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Home My WebLink About5701_Macon_OldFranklinLF_April2016_1stSemiAnnual_DIN26276_20160614WATERQUALITYMONITORINGREPORT 1st Semi-annual2016Event OldFranklinLandfill,PermitNo.57-01 MaconCounty,NorthCarolina Preparedfor: MaconCountySolidWasteDepartment 109SierraDrive Franklin,NC28734 Preparedby: REIConsultants,Inc. P.O.Box286 Beaver,WV25813 June14,2016 1st Semi-Annual2016GroundwaterMonitoringReport ___________________________________________________________________________________________ REIConsultants,Inc.P.O.Box286,Beaver,WV25813 800-999-0105 www.reiclabs.com i TABLEOFCONTENTS 1.0 EXECUTIVESUMMARY…………………………………………….…………….1 2.0 INTRODUCTION….………………………………………………………………....3 3.0 HYDROLOGICEVALUATION .…………………………………………………....4 4.0 SAMPLINGANDLABORATORYANALYSIS ..……………….…………………5 5.0 STATISTICALANALYSIS....………………………………………………….……6 6.0 CONCLUSIONS…...……………………………...…………………………….…….8 FIGURE1:PotentiometricMap/UppermostAquifier FIGURE2:PotentiometricMap/BedrockAquifer TABLE1:SummaryofMonitoringWellDataandStaticWaterLevels TABLE2:SummaryofFieldSampling TABLE3:SummaryofDetections APPENDICES AppendixA GroundwaterFlowRateCalculations AppendixB FieldSamplingLogs AppendixC LaboratoryReportsandChain-of-CustodyRecords AppendixD HistoricalLaboratoryAnalyticalResults AppendixE StatisticalAnalysis 1st Semi-Annual2016GroundwaterMonitoringReport _____________________________________________________________________________________________ REI Consultants,Inc.P.O.Box286,Beaver,WV25813 800-999-0105 www.reiclabs.com 1 1.0 EXECUTIVESUMMARY REIConsultants,Inc.(REIC)haspreparedthe 1st Semi-AnnualWaterQualityMonitoring Reportfor2016fortheOldFranklinLandfill,PermitNo.57-01,aclosedmunicipalsolidwaste disposalfacilitylocatedinMaconCounty,NorthCarolina.Waterqualitymonitoringatthe facilityisperformedonasemi-annualbasisandconsistsofsamplinggroundwatermonitoring wellsinthevicinityofthelandfillandaresidentialwatersupplywelladjacenttothefacility. The 1st semi-annual2016monitoringeventwasperformedonApril12,2016.Groundwater sampleswerecollectedfromseven(7)monitoringwells.Inaddition,asamplewascollected fromone(1)watersupplywelllocation.AllsampleswereanalyzedforNorthCarolina AppendixIparameters.ThefollowingparametersweredetectedaboveNorthCarolina groundwaterstandards: Parameter MonitoringWell Benzene MW-1,MW-6CR Cadmium MW-1 Chromium MW-1,MW-6,MW-7 Cobalt MW-1,MW-3,MW-6,MW-6CR,MW-7,MW-7C 1,4-Dichlorobenzene MW-1,MW-6CR Vanadium MW-1,MW-6,MW-7 Statisticalanalysisofanalyticalresultsindicatesthatalloftheabovegroundwaterstandards exceedancesofmetalsarebelowbackgroundstatisticallimitswiththeexceptionofcadmiumin wellMW-1.Theexceedancesofgroundwaterstandardsforvolatileorganiccompoundsare similartothoseofpreviousmonitoringevents.However,theseconstituentshavenotbeen detectedinthenearbyresidentialwatersupplysource(seebelow). One(1)residentialwatersupplywell,designatedasHaire,wassampled.NoAppendixI parametersweredetectedintheHairewellwiththeexceptionofcopperandzinc.However, concentrationsofcopperandzincwerebelowNorthCarolinagroundwaterstandardsinthe sample. 1st Semi-Annual2016GroundwaterMonitoringReport _____________________________________________________________________________________________ REI Consultants,Inc.P.O.Box286,Beaver,WV25813 800-999-0105 www.reiclabs.com 2 Staticgroundwaterelevationsweremeasuredineachmonitoringwellpriortosampling.These measurementswereconvertedtogroundwaterelevations,whichwereusedtodevelop generalizedpotentiometriccontoursforboththeshallowandbedrockaquifersinthevicinityof theOldFranklinLandfill.Groundwaterintheuppermostaquiferappearstobeflowingtothe westandnorthwestinthevicinityofthewastearea.Theaverageshallowgroundwaterflowrate inthelandfillvicinityhasbeenestimatedat170feet/year.Groundwaterofthebedrockaquifer generallyflowsfromeasttowest. 1st Semi-Annual2016GroundwaterMonitoringReport _____________________________________________________________________________________________ REI Consultants,Inc.P.O.Box286,Beaver,WV25813 800-999-0105 www.reiclabs.com 3 2.0 INTRODUCTION REIConsultants,Inc.(REIC)haspreparedthe 1st Semi-AnnualWaterQualityMonitoring Reportfor2016fortheOldFranklinLandfill,PermitNo.57-01,aclosedmunicipalsolidwaste disposalfacilitylocatedapproximatelytwomilesnortheastofthetownofFranklininMacon County,NorthCarolina.Thefacilityconsistsofaclosedandcappedwastearea,nolonger active,thatoccupiesapproximately14acresofnearly30acresofproperty.LakeEmory(the LittleTennesseeRiver)issituatedtothewestandnorthwestofthesite. ThegroundwatermonitoringwellnetworkattheOldFranklinLandfillconsistsofwellsMW-1, MW-2,MW-3,MW-4,MW-5,MW-6,MW-6A,MW-6CR,MW-7,MW-7A,MW-7C,MW-8, MW-9,andMW-10(seeFigures1and2forlocations).WellMW-6CRwasinstalledpriorto the 2nd semi-annual2008eventinordertoreplacewellMW-6C,whichwasdiscoveredtobe obstructedatdepthduringthe 2nd semi-annual2007event.WellMW-6Cwasproperly abandonedandpluggedinApril2008. MonitoringwellsMW-2andMW-8arelocatedessentiallyhydraulicallysidegradientofthe wastearea,andthereforearedesignatedasthebackgroundwellsforthefacility.Monitoring wellsMW-1,MW-3,MW-4,MW-5,MW-6,MW-6A,MW-6CR,MW-7,MW-7A,MW-7C, MW-9,andMW-10aremonitoredascompliancewells.WellsMW-1,MW-3,MW-6,MW- 6CR,MW-7,MW-7C,andMW-10aresampledsemi-annually.WellsMW-2,MW-4,MW-5, MW-6A,MW-7A,MW-8,andMW-9aresampledbiennially.Allwellsamplesareanalyzedfor NorthCarolinaAppendixIparameters. Inadditiontotheabovemonitoringwells,asampleiscollectedfromone(1)residentialwater supplywelllocationadjacenttothelandfillproperty,designatedasHaire.Thesupplywellwater sampleisanalyzedsemi-annuallyforAppendixIparameters.Formerly,sampleswerecollected fromadditionalresidentialwellsdesignatedasDowdleandKeener.However,thesewellsareno longerused,asbothresidencesareconnectedtopublicwater,andsamplesarenolonger collectedfromtheselocations. 