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Home My WebLink AboutWQ0005763_Annual Report_20160215TUCKASEIGEE WATER & SEWER AUTHORITY SERVING JACKSON COUNTY 1246 West Main Street Sylva, NC 28779 Phone: (828) 586-5189 0 Fay:: (828) 631-9089 February 15", 2016 NCDENR Division of Water Resources Water Quality Permit Section Non -Discharge Permitting Unit 1636 Mail Service Center Raleigh NC 27699-1636 Attn: Non -Discharge Compliance Unit, FE8 2 5 2016 /jVQRmQWp v��C S NG UNIT Enclosed are three copies of the Annual Residuals Report for the Tuckaseigee Water and Sewer Authority Residuals Stabilization facility (permit #WQ0005763) for the period of January 1, 2015 - December 31, 2015. All of the residuals generated at the facility during the 2015 calendar year were hauled by a private contractor to a designated landfill in Georgia. Should you have questions or comments or if I can provide you any additional information, please don't hesitate to contact me. Sin% rely, Stan Bryson Wastewater Plant Operations Superintendent Tuckaseigee Water & Sewer Authority xc: Mr Dan Harbaugh Executive Director Tuckaseigee Water and Sewer Authority t-.t_ J:...� 1 l.a Division of Water Resources MAR - 1 2016 Water Qualih, Regional Operations Ashevi,;e ftc,io;^al Ni��„ ANNUAL SEWAGE SLUDGE REPORT OF TUCKASEIGEE WATER AND SEWER AUTHORITY PLANT # 1-NPDES # NCO039578 (WQ0005763) for the period of January 1, 2015-December 31, 2015 as required by 40 CFR, PART 503 STANDARDS FOR THE USE OR DISPOSAL OF SEWAGE SLUDGE TABLE OF CONTENTS (1) REPORTING REQUIREMENTS/PERTINENT INFORMATION (2) CERTIFICATION (a) 2015 distrubution and marketing summary Parts A and B (b) 2015 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 REPORTING REQUIREMENTS Facilities responsible for reporting annually are described in the regulations as: 1. Publicly Owned Treatment Works (POTW) with an average design influent flow rate equal to or greater than 1.0 MGD. 2. POTW's serving a population of 10,000 or more. 3. Class I (facilities with an approved pretreatment program) sludge management facilities. 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 # NCO039578 correspondence address: 1246 West Main St Sylva NC 28779 physical address: 1871 North River Rd Sylva NC 28779 facility perator: Stan Bryson Wastewater Plant Operations Superintendent ph. 828-586-9318 CERTIFICATION REQUIREMENTS PART I -POLLUTANT CONCENTRATIONS PARAMETER A_v_g_ MAXIMUM Arsenic .................. 1.8 m 2.3 mg/kg Cadmium..................1.1 m 1.4 mg/kg Copper.....................290 mg/kg ................. 314 mg/kg Lead ........................13.2 mg/kg ................. 14.6 mg/kg Mercury...................0.51 mg/kg ................ 0.78 mg/kg Molybdenum...............3.4 mg/kg .................. 4.1 mg/kg Nickel ......................11.7 mg/kg .................. 13.0 mg/kg Selenium....................4.7 mg/kg ................... 5.9 mg/kg Zinc .........................603 mg/kg ................... 672 mg/kg PART H - PATHOGEN REDUCTION (40 CFR 503.32) X Class A Class B Permitted Concentrations monthly avg ceiling 41 mg/kg 39 mg/kg 1500 mg/kg 300 mg/kg 17 mg/kg n/a 420 mg/kg 100 mg/kg 2800 mg/kg PART III - VECTOR ATTRACTION (40 CFR 503.33) _ Option 1 — Option 2 _ Option 3 _ Option 4 Option 5 _ Option 6 _ Option 7 X Option 8 75 mg/kg 85 mg/kg 4300 mg/kg 840 mg/kg 57 mg/kg 75 mg/kg 420 mg/kg 100 mg/kg 7500 mg/kg 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 , 2016. 4tanryson, astewater Superintendent Appendix A 2015 Distribution and Marketing Summary Parts (a) and (b) 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) Monthly Total 24.73 3.41' 0 28.14 February TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 11.97 0 0 11.97 March TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 41.07 3.80 0 44.87 April TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 15.91 2.68 2.85 21.44 May TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 12.19 0 0 12.19 June TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 17.09 2.37 0 19.46 Total "sludge" dewatered by belt press in 2015= 282.31 dry tons Total number of dryer loads in 2015 = 223 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) Monthiv Total 5.23 4.74 2.73 12.7 August TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 5.83 0 0 5.83 September TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Month1v Total 22.05 2.80 0 24.85 October TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 37.27 0 2.14 39.41 November TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214). TWSA Plant # 3 (NC0063321) Monthiv Total 34.32 1.24 0 35.56 December TWSA Plant # 1 (NC0039578) TWSA Plant # 2 (NC0020214) TWSA Plant # 3 (NC0063321) Monthly Total 25.89 0 0 25.89 Total "residual" produced for distribution in 2015= 297.2 DRY TONS* * assumes an avg total solids content of 95% All of the residuals produced by the Authority's plants were hauled to the R&B landfill operated by WasteManagement Inc. and located at: 610 Frank Bennett Rd. Homer, GA 30547 Appendix A TWSA PLANT # 1 ANNUAL DISTRIBUTION AND MARKETING SUMMARY 2015 Part B Recipient Information Est. Volume Month Name Address (wet tons) Intended Use Januaryl Monthly Total 0 Februaryl Monthly Total 0 March Monthly Total 0 April Monthly Total 0 May Monthly Total 0 June Monthly Total 0 Julyl Monthly Total 0 Augustl Monthly Total 7 0 Septemberl Monthly Total 1 0 Octoberl Monthly Total 0 Novemberl Monthly Total 0 Decemberl Monthly Total 0 Annual Total Tons= 0 No residuals were distributed to the public during 2015. All of the residuals produced by the Authority's plants were hauled to the R&B landfill operated by WasteManagement Inc. ar located at: 610 Frank Bennett Rd. Homer, GA 30547 Appendix B 2015 Annual Sludge Production Data 2015 SLUDGE PRODUCTION DATA TWSA PLANT # 1 (3.5 mgd plant capacity) NPDES # NCO039578 Sludge dewatered on belt press ................................................ .................3,219,998 gallons total tons...............................................282.31 tons total metric tons ..................................... ...256.1 dry metric tons The following residuals were included in the above totals. TWSA PLANT # 2 (0.5 mgd plant capacity) NPDES # NC6020214 Sludge Hauled to Plant # 1 digestor............................................................. 198,800 gallons totaltons.......................................................................... 21.04 tons total metric tons...............................................................19.08 dry metric tons TWSA PLANT # 3 (0.2 mgd plant capacity) NPDES # NCO063321 Sludge Hauled to Plant # 1 digestor.......................................................... 75,000 gallons totaltons......................................................................... 7.72 dry tons total metric tons...............................................................7.00 dry metric tons All of the sludge that was generated at the Tuckaseigee Water and Sewer Authority facilities during 2015 was hauled by a private contractor to a designated landfill in Georgia. Landfill: Rand B Landfill 610 Frank Bennett Rd. Homer, GA 30080 A total of 212.84 tons were hauled to the landfill during 2015. Copies of haul tickets can be provided if needed. Appendix C 2015 Annual Residuals Sampling Summary Form 2015 Annual Residual Sampling Summary Form Permit Number: WQ 0005763 Facility Name: Tuckaseigee Water and Sewer Auth NPDES # NC 0039578 WQ # ; WQ 0005763 WWTP Name: TWSA Plant # 1 Sample Date 2/24 5/12 Percent Solids ✓ 97.1 97.5 8 Aluminum 21 800 16 700 P Arsenic ,/ 1.9 1.6 A Cadmium v 1.4 0.9 R Calcium 7,380 7 270 A Chromium 16.2 13.4 M Copper V 314 246 E Lead 14.5 10.3 T Magnesium v 3 100 2 800 E Mercury ✓ 0.70 0.087 R Molybdenum 4.1 2.8 S Nickel v 12.9 10.5 ph, s.u. 5.5 6 Potassium ✓ 4170 .5 3 .5 Selenium ✓ 70 5.9 4.3 Sodium ✓ 535 569 Zinc 337 469 TKN ✓ 41 400 45 400 m9/ Ammonia -Nitro en 1 800 2 160 kg Nitrate -Nitrite - V < 2.1 < 2.0 Plant Available N 12,800 14 100 Total Phosphorous 21 400 23 800 Corrosivity 5.51 5.95 Ignitabili ✓ > 140OF > 140OF SAR (sodium adsorption ratioW 1.3 1.4 ppm Reactivity, cyanide V < 0.5 < 0.5 ppm Reactivity, sulfide ✓ < 25.0 < 25.0 mpn/g Fecal Coliform ✓ 2.3 < 1 2. I certify, under penalty of law, that this document was prepared under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gathered and evaluated the information submitted. I, am aware that there are significant penalties for submitting false infor tion, including the possibility of fines and imprisonment for knowing violations." Signature of Prep arer 2/15/2015 Appendix D 2015 Residuals Sampling Data 2aceAnalytical www.pacelabs.com i i March 10, 2015 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: Dried Residual 2/24 Pace Project No.: 92238611 Dear Mr. Bryson: I...._._..^-r""`...•..__° _r Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Enclosed are the analytical results for sample(s) received by the laboratory on February 24, 2015. 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 WA M_ e0Ai4� 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 29 aceAnalXical / w w.pacelabs.cam r ANALYTICAL RESULTS Project: Dried Residual 2/24 Pace Project No.: 92238611 Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: TWSA DRIED RESIDUAL Lab ID: 92238611001 Collected: 02/24/15 12:30 Received: 02/24/15 14:11 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 6010 MET ICP Analytical Method: EPA 6010 Preparation Method: EPA 3050 Aluminum 21800 mg/kg 74.6 10 02/27/1515:50 03/02/1514:33 7429-90-5 Arsenic 1.9 mg/kg 0.75 1 02/27/1515:50 02/27/1519:54 7440-38-2 Cadmium 1.4 mg/kg 0.075 1 02/27/1515:50 02/27/1519:54 7440-43-9 Calcium 7380 mg/kg 7.5 1 02/27/1515:50 02/27/1519:54 7440-70-2 Chromium 16.2 mg/kg 0.37 1 02/27/1515:50 02/27/1519:54 7440-47-3 Copper 314 mg/kg 0.37 1 02/27/1515:50 02/27/1519:54 7440-50-8 Lead 14.5 mg/kg 0.37 1 02/27/1515:50 02/27/1519:54 7439-92-1 Magnesium 3100 mg/kg 7.5 1 02127/1515:50 02/27/1519:54 7439-95-4 Molybdenum 4.1 mg/kg 0.37 1 02/27/1515:50 02/27/1519:54 7439-98-7 Nickel 12.9 mg/kg 0.37 1 02/27/1515:50 02/27/1519:54 7440-02-0 Potassium 4170 mg/kg 373 1 02/27/1515:50 02/27/1519:54 7440-09-7 Selenium 5.9 mg/kg 0.75 1 02/27/1515:50 02/27/1519:54 7782-49-2 Sodium 535 mg/kg 373 1 02/27/1515:50 02/27/1519:54 7440-23-5 Zinc 637 mg/kg 0:75 1 02/27/1515:50 02/27/1519:54 7440-66-6 7471 Mercury Analytical Method: EPA7471 Preparation Method: EPA7471 Mercury 0.70 mg/kg 0.042 10 02/2511514:20 02/27/1514:02 7439-97-6 254OG Total Percent Solids Analytical Method: SM 2540G Total Solids 97.1 % 0.000010 1 02/27/15 16:06 Percent Moisture Analytical Method: ASTM D2974-87 Percent Moisture 2.9 % 0.10 1 92210E Fecal Coliform, MPN RAIL Analytical Method: SM9221C E (MPN) 503 Fecal Coliforms, MPN 2.3 MPN/g 0.018 1 9045 pH Soil Analytical Method: EPA9045 pH at 25 Degrees C 5.5 Std. Units 0.10 1 Plant Available Nitrogen Analytical Method: SM 2710B Plant Available Nitrogen 12800 mg/kg 0.12 1 Total Nitrogen Calculation Analytical Method: TKN+NO3+NO2 Calculation Nitrogen 41400 mg/kg 40.0 1 350.1 Ammonia Analytical Method: EPA350.1 Nitrogen, Ammonia 1800 mg/kg 50.5 5, 351.2 Total Kjeldahl Nitrogen Analytical Method: EPA351.2 Nitrogen, Kjeldahl, Total 41400 mg/kg 2710 100 353.2 Nitrogen, NO2/NO3 Analytical Method: EPA 353.2 Nitrogen, Nitrate ND mg/kg 2.1 1 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, Date: 03/10/2015 04:32 PM without the written consent of Pace Analytical Services, Inc.. Qua] 03/02/15 10:05 02/26/15 12:17 1 g,H3 03/03/15 11:15 03/10/1515:02 N2 03/10/1515:04 7727-37-9 03/06/15 23:09 7664-41-7 03/10/15 06:03 7727-37-9 M6, R1 02/24/15 21:01 Page 4 of 29 aceAnalytical r www.pacelabsx= r _ t ANALYTICAL RESULTS Project: Dried Residual 2/24 Pace Project No.: 92238611 Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: TWSA DRIED RESIDUAL Lab ID: 92238611001 Collected: 02124/15 12:30 Received: 02/24/15 14:11 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 02/24/15 21:01 Nitrogen, NO2 plus NO3 ND mg/kg 2.1 1 02/24/15 21:01 365.1 Phosphorus, Total Analytical Method: EPA 365.1 Phosphorus 21400 mg/kg 429 100 03/03/1511:05 7723-14-0 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, Date: 03/10/2015 04:32 PM without the written consent of Pace Analytical Services, Inc.. Page 5 of 29 Pace Analytical Services, Inc. ® 2225 Riverside Dr. Z�;a'ceAnalydca( Asheville, NC 28804 i www.pacelabs.com (828)254-7176 i i QUALIFIERS Project: Dried Residual 2/24 Pace Project No.: 92238611 DEFINITIONS DF - Dilution Factor, if reported, represents the factor applied to the reported data due to dilution of the sample aliquot. NO - Not Detected at or above adjusted reporting limit. 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 INC - 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 of Acrolein 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-R Pace Analytical Services - Raleigh ANALYTE QUALIFIERS 1g This is a less than value. H3 Sample was received or analysis requested beyond the recognized method holding time. M1 Matrix spike recovery exceeded QC limits. Batch accepted based on laboratory control sample (LCS) recovery. M6 Matrix spike and Matrix spike duplicate recovery not evaluated against control limits due to sample dilution. N2 The lab does not hold TNI accreditation for this parameter. R1 RPD value was outside control limits. REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, Date: 03/10/2015 04:32 PM without the written consent of Pace Analytical Services, Inc.. Page 16 of 29 S t l .:. at ? lvai ti% Surnnrit Environmental reclurologres, Inc. 331011 itr SI. m � f 4lrlltOt4l1CN t`ALit t ytic7l..l7�iL5,110 Cnyalraga calls, Oltio 44223 d Analytidol to t oastoiies TEL: (330) 253-8211 FAX.' (330) 253-4489 lPebsire: n ,-1Avtrm:setrek.can March 05, 2015 Chris Derouen Pace Analytical Services Inc 9800 Kincey Avenue Suite 100 Huntersville, NC 28078 TEL: (704) 875-9092 FAX: (704) 875-9091 RE: 92238611 Dear Chris Derouen: Order No.: 15022275 Summit Environmental Technologies, .Inc. received 1 sample(s) on 2/25/2015 for the analyses presented in the following report. There were no problems with the analytical events associated with this report unless noted in the Case Narrative. Quality control data is within laboratory defined or method specified acceptance limits except where noted. If you have any questions regarding these tests results, please feel: free to call the laboratory. Sincerely, A-q-� - 0�'�- Dr.'Mo Osman Project Manager 3310 Win St. Cuyahoga Falls, Ohio 44223 A21-A 0724.01, Alahmpa41600, Arizona A'L0788, Arkansas 88-0735, Cali fomin 07256CA, Colorado. Connecticut PH-0105; Delaware, Florida NELAC E87688, Georgia E87688 and 943. Idaho 01100923, Illinois 200061 and Reg.5, Indiana C-OH-13, Knnsas.E-10347„Kentucky (Urtd,,ttimnd Slorage-rank) 3, Kentucky90146, Louisiana 04061 and LA12004, hloinc 2012015. Maryland 339, hlnssnchusevs M-OPF1923, Minesela 409711, Montana CERT0099, how Iiantpshire 2996, Ncsv Jersey OH006, New York 11777, North Carolina 39705 and 631, Ohio Drinking Water 4170, Ohio VAP CL0052, Oklahoma 9940, Oregon 014200001, Pennsylvania 68-01335, Rhode Island LA000317, South Carolina 92016001, Tennessee TN040I B, Texas T104704466-.11-5, Region 8 8Ti.4S-L, USDA/APHIS P330.11-00244, Utah 011009232011-1, Vennont VT-87688, ilirginia 00440 and 1581, Washington C891, West Virginia 248 tad 9957C and E87688, Wisconsin 399013010 Page 1 of 8 Page 20 of 29 Sian»titGmtironrnental7eclmologies, Inc. Workorder 3310 [Yin Sr. Sample Summary ttrNlRQtd1,I�N5AL11:CHUOLOGlOS,IP4Q Cuyahoga ralls, Ohio 44223 ., /lnalyticattgboratorlcs TL'L:(330)253-8211FAX: (330)253-14$9 NO#: 15022275 Website: ate//muassettek.can 06-/liar-15 CLIENT: Pace Analytical Services Inc Project: 92238611 I sb SamPIe1D Client Santnlc Ill Tag No Date Collected D:ate.Received Matrix 15022275.001 92239611002 2/24/2015 12:30:00 PM 2/25/2015 10:05:00 AM Solid Page 2 of 8 Page 21 of 29 �<ry� ',,` sa y _ Sianntrr Enrironrdenial Technologies, hie. Cash Nal'Pat1V(' ; t t 11 fit 3310 Win St. ENVIRONMENTAL 1•ECHUDLOOYS, INC. Cityahoga Falls, Ohio 44223 wOfl: 15022275 >s �> Analytical Labaratoile& TEL: (330) 253-8211 FAX.• (330) 253-44E9 Date: 3/5/2015 il'ebsile: 1t(ip'/iirit mserle6.cotn CLIENT: Pace Analytical Services Inc Project: 92238611 This report in its entirety consists of the documents listed below. All documents contain the Summit Environmental Technologies, Inc., Work Order Number assigned to this report. Paginated Report including Cover Letter, Case Narrative, Analytical Results, Applicable Quality Control Summary Reports, and copies of the Chain of Custody Documents are supplied with this sample set. Concentrations reported with. a J-F lag in the Qualifier Field are values below the Limit of Quantitation (LOQ) but.greater than the established Method Detection Limit (MDL). Method numbers, unless specified as SM (Standard Methods) or ASTM, are EPA methods. Estimated uncertainty values are available upon request. All results for Solid Samples are reported on an "as received" or "wet weight" basis unless indicated as "dry weight" using the "-dry" designation on the reporting units. Summit Environmental Technologies, Inc., holds the accreditations/certifications listed at the bottom of the cover letter that may or may not pertain to this report. Any comments or problems with the analytical events associated with this report are noted below. Original Page 3 of 8 Page 22 of 29 Summit Em-ironmental Technologies, Lac. �', ��f�`�'33/0,:.,�15tAnalytical situit-,o)'r-0 Renate J i � k. I,z, (bast ENVIRONMENTAL UCHNOLGnIES, INC, Cuyahoga rolls, Ohio •14223 report) Atistyticet t.aI;oratodes TEL: (330) 253-8211 IAX (330) 253-4489 WO#: 15022275 , lYebsite: ut :/hPii,Psetlek.conr Date Reported: 3/5/2015 CLIENT: Pace Analytical Services Inc Tag Numbers Matrix: SOLID Collection Date: 2/24/2015 12:30:00 I M Lab ID: 15022275-OOIA Project: 92238611 Client Sample ID 92238611002 Analyses Result RL Qual Units DF Date Analyzed PH (SW9045D) SWO045D Analyst: DHC pH 5.51 sm.