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Home My WebLink AboutWQ0005763_Annual Report_20170303I ANNUAL SEWAGE SLUDGE REPORT OF TUCKASEIGEE WATER AND SEWER AUTHORITY PLANT # 1-NPDES # NCO039578 (WQ0005763) for the period of January 1, 2016-December 31, 2016 as required by MAR 0',3 1017 �;+�rORMAYID� PR(?DF��lPlG W!T 40 CFR, PART 503 STANDARDS .FOR THE USE OR DISPOSAL OF SEWAGE SLUDGE TASLE OF CONTENTS (1) PERTINENT INFORMATION (2) CERTIFICATION APPENDIX (a) 2016 Distrubution and Marketing summary Parts Aand B (b) 2016 Annual Sludge Production Data (c) Annual Residuals Sampling Summary Form (d) Residuals Sampling Data (e) TCLP Analysis (f) Annual Pathogen and Vector Attraction Reduction Forms (g) Daily Dryer Record ah 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 two 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 sbrysont«7sa(a frontier.com ph. 828-586-9318 Ah , CERTIFICATION REQUIREMENTS PART I - POLLUTANT CONCENTRATIONS PARAMETER Avg_ MAXIMUM Arsenic.....................1.7 mg/kg .................. 2.1 mg/kg Cadmium..................1.1 mg/kg .................... 1.4 mg/kg Copper.....................341 mg/kg ................. 446 mg/kg Lead ........................16.8 mg/kg ................. 22.2 mg/kg Mercury...................0.26 mg/kg ................ 0.48 mg/kg Molybdenum...............4.7 mg/kg .................. 5.1 mg/kg Nickel ......................13.2 mg/kg .................. 14.7 mg/kg Selenium....................5.8 mg/kg ................... 6.6 mg/kg Zinc .........................761 mg/kg .................. 851 mg/kg PART II - PATHOGEN REDUCTION (40 CFR 503.32) X Class A Class B PART III - VECTOR ATTRACTION (40 CFR 503.33) 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 1 _ Option 2 _ Option 3 _ Option 4 Option 5 —Option 6 _ Option 7 X Option 8 Ah PART IV - 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 15th day of February , 2017. tan Bryson, Wastewater Superintendent Appendix A Distribution and Marketing Summary Parts A and B 1 Part 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) Monthl Total 18.74 3.73 0 22.47 February TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 24.58 3.63 0 28.21 March TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 23.71 0 0 23.71 April TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 12.34 .0 0 12.34 May TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 49.13 0 2.10 61.23 June TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 24.39 4.29 0.00 28.68 Est. Total "sludge" produced by all sources for 2016= 242.36 dry tons Appendix A Part A Residual Sources and Volume Sludge Volume Produced Month Source (dry tons July TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 0 0.54 0 0.54 August TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthiv Total 2.80 4.07 2.42 9.29 September TWSA Plant# 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 2.50 0 0 2.50 October TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 28.73 0.26 0 28.99 November TWSA Plant # 1 (5C0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 8.16 0.85 0 9.01 December TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly -Total 23.81 1.40 0.18 25.39 Calculated Total "sludge" dewatered by belt press in 2016= 243.25 dry tons Appendix A TWSA PLANT # 1 ANNUAL DISTRIBUTION AND MARKETING SUMMARY 2016 Part B Recipient Information Est. Volume Month Name Address (wet tons) Intended Use January I Monthly Total 0 FebruaryMonthly Total 0 March I I Monthly Total 0 April Ralph Henry 1372 Old Soco Rd. 414 10 tons Soil Amendment Cherokee NC for shrubbery, Ph: 828-506-4963 landscaping May Bobby Collins 327 Cedar Ridge Rd 5/26 22 tons Soil Amendment Franklin NC 28734 for pasture ph: 828-342-8663 June Bobby Collins 327 Cedar Ridge Rd 5126 22 tons Soil Amendment Franklin NC 28734 for pasture ph: 828-342-8663 Julyl Monthly Total 0 Augustj Monthly Total 0 Septemberl Monthly Total 0 October Monthly Total 0 Novemberl Monthly Total 0 Decemberl Monthly Total 0 Annual Total Tons Distributed to the public= 54 Tons A portion of the residuals produced by the Authority's plants were hauled to the R&B landfill operated by Waste Management Inc. and located at: 610 Frank Bennett Rd., Homer GA 30547. Appendix B Annual Sludge Production Data " D ►It ►. C 2016 SLUDGE PRODUCTION DATA TWSA PLANT # 1 (3.5 mgd plant capacity) NPDES # NCO039578 Sludge dewatered on belt press.................................................................2,545,223 gallons total tons...............................................243.25 tons total metric tons............................................232.3 dry metric tons The following residuals were included in the above totals. TWSA PLANT # 2 (0.5 mgd plant capacity) NPDES # NC0020214 Sludge Hauled to Plant # 1 digestor............................................................. 178,300 gallons totaltons.......................................................................... 18.77 tons total metric tons...............................................................17.02 dry metric tons TWSA PLANT # 3 (0.2 mgd plant capacity) NPDES # NCO063321 Sludge Hauled to Plant # 1 digestor........................................................ 51,500 gallons totaltons......................................................................... 4.7 dry tons total metric tons...............................................................4.26 ,dry metric tons A portion of the sludge that was generated at the Tuckaseigee Water and Sewer Authority facilities during 2016 was hauled by a private contractor to a designated landfill in Georgia. Landfill: R and B Landfill 610 Frank Bennett Rd. Homer, GA 30080 A total of 90.09 tons were hauled to the landfill during 2016. Copies of haul/landfill tickets can be provided if needed. • Appendix C Annual Residuals Sampling Summary Form Aft A,,,,,,al rwSirjudi Sdmplit;y �um'mary'rorrri Permit Number: WQ 0005763 Facility Name: Tuckaseioee Water and Sewer Auth. NPDES # NC 0039578 WWTP Name: TWSA Plant# 1 Sample Date 2/9 5/10 8/2 11/1 11/3 11/4 12/6 12/7 12/12 Avg. Percent Solids 96.6 97.3 95.3 , 98.7 100.0 100.0 98.0 Aluminum 23,400 24,000 24,600 ii 35,200 26,800 P Arsenic 1.7 ✓ 1.7 t4f 1.3 2.1 1.7 A Cadmium 0.92 rd^° 0.99 ii 0.98 r,- 1.4 sa 1.07 R Calcium 6,080 ,/ 8,660 9,300 a 11,800 8,960 A Chromium 15.8 v. 16.6 17.4 22.4 18.1 M Copper 281 320 316 446 6-F 341 E Lead 15.9 14.9 14.3 22.2 16.8 T Magnesium 2,710 ✓ 3,660 r 3,930 3,170 3,368 E Mercury 0.41 ; 0.15 loe 0.48 0.0084 0.262 R Molybdenum 4.7 ,,0' 4.3 V 4.5 , 5.1 4.7 S Nickel 12.6 12.0 13.3 14.7 a o 13.2 h,s.u. 5.5 6.6 6.0 O 6.2 Potassium 3,390 4,580 4,530 3 120 3,905 Selenium 5.3 be 5.3 ram+ 5.8 6.6 5.8, Sodium <386 515 w 735 tom. 658 636 Zinc 640 842 710 r 851 „0 761 TKN 47,200 28 000 54 200 31 100 a. 40,125 mg/ Ammonia -Nitrogen 3,350 2,710 2,760 537 t 2 339 kg Nitrate -Nitrite < 1.9 W < 2.1 < 2.0 < 2.1 Plant Available N 14,900 8,940 V 16,800 9,440 a ® 12,520 Total Phosphorous 15,200 7,740 2,480 14,700� 10,030 Corrosivity 5.5 6.5 V 6.1 6.2 !, Ignitability >200° F a >2000 F V >2000 F toe > 2000 > 2000' SAR sodium adsorption ratio < 1.0 :_ a; 1.2 - 1.6 1.4 1.4 m Reactivity, cyanide < 1.0 ✓ < 1.8 v < 1.0 / <'1.0 < 1.2 m Reactivity, sulfide < 10.3 e < 17.5 v < 10.4 :� ` < 10.1 m n/ Fecal Coliform 207 x < 21 ?,' < 2 �' < 2 >✓ 7800 * 2300 * < 2 ; < 2 < 2 W 24 *All residual associated with fecal coliforms > 1000 mpn/g were retested and shown to be within Class A Parameters, eg. < 1000 mpn/gram/solid. 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 forsubmittingelse informs ' including the possibility of fines and imprisonment for knowing violations." Signature of Preparer t�� Appendix D Residuals Sampling Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: TWSA Dried Residual 2/9 Pace Project No.: 92285816 Dear Mr. Bryson: Enclosed are the analytical results for sample(s) received by,the laboratory on February 09, 2016. The results relate only to the samples included in this report. Results reported herein conform to the most current TNI standards and the laboratory's Quality Assurance Manual, where applicable, unless ____otherwise no#ed to thebody of the report,_ Analyses were performed at the Pace Analytical Services location -indicated on the.sample analyte page.for analysis unless otherwise footnoted. =. --- - If you have any questions concerning this report, please feel free to contact me. - - Sincerely, . Chris Derouen christopher.derouen_@pacelabs.com — - Project Manager :.Enclosures = REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. Pagel of 22 aooAnalytical -..pacelabs cam 1 I ANALYTICAL RESULTS Project: TWSA Dried Residual 2/9 Pace Project No.: 92285816 Pace AnalyticalServices, Inc. 2225 Riverside Dr. Asheville, NC 28804 '(828)254-7176 Sample: TWSA DRIED RESIDUAL Lab ID: 92285816001 Collected: 02/09/16 12:00 Received: 02/09/16 13:40 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: EPA6010 Preparation Method: EPA3050 - Aluminum 23400 mg/kg 38.6 5 02/10/16 19:30 02/12/16 20:20 7429-90-5 Arsenic 1.7 mg/kg 0.77 1 02/10/16 19:30 02/12/16 00:01 7440-38-2 Cadmium 0.92 mg/kg 0.077 1 02/10/16 19:30 02/12/16 00:01 7440-43-9 Calcium 6080 mg/kg 7.7 1 02/10/16 19:30 02/12/16 00:01 7440-70-2 Chromium 15.8 mg/kg 0.39 1 02/10/16 19:30 02/12/16 00:01 7440-47-3 Copper 281 mg/kg 0.39 1 02/10/16 19:30 02/12/16 00:01 7440-50-8 Lead 15.9 mg/kg 0.39 1 02/10/16 19:30 02/12/16 00:01 7439-92-1 Magnesium 2710 mg/kg 7.7 1 02/10/16 19:30 02/12/16 00:01 7439-95-4 Molybdenum 4.7 mg/kg 0.39 1 02/10/16 19:30 02/12/16 00:01 7439-98-7 Nickel P�tassiaPi 12.6 mg/kg 3399 0.39 1 02/10/16 19:30 A 02/12/16 00:01 7440-02-0 Selenium mg+g 5.3 mg/kg 388 0.7.7 11 1 02f Of 16 19.3 02/10/16 19:30 02/12/16 00:01 09= 7782-49-2 Sodium ND mg/kg 386 1 02/10/16 19:30 02/12/16 00:01 7440-23-5 Zinc 640 mg/kg 0.77 1 02/10/16 19:30 02/12/16 00:01, 7440 fib-6 7471 Mercury Analytical Method: EPA7471 Preparation Method: EPA7471 0.41 mg/kg . -.,.. _ _ -0.037` 10 02/16/16 1415 02/16/16 16:19 _... . - 7439-97-6 540G Total Percent Solids Analytical Method: SM 2540G _ Total Solids 96.6 % 0.000010 1 02/10116 09:32 Percent Moisture Analytical Method: ASTM D2974-87 - Percent Moisture 3.4 % 0.10 1 02/11/16 11:43 92210E Fecal Coliform, MPN.RAL Analytical Method: SM9221C E (MPN) 503 u Fecal Coliforms, MPN 207 MPN/g 0.018 1 02/10/16-11:00 1g 9045 pH Soil Analytical Method: EPA 9045 pH at 25 Degrees C 5.5 Std. Units 0.10 1 02/11/16 12:30 Plant Available Nitrogen Analytical Method: SM 2710B Plant Available Nitrogen 14900 mg/kg 0.12 1 02/19/16 17:27 N2 Total Nitrogen Calculation Analytical Method: TKN+NO3+NO2 Calculation Nitrogen -. 42300 mg/kg 40.0 1 02/19/1617:25 7727-37-9 350.1 Ammonia Analytical Method: EPA 350.1 Nitrogen, Ammonia 3350 mg/kg 47.1 5 02/19/16 09:18 - 7664-41-7 351.2 Total Kjeldahl Nitrogen Analytical Method: EPA 351.2 - Nitrogen; Kjeldahl, Total 47200 mg/kg 1780 50 02/l9/16 14:51 7727-37-9 M6 353.2 Nitrogen, NO2/NO3 Analytical Method: EPA353.2 - Nitrogen, Nitrate 108 mg/kg 7.8 4 02/18/16 08:43 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, Date: 02/24/2016 02:11 PM without the written consent of Pace Analytical Services, Inc.. Page 4 of 22 _ ac0Anaty ical �. wss w-labs.com ANALYTICAL RESULTS Project: TWSA Dried Residual 2/9 Pace Project No.: 92285816 Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: TWSA DRIED RESIDUAL Lab ID: 92285816001 Collected: 02/09/16 12:00 Received: 02/09/16 13:40 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 353.2 Nitrogen, NO2/NO3 Analytical Method: EPA353.2 - Nitrogen, Nitrite ND mg/kg 3.9 4 02/18/16 08:43 Nitrogen, NO2 plus NO3 108 mg/kg 7.8 4 02/18/16 08:43 365.1 Phosphorus, Total Analytical Method: EPA 365.1 Phosphorus 15200 mg/kg 575 250 02/11/16 04:07 7723-14-0 Sample: TWSA DRIED RESIDUAL Lab ID: 92285816002 Collected: 02/09/16 12:00 Received: 02/09/16 13:40 Matrix: Solid Results reported on a "dry weight" basis and are alusted for percent moisture, sample size and any dilutions. Parameters Results Units . RPrnrt I imit nE Prepared Anal;4zed r AS Ne Qual Percent Moisture Analytical Method: ASTM D2974-87 Percent Moisture 3.4 % 0.10 1 02/10/16 09:32 1010 Flashpoint,Closed Cup Analytical Method: EPA 1.010 FlaShpoinf _ >200 deg_F r 70.0 1 _ 02/15/16 16:55'. :. b45 pH Soil Analytical Method: EPA 9045 - pH at 25 Degrees C 5.5 Std. Units 0.10- 1 02/11/16 12:30 733C S Reactive Cyanide Analytical Method: SW-846 7.3.3.2 - - ._ Cyanide, Reactive_,.._ _ _ _„___ _ _ _.,_-_. - ND mg/kg 1.0 1 02/11/16 23:33 736S Reactive Sulfide Analytical Method: SW-846 7.3.4.2 Sulfide, Reactive mg/kg — T0:3 - 1 02/11/16 14:50' - Date: 02/24/20.16 02:11 PM r� REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. Page 5. of 22 Pace Analytical Services, Inc. . UCe /� na'�rca J 2225 Riverside Dr. li/`j! f ! r Asheville, NC 28804 wwwpecelabs.com (828)254-7176 May 31, 2016 _.............w. _ ..__.._., - Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: Dried Residual 5/10 Pace Project No.: 92296957 Dear Mr. Bryson: Enclosed are the analytical results for sample(s) received by the laboratory on May 10, 2016. The results relate only to the samples included in this report. Results reported herein conform to the most current TNI standards and the laboratory's Quality Assurance Manual, where applicable, unless otherwise noted in the body of the report. Analyses were performed at the Pace Analytical Services location indicated on the sample analyte - page for analysis unless otherwise footnoted. _ _ Some analyses have been subcontracted outside of the Pace Network:: -The -subcontracted laboratory report has been attached. If you have any questions concerning this report, please feel free to contact me. Sincerely, Chris Derouen christopher.derouen@pacelabs.com Project Manager Enclosures p«Zb:, n REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. Page 1 of 24 axMalytical i www.pacelabs.com ANALYTICAL RESULTS Project: Dried Residual 5/10 Pace Project No.: 92296957 J Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: TWSA DRIED RESIDUAL Lab ID: 92296957001 Collected: 05/10/16 10:30 Received: 05/10/16 12:17 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 6010 Preparation Method: EPA 3050 Aluminum 24000 mg/kg 26.8 5 05/11/1613:30 05/12/1613:47 7429-90-5 Arsenic 1.7 mg/kg 0.54 1 05/1111613:30 05/12/1613:44 7440-38-2 Cadmium 0.99 mg/kg 0.054 1 05/11/1613:30 05/12/1613:44 7440-43-9 Calcium 8660 mg/kg 26.8 5 05/11/1613:30 05/12/1613:47 7440-70-2 Chromium 16.6 mg/kg 0.27 1 05/11/1613:30 05112/1613:44 7440-47-3 Copper 320 mg/kg 0.27 1 05111/1613:30 05/12/1613:44 7440-50-8 Lead 14.9 mg/kg 0.27 1 05/11/1613:30 05/12/1613:44 7439-92-1 Magnesium 3660 mg/kg 5.4 1 05/1111613:30 0511211613:44 7439-95-4 Molybdenum 4.3 mg/kg 0.27 1 05/11/1613:30 05/12/1613:44 7439-98-7 Nickel 12.0 mg/kg 0.27 1 05/11/1618:30 05/12/1613:44 7440-02-0 Selenium 5.3 mg/kg 0.54 1 05/11/1613:30 05/12/1613:44 7782-49-2 Sodium 515 mg/kg 268 1 05/1111613:30 05/12/1613:44 7440-23-5 Zinc 842 mg/kg 2.7 5 05/11/1613:30 05/12/1613:47 7440-66-6 7471 Mercury Analytical Method: EPA7471 Preparation Method: EPA7471 _ - Mercury -"' 54013 Total Percent Solids 0.15 "mg/kg __- Analytical Method: SM 2540G 0.0068 2 05/11/1614:00. 