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NC0039586_Other Agency Documents_20210903 (3)
4,e DUKE ENERGY. FEB 2 4 Mil Serial: RA-21-0080 Certified Mail Number: 7014 2120 0003 3196 7293 Return Receipt Requested Kim E. Maza Vice President Harris Nuclear Plant 5413 Shearon Harris Rd New Hill. NC 27562.9300 Mr. Danny Smith, Director NC DEQ Division of Water Resources 512 N. Salisbury Street Raleigh, NC 27604 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 I 1 t, 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. NC0039586. 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 I (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-21-0080 / 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, ` E. i►-1 n ,-- 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. Serge' Chernikov, 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 DBQ Division of Water Resources Serial: RA-21-0080 / Page 3 bc: Delia Allen Chase Fulk Matthew Hanchey Brice Peters Don Safrit Bob Wilson Darlene Wallace Nuclear Records NC DEQ Division of Water Resources Serial: RA-21-0080 Enclosures Harris 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) UA 10/ DUKE ENERGY CAROLINAS, LLC 400 S TRYON STREET ACCOUNTS PAYABLE - ST25B CHARLOTTE, NC 28202 kik, DUKE ' ENERGY® Page 1 of 1 35 000018 R3K1SDA NORTH CAROLINA DEPARTMENT OF ENVIRONMENTAL QUALITY DIVISION OF WATER RESOURCES 1617 MAIL SERVICE CENTER RALEIGH NC 27699-1617 Remittance Advice Date: Check #: Payment Amount: Vendor #: 02/23/2021 1000186714 1,030.00 0000071949 Invoice Date 02/18/2021 Invoice # Voucher ID # Invoice Gross Amt Discount Amount Invoice Net Amt NC0039586 10136673 1,030.00 0.00 1,030.00 PLEASE DETACH BEFORE DEPOSITING CHECK THIS CHECK CONTAINS MULTIPLE FRAUD DETERRENT SECURITY FEATURES DUKE ENERGY CAROLINAS, IIC 400 S TItY0N STREET ACCOUNTS' .?AYAELE-.ST.25S CHARLOTTHC 28242; 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 '=1 0-937/213 Date: 02/23/2021 Check #: 1000186714 ! Amount $****1,030.00 VOID AFTER 180 DAYS 1/447 A thorized Signer 11'1000L8671411' 1:02L3093791: 9 L80 3 309 30 Jacobs Subject Project Name Project No. Date Prepared for Prepared by Technical Memorandum 111 Coming Road, Suite 200 Cary, North Carolina 27518 +1 919.859.5000 +1 919.859 5151 (fax) www.jacobs corn Shearon Harris Nuclear Plant - Permit NC#0039586 Clarifications to Mixing Zone Modeling & Analysis Shearon Harris Nuc ear 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 ti �'• 'otri. .... % .• 47FER L 1� •''. .2 12.2/ 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 least 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 less than half of the allowable limit. TABLE 1. Dilution Factors & Equivalent Copper Effluent Limits from Additional CORMIX Cases Results from Original CORMIX Model in Mixing Zone Study Results Using "Conservative Pollutant" Option Results Using Minimum (10'" percentile) Reservoir Water Levels Maximum Values at Outfall 006 — Jan 2016 to July 2020 CORMIX- Calculated Dilution Factor 15.3 15.3 15.0 a The resulting calculated limit far monthly average exceeds the calculated tmit for daily maximum the acute condition governs and the Daily Max and Monthly Average limits are equivalent. IWi'_L Daily Maximum (Acute) 166.1 pg/L 166.1 pg/L 163 0 pg/L 63.5 pglL Monthly Average (Chronic) 166,1 pg/L ° 166,1 pg/t_ ° 163.0 pg/La 32.7 pg1L (or acute conditions). Therefore, 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 thermocline 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 CORMIX hydrodynamic modeling system (CORMIX 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 -field 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 concern 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 concern can be in any unit of concentration (e.g., pg/L, °C, ppm, or %) CH2M HILL North Carolina, Inc. Shearon Harris Nuclear Plant - Permit NC#0039586 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- conservative/heated 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 governs 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 (i.e., 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. 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 1a, 1b, 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 Duffel! 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 (loth percentile), high (90'h 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. TABLE 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 217.5 ft NGVD 219.8 ft NGVD (10an percentile) 219.0 ft NGVD 218.0 ft NGVD 218.8 ft NGVD High Water Level PCP percentile) 221.0 ft NGVD 220.9 ft NGVD 220.5 ft NGVD 220.7 ft NGVD 220.8 ft NGVD Median Level 220.3 ft NGVD 220.3 ft NGVD 219.8 ft NGVD 219.7 ft NGVD 220.0 ft NGVD (50'" percentile) 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 /+1 ft 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 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 (HD) — 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 thermocline 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 (HD) 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 Reservoir Pool Elevation Estimated Bottom Elevation at Discharge Height/Depth at Discharge (Ho) Height of Thermocline (HINT) Normal Pool Level Median — All Seasons 220 ft NGVD 175 ft NGVD 45ft(13.7m) 29ft(8,7m) Low Water Level High Water Level 10"' Percentile for Farr 90"' Percentile for Fall 218 ft NGVD 175 ft NGVD 43 ft (13.1 m) 27 ft (8.1 m) 221 ft NGVD 175 ft NGVD 46ft(14.0m) 30 ft (9.0 m) 3.3 Parametric Evaluation Results and Conclusions Case 4a (Fail Season, Max Day Discharge) was modified to reflect alternative 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 Tess 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 (Daily Max) 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 pglL Low Water Level 175.9 ft 279.6 ft 15.0 6.67% 163.0 pg!L -1.9% Notes: a The radial distance is a vector distance from the center of the port while the horizontal distance reflects the x-direction 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. 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. 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/T1ME: 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, including 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 ACTIVITIES 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 5 WHOLLY -OWNED BY JACOBS, INC. r Lill (!) sew Z _ w o � co � 2 c N, r r gAz ®. c) (66 0 0 E ■. N N 0° rom WER to Mixing Zone Stud "L= - of C, 1 jIianc: a in O c Q. o. E a et 0 1w I o as E • CC a 0 U OI us N 0 Q a E a w m O c .0 � V1 • November 2019 — Mixing Zone Study Plan submitted to DEC 0 C W L.+ CS 1st c- in c `y a c:F. *" C•0 • 0 IDc C °.W �a No � E tea a a • a b = a)Em u) P.. O o N tli 0 o: c,c 4+ To'C k m r c c 1 ' • o w 0 0 11.1 Ili -C•o 0 O 0 m c N E I e• . 3 'C c 0 o ea .N C m a< 0 N.ca�r$'a �CD y�'�X 13 o C • =m MIC N c nU g 4 L IMEIEW-AraT171.-ITTI; CI ) 76. ire min • e ' fixing 'one |!1J|||||!1.11I M || | #1111 | 11110111 ° �uJ 2§ ° E k§ 41 G§ - B§ co k k 13 .3_31.-.. Cn T�§ ' �� 28 2 —) N E - £ -- ens §6f k I. a° f 2 2 0. , 0 o 2 . i_ +0222 ` -k ) c' \ 0 2- J.-B 3!a k To5 i 2 ..2 . 3 , 2 § 85co "3 2g'2 2E24% &a-- § - 2 e 2 = q §) $ 2 c . ; /kuk§.3o oT)n.03 z_u_ z-a UJ 2 E 1 1 1 1 1 • c YT, m Z ow CORMIX Radial Horizontal Dilution Plume Travel I ft Case No. Distance, ft Distance, Factor 1WC Width, ft Time, min co m O r sr. in in Oc O r N A N 01 N C N I N I N ONl N r PS r) N g N N Ff e e a e e e e e I]; c7 1( el Obi I) 2 Q v cf) GNI ui 3 f0 W If7 I N N CO 4) et 07 PI 0 Iff 1- c0 G ui If) 10 J) — N N N 10 r r r N O Ce a) C M r = co C 0 N Cn C X = f` r 2 m .r = aQ.0oo0000 r M. N N f) cM ^, W 1 Wnter 18.1' C Unstral�ed Dec -Feb) 10.0• C Spring ,7.3. Linear Stratification Mar -May) Surface: 23.5•C Bottom: 14.0•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 515E of discharge eta. DUKE • ENERGY 0 am+ a) ,3 0 V) 13 p e Summer 32.6' C ,Jun A rg) Fall 29.6' C Sep -Nov) co u;i r a) N 2 N c U li w O co Cl 3 L� 1-4 a W } CORMIX Radial Horizontal Dilution Plume Case No. Distance, ft Distance, ft Factor IWC Width, ft 04a 647 647 61.9 1.62% 1,593 04b 509 509 58.8 1.70% 1,327 A r O1 (0 (0 01 W0 N r al 41 0) — Yw — r r r — — `EL, 1 e e e e e e GO r r NN .- r r W ,- CD C_ X M {Si r 0) c0 Fig ti(0 Q N:a) 3 N a) a)U a) C C— tD un o v in ti in 40 � LI, N C) DICO C .0 U v N c.) O c W t V In 0 v 0 n 0 40 0 10 0 10 0 UW •• ar • ness Characterize • i ►a • ustin• E rluent Limits for Dilutio b E !4 J c E 0 a41. z `o x 63 rn m C ▪ m c N ▪ uJ c m O a E 11 • a � as • 6) ZO ▪ m E a E m a0 . i • 1 1 ai { • ▪ • • ;• �11363 C)rd (ti(kw) tO3e3 se sseupiaH a >ti A G 7 •a N a • c N m en YI's Ul a In c -0 c ▪ o H 2 a 0 6 Z a CI - I w w • E aN a U m R j m C CD ID CCC.) To '13 9 • as °� x 0 (ID .c E c 2 N coE� 3 {v D u 0- d -cc X 2A to 3 E 8Jo C 7 6Q1 CO E Q1 G 0 cN toC'a H co co .c cr 7 N a a CONO .0 x.0 E a m t_° a E Nram.. O E m jai 3 it is V o .c v L.L. m 3° CD WC d -CO C ie a oEIa 'a =E {em� m �o a O m m • 1- F. 7 N m • • • • Permitted effluent limits = (WQC x DF)— Concentration in Lake • Zinc values substantially lower after change of corrosion inhibitors Total Recoverable Metals Limits for Outfall 006 S CO S e CY 0 c G 0 oe S 2 8 o w a (TId) aurz elgwenoaau 1go1 N 500ft DF= tO it 77 ft DF = 15.3 U hied) *in aIgaiano,ay Ialoi s> CO us 0 w a m 0 0 E C ? o Qy m N w ra o_a '(ti cis Q E L � m E CL O. X 0 as U2 • 4. • 'D• sr �1 s4 • •• ▪ ▪ om ■' • ▪ •4%n • . • • 8i ▪ •G It 1 ill et d. fD Y N S m S v N MN) iaddo3 a14siano3ati Immol i 0 • •• n Lk • • Ckl4 — — ,� ▪ s‘ • 'et. • ,— • . ' 8krt'b • 8 eqt I .. •. `0 c��'b N S 0 0 er {Ved) Cadd03 alguenoaea 1111.01 E N a co 0 a z n, A a0 a f I U Z N C C `m Q C V SD c u) N v C a O ) La a.v d fO c o 46 AP- O EL 0 U a) 7 O 0 x w 0 ro 0 a d a 0 10 m CC 0 z a) Oa '31 4s 1 0N 0Q. CO ow , :°: • a��n • e o 6 •• 4 •• s1 • • ,fin — • ' si n o• 61,e di' 11 o • O s t‘ ° • • �n •• • 7.1. ' (marl) J0ddo3 aiquanopau lam 0 cC N CD d V to as i O ° U Q CU Iz .0 0Q U� -J 4- 0 0 a pi lea; • ° i^ i a c e 66 • i• S �' ° 1J s_4n • , s` 11. • �f • 1 43, 0 • : �r : 0* . 1 o• I << • •• ; `` c. N GA hied) aiquenoa.a Iaio1 m N u7 ry ra Attachment B CORMIX Model Output— Example Validation Run Case 4a: "Conservative Pollutant" Type Co = 63.5 (Maximum Copper Concentration) CORMIXI PREDICTION FILE: 1 11E+94 CORMIX MIXING ZONE EXPERT SYSTEM Subsystem CORMIX1: Single Port Discharges CORMIX Version 11.OGTD HYDRO; Version 11.0.1.0 August 2019 CASE DESCRIPTION Site name/label Harris Reservoir IHNP Oahe 006► Design we: Case 04a-mar. day Co concentration {ONC) FILE NAME: CA.. 1es d36)>,CORMHNP006-04;rev 12.29.20.prd Time stamp: 1/2020-10:47:12 IVIRONMEPARAMETER: (metric units) Bounded section B5 • 500 AS • 6858 OA • 68.58 ICHREG• 1 HA 13.72 HO • 13 72 UA • 0.01 F • 0.013 USTAR 0.000405 UW • 2 TAR•0.I1911E-02 Density stratified environment STRCND• C RHOAM • 997.0253 RHOAS • 995.7971 RHOAB • 998.9443 RHOAHO• 997.729 E 0.0a2756 091101 0.7166 HINT • 8.72 E5 0.003543 DISCHARGPARAMETER: (metric units) BANK • LEFT DISTB 250 DO • 1.2I9 AO 1.167 HO 3./1 561 • 1141 THETA • 0 SIGMA 0 UO • 0.717 00 • 0.837 0.8368 RH00 • 995.7672 DRHOO 1.962 GPO 0.01928 CO 61.87 CUNITS• ppb IPOLL • 1 KS 0 KD 0 FLUX VARIABLES (metric units) 00 0.8368 MO 0.5998 JO 0.01614 1497e10• L Associated length scales (meters) 10 • LOB LM 5.37 ler 77.49 Ib • 16115,76 Lmp 99999 Lbp 99999 1•DIM E N 5ICsARAMElERS FRO • 4.67 R 11 E# FLOW LASSIFICATION 1.111E+47 l Flow lass (CORMIX1) • -0 L Applicable layer depth H5 6.72 I Limiting Dilution 5 •OA/OO• 6391. 1 1.111E.47 MIXING ZONE / TOXIC DILUTION / 1ESIGF. OF INTEREST ARAMETERS CO 61.87 CUNITS• pph wax • 0 N5T0 • 0 REGMZ • 0 XINT • 5000 XMAX Sax X Y2 ;.00RDINATI SYSTEM: ORIGIN is located at the bottom and below the center o1 the Serc 250 m from the LEFT bank/shore X-axis points lawmtrearr Y•aals points to left, lads points upward. NSTEP • 100 display Intervals per module BEGIN MOD101 DISCHARGE MODULE X Y 1 5 C 6 '..c TT 0 0 2.13 I 6.19E+01 061 0.707 0021.00 END OF MOD/OI' DISOIARGE MODULE BEGIN COMET (MOOI10).JET/PIUMENEAR•fIELC MIXING REGION let/plume transition motion In weak crossflow. Zone of Raw nabllshmer THETAE• 0 SIGMAE• LE • 5.27 XE • 527 YE LE 1 /1 Profile definitions: B • Gaussian 1!n -37% half -width. normal to trajectory 5 • ydrodynam centerline dilution C 1 centerline oncentralla Iindudes reaction off acts, If any) Uc • local centerline eacets velocity (above ambient' lidial TT • Cu mulalive travel time MMus' Maas} x r z s c cm+cbkg IWC% e uc 7T 0.0 0 0 213 1 6 19E+01 63.5 100.0% 0.51 0.707 0.00E+00 17.3 5,27 0 2 13 I 6 I9E+01 63.5 100.0% 0.62 0.707 8 73E-02 17.9 5.45 0 2 13 1 6.19E+01 63 5 100.0% 0.64 0.707 2.66E-01 19.4 5.62 0 2 14 1 6 19E+01 63 5 100.038 0.66 0.707 450E-01 19.0 5 79 0 2 14 1 5.19E+01 63 5 100.0% 0.67 0.707 639E01 19.6 596 0 2,15 1 6.19E+01 63.5 100.0% 0.69 0.707 8.33E-01 20.1 614 0 2.16 1 6.19E+01 63.5 100.015 0.71 0,707 1.03E+00 20.7 6.31 0 2.17 1 6.13E+01 62.9 100.0% 0.73 0.707 1.24E+00 21.3 6.48 0 2.18 1 5.97E+01 61 3 100.0% 0.75 0.707 1.45E+00 21.8 6.65 0 2.2 1.1 5.82E+01 59.8 90.9% 0.77 0,707 1.66E+00 22.4 6.82 0 2.22 Ll 566E+01 58.4 90.9% 0.79 0.707 1.88E+00 22.9 6.99 0 2.24 11 554E+01 57.0 90.955 0.81 0.707 2.11E+00 23.5 717 0 2.26 11 5.40E+01 55.6 90.9% 0.82 0.707 234E+00 24.1 7 34 0 2.29 1.2 5.26E+0l 54.4 83.3% 0.84 0.707 257E+00 24.6 7.51 0 231 I.2 5.15E+01 531 11i.3% 0.86 0.706 2.81E+00 25.2 768 0 2.34 1.2 5.04E+01 52.0 83.3% 0.83 0.692 3.06E+00 25.8 7.35 0 238 13 4.92E+0I 50.1 76.9% 0.9 0.678 331E+00 26.3 8.02 0 2.41 1.3 4.81E+01 49.7 76 9% 0.92 0.665 356E+00 26.9 8,18 0 2.45 1.3 4.71E+01 48.7 75.9% 0.94 0.653 3.82E+00 27.4 8.35 0 2.49 1.3 4.60E+01 47.6 76.9% 0.96 0.641 4.08E+00 28.0 8.52 0 253 1.4 450E+01 46,6 71.4% 0.97 