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WQ0005763_Residual Annual Report 2020_20210129
Initial Review Reviewer Williams, Kendall Is this submittal an application? (Excluding additional information.)* r Yes r No If not an application what is the submittal type?* Annual Report Year* Permit Number (IR)* Applicant/Permittee Email Notifications .......................................................... ............. Does this need review by the hydrogeologist?* Regional Office CO Reviewer Admin Reviewer * Annual Report * Residual Annual Report r Additional Information r Other 2020 WQ0005763 Tuckaseigee Water and Sewer Auth. r Yes c No Asheville KendalI.Williams@ncdenr.gov Submittal Form Project Contact Information Rease provide information on the person to be contacted by N B Staff regarding electibnittal, confirmation of receipt, other .......................................................... electronic surece, aner correspondence. _ - Name * Stan Bryson Email Address* sbryson@tv,sanc.us Project Information ........ ......... ....................................................................................................................................... . Application/Document Type* r New (Fee Req ui red) r Modification - Major (Fee Required) r Renewal with Major Modification (Fee Required) r Annual Report r Additional Information r Other Phone Number* 828-586-9318 O Modification - Minor C Renewal C GW-59, NDMR, NDMLR, NDAR-1, NDAR-2 IT Residual Annual Report r Change of Ownership We no longer accept these monitoring reports through this portal. Please click on the link below and it will take you to the correct form. https://edocs.deq.nc.gov/Forms/NonDischarge_Monitoring_Report Permit Type:* r Wastewater Irrigation r High -Rate Infiltration r Other Wastewater r Reclaimed Water r Closed -Loop Recycle r Residuals r Single -Family Residence Wastewater r Other Irrigation Permit Number:* W00005763 Fbs Current Existing permt number Applicant/Permittee Address* 1246 West main St. Facility Name * TWSA Plant #1 Please provide comments/notes on your current submittal below. At this time, paper copies are no longer required. If you have any questions about what is required, please contact Nathaniel Thornburg at nathaniel.thornburg@ncdenr.gov. Please attach all information required or requested for this submittal to be reviewed here.* (Application Form} Engineering Rans, Specifications, Calculations, Bc.) 2020 Summary.pdf 368.79KB Upload only 1 FLFdocurrent (less than 250 `VB). Miltiple documents rust be confined into one RJFfile unless file is larger than upload limit. * V By checking this box, I acknowledge that I understand the application will not be accepted for pre -review until the fee (if required) has been received by the Non - Discharge Branch. Application fees must be submitted by check or money order and made payable to the North Carolina Department of Environmental Quality (NCDEQ). I also confirm that the uploaded document is a single PDF with all parts of the application in correct order (as specified by the application). Mail payment to: NCDEQ — Division of Water Resources Attn: Non -Discharge Branch 1617 Mail Service Center Raleigh, NC 27699-1617 Signature Submission Date 1/29/2021 Tuckaseigee Water and Sewer ACF Form 2020 ANNUAL LAND APPLICATION CERTIFICATION FORM WQ Permit#: WQ 0005763 County: Jackson Year: 2020 Facility Name (as shown on permit): Tuckaseigee Water and Sewer Authority Land Application Operator: Stan Bryson (lie 9 13180) Phone: (828) 586-9318 Land application of residuals as allowed by the permit occurred during the past calendar year? 0 Yes 0 No - If No, skip Part A, and Part B and proceed to Part C. Also, If residuals were generated but not land applied, please attach an explanation on how the residuals were handled. Part A - Residuals Application Summary: Total number of application fields in the permit: N/A Total number of fields utilized for land application during the year: N/A Total amount of dry tons applied during the year for all application sites: 1 213.8 Total number of acres utilizes for land application during the year: N/A Part B - Annual Compiance State me nt: Facility was compliant during calendar year 2020 with all conditions ofthe land application permit (including but not limited to items 1-13 below) issued by the Division of Water Resources0 Yes 0 No If no please, provide a written description why the facility was not compliant, the dates, and explain corrective action taken. 1) Only residuals approved for this permit were applied to the permitted sites. 2) Soil pH was adjusted as specked in the permit and lime was applied (if needed) to achieve a soil pH of at least 6.0 or the limit specified in the permit. 3) Annual soils analysis were performed on each site receiving residuals during the past calendar year and three (3) copies of laboratory results are attached. 4) Annual TCLP analysis (if required) was performed and three (3) copies of certified laboratory results are attached. 5) All other monitoring was performed in accordance with the permit and reported during the year as required and three (3) copies of certified laboratory results are attached. 6) The facility did not exceed any of the Pollutant Concentration Limits in 15A NCAC 02T .1105(a) or the Pollutant Loading Rates in 15A NCAC 02T .1105(b) (applicable to 40 CFR Part 503 regulated facilities). 7) All general requirements in as specified in the Land Application Permit were complied with (applicable to 40 CFR Part 503 regulated facilities). 8) All monitoring and reporting requirements in 15A NCAC 02T .1111 were complied with (applicable to 40 CFR Part 503 regulated facilities). 9) All operations and maintenance requirements in the permit were complied with or, in the case of a deviation, prior authorization was received from the Division of Water Resources. 10) No contravention of Ground Water Quality Standards occurred at a monitoring well or explanations of violations are attached to include appropriate actions and remediations. 11) Vegetative cover was maintained and proper crop management was performed on each site receing residuals, as specified in the permit. 12) No runoff of residuals from the application sites onto adjacent property or nearby surface waters has occurred. 13) All buffer requirements as specified on the permit were maintained during each application of residuals. Part C - Certification: "I certify, under penalty of law, that the above information is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations." Stan Bryson, WWTP Operations Supt. ,tz� i1i1/29/21 Permittee Name and Title (type or print) Signature of YZnnittee Date Signature of Preparer* Date Signature of Land Applier i Date (if different from Permittee) (if different from Permittee and Preparer) * Preparer is defined in 40 CFR Part 503.9 (r) and 15A NCAC 02T .1102 (26) Tuckaseigee Water and Sewer DMSDF Form 2020 ,ASS A ANNUAL DISTRIBUTION AND MARKETING/ SURFACE DISPOSAL CERTIFICATION AND SUMMARY FOP NQ PERMIT #: WQ0005763 FACILITY N� Tuckaseigee Water and Sewer Auth. PHONE: 828-586-9318 COUNTY: Jackson OPERATOR: Stan Bryson FACILITY TYPE (please check one): ❑ Surface Disposal (complete Part A (Source(s) and "Residual In" Volume only) and Part C) ❑ Distribution and Marketing (complete Parts A, B, and C) Was the facility in operation during the past calendar year? lei 11❑ —* If No skip parts A, B, C and certify form below Part A*: Part B*: Month Sources(s) (include NPDES # if applicable) Volume (dry tons) Recipient Information Amendment) Bulking Agent Residual In Product Out Name(s) Volume (dry tons) Intended use(s) January (TWSA Plant #1-NC0039578, 12.79 0 Bobby Collins 114 Hayfield February TWSA Plant #2-NC0020214, 13.31 20 H&H Farms 82.3 Hay/Corn field March and 33.35 17.5 Stan Bryson 17.5 Hayfield April TWSA Plant #3-NC0063321) 27.35 0 May All residuals produced by these 39.29 0 June three plants were combined. Total 26.34 48 July residuals in was calculated by press 25.5 18 August and dryer runs. 12.26 0 September Total product out was obtained by 5.69 0 October estimating weights on trucks. 55.2 21.3 November 42.96 44 December 20.93 45 Total from FORM DMSDF (sup) Totals: Annual d tons : 0 314.97 213.8 213.8 Amendments used:1 0 1 Bulking Agent(s) used: 0 x If more space is required, attach additional information sheets (FORM DMSDF (supp)): Total Number of Form DMSDF (Supp) Part C: Facility was compliant during the past calendar year with all conditions of the land application permit r❑ Yes (including but not limited to items 1-3 below) issued by the Division of Water Resources: ❑ No 0 If No, Explain in Narritive 1. All monitoring was done in accordance with the permit and reported for the year as required and three (3) copies of certified laboratory results are attached. 2. All operation and maintenance requirements were compiled with or, in the case of a deviation, prior authorization was received from the Division of Water Resources. 3. No contravention of Ground Water Quality Standards occurred at a monitoring well. "I certify, under penalty of law, that the above information is, to the best of my knowledge and befieli true, accurate and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations." 1 /29/20 Signature of Pcimid Date **Preparer is defined in 40 CFR Part 503.9(r) and 15A NCAC 2T .1102 (26) Signature of Preparer** (if different from Permittee) Date Tuckaseigee Water and Sewer RS SF Form 2020 ANNUAL RESIDUAL SAMPLING SUMMARY FORM Please note that your permit may contain additional parameters to be analyzed. The parameters can be reported in FORM RSSF - B WQ Permit Number: WQ0005763 Laboratory: 1) Pace Analytical Facility Name: Tuckaseigee Water and Sewer Auth 2) Environmental Testing Services Residual Source WQ # or 3) NCO039578 NPDES #: 4) WWTPName: TWSAPbnt41 5) Residual Analysis Data Ceiling Sample or Composite Date Parameter Conc. Limit (g) a 3/2 3/2 3/2 5/18 5/18 5/18 5/18 8/4 8/24 8/24 8/24 11/10 Percent Solids (%) NA 97.3 98 98 97 98 98 98 99.1 99 98 99 97 Arsenic 75 3.9 2 2.5 3.5 Cadmium 85 1.2 1.1 0.3 1 Copper 4,300 418 327 18.3 398 Chromium NA 24.4 18.1 66.1 24 Lead 840 19.2 13.3 17.2 14.9 Mercury 57 < .0020 0.94 0.71 0.76 Molybdenum 75 6.2 6.9 5.1 4.1 Nickel 420 18.3 14.3 37.5 17.9 Selenium 100 4 6 0.92 5 Zinc 7,500 932 822 54.7 1110 Total Phosphorus NA 10600 14400 9620 11300 TKN NA 41100 50600 33700 5320 Ammonia -Nitrogen NA 1850 3020 1270 2060 Nitrate and Nitrite NA < 4.1 < 4.1 < 4.0 < 4.0 a For surface disposal facilities the ceiling concentration limits listed in this form are not applicable. Reference the individual permit for metals limits. "I certify, under penalty of law, that this document was prepared under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gathered and evaluated the information submitted. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations." .77 1 /29/21 Signature of Pre * Date *Preparer is defined in 40 CFR Part 503.9(r) and 15A NCAC 2T .1102 (26) Tuckaseigee Water and Sewer PVRF 503 Form _ 2020 ANNUAL PATHOGEN AND VECTOR ATTRACTION REDUCTION FORM (503 Rules) Facility Name: Tuckaseigee Water and Sewer Auth. WQ Permit Number: W00005763 WWTP Name: TWSA Plant #1 NPDES Number: NCO039578 Monitoring Period: From , 1/1/2020 To 12/31/2020 Pathogen Reduction (40 CFR 503.32) - Please indicate level achieved and alternative performed: Class A: Alternative 1 ❑ Alternative 2 ❑ Alternative 3 ❑ Alternative 4 ❑ Alternative 5❑ Alternative 6 ❑ If applicable to alternative performed (Class A only) indicate "Process to Further Reduce Pathogens": Compost ❑ Heat Drying ❑r Heat Treatment ❑ Thermophilic ❑ Beta Ray ❑ Gamma Ray ❑ Pasteurization ❑ Class B: Alternative 1 ❑ Alternative 2 ❑ If applicable to alternative performed (Class B only) indicate "Process to Significantly Reduce Pathogens": Lime Stabilization ❑ Air Drying❑ Composting ❑ Aerobic Digestion ❑ .............................................................. Anaerobic Di estion ❑ g If applicable to alternative performed (Class A or Class B) complete the following monitoring data: Parameter Allowable Level in Sludge g Pathogen Density Number of Excee- dences Frequency of Analysis Sample Type Analytical Tech- niclue Minimum Geo. Mean Maxim Units Fecal Coliform 2 x 10 to the 6th power per gramof total solids MPN CFU 1000 mpn per gram oftotal solid (dry weight) < 176 < 272 921 mpn/g 0 quarterly grab SM 9221 Salmonella bacteria (in lieu of fecal coliform) 3 MPN per 4 grams total solid (dry weight) Vector Attraction Reduction (40 CFR 503.33) - Please indicate option performed: Alt.l (VS reduction) ❑ Alt. 2 (40-day bench) ❑ Alt. 3 (30-day bench) ❑ Alt. 4 (Spec. 02 uptake) ❑ Alt. 5 (14-Day Aerobic) ❑ Alt. 6 (Alk. Stabilization ❑ Alt 7 (Drying - Stable) ❑ IAlt. 8 (Drying - Unstable) 0 Alt. 9 (Injection) ❑ Alt. 10 (Incorporation) ❑ No vector attraction reduction alternatives were performed❑ CERTIFICATION STATEMENT (please check the appropriate statement) ❑r "I certify, under penalty of law, that the pathogen requirements in 40 CFR 503.32 and the vector attraction reduction requirement in 40 CFR 503.33 have been met." ❑ "I certify, under penalty of law, that the pathogen requirements in 40 CFR 503.32 and the vector attraction reduction requirement in 40 CFR 503.33 have not been met." (Please note if you check this statement attach an explanation why you have not met one or both of the requirements.) "This determination has been made under my direction and supervision in accordance with the system designed to ensure that qualified personnel properly gather and evaluate the information used to determine that the pathogen and vector attraction reduction requirements have been met. I am aware that there are significant penalties for false certification including fine and imprisonment." Stan Bryson, WWTP Operations Supt. Preparer Name and Title (type or print) Land Applier Name and Title (if applicable)(type or print) 1/29/21 Signature of eparer* Date Signature of Land Applier (if applicable) *Preparer is defined in 40 CFR Part 5039(r) and 15A NCAC 2T .1102 (26) Date TUCKASEIGEE WATER & SEWER AUTHORITY SERVING JACKSON COUNTY 1246 West Main Street Sylva, NC 28779 Phone: (828) 586-5189 9 Fax: (828) 631-9089 Aug 3, 2021 Attn: Mikal Wilmer NCDENR Division of Water Resources Asheville Regional Office 2090 US 70 Hwy Swannanoa, NC 28778-8211 Attn: Mikal Wilmer, 8001e0168�j apiAaysy, suoileaadp leun6s)-i Algenp 1aleM Enclosed is a copy of the Annual Residuals Report for the Tuckaseigee Water and Sewer Authority Residuals Stabilization facility (permit #WQ0005763) for the period of January 1, 2020 - December 31, 2020 Should you have questions or comments or if I can provide you any additional information, please don't hesitate to contact me. Sincere , i tan Bryson Wastewater Plant Operations Superintendent Tuckaseigee Water & Sewer Authority xc: Mr Daniel Marring Executive Director Tuckaseigee Water and Sewer Authority This institution is an equal opportunity provider and employer. i 2020 Annual Residuals Stabilization Report for The Tuckaseigee Water and Sewer Authority Distribution of Class A Residuals Permit # WQ0005763 for the period of January 1, 2020-December 31, 2020 as required by RIAUG 40 CFR, Part 503 - 5 2021 Standards for the use or disposal oper Quality Regional operations Asheville Regional Office Sewage sludge TABLE OF CONTENTS (1) PERTINENT INFORMATION (2) Land Application Certification Form (DENR Form ACF) Residual Sampling Summary Form (DENR Form RSSF) Class A Distribution and Marketing Summary (DENR Form DMSDF) Pathogen and Vector Attraction Reduction form (DENR Form PVRF 503) (3) 2020 Sludge Production Data (4) Certification Requirements APPENDIX (a) 2020 Monthly Residual Sources and Volumes Summary (b) 2020 Monthly Distribution and Marketing Summary (c) TCLP Analysis (d) Residuals Analysis (e) Daily Dryer Record (f) Annual Belt Press Record (1) Tuckaseigee Water and Sewer Authority Pertinent Information TWSA Plant #1 The Tuckaseigee Water and Sewer Authority Wastewater Treatment Plant #1 is rated as a 3.5 mgd facility. The facility also treats the sludge from three additional plants owned by the authority. Pertinent information includes: Facility name: Tuckaseigee Water & Sewer Authority Plant # 1 NPDES # NC0039578 WQ 00005763 Correspondence address: 1246 West Main St Sylva NC 28779 Physical address: 1871 North River Rd Sylva NC 28779 Facility operator: Stan Bryson Wastewater Plant Operations Superintendent Email- sbryson@twsanc.us ph. 828-586-9318 Sewage sludge treated at this facility includes the following residual sources: TWSA Plant #2 (NC0020214) TWSA Plant #3 (NC0063321) TWSA Plant #4 (NC0087602) (2) Land Application Certification Form (DENR Form ACF) Residual Sampling Summary Form (DENR Form RSSF) Class A Distribution and Marketing Summary (DENR Form DMSDF) Pathogen and Vector Attraction Reduction W I (DENR Form PVRF 503) ANNUAL LAND APPLICATION CERTIFICATION FORM WQ Permit#: WQ 0005763 County: Facility Name (as shown on permit): Jackson Year. 2020 Water and Sewer Land Application Operator: Stan Phone: (828)596-9318 Land application of residuals as allowed by the permit occurred during the past calendar year? 0 Yes ❑ No - If No, slip Part A, and Part B and proceed to Part C. Also, If residuals were generated but not land applied, please attach an explanation on how the residuals were handled. Part A -Residuals Application Summary: Total number of application fields in the ermit: N/A Total number of fields utilized for land application during the year. N/A Total amount of dry tons applied during the year for all application sites: 213.8 Total number of acres utilizes for land application during the year: N/A Part B - Annual Compiance Statement: Facility was compliant during calendar year 2020 with all conditions of the land application permit (including but not limited to items 1-13 below) issued by the Division of Water Resources. r❑ Yes ❑ No If no please, provide a written description why the facility was not compliant, the dates, and explain corrective action taken. 1) Only residuals approved for this permit were applied to the permitted sites. 2) Soil pH was adjusted as specified in the permit and lime was applied (if needed) to achieve a soil pH of at least 6.0 or the limit specified in the permit. 3) Annual soils analysis were performed on each site receiving residuals during the past calendar year and three (3) copies of laboratory results are attached. 4) Annual TCLP analysis (if required) was performed and three (3) copies of certified laboratory results are attached. 5) All other monitoring was performed in accordance with the permit and reported during the year as required and three (3) copies of certified laboratory results are attached. 6) The facility did not exceed any of the Pollutant Concentration Limits in 15A NCAC 02T A 105(a) or the Pollutant Loading Rates in 15A NCAC 02T .1105(b) (applicable to 40 CFR Part 503 regulated facilities). 7) All general requirements in as specified in the Land Application Permit were complied with (applicable to 40 CFR Part 503 regulated facilities). 8) All monitoring and reporting requirements in 15A NCAC 02T. I I 11 were complied with (applicable to 40 CFR Part 503 regulated facilities). 9) All operations and maintenance requirements in the permit were complied with or, in the case of a deviation, prior authorization was received from the Division of Water Resources. 10) No contravention of Ground Water Quality Standards occurred at a monitoring well or explanations of violations are attached to include appropriate actions and remediations. 11) Vegetative cover was maintained and proper crop management was performed on each site receing residuals, as specified in the permit. 12) No runoff of residuals from the application sites onto adjacent property or nearby surface waters has occurred. 13) All buffer requirements as specified on the permit were maintained during each application of residuals. Part C - Certification: "I certify, under penalty of law, that the above information is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations." Stan Bryson, W WTP Operations Supt. Permittee Name and Title (type or print) E-IiFature Signature of Preparer* Date Signature of Land Applier Date (if different from Permittee) (if different from Permittee and Preparer) * Preparer is defined in 40 CFR Part 503.9 (r) and 15A NCAC 02T .1102 (26) DENR FORM ACF (12/2006) ANNUAL RESIDUAL SAMPLING SUABIARY FORM Please note that your permit may contain additional parameters to be analyzed. The parameters can be reported in FORM RSSF - B WQ Permit Number: WQ0005763 Laboratory: Facility Name: Tuckaseigee Water and Sewer Auth. Residual Source WQ # or NCO039578 NPDES#: WWTP Name: TWSA Plant #1 Residual Anal sis Data 1) Pace Analytical 2) Environmental Testing Services 3) 4) 5) Parameter (mg/kg) Conc. Limit m a Sam le or Com osite Date 3/2 3/2 3/2 5/18 5/18 5/18 5/18 8/4 8/24 8/24 8/24 11/10 Percent Solids (%) NA 97.3 98 98 97 98 98 98 99.1 99 98 99 3.5 Arsenic 75 3.9 2 2.5 3 Cadmium 85 1 1.2 1.1 0.3 0.9 Copper 4,300 418 327 18.3 398 Chromium NA 24.4 18.1 66.1 24 Lead 840 19.2 13.3 17.2 14.9 Mercury 57 < .0020 0.94 0.71 0.76 Molybdenum 75 6.2 6.9 5.1 4.1 Nickel 420 18.3 14.3 37.5 17.9 Selenium 100 4 6 0.92 5 Zinc 7,500 932 822 54.7 1110 Total Phosphorus NA 10600 14400 9620 11300 TKN NA 41100 50600 33700 5320 Ammonia -Nitrogen NA 1850 3020 1270 2060 Nitrate and Nitrite 0 NA < 4.1 < 4.1 < 4.0 For surface disposal facilities the ceiling concentration limits listed in tills form are not applicable. Reference the individual permit for metals limits. "I certify, under penalty of law, that this document was prepared under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gathered and evaluated the information submitted. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations." •Preparer is defined in 40 CFR Part 503.9(r) and i5A NCAC 2T .l 102 (26) II R I I c " 7c t1.. CLASS A ANNUAL DISTRIBUTION AND MARKETING/ SURFACE DISPOSAL CERTIFICATION AND SUMMARY FORM WQ PERMIT #: W00005763 FACILITY NAME: Tuckaseigee Water and Sewer Auth. PHONE: 828-586-9318 COUNTY: Jackson OPERATOR: Stan Bryson FACILITY TYPE (please check one): ❑ Surface Disposal (complete Part A (Source(s) and "Residual In" Volume only) and Part C) p Distribution and Marketing (complete Parts A, B, and C) Was the facility in operation during the past calendar year? Yes 0 No ❑ —► If No skin parts A. B. C and certify form below Part A*: Part B*: Month Sources(s) (include NPDES # if applicable) Volume (dry tons) Recipient Information Amendment/Bulking Agent Residual In Product Out Name(s) Volume (dry tons) Intended use(s) January (TWSA Plant #1-NC0039578, 12.79 0 Bobby Collins 114 Hayfield February TWSA Plant #2-NC0020214, 13.31 20 H&H Farms 82.3 Hay/Corn field March and 33.35 17.5 Stan Bryson 17.5 Hayfield April TWSA Plant#3-NC0063321) 27.35 0 May * All residuals produced by these 39.29 0 June three plants were combined. Total 26.34 48 July residuals in was calculated by press 25.5 18 August and dryer runs. 12.26 0 September Total product out was obtained by 5.69 0 October estimating weights on trucks. 55.2 21.3 November 42.96 44 December 20.93 45 Total from FORM DMSDF (sup) Totals: Annual (dry tons): 1 0 314.97 1 213.8 213.8 Amendments used: 1 0 Bulking Agent(s) used: 0 * If more space is required, attach additional information sheets (FORM DMSDF (supp)): Total Number of Form DMSDF (Supp)0 Part C: Facility was compliant during the past calendar year with all conditions of the land application permit O Yes (including but not limited to items 1-3 below) issued by the Division of Water Resources: ❑ No —► If No, Explain in Narritive 1. All monitoring was done in accordance with the permit and reported for the year as required and three (3) copies of certified laboratory results are attached. 2. All operation and maintenance requirements were compiled with or, in the case of a deviation, prior authorization was received from the Division of Water Resources. 3. No contravention of Ground Water Quality Standards occurred at a monitoring well. "I certify, under penalty of law, that the above information Is, to the best of my knowledge and belief, true, accurate and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations." 