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NC0039586_Response RA-21-0080_20210224
te) NERGY. FEB 2 4 2021 Serial: RA-21-0080 Certified Mail Number: 7014 2120 0003 3196 7224 Return Receipt Requested Mr. Danny Smith, Director NC DEQ Division of Water Resources 512 N. Salisbury Street Raleigh, NC 27604 Kim E. Maza Vice President Harris Nuclear Plant 5413 Shearon Harris Rd New Hill, NC 27562-9300 /ce Subject: Duke Energy Progress, LLC (Duke Energy) — Shearon Harris Nuclear Power Plant NPDES Permit No. NC0039586, Wake County Clarifications to Mixing Zone Modeling & Analysis Dear Mr. Smith: The 2016 NPDES Permit for Duke Energy's Shearon Harris Nuclear Power Plant (HNP) included new effluent limits for copper and zinc at Outfall 006, which discharges into Harris Lake. This permit, effective September 1, 2016, required compliance with these new limits by September 30, 2021. In accordance with the strategy outlined in the Corrective Action Plan (CAP), submitted to NC DEQ's Division of Water Resources (DWR) in September 2017, Duke Energy has expanded sampling and effluent characterization, employed water chemistry management strategies, and completed specialized testing and site -specific engineering studies. In August 2020, as part of these compliance activities, Duke Energy submitted the results of a Mixing Zone Study (Study), completed at the request of DWR. The Study used EPA guidance and national best practices to complete hydrodynamic modeling of mixing zones, evaluate acute and chronic mixing zone boundaries, and calculate dilution effects. In November, Duke Energy and DWR held a video conference call to address DWR questions about the Study. At this meeting, DWR raised two questions regarding the CORMIX hydrodynamic model and recommended additional modeling runs to validate results. Although originally requesting additional review time, DWR confirmed by email on December 1161, that their review was complete, and they had no additional questions or concerns. After performing the requested additional modeling runs, responses to DWR's two inquiries were detailed in the enclosed Technical Memorandum (TM). Duke Energy trusts DWR is satisfied with the responses and supplemental modeling provided in the TM. Duke Energy requests the Study be approved, and the conclusions implemented to remove the copper and zinc limits from Outfall 006 within NPDES Permit No. NC0039588. Duke Energy respectfully requests the removal of copper & zinc limits associated with Part I (A)(6) Effluent Limitations and Monitoring Requirements (Outfall 006) and the compliance language and date of September 30, 2021 as addressed in Part 1 (A)(9) Schedule of Compliance (Outfall 006). A check for $1,030 made payable to NC DEQ DWR for the major permit modification processing fee is enclosed. Duke Energy remains committed to continued compliance at HNP and requests DWR issue an appropriate permit revision as soon as practicable but prior to the current NPDES permit expiration date of August 31, 2021. NC DEQ Division of Water Resources Serial: RA-21-00801 Page 2 1 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. 1 am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations. Sincerely, 1<'fr E. n c... Kim E. Maza Vice President, Harris Nuclear Plant Duke Energy Progress, LLC Enclosures: Check for Major Permit Modification Processing Fee Technical Memorandum, Clarifications to Mixing Zone Modeling & Analysis, February 12, 2021 cc: Mr. Sergei Chemikov, Environmental Engineer III, NPDES Industrial Permitting Certified Mail Number: 7014 2120 0003 3196 7262 Return Receipt Requested Mr. Scott Vinson, Water Resources Regional Supervisor Certified Mail Number: 7014 2120 0003 3196 7279 Return Receipt Requested Ms. Cyndi Karoly, Chief, Water Sciences Section, NC DEQ DWR Certified Mail Number: 7014 2120 0003 3196 7286 Return Receipt Requested Mr. David Hill, Environmental Specialist II, NPDES Industrial Permitting Certified Mail Number: 7014 2120 0003 3196 7231 Return Receipt Requested Mr. Nick Coco, Environmental Engineer, NPDES Permitting Certified Mail Number: 7014 2120 0003 3196 7248 Return Receipt Requested NCDEQ DWR Central Files Certified Mail Number: 7014 2120 0003 3196 7255 Return Receipt Requested NC DEQ Division of Water Resources Serial: RA-21-0080 Enclosures Hams Nuclear Plant NPDES Permit No. NC0039586 Check for Major Permit Modification Processing Fee Submittal of Technical Memorandum, Clarifications to Mixing Zone Modeling & Analysis (46 pages including cover) LIAl1*/ DUKE ENERGY CAROLINAS, LLC 40e S TRYON STREET ACCOUNTS PAYABLE ST2S0 CHARLOTTE, NC 28202 000018 R3K1SDA NORTH CAROLINA DEPARTMENT Of ENVIRONMENTAL QUALITY DIVISION OF WATER RESOURCES 1617 MAIL SERVICE CENTER RALEIGH NC 27699 1617 �� EN RGY Remittance Advice Page 1 of 1 Date: 02/23/2021 Check #: 1000186714 Payment Amount: 1,030.00 Vendor #: 0000071949 35 Invoice Date 02/18/2021 NC0039586 Invoice # Voucher ID # 10136673 Invoice Gross Amt Discount Amount 1,030.00 0.00 Invoice Net Amt 1,030.00 PLEASE DETACH BEFORE DEPOSITING CHECK DOKE ENERGY CAROLINAS, LLC 400 S T1Y08 STREET ACCOUNIS.PAYABLE - ST2S8 CHARLOTTG.NC 2810i, THIS CHECK GONTAPNS MULTIPLE FRAUD DETERRENT SECURITY FEATURES fDUKE 4" ENERGY. Pay Exactly **One Thousand Thirty and 00/100 -US Dollars ** TO THE ORDER OF NORTH CAROLINA DEPARTMENT OF ENVIRONMENTAL QUALITY JP MORGAN CHASE BANK, N.A. SYRACUSE, NY 13206 VOID J 5D-437/2I3 Date: 02/23/2021 Check #: 1000186714 Amount„„// $**"11,030.0O VOID AFTER 180 DAYS 1► thorized Signer n• Jacobs Technical Memorandum 111 Coming Road, Suite 200 Cary, North Carolina 27518 +1.919.859.5000 +1.919,859.5151 (fax) www.jacobs.com Subject Project Name Project No. Date Prepared for Prepared by Shearon Harris Nuclear Plant - Permit NC#0039586 Clarifications to Mixing Zone Modeling & Analysis Shearon Harris Nuclear Plant NPDES Permit Assistance D33934.02 February 11, 2021 Duke Energy Progress, LLC (Duke Energy) Jennifer Bell, PE — CH2M HILL North Carolina, Inc. (Jacobs) Brad Paulson — Jacobs CARo• s F. i Executive Summary In July 2019, as a response to Duke Energy's submittal of a Water Effect Ratio Study, the North Carolina Division of Water Resources (DWR) requested that a dye dispersion study or dilution modeling be completed to augment the WER Study results and further inform the development of permit limits for Total Recoverable Copper at Outfall 006 of the Shearon Harris Nuclear Plant (HNP) discharging into Harris Lake. Accordingly, Duke Energy conducted a mixing zone study following U.S. Environmental Protection Agency (EPA) guidance and using the Cornell Mixing Zone Expert System (CORMIX). The results of that study, submitted in August 2020, indicated significant dilution effects occur at Outfall 006. Within the model, the (east favorable of eight seasonal cases predicted a dilution factor of 15.3 (or 6.5% Instream Water Concentration [IWC]) at the acute mixing zone boundary, equivalent to an allowable daily maximum of 166.1 pglL for Total Recoverable Copper. After reviewing the Mixing Zone Study, DWR had two questions regarding the CORMIX model: 1. Is the modeling algorithm for a "Heated Discharge" different than what is used for the "Conservative Pollutant" option? 2. What is the sensitivity of the model to variations in Reservoir levels? Responses to these two inquiries are detailed in this Technical Memorandum (TM) and were confirmed with additional CORMIX model runs. In both cases, the model results reaffirmed the conclusion that, when dilution effects are considered, the maximum predicted copper concentration at Outfall 006 (calculated by DWR Reasonable Potential Analysis spreadsheets) is Tess than half of the allowable limit. TABLE 1. Dilution Factors & Equivalent Copper Effluent Limits from Additional CORMIX Cases CORMIX- Calculated Dilution Factor Daily Maximum (Acute) Monthly Average (Chronic) Results from Original CORMIX Model in Mixing Zone Study 15.3 166.1 pg/L Results Using "Conservative Pollutant' Option 15.3 166.1 pglL Results Using Minimum (10l1' percentile) Reservoir Water Levels 15.0 163.0 pglL Maximum Values at Outfall 006 — Jan 201E to July 2020 63.5 pglL 166.1 pgIL' 166.1 pg/L' 163.0 pg/L' 32.7 pglL a The resulting calculated i.mlt for monthly average exceeds the calculated limit for daily maximum (or acute conditions). Therefore, the acute condition governs and the Daily Max and Monthly Average limits are equivalent CHI 1ir_L 1.3%!1h f 3lci.11a 11r: J=v a Jacobs Shearon Harris Nuclear Plant - Permit NC#0039586 Clarifications to Mixing Zone Modeling & Analysis 1. introduction Duke Energy conducted a mixing zone study evaluating the dilution provided for the discharge from Outfall 006 from Shearon Harris Nuclear Plant (HNP) into Shearon Harris Reservoir under National Pollutant Discharge Elimination System (NPDES) Permit No. NC0039586, effective September 1, 2016. Prior to initiating modeling, a plan for the Mixing Zone Study was submitted to DWR on November 15, 2019, which included proposing using CORMIX for dilution modeling. Email approval of the study plan was received from DWR with the following recommendations: • Ambient data collected since 2017 needs to include seasonal measurements of velocity, temperature, and density at the site of discharge and anticipated plume; and • The themiocline should be sufficiently characterized and modeled as a boundary condition where appropriate. Both ambient current and seasonal density gradients were addressed and incorporated into the modeling approach. CORMIX modeling results and mixing zone analysis were summarized in the Mixing Zone Study (Study), dated August 14, 2020, which was submitted concurrently with the Year4 Activities Report for the Corrective Action Plan, dated August 19, 2020. Duke Energy requested the opportunity to discuss both the Study and the conclusions summarized in the Year 4 Activities Report with DWR and to address any questions or concerns. A video conference call was held on November 2, 2020, with Duke Energy, DWR, and Jacobs personnel. Meeting minutes for this video conference are included as Attachment A. While DWR expressed confidence in the overall approach and information they had reviewed, two specific questions were raised by David Hill regarding the CORMIX model: 1. Is the modeling algorithm for a "Heated Discharge" different than what is used for the "Conservative Pollutant option, and how are the predicted dilution factors and plume dimensions affected? 2. What is sensitivity of the model results to variations in key input parameters such as reservoir levels? Responses to these two inquiries are detailed in the following sections and were evaluated with additional CORMIX model runs. A representative sample of the validating runs was selected for each section and output data included as Attachment B and Attachment C, respectively. 2. Temperature Dispersion Versus Conservative Constituent Dilution In accordance -with -the -approved study -plan, the-GORMIX-hydrodynanhic-modeling-system-(GORMIX-1 - module) was used to calculate the dilution and associated plume dimensions for a range of effluent and ambient conditions. CORMIX is an EPA -supported empirical modeling system based on experimentally derived curve -fit equations that predict dilution and verify the accuracy of theoretical models. The model emphasizes prediction of the near-fieid geometry and dilution, although it also predicts the behavior of the discharge plume beyond initial mixing (e.g., in the far -field). 2.1 CORMIX Pollutant Types The inputs for 'pollutant type' in CORMIX allow for five types of pollutant discharges (described in Section 4.3.1 of the CORMIX User Manual [Doneker and Jirka, 2007]). Specifically, these pollutant types are as follows: 1. Conservative Pollutant — no decay or growth processes occur, pollutant of concem can be in any unit of concentration (e.g., pg/L, °C, ppm, or %) 2. Non -conservative Pollutant— first -order decay or growth processes occur pollutant of concem can be in any unit of concentration (e.g., pg/L, °C, ppm, or %) Page 2 CH2M HILL North Carolina, Inc. Shearon Harris Nuclear Plant - Permit NC#0039588 Clarifications to Mixing Zone Modeling & Analysis Jacobs 3. Heated Discharge — capable of modeling heat loss to the atmosphere using a specified surface heat exchange coefficient, which is a function of wind velocity and ambient receiving water temperature; discharge dilution/concentration is shown in terms of thermal properties or "heat concentration" (shown as °C) 4. Brine Discharge — discharge density greater than ambient density (e.g., desalination by- product); may also include a pollutant concentration of interest (conservative/non- conservativeiheated discharge) 5. Sediment Discharge — discharge density greater than ambient density with settling particles (e.g., discharge with suspended sediments); may also include a pollutant concentration of Interest (conservative/non-conservative) The two pollutant types directly applicable to effluent at Outfall 006 are 1)'conservative pollutant' (i.e., effluent properties considered in the Study, such as zinc and copper concentrations or hardness — do not experience decay in freshwater) and 3) `heated discharge'. 2.2 Selection of a "Pollutant Type" for HNP's Outfall 006 In modeling Outfall 006 (or any freshwater discharge) in CORMIX, thermal data — both effluent and ambient— is essential to predict discharge behavior, as temperature is equivalent to relative density, which govems hydrodynamics. Whether using pollutant TYPE 1 or TYPE 3 in the CORMIX model, the same thermal input is required, and all versions of Outfall 006 have a discharge which Is "heated" (warmer than ambient temperatures). The only meaningful distinction between the "conservative pollutant' and "heated discharge" options is that the latter has the added functionality of modeling atmospheric heat loss, if applicable, using a surface heat exchange coefficient (based on wind velocity and ambient water temperatures). This functionality is more useful when looking at far -field effects (Le., when the plume behavior is impacted by ambient conditions more than initial discharge velocity) or where a shallow discharge allows for significant plume - surface interaction with a high heat exchange coefficient. For purposes of the Study, only near -field effects were evaluated, and surface heat losses were not expected to be impactful at Outfall 006, considering its depth and the presence of a thermocline in Summer and Fall. However, unless a non -conservative property is being evaluated, Jacobs typically defaults to the 'Heated Discharge' type when generating new model scenarios. In general, this is a more robust option in the event that surface heat -losses do impact an analysis. 2.3 Concurrence from CORMIX Software Developer As mentioned above, in the absence of atmospheric heat losses, both the conservative pollutant" and "heated discharge" options are essentially identical in their predictive algorithms. In theory, if a model is run with a surface heat exchange coefficient of zero (or near zero), or if a predicted discharge plume does not come in contact with the surface, CORMIX results — including centerline dilution and plume geometry — from either pollutant type should be fully identical. To confirm our understanding of the CORMIX model algorithms and Pollutant Type functionality, Jacobs reached out to the software developer (MixZon, Inc.) on November 9, 2020. Senior Software Engineer Adi S. Ramachandran explained, "assuming all CORMIX model input parameters are the same, CORMIX should predict the same flow class [and thereby provide the same predictions] when specified as using the 'Conservative Pollutant' vs 'Heated Discharge' pollutant options." He further noted that — due to the ability of the °Heated Discharge' option to model atmospheric heat loss — results CAN vary In cases where there is a "loss of buoyancy in a positively buoyant surfacing plume due to ... surface heat exchange, mainly in the buoyant spreading regions of the prediction." 2.4 Validation of Study Model Results Using the "Conservative Pollutant" Type To further validate the assertion that in the absence of atmospheric heat losses "conservative pollutant' and "heated discharge" produce identical results, CORMIX cases from the Study were rerun using the TYPE 1 "Conservative Pollutant" option using copper concentration as the material of interest, rather than temperature. For the Summer/Fall cases (Cases 3a, 3b, 4a, and 4a), where the thermocline 'traps" the CH2M HILL North Carolina, Inc. Page 3 Jacobs Shearon Harris Nuclear Plant - Permit NC#0039586 Clarifications to Mixing Zone Modeling & Analysis plume and prevents any surface interaction, the output data showed 100% identical plume data and dilution factors, as expected. Output for the modified Case 4a, using the "Conservative Pollutant" type, is included in Appendix B as a representative sample of these validating model runs. For the Winter/Spring cases (Cases la, lb, 2a, and 2a), where the plume is exposed to the surface (and potential atmospheric heat loss), output data was nearly identical. Output used in the Study (all near -field predictions) was the same for both "Conservative Pollutant° and "Heated Discharge' options. The anticipated mathematical variations in output - due to the difference in treatment of surface heat losses - were almost undetectable and statistically meaningless (i.e., within the ability of the model to resolve). For example, in Case la, the first difference in predicted dilution is notable at a location 1717 m from Outfall 006, where the pollutant TYPE 1 option predicted dilution of 54.4 and the TYPE 3 option predicted 54.5. 