@21.5C 1 313120154:15:00 PM QualiIlers: ' E Value e.xceedi Alasimum Contaminant Level. Value above qumillation range C H Value is belom%linimum Conpoudd Unit. Holding links ror preparation or onal%sis aveeeded 11 Manual Integration used to determine area response N TentativelyidemiGJ Compounds ND P Not Detected at the Reporting Limit Second colu"mconrunLnlionQviceeds o Pl,. RSD is greater than RSDlintit PermitLinut Original i R " U RPD outside accepted recovery linuts Samples with CalcVal <MDL RL Reporting Dateelion Limit Page 4 of 8 ' Page 23 of 29 Summit Environniental Technolo .ies, Inc. VOf: 15022275 SU MMI 33101{'nSt. r,NVIRg141,IEIIrAL1ECHNJLoGIES,IFlC Cuyahoga ralls, Ohio44223 Date Reported: 3/5/2015 Analytiral L,,t)ntntorle, TEL. (330) 253-8211 rAC• (330) 2S3-4489 Company: Pace Analytical Services Inc Websitet h11D:1Arww.setteA-.co,11 Address: 9800 Kincey Avenue Suite 100 Huntersville NC 28078 Received: 2/25/2015 Project#: 92238611 Client 1D# Lab Will Collected Analyte Result Units Matrix Method DF RL Run Analyst 92288611002 001 2/24/2015 Flashpoint (140°F) >140 "F Solid EPA 1010 1 3/2/2015 TAH 92238611002 001 2/24120/5 Cyanide, Reactive ND ppm Solid EPA 9014 1 0,500 2/27/2015 TIR 92238611002 001 2/24/2015 Sulfide, Reactive ND ppm Solid EPA 9034 1 25.0 2127/2015 TIR Page 5 of 8 Page 24 of 29 SAR Calculations- 2/24/2015 SAR = Sodium (Na) Milli Equivalent 0.5 X (Calcium (Ca) Milli Equivalent+ Magnesium(Mg) Milli Equivalent)` Na= 535 mg/kg- Na Milli Equivalent(ME)= 535/23 equivalent wgt=23.3ME Ca= 7380 mg/kg- Ca Milli Equivalent(ME)= 7380/20 equivalent wgt= 369.0 ME Mg= 3100 mg/kg- Mg Milli Equivalent(ME)= 3100/12 equivalent wgt= 258.3 ME SAR= 23.3 Na Milli Equivalent 0.5 X (369.0 Ca Milli Equivalent + 258.3 Mg Milli Equivalent)0.5 = 23.3 Na Milli Equivalent (0.5 X 627.3) 0-5 = 23.3 Na Milli Equivalent (313.7)0.5 = 23.3 Na Milli Equivalent 17.7 SAR= 1.3 C ll�laceAnalytical t w www.pacelabs.com r` May 28, 2015 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: DRIED RESIDUAL 5/12/15 Pace Project No.: 92249382 FP n JUN 2015 i 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 May 12, 2015. The results relate only to the samples included in this report. Results reported herein conform to the most current TN 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 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 31 aceMalytical www.pacelabs.com r f ANALYTICAL RESULTS Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Project: DRIED RESIDUAL 5/12/15 Pace Project No.: 92249382 Sample: TWSA DRIED RESIDUAL Lab ID: 92249382001 Collected: 05/12/15 11:00 Received: 05/12/15 13:32 Matrix: Solid Results reported on a "dry weight" basis and are adjusted for percent moisture, sample size and any dilutions. Parameters Results Units Report Limit DF Prepared Analyzed CAS No. Qual 6010 MET ICP Analytical Method: EPA 6010 Preparation Method: EPA 3050 Aluminum 16700 mg/kg 26.7 5 05/13/1515:00 05/1411515:46 7429-90-5 Arsenic 1.6 mg/kg 0.53 1 05/13/1515:00 05/14/1515:43 7440-38-2 Cadmium 0.90 mg/kg 0.053 1 05/1311515:00 05/14/1515:43 7440-43-9 Calcium 7270 mg/kg 26.7 5 05/13/1515:00 05/14/1515:46 7440-70-2 Chromium 13.4 mg/kg 0.27 1 05/13/1515:00 05/14/1515:43 7440-47-3 Copper 246 mg/kg 0.27 1 05/13/1515:00 05/14/1515:43 7440-50-8 Lead 10.3 mg/kg 0.27 1 05/13/1515:00 05/14/1515:43 7439-92-1 Magnesium 2800 mg/kg 5.3 1 05/13/1515:00 05/14/1515:43 7439-95-4 Molybdenum 2.8 mg/kg 0.27 1 05/13/1515:00 05/14/1515:43 7439-98-7 Nickel 10.5 mg/kg 0.27 1 05/13/1515:00 05/14/1515:43 7440-02-0 Potassium 3970 mg/kg 267 1 05/13/1515:00 05/14/1515:43 7440-09-7 Selenium 4.3 mg/kg 0.53 1 05/13/1515:00 05/14/1515:43 7782-49-2 Sodium 569 mg/kg 267 1 05/13/1515:00 05/14/1515:43 7440-23-5 Zinc 469 mg/kg 0.53 1 05/13/1515:00 05/14/1515:43 7440-66-6 7471 Mercury Analytical Method: EPA 7471 Preparation Method: EPA 7471 Mercury 0.087 mg/kg 0.0040 1 05/15/15 18:20 05/18/15 13:19 7439-97-6 - _ -254OG Total Percent Solids Analytical Method: SM 2540G Total Solids 97.5 % 0.000010 1 05/15/15 17:45 Percent Moisture Analytical Method: ASTM D2974-87 Percent Moisture 2.5 % 0.10 1 05/18/15 10:50 92210E Fecal Coliform, MPN RAL Analytical Method: SM9221C E (MPN) 503 Fecal Coliforms, MPN 0.23 MPN/g 0.018 1 05/13/15 09:57 9045 pH Soil Analytical Method: EPA 9045 pH at 25 Degrees C 6.5 Std. Units 0.10 1 05/24/15 15:50 Plant Available Nitrogen Analytical Method: SM 2710B Plant Available Nitrogen 14100 mg/kg 0.12 1 05/21/15 16:02 N2 Total Nitrogen Calculation Analytical Method: TKN+NO3+NO2 Calculation - Nitrogen 45400 mg/kg 40.0 1 05/21/1516:05 7727-37-9 350.1 Ammonia Analytical Method: EPA 350.1 Nitrogen, Ammonia 2160 mg/kg 51.3 5 05/19/15 03:46 7664-41-7 351.2 Total Kjeldahl Nitrogen Analytical Method: EPA 351.2 Nitrogen, Kjeldahl, Total 45400 mg/kg 2700 100 05/19/15 14:56 7727-37-9 353.2 Nitrogen, NO2/NO3 Analytical Method: EPA 353.2 Nitrogen, Nitrate ND mg/kg 2.0 1 05/19/15 19:06 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, Date: 05/28/2015 10:44 AM without the written consent of Pace Analytical Services, Inc.. Page 4 of 31 aceAnalyt cal i J www.pacelabs.com ANALYTICAL RESULTS Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Project: DRIED RESIDUAL 5/12/15 Pace Project No.: 92249382 Sample: TWSA DRIED RESIDUAL Lab ID: 92249382001 Collected: 05/12/15 11:00 Received: 05/12/15 13:32 Matrix: Solid Results reported on a "dry weight" basis and are adjusted for percent moisture, sample size and any dilutions. Parameters Results Units Report Limit , DF Prepared Analyzed CAS No. Qual 353.2 Nitrogen, NO2/NO3 Analytical Method: EPA 353.2 Nitrogen, Nitrite ND mg/kg 1,0 1 05/19/15 19:06 Nitrogen, NO2 plus NO3 ND mg/kg 2.0 1 05/19/15 19:06 365.1 Phosphorus, Total Analytical Method: EPA 365.1 Phosphorus 23800 mg/kg 824 20 05/27/1516:22 7723-14-0 M6 Date: 05/28/2015 10:44 AM 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 31 Pace Analytical Services, Inc. aceAnalytical ® 2225 Asheville, Riverside 28804 www.pacelabs.com f (828)254-7176 QUALIFIERS Project: DRIED RESIDUAL 5/12/15 Pace Project No.: 92249382 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 of Acrolein 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-R Pace Analytical Services - Raleigh ANALYTE QUALIFIERS 1g This is a less than value. D6 The relative percent difference (RPD) between the sample and sample duplicate exceeded laboratory control limits. M1 Matrix spike recovery exceeded QC limits. Batch accepted based on laboratory control sample (LCS) recovery. M6 Matrix spike and Matrix spike duplicate recovery not evaluated against control limits due to sample dilution. N2 The lab does not hold TNI accreditation for this parameter. R1 RPD value was outside control limits. Date: 05/28/2015 10:44 AM REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. Page 16 of 31 cr�Ir ��, SrmurritEnrironiuerNalTechnologies, Ltc. RAN a pp w� dl' M � C 33101111, Sr. f 1lrliiOhJklEWrhLTtCftP'OIOGIi35,tpdC Cujwhoga Falls, Ohro44223 : ;; ,a✓;a a rinalj flt^i711 yst7 �ratnt'lta� TGL: (330) 253-8211 FA.1:• (330) 253-4489 l4ebsife: hRp:/hrrru serlekc r May 26, 2015 Chris Derouen Pace Analytical Services Inc 9800 Kincey Avenue Suite 100 HuntersvilIe, NC 28078 TEL: (704) 875-9092 FAX: (704) 875-9091 RE: 92249382 Dear Clods Derouen: Order No.: 15051488 Summit Environmental Technologies, Inc. received 1 sample(s) on 5/14/2015 for the analyses presented in the following report, There were no problems with the analytical events associated with this report unless noted in the Case Narrative. Quality control. data is within laboratory defined or method specified acceptance limits except where noted. If you have any questions regarding these tests results, please feel free to call the laboratory. Sincerely, Dr, Mo Osman Project Manager 3310 Win St, Cuyahoga Fails, Ohio 44223 A21.A 0724.01, Alabama,11600, Arizona A7,0788, Arkansas 88.0735, California 07256CA, Colorado, Comtecticut PH•0105,'Delaware, Florida NELAC E87688, Georgia E87688 and 943, Idaho OH00923,111iaois 200061 and Reg.S; Indimra C-01-1-13, Knasns G10347, Kcalucky (Underground Storagc Tank) 3, Kentucky 90146, Loulsimta 04061 and LA 12004, Maine 2012015, Maryland 339, hlassnchusetts hl•OPH923, Minnesota 409711, Montana CERT0099, New Haurpshire 2996, New Jersey OH006, New York 11777. North Carolina 39705 and 631, Ohio Drinking 1Voter,l 170, Olrio VAP CL0052, Oklahoma 9940, Oregon OH2O00D1, Pennsylvania 68-01335, Rhode Island LA0003I7, Son h Carolina 92016001, Teanessce TH04018, Texas T104104466-11-5, Region 8 STNIS-I, USDA/API IIS P330-11.00244, Ulah 01-1009232011-I, Vermont VT 87688, Virginia 00440 and 1581, Washington C89.1, West Virginia 248.and 9957C and E87688, Wisconsin 399013010 - Page 1 of 10 I Page 20 of 31 l I j l ro �• y e rd{11� Srirunrir Cnrii onnrnnlnl Technologies, luc. @+' ` , � F� '1`t� ]j 3310 u�hrsr. Case Narrative RIVIf OMWE1.1TAL TFCfJU0L0(,ft9i 1,%.c. Cuyahoga ralls, Ohio 44223 WO#: 1505.1488 > ,� ;s. nn,rl rtr�:�r c.<3r:art77aa'ir s TEL: (330) 253-8211 FLY. (330) 253-4489 rt'ehsire: h7rp://winirse�tek.conl Dale: 5/26/2015 CLIENT: Pace Analytical Set -vices Inc Project: 92249382 This report in its entirety consists of the documents listed below. All documents contain the Summit Environmental Technologies, Inc., Work Order Number assigned to this report. Paginated Report including Cover Letter, Case Narrative, Analytical Results, Applicable Quality Control Summary Reports, and copies of the Chain of Custody Documents are supplied wiith this sample set. Concentrations repotted with a J-Flag in the .Qualifier Field are values below the Limit of Quantitation (LOQ) but greater than the established Method Detection Litmit (MDL). - Method numbers, unless specified as SM (Standard Methods) or ASTM, are EPA methods. Estimated uncertainty values are available upon request. Analysis performed by DBM, VRM, or SFG were performed at Summit Labs 2704 Eatonton Highway Haddock, GA 31033 All results for Solid Samples are reported. on an "as. received" or "wet weight" basis unless indicated as "dry weight" using the "-dry" designation on the reporting units. Summit Environmental Technologies, Inc., holds. the accred itati o ns/certifi cations listed at the bottom of the cover letterthat may or may not pertain to this report. The information contained in this analytical report is the sole property of Summit Environmental Technologies, Inc. and that of the customer. It cannot be reproduced in any fora without the consent of Summit Environmental Technologies, Inc. or the customer for which this report was issued. The results contained in this report are only representative of the samples received. Conditions can vary at different times and at different sampling conditions. Summit Environmental Technologies, Inc. is not responsible foe use or interpretation of the data included herein. This report is believed to meet all of the requirements of NELAC or the accrediting / certifying agency. Any comments or problems with the analytical events associated with this report are noted below. Original Page 2 of 10 Page 21 of 31 ;3�` t € r� Shamir EnKrornuental Technolo >res ht tlalifiel•s and Acronyms Q Y 33init,n� UPWIRONfolENTAL I Et!IIWOLop]C5, ICtC C1ii)a111oga Falls, Ch;o 442` WO# 15051488 u M i rinnlyficrrf l.rt i�r ai �; lz:„ TEL: (330) 253-8211 rU. (330) 2S3-d4S Ifebsiie:litty://uinr.,rettek.co Date: 5/26/2015 These commonly used Qualifiers and Acronyms may or may not be present in this report. Qualifiers U The compound was analyzed foa'but was not detected. J The reported value is greater than the Method Detection Limit but less than the Reporting Limit. II The hold.time for sample preparation and/or analysis was exceeded, D The result is.repoited from a dilution. E The result exceeded the linear range of the calibration or is estimated clue to interference. MC, The result is below the Minimuin Compound Limit. " The result exceeds the Regulatory Limit or Maxiniuni.Contaminatioit Liniit. m Manual integration Nvas used to determine the area response. _ N The result is.presumptive based on a Mass Spectral library search assuming a 1:1 response. P The second column coiifitmation exceeded 25% difference. C The result has been con0rmed by GUMS. ,l' The result was not confanned when GUMS Analysis was performed. Bh1IB+ The analyte was detected in the associated blank. G The ICB or CCB contained reportable amounts of analyte. QC-/+ The CCV recovery'fa led low (-) or high (+). R/QDR The RPD was outside of accepted recovery limits. QL-/+ The LCS or LCSD recovery failed low (-) or high (+), QLR The LCS/LCSD RPD was outside of accepted recovery limits. Q I-/+ The MS or MSD recovery failed Iow (-) or high QMR The MS/MSD RPD was outside of accepted recovery limits. QV-/+ The IC.V recovery failed low (-) or. high (+). S The spike result was outside of Accepted recovery limits. Acronyms ND Not Detected RL Reporting Limit QC Quality Control R•IDL Method Detection Limit MB Method Blank LOD Level of Detection LCS Laboratory Control Sample LOQ Level of Quantitation LCSD Laboratory Control Sample Duplicate PQL Practical Quantitation Unit QCS Quality Control Sample CRQL Contract Required Quantitation Limit DUP Duplicate PL PennitLinut NIS. Matrix Spike RegLvl Regulatory Limit MSD Matrix Spike Duplicate AICL Maximum Contamination Limit RPD Relative Percent Different MinCL Whimuni Conpound Limit ICV Initial Calibration Verification RA Reanalysis ICB Initial Calibration Blank RE Reextraction CCV Continuing Calibration Verification TIC Tentatively Identified Compound CCB Continuing CalibrationBlank RT Retention Time RI1C Reporting Limit CIieck CF Calibration Factor DF Dilution Factor RF Response Factor This list of Qualifiers and Acronyms reflects the most commonly utilized Qualifiers and Acronyms for reporting. Please refer to the Analytical Notes in the Case Narrative for any Qualifiers or.Acronyms that do not appear in this list or for additional information regarding the use of these Qualifiers on reported data. Original Page 3 of 10 Page 22 of 31 Si� Sunitull Etivnatiutental7echeolo ies, hie. Analytical Report N xa sv 331Q iVln Si. wk �i rNVIkOI N 0, clowhoga Falls, Ohio 41223. (base report) r;, u ,4ttaly (iral 1;,t 1r;�1at'lry., TEL: (330) 253-8211 FAX: (330) 253-4489 CVO#: 15051.488 Mebsite !rltp•/Asgvo- sellek Date Reported: 5126/2015 CLIENT: Pace Analytical Services Inc Tag Number: Matrix: SOLID Collection Date: 5/12/2015 11:00:00 AM Lab ID: 15051488-001A Project: 922493.82 Client Sample ID 92249382002 Analyses Result RL Q.ual Units DID Date Analyzed FLASHPOINT DETERMINATION (1010) SW1010 Analyst: TAH Flashpolnt (140'F) >140 °F 1 5/19/2015 10:5.7:13 AM REACTIVE CYANIDE (9014/7.3.3.2) SW9014 Analyst: TIR Cyanide, Reactive ND 0.500 ppm 1 5119/201511:00:00 AM PH (SW9045D) SW9045D Analyst: DHC pH 5.95 s.u.@21.20 1 5/26/201512:45:00 PM REACTIVE SULFIDE (9034) SW9034 Analyst: TIR Sulfide, Reactive ND 26.0 ppm 1 5/21/201510:00:00 AM QuTlifiers: Value excaads\ia[iniuni Contaminant level. E Value abmv goanhtalion ranga ki Holding tines for preparation or analysis exceeded hi Manual Inletlision used to daiemune area spanse hlC %'slue is Wow Minimum Compound Limit. N Teniatteeh• ideatirted compounds - ND \ot Detected at the Retorting Lindt 0 RSD is greaterdtmr RSDlintil , - _ P Second column corrtmutionesceeds Pl. Permit Lintil Original R RPD outside accepted reeot•ery lindts RL Reporting Detection Unit g U SanyltesuiihCalcVal<%IDL Page 5 of 10 Page 24 of 31 SAR Calculations- 5/12/2015 SAR = Sodium (Na) Milli Equivalent 0.5 X (Calcium (Ca) Milli Equivalent+ Magnesium(Mg) Milli Equivalent)o.s • • Na= 569 mg/kg- Na Milli Equivalent(ME)= 569/23 equivalent wgt=24.7ME Ca= 7270 mg/kg- Ca Milli Equivalent(ME)= 7270/20 equivalent wgt= 363.5 ME Mg= 2800 mg/kg- Mg Milli Equivalent(ME)= 2800/12'equivalent wgt= 233.3 ME SAR= 24.7 Na Milli Equivalent 0.5 X (363.5 Ca Milli Equivalent + 233.3 Mg Milli Equivalent)0.5 24.7 Na Milli Equivalent (0.5 X 596.8)0.5 24.7 Na Milli Equivalent (298.4)0.s = 24.7 Na Milli Equivalent 17.3 SAR= 1.4 aceAnalytical .a 1 www.pacelabs.com (i l ' May 26, 2015 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: Dried Residual Fecal 5/14 Pace Project No.: 92249916 JUN 20f5 D 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 May 14, 2015. The results relate only to the samples included in this report. Results reported herein conform to the most current TNl 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 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 10 www.pacelabs.com ANALYTICAL RESULTS Project: Dried Residual Fecal 5/14 Pace Project No.: 92249916 Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: DRIED RESIDUAL Lab ID: 92249916001 Collected: 05/14/15 11:00 Received: 05/14/15 13:17 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 Percent Moisture Analytical Method: ASTM D2974-87 Percent Moisture 10.8 % 0.10 1 05/26/15 12:12 92210E Fecal Coliform, MPN RAL Analytical Method: SM9221C E (MPN) 503 Fecal Coliforms, MPN 2.2 MPN/g 0.018 1 05/15/15 12:12 1g,H1 Date: 05/26/2015 04:04 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 10 ( = aceAnalytical ( wmpacelabs.cam QUALIFIERS Project: Dried Residual Fecal 5/14 Pace Project No.: 92249916 DEFINITIONS Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 DF - Dilution Factor, if reported, represents the factor applied to the reported data due to dilution of the sample aliquot. ND - Not Detected at or above adjusted reporting limit. 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 of Acrolein 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. X-r-1477aN iT71*1 PAST-C Pace Analytical Services - Charlotte PASI-R Pace Analytical Services - Raleigh ANALYTE QUALIFIERS 1g This is a less than value. H1 Analysis conducted outside the EPA method holding time. Date: 05/26/2015 04:04 PM REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. Page 7 of 10 aceAnalytical " www.pacelabs.com l August 25, 2015 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: .Dried Residual 8/11 Pace Project No.: 92262809 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 11, 2015. 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 e PXC M RA��y{ 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 aceAnalXical www.pacelabs.com C ANALYTICAL RESULTS Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Project: Dried Residual 8/11 Pace Project No.: 92262809 1 Sample: TWSA DRIED RESIDUAL Lab ID: 92262809001 Collected: 08/11/15 11:30 Received`. 08/11115 13:54 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. 