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Home My WebLink AboutDDW-2025-002527Sheet2 NOTES UV Reactor 6 UV Reactor 5 Sheet1 UV Reactor 4 UV Reactor 3 UV Reactor 2 UV Reactor 1 UV Summary UV Rule, Read Only SEQUENCE 7 SEQUENCE 6 Sequence 5 Ozone 3 Sequence 4 Ozone 2 Seqence 3 Ozone 1 Sequence 2 Basin Cl2 Sequence 1 FWR Cl2 READ ME DISINFECTION REPORT WQP Report Turb Data Turb Compliance CAdditional CAssigned CRequired date GAdditional GAssigned GRequired LPCrypto LPGiardia LPVirus MaxFlowVal MinBalLVal MinFlowVal MinREDVal MinRowsVal MinUVTVal MPCrypto MPGiardia MPVirus Reactor1RED Reactor1RED Reactor1RED Reactor1RED Reactor1RED Reactor1RED Sequence Sequence UT309Crypto UT309Giardia UT309Virus VAdditional ValidationTable VAssigned VRequired Month: Filtration Technology: Year: Date Max NTU A. B. Date of Turbidity Exceedance (NTU) Total Number of Turbidity Measurements Taken: Monthly Report for Water Treatment Technique Compliance - Turbidity 4 Hour Combined Filter Turbidity Readings Percent of Turbidity Measurements Less Than 0.3 NTU: Total Number of Turbidity Less Than 0.3 NTU Type of Event (Turbidity Duration limit only) (Hours) to State Notice --- none Hours of Operation Reading Daily Number Readings System Number: Prepared by: Treatment Plant: Utility Name: Reported Public exceeds 1 NTU or plant Pertinent Value >0.5 NTU at 4 hrs consecutive 15 min reads based upon two >1.0 NTU >1.0 NTU anytime on same filter for 3 months in a row >2.0 NTU filter for 2 Date of profile: a* c* d* and must be completed within 90 days of exceedance n/a C. Turbidimeter Calibration Data Combined Filter Effluent (CFE) Turbidimeter Last Calibrated: Individual Filter (IF) Turbidimeter Last Calibrated: Please record the date of the following turbidimeter calibrations. All turbidimeters on CFE and IF must be calibrated monthly. <0.3 NTU Finished Water Data Temperature pH (°C) Monthly Report for Water Compliance - Water Quality Parameters D. Min POE Total Inactivation (mg/L) E. Record the date of occurrence, duration and date reported for each time the disinfectant residual was less than 0.2 mg/L or the total Inactivation Ratio was less than 1. Attach details of public notice for each event. If none, enter "none". Pertinent Residual or Date of Public Notice F. Distribution System Disinfectant Residual Criteria Number of sites where disinfectant residual measurements were made A = Number of sites where HPC samples were taken instead of residual measurements B = Number of sites where no residual was detected and no HPC sample was taken C = Number of sites where no residual was detected and HPC exceeded 500 D = Number of sites where no residual measurement was made and HPC exceeded 500 E = Violation percentage for this month* Violation percentage for last month* Violation percentage = 100x(C+D+E)/(A+B) Inactivation Ratio Calculation - All data for the same point in time, and at the end of the sequence. Peak Flow Inactivation CT Provided Ratio (min.