3. Parametric Evaluation of Changing Reservoir Levels As with any computer model, simplifying assumptions were made to provide input values to CORMIX that simulate effluent properties and ambient conditions at Outfall 006. These model inputs and assumptions are detailed in Section 3 of the Study TM, including their source and/or basis for their selection. In accordance with DWR's recommendations, seasonal variations for temperature profiles and effluent flow velocities were captured by running separate model cases for each season and utilizing average or maximum values, as appropriate. Model sensitivity to these key input parameters can be seen in the variation of predicted dilution factors at the acute mixing zone boundary, ranging from 15.3 to 27.2. For most other inputs, however, static values were selected to best reflect "typical" or "most probable" conditions at Outfall 006. Water depth is an example of this kind of static variable. During the video conference call in November 2020, DWR requested a parametric evaluation be performed to illustrate the model's sensitivity to changes in static inputs, recommending reservoir levels be examined. 3.1 Historic Shearon Harris Reservoir Levels In the Study, water depth parameters (detailed in Section 3.2) were calculated using the Shearon Harris Reservoir normal pool elevation of 220 ft (National Geodetic Vertical Datum [NGVD)). To establish an appropriate range of elevations to use in the requested parametric evaluation, historical data from reservoir level meters in the HNP Primary and Secondary Intake Pumping Station were analyzed. The table below shows the low (10th percentile), high (90t percentile), and median daily reservoir levels for the six -year period from January 2015 to November 2020. A copy of the complete data set is included as Attachment D. ABLE 2- .- - Summary of Daily Reservoir Levels from January 2015 to November 2020 Case 1: Winter Dec —Feb Case 2: Spring Mar— May Case. 3:. Summer Jun — Aug Case 4: Fall Sep.— Nov Year Round; Low Water Level (loth percentile) 217.5 ft NGVD 219.8 ft NGVD 219.0 ft NGVD 218.0 ft NGVD: 218.8 ft NGVD High Water Level (9Q"' percentile) Median Level (50th percentile) 221.0 ft NGVD 220.9 ft NGVD 220.5 ft NGVD 220,7 ft NGVD 220.8 ft NGVD 220.3 ft NGVD 220.3 ft NGVD 219.8 ft NGVD 219a ft NGVD . 220.0 ft NGVD As shown here, Shearon Harris Reservoir levels have been historically stable over the past six years, even in periods of extreme drought. While this supports the use of the normal pool elevation (220 ft NGVD) in the original Study, a parametric evaluation which explores sensitivity to a -2 ft /+lft variability is helpful in validating the model and clarifying predicted behavior. Case 4a (Fall season, Maximum Day discharge) was selected for the parametric evaluation, as it was the most restrictive model scenario, predicting the least dilution In the acute mixing zone. Additionally, a Fall Page 4 CH2M HILL North Carolina. inc. Shearon Harris Nuclear Plant - Permit NC#0039586 Clarifications to Mixing Zone Modeling & Analysis Jacobs or Summer case is expected to be more sensitive to changes in water level, as the CORMIX model predicts the discharge plume is trapped by the thermocline, restricting the volume available for dispersion. Of the two seasons with "stratified" conditions, Fall had the greatest pool variability, according to the historic level data. 3.2 input Parameters Affected by Pool Elevation In the parametric evaluation, two input values were recalculated to adjust for changes in pool elevation: • Height/Depth at Discharge Location (Ho) — height to the water surface measured from the reservoir floor (sediment bottom); calculated as the difference between pool elevation and estimated bottom elevation at Duffel! 006 (175 ft NGVD from available bathymetric survey data) • Height of Thermocline (HINT) — height to the themiocline measured from reservoir floor, calculated by deducting the depth to the thermocline (estimated to be 5 m [16 ft] below the water surface) from the total Height at Discharge Location (Ho) The calculated input values used in the revised model runs for the parametric evaluation are shown In bold below. TABLE 3. Summary of Revised CORMIX Model Input Parameters Normal Pool Level Median —Ail Seasons Low Water Level 10th Percentile forPai High Water Level 90"' Percentile for Fall Reservoir Pool Elevation Estimated Bottom Elevation at Discharge Height/Depth at Discharge (Ho) Height of Thermocline (Herr) 220 ft NGVD 175 ft NGVD 45 ft (13.7 m) 29 ft (8.7 m) 218 ft NGVD 175 ft NGVD 43 ft (13.1 m) 27 ft (8.1 m) 221 ft NGVD 175 ft NGVD 46 ft (14.0 m) 30 ft (9.0 m) 3.3 Parametric Evaluation Results and Conclusions Case 4a (Fall Season, Max Day Discharge) was modified to reflect altemative scenarios with low and high water conditions. Output for the Low Water Level variation of Case 4a is included in Appendix C. The CORMIX model results are summarized below for the original and alternative scenarios. As described in Section 3.1, the results confirm the plume is impacted by the thermocline, which acts as an upper boundary. Compared to the original Study Case 4a, the low water scenario further restricts the vertical movement of the plume, slightly expanding the width and reducing predicted dilution by less than 2%. Conversely, the high water scenario raises the thermocline, allowing for a slight increase in vertical movement and narrower plume. The impact on dilution was negligible for the high water scenario. TABLE 4. CORMIX Case 4a (Original & Variations) Results at EPA -defined Acute Mixing Zone Boundary CORMIX Radial Horizontal, Plume Centerline Equivalent Effluent Limit Case 4a Distance' Distance' Width Dilution Factor IWC Acute Copper(DallyMax) Original Study 175.5 ft 278.1 ft 15.3 6.54% 166.1 pg/L High Water Level 177 ft 175.6 ft 277.0 ft 15.3 6.54% 166.1 pg/L Low Water Level 175.9 ft 279.6 ft 15.0 6.67% 163.0 pglL -1.9% Notes: a The radial distance Is a vector distance from the center of the port, while the horizontal distance reflects the x-dlrecflon only (plan view, looking down at the surface of the waterbody) For purposes of dilution at an acute mixing zone boundary, the Low Water Level Case 4a represents a °worst -case of the most conservative case" scenario. Notably, the predicted dilution factor at the acute mixing zone boundary of 15.0 is equivalent to an effluent limit of 163.0 pg/L, which is greater than double the maximum value measured at Outfall 006. CH2M HILL North Carolina, Inc. Page 5 Jacobs Shearon Harris Nuclear Plant - Permit NC#0039586 Clarifications to Mixing Zone Modeling & Analysis 4. References Doneker, R.L., and G.H Jirka. 2007. CORMIX User Manual. A Hydrodynamic Mixing Zone Model and Decision Support System for Pollutant Discharges into Surface Waters. EPA-823-K-07-001. December 2007. Duke Energy. 2020. Corrective Action Plan for Copper and Zinc for Harris Nuclear Plant NPDES Permit, Year 4 Activities Report. Submitted to North Carolina Department of Environmental Quality on August 27, 2020. Page 6 CH2M HILL North Carolina, Inc. Attachment A Meeting Minutes: Overview of Year 4 Activities and Mixing Zone Study — November 2, 2020 Jacobs MEETING MINUTES Corrective Action Plan (CAP) for Copper and Zinc for Harris Nuclear Plant NPDES Permit — Overview of Year 4 Activities and Mixing Zone Study MEETING DATE/TIME: Monday, November 2, 2020 (2:00-3:00 pm EDT) LOCATION: Microsoft Teams Meeting INVITEES: David Hill/DEQ Bob Wilson / Duke Energy - HNP Nick Coco/DEQ Don Safrit, PE / Duke Energy Sergei Chernikov/DEQ Cynthia Winston / Duke Energy Min Xiao/DEQ Julia Byrd/DEQ Jennifer Bell, PE / CH2M HILL North Carolina, Inc. (Jacobs) Jaime Robinson /Jacobs Brad Paulson / Jacobs Meeting Minutes Following introductions, Don Safrit opened the call with a safety moment regarding working safely at home. Don then began discussing the slide deck shared with the group. 1) Review of Compliance Action Plan (CAP) schedule for NPDES permit compliance: Duke's progress along the CAP timeline was discussed, leading up to discussion of the mixing zone study. In mid-2019, Duke presented results of the Copper WER study and DEQ responded with a request that dilution effects be considered. No additional discussion occurred. 2) Mixing Zone Study Results: Brad Paulson then began an overview of the mixing -zone study methodology used, includin application-of-CORMIX Brad reviewed -the -available -data -and parameters -used -in -the -model including accounting for seasonality. David Hill provided initial DEQ comments on the modeling: • The field data used in the model were fine. • David raised a question regarding the use of the "heated discharge" option when running the CORMIX models. He assumed this was done because Duke is also interested in thermal impacts of the discharge. Brad stated that he would take a closer look at the "heated discharge" option and potential impacts on the mixing zone results. • David also asked whether a sensitivity analysis could be performed on key parameters. • One key parameter identified by David was Reservoir levels. A parametric evaluation of water levels and their effect on the mixing zone was recommended. • David requested that a revised report be issued. CH2M HILL NORTH CAROLINA, INC. 1 IS WHOLLY -OWNED BY JACOBS, INC. MEETING MINUTES - CAP FOR COPPER AND ZINC FOR HARRIS NUCLEAR PLANT NPDES PERMIT OVERVIEW OF YEAR 4 ACTMTIES AND MIXING ZONE STUDY Don followed up with a reminder that Duke Is not looking for details now and is looking forward to receiving detailed feedback from DEQ in the near future. Jennifer Bell added that the modeling approach looked at the most conservative scenarios and that the team is ready to evaluate sensitivity. 3) Application of Mixing Zone Results to Water Quality Criteria: Jennifer Bell reviewed Duke's recommended approach for incorporating mixing zone results into the calculation of water quality criteria. Once a mixing zone is defined, water quality criteria are calculated at the edge of the mixing zone. Hardness data are incorporated as well. NCDEQ does not have written guidance and Duke evaluated potential water quality criteria using EPA and Wisconsin guidance. No further discussion was had. 4) Next Steps Forward: Don Safrit stated that Duke is receptive to refining the findings and then determining outcomes of an evaluation of appropriate water quality criteria. Don asked that DEQ provide written comments so that this can be resolved expeditiously ahead of or in parallel with the permit renewal process. Duke understands that DEQ cannot provide additional feedback on water quality criteria until comments on mixing zone study are addressed. David Hill stated that DEQ aims to provide written mixing zone study comments within 30 days. Duke will plan to address those comments within the following 30 days. David Hill asked if other DEQ industrial permitting staff had comments or questions. None were provided. This concluded the call. Copies of PowerPoint Slides have been included as an attachment to these Meeting Minutes CH2M HILL NORTH CAROLINA, INC. 2 15 WHOLLY -OWNED BY JACOBS, INC. Shearon Harris Nuclear Plant NPDES Permit NC0039586 'Corrective Action Plan (CAP) for Copper and Zinc Overview of Year 4 CAP Activities and Mixing .Zone Study November 2, 2020 4i).DUKE ENERGY® JACOBS www.jacobs.cam I worldwide Corrective Action Plan (CAP) for Copper and Zinc for Harris Nuclear Plant NPDES Permit — Overview of Year 4 Activities and Mixing Zone Study Review of CAP Schedule and Previously Completed Activities O eroc.r;.EYcary ...? Mt.i .,.._� w6s, ,'ix.2:.;e November 2, 2020 JACOBS 2 Schedule of Cornpfiance s wrr.:,am svimir,m sl..rrr am so swergi.am WOES corner.. Avowal lamed Adler Plan Loa. mow awl •a MAN eap.,. I.._....,... 1 . "..••••..•,.•.• 4 Vaaleillsidll HNP Copper & Zinc Perrnit Obligations & Compliance • HNP Discharge Point into Harris Reservoir (Class WS-V} • Revised Surface Water Standards for Copper & Zinc in 2015 • New NPDES Permit Limits in Outfall 006 In 2016 (September 2021 compliance deadline) — Limits based upon state level defaults (limited availability of historic andlor site -specific information) Zinc 13a114‘ax Monthly,Average `126 pgfiL • (chronic) ' • 126ps±L j 3 From WER to Mixing Zone Study • May 2019 —WER Study Results and proposed copper WER submitted to DEQ • June 2019 — Duke Energy met with DEQ to discuss Copper WER Study • JLrhr 2019 -.pEQ provided;wrjfl rcorpEten e, p pops WEIR-, requesting that didytion,eflpds;be•coris reg; add) ion4roiindaofVVER testing Le.p rmed_ • November 2019 — Mixing Zone Study Plan submitted to DEQ • January 2020—DEO responded to the Mixing Zone Study Plan, requesting Incorporation of velocity, temperature, and density at the site of discharge and anticipated plume and modeling of thermodine as a boundary condition • January to April 2020— Mixing Zone Study completed using CORMIX dilution model ' GY. 1 Corrective Action PI 'n (CAP) for Copper and Zinc for Harris Nuclear Plant NPDES Permit— verview of Year 4 Activities and Mixing Zone Study 1 Mixing Zone Study and Dilution Modeling November 2.2020 /a DUE ENEKRGY. JOBS 43 Defining the -114)xfng Zone" • North Carolina rules allow mixing zones but pmve little specificity for determining characteristics • EPA created the Technical Support Document ( SDI in 1991 for regulating toxic substances such as copper, inch des guidance on mixing zones: — Significant overall detail for establishing mixing zon general in nature — Provides guidance for acute mixing zone definition - Ha specific guidance for chronic mixing zones • Wisconsin developed detailed mixing zooia rules anfl guidance: — Chronic mixing zone for lakes based on edge of rf st.induced mixing — Indudes a default dilution ratio for chronic muting cf 10:1 'e DUKEGY. . 8 Mixing one. lk +ciy•"• 4: The purpose of the Mixing Zone Study is to account for dilution effects as effluent mixes wilt► reservoir water at the discharge point — OEQ suggested study to determine lest concentrations for further WER study — Study conducted using EPA and other Slate guidance; results used for caladation of permit limits • Madng is impacted by: — Outten (disthwga) configuration — Effluent characteristics (discharge rale, density, etc.) — Receiving water characteristics (ambient density stratification, velocity. eta) Use of CORMIX miring zone even system: — EPA.devaloped modeling system; nearly 30 years of use & continually updated — Approved for use by OM — Appropriate for appkration In lakes/reservoirs DUKEGy. 7 9 Seasonal reservoir data used to determine "worst case" mixing conditions Sour= Dune Energy, rn* .sour Yenxnrna Repeal ler 201i —20111 . Corrective Action Plan (CAP) for Copper and Zinc for Hams Nuclear Plant NPDES Permit - Overview of Year 4 Activities and Mixing Zone Study Seasonal reservoir data used to deterinine "worst case" mixing conditions CORMIX ''EMuem seasonal E1lluant a ga�t. . Casa:�lo_,__ `F> YIW904 Sctri404 T�notras � s t ° t�! o1a Max day: 17.17 Winter Unstratified alb MMA 14.88 (Dec -Feb) f 8'1 ' C to.o• c 02a Max day: 22.02 Linear Stratification 02b MMA:15.06 (Mar -May) Surface:23.5•C Salem:14.0'C 03a Max day: 17.09 SPlin9 27.3" C Summer 32.6' C 03b MMA:14.96 (Jun'Au9) 04a Maxday:19.10 Fall 04b MMA:14.61 (Sep -Nov) 29.6' C Two -Layer Stratification Constant al somata (0-5 m): 29.5'C Linear decrease from (5 m): 26.0•C In bottom (-14 m): 16.0•C • Effluent temperatures based on the 90111-percentile of DMR data (Jan 2016 -Aug 2019) • Reservoir temperatures measured at E2 monitoring station, located - 0.75 miles SISE of discharge e EWNERGY. 10 Chronic Mixing Zone Results: Edge of Discharge -Induced Mixing . OORMU4 Radial Horizontal Dilution Case Ng..'Distance, ft Distjpce,:ft.. 71=acf � `" 1CV glume.- :,t 0la 565 564 92.3 1.08% . 1,234 0lb 494 493 91.1 1.10% 1,111 02a 756 755 82.8 1.20% 1,919 02b 556 555 79.1 1.26% 1,518 03a 594 594 55.4 1.81% 1,496 03b 504 . S�Q..O _ ... 54.7 . 1.83% 1,319. . . 04a 647 647 61.9 1.62% 1,593 04b 509 509 58.8 1.70% 1,327 '5DUKE 12 Acute Mixing Zone Results 177it 04b 173 ft 25.2 3.97% 265 8.8 27.2 3.68% 286 1.0 16.8 5.95% 227 5.4 20.5 4.88% 293 7.5 176 R 15.4 6.49% 334 8.9 16.9 5.92% 363 11.0 15:3 6:.549b ?7LI 17.0 5.88% 322 9.2 ' DENTRoy. 11 Application of Stud. Result to Cu and Zn l_irnit3 November 2, 2020 DUKE ENERGY. JACOBS • 13 1 j Corrective Action Pl,n,(CAP) for Copper and Zinc for Harris Nuclear Plant NPDES Permit — Tverview of Year 4 Activities and Mixing Zone Study Adjusting Effluent Limits tor Dilution • Once a'mixing zone' is defined, required Wat -. are evaluated al the mixing zone boundary, rath 'end -of -pipe • The Dilution Factor (DF) quantifies how well-mitCed reservoir water are at the zone boundary • WQC are recalculated based on mixedlcombineyd zone boundary `k • Background Concentration should be considered Quality Criteria (WQC) ler than at the ` effluent and lake/ ter hardness at the Permitted effluent limits = (WQC x DF) — Concentration in Lake (t) ENERGY. 14 "Worst Case" Dilution Factors & Revised Effluent Limits Acute Zone: rife Chronic Zone: WUDNR Default of DF=10 Hardness Characterization Hardness as CiCO3 (mglL) • Default (25 mglL as CaCO3) used in calculating HNP original limits • Used monthly average median Effluent Hardness of 44 mglL a1 .4% 4 A 0 A ♦.b 0 0 0 0 43 43 4, Y$ titi > eg 4' 06' IP vo c� ! • Ambient reservoir Hardness was assumed to be 25 mglL for purposes of the Mbdng Zone Study (DUKE ENERGY. 15 Zinc Characterization - Maximum Daily Values Total Rseoversble Zinc OWL) • Zinc values substantially lower after change of corrosion inhibitors 180 -- -- iJ 180 — 140 T- -... 120 I z - 7. r.. P . _Lm so 60 40 .0 i O m 4 4 4 4 A .tip .gym .$, 0 .0 .0 s, 11t #a ?id' r�cP.? d s'c0" 4 i O it a aq A 0 1261mA ' DENKEGY. 17 Corrective Action Plan (CAP) for Copper and Zinc for Harris Nuclear Plant NPDES Permit — Overview of Year 4 Activities and Mixing Zone Study Zinc Characterization Maximuni Daily Values Total Recoverable Zinc )pylL) 2,000 1,800 1,800 1,400 1.200 1,000 600 800 400 200 0 ,; DF.,S., _ • t28 pa Saga minima •: .4'1 .41 4% .41 4� 4" .\� .4� .4+ .4Q 4.1 4, 4 "M' vst# cP C ]s pat Y� C.'P 7ps Yi' is (d�lel �mei- 'r DUKE 18 Copper Charaoterizatkan Maxirnum Daily Vaiucs Total Recoverable Copper jpOlL) 180 140 120 100 80 80 40 20 0 IL CIF. 1IIIMGJ 11 a :te_ .0 .0 .40 .0 .0 $b 40 40 1'cP?v cft?v #&• 4.)ov 20 ' No!Monitoring a . • liboPern'4UEnM st• 4. 19 Copper Characterization — Maximum Daily Vdluc5 ':No Fzew.codJie Pote i ial tc Lx:Eec. Total Recoverable Copper (pplL) 160 140 120 100 B0 B0 20 0 - •:�:� `TM_ .. 