92 Signature ofPermittee D' ate r **Preparer is defined in 40 CFR Part 503.9(r) and 15A NCAC 2T .1102 (26) Signature of Preparer** Date (if different from Permittee) ANNUAL PATHOGEN AND VECTOR ATTRACTION Facility Name: Tuckaseigee Water and Sewer Auth. WWTPName: TWSAPlant #1 IUCTION FORM (503 Rules) WQ Permit Number. WQ0005763 NPDES Number: NCO039578 Monitoring Period: From 1/1/2020- . To 12/31/2020 Pathogen Reduction (40 CFR 503.32) - Please indicate level achieved and alternative Performed: Class A: Alternative 1 ❑ Alternative 2 ❑ Alternative 3 ❑ = t Alternative 4 ❑ Altemative 5 v❑ Alternative 6 ❑ If applicable to alternative performed (Class A only) indicate "Process to Further Reduce Pathogens": Compost ❑ Heat Drying v❑ Heat Treatment ❑ Thermophilic ❑ Beta Ray ❑ Gamma Ray ❑ Pasteurization ❑ . Class B: Alternative 1 ❑ Alternative 2 ❑ j:::; :>::::>: `::'::::':....', z H applicable to alternative performed (Class B only) indicate "Process to Significantly Reduce Pathogens": Lime Stabilization ❑ Air Drying❑ Composting ❑ jAerobic Digestion ❑ - Anaerobic Dig eshon If applicable to alternative performed (Class A or Class B) complete the following monitoring data: Parameter Allowable Level Pathogen Density -7 Number o Frequency Sample Analytical in Sludge Geo. Mean axim Units Excee- ofAnal rs ys Type Tech- 2 x 10 to the IMPN 6th power per gram of Fecal Coliform total solids CFU 1000 mpn per gram of total solid (dry < 176 <272 921 mpn/g 0 quarterly grab SM 9221 weight) Salmonella bacteria 3 MPN per 4 grams (in lieu of fecal total solid (dry coliform weight) Vector Attraction Reduction (40 CP'R 503.33) - Please indicate option performed: Alt1 (VS reduction) ❑ jAlt. 2 (40-day bench) ❑ JAR. 3 (30-day bench) ❑ Alt. 4 (Spec. OZ uptake) ❑ Alt 5 (14-Day Aerobic) ❑ jAlt. 6 (Alk Stabilization ❑ JAR 7 (Drying - Stable) ❑ Alt 8 (Drying - Unstable) ❑� Alt 9 (Injection) ❑ JAIL 10 (Incorporation) ❑ jNo vector attraction reduction alternatives were performed ❑ CERTIFICATION STATEMENT (please check the appropriate statement) v❑ "I certify, under penalty of law, that the pathogen requirements in 40 CFR 503.32 and the vector attraction reduction requirement in 40 CFR 503.33 have been met." ❑ "I certify, under penalty of law, that the pathogen requirements in 40 CFR 503.32 and the vector attraction reduction requirement in 40 CFR 503.33 have not been met." (Please note if you check this statement attach an explanation why you have not met one or both of the requirements.) "This determination has been made under my direction and supervision in accordance with the system designed to ensure that qualified personnel properly gather and evaluate the information used to determine that the pathogen and vector attraction reduction requirements have been met. I am aware that there are significant penalties for false certification including fine and imprisonment." Stan Bryson, WWTP Operations Supt. Preparer Name and Title (type or print) 4— Signature of Prepare Land Applier Name and Title (if applicable)(type or print) Da a Signature of Land Applier (if applicable) Date *Preparer is defined in 40 CFR Part 503.9(r) and 15A NCAC 2T .1102 (26) DENR FORM PVRF 503 (12/2006) (3) 2020 Sludge Production Data 2020 SLUDGE PRODUCTION DATA TWSA PLANT # 1 (3.5 mgd plant capacity) NPDES # NCO039578 Sludge dewatered on belt press.................................................................3,599,105 gallons total tons...............................................314.97 tons total metric tons............................................285.7 dry metric tons The following residuals were included in the above totals. TWSA PLANT # 2 (0.5 mgd plant capacity) NPDES # NCO020214 Sludge Hauled to Plant # 1 digestor............................................................. 162,500 gallons total tons.......................................................................... 11.26 tons total metric tons...............................................................10.2 dry metric tons TWSA PLANT # 3 (0.2 mgd plant capacity) NPDES # NC0063321 Sludge Hauled to Plant # 1 digestor........................................................ 72,000 gallons totaltons.........................................................................9.16 dry tons total metric tons..............................................................8.31 dry metric tons Total Calculated Sludge Production, 2020= 315 dry tons, (285.7 metric tons). This number was calculated from the volume in (gals) and the % total solids dewatered on the belt press. There was a total of 479.2 tons of wet residual landfilled in 2020. At an avg. % solids of 18.0 these residuals equaled 86.3 dry tons. A total of 213.8 tons were distributed to the public in 2020. At an avg % solids of 96.3 these residuals totaled 205.9 dry tons 205.9 + 86.3 = 292.2 dry tons-- 265.0 dry metric tons accounted for in 2020. All sludge or residuals landfilled in 2020 were hauled by a private contractor to the: R&B Landfill This landfill operated by: Waste Management Services 610 Frank Bennet Rd 1001 Fannin St Homer GA, 30547 Houston TX 77002 It should be noted that all tonnage weights obtained during the year (with the exception of landfilled weights) are either calculated from the analysis performed on process control samples or are estimated on trucks after they are loaded. This leaves considerable room for error in year end totals. (4) Certification Requirements and Statement PART I -POLLUTANT CONCENTRATIONS PARAMETER Avg MAX[MMUM Arsenic.....................1.7 mg/kg .................. 2A mg/kg Cadmium....................1.1 mg/kg.................. 1.4 mg/kg Copper.....................358 mg/kg................. 406 mg/kg Lead ........................15.6 mg/kg................. 17.7 mg/kg Mercury ..................0.840 mg/kg ................. 1.0 mgtkg Molybdenum...............5.2 mg/kg .................. 5.8 mg/kg Nickel......................17.0 mg/kg .................. 20.5 mg/kg Selenium....................4.7 mg/kg ................... 6.0 mgtkg Zinc .........................942 mg/kg.................. 1410 mg/kg PART H - PATHOGEN REDUCTION (40 CFR 50332) X Class A Class B PART III - VECTOR ATTRACTION (40 CFR 50333) Option 1 Option 2 Option 3 Option 5 —Option 6 —Option 7 Permitted Concentrations monthly avg ceiling 41 mg/kg 75 mg/kg 39 mg/kg 85 mg/kg 1500 mg/kg 4300 mg/kg 300 mg/kg 840 mg/kg 17 mg/kg 57 mg/kg n/a 75 mg/kg 420 mg/kg 420 mg/kg 100 mg/kg 100 mg/kg 2800 mg/kg 7500 mg/kg Option 4 X Option 8 PART W - CERTIFICATION " I certify under penalty of law, that the Class A pathogen requirements in 40 CFR, Part 503.32 have been met and the vector attraction reduction requirement in 40 CFR, Part [503. 33(b)(6)) has been met. I am aware that there are significant penalties for false certification including fine and imprisonment." Signed this 27th day of February ,2020. Stan Bryson, Wastewater Super- en ent (a) 2020 Monthly Residual Sources and Volume Summary 2020 Appendix A Residual Sources and Volume Sludge Volume Produced Month Source (dry tons January TWSA Plant# 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant# 3 (NC0063321) Monthly Total 10.02 2.77 0.00 12.79 February TWSA Plant# 1 (NCO039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 11.88 1.43 0.00 13.31 March TWSA Plant # 1 (NC0039578) TWSA Plant# 2 (NCO020214) TWSA Plant# 3 (NC0063321) Monthly Total 32.16 1.19 0.00 33.35 April TWSA Plant # 1 (NCO039578) TWSA Plant# 2 (NCO020214) TWSA Plant# 3 (NC0063321) Monthlyrotall 23.16 1.14 3.05 27.35 May TWSA Plant # 1 (NC0039578) TWSA Plant# 2 (NCO020214) TWSA Plant # 3 (NC0063321) Monthly Total 38.51 0.76 0.00 39.29 June TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NCO020214) TWSA Plant # 3 (NC0063321) Monthly Total 26.30 0.04 0.00 26.34 Est. Total "sludge" produced by all sources for 2020 = 315.0 dry tons Residual Sources and Volume Sludge Volume Produced Month Source (dry tons July TWSA Plant # 1 (NCO039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthtv Total 25.50 0.00 0.00 25.60 august TWSA Plant # 1 (NCO039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NCO063321) Monthly Total 8.60 0.72 2.94 12.26 September TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NCO020214) TWSA Plant # 3 (NC0063321) Monthlv Total 4.29 1.40 0.00 5.69 October TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NCO020214) TWSA Plant # 3 (NC0063321) Month) Total 54.43 0.77 0.00 55.20 November TWSA Plant # 1 (NCO039578) TWSA Plant # 2 (NCO020214) TWSA Plant # 3 (NCO063321) Monthly'rotall 42.96 0.00 0.00 42.96 December TWSA Plant# 1 (NC0039578) TWSA Plant # 2 (NCO020214) TWSA Plant # 3 (NCO063321) Month) Total 16.74 1.02 3.17 20.93 (b) 2020 Distribution and Marketing Summary Appendix B TWSA Plant # 1 Monthly Distribution and Marketing Summary 2020 Recipient Information Month Name 8 Data Est Volume Intended Use Destination Addmss (wat tons) January I I I g February H&H Farms 21520 20 ComMay 1965 Crawford Rd. 1754 Poplar Cove Rd. Frankin NC Frankin NC 287M March Shan Bryson 328 10Ji Hay Field 281 Hammotic Drive 144 Coral Bell Lane 329 7.0 Culiowhee NC 2a723 Cuilowhee NC 28723 Jackson Co. ph: (828) 743-5033 April 0 May 0 June Bobby Collins 624 24 Hay Field 327 Cedar Ridge Rd. 327 Cedar Ridge Rd. 626 24 • • Franklin NC 28734 Franklin NC 28734 Macon Co ph: (828) 342-416M July H&H Farms 721 18 ComlHay 1965 Crawford Rd. 1754 Poplar Cove Rd. Franklin NC Franklin NC 28734 Macon Cc ph: (828) 371-2452 August 0 September g October H&H Farms 1028 21.3 ComlHay 1965 Crawford Rd. 1754 Poplar Cove Rd. Franklin NC Franklin NC 28734 Macon Cc h: (828) 371-2452 November Bobby Collins 1 11118 44 Hay Field 327 Cedar Ridge Rd. 327 Cedar Ridge Rd. • ' Franklin NC 28734 Franklin NC 28734 Macon Co ph: (828) 342-8663 December H&H Farms 122 23 ComrHay 1965 Crawford Rd. 1754 Poplar Cove Rd. Franklin NC 28734 ph: (828) 371-2452 Franklin NC Macon Cc Bobby Collins 327 Cedar Ridge Rd. 1222 22 Hay Field ' ' 327 Cedar Ridge Rd. Franidin NC 28734 Frankin NC 28734 ph: (828) 34241663 Macon Cc Annual Total Tons Distributed to the public-- 213.8 tons 193.9 metric tons (C) TCLP Analysis �, a,Ywiaiyuca� � nvw.paealahsssm , t August 14, 2020 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project Dried Residual TCLP 814 Pace Project No.: 92489075 Dear Mr. Bryson: Pace Analytical Services, LLC 2225 Riverside Dr. Asheville, NC 288a4 (828)254-7176 Enclosed are the analytical results for sample(s) received by the laboratory on August 04, 2020. The results relate only to the samples included in this report Results reported herein conform to the applicable TNI/NELAC Standards and the laboratory's Quality Manual, where applicable, unless othervvise noted in the body of the report. CThe test results provided in this final report were generated by each of the following laboratories within the Pace Network Pace National - Mt Juliet • Pace Analytical Services -Asheville Pace Analytical Services - Charlotte If you have any questions concerning this report, please feel free to contact me. Sincerely, Chris Derouen christopherderouen@pacelabs.com (828)254-7176 Project Manager Enclosures P�CRFC 9eORA'ID REPORT OF LABORATORY ANALYSIS This report shall not he reproduced, except in full, without the written consent of Pace Analytical services, I.I.C. Page 1 of 28 Pace Analytical Services, LLC 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 ANALYTICAL RESULTS Project- Dried Residual TCLP 8/4 Pace Project No.: 92489075 Sample: TWSA DRIED RESIDUAL Lab ID: 92489076001 Collected: 08/04/20 09:00 Received: 08/04120 12:50 Matrix: Water TCLP Parameters Results Units Report Limit OF Prepared Analyzed CAS No. Cual Chlorinated Herb. (GC) 8151A Analytical Method: EPA 8151A Preparation Method: 8151A Leachate Method/Date: 1311; 08/07/20 23:59 Initial pH: 6.21; Final pH: 5.32 Pace National - Mt. Juliet 2,4,5-TP (Silvex) ND mg1L 0.00200 1 08111/20 00:47 08/11/20 16:53 93-72-1 2,4-D NO mg/L 0.00200 1 08/11/20 00:47 08/11/20 16:53 94-75-7 Surrogates 2,4-DCAA(S) 70.2 % 14.0-158 1 0811112000:47 08111/2016:53 19719.28-9 8081 TCLP Pesticides RVE Analytical Method: EPA8081B Preparation Method: EPA3510C Leachate Method/Date: EPA 1311; 08/06/20 13:08 Initial pH: 5.62; Final pH: Pace Analytical Services - Charlotte gamma-SHC (Lindane) NO ug/L 0.50 1 08/10/20 1123 08/1212018:48 58.89-9 Chlordane (rechnlcaq ND uglL 3.0 1 081101201123 08112120181.48 57-74-9 Enddn ND ug/L 0.50 1 08/101201123 08112/2018AB 72-20-8 Heptachlor NO ug/L 0.60 1 08/1012011:23 0811212018:48 76-44-8 Heptachlor epoxide ND ug/L 0.50 1 08/1012011:23 08/1212018:48 1024-573 Methoxychlor NO ug/L 1000 1 08/10/20 11:23 08/12120 18:48 72-43-5 Toxaphene NO ug/L 3.0 1 08M 0/2011:23 08/1212018:48 8001-35-2 Surrogates . Derachlorobiphenyl(S) 88 % 10-138 1 0811012011*23 0811212018A8 2051-24-3 Tetrachloro-m-xylene (S) 77 % 10-130 1 08/10/20 11:23 08/12/20 18:48 877-09-8 6010 MET ICP, TCLP Analytical Method: EPA6010D Preparation Method: EPA 3010A Leachate Method/Date: EPA 1311; 08/06120 13:03 Initial pH: 5.62; Final pH: 2 Pace Analytical Services -Asheville Arsenic NO mg/L 0.050 1 08/08120 01:28 08/08/20 19:15 7440-38.2 Barium NO mg/L 0.25 1 08108/2001:28 0810812019:15 7440-39.3 Cadmium NO mg1L 0.0050 1 08/0812001:28 0810812019:15 7440-43-9 Chromium NO mg/L 0.050 1 0810812001:28 08/0812019:15 7440-47-3 Lead NO mg/L 0.025 1 0810812001:28 08/08/2019:15 7439.92-1 Selenium NO mg1L 0.10 1 08108/20 01:28 0810812019:15 7782-49.2 Silver ND mg1L 0.025 1 08/08/20 01:28 0810812019:15 7440-22-4 7470 Mercury, TCLP Analytical Method: EPA 7470A Preparation Method: EPA 7470A Leachate Method/Date: EPA 1311; 08/06/20 13:03 Initial pH: 5.62; Final pH: 2 Pace Analytical Services -Asheville Mercury ND mg/L 0.00020 1 08/09/2023:07 0811012014:10 7439-97-6 8270E TCLP RVE Analytical Method: EPA8270E Preparation Method: EPA3510C Leachate Method/Dale: EPA 1311; 08/06120 13:08 Initial pH: 5.62; Final pH: Pace Analytical Services - Charlotte 1,4-Dichlorobenzene NO ug1L 50.0 1 08/12120 11:12 08/13120 13:22 106-46-7 2,4-Dinitrololuene NO ug1L 50.0 1 08/12/20 11:12 08113120 13:22 121-14-2 Hexachloro-1,3-buladiene NO ug/L 50.0 1 0811212011:12 OB/13/2013:22 87-68-3 Hexachlorobenzene NO ug/L -50.0 1 08/12/20 11:12 08/13/20 13:22 118-74-1 Hexachloroethane NO ug/L 50.0 1 08/1212011:12 0811312013:22 67-72-1 Date: 08114/2020 05:40 PM REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except In full, without the written consent of Peres Analytical Services, I.I.C. Page 4 of 28 www.paclileb=111 ANALYTICAL RESULTS Pace Analytical Services, LLC 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Project: Dried Residual TCLP 8/4 Pace Project No.: 92489076 Sample: TWSA DRIED RESIDUAL Lab ID: 92489075001 Collected: 08104/20 09:00 Received: 08/04/20 12:50 Matrix: Water TCLP Parameters 8270E TCLP RVE 2-Methylphenol(o-Cresol) 3&4-Methylphenol(m&p Cresol) Nitrobenzene Pentachlorophenei Pyridine 2,4,5-Trichlorophenol 2,4,6-Trichlorophenol Surrogates Nitrobenzened5 (S) 2-Fluorobiphenyl(8) Terphenyldl4 (S) Phenold6 (S) 2-Fluorophenol(S) 2,4,6-Tribromophenol (S) 11260D MSV TCLP Benzene 2-Butanone (MEK) Carbon tetrachloride Chlorobenzene Chloroform 1,4-Dichlorobenzene 1,2-Dichloroethane 1,1-Dichloroethene Tetrachloroethene Tdchlorcelhene Vinyl chloride Surrogates 1,2-Dichloroethaned4 (S) Toluene-d8 (S) 4-Bromofluorobenzene(S) Results Units Report Urnit OF Prepared Analyzed CAS No. Qual Analytical Method: EPA 8270E Preparation Method: EPA 351 OC Leachate Method/Date: EPA 1311; 08/06/20 13:08 Initial pH: 5.62; Final pH: Pace Analytical Services - Charlotte NO ug/L 50.0 1 0811212011:12 0811312013:22 9548-7 344 ug/L 50.0 1 08/12/20 11:12 08/13/20 13:22 15831-104 NO ug/L 50.0 1 08/12(2011:12 08113/2013:22 98.95-3 ND ug/L 100 1 08/1212011:12 08/13/201322 87-86-5 NO ug/L 50.0 1 0811212011:12 08/13120 13:22 110-86-1 NO ug/L 50.0 1 0811212011:12 0811312013:22 95.95A NO ug/L 50.0 1 0811212011:12 08/1312013:22 88-06-2 52 % 13-130 1 0811212011:12 0811312013:2.2 4165-60-0 42 % 13.130 1 08/1212011:12 08113/2013:22 321-60-8 94 % 25-130 1 0811212011:12 08/13/20 13:22 1718-51-0 33 % 10-130 1 0811212011:12 08/1312013:22 13127-88-3 42 % 10-13D 1 08/12f2011:12 08113/2013:22 367-124 97 % 10-137 1 08/12/20 11:12 08M 3/20 13:22 118-79-6 Analytical Method: EPA 8260D Leachate Method/Dale: EPA 1311; 08/12/20 13:47 Pace Analytical Services - Charlotte ' NO ug/L 250 50 08/13/20 15:38 71-43.2 542 ug/L Sao 50 0811312015:38 78.93-3 NO ug/L 250 50 08113/2015:38 56-23-5 IK NO ug/L 250 50 OB/13/2015:38 108-90-7 NO 119/1- 250 50 08/13/2015:38 67-66-3 NO ug/L 250 50 08/13/20 15:38 105-46-7 NO ug/L 250 50 08/13/20 15:38 107-05-2 NO uglL 250 50 0811312015:38 75-354 ND uglL 250 50 08113/2015:38 127-184 NO ug/L 250 50 08/1312016:38 79.01-6 NO ug/L 250 50 08/1312015:38 75-01-4 105 % 7D-130 50 101 % 67-135 50 102 % 70-130 50 REPORT OF LABORATORY ANALYSIS 0811312015:38 17060-07-0 D3 08113/2015:38 2037-26-5 08113/2015:38 460.00-4 This report shall not be reproduced, except In full, Date: 08114/2020 05:40 PM without the written consent of Pam Analytical Services, LLC. Page 6 of 28 QUALIFIERS Project: Dried Residual TCLP 814 Pace Project No.: 92489075 DEFINITIONS Pace Analytical Services, LLD 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 DF- Dilution Factor, if reported, represents the factor applied to the reported data due to dilution of the sample aliquot. ND - Not Detected at or above adjusted reporting limit. TNTC-Too Numerous To Count J - Estimated concentration above the adjusted method detection limit and below the adjusted reporting limit. MDL -Adjusted Method Detection Urnit. PQL- Practical Quantitation Limit. RL- Reporting Limit - The lowest concentration value that meets project requirements for quantitative data with known precision and bias for a specific analyte in a specific matrix. S - Surrogate 1,2-Diphenylhydmzine decomposes to and cannot be separated from Azobenzene using Method 8270. The result for each analyle is a combined concentration. Consistent with EPA guidelines, unrounded data are displayed and have been used to calculate % recovery and RPD values. LCS(D) - Laboratory Control Sample (Duplicate) MS(D) - Matrix Spike (Duplicate) CUP - Sample Duplicate RPD - Relative Percent Difference NC - Not Calculable. SG - Silica Gel - Clean -Up U - Indicates the compound was analyzed for, but not detected. �^ Acid preservation may not be appropriate for 2 Chloroethylvinyl ether. �- A separate vial preserved to a pH of 4-5 Is recommended In SW846 Chapter 4 for the analysis ofAcrolein and Acrylonitale by EPA Method 8260. N-Nitrosodiphenylamine decomposes and cannot be separated from Diphenylamine using Method 8270. The result reported for each analyte is a combined concentration. PaceAnalytical Is TNI accredited. Contact your Pace PM for the current list of accredited analyles. TNI - The NELAC Institute. ANALYTE QUALIFIERS D3 Sample was diluted due to the presence of high levels of non -target analyles or other matrix Interference. IK The recalculated concentration of the calibration standard(s) did not meet method acceptance criteria; this result should be considered an estimated value. M1 Matrix spike recovery exceeded QC limits. Balch accepted based on laboratory control sample (LCS) recovery. R1 RPD value was outside control limits. S3 Surrogate recovery exceeded laboratory control limits. Analyte presence below reporting limits in associated sample REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except In full, Date: 08/14/2020 05:40 PM without the written consent of Pace Analytical Services, U.C. Page 14 of 28 aceAng1Xical® ANALYTICAL REPORT MetlgnN Cantu ("Toung 8 Zen amflan August 12. 2020 Pace Analytical - Asheville, NC Sample Delivery Group: L1246794 Samples Received: 08/05/2020 Project Number. 92489075 Description: Dried Residual TCLP 8/4 Site: 001 Report To: Christopher Derouen 2225 Riverside Drive Asheville, NC 28804 Entire Report Reviewed By: n A �, �kLO'4%1� Nancy McLain Project Manager be 'i rTc aCn Fr 1 aQc I 7 GI oAl 1 a Sc ACCOUNT: PROJECT: SDG: DATEMME PAGE: Pace Analytical-Ashevflle, NC 92489075 L1246794 08I122011:09 10f10 TABLE OF CONTENTS ONE LAB. NATIONWIDE. Cp: Cover Page 1 n Tc: Table of Contents C 2 Cp I Ss: Sample Summary g Cn: Case Narrative 4 Sr. Sample Results 5 ass TWSA DRIED RESIDUAL TCLP L1246794-01 5 4Cn Qc: Quality Control Summary 6 Chlorinated Acid Herbicides (GC) by Method 8151A 6 5Sr GI: Glossary of Terms 7 Al: Accreditatlons & Locations 8 6Qc Sc: Sample Chain of Custody g �GI C. _ ..._.Page 20�of 28 ....... ACCOUNT. PROJECT: SDG: DATEMME PAGE: Pace AnalyOcel- Asheville. NC 9248907S 11246794 08A2r.2011.V9 2of10 .xarri�.r,=.sae.=.--�^za.;s,vr�-.r-r�r��x�r::_„��.•rn;,c�__r}a:.arn::r��_--rucn� �>- � _ - - SAMPLE` ONE • . .ems TWSA DRIED RESIDUAL TCLP L1246794-01 Waste Collected by Collected dateltme 0Bf042009:00 Received dateltime 0052009:00 C P Nod Balch r Dilution Preparation Analysis Analyst Location dateRlme daleltime 7TC Preparation by Method 1311 WGI522538 1 081072023:59 0810712023:59 CGD MLJullel,TN Chlorinated Acid Herbicides(Gq by Method 8151A WGI523578 1 08111/2000:47 0811V2016:53 MTJ MLIulleLTN 4Cn • aST eQC 7G1 aAl 9SC C L ACCOUNT: PROJECT: SDG: DATEMME PAGE Pace Analytical -Asheville. NC 92489075 'L1246794 OBA2201199 3of10 CASE NARRATIVE ONE • • si All sample aliquots were received at the correct temperature, in the proper containers, with the i appropriate preservatives, and within method specified holding times, unless qualified or notated within the Where Cp 2Tc report. applicable, all MDL (LOD) and RDL (LOQ) values reported for environmental samples have been corrected for the dilution factor used in the analysis. All Method and Batch Quality Control are within established criteria except where addressed In this case narrative, a non-conformance form or properly qualified within the sample results. By my digital signature below, I affirm to the best of my 3Ss knowledge, all problems/anomalies observed by the laboratory as having the potential to affect the quality of the data have been identified by the laboratory, and no information or data have been knowingly loom withheld that would affect the quality of the data. aSr ���-Vw1ti� aQC (may (\ 7GI Nancy McLain Project Manager a Al 9Sc 6 ACCOUNT: PROJECT: SDG: DATEMME PAGE: Pace AmWcal-Asheville, NC 92489075 L1246794 =212011:09 4or10 TWSA DRIED RESIDUAL TCLP SAMPLE RESULTS - 01 ONE LAB. NATIONWIDE. Collected dale/time: 08/04/20 09:00 L1246794 Preparation by Method 1311 Result Qualifier Prep Batch ("p �7tyte date/lime -i CLP Exlradlan - _ 817202011:59:24 PM WG1522538 2TC Fluid 1 WON 11:59:24 PM WG1522538 Initial pH 6.21 817/202011:59:24 PM WGIS22538 aSS Final pH 5.32 8f7202011:59:24 PM WG1522538 - 4Cn Chlorinated Acid Herbicides (GC) by Method 8151A Result Quall0er RDL Limit Dilution Analysts Batch Analyle mg/l mg8 mg8 date/time 2,4,5-TP (SBve>j ND 0.00200 1 1 08111202016:53 WG7523578 2,4-D ND 0.00200 10 1 08RV202015:53 WG1523578 aQC (S)2,4-DichforophenylAceBcAdd 70.2 14.0-158 08111202016:53 WGI523578 --- ' '.... ..... .----._..._._..... ---•-- ...................... ..---..___. .._..... .. ._... ._._ ...._Page-23of-28 ... . ACCOUNT: PROJECT: SOG: DATE/TIME: PAGE: Pace Analytical - Asheville, NC 92489075 L1246794 08/122011:09 5of10 a o c m u. c _ !1 n x c o n c a a a a e 0 to H S 6 4 m 2 8 D 5 S 3 0 0 mft I 1 I WG152"78 QUALITY COt�- COL SUMMARY ONE LAB.C/,�;NWIDF- Chlorinated Acid Herbicides (GC) by Method 8151A L124br94.01 Method Blank (MB) (MB) R35588964 08/1112014.42 MB Result Analyte mgfi 2A-D U 2A,S-TP(Sitvex) U (5)7,4-D/chlorophenylAcet/c 694 Acid MB Quaifier MB MDL MB RDL 0.000667 0.00200 0.000667 0.00200 14.0-158 Laboratory Control Sample (LCS) (LCS) R3558896-2 081I72015:11 Spike Amount LCSResult LCS Rec. Rec UmRs LCS Ouarifier Anaiyle mgfi mgfi % % 2,4-D 0.0500 0.0382 76A 50.0420 2,4,5-TP (SiNex) 0.0500 0.0456 91.2 50.0425 d)2,4-DichlorophenylAcetic 87.8 14.0-158 Acid L1246600-01 Original Sample (OS) • Matrix Spike (MS) • Matrix Spike Duplicate (MSD) (OS) L1246600.01 08AV201526 • (MS) R3558896-3 08/112015:40 • (MSD) R3558896-4 08/11/2015:55 Spike Amount Original Result MS Result MSD Result MS Rec. MSD Rec Dilution Rec Limits MS Oualifier MSD Qualifier RPD RPD Limits Analyte m98 m9n mgR mg8 % % % % % 2,4-D 0.0500 ND 0.0351 0.0336 70.2 67.2 1 50.0.126 4.37 20 2,4,54P(SRvex) 0.0500 ND 0.0430-. 0.0390 86.0 78.0 1 56.0-125 9.76 20 87.2 73.2 14.0.158 Ad)Z4-D/chlorophenylAcetic ..._...... . _..._............. _ _.. ... ...._.....-...- ...... ..._.. ... - - f _ ..._ . ..__.... _.. age. .0.28 ACCOUNT: PROJECT: SDG: DATE70ME PAGE: Pace Analytical - Asheville, NC 92489075 L1246794 0811212011:09 6 of 10 GLOSSARY OF TERMS ONE LAB. NATIONWIDE. Guide to Reading and Understanding Your Laboratory Report I- �,..