1st Semi-Annual2016GroundwaterMonitoringReport _____________________________________________________________________________________________ REI Consultants,Inc.P.O.Box286,Beaver,WV25813 800-999-0105 www.reiclabs.com 4 Forthe 1st semi-annual2016monitoringevent,fieldsamplingwasperformedonApril12,2016. Sampleswerecollectedfromthesevensemi-annualwelllocationsandthedrinkingwatersupply well. 3.0 HYDROLOGICEVALUATION Staticwaterlevelsweremeasuredfromthetopofcasing(TOC)priortopurginginallwells duringthesamplingevent.Thesewaterlevelmeasurements,inconjunctionwithsurveyedTOC elevationdata,wereusedtocalculatestaticgroundwaterelevationsineachwell.Groundwater elevationdatafromthe 1st semi-annual2016monitoringeventwascontouredtorepresentthe potentiometricsurfaceofboththeshallowandbedrockaquifersinthevicinityofthelandfill. Elevationdataand,inthecaseoftheshallowaquifer,theinfluenceoftopographicalfeatures, wereutilizedtoestimatecontours.Copiesoftheresultingpotentiometricmapsareincludedin thisreport(SeeFigures1andFigure2).Asummaryofmonitoringwelldata,includingstatic waterlevelsmeasuredduringthe 1st semi-annual2016event,isincludedinTable1. WellsMW-1,MW-2,MW-3,MW-5,MW-6,MW-6A,MW-7,MW-7A,andMW-8atthe facilityarescreenedinthesoil/saprolitelayeroverlyingtheresidentbedrock.WellsMW-4, MW-6CR,MW-7C,MW-9,andMW-10arecompletedinbedrock. Generally,groundwateroftheshallowaquiferflowsfromthewesternendofthewasteareato thewestandnorthwest.Thedirectionofflowacrosstheeasternmostareaofthewastecannotbe confirmedduetothelackofashallowwellinthatvicinity.Forthebedrockaquifer, groundwaterflowdirectionfromeasttowestacrossthewasteisindicatedbytheavailabledata. Previousinvestigatorsconductedin-situaquiferslugtestsinordertoestimatetypicalhydraulic conductivitiesatthesite.Elevationdatafromtheshallowaquiferpotentiometricmapwas utilizedtoestimatehydraulicgradientsinthevicinityofthefacility.Thisinformationhasbeen appliedinaformofDarcy’sLawtocalculatethegroundwaterseepagevelocityintheupper- mostaquiferunderthesite,whichwasestimatedtobe170ft/year.Groundwaterflowrate calculationsareincludedinAppendixA. 1st Semi-Annual2016GroundwaterMonitoringReport _____________________________________________________________________________________________ REI Consultants,Inc.P.O.Box286,Beaver,WV25813 800-999-0105 www.reiclabs.com 5 4.0 SAMPLINGANDLABORATORYANALYSIS MonitoringwellsattheOldFranklinLandfillwerepurgedandsampledusinglaboratory decontaminatedpolytetrafluoroethylenesinglecheckvalvebailers.FieldtestingofpH, temperature,conductivity,andturbidityweremeasuredtoensureadequatepurging.Samples werecollectedinpre-cleanedandappropriatelypreservedcontainers,transportedinicedcoolers, anddeliveredtothelaboratoryingoodcondition.Allwellsweresampledduringthe 1st semi- annual2016monitoringevent.Severalgroundwatersampleswerenotedasexhibitinghigh turbidity.AsummaryoffieldsamplinginformationisgiveninTable2.Fieldsamplinglogsare includedinAppendixB. AllsampleswereanalyzedbyREIC’sNorthCarolinacertifiedlaboratory.Thelaboratory qualityassuranceprogramincludedallappropriate,methodspecificqualitycontrols(QC).All laboratorydatamettherequiredQCcriteria. Severalmetalsandvolatileorganiccompounds(VOCs)weredetectedaboveNorthCarolina SolidWasteSectionLimits(SWSLs)incompliancewellsatthefacility.Metalsdetectedabove SWSLsincludedbarium,cadmium,chromium,cobalt,copper,lead,vanadium,andzinc.VOCs detected above SWSLs included benzene,chlorobenzene,1,2-dichlorobenzene,1,4- dichlorobenzene,andcis-1,2-dichloroethene.Thefollowingparametersweredetectedabove NorthCarolinagroundwaterstandards: Parameter MonitoringWell Benzene MW-1,MW-6CR Cadmium MW-1 Chromium MW-1,MW-6,MW-7 Cobalt MW-1,MW-3,MW-6,MW-6CR,MW-7,MW-7C 1,4-Dichlorobenzene MW-1,MW-6CR Vanadium MW-1,MW-6,MW-7 1st Semi-Annual2016GroundwaterMonitoringReport _____________________________________________________________________________________________ REI Consultants,Inc.P.O.Box286,Beaver,WV25813 800-999-0105 www.reiclabs.com 6 Theexceedancesofgroundwaterstandardsaresimilartothoseofpreviousmonitoringevents. However,theseconstituentshavenotbeendetectedinthenearbyresidentialwatersupplysource (seebelow). One(1)residentialwatersupplywellwassampled,designatedasHaire.Thesamplewas collectedfromwithintheresidence,andwaterwasallowedtorunforseveralminutespriorto samplecollection.NoAppendixIparametersweredetectedaboveSWSLsinthewellwiththe exceptionofcopperandzincatconcentrationswellbelowtherespectiveNorthCarolina groundwaterstandards. AsummaryoflaboratoryresultsdetectedaboveSWSLsisincludedinTable3.Laboratory reportsandchain-of-custodyrecordsareincludedinAppendixC.Datahavebeenreportedto method detection limits(MDLs)asrequested bytheNorth CarolinaDepartmentof EnvironmentalQuality.However,notethatanyvaluesreportedbelowSWSLs,flaggedwitha “J”qualifier,areonlyestimates,arenotquantitative,andshouldnotbeusednumericallyinany way.HistoricallaboratoryresultsaregiveninAppendixD. 