0.63 4.35E+00 28.5 8.59 0 257 1.4 4,41E+01 457 71.4% 0.99 0.619 4.63E+00 283 8.77 0 2.6 1.4 436E+01 45 2 71.415 1 0.614 4.76E+00 29.4 6.94 0 2 64 1.4 4.27E+01 44 3 71.4% 1.02 0.604 5.04E+00 29.9 9.1 0 2.69 13 4.16E+01 43.4 66.7% 1.04 0.594 5.33E+00 30.5 9.27 0 2 75 1.5 4 10E+01 42.6 66 7% 1,06 0.535 5.62E+00 31.0 9,43 0 2.8 IS 4.02E+0l 41.8 66.7% 1.08 0576 5.91E+00 31.6 9.59 0 2.86 1.6 3.94E+01 41.0 62.5% 1.1 0.567 6.21E+00 32.1 976 0 2.91 1.6 3.86E+0I 40.2 62555 1.12 0.559 6.51E+00 32.7 9.92 0 2 97 1.6 3.78E+01 39.4 62.5% 1.13 0.551 6.82E+00 33.2 10.08 0 3.04 1,7 3.71E+01 38 7 58.8% 1.15 0.543 7.13E+00 33.7 10.24 0 3.1 1,7 3.64E+01 38.0 58.8% 1.17 0.535 7.45E+00 34.3 10.4 0 3.17 1.7 357E+01 37.3 58 8% 1.19 0.528 7.77E+00 34.8 10.56 0 3.23 1.8 351E+01 36.7 SS 6% 1.21 0.521 8.09E+00 35.4 10.72 0 13 1.8 3.44E+01 36.0 55.6% 1.23 0.514 8.42E+00 35-9 10.87 0 338 1.8 3.38E+01 35 4 55.6% 1.25 0.507 8.76E+00 36.4 11.03 0 3.45 1.9 3 32E+01 34.8 52.6% 1.27 0,501 9.09E+00 37.0 11.19 0 3.52 19 3.27E+01 343 52.6% 1.29 0.494 9.44E+00 37.5 2134 0 3.6 19 3.21E+01 33 7 52.6% 1.31 0,488 9.78E+00 38.1 115 0 3.67 2 316E+01 33.2 50.015 1.33 0.432 1.01E+01 36.6 1165 0 3 75 2 3.10E+01 32.6 50.0% 1.34 0.476 105E+01 39.1 11.8 0 3.83 2 3.05E+0I 32.1 50.038 136 0.47 1.08E+01 39.7 11.96 0 3.91 2.1 3.01E+01 31.7 47.6% 1.38 0.464 1.12E+01 40.2 12,11 0 3.99 2.1 2.96E+01 31.2 47.6% 1.4 0.456 1.16E+01 40.7 12.26 0 4.07 2.1 2.91E+01 30.7 47.6% 1.42 0.452 1.20E+01 41.3 12.41 0 4.15 2.2 2.87E+01 30.3 45.5% 1.44 0.446 1.23E+01 41.8 1257 0 4.23 2.2 2.83E+01 29.9 455% 1.46 0.44 1.27E+01 42.3 12.72 0 432 2.2 2.79E+01 29.5 45.5% 1.41 0.435 1.31E+01 42.9 12.87 0 4.4 2.2 2.75E+01 29,1 45555 1.5 0.429 135E+01 43.4 13.02 0 4.48 23 2.71E+01 26.7 43.5% 1.52 0.423 1.39E+01 43.9 1317 0 456 2.3 2.68E+0l 28.4 43.555 1.54 0.418 1.43E+01 44.5 I332 0 4.65 2.3 2.64E+01 28.0 43 5% 1.56 0.412 1.47E+01 45.0 13.48 0 4.73 2.4 2.61E+01 27 7 41 7% 1.58 0.407 151E+01 45.6 13.63 0 4.11 I.4 258E+0I 27.4 41 7% 1.6 0.401 155E+01 46.1 13.78 0 4.89 2.4 255E+01 271 41 7% 1.62 0.395 1.60E+01 46.6 13.93 0 4.97 2.5 2.52E+01 26.8 40015 1.64 0.39 1.64E+01 47.2 14.09 0 5.05 2.5 2.49E+01 26.5 40 0% 1.66 0384 1.68E+01 47.7 14.24 0 5.13 2.5 2.47E+01 26.3 40.055 1.68 0.379 1.73E+01 48.3 14.39 0 5.21 25 2.44E+01 26.0 40.0% 1.7 0.373 1.77E+01 48.9 14.55 0 5.29 2.6 2.42E+01 25.8 38.555 1.72 0.367 1.82E+01 49.4 14.7 0 5.36 2 6 2.39E+01 25.5 33.5% 1.74 0.362 1.87E+01 50.0 14.86 0 5.44 2 6 2.37E+01 25.3 38.5% 1.77 0356 1.91E+01 50.5 15.02 0 5.51 2 6 234E+01 25.0 33.5% 1.79 035 1.96E+01 51.0 1517 0 5.58 2.7 2.32E+01 24.8 37.0% 1.81 0.344 2.01E+01 51.6 15.33 0 5.64 2 7 230E+01 24.6 37.0% 1.83 0.333 2.06E+01 52.2 15.49 0 5.71 2.7 2.27E+0I 24.3 37.0% 1.86 0.332 2.11E+01 5211 15.66 0 5.77 2.7 1.25E+01 241 37.0% 1.88 0326 2.16E+01 53.3 15.52 0 5.83 2.8 2.23E+01 23 9 35 7% 1.91 0.321 2.21E+0I 53.9 15.98 0 5.83 2.8 2.21E+01 23.7 35.7% 1.93 0315 2.25E+0I 54.4 16.15 0 5.93 2.3 2.18E+01 23.4 35 7% 1.96 0.309 2.32E+01 55.0 16.31 0 5.97 2.9 2.16E+01 23.2 34 5% 1.99 0.304 2.37E+01 55.6 16.48 0 6.02 2.9 2.14E+01 23.0 34 5% 2.01 0.299 2.43E+01 56.2 16.65 0 6.05 2.9 212E+01 22.8 34 5% 2.03 0.294 2,49E+01 56.7 16.82 0 6.08 2.9 2.10E+01 22.6 34 5% 2.06 0.29 2.54E+01 57.3 1699 0 6.11 3 2.08E+01 224 33.3% 2.01 0.285 2.60E+01 57.1 1716 0 6 I3 3 2 06E+01 22.2 33.3% 2.1 0.282 2.66E+01 58.4 17.34 0 6.14 3 2.04E+01 22.0 33.3% 2.12 0.279 2,72E+01 58,9 1751 0 6.15 3.1 203E+01 21.9 32.3% 2.14 0.276 2.78E+01 Maximum 01 height has been reached. 59.5 17.68 0 616 3.1 2.01E+01 217 32.3% 2.16 0.274 2.84E+01 60.0 17.85 0 6.15 3.1 1.99E+01 215 32.3% 2.18 0.272 2.90E+0I 60.6 18.03 0 6.14 3.1 1.97E+01 213 32.3% 2.I9 0.27 2.96E+01 61.1 18.2 0 6.12 3,2 1.96E+01 212 31.3% 2.21 0.269 3.03E+01 61.7 19.37 0 6.1 3.2 1.94E+01 210 31338 2.22 0.268 3.09E+01 62.2 18.54 0 6.07 3.2 192E+01 20.3 31338 2.23 0.263 3.15E+01 62.7 18.71 0 6.04 3.2 1.91E+01 20.7 31 3% 2.24 0.26E 3.21E+01 63.2 18.8E 0 6 3.3 1.89E+01 20.5 30.3% 2.25 0.267 3.27E+01 63.7 19.04 0 5.96 3.3 I.87E+01 20.3 30.3% 2.26 0.268 3.34E+01 64.2 19,21 0 5.91 3.3 1.86E+01 20 2 30.3% 2.27 0.268 3.40E+01 64.7 19.37 0 5.35 3.4 1.84E+01 20.0 29.4% 2.29 0.268 3.46E+01 65.2 1953 0 5.e 3.4 1.82E+01 19.8 29.4% 2.3 0.268 352E+01 65.7 19 7 0 5.73 3.4 1.80E+01 19.6 29.4% 2.31 0.268 3 59E+01 66.2 19.86 0 5.67 3.5 1.79E+01 19.5 213.696 2.32 0.268 3.65E+01 66.6 20.01 0 5.6 3.5 1.77E+01 19.3 23.696 2-33 0.268 371E+01 67 1 20.17 0 553 3.5 1.75E+01 19.1 28.6% 2.35 0.267 377E+01 67.6 20.33 0 5,46 3.6 1.74E+01 19.0 27.8% 2.36 0.267 3.84E+01 68.0 20.48 0 536 3.6 1.72E+01 18.E 27.8% 2.38 0.266 3.90E+01 63.5 20,64 0 5.31 3.6 1.70E+01 13.6 27.3% 2.39 0.264 3 96E+01 69.0 20.79 0 5.23 3.7 1.69E+01 18.5 27.0% 2.41 0.263 4.03E+01 69.4 20.95 0 515 3.7 1.67E+01 18-3 27.0% 243 0.261 4.09E+01 69.9 211 0 5.07 3.7 1.65E+01 18.1 27.0% 2,45 0.259 4 15E+01 70.3 21.25 0 4.99 3.8 1.64E+01 13.0 26396 2,47 0.257 4 22E+01 70.E 2L4 0 4.91 3.8 1.63E+01 17 9 26 3% 2.49 0.255 4.28E+01 AT BOUNDARY WATER SURFACE OR PYCNOCUNE1 Terminal level In stratified ambient has been leeched. Plume width {H) 16.3 Cumulative travel time - 42.8329 sac ( 0.01 Hods. Distance (H) 70.2 END OF CORIET (MOD110):JET/PLUMENEAR•FLELD BEGIN MOD131. LAYER IDARY/TERf LAYER APPROACH MIXING REGION Control volume Inflow: X Y Z S C 6 7T 21.4 0 4,91 3.8 L.63E+01 249 4.26E+6L Profile definitions' BV • Gaussian 1/a -37% vertical thickness BH - Gaussian 1/e -37% horizontal half -width, normal to Iralartory 2U • upper plume boundary (2-coordinate) 21 • lower plume boundary (2-coordinate) S • ydrodynam centerline dilution C • centerlineoncantratla lindudes reaction effects, If any) Radial 1T • Cumulative travel time Distant' a491) X Y 2 5 C CO.Oki IWC% 6V BH ZU 2L TT 65 7 18.91 0 8.72 3.0 1.63E+01 17.9 26.3% 0 0 8.72 8.72 4.26E+01 68.0 19.66 0 8.72 3.8 1.63E+01 17.9 26.3% 2.21 11.1 9.23 7.02 4,26E+01 70.4 20.41 0 8.72 3.8 1,63E+01 17.9 26.3% 2.62 1.57 9.33 6.7 4.26E+0l 72 7 21.16 0 8.72 3.8 1.63E+01 17.9 26.3% 2.89 193 9.39 6.5 4.26E+01 75.0 21.9 0 8.72 3.8 1.62E+01 17.8 16.3% 3.08 2.23 9.43 535 459E+01 77.4 22.65 0 8.72 3.9 1.57E+01 17.3 25.6% 3.23 2.49 9.47 6.24 5.05E+01 79.E 23.4 0 8.72 4,1 152E+01 16.8 24.4% 334 273 9.49 6.15 551E+01 82.1 24.15 0 8.72 4.2 1.47E+01 16.3 23.8% 3.42 2.94 9.51 6.09 5.96E+01 84.5 24.9 0 6 72 4 3 1.44E+01 16.0 23.396 3 48 3 15 9 52 6 05 6 42E+01 86 9 25.64 0 8.72 4.4 142E+01 15.8 22.7% 3.51 3.34 953 6.02 6.88E+01 89.2 2639 0 8.72 4.4 1.41E+01 15.7 22.7% 3.52 352 953 6.02 734E+01 Cumulative travel time - 73,408 sec { 0.02 hrs) END OF MO013I, LAYER DARY/TERI LAYER APPROACH BEGIN MOD155: WEAKLY DEFLECTEDFACE/BOTI PLUME SURFACE/60T7t PLUME Into a callow Car counter-0o44 Profile definitions. BV • Gaussian 1/e -37% vertical thickness BH • Gaussian 1/e -37% horizontal half•width, normal to t•aleciory 2U u upper plume boundary (Z-coordinate) ZL • lower plume boundary 5Z2mordinate) 5 - ydrodynam centerline dilution C • centerlineoncantrallo {Includes reaction effects, If any] Radial 17 • Cumulative travel time Olslan15 ADJ. heel) X Y 2 5 C co • Cbkg IWC% IWC% BV BH ZU ZL IT 89.2 26.39 0 8.72 4,4 1.41E+01 15 73 22 7% 352 352 9.53 6.02 7.34E+01 938 27.E S 9 163 16.9% 6.5 Default 10 1 Dilution (Per Wisconsin MZ Gui. 94 7 28.1 0 8.72 6.2 9 93E+00 1156 16.1% I48 7.1 9.29 6.82 8.80E+01 Plume width (Its 42 7 100-2 29.81 0 8.72 7.4 8.34E+00 9.97 13.5% 2.08 10.06 9.2 7.12 1.04E+02 Hartz. Distance 110 91 3 IDS 31.52 0 872 8.4 7.41E+00 9.04 11996 1.85 12.75 9.15 7.3 1.20E+02 111.1 33.22 0 8.72 9.1 6.77E+00 3.40 11.0% 1.69 15.29 9.11 7.42 1.38E+02 116.6 34.93 0 6 72 9.8 6.28E+00 7 91 10.2% 1.57 17.74 9.08 752 1.57E+02 1221 36.64 0 8.72 l0 5 5.90E+00 7 53 9.5% 1.47 20.12 9.06 759 1.77E+02 1277 38.35 0 0.72 11.1 5.58E+00 7.21 9.0% 1.39 22.45 9,04 7.65 1.98E+02 133.2 40.05 0 8.72 11.6 5.32E+00 6.95 8.696 1.33 24.75 9.03 7.7 2.20E+02 1387 41.76 0 8.72 12.2 5.09E+00 6.72 8.296 1.27 27.02 9.01 7.74 243E+02 144 3 43.47 0 8.72 12.7 4,39E400 6.52 7 9% 1.22 29.2E 9 7.78 2.67E+02 149.8 45 18 0 8.72 13.1 4.71E+00 6.34 7 6% 118 31.52 8.99 7.82 2.92E+02 155,4 46.89 0 8.72 11,6 4.55E+00 6.18 7.4% IL14 33.75 8.98 7.83 3.18E+02 160 9 48.59 0 8.72 14 4 41E+00 6.04 7 1% 1 1 35.97 8.97 7.87 3.46E+02 166.4 50.3 0 8.72 14.5 4.28E+00 5.91 6.9% 1.07 38.19 8.97 7.9 3.74E+01 172.0 52.01 0 8 72 14.9 4.16E+00 5.79 6.7% 1.04 40.4 8.96 7.92 4.03E+02 175.6743 53.54 ® 4.06 5.69 6.55% 424 AiU1EMZBER84042Y55040153 177.6 53.72 0 8.72 15.3 4.05E+00 5.68 6.5% 1.01 42 61 8,95 7.94 4.34E+02 Plume width (ft) 183.1 55.43 0 8.72 15 7 3 95E+00 5 Si 6.4% 0.99 4462 8.95 7.96 4.65E+02 168.7 57.33 0 8.72 16 3.86E+00 5.49 6.3% 0.96 47.04 8.94 7.98 4.98E+02 194.3 58.84 0 8.72 16.4 3 77E+00 5.40 6.1% 0.94 49.25 8.94 8 5.32E+02 199.E 6055 0 8.72 16.8 3.69E+00 5 32 6.0% 0.92 51.46 8.93 8.01 5.66E+02 205.4 62 26 0 8.72 17.I 3.61E+00 5.24 5.8% 0 9 53.68 8.93 8.03 6.02E+02 211.0 63.97 0 8.72 173 354E+00 5.17 5 7% 0.88 55.9 8.92 8.04 6.39E+0I 2263 65.67 0 8.72 17.E 3,47E+00 5.10 5.6% 0.87 58.12 3.92 8.05 6.77E+02 222.1 67.38 0 8.72 18.2 3.41E+00 5.04 5.5% 0.85 60.34 8.92 8.07 7 15E+02 227 7 69.09 0 8.72 18.5 3.34E+00 4.97 5.491 0.83 62.57 8.91 8.08 755E+02 233.3 70.E 0 8.72 18.8 3.29E+00 4.9I 5.3% 0.82 64.8 8.91 8.09 7.96E+02 238.9 72,51 0 8.72 19.1 3.23E+00 4.86 5.2% 0.81 67.04 L91 8.1 838E+02 244.4 74.21 0 8 72 193 3 18E+00 4.81 5.1% 0.79 69.28 8.9 0.11 8.81E+0I 250.0 75.92 0 8 72 19.8 3 13E+00 4.76 5.1% 0.78 7153 8.9 8.12 9.76E+02 255.6 77.63 0 8 72 20.1 3.08E+00 4.71 5.0% 0.77 73.78 8.9 8.13 9.71E+02 I61.2 79.34 0 8.72 20.4 3.03E+00 4.66 4,991 0.76 76.03 8.9 8.14 1.02E+03 266.E 81.05 0 8,72 20.7 2 99E+00 4.62 4.691 0.75 73.29 8.89 815 1.06E+03 272.4 82.75 0 3.72 21 2.95E+00 4.58 4.891 0.74 80.55 8.89 1.15 1.11E+03 278.0 84,46 0 8.72 213 2.91E+00 4.54 4 7% 0.73 82.82 8.29 8.16 1.16E+03 283.5 86.17 0 8.72 21 6 2.87E+00 4.50 4.6% 0.72 85.5 8.89 8.17 1.21E+03 289.1 8738 0 8.72 21.9 3.83E+00 4.46 4.6% 0.71 87.38 8,8E 8.18 1.26E+03 294.7 8959 0 8.72 22.1 2,79E+00 4.42 4591 07 89.66 8.88 838 132E+03 300.3 91.29 0 8.72 22.4 2.76E+00 4.39 4.5% 0.69 91.95 8.88 8.19 I37E+03 305.9 93 0 8.72 22.7 2.73E+00 4.36 4.4% 0.68 94.24 8.88 12 1.43E+03 311.5 94.71 0 8.72 23 2.69E+00 4.32 4.3% 0.67 96.54 828 3.2 1.48E+03 317.2 96.42 0 8.72 23.3 2.66E+00 4.29 43% 0.66 98.84 8.17 8.21 154E+03 322.7 98.13 0 8.72 21.5 2.63E+00 4.26 4.3% 0.66 101.15 8.87 8.22 1.60E+03 328.3 99.83 0 3.72 23.8 2.60E+00 4.23 4 2% 0.65 103.47 8.17 8.22 1.65E+03 333.9 101.54 0 3 72 24.1 257E+00 4.20 4.1% 0.54 105 78 8.87 8.23 1.71E+03 339.5 103.25 0 8 72 243 254E+00 417 4.191 0.64 308.11 8.87 8.23 1.78E+03 345.1 104.96 0 8.72 246 252E+00 415 4.1% 0.63 110.43 8.87 8.24 1.84E+03 350.7 106,67 0 8.72 24.8 2.49E+00 4 32 4.0% 0.62 112.77 1.16 8.24 1.90E+03 356.2 I0137 0 3.72 25.1 2.47E+00 410 4091 0.62 125.11 8.86 8.25 1.96E+03 361.E 130.08 0 1,72 253 2.44E+00 4.07 4.0% 0,61 1I7.45 8.86 8.25 2.03E+03 367.4 111 79 0 8.72 25 6 2.42E+00 4.05 3 9% 0.6 119.1 8.86 1.26 2.10E+03 373.0 113.5 0 8.72 25.E 239E+00 4.02 3.9% 0.6 122.15 8.86 8.26 2.16E+03 378,6 115.21 0 8.72 26.I 237E+00 4.00 3.891 039 1245 8.86 3.27 2.23E+03 384.2 116 91 0 8.72 26.3 2.35E+00 3.9E 3.191 0.59 126.87 8.16 8.27 230E+03 389.E 118.62 0 8.72 26.6 2.33E+00 3.96 3.8% 058 129.23 8.85 8.27 237E+03 395.4 12033 0 8.72 26.E 2.31E+00 3.94 3,7% O38 131.6 8.85 8.2E 2.44E+03 401.0 122.04 0 8.72 27.1 2.29E+00 3.92 3.7% 057 133.98 8.15 1.2E 252E+03 406.6 123.75 0 8.72 27.3 2.27E+00 3.90 3.7% 057 136.3E 8.15 8.29 239E+03 412.2 32505 0 3.72 27.5 2.25E+00 3.11 3.6% 0.56 138.75 3.85 8.29 2.66E+03 417.E 127.16 0 8.72 27,8 2.23E+00 3.36 3.6% 0.56 14314 8.85 8.29 2.74E+03 423 4 123.87 0 8 72 28 2.21E+00 384 3.6% 0.55 14353 8.85 8.3 2.82E+03 429.c 130.58 0 8,72 28.3 219E+00 3.82 3.5% 0.55 145.93 8.85 83 2.90E+03 434.5 132,28 0 8.72 28.5 217E+00 3.80 3.5% 054 148.33 3.85 8.3 2.97E+03 440.2 133.99 0 3.72 28.7 215E+00 3.78 3,591 0.54 I50.74 8.84 8.31 3.05E+03 445 3 135.7 0 1.72 28 9 2 14E+00 3.77 3.5% 033 153 15 1.84 831 3 14E+03 4514 137.41 0 8.72 29.2 2 12E+00 3 75 3451 053 155.57 8.84 8.31 3 22E+03 457.0 139 12 0 3.72 29.4 2 20E+00 3 73 3.4% 033 157.99 8.84 832 330E+03 462 5 140.82 0 8.72 29 6 2.09E+00 3 72 3.4% 0.52 160.4I 8.84 3.32 3.38E+03 468.1 14253 0 8.72 29.8 2.07E+00 3 70 3.4% 052 162.84 8.34 832 3.47E+03 473.7 144.24 0 8.72 30.1 2.06E+00 3.69 3.3% 0.51 165.2E 8.84 833 356E+03 479.3 145.95 0 8.72 30.3 2.04E+00 3.67 3.3% 031 167 72 8.84 3.33 3.64E+03 485 0 147.66 0 8.72 30.5 2.03E+00 3.66 3.3% 051 170.16 8.14 1.33 3 73E+O3 490; 14936 0 8.72 307 2.01E+00 3.64 3.3% 0.5 172.61 8.84 8.33 3.82E+03 496.1 151.07 0 2.72 30.9 2.00E+00 3.63 3.2% 0.5 375.06 814 8.34 3.93E+03 501 7 152.78 0 8 72 31.2 1.99E+00 3.62 3.291 05 17751 8.83 8.34 4.00E+03 507.3 154.49 0 8 72 31.4 1.97E+00 3.60 3.2% 0.49 179.97 3,83 834 4.10E+03 512.9 156.2 0 8.72 316 1.96E+00 3.59 3.2% 0.49 182.43 8.83 8.34 4.19E+03 513.5 157.9 0 3.72 31.8 1.95E+00 3.58 3.1% 0.49 184.9 8.83 835 4.29E+03 524.1 159.61 0 1.72 32 1 93E+00 3.56 3.191 0.48 187.37 8.83 8.35. 