.,, ~ -, c. t.1 t..r ---No og~9 TW4-22 "6<;1 11. Flow I l.. 0 "9-No Meter , r) '.1 ~, n t-q 'Ill, No Oi '3 ~ TW4-24 ~ q, """' Flow I C.. () .. No Meter .2-".\ i..f -r ~ q <. st q --No b~,~ TW4-25 -rt,7..7 " Flow I<. I) 11g No F Meter , .., q t:;"" ~ .l. • 5' ~ ,_ No oq1L TW4-1 q~ 1s:! Flow I .:I. I. .. No Meter 41.1 7 1~ o (,, mr !iii& No nqo~ TW4-2 llt>, ICI Flow I/',. ;;i__ .. No Meter ~,;9.n-,. :2 ~ .. No n qn:i. TW4-11 « ... nt. Flow 1.1:;'; ~ .. No Meter 1 -, .:1 .:2 tJ c; q Ill& No 0~01 TW4-21 "ff/, iV, Flow ,~.n ~ No Meter -2, ~1 .. -st ~ 2 L 'if: ... No ()-9, L,/ 1-/ TW4-37 '13 -in Flow I~. t, ,_ No Meter 2 "'"' ,. :1 q -r. 'i '9E No /JRLfq TW4-39 1J./ '3 { .. Flow I g IJ '1111 No Meter , , c; c.. u. 3 f? ... No nq&.-10 TW4-40 "7 '2. 4 "7 Flow ,~ n ... No Meter r"'.l ~ q q q "1 ,g~ 'lag No nq1~ TW4-41 «q ,:;-:3 Flow I. I') 111s No Meter ..-, 1. , -, , 1 1 o --No Operational Problems (Please list well number): Corrective Actlon(s) Taken (Please list well number): * Depth is measured to the nearest 0.01 feet. Weekly Inspection Form Date ,z.-115-23 System Operati nal (If no not Time Well Deoth* Comments anv problems/corrective actions) - ,n~"' MW-4 «~ 0~ Flow un 11118 No Meter ~ ~ r;-.2 ,. "\ ¥ "'.2 1iiE No ' 1n-:J., MW-26 9.4 {.~ Flow l~g ,... No Meter 9.~q 31 q " ,.. No I '3 I I TW4-19 13 "'( 2. Flow /L() __.No Meter q 14~7'/, ~r:--No J ~3-, TW4-4 t;.L 4 q Flow ,1,, n .... No Meter ~I:'~ 7~ '.2 r ... No oq~~ TWN-2 I. 1 '11 Flow JI. 0 .... No -Meter :i...,., "6 $? 11 "'3~ 1IIIE No oqc:, TW4-22 l.'2. J./B Flow ,<. ~ 11:s No Meter , o ~ 1 _ t. q '-I ~ ... No /J q,., < TW4-24 {J> q. / '/{ Flow I{. I) 1l!l5 No Meter '.2_~ ~1,, ~ ~ ~ et~ ,_ No oq.2~ TW4-25 g~a,tr"' Flow I &.I /J Wis No Meter , ~ " "1. -r 1 1 . c:;-~ .,.. No ID~ I TW4-1 ID1 1::2 Flow J::l.9. -No Meter "'f'c.i it .2 n " ~ .. No 10"!"1 TW4-2 ///} ~r, Flow I~ /'J ... No Meter 1,,:; tt D 1 1 .2 111& No 1n2 t. TW4-11 (,[tlii -i.~ Flow I '1 st ... No Meter , , '< 1 q ..., , ,_ No t1Q 2. n TW4-21 77 o.e;-Flow It. 0 ... No Meter 1 r;-7 ~ ~ 3 t:. . I ~ ... No r ,nn/,. TW4-37 -,.., . '{ "3 Flow / il (J k. No Meter :J._"'i'-'q7~1 , .. No IJ n I~ TW4-39 -,~.::J'-1 Flow I "1, ~ ... No Meter I I ;-'~ 1 n In I ,__ No J .2..&.f .:1 TW4-40 -, .., ?,. t. Flow I '« fl .... No Meter 1 "..l<:t~ll.2..4.'1'J;. ... No I -, ~ I TW4-41 ~q t;'T Flow I:,. 0 1le No . Met~r 4 1. "1. 1 r;, Cf. :J i;--: ... No Operational Problems (Please list well number): Corrective Action(s) Taken (Please list well number): • Depth is measured to the nearest 0.01 feet. Monthly Depth Check Form Date tee--f 8 -,,;, Name D:co ,;-~,,.,, :i;;:;,rc l:ioll;J7 Time Well Depth* Time Well Depth* ,a~!::I MW-4 1'.£.Q:! Q!IQ~ TWN-1 :11.12. lD.~t TW4-1 lQ::Salt& Q~33 TWN-2 ~a .:i: 1 lQ'l+ TW4-2 llfJ.. ,aQ a~a.c. TWN-3 ~"l• 30 l a,,2 £ TW4-3 ,, .. 3 Q9.a.J TWN-4 ,.,,2$ ta.:a:z TW4-4 8"1:~S: Q~~s: TWN-7 79..~ l a1 S: TW4-5 I~.S:Z ~~•'-TWN-18 t.3.a~ u,.~o. TW4-6 111.,1~ '29.S.' MW-27 1',!l.7 lQ~~ TW4-7 ,a.g~ 0!558 MW-30 75.118 i a.s TW4-8 ,~,. tQQS MW-31 ,,.aa ; 2. IS: TW4-9 Ils.S'a l:l.lQ TW4~10 1Q,B~ llJ.2.f. TW4-11 8!!.31 l:Sl:Z TW4-12 ~-r. l~ , 311·1. TW4-13 £~.Q'-f ia,~,:-TW4-29 zg.:z2 l]Q~ TW4-14 :Z:Zi 3~ llO~ TW4-30 1,;:3{it lQ a.i MW-26 s~. c.t~ 1301 TW4-31 1f...li ,019 TW4-16 l !::l..·IJ. !l .3.~ TW4-32 2..Z.~Q. lQA~ MW-32 13.~l'J ,.a.,~ TW4-33 7..9., fl_D Q~Ot. TW4-18 I~•l:2. t~S TW4-34 Z~,lQ l311 TW4-19 :zs.~a. ,a.~3 TW4-35 u •. ,a asaa TW4-21 7."1,. '2. ,;' J:3U TW4-36 £!. :J..D ass:, TW4-22 ,s:.-18. U'Jd~ TW4-37 z~-~~ l03Q TW4-23 1z.,s .l.ii.a.2.. TW4-38 lal .~S Q9.~£ TW4-24 ~~.la UH2. TW4-39 :13• 2./:1. 0!12..1 TW4-25 $5:.~5'.'. 12!!~ TW4-40 :z~.3(. lQ3~ TW4-26 1,. 1'.,J. l.:1.31 TW4-41 S91!:l ,.a !:I a TW4-27 I~.~!i a2.1s: TW4-42 7(.13 t1ao TW4-28 !fl, 3S:: ,m TW4-43 13,'11 Comments: {Please note the well number for any comments) * Depth is measured to the nearest 0.01 feet Weekly Inspection Form Date (2,-,2(, -,23 Name D«-0--<.-'r" A/ ~cc 1,(..4(,z System O perati~I {If no note Time Well -Deoth* Comments anv oroblems/corrective actions) /)q 11 MW-4 ~I C:/.. Flow 1-/, o • No Meter ~ ,,.; 1,, , ~ ~ , k No \ ;2 .2 nq :::-1 MW-26 '1ln ;; Flow I<. I.. .. No Meter .c;;r 7, , .. ~'-1,n 1-No IO I fn TW4-19 -,,; ~() Flow I /,. () .. No Meter q1.r:;1l;'n ..2 ~ '1111s No oq~Q TW4-4 ~ -:;, << Flow 1/4 () ... No Meter ~ 'i'1 ~ 2 7 .., ... No OA.2fl TWN-2 ~3./1:1 Flow J/. a ..... No Meter .:2 g~ ::i q~.~n 1116 No 0~ 33 TW4-22 ~/) , ~ Flow It. {J .,_ No Meter 1n:{q/l 71, 7 1'e8 No /J',l,2 y TW4-24 /4'K 41> Flow I(;. .:2 ,.. No Meter 2 -it,, 1;q ll, 'Jl 1 119 No 0'1.&J~ TW4-25 ~9. _j..f Flow 11.f h' • .. No Meter , ~ , '-I 1 , q , ~ '7.. ... No l)Q 1-r TW4-1 JD1 .:llJ Flow I J. ~ ... No Meter ~ L( on K ~. '2 -.. No /)q I) (& TW4-2 I I (I ,.a. Flow I(,.. 0 ... No Meter e:: L. nor;, t . .:::, .... No na n,11 TW4-11 ~.g ~'.I Flow /I,, . .(} ~ No Meter , ,'-13<-r.n ... No (}9,fi~ TW4-21 7,;'. l-f/1 Flow I f ~ /) .... No Meter -?. < 'if .i.t g 7 7. ~ 1 ... No n<;.-:i.a. TW4-37 £. ~. '-1.::J Flow t~ n ._ No Meter ~ '-C 5""'-1 i -,. rA '-'' '.la No 1)-9, l.{~ TW4-39 -J'::1 11 Flow ,-in 1l!ls' No Meter II r,;.,,lJ 17, 1 ~ No nq-,., TW4-40 -r::1 •' ~ Flow I 9, I (J "'&la. No Meter 11 ~ --r n 1 <1 • , 1 ,._ No nQ"ll,,/ TW4-41 qq, "2,Q Flow f,,, D .. No Meter 1-1.1,. ."<. Cl < I'} . '1 2.. ¥M No Operational Problems (Please list well number): ----------------\ Corrective Action(s} Taken (Please list well number): ---------------- ,. Depth is measured to the nearest 0.01 feet. @ MW-418 "9-5509 estimated dry area perched monitoring well installed April, 2023 showing elevation in feet amsl TW4-43 temporary perched monitoring ~5524 well installed September, 2021 showing elevation in feet amsl TWN-20 Cl5564 TW4-42 ¢5523 temporary perched nitrate monitoring well installed April, 2021 showing elevation in feet amsl temporary perched monitoring well installed April, 2019 showing elevation in feet amsl M;-;504 perched monitoring well showing elevation in feet amsl TW4-12 0 5567 temporary perched_ monitoring well showing elevation In feet amsl TWN-7 . . . <>5569 temporary perched nitrate monitoring well showing elevation in feet amsl PIEZ-1 perched piezometer showing -i 5587 elevation in feet amsl RUIN SPRING c!, 5380 seep or spring showing elevation in feet amsl DR-10 DR-11 . 5482 54ao . 5487 rt 1 mile \ \ ,. \ ........ ...... \ \ \ \ \ \ \ ' \ ' .... ' ..... ab.,ndo11~d <> TWN-15 ..... c1bvni~E"d a ab:rndoned <> TWN-11 COR -~O!IJ."3\ , lWN-,12 .. -, TWN-10a~nduned 5583\ ~-09 <> TWN-0, ,1b,3nione, TWN-0B \ ~ Pl~1 Si ? MW-19 --"'· !l ,,,.., ..... - - - -- ··---~ 5510 :........ ta_~ ,53fo . ~ T "R~~• .SP, ··1 r ;,. NOTES: MW-4, MW-26, TW4-1, TW4-2, TW4-4, TW4-11, TW4-19, TW4-21, TW4-37, TW4-39, TW4-40 and TW4-41 are chloroform pumping wells; TW4-22, TW4-24, TW4-25 and TWN-2 are nitrate pumping wells; TW4-1, TW4-2 and TW4-11 water levels are below the base of the Burro Canyon Formation HVDR□ GE□ CHEM. INC. KRIGED 4th QUARTER, 2023 WATER LEVELS WHITE MESA SITE APPROVED DATE REFERENCE H:/718000/feb24/WL/Uwl1223.srf FIGURE C-1 ,· "' , rf' fl @ MW-418 -¢-5509 estimated nitrate capture zone boundary stream tube resulting from pumping. (note: combined capture shown for TW4-22 and TW4-24) estimated chloroform capture zone boundary stream tubes resulting from pumping, (note: combined capture shown for MW-4, TW4-1, TW4-2, TW4-4, TW4-11, TW4-40 and TW4-41; and for MW-26, TW4-19, TW4-21, TW4-25, TW4-37 and TW4-39) estimated dry area perched monitoring well installed April, 2023 showing elevation in feet amsl TW4-43 temporary perched monitoring ~5524 well installed September, 2021 showing elevation in feet amsl TWN-20 temporary perched nitrate monitoring Cl5564 well installed April, 2021 showing elevation in feet amsl TW4-42 temporary perched monitoring well ¢ 5523 installed April, 2019 showing elevation in feet amsl MW-5 .5504 I TW4-12 0 5567 perched monitoring well showing elevation in feet amsl temporary perched monitoring well showing elevation in feet amsl TWN-7 h d . . . A.5569 temporary perc e nitrate monitoring V well showing elevation in feet amsl PIEZ-1 perched piezometer showing ~ 5587 elevation in feet amsl RUIN SPRING 6 5380 seep or spring showing elevation in feet amsl DR-10 DR-11 . 5482 54eo . S<S7 \ rt \ \ ' \ ' .... ; • ..,,, ,1bandoncd 0 lWN-11 COR -~, "[WN-j 2 ~ .... - ..... :,bcnt,oneci lWN-15 ' :ib.ini9iQed l)'IN-lO ~nod ~'°' .... ~>\ TWN--0, "5111 .... ub:Jnionef P~1 ,51 7 MW-19 TWN--08 \ -r.r.'N-- -..:.... . ---.'-,, --·, S,39 • ":~··-~ QRF{l{L_SP 1 ml.le --, .. -.-r .. .,····-·-• -_ ~1 ll~ • ,_. :;_,~-..,; ;""'•.•{~. -~r,,,_ '' '-. .: ,~ -.-igr, ...,,,:.-: ~ ........... !~~, .•~ ... "'" -'..,.~ NOTES: MW-4, MW-26, TW4-1, TW4-2, TW4-4, TW4-11, TW4-19, TW4-21, TW4-37, TW4-39, TW4-40 and TW4-41 are chloroform pumping wells; TW4-22, TW4-24, TW4-25 and TWN-2 are nitrate pumping wells; TW4-1, TW4-2 and TW4-11 water levels are below the base of the Burro Canton Formation HYDRO GED CHEM, INC. KRIGED 4th QUARTER, 2023 WATER LEVELS AND ESTIMATED CAPTURE ZONES WHITE MESA SITE APPROVED DATE REFERENCE H:/718000/feb24/WL/Uwl1223NTcz2,srf FIGURE C-2 "' estimated nitrate capture zone boundary cf' eP stream tube resulting from pumping. n (note: combined capture shown for " TW4-22 and TW4-24) TW4-43 ~5524 TW4-42 ¢5523 MW-25 .5530 TW4-7 0 5538 PIEZ-2 Q 5581 estimated chloroform capture zone boundary stream tubes resulting from pumping. (note: combined capture shown for MW-4, TW4-1, TW4-2, TW4-4, TW4-11, TW4-40 and TW4-41; and for MW-26, TW4-19, TW4-21, TW4-25, TW4-37 and TW4-39) temporary perched monitoring well installed September, 2021 showing elevation in feet amsl temporary perched monitoring well installed April, 2019 showing elevation in feet amsl perched monitoring well showing elevation In reet amsl temporary perched monitoring well showing elevation in feet amsl perched piezometer showing elevation In feet amsl ' ' \ \ \ \ '· -01 ·•5578 .... -..... I i -42 5523 1~0 551 .5 ill ·~ ~'v· 5555 --- 5540 -o; s2'1, -~"29 s5z9 ,_ ,-::;->,5530 ,J'C: -~0-I.~~>' ' , . TW4-29 ,;QfW_!1-__ -... -.C:~,... 7 • ~·· ·55.35. 5532_,5_ --G ..,t;~lt -. -5 ·<S es NOTES: MW-4, MW-26, TW4-1, TW4-2, TW4-4, TW4-11, TW4-19, TW4-21, TW4-37, TW4-39, TW4-40 and TW4-41 are chloroform pumping wells; TW4-22, TW4-24, TW4-25 and TWN-2 are nitrate pumping wells; TW4-1, TW4-2 and TW4-11 water levels are below the base of the Burro Canyon Formation HYDR□ GE□ CHEM, INC. APPROVED KRIGED 4th QUARTER, 2023 WATER LEVELS AND ESTIMATED CAPTURE ZONES WHITE MESA SITE (detail map) DATE REFERENCE FIGURE H:/718000/feb24/WL/Uw1223NTcz.srf I C-3 TabD Kriged Previous Quarter Groundwater Contour Map @ MW-41B ❖5509 TW4-43 ~5523 estimated dry area perched monitoring well installed April, 2023 showing elevation in feet amsl temporary perched monitoring well installed September, 2021 showing elevation in feet amsl TWN-20 temporary perched nitrate monitoring Cl5564 well installed April, 2021 showing elevation in feet amsl TW4-42 temporary perched monitoring well ¢ 5523 installed April, 2019 showing elevation in feet amsl M;-;504 perched monitoring well showing elevation in feet amsl TW4-1 2 i 0 5567 temporary perched monitoring well showing elevation in feet amsl TWN-7 h d . . . A.5570 temporary perc e nitrate monitoring V well showing elevation in feet amsl PIEZ-1 perched piezometer showing -1 5588 elevation in feet amsl RUIN SPRING c!, 5380 seep or spring showing elevation in feet amsl DR-10 DR-11 5~~2 • 5480 . 5488 " 1¢. 1 mile \ ' \ \ ', '\ \ \ \ \ \ \ ' \ ' ..... " ' ..... - a1.i;:.ndo:,i1tl 0 TWN-15 ..... ci.l;:1n~1'lcd TWN-1\, • :1,bdndoned 0 TWN-11 1 ~r.ioncd !\$8) "VJN-09 0 TWN~ ,;,xw PIEZ-0~ -- ui.ni o,,, TWNi5 ~if' MW-19 1!111~nttd 'TWN'-12 -~ 1WN, 5400 . ~- ':,, SJ.9. . V " COR ·•: NOTES: MW-4, MW-26, TW4-1, TW4-2, TW4-4, TW4-11, TW4-19, TW4-21, TW4-37, TW4-39, TW4-40 and TW4-41 are chloroform pumping wells; TW4-22, TW4-24, TW4-25 and TWN-2 are nitrate pumping wells; TW4-11 water level is below the base of the Burro Canyon Formation HYDRO GED CHEM, INC. KRIGED 3rd QUARTER, 2023 WATER LEVELS WHITE MESA SITE APPROVED DATE REFERENCE H:/718000/nov23/WL/Uwl0923.srf FIGURE 0-1 Tab E Hydrographs of Groundwater Elevations over Time for Nitrate Monitoring Wells -0Z/8~/90 Q. E -.c = -Cl) E i= L~/ZZ/60 ... Cl) > 0 Cl) > Cl) ...J ... v~ILZ/U Cl) -3: -I z ~ U/~0/P0 60/90/L0 0 0 0 0 ..- 0 0 N 0 0 M 0 0 ..,. 0 0 LO 0 0 (0 0 0 I'- 0 0 00 -0. E -..c = -G) E i= ... G) > 0 G) > G) ..J ... G) -~ N I z ~ 0l/8~/90 H/ll/60 v~/Ll!l~ UH0/v0 60/90/L0 0 0 0 0 ..... 0 0 N 0 0 M 0 0 'V 0 0 IO 0 0 co 0 0 t-- 0 0 00 0 0 O> -C. E :c = -G) E i= ... G) > 0 -G) > G) ..J ... G) -~ C"') I z ~ 9l/60IU ~--r-------.----.---......-----,----.------,----r---~----. 0lt8it90 Litll/60 vitatu zitiotvo 60/90/LO 9010 itoi 4-, ---.------------+---------.---------------+-----1 0 ci 0 It) 0 ci ..... 0 '° ..... 0 ci N ~ LO N 0 ci C") 0 It) C") 0 c:i ,;f" 0 It) ,q 0 c:i LO -C. E :a = -C1) E i= ... C1) > 0 -C1) > C1) ...J ... C1) -~ -.:I' I z ~ 9Z/60/Zi ...------r------,,-----..------,-----,----.....------. 0Z/8 it90 Litll/60 vitatzi UH0/170 60/90/L0 9010 ito ~ +. ----t------+-----t----+-------1'----~-----l 0 c::i 0 c::i .... 0 c::i N 0 c::i "<t" 0 c::i LO 0 c::i (!) 0 c::i r-- 9l/60/U Ol/8~/90 -C. E -.c = -Cl) E Hlll/60 i= ... Cl) > 0 Cl) > Cl) ..J v~/Ll/U ... Cl) -~ (0 I z ~ l~/~0/v0 60/90/L0 90/0~/0~ - 0 ci 0 ci ..- 0 ci N 0 0 LO - T 0 ci (0 I 0 0 I'-- , l •J • t • ► • ◄ ► ◄ ► '► ' ~ •► ► ◄ ► ◄► ◄ ► 0 ~ • ,. ◄ • ' . • ' ► ' ' 0 ci co 0 ci CJ) -0. E -.c it: -Cl) E i= ... Cl) > 0 c6 > Cl) ..J ... Cl) -~ ..... I z ~ 9°Gl60tli O°G/8 it90 Lilll/60 viJLGll i zino1vo 60190/L0 901oi1oi . 0 ci 0 ci N 0 ci co ◄• • ~ • ~ ' . • '. ' 0 ci (X) • ~ ' ~ ' ~ • ~ ◄ • ' . ◄ • ◄ • ' ◄ • •• ' '. ' . ◄ . ' ~ L. 0 ci 0 ..... 0 ci N ..... -C. E -.0 it:! -G) E i= ... G) > 0 G) > G) .J ... G) -~ "11:t' "l"'"' I z ~ 9l/60/l i ---.--~--~---.----,------,--~--.------,---.---............ ----, 0l!Si/90 Li/ll/60 vi!Lllli uno1vo - 60/90/L0 90/0 i10 i +, ---+----+-------!---+-----!~--l---!----+----!------l ~ (X) I.O 0 O> IO IO O> I.O 0 ci co ~ 0 co (=! ..-co ~ ..-0 N co co 0 C") co IO C") co 0 ..,j-co 0lt8it90 -Q. E -.c = -Cl) E Litll/60 i= ... Cl) > 0 -Cl) > Cl) ..J ... vitll/U Cl) -3: CD ,r- I z ~ UH0/v0 60/90/L0 Lt) <O 'V Lt) r--: 'V 0 00 'V Lt) cx:i 'V 0 o-i 'V Lt) o-i 'V -02:/8~/90 C. E :a ~ -G) E Hlll/60 i= ... G) > 0 -G) > G) ..J ... v~/Ll/U G) -~ co ~ I z ~ unotvo 60/90/L0 90/0~/0~ 0 0 0 0 ..- 0 0 N ~ 0 '<t I 0 0 I.() t ◄ ◄► ► ► ◄ ~ ► ► ◄ ◄ ◄ ► ► ◄► ► I◄► ► ► ' ◄ ► ◄ ◄ ◄ ◄ t ◄ ◄ ► ◄► l -- 0 0 to 0 0 t-- -C. E :a it:! -a, E i= ... a, > 0 -a, > a, ..J ... a, -~ 0) ~ I z ! 0C:/8~/90 L~/C:C:/60 • v~/Lc:/U UH0/v0 60/90/L0 9010 ~,o ~ +----f.-------1-----+-----+------+-----+------l 0 m -.:t 0 ci IJ') ~ ..-IJ') 0 N IJ') 0 C") IJ') 0 ~ IJ') 0 IJ') IJ') 0 (0 IJ') -J 0) u) -J 0) N Depth Below Measuring Point (ft.) -J 0) -J 0) a -J -J <O -J :'.I 0) -J -J ~ 1-------+--------,-----+--------,-----+-------t--04/14/21 -07/23/21 10/31/21 02/08/22 05/19/22 08/27/22 12/05/22 03/15/23 06/23/23 10/01/23 L---------L..----L..----......L...---___,JL..----~----'-01/09/24 ~ z I N 0 ~ -CD '"' r-CD < !!. 