5.0 STATISTICALANALYSIS Theupdatedregulationsat15ANCAC13BSection .1633nolongerrequirestatisticalanalysisto beconductedasaroutinescreeningtool.However,statisticalanalysiswasperformedinorderto maintainbackgroundlevelsfortheseveralnaturallyoccurringmetalsthataredetectedin backgroundandcompliancewellsatOldFranklinLandfill. Monitoringconstituentswereevaluatedingeneralaccordancewiththeguidelinesof“Statistical AnalysisofGroundwaterMonitoringDataatRCRAFacilities,UnifiedGuidance”(U.S.EPA OfficeofResourceConservationandRecovery,March2009).Downgradientwellconstituent concentrationswerecomparedtoupperpredictionlimitsderivedfromhistoricaldatapooled fromthetwobackgroundwells,MW-2andMW-8.Predictionintervalswereconstructedas follows.Forconstituentswheregreaterthan50percentofthedatawerebelowpractical quantitationlimits(PQLs)/SWSLs,anon-parametricpredictionlimitwasconstructedusingthe 1st Semi-Annual2016GroundwaterMonitoringReport _____________________________________________________________________________________________ REI Consultants,Inc.P.O.Box286,Beaver,WV25813 800-999-0105 www.reiclabs.com 7 maximumhistoricalbackgroundmeasurement.Forconstituentswheremorethan15butless than50percentofthedatawerebelowPQLs/SWSLs,parametricpredictionintervalsmodified byCohen’sAdjustmentwereutilizedwherethedataexhibitanormalorlog-normaldistribution. Otherwise,non-parametricpredictionlimitswereutilized.Noparametersexhibiteddetection frequenciesabovePQLs/SWSLsatgreaterthan50percentwiththeexceptionofbariumand chromium.However,neitherparameterisnormallyorlog-normallydistributed,andtherefore non-parametricpredictionlimitswereused. Statisticalanalysisofmonitoringwellanalyticalresultsformetalsindicatethatthechromium, cobalt,andvanadiumconcentrationsdetectedabovegroundwaterstandardsduringthe 1st semi- annual2016eventwerebelowbackgroundstatisticallimits.Asummaryofthestatistical analysisisgiveninAppendixE. 1st Semi-Annual2016GroundwaterMonitoringReport _____________________________________________________________________________________________ REI Consultants,Inc.P.O.Box286,Beaver,WV25813 800-999-0105 www.reiclabs.com 8 6.0 CONCLUSIONS ·The 1st semi-annual2016waterqualitymonitoringeventattheOldFranklinLandfill wasperformedinaccordancewithStateandFederalGuidelines. ·Thedirectionofgroundwaterflowintheuppermostaquiferinthevicinityofthewaste areaisgenerallytothewestandnorthwest. ·Theaveragerateofgroundwaterflowinthevicinityofthelandfillintheuppermost aquiferisestimatedat170feet/year. ·MetalsdetectedaboveSWSLsincludedbarium,cadmium,chromium,cobalt,copper, lead,vanadium,and zinc.VOCsdetected aboveSWSLsincluded benzene, chlorobenzene,1,2-dichlorobenzene,1,4-dichlorobenzene,andcis-1,2-dichloroethene. ·ThefollowingVOCsweredetectedaboveNorthCarolinagroundwaterstandards: benzeneand1,4-dichlorobenzeneinwellsMW-1andMW-6CR. ·ThefollowingmetalsweredetectedaboveNorthCarolinagroundwaterstandards: cadmiuminwellMW-1;chromiuminwellsMW-1,MW-6,andMW-7;cobaltinwells MW-1,MW-3,MW-6,MW-6CR,MW-7,andMW-7C;andvanadiuminwellsMW-1, MW-6,andMW-7. ·Statisticalanalysisindicatedthatalloftheabovegroundwaterstandardexceedancesfor metalswerebelowbackgroundstatisticallimitswiththeexceptionofcadmiuminwell MW-1. ·TheexceedancesofgroundwaterstandardsforVOCsaresimilartothoseofprevious monitoringevents.However,theseconstituentshavenotbeendetectedinthenearby residentialwatersupplysource. 1st Semi-Annual2016GroundwaterMonitoringReport _____________________________________________________________________________________________ REI Consultants,Inc.P.O.Box286,Beaver,WV25813 800-999-0105 www.reiclabs.com 9 ·NoAppendixIparametersweredetectedintheHaireresidentialwatersupplywellwith theexceptionofcopperandzinc,atconcentrationswellbelowtherespectiveNorth Carolinagroundwaterstandards. OldFranklinLandfill Franklin,MaconCounty,NorthCarolina PermitNumber:57-01 Figure1: PotentiometricMap/Uppermost Aquifer REIConsultants,Inc.P.OBox286,Beaver,WV25813 800-999-0105 www.reiclabs.com HAIRE OLDFRANKLINLANDFILL,PERMITNO.57-01 MACONCOUNTY,NORTHCAROLINA WATERQUALITYMONITORINGPROGRAM 1STSEMIANNUAL2016EVENT POTENTIOMETRICCONTOURS-UPPERMOSTAQUIFER LEGEND SEMIANNUALMONITORINGWELL BIENNIALMONITORINGWELL(NOTSAMPLEDTHISEVENT) MONITORINGWELLID STATICGROUNDWATERELEVATION TOPOGRAPHICCONTOURS POTENTIOMETRICCONTOURS APPROXIMATE WASTELIMITS ROADS PROPERTYLINES RESIDENTIALWELLSAMPLE PREPAREDBY: REICONSULTANTS,INC. MAY2016 MW-8 2184.90 SCALE: 0 50 100 200 ALLMEASUREMENTSINFEET N MW-72064.60 MW-82184.90 MW-52103.21 2102.01 MW-6A2101.20 