18900 mg/kg 84.3 10 08/12/1519:10 08/17/1514:02 7429-90-5 Arsenic 2.3 mg/kg 0.84 1 08112/1519:10 08/14/1517:58 7440-38-2 Cadmium 1.0 mg/kg 0.084 1 08/12/1519:10 08/14/1517:58 7440-43-9 Calcium 8380 mg/kg 8.4 1 08/12/1519:10 08/14/1517:58 7440-70-2 Chromium 16.8 mg/kg 0.42 1 08/12/1519:10 08114/1517:58 7440-47-3 Copper 302 mg/kg 0.42 1 08/12/1519:10 08/14/1517:58 7440-50-8 Lead 13.2 mg/kg 0.42 1 08/12/1519:10 08/14/1517:58 7439-92-1 Magnesium 3280 mg/kg 8.4 1 08/12/1519:10 08114/1517:58 7439-95-4 Molybdenum 3.2 mg/kg 0.42 1 08112/1519:10 08/14/1517:58 7439-98-7 Nickel 13.0 mg/kg 0.42 1 08/12/1519:10 08/14/1517:58 7440-02-0 Potassium 4100 mg/kg 422 1 08/12/1519:10 08/14/1517:58 7440-09-7 Selenium 3.7 mg/kg 0.84 1 08/12/1519:10 08/14/1517:58 7782-49-2 Sodium 568 mg/kg 422 1 08/1'2/1519:10 08/14/1517:58 7440-23-5 Zinc 633 mg/kg 0.84 1 08/12/1519---10 08/14/1517:58 7440-66-6 7471 Mercury Analytical Method: EPA 7471 Preparation Method: EPA 7471 _.. Mercury 0.78 mg/kg 0.16 50 08/14/15 17:45 08/17/15 17:40 7439-97-6 _t540G Total Percent Solids Analytical Method: SM 2540G Total Solids 97.2 % 0.000010 1 08/12/15 17:13 Percent Moisture Analytical Method: ASTM D2974-87 Percent Moisture 2.8 % 0.10 1 08/13/15 13:15 92210E Fecal Coliform, MPN RAL Analytical Method: SM9221C E (MPN) 503 Fecal Coliforms, MPN 2.3 MPN/g 0.018 1 08/12/15 10:22 9045 pH Soil Analytical Method: EPA 9045 - pH at 25 Degrees C 6.0 Std. Units 0.10 1. 08/13/15 14:35 Plant Available Nitrogen Analytical Method: SM 2710B Plant Available Nitrogen 19100 mg/kg 0.12 1 08/21/15 16:28 N2 Total Nitrogen Calculation Analytical Method: TKN+NO3+NO2 Calculation Nitrogen 62600 mg/kg 40.0 1 08/2111516:30 7727-37-9 350.1 Ammonia Analytical Method: EPA 350.1 Nitrogen, Ammonia 1710 mg/kg 49.5 5 08/18/15 08:10 7664-41-7 351.2 Total Kjeldahl Nitrogen Analytical Method: EPA 351.2 Nitrogen, Kjeldahl, Total 62600 mg/kg 2860 50 08/21/15 14:39 7727-37-9 353.2 Nitrogen, NO2/NO3 Analytical Method: EPA 353.2 Nitrogen, Nitrate ( ND mg/kg 2.1 1 08/20/15 13:30 REPORT OF LABORATORY ANALYSIS j ^ This report shall not be reproduced, except in full, Date: 08/25/2015 12:42 PM h , I without the written consent of Pace Analytical Services, Inc.. - Page 4 of 24 laneAnalytical www.pacelabs.com l ANALYTICAL RESULTS Project: Dried Residual 8/11 Pace Project No.: 92262809 Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: TWSA DRIED RESIDUAL Lab ID: 92262809001 Collected: 08/11/15 11:30 Received: 08/11/15 13:54 Matrix: Solid Results reported on a dry weight" basis and are adjusted for percent moisture, sample size and any dilutions. Parameters Results Units Report Limit DF Prepared Analyzed CAS No. Qua[ 353.2 Nitrogen, NO2/NO3 Analytical Method: EPA 353.2 Nitrogen, Nitrite ND mg/kg 1.0 1 08/20/15 13:30 Nitrogen, NO2 plus NO3 ND mg/kg 2.1 1 08/20/15 13:30 365.1 Phosphorus, Total Analytical Method: EPA 365.1 - Phosphorus 14700 mg/kg 303 150 08/19/15 08:02 7723-14-0 Sample: TWSA DRIED RESIDUAL Lab ID: 92262809002 Collected: 08/11/15 11:30 Received: 08/11/15 13:54 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: Dry Weight Percent Moisture 4.0 % 0.10 1 08/24/15 19:45 1010 Flashpoint,Closed Cup Analytical Method: EPA 1010 — r.:lashpoint >200 deg F 70.0 1 08/24/15 15:40 4045 pH Soil Analytical Method: EPA 9045 pH at 25 Degrees C 6.2 Std. Units 0.10 1. 08/16/15 16:30 733C S Reactive Cyanide Analytical Method: SW-846 7.3.3.2 Cyanide, Reactive ND' mg/kg 1.0 1 08/17/15 23:20 735S Reactive Sulfide Analytical Method: SW-846 7.3.4.2 Sulfide, Reactive - ND mg/kg 10.4 1 08/17/15 17:20 Date: 08/25/2015 12:42 PM REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. Qual Page 5 of 24 SAR Calculations- 8/11/2015 SAR = Sodium (Na) Milli Equivalent 0.5 X (Calcium (Ca) Milli Equivalent+ Magnesium(Mg) Milli Equivalent)o.5 Na= 568 mg/kg- Na Milli Equivalent(ME)= 568/23 equivalent wgt=24.7ME Ca= 8380 mg/kg- Ca Milli Equivalent(ME)= 8380/20 equivalent wgt= 419 ME Mg= 3280 mg/kg- Mg Milli Equivalent(ME)= 3280/12 equivalent wgt= 273.3 ME SAR= 24.7 Na Milli Equivalent 0.5 X (419 Ca Milli Equivalent+ 273.3 Mg Milli Equivalent)0.5 = 24.7 Na Milli Equivalent (0.5 X 636.3) 0-5 = 24.7 Na Milli Equivalent = (318.2)0.5 24.7 Na Milli Equivalent 17.8 SAR= 1.4 Pace Analytical Services, Inc. ® 2225 Riverside Dr. aceAnalytical Asheville, NC 28804 www.pacelabs.com (828)254-7176 I September 24, 2015 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: Dried Residual Fecal 9/15 Pace Project No.: 92267636 Dear Mr. Bryson: Enclosed are the analytical results for sample(s) received by the laboratory on September 15, 2015. 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 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 10 �5abeAnalytical" www.pacelabs.com I CERTIFICATIONS Project: Dried Residual Fecal 9/15 Pace Project No.: 92267636 Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Raleigh Certification IDs 6701 Conference Drive, Raleigh, NC 27607 North Carolina Wastewater Certification #: 67 North Carolina Bioassay Certification #: 16 North Carolina Drinking Water Certification #: 37731 Charlotte Certification IDs 9800 Kincey Ave. Ste 100, Huntersville, NC 28078 Florida/NELAP Certification #: E87627 North Carolina Drinking Water Certification #: 37706 Kentucky UST Certification #: 84 North Carolina Field Services Certification #: 5342 West Virginia Certification #: 357 North Carolina Wastewater Certification #: 12 Virginia/VELAP Certification #: 460221 South Carolina Certification #: 99006001 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. Page 2 of 10 aceAnalytical www.pacelabs.com ANALYTICAL RESULTS Project: Dried Residual Fecal 9/15 Pace Project No.: 92267636 Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: DRIED RESIDUAL Lab ID: 92267636001 Collected: 09/15/15 12:00 Received: 09/15/15 13:16 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 Percent Moisture Analytical Method: ASTM D2974-87 Percent Moisture 4.8 % 0.10 1 09/21/15 15:07 92210E Fecal Coliform, MPN RAL Analytical Method: SM9221C E (MPN) 503 Fecal Coliforms, MPN 2.1 MPN/g 0.018 1 09/16/15 11:06 1g REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, Date: 09/24/2015 05:52 PM without the written consent of Pace Analytical Services, Inc.. Page 4 of 10 aceAnalytical www.pacelabs.com December 14, 2015 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: Dried Residual 11/17 Pace Project No.: 92276438 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 November 17, 2015. 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 pCCRF�� 2rt� O r 9e0RAV 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 36 aceAnalytical www.pacelabs.com ANALYTICAL RESULTS Project: Dried Residual 11/17 Pace Project No.: 92276438 Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: TWSA DRIED RESIDUAL Lab ID: 92276438001 Collected: 11/17/15 11:20 Received: 11/17/15 14:36 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 Aluminum Arsenic Cadmium Calcium Chromium Copper Lead Magnesium Molybdenum Nickel Potassium Selenium Sodium Zinc 7471 Mercury Mercury e54OG Total Percent Solids Total Solids Percent Moisture Percent Moisture 92210E Fecal Coliform, MPN RAL Fecal Coliforms, MPN 9045 pH Soil pH at 25 Degrees C Plant Available Nitrogen Plant Available Nitrogen Total Nitrogen Calculation Nitrogen 350.1 Ammonia Nitrogen, Ammonia 351.2 Total Kjeldahl Nitrogen Nitrogen, Kjeldahl, Total 353.2 Nitrogen, NO2/NO3 Nitrogen, Nitrate Date: 12/14/2015 02:48 PM Analytical Method: EPA 6010 Preparation Method: EPA 3050 23400 mg/kg 36.9 5 11/18/15 23:15 11/19/15 19:51 7429-90-5 1.5 mglkg 0.74 1 11/18/15 23:15 11/19/15 16:35 7440-38-2 0.92 mg/kg 0.074 1 11/18/15 23:15 11/19/15 16:35 7440-43-9 7080 mg/kg 7.4 1 11/18/15 23:15 11/19/15 16:35 7440-70-2 16.5 mg/kg 0.37 1 11/18/15 23:15 11/19/15 16:35 7440-47-3 298 mg/kg 0.37 1 11/18/15 23:15 11/19/15 16:35 7440-50-8 14.6 mg/kg 0.37 1 11/18/15 23:15 11/19/15 16:35 7439-92-1 2620 mg/kg 7.4 1 11/18/15 23:15 11/19/15 16:35 7439-95-4 3.5 mg/kg 0.37 1 11/18/15 23:15 11/19/15 16:35 7439-98-7 10.5 mg/kg 0.37 1 11/18/15 23:15 11/19/15 16:35 7440-02-0 3020 mg/kg 369 1 11/18/15 23:15 11/19/15 16:35 7440-09-7 4.8 mg/kg 0.74 1 11/18/15 23:15 11/19/15 16:35 7782-49-2 416 mg/kg 369 1 11/18/15 23:15 11/19/15 16:35 7440-23-5 672 mg/kg 0.74 1 11/18/15 23:15 11/19/15 16:35 7440-66-6 Analytical Method: EPA 7471 Preparation Method: EPA 7471 0.48 mg/kg 0.049 20 12/01/1518:15 12/02/1512:04 7439-97-6 M6,R1 Analytical Method: SM 2540G 96.8 % 0.000010 1 11/18/1510:38 Analytical Method: ASTM D2974-87 3.2 % 0.10 1 11/18/1514:41 Analytical Method: SM9221C E (MPN) 503 2.1 MPN/g 0.018 1 11/18/1511:13 1g Analytical Method: EPA 9045 5.5 Std. Units 0.10 1 11/18/15 15:15 Analytical Method: SM 2710B 10500 mg/kg 0.12 1 12/03/1516:49 N2 Analytical Method: TKN+NO3+NO2 Calculation 33900 mg/kg 40.0 1 12/03/1516:48 7727-37-9 Analytical Method: EPA 350.1 1430 mg/kg 48.7 5 12/02/15 09:02 7664-41-7 M1 Analytical Method: EPA 351.2 33900 mg/kg 1010 50 12/0311504:21 7727-37-9 M6,R1 Analytical Method: EPA 353.2 ND mg/kg 2.0 1 12/01/1512:01 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 36 aceAnalyicai® www.pacelabs.com ANALYTICAL RESULTS Project: Dried Residual 11/17 Pace Project No.: 92276438 Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: TWSA DRIED RESIDUAL Lab ID: 92276438001 Collected: 11/17/15 11:20 Received: 11/17/15 14:36 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 0.98 1 12/01/15 12:01 Nitrogen, NO2 plus NO3 ND mg/kg 2.0 1 12/01/15 12:01 365.1 Phosphorus, Total Analytical Method: EPA 365.1 Phosphorus 19200 mg/kg 508 250 11/26/15 06:14 7723-14-0 733C S Reactive Cyanide Analytical Method: SW-846 7.3.3.2 Cyanide, Reactive ND mg/kg 1.0 1 11/20/15 02:59 735S Reactive Sulfide Analytical Method: SW-846 7.3.4.2 Sulfide, Reactive ND mg/kg 10.3 1 11/19/15 18:45 Sample: TWSA DRIED RESIDUAL Lab ID: 92276438002 Collected: 11/17/15 11:20 Received: 11/17/15 14:36 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 54.5 % 0.10 1 11/23/15 06:17 1010 Flashpoint,Closed Cup Analytical Method: EPA 1010 Flashpoint >200 deg F 70.0 1 12/02/15 11:00 Sample: TWSA DRIED RESIDUAL Lab ID: 92276438003 Collected: 11/17/15 11:30 Received: 11/17/15 14:36 Matrix: Solid #1 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 Percent Moisture Analytical Method: ASTM D2974-87 Percent Moisture 4.3 % 0.10 1 11/23/15 06:17 92210E Fecal Coliform, MPN RAL Analytical Method: SM9221C E (MPN) 503 Fecal Coliforms, MPN 2.1 MPN/g 0.018 1 11/18/15 11:21 1g Sample: TWSA DRIED RESIDUAL Lab ID: 92276438004 Collected: 11/17/15 11:45 Received: 11/17/15 14:36 Matrix: Solid #2 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 4.5 % 0.10 1 11/23/15 06:18 Date: 12/14/2015 02:48 PM REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, . without the written consent of Pace Analytical Services, Inc.. Qual Page 5 of 36 aceAnalytical www.pacelabs.com ANALYTICAL RESULTS Project: Dried Residual 11/17 Pace Project No.: 92276438 Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: TWSA DRIED RESIDUAL Lab ID: 92276438004 Collected: 11/17/15 11:45 Received: 11/17/15 14:36 Matrix: Solid #2 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. 92210E Fecal Coliform, MPN RAL ' Analytical Method: SM9221C E.(MPN) 503 Fecal Coliforms, MPN 2.1 MPN/g 0.018 1 11/18/15 11:21 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, Date: 12/14/2016 02:48 PM without the written consent of Pace Analytical Services, Inc.. Qua[ 1g Page 6 of 36 SAR Calculations-11/17/2015 SAR = Sodium (Na) Milli Equivalent 0.5 X (Calcium (Ca) Milli Equivalent+ Magnesium(Mg) Milli Equivalent)" Na= 568' mg/kg- Na Milli Equivalent(ME)= 416/23 equivalent wgt=18.1ME Ca= 8380 mg/kg- Ca Milli Equivalent(ME)= 7080/20 equivalent wgt= 354 ME Mg= 3280 mg/kg- Mg'Milli Equivalent(ME)= 2620/12 equivalent wgt= 218 ME SAR= 18.1 Na Milli Equivalent 0.5 X (354 Ca Milli Equivalent + 218 Mg Milli Equivalent)0.5 18.1 Na Milli Equivalent (0.5X572)0.5 = 18.1 Na Milli Equivalent (286)0.5 18.1 Na Milli Equivalent 16.9 SAR= 1.1 aceAnalXical www.pacelabs.com December 29, 2015 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: TWSA Dried Residual 12/15 Pace Project No.: 92279831 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 December 15, 2015. 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 p,CCRg�� BORAtO�` 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 10 aceAnalj cal wvnvpacelabs.com ANALYTICAL RESULTS Project: TWSA Dried Residual 12/15 Pace Project No.: 92279831 Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Sample: TWSA Dried Residual Lab ID: 92279831001 Collected: 12/15/15 11:30 Received: 12/15/15 13:52 Matrix: Solid Results reported on a "dry weight" basis and are adjusted for percent moisture, sample size and any dilutions. Parameters Results Units Report Limit DF Prepared Analyzed CAS No. Qua[ Percent Moisture Analytical Method: ASTM D2974-87 Percent Moisture 3.5 % 0.10 1 12/29/15 11:41 92210E Fecal Col[form, MPN RAL Analytical Method: SM9221C E (MPN) 503 Fecal Coliforms, MPN 2.1 MPN/g 0.018 1 12/16/15 11:22 1g Date: 12/29/2015 04:45 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 10 Appendix E 2015 TCLP Analysis aceAnalytical Ir —..pacelabs.com SEP - 3 2015 August 26, 2015 Mr. Stan Bryson Tuckaseigee Water & Sewer Co. 1246 West Main Street Sylva, NC 28779 RE: Project: Dried Residual TCLP 8/11 Pace Project No.: 92262816 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 11, 2015. 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 Qualify 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 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 17 1!�2' aceAnaly #1 ( www.pacelabs.com Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 - ANALYTICAL RESULTS Project: Dried Residual TCLP 8/11 Pace Project No.: 92262816 Sample: TWSA DRIED RESIDUAL Lab ID: 92262816001 Collected: 08/11/15 11:30 Received: TCLP 08/11/15 13:54 Matrix: Water Parameters Results Units Report Limit DF Prepared 8081 GCS Pesticides, TCLP Analyzed CAS No: Qual Analytical Method: EPA8081 Preparation Method: EPA3510 Leachate Method/Date: EPA 1311; 08/20/15 15:00 gamma-SHC (Lindane) ND ug/L Chlordane (Technical) ND ug/L 03.0 1 08/23/15 12:40 08/25/15 23:41 58-89-9 Endrin 3.0 ND ug/L 1 08/23/15 12:40 08/25/15 23:41 57-74-9 Heptachlor epoxide 0.50 ND ug/L 1 08/23/15 12:40 08/25/15 23:41 72-20-8 Methoxychlor 0.50 ND ug/L 1 08/23/15 12:40 08/25/15 23:41 1024-57-3 Toxaphene 10.0 ND ug/L 1 08/23/15 12:40 08/25/15 23:41 72-43-5 Surrogates 3.0 1 08/23/15 12:40 08/25/15 23:41 8001-35-2 Decachlorobiphenyl (S) 39 Tetrachlorolorobi-xylene (S) 10-138 39 % 1 08/23/15 12:40 08/25/15 23:41 2051-24-3 8151 Chlorinate Herbicide TCLP 10-110 Analytical Method: EPA8151 Preparation 1 08/23/15 12:40 08/25/15 23:41 877-09-8 Method: EPA3510 2,4-D 2,4,5-TP (Silvex) ND mg/L 0.010 ND mg/L 1 08/19/15 15:35 08/20/15 05:20 94-75-7 Surrogates 0.01D 1 08/19/15 15:35 08/20/15 05:20 93-72-1 2,4-DCAA (S) 91 6010 MET ICP, TCLP 42-142 1 08/19/15 15:35 08/20/15 05:20 19719-28-9 Analytical Method: EPA Sol o Preparation Method: EPA 3010 Leachate Method/Date: EPA 1311; 08/17/15 01:45 Arsenic Barium ND mg/L 0.050 1 0.34 mg/L 08/18/15 04:00 08/18/15 13:46 7440-38-2 Cadmium Chromium 0.25 1 ND mg/L 0.0050 08/18/15 04:DD 08/18/15 13:46 7440-39-3 1 ND mg/L 0.025 08/18/15 04:00 08/18/15 13:46 7440-43-9 Lead 1 ND mg/L 0.025 08/18/15 04:00 08/18/15 13:46 7440-47-3 Selenium 1 ND 08/18/15 04:00 08/18/15 13:46 7439-92-1 Silver m9,L 0.10 1 0.025 08/18/15 04:00 08/18/15 13:46 7782-49-2 7470 Mercury, TCLP 1 08/18/15 04:00 08/18/15 13:46 7440-22-4 Analytical'Method: EPA 7470 Preparation Method: EPA 7470 Leachate Method/Date: EPA 1311;-08/17/15 01:45 Mercury � 8270 MSSV TCLP Sep Funnel 0.00075 mg/L 0.00020 1 08/18/1517:20 08/19/1514:24 7439-97-6 Analytical Method: EPA 8270 Preparation Method: EPA3510 Leachate Method/Date: EPA 1311; 08/20/15 15:00 1,4-Dichlorobenzene ND 2,4-Dinitrotoluene ug/L 50.0 1 ND ug/L 08121/1513:18 08/24/15 17:27 106-46-7 H4-Dinioro-1,3-butadiene ,3-but 50.0 1 ND ug/L 08/21/1513:18 08/24/15 17:27 121-14-2 L3 Hexachlorob 50.0 1 ND_ ND ug7L 08/21/15 13:18 08/24/15 17.27 87-68-3 Hexachloroethane than 50.0 1 ug/L 08/21/1513:18 08/24/15 17:27 118-74-1 2-Met hylphe Cresol) 50.0 1 NDD ug/L 08/21/1513:18 08/24/15 17:27 67-72-1 ethylpheno-Cre p Cresol) 50.0 1 ND ug/L 08/21/15 13:18 08/24/15 17:27 95-48-7 Nitrobenzene 50.0 1 ND ug/L 08/21/1513:18 08124/1517:27 Pentachiorophenol 50.0 1 ND ug/L 08/21/1513:18 08/24/15 17:27 98-95-3 Pyridine 100 1 ND ug/L 08/21/1513:18 08/24/15 17:27 87-86-5 2,4,5-Trichlorophenol 50.0 1 ND ug/L 08/21/1513:18 08/24/15 17:27 110-86-1 2,4,-Trichlorophenol 50.0 1 ND ug/L 08/21/1513:18 08/24/15 17:27 95-95-4 L3 50.0 1 08/21/1513:18 08/24/15 17:27 88-06-2 L3 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, -)ate: 08/26/2015 04:51 PM without the written consent of Pace Analytical Services, Inc.. Page 4 of 17 lacieAnalytical www.pacefabs.com i ANALYTICAL RESULTS Pace Analytical Services, inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 Project: Dried Residual TCLP 8/11 Pace Project No.: 92262816 Sample: TWSA DRIED RESIDUAL Lab ID: 92262816001 Collected: 08/11/15 11:30 TCLP Received: 08/11/15 13`.54 Matrix: Water 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; 08/20/15 15:00 Surrogates Nitrobenzene-d5 (S) 2-Fluorobiphenyl (S) 45 % 12-102 1 08/21/1513:18 08/24/1517:27 4165-60-0 Terphe 4 (S) 48 64 % % 13-107 1 08/21/15 13:18 08/24/15 17:27 321-60-8 Phenol-d6 ( -d6 (S) 16 % 21-132 1 . 08/21/15 13:18 08/24/15 17:27 1718-51-0 2-Fluorophenol (S) (S) 25 % 10-110 1 08/21/15 13:18 08/24/15 17:27 13127-88-3 2-Fluorophen-Tribromof (S) 75 % 10-110 1 08/21/1513:18 08/24/1517:27 367-12-4 27-108 1 0812111513:18 08/24/1517:27 118-79-6 8260 MSV TCLP Analytical Method: EPA 8260 Leachate Method/Date: EPA 1311; 08/13/15 13:27 Benzene 2-Butanone (MEK) ND 12000 ug/L u /L 9 192 38.5 08/20/15 23:04 71-43-2 Carbon tetrachloride ND ug/L 385 38.5 08/20/15 23:04 78-93-3 Chlorobenzene ND ug/L 192 38.5 08/20/15 23:04 56-23-5 Chloroform ND ug/L 192 38.5 08/20/15 23:04 108-9017 1,4-Dichlorobenzene ND ug/L 192 38.5 08/20/15 23:04 67-66-3 1,2-Dichloroethane F ND ug/L 192 38.5 08/20/15 23:04 106-46-7 1,1-Dichloroethene ND ug/L 192 38.5 08/20/15 23:04 107-06-2 Tetrachloroethene ND ug/L 192 38.5 08/20/15 23:04 75-35-4 Trichloroethene ND ug/L 192 38.5 08/20/15 23:04 127-18-4 Vinyl chloride ND ug/L 1.92 38.5 08/20/15 23:04 79-01-6 Surrogates 192 38.5 08/20/15 23:04 75-01-4 1,2-Dichloroethane-d4 (S) 126 % Toluene-d8 (S) 99 ° /° 70-130 38.5 08/20/15 23:04 17060-07-0 1g 4-Bromofluorobenzene (S) . 97 % 67-135 38.5 08/20/15 23:04 2037-26-5 70-130 38.5 08/20/15 23:04 460-00-4 9095 Paint Filter Liquid Test Analytical Method: EPA 9095 Free Liquids PASS 1 0 1 • 08/17/15 14:48 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, Date: 08/26/2015 04:51 PM without the written consent of Pace Analytical Services, Inc.. Page 5 of 17 aceAnalytical / www.pacelabs.com i QUALIFIERS Project: Dried Residual TCLP 8/11 Pace Project No.: 92262816 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. Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 S - Surrogate combine concentra 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 19 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 regulatorylevels could not possibly be exceeded,,per Section 1.2 of Method 1311. LO Analyte recovery in the laboratory control sample (LCS) was outside QC limits. L3 Analyte recovery in the laboratory control sample (LCS) exceeded QC limits. Analyte presence below reporting limits in associated samples. Results unaffected by high bias. M1 Matrix spike recovery exceeded QC limits. Batch accepted based on laboratory control sample (LCS) recovery. R1 RPD value was outside control limits. SO Surrogate recovery outside laboratory control limits. "ate: 08/26/2015 04:51 PM REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. Page 14 of 17 aceAnayical www.pacelabs.com QUALITY CONTROL DATA CROSS REFERENCE TABLE Project: Dried Residual TCLP 8/11 Pace Project No.: 92262816 Lab ID 92262816001 92262816001 92262816001 92262816001 92262816001 92262816001 92262816001 Date: 08/26/2015 04:51 PM Sample ID TWSA DRIED RESIDUAL TCLP TWSA DRIED RESIDUAL TCLP TWSA DRIED RESIDUAL TCLP TWSA DRIED RESIDUAL TCLP TWSA DRIED RESIDUAL TCLP TWSA DRIED RESIDUAL TCLP TWSA DRIED RESIDUAL TCLP QC Batch Method EPA 3510 EPA 3510 EPA 3010 EPA 7470 EPA 3510 EPA 8260 EPA 9095 Pace Analytical Services,.inc. 2225 Riverside Dr. Asheville, NC 28804 (828)254-7176 QC Batch Analytical Method OEXT EPA 8081 OEXT/23901 EPA 8151 MPRP/l9273 EPA 6010 MERP/8206 EPA 7470 OEXT/37228 EPA 8270 MSV/33065 WET/39523 REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. Analytical Batch GCSV/22358 GCSV/15523 ICP/17328 MERC/7881 MSSV/11123 Page 15 of 17 Appendix F 2015 Annual Pathogen and Vector Attraction Reduction ANNUAL PATHOGEN AND VECTOR ATTRACTION REDUCTION FORM Facility Name: Tuckaseigee Water and Sewer Auth. Permit Number: WWTP Name: TWSA Plant #1 NPDES Number: WQ 00005763 NC 0039578 Monitoring Period: From 1/l/2015 To 12/31/2015 Pathogen Reduction (40 CFR 503.32) - Please indicate level achieved and alternative performed: Class A: Alternative I Alternative 2 ® Alternative 3 Alternative 40 Alternative 5 -- Alternative 6 •. ..................... If applicable to alternative performed (Class A only) indicate "Process to Further Reduce Pathogens": Compost ® Heat Drying R1 Heat Treatment ® Thennophilic El e B to Ray ®Garmna Ray ® Pasteurization rzatio n Class B: Alternative 1® Alternative 2 L-T—T Alternative 3 ...................... If applicable to alternative performed (Class B only) indicate "Process to Significantly Reduce Pathogens": Lime Stabilization ® Air Drying 0 Composting ® Aerobic Digestion Anaerobic Digestion® .. ._ _ ;:...........:.... :...:.....::::....................................... If applicable to alternative performed (Class A or Class B) complete the following monitoring data: Parameter Allowable Level in Sludge Pathogen Density Number o Excee- de ces requency of A alvsis Sample p Type Amalytical Tech - ni ue mur Geo. Mean aximut Units Fecal Coliform 2 x 10 to the 6th power WN per gram of total solids or 2 x 10 to the 6th power CFU per gram of 1000 mpn per gram of total solid (dry weight) < 1 2 2.3 mpn/g 0 quarterly grab 9- 1LE rn '��50J Salmonella bacteria (in lieu of fecal coliform) 3 MPN per 4 grams total solid (dry weight) Vector Attraction Reduction (40 CFR 503.33) - Please indicate option performed: Option 1 ® Option 2 ® Option 3 ® Option 4 ® Option 5 Option 6 ® Option 7 � Option 8 1 Option 9. El Option 10 D No vector attraction reduction P were options o tiperformed d . f� CERTIFICATION 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 Name and Title (type or print) Land Applier Name and Title (if applicable)(type or print) Signature of Preparer Date Signature of Land Applier (if applicable) Date DENR FORM RF (5/2003) Appendix G 2015 Daily Dryer Record TWSA DRYER, OPERATIONS DAILY RECORD r / ---j DATE L START STOP TOTAL RUN TIME, HRS Q 1 st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ `7 ' 26 Discharge Cycle Started @ - = Discharge Discharge Dry Chamber Chamber Rotor Rotor Time Exhaust Product Timer In Out In Out Operator-, l � Zb dal 3' I 1�0 5 1 as 1.��E `-(S c� 06. cv s DRYER OUTPUT % SOLID's Dish Wgt Wet Sample + Dish Dried Sample t Dish rams rams) (grams)- I;v333 'may 01 x100=. / D: % Total Solids 2nd Dryer Batch Fill Cycle Started @ !Dry Cycle Started @ �1 "�? . M1 Discharge Cycle Started @ ' Tem eratures . . .Discharge_ Discharge Dry DRYER OUTPUT % �_S,vlis' 7170- LJI ICU viai I rams x100= �'[� I �� Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ ..� Dry Cycle Started S @ Discharge Cycle Started. @ Discharge DischargeD Ten eratures g . ry Chamber Chamber . Rotor Rotor Time Exhaust Product Timer . In Out In Out O erator 326 j zzs ;J DRYER OUTPUT % SOLID . Dish Wg} . ..Wet Sam le ; p._ . :Dish . Dried Sample + Dish rams • rams rams 94, % Total. Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ ' 43 Dry Cycle Started @ % . C3 '-% Discharge Cycle Started-72 Tamncrn+.urns OC Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator a a 1,5 v Li 3 -6 L-i ,. -5 L13 S 3 ,-2 �a 13��T ai 1� 4 qx� 4,�) 31� z-5 U) DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) �S/98'a- �qs x100= 7./,;) o / % Total Solids 2nd Dryer Batch ' Fill Cycle Started @ Dry Cycle Started. @ Discharge Cycle Started @ Tamnarati irac op Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor Rotor In Out I Operator f�, -W �-3-5 � 0 40 7 � 1 �` 2, ) , D ` q �3 5- 4 6 �3,5 ice DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) V6/12, 6/23114 0 x 100 % Total Solids I v"v^ �iZ 7 CM UI'tNA 1 IUNJ DAILY RECORD 3rd Dryer Batch V Fill Cycle Started @ / -Dry Cycle Started @ Discharge Cycle Started @ Temperatures °F Discharge Discharge Dry Chamber Chamber Rotor Rotor Time Exhaust I Product Timer In I Out In Out O erator LA y 3 y s DRYER OUTPUT % SOLIDSHDi,ghWgtWet Sample + Dish Driea le + Dish (grams). s) s, � a x100= �' % Total Solids Alarms or Comments 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 @ - Tem eratures Discharge Exhaust Discharge Product Dry. Timer Chamber In Chamber Out Rotor In Rotor Out O erator Time ;� u .5 1 4 2Z�7 �� . .r) roe . D �L3 i �� 5 ��'3� e —D, 4 4/45 4)455- 1393.1 DRYER OUTPUT % SOLID Dish Wgt Wet S_a_mple + Dish Dried Sample + Dish rams rams rams 3 ql,-9 Discharge Exhaust Discharge Product ` Dry.. Timer Cnambery In v Chamber Out Rotor In Rotor .' Out Operator Time DRYER OUTPUT % Dish. Wgt Wet Sample + Dist rams rams a3.;S(039 Dried Sample + Dish (grams) � Z13673 x100= 7 d % Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ . Dry Cycle Started @ 2" Discharge 9 C cle y. Started. @ r Time Discharge Discharge Exhaust Product D Tem eratures "�' ry Chamber Chamber Timer Rotor Rotor 207 . In . Out In out O erator y34. / J :1. i 3," DRYER OUTPUT % SOLID . Dish Wgt . ..Wet .rams Sam le Dish P.. - ..... Dried Sample ;Dish : .. rams :....... " rams . . An VA x i oo = :- Total. Solids Alarms or s .4—W � v37 C 1v: r� TWSA DRYER OPERATIONS DAILY RECORD DATE l START STOP TOTAL RUN TIME, HRS 1 st Dryer Batch j Fill Cycle Started @ Dry Cycle Started @ 7- 1.,? Discharge Cycle Started @ / Temoeratures OF Time Discharge Exhaust Discharge Product Dry- Timer Chamber In Chamber Out Rotor In Rotor Out Operator cl: )4 S- .235 C2 Pf DRYER OUTPUT% SOLIDS Dish Wgt Wet Sample + Dish (grams) -(grams) I,ocpt ` 30 , zct5 Dried Sample + Dish (grams) ;R9, i' qV 4 ---, l� x100= S 2nd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ 'Discharge Cycle Started @ Temperatures °F Total Solids Time Discharge Exhaust Discharge Product - ' Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + D (grams) (grams) I oZSv ' Z-7,, 150 216/12, 6/23114 Dried Sample + Dish x100= L �� U % otal Solids DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ -Dry Cycle Started @ ` Temperatures°F DRYER OUTPUT % SOLIDS - x1oo= Alarms or Comments Discharge Cycle Started @ (2_ % Total Solids TWSA DRYER OPERATIONS DAILY RECORD DATE V ? START STOP -.- TOTAL RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ (-P'• Dry Cycle Started @ -7 Discharge Cycle Started Temperatures OF Time Discharge Exhaust Discharge Product Dry Chamber Timer In Chamber Out Rotor In Rotor Out Operator 3U zo.� zI D 2Zq :ao a 5 avf� S� q) 5 5 a5� 0a��5 ono �� 3-7 LfLK,::, l 6 D L 5 Sj 4.c( S DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) 1, v o 7 .(grams) a , �� /� (grams),. 19-j; 5 7`-Z1- ---3S5 x1oo= % Total Solids 2nd Dryer Batch j Fill Cycle Started @% Jt `7 Dry Cycle Started @ [ J .J Discharge Cycle Started @ J' Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator 'qu 32.1 3 r7l a.z r$3 (nc, DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample `+ Dish Dried Sample + Dish (grams) (grams) (grams) �y.3�aa x100= 7J6/12, 6/23/14 % Total Solids UPULT f'f=UUMU 3rd Dryer Batch J Fill Cycle Started @ J C�, -Dry Cycle Started @ 3i Discharge Cycle Started @� Temperatures OF Time uiak.uaiya Exhaust u101,11ai yc Product ury Timer chamber In Chamber Out Hotor In Rctor Out Opera -tor 3 :�v 2vY 2Q9 3�� 3_7� :V;F 3� y3l yyz �l Y,/yy 6; 7 ),6 5 3v5 yya `f � y yS. `l OL . Jn DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) Ul v) f 2 3. v �& 961 9 fo Tcta'I Solids TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS _ �t2%•• I_� • _.-_...------:._ . 1 st Dryer Batch / (� Fill Cycle Started @ �+'�� w Dry Cycle Started @ Discharge Cycle Started @ 1 ! = - Tam eratures Discharge Discharge Dry Chamber Chamber Rotor Rotor Time Exhaust Product Timer In Out In Out Operator 7:J 010• © S 13&�, 3R'5 IQ 47. DS S 0.5 � C � � �' ,y j�S . �7 DRYER OUTPUT % SOLID's Dish Wgt Wet Sample + Dish Dried Sample + Dish rams - rams rams - x100= q, % Total Solids 2nd Dryer Batch D +cle Started 1 Discharge Cycle Started Fill. Cycle Started @ s -'Dry . C Y . �° Tem eratures Time Discharge, Exhaust Discharge Product Dry Timer Chamber. In Chamber Out— Rotor In Rotor . . Out . Operator a WS. 41Lf �f 5 DRYER OUTPUT % SOLIDs Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams cz / S 3 `/ 5.3 4,� 5 5 x100= 3 3J: %y % Total Solids i I TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started@ —� Dry Cycle. Started @ � Discharge Cycle Started Time Discharge Discharge. e Exhaust Product D Tern eratures . Dry Chamber Chamber Timer In Rotor Rotor Z A y . l out In out O erator 2 3 D . DRYER OU, ru T %SOLID . Dish Wgt. .Wet Sample :Dish Dried Sample t Dish rams rams rams .. :. 9 2 -ryD _ x 100 .% Total.Solids Alarms or Comments - TWSA DRYER OPERATIONS DAILY RECORD DATE j START STOP TOTAL RUN TIME, HRS {Q 36 ', J I . 1 st Dryer Batch Fill Cycle Started @ _(p - Dry Cycle Started @ j Discharge Cycle Started @' (� - Temoeratures OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator 6 3(��5 DcYG z31 7t� 1 z D9 I ` 3 L-(�(�3C� 3 �o 3 )6u -�4 1-F 413 .4 4 / a 315; a.3 Ds� �S 1Q,� 45�jI q..:1 39- DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) -(grams) (grams) . 610L 9 '' 74 Z x1oo= j 65 I Total Solids 2nd Dryer Batch Fill Cycle Started @ J rf Dry Cycle Started @ ' Discharge Cycle Started @ = % Temoeratures °F Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator :3 y 2— 7—(P O aLip DRYER OUTPUT % SOLIDS FDish Wgt Wet Sample + Dish ms) rams) Yy 13 2/6/12, 6/23/14 Dried Sample + Dish (grams) 5.i =l c x00 ` 5 % Total Solids I VVSA UKyI=N.UHI=KA I IUNS DAILY RECORD / 3rd Dryer Batch Fill Cycle Started 0 -Dry Cycle Started @ 3;Z 3 Discharge Cycle Started @ 6 •3 Time Discharge Discharge Exhaust Product Dry Timer ChambeMCh;mberRo InOut Rotor 2— O erator JP C/ y� yy� 2/* DRYER OUTPUT % SOLIDS Alarms or Comments Dish Wgt Wet Sample + Dish (grams) (grams) Dried Sample + Dish (crams) x100= S OI % Total Solids TWSA DRYER OPERATIONS DAILY C CORD DATE= 5 START STOP TOTAL RUN TIME, HRS 1 st Dryer Batch Fill Cycle Started @ '7• 09 Dry Cycle Started @ �Li Discharge Cycle Started b 3 Temperatures OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator, 0 I k-7 L�v? 417 z _7 ar t 0 . 1 y 1,56 �1'5- 413S DRYER OUTPUT % SOLIDS I Dish Wgt I Wet Sample + Dish I Dried Sample + Dish (grams) .(grams) (grams) 1/,0/6 7l a5 ,3667 x100= v 1" Total Solids 2nd Dryer Batch G Fill Cycle Started @ Dry Cycle Started @ I Discharge Cycle Started @ Temperatures °F Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator R- .4ffl a , I L3 �. ` =5 -�'i,3-!; ' �� 3� Zvi qqS' YYO q`� -1 3U � DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (gram ) (grams) (grams) ,0053 3�,,9 �.? "Dvv R q x1( q,' 216112, 6/23/14 % Total Solids DAILY RECORD ,...,� 3rd Dryer Batch V Fill Cycle Started @ '- r y -Dry Cycle Started @ 3 S Discharge Cycle Started @ —2- Temperatures OF - Time Discharge Exhaust Discharge Product Dry Timer Chamber Chamber In Out Rotor Rotor In Out O erator L y y ' 1135 ` L Y3y "7.22,1 z ��.� y7 L-/--r� '/Y6-- DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish + _ Dried Sample + Dish (grams) (grams) (grams) ``7 D - 0 � , ,0 J� x100= % Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL V RUN TIME, HRS 1st Dryer Batch �. Fill Cycle Started @ (L Dry Cycle Started @ % 13 Discharge Cycle Started TPmneratrirPc Op Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator 7:13 a ON c: �3 3 7. 0-3 4,31 -s a -7 L-j cq (G Lj S '7 4 3C) ,& 3D,--- C-A DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) .(grams) (� 40A24 AE,5Y37, ,2 8UII ►�.� �� x 100 = cam} r- � / Y .1 96 % Total Solids 2nd Dryer Batch Fill Cycle Started @ d =30 Dry Cycle Started @ ' j t Discharge Cycle Started @ 07 TPmnara�i irac ��' Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor . Out Operator -s 3 <�o,' /a . �{ a �.oj 115'c) 435 I 195 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) grams) (grams) x1oo= C,11,540 2/6/12, 6/23/14 % Total Solids DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ �140 Dry Cycle Started @ 3 Discharge Cycle Started @ r' v Temperatures OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out O erator 3;16 _- �� zv7 `lLb �)13 ' uo )Xz � �12 Zz� 2��. y y�,y y3y yy ��3 s/ ys �� 6 /0 o `l.ys y3 `/ `i y.s s ? z 16 D YE �/3 S YYL 3 S 7` 3 0S ; cl `� l� I-� DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) :PT 100 /o Total Solids Alarms or Comments j TWSA DRYER OPERATIONS DAILY RECORD DATE -� START STOP TOTAL RUN TIME, HRS 1st Dryer Batch .' Fill Cycle Started @ 4 = 3 Dry Cycle Started @ Discharge Cycle Started g Y Tamnar�+ircc �C Time Discharge Exhaust Discharge Product Dry Timer Chamber in Chamber Out Rotor In Rotor Out Operator : a,�� D ` o �` o E3. / ch �T �� I ! ! �' G:s ttJ DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish FDrled Sample + Dish (grams) _(grams) (c D, `l6 -57 F, 3 (/ �j`��/5 8 ` 7 x100= N '�A 9 / , %\Total Solids 2nd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ %/: 5 Discharge Cycle Started @ Tcmnorn+"rcc OC Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Rotor Rotor Out In Out Operator 1;C50 �� " �(S(> v� _;�z, C / 50 -" 43.5 3< S DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish (grams) (grams) (7,y�00 55 2/6/12, 6/23/14 Dried Sample + Dish (grams) x100= otal Solids DAILY RECORD 3rd Dryer Batch J Fill Cycle Started @ -Dry Cycle Started @ .,_ q Discharge Cycle Started @_ % Temperatures °F -- Time Discharge Exhaust Discharge Product Dry Timer Chamber Chamber In Out Rotor Rotor 2-DX 6 7 -a v�� In Out O erator 3:s y �13 Y Y-5-- � Y 3- 1 s b YY3 DRYER OUTPUT % SOLIDS I Dish Wgt I Wet Sample + Dish ' Dried Sample + Dish (grams) (grams). (grams) �2L/ aL! 3S3 ' 3 x1oo= �%� -7 % Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE 3 —Q ` I . 'START STOP TOTAL RUN TIME, HRS C�.y �' • 5' �1 1st Dryer, Batch FiII Cycle Started @ Co 5LD Dry Cycle Started @ 3 + Discharge Cycle Started @ Tomnor�fi iroc Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator �1 20 S . 2t0 3g i �� I -Lo 1 20 9 G. b L4 3C1 9 I-01- 01 ' ;2V 1 a � � 30, vs D l 9,5 ' 3 6710 -- DRYER OUTPUT % souo Dish Wgt Wet Sample +Dish Dried Sample +Dish- _. rams rams rams 01* Total Solids 2nd Dryer Batch : Fill. Cycle Started @5 .Dry Cycle Started @ 5 . Discharge Cycle Started @ r� '✓C Tcmncrnft imc Time Discharge_ Exhaust Discharge Product Dry Timer Chamber. In Chamber Out - Rotor In - Rotor .' Out Operator 3 cc —7 ca q-�14f�3 X 3 i ti 4,14& 626 DRYER OUTPUT % Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams ),q737 �, i� 35`7 ��d x100= �/ � 3 %Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @_ Dry Cycle Started @ Discharge Cycle Start- ed.@ Tem eratures Discharge Discharge Dry Chamber Chamber . Rotor Rotor Time Exhaust Product Timer . In Out .In Out O erator 03 vs DRYER OUTPUT % SOLID : Dish Wgt . Wet Sample +:Dish, * Dried Sample.} Dish gams rams rams x 100: 1 .. . 1� -D % Total. Solids Alarms or Comments I VV6A DRYER OPERATIONS DAILY RECORD DATE 3— s " j -5 , / START STOP TOTAL �J --� RUN TIME, HRS 6 1 st Dryer Batch .' Fill Cycle Started @ LO Dry Cycle Started @ 7: % Discharge Cycle Started TP_mnAr.gfw,=C °F Time - Discharge Exhaust Discharge Product Dry. Timer Chamber In Chamber Out Rotor In Rotor Out Operator �. l a� 3 a61 b 3 8 3, ci3� i dad L�-D �y 3 as 6a L L c41-1ce 31)s . /V 1 *46 4 q#_5 3 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish - (grams) _(grams) (grams). x 100 = 9.7 79 -7 % Total Solids 2nd Dryer Batch Fill Cycle Started @ % _ Dry Cycle Started @ Discharge Cycle Started @ C;2 j Tin mnarn i t roc 0r: Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor - In , Rotor Out Operator LO s 13 9 l2 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) grams) (grams) P3,� 2/6112, 6/23/14 Fo G' `�� U x100= �(o• v��T /6,%bV-6-s %Total Solids DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ 152 3 -Dry Cycle Started @ 5 Discharge Cycle Started @ � Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out O erator g oq1461 q o `i�`l� a7; S� 13 V3s y`fs 5� z5 at 1,50 '1` 6,v � �1,1 / F (-/V () I DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) (grams). (grams) % Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ IIme I exhaust I Product 7;j i=0- �g (0313o5 Dry Cycle Started @ / Temperatures OF Discharge Cycle Started g Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator So z43 'f-a 143 / 1 P D �4 q,51 437 7 if ' j3 E6 L)5 4 3-,;7- 4 4 s 3s0 q.� -/-I ql -q qs ��g"c� DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) _(grams) (grams) ),5- 1-7g ,NY3 2q,LC) a Q � x100= 9 1 % Total Solids 2nd Dryer Batch. a. Fill Cycle Started @ _ ; 3 Dry Cycle Started @ Discharge Cycle Started @ o� • DRYER OUTPUT % SOLIDS 2/6/12, 6/23/14 Dish Wgt Wet Sample + Dish (J ralms1) / (grams) 0°rZ/ I �Ve�Ark0 Dried Sample + Dish (grams) .ays� L/ x100= Ca44 (t� % Total Solids /J 3rd Dryer Batch DAILY RECORD % / Fill Cycle Started @ - -Dry Cycle Started @ �� Discharge Cycle Started @ Temperatures OF ischarge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator 3 � 4,Time Jg �� y�� J y3 G . T 0 0 >l ell DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) D, q 9-3 �-1, .s Y 6 3 ,n (�3 9f� S o a3 5��1 x,� o= l_ % Total Solids Alarms or Comments TWSA DRYER. OPERATIONS DAILY RECORD DATE :3 •- LeJ j START STOP TOTAL RUN TIME, HRS 1 st Dryer Batch Fill Cycle Started @_ Dry Cycle Started @ = `J Discharge Cycle Started @ Time Discharge Exhaust Discharge. Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator ;. 21 pia 313q 3& sq & 7 < < - 1 �6 b I-� /-f3,�5 464, 3 52 (S ;� :13b 3c rJ )44( -145 - J?A DRYER OUTPUT % SOLID Dish Wgt rams Wet Sample + Dish rams ,, Dried Sa_+�sh rams 0, y -7$z Time Discharge Exhaust.- Discharge Product Dry Timer Chamber. In Chamber Out Rotor In -Operator �9� .J WRotor C' � .s -o e # 4 � 3 a3 a ao� a �ss� ,� 73 �r11Q. 6� 2_ 20 3.03' Y �, Ll�fr DRYER OUTPUT % SOLI Dish Wgt Wet Sample + Dish. I Dried S rams rams + Dish = % Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ S-- S-- Discharge Cycle St arted Temperatures Fo DRYER OUTPUT % Alarms or Co'mments j6p 96. TWSA DRYER OPERATIONS DAILY RECORD DATE CT — START STOP TOTAL RUN TIME, HRS 1st Dryer Batch { .' Fill Cycle Started @ Dry Cycle Started @ % `off Discharge Cycle Started TPmnPrnfEirac °F Time Discharge Exhaust Discharge . Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator o 0) 2� (5? a v-u 6-0 SIC O L40 (,1 qDU "SL-j :vC� a33 Q- D(� )Z) qL( 5 Z� �,-7 1 t4(—f ('U . LA ( C�� L3 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) _(grams) (grams) A(,• x100= 9'7. %Total Solids 2nd Dryer Batch I Fill Cycle Started @ 10 • Dry Cycle Started @ ) • Discharge Cycle Started @ TPmnPrafi irP_ op Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Rotor Out In Rotor Out Operator 11'31 39'-5 575 39.5 as 10.0 -Y13- 39 co DRYER OUTPUT % SOLIDS LDmish Wgt Wet Sample + Dish Dried Sample + Dish gras) grams) . (rams) `1673 77 5�a5 x1oo= 9L %Total Solis- 216/12, 6/23/14 3rd Dryer DAILY RECORD Batch Fill Cycle Started @ 3 , v Dry Cycle Started @ } Discharge Cycle Started @ Temperatures OF Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out O erator CD 37�Y� i3� yy� 3 YY61 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) (grams) (grams) , 1 6 5-4 2,�• % Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE 3 — J b .- I 'Jr V START RUN TIME, NRS STOP TOTAL 1 st Dryer Batch Fill Cycle Started @ le - . + Dry Cycle Started @ • 23 Discharge Cycle Started l� � 9 Y @'_ 43 Temperatures OF Time Discharge Exhaust Discharge Product Dry Chamber Timer In I Chamber Out RotorgRotor In D� iD &8� L� �3g? k,;,�a 0 c13-5 qZ-( L 33 a as 1 cos �E�J6 .2 Lo 01� � aoD � � DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample f Dish, Dried Sample +Dish (grams) .(grams) (grams) 40 ,.97,5 �- 3. 5(� �, �G3 x 100 = c 9 S� /3 % Total Solids 2nd Dryer Batch Fill Cycle Started @ 1 D rj 2 Dry Cycle Started @ - Discharge Cycle Started @ - 3 Temperatures °F Discharge Time Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator a o� �� a JV - q l g.2 7 60 l5 0.3& Zol tea . a 23 C ). 77T 62 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried SU c (grams) grams) (grams) l /o dotal Solids L2,6/23/14 �-1�5� �lS� �ji Cr + ,U<96 DAILY RECORD 'v 3rd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ S: 2 T a, or Discharge Cycle Started @ —1 Time Discharge Exhaust Discharge Product •r-- Dry Chamber Timer In Chamber Out RjIn Rotor Out O erator z �35 'J z 33 )09 S6 �Y� y 3 93 5: 3 v5 v lJ y v 5 `5 z 3 1 ef ) 6 () V YS— y 36 Y'I 3 0 ? J Ir' DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams). (grams) 1V53 27,37 88 ��_(o913� x 100 = �� 9 L z % Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP .. TOTAL RUN TIME, HRS 1 st Dryer Batch Fill Cycle Started @ te r A{ Q Dry Cycle Started @ Discharge Cycle Started �� 3 Temperatures OF Discharge Exhaust Discharge Dry Chamber Chamber Product Timer In Out Rotof In Rotor Out Operator � � a 5 a� jb', �53 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) x100- Q °/ Total Solids 2nd Dryer Batch' Fill Cycle Started @ ' y Dry Cycle Started @� Discharge Cycle Started @_ TemperaturesOF Time Discharge Exhaust Discharge Product Dry Chamber Chamber Timer In Out Rotor In Rotor Out Operator aA l �3 � i 3 1 IFS ,3 9' DRYER OUTPUT % SOLIDS Wgt Wet Sample + Dish Dried Sample + Dish LDish rams) (grams) (grams) ' =� .i x 100 ; 9 . a % Total Solids 216/12, 6/23/14 DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ ' 44 b -Dry Cycle Started @. 3% y Discharge Cycle Started @ = Y� Temperatures` Time Discharge Exhaust Discharge Product Dry Timer Chamber In chamber Out Rotor In Rotor Out O erator 3,z 0.5 0 3 � 9 V 3 y -... -'1 `l z�y ��g � V�Y I `I y y 3 Sys 3 J12 sy a�� Aso yy� 3- ��,� .ion J DRYER OUTPUT % SOLIDS I Dish Wgt I Wet Sample + Dish I Dried Sample + Dish Alarms or Comments x 100 — 9 6 . l' �- jo Total Solids Kl " TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS 1 st Dryer Batch { Fill Cycle Started @ �-j Dry Cycle Started @ 7' 3 Discharge Cycle Started Tcmncrnfa rrr OC Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor I Out Operator - ti 0 %a a 2; �, q . i a -3 .-Q- a �1 i��-2® 4,jV14437,_ -bD� DRYER OUTPUT % SOLIDs Dish Wgt Wet Sample + Dish Dried Sample + Dish ,--- (grams) _(grams) (grams) q?03 y, .b 1 i �D, 3637 �3. 70 x1oo= 9 7 ,S� %Total Solids 2nd Dryer Batch Fill Cycle Started @ -� b Dry Cycle Started @ 3 Discharge Cycle Started @ T=m—r,+--; 0C Time Discharge Exhaust Discharge Product Dry Chamber Timer In Chamber Out t Operator *RoRot,r Lf �3 g,�g a DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) rams) 6-0•77�-& x100- Q.4- V'-/Q-7 ° , /° Total Solids 2/6112, 6123114 DAILY RECORD ,�,... 3rd Dryer Batch Fill Cycle Started @ -Dry Cycle Started @ Tcmnor�+urcc �C Discharge Cycle Started @ Rotor Rotor In Out O erator Time Discharge Discharge Dry Exhaust Product Timer Chamber Chamber In Out DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams). (grams) x100= % Total Solids Alarms or Comments. TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ b Dry Cycle Started @ a. Discharge Cycle Started, Temperatures °F Discharge Dry Chamber Chamber Product Timer In Out Rotor Rotor In Out Operator gD o �D y►-7 La-U� 1 DD `fts� �� (Y7 44�r `N4 39c> Ci DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) _(grams) (grams) s>s- T-5 -� �y.�w7'7 x100= 9�.��rl Total Solids 2nd Dryer Batch ,. t Fill Cycle Started @ Dry Cycle Started @ I L� Discharge Cycle Started @ ' D ,-� Temperatures °F DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) rams) (rams) a6,, ,5rq 7 x1oo= .3 3 % Total Solids J 2J6/12, 6l23/14 DAILY RECORD / 3rd Dryer Batch J Fill Cycle Started @ 3 i 4' -Dry Cycle Started @ 3 - Y 6 Discharge Cycle Started @ ;'23 Temperatures OF xhaust Discharge Product DryoChMRor Timer Rotor - Out O erator �13LIN MDcharge 3�� 3 7T3� ��3 31j DRYER OUTPUT % soLiDs Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) I,Ov7q 2 .3.�,3 �Y c��.�a x1oo= _ o /o Total Solids Alarms or Comments '7 TWSA DRYER OPERATIONS DAILY RECORD DATE - --=I START STOP TOTAL RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ Discharge Cycle Started @' ` Temperatures OF Discharge Time Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor Rotor In Out Operator 7:a a 05 a,C) '7( 3!&L5 3R a'q-z E' 4-1 q45 '-�q C is 31 0 c DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish ^� (grams) -(grams) (grams) r� 5-3 . 7 3 5o --- ' x1oo= 97, aS- 7 Total Solids 2nd Dryer Batch i Fill Cycle Started @ _J 6 : 5 Dry Cycle Started @ Discharge Cycle Started @ Tcmncr,+ —; OC Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Rotor Rotor Out In Out Operator y3.3 'g O-� l DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) x 100 °�° Total.5olids 2/6/12, 6/23114 DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ 3 -Dry Cycle Started @ 3.S Tamnmrnbirac °F Discharge Cycle Started @ 1 FExhaust Discharge Discharge Product Dry Timer •r- Chamber In Chamber Out Rotor In Rotor Out Operator � 3 D °7 U Y�� I.3 i `l y� 3 � ? alI z:9 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) (grams). (grams) 0,1770 . a 6, 09 a5. /�� i::D x100= Q .L77D— o /o �• Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE 3 _ 'I START STOPS : TOTAL RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ �p� 147 Dry Cycle Started @ Discharge Cycle Started aL7'1d: Temperatures OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor Rotor In Out Operator _7. D U 38( (`7 JS� IC4,aI )139 91 1,9a 007 —)DO --?— 5 'i,3`7 C) i �SP 4*-!� H3� DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) -(grams) (grams) a a (� x 100 = -� L, , - Total Solids 2nd Dryer Batch �`� Fill Cycle Started @ �_fl Dry Cycle Started @ - 2 Discharge Cycle Started @ T=mnornfiiroc OC Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Rotor Rotor Out In Out Operator �) aD a C),5 l 00- "�6/7� . �Z C--,' r5�'f -3t� �13T 3 Pj," � � i-(l DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + (grams) (grams) (grams) / 2ve/12, 6/23/14 % Total Solids 3rd Dryer Batch IV VJ/-% L/F\ t CK UrtNA i IUIVS DAILY RECORD J zE �� Fill Cycle Started @ -Dry Cycle Started @ Discharge Cycle Started @ Discharge Time Exhaust Discharge Product Temperatures °F Dry Chamber Chamber Rotor Timer In Rotor SS 3 yy Out In Out O erator 33 3S `/ �- 3 242 �L/ 6 ;`t 2,y�/ 3os g� y`l6 yyz yy 3 y- DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams). (grams) l,OOLZ �. r2 L �rt�Q D a x100= �" D I % Total Solids Alarms or Comments C TWSA DRYER OPERATIONS DAILY RECORD DATE 3 ` r� (e — ) - V —� START STOP TOTAL - RUN TIME, HRS 1 st Dryer Batch Fill Cycle Started @ LQ [ Dry Cycle Started @ : q Discharge Cycle Started a@ Temperatures OF cDry Chamber Chamber Rotor duct Timer In Out In Rotor Out Operator JaDisharge DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample +Dish (grams) .(grams) (grams) `L �, `-/o�� ,��7 x100= 3 _ % Total Solids 2nd Dryer Batch Fill Cycle Started @ _1 -3.� Dry Cycle Started @ Discharge Cycle Started @ Temperatures °F Time Discharge Exhaust Discharge Product Dry Rotor TimerOut In Rotor Out Operator en jChamberhamber }�� 1 oa��S7`7 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) grams) rams) � � , $ �� (..j x100= / 1 � % Total Solids 2/6/12, 6/23/14 t , v V,3r vi-\ i CM UF'tKA I IUNJ DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ �� Time Discharge Exhaust 03 3J z 33 Z.Y. Product 3 os' J -Dry Cycle Started @ 1-1 � 37 Discharge Cycle Started @ % Temperatures °F Dry Timer Chamber In Chamber Out Rotor In Rotor Out O erator 9 L/. (-/3 e y% 3 )�t, ,jam l a yy y 3 7 Y Y(� 3 Fo Jr'' 1-70 1 yv s- yys- DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) D.� �i 7,s 1 "7 a (Q cJ �G(p x 100 = L ` J % Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE -- J L7 L % S —) START STOP TOTAL RUN TIME, HRS % L 11.j - - 1st Dryer Batch Fill Cycle Started @ DryCycle Started @ 1 Discharge Cycle Started @ Time QExhaust ischarge Product 'Dry Timer Chamber In Chamber Rotor Out In Rotor Out O erator • 3 3V as v a Q) 15 0 3 : D. a3 3D.; 7 T DRYER OUTPUT % SOLID Dish Wgt Wet Sample .+ Dish Dried -Sample + Dish - rams rams rams 91 3�' x°ioo Q Z, . % Total Solids 2nd Dryer Batch Fill Cycle Started @ ! 1 Dry Cycle Started @ 1; Discharge Cycle Started @-�� Time Discharge . Exhaust Discharge Product Dry ' Timer Chamber In Chamber Out- = Rotor -- In- .--. =: - Rotor Out Operator c;?30 E' a Po r I 16E)T411S -2 ems- 37 9 C 6( .=3. S7 AAA -30,:� LSJQ 1_7 445 4.3- c. -DRYER OUTPUT % 216/12 > Dish Wgt Wet Sample + Dish. Dried rams rams Lo,q q�3 Zy,6.26 a31c71 x1oo= nple + Dish ams Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd 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 Out Operator �C :2-6 -j� q.0 DRYER OUTP UT %soup . Diish Wgt .Wet Sample +.Dish . Dried Sample.+ Dish rams -grams),—, rams t 100 q ��. 77::: • % Total.Solids Alarms or Comments -- TWSA DRYER OPERATIONS DAILY RECORD DATE 3 0 I J START RUN TIME, HRS STOP -.- TOTAL 1st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ % 2,�, 5 Discharge Cycle Started g v � 55 Temperatures OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator � . -S5 ass a�� 30 - . a 5�J `f13y a -7� a 95 ,011 �i � �(� ci- DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams). -s x100= 2nd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ Time Discharge Exhaust Discharge Product (! . Li d a o5.. a O � C ► 'a :z C) � Ui 'ad rr�� Temperatures °F Dry Chamber Chamber Timer In Out 3`� 5 0 � �� 1)1.3. �" SG % Total Solids Discharge Cycle Started @� .Rotor Rotor Out aa� w �W I 6vb�j DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) L (grams) (grams) Ir 02,70 :Z7, `/6 JL&/77 / � x 100 /D =7= g/- oir 1S rd 2/6/12, 6/23/14 - 0 ota o I S DAILY RECORD 3rd Dryer Batch Fill Cycle Started @_ C� J -Dry Cycle Started Jv @ f Discharge Cycle Started @ Time Discharge Exhaust Discharge Product Temperatures OF Dry Chamber Chamber Rotor Timer In Rotor 2vs Out In Out O erator � 3 b � 16 ;�v 7 �3 S" 2,65 Y/5 6, o c` DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) -,',3 OF 7 J0/ 77� -7 x100= SL �- k� D � % Total Solids Alarms or Comments i TWSA DRYER OPERATIONS DAILY RECORD i j - DATE 3 l START STOP TOTAL RUN TIME, HRS IL�20- 1 st Dryer Batch Fill Cycle Started @ - : �q Dry Cycle Started @TDischarge Cycle Started @ �•` Tomncrv+n.o. '�' Time Discharge Exhaust Discharge Product .Dry Timer Chamber In Chamber;Rotor Out- ' Rotor Out O erator aGy I : Z 93 A15 16D DRYER OUTPUT %SOLIDS Dish Wgt Wet Sample + Dish Dried -Sample + Dish - rams rams rams -- -0'�3 F 2,6, 6UF� go -7 x 100 % Total Solids 2nd Dryer Batch i Fill Cycle Started@ / i�.. Dry Cycle Started @ Discharge Cycle Started @ �� Time Discharge Exhaust Discharge Product Dry . Timer s Chamber' In V Chamber Out Rotor In Rotor Out:.= Operator i a �a ':c) - a o 3 -.ao /P a :157 a 144 J 8 5 0 - f,'-J5 113 1-15 �3 7 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams 76, 3 ' x100= G} % Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ Discharge Cycle Started.@ em eratures Discharge Discharge Dry Chamber Chamber Rotor Rotor Time Exhaust Product Timer . In Out In Out Operator DRYER OUTPUT % SOLID Dish Wgt rams .Wet Sample +:Dish rams Dried Sample + Dish gams TWSA DRYER OPERATIONS DAILY RECORD ,,A1 DATE `l '" Z— 5 j START STOP TOTAL RUN TIME, HRS % C7 5 7, A� It 1st Dryer Batch Fill Cycle Started @ !_ — Dry Cycle Started @ - , S Discharge Cycle Started Temperatures OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In chamber Out Out Operator '0 �� 3� qRototor Z-7 �8: q(0 d o Q v� �� q�5 lob LS `--13 �q� 3�a o zc� a� c � 5 ��c5 L.� s 3 t � aDo Y44- � �� I �� -S3� DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) -(grams) (grams) x 100 = 2.'7930 %Total id 2nd Dryer Batch Fill Cycle Started @ a Dry Cycle Started @ j 2 2 Discharge Cycle Started @ Tamnarmfi iroc 0�: Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator !' 7. �t�(o 90 C) 519 �67 39 zz l�P �Z ��-� a� 1ID Lj� �� S a z�3Z�� s ��5 3(.o4- ��1� �t� 1 �f '�3 43 Y� �7 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (rams) %Total Solids 2/6112, 6/23/14 L/ DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ 5. -Dry Cycle Started @ e_+, 3 Discharge Cycle Started @ ; : Discharge Time Exhaust Discharge Product Temperatures OF Dry Chamber Chamber Timer In Out Rotor Rotor v In Out Operator v1,D z0 i�� L/ yS y3 y S- .j3 5 j/ y3 ,I 305 y y y/ yys DRYER OUTPUT % SOLIDS �— Dish Wgt (grams) Wet Sample + Dish (grams) Dried Sample + Dish (grams) . ao97 sue. /.�s 39, x..100= /o Total Solids Alarms or Comments 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 @� Tamnorafimzcz °f_ Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor - :_ Out Operator �l ',.oaf 233 ao(o o b . L43 8 Lf14 p S-77 07W D 3 �tq�5 8> ce�e0 �i 3�- DRYER OUTPUT % SOLIDs Dish Wgt Wet Sample + Dish Dried Sample + Dish - (grams) (grams rams _ 3 3 0 -70 Q. 5`- q- % Total Solids 2nd Dryer'Batch Fill Cycle Started @ I✓ �✓ 3 Dry Cycle Started @ Discharge Cycle Started *@ Tamnornhircc a7 Time Discharge Exhaust Discharge Product Dry Timer Chamber. 'In Chamber Out - Rotor In - :: Rotor Out - . i 1 ' . Zg aU S R nD ZS-18_7 (o G� 3&-7. Z _(o . —Operator D A0_ �© 7 43'7C 2 49J/ l 4`�`f� DRYER OUTPUT % VtU nple + Dish 3ms q_7 Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ Discharge Cycle Started.@ �S Tem eratures °r Time Discharge Exhaust Discharge Product Dry -Timer' . Chamber In Chamber Out . Rotor In Rotor Out Operator 3 3 3. 21 S° 3�v 3�s. I q I Y- W 3� 3 DRYER OUTPUT % SOLIDS. Dish VVgt . : Wet Sample + Dish Dried Sample.+ Dish �-- (grams) rams rams 22, 7 TWSA DRYER OPERATIONS RECORD 1DAILY DATE I - 1,5 / V START STOP .,. TOTAL A RUN TIME, HRS U1= 7 r S 1 st Dryer Batch Fill Cycle Started @ (.a--3q Dry Cycle Started @ s Discharge Cycle Started ta7 Temperatures °F Discharge Time Exhaust Discharge Dry Chamber Chamber Rotor mer Product TiIn Out In Rotor Out Operator �� s c ss SP-7 3> 3�s DRYER OUTPUT % SOLIDs Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) i0 6. 91-/3 4, Sc x 100 = 70 7 6 % Total Solids 2nd Dryer Batch Fill Cycle Started @ —LD Dry Cycle Started @ Discharge Cycle Started @ Tamnarnfi trac 0;: Time Discharge Exhaust Discharge Product Dry Timer ChamberWChaber®RRor In, t Operator D . �i f col) �� 2a s q=9-Do v `�0 1s� s 'c DRYER OUTPUT % SOLIDSEDishWgt Wet Sample + Dish Dried Sample + Dish (grams) rams) 13 D x100= I,D 76 % Total Solids 28/12, 6/23/14 DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ P. 5 D_ -Dry Cycle Started @ 3%z-5 J Discharge Cycle Started @ Temperatures OF Discharge Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out O erator � yz� a,sl ..:- NTimeExhaust 3 �� b yL/�l�z� Sys 3 3 7 �-�- 3 �� J�,z5 13 �� `-1 y3 '132 YY3 32� � Zoo�� .. DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) % Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE' 9 `20 " 15 START STOP TOTAL _1 RUN TIME, HRS 1 st Dryer Batch t .' Fill Cycle Started @ Dry Cycle Started @ 7 • Z Discharge Cycle Started Wl Tcmncrn+�vr=o OC Time Discharge Exhaust Discharge Product Dry' Timer Chamber In Chamber Out Rotor In Rotor - Out Operator .', 29 20 211 C7 3cl (P 2-30 5.3 •. t g 1 2 2—C, o� . 50 o 01'- 2—Li c, L4L(,, 433 Lt4 S-�3 -� T-59 2_4 q} zZz i 15 D ' c4 ciq L13(. Q 4 5 �� 3 Lt ( -Z9 Z 1 3 a 5 - t 9 3 4 u H Lk Lt l I L4 c 1 Sc, sus DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) 0, qq21 l3 a5.sFg� 3`l� x100=d.33d9 % Total Solids 2nd Dryer Batch Fill Cycle Started @ 10 ,,� 5 Dry Cycle Started @ < < F� a 1p Discharge Cycle Started @ ' Tamnarati irac �K' Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Rotor Rotor Out In Out Operator - )� a U D 3 cy-1 Zzo 5� _4(3, Q r� .3 `�`-�? C h DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) (grams) (grams) ►, 007� .30, 3 6 6-,- ��.