438E+03 529.7 16132 0 8,72 32.2 1 92E+00 3.55 3.1% 0,4E 189.85 8.83 835 4.48E+03 535 3 163.03 0 8.72 32.4 191E+00 3.54 3.1% 0.48 19233 8.83 8.35 458E+03 540.9 164.74 0 0.72 32.6 1 90E+00 3.53 3.1% 0.47 194.82 113 836 4.67E+03 546.5 166.44 0 8.72 32.E 1.88E+00 3.51 3.0% 0.47 1973 8.83 836 477E+03 552.1 168.15 0 8.72 331 1.87E+00 3.50 3091 0.47 19979 8.83 836 4.68E+03 557 7 169.86 0 8.72 333 1.86E+00 3.49 3.0% 0.46 202.28 8.33 3.36 4.98E+03 563.3 17157 0 8.72 33.5 1.85E+00 3.48 3 0% 0.46 204.78 8.33 8.37 5.08E+03 568.9 173.28 0 3.72 33.7 1.84E+00 3.47 3.0% 0.46 207.2E 8.13 8.37 5.19E+03 574.5 L74.98 0 8.72 33.9 1.83E+00 3.46 2 9% 0.46 209.79 8.83 8.37 5.29E+03 580.1 176.69 0 872 34.1 1.82E+00 3.45 2.9% 0.45 212.3 8.82 8.37 5.40E+03 585 7 178.4 0 8 72 34.3 1.81E+00 3.44 2.9% 0.45 214.81 8.82 8.37 5.50E+03 591.3 180.11 0 872 343 179E+00 3.42 2.9% 045 21733 8.32 8.38 5.61E+03 596 9 I81.82 0 8 72 34.7 1,78E+00 3.41 2.9% 0.45 219.85 1,82 8.38 5.72E+03 602.5 18352 0 8.72 34.9 1.77E+00 3.40 2.9% 0.44 22238 8.82 8.38 5.83E+03 608.1 185.23 0 8.72 351 176E+00 3.39 2.8% 0.44 224.91 8.82 3.38 5.94E+03 613.7 186.94 0 8.72 35.3 1 75E+00 3.38 2.8% 0,44 227.44 832 8.38 6.06E+03 619.3 188.65 0 8.72 35 5 174E+00 3 37 2.8% 044 229.97 8.82 8.39 6.17E+03 624.9 190.36 0 8.72 35.7 173E+00 3.36 2.891 0.43 23I.5I 8.82 639 6.29E+03 630 5 192.06 0 8.72 35.9 1 73E+00 3,36 2.891 0.43 235.06 8.82 8.39 6.40E+03 636,1 19377 0 8.72 36 172E+00 3.35 2.8% 043 237.6 8.82 8.39 652E+03 641 7 195.48 0 8.72 36.2 171E+00 3.34 2.3% 0.43 240.15 842 8.39 5.64E+03 MEM 0471 497.19 0 8.77 31,4 Cumulative travel time 2.191+00 • 6755.974 3 33 1 7% END OF M00155: WEAKLY DEFLECTEOFACE/80TTOM BEGIN M00156: STRONGLYDEFLECTEDFACE/BOTI PLUME MEE PLUME 1. r; 142.71 8.112 6.99 6.76E+03 eec I : as F.9) SPECIAL 0-FLOWINCNTER-FLOV OR VERTICAL DISCHARGE CASE: THIS FLOW REGION DOES NOT OCCUR. END OF M0D156: STRONGLY DEFLECTEOFACE/BOTTOM PLUME •• End of NEAR•FIELC REGION (NFRI •• EDf,.; OF Di KISARCL iNDUL.k0 MIXIN y: Flume width (h) 1593 Hartz. Distance Ihl 647.0 The Initial plume WIDTH values n the next far -field module wIH be CORRECTED by a factor 3.13 t0 conserve the mass flux In the far-fieidf The correction factor is quite -argil because of the small ambient velocity relative to the strong miring charecteristk of the discharge! This Indicates localized CIRCULATIL REG10N5 and INTERNAL HYDRAULIC JUMPS Width predictions show scontinultie Dilution values should be acceptable Some BOUNDARYOTERACTlO with both banks occurs at end of near -field. The dilution value hi one or more of the preceding tones m•Y t4 I0o b 1b Carelully evaluate results In near -field and check degree of interaction. BEGIN MODIBt: MIXED IME/BOUNINNEL/POS"UPSTREAM WEDGE INTRUSION An UPSTREAMINTRUDING WEDGE Is formed along the sce/pycnoclInt. UPSTREAM WEDGE INTRUSIOMROPERTIE: in bounded channel laterally uniform)' Wedge length • 117104.1 m X-Position of wedge tip • .116907 m Thickness at discharge (end of NFRI 6.02 m (Wedge thickness gradually decreases to tern at wedge Up.) In this case, the upstream INTRUSION IS VERY LARGE- exceeding ID times the local water depth. This may be caused by a very small ambient velocity perhaps In nmbination with large discharge buoyancy. If the ambient conditions are strongly transient (i.e. tidal), then the CORMIX neadystatrpredictions of upstream ntrusion are probably unrealistic. The plume predictions prior to boundary Impingement and wedge formation will be acceptable, however. X Y 2 3 C BV BH ZU ZL TT I97.19 250 8.72 36 4 1.70E+00 6.02 500 10.11 4.09 6.76E+03 Cumulative travel time • 6755.981 sec { 1.88 hrs) Flow is LATERALLY MIXED over the channel width. END OF M00181: MIXED IME/BOUNINNEL/POSSIBLE UPSTREAM WEDGE INTRUSION BEGIN M0D162: PASSIVE AMBIENT MIXING IN STRATIFIED AMBIENT Vertical diffusivity {Initial value) • 3.83E-10 m•l/s Horizontal diffusivity {Initial value) • 4.80E+03 m"2/s Profile definitions: BY • Gaussian d.•sgn(pl/. -46% thickness, measured vertically • or equal to layer depth, if fully mired BH a Gaussian d.•sgn(pI/: -46% had -width, measured hariz0ntalle in Ydirection ZU • upper plume boundary (Z-coordinate). 21 a lower plume boundary (Z-coordinate) 5 • ydrodynam centerline dilution C • centerlineencentratie (includes reaction effects, H ■nyl 77 • Cumulative travel time Plume Stage 2 (bank attached): X Y Z 5 C BV BH ZU ZL TT 197.19 250 8.72 36.4 170E+00 6.02 600 10.11 4.09 6.76E+03 245.22 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 1,16E+04 293.24 250 8.72 36.4 1 70E+00 6.02 500 10.11 4.09 464E+04 341.27 250 8.72 36.4 170E+00 6.02 300 10.11 4.09 1.12E+04 369.3 250 8.72 36.4 170E+00 6.02 500 10.11 4.09 2.60E+04 437.33 250 8.72 36.4 1 70E+00 6.02 500 10.11 4.09 3.06E+04 4E5,36 250 B.72 36.4 170E+00 6.02 500 10.11 4.09 3.56E+04 533.38 250 8.72 36.4 170E+00 6.02 500 10.11 4.09 4.04E+04 581.41 250 872 36.4 170E+00 6.02 500 10.21 4.09 4.52E+04 629.44 250 8 72 36.4 1.70E+00 6.02 500 10.11 4.09 5.00E+04 677.47 250 872 36.4 1.70E+00 6.02 500 10.11 4_09 548E+04 7255 250 8 72 36.4 1.70E+00 6.02 500 10.11 4.09 5.96E+04 773.53 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 6.44E+04 821.55 250 8.72 36.4 1.70E+00 502 500 1011 A09 6.92E+04 86958 250 8.72 364 170E+00 6.02 500 10.11 4.09 7.40E+04 917.61 250 6.72 36.4 1.70E+00 6.02 500 10.11 4.09 7.66E+04 965.64 250 8.72 36.4 1,70E400 6.02 500 10.11 4.09 5.36EW4 2023.67 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 8.84E+04 1061.69 250 8,72 36.4 1.70E400 6.02 500 10.11 4.09 932E+04 2109.72 250 6.72 36.4 1.70E+00 6.02 500 10.11 4.09 9.80E04 1157 75 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 1.03E+05 120578 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 1.08E405 1253.81 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 1.12E+05 1301.83 250 8.72 36A 1.70E+00 6.02 Soo 10.11 4,09 1.17E+05 1349.86 250 8.72 36.4 1.70E+00 5.02 500 10.11 4.09 2.22E+05 1397.89 250 8.72 36.4 2.70E+00 6.02 500 10.11 4.09 1.27E+05 1445.92 250 872 36.4 1.70E+00 6.02 500 10.11 4.09 332E+05 1493.95 250 8 72 36.4 1.70E+00 6.02 500 10.11 4,09 1.36E+05 1541.97 250 8 72 36.4 1.70E+00 6.02 500 I0.I1 4.09 I.41E+05 1590 250 8.72 36.4 1.70E+00 6.02 500 10.11 4,09 1.46E+05 1638.03 250 8.72 36.4 170E+00 6.02 500 10.13 4.09 131E+05 1656.06 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 1.56E+05 1734.09 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 1.60E+05 178211 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 1.65E405 1830.14 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 1.70E+05 1878.17 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 1.75E+05 19262 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 1.80E+05 1974.23 250 5.72 36.4 1.70E+00 6.02 500 10.11 4.09 1.84E+05 2022.26 250 8.72 364 2..70E+00 6.02 500 10.11 4,09 1.89E+05 2070.28 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 2.94E+05 2118.31 250 8 72 36.4 1.70E+00 6.02 500 10.11 4.09 1.99E+05 2166.34 250 8 72 36.4 1.70E+00 6.02 500 10.11 4.09 2.04E+05 2214.37 250 8.72 36.4 1.70E+00 6.02 500 I0.11 4.09 2.08E+05 2262.4 250 8.72 36.4 1.70E+00 6.02 500 10.I1 4.09 2.13E+05 2310.42 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 2.16E+05 2358.45 I50 6.72 36.4 1 70E400 6.02 500 10.11 4,09 2.23E+05 2406.48 250 8.72 36.4 1 70E+00 6.02 500 10.11 4.09 2.26E+05 2454.51 250 872 36.4 1.70E+00 6.02 500 10.11 4.09 232E+05 2502.54 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 237E+05 2550.56 250 8.72 36.4 170E+00 6.02 500 10.11 4.09 2.42E+0S 2598.59 250 8.72 36.4 1.70E+00 6.02 500 10.11 4,09 2.47E+05 2646.62 250 8.72 36.4 170E+00 6.02 500 10.11 4.09 2.52E+05 2694.65 250 8.72 36.4 1.70E440 6.02 500 10.11 4.09 2.57E+05 2743.62 250 8.72 36.4 1.70E400 6.02 500 10.11 4.09 2.61E+05 2790.7 250 5.72 36.4 1.70E400 6.02 500 10.11 4.09 2.66E+05 2838.73 250 872 36.4 170E+00 6.02 500 10.11 4,09 2.71E+05 2886.76 250 8 72 36.4 1 70E+00 6.02 500 10.11 4.09 2.76E+05 2934.79 250 8,72 36.4 1 70E+00 6.02 500 10.11 4.09 2.81E405 2952.82 250 8.72 36.4 170E+00 6.02 500 10.11 4.09 2.85E+05 3030.84 250 6,72 36.4 170E+00 6.02 500 10.11 4.09 2.90E+05 3078.57 250 8.72 36.4 170E+00 6.02 500 10.11 4,09 2 95E+05 3126.9 250 8.72 36.4 170E+00 6.02 500 10,13 4.09 3.00E+05 3174.93 250 8.72 36.4 1.70E400 6.02 500 10.11 4.09 3.05E+05 3222.96 250 8.72 36.4 170E400 6.02 500 10.11 4.09 3.09E405 327099 250 8.72 36.4 1.70E+W 6.02 500 10.11 4.09 3.14E+05 3319.01 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 3.19E405 3367.04 250 8.72 36.4 1.70E400 6.02 500 10.11 4.09 3.24E+05 3425.07 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 3.29E+05 3463.1 250 8.72 364 2,70E+00 6_02 500 10.11 4.09 3.33E+05 3511.13 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 3 38E+05 3559.15 250 872 36.4 170E+00 6.02 500 10.11 4.09 3.43E+05 360718 250 8.72 36.4 170E+00 6.02 500 10.11 4.09 3.48E+05 3655.21 250 8.72 36.4 170E+00 6.02 500 3011 409 333E+05 3703.24 250 8.72 36.4 1 70E+00 6.02 500 1021 4 09 337E+05 3751.27 250 8.72 36.4 1 70E+00 6.02 500 1011 4.09 3.62E+05 3799.29 250 8.72 36.4 170E400 6.02 Sao 10.11 409 3.67E+05 384732 250 8.72 36.4 170E+00 6.02 500 10.1I 4.09 3 72E+05 3895.35 250 8,72 36.4 1.70E400 6.02 500 10.11 4.09 3.77E+05 3943.38 250 8.72 36.4 170E+00 6.02 500 10.11 4.09 3.8IE+05 3991.41 250 8.72 36.4 170E+00 6.02 500 10.11 4.09 3.86E+05 4039.43 250 8.72 36.4 1.70E400 6.02 500 10.11 4.09 3.91E+05 4087.46 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 3.96E+05 4135.49 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 4.01E+05 418352 250 8.72 36.4 1.70E+00 6.02 500 10.11 4,09 4.05E+05 423155 250 8.72 36 4 1 70E+00 6.02 500 10.11 4.09 4.10E+05 427938 250 8 72 36.4 1 70E400 6.02 500 10.11 4.09 4.15E+05 4327.6 250 8.72 36.4 170E+00 6.02 500 10.21 4.09 4.20E+05 4375.63 250 8.72 36.4 170E+00 6.02 500 10.11 4.09 4.25E+05 4423.66 250 8.72 36.4 I 70E+00 6.02 500 10.11 4 09 4.29E+05 4471.69 250 8.72 36.4 170E400 6.02 500 10.11 4.09 434E+05 4519 72 250 8.72 36.4 170E+00 6.02 500 10.11 4.09 4 39E+05 456775 250 8.72 36.4 1,70E+00 6.02 500 10,1I 4.09 4.44E+05 4615 77 250 8,72 36.4 1.70E+00 6.02 500 10.11 4.09 4.49E+05 4663.8 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 433E+05 4711.83 250 8.72 36.4 170E400 6.02 500 10.11 4.09 4.58E+05 4759.36 250 8.72 36.4 1.70E400 6.02 500 10.11 4.09 4.63E+05 4807.89 250 8.72 36A 1.70E+00 6.02 500 10.11 4.09 468E+05 4855.92 250 8.72 36.4 1.70E+00 6.02 500 10.11 4.09 4.73E+05 4903.94 250 8 72 36.4 2.70E+00 6.02 500 10.11 4.09 4.77E+05 4951.97 250 8 72 36.4 1 70E+00 6.02 500 20.11 4.09 4.82E+05 5000 250 a 72 36 4 1 70E400 6.02 500 10.11 4 09 4,87E+05 Cumulative travel ti+ra • 487037.A sec 135.29 hill Note: CORMt% is a steady state model and assumes discharge and ambient conditions do not vary over time. The predicted plume cumulative travel time exceeds 48 hours at this trajectory distance. Keep In mind that ambient and discharge conditions are likely to vary aver terse space and time scales. Predictions et such large space and time scales may be inconsistent with CORMIX modeling uumpdons. Please carefully evaluate your simulation results and limit model iterpretatic to space and time scales consistent with steady state lssumption and ambient hematitation Simulation limit Eased on maximum specified distance • 5000 m. This Is the REGION OF INTEREST limitation. ENO OF MOD162: PASSIVE AMBIENT MIXING iN STRATIFIED DMA EiT CORMIX1 Single Port Discharges End 0 Pr.di_eirr File E.11E•94 Attachment C CORMIX Model Output — Example Validation Run Case 4a: Low Water Level Case "Conservative Pollutant" Type Co = 29.6° C (Effluent Temperature) CORMIX1 PREDICTION FILE: 1.11E+94 CORMIX MIXING ZONE EXPERT SYSTEM Subsystem CORMIX1: Single Port Discharges CORMIX Version 11.OGTD HYDRO1 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)\CORMIX 11.0\HNP006.04a 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 = 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 DRH01= 0.7166 HINT = 8.10 ES =0.3814E-02 DISCHARGE PARAMETERS (metric units) BANK = LEFT DISTB = 250.00 00 = 1.219 AO = 1.167 H0 = 2.13 SUBO = 10.97 THETA= 0.00 SIGMA= 0.00 UO = 0.717 CIO = 0.837 =0.8368E+00 RHOO = 995.7672 DRHOO =0.1962E+01 GPO =0.1928E-01 CO =0.1110E+02 CUNITS= deg,C IPOLL = 1 KS =0.0000E+00 KD =0.0000E+00 FLUX VARIABLES (metric units) 00 =0.8368E+00 MO =0,5998E+00 JO =0.1614E-01 SIGNJO= 1.0 Associated length scales (meters) LQ = 1.08 LM = 5.37 Lm = 77.45 Lb = 16135.78 Lmp = 99999.00 Lbp = 99999.00 NON -DIMENSIONAL PARAMETERS FRO = 4.67 R = 71.68 FLOW CLASSIFICATION 1.11E+47 1 Flow class (CORMIX1) = H4-0 1 1 Applicable layer depth HS = 8.10 1 1 Limiting Dilution S=QA/Q0= 79.27 1 1.11E+47 MIXING ZONE / TOXIC DILUTION / REGION OF INTEREST PARAMETERS CO =0.1110E+02 CUNITS= deg,C 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 Radial Distance X Y Z 5 C R Uc TT 0.0 0 0 2.13 1 1 11E+01 0 61 0.707 0.00E+00 END OF MOD101: DISCHARGE MODULE BEGIN CORJET (MOD110): 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 ZE = 2,13 Profile definitions: 8 = Gaussian 1/e (379c) half -width, normal to trajectory 5 = hydrodynamic centerline dilution C = centerline concentration (includes reaction effects, if any) Uc = Local centerline excess velocity (above amb•!ent) TT = Cumulative travel time Radial Distance X Y Z 5 C B Uc TT 0.0 0 0 2.13 1 1.11E+0I 0.61 0.707 0.00E+00 17.3 5.27 0 2.13 1 1.11E+01 062 0.707 8.19E-02 17.8 5.43 0 2.13 1 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 0707 1.35E+00 21.6 6.57 0 2.19 1 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 8.56E+00 0.92 0.661 3.66E+00 27.1 8.24 0 2.46 1.3 8.38E+00 0.94 0.649 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 7.58E+00 1.03 0.599 5.19E+00 30.2 9.18 0 2.72 1.5 7.44E+00 1.05 0.59 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 0.553 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 6.59E+00 1.16 0.538 7.31E+00 34.0 10.32 0 3.13 1.7 6.48E+00 1.18 0.531 7.61E+00 34.5 10.47 0 3.19 1.7 6.37E+00 1.2 0.524 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 8.52E+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+00 146 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 1.5 0.427 1.35E+01 43.4 13.02 0 4.45 2.3 4,90E+00 1-52 0.422 1.39E+01 43.9 13.16 0 4 52 2.3 4.84E+00 1-54 0.417 1.42E+01 44.6 13.37 0 4.63 2.3 4.75E+00 1.57 0.409 1.48E+01 45.2 13.52 0 4.71 2.4 4,70E+00 1.58 0403 1.52E+01 45.7 13.66 0 4.78 2.4 4.65E+00 1 6 0 398 1.56E+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 4.50E+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 14.54 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 15 51 