4.. -. Y� }f.l __; ra . .� 1 i", -�,—�� { FEE • w '7•. ,,= i .1.<''iY-., !c. fr�MVO Y }y . ,P rs •�'" ' 'V _ d: edj In m R,, 64x -f i!e..........4 '. J11111' • INEINIVIZ Di - .1 - .41121N JIM Alit. .4e. . KAIIIRMIWILIWAIlligii 41 .41/4 41 41 .4b .0 42 .41 41 ,44 48, 4) +r, v' cf>>v aft 1ac'r. 21 Corrective Acton Plan (CAP) for Copper and Zinc for Harris Nuclear Plant NPDES Permit — (fverview of Year 4 Activities and Mixing Zone Study Copper Characterization — Monthly Average Total Recoverable Copper (pp1L) 180 140 120 100 80 60 40 20 0 iiigiiii .tlBMS_ - 01e {.,pddsdf; 1ln Diliii -�,- Ilitin ilIslh11I •. `'. fiEtIM IRL/# I r ALE prom daub iLS. IIHERDitiliBlIdlitItEMEMBIIINIESI 11111/EMI mitsp�Ay�ary■� BO 1 #t+,T • In 1•11111%110:r , ". r.,-Gtl00i 7 Iddio...i.o m+1 4 .4 4 4 ✓0.0.0.0 04$ 040 1 DUKE • # 1 o # do- ? e' d 1 Oi 3" ' r� ENERGY. 22 Path Forward with NPDES Pcrnrlit Copper Characterization — Morltltly Average (No Reasonable Potential to Exceed) 180 140 120 a100 u •r 80 so 0: 40 20 0 w • 1-- .;l-��'„ v . I. :Wmold. . ].. 14 L. J 1 - .t.- �,; 'pig,iiy .:i ' j.'.I7t.• 2. I. I— + i'.;-..:, 170--9-- i- •• - , M1 -ir-1 . .._.- —1. L. 50%xC —1 �1 4% ♦% ♦ �� �.� % .41' A/ 44 4a 1P0 11. c67fe s'oere0III' di' IP0 voluel efs,DUKE 1 NERGY. 23 lNri4p-tp Discussion and Action Items Over.Ie::orYe..•.3Ct,PAc:, .'.Poor_ .' {'.'r' November 2.2020 .JIACOJB5' 25 Attachment B CORMIX Model Output — Example Validation Run Case 4a: "Conservative Pollutant" Type Co = 63.5 (Maximum Copper Concentration) CORMIX1 PREDICTION FILE: 1.11E+94 mIMI% MIXING ZONE EXPERT SYSTEM Subsystem CORM/XI: Single Part Discharges CDRMIX Version 12.0010 HYDROS Version 110.1.0 August 2019 CASE DESCRIPTION SO name/label Harris Rasurair {HNP Outfall OOsj OesftOin <an� t�aiaiSO4a-m T da�r> "� sac - aORca"tiay�j, i 4g FILE NAME: Cik...Iu dl6)ICORMHNP006.041Juv 12.29.20.prd lime stamp: I/2020-10:47:12 IVIRONMEPARAMETER: (metric units) Bounded swim RS • 500 AS • 665B CIA • 65.5E ICHREG• 1 HA • 13.72 HO • 13.72 UA • 0911 F • 0.013 USTAR 0.000405 UW • I TARe0,2195E-02 Density stra5Md mulrtn ment STRCND• C RHOAM • 997.0753 RHOAS • 995,7971 RNOAB • 994.9443 RHOAHO• 997 729 E 0.002736 ORHOJ • 0.7166 HINT • 0.72 ES 0.003543 DISCHARGIPARAMETER: (metric milts) BANK • LEFT owns • 250 00 • 1119 A0 • 1,167 H0 LLi SURD THETA • 0 SIGMA • 0 UO • 0.717 00 • 0.1137 091365 51100 • 995.7672 DRHOO 1.962 GPO 0.01921 CO 61.87 MINIS. ppb IPOLL • 1 KS 0 KO 0 FLUX VARIABLES {metric units) 00 0.5366 MD 05991 JO 0.0I614 SIGNED. 1 Assadated length scales (meters) Lq • LOB LM 5.37 Lin • 7143 Lb ▪ 16139.79. trap • 99999 tbp 99999 1-01MEN5I ARAMETERS FRO • 4.67 R • 71.17 FLOW LASSWFICATION 1.111E+47 1 Flew dam {CORMIX1) • H4-0 1 1 Applicable layer depth HS • 1.72 1 Umlting 011udon S •0A/0.0• 52.95 1 1.111E+47 MIXING ZONE / TOXIC DILUTION / REGION OF INTEREST'ARAMETERS al 61.51 KNITS. pph NTOX • 0 N57D • 0 REGMZ • 0 TINT • 5000 XMAX • 5000 X•Y.2 COORDINATE SYSTEMI- - D9GIN Is lowed at the -, bottom and below the center of she ism 250 m from the LEFT bank/shot.. X-axis points Iawnstroan Y-axis points to left, 2-axis paints upward. NSTEP • 100 display Intervals per nodule BEGIN M001O11 DISCHARGE MODULE X Y 2 5 C a Ue TT 0 0 2,13 1 6.L!E+el 0.61 0.707 0.00E+00 END OF M00101: DISCHARGE MODULE BEGIN CORIET (MO0110):IET/PWMEIEAR-FIELC MIXING REGION let/plume IranilUon motion In weak nasstlow. Zane of flaw Itabilshm.r THETAS• 0 SIGMAE• 0 LE • 5.27 %E • 5.27 YE • 0 2E 213 PraafBe definitions: B • Gausslan 1/. -3714 half -width, normal to tta{uetery 5 • ydrodynam c.nterilns dilution C • centerlineonantratlo {includes reaction .ffuts, If any) Lie • Local centerline excess velocity (above ambient) Radial TT • Cumulative travel time Mau I(6611 0 Y 2 5 C CO 4 Cbly 1W01 0 Uc 7T 00 0 0 2.13 1 6.19E+0I 633 100.0% 0.61 0.707 0.00E+09 17.3 5.27 0 2.13 1 6.19E+01 63.5 100A% 0.62 0.707 6.73E-02 17.9 5.43 0 2.13 1 5.19E+01 635 100.0% 0.64 0.707 166E 01 114 5.62 0 2.14 1 6.19E+01 63.5 100.096 0,66 0.707 430E.01 190 5.79 0 2.14 1 6.19E+0l 635 100.0% 0.57 0.707 639EE01 I9.6 5.96 0 2.15 1 6.19E+01 63.5 100.0% 0.69 0.707 633E.01 20.1 5.14 0 2.16 1 6.19E+01 63.5 100.014 0.71 0.707 103E+00 20.7 631 0 L17 1 6.13E+01 629 100.0% 0.73 0.707 1.14E+00 22.3 CO 0 118 1 597E+01 613 100.0% 0.75 0.707 245E+00 21.1 6.65 0 12 1.1 5.62E+01 59A 90.9% 0.77 0.707 266E+00 21.4 6.12 0 2.21 2.1 3.66E+01 53.4 903% 0.79 0.707 288E+00 219 6.99 0 214 L1 5.54E+01 57.0 90.9% 0.11 0.707 2.11E+00 23.5 7.17 0 2.26 21 5.40E+01 55.6 90.996 0.62 0.707 234E400 24.1 734 0 2.29 12 5.23E+01 54.4 63396 0.84 0.707 237E+00 24.6 7.11 0 131 1.2 5.15E+01 531 833% 0.86 0.706 2.11E+00 29.2 7.68 0 2.34 L2 5,04E+01 510 63396 040 0.692 3.06E+00 25.1 715 0 233 1.3 432E+0I 50.6 76.914 09 0.679 3.31E+00 26.3 3.02 0 2,41 13 4.11E+01 49.7 76996 092 0.665 335E+00 26.9 3.18 0 2.45 23 4,71E+01 46.7 76996 0.94 0.633 3.82E+00 27.4 635 0 2.49 13 4.60E+01 47.6 76.9% 0.96 0.641 4.08E+00 210 3.52 0 I33 24 4.50E+01 46.6 724% 0.97 0.63 4.35E+00 23.5 0.69 0 1.57 L4 4.41E+01 45.7 71496 0.99 0.619 4.63E+00 26.1 8.77 0 L6 L4 4.36E+01 45.2 71496 1 0.614 4.76E+00 29.4 3.94 0 1.64 L4 4.27E+01 44.3 714% 1.02 0.604 5.04E+00 293 9.1 0 2.59 13 4.18E+01 434 65.714 2.04 0.594 533E+00 30S 9.27 0 2.75 13 4.10E+01 426 66.796 3.06 0.535 5.52E+400 31.0 9.43 0 2.3 15 4.02E+01 414 66.796 1.06 0376 5.91E+00 316 939 0 2.36 1.6 3.94E+01 420 62596 LI 0367 6,21E+00 311 9.76 0 291 16 3.66E+01 40.2 62596 112 0.559 631E+00 327 9.92 0 2.97 1.6 3.76E+01 39.4 62596 1.13 0331 632E+00 33.2 10.08 0 3.04 L7 3.71E+01 31.7 51.3% 1.15 0343 7.23E+00 33.7 20.14 0 3.1 1.7 3,64E+01 38.0 511% 217 0533 7.45E+00 343 104 0 3,17 1.7 357E+01 37.3 56.896 1.19 0326 7.77E+00 34.6 10.56 0 3.23 1.6 331E+01 36.7 55.696 221 0521 1.09E+00 35.4 10.72 0 33 3.3 3.44E+01 36.0 55.696 1.23 0314 6.42E+00 35.9 10.17 0 338 26 338E+01 35.4 55.6% L23 0.507 6.76E+00 364 1103 0 3,45 L9 332E+01 34.1 52.6% 1.27 0301 9.09E+00 37.0 11.19 0 332 19 3.27E+01 34.3 52.6% 1.29 0.494 9.44E400 375 1134 0 3.6 19 3.21E+01 33.7 52.696 131 0.458 9.76E+00 381 113 0 3.67 2 3.16E+01 33.2 50.0% 133 0.451 201E+01 38.6 11.65 0 3.75 2 3.I0E01 32.6 50.0% 1.34 0.476 1.05E+01 39.1 1113 0 3.03 2 3.05E+01 32.1 50.0% L36 0.47 201E+0I 39.7 1196 0 391 21 3,01E+01 317 47.6% 1.36 0.464 212E401 40.2 12.11 0 3.99 2.2 296E+01 312 47.6% 1.4 0A58 216E+01 40.7 12.26 0 4.07 11 2.91E+01 30.7 47,696 142 0.452 1.10E+01 413 1241 0 4.13 2.2 2.67E+01 30.3 45596 1.44 0.446 1.23E+401 41.8 2237 0 4.23 2.2 123E+01 299 45596 146 0A4 1.17E+01 42.3 12.72 0 4.32 2.2 2.79E+01 29.5 45596 2.4a 0.435 132E+01 42.9 1107 0 4A LI 2.75E+01 291 455% 13 0.429 135E401 43A 13.02 0 4.40 23 171E+01 23.7 43596 1.32 0.423 239E+01 439 13.17 0 4.56 2.3 2.68E+01 23.4 43.3% 254 0416 143E+01 443 1332 0 4.63 23 2.64E+01 21A 43396 156 0.412 147E+01 453 23.45 0 4.73 2.4 2.61E+01 27.7 41796 133 0A07 131E+01 45.6 13.63 0 4.81 L4 236E+01 274 41.7% 16 0.401 L55E+01 46.1 13.71 0 439 14 233E+01 27.1 417% 262 0395 260E+01 46.6 13.93 0 497 23 252E+01 269 40.0% 2.64 039 L64E+OI 47.2 14.09 0 5.05 23 2.49E+01 26S 40.096 156 0384 166E+01 47,7 14.24 0 5.13 23 2.47E+01 263 40.0% 1.66 0.379 273E+01 483 1439 0 3.22 23 2.44E+01 23.0 40.0% 1.7 0 373 177E+01 48.9 1435 0 5.29 16 142E+01 25.1 315% 1.72 0367 1.12E+01 49.4 14.7 0 536 16 239E+01 25.5 385% 1.74 0321 1.17E+01 50.0 1426 0 5.44 2.6 237E+401 25.3 31.596 277 0.356 191E+01 503 15.02 0 531 2.6 234E+0l 25.0 385% 279 035 296E+01 51.0 13.17 0 533 2.7 232E+01 24.8 37.0% 2.11 0,344 101E+01 51.6 1533 0 5.64 L7 230E+01 24.6 37.196 113 0338 2.06E+01 52.2 15.49 0 5.71 17 127E+01 24.3 37.0% 1.86 0332 111E+01 52.1 15.66 0 5.77 2.7 2.25E+01 24.1 37.0% 1.68 0326 2.16E+0l 533 15.52 0 5.83 7.6 2.23E+01 23.1 35.7% 191 0321 1.21E+01 53.9 15.98 0 5.38 2.1 211E+01 23.7 35.7% 293 0.315 2.26E+01 54.4 16.11 0 593 2.6 111E+01 23.4 35.7% 196 0309 233E0I 55.0 I631 0 5.97 29 2.16E+01 23.2 34.596 199 0304 237E+01 55.6 16.45 0 6.02 23 2.14E+01 23.0 345% 2.01 0.299 2.93E+01 56.1 16.65 0 6.05 2.9 112E+01 22.1 34.596 103 0194 2.49E+01 56.7 16.12 0 5-01 29 110E+01 216 343% 2.06 0.29 254E+01 51.3 16.99 0 6.11 3 2.01E+01 22.4 333% 2.08 0.235 160E+01 573 17,16 0 6.13 3 2.06E+01 221 333% 2.1 0.232 166E+0I SBA 1734 0 6.14 3 2.04E401 22.0 33.3% 2.12 0.279 172E+01 58.4 1731 0 6.15 3.1 2.03E+01 219 32.3% 114 0.276 2.78E+01 Maxlmum Jet h418ht au balls niched, 59.5 17.68 0 6.16 3.1 101E+0I 227 323% 216 0.274 234E+01 600 17.85 0 6.13 3.1 199E+01 215 323% 2.18 0.212 290E+01 60.6 11.03 0 6.14 3.1 1.97E+01 213 32396 129 0.27 296E+0I 611 16.2 0 6.12 3.2 1.96E+01 21.2 313% 211 0.269 3,03E+01 617 13.37 0 6.1 3,2 194E+01 210 31.396 2.22 0.268 3.09E+01 62.2 11154 0 6.07 3.2 132E+01 203 31.396 2.23 0.268 3,15E+01 62.7 26.71 0 6.04 3.1 1.91E+01 20.7 31.3% 224 0266 3.11E+0I 63.2. 1896 0 6 33 L89E+01 203 30.316 125 0.267 3.17E+01 63.7 19.04 0 596 33 1.67E+01 20.3 30.3% 2.26 0.265 334E+01 641 19.21 0 591 3.3 1.86E+01 20.2 303% L27 0163 3.40E+01 64.7 1937 0 323 34 1.64E+01 20.0 29.414 L29 0.268 3.06E+01 65.2 1953 0 5.8 3A 1L2E401 I9.8 19A% 13 0.261 352E+01 65.7 19.7 0 5.73 3A 1.60E+01 19.6 29.4% 2.31 0.268 339E+0l 662 1936 0 5.67 33 1.79E+01 195 26.614 232 0.261 3.63E+01 66.6 2091 0 5.6 3.5 1.77E+01 193 26.614 2.33 0.268 3 71E+01 67.1 20.17 0 533 33 1.75E+01 19.1 216% 2.35 0.267 3.77E+01 67.6 2033 0 5A6 3.6 1.746+01 19.0 27.6% 2.36 0.267 3.64E+01 66.0 20A8 0 336 3.6 2.72E+01 18.8 27.116 2.34 0.266 390E+01 683 20.64 0 531 3.6 1.70E+01 18.6 27.8% 239 0.264 3.96E+01 69.0 20.79 0 5.13 3.7 2.69E+01 18.5 27.0% 2,41 0163 4.03E+01 69A 20.95 0 5./5 3.7 2.67E+01 163 27.0% 2.43 0.261 4.09E+01 69.9 21.1 0 5.07 3.7 1.651+01 161 27.0% LA 0.259 4.15E+01 70.3 21.23 0 4.99 3.6 2.64E+01 16.0 26.3% L47 0.237 4.22E+01 '70d .4F21:4.yf.,`"i.03Fs.13't4:611 4e3.6 IL63f+-Ti Y:17.9•FR..26.3%3:1%.2A 0.E757r..W.'41tlE+08�ATBOUNDARY(WATERSURFACEORPYCN06INE) Terminal level In stratified ambient has bean- machsd. Plume width(ft) 163 Cumutthn travel time • 423329 see (` 0.01 Hartz. Distance (ft) 70.2 ENO OF COMET (MOO110):JET/PWMENEARflELb MIXING REGION BEGIN M00131: LAYER IOARY/TER? LAYER APPROACH Control vol arm Inflow: X Y Z 5 C B TT 21.4 0 491 3.8 1.63E+01 2.49 4.28E+01 Profile defin[tionn BV • Gaussian 1/e .37% verbal thlctmus 6H • Gaussian 1/e -37% horizontal half -width, normal to traji tury 2U upper plume boundary (Z•caardinate) A • iuwer plume boundary (Z.coordlnite) S • ydmdynam centerline dilution C • centerlhreoncentratia (includes reaction affects. If arryj jg(Sj Tr • Cumulative trawl time 1Nstann HMI % Y 2 S C CO+Wig IWC% BY EIH ZU D. 15 66.7 1891 0 6.72 3.6 1.63E+01 17.9 26.314 0 0 L72 1.72 4.26E+01 680 19.66 0 8.72 3.8 1.63E+01 17.9 26314 221 111 9.23 792 4.28E+01 70.4 20.41 0 3.72 3.8 1.63E+01 17.9 26.314 2.62 137 933 6.7 4.28E+0I 72.7 21.26 0 8.72 3.8 1.63E+01 17.9 263% 2.89 193 939 6.3 4.28E+01 75.0 2I9 0 6.72 3.6 1.62E+01 17.8 I63% 3.08 213 9.43 635 439E+01 77A 32.63 0 6.72 39 137E+01 173 25.6% 3.23 149 9.47 6.24 9.03E+01 79.8 23.4 0 8.72 4.2 132E+01 169 24.4% 3.34 2.73 9.49 6.13 551E+01 82.1 I4.15 0 6.73 4.2 1.47E+01 16-3 23.8% 3.42 2.94 932 6.09 356E+01 845 24.9 0 1,72 4.3 1.44E+01 16A 23.3% 3,46 315 952 6.05 6.03E+01 86.9 25.64 0 6,72 4A 2.42E+01 15.6 22.716 3.51 334 933 6.02 6.68E+01 1192 2639 0 6.72 4A 2.41E+01 15.7 22.714 332 332 933 6.02 734E+01 Cumuiethre trawl time • 73,408 see 1 0.02 hrs) ENO OF M00131: LAYER IOARY/TERf LAYER APPROACH BEGIN M0O155: WEAKLY OEFLECTEOFACE/BOTT PWME SU3lMa/SOT1l PWME Into co -flow (or counter4lawl Profile definitions: 1111 • Gaussian 1/5 -37% verbal thickness BH • Gaussian 1/e -37% horizontal half width. normal t0 trajoctery ZU • upper plum boundary (Z mardlnate) ZL • laver plume boundary (Z.enordinate) 3 • ydrodynam centerline dilution C • anterllneoncentratio (Includes reaction effects, If any) BA131 1T • Wmulative travel time Masi Hug x Y Z 3 C CO+Cbk6 lwC% IWC% BV BH 2U 24 TT 19.2 2639 0 1.72 4.4 1.41E+01 15.73 22.714 33I 3.52 953 6.02 7.34E+01 93.6 27.I h.; -i , 5.9 `' e : ":4!r,'�L63'yX*; 16.9%'K , -i i, :ge- $i.:631'?12i517 Default 101 Dilution IPer Wlamnsln MZ Dub 94.7 21.1 0 6.72 6.2 993E+00 1156 16.1% 2.48 7.1 9.29 6.82 6.80E+01 Plume width (ft) 42.7 100.2 29.11 0 6.72 7.4 634E+00 9.97 L35% 2.08 10.06 91 7.12 1.04E+02 Hod:. Distance on 91.3 105.7 3152 0 6.72 8.4 7.01E+00 9.04 11.914 195 12.75 9.13 73 2.20E+02 1111 33.32 0 6.72 9.1 6.77E+00 L.40 11.014 1.69 15.29 9.11 7A2 1.36E+02 116.E 3493 0 1.71 9.8 6.28E+00 791 10.2% 1.37 17.74 9.08 732 157E+02 122.3 36.64 0 6.71 103 5.90E+00 753 93% 1.47 20.12 9.06 759 1.77E+02 127.7 38.35 0 1.72 11.1 3.58E+00 7.21 9.014 139 22.45 9.04 7.65 158E+02 133.2 40.05 0 1.72 156 532E+00 6.95 6.614 1.33 I4.75 9.03 7.7 2.20E+02 139.7 41.76 0 8.72 12.2 5.09E+00 6.72 8.236 1..27 27.02 991 7 74 1.43E+02 144.3 43.47 0 8.72 117 4.89E+00 632 7.914 122 29.26 9 7.78 2,67E+02 149.E 45.16 0 6.72 13.1 4.71E+00 6.34 7.6% 1.18 3152 199 7.82 2.92E+02 155A 4639 0 3.72 13.6 4.55E+00 6.18 7A% 1.14 33.75 8.98 7.13 3.16E+02 I60.9 4639 0 5.72 I4 4.41E+00 6.04 7.1% 1.1 33.97 191 7.87 3.46E+0I 166.4 50.3 0 172 143 4.28E+00 5.91 6.9% 1.07 38.19 897 7.9 3.74E+02 172.0 I;ipp 52.01 0 1.72 149 4.16E+00 L 17Ink53.541:yari+«4i:' "`3,": 1. _ 153 . f a 4.063E 177.E 53.72 0 8.72 153 435E+00 133.1 35,43 0 8,72 15.7 395E+00 133.7 57.13 0 L72 16 3.86E+00 1943 58.84 0 3.72 16.4 3.77E+00 1991 6035 0 8.72 16.E 3.69E+00 205A 6226 0 172 17.1 3 61E+00 211.0 6337 0 832 173 334E+00 2163 65.67 0 8.72 17.8 347E+00 222.1 6738 0 8,72 212 3A1E+00 127.7 69.09 0 L7I 163 334E+00 233.3 70.8 0 172 181 3.29E+00 2319 7231 0 172 19.1 3.23E+00 244.4 7411 0 1.72 193 3 16E+00 250.0 7592 a 3.72 193 3,13E+00 255.6 77.63 0 8.72 20.1 3.08E+00 261_2 7934 0 8.72 20A 3.03E+00 2661 8105 0 L72 20.7 299E+00 2724 82.73 0 8.72 21 2.93E+00 2710 84A6 0 L71 213 2.91E+00 2833 2117 0 8.72 21.6 297E+00 2191 1711 0 8.72 219 233E+00 294.7 89.59 0 8.72 22.1 179E+00 3003 9129 0 8.72 22.4 2.76E+00 3059 93 0 8.72 217 2.73E+00 311.5 94.71 0 8.72 23 2.69E+00 317.1 96.42 0 3.72 233 2.66E+00 3217 9113 0 972 233 2.63E+00 321.3 9913 0 8.72 231 2.60E+00 333.9 10134 0 8.72 24.1 157E+00 3393 103.25 0 872 24.3 2.54E+00 345.1 104.96 a A72 24.6 292E+00 350.7 106.67 0 372 243 2.49E+00 356.2 10337 0 8.72 25,I 2.47E+00 361.3 120.0E 0 am 253 244E+00 367.4 I1I 79 0 8.72 23.1 2.42E+00 3732 1133 0 8.72 25.8 239E400 3716 11521 0 8.72 26.1 237E+00 3841 116.91 0 3.72 263 135E+0O 3893 111.62 0 8.72 26.6 233E+00 395A 12033 0 6.72 263 231E+00 401.0 121,04 a L72 27,1 219E+00 406.8 123.75 0 3.72 273 2.27E+00 412.2 123.45 0 8.72 273 2.25E+00 4I73 127.16 0 8.72 27.8 2.23E+00 4734 12817 0 1.72 28 221E400 429.0 130.5E 0 8.72 233 119E+00 4343 13128 0 172 283 117E+00 440.2 13399 0 8.72 21.7 115E+00 445.E 135.7 0 8.72 219 2.14E+00 451A 137.41 a 5.72 29.2 2.12E+00 457.0 139.12 a 1.72 294 2.10E+00 4623 14032 0 8.72 29.6 239E+00 4111 14I33 0 6.72 193 3.07E+00 473.7 144.24 0 8.72 30.1 106E+00 479.3 14595 0 8.72 303 2.04E+00 485.0 147.66 0 1.72 303 2.03E+00 4903 14936 0 1.72 30.7 2.01E+00 4961 151.07 0 8,72 30.9 2.00E+00 501.7 13I,78 0 3.72 31.2 199E+00 5073 154A9 0 8.72 314 0.97E+00 5119 1583 a B.7I 316 L961+00 5183 1373 0 5.72 311 195E+00 5241 159,61 0 1.72 32 L93E+00 529.7 16132 0 1.72 32.2 1.92E+00 535.3 163.03 0 3.72 32.4 1.91E400 540.9 164.74 0 172 32.6 190E+00 5463 166.44 0 3.72 326 1.88E+00 552.1 168.15 0 8.72 33.1 137E+00 557.7 169.8E 0 8.72 333 116E+00 339 5633 171.57 0 6.72 333 115E+00 3.45 568.9 173.28 0 5.72 33.7 1.84E+00 3.47 574.5 17498 0 8.72 33.9 1.83E+00 3.46 530.1 17669 0 8.72 34.1 131E+00 3A5 515.7 1784 0 3.72 34.3 131E+00 3.4 59I3 I80.11 0 1.72 343 179E+00 3.42 596.9 181.12 0 8.72 34.7 1.78E+00 3A1 6023 11332 0 8.72 34.9 L77E+00 340 6031 115.23 0 8.72 35.1 0.76E+00 3.39 613.7 19694 0 8.72 333 1.75N00 338 6193 I3163 a 8.72 353 1,74E+00 3.37 624.9 19036 0 172 35.7 1.73E+00 3.36 6303 192.06 0 6.72 35.9 I.73E400 3.36 635.1 193.77 0 1.72 36 L72E+00 3.35 641.7 195.41 0 8.72 361 1.71E+00 334 5.79 6.7% I S.69 1 6.55% 1 5.63 63% 533 6.4% SAD 6.3% SAO 6.1% 532 6.0% 5.24 5.6% 5.17 5.7% 5.10 5.6% 5.04 53% 4.57 SA% 432 5.3% 436 5.2% 4.11 51% 4.76 5.1% 4.71 5.0% 4.66 4.9% 4.62 41% 4.58 4116 4.54 4.7% 430 4.6% 4.46 4.6% 4A2 43% 439 43% 435 4A% 432 43% 4.29 43% 4.26 43% 4.23 4.2% 4.20 4.1% 4.17 4.1% 4.15 4.1% 4.12 4.0% 410 4.0% 437 4.0% 4.05 3.9% 4.02 3.9% 4.00 33% 338 31% 3.96 33% 3.94 3.7% 3.52 3.7% 390 17% 3.11 3.6% 316 3.6% 334 3.6% 312 33% 330 3.5% 3.7E 33% 3.77 33% 3.75 14% 3.73 14% 3.72 3.4% 3.70 3A% 3.69 33% 3.67 33% 3.66 33% 3.64 33% 3.63 3.2% 3.62 3.2% 3.60 31% 339 31% 338 3.1% 336 31% 335 31% 334 31% 333 31% 3.51 3.0% 330 3.0% 3.0% 3.0% 3.0% 19% 2.9% 29% 19% 2.9% 2.9% 2111 21% 23% 2.8% 21% 23% 28% 1.04 40A 895 732 4.03E+0I 171.6743 C�awn M280UN0AliYtSOk0151 1.01 4161 895 7.94 434E+02 Plums width (R( 099 44.32 1.95 796 4.65E+02 096 47.04 334 796 498E+02 0.94 49.23 694 B 532E+02 092 3146 193 101 3.66E+02 0.9 53 68 393 8.03 6.02E+01 098 339 8.92 5.04 639E+02 037 5331 192 105 6.77E+02 015 60.34 192 8.07 7.13E402 013 6237 891 8.01 7.55E+02 032 641 191 509 796E+02 03I 67.04 8.91 11 636E+02 0.79 69.28 89 111 8.61E402 0.78 7133 L9 112 9.26E+02 0.77 73.73 89 313 9.71E+00 0.76 76.03 19 114 1.02E+03 0.73 76.29 189 8.15 1.06E+03 0.74 6095 8.69 8.13 5.11E403 0.73 3212 839 3.16 0.16E+03 0.72 33.1 8.59 117 121E+03 0.71 8738 6.81 6 18 1.26E403 0.7 19.66 E.88 111 132E+03 0.69 91.95 898 8.19 137E+03 0.61 94.24 185 12 143E+03 0 67 9154 168 L2 1.43E403 0.66 98.84 1.37 8.21 1.54E+03 0.66 10113 1.87 312 1.60E+03 0.65 103A7 1.87 112 1.65E+03 0.64 105.73 187 123 L71E+173 0.64 108.11 13.17 813 0.75E+03 0.63 110A3 837 1.24 L34E+03 0.62 112.77 816 8.24 190E+03 0.62 11311 816 3.23 196E+03 0.61 117A5 136 8.25 2.03E+03 0.6 1191 8.85 8.26 210E+03 0.0 122.13 3.36 316 216E+03 039 1243 636 8.27 2.23E+03 0.59 125.87 811 3.27 230E+03 038 12923 8.85 6.27 237E+03 0.3E 1315 615 8.21 144E+03 037 13198 115 2.23 2.52E+033 0.57 13636 1.35 8.19 239E+03 036 13473 815 8.29 2.66E+03 0.56 I4114 3.35 5.29 174E+03 035 14333 135 33 292E+03 035 14333 8.15 63 290E+03 034 14333 185 83 297E+03 0.54 130.74 184 13I 3,05E+03 033 153.15 8.84 331 3.14E+03 0.53 15337 8,34 8.31 312E+03 033 15799 134 332 330E+03 032 160AI 3.64 832 3.36E+03 032 16284 834 832 3.47E+03 031 165.2E 6.84 133 3.561403 0.51 167,72 834 833 3.64E+03 031 170.16 184 833 3.73E+03 03 172.61 184 1.33 392E403 03 175.06 184 134 391E+03 03 1773I 8.83 834 4.00E+03 0.49 17937 313 134 4.10E+03 0.49 182.43 133 134 4,19E+03 0.49 1849 813 835 419E+03 0.4E 11737 3.83 333 4.33E+03 0A8 169.15 833 8.35 4.46E+03 0.48 19233 883 835 438E+03 0.47 29411 333 336 4.67E+03 0.47 1973 313 8.36 4.77E+03 0.47 199.79 113 136 4.88E403 0A5 2021E 133 836 498E+03 0.46 204.78 813 837 5.08E+03 0.46 20723 113 137 5.19E+03 0A6 209.79 L83 137 529E+03 0.15 2123 182 837 5.00E+03 0.43 214.31 3.12 137 5.50E+03 0.45 21733 0.62 8.3E 5.61E+03 045 21105 S42 1138 5.72E403 0.44 22238 132 833 533E+03 0.44 22491 112 838 594E+03 0.44 227.44 811 8.3E 6.06E+03 0.44 22997 182 1.39 6.17E+03 0A3 23231 112 139 6.29E+03 0.43 235.06 832 339 6.00E+03 0.43 237.6 8.82 839 6.52E+03 0.43 240.15 182 139 6.64E+03 j 73:ii19r9 Li} 36.4E2I1.706400 33,;;�t27l� };� 0.42 z4 n`�r. 