0 < CD '"' ::1 3 CD -;= 5!: 3 "C - £Z/£Z/90 -£Z/9~/£0 C. E -.0 it! -CD ZZ/90/Z~ E i= ... CD > 0 ZZ/LZ/80 CD > CD ..J ... CD -ZZ/6~/90 ~ -N I z ~ ZZ/80/ZO ~Z/£Z/L0 0 O> I"- ..... O> I"- ..... O> I"- N O> I"- N a, I"- (") a, I"- (") O> I"- v O> I"- v O> I"- -0G/8~/90 Q. E -.c = -G) L~/GG/60 E i= .. G) > 0 -v~ILGIG~ G) > G) ...I .. G) -3: Ul~0lv0 0 C'? I ~ :E 60190/L0 90/0~/0~ 0 LO r--- 0 <ci r--- 0 r...: r--- 0 IX) r--- 0 ai r--- 0 ci 00 -m:1si190 0. E j5 = -Cl) Litll/60 E ;:: "-Cl) > 0 ai vitlltli > Cl) ..J "-Cl) -;e UH0/t>0 ~ C"') I ~ :E 60/90/L0 901oi1oi 0 cri co 0 CIO co 0 ci t- 0 N t- 0 cri t- 0 cx:i t- 0 ci CIO 0 N CIO Tab F Depths to Groundwater and Elevations over Time for Nitrate Monitoring Wells Water Levels and Data over Time White Mesa Mill-Well TWN-1 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.L D) Well 5 646.96 5 648.09 1.13 106.13 5,600.38 02/06/09 47.71 46.58 5,599.99 07/21/09 48.10 46.97 5,600.26 09/21/09 47.83 46.70 5,601.10 10/28/09 46.99 45.86 5,602.59 12/14/09 45.50 44.37 5,600.55 03/11/10 47.54 46.41 5,600.66 05/11/10 47.43 46.30 5,599.18 09/29/10 48.91 47.78 5,598.92 12/21/10 49.17 48.04 5,598.29 02/28/11 49.80 48.67 5,597.80 06/21/11 50.29 49.16 5,597.32 09/20/11 50.77 49.64 5,597.15 12/21/11 50.94 49.81 5,596.54 03/27/12 51.55 50.42 5,596.52 06/28/12 51.57 50.44 5,595.03 09/27/12 53.06 51.93 5,596.62 12/28/12 51.47 50.34 5,593.54 03/28/13 54.55 53.42 5,592.38 06/27/13 55.71 54.58 5,591.65 09/27/13 56.44 55.31 5,590.34 12/20/13 57.75 56.62 5,590.03 03/27/14 58.06 56.93 5,589.09 06/25/14 59.00 57.87 5,588.15 09/25/14 59.94 58.81 5,587.74 12/17/14 60.35 59.22 5,587.09 03/26/15 61.00 59.87 5,586.79 06/22/15 61.30 60.17 5,586.39 09/30/15 61.70 60.57 5,586.05 12/02/15 62.04 60.91 5,585.89 03/30/16 62.20 61.07 5,585.30 06/30/16 62.79 61.66 5,584.95 09/29/16 63.14 62.01 5,584.55 12/21/16 63.54 62.41 5,584.74 03/30/17 63.35 62.22 5,584.29 06/27/17 63.80 62.67 5,583.77 09/26/17 64.32 63.19 5,583.44 11/29/17 64.65 63.52 5,583.03 03/29/18 65.06 63.93 5,582.79 06/22/18 65.30 64.17 5,582.22 09/26/18 65.87 64.74 5,582.14 12/17/18 65.95 64.82 5,581.49 03/26/19 66.60 65.47 5,581.18 06/24/19 66.91 65.78 5,581.12 08/13/19 66.97 65.84 5,580.93 11/19/19 67.16 66.03 5,580.54 02/13/20 67.55 66.42 5,580.24 05/05/20 67.85 66.72 5,579.73 09/22/20 68.36 67.23 Water Levels and Data over Time White Mesa Mill -Well TWN-1 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,646.96 5,648.09 I.13 106.13 5,579.54 12/30/20 68.55 67.42 5,579.51 03/11/21 68.58 67.45 5,578.97 06/24/21 69.12 67.99 5,578.84 08/11/21 69.25 68.12 5,579.03 12/28/21 69.06 67.93 5,578.38 02/10/22 69.71 68.58 5,577.91 06/28/22 70.18 69.05 5,577.88 08/15/22 70.21 69.08 5,577.93 11/17/22 70.16 69.03 5,577.92 03/24/23 70.17 69.04 5,577.93 06/27/23 70.16 69.03 5,577.09 09/28/23 71.00 69.87 5,577.97 11/21/23 70.12 68.99 Water Levels and Data over Time White Mesa Mill-Well TWN-2 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5 625.75 5 626.69 0.94 95.9 5,611.37 2/6/09 15.32 14.38 5,610.63 7/21/09 16.06 15.12 5,609.73 9/21/09 16.96 16.02 5,607.08 11/2/09 19.61 18.67 5,606.57 12/14/09 20.12 19.18 5,612.45 3/11/10 14.24 13.30 5,612.78 5/11/10 13.91 12.97 5,611.37 9/29/10 15.32 14.38 5,610.24 12/21/10 16.45 15.51 5,610.64 2/28/11 16.05 15.11 5,609.78 6/21/11 16.91 15.97 5,609.79 9/20/11 16.90 15.96 5,609.72 12/21/11 16.97 16.03 5,605.69 3/27/12 21.00 20.06 5,605.67 6/28/12 21.02 20.08 5,603.03 9/27/12 23.66 22.72 5,605.76 12/28/12 20.93 19.99 5,598.28 3/28/13 28.41 27.47 5,594.32 6/27/13 32.37 31.43 5,594.38 9/27/13 32.31 31.37 5,594.68 12/20/13 32.01 31.07 5,597.79 3/27/14 28.90 27.96 5,595.80 6/25/14 30.89 29.95 5,587.67 9/25/14 39.02 38.08 5,592.66 12/17/14 34.03 33.09 5,596.71 3/26/15 29.98 29.04 5,598.64 6/22/15 28.05 27.11 5,597.89 9/30/15 28.80 27.86 5,597.89 12/2/15 28.80 27.86 5,594.25 3/30/16 32.44 31.50 5,590.26 6/30/16 36.43 35.49 5,591.67 9/29/16 35.02 34.08 5,592.92 12/21/16 33.77 32.83 5,589.05 3/30/17 37.64 36.7 5,589.69 6/27/17 37.00 36.06 5,590.71 9/26/17 35.98 35.04 5,591.65 11/30/17 35.04 34.10 5,574.69 3/28/18 52.00 51.06 5,586.49 6/22/18 40.20 39.26 5,550.31 9/24/18 76.38 75.44 5,568.32 12/17/18 58.37 57.43 5,553.52 3/25/19 73.17 72.23 5,569.06 6/24/19 57.63 56.69 5,565.38 8/12/19 61.31 60.37 5,567.87 11/18/19 58.82 57.88 5,577.69 2/13/20 49.00 48.06 Water Levels and Data over Time White Mesa Mill -Well TWN-2 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,625.75 5,626.69 0.94 95.9 5,566.89 5/5/20 59.80 58.86 5,570.34 9/21/20 56.35 55.41 5,562.46 12/28/20 64.23 63.29 5,568.57 3/11/21 58.12 57.18 5,558.22 6/24/21 68.47 67.53 5,568.34 8/11/21 58.35 57.41 5,568.92 12/28/21 57.77 56.83 5,568.09 2/10/22 58.60 57.66 5,568.00 6/28/22 58.69 57.75 5,558.48 8/15/22 68.21 67.27 5,567.88 11/17/22 58.81 57.87 5,561.54 3/24/23 65.15 64.21 5,567.38 6/27/23 59.31 58.37 5,565.54 9/28/23 61.15 60.21 5,563.51 11/21/23 63.18 62.24 Water Levels and Data over Time White Mesa Mill-Well TWN-3 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,633.64 5,634.50 0.86 96 5,603.77 2/6/09 30.73 29.87 5,602.37 7/21/09 32.13 31.27 5,602.34 9/21/09 32.16 31.30 5,602.60 10/28/09 31.90 31.04 5,603.12 12/14/09 31.38 30.52 5,602.90 3/11/10 31.60 30.74 5,603.23 5/11/10 31.27 30.41 5,602.86 9/29/10 31.64 30.78 5,603.35 12/21/10 31.15 30.29 5,602.89 2/28/11 31.61 30.75 5,602.75 6/21/11 31.75 30.89 5,602.40 9/20/11 32.10 31.24 5,602.40 12/21/11 32.10 31.24 5,601.70 3/27/12 32.80 31.94 5,601.67 6/28/12 32.83 31.97 5,600.50 9/27/12 34.00 33.14 5,601.74 12/28/12 32.76 31.90 5,598.60 3/28/13 35.90 35.04 5,597.18 6/27/13 37.32 36.46 5,597.36 9/27/13 37.14 36.28 5,597.60 12/20/13 36.90 36.04 5,598.00 3/27/14 36.50 35.64 5,596.34 6/25/14 38.16 37.30 5,596.30 9/25/14 38.20 37.34 5,596.55 12/17/14 37.95 37.09 5,596.20 3/26/15 38.30 37.44 5,596.00 6/22/15 38.50 37.64 5,596.61 9/30/15 37.89 37.03 5,596.09 12/2/15 38.41 37.55 5,595.29 3/30/16 39.21 38.35 5,594.61 6/30/16 39.89 39.03 5,593.79 9/29/16 40.71 39.85 5,594.20 12/21/16 40.30 39.44 5,594.20 3/30/17 40.30 39.44 5,592.85 6/27/17 41.65 40.79 5,592.60 9/26/17 41.90 41.04 5,593.33 11/29/17 41.17 40.31 5,592.55 3/29/18 41.95 41.09 5,592.45 6/22/18 42.05 41.19 5,592.90 9/26/18 41.60 40.74 5,594.29 12/18/18 40.21 39.35 5,591.99 3/26/19 42.51 41.65 5,592.69 6/24/19 41.81 40.95 5,592.50 8/13/19 42.00 41.14 5,592.78 11/19/19 41.72 40.86 5,592.33 2/13/20 42.17 41.31 Water Levels and Data over Time White Mesa Mill-Well TWN-3 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,591.78 5/5/20 42.72 41.86 5,591.67 9/22/20 42.83 41.97 5,592.09 12/30/20 42.41 41.55 5,591.62 3/11/21 42.88 42.02 5,591.89 6/24/21 42.61 41.75 5,591.66 8/11/21 42.84 41.98 5,592.09 12/28/21 42.41 41.55 5,591.01 2/10/22 43.49 42.63 5,590.28 6/28/22 44.22 43.36 5,590.28 8/15/22 44.22 43.36 5,590.70 11/17/22 43.80 42.94 5,590.29 3/24/23 44.21 43.35 5,590.30 6/27/23 44.20 43.34 5,590.05 9/28/23 44.45 43.59 5,589.78 11/21/23 44.72 43.86 Water Levels and Data over Time White Mesa Mill-Well TWN-4 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (bhv.MP) (blw.LSD) Well 5,641.04 5 641.87 0.83 126.4 5,601.47 2/6/09 40.40 39.57 5,604.26 7/21/09 37.61 36.78 5,605.02 9/21/09 36.85 36.02 5,605.87 10/28/09 36.00 35.17 5,605.81 12/14/09 36.06 35.23 5,605.31 3/11/10 36.56 35.73 5,605.36 5/11/10 36.51 35.68 5,604.59 9/29/10 37.28 36.45 5,604.42 12/21/10 37.45 36.62 5,603.69 2/28/11 38.18 37.35 5,603.36 6/21/11 38.51 37.68 5,602.82 9/20/11 39.05 38.22 5,602.79 12/21/11 39.08 38.25 5,600.82 3/27/12 41.05 40.22 5,600.84 6/28/12 41.03 40.20 5,598.47 9/27/12 43.40 42.57 5,600.86 12/28/12 41.01 40.18 5,595.57 3/28/13 46.30 45.47 5,594.12 6/27/13 47.75 46.92 5,593.33 9/27/13 48.54 47.71 5,591.92 12/20/13 49.95 49.12 5,591.85 3/27/14 50.02 49.19 5,590.49 6/25/14 51.38 50.55 5,589.64 9/25/14 52.23 51.40 5,589.42 12/17/14 52.45 51.62 5,589.17 3/26/15 52.70 51.87 5,588.17 6/22/15 53.70 52.87 5,587.48 9/30/15 54.39 53.56 5,587.02 12/2/15 54.85 54.02 5,586.90 3/20/16 54.97 54.14 5,586.18 6/30/16 55.69 54.86 5,585.72 9/29/16 56.15 55.32 5,585.42 12/21/16 56.45 55.62 5,586.35 3/30/17 55.52 54.69 5,585.09 6/27/17 56.78 55.95 5,584.41 9/26/17 57.46 56.63 5,584.07 11/29/17 57.80 56.97 5,583.76 3/29/18 58.11 57.28 5,583.47 6/22/18 58.40 57.57 5,582.92 9/26/18 58.95 58.12 5,582.66 12/18/18 59.21 58.38 5,582.23 3/26/19 59.64 58.81 5,581.97 6/24/19 59.90 59.07 5,581.96 8/13/19 59.91 59.08 5,581.68 11/19/19 60.19 59.36 5,581.34 2/13/20 60.53 59.70 Water Levels and Data over Time White Mesa Mill -Well TWN-4 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of {WL) (LSD) (MP) Riser ~L) Monitoring (blw.MP) (blw.LSD) Well 5,641.04 5,641.87 0.83 126.4 5,580.99 5/5/20 60.88 60.05 5,580.45 9/22/20 61.42 60.59 5,580.34 12/30/20 61.53 60.70 5,580.29 3/11/21 61.58 60.75 5,579.80 6/24/21 62.07 61.24 5,579.55 8/11/21 62.32 61.49 5,579.87 12/28/21 62.00 61.17 5,579.25 2/10/22 62.62 61.79 5,578.69 6/28/22 63.18 62.35 5,578.74 8/15/22 63.13 62.3 5,579.02 11/17/22 62.85 62.02 5,578.68 3/24/23 63.19 62.36 5,578.67 6/27/23 63.20 62.37 5,577.81 9/28/23 64.06 63.23 5,577.35 11/21/23 64.52 63.69 Water Levels and Data over Time White Mesa Mill-Well TWN-6 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) {MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,663.03 5,664.94 1.91 131.91 5,589.52 8/25/09 75.42 73.51 5,589.46 9/22/09 75.48 73.57 5,589.61 11/3/09 75.33 73.42 5,589.92 12/14/09 75.02 73.11 5,590.24 3/11/10 74.70 72.79 5,590.40 5111110 74.54 72.63 5,590.24 9/29/10 74.70 72.79 5,590.49 12/21/10 74.45 72.54 5,590.16 2/28/11 74.78 72.87 5,590.44 6/21/11 74.50 72.59 5,590.35 9/20/11 74.59 72.68 5,590.67 12/21/11 74.27 72.36 5,590.34 3/27/12 74.60 72.69 5,590.32 6/28/12 74.62 72.71 5,589.77 9/27/12 75.17 73.26 5,589.67 12/28/12 75.27 73.36 5,589.45 3/28/13 75.49 73.58 5,589.01 6/27/13 75.93 74.02 5,588.99 9/27/13 75.95 74.04 5,588.15 12/20/13 76.79 74.88 5,588.50 3/27/14 76.44 74.53 5,588.03 6/25/14 76.91 75.00 5,587.74 9/25/14 77.20 75.29 5,587.69 12/17 /14 77.25 75.34 5,587.29 3/26/15 77.65 75.74 5,587.04 6/22/15 77.90 75.99 5,586.93 9/30/15 78.01 76.10 5,586.72 12/2/15 78.22 76.31 5,586.92 3/30/16 78.02 76.11 5,586.32 6/30/16 78.62 76.71 5,586.16 9/29/16 78.78 76.87 5,586.03 12/21/16 78.91 77.00 5,586.40 3/30/17 78.54 76.63 5,605.99 6/27/17 58.95 57.04 5,585.76 9/26/17 79.18 77.27 5,585.59 11/29/17 79.35 77.44 5,585.63 3/29/18 79.31 77.4 5,585.59 6/22/18 79.35 77.44 5,585.26 9/26/18 79.68 77.77 5,585.27 12/18/18 79.67 77.76 5,585.16 3/26/19 79.78 77.87 5,585.05 6/24/19 79.89 77.98 5,584.86 8/13/19 80.08 78 .17 5,585.14 11/19/19 79.80 77.89 5,584.92 2/13/20 80.02 78.11 5,585.27 5/5/20 79.67 77.76 Water Levels and Data over Time White Mesa Mill-Well TWN-6 Tota) or Measuring Measured Total Water Land Point Depth to Depth to Tota) Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (bJw.MP) (blw.LSD) Wen 5,663.03 5,664.94 1.91 131.91 5,584.46 9/22/20 80.48 78.57 5,584.58 12/30/20 80.36 78.45 5,584.73 3/11/21 80.21 78.30 5,584.38 6/24/21 80.56 78.65 5,584.25 8/11/21 80.69 78.78 5,584.46 12/28/21 80.48 78.57 5,584.20 2/10/22 80.74 78.83 5,583.89 6/28/22 81.05 79.14 5,583.89 8/15/22 81.05 79.14 5,584.26 11/17/22 80.68 78.77 5,583.88 3/24/23 81.06 79.15 5,583.90 6/27/23 81.04 79.13 5,583.70 9/28/23 81.24 79.33 5,583.30 11 /21/23 81 .64 79.73 Water Levels and Data over Time White Mesa Mill-Well TWN-7 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,647.39 5,649.26 1.87 107.2 5,552.56 08/25 /09 96.70 94.83 5,558.34 09/21/09 90.92 89.05 5,558.82 11/10/09 90.44 88 .57 5,558.96 12/14/09 90.30 88.43 5,559.54 03/11/10 89.72 87.85 5,559.60 05/11/10 89.66 87.79 5,559.83 09/29/10 89.43 87.56 5,559.00 12/21/10 90.26 88.39 5,559.68 02/28/11 89.58 87.71 5,560.43 06/21/11 88.83 86.96 5,560.46 09/20/11 88.80 86.93 5,560.78 12/21/11 88.48 86.61 5,560.92 03/27/12 88.34 86.47 5,560.87 06/28/12 88.39 86.52 5,561.40 09/27/12 87.86 85 .99 5,561.50 12/28/12 87.76 85 .89 5,562.01 03/28/13 87.25 85.38 5,562.21 06/27/13 87.05 85.18 5,562.41 09/27/13 86.85 84 .98 5,562.23 12/20/13 87.03 85.16 5,562.85 03/27/14 86.41 84 .54 5,562.95 06/25/14 86.31 84.44 5,563.06 09/25/14 86.20 84.33 5,563.21 12/17/14 86.05 84.18 5,563.33 03/26/15 85.93 84.06 5,563.46 06/22/15 85.80 83.93 5,563.64 09/30/15 85.62 83.75 5,563.88 12/02/15 85.38 83.51 5,564.19 03/30/16 85.07 83.20 5,563.97 06/30/16 85.29 83.42 5,564.21 09/29/16 85.05 83.18 5,564.46 12/21/16 84.80 82.93 5,564.96 03/30/17 84.30 82.43 5,564.81 06/27/17 84.45 82.58 5,565.46 09/26/17 83.80 81.93 5,565.45 11/29/17 83.81 81.94 5,566.11 03/29/18 83.15 81.28 5,566.21 06/22/18 83.05 ' 81.18 5,566.42 09/26/18 82.84 80.97 5,566.09 12/18/18 83.17 81.30 5,566.67 03/26/19 82.59 80.72 5,566.93 06/24/19 82.33 80.46 5,567.28 08/13/19 81.98 80.11 5,567.26 11/19/19 82.00 80.13 5,567.12 02/13/20 82.14 80.27 5,567.14 05/05/20 82.12 80.25 Water Levels and Data over Time White Mesa Mill-Well TWN-7 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,647.39 5,649.26 1.87 107.2 5,567.98 09/22/20 81.28 79.41 5,568.38 12/30/20 80.88 79.01 5,568.18 03/11/21 81.08 79.21 5,568.50 06/24/21 80.76 78.89 5,568.71 08/11/21 80.55 78.68 5,568.56 12/28/21 80.70 78.83 5,568.90 02/10/22 80.36 78.49 5,568.85 06/28/22 80.41 78.54 5,569.10 08/15/22 80.16 78.29 5,568.70 11/17/22 80.56 78.69 5,568.86 03/24/23 80.40 78.53 5,568.85 06/27/23 80.41 78.54 5,569.64 09/28/23 79.62 77.75 5,568.74 11/21/23 80.52 78.65 Water Levels and Data over Time White Mesa Mill-Well TWN-14 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring {blw.MP) (blw.LSD) Well 5,647.80 5,649.53 1.73 124.73 5,586.18 11/4/09 63.35 61.62 5,586.51 12/14/09 63.02 61.29 5,586.71 3/11/10 62.82 61.09 5,586.72 5/11/10 62.81 61.08 5,586.53 9/29/10 63.00 61.27 5,586.80 12/21/10 62.73 61.00 5,586.74 2/28/11 62.79 61.06 5,586.84 6/21/11 62.69 60.96 5,586.73 9/20/11 62.80 61.07 5,586.98 12/21/11 62.55 60.82 5,587.07 3/27/12 62.46 60.73 5,587.10 6/28/12 62.43 60.70 5,587.07 9/27/12 62.46 60.73 5,587.33 12/28/12 62.20 60.47 5,587.43 3/28/13 62.10 60.37 5,587.43 6/27/13 62.10 60.37 5,587.72 9/27/13 61.81 60.08 5,587.22 12/20/13 62.31 60.58 5,587.91 3/27/14 61.62 59.89 5,587.74 6/25/14 61.79 60.06 5,587.76 9/25/14 61.77 60.04 5,587.88 12/17/14 61.65 59.92 5,587.97 3/26/15 61.56 59.83 5,587.98 6/22/15 61.55 59.82 5,588.18 9/30/15 61.35 59.62 5,588.23 12/2/15 61.30 59.57 5,588.70 3/30/16 60.83 59.10 5,588.31 6/30/16 61.22 59.49 5,588.36 9/29/16 61.17 59.44 5,588.43 12/21/16 61.10 59.37 5,588.96 3/30/17 60.57 58.84 5,589.07 6/27/17 60.46 58.73 5,588.86 9/26/17 60.67 58.94 5,588.82 11/29/17 60.71 58.98 5,589.12 3/29/18 60.41 58.68 5,589.19 6/22/18 60.34 58.61 5,589.12 9/26/18 60.41 58.68 5,589.20 12/18/18 60.33 58.60 5,589.32 3/26/19 60.21 58.48 5,589.40 6/25/19 60.13 58.40 5,589.32 8/13/19 60.21 58.48 5,589.59 11/19/19 59.94 58.21 5,589.73 2/13/20 59.80 58.07 5,590.17 5/5/20 59.36 57.63 5,589.67 9/22/20 59.86 58.13 5,590.05 12/30/20 59.48 57.75 Water Levels and Data over Time White Mesa Mill -Well TWN-14 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,647.80 5,649.53 1.73 124.73 5,590.14 3/11/21 59.39 57.66 5,590.04 6/24/21 59.49 57.76 5,590.05 8/11/21 59.48 57.75 5,590.15 12/28/21 59.38 57.65 5,590.28 2/10/22 59.25 57.52 5,590.18 6/28/22 59.35 57.62 5,590.27 8/15/22 59.26 57.53 5,590.11 11/17/22 59.42 57.69 5,590.17 3/24/23 59.36 57.63 5,590.16 6/27/23 59.37 57.64 5,590.62 9/28/23 58.91 57.18 5,590.44 11/21/23 59.09 57.36 Water Levels and Data over Time White Mesa Mill-Well TWN-16 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,651.07 5,652.70 1.63 94.63 5,603.34 11/4/09 49.36 47.73 5,603.56 12/14/09 49.14 47.51 5,603.84 3/11/10 48.86 47.23 5,604.31 5/11/10 48.39 46.76 5,604.28 9/29/10 48.42 46.79 5,604.39 12/21/10 48.31 46.68 5,604.20 2/28/11 48.50 46.87 5,604.55 6/21/11 48.15 46.52 5,604.74 9/20/11 47.96 46.33 5,604.94 12/21/11 47.76 46.13 5,604.84 3/27/12 47.86 46.23 5,604.85 6/28/12 47.85 46.22 5,604.99 9/27/12 47.71 46.08 5,605.10 12/28/12 47.60 45.97 5,605.22 3/28/13 47.48 45.85 5,605.11 6/27/13 47.59 45.96 5,605.39 9/27/13 47.31 45.68 5,604.99 12/20/13 47.71 46.08 5,605.71 3/27/14 46.99 45.36 5,605.16 6/25/14 47.54 45.91 5,605.10 9/25/14 47.60 45.97 5,605.25 12/17/14 47.45 45 .82 5,605.04 3/26/15 47.66 46.03 5,604.99 6/22/15 47.71 46.08 5,605.05 9/30/15 47.65 46.02 5,604.96 12/2/15 47.74 46.11 5,605.25 3/30/16 47.45 45.82 5,605.00 6/30/16 47.70 46.07 5,605.00 9/29/16 47.70 46.07 5,605.00 12/21/16 47.70 46.07 5,605.43 3/30/17 47.27 45.64 5,605.20 6/27/17 47.50 45.87 5,605.00 9/26/17 47.70 46.07 5,605.02 11/29/17 47.68 46.05 5,605.11 3/29/18 47.59 45.96 5,605.19 6/22/18 47.51 45.88 5,604.99 9/26/18 47.71 46.08 5,605.18 12/19/18 47.52 45.89 5,605.06 3/26/19 47.64 46.01 5,604.96 6/24/19 47.74 46.11 5,604.87 8/13/19 47.83 46.20 5,605.19 11/19/19 47.51 45.88 5,605.02 2/13/20 47.68 46.05 5,605.30 5/5/20 47.40 45.77 5,604.85 9/22/20 47.85 46.22 5,604.99 12/30/20 47.71 46.08 