*mg/L) AVG MAX MIN Cl2 Res Monthly Report for Water Treatment Technique Compliance - Disinfection FIRST DISINFECTION SEQUENCE Detention Time (Minutes) (mg/l) (Deg C) Record the date and turbidity value for any measurements exceeding the plant limit. Indicate whether the event being reported also exceeds 1 NTU. Attach details of public notice for each event. If none, enter "none." Combined Filter Effluent (CFE) Turbidity Individual Filter (IF) Turbidity Filter # *a. Action item - filter profile must be completed within 7 days of exceedance. *b. Action item - filter profile must be completed within 7 days of exceedance. *c. Action item - filter self assessment must be completed within 14 days of exceedance. Max NTU 1st - 4 hr 2nd - 4 hr 3rd - 4 hr 4th - 4 hr 5th - 4 hr 6th - 4 hr Raw Water Division of Drinking Water Systems <10,000 not required to meet these standards until January 2005 Max Turb Conventional b* Systems >10,000 only and must be completed within 120 days of exceedance MWDSLS Date of self assessment: *d. Action item - Systems >10,000 -third party comprehensive performance evaluation arranged for within 30 days Systems <10,000 -third party comprehensive performance evaluation arranged for within 60 days List the turbidity values in the following categories for any individual filter exceedances Chlorine Dioxide DO NOT TYPE IN DISINFECTANT CELL !!! Select Disinfectant from Dropdown list. User Changeable cells Giardia Virus Day Peak Flow Actual Giardia Log Virus Log of Disinfectant Residual Month Credit Free Chlorine Ozone1 Ozone USING THE DISINFECTION SEQUENCE SHEETS After selecting the tab (SEQUENCE 1 …) go to the top of the page to cell A2 and select it. The dropdown arrow will appear to the right of the cell. Click on the arrow and the list appears. Select the type of disinfection used at your facility from the list. When you select it that will show in the cell. The formula to calculate your Log Removal for Giardia and Viruses will be used according to your selection. The rest of this sheet funtions as before and you will fill in the blanks just as you have previously. The DISINFECTION REPORT This sheet has changed to reflect that there are disinfection ratios for both Giardia and Virus and they are separate. Appendix O of the EPA’s Guidance Manual for Compliance with the Filtration and Disinfection states the following with respect to the first chamber of an ozone contactor: Requirements for Public Water System Using Surface Water Sources (March 1991) “EPA recommends a general guideline of crediting the first ozone chamber with CT credits equivalent to 1-log virus inactivation and 0.5-log Giardia inactivation, provided that the residual concentration measured at the However, this guideline does assume that the volume of the first chamber is equal outlet of the first contact chamber exceeds 0.1 mg/L and 0.3 mg/L, respectively, regardless of the contactor configuration. to the volume of subsequent chambers." Free Chlorine: Log-reduction = CT Actual / [0.2828 x (pH)^2.69 x (Free Cl Conc.)^0.15 x 0.933^(Temp. - 5)] Chlorine Dioxide: Log-reduction = {[CT Actual x (Temp.)^0.49] + 0.18} / 23.85 Ozone: Log-reduction = {[CT Actual x e^(0.072 x Temp.)] - 0.01} / 0.98 Free Cl (pH 6-9): Log-reduction = {[CT Actual x e^(0.071 x Temp.)] - 0.42} / 2.94 Free Cl (pH 10): Log-reduction = {[CT Actual x e^(0.071 x Temp.)] - 0.21} / 22.37 Log-reduction = {[CT Actual x e^(0.072 x Temp.)] + 35.15} / 21.25 Log-reduction = {[CT Actual x e^(0.068 x Temp.)] - 0.01} / 0.47 during peak daily flow based on the following formulas: ClO2 (pH 6-9): These worksheets, used together, will automatically determine the log-reduction of Giardia cysts by your system These worksheets, used together, will also automatically determine the log-reduction of viruses by your system These formulas were derived by AWWA and the Cadmus Group, Inc. based on the log-removal tables