�� x1oo= 216/12, 6/23/14 76 Solids DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ !j -Dry Cycle Started @ ,`,� 7' Discharge Cycle Started @ Temperatures °F - Time Discharge Exhaust Discharge Product Dry Chamber Timer In Chamber Out Rotor In Rotor Out O erator U;�7 �o� Z�� ✓moo �-/� y17 y Z z� Y '�7 �3 z�l l��d yy/�� yyy 3as �i�' ;s2 2�, z3s �s �lyS 3� `i`ls 3 8 ' a ds DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) of mg ��. 9Q 7� x1oo= 9 6.5 %i % Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE !.. j' ;2— 1 _ 1. START STOP TOTAL RUN TIME, HRS 3 1 st Dryer Batch Fill Cycle Started @ Ce Dry Cycle Started @ / Discharge Cycle Started @ _ ' Tcmncr��nroc 'C Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out O p6rator 7.'17 Ott "7'1� a a a.oS . job* � �7 :15- 4,q- 1337 /v: 3 900 `6 -37-zTcq DRYER OUTPUT % SOLID Dish Wgt Wet Sample + Dish Dried Sample + _Dish rams rams rams _ - 1 x 100 =. 9�. 73 6, % Total Solids. 2nd Dryer Batch Fill Cycle StartedDry Cycle Started @ = Discharge Cycle Started o%�' .. - Time Discharge Exhaust Discharge Product Dry Timer Chamber 1n Chamber Out Rotor -in- Rotor. Out: E Operator qt� 'd3 a,bg %v/' 3 �61y4 377 2 . ,2, . a �3 OCT 4 )q38 C' DRYER -OUTPUT % /(off —Far e- E —Tav _v�o = cJs� /3 7 7 Dish Wgt Wet Sample + Di: rams rams �6.3 9 7 30.0 701 Dried Sample + Dish 7 x 100 =�� Rio TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch : Fill Cycle Started @ ' Dry Cycle. Started @ ' Discharge Cycle Started:@ b; Tem eratures Time Discharge Exhaust Discharge Product Dry Timer . Chamber In Chamber Out . Rotor In Rotor Out Operator 3'. 2,05 2v�. vv. V� z 6',14Y 2�, so 275 2OD y S `f 7 Sys 3 DRYER OUT PUT % SOLID Dish Wgt. rams) Wet Sample + Dish (grams)'- Dried: Sample+ Dish rams -),2*1. T�3--DF73' jr3�U2`fS� i TWSA DRYER OPERATIONS DAILY RECORD DATE -� START STOP TOTAL RUN TIME, HRS Ce '` 6-C7 3 ' 1st Dryer Batch Fill Cycle Started @ - qq Dry Cycle Started @ _7 = Discharge Cycle Started @ l/= Tomncrnti imo O 0- Discharge Discharge Dry Chamber Chamber Rotor Rotor - Time Exhaust Product Timer In ' Out In Out O erator 7:: �'. E S L. eDD Time Discharge Exhaust Discharge Product Dry Timer Chamber.^ In., v Chamber Out Rotor. - In - - -Rotor= :. Out ; -- O erator -All 4 le 310- C DRYER OUTPUT % SOLID Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams 5-. 9r Sr Zt./vZ1 �.� � �� . x 100 = t` Solids 76112 V TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch; Fill Cycle Started @ fi' D 0 Dry Cycle. Started @ f Discharge Cycle Started.@ Tem eratures . Time Discharge Exhaust Discharge Product Dry Timer - Chamber In Chamber Out Rotor In Rotor Out O erator 3 ,z2 zP z�s- qW .3 DRYER OUTPUT % SOLIDs Dish Wgt . Wet Sample +:Dish Dried. Sample_+ Dish :. rams rams �} , rams START STOP TOTAL RUN TIME, HRS 1st Dryer Batch Y @ -Dry y @ , Fill Cycle Started � � D Cycle Started � � 3 Discharge Cycle Started @ Discharge Discharge Dry Chamber Chamber Rotor Rotor Time Exhaust Product Timer In Out In-. Out O erator 3 y "UD a� `5 ZJ C2 O '� 19. Ll 3 L4 Li D 1 1445" : y a 7 f j a 4 /� 31�� 19- C01 DRYER_ OUTPUT % SOLID Dish Wgt . Wet Sample .+ Dish Dried Sample + Dish - , .. .. rams rams rams ;l p / % Total. Solids 2nd Dryer Batch I Fill Cycle Started @ ' Dry Cycle Started @;a Discharge Cycle Started @ - Tem eratures - -Time Discharge Exhaust ' Discharge Product Dry Timer Chamber' In Chamber Out Rotor Rotor 1n' ' ' . Out . Operator 43. � * DRYER OUTPUT % SOLID Dish Wgt Wet Sample + Dish. Dried Sample +Dish rams rams rams MO x100= �V I - / W 76 % Total Solids I WPM Time Discharge Exhaust Discharge Product Dry Timer . Chamber In Chamber Out . Rotor In Rotor Out Operator - Al. : l & a A 33 D C-Al 00 3:1 : 3 -5-:- 5D y`t8 36. C4` 3y i ! TWSA DRYER. OPERATIONS i DAILY RECORD J i DATE T s START STOP TOTAL RUN TIME, HRS 3 ` I o 1 st Dryer Batch Fill Cycle Started @ 14e`Dry Cycle Started @ l - Discharge Cycle Started @ Temnerntures d �' Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Operator aD aj b 39.4�3`? c� 9� nOut oSoL C 0 3 1 a DA )oZ) yLfH H 3 1-4L 395 ct: :m a 3o.5 44� 0 39� . �L 7 DRYER OUTPUT % SOLID Dish Wgt Wet Sample + Dish Dried Sample + Dish rams - rams rams 0;��19 e SG y6 _. 9(/ . x 100 % Total Solids 2nd Dryer Batch Fill. Cycle Started@ ry Cycle Started @ r47_ Discharge Cycle Started TPmnaratnras Time Discharge Exhaust Discharge Product Dry Timer Chamber. In Chamber Out Rotor In Rotor Out Operator 40 go c l (p oZ 0 ii 3 45 -` 3 IP r2 .�0 ff ':-7 'qo 4 �f6 39 C-' Yll DRYER OUTPUT % .ti6�12 1 Dish Wgg Wet Sample + Dish. Dried Sample + Dish rams rams rams �y,S�B� �3.�955 x100= D_ 396- (-kl � % Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ -_�4 :Q Dry Cycle Started @ ' 3 Discharge Cycle Started (a) S 3 Temperatures a Discharge Discharge. Dry Chamber Chamber . Rotor Rotor Time Exhaust Product Timer . In Out In Out O erator .d zy 2I Z .14 .f/ ytyy DRY2R OUT. PUT % SOLIDDish Wgi. -.Wet Sample + Dish -..Dried Sample + Dish rams rams rams Uo 0, n5 .�. �b:o Xioo_ _q % Total. Solids Alarms or Comments ... _ TWSA DRYER OPERATIONS DAILY RECORD DATE -- 6 1_ START STOP TOTAL RUN TIME, HRS �p o'�. ; 31 1st Dryer Batch / Fill Cycle Started @ - Dry Cycle Started @ -7 ; L Discharge Cycle Started @ / Time Discharge Exhaust Discharge Product Dry _ " Timer chamber In Chamber Out Rotor In Rotor Out O erator o�o�� 'LL, 3 Lf� "3 DRYER OUTPUT % SOLIDE Dish Wgt Wet Sample + Dish Dried Sample + Dish rams rams rams x100- i % Total Solids 2nd Dryer Batch Fill Cycle Started @ b', 5 3 Dry Cycle Started @ ;'I 03 Discharge Cycle Started'6) Time Discharge_ Exhaust Discharge Product Dry Timer Chamber' In Chamber Out - . Rotor In - Rotor . Out Operator I: 03 9 6V at b D Hf 4- '22�9 0130) . 33 DRYER OUTPUT % SOLID Dish Wgt Wet Sample +Dish. Dried Sample +Dish 1 Q, 1 y731 �Z Y 5% `/ 1 24 _ x100= 216/12 ams _ 7 - ri % Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ Dry Cycle. Started @ Discharge Cycle Started.@ Z�3 Tem eratures ° Time Discharge Exhaust Discharge Product Dry Timer . Chamber In Chamber Out Rotor In Rotor Out O erator 19.. � 63 �1� :. a 3 . moo. C44 -TOT ` V . .-; 3 z �� 3�s �s y �� `� Y yy�. _ j7 DRYER OUTPUT % SOLIDs Dish Wgt . Wet Sample • Dish. Dried.Sample Dish rams rams .. rams TWSA DRYER OPERATIONS DAILY RECORD DATE 'O -- START STOP TOTAL RUN TIME, HRS U s y , 1st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ 7 �� Discharge Cycle Started @ Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Rotor Out In Rotor- - Out . b erator T 5i ao3 a, i 3�� v 3q� �a� �3 `41 AD 5 ava �o L ( 5 �`� QCo =� ao� ��` �� u� q Ljg5 3n to,. a j o ISO ( 15 3i d co a �5 ��r i r�� LAC(3 3� 5 DRYER OUTPUT % SOLID Dish Wgt Wet Sample +Dish _ Dried Sample +Dish . rams rams rams SSSI� - d1 5 x 100 G _ �. is %Total Solids 2nd Dryer Batch 1 Fill Cycle Started!@ f l7 5i,� Dry Cycle Started @ Discharge Cycle Started@ i Time Discharge Exhaust Discharge Product Dry Timer Chamber. In v Chamber Out Rotor. In .-_ Rotor Out Operator 4u-7 3 i U 4 0 2. -- ,(� 03 5b Is P3119 a 3, a U a 160 4 3 -7 �-1 �� `53`► o ( 5a a a 7, Sv LIq� 9 �cl q 3� o 1� LtY9 [, t.(v YYcf J� DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams 0, g ys 5 �� ss" y 9 7 % Total Solids 2vs(1 2 V� TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ a� Dry Cycle. Started @ Discharge Cycle Started.@ Tem eratures Time Discharge Exhaust Discharge Product Dry Timer - Chamber In Chamber Out . Rotor In Rotor Out Operator 56 .may Zo$v3: 2b 3r ! 9 S zv I 0.. ` q y 3 y. : y y y. . 3 S6 y;3 :�36 c DC V36�- s,z�� y3�.s�s DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample. i Dish Dried Sample.+ Dish rams rams rams �.5: 47S x goo= ...Total.Solids Alarms or Com . 3.3 &,3 ° TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL RUN TIME C70 HRS ,Z, X, 9 1st Dryer Batch Fill Cycle Started @ "� D Cycle Started Dry C Y @ L4 _ Discharge Cycle Started @ l (^7- Tern eratures 0p: Discharge Discharge Dry Chamber Chamber Rotor Rotor Time Exhaust Product Timer In Out In Out O erator A 5 a()� a o o � a �� L4'0 s' 3 5 a 3 L CX 50 q q3 4( .'::1•-c)5, Oo y L(5 'j(-f3 �g i o-)C 9 150 L/3'0 3_7q o. w 1S 3(�5 ;�31 jy3 3 DRYER OUTPUT % SOLID Dish Wgt rams Wet Sample + Dish Dried Sample +Dish .. rams rams �5w x goo =' Total Solids 2nd Dryer Batch Fill Cycle Started @ .5 �] Dry Cycle Started Y . @ o� Discharge Cycle Started @ o� Temperatures Cfi Time Discharge_ Exhaust Discharge Product Dry Timer Chamber. 1n Chamber Out - Rotor- .= In-. Rotor Out = —Operator a�0 50 '-f 5 3 3�d a k� Y-H �-13 . 3E L(L(� ��`� �171 DRYER OUTPUT % 2B/12 Dish Wgt . Wet Sample +I Dish: Dried Sample + Dish rams rams rams 07y211 6, As 73 s x1oo= K % Total Solids DRYER OUT PUT % SOLID Dish Wgt.. rams Wet Sample +.Dish rams) Dried Sample.+ Dish rams x 100 = TWSA DRYER OPERATIONS DAILY RECORD DATE L2 f 5 RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ r 3 Discharge Cycle Started @ T=mn=rn+i i—, Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator °43 ° .�fp� 310 7 : Ll_ 0�,3 3�)4 a p DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample j+Dis' Dried Sample,+ Dish - rams rams rams J s x100= % Total Solids 2nd Dryer Batch , Fill Cycle Started @ Dry Cycle Started @ - d Discharge Cycle Started .@ l Tem eratures Discharge Discharge .Dry Time Exhaust `- Product Timer Chamber In .Chamber Rotor � Rotor Out In out..Operator s a �2,3 qc DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams / rams p rams of � v .--> o x100= G 7 3 % Total Solids WPM TWSA DRYER OPERATIONS DAILY RECORD / 3rd Dryer Batch. V Fill Cycle Started @ o� ` �`�" Dry Cycle Started @' ,�z J� Discharge Cycle Started.@ Tem eratures Time Discharge Exhaust Discharge Product Dry Timer Chamber In - Chamber Out Rotor - In Rotor . Out Operator 2-o7 j��2- 2- Z3 VYS Y37 5 D :. L� `f s Y ' Y'Y-S7 �. 29 ; Jim 3 DRYER -OUTPUT % SOLID Dish VVgt Wet Sample +:Dish Dried. Sample + Dish .. rams rams - rams �. 9-yss, TWSA DRYER OPERATIONS DAILY RECORD DATE (0 START STOP TOTAL RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ Discharge Cycle Started @ Temperatures IT Tinie Discharge Exhaust Discharge Product Dry Timer Cham . ber In Chamber Out fj: Rotor In Rotor Out Out Operat r R) 9 .5 Grp v; DRYER OUTPUT %.SOLIDs Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) y X 10.0; Tortlail Z111J*dS 2nd Dryer Batch Fill Cycle Stari6d'6 ...Dry Cycle Started Dischar e Cycle Staftted IT Aa ",5 16 Tsmrnrwzr_-itFjf'eS IDischarge Discharge Dry `e Cha�t _" im� Chamber Rotor. Rotor ..Time Exhaust Product r Out In = Out- Operator C9 �3 44f -1� J6 DRYER OUTPUT % 502 ish Wgt I Wet Sample + Dish I Dried Sample + 71/ 1? b t)W; , Y. x 100 % Total Solids w TWSA DRYER OPERATIONS: DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ Discharge Cycle Started.@ TPmnPraturas q_— Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator 6 DRYER OUTPUT % SOLIDS Dish - Wgt -(grbms) Wet Sample + -Dish rams Dried.Sample.+ Dish (drams) I I I - I ' RUN TIME, HRS I 1st Dryer Batch I Fill Cycle Started @ �v TWSA DRYER OPERATIONS DAILY RECORD" DATE t ` l START STOP TOTAL t. Dry Cycle Started @ Discharge Cycle Started Tamnarafws=-z OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Rotor Rotor Out In Out Operator 6 -Q,3 .� 3 Og 0 L4 3e cm a `i 6�7cl Ob 53 ors 1� �.� 141 �� DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample +-Dish (grams) .(grams) (grams) 1C� 4 xloo 1 2nd Dryer Batch 1 Fill Cycle Started @ , q 7 1 1 1^ 1 1 i % Total Solids Dry Cycle Started @ Discharge Cycle Started Tamnorn+rrrcc Op Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator L:1 ono t3a1 ' DRYER OUTPUT '?..SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (9 rams) (grams) (grams) x1oo= //// % Total Solids 1 216112. 6123/14 1 ' 1 1 J DAILY RECORD 3rd Dryer Batch Fill"Cycle Started @ ok - -Dry Cycle Started @ - Discharge Cycle Started @ S� ' Temperatures °F -Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator L/ 3 L/ 7- ' s/9 11) a y3� �1y3 -3Y/ s 5;z,6� y soNs Y36 Y� Ls oS yo qyy YyLI L/03 al DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish. Dried. Sample + Dish (grams) (grams). (grams) , U, r'9z6 ZvV Js, 3 3 aur. b K x100= gS,16 o . /o Total Solids Alarms or Comments es 5 0 q j IQ ati 2'?(_' [` ` l TWSA DRYER, OPERATIONS j DAILY RECORD DATE 1ST j j.5 START STOP TOTAL RUN TIME, HRS 1 st Dryer Batch Fill Cycle Started @ (0 - Dry Cycle Started @ l Discharge Cycle Started @ l _. Temperatures Time Discharge Exhaust Discharge Product Dry . . Timer Chamber In Chamber Out Rotor In Rotor Out Operator I DRYER OUTPUT % SOLID Dish Wgt Wet Sample .+ Dish Dried Sample + Dish rams rams rams x goo 9�.73.-�' oi° Total Solids . 2nd Dryer.Batch :. l Fill. Cycle Started @ r� a Dry. Cycle Started @ .�; Discharge Cycle Started @ (y ' Temperatures . Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out' - Rotor In "' Rotor Out , O erator o a�, /6a35 <2 11 ' 5 0 A-D 50 163 Y4� 3.'7'3 C' are ,31 ' aoa fo-6 Jos 'L(3 17e.' -3 16 0 144, J4.3-7 41LtS ,5`. 3v o; DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish. Dried .Sample + Dish rams rams rams 6 l 3D, 7 j 5. �� 0(0 xlol)= � �' % Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch 7 Fill Cycle Started @. = Dry Cycle. Started @ . : �� Discharge Cycle Started.@ ;y % Tem eratures . Time Discharge Exhaust Discharge Product Dry Chambe_ r Chamber . Rotor Timer . In Out In Rotor Out O erator . _ -57 DRYER OUT PUT % SOLID . Dish Wgt . rams Wet -Sample i:Dish Dried Sample +Dish rams rams � ay,,.763y 1,370: _.: % Total. Solids. Alarms or Comments " v TWSA DRYER, OPERATIONS II DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS 1 st Dryer Batch 4. Fill Cycle Started @ Dry Cycle Started @ : i a Discharge Cycle Started @ 0 -. Temperatures Time Discharge Exhaust Discharge Product Dry Timer Chamber' -In Chamber Out Rotor In Rotor Out Operator /Z) a0. )4 o 3� a 3 a "3,. C) a a a .44/ 4,36 :!��'57( 8 a. c�I t91b1 1445 J43& '4YS- 3)a e i 4C) 135 3J� Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor . Out Operator I 441 a 14 �2 "67 J�3 W ;3 q,2) c 03 ' DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams , doll 3o��y-- 2'L/7: x 100 = � Total Solids 1 TWSA -DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ 1) Dry Cycle. Started Discharge Cycle Started.@ J` Tern eratures Discharge Discharge. Dry Chamber Chamber . Rotor Rotor Time Exhaust Product Timer . In Out In Out O erator CO �Zs 3Z0 DRY .ER OUTPUT Rio SOLID . Dish Wgt . .Wet -Sample +.Dish 'Dried Sample.+ Dish rams rams < :... rams X 100 6: % Total. Solids Alarms or Comments : . i� TWSA DRYER. OPERATIONS DAILY RECORD ' --� DATE -- V � START STOP TOTAL . RUN TIME, HRS Ie ag .3 j 1\ ; ' 1st Dryer Batch Fill Cycle Started @ 5 a Dry Cycle Started @ �" a �' Discharge Cycle Started @ g _. Temperatures q 1 i i i Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In - Rotor Out O erator a 6 398 �a CR ra, Y.-3 C CIO 6:13r LO 3D q4( /-� i DRYER OUTPUT % SOLIDFDish Wet Sample + Dish -Dried Sample +-Dish rams rams � x100= % Total Solids 2nd Dryer .Batch Fill Cycle Started @ = �� Dry Cycle Started @ i D ..5 c Discharge Cycle'Started @ J� Temperatures Opt --- Time Discharge Exhaust Discharge Product Dry Timer Chamber. In Chamber Out Rotor In Rotor . . Out : Operator 9-3 v -Zf-,4. 3?� acel E* L5 .1f14 `l r ' DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams jo, y 6 73 9, D g93 % Total Solids T' 1 TWSA DRYER OPERATIONS DAILY RECORD / 3rd Dryer Batch Fill Cycle Started @ ° 03 Dry Cycle. Started @ � � -3J� Discharge Cycle Started .@ Tem eratures , Discharge Time Exhaust Di scharge Product Dry Chamber Chamber Timer In Out . Rotor Rotor . In .14 Ig Out O erator 2-0�- kly V30 6 YyS: 305 DRYER OUTPUT % SOLID . Dish W*9i . Wet -Sample +.Dish - Dried Sample.Dish rams rams rams SZ-/o Total: Solids . Alarms or Comments TWSA DRYER. OPERATIONS DAILY RECORD DATE Cl 1 START STOP TOTAL 1 RUN TIME, HRS '` ° �J� f� 1 st Dryer Batch Fill Cycle Started @ Zo Dry Cycle Started @ / Discharge Cycle Started @ 0< S _. Tem eratures CIF I I I 1 _: I i Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator l v 37 V 6:1, *Als . DRYER OUTPUT % SOLID8 Dish Wgt Wet Sample + Dish Dried Sample + Dish rams rams rams �1 x 100 % Total Solids 9 2nd DryerBatch 1 1 Fill Cycle Started @ Dry, Cycle Started @ /� %Jy . Discharge Cycle Started 1 Temperatures .�- Time Discharge_ Exhaust Discharge Product Dry . . Timer Chamber- In Chamber Out Rotor In Rotor . Out - . ' . Operator �J % - Av (p C ' = J (� 3 a h 4q3 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams 06 b =f� �,Y13 a x 100D1, Total Solids 2/6/12 I 1 TWSA DRYER OPERATIONS DAILY. RECORD 3rd Dryer Batch Fill Cycle Started �� Dry y @ . Discharge Cycle Started.@S @ D Cycle Started r = . Temperatures 1 TWSA DRYER OPERATIONS I DAILY RECORD DATE 15. : . - START STOP TOTAL `RUN TIME, HRS 10 I 1st Dryer Batch 5 Fill Cycle Started. D Cycle Started .J I Y @ Dry y @ Discharge Cycle Started @ Temperatures . Discharge Discharge Dry Chamber Chamber Rotor Rotor - Time Exhaust Product Timer In Out In Out Operator �C. p2l5 q0 14 qbt> 4 / 02. e Time Discharge Exhaust Discharge Product Dry'. Timer Chamber. 'In Chamber Out:- Rotor---. Rotor. Out-... - Operator 1 :5 Q a � a • -2 3 ® Z-t4& z"Z 6. 3�9 e t4q4 v $?� i*-6 1 3j5 L3o_5 1AS I* --qq� te.,E DRYER -OUTPUT % SOLID Dish Wgt Wet Sample + Dish Dried Sample + Dish rams rams rams 1 x 100 = j, I % Total Solids 1 -W12 1 1 Time Discharge Exhaust .Discharge Product ' Dry. Timer . . Chamber In Chamber Out . Rotor In Rotor Out - O erator 14, V2_a po 3 ,dad % � y is : Y3� 'C/'?S 3 03 z 3 .. �.�rp= .<(YS :L-J 2- -DRYER.OUTPUT. % SOLID Dish Wdt . rams - Wet Sample +:Dish rams ' Dried Sample + Dish rams TWSA DRYER OPERATIONS DAILY RECORD — V DATE 1 START STOP TOTAL RUN TIME, HRS.- ' 3� I Z..73 1 st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ Discharge Cycle Started @ `3 Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out O erator 7' �7- �. '_ �3 4 3& �c . Y / ` v � e` 3 36 1 I-Ne9l H q1 j - A 6v ,3 ,7 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample 4- Dish Dried Sample + Dish rams rams rams R.. 13 I a� x100= 3 0 a /o Total Solids 2nd Dryer Batch I 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 - Out - Operator S �� y �i 3 `/ S�' Z� 3 I/ 3D '7 31� DRYER OUTPUT % SOLID Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams x 100 = i� % Total Solids 1 l 1 i , TWSA DRYER OPERATIONS DAILY RECOR94 3rd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ Discharge Cycle Started.