Water Levels and Data over Time White Mesa Mill-Well TWN-16 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,651 .07 5,652.70 1.63 94.63 5,604.99 3/11/21 47.71 46.08 5,604.90 6/24/21 47.80 46.17 5,604.85 8/11 /21 47.85 46.22 5,604.93 12/28/21 47.77 46.14 5,604.94 2/10/22 47.76 46.13 5,604.70 6/28/22 48.00 46.37 5,604.73 8/15/22 47.97 46.34 5,604.86 11 /17/22 47.84 46.21 5,604.69 3/24/23 48.01 46.38 5,604.70 6/27/23 48.00 46.37 5,604.68 9/28/23 48.02 46.39 5,604.32 11/21 /23 48.38 46.75 Water Levels and Data over Time White Mesa Mill-Well TWN -18 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,643 .95 5,645.45 1.50 147 5,586.85 11/2/09 58.60 57.10 5,600.14 12/14/09 45.31 43.81 5,587.36 3/11/10 58.09 56.59 5,587.71 5/11/10 57.74 56.24 5,587.50 9/29/10 57.95 56.45 5,607.66 12/21/10 37.79 36.29 5,587.35 2/28/11 58.10 56.60 5,587.71 6/21/11 57.74 56.24 5,587.65 9/20/11 57.80 56.30 5,587.95 12/21/11 57.50 56.00 5,587.05 3/27/12 58.40 56.90 5,587.05 6/28/12 58.40 56.90 5,587.50 9/27/12 57.95 56.45 5,587.50 12/28/12 57.95 56.45 5,587.32 3/28/13 58.13 56.63 5,586.95 6/27/13 58.50 57.00 5,587.02 9/27/13 58.43 56.93 5,586.26 12/20/13 59.19 57.69 5,586.87 3/27/14 58.58 57.08 5,586.23 6/25/14 59.22 57.72 5,586.02 9/25/14 59.43 57.93 5,585.99 12/17 /14 59.46 57.96 5,585.66 3/26/15 59.79 58.29 5,585.45 6/22/15 60.00 58.50 5,585.37 9/30/15 60.08 58.58 5,585.24 12/2/15 60.21 58.71 5,585.38 3/30/16 60.07 58.57 5,584.85 6/30/16 60 .60 59.10 5,584.69 9/29/16 60.76 59.26 5,584.60 12/21/16 60.85 59.35 5,584.99 3/30/17 60.46 58.96 5,584.65 6/27/17 60.80 59.30 5,584.36 9/26/17 61.09 59.59 5,584.24 11 /29/17 61.21 59.71 5,584.25 3/29/18 61.20 59.70 5,584.23 6/22/18 61.22 59.72 5,583.92 9/26/18 61.53 60.03 5,583.85 12/18/18 61.60 60.10 5,583.72 3/26/19 61.73 60.23 5,583 .69 6/24/19 61.76 60.26 5,583.76 8/13/19 61.69 60.19 5,583.72 11/19/19 61.73 60.23 5,583.54 2/13/20 61.91 60.41 5,583.34 5/5/20 62.11 60.61 5,583.15 9/22/20 62.30 60.80 5,583.26 12/30/20 62.19 60.69 Water Levels and Data over Time White Mesa Mill-Well TWN -18 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,643.95 5,645.45 1.50 147 5,583.36 3/11/21 62.09 60.59 5,583.06 6/24/21 62.39 60.89 5,583.01 8/11/21 62.44 60.94 5,583.10 12/28/21 62.35 60.85 5,582.80 2/10/22 62.65 61.15 5,582.34 6/28/22 63.11 61 .61 5,582.42 8/15/22 63.03 61.53 5,582.49 11/17/22 62.96 61.46 5,582.32 3/24/23 63.13 61.63 5,582.35 6/27/23 63.10 61.60 5,582.25 9/28/23 63.20 61.70 5,581.90 11/21/23 63.55 62.05 Water Levels and Data over Time White Mesa Mill-Well TWN-19 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL} (L D) (MP) Riser (L) Monitoring (bJw.MP) (blw.LSD) Well 5,659.59 5 661.36 1.77 107.77 5,606.17 I 1/2/09 55.19 53.42 5,606.70 12/14/09 54.66 52.89 5,607.22 3/11/10 54.14 52.37 5,607.89 5/11/10 53.47 51.70 5,607.98 9/29/10 53.38 51.61 5,608.41 12/21/10 52.95 51.18 5,608.49 2/28/11 52.87 51.10 5,608.60 6/21/11 52.76 50.99 5,609.17 9/20/11 52.19 50.42 5,608.90 12/21/11 52.46 50.69 5,608.87 3/27/12 52.49 50.72 5,608.86 6/28/12 52.50 50.73 5,608.86 9/27/12 52.50 50.73 5,608.86 12/28/12 52.50 50.73 5,609.17 3/28/13 52.19 50.42 5,608.88 6/27/13 52.48 50.71 5,608.92 9/27/13 52.44 50.67 5,608.46 12/20/13 52.90 51.13 5,608.88 3/27/14 52.48 50.71 5,608.33 6/25/14 53 .03 51.26 5,608.11 9/25/14 53.25 51.48 5,608.36 12/17/14 53.00 51.23 5,607.96 3/26/15 53.40 51.63 5,607.98 6/22/15 53.38 51.61 5,608.06 9/30/15 53.30 51.53 5,607.88 12/2/15 53.48 51.71 5,608.41 3/30/16 52.95 51.18 5,611.39 6/30/16 49.97 48.20 5,607.90 9/29/16 53.46 51.69 5,608.07 12/21/16 53.29 51.52 5,608.44 3/30/17 52.92 51.15 5,608.07 6/27/17 53.29 51.52 5,608.06 9/26/17 53.30 51.53 5,607.91 11/29/17 53.45 51.68 5,608.00 3/28/18 53.36 51.59 5,607.71 6/21/18 53 .65 51.88 5,607.50 9/26/18 53.86 52.09 5,607.94 12/19/18 53.42 51.65 5,607.42 3/26/19 53.94 52.17 5,607.46 6/25/19 53.90 52.13 5,607.39 8/13/19 53.97 52.20 5,607.84 I 1/19/19 53.52 51.75 5,607.69 2/13/20 53.67 51.90 5,607.57 5/5/20 53.79 52.02 5,607.46 9/22/20 53.90 52.13 5,607.66 12/30/20 53.70 51.93 Water Levels and Data over Time White Mesa Mill-Well TWN-19 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,659.59 5,661.36 1.77 107.77 5,607.75 3/11/21 53.61 51.84 5,607.39 6/24/21 53.97 52.20 5,607.33 8/11/21 54.03 52.26 5,607.81 12/28/21 53.55 51.78 5,607.26 2/10/22 54.10 52.33 5,606.86 6/28/22 54.50 52.73 5,606.94 8/15/22 54.42 52.65 5,606.85 11/17/22 54.51 52.74 5,606.85 3/24/23 54.51 52.74 5,606.84 6/27/23 54.52 52.75 5,607.59 9/28/23 53.77 52.00 5,607.79 11/21/23 53.57 51.80 Water Levels and Data over Time White Mesa Mill-Well TWN-20 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,640.46 5,642.46 2.00 95.5 5,564.53 6/24/21 77.93 75.93 5,564.51 8/11/21 77.95 75.95 5,564.69 12/28/21 77.77 75.77 5,564.52 2/10/22 77.94 75.94 5,564.29 6/28/22 78.17 76.17 5,564.23 8/15/22 78.23 76.23 5,564.28 11/17/22 78.18 76.18 5,564.30 3/24/23 78.16 76.16 5,564.33 6/27/23 78.13 76.13 5,564.20 9/28/23 78.26 76.26 5,564.26 11/21/23 78.20 76.20 Water Levels and Data over Time White Mesa Mill-Well TWN-21 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,633.08 5,635.08 2.00 105.7 5,555.84 6/24/21 79.24 77.24 5,555.89 8/11/21 79.19 77.19 5,555.93 12/28/21 79.15 77.15 5,555.95 2/10/22 79.13 77.13 5,555.79 6/28/22 79.29 77.29 5,555.81 8/15/22 79.27 77.27 5,555.90 11/17/22 79.18 77.18 5,555.81 3/24/23 79.27 77.27 5,555.84 6/27/23 79.24 77.24 5,556.02 9/28/23 79.06 77.06 5,555.73 11/21/23 79.35 77.35 Water Levels and Data over Time White Mesa Mill -Well MW-30 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,613.34 5,614.50 1.16 110 5 534.92 10/24/06 79.58 78.42 5,535.09 3/16/07 79.41 78.25 5,535.46 8/27/07 79.04 77.88 5,535.06 10/15/07 79.44 78.28 5,535.78 3/15/08 78.72 77.56 5,536.26 6/15/08 78.24 77.08 5,536.35 9/15/08 78.15 76.99 5,536.68 11/15/08 . 77.82 76.66 5,535.42 3/15/09 79.08 77.92 5,537.11 6/30/09 77.39 76.23 5,536.93 9/10/09 77.57 76.41 5,537.23 12/11/09 77.27 76.11 5,537.59 3/11/10 76.91 75.75 5,537.85 5/11/10 76.65 75.49 5,538.37 9/29/10 76.13 74.97 5,537.70 12/21/10 76.8 75.64 5,537.67 2/28/11 76.83 75.67 5,538.31 6/21/11 76.19 75.03 5,538.15 9/20/11 76.35 75.19 5,538.42 12/21/11 76.08 74.92 5,538.54 3/27/12 75.96 74.8 5,538.60 6/28/12 75.9 74.74 5,538.68 9/27/12 75.82 74.66 5,538.99 12/28/12 75.51 74.35 5,539.25 3/28/13 75.25 74.09 5,539.05 6/27/13 75.45 74.29 5,539.60 9/27/13 74.90 73.74 5,539.67 12/20/13 74.83 73.67 5,539.77 3/27/14 74.73 73.57 5,539.40 6/25/14 75.10 73.94 5,539.19 9/25/14 75.31 74.15 5,539.30 12/17/14 75.20 74.04 5,539.01 3/26/15 75.49 74.33 5,538.99 6/22/15 75.51 74.35 5,539.10 9/30/15 75.40 74.24 5,538.90 12/2/15 75.60 74.44 5,539.53 3/30/16 74.97 73.81 5,539.11 6/30/16 75.39 74.23 5,539.05 9/29/16 75.45 74.29 5,539.06 12/21/16 75.44 74.28 5,539.81 3/30/17 74.69 73.53 5,539.60 6/27/17 74.90 73.74 5,539.40 9/27/17 75.10 73.94 5,539.30 1 l/30/17 75.20 74.04 5,539.55 3/29/18 74.95 73.79 5,539.63 6/22/18 74.87 73.71 5,539.40 9/26/18 75.10 73.94 5,539.59 12/17/18 74.91 73.75 5,539.42 3/26/19 75.08 73.92 5,539.70 6/24/19 74.80 73.64 5,539.45 8/13/19 75.05 73.89 5,539.53 11/19/19 74.97 73.81 5,539.57 2/13/20 74.93 73.77 Water Levels and Data over Time White Mesa Mill -Well MW-30 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (blw.LSD) Well 5,613.34 5,614.50 1.16 110 5,539.27 5/5/20 75.23 74.07 5,539.25 9/22/20 75.25 74.09 5,539.41 12/30/20 75.09 73.93 5,539.45 3/11/21 75.05 73.89 5,539.34 6/24/21 75.16 74.00 5,539.32 8/11/21 75.18 74.02 5,539.56 12/28/21 74.94 73.78 5,539.18 2/10/22 75.32 74.16 5,539.02 6/27/22 75.48 74.32 5,539.16 8/15/22 75.34 74.18 5,538.99 11/17/22 75.51 74.35 5,539.00 3/24/23 75.50 74.34 5,539.02 6/27/23 75.48 74.32 5,539.20 9/28/23 75.30 74.14 5,538.78 11/21/23 75.72 74.56 Water Levels and Data over Time White Mesa Mill -Well MW-31 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitorin~ (blw.MP) (blw.LSD) Well 5,615.26 5,616.40 1.14 130 5,544.07 10/24/06 72.33 71.19 5,544.45 3/16/07 71.95 70.81 5,536.94 8/27/07 79.46 78.32 5,544.62 10/15/07 71.78 70.64 5,545.37 3/15/08 71.03 69.89 5,544.50 6/15/08 71.90 70.76 5,545.94 9/15/08 70.46 69.32 5,546.42 11/15/08 69.98 68.84 5,546.03 3/15/09 70.37 69.23 5,546.65 6/30/09 69.75 68.61 5,546.45 9/10/09 69.95 68.81 5,546.75 12/11/09 69.65 68.51 5,547.09 3/11/10 69.31 68.17 5,547.41 5/11/10 68.99 67.85 5,547.28 9/29/10 69.12 67.98 5,547.45 12/21/10 68.95 67.81 5,547.37 2/28/11 69.03 67.89 5,547.96 6/21/11 68.44 67.3 5,547.65 9/20/11 68.75 67.61 5,548.34 12/21/11 68.06 66.92 5,548.30 3/27/12 68.10 66.96 5,548.40 6/28/12 68.00 66.86 5,548.59 9/27/12 67.81 66.67 5,548.91 12/28/12 67.49 66.35 5,549.14 3/28/13 67.26 66.12 5,548.90 6/27/13 67.50 66.36 5,549.25 9/27/13 67.15 66.01 5,549.16 12/20/13 67.24 66.10 5,548.95 3/27/14 67.45 66.31 5,548.60 6/25/14 67.80 66.66 5,548.19 9/25/14 68.21 67.07 5,548.25 12/17/14 68.15 67.01 5,548.14 3/26/15 68.26 67.12 5,547.85 6/22/15 68.55 67.41 5,548.00 9/30/15 68.40 67.26 5,547.84 12/2/15 68.56 67.42 5,548.35 3/30/16 68.05 66.91 5,548.00 6/30/16 68.40 67.26 5,547.80 9/29/16 68.60 67.46 5,547.80 12/21/16 68.60 67.46 5,548.30 3/30/17 68.10 66.96 5,548.10 6/27/17 68.30 67.16 5,547.93 9/27/17 68.47 67.33 5,547.80 11/30/17 68.60 67.46 5,547.92 3/29/18 68.48 67.34 5,547.95 6/22/18 68.45 67.31 5,547.69 9/26/18 68.71 67.57 5,547.82 12/17/18 68.58 67.44 5,547.56 3/26/19 68.84 67.70 5,547.68 6/24/19 68.72 67.58 5,547.56 8/13/19 68.84 67.70 5,547.58 11/19/19 68.82 67.68 5,547.59 2/13/20 68.81 67.67 5,547.92 5/5/20 68.48 67.34 5,547.18 9/22/20 69.22 68.08 Water Levels and Data over Time White Mesa Mill-Well MW-31 Total or Measuring Measured Total Water Land Point Depth to Depth to Total Elevation Surface Elevation Length Of Date Of Water Water Depth Of (WL) (LSD) (MP) Riser (L) Monitoring (blw.MP) (b lw.LSD) Well 5,615.26 5,616.40 1.14 130 5,547.29 12/30/20 69.11 67.97 5,547.53 3/11/21 68.87 67.73 5,547.14 6/24/21 69.26 68.12 5,547.07 8/11/21 69.33 68.19 5,547.21 12/28/21 69.19 68.05 5,546.97 2/10/22 69.43 68.29 5,546.65 6/27/22 69.75 68.61 5,546.80 8/15/22 69.60 68.46 5,546.65 11/17/22 69.75 68.61 5,546.66 3/24/23 69.74 68.6 5,546.70 6/27/23 69.70 68.56 5,546.66 9/28/23 69.74 68.6 5,546.25 11/21/23 70.15 69.01 TabG Laboratory Analytical Reports Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0 :(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD LAB0AAT0RIES Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: PIEZ-01_11142023 Matrix: Water Date Sampled: 11/14/23 13:45 Inorganic Chloride Nitrate+ Nitrite, Total, as N 72.7 6.74 Proiect Name: 4th Quarter Nitrate 2023 www.ChemtechFord.com Units mg/L mg/L Certificate of Analysis Minimum Reporting Limit 1.00 0.200 PO#: Receipt: 11/16/23 11:05@ 1.9 ·c Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday EPA300.0 EPA 353.2 CtF WO#: 23K1396 Preparation Date/Time 11/21 /23 11 /21 /23 Lab ID: 23K1396-09 Analysis Date/Time I 1/21/23 11/22/23 Flag(s) Page 11 of 20 I Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0 :(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD ~AB0RAT0RIE$ Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: PIEZ-02_11142023 Matrix: Water Date Sampled: 11/14/23 13:30 Inorganic Chloride Nitrate + Nitrite, Total, as N 14.0 0.920 Project Name: 4th Quarter Nitrate 2023 www.ChemtechFord.com Units mg/L mg/L Certificate of Analysis Minimum Reporting Limit 1.00 0.100 PO#: Receipt: 11/16/23 11:05@ 1.9 ·c Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday EPA300.0 EPA353.2 CtF WO#: 23K1396 Preparation Date/Time I 1/21/23 I 1/21/23 Lab ID: 23K1396-08 Analysis Date/Time I 1/21/23 11/22/23 Page 10 of 20 I Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0 :(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD !..ABO'1AfORIES Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: PIEZ-03A_11142023 Matrix: Water Date Sampled: 11/14/23 14:10 Inorganic Chloride Nitrate+ Nitrite, Total, as N Result 76.7 12.0 Proiect Name: 4th Quarter Nitrate 2023 www.ChemtechFord.com Units mg/L mg/L Certificate of Analysis Minimum Reporting Limit 2.00 0.500 PO#: Receipt: 11/16/23 11:05@ 1.9 ·c Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday Method EPA300.0 EPA 353.2 CtF WO#: 23K1396 Preparation Date/Time 11/21/23 I 1/21/23 Lab ID: 23K1396-10 Analysis Date/Time 11/21/23 I 1/21/23 Page 12 of 20 Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD LABORATORIES Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TWN-01_11142023 Matrix: Water Date Sampled: 11/14/23 10:39 Inorganic Chloride Nitrate+ Nitrite, Total, as N Result 37.7 3.43 Proiect Name: 4th Quarter Nitrate 2023 www.ChemtechFord.com !L!!i.!§ mg/L mg/L Certificate of Analysis Minimum Reporting Limit 1.00 0.500 PO#: Receipt: 11/16/23 11:05@ 1.9 °C Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday EPA300.0 EPA353.2 CtF WO#: 23K1396 Preparation Date/Time 11/21/23 11/21/23 Lab ID: 23K1396-03 Analysis Date/Time 11/21/23 11/22/23 Page 5 of 20 Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0 :(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD !..ABOHAYOR1ES Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TWN-02_ 11142023 Matrix: Water Date Sampled: 11/14/23 12:15 lnoq,:anic Chloride Nitrate+ Nitrite, Total, as N Result 63.0 14.6 Proiect Name: 4th Quarter Nitrate 2023 www.ChemtechFord.com Units rng/L rng/L Certificate of Analysis Minimum Reporting Limit 1.00 0.500 PO#: Receipt: 11/16/23 11:05@ 1.9 ·c Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday Method EPA300.0 EPA353.2 CtF WO#: 23K1396 Preparation Date/Time 11/21/23 11/21/23 Lab ID: 23K1396-05 Analysis Date/Time 11/21/23 11/22/23 Page 7 of 20 I Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD lAB0RArO~IES Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TWN-03_ 11152023 Matrix: Water Date Sampled: 11/15/23 8:05 Inorganic Chloride Nitrate+ Nitrite, Total, as N Result 165 31.4 roiect Name: 4th Quarter Nitrate 2023 ww. ChemtechFord. com Units mg/L mg/L Certificate of Analysis Minimum Reporting !d.!!!i! 2.00 1.00 PO#: Receipt: 11/16/23 11:05@ 1.9 °C Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday EPA300.0 EPA353.2 CtF WO#: 23K1396 Preparation Date/Time 11/21/23 11/21/23 Lab ID: 23K1396-14 Analysis Date/Time 11/21/23 11/21/23 E.!.!wfil Page 16 of 20 Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD !..ABOP.ATORIES Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TWN-04_ 11142023 Matrix: Water Date Sampled: 11/14/23 10:04 Inorganic Chloride Nitrate + Nitrite, Total, as N 21.3 2.29 Proiect Name: 4th Quarter Nitrate 2023 www.ChemtechFord.com Units mg/L mg/L Certificate of Analysis Minimum Reporting !d!!!.!! 1.00 0.100 PO#: Receipt: 11/16/23 11:05@ 1.9 ·c Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday Method EPA300.0 EPA353.2 CtF WO#: 23K1396 Preparation Date/Time 11/21/23 11/21/23 Lab ID: 23K1396-02 Analysis Date/Time 11/22/23 11/22/23 ~ Page 4 of20 Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD LAB0~Af0RIES Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TWN-07_11152023 Matrix: Water Date Sampled: 11/15/23 7:55 lnor~ank Chloride Nitrate+ Nitrite, Total, as N Result 130 15.6 roiect Name: 4th Quarter Nitrate 2023 ww. ChemtechFord.com Units mg/L mg/L Certificate of Analysis Minimum Reporting Y.m!! 2.00 0.500 PO#: Receipt: 11116/23 11 :05 @ 1.9 ·c Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday Method EPA300.0 EPA 353.2 CtF WO#: 23K1396 Preparation Date/Time 11/21/23 11/21 /23 Lab ID: 23Kl396-13 Analysis Date/Time 11/21 /23 11/21/23 !!llUl Page 15 of 20 I Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD LAB0~Al'0RIES. Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TWN-18_11142023 Matrix: Water Date Sampled: 11/14/23 8:26 lnoq,:anic Chloride Nitrate+ Nitrite, Total, as N Result 38.1 0.340 Proiect Name: 4th Quarter Nitrate 2023 www.ChemtechFord.com Units mg/L mg/L Certificate of Analysis Minimum Reporting Limit 1.00 0.100 PO#: Receipt: 11/16/23 11:05@ 1.9 °C Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday Method EPA300.0 EPA 353.2 CtF WO#: 23K1396 Preparation Date/Time 11/21 /23 11/21/23 Lab ID: 23K1396-01 Analysis Date/Time 11 /22/23 11/22/23 Page 3 of 20 Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0 :(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD tAB0RAfORIES Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TWN-18R_11142023 Matrix: Water Date Sampled: 11/14/23 7:45 lnoq~anic Chloride Nitrate + Nitrite, Total, as N < 1.00 <0.100 Proiect Name: 4th Quarter Nitrate 2023 www.ChemtechFord.com Units mg/L mg/L Certificate of Analysis Minimum Reporting Limit 1.00 0.100 PO#: Receipt: 11/16/23 11:05@ 1.9 ·c Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday Method EPA300.0 EPA353.2 CtF WO#: 23K1396 Preparation Date/Time 11 /21 /23 11 /21 /23 Lab ID: 23K1396-04 Analysis Date/Time I 1/21/23 11/22/23 ~ Page 6 of 20 Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD LAB09.AT0RIE!i Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding; UT 84511 Sample ID: TWN-20_11152023 Matrix: Water Date Sampled: 11/15/23 7:35 I nor!-\anic Chloride Nitrate+ Nitrite, Total, as N Result 34.8 0.370 Proiect Name: 4th Quarter Nitrate 2023 www.ChemtechFord.com Units mg/L mg/L Certificate of Analysis Minimum Reporting !dm.i! 1.00 0.100 PO#: Receipt: 11/16/23 11:05@ 1.9 ·c Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday Method EPA300.0 EPA353.2 CtF WO#: 23K1396 Preparation Date/Time 11/21/23 11/21/23 Lab ID: 23K1396-11 Analysis Date/Time 11/21/23 11/2 1/23 Flag(s) Page 13 of 20 Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD LAB0~AT0Rl~S Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TWN-21_ 11152023 Matrix: Water Date Sampled: 11/15/23 7:45 Inorganic Chloride Nitrate+ Nitrite, Total, as N 43.8 1.10 ::>roiect Name: 4th Quarter Nitrate 2023 ,vww_ ChemtechFord. com Units mg/L mg/L Certificate of Analysis Minimum Reporting !d!!li! 1.00 0.100 PO#: Receipt: 11/16/23 11 :05@ 1.9 ·c Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday ~ EPA300.0 EPA353.2 CtF WO#: 23K1396 Preparation Date/Time 11/21/23 11/21/23 Lab ID: 23Kl396-12 Analysis Date/Time 11/21/23 11/21/23 .E!!&W. Page 14 of 20 I Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD LABOP.ATORIES Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TW4-22_ 11292023 Matrix: Water Date Sampled: 11/29/23 10:32 Inorganic Chloride Nitrate+ Nitrite, Total, as N \ olatilc Organic Compounds Carbon Tetrachloride Chloroform Chloromethane Methylene Chloride 577 42.9 < 1.0 3460 6.7 1.3 Proiect Name: 4th Quarter Chloroform 2023 www.ChemtechFord.com Units mg/L mg/L ug/L ug/L ug/L ug/L Certificate of Analysis Minimum Reporting Limit 10.0 1.00 1.0 250 1.0 1.0 PO#: Receipt: 12/1/23 11:30@-1.40C Date Reported: 12/19/2023 Project Name: 4th Quarter Chloroform 2023 Sampled By: Tanner Holliday Method EPA 300.0 EPA353.2 EPA 8260D/5030B EPA 8260D/5030B EPA 8260D/5030B EPA 8260D/5030B CtF WO#: 23L0039 Preparation Date/Time 12/4/23 12/4/23 12/7/23 12/7/23 12/7/23 12/7/23 Lab ID: 23L0039-10 Analysis Date/Time 12/6/23 12/4/23 12/7/23 12/7/23 12/7/23 12/7/23 Flag(s) Page 13 of 32 Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD LAB0RAT0Rl~S. Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TW4-24_11292023 Matrix: Water Date Sampled: 11/29/23 10:25 I nor~anic Chloride Nitrate+ Nitrite, Total, as N \'olalilc Organic Compounds Carbon Tetrachloride Chloroform Chloromethane Methylene Chloride Result 757 16.9 < 1.0 168 1.7 I.I Proiect Name: 4th Quarter Chloroform 2023 www.ChemtechFord.com Units mg/L mg/L ug/L ug/L ug/L ug/L Certificate of Analysis Minimum Reporting Limit 20.0 0.500 1.0 5.0 1.0 1.0 PO#: Receipt: 12/1/23 11:30@ -1.4 °C Date Reported: 12/19/2023 Project Name: 4th Quarter Chloroform 2023 Sampled By: Tanner Holliday Method EPA300.0 EPA353.2 EPA 8260D/5030B EPA 8260D/5030B EPA 8260D/5030B EPA 8260D/5030B CtF WO#: 23L0039 Preparation Date/Time 12/5/23 12/4/23 12/6/23 12/6/23 12/6/23 12/6/23 Lab ID: 23L0039-03 Analysis Date/Time 12/6/23 12/4/23 12/6/23 12/6/23 12/6/23 12/6/23 Flag(s) J-High-C Page 6 of 32 Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD t.A.B0RATORIE$ Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TW4-25_ 11292023 Matrix: Water Date Sampled: 11/29/23 10:15 Inorganic Chloride Nitrate+ Nitrite, Total, as N \'olritilr Organic Compouncls Carbon Tetrachloride Chloroform Chloromethane Methylene Chloride Result 70.4 0.480 < 1.0 < 1.0 < 1.0 < 1.0 Project Name: 4th Quarter Chloroform 2023 www.ChemtechFord.com Units mg/L mg/L ug/L ug/L ug/L ug/L Certificate of Analysis Minimum Reporting Limit 1.00 0.100 1.0 1.0 1.0 1.0 PO#: Receipt: 12/1/23 11:30@-1.4°C Date Reported: 12/19/2023 Project Name: 4th Quarter Chloroform 2023 Sampled By: Tanner Holliday EPA300.0 EPA353.2 EPA 8260D/50308 EPA 8260D/50308 EPA 8260D/50308 EPA 8260D/50308 CtF WO#: 23L0039 Preparation Date/Time 12/5/23 12/4/23 12/6/23 12/6/23 12/6/23 12/6/23 Lab ID: 23L0039-01 Analysis Date/Time 12/6/23 12/4/23 12/6/23 12/6/23 12/6/23 12/6/23 Page 4 of 32 Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD LABO'1ATORIES Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TWN-60_11142023 Matrix: Water Date Sampled: 11/14/23 13:15 lnuq,:anic Chloride Nitrate+ Nitrite, Total, as N Result < 1.00 <0.100 Proiect Name: 4th Quarter Nitrate 2023 www.ChemtechFord.com Units rng/L mg/L Certificate of Analysis Minimum Reporting !J.mi! 1.00 0.100 PO#: Receipt: 11/16/23 11:05@ 1.9 °C Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday Method EPA300.0 EPA353.2 CtF WO#: 23K1396 Preparation Date/Time 11/21/23 11 /21/23 Lab ID: 23K1396-07 Analysis Date/Time 11/21 /23 11/22/23 Page 9 of 20 I Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD LAB011AT0RIE5 Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TW4-60_11292023 Matrix: Water Date Sampled: 11/29/23 14:00 Inorganic Chloride Nitrate + Nitrite, Total, as N \'olatile Organic Compounds Carbon Tetrachloride Chloroform Chloromethane Methylene Chloride < 1.00 <0.100 < 1.0 < 1.0 < 1.0 < 1.0 Proiect Name: 4th Quarter Chloroform 2023 www.ChemtechFord.com Units mg/L mg/L ug/L ug/L ug/L ug/L Certificate of Analysis Minimum Reporting Limit 1.00 0.100 1.0 1.0 1.0 1.0 PO#: Receipt: 12/1/23 11:30@ -1.4 °C Date Reported: 12/19/2023 Project Name: 4th Quarter Chloroform 2023 Sampled By: Tanner Holliday Method EPA300.0 EPA353.2 EPA 8260D/5030B EPA 8260D/5030B EPA 8260D/5030B EPA 8260D/5030B CtF WO#: 23L0039 Preparation Date/Time 12/4/23 12/4/23 12/11/23 12/11/23 12/11/23 12/11/23 Lab ID: 23L0039-15 Analysis Date/Time 12/6/23 12/4/23 12/11/23 12/11/23 12/11/23 12/11/23 ~ Page 18 of 32 I Chemtech-Ford Laboratories 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Serving the lntermountain West Since 1953 CHEMTECH-FORD lA80P.A'l'0Rll:S Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Sample ID: TWN-65_11142023 Matrix: Water Date Sampled: 11/14/23 10:04 lnor:,:anic Chloride Nitrate+ Nitrite, Total, as N Result 21.6 2.15 Project Name: 4th Quarter Nitrate 2023 www.ChemtechFord.com Units mg/L mg/L Certificate of Analysis Minimum Reporting Limit 1.00 0.100 PO#: Receipt: 11/16/23 11:05@1.9°C Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 Sampled By: Tanner Holliday Method EPA300.0 EPA 353.2 CtF WO#: 23K1396 Preparation Date/Time 11/21 /23 11/21/23 Lab ID: 23K1396-06 Analysis Date/Time 11/21 /23 11/22/23 ~ Page 8 of 20 9632 South 500 West CHEMTECH-FORD L,\BQP.,\TO~lcS 12/1/2023 Work Order: 23Kl396 Project: 4th Quarter Nitrate 2023 Energy Fuels Resources, Inc. Attn: Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Client Service Contact: 801.262.7299 The analyses presented on this report were performed in accordance with the National Environmental Laboratory Accreditation Program (NELAP) unless noted in the comments, flags, or case narrative. If the report is to be used for regulatory compliance, it should be presented in its entirety, and not be altered. Approved By: Melissa Connolly, Project Manager Sandy, Utah 84070 801.262.7299 Main 866.792.0093 Fax Serving the lntermountain West since 1953 www.ChemtechFord.com Page 1 of 20 CHEMTECH-FORD LABQRAfORIE-S Chemtech-Ford Laboratories Serving the lntermountain West Since 1953 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Energy Fuels Resources, Inc. Project: 4th Quarter Nitrate 2023 Project Manager: Tanner Holliday Laboratory ID 23K1396-01 23K1396-02 23K1396-03 23K1396-04 23K1396-05 23K1396-06 23K1396-07 23K1396-08 23K1396-09 23K1396-10 23K1396-11 23K1396-12 23K1396-13 23K1396-14 Sample Name TWN-18_11142023 TWN-04_11142023 TWN-01 11142023 TWN-18R_ 11142023 TWN-02_11142023 TWN-65 _ 11142023 TWN-60 11142023 PIEZ-02_ 11142023 PIEZ-01_11142023 PIEZ-03A_ 11142023 TWN-20_ 11152023 TWN-21_11152023 TWN-07_11152023 TWN-03_11152023 Sample Preparation ' Work Order Report Narrative All samples were prepared within method specified holding times. No preparation issues were noted. Method Blanks All blank values were within method acceptance criteria. No blank values exceeded the minimum reporting limit for any analysis in this work order. Laboratory Control Samples All laboratory control samples were within method acceptance criteria, except as noted by qualifying flags. Method Spikes All method spike recoveries were within method acceptance criteria, except as noted by qualifying flags. Method Spike Duplicates All method spike duplicates were within method acceptance criteria, except as noted by qualifying flags. Corrective Actions There are no corrective actions associated with this work order. Page 2 of 20 I CHEMTECH-FORD LAB0RAfORIES Chemtech-Ford Laboratories Serving the lntermountain West Since 1953 9632 South 500 West Sandy, UT 84070 0 :(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Certificate of Analysis Energy Fuels Resources, Inc. Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Report Footnotes Abbreviations ND= Not detected at the corresponding Minimum Reporting Limit (MRL). PO#: Receipt: 11/16/23 11:05@ 1.9 °C Date Reported: 12/1/2023 Project Name: 4th Quarter Nitrate 2023 I mg/L = one milligram per liter or I mg/kg= one milligram per kilogram = I part per million. I ug/L = one microgram per liter or I ug/kg = one microgram per kilogram= I part per billion. I ng/L = one nanogram per liter or I ng/kg = one nanogram per kilogram = I part per trillion. Proiect Name: 4th Quarter Nitrate 2023 www.ChemtechFord.com CtF WO#: 23K1396 Page 17 of 20 0 0 American West Analytical Laboratories 463 W. 3600 S. Salt Lake City, UT 84115 Phone# (801) 263-8686 Toll Free# (888) 263-8686 L~ Fax# (801) 263-8687 Email awal@awal~abs.com www.awal-labs.com Client: Energy Fuels Reaources, Inc. Address: 6425 S. Hwy. 191 Blanding, UT 84511 Conlact Tanner Holliday Phone#: (435) 678-2221 Cell#: Email: tboWday@-enerlJ'fuel■.com; KWolnol"~•mori,:fuo.S..cootij Project Name: 4th Quarter Nitrate 2023 Project#: PO#: Sampler Name: Tanner Holliday 23\Lf39G Samele ID: Date Samcled l'Wll'-18_11142023 11/14/2023 l'Wll'-04_11142023 11/14/2023 l'Wll'-01_11142023 11/14/2023 TW11'-18R_11142023 11/14/2023 l'Wll'-02_11142023 11/14/2023 TWl'i-65_11142023 11/14/2023 TWl'i-60_11142023 11/14/2023 PIEZ-02_11142023 11/14/2023 PIEZ-01_11142023 11/14/2023 ,01 > PIEZ-03A_11142023 11/14/2023 I l'Wll'-20_11152023 11/15/2023 12 ! l'Wll'-21_11152023 11/15/2023 13 I l'Wll'-07_11152023 11/15/2023 u I l'Wll'-03_11152023 11/15/2023 Relinquished by: \ / / // / Doto Slanature '-• • -~ • -Tl --'\/ 11/15/2021 I ITi:tt'Hli: Prln\Name, Ton.t10J Hotlldav '""' Rollnquishod by: Date: I~,.,,.,Uf8 Tlme: Print Name: Rollnqulshed by: Date: Sklnsture tnme: Print Name! Rellnquished by: Dale: Slanature Tlma: PrfntNAme Time Samcled 826 1004 1039 745 1215 1004 1315 1330 1345 1410 735 745 755 805 ~=ui:•y: _.. Prln!Neme: ROOl>lvOd by: Sian.alun, Print Nam•· Rocol•od by: Sktnt1h•o P'1ntNftl'fflt: Rooelvod by- Slnfwuro -- I.;\.\') I I-V/ ~ I I V., CHAIN OF CUSTODY All enelysls will be conducted u&lng NELAP accredited melhods end ell date will be repor1ed using AWAL's stenderd enalY1e Usls and repartlng limits (POL) unless specifically reqU851ed otherwise on this Chain of CUBlody end/or attached documentation, AWAL lab Sample Set# Page 1 of I QC Level: I Tum Around Time: Unless other arrangements have been made, I"'" Oa<o, signed reports wlll be emailed by 5:00 pm on 3 Standard the day lhe-J are due )c Include EDD: Laboratory Use Only LOCUS UPLOAD EXCEL Sanples Were: Field Filtered For. ~IWWl dolv11111d Z Ambionl ~hill«I For Compttance With: 3 Tempendun, , t{ •c □ NELAP □ RCRA □ CWA ' Recetvad Broken/1..aeklng 0 SOWA , (lmprope,1y Sealed) □ ELAP/A2LA ~ N c' D NLLAP "" c:i □ Non-Compliance 5 pe,ty P,-vod &i 0 □ Other: N "l od al bench ~ !2. ... .. X 0 N C E s '§ .. c::, ::ii c::, Known Hazards e odWlttlln Is II!; Lt) .. ti :!t. HoldlJ.iTlm• u ii & 0 E 0 t3 y N .. Samole Comments \ .. (/) II!; 2 w X X 2 w X X ..,_,.T-Wao; 2 w X X t Pmsent on ...Cor Package y NA 2 w X X 2 Unbroken on uto, Podtog<t 2 w X X y N NA 2 w X X 3 Preaent on sam y N NA 2 w X X 4 Unbroken on SAl'l'I e 2 w X X y N NA 2 w X X =--8-A• 2 w X X ~-COC ROQ)ld? y N 2 w X X 2 w X X 2 w X X 2 w X X ?2 HA bat•: ,,..-, It ,,_ r?~ Special Instructions: Tlmo /( ri< Qo,o- AP (Jl.f 3 t,) t jijO Samele Receipt Conditions: (O(Correct Containers ( ) Headspace Present (VOC) t(l. Custody Seals Present /)!:) COC Included ( ) Temperature Blank ~ Conla1nen: lnto1(t \Q COC Complete t-,-(Received w1'1t in Hold ~ COC and Labels Maleh fil_sufficient Sample Volume Checked by: w eceived on Ice . .. Page 18 of 20 I Analyte QC Sample ID : BXK1035-BLK1 Date Prepared: 11/21 /2023 Chloride QC Sample ID: BXK1044-BLK1 Date Prepared: 11/21/2023 Chloride QC Sample ID: BXK1035-BS1 Date Prepared: 11/21/2023 Chloride QC Sample ID: BXK1044-BS1 Date Prepared: 11/21/2023 Chloride QC Sample ID: BXK1035-MS1 Date Prepared: I 1/21/2023 Chloride QC Sample ID: BXK1035-MS2 Date Prepared: 11/21/2023 Chloride QC Sample ID: BXK1044-MS1 Date Prepared: 11/21/2023 Chloride QC Sample ID: BXK1044-MS2 Date Prepared: 11/21/2023 Chloride QC Sample ID: BXK1035-MSD1 Date Prepared: 11/21/2023 Chloride QC Sample ID: BXK1035-MSD2 Date Prepared: 11/21/2023 Chloride QC Sample ID: BXK1044-MSDI Date Prepared: 11 /21/2023 Chloride QC Sample ID: BXK1044-MSD2 Date Prepared: 11/21/2023 Chloride CtF WO#: 23K1396 www.ChemtechFord.com QC Report for Work Order (WO) -23K1396 % Rec RPD Limits RPD Max Result Source Cone Spk Value MRL DF Blank -EPA 300.0 Batch: BXK1035 Date Analyzed: 11/21/2023 Units: mg/L ND 1.00 1.00 Batch: BXKl 044 Date Analyzed: 11/22/2023 Units: mg/L ND 1.00 1.00 LCS -EPA 300.0 Batch: BXK1035 Date Analyzed: 11/21/2023 Units: mg/L 104 90 -110 51 .8 50.0 1.00 1.00 Batch: BXK1044 Date Analyzed: 11/22/2023 Units: mg/L 100 90 -110 50.1 50.0 1.00 1.00 Matrix Spike -EPA 300.0 Batch: BXKl 035 QC Source Sample: 23Kl396-03 Date Analyzed: ll /21/2023 Units: mg/L 102 BO -120 49.0 37.7 11 .1 1.11 1.00 Batch: BXK1035 QC Source Sample: 23Kl396-04 Date Analyzed: ll /21/2023 Units: mg/L 96.9 BO -120 10.8 ND 11.1 1.11 1.00 Batch: BXK1044 QC Source Sample: 23Kl396-0l Date Analyzed: 11/22/2023 Units: mg/L 102 BO -120 49.4 38.1 11.1 1.11 1.00 Batch: BXK1044 QC Source Sample: XXXXXXX-XX Date Analyzed: 11/22/2023 Units: mg/L 92.6 80 -120 525 62.0 500 55.0 1.00 Matrix Spike Dup -EPA 300.0 Batch: BXK1035 QC Source Sample: 23Kl396-03 Date Analyzed: 11/21/2023 Units: mg/L 104 0.493 80 -120 20 49.3 37.7 11.1 1.11 1.00 Batch: BXK1035 QC Source Sample: 23Kl396-04 Date Analyzed: 11/21/2023 Units: mg/L 104 6.99 80 -120 20 11 .5 ND 11.1 1.11 1.00 Batch: BXK1044 QC Source Sample: 23Kl396-0l Date Analyzed: 11/22/2023 Units: mg/L 102 0.0295 80 -120 20 49.4 38.1 11.1 1.11 1.00 Batch: BXKl 044 QC Source Sample: XXXXXXX-XX Date Analyzed: 11/22/2023 Units: mg/L 92.8 0.166 80 -120 20 526 62.0 500 55.0 1.00 Page 19 of 20 QC Report for Work Order (WO) -23K1396 Analyte % Rec RPO Limits RPD Max Result Source Cone Blank -EPA 353.2 QC Sample ID : BXK1030-BLK1 Batch: BXKl 030 Date Prepared: 11/21/2023 Date Analyzed: 11/21/2023 Units: mg/L Nitrate + Nitrite, Total, as N ND LCS -EPA 353.2 QC Sample ID: BXK1030-BS1 Batch: BXK1030 Date Prepared: 11/21/2023 Date Analyzed: 11/21/2023 Units: mg/L Nitrate + Nitrite, Total, as N 104 90 -110 2.07 Matrix Spike -EPA 353.2 QC Sample ID: BXKl 030-MS 1 Batch: BXKI030 QC Source Sample: XXXXXXX-XX Date Prepared: 11/21/2023 Date Analyzed: l l /21/2023 Units: mg/L Nitrate + Nitrite, Total, as N 101 90-110 1.23 0.220 QC Sample ID: BXK1030-MS2 Batch: BXK1030 QC Source Sample: 23K1396-01 Date Prepared: 11/21/2023 Date Analyzed: 11/22/2023 Units: mg/L Nitrate + Nitrite, Total, as N 114 90 -110 1.48 0.340 QM-010 -The MS recovery was outside acceptance limits but passed Duplicate Spike acceptance limits. The batch was accepted based on the acceptability of the MSD as the batch Spike. QC Sample ID: BXK1030-MSDI Date Prepared: 11/21 /2023 Nitrate + Nitrite, Total, as N QC Sample ID: BXK.1030-MSD2 Date Prepared: 11/21/2023 Nitrate+ Nitrite, Total, as N CtF WO#: 23K1396 www.ChemtechFord.com Matrix Spike Dup -EPA 353.2 Batch: BXKl 030 QC Source Sample: XXXXXXX-XX Date Analyzed: 11/21 /2023 Units: mg/L 98.0 2.47 90 -110 20 1.20 0.220 Batch: BXK.1030 QC Source Sample: 23Kl396-01 Date Analyzed: 11/22/2023 Units: mg/L 110 2.74 90-110 20 1.44 0.340 SpkValue MRL DF 0.100 1.00 2.00 0.100 1.00 1.00 0.100 1.00 1.00 0.100 1.00 1.00 0.100 1.00 1.00 0.100 1.00 Page 20 of 20 I 9632 South 500 West CHEMTECH·FORD L"'BOP.,\TO~lcS 12/19/2023 Work Order: 23L0039 Project: 4th Quarter Chloroform 2023 Energy Fuels Resources, Inc. Attn: Tanner Holliday 6425 South Highway 191 Blanding, UT 84511 Client Service Contact: 801.262.7299 The analyses presented on this report were performed in accordance with the National Environmental Laboratory Accreditation Program (NELAP) unless noted in the comments, flags, or case narrative. If the report is to be used for regulatory compliance, it should be presented in its entirety, and not be altered. Approved By: Melissa Connolly, Project Manager Sandy, Utah 84070 801.262. 