published in the "Guidance Manual for Compliance with the Filtration and Disinfection Requirements for Public Water Systems Using Surface Water Sources", published by AWWA (Appendices E and F). NOTE: Ozone1 is only to be used in special cases for a first contactor allowing credit for the initial ozone residual. They are separate because Giardia Inactivation and Virus Inactivation are separate compliance requirements. They are also separate because ozone can satisfy Giardia Inactivation without satisfing Virus Inactivation. Check each column for each day to make sure that the ratio is 1.0 or higher for both Giardia and Virus for compliance. Virus Log Inactivation Credit assigned by the DDW for this treatment facility: Giardia Log Inactivation Credit assigned by the DDW for this treatment facility: Fill in the other user squares that address the Inactivation credit and requirements assigned to your facility. Save the blank NEW_MasterMonthly report on your computer as a template. With the NEW_MasterMonthly open go to file and select Save As. Then name the report for the month being reported, You may also decide to rename the Sequence tabs for your disinfection processes at your facilities. This allows you to put things in the same order each month and will avoid confusion. Save these changes. save the newly created file in a location with all of the monthly reports for that calendar year. This is different than Free Chlorine and Chlorine Dioxide where if Giardia removal is satisfied so is Virus removal. UV Disinfection Sequences IF these values are not met the numbers will be red. (4) Monitoring and Reporting (a) Systems using Ultraviolet disinfection will be given inactivation crdit for giardia, cryptosporidium, (f) Operation and Maintenance. (ii) Operators shall receive site-specific training on the operation of the Uv disinfection system. UV Reactor 1 WEEK 1 WEEK 2 WEEK 3 WEEK 4 WEEK 5 Initials Date of last comparison of reference sensors to confirm accuracy. Date of last annual calibration of reference sensors by UV vendor. Our spectrophotometer meets specifications as per rule. This reactor was in service this month. Minimum Validated RED for this Reactor. MGD Giardia Log Inactivation Credit assigned by the DDW for this treatment facility: Virus Log Inactivation Credit assigned by the DDW for this treatment facility: mm/dd/yy Numbers appearing red in the above columns indicate "Out of Compliance" then select Unhide. This will bring a list of the hidden worksheets available. Select the next numbered worksheet higher than the last one you have showing. If you have 1,2, and 3 showing then select Sequence 4 and it will show up on There are 7 Disinfection Sequence Worksheets included in this workbook. (Not including UV) Sequence 1, 2, and 3 are showing. The rest are hidden. To make them show up and use them go to Format on the menu above, Select Sheet from the dropdown and Enter once, Should not change. 