05/12/1611:42 7439-97-6 - - Total Solids 97.3 % 0.000010 1 05/11/16 14:45 Percent Moisture Analytical Method: ASTM D2974-87 - - Percent Moisture _ - 2.7 % 0.10 1 05/12/16 12:42 9045 pH Soil Analytical Method: EPA 9045 -. = --_- - _ - pH at 25 Degrees C--•- - - - 6.6 Std. Units 0.10 1 05/13/16 17:20 H6 Plant Available Nitrogen Analytical Method: SM 2710B - - - - Plant Available Nitrogen 8940 mg/kg 0.12 1 05/18/16 15:56 N2 Total Nitrogen Calculation Analytical Method: TKN+NO3+NO2 Calculation - - Nitrogen 28000 mg/kg 40.0 1 05/18/1615:54 7727-37-9 350.1 Ammonia Analytical -Method: EPA 350.1 - Nitrogen, Ammonia 2710 mg/kg 50.4 5 05/11/16 12:50 7664-41-7 351.2 Total Kjeldahl Nitrogen Analytical Method: EPA 351.2 Nitrogen, Kjeldahl, Total 28000 mg/kg 5140 100 05/13/16 03:49 7727-37-9 353.2 Nitrogen, N021NO3 Analytical Method: EPA 353.2 - Nitrogen, Nitrate ND mg/kg 1.9 1 - 05/12/16 15:23 Nitrogen, Nitrite ND mg/kg 0.96 1 05/12/16 15:23 Nitrogen, NO2 plus NO3 ND mg/kg 1.9 1 05/12/16 15:23 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, Date: 05/31/2016 05:30 PM without the written consent of Pace Analytical Services, Inc.. Page 4 of 24 aceAnalytical / www.pacelabs.com cl Project: Dried Residual 5/10 Pace Project No.: 92296957 ANALYTICAL RESULTS Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: TWSA DRIED RESIDUAL Lab ID: 92296957001 Collected: 05/10/16 10:30 Received: 05/10/16 12:17 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. 365.1 Phosphorus, Total Analytical Method: EPA 365.1 Phosphorus 7740 mg/kg 411 200 05/16/1614:16 7723-14-0 Sample: TWSA DRIED RESIDUAL Lab ID: 92296957002 Collected: 05/10/16 10:30 Received: 05/10/16 12:17 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. Percent Moisture Analytical Method: ASTM D2974-87 Percent Moisture 43.3 % 0.10 1 05/22/16 13:01 1010 Flashpoint,Closed Cup Analytical Method: EPA 1010 Flashpoint >200 deg F 70.0 1 05/23/16 10:02 9045 pH Soil Analytical Method: EPA 9045 pH at 25 Degrees C 6.5 Std. Units 0.10 1 05/13/16 17:20 H6 — 733C S Reactive Cyanide Analytical Method SW-846 7.3.32' Cyanide, Reactive ND mg/kg 1.8 1--- 05/16/16 18:20 735S Reactive Sulfide Analytical Method: SW-846 7.3.4.2 Sulfide, Reactive ND mg/kg 17.5 —1,. 05/16/16 13:30 III Date: 05/31/2016 05:30 PM REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. Qual Qual Page 5 of 24 Analytical Results Pace Analytical -Asheville_ 2225 Riverside Drive Asheville, NC 28804 Receive Date: 05/11/2016 • Reported: 05/31/2016 _- For: 92296957 Comments: r/ Sample Number Parameter Sample ID Result Unit Method Analyzed Analyst 160511-16-01 Fecal Coliforms TWSA Dried <21 MPN/g SM92210E-2006 05/11/2016 WC Residual 160511-16-01 Percent Solids ' TWSA Dried 97.3 : % SM264OB-1997 �iPCll'�IIR� 05/11/2016 WC Respectfully submitted, ~' Dena Myers NC Cert #440, NCDW Cert #37755, EPA #NC00909 PO Box 228 - Statesville, NC 28687 - 704/872/4697 Page 1 of 2 Page 23 of 24 Pace Analytical Services, Inc. ® 2225 Riverside Dr. aceAnalXical Asheville, NC 28804 1 wmparelabs.com (828)254-7176 August 24, 2016 Mr. Stan Bryson Tuckaseigee. Water_& Sewer Co. _ . - - - 1246 West Main Street Sylva, NC 28779 RE: Project: Dried Residual 8/2 Pace Project No.: 92307334 Dear Mr. Bryson: Enclosed are the analytical results,for sample(s) received by the laboratory on August 02, 2016. The results relate only to the samples included in this report. Results reported herein conform to the most current TNI standards and the laboratory's Quality Assurance Manual, where applicable, unless -- otherwise -noted in the, body of the report.-- -- Analyses were performed.at`the Pace Analytical Services location: indicated on the -sample analyte. page for --,analysis- unless otherwise footnoted. Some analyses have been subcontracted outside of the Pace Network. _The -subcontracted_ laboratory report has been attached. If you have any questions concerning this report, please feel free to contact me. - Sincerely, Chris Derouen - christopher.derouen@pacelabs.com Project Manager Enclosures 41 ?, REPORT OF LABORATORYANALYSIs This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. 6p Page 1 of 24 aceAnalytical www.pacelabs.com ANALYTICAL RESULTS Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Project: Dried Residual 8/2 Pace Project No.: 92307334 / I/ Sample: TWA DRIED RESIDUAL Lab ID: 92307334001 Collected: 08/02/16 08:00 Received: 08/02/16 13:50 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 6010 Preparation Method: EPA 3050 Aluminum 24600 mg/kg 47.7 5 08/03/16 21:15 08/04/16 21:32 7429-90-5 Arsenic 1.3 mg/kg 0.95 1 08/03/16 21:15 08/04/16 21:29 7440-38-2 Cadmium 0.98 mg/kg 0.095 1 08/03/16 21:15 08/04/16 21:29 7440-43-9 Calcium 9300 mg/kg 9.5 1 08/03/16 21:15 08/04/16 21:29 7440-70-2 Chromium 17.4 mglkg 0.48 1 08/03/16 21:15 08/04/16 21:29 7440-47-3 Copper 316 mg/kg 0.48 1 08/03/16 21:15 08/04/16 21:29 7440-50-8 Lead 14.3 mg/kg 0.48 1 08103/16 21:15 08/04/16 21:29 7439-92-1 Magnesium 3930 mg/kg 9.5 1 08/03/16 21:15 08/04/16 21:29 7439-95-4 Molybdenum 4.5 mg/kg 0.48 1 08/03/16,21:15 08/04/16 21:29 7439-98-7 Nickel 13.3 mg/kg 0.48 1 08/03/16 21:15 08/04/16 21:29 7440-02-0 Potassium 4530 mg/kg Selenium 5.8 mg/kg 0.95 1 08/03/16 21:15 08/04/16 21:29 7782-49-2 Sodium 735 mg/kg 477 1 08/03/16 21:15 08/04/16 21:29 7440-23-5 Zinc 710 mg/kg 0.95 1 08/03/16 21:15 08/04/16 21:29 7440-66-6 - 7471 Mercury Analytical Method: EPA7471 Preparation Method: EPA7471 Mercury - 0.48 - mg/kg _ = 0.049 -10. 08/04/16 06:28 08/04/16 15:00 7439-97-6 '540G Total Percent Solids Analytical Method: SM 2540G Total Solids 95.3 % 0.000010 1 08/03/16 09:43 Percent Moisture Analytical Method: ASTM D2974-87 - Percent Moisture 4.7 % 0.10 1- - 08/04/16 11:46 - 9045 pH Soil Analytical Method: EPA9045 - pH at 25 Degrees C 6.0 Std. Units 0.10 1 08/11/16 16:00 H1 Plant Available Nitrogen Analytical Method: SM 2710B " ------- - Plant Available Nitrogen 16800 mg/kg 0.12 1 - -.-- 08/12/16 16:42 N2 Total Nitrogen Calculation Analytical Method: TKN+NO3+NO2 Calculation Nitrogen 54200 mg/kg 40.0 1 08/12/1616:39 7727-37-9 350.1 Ammonia Analytical Method: EPA 350.1 1993 Rev 2.0 Nitrogen, Ammonia 2760 mg/kg 48.6 5 08/11/1617:03 7664-41-7 351.2 Total Kjeldahl Nitrogen Analytical Method: EPA 351.2 - Nitrogen, Kjeldahl, Total 54200 mg/kg 4770 100 08/07/16 13:40 7727-37-9 M6. 353.2 Nitrogen, NO2/NO3 Analytical Method: EPA353.2 Nitrogen, Nitrate ND mg/kg 2.1 1 08/05/16 15:30 Nitrogen, Nitrite ND mg/kg 1.0 1 08/05/16 15:30 Nitrogen, NO2 plus NO3 ND mg/kg 2.1 1 08/05/16 15:30 11 Date: 08/24/2016 04:29 PM REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. Page 4 of 24 r aceAnalytical www.pacelabs.com ' ANALYTICAL RESULTS _ _ - ._ _-_ Project: Dried Residual 8/2 Pace Project No.: 92307334 Sample: TWA DRIED RESIDUAL Lab ID: 92307334001 Collected: 08/02/16 08:00 Received: 08/.02/16 13:50 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 365.1 Phosphorus, Total Analytical Method: EPA 365.1 _ Phosphorus 2480 mg/kg 83.9 40 08/05/16 22:46 7723-14-0 Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: TWA DRIED RESIDUAL Lab ID: 92307334002 Collected: 08/02/16 08:00 Received: 08/02/16 13:50 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 4.7 % 0.10 1 08/03/16 09:43 1010 Flashpoint,Closed Cup Analytical Method: EPA 1010 Flashpoint >200 deg F 70.0 .1 08/24/16 08:30 9045 pH Soil Analytical Method: EPA 9045 pH at 25 Degrees C 6 1, -• Std. Units -- 0.10 1- , .; _ 08/11/16 16:00 _ :. H1. 733C S Reactive Cyanide Analytical Method: SW-846 7.3.3.. Cyanide, Reactive ND mg/kg 1.0 1,_ . 08/11/16 22 02 - 735S Reactive Sulfide Analytical Method: SW-846 7.3.4.2 Sulfide, Reactive ND mg/kg 10.4 - 1- ,._ __ 08/11/16 13:30 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, Date: 08/24/2016 04:29 PM without the written consent of Pace Analytical Services, Inc.. Page 5'of 24 , RESiARCh ANALyTiCA[- LAO1RATOR[E5 INC. - For: Pace Analytical-Huntersville = 9800 KinceyAvenue Suite 100 Huntersville, IINC 28078 Attn: Chris Derouen Client Sample ID: Site: Parameter Geri r rr.,.,,, T i i i P.O. Box 473.-106 ShortStrE it-_coa b;isn:_v1d_ Dried Residual -Huntersville Method Report of -Analysis titttttltl��j� �tq NC-434 Z� cn NC 1137701 r Lab Sample.lD: 2U81-01 Collection Date: 8/2/2016 8:00 Result Units Rea Limit Analyst Analysis DaterTime NA = not onolyzed Kernersville..North .Carolina 27284 _ Tel:.336-996-2841 Fax:.336.996.0326 www.randalabs_com Page Page 23 of 24 .117aceMalytical -J www.pacelabs.com November 22, 2016 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: Dried Residual 11/1 Pace Project No.: 92317990 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 November 01, 2016. 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. Some analyses have been subcontracted outside of the Pace Network: -The -subcontracted. - laboratory report has been attached. If you have any questions concerning this report, please feel free to contact -me. Sincerely, - - Chris Derouen christopher.derouen@pacelabs.com Project Manager - Enclosures o REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, LLC. QQ Page 1 of 24 Pace Analytical Services, LLC laceAn ®2225.Riverside Dr. alXicat Asheville, NC 28804 www.pacelabs.com (828)254-7176 1 ANALYTICAL RESULTS Project: Dried Residual 11/1 Pace Project No.: 92317990 Sample: TWSA DRIED RESIDUAL Lab ID: 92317990001 Collected: 11/01/16 09:30 Received: 11/01/16 13:38 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 6010 Preparation Method: EPA 3050 Aluminum 35200 mg/kg 85.8 10 11/02/16 21:30 11/04/16 11:48 7429-90-5 Arsenic 2.1 mg/kg 0.86 1 11/02/16 21:30 11/04/16 11:44 7440-38-2 Cadmium 1.4 mg/kg 0.086 1 11/02/16 21:30 11/04/16 11:44 7440-43-9 Calcium 11800 mg/kg 85.8 10 11/02/16 21:30 11/04/16 11:48 7440-70-2 Chromium 22.4 mg/kg 0.43 1 11/02/16 21:30 11/04/16 11:44 7440-47-3 Copper 446 mg/kg 0.43 1 11/02/16 21:30 11/04/16 11:44 7440-50-8 Lead 22.2 mg/kg 0.43 1 11/02/16 21:30 11/04/16 11:44 7439-92-1 Magnesium 3170 mg/kg 8.6 1 11/02/16 21:30 11/04/16 11:44 7439-95-4 Molybdenum 5.1 mg/kg 0.43 1 11/02/16 21:30 11/04/16 11:44 7439-98-7 Nickel 14.7 mg/kg 0.43 1 11/02/16 21:30 11/04/16 11:44 7440-02-0 Potassium 3120 mglkg - - Selenium 6.6 mg/kg 0.86 1 11/02/16 21:30 11/04/16 11:44 7782-49-2 Sodium 658 mg/kg 429 1 11/02/16 21:30 11/04/16 11:44 7440-23-5 Zinc 851 mg/kg 0.86 1 11/02/16 21:30 11/03/16 20:30 7440-66-6 7471 Mercury --_.Analytical Method: EPA7471 Preparation Method: EPA7471 Mercury 0.0084 mg/kg. ---0.0041 .1 11/02116.23:45 11/03/1613:41._7439-97-6 540G Total Percent Solids Analytical Method: SM 254OG Total Solids 98.7 % 0.000010 1 11/02/16 15:57 Percent Moisture Analytical Method: ASTM D2974-87 Percent Moisture 1.3 % 0.1.0 1 11/03/16 11:52 1010 Flash point,CIosed Cup Analytical Method: EPA 1010 _ - Flashpoint >200 , deg F 70.0 1 11/04/16 09:44__ 9045 pH Soil Analytical Method: EPA 9045 - pH at 25 Degrees C 6.2 Std. Units -0.10 1 11/07/16 13:04 H1 Plant Available Nitrogen Analytical Method: SM 27108 - PlantAvailable Nitrogen 9440 mg/kg 0.12 1 11/16/16 11:07 N2 Total Nitrogen Calculation Analytical- Method: TKN+NO3+NO2 Calculation Nitrogen 31100 mg/kg 40:0 1 11/16/1611:00 7727-37-9 350.1 Ammonia Analytical Method: EPA 350.1 1993 Rev 2.0 Nitrogen, Ammonia 537 mg/kg 9.9 1 11/09/16 02:22 7664-41-7 .. 351.2-Total Kjeldahl Nitrogen - ---Analytical Method: EPA351.2 - _ Nitrogen, Kjeldahl, Total 31100 mg/kg 2410 50 11/15/16 02:01 7727-37-9 M6 353.2 Nitrogen, NO2/NO3 Analytical Method: EPA353.2 Nitrogen, Nitrate ND mg/kg 2.0 1 11/15/16 21:51 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, Date: 11/22/2016 01:30 PM without the written consent of Pace Analytical Services, LLC. Page 4 of 24 0 ff L —.00" Pace Analytical Services, LLC /7 llaceMalytical 2225 Riverside Dr. Asheville, NC 28804 www.parelabs.com -(828)254-7176 ANALYTICAL RESULTS Project: Dried Residual 1111 Pace Project No.: 92317990 Sample: TWSA DRIED RESIDUAL Lab ID: 92317990001 Collected: -11/01/16 09:30 -Received: 11/01/16 13:38 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 353.2 Nitrogen, N021NO3 Analytical Method: EPA 353.2 Nitrogen, Nitrite ND mg/kg 1.0 1 11/15/16 21:51 Nitrogen, NO2 plus NO3 ND mg/kg 2.0 1 11/15/16 21:51 365.1 Phosphorus, Total Analytical Method: EPA 365.1 Phosphorus 14700 mg/kg 405 200 11/11/1623:27 7723-14-0: M6 733C S Reactive Cyanide Analytical Method: SW-846 7.3.3.2 Cyanide, Reactive ND mglkg 1.0 1 11/07/16 22:59 735S Reactive Sulfide Analytical Method: SW-846 7.3.4.2 Sulfide, Reactive ND mg/kg 10.1 1 11/07/16 15:25 REpORT OF LABORATORY ANALYSIS ` This report shall not be reproduced, except in full, Date: 11122/2016 01:30 PM without the written consent of Pace Analytical Services, LLC. Page 5 of 24 Ask k RESEARch & ANALYTICAL --_- Repaint of Analysis 'Ise, LABORATORIES INC. - - = 11/8/201.6 • ttt tuu t trr ♦� ,.......�� T/�r For: Pace Analytical-Huntersville 9800 Kincey Avenue Suite 100 w :q�y 4". Huntersville, NC 28078 °� �y NCt134 cn w w t NC 937701 Attn: Chris Derouen �{ltrtrtttttt Cliont Sample ID; TWSA Dried Residual Lab Sample ID: 26666-01 Slte: Pace -Huntersville Collection Date: 11/1/2016 9:30 Parameter Method Result Units Rep Limit Analyst Analysis DatelTime Fecal Coliform SM 9221 C E-2006 <2 mpn/g TS 2 LP 11/2/2018 NA = not analyzed P.O. Sox 473 106 Short Street Kern ersvilie , North Carolina 27284Tei: 336-996-2641 Fax: 336-996-0326 _--voww.randalabs.com Page 1 ttt'' - - age 23 of 24 Alk c Environmental Testing solutions, Inc. Certificate of Analysis Project name: Tuckaseigee Water & Sewer Collection date: 3-Nov-16 PO Box 7565 Asheville, NC 28802 Phone: (828) 35079364 Fax: (828)350-9368 Project number: 161103.500 Date received: 3-Nov-16 Sample identification: TWSA Dried Residue - Grab Sample number: 142319 Parameter Method Result RL Units Date Analyst Footnotes Analyzed, Sludge Fecal SM 9921 E 7800 180 % 3-Nov-16 KEK % Total Solids SM 2540 G 100 % 3-Nov-16 KEK Footnotes: RL = Reporting Limit. Values,are reported down to the Reporting Limit only. Date reviewed: �. ((p - NC Certification Number: 600 Data reviewed by: Kelley E. Keenan SC Certification Number: 99053 _ NC Drinking Water Certification Number: 37786 Signature: /1 This report-sliould 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. JEnvironmental Testing Solutions, Inc. Certificate of Analysis PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828) 350-9368 Project name: Tuckaseigee Water & Sewer Project number: 161104.500 Collection date: 4-Nov-16 Date received: 4-Nov-16 Sample identification: TWSA Dried Residue - Grab Sample numbel•: 142364 RL Units pate Analyst Footnotes Parameter Method Result Analyzed Sludge Fecal SM 9921 E 2300 180 % 4-Nov-16 KEK % Total Solids SM 2540 G 100 % 4-Nov-16 KEK Footnotes: RL = Reporting Limit.- Values are reported down to the Reporting Limit only. Date reviewed: to l�'dV NC Certification Number: 600 Data reviewed by: Kelley E. Keenan _ SC Certification Number: 99053 NC Drinking Water Certification Number: 37786 Signature: - This'report'should-not be.reproduded,.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. �1 acehialytical - www.pacelabs.com I December 16, 2016 i Mr. Stan Bryson i Tuckaseigee Water & Sewer Co 1246 West Main Street Sylva, NC 28779 Pace Analytical Services, LLC 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 I RE: Project: TWSA Residual Load #1 12/6 Pace Project No.: 92322001 I Dear Mr. Bryson: i Enclosed are the analytical results for sample(s) received by the laboratory on December 06, 2016. 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. Some analyses have been subcontracted outside of the Pace Network.