7299 Main 866.792.0093 Fax Serving the lntermountain West since 1953 www.ChemtechFord.com Page 1 of 32 Chemtech-Ford Laboratories Serving the lntermountain West Since 1953 CHEMTECH-FORD LABORATORIES 9632 South 500 West Sandy, UT 84070 0:(801) 262-7299 F: (866) 792-0093 www.ChemtechFord.com Page 2 of 32 Analyte QC Sample ID : BXLOlOl-BLKl Date Prepared: 12/04/2023 Chloride QC Sample ID: BXL0151-BLK1 Date Prepared: 12/05/2023 Chloride QC Sample ID: BXL0229-BLK1 Date Prepared: 12/06/2023 Chloride QC Sample ID: BXL0680-BLK1 Date Prepared: 12/14/2023 Chloride QC Sample ID: BXLOlOl-BSl Date Prepared: 12/04/2023 Chloride QC Sample ID: BXL0151-BS1 Date Prepared: 12/05/2023 Chloride QC Sample ID: BXL0229-BS1 Date Prepared: 12/06/2023 Chloride QC Sample ID: BXL0680-BS1 Date Prepared: 12/14/2023 Chloride QC Sample ID: BXLOlOl-MSl Date Prepared: 12/04/2023 Chloride QC Sample ID: BXL0101-MS2 Date Prepared: 12/04/2023 Chloride QC Sample ID: BXL0151-MS1 Date Prepared: 12/05 /2023 Chloride QC Sample ID: BXL0151-MS2 Date Prepared: 12/05/2023 Chloride QC Sample ID: BXL0229-MS1 Date Prepared: 12/06/2023 Chloride QC Sample ID: BXL0229-MS2 Date Prepared: 12/06/2023 Chloride CtF WO#: 23L0039 www.ChemtechFord.com QC Report for Work Order (WO) -23L0039 % Rec RPO Limits RPD Max Result Source Cone Blank -EPA 300.0 Batch: BXLO 101 Date Analyzed: 12/05/2023 Units: mg/L ND Batch: BXLO 151 Date Analyzed: 12/06/2023 Units: mg/L ND Batch: BXL0229 Date Analyzed: 12/07/2023 Units: mg/L ND Batch: BXL0680 Date Analyzed: 12/15/2023 Units: mg/L ND LCS -EPA 300.0 Batch: BXLOlOl Date Analyzed: 12/04/2023 Units: mg/L 98.2 90 -110 49.1 Batch: BXLO 151 Date Analyzed: 12/06/2023 Units: mg/L 98.7 90 -110 49.3 Batch: BXL0229 Date Analyzed: l 2/07/2023 Units: mg/L 101 90 -110 50.5 Batch: BXL0680 Date Analyzed: 12/15/2023 Units: mg/L 102 90 -110 50.8 Matrix Spike -EPA 300.0 Batch: BXLOlOl QC Source Sample: XXXXXXX-XX Date Analyzed: 12/05/2023 Units: mg/L 92.0 80 -120 10.8 0.57 Batch: BXLO 101 QC Source Sample: XXXXXXX-XX Date Analyzed: 12/05/2023 Units: mg/L 91 .2 80 -120 14.9 4.76 Batch: BXLO 151 QC Source Sample: 23L0039-0l Date Analyzed: 12/06/2023 Units: mg/L 83.5 80 -120 79.7 70.4 Batch: BXLO 151 QC Source Sample: XXXXXXX-XX Date Analyzed: 12/05/2023 Units: mg/L 89.9 80 -120 112 22.5 Batch: BXL0229 QC Source Sample: XXXXXXX-XX Date Analyzed: l 2/07/2023 Units: mg/L 91 .9 80 -120 106 14.2 Batch: BXL0229 QC Source Sample: XXXXXXX-XX Date Analyzed: 12/07/2023 Units: mg/L 95.3 80 -120 95.3 ND Spk Value MRL DF 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 50.0 1.00 1.00 50.0 1.00 1.00 50.0 1.00 1.00 50.0 1.00 1.00 11.1 1.11 1.00 11.1 1.11 1.00 11 .1 1.11 1.00 100 11 .0 1.00 100 11 .0 1.00 100 11.0 1.00 Page 23 of 32 Analyte QC Sample ID: BXL0680-MS1 Date Prepared: 12/14/2023 Chloride QC Sample ID: BXL0680-MS2 Date Prepared: 12/14/2023 Chloride QC Sample ID: BXL0101-MSD1 Date Prepared: 12/04/2023 Chloride QC Sample ID: BXL0101-MSD2 Date Prepared: 12/04/2023 Chloride QC Sample ID: BXL0151-MSD1 Date Prepared: 12/05/2023 Chloride QC Sample ID: BXL0151-MSD2 Date Prepared: 12/05/2023 Chloride QC Sample ID: BXL0229-MSD1 Date Prepared: 12/06/2023 Chloride QC Sample ID: BXL0229-MSD2 Date Prepared: 12/06/2023 Chloride QC Sample ID: BXL0680-MSD1 Date Prepared: 12/14/2023 Chloride QC Sample ID: BXL0680-MSD2 Date Prepared: 12/14/2023 Chloride CtF WO#: 23L0039 www.ChemtechFord.com QC Report for Work Order (WO) -23L0039 % Rec RPD Limits RPD Max Result Source Cone Spk Value MRL DF Matrix Spike -EPA 300.0 (cont.) Batch: BXL0680 QC Source Sample: :XXXXXXX-XX Date Analyzed: 12/15/2023 Units: mg/L 97.3 80 -120 105 7.66 100 11.0 1.00 Batch: BXL0680 QC Source Sample: XXXXXXX-XX Date Analyzed: 12/15/2023 Units: mg/L 92.9 80 -120 102 9.12 100 11 .0 1.00 Matrix Spike Dup -EPA 300.0 Batch: BXLOIOl QC Source Sample: XXXXXXX-XX Date Analyzed: 12/05/2023 Units: mg/L 93.9 1.98 80-120 20 11.0 0.57 11 .1 1.11 1.00 Batch: BXL0101 QC Source Sample: XXXXXXX-XX Date Analyzed: 12/05/2023 Units: mg/L 94.8 2.64 80 -120 20 15.3 4.76 11.1 1.11 1.00 Batch: BXLO 151 QC Source Sample: 23L0039-0l Date Analyzed: 12/06/2023 Units: mg/L 86.3 0.391 80 -120 20 80.0 70.4 11.1 1.11 1.00 Batch: BXL0151 QC Source Sample: XXXXXXX-XX Date Analyzed: 12/05/2023 Units: mg/L 90.4 0.420 80 -120 20 113 22.5 100 11.0 1.00 Batch: BXL0229 QC Source Sample: XXXXXXX-XX Date Analyzed: 12/07/2023 Units: mg/L 93.8 1.74 80-120 20 108 14.2 100 11.0 1.00 Batch: BXL0229 QC Source Sample: :XXXXXXX-XX Date Analyzed: 12/07/2023 Units: mg/L 97.5 2.21 80 -120 20 97.5 ND 100 11.0 1.00 Batch: BXL0680 QC Source Sample: :XXXXXXX-XX Date Analyzed: 12/15/2023 Units: mg/L 96.0 1.25 80 -120 20 104 7.66 100 11.0 1.00 Batch: BXL0680 QC Source Sample: XXXXXXX-XX Date Analyzed: 12/15/2023 Units: mg/L 93.0 0.164 80 -120 20 102 9.12 100 11.0 1.00 Page 24 of 32 Analyte QC Sample ID: BXL0088-BLK1 Date Prepared: 12/04/2023 Nitrate + Nitrite, Total, as N QC Sample ID: BXL0088-BS1 Date Prepared: 12/04/2023· Nitrate + Nitrite, Total, as N QC Sample ID : BXL0088-MSI Date Prepared: 12/04/2023 Nitrate + Nitrite, Total, as N QC Sample ID: BXL0088-MS2 Date Prepared: 12/04/2023 Nitrate + Nitrite, Total, as N QC Sample ID: BXL0088-MSDI Date Prepared: 12/04/2023 Nitrate + Nitrite, Total, as N QC Sample ID: BXL0088-MSD2 Date Prepared: 12/04/2023 Nitrate + Nitrite, Total, as N CtF WO#: 23L0039 www.ChemtechFord.com QC Report for Work Order (WO) -23L0039 %Rec RPD Limits RPD Max Result Source Cone Blank -EPA 353.2 Batch: BXL0088 Date Analyzed: 12/04/2023 Units: mg/L ND LCS -EPA 353.2 Batch: BXL0088 Date Analyzed: 12/04/2023 Units: mg/L 104 90 -110 2.08 Matrix Spike -EPA 353.2 Batch: BXL0088 QC Source Sample: 23L0039-0I Date Analyzed: 12/04/2023 Units: mg/L 92.0 90 -110 1.40 0.480 Batch: BXL0088 QC Source Sample: XXXXXXX-XX Date Analyzed: 12/04/2023 Units: mg/L 95.0 90 -110 1.35 0.400 Matrix Spike Dup -EPA 353.2 Batch: BXL0088 QC Source Sample: 23L0039-0I Date Analyzed: 12/04/2023 Units: mg/L 93.0 0.712 90 -110 20 1.41 0.480 Batch: BXL0088 QC Source Sample: XXXXXXX-XX Date Analyzed: 12/04/2023 Units: mg/L 94.0 0.743 90 -110 20 1.34 0.400 SpkValue MRL DF 0.100 1.00 2.00 0.100 1.00 1.00 0.100 1.00 1.00 0.100 1.00 1.00 0.100 1.00 1.00 0.100 1.00 Page 25 of 32 TabH Quality Assurance and Data Validation Tables H-1: Field QNQC Evaluation 1x Casing 2x Casing Location Volume Volume Pumped Volume Volume Check Conductivity PIEZ-01 okay 2489 PIEZ-02 okay 908.0 PIEZ-03A okay 1028 TWN-01 22.78 55.00 45.56 okay 926.0 934.1 TWN-,Q2 NA Gontinu0u-sly Pumped well -1931 TWl\l;03, 1M11 ·i;t.6_6 61l.2,B Pt.AiTfped 0r:y 23717 '238,0 TWN-04 40.49 99.00 80.98 okay 1068 1065 l'l,All\l,07 f 8.02 19~25 S6·:0.J l?U.mJ!led Bey 1~4 '1928 TWN-18 54.60 121.00 109.2 okay 2932 2930 TWN-i2.0' ~;£.92 14'f66' Z5:B4 f?titn pea IDr;y 2849 2860 lWN:21 1U9 22.~PO 3&38 Pumped t)'ry 37:35 ~n-s " --•"• pumpeo samplea, NM = Not Measured. The QAP does not require the measurement of redox potential or turbidity in wells that were purged to dryness. RPD = Relative Percent Difference RPD pH RPD Temperature RPD Redox RPD NC 7.27 NC 15.12 NC 387 NC NC 7.40 NC 15.51 NC 399 NC NC 7.43 NC 14.97 NC 354 NC 0.87 7.33 7.37 0.54 15.31 15.31 0.00 509 I 503 1.19 NG 7.11 NC ,_ 15.21 NC 393 NC 0~t 3 v-.. 3ft 1".~1 @.11 13.60 13,65 ~._3i7 NM ISi€. 0.28 7.04 7.08 0.57 14.78 14.80 0.14 505 I 499 1.20 10.?1 U'3 7.5? _o, 13 1~.00 111:.0~ 0.\43 ~M Ne· 0.07 6.85 6.88 0.44 14.55 14.54 0.07 335 I 332 0.90 '0'.69'• 7.30 7.28 0.27 15.68" 15.60 '0.51 NM N€' Q.11 i7'.3~ 7!.~,3 ,Q,82 14,0?' 1•U3 ,6)78 l)lM NC The QAP states that turbidity should be less than 5 Nephelometric Turbidity Units ("NTU") prior to sampling unless the well is characterized by water that has a higher turbidity. The QAP does not require that turbidity measurements be less than 5 NTU prior to sampling. As such, the noted observations regarding turbidity measurements less than 5 NTU are included for information purposes only. Turbidity RPD Dissolved Oxygen RPD 10.6 NC 59.3 NC 0 NC 27.1 NC 6.2 NC 89.0 NC 1.0 I 1.1 9.52 53.0 I 54.1 2.05 0 NC 10&.0 N€ NM N..0"' NM 1\16 0 I 0 0.00 89.0 I 87.0 227 NM N"e NM' NC 0 I 0 0.00 1.1 I 1.1 0.00 NM l'!JC NM NC!: NM NG NM Nte -0 mi 1me va uat1on H 2 H Id. r E I Allowed Hold Time Hold Time Hold Time Location ID Parameter Name Sample Date Analysis Date (Davs) (Days) Check PIEZ-01 Chloride 11/14/2023 11/21/2023 7 28 OK PIEZ-01 Nitrate+ Nitrite as N 11/14/2023 11/22/2023 8 28 OK PIEZ-02 Chloride 11/14/2023 11/21/2023 7 28 OK PIEZ-02 Nitrate+ Nitrite as N 11 /14/2023 11/22/2023 8 28 OK PIEZ-03A Chloride 11/14/2023 11/21/2023 7 28 OK PIEZ-03A Nitrate + Nitrite as N 11/14/2023 11/21/2023 7 28 OK TWN-01 Chloride 11/14/2023 11/21/2023 7 28 OK TWN-01 Nitrate + Nitrite as N 11/14/2023 11/22/2023 8 28 OK TWN-02 Chloride 11/14/2023 11/21/2023 7 28 OK TWN-02 Nitrate + Nitrite as N 11/14/2023 11/22/2023 8 28 OK TWN-03 Chloride 11/15/2023 11/21/2023 6 28 OK TWN-03 Nitrate+ Nitrite as N 11 /15/2023 11/21/2023 6 28 OK TWN-04 Chloride 11 /14/2023 11/22/2023 8 28 OK TWN-04 Nitrate+ Nitrite as N 11 /14/2023 11/22/2023 8 28 OK TWN-07 Chloride 11/15/2023 11/21/2023 6 28 OK TWN-07 Nitrate+ Nitrite as N 11 /15/2023 11/21/2023 6 28 OK TWN-18 Chloride 11/14/2023 11/22/2023 8 28 OK TWN-18 Nitrate+ Nitrite as N 11 /14/2023 11/22/2023 8 28 OK TWN-18R Chloride 11/14/2023 11/21/2023 7 28 OK TWN-18R Nitrate+ Nitrite as N 11/14/2023 11/22/2023 8 28 OK TWN-20 Chloride 11/15/2023 11/21/2023 6 28 OK TWN-20 Nitrate+ Nitrite as N 11/15/2023 11/21/2023 6 28 OK TWN-21 Chloride 11/15/2023 11/21/2023 6 28 OK TWN-21 Nitrate+ Nitrite as N 11/15/2023 11/21/2023 6 28 OK TWN-60 Chloride 11/14/2023 11/21/2023 7 28 OK TWN-60 Nitrate+ Nitrite as N 11/14/2023 11/22/2023 8 28 OK TWN-65 Chloride 11/14/2023 11/21/2023 7 28 OK TWN-65 Nitrate+ Nitrite as N 11/14/2023 11/22/2023 8 28 OK TW4-22 Chloride 11/29/2023 12/06/2023 7 28 OK TW4-22 Nitrate+ Nitrite as N 11/29/2023 12/04/2023 5 28 OK TW4-24 Chloride 11/29/2023 12/06/2023 7 28 OK TW4-24 Nitrate+ Nitrite as N 11/29/2023 12/04/2023 5 28 OK TW4-25 Chloride 11/29/2023 12/06/2023 7 28 OK TW4-25 Nitrate+ Nitrite as N 11/29/2023 12/04/2023 5 28 OK TW4-60 Chloride 11/29/2023 12/06/2023 7 28 OK TW4-60 Nitrate + Nitrite as N 11/29/2023 12/04/2023 5 28 OK H-3: Analytical Method Check .Parameter Method Method Used by Lab Nitrate E353.1 or E353.2 E353.2 A4500-Cl B or A4500-Cl E Chloride or E300.0 E300.0 Both Nitrate and Chloride were analyzed with the correct analytical method. H-4 Reportin~ Limit Check Required Lab Reporting Dilution Reporting RL Location Analyte Limit Units Qualifier Factor Limit Check PIEZ-01 Chloride 1 mg/L 1 1 OK PIEZ-01 Nitrate+ Nitrite as N 0.2 mg/L 2 0.1 OK PIEZ-02 Chloride 1 mg/L 1 1 OK PIEZ-02 Nitrate+ Nitrite as N 0.1 mg/L 1 0.1 OK PIEZ-03A Chloride 1 mg/L 1 1 OK PIEZ-03A Nitrate+ Nitrite as N 0.5 mg/L 5 0.1 OK TWN-01 Chloride 1 mg/L 1 1 OK TWN-01 Nitrate + Nitrite as N 0.1 mg/L 1 0.1 OK TWN-02 Chloride 1 mg/L 1 1 OK TWN-02 Nitrate + Nitrite as N 0.5 mg/L 5 0.1 OK TWN-03 Chloride 2 mg/L 2 1 OK TWN-03 Nitrate + Nitrite as N 1 mg/L JO 0.1 OK TWN-04 Chloride 1 mg/L 1 1 OK TWN-04 Nitrate + Nitrite as N 0.1 mg/L 1 0.1 OK TWN-07 Chloride 2 mg/L 2 1 OK TWN-07 Nitrate+ Nitrite as N 0.5 mg/L 5 0.1 OK TWN-18 Chloride 1 mg/L 1 1 OK TWN-18 Nitrate+ Nitrite as N 0.1 mg/L u 1 0.1 OK TWN-18R Chloride 1 mg/L u 1 1 OK TWN-18R Nitrate + Nitrite as N 0.1 mg/L u 1 0.1 OK TWN-20 Chloride 1 mg/L 1 1 OK TWN-20 Nitrate + Nitrite as N 0.1 mg/L 1 0.1 OK TWN-21 Chloride 1 mg/L 1 1 OK TWN-21 Nitrate+ Nitrite as N 0.1 mg/L 1 0.1 OK TWN-60 Chloride 1 mg/L u 1 1 OK TWN-60 Nitrate + Nitrite as N 0.1 mg/L u 1 0.1 OK TWN-65 Chloride 1 mg/L 1 1 OK TWN-65 Nitrate + Nitrite as N 0.1 mg/L 1 0.1 OK TW4-22 Chloride 10 mg/L 10 1 OK TW4-22 Nitrate+ Nitrite as N 2 mg/L 20 0.1 OK TW4-24 Chloride 1 mg/L 1 1 OK TW4-24 Nitrate+ Nitrite as N 0.1 mg/L u 1 0.1 OK TW4-25 Chloride 10 mg/L 10 1 OK TW4-25 Nitrate+ Nitrite as N 1 mg/L 10 0.1 OK TW4-60 Chloride 1 mg/L u I 1 OK TW4-60 Nitrate + Nitrite as N 0.1 mg/L u 1 0.1 OK H-5 QNQC Evaluation for Sample Duplicates Constituent TWN-04 TWN-fiS %RPD Chloride 21.3 2l.6 1.40 Nitrogen 2.29 2.15 6.31 l''"'r (lie.approved QAP, ru~ RI D gr~Jt1.,r lh:111 20% i:. acceptable ir tJw .reported resoll:,., r1: lt· ~ lklll :5 tlt:1,t::" l•hc l{L. I h):<-;· r~·-ul t:· arc provided fo r informat.i m only. H-6 QC Control Limits for Analysis and Blanks Method Blank Detections All Method Blanks for the quarter were non-detect. Matrix Soike % R ----~· C .om oanson REC Lab Report Lab Sample ID Well Analyte MS%REC MSD%REC Range RPD 23Kl396 23Kl396-01 TWN-18 Nitrate 114 110 90-110 3.57 Laboratory Control Sample Laboratory Control Sample results for the quarter were within laboratory acceptance limits. H-7 Receipt Temperature Evaluation Sample Batch WidsJiu Batcti Temperature 23Kl396 PIEZ-01, PIEZ-02, PIEZ-03A, TWN-1, TWN-2, TWN-3, TWN-4, TWN-1.9°C 7, TWN-18, TWN-18R, TWN-20, TWN-21, TWN-60, TWN-65 23L0039 TW4-22, TW4-24, TW4-25, TW4-60 -l.4°C H-8 Rinsate Evaluation All rinsate and DI blank samples were non-detect for the quarter. Tab I Kriged Current Quarter Isoconcentration Maps dty Ml-21 EXPLANATION -o-1~3-'\ ~-:,,..: l'IIW-02· MW-4~~\ on • MW-3A, --.,·.--..._. 1., J .20· NS = not sampled; ND = not detected ....._ 1 o krlged nitrate isocon and label MW-418 -<:>,1.3 TW4-43 ~0.45 TWN-21 a 1.1 TW4-42 ¢2.5 perched monitoring well installed April, 2023 showing concentration in mg/L temporary perched monitoring well installed September, 2021 showing concentration In mg/L temporary perched nitrate monitoring well installed April, 2021 showing concentration in mg/L ND • MW-29 "' ,.. -·- 1.1 ,:W~e21 -- \ J ._,_ 01~7 tw~-20 u ,,,iA,11 \ ~ MW'°~ ND -. allandonod 'l'WN-11 1bar;onod 1WR-1tl Al)linj!cnod ,W~-10 ~-14 .11balldonad +: ,Wf.J-69 MW-18 IIIS TWN.oe 6 .... a!)and,olitd ·~ TWN~~ •~n®ned ·fi lWN-08 i.1J ~N-o, 1(1 • I Pl~/ 2..1 • MW-1,9; ~\a •¥8- 'o'L i --• if.W+-38 " :W'-1\Qp~ I b8.2 '!Y{A-12 / · • ·G:Vi , 071 M t ~~\ --29/s.;rw+s2 ,;, , ., ,,,_. . o"'f.~ iJ 8 .:w ,1~ ,,. ~ ~:-13 '4-112 Q,>, '.w!" ~D __ 'r;ilJtis '¥,v4,311 •• -· ~+il1 ,...!