4 Hour Combined Minimum RED UV Readings Maximum Flow validated for this reactor. UVT Lamp Rows Do Not enter readings for times with no flow thru reactor. Tier 1 RED Targets for UV Reactors with LP or LPHO Lamps Log - Tier 1 RED Targets for UV Reactors with MP Lamps RED Target (mJ/cm2) These values are taken from the USEPA Draft Proposal of Total Production OFF-SPEC Events Minimum UVT validated for this reactor. YES NO Tier 1 LP or LPHO Lamps Tier 1 MP Lamps SELECT your validated table. RED TOTALS Unit Run Total (MG) OFF_SPEC Volume (MG) UV COMPLIANCE Validated RED < # Service Indicator COMPLIANCE CERTIFICATION Disinfection Sequences Go to the tab "UV Rule, Read Only" Virus inactivation by UV is not calculated or credited as it is VERY unlikely that UV systems will achieve significant virus credit. UV Compliance has been added to the DISINFECTION REPORT. Inactivation of Giardia by UV has been added to the DISINFECTION REPORT. To hide tabs go to the one you wish to hide, select Format from the main menu, select Sheet from the dropdwn and then select Hide. the worksheet tabs. Use as many sheets as you have sequences. You may hide the rest. DO NOT DELETE ANY WORKSHEETS. DO NOT DELETE THE UV REACTOR WORKSHEETS. You may hide them if you do not need them. Notify DDW within 24 hours of any turbidity exceedances (801-536-4200) In this file decide how many Disinfection Sequences you have, hide the rest. Total Giardia Log Inactivation required by the DDW for this treatment facility: Total Virus Log Inactivation required by the DDW for this treatment facility: Additional Giardia Log Inactivation required by the DDW for this treatment facility: Additional Virus Log Inactivation required by the DDW for this treatment facility: Flow and Dimensional Analysis Cubic Feet Length in Feet Width in Feet Depth in Feet Flows 1 gallon per minute(GPM) = 1440 gallons per day Enter GPM GPD GPH LPM LPD 1 cubic foot per second (CFS) = 646,272 gallons per day = 44,838 gallons per minute = 0.645 MGD Enter CFS GPM 1 Million gallons per day (MGD) = 1.55 CFS = 694.4 GPM Enter MGD CFS FLOW in GPM Use conversion Chart below to determine GPM Flow. Peak Flow Detention Time (Minutes) Total Volume Gallons State Assigned Baffle Factor Decimal of Feet Enter Number of Inches Remember to Divide by the number of Basins or Filters for Individual Sequence Flow R309-520-8. Ultraviolet Light (b) UV or UVT sensor verification checks shall be required. UV sensors and on-line UVT monitors (iii) Check duty UV sensors monthly, using the reference sensors. (i) Use at least three reference UV sensors. (ii) Compare reference sensors to confirm reference sensor accuracy. (iv) Provide annual calibrations of reference UV sensors by the UV vendor. (v) Re-calibrate or replace duty and reference UV sensors if the checks indicate excessive drift or error (greater than 9%). (vi) Provide weekly checks of on-line UVT monitor using a spectrophotomer with a 4 or 5 cm cuvette. shall meet criteria in the validation report and the following: and viruses as per the design criteria and validation report. Since no disinfection residual results from the UV process, it will be necessary to supplement this disinfection process with chlorination to achieve a distribution residual. traceceable UV absorbance standards should be used to verify spectrophotometer accuracy. (vii) Check blanks used to zero spectrphotomer against zero absorbance water standards. NIST (c) Flow rate, UV intensity, lamp status, and UV dose shall be monitored continuously. If the dose Monitoring algorithm uses UVT as an input, UVT shall be monitored continuously. Power consumption ballast power settings, lamp hours, sleeve cleaning, alarms, cumulative number of on/off cycles and sensor status/calibration can provice useful information to the system. (d) Submit a monthly report to the Division that contains: (i) Off-specification operation time (with a 15-minute response time