� The Information below is designed to better explain the various terms used In your report of analytical results from the Laboratory. This Is not FCp l Intended as a comprehensive explanation, and if you have additional questions please contact your project representative. �---- Results Disclaimer- Information that may be provided by the customer, and contained within this report Include Permit Limits, Project Name, TC Semple ID, Sample Matrix, Semple Preservation. Field Blanks, Feld Spikes, Field Duplicates, On -Site Data, Sampling Collection Datesmmes, and Sampling Location. Results relate to the accuracy of this Information provided, and as the samples are received. Abbreviations and Definitions aSs MDL Method Detection Limit ND Not detected at the Reporting Limit (or MDL where applicable). n RDL Reported Detection LImIL Rec. Recovery. Relative Percent Difference. Fr SDG Sample Delivery Group. ` (S) Surrogate (Surrogate Standard)-Analytes added to every blank sample, Laboratory Control Sample/Dupficate and Matrix Spike/Duplicate:used to evaluate by a C Q analytical efficiency measuring recovery. Surrogates are not expected to be e detected In all environmental media. U Not detected at the Reporting Limit (or MDL where applicable). Anelyte The name of the particular compound or analysis performed. Some Analyses and Methods will have multiple analytes reported. a/�l If the sample matrix contains an interfering material, the sample preparation volume or weight values differ from the Dilution standard, or if concentrations of analyzes In the sample are higher than the highest limit of concentration that the laboratory can accurately report, the sample me be diluted for analysis. If value different than 1 is used In this field, the result reported has already been corrected for this factor. a These are the target% recovery ranges or% difference value that the laboratory has historically determined as normal SC Limits for the method and analyte being reported. Successful QC Sample analysis will target all analytes recovered or duplicated within these ranges. Original Sample The non -spiked sample In the prep batch used to determine the Relative Percent Difference (RPD) from a quality control sample. The Original Sample may not be Included within the reported SDG. This column provides a letter and/or number designation that corresponds to additional Information concerning the result Qualifier reported. If a Qualifier Is present a definition per Qualifier Is provided within the Glossary and Definitions page and potentially a discussion of possible Implications of the Qualifier in the Case Narrative If applicable. The actual analytical final result (corrected for any sample specific characteristics) reported for your sample. If there was �- no measurable result returned for a specific analyze, the result In this column may state "No' (Not Detected) or'BDL' Result (Below Detectable Levels). The Information In the results column should always be accompanied by either an MDL (Method Detection Limit) or RDL (Reporting Detection Limit) that defines the lowestvalue that the laboratory could detect or report for this analyte. Uncertainty Confidence level oft sigma. ma. g A brief discussion about the Included sample results, including a discussion of any non -conformances to protocol Case Narrative (Cn) observed either at sample receipt by the laboratory from the field or during the analytical process. If present there will be a section in the Case Narrative to discuss the meaning of any data qualifiers used in the report. Quality Control This section of the report Includes the results of the laboratory quality control analyses required by procedure or Summary(Qc) analytical methods to assist In evaluating the validity of the results reported for your samples. These analyses are not being performed on your samples typically, but on laboratory generated material. This Is the document created in the field when your samples were Initially collected. This is used to verify the time and Sample Chain of date of collection, the person collecting the samples, and the analyses that the laboratory Is requested to perform. This Custody (Sc) chain of custody also documents all persons (excluding commercial shippers)that have had control or possession of the samples from the time of collection until delivery to the laboratory for analysis. This section ofyour report will provide the results of all testing performed on your samples. These results are provided Sample Results (Sr) by sample ID and are separated by the analyses performed on each sample. The header line of each analysis section for each sample will provide the name and method number for the analysis reported. Sample Summary (Ss) This section of the Analytical Report defines the specific analyses performed for each sample ID, including the dates and times of preparation and/or analysis. L. Qualifier Description The remainder of this page Intentionally left blank, there are no qualifiers applied to this SDG. .........._..._.........___.._. _...-_.-...---__. _.._...,...... .......... ..... ...._.._. Page 25 of28..._..... ACCOUNT: PROJECT: SDG: DATE/TIME PAGE Pace Analytical - Asheville, NC 92489075 L1246794 08111212011:09 7oft0 (d) Residual Analysis .;' Environmental Testing Solutions, Inc. C Project name: Collection date: Date received: Certificate of Analysis Tuckaseigee Water & Sewer 2-Mar-20 2-Mar-20 Sample identification: TSWA Dried Residual - Grab PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828)350-9368 Project number: 200302.500 Sample number: 196977 Parameter Method Result RL Units Date Analyst Footnotes Analyzed a/oTS SM 2540 G 98 0.10 % 2-Mar-20 KEK Mulitple Tube Fermentation Procedure SM 9221-E <176 176 MPN 2-Mar-20 KEK Sample identification: TWSA Dried Residual -Grab Sample number: 196978 Parameter Method Result RL Units Date Analyst Footnotes Analyzed %TS SM 2540 G 98 0.10 % 2-Mar-20 KEK Mulitple Tube Fermentation Procedure SM 9221-E <176 176 MPN 2-Mar-2o KEK Footnotes: RL = Reporting Limit. Values are reported down to the Reporting Limit only. Date reviewed: _ M'&''70 NC Certification Number: 600 Data reviewed by: Kelley E. Keenan SC Certification Number: 99053 Signature: NC Drinking Water Certification Number: 37786 This report should not be reproduced, exept in its entirety, without the written consent of Environmental Testing Solutions, Inc. The results in this report relate only to the samples submitted for analysis. 6 ".fin ^J'1 4 =R • it :�:a i IFT' W n f PO Box 7565, Asheville, NC 28802 Phone: (828) 350-9364, Fax: (828)350-9368 Proiect Name: CHAIN -OF -CUSTODY / Analytical Request Client Name: Address: 41, LA Report to: �� 1 5�6� Phone:_Fax: PO Number: Reauested Analvses Project Number: -SA pHCheckedUpon Reccipt Cfy <0.2 mp/I Upon Receipt 9 Preservatives a Sample Identification d e z e + w o a 00 0 O rn Field F+ x a x x z z Temp. (°C) Comments a i �. L l9 3 as os� .;` i � I ;i.i r 1:• •: i* Gtgr f v company 1 D. Date I Time Temperature (°C) 2 �p • — o -�jlj `G �,� (f f6L -1.0 Oi �1 Received on Ice: � / N Sealed Cooler: Y / Samples Intact: / N Additional Comments: �. Printed Na fSampler: 22 ace Analytical www.pocclobe.com Ci March 16, 2020 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: Dried Residual Pace Project No.: 92467373 Pace Analytical services. LLC 2225 Riverside Dr. Asheville, NC 28804 ,(828)254-7176 Dear Mr. Bryson: Enclosed are the analytical results for sample(s) received by the laboratory on March 02, 2020. The results relate only to the samples included in this report. Results reported herein conform to the most current, applicable TNI/NELAC standards and the laboratory's Quality Assurance Manual, where applicable, unless otherwise noted in the body of the report. CIf you have any questions concerning this report, please feel free to contact me. Sincerely, Chris Derouen christopher.derouen@pacelabs.com (828)254-7176 Project Manager Enclosures 3 +�' Jam° REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except In full. without the wdtten consent of Pace Analytical Services, U.C. aceAnalytical wxw.Pacolabs.com Pace Analytical Services, LLC 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 ANALYTICAL RESULTS Project: Dried Residual Pace Project No.: 92467373 Sample: TWSA DRIED RESIDUAL Lab ID: 92467373001 Collected: 03/02/20 08:00 Received: 03/02/20 09:39 Matrix: Solid Results reported on a "dry weight" basis and are adjusted for percent moisture, sample size and any dilutions. Parameters Results Units Report Limit DF Prepared Analyzed CAS No. Qual 6010 MET ICP Analytical Method: EPA 6010D Preparation Method: EPA 3050E Aluminum 31400 mg/kg 50.4 5 03/09/20 09:25 03/13/20 13:21 7429-90-5 BC Arsenic 3.9 mg/kg 1.0 1 03/09/20 09:25 03/12/20 21:10 7440-38-2 Cadmium 1.2 mglkg 0.10 1 03/09/20 09:25 03/12/20 21:10 744043-9 Calcium 9330 mglkg 10.1 1 03/09/20 09:25 03/12120 21:10 7440-70-2 Chromium 24.4 mglkg 0.50 1 03/09/20 09:25 03/12/20 21:10 7440-47-3 Copper 418 mg/kg 0.50 1 03/09/20 09:25 03/12/20 21:10 7440-50-8 Lead 19.2 mg/kg 0.50 1 03/09/20 09:25 03/12/20 21:10 7439-92-1 Magnesium 3870 mg/kg 10.1 1 03109/20 09:25 03/12/20 21:10 7439-95.4 Molybdenum 6.2 mg/kg 0.50 1 03/09/20 09:25 03/12/20 21:10 7439-98-7 Nickel 18.3 mg/kg 0.50 1 03/09/20 09:25 03/12/20 21:10 7440-02-0 Potassium 3910 mg/kg 504 1 03/09/20 09:25 03113/20 13:59 7440-09-7 Selenium 4.0 mg/kg 1.0 1 03/09/20 09:25 03/12/20 21:10 778249-2 Sodium 551 mg/kg 504 1 03/09/20 09:25 03/13/20 13:59 7440-23-5 Zinc 932 mg/kg 1.0 1 03/09/20 09:25 03/12/20 21:10 7440-66-6 7471 Mercury Analytical Method: EPA 7471E Preparation Method: EPA 74718 /aaercury (�-,40G ND mglkg 0.0020 1 03110/2013:49 03/11/2016:41 7439-97-6 Total Percent Solids. Analytical Method: SM 2540G-2011 Total Solids 97.3 % 0.10 1 03/03/20 12:56 Percent Moisture Analytical Method: ASTM D2974-87 Percent Moisture 2.7 % 0.10 1 03/03/20 12:47 9045 pH Soil Analytical Method: EPA 9045D pH at 25 Degrees C 5.7 Std. Units 0.10 1 03/16120 18:11 H3 Plant Available Nitrogen Analytical Method: SM 271OB-2011 Plant Available Nitrogen 12700 mglkg 0.12 1 0311212012:11 N2 Total Nitrogen Calculation Analytical Method: TKN+NO3+NO2 Calculation Nitrogen 41100 mglkg 40.0 1 03/09/20 15:00 7727-37-9 350.1 Ammonia Analytical Method: EPA 350.1 Rev 2.0 1993 Mod. Preparation Method: EPA 350.1 Rev 2.0 1993 Mod. Nitrogen, Ammonia 1850 mg/kg 29.6 3 03/09/20 09:36 03/11/20 14:08 7664-41-7 351.2 Total Kjeldahl Nitrogen Analytical Method: EPA 351.2 Rev 2.01993 Preparation Method: EPA 351.2 Rev 2.0 1993 Nitrogen, Kjeldahl, Total 41100 mg/kg 3810 100 03/03/20 12:53 03/04/20 05:39 7727-37-9 353.2 Nitrogen, NO2IN03 Analytical Method: EPA 353.2 Rev 2.01993 Preparation Method: EPA 353.2 Rev 2.0 1993 Nitrogen, NO2 plus NO3 ND mg/kg 4.1 1 03/03/20 12:06 03/03/20 15:11 Nitrogen, Nitrate ND mg/kg 4.1 1 03/03/20 12:06 03/03/2015:11 14797-55-8 Nitrogen, Nitrite ND mg/kg 4.1 1 03/03/20 12:06 0310312015:11 14797-65-0 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full. Dale: 03/16/2020 08:26 PM without the written consent of Pace Analytical Services, I.I.C. aceAnalytical wxw.paeole8e.eom Pace Analytical Services, LLC 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 ANALYTICAL RESULTS Project: Dried Residual Pace Project No.: 92467373 Sample: TWSA DRIED RESIDUAL Lab ID: 92467373001 Collected: 03/02/20 08:00 Received: 03/02/20 09:39 Matrix: Solid Results reported on a "dry weight' basis and are adjusted forpercent moisture, sample size and any dilutions. Parameters Results Units Report Limit DF Prepared Analyzed CAS No. Qual 365.1 Phosphorus, Total Analytical Method: EPA 365.1 Rev 2.0 1993 Preparation Method: EPA 365.1 Rev 2.0 1993 Phosphorus 10600 mg/kg 247 250 0310412010:18 0310412014:04 7723-14-0 Sample: TWSA DRIED RESIDUAL Lab ID: 92467373002 Collected: 03/02/20 08:00 Received: 03/02/20 09:39 Matrix: Solid Results reported on a "dry weight' basis and are adjusted for percent moisture, sample size and any dilutions. Parameters Results Units Report Limit DF Prepared Analyzed CAS No. Qual Percent Moisture Analytical Method: ASTM D2974-87 Percent Moisture 2.7 % 0.10 1 03/03/20 12:56 1010 Flashpoint,Closed Cup Analytical Method: EPA 1010A Flashpoint >200 deg F 70.0 1 03/15/20 10:41 9045 pH Soil Analytical Method: EPA 9045D pH at 25 Degrees C 5.7 Std. Units 0.10 1 03/16120 18:12 3C S Reactive Cyanide Analytical Method: EPA 9014 Preparation Method: SW-846 7.3.3.2 Cyanide, Reactive ND mg/kg 1.0 1 03103/20 16:20 03/04/20 10:08 734S Reactive Sulfide Analytical Method: SM 4500S217-2011 Preparation Method: SW-846 7.3.4.2 Sulfide, Reactive ND mgfkg 10.2 1 03/03/20 16:20 03/03/20 16:24 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full. Date: 03/16/2020 08:26 PM without the mitten consent of Pace Analytical Services, U.C. H3 SIR SPEEDY PRINTING CENTER • MINNEAP.OLIS, MN 55414 • 612-378-7778 -CUSTODY Analytical Request Document I' r ILAB USEONLY Affl Wi Y lstodv is a LEGAL DOCUMENT -Complete all releventflelds r{I ��- Customer Project Name/Number: s ' State: County/City: Time Zone Collected: .' / [ ]PT[ JMT[ ]CT [ ]ET Phone: ' Site/Facility ID #: Compliance Monitoring? Email: [ ] Yes [ ]NO Collected By (pr ): Purchase Order#: DW PWS ID M C-. quote It: DW Location Code: e d r Turnaround Date Required:. Immediately. Packed on Ice: -! [ ] Yes [ ] No Sample Disposal: Rush: ', Field Filtered(ifapplicable): ] Dispose as appropriate [ ] Return [ ]Same Day [ ] Next Day [ ] Yes. [ ] No [ I Archive: [ ] 2 Day [ ] 3.Day [ ] 4 Day [ ] 5 Day. Analysis: [ IHold: (Expedite Charges Apply) Matrix Codes (Insert in Matrix box below): Drinking Water (DW), Ground Water (GW), Wastewater (WW), Product (P), Soil/Solid (SL), Oil (OL), Wipe (WP), Air (AR), Tissue (TS), Bloassay (B), Vapor (V), Other (OT) ' Comp/ Collected (or Composite End I Res#.of Customer Sample ID Matrix Grab Composite Start) CI Ctns _ Date Time ... Date Time Customer Remarks / Special Conditions / Possible Hazards: It ed mn^^v; Igna (6) methanol, (7) sodium bisulfate, (8) sodium thlosulfate, ascorbic add, Sample ID-'f WSA Dried Residual (non -discharge permit ik005763) Ti a CollectedC-. Coca Sample date- ���`� (� f Analysis Requested: Aluminum (AI) Molybdenum (MO) Total Nitrogen (N) Arsenic (At) %Total Solids Total Phosphorous (P) Cadmium (Cd) Nickel (Ni) Ammonia Nitrogen (NH3-N). Calcium (Ca) Potassium (K) Total Kjeldahl Nitrogen (TKN) Chromium (Cr) Selenium (Se) Corosivity Copper (Cu) Sodium (Na) Ignitability Lead (Pb) Zinc (Zn) Reactivity Magnesium (Mg) ph Mercury (Hg) _ Plant Available Nitrogen (PAN) Surface applied Date/Time: Received by/Company: (Signature) Date/Time: g� f'rlgl- a <� SAR Calculations- 3/2/2020 SAR = Sodium (Na) Milli Equivalent 0.5 X (Calcium (Ca) Milli Equivalent+ Magnesium(Mg) Milli Equivalent)" Na= 551 mg/kg/ Na Milli Equivalent(ME)= 551/23 equivalent wgt=24.0 ME Ca= 9330 mg/kg/Ca Milli Equivalent(ME)= 9330/20 equivalent wgt= 466.5 ME Mg= 3870 mg/kg/Mg Milli Equivalent(ME)= 3870/12 equivalent wgt= 322.5 ME SAR= 24.0 Na Milli Equivalent 0.5 X (466.5 Ca Milli Equivalent + 322.5 Mg Milli Equivalent)" SAR= 1.2 r� 24.0 Na Milli Equivalent (0.5X789)0.s 24.0 Na Milli Equivalent (394.5)0s 24.0 Na Milli Equivalent 19.9 Environmental Testing Solutions, Inc. C Certificate of Analysis Project name: Tuckaseigee Water & Sewer Collection date: 18-May-20 Date received: 18-May-20 Sample identification: TSWA Dried Residual - Grab PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828)350-9368 Project number: 200518.500 Sample number: 199447 Parameter Method Result RL Units Date Analyst Footnotes Analyzed a/oTS SM 2540 G 98 0.10 % 19-May-20 KEK Mulitple Tube Fermentation Procedure SM 9221-E <176 176 MPN I8-May-20 KEK Sample identification: TWSA Dried Residual -Grab Sample number: 199448 Parameter Method Result RL Units Date Analyst Footnotes Analyzed °/aTS SM 2540 G 98 0.10 % Is-May-20 KEK Mulitple Tube Fermentation Procedure SM 9221-E <176 176 MPN moray-2o KEK Sample identification: TWSA Dried Residual- Grab Sample number: 199449 Parameter Method Result RL Units Date Analyst Footnotes a/aTS SM 2540 G 98 0.10 % I8-rotay-20 KEK I Mulitple Tube Fermentation Procedure SM 9221-E <176 176 MPN is-May-zo KEK 1 Footnotes: RL = Reporting Limit. Values are reported down to the Reporting Limit only. 1. Sample bag was labeled with the time of collection 0730A. Confirmed with client that this sample was collected at 0745A. Date reviewed: 0-as.•av NC Certification Number: 600 Data reviewed by: Kelley E. Keenan SC Certification Number: 99053 Signature: „( NC Drinking Water Certification Number: 37786 !i`-� This report should not be reproduced, exept in its entirety, without the written consent of Environmental Testing Solutions, Inc. The results in this report relate only to the samples submitted for analysis. CHAIN -OF -CUSTODY / Analytical Request Environmental Testing Solutions, Inc. PO Box 7565, AshevIDe, NC 28802 Phone: (828) 350-9364, Fax. (828)350-9368 Project Name: 10 Client Name: Address: Report to: Phone: Rg- 5M—/d77,Z '-FR- Sbr Aga�Q*A$W C Qk5 PO Number: /©A t 1 Reauested Analvses Project Number: a00519.�17� HCheekedU onRexi t Ci, <02 M&q Upon Receipt Preservatives 'F a U A Sample IdentiScation 4 e a H 3 s d d p m o Q v z 13 < 9 lb9 � P d 66 °o o y� + p tiSRTemp.CC) ld is fu � A F a ,'° 5 zO� x x ,22' z`S Comments NA AA /0 q�v1 lr a l r )r M446 It t( t , t Ir II (g9'IH�l j, :nth Yf3d• lure Temperatme(°C) 092y t/l s Osre 09Ly Received on Ice: Y / N Sealed Cooler. Y N Samples Intact: / N Additional /Comments: ,'� topa # & 673V AIyty7-J.W-4LO Printed UginFofSamp\ 3 (Mjt, ba3 , O4'S 6tgnatyreb er 1. J ` aceAnalytical www.pamlahs i June 04, 2020 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project TWSA Dried Residual 5/18 Pace Project No.: 92478007 Dear Mr. Bryson: Pace Analytical Services, LLC 2225 Riverside Dr. Asheville, NC 28804 (a28)254.7176 Enclosed are the analytical results for sample(s) received by the laboratory on May 18, 2020. The results relate only to the samples included in this report. Results reported herein conform to the applicable TNI/NELAC Standards and the laboratory's Quality Manual, where applicable, unless otherwise noted in the body of the report. The test results provided in this final report were generated by each of the following laboratories within the Pace Network: • PaceAnalyfical Services -Asheville • Pace Analytical Services - Charlotte • Pace Analytical Services - New Orleans • Pace Analytical Services - Greensburg If you have any questions concerning this report, please feel free to contact me. Sincerely, a Chris Derouen chdstopherderouen@pacelabs.com (828)254-7176 Project Manager Enclosures REPORT OF LABORATORY ANALYSIS This report shag not be reproduced, except in full, without the written consent of Pace Analytical Services, LLC. Page 1 of 31 �-51XAnalyffcalo wwupacela6scam ANALYTICAL RESULTS Project TWSA Dried Residual 5/18 Pace Pmject'Nb.: 9247800T Pace Analytical Services, LLC 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: TWSA DRIED RESIDUAL Lab ID: 92478007001 Collected: 05/18/20 07:45 Received: 05/18/20 10:32 Matrix: Solid Results reported on a 'dry weight'basis and are adjusted for percent moisture, sample size and any dilutions. Parameters Results Units Report Limit DF Prepared Analyzed CAS No. Qual 6D10 MET ICP Analytical Method: EPA 6010D Preparation Method: EPA 3050B Pace Analytical Services -Asheville Aluminum 22800 mg/kg 59.9 10 05/2712007:55 06/01/2021:32 7429-90-5 Arsenic 2.0 mglkg 0.60 1 05/27/20 07:55 06/0112012:11 744038-2 Cadmium 1.1 mg/kg 0.060 1 05/27/20 07:55 06/01/2012:11 744D43.9 Calcium 8700 mglkg 59.9 10 O5/27/20 07:55 06/01/20 21:32 7440-70-2 Chromium 18.1 mglkg 0.30 1 05/27/2007:55 06101/2012:11 7440-47.3 Copper 327 mglkg 0.30 1 05/27/20 07:55 06/01/201211 7440-50-8 Lead 13.3 mglkg 0.30 1 05/27/20 07:55 06/01/20 12:11 7439-92-1 Magnesium 4130 mglkg 6.0 1 05/27/20 07:55 06/01/20 12:11 7439-95A Molybdenum 6.9 mglkg 0.30 1 05/27/20 07:55 06/01/20 12:11 7439-98-7 Nickel 14.3 mg/kg 0.30 1 05/27/20 07:55 0610112012:11 7440-02-0 Potassium 4650 mg/kg 300 1 05/27/20 07:55 06/01/20 12:11 7440-09-7 Selenium 6.0 mglkg 0.60 1 05/27/20 07:55 06/01/20 12:11 7782-49-2 Sodium 718 mglkg 300 1 05/27/20 07:55 06/01/20 12:11 7440-23-5 Zinc 822 mglkg 6.0 10 05/27/20 07:55 06/01/2021:32 7440-66-6 7471 Mercury '''emury 254OG Total Percent Solids Total Solids Percent Moisture Percent Moisture 9045 pH Soil pH at 25 Degrees C Plant Available Nitrogen Plant Available Nitrogen Total Nitrogen Calculation Nitrogen 350.1 Ammonia Nitrogen, Ammonia Date: 06/04/2020 03:3D PM Analytical Method: EPA 7471 B Preparation Method: EPA 7471E Pace Analytical Services -Asheville 0.94 mglkg 0.041 20 05/19/2013:16 05121/2012:58 7439-97-6 Analytical Method: SM 2540G2011 Pace Analytical Services - Charlotte 97.0 % 0.10 1 Analytical Method: ASTM D2974-87 Pace Analytical Services - Charlotte 2.9 % 0.10 1 Analytical Method: EPA9045D Pace Analytical Services -Asheville 5.7 Sid. Units 0.10 1 Analytical Method: SM 271OB-2011 Pace Analytical Services -Asheville 05/20/20 15:33 05/20/20 15:26 05126/2012:02 H3 15800 mg/kg 0.12 1 06/01/2012*41 N2 Analytical Method: TKN+NO3+NO2 Calculation Pace Analytical Services -Asheville 50600 mg/kg 40.0 1 06101/2012:12 772737-9 Analytical Method: EPA 350.1 Rev 2.0 1993 Mod. Preparation Method: EPA 350.1 Rev 2.0 1993 Mod. Pace Analytical Services -Asheville 3020 mglkg 74.7 10 05/26/2011:48 05/26/2014:31 7664-41-7 REPORT OP LABORATORY ANALYSIS This report shall not be reproduced, except In full, without the written consent of PaceAnalytical Services, LLC. Page 4 of 31 aceAna[Wcal e w ..pacelabs= ANALYTICAL RESULTS Project TWSA Dried Residual 5/18 Pace Project No.: 9247800T Pam Analytical Services, LLC 2225 Riverside Dr. Asheville, NC 28804 (828)254.7176 Sample: TWSA DRIED RESIDUAL Lab ID: 92478007001 Collected: 05/18/20 07:45 Received: 05/18/20 10:32 Matrix: Solid Results reported on a 'dry weight basis and are adjusted forpercent moisture, sample size and any dilutions. Parameters Results Units Report Limit DF Prepared Analyzed CAS No. Qual 3512 Total Kjeldahl Nitrogen Analytical Method: EPA 3512 Rev 2.0 1993 Preparation Method: EPA 3512 Rev 2.0 1993 Pace Analytical Services -Asheville Nitrogen, Kjeldahl, Total 50600 mglkg 1610 50 05/29/2013.41 05/30/20 07:33 7727-37-9 353.2 Nitrogen, N021NO3 Analytical Method: EPA 353.2 Rev 2.0 1993 Preparation Method: EPA 353.2 Rev 2.0 1993 Pace Analytical Services - Asheville Nitrogen, NO2 plus NO3 NO mg/kg 4.1 1 05/18/20 22:40 05/19/20 01:25 Nitrogen,Nitiate NO mg/kg 4.1 1 05/18/2g2Z:4D 05/1g/2D01:25' t4797,55.8' Nitrogen, Nitrite NO mg/kg 4.1 1 05/18/20 22:40 05/19/20 01:25 14797-65-0 M1 365.1 Phosphorus, Total Analytical Method: EPA365.1 Rev 2.01993 Preparation Method: EPA365.1 Rev 2.01993 Pace Analytical Services -Asheville Phosphorus 14400 mg/kg 297 30D 05120/2019:09 05/2012023AG 7723-14-0 Sample: TWSA DRIED RESIDUAL lab ID: 92478007002 Collected: 05/18/20 07:45 Received: 05/18/20 10:32 Matrix: Solid Results reported on a 'dry weight basis and are adjusted for percent moisture, sample size and any dilutions. CParameters Results Units Report Limit DF Prepared Analyzed CAS No. Qual Percent Moisture Analytical Method: ASTM D2974-87 Pace Analytical Services - Charlotte PorcentMoisture' 2:9' % 0:10' 1' 05/20/20,15:33, 1010 Flashpoint,Closed Cup Analytical Method: EPA 1010 Pace Analytical Services - New Orleans Flashpoint >212 deg F 75.D 1 05/29/20 14:09 9045 pH Soil Analytical Method: EPA 9045D Pace Analytical Services -Asheville pH at25 Degrees-C 5.8• Sidi Units 0.10, 1, 05/26/2012:02, H3' 733C S Reactive Cyanide Analytical Method: EPA 9014 Preparation Method: SW-846 7.3.3.2 Pace Analytical Services - Greensburg Cyanide, Reactive NO mglkg 1.0 1 061191201935 05/20/20 10:07 7345 Reactive Sulfide Analytical Method: SM 4500S2F-2011 Preparation Method: SW-846 7.3.4.2 Pace Analytical Services - Greensburg Sulfide, Reactive NO mg/kg 10.2 1 05/19/20 19:35 05/19/20 19:38 REPORT OF LABORATORY ANALYSIS This report shall not be repmdumd, except in full, Date: 06/04/2020 03:30 PM without the written consent of Pam Analydml Services, I.I.C. Page 5 of 31 :9 0 ZTc I 3SS 4Cn SSr ' 6Qc F BAI sc 1 ANALYTICAL REPORT May 27, 2020 Pace Analytical -Asheville, NC Sample Delivery Group: L1219808 Samples Received: 05/19/2020 Project Number: 92478007 Description: TWSA Dried Residual 5/18 Site: 001 ReportTo: Christopher Derouen 2225 Riverside Drive Asheville, NC 28804 Entire Report Reviewed By: A A, � �kLVIJv` Nancy McLain Project Manager ACCOUNT: PROJECR SDG: DATFMME .PAGE TWSA DRIED RESIDUAL SAMPLE RESULTS - 01 ONE LAB. NATIONWIDE Collected date/tlme: 05/18/20 07:45 L1219808 Microbiology by Method EPA 1681 Result Qualifier Dilution Analysis Batch Cp Analyte MPWg �totiform-gassA <87 Ti date/time 10 OStl9202014:22 WG74789P TC Total Solids by Method 2540 G-2011 ES Qualifier Dilution Analysis Batch Analyte % date/time aCn Total Solids 972 1 0521120201141 WG1479206 6QC ® 7G1 aAl 9Sc y Nc — - - — - - - - - - Page 26of 31 - ACCOUNT: PAGE: GLOSSARY OF TERMS ONELAB.NATIONWIDE C Guide to Reading and Understanding Your Laboratory Report The information below is designed to better explain the various terms used In your report of analytical results from the Laboratory. This Is not Intended as a comprehensive explanation, and Ifyou have additional questions please contact your project representative. Results Disclaimer- Information that may be provided by the customer, and contained within this report. include Permit Limits, Project Name, Sample ID, Sample Matrix, Sample Preservation, Field Blanks, Field Spikes, Field Duplicates, On -Site Data, Sampling Collection Dates(flmes, and Sampling Location. Results relate to the accuracy of this Information provided, and as the samples are received. Abbreviations and Definitions MDL Method Detection Limit RDL Reported Detection Limit Rec. Recovery. RPD Relative Percent Difference. SDG Sample Delivery Group. Analyte The name of the particular compound or analysis performed. Some Analyses and Methods will have multiple analytes reported. If the sample matrix contains an Interfering material, the sample preparation volume or weight values differ from the Dilution standard, or if concentrations of analytes in the sample are higher than the highest limit of concentration that the laboratory can accurately report, the sample may be diluted for analysis. If a value different than t is used in this field, the result reported has already been corrected for this factor. These are the target %recovery ranges or %difference value that the laboratory has historically determined as normal Limits for the method and analyte being reported. Successful QC Sample analysis will target all analytes recovered or duplicated within these ranges. This column provides a letter and/or number designation that corresponds to additional information concerning the result Qualifier reported. If a Qualifier is present, a definition per Qualifier Is provided within the Glossary and Definitions page and potentially a discussion of possible Implications of the Qualifier In the Case Narrative If applicable. The actual analytical final result (corecled for any sample specific characteristics) reported for your sample. If there was no measurable result returned for a specific analyte, the result in this column may state 'ND' (Not Detected) cr'BDL' Result (Below Detectable Levels). The Information In the results column should always be accompanied by either an MDL (Method Detection Limit) or RDL (Reporting Detection Limit) that defines the lowest value that the laboratory could detect or report for this analyte. Uncertainty (Radiochemistry) Confidence level of 2 sigma. A brief discussion about the Included sample results, including a discussion of any non -conformances to protocol Case Narrative (Cn) observed either at sample receipt by the laboratory from the field or during the analytical process. If present there will be a section in the Case Narrative to discuss the meaning of any data qualifiers used In the report. Quality Control This section of the report includes the results of the laboratory quality control analyses required by procedure or Summary (Qc) analytical methods to assist In evaluating the validity of the results reported for your samples. These analyses are not being performed on your samples typically, but on laboratory generated material. This Is the document created in the field when your samples were initially collected. This Is used to verify the time and Sample Chain of date of collection, the person collecting the samples, and the analyses that the laboratory Is requested to perform. This Custody (Sc) chain of custody also documents all persons (excluding commercial shippers) that have had control or possession of the samples from the time of collection until delivery to the laboratory for analysis. This section of your report will provide the results of all testing performed on your samples. These results are provided Sample Results (Sr) by sample ID and are separated by the analyses performed on each sample. The header line of each analysis section for each sample will provide the name and method number for the analysis reported. Sample Summary (Ss) This section of the Analytical Report defines the specific analyses performed for each sample ID. Including the dates and times of preparation and/or analysis. Qualifier Description T8 Sample(s) received pasVtoo close to holding time expiration. rCp zTc aSs 4Cn sSf sQC aAl 9Sc ACCOUNT: PROJECT: SDG: DATEMME: PWg6f§1 PAGE: " � acemalocar ANALYTICAL REPORT ftllenaf Center 51 7&tft & lnna , May 27, 2020 Pace Analytical - Asheville, NC Sample Delivery Group: L1219808 Samples Received: 05/19/2020 Project Number: 92478007 Description: TWSA Dried Residual 5/18 Site: 001 Report To: Christopher Derouen 2225 Riverside Drive Asheville, NC 28804 Entire Report Reviewed By: Nancy McLain Project Manager Rdsitlts relate ontIr to the Item tested a calibrated and are reporteaas rounded valued This test rep . ortsbalflotbe reproduced. mept In full, WlhmtwWM apprunral ofthe laboratory. Where applicable. sampling conducted by Pam Analytical National Is performed per guidance prodded In laboratory standard operating Procedures EW-SOP-N1rIL-0067 and Ap-' ENV-SOPWIM-0068.Where sampling conducted by the customer, rmlls relate to the accuracy of the Inforro8o6'0661ded, and as thp.samples are recelved. 