~ "-'f i "IW"'41,H ' • -·1w4-1~ 4 lWf:09~4 4,9&1'W~27!W441 'fW4-~ fl' _o0,39 \ '\ \ \ \f MW'3,!1 ~ 1 mile ar YN~ ~~k~~ ' 0 "iinli4-43 • 1 1o .. tW4-.3S' .. 1 TW~4 r· ,'5 !,2 • ftlW.~O 3 • ¥,W•22 aballdOn'ed 0 TWN-12 MW-32 e ND temporary perched monitoring well installed April, 2019 showing concentration In µg/L NOTES: MW-4, MW-26, TW4-1, TW4-2, TW4-4, TW4-11, TW4-19, TW4-21, TW4-37, TW4-39, TW4-40 and TW4-41 are TW4-7 0 4.0 TWN-1 <>3.4 PIEZ-1 Q6.7 perched monitoring well showing concentration in µg/L temporary perched monitoring well showing concentration in µg/L temporary perched nitrate monitoring well perched piezometer chloroform pumping wells; TW4-22, TW4-24, TW4-25 and TWN-2 are nitrate pumping wells; MW-24A Installed December, 2019 HYDRO BED CHEM.INC. KRIGED 4th QUARTER, 2023 NITRATE (mg/L) WHITE MESA SITE APPROVED DATE REFERENCE H:/71B000/feb24/nltrate/Unt1223.srf FIGURE 1-1 d'y MW-21 EXPLANATION ~ < • MW-23- 6:' ,., • MW-3A • MW-20,~-- NS = not sampled; ND = not detected ....,_ 100 MW-418 ◊40 TW4-43 ~41 TWN-21 [J44 TW4-42 ¢17 MW-32 .37 TW4-7 0 44 TWN-1 ~38 PIEZ-1 -1 73 kriged chloride isocon and label perched monitoring well installed April, 2023 showing concentration in mg/L temporary perched monitoring well installed September, 2021 showing concentration in mg/L temporary perched nitrate monitoring well installed April, 2021 showing concentration in mg/L temporary perched monitoring well installed April, 2019 showing concentration in µg/L perched monitoring well showing concentration in µg/L temporary perched monitoring well showing concentration in µg/L temporary perched nitrate monitoring well (not sampled) perched piezometer (not sampled) 37 • MW-29 ~ ... ,. '-"l I iG • MW-01 abandonti,Q 0 TWN-05 3'.f' • MW-18 38 1lllloao11od 0 TWN-15 ~banjl;on11C1 TWN-tO abilndoow " TWN-11 NS 0 TWN-14 ' r' f,jS "l)jlll,1?Md TWN:og 0 TWN-06 1ljllnt on1e1 TWN-08 n PIEZ-01 Sil • MW-19 '.l5' 1~ TW~-20 TWTum/ " TWN-18 .';J • MW-17 ~ • MW-38 ~ -~ ·~18 ::i .L TW4-05 b!!P • TW4-38 o~ TW4-12 033 , 04&. lW4-32 w,.~e-oa9 1 ' ~4-13 14,02 ' ; ·••,-04 ) ••·. ;-"6 • ~8 °t:w4-36 r c411 - 4' \ TW4-04o°iw4-41 4;2 1 . ...~ .n °iw4.-14 -~t~ '-f.j • MW-39 ...,~ l1J 1 mile TW4-0~ 1:;0 TW!-27~4-31 'TW4-33 i 0 1J T\'14-2~ TW4-~,, m.4-391 , ' Q 'iliv.14-43 '. TW~ 1 eo 'IW4-36 .. ~ TW4-34 JS • MW-40 r.; • MW-22 NS 0 TWN-16 .abandO!led " TWN-12 NOTES: MW-4, MW-26, TW4-1, TW4-2, TW4-4, TW4-11, TW4-19, TW4-21, TW4-37, TW4-39, TW4-40 and TW4-41 are chloroform pumping wells; TW4-22, TW4-24, TW4-25 and TWN-2 are nitrate pumping wells; MW-24A installed December, 2019 HYDRO GED CHEM, INC. KRIGED 4th QUARTER, 2023 CHLORIDE (mg/L) WHITE MESA SITE APPROVED DATE REFERENCE FIGURE H :/718000/fen24/chloride/Ucl1223.srf 1-2 TabJ Analyte Concentrations over Time Piezometer 1 Date Nitrate (mg/I) Chloride (mg/I) 2/19/2009 6.8 NA 7/14/2009 6.8 60.0 9/22/2009 7.3 78.0 10/27/2009 7.4 61.0 6/2/2010 7.2 52.0 7/19/2010 6.8 52.0 12/10/2010 6.5 60.0 1/31/2011 7 60.0 4/25/2011 6.8 58.0 7/25/2011 7 53.0 10/19/2011 6.6 55.0 1/11/2012 7.1 78.0 4/20/2012 6.6 58.0 7/27/2012 7.2 56.0 10/17/2012 7.66 55.0 2/18/2013 8.11 56.7 4/24/2013 8.88 53.3 8/28/2013 7.83 55.1 10/16/2013 6.68 54.1 1/13/2014 6.79 56.2 5/7/2014 7.57 52.1 8/6/2014 5.1 55.0 10/8/2014 5.75 57.6 2/18/2015 6.41 55.9 5/12/2015 5.95 57.5 8/26/2015 4.96 64.2 10/14/2015 6.17 54.4 2/23/2016 8.31 56.5 5/17/2016 6.33 59.1 7/19/2016 6.78 53.9 10/11/2016 6.42 58.1 2/15/2017 6.75 54.5 6/1/2017 6.60 54.7 7/20/2017 6.80 58.0 10/4/2017 6.21 54.4 1/17/2018 6.35 55.3 5/9/2018 6.56 58.0 8/8/2018 6.66 63.5 11/20/2018 6.70 55.5 2/19/2019 6.72 56.8 5/30/2019 6.75 59.4 8/14/2019 6.81 61.1 10/16/2019 7.21 59.3 1/30/2020 7.12 68.9 5/20/2020 6.95 67.7 Piezometer 1 Date Nitrate (mg/I) Chloride (mg/I) 7/15/2020 7.36 63.6 11/13/2020 7.51 63.9 2/18/2021 7.34 57.5 5/27/2021 7.89 69.9 8/19/2021 7.60 70.0 11/23/2021 4.69 65.5 2/16/2022 7.40 68.8 5/24/2022 5.90 70.3 8/17/2022 6.37 72.0 10/25/2022 6.36 73.6 2/21/2023 5.34 50.8 6/8/2023 5.90 65.1 7/19/2023 5.65 70.7 11/14/2023 6.74 72.7 Piezometer 2 Date Nitrate (mg/I) Chloride (mg/I) 2/19/2009 0.500 NA 7/14/2009 0.500 7.0 9/22/2009 0.500 17.0 10/27/2009 0.600 7.0 6/2/2010 0.600 8.0 7/19/2010 0.600 8.0 12/10/2010 0.200 6.0 1/31/2011 0.300 9.0 4/25/2011 0.300 8.0 7/25/2011 0.100 9.0 10/19/2011 0.100 8.0 1/11/2012 0.100 9.0 4/20/2012 0.200 8.0 7/27/2012 0.200 9.0 10/17/2012 0.192 9.5 2/19/2013 0.218 9.7 4/24/2013 0.172 10.3 8/28/2013 0.198 9.7 10/16/2013 0.364 9.2 1/13/2014 0.169 11.4 5/7/2014 0.736 11.4 8/6/2014 0.800 12.0 10/8/2014 0.755 12.2 2/18/2015 0.749 12.6 5/12/2015 0.646 13.1 8/26/2015 0.662 15.5 10/14/2015 0.692 13.3 2/23/2016 0.615 13.4 5/17/2016 0.665 14.0 7/19/2016 0.669 12.4 10/11/2016 0.732 13.4 2/15/2017 0.696 12.4 6/1/2017 0.345 13.2 7/20/2017 0.555 13.4 10/4/2017 0.684 12.7 1/17/2018 0.716 13.0 5/9/2018 0.776 14.0 8/8/2018 0.818 15.1 11/20/2018 0.648 12.3 2/19/2019 0.599 12.9 5/30/2019 0.702 12.6 8/14/2019 0.606 13.2 10/16/2019 0.573 12.6 1/30/2020 0.740 14.2 5/20/2020 0.679 14.4 Piezometer 2 Date Nitrate (mg/I) Chloride (mg/I) 7/15/2020 ·0.793 12.7 11/13/2020 0.544 12.9 2/18/2021 0.401 15.7 5/27/2021 0.100 13.9 8/19/2021 0.110 14.6 11/23/2021 <0.100 14.8 2/16/2022 0.330 14.0 5/24/2022 0.480 12.6 8/17/2022 0.706 14.7 10/25/2022 0.703 13.4 2/21/2023 0.607 9.78 6/8/2023 0.680 12.8 7/19/2023 0.735 14.6 11/14/2023 0.920 14.0 Piezometer 3A Date Nitrate (mg/I) Chloride (mg/I) 5/17/2016 8.23 109 7/19/2016 8.83 93.8 10/11/2016 8.44 100 2/15/2017 10.00 111 6/1/2017 10.10 124 7/20/2017 9.31 105 10/4/2017 9.65 107 1/17/2018 8.61 94.3 5/9/2018 8.98 100 8/8/2018 12.1 122 11/20/2018 11.8 105 2/19/2019 11.8 102 5/30/2019 11.8 104 8/14/2019 10.7 96.2 10/16/2019 8.97 83.0 1/30/2020 10.5 99.5 5/20/2020 12.4 88.3 7/15/2020 12.8 82.7 11/13/2020 13.0 72.8 2/18/2021 11.1 85.9 5/27/2021 14.4 85.2 8/19/2021 11.2 81.5 11/23/2021 9.1 84.6 2/16/2022 12.1 91.7 5/24/2022 8.8 114 8/17/2022 10.6 109 10/25/2022 11.5 81.5 2/21/2023 11.9 60.8 6/8/2023 11.9 82.6 7/19/2023 12.8 77.3 11/14/2023 12.0 76.7 TWN-1 Date Nitrate (mg/I) Chloride (mg/I) 2/6/2009 0.7 19 7/21/2009 0.4 17 9/21/2009 0.4 19 10/28/2009 0.5 18 3/17/2010 0.5 17 5/26/2010 0.6 20 9/27/2010 0.6 19 12/7/2010 0.6 14 1/26/2011 0.5 17 4/20/2011 0.5 19 7/26/2011 0.5 14 10/17/2011 0.5 10 1/9/2012 0.6 15 4/18/2012 0.6 17 7/24/2012 0.6 17 10/15/2012 0.432 17.5 2/18/2013 0.681 17.6 4/23/2013 0.84 17.4 8/27/2013 1.24 24.1 10/16/2013 1.61 26.8 1/14/2014 1.47 29.2 5/6/2014 1.63 31.1 8/5/2014 1.7 28 10/8/2014 1.46 27.6 2/18/2015 1.37 27.8 5/13/2015 0.65 29.2 8/25/2015 0.324 33.2 10/13/2015 1.35 27.7 2/23/2016 1.51 30.3 5/17/2016 1.73 32.1 7/20/2016 1.76 29.6 10/6/2016 1.98 33.0 2/15/2017 2.06 31.2 6/1/2017 1.89 32.7 7/19/2017 2.07 31.2 10/4/2017 1.95 32.0 1/18/2018 1.86 30.4 5/8/2018 2.06 28.4 8/8/2018 1.97 34.2 11/20/2018 1.98 28.9 2/20/2019 2.10 31.4 5/29/2019 1.93 32.6 8/14/2019 2.15 30.3 10/16/2019 2.35 32.0 1/29/2020 2.24 33.8 TWN-1 Date Nitrate (mg/I) Chloride (mg/I) 5/20/2020 2.24 33.0 7/15/2020 2.36 30.8 11/12/2020 1.89 29.2 2/17/2021 2.53 34.1 5/25/2021 3.18 34.7 8/18/2021 2.47 35.7 11/23/2021 1.91 37.4 2/15/2022 3.01 35.6 5/24/2022 2.1 33.7 8/17/2022 2.94 36.7 10/25/2022 2.75 30.1 2/21/2023 1.96 30.8 6/8/2023 2.6 36.1 7/19/2023 2.46 35.3 11/14/2023 3.43 37.7 TWN-2 Date Nitrate (mg/I) Chloride (mg/I) 2/6/2009 25.4 29 7/21/2009 25 25 9/21/2009 22.6 17 11/2/2009 20.8 55 3/24/2010 62.1 85 6/2/2010 69 97 9/29/2010 69 104 12/9/2010 48 93 2/1/2011 43 93 4/28/2011 40 85 7/28/2011 33 74 10/20/2011 33 76 1/12/2012 31 86 4/20/2012 48 103 7/31/2012 54 93 10/17/2012 22.1 79 2/19/2013 57.3 80.5 4/24/2013 57.7 82.1 8/27/2013 80 75.9 10/16/2013 111 70.4 1/13/2014 42.6 72.4 5/7/2014 44.7 84.9 8/6/2014 42 80 10/8/2014 70.6 81 2/18/2015 48.6 84.8 5/12/2015 52.8 82.6 8/25/2015 49.7 87.8 10/14/2015 44.9 74.9 2/23/2016 86.3 73.9 5/17/2016 45.4 74.5 7/19/2016 35.3 68.8 10/11/2016 32.6 69.8 2/15/2017 27.4 65.8 6/1/2017 25.0 61.5 7/20/2017 23.9 64.2 10/4/2017 31.9 60.5 1/19/2018 19.6 57.1 5/9/2018 19.8 62.3 8/8/2018 18.6 61.5 11/20/2018 19.6 56.0 2/19/2019 19.0 50.7 5/29/2019 45.1 102 8/14/2019 23.2 50.7 10/16/2019 18.2 53.0 1/29/2020 16.5 66.1 TWN-2 Date Nitrate (mg/I) Chloride (mg/I) 5/20/2020 16.1 59.6 7/15/2020 17.2 55.6 11/12/2020 12.0 53.5 2/18/2021 15.4 61.8 5/25/2021 13.8 61.5 8/18/2021 15.3 58.9 11/23/2021 12.7 62.3 2/15/2022 15.3 59.5 5/24/2022 14.0 60.2 8/17/2022 13.9 61.8 10/25/2022 14.0 48.9 2/21/2023 11.2 44.9 6/8/2023 13.6 49.7 7/19/2023 14.0 56.2 11/14/2023 14.6 63.0 TWN-3 Date Nitrate (mg/I) Chloride (mg/I) 2/6/2009 23.6 96 7/21/2009 25.3 96 9/21/2009 27 .1 99 11/2/2009 29 106 3/25/2010 25.3 111 6/3/2010 26 118 7/15/2010 27 106 12/10/2010 24 117 2/1/2011 24 138 4/28/2011 26 128 7/29/2011 25 134 10/20/2011 25 129 1/12/2012 25 143 4/20/2012 24 152 7/31/2012 27 158 10/17/2012 12.1 149 2/19/2013 22.2 157 4/24/2013 27.2 158 8/28/2013 20.9 171 10/17/2013 23.5 163 1/15/2014 19.6 160 5/7/2014 23 .6 168 8/6/2014 19.5 174 10/9/2014 19.1 153 2/19/2015 19.4 164 5/14/2015 17.2 141 8/26/2015 16.2 156 10/14/2015 16.3 129 2/24/2016 16.8 128 5/18/2016 13.5 116 7/19/2016 16.8 110 10/7/2016 15.8 113 2/16/2017 17.4 113 6/2/2017 15.9 108 7/20/2017 15.9 106 10/5/2017 15.6 111 1/19/2018 14.4 107 5/9/2018 16.4 115 8/9/2018 19.4 149 11/21/2018 20.1 123 2/21/2019 20.7 140 5/30/2019 18.7 137 8/15/2019 19.8 133 10/17/2019 19.6 126 1/30/2020 19.4 156 TWN-3 Date Nitrate (mg/I) Chloride (mg/I) 5/21/2020 24.0 136 7/16/2020 22.2 130 11/13/2020 18.00 137 2/18/2021 23.8 145 5/27/2021 25.0 156 8/19/2021 24.3 146. 11/24/2021 17.4 147 2/16/2022 25.3 140 5/25/2022 24.0 157 8/18/2022 28.2 163 10/26/2022 26.0 156 2/22/2023 28.0 109 6/9/2023 26.4 158 7/20/2023 26.1 160 11/15/2023 31.4 165 TWN-4 Date Nitrate (mg/I) Chloride (mg/I) 2/6/2009 1.00 13.0 7/21/2009 0.05 12.0 9/21/2009 0.40 13.0 10/28/2009 0.40 11.0 3/16/2010 0.90 22.0 5/27/2010 1.00 22.0 9/27/2010 0.90 19.0 12/8/2010 1.00 21.0 1/25/2011 0.90 21.0 4/20/2011 0.90 21.0 7/26/2011 1.10 35.0 10/18/2011 0.90 20.0 1/9/2012 0.90 20.0 4/18/2012 1.10 24.0 7/25/2012 1.40 25.0 10/15/2012 1.45 26.4 2/18/2013 1.51 25.3 4/23/2013 1.63 24.4 8/27/2013 1.58 27.2 10/16/2013 1.69 29.4 1/14/2014 1.41 28.4 5/6/2014 1.55 29.6 8/5/2014 2.00 28.0 10/8/2014 1.44 30.7 2/18/2015 1.48 31.5 5/13/2015 0.73 31.9 8/25/2015 0.97 35.2 10/13/2015 1.58 28.4 2/23/2016 2.02 30.7 5/17/2016 2.97 31.7 7/20/2016 3.14 28.0 10/6/2016 3.09 31.3 2/15/2017 2.63 31.2 6/1/2017 2.37 28.6 7/19/2017 2.35 28.0 10/4/2017 2.27 27.4 1/18/2018 1.77 26.3 5/8/2018 1.86 27.7 8/8/2018 1.54 28.0 11/20/2018 1.48 22.7 2/20/2019 1.53 25.3 5/29/2019 1.51 26.5 8/14/2019 1.81 23.7 10/16/2019 2.15 25.4 1/29/2020 1.89 27.2 TWN-4 Date Nitrate (mg/I) Chloride (mg/I) 5/20/2020 1.75 25.1 7/15/2020 1.75 23.1 11/12/2020 1.18 22.8 2/17/2021 1.64 24.2 5/25/2021 1.70 23.2 8/18/2021 1.28 23.7 11/23/2021 1.27 23.2 2/15/2022 1.50 22.7 5/24/2022 1.20 20.9 8/17/2022 1.39 21.6 10/25/2022 1.31 21.2 2/21/2023 0.904 12.2 6/8/2023 1.21 15.9 7/19/2023 1.08 17.6 11/14/2023 2.29 21.3 TWN-7 Date Nitrate (mg/I) Chloride (mg/I) 8/25/2009 ND 11.00 9/21/2009 ND 7.00 11/10/2009 0.10 7.00 3/17/2010 0.800 6.00 5/28/2010 1.200 6.00 7/14/2010 1.600 7.00 12/10/2010 1.000 4.00 1/27/2011 1.300 6.00 4/21/2011 1.700 6.00 7/29/2011 0.700 5.00 10/19/2011 2.200 6.00 1/11/2012 2.300 5.00 4/20/2012 1.200 6.00 7/26/2012 0.900 6.00 10/16/2012 0.641 5.67 2/19/2013 0.591 5.68 4/24/2013 1.160 5.88 8/28/2013 0.835 6.96 10/16/2013 0.986 5.70 1/15/2014 0.882 5.75 5/7/2014 0.564 5.26 8/6/2014 0.900 6.00 10/9/2014 0.968 5.93 2/19/2015 1.040 5.58 5/14/2015 0.779 6.18 8/26/2015 0.348 6.12 10/14/2015 0.672 5.84 2/24/2016 0.240 6.06 5/18/2016 0.732 /' 6.26 7/21/2016 0.810 5.97 10/7/2016 0.698 6.17 2/16/2017 1.63 14.00 6/2/2017 3.74 29.70 7/20/2017 2.70 29.00 10/5/2017 3.58 41.40 1/19/2018 5.82 69.40 5/9/2018 10.2 94.70 8/9/2018 10.6 105 11/21/2018 11.5 104 2/21/2019 12.9 107 5/30/2019 13.5 122 8/15/2019 12.9 120 10/17/2019 14.2 119 1/30/2020 14.2 128 5/21/2020 14.6 126 TWN-7 Date Nitrate (mg/I) Chloride (mg/I) 7/16/2020 15.2 116 11/13/2020 11.8 121 2/18/2021 16.0 129 5/27/2021 16.4 129 8/19/2021 15.1 121 11/24/2021 7.7 130 2/16/2022 16.9 120 5/25/2022 16.0 127 8/18/2022 14.6 128 10/26/2022 15.7 129 2/22/2023 14.S 150 6/9/2023 14.0 122 7/20/2023 13.7 124 11/15/2023 15.6 130 TWN-18 Date Nitrate (mg/I) Chloride (mg/I) 11/2/2009 1.300 57.0 3/17/2010 1.600 42.0 6/1/2010 1.800 63.0 9/27/2010 1.800 64.0 12/9/2010 1.600 59.0 1/27/2011 1.400 61.0 4/26/2011 1.800 67.0 7/28/2011 1.800 65.0 10/18/2011 1.900 60.0 1/10/2012 1.900 64.0 4/19/2012 2.100 64.0 7/26/2012 2.300 67.0 10/16/2012 1.950 67.5 2/18/2013 2.270 68.7 4/23/2013 2.320 64.3 8/27/2013 2.040 70.4 10/16/2013 2.150 67.3 1/14/2014 2.330 68.4 5/6/2014 2.180 76.5 8/5/2014 1.800 70.0 10/8/2014 1.470 74.8 2/18/2015 1.000 73.3 5/13/2015 1.350 76.6 8/25/2015 0.350 81.3 10/13/2015 0.668 69.0 2/23/2016 0.648 67.6 5/17/2016 0.497 69.9 7/20/2016 0.100 52.7 10/6/2016 0.501 67.4 2/15/2017 0.470 62.1 6/1/2017 0.392 63.9 7/19/2017 0.419 59.0 10/4/2017 0.256 56.6 1/18/2018 0.332 53.1 5/8/2018 0.283 57.8 8/8/2018 0.348 59.7 11/20/2018 0.160 48.1 2/20/2019 0.155 46.4 5/29/2019 0.129 50.0 8/14/2019 0.181 46.9 10/16/2019 0.162 47.1 1/29/2020 0.224 51.9 5/20/2020 0.236 47.4 7/15/2020 0.232 44.0 11/12/2020 0.208 42.3 TWN-18 Date Nitrate (mg/I) Chloride (mg/I) 2/17/2021 0.228 46.2 5/25/2021 0.220 44.9 8/17/2021 0.199 42.9 11/23/2021 0.245 46.5 2/15/2022 0.199 40.9 5/25/2022 0.340 40.7 8/17/2022 0.328 40.8 10/25/2022 0.212 35.6 2/21/2023 0.253 33.2 6/8/2023 0.267 36.1 7/19/2023 <0.100 38.1 11/14/2023 0.340 38.1 TWN-20 Date Nitrate (mg/I) Chloride (mg/I) 6/3/2021 1.880 50.0 8/19/2021 0.960 35.3 11/24/2021 0.286 33.6 2/16/2022 0.436 31.2 5/25/2022 0.540 29.7 8/18/2022 0.481 32.4 10/26/2022 0.446 32.0 2/22/2023 0.356 23.2 6/9/2023 0.363 22.0 7/20/2023 0.330 33.4 11/15/2023 0.370 34.8 TWN-21 Date Nitrate (mg/I) Chloride (mg/I) 6/3/2021 1.03 41.9 8/19/2021 1.16 40.5 11/24/2021 0.696 42.6 2/16/2022 1.10 40.4 5/25/2022 1.1 39.8 8/18/2022 1.19 42.7 10/26/2022 1.08 42.3 2/22/2023 1.02 27.5 6/9/2023 1.03 29.8 7/20/2023 1.01 42.8 11/15/2023 1.10 43.8 TW4-19 Date Nitrate (mg/I) Date Chloride (mg/I) 7/22/2002 42.80 12/7/2005 81 9/12/2002 47.60 3/9/2006 86 3/28/2003 61.40 7/20/2006 123 6/23/2003 11.40 11/9/2006 134 7/15/2003 6.80 2/28/2007 133 8/15/2003 4.00 8/15/2007 129 9/12/2003 5.70 10/10/2007 132 9/25/2003 9.20 3/26/2008 131 10/29/2003 ·7.70 6/25/2008 128 11/9/2003 4.80 9/10/2008 113 8/16/2004 9.91 10/15/2008 124 9/17/2004 4.50 3/4/2009 127 3/16/2005 5.30 6/23/2009 132 6/7/2005 5.70 9/14/2009 43 8/31/2005 4.60 12/14/2009 124 12/1/2005 0.10 2/17/2010 144 3/9/2006 4.00 6/9/2010 132 6/14/2006 5.20 8/16/2010 142 7/20/2006 4.30 10/11/2010 146 11/9/2006 4.60 2/17/2011 135 2/28/2007 4.00 6/7/2011 148 8/15/2007 4.10 8/17/2011 148 10/10/2007 4.00 11/17/2011 148 3/26/2008 2.20 1/23/2012 138 6/25/2008 2.81 6/6/2012 149 9/10/2008 36.20 9/5/2012 149 10/15/2008 47.80 10/3/2012 150 3/4/2009 3.20 2/11/2013 164 6/23/2009 2.40 6/5/2013 148 9/14/2009 0.10 9/3/2013 179 12/14/2009 26.70 10/29/2013 206 2/17/2010 2.00 1/27/2014 134 6/9/2010 4.40 5/19/2014 152 8/16/2010 5.90 8/11/2014 140 10/11/2010 2.70 10/21/2014 130 2/17/2011 17.00 3/9/2015 238 I 6/7/2011 12.00 6/8/2015 180 8/17/2011 3.00 8/31/2015 326 11/17/2011 5.00 10/19/2015 252 1/23/2012 0.60 3/9/2016 276 6/6/2012 2.40 5/23/2016 201 9/5/2012 2.50 7/25/2016 214 10/3/2012 4.10 10/13/2016 200 2/11/2013 7.99 3/8/2017 461 6/5/2013 2.95 6/13/2017 135 TW4-19 Date Nitrate (mg/I) Date Chloride (mg/I) 9/3/2013 17.60 7/26/2017 218 10/29/2013 4.70 10/11/2017 139 1/27/2014 1.62 3/12/2018 193 5/19/2014 1.34 6/8/2018 138 8/11/2014 1.60 8/22/2018 166 10/21/2014 4.72 11/28/2018 140 3/9/2015 8.56 3/8/2019 197 6/8/2015 0.92 6/5/2019 160 8/31/2015 11.60 9/4/2019 153 10/19/2015 10.60 12/10/2019 147 3/9/2016 15.70 2/19/2020 205 5/23/2016 1.27 5/27/2020 147 7/25/2016 10.50 9/4/2020 188 10/13/2016 10.00 10/28/2020 104 3/8/2017 11.10 2/23/2021 167 6/13/2017 0.243 6/9/2021 115 7/26/2017 1.12 8/24/2021 172 10/11/2017 0.377 12/1/2021 