allowance). Off-specification time is (ii) Lowest RED (Reduction Equivalent Dose) per 4 hours of operation. defined as the time the system is operating outside the validated conditions. Systems (Unfiltered, Filtered, and Groundwater) shall operate within validated conditions 95% of the time. (e) Failure to operate within validated conditions 95% of the operation time constitutes a violation. (i) The UV reactor manufacturer must provide a site-specific operation and maintenance manual, which shall include the procedure for starting up and shutting down the UV treatment system. (iii) Startup testing. Provide schedules and performance standards for startup testing and initial operation. Schedules shall include anticipated startup date and proposed testing duration. Performance standards should reference applicable regulations and specific equipment capabilities. (iv) An incident plan shall be developed to address lamp breakage and release of mercury, response to alarms, power supply interuptions, activation of standby equipment, failure of systems, etc. Cryptosporidium Log Inactivation Credit assigned by the DDW for this treatment facility: Total Giardia Log Inactivation required by the DDW for this treatment facility: Additional Giardia Log Inactivation required by the DDW for this treatment facility: Additional Virus Log Inactivation required by the DDW for this treatment facility: Total Virus Log Inactivation required by the DDW for this treatment facility: Total Cryptosporidium Log Inactivation required by the DDW for this treatment facility: Additional Cryptosporidium Log Inactivation required by the DDW for this treatment facility: If the percent is greater than 5.0 it will show red, this facility is out of compliance!! Facility meets off-specification requirement (< 5% of volume on a monthly basis). (MIN) R309-520-8 (b) UV or UVT sensor verification checks shall be required. UV sensors and on-line UVT monitors (v) Re-calibrate or replace duty and reference UV sensors if the checks indicate excessive drift or error (greater than 9%). Date of last replacement of duty or reference UV sensor due to excessive drift or error. Date of last monthly check of duty UV sensors using reference sensors. Minimum Flow Validated for this reactor. Minimum Ballast Setting % validated for this reactor. UT 309-215-15(19)(d), Table 215-5 Note: on the DISINFECTION REPORT tab all reactor totals will be combined for each month for the facility compliance. SCADA Worksheet Reactor Numbers Ballast Power Setting Giardia ` Min Treated Daily Flow (MGD) Time in Daily Volume Total Volume Number of Total Time Min RED UV 2nd - 4 hr 1st - 4 hr 3rd - 4 hr 4th - 4 hr 5th - 4 hr 6th - 4 hr If the percent is greater than 5.00% it will show red, this individual reactor is out of compliance. Total OFF-SPEC Percentage based on monthly volume. Actual Log Inactivation Actual Log Inactivation Crypto should be used to verify spectrophotometer accuracy. Enter once, should not Change. Total Number of UV sensors per reactor Number of sensors calibrated out of Total Number per reactor in service Correction Factor Applied Flow Rate % Ballast Setting Total Off specification water produced as a % of the volume of water produced Date Reported Total Inactivation Ratio Value Type of Event (Residual or Total Inactivation) OFF-SPEC REPORT MONTHLY COMBINED UV REACTOR & OFF-SPEC DATA Dates Checked Number of calibrated sensors within Tolerance Range