- =The subcontracted laboratory report has been attached. If you have any questions concerning this report, please feel free tocontact Sincerely, X. 2 Chris Derouen I christopher.derouen@pacelabs.com I Project Manager I Enclosures T Q pCCRFO REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in'full, 9e�RA�pQ� without the written consent of Pace Analytical Services,•LLC,-.-Page'1 -of 6 RESEEARCh &ANAIYYiCAI Report of Analysis 1. LAbORAYORIES INC. 12/14/2016 For: Pad V66a'-1-Htintersvi lie (Z 9800 Kincey Avenue Suite 100 Huntersville, NC 28078 NC H34 Attn: Chris -Derouen NC 1137701 % Client Sample ID: TWSA Residual Load 91 Lab Sample ID: 280 19-01 Site: Pace -Huntersville Collection Date: 12/612016 8:30 Parameter Method Result Units Rep Limit Analyst Analysis Date/Time Fecal Coliform - MPN SM 9221 C E-2006 <2 mpnlg TS 2 LP 12/7/2016, 1020 NA = not onoiyzed or 1.0. Box 473-106 Short Street 'Kernersville, No . rth Carolina 27284 Tel: 336 -996-2 84 1 Fax: 336-996-0326 "ww.randalabs.corn Page 1 Page 5 of 6 ' Pace Analytical Services, LLC ' ice nn� ytical 2225 Riverside Dr. lifj(1 j Asheville, NC 28804 www.parelabs.com (828)254-7176 r 1 December 23,2016 Mr. Stan Bryson �`,; r Tuckaseigee Water & Sewer Co. _ 1246 West Main Street Sylva, NC 28779 RE: Project: Dried Residual Fecal 12/12 Pace Project No.: 92322966 Dear Mr. Bryson: Enclosed are the analytical results for sample(s) received by the laboratory on December 12, 2016. The results relate only to the samples included in this report. Results reported herein conform to the ......most current, applicableTNI/.NELA0 standards and-the..laboratory's.;,Quality.Assu ran ce.Manual, w=ra where applicable, unless otherwise noted in the body of the report. = Some analyses have been subcontracted outside of the Pace -Network. The subcontracted '" - - laboratory report has been attached. If you have any questions concerning this report, please feel free'to contact me: •- :- - Sincerely, Chris. Derouen christopher.derouen@pacelabs.com - Project Manager - Enclosures °pCCltPp:, REPORT. OF LABORATORYANALY$IS= _ This report shall not be reproduced, except in full,_ _ ' qeQ without the written consent of Pace Analytical Services, LLC. Page 1 of 6 WFIR.. - 'Report f Analysis s -is KESEARCH & ANAIYTICAI o LA ORATORIES INC* -12/22/2016 For., Pace Analytical-Huntersville 9800 Kincey Avenue Suite 100 e vj... Huntersville, NC 28078 vJ NC U34 tz Attn: Chris Derouen NCI,13'1701 Client Sample ID: TWSA Dri6d Residual Load.91 Lab Sample ID: 28320-01 Site: Pace -Huntersville Collection Date: 12112/2016 12:15 Parameter Method Result Units Rep Limit Analyst Analysis Date[Time NA=rat andyzed vAmrandalabs.com Pagel Page 5 of 6 Appendix E TCLP Analysis aceAnalytical www.pacelabs.corn August 25, 2016 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1 1246 West Main Street Sylva, NC 28779 RE: Project: Sludge TCLP Pace Project No.: 92308083 Pace Analytical Services, Inc. 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 August 02, 2016. The results relate only to the samples included in this report. Results reported herein conform to the most current TNI standards and the laboratory's Quality Assurance Manual, where applicable, unless otherwise noted in the body of the report. Analyses were performed at the Pace Analytical Services location indicated on the sample analyte page for analysis unless otherwise footnoted. If you have any questions concerning this report, please feel free to contact me. Sincerely, //,.- Chris Derouen christopher.derouen@pacelabs.com Project Manager Enclosures Q pccr? ' z � a REPORT OF LABORATORY ANALYSIS 41 This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. R Page 1 of 17 l aceAnalytical0 www.pacelabs.com Project: Sludge TCLP Pace Project No.: 92308083 • Lab ID Sample ID ' 92308083001 DRIED RESIDUAL TCLP SAMPLE ANALYTE COUNT Method EPA 8081 EPA 8151 EPA 6010 EPA 7470 EPA 8270 EPA 8260 ASTM D2974-87 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Analytes Analysts Reported Laboratory SWB 8 PASI-C LJM 3 PASI-O JMW 7 PASI-A SER 1 PASI-A BPJ 18 PASI-C DLK 14 PASI-C KDF 1 PASI-C Page 3 of 17 aceAnalytical www.pacelabs.com I ANALYTICAL RESULTS Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Project: Sludge TCLP Pace Project No.: 92308083 Sample: DRIED RESIDUAL TCLP Lab ID: 92308083001 Collected: 08/02/16 08:00 Received: 08/02/16 13:50 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 8081 GCS Pesticides, TCLP Analytical Method: EPA 8081 Preparation Method: EPA 3510 Leachate Method/Date: EPA 1311; 08/13/16 12:00 gamma-BHC (Lindane) ND ug/L 0.50 1 08/16/16 08:51 08/16/16 17:00 58-89-9 Chlordane (Technical) ND ug/L 3.0 1 08/16/16 08:51 08/16/16 17:00 57-74-9 Endrin ND ug/L 0.50 1 08/16/16 08:51 08/16/16 17:00 72-20-8 -' Heptachlor epoxide . ND ug/L 0.50 1 08/16/16 08:51 08/16/16 17:00 1024-57-3 Methoxychlor ND ug/L 1000 1 08/16/16 08:51 08/16/16 17:00 72-43-5 Toxaphene ND ug/L 3.0 1 08/16/16 08:51 08/16/16 17:00 8001-35-2 Surrogates Decachlorobiphenyl (S) 21 % 10-138 1 08/16/16 08:51 08/16/16 17:00 2051-24-3 Tetrachloro-m-xylene (S) 23 % 10-110 1 08/16/16 08:51 08/16/16 17:00 877-09-8 8151 Chlorinate Herbicide TCLP Analytical Method: EPA 8151 Preparation Method: EPA 3510 • 2,4-D ND mg/L 0.010 1 08/22/16 10:30 08/24/16 03:14 94-75-7 H2 2,4,5-TP (Silvex) ND mg/L 0.010 1 08/22/16 10:30 08/24/16 03:14 93-72-1 H2 Surrogates 2,4-DCAA (S) 83 % 39-139 1 08/22/16 10:30 08/24/16 03:14 19719-28-9 1;010 MET ICP, TCLP Analytical Method: EPA 6010 Preparation Method: EPA 3010A _ Leachate Method/Date: EPA 1311; 08/11/16 22:51 Initial pH: 6.3; Final pH: 5.1 Arsenic ND mg/L 0.050 1 08/12/1618:17 08/13/1617:52 7440-38-2 Barium ND mg1L 0.25 1 08/12/1618:17 08113/1617:52.7440-39-3 Cadmium ND mg/L 0.0050 1 08/12/1618:17 08/13/1617:52 7440-43-9 Chromium ND mg/L 0.025 1 08/1211618:17 08/13/1617:52 7440-47-3 Lead ND mg/L 0.025 1 68/12/1618:17 08113/1617:52 7439-92-1 Selenium ND mg/L 0.10 1 08/1211618:17 08/13/1617:52 7782-49-2 Silver ND mg/L 0.025 1 08/12/1618:17 08/1311617:52 7440-22-4 7470 Mercury, TCLP Analytical Method: EPA 7470 Preparation Method: EPA 7470 .Leachate Method/Date: EPA 1311; 08/11/16 22:51 Initial pH: 6.3; Final pH: 5.1 Mercury 0.00050 mg/L 0.00020 1 08/15/1611:30 08/15/1614:38 7439-97-6 8270 MSSV TCLP Sep Funnel Analytical Method: EPA 8270 Preparation Method: EPA 3510 Leachate Method/Date: EPA 1311; 08/13/16 12:00 1,4-Dichlorobenzene ND ug/L 50.0 1 08/15/16 09:57 08/15/16 15:53 106-46-7 2,4-Dinitrotoluene ND ug/L 50.0 1 08/15/16 09:57 08/15/16 15:53 121-14-2 Hexachloro-1,3-butadiene ND ug/L 50.0 1 08/15/16 09:57 08/15/16 15:53 87-68-3 Hexachlorobenzene ND ug/L 50.0 1 08/15/16 09:57 08/15/16 15:53 118-74-1 Hexachloroethane ND ug/L 50.0 1 08/15/16 09:57 08/15/16 15:53 67-72-1 2-Methylphenol(o-Cresol) ND ug/L 50.0 1 08/15/16 09:57 08/15/16 15:53 95-48-7 3&4-Methylphenol (m&p Cresol) 51.2 ug/L 50.0 1 08/15/16 09:57 08/15/16 15:53 Nitrobenzene ND ug/L 50.0 1 08/15/16 09:57 08/15/16 15:53 98-95-3 Pentachlorophenol ND ug/L 100 1 08/15/16 09:57 08/15/16 15:53 87-86-5 Pyridine ND ug/L 50.0 1 08/15/16 09:57 08/15/16 15:53 110-86-1 2,4,5-Trichlorophenol ND ug/L 50.0 1 08/15/16 09:57 08/15/16 15:53 95-95-4 2,4,6-Trichlorophenol ND ug/L 50.0 1 08/15/16 09:57 08/15/16 15:53 88-06-2 r REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, Date: 08/25/2016 02:31 PM without the written consent of Pace Analytical Services, Inc.. Page 4 of 17 aceAnalytical www.pacelabs.com I ANALYTICAL RESULTS Project: Sludge TCLP Pace Project No.: 92308083 Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: DRIED RESIDUAL TCLP Lab ID: 92308083001 Collected: 08/02/16 08:00 Received: 08/02/16 13:50 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 8270 MSSV TCLP Sep Funnel Analytical Method: EPA 8270 Preparation Method: EPA 3510 Leachate Method/Date: EPA 1311; 08/13/16 12:00 Surrogates Nitrobenzene-d5 (S) 63 % 12-102 1 08/15/16 09:57 08/15/16 15:53 4165-60-0 2-Fluorobiphenyl (S) 63 % 13-107 1 08/15/16 09:57 08/15/16 15:53 321-60-8 Terphenyl-d14 (S) 94 % 21-132 1 08/15/16 09:57 08/15/16 15:53 1718-51-0 Phenol-d6 (S) 26 % 10-110 1 08/15/16 09:57 08/15/16 15:53 13127-88-3 2-Fluorophenol (S) 35 % 10-110 1 08/15/16 09:57 08/15/16 15:53 367-12-4 2,4,6-Tribromophenol (S) 86 % 27-108 1 08/15/16 09:57 08/15/16 15:53 118-79-6 8260 MSV TCLP Analytical Method: EPA 8260 Leachate Method/Date: EPA 1311; 08/11/16 09:57 Benzene ND ug/L 192 38.5 08/12/16 21:32 71-43-2 2-Butanone (MEK) 6980 , ug/L 385 38.5 08/12/16 21:32 78-93-3 Carbon tetrachloride ND ug/L 192 38.5 08/12/16 21:32 56-23-5 Chlorobenzene ND ug/L 192 38.5 08/12/16 21:32 108-90-7 Chloroform ND ug/L 192 38.5 08/12/16 21:32 67-66-3 1,4-Dichlorobenzene ND ug/L 192 38.5 08/12/16 21:32 106-46-7 1,2-Dichloroethane ND ug/L 192 38.5 08/12/16 21:32 107-06-2 1-Dichloroethene ND ug/L 192 38.5 08/12/16 21:32 75-35-4 _-.etrachloroethene ND ug/L 192- 38.5 08/12/16 21:32 127-18-4 Trichloroethene ND ug/L 192 38.5 08/12/16 21:32 79-01-6 Vinyl chloride ND ug/L 192 38.5 08/12/16 21:32 75-01-4 Surrogates 1,2-Dichloroethane-d4(S) 116 % 70-130 38.5 08/12/16 21:32 17060-07-0 1g Toluene-d8 (S) .97 % 67-135 38.5 08/12/16 21:32 2037-26-5 4-Bromofluorobenzene (S) 106 % 70-130 38.5 08/12/16 21:32 460-00-4 Percent Moisture Analytical Method: ASTM D2974-87 Percent Moisture 4.5 % 0.10 1 08/12/16 07:24 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full. Date: 08/25/2016 02:31 PM without the written consent of Pace Analytical Services, Inc.. Page 5 of 17 Pace Analytical Services, Inc. 2225 Riverside Dr. aceAnalytical Asheville, NC 28804 wympacelabs.com (828)254-7176 QUALIFIERS' Project: Sludge TCLP Pace Project No.: 92308083 DEFINITIONS 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. 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. 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. Acid preservation may not be appropriate for 2 Chloroethylvinyl ether, Styrene, and Vinyl chloride. A separate vial preserved to a pH of 4-5 is recommended in SW846 Chapter 4 for the analysis ofAcrolein and Acrylonitrile 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. Pace Analytical is TNI accredited. Contact your Pace PM for the current list of accredited analytes. TNI - The NELAC Institute. LABORATORIES PASI-A Pace Analytical Services -Asheville PASI-C Pace Analytical Services - Charlotte PASI-O Pace Analytical Services - Ormond Beach ANALYTE QUALIFIERS 1g H2 8260 results are from a total analysis which show that analytes are not present or that they are present but at such low levels that the appropriate regulatory levels could not possibly be exceeded, per Section 1.2 of Method 1311. Extraction or preparation conducted outside EPA method holding time. REPORT OF LABORATORY ANALYSIS Date: 08/25/2016 02:31 PM This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. Page 14 of 17 r�. SAR Calculations- 2/9/2016 i SAR = Sodium (Na) Milli Equivalent 0.5 X (Calcium (Ca) Milli Equivalent+ Magnesium(Mg) Milli Equivalent)` Na= <386 mg/kg/Na Milli Equivalent(ME)= 386/23 equivalent wgt= <16.8ME Ca= 6080mg/kg/Ca Milli Equivalent(ME)= 6080/20 equivalent wgt= 304 ME Mg= 2710 mg/kg/Mg Milli Equivalent(ME)= 2710/12 equivalent wgt= 225.6 ME SAR= <16.8 Na Milli Equivalent 0.5 X (304 Ca Milli Equivalent + 225.6 Mg Milli Equivalent)o.s _ <16.8 Na Milli Equivalent (0.5X529.6)0.5 _ <16.8 Na Milli Equivalent (264.8)os _ <16.8 Na Milli Equivalent 16.3 SAR= < 1.0 Ah SAR Calculations- 5/10/2016 1 SAR = Sodium (NaNilli Equivalent I 0.5 X (Calcium (Ca) Milli Equivalent+ Magnesium(Mg) Milli Equivalent)` Na= 515 mg/kg- Na Milli Equivalent(ME)= 515/23 equivalent wgt=22.4ME Ca= 8660 mg/kg- Ca Milli Equivalent(ME)= 8660/20 equivalent wgt= 433 ME Mg= 3660 mg/kg- Mg Milli Equivalent(ME)= 3660/12 equivalent wgt= 305 ME. SAR= 22.4 Na Milli Equivalent 0.5 X (433 Ca Milli Equivalent + 305 Mg Milli Equivalent)0_5 = 22.4 Na Milli Equivalent (0.5X738)0.5 = 22.4 Na Milli Equivalent (369)0.5 = 22.4 Na Milli Equivalent 19.2 SAR= 1.2 I Ah SAR Calculations- 8/2/2016 SAR = Sodium (Na) Milli Equivalent I 0.5 X (Calcium (Ca) Milli Equivalent+ Magnesium(Mg) Milli Equivalent)` Na= 735 mg/kg/ Na Milli Equivalent(ME)= 735/23 equivalent wgt=32.0 ME Ca= 9300 mg/kg/Ca Milli Equivalent(ME)= 9300/20 equivalent wgt= 465 ME Mg= 3930 mg/kg/Mg Milli Equivalent(ME)= 3930/12 equivalent wgt= 327.5 ME SAR= 32.0 Na Milli Equivalent 0.5 X (465 Ca Milli Equivalent + 327.5 Mg Milli Equivalent)o.s 32.0 Na Milli Equivalent (0.5X792.5)0.5 = 32.0 Na Milli Equivalent (396.3)os = 32.0 Na Milli Equivalent 19.9 SAR= 1.6 SAR Calculations-11/1/2016 SAR = Sodium (Na) Milli Equivalent 0.5 X (Calcium (Ca) Milli Equivalent+ Magnesium(Mg) Milli Equivalent)` Na= 658 mg/kg/ Na Milli Equivalent(ME)= 658/23 equivalent wgt=28.6 ME Ca= 11,800 mg/kg/Ca Milli Equivalent(ME)= 11,800/20 equivalent wgt= 590 ME Mg= 3170 mg/kg/Mg Milli Equivalent(ME)= 3170/12 equivalent wgt= 264 ME SAR= 28.6 Na Milli Equivalent 0.5 X (590 Ca Milli Equivalent + 264 Mg Milli Equivalent)` = 28.6 Na Milli Equivalent (0.5X.854)0.5 28.6 Na Milli Equivalent - (427)0.5 28.6 Na Milli Equivalent 20.7 SAR= 1.4 Appendix F Annual Pathogen and Vector Attraction Deduction Fonns ANNUAL_PATHOGEN AND VECTOR ATTRACTION REDUCTION FORM 11. Auk Facility Name: Tuckaseigee Water and Sewer Auth. Permit Number: WQ 00005763 WWTP Name: TWSA Plant #1 NPDES Number: NC 0039578 Monitoring Period: From 1/1/2016 To 12/31/2016 Pathogen Reduction (40 CFR 503.32) - Please indicate level achieved and alternative uerformed: Class A: Alternative 1 ❑ Alternative 2 ® Alternative 3 ❑ Alternative 4❑ Altel7iative 5 Alternative 6 ❑ If applicable to alternative performed (Class A only) indicate "Process to Further Reduce Pathogens": Compost ❑ Heat Drying R1 Heat Treatment ❑ Thennopliilic ❑ Beta Ra Y Ga nuna Ra Y ❑ Paste ' ulYzat' 10I1 ❑ Class B: Alternative 1 ❑ Alternative 2 ❑ Alternative 3 ❑ If applicable to alternative performed (Class B only) indicate "Process to Significantly Reduce Pathogens": Lime Stabilization . ❑ Air Diving ❑ Composting ❑ jAerobic Digestion ❑ Anaerobic Digestion[];:.;:;..........:.... . If applicable to alternative performed (Class A or Class B) complete the following monitoring data: Parameter Allowable Level Pathogen Density Number o re Frequency 5 Sam le p Analytical Minimury Geo. Mean MaximulT Units in Sludge Excee- de of Analysis Type Tech - ices ly ni ue 2 x 10 to the 6th power N1?N per Aram of total solids or 2 x 10 to Fecal Colifonn the 6th power CFU per oram ofi 11—,.. 1000 mpn per gram of total solid < 2 74 7800 ilnpi /g 2 quarterly grab e t (dry weight)�� Salmonella bacteria 3 MPN per 4 (in lieu of fecal crams total solid y coliform (dry weight) Vector Attraction Reduction (40 CFR 503.33) - Please indicate option performed: Option 1 ❑ Option 2 ❑Option 3 ❑ Option 4 ❑ Option 5 ❑ Option 6 ❑ Option 7 ❑ Option 8 R1 Option 9 ❑ Option 10 ❑ No vector attraction reduction were options performed Elp CEK11FICATION STATEMENT (please check the appropriate statement) "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 ame ZdYe (type or print) Signature of Preparer 4D— F Land Applier Name and Title (if applicable)(type or print) Signature of Land Applier (if applicable) Date Residuals that Exceeded 1000 mpn/g i On 11/3/2016 and 11/4/2016 fecal coliform analysis on the TWSA Dried Residuals stored in the silo was reported as exceeding the 1000 mpn/g limit for Class A residuals. These residuals were subsequently retested three additional times and results were reported as < 2 mpn/g. It is possible that improper or unsanitary sampling technique caused the exceedance. After three additional samples from the silo discharge proved to have well below permitted levels of Fecal Coliform it was felt that the residuals did meet the permit levels. Stan Bryson Date: W-7-qJ17 WWTP Superintendent Appendix G Daily Dryer Record TWSA DRYER OPERATIONS DAILY RECORD DATE % / v START STOP TOTAL RUN TIME, HRS (0 ` �� I �� ° 9"D I 1 1 st Dryer Batch Fill Cycle Started @ U 50 Dry Cycle Started @ %• "), Discharge Cycle Started @' G). Temperatures °F Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator go MD 50 `-( f `1CD �2j 1 s0 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) .