184 3/12/2018 8.61 3/9/2022 119 6/8/2018 0.494 6/8/2022 128 8/22/2018 2.55 8/30/2022 178 11/28/2018 0.233 11/30/2022 129 3/8/2019 6.58 3/7/2023 122 6/5/2019 8.96 6/13/2023 167 9/4/2019 0.332 8/9/2023 122 12/10/2019 0.535 11/29/2023 120 2/19/2020 10.10 5/27/2020 1.14 9/4/2020 11.60 10/28/2020 1.10 2/23/2021 6.61 6/9/2021 4.04 8/24/2021 6.68 12/1/2021 11.0 3/9/2022 1.70 6/8/2022 1.40 8/30/2022 4.76 11/30/2022 3.58 3/7/2023 1.75 6/13/2023 6.68 8/9/2023 1.57 11/29/2023 1.14 The sampling program for TW4-19 was updated in the fourth quarter of 2005 to include analysis for chloride as well as nitrate. This change accounts for the different number of data points represented above. TW4-21 Date Nitrate (mg/I) Date Chloride (mg/I) 5/25/2005 14.6 12/7/2005 353 8/31/2005 10.1 3/9/2006 347 11/30/2005 9.6 7/20/2006 357 3/9/2006 8.5 11/8/2006 296 6/14/2006 10.2 2/28/2007 306 7/20/2006 8.9 6/27/2007 327 11/8/2006 8.7 8/15/2007 300 2/28/2007 8.7 10/10/2007 288 6/27/2007 8.6 3/26/2008 331 8/15/2007 8.6 6/25/2008 271 10/10/2007 8.3 9/10/2008 244 3/26/2008 14.3 10/15/2008 284 6/25/2008 8.8 3/11/2009 279 9/10/2008 7.6 6/24/2009 291 10/15/2008 8.0 9/15/2009 281 3/11/2009 8.3 12/22/2009 256 6/24/2009 8.1 2/25/2010 228 9/15/2009 9.2 6/10/2010 266 12/22/2009 8.4 8/12/2010 278 2/25/2010 8.4 10/13/2010 210 6/10/2010 12.0 2/22/2011 303 8/12/2010 14.0 6/1/2011 297 10/13/2010 7.0 8/17/2011 287 2/22/2011 9.0 11/16/2011 276 6/1/2011 13.0 1/19/2012 228 8/17/2011 14.0 6/13/2012 285 11/16/2011 13.0 9/13/2012 142 1/19/2012 15.0 10/4/2012 270 6/13/2012 11.0 2/13/2013 221 9/13/2012 13.0 6/18/2013 243 10/4/2012 14.0 9/12/2013 207 2/13/2013 11.8 11/13/2013 206 6/18/2013 13.8 2/5/2014 200 9/12/2013 10.3 5/22/2014 243 11/13/2013 9.0 8/27/2014 230 2/5/2014 11.4 10/29/2014 252 5/22/2014 11.5 3/12/2015 255 8/27/2014 7.1 6/8/2015 494 10/29/2014 10.0 8/31/2015 499 TW4-21 Date Nitrate (mg/I) Date Chloride (mg/I) 3/12/2015 10.9 10/19/2015 413 6/8/2015 13.1 3/9/2016 452 8/31/2015 14.7 5/23/2016 425 10/19/2015 14.3 7/25/2016 457 3/9/2016 14.6 10/12/2016 439 5/23/2016 13.1 3/8/2017 478 7/25/2016 16.5 6/13/2017 309 10/12/2016 13.5 7/26/2017 447 3/8/2017 17.7 10/11/2017 378 6/13/2017 9.5 3/12/2018 447 7/26/2017 18.2 6/8/2018 387 10/11/2017 16.9 8/22/2018 182 3/12/2018 15.8 10/22/2018 392 6/8/2018 14.1 3/8/2019 180 8/22/2018 0.236 6/5/2019 456 10/22/2018 15.2 9/4/2019 478 3/8/2019 8.99 12/10/2019 339 6/5/2019 17.5 2/19/2020 446 9/4/2019 14.7 5/27/2020 353 12/10/2019 5.73 9/4/2020 382 2/19/2020 8.93 10/28/2020 411 5/27/2020 15.4 2/23/2021 454 9/4/2020 12.6 6/9/2021 461 10/28/2020 16.3 8/24/2021 375 2/23/2021 15.2 12/1/2021 227 6/9/2021 21.5 3/9/2022 110 8/24/2021 12.9 6/8/2022 331 12/1/2021 17.2 8/30/2022 425 3/9/2022 2.2 11/30/2022 158 6/8/2022 8.9 3/7/2023 335 8/30/2022 14.3 6/13/2023 397 11/30/2022 2.1 8/9/2023 161 3/7/2023 10.9 11/29/2023 372 6/13/2023 17.3 8/9/2023 6.13 11/29/2023 9.41 The sampling program for TW4-21 was updated in the fourth quarter of 2005 to include analysis for chloride as well as nitrate. This change accounts for the different number of data points represented above. TW4-22 Date Nitrate (mg/I) Chloride (mg/I) 2/28/2007 20.9 347 6/27/2007 19.3 273 8/15/2007 19.3 259 10/10/2007 18.8 238 3/26/2008 39.1 519 6/25/2008 41.9 271 9/10/2008 38.7 524 10/15/2008 36.3 539 3/11/2009 20.7 177 6/24/2009 20.6 177 9/15/2009 40.3 391 12/29/2009 17.8 175 3/3/2010 36.6 427 6/15/2010 19 134 8/12/2010 18 127 8/24/2010 15 130 10/13/2010 16 134 2/23/2011 18 114 6/1/2011 17 138 8/17/2011 15 120 11/16/2011 19 174 1/19/2012 14 36 6/13/2012 12.8 35 9/12/2012 7 121 10/4/2012 14 130 2/11/2013 58 635 6/5/2013 50.2 586 9/3/2013 29.7 487 10/29/2013 45.2 501 1/27/2014 54.6 598 5/19/2014 47.2 614 8/11/2014 41.5 540 10/21/2014 54.9 596 3/9/2015 69.2 675 6/8/2015 47.1 390 8/31/2015 64.7 557 10/19/2015 56.1 567 3/9/2016 31.1 583 5/23/2016 58.4 598 7/25/2016 61.3 619 10/12/2016 61.5 588 3/8/2017 69.8 566 6/13/2017 70.8 572 7/26/2017 66.1 391 10/11/2017 80.1 600 3/12/2018 62.3 607 6/8/2018 72.5 580 TW4-22 Date Nitrate (mg/I) Chloride (mg/I) 8/22/2018 55.4 613 11/28/2018 75.7 567 3/8/2019 71.9 528 6/5/2019 83.9 662 9/4/2019 72.5 588 12/10/2019 59.9 608 2/19/2020 57.7 606 5/27/2020 60.5 578 9/4/2020 64.8 514 10/28/2020 64.9 523 2/23/2021 69.6 618 6/9/2021 89.3 408 8/24/2021 35.1 410 12/1/2021 68.8 586 3/9/2022 40.4 442 6/8/2022 45 564 8/30/2022 69.9 637 11/30/2022 62.0 601 3/7/2023 49.1 562 6/13/2023 49.8 596 8/9/2023 58.8 617 11/29/2023 42.9 577 TW4-24 Date Nitrate (mg/I) Chloride (mg/I) 6/27/2007 26.1 770 8/15/2007 29 791 10/10/2007 24.7 692 3/26/2008 24.4 740 6/25/2008 45.3 834 9/10/2008 38.4 1180 10/15/2008 44.6 1130 3/4/2009 30.5 1010 6/24/2009 30.4 759 9/15/2009 30.7 618 12/17/2009 28.3 1080 2/25/2010 33.1 896 6/9/2010 30 639 8/11/2010 32 556 8/24/2010 31 587 10/6/2010 31 522 2/17/2011 31 1100 5/26/2011 35 1110 8/17/2011 34 967 11/16/2011 35 608 1/18/2012 37 373 6/6/2012 37 355 8/30/2012 37 489 10/3/2012 38 405 2/11/2013 35.9 1260 6/5/2013 23.7 916 9/3/2013 32.6 998 10/29/2013 34.6 1030 1/27/2014 31.6 809 5/19/2014 35 1020 8/11/2014 31.5 1150 10/21/2014 35.7 1050 3/9/2015 34.6 944 6/8/2015 31.8 1290 8/31/2015 25.3 788 10/19/2015 29.6 909 3/9/2016 29.1 989 5/23/2016 24.2 771 7/25/2016 34.4 1,180 10/12/2016 31.9 1,010 3/8/2017 41.3 1,090 6/13/2017 39.9 1,080 7/26/2017 40.0 1,230 10/11/2017 31.7 895 3/12/2018 44.9 1,320 6/14/2018 33.6 792 8/22/2018 33.8 996 11/28/2018 38.4 1,100 3/8/2019 39.3 1,040 6/5/2019 33.2 1,020 9/4/2019 36.4 1,130 TW4-24 Date Nitrate (mg/I) Chloride (mg/I) 12/10/2019 33.8 1,090 2/19/2020 37.1 1,010 5/27/2020 41.7 1,060 9/4/2020 39.1 1,100 10/28/2020 35.9 1,050 2/23/2021 41.9 1,170 6/9/2021 48.0 938 8/24/2021 26.7 1,010 12/1/2021 43.6 1,140 3/9/2022 36.2 890 6/8/2022 35.0 944 8/30/2022 32.0 868 11/30/2022 27.6 972 3/7/2023 36.2 932 6/13/2023 35.9 866 8/9/2023 58.8 617 11/29/2023 16.9 757 TW4-25 Date Nitrate (mg/I) Chloride (mg/I) 6/27/2007 17.1 395 8/15/2007 16.7 382 10/10/2007 17 356 3/26/2008 18.7 374 6/25/2008 22.1 344 9/10/2008 18.8 333 10/15/2008 21.3 366 3/4/2009 15.3 332 6/24/2009 15.3 328 9/15/2009 3.3 328 12/16/2009 14.2 371 2/23/2010 14.4 296 6/8/2010 16 306 8/10/2010 14 250 10/5/2010 15 312 2/16/2011 15 315 5/25/2011 16 321 8/16/2011 16 276 11/15/2011 16 294 1/18/2012 16 304 5/31/2012 16 287 9/11/2012 17 334 10/3/2012 17 338 2/11/2013 9.04 190 6/5/2013 5.24 136 9/3/2013 5.69 119 10/29/2013 6.10 88.6 1/27/2014 2.16 85.7 5/19/2014 1.21 51.1 8/11/2014 1.6 67 10/21/2014 1.03 58.1 3/9/2015 14.4 310 6/8/2015 1.14 58.3 8/31/2015 1.63 69.2 10/21/2015 1.78 93.7 3/9/2016 0.837 62.7 5/23/2016 0.959 75.5 7/25/2016 1.78 74.1 10/12/2016 1.24 59.8 3/8/2017 17.0 285 6/13/2017 0.976 69.8 7/26/2017 1.23 70.1 10/11/2017 1.29 68.0 3/12/2018 2.23 70.5 6/14/2018 1.14 60.3 TW4-25 Date Nitrate (mg/I) Chloride (mg/I) 8/22/2018 0.810 69.1 11/28/2018 0.634 59.7 3/8/2019 0.639 65.0 6/5/2019 0.821 59.0 9/4/2019 0.548 58.1 12/10/2019 0.841 73.1 2/19/2020 0.607 86.0 5/27/2020 0.851 76.8 9/4/2020 0.994 67.3 10/28/2020 1.64 61.3 2/23/2021 3.43 100 6/9/2021 1.57 55.1 8/24/2021 0.793 69.3 12/1/2021 0.978 93.7 3/9/2022 1.8 70.3 6/8/2022 0.88 72.8 8/30/2022 1.51 82.5 11/30/2022 1.47 67.2 3/7/2023 1.96 96.7 6/13/2023 1.03 73.0 8/9/2023 0.79 79.9 11/29/2023 0.480 70.4 MW-30 Date Nitrate (mg/I) Date Chloride (mg/I) 6/22/2005 12.4 6/22/2005 125 9/22/2005 12.8 9/22/2005 125 12/14/2005 13.6 12/14/2005 128 3/22/2006 13.8 3/22/2006 125 6/21/2006 14.5 6/21/2006 124 9/13/2006 14.1 9/13/2006 118 10/25/2006 14.6 10/25/2006 124 3/15/2007 14.4 3/15/2007 125 8/22/2007 14.6 8/22/2007 126 10/24/2007 14.9 10/24/2007 122 3/19/2008 14.8 3/19/2008 118 6/3/2008 18.7 6/3/2008 125 8/4/2008 17.3 8/4/2008 121 11/5/2008 15.6 11/5/2008 162 2/3/2009 15.3 2/3/2009 113 5/13/2009 15.1 5/13/2009 122 8/24/2009 20.9 8/24/2009 118 10/14/2009 15.0 10/14/2009 129 1/20/2010 15.4 1/20/2010 106 2/9/2010 16.1 2/9/2010 127 4/27/2010 15.8 4/27/2010 97 5/24/2010 17.0 9/14/2010 111 6/15/2010 15.3 11/9/2010 126 8/24/2010 16.0 2/1/2011 134 9/14/2010 15.0 4/11/2011 134 10/19/2010 15.0 5/10/2011 128 11/9/2010 15.0 6/20/2011 127 12/14/2010 16.0 7/5/2011 127 1/10/2011 15.0 8/3/2011 126 2/1/2011 16.0 9/7/2011 145 3/14/2011 17.0 10/4/2011 129 4/11/2011 16.0 11/8/2011 122 5/10/2011 16.0 12/12/2011 124 6/20/2011 17.0 1/24/2012 124 7/5/2011 17.0 2/14/2012 126 8/3/2011 14.0 3/14/2012 128 9/7/2011 16.0 4/10/2012 128 10/4/2011 16.0 5/2/2012 124 11/8/2011 16.0 6/18/2012 131 12/12/2011 16.0 7/10/2012 128 MW-30 Date Nitrate (mg/I) Date Chloride (mg/I) 1/24/2012 17.0 8/7/2012 139 2/14/2012 17.0 9/19/2012 130 3/14/2012 18.0 10/23/2012 135 4/10/2012 17.0 11/13/2012 114 5/2/2012 16.0 12/26/2012 122 6/18/2012 15.0 1/23/2013 128 7/10/2012 17.0 2/26/2013 129 8/7/2012 18.0 3/20/2013 126 9/19/2012 16.0 4/17/2013 117 10/23/2012 16.2 5/15/2013 119 11/13/2012 18.5 6/25/2013 127 12/26/2012 17.2 7/10/2013 130 1/23/2013 19.2 8/20/2013 126 2/26/2013 21.4 9/18/2013 131 3/20/2013 14.3 10/22/2013 128 4/17/2013 16.8 11/20/2013 124 5/15/2013 18.8 12/18/2013 134 6/25/2013 16.1 1/8/2014 131 7/10/2013 17.6 2/25/2014 135 8/20/2013 16.4 3/11/2014 144 9/18/2013 16.9 4/23/2014 154 10/22/2013 19.7 5/14/2014 128 11/20/2013 19.5 6/3/2014 128 12/18/2013 20.7 7/29/2014 140 1/8/2014 20.3 8/20/2014 139 2/25/2014 18.4 9/9/2014 136 3/11/2014 21.3 10/7/2014 136 4/23/2014 18.3 11/10/2014 154 5/14/2014 17.9 12/10/2014 138 6/3/2014 19.4 1/21/2015 144 7/29/2014 15.6 2/4/2015 136 8/20/2014 13.8 3/3/2015 132 9/9/2014 16.8 4/8/2015 142 10/7/2014 11.0 5/12/2015 145 11/10/2014 16.2 6/24/2015 142 12/10/2014 17.1 7/7/2015 145 1/21/2015 19.5 8/11/2015 165 2/4/2015 14.9 9/15/2015 165 3/3/2015 17.3 10/7/2015 137 4/8/2015 17.0 11/11/2015 140 5/12/2015 16.1 12/9/2015 144 6/24/2015 15.8 1/20/2016 143 MW-30 Date Nitrate (mg/I) Date Chloride (mg/I) 7/7/2015 15.3 2/10/2016 145 8/11/2015 17.9 3/2/2016 142 9/15/2015 17.3 4/13/2016 144 10/7/2015 19.1 5/4/2016 139 11/11/2015 16.3 6/14/2016 142 12/9/2015 18.2 7/13/2016 137 1/20/2016 14.6 8/18/2016 150 2/10/2016 20.0 9/14/2016 146 3/2/2016 17.8 10/5/2016 148 4/13/2016 18.0 11/3/2016 143 5/4/2016 17.3 12/6/2016 158 6/14/2016 18.5 1/18/2017 150 7/13/2016 16.1 2/2/2017 150 8/18/2016 18.0 3/6/2017 250 9/14/2016 17.0 4/5/2017 146 10/5/2016 17.2 5/2/2017 146 11/3/2016 18.0 6/5/2017 153 12/6/2016 18.2 7/11/2017 160 1/18/2017 19.0 8/14/2017 173 2/2/2017 17.4 9/12/2017 149 3/6/2017 20.4 10/5/2017 153 4/5/2017 18.3 11/1/2017 156 5/2/2017 17.5 12/6/2017 159 6/5/2017 18.8 1/23/2018 152 7/11/2017 16.2 2/22/2018 158 8/14/2017 19.2 3/8/2018 167 9/12/2017 18.7 4/12/2018 145 10/5/2017 18.8 5/15/2018 174 11/1/2017 17.4 6/19/2018 169 12/6/2017 18.3 7/24/2018 177 1/23/2018 15.2 8/10/2018 170 2/22/2018 17.6 9/11/2018 183 3/8/2018 17.0 10/22/2018 140 4/12/2018 17.3 11/14/2018 166 5/15/2018 17.7 12/11/2018 154 6/19/2018 16.9 1/16/2019 157 7/24/2018 17.4 2/13/2019 167 8/10/2018 18.7 3/6/2019 160 9/11/2018 18.0 4/9/2019 138 10/22/2018 17.3 5/7/2019 175 11/14/2018 16.9 6/3/2019 165 12/11/2018 17.2 7/16/2019 181 MW-30 Date Nitrate (mg/I) Date Chloride (mg/I) 1/16/2019 17.9 8/6/2019 190 2/13/2019 18.2 9/24/2019 176 3/6/2019 16.2 10/8/2019 170 4/9/2019 18.5 11/13/2019 180 5/7/2019 17.9 12/4/2019 185 6/3/2019 15.8 1/15/2020 182 7/16/2019 19.3 2/5/2020 187 8/6/2019 15.8 3/11/2020 182 9/24/2019 17.9 4/6/2020 195 10/8/2019 18.2 5/6/2020 177 'v 11/13/2019 17.2 6/3/2020 180 12/4/2019 17.8 7/6/2020 185 1/15/2020 16.4 8/11/2020 183 2/5/2020 17.8 9/1/2020 166 3/11/2020 19.0 10/13/2020 183 4/6/2020 18.1 11/17/2020 150 5/6/2020 18.6 12/8/2020 166 6/3/2020 18.3 1/11/2021 184 7/6/2020 18.4 2/10/2021 189 8/11/2020 21.1 3/9/2021 192 9/1/2020 18.3 4/14/2021 162 10/13/2020 16.8 5/11/2021 188 11/17/2020 13.4 6/8/2021 170 12/8/2020 12.0 7/29/2021 188 1/11/2021 17.7 8/9/2021 161 2/10/2021 14.3 9/8/2021 183 3/9/2021 17.0 10/19/2021 182 4/14/2021 17.7 11/17/2021 182 5/11/2021 18.6 12/14/2021 184 6/8/2021 17.0 1/17/2022 181 7/29/2021 20.6 2/9/2022 184 8/9/2021 16.5 3/7/2022 196 9/8/2021 15.4 4/20/2022 173 10/19/2021 14.3 5/4/2022 195 11/17/2021 18.0 6/7/2022 126 12/14/2021 18.6 7/13/2022 108 1/17/2022 14.5 8/9/2022 185 2/9/2022 13.6 9/20/2022 182 3/7/2022 16.6 10/13/2022 196 4/20/2022 17.0 11/9/2022 156 5/4/2022 15.0 12/13/2022 195 6/7/2022 11.0 1/25/2023 166 MW-30 Date Nitrate (mg/I) Date Chloride (mg/I) 7/13/2022 17.6 2/8/2023 173 8/9/2022 13.5 3/15/2023 199 9/20/2022 16.5 4/26/2023 202 10/13/2022 17.9 5/10/2023 181 11/9/2022 15.9 6/6/2023 203 12/13/2022 16.1 7/11/2023 205 1/25/2023 18.1 8/2/2023 204 2/8/2023 15.9 9/5/2023 186 3/15/2023 17.3 10/4/2023 197 4/26/2023 15.9 11/1/2023 211 5/10/2023 15.3 12/4/2023 204 6/6/2023 16.1 7/11/2023 16.6 8/2/2023 17.4 9/5/2023 17.1 10/4/2023 16.9 11/1/2023 16.7 12/4/2023 17.4 Under the groundwater sampling program, accelerated monitoring for nitrate began in MW-30 prior to when the accelerated monitoring for chloride began. This difference accounts for the different number of data points represented above. MW-31 Date Nitrate (mg/I} Date Chloride (mg/I} 6/22/2005 24.2 6/22/2005 139 9/22/2005 22.4 9/22/2005 136 12/14/2005 23.8 12/14/2005 135 3/22/2006 24.1 3/22/2006 133 6/21/2006 25.3 6/21/2006 138 9/13/2006 24.6 9/13/2006 131 10/25/2006 25.1 10/25/2006 127 3/15/2007 23.2 3/15/2007 132 3/15/2007 22.0 3/15/2007 132 8/27/2007 23.3 8/27/2007 136 10/24/2007 24.6 10/24/2007 122 3/19/2008 25.0 3/19/2008 124 6/3/2008 29.3 6/3/2008 128 8/4/2008 28.7 8/4/2008 124 11/11/2008 29.9 11/11/2008 119 2/3/2009 23.4 2/3/2009 115 5/13/2009 22.4 5/13/2009 124 8/24/2009 15.4 8/24/2009 122 10/14/2009 22.6 10/14/2009 138 2/9/2010 21.7 2/9/2010 128 4/20/2010 22.5 4/20/2010 128 5/21/2010 23.0 9/13/2010 139 6/15/2010 21.1 11/9/2010 138 8/24/2010 22.0 2/1/2011 145 9/13/2010 21.0 4/1/2011 143 10/19/2010 20.0 5/10/2011 143 11/9/2010 20.0 6/20/2011 145 12/14/2010 20.0 7/5/2011 148 1/10/2011 19.0 8/2/2011 148 2/1/2011 21.0 9/6/2011 148 3/14/2011 22.0 10/3/2011 145 4/1/2011 21.0 11/8/2011 145 5/10/2011 20.0 12/12/2011 148 6/20/2011 22.0 1/24/2012 155 7/5/2011 22.0 2/13/2012 150 8/2/2011 20.0 3/13/2012 152 9/6/2011 21.0 4/9/2012 160 10/3/2011 21.0 5/2/2012 151 11/8/2011 21.0 6/18/2012 138 12/12/2011 21.0 7/9/2012 161 MW-31 Date Nitrate (mg/I) Date Chloride (mg/I) 1/24/2012 21.0 8/6/2012 175 2/13/2012 21.0 9/18/2012 172 3/13/2012 22.0 10/22/2012 157 4/9/2012 21.0 11/6/2012 189 5/2/2012 20.0 12/18/2012 170 6/18/2012 21.6 1/22/2013 176 7/9/2012 21.0 2/19/2013 174 8/6/2012 21.0 3/19/2013 168 9/18/2012 21.0 4/16/2013 171 10/22/2012 18.0 5/13/2013 169 11/6/2012 23.6 6/24/2013 179 12/18/2012 22.2 7/9/2013 182 1/22/2013 22.8 8/19/2013 183 2/19/2013 19.3 9/17/2013 193 3/19/2013 19.1 10/23/2013 188 4/16/2013 18.8 11/18/2013 174 5/13/2013 23.8 12/17/2013 203 6/24/2013 20.0 1/7/2014 194 7/9/2013 21.7 2/17/2014 197 8/19/2013 16.0 3/10/2014 230 9/17/2013 21.2 4/28/2014 230 10/23/2013 21.2 5/13/2014 200 11/18/2013 23.9 6/2/2014 173 12/17/2013 24.2 7/28/2014 200 1/7/2014 24.0 8/18/2014 210 2/17/2014 20.6 9/3/2014 210 3/10/2014 26.2 10/6/2014 205 4/28/2014 19.1 11/4/2014 204 5/13/2014 23.3 12/9/2014 215 6/2/2014 23.1 1/20/2015 226 7/28/2014 19.0 2/2/2015 211 8/18/2014 15.2 3/3/2015 209 9/3/2014 18.9 4/7/2015 211 10/6/2014 15.9 5/11/2015 225 11/4/2014 20.9 6/23/2015 228 12/9/2014 17.0 7/6/2015 222 1/20/2015 20.9 8/10/2015 264 2/2/2015 18.7 9/15/2015 231 3/3/2015 19.8 10/6/2015 222 4/7/2015 19.0 11/9/2015 215 MW-31 Date Nitrate (mg/I) Date Chloride (mg/I) 5/11/2015 18.4 12/8/2015 231 6/23/2015 18.0 1/19/2016 228 7/6/2015 18.8 2/15/2016 246 8/10/2015 19.9 3/2/2016 228 9/15/2015 18.9 4/12/2016 254 10/6/2015 22.0 5/3/2016 243 11/9/2015 18.4 6/15/2016 252 12/8/2015 19.5 7/12/2016 241 1/19/2016 18.9 8/16/2016 272 · 2/15/2016 18.8 9/13/2016 254 3/2/2016 18.0 10/4/2016 260 4/12/2016 22.8 11/1/2016 267 5/3/2016 18.6 12/5/2016 274 6/15/2016 19.2 1/17/2017 287 7/12/2016 17.4 2/7/2017 266 8/16/2016 19.7 3/6/2017 250 9/13/2016 18.6 4/4/2017 263 10/4/2016 18.8 5/1/2017 263 11/1/2016 19.8 6/5/2017 278 12/5/2016 18.5 7/11/2017 254 1/17/2017 20.9 8/14/2017 310 2/7/2017 21.1 9/11/2017 248 3/6/2017 20.4 10/2/2017 