Reactor # the UV Disinfection Guidance Manual, 2003 GIARDIA Compliance Ratio for all Reactors DAILY VIRUS Compliance Ratio for all Reactors CRYPTO Compliance Ratio for all Reactors INSTRUCTIONS The numbers in red below are NOT part of the original tables, they were added to make the excel lookup function work correctly. That is also why the tables are duplicated for each target with the numbers for the UV in the first column for that particular target. Reference Tables 20& 21 Number of Rows The Minimum # of rows in Service The Minimum Power Ballast Setting The Minimum UVT The Minimum Flow Rate The Maximum Flow Rate Lamps Record the daily minimum disinfectant residual at the point-of-entry (POE) to the distribution system. UV Intensity Correction Factor (if sensor fails calibration and must remain in service) The Yellow boxes below need to be filled out each month to show compliance. The info above is automatically brought from the Reactor Worksheets Time/MIN Calculated Virus Removal Required Calculated Giardia Removal Required Calculated Crypto Removal Required Only enter data into yellow cells, all other cells are protected. Number of 4 hour RED Measurements < the Minimum Validated RED: Ballast % UV Reactor 6 UV Reactor 2 UV Reactor 3 UV Reactor 4 UV Reactor 5 The daily plant total inactivation ratio (CTprovided/CTrequired) will come out of the worksheets. NA (Not Applicable) in the Crypto Column indicates no removal is required at this facility. No Data from Individual Reactors will show on this sheet unless the Reactor shows ON on that Reactor Tab. If the Calculated Crypto Removal Required is zero the calculations on this tab, the UV Reactor CT Consolidation tab, and on the Disinfection Report tab will show as NA Daily Time This sheet is for reporting for one reactor only. The yellow boxes are all to be filled in by the person doing the reporting. Fill in the answers to the ones directly below one time and "Save as" I suggest you name this book as Reporting template. Every Month open the reporting template and "Save as" and name the sheet for the month being reported EX. ReportMarch2010. The rest of the yellow blanks on this sheet are to the right further, starting with Column Q to Column AI. The info requested there should come out of your SCADA system. CT CREDITS On The purpose of this page is to be even more conservative and take the lowest Ratio for the day from all of the reactors in service and use it for the compliance number for UV for the day to add on to the correct day and column totaling all the different CT worksheets onto the CT Disinfection Report. You can only report one of the reactors (the lowest one) unless you wish to make up a separate report for each reactor as they are side by side and not one after the other and the CT values are not additive one on top of the others. This works automatically as you fill in the information on Reactor 1 thru Reactor 6 Tabs. Follow the Instructions on each tab to fill in. TARGET LOG DISINFECTION/INACTIVATION/REMOVAL Enter only on Disinfection Report. %UVT The Minimum RED Time in Total Volume Daily Volume Daily Time Total Time These values are taken from the Utah Drinking Water Rules Total Giardia Log Disinfection/Inactivation/Removal required by the DDW for this treatment facility: Giardia Log Disinfection/Inactivation/Removal Credit assigned by the DDW for this treatment facility: Total Virus Log Disinfection/Inactivation/Removal