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 L88 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 2.51E+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 5.52 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 66.2 19.92 0 5.33 3.5 3.21E+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 CORJET (MOD110): JET/PLUME NEAR•FIELD MIXING REG10N BEGIN MOD131: LAYER BOUNDARY/TERMINAL LAYER APPROACH Control volume Inflow: X Y Z 5 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 = 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 r Cumulative travel time Radial Distance X Y Z 5 C BV BH ZU ZL TT 641 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 1.54 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 21.57 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+01 804 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 81 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 M0D131: LAYER BOUNDARY/TERMINAL LAYER APPROACH BEGIN M0D155: WEAKLY DEFLECTED SURFACE/BOTTOM PLUME SURFACE/BOTTOM PLUME into a co -flow (or counter -flow) Profile definitions; BV = Gaussian 1/e (37%) vertical thickness BH = Gaussian 1/e (37%) horizontal half -width, normal to trajectory ZU = upper plume boundary (Z-coordinate) ZL = 'ower plume boundary (Z-coordinate) 5 = hydrodynamic centerline dilution C = centerline concentration (includes reaction effects, if any) TT = Cumulative travel time Radial Distance X Y Z 5 C BV BH ZU ZL TT 87.4 25.97 0 8.1 4.3 2.61E+00 3.45 3.46 8.92 5.47 7.08E+01 92.9 27.68 0 8.1 6.1 1.83E+00 2.42 7.01 8.68 6.25 8 54E+01 98.4 29.39 0 8.1 7.2 1.54E+00 2.04 9 94 8.59 6.55 1.01E+02 103.9 31.1 0 8.1 8.1 1.37E+00 1.81 12.61 8.53 6.72 1.18E+02 109.4 32.8 0 8.1 8.9 1.25E+00 1,65 15,13 8.49 684 1.36E+02 114.9 34.51 0 8.1 9.6 1,16E+00 1,53 17,56 8.47 6.93 1.54E+02 120,4 36.22 0 8.1 10.2 1,09E+00 1.44 19,91 8.44 7.01 1.74E+02 126,0 37.93 0 8.1 10.8 1,03E+00 1.36 22.23 8.42 7,06 1.95E+02 131,5 39.64 0 8.1 11.3 9.80E-01 1.3 24.5 8.41 7,11 2.17E+02 137.0 41.34 0 8.1 11.8 9.37E-01 1.24 26,76 8.4 7,16 2.40E+02 142.6 43.05 0 8.1 12.3 9.01E-01 1.19 28,99 8.38 7.19 2.64E+02 148.2 44.76 0 8.1 12.8 8.68E-01 1,15 31,21 837 7.23 2.90E+02 153,7 46.47 0 8.1 13.2 8,39E-01 1,11 33.42 8 36 7.25 3.16E+02 159,3 48.18 0 8.1 13.7 8.12E-01 1.08 35.62 8 36 7,28 3.43E+02 164,8 49.88 0 8.1 14.1 7.88E-01 1,04 37.82 8.35 7.31 3.71E+02 170.4 51.59 0 8.1 14.5 7.67E-01 1.01 40.01 8,34 7.33 4 01E+02 176.0 53.3 0 8,1 14.9 7.46E-01 0.99 42.2 8.34 7.35 4.31E+02 177.0 53 6 1S 0 42.60 Plume width (ft) 279,57 181.5 55.01 0 8.1 15.3 7.28E-01 0.96 44.39 8.33 7.37 4.63E+02 Horiz, Distance (ft) 175,91 187,1 56.72 0 8.1 15.6 7.10E-01 0,94 46.58 8.32 7.38 4.95E+02 192.7 58.42 0 8.1 16 6.94E-01 0,92 48.78 8.32 7.4 5.29E+02 198.3 60.13 0 8.1 16.3 6.79E-01 0.9 50.97 8.31 7.42 5.64E+02 203.8 61.84 0 8.1 16,7 6.65E-01 0 88 53.16 8 31 7,43 5.99E+02 209.4 63.55 0 8.1 17 6,52E-01 0.86 55.36 8.31 7.44 6.36E+02 215.0 65.26 0 8.1 17.4 6.39E-01 0.85 57,56 8.3 7.46 6.74E+02 220.6 66,96 0 8,1 17.7 6.27E-01 0.83 59.77 8.3 7.47 7.13E+02 226,2 68.67 0 8.1 18 6.16E-01 0.82 61.97 8 29 7.48 7.53E+02 231.7 70.38 0 8.1 18.3 6.05E-01 0.8 64.19 8.29 7,49 7.94E+02 237.3 72.09 0 8.1 18.7 5.95E-01 0.79 66.4 8,29 7.5 8 36E+02 242.9 73.79 0 8.1 19 5.85E-01 0.77 68.62 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 5,59E-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 7.55 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 7.57 1.21E+03 287.6 87.46 0 8.1 21.3 5.21E-01 0.69 86.55 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 8.26 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 1.59E+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 I06.25 0 8.1 24.2 4.59E-01 0.61 111.7 8.24 7.64 1.90E+03 354.7 107.95 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 4.50E-01 0.6 116.34 8.24 7.65 2.03E+03 365.9 111.37 0 8.1 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 0.58 120.99 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 0.57 125.67 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 0.55 135 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 0.54 139.8 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+03 427.5 130.16 0 8.1 27.5 4.03E-01 0.53 144 55 8.23 7.69 2.89E+03 433.1 131.87 0 8,1 27.7 4,00E-01 0.53 146.93 8.23 7.7 2.97E+03 438.7 133.57 0 8.1 28 3.97E-01 0.53 149.32 8.23 7.7 3.05E+03 444.3 135.28 0 8.1 28,2 3,94E-01 0.52 151.7 8.22 7,7 3.13E+03 449.9 136.99 0 8 1 28.4 3.91E-01 0.52 154.1 8.22 7.71 3.21E+03 455.5 138.7 0 8.1 28.6 3.88E-01 0.51 156.5 8 22 7.71 3.30E+03 461.1 140.41 0 8.1 28.9 3.85E-01 0.51 158.9 8.22 7.71 3.38E+03 466.7 142.11 0 8.1 29.1 3.82E-01 0.51 161.31 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 29.5 3.76E-01 0.5 166.13 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 30.1 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 4.00E+03 505.9 154.07 0 8.1 30.6 3.63E-01 0.48 178.27 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 3.58E-01 0.47 183.15 8.21 7.74 4.28E+03 522.7 159.19 0 8.1 31.2 3.56E-01 0.47 185.6 8.21 7.74 4.38E+03 528.3 160.9 0 8.1 31.4 3.54E-01 0.47 188.05 8.21 7.74 4.48E+03 533.9 162.61 0 8.1 31.6 3.51E-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+03 567.5 172.86 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 18652 0 8.1 34.4 3.23E-01 0.43 225.29 8.2 7.77 6.06E+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+03 634.7 193.35 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 35.5 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 M00155t WEAKLY DEFLECTED SURFACE/BOTTOM PLUME BEGIN M00156: 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 HYDRAULIC JUMPS. Width predictions show discontinuities. Dilution values should be acceptable. Same 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 IS 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 21 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 CCRMIXI: Single Part Discharges End of Prediction File 1.11E+94 Attachment D Reservoir Level Meter Data from Primary & Secondary Intake Pump Stations AVERAGE DAILY AVERAGE DAILY Date/TIme 130750A (h) LSC87508 (hJ VALUE USED Date/Ilme L5C8750A (h) L5C87508 (h) VALUE USED 1/1/2015 220.90 220.73 220.62 12/7/2017 •• 217.38 11738 I/2/2015 220.77 220.65 220.7I 12/8/2017 04 217.38 21736 1/3/2015 220.77 220.65 220.71 12/9/2017 •• 217.55 21755 1/4/2015 220.63 220.58 220.61 12/10/2017 6' 217.55 217.55 1/5/2015 220.77 220.65 220.71 12/11/2017 •• 217.54 217.54 1/6/2015 120,63 220.57 220.60 12/12/2017 •• 217.55 2I7.55 1/7/2015 220.64 220.57 220.61 12/13/2017 •• 217.51 217.51 1/e/2015 220.62 220.48 220.55 12/14/2017 •• 217.48 217.48 119/2015 220.57 220.41 220.49 I2/15/2017 •• 217.47 217.47 1/10/2015 220.55 220.40 220,48 I2/16/2017 '• 217.47 217.47 1/11/2015 220.48 220.34 220,41 12/17/20I7 •• 217.46 217,46 1/12/2015 22107 220.90 220.99 12/18/7017 •• 217A5 217.45 1/13/20I5 221.48 221.31 221.40 12/19/2017 •• 217.40 217.40 1/14/2615 221.40 221.23 221.32 12/20/2017 •' 217.46 217.46 1/I5/2015 221.33 221.18 22126 12/21/2017 06 217.46 217.46 1/16/2015 221.22 221.09 221.16 12/22/2017 •• 217.46 217.46 1/17/2015 221.14 220.98 22I.06 12/23/2017 •• 217.46 217.46 1/18/2015 221.16 221,01 221.09 12/24/2017 •• 217.40 217.40 1/19/2015 221.16 221.00 221.08 12/25/2017 •• 217.46 217.46 1/20/2015 221.15 220.98 221.07 12/26/2017 •• 217.41 217.41 1/21/2015 221.06 220.90 220.98 12/17/2017 •' 217.40 217.40 1/22/2015 220.97 220.82 220.90 12/29/2017 •• 217.37 21737 1/23/2015 220.92 220.73 220.83 12/29/2017 •• 21737 I1737 1/24/2015 221.06 220.90 220.98 12/30/2017 •• 217.37 117.37 1/25/2015 22I.08 220.90 220.99 I2/31/20I7 •• 217.32 217.32 1/26/2015 221.05 220.90 220.98 1/1/20I8 44 217.32 217.32 1/27/2015 220.98 220.84 22091 1/2/2018 •• 2I7.30 217.30 1/28/2015 220.91 220.75 220.83 1/3/2018 •• 217.29 217.29 1/29/2015 220.92 220.73 220.83 1/4/2018 •• 217.29 217.29 1/30/2015 220.79 22065 220.72 1/5/2013 •• 217.26 217.26 1/31/2015 220.65 22059 220.62 1/6/2018 •• 217.24 217.24 2/1/2015 120.66 120.57 220.62 1/7/2018 00 217.24 217.24 2/2/2015 220.66 220.57 220.62 1/8/2018 6' 117.24 217.24 2/3/2015 220.66 220.57 220.62 1/9/2018 •• 217.21 217.21 2/4/2015 220.66 22057 220.62 1/10/2018 •' 217.20 217.20 2/5/2015 220.66 220.51 220.59 1/11/2018 •• 217.20 2I7.20 2/6/2015 220.64 220.43 220.54 1/12/2018 •• 217.23 I17.23 2/7/2015 220.58 II0.42 220.50 1/13/2018 •• 217.29 217.29 2/6R015 220.56 220.41 220.49 1/I4/2018 •• 217.29 217.29 2/9/2015 220.50 220.34 220.42 1/I5/2018 '• 217.27 217.27 2/10/2015 220.56 220.41 220,49 1/16/2018 44 217.30 217.30 2/11/2015 220.46 220.33 220.40 1/17/2018 •' 217.30 217.30 2/12/2015 220.49 220.34 220.42 1/18/2018 •• 217.35 217.35 2/I3/2015 220.47 220.32 220.40 1/19/2018 •• 217.37 217.37 2/14/2015 220.48 220.32 I20.40 1/20/2018 •• 21736 217.36 2/15/2015 220.38 220,23 220.31 1/21/2018 '• 217.37 21737 2/16/2015 220.39 210.24 220.32 1/22/2018 •• 217.37 217.37 2/17/2015 220.38 220.23 220.31 1/23/2018 •• 217.37 217.37 2/18/2015 220.39 220.23 220.31 1/24/2018 4' 211.35 217.35 2/19/2015 220.38 220.23 220.31 1/25/2018 217.32 11732 2/20/2015 220.39 220.2I 220.30 1/26/2016 217.38 2I738 2/21/2015 220.31 I20.16 220.24 1/27/2018 •• 21737 21737 2/22/2015 220.32 220.14 220.23 1/28/2018 •• 217,37 I17.37 2/23/2015 220.33 220.16 220.25 1/29/2018 •• 217.65 I17.65 2/14/2015 220.32 220.16 220.24 1/30/20I8 04 217.81 217.81 2/25/2015 220.33 220.16 220.25 1/31/7018 64 217.87 217.87 2/26/2015 220.64 220.46 220.55 2/1/2018 44 217.87 217.87 2/27/2015 220.80 22064 220.72 2/2/2018 •' 217.87 217.87 2/28/2015 220.83 220.70 220.77 2/3/2018 •• 217.87 217.87 3/1/2015 220.91 220.72 220.82 2/4/2018 •• 217.88 217.88 37/2015 221.06 210,89 220.98 2/5/2018 •• 216.06 218.06 3/3/2015 221.07 210.89 220.98 2/6/2018 •• 218.12 118.12 3/4/2015 221.07 220.89 220.98 2/7/2018 94 218.12 218.I2 3/5/2015 220,99 220.80 220.90 2/8/2018 •• 218.15 218.15 3/6/2015 221.26 221.06 221.15 2/9/2018 •• 218.15 218.15 3/7/2015 221.23 221.05 221.14 2/10/2018 •• 218.20 118.20 3/8/2015 221.16 2I0.97 221.07 2/11/2018 218.21 218.21 3/9/2015 221.09 220.89 220.99 2/I2/2018 •• 218.20 218.20 3/10/2015 121.01 220.83 220.92 2/13/20I8 •• 218.20 218.20 3/11/20I5 220.98 220.81 220.90 2/14/2018 •' 218.22 218.22 3/12/2015 220.90 220.72 220.81 2/I5/2018 •' 218.23 218.23 3/13/2015 220.79 220.65 220,72 2/16/2018 •• 218.23 218.23 3/14/2015 2I0.79 220.64 210.72 2/17/2011 '• 218.24 218.24 3/15/2015 220.81 220.64 220.73 2/18/2013 09 218.23 218.23 3/16/2015 220.79 220.64 22072 2/19/2018 •• 218.22 216.22 3/17/2015 220.66 220.58 220.62 2/20/2018 •• 218.23 218.23 3/18/2015 220.66 220.57 220.62 2/21/2018 •• 218.22 218.22 3/19/2015 220.66 220.49 220.58 2122/2013 •' 218.23 216.23 3/20/2015 220.64 220.58 220.61 2/23/2018 •• 218.22 218.22 3/21/2015 220.78 220.64 220.71 2/14/2016 •• 218.I3 218.23 3/22/2015 220.64 II0.58 220.61 2/25/2018 •• 218.22 218.22 3/23/1015 210.66 220.56 220.61 2/26/2018 •• 218.23 218.23 3/24/2015 220.65 220.50 220.58 2/27/2018 •• 216.26 218.26 3/25/2015 220.65 220.47 220,56 2128/20I8 •• 218.23 218.23 3/26/2015 220.64 220.47 220.56 3/I/2018 •• 212.23 218.23 3/27/2015 220.64 220.42 220.53 3/2/2018 '• 2I8.38 218.36 3/28/2015 220.57 220.47 220.52 3/3/2018 •• 218.32 218.32 3/29/2015 220.54 220.39 220-47 3/4/2018 •• 218.35 218.35 3/30/2015 220.55 220.39 220.47 3/5/2018 •• 218.35 218.36 3/31/2015 220.54 220.39 220.47 3/6/2018 •• 218.32 2111.32 4/1/2015 220.46 220.33 220.41 3/7/2018 •4 218.38 216.38 • Zero value reading 0r communication Wore •• Reading not calibrated or meter error • •• No reading avaieabie on this day Date/time 1501750A (hl 4/2/2015 220.48 L5C87508 fft} AVERAGE DAILY VALUE USED Date/Time 220.31 220.40 3/8/2018 413n015 LS1:8750A(hi L5C87508 (ft) 218.39 AVERAGE DARY VALUE USED 218.39 22048 22031 22040 3/9/2013 4/4/2015 4/5/2015 4/6/2015 41712015 4/8/2015 4/9/20I5 4/10/2015 4/11/2015 4/12/20I5 4/13n015 4/14/2015 4/15/2015 220.48 220 42 220.40 220.39 220.39 229.39 221.50 221.50 221.40 221.32 221.18 221.25 218.38 218.38 220.32 220.40 3/10/2013 216.41 218.41 220.23 220.33 3/11/2018 218.38 218.38 I20.23 220.32 3/1212018 2040 218.40 220.23 220.31 3/13/2018 218.55 218.55 220.39 3/14/2018 •' 218.63 218.63 220.39 3/15/2018 •' 218,64 218.64 22150 3/16/2018 •' 218.57 218.57 •• 221.50 3/17/2018 •• 21863 218.63 •• 221.40 3/18/2018 •• 218.63 218.63 221.08 221.20 3/19/2018 •• 218.63 218.63 221.00 221.09 3/20/2018 •• 218.78 218.78 221.08 221.17 3/21/2018 '• 21889 I18.89 4/16/2015 221.14 22114 3/22/2018 •• 218.96 218.96 4/17/2015 • ••• 3/23/2018 60 218.96 218.96 4/18/2015 • ••• 3/24/2018 '• 211.96 218.96 4/19/2015 4/20/2015 4/21/2015 4/22/2015 4/23/2015 4/24n01s 4/25/2015 4/26/2015 4/27/2015 4/28/2015 4/29/2015 4/30/2015 5/1/2015 s/In015 513/2015 5/4/2015 5/5/2015 5/6/2015 5nnols 5/8n015 5/9/2015 5/10n015 5/1112015 •• 09 22I.91 220.97 220.91 220.81 220.80 220.73 220.78 220.79 220.79 220.65 220-68 00 5/12/2015 220.52 5/13/2015 120,49 5/14/2015 220,42 5/15/2015 220,40 5/16/2015 220,40 5/17/2015 220.35 5/18/2015 220.33 5/19/2015 220.33 5/20/2015 22033 5/21/2015 220.26 5/22/2015 220.18 5/23/2015 220.17 5/14/2015 220.15 5/25/2015 220.15 5/26/2015 220.10 5/27/2915 220.03 5n8n015 220,07 S/29/2015 220.01 5/30/2015 220.02 5/31/2015 219.99 6/1/2015 6/In015 6/3/2015 6/4n015 6/5/2015 6/6/2015 6/7/2015 6/8/2015 220.01 219.98 219.97 21992 219.89 219.90 219.90 219.84 6/9/2015 219.84 6/10/2015 219.81 6/I1/2015 219.82 6/I2n015 219.82 6/13/2015 219.75 6/I4/2015 219.75 6/15/2015 219.70 6/16/2015 219.67 6/17/2015 219.68 6/78/2015 219.67 6/19/2015 219.66 6/20/2015 219.66 6/21/2015 219.61 6/22/2015 2I9.61 6/23/2015 6/24/2015 6/25/2015 6/26/2015 2I9.57 2I9.58 219 61 219.57 • • 221.25 221.17 221.03 220.93 220.85 220.82 210.75 220.70 220.66 210.60 220.66 220.66 2I066 220.60 220.59 22053 220.51 220.47 220.43 220.42 220.41 220.36 220.34 220.29 220.26 220.25 220.19 220.17 