0 c Ss rcnSSr FC] M rz----f FAI I F-1 I SC I t TABLE OF CONTENTS ONE LAB. NATIONWIDE. Cp: Cover Page 1 Cp _ Tc: Table of Contents 2 Ss: Sample Summary 3 Cn: Case Narrative 4 Sr: Sample Results 5 3 SS' TWSA DRIED RESIDUAL 1-1219808-01 5 aCn Qc: Quality Control Summary 6 Total Solids by Method 2540 G-2011 6 SSr GI: Glossary of Terms 7 Al: Accreditations & Locations 8 GQc Sc: Sample Chain of Custody 9 , GI CAI 9Sc C Cr s = t ACCOUNT.= ;I ii I' PRQJECT "w sDG r r `�I'�7. [)ATE/TIME -, ,_ _Pace Anaty[Icel-AshevAle NC 92478007 , , iL1219808µ._ _ J 0527207052,- TWSA DRIED RESIDUAL L12198O8-01 Solid SAMPLE SUMMARYi Collected by Collected dateltime 05/0200 AS ONE LAB. NATIONWIDE Received dateMme 05I192008:45 I pp -Method 1 Batch Dilution Preparallon Analysis Analyst Locatlon dateldme dateltime ETC Microbiology by Method EPA 1681 WGI478917 10 O511912014:22 05/192014:22 JTS Mt Juliet, TN Total Solids by Method 2540 G-2011 WG1479206 1 05/21/2013:21 052112013:41 MMF ML Juliet, TN ® ' yCfl SSf oQC �GI �AI 9Sc C L ,- ACCOUNT:. r 1 PROJECT ,' . SDG - DATE/TIME - ' '.PAGE -- - 3 of Pace Asheviae NC �� y 92478007 '; L1219808 0527201052 __ E ,, 0 CASE NARRATIVE ONE LAB. NATIONWIDE All sample aliquots were received at the correct temperature, appropriate preservatives, and within method specified In the proper containers, with the holding times, unless qualified or notated within Lp the report Where applicable, all MDL (LOD) and RDL (LOQ) values reported for environmental samples have been corrected for the dilution factor used in the analysis. All Method and Batch Quality Control Tc are within established criteria gxcept where addressed in this case narrative, a non-conformance form or properly qualified within the sample results. By my digital signature below, I affirm to the best of my knowledge, all observed by the laboratory as having the to the r. Ss problems/anomalies potential affect quality of the data have been identified by the laboratory, and no information or data have been knowingly withheld that would affect the quality of the data. aSr GQc �GI Nancy McLain 7AI Project Manager BSc - ACCOUNT:',' :. yi. r,,: IPRO]ECr n ''-, SDG + DATE/TIME - PAGE Pace Nlatyllcei;Ashevgle NC `, 92478007 L7219808 0527201052. '4of10 RESIDUAL 'SAMPLE RES'ULTS.= 01 ONE,LA9, NATIOPJWII) 05/181200745. .i... ,L12198081 Microbiology by Method EPA 1681 Result Oualifer Mellon Analysis Batch p �lyte MPN/g al Coliform- ClassA Q.87 Ta dale/time 10 0511902014:22 WG1479917 ETC Total Solids by Method 2540 G-2011 3Ss Result Qualifier Dilution Analysis Batch Analyte % date7gme 4Cr1 Total Solids 97.2 1 05/211202013:41 WG1479206 aC 7G1 CAI. eSc C_ L - t , j ACCOUNT:, '. PROJECT �: '8DG DAT,E/fIME iPace Analyllcal Ashevale NC - T 92478007 L7219806 0527201062 -_ __�� _. _ _, SAR Calculations- 5/18/20 (71 SAR = Sodium (Na) Milli Equivalent 0.5 X (Calcium (Ca) Milli Equivalent+ Magnesium(Mg) Milli Equivalent)` Na= 718 mg/kg/ Na Milli Equivalent(ME)= 718/23 equivalent wgt=31.2 ME Ca= 8700 mg/kg/Ca Milli Equivalent(ME)= 8700/20 equivalent wgt= 435 ME Mg= 4130 mg/kg/Mg Milli Equivalent(ME)= 4130/12 equivalent wgt= 344 ME SAR= 31.2 Na Milli Equivalent 0.5 X (435 Ca Milli Equivalent+ 344 Mg Milli Equivalent)0.5 - 31.2 Na Milli Equivalent ( 0.5 X 779) 0-5 - 31.2 Na Milli Equivalent C (390)0-5 31.2 Na Milli Equivalent 19.7 SAR= 1.6 www.pacelabixom August 18, 2020 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: Dried Residual 814 Pace Project No.: 92489069 Dear Mr. Bryson: Pace Analytical Services, LLC 2225 Riverside Dr. Asheville, NC 26604 (628)254-7176 i l SEP - 2 2020 I Enclosed are the analytical results for sample(s) received by the laboratory on August 04, 2020. The results relate only to the samples included in this report Results reported herein conform to the applicable TNI/NELAC Standards and the laboratory's Quality Manual, where applicable, unless otherwise noted in the body of the report C The test results provided in this final report were generated by each of the following laboratories within the Pace Network: • Pace Analytical Services -Asheville • Pace Analytical Services - Charlotte • Pace Analytical Services - Greensburg If you have any questions concerning this report, please feel free to contact me. Sincerely, Chris Derouen christopher.derouen@pacelabs.com (828)254-7176 Project Manager Enclosures PCCrtEO. . •, r> ar r. i �eU p REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical services, LLC. Page 1 of 30 wampacelabs.com Pace Analytical Se (ices, LLC 1 2225 Riverside Dr. Ashevlle,l NC 28804 (828)254.7176 1 1 Project: Dried Residual 8/4 Pace Project No.: 92489069 ANALYTICAL RESULTS I Sample: TWSA DRIED RESIDUAL Lab ID: 92489069001 Collected: 08/04/20 09:00 Received: O8/04120 12:50 Matrix: Solid Results reported on a "dry weight"basis and are adjusted forpercent moisture, sample size and any dilutions. Parameters Results Units Report Limit DF Prepared Analyzed CAS No. Qual 6010 MET ICP Analytical Method: EPA 6010D Preparation Method: EPA 3050B Pace Analytical Services -Asheville Aluminum 8040 mglkg 9.2 1 08/10120 20:13 08/11/20 16:17 7429-90-5 Arsenic 2.5 mglkg 0.92 1 08/10/20 20:13 08111120 16:17 7440-38-2 Cadmium 0.27 mglkg 0.092 1 08110/2020:13 0811112016:17 744043-9 Calcium 56400 mglkg 91.7 10 OB/1 0120 20:13 08/11/2018:27 7440-70-2 Chromium 66.1 mglkg 0.46 1 0811012020:13 0811112016:17 7440-47-3 Copper 18.3 mg/kg 0.46 1 08/1012020:13 08/1112016:17 7440-50-8 Lead 17.2 mg/kg 0.46 1 08/1012020:13 08/11/2016:17 7439-92-1 Magnesium 2970 mglkg 9.2 1 08110/2020:13 08/1112016:17 7439-95-4 Molybdenum 5.1 mglkg OAS 1 08/10/20 20:13 0811112016:17 7439-98-7 Nickel 37.5 mglkg OAS 1 08/10/20 20:13 08/11/2016:17 7440-02-0 Potassium 767 mglkg 459 1 08/1012020:13 08111/2016:17 7440-09-7 Selenium ND ni 0.92 1 08/1012020:13 0811112016:17 7782-49-2 Sodium ND mglkg 459 1 08110/2020:13 08111/2016:17 7440-23-5 Zinc 54.7 mglkg 0.92 1 08110/2020:13 0811112016:17 7440-66-6 7471 Mercury Analytical Method: EPA 7471B Preparation Method: EPA 7471B Pace Analytical Services -Asheville �. Mercury 0.71 ni 0.039 20 0810512010:22 08105/2015:33 7439-97.6 2540G Total Percent Solids Analytical Method: SM 2540G-2011 Pace Analytical Services - Charlotte Total Solids 99.1 % 0.10 1 08105120 14:35 Percent Moisture Analytical Method: ASTM D2974-87 Pace Analytical Services - Charlotte Percent Moisture 0.88 % 0.10 1 08/05/2014:28 9045 pH Sol Analytical Method: EPA 9045D Pace Analytical Services -Asheville pH at 25 Degrees C 8.2 Sid. Units 0.10 1 08/10/20 16:10 H3 Plant Available Nitrogen Analytical Method: SM 2710B-2011 Pace Analytical Services -Asheville Plant Available Nitrogen 10400 mg/kg 0.12 1 08/1412016:32 N2 Total Nitrogen Calculation Analytical Method: TKN+NO3+NO2 Calculation Pace Analytical Services -Asheville Nitrogen 33700 mglkg 40.0 1 08/14/20 16:22 7727-37-9 350.1 Ammonia Analytical Method: EPA 350.1 Rev 2.0 1993 Mod. Preparation Method: EPA 350.1 Rev 2.0 1993 Mod. Pace Analytical Services -Asheville Nitrogen, Ammonia 1270 mgfkg 24.8 3 08/11/20 07:33 08/11/20 11:27 7664-41-7 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, exceptln full, Date: O8/1812020 05:11 PM without the written consent of Paco Analytical Services, I.I.C. Page 4 of 30 www.parr19bsxom ANALYTICAL RESULTS Pace Analytical Services, LLC 2225 Riverside Dr. Asheville, NC 28804 (826)254-7176 m Project: Dried Residual 8/4 Pace Project No.: 92489069 Sample: TWSA DRIED RESIDUAL Lab ID: 92489069001 Collected: 08/04/2009:00 Received: 08/0412012:50 Matrix: Solid Results reported on a "dry weight"basis andare adjusted for percent moisture, sample size and any dilutions. Parameters Results Units Report Limit DF Prepared Analyzed CAS No. Qual 351.2 Total Kjeldahl Nitrogen Analytical Method: EPA 351.2 Rev 2.0 1993 Preparation Method: EPA 351.2 Rev 2.0 1993 Pace Analytical Services -Asheville Nitrogen, Kjeldahl, Total 33700 mglkg 2020 50 08/13/20 06:11 08114/20 06:58 7727.37-9 353.2 Nitrogen, N021NO3 Analytical Method: EPA 353.2 Rev 2.0 1993 Preparation Method: EPA 353.2 Rev 2.0 1993 Pace Analytical Services -Asheville Nitrogen, NO2 plus NO3 ND mglkg 4.0 1 08/04120 21:08 08/04/20 23:07 Nitrogen, Nitrate ND mg/kg 4.0 1 08/0412021:08 08/04/2023:07 14797-55-8 Nitrogen, Nitdle ND mglkg 4.0 1 08/04/2021:08 08104/2023:07 14797-65-0 365.1 Phosphorus, Total Analytical Method: EPA 365.1 Rev 2.0 1993 Preparation Method: EPA 365.1 Rev 2.0 1993 Pace Analytical Services -Asheville Phosphorus 9620 mglkg 265 300 08/1012015:57 08/1112010:20 7723-14-0 Sample: TWSA DRIED RESIDUAL Lab ID: 92489069002 Collected: 08/04/20 09:00 Received: 08/04/20 12:50 Matrix: Solid Results reported on a "dry weight"basis and are adjusted torpercent moisture, sample size and any dilutions. - Parameters Results Units Report Limit DF Prepared Analyzed CAS No. Qual Percent Moisture Analytical Method: ASTM D2974-87 Pace Analytical Services - Charlotte Percent Moisture 0.88 % 0.10 1 08/0512014:35 1010 Flashpolnt,Closed Cup Analytical Method: EPA 1010A Pace Analytical Services -Asheville Flashpoint >200 deg F 70.0 1 08/17/2016:26 9045 pH Sall Analytical Method: EPA 9045D Pace Analytical Services -Asheville pH at 25 Degrees C 6.0 Sid. Units 0.10 1 08/10120 16:17 H3 733C S Reactive Cyanide Analytical Method: EPA 9014 Preparation Method: SW-846 7.3.3.2 Pace Analytical Services - Greensburg Cyanide, Reactive ND mglkg 1.0 1 08106/2018:14 08/0712014:34 734S Reactive Sulfide Analytical Method: SM 4500S2F-2011 Preparation Method: SW-846 7.3.4.2 Pace Analytical Services - Greensburg Sulfide, Reactive ND mglkg 10.1 1 08106/2018:14 08106/2018:20 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except In full, Date: 08/18/2020 05:11 PM without the written consent of Pace Analytical Services, L-C. Page 5 of 30 Pace Analytical services, LLD 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 QUALIFIERS Project: Dried Residual 814 Pace Project No.: 92489069 DEFINITIONS DF - Dilution Factor, if reported, represents the factor applied to the reported data due to dilution of the sample aliquot. NO - Not Detected at or above adjusted reporting limit. TNTC - Too Numerous To Count J - Estimated concentration above the adjusted method detection limit and below the adjusted reporting limit MDL -Adjusted Method Detection Limit. PQL- Practical Quantitation Limit. RL- Reporting Limit - The lowest concentration value that meets project requirements for quantitative data with known precision and bias for a specific analyte in a specific matrix. S - Surrogate 1,2-Diphenylhydrazine decomposes to and cannot be separated from Azobenzene using Method 8270. The result for each analyte is a combined concentration. Consistent with EPA guidelines, unrounded data are displayed and have been used to calculate % recovery and RPD values. LCS(D) - Laboratory Control Sample (Duplicate) MS(D) - Matrix Spike (Duplicate) DUP - Sample Duplicate RPD - Relative Percent Difference NC - Not Calculable. SG - Silica Gel - Clean -Up U - Indicates the compound was analyzed for, but not detected. i' Acid preservation may not be appropriate for 2 Chloroelhylvinyl ether. �— A separate vial preserved to a pH of 4-5 is recommended in SW846 Chapter 4 for the analysis ofAcroleln and Acrylonilrile by EPA Method 8266. N-Nitrosodiphenylamine decomposes and cannot be separated from Diphenylamine using Method 8270. The result reported for each analyte Is a combined concentration. PaceAnalytical is TNI accredited. Contact your Pace PM for the current list of accredited analytes. TNI -The NELAC Institute. ANALYTE QUALIFIERS E Analyle concentration exceeded the calibration range. The reported result is estimated. H3 Sample was received or analysis requested beyond the recognized method holding time. M1 Matrix spike recovery exceeded QC limits. Batch accepted based on laboratory control sample (LCS) recovery. M6 Matrix spike and Matrix spike duplicate recovery not evaluated against control limits due to sample dilution. N2 The lab does not hold NELACIrNI accreditation for this parameter but other accreditationsfcertifications may apply. A complete list of accredilations/certifications is available upon request. R1 RPD value was outside control limits. REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except In full, Date: 08/18/2020 05:11 PM without the written consent of Paco Analytical Services, I.I.C. Page 18 of 30 I / aceMaiytical. ANALYTICAL REPORT Nadonel Camorrer Tesdn981nnovadon August 12, 2020 e Pace Analytical - Asheville, NC Sample Delivery Group: L1246797 Samples Received: 08/0512020 Project Number: 92489069 Description: Dried Residual 8/4 Site: 001 Report To: Christopher Derouen 2225 Riverside Drive Asheville, NC 28804 Entire Report Reviewed By: AAik�- Nancy McLain Project Manager Results relate only to the items tested or calibrated and reproduced, except In full, without written approval oft ate to me accuracy Or and as the samples are received. A067 and i prodded, ;�i n'1• ACCOUNT: PROJECT: SDG: DATErrIME PAGE: Pace Analytical -Ashe%Oa, NC 92489069 11246797 08/121201638 1pf90 TABLE OF CONTENTS ONE LAB. NATIONWIDE. Cp.Cover Page 1 Tc: Table of Contents 2 EP Ss: Sample Summary 3 Cn: Case Narrative 4 Sr: Sample Results 5 aSs TWSA DRIED RESIDUAL L1246797-01 5 4 GI: Glossary of Terms 6 Cn Al: Accreditations Jig Locations 7 SSr Sc: Sample Chain of Custody 8 aGl rAI aSc _.__---- --- — ,. _:.-- ----- --- .--......_... __._Page-22-of 30 _. ......... ACCOUNT: PROJECT: SOG: DATEMME: PAGE: Pace Analytical -Asheville, NC 92489069 L1246797 - 08A22016:38 2of10 TWSA DRIED RESIDUAL L1246797-01 Solid thod Microbiology by Method EPA 1681 A SAMPLE SUMMARY ONE LAB. NATIONWIDE. Collected by Collected date/time Received datellime 08/04/20 09:00 08/05/20 09:00 Batch Dilution Preparation Analysis Analyst Location date/time date/time WGI521751 1000 0810612013:35 0810612013:35 CM MIL Juliet, TN LJ FTC] 4Cn 6Sr aGl CAI aSc -...—....._ ..-..---- - .__.. ....... _.. _..--- — —. . -. .. Page-23 of 30 - .. ACCOUNT: PROJECT: SDG: DATE/TIME: PAGE: Pace Analytical -Asheville, NC 92489069 L1246797 08112/2016:38 3of 10 CASE NARRATIVE ONE LAB. NATIONWIDE. V All sample aliquots were received at the correct temperature, in the proper containers, with the �) appropriate preservatives, and within method specified holding times, unless qualified or notated within the report. Where applicable, all MDL (LOD) and RDL (LOQ) values reported for environmental samples have been corrected for the dilution factor used in the analysis. All Method and Batch Quality Control are within established criteria except where addressed In this case narrative, a non-conformance form or properly qualified within the sample results. By my digital signature below, I affirm to the best of my knowledge, all problems/anomalies observed by the laboratory as having the potential to affect the quality of the data have been Identified by the laboratory, and no information or data have been knowingly withheld that would affect the quality of the data. Ci Nancy McLain Project Manager .----- - ---... - --- --...----- .. _.. -- — - -- - - - — - - - - Page24 of-30... - _ . ACCOUNT: PROJECT: SOG: DATEfTIME PAGE: Pace Analytical -Asheville. NC 92489069 L1246797 081122016:38 4of10 TWSA DRIED RESIDUAL Collected daleltlme: 08104120 09:00 Microbiology by Method EPA 1681 Result �'alyle mig ecal Coliform - Class B SAMPLE RESULTS - 01 L1246797 Dilution Analysis Batch date/lime <183.0 T8 1000 08/061202013:35 WGI521751 ONE LAB. Page25 of30 - -... ACCOUNT: PROJECT: SDG: DATEMME: PAGE: Pace Analytical -Asheville, NC 92489069 L1246797 OBAM016:38 sof10 GLOSSARY OF TERMS ONE LAB. NATIONWIDE. a �J Guide to Reading and Understanding Your Laboratory Report I i, I The information below is designed to better explain the various terms used in your report of analytical results from the Laboratory. This is not intended as a comprehensive explanation, and if you have additional questions please contact your project representative. Results Disclaimer- Information that may be provided by the customer, and contained within this report, include Permit Limits, Project Name,l z TC Sample ID, Sample Matrix, Sample Preservation, Field Blanks, Field Spikes, Field Duplicates, On -Site Data, Sampling Collection Dates/Times,I and Sampling Location. Results relate to the accuracy of this Information provided, and as the samples are received. aSs Abbreviations and Definitions SDG Sample Delivery Group. 4 Analyte The name of the particular compound or analysis performed. Some Analyses and Methods will have multiple analytes Cn reported. If the sample matrix contains an interfering material, the sample preparation volume or weightvalues differ from the s Dilution standard, or if concentrations of analytes in the sample are higher than the highest limit of concentration that the Sf laboratory can accurately report, the sample may be diluted for analysis. If a value different than 1 is used in this field, the result reported has already been corrected for this factor. This column provides a letter and/or number designation that corresponds to additional information concerning the result Qualifier reported. If a Qualifier is present a definition per Qualifier is provided within the Glossary and Definitions page and No potentially a discussion of possible implications of the Qualifier in the Case Narrative if applicable. The actual analytical final result (corrected for any sample specific characteristics) reported for your sample. If there was no measurable result returned for a specific analyte, the result in this column may state 'ND' (Not Detected) or'BDL' AI Result (Below Detectable Levels). The information in the results column should always be accompanied by either an MDL (Method Detection Limit) or ROL (Reporting Detection Limit) that defines the lowest value that the laboratory could detect e or report for this analyte. SC Uncertainty (Radiochemistry) Confidence level of 2 sigma. A brief discussion about the included sample results. Including a discussion of any non -conformances to protocol Case Narrative (Cn) observed either at sample receipt by the laboratory from the field or during the analytical process. If present, there will be a section in the Case Narrative to discuss the meaning of any data qualifiers used in the report Quality Control This section of the report includes the results of the laboratory quality control analyses required by procedure or Summary(Qc) analytical methods to assist in evaluating the validity of the results reported for your samples. These analyses are not being performed on your samples typically, but on laboratory generated material. This is the document created in the field when your samples were initially collected. This is used to verify the time and Sample Chain of date of collection, the person collecting the samples, and the analyses that the laboratory is requested to perform: This Custody (Sc) chain of custody also documents all persons (excluding commercial shippers) that have had control or possession of the samples from the time of collection until delivery to the laboratory for analysis. This section of your report will provide the results of all testing performed on your samples. These results are provided Sample Results (Sr) by sample ID and are separated by the analyses performed on each sample. The header line of each analysis section for . each sample will provide the name and method number for the analysis reported. This section of the Analytical Report defines the specific analyses performed for each sample ID. including the dates and Sample Summary (Ss) times of preparation and/or analysis. Qualifier Description T8 Sample(s) received past/too close to holding time expiration. -Page 26of30...--- ACCOUNT: PROJECT: SDG: DATEMME: PAGE: Pace Analytical - Asheville. NC 92489069 L1246797 08/12/201638 6of 10 SAR Calculations- 8/4/2020 SAR = Sodium (Na) Milli Equivalent 0.5 X (Calcium (Ca) Milli Equivalent+ Magnesium(Mg) Milli Equivalent)0.5 Na= 459 mg/kg/ Na Milli Equivalent(ME)= 459/23 equivalent wgt=20.OME Ca= 56400 mg/kg/Ca Milli Equivalent(ME)= 56400/20 equivalent wgt= 2820 ME Mg= 2970 mg/kg/Mg Milli Equivalent(ME)= 2970/12 equivalent wgt= 248 ME SAR= 20.0 Na Milli Equivalent 0.5 X (2820 Ca Milli Equivalent + 248 Mg Milli Equivalent)" 20.0 Na Milli Equivalent ( 0.5 X 3068) 0.5 20.0 Na Milli Equivalent (- (1534)0.5 SAR= 0.5 C 20.0 Na Milli Equivalent 39 © Q i I PO "ox 7565i Asheville, NC 28802 Phone: (828)350-9364 Fax: (828) 350-9368I �., Environmental Testing Solutions, Inc. Certificate Of Analysis Project name: Tuckaseigee Water & Sewer Project number: 200824.500 Collection date: 24-Aug-20 Date received: 24-Aug-20 Sample identification: TSWA Dried Residual 1 - Grab Sample number: 204261 Parameter Method Result RL Units Date Analyst Footnotes Analyzed o/uTS SM 2540 G 99 0.10 % 24-Aug-20 KEK Mulitple Tube Fermentation Procedure SM 9221-E 485 178 MPN 24-Aas-2o KEK Sample identification: TWSA Dried Residual 2 -Grab Sample number: 204262 Parameter Method Result RL Units Date Analyzed Analyst Footnotes o/uTS SM 2540 G 98 0.10 % 24-Aug-20 KEK Mulitple Tube Fermentation Procedure SM 9221-E 921 176 MPN 24-Aug-2o KEK Sample identification: TWSA Dried Residual 3 - Grab Sample number: 204263 Parameter Method Result RL Units Date Analyst Footnotes Analyzed u/oTS SM 2540 G 99 0.10 % 24-Aag-20 KEK Muliple Tube Fermentation Procedure SM 9221-E 396 178 MPN 24-Aue-2o KEK Footnotes: RL = Reporting Limit. Values are reported down to the Reporting Limit only. Date reviewed: 013121 f pla NC Certification Number: 600 / Data reviewed by: Kelley E. Keenan SC Certification Number: 99053 Signature: NC Drinking Water Certification Number: 37786 V — This report should not he reproduced, exept in its entirety, without the written consent of Environmental Testing Solutions, Inc. The results in this report relate only to the samples submitted for analysis. CHAIN -OF -CUSTODY / Analytical Request Client Name: I uCiieigc�;cr 6Jreie� awe r © - x"7 -Address:�- _,Stiluck ti0— F7701 412 Environmental Testing Solutions, Inc. Report to: ej 'gr-y go vL. PO Box 7565, Asheville, NC 28802 Phone: R Q R - 5 A6 - c7 41 R Fax: Phone: (828) 350-9364, Fax: (828) 350-9368 PO Number: PmGwnf Nnmw• Rnnnwefwd Annlvcwc Project Number: PH Checked Upon Rcmi t CI, <0.2 mp/I Upon Receipt PreservativesV1111111ITe Identification ESample eU+E Uu 0 e U o O p r ld . (°C) Comments l t J8�4 5 G `l-r Asa G loyac� •00 i r a , f f s�. Temperature CC)T 8(. Received on Ice: t Y / N Sealed Cooler. Y / Samples Intact: Y N Additional Comments: • Printed Name mpler: ' Signature of Sit er: I .aceAnalXical e WM..pacelebscom November 23, 2020 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: TWSA DRIED RESIDUAL 11/10/20 Pace Project No.: 92504942 Dear Mr. Bryson: Pace Analytlml services. LLC S 9225 Riverside Dr. 