FLOWPATHFORGRADIENTCALCULATION MW-32091.05 MW-2 MW-12081.84 MW-7A2066.27 MW-6 OldFranklinLandfill Franklin,MaconCounty,NorthCarolina PermitNumber:57-01 Figure2: PotentiometricMap/Bedrock Aquifer REIConsultants,Inc.P.OBox286,Beaver,WV25813 800-999-0105 www.reiclabs.com MW-6CR2090.43 OLDFRANKLINLANDFILL,PERMITNO.57-01 MACONCOUNTY,NORTHCAROLINA WATERQUALITYMONITORINGPROGRAM 1STSEMIANNUAL2016EVENT POTENTIOMETRICCONTOURS-BEDROCKAQUIFER LEGEND SEMIANNUALMONITORINGWELL BIENNIALMONITORINGWELL(SAMPLEDTHISEVENT) MONITORINGWELLID STATICGROUNDWATERELEVATION TOPOGRAPHICCONTOURS POTENTIOMETRICCONTOURS APPROXIMATE WASTELIMITS ROADS PROPERTYLINES PREPAREDBY: REICONSULTANTS,INC. MAY2016 SCALE: 0 50 100 200 ALLMEASUREMENTSINFEET N MW-42124.09 MW-10 2062.89 2080.11MW-7C2066.22 MW-9 MW-102062.89 T a b l e 1 S u mm a r y o f M on i t or i ng We ll D a t a a nd S t a t i c W a te r L e v e ls O l d Fr a n k li n L a nd f i l l , P e r mi t N o . 57 -02 1s t S e mi -a nn u a l 2 0 16 M on i t or i ng E v e nt We l l ID I n s t a ll a t i on D a te W e ll D i a m e t er (i n) To t a l We ll D e p t h* (f t) D e p t h t o To p o f S c r ee n ** (f t) L e ng t h o f S c r ee n e d I n t e r v al (f t) G e o l og y o f S c r ee n e d I n t e r v al To p o f C as i ng El e v a t i on (ft a bo v e M S L) G r ou n d El e v a t i on (ft a bo v e M S L) S t a t i c D e p t h t o W a te r* (f t) G r ou n d w a t e r El e v a t i on (ft a bo v e M S L) L a t i t ud e M W -1 N /A 2 43 .89 34 10 S ap r o li te 2 1 07 .46 N /A 25 .62 2 0 81 .84 N 3 5° 1 2' 35 .4" M W -2 N /A 2 42 .68 33 10 S ap r o li te 2 1 16 .78 N /A N /A N /A N /A M W -3 N /A 2 63 .08 46 15 S ap r o li te 2 1 37 .10 N /A 46 .05 2 0 91 .05 N 3 5° 1 2' 31 .9" M W -5 N /A 2 77 .00 60 15 S ap r o li te 2 1 68 .32 N /A 65 .11 2 1 03 .21 N /A M W -6 2 /24 /1 9 97 2 45 .52 35 10 S ap r o li te 2 1 34 .87 2 1 31 .89 32 .86 2 1 02 .01 N 3 5° 1 2' 38 .1" M W -6A 2 /24 /1 9 97 2 75 .15 70 .5 2 .5 S ap r o li te 2 1 35 .03 2 1 31 .8 33 .83 2 1 01 .20 N 3 5° 1 2' 38 .2" M W -7 2 /25 /1 9 97 2 23 .39 10 15 S ap r o li te 2 0 80 .39 2 0 77 .31 15 .79 2 0 64 .60 N 3 5° 1 2' 33 .7" M W -7A 2 /25 /1 9 97 2 36 .35 31 .5 2 .5 S ap r o li te 2 0 80 .61 2 0 77 .45 14 .34 2 0 66 .27 N 3 5° 1 2' 33 .8" M W -8 N /A 2 44 .33 22 20 S ap r o li te 2 2 08 .10 N /A 23 .20 2 1 84 .90 N /A M W -4 N /A 2 66 .55 50 15 B ed r o ck 2 1 80 .97 N /A 56 .88 2 1 24 .09 N /A M W -6 CR 4 /16 /2 0 08 2 1 44 .22 1 30 10 B ed r o ck 2 1 34 .22 N /A 43 .79 2 0 90 .43 N 3 5° 1 2' 38 .6" M W -7C N /A 2 54 .35 42 10 B ed r o ck 2 0 80 .10 N /A 13 .88 2 0 66 .22 N 3 5° 1 2' 33 .4" M W -9 N /A 2 1 09 .45 97 .5 10 B ed r o ck 2 0 83 .42 N /A 3 .31 2 0 80 .11 N 3 5° 1 2' 34 .3" M W -10 N /A 2 1 08 .10 96 10 B ed r o ck 2 0 74 .20 N /A 11 .31 2 0 62 .89 N 3 5° 1 2' 33 .3" * - m ea s u r ed f r o m t op o f c a s i ng ** - m ea s u r ed f r o m g r o u nd s u r f a ce M S L - m e an s ea l e v el N /A - no t a v a il ab le T a b l e 1 S u mm a r y o f M on i t or i ng We ll D a t a a nd S t a t i c W a te r L e v e ls O l d Fr a n k li n L a nd f i l l , P e r mi t N o . 57 -02 1s t S e mi -a nn u a l 2 0 16 M on i t or i ng E v e nt Lo ng i t ud e W 0 8 3° 2 2' 02 .5" N /A W 0 8 3° 2 2' 01 .4" N /A W 0 8 3° 2 1' 57 .4" W 0 8 3° 2 1' 57 .5" W 0 8 3° 2 2' 04 .0" W 0 8 3° 2 2' 04 .3" N /A N /A W 0 8 3° 2 1' 57 .6" W 0 8 3° 2 2' 05 .1" W 0 8 3° 2 2' 03 .0" W 0 8 3° 2 2' 05 .0" REICJob#: SamplingDate: Sampler(s):A.McBride / R.Farley / R. Talley / JDBennett/M.Talley WeatherConditions:Sunny72-74°F SamplingDepth 27.15 52.39 33.05 57.30 15.88 StaticDepth 25.62 46.05 32.86 43.79 15.79 WellDepth 43.89 63.08 45.52 144.22 23.39 WaterColumnHeight 18.27 17.03 12.66 100.43 7.60 VolumePurged 32 30 23 174 13 PurgingStatus FinishedPurging FinishedPurging FinishedPurging FinishedPurging FinishedPurging pH 6.37 6.43 6.56 6.35 5.82 Temperature 16.2 14.4 15.8 16.1 14.6 Conductivity 727 306 84.1 560 347 Turbidity 285 266 440 4.22 607 Appearance Cloudy Cloudy Cloudy Clear Cloudy Odor NoOdor NoOdor NoOdor NoOdor NoOdor TotalSuspendedSolids(TSS)329 172 918 10.5 962 SamplingDepth 14.04 16.68 - StaticDepth 13.88 11.31 - WellDepth 54.35 108.10 - WaterColumnHeight 40.47 96.79 - VolumePurged 71 168 - PurgingStatus FinishedPurging FinishedPurging - pH 6.16 6.52Dup6.51 6.55 Temperature 16.0 14.8Dup14.8 18.4 Conductivity 687 516Dup516 70.4 Turbidity 3.08 6.31Dup5.97 0.58 Appearance Clear Clear Clear Odor NoOdor NoOdor NoOdor TotalSuspendedSolids(TSS)--- TABLE2:SAMPLINGLOGSUMMARY OldFranklinLandfill(Permit:#57-01) 16041523 4/12/2016 REIConsultants,Inc.P.O.Box286,Beaver,WV25813 800-999-0105 www.reiclabs.com NC 2L S W SL M W -1 M W -2 M W -3 M W -4 M W -5 M W -6 M W -6 A M W -6 CR M W -7 M W -7 A M W -7 C M W -8 M W -9 M W -1 0 Ha i re 1 ,2 -D ic h l or o b e n ze ne 20 5 6 .0 NS - NS NS - NS - - NS - NS NS - - 1 ,4 -D ic h l or o b e n ze ne 6 1 14 .2 NS 2 .2 NS NS 2 .6 NS 14 .4 - NS 5 .6 NS NS 3 .2 - B e n ze ne 1 1 3 .8 NS - NS NS - NS 1 .5 - NS - NS NS - - Ch l or o b e n ze ne 50 3 22 .3 NS - NS NS - NS 3 .7 - NS 7 .9 NS NS 4 .0 - ci s -1 ,2 -D ic h l or o et h e ne 70 5 15 .0 NS - NS NS - NS 14 .0 - NS - NS NS - - B a r i um 70 0 10 0 48 9 NS 30 5 NS NS 54 3 NS 30 7 64 9 NS 44 6 NS NS - - C a d m i um 2 1 12 .9 NS - NS NS - NS - - NS - NS NS - - Ch ro m i um 10 10 34 .0 NS - NS NS 28 .1 NS - 25 .2 NS - NS NS - - C ob a lt 1 10 15 .3 NS 20 .9 NS NS 12 .1 NS 32 .3 13 .6 NS 13 .4 NS NS - - C op p er 10 0 0 10 35 .8 NS 12 .6 NS NS 75 .0 NS - 50 .8 NS - NS NS - 10 9 L e ad 15 10 - NS - - - 11 .7 NS - - NS - NS NS - - Va n a d i um 0 .3 25 36 .3 NS - NS NS 41 .3 NS - 41 .5 NS - NS NS - - Z i nc 10 0 0 10 45 .9 NS 32 .6 NS NS 12 4 NS - 64 .3 NS - NS NS - 47 .2 T o t al S u s p e n d e d S o li d s ( T S S) 1 32 9 NS 17 2 NS NS 91 8 NS 11 96 2 NS 3 NS NS - - N O TE S : S WS L - S o li d W a s t e S ec t i o n L i m it N L - c o n s t i t u en t d o e s n ot h av e a NC 2 L S ta nd a rd C o n s t i t u en t s t h at e x c e ed t he NC 2 L S ta nd a rd a re hi g h li g h ed in r ed D RY - w e ll w a s dr y d u r in g s a m p l in g e v e nt A ll c o n s t i t u en t s r ep o r t ed in µ g /L [ p a r t s p er b i l li o n ( p pb )] O nl y c o m p o u nd s de t ec t ed a b ov e S WS Ls a re li s t ed NS - l o c at i o n n ot s a m p l ed * - n ot de t ec t ed a b ov e S W SL T a b l e 3 Su mm a r y o f D et e ct i o ns Ol d F r a nk li n L a nd f il l , P er m i t N o. 57 -01 1s t S e m i a nn u a l 2 0 1 6 M o n i t o r i n g E v e nt V O Cs M e ta ls R E I C on s u l t a nt s , I n c . P .O . B o x 2 8 6 , B ea v e r , W V 2 58 1 3 80 0 -9 99 -0 1 05 ww w .r e i c l ab s .c om OldFranklinLandfill Franklin,MaconCounty,NorthCarolina PermitNumber:57-01 AppendixA: GroundwaterFlow Rate Calculations REIConsultants,Inc.P.OBox286,Beaver,WV25813 800-999-0105 www.reiclabs.com X Y Distance(ft) -1541.0 59.4 -1527.3 64.7 14.8 -1507.8 70.1 20.2 -1486.8 74.1 21.4 -1469.7 75.9 17.2 -1450.9 76.6 18.8 -1431.7 76.2 19.2 -1417.6 75.4 14.1 -1392.6 73.3 25.0 -1371.1 71.6 21.6 -1350.7 70.0 20.5 -1331.9 68.7 18.8 -1310.6 66.3 21.4 -1294.1 63.8 16.7 168 -1275.2 59.9 19.3 -1255.3 55.3 20.4 -1218.9 45.3 37.8 -1187.9 35.7 32.5 -1156.3 26.0 33.0 -1120.9 13.7 37.5 -1092.5 3.4 30.2 -1069.6 -5.5 24.5 -1048.1 -14.7 23.4 -1027.9 -24.4 22.4 -1011.8 -33.3 18.5 -993.3 -44.3 21.5 -979.0 -53.9 17.2 -964.8 -64.1 17.5-955.2 -71.8 12.3 -944.4 -81.8 14.7 -933.6 -92.4 15.1 -923.0 -103.1 15.0 -911.4 -114.8 16.5 -900.6 -127.0 16.2 -893.0 -136.0 11.8 -885.2 -145.3 12.2 -877.4 -155.6 12.9 -870.0 -165.9 12.7 -859.2 -181.4 18.9 -852.9 -190.9 11.4 -845.5 -202.0 13.3-838.8 -213.4 13.2 -833.7 -222.5 10.4 -827.2 -234.5 13.6 -818.1 -252.6 20.3 -810.2 -270.2 19.3 -805.9 -282.0 12.5 -803.2 -291.4 9.7 887.7 ft 90 ftVerticalDifference neff=0.3 4.8E-04K= Old Franklin Landfill Horizontal Distance V=KI/neff=170 ft/yr FlowPath ft/ftHydraulicgradient,I= cm/sec 0.101 OldFranklinLandfill Franklin,MaconCounty,NorthCarolina PermitNumber:57-01 AppendixB: FieldSamplingLogs REIConsultants,Inc.P.OBox286,Beaver,WV25813 800-999-0105 www.reiclabs.com FS_GW_LOG#2_REV.0(02-2016)pH/ConductivityMeter:FS-PH-2 Form1of 1 phProbe:FS-PHP-2 ConductivityProbe:FS-CP-2 TurbidityMeter:FS-TURB-2 ProjectName:Project :Well#:MW-1 ContactPerson:Phone#: Y N Y N x x x x x x Comments: Date/Time:Sunny 73 °F 25.62 (Ft)10.57 (Liters) 43.89 (Ft)31.73 (Liters) 18.27 (Ft)32.00 (Liters) pH Time (SU) 17:09 6.31 17:11 6.44 17:13 6.41 17:15 6.45 17:17 6.35 17:19 6.40 17:20 Date:Time:17:22/17:24 Method:SamplingDepth:27.15' pH:6.37 (SU)Conductivity:727 (umhos/cm) Temperature:16.2 (o C)Turbidity:285 (NTU) Comments: SampledBy:A.McBride/R.Farley/R.Talley/JDBennett/M.Talley Initials:Date:4/12/2016 SAMPLINGDATA 4/12/2016 TeflonBailer PHYSICALCHARACTERISTICSOFSAMPLE Appearance:Cloudy Odor:NoOdor 725.0 16.2 270.00 30 FinishedPurging 32 727.0 16.2 156.00 18 727.0 16.2 243.00 24 727.0 16.1 34.40 6 728.0 16.1 96.00 12 Conductivity (umhos/cm)(oC)(NTU)(Liters) 721.0 16.1 2.45 1 TemperatureCorrected Temperature Turbidity VolumePurged EVACUATION/STABILIZATIONTESTDATA ProtectiveCasingPresent PhysicalDamage ProtectiveCasingLocked Concrete/GroutPadPresent CaponWellRiser 2"PVCCasing WELLCONDITIONDATA REICONSULTANTS,INC.GROUNDWATERSAMPLINGLOG OldFranklinLandfill 1stSemi2016 ChrisStahl 828-349-2100 PURGINGDATA 4/12/2016 16:58 WeatherConditions: StaticDepth (Depth toWater)Volume WellDepth 3Volumes WaterColumnHeight VolumePurged SampleSetPage 1 of7 . FS_GW_LOG#2_REV.0(02-2016)pH/ConductivityMeter:FS-PH-2 Form1of 1 phProbe:FS-PHP-2 ConductivityProbe:FS-CP-2 TurbidityMeter:FS-TURB-2 ProjectName:Project :Well#:MW-3 ContactPerson:Phone#: Y N Y N x x x x x x Comments: Date/Time:Sunny 72 °F 46.05 (Ft)9.86 (Liters) 63.08 (Ft)29.58 (Liters) 17.03 (Ft)30.00 (Liters) pH Time (SU) 17:37 6.39 17:40 6.37 17:41 6.38 17:43 6.39 17:45 6.42 17:47 6.40 17:49 Date:Time:17:51/17:53 Method:SamplingDepth:52.39' pH:6.43 (SU)Conductivity:306 (umhos/cm) Temperature:14.4 (o C)Turbidity:266 (NTU) Comments: SampledBy:A.McBride/R.Farley/R.Talley/JDBennett/M.Talley Initials:Date:4/12/2016 SAMPLINGDATA 4/12/2016 TeflonBailer PHYSICALCHARACTERISTICSOFSAMPLE Appearance:Cloudy