(grams) (grams) 3 606 41 a- �S' j Z x 100 % Total Solids 2nd Dryer Batch Fill Cycle Started @ j b :S S J Dry Cycle Started @� Discharge Cycle Started @ Temperatures °F Discharge Discharge Dry Chamber chamber Rotor Rotor Time Exhaust Product Timer In Out In Out Operator �1'd� 3 i �50 i DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) '(grams) . ( rams) /o Total Solids 2J6/12, 6/23/14 \ �% DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ a` 65 -Dry Cycle Started @ , ,5 Discharge Cycle Started @ Temoeratures °F Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator y3S_ z-21 �60 yy6 '-/3 `1yZ 37:� '1 3z 3� YL/ 3 DRYER OUTPUT % souDs Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) 0,q � 015-0 x1oo= 9� r Alarms or Comments Total Solids TWSA DRYER OPERATIONS DAILY RECORD DATE ! — 14 " 1 (c - , V START STOP TOTAL ' --- RUN TIME, HRS '.c►,`• Ij -1 1st Dryer Batch s . Fill Cycle Started @ UP-, `f Dry Cycle Started @ •% /4 Discharge Cycle Started @i Temperatures °F Time Discharge Exhaust Discharge Product Dry Timer Chamber In ' Chamber Rotor Rotor Out In Out Operator 1 J39'f J- 7A A3D- C6 43,yi i1 �7�� 14411 2-5C'4 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) _(grams) (grams) x100= �( % Total Solids 2nd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ Discharge Cycle Started @ Tamnarati irac o[_ Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator 2P dos, 396 qQ� 23J 6.0 �3a �o 44? 33 �' 3 (� l..% V 1•l / Yo' I !� lL/ 4J • D �44, -44b-5- DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample .+ Dish I Dried Sample + Dish (grams) (grams) (c °C V7 �.. x100=/ -W12, 6/23/14 0�,3 i��) % Total Solids UAILY NEGUKU 3rd Dryer Batch o Fill Cycle Started @ -Dry Cycle Started @ `3.V. TamnaratrirPc °F Discharge Cycle Started @ Time Discharge Exhaust Discharge Product Dry Timer Chamber Chamber In Out Rotor In Rotor Out O erator �D� 203 1 L)Q `1`iS zo) -YV5 l y 231 1-1135 VY's _3 SF DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) t1 (grams) I U' :u; I�/ o q L/, 3Jy3qcA 1g76?a� / � x 100 = i � - C q"7 lc n Alarms or Comments otal Solids TWSA DRYER OPERATIONS DAILY RECORD DATE = START STOP.... TOTAL RUN TIME, HRS �t • cJ I • <`�i 1st Dryer Batch Fill Cycle Started @ �:.5 It Dry Cycle Started @ 7 • �2 % Discharge Cycle Started Temperatures OF DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) .(grams) (grams) / `7. 5g- 7 5 sue, 7,�' x10o= �• � �- � % %Total Solids 2nd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ Discharge Cycle Started @� Temperatures °F Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor OutOperator I-�D �b P A3 $ ��X-44� [,2�3 SD5- 93, 2qq& DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample '+ Dish Dried Sample + Dish (grams) grams) (grams)rr// l� x 100 °/ 7 1 S I'd 216/12, 6123114 A 3rd Dryer Batch Fill Cycle Started @ : 5-Dry Cycle Started @ f 3 Z Discharge Cycle Started @ A'.,Y% TPrrinPraftlrPS °F Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator 3 ;3 � 1 � zoo 2- q Cl 20C 6-0 '(Yl �3S Yy % 30� �,v3 iba `I`l y37 yyy 3 2 �� 6-'O' zz V /50 Y 93s yyG •3S2 J71- yY DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) dl I, 0 10 L1 j 0-6- 9 7 Q-- 699Y x10o= % Total Solids Alarms or Comments A& TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP... TOTAL RUN TIME, HRS 1 st Dryer Batch { .' Fill Cycle Started @ Dry Cycle Started @ ` �, Discharge Cycle Started' Temrieratrire.q OF Discharge Exhaust Discharge Producct Dry Timer Chamber In Chamber Out Rotor In Rotor Out =Operator 7TimeA 75 Op, ` D 1�q 015 DRYER OUTPUT % SOLIDS 5r I Total Solids 2nd Dryer Batch Fill Cycle Started @ , ° Dry Cycle Started @ I 1 1 Discharge Cycle Started @ o Temneratures °F Discharge Time Exhaust Discharge Product Dry Timer Chamber In Chamber Out .Rotor In Rotor Out Operator <3�3 of 01 �.30 �. i : 1.�v �35 �S 3 DRYER OUTPUT % SOLIDS EiWgt Wet Sample + Dish Dried Sample + Dish ms) (grams) (rams) X 100 = oho Total Solids -2J6/12, 6/23/14 UAILY NLUUKU 3rd Dryer Batch Fill Cycle Started @ c)- - 33 Time ulscnarge Exhaust ulscnarg( Product 1{iY 7 z � .5: -.3. 3o> -Dry Cycle Started @% Discharge Cycle Started @ Temperature Dry Chamber Timer In y v� s. °F jhbPR Rotor -- Out Operator �61 3�G DRYER OUTPUT % soLIDs Dish Wgt Wet Sample + Dish I Dried Sample + Lsh (grams) (grams) (grams) 6`33 v a;� x goo = Alarms or Comments % Total Solids TWSA DRYER OPERATIONS DAILY RECORD DATE c I to ✓ START STOP.... TOTAL } RUN TIME, HRS = rA 1st Dryer Batch Fill Cycle Started 43 _ �. s { Y @ 3 Dry Cycle Started @ Discharge Cycle Started DRYER OUTPUT % SOLIDS Dish Wgt I Wet Sample + Dish Dried Sample ;+Dish (grams) _(grams) (grams) o ► 2c 2. - (0 -2 Y7 x100= f j6 %Total Solids 2nd Dryer Batch Fill Cycle Started @ b Dry Cycle Started @ = J Discharge Cycle Started @ f Temperatures OF Time Discharge Exhaust Discharge Product Dry Chamber Timer In Chamber Out Rotor In Rotor Out Operator 00 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) x100= %'Total Solids 7J6/12, 6/23/14 UAILY HE ;UKU 3rd Dryer Batch Fill Cycle Started @ Discharge Discharge Time Exhaust Product ~� fit, .a%(7 Dry Cycle Started @ � f 00 Discharge Cycle Started @. Temperatures. °F Dry Timer Chamber In Chamber Out Rotor In Rotor Out 0 eratorI C( q c) I Lf q(, T5 DRYER bUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) 22,057-7 G� x 100 = d� �a % Total Solids Alarms or Comments A TWSA DRYER OPERATIONS DAILY RECORD ' DATE 0 START STOP... TOTAL RUN TIME, HRS ` ) 6 % V 1st Dryer Batch Fill Cycle Started @ (�' ``fit Dry Cycle Started @ Z0 Discharge Cycle Started QLT �(,il 4_5 Temperatures OF Time Discharge Exhaust Discharge Product Dry Timer . Chamber In Chamber Out Out Operator ��S' qRotorRotor �67 3 ye 1�:5f9 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) � mil. O-100= 7" /! %Total Solids 2nd Dryer Batch Fill Cycle Started @ ID 3 5 Dry Cycle Started @ IL % D Discharge Cycle Started @ Temperatures °F %TimeExh charge Dry Chamber chamber Rotor Rotor roduct Timer In Out In Out Operator n�0 6 �.� �3 3 A3 o.`�.y,5 q3S � ,3�� d �' DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) . (grams) 1 1, 03�3 29, 5 32 �,7,s o ��. 6 (t-7l� 416/12, 6l23l14 x 100 = 2 .`a 91� % Total Solids ' 3rd Dryer Batch Fill Cycle Started @ �' `3 -Dry Cycle Started @ 3 1 Z. Discharge Cycle Started @ ri Temperatures: °F Time Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator EDscharge 1-4 0 ,51 c)a _, -w 5 4Z 3 5 c)-7 5 S 5 a`1 2 8 30 5 i`5 1 3 i� DRYER OUTPUT % soLIDs Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) < <o t i0-1 2 S ., w5 2 7, V 98, � . ' 3 x 100 = 9 �. L5a �F ry % Total Solids Alarms or Comments Ah V TWSA DRYER OPERATIONS DAILY RECORD DATE START RUN TIME, HRS STOP TOTAL 1st Dryer Batch Fill Cycle Started @ ( Dry Cycle Started @ T Zj Discharge Cycle Started Temperatures OF Time Discharge Exhaust Discharge Product Dry Chamber Timer In Chamber Out Rotor In Rotor Out Operator P s �15` a � � a i i � � � � l� �" �3� d 3� �_;2 a o R � l C 1 ash a a� Iat, I -!q �qq 7A 160 1-4q 433' e'D co DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) `/ f-P773 S/z x 100 = q %o Total Solids 2nd Dryer Batch Fill Cycle Started @ Dry Cycle Started@ Discharge Cycle Started @ Al Temperatures °F uct Dry Timer Chamber In Chamber Out Rotor In Rotor' Out Operator KDisrchrge 12 a 4q q14 DRYER OUTPUT % SOLIDS Dish WgtWet Sample + Dish Dried Sample + Dish (grams) (grams) (rams) a 1, 5 7a. 7,5t 3.�51 x1oo= CI �l� 5' °/o Total Solids 2/6/12, 6/23/14 U,LMLT NtUUKU 3rd Dryer Batch Fill Cycle Started @ j � -Dry Cycle Started @ 3' a` 7 Timm nornhirac °F Discharge Cycle Started @ 6 i Time Discharge Exhaust Discharge Product Dry Timer chamber In Chamber Out Rotor In Rotor Out O erator ��f a D L(d Y 3 37K Y0 q =L�L_6 C,�a6 s ; ,2 a-2- 7 D, 'b- _> 1 /.0 C) `-1 YS y 3 S Y YT 3 7 ? `-I 17 J - 6 -/ y � `f 3s- Lt I' � - 3 �✓ -�_7 3 bs j 1s '( Y 2_. (-/`% 2 VY2- 3 iZ DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) (grams) (grams) 3: L.sos X1oa= % Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE . �. pSTART STOP.... TOTAL (! -= RUN TIME, HRS td .33 1st Dryer Batch Fill Cycle Started @_ Dry Cycle Started @ Discharge Cycle Started Temperatures °F Discharge Discharge Dry Chamber Chamber Rotor Rotor Time Exhaust Product Time in Out In Out Operator a 5-o 446 4.3 1414 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) "(grams) (grams) �: d' j �6, y3 ��s39� sc- Ll u�v %Total Solids 2nd Dryer Batch Fill Cycle Started @ D ' 146 Time Discharge Exhaust Discharge 'Product �5��; = 45 L4 Dry Cycle Started @ S� l -Jl' Discharge Cycle Started @ Temperatures OF Dry Chamber Chamber ROtof Rotor Timer In Out In I Out I Operator �-/45 a z43-y�& IS DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) 7r) c:-o N1 d �c? x 100 = % Total Solids J6/12, 6/23114 u♦ AI L 1 1 %---. \ V 3rd Dryer Batch a -7 Fill Cycle Started @ _) r -Dry Cycle Started @ 3 12'. Discharge Cycle Started @ �, ) 6 Temperatures. °F Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out O erator [4T!me 2_v5v 3ig y�oz zit ),019 ��-�" �-/y� 3� Yy( 3�, P,,2-3 " o 3v5 t 1 y 1 Y 3 YYL /Y3 3�� DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) l o y 3 2 3. 772 TT �-O, �.76D''% x100= i % Total Solids Alarms or Comments ti TWSA DRYER OPERATIONS DAILY RECORD DATE = START STOP:.. TOTAL �= RUN TIME, HRS O� 1st Dryer Batch Fill Cycle Started @ (U Dry Cycle Started @-7r Discharge Cycle Started @ �� Temperatures OF Discharge Time Exhaust Discharge Product Dry Timer Chamber Chamber In Out RotorVRo In Operator " 6If a03 a 3� 4 �3 LfCt 50 9 D$ 1,50 L C 1:305I-M � [o Erg DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) .(grams) (grams) r �� x 100 = L'] "7 / % Total Solids 2nd Dryer Batch Fill Cycle Started @- �' Dry Cycle Started @ f 66 I fo Discharge Cycle Started @ o� Temperatures °F Discharge Time Exhaust Discharge Product Dry Chamber Timer In Chamber Rotor Rotor Out In Out Operator a b � 910 6 44`73 41� �g a:.SC? �� ao ��© �5�s DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) . (grams) x100� % Total Solids 2/6/12, 6/23114 DAILY HEGUKU J 3rd Dryer Batch .(J Fill Cycle Started @ r � -Dry Cycle Started @ Y Temperatures. °F Discharge Cycle Started @ _ _- Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out - Operator Iz zl� jog 50 1(� VIS z- zoo _)z 3 G 13 l 5-0 y 3S y vs 3S DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) __2 Y��9, :L - x100= S� 7 r, ( 3 /o Total Solids Alarms or Comments WSA DRYER OPERATIONS DAILY RECORD DATE �� START =- = RUN TIME, HRS C - 1st Dryer Batch 11 Fill Cycle Started @ 6 Dry DRYER OUTPUT % SOLIDS v `G° '5L- l STOP TOTAL Started @7 Discharge Cycle Started' tf'j 61 Temperatures OF % Total Solids 2nd Dryer Batch II , - j Fill Cycle Started @ %� Dry Cycle Started @ ! �% Discharge Cycle Started @ l Temperatures °F Discharge Discharge Dry Chamber chamber Rotor Rotor Time Exhaust Product Timer In Out In Out Operator -370 y/-/, ',L160 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) . (grams) y3� �1 ss'9 x1oo= 5 % Total Solids 216/12, 6/23/14 urvL I r«Uvrnv 3rd Dryer Batch Fill Cycle Started @ , -Dry Cycle Started @ Discharge Cycle Started @ Tem neratures:.OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out O erator zz2 1 t 1 b� �� 3) Y5 Yb '4V�- DRYER OUTPUT % SOLIDS I Dish Wgt I Wet Sample + Dish I Dried Sample + Dish a3-3g� 7�9-5 x�oo Alarms or Comments % Total Solids TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP... RUN TIME, HRS i.o .'5 `7 9 e_ v-A 1 st Dryer Batch Fill Cycle Started @ _ l : 1 Dry Cycle Started @ Temperatures OF TOTAL Discharge Cycle Started g'J l u Time Discharge Exnaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator 3S'?'g" 3 3� co, ao L-1(4& L4 0'( a'1; u(5 H 3 5 (-i H 5 3 Z--A 5 '4zl�-iAs DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) .(grams) (grams) Jr'(� x 100 = 7 (3 % Total Solids 2nd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ �`� Discharge Cycle Started @ 3 Temperatures °F Time tt �� Discharge Exhaust �u3. Discharge Product > i ' Dry Timer D Chamber In 3�3 Chamber Out �� Rotor In 3ct3 Rotor Out a3L Operator �2 :a o v� 5o y 3-7 L(Z 3L, a 33 c,) Lj -7 I a,3 Li 5, q. 30 0� a8- � 0� �iq�( �iH I 1-NC 3s5 J-1,J DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) (grams) (grams) �,}� ��:3`777 / S. V�5 q-/ x100= q u J7 / % Total Solids .J6/12, 6/23/14 UAILY REC;UKU 3rd Dryer Batch Fill Cycle Started @ -Dry Cycle Started @ 3',�'S Discharge Cycle Started @ �, f Temperatures. °F Discharge Time Exhaust Discharge Product Dry chamber Timer In Chamber Out Rotor In Rotor Out O erator 2-0 y %q� �� % sG VZ ��S `f 2 2-31 ��z j�_v ` vy y 3 y y 32 y JI q-� DRYER bUTPUT % soups Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) 0,�76 30,E 3vv F. 816 GS. r, x 100 % Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE _ START STOP... TOTAL V �- - RUN TIME, HRSE: -3 � .tJ 1st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ j Discharge Cycle Started i Cie-1 Temperatures OF Discharge Discharge Dry Chamber Chamber Rotor Rotor Time Exhaust Product Timer In Out In Out Operator '2 - 6S g J 3 ; 1, q,3 R - -,D L? 12�- V'. 4W ,35' q.Ll 6 3L 4 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) ,��3 � S, /y�,Z ��.•�r�i� 1, x 100 = 9 q- 6 % % 5 % Total Solids 2nd Dryer Batch Fill Cycle Started @ E_ Dry Cycle Started @ ' Discharge Cycle Started @ Temperatures OF Discharge Discharge Dry Chamber chamber Rotor Rotor Time Exhaust Product Timer In Out In Out Operator 41,3 I F z1- zt 1 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (rams) C>�� Total Solids 9r�� x1oo= %�L/�3� . %�l6l12, 6l23/14 3rd Dryer Batch Fill Cycle Started @ a Dry Cycle Started @ 3' �S Discharge Cycle Started @ '3 S Temoeratures. °F Time Discharge Exhaust Discharge Product Dry Timer Chamber In chamber Rotor Out In Rotor Out O erator v 6 C) ` YL) `C `t Yv 4", :. y15 5 2-11 D5 q3/1 �-(Y61 qr 5 ,�ls ,3� �►r 1�� (q5 yam' y�-/s 3a, �rf DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) g d c, g 8. `793--- •-.30,0(0D x100= • `%�. %� .