't,76603 Gmtulative travel time • 6755.974 see. ( L88. hraj. - END OF MOD155: WEAKLY DEFLECTEDFACEIRCTTOM BEGIN M001S8: STRONGLYDEFLECiEDFACE/BO1 PLUME PLUME SPECIAL 0-FLOWININTERELOV OR VERTICAL DISCHARGE CASE: TINS FLOW REGION DOES NOT OCCUR. END OF 1400156:STRONGLY DEFIECTEOFACE/BOI'TOM PLUME 00 End of NEAR-FIELC REGION (NMI WOE OF DISCHARGE IBWUCEO MIXINGL efuntivdtilfassn. , . _ . If ortr Olt (ffl . 6a7.0 - The initial plume WIDTH values In the next farIeld modul. will be CORRECTED b/ ■ factor 333 to cenrerve the mau flue In the far-fMkt Ilse correction factor h quite large bsaure of the una8 ambient velocity relative to the strong mixing charactertstk of du disabusal This Indicates localised ORCULA1U REGIONS and .NTERNAL HYDRAUUC JUMPS. Width predictions show tmntindtis Dilution values should be acceptable. Some BOUNDARYITERAC110 with both banka occurs at end of nur•fieW. The dilution values In we or more of the preading zones may ha tea high. Carefully evaluate mufti in neartlstd and check degree of interaction. BEGIN M0D1111: MIXED 'ME/BOUNlNNEI/POSSUPSTREAM WEDGE INTRUSION An LPSTREAMINTRUDING WEDGE Is formed along the aa/pycnadlne. UPSTREAM WEDGE INTRUSIONPROPERTIE In bounded channel (laterally uniform): Wedge length • 117104.1 m X-Poshlan of wedge tip • 116907 m Thickness at discharge (end at NPR) • 6.02 in (Wedge thkloteu gradually decreases to zero at wedge tip.) In this case, the upstream INTRUSION IS VERY LARGE, exceeding ID times the load water depth. This may be posed by very smell anddent velodty, perhaps in umbinadon with Iarge discharge buoyancy. If the ambient conditions are strongly transient (e.g. tidal), Wen the CORMIX rteady.shupredktians of vpstreem intrusion are probably unreallstk. The plume predictions prior to boundary Impingement and wedge formation will be acceptable. however. X Y Z S C eV 0H ZU II. Tr 197.19 150 6.7I 36A 1.70E+00 6.02 500 10.11 4.09 6.76E+03 Cumulative trawl time • 6733961 see ( 1.88 hrs) Haw Es LATERALLY MIXED over the channel width. END OF MODI81: MIXED IME/BOUNINNEL/POSSIBtE UPSTREAM WEDGE INTRUSION BEGIN M00162: PASSIVE AMBIENT MIXING IN STRATIFIED AMBIENT Vertical diffusivity (Initial value) • 3.63E•10 n"2,4 Horizontal diffusivity (inRlai value) • 4.80E-03 m"2/a Profile definitions: BV • Gaussian d.'sgrt(pl/: -46% thldmgu, measured vertlally • or equal to layer depth; If fully mixed BH • Gaussian d.•sgrt(pV: -46% half -width, measured horitantelll In If -direction 2U • upper plume boundary (2-coardlnete) 71 • lower plume boundary (Z.00rdtnataj 5 • ydmdynam centerline dilution C • centerline oncentrallo (Indudu reaction affects, if airy) TT • Cumulative travel time Plume Sup 2 (bank attached): X Y 2 5 C BV BH 2U 21 IT 197.19 250 8.72 36A 1.706400 6.02 500 10.11 4.09 6.76E+03 245.22 250 3.72 36.0 1,70E+04 6.02 500 10.11 4.09 1.16E+04 293.24 230 8.72 36.0 1,70E+00 6.02 500 10.I1 4.09 L.64E+04 341.27 250 1.72 36.4 1,70E400 6.02 500 10.11 4.09 2.11E+04 3893 250 6.72 36A 1.70E+44 6.02 500 1411 4.09 2.60E404 43733 250 1.72 36.4 L70E+00 6.02 500 10.I1 4.09 3.08E+44 48536 250 5.72 36.4 L70E+00 6.02 500 1O.II 4,09 336E+04 53331 250 6.72 36.4 1.70E400 6.02 500 10.11 4.09 4.04E+44 581.41 250 1.72 36.4 1.70E+00 6.02 500 10.12 4.09 431E404 629.44 250 6.72 36.4 1.70E+04 6.02 500 10.I1 4.09 3.00E+04 677.47 250 1.72 36.4 1.70E+04 6.02 500 10.11 4.09 5.48E+04 7233 250 1.72 36.4 1.70E+00 6.02 500 10.11 4.09 596E404 77333 250 11.72 36.4 1.70E+04 6.02 500 10.11 4.09 6,44E+04 82135 260 11.72 36.4 1.70E+00 6.02 500 10.11 4.09 692E+04 86938 250 6.72 36.4 1.70E+40 6.02 500 10.11 4.09 7.40E+04 917.61 250 172 36.4 170E+00 6.02 500 10.11 4.09 7.88E+04 965.64 250 0.72 36A 170E400 6.02 300 10.11 4.09 836E404 1013.67 250 172 36A 1.70E+00 6.02 500 20.11 4.09 8.84E+04 1061.69 250 6.72 36.4 170E400 632 500 10.11 4.09 9.32E+04 1109.72 250 8.72 36A 1.70E+00 6.02 500 10.11 4.09 9.80E+04 1167,75 250 173 314 1.70E+00 632 500 10.11 4.09 2.05E+05 1205.78 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 1.086405 1233d1 250 8.72 36A 1.70E+00 6.02 500 10.11 4.09 1.12E+0S 130183 230 8.72 36A 170E+00 6.02 500 10.11 4.09 117E+05 1349.86 250 172 36A 170E+00 6.02 500 30.11 4.09 1.22E+05 1397.89 250 6.72 36.4 170E400 5.02 300 10.11 4.09 1.27E+0S 1445.92 250 172 36A 1.70E+00 6.02 500 10.11 439 131E405 1493.95 250 172 36A 1.70E+00 6.02 500 10.12 4.09 136E+0i 134197 250 8.72 36.4 1.70E+00 0.02 500 10.11 4.09 1416403 1590 230 8.72 36.4 L70E+00 6.02 500 10.11 4.09 146E+05 I638.03 230 0.72 36.4 1.70E+00 6.02 600 10.11 4.09 151E+03 1656.06 250 8.72 35.4 170E400 6.02 500 1111 439 156E+05 1734.09 150 172 36A 1.70E+00 632 500 1.0.11 4.09 1,60E405 1782.11 250 172 36A 1.706400 6.02 500 10.11 4.09 1.65E+03 133014 250 8.72 36.4 170E+00 6.02 500 10.11 4.09 1.70E+05 1378.17 250 172 36.4 1.70E+00 6.02 500 10.11 4.09 1.75E+05 1925.2 250 8.72 36.4 L70E+00 6.02 500 10.11 4.09 1.80E+05 1974.23 250 8.72 36.4 170E400 6.02 500 10.11 4.09 1.844+05 2022.26 250 6.72 36A 1.70E400 6.02 500 10.11 4.09 3.89E405 2070.2E 250 8.72 36.4 1.70E400 6.02 500 1111 4.09 134E+05 1118.31 250 172 36A 170E+00 6.02 500 10.11 4.09 154E+0S 216634 250 8.72 36.4 1.70E+00 6.02 S00 10.11 4.09 2.04E+05 22I437 230 L72 36A 1.70E+00 6.02 500 10.1i 4.09 2.08E405 2212.4 250 8.72 36A 1.70E+00 6.03 500 10.11 4.09 2,13E+05 2310A2 150 8.72 364 1.70E+00 6.02 500 10.11 4.09 2.18E+0S 235145 150 8.7I 36.4 170E+00 6.02 500 10.11 4.09 2.23E+0i 240808 250 8.72 36.4 170E+00 6.02 500 20.11 4.09 2.28E+0S 2454.5I 250 8.73 36A 1706400 6.02 500 10.11 4.09 2.32E+05 250234 250 172 364 1.70E+00 6.02 SW 10.31 4.09 237E+03 2550.56 250 L72 36.4 1.70E+00 6.02 500 10.11 4.09 2.42E44 239339 250 8.72 36A 1.70E+00 6.02 500 10.1I 439 2.476405 2646.62 250 0.72 36A 1.70E400 6.02 500 10.11 4.09 232E+05 2694.65 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 257E+05 174168 230 8.72 36.4 1.70E400 6.02 500 10.11 4.09 2.61E+0S 2790.7 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 2.66E405 283173 230 172 36.4 1.70E+00 6.02 300 10.11 4.09 2.71E+05 2886.76 250 8.72 36.4 1.70E+00 6.02 500 10.I2 4.09 1.76E+05 2934.79 230 8.72 36A 1.70E+00 6.02 500 10.1i 4.09 2.81E+05 298232 250 8.72 36.4 2.70E+00 6.02 500 10.11 4.09 213E+0S 303034 230 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 2906405 307137 250 172 364 1.70E+00 6.02 500 I0.11 4.09 236E405 31269 250 172 36A 1.70E400 6.02 500 10.11 4,09 3.00E405 3174.93 230 8.72 36.4 1.70E400 6.02 500 10.11 4.09 3.056405 3222.96 230 8.72 364 1.70E+00 6.02 500 10.11 4.09 3.09E+05 327039 250 172 36A L70E+00 532 500 10.11 4.09 3.14E+05 3319.02 250 1.72 36.4 170E+00 6.02 500 10.11 4.09 3.19E+0S 33E7,04 250 2.72 36.4 1.70E400 6.02 500 10.11 4.09 3.24E+05 3415.07 250 8.72 35A 1.706400 6.02 500 10.11 4.09 339E+03 3463.1 250 6.72 364 2.70E+00 6.02 500 10.21 4.09 3.33E+06 351113 250 8.72 36A 1.70E+00 6.02 500 10.11 4.09 3366405 3559.13 230 8.72 36A 1.70E+00 6.02 500 10.11 4.09 3A3E+05 3607.10 250 6.72 36.4 1.706400 6.02 500 10.11 4.09 3A8E+05 3655.21 250 8.72 36.4 1.706400 6.02 500 10.11 4.09 3.53E+05 3703.24 250 8.72 36.4 1.706400 6.02 500 10.11 4.09 357E+05 3731.17 250 8.72 36.4 1.70E400 6.02 500 10.11 4.09 3.62E+05 3799.29 260 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 3.67E405 384733 250 8.72 36.4 1.70E+00 6.02 S00 10.11 4.09 3.72E+05 389335 250 6.72 36.4 1.70E+00 6.02 500 10.11 4.09 3.77E405 394338 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 3.81E405 3991.41 250 3.72 36.4 1.70E+00 6.02 500 10.11 4.09 3.86E+05 4039A3 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 391E+05 4087A6 250 6.72 36.4 170E+00 6.02 500 10.11 4.09 336E+0S 4136.49 250 8,72 36A 1.70E+00 532 500 10.11 4.09 4.01E405 418331 250 172 36A 1.70E400 6.02 500 10.11 4.09 4.05E403 423153 250 8.72 36A 1.70E+00 6.02 300 I0.11 4.09 4.10E+05 427938 250 8.72 36.4 1.70E400 6.02 500 10.11 4.09 4.36E+05 4327.6 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 4.20E+03 4375.63 250 8.72 36A 1.70E+00 6.02 500 10.11 4.09 4.25E+05 4423.66 250 8.72 36A 170E+00 6.412 500 10.11 4.09 4.29E+05 447L69 230 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 4346403 4519.72 250 8.72 36A L70E+00 6.02 500 10.11 4.09 4.39E+0S 456775 250 8.72 36A 1.70E+00 6.02 500 10.11 4.09 4.44E+05 461177 250 8.72 36.4 1.70E400 6.02 500 1011 4.09 4.49E+05 466321 250 8.72 36A 1.70E+00 6.02 500 10.12 4.09 413E405 4711.83 250 8.72 36A 1.70E+00 5.0 500 10.11 4.09 4.58E403 475936 230 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 4.63E+0S 480739 250 6.72 36A 1.70E400 6.02 500 10.11 4.09 4.68E+05 4355.92 250 8.72 36.4 1.70E+00 6.02 300 10.11 4.09 4,73E+0S 4903.94 250 8.72 36.4 1.70E+00 6.03 500 10.11 4.09 4,77E+05 4951.97 250 8.72 36.4 1.70E+00 5.02 500 10.11 4.09 4.82E+0S 5000 250 8.72 36A 1.70E+00 6.02 500 10.11 4.09 4.97E+05 Note: CORMIX Cumu4dhre travel time • 417037.2 b a steady over time. The distance. Keep In tarp space and Inconsistent with CORMIX Please carefully evaluate your and time sales Simulation limit based This Is the ENO OF MOGl62: PASSIVE state modal predicted plume mind that time tales. modeling usunptkn2 simulation results consistent with on maximum REGION OF AMBIENT MIXING CORMI21.• Single Port Olschar s End of 1.11E+94 SAC { and assumes cumulative travel ambient and Predictions at 133.29 hrtj dlscharp and amblant conditions time exceeds 42 hours discharge conditions ars Duly such Imp space and and limit modal Itarpr.tadn to space steady state suumptbm and amblant h.matitation. specified distance • 3000 INTEREST limitation. IN STRATIFIED AMBIENT Prediction File m. do at to time not valy this trajectory vary awr scales may be Attachment C CORMIX Model Output— Example Validation Run Case 4a: Low Water Level Case "Conservative Pollutant" Type Co = 29.6° C (Effluent Temperature) C0RMIX1 PREDICTION FILE: 1.11E+94 CORMIX MIXING ZONE EXPERT SYSTEM Subsystem C0RMIX1:5ingle Port Discharges CORMIX Version 11.0GTD HYDROI Version 11.0.1.0 August 2019 CASE DESCRIPTION Site name/label: Harris Reservoir (HNP Outfall 006} Design case: Case 04a-min. WSE (218 NGVD) FILE NAME: C:\...6)\C0RMIX 11.0\HNPOO6-04a_min WSE_rev 2-10-21.prd Time stamp: 02/10/2021-15:12:36 ENVIRONMENT PARAMETERS (metric units) Bounded section B5 = 500.00 AS = 6550.00 QA 2 65.50 ICHREG= 1 HA = 13.10 HD = 13.10 UA = 0.010 F = 0.013 USTAR =0.4081E-03 UW = 2.000 UWSTAR=0.2198E-02 Density stratified environment STRCND= C RHOAM = 996.9916 RHOAS = 995.7971 RHOAB = 998.9443 RHOAHO= 997.7290 E =0.2946E-02 DRHOJ = 0.7166 HINT = 8.10 ES =0.3814E-02 DISCHARGE PARAMETERS (metric units) BANK = LEFT DISTB = 250.00 D0 = 1.219A0 = 1.167 HO = 2.13 SUBO = 10.97 THETA = 0.00 SIGMA = 0.00 UO = 0.717 QO = 0.837 =0.8368E+00 RHOO = 995.7672 DRHOO =0.1962E+01 GPO .1928E-01 CO =0.1110E+02 CUNITS= deg.0 IPOLL= 1 KS =0.0000E+00 1(0 =0.0000E+00 FLUX VARIABLES (metric units) Q0 =0.8368E+00 MO =05998E+00 JO =0.1614E-01 SIGNJO= 1.0 Associated length scales (meters) LQ = 1.08. LM - = 5.37 Lin = 77.45 Lb = 16135.78 Lmp = 99999.00 Lbp = 99999.00 NON -DIMENSIONAL PARAMETERS FRO = 4.67 R = 71.68 FLOW CLASSIFICATION 1.11E+4Z- -. -- t Flow.slass_(C0RMIX1)_11J4-0 1 1 Applicable layer depth HS = 8.10 1 1 Limiting Dilution 5 =0A/0.0= 79.27 1 1.11E+47 MIXING ZONE / TOXIC DILUTION / REGION OF INTEREST PARAMETERS CO =0.1110E+02 [UNITS= deg.0 NTOX = 0 NSTD=0 REGMZ = 0 XINT = 5000.00 XMAX = 5000.00 X-Y-Z COORDINATE SYSTEM: ORIGIN Is located at the bottom and below the center of the port: 250.00 m from the LEFT bank/shore. X-axis points downstream, Y-axis points to left, Z-axis points upward. NSTEP = 100 display Intervals per module BEGIN MOD101: DISCHARGE MODULE Radla Distance, X Y Z S C B Uc TT 0.0 0 0 2.13 1 1.11E+01 0.61 0.707 0.00E+00 END OF MOD1O1: DISCHARGE MODULE BEGIN CORJET (MOD11O): JET/PLUME NEAR -FIELD MIXING REGION Jet/plume transition motion in weak crossflow. Zone of flow establishment: THETAE= 0.00 SIGMAE= 0.00 LE = 5.27 XE = 5.27 YE = 0.00 2E = 2.13 Profile definitions: B = Gaussian 1/e (37%6) half -width, normal to trajectory S = hydrodynamic centerline dilution C = centerline concentration (includes reaction effects, If any) Uc = Local centerline excess velocity (above ambient) TT= Cumulative travel time Radio Dlstancq X Y Z S C B Uc 7T 0.0 0 0 2.13 1 1.11E+01 0.61 0.707 0.00E+00 17.3 5.27 0 2.13 1 1.11E+01 0.62 0.707 8.19E-02 17.8 5.43 0 2.13 I 1.11E+01 0.64 0.707 2.49E-01 18.4 5.6 0 2.14 1 1.11E+01 0.65 0.707 4.21E-01 18.9 5.76 0 2.14 1 1.11E+01 0.67 0.707 5.97E-01 19.4 5.92 0 2.15 1 1.11E+01 0.69 0.707 7.78E-01 19.9 6.08 0 2.16 1 1.11E+01 0.71 0.707 9.64E-01 20.5 6.24 0 2.17 1 1.11E+01 0.72 0.707 1.15E+00 21.0 6.41 0 2.18 1 1.08E+01 0.74 0.707 1.35E+00 21.6 6.57 0 2.19 I 1.06E+01 0.76 0.707 1.55E+00 22.1 6.73 0 2.21 1.1 1.03E+01 0.78 0.707 1.75E+00 22.6 6.89 0 2.23 1.1 1.01E+01 0.79 0.707 1.96E+00 23.1 7.05 0 2.24 1.1 9.86E+00 0.81 0.707 2.17E+00 23.7 7.21 0 2.27 1.2 9.64E+00 0.83 0.707 2.39E+00 24.4 7.45 0 2.3 1.2 9.33E+00 0.85 0.707 2.72E+00 25.0 7.61 0 2.33 1.2 9.12E+00 0.87 0.698 2.95E+00 25.5 7.77 0 2.36 1.2 8.93E+00 0.89 0.685 3.18E+00 26.0 7.93 0 2.39 1.3 8.74E+00 0.91 0.672 3.42E+00 26.6 8.09 0 2.43 1.3 856E+00 0.92 0.661 3.66E+00 27.1 8.24 0 2.46 1.3 8.38E+00 0.94 O.649 3.90E+00 27.6 8.4 0 2.5 1.4 8.21E+00 0.96 0.638 4.15E+00 28.1 8.56 0 2.54 1.4 8.05E+00 0.98 0.628 4.41E+00 28.6 8.72 0 2.58 1.4 7.89E+00 1 0.618 4.66E+00 29.1 8.87 0 2.62 1.4 7.73E+00 1.01 0.608 4.92E+00 29.7 9.03 0 2.67 1.5 758E+00 1.03 0.599 5.19E+00 30.2 9.18 0 2.72 1.5 7.44E+00 1.05 059 5.46E+00 30.7 9.34 0 2.77 1.5 7.30E+00 1.07 0.581 5.73E+00 31.5 9.57 0 2.84 1.6 7.09E+00 1.09 0.569 6.15E+00 32.0 9.72 0 2.9 1.6 6.96E+00 1.11 0.561 6.43E+00 32.5 9.87 0 2.95 1.6 6.83E+00 1.13 0553 6.72E+00 33.0 10.02 0 3.01 1.7 6.71E+00 1.15 0.546 7.01E+00 33.5 10.17 0 3.07 1.7 659E+00 1.16 0.538 7.31E+00 34.0 10.32 0 3.13 1.7 6.48E+0Q 1.18 0.531 7.61E+00 34.5 10.47 0 3.19 1.7 6.37E+00 1.2 0524 7.91E+00 35.0 10.62 0 3.26 1.8 6.26E+00 1.22 0.518 8.21E+00 35.6 10.77 0 3.32 1.8 6.15E+00 1.24 0.511 852E+00 36.1 10.92 0 3.39 1.8 6.05E+00 1.25 0.505 8.84E+00 36.6 11.07 0 3.46 1.9 5.95E+00 1.27 0.499 9.16E+00 37.1 11.21 0 3.53 1.9 5.85E+00 1.29 0.493 9.48E+00 37.8 11.43 0 3.63 1.9 5.72E+00 1.32 0.484 9.97E+00 38.3 11.58 0 3.7 2 5.63E+00 1.33 0.478 1.03E+01 38.8 11.72 0 3.77 2 5.54E+00 1.35 0.472 1.06E+01 39.4 11.87 0 3.85 2 5.46E+00 1.37 0.466 1.10E+01 39.8 12.01 0 3.92 2.1 5.38E+00 1.39 0.461 1.13E+01 40.4 12.16 0 3.99 2.1 5.30E+00 1.41 0.455 1.17E+01 40.9 12.3 0 4.07 2.1 5.23E+00 1.43 0.449 1.20E+01 41.3 12.44 0 4.14 2.2 5.16E+00 1.44 0.444 1.24E+01 41.9 12.59 0 4.22 2.2 5.09E+00 1.46 0.438 1.27E+01 42.4 12.73 0 4.29 2.2 5.02E+00 1.48 0.433 1.31E+01 42.9 12.87 0 4.37 2.2 4.96E+00 15 0.427 1.35E+01 43.4 13.02 0 4.45 2.3 4.90E+00 152 0.422 1.39E+01 43,9 13.16 0 4.52 2.3 4.84E4:00 154 0 417 1.42E+01 44.6 13.37 0 4.63 2.3 4.75E+00 157 0.409 1.48E+01 45.2 13.52 0 4.71 2.4 4,70E+00 138 0.403 152E+01 45.7 13.66 0 4.78 2.4 4.65E+00 1.6 0.398 156E+01 46.2 13.81 0 4.86 2.4 4.60E+00 1.62 0.392 1.60E+01 46.7 13.95 0 4.93 2.4 4.55E+00 1.64 0.387 1.64E+01 47.2 14.1 0 5 2.5 430E+00 1.66 0.382 1.68E+01 47.7 14.24 0 5.07 2.5 4.46E+00 1.68 0.376 1.72E+01 48.2 14.39 0 5.14 2.5 4.42E+00 1.7 0.371 1.77E+01 48.8 1454 0 5.21 2.5 4.38E+00 1.72 0.366 1.81E+01 49.3 14.68 0 5.27 2.6 4.33E+00 1.74 0.36 1.85E+01 49.8 14.83 0 5.34 2.6 4.29E+00 1.76 0.355 1.90E+01 50.3 14.98 0 5.4 2.6 4.25E+00 1.78 0.349 1.94E+01 51.1 15.21 0 5.49 2.6 4.19E+00 1.81 0.341 2.01E+01 51.6 15.36 0 5.55 2.7 4.15E+00 1.84 0.335 2.06E+01 52.1 1551 0 5.6 2.7 4.11E+00 1.86 0.329 2.11E+01 52.7 15.67 0 5.65 2.7 4.07E+00 1.88 0.324 2.15E+01 53.2 15.82 0 5.7 2.8 4.03E+00 1.91 0.319 2.20E+01 53.8 15.98 0 5.74 2.8 3.99E+00 1.93 0.313 2.25E+01 54.3 16.13 0 5.78 2.8 3.96E+00 1.95 0.308 2.30E+01 54.8 16.29 0 5.82 2.8 3.92E+00 1.98 0.304 2.36E+01 55.3 16.45 0 5.85 2.9 3.88E+00 2 0.299 2.41E+01 55.9 16.61 0 5.88 2.9 3.85E+00 2.02 0.295 2.46E+01 56.4 16.77 0 5.9 2.9 3.82E+00 2.04 0.291 251E+01 56.9 16.93 0 5.92 2.9 3.78E+00 2.06 0.288 2.57E+01 57.4 17.09 0 5.93 3 3.75E+00 2.08 0.285 2.62E+01 58.2 17.34 0 5.94 3 3.70E+00 2.11 0.281 2.71E+01 Maximum jet height has been reached. 58.8 17.5 0 5.94 3 3.67E+00 2.12 0.279 2.76E+01 59.3 17.66 0 5.93 3 3.64E+00 2.14 0.277 2.82E+01 59.8 17.82 0 5.92 3.1 3.61E+00 2.15 0.276 2.88E+01 60.3 17.98 0 5.91 3.1 3.58E+00 2.16 0.275 2.93E+01 60.8 18.14 0 5.88 3.1 3.55E+00 2.18 0.274 2.99E+01 61.3 18.3 0 5.86 3.2 3.52E+00 2.19 0.273 3.05E+01 61.8 18.46 0 5.82 3.2 3.49E+00 2.2 0.273 3.10E+01 62.3 18.62 0 5.79 3.2 3.46E+00 2.21 0.273 3.16E+01 62.8 18.78 0 5.75 3.2 3.43E+00 2.22 0.273 3.22E+01 63.2 18.93 0 5.7 3.3 3.40E+00 2.23 0.273 3.28E+01 63.7 19.09 0 5.65 3.3 3.37E+00 2.24 0.273 3.33E+01 64.4 19.32 0 5.57 3.3 3.33E+00 2.26 0.273 3.42E+01 64.8 19.47 0 552 3.4 3.30E+00 2.27 0.272 3.48E+01 65.3 19.62 0 5.46 3.4 3.27E+00 2.28 0.272 3.54E+01 65.7 -19 77 0 5.39 -3.4-3.24E+00-- 2.29-.