Odor:NoOdor 312.0 14.3 353.00 25 FinishedPurging 30 309.0 14.5 278.00 15 311.0 14.5 308.00 20 319.0 14.5 230.00 5 309.0 14.4 298.00 10 Conductivity (umhos/cm)(oC)(NTU)(Liters) 323.0 15.5 172.00 1 EVACUATION/STABILIZATIONTESTDATA TemperatureCorrected Temperature Turbidity VolumePurged StaticDepth (Depth toWater)Volume WellDepth 3Volumes WaterColumnHeight VolumePurged CaponWellRiser 2"PVCCasing PURGINGDATA 4/12/2016 17:35 WeatherConditions: WELLCONDITIONDATA ProtectiveCasingPresent PhysicalDamage ProtectiveCasingLocked Concrete/GroutPadPresent REICONSULTANTS,INC.GROUNDWATERSAMPLINGLOG OldFranklinLandfill 1stSemi2016 ChrisStahl 828-349-2100 SampleSetPage 2 of7 . FS_GW_LOG#2_REV.0(02-2016)pH/ConductivityMeter:FS-PH-1 Form1of 1 phProbe:FS-PHP-1 ConductivityProbe:FS-CP-1 TurbidityMeter:FS-TURB-1 ProjectName:Project :Well#:MW-6 ContactPerson:Phone#: Y N Y N x x x x x x Comments: Date/Time:Sunny 72 °F 32.86 (Ft)7.33 (Liters) 45.52 (Ft)21.99 (Liters) 12.66 (Ft)23.00 (Liters) pH Time (SU) 15:27 5.56 15:29 5.52 15:31 5.50 15:33 5.60 15:37 5.50 15:40 5.47 15:43 Date:Time:16:44/16:47 Method:SamplingDepth:33.05' pH:6.56 (SU)Conductivity:84.1 (umhos/cm) Temperature:15.8 (o C)Turbidity:440 (NTU) Comments: SampledBy:A.McBride/R.Farley/R.Talley/JDBennett/M.Talley Initials:Date:4/12/2016 SAMPLINGDATA 4/12/2016 TeflonBailer PHYSICALCHARACTERISTICSOFSAMPLE Appearance:Cloudy Odor:NoOdor 78.0 15.1 >800 20 FinishedPurging 23 78.5 15.3 734.00 12 77.2 15.0 >800 16 66.0 15.1 602.00 4 70.7 15.1 743.00 8 Conductivity (umhos/cm)(oC)(NTU)(Liters) 68.5 15.4 80.10 1 EVACUATION/STABILIZATIONTESTDATA TemperatureCorrected Temperature Turbidity VolumePurged StaticDepth (Depth toWater)Volume WellDepth 3Volumes WaterColumnHeight VolumePurged CaponWellRiser 2"PVCCasing PURGINGDATA 4/12/2016 15:23 WeatherConditions: WELLCONDITIONDATA ProtectiveCasingPresent PhysicalDamage ProtectiveCasingLocked Concrete/GroutPadPresent REICONSULTANTS,INC.GROUNDWATERSAMPLINGLOG OldFranklinLandfill 1stSemi2016 ChrisStahl 828-349-2100 SampleSetPage 3 of7 . FS_GW_LOG#2_REV.0(02-2016)pH/ConductivityMeter:FS-PH-1 Form1of 1 phProbe:FS-PHP-1 ConductivityProbe:FS-CP-1 TurbidityMeter:FS-TURB-1 ProjectName:Project :Well#:MW-6CR ContactPerson:Phone#: Y N Y N x x x x x x Comments: Date/Time:Sunny 72 °F 43.79 (Ft)58.14 (Liters) 144.22 (Ft)174.44 (Liters) 100.43 (Ft)174.00 (Liters) pH Time (SU) 15:15 6.50 15:35 6.48 15:50 6.50 16:06 6.62 16:19 6.61 16:33 6.58 16:39 Date:Time:16:50/16:55 Method:SamplingDepth:57.30' pH:6.35 (SU)Conductivity:560 (umhos/cm) Temperature:16.1 (o C)Turbidity:4.22 (NTU) Comments: SampledBy:A.McBride/R.Farley/R.Talley/JDBennett/M.Talley Initials:Date:4/12/2016 SAMPLINGDATA 4/12/2016 TeflonBailer PHYSICALCHARACTERISTICSOFSAMPLE Appearance:Clear Odor:NoOdor 574.0 15.5 5.05 160 FinishedPurging 174 597.0 15.8 13.41 96 583.0 15.4 15.85 128 572.0 15.6 57.50 32 587.0 15.7 1.71 64 Conductivity (umhos/cm)(oC)(NTU)(Liters) 580.0 16.3 1.27 1 EVACUATION/STABILIZATIONTESTDATA TemperatureCorrected Temperature Turbidity VolumePurged StaticDepth (Depth toWater)Volume WellDepth 3Volumes WaterColumnHeight VolumePurged CaponWellRiser 2"PVCCasing PURGINGDATA 4/12/2016 15:05 WeatherConditions: WELLCONDITIONDATA ProtectiveCasingPresent PhysicalDamage ProtectiveCasingLocked Concrete/GroutPadPresent REICONSULTANTS,INC.GROUNDWATERSAMPLINGLOG OldFranklinLandfill 1stSemi2016 ChrisStahl 828-349-2100 SampleSetPage 4 of7 . FS_GW_LOG#2_REV.0(02-2016)pH/ConductivityMeter:FS-PH-2 Form1of 1 phProbe:FS-PHP-2 ConductivityProbe:FS-CP-2 TurbidityMeter:FS-TURB-2 ProjectName:Project :Well#:MW-7 ContactPerson:Phone#: Y N Y N x x x x x x Comments: Date/Time:Sunny 73 °F 15.79 (Ft)4.40 (Liters) 23.39 (Ft)13.20 (Liters) 7.60 (Ft)13.00 (Liters) pH Time (SU) 16:13 5.91 16:14 5.87 16:15 5.85 16:16 5.86 16:17 5.84 16:18 5.86 16:19 Date:Time:16:21/16:23 Method:SamplingDepth:15.88' pH:5.82 (SU)Conductivity:347 (umhos/cm) Temperature:14.6 (o C)Turbidity:607 (NTU) Comments: SampledBy:A.McBride/R.Farley/R.Talley/JDBennett/M.Talley Initials:Date:4/12/2016 SAMPLINGDATA 4/12/2016 TeflonBailer PHYSICALCHARACTERISTICSOFSAMPLE Appearance:Cloudy Odor:NoOdor 345.0 14.6 723.00 11 FinishedPurging 13 350.0 14.6 695.00 7 352.0 14.6 742.00 9 359.0 15.1 553.00 3 357.0 14.7 680.00 5 Conductivity (umhos/cm)(oC)(NTU)(Liters) 361.0 15.8 20.60 1 EVACUATION/STABILIZATIONTESTDATA TemperatureCorrected Temperature Turbidity VolumePurged StaticDepth (Depth toWater)Volume WellDepth 3Volumes WaterColumnHeight VolumePurged CaponWellRiser 2"PVCCasing PURGINGDATA 4/12/2016 16:09 WeatherConditions: WELLCONDITIONDATA ProtectiveCasingPresent PhysicalDamage ProtectiveCasingLocked Concrete/GroutPadPresent REICONSULTANTS,INC.GROUNDWATERSAMPLINGLOG OldFranklinLandfill 1stSemi2016 ChrisStahl 828-349-2100 SampleSetPage5 of 7 . FS_GW_LOG#2_REV.0(02-2016)pH/ConductivityMeter:FS-PH-2 Form1of 1 phProbe:FS-PHP-2 ConductivityProbe:FS-CP-2 TurbidityMeter:FS-TURB-2 ProjectName:Project :Well#:MW-7C ContactPerson:Phone#: Y N Y N x x x x x x Comments: Date/Time:Sunny 74 °F 13.88 (Ft)23.43 (Liters) 54.35 (Ft)70.29 (Liters) 