� � %Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD 1 - DATE _ O START STOP,.. TOTAL RUN TIME, HRS % C5 v p '• c'j 1 1st Dryer Batch Fill Cycle Started @ .3 Dry Cycle Started @ �t L Discharge Cycle Started 0' &1)-; '35` Temperatures OF Discharge Discharge Dry Chamber Chamber Rotor Rotor Time Exhaust Product Timer In Out In Out Operator �L( i 3. � � Jag -'T �"j DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) -(grams) (grams) I �) 1 x100=,�� o /Total Solids 2nd Dryer Batch r Fill Cycle Started @ �Dry Cycle Started @ [ Discharge Cycle Started @ . L� Temperatures °F Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator . to C� 393 � �'CIO $Timeuct therge _y5l �g�i� DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (rams} 1 a "T &0,2� x100= 9q- 9/91i ,l6/12, 6/23/14 . j % Total Solids UAILY REC;UHL) 3rd Dryer Batch Fill Cycle Started @ -Dry Cycle Started @ G % SU Temperatures. °F Discharge Cycle Started @ —_ Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out 0 erator 3 : 3 v 2- 6_ os' C-1 1(7 3 60 L110 �; :Z3v tv ) `f�, 2v� DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) (grams) x 100 = o S� y / % V 7 /o Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE 3-7 — START STOP... TOTAL RUN TIME, HRS 1st Dryer Batch .' Fill Cycle Started @ I • Dry Cycle Started @ % Discharge Cycle Started — Temperatures OF Discharge Time Exhaust Discharge Product Dry Chamber I Chamber Timer In ' Out Rotor In Rotor Out Operator ;L t 3 z-) 3 2 163"1 +b I q 3-7 P111 DRYER OUTPUT % SOLIDs Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) �,. oq� ` 117 x 100 = �7 /. r' o /o Total Solids 2nd Dryer Batch Fill Cycle Started @T1! Dry Cycle Started @ Discharge Cycle Started @ 3 C, Temperatures °F Time Discharge Exhaust Discharge Product Dry Timer Chamber In Cham3rR,,, O Rotor Out Operator ISO �1on s 33 f ` i / S 0� �3 77 q Z `(� ` �i �/ D V00 DRYER OUTPUT % S % Total Solids 216/12, 6123/14 3rd Dryer Batch Fill Cycle Started @ 12-2 -Dry Cycle Started @ S Discharge Cycle Started @ Temperatures. °F Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor*Operator Out3'-r,. r � )-o6� - ,,3S- 37 SUS Jb0 �� /S �1�S 37.2 J/9 6 r^ `I L �4/ C7 `/ U -2� - V ZDi DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish (grams) (grams) Alarms or Comments Dried Sample + Dish (grams) 07J x100=—-C��? %Total Solids TWSA DRYER OPERATIONS DAILY RECORD DATE _ % —7 START STOP... TOTAL RUN TIME, HRS-J pp 1st Dryer Batch Fill Cycle Started @ LO `{ ` Dry Cycle Started @ _ % Discharge Cycle Started @ a_ Temperatures OF Discharge Discharge Dry Chamber Chamberaci, Time Exhaust Product Timer In Outerator co �5 q 3S`e 3 i 8 v �t P DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) 0, C177DI 0, 5 / 3 L x1oo= / �.• l F % Total Solids 2nd Dryer Batch Fill Cycle Started i ' Y @ _ . I� . `1�— Dry Cycle Started @ _ Discharge Cycle Started @ - Temperatures, -F Discharge , Discharge Dry Chamber chamber Rotor Rotor Time Exhaust Product - Timer - " Irr' Out In Out Operator a o� y as 15 v 1-113 5- (� ' DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams)Vol % Total Solids 116/12, 6/23/14 - , UAILY REGUKU 3rd Dryer Batch Fill Cycle Started @ • '� V -Dry Cycle Started @ Temperatures: °F Discharge Cycle Started @ = -. Discharge Discharge Time Exhaust Product 3:,s 2_1V arvy'Us Dry Timer chamber In Chamber Out In Rotor421, ? y,s y34 YL/S3 oc�`/ " L32 o2�s �� 3 V VZ (,2 2�. DRYER OUTPUT % SOLIDS Alarms or Comments Dish Wgt Wet Sample + Dish Dried SamE+Dish](grams) (grams) (gra 0,C/la 8, �/CM, 100= xal Solids % Tot L TWSA DRYER OPERATIONS DAILY RECORD DATE 3 ' START STOP,.. TOTAL i I _ RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ ; 43 Dry Cycle Started @ `• Discharge Cycle Started Temperatures OF Discharge Discharge Dry Chamber Chamber Rotor Rotor Time Exhaust Product Timer In Out In Out Operator 17 °( 0 � '433' �4�� J7 �� l r 74s s 3� cP DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) x 1 00 = � E 5 `� _ /� 5 ,� J� % Total Solids -2nd Dryer Batch 1 � Fill Cycle Started @ f l .- `4 0 Dry Cycle Started @ C •' --5 Discharge Cycle Started @ Temperatures °F Dry Chamber Chamber Rotor Rotor JLDi'sch Timer In Out In Out Operator v y1i! 7 E, 9A y y yo Y� Y00 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) ( rams) - C// K , ?., x100= % Total Solids 2/e112, si2aiia Ak u'_AIL I rC E:UL)MU 3rd Dryer Batch Fill Cycle Started @ 3 S' -Dry Cycle Started @ ; C v Discharge Cycle Started @ Temperatures..°F Timehaust harge Discharge Product Dry Chamber Timer In Chamber Out Rotor In Rotor Out O erator � `l l l �-JQ s 3 �� y v3 -23 / ,. �. J� gqo �/� LIz 1�� %y� tea Y� Y 3 �f yS DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) {grams) (grams) x 100 = C � �:5 %.Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP.... TOTAL = RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ � Dry Cycle Started @ i` Discharge Cycle Started tJ Temperatures OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Operator rb �� 41390 C 0'a XRoRotor, 53 �� 1 '/SD DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) _(grams) (grams) 0Af03(2- 6 6,LLQ x1oo= qq i ` ��' %Total Solids 2nd Dryer Batch s Fill Cycle Started @ Dry Cycle Started @ _ Discharge Cycle Started @ (� • 35 TemperaturesOF Time Discharge Exhaust Discharge Product Dry Timer Chamber I In Chamber Out Rotor In Rotor Out Operator 7 A g Db 16 0 )4f� , '36 � ' y,3�8 �4 3rd Dryer Batch Fill Cycle Started @ A `'t -Dry Cycle Started @ L' `� Discharge Cycle Started @ Temperatures:OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In 3,zv z �� ,a q�Z.l Ito 9"So �� lberARoto, 237 / 7 1v`"D y ys' 35S l�� `�l DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) (grams) (grams) X 1 00 = a r % Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP._ TOTAL RUN TIME, HRS� 6�: � ` �q 1st Dryer Batch Fill Cycle Started @ -Z o2 Dry Cycle Started @ Discharge Cycle Started Temperatures °F Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out RotorFRotc,r In t Operator 0� � a.�� 4t3i f� 1 CIA I (CO) 3 l9 b 46 -q 4/ 14 id, z DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) 1 0007, 3 O PS, 9-103 jg�-1q-SS � � ! x 100 = U % Total Solids 2nd Dryer Batch Fill Cycle Started @ _ Dry Cycle Started @ `._ Discharge Cycle Started @ 3��j Temperatures OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In ChamberW,Ro Out to DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (rams) r 6n97 ,?so (01(010 rr�J U % Total Solids � J_M_ f r' IZIZ U U U 3rd Dryer Batch Fill Cycle Started @ � -Dry Cycle Started @ Discharge Cycle Started @ �i�_ Temperatures:.°F ischarge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out -- - 0 erator -" 2►7 �O�3!/5) 4,Time v 8 ) 6 Cb 0 -d 9 S '-f 3 S S 30 6;3 1 3` q 3os (1 3 '_�Vd. 9`•1Z `1 ctd 3 r; DRYER OUTPUT % SOLIDS I Dish Wgt I Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) x 100 = -L74 -3 % Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE kj _' ✓ �P START TOTAL -- = RUN TIME, HRS D 3 1st Dryer Batch Fill Cycle Started @ tt' 1 Dry Cycle Started @6_. Discharge Cycle Started @2�"c `f Temperatures OF Discharge Dry Exhaust Product Timer Chamber In Chamber Rotor Out In Rotor Out Operator � D, o2i Q 6 a �. ��a '0-,5 � Ma PDischarge 3, r 16z� 4 bs a� DD j4g1� �=l RYEROUTPUT%SOLIDS Dis gt Wet Sample +Dish Dried Sample +Dish (grams) .(grams) (grams`) Z `/ 7 X100= % Total Solids 2nd Dryer Batch '1 Fill Cycle Started @ :J Dry Cycle Started @ Discharge Cycle Started @ 2 r3 Temperatures °F Discharge Time Exhaust Discharge Product Dry Timer Chamber In Chamber Rotor Out In Rotor Out Operator b 5 c -2433 `f ( 1-133 aU-7 if 1 I1-4-3 9 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) . (grams) 3 X. �D,Ds a t a x 100 = a % Total Solids 116/12, 6/23/14 UAILY I-HEC;CUKU 3rd Dryer Batch Fill Cycle Started @ ZYJ I "-Dry Cycle Started @ 3_ Discharge Cycle Started @ i3 Temperatures..°F - 15E��Dry Product Timer Chamber In Chamber Rotor Out In Rotor f f �j03166 Out O erator V7- '- y�Y� 3 7� ro DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) /3 -�2.9, 5 6 i x goo = % Total Solids Alarms or Comments A J�a \1 I WSA DRYER. OPERATIONS DAILY RECORD DATE START STOP j p 2 RUNTIME, HRS 1st Dryer Batch q j Fil!-Cycle Started @_ Dry Cycle Started @ 0 TOTAL Discharge Cycle Started @ Time Discharge ExhauSt Discharge Product DP y Timer Chamber !^ Chamber Out r :vtGr In Rotor Out O er3tGf ; 3' C) d 1� .a i 1.11 � a 0 -J:4' I ( ch .-Time Discharge 'Exhaust Discharge -Product, Dry, : Timer Chamber. 'In chamber Out Rotor In Rotor Out Operator )-44,5 437� . 3 �sd S 5 7 C'� . DRYER OUTPUT % 216112 30LIDS Dish Wgt Wet Sample +Dish Dried Sample + Dish rams rams rams �1�� x100= L % Total Solids T VXISA DRYER OPERATIONS DAILY RECORD t✓o 3rd Dryer Batch .. Fill Cycle Started '@ Dry Cycle Started @ l Discharge Cycle Started @ Temperatures. Discharge Discharge I Dry Chamber Chamber Rotor Rotor.. Time Exhaust Product Timer I In Out In Out I Operator �fl2- . ,G C 1 b.. QCo3 63 31 S� 50 -Y3 yzy .y3,? 73 � 3 % Y yS 3 T s 1-52 a 60 1-i1-1s yyz yy-5- z T WSA DRYER. OPERA TIOIr{S . DAILY RECORD DATE 45 START STOP TOTAL 7 j y RON TIME, HRS 1st Dryer Batch Fill Cycle Started @ in 3 Dry Cycle Started. @ t� Discharge Cycle Started @ 1 b 3 .—crnrsara'� trac ��' Time DiSCiaFge Exhaust D;1 50ha rge Product vRPy Timer Chamber In Chamber^ Out C In .RZ 0twri Out Operator : / j �(: 6d(� �JZ� 6.. �. � -37 1 -11;5 c R : g 0 C -5 4 4-S ' �3S '* , . n &�3 6-4 F '4*S DRYER OUTPUT % SOLIDS, Dish'Wgt Wet Sample + Dish f Dried Sample + Dish rams rams rams A c11;28 -�...: x100= c� 16 /o Total Solids 2nd Dryer '.Batch- :. � � . ; .. .... `_ D �S �7 Fill. Cycle Started @ � Dry Cycle Started @ Discharge Cycle Started @ �C•' �� Tem eratures ".r= :..Time Discharge Exhaust:` Discharge -Product:.Timer Dry: ; Chamber . In Chamber Out Rotor In Rotor ' Out Operator' ej 3( ew - DRYER OUTPUT % SOLIDS Dish Wgt 'Wet Sample + Dish Dried Sample + Dish rams rams rams 3135 5� x100= b % Total Solids- 2/6112 T V`,fSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started'@__ Dry Cycle Started @ i % Discharge Cycle Started @ Gi 3 Tem eratures, e `� Discharge Discharge I Dry Chamber chamber Rotor Rotor.. . Time Exhaust Product . Timer in Out In Out I Operator . I /Ob Y3Y V'�f abb t`16 YV3 1 ,q q� �� -� TWSA DRYER. OPERk T IOIgS DAILY.RECORD DATE —�`�: I` START STOP TOTAL RUN TIME HRS 1 st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ 1 Discharge Cycle Started @ T=mrrnrac r. i-_ Time Di chap ge Exhaust Discharga Product vey Timer Chamber I^ Chamber Out :vitir In otvr Out Operator j r 44-�..Lf-35- 44 -35 j .. DRYER OUTP - % So Ds: Dish`Wgt ...Wet Sample +'Disci Dried Sample + Dish rams rams -(grams) v . x 100 = ..112 % Total Solids 2nd Dryer'.Batch .: Fill. Cycle Started @ .Dry Cycle Started @ Discharge Cycle Started @ .. r- Tem eratures � r .. Discharge Discharge Dry -.-Time Exhaust Product : ; Timer Chamber . In :Chamber O�!t Rotor In Rotor " Out O erator 1 e 15 If 35D DRYER.OUTPUT V6e 12 iDs Dish igW t 'et Sample +Dish Dried Sample + Dish rams rams) (grams)-----..-..._. x100= % Total Solids TVVSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ Dry. Cycle Started @ 3 ; ! 1 Discharge Cycle Started @ Temperatures. Discharge Discharge I Dry Chamber Chamber Rotor Rotor._ Time Exhaust Product . _ Timer In Out In Out Operator . M yv/ 2z y;S/ 2- 2-1�y � Z qd* y `7� iVVSA DRYER. OPERA T IOI� S DAILY RECORD DATE v2 _ / 40 : START STOP TOTAL � RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ % T Discharge Cycle Started ' "rcmr�.rac� rF.c a r- Time Discharge Exhaust Discharge Product Di y Timer Chamber In Chamber Out OTor In i�J Out Operator n .:.Time Discharge :Exhaust- Discharge -Product: Dry,. ' Timer ` Chamber. In Chamber Out Rotor In Rotor Out Operator' Jb 45 17 lSb �4 ,�f5 43 Y 36. DRYER OUTPU /o SOLIDS Dish Wgt Wet Sample +Dish Dried Sample + Dish rams rams rams x 100 = `/ 1� % Total Solids .21602 TVVSA. DRYER OPERA TIONS DAILY RECORD 3rd Drver Batch Fill Cycle* Started @ Dry Cycle Started @ Discharge Cycle Started @ Temperatures. Discharge Discharge Dry Timehaust Product Timer Chamber In Chamber Out Rotor- in Rotor, Out Uperator - I t '50. C/ z1Z Y,'.5 6 J00 q T �3s- YLIT 3 a;r LIL/ YL/ L/ 61'3 DRYER OU TPUT % SOLIDSDish Wgt Wet's i Saimp!e. Dish Dried Sample+ Dish dams(grams)rams X 100 Total.Solids. Alarms or Comments Oct V" il 11 C A.). d r) r TWSA DRYER. OPERATIONS DAILY RECORD DATE" START STOP. TOTAL RUN TIME, HRS �� •. J � I � L 1 st Dryer Batch ` - FillCycle Started @ IL �'% Dry Cycle Started @ Discharge Cycle Started l empera`-ores r, l,- D15Cfiargc Discharge uiy Cliamber Chamber Time Exhaust Product Timer In Out yvttir in Rvivr Out Operator RR q0 ,: a�a I C f ( 160 -i3 41 IS? 10� � 3S 4�5 3575. : 10= l C7 1 " DRYER OUTPUT % soups; Dish Wgt Wet Sample + Dish Dried Sample +Dish rams rams rams .J. x100= / f % Total Solids 2nd Dryer*.Batch :/� Fill Cycle Started @` Dry Cycle Started @ �p Discharge Cl%cle Started @ "c7r Teni eratures ".F : .Discharge Discharge Dry:: � Chamber. Time 'Exhaust Producfi "Timer In chamber Out Rotor In Rotor ; Out Operator' cD DRYER OUTPUT %SOLIDS Dish Wgt Wet Sample +Dish Dried Sample + Dish rams rams . rams 01 x100= �y % Total Solids l zrsriz T V\(SA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started'@ Dry Cycle Started @ Discharge Cycle Started @ Temperatures. e Time Discharge Exhaust Discharge Product I Dry. Timer Chamber In Chamber Out Rotor- In Rotor.. Out Operator `T O ] `i ✓ �P ` t �� Z .Jo ZOO :1,-/Yy Y 3/0 T WSA DRYER. OPERATIONS DAILY RECORD / DATE START STOP TOTAL RUN TIME, HRS 1st Dryer Batch Fill -Cycle Started @� Dry. Cycie Started .0 0 15 Discharge Cycle Started @ 5 - Tamrarasrac �- ' Time , Discharge Exhaust Disci large Product ED y Timer Chamber In Chamber Out in Iwive Out O erator i ®', k 5" C) 3 I 3-13 37 Z zct J�J<�SA . t , o s d C) 0 0 50. c4 f JL�9 1 H 41 3 �_-z- .1.9 I - 0 . 10.E ��S �35. L (40o. DRY OUTRUT % OUDs. Dish'Wgt ..Wet Sample +Dish Dried Sample +Dish rams rams rams X100 o /o I otal Solids 2nd Dryer .Batch Fill Cycle Started @ a . of Dry Cycle Started @U Discharge Cycle Started @ Teri eratures .r -Time Discharge Exhaust Discharge Product Dry::' Timer Chamber. In Chamber Out Rotor In Rotor Out Operator a r l�1 f7 �U ✓q l q l'� �2.q �Cl Z v Y.L'15 �; 0. VYL Y3 YYZ� 3K6. Ys 'S 33 DRYER OUT % SOLIDS Dish Wgt Wet Sample +Dish Dried Sample + Dish rams rams _ r2ms x 100 % Total Solids 2/S 12 _L T VV,SA DRYER OPERATIONS DAILY RECORD' 3rd Drver Batch Pill Cycle Started'@ Dry Cycle. Started @ Discharge Cycle Started @ Temperatures e �= Time Discharge Exhaust Discharge Product I . Dry Timer Chamber. In Chamber I Out Rotor In Rotor,. Out Operator T WSA DRYER. OPERATIONS DAILY RECORD DATE START.. p� STOP. TOTAL _71 RUN TIME, 6 D 3 ' 1st Dryer Batch Fill -Cy . Cie Started @ ` Dry Cycie Started .0 (� Discharge Cycle Started @ Lo Tcmraraynrac �e= Time^ Discharge Exhaust Discharga Product D;y Timer Chamber In Chan. ber Out Rotor in 11-Zotor Out Operator DRYER OUTPUT % SOLIDS.. Dish Wg.t .. Wet Sample + Dish Dried Sample � Dish rams rams rams :::.✓ (J;q 3a/� 71 Sv x100= "! % Total Solids .: ... 2nd Dryer'.Batch :. .Fill C cle Started ,:.Y . @ D C Cie Started rY y @ 1 _� �T Discharge C �cie Started 9'.::.1... .::.. Temperatures, .Discharge Discharge Dry:: .Chamber. . Chamber ...Time Exhaust` --Producfi - Timer In O!�t Rotor In Rotor Out O erator 3:;--1 �Aj 73 0. (-Iqf y3 Sys 3� Y-d .3161 J7 DRYER.6T�UTb//,L`1`�/�`�D``sDish Wgt Wet Sample +Dish Dried Sample + Dish ams rams ramsr/x 10�� Y J % Total Solids .216M2 TVVSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ `� S .% Dry Cycle Started @ 5 ' 3 2 Discharge Cycle Started @ e/. TemperaturesF. Discharge Discharge .I. Dry Chamber chamber Rotor. Rotor.. Time Exhaust Product Timer in Out -in Out Operator . �;3k l83 L-1©� C; c(Ll 356 A5 0 -/°V) Yv `/ yj 3 7y ° � TWSA DRYER. OPERATIONS . DAILY RECORD DATE START STOP TOTAL ti � • RON TIME, HRS 1st Dryer Batch Fill Cycle Started @ to - 4 Dry Cycle Started @ Discharge Cycle Started Time DischaF ge Exhaust Discharge Product Di y Timer Chamber In� Char, Out i :uivr : wiu: Out? O ertt a]or 3 7y ��In 1 E V r D, 2. C. �' CID �Y i J 63.E13, DRYER OUTPUT % SOLIDS Dish Wgt' .. Wet Sample +Dish Dried Sample + Dish rams rams rams 0;9�3� ? �, Civ� air• �:��:.. �� .: -5797 jj l (Q .x100= % Total Solids 2nd Dryer.Batch Fill Started @ � � '� .Dry Cycle Started @ � C3� Discharge. Cycle Started @ � � _ Temperatures .Discharge Dry .Discharge Time 'Exhaust ..Product , 'Timer Chamber ' In Chamber Out Rotor In Rotor Out Operator' 6 C]� �. .