287 4/4/2017 19.5 11/1/2017 292 5/1/2017 18.3 12/4/2017 285 6/5/2017 20.8 1/24/2018 323 7/11/2017 18.0 2/20/2018 292 8/14/2017 19.5 3/5/2018 311 9/11/2017 20.2 4/17/2018 308 10/2/2017 21.0 5/14/2018 326 11/1/2017 19.2 6/18/2018 359 12/4/2017 19.2 7/23/2018 351 1/24/2018 17.0 8/10/2018 336 2/20/2018 18.8 9/10/2018 333 3/5/2018 19.0 10/24/2018 286 4/17/2018 19.0 11/13/2018 281 5/14/2018 18.8 12/10/2018 302 6/18/2018 18.0 1/15/2019 283 7/23/2018 18.0 2/12/2019 296 8/10/2018 18.3 3/5/2019 322 MW-31 Date Nitrate (mg/I) Date Chloride (mg/I) 9/10/2018 20.1 4/10/2019 294 10/24/2018 18.3 5/7/2019 346 11/13/2018 17.9 6/3/2019 325 12/10/2018 18.3 7/15/2019 374 1/15/2019 19.0 8/5/2019 372 2/12/2019 18.6 9/23/2019 365 3/5/2019 18.5 10/9/2019 318 4/10/2019 19.7 11/12/2019 338 5/7/2019 18.9 12/3/2019 343 6/3/2019 19.7 1/14/2020 381 7/15/2019 19.8 2/4/2020 370 8/5/2019 17.0 3/10/2020 368 9/23/2019 19.5 4/6/2020 376 10/9/2019 19.8 5/5/2020 361 11/12/2019 18.8 6/2/2020 377 12/3/2019 18.3 7/7/2020 370 1/14/2020 17.5 8/10/2020 368 2/4/2020 18.0 9/1/2020 367 3/10/2020 19.2 10/19/2020 345 4/6/2020 18.8 11/16/2020 251 5/5/2020 20.1 12/7/2020 311 6/2/2020 18.7 1/12/2021 354 7/7/2020 19.2 2/9/2021 380 8/10/2020 21.6 3/8/2021 388 9/1/2020 18.4 4/13/2021 377 10/19/2020 18.6 5/10/2021 384 11/16/2020 16.5 6/7/2021 374 12/7/2020 18.8 7/27/2021 391 1/12/2021 17.1 8/9/2021 365 2/9/2021 14.3 9/7/2021 356 3/8/2021 17.4 10/19/2021 371 4/13/2021 18.6 11/15/2021 366 5/10/2021 18.9 12/13/2021 376 6/7/2021 20.6 1/19/2022 370 7/27/2021 18.7 2/8/2022 379 8/9/2021 15.7 3/7/2022 416 9/7/2021 16.0 4/11/2022 372 10/19/2021 18.1 5/3/2022 381 11/15/2021 19.3 6/6/2022 351 12/13/2021 17.9 7/12/2022 421 MW-31 Date Nitrate (mg/I) Date Chloride (mg/I) 1/19/2022 18.0 8/8/2022 369 2/8/2022 13.5 9/20/2022 390 3/7/2022 17.0 10/11/2022 397 4/11/2022 18.0 11/8/2022 243 5/3/2022 13.0 12/13/2022 335 6/6/2022 13.0 1/24/2023 333 7/12/2022 16.9 2/7/2023 388 8/8/2022 16.8 3/14/2023 302 9/20/2022 17.1 4/24/2023 297 10/11/2022 17.0 5/9/2023 388 11/8/2022 16.0 6/5/2023 397 12/13/2022 12.6 7/10/2023 429 1/24/2023 18.7 8/1/2023 404 2/7/2023 16.5 9/6/2023 417 3/14/2023 17.9 10/3/2023 396 4/24/2023 14.3 11/6/2023 407 5/9/2023 15.4 12/13/2023 408 6/5/2023 '16.4 7/10/2023 16.6 8/1/2023 17.5 9/6/2023 16.8 10/3/2023 17.0 11/6/2023 18.0 12/13/2023 17.2 Under the groundwater sampling progran, accelerated monitoring for nitrate began in MW-31 prior to when the accelerated monitoring for chloride began. This difference accounts for the different number of data points represented above. TabK Concentration Trend Graphs .------.-----,,------,-----,----,-------,----..------.-----,-----,• sz-:iao oz-unr Cl) H-das C 0 ;; I! -C Cl) CJ C 0 u Cl) -"' ::i n-:iaa z .... ... .!I Cl) E 0 N Cl) is: -z~-Jd'ef 1------,1.... __ ___...1-----1-----1----1----'-----1------1------Jl----..j. 90-PO 0 co (0 IO N 0 (716w) Ill L~-das C 0 .:; e .... C Cl) CJ C 0 0 Cl) ,, ·.::: 0 v~-oaa ::c 0 .... .. .s Cl) E 0 N Cl) a: U-Jd'v' 90-PO 0 ~ 0 0 ~ 0 ~ 0 0 0 ci 0 ci ci 0 ci 0 ci ci ci Ol co r--co LI") 'St M N (716w) II) C: 0 .:i E -C: Cl> CJ C: 0 (.) ~ E -z N .. ~ Cl> E 0 N Cl> a: .... ~ 0 0 0 0 '=! C1l 0 --~ C> .c:::: .--◄D~ ~ ' '8........ ~ t? .~ - 0 0 0 0 0 0 co r--<D 0 0 0 ---- .. ~ ~ --01:-unr - ~ D. ~ ~► .. ~ -....... ◄ ~ '. 90-PO 0 0 0 0 0 0 0 0 0 0 0 0 1/) "I" C") N 0 0 0 0 0 0 0 (716w) Ill C: 0 .:; I! ... C: Cl) c., C: 0 0 Cl) ,, ·;: .2 .c 0 N .. Cl) ... Cl) E 0 N Cl) ii: ,------,-------,------r-----r-----,------,----,------,-----,-sz-:iaa oz-unr H-das v~-:iaa z~-Jd\f !-----+---+----!-----+---+-----1----+----+----+ 90-PO C! co 0 IN 0 c:i (7/6W) 0 tri 0 <O 0 -.i-0 IN 0 c:i .----..----...---..----,----,----,----,----,. v2:-1nr • ~2:-PO fl) C 0 .:; cu ... -C C1) CJ • 02:-unr C 0 0 C1) -cu ... :: z <( 6~-qe.:1 M ... C1) -C1) E 0 N -~ CL L~-des g~-ABI/\I i------------------!-----!------+--------v ~-::iea (0 """ N 0 00 (0 N 0 ..... ..... ..... ..... (716w) ,,, C: 0 .:= C'CI ... ... C: (I) CJ C: 0 0 (I) ,, "i: .2 .c: 0 ct M ... (I) ... (I) E 0 N .!!! D.. ~C:-PO oc;-unr 6 ~-qe.:1 L~-des !-----+----+-----+-----+-----+-----+-----+ t,~-oea 0 "<t ..... 0 N ..... 0 0 ..... 0 co (716w) 0 (0 0 N 0 Ill C: 0 .::; 111 ... .. C: Q) CJ C: 0 0 .e 111 ... .. z .... I z s: t- ,------r----~---~r----...... ------.----~----,-------r gz-:iaa oz-unr H-das n-:iaa -z~-Jd'v' !----+----+----+-----+-----+-----+----+----+. 90-PO IO C') IO N N IO 0 0 H-des Ill C 0 :;::; I! -C a, u C 0 u a, v(-::iea "C ·.::: ..2 .c u .... I z ~ i(-Jd\f (716w) II) C 0 +l IV ... -C Q) CJ C 0 0 Cl) -E -z N I z ~ ~----~-------,-------.----------,------....--------.-gz-:iaa oz-unr • H-das n-:iaa z~-Jd'v' 1--------+-------1,--------1--------t------t---------i-90-PO 0 C\I 0 0 0 co 0 co 0 C\I 0 Ill C 0 :;:I 111 .. .. C Cl) c., C 0 (.) Cl) 'C ·;: 0 :E (.) N I z ~ ~-------------------------------gz;-::>aa . oz-unr -H-das -v~-::>aa -z~-Jdv' 1-------+------+-----~-----1------+------+90-PO 0 N 0 0 0 co 0 r.o 0 'St 0 N 0 Ill C: 0 :;::::; l!! .... C: Q) c., C: 0 (.) .s CIS ... .... z M I z 3: I- ...---------~----...---------~----...------.-s1:-::iao 01:-unr H-das v~-::iaa U-Jd'v' 1---------1-------1-----1---------1-------1-----1-------+, 90-PO IO (Y) 0 (Y) IO N 0 N IO 0 0 (716w) Ill C 0 +:l ca .. -C Cl) CJ C 0 0 Cl) "C ·;: 0 :E 0 M I z s: I- ,------r------r--------,----..-----.------,-----,---..-------.-----,-gz-:iaa oz-unr -H-das v~-:iaa U-Jd'v' 1-----+-----+-----,.-------+-----+------+---+----+-----+90-PO 0 0 N 0 co 0 <D 0 v 0 N 0 0 0 co 0 <D 0 v 0 N 0 Ill C: 0 +l ca .. -C: a, CJ C: 0 0 a, -ca .. -z .., z 3: I- .------.-------r--------,,------.-------r-----.-------r gz-:iaa £Z-JBJN . oz-unr • L~-das v~-:iaa U-Jd'v' 1-------+-----+-----t-------+-----+-----t------+ 90-PO 0 It) (') 0 0 (') 0 It) N 0 0 N (716w) 0 ~ 0 ~ 0 It) ci 0 0 ci H-das Ill C 0 .::; l! .. C Q) CJ C 0 0 Q) "C v~-::iaa ·.::: 0 :E 0 "'t z ~ 1:~-Jd\f 90-PO 0 0 0 C! 0 0 0 0 C! c:i LO c:i LO c:i LO c:i LO 0 "'" C"l C"l N N (716w) H-das Ill C 0 +l la .. -C Cl) CJ C 0 0 Jg v~-oaa l! -z ..... I z ~ I- U-Jd'v' 90-PO a a a a a a a a a a a a a ~ a a a a a a a:i co -<i C\I 0 a:i co -<i C\i 0 ...... T11Bw> £Z-JBV\I oz-unr H-das Ill C 0 :.:; ra ... -C Cl) C.) C 0 0 Cl) 'C n-:iaa ·.::: 0 :E 0 r,... I z ~ l ~ -Jd'v' , 90-PO 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ci ci ci ci ci ci ci ci ci co ...,. N 0 (716w) co ...,. N ~ H-das 1/1 C: 0 :;:; I!! .. C: Cl) C.) C: 0 0 J!! v~-oaa ca ... .. z co .... I z ~ z~-Jd'ef 90-PO 0 0 0 0 0 0 0 0 0 0 0 0 IO 0 ~ C! IO 0 N N ci ci (716w) ,----~---~---~-------,-------,---~---~----,-gz-:iaa oz-unr Ill -H-das C: 0 ~ Ill ... -C: (I) CJ C: 0 0 Cl) "C n-:iaa ·.::: 0 :E 0 00 .... I z 3: I- U-Jd'v' 9Q-j:JQ 0 ~ ~ 0 0 ~ ~ ~ 0 0 ci 0 0 ci ci 0 0 0 ci c:i Ol co I'-<O LO -st (V') N (716w) en C 0 +l e! -C Cl) CJ C 0 u .e f -z 0 N z 3: I- 0 0 0 N ~ ► I ◄ \ V ). V ~ ~ ----~ ----..- 0 0 ~ 0 0 Ct) 0 0 "': 0 0 ~ 0 0 q (7µiw) 0 0 co c:i 0 0 co c:i 0 0 "'" c:i 0 0 N c:i 0 0 0 c:i £z-das zz-6nv zz-qa.:J ~z-uer .------~-----.------~--------.-----~--------.-vz-Jd'v' £z-das • £Z-JBV\I Ill C: 0 +I cu ... .. C: Cl) zz-Bnv CJ C: 0 u Cl) 'O ·.::: 0 :E u 0 N I z ~ zz-qa.::1 ~z-uer 0 0 0 0 ~ 0 0 ci ci ci ci 0 ci ci CD IO v (") N (716w) II) C 0 +l 111 ... -C zz-Bnv CII u C 0 0 CII -111 ... ;t::: z .... N I z ~ zz-qa.:J (716w) Ill C 0 +l ~ ... C Cl) CJ C 0 0 Cl) "C ·.::: 0 :E 0 .... N z ~ ~ 0 LC) . 0 LO v 1 '~ r-------~ / / ~ ◄ \ ~ • ► 0 ci v 0 0 LO ci (") (") ~ LC) N (716w) 0 ci N 0 ci 0 LO £z-das zz-Bnv zz-qa.:J ~z-uer 0 ci --........ bO E -cu +,I ru '-+,I ·-z en .-t I 111::1' s I- 0 0 c:i r-- 0 0 c:i I.O 0 0 c:i LI) 0 0 c:i .._,. 1/Sw 0 C! 0 m 0 0 c:i N 0 C! 0 .--1 0 0 c:i 0 V, 0 I-" 0 0 I-" V, 0 N 0 0 mg/L N V, 0 w 0 0 w V, 0 .j::, 0 0 .j::, V, 0 V, 0 0 12/1/2005 +---+-----..-+---+---+------11------+-----+---l---+----I 6/1/2006 12/1/2006 6/1/2007 12/1/2007 6/1/2008 12/1/2008 6/1/2009 12/1/2009 6/1/2010 12/1/2010 6/1/2011 12/1/2011 6/1/2012 12/1/2012 6/1/2013 12/1/2013 6/1/2014 12/1/2014 6/1/2015 12/1/2015 6/1/2016 12/1/2016 6/1/2017 12/1/2017 6/1/2018 12/1/2018 6/1/2019 12/1/2019 6/1/2020 12/1/2020 6/1/2021 12/1/2021 6/1/2022 12/1/2022 6/1/2023 12/1/2023 6/1/2024 ~~-_.__ _ _,_ _ ___._ _ ___.__ _ ___.__~,___.,__ _ __,__----'-----' -I :e .,::. I ~ \0 n :::r -0 ""' -· Q. tD n 0 ::::J n tD ::::J ,... al ,... -· 0 ::::J "' -.::::. ao E - z .-t N 12/1/2005 6/1/2006 12/1/2006 6/1/2007 12/1/2007 6/1/2008 12/1/2008 6/1/2009 12/1/2009 6/1/2010 12/1/2010 6/1/2011 12/1/2011 6/1/2012 12/1/2012 6/1/2013 12/1/2013 6/1/2014 12/1/2014 6/1/2015 12/1/2015 6/1/2016 12/1/2016 6/1/2017 12/1/2017 6/1/2018 12/1/2018 6/1/2019 12/1/2019 6/1/2020 12/1/2020 6/1/2021 12/1/2021 6/1/2022 12/1/2022 6/1/2023 12/1/2023 0 I-' 0 0 N 0 0 mg/L w 0 0 .,:,. 0 0 l.n 0 0 en 0 0 6/1/2024 L• ___ ___..! ____ L_ ___ ....L._ ___ ___L. ____ L._ __ _____J -I =E .,:::. I N ~ n ::::r -0 .., -· a. tD n 0 ::s n tD ::s " al " -· 0 ::s "' 100 90 80 70 60 ... tio so E 40 30 20 10 0 TW4-22 Nitrate Concentrations ~ ~ ~ ~ ◊ y ~ ~ ~ ~ y ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ v v v v v v v v v v v v v v v v v 0 2/28/2007 8/31/2007 2/29/2008 8/31/2008 2/28/2009 8/31/2009 2/28/2010 8/31/2010 2/28/2011 8/31/2011 2/29/2012 8/31/2012 2/28/2013 8/31/2013 2/28/2014 8/31/2014 2/28/2015 8/31/2015 2/29/2016 8/31/2016 2/28/2017 8/31/2017 2/28/2018 8/31/2018 2/28/2019 8/31/2019 2/29/2020 8/31/2020 2/28/2021 8/31/2021 2/28/2022 8/31/2022 2/28/2023 8/31/2023 I-' 0 0 N 0 0 w 0 0 mg/L .i,.. 0 0 u, 0 0 O'I 0 0 ...... 0 0 00 0 0 -I :E .i::. I N N n :::::r -0 ~ -· 0. tD n 0 ::::, n tD ::::, ,... al ,... -· 0 ::::, "' V, C 0 ·-.., ~ .., C cu u C 0 u cu .., ru ... .., ·-z ~ N I ~ s I- 6/27/2007 10/10/2007 6/25/2008 10/15/2008 6/24/2009 12/17/2009 6/9/2010 8/24/2010 2/17/2011 8/17/2011 1/18/2012 8/30/2012 2/11/2013 9/3/2013 1/27/2014 8/11/2014 3/9/2015 8/31/2015 3/9/2016 7/25/2016 3/8/2017 7/26/2017 3/12/2018 8/22/2018 3/8/2019 9/4/2019 2/19/2020 9/4/2020 2/23/2021 8/24/2021 3/9/2022 8/30/2022 3/7/2023 8/9/2023 N 0 0 0 ~ 0 0 C'I 0 0 mg/L co 0 0 I-' 0 0 0 I-' N 0 0 I-' ~ 0 0 -I ~ .s::. I N .s::. n :::r -0 ""' -· C. tD n 0 ::::, n tD ::::, ~ ""' QJ ~ -· 0 ::::, "' ...I "ao E TW4-25 Nitrate Concentrations 25 20 15 10 5 0 ~ ~ ~ ~ y y ~ ~ ~ ~ y ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~v ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ...I tio E 450 400 350 300 250 200 150 100 50 0 TW4-25 Chloride Concentrations ~ ~ ~ ~ y y ◊ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ # # # # # # # # # # # # # # # # # 6/22/2005 6/21/2006 8/22/2007 8/4/2008 8/24/2009 4/27/2010 9/14/2010 1/10/2011 5/10/2011 9/7/2011 1/24/2012 5/2/2012 9/19/2012 1/23/2013 5/15/2013 9/18/2013 1/8/2014 5/14/2014 9/9/2014 1/21/2015 5/12/2015 9/15/2015 1/20/2016 5/4/2016 9/14/2016 1/18/2017 5/2/2017 9/12/2017 1/23/2018 5/15/2018 9/11/2018 1/16/2019 5/7/2019 9/24/2019 1/15/2020 5/6/2020 9/1/2020 1/11/2021 5/11/2021 9/8/2021 1/17/2022 5/4/2022 9/20/2022 1/25/2023 5/10/2023 9/5/2023 0 0 V, 0 I-' 0 0 mg/L I-' V, 0 N 0 0 N V, 0 s :e I w 0 2 ;:;.- ""I DJ r-1' tD -3 OQ ....... -- f--" 1.11 0 0 0 0 6/1/2005 12/1/2005 6/1/2006 12/1/2006 6/1/2007 12/1/2007 6/1/2008 12/1/2008 6/1/2009 12/1/2009 6/1/2010 12/1/2010 6/1/2011 12/1/2011 6/1/2012 12/1/2012 6/1/2013 12/1/2013 6/1/2014 12/1/2014 6/1/2015 12/1/2015 6/1/2016 12/1/2016 6/1/2017 12/1/2017 6/1/2018 12/1/2018 6/1/2019 12/1/2019 6/1/2020 12/1/2020 6/1/2021 12/1/2021 6/1/2022 12/1/2022 6/1/2023 12/1/2023 mg/L f--" N N w 1.11 0 1.11 0 0 0 0 0 s: :E I w 0 n ::::r -0 ::!. a. t'D -3 OQ -:::::: - 0 b V, b ... 0 b ... V'I b mg/L IV 0 b IV V, b w 0 b w V, 0 6/1/2005 +'-----+----+---------+-----+-------..---------1 12/1/2005 6/1/2006 12/1/2006 6/1/2007 12/1/2007 6/1/2008 12/1/2008 6/1/2009 12/1/2009 6/1/2010 12/1/2010 6/1/2011 12/1/2011 6/1/2012 12/1/2012 6/1/2013 12/1/2013 6/1/2014 12/1/2014 6/1/2015 12/1/2015 6/1/2016 12/1/2016 6/1/2017 12/1/2017 6/1/2018 12/1/2018 6/1/2019 12/1/2019 6/1/2020 12/1/2020 6/1/2021 12/1/2021 6/1/2022 12/1/2022 6/1/2023 12/1/2023 .,___ __ --1 ___ _j_ ___ ..J._---41=---1----L----'-------1 s =E I w 1-1 z -· ,. al ,. tD -3 OQ ........ -- 6/1/2005 12/1/2005 6/1/2006 12/1/2006 6/1/2007 12/1/2007 6/1/2008 12/1/2008 6/1/2009 12/1/2009 6/1/2010 12/1/2010 6/1/2011 12/1/2011 6/1/2012 12/1/2012 6/1/2013 12/1/2013 6/1/2014 12/1/2014 6/1/2015 12/1/2015 6/1/2016 12/1/2016 6/1/2017 12/1/2017 6/1/2018 12/1/2018 6/1/2019 12/1/2019 6/1/2020 12/1/2020 6/1/2021 12/1/2021 6/1/2022 12/1/2022 6/1/2023 0 u, 0 I-' 0 0 I-' u, 0 N 0 0 mg/L N u, 0 w 0 0 w u, 0 12/1/2023 -j I I .j::,, 0 0 .j::,, u, 0 u, 0 0 s ~ I w .... n :r -0 ~ -· Q. tD n 0 ::::s n tD ::::s ~ ~ QJ ~ -· 0 ::::s TabL CSV Transmittal Letter Kathy Weinel From: Sent: To: Cc: Subject: Attachments: Dear Mr. Goble, Kathy Weinel Tuesday, February 13, 2024 8:11 AM Phillip Goble 'Dean Henderson'; cleahy@utah.gov; David Frydenlund; Scott Bakken; Garrin Palmer; Logan Shumway; Jordan Christine App; Dawn Kolkman; awingate@utah.gov Transmittal of CSV Files White Mesa Mill 2023 Q4 Nitrate Monitoring 23K1396 FINAL EnergyFuels-Client 01 Dec 23 1355.csv; Q4 2023 DTW all programs.csv; Q4 2024 Nitrate Field Data.csv Attached to this e-mail is an electronic copy of laboratory results for Nitrate monitoring conducted at the White Mesa Mill during the fourth quarter of 2023, in Comma Separated Value (CSV) format. Please contact me at 303-389-4134 if you have any questions on this transmittal. Yours Truly Kathy Weinel eF Energy Fuels Resources (USA) Inc. Kathy Weinel Director. Regulatory Compliance t:303.389.4134 I c: I f:303.389.4125 KWeinel@energyfuels.com 225 Union Blvd., Suite 600 Lakewood, CO 80228 http://www.energyfuels.com This e-mail is intended for the exclusive use of the person(s) mentioned as the recipient(s). This message and any attached files with it are confidential and may contain privileged or proprietary information. If you are not the intended recipient(s) please delete this message and notify the sender. You may not use, distribute print or copy this message if you are not the intended recipient(s). 1 TabM Residual Mass Estimate Analysis Figure Tab M-Figures :c--a., -ra E .::. UI w UI UI ra :!!: a., E :::, a: a., -ra ... ±: z 45000 .....-------------------------------------------------------, 40000 ·I I 1 -----------------1---------------------------------------1 I ...._ 35000 30000 25000 -l----------11----------------------------------------------'-I 20000 -1------------------------------------------------------------1 0 ~~~~I),. I),. b,. b,. ~ ~ ~ ½ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~" "" "~-~-~ ~ ~ ~,,", ~ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ifififif~~~~~~V~~~~~v~ ~0 "'Va? !':>ro b<'V ..._'I' a? !':>'V l),."P ..._'V n.ri; !':>'D l),.'D ..._'D n..,, !':>'D b<<v "'V n,'D !':>.,, b<ri:: "'V n,'V !':><v b-.'V ..._<v ,.'D :b<v b-.<v ..._'D n,'V !':><v b-.<v .... ri:: n.<v !':><v_b,.<v .... .,,_'l,ri:: ::>J.,, b<ri;: ..._'D_'l,<v !':>'D \),..,, ~oooaooo~oooaoooaoooaoooao~oaoooaooo~o~oao~oa _____._ NilralePlumeMassEstlm11\e& ---Llnear(NllralePlume1MassEsllmeles) HYDRO GEO CHEM,INC. Time Series of Nitrate Plume Mass Estimates Approved I Date SJS Author Date File Name 'Figure Nmtrend 4023.xls M. 1 https://hgcinc.sharepoint.comNOL4/718000/feb24/nitrate/Nmtrend4Q23.xlsx: Fig M.1 Tab M -Tables The Residual Mass Estimate Analysis Tables Table M.1 Residual Nitrate Plume Mass residual plume quarter mass (lb) baseline 43700 01 2013 41350 02 2013 34140 03 2013 36930 04 2013 41150 01 2014 31410 02 2014 30620 03 2014 24140 04 2014 34370 01 2015 38740 02 2015 33042 03 2015 34880 04 2015 30980 01 2016 33083 02 2016 28465 03 2016 32230 04 2016 31798 01 2017 43787 02 2017 32145 03 2017 32939 04 2017 31501 01 2018 33616 02 2018 31257 03 2018 25568 04 2018 28805 01 2019 29509 02 2019 31455 03 2019 30976 04 2019 29870 01 2020 32740 02 2020 30467 03 2020 35525 04 2020 25875 01 2021 35052 02 2021 34143 03 2021 28932 04 2021 28290 01 2022 27146 02 2022 31933 03 2022 29852 04 2022 27014 01 2023 30839 02 2023 28274 03 2023 25039 04 2023 25500 Notes: lbs= pounds