40.47 (Ft)71.00 (Liters) pH Time (SU) 16:29 6.32 16:32 6.39 16:35 6.20 16:37 6.16 16:40 6.16 16:43 6.19 16:43 Date:Time:16:45/16:48 Method:SamplingDepth:14.04' pH:6.16 (SU)Conductivity:687 (umhos/cm) Temperature:16.0 (o C)Turbidity:3.08 (NTU) Comments: SampledBy:A.McBride/R.Farley/R.Talley/JDBennett/M.Talley Initials:Date:4/12/2016 SAMPLINGDATA 4/12/2016 TeflonBailer PHYSICALCHARACTERISTICSOFSAMPLE Appearance:Clear Odor:NoOdor 678.0 16.0 7.06 70 FinishedPurging 71 668.0 15.9 8.17 42 681.0 16.0 7.04 56 669.0 15.9 9.01 14 665.0 15.9 11.08 28 Conductivity (umhos/cm)(oC)(NTU)(Liters) 667.0 15.6 3.92 1 EVACUATION/STABILIZATIONTESTDATA TemperatureCorrected Temperature Turbidity VolumePurged StaticDepth (Depth toWater)Volume WellDepth 3Volumes WaterColumnHeight VolumePurged CaponWellRiser 2"PVCCasing PURGINGDATA 4/12/2016 16:25 WeatherConditions: WELLCONDITIONDATA ProtectiveCasingPresent PhysicalDamage ProtectiveCasingLocked Concrete/GroutPadPresent REICONSULTANTS,INC.GROUNDWATERSAMPLINGLOG OldFranklinLandfill 1stSemi2016 ChrisStahl 828-349-2100 SampleSetPage 6 of7 . FS_GW_LOG#2_REV.0(02-2016)pH/ConductivityMeter:FS-PH-2 Form1of 1 phProbe:FS-PHP-2 ConductivityProbe:FS-CP-2 TurbidityMeter:FS-TURB-2 ProjectName:Project :Well#:MW-10 ContactPerson:Phone#: Y N Y N x x x x x x Comments: Date/Time:Sunny 73 °F 11.31 (Ft)56.04 (Liters) 108.10 (Ft)168.12 (Liters) 96.79 (Ft)168.00 (Liters) pH Time (SU) 15:23 6.71 15:28 6.35 15:34 6.44 15:39 6.48 15:44 6.51 15:50 6.52 15:52 Date:Time:15:54/16:03 Method:SamplingDepth:16.68' pH:6.52Dup6.51 (SU)Conductivity:516Dup516 (umhos/cm) Temperature:14.8Dup14.8 (o C)Turbidity:6.31Dup5.97 (NTU) Comments: SampledBy:A.McBride/R.Farley/R.Talley/JDBennett/M.Talley Initials:Date:4/12/2016 SAMPLINGDATA 4/12/2016 TeflonBailer PHYSICALCHARACTERISTICSOFSAMPLE Appearance:Clear Odor:NoOdor 517.0 14.8 0.71 160 FinishedPurging 168 523.0 14.8 0.97 96 522.0 14.8 0.61 128 454.0 14.8 0.63 32 499.0 14.8 0.77 64 Conductivity (umhos/cm)(oC)(NTU)(Liters) 498.0 14.8 15.95 1 EVACUATION/STABILIZATIONTESTDATA TemperatureCorrected Temperature Turbidity VolumePurged StaticDepth (Depth toWater)Volume WellDepth 3Volumes WaterColumnHeight VolumePurged CaponWellRiser 2"PVCCasing PURGINGDATA 4/12/2016 15:18 WeatherConditions: WELLCONDITIONDATA ProtectiveCasingPresent PhysicalDamage ProtectiveCasingLocked Concrete/GroutPadPresent REICONSULTANTS,INC.GROUNDWATERSAMPLINGLOG OldFranklinLandfill 1stSemi2016 ChrisStahl 828-349-2100 SampleSetPage 7 of 7 . FS_SW_LOG#1_REV.0(02-2016)pH/ConductivityMeter:FS-PH-1 Form1of 1 phProbe:FS-PHP-1 ConductivityProbe:FS-CP-1 TurbidityMeter:FS-TURB-1 Outlet: Date:17:03/17:05 pH:6.55 SU Conductivity:70.4 umhos/cm Flow:N/A GPD Temperature:18.4 °C Turbidity=0.58 NTU SampledBy:R.Farley/ JDBennett/M.Talley Initials:Date:4/12/2016 Outlet: Date: pH:SU Conductivity:umhos/cm Flow:GPD Temperature:°C Turbidity=NTU SampledBy:Initials:Date: Outlet: Date: pH:SU Conductivity:umhos/cm Flow:GPD Temperature:°C Turbidity=NTU SampledBy:Initials:Date: Comments: Time: SampleOdorandPhysicalAppearance: Comments: Time: SampleOdorandPhysicalAppearance: Comments: REICONSULTANTS,INC.SURFACEWATERSAMPLINGLOG ProjectName:OldFranklinLandfill ContactPerson:ChrisStahl Phone/Fax:828-349-2100 Haire 4/12/2016 Time: SampleOdorandPhysicalAppearance:Clear-NoOdor SampleSetPage 1 of 1. OldFranklinLandfill Franklin,MaconCounty,NorthCarolina PermitNumber:57-01 AppendixC: LaboratoryResults and Chain-of-CustodyRecord REIConsultants,Inc.P.OBox286,Beaver,WV25813 800-999-0105 www.reiclabs.com POBox286 Beaver,WV25813 TEL:(304)255-2500 Website:www.reiclabs.com REIConsultants,Inc. 3029-CPetersCreekRoad Roanoke,VA24019 TEL:540.777.1276 TEL:606.393.5027 Ashland,KY41101 10117thStreet TEL:540.248.0183 Verona, VA24482 1557CommerceRoad,Suite201 TEL:304.241.5861 Westover,WV26501 16CommerceDrive Monday,June06,2016 Mr.ChrisStahl MACONCOUNTYSOLIDWASTEMANAGEMENT 5WESTMAINST FRANKLIN,NC28734 TEL: FAX: (828)349-2000 RE:OLDFRANKLIN-1SA-2016 WorkOrder#:16041523 DearMr.ChrisStahl: REIConsultants, Inc.received10sample(s)on4/14/2016for theanalysespresentedin the followingreport. Sincerely, MichelleEllison ProjectManager Page1of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20165:22:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-01A Matrix:Groundwater MW-1ClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP TOTALMETALSbyICP-MS Method:SW6020B Analyst:BG Antimony 0.0003 0.0060 J mg/L0.0002 NA 4/22/2016 3:33 PM Arsenic 0.0020 0.0100 J mg/L0.0010 NA 4/22/2016 3:33 PM Barium 0.489 0.100 mg/L0.0010 NA 4/22/2016 3:33 PM Beryllium ND 0.0010 mg/L0.0002 NA 4/22/2016 3:33 PM Cadmium 0.0129 0.0010 mg/L0.0002 NA 4/22/2016 3:33 PM Chromium 0.0340 0.0100 mg/L0.0010 NA 4/22/2016 3:33 PM Cobalt 0.0153 0.0100 mg/L0.0010 NA 4/22/2016 3:33 PM Copper 0.0358 0.0100 mg/L0.0010 NA 4/22/2016 3:33 PM Lead 0.0042 0.0100 J mg/L0.0002 NA 4/22/2016 3:33 PM Nickel 0.0274 0.0500 J mg/L0.0020 NA 4/22/2016 3:33 PM Selenium 0.0029 0.0100 J mg/L0.0010 NA 4/22/2016 3:33 PM Silver 0.0028 0.0100 J mg/L0.0010 NA 4/22/2016 3:33 PM Thallium ND 0.0055 