required by the DDW for this treatment facility: Virus Log Disinfection/Inactivation/Removal Credit assigned by the DDW for this treatment facility: Total Cryptosporidium Log Disinfection/Inactivation/Removal required by the DDW for this treatment facility: Cryptosporidium Log Disinfection/Inactivation/Removal Credit assigned by the DDW for this treatment facility: Additional Giardia Log Disinfection/Inactivation/Removal required by the DDW for this facility: Additional Virus Log Disinfection/Inactivation/Removal required by the DDW for this facility: Additional Cryptosporidium Log Disinfection/Inactivation/Removal required by the DDW for this facility: If the Calculated Crypto Disinfection/Inactivation/Removal Required is zero the calculations on this tab, the UV Reactor CT Consolidation tab, and on the Disinfection Report tab will show as NA Minimum Rows of "Lamps on" validated for this reactor. OFF-SPEC reporting Our system uses at least two reference UV sensors. This page is outdated. Use "UV Monitoring and Reporting Protocol" instead. Or delete this page. DISINFECTION CREDITS C14:C44? why C8:C38? Cláudia Bauleth UTAH18016 c (vii) Check blanks used to zero spectrophotomer against zero absorbance water standards. NIST traceceable UV absorbance standards TP003 POINT OF THE MOUNTAIN December TP003 POINT OF THE MOUNTAIN treatment plant went off-line on 12/17/2020, at 16:05. TP003 POINT OF THE MOUNTAIN treatment plant went off-line on 12/17/2020, at 16:05. treatment plant went off-line on 12/17/2020, at 16:05. 3.00 1.00 1.00 6.00 5.00 7.00 7.00 2.00 4.00 11.00 ?12?/?1?/?2020 0.00 1.00 0.00 0.00 0.00 1.00 0.00 ?12?/?1?/?2020 NA ?12?/?2?/?2020 1.00 0.00 ?12?/?2?/?2020 1.00 NA ?12?/?3?/?2020 0.00 ?12?/?3?/?2020 NA ?12?/?4?/?2020 0.00 ?12?/?4?/?2020 NA ?12?/?5?/?2020 0.00 ?12?/?5?/?2020 NA ?12?/?6?/?2020 0.00 ?12?/?6?/?2020 NA ?12?/?7?/?2020 0.00 ?12?/?7?/?2020 NA ?12?/?8?/?2020 0.00 ?12?/?8?/?2020 NA ?12?/?9?/?2020 0.00 ?12?/?9?/?2020 NA ?12?/?10?/?2020 0.00 ?12?/?10?/?2020 NA ?12?/?11?/?2020 0.00 ?12?/?11?/?2020 NA ?12?/?12?/?2020 0.00 ?12?/?12?/?2020 NA ?12?/?13?/?2020 0.00 ?12?/?13?/?2020 NA ?12?/?14?/?2020 0.00 ?12?/?14?/?2020 NA ?12?/?15?/?2020 0.00 ?12?/?15?/?2020 NA ?12?/?16?/?2020 0.00 ?12?/?16?/?2020 NA ?12?/?17?/?2020 0.00 ?12?/?17?/?2020 NA ?12?/?18?/?2020 0.00 ?12?/?18?/?2020 NA ?12?/?19?/?2020 0.00 ?12?/?19?/?2020 NA ?12?/?20?/?2020 0.00 ?12?/?20?/?2020 NA ?12?/?21?/?2020 0.00 ?12?/?21?/?2020 NA ?12?/?22?/?2020 0.00 ?12?/?22?/?2020 NA ?12?/?23?/?2020 0.00 ?12?/?23?/?2020 NA ?12?/?24?/?2020 0.00 ?12?/?24?/?2020 NA ?12?/?25?/?2020 0.00 ?12?/?25?/?2020 NA ?12?/?26?/?2020 0.00 ?12?/?26?/?2020 NA ?12?/?27?/?2020 0.00 ?12?/?27?/?2020 NA ?12?/?28?/?2020 0.00 ?12?/?28?/?2020 NA ?12?/?29?/?2020 0.00 ?12?/?29?/?2020 NA ?12?/?30?/?2020 0.00 ?12?/?30?/?2020 NA ?12?/?31?/?2020 1.00 0.00 ?12?/?31?/?2020 1.00 NA 0.00 1.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 1.00 0.00 1.00 0.00 1.00 2.00 0.00 40.00 0.00 85.00 0.00 2.00 0.00 74.00 0.00 12.78 0.00 0.00 0.00 3.00 1.00 1.00 6.00 5.00 7.00 7.00 2.00 4.00 11.00 ?12?/?1?/?2020 0.00 1.00 0.00 0.00 0.00 1.00 0.00 ?12?/?1?/?2020 NA ?12?/?2?/?2020 1.00 0.00 ?12?/?2?/?2020 1.00 NA ?12?/?3?/?2020 0.00 ?12?/?3?/?2020 NA ?12?/?4?/?2020 0.00 ?12?/?4?/?2020 NA ?12?/?5?/?2020 0.00 ?12?/?5?/?2020 NA ?12?/?6?/?2020 0.00 ?12?/?6?/?2020 NA ?12?/?7?/?2020 0.00 ?12?/?7?/?2020 NA ?12?/?8?/?2020 0.00 ?12?/?8?/?2020 NA ?12?/?9?/?2020 0.00 ?12?/?9?/?2020 NA ?12?