220.18 220.17 220.10 220.05 220.02 220.00 21995 219.94 219.94 319.92 229.94 2I9.85 219.82 2I9.82 219.81 219.81 219.67 219.68 219.68 21969 219.69 219.69 219.67 219.68 21961 219.59 219.59 219.54 219.52 119.52 219.52 219.51 21951 219.46 219.45 219 41 219.40 213.45 219.441 ••• 3/25/2018 •• 21909 21909 66' 3/26/2018 '• 219.16 2I9.16 221.25 3/27/2013 •• 219.21 219.2I 22117 3/23/2018 '• 219.21 219.21 221.03 3/29/2018 ' • 219.21 219.21 220.93 3/30/2018 0' 219.21 219.21 220.93 3/31/2018 •• 21921 219.21 220.90 4/1/2018 '• 219.22 219.22 229.33 4/2/2018 219.22 219.22 210.76 4/3/2018 •• 219.22 219.21 220.73 4/4/2018 •• 219.22 219.22 220.67 4/5n018 •• 219.17 219.17 220.72 4/6/201B •• 219.17 219.17 220.73 4/7/2018 •• 219.22 219.22 220.73 4/8/2018 •• 2I9.30 219.30 220.63 4/9/2018 '• 2I9.31 219.31 220.64 4/10/2018 •• 219.30 219.30 220.53 4/11/2018 •• 219.32 219.32 220.51 4/12/2018 •• 219.37 219.37 220.47 4/13/2018 •• 219.36 219.36 220.43 4/14/2018 •• 219.37 219.37 220.42 4/15/20I8 '• 219.37 219.37 220.41 4/16/2018 '• 220.80 220.80 220.44 4/17/2018 '• 220.80 220.80 220.42 4/18/2018 220.81 220.81 220.36 4/19/2018 40 220.33 4/20/2018 220.67 220.67 220.33 4/21/2018 220.65 220.65 220.27 4/22/2018 220.58 220.58 220.25 4/23/2018 220.56 220.56 220.26 4/24/2018 220.58 u0.s8 220.25 4/25/2913 2I0.58 22058 220.18 4/26/2018 220.56 220.56 220.12 4/27/2018 220.10 220.53 220.53 4/28/2018 220.48 220.48 220.08 4/29/2018 220.44 220.44 220.05 4/30/2018 220.02 220.01 220.00 219.98 219.94 219-91 219.92 219.90 219.89 220.40 220.40 5/1/2018 220.34 220.34 5/2/2018 220.31 220.31 5/3/2018 220.32 220.32 5/4/2018 220.26 I20.26 5/5/2018 220.24 220.24 5/6/2018 220.24 220.24 5/7/2018 220.18 229.18 5/8/2018 220.15 220.15 5/9/2018 220.17 220.17 219.80 5/10/2018 220.17 220.17 219.79 5/11/2018 220.16 220.16 219.79 5/12/2018 219.80 219.77 220.17 220.17 5/13/2018 5/14/2018 00 220.10 220.10 220.06 220.06 219.77 5/15/2018 Oa 229.07 220.07 219.74 5/16/2018 220.02 220.02 219.75 5/17/2018 220.00 220.00 219.72 5/18/2018 219.99 219.99 219.67 5/19/2018 06 I19.92 219.92 219,67 5/20/2018 011 219.93 219.93 219,62 5/21/2018 00 219 94 219.94 219,60 5/22/2018 219,60 220.06 220.06 5/23/2018 00 219.99 219.99 219-60 5/24/2018 21959 00 219.98 219.98 5/25/2018 219.93 219.93 219.59 5/26/2018 219.54 5/27/2018 219.53 5/I8/2018 211.49 5/29/2018 219.49 5/30/2013 219.53 5/3I/2018 21949 6/27/2015 21160 I1S,45 2105 6/28/2015 22007 219.92 220,00 6/29/2015 6/30n015 71112015 220.08 22P.02 220.02 219.92 21985 219.83 229..60 219.94 21993 211.90 219.90 211.93 219.93 211.80 21992 220.00 229.14 219.80 219-92 220.00 220.14 6/In018 _ 6/2n01B 6/3/2018 6/4/2018 6/5/2018 6/6/2018 011 2I0.18 22018 22016 22 .16 22017 22037 224.18 220.38 22009 220.09 220.06 2068 • Zero value reading or lommuricatlon failure • • Reading not calibrated or meter error ••• No reading available on this dal. AVERAGE CAM AVERAGE DAILY O wate/]Ime 1SC8750AIftp LSC87508{fq VALUEUSED Date/lime 15C8750A(fq L5C87508lk115 1 VALUE 7RR015 219.99 219.82 219.91 6/7/2018 •• 220.06 220.06 7/3/2015 220.08 219.94 220.01 6/6/2018 •• 219.92 219.92 7/4/2015 220,02 219.85 I19.94 6/9/2018 •• 219,99 219.99 7/5/2015 220.08 219.92 22000 6/10/2018 •• 219.96 219.96 7/6/2015 220.10 219.94 220.02 6/11/1018 •• 219.94 219.94 700015 220.08 219.95 220.02 6/I2/2018 •• 219.91 219.91 7/8/2015 220.08 219.95 220.02 6/I3/2018 •• 219.90 219.90 7/9/2015 220.02 21986 219.94 6/14/2015 •• 219.91 219.91 7/10/2015 220.00 219.83 219.92 6/15/2018 •• 2094 21984 7/11/2015 220.01 219.84 219.93 6/I6/20I8 •• 219.81 219.61 7/12/2015 2I9.93 219.70 219.82 6/I7/2018 •• 219.81 219.81 7/13/2015 219.93 219,69 219.81 6/18/I018 •• 219.68 219.68 7/14/2015 219.99 119.81 I19.91 6/19/2018 •• 219.70 219.70 7/15/2015 219.94 219.69 219.82 6/20/2018 •• 239.69 119.69 7/16/2015 219.92 219.70 219.81 6/21/2018 •• 219.69 219.69 7/17/2015 219.91 219.71 219.61 6/22/2015 •• 219.69 219.69 7/I8/20I5 219.91 219.70 219.81 6/23/2018 •• 219.68 2I9.68 7/19/2015 220.02 219.95 2I9.99 6/24/2018 '• 219.67 219.67 7/20/2015 220.02 229.82 2I9.92 6/25/2018 •• 219.58 219.58 7/21/2015 220.01 2I9.8I 219.92 6/I6/2018 •• 219.57 219.57 7/22/2015 220,01 219.83 219.92 6/27/2018 •• 219.59 I19.59 7/23/2015 219.94 219.69 I19.82 6/28/2018 •• 219.57 219.57 704/2015 220.00 219.82 219.91 6/19/2018 •• 219.58 219.58 7/25/2015 219.93 219.69 219.81 6/30/2018 •• 219.52 219.52 7/26/2015 219.93 219.70 219.82 7/1/2018 •• 219.52 219.52 7/27/2015 119.91 219.70 219.81 7/2/2018 •• 219.50 21950 7/18/2015 •• 219.70 219.70 7/3/2018 '• 219.50 219.50 7/29/2015 •• 219.68 219.68 7/4/2018 •• 219.45 219.45 7/30/2015 •• 219.68 219.68 7/5/2018 •• 219.50 219.50 7/31/1015 218.65 219.62 219.14 7/6/20I8 •• 219.50 219.50 8/1/2015 218.58 119.59 219.09 7P/2018 •• 219.49 219.49 e/2/2015 218.68 119.53 219.11 7/8/1018 •• 219.49 219.49 8/3/2015 218.65 219.51 219.011 7/9/2018 •• 219.43 219.43 8/4/2015 218.63 219.51 219.07 7/10/2018 •• 219.43 219.43 8/5/2015 218.57 219.46 219.02 7/11/2018 •• 2I9.44 219.44 8/6/2015 2056 219.46 219.02 7/12/2018 •• 219.39 219.39 8/7/2015 218.59 219.46 219.03 7/13/2018 219.38 229.38 8/8/2015 218.56 219.40 218.98 7/14/2018 219.38 2I9.38 8/9/2015 218.55 I19.38 2I8.97 7/15/2018 219.35 219.35 8/10/2015 218.55 2I9.35 218.95 7/16/2018 • • 219 32 219.32 8/11/2015 218.54 219.35 218.95 7/17/2018 •• 219.32 219.32 8/12/2015 218.54 219.34 218.94 7/18/2018 •• 219.32 I19.32 8/13/2015 218.51 219.32 218.92 7/19/2018 •• 219.32 219.32 8/14/2015 218.55 21933 218.94 7/20/200 •• 219.26 219.26 8/15/2015 216.54 219.27 218.91 7/21/2015 •• 219.23 219.23 8/16/2015 218.50 219.25 218.88 7/22/2018 •• 219.23 219.23 6/17/2015 218.46 219.25 218.86 7/23/2018 •• 219.33 219.33 8/18/2015 218.48 219.19 218.84 7/24/2018 •• 219.36 219.36 6/19/2015 218.50 219.24 218.87 7/25/2038 •• 219.36 219.36 8/20/2015 2I8.54 219.35 218.95 7/26/20I8 •• 219.36 219.36 8/21/2015 218.57 219.35 218.96 7/I7/2018 •• I19.33 219.33 8/22/20I5 218.55 219.32 218.94 7/28/100 •• 219.43 219.43 8/23/2015 218.54 219.32 218.93 7/29/2018 •• 219.43 219.43 8/24/2015 218.54 119.28 216.91 7/30/2018 •• 2I9.42 219.42 8/25/2015 218.49 219.26 218.88 7/31/2018 •• 219.43 219.43 8/26/2015 218.50 219.15 21888 8/1/2018 •• 219.43 219.43 8/27/2015 218.44 219.19 218.62 8/2/2018 • • 219.43 219.43 8/28/2015 218.42 219.16 2I8.79 8/3/2018 " 219.50 2I9.50 8/29/2015 218,43 219.16 218.80 8/4/2018 •• 219.91 219.91 8/30/2015 218.34 219.10 218.72 8/5/2018 •• 219.92 219.92 8/31/2015 21949 219.24 218.87 8/6/2018 •• 219.91 219.91 9/1/2015 218.51 219.23 218.87 8P/1018 •• 219.91 219.91 9/2/2015 21647 219.25 218.86 9/1/2018 •• 219.91 219.91 9/3/2015 218.48 219.24 218.86 8/9/2018 •• 219.97 219.97 9/4/2015 218.46 219.18 218.82 8/10/2015 •• 219.99 219.99 9/5/2015 218.44 219.16 218.80 6/11/2018 •• 219.94 219,94 9/6/2015 219.15 219.15 8/12/2018 •• 219.91 219.91 9/7/2015 219.15 219.15 8/13/2018 •• 219.92 219.92 9/8/2015 219.09 219.09 8/14/2018 219.94 219.94 9/9/20I5 219.10 219.10 8/15/2018 •• 219.98 219.98 9/I0/2015 219.10 219.10 8/I6/2018 •• 219.93 219.93 9/11/2015 219,07 219.07 8/17/2018 •• 219.93 219.93 9/12/2015 219.07 219.07 8/18/2018 •• 2I9.92 219.92 9/13/2015 119.01 219.01 8/19/2018 •• 220.40 220.40 9/14/2015 216.98 216.98 8/20/2018 •• 220.56 220.56 9/15/2015 218.93 2093 8/21/2018 •• 220.59 220.59 9/16/2015 218.91 218.91 8/22/2018 •• 220.59 220.59 9/17/2015 218.90 2I8.90 8/23/2018 '• 220.50 2I0.50 9/18/2015 218.91 218.91 8/24/2018 •• 220.47 220.47 9/19/2015 2I8.84 218.84 8/25/2018 '• 220.40 220.40 9/20/2015 • 218.82 218.82 8/26/2018 •• 220.34 220.34 9/21/2015 218.82 218.82 8/27/2018 •• 220.32 220.32 9/22/2015 218.75 218.75 8/28/2018 •• 220.26 220.26 9/23/2015 218.73 218.73 8/19/2016 •• 220.23 220.23 9/24/2015 2067 218.67 8/30/2018 •• 120.18 220.18 9/25/2015 218.74 218.74 8/31/2018 •• 220.18 220.18 9/26/2015 218.80 218.80 9/1/2028 •• 220.16 220.16 9/27/20I5 218.80 218.80 9/2/2018 •• 220.06 220.06 9/28/2015 218.80 218.80 9/3/2018 •• 220.05 2I0.05 9/29/2015 218.83 21883 9/4/2018 •• 220.07 220.07 9/30/2015 218.83 218.83 9/5/2018 220.07 220.07 • Zero value reading or communication failure •• Reading not calibrated or meter error ••• No reading available on this day Date/Time 1.5C8750A Iftl LSC87508 (ft) 10/1/2015 • 218.82 AVERAGE DAILY VALUE USED 218.82 Date/7Irne 9/6/2018 L5C8750A Iftl L5C87508 (ft) 21999 AVERAGE DAILY VALUE USED 219.99 10/2/2015 • 118.98 218.91 9/7/2018 " 219.93 219.93 10/3/2015 • 219.51 219.51 9/8/2013 •• 219.93 219.93 10/4/2015 218.97 219.67 219.32 9/9/2018 •• 219.93 219.93 10/5/2015 219.03 219.67 219.35 9/10/2018 •• 219 92 219.92 10/6/2015 218.99 219.68 219.34 9/11/2018 •• 21992 219.92 10/7/2015 218.99 219.68 219.34 9/12/2013 •• 220.00 220.00 10/8/2015 2I8.99 219,67 219.33 9/I313013 •• 219.92 219.92 10/9/2015 2I8.99 219.68 219.34 9/14/2013 '9 21992 219.92 10/10/2015 219.01 219.68 219.35 9/15/2018 •• 220.53 220.53 10/11/2015 219.07 219.81 219.44 9/16/2018 •• 221 12 221.12 10/12/2015 219.09 219.80 219.45 9/17/2913 " 223 15 223 15 10/13/2015 219.08 219.81 219.45 9/18/2018 •• 222.98 222 98 10/14/2015 219.07 219.80 219.44 9/19/2013 •• 222.65 22265 10/15/2015 219.03 219.67 219.35 9/20/2918 •• 22233 222.33 10/16/2015 219.01 219.67 219.34 9/21/I018 •• 222.06 222.06 10/17/2015 218.99 219.68 219.34 9/22/2018 •4 221.83 221.83 10/18/2015 218.99 219.68 219.34 9/23/2018 22165 221.65 10/19/2015 218.97 219.68 21933 9/24;2018 04 22148 221.48 10/20/2015 218.96 219.67 219.32 9/25/2018 •• 22131 22131 10/21/2015 218.93 219.65 219.29 9/26;2018 •• 22114 221.14 10/27/2015 211.95 219.65 219.30 9/27)2018 •• 221.06 221.06 10/23/2015 218.92 219.65 219.29 9/28/2018 •• 221.14 221.14 10/24/2915 218.87 219.65 219.26 9/29/2018 •• 221.01 221.01 10/25/2015 218.89 21960 21925 9/30/2018 •• 220.97 220-97 10/26/2015 218.86 219.51 219.19 10/1/20I8 09 220.82 220.82 10/27/2015 218.86 219.57 219.22 10/2/2018 •• 220.74 220.74 10/28/2015 • 400 10/3;20I8 220.66 220.66 10/29/2015 218.95 219.67 219.31 10/4/2018 '• 220.65 220.65 I0/30/2015 21194 219.68 219.31 10/5;20I8 '• 220.57 220.57 I0/31/2015 218.95 219.68 219.32 10/6/20I8 220.48 220.48 I1/1/2015 218.91 219.55 219.21 10/7/2018 •• 220.42 220.42 II/2/2015 219.16 219.93 219.55 10/8/2013 04. 220.39 220.39 II/3/2015 219.68 220.48 I20.01 10/9.2018 •• 220.31 220.31 II/4/2015 219.68 220.57 220.13 10/10/2018 •9 220.31 220.31 11/5/2015 219.75 220.57 220.16 10/11/2018 •• 220.31 22031 11/6/2015 219.72 220.57 220.15 10/121011 •' 221.13 221.13 11/7/2015 219.86 220.67 220.27 10/131018 221.06 221.06 11/8/2015 219.97 220.76 220.37 10/14/2011 •• 220.97 220.97 11/9/2015 219.95 220.76 220.36 10/151018 •• 220.88 220.88 11/I0/2015 220.49 221.31 220.91 10/16/2015 40 220.80 220.80 11/11/2015 220.49 221.32 220.91 10/11/2018 220.71 220.71 11/12/20I5 220.41 221.25 220.34 10/18;2018 90 220.63 220.63 11/13/2015 220.32 221.14 220.73 10/19/2018 '• 220.57 220.57 11/14/20I5 220.20 221.01 220.61 10/201018 •' 220.48 220.48 11/15/20I5 220.12 220.93 220.53 10/21/2018 •• 220.42 220.42 11/16/20I5 220.07 220.84 220.46 10/22/2018 4' 220.37 220.37 11/17/2015 219.98 220.73 220.36 10/23/2018 •• 220.31 220.31 11/18/2015 219.90 220.67 220.29 10/24/2018 •• 220.29 220.29 11/19/2015 220.06 220.90 220.48 10/25/2018 •• 220.22 220.22 11/20/2015 220.20 210.98 220.59 10/26/2018 •• 220.22 220.22 11/21/2015 220.13 220.99 221152 10/27/2018 94 210.38 220.38 11/22/2015 220.05 220.82 220.44 10/28/2018 220.37 220.37 11/23/2015 •' 220.74 220.74 10/29/2013 •• 220.32 220.32 21/24/2015 219.87 220-67 220.27 10/30/2018 •• 220.29 220.29 11/25/2015 219.85 220.64 220.25 10/31/1018 220.30 220.30 11/26/2015 219.72 220.57 220.15 11/1/2018 •• 220.23 220.23 11/27/2015 219.73 220.50 220.22 11/2/2018 •• 220.24 220.24 11/28/2015 219.73 220.48 220.11 11/3/2013 •• 220.21 220.21 11/29/2015 219.66 220.42 220.04 11/4/2013 •• 220.15 220.15 11/30/2015 219.66 220.41 220.04 11/5/2018 •• 220.21 220.21 12/1/2015 219.65 220.40 220.03 11/6/2013 •• 220.21 220.21 12/2/2015 219.63 220.40 220-02 11/7/2018 1.9 220.21 220.21 12/3/2015 219.63 220.40 220.02 11/8/2018 '• 220.18 220.18 12/4/2015 219.58 220.40 219.99 11/9/2018 •• 220.14 220.14 12/5/2015 219.55 220.3I 219.93 11/10/2013 •6 220.13 220.13 12/6/2015 219.56 220.31 219.94 11/11/2018 •• 220.08 220.08 12/7/2015 219.47 220.26 219.87 11/12/2018 •• 220.05 220.05 12/812015 219.46 220.23 219.85 11/13/2013 '• 221.85 221.35 11/9/2015 219.46 220.24 219.85 11/14/2013 •• 221.88 221.88 12/10/2015 219.46 220.23 219.85 11/I5/2018 60 221.37 221.87 12/11/2015 219.41 220.17 219.79 11/I6/2018 " 222.00 222.00 12/12/2015 21940 _ _ 220.18 219.79 11/17/201B •• 221.88 221.88 12113/2015 219.38 220.17 .... 219.78 11/18/2018 22171 221.71 12/14/2015 219.38 129.18 219.71 11/19/2018 221.55 221.55 12/15/2015 219.39 220.15 219.77 11/20/2013 221.38 221.38 12/16/2015 219.39 220.15 219.77. 11/2I/201/1 22L23 221.23 12/17/2015 219.38 129115 219.77 11/22/2018 22114 221 14 12/18/2015 21f15 22123 _ 219.84 11/23/2018 220.99 220.99 12/19/2015 211.48 220.25 2161.87 11/24/2013 220.98 220.93 12/20/2015 219.48 22023 219.86 11/25/2018 221.05 22105 12/21/2015 219.49 22013 _ 21986 11/26R018 220.98 220.98 12 015 211.59 22811 219.95 1I/27/2018 220.91 220.91 12/23/2015 220.00 21011 _ 22041 I1/21/2018 220.10 22010 12/24/2015 220.64 221.42 22/.03 II 29/2011 220.73 220.73 12/25/2015 - _ 220.62 222.40 221.01 11/30/2018 229.71 220.71 12/6/2015 220.55 221.31 22093 12/1/2013 •• 220.83 220.63 12 27/2015 220.46 221.21 22015 12/2/2018 •• 220.71 220.71 12/28/2015 229.38 221.03 _ 220.71 I2/3/2018 4O I20.71 220.71 12/29/2015 _ 220.32 221912 220. - . 