-e to J1�� .ao .0 :1 J8 0 445 :44/ -11 322 Ct DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample +Dish rams rams rams a s iY. x100- t �/ %Total Solids ,2/6/12 ' .. .. - Ask TVVSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started@ �© Dry Cycle Started @ - Discharge Cycle Started @ Temperatures. Discharge Discharge I Dry Chamber Chamber Rotor- Rotor., Time Exhaust Product Timer In Out in Out u erator. 0 -� . 3v 3-72 is 0 _Y 3 V :z qs- � : 05_ 10 0 ` / V 5 Y 3 50 IL16 .y3-5 Yy61 1/3 yvs 3 �2 -� . I VVSA DRYER. OPERATIONS . DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS 1st Dryer Batch r^ Fill Cycfe Started @ V Gry Cycie Started @ Discharge Cycle Stareed o� ? crrara�t crac r, i- Time DISCiiargc Exhaust Discharge Product e P y Timer Chamber in Chamber Out � :u:Gr In Ruiv^r Out Opera tar 65 C 5Z) 214 L41L 1-1azt 2 69 C .Time Discharge Exhaust Discharge Product- Dry, :. Timer Chamber. .In Chamber Out Rotor In Rotor Out Operator' 6y�31. ;5 -1 -to F DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish rams (grams). rams 5�.2 I% 7.1+00 Total Solids 2vsnz TVVSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle* Started Dry Cycle: Started @ g y @ y @ 5 " Dischar e C cle Started S. l Temperatures. E Time Discharge Exhaust Discharge Product I . Dry Timer Chamber In Chamber Out I Rotor In Rotor.. Out I Operator y� 3. - a ® L4c4q c43.1..L4c(5 36.S T VVSA DRYER. OPERATIONS. DAILYRECORD l ./ DATE START STOP TOTAL RUN TIME, HRS C 2 I 1st Dryer Batch 2 Fill. Cycle Started @ t0 J �1 Dry Cycle Started @ Discharge Cycle Started / TcmrarasrcrFc r, t= Time Discharge ExhaUSt Discharge (Product Dry - Timer Chamber in Chamber Out �:vtor In Eviur Out Operator �<< CV --F t D.1,2r �.0 1f 'j-f 3- 4�1 3 a E DRYER OUTPUT %e SOLIDS, Dish'Wgt ..Wet Sample + Dish Dried Sample + Dish 0 pflL -� rams)'-' Trams(grams)l% - I lo-Toial�So!ids` 2nd Dryer'.Batch F!II Cycle Started Dry Cycle Started. @ I` Discharge Cycle Started . .. Tem eratures -".r. .. �. .Discharge .Discharge Dry, . Chamber Exhaust'Product: � -'Timer In :Chamber Out Rotor � In � Rotor Out Operator' `✓ C 3-6- j 2 BNsA D DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish rams rams (grams)' '6�Cf27T- x 100 Total Solids 3rd Dryer Batch Fill Cycle Started@ Discharge Discharge I Dry Chamber _Chamber Rotor- TVVSA DRYER. OPERA I IONS DAILY RECORD I DATE ' START STOP TOTAL RUN TIME, NRS 1st Dryer, Batch Fill Cycle Started @ �- -( Dry Cycle Started @ F 6 4 Discharge Cycle Started @ <- Time Discharge Exhaust Discharge Product Lj1 y i imer l,hamber In Chamber Out Rotor In ��viuf Out O erator z-o. 46 �Iz( 14 z� .) ).r4+ "D- '1-4,36 AVA'is �, �14 .�: :.-Tine Discharge Exhaust' Discharge Product - Dry, : "Timer chamber In Chamber Out Rotor In Rotor Out Operator' 6 3,3� y zt Woo LvZ-I - 72- `-1V (3 ` yx - 3,y �J DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample +Dish Dried Sample + Dish rams rams rams y� 3l� x1oo= /o Total Solids 216/12 3rd Dryer Batch Fill Cycle Started ,@ TVVSA DRYER OPERATIONS DAILY RECORD Dry Cycle Started @ Discharge Cycle Started @ Temperatures. E Time Discharge Exhaust Discharge Product I . Dry. Timer Chamber In chamber Out Rotor In Rotor,. , Out Operator 0 T VVSA DRYER. OPERATIONS DAI LY' RECO RD DATE START STOP TOTAL RUN TIME, HRS 1st Dryer Batch p lam, r FillCycle Started @ _ Dry Cycle Started @ D Z z Discharge Cycle Started @ `7 • Tcrnncr�bttrcc Cr r_ Tim/eI' Discharge Exhaust Discharge Product D; y Timer Chamber In Chanuer Out Rotor In Rutur Out/ Operator )qq q -3 M' . �i DRYER OUTPUT % SOLIDS. Dish Wgt' Wet Sample +Dish Dried Sample + Dish rams rams rams :x 100 = ' % Total 2nd Dryer:Batch :. 3 .j Fill" Cycle Started 1.. 7 Dry Cycle Started @ :' 'Discharge Cycle Started @ Tem eratures . .Discharge Discharge Dry, ; .Chamber. ..-Time Exhaust -Product Timer In :chamber OU Rotor In Rotor Out O erator I 0 15 43 3:©D . `7 l �� t�r. 3 35: - C. DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample +Dish Dried Sample + Dish rams rams . rams x 100 A % Total Solids V6/12 TVJSA DRYER OPERA.T IONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started'@ i 3 Dry Cycle Started @ 1 Discharge Cycle Started @ Temperatures r Time Discharge I Exhaust Discharge I Product I Dry Timer Chamber In Chamber I Out Rotor to Rotor.. Out I O erator -j )0o5;o 4C/,/ I LI �a� y s V36 Yys 3�2_ 6'`Iy 101 1. fly Yys� YL/a Yy 3��. DRYER OUTPUT % SCUDS. Dish LpJgi " `Jifet Sample.=Dish Jried Sampie + Dish 1 lams rams rams 1 4 L2 as�1 x100=. .. �o. .. o Total -Solids.._ :. . Alarms Commentsts �.. . •_ jaY �. or t-A LA gam'- --r-M+ 0: l i t-fems . 3 1 - ..�:.tb-"G1�Y �(i��ir�r1 �XV1G�4Li.�� -�' �� l �.. •�_ � !hc.0 �4'�/'. - • �. .. � :. �_ l-�l/.!} �•.-' �i.�r��' pf �'' ��te' : .0 � tit_' c�(7�� 6 .. j� 'CIS �c % f I WSA DRYER. OPERATIONS DAILY RECORD DATE'' t _ : START' STOP TOTAL RUN TIME, HRS 1st Dryer Batch _ Fill -Cycle Started L7a Dry Cycle Started @ 7. 13 Discharge Cycle Started i Time Discharge Exhaust Discharge Product Dry Time Chamber In ChambervtGr Out in Out O erator �z=�3 11 3V7 V;© � � ,33 �� 3 �77 9: 3 195 �b `¢3 `� ..�55. DRYER OUTPUT % SOLIDS. Dish'Wgt Wet Sample +Dish Dried Sample + Dish t rams rams rams .x,100 % Total Solids 2nd Dryer .Batch Fill C cle' Started d ".2 2 ' Dry C vcle Started @< Discharge Cycle Started - Teri • eratures .r - -. .. Trme .Discharge 'Exhaust_ ''•'Product° Discharge Dry. ; -Timer Chamber. . In - :Chamber,. Out Rotor In Rotor Out Operator 6. `od d" ')t3(e DRYER -OUTPUT % SOLIDS Dish Wgt 'Wet Sample +Dish Dried Sample + Dish rams (grams). rams �'z7Ys73 . x 100 = 9 "5, �L.) ° � %Total Solids 216h12 l l T VVSA DRYER OPERATIONS DAILY RECORD 3rd Drver Batch Fill Cycle Started @ - [ Dry Cycle. Started @ JC Discharge Cycle Started @ V Tamnarati irac c � • . Time Discharge Exhaust Discharge Product I Dry Timer Chamber In Chamber I Out Rotor In Rotor.. . Out OperatorM C" eD' 3137 j b 0 9 V3.4 'N 312, . 321-/ 1-19.3 T VVSA DRYER. OPERATIOf S . DAILY RECORD r DATE j? START yy STOP TOTAL RUN TIME, HRS 1 st Dryer Batch „ 2 c S11:13. Fi!! Cycle Started �a7 ! 3:J Dry Cycle Started C Discharge Cycle Screed L Time Discharge Exhaust DiSch argG Product DIy T lmer Chamber In Chamber oul Rotor In Rotor Out Operator qA g g -=t45_- 4Lt D -q4S- �3 .:.Time Discharge 'Exhaust' Discharge -.Product:, Dry:: _ 'Timer '` Chamber. . 1n - Chamber Out Rotor In Rotor Out O erator rag - / D o �64,5_ l 4,5 445 35,5 CD . , 6-3- . H 1 6 3�1 DRYER.OUTPUT % SOLIDS Dish Wgt Wet Sample +Dish Dried Sample + Dish rams rams : rams 17 x100= ✓ � �. b % Total Solids vs„z T VJSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started@ Dry Cycle. Started @:Y� Discharge Cyele Started @ Tem eratures. s Time Discharge Exhaust Discharge Product I Dry Timer Chamber In chamber Out Rotor In Rotor.. : Gut Operator �{,37 �� Q s� Ny6 `� � �� 33Z -too ; L 7 o t y 9,5' 9 Li y DRYER Cu TPUT °o SOLIDS. Dish 4RJgt 'Jl1et Sample.=Dish Dried Sample f Dish. rams rams rams 1 ` goo 1 0 :.: X Total. Solids. . v.: • Alarms or Comments . T VVSA DRYER. OPERATION S DAILY RECORD DATE -f START STOP . TOTAL RUfU TIME, HRS / 7� 11 V 1st Dryer Batch 3 P� ! aar Fill. Cycle Started @ Dry Cycle Started @ T Discharge Cycle Started P ZH • Tcmnara�ic�ac �t= ' Time D•iSChaFgc Exhaust Dischargeu "Product ED . -y , Timer Chamber In Chamber OUt � :utGr In Rvtvr Out O eratGf �.�• g. ' .0. `.)P VAI*�5 3 7 - c • - 1` #3 46 3ss . (�24 DRYER OUTPUT % SOLIDS: Dish'Wgt' .. Wet Sample +Dish Dried Sample + Dish rams rams rams -Time .Discharge Exhaust Discharge Product Dry, Timer ..Chamber. , In Chamber ' Out Rotor In Rotor ' Out Operator' a : D D. 0 : /Lo 4 ) . 4S (� DRYEROUTPUT % so.CC'7C,� x 100 2/6/12 Total Solids T WSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started'@ Dry Cycle Started @ / Discharge Cycle Started @ Temperatures. Discharge Discharge I Dry Chamber Chamber Rotor Rotor. Time Exhaust Product . I Timer I In I Out in Out U erator.. 3 3 6 7 Li y ,s ° 15 p `l ys y3s y9-r, '71 I VVSA DRYER OPERATIOI�S . DAILY.RECORD DATE START STOP TOTAL RUN TIME, HRS ©G� 7 f 1st Dryer Batch Fill-Cycfe Slatted @ , Dry Cycle Started C - 0O Discharge Cycle Started L ?cmrcraysorac «- Time Discharge Exhaust Discharge Product LD Pi Timer Chamber In Chamber Out F7otOr In Rvlur Out Operator 9.`,00 i C(7 . 0. 1 v 3 -71 3L,6. 311�-1 ZL1 . Y i q 15 U S0 14 5H H (-(-� z8 a�j .i o :.. Q : I �( v I OL (-t �f : -Time Discharge 'Exhaust Discharge Prod uctr Dry, Timer Chamber. . 1n Chamber Out Rotor In Rotor Out Operator' a : 3Gi . I 3-7 cy. 5 Gi b z� g 3 -2 `. 3o 1. 17 0 00 .1��3g ..324- DRYER OUTPUT o SOLIDS Dish Wgt 'Wet Sample +Dish Dried Sample + Dish rams (grams). r � / r ms 7 % Total Soli T Vx(SA DRYER OPE1 ,4Ti NS DAILY RECORD 3rd Dryer Batch L10 Fill Cycle Started'@ �� Dry Cycle Started r. @ , Discharge Cycle Starred @ Tem eratures. F " Discharge Discharge I _ Dry .Chamber chamber .Rotor Rotor.. Time Exhaust Product Timer in but • in Out Operator . j o i,�� U v �v L)� V q 17 DRYER OUTPUT % SOLIDS Dish �RJgt ' TamS `11at SamVle,= Dish. rams Dried Sample +. Dish. rams • • T I/VSA DRYER. OPERATIONS DAILY RECORD DATE S�rr`I� —I- L ' START STOP . TOTAL V RUN TIME, HRS � U 1 st Dryer Batch Fill -Cycle Started @ Dry Cycle Started @ - J� Discharge Cycle Started Time Discharge Exhaust Discharga Product Di- Timer Chamber In Chamber Out Roor In Ruivr Out Operator s 0+ 3(o '_5 i 0 2_2- 3 L4 Zee 4 2-�-15 t 5 � L4L H3 � ~ tom . � i L.Lf:(�. 14�C �f. %SOLIDS, DRYER OUTPUT Dish Wgt rams ..Wet Sample +Dish rams Dried Sample + Dish rams . ,C-. . X 100 = v�, /� G % 9 % Total Solids 2nd Dryer*Batcht. .Fill C cle Started Z C7� ' D Cycle Started :..y.. @ :. Dry .y. :.@ `z,• �i Discharge C /cle Started - 9.. , 1, @ Terri � eratures :z.F . Time Discharge Exhaust ' Discharge '--Product ' Dry, Timer Chamber. . -In chamber Out Rotor In Rotor Out Operator' 4 Z, 4 .: U 0- `. 3� a�' L U[' Lr 31. t_1 Ll :k If� n l50 :yam/js 3 �k5 z ' ". 0 06r_5 q Y�.: y,- `to- q L/6- DRYER OUTPUT % x100= 2B/12 +Dish DL ro,�, . �/.�:5� % Total Solids TVVSA DRYER OPERATIONS DAILY RECORD (,pCJS , 0.v� 3rd Dryer Batch Fill Cycle Started @ 3�sS Dry Cycle Started @ '3`� Discharge Cycle Started @ Teeratures . m Discharge Discharge I _ Dry chamber chamber Rotor Rotor.. ,; Time Exhaust Product Timer In Out in Out G erator �.� yvD f , z-v =to �� v r�0 �1y� y3 v j � 7; ; °o C�Y�� OUT PUT SCi��s. Dish L"Jgi `fat Sars�pla.= Dish Dried m+ Saple. Dish dams rams ' raps o TWSA DRYER OPERATIONS DAILY RECORD DATE 5`ZS L, START STOP. — RUN TIME, HRS C� �% �� 7. 3 % 1 st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ Temperatures OF TOTAL Discharge Cycle Started c7' l Time Discharge Exhaust Discharge Product Dry Timer Chamber In chamber Out perator '3%52 l � �� s i-CL`. Z O tLF) Q4 0(a MR �,.i ,. 3 2 9 U Li Y �-4 3 `2 �`�� ( �� eft-t( �� S DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish ' / / bid (grams) .(grams) - (grams)___J' I'll /(p 9�i` mac.�5 x100= 90, -f-S 7- % Total Solids 2nd Dryer Batch Fill Cycle Started @ ` Dry Cycle Started @ l ; y Discharge Cycle Started @ 3 H Temperatures OF Discharge Time Exhaust I Discharge I Product ' Dry Timer Chamber In chamber Out Rotor In Rotor Out —O-p{_erator 'Z,`• 22 � °° 3( -1 (4-f C� ��F7 (Q %,� .�••I7�, 3/Ltd ?Q(,. / X 2-1 0 o,- �50 5 q qq5 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (gramps) grams) (grams) ;� )J1 0, 1 0 �� 7/, 7 )-3 6 % Total Solids /12, 6/23/14 ' ��iL f RCIJVRLJ i F:, 3rd Dryer Batch r Fill Cycle Started @ 3 s� -Dry Cycle Started @ y� Discharge Cycle Started @� Temperatures. -OF LD Discharge Dry Chamber Chamber Rotor Rotor Product Timer In Out In Out O erator ��o v [ -5" L1 LC � �1 DRYER OUTPUT % soupsLishigLt��e Sample +Dish Dried Sample +Dish (grams) (grams) � , 3 cf o 3,L60 6v /o Total Solids Alarms or Comments 1 • TWSA DRYER. OPERATIONS /DAILY.RECORD DATE (-,2 Q �✓ (START j STOP TOTAL RUN TIME, HRS 1st Dryer Batch FiII Cycle Started @ Dry Cycle Started @ %• 3 S Discharge Cycle Stariea @ Tirrie Discharge Exhaust Discharge Product LA-Y Timer Chamber In Chamber Out Nivwr In RlOtOr Out Operator 3:).5� 1 /, ;'4(0 ::1 l bo 4362 +4 '375 7 1 y3 .: . 0.410 - [,. DRYER OUTPUT % SOLIDS. Dish Wgt Wet Sample +Dish Dried Sample + Dish rams rams rams - X1•oo= ri�jr ` .6: y�'j l 'yj (a ' % Total Solids 2nd Dryer .Batch � / Fill Cycle Started @ `.Dry Cycle Started @ . Discharge Cycle Started '@ o�. Teri eratures ".r �. ':-Time .Discharge_ 'Exhaust ' ,Discharge ---Product:. Dry, .:. Timer Chamber. 'In :Chamber Out Rotor In Rotor Out Operator' a®a�� .1101 =3V. C)i I 61 3g 06 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish rams rams rams - �l x 100 = ,, [;? ' . %Total Solids -D.3 . 2/6/1 2 T VVSA DRYER OPERAMNS DAILY RECORD 3rd Dryer Batch Fill Cycle Started@ r Dry Cycle Started @ S Discharge Cycle St,. @ f V Tem eratures, Discharge Discharge I - Dry .Chamber Chamber Rotor- Rotor. ' . Time Exhaust Product Timer In Out In Out Operator . 00 O. C /3 �'% �/ 3 3 Iq;5� �; �b� �y� Cl3) 1:V5 '. O 1 c�Y�� cu ru T % sc�;e . Diish L"(gt tifat'samp;e.= Dish Dried Sample +.Dish. rams rams rams Total. Solids. hN fj .^ Alarms or Co55 t mments f i WSA DRYER.OPERATIOi�s DAILYRIlECORD DATE . START STOP TOTAL RON TIME, HRS �-23f Dryer Batch Fill -Cycle Started Dry Cycle Started @ Discharge Cycle Started @ cmr.=r�-nrac 4lG Time Discharge Exhaust Discharge Product Ui y - Timer Chamber In Chamber Out i :o or In FZo or Out Operator 7 06 jqVn 0 `I36 yy,� 3 yG TS74- -o %-I �S. Li 3C y� to C/yy:..3y. DRYER OUTPUT % SOLIDS: Dish'Wgt' ...Wet Sample + Dish Dried Sample + Dish rams rams -.(grams),� o v. x'100 = . L �C� % Total Solids 2nd Dryer.Batch : FiII. Cycle Started'. Dry Cycle Sfarted @ 'Discharge Cycle Started @ :..:....: Temperatures '` r , . .:.Time .Discharge Exhaust Discharge -Product Dry.. Timer Chamber . 1n :Chamber Out Rotor In .Rotor Out : Operator' DRYER.OUTPUT % S( _IDS Dish Wgt Wet Sample +Dish Dried S rams (grams). c x100= + Dish % Total Solids TV11SA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch _ Fill Cycle Started•@ Dry Cycle Started @ Discharge Cycle Started @ -- Tem eratures Discharge Discharge I , Dry. Chamber Chamber ROtCf" Rotor." , Time Exhaust Product Timer In Out In out Operator . DRYER OUT PUT % SOLID" DCsh W.-1 lams tJ1let Sa ' Ple _ Dish grams)' Dried Sample + Dish rams T VVSA DRYER. OPERATIONS DAILY .RECORD DATE START STOP TOTAL RUN TIME, HRS 1st Dryer Batch FiII.Cycle Started @ Dry Cycle Started @ �- %� Discharge Cycle Started 1 / cmr:: ras t�ac 4 P- Time Discharge Exhaust Discharge Product v y T imer Chamber In Chamber Out In Out Operator ,90p 246p .37.E 'Y0 CZ J 03 S� ' .341 3 ' 450 p b q DRYER OUTPUT % SOLIDS: Dish Wgt' . Wet Sample + Dish Dried Sample + Dish ....... rams (grams), (grams). ' x 100 =�j j f i:. i �J at ` .. (ci . % T otal Solids. 2nd Dryer'.Batch Fill Cycle Started @ �'= ap .Dry Cycle Started @ Discharge Cycle Started @��_ :...:.:. Temperatures F Discharge Discharge Dry, ; Chamber. 