@ Tinmni Time Discharge Exhaust Discharge Product Dry Timer . Chamber In Chamber Out . Rotor In Rotor Out Operator DRY2R OUTPUT % SOLIDS, Dish Wgt gams Wet Sample. i :Dish : Dried Sample + Dish rams • rams x 100 = TWSA DRYER. OPERATIONS IDAILJYECORID DATE START STOP TOTAL RUN TIME, HRS ( -- - - -- 1st Dryer Batch Fill,Cycle Started @ _. Dry Cycle Started @ 4 �, Discharge Cycle Started @ a, -. T=mnoratt trac 0 r Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out O erator Deb o D r36 �' DRYER OUTPUT % SOLID8 Dish Wgt Wet Sample + Dish Dried Sample + Dish - - rams rams rams x100= C %Total Solids 2nd Dryer Batch q Fill Cycle Started @ l u Dry Cycle Started @ - Discharge Cycle Started @ Tem . eratures a Time Discharge: Exhaust Discharge Product Dry .Timer Chamber. In Chamber Out - Rotor In Rotor Out -_ Operator DRYER OUTPUT % —D93S' x�oo= 6.3g3 � , q�d1 1 5� % Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch =— Fill Cycle Started @ �� - f �_ D C cle Started .r C 1 ' rY Y @ 1 Discharge Cycle Started.@ - eJ c Ten eratures Discharge Discharge Dry Chamber Chamber . Rotor Rotor Time Exhaust Product Timer . In Out In Out O erator , C� Sol DRY ER-OUTPUT%SOLID . Dish Wgt. -.Wet Sample 1-Dish Dried Sample.} Dish gams rams rams 0 c f7. % Total. Solids Alarms or Comments TWSA DRYER.OPERATIONS DAILY RECORD DATE -- START STOP TOTAL RUN TIME, HRS I (0 I �� 0 C11 1 st Dryer Batch Fill Cycle Started @ LQ. ' Dry Cycle Started @ Discharge Cycle Started. @ .' C>-3 _. • Tcmncr�ti roc �"• C"' ' Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator 7` as 4D? 3' InIL�b �� 2,3a C; DRYER OUTPUT % SOLID8 Dish Wgt Wet Sample .+ Dish Dried Sample + Dish :- rams (drams) rams x 100 = % Total Solids 2nd Dryer.Batch :.d::. Fill. Cycle. Started : , -� .".Dry"Cycle Started @ Discharge Cycle Started @ " Temperatures Time Discharge Exhaust Discharge Product " Dry Timer Chamber. In Chamber Out Rotor In Rotor .. Out 'Operator 1 .y, 07 3 �` b 1. r � f�[ l `�`(5 39 DRYER OUTPUT %SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams % Total Solids .2/s(12 I I TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ J • 2-J Dry Cycle. Started (6, -SS Discharge Cycle Started i ! TWSA DRYER.OPERATIONS DAILY RECORD ! DATE �� b`-1 START STOP TOTAL. 1 RUN TIME, HRS ° -J a l , ti 9X, ! 1st Dryer Batch I " Fill Cycle Started @ Dry Cycle Started @ 7 Q % Discharge Cycle Started. @ 3 _ Temperatures I' 1 I i Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In - Rotor Out Operator 04 3 - b r 443 -q43 31.5 6D �;. J-' 1 0-5 t �45 '4)�46 -9q,r 373 & . DRYER OUTPUT % souD Dish Wgt Wet Sample +Dish Dried Sample + Dish -- rams rams rams a � q 7.35 �©: � � y .: : /�a 3.3 � : ..: / °� :� ��_� l5•. �s��• •�:.5'��s %" Sig I Total Solids 2nd Dryer.Batch I Fill Cycle Started @ : �l� Dry. Cycle Started @ .Discharge Cycle Started @.. ' Tem eratures Time Discharge Exhaust Discharge Product Dry Timer chamber. In Chamber Out Rotor In Rotor .. Out Operator �3 o j D q9 q�q7 . 29 C15 49 �{ � DRYER OUTPUT %•SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams x1oo= r ho Total Solids .?si,z TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch - Fill Cycle Started @ _ Dry Cycle. Started @jDischarge Cycle Started.@ Tern eratures Discharge Discharge. Dry Chamber Chamber . Rotor Rotor Time Exhaust Product Timer . In Out In Out O erator a a 3: (7`233 a®o. y3,) YyS 3 yv DRYER OUTPUT % SOLID . Dish VVgt .=�V Dish DriedSample Dish rams f2m5 V 3 y:5'7l .: x 100 t % TotalSolids Alarms or Comments f G 1 db do 1 TWSA DRYER. OPERATIONS DAILY RECORD V 1 DATE 1 START STOP TOTAL � RUN TIME, HRS 1 1 st Dryer Batch Fill Cycle Started @ 0r Dry Cycle Started @ e a Discharge Cycle Started @ _. 1 Temperatures 1' 1 1 1. 1 Time Qftharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator -7 d a , a 1 o �i- ov t[ )� w� ` DRYER OUTPUT % SOLID Dish Wgt Wet Sample + Dish Dried Sample + Dish 1 - l rams (grams) rams ..�7�?3 x100= c f 1 % Total Solids 1 2nd Dryer Batch Fill. Cycle.Staled @ 6 ;Aj Dry Cycle Started @ Discharge Cycle`Started.@ 1 Tem p eratures Time Discharge Exhaust Discharge Product Dry Timer Chamber. In Chamber Out Rotor In Rotor .: Out .. Operator as t` 1k L f -,3 G d DRYER OUTPUT %SOLIDS Dish Wit Wet Sample +Dish. Dried Sample +Dish 1_ rams rams rams 9 00 x1= � C 3 3 / % Total Solids .tisi,z 1 TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ e � Dry Cycle. Started @ .5) Discharge Cycle Started.@ Tern eratures Discharge Discharge Dry Chamber Chamber . Rotor Rotor Time Exhaust Product Timer . In Out In Out __Operator ' 4333 -� f1f 36 o DRYER OUTPUT % SOLID . Dish VVgt . Wet Sample i -Dish Dried Sample Dish rams rams rams Total.Solids Alarms or Comments TWSA DRYER. OPERATIONS DAILY RECORD y s - - DATE START STOP TOTAL RUN TIME, HRS i 1st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ = Discharge Cycle Started, @ 5 -. Tem eratures Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In - Rotor Out Operator Q 69 G ��'� 63- 4�6 4J y 6 s i 1 C. DRYER OUTPUT %S'OLID8 Dish Wgt Wet Sample + Dish Dried Sample + Dish 1 rams rams rams - dl 1 x 100 = Total Solids 2nd Dryer .Batch Fill C cIe Started �_ !� D Cycle Started �.'3` Dischar e C cle Started Y @--- ry .Y. °� g Y Tem eratures Time Discharge Exhaust Discharge Product Dry Timer Chamber. In Chamber Out Rotor In Rotor . . Out Operator aOb c9.6 9 C la's • o,9a '3c)s 1 y 0, 4 s ' / _5' Z 9-Y G-1 DRYER OUTPUT %•SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample +Dish rams rams rams x 100 = G) / % Total Solids 1) • TWSA DRYER OPERATIONS DAILY RECORD v 3rd Dryer Batch Fill Cycle Started @ Dry Cycle. Started @ 7 Discharge Cycle Started.@ Temperatures cl Discharge Discharge Dry Chamber Chamber Rotor Rotor Time Exhaust Product Timer . In Out In Out O erator DRYER OUTPUT % SOLID Dish lNgt . .Wet Sample Dish Dried Sample i Dish ~r gams rams ::... rams �5 % Total.Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD . DATE START STOP TOTAL RUN TIME, HRS 1st Dryer Batch / i Fill Cycle Started @ �P' Dry Cycle Started @ � i O Discharge Cycle Started @ -. Tem eratures Time Discharge Exhaust Discharge Product Dry Timer Chamber Chamber Out Rotor In Rotor Out Operator //In --Q ' 0 s) " 3� EO. � ji ' . - . DRYER OUTPUT % SO L IDs Dish Wgt rams Wet Sample .+ Dish Dried Sample + Dish • rams rams 01- t7 33 � ^? , s 6P 100 n�i ..r 1.�� 3 • y5 (CG %Total Solids I 2nd Dryer Batch r Fill. Cycle.Started"@ © Dry Cycle Started @ • Discharge Cycle Started @ Tem eratures Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor . . Out O erator b :3` -;-3 -b � �-ya kfa 6-' 1 Ob I DRYER OUTPUT %SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams x100= % Total Solids I 2/ 12 I I .. TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ r l Dry Cycle. Started�,� @ Discharge Cycle Started. @ Tern eratures Discharge Discharge Dry Chamber Chamber . Rotor Time Exhaust Product Timer . Rotor In Out In Out O erator 13 a a R 3(. :5.... s. DRYER OUTPUT % SOLID . Dish Wgt . We Sample +-Dish Dried Sample Dish rams) " rams rams 0Ll 55 -a-7, .3 `�571 1 o otal.Solids Alarms or Comments - TWSA DRYER. OPERATIONS DAILY RECORD / DATE — ` l �5 START STOP TOTAL RUN TIME, HRS .1 w'y I I -T O 1 I' �v i 1st Dryer Batch l , Fill Cycle Started @ Dry Cycle Started @ - Discharge Cycle Started @ ✓�� - Time Discharge Exhaust Discharge Product. Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator - �.� 424 -q 313 6' 6 191 341 C41 DRYER OUTPUT % SOLD Dish Wgt Wet Sample +Dish Dried Sample t Dish rams (gram rams - x 100 � 0 Total Solids 2nd Dryer.Batch 3c�.4YtiwL I Fill Cycle Started @ : ® .Dry Cycle Started @ .Discharge Cycle Started @ Tem eratures i I i t Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor .. Out - Operator -0 DRYER OUTPUT %•SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish ' rams (grams) rams ' ' �-7 �"t x 100 = q �� % Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch ✓ww Fill Cycle Started @ / Dry Cycle. Started @ r ©( Discharge Cycle Started a. TWSA DRYER. OPERATIONS DAILY( RECORD DATE / V — J -5 START STOP TOTAL RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ �' ✓ Dry Cycle Started @ 7: Discharge Cycle Started, @ _. Tem eratures Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In - Rotor Out Operator IE-50 q4b as �46 36D � -�o� c93D ad� 1e© � 3 If . s �3$,3 CD DRYER OUTPUT % souD Dish Wgt Wet Sample +Dish Dried' Sample + Dish _ rams (grams) (grams) x 100�/a Total Solids /. I 2nd Dryer Batch xx 1- Fill Cycle Started @ : U l Dry Cycle Started @ 1 'Discharge Cycle Started @ Temperatures I I I i i Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor .. Out Operator -1-113 39 0i6 '153 Lx*!!�_ L3g� DRYER OUTPUT %•SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams � x 100 = qq % Total Solids f TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch -- Fill Cycle Started @ 3 Dry Cycle. Started @ �c`j 3 Discharge Cycle Started e 7 9 y .@ t T........ ,.:._t..___ A .dam— � =�3. aa� a��. �•v.: : �� f �. -�� ' ° 3�g coy • -�- • L ,:Y3 3 , .y DRYER OUTPUT %SOLID . Dish Wgt - _Wet Sample +:Dish Dried Sample + Dish gams rams C/, x 100 = — 9. a `�� % Total. Solids Alarms or Comments TWSA DRYER. OPERATIONS DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS Le 1st Dryer Batch Fill Cycle Started @ ' f Dry Cycle Started @ l Discharge Cycle Started. @ Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator DRYER OUTPUT % SOLID Dish Wgt Wet Sample .+ Dish - Dried Sample + Dish - rams grams) rams Z 12 8 75 d _ s5- x i oo = c .V-P 76 : . % Total Solids 2nd Dryer .Batch J Fill Cycle Started @bry Cycle Started @ Discharge Cycle Started @ Time Discharge Exhaust Discharge Product Dry .. Timer Chamber. In Chamber Rotor In Rotor .'. Out Operator ta .c�Out 44 3 1-H,5 41%a �39 1 e DRYER OUTPUT % SC Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams n)7 q kZ3 x1oo= �5'/ � � %Total Solids 2/6/12 TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ C� d0 r Dry Cycle Started @ Discharge Cycle Started.@ ' 2 Time Tem eratures Discharge Exhaust Discharge Product Dry Chamber Chamber Timer. ' In Out Rotor Rotor . In Out O erator DRYER OUTPUT % SOLID . Dish Wgi . .Wet Sample Dish 'Dried Sample'+ Dish rams - rams ' rams a 1 75(o a� �� 7, 7e� X100= :. : ' :'' .. % Total Solids Alarms or Comments TWSA DRYER- OPERATIONS DAILY RECORD DATE /9 START STOP TOTAL RUN TIME, HRS' 1st Dryer Batch Fill Cycle Started @ ' 'S Dry Cycle Started @ 'Z� Discharge Cycle Started. @ Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out -- Operator Time Discharge Exhaust .;Z3 �1S 9 Z7 1 1.50 qj�� 143 30..5A4lLl .5, 95- DRYER OUTPUT % SOLID 5. x �o0* . % Total Solids 2nd Dryer .Batch Fill Cycle Started @ ` �a Dry Cycle Started Discharge Cy @ �'- " Tem eratures Dish Wgt rams Wet Sample + Dish rams Dried Sample + Dish rams 0 Z 105 3 ( 7 z Discharge Product Dry Timer Chamber- In Chamber Out Rotor In Rotor - Out ' Operator Time Discharge Exhaust 63 s o 445 �t3 DRYER OUTPUT %SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams � SU 3c) DL/7-25 x 100 = % Total Solids ,216112 TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ I � � Dry Cycle. Started @ Discharge Cycle Start''Z , ed.@ Discharge Discharge Exhaust Product Tem eratures Dry ry chamber Chamber Rotor Timer In Rotor a68 . Out In .466 Out O erator iJ`�C� L f 3Lf- � . 7 0 J�,v: - C. DRYER OU TPUT % SOLID .Dish Wg. L .Wet Sample .Dish Dried Sample + Dish rams rams :.:.....: rams D_o Sly x900=' :. :% Total Solids Alarms or Comments TWSA DRYER, OPERATIONS DAILY RECORD DATE START STOP RUN TIME, HRS I st Dryer Batch Fill Cycle Started@ Time Discharge Exhaust Discharge Prod uct b� DRYER OUTPUT % SOLID� Dry Cycle Started @ '7 (4 Discharge Cycle Started. @ M eratures Dry Timer he Charnr In Chamber Out Rotor In - ---Out Rotor OPE 30'1 933 C go /447.- job :�kq� -433 4� tr 4 69 4 4f, Dish Wgt (grams Wet Sample .+ Dish Dried Sample + Dish ms) g rams rams -2 i'26- C/ _- " 5-3 x 100— % Total Solids 2 nd Dryer Batch ha . rge Cycle S ed Fill Cycle Started jo Dry Cycle Started Disc t.a rt Tem s Time Discharge Exhaust Discharge Product 3 f3 A93 0�1 Dry Timer Chamber. In Chamber Out motor In Rotor out Operator 394 45 DRYER OUTPUT %-SOLIDS Dishwgt Wet Sample + Dish. Dried Sample + Dish (p (grams) rams) (gram 3 7L/ 0 i x 100 % Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started = � � @ Dry Cycle. Started J�� @ Discharge Cycle Started.@ _( Discharge Time Exhaust Discharge Product Dry Timer. Tem eratures Chamber Chamber In Rotor Rotor - ,- .3 155 . Out � In - � ' Out O erator 50-- )44 3'33 DRYER OUTPUT % SOLID .Dish UVgt . ..We rams Sample +:Dish Dried Sample .+ Dish S_ rams l % Total.Solids Alarms or Comments _ . TWSA DRYER. OPERATIONS DAILY RECORD _ \ DATE START STOP TOTAL �. RUN TIME, HRS 1st Dryer Batch PillCycleCycle Started @ (0 Dry Cycle Started @ = l Discharge Cycle Started @- Tem eratures — Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator �i,3 ga c2-35 4-�2'0 J19" � q4 DRYER OUTPUT % SOL] Dq Dish Wgt Wet Sample +_Dish Dried Sample + Dish rams - rams rams - n..-9 7 9 2 s, LUt o F_1q. a g off. x 100 = ( �/ Total Solids 2nd Dryer -Batch t Cycle Started @ Dry cycle. Started Fill C @ Discharge Cycle Started @ ! •"a �! Y : Discharge Exhaust Discharge Product Dry Timer Chamber-y In v Chamber Out . - Rotor In Rotor . Out Operator Time AS-5 / " b i5c) )4 33 'ev 3� DRYER OUTPUT %•SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dis rams rams rams o��75y 2-7, G Lq(��3(C�� ' x100= % Total Solids TWSA DRYER OPERATIONS / DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ - �� Dry Cycle. Started @ ' 10Discharge Cycle Started. . @ Discharge Time Exhaust Discharge Product Dry Timer Tern eratures Chamber Chamber . Rotor ' In Rotor �' . OutIn .3 -5 Ala. Out O e'rator - a T I •V V� V �`� .. Y 1 I�/ �1�7� a © 3Ll 3 DRYER CUi BUT % soLlC . Dish Wgt . -.Wet Sample +-Dish ' Dried Sample Dish rams rams rams - -72 % Total.Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD DATE STOP TOTAL START j RUN TIME, HRS ' ® 10 1 st Dryer Batch q Fill Cycle Started @ f1=J �_ Dry Cycle Started @ s Discharge Cycle Started @ Time Discharge Exhaust Discharge Product Dry Timer CI I I CI QLUI Chamber In 0 c� Chamber Out Rotor In Rotor Out a Operator EIO C Z4y5 13 3. . �:.�i� t�� DRYER OUTPUT % SOLIDs Dish Wgt Wet Sample + Dish . I Dried Saamse + Dish rams rams x 100 = "� .. / % Total Solids :i 2nd Dryer .Batch Fill Cycle Started @ Dry Cycle Started @ /y3 ' Discharge Cycle Started @ " .. T . eratures � Dry Timer 'No chamber In V10 Chamber Out Rotor In . Rotor .. Out - . Operator Time Discharge Exhaust Discharge Product `I mo DRYER OUTPUT %SOLIDS Dish Wgt Wet Sample +Dish_ Dried Sample + Dish rams rams rams x 100 = �y % Total Solids ' n 1 0 vsn z w^1(/ 1 TWSA DRYER OPERATIONS / DAILY RECORD </ 3rd Dryer Batch - Fill Cycle Started @ `� Dry Cycle Started 5 SS @ Discharge Cycle Started.@ Tem eratures Discharge Discharge Dry Chamber Chamber Rotor Time Exhaust Product Timer . Rotor fn Out In Out O erator , 4S° 3 3 2 Jig s • .. � ys : 3s� .. J. DRYER OUTPUT % SOLID . Dish Wgt . Wet Sample Dish Dried Sample Dish rams rams rams IL q x i oo ' Total.Solids Alarms or Comments TWSA DRYER. OPERATIONS DAILY RECORD DATE J (i START STOP TOTAL RUN TIME, HRS ` 3 �` J r 1st Dryer Batch / _ ` 3 D Cycle Started Discharge Cycle Started ®'!� Fill Cycle Started @ � < Dry y @ 9 Y @ Temperatures Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator c� '�'-20 Q o: (�o q -1133 3 7,, 3 Cr DRYER OUTPUT % SOLID*c Dish Wgt Wet Sample .+ Dish : I Dried Sample + Dish rams (grams rams -77 x 100 = Total Solids F ll Cycle Start d @ : / • ' t Dry Cycle Started @ / I f b�' Discharge Cycle Started @ Time Discharge Exhaust Discharge Product Dry Timer Chamber' In Chamber Out - Rotor . In Rotor .: Out . - Operator 05� o 0 CID DRYER OUTPUT %-souDs Dish Wgt Wet Sample + Dish. rams Dried Sample + Dish rams rams o.aa2( 3, C) `1 0 �b r x 100 = % Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch - Fill Cycle Started @ �` Dry Cycle. Started Discharge Cycle Started.@ Time Tern eratures Discharge Exhaust Discharge Product Dry Chamber Chamber Timer Out . Rotor Rotor . J J'In In Out Operator DRYER OUTPUT % SOLID . Dish VVgt . - :Wet Sample +:Dish Dried Sample.+ Dish rams rams rams '7(1 .:.:.: %Total.Sofids Alarms or Comments TWSA DRYER. OPERATIONS DAILY RECORD DATE START STOP TOTAL • RUN TIME, HRS cl, 1st Dryer Batch Fill Ccle Started @ Dry Cycle Started @ Discharge Cycle Started. @ y Tem eratures Time Discharge Exhaust Discharge Product Dry Timer Chamber Chamber Rotor Rotor In Out In Out Operator 3'7 0 ,ql q .4 T-7 )-4 43 ,3 b9 )14 . 1P DRYER OUTPUT % SOLID S Dish Wgt Wet Sample + Dish . DiU�D Dried Sample + Dish . (-grams) (�r2n`IS (grams) do 457, S. 100 % Total Solids 2nd Dryer Batch Fill Cycle Started @ -Dry Cycle @ _L6 -I Discharge Cycle Started @ eMpeEatures to Chamber Rotor7. Rotor T Dry Chamber to In Out - - Discharge Discharge Timer In Out Time Exhaust Product ao U, 6 DRYER OUTPUT %-SOLIDS Dish Wgt Wet Sample Dish. Dried Sample + ish (prams) (grams (grams) 3 C x 100 % Total Solids i TWSA DRYER OPERATIONS " DAILY RECORD 3rd Dryer Batch Fill Cycle Started @_ Dry Cycle Started @ D• � - ischarge Cycle Started.@ .' 1 S j Discharge Discharge j Time � Exhaust Product D Temperatures Dry Chamber Chamber � Timer In . Rotor Rotor � . Out In Out O erator . a� 30.5 ...J 53.�� DRYER OUTPUT % SOLID . Dish Wgt- ..We i , ' Sample . Dish Dried Sample.+ Dish rams rams <:.... rams gu 5 t00 Total.Solids Alarms or Comments TWSA DRYER. OPERATIONS DAILY RECORD / j DATE START STOP iiTOTAL RUN TIME, HRS 1st Dryer Batch 3 Fill Cycle Started @ Dry Cycle Started @ �" �/�/ Discharge Cycle Started @ - Tem eratures .Discharge Discharge Dry Chamber Chamber Rotor - Rotor Time E.jxhh2Ust C I Product y Timer In Out 70 In - ?j �!� Out vZ Operator J / f 7-0 DRYER OUTPUT % SOLID Dish Wgt Wet Sample + Dish Dried Sample + Dish. rams rams rams 1, v Z 3 2- 9" ..z 2 c� 1 "7 xoo= % Total Solids :3 .r1,. 2nd Dryer .Batch ; as.. . Fill Cycle.Started @ : Dry Cycle Started @ Discharge Cycle Started @ ?J Time Discharge Exhaust 'z35 -3L-15 Discharge Product �r a Dry . Timer ��. ►50 [Chamber- y In - �1y6 9C45 v Chamber Out - y 3�f Lf Rotor In WS Yc/� L4C-15 Rotor . Out - � 3 3� Operator . z� s �;55 DRYER OUTPUT %SOLI 17 s L ip r x 100 = DSkl2 Total Solids TWSA DRYER OPERATIONS J DAILY RECORD 3rd Dryer Batch / Fill Cycle Started @ E a Cp - D C c1e.'Started rY Y @ 5 g e " Discharge Cycle Started,@ � Discharge Time Exhaust Discharge Product Tern eratures Dry Chamber Chamber . Rotor Timer. In Out Rotor . In Out O erator 3. q3 Ro S 7LLt DRYER OUT PUT % SOLD . Dish VVgt . .Wet "Sample Dish Dried Sample Dish rams rams fam5 . 'x too",= /o Total.Solids Alarms or Comments -- TWSA DRYER. OPERATIONS DAILY /RECORD DATE START STOP TOTAL RUN TIME, HRS =.(- 'I �% .... ...... ... . 1st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ %.`oZ L Discharge Cycle Started @ a ,r Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Motor In Rotor Out Operator 31 4 4 39 C DRYER OUTPUT % SOLID Dish Wgt Wet Sample + Dish Dried Sample +Dish _ rams rams rams - - J LS 3 c x 100 = �.j (... % Total Solids 2nd Dryer Batch C cIe Started �=� Dry Cycle Started @ j t' Z)' ' Discharge Cycle Started Fill. @ Y @ Time Discharge Exhaust Discharge Product Dry Timer Chamber' In Chamber Out Rotor In Rotor .. Out Operator I:e-6 A ©4 Ab '(f). 63 ' DRYER OUTPUT %SOLIDS Dish Wgt Wet Sample + Disl rams . rams .2/6/12 Dried Sample + x100= 0/(� /678' • � � 1 �`" SCE % Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ �C U sl. D Cycle Started - - Dry Y @ Discharge Cycle Started.@ 5 Tern eratures Discharge Discharge. Dry Chamber Chamber . Rotor Rotor Time Exhaust Product Timer. . In Out -in Out O erator DRYER OUTPUT % SOLID Dish VVgi -.Wet Sample' Dish Dried Sample Dish gams . :. rams rams �i .756 X 100 :% Total. Solids Alarms or Comments TWSA DRYER, OPERATIONS DAILY RECORD DATE START STOP TOTAL J fir' RUN TIME, HRS 1st Dryer Batch - - � ��, D Cycle Started Discharge Cycle Started- @ < / -- Fill Cycle Started @ -� Dr Y @ Discharge Product - Dry Timer 1 V Chamber In Chamber Out Rotor In Rotor OW O perator Time Discharge Exhaust `7 ',1 � ; y �, d am • 't 4 q_5 �f � z a 7 DRYER OUTPUT % SOLID i Dish Wgt rams Wet Sample + Dish gm Dried Sample + Dish rams 1 1 c�22Z. 3 i 9 o(0 3a, 7 ��•��iS x1oo= I.. % Total Solids 2nd Dryer Batch : - �G�: �' Discharge C cIe Started @ Fill Cycle Started i %q •. Dry Cycle Started @ / 9 . Y Y @ Discharge Exhaust • Discharge Product - Dry Timer I cl l l GI Ct�ul Chamber In �... - - Chamber Out - Rotor In - Rotor .. Out - . Operator 6 ba y -•33 . 3 of 6 ,5' / li' I 'r / !G' z— '1 DRYER OUTPUT %•SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish rams rams rams 2?,Z3�3 447 x100= � Vr.� C .7 % Total Solids TVVSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ t [ Dry Cycle. Started ; ' { @ Discharge Cycle Started,@ S DRYER OUTPUT % souD . Dish VVgt . ".VVet "Sample -'Dish I Dried Sample +Dish rams rams _ b. 9 . 5 �7c` X100 p % Total. Solids Alarms or Comments TWSA DRYER. OPERATIONS j DAILY RECORD I DATE (! 1 / START STOP TOTAL RUN TIME, HRS ..':�G . `u,� _. 1st Dryer Batch n Fill Cycle Started @ L! Dry Cycle Started @ EF Discharge Cycle Started, @ Temneratures 0 L:7' Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator , S � � 3 �i' -�w a4 •' � 1� 3 �q S E '4'ei' C=. J-f Cel. DRYER OUTPUT % SOLID's Dish Wgt Wet Sample + Dish Dried Sample + Dish rams (grams) rams otal Solids 2nd Dryer Batch ) Fill. Cycle.Started @ .Dry Cycle Started @ !'r S Discharge Cycle Started @ Temneratures a Time Discharge Exhaust Discharge Product Dry Timer Chamber. In Chamber Out Rotor In Rotor . Out Operator �7 14 -11.0. DRYER OUTPUT %SO 1 C l , vL x100= Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ Jl Dry Cycle. Started @� Discharge Cycle Start ed,@ '� Cl Discharge Time Exhaust Discharge. Product Temperatures Dry Chamber Chamber . Rotor Timer. . ' In Out In Rotor Out 0 erator 5Ll HLk 5 ..T�� y- 5-,a-90...�a is �S`C� Lf.. �(�' �t�-c- ::� 3Q.. 44. DRYER OUTPUT % SOLID Dish Vgt . .Wet Sample +:Dish Dried Sample + Dish ( gams rams):- rams o17 7 �a -X,00:= gj l % Total. Solids Alarms or Comments TINSA DRYER OPERATIONS_ DAILY RECORD 3rd Dryer Batch 1. Fill Cycle Started @ = 5 Dry Cycle Started @ t Discharge Cycle Started.@ • 2- Temperatures Discharge Product Dry Timer . Chamber In Chamber Out . Rotor In Rotor Out Operator j oTimeEisxch .0S. S. 0. ��f� � ��H CD . C t-(� i �I �--� _ ..:?� ..7 LJ 4.5. TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL RUNTIME, HRS 49 OL-, I 1� v- .l D' '1 ' - .. _..--------- 1st Dryer Batch Fill Cycle Started @ lC - j Dry Cycle Started @ 2,1 Discharge Cycle Started TPmneratures O L7- Time Discharge Exhaust Discharge Product Dry Timer Cham'Der In Chamber Out Rotor In - Rotor Out Operator 13 73 R 93 a a �� a S7- `71 c;� 6 y3 4 �43 S4�-P - �� a7.3 4. DRYER OUTPUT % SOLID Dish Wgt Wet Sample + Dish Dried Sample + Dish rams rams rams x100— ff otal Solids 2nd Dryer .Batch 0 .. . Fill. Cycle.Started @ .Dry Cycle Started @ U "Discharge Cycle Started Temperatures � Time Discharge Exhaust Discharge Product Dry . Timer Chamber' In Chamber Out Rotor In Rotor . ". Out . ' . . Operator W �;2 50 �33 3 L `0 Q1 33 `7 6 DRYER OUTPUT %'SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish rams rams rams 3�y I fC�pl x100= OTotalSolids vsiiz TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL RUN TIME, HRS 1st Dryer Batch kI Cycle Started @ 5 Dry Cycle Started @ a Discharge Cycle Started. @ TerrlDer2tures 0 Jt7- Tinie Discharge Exhaust Discharge Product Dry Timer Cham - ber In Chamber Out Rotor In Rotor Out Operator -7 -� D j �D L ' '1121 3_5 I" 9b 6 a .,D3' 2(b )Z) 0 '--(Yol -L13) VYI372 D9� 9,30 q A) -A 213' 305 Os z114 6 JYI� DRYER OUTPUT % SOLID Dish Wgt Wet Sample + Dish Dried Sample +Dish rams 2:M::S (grams) (grams) ),9 9 2� - c 0,9 929 27. H -`1 7 "�j x 100— 9qTotal Solids - 2nd Dryer Batch Fill. Cycle.Starled @ Dry Cycle @ Discharge Cycle'Started Temperatures Time Discharge aust Exhaust Discharge Product Dry . Timer Chamber- In Chamber Out - - Rotor In Rotor -, out - - - ' . Operator 4kqS 4 433 'AR, �41 Q .23 �5c) 444, en - ,)"T aq 303 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish, Dried Sample + Dish (grams) (grams) (prams) x3 - (',0DCV X100= �61 % Total Solids TWSA DRYER OPERATIONS DAILY RECORD 3rd Dryer Batch c ! Fill Cycle Started @ r Dry Cycle. Started @� Discharge Cycle Started.@ Ten Discharge Discharge Dryor Rotor Time Exhaust Product TimeOut O erafor 9_3 =s�" .as 1-5 DRYER OUTPUT % SOL[D . Dish Wgt . ".Wet Sample = Dish Dried Sample + Dish rams ' rams rams 9 7: `%-Total.Solids Alarms or Comments TWSA DRYER OPERATIONS /D jAILY RECORD DATE START STOP TOTAL RUN TIME, HRS : ,-� ,'G 1 ► 1st Dryer Batch .' Fill Cycle Started @ LY T Dry Cycle Started @ Discharge Cycle Started Temperatures OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In I Chamber Out Rotor In Rotor Out Operator -7 1 0 '1) ,3c? sG i-f43 «St{ a 0 poi ;vo `7W� 3 7 o .�,41 �3 9, ) ISD /-/ -15 )4.3`f c-744/67 �30-0 DRYER OUTPUT % sOLIDs Dish Wgt Wet Sample + Dish Dried Sample + Dish / (grams) .(grams) (grams) / 3 J' W so 2(, L-A 33 x100= %Total Solids 2nd Dryer Batch� �� Fill Cycle Started @ Dry Cycle Started @ - Discharge Cycle Started @ , Temperatures OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator .�6it. aa l o g 9 17 CID fb 1-13 4�4s 3�6 CV l�3q V so -'135 'V4 DRYER OUTPUT % soLiDs Dish Wgt Wet Sample + Dish Dried Sample + Dish ( rams) (grams) (grams) • -2 i ,`I-77 � 0.5-'7/6 .--) x 100 = q / 6 -a'10 S % Total Solids 216/12, 6/23/14 DAILY RECORD 3rd Dryer Batch V Fill Cycle Started @2 AI, Dry Cycle Started @ 3 Discharge Cycle Started @ (v 1 ( O Temperatures OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out O '.6 �03 ao- d 1� 38) ({00 ZZ erator S� 3 S Lf as 3 a o � .�� " (� H � � y � � a 5 v -/ �l�i 5 y 3C� QW. 5 37 0 �J DRYER OUTPUT % soLIDs Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) (grams) (grams) ve,3 Z)ss� X1oo= 9'5/ .�a� ✓ /o Total Solids Alarms or Comments c TWSA DRYER OPERATIONS DAILY RECORD DATE START STOP TOTAL V RUN TIME, HRS G = 33 e� • , �i"�'l 1st Dryer Batch { .' Fill Cycle Started @ Dry Cycle Started @ Discharge Cycle Started @,, Tamnarat°irac Op Time Discharge Exhaust Discharge Product Dry Timer Chamber In ' Chamber Out Rotor In Rotor Out Operator - �1 -,20,5 a)b 6 13( 'a&3 ,,3-(95 1,231 1 �`-d 1,4 () 'qo "tb "D vo, I (:f)j `3 V4 0 C,0 V y 3 Y Y W DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) "(grams) (grams) 1,o uL, j 5 ° $ S-7 5 �J.SYW-S r1q -W970 x100. % Total Solids 2nd Dryer.Batch Fill Cycle Started @ Q S Dry Cycle Started @ Discharge Cycle Started @ 7 TamnaratiiraG a� Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Rotor Rotor Out In Out Operator 0 a z) ? I D O -�Y45 z�,3� >P DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) grams) (grams) i,u218 3 2, 333L� 36). l c i a Q�L_._ - -�' Total Solids _- 2I6/12, 6l23ry 4 Ut-ULT M=%,UML) 3rd Dryer Batch Fill Cycle Started @ -A-3 1 -Dry Cycle Started @ l J Discharge Cycle Started @ Temperatures °F Discharge Discharge Dry Chamber Chamber Rotor. Rotor T Time' Exhaust Product Timer In Out In Out Operator " t"; 9�0Lt a to 3 5 � 3$c� 399 zz-7,- 4 ,, 03 ;;�3 3 a cDc� L L��5 q3 c L-4(q -52--( of, 53 ),3a 5 i2)0 L-H5 1 CA3(o L�u(p 3-71 7�3 5 : 43 Q L a a ��s� � �+ � 5 � 3 5-7 69 30a 30S 19-6 (+(4(p qH1 44(,o 400 L DRYER OUTPUT % SOLIDS Dish Wgt Wet.Sample + Dish Dried Sample + Dish (grams) (grams) (grams) o,ct 114 3 2,Z o. :3 75- 9 x 100 = �_��— 7 7 % Total Solids Alarms or Comments TWSA DRYER OPERATIONS DAILY RECORD / DATE I i — I '7 - 15 START STOP TOTAL RUN TIME, HRS 1st Dryer Batch Fill Cycle Started Dry Cycle Started @2 r �3 Discharge Cycle Started Temoeratures OF DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) (grams) (grams) 3 �� x100= 96, 3 q-6� % Total Solids 2nd Dryer Batch ry Fill Cycle Started @ d'4 �] Dry Cycle Started @ i . 0 Discharge Cycle Started @ �2 - Temperatures °F Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out t 1-- 7-/7,1 � T .Rotor In Rotor Out Operator r+. [ y - % C _b U 1 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) rams) 31, (4 °7(,3 -a- x100= g7.0s39 216112, 6/23/14 % Total Solids DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ r -Dry Cycle Started @ Timm naratrirac °F Discha rge Cycle Started @ Tim_ e Discharge Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator 2L (3 /��[�Exhaust V, X02 o Q� {�- \0O SS S 2_2.8 . . Lf,0_; Jib LlyI H35 4(48 _a015".��1 L-t:5-3 3Q ac)3 40 Li � S 3�. 713 51,y 3. a5I a H 5 .1�o C4 5 �+3 �5 .3 c / 9 H I L4q(o• L4 DRYER OUTPUT % soLIDs Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) D�� :ql x 100 % Total Solids Alarms or Comments OA e_ 3rd Dryer Batch Fill Cycle Started @ S� -Dry Cycle Started @ Z Discharge Cycle Started @ Temperatures 'OF Discharge Discharge Dry Chamber Chamber Rotor Rotor Time Exhaust Product Timer In Out In Out Operator S % 25 2 t 1 2�jC 'L4bZ 3g LfQ2. 232,,-._TC,J t S 2-2-Li,Zv i Ll4_ 435 y? Z9� �v 5"©5 "jLZ .7 � Z �� 4Lk5 4 �( (k4S ��.O 717W '5',55 a45 Q 1 5 t�� 4�5 L+35 445 3 (0 S 4j' DRYER OUTPUT %SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) (grams) (grams) z _ � r D5 x goo %Total Solids Alarms or Comments i RUN TIME, HRS 1 st Dryer Batch , I Fill Cycle Started @ `� I vvoH UMIr-M Vt'Ci'CHIIVIVJ DAILY RECORD .Y DATE ! / _ f START STOP TOTAL Dry Cycle Started @ 7! Discharge Cycle Started @ 6 :3 Y TemaeratHres OF Time Discharge Exhaust Discharge Dry Product Timer Chamber In Chamber Out Rotor Rotor I In I Out Operator -7_ /9' a D-5 J0a 3U 30 J&F R3© - C t08 3, bD a p.'S' LI 3 5- 0 '4 3S r�q 0 -'5 ' a 2 S a D t q5 q,3 e. 16= 36 a�q -zfy '-k45 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) 30 5oV 9 x100= 2nd Dryer Batch �1 Fill Cycle Started @ Dry Cycle Started @ Discharge Cycle Started @ Tamnar;P i Ira_ or Total Solids Time Discharge Exhaust Discharge Product Dry Timer Chamber In chamber Rotor Out In Rotor Out Operator 5 Sn 1445 -43 I z1q,5 D , �zI C DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) 0,1911, ' 27,95 7:9 P- 5-' 2/6/12, 6/23/14 1 % Total Solids I VVSA DRYER OPERATIONS DAILY RECORD DATE` — START STOP I RUN TIME, HRS 1st Dryer Batch TOTAL Fill Cycle Started @ t _ 5 Dry Cycle Started @ y I t Discharge Cycle Started Temperatures OF Time Discharge Discharge Exhaust Product Dry Chamber Timer In Chamber Out Rotor In Rotor Out Operator a c�'S . J 7 7 kP DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) _(grams) (grams) 1'D1a 11 2-5 , -7S 29 ocl-clo /3 tie x 100 = 9 3 / (%vim % Total Solids 2nd Dryer Batch Fill Cycle Started @ Dry Cycle Started @ `, Discharge Cycle Started @ -2 Tamnaratiirac OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber 7R o—t 0—r7 Out I In Rotor I Out Operator =35 Ab -39 . �?� 3��,3�" r:2 ?6 : E %aC57 /DID )s sa /-f '�Cl- f-)) 1 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) -�. 33 / j x 100 216/12, 6/23/14 T:-o Z' 0 % Total Solids 3rd Dryer Batch Fill Cycle Started @ -3-,6 1 -Dry Cycle Started @ 3 Tamnaratrirac °F Discharge Cycle Started @ Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator S : 3_7 Q 01-1 a v-� Q 39 3--7-7 39. _ fag mow' a L43� Q0 5 0 LA L\L� q o 3-14 q( H Y L- 36 -U U� I CI �, �(�i S '-E i `t S 36 DRYER OUTPUT % souDs Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) /(9 ✓�� 3 c/ f % X 100 = �� s� % Total Solids Alarms or Comments j TWSA DRYER OPERATIONS DAILY RECORD DATE j START STOP TOTAL RUN TIME, HRS ,3 1st Dryer Batch Fill Cycle Started @ l59 % Dry Cycle Started @ —Z:— Discharge Cycle Started @' res OF DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) (�� 3 x 100 = % Total Solids 2nd Dryer Batch f ° Fill Cycle Started @ D = c Dry Cycle Started @ L Discharge Cycle Started @ 2, 5 / Temperatures °F DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) N,©171 ' 2'F 99� 6" y13 9�,7ib7 % Total Solids 2/6/12, 6123114 DAILY RECORD 3rd Dryer Batch Fill Cycle Started @_ -Dry Cycle Started @ 3 ',jLl Temoeratures °F Discharge Cycle Started @ (o '•-"Sl Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator ,ay �oH a0B 0 39 S 3 1 39 y ' . \ H a a 1 009 SO Wc-1(5) (A 3 5, 0H as 9 c) 16 D ULE 5 L ( �T L� 5`5y Qc11 a ► 15a (-1(-(5 435 445 195 X-AL� 5 UQ DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) C 1.G-b4a 2-7 5 55 ��,� � ��, x1oo= -�- �' F Total Solids 0 Alarms or Comments I vv.Jn LJr\ 1 Cfl VI'"Cf\n I IVIVJ DAILY RECORD DATE RUN TIME, HRS 1 st Dryer Batch Fill Cycle Started @ START STOP TOTAL 1 10 39,\I 1 Dry Cycle Started @ 2; rA Discharge Cycle Started @' Temneraftires OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Rotor Rotor Out In Out Operator .."O )�' 0S 2-0- d 3"�Z� - 3 6 9 3 Y Y 6o 1426 -434 aCs mil` 915 a 0 0 1/1!�)0 4 14yy7a �. DRYER OUTPUT % SOLIDS g'0- r. ��1 c % Total Solids 2nd Dryer Batch Fill Cycle Started Dry Cycle Started @ �1- j I Discharge Cycle Started @ ' Temperatures °F Time Discharge Exhaust Discharge Product Dry Timer Chamber In chamber Out Rotor In Rotor Out Operator i 2 6169 C fey '3?3 del D I AID '401F� �50 41-f W #3 A /-/-# l i a� ACID 111)d JI3 3Xa •,_ DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (g rams) (grams) (grams) l,01cAz1 .ZS, 3(p02 2 7,5 z S-3' x100=--' /o Total Solids %12, 6/23/14 3rd Dryer Batch Fill. Cycle Started @ �' 3 -Dry Cycle Started @ 3 Discharge Cycle Started @ &1 3 Z Temperatures OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In I Chamber Out Rotor In Rotor Out O stator 1.13 a � � c 3� � � 3�� z30; '0 3 D 3 8 a o 5 5 0 LIC_) r✓� 3 �{ 3� 3 Sc,J �' S3 a a a 1 1 o a � �-15 �-(� -7 �, � 5 3� .� j 3oS �'+"A► I149I39 7- DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish I Dried Sample + Dish (grams) (grams) (grams) l,uzgs 1 1-7 x 100 = % Total Solids c ' Alarms or Comments I vvJA DRYER OPERATIONS DAILY RECORD DATE 12 I _ !!START STOP --� RUN TIME, HRS C� ,3,5- 1 j 0 `, 6 tt 1st Dryer Batch Fill Cycle Started @ TOTAL , 1 , � Dry Cycle Started @ 7 Discharge Cycle Started Temperatures OF Time uiscnarge Exhaust Ulscnarge Product Dry Time Chamber In Chamber Rotor Out In Rotor Out Operator 7 `� �aS E l P-3 �2t7,0 � z5o �� 4- 7 41V =5 I al- a IS 150 4 q� )i-3S � ,3 lda 0 ��b q46 � l �1 � DRYER OUTPUT %SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) 1 I X'b5A(p -- �� x100= I TZ % Total Solids 2nd Dryer Batch Fill Cycle Started @ C) ' Time d Discharge Exhaust Discharge Product 5 9,036 at) 9 `D�5 :.3A DRYER OUTPUT % SOLIDS FDiSh Wot 216112, 6/23/14 Dry Cycle Started Discharge Cycle Started @�T Temperatures'OF Dry Timer Chamber Chamber OuJt Rotor In Rotor Out Operator �In 1 T 3 & S <,5 -%e '�Z ;? C (f l a b S q,3-7 4q5 37 a �. R Sys�� 2�� cv ay x 100 % Total Solids vlllL I 1\L.VVI\V 3rd Dryer Batch Fill Cycle Started @ Q -Dry Cycle Started @ 160 Discharge Cycle Started @ ( 50 Temneratures OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator 20 3 8 (c L4 v Z ZZcI . 1 ', 2,c7 4 �>5 ( Lf O as-7 a03 10D cA Lk `-+u (o ',0 D ),35 < 5D qLt 5 L(35 Ljy 5 3 +� .5o -0-1 cl 3I+ 141( 5 ? DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish. Dried Sample + Dish (grams) (grams) (grams) (,0v3�7 Z7,-1�`7 . _ x 100 c Alarms or Comments % Total Solids j TWSA DRYER OPERATIONS DAILY RECORD DATE A� /START STOP TOTAL RUN TIME, HRS lQ Jr' �5 1st Dryer Batch Fill Cycle Started @ -T. ! Dry Cycle Started @ 7 Discharge Cycle Started a@ Tcmno.-nhwnc 0C Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Rotor In Rotor Operator - � D (✓ V � � /Outt ` �P b 0 - nOut/ J� � �p 3� -F .)-o 9 D- ! 3 E) �Q 150 41,3S .�f Jr 31! DRYER OUTPUT % SOLIDS . Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams) x 100 = its % Total Solids 2nd Dryer Batch Fill Cycle Started @ _ i It Dry Cycle Started @ Discharge Cycle Started @ 3 t I Temm-r;;fi s OF Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator a&5 aJ-'� D �34 *45 3'. H 3 5Ll q40 q4(� DRYER OUTPUT % SOLIDS LDish Wgt Wet Sample + Dish Dried Sample + Dish rams) grams) (grams) v� C): �0% x100= 33, '7(4 76 %Total Solids 1/12, 6/23114 DAILY RECORD 3rd Dryer Batch Fill Cycle Started @ c) I -Dry Cycle Started @ TPmnPrattlrPC OF Discharge Cycle Started @ g! OEM ."tb - Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator 3 o 0 d L-[()Cl i 0o /0D 4�44 43�, .LfLfLt 3 0 w a� a y a C o q cd C-{ 'r 4 I Kq y 39 3- DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) X, l.00�47 23t 552-9 x 100 % Total Solids Alarms or Comments j TWSA DRYER OPERATIONS /DAILY RECORD DATE START STOP TOTAL _ RUN TIME, HRS 1st Dryer Batch Fill Cycle Started @ Dry Cycle Started @ 7 . (� Discharge Cycle Started @ Temperatures °F Discharge Discharge Dry Chamber Chamber Rotor Rotor Time Exhaust Product Timer In Out In Out Operator .5c)3 C) A 3 DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) .(grams) (grams)' x1oo= % Total Solids 2nd Dryer Batch J Fill Cycle Started @ �I Dry Cycle Started @ [ 01 Discharge Cycle Started @ O • � 3 ,5 Temperatures °F Discharge Time Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In ° lJ� �� L✓ 4 { `t b aJ (�p J4 4 ` D 3. �� 14 -I-IZi ` DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) rams) L// Rotor O Operator �4/^^SS��utt V C 73 c -) 0.5.739'E�/ x-IUU cis 1J6/12, 6123/14 % Total SOIIdS UAILY HEGUKU 3rd Dryer Batch . Fill Cycle Started @ 5 -Dry Cycle Started @ Temneratsres OF Discharge Cycle Started @ (z L Time Discharge Exhaust Discharge Product Dry Timer Chamber In Chamber Out Rotor In Rotor Out Operator 3 °, Zi o i-I -Lo, v 0 (L q6? 3 c ._ -Li a (-iL �4 3S ci4G 30a'. 7 �.cl -9 0C)Q rya 1-f 3 (b 9 Lq I 3A (-Q- -i DRYER OUTPUT % SOLIDS Dish Wgt Wet Sample + Dish Dried Sample + Dish (grams) (grams) (grams) 13c�� j�d% _� X 100 6 8' 7 % Total Solids 0 Alarms or Comments V