124 2018 1iO4+ 12/30/2015 229.26 2I205 220.16 12/5/2018 •• 220166 21088 • Zero value reading or cammurication failure •• Reading nat calibrated or meter error ••• Na reading available on this dry AVERAGE DAILY AVERAGE DAILY Date/rime LSC8750A Ih1 L5137501 fh1 VALUE l]S6D Date/7ime t3C87504 (lt) tst 7508 (ftf VALUE USED 12/31/2015 220.81 221.62 221.22 I2/6/2018 •• 210.55 220.55 1/1/2016 220.93 221.73 221.33 I2/7/2018 •• 220.47 220.47 1/2/2016 220.80 221.59 221.20 12/8/2018 •• 22046 220.46 1/3/2016 220.69 221.48 221.09 12/9/2018 •• 220.47 220.47 1/4/2016 220.52 221.31 220.92 12/10/2018 •• 22L14 121.14 1/5/2016 220.36 221.18 220.77 12/11/2018 •• 221.30 221.30 1/6/2016 220.27 221.07 220.67 12/12/2018 •• 221.22 22L22 1/7/2016 220.22 220.98 220.60 12/13/2018 •• 221.15 221.15 1/8/20I6 220.10 220.91 220.51 12/14/2018 •• 221.07 2I1.07 1/9/2016 220.04 220.82 22043 12/15/2018 00 221.47 221.47 1/10/2016 220.01 220.84 220.43 12/16/2018 •• 221.55 221.55 1/13/2016 219.95 220.73 220.34 12/17/2018 •• 221.46 221.46 1/12/2016 219.85 220.67 220.26 12118/20/8 •• 221.32 221.32 1/13/2016 219.84 220.66 220.25 12/19/2018 •• 221.22 221.22 1/14/2016 219.72 220.57 220.15 12/20/2018 •• 221.14 221.14 1/15/2016 219.73 220.51 220.12 12/21/2018 •• 221.17 221.17 1/16/2016 219.73 220.66 220.20 12/22/2018 •• 221.12 221.12 1/17/2016 219.71 220.59 220.15 12/23/2018 •• 221.04 221.04 1/15/2016 219.76 220.57 220.17 I2/24/2018 •• 220.96 220.96 1/19/2016 219.77 220.49 220.13 12/25/2018 •• 220.88 220.88 1/20/2016 219.75 220.48 220.12 12/26/2018 •' 220.79 220.79 1/21/2016 219.68 220.42 220.05 12/27/2013 •• 220.71 220.71 1/22/2016 219.65 220.41 220.03 12/28/2018 •• 220.71 220.71 1/23/2016 219.77 220.48 I20.13 12/29/2018 •• 220.8E 220.88 1/24/2016 219.73 220.47 220.10 12/30/2018 •• 22082 220.82 1/25/2016 219.75 220.47 120.11 12/31/2018 •• 220.80 220.80 11261201E 219.75 220.50 220.13 1/1/2019 •' 220.80 I20.80 1/27/2016 219.77 220.50 220.14 1/2/2019 •• 220.71 220.71 1/28/2016 219.76 22050 220.13 1/3/2019 •• 220.71 220.71 1/29/2016 219.76 220.50 220.13 1/4/2019 •• 220.71 220.71 1/30/2016 219.75 220.48 220.12 1/5/2019 •• 220.96 220.96 1/31/2016 219.73 220.48 220.11 1/6/2019 •' 220.90 220,90 1/1/2016 219.65 220.43 220.04 1/7/20I9 •• 220.83 220.83 2/2/2016 2I9.63 220.41 220.02 1/8/2019 •• 220.10 220.80 2/3/2016 219.64 220.41 220.03 1/9/2019 •• 220.74 220.74 2/4/2016 220.06 220.82 220.44 I/10/2019 •• 220.65 220.65 2/5/2016 220.19 220.99 120.59 1/11/2019 •• 220.64 220.64 2/6/2016 220.19 22099 220.59 1/12/2019 220.55 220.55 2/7/20I6 220.10 220,91 220.51 1/13/2019 •• 220.63 220.63 2/8/20I6 220.06 220,84 2I0.45 1/14/2019 220.70 220.70 2/9/2016 220.05 220.82 220.44 1/15/2019 •• 220.71 220.7I 2/10/2016 219.98 220.75 220.37 1/16/2019 •• I20.65 220.65 2/11/2016 219.95 220.72 220.34 1/17/2019 •• 220.63 220.63 2/12/2016 219.33 220.65 220.24 1/18/2019 •• 220.63 220.63 2/13/2016 220.59 220.59 1/19/2019 •• 220.55 220.55 2/14/2016 • 220.57 220.57 1/20/2019 •• 220.63 220.63 2/15/2016 • 220.51 220.51 1/11/2019 •• 220.64 220.64 2/1E/2016 • 220.81 220.81 1/22/2019 •• 220.63 220.63 1/17/2016 • 221.00 221.00 1/23/2019 •• 220.55 220.55 2/18/2016 • 220.99 220.99 1/24/2019 •• 220.63 220.63 2/19/2016 • 220.91 22091 1/25/2019 •• 220.7I 220.71 2/20/2016 22014 220.84 I/26/2019 •• 220.71 220.71 2/21/2016 220.82 120.82 1/27/2019 00 220.66 220.66 2/22/2016 120.73 220.73 1/273/2019 •• 220.64 220.64 2/23/20I6 220.73 220.73 1/29/2019 •. 220.55 220.55 2/24/2016 220.69 220.69 1/30/2019 •• 220.55 220.55 2/25/2016 22084 120.84 1/31/2019 •• 220.49 22049 2/26/ 016 220.82 22082 2/1/2019 •• I20.49 220.49 2/27/2016 220.75 220.75 2/2/2019 •• 220.47 220.47 2/28/2016 220.73 220.73 2/3/2019 •• 220.39 220.39 2/29/2016 • 220.67 220.67 2/4/2019 •• 120.39 220.39 3/1/2016 220.65 22065 2/5/2019 •• 220.39 220.39 3/2/2016 220.57 220.57 2/6/2019 •• 220.31 220.32 3/3/2016 220.51 220.51 2/7/2019 •• 220.32 220.32 3/4/2016 220.41 220.48 2/8/20I9 •• 220.30 220.30 3/5/1016 220.48 220.48 2/9/I019 •• 220.25 220.25 3/6/2016 220.41 220.41 2/I0/2019 •• 220.23 220.23 3/7/2016 220.41 220.4I 2/11/2019 •• 220.22 220.22 3/8/2016 220.41 220.41 2/12/2019 •• 220.22 220.22 3/9/2016 220.34 220.34 2/13/2019 '• 220.23 220.23 3/I0/20I6 220.31 220.32 2/14/2019 •• 220.24 220.24 31111201E 220.32 220.32 2/15/2019 •• 220.22 220.22 3/12/2016 120,26 220.26 2/16/2019 •• I20.39 220.39 3/13/2016 220.24 I20.24 2/17/2019 •• 220.50 220.50 3/14/2016 220.23 220.23 2/18/2019 •• 220.65 220.65 3/15/2016 220.24 220.24 2/19/2019 40 220.65 220.65 31161201E 220.18 220.18 2/20/2019 •• 220.73 220.73 3/17/2016 220.19 220.19 2/21/2019 •• 2I0.88 220.88 3/13/2016 220.17 220.17 2/22/2019 •• 221.10 221.10 3/19/2016 220.07 220.07 2/23/2019 •• 2I1.49 221.49 3/20/2016 220.06 220.06 2/24/2019 •• 221.72 221.72 3/21/2016 220.05 220.05 2/25/2019 •• 22I.65 221.65 3/22/2016 220.07 220.07 2/26/2019 •• 221.47 22147 3/23/2016 220.03 220.03 2/27/2019 •• 221.40 221.40 3/24/2016 220.00 220.00 2/38/2019 •• 221.29 221.29 31251201E 219.98 219.98 3/1/2019 •• 221.12 221.12 3/26/2016 119.93 219.93 3/2/2019 40 221.29 221.29 3/27/2916 219,98 219.98 3/3/I019 •• 221.23 221.23 3/28/2016 220.17 220.17 3/4/2019 40 221.47 221.47 3/29/2016 220.17 220.17 3/5/2019 •• 221.41 221.41 3/30/2016 220.17 220.17 3/6/2019 00 221.33 221.33 • Zero value reading or communication failure •• Reading not calibrated or meter error ••' No reading available an this day Date/Time 3/31/2016 LSC8750A1h► LSC875084hj • 220.16 AVERAGE DAILY VALUE USED Date/llme 220.16 3/7/2019 LSC8750A(hi LSC87506jh► 221.24 AVERAGE GAILY VALUE USED 2I1.24 4/1/2016 120.I6 220.16 3/812019 4/2/2016 220.09 121.14 221.I4 220.09 3/9/2019 221.04 221.04 4/3/016 120.08 220.08 3/10/2019 4/4/2016 220.08 220.99 220.99 220,08 3/11/2019 220.91 220.9I 4/5/2016 119.98 219.98 3/12/2019 4/6/2016 119.98 220,83 220-13 219,98 3/13/2019 4/7/2016 4/8/2016 219.98 219.98 119.97 219.97 4/9/2016 219.94 219.94 4/10/2016 219.92 219.92 4/11/2016 219.93 21993 A/12/2016 219.91 219.91 4/13/2016 219.92 219.92 4/14/2016 A/15/2016 219.94 219.94 219.91 219.91 4/16/2016 219.86 21986 4/17/2016 119.91 219.91 4/18/2016 219.85 219.85 4/19/2016 219,84 219.84 4/I0/2016 219.62 21912 4/21/2016 4/22/2016 219.82 219.82 219.81 219.81 4/23/2016 219.91 219.91 4/24/2016 219.91 219.91 4/25/2016 219.91 219.91 4/26/2016 219.92 219.92 4/27/2016 219.85 21915 41I8/2016 219,64 21984 4/29/2016 219.93 219.93 4l30/2016 219.91 219.92 5/1/2016 219.92 219.92 5/2/2016 219,93 219.93 5/3/2016 219.99 219.99 5/4/2016 2I0 26 220-26 5/5/2016 220.25 220.25 5/6/2015 220.52 220.52 5/7/2016 220,62 220.62 5/8/2016 220,58 220.58 5/9/2016 22052 220.52 5/10/2016 220.50 220.50 5/11/2016 220,44 220.44 5/12/2016 220,41 220.41 5/13/2016 220.35 220.35 5/14/2015 220.33 220.33 5/15/2016 220.27 220.27 5/16/2016 220,24 220.24 5/I7/2016 220.19 220.19 5/18/2016 5/19/2016 220.18 220.18 220.18 220.18 5/I0/2016 220.18 220.18 5/21/2016 5/22/2016 220.18 220.18 220.18 220.16 5/23/2016 220.18 220 18 5/24/2016 220.17 220.17 5/25/2016 220.16 220.16 5/26/2016 220.10 220.10 5/27/2016 220.06 220.06 5/28/2016 220.06 220.06 5/29/2016 5/30/2015 219.98 219.98 220.24 220.24 5/31/2016 220.24 220.24 6/1/2016 220,24 220.24 6/2/2016 220.24 220.24 6/3/2016 220.19 220.19 6/4/2016 220.17 220.17 6/5/2016 220.17 220.17 6/6/2016 220.25 220.25 617/2016 220.24 220.24 6/8/2016 220,80 220.80 3/14/2019 220.73 220.73 3/15/2019 220.71 220.71 3/16/2019 220,64 220.64 3/17/2019 220.56 220,56 3/18/2019 220.55 220.55 3/19/2019 3/20/2019 3/21/2019 40 f. f. 220.47 220.47 22039 22039 220.41 220.41 3/22/2019 3/23/2019 3/24/2019 3/25/2019 3/26/2019 3/27/2019 3/28/2019 3/29/2019 3/30/2019 3/31/2019 4/1/2019 4/2/2019 4/3/2019 4/4/2019 4/5/2019 4l6/2019 4/7/2019 4/8/I019 4/9/2019 4/10/2019 4/11/2019 4/12/2019 4/13/2019 4/14/2019 4/15/2019 4/16/2019 4/17/2019 4/18/2019 4/19/I019 4/20/2019 4/21,2019 O. • 44 4. 220.4o 220.39 220.3I 220.30 220.30 220.28 220.24 220.21 220.22 220.18 220.14 220.14 220.15 220.16 220.14 220.32 I20.32 220.31 220.90 220.96 2I0.88 220.82 221.24 2I1.24 221.24 221.23 221.02 220.99 220.98 221.23 221.14 220 4o 22039 220.32 220.30 220.30 220.28 220.24 220.21 220.22 220.18 220.14 220.14 220.15 220.16 220.14 220 32 220.32 220.31 220.90 220.96 120.88 220.82 221.24 121.24 221.24 221.23 221.02 220.99 220.98 221.23 221.14 4/22/2019 4/2322019 220.96 220.96 4/2472019 •• 220.89 220.69 4/25/2019 '• 220.81 220.81 4/16/2019 220.75 220.75 4/27:2919 •• 220.67 220.67 4/28/2019 '• 220.64 11064 4/29,2019 •• 220.56 220.56 4/30/2019 •• 120.76 220.76 5/1/2019 •• 2I0.74 I20.74 5/2/2019 '• 220.69 220.69 5/3/2019 •• 220.66 220.66 5/4/2019 •• 220.60 I20.60 5/5/2019 •• 220.66 220.66 516/2019 '• 220.60 220.60 5/7/2019 " 220.57 220.57 5/8/2019 •• 22051 I20.51 5/9/2019 220.49 I20.49 5/10/2019 '• 220.45 220.45 5/11/2019 220.44 120.44 5/12/2019 220.48 220.48 5/13/2019 •• 220.42 220.42 5/14/2019 220.30 220.41 220.36 220.25 220.25 5/15/2019 220.30 220.43 6/9/2016 220.37 220.19 220.19 5/16/2019 220.24 220.34 6/10/2015 220.29 220.17 220.17 5/17/2019 220.22 220.32 220.27 6/11/2016 220.09 220.09 5/18/2019 220.23 220.32 6/I2/2015 6/13/2016 6/14/2016 6/15 016 6/16/2016 6/17/2016 220.28 220.08 22908 5/19/2019 220.23 220.31 220-27 219,96 219.96 5/20/1019 220.17 220.25 219.95 2I .95 5/21/2019 �20.15 220.23 219.95 211.15 5/22/2019 220.09 220.18 220.21 220.19 220.14 219.14 219.94 _ 5//23/2019 220.06 220.18 5/24/2012 220.01 220,09 219.95 219.95 6 18/2016 • 213.91 219-91 6/19/2016 219.82 211.42 6120l2016 219.82 211.81 6/21/2016 219.68 219.68 6/22/2016 • 219.69 219. 6/I3/2016 215.70 6/24/2016 211,.T 219.70 219.70 6 25 016 • 211.69 211.11 6/26/2016 219.07 219.67 6l�7R016 11ti47 ___ 219.67 6/28/2016 ' 2136 _ _ _219.67 6/29/2016 ;MSt29.61 5/25/2019 219.98 220.06 220.12 220.05 220.02 5/26/2019 21992 5/27/2019 219.90 , , ,_ 21 .94 5/28/2011 219.90 5129/2019 I19.84 21995 215.i0 _ 5/30/2011 219.84 219.92219.88 5 3112019 219.82 21192 219.87 6/1/201 219.81 M9.90 - 219.86 6/2/2019 219.81 119.90 2N. 6/3/2019 219.75 .. 219.14 211.16 6/412419 219.73 219.82 20.71 219.92 I1994 219.92 219.91 21992 6/5/2019 219.74 11111 219.78 • Zero value reading or communication failure •• Reading not calibrated or meter error • • • No reading available on chit. day AVERAGE DAILY AVERAGE DAILY Date/7ime LSC8750A 1h1 LSC87508 (ft, VALUE USED Date/rime L5C87504 (h) L5C87508 (ft) VALUE USED 6/30/2016 220.09 220.09 6/6/2019 219.73 219.81 219.77 7/1/2016 220.10 220.10 6/7/2019 219.73 I19.81 219.77 7/2/016 220,06 220.06 6/5/2019 219.61 219.90 219,86 7/3/2016 220.06 220.06 6/9/2019 219.91 219.90 119.91 7/4/2016 220.05 220.05 6/10/2019 220.06 220.17 220.13 7/5/20I6 219.93 219.93 6/11/2019 220.14 220.23 220.19 7/6/2016 220.01 220.01 6/12/7019 220.14 220.22 220.16 7/7/2016 219.96 219.98 6/13/2019 220.22 22031 220.27 7/8/2016 220.08 220.08 6/14/2019 220.22 220.32 220.27 7/9/2016 220.07 220.07 6/15/1019 220.22 220.32 220.27 7/10/2016 219.99 219.99 6/1612019 220.16 220.24 220.20 7/11/2016 220.00 220.00 6/17/2019 220.14 120.24 220.19 7/12/2016 219.94 219.94 6/18/2019 220.14 220.24 220.19 7/13/2016 219.94 219-94 6/19/2019 220-08 220.19 220.14 7/14/2016 219.95 219.95 6/20/1019 220.09 220.20 220.15 7/15/2016 219.92 219.92 6/21/2019 220.09 220.19 220.14 7/16/2016 219.92 219.92 6/22/2019 220.06 220.19 220.13 7/17/2016 219.86 219.86 6/23/2019 220.06 220.18 120.12 7/18/2036 219.66 219.86 6/24/2019 220.01 220.09 220.05 711912016 219.82 219.82 6/25/2019 219.98 220.07 220-03 7/20/2016 • 219.62 219.82 6/26/2019 219.98 220.07 220.03 7/21/2016 219.68 219.68 6/27/2019 219.92 219.93 2I9.93 7122/2016 7/23/2016 • 219.69 219.69 6/28/2019 219.92 219.94 219.93 219.8I 219.82 6/29/2019 219.90 219.95 219.93 7/24/2016 219.68 219.68 6/30/20I9 239.84 219.95 219.90 7/25/2016 • 219.69 219.69 7/1/2019 2I9.61 219-93 219.87 7/26/2016 7/27/2016 • 7/26/2016 • 7/29/2016 219.70 219.70 7/2/2019 219.81 219.92 219.87 219.70 219.70 7/3/2019 219.75 2I9.87 219.81 219.70 2I9.70 7/4/2019 219.73 219.84 219.79 219.71 219.71 7/5/2019 219.81 219.92 219.87 7/30/2016 • 219.70 219.70 7/6/2019 219.81 219.91 219.86 7/33R016 • 219.68 219.68 7/7/2019 219.75 219.85 219.60 B/I/20I6 • 219.67 219.67 7/8/2019 219.81 21991 219.66 8/2/2016 6/3/2016 8/4/2016 • 8/5/2016 8/6/2016 • 219.61 219.61 7/9/2019 219.81 219.91 219.86 219.66 219.66 7/10/2019 219.75 219.85 219.80 119.67 219.67 7/11/2019 219.72 219,82 219.77 219.68 219.68 7/12/2019 219.60 219.91 II9.86 219.86 219.86 7/13/2019 219.8I 219.91 219.86 0/7/2016 219.86 219.86 7/14/2019 219.75 219.85 219.80 8/8/2016 2I9.94 219.94 7/15/2019 2I9.75 219.63 219.79 8/9/2016 219.40 220.09 219.75 7/16/2019 219.73 219.83 219.78 8/10/2016 • 220.10 220.10 7/17/2019 219.73 219.77 219.75 8/1112016 • 220.08 220.06 7/18/2019 219.64 219.75 119.70 8/12/2016 • 219.93 219.93 7/I9/2019 219.64 219.75 219.70 8/13/2016 8/14/2016 8/15/20I6 e/I6/2016 8/17/2016 • 8/18/2016 8/19/2016 8/20/2016 220.01 220.01 7/20/2019 219.61 I19.69 219.65 219.95 219.95 7/21/2019 219.59 2I9.69 219.64 219.95 219.95 7/22/2019 219.58 219.67 219.63 219.95 219.95 7/23/2019 219.54 219.63 219.59 219.93 219.93 7/24/2019 219.74 21984 219.79 219.93 219.93 7/25/2019 219.75 219.63 219.79 219.86 219.86 7/26/2019 219.72 219.82 2I9 77 219.91 219.91 7/27/2019 219.72 219.82 2I9 77 8/21/2016 219.85 219,85 7/18/2019 219.66 219.76 219.71 8/22/2016 2I9.81 219.81 7/29/2019 2I9.67 219.76 219.72 8/23/2016 • 8/24/2016 • B/25/2016 8/26/2016 • 8/27/2016 219.67 219.67 7/30/20I9 219.64 219.74 219.69 219.69 219.69 7/31/2019 219.64 219.66 219.66 219.69 219.69 8/1/2019 21958 219.68 219.63 219.69 219.69 8/2/2019 219.58 2I9.67 219.63 219.70 219.70 8/3/2019 219.64 219.73 219.69 8/28/2016 219.67 219.67 8/4/2019 219.58 219.67 219.63 8/29/20I6 219.67 219.67 6/5/2019 219.58 219.66 219.62 8/30/2016 219.61 219.61 8/6/2019 219.63 219.72 I19.68 8/31/2016 219.56 219.58 8/7/2019 219.56 219.72 219.65 9/1/2016 119.58 219.58 8/8/2019 219.66 219.75 219.71 9/2/2010 219.57 219.57 0/9/2019 219.65 219.75 219.70 9/3/2016 219.67 219.67 8/10/2019 219.63 219.73 219.68 9/4/2016 219.68 219,68 8/11/2019 219.63 219.73 219.68 9/5/2016 219.67 219.67 8/12/20I9 2I957 219.67 219.62 9/6/2016 219.68 219.68 8/13/20I9 219.57 219.67 219.62 9/7/2016 219.69 219.69 6/14/2019 219.63 219.72 219.68 9/8/2016 219.67 219.67 8/15/2019 