'Asheville, NC 28864 (828)254-7176 Enclosed are the analytical results for sample(s) received by the laboratory on November 10, 2020. The results relate only to the samples included in this report. Results reported herein conform to the applicable TNI/NELAC Standards and the laboratory's Quality Manual, where applicable, unless otherwise noted in the body of the report. The test results provided in this final report were generated by each of the following laboratories within the Pace Network: •PaceAnalyticalServices-Asheville • Pace Analytical Services - Charlotte If you have any questions concerning this report, please feel free to contact me. Sincerely, Chris Derouen chdstophenderouen@pacelabs.com (828)254-7176 Project Manager Enclosures i i l I I� t.0 ? REPORT OF LABORATORY ANALYSIS I This report shag not be reproduced, except In full, ' qe0 '. without the written consent of Paco Analytical Services, LLC. Page 1 of 29 aoAnalytical wwapacelabs.com i Pace Analytical Services, LLC 2225 Riverside D, Asheville, NC 28804 (828)254-7176 I �I ANALYTICAL RESULTS Project TWSA DRIED RESIDUAL 11/10/20 Pace Project No.: 92504942 Sample: TWSA DRIED RESIDUAL Lab ID: 92504942001 Collected: 11110/20 09:30 Received: 11/10/20 12:04 Matrix: Solid Results reported on a 'dry weight"basis and are adjusted for percent moisture sample size and any dilutions. Parameters Results Units Report Limit DF Prepared Analyzed CAS No. Dual 6010 MET ICP Analytical Method: EPA 6010D Preparation Method: EPA3050B Pace Analytical Services -Asheville Aluminum 27000 mglkg 54.8 10 11111/2011:54 11/14/2017:20 7429-90-5 Arsenic 3.5 mg/kg 0.55 1 11/1112011:54 111131202147 7440-38-2 Cadmium 1.0 mg/kg 0.055 1 11/1112011:54 11/13/2023.47 7440-43-9 Calcium 9900 mg/kg 54.8 10 11/11/2011:54 1111412017:20 7440-70-2 Chromium 24.0 mglkg 0.27 1 11111/2011:54 11/1312023:47 7440-47-3 Copper 398 mglkg 0.27 1 111/11/2011:54 11/131202147 7440-SD-8 Lead 14.9 mg/kg 0.27 1 11/11/2011:54 11/1312023.47 7439-92-1 Magnesium 4060 mglkg 5.5 1 11/11/2011:54 11/1312023:47 7439-954 Molybdenum 4.1 mg/kg 0.27 1 1111112011:54 11/13120 23:47 7439-98-7 Nickel 17.9 mglkg 0.27 1 1111112011:54 11/13/20 23:47 7440-02-0 Potassium 3890 mglkg 274 1 1111112011:54 11/13/2023:47 7440-09-7 Selenium 5.0 mg/kg 0.55 1 11/1112011:54 11/13/2023:47 7782-49-2 Sodium 458 mg/kg 274 1 11/11/2011:54 11/13/2023:47 7440-23-5 Zinc 1110 mglkg 5.5 10 11/11/2011:54 11/14/2017:20 7440-66-6 7471 Mercury Analytical Method: EPA7471B Preparation Method: EPA7471B Pace Analytical Services -Asheville .ercury 0.76 mg/kg 0.046 20 11/16/2014:31 1111612017:56 7439-97-6 254OG Total Percent Solids Analytical Method: SM 254OG-2011 Pace Analytical Services - Charlotte Total Solids 97.0 % 0.10 1 11/11/2013:48 Percent Moisture Analytical Method: ASTM D2974-87 Pace Analytical Services - Charlotte Percent Moisture 3.0 % 0.10 1 11/11/2013:38 1010 Flashpoint,Closed Cup Analytical Method: EPA 1010A Pace Analytical Services -Asheville Flashpoint >200 deg F 70.0 1 11/22120 12.28 9045 pH Soil Analytical Method: EPA 9045D Pace Analytical Services -Asheville pH at 25 Degrees C 6.1 Sid. Units 0.10 1 11/23/20 13:15 H3 Plant Available Nitrogen Analytical Method: SM 271OB-2011 Pace Analytical Services -Asheville Plant Available Nitrogen 2010 mglkg 0.12 1 1112312013:33 N2 Total Nitrogen Calculation Analytical Method: TKN+NO3+NO2 Calculation Pace Analytical Services -Asheville Nitrogen 5320 mg/kg 40.0 1 1112312013:30 7727-37-9 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, Date: 11/23/2020 02:47 PM without the written consent of Paw Analytical Services, LLC- Page 4 of 29 A Pace Analytical Services, LLC .aceAnalXical ® 2226 eNC 2e On Asheville, NC 2881M www.pacelabs.cum (828)2547176 ANALYTICAL RESULTS ` Project TWSA DRIED RESIDUAL 11/10/20 Pace Project No.: 92504942 Sample: TWSA DRIED RESIDUAL Lab ID: 92504942001 Collected: 11/10/20 09:30 Received: 11/10/20 12:04 Matrix: Solid Results reported on a 'dry weight' basis and are adjusted for percent moisture, sample size and any dilutions. Parameters Results Units Report Limit DF Prepared Analyzed CAS No. Qua] 350.1 Ammonia Nitrogen, Ammonia 351.2 Total Kjeldahl Nitrogen Nitrogen, Kjeldahl, Total 353.2 Nitrogen, NO2/NO3 Nitrogen, NO2 plus NO3 Nitrogen, Nitrate Nitrogen, Nitrite 365.1 Phosphorus, Total Phosphorus C C, Date: 11/23/2020 02:47 PM Analytical Method: EPA 350.1 Rev 2.01993 Mod. Preparation Method: EPA 350.1 Rev 2.01993 Mod. Pace Analytical Services -Asheville 2060 mglkg 46.0 5 11/11/20 13:32 11/12/20 08:38 7664-41-7 Analytical Method: EPA 351.2 Rev 2.0 1993 Preparation Method: EPA 351.2 Rev 2.0 1993 Pace Analytical Services -Asheville 5320 mg/kg 25B 5 11/11/20 11:30 11/12/20 06:58 7727-37-9 Analytical Method: EPA 353.2 Rev 2.0 1993 Preparation Method: EPA 353.2 Rev 2.0 1993 Pace Analytical Services -Asheville ND mglkg 4.0 1 11/10/2022:05 11/1112000:57 ND mglkg 4.0 1 11/10120 22:05 11/11/20 00:57 14797-55-8 ND mg/kg 4.0 1 11/10/20 22:05 11/11/20 00:57 14797-65-0 Analytical Method: EPA 365.1 Rev 2.01993 Preparation Method: EPA 365.1 Rev 2.01993 Pace Analytical Services -Asheville 11300 mg/kg 477 500 11/17/2018:38 11/17/2021:04 7723-14-0 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, I.I.C. Page 5 of 29 ace,4nalytical® ANALYTICAL REPORT Naa'onal Centerfor TeslWg8lnnavadan November 19, 2020 Pace Analytical - Asheville, NC Sample Delivery Group: L1284364 Samples Received: 11/11/2020 Project Number: 92504942 Description: TWSA DRIED RESIDUAL 11/10/20 Site: 001 Report To: Christopher Derouen 2225 Riverside Drive Asheville, NC 28804 Entire Report Reviewed By: CChristi M Wagner Project Manager Results relate onyto the Items tested orallbrated and are reported as rounded values This test repodshall not be reproduced, except in full, vdthaatvaitten approval of the laboratory. Where applicable, sampling conducted by Pace ` Anaikal National is pedormed per guidance provided in laborarnyslandard operating procedures ENVSOPMTJL-0061and ENV-SORMTJL-0066. Where sampling conducted by the customer, results relate to the accuracy of the Information provided, and as the samples are received. 0 I I Z TC 3S$ 4Cn 6Sr 6QC TGI . 6AI 9SC I ' ACCOUNT: PROJECT: SDG: DATEmME: PAGE: TWSA DRIED RESIDUAL Collected date/tirle: 11/10/20 09:30 Microbiology by Method EPA 1681 SAMPLE RESULTS - 01 L1284364 Result Qualifier Dilution Analysis Batch Analyte MPWg date / time mil Colirorm- Class A <1.88 T8 1000 11/12202010:00 WGI578289 t Total Solids by Method 2540 G-2011 Dilution Analysis Batch ONE LAB. NATIONWIDE lCP I Tc 3Ss Analyte % Total Solids 97.6 Wet Chemistry by Method 9012 B 1 date/time 11=202001:26 WGI577516 aCn Result Qualifier Analyte mglkg RDL mg/kg Dilution Analysis Batch date/time 6QC Reactive Cyanide 2.13 0.250 1 1ll14202023:53 WGI575225 Wet Chemistry by Method 9034-90306 F, Result Oualifer RDL Dilution Analysis Bath eAl Analyte _ _ .... - - mglk9_- m91k9 date/time, ,- - - ReactiveSulride ND 25.0 — ---' 1 -- 11114202000:00 WGI575476 9 SC - Pogo n ®f 20 ACCOUNT: PROJECT: SDSDG: DWW: � ° SAR Calculations-11/10/2020 SAR = Sodium (Na) Milli Equivalent 0.5 X (Calcium (Ca) Milli Equivalent+ Magnesium(Mg) Milli Equivalent)` Na=458 mg/kg/Na Milli Equivalent(M E)= 458/23 equivalentwgt=19.9 ME Ca= 9900 mg/kg/Ca Milli Equivalent(ME)= 9900/20 equivalent wgt= 430 ME Mg= 4060 mg/kg/Mg Milli Equivalent(ME)= 4060/12 equivalent wgt= 338 ME SAR= 19.9 Na Milli Equivalent 0.5 X (458 Ca Milli Equivalent + 338 Mg Milli Equivalent)` 19.9 Na Milli Equivalent ( 0.5 X 796) 0.1 - 19.9 Na Milli Equivalent C (398)0.s SAR= 1.0 L 19.9 Na Milli Equivalent 19.9 (e) Daily Dryer Record 7 i TWSA DRYER OPERATIONS - DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS ' p( 4W / lQ Ay Q / L{ ,l7 e DRYER BATCH FILL CYCLE START @ A " S I DRY CYCLE STARTED @ 3 a•// P DISCHARGE CYCLE STARTED @ .. - TEMPFRATl1RES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 31.Wo iLQ5 305 o ' 393 314 300 I(Q 4q 14,16 1b`i aRg 5o Lr35. yas 3►8• t�joI zu 5. 0cv...t511 3ai 100 qq s 25d 32,4 Z.58- F� _6 6,% I _0 3Z 8 k 5 0 cf W 324 a41a. jJ - ',Lf.(p- - .15q Lf3Lf qq5 '4qO 3 5 a(D$ 2ND DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TEMPERATURES DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER• IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 12/12/17JH a TWSA DRYER OPERA IONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ �` ? TEMPERATURES °F ° COMPOSITE SAMPLE RESET # CALCULATION DISH WGT GRAMS WET•SAMPLE+DISH,. GRAMS DRIER•SAMPLE+DISH- :. GRAMS; . ` GRAMS [�v1g�j Z3.�R555 1srwu. eD WGT. 3. 3 6 Sao WGr.. - a3v, = as-3S�s' X1oD'g7V5s(0 �3•`1S�S /'G � ad�g3�y� '=%TOTALSOUDS DISHWGT WETSAMPLE+DISH DRIED SAMPLE +DISH GRAMS GRAMS GRAMS GRAMS 17 WGT. e' WGT. 3aO WGT. S: X 100 %TOTAL SOLIDS (DRIED SAMPLE + DISH - DISH WGT.) x 100 WET SAMPLE+DISH- DISHSGT. '=%TOTALSOLIDS ALARMS OR COMMENTS - 12/12/17JH C� TWSA DRYER OPERATIONS C DAILY RECORD DATE l3 START STOP TOTAL RUNTIME, HRS ' 7.216 l l4 o P DRYER BATCH / r FILL CYCLE START @ DRY CYCLE STARTED @• � - 6 DISCHARGE CYCLE STARTED @ F.. 3 # RD) TFMPFRATIIRF(ZP[ TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY . TIMER CHAMBER - IN CHAMBERWROTORROTOR OUTOUT O.I. 63 0 ��� 3� Z; b &D U ss 3I /a ) o o 19�14 (;p lo.aoI )6q 3Ro 1;5(9 lt4-5 43& )4,4, - a�a. Rio d 3. �F3� 9• (>5 g4S 4q r i n 2ND DRYER BATCH a-, J:a - FILL CYCLE START @ hbik DRY CYCLE STARTED @aA-a-_ DISCHARGE CYCLE STARTED @' TFMPFRATIIRFC PF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER' IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. sp 400D Ll D �� Dry q3, 333 Z6 5;tg 5B 396 JSZ) If 45 I 33 27z 05 56 �a7 Do �uU �4 + 333 2-$3 32/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TEMPERATURES'F ` 7n�--1 --- I DISCHARGE EXHAUST - CHAMBER. OUT Won COMPOSITE SAMPLE RESET# CALCULATION DISH WGT GRAMS WET•SAMPLE+DISH GRAMS _ DRIED.-SAMPLE+DISH. . GRAMS GRAMS 1 05-71 25�Lj8d5 pp 1�WGf: aVlaa 2"D WGT. aY 9 3 a 3 3RD WGT. - l� •�� oS '7 ox1oo,977357?7cgl c/�i . aSLtf'05-1•u5-7j-o2yy2.3L/ '=%TOTALSOLIDS 17r7!/b DISH WGT WETSAMPLE+DISH DRIED SAMPLE+DISH GRAMS GRAMS GRAMS GRAMS 1�WGT. 2"D WGT 3RD WGT. S: X 100 %TOTAL SOLIDS _ (DRIED SAMPLE + DISH - DISH WGT.) X 100 WET SAMPLE+DISH- DISHSGT. '=%TOTALSOLIDS ALARMS OR COMMENTS - , 12/12/17JH r TWSA DRYER OPERATIONS DAILY RECORD DATE 5 15 "aZ START -STOP TOTAL RUN TIME, HRS ' a / Lh 3 © / 'A ft DRYER BATCH FILL CYCLE START @ a%7� DRY CYCLE STARTED @ , DI DISCHARGE CYCLE STARTED @ `Z a7 T9:nnocDAT110 CC DC TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 1 i* Da I lot 3. l d 321 30 h'[ CD :55 364 .�_o 4Y6 11310 333 22 ! eon a:�a lib 3jfA 00 1445 43' ••335 (6 f yyS L/34 33 5 1 z.�Zy f.a' I I I noL. 1 `y '6 1 a05 334 I ae5 2ND DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TFAADCDATI IDCC DC ' TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER' IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. m L' i2/12/17JH TWSA DRYER OPERATIONS ii DAILY RECORD 'DRYER BATCH FILL CYCLE START @ . DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TEMPERATURES °F COMPOSITE SAMPLE �D RESET# CALCULATION DISH WGT GRAMS WET•SAMPLE+DISH GRAMS DRIER•SAMPLE+DISH GRAMS GRAMS 1 ,07_z41 1�`wGr. 9� �Z) e' WGT. ,:g Y zz - 3sD wGT 4S,'&Y2co l,c��y = i7.sand_ X100 l-3gq�_�•Oaay id377� '=%TOTALSOLIDS 2-7 DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1�T WGT. S: 21D WGT. 3RD WGT. X 10D '= %TOTAL SOLIDS _ (DRIED SAMPLE +DISH - DISH WGT. 1 X 100 WET SAMPLE+DISH- DISHSGT. '_%TOTAL SOLIDS ALARMS OR COMMENTS - 12/12/17JH .c TWSA DRYER OPERATIONS DAILY RECORD � DATE START STOP TOTAL RUNTIME, HRS ' %:. / .BJ / ✓ e DRYER BATCH. FILL CYC14 LE START,@ $ DRY CYCLE STARTED @� DISCHARGE CYCLE STARTED @ - TFMPFRATURESOF .'.. TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY :. TIMER "CHANBER • IN CHAMBER OUT ROTOR, IN ROTOR OUT 0.1. 8 wilp 0 03 gF� 303 173E� ci 1131P I?Q 3 J-o )J3 a 43 31.E jD:2,10 1R 1 ID 1 1© 01 #4\5- ,? c4 ' ,l . 16 ) W I 3?s5 I 1V 1 1414,5 43 !° 33 aI a5 _ 3. 1 43� )+4.6 442 325 AD E' l l ,§ �k- I-d6 2NO DRYER BATCH FILL CYCLE START @ A .a LDRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER' IN CHAMBER OUT ROTOR OUT O.I. a b$ LROTOR g 27 1� � � b 433- a -4l I(pb 3I� J019 4fg5 14310 336 0 3:A"? /3"0 4q 1137 33a :),5 3:s-7 1 j 3 z I '-i(f5 aqq C., 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH II II IL l/— FILL CYCLE START @ 4 'q9 DRY CYCLE STARTED @ '1 �'l3'DISCHARGE CYCLE STARTED @ TEMPERATURES DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 411143 l (- 2-99 o to jlt2t 3a4 - 205 7IA 5:53 1(0 0 342 444 43S 3z9 5 30 ; A 5 wo 3(09 lDv qt6 y65I 330 d- 5 c�3.LJ 7 ;13 t 5-13 31 .1,50 q45 4381 a ca o do COMPOSITE SAMPLE D `111q RESET# CALCULATION DISH WGT WET•SAMPLE+DISH DRIEDSAMPLE+DISH- GRAMS GRAMS GRAMS GRAMS 11.022(l 2-6 V9Ie 2 . . 1r WGT. e' WGT. 05,q6 9 3RD WGT. . X 100 '=%TOTALSDUDS gfi, GD%V DISH WGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS ITWGT. S: ZDD WGT. 3RD WGT. X 100 '=%TOTAL SOLIDS (DRIED SAMPLE + DISH -DISH WGT.) x•100 1 -/WEfSAMPLE+DISH - DISH SGT.' '=%TOTAL SOLIDS: ALARMS OR COMMENTS - G 1" j~' G�`r Lfbq. �l L( rnec 0A •%c Fattt-4,5- -Qh resets• C4 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL RUN TIME,HRS' 15° DRYER BATCH FILL CYCLE START @ �� _ 'DRY CYCLE STARTED @ T16 DISCHARGE CYCLE STARTED @ A TEMPERATURES DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER • IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. qq321 1 RA e4 a 'o li'�3 J43 3-3 G 13.E 133a asb. - b .s � -7 4 4 Y �3 2ND DRYER BATCH / �j ' FILL CYCLE START @ r 1 `D / DRY CYCLE STARTED @ + b DISCHARGE CYCLE STARTED @ I TEMPERATURES OF i i DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER' IN CHAMBER OUT ROTOR IN O.I. Wo l� i 13 6Vb EROTORTIME �� h Lt )433 3 46 ,5 153 a aG 1 3-2 ,50 44,1*5 43- 33-3 as( 3 : da C7� LlgQ A Da t4g5 '-ILI 3 331 'z�? TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ 3J L t O DRY CYCLE STARTED @ 3 , 45 DISCHARGE CYCLE STARTED @ TEMPERATURES 0 F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3 :MI5 I lo`t'� zoo d LtZ1 QU 9 31''7 q 1135 169 c3c n 4 (t 5 14. 3 !o 3 3 t 2-3't TIJ S.'aS Ito 331 )Da �l 5 �l � Co 3 3a o2 � J`�► IS q io 3r 4 S Q 3 329 z(f-P =oD «o K 37 /q3 LfL(1j {fL f 3Z9. i9O COMPOSITE SAMPLE a35la:1 a3:51 D� l,�sE� = A, U�c3e X100 , 98�b�1Gs a.s,78,Y_1,rJsla3 ��.%a51 '=%TOTALSOUDS� � RESET # CALCULATION DISHWGT WEfSAMPLE+DISH DRIED•SAMPLE+DISH- GRAMS GRAMS GRAMS GRAMS t, qSb3 -7 14 - 1nWGT- 5 • .. - zNOWGr.a3.5a�: 3RD WGT - DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1 r WGT. S: ZND WGT. 3RD WGT. X 100 %TOTAL SOLIDS (DRIED SAMPLE+ DISH - DISH WGT. I X 100 WET SAMPLE +DISH-DISHSGT. '_%TOTALSOUDS ALARMS OR COMMENTS - I&eSVL 64r 4 !9 r� �%i^ �T rhEL L.f L Ate I ® TWSA DRYER OPERATIONS DAILY( RECORD DATE START STOP TOTAL RUN TIME, HRS 15' DRYER BATCH FILL CYCLE x START @ .c� �I DRY CYCLE STARTED @ S9- DISCHARGE CYCLE STARTED @ U . 5q . TEMPERATURES °F DISCHARGE DISCHARGE DRY CHANBER CHAMBER ROTOR ROTOR TIME EXHAUST_ PRODUCT TIMER • IN OUT IN OUT O.I. 7 :59 6' D 9 30 / �s S:q jSd 2ND DRYER BATCH FILL CYCLE START @i 1 "q�DRY CYCLE STARTED QI 4f � DISCHARGE CYCLE STARTED @ TEMPERATURES °F DISCHARGEFDCHARGE DRY CHAMBER' CHAMBER ROTOR ROTOR jTIME EXHAUSTDUCT TIMER IN OUT IN OUT 0.1. =�1 -7D �i :al. %3q 35� !00 ��3� 33 ( alp a Aso 7 331 cf 44 - IR5 ,- 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ 3 10 DRY CYCLE STARTED @ 3' DISCHARGE CYCLE STARTED @ TEMPERATURES DF - •L TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANGER IN CHAMBER. OUT ROTOR IN:; ROTOR OUT O.I. �) ;Lf3 4 `t I 2,1? 5 0 • 4i (, (-fo 3 3 c', . - t 8(0 ;Jrw Wr 33 61 A!) Av R 1(0 v 31 ( 3-zLl Oro 166 L41-F q (4(4.(4 L-F3 -1 Ll 3 `7 330 33z Z-S-7 Z.4�,ra 4-L4 aO Co:6 t(c. S 3 3 j,,5V `4 3 Lf 2-4 q JIr,A t —7 2L 4 35 l 25 L-( L(q L{ q Z 3 Z-0 COMPOSITE SAMPLE Ali RESET# DISH WGT WET•SAMPLE+DISH DRIED-SAMPLE+DISU- 'GRAMS GRAMS GRAMS GRAMS e' WGT. `� L 3" WGT. - "ONI 6p .2 y.'Mo aX100 / l ,KJ.,I f a-5 , 0 96-<3 — /, 03 � :aq o5�'- '= % TOTALSOLIDS R��7e jl&70 CALCULATION DISH WGT WETSAMPLE+DISH DRIED SAMPLE+DISH GRAMS GRAMS GRAMS GRAMS 1�r WGT. ZND WGT. 310 WGT. S: X 100 %TOTAL SOLIDS (DRIED SAMPLE+ DISH - DISH WGT.)X 100 WET SAMPLE + DISH - DISH _SGT. '=%TOTALSOLIDS M ALARMS OR COMENTS- `{ �J-a vL1J-rQ4�eT Joe 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL RUNTIME, HRS 15' DRYER BATCH FILL CYCLE START @ - 9 DRY CYCLE STARTED @L2 3 I DISCHARGE CYCLE STARTED @ 1 TFMPFRATI IRFS DF DISCHARGE DISCHARGE DRY CHANBER. CHAMBER ROTOR ROTOR TIME EXHAUST PRODUCT TIMER • IN OUT IN OUT 0.1. 466 q •�1 -�� 3oq �o�� 3a 9' C2 /f 6► 1(�a 3 43b 33o asa. en! IL2,f .3g -44A 33a 2ND DRYER BATCH 2 FILL CYCLE START @ DRY CYCLE STARTED @ a a DISCHARGE CYCLE STARTED @ J'Z TFMPFRATI IRFS DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. oa a a B .5a I a6? - `5'� 9a 1.5p wks q38 3,3A a 3'266 1�a �iqb 3Z5 n\ TH 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH �1 I 2 N FILL CYCLE START @ 3' fig. DRY CYCLE STARTED @ LIt' I I DISCHARGE CYCLE STARTED @ TEMPERATURES OF ` TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. I-I'A 110 Z`b`6 (5 Llit 5 3i5 1`I8' �H 16•-O ( (do Q_cf qL15 L1M 331 Z s 7 zH ti Jo -5sv 253 csr 6_0 `M 3� go. . 's S°1 �- tk%. "2- 3Z� 2�5 COMPOSITE SAMPLE RESET # -:L(90 DISH WGT WET -SAMPLE + DISH _ DRIED•SAMPLE+DISH- GRAMS GRAMS . GRAMS GRAMS l�vLtSc 1553� 1rWGT. /.-, 3a 2ND WGT. 3RD WGT. - >15�3353 l5.33�3-1 6S`S(o = 1�y,a8�� xloo < �8�973�191Q q l 5-1�533 �' �yS)-6:: 5b7? %TOTAL SOLIDS CALCULATION DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 17 WGi. S: 2ND WGT. BAD WGT. ALARMS OR COMMENTS - L--O c R• 12/12/17JH X 100 %TOTAL SOLIDS (DRIED SAMPLE'+ DISH - DISH WGT.)_ x 100 WET SAMPLE + DISH I -_ DISH SGT. a' '=%TOTALSOLIDS Dk'(' _re el YJlire er A'`� Ji"9N4- w TWSA DRYER OPERATIONS DAILY RECORD DATE S_ '. D L START STOP TOTAL RUN TIME, HRS P DRYER BATCH FILL CYCLE START @ .� DRY CYCLE STARTED @�IDISCHARGE CYCLE STARTED TCRADCDATIIDCC O[. DISCHARGE DISCHARGE DRY.: CHAMBER CHAMBER :ROTOR ROTOR TIME EXHAUST PRODUCT TIMER • IN OUT IN OUT 0.1. 7=LIq A3 a$o q o t 38l!;' $ �G /64 36te � b q? q33 3 �3 3,23 t©a Ole 413& 336� 46 -.1D=!°► l(03 3 gy is0 4'j�S �f3� 33a �2s9 E' - D:Sfe I�Sb �F33 q,*4? a7a lV(o 2ND DRYER BATCH FILL CYCLE START @ % D DRY CYCLE STARTED @_111 30 DISCHARGE CYCLE STARTED @a --KZ) TCAADCDATIIDCC OC DISCHARGE DISCHARGE DRY CHANBER' CHAMBER ROTOR ROTOR TIME EXHAUST PRODUCT TIMER IN OUT IN OUT 0.1. l 1 zz 2 111b :T% 7a 1,34P5 316 3b J/4!r v,36 3 3,3 ailv =t%• 1&1v .-AP #4� z 3 s/ ay c 160 L 4.3 3 a 13 E a 2,L43 4? � `PfS 3.30 a4 L 1Va 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ a •SO DRY CYCLE STARTED @ .3'� 5 DISCHARGE CYCLE STARTED @ ! .4 0 TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3 �15 10 1 2`$(0 6 l(0 31( so LtS 5 :05 t(o S 00 41-4 a 4 34 5.5 Z. 3 M 1,50 44 5 4 (o;4o �31 . 1-13 gig ALA LI((Z 332_ COMPOSITE SAMPLE RESET # CALCULATION DISH WGT WET•SAMPLE+DISH DRIED•SAMPLE+DISH. GRAMS GRAMS GRAMS GRAMS i ito5lp7 a5c�?��a 17WGT. 2ND WGT. �S. l q-ira 3RD WGT. - X100 SOLIDS_9 % ff /19 �V DISH WGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1�T WGT. S: 2DD WGT. 3R0 WGT. X 100 '=%TOTALSOLIDS (DRIED SAMPLE+ DISH - DISH WGT.) x 100 WET SAMPLE+DISH- DISHSGT. '=%TOTAL SOLIDS ALARMS OR COMMENTS - 12/12/17JH ` TWSA DRYER OPERATIONS DAILY RECORD DATE S_a �? ` 02 0 START STOP TOTAL RUN TIME, HRS f' DRYER BATCH ` FILL CYCLE START @ DRY CYCLE STARTED LPLI. S DISCHARGE CYCLE STARTED @ %D .57� TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY . TIMER V\LJ CHAMBER • IN 1 CHAMBER OUT ROTOR IN ROTOR OUT O.I. �3 a� i7g a36 C /a o r-738 s� 3a� ago E 2ND DRYER BATCH FILL CYCLE START @A' d DRY CYCLE STARTED @ . 3 a DISCHARGE CYCLE STARTED @ o2 .3 e� rennner. n•rnnrr 0.- TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER . CHAMBER' IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. a 4lb 3z m E :aa /oQ 3a9 Lt14S V3la 41-5 43h J31 all 60 Lf 3 a E lab. . 'l. 12/12/17JH TWSA DRYER OPERATIONS . DAILY RECORD 3RD DRYER BATCH rn1 FILL CYCLE START @ .11 DRY CYCLE STARTED @ I (� DISCHARGE CYCLE STARTED @ -7 • 3 TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN • CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. ,31,17 1(qQ b •q(t 3R 3043. ' k-15, ;lrb-Q1 '•61 (1, 8 a o Sh LH 5 C(S -1 3 S 3 . z4(o ZSW IF �51 Jb D L-I 4 S y Is 5 3 3 Z- a(o 5 zrw :4-7 3 Zip [ b W45 435 3.33 2-5L 3w 15 32 1 &4 4 32 Z qS L- 4LA L44a 3 3 Z 1 ` 9 1� w COMPOSITE SAMPLE RESET# DISHWGT GRAMS' WET•SAMPLE+DISH GRAMS DRIE4SAMPLE+DISH- GRAMS GRAMS 0055 a(¢,14(98 1rWGT. eD WGT. 3RD WGT. - e^aye X100 , F7Tc'�5��' a (Q (q (fig '=%TOTALSOLIDS CALCULATION DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE+DISH GRAMS GRAMS 1l WGT. S: el WGT 3Ro WGT ALARMS OR COMMENTS - G X 1100 %TOTAL SOLIDS (DRIED SAMPLE +DISH - DISH WGT.I x 100 WET SAMPLE + DISH - DISH SGT. '=%TOTALSOUDS C- L 12/12/17JH C RUN TIME, HRS 1s' DRYER BATCH FILL CYCLE START@ ��Ib START TWSA DRYER OPERATIONS DAILY RECORD DATE 5 -u-210 STOP TOTAL DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ `(°( TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY . TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. :4L 65 D-W o qo5 3SA 5o L[K5 43r; 331 2.3z 61. I %ZH 159 3'15 100 L[y:� L(37 33( 2G� Slfi 163 37Z' 15"0 -145 ,-L(SS 3�3 253 Zrilf =' h 1-1( Lf 3-h >aSSS k3� `[�l 32sr zoo Th 2NO DRYER BATCH FILL CYCLE START @ W Sq DRY CYCLE STARTED @ IZ;3�I DISCHARGE CYCLE STARTED @ 31, TCnn DCD A"mrr Or ' TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. 1Z:3`� 170 • 2°11 0 ..lzl qt1 � 31� 1ao fir► -,f Ik $li' IPA u�k S 35 33N 269 CFI iSo Ltq- L13(n 33�1 219 7� Lf LAU 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH �l Q FILL CYCLE START @ XL49 DRY CYCLE STARTED @ t �a� DISCHARGE CYCLE STARTED @ TEMPERATURES OF DISCHARGE DISCHARGE DRY CHANBER CHAMBER. ROTOR ROTOR TIME EXHAUST PRODUCT TIMER IN OUT IN OUT 0.1. L-f al 310, . 19 q jJ 5.1y i1 30l 5a L{147- 431 33) 2lZ 1-3 qq 6 4261 333 2•-1 5 EU 50 Lkq S I-( 3 T1 33 1-4 -I a� \ P, I Lf� � $ s t k �(� '-AL4 l `3 3Z 2a � COMPOSITE SAMPLE oV RESET# CALCULATION DISH WGT WET•SAMPLE+DISH DRIED SAMPLE +DISH GRAMS GRAMS GRAMS GRAMS 1104C13 ac,gzsd 1rWGT.a��a . 2ND WGT.oZ)+ ' 3RD WGT. - �,IIia5l" a, 13sa,— +by?3= aD,osq X100 ; IW Z16� a1 3aDg23• -"D,77n '_%TOTALSOLIDS DISHWGT 1NETSAMPLE+DISH DRIED SAMPLE+DISH GRAMS GRAMS GRAMS GRAMS 1' WGT. 2ND WGT. 3RD WGT. S: X 100 _ %TOTAL SOLIDS _ (DRIED SAMPLE+ DISH - DISH WGT.)- x 100 WET SAMPLE+DISH- DISHSGT. '_%TOTAL SOLIDS ALARMS OR COMMENTS_ - C. 12/12/17JH 1 TWSA DRYER OPERATIONS DAILY RECORD y DATE-6- - 0 START STOP ` TOTAL RUN TIME, HRS ' � '. 11/ t o . q 1. / 1. 1. 'DRYER BATCH / FILL CYCLE START @ 7: 3D DRY CYCLE STARTED @ 0p ' ©� DISCHARGE CYCLE STARTED @ 6 • J a . TFMPFRATI IRFC UG TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY • TIMER CHANBER • IN CHAMBER-. OUT .ROTOR IN ROTOR OUT O.I. -SIp b 61 411 4,34 a as co- W� 192 31 b 1 Dd 4'qS 3!p * 3a? a lad - co F. D. 6 S3 13"D 4g19 43 33l asI. _ r[a )43-o 44a. 330 asp 2ND DRYER BATCH ( T FILL CYCLE START @ I DRY CYCLE STARTED @ 1 t J lf DISCHARGE CYCLE STARTED @ a • TFMPPRATI IRFS of ' TIME DISCHARGE EXHAUSTEXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER' IN CHAMBER OUT ROTOR ROTOR O.I. j I� �� � F Q �7 //OUT Z rI4N � l U JpOUT 4 0� a to 3 ,5 44 1 4Aa 1p 3 231 a f m D W Y34 33Y o C E0 5 121 �)-31 14ffT -2;�4,�, 33a a93 1611, l� 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ 3' Off? DRY CYCLE STARTED @ ?JM L I 1 DISCHARGE CYCLE STARTED @ �o TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN • CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3'4k 113 2-ci8 41'SI ((a 8 333 gL45 ((38 3 3 2_Z 5 1 up g 3" L(g5 443 333 z.Sa, 3ti-i ATI) (44(2 33 3 ZS(e Sw �s1 h9-3 L414-s .3 'au yr COMPOSITE SAMPLE ti RESET # DISH WGT WET•SAMPLE+DISH $A, PLE+DISH- GRAMS GRAMS GRAMS l.oc2l( 22 ,c�230 1nNr 2ND WGT. a . 3 79. 3RD WGT. - ;ss a 137PI C- I I (p X100 I l P9 uli '=�TOTALSOLIDS q(,s�r90 a_ oa3o - /. o�'r �•ao,9qI� CALCULATION DISHWGT WETSAMPLE+DISH A PLE+DISH GRAMS GRAMS B GRA S 1� 2ND WGT• 3RD WGT. S: ALARMS OR COMMENTS - r X 100 '= %TOTAL SOLIDS (DRIED SAMPLE +DISH - DISH WGT.1 x 100 WET SAMPLE+DISH- DISHSGT. '=%TOTAL SOLIDS 12/12/17JH TWSA DRYER OPERATIONS - DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS P DRYER BATCH rn� //� FILL CYCLE START @ �' 1 d, DRY CYCLE STARTED @;— DISCHARGE CYCLE STARTED @ I d e � TcnnDCDnrnnrr O� TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANGER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. qq6 I 3a a e q3- 434? 3z7j Al 39 - -144S 438 33 ! 67 6' ' 2ND DRYER BATCH nn nn pp FILL CYCLE START @ �U • DRY CYCLE STARTED @ i3CJ DISCHARGE CYCLE STARTED @ d : a0 TC�ADLD nTt Inrr 0r TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. aD 4zp5 43 93,�- E,O �: [Q /lad 37a •��.o ��,� 3� 3 �7� E a:bb .3 3qg 15b�3 43g 33� a71: a , �� 33 l 4iv a 334 213 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH - FILL CYCLE START @2-39 . DRY CYCLE STARTED @ 3 LI DISCHARGE CYCLE STARTED @ I b • Z tl TFMPFRATURES DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. d • �lZL1 T Z 32 19Y V :0'1 0c) '� 6 L{3b -535 256 3// N _6�( tiK 165 10 36-I 3g1 6b - z) LluS "ills 16S L136 335 3�55 z7v H COMPOSITE SAMPLE RESET # DISH WGT WET•SAMPLE+DISH DRIED.SAMPLE+DISH GRAMS GRAMS GRAMS GRAMS [.v1°[6 �4,$07,6 17WGT. f 34 e' WGT. IV,5 g' 3RD WGT. - CALCULATION ,/y,53y(p i5V6 - I,o/9 5xloo ' q 36-7�> D 1,7(o_ )f� 7&g '_ p %TOTALSOUDS 00 X 100 _ %TOTAL SOLIDS jDRIEDSAMPLE+DISH-DISHWGT.I x100 ,d ,II WET (SAMPLE + DISH - DISH SGT. '=%TOTALSOUDS ALARMS OR COMMENTS - / I S�C� y' In Ili P blceh�e c 12/12/17JH TWSA DRYER OPERATIONS RECORD /DAILY DATE a START STOP TOTAL RUN TIME,HRS' I" DRYER BATCH FILL CYCLE START @ D J DRY CYCLE STARTED @ .. % DISCHARGE CYCLE STARTED @ TEMPERATURES °F DISCHARGE DISCHARGE DRY CHAMBER CHAMBER ROTOR ROTOR TIME EXHAUST L W� PRODUCT . TIMER • IN OUT IN OUT 0.1. 7=3 273 D• 13s 30 �a q� g 58 3s �,fGD3 a e lEa 16 6 85 1 © 445 2NO DRYER'BATCH FILL CYCLE START @JL/4t_DRY CYCLE STARTED @J � , a DISCHARGE CYCLE STARTED @. TEMPERATURES OF DISCHARGE DISCHARGE DRY CHANBER' CHAMBER ROTOR ROTOR TIME 1 as EXHAUST PRODUCT TIMER IN OUT IN OUT 01 7 A26 4110 3ad 40 la 0 I&Lf- /6q 3 0 143 77 3 91a '. o 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ �'��. DRY CYCLE STARTED @ 2 j Z _ DISCHARGE CYCLE STARTED @ l� TFMPFRATI IRFS DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3,►z hZ 2�� 0 LIIFI LIos 31g' [5 3-1/ y<az l�z 366 D 45o �(35 337 2Ko 5N t� 5z 16-7 L(u3 'In `3w 5'.yZ 117- 'b7a ya �tqb 4`55 335 zsa 3H 33 COMPOSITE SAMPLE RESET # DISH WGT WETSAMPLE +DISH DRIEDSAMPLE+DISH• GRAMS GRAMS GRAMS GRAMS I.