__0.272-3.59E+01 36,7 19.92 a 5.33 35 3,71E+00 2.31 0.271 3.65E+01 66.6 20.06 0 5.26 3.5 3.18E+00 2.32 0.27 3.71E+01 67.1 20.21 0 5.19 3.5 3.15E+00 2.34 0.269 3.77E+01 67.5 20.36 0 5.12 3.6 3.12E+00 2.35 0.268 3.83E+01 67.9 20.5 0 5.05 3.6 3.09E+00 2.37 0.266 3.88E+01 68.4 20.65 0 4.98 3.6 3.06E+00 2.39 0.265 3.94E+01 68.8 20.79 0 4.9 3.7 3.04E+00 2.41 0.263 4.00E+01 69.2 20.93 0 4.83 3.7 3.01E+00 2.43 0.261 4.06E+01 69.7 21.08 0 4.76 3.7 2.99E+00 2.45 0.259 4.12E+01 Terminal level In stratified ambient has been reached. Cumulative travel time 41.2278 sec ( 0.01 hrs) END OF CORJEf (MOD110): JET/PLUME NEAR -FIELD MIXING REGION BEGIN MOD131: LAYER BOUNDARY/TERMINAL LAYER APPROACH Control volume Inflow: X Y Z S C B TT 69.7 21.08 0 4.76 3.7 2.99E+00 2.45 4.12E+01 Profile definitions: BV = Gaussian 1/e (37%) vertical thickness BH a Gaussian 1/e (37%) horizontal half width, normal to trajectory ZU = upper plume boundary (Z-coordinate) ZL = lower plume boundary (Z-coordinate) 5 = hydrodynamic centerline dilution C = centerline concentration (Includes reaction effects, if any) TT = Cumulative travel time Radio( Distance X Y 2 5 C BV BH ZU ZL TT 64.2 18.63 0 8.1 3.7 2.99E+00 0 0 8.1 8.1 4.12E+01 66.5 19.37 0 8.1 3.7 2.99E+00 2.17 1.09 8.62 6.45 4.12E+01 68.8 20.1 0 8.1 3.7 2.99E+00 2.57 154 8.71 6.14 4.12E+01 71.1 20.83 0 8.1 3.7 2.99E+00 2.83 1.89 8.78 5.94 4.12E+01 73.4 2157 0 8.1 3.7 2.97E+00 3.02 2.18 8.82 5.8 4.42E+01 75.7 22.3 0 8.1 3.8 2.89E+00 3.17 2.44 8.86 5.69 4.86E+01 78.1 23.04 0 8.1 4 2.80E+00 3.28 2.68 8.88 5.61 5.31E+01 80.4 23.77 0 8.1 4.1 2.71E+00 3.36 2.89 8.9 5.55 5.75E+01 82.7 24.5 0 8.1 4.2 2.66E+00 3.41 3.09 8.91 5.5 6.19E+01 85.1 25.24 0 8.1 4.2 2.63E+00 3.44 3.28 8.92 5.48 6.64E+01 87.4 25.97 0 8.1 4.3 2.61E+00 3.45 3.45 8.92 5.47 7.08E+01 Cumulative travel time = 70.8046 sec ( 0.02 hrs) END OF MOD131: LAYER BOUNDARY/TERMINAL LAYER APPROACH BEGIN MOD155: WEAKLY DEFLECTED SURFACE/BOTTOM PLUME SURFACE/BOTTOM PLUME into a co -flow (or counter -flaw) Profile definitions: BV = Gaussian 1/e (37%) vertical thickness BH = Gaussian 1/e (37%) horizontal half -width, normal to trajectory ZU a upper plume boundary (Z-coordinate) ZL a lower plume boundary (Z-coordinate) 5 = hydrodynamic centerline dilution C = centerline concentration (includes reaction effects, If any) TT = Cumulative travel time Radial Distance X Y 2 5 C BV 87.4 25.97 0 8.1 4,3 2.61E+00 3.45 92.9 27.68 0 8.1 6.1 1.83E+00 2.42 98.4 29.39 0 8.1 7.2 154E+00 2.04 103.9 31.1 0 8.1 8.1 1.37E+00 1.81 109.4 32.8 0 8.1 8.9 1.25E+00 1.65 114.9 3431 0 8.1 9.6 1.16E+00 153 120.4 36.22 0 8.1 10.2 1.09E+00 1.44 126.0 37.93 0 8.1 10.8 1.03E+00 1.36 131.5 39.64 0 8.1 11.3 9.80E-01 1.3 137.0 41.34 0 8.1 11.8 9.37E-01 1.24 142.6 43.05 0 8.1 12.3 9.01E-01 1.19 148.2 44.76 0 8.1 12.8 8.68E-01 1.15 153.7 46.47 0 8.1 13.2 8.39E-01 1.11 159.3 48.18 0 8.1 13.7 8.12E-01 1.08 164.8 49.88 0 8.1 14.1 7.88E-01 1.04 170.4 5159 0 8.1 14.5 7.67E-01 1.01 176.0 53.3 0 8.1 14.9 7.46E-01 0.99 177.0. 53.6. 15.0 181.5 55.01 0 8.1 15.3 187.1 56.72 0 8.1 15.6 192.7 58.42 0 8.1 16 198.3 60.13 0 8.1 16.3 203.8 61.84 0 8.1 16.7 209.4 63.55 0 8.1 17 215.0 65.26 0 8.1 17.4 220.6 66.96 0 8.1 17.7 226.2 68.67 0 8.1 18 231.7 70.38 0 8.1 18.3 237.3 72.09 0 8.1 18.7 242.9 73.79 0 8.1 19 7.28E-01 7.10E-01 6.94E-01 6.79E-01 6.65E-01 6.52E-01 6.39E-01 6.27E-01 6.16E-01 6.05E-01 5.95E-01 5.85E-01 0.96 0.94 0.92 0.9 0.88 0.86 0.85 0.83 0.82 0.8 0.79 0.77 BH ZU ZL TT 3.46 8.92 5.47 7.08E+01 7.01 8.68 6.25 8.54E+01 9.94 8.59 655 1.01E+02 12.61 8.53 6.72 1.18E+02 15.13 8.49 6.84 1.36E+02 17.56 8.47 6.93 134E+02 19.91 8.44 7.01 1.74E+02 22.23 8.4I 7.06 1.95E+02 24.5 8.41 7.11 2.17E+02 26.76 8.4 7.16 2.40E+02 28.99 838 7.19 2.64E+02 31.21 8.37 7.23 2.90E+02 33.42 8.36 7.25 3.16E+02 35.62 8.36 7.28 3.43E+02 37.82 8.35 7.31 3.71E+02 40.01 8.34 7.33 4.01E+02 42.2 8.34 7.35 4.31E+02 42.60 44.39 46.58 48.78 50.97 53.16 55.36 57.56 59.77 61.97 64.19 66.4 68.62 Plume width (ft) 279.57 8.33 7.37 4.63E+02 Hari:. Distance (ft) 175.91 8.3I 7.38 4.95E+02 8.32 7.4 5.29E+02 8.31 7.42 5.64E+02 8.31 7.43 5.99E+02 8.31 7.44 6.36E+02 8.3 7.46 6.74E+02 8.3 7.47 7.13E+02 8.29 7.48 7.53E+02 8.29 7.49 7.94E+02 8.29 7.5 8.36E+02 8.28 7.51 8.79E+02 248.5 75.5 0 8.1 19.3 5,76E-01 0.76 70.85 8,28 7.52 9.23E+02 254.1 77.21 0 8.1 19.6 5-67E-01 0.75 73-08 8.28 7.53 9.68E+02 259.7 78.92 0 8.1 19.9 559E-01 0.74 75.31 8.28 7.54 1.01E+03 265.3 80.63 0 8.1 20.2 5.51E-01 0.73 77.55 8.27 755 1.06E+03 270.8 82.33 0 8.1 20.4 5.43E-01 0.72 79.79 8.27 7.55 1.11E+03 276.4 84.04 0 8.1 20.7 5.35E-01 0.71 82.04 8.27 7.56 1.16E+03 282.0 85.75 0 8.1 21 5.28E-01 0.7 84.29 8.27 757 1.21E+03 287.6 87.46 0 8.1 21.3 5.21E-01 0.69 8655 8.26 7.57 1.26E+03 293.2 89.17 0 8.1 21.6 5.15E-01 0.68 88.81 8.26 7.58 1.31E+03 298.8 90.87 0 8.1 21.8 5.08E-01 0.67 91.08 8 26 7.59 1.37E+03 304.4 92.58 0 8.1 22.1 5.02E-01 0.66 93.35 8.I6 7.59 1.42E+03 310.0 94.29 0 8.1 22.4 4.96E-01 0.66 95.62 8.26 7.6 1.48E+03 315.6 96 0 8.1 22.7 4,90E-01 0.65 97.91 8.25 7.61 1.54E+03 321.2 97.71 0 8.1 22.9 4.84E-01 0.64 100.19 8.25 7.61 159E+03 326.8 99.41 0 8.1 23.2 4.79E-01 0.63 102.48 8.25 7,62 1.65E+03 332.4 101.12 0 8.1 23.4 4,74E-01 0.63 104.78 8.25 7,62 1.71E+03 338.0 102.83 0 8.1 23.7 4.69E-01 0.62 107.08 8.25 7.63 1.77E+03 343.6 104.54 0 8.1 23.9 4.64E-01 0.61 109.39 8.25 7,63 1,83E+03 349.2 106.25 0 8.1 24.2 459E-01 0.61 111.7 8,24 7,64 1.90E+0g 354.7 107.95 0 8.1 24.4 4.54E-01 0.6 114.02 8,24 7.64 1.96E+03 360.3 109.66 0 8.1 24.7 450E-01 0.6 116.34 8.24 7.65 2.03E+03 365.9 111.37 0 81 24,9 4.45E-01 0.59 118.66 8.24 7.65 2.09E+03 371.5 113.08 0 8,1 25.2 4.41E-01 058 120.99 8,24 7.66 2.16E+03 377.1 114.79 0 8.1 25.4 4.37E-01 0.58 123.33 8,24 7.66 2.23E+03 382.7 116.49 0 8.1 25.7 4.33E-01 057 125.67 8.24 7.66 2.30E+03 388.3 118.2 0 8.1 25.9 4.29E-01 0.57 128.01 8.24 7.67 2.37E+03 393.9 119.91 0 8.1 26.1 4.25E-01 0.56 130,36 8.23 7.67 2.44E+03 399.5 121.62 0 8.1 26.4 4.21E-01 0.56 132.71 8.23 7.68 2.51E+03 405.1 123.33 0 8.1 26.6 4.17E-01 055 135.07 8.23 7.68 2.59E+03 410.7 125.03 0 8.1 26.8 4.14E-01 0.55 137.43 8.23 7,68 2.66E+03 416.3 126.74 0 8.1 27.1 4.10E-01 054 139.8 8,23 7,69 2.74E+03 421.9 128.45 0 8.1 27.3 4.07E-01 0.54 142.17 8.23 7.69 2.81E+03 427S 130.16 0 8.1 275 4.03E-01 053 144.55 8.23 7.69 2.89E+03 433.1 131.87 0 8.1 27.7 4.00E-01 053 146.93 8.23 7.7 2.97E+03 438.7 13357 0 8.1 28 3.97E-01 053 149.32 8,23 7.7 3.05E+03 444.3 135.28 0 8.1 28.2 3.94E-01 0..52 151.7 8.72 7.7 3.13E+03 449.9 136.99 0 8.1 28.4 3.91E-01 052 154.1 8.22 7.71 3.21E+03 455.5 138.7. 0 8.1 28.6 3.88E-01 0.51 1565 8.21 7.71 3.30E+03 461.1 140.41 0 8.1 28.9 3.85E-01 051 158.9 8.22 7.71 3.38E+03 466.7 142.11 0 8.1 29.1 3.82E-01 051 161.31 8.22 7.72 3.47E+03 472.3 143.82 0 8.1 29.3 3.79E-01 0.5 163.72 8,22 7.72 3.55E+03 477.9 145.53 0 8.1 295 3.76E-01 05 166.13 8.22 7.72 3.64E+03 483.5 147.24 0 8.1 29.7 3.73E-01 0.49 168.55 8.22 7.72 3.73E+03 489.1 148.95 0 8.1 29.9 3.71E-01 0.49 170.98 8.22 7.73 3.82E+03 494.7-----150.65 0 8.1 3041- 3.68E-01- 0.49 173,4- 8,22- -. 7.73... - 3.91E+03- 500.3 152.36 0 8.1 30.4 3.66E-01 0.48 175.83 8,22 7.73 400E+03 505.9 154.07 0 8.1 30.6 3.63E-01 0.48 17827 8.21 7.73 4.09E+03 511.5 155.78 0 8.1 30.8 3.61E-01 0.48 180.71 8.21 7.74 4.19E+03 517.1 157.49 0 8.1 31 358E-01 0.47 183.15 8.21 7.74 4.28E+03 522.7 159.19 0 8.1 31.2 356E-01 0.47 185.6 8.21 7.74 4.38E+03 528.3 160.9 0 8.1 31.4 354E-01 0.47 188.05 8.21 7.74 4.48E+03 533.9 162.61 0 8.1 31.6 351E-01 0,46 190.51 8.21 7.75 4.57E+03 539.5 164.32 0 8.1 31.8 3.49E-01 0.46 192.97 8.21 7.75 4.67E+03 545.1 166.02 0 8.1 32 3.47E-01 0.46 195.43 8.21 7.75 4.77E+03 550.7 167.73 0 8.1 32.2 3.45E-01 0.46 197.9 8.21 7.75 4.87E+03 556.3 169.44 0 8.1 32.4 3.43E-01 0.45 200.37 8.21 7.75 4.98E+03 561.9 171.15 0 8.1 32.6 3.40E-01 0.45 202.85 8.21 7,76 5.08E+03 567.5 17I.86 0 8.1 32.8 3.38E-01 0.45 205.33 8,21 7.76 5.18E+03 573.1 174.56 0 8.1 33 3.36E-01 0.45 207.81 8,21 7,76 5.29E+03 578.7 176.27 0 8.1 33.2 3.34E-01 0.44 210.3 8.21 7.76 5,39E+03 584.3 177.98 0 8.1 33.4 3.32E-01 0.44 212.79 8.21 7.77 5.50E+03 589.9 179.69 0 8.1 33.6 3.30E-01 0.44 215.28 8.2 7.77 5.61E+03 595.5 181.4 0 8.1 33.8 3.29E-01 0.43 217.78 8.2 7.77 5.72E+03 601.1 183.1 0 8.1 34 3.27E-01 0.43 220.28 8.2 7.77 5.83E+03 606.7 184.81 0 8,1 34.2 3.25E-01 0.43 222.78 8.2 7.77 5.94E+03 612.3 186.52 0 8.1 34.4 3.23E-01 0.43 225.29 8,2 7,77 606E+03 617.9 188.23 0 8.1 34.6 3.21E-01 0.43 227.8 8,2 7.78 6.17E+03 623.5 189.94 0 8.1 34.7 3,19E-01 0.42 230.32 8.2 7.78 6.28E+03 629.1 191.64 0 8.1 34.9 3.18E-01 0.42 232.84 8.2 7.78 6.40E+03 634.7 19335 0 8.1 35.1 3.16E-01 0.42 235.36 8.2 7.78 6.52E+03 640.3 195.06 0 8.1 35.3 3.14E-01 0.42 237.89 8.2 7.78 6.63E+03 645.9 196.77 0 8.1 353 3.13E-01 0.41 240.42 8.2 7.78 6.75E+03 Cumulative travel time = 6753.3706 sec ( 1.88 hrs) END OF MOD155: WEAKLY DEFLECTED SURFACE/BOTTOM PLUME BEGIN MOD156: STRONGLY DEFLECTED SURFACE/BOTTOM PLUME SPECIAL CO -FLOWING, COUNTER -FLOWING OR VERTICAL DISCHARGE CASE: THIS FLOW REGION DOES NOT OCCUR. END OF MOD156: STRONGLY DEFLECTED SURFACE/BOTTOM PLUME " End of NEAR -FIELD REGION (NFR) •• The initial plume WIDTH values in the next far -field module will be CORRECTED by a factor 3.84 to conserve the mass flux In the far -field] The correction factor is quite large because of the small ambient velocity relative to the strong mixing characteristics of the discharge] This indicates localized RECIRCULATION REGIONS and INTERNAL HYDRAUUC JUMPS. Width predictions show discontinuities. Dilution values should be acceptable. Some BOUNDARY INTERACTION with both banks occurs at end of near -field. The dilution values In one or more of the preceding zones may be too high. Carefully evaluate results In near -field and check degree of interaction. BEGIN MOD181: MIXED PLUME/BOUNDED CHANNEL/POSSIBLE UPSTREAM WEDGE INTRUSION An UPSTREAM INTRUDING WEDGE is formed along the surface/pycnocline. UPSTREAM WEDGE INTRUSION PROPERTIES in bounded channel (laterally uniform): Wedge length = 11893.14 m X-Position of wedge tip =-11696.37 m Thickness at discharge (end of NFR) = 5.81 m (Wedge thickness gradually decreases to zero at wedge tip.) In this case, the upstream INTRUSION I5 VERY LARGE, exceeding 10 times the local water depth. This may be caused by a very small ambient velocity, perhaps in combination with large discharge buoyancy. If the ambient conditions are strongly transient (e.g. tidal), then the CORMIX steady-state predictions of upstream intrusion are probably unrealistic. The plume predictions prior to boundary impingement and wedge formation will be acceptable, however. Radial, Distance X Y Z 5 C BV BH ZU ZL TT 645.9 196.77 250 8.1 35.5 3.13E-01 8.1 500 10.03 1.93 6.75E+03 Cumulative travel time = 6753.3770 sec ( 1.88 hrs) VERTICALLY AND LATERALLY FULLY MIXED over layer depth: END OF SIMULATION] END OF MOD181: MIXED PLUME/BOUNDED CHANNEL/POSSIBLE UPSTREAM WEDGE INTRUSION CORMIX1: Single Port Discharges End of Prediction File 1.11E+94 Attachment D Reservoir Level Meter Data from Primary & Secondary Intake Pump Stations AVERAGEOAILY OiW7ime .LS12150AIRl LSCI750BfRl �VAl0EU5ED, Date/7lme LSC8750A{hf 1/1/2015 220.90 220.73 220.12 17/7/2017 •• 1/2/2015 220.77 220.65 210.71 12/8/2017 •• 1/3/2015 220.77 220.65 220.71 12/9/2017 60 1/4/2015 210.63 _ 22038 220.61 12/10/1017 •• 1/5/2015 210.77 220.65 220.71 11/11/1017 •• 1/6/2015 220.63 22057 220.60 12/12/2017 66 1/7/2015 120.64 22037 220.61 12/13/1017 •• 1/9/2015 220.61 220A8 22035 12/14/2017 •• 1/9/2015 220.57 220.41 220.49 12/15/2017 60 1/10/2015 22055 220.40 220.48 12/26/2017 •• 1/12/2015 220.44 220.34 220.41 12/17/1017 •• 1/12/2015 221.07 120.90 220.99 12/18/2017 •• AVERAGE DAILY 150173011113 VAWELSEO 217.38 217.35 21738 217.31 ' 217.55 217.55 21735 217.55 21754 21754 21755 217.55 21751 21751 217.48 217.48 217A7 217.47 217.47 I17.47 217.46 117.46 217.45 2I7.45 2/13/2015 221.41 12132 221.40 12/29/3117 •• 1/14/2015 121.40 11123 221.32 12/20/2017 •• 217.40 117.40 I17.46 117.44 1115/2015 22133 21111 221.26 12/21/2017 •• 217.46 317.46 1/16/2015 221.22 221.119 221.16 I2171/2017 •• 217.46 117.46 1/27/2015 22114 22093 22106 I2123/2017 •• 217.46 217.46 1/21/2015 22116 22311 221.09 12/24/2017 •• 217.40 217.40 319/2015 22116 222.00 221.06 12/25/2017 •• 217A6 217.46 I/20/2015 22115 12091 22207 12/26/2017 •• 1/21/2015 22L06 21090 22493 12/27/2017 •• 1/22/2015 210.97 220.32 210.90 12/23/2017 •• 217.41 217.41 217A0 217.40 21737 21737 1/23/2015 220.92 220.73 120.13 12/29/1017 •• 21737 21737 1/24/2015 221.06 220.90 120.98 12/30/2017 •• 217.37 217.37 1/25/2015 221.06 22090 220.99 12/31/1017 •• 21732 21732 1/26/2015 221.05 220.90 22098 1/1/2018 •• 21732 21732 1/27/2015 220.98 220.64 220.91 1/1/2031 •• 21730 21730 1/28/2015 22091 220.75 220.13 1/3/2011 •• 217.29 217.29 1/29/2015 22092 120.73 220.83 1/4/1018 •• 3/30/2015 220.79 210.65 220.72 1/5/2018 •• 217.19 21729 21716 21716 1/31/2015 220.65 21059 220.62 1/6/2018 •• 2/1/2015 220.66 22057 220.62 1/7/2015 •• 21714 1I7.24 217.24 117.24 2/2/2015 220.66 220.57 ' 220.62 1/9/2011 •• 2/3/2015 220.66 22057 220.62 2/9/2011 •• 217.24 117.24 217.21 117.21 2/4/2015 220.66 22057 220.62 1/10/2013 •• 2/5/2015 220.66 12051 22039 1/11/2011 66 2/6/2015 220.64 220.41 220.54 1/12/2011 416 2/711015 22058 220.42 22050 1/13/2018 •• 2/8/1015 220.56 12041 220.49 1/14/2018 0. 2/9/2025 220.50 220.34 220.42 1/15/2011 66 2/1012015 220.56 120.41 220.49 1/16/2018 •• 2/11/2015 210.46 22033 220.40 1/17/2011 .. 2/12/2015 220.49 22034 210.42 1/18/2018 .. 2/13/2015 210.47 22032 210.40 1/19/2011 •• 2/14/2015 220.48 22031 220.40 - 1/20/2011 •• 2/15/2015 22038 210.23 220.31 1/21/2016 '• 2/I6/2015 22039 I1014 12032 1/22/2021 '• 2/17/2015 22038 12013 220.31 1/13/2018 •• 2/18/2015 22039 120.23 22031 ' 1/14/2018 •• 3/19/2015 210.31 22013 22131 1/25/2111 •• 2/20/2015 22039 220.22 22030 1/26/2018 •• 2R1/2015 22031 220.16 210.24 1/27/2011 •• 2/22/1015 220.32 220.14 220.23 1/21/2011 •• 2123/2015 22033 220.16 220.25 1/29/2013 •• 217.20 217.20 217.20 217.20 117.23 217.23 21729 21719 21719 21719 21727 21727 21730 21730 217.30 21730 21735 21735 21737 21737 21736 21736 21737 217.37 21737 217.37 20.737 21737 217.35 21735 21731 117.32 21736 21738 21737 21737 21737 11737 217.15 217.65 2/14/2015 220.32 220.16 22014 1/10/2011 40 2/25/3005 22033 220.16 220.15 1/31/2011 •• 217.11 217.81 21717 217.67 . 1/26/2015 220.64 220.46 22015 2/1/2018 •• 217.87 217.87 2/27/2015 22010 220.64 220.72 2/2/2018 •• 217.17 21717 2/28/2015 220.53 210.70 220.77 2/3/2018 60 217.37 21717 3/1/2015 2209I 220.72 220.82 2/4/2011 •• 217.88 217.81 3/2/2015 222.06 220.19 22198 2/5/2015 00 211.06 211.06 3/3/2015 I21.07 21019 22091 2/6/2025 •• 211.12 218.12 3/4/1015 221-07 220.89 220.93 2/7/2011 •• 111.12 11811 3/5/1015 220.99 120.80 23190 2/1/2011 •• 213.15 211.15 3/6/2015 221.26 221.06 22116 2/9/2011 .. 218.15 213.15 3/7/2015 22L23 211.05 221.14 2/10/2011 •• 21820 11820 3/1/2025 221.16 220.97 221.07 2/11/20111 •• 218.21 218.11 3/9/2115 22109 220.19 220.99 2/12/2018 •• 218.20 21820 3/10/2015 22101 220.13 220.92 2/13/2018 '• 3/21/2015 I2098 220.31 220.90 2/11/2019 40 2I8.20 21820 216.22 21821 3/12/2015 220.90 220.72 220.61 2/15/2011 •• 211.23 21123 3/13/2015 220.79 210.65 220.72 _ 2/16/1011 •• 3/14/2015 220.79 220.64 220.72 2/17/2011 •• 3/15/2015 220.61 210.64 120.73 2/18/2016 •• 3/16/2015 220.79 220.64 21372 2/19/2016 •• 3/17/2015 220.66 120.55 220.62 2/20/2016 •. 3/1811015 220.66 12057 220.62 2/21110I1 00 3/19/2015 220.56 120.49 22058 2/22/2011 •• 32012015 220.64 220.51 220.61 2/33/2013 •• 3/11/2015 220.71 220.64 220.71 2/24/2011 •• 3/22/2015 220.64 22058 220.61 2/25/2018 06 3/23/2015 220.66 22036 220.61 2/26/2018 •• 211.23 21113 211.14 210.24 211.23 211.23 216.22 218.22 215.23 211.23 213.22 11122 21123 11823 218.21 21112 218.13 21813 215.22 218.22 21123 21E13 3/24/2015 I20.65 220.50 22036 2/27/2018 '• 3/25/2015 120.65 220.47 220.56 2/21/2018 60 3/26/2025 220.64 220.47 22056 3/1/2011 •• 3/27/2015 220.64 220.41 220.53 3/2/2016 •• 3/26/2015 220.57 120.47 22052 313/203/ •• 3/29/2015 22054 120.39 220.47 3/4/103 60 211126 218.23 211.23 218.38 218.3I 21835 218.26 218.13 21823 21838 II1.32 21135 3/30/2015 22055 22039 220.47 3/5/2011 •• I19.36 21136 3/3I/2015 22034 27139 220.47 3/6/2015 •• 2I8.32 I1832 411/2015 220.48 220.33 220.41 3/7/2018 •• • Zero YAM reading or communication l'allure **Reeding not allbraied armour error ••• NO reading available on this day 218.38 21631 • AVERAGE GAILY AVERAGE DAILY Date/llme 1.507506IR) r L907508jk) - . VALUE USED Ottslftmt .... 15C8750A(11) . LS137501(ft)' VALUEUSEO 4/2/2015 220.46 22031 120.40 3/15015 •• 218.39 218.39 4/3/2015 220.43 220.31 220.40 3/9/201/ •• 218.38 21831 4pn00 220.46 220.32 220.40 - 3/105018 •• 21e.41 211.41 4/5/2015 220.42 120,23 210.33 3/11n011 00 2033 218.38• 4/6/1015 220.40 220.23 22032 352/201e •• 20.40 218.40 45/2015 22039 12023 12131 3/135013 •• 21855 11135 4/8j2015 220.39 •• 120.39 3/14/1018 •. 211.63 218.63 4/5/2015 220.39 .. 220.39 3115/2011 •• 218.64 218.64 4/105015 22130 22150 3/16/1036 •. 211.57 21837. 4/11/2015 22130 •• 22350 3/17/2016 •• 21e.63 213.63 4/12/2015 221.40 60 211.40 3/16/2011 .. 20.63 218.63' 4/13n015 221.32 22108 22120 3/19/2011 •4. 218.63 211.63 4/14/2015 221.16 22100 211.09 3/20/1012 .• 211.78 221.70 4/15/2039 22115 221.08 221.17 . 3121/200 •• 211.19 2099 4/16/200 •• 12114 11/ 14 3/22/2011 00 215.96 218.96 457/2015 • • ••• I/23/2018 •• 218.96 20.96 41185015 • ••• 3/24/201e •• 218.96 21896 4/19n015 • ••• 3/25/2031 •• 219.09 219.09 4/20/2015 • ••• 3/26/2010 •• 219.16 219.16 4/115015 •• 22175 22115 357501e •4 219.21 21911 4/12/2015 •• 22117 22117 3/25/2011 00 219.21 21911 4/23n015 12103 22103 3/29n011 •• 219.21 21911 4/24/2015 •• 220.93 120.93 3/30/2018 •• 21921 21911 4/1513015 221.01 220.15 220.93 3/31/2011 •• 219.21 21911 4/265015 220.97 220.32 220.90 4/3/200 00 I19.22 219.22 4/27/2015 220.91 220.75 220.63' 4/2/3018 00 219.22 2I9.22 4/21/2015 22031 220.70 220.76 4/31101e .. I1911 22922 4/19/2015 22010 22466 220.73 4/4/20I8 •• 219.22 2I9.22 4/30/1015 220.73 220.60 220.37 4/5500 .• 21917 II9.17 5/1/2015 220.71 220.66 120.72 4/6500 00 21917 219.57 5/2/2015 220.79 220.66 220.73 4/7/20/8 • 0. 21922 219.22 5nn015 220.79 220.66 2I0.73 4/8/1011 •• 219.30 21930 5/4/2015 220.65 220.60 22453 4/9/2015 •• 21931 21931 5/5/3015 220.66 22059 220.64 4/10/2013 •• 21930 21930 5165035 •• 220.53 12053 4515033 00 21932 219.31 5/7/2015 •• 220.51 22451 4/12/2011 0. 21937 21937 5/8/2015 220.47 120.47 4/13/2018 00 23936 21936 5/9/2015 .. 220.43 220.43 4/I4/2018 .• 21937 21937 5/10/2015 00 220.42 22042 4/155018 00 21937 21937 5/11/2015 •• 220.41 220.41 4/15/200 •• 220.10 220.80 5/125015 22052 220.36 210.44 4/17/2018 •• 22010 220.50 5/13/2015 2I0.49 12034 220.42 4/15/2012 •• 220.81 220.81 5/14/2015. 