219.66 2I9.75 219.71 9/9/2016 219.67 219.67 8/16/2019 219.74 219.62 219.78 9/10/2016 219.61 219.61 6/I7/2019 219.71 2I9.81 219.76 9/11/2016 219.58 219.58 8/18/2019 219.71 I19.81 219.76 9/12/20I6 21958 219.58 8/19/2019 219.71 219.71 9/1312016 21952 219.52 8/20/2019 219.65 219.75 219.70 9/14/2016 9/15/2016 119.50 219.50 9/16/2016 219.44 9/17/2016 219.43 9/18/2016 219.43 9/19/2016 2I9.48 9/20/2016 219.44 9/21/2016 219.49 9/22/2016 219.60 9/23/2016 219.66 9/24/2016 219.66 9/25/20I6 219.66 9/2612016 219.60 9/27/2016 21958 9/I8/2016 219.58 • Zero value reading or communication failure • • Reading not calibrated or meter error ••• No reading available an this day B/21/2019 219.63 219.71 219.68 8/22/2019 219.71 219.81 219.76 219.44 B/23/2019 219.79 219.90 219.85 219.43 8/24/2019 219.78 219.89 219.84 219,43 8/25/2019 219.76 21919 2I9.64 21948 8/26/2019 2I9.78 219.69 219.94 219.44 6/27/2019 219.72 21913 219.78 219.49 6/2B/2019 219.72 219.82 219.77 219.60 8/29/2019 219.70 219.81 219.76 219.66 8/30/2019 219.70 239.80 219.75 219.66 8/31/2019 219.64 219.74 219.69 219.66 9/1/2019 219.61 219.72 219.67 219.60 9/2/2019 219.62 219.73 219.68 219.58 9/3/2019 219.62 219.72 219.67 219.58 9/4/2019 219.56 219.66 219.61 Date/ime 9/29/2016 LSC8750A Iftl L5C87508 �f*Y 219.68 AVERAGE DAILY VALUE USED Date/llme L5C8750A fft► 219.68 9/5/2019 219.56 15C87506 (ft) 21967 AVERAGE DAILY VALUE USED 219.62 9/30/2016 2I9.68 219.68 9/6/2019 219.64 219.74 219.69 10/1/2016 219-67 219.67 9/7/2019 119.70 219,81 I19.76 10/2/2016 219.65 219.65 9/8/2019 219.64 219.75 219.70 10/3/2016 219.65 219.65 9/9/2019 21965 219.75 2I9.70 10/4/2016 219.59 219.59 9/10/2019 219,61 • 219.61 10/5/2016 219.57 I1957 9/11/2019 219.62 219.73 219.6a 10/6/2016 219.54 21954 9/12/2019 219.62 219.74 219.68 10/7/2016 119.52 21952 9/13/2019 219.56 219.68 219.62 10/8/2016 219.95 219.95 9/14/2019 219.56 219.67 219.62 10/9/2016 223.59 223.59 9/15/2019 219.56 2I9.67 219.62 10/10/2016 223.16 223.16 9/I6/2019 219.51 219.67 219.59 10/11/2016 222.76 222.76 9/17/2019 219.51 219.62 21957 10/12/2016 222.40 222.40 9/18/2019 21950 219.62 219.56 10/I3/2016 222.16 222.16 9/19/2019 219.50 119.60 21955 10/24/2016 221.88 221.88 9/20/2029 219.47 219.57 21952 10/15/2016 • •' '•' 9/21/2019 219.44 219.54 219,49 10/16/2016 • 04 110• 9/22/2019 219.44 219.55 219.50 10/17/2016 • •• "' 9/23/2019 219.38 219.49 219.44 10/18/2016 • 9/24/2019 21937 219.47 219.42 10/19/2016 • •0 0 9/15/1019 2I936 219.47 219.42 10/20/2016 • 006 9/16/2019 219.36 219.47 219.42 10/21/2016 • ^ '4' 9/27/2019 21930 219.41 219.36 10/22/1016 • '• "' 9/28/2019 219.27 219.38 219.33 10/23/2016 • 0 0 "' 9/29/2019 219.27 219.38 21933 10/24/2016 219.90 II0.65 220.28 9/30/2019 219.27 219.39 219.33 10/15/2016 219.77 22059 220.18 10/1/2019 119.22 219.32 219.27 10/26/2016 219.79 220.49 220.14 10/2/2019 219.19 219.30 219.25 10/27/7016 219.71 220.47 220.13 10/3/2019 219.19 219.31 219.25 10/28/2016 219.71 220.46 220.09 10/4/2019 219.11 219.23 219.I7 10/29/2016 • 220.43 220.43 10/5/2019 219.11 219.20 219.I6 10/30/2016 • 220.41 22041 10/6/2019 219.02 219.14 219.08 10/31/2016 • 220.35 220.35 10/7/2019 219.02 219.13 219-08 11/1/2016 • 220.35 220.35 10/8/2019 219.02 219.07 219.05 11/2/2016 • 220.33 220.33 10/9/2019 218.96 I19.06 219.01 11/3/2016 • 220.27 220.27 10/10/2019 218.93 219.03 218.96 11/4/2016 • 220.27 220.27 10/11/2919 218.87 2I8.97 218.92 11/5/2016 • 220.25 220.25 10/12/2019 218.85 218.95 218.90 11/6/2016 • 220.25 220.25 10/I3121119 218.85 218.97 218.91 11/7/2016 220.19 220.19 10/I4/2019 213.96 219.07 219.02 11/8/2016 • 220.17 220.17 10/15/2019 218.95 219.06 219.01 11/9/2016 • 220.21 220.21 10/16/2019 218.96 219.09 219.03 I1/10/2016 220.19 220.19 10/1712019 219.01 219.11 219.06 11/11/2016 220.10 220.10 10/18/20I9 218.95 218.95 11/12/2016 220.09 220.09 10/19/2019 I19.96 •' 218.96 11/13/2016 219.94 219.94 I0/20/2019. 219.09 •• 219.09 11/14/2016 220.04 220.04 10/21/2019 • ••• 11/15/2016 219.95 219.95 10/22/2019 • ••• 11/16/2016 • 219.91 219.91 10/23/1019 2I9.12 219.12 11/17/2016 • 219.93 219,93 10/14/2019 219.11 0.00 219.11 11/18/2016 219.98 219.98 10/15/2019 219.12 0.00 219.12 11/19/2016 • 219.95 219.95 10/16/1019 219.12 0.00 2I9.12 11/20/2016 • 219.95 219.95 10/27/2019 219.18 219.18 11/21/2016 • 219.92 219.92 10/28/7019 219.12 219.24 219.18 11/22/2016 219.87 219.87 10/29/2019 ••• 11/23/2016 • 219.85 219.85 10/30/2019 219.I7 219.30 219.24 11/24/1016 • 219.86 21916 10/31/2019 • 11/25/2016 • 219.84 219.84 11/1/2019 219.28 219.39 219.34 11/26/20I6 219.82 219.82 11/2/2019 219.25 219.39 219.32 11/27/2016 • 219.82 219.82 11/3/2019 219.25 219.39 219.32 11/26/2016 • 219.68 219.68 11/4/2019 219,25 219.38 219.32 11/29/2016 • 219.12 219.82 11/5/2019 219.25 21938 219.32 11/30/2016 • 219.80 219.80 11/6/2019 219.25 219.38 21932 12/1/2016 • 219.80 219.80 11/7/2019 219.25 219.38 219.32 12/212016 • 219.67 219.67 11/3/2019 '•9 12/3/2016 • 219.68 219.68 1119/2019 219.25 219.39 219.32 12/4/2016 • 219.69 219.69 11/10/2019 219.25 219.39 219.32 12/5/2016 • 219.82 219.82 11/11/2019 219.25 219.39 219.32 1I/617016 • 11912 219.32 11/12/2019 219.26 2I9.39 219.33 12/7/2016 • 119.82 I19.82 11/13/2019 219.33 219.46 219,40 12/8/2016 • 119.81 219.81 11/I4/2019 219.32 219.47 219.40 12/9/2016 219.83 219.83 11/I5/2019 219.35 219.49 219.42 12/10/2016 • 219.66 219.66 11/16/2019 219.41 119.53 219.47 12/11/2016 • 219.70 219.70 11/17/2019 21940 219.47 219.44 12/12/2016 • 219.71 219.71 11/18/2019 219.34 219.49 219,42 12/13/2016 • 219.70 219.70 11/19/2019 219.40 219.55 219.48 12/14/2016 219.70 2I9.70 11/20/2019 219.40 219.54 219.47 12/15/2016 • 219.71 219.71 11/21/2019 219.40 119.54 219.47 12/16/2016 219.71 219.71 11/22/2019 219.40 219.55 219.48 12/17/2016 219.71 219.71 I1/23/2019 219.40 219.55 219.48 12/18/2016 219.69 219.69 11/24/2019 219.45 219.61 219.53 I2/19/2016 219.74 219.74 11/25/2019 21946 219.61 I19.54 12120/2016 219.72 219.72 11/26/2019 219.46 219.60 219.53 12/21/2016 219.76 219.76 11/27/2019 219.46 219,61 219.54 12/2212016 • 219.75 2075 11/18/2019 219.46 219.60 219.53 12/23/2016 _ • 219.71 219.71 11/29/2019 219.46 219.61 219.54 12/24/2016 • 219.72 219.72 11/30/2019 219.47 219.62 I19.55 1 IS 016 219.T2 219.72 0/1/2019 219.52 219.68 219.60 12/26/2016 • 219.70 21970 12/2/2019 219.52 219.69 119-61. 12/27/2016 _ • 219.70 _ 219.70 12/3/2019 219.58 219.73 219.66 12/28/2016 • 219.69 20,69 12/4/2019 11958 219.73 219.66 • Zero value reading or communication failure •' Reading not calibrated or meter error ••• No reading available on this day Date/iime 1307504 (ftl L5O7506 (hj VALUE USED Date/T1me LSC8750A (h) L5C875013(hj VAWE USED 12/29/2016 • I19.71 219.71 12/5/2019 219.52 119.71 219.62 12/30/2016 • 219.71 219.71 12/6/2019 21952 219.71 219.62 12/31/2016 219.71 219.71 12/7/2019 219.52 219.68 219.60 1/1/20I7 219.72 219.72 12/8/2019 219.52 219.67 219.60 1/2/2017 219.92 219.92 12/9/2019 219.52 I19.67 219.60 I/3/2017 220.09 220.09 12/10/2019 219.52 219.55 119.59 1/4/2017 • 220.10 220.10 12/11/2019 219.56 219.74 219.65 1/5/2017 • 220.12 220.12 12/12/2019 219.55 219.71 2I9.63 1/6/2017 • 220.12 220.12 12/13/2019 219.55 219.73 219.64 1/7/2017 • 220.26 220.26 12/14/2019 219,99 220.18 220.09 1/8/2017 220.29 220.29 12/15/2019 220.05 220.23 210.14 1/9/2017 • 220.27 220.27 12/16/2019 220.08 210.13 220.16 1/10/2017 • 220.27 220.27 12/I7/2019 220.14 220.31 220.23 1/11/2017 • 220.25 220.25 I2/18/2019 220.16 220.34 220.25 1/12/2017 • 220.25 220.25 12/19/2019 220.16 220.35 220.26 3/13/2017 • 220.25 220.25 12/20/2019 220.16 2I0.32 2I0.24 1/14/2017 • 220.22 220.22 12/21/2019 220.13 220.32 220.23 1/15/2017 • 220.21 220.21 12/22R019 220.13 220.32 220.23 1/16/2017 • 220.20 220.20 12/23/2019 220.16 220.33 120.25 1/17/2017 • 220.19 220.19 12/24/2019 220.22 220.40 220.31 1/18/2017 • 220.16 220.16 1212512019 220.22 220,40 220.31 1/19/2017 220.18 220.18 12/26/2019 220.2I 220.40 220.31 1/20/2017 220.13 220.13 12/27/2019 220.22 210.41 220.32 1/21/2017 • 220.11 220.11 12/28/2019 220.22 220.40 220.31 1/22/2017 • 220.16 220.16 I2/29/2019 22022 220.40 220.31 1/23/2017 • 220.29 220.29 12/30/2019 220.22 220.41 220.32 2/24/2017 220.26 220.26 12/31/2019 220.16 220.38 220.27 1/25/2017 220.28 220.28 U1/2020 220.13 220.34 220.24 1/26/2017 220.26 220.26 1/2/2020 220.14 220.33 220.24 1/27/2017 • 220.27 220.27 U3/2020 220.13 220.33 220.23 1/28/2017 • 220.21 220.21 1/4/2020 220.39 220.58 220.49 1/29/2017 • 220.20 220.20 U5/2020 220.40 220,66 220.53 1/30/2017 220.21 210.21 1/6/2020 220.40 220.67 220.54 1/31/2017 220.22 220.22 1/7/2020 220.40 220.58 220.49 2/1/2017 220.14 220.14 1/812020 220.39 120.59 220.49 2/2/2017 220.09 220.09 1/9/2020 220.39 220.56 220.49 2/3/2017 • 220.10 220.10 UI0/2020 22032 220.52 220.42 2/4/2017 • 219.99 219.99 1/11/2020 220.32 220.57 220.45 2/5/2017 220,02 220.02 1/12/2020 220.39 220.57 220.48 2/6/2017 220.04 220.04 1/13/2020 220.38 220.56 220.47 2/7/2017 220.02 220.02 1/14/2020 22037 220.81 220.69 2/8/2017 220.00 220.00 U15/2020 220.70 220.91 220.63 2/9/2017 220.02 220.02 1/16/2020 220.67 220.90 220.79 2/10/2017 220.05 220.05 U17/2020 220.57 220.83 120.70 2/11/2017 220.02 220.02 1/16/2020 220.57 220.79 2I0.68 2/12/20I7 220.02 220.02 1/19/2020 220.57 220.76 220.67 2/13/2017 220.02 220.02 1/20/2020 220.55 220.74 220.65 2/14/2017 220.02 220.02 1/21/2020 220.46 220.67 220.57 2/15/2017 220.03 220.03 1/22/2020 220.40 220.60 220.50 2/16/2017 219.28 219.96 219.62 1/23/2020 ••• AVERAGE DAILY AVERAGE DAILY 2/17/2017 219.29 220.00 119.65 1/24/2020 220.38 220.58 220.48 2/18/2017 219.34 220.08 219.71 1/25/2020 220.47 220.66 220.57 2/19/2017 219.28 119.96 219.62 1/26/2020 220.47 220.60 220.54 2/20/2017 21930 219.95 219.63 1/27/2020 220.41 220.53 220.52 2/21/2017 219.30 220.01 219.66 1128/2020 220.41 220.59 220.50 2/22/2017 219.31 2I9.97 219.64 1/29/2020 220.36 220.58 220.48 2/23/2017 219.31 220.00 219.66 1/30/2020 220.38 220.59 220.49 2/24/2017 220.03 219.98 220.01 1/31/2020 220.33 220.52 220.43 2/25/2017 I20.04 219.97 220.01 2/1/2020 220.41 220.56 220.50 2/26/2017 219.97 219.94 219.96 2/2/2020 220.41 220.65 220.53 2/27/2017 219.96 219.94 219.95 2/3/2020 220.39 220.60 12050 2/28/2017 219.97 219.92 219.95 2/4/2020 220.39 220.58 220.49 3/1/2017 21996 219.87 219.92 2/5/2020 220.39 220.57 220.48 3/2/2017 220.06 119.98 220.02 2/6/2020 220.50 22074 220.62 3/3/2017 220.04 219.98 220.01 2/7/2020 222.47 222.70 22259 3/4/2017 219.99 219.97 219.93 2/8/2020 222.32 222.56 222.44 3/5/2017 219.97 219.95 219.96 2/9/2020 222.14 222.37 222.26 3/6/2017 219.92 219.95 219.94 2/10/2020 221.91 222.20 222.06 3/7/2017 219.94 219.95 219.95 2/11/2020 221.74 22196 221.85 318/2017 219.93 219.93 219,93 2/1I/2020 221.64 221.86 221.75 3/912017 219.92 219.94 219.93 2/13/2020 221.49 22I.70 221.60 3/10/2017 219.93 219.88 219.91 2/14/2020 221.46 221.69 221.58 3/11/2017 2I9.84 219.83 219.84 2/15/2020 221.32 221.54 221.43 3/12/2017 219.85 219.64 219.85 2/16/2020 221.21 221.43 221.32 3/13/1017 219.84 119.85 2085 2/17/2020 221.13 221.34 221.24 3/14/2017 I19.86 219.87 219.87 2/18/2020 221.04 221.26 22115 3/15/2017 219.92 219.95 219.94 2/19/2020 220.96 221.17 221.07 3/16/2017 219.88 2I9.88 219.88 2/20/2020 220.88 221.09 220.99 3/17/2017 219,84 219.88 219.86 2/21/2020 220.90 221.09 22I.00 3/18/2017 219.84 219.88 219.86 2/22/2020 120.88 221.09 220.99 3/19/2017 219.63 219.86 219.85 2/23/2020 220.82 221.02 220.92 3/20/2017 219.89 219.88 21989 2/24/2020 220.76 220.94 220.85 3/21/2017 219.90 219.86 219.86 2/25/2020 220.82 220.94 220.88 3/22/2017 219.91 119.86 219.89 2/25/2020 220.72 220.93 220.83 3/23/2017 219.86 219.85 219.86 2/27/2020 220.69 220.87 220.78 3/24/2017 219.89 219.88 2I9.89 2/28/2020 22037 220.84 220.71 3/25/2017 219.88 219.66 219.87 2/29/2020 22057 220.77 220.67 3/26/20I7 219.91 219.86 219.89 3/1/2020 220.55 220.75 220.65 3/27/2017 219.91 219.85 21988 3/2/2020 220.55 220.75 220.65 3/28/2017 219.89 219.83 219.86 3/3/2020 220.47 220.69 220.58 3/29/2017 21989 I19.80 21985 3/4/2020 220.49 120.75 220.62 • Zero value reading or communication failure •• Reading not calibrated or meter error ••• No reading available on this day AVERAGE DAILY AVERAGE DAILY Date/ime LSC8750A (h5 LS0875061f1j VALUE USED oate/Time 1.508750A (ft) L5CB75DB Ih] VALUE USED 3/30/2017 219.89 119.61 219.85 3/5/2020 120,49 220.70 220.60 3/31/2017 219.98 219,67 219.93 3l6R020 220,46 220.69 229.5E 4/1R01T 219.9T 219�90 Z1994 3/7/1020 220.46 220.66 220.56 411/2017 219.98 219.90 219.94 3/8/2020 21D.a0 II0.61 120.51 4l3/201T 219.9a 219.92 219.93 3/9/2020 220.38 220.59 220 aB 4J4l2017 220.04 I19.96 220.00 3/10/2020 220.38 220.59 220A9 415R017 220.03 21997 220.00 3!Ll12020 220.38 220.58 220,48 4/6/2017 220.10 220.07 220,09 3/12J2020 220.30 220.53 2I0,42 4/7/2017 220.03 219.99 220.01 3/13/2020 220.37 11049 220.41 416/2017 22002 219.95 219.99 3/14/2020 220-30 220.50 120.40 4/9/2017 220.02 219.97 220,00 3/15/2020 220.24 220.45 220.35 4/10/2017 220.02 219.97 22000 3/16/2020 220.71 220.44 I20.33 4111R017 220.02 119.92 219.97 3117R020 220.22 220.43 220.33 4112/2017 219-98 219.93 219.96 3/18/2020 220..22 120.42 220.32 4/13/2017 219.98 219.91 219.95 3l19RD20 120.21 220.41 220.32 4/14/2017 219.96 219.91 219.94 3/20/2020 220.22 220.41 220.31 1l15/2017 219,96 219.90 219.93 3RL2020 220.22 220.40 220.3I 4/16/2017 219.96 I39.90 219.93 3/22/2020 220.19 220.36 720.28 4/17/2017 219.94 219.86 219.90 3l2312020 220.15 170.36 220.16 4/18/2017 219.95 219.81 219.88 3/24/2020 220.22 22035 220.29 4/19/2017 219.94 219.81 219.88 3/25/2020 220.38 220.58 270.48 4/20/2017 219.90 219.79 219.85 3116l3030 220.46 230.67 220.57 4R1R017 219.86 219.79 219.83 3/27/2020 220.46 220,67 220.57 4/22/2017 219.86 219.67 219.77 3128l2020 220d7 220,66 214.57 4/23/2017 219.84 219.69 219 77 3129I2020 220A1 220.61 I20.51 a114R017 219.93 219.84 219.89 3130I2020 210.39 220.58 220.49 4/25/2017 221.64 221.59 221.62 3l31ROxa 220.33 220.54 22Q.aa 4l2612017 221.6a 221.84 221.84 4l112ffi9 22033 220.53 220.43 4/27/2017 221.73 121.73 221.73 4R/2020 220.32 220.52 720.42 4/28/2017 221.58 221.58 221.58 4/3/2020 220.30 220.50 22040 4/29/2017 221.43 221.42 131.a3 4/4/202D 220.25 120.44 220.35 4/30/2017 221I8 221.17 221.28 4/5/2020 22022 330A3 2I033 5liR01T 221.17 221.17 221.17 4/6/2020 220.23 320.42 220.33 5/2/2017 221.12 221.01 221.07 4/7/2020 220.23 220.42 220.33 5/3/2017 220.87 220.94 220.91 418/2020 220.17 220.34 220.26 5/4/2017 22085 220.8] 220.84 d1971020 2x0.22 220.43 220.33 515RQ17 220.87 220.91 220.89 a110l2020 220.20 220.39 220.30 5l6R017 220.86 220.86 720.86 a111R0I0 220.15 220.35 220.25 5/7/2017 220.78 220.76 220.77 4/1212020 220.I4 220.31 220.23 5/8/21317 220.69 220.69 220.69 4l13R020 2203a 220.31 220.23 5/9/2017 220.53 220.66 220.60 4l14l2020 220.14 274.31 220.23 S110R017 220.53 120.58 220.56 4/15/2020 220,05 220.2Z 220.I1 5/1112017 220.54 220.51 220.53 1l16/2020 22005 220.24 220.15 5/12/2017 220.4E 220.44 11o.46 4/i7/2020 220.05 216.2a 220.15 5/13/2017 220.45 210,42 220.4a 4l18l2020 220.00 220.18 220.09 5/14/2017 220,44 220.41 220.43 4R9RaxD 219.99 220.18 220.09 5/15/2017 220.a0 220.33 21037 a/2012020 220.05 120.13 220.14 5/16/2017 220,40 220.33 220.37 4/21/2020 220.13 220.31 220.22 5/17/2017 220.32 220.25 220.29 4122R020 220.07 220.32 220.20 5l1BR017 220.31 220.25 220.18 4/23/2020 220.07 220.25 220.16 5/19/2017 220.24 210.19 220.22 4/24/2020 120.07 220.23 220.15 5/20/2017 220.22 220.19 220.21 4R5/2010 220.05 220,22 220.14 51Z1R017 220.19 I2t1.10 220.15 4R6R020 270.05 220.22 220.31 SRI/2017 220.14 ZI09B 220.1I 4/x7R020 220-05 220.21 220.13 5/23/2017 220.15 220.07 220.11 4IZ9R020 220,00 220.18 220.09 5/24/2017 220.21 220.14 220.18 4R0R020 220.00 220.18 22009 5l25R017 210.28 220.21 220.25 4/30R020 220.16 22033 220.25 SR6l2017 220.24 220.18 220.21 5/1/2020 220.31 220.52 220.4I 5/27/2017 220.22 220.18 220.20 5/2l2020 220.31 220.49370. 