/?10?/?2020 0.00 ?12?/?10?/?2020 NA ?12?/?11?/?2020 0.00 ?12?/?11?/?2020 NA ?12?/?12?/?2020 0.00 ?12?/?12?/?2020 NA ?12?/?13?/?2020 0.00 ?12?/?13?/?2020 NA ?12?/?14?/?2020 0.00 ?12?/?14?/?2020 NA ?12?/?15?/?2020 0.00 ?12?/?15?/?2020 NA ?12?/?16?/?2020 0.00 ?12?/?16?/?2020 NA ?12?/?17?/?2020 0.00 ?12?/?17?/?2020 NA ?12?/?18?/?2020 0.00 ?12?/?18?/?2020 NA ?12?/?19?/?2020 0.00 ?12?/?19?/?2020 NA ?12?/?20?/?2020 0.00 ?12?/?20?/?2020 NA ?12?/?21?/?2020 0.00 ?12?/?21?/?2020 NA ?12?/?22?/?2020 0.00 ?12?/?22?/?2020 NA ?12?/?23?/?2020 0.00 ?12?/?23?/?2020 NA ?12?/?24?/?2020 0.00 ?12?/?24?/?2020 NA ?12?/?25?/?2020 0.00 ?12?/?25?/?2020 NA ?12?/?26?/?2020 0.00 ?12?/?26?/?2020 NA ?12?/?27?/?2020 0.00 ?12?/?27?/?2020 NA ?12?/?28?/?2020 0.00 ?12?/?28?/?2020 NA ?12?/?29?/?2020 0.00 ?12?/?29?/?2020 NA ?12?/?30?/?2020 0.00 ?12?/?30?/?2020 NA ?12?/?31?/?2020 1.00 0.00 ?12?/?31?/?2020 1.00 NA 0.00 1.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 1.00 0.00 1.00 0.00 1.00 2.00 0.00 40.00 0.00 85.00 0.00 2.00 0.00 74.00 0.00 12.78 0.00 0.00 0.00 ?12?/?1?/?2020 0.00 1.00 0.00 0.00 0.00 1.00 0.00 ?12?/?1?/?2020 NA ?12?/?2?/?2020 1.00 0.00 ?12?/?2?/?2020 1.00 NA ?12?/?3?/?2020 0.00 ?12?/?3?/?2020 NA ?12?/?4?/?2020 0.00 ?12?/?4?/?2020 NA ?12?/?5?/?2020 0.00 ?12?/?5?/?2020 NA ?12?/?6?/?2020 0.00 ?12?/?6?/?2020 NA ?12?/?7?/?2020 0.00 ?12?/?7?/?2020 NA ?12?/?8?/?2020 0.00 ?12?/?8?/?2020 NA ?12?/?9?/?2020 0.00 ?12?/?9?/?2020 NA ?12?/?10?/?2020 0.00 ?12?/?10?/?2020 NA ?12?/?11?/?2020 0.00 ?12?/?11?/?2020 NA ?12?/?12?/?2020 0.00 ?12?/?12?/?2020 NA ?12?/?13?/?2020 0.00 ?12?/?13?/?2020 NA ?12?/?14?/?2020 0.00 ?12?/?14?/?2020 NA ?12?/?15?/?2020 0.00 ?12?/?15?/?2020 NA ?12?/?16?/?2020 0.00 ?12?/?16?/?2020 NA ?12?/?17?/?2020 0.00 ?12?/?17?/?2020 NA ?12?/?18?/?2020 0.00 ?12?/?18?/?2020 NA ?12?/?19?/?2020 0.00 ?12?/?19?/?2020 NA ?12?/?20?/?2020 0.00 ?12?/?20?/?2020 NA ?12?/?21?/?2020 0.00 ?12?/?21?/?2020 NA ?12?/?22?/?2020 0.00 ?12?/?22?/?2020 NA ?12?/?23?/?2020 0.00 ?12?/?23?/?2020 NA ?12?/?24?/?2020 0.00 ?12?/?24?/?2020 NA ?12?/?25?/?2020 0.00 ?12?/?25?/?2020 NA ?12?/?26?/?2020 0.00 ?12?/?26?/?2020 NA ?12?/?27?/?2020 0.00 ?12?/?27?/?2020 NA ?12?/?28?/?2020 0.00 ?12?/?28?/?2020 NA ?12?/?29?/?2020 0.00 ?12?/?29?/?2020 NA ?12?/?30?/?2020 0.00 ?12?/?30?/?2020 NA ?12?/?31?/?2020 1.00 0.00 ?12?/?31?/?2020 1.00 NA 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 2.00 0.00 40.00 0.00 85.00 0.00 2.00 0.00 74.00 0.00 12.78 0.00 0.00 ?12?/?1?/?2020 0.00 1.00 0.00 0.00 0.00 1.00 0.00 ?12?/?1?/?2020 NA ?12?/?2?/?2020 1.00 0.00 ?12?/?2?/?2020 1.00 NA ?12?/?3?/?2020 0.00 ?12?/?3?/?2020 NA ?12?/?4?/?2020 0.00 ?12?/?4?/?2020 NA ?12?/?5?/?2020 0.00 ?12?/?5?/?2020 NA ?12?/?6?/?2020 0.00 ?12?/?6?/?2020 NA ?12?/?7?/?2020 0.00 ?12?/?7?/?2020 NA ?12?/?8?/?2020 0.00 ?12?/?8?/?2020 NA ?12?/?9?/?2020 0.00 ?12?/?9?/?2020 NA ?12?/?10?/?2020 0.00 ?12?/?10?/?2020 NA ?12?/?11?/?2020 0.00 ?12?/?11?/?2020 NA ?12?/?12?/?2020 0.00 ?12?/?12?/?2020 NA ?12?/?13?/?2020 0.00 ?12?/?13?/?2020 NA ?12?/?14?/?2020 0.00 ?12?/?14?/?2020 NA ?12?/?15?/?2020 0.00 ?12?/?15?/?2020 NA ?12?/?16?/?2020 0.00 ?12?/?16?/?2020 NA ?12?/?17?/?2020 0.00 ?12?/?17?/?2020 NA ?12?/?18?/?2020 0.00 ?12?/?18?/?2020 NA ?12?/?19?/?2020 0.00 ?12?/?19?/?2020 NA ?12?/?20?/?2020 0.00 ?12?/?20?/?2020 NA ?12?/?21?/?2020 0.00 ?12?/?21?/?2020 NA ?12?/?22?/?2020 0.00 ?12?/?22?/?2020 NA ?12?/?23?/?2020 15.75 25.78 22.67 15.75 4.41 17.30 788.00 5.90 1.00 3.80 511.00 3.80 ?12?/?23?/?2020