11me Exhaust Producfi Timer . In :Chamber Out Rotor In Rotor Out O erator DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish rams rams - rams t� .0' x100= � •� 216/12 Alk I /o T tal Solid . /_' /�� i VVSA DRYER OPERAT IONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ Dry Cycle. Started @ C>k 6 �Discharge Cycle Started @ Tamnarnfiirac 8 I= Discharge Discharge I . Dry. Chamber Chamber Rotor Rotor.. Time Exhaust Product Timer I In I Out In Out j Operator - �t yi y C/ 3 z 3 -3 Z 3;/' Coy Ll L,j ,5 - y 3 L/ �/ 321 f Aft iWSA DRYER. OPERATIONS DAILYRECORD DAT.E-6 —,-aa START STOP TOTAL RUN TIME, HRS 1st Dryer Batch Fill -Cycle Started 2rted @ t, %.L40 Dry Cycle Started' @ T Discharge Cycle Started [5 off Time DiSCh2Fge Exhaust Discharge Product D,-y Timer Chamber Chamber Out F-otor in ;Rotor Out �6) v 1 qDj a3s Efl f q f3 6 LIT 43(ol -7 12) t). 3 .,3,7 4:50 -7 91 .)44 Qj DRYER OUTPUT %o SOLIDS. t Dish'W ' 9. .Wet Sample + 'Dish' (grams 3.(grams) Dried Sample + Dish (grams) GG F73 X'I 00= -iotal Solids 2nd Dryer'Batch Fill. -Cycle Started :Dry Cycle @ '. C t.ie Started Tent perat ures :.-Time Discharge 'Exhaust Discharge .,Product Dry.. Timer Chamber .In Charriber Out Rotor In Rotor Out Operator .. JA -45 199, l a 4s -Aq J � DRYER OUTPUT % SOLIDS Dish Wgt A/Yet Sample +.Dish Dried Sample Dish (grams) (gr2MS (grams) Sample + Dish rams 9 c) Q)i X 1,00 % Total So 216/12 T GVVSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch i _ Dry Cycle Started @ �JJ Discharge Cycle Started %UJ - g Y.' @ Fill Cycle Started @ Tem eratures. c ` Discharge Discharge I . Dry Chamber Chamber I . Rotor-. Time Exhaust Product Timer In Out - In Out Operator � a: o q /+ 3-45 f V, � � o VL/7 Y" .�/y,7��. %©7D .14Y`l V3 YVY 9V_5_ 1/z� yys s� 11 32 DRYER OUTPUT %'SOLID ON g a r j ...: x 100 `%,Total. Solids. - Alarms or Comments : j } . ' e - 9113 r / y Dish W.gt . `pjet Sample - Dish Dried Sample +. Dish rams rams " lams r T WSA DRYER. OPERATIOItJS DjAILY.RECORD DATE .—, START j STOP TOTAL RUN TIME, HRS 'c I a� 1st Dryer Batch / Fill -Cycle Started @ �° ``� Dry Cycle Started @ Discharge Cycle Started @ .' T=mrar=N'Trac r, r- Ti �e Discharge Exhaust Discharge Product Diy Timer Chamber I , Chanuer Out In R,Gtur Out Operator gar 1� . 41 - (�Zo DRYER OUTPUT % SOLIDS. Dish•Wgt' Wet Sample + Dish ' ' Dried Sample + Dish i 0 ' J rams rams rams L. % II otal Solid 2nd Dryer.Batch . :..:. 'Fill. -'Cycle Started: @ '� Dry. Cycle Started @ -Discharge Cycle Started @ j Tern eratures - -' .Discharge Discharge Dry..: � .Chamber. .-Time 'Exhaust - -Producfi ' 'Timer' -In :Chamber Out Rotor In Rotor Out Operator' � R C) V D D . j6t #c? -'k4t-57 CD DRYER OUTPUT % SOLIDS Dish Wgt 'Wet Sample +Dish Dried Sample + Dish rams rams rAms �' / /o Total Solids T V\(SA DRYER OPERAT IONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ Y Dry Cycle Started @ Discharge Cycle Started @ Temperatures. " Time Discharge Exhaust Discharge Product I . Dry Timer Chamber In Chamber Out I Rotor In Rotor. Out I Operator. 0*� 3, f3 d � �1Y7 �3.� Y�� 71 y; 3 3 �� Li y y 3X VY S -V �.S- J;-9 5,23 g,5 .vy�. L y37 VY� �� I VVSA DRYER OPERATIONS DAILYRECORD DATE Lo START STOP •T0TAJ_ RUN TIME, HRS 1st Dryer Batch . 'ii Fill -Cycle Started @ Dry DCycle Sta rted @ Discharge Cycle StartedCa) r-- rn n=rn'i i r;=c 4 t_- IT to v Discharge Exhaust Discharge Product Di y Timer Chamber In Chamber Out n Out Operator T q00 �3 3- 1. ADD 2-33 r)). 1� 9 46 f3 7 44 6 Y5 4,3 *�5 .3 7, 60 i L7 L/6 ),11 '129 DRYER OUTPUT% SOLIDS. Dish'Wgt' ..Wet Sample +'Dish Dried Sample + Dish .(grams) (grams). (grams) Total S ofids 100 % 51 2nd Dryer'Batch - Fill - - Cy' le'*Staried t. @ 0/ ry Cycle .Sfarted @ bischarge CycleStarted Tcmn r= r= :.-Time Discharge 'Exhaust' Discharge -Product- Dry., Timer Chamber- -in Chamber Out Rotor In Rotor Out k 3 3 A3 -1 q 4L5 H,37 3 74, V ''I . 2-7 5570 DRYER OUTPUT %'SOLIDS Dish Wgt 'Wet Sample t.DDish DriedS@mple+Di h (grams) (grams) (grams) x 1,00 216/12 d L'o TVVSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch r a D C, cle Started J Discharge Cycle Started @� Fill Cycle Started @ Dry Y @ .. . Tem eratures. " Time Discharge Exhaust 2 53 3 ."! I g q, 3 3 Z ,5j'5 7 DRYER OUTPUT % SOLID Discharge {product I . Dry Timer Chamber In I Chamber Out Rotor , , In Rotor. Out Operator. - gaba� oo Dish W.-t . 11'Jet'Sa.�gle = Dish Dried Sample . Dish rams rams)* rams T VVSA DRYER. OPERATIONS DAILY RECORD DATE // START STOP j TOTAL RUIV TIME, HRS l� a I ' lSz 9 ` 1st Dryer Batch FillCycle Siarted @ 9 . Dry Cycle Started @ T Discharge Cycle Started Ca) _ / —,�rri rcroFn roc Time Discharge Exhaust DiSC+iargc Product u+y Timer Chamber !n chamber Out in .uwr Out Operator _ 77' Jqq a 37ff- 3? a a3a C40 DRYER OUTPUT %o SOLIDS, Dish'Wg.t- . Wet Sample +Dish Dried Sa4e + Dish rams). rams rams } i. . vv J D� D % Fi x 100 o� tal Solids 2nd Dryer '.Batch _ ; Fill. Cycle] Started 1 `Dry Cycle Started @ `Y .Discharge Cycle Started @ v� Tem 'eratu�es '` r . ...Time Discharge Exhaust' Discharge --Product- Dry.,:. Timer Chamber- In Chamber OutOut Rotor -in Rotor Out Opera tor l a 3 0 ' 1 . .q� �4� e3 'z� c ,Q ,� r3 DRYER OUTPUT % SOLIDS Dish Wgt 'Wet Sample +Dish Dried Sample + Dish rams rams . rams 5 .0 F, r x 100 = % Total Solids 2/5112 T VJSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ �} Discharge Cycle Started @ C� Temperatures. `- Time Discharge Exhaust Discharge Product I . Dry Timer . Chamber In Chamber Out I Rotor -in Rotor Out I Operator- / 00 ,LN yes y y y -CP 1:sC) Sys b l T VVSA DRYER. OPERATIONS DAILY RECORD DATE START STOP ! TOTAL RUN TIME, HRS (ix9,1b- 1st Dryer Batch Fill -Cycle Started @ Dry Cycle Started @ D Discharge Cycle. Started -mperat�ures i- Discharge Discharge Dr'y Chamber Chamber i RV^tor Rotor Time Exhaust Product Timer In 0�ut In Out Operator l.� . fir. DRYER OUTPUT % SOLIDS:-Dish'Wgt' . Wet Sample +Dish Dried Sample + Dish :- rams rams rams �6 ` ( ` % Total -Solids 4 ' 2nd Dryer Batch Fill Cycle Started .@ % r� Dry Cycle Started @ i L Discharge Cycle Started '@-.= �Z Tempe tures F. .-Time Discharge Exhaust Discharge --Product Dry. ; 'Timer Chamber . 1n Chamber Out Rotor In Rotor Out O erator ' 'RYER OUTPUT % Gt12 IDS Dish Wgt Wet Sample + Dish Dried Sample +Dish rams (grams). rams 3rd Dryer Batch Fill Cycle Started @ Discharge Discharge Dry Chamber Chamber Rotor Rotor. TWSA DRYER. OPERATIONS DAILY.RECORD DATE 3 tL --= START STOP . TOTAL RUN TIME, HRS " a I / 1 4 1st Dryer Batch ,q , Fill Cycle Siarted @ Dry Cycle Started @ Discharge Cycle Started @ Time Discharg E--haust Discharge Product Dry Timer Chamber In Chamber Out Rmor In Roior Out Operator 3?`/ 3 7 2C37 r0 3 A42" = 3 2L7 f C DRYER OUTPUT % SOLIDs: Dish'Wg.t' Wet Sample +Dish Dried Sample + Dish _ rams rams ' rams U.t x100= �--� 5' 0 vvv ( % Total SOIIdS 2nd Dryer'.Batch Fill:-Cycle'Started'@ _..Dry Cycle Stained @ Discharge Cycle Stared @ ' S _3 Tem eratures `.r. •--Time Discharge 'E;;haust Discharge Product- Dry.: "'Timer Chamber. . In Chambe O!tt Rotor In Rotor Out Operator' . Z ZOOtq o yy L-1 350 �7 G .5 3 ';,2o l 3Q 5.. -/ 9-3 ' " A 44 (�t ) 8 k �4 S c r .S �+ DRYER OUTPUT % SOLIDS Dish Wgt 'Wet Sample + Dish Dried Sample + Dish rams rams rams — x 100 = rr J.� % Total Solids Am T VVSA DRYER OPERA T IONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ Discharge Cycle Started @ Tem eratures Time Discharge Exhaust Discharge Product I . Dry Timer Chamber In Chamber Out Rotor- In Rotor. : Out Operator - TWSA DRYER.OPERATiOiqS DAILYRECORD DATE — V START STOP TOTAL RUN TIME, HRS � 6 1 st Dryer Batch Fill -Cy c . le Started @ --i,� '"�i Dry Cycle Started @ Discharge Cycle Started @ TBI�"tr',2rafi �rac � �'� Tirrie Discharge Exhaust Discharge Product ui y Timer Chamber In Chamber Out Rotor In 1Ruiar Out Operator q.5 j b 5 p'-44LJR 9 R of (,-- C q...:6, . q46. .33 - 44 ;21 C11 , o E4 DRYER OUTPUT % SOLIDS: -Dish Wgt .. Wet Sample +Dish Dried Sample + Dish - rams rams rams ( 3. 9 -7, l .` 100 x S °L o Total Solids' 2nd Dryer=Batch j - Fill Cycle Started @ DryCycle Started @ Discharge Cycle Started T .' Time Discharge Exhaust ' Discharge -Product Dry.. Timer Chamber. . In ..Chamber Out Rotor In Rotor Out . Operator' 41 b A6q LI� � _ T'bb b t� i4,q� .` I J 4q& 3y: cla DRYER.OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish' rams srams rams �j �a X100= % Total Solids .2/6112 TVVSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch a5 2 y Fill Cycle Started @ 2!EE!�— Dry Cycle Started @� 3 , Discharge Cycle Started Temperatures. G " Discharge Discharge I Dry Chamber Chamber Rotor Rotor. Time Exhaust Product Timer In Out In Out Operator 3 37 .;L0 �l0 3y-3 ��(� DLO j �I3 ��3 �� 1_ Cl 3�3 6;57 12-0- .(ys (/ys J� T VVSA DRYER. OPERATIONS DAILY RECORD DATE j. START STOP TOTAL RUN TIME, HRS - I lSt �, \T3 I 1st Dryer Batch Fill Cycle Started a@ Dry Cycle Started @ 7 1 Discharge Cycle Started Tire Discharge Exhaust Discharge Product Di y Timer Chamber In Chamber Out ivicr In Rover Out Operator 2, o '30 1�(01� LZ '-L4. ii -Time Discharge 'Exhaust Discharge .,Product • Dry.. Timer ' chamber . 1n Chamber Out Rotor In Rotor " Out - G erator 7 170 C DRYER.OUTPUT % Dish Wgt Wet Sample +Dish Dried Sample 1 Dish rams rams (grams) �_ L _ (6 f,c21 r Z ;� .l� `i 3 �L �7 x 1:00 = % Total Solids T VVSA DRYER OPERATIONS DAILY RECORD I. 3rd Dryer Batch r - U Fill Cycle Started,@ Dry Cycle Started @'a Discharge Cycle Started @ Tem eratures E ' Discharge Discharge I . Dry Chamber chamber Rotor Rotor. Time Exhaust Product Timer In Out In Out I Operator �zs.. - D 2 �Yk [c� ! �s 3�q �J TWSA DRYER.OPERATIONS ' DAILY RECORD DATE ... f 1. START STOP TOTAL RUN TIME, HRS .1 J J ='' L. 1st Dryer Batch FiII Cycle Started @ �? '"� Dry Cycle Started @ �- Discharge Cycle Started @ l U= l emnemtt tr es t,- Time DISCharge Exhaust Discharge Product L) y Timer Chamber In Chamber Gut NMor In u%Or Out G erator n;24:� cf) k Da j p ZZ00 c. 3 MS 913 J 0 14 zq b `lJ . DRYER OUTPUT % SOLIDS: Dish Wgt Wet Sample +Dish FDried Sample + Dish -(grams).- rams rams cz� � Q zf. : Q. � x 100 q t o %TOial SOIIdS 2nd DryerBatch' ; : :....:.'.. Fill CycleStarted / 7 D C 'cle Started tf �' ' Dischar e C /cle Started Y @ ry. Y.. @ ��— g . l . @` . .. Temperatureseratures :> r . - : Discharge Dry .Discharge TimeExhaust Product: . _ . Timer Chamber . ' In ,Chamber Out .Rotor In Rotor Out Operator' C 3`t �3 34, 61-2 DRYER.OUTPUT % SOLIDS Dish Wgt Wet Sample +Dish Dried Sample + Dish' rams rams . rams /— j io t7D 25 ,Z S Z x100= �q i % Total Solids Ord Dryer Batch Fill Cycle Started'@ TVVSA DRYER OPERATIONS DAILY RECORD —y Dry Cycle Started @ t Temperatures. c Discharge Cycle Storied @ J- Discharge Time Exhaust Discharge I Product Dry Timer Chamber Chamber in Out Rotor Rotor. : in Out tor {r 2 5 y� CM Nerator y� 3y�� -z� �f4 `-f� -%ly OA j. CC 15Q L(gC3 Y 145 � 3-73 , D5 i DRYER CEiTPUT °o SOLID ". Alarms or Comments Dish aR�yt✓et Sample._ Dish Died Sample Dist;-__-` "rams rams rams / 1orz� ztiyo'ZS� `�..I� nX 900 Total:SolidS. TVVSA. DRYER OPERATIONS DAILY RECORD DATE J ( 1 START STOP TOTAL e V/ . RUN TIME, HRS 1st Dryer Batch Fil!-Cycle Started @ 5.3' Dry Cycle Started @ Discharge Cycle Started / -m�?f a1i Fc P- Tinie . DISChaFge Exhaust Disci lal ge Product D i y Timer Chamber In chamber Out Rotor In Ruic�r Out Operator )1 �L) D.: I b I 33 1 44 j s30JE 16b Time Discharge Exhaust Discharge -Product Dry, Timer Chamber. . In :chamber Out Rotor In ..Rotor Out, Operator' 2D9 43 2 �f l0 ' -v i ab 143 4j-f :3 l 7 ei =: U6 S ly ; DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish rams rams rams O -1 ,. % Total Solids 216/12 _ . I VVSA DRYER.OPERATIOIrlS . DAILY.RECORD i DATE _ J Q '✓ I , 1 L/. i START STOP. TOTAL RUN TIME, HRS '�q 9 Q 1st Dryer Batch �J Fill Cycle Started @ ' "7 �' Dry Cycle Started @ f Discharge Cycle Started @ 625 Time DischargeDischarge E; haunt Product vi ' g Time Chamber !n Chamber e:vtGr Ou't !n R,O or OUt Operator :1 007:1 0 1 -q D� L467 I;zy el 1 o l nT1 44 33 .0 '::.Time Discharge Exhaust- Discharge -Product Dry. 'Timer* chamber- . !n ,chamber Out Rotor In Rotor Out Operator 50 �5D . 4�41 � ,5`7`C DRYER OUTPUT % J6112 i Dish Wgt 'Wet Sample + Dish Dried Sample + Dish rams rams arams ..27, S(nH.5 " c Total Solids T VVSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch . Fill Cycle Started @ � � � Dry Cycle Started @ � • � � Discharge Cycle Started @ _ . Tem eratures E Time Discharge Discharge I . Dry Exhaust ProductTimer chamber chamber Rotor. Rotor„ In Out in Out O erator EV qQ � It 34 .-�� 3 ,'�3 1 c-j,� 43 L-! CfY( �v �� . G(Z t`i (u5 Cf ()(2 DRYER OUTPUT % SOLID Dlsh -gi .1NO Sample.= Dish Dried Sample -!- Dish- � ! dams rams rams D x.ioo=.....c �'[�.r • ::. : `/o Total:Solids.. mments, Alarms or Coru L. ' `,I f �P � �` f I �I �� Orb lu t �' ` Gi � " U � . j S TWSA DRYER. OPERATIONS. DAILY RECORD (. ' DATE STAR�T1 STOP - TOTAL " RUN TIME, HRS `• I a.'�C 1st Dryer Batch Fill Cycle Started @ ( - �f Dry Cycle Started @ l Discharge Cycle Started @ c '-�rnDera„�res r.,c JD15Ctiarge Tulle E: IlauSt Disoh urge Product Dry T Inver Chamber In Chamber Out Rviiir In Rotor Oui O orator 1. c1. U Q LiOJ 4 G .• �Z_3 q Co B � 41IV /f3S_ 44 13� � If 3 DRYER OUTPUT % SOLIDS: Dish•Wg.t :,.Wet Sample +•Dish Dried Sample + Dish_ _ .... rams rams a; rams q (� i. 3.. � .. x100= %Total Solids 2nd Drye(Batch' Fill Cycle Started @ Dry Cycle Started @ / D 7 Discharge Cycle Started '@_ 02 Temperatures "r Dischar e Discharge Dry. :--Time 'Exhaust` -Product , Timer Chamber :Chamber Out// Rotor Rotor Out Operator - s(p rrIn , //In :6 M _ - 4-f -q35 �P `4146 4,21 '�1'S c . Zj DRYER OUTPUT % SOLIDS Dish Wgt. 'Wet Sample +Dish Dried Sample + Dish rams rams rams . x100D, % Total Solids 216/12 T VVSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started ,@� Dry Cycle Started @ Z U 2 Discharge Cycle Stir ied @ Z Temperatures. �- Discharge, Discharge I . Dry Chamber Chamber Rotor Rotor._ Time Exhaust Product Timer in out in Out Operator ,- Cl 2 L(� Z-Lf C 12 I G -(-(c42 L- L4 of -a�r3 T WSA DRYER. OPERATIOkJS . DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ Dry Cycle Started �, Discharge Cycle Started r Time _ Discharge Exhaust Disci�8gc Product Diy Timer Chamber In Chamber Out .v".Gr in Rvivr Out O erator 3 f11 I 13< a I 6210 Jb c 36 45' 443 4/446 . a c.. Cj '�•Time Discharge 'ExhausC Discharge Product- - Dry.. Timer Chamber. . In chamber Out Rotor in Rotor Out Operator' -14 6 JZ) 35 S 31 C 445, DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample +Dish (grams) (grams) Dried Sample + Dish rams 93 r, x 100 = % Total Solids T VVSA DRYER OPEP. T iONS DAILY RECORD 3rd Dryer Batch Dry Cycle Started @ Discharge Cycle Started @ Fill Cycle Started@ Temperatures. - Discharge Discharge I - Dry Chamber Chamber Rotor Rotor. in Out O erator I Time Exhaust Product Timer in Out , ; t ; TWSA DRYER. OPERATIONS DAILY RECORD DATE START STOP TOTAL RUN TIME, HRSJ 1st Dryer Batch Fill Cycle Started c@ Dry Cycle Started "� Discharge Cycle Started j Tamr.?PATfPPC Pr Discharge Tire Exhaust Discharge Product iir'y Timer hamber In Chamber Notor Out In Rutvr Out Operator 0 396 37R. h 3- : -Time Discharge Exhaust "" Discharge "Product: Dry.: * 'Timer'' . Chamber.. - in ,Chamber Out Rotor In Rotor " Out Operator H1-f 4e31 -q� � 3 ' 619 Z, 3�Q r DRYER.OUTPUT % r_ 2/6/12 iDs Dish Wgt Wet Sample + Dish rams rams Dried Sample+ x100= J6 Z % Total Solids TVVSA DRYER OPERATIONS DAILY RECORD Ord Dryer Batch . Fill Cycle Started @ c� ` .�j Dry Cycle Started @ i d Discharge Cycle Started @ Temperatures c Time Discharge Exhaust Discharge Product I . Dry Timer Chamber In Chamber Out Rotor. in Rotof. : Out I Operator ( 9 '9 So LFQ L43 S L4 4 -Is 1.Z, -j- cll� 19 2 6. 106 L414 S L-( 3 L( U-t.S 36 ; a S `, L4 1 '19 8 Q Sly Lf q15 3 ( L� CqfS . 