220.42 220.29 220.36 4119500 •• 00 000 5/15/2015 220.40 220.26 220.33 4n0n010 •• 220.67 220.67 5116/2015 220.40 220.25 220.33 4/21n018 •• 210.65 220.65 5/17/2015 22035 220.19 220.27 4/225011 4. 22056 22056 5/18n015 220.33 220.17 220.25 4/23/203e .0 21056 22056 5/195015 220.33 220.11 220.26 4/24/2018 •• 22058 22033 5/20/20/5 22033 210.17 220.25 4/25n011 •• 22031 22058 5/21/2015 22026 220.10 220.15 4/26/203 .. 220.56 220.56 5/22/2015 2200 220.05 220.12 4/27/2015 •• 22053 22033 . . 5/23/2015 220.17 220.02 220.10 4/28/2013' 00 120.45 220.40 5/24/2015 220.15 220.00 220.01 4/29/200 •• 210.44 210.44 555n015 220.15 21995 220.05 4/30/2011 •• 220.40 220.40 556/2015 220.10 219.94 220.01 5/1/2013 •• 220.34 220.34 5/27n415 22035 21994 220.01 512/2011 .. 220.31. 220.31 5/28/2015 220.07 219.92 22000 5/3/2011 •• 220.32 22032 5/29/2015 220.01 21994 219.98 5/4/2018 1.0 22016 22016 5/30/2013 220.02 219.85 219.94 - 5/5/2018 .. 220.24 220.24 5/31/2015 21999 21912 219.93 5/6n011 .. 22024 22014 65/2015 220.01 219.92 219.92 5/7/2011 •• 220.18 220.11 6 Me , 7r441 71091 21990 12a.15 6/3n015 219.97 219.8! 219.89 5/9/2018 •• 220.17 220.17 6/4/2015 21992 219.67 219.80 5/10/1018 •• 220.17 220.17 6/3/2015 21919 2068 219.79 5/1/2016 •• 220.16 220.16 6165015 219.90 219.58 219.79 5/12/2011 •. 230.17 220.17 6/7/2015 219.90 119.69 219.80 5/13/2018 •• 220.10 220.10 6/8/2015 219.84 219.69 219.77 5/14n016 •• 220.06 220.06 6/9/2015 219.84 219.69 219.77 5/15/2011 •• 2213.07 220.07 6/10/2015 219.81 219.67 219.74 5/16/200 •• 220.02 220.02 6/11/2013 21912 119.68 219.75 5/17n025 •• 220.00 220.00 6/12/2015 219.82 219.61 219.72 5/18/2016 •• 219.99 219.99 6/13/2015 219.75 11959 219.67 5/19/200 06 219.92 119.92 6/1413015 219.75 21959 219.67 5/2012018 00 219.93 219.93 6/15/1015 219.70 21934 219.62 5/11/201/ •• 219.94 219.94 6/165015 219.67 21952 219.60 5/12/2011 .0 220.06 220.06 6/17/2015 219.6e 21952 219.60 5/23/2011 •• 219.99 21999 6/11/2015 219.67 21952 219.60 5/24/200 •• 21996 21996 6/19/2033 219.66 21951 21939 555/2011 •• 219.93 219.93 6/205015 219.66 21931 21959 5n6/1018 •• 21990 219.90 6122/2015 219.61 219.46 21954 5/27/230 •• 219.93 219.93 6/22/2015 219.61 219.45 11993 _ 5n1/2018 00 219.10 219.50 9.23/2015 21957 219.41 219.49 559/2015 •• 20.92 219.92 5/24/2013 219.58 219.40 219.49 5130n035 •• 220.00 220.00 6/255015 219.61 21945 21953 5/31/2018 .. 2I0.14 220.14 6,264015 21957 ' 239.41 219.49 6/1/2018 •• 220.11 220.18 657/3025 219.60 219.45 21953 6/2/203e .. 220.16 I10.16 6/261100 22007 21992 22040 6/3/2011 00 220.17 220.17 6/29 015 220.08 2199I 22400 6/4/2018 •• 220.38 _ 220.18 6130/20 220.01. 11995 21954 6/3.0C16 •• -- 0t� 220.09 220.02 21133 21993 6/6/2016 •• 220.06 220A6 711/1015 • Zero value read5ne or tammunkatlon failure •• Readln8 not vllbrated or meter error ••• No reading mailable on thla daf AVERAGE DAILY 04h/11me LW/750Ajit 13101750111111 VALUEUSED Date/Ome L5CI750A{ft) 7/2/2015 21999 219.61 11991 6/7/2011 •• 7/3/1015 220.06 21994 22001 6/8/1018 •• 7/4/2015 220.02 319,15 219.44 6/1/2011 00 AVERAGE DAILY LSC87908jft) VALUE USED 220.05 210.05 21991 21991 • 21999 21999 7/5/2015 22008 21992 220.00 6/10/2011 •• 7/6/2015 220.10 21994 220.02 5/11/2011 •• 7/7/1015 220.03 219.95 220.02 6/12/2011 •• 7/8/2015 2I0.05 21935 220.02 6/13/7011 •• 7/9/2015 220.02 21996 219.94 6/14/1011 141. 71/0/2015 220.00 21913 21992 6/15/2018 •• 7/11/2015 220.01 219.84 219.93 6/16/1011 •• 7/I2/2015 21993 219.70 219.12 6/17/2018 •• 7/23/2015 21993 219.69 219.81 6/18/2018 •• 7/14/2015 21999 219.82 21991 6/19/2018 •• 7/15/2015 219.94 219.59 219.12 6/20/2018 •• 7/16/2015 21992 219.70 I19.81 6/21/2018 44 7/17/2015 219.91 219.71 21951 5/22/2018 •0 21996 21996 21994 21934 21991 ' 11992 21990 21990 21991 11991 21934 219.84 21911 11931 21911 219.81 219.61 219.68 219.70 219.70 219.69 219.69 119.69 219.69 119.69 219.69 7/18/1015 21992 219.70 219.11 6/13/2018 40 7/19/2013 220.0I 219.95 219.99 6/24/2018 60 219.68 219.68 219.67 119.57 7/20/1015 I20.01 219.82 219.92 6/25/2018 •• 21958 21958 7/21/2015 110.01 I19.82 219.92 6/25/2018 •• 21957 21957 7/22/2015 22041 119.63 219.92 6/27/2018 •• 21959 21959 7/13/2015 21994 119.69 219.82 6/21/2011 •• 7/24/2015 220.00 ' 219.81 219.91 6/19/2015 •• 21957 21957 21958 21958 7/25/2015 21993 219.69 219.11 6/30/2011 •• 11952' 21952 7/26/2015 21993 219.70 21932 7/1/2011 •• 21952 21952 7/17/2015 219.91 219.70 21951 7/2/2018 •• 21950 21950 7/28/2015 " 319.70 219.70 ' 7/3/2111 •' 21950 11950 7/29/2015 •• 229.68 219.68 7/4/2011 •• 219.45 219.45 7/30/2015 •• 219.66 219.61 Minn •• 21930 21950 7/31/2015 211.65 219.61 219.I4 7/6/2011 '• 21950 11950 8/1/2015 218.5e 21959 219.09 7/7/2018 00 219.49 219.49 6/2/2015 218.68 21953 219.11 7/8/2011 •• 219.49 1I9.49 8/3/2015 211.65 2195I 219.08 7/9/2018 00 219.43 219.43 8/4/2015 218.63 2195I 219.07 7/10/2011 •• 219A3 211.43 8/5/2015 218.57 219A6 219.02 7/11/2011 •• 219.44 219.44 1/6/2015 21856 219.46 219.01 7/12/2011 •• 219.39 23939 8/7/2015 118.59 21946 219.03 7/13/2011 00 21938 21938 8/8/2015 21836 219.40 21198 7/14/2011 •• 21931 21938 8/9/2015 2111.55 21938 21397 7/15/2018 •• 1/10/2015 21155 219.35 21155 7/16/2018 21935' 21932 21935 219.32 6/11/2015 21834 21935 21895 7/17/2018 60 21932 21932 8/12/2015 218.54 21934 21194 7/11/20111 •• 21932 219.32 8/13/2015 21831 21932 21392 7/19/2018 •• 21932 21931 8/I4/2015 21335 21933 218.94 7/20/2018 8/15/2015 218.54 219.27 21191 7/21/2018 8/16/2015 21850 219.25 218.88 7/22/2013 8/17/2015 216.46 219.15 216.16 8/18/2015 218.48 119.19 21114 8/19/2015 21950 1/20/2015 21154 119.24 21935 211.67 I11.95 8/21/2015 21837 119.35 218.96 8/22/2015 21153 23932 21994 8/23/1015 21854 229.32 21813 8/24/2015 21854 219.21 218.91 6/25/2015 211.49 21916 21888 B/26/2015 11830 219.25 21191 1/27/2015 218.44 219.19 218.82 8/28/2015 218.42 219.16 216.79 8/29/2015 21/.43 219.16 211.60 8/30/2015 21834 219.10 218.72 8/31/2015 218.49 219.24 21137 9/1/2015 211351 219.23 218.87 9/2/2015 2111.47 219.25 22836 9/3/2015 218.41 11914 21386 9/4/2025 211.46 119.18 211.81 9/5/2015 216.44 119.16 211.60 9/6/2015 • 119.15 219.15 9/7/2015 • 219.15 219.15 9/8/2015 9/9/2015 9/10/2015 • • • 7/23/2011 7/24/2011 7/15/2011 1.41 e V O M •• 119.26 21916 219.23 21913 219.23 21913 21933 21936 21933 21936 21916 21936 7/16/2018 11936 21936 7/27/2021 21933" 11333 7/21/2011 7/29/2011 7/30/2011 7/31/2018 8/1/2018 1/2/2011 1/3/2018 1/4/2011 219.43 219.43 219.43 219.43 219.41 21942 219,43 219A3 219.43 219.43 219.43 219.43 21950 21950 21991 219.9I 8/5/2018 21992 219.92 8/6/2011 8/7/2018 8/1/2011 8/9/2018 8/10/20I8 6/11/2018 1/12/2018 8/13/2011 119.09 219.09 8/14/2018 219.10 219.10 8/15/2011 219.10 219.10 8/16/2011 9/11/2013 • 219.07 219.07 9/12/2015 219.07 219.07 9/13/2015 219.01 119.01 9/14/2015 • 8/17/2011 8/18/2011 a/19/2018 118.98 21098 1/20/2011 9/15/2015 • 21893 21193 8/21/2018 9/16/2015 218.91 218.91 8/22/2018 9/17/2015 21990 21190 8/13/2013 9/18/1015 211.91 118.91 8/24/2016 9/19/2015 218.84 211.84 9/25/2028 9/20/2015 21811 211.82 8/26/2018 9/1111015 218.82 211.82 9/22/2015 218.75 218.75 9/23/2015 2I1.73 9/24/2015 218.67 218.73 218.57 • 9/25/1015 211.74 216.74 9/26/2015 218.80 216.80 9/27/2015 218.80 118.10 9/21/2015 218.60 228.10 9/29/1015 216.83 2I8.83 9/30/2015 218.63 116.33 8/17/20I1 8/28/2011 8/29/2011 1/30/2013 8/31/2018 9/1/2016 9/2/2013 9/3/2018 9/4/2018 9/5/2018 Of 40 00 •• O 0 •• 00 •• 00 •• 0▪ 0 60 00 O 0 00 O. 04, 00 O 0 00 O 0 MO 0. 11991 21991 21991 219.91 21991 219.91 21997 I19.97 219.99 119.99 219.94 219.94 21991 223.91 219.9I 21992 219.94 219.94 219.96 I19.98 21993 219.93 219.93 21993 11992 219.92 220.40 220.40 22036 22036 22059 22059 22039 22059 22050 22050 12047 220.47 220.40 22034 120.40 220.34 220.32 21032 220.16 220.16 210.13 220.23 120.18 220.11 220.11 220.11 220.16 210.16 220.06 220.06 220.05 220.05 220.07 220.07 220.07 220.07 • Zero wlue rending or communication failure •• Reading not calibrated or motor error ••• No reading available on this day • AVERAGEOAILY. AVERAGE DAILY 0atellimt LSC8750AJR) . LSC87508 (ej VALUE USED 0ate/11me LSC8750A Mil Ltt87508 tRj VALUE USED . 10/1/2013 • 218.82 211.82 9/5/2015 •• 219.99 219.99 10/2/2015 • 21891 21891 9/7/2011 21991 219.93 10/3/2015 • 21951 219.51 9/8/2018 219.93 21933 10/4/2015 21397 219.67 119.32 9/9/2018 ••- - - 219.93 219.93 10/5/1015 219.03 219.67 11935 9/10/2011 •• 219.92 219.92 10/6/2015 21899 219.66 21934 9/11/2011 •• 21992 119.92 10/7/2015 21199 219.68 219.34 9/11/2018 •• 220.00 220.00 10/8/2015 21899 219.67 21933 9/13/2018 219.92 219.92 10/9/1015 I13.99 219.68 21934 9/14/7011 •• 219.92 219.92 10/10/1015 219.01 219.66 21935 9/15/3011 •• 22053 22053 1a/11/2015 219.07 119.61 219.44 9/15/2015 •• 22112 221.12 10/12/1015 219.09 219.80 219.45 9/17/2011 •• 213.15 223.13 10/13/2015 219.08 21911 219.45 9/132011 •• 222.98 222.98 10/14/2015 219.07 219.130 219.44 9/19/2011 •• 222.65 222.65 10/23/2015 219.03 219.67 219.35 9/10/2018 •• 222.33 22233 10/16/2013 219.01 219.67 219.34 9/21/2018 •• 222.06 222.06 10/17/2015 213.99 219.68 21934 9/22/2011 •• 221.113 22183 10/18/2015 I18.99 219.64 21934 9/23/2018 •• 22165 22165 10/19/2015 21397 219.61 219.33 9/24/2018 •• 121.41 221.48 10/20/2015 21896 219.67 21931 9/25/2018 •• 22131 221.31 10/21/2015 218.93 219.65 219.29 9/26/2018 •• 221.14 22114 10/22/2015 21395 219.65 21930 9/27/2011 '• 721.06 22106 10/23/2015 218.92 219.65 219.29 9/21/2011 •• 12114 211.24 10/24/2015 218.87 219.65 219.26 9/29/2011 •• 221.01 221.01 10/25/2015 218.19 I19.60 219.25 9/30/1011 •• 210.97 220.97 10/2611013 21896 21951 219.19 10/1/2018 •• 720.82 220.82 10/27/2015 218.16 11957 I19.22 10/2/2018 •• 220.74 220.74 10126/703 • ••• 10/31201/ •• 220.66 220.66 10/29/2015 21895 119.67 21931 10/4/1018 •• 22055 220.65 10/30/2015 21894 219.68 21931 10/5/2018 •• 210.57 220.37 10/31/2015 21895 119.68 21932 I0/6/1013 •• 220.48 220.48 11/1/1015 21191 719.65 219.28 I0/7/2011 •• 210.42 220.42 11/2/7015 219.16 11993 21955 I0/8/2018 •• 22039 220.39 11/3/2015 219.68 220.46 220.08 10/9/2011 •• 21031 22031 11/4/1015 219.68 12037 220.13 10/10/2011 •• I20.31 220.31 11/5/2015 219.75 . 71037 220.16 10/11/2018 •• 12031 22031 11/6/2015 219.72 22057 220.15 10/12/2011 •• 221.13 221.13 11/7/2015 21916 120.67 220.27 10/13/2011 •• 22106 221.06 11/6/1015 21997 220.76 22037 10/14/1018 •• 22097 210.97 11/9/2015 21995 220.76 220.36 10/15/2016 •• 220.3 220.88 11/10/2015 220.49 22132 220.91 10/16/20113 '• 220.10 220.80 11/11/2015 220.49 22132 220.91 10/17/2018 •• 220.7/ 120.71 1142/2015 220.41 221.26 12014 10/1/12018 •• 220.63 220.63 11/13/2015 22032 221.14 220.73 10/19/2018 •• 22957 22037 11/14/2015 220.20 22101 220.61 10/20/201E •• 220.48 220.48 11/15/2015 210.12 220.93 220.33 10/21/2011 •• 220.42. 220.42 11/16/2015 210.07 220.14 220.46 _ 10/22/2018 •• 220.37 220.37 11/17/2015 21998 I20.73 22036 10/23/2018 •• 73031 22031 11/11/2015 21990 220.67 210.29 10/I4/2013 •• 220.19 210.29 11/19/2015 22016 22.0.90 220.43 10/25/2018 •• 27021 12021. 11/20/2015 220.20 22098 220.59 10/26/2011 •• 220.22. 220.22' 11/21/2015 220.13. 220.90 22032 10/27/2011 •• 22031 22031 11/22/2015 220.05 120.82 220.44 10/21501/ •• 120.37 220.37 11/23/2015 •• 270.74 220.74 10/29/2018 •• 220.32 220.32 11/24/2015 21997 220.67 220.27 10/30/7018 •• 210.29 220.29 11/25/1015 21915 220.64 220.25 10/31/2011 •• 21030 220.30 11/26/2015 219.72 22057 220.15 I1/1/2011 •• 220.23 220.23 11/27/2015 219.73 220.50 220.12 I1/2/2018 •• 12024 710.24 11/28/2015 219.73 ' 220.48 210.11 11/3/2013 •• 220.21. 22021 11/29/2015 219.66 220.42 220.04 11/4/2018 •• 220.15 220.15 11/30/2013 219.66 220.4I 120.04 11/5/2018 '• 220.21 220.21 12/1/2016 219.65 '10'^ 330.09 11/6/2018 •• 120.21 72051 12/712015 219.63 210.40 220.02 11/7/2016 •• 220.21 220.21 12/3/2015 219.63 210.40 220.02 11/8/2016 •• 220.18 220.18 12/4/1015 21958 120A0 219.99 11/9/20111 •• 220.14 220.I4 12/5/2015 21955 12031 219.93 11/10/2018 •• 220.13 27.0.13 12/6/2015 21956 12031 219.94 11/11/2011 •• 220.08 220.08 12/7/203 219.47 22026 219.87 11/12/20111 •• 220.05 220.05 12/8/2015219.46 220.23 219.85 11/13/1018 •• 22185 221.85 12/9/2015 219A6 220.24 219.65 11/14/1011 •• 22188 221.88 12/10/2015 219.46 120.23 219.15 11/15/201i •• 22187 221.87 L1/11/2015 219.41 220.17 219.79 11/16/20111 •• 222.00 222.00 - 12/12/2015 219.40 22011 219.79 11/17/2018 •• 21188 111.18 12/13/20I5 21939 I20.17 219.78 12/18/2011 •• 12171 211.71 12/14/2015 21938 220.15 219.71 11/19/2018 •• 22155 72155 12/15/2015 21939 220.15 219.77- 11/2012016 •• 22138 721.38 12/16/2015 21939 220.3 219.77 11/21/2018 •• 22123 22123 12/17/2015. 21936 220.3 219.77 11/22/2018 •• 22114 22114 12/18/2013 219A5 120.23 119.34 11/23/2018 •• 220.99 220.99 12/19/2015 219.48 220.15 219.87 11/24/2015 •• 22098 22096 13/20/2015 219.48 220.23 21916 11/23/2016 •• 221.03 22105 12/21/2015 219.49 220.23 219.16 11/26/2018 •• 220.98 220.91 12/22/2015 219.59 210.31 219.95 11/17/20111 •• 220.91 220.9I 12/13/2015 220.00 210.81 220.41 11/21/2011 •• 210.10 220.80 12/2412015 _ 220.64 211.42 22103 11/29/2016 •• 220.73 710.73 12/23/2015 7..962 221.40 221.01 11/30/20111 •• 120.71 120.71 12/76/1015 71055 12131. 22031 22/1/2016 •• 220.63 220.63 1.2l27/213 220.48 311.24 220.85 I2/712018 •• 720.71 220.71 12/28/2015 220.38 221.03 II0.7I 12/3/2018 •• 220.71 220.71 12/29/2015 22032 22100 210.66 12/4/2018 •• 220.63 220.63 12/30/2015 231.26 22105 220.66 12/5l7018 220.58 120.51 • Zen] value reading or cammuNaUon failure •• Reading got calibrated orm.19rarer ••• No reading available on this dry 1/12/2019 1/13/2019 I/1/2016 220.06 220.14 220.45 1/14/2019 2/9/2016 220.05 22032 2/10/1015 219.98 2/11/2015 219.95 2/12/3016 219.13 2/13/2016 • AVERAGE DAILY Date/Time L$675WKIRj LSC87509110 VALUEUSED Date/Time 12/31/2015 220.11 221.61 22121 12/6/201e 1/1/2016 22093 22173 22133 12/7/2011 1/2/2016 220.60 22159 22110 12/1/2011 1/3/2016 220.69 21141 211.09 12/9/2011 1/4/2016 22032 22131 22092 12/10/101.1 1/5/2016 2I0.36 221.11 220.77 12/11/1011 1/6/2016- 220.27 221.07 220.67 12/12/2011 1/7/2016 120.22 220.91 220.50 12/13/2011 1/9/2016 22010 11091 22051 12/14/2018 1/9/2016 220.04 223.82 220.43 12/13/2011 1/10/2016 220.01 220.14 220.43 12/16/2011 1/11/2016 21995 220.73 21034 12/I7/2011 1/12/1016 119.65 220.67 210.25 12/11/2016 1/13/2016 219.14 220.66 220.25 17/19/2011 1/14/2016 219.n 220.57 220.15 12/20/2011 1/15/2015 219.73 22051 220.12 11/21/2018 1/16/2016 219.73 220.66 220.20 11/12/2018 1/37/2016 219.71 22059 220.15 12/23/2011 1/11/2016 219.76 22057 220.17 12/24/1011 1/19/2016 219.77 220.49 210.13 32/25/2016 1/20/2016 219.75 220.41 120.12 12/26/2016 1/21/2016 219.58 220.42 22015 12/27/2011 1/22/2016 219.15 220.41 220.03 12/21/1011 1/23/2016 219.77 220A1 220.13 12/29/2011 1/24/2016 219.73 210.47 220.10 12/30/2011 1/25/2016 219.75 220A7 220.11 11/31/2018 1/26/1016 219.75 220.50 220.13 1/1/2019 1/27/2016 119.77 22050 220.14 1/2/2019 1/21/2016 219.76 22050 220.13 1/3/2019 1/19/2015 219.76 220.50 22013 114/2019 2/30/2016 219.75 220.48 220.12 1/5/2019 1/31/2016 219.73 220.48 220.11 1/6/1019 2/1/2016 219.65 220.43 220.04 1/7/2019 2/2/1016 219.63 220.41 220.02 1/9/2019 2/3/2021 219.64 22041 220.03 1/9/2019 2/4/20I6 120.06 220.12 220A4 1/10/2019 2/5/2016 220.19 220.99 220.59 1/11/2019 2/6/2016 220.19 220.99 220.59 2/7/2016 220.10 220.91 220.51 220.44 1/15/2019 LScI7S0A 1111 41. .• • • • •• •• AVENGE way 13017506j11j VALUEUSED 220.55 22035 60 220.47 220.47 120.46 220.46 210.47 220.47 221I4 22114 221.30 221.30 221.22 22122 221.19 211.15 •• •• •• •• •• p 40 O. .▪ 41 0. 00 DO 0. 4.10 44 22107 211.07 22147 221.47 221.55 22155 221.46 22146 22132 22131 221.22 22122 21114 221.14 12117 22117 22112 221.12 22104 22104 220.96 220.96 220.11 320.11 220.79 220.79 210.71 220.71 210.71 220.71 220.11 220.88 220.82 220.11 220.60 220.10 220.60 220.10 220.71 220.71 220.71 220.71 220.71 220.71 22096 220.96 210.90 220.90 220.e3 220.13 220.80 22010 220.74 220.74 220.65 120.65 220.37 1/16/2019 220.34 1/17/2019 22024 1/11/2019 220.59 1/19/2019 2/14/2015 • 22057 22037 1/20/2019 2/15/2016 • 220.51 21051 1/21/2019 2/16/2016• 2/17/2016 2/11/2016 2/19/2011 • 210.91 220.91 1/15/2019 2/70/2016 210.14 220.14 1/26/2019 1/21/2016 • 120112 220.12 1/27/2019 2/22/2016 • 220.73 220.73 1/26/2019 2/23/2016 • 220.73 220.73 1/29/2019 2/24/2016 2/25/2016 • 220.69 220.69 1/30/1019 • 210.14 220.14 1/31/2019 2/26/2016 • 22022 220.12 2/1/2019 2/27/2016 • 220.75 220.75 2/2/2019 2/21/2016 • 110.75 120.71 220.65 22039 22011 220.11 1/22/2019 221.00 221.00 1/23/1019 • 21099 220.99 1/24/2019 220.73 220.73 2/3/2019 2/29/2016 • 120.67 220.67 r 2/4/2013 3/1/2016 • 220.65 210.65 2/5/2019 3/2/20I6 • 22057 220.57 2/6/2019 3/3/2016 • 120.51 22051 2/7/2019 3/4/2016 • 220.41 220.48 2/1/2019 3/5/2016 • 220.41 220.46 3/9/2019 3/6/2018 • 220A1 220.43 2/10/2019 3/7/2016 • 220.41 220.41 2/11/2019 3/8/2016 • 220.41 220.41 2/12/2019 3/9/2016 220.34 220.34 1/13/2019 3/I0/2016 22031 22032 2/14/2019 3/11/2016 22032 220.32 2/15/2019 3/12/2016 22026 210.26 2/16/2019 3/13/2016 220.24 220.24 7/17/2019 3/14/2016 3/15/20I6 3/16/2016 3/17/2015 • • 220.23 220.24 220.11 220.19 220.23 220.24 22a.Ie 220.19 3/18/2016 3/19/2016 3/20/2016 3/21/2016 3/22/2015 3/23/2016 3/24/2016 3/25/1015 3/16/2016 3/27/20I6 3R8/2016 3/29/2016 • 2/111/2019 2/19/2019 44 .. 44▪ 0 0. O ▪ S 04 44 O. 610 O 4 04. 00 P ▪ O O ▪ 0 4. GO 410 414 .. O 0 00 40 0. GO O 0 220.64 220.64 22035 22055 220.63 720.63 210.70 220.70 210.71 220.71 120.65 220.65 210.63 220.53 220.63 220.63 220.55 12035 220.63 220.63 220.64 220.64 210.63 220.63 220.55 22055 220.63 220.63 220.71 220.71 220.71 220.71 220.66 120.66 220.64 220.64 22055 22055 220.55 22055 22149 220.49 220.49 220.49 220.47 220.47 220.39 22039 22039 220.39 22039 220.59 220.32 220.32 220.32 22032 22010 220.30 220.25 120.25 220.23 220.23 220.22 210.22 220.22 220.22 220.23 22023 120.24 220.14 22022 220.22 221139 22039 220.50 220.50 220.55 220.65 2/20/2019 220.65 220.65 210.73 220.73 2/21/2019 220.17 220.17 2/77/2019 220.07 220.07 2/13/2019 220.06 220.06 2/24/2019 220.06 220.05 2/25/2019 220.07 210.07 2/26/2019 220.03 220.03 2/27/2019 220.00 220.00 2/21/2029 119.56 219.98 3/1/2019 21993 219.93 3/2/2019 219.91 219.91 3/3/2019 220.17 220.17 3/4/7019 220.17 220.17 3/30/1016 3/5/2019 120.17 220.17 3/6/2019 0▪ 0 q O. 0▪ .0 O. 04 4. .