5/28/2017 220.16 220.18 220.17 5l3R010 220.31 220.49 220�d0 5/19R017 220.18 I20.10 0.1a 5l4120I0 220.25 220.43 22034 5l30R017 220.16 220.06 22220.11 5/5/2020 220.22 220.43 12D33 5/31/2017 220.17 220.08 220.13 516R020 220.22 220.42 220.32 6/1/2017 220.10 219.95 220.03 SR12020 220.16 220.35 220.26 6/2/2017 220.08 219.94 220.01 5/8/20207II0.14 120.33 220.2a 6/3/2017 220.08 119.94 220.01 5/9/2020 270.08 220.25 22tl.17 6/4/2017 220.02 219.94 219.98 5130l2010 220.05 220.22 220.14 6/5/2017 22000 219.92 219.96 5111/2010 220.00 220.21 220.11 6/6/2017 219.99 219.94 219.97 5l1212020 219.97 220.18 220.08 6/7/2017 219.98 I19.92 219.95 5/13R020 219.97 22018 220.08 6l8R017 219.89 219.84 219.67 5114R020 219.9] 120.18 220.08 6/9/2017 I19.B9 219.81 219.65 5i/15R020 219.97 220.17 I20.07 6/10/2017 219-84 219.81 219,83 5/16/1010 219:91 220.18 220-05 6/11/2017 219.86 219.6E 219.77 5/17/2020 219,9I I20.18 2I0.05 6/12/2017 219.B3 219.70 219.77 5118/2020 219.89 220.05 219.97 6/13/2077 219-62 119.64 219.76 5/19/2020 219.91 220.04 219,96 6/14/2017 219.76 219.69 219.73 5/20/2020 219.91 220.0E 220�00 6l15R017 219,78 219.69 219.74 5/21/7020 22030 220.48 220.39 6116R017 219.74 219.66 219.70 SR2R020 220.49 220.67 22058 6/17/2017 219.83 219.69 219.76 5/23/2020 220.55 220.73 220.64 6)18/2017 21984 219.68 219.76 5124/2070 2I0.55 120.73 220.64 6/19/2017 219.84 119.69 219.77 SR512020 120.58 220.76 210.67 6/20/2017 219.83 21968 219.76 SR6R020 220.55 210.74 220.65 6/21/2017 219.8a 219.66 219.75 5/27/2020 220.49 220.68 220.59 6/22/2017 219.83 219.66 219.75 5/28/2020 120.57 2I0.76 220.67 6/23/2017 219.81 219.67 219.74 5l29R020 22056 270.34 220.70 6/24/2017 219.83 219.69 219.76 5/30/2020 270.90 221.10 I27.00 6/25/2017 119.84 2I9.67 219.76 5l31l7020 220.88 221.05 220.98 6/26/2017 219.82 219.68 219.75 WIl2020 220.82 220.99 220.91 6J17R017 219.82 219-69 219.76 bRR020 210.71 220.93 220.82 61182017 2I9.76 219.69 219.73 6/312010 220,56 220.86 220J1 • Zero value reading or communication failure " Reading not calibrated or meter error ••• No reading available on this day AVERAGE DAILY AVERAGE 0411..Y Otte/7ime L5C8750A (h) L5017506 (h) VALUE USED Date/fime LS017504 (h) LSC87508 (ft) VALUE USED 6/29/2017 219.73 2I9.66 219.70 6/4/2020 220.57 220.82 220.70 6/30/2017 219.73 I19.66 219.70 6/5/1020 220.55 220.76 220.66 7/1/2017 219.73 219.66 219.70 6/6/2020 I20.49 220.71 220.60 7/2/2017 I19.71 219 66 219.69 6/7/2020 220.47 220.69 220.58 7/3/2017 219.66 219.60 219.63 6/8/2020 220.41 220.60 220.51 7/4/2017 219.64 219.58 219.61 6/9/2020 220.39 210.60 220.50 7/5/2017 219.64 219.59 219.62 6/10/2020 220.33 220.54 220.44 7/6/2017 219.59 219.51 219.56 6/11/2020 220.31 220.51 120.41 7/7/2017 219.57 219.51 219.54 6/12/2020 220.25 220.49 220.37 7/8/2017 219.58 219.51 2I955 6/13/2020 220.22 220.45 220.34 7/9/2017 219.51 219.45 219.48 6/14/2020 220.17 220.37 220.27 7/10/2017 219.50 21945 219.48 6/15/2020 220.14 220.35 220.25 7/11/2017 219.50 I19.44 219.47 6/16/1020 220.22 220.42 220.32 7/12/2017 219.47 219.40 219.44 6/17/2020 220.33 220.51 220.42 7/13/2017 219.50 219.40 219.45 6/16/2020 12029 220.51 220.40 7/I4/2017 219.48 219.39 219.44 6/19/2010 220.29 220.49 220.39 7/15/2017 219.47 219.40 219.44 6/20/2020 220.48 220.68 220.58 7/16/2017 I19.43 219.36 219.40 6/21/2020 220.45 220.66 220.56 7/17/2017 219.43 219.35 219.39 6/22/2020 220.46 220.66 220.56 7/18/2017 219.43 219.34 21939 6/23/2020 220.46 220.67 220.57 7/19/2017 219.42 219.34 219.33 6/24/2020 220.38 220.59 220.49 7/20/2017 219.43 21935 21939 6/25/2020 220.32 220.50 220.41 7/21/20I7 219.41 219.33 219.37 6/26/2020 220.24 220.50 220.37 7/22/2017 219.4I 219.33 219.37 6/17/1020 220.21 220.44 220.33 7/23/2017 219.36 219.25 219.31 6/26/2020 220.22 220.38 220.30 7/24/2017 219.33 219.24 219.29 6/29/2020 220.13 220.33 220.24 7/25/2017 219.29 219.19 219.24 6/30/2020 220.12 220.33 220.23 7/26/7017 219.28 219.16 219.22 7/1/2020 220.14 220.34 220.24 7/27/2017 219.25 119.16 219.21 7/2/2020 220.12 220.33 120.23 7/28/2017 219.20 219.11 219.16 7/3/2020 220.12 22033 220.23 7/29/2017 219.27 219.16 219.21 7/4/2020 220.06 210.21 220.17 7/30/2017 219.19 219.09 219.14 7/5/2020 220.04 220.25 220.15 7/31/2017 219.16 219.07 219.12 7/6/2020 220.04 220.25 220.15 8/1/2017 219.17 219.01 219.09 7/7/2020 220.04 220.20 220.12 8/2/2017 219.11 218.99 219,03 7/8/2020 219.98 220.19 220.09 8/3/2017 219.09 218.99 219,04 7/9/1020 219.98 220.18 220.08 8/4/2017 219.10 218.94 219.02 7/10/2020 220.04 220.24 220.14 8/5/2017 219.03 218.91 218.97 7/I1/2020 220.06 220.27 220.17 8/6/2017 219.01 218.91 218.96 7/12/2020 220.05 220.26 220.16 8/7/2017 219.01 216.91 218.96 7/13/2020 220.07 220.28 220.18 8/8/2017 219= 218.91 218.96 7/14/2020 220.07 220.27 220.17 8/9/2017 219.08 218.98 219.03 7/15/2020 220.04 220.25 220.15 8/10/2017 219.02 218.92 218.97 7/16/2020 220.04 220.20 220.12 8/11/2017 219.04 218.90 211.97 7/17/2020 219.99 220.20 220.10 8/12/2017 219.02 218.91 218.97 7/18/2020 219.98 220.19 220.09 8/13/2017 219.04 218.90 218.97 7/19/2020 220.12 220.35 220.24 8/14/2017 219.02 218.90 218.96 7/20/2020 220.07 220.29 220.18 8/15/2017 219.01 218.90 218.96 7/22/2020 220.08 220.29 220.19 e/16/2017 218.97 218.85 218.91 7/22/2020 22005 220.27 220.16 8/17/2017 218.96 218.85 116.91 7/23/2020 220.06 220.26 210.26 8/18/2017 •• 118.81 218.82 7/24/2020 220.36 220.59 220.49 8/19/2017 •• 218.80 218.80 7125/2020 220.46 220.70 220.59 8120/2017 •• 218.77 218.77 7/26/2020 22046 220.69 220.58 8/21/2017 218.87 218.74 213.11 1/27/1020 220.41 220.63 220.52 8/22/2017 •• 218.74 218.74 7/28/2020 220.39 22061 220.50 e/23/2017 218.82 21868 218.75 7129/2020 220.89 221.10 221.00 8/24/2017 218.83 218.67 218.75 7/30/2020 220.82 221.04 220.93 8/25/2017 218.79 218.65 218.72 7/31/2020 220.73 210.96 220.85 8/26/2017 218.72 218.58 218.65 8/1/2020 220.70 220.94 220.82 8/27/2017 •• 218.56 21656 8/2/2020 220.73 220.95 220.84 8/28/2017 •• 218.50 218.50 8/3/2020 220.57 220.92 220.75 8/29/20I7 •• Z18.47 218.47 8/4/2020 121.48 221.72 221.60 8/30/2017 •• 218.46 218.46 8/5/2020 221.46 221.69 221.58 8/31/2017 •• 218.42 218.42 8/6/2020 221.32 221.55 221.44 9/I/2017 66 218.41 218.41 8/7/2020 221.21 221.44 221.33 9/2/2017 •• 218.71 218.71 818/2020 221.21 221.43 221.32 9/3/2017 •• 218.71 218.71 8/9/2020 221.15 221.28 221.22 9/4/2017 •• 218.66 219.66 8/10/2020 221.04 221.26 221.15 9/5/2017 •• 218,65 218.65 8/11/2020 220.90 221.13 221.02 9/6/2017 •• 218.63 218.63 8/12/2020 220.82 221.04 220.93 9/7/2017 •• 218.63 216.63 8/13/2020 220.70 220.93 22012 9/8/2017 •• 218.56 218.58 8/14/2020 220.56 220.87 220.72 9/9/2017 •• 218.57 218.57 8/15/2020 220.56 220.86 220.71 9/10/2017 •6 218.49 218.49 8/16/2020 220.97 221.20 221.09 9/I1/2017 •• 218.48 218.48 8/17/2020 220.89 221.17 221.03 9/12/2017 66 218.49 218.49 8/18/2020 221.14 221.36 221.25 9/23/2017 •• 218.49 21849 8/19/2020 221.04 221.29 221.17 9/14/7017 •• 218.49 21349 8/20/2020 22103 121.26 221.15 9/15/2017 •• 218.47 218.47 8/21/2020 220.89 221.18 221.04 9/16/2017 •• 218.47 218.47 8/22/2020 220.87 221.09 220.911 9/17/2017 '• 218.47 21647 8/23/2020 22081 221.01 220.91 9/18/2017 •• 218.40 218.40 8/24/2020 220.69 220.93 220.81 9/19/2017 •• 218.39 2I8.39 8/25/2020 220.55 220.86 220.71 9/20/2017 •• 218.39 218.39 8/26/2020 220.56 220.78 I20.67 9/21/2017 218.39 218.39 8/27R020 22054 220.76 I20.65 9/22/2017 218.33 218.33 3/28/2020 220.46 220.69 220.58 9/23/2017 •• 21831 218.31 e/29/2020 220.40 220.67 220.54 9/24/2017 •• 218.31 218.31 8/30/2020 220.38 220.60 220.49 9/25/2017 •• 218.25 218.25 8/31/2020 220.32 220.53 220.43 9/26/2017 •• 218.23 218.23 9/1/2020 220.69 220.93 220.81 9/27/2017 •• 218.23 218.23 9/2/202a 220.70 220.93 220.82 • Zero value reading or communication failure •• Reading nor calibrated or meter error • • • Na reading available on this day Date/Time 9/28/2017 9129/2017 9/30/2017 10/1/2017 1503750AIhl AVERAGE DAILY AVERAGE DA117 L5C87508 (It1 VALUE USED Date/time 15C8750A {NI L5E87506lit) VALUE USED 218.23 218.23 9/3/2020 220.56 • I20.56 218.17 218.17 9/4/2020 220.57 220.86 220.72 218.14 216.14 9/5/2020 220.54 220.76 220.65 10/2/2017 20/3/2017 10/4/2017 10/5/2017 10/6/2017 218.07 218.07 9/6/2020 220.46 220.67 220.57 I18.08 218.08 9/7/2020 220.40 220.58 220-49 218.05 2I8.05 9/8/2020 220.32 220.51 220.42 2I7.99 217.99 9/9/2020 220.32 220.49 220.41 217.98 217.98 9/10/2020 220.29 220.49 220.39 217.97 217.97 9/11/2020 220.24 220.44 220.34 10/7/2017 10/8/20E7 10/9/2017 10/10/2017 10/11/2017 10/12/2017 10/13/2017 10/14/2017 10/15/2017 19/16R917 217.97 217.97 9/12/2020 220.30 220.49 220.40 117.97 217.97 9/13/2020 220.28 220.48 220.38 217.92 217.92 9/14/2020 220.23 220.43 I20.33 217.90 217.90 9/I5/2020 220.20 220.40 220.30 217.84 217.84 9/I6/2020 220.15 220.34 220.I5 217.82 217.82 9/17/2020 220.14 220.33 220.24 217.76 217 76 9/18R020 220.30 220.49 220.40 217 74 217 74 9/19/2020 220.29 220.47 220.38 10/17/2017 I0/18/2017 10/19/2017 10/20/2017 10/21/2017 10/22/2017 21774 21774 9/20/2020 220.22 220.46 220.34 217 72 217 72 9/21/2020 220.21 210.40 220.31 217.70 217.70 9/22/2020 220.20 220.40 22030 217.70 217.70 9/23/2020 229.12 220.31 220.22 II7.66 217.66 9/24/1020 220.11 220.30 220.21 217.63 217.63 9/25/2020 220.20 220.38 220.29 217.63 217.63 9/26/2020 220.53 220.71 220.62 10/23/2017 10/24/2017 10/25/2017 10/26/2017 10/27/2017 10/28/2017 10/29/2017 217.58 21756 9/27/2020 220.56 220.74 I20.65 217.57 217.57 9/28/2020 220.53 220.72 220.63 217.79 217.79 9/29/2020 220.53 220.73 220.63 217.82 217.82 9/30/2920 220.66 220.89 220.79 217.80 217.80 10/1/2020 220.68 220.89 220.79 217.80 217.80 10/2/2020 220,56 220.82 220.69 217.80 217.80 10/3/2020 22056 220.75 220.66 217.79 217 79 I0/4/2020 22054 220.73 220.64 10/30/2017 10/31/2017 11/1/2017 11/2/2017 11/3/2017 11/4/2017 11/5/2017 217.81 217.81 10/5/2020 220.45 220.65 220.55 217.80 217.80 10/6/2020 220.46 2I0.65 220.56 217.74 217.74 10/7/2020 220 40 220.56 220.48 217.74 2I7.74 10/8/2020 220.38 220.56 220.47 217.74 217.74 10/9/2020 220.32 220.50 220.41 2I7.71 217.71 10/10/2020 2I11.30 220.47 22039 217.72 217.72 10/11/2020 220.29 22047 220.38 11/6/2017 11/7/2017 217.72 217.72 10/12/2020 220.37 220.55 220.46 217.7I 217.71 10/13/2020 220.31 220.51 220.41 11/8/2017 1119/2017 11/10/2017 11/11/2017 11/12/2017 11/13/2017 ••• 10/14/2020 220.30 220.49 220.40 217.66 217.66 10/15/2020 220.29 220.47 220.38 217.65 217.65 10/I6R020 220.31 220.49 220.40 217.64 217.64 10/17/2020 210.39 220.57 220.48 217.63 217.63 10/18/2020 220.37 220.5S 220.46 217.65 217.65 10/19/2020 220.37 220.56 220.47 11/14/2017 10 217.63 217.63 10/20/2020 220.31 220.48 220,40 11/15/2017 11/16/2017 O. 11/17/2017 11/18/2017 11/19/2017 11/20/2017 11/I1/2017 11/22/2017 I/J23/2017 11/24/2017 11/25/2017 11/26/2017 11/27/2017 11/2812017 11/29/2017 11/30/2017 12/1/2017 12/2/2017 12/3/2017 12/4/2017 66 PP • ••• 10/11/2020 220.29 220.46 220.38 217.62 217.62 10/22/2020 220.29 220,46 220.38 217.62 217.62 10/23/2020 220.29 220.46 220.38 217.62 217.62 10/24/2020 I20.24 220.41 229.33 21757 217.57 10/25/2020 220.21 22041 220.31 2I7.57 217.57 10/26/2020 220.21 220.42 220.32 217.55 21755 10/27/2020 220.21 220.39 I20.30 217.54 217.54 10/28/2020 220.2I 220.38 220.30 21755 21755 10/29/2020 220.22 220.40 22031 217.54 217.54 10/30/2020 220.15 220.31 220.23 217.49 217.49 10/31/2020 220.13 220.29 220.21 217.46 217.46 11/1/2020 220.12 220.30 220.21 217.46 217.46 11/I/2029 220.12 220-30 220.21 217.46 217.46 11/3/2020 22006 220.24 210.15 217.45 217.45 I1/4/2020 220,06 220.24 220.15 217.40 I17.40 11/5/2020 22005 220.22 220.14 12/5/2017 217.40 217.40 11/6/2020 220.04 220.22 220.13 217.39 217.39 11/7/2020 220.05 220.21 220.13 217.37 217.37 11/8/2020 22005 220.18 220.12 217.38 2I7.38 1119/2020 220.04 220.16 220.10 217.38 217.38 11/10/2020 219.98 220.15 220.07 12/6/2017 I17.33 217.33 • Zero value reading or Communication failure •• Reading not calibrated or meter error "' No reading available on this day