mg/L0.0002 NA 4/22/2016 3:33 PM Vanadium 0.0363 0.0250 mg/L0.0010 NA 4/22/2016 3:33 PM Zinc 0.0459 0.0100 mg/L0.0030 NA 4/22/2016 3:33 PM VOLATILEORGANICCOMPOUNDS-8260 Method:SW8260B Analyst:MD trans-1,4-Dichloro-2-butene ND 100 µg/L5.00 NA 4/15/2016 12:12 PM Acetone ND 100 µg/L4.88 NA PA/VA4/15/2016 12:12 PM Acrylonitrile ND 200 µg/L4.24 NA PA/VA4/15/2016 12:12 PM Benzene 3.81 1.00 µg/L0.129 NA PA/VA4/15/2016 12:12 PM Bromochloromethane ND 3.00 µg/L0.346 NA PA/VA4/15/2016 12:12 PM Bromodichloromethane ND 1.00 µg/L0.162 NA PA/VA4/15/2016 12:12 PM Bromoform ND 3.00 µg/L0.400 NA PA/VA4/15/2016 12:12 PM Bromomethane ND 10.0 µg/L0.497 NA PA/VA4/15/2016 12:12 PM 2-Butanone ND 100 µg/L4.68 NA PA/VA4/15/2016 12:12 PM Carbondisulfide ND 100 µg/L1.27 NA 4/15/2016 12:12 PM Carbontetrachloride ND 1.00 µg/L0.250 NA PA/VA4/15/2016 12:12 PM Chlorobenzene 22.3 10.0 µg/L1.77 NA PA/VA4/18/2016 4:14 PM Chloroethane ND 10.0 µg/L0.942 NA PA/VA4/15/2016 12:12 PM Chloroform ND 5.00 µg/L0.253 NA PA/VA4/15/2016 12:12 PM Chloromethane ND 1.00 µg/L0.327 NA PA/VA4/15/2016 12:12 PM Dibromochloromethane ND 3.00 µg/L0.419 NA PA/VA4/15/2016 12:12 PM 1,2-Dibromo-3-chloropropane ND 13.0 µg/L0.499 NA PA/VA4/15/2016 12:12 PM 1,2-Dibromoethane ND 1.00 µg/L0.341 NA PA/VA4/15/2016 12:12 PM Dibromomethane ND 10.0 µg/L0.293 NA PA/VA4/15/2016 12:12 PM Page2of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20165:22:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-01A Matrix:Groundwater MW-1ClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP 1,2-Dichlorobenzene 6.00 5.00 µg/L0.450 NA PA/VA4/15/2016 12:12 PM 1,4-Dichlorobenzene 14.2 1.00 µg/L0.287 NA PA/VA4/15/2016 12:12 PM 1,1-Dichloroethane 2.10 5.00 J µg/L0.383 NA PA/VA4/15/2016 12:12 PM 1,2-Dichloroethane 0.660 1.00 J µg/L0.428 NA PA/VA4/15/2016 12:12 PM 1,1-Dichloroethene ND 5.00 µg/L0.328 NA PA/VA4/15/2016 12:12 PM cis-1,2-Dichloroethene 15.0 5.00 µg/L0.226 NA PA/VA4/15/2016 12:12 PM trans-1,2-Dichloroethene ND 5.00 µg/L0.392 NA PA/VA4/15/2016 12:12 PM 1,2-Dichloropropane ND 1.00 µg/L0.461 NA PA/VA4/15/2016 12:12 PM cis-1,3-Dichloropropene ND 1.00 µg/L0.220 NA PA/VA4/15/2016 12:12 PM trans-1,3-Dichloropropene ND 1.00 µg/L0.216 NA PA/VA4/15/2016 12:12 PM Ethylbenzene ND 1.00 µg/L0.178 NA PA/VA4/15/2016 12:12 PM 2-Hexanone ND 50.0 µg/L4.11 NA PA/VA4/15/2016 12:12 PM Iodomethane ND 10.0 µg/L3.44 NA PA/VA4/15/2016 12:12 PM Methylenechloride ND 1.00 µg/L0.539 NA PA/VA4/15/2016 12:12 PM 4-Methyl-2-pentanone ND 100 µg/L4.40 NA PA/VA4/15/2016 12:12 PM Styrene ND 1.00 µg/L0.240 NA PA/VA4/15/2016 12:12 PM 1,1,1,2-Tetrachloroethane ND 5.00 µg/L0.360 NA PA/VA4/15/2016 12:12 PM 1,1,2,2-Tetrachloroethane ND 3.00 µg/L0.384 NA PA/VA4/15/2016 12:12 PM Tetrachloroethene 0.650 1.00 J µg/L0.196 NA PA/VA4/15/2016 12:12 PM Toluene ND 1.00 µg/L0.167 NA PA/VA4/15/2016 12:12 PM 1,1,1-Trichloroethane ND 1.00 µg/L0.354 NA PA/VA4/15/2016 12:12 PM 1,1,2-Trichloroethane ND 1.00 µg/L0.492 NA PA/VA4/15/2016 12:12 PM Trichloroethene 0.790 1.00 J µg/L0.302 NA PA/VA4/15/2016 12:12 PM Trichlorofluoromethane ND 1.00 µg/L0.299 NA PA/VA4/15/2016 12:12 PM 1,2,3-Trichloropropane ND 1.00 µg/L0.358 NA PA/VA4/15/2016 12:12 PM Vinylacetate ND 50.0 µg/L4.87 NA PA/VA4/15/2016 12:12 PM Vinylchloride ND 1.00 µg/L0.223 NA PA/VA4/15/2016 12:12 PM o-Xylene ND 1.00 µg/L0.186 NA PA/VA4/15/2016 12:12 PM m,p-Xylene ND 2.00 µg/L0.287 NA PA/VA4/15/2016 12:12 PM Surr:1,2-Dichloroethane-d4 108 75.9-132 %RecNANA 4/15/2016 12:12 PM Surr:4-Bromofluorobenzene 102 73.6-132 %RecNANA 4/15/2016 12:12 PM Surr:Dibromofluoromethane 102 80.1-127 %RecNANA 4/15/2016 12:12 PM Surr:Toluene-d8 98.8 72.4-119 %RecNANA 4/15/2016 12:12 PM TOTALSUSPENDEDSOLIDS Method:SM2540 D-1997 Analyst:SF TotalSuspendedSolids 329 10 mg/L2.0 NA PA/VA4/15/2016 1:25 PM Page3of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20165:51:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-02A Matrix:Groundwater MW-3ClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP TOTALMETALSbyICP-MS Method:SW6020B Analyst:BG Antimony 0.0002 0.0060 J mg/L0.0002 NA 4/22/2016 3:38 PM Arsenic 0.0084 0.0100 J mg/L0.0010 NA 4/22/2016 3:38 PM Barium 0.305 0.100 mg/L0.0010 NA 4/22/2016 3:38 PM Beryllium ND 0.0010 mg/L0.0002 NA 4/22/2016 3:38 PM Cadmium 0.0002 0.0010 J mg/L0.0002 NA 4/22/2016 3:38 PM Chromium 0.0068 0.0100 J mg/L0.0010 NA 4/22/2016 3:38 PM Cobalt 0.0209 0.0100 mg/L0.0010 NA 4/22/2016 3:38 PM Copper 0.0126 0.0100 mg/L0.0010 NA 4/22/2016 3:38 PM Lead 0.0035 0.0100 J mg/L0.0002 NA 4/22/2016 3:38 PM Nickel 0.0066 0.0500 J mg/L0.0020 NA 4/22/2016 3:38 PM Selenium ND 0.0100 mg/L0.0010 NA 4/22/2016 3:38 PM Silver ND 0.0100 mg/L0.0010 NA 4/22/2016 3:38 PM Thallium ND 0.0055 mg/L0.0002 NA 4/22/2016 3:38 PM Vanadium 0.0103 0.0250 J mg/L0.0010 NA 4/22/2016 3:38 PM Zinc 0.0326 0.0100 mg/L0.0030 NA 4/22/2016 3:38 PM VOLATILEORGANICCOMPOUNDS-8260 Method:SW8260B Analyst:MD trans-1,4-Dichloro-2-butene ND 100 µg/L5.00 NA 4/15/2016 12:46 PM Acetone ND 100 µg/L4.88 NA PA/VA4/15/2016 12:46 PM Acrylonitrile ND 200 µg/L4.24 NA PA/VA4/15/2016 12:46 PM Benzene ND 1.00 µg/L0