� 2 7,5333 11TW(ST. 2ND WGT. 3RD WGT. - CALCULATION !ate•y( �� - 1. o5a3 Z %%iba3 X100 f0 770-161- / *W I - /TOTAL SOLIDS A) X 100 '= %TOTAL SOLIDS (DRIED SAMPLE + DISH - DISH WGT.)x100 WET SAMPLE+DISHH- DISHSGT. '=%TOTALSOLIDS ALARMS OR COMMENTS - J4 i ci;f4 p ne e I-_l^ u n 1, 12/12/17JH C C C TWSA DRYER OPERATIONS DAILY RECORD DATE C2 4f-1-0 START STOP TOTAL RUN TIME, HRS ' `7 ' J4 0 / 1 : 004 / 11 , I" DRYER BATCH FILL CYCLE START @ `f DRY CYCLE STARTED @ r a DISCHARGE CYCLE STARTED @ I • a TFMPPPATIIGFC 0C TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY . TIMER CHANBER • IN CHAMBER OUT ROTOR IN ''ROTDR• OUT 0.1. .? `-3L 16 77 6 Lf 13 39a, 0 1�q G46 41Lt )4b a lob 5 331 a ep 3g > )SO -44,5 a aW. /7`-F . 462� N 43 a 333 aqa Ie 2NO DRYER BATCH FILL CYCLE START @ •3 L DRY CYCLE STARTED @ °� `D DISCHARGE CYCLE STARTED @ -;Iilq TPUMMATI 1OPC Or DISCHARGE DISCHARGE DRY CHANGER' CHAMBER ROTOR ROTOR TIME EXHAUST PRODUCT TIMER IN OUT IN OUT 0.1. a''o � () • -, " " 2, 0 ) 3 �13 l I 305 5c-) / Y& Q 6 33,V aSa -4+ IL3 5 q ..vb If14lp 35- &3-y- Q7 - .a-34 I-Z3 39 ' 1sD *15 43? 33� a73 y 188 't3U I RC) 1-�14q 'f`-ID- 334 30S 3A. 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH 22 FILL CYCLE START @ d '2� DRY CYCLE STARTED @ 3 1S°1 DISCHARGE CYCLE STARTED @ !-7 TEMPERATURES °F .0 TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3 : 51 1-7 o Z24 : ® - 4-Zi 41 �p 3 z2_ 19 `l Z'%-J 4;Lk0 -70 3a3 6-a 4 4-3(o 315 Zz7 SW �-3R i(�� 3(05 Iaa `N(�f L;-3 5 33) �0 i t66 449 43 33 3 Z-lto 1.1 7',o9 lid 4a !qo y.y-S 4LI- 1 333 2�t1� �+✓J COMPOSITE SAMPLE. RESET # CALCULATW DISH WGT WE -SAMPLE+DISH DRIEDSAMPLE+DISH GRAMS GRAMS GRAMS GRAMS 1, 0 2_q-71 orI4 . 2 Z9g 1rWGT.a S �� 2ND WGf. Q 3ftD WGT. - xloo_i 9��-�s `l�v ash,Bai �.ba�7 a3.$r6I —� DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 17 WGT. S. 2ND WGT. 3RD WGT. X 100 %TOTAL SOLIDS _ (DRIED SAMPLE + DISH -DISH WGT.) x 100 WETSAMPLE+DISH-DISHSGT. '_%TOTALSOLIDS ALARMS OR COMMENTS - I LL r(f Ig`('" •!fJ 4.m N P/� 12/12/17JH c C TWSA DRYER OPERATIONS DAILY RECORD DATE (Q ` 9 START STOP TOTAL RUN TIME, HRS f'DRYER BATCH�/� FILL CYCLE START @ �`L DRY CYCLE STARTED @ (F L DISCHARGE CYCLE STARTED @ DISCHARGE DISCHARGE DRY CHAMBER CHAMBER ROTOR ROTOR TIME 7-' EXHAUST PRODUCT TIMER IN OUT IN OUT O.I. lob �;aa �:a 11D No • l5g 31�� �6a • � r fb; lay /30 4L q 3 a a a � • E E h�35 1 t 414,5 q t+a331 2No DRYER BATCH FILL CYCLE START @ . . D l DRY CYCLE STARTED DISCHARGE CYCLE STARTED @ TEMPERATURES °F DISCHARGE DISCHARGE DRY CHANBER' CHAMBER ROTOR ROTOR TIME EXHAUST PRODUCT TIMER IN OUT IN OUT O.I. 1a,Q4 cho;� ` bra �e- 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH _y FILL CYCLE START @ - DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @_ TEMPERATURES DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. "D )� b 5b • COMPOSITE SAMPLE RESET # kild qo CALCULATIOI\ DISH WGT WET•SAMPLE+DISH DRIEDSAMPLE+DISH GRAMS GRAMS GRAMS GRAMS l l dzQS Imoo, 8(o2.1 1sTWGT. Jo, gtSoo 2NDWGT. C�D,�a' 3aD WGT. • - �.Usw� X10D '97. _ � TOTALSOLI S o i DISH WGT WET SAMPLE +DISH DRIED SAMPLE +DISH GRAMS GRAMS GRAMS GRAMS 17 WGT. S. 2ND WGT. 3RD wGT. X 1oD _ %TOTAL SOLIDS (DRIEDSAMPLE+DISH - DISH WGT.)x100 WET /�SAMPLE + DISH - DISH SGT. '=%TOTALSOLIDS ALARMS OR COMMENTS - � p T la� j/'fS-te+ b 1�,CPgoC: 12/12/17JH D TWSA DRYER OPERATIONS DAILY RECORD START STOP RUN TIME, HRS TOTAL I" DRYER BATCH y FILL CYCLE START @ )DRY CYCLE STARTED @ LI % DISCHARGE CYCLE STARTED @ a -34 TFMPFRATIIRFS DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY . TIMER CHANBER • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. a o ao o . ,--R9CP a117 /W 3 jq 1a:36 433 00 i �4 (:a� � 43s :.. .aq. l5 8�i 44-a o�-rte )4*6 41), Sag 5bD. 619 ,-)A No - J+S I o !3 )45� 43p -33Q 33Z) .eZ r 2ND DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED @, DISCHARGE CYCLE STARTED @ TEMPERATURES DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER' IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. C_ Gall �' , l l � w'•a � : 0. l oa d t. 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @_ TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. COMPOSITE SAMPLE DISH WGT WETSAMPLE+DISH DRIED•SAMPLE+DISH GRAMS GRAMS . GRAMS GRAMS 1.v4(Qg ��;�� 1� 1�r 8, WGT. �P,- g-&-)— 2NDWGT. / 7l, J(' 3RD WGT. . > Ig,3Di�- �1tLn0> . 1W15"N x100 1 9--76,319675-� ee,, /8.711-1 - l L3q(o8-� j'7i&7a'� '=%TOTALSOLIDS�3/o RESET # CALCULATION DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1�T WGT. S: 2ND WGT. 3RD WGT. X 100 '_ %TOTAL SOLIDS (DRIED SAMPLE+ DISH - DISH WGT.) x 10D WETSAMPLE+DISH- DISHSGT. '=%TOTALSOLIDS ALARMS OR COMMENTS - 12/12/17JH C C P . ci RUN TIME, HRS TWSA DRYER OPERATIONS DAILY RECORD I DATE to - 2 1 —9- 0 4 START STOP TOTAL I" DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED @ �� ' f DISCHARGE CYCLE STARTED @ a I TEMPERATURES °F 1 1 1 1 r� 1 TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRYW.CHANBER TIMER CHAMBER OUT ROTOR IN ROTOR OUT 0.1. a Ao D qcl a,3v a31b3 3a4 a /a.sb 150 4A 1,5 330 a13 . e �oSerP' jeRv�/d,OICISe�ee,y 1 2NO DRYER .BATCH n n - FILLCYCLE START @ d DRY CYCLE STARTED @ a :s L DISCHARGE CYCLE STARTED @ 1 TEMPERATURES °F I' 1 1 1 TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 2=36 1 e a�a zfa-3 pia, 3 3% c�'6 sa Q`f5 43�7 331 Z?o JL� I-f ', 3(0 ���Ej(c'� 0 �1) .)bo 3 33D ?�(¢ �a Lfg5 `f � 33D 2e3 ��5 �_77�� �( 3v al9 PLJ 1 I 1 12/12/17JH TO ---'-- - -- - - I TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TFMPFRATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN- CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. COMPOSITE SAMPLE RESET # CALCULATION DISHWGT WET -SAMPLE + DISH DRIED SAMPLE+DISH GRAMS GRAMS . GRAMS GRAMS I,052,1 23,306-7 1T WGT. 2ND WGT. 3RD WGT. - • ^1,65A-9f a1,9S33 x10o_ UD5 5On DISHWGT FWETSAMPLE+DISH DRIED SAMPLE +DISH GRAMS GRAMS GRAMS GRAMS 1T WGT. 2ND WGT 3RD WGT. S: X 100 _ %TOTAL SOLIDS (DRIEDSAMPLE DISH - DISH WGT.) x 100 WET SAMPLE+DISH- DISHSGT. %TOTAL SOLIDS ALARMS OR COMMENTS- �•G „-p� 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD. DATE -CO START STOP RUN TIME, HRS i TOTAL P DRYER BATCH / a FILL CYCLE START @ (��% DRY CYCLE STARTED @ ~% i3 3 'DISCHARGE CYCLE STARTED @ j%: 3'1 n_ DISCHARGE DISCHARGE DRY .n ununLj CHAMBER r CHAMBER ROTOR ROTOR TIME EXHAUST PRODUCT TIMER IN OUT IN OUT 0.1. /D: 63 to I 3 3 .a L 2ND DRYER -BATCH y FILL CYCLE START @ ID -lfI- DRY CYCLESTARTED @j c T / DISCHARGE CYCLE STARTED @ cZ -a:k 0 TIME 115 "-7 DISCHARGE EXHAUST 1 ✓03 /`77 DISCHARGE PRODUCT 353 4637 DRY TIMER 16"0 /_0 I9Jf war �nnun�.� CHANBER IN q31 44s `f5 44� r CHAMBER OUT 4,20 437 44a ROTOR IN 3 a4� 333 333 ROTOR OUT 97 36 0- 0.1. EO E� TWSA DRYER OPERATIONS DAILY RECORD DRYER BATCH FILL CYCLE START @ j '3 DRY CYCLE STARTED @ 3 YDISCHARGE CYCLE STARTED @ TFMPFRATURES OF G TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 1(o 16 2 Ll d 43q 4 z 3156 i 5 �t, SD 4q 5 (4 334 z,56- 8 4' (� u �3a ` r y 3�l 3� �� Z I( c� L4 3q I q 5 4�(4 �f Z 3 3 303 .J1 COMPOSITE SAMPLE c., kjI �5f RESET # CALCULATIO< DISHWGT WET•SAMPLE+DISH DRIED SAMPLE+DISH GRAMS GRAMS GRAMS GRAMS (,OL-lzo 2Z,667 1�rWGT. 6-/.D34-9 2ND WGT. 3RD WGT. - 2-a•o(yq- /•a`f7v x 100 Q _%TOTALSOLID D-IS HWGT WETSAMPLE+DISH DRIED SAMPLE +DISH GRAMS GRAMS GRAMS GRAMS 1T WGT. 2NO WGT. 3RD WGT. S: X 100 %TOTAL SOLIDS _ (DRIED SAMPLE+ DISH - DISH WGT.) x 100 WET SAMPLE+DISH- DISHSGT. '=%TOTAL SOLIDS ALARMS OR COMMENTS - 5 12/12/17JH c TWSA DRYER OPERATIONS DAILY RECCIRD DATE 7-/3 'a0 .. START STOP TOTAL RUN TIME, HRS 1" DRYER BATCH FILL CYCLE START @ D • / DRY CYCLE STARTED @ 7 - LJ a DISCHARGE CYCLE STARTED @- U; TFMDCDATIIDCC DC TIME DISCHARGE EXHAUST DISCHARGE PRODUCE DRY TIMER CHANBER - IN CHAMBER OUT ROTOR IN ROTOR OUT . 0.1. g 3q a a� z os- 'i r 393 JF33 30Li 3 a g a�7 e0 3162 zQ0 #Y-S 433 •333 . - $S ;. !,�I I L D 407 e -Ib,4�2 1-23. i36 l%2& `tl;k3 a asq 2ND DRYER BATCH FILL CYCLE START @ J O Jr / DRY CYCLE STARTED @A-.0sn DISCHARGE CYCLE STARTED @ YCnAnCO ATl IMrf Dl• TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. � 2$8 #32 425 213 o ar J 4 r�o �g Sao a aye oq 1(�3 3 Flo i�d #31/ 'lo�7 160 2143 Y39 336 7 E� a:a3 1 �a, �f3 fo 4143 49z 336 3d - 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD DRYER BATCH FILL CYCLE START @ I" 3� DRY CYCLE STARTED @ �`� DISCHARGE CYCLE STARTED @ TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 1-7 2r6l N p 5 a 'IM '145 Zti► q35 333 2z/ :25Z, 3y ZtN 173 qm 1yo `lyN `(3�I �36 ayq • �H U 14 No `f 3-7 YV VIM 335 303 COMPOSITE SAMPLE c. . v RESET # CALCULATION 1165 DISH WGT GRAMS WETSAMPLE+DISH GRAMS DRIED-SAMPLE+DISH GRAMS GRAMS 1. w7o l�'7. 2 15 WGT. 2ND WGT- 3 RD WGT. - x100 d (a 7a3a - /oaas '=%TOTAL SOLIDS 0 DISHWGT WETSAMPLE+DISH DRIED SAMPLE +DISH GRAMS GRAMS GRAMS GRAMS 1T WGf. 2ND WGT. 3RD WGT. S. X 100 '= %TOTAL SOLIDS (DRIED SAMPLE+ DISH - DISH WGT. 1 x 100 `WET SAMPLE+DISH- DISHSGT. '=%TOTALSOLIDS ALARMS OR COMMENTS - S, ,1 + kp C 12/12/17JH C C a W, � 1 - c, I RUN TIME, HRS ' TWSA DRYER OPERATIONS DAILY RECORD . DATE c START STOP TOTAL 1' DRYER BATCH FILL CYCLE START @ ?:Db DRY CYCLE STARTED @' 7 : 39 DISCHARGE CYCLE STARTED '@ D•31{ TFMPFRATI IRFC DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER - IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 1 q;A 43 313 0 ,; Y3 to O E40 9:1q 1(i 3� tOro E / b - ,f /wL /-133 17 `t L1, 2ND DRYER BATCH FILL CYCLE START @ d - `F DRY CYCLE STARTED @ a DISCHARGE CYCLE STARTED @ oc • I� TCMADCDATIID CC DC TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. :4 qa lad �333 a i - 14-. 14 34d - /o6 2-f-yz- 1 43j-/ -73'W 2 -�� 3910 ! a 444f I z- 8 S3-7 a76 f q31 /`-)---4�5 1 4,v2_ 33 its C�-p L 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH 7 y FILL CYCLE START @ a ').-7 DRY CYCLE STARTED @ J' U DISCHARGE CYCLE STARTED @ TEMPERATURES °F .L TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. q q2, -535 217 X71 _ ��. 306 D 44y 43b 337 L ; K3 {b6 -A !off tj'i5 1/341 33r1 S:3 i�0 395 ����75 15� �i49 +44�ft-7 t{36 333 X67 7 7H -5r COMPOSITE SAMPLE RESET # CALCULATION DISHWGT WET•SAMPLE+DISH DRIEDSAMPLE+DISH GRAMS GRAMS . GRAMS GRAMS 1,0 S3 f 13,J71 17WGT. j3, b 5-03 eD WGT. 13, U 7057-� 3RD WGT. . �13,fl�'f� ia161l3 x1o0 1 9`�36s°1% l D531, a a1$r '=%TOTAL SOLIDS DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1r WGT. S: e' WGT. 3RD WGT ALARMS OR COMMENTS - v 12/12/17JH X 100 '_ %TOTAL SOLIDS (DRIED SAMPLE+DISH- DISHWGT.)x100 WET SAMPLE+DISH- DISHSGT. '_%TOTALSOLIDS IN qs5>/-U C TWSA DRYER OPERATIONS " DAILY RECORD. " DATE ft1 'Z D START STOP TOTAL RUN TIME, HRS 1st DRYER BATCH FILL CYCLE'START @1 b DRY CYCLE STARTED @ % 3 DISCHARGE CYCLE STARTED @-Zb, JL TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY . TIMER CHANBER . IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 7.3( l z.) to o w z 40 1 197 1 3 0 54) 44 k 33 a. 238' , c(, it jb,3 1 3 lb-6 . 33 -33 4 -2L -! C-12 - 39to i�o � 16:31 154 . 14a l3� 33 a r 2ND DRYER BATCH FILL CYCLE START @/U' q l DRY CYCLE STARTED @ 1 ° « DISCHARGE CYCLE STARTED TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 1\0415 4a1 Sag as a:03 Ib1d Aqo 30 q36 418 333 a56 E' 163 3,3 F 337 E 1-65 ISO 41�.r 43S' 33a R46 =l� 07 933 `f4S 4f4fa 33,� 361 l� 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ ' a`( DRY CYCLE STARTED @ a � DISCHARGE CYCLE STARTED @ TEMPERATURES DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT O.I. a 5� I blo L43 aLf CIO 33 f 1-7/ 30,b SD `[N5 u"al 337 25-0 3V iILI 3a it) b lI45 434 33f1 z57 7k 5 26 i6q �{ I Z S D 4�l �� 3�t 33� Z� • sy . Wil V� -3 31.3 Tlv COMPOSITE SAMPLE RESET # CALCULATIOI\ DISH WGT GRAMS WET•SAMPLE+DISH GRAMS DRIED•SAMPLE+DISH GRAMS GRAMS 0-$7055 IVWGT.. O . eD WGT. 7 3aD WGT. - X100 '=%TOTAL SOLIDS DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1r WGT. S: e' WGT. 3RD WGT. ALARMS OR COMMENTS - . -K /- 1 , s-+a pv Q y- D 12/12/17JH VfPLI, '= %TOTAL SOLIDS (DRIED SAMPLE+DISH - DISH WGT. ) x100 WET SAMPLE+DISH- DISHSGT. '=%TOTALSOUDS S' 4 !I I I I I 1 I i I TWSA DRYER OPERATIONS DAILY RECORD DATE IL/-ab-P7D START STOP TOTAL ` RUN TIME, HRS 15p DRYER BATCH FILL CYCLE START @ % " 1 a DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TFMPFRATIIRFS OF 14 TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER - . IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 7;44 Cbq ),7s: b 4/3 3q� . 3 Jl 83 e ?33 l(o(O 301 '50 1444 q34 33l 2.y2. TO 9 :4 si'1n l 33 g J.b v L143 . J (a I la n jw)3 J-W q4 (Q 43`7 � 3,�' a D: 3 `74 - . ! 4f.5 33 a� �rD 2NO DRYER BATCH - FILL CYCLE START @ �'53 DRY CYCLE STARTED @ e � � DISCHARGE CYCLE STARTED @� TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 4149 3, /95 60 3A 34� '33wl 24o c ©a 233 33(a J). - Q J4 LL6 4,3 33 a $ E) a .2T I Q7 13 S� f7S 44,5- -1-11a 33 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ a . i DRY CYCLE STARTED @ �' D-� DISCHARGE CYCLE STARTED @ TEMPERATURES °F' TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3 : 0-5 I I 7 b a) Q 0 , -q/ a 315. 3�55 1 Z 305 SO ul'{N ti 3b 337 z37 1:51/ 4•. L15 M 336 `Da -lq5 q-5b 33b 27r zri? ,�; 35 16°l 6 3 3 D qqq q3h 7>37 zss. !s . 6-OD lg I� 5 C131 $ 1 32% • 2r,3 3k- COMPOSITE SAMPLE - RESET # CALCULATION DISH"WGT WET•SAMPLE+DISH. DRIED-SAMPLE+DISH GRAMS . GRAMS GRAMS GRAMS 1!r WGf. /3; a v ZNc WGf. a. 3RD WGi. - / 3, �,-La05 _ /1D17,5" _ (A.ao� x100 , 9609gs a&-7 131 &gq5— !•0+75� %'=%TOTALSOLIDS D DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1j' WGi. S: 2N0 WGf. 3R0 WGi. ALARMS OR COMMENTS - 12/12/17JH X 100 TOTAL SOLIDS _ (DRIED SAMPLE + DISH - DISH WGT-) x 100 WET SAMPLE +DISH -DISH SGT. '_ % TOTAL SOLIDS 44-1n1. -1, o,ti n-k- .(Z49.--// ItCI C. 1 Fj START RUN TIME, HRS ' TWSA DRYER OPERATIONS DAILY RECORD DATE o 1. STOP TOTAL I" DRYER BATCH FILL CYCLE START @ ^ DRY CYCLE STARTED @ 7,4410 DISCHARGE CYCLE STARTED @ f 6:4{7 TEMPFRATURFS OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY . TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. ado 1 �3 a7�0 • 3U 13ga, 36 Pq E 1+6 q3(o 333 aLo4 C q'AO 16- S /bU )414(o 'fag 333 Cqj I D .) b 166 396 , b )Pf 17 31 33f J34 - Co /a:4-) i6b *20 -5- 4 a3s W,5 o CV f��. -j� ��i� ��i.j c� ��� ^✓'jam. 2NO DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED @ Ukl DISCHARGE CYCLE STARTED @ 3S" TFMPPRATI IRFC OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR. OUT 0.1. D � D 166 331 !60 �j 43 6 334? Qgl `Q� V? 3g7 156 443 �f37 3(p a66 .93S 43 T '-rrq.5 )41Z 2313da 12/12/17JH it,Nt',ittg..1 TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ 2 .'� DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TEMPERATURES OF Q TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. -3,zl 1 n I 27 d Ll IZ 309 313 /7t ill} y ,. (I 'W7 2qb u N5 1-136 3,3q a 3 / a-// g3lr 333 275 --r* 51 IbI �7b % () yN4 LI36 33y an b: �,G f'►b 3�t iyS Zzl . zqs sty COMPOSITE SAMPLE RESET # CALCULATION DISH n 1srWGT. 0 1it3 (I 2ND WGT. 3RD WGT. C. 11,311`i�1 0370 ; ►d. %�( X10o ILa���/%-/•637(i l(i.(Q(Tl� '=%TOTALSOLIDS DISHWGT WETSAMPLE+DISH DRIED SAMPLE +DISH GRAMS GRAMS GRAMS GRAMS 1' WGT. 2ND WGT. 3RD WGT. S: X 100 _ %TOTAL SOLIDS (DRIED SAMPLE + DISH - DISH WGT.) x 100 WET SAMPLE+DISH- DISHSGT. '=%TOTAL SOLIDS ALARMS OR COMMENTS - A U 5:4 Q, •- A4P 12/12/17JH 4 i 1 TWSA DRYER OPERATIONS DAILY RECORD . DATE ! START STOP TOTAL RUN TIME, HRS e DRYER BATCH FILL CYCLE START @ 65 DRY CYCLE STARTED @. 7 °3 DISCHARGE CYCLE STARTED @ TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 70 3� 1 67 a13 3q8' 38a. 3o3 ca- �.� to aQ3o a a a 1 D:og 163 37 sI, 1446 1as5 . Eve 0t -79 . I '+3v a5 I qq6 I �f4a 1 335 1 aSa E 2NO DRYER BATCH 1 FILL CYCLE START @ Q . S DRY CYCLE STARTED @ ! a a. P DISCHARGE CYCLE STARTED @ 2- a' TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR i OUT 0.1. 1Q,(q 1 17 u a8a 6 '4 LZ Fos 3!8 /qz) 6�8 ' 3bi' �O J-136, 13.5- a16> 1 E 66 --` e 44-5 zf3k 33la �1? E' l % 9 3 9 1 b Ifs 43-V 336 73 2.3• S3 433 L7 �745 Lf//2 336 304 CaO -1, 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ a 3`F DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TEMPERATURES °F ' DISCHARGE ' ®®� • • COMPOSITE SAMPLE qlo-lao RESET # CALCULATION WGT 1�T WGT. 2ND WGT. 3RD WGT. egg- l.ol�al= 17UT IPLE+DISU GRAMS FA C 3 x10D g�9a3tj3� qq '_%TOTALSOUDS DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS f WGT. S: 2ND WGT. 3RD WGT. X 100 %TOTAL SOLIDS _ (DRIED SAMPLE+ DISH -DISH WGT.) x100 ALARMS OR COMMENTSn - 12/12/17JH CTWSA DRYER OPERATIONS DAILY RECORD - I DATE START STOP TOTAL RUN TIME, HRS 1°G DRYER BATCH ��..j.,� FILL CYCLE START @��DRY CYCLE STARTED @�� DISCHARGE CYCLE STARTED @ TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER • IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. 8; 0 16 I A8� 4N2 387 3os 164 eip qeg' I la4 o°r8 ,�"o �F4fS 'f a 33 A e q.,57 ! 3/a b ../b 49 ,:3� J4 0 4 s '43 23Y a3 -I e J 16 �3 I \3 g . IN2 )4q3 �4 42 3 a-b 90 ' 6 2NO DRYER BATCH FILL CYCLE START @ _ (13� DRY CYCLE STARTED @ oZ.0 DISCHARGE CYCLE STARTED @ TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 300 1 3 34 I '4� -16-7 loa -214 g� IE 33& 2,V.4 yks Lf5 c(4 'JI.JA61 c 12/12/17JH I TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH �/ r FILL CYCLE START o 1 1 L Q DRY CYCLE STARTED @ ! 1, DISCHARGE CYCLE STARTED @ 2� TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT7 0.1. % V v (577 '.o3 ZaNg q56 335 z/Z 171/ s 6s �o Il L/5 3L/ 333 �, ti� 163 3�t6 D quil L(� 33Z -ZLI5- Jtt � �2S( ��� �t35 LIEN LIDS 3Z� 2�Y COMPOSITE SAMPLE RESET # CALCULATION 14o DISH WGT WET•SAMPLE+DISH DRIED•SAMPLE+DISH GRAMS GRAMS GRAMS GRAMS rJ 1� WGT. j 2ND WGT. 3 5 m - 3RD WGT. - � C- 3L10,33d5 x1oD `=%TOTALSOUDS S � DISH WGT WETSAMPLE+DISH DRIED SAMPLE+DISH GRAMS GRAMS GRAMS GRAMS 1°T WGT. 2ND WGT. 3RD WGT. S: x 100 '= %TOTAL SOLIDS (DRIED SAMPLE+ DISH - DISH WGT. l x 100 WET SAMPLE + DISH - DISH SGT. '=%TOTALSOLIDS ALARMS OR COMMENTS - 12/12/17JH �) TWSA DRYER OPERATIONS DAILY RECORD . DATE START STOP TOTAL RUN TIME, HRS • I 1n DRYER BATCH / A FILL CYCLE START @ l0' DRY CYCLE STARTED @ : l.S DISCHARGE CYCLE STARTED @ D : oZ TCAADCDATI Iocc Op C DISCHARGE DISCHARGE DRY CHANBER CHAMBER ROTOR ROTOR TIME EXHAUST PRODUCT TIMER • IN OUT IN OUT 0.1. ):1,5 10 a*7 40q 393. 3 bg 1 G3 co 3a 4 3 1$ Co. - O 4Y,5 433 2NO DRYER BATCH - FILL CYCLE START @ D 3� DRY CYCLE STARTED @ LZ DISCHARGE CYCLE STARTED @ TCAADCDATI IDCC OC TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 6a l L5 - ,i cc 4.1 J4lt :ja 1 ZbO 14,13 43 241 •"E'X 1 3 a JSv � 333+cl�7111520 a 1$a VtT eflf�. - 33 1 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @13-L DRY CYCLE STARTED @ 3 % DISCHARGE CYCLE STARTED @_ TFMPFRATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN , CHAMBER, OUT TROTOR IN ROTOR OUT O.I. 3;08 I (D Ck a.( 5 0 - 3a) )-� s JL") 3;50 <3 JD -,/ (-i ;453 (6 350 1 bD qy5 LIZO 333 2-L/3 eta 5:3$ (bo 35�I 16,0 yes %,(Y7 3��i 237• 3 tlJ '(36 3Zr . 270 G.. Iq COMPOSITE SAMPLE ?-[,g,4AJ RESET# (qo DISH WGT GRAMS WETSAMPLE+DISH GRAMS DRIED•SAMPLE+DISH- GRAMS GRAMS �.v3N�� lLr.y7gsr 1�wa. e' WGT. 3RD WGT °-7Y`f -, ./3, ire? I xloo ` 1-50r 97/ (Y `l7 i8 —/(D 3 `fY c 13. 4'ySf '=%TOTALSOUDS ' -?-9390 DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1� WGT. S: eD WGT. 3RD WGT. CALCULATION X 100 _ %TOTAL SOLIDS (DRIED SAMPLE+DISH - DISH WGT.) x100 WET SAMPLE+DISH- DISHSGT. '=%TOTALSOLIDS ALARMS OR COMMENTS - �^!' 7 to���-t1Q��`I 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD • DATE S- a (4` 10 i START STOP TOTAL RUN TIME, HRS :00 DRYERBATCH FILL CYCLE START @ 1 -Ft— DRY CYCLE STARTED @ %�'�� DISCHARGE CYCLE STARTED @ TFMPFRATIIRFS OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. .s 1b 7a 0 ao fS 176 ek' I�5 50. 44 s34 al e ' 8 �3 ��� 3 . oa 'f�-3' 4 1� • • 331 . a� e -q.i• 155 3 a )5 a 1 446 *37 33a 37 E •o : 169. D .`z 2 75- J ) 2NO DRYER'BATCH ' FILL CYCLE START @A -AL DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ a , aZ TFMPFRATIIRFS aF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. o e 4aa a �8 16 a 3 4)43 1p 3 3 a 6 '63 3ga 1,6-0 445 il,U 334 939 a a2 1-7s 4 3 c I 44S 4,q a- 33-7 a 7,5 L 12/12/17JH L, TWSA DRYER OPERATIONS DAILY RECORD CI DRYER BATCH '! FILL CYCLE START @ a 3a DRY CYCLE STARTED @ 3 b 3 DISCHARGE CYCLE STARTED @ - TEMPERATURES °F ti TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3:3 L1-61 qzl `q3 zzs 533 �61 L(l�1 q q,6 y Z> Z59 Tit. f�Y LLL(1 $ Y'l3 IN 33Z 27s 3� b16 COMPOSITE SAMPLE RESET # CALCULATION DISHWGT GRAMS WET-SAMPLE+DISH GRAMS DRIEDSAMPLE+DISH GRAMS GRAMS �0625 93, bz z 1�TWGT. `l3.4/ e'WGT. iii 3ftD WGT. - �- /d�� x100 ' 95-0-7/3693 3 oases — / '=%TOTALSOUDS�S� I ( C DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1�WGT. S: eD WGT. 3RD WGT. X 100 %TOTAL SOLIDS (DRIED SAMPLE + DISH - DISH WGT.)x100 , WET SAMPLE+DISH- DISHSGT. '=%TOTALSOLIDS ALARMS OR COMMENTS - 12/12/17JH CTWSA DRYER OPERATIONS DAILY RECORD . DATE 14 START STOP TOTAL RUN TIME, HRS " 1'' DRYER BATCH FILL CYCLE START @_ DRY CYCLE STARTED DISCHARGE CYCLE STARTED @ !y=JrJY TFMPFRATlIRF(Zof TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY . TIMER CHANBER - IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. 7 sa 1 d 38 b r� � a !lob 30,� 5a g 33 ab? 3 j•58 :3 lQ I 160 - 333 a �F4 b.2a 141 391 )1L43 '1. le -33,� a3a. c /b s5 Dq 33 83 "3' q-40, 333 a6S E� 2ND DRYER BATCH - FILL CYCLE START @ �5 DRY CYCLE STARTED @j m36 DISCHARGE CYCLE STARTED @_ ): �F TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. I I°3b -7b 7Y e 3D9 q, b 33 J4-, 37 /b b 1413 43 7 334l a 94 a f g N -L'4.5 lf4 3.3 q Q,�- 60 L 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3R0 DRYER BATCH FILL CYCLE START @ a � DRY CYCLE STARTED @ 33 DISCHARGE CYCLE STARTED @ TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN CHAMBER. OUT ROTOR ' IN ROTOR OUT 0.1. 3' Zb 1 172 -,? 0 b V(y VIZ 32c) 7�3 bI:116 '169 303 Lis LI39 335 2 /.S ;Tp -09 167, 3LIC 160 ' LIW L 3� 33s -IS/ ZKY 5: b 3vm 3 D ti yy y3y 331 Zia • Tb ��`� rO L[q? 33-3 295 COMPOSITE SAMPLE RESET # CALCULATION DISHWGT GRAMS WET•SAMPLE+DISH GRAMS DRIED -SAMPLE +DISH - . GRAMS GRAMS ,olq 1,786 17wGr. 2ND WGI'. •/ 1 �g Y .11,, �tv'SV-1tU19-7= > ,/,�.,�i$7 100 � �7�3aac�'7 1 L u ( %TOTAL SOLIDS 9 7 /% DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1�T WGT. S: e' WGf. 3RD WGf. (DRIED SAMPLE + DISH - DISH WGT. ) WET SAMPLE + DISH - DISH SGT. ALARMS OR COMMENTS - 12/12/17JH X 100 '_ %TOTAL SOLIDS x 100 '= % TOTAL SOLIDS c �i TWSA DRYER OPERATIONS DAILY RECORD . r 7 DATE 10 - J START STOP TOTAL RUN TIME, HRS 15' DRYER BATCH �• `� N / / FILL CYCLE START @ [ a DRY CYCLE STARTED DISCHARGE CYCLE STARTED TFMPFRATIIPFC OC TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN CHAMBER OUT ROTOR IN ROTOR OUT . O.I. :al a7. b5 S a9 S / 34 3d-r7 l,Db q-T `/37 3 9,9. a-D 66 - S i 159 3 .W ! Q 1 144SI 43y 3.:� 9 a s 3- 60 :�5 1434 I �� A0 3a i as r 2NO DRYER BATCH FILL CYCLE START @i 4jr DRY CYCLE STARTED @1 ` )g DISCHARGE CYCLE STARTED TFMPFRATI IRFC of TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. ig 11e � al 9 4 4 6) 3 l a E0 a.b�a l b,5• all 5 D 434 abq EQ 15% 5 )n 437 31+ 3 - y� L�l 173 �1�2 I�b �l`iu yK� 3Zcl ld� 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ . DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @_ TEMPERATURES DF •V A TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER, OUT ROTOR IN ROTOR OUT 0.1. COMPOSITE SAMPLE 0 RESET # CALCULATION DISH WGT GRAMS WET•SAMPLE+DISH GRAMS DRIED-SAMPLE+DISH' GRAMS GRAMS 7, SZo 17 WGr. 9V 7s3 ZND WGT. �(v • g 3 3RD WGf. - . 16.9q(v3 - /.D6%y X10o %6,s( le) 17 6a p/ I96 7v=%TOTAISOLIDS 51- DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE+DISH GRAMS GRAMS 1�T WGi. S. 2ND WGT. 3RD WGT X 100 '_ %TOTAL SOLIDS (DRIED SAMPLE + DISH - DISH WGT. )X 100 WET SAMPLE+DISH- DISHSGT. '=%TOTALSOLIDS ALARMS OR COMMENTS - O L n* K 12/12/17JH C D 14 TWSA DRYER OPERATIONS DAILY RECORD . DATE )- la START STOP TOTAL RUN TIME, HRS ' 1" DRYER BATCH FILL CYCLE START i DRY CYCLE STARTED @ 7 ° 6 DISCHARGE CYCLE STARTED @ / D TrnAnrn ATl lnr.- 0.. UST DISCHARGE PRODUCT DRY TIMER CHAMBER IN ✓ CHAMBER OUT ROTOR IN ROTOR OUT 0.1. KDARGE n a94 5 b 3 3 g- e.dj7� g3Ll Sa.7 aa�. co lis ` 1+ 2NO DRYER BATCH FILL CYCLE START @i DRY CYCLE STARTED DISCHARGE CYCLE STARTED @ JT TCAAnCD A" lnrr Qr TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN J CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 023 a:3� � � • a�i �d - �y7 �f3 � � I e� ;2 �a 3a I . t)o ��` 43g a' . . co-5 I 'l2 2-74 1,5b gJ45 li3 5 33 a34 if a 1If- `N6 �� 33 ! ! 3-2/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH �J FILL CYCLE START @ f!y DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TFMPFRATURES DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3 /�l BYO X/8 S= IS 16z 3 b o 33� zsn �- , o5 vz- '.55 170 `l31 Zoo W3 ��fZ sZFl zsY �y COMPOSITE SAMPLE I o f rp b'a RESET # CALCULATION 0 12/12117JH DISH WGT GRAMS WET -SAMPLE + DISH GRAMS DRIED•SAMPLE+DISH GRAMS GRAMS 6 1ITWGT. j3..3-;D�g 2ND WGT. /3.3337 3RD WGT. - /3.3a.37 x10o sl2 �J '_ %TOTAL SOLIDS, �_ DISH WGT WET SAMPLE+DISH DRIED SAMPLE +DISH 51. GRAMS GRAMS GRAMS GRAMS 17 WGT. 2ND WGT. 3RD Wes. S. X 100 '_ %TOTAL SOLIDS _ (DRIED SAMPLE+DISH -DISH WGT.)- x100 WET SAMPLE+DISH- DISHSGT. '=%TOTALSOUDS C 4 TWSA DRYER OPERATIONS DAILY RECORD DATE &-7- Q START STOP TOTAL RUN TIME, HRS (.0 DRYER BATCH FILL CYCLE START @ �y. al DRY CYCLE STARTED @ : d D DISCHARGE CYCLE STARTED @- l olg FILL 6 TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY . TIMER CHAMBER • IN CHAMBER OUT ROTOR IN ROTOR' OUT 0.1. qrDv )(elf 153 e 3 )4,,qi 43-7 3a9 ail• I i0. 4a5 145 `tif 3901 94C) 1 C 2ND DRYER'BATCH FILL CYCLE START @ °` DRY CYCLE STARTED @ / DISCHARGE CYCLE STARTED @ TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 03 S a7 to In 4)5*401 >69 674 97 a 4q(o )l .. 