• O 41 •• q 110.11 220.11 221.10 22110 221.49 211.49 221.72 22172 221.65 221.65 22147 I2147 21140 22140 221.29 221-29 221.12 22112 221.I9 22229 221.23 22123 22147 22147 22141 221.41 22133 21133 • Zero value reading or communication Muni •• Reading riot calibrated or meter error ••• No reeding available on this day AVERAGEOAIIY Date/Time L58750A{aj 1SC17509(RI VALUE USED. .. Vate/1084 3/31/20I8 • 220.16 220.16 3/7/2019 4/1/2016 • 220.16 220.16 3/8/2019 4/2/1015 • 120.09 220.09 3/9/2019 4/3/2016 • 120.6e 220.01' 3/10/2019• 4/4/2018 • 120.05 220.01 3/11/2019 4/5/2016 • 21998 219.91 3/12/2019 4/6/2016 • 21998 119.91 3/13/2019 4/7/2016 • 21998 21998 3/14/2019 4/8/2016 • 219.97 21997 3/15/2019 4/9/2015 - • 21994 21994 3/16/2019 4/10/2016 • 21932 21991 3/17/2019 4/11/2016 • 21923 219.93 3/18/2019 4/12/2016 • 21991 21991 3/19/2019 4/13/2016 • 21931 219.92 3/20/2.019 ISC8750A (R). 00 •• /507501(Rj 21114 AVERAGE DAILY VALUE USED I21.24 21L14 22414 221.04 22104 22099 220.99 22091 220.91 220.63 220.13 220.80 220.80 220.73 220.73 220.71 220.71 220.64 220.64 22036 220.58 120.55 220.55 120.47 120.47 220.39 220.39 4/14/1016 • 219.94 219.94 3/21/2019 •• 220.41 220.41 4/15/2016 • I1991 219.91 3/12/2019 •• 220A0 210.40 4/16/2016 • 219.86 21916 3/13/2019 06 220.39 220.39 4/17/2015 • 21991 219.91 3/24/2019 •" 21032 22032 4/11/2016 • 219.85 219.85 3/15/1019 00 22030 210.30 4/19/2016 • 219.84 219.84 3/26/2019 •• 220.30 21030 4/20/2016 21992 21932 3/27/2019 •. 220.21 210.26 4/21/2016 21932 21912 3/21/2019' •• 220.24 220.24 4/22/1016 21991 21911 3/19/2019 •• 220.21 220.21 4/23/2016 21991 21991 3/30/2019 .. 220.22 22022 4/24/2016 11991 219.91 3/31/2019 •• 220.11 220.13 4/25/2016 21991 21991 4/1/2019 •• 220.14 220.14 4/26/2016 11992 21992 4/2/2019 •. 220.14 220.14 4/27/2016' 11915 2I9.65 4/3/2019 •• 220.15 220.25 4/28/2015- 119.84 219.84 4/4/2019 •• 220.16 220.I6 4/29/2016 • 21993 21993 4/5/2019 •• 220.14 120.14 4/30/20I6 21991 21992 4/6/2019 0. 120.31 220.32 5/1/2016 21992 11992 4/7/2019 •• 210.32 220.32 5/2/1016 21993 21993 4/1/2019 220.31 220.31 5/3/2016 21999 21999 4/9/2019 •• 22090 21090 5/4/2016 220.26 I20.26 4/10/2019 •• 220.96 220.96 5/5/2016 220.25 220.25 4/I1/2019 '• 120.88 220.11 5/6/2016 22052 21052 4/22/2019 " 220.12 22092 5/7/2016 220.62 220.614/13/2019 21114 22124 5/8/201.6 • 22056 220.55 4/14/2019 •• 211.24 221.24 5/9/2016 22051 22032 4/15/2019 0• 221.24 221.24 : 5/I0/2016 22050 220.50 4/16/2019 as 121.23 22123 5/11/2016 220.44 220.44 4/17/2019 •• 221.01 1211.02 5/12/2011 220.41 220.41 4/19/2019 22099 220.99' 5/13/2016 220.35 220.35 4/19/2019 06 22098 210.98 5/14/2016 220.33 220.33 4/20/2019 '• 211.13 I2123 5/15/2016 21017 220.27 4/21/2019 •• 21114 21L14 5/16/2016 220.24 220.24 4/12/2019 • ••• 5/17/2118 220.19 220.19 4/23/2019 •• 22036 22096 5/11/2016 220.11 220.15 4/24/2019 •• 22099 220.89 5/19/2015. 120.11 220.18 4/15/2019 •• 220.61 210.81 5/20/2012 220.11 220.18 4/16/2019 •• 210.75 220.75.' . 5/21/2016 220.11 220.16 4/27/2019 •• 210.67 220.67 5/22/2016 120.11 220.18 4/28/2019 •• 110.64 220.64' 5/23/2015 220.11 220.18 4/19/2019 •• 21096 23036 5/24/2016 220.I7 220.17 4/30/2019 •• 210.76 220.76 5/25/2016 120.16 2I0.16 5/1/2019 •• 210.74 220.74 5/26/20I6 120.10 220.10 5/2/2019 •• 220.69 220.69 5/27/20I5 120.06 210.06 5/3/2019 •• 220.66 22066 5/28/2016 • 220.06 220.06 5/4/2019 •• 220.60 210.60 +brrypa • •1199e �2I9.91 _ 513/3019 •• 220.66 220.66 5/30/1016 120.24 220.24 5/6/2019 220.60 220.60 5/31/2016203 20.14 6p/2019 ' •' 210.51 - 22n "T 6/1/2016 21014 220.24 5/8/2019 •• 220.5/ 22031 6/2/2018 • 220.24 22014 5/9/2019 •• 120.45 220.49 6/3/2016 • 210.09 220.19 5/10/2019 '• 220.45 2I0.45 6/4/2016 • 210.17 220.17 5/11/2019 •• 220.44 220.44 6/5/2016 • 220.17 220.17 5/11/2019 •• 220.48 220.48 6/6/2015 • 220.25 220.25 5/13/2019 220.42 220.42 8/7/2016 • 22034 220.24 5/14/2019 220.30 220.41 22036 6/8/2018 • 220.25 210.25 5/15/2019 21030 220.43 22037 6/9/2015 • 220.19 220.19 5/16/2019 220.24 22034 210.29 6/10/2016 • 220.17 220.17 5/17/2019 220.22 12032 220.27 6/11/2016 • 320.09 220.09 5/18/20I9 220.23 22032 220.21 6/12/2015 • 220.01 220.08 5/19/2019 I20.23 220.31. 210.27 6/13/2016 • 21996 219.96 5/20/2019 220.17 320.25 220.21 6/14/2016 • 21995 11995 5/21/2029 220.15 220.23 210.19 6/15/2016 • 21935 219.95 5/22/2019 220.09 220.11 210.14 6/16/2016 11934 219.94 5/23/2019 220.06 220.11 220.12 6/17/2016 • 21995 11995 5/24/2019 220.01 220.09 220.05 6/18/2016 • 21991 119.91 5/25/2019 219 98 220.06 220.02 6/19/2016 • 219.62 119.62 5/26/2019 219.92 21992 21992 6/20/2015 • 219.12 219.82 5/27/2019 I19.90 21994 21932 6/21/2018 • 219.66 114.68 5/28/2019 219.90 219.94 219.92 6/22/2016 • 219.69 219.69 5/29/2019 I1994 21995 21990 6/23/2016 • 219.70 119J0 5/30/2019 219.84 21991 219.81 6/24/2015 • 219.70 219,70 5/31/2019 219.32 2199I 219.87 6/25/2016 • 214.69 219.69 6/1/2019 219.81 21990 219.86' 6/26/2016 • 219.67 219.67 6/2/2017 219.81 21990 219.66 6/2712016 • 219.67 219.67 6/3/2019 219.75 319.14 _119.00 6/202016 • 219.67 219.67 6/4/3019 219.73 21912 219.78 6/2912016 • 219.69 _ 219.69 6/5/2019 219.74 119.111 213.78 • Zara rain roadin9 or communication Fal lure •• Reading not calibrated or meter error ••• No reading available 4n 6ilr day AVERAGE DAILY �r AVENGE GAILY i 1 Datelilmr L5C3T50I{�hj LSC3750B{ttj UWEUSED Oate/mnl. L5C6750A{Its L5C57506{R) VERAGEGAI 6/30/IOIs • 27009 13009 6/6/2019 219.73 219.81 ALUE USED 219.77 7/1/2016 • 220.30 220.10 6/7/2019 219.73 219.81 119.77 7/3/2016 7/2/2016 • 220.06 220.06 a/6120196/9l2a29 219.91 219.81 1I99G339119.86 • 220.06 77aa690 23991 7/4/2016 • - 220.05 22095 6/10/2019 220.08720.17 220.13 7/5/20I8 • 219.93 11993 6l11/I019 220.14 220.23 220.19 7!6/2016 • 220.01 220A1 6/11/2019 270.I2 MID • 21998 21991 6J13/2019 220.I3I10.14 220.31 120.27 7/1/1016 • 110.E 22OL8 6/14/10l9 720.22 220.31 220.I7 719/2016 • 220.07 220.W 8115/2019 220.27 220.32 220.27- 7/10/2016 • 11999 219.99 6/16/2019 220.16 27a.74 220.20 7(1112016 • 22000 I20.00 _ 6/17/2019 220.14 220.24 23a39 7!l7/2016 • 2I9.91 11994 6/11/2019 220.14 120.24 220.19 7/13/2016 219.94 219.94 6J1913019 220.01 720.19 220.14 7l14/2011 219.95 7299E 6J7011a19 ' 220.09 220.20 220.15 7/15/2016 219.9121992I1992. 6(21/2019 220.09 12019 220.14 7/16/2016 11991 6/21/2019 220.06 720.19 220.13 7/17/2016 21996 219A6 BII3/2019 I10A6 220.11 22012 7/11/2016 214.1fi 719.86 6/14/2019 210111 220.09 220.05 7J19/20I6 II9.81 219.81 6/25/2019 22998 210.07 220.03 7110J2016 219.82 21452 6/26/2019 21996 220.07 220.a3 7/11/2015 219.61 119.61 6/27/2019 I1991 11993 119.93 7/21/2016 219.69 219.69 6/28/2019 219.92 1199/ 219.93 7/23/2016 • 219.82 2/9.82 6/2917019 219.90 219.95 21493 7l24/2016 • 119.68 219.68 6J30J2019 219.64 219.95 21990 7/25/2016 • 219.69 219.69 7/1/2019 219.11 139.93 11997 7/26/2016 • 114.70 219.70 T/2/1019 I19.81 219.97 119.17 7/2T/1P16 219.70 219,70 _ 7/3JI019 219.J5 219.1J 218.81 7/2812016 219.T0 219.70 7/4/20L9 219.73 21914 219.79 7/29/2016 • 219.71 219.71 7/5/2019 119.8I 21492 219.117 7/30/2016 • 219.70 119.70 7/6/2019 219.31 11491 219.86 7/31/2016 • 219.68 219.61- 7nn01s 219.75 219.89 119.60 6/1/2016 • 219.67 2I9.67 718l2019 219.83 2I9.91 219.86 8/2/1016 • 119.61 219.61 7/9/2019 219.11 11991 219.86 8/3/1016 • 219.66 219.66 7/10/2019 219.75 I19.15 219.80 1/4120I6 • 219.67 219.47 7/11/2019 219.72 219.52 I19.77 1J5/2016 • 219.68 219.68 7/12/2019 219.80 219.91 219.86 1/6/2016 • 219.16 219.86 7/13/2019 119.81 21991 219.16 8/7/2016 • 219.66 219.86 7/14/2019 219.75 219.85 21980 8/8/2016 • 21994 21994 7/15/2019 219.75 11993 219.79 1/9/2016 219.40 220.09 219.75 7/16/2019 219.73 21993 219.78 8/10/1016 • 220.10 220.10 7/17/2019 219.73 119.77 219.75 6/21/2016 • 220.08 220.08 7/18/2019 219.64 219.75 219.70 8/12/10I6 • 21933 21993 7/19/1019 219.64 219.75 219.70 8/13/2016 • 220.01 220.01 7/20/2019 219.61 219.69 119.65 8/14/2016 • 21995 21995 7/21/2019 21959 219.69 219.64 8/15/2016 • 11995 219.95 7/12/2019 21951 219.67 I1163 8/16/2016 • 21995 219.95 7/23/2019 11954 219.63 21959 8/17/2016 21993 21993 7/24/2019 219.74 219.84 119.79 6/18/2016 • 21993 11993 7/25/2019 219.75 21953 219,79 8/19/2016 • 219.16 219.86 _ 7/26/2019 219.72 219.11 219.77 1/20/2016 • 11991 21991 7/27/2019 119.72 229.12 I19.77 8/21/2016 219.15 219.15 7/21/2019 219.66 219.76 21971 1/22/2016 • 219.11 21991 7/19/2019 219.67 219.76 219.77 1/23/2036 • 219.67 219,67 7/30/2019 219.64 219.74 I19.69 6l24/1016 219.69 219.69 7/31/2019 219.64 219.68 219.66 8/25/2016 219.69 119.69 8/2R019 219.58 119.61 219.63 1/26/2016 219.69 219.69 1/2/2019 21951 219.67 219.63 8/27/20I6 119.70 219.70 8/3/2019 219.64 219.73 219.69 8/25/2016 119.67 219.67 1/4/2019 21938 219.67 21933 1/29/2016 219.67 219.67 8/5/2019 219.51 219.66 119.62 e/30/2016 • 219.61 219.61 1/6/2019 219.63 219.72 219.61 1/31/2016 • 119.51 21958 5/7/2019 21956 219.72 219.65 9/1/2016 • 219.58 21938 8/1/2019 119.66 219.75 219.71 9/1/2016 • 21957 119S/ 0/9/2019 219.65 119.75 7.19.70 9/3/2016 • 219.67 219.67 6/10/2019 219.63 219,73 219.61 9/4/2016 • 119.68 219.61 8/11/2019 219.63 219.73 219.68 9/5/2016 219.67 219.67 8/12 2019 21937 219.67 219.62 9/6/2016 219.68 219.61 8/13/2019 21937 219.67 219.62 9/7/I016 • 219.69 219.69 6/14/2019 219.63 219.71 219.61 9/8/20I6 • 219.67 219.67 1/15/2019 219.66 219.75 219.71 9/9/2016 219.67 219.67 8/16/2019 219.74 119.12 219.76 9/10/2016 • 219.61 119.61 _ 1/17/2019 119.71 219.11 219.76 9/12/2016 • 219Si 21951 1/11/2019 219.71 219.81 219.76 9/12/2016 • 11951 21158 9/19/2019 219.71 • 219.71 9/13/2016 • 21932 21931 8/10/1019 219.65 219.75 219.70 9/14/2016 • • 4.•• 1/11/2019 219.63 219.73 219.68 9/15/2016 • 9/16/20I6 9/17/2016 9/11/2016 • 9/19/2016 • 4/20/2016 • 9/21/1016 • 9/22/20I6 • I1930 219.50 1/22/2019 219.71 219.11 219.76 219.44 219.44 8/23/2019 219.79 I1990 219.65 219.43 219.43 8/24/2019 I19.71 219.89 219.14 219.43 219.43 8/25/2019 219.78 219.19 219.14 I19.48 219.41 8/26/2019 219.78 219.19 219.54 119.44 219.44 6/27/1019 219.72 219.83 219.78 719.49 219.49 6/28/2019 219.71 219.12 219.77 219.60 219.60 9/29/2019 219.70 I19.11 219.76 9/23/2016 • 119.66 219.66 6/30/2019 219.70 119.10 219.75 9/242016 • 219.66 219.66 1/31/2019 219.64 219.74 219.69 9/25/2015 • 219.66 119.66 9/1/2019 219.61 219.72 119.67 9/26/7016 • 119.60 219.60 9/2/2019 219.62 219.73 2I9.68 9/27/2026 • 219.51 21958 9/3/2019 219.62 219.72 I19.67 9/26/2016 • 219.58 21938 9/4/2019 21956 219.66 219.61 • Zero value reading or communication failure •• Reeding not calibrated or meter error ••• No reading available an this day AVERAGEOAILY AVERAGEOAILY bate/0ms 1.9C5750A(RG - 13C6750600 VALUIEUSE0 aatf/llmt • i 1111750A(It( ' . 19C87506(fn VALUEl15E11 9/19/2016 • 219.68 119.68 9/5/2015 21956 219.67 219.62 9/30/2016 219.61 219.61 9/6/2019 219.64 219.74 219.69' 10/1/1016 • 219.67 219.67 9/7/2019 219.70 21931 219.76 10/2/2016 • "' 219.63"' ' 219.65 9/5/2019 2I9.64 21935 • 2I9.70 10/3/2016 • 219.65 219.65 9/9/2019 119.65 219.75 219.70 10/4/2016 • 21959 21959 9/20/2019 219.61 • 119.61 10/5/2016 • 119.57 21957 9/11/2019 219.62 219.73 219.66 10/5/2016 21954 21954 9/11/2019 219.52 219.74 219.61 I0/7/2016 21951 21932 . 9/13/2019 21936 219.68 219.62 10/5/2516 • 11995 21995 9/14/2019 219.55 119.57 219.62 10/9/1016 • 22359 71359 9/15/2019 21956 • 219.67 219.62 10/10/2016 • 223.16 213.16 9/16/1019 21991 219.67 21959 10/11/1015 • 222.75 112.76 9/17/2019 I1951 . 219.62 219.57 10/12/1016 222.40 222.40 9/16/1019 21950 219.62 21956 10/13/2015 222.16 222.16 9/19/2019 219.50 219.60 21935 10/14/2016 22188 22191 9/20/2019 219.47 21957 21952 10/15/2016 • •' 0 6 0 9/22/2019 219.44 21934 219.49 10/16/2016 • •• ••• 9/22/2019 2I9.44 21955 219.50 10/17/2016 • '7 "• 9/23/2019 21931 219.49 219.44 I0/18/2016 ••• 9/244019 219.37 219.47 219.42 I0/19/2016 • 4 16 0 9/25/2019 21936 219.47 219.4I 10/20/2916 • 111 •• 9/26/2019 I19.36. 219.47 219.41 10/21/20I6 . " ••• 9/27/2019 219.30 219.41 21936 10/22/2016 • •' W. 9/18/2019 219.27 219.38 21933 10/23/2016 • 99 Odin 9/29/1019 219.27 21938 11933 10/24/1016 21930 110.65 220.21 9/30/2019 219.27 219.39 219.33 10/25/2016 219.77 21059 220.11 10/1/ 019 219.22 21932 219.27 10/28/2016 219.79 210.49 220.14 10/2/2919. 219.19 11930 219.15 10/27/2016 219.71 220.47 22013 10/3/1019 21929 11931 219.15 10/7.8/2016 219.71. 220.46 220.99• 10/4/2019 219,11 11923 219.17 10/294016 • 220,43 210.43 10/5/2019. 219.11 219.24 219.16 10/30/2015 • 120.41 220.41 10/6/2019 219.02 219.14 213.08. 10/31/2016 • 220.35 22035 10/7/1019 219.02 219.13 219.08 II/I/2016 • 220.35 22035 10/1/2019 219.02 219.07 219.05 11/2/2016 • 220.33 22033 10/9/2019 21196 21906 219.01 11/3/2916 22027 220.27 10/I0/1019 2I193 219.03 I189/ 11/4/2016 • 22027 220.27 10/11/2019 218.57 218.97 21192 1115/2016 • 120.25 22025 10/12/2019 218.65 218.95 210.90 11/6/2015 • 220.25 220.25 10/13/2019 21815 211.97 211.91 11/7/2015 • 220.19 220.19 10/14/2019 21896 219.07 219.02 11/8/2016 • 120.17 220.17 10/15/2019 21895. 219.06 21991 11/9/2016 • 22021 220.21 10/16/2019 21896 219.09 119.03 11/10/2016 • 210.19 220.19 10/17/2019 219.01 219.11 219.06 11/11/2016 • 210.10 220.10 10/18/2019 21895 O• 218.95 11/12/2016 • 220.09 22039 10/19/2019 . 218.96 •• I11.96 11/13/2016 • 219.94 21996.' 10/20/2019 219.09 •• 219.09 I1/I4/2016 • 220.04 22004 10/21/2019 • 0 9 4 11/15/1016 • 21995 21995 10/22/2019 • ••• 11/16/2016, • 219.91 21991 10/23/2019 219.12 219.12 11/17/2016 • 219.93 21993 . 10/24/2019 219.11 0.00 229.11 11/16/2915 • 219.98. 21996 10/25/1019 219.12 0.00 • 219.11 . 11/19/2016 • 21995 219.95. 10/26/2019 119.12 0.00 219.12 11/10/2016' • 219.95 21935 10/27/2019 I19.18 219.11 11/21/20I6 • 219.92 21992 10/21/2019 I1912 21914 219.18 11/22/2016 • 21937 219.67 110/19/2019 • '•• 11123/20I6 • 219.85 21915 1.040/1019 21917 21930 219.24 11/24/2016 • 219.16 219.16 10/31/2019 • ••• 11/25/1016 • 219.14 219.84 11/5/3019 21923 219.39 219.34 11/26/1016 • 119.12 219.81 11/2/2019 21925 21939 219.32 1 7 6 • 119. 921.8I 11/3/2019 21915 21939 21932 1148/116 • 119.66 119.6/ 11/4/2015 219.25 21936 21932 1-1/29/1016 a 219983 219.82 11/5/20/9 71e x 71e u. 71017 11/30/1016 • I19.10 219.80 11/6/2019 219.25 21938 21932 12/1/2016 • 119.80 219.80 11/7/2019 2I9.25 _ 219.35 11932 12/2/2016 • 119.67 219.67 11/1/2019 • • ••• 12/3/2016 • 219.66 119.68 11/9/2019 219.25 • 21939 21932 12/4/2016 • 219.69 219.69 11/10/2019 21915 21939 I1932 12/5/2016 • 21952 21932 11/11/2019 21925 21939 21932. 22/6/2016 • 219.12 21922 11./12/2019 21915 21939 21933 12/7/2016 • 219.82 21 112 11/13/2019 219.33 219.46 I19.40 12/6/2016 • 219.81 219.11 11/14/2019 11932 219.47 219.40 12/9/2015 • 219.83 219.13. 11/15/019 21935 219.49 2I9.42 12/10/2016 • 219.66 219.65 11/16/2019 219.41 219.53 219.47 12/13/2016 • 219.70 219.70 11/17/1019 119.40 219.47 219.44 12/12/2015' • 219.71 119.71 11/11/2019 219.34 219.49 2I9.42 12/13/2016 • 219.70 119.70 11/19/2019 219.40 219.55 219.43 11/14/2016 • 219.70 219.70 11/20i2019 219.40 21954 119.47 11/15/2016 • 219.71 219.71 11/21/1019 219A0 21954 219.47 11/16/2016 • 219.71 219.71 11/12/2019 219.40 219.55 219.41 11/17/2016 • 219.71 219.71 11/23/2019 21940 21955 219.41 17/18/2016 • 219.69 219.69 11/24/2019 219.45 219.61 119.53 12/1911016 • 219.74 219.74 11/25/2019 219.46 219.61 219.54 12/20/2016 • 219.72 219.72 11/16/2019 219.46 219.60 21933 12/21/1016 • 219.76 219.76 11/27/2019 21946 219.61 2I9.54 12/27/2011 • 219.75 219.75 11/26/2019 I19.46 219.60 II953 12/23/2016 • 219.71 219.71 11/29/2019 219.46 219.61 21954 12/24/2016 • 219.72_ . 219.72 11/30/2019 219.47 219.62 21955 12/25/2016 • 219.72 219.72 12/1/2019 11952 219.68 219.60 12/26/2016 • 215.70 219.70 12/7/2019 11952 219.69 I19.61 12/27/2016 • 219.70 219,70 21956 219.73 I19.66 12/25/2016 • 2I9.69 2 19.69j 4/2019 21958 219.73 _ 211.66 • Zero value readlnlor ca nmuaiatlan failure •• Reading not aiibrated at meter error ••• Na reading available on this day AVERAGEDA2LY AV0R GE01ULY 0ate/rtmi LS13750A1fl1 1.5C17501NO VALUEUSED Date/Tbna LSC6750AON LSC1750B{ed VALUEUSED 12/19/7016 • 219.71 219.71 12/5/2019 21932 219.71 219.62 12/30/2016 • 219.71 219.71 11/6/2019 21952 219.71 219.62 12/31/2015 • 219.71 219.71 12/7/2019 21932 219.61 219.60 2/1/2017 • 219.72 119.72 12/e/2019 219.52 119.67 219.60 1/1/2017 • 21992 219.92 12/9/2019 21952 119.67 219.60 1/3/2017 • 220.09 12099 12/10/2019 11932 - 219.66 21939 1/4/2017 • 220.10 220.10 12/11/2019 22956 219.74 219.65 1/5/2017 • 120.11 22022 12/12/2019 21935 219.71 219.63 1/6/2517 • 110.12 220.12 12/13/2019 21955 219.73 219.64 1/7/2017 • 220.26 220.26 12/14/2019 219.99 220.16 220.09 1/8/2017 • 220.29 220.29 I2/13/2019 22095 230.13 220.14 1/9/2017 • 220.27 21027 12/16/2019 210.6 220.23 120.16 1/10/2017 • 220.27 220.27 12/17/2019 220.14 220.31 220.23 1/11/2017 • 220.25 22035 12/18/2019 220.18 22034 120.25 1/12/2017 • 120.15 220.25 12/19/2019 220.16 22035 220.26 1/13/2017 • 22025 220.25 12/20/2019 22036 22031 22014 1/14/2017 • 220.22 220.12 12/21/2019 220.13 220.32 22013 1/15/2017 • 220.21 22021 12/22/2019 220.13 220.32 210.23 1/16/2017 • 220.20 22010 12/23/2019 120.16 220.33 220.25 1/17/2017 220.19 220.19 12/24/2019 220.22 220.40 120.31 1/18/2017 220.16 220.16 12/15/2019 22012 220.40 220.31 1/19/2017 220.18 220.16 12/26/2019 220.21 210.40 220.31 1/252017 220.13 220.13 12/17/2019 120.22 220.41 22031 1/21/2017 • 220.11 220.11 12/28/2019 220.12 120.40 22031 2/22/2017 • 220.16 210.26 12/29/2019 21022 220.40 220.31 1/23/2017 • 220.19 220.29 12/30/2019 22022 220.41 12032 1/24/2017 • 12026 220.26 12/31/2019 220.16 12038 220.27 1/25/2017 220.11 220.26 1/1/2020 220.13 220.34 4 1/15/2017 • 12025 220.26 1/2/2420 220.14 21013 220.224 2/27/2017 • 120.27 220.27 1/3/2020 220.13 22033 220.23 1/28/2017 • 220.21 120.21 1/4/2020 22039 22036 220.49 1/29/2017 • 22020 220.20 1/5/2020 210.40 220.66 220.53 1/3012017 • 12021 22021 1/6/1010 120.40 220.67 22054 1/31/2017 • 220.11 22022 1/7/1010 220.40 22033 220.49 2/1/2017 • 220.14 220.14 1/1/2020 22039 22059 220.49 2/2/2017 • 220.09 220.09 1/9/2020 22039 220.51 220.49 2/3/2011 • 220.10 220.10 1/10/2020 220.31 12051 220.42 2/4/2017 • 21999 11994 1/I1/2020 220.32 22057 22015 2/5/2017 • 220.02 220.02 1/12/2020 22039 22037 220.41 2/6/2017 • 12094 220.04 1/13/2020 22031 220.56 220.47 2/7/2017 • 220.02 220.01 1/14/2020 220.57 220.81 220.69 2/6/2017 • 22090 220.00 1/15/2020 220.70 22091 220.11 2/9/2017 • 220.02 220.02 1/36/2020 220.67 210.90 220.79 2/10/2017 • 220.05 220.05 1/17/2020 22057 220.e3 210.70 2/11/2017 • 220.01 210.02 1/11/2020 22017 220.79 220.61 2/12/21317 • 210.01 220.02 1/19/2020 