3 W,7 L( 4 c4 g 2 4c-t S 319 ��-� TWSA DRYER. OPERATIONS . DAILY.RECORD DATE START ( STOP TOTAL RUN TIME, HRS 1st Dryer Batch Fill•Cycle Started @ ,�3 (D' Dry Cycle Started @ 7 ci Discharge Cycle Started @ 16 J ° 1 o Tip je FUS011121rge Exhaust Discharge Product u, y Timer Chamber In Chamber. Out .utGr In Rvivr Out Operator / 9 7 0' bs a-31 n 5o -' -44 6• 1 q3 �1 3.1 co 4---•t,3' .&&- --0 . 9 D ; ....'f5 • 6-1-4- 7- 61) DRYER OUTPUT % sOLIDs• Dish'Wgt' .. Wet Sample +Dish • ' Dried Sample + Dish rams : rams rams V. l� ✓� 00 ; �� Total Solids 2nd Dryer'.Batch :. ; . Fill Cycle' Started @ 0. o� Dry Cycle Started @ / Discharge Cycle Started @ - - Tern • eratures - .r. �•. -Time .Discharge_ 'Exhaust' Discharge 'Product-- Dry,.Chamber. Timer'' In ,Chamber ' Out Rotor In Rotor Out Operator � '. 0. 5. 'd-.3 q C' 4) 44 %1� : q3 - /,? ,g Q� or *Y f 3 � 44 DRYER OUTPUT % SOLIDS Dish Wgt 'Wet Sample + Di: rams rams ' c 2/6112 Dried Sample + Dish rams x 1,00 = n % Total Solids T V\(SA DRYER OPERATIONS DAILY RECORD .3rd Dryer Batch Fill Cycle Started @ D C cle Dry . Y Started 5 @ Discharge Cycle Started @ Tem eratures. — Rotor. Out Operator.. , Dry Chamber Chamber Out Rotor- - In Discharge Discharge I Time Exhaust Product Timer In Lt � �� s�( - �� q14 z 'cq--5 Lf C) c�Ya� ci; �C °i°-SOLIDS.Dish l"lyi `J t-Sample = Dish Dried Sample �-_ Dish , rams lams rams c g�P C., ct-.3saQ: 100 = Total.Solids. _ Alarms or Comments TVVSA DRYER, OPERATIONS DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS 1st Dryer Batch Fill -cycle Started @ Dry Cycle Started @ %Discharge Cycle Started' Cq) P! Tirne Discharge E, xh2USt Discharge Product P Lj y Time r Chamber In Chan, ber 01 IL In Rotor Out Operator 1 .71 Al 1 .1 6 T-6—LI-i �, 6 9-.?- -4vo le 2 A5. -56 . q 4, 1_� * . L) -14 cf). L t-f q .1,, L4 -7 S DRYER OUTPUT % SOLJDS: Dish Sample '+ *Dish' Dried- Sample+ Dish r'Wgt'[,Wet rams (grams) (grams) Jj6DS 1 S 1 . D X100= cl_ % Total Solids 2nd Dryer'132tch. Fill.-Cycle'Start' Started @ Dry Cycle Started'(g '- Discharge Cycle Started _ -r6rn' p'-eratures:zF Discharge Discharge Dry, Chamber Chamber Rotor Rotor Time Product° Timer In Out In Out -Operator ;3j 0 D, 106 J *1-)q� -'13`7 J4 q `fib '44 1 4 1 t- � I - z ---3. n )RYER OUTPUT % IDS1 DishV�cgt� Wet Sample +.Dish I (p a (grams). �.Z'S '14 55 3 Dried Sample ' + Dish (grams) x 1,00 % Total Solids T V\JSA DRYER OPEPATiONS DAILY RECORD 3rd Drver Batch . Fill Cycle Started @ Dry Cycle Started g y . @ 5 ' �_ a� Discharge C cle Started Temperatures�- Time Discharge Exhaust Discharge Product I . Dry Timer Chamber In Chamber 1 Out Rotor in Rotor., . Out Operator _3 L4Lcqj CI 3,5 ((� �{Z, 1.2— J—L I WSA DRYER. OPERATIONS DAILY .RECORD DATE START STOP. TOTAL RUN TIME, HRS ob 1 st Dryer Batch Fill -Cycle Started @ 7 Dry Cycle Started @ Discharge Cycle Started - crr�nara`rrac ; t= DISCI 1a, ge Time Exhaust Discharge Product D; y Chamber Timer I^ Ohanber Rotor 01,f. !n Ro vr. Out Operator 01 2317 Y12 .1.gg 0 i� yy y� Sys 3�� t I Z— ./gib y32 j r.°s Z r J 1 �o eJ y :S Y° 2- y DRYER OUTPUT % SOLIDS: Dish Wgt Wet Sample + Dish Dried Sample + Dish - rams rams rams l ;b�-cy z ,�Z-5 a : 9� :.�...: ` 100 = q 5 a ono Total .x f Solids 2nd Dryer*.Batch :. F!I1 Cycle Started @ ..: ::.. Dry Cycle Started @ Z . Discharge Cycle Started '@. Tem eratures `.r. : Discharge_ Discharge Dry, , cHarnber . ;Chamber RotorRotor ':-Time Exhaust Product Timer In Out In Out Operator Vy1(. 6 1�J 0 v I )RYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish - rams rams (grams)' x 100 l % Total Solids . _ s('12 T VVSA DRYER OPERATIONS DAILY RECORD —#-Dryer Batch Fill C .cle Started Y @ D C cle Started �, �� rY Y @ Dischar e C _cle Startedy Z 9 Y Tem eratures . o " Discharge Discharge I . Dry Chamber Chamber Rotor. t Time Exhaust Product Timer In Out in Rotor. out G eratar 32 0-00 a Lk 1, Z Z (q 5 o -C-eL(1 14,�SS 141-�5 3� C� TL-� ZD-'1 iz . Igo o ,�z 17-7 2-0c� �� (� `-�-�� '-t�4 �LA9 Jl-�. I WSA DRYER. OPERATIONS. DAILY.RECORD DATE START STOP. TOTAL RUN TIME, NRS 1st Dryer Batch Fill -Cy cle Started @ _ Dry Cycle Started @ Discharge Cycle Stared @ Discharge Time Exhaust Discharge Product Di y Chamber Timer I^ Chamber � tutor Rutur 011.1t In Out Opera or V. �� : 6 �30 e3�3 �33 �.3. C /)� ,cry/ /)�/�/ 7_ / 39 43 4-4 DRYER OUTPUT %° SOLIDS. Dish'Wgt : Wet Sample + Dish Dried Sample + Dish �u - rams rams(grams)'aL l �.;oS401 .Z;4.4. . c.� .... x100= ... w % Total Solids 2nd Dryer:Batch �i ': •.:: :..:. :..... : Fill. Cycle Started :@ oI .Dry Cycle Started @ � S-q Discharge Cycle Started @_ Tem eratures .r= :--Time Discharge 'Exhaust'Product Discharge Dry.. Timer' chamber . . . In Chamber Out Rotor In Rotor Out O erator ' `i ,14 4 1 J ' 4 35 3 77 1�E I �� j 1` J� f3I" DRYER OUTPUT %SOLIDS Dish Wgt Wet Sample +Dish Dried Sample +Dish rams rams . rams 3a ,Yc(S x100= q % Total Solids J6/12 T VVSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started '@ Dry Cycle. Star ied @ R .3 I Discharge Cycle Started @ Tem eratures Discharge Discharge I , Dry Chamber Chamber Rotor Rotor.. Time Exhaust Product Timer In Out in Out Operator � ,z � 110 � S, 5i poi tz goo T WSA DRYER. OPERATIONS . DAILY RECORD DATE Cam- START STOP. TOTAL RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ !!_�'1 22 U/ "I �J Dry Cycle Started @ G s . � � � Discharge Cycle Started I emperatures= Discharge U lsl+l lal' C DIJI.i lal C DI g� -� y Chamber Chamber RotorFP10LUC: Time Exhaust Protluct Timer In Ol,�t In O erator �a 4q a37 , , v I e o a-f{.3 ?, °I f �+.3514 1 11 y q • 443. 44=qj f el-) DRYER OUTPUT % SOLIDsEDish'Wgt'.. Wet Sample+Dish Dried Sample + Dishs rams rams7. 2 T5TDl9.3 :. _ % Total Solids 2nd Dryer.Batch Fill Cycle Started@ :. Dry Cycle Started @ Discharge Cycle Started @ Tem eratures ` I. Discharge .Time Exhaust Discharge Product Dry.. Chamber- . .,Chamber Rotor Rotor 'Timer In Out In Out Operator r �5 v cjZ PC, i4 j_f ups ' d` ct� rt�� )RYER.OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish rams (prams). (grams)' `3i �5'z5T30,��` 36 ��' D �• ' l % Total Solids W12 TVNJSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started'@ Dry Cyclb. Started . �ted @ D �A Discharge Cycle Started @ q-14 Tem eratures. Discharge Discharge Dry Chamber' Chamber Rotor Rotor.. Time Exhaust . Product I Timer I in Out in I out I Operator 3','2-L( '? ( 2 -L-i o Z- 1-4"�,(n mw(� -ZA15 d�j S 1,c Li 31 H (-(5 1 S 2 -:y LJ Li (41 4(,o Lf 0 2- T VVSA DRYER. OPERATIOkIS DAILY .RECORD DATE `START STOP TOTAL RUN TIME, HRS . 1st Dryer Batch Fill -Cy cle Started @ Dry Cycle Started @ Discharge Cycle Started @ . J DRYER OUTPUT % SOLIDS, Dish`Wgt• . Wet Sample + Dish Dried Sample + Dish _ .. rams rams rams L; 003 j 2-7,. •r.{ U.I �. ��, em s/ % Total Solids 2nd Dryer.Batch Fill Cycle Started.@� ' D C cle Started ry y @ l 1. 1 Discharge Cycle Started @ 3 ,. eratures : `J ... ... .. .. -Time Discharge 'Exhaust'. Discharge ...Product-- - Dry. ; Timer chamber . In Chamber Out Rotor In Rotor Out 'Operator' n s 77 J7d f �3� ..49:)"] 444. z44? )RYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Di: rams rams Dried Sample + Dish rams x 1'00 1 /o Total Solids T VVSA DRYER bPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started'@_ Dry Cycle Starred @ Discharge Cycle Started @ Tem eratures. " Discharge Discharge Discharge Discharge Dry I Dry Chamber .Chamber chamfer chamber .Rotor. Rotor Rotor Rotor.. . Time Time Exhaust Exhaust ProductTimer Product . Timer In - In Out Out In In Gut Gut Operator G erator /dD l5G4 DRYER OUTPUT % SOLIDS. Dish 1,fl . Gams ` V( t'S� mple = Dish Dried Sami)le +_ Dish, rams rams WSA DRYER. OPERAT ioI�s DAILY .RECORD DATE START STOP TOTAL RON TIME, HRS 1st Dryer Batch F ill-Cyc . le Started Dry Cycle Started D . ischarge . Cycle Started Cd) Temperatures Discharge Exhaust 5T 19b. j(65- DRYER OUTPUT % SOLIDS Li to-3 Z Discharge . Dry Chamber Chamber R, Ot 0 r .r ir, o--LU Product Timer 1.9 0LIE in+ OUL 61Operato111, ;'7. 1 4 / 3 �,) � L,'Z7 t, Dish'Wgt' .(grams)'. ..Wet Sample +'Dish Dried Sample+ Dish (grams (grams) .1 63.50 .7 02 - VY- 35-1 - _C_ d'. -_Vj G . Discharge ExhausC Discharge -Product- Dry.,- Timer Chamber. In Chamber Out --Rotor In Rotor Out Operator' 14 is IS VR � l t 00 �-f 3.5 �4 q'5 3 DRYER OUTPUT % SOLIDS Dish Wgt (,grams) WetSample +.D.ish Dried. Sample.+ Dish (grams) (,grams) C)Z15 x % Total Solidg .2/6/12 T VVSA DRYER OPERA I IONS DAILY RECORD .3rd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ Discharge Cycle Started @ Tem eratures " Time Discharge Exhaust Discharge Product I . Dry Timer Chamber In Chamber Out Rotor In Rotor. Out Operator - TVVSA DRYER. OPERATIONS DAILY RECORD DATE START STOP TOTAL RON TIME, HRS 1 st Dryer Batch Fill -Cycle Started @ - Dry Cycle Started @ Discharge Cycle Stared . S Qt�-tnara�nr�c Time Discharge Exhaust Discharge D,- Product Timer Chamber In Rotor Chamber uw, Out In �o-'o, , X L I Out Operator = 50 JqR' 13 9 3 4 51 4161 l g 7 1 2015'0 ;L5 1Y3 S- ,;L77 EO 30 DLO .if - 3& q 4 2)) Yj'o 3S' I J" 6- ,q45:. .,q 35 114 1� a ob ..)q4f5. E. DRYER OUTPUT % sOLM. Dish'Wgt .. Wet Sample +Dish - Dried Sample +Dish - rams rams rams x 100 a:� 3 `. Total Solids 2nd Dryer".Batch Fill "Cycle Started .@ ` Dry Cycle Started @ ` • 5 'Discharge C cle Started @ Temperatures `.r= - .. � Discharge Discharge Dry... Chamber. -Time Exhaust' -Product Timer ,Chamber In Out Rotor In .Rotor Out Opera tor I � 3"7cJ 7RYER.OUTPUT % i _'602 SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish rams (grams). rams x1oo= u o .� / otal solids TVJSA DRYER OPERATIONS DAILY RECORD ord Dryer Batch Fill Cycle'Started'@.. Dry Cycle Staited @ ►0 Disch2'Fge Cycle Started @ Temperatures. c- Discharge Discharge Dry.. Chamber' Chamber Rotor. Rotor. Time Exh2USt Product Timer in out in Out Uper2tor 0(o o 4.05 -S9-1 . L+65- 2--SZ-- --St/J 5,,50 199, (Q -14 I f(o (s 40 2-,D'Z- I I ot 6 0' -Li49 4V� Li(45 S� Z-- -,-tL,,J' iVVSA DRYER. OPERATIONS DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS .1 to le ( U0. 1st Dryer Batch. h Fill -Cycle Started @ .3 Dry Cycle Started @ -71 l Discharge Cycle Started —emDeraL�Lres s' Time Discharge Exhaust Discharge Pror\duct D;y Timer Chamber In Chamber Out tutor Rotor Out Opera or pp `�7 �In } rD 214�t5�' = '57 rQo. o -0 DRYER OUTPUT % sOLIDs: Dish`Wgt Wet Sample + Dish Dried Sample + Dish rams " . rams rams 1,�3Si 24,: �I.Y(I3.,:�( x100= a:71 : 7 � � %Total Solids 2nd Dryer'.Batch Fill Cycle Started @ . t l Dry Cycle Started @ Discharge Cycle Started @ ..: Tem eratures .L r .. Discharge Discharge Dry, Chamber. Time Exhaust Product Timer . In .;.Chamber Out . ,Rotor In Rotor Out O erator •l "ab 43. #,. .36l 0 D" 8 I 6-0 DRYER OUTPUT %SOLIDS Dish Wgt Wet Sample +Dish Dried Sample +Dish rams rams rams x10o= ° /° Total Solids L6M2 TVVS-A DRYER OPERAT IONS DAILY RECORD ord Dryer Batch Fill Cycle Started '@ Dry CycI6 Started @ Discharge Cycle Started @ (0 11 Temperatures. Discharge Discharge Dry Chamber Chamber Rotor. Rotor. Time Exhaust . Product Timer In Out in Out Operator .18 L( 3 L4 1 9 1 1 L135 1-f 14 3 5". C) i q.q 5 , - 1 q 3 � L6 0 -LC(5 L135 LAH -..,5 5 iVVSA DRYER. OPERATIONS DAILYRECORD DATE —/ START STOP TOTAL RUN TIME, HRS 1st Dryer Batch Fill. Cycle Started a@ `� Dry Cycle Started / � /:Z Discharge Cycle Started C �� 3 Tire Discharge Exhaust Discharge Product ED Py Timer Chamber In Chamber Out .vicir in .uwr Out Operator 7-/ 1 q� 1�1 is 3 93 374- 3 93 q3 i CID :v /off' •99 S�) 4L45. /-!3 44 l'� FIV -L4 I 10 DRYER OUTPUT % SOLIDS. Dish'Wgt .. Wet Sample +Dish Dried Sample +Dish rams rams rams -'Time/ Discharge 'Exhaust Discharge -Product- - Dry, Timer chamber . In Chamber Out Rotor In Rotor Out Operator' /"" /" )44L7 a "�7 l of 43fs" qy, - 45 j "407 C' DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample +Dish Dried Sa rams rams r ,2/6/12 % Total Solids T VVSA DRYER OPERA.1IONS DAILY RECORD 3rd Dryer Batch I_r "T Cycle Started @ Discharge Cycle Started r r @ (6 Fill Cycle Started @ Dry Discharge Discharge I . Dry Temperatures. Chamber c '— Chamber Out Rotor-, Rotor. In out Operator:. Time J ,, Z Exhaust 0 6 G Product Timer in 3 0l / ` Z I � 1,(Q 7 3 f A S �t-5 ql-t5 35�� Li Ci DRYER OUTPUT % SOLIDS.Dish t"Jgt . `J`J�i Sample = Dish (grams), Dried Sample Dash rams rams x 900 = Total:Solids" _ Alarms or Comments T WSA .DRYER.OPERATIOf S DAILY.RECORD l DATE % % . — 7 `P START STOP. TOTAL I RUN TIME, HRS{�.c• 1st Dryer Batch r Fill -Cycle Started @ 14 Dry Cycle Started @ l Discharge Cycle Started @ / enlirierctures «1' Tinier Discharge Exhaust Discharge Product Dry Timer- Chamber In Chamber Out Rotor In oCor Out Operator ? ,5 J_//q % �� . t r�� f+ ° ! 4 ' 3q1.. C :.-Time Discharge Exhaust Discharge -Product Dry. - Timer " Chamber- . -In- ,Chamber Out Rotor In Rotor Out Operator' CID < I �i _ o � U � .3 ,5` 44 A5r5 � DRYER -OUTPUT %SOLIDSDish Wet Sample +Dish Dried Sample +Dish . rrams (grams) 71LIC4 z a5 { x100= 2J %`1'� j ��. �•L(t % Total Solids T VVSA DRYER OPERATi014S DAILY RECORD 3rd Dryer Batch Fill Cycle Started *@ J �� Dry Cycle Started @ 3 Discharge Cycle Started @ Tem eratures . 'r Discharge Discharge I . Dry.. Chamber Chamber Rotor Rotor.. . Time Exhaust Product Timer In Out In Out U erator 5', .ctcD 4 (4H e5 S65 jll�j iVVSA DRYER. OPERATIONS DAILY RECORD DATE (= START STOP TOTAL RUN TIME, HRS C > 1st Dryer Batch rr- Fill•Cycle Started @ L�1 ` T Dry Cycle Started @ Discharge Cycle Started @ U Tcmrprayttrac Titre DIScliargc Exhaust Discharge e Product ut y Timer Chamber I; � ihamber. Out i .V ior In Ru tvr Out O erator 7 :I � Q D� ( ,3 95 7 ;325 a34 'Eft Wo _J3 DRYER OUTPUT % SOLIDS. Dish"Wgt" .:Wet Sample + Dish Dried Sample + Dish rams rams rams aq :.•Time .Discharge Exhaust Discharge -,Product-- Dry..*. ''Timer'-' . Chamber- Inf Chamber ' Out Rotor In Rotor - Out 'Operator' TTT:S� [.3 /11 Job s C' 60 DRYER OUTPUT % SOLIDS Dish Wgt 'Wet Sample +Dish Dried Sample + Dish rams rams rams -77 r0 x100= o-�d a' % Total Solids V6/12 T VVSA DRYER OPER. , T 10— NS DAILY RECORD 3rd Dryer Batch Started @ Dry Cycle Started @ '. Discharge Cycle Started @ ` 4 Fill Cycle ;— Discharge Tem�eratures. � Discharge I Dry ChChamber In Out Roter . In Rotor. Out Operator. , Time Exhaust Product Timer o0 J D. D�y7 15 TLIs . Li DRYER cUPU% scL;D .Dish L"Jyi Wet Sar nple =Dish Dried Sample +,Dish rams gams rams LA 100 r /o Total. Solids. _ Alarms or Comments " I WSA DRYER. OPERATIONS DAILY .RECORD DATE (� START STOP p TOTAL RUN TIME, HRS 1st Dryer Batch Fill•Cycle Started @� Dry Cycle Startea @ Discharge Cycle Started CCL C_ Time Discharge Exhaust Discharge Product Di-y imer Chamber In Chamber OUR Rotor !n Rotor Out 0 erator C1/ 4,31 ,3 c..i _ �� 7 DRYER OUTPUT % SOLIDs. Dish'Wg.t- ., Wet Sample + Dish Dried Sample + Dish rams rams rams .X 100 % Total Solids 2nd Dryer'.Batch Fill Cycle Started @ D : Dry Cycle Started @ �, Discharge Cycle Started @ 13 . Terri 'eratures:'. ,-,-I ime Discharge 'Exhaust* Discharge -Product- - Dry,,-. ' Timer" Chamber- . In Chamber Out Rotor In Rotor ' Out O erator' 44 1-4 / 0-�, !-L4 3 �O � CID 1i ' • r - Li C- P DRYER OUTPUT %SOLIDS Dish Wgt 'Wet Sample + Dish Dried Sample + Dish rams rams . rams X 1.00 = 4)6 % Total Solids 2/6/12 TVVSA DRYER OPERA I IONS DAILY RECORD 3rd Dryer Batch C cla Started �% Discharge Cycle Started @ �o "i L Fill Cycle Started @ � �� Day Y @ Tem eratures e `- Discharge Product I , Dry Timer Chamber t , In Chamber Out Rotor In Rotor. Ozut� p E1 Ope7r2tor - ) , Time Discharge Exhaust q .-��e -z- c�YaR cur; �UT °�° scbfC .Dish L"lgt . lams `�Jat Sample = Dish Dried Sa�nqple + Dish rams " rams