3q aal c6 a '4q3 IS5 31 to L14 fP 4 5 ? .333 Nvo 377 'A5 IM 335 n1- � , 1- lso LiIX D ��'� '� 33 257 ilk L 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH �J FILL CYCLE START @ DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TEMPERATURES DF ` PRODUCT Mm, OUT COMPOSITE SAMPLE hblAo RESET# CALCULATION DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1' WGT. S: 2ND WGT. 3RD WG.I ALARMS OR COMMENTS - 12/12/17JH DISHWGT GRAMS WETSAM PLE + DISH GRAMS DRIED-SAMPLE+DISH GRAMS GRAMS long 17 WGT. 11..3/q3 _ 2ND WGT. A •3 /D G - 3RD WGi. x 100 '=%TOTALSOLID L x 100 _ %TOTAL SOLIDS (DRIED SAMPLE+ DISH - DISH WGT.) x 100 WET SAMPLE+DISH- DISHSGT. '=%TOTALSOUDS START TWSA DRYER OPERATIONS DAILY RECORD. DATE STOP RUN TIME, HRS - I / -1-/ (j / ' I ; 3 1 A I ..J I i TOTAL 1S1 DRYER BATCH FILL CYCLE START @ . + 5 i DRY CYCLE STARTED @ g a� DISCHARGE CYCLE STARTED @ •3 TEMPERATURES°F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER, • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 9:33 X.7 401 384 3-0b zsd, e �13 to l -3 &b 5 d 4,q is J43 % . 91 )411,6 .. - .: 3-g. :3.3.� a 14,VS 4 3 33 o �. eig -11'-34 A7. -lqa3' A 414 � 331 aso 2NO DRYER BATCH n FILL CYCLE START @ 'T T DRY CYCLE STARTED @ « DISCHARGE CYCLE STARTED @, TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 1aP16 1 o tp b 6 ' aq �549L4Lfq 431p 34 A03 640 :5 - j62A Sly JPO 4,14S' 3 Y a5;� 1< .a..46 I 374 .430 4q.6 4310 3 3 3*131 1 V tf3(p 1 5 I L145 9q U A9 3&J L 12/12/17JH _ TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH ' c- FILL CYCLE START @ 3 Z JA DRY CYCLE STARTED @ ` UP DISCHARGE CYCLE STARTED @ TEMPERATURES OF .V TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 4 <<lo 1-1 ( 2�O 0 - '-U2 3ci9 3 (L-1 . m a 3-la 5 • t 6 1(o o a-9 (o 4(o 4 3 3 5 2-06 Z:SL-. 5-: 5 (o Cto 3 3 6 Z / 0 25 l TJJ (o:LK, -1 l 0 i 435 333 Z4-0 1:3) - . Q25 5 y 9 1 331. Z59 3� COMPOSITE SAMPLE RESET # CALCULATION DISH WGT GRAMS WET•SAMPLE+DISH GRAMS DRIED•SAMPLE+DISH GRAMS GRAMS a5.L{(flj9(o 17WGT..2L%�pil%�o 2ND WGT. 6.1 3 3RD WGT. - C x 100 %TOTALSOL 1 S SL DISH WGT WET SAMPLE+DISH DRIED SAMPLE+DISH GRAMS GRAMS GRAMS GRAMS 1T WGT. S: 2ND WGT. 3RD WGT. X 100 %TOTAL SOLIDS _ (DRIED SAMPLE +DISH 1 DISH WGT.) X 100 WET SAMPLE+DISH- DISHSGT. '=%TOTALSOLIDS ALARMS OR COMMENTS - 12/12/17JH C TWSA DRYER OPERATIONS DAILY RECORD DATE_ L START STOP TOTAL RUN TIME, HRS ' 1" DRYER BATCH FILL CYCLE START @ -2 DRY CYCLE STARTED @•R • 4 ;5 DISCHARGE CYCLE STARTED @ TEMPERATURES °F TIME DISCHARGE EXHAUST ...DISCHARGE PRODUCT DRY TIMER CHAMBER • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. P3 163 3q Z7. 317a /S4 e cl.10 l 5� 33 11)d 4,q.3 :. - • . t 3 1s `fit(o q35 a 36 . �� -lf=D7 2ND DRYER BATCH FILL CYCLE START @ 11 , I DRY CYCLE STARTED @ o L DISCHARGE CYCLE STARTED @ a TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 3),5 I 1 2: 152 So *3 32 ElJ --aci 13 353 260 ,411- G13 8� 335 -;25;Z co ' ligi 3$3 15P zfqs 3b 33f c)� e4 a-,M Asa q35 .. 152 5 14q z L L� 12/12117JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START 030 . DRY CYCLE STARTED @ 3 yy DISCHARGE CYCLE STARTED @ TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN. ROTOR OUT O.I. 3zt l-7 ciH a.4 b:(y lb3 55r1 «O L N5 1455 333 237- 4 . b:s-1 (Yz LLZY HS % 32G 261 Sty COMPOSITE SAMPLE i (9 )l 2/ao RESET # CALCULATIOt DISH WGT GRAMS WETSAMPLE+DISH GRAMS DRIED•SAMPLE+DISH GRAMS GRAMS p o 1l WGT. a 2ND WGT. 3RD WGT. la�vr8°�-(•c,s�( /1;59-U x10019•w,a-9Iy 6,91 D l3 02R0 - 5-0 1 - 1.0, Daaj '_%TOTALSOLIDS 9 DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1T WGT. S: 2ND WGT. 3RD WGT. X 100 '_ %TOTAL SOLIDS (DRIED SAMPLE+ DISH - DISH WGT.)- x 100 WET SAMPLE+ DISH - DISH SGT. '_ %TOTAL SOLIDS •ALARMS OR COMMENTS - pt �e A 6Vt, 12/12/17JH C• C TWSA DRYER OPERATIONS DAILY RECORD DATE I D " 13 - A D START STOP TOTAL RUN TIME, HRS 15c DRYER BATCH FILL CYCLE START @ 7;10 DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @_ 1 f7:.S TFM P FRATLI R FS, OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY . TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 7T'Q p R 0 D 38 3a a l57 2 16 o 3 Z5 J-D 44(o .'t 3(o 330, Lct c( d W a 51 i I !V 445 Lf3 . '33 1 all e 0--lL ,fib 3-71 25b INN 435 13A a34. Ie J6;31 164 �1 I `fig 44 lf4d, a asa 2NO DRYER BATCH 1 ' FILL CYCLE START @_ I ( �F DRY CYCLE STARTED @ 1731 DISCHARGE CYCLE STARTED @� TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 4;23 110 36 i-) 6Q 33 b 09 1:11 0 AD 4145 )4353 333 - d: 0, : lob I 3 )1516 4145 36 3 a.,39 Iqa q31 I�d 1? 443 4ti a, 33!s 30 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ A 49 DRY CYCLE STARTED @ j , DISCHARGE CYCLE STARTED @ 3S TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3;Zs l7D 2'35 400 3/s- ` : /74 146 Ito -4 .50 ao (o 5'5 zol oa 16`b �3S b=35 7-7 .1 o L[L(S `(Kb 33 COMPOSITE SAMPLE pfi3`io RESET # CALCULATION DISH WGT WET -SAMPLE + DISH DRIED SAMPLE+DISH GRAMS " ]RAMS GRAMS q, /GRAMS 1' WGT. 2 ND WGT. 3RD WGT. /.O (O2 c`$ iLl Gtv 3 8b�o- I.069�?s $ ice —x100 '=%TOTAL SOLIDS /Q DISHWGT WETSAMPLE+DISH DRIED SAMPLE+ DISH GRAMS GRAMS GRAMS GRAMS 1' WGT. 2NO WGT 13RD WGT. S: X 100 '_ %TOTALSOLIDS DRIED SAMPLE + DISH - DISH WGT.) x 100 WETSAMPLE+DISH --DISHSGT. '=%TOTALSOUDS ALARMS OR COMMENTS - 12/12/17JH C 9s � ( % TWSA DRYER OPERATIONS DAILY RECORD DATE_/Q .mil 4 " 016 START STOP TOTAL RUN TIME, HRS A;:5 / 10-.4b / ig. 1' DRYER BATCH / FILL CYCLE START @ �: U� DRY CYCLE STARTED @�L DISCHARGE CYCLE STARTED @ ! l • b a TFMPFRATI IRF[ OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. I l b a73 3Q5 3�7 lo 6,31 so 4jjs 3;, a ' 15° 3 - 4qs 413,5 3as 2, 3 6f:aa 157 2ND DRYER -BATCH I f FILL CYCLE START @ 4 I ' DRY CYCLE STARTED @ I DISCHARGE CYCLE STARTED @ TFMPFRATI ]RFC OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. /I: a �4 :9,2Lf 6 463 3 0, )o -3a 1l b JOS 5-U ql(p 43(, 33d 20 '6 bs 3 ID ..)I)a 44& 1 431 1 334 'a- la /4 Lt J69 1 5a 43.5 33y a z 6 C 12/12117JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH 2 FILL CYCLE START@. ��. DRY CYCLE STARTED @ 3-3 DISCHARGE CYCLE STARTED @ TEMPERATURES DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY 'TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. B;55 M 2:aO b ge DIY 3!Z 172- zw q!Z,5 I66 31l s- O u 6 331P 2z£f 0N- 5: l�K -506 :oS ibL( Y*q Y(% 7-y7 ,ram 6,5a 1�U �lzv q S �I3Z Y36 DZ5 25Fr ,fP COMPOSITE SAMPLE t olm ip RESET # CALCULATION DISH WGT WETSAMPLE+DISH DRIEDSAMPLE+DISH GRAMS GRAMS GRAMS/GRAMS L 1rWGT. 2"D WGT. / a I y& 3RD WGT. - i �a g1y�d—I�UG�y lj,�So�( xloo 1S%`�lgs7? � 3 • � 1 s�f? —` , ° 4, = I a, 35oK '= % TOTAL SOU DS al 4 1 �a DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1T WGT. S. 2"D WGT. 3RD WGT X 100 _ %TOTAL SOLIDS _ (DRIED SAMPLE+ DISH - DISH WGT.)- x 100 WET SAMPLE+DISH- DISHSGT. '_%TOTALSOLIDS ALARMS OR COMMENTS - L4 es ls:T 12/12/17JH CTWSA DRYER OPERATIONS DAILY RECORD . DATE /Q -IS-aa START STOP RUNTIME, HRS ' `7 :3 IO / 91 � g'' d TOTAL 15` DRYER BATCH FILL, CYCLE START @_ A2� DRY CYCLE STARTED @ :),Q DISCHARGE CYCLE STARTED @ TFMPFRATIIRFC OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER - IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. S t9b 13 alp o ' 2� a9? 15a 3PS S50 3 a�Z ten b:6b 31 308 /DD ay l D: Sa b ;t, 3_ 3 1�5a lt5 -2 3 p P,,3& . ) 6 6 . gb06 197 4 3 414:a 33 1 1 d'56 E 2ND DRYER BATCH ' FILL CYCLE START @ 1'30G DRY CYCLE STARTED @ L/ � • /ZDISCHARGE CYCLE STARTED @ �rZ3 TFMPFRATI MM of TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. la,�a F7 �� o 409 393 /6 1-� 1Uco' 3a7 lib IfIV5 1434 33 a19 1 304 k/©D 44' 4 S 3 5a, a a lla3 lob ���3 �i33 .3Y 19U 1v 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH > j / c FILL CYCLE START @ 3'33 DRY CYCLE STARTED @ �r �7 DISCHARGE CYCLE STARTED @ TEMPERATURES °F DISCHARGE DISCHARGE DRY CHANBER CHAMBER. ROTOR ROTOR TIME EXHAUST PRODUCT TIMER IN OUT IN OUT 0.1. .-&r7 v Zco 0 Lo7 Sao 3o 1?/ 3# .S 66 , o L! Y 3;y v-_ sH "N f cC D 0 L�q5. k3 `3 �7-5z 0. -7 2 37 ).50 qq6 3 ZY-1(. J-k . ?! tY 7 7 Ilev 30 3 3z'f Z53 �H COMPOSITE SAMPLE RESET # CALCULATI% (4p DISH WGT WET•SAMPLE+DISH . DRIED•SAMPLE+DISH- GRAMS I GRAMS GRAMS GRAMS "Tw(3T. / c 2" WGT. 3RD WGT. - 1(way-Lc)— x1oD c?��33736� t off, 1 3S_S_.-1, pS, = j' � ��-71 '=%TOTAL SOUDS��/O DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE+DISH GRAMS GRAMS 1ST WGT. S: 2ND WGT. 3RD WGT. ALARMS OR COMMENTS - G 12/12/17JH X 100 _ %TOTAL SOLIDS _ (DRIED SAMPLE+DISH - DISH WGT.)_ x100 WET SAMPLE+DISH- DISHSGT. '=%TOTALSOLIDS C TWSA DRYER OPERATIONS DAILY RECORD - DATE START STOP RUN TIME, HRS ' I % : o p, / —.,LA-( TOTAL DRYER BATCH FILL CYCLE START @ v� 8 DRY CYCLE STARTED @'7 f 0 DISCHARGE CYCLE STARTED @�d •slp FILL • Cft An rn Ar lnr• 0.. TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER - IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. -3q 15 �e 3 r 35 11.9 /73 -aq u �� • •3 01(0�o 1 = 1,54 3 '�,5 1 o J-Pt q3s� 3,2 )143 gab /sf�o `Fq_ 14ta aag alf3 2ND DRYER BATCH FILL CYCLE START @ i % . Qb DRY CYCLE STARTED @ �J 7 DISCHARGE CYCLE STARTED @ 01 - `! " TCAADCDATI IDCC OC TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. I43`I Lou a1 /�l 40 -7 e SD 144E J43 7 33A l �3 3Ab -1 Da J-i47 438 333 aS`f C a l 3 �D )SD s 43 .333 a s C a ` � If31 111 411,3 4P, g a65' C., 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ a • 25 DRY CYCLE STARTED @ nt DISCHARGE CYCLE STARTED @ y ? TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. Vo 5 a L(06 W arm 171V d f a u�6 7 333 233 �N Lo ib 2 3-73 bD Lf `(5 L(37 sy( Z3s �to 3-b( ISD qq( L 35 3 3 2: N I I lot 416 q35 'l 3'f 3z3 2-5s s�! COMPOSITE SAMPLE %v/l.Qlp RESET # CALCULATIOD DISH WGT GRAMS WET•SAMPLE+DISH GRAMS DRIED-SAMPLE+DISH GRAMS GRAMS fwGT. / 2ND WGT. 3 RD WG• .. // (56 _X1oo t(,gs O —!'Glob /0,'=%TOTAL SOLIDS 9 DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRANTS 1' WGT. S. eD WGT. 3RD WGT. X 100 '= %TOTAL SOLIDS DRIED SAMPLE+DISH-DISHWGT.I x100 WET SAMPLE+DISH- DDIISHSGT '=%TOTALSOLIDS ALARMS OR COMMENTS - 12/12/17JH C_ ' CI 14 RUN TIME, HRS TWSA DRYER OPERATIONS DAILY RECORD . DATE /4 - a l .a 0 START STOP TOTAL =s-3 i t "m i 11• ) 15C DRYER BATCH FILL CYCLE START @ -J; 02 DRY CYCLE STARTED @ 1.34 DISCHARGE CYCLE STARTED @ TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY . TIMER CHANBER - IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. Q 1 �3 a7�i zf D 83 �5 e S<a.If /Sq 30fo .5D 44 4 . n I4 i5� .31(? /0 qii,3" 43P 336. aY6 - e 16-,b* 158 1 373 16-0 'Ltgs q3S 3aq a37. fjO 14 33 d a55 6 2NO DRYER BATCH 7 FILL CYCLE START @ AQ :59 DRY CYCLE STARTED @' �J 3 DISCHARGE CYCLE STARTED @ o� TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 1633 Da OD 311 /fig a,,)3 330, 99 j3' A)a 30 '/o-a 44-5" 43R 334 a5�!, 490 .a:v,� /i3 3`73 150 1 4q-,5 434�7 3:31( a4• EO g f `t' f 3.33 Flo 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED @�9 DISCHARGE CYCLE STARTED @ TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3 7- d 1 5 c YN S� q1-11 .rD qq6 Y3 33`l Zc) ( s� 5:19°f 15-? /Dl Yq Yam/ 535 2S7 /a• 5, 5-1 t63 I /so 4ql► I I/ 33 2114 ; YY 177 5 lq5 toy 1 Y33 3E4 osr 3� COMPOSITE SAMPLE iofalb-,, RESET # CALCULATIOt DISH WGT WET-SAMPLE +DISH DRIED-SAMPLE+DISH GRAMS GRAMS GRAMS GRAMS 14, qA 5 1T WGr. • 2ND WGT. 3RD WGT. - bg$S X100 , 9993,�-8? C G� 6G9q= 13, M-?3 =%TOTAL SOLIDS o,�3/� DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 1�r WGT. S: 2ND WGT 3RD WGT. X 100 _ %TOTAL SOLIDS (DRIED SAMPLE+DISH- DISH WGT. I X100 WET SAMPLE+DISH- DISHSGT. '_%TOTAL SOLIDS ALARMS OR COMMENTS - Al Z5-fG,L, f.,A Y! e A 12/12/17JH c C S- C' I RUN TIME, HRS TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL P DRYER BATCH FILt CYCLE START DRY CYCLE STARTED L4 I p DISCHARGE CYCLE STARTED @ ID - 55- TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER • IN 'CHAMBER OUT ROTOR IN ROTOR OUT 0.1. -7:49 lsq 3aa D R7 155 co I �D 3`f � �3 !8d, e3- h=39 0=1q )sq 31 (o _3Z q.3 2' 3 k 331 zi y. e /(3.5 J37 • )4f7 g� I Y4& 140. 33 { 0-� -9 2ND DRYER BATCH !' FILL CYCLE START @ 1I ' a DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ oZ TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. l3tp i (� bD '40<) 3 ► I� a 3 Q9 106 '45 438' J33 a3 I Nj4 3-7 �, 45 D qqs #-7 & -?3q a4 - a1 I,8 t L-4. a 19 a 44 '4 oOr) L 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH l 2 FILL CYCLE START @ 01 ;5 . f DRY CYCLE STARTED @ 3 ' 3 / DISCHARGE CYCLE STARTED @ TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN - CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. l`II Z`il 403 391S 309 l73 mil/ L ;Z3 165 6 o L16 Li36 22,61, T9 613 f s7 3 `l6 Jig yyl _5* 6:o3 C 3 1 5 Y35 33 3� zy4 S� V143 1'75 I q15 d 11q [d 33 f -3if/ COMPOSITE SAMPLE RESET # CALCULATION DISHWGT GRAMS WET•SAMPLE+DISH GRAMS DRIED-SAMPLE+DISH GRAMS GRAMS j.asSZ iZ•93 5 1�WGT. /1.a- • 2ND WGT. J a• a g 3RD WGT. - la. ad6 j—� vsSa ll,�309 X100 J9V5-61 ail Cv�G �I td� j '=%TOTALSOLIDS ! f•S �� / i DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 17 WGT. S: 2N° WGT 3RD WGI ALARMS OR COMMENTS - 0 12/12/17JH X 100 _ %TOTAL SOLIDS _ (DRIED SAMPLE + DISH - DISH WGT.)X100 WET SAMPLE+DISH- DISHSGT. '=%TOTALSOLIDS C C � V � TWSA DRYER OPERATIONS DAILY RECORD . DATE 'D-�7-aD START STOP TOTAL RUN TIME, HRS ' 1' DRYER BATCH FILL CYCLE START @ (D 57 DRY CYCLE STARTED @ !� DISCHARGE CYCLE STARTED @ S� TFMDFRATI IPM or TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY . TIMER CHANBER • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1• ? a 391[ 374. aq6 1,65- 9 •. a0 1(b SD 43 b ),5 A4 Z79 I a d /bo 437 *33 0 a33 6)3 6 Z) q 43,5- 3a9 :T a�3. e fO 4jo D , LH(p q-fe z 2NO DRYER BATCH FILL CYCLE START @ %bS DRY CYCLE STARTED @ l'3� DISCHARGE CYCLE STARTED @ ? ,5 TFMPFRATIIRFS OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 1138 I MD o .4Dq 39,3 J Q5 1 a 3- 26.1, SQ 4 3 ass CD S, %_ .•/bD )-f3 JY3 023 .3:D'g .,315 156 40 436 17 ?Yq 16-0 0q:45 .'f I Y l?s A 440 3,3Y{ I P-63 I en L 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH r FILL CYCLE START @ ` b5 DRY CYCLES ARTED @ J DISCHARGE CYCLE STARTED @_ TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN . CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. - 35 371 303 . 161 _,1 4'•ao 166 Zc13 56 4ub FIZZ, 33l Ig-cl Tb 5'. ►� 63 L 6 o K Ll 33 Z5*L( J!� `(l 7 ids 3-7 COMPOSITE SAMPLE /°f2�1;?o RESET # CALCULATION DISH WGT GRAMS WET-SAMPLE+DISH GRAMS DRIED•SAMPLE+DISH GRAMS - GRAMS 1,v639 lLi6w� 1TWGL 6 5"7 2ND WGT. / 1 • .5 3RD WGT. - s �—A&639 /D Dog-'j X100 , y3� �o�lq /A a63ol_/ 6&?�— // t oZ '=%TOTALSOLIDS-23,S20 DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS 15T WGT. S: e' WGT. 3RD WGT. X 100 '_ %TOTAL SOLIDS (DRIED SAMPLE + DISH - DISH WGT.)X100 WETSAMPLE+DISH- DISHSGT. '=%TOTALSOLIDS ALARMS OR COMMENTS -AT S+crr 4-: It L65'i- 'E t9 Leo n e-/^ 12/12/17JH C C� C CI START RUN TIME, HRS ' TWSA DRYER OPERATIONS DAILY RECORD . DATE i 0 - a W STOP TOTAL P DRYER BATCH FILL CYCLE START @`]: ►b DRY CYCLE STARTED @ : Sd DISCHARGE CYCLE STARTED TEMPERATURES DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANGER • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 7: 5a 159 E � Lw �Af 31� 43 7 347 S3 9:3D l33 311 .5 `�,R .33 r aliq eZD 3 ,Zp 44.S y13 333 60 o / q45* 44a 33a �55 CD 2ND DRYER BATCH j • r FILL CYCLE START @ / DRY CYCLE STARTED @ / DISCHARGE CYCLE STARTED @ . b U TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. f : 6a - o ' ,3?? Z&F C 43b 41 a 15'f 31 q- L 38 33 ( asa p -5 `1 37 Ag 441� U 3 1p 33 a 'a4g � 3 -,bb I`7 � > 61 44t )4q 333� a�4 c, 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START ra : J 0. DRY CYCLE STARTED @ 3" Ll� DISCHARGE CYCLE STARTED @ TEMPERATURES °F • TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3:q6 14, Zq ► L(OZ 172 �I31, 164 LILI9 °tb I55 3rlot) t{c/ y3� 33v 25� �Y.a 6:►b I60 3 Z JfD t'ILIL L136 331 �L7 �«. -bk tills i q 5 ja5 COMPOSITE SAMPLE RESET# CALCULATION DISH WGT GRAMS WET•SAMPLE+DISH GRAMS DRIED•SAMPLE+DISH- . GRAMS GRAMS 0 5 _3 f War. 1 2-- 2ND WGT. 3RD WGT. - 13 ,a33g — 1, bl'+5'= /a,i�'I3 x100 l Lt 1 3g ` / dZ-7 r r 313 19 `( '=%TOTAL SOLIDS DISH WGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS' GRAMS 1ITWGT. S: 2ND WGT. 3RD WGT. ALARMS OR COMMENTS - 12/12/17JH X 100 %TOTAL SOLIDS _ (DRIED SAMPLE + DISH - DISH WGTI x100 WET SAMPLE+DISH- DISHSGT. '=%TOTAL SOLIDS ( C_ TWSA DRYER OPERATIONS j DAILY RECORD . DATE_!D-�l L START STOP TOTAL RUN TIME, HRS V� . P DRYER BATCH FILL CYCLE START @ `l : �a DRY CYCLE STARTED @-g: DISCHARGE CYCLE STARTED @ L /. `fa TFMPFRATIIRFSOF TIME DISCHARGE EXHAUST DISCHARGE PRODUCE DRY TIMER CHANGER • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. %:W) 32Q. aU 26)e 9: i� j19 -ju, 1460 13 10 CO b o7 .3 13 01) 4')3 V ay - l :,5 3�� `<SD �f�3 L13 - 1:4a Do 1 Rif 443 2ND DRYER BATCH FILL CYCLE START @ J DRY CYCLE STARTED @ a '' DISCHARGE CYCLE STARTED @ 3 y 1 TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT- DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. d -83 3`7b 30 60 I & Sa /a E.6 a u'7 S l0- ao ZAA 43 1,34 02S E :51 lto 3 37 `7 J6b 44 5 336 s3 C 3,,4-1 IbLi 4 (� dt)�) L445 L4H 334 a(a-7 jt� 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ 3 � S? DRY CYCLE STARTED @ Y ` 3z DISCHARGE CYCLE STARTED @ TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. o 3aZ S-1L( 3oL. tZC) 1J 5:aa (ceg 22Z 5o L43(e H25 Ro a" 3L3 too Lf(4 `f31 33L{ 25S 31� (o t50 Lf41) LE-36 1 33s ZQ 77 %5 1 eT ZZ Zob HY-( L[4( I 33Z I Z(Q1 COMPOSITE SAMPLE RESET# CALCULATIO< DISH WGT WET•SAMPLE+DISH DRIED-SAMPLE+DISH- GRAMS GRAMS GRAMS GRAMS k.0.700 g-7ta2 1S`WGT. a C� ZND WGT 1 , C92_ 37 3RD WGT. - QL�'aq X100 '=%TOTAL c�,g-j�pa-1 07Uv. g3,£SDI72- SOLIDS DISH WGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE+DISH GRAMS GRAMS 1�T WGT. S. e' WGT. 3RD WGT. ALARMS OR COMMENTS - y• r 12/12/17JH X 100 %TOTAL SOLIDS _ ( DRIED SAMPLE + DISH - DISH WGT.) x 100 WET SAMPLE+DISH- DISKSGT. '=%TOTAL SOLIDS C TWSA DRYER OPERATIONS DAILY RECORD DATE-1/ - ` oZ O START STOP TOTAL RUN TIME, HRS ' �j ; ,5 0 f' DRYER BATCH FILL CYCLE START @%' D`7 DRY CYCLE STARTED @ `'3 DISCHARGE CYCLE STARTED @ ki DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER - IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. Igo a - 397 3eo. a9g 1s� 363 15-a 44� 33 a E :17 l e a Zo j 6a 114s- 43 F . 33 c � E ID:n 1k D 32 lsZ' V4� 436 33A - I loss 413 33 asa e,6 2ND DRYER BATCH FILL CYCLE START @. ;� DRY CYCLE STARTED @ 1 ° a t DISCHARGE CYCLE STARTED @ J rr e w n�... r........ 0.. DISCHARGE DISCHARGE DRY u.rs. ainw CHANBER r CHAMBER ROTOR ROTOR TIME EXHAUST PRODUCT TIMER IN OUT IN OUT 0.1. �39 9 76 E 3,3 a s C `6b 33 1 a,� ;5 k3 �7 g 73 43 3 33 +4 j 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH 7 FILL CYCLE START @ •� DRY CYCLE STARTED @ 3 17 DISCHARGE CYCLE STARTED @_ TEMPERATURES DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. :17 Z L/.07 I6,f 2�6 a 456 :5'7 lbb ) DD �3 JF/ lAb 1145 lq36 s3o z'/(�/ - JH 6=3z 7-) °15 Liz 3z` 2G7 COMPOSITE SAMPLE I f/�/ate RESET # CALCULATION DISH WGT GRAMS WET•SAMPLE+DISH GRAMS DRIED-SAMPLE+DISH GRAMS GRAMS 17WGT. , Z11 -4;�3 eDWGi. %lpr �%o�-'r-/ 3RD WGT. - 1 -j , b qf�7�5' '= %TOTALSOUDS q 3 b DISH WET GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS- GRAMS 1�WGT. S. 2"D WGT 3RD Wes. X 100 %TOTAL SOLIDS (DRIED SAMPLE + DISH - DISH WGT.) x100 WET SAMPLE+DISH- DISHSGT. '=%TOTAL SOLIDS ALARMS OR COMMENTS - 12/12/17JH c C_ C TWSA DRYER OPERATIONS DAILY RECORD . _ DATE START STOP TOTAL RUN TIME, HRS L 15' DRYER BATCH / FILL CYCLE START @ i s 7 DRY CYCLE STARTED DISCHARGE CYCLE STARTED TEMPERATURES OF DISCHARGE DISCHARGE DRY CHANBER CHAMBER ROTOR ROTOR TIME EXHAUST PRODUCT TIMER • IN OUT IN OUT O.I. gag 1-54 aR ( d 4 o;L g2 0,9 I D 8 D 30 1Do 'z! lP q3 7<3 I4`9l E 2ND DRYER BATCH t 1 FILL CYCLE START @ .// 'SD DRY CYCLE STARTED @ // 'O2� DISCHARGE CYCLE STARTED @ TEMPERATURES DF DISCHARGE DISCHARGE DRY CHANBER CHAMBER ROTOR ROTOR TIME EXHAUST PRODUCT • TIMER IN OUT IN OUT 1. 0.1. r'• � l � a • as o • �I �fo � �� �•lD �� • 3D1f vl"� �g �3� 333 a as �° a 31 t /ao �f337 33 ash �,p a.i(p 3-7 ��Sd 5�, 4'37 q43 )4 333 266 6D a 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH p •� C FILL CYCLE START @ a ,K10 DRY CYCLE STARTED @ o`er DISCHARGE CYCLE STARTED @ TG�ADFRATI IRFS �F � TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN • CHAMBER. OUT ROTOR IN ROTOR OUT O.I. a:5q 393 3)l F7 1 6 2 SO 4 4-7 t-l-'L 7 3 I- liq J N 6 /DD �5 �(36� zyo art. 6 l'1 16 �z3 L yy V(f l 32-1� zssr ��a COMPOSITE SAMPLE RESET # CALCULATION DISH GKAMD Uc lv,� o6S7 I L,o9 17WGr. 12 -a eD WGT. 13 s 3ao WGf. X10D l SOU '=%TOTAISOLID5 C7 fY,09-79 --�`°6�% �1�3,03a'a- X 100 '= %TOTAL SOLIDS (DRIED SAMPLE+DISH - DISH WGT.I X100 WET SAMPLE + DISH - DISH SGT.-/� '=%TOTAL SOLIDS ALARMS OR COMMENTS-! %'�S��x)k✓��� C 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD - DATE / l -'4 —a- O START STOP TOTAL RUN TIME, HRS ' I g F,5 Jr / 3' 0-5 P DRYER BATCH /� FILL CYCLE START @ "I -a0 h DRY CYCLE STARTED @ �% )-DISCHARGE CYCLE STARTED @ TChADCD A" 10CC DC TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER - IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. gE40. a.5 n zw j qqi co •310 31d. /0-0 q(e 443g -333. 1a 41a 1 a 319 to y 3 7 333el 17q. qoFs ab5� �4 l3 � 2ND DRYER BATCH FILL CYCLE START @ l ' 17 DRY CYCLE STARTED DISCHARGE CYCLE STARTED @ �' S TCAADCDATI IDCC DC TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. o fo 3g� ro 17, 6,10 r331 1$ 3.3 *6 16 o 317, .lE) a LI i5 1156 • >' � b 16 t 3W 13d 7y 1/3 7 33Y 5'65 1 CdLI LIZd 1�5 �{ `qo 3-z FcI4,,,, Q <-6.00 Pm 'L, 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @_ TEMPERATURES OF OUT COMPOSITE SAMPLE ► l/� /f ,o RESET# CALCULATION DISH WGT GRAMS WET•SAMPLE+DISH GRAMS _ DRIED•SAMPLE+DISH- GRAMS GRAMS o7Z )3,32-0 frwGT. Z.2 07• eD WGT. /a � 3 3RD WGT. - la �053 D-7a I '� 111. 5332_ xloo % `��� 2� 1 3, 3,5L05 � ?ale ! a �`1�a' '=%TOTALSOLIDS DISH WGT WETSAMPLE+DISH DRIED SAMPLE +DISH GRAMS GRAMS GRAMS GRAMS 17 WGi e' WGT. 3RD WGT. S. X 100 '_ %TOTALSOLIDS (DRIED SAMPLE + DISH -DISH WGT.) x100 WET SAMPLE+DISH- DISHSGT. '=%TOTAL SOLIDS ALARMS OR COMMENTS - 5 -rq eT ti? 12 2seT I-).k r r] e ✓` 12/12/17JH C TWSA DRYER OPERATIONS DAILY RECORD . DATE_///-5-aQ START STOP TOTAL RUN TIME, HRS 15' DRYER BATCH % % 0 f FILL CYCLE START @ DRY CYCLE STARTED @LJL°L DISCHARGE CYCLE STARTED @ L a TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 8;aa I �a 3/A aag ISc 54D )44 6 43V .• J3�3. c)_5 --M.5a J53 37S /,!rD 44f.3 N3 331 1 0,'f G -ti l (. 4a5 1?0 q4S "F'4I 331 1 agb e 2NO DRYER•BATCH FILL CYCLE START @ I DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ T TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 16D 1114,5 434o -21 53 01) 4q/0 �� � W 3' 2 SP Cfp a'.5E w3�i � L4L4 /';"���, 33q- a,1,6 60 L� 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ . • 04 DRY CYCLE STARTED @ :L DISCHARGE CYCLE STARTED @ TFMPFRATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN - CHAMBER. OUT ROTOR IN ROTOR OUT O.I. Ko 170 2jrlZ IGoY 3� 6 ��j 17Z Tip L1:30 163 2 a W3 Ll 33Z z/`/ jl1 - -co 151 3a�1 l D D L(t y37 3 u �•v 6. I o 13 D 4 36 37-�7 Zys may/. 6;55 lb5 L[15 J15 uiu t135 521 zSz yN COMPOSITE SAMPLE RESET# c7 CALCULATI% DISH WGT WET•SAMPLE+DISH DRIEOSAMPLE+DIShJ GRAMS GRAMS GRAMS GRAMS 0 3, 931 f wu- j eD WGT. 3RD WGT. - %TOTALSOLIDS DISH WGT WETSAMPLE+DISH DRIEDSAMPLE+DISH GRAMS GRAMS GRAMS' GRAMS e WGT. ZND WGt. 3RD WGT. S. i1 X 100 '_ %TOTAL SOLIDS jr (DRIED SAMPLE+DISH - DISH WGT.J X100�., "� WETSAMPLE+DISH - DISH SGTY.� - "TOTAL SOLIDS ALARMS OR COMMENTS - /w < �e P U rO Y >°S `r` tY a✓ N e / a 12/12/17JH °' ( c TWSA DRYER OPERATIONS DAILY RECORD . DATE START STOP TOTAL RUN TIME, HRS ' P DRYER BATCH p FILL CYCLE START @ ! DRY CYCLE STARTED @ = D DISCHARGE CYCLE STARTED TPA110 PR ATI ID PC OP TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAPIBER • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. • v )S2 31.E •390 Aq 135 C 9 :3D 1 ba o q,5 a a a e4 10 f4q 3b !0 444 )4 331 a a l(=1U SIP j�o LF`t3 4J46 3- all?. E►Q l H� . )4DIS 171 J-'F5 Ltj a 3 0�U 2NO DRYER BATCH , FILL CYCLE START @_ 1(a DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY, TIMER CHAMBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. (a .a� 30 D Boa 1Ip 17� E 16 16q a &'v 1446 g31P '33)-j V D llc d 3U ©D S �3� 333 Q; / 3• 334 2,5 9 8z g�v q4, A7. Ab 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ 3 c DRY CYCLE STARTED @ i '�b DISCHARGE CYCLE STARTED @ TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN • CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 4-L6 171 Z ��3 3 �r 17Z . 'Ty ;r6 iV) Zg•N � o �13Lf �I ►6 3Z6 zz z 3-�y b:v� I5 357- E55 ;�6 (S7 37S i 0 L136 7, Li6 6 2� Zc)U �(`{5 K� ( 33v zro ik] COMPOSITE SAMPLE p//L,60 �r RESET# CALCULATION DISH WGT GRAMS WET•SAMPLE+DISH GRAMS . DRIED•SAMPLE+DISH. GRAMS GRAMS 10471 7 -7 J frWGT. fi).30-236 2ND WGT. Q 3 e% ( ri • 3RD WGi . C 9,D.353 XiDo gal q9D 10 0 .7971 04-77 = (:, 7a'1t %TOTALSOLIDS 9Lk9 DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS' GRAMS 1�T WGT. S. eD WGT. 3RD WGT %TOTAL SOLIDS (DRIED SAMPLE + DISH - DISH WGT.) X100 WET SAMPLE + DISH - DISH SGT. '=%TOTALSOUDS ALARMS OR COMMENTS - H• 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD . DATE 1! /-11)—a c START STOP TOTAL RUN TIME, HRS P DRYER BATCH FILL CYCLE START @ I J _ DRY CYCLE STARTED @ f DISCHARGE CYCLE STARTED @ DISCHARGE DRY vnu CHAMBER r CHAMBER ROTOR ROTOR PRODUCT TIMER • IN OUT IN OUT O.I. ff6i,31 37;5 434 333 Asa E� - 14 a4(e E 2ND DRYER BATCH FILL CYCLE START @JD, A DRY CYCLE STARTED @ /o -sit DISCHARGE CYCLE STARTED @_ -� O.- TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. 13 3 98 3/3 z/ E 4/f 'V,3 RZS a=3 isg 3tD Z11 43 333 ass F 1.103. :3'73 iv�r 333 a�: j'�q l�� �ta� gD / 3 �blp All 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ cl• DRY CYCLE STARTED @ X Yt DISCHARGE CYCLE STARTED @ N • fY TFMPFRATURES DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. a: q 3:019 169 aqD q1 b �o - 41`I 4� j4 034llgC O d61 / 3/ ���L137 5z6. 