11057 220.76 220.67 2/13/2017 • 220.02 22092 1/20/2020 12035 220.74 220.65 2/14/2017 • 220.02 220.02 1/21/2020 220.46 220.67 7.20.57 2/15/2017 • 220.03 220.03 1/22/3020 120.40 210.60 22050 2/16/2017 21928 119.96 219.62 1/73/2020 • 2/17/2017 219.29 220.00 119.65 1/24/2020 22038 22038 220.48 2/18/2017 21934 230.01 219.72 _ 1/25J2020 220.47 220.66 22037 2/19/2017 219.28 219.96 219.62 1/26/1020 220.47 220.60 220.54 2/20/2017 21930 219.95 219.63 1/27/2020 220.41 220.63 22051 2/21/2017 21930 220.01 219.66 1/21/2020 220.41 21039 220.50 2/22/2017 21931 21997 219.64 1/29/2020 22031 12058 220.48 2/13/1017 219.31 220.00 219.66 1/30/2020 220.38 220.59 220.49 2/24/2017 220.03 21996 2209I 1/31/2020 22033 22052 210.43 2/25/7017 220.04 21997 220.01 2/2/2020 220.41 12058 221150 2/26/2027 219.97 21934 21996 2/2/2020 210.41 22045 22013 2/27/2017 21996 21994 21995 2/3/2020 220.39 110.50 220.50 2/28/2017 21997 21992 21995 2/4/2020 22039 22051 220.49 3/2/20I7 219.91 219.67 21992 2/5/2020 22039 22057 220.48 3/3/2017 220.06 11998 22092 2/6/2020 12050 220.74 22062 3/3/2017 220.04 219.91 220.01 2/7/2020 22247 222.70 22259 3/4/2017 21999 21997 219.98 2/8/2020 22232 22256 222.44 3/5/1017 219.97 21995 219.96 2/9/2020 22114 11237 222.26 3/6/2017 219.92 21995 219.94 2/10/2020 22191 22220 222.06 3/7/2017 219.94 21995 219.95 2/11/2020 221.74 221.96 221.65 3/6/2017 219.93 11993 219.93 2/12/1020 221.64 221.66 221.75 3/9/2017 219.91 219.94 219.93 2/13/2020 22149 221.70 12160 3/10/2017 21993 219.81 219.91 2/14/2020 22146 221.69 22138 3/12/2017 119.84 219.33 219.84 2/15/2420 221.31 23154 221.43 3/12/2017 219.85 219.84 229.85 2/16/2020 221.21 22143 211.32 3/13/1017 219.84 21915 219.65 2/17/2020 221,13 221.34 22124 3/14/2017 219.36 219.87 21997 2/18/2020 22104 22126 22115 3/15/2017 219.92 21995 219.94 2/19/2020 220.96 221.17 22107 3/16/2017 219.88 21918 219.66 2/20/2020 120.88 21109 220.99 3/17/2017 219.84 219.81 21936 2/21/2020 220.90 22109 221.00 3/11/2017 219.84 219.18 21996 2/22/2020 220.81 22109 220.99 3/19/2017 219.83 219.16 219.85 2/23/2020 220.82 221.02 220.92 3/20/2017 219.89 219.11 219.19 2/24/2020 220.75 220.94 220.35 3/21/2017 21990 219.66 219.88 2/25/2020 220.12 220.94 220.88 3/22/2017 219.91 219.36 219.89 2/26/2020 22032 220.93 220.13 3/23/2017 219.86 219.85 219.86 2/27/2020 220.69 220.37 220.76 3/24/2017 219.89 219.88 219.89 2/23/2020 22037 220.64 220.71 3/25/2017 219.88 219.86 219.87 2/29/2020 22057 220.77 220.67 3/26/2017 219.91 219.86 219.89 3/3/2020 22055 220.75 220.65 3/27/20I7 21991 219.85 219.89 3/2/2020 22035 220.75 220.65 3/28/2017 219.89 219.13 I1926 3/3/2020 220.47 220.69 22036 3/29/2017 219.39 219.80 219.15 3/4/2020 220.49 220.75 220.62 • Ioe value readingor rnntmuninttonfailure •• Beading not calibrated or meter error ••• No reading available an thlr day AVERAGE DAILY' AVEM0E1A14Y Dat4/71ma 1.21:8750A(10 LSC4750Bjh) • YALUEUSED Date/Dias L501750A00 15C875OB;ft) VALUE11502 3/30/2017 21959 219.61 119.85 3/5/2020 220.49 220.70 220.60 3/31/10I7 21998 219.87 I1993 3/6/2020 120.46 120.69 22058 4/1/2017 21997 219.90 219.94 3/7/2020 220.46 220.66 220.56 4/2/2017 219.98 219.90 21994 3/8/2020 . 22040 220.61 22031 4/3/2017 219.94 219.91 219.93 3/9/2010 12038 22038 220.46 4/4/2017 220.04 219.96 220.00 3/10/2010 22034 12059 22049 4/5/2017 220.03 11997 220.00 3/11/2020 22038 210.51 220.48 4/6/2017 220.10 210.07 220.09 3/21/2020 220.30 22033 220.42 4/7/2017 220.03 21998 220.01 3/13/2020 22033 220.49 220.41 4/8/2017 220.01 219.95 219.99 3/14/2010 220.30 120.50 220.40 4/9/2017 220.02 21997 220110 3/15/2020 220.24 220.45 220.35 4/10/2017 220.02 21997 220.00 3/16/2020 220.21. 120.44 220.33 4/11/2017 220.02 119.92 219.97 3/17/2020 130.12 22043 120.33 4/12/2017 219.16 219.93 219.96 3/29/2020 210.22 220.42 22032 4/13/2017 21991 21991 11995 3/19/2020 220.21 220.41 21032 4/1412017 21996 21991 21994 3/20/2020 220.22 220.41 22032 4/15/2017 21991 219.90 21993 3/21/2020 220.11 220.40 22031 4/16/2017 21996 21990 21993 3/22/2020 220.19 72036 220.28 4/17/2017 21994 219.86 219.90 3/23/2020 220.15 22036 220.26 4/15/2017 21995 21911 219.18 3/24/1020 220.22 22035 21019 4/19/2017 21994 119.11 119.68 3/25/2020 220.38 220.58 120.48 4/20/2017 21990 219.79 21995 3/26/2010 120.46 210.67 120.57 4/21/2017 219.86 119.79 2I9.13 3/27/2020 220.46 220.67 21037 4/22/2017 21996 219.67 219.77 3/21/2020 220.47 220.66 22037 4/2312017 219.64 219.69 239.77 3/29/2020 220.41 220.61 220.51 4/24/2017 21933 219.84 21919 3/30/2020 22039 220.58 220.49 4/25/2017 22164 22159 221.62 3/3111020 22033 22054 220.44 4126/2017 221,84 22154 221.84 4/1/2020 220.33 210.53 220.43 4/17/2017 22173 213.73 22173 4/2/2020 22032 22052 220.42 4/I811017 22158 21155 221.58 4/3/2020 220.30 12050 220.40 4/29/2017 22143 211.42 221.43 4/4/2020 220.15 220.44 12035. 1/30/2017 221.26' 211.27 22125 4/3/2020 22022 220.43 22033 5/1/2017 22L17 22117 22I.17 4/6/2020 22013 220.41 22033 5/2/1017 22112 221.01 22107 4/7/2020 220.23 220.42 220.33 5/3/1017 220.87 220.94 220.91 4/8/2020 220.17 220.34 210.26 5/4/2017 220.85 I20.63 220.14 4/9/1020 220.22 220.43 220.33 5/5/2017 22037 22091 220.89 4/10 2020 220.20 22039 220.30 5/6/2017 22096 22036 220.66 4/11/2020 22015 220.35 220.25 5/712017 210.78 220.76 220.77 4/71/2020 210.14 120.31 220.23 5/5/2017 220.69 210.69 220.69 4/13/1020 220.14 22031 12023 5/9/2017 22053 210.66 220.60 4/14/2020 220.14 220.31, 220.23 5/10/2017 220.53 22031 12036 _ 4/15/2020 220.05 220.22 220.14 5/13/2017 220.54 22051 22053 4/16/2010 220.05 220.14 220.15 5/1712017 220.48 220.44 220.46 4/17/1020 130.05 220.24 220.15' 5/13/20I7 22045 22042 220.44 4/18/2020 220.00 220.18 220.09 220.18 22009 5/14/1017 220.44 22041 220.43 4/19/2020 219.99 5/15/1017 220.40 120.33 22037 4/20/2020 220.05 220.73 5/16/2017 220.40 120.33 22037 4/11/2010 220.13 1203I 5/17/2017 22032 21025 22029 4/22/2020 22007 5/1512017 22031 22025 120.26 4/73/2020 5/19/2017 220.34 220.19 . 220.22 4/24/2020' 5/20/2017 71122 120.19 220.11 4.125/2020 5/21/2017 220.19 220.10 220.15 4/16/2020 5/22/2017 220.14 220.08 21011 4/2712420 5/23/2017 220.15 220.07 220.11 4121/2020 5/2411017 220.21 220.14 220.16 4/29/2020 220.00 220.18 220.16 5/23/2017 220.21 22011 710.25 5/26/2017 220.24 120.18 220.21 5/27/2017 22011 320.16 220.10 5/28/2017 220.16 220.16 220.17 5/29/2017 220.18 220.10 72014- - 510020 5/30/2017 "0 :�.� 2_n06 van 11._ Et{! 0.12 220.43 320.33 5/33/2017 220.17 220.08 120.13 5/612020 220.22 220.42 21032 6/1/2017 220.10 21995 22003 5/7/2020 220.16 220.35 210.16 6/2/2017 22008 21994 220.01 5/8/2020 220.I4 22033 220.I4 6/3/2017 22008 219.94 220.01 5/9/1020 220.06 220.15 220.17 6/4/2017 220.02 11994 219.96 5/10/2020 220.05 120.22 220.14 6/51017 220.00 12992 21996 5/11/1020 I30.00 220.21 ' 220.11 6/6/2017 21999 219.94 21937 5/12/1020 219.97 I20.18 120.08 6/7/2017 219.911 21932 219.95 5/13/1020 219.97 220.16 220.01 Minn I19.89 219.84 219.87 5/I4/2020 119.97 220.15 220.06 6/9/2017 219.89 219.81 119.85 5/25/2020 219.97 220.17 22047 6/10/21317 21944' 219.81 1I9.13 5/16/2030 119.91 220.16 220.05 6/11/2017 219.65 219.68 219.77 5/17/2020 119.92 120.11 210.05 6/12/1017 219.13 219.70 219.77 5/19/2020 219.89 220.05 11937 6/13/2017 219.61 219.69 219.76 5/19/2020 219.91 210.04 219.98 6/14/2017 219.76 119.69 219.73 5/20/2010 21991 220.08 210.00 6/15/2017 219.78 119.69 219.74 5/21/2020 220.30 22018 22039 6/16/2017 219.74 119.66 219.70 5/22/2020 220.49 220.57 22058 6/I7/2017 219.83 219.69 I19.76 5/23/2020 22035 220.73 220.64 6/18/1017 219.84 219.68 219.75 5/24/2020 120.55 220.73 220.64 6/19/2017 219.84 219.69 219.77 5/25R020 22058 220.76 220.67 6/20/2017 219213 219.68 219.76 5/ 5/2020 22035 220.74 220.65' 6/21/2017 229.94 219.66 219.75 9/27/2010 220.49 22068 22039 6/22/1017 219.83 219.66 219.75 5/28/2020 22057 220.76 220.67 6/23/2017 219.81 219.67 219.74 5/79/2020- 22036 220.64 220.70 6/24/2017 219.13 219.69 219.75 5/30/2020 220.90 221.10 221.00 6/25/1017 21994 219.67 2191i 5/31/2020 220.88 221.08 220.91 6/2611017 219.12 219.68 219.75 6/1/2020 220.12 220.99 220.91 6/17/2017 219.82 219.69 219.76 6/2/2020 220.71 22093 220.82 6/28/2017 219.76 119.69 219.73 6/3/2020 12056 22036 120.71 4/3012020 220.31 220.3/ 22031 220.33 22032 120.49 220.49 230.14 220.21 22032 220.20 22007 210.25 220.16 210.07. 210.23 220.15 220.05 220.22 220.14 220.05 22022 220.14 220.05 220.11 220.13 220.00 220.18 220.09 220.09 220.15 220.42 220.40 22040 5/1/2020 5/2/2020 5/3/2010 220.43 220.34 • Urn alum reading or communication failure •• Reading not alibratad or meta error ••• No reading available on tin/ day AVERAGE DAILY AVERAGE DAILY 0ap/7lme LSCa750Ajfl LSC67508If» VALUE175ED Date/Time LSC8750A012 15E8750400 VALUEUSED 6/29/1017 219.73 219.66 219.70 6/4/2020 22057 12112 220.70 6/30/20I7 219.73 219.66 219.70 6/5/2020 220.55 220.76 120.66 7/1/2017 219.73 219.66 219.70 6/6/2020 120.49 220.71 220.60 7/2/2017 219.71 219.66 219.69 6/7/2020 220.47 220.69 2205e 7/3/2017 219.66 219.50 219,63 6/8/2020 220A1 220.60 22031 7/4/2017 219.64 21931 219.61 6/9/2020 22039 220.60 22050 7/2/1017 219.64 21939 219.62 6/10/2020 220.33 22034 220.44 7/6/2017 21939 21942 21936 6/12/2020 22031 220.51 210.41 7/7/2017 21937 21931 21934 6/12/2020 120.25 220,49 220.37 7/8/1017 21931 21931 21935 6/13/2020 220.22 110.45 220.34 7/9/2017 2193I 219.49 219.44 6/14/2020 220.I7 22037 22027 7/10/2017 21950 219,45 219.48 6/15/2020 220.14 220.35 ' 220.25 7/12/2017 21930 219.44 219.47 6/162020 220.22 220.42 22032 7/12/2017 219.47 119.40 219.44 6/17/2020 '220.33 22031 220.42 7/13/2017 21930 229.40 219.45 6/29/2020 220.19: 22031 220.40 7/14/2017 219.46 21939 219.44 6/19/2020 220.29, 210.49 220.39 7/15/21217 21947 219.40 219.44 6/20/2020 220.41 . 220.61 220.58 7/16/2017 219.43 21936 219.40 6/21/2020 220.45 220.66 21036 7/27/2017 219.43 21931 11939 6/27/2020 220A6 220.66 22456 7/18/2017 219A3 219.34 219.39 6/23R020 220A6 220.67 12037 7/19/1017 219.42 219.34 21938 6/24/2020 12031 22039 220.49 7/20/1017 219A3 21935 21939 6R5/2020 22032 220.50 220.41 7/21/2017 219.41 219.33 21937 6/26/2010 220.14 220.50 210.37 7/22/2017 219.41 21933 I1937 _ 6/27R020 220.11 220.44 22033 ` 7/13/2017 21936 21915 21931 6/242020 220.22 22038 220.30 7/24/2017 21933 219.24 21919 6/29/2020 220.15 22033 220.24 7/25/2017 119.29 219.19 21924 6/30/2020 220.12 22033 22023 7/26/2017 22918 219.15 219.22 7/1/2020 220.14 220.34 220.24 7/27/2017 I19.25 219.16 21921 7/2/1020 220.12 220.33 22023 7/28/2017 219.20 219.11 219.16 7/3/2020 220.12 220.33 120.23 7/29/2017 219.27 21916 229.22 7/4/2020 220.06 220.22 220.17 7/30/2027 219.19 219.09 21914 7/5/2020 220.04 210.25 220.15 7/31/2017 219.16 219.07 219.12 7/6/2010 220.04 120.25 220.35 9/1/2017 219.17 219.01 219.09 7/7/2020 220.04 220.20 220.12 ` 1/2/2017 219.11 211199 219.05 7/8/2020 219.98 220.19 22409 8/3/2017 219.09 11839 119.04 7/9/2020 219.91 220.1e 220.01 9/4/2017 219.10 21194 219.02 7/10/2010 220.04 220.24 220.14 6/5/2017 219.03 21131 218.97 - 7/11/2020 220.06 220.17 220.17 8/6/2017 219.01 218.92 21196 7/12/2020 220.05 120.26 220.26 8/7/2017 219.01 218.91 21896 7/13/2020 220.07 220.21 210.11 8/8/2017 219.00 21891 218.96 7/14/2020 220.07 22027 720.17 8/9/2017 219.08 116.91 219.03 7/15/2020 220.04 220.25 120.15 9/10/2017 219.02 21832 21897 7/16/2020 220.04 220.20 220.12 6/12/2017 229.04 211.90 218.97 7/17/2020 219.99 220.20 120.10 8/22R017 219.02 211191 21197 7/16/2020 119.91 220.19 220.09 8/13/2017 219.04 218.90 218.97 7/19/2020 220.12 220.35 220.24 1/14/2017 21902 21890 21996 _ 7/20/2020 220.07 220.19 220,1* 8/15R017 219.01 21190 2I896 7/21/2020 220.08 120.29 220.19 e/16/2017 21197 219.85 21191 7/12/2020 220.05 220.27 220.16 1/17/2017 21196 21155 21891 7/23/2020 220.06 220.2E 220.16 6/11R017 •1. 211.82 211.82 7/24/2020 22031 22039 220.49 0/19R017 •• 218.60 21830 7/25/2020 220.48 220.70 22159 1110R027 04 21177 21177 7/26/2020 220.46 220.69 22038 6/21/2017 211.17 221.74 21191 7117/2020 220.41 220.63 22032 8R2R017 •• 21174 218.74 7/28/2020 220.39 120.61 22030 8/23/2017 218.82 211.61 211.75 2/29/2020 220.19 22110 22100 924/2017 218.83 211.67 218.75 7/302020 22012 221.04 22093 9/25/2017 21179 218.65 21472 7/31/2020 220.73 220.96 220.85 76/20`7 21172 21951 21165 1/1/2020 220,70 220.94 22017 1/2218.51 211.56 8/ /2020 220.73 220.95 22034 1/28/2017 '. 21850 mesa 9/3/2010 22037 220.92 220.75 1/29/2017 211A7 21147 8/4/2020 221.48 22172 21260 8R17/2017 6/5/1020 221.46 221.69 •• I1146 2l146 22138 1/3112017 •• 218.42 21442 6/6R020 22132 22155 221.44 911R017 211.4I 211.41 8/7/2020 211.21 221.44 221.33 9/2/2017 •• 221.71 218.71 8/5/2020 22111 22143 221.32 9/3R017 •• 211.71 213.71 8/9/2020 22115 221.29 211.22 9/4R017 •• I1166 21/.66 8/10/2020 221.04 22116 22115 915R017 •• 211.65 218.65 8/11/2020 220.90 222.13 221.01 9/6/2017 •• 21163 21163 6/12/2020 220.82 22104 220.93 917R017 21163 218.63 1/13R010 120.70 22093 220.82 9/1/20I7 .+ 21831 21158 1/14/2020 22056 220.17 230.72 9/9R017 21837 21157 8/15R020 22056 220.66 220.71 9I1012017 .. 218.49 211.49 1/162020 220.97 22120 221.09 911313017 21148 211.48 8/17/2020 220.89 22117 221.03 9/12/2017 .. 11149 218.49 1/11/2020 22I.14 22L36 221.25 4JI3/20I7 218.49 211.49 8/19/2020 221.04 221.29 212.17 9/14/2017 ;: 238.49 216.49 1/20/1020 221.03 221.26 121.15 9/1512017 21147 211.47 8/21/2020 220.89 222.11 221.04 9116R017 •• 218.47 218.47 1122/2020 220.67 21109 I20.91 4l17R0I7 •• 21447 218.47 6/23/2020 220.11 22101 22091 9/18R017 •• 218.40 218.40 8/24/2020 220.69 220.93 220.11 9/19/2017 '• 21139 21839 8/25/2020 220.55 22016 120.71 9R0R017 •• 21139 218.39 1/6/2020 22036 210,78 220.67 9R112017 •• 21139 211.39 8/27/2020 220.54 220.76 220.65 9/22/2017 218.33 218.33 8/21/2020 22046 220.69 22051 9/13R017 •• 21131 118.31 8/29/2020 220.40 220.67 12034 9R02017 •• 218.31 21831 8/30/2020 220.36 220.60 220.49 9R5R027 •• 21125 211.25 1/31/2020 21032 12033 9/26/2017 220A3 '• 21813 218.23 912 2020 220.69 22493 210.81 9127R017 04 218.13 211.23 9/2/1020 220.70 220.93 120.82 • Zero value reading or communication failure •• Reeding not callbrated or meter error ••• Nu reading available an tills day AVERAGE DAILY AVERAGE DAILY 0ate/11mr•. .. LSC11750A(ft) 't5137506(ft) VALU1{ISED Oate/Ama. • L50750A(MI LSC8750B{ltj. VAWEUSEO• . 9/26/2017 •• 21813 216.23 9/3/2020 22056 • 22056 9/29/1017 •. 218.17 211.17 9/4/1020 22057 120.65 220.72 9/30/2017 •. 21414 21614 9/5/2020 22054 220.76 220.65 10/1/2017 ••- ' 215.07- 21137 9/6/2020 220.46 - 220.67 22057 20/2/2017 •• 218.06 21841 9/7/2010 220.40 22054 220.49 10/2/2017 .. 218.05 218.09 9/9/2020 12032 22051. 220.41 10/4/2017 6 0 217.99 217.99 9/9/2020 22032 220.49 220.41 10/5/2017 40 217.98 217.98 9/10/1020 210.29 12049 220.39 10/6/2017 110 21797 22797 9/11/2020 120.24 220.44 220.34 10/7/2017 04 11797 21797 9/12/2020 220.30 22049 120.40 10/6/2017 •• 21797 21797 9/13/2020 220.23 220.46 21038 10/9/1017 •• 21732 217.92 9/14/1020 220.23 220.43 220.33 10/10/2017 .. 217.90 21790 9/15/1020 220.20 220.40 220.30 10/11/2017 .. 217.84' 217134 9/16/2020 I20.15 12034- 220.25 ' 10/12/2017 46 217.32 217.32 9/17/2020 220.14 12033 22014 10/13/2017 .• 217.76 217.76 9/11/1010 220.30 220.49 120.40 10/14/2017 .. 217.74 217.74 9/19/2029 220.29 220.47 210.38 10/15/2017 .. 217.74 217.74 9/20/2020 220.22 220.46 220.34 10/16/2017 6 0 217.71 217.72 9/21/2020 220.21 210.40 22031 10/17/2017 •• 217.70 217.70 9/22/2020 220.20 220.40 21030 10/11/2017 .. 217.70 217.70 9/13/1020 210.12 12031 220.22 10/19/1017 •• 217.66 217.66 9/24/2020 220.11 220.10 22031 . 10/20/1017 Of 217.63 217.63 9/25/2010 220.20 220.31 220.29 I0/21/2017 •• 117.63 217.53 9/26/1020 I2033 210.71 220.62 10/22/2017 04 21751 21753 9/27/2020 220.56 220.74 220.65 10/23/2017 .. 11757 21757 9/21/2020 21053 220.71 220.63 10/24/2017 •• 217.79 217.79 9/29/2020 22053 220.73 220.63. 10/25/2017 •• 217.62 217.82 9/30/2020 220.66 220.19 220.79 10/26/2017 •• 217.30 217.10 10/1/2020 220.66 220.69 220.79 10/27/1017 .. 217.10 217 80 I0/1/1020 220.56 120.62 220.69 10/21/2017 •• 217.60 227.80 10/3/2020 22056 220.75 220.66 10/29/2017 •• 217.79 21739 10/4/2 20 220.54 220.73 210.64 10/30/2017 •• 217.11 217.61 10/5/2020 220.45 120.65 22055 10/31/2017 .. 217.80 217.80 10/6/2010 220.46 220.65 22056 11/1/2017 .. 217.74 217.74 10/7/2020 220.40 22056 220.41 11/2/2017 •• 217.74 217.74 10/6/2020 220.38 22056 220.47 11/3/2017 •• 217.74 217.74 10/9/3020 220.32 22050 220.41 11 4/2017 .. I17.71 217.71 10/10/2020 22030 120.47 72039 11/5/2017 0. 217.72 21772 10/11/2020 220.29 220.47 22036. 11/6/20171 .. 217.72 217.72 10/12/3020 I2037 220.55 220.46 11/7/2017 •• 217.71 217.71 10/13/2020 22031 22051 220.41 11/1/2017 • 0•0 10/14/2020 22030 27.0.49 220.40 11/9/017 00 217.66 217.66 10/15R030 120.29 220.47 220.35 11/10/2017 •• 217.65 217.65 10/16/2020 21031 220.49 220.40 ' 11/11/2017 .. 217.64 217.64 10/17/2020 22039 22057 220.48 I1/12/2017 6. 217.63 217.63 10/10/2020 22037 22055 720.46 11/13/2017 •• 217.65 217.65 10/19/2020 22037 220.56 220.47 11/14/1017 •• 2I7.63 217.63 10/20/2020 22031 210.44 220.40' 11/15/2017 • ... 10/21/2020 220.29 220.46 220.31 11/16/2017 .. 217.61 217.62 10/22/2020 220.29 220.46 22031 11/17/2017 .. 217.62 217.62 _ 10/23/1020 220.29 220.46. 22036 11/16/2017 •• 217.61 217.62 10/24/2020 110.24 220.41 22033 11/19/2017 •• 21757 21757 10/15/2020 210.21 220.41 220.31 11/20/2017 •. 11757 21757 10/26/2020 220.21 220.42 22032 11/21/2017 .. 21735 21735 I0/27/2020 220.21 22039 120.30 I1/1212017 •. 21754 21754 10/23/2020 220.21 12036 220.30 11/13/2017 . •• 21755 21735 10/29/2010 220.21 220.40 220.31 11/24/2017 •• 217.54 21754 10/30/2020 220.15 21031 220.23 11/23/2017 .. 217.49 21749 10/31/2020 220.13 220.29 22011 11/26/2017 •• 217.46 217.46 11/1/2020 210.12 22030 22011 11/27/2017 ••-217.46 11746 11/2/2020 220.12 22030 220.11 11/26/2017'-- -•• 21746- - -217 46 11/3/2020--220.06 220.24---220.35 11/29/2017 •• 217,45 217.45 11/4/2020 220.06 220.24 220.15 11/30/1017 •• 217.40 217.40 11/5/2020 220.05 22011 220.14 11/1/017 .. 217.40 217.40 11/6/2020 210.04 22012 120.13 12/2/2017 0. 21739 2I739 11/7/2020 220.05. 220.21 220.13 22/3/2017 •• 117.37 21737 11/1/2020 220.05 210.18 220.12 12/4/2017 •• 21731 21738 11/9/3010 220.04 220.16 220.10 12/5/2017 •. 11731 217.33 11/10/2020 21998 220.15 220.07 12/612017 •• 117.33 21733 • Zero value reading or communication failure •• Reading not calibrated ormetererror ••• No nading available on this day