7 SU- COMPOSITE SAMPLE ,r/0 J�L,-) RESET# CALCULATIOD DISH WGT WET•SAMPLE+DISH DRIER•SAMPLE+DISH- GRAMS GRAMS . GRAMS GRAMS v 5,1z51 t� 1 �WGT. �y /�j� ZND WGT. l l , I [�/ 47C7 31 WGT. - 1Gt Y 41 D �.U�p6� _ i�J351 X100 15 t t 51- f, o 1 `E.057� '=%TOTALSOUDS'�d DISH WGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE+ DISH GRAMSGRAMS 1� WGf. S: ZND WGT. 3110 WGT. X 100 '= %TOTAL SOLIDS ,(DRIED SAMPLE+ DISH - DISHWGT.I X100 WETSAMPLE +DISH -DISH SGT. '=%TOTALSOLIDS ALARMSORCOMMENTS- AT r-C6e ' Aea-i en 12/12/17JH r' TWSA DRYER OPERATIONS DAILY RECORD . DATE l - J te -),Q START STOP TOTAL RUN TIME, HRS e' DRYER BATCH j ��, / a FILL CYCLE START @ ( :•A DRY CYCLE STARTED @L2L)IO DISCHARGE CYCLE STARTED @ ' TCnnoeonTll�Ge �L • TIME DISCHARGE -EXHAUST EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. g;fb 0 :Za q:oo il V 36S 100 I-'4.5 439' a � /S,� pig If D liq,5 Q b 33,6 I 17 Y4 441 33 a a3� E 2ND DRYER BATCH FILL CYCLE START @ lb :38 DRY CYCLE STARTED @ i g DISCHARGE CYCLE STARTED @ - b TEMPERATURES °F I s I I TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. M 163 ' a�7 U 1b 39q, !7D 1 ,5q • - 36 1 SO LIM ' E3 a ' 33 a L $ W 4q JS3 30 ? Q 114,:r 437 33 sG EJ 15b JP4 43 3 r a 7 c r ) a L14L 43 331 �5 I � ' I 12/12/17JH r 1. I VVJH vn. Cn vr[a..,...,..+ DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ a. 1 i DRY CYCLE STARTED @ I DISCHARGE CYCLE STARTED IM TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. Al 394 3 t t 1 G a2L lU Q6 L 3� 33z lq2 s � V. zy 151 !b0 L(qt(. y 330 Z.Sy SI-F 53t 157 . -575 15a Ky6 L( 357 z`!d • ,;xi 5A5 �b `lL/-7 L 31 . 33(. 259 'Ty COMPOSITE SAMPLE RESET# CALCULATION DISH WGT GRAMS WET•SAMPLE+DISH GRAMS DRIED•SAMPLE+DISLI- GRAMS GRAMS 17w(m 16, s a ZND WET /1O, u59.;k3 3RD WGi '=%TOTALSOUD DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE+DISH GRAMS' GRAMS e WGT. S: ZND WGf. 3RD .T. X 10D '=%TOTAL SOLIDS (DRIED SAMPLE+DISH -DISH WGL) x100 WETSAMPLE+DISH -DISHSGT. '=%TOTALSOUDS ALARMS OR COMMENTS - a-* 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD . DATE-1 t ` 17 - A o START STOP TOTAL RUN TIME, HRS e' DRYER BATCH FILL CYCLE START @ 6 •5q DRY CYCLE STARTED @ 7 a 9 DISCHARGE CYCLE STARTED TEMPERATURES OF DISCHARGE DISCHARGE DRY CHANBER CHAMBER ROTOR ROTOR TIME EXHAUST PRODUCT TIMER • IN OUT IN OUT © • 305 _ 35 R 53 I sv •30 D -:,r)q _ q /sod. 3 Jsb . Boa 1$1 2ND DRYER BATCH • / - -1 FILL CYCLE START @ l o `�. � ' ll 'J DRY CYCLE STARTED @ I T' DISCHARGE CYCLE STARTED @ oL . 1S TDISCHARGE TIIML goa a:5* �� l5 lea DISCHARGE PRODUCT a pia TEMPERATURES DRY TIMER �a -'/00 M CHANBER IN R3 �� J4 Lf,333 M- 4A °F CHAMBER OUT R 3 3i�a ALL ROTOR IN A ROTOR OUT 170 /0 a 0.1. 0.1. L• 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RO DRYER BATCH 2 I J�1S FILL CYCLE START @ c ' P DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN • CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 23;50 5 22 9 9 5:3D 153 --Z>-7k ISO 2b 33Z 2°I 'T1d- •IS IS-1 410 1c�5 L(Llb L)ub 331 Z56 -fN COMPOSITE SAMPLE GI� 1-71R RESET# CALCULATIOI` DISH WGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE+DISH GRAMS' GRAMS 1T WGT. S: 2N0 WGI'. 3" WGT. DISH WGT GRAMS WETSAMPLE+DISH GRAMS DRIER•SAMPLE+DISK GRAMS GRAMS a �3 12•I`(61 1�`WGT. 2ND WGT 3ftD WGT. - C , _ x10o ( i. jq i, _ v �� '_ %TOTAL SOLI Sli X 100 '=%TOTAL SOLIDS (DRIED SAMPLE + DISH - DISH WGT.1 x100 WET SAMPLE+DISH- DISHSGT. '=%TOTALSOUDS ALARMS OR COMMENTS _ e e 12/17/17JH i TWSA DRYER OPERATIONS DAILY RECORD. DATE / C •- rlg'-d! L START STOP TOTAL RUNTIME, HRS ' L (R 37 p 0 e' DRYER BATCH / FILL CYCLE START DRY CYCLE STARTED @ '.) DISCHARGE CYCLE STARTED @ I TFfMDCDATIIO Cc Dc • TIME DISCHARGE EXHAUST DISCHARGE4DRYCHA:NBER PRODUCT CHAMBER OUT ROTORROTOR IN OUT O.I. sq a�`�3 s. a 3 e g'• 5� 3 c'3 .100 4 y& 37 !3 a *45 43 to e ll 2ND DRYER BATCH FILL CYCLE START @A DRY CYCLE STARTED @ l l b DISCHARGE CYCLE STARTED TGn Anon n Tl m1P 01 ' TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 9A9. 13 39 3o 48 e 1:3a Al - 3Di SO 48 1f310 331 a63 a� X 'S 14o 4tS 1 "f3$ 331 E 37 S /96 4ji G 436 33 a a47 'f24 4J45 44X 331 frog � 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH 11 FILL CYCLE START @ d '3b DRY CYCLE STARTED @ 3! Jf DISCHARGE CYCLE STARTED @ TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN • CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3.05 167 2ctD Q Lloll 3v6 307 170 3156 6? 9 qz6 3Z6 zf* 5 154 1 45 u-5K 3Do 25S !� 5-�5 1.57 32 o � qb q_ 33 zy 3ra. h lst f S L13s' y o 3a.5 25 �// COMPOSITE SAMPLE RESET # CALCULATION DISH WGT GRAMS WETSAMPLE+DISH GRAMS _ DRIED•SAMPLE+DISH- . GRAMS GRAMS �i 1r WGf 2ND WGI 3 . 3RD WG1: - _13 `d4,/2-7 —/•uy9y /./14 8403 xlon (•�{� 3 ¢2 �a -! 0 i �5` i l3� 3�`fg '=%TOTALSOLIDS Iy DISHWGT GRAMS WET SAMPLE+DISH GRAMS DRIED SAMPLE +DISH GRAMS GRAMS e WGi. S: el WGT. 3RD WGT. ALARMS OR COMMENTS _ 12/12/17JH X 100 %TOTAL SOLIDS_ (DRIED SAMPLE + DISH - DISH WGT.) X1OD ,IWETSAMPLE+DISH-DISH/,(SS�GT. '=%TOTALSOLIDS i� A,A4-L/I m P.Qw_'f At,,'N. n_/L C L. 9-7 0 TWSA DRYER OPERATIONS ®� DAILY RECORD - DATE START STOP TOTAL RUN TIME, HRS f'DRYER BATCH FILL CYCLE START 'DRY CYCLE STARTED @ �' f`� DISCHARGE CYCLE STARTED @ TFMPFRATLIRFS F _ TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY `' . TIMER CHANBER. • IN . CHAMBER OUT ROTOR IN ROTOR OUT 0.1. g'•�'f Liao �R l 3q'7 3 a97 G v� •10 4• 3 L131 / !7 q 5�f 159 3 i3 16 44 5' l ".�..: 39 ' - 33 0 l �• . hill 3,8v 1.0 1443 V,3 331 a g. tlD 44S 141f l '330 aSa 2N' DRYER BATCH FILL CYCLE START @ / l : z9 DRY CYCLE STARTED @ l b DISCHARGE GYCLE STARTED @ 5 TEMPFRATLIRFS OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. 2 =_ b 3 SO 23 ED I5R 313 -`b0 JA13 113E a3a 1715' 661 2�:30 1-0 371 ISb 414,E q3`7 .33A ail ev 3•,(5 tj�. �fZ7 IR5 gL15 yql 3 L J 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ 3S DRY CYCLE STARTED @ Ott DISCHARGE CYCLE STARTED @ lS TEMPERATURES a .4 TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN • CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. �!OD t lob 2.Rrl D L(o4 38(p 30 4v� oo so Lpn L-Lz-t -624�8 B13 oo (4-(4 (438 332-- z.5,S hxJ 3 2- 7�Etz. 3 3? 1z,5 g COMPOSITE SAMPLE RESET# CALCULATIOI` DISH WGT GRAMS WET-SAMPLE+DISH GRAMS DRIED•SAMPLE+DISH- . GRAMS GRAMS u 22.'128 Z. frWG. aia.3a'v eD WGT. 6,3) `d Bll wa I g —1- b53S= X10D - g7a14s�q as •�a ga '=%TOTALSOLIDS a /p DISHWGT WETSAMPLE+DISH DRIED SAMPLE+DISH GRAMS GRAMS GRAMS' GRAMS 1�WGI. 2" WGT 31D WGf. S: ALARMS OR COMMENTS - Y• 12/12/17JH X 1DD %TOTAL SOLIDS _ (DRIED SAMPLE + DISH - DISH WGT 1 X100 WET SAMPLE + DISH - DISH SGT. '=%TOTALSOLIDS (n�Tv11 Yt~Sis Ki NrYI L' _ 41S�3o� C TWSA DRYER OPERATIONS DAILY RECORD - DATE_ //'023 - -Z O START STOP TOTAL ® RUN TIME, HRS ' (O : q 7 e' DRYER BATCH FILL CYCLE START @ Q DRY CYCLE STARTED @L�� DISCHARGE CYCLE STARTED @ D 3 B TEMPERATURES'OF I I I I I I I TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANGER • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. a,a 6v 431 20- 7 e lib 3/1 .lba 4ys Am 8 cD . a 31 - <' _ lv,n'f_ 378-' 15b Y-1 b 437 33 1 a 8- c -(QG IS • )41 19S 'LlLi7 I q4a 1 33 r7 I asL a • I 2NO DRYER BATCH 2 FILL CYCLE START DRY CYCLE STARTED @ Z 1 • d,3 DISCHARGE CYCLE STARTED @ cJ3 I TEMPERATURES OF I I I I TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. -3©D 3 7D,.T- 4 a8 JlP ° 75 C- Q 3 J,5A 314 •yb•D 41f5 q3-7 3 dq ay :S3 3 8 W 444? 1331 aSO E A *33 ) .67 D I8 )414 -'-IL4 3,32 a6tR 12/12/17JH TW5A URYER UFLKAl wrva DAILY RECORD 3RD DRYER BATCH FILL CYCLE START (Ra` 3 DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TEMPERATURES a TIME DISCHARGEED EXHAUST DRY TIMER CHAMBER IN • CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3.15 � 6 l r� too 3C)K r7 qy 'f22' 3Z�s I Sl! 3!H 5? 37q LlY6 �136 3� zfs • 3 .58 LI13 /!j .5 W o COMPOSITE SAMPLE RESET # CALCULATION DISH WGT GRAAMS WETSAMPLE+DISH GRAMS DRIER•SAMPLE+DISH- GRAMS) '. GRAMS 2N0 WGT 3R0 WGT - •;, (n3rf/-1.0X100 zlJl1L5 0S6 (P (/� �(57 %TOTALSOLIDS q3 S,?a DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE+ DISH GRAMS' GRAMS 1� WGf. S: 2ND wa. 3RD WGr. X10D '=%TOTALSOLIDS (DRIED SAMPLE+ DISH - DISH WGT.1_ x 100 WETSAMPLE +DISH -DISH SGT. '=%TOTALSOLIDS ALARMS OR COMMENTS - 12/12/17JH C- II ' 1 TWSA DRYER OPERATIONS j . - DAILY RECORD. DATE aL O START STOP TOTAL RUN TIME, HRS V' DRYER BATCH y j � FILL CYCLE START @ ! °� DRY CYCLE STARTED @ 7• -7 V DISCHARGE CYCLE STARTED @ / b s� TEMPERATURES OF I 1 I I 1 1 I. I' TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. -7,Lf -3 D - Sqs 3� a 153 e :33 9 SO 12 l.5 3 1 tT e'• q a lS to 3 bb k14 3 4 3' 3 P9 . t• P, w16 55 3434 isb q4E '431,o 331 aqq, c _ lD:ys •Sli . )-fo /T? qq,5 )474 l 336 aSo, 2ND DRYER BATCH ) l FILL CYCLE START@ l/'Ds �� I DRY CYCLE STARTED @ s DISCHARGE CYCLE STARTED @ � • ,3 g TEMPERATURES OF I I r I I I 12/12/17JH I TIME DISCHARGE EXHAUST DISCHARGEEDRYCHANBER PRODUCT IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. 603s 2 :�aa �� 3 31 a lloq•I'(e 3a 21q& 1 *37 391 9262) 0) 1:15 lsa .313 q47 43 331 asv. Lc a : ON 17 6 /S_0 44 q3 47 33 1 a �h 60 d .3� ► 7a � -5 IS-3 1f'f3 471, -330 aG,3 TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH rr�� FILL CYCLE START @ .2 DRY CYCLE STARTED @ 3' Z3 DISCHARGE CYCLE STARTED @ TEMPERATURES DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. 3=Z3 29 d Z _W3 y sk LI' 13 ILOaQ cl SE) 33 03 15( 3I o a Ll4b Hag �31 zsz spa 3 IS 34sZ /Sa uqi 37 o ZY7 j2r]r( [7I 1K 115 COMPOSITE SAMPLE " 01XD RESET# CALCULATI% DISHWGT GRAMS WET•SAMPLE+DISH GRAMS . DRIER•SAMPLE+DISH- . GRAMS GRAMS 7b1 6.3�Sq f WGT. /5, 3a—• PDWGT. IS-,J3 "I9 eD WGi 5-5'71—/,D7o(=• /c/.`1���' x10o ( 3 — l 07G/ = J5i 945Y '=%TOTALSOLIDS�% DISHWGT WETSAMPLE+DISH DRIED SAMPLE+DISH GRAMS GRAMS GRAMS- GRAMS 1�T WGr. eD WGT 3RDWGT S: X SOD %TOTAL SOUDS — (DRIED SAMPLE + DISH - DISH WGTJ x100 WET SAMPLE + DISH - DISH SGT. '=%TOTALSOLIDS ALARMS OR COMMENTS - i. 12/12/17JH w TWSA DRYER OPERATIONS \• DAILY RECORD. DATE /" c START STOP TOTAL RUN TIME, HRS ' L to e' DRYER BATCH -1 FIM CYCLE START @ • 3S DRY CYCLE STARTED @ 1 , © 7 DISCHARGE CYCLE STARTED @ v - I `i TFAAPFRATIIRFC or TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. q �7�. aq 1 °57 . sly - 3O 4a4 1? /75 e • ��37 IStS 3�D Iva �f�.i �3�e 3a9 a3a. � /b i►{. /3 � . 41/o f cllP iq 44/0 3 2R 26-3 2ND DRYER BATCH 4Z) FILL CYCLE START @ ` DRY CYCLE STARTED @ 1 d 53 DISCHARGE CYCLE STARTED @ SS TGUMMATI IRCC oC DISCHARGE DISCHARGE DRY CHANBER CHAMBER ROTOR ROTOR TIME EXHAUST PRODUCT TIMER IN OUT IN OUT '0.1. l b /fib - �� 2, (� ��p . 401 309 06 5 19 11-43 5v 1441,� JZ3s Z3a6 ol2l i2.33 A9 31.E lbo ggjl �(-34 3a7 as• E ;d,5 1.5Q 3 9R ! Sb 414a #3 a$ 25d E0 �Fa`f e0 L 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ a' 63 DRY CYCLE STARTED @ a :•3-� DISCHARGE CYCLE STARTED TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. a:35 I&0 XS& b -4G8' 404 310 . 71 eo 3,X 5 _�po SD qqb 5 3z5y 2(d J# W5 / DO kK 3 3?19 Z5S .7u 5.05 32r5 ) 6 0 443 TW' 3zr zsz• su 5:y0 J-73 TM IT qqL L(l(t 3201 . 265 JN COMPOSITE SAMPLE RESET# CALCULATION DISH WGT GRAMS I WETSAMPLE+DISH I GRAMS DRIER•SAMPLE+DISH- GRAMS GRAMS OJraL3 I A6023 4b frwG. .// - Q 2NDWGf lelJ- 1 [T: - 3RD WGT. 9b — /� 05a 3 = f3, A7 x 1oo i 975`7el 0a,3 /, os-13 • _ 13, 75' '=%TOTAL SOLIDS _°% DISHWGT WETSAMPLE+DISH DRIED SAMPLE+DISH GRAMS GRAMS GRAMS' GRAMS 1� WGT. 2N0 WGT 3RD WGT. S: X 1DD '=%TOTALSOLIDs (DRIED SAMPLE+DISH -DISH WGT.I x100 ►y WETSAMPLE+DISH - DISH �Sj,GT. '=%TOTALSOLIDS M� ALARMS OR COMMENTS - T 5+e ,n+ 1A p Y'e s ��' 'vxn er 12/12/17JF1 TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL RUN TIME,HRS' (Q :a(B / S:nj'16• / `1..Vl. I e' DRYER BATCH FILL CYCLE START @L .3 6 DRY CYCLE STARTED @- 7 03 DISCHARGE CYCLE STARTED @ l d l rraADCD Art ID CC OC DISCHARGE DISCHARGE CHAMBER ROTOR ROTOR TIME EXHAUST PRODUCT ,T KCHANIIER. OUT IN OUT O.I. ?��5 5°c a78 38 Jt36 a al ?e45 ISD 314 1611 4t*ff 439 3a9. asp e _ q=3 y3l J7l /5b IN4 43s 3a7 61. 4b5 4q5 446 3a& asl 2ND DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED DISCHARGE CYCLE STARTED @ 1 53 TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. a$a D l�o 30� 167 1= 0 3�3 .fib qq �Z #37 326 aa7 <,O 39 1,56 31 •- •D 424L 4 3 33b 25 c-,D f4� :57 37 %50 0Q, 4AtS 4ql� )/310 / 33( 33 .2- �b3 6' ig FO 12/12/17JH I VVJH URI rR UraR 11vl•bm DAILY RECORD 3RD DRYER BATCH -1 FILL CYCLE START @ of : 03 _ DRY CYCLE STARTED @ a 03 DISCHARGE CYCLE STARTED @ TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN • CHAMBER, OUT ROTOR IN ROTOR OUT 0.1. 31a • ya ell 3 :2-3 65 66 SO L(K-7 4 G 333 20 ( 3- :13 ISz 3-;5-1 l6o 4q.5 `fn5�7 331 zs SU S:o ISM'b76 150 '4y5 331 z - 5:3t 175 L1Zu 5. '{K 4Ll 33 . 26f( sr� COMPOSITE SAMPLE RESET# CALCULATION DISH WGT GRAMS WETSAMPLE+DISH GRAMS DRIED-SAMPLE+DISH- . GRAMS GRAMS z�I.V155 frwGT. PDWGT. � ,0 7c2� 311 wGi. - 1,1,6a-y =' lsoln3 X100 o g.d5795"j 1 S • I S� —( U r 1 Li. D5 '=%TOTALSOUDS 49a Del HWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE+DISH GRAMS' GRAMS 1�T WGT. S: el) WGT 3RD WGF. 10D '_ %TOTAL SOLIDS (DRIED SAMPLE + DISH - DISH WGT. 1 X100 ,�Iy^ `Si" WET SAMPLE + DISH - DISK SGT. '=%TOTALSOLIDS ALARMS OR COMMENTS- J 4r*f:k.Q rega- urnor 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD . - DATE_ I ' `J -o'o START STOP TOTAL RUN TIME, HRS 15C DRYER BATCH rr FILL CYCLE START @ lD DRY CYCLE STARTED @jjjS DISCHARGE CYCLE STARTED @ TROWMAT11DCc DC DISCHARGE DISCHARGE DRY CHANBER CHAMBER ROTOR ROTOR TIME EXHAUST PRODUCT TIMER • IN OUT IN OUT O.I. 393 7 as 3a E� bg . 5 a3 6V .49 3 al 5-5 Is 1 31 b 100 J-+14 'Jag a5o' 3gG J5T `16 q 36 330 a �. E q4h J4qt 3a9 asl 2ND DRYER BATCH FILL CYCLE START @ 1S'.'Ja DRY CYCLE STARTED @ 0 `7` DISCHARGE CYCLE STARTED T6nnDPDATnDcc DC DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT O�UyTT ROTOR IN ROTOR 1TIME 1 � 1 j3 V �+ ^` V I /ryv % �OUT �70.1. il:sa a • 3bq 5D W7 4136 a (0 CIO 2 < D all • •!P'b q,43 4 3 8 S05 C2 5 7 ICA �3 l.•s4 3 & JO 4qs 4.3/p -3z9 a.s•f e0 :aa 1116 434 abD 4q5 4if aL 3 ag 12/12/17JH tI TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @A - 3a DRY CYCLE STARTED @2 W, DISCHARGE CYCLE STARTED @ TEMPERATURES °F TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER, OUT ROTOR IN ROTOR OUT 0.1. 3G a Ia B 1 i7 5� 73 3:5� 46z z jo 4Ko 0 3z�t a s14 Z 1��G 35 JPO 4q6 7 '5z� Zs8' S<.-f 5 3Z �63 W-0 o tiq 1,I3 3?,e 257 6: l-7 1133 a 'NOL[y2 COMPOSITE SAMPLE RESET# CALCULATION DISH WGT GRAMS WET•SAMPLE+DISH GRAMS. _ DRIED•SAMPLE+DISH• • GRAMS. GRAMS c6v 1�.32z� 1rWGT. J o • - e' WGT. 3RD WGT. - 101 X100 , 9Y3sa�`r 'a, 06001.- I ai 10t '=%TOTAL SOLIDS 9`lIL[ DISH WGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE+DISH GRAMS GRAMS 1T WGf. S. 2W WGl- 3RD WGT X 100 '_ %TOTAL SOLIDS _ (DRIED SAMPLE + DISH -DISH-WGT.) X100 WET SAMPLE + DISH - DISH SGT. '=%TOTALSOUDS ALARMS OR COMMENTS - A r gtge fi u r e6is Y- UP lom im 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD . DATE START STOP TOTAL RUN TIME, HRS ' ;3�j p�'•�7 15'DRYERBATCH FILL CYCLE START @ (DT DRY CYCLE STARTED @ 7 �� DISCHARGE CYCLE STARTED @ TEMPFRATIIRFS IF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER • IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. T)ff 3 T7 379 .2,97 Ao S ; bq bb 50 437 4 � A'f ! S S � g : ) S 5 313 00 4,05 14-3 S • aS 53 cY/ )5 Af45 2ND DRYER BATCH / FILL CYCLE START DRY CYCLE STARTED @ � Or,S`� DISCHARGE CYCLE STARTED @ `�5 TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. © qfb 314 3b6 (0g c19 3 b a 5b It 46 -47 /bad �3� �... 5AS .I.S) a .20 i7a -44✓ 13 3 'f3 IrO Z. 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RR DRYER BATCH -J FILL CYCLE START @ DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TEMPERATURES OF CHANBER COMPOSITE SAMPLE 1�/gF• `h � CALCULATION DISH WGT GRAMS WET•SAMPLE+DISH GRAMS DRIED•SAMPLE+DISH- GRAMS GRAMS 1�WGT. eD WGT. /C y v 6 " 3ftD WGT. . l lal%/Vi /[^r 9SI 5s-- l r 06•S`, = /,8$83 x100 , ( �. • .3 '8v - / c� 5:a- /h 3:kag '=%TOTALSOUDS 3%0 DISHWGT GRAMS WET SAMPLE+DISH GRAMS DRIED SAMPLE+DISH GRAMS' GRAMS S: e" WGT 3Ro WGT. /.5Lt - 1,U(4,91 = / X100 , d137(aYfrZ c� l r e"PRI '=%TOTALSOLIDS <v (DRIED AM) PLE+DISH-DISHWGT.) X100 WET SAMPLE + DISH - DISK SGT. '=%TOTAL SOLIDS ALARMS OR COMMENTS - 12/12/17JH u TWSA DRYER OPERATIONS DAILY RECORD - DATE_ `A 6 START STOP TOTAL RUN TIME, HRS I P DRYER BATCH II - y FILt CYCLE START @ 4 I DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED I • TFMPFRATIIRFS OF 0 7 TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER • IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. 3t f 3• 1. :t Isq 3 a3 0 14 alq �v 11 3 a,� 1 a'D6 110 317 4LI H•3B ••3q � 1150 11 Lf:� - 3L ZO5 Llvz. Llgb 33-7 Zs-r �N 2NO DRYER BATCH FILL CYCLE START @ 3 SS DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ 7' Sf TFMPFRATURFS OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. �l' lbb Z�l ,6-( �5oz z� 6� 6 D 44b LI36 SLII )qs 10 153 305 - •! 6 0 -Iqb �436 3% V=LXD' 1�1 -67-7 )50 y _ 1I36 3110 z-1 7.'s5' 161 'lls 105 LIKo `I''I0 335 259 lull L 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ TEMPERATURES °F Now= 'No COMPOSITE SAMPLE RESET# CALCULATIOI\ DISHWGT WETSAMPLE+DISH . DRIE4•SAMPLE+DISH- GRAMS GRAMS . GRAMS GRAMS l.0)31 15.�►6. 1�TWGT. l o .68 2ND WGT I . . 3RD WGT. - n 199m X1Oo [ 5a 1 (o5 — (. 0-737 rq;1Y3y '=%TOTALSOLIDS DISHWGT GRAMS WET SAMPLE +DISH GRAMS DRIED SAMPLE+DISH GRAMS' GRAMS e WGT. S: 2ND WGT. 13RD WG. X 100 %TOTAL SOLIDS (DRIED SAMPLE + DISH - DISH WGT.)_ X100 ee WETSAN PLE+DISH-DISHS '=%TOTALSOLIDS ALARMS OR COMMENTS - � J U j- L( e e±le , a c I- 12/12/17JH I TWSA DRYER OPERATIONS DAILY RECORD . DATE—) — / a ' CIO � START STOP TOTAL RUN TIME, HRS ' I_ H •. DRYER BATCH FILL CYCLE START (M 1 a� DRY CYCLE STARTED DISCHARGE CYCLE STARTED @ �o�= 3 i . TFMPFRA n IRFC DF • TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY . TIME CHAMBER - IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. q 63 b- 466 381. 3! a 158 E 3)3 ./DD qq7 LI3s 3 6. s a L31 l -379 !3 0 14q,5 436 3,qs a.Sa 0-153 s . 3� 9 44 & 444 6 &4L7 �i[02-Dfl 2ND DRYER BATCH ' FILL CYCLE START @ `ll ' DRY CYCLE STARTED @ 3 DISCHARGE CYCLE STARTED @, TFMPFRATURFS DF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHAMBER IN CHAMBER OUT ROTOR IN ROTOR OUT- 0.1. l p33 (c3 -303 a 413 3q 9 3 W 123 c X73 15 D • 4-5' 43 7 qy cia :13' 3z1 1©© c4-1 Lf37 64-?' 0(o3 LrW 3-7 L(q 346 255 1W l�53 I1 43�7 aob CR(p 443 3Lf(v Z7- 1-o 12/12/17JH TWSA DRYER OPERATIONS DAILY RECORD 3RD DRYER BATCH FILL CYCLE START @ DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED 0- TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER. OUT ROTOR IN ROTOR OUT 0.1. COMPOSITE SAMPLE RESET# CALCULATI% DISH WGT GRAMS WETSAMPLE+DISH GRAMS _ _ DRIER•SAMPLE+DISH• . GRAMS GRAMS t io(pOq 22 io Z`JS 1�WGT Gi(�. ZaD WGf. a 3RD WGi. - I I I I ;I 1 I I 1 C � � af).99f,2a—/•0(4po9- Ig.Ra.53 X10D a.a. �,a ss--/, v !o o� a t y�y� '=%TOTALSOLIDS 9'd DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE+ DISH GRAMS' GRAMS 17 WGT. S: eD WGT. 3RD WGT ALARMS OR COMMENTS. 12/12/17JH X 10D 1 1 . 1 I . I '=%TOTALSOLIDS 1 (DRIED SAMPLE+ DISH -DISH WG-L R100 1 WETSAMPLE + DISH - DISH SGT. '=%TOTALSOLIDS 5'�GJ� k� f^xSe nksHe/` 1 • i CTWSA DRYER OPERATIONS ' DAILY RECORD - DATE_A -/4'3.0 START STOP TOTAL RUN TIME, HRS V' DRYER BATCH FILL CYCLE START @ >D DRY CYCLE STARTED @ j DISCHARGE CYCLE STARTED @ D ;3 TEMPERATURES OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER - IN CHAMBER OUT ROTOR IN ROTOR OUT 0.1. T30 1 � 3.3 8 3�0 311 167 6 $:a.o 159 3'fD 55 lYto 4[310 34 • 263 146. 9,10 Io 3 n . J60 q&13 2139 1, -3,qS . a5lo -' fo _/0; oo g' z8r �a �46 4 3 � a�4�. e- -- Ib:31 159 - 13 9 /4q 14141) 345 ab G fl 2NO DRYER BATCH J FILLCYCLE START @ Ga DRY CYCLE STARTED @ t DISCHARGE CYCLE STARTED @ TFMPFRAT[lRFS OF TIME DISCHARGE EXHAUST DISCHARGE PRODUCT DRY TIMER CHANBER IN CHAMBER OUT ROTOR IN ROTOR OUT O.I. All • -*2m d • 411 0. Salo 7 il� :e q16 I Lf •344 ad 6 C a•• ).0 1131 b r7 `ff3 q3 2? 3J-18 a52) 1-12if 1 1,57 321 )5° 145 `437 3zfb d,53 e-0 fl7 - L436 l$ 44S 441 3 q 7 z7I. I - L Z 12/12/17JH TW5A DRYER UPERAI IUIVJ DAILY RECORD _ I ' 1 3RD DRYER BATCH of '!$. _ DRY CYCLE STARTED @ DISCHARGE CYCLE STARTED @ 1 FILL CYCLE START @ I . I TEMPERATURES °F DISCHARGE EXHAUST COMPOSITE SAMPLE M� RESET# CALCULATIOIN DISH WGT GRAMS WET SAMPLE+DISH GRAMS DRIER•SAMPLE+DISH. .:'GRAMS GRAMS 1,o5a5 1 a3,2iO4 1rwGT. �?-a,� - aNDwGT ���a-o`i S 3RD WGT. . I I I I a 1 �2 d.ae�t� 1'oS�SF al,l5'!3 x100 a 3 19 Toy 05_ �a�a l lQl '=%TOTALSOLIDS- DISHWGT GRAMS WETSAMPLE+DISH GRAMS DRIED SAMPLE+DISH GRAMS' GRAMS 17 WGT. S: 2ND WGf 3RD WGT X 100 '=%TOTAL SOLIDS (DRIED SAMPLE + DISH - DISH WGT.1 x100 WET SAMPLE + DISH - DISH SGT. '=%TOTALSOLIDS s -,rn qLura U r 1 - 12/12/17.1H 1� (fl Annual Belt Press Record TWSA Annual Residual Operation Totals 2020 - Sludge Hauled to Landfill or Farm SLUDGE FEED Polymer Usage Press Run Time Dryer Run Time avg % Solids Total Gallons Total Dry Ton avg Ibs/ F 1000 oalls days Hrs avg % Solids Days Loads Hrs Total $/month avg % Solids Total Ton DATE Jan. Yaa>;1. :t�iE�nL� 1.98 9p^np .t ILk:�pI�A.�G 156.221 19RA` J°�ifE.t�..�(sl 12.79 s Ill�i:,114`J,r 2.82 .!f+ .. Ow�a%>Lut,� 1 M a-. hslrarisln�9i 5 ' Sri MEt ��1°581�.9E 49.2 T 011 aCt$.r�i:,kJ .n � lcsu@S:a�'� 18.5 €i€,f6?laM-M 0 iruetx�..~�.g41a1W.��7: till: bl.9edli�?c@;;� 4&f�J°r11�:: ,f�bl9,�Ez?'alf 71.5 ukfrvfs��k54Jf x6,'fl:?S!t1:a i,41''>111e1iE1: Feb. 2.27 144,279 13.31 4.34 4 49.9 17.8 0 93.5 i4Vili ,�b1.-I�.�i Y{ Mar. AlIM'NFITfv i�AS.,�.111�efi� 2.11 a'.. ¢:q4" IllniPl a el�iii 384.222 1_.' .�{,i,��k:,: 33.35 YtllEl.. �,i�Ytk1 2.47 ��]13;'�, i �� iiiret!iiGI51iJt4 13 , Ii13aMt�4a�A 128A fJ:!<ISI� 1 i'}I,'�KIFHf1�k3 17.1 ASh" & °.l�t�� 0 Ip-�1��! �7in9�2 5`S}iF�Ifii��+�IW �i7�dl,i�dkf;�es�ilk EI',dYlfd•iefShM1lt �i�Y3:liaf�Sk4a�5 204.9 du�"�: Y h ai.'11.1'1 E1Z�.it�IR�I�gIR".il A r. 1.82 361,234 27.35 1.77 t`..-1 ;IDNI P.MWI, IDNIT, 1 10 i.:u.0 `sllc�: "�..>} 113.5 Vi.W.'..n,-'o 1�"., �iy:udr:'hr '. ? l �l l l� 1 18.1 .�Fi '4" +ai41v'� A4k 1 0 �:irF'L of :trk:��[FI$ S Y i F".,... .4' e xl9�> Iek61 i,v:P �I k,:�iJll,+'+.i�{ ... � ��[�Iylta6>�$ P[ ,:': �LFty� {��ia'•a!'i 131.4 :3.•x 'rt7�Yi?i. �,i, ti'l� .. )R E�dl2'h �.iLhirc Me „y T , II¢7,'���, 2.12 „R 'MI It:€,h�? M,.I?1 441.516 M. f'r %`:y;+p. tl,�.�'?l�,r�x 39.29 ••n. J,.�e�kcUaa@�d 1.75 I;iyn ikAe��.�S ,qr. >, ,k6�tE�81,vi 8 a -illkt€fa`3.49 112.6 a ;; .<'.� �vs ��h6���Y, - k.?dgGl�;Gft� 17.2 '�a I�r,a,P��3a 10 ,... if:S�lnJ�a��i4 25 ,',r-.`w .n -,':#�It7frkfKu 103.1 r' iPC�k'i it,�x'6i a;a�lf-161k;;�"h 97.7 r.SIX , ilhl, nl'I� 20.5 RAMSy1AKFi[�.. xr I l}. MI. Jun, �f 1Nryp�f1Y.it� INIAf iln,5M 1.76 pp!!""��,µy •SS. J. .A IP.hY1� "O.Iffli 360,247 ��ggxppv,�jj, l�yo}� WIN-Imi tiiref 26.34 say5� :� iixi§f .w m 1.64 yy44uu �(fi�!.Y�• I�CrAi311N11`xl fy�,,pp., 6{{ :�iuV<�'LFI 7 1 Wq�vi"�p5S ,33 SiXailp* 87.4 4 W'. a4}-Ti'T�y�lRa�gl..a.�.{51 YB S ��AkiY'tldFiAV'JiH 18.2 y�1� rC.. �,YD4t' FSYi-,� a L�'I _Nv a p..VY A i ..:fit 'if5,1i1411 �Y! 19 }'}f::.:p �.£ 78.3 8 A'wt}�F ,P.A.: .: aFi:1..i�i Yd; �y Jy,g�'�[�(r.k tUF,�tttllNl 97.6 l :, A, 1 �6. u�'IfA: 48.0 fF (: •{.!f'F I']-n 15. ��KIS£,Ylkl Y ... t t Ih�Si3i/x�Lwk? Y',:'': CV h,�l9tdE� Jul. - I,4 , 91a€r,.�T:4[�`:f 2.12 1" _TUCI J.".EBdwlk ES( 289,587 J. ., tlL'f�. 14�'� 25.50 -. _ V'Ki '$al."Sf�l...6.1 2.75 tfl• if; h..,tli�l,t4 ;> ,1 : "wtd Ilz,Jk?t�l'-dut 6 TF,5 �14$,�',ItY 69.5 Tmom i,.�!r.6t.h�k4 r"..i ;�?9il2�Jxl� 18.9 .r '.. y, �ri<A�.�k,, 6 ..; 5 4¢Gil9dr,2,tli, 17 .. ,+; , �d,fi, �u,, l 64.1 I`��FJ<,F�ct.E� a.'. �„hl�l�Ilff�;L 97.8 M�€kll�tk.>zh; 18.0 tlf 3:1aty t114G.. d1!Ol�ull ;��'j fi,.r ,a. 'd#o��e���� [,:EE .�'v ll,eYl� � Iray... �,.�_Ifv§ ,e�S3 ,>ON( .a.i:� „ �'��f�tto t •. n.. i.. cs�m rt �4.eR134.1,1t7? .,.,r 1Fha.r..RIL� L. i,><'SIT k,%4,ac„t[� r .::. „;cu.r�.,'�'�,: ,•,"_��- Gf�,til3�5u�e17 m�i��iJ a$i'�Ini itA e�l`d 9 r 1S'ai"a�NN�I_�I 35.4 P-,: nll�xf�,�.i�'„ Li C., �ri,.'�13J.�4�,1! 97.2 ilk+tv RE11?1A�k 0.0 Aug. 2.24 131,484 12.26 2.59 3 33.9 19.2 3 a.p�pi1{'Y I IIIVILFi1,ItliiFl[ Se . :a,"I}I9pr'G ,.j«.131i51ai1:�.,. 2.13 y..'y.�yY[?�:II-I'.It{ l:M1f¢CI':..Vt�y 64,476 pp��.'!i•���'�'a'.D°,,pyaL .�tkilSHfl�ys�.t 6.69 'i':R As;VkP .�I:g 2.11 yySm ,2 �11 i�.. 1�1fadnGiAllu,� V[.i,�"r . 1 h�i[dtl�9,�r 2 'pp'�':'•:1. *1N :L$� 16.4 C' `r.4Fi n9 w1x�3PR,Ytl;xlkS ribs qq.�::D :SIS A;i!t�,?Vl, � 19.6 '45b 4. YI. dd,j_I:.Ti.lSi4>, 1 FY.t �ar:.�l3.'i h£r:llfarl'�.ry 3 '.nf-'•I''�°[:.,1F l�.ttldlJrk.;lie 11.6 1C:� 1 F �IA.{,"J4 is�y �Id1:����C�h'Fi 97.2 f. n.q.• �&lu �•ilnl;,r'r,> 0.0 ,hh :,i1A n: In�`i Ii�:.`f �:�.'$� t [il�f���.-I,�'f-ral Oct. 2.28 I,, t}o .'„'i, e�it�i���.l 584,384 d, a@f^,r-r:..nn; Ila�x'.uf+d�h�iK�+ 55.20 TWIT 5yqµ��'3 Ir�Lnp��R#Flfl 2.3 '[:'.. ' . 1 �Itl�� 1f12�.1 Irvm`E'F rgi ,�iixrC�YXr� 15 i'�11yee i',,.:; ,Hiq/N*�''n�at 169.9 ��ii p,AV'."'. y�l i{�.,rt��Ba 111 tl i9..i.lz 1[r$,;� f,3lda�� 17.9 m ., a.tltl1,.n� :iu'Ail1�`$r'YR 14 SS'.a11Lyl}+. "adq IF4�16FI $,c:Lti 40 0"11 s:, T�+^�7 E:1��Cl�Y.idall! 158.3 A. ,,IE airy li:ili�1elirv: ]f#� 5TIT' Ft i ;sail;?I.-.IYP. 95.0 5 bls. In II�"Itif4'A�iHi 21.3 ¢qq eRpps , Nov. 2.32 n'o< ma'-:i-adMf 444,704 42.96 2.61 12 137.6 16.9 7 EZ• I.JFt4:NJi 12 :ITi�l.:L.e�'llll 35 5 4i1�4 FT 11 135.6 �niTY.l'l v(1'di31 �.�i r .d1:N 94.9 �LI licifA,.L11F 44.00 4t.J'�f� i.�lYlll IIVe .Jul. ti ka� .a•Ti „'i. -1 ,2zh,ir�4rt��. Dec. i t 'riT .���,�.,InFE'at 2.11 M'i'o 1'- 1:.,.I�Isnf.6��Ef><'i�il`�'_�@ 236,751 `rz(+ 5 l� 20.93 ;' F 14 ... 2.29 ,ir._,a. , ,5.['t a Ss.. 6 .,:'r.. 67.5 at1 1i:b .'n. , .>•.. r^i 16.7 '.. s- i3 ... 7 ,u,. 17 66.3 93.0 45.00 f:Ih�r�h�SL..t�ij`c� il�l��r�dy611hi Monthly avg. 2.11 299,925 26.25 2.45 1 8 86 18.0 5 21 81.6 96.3 58.2 ytd total 13,599,1051 314.97 1 1 91 1,035.8 1 1 61 165 662.7 ' 698.10 # of days press was run: 91 # of hours press was ran: 1036.8 # of days dryer was run: 61 Avg. # of hours press was run/day: 11.4 Estimated Annual wet ton of dewatered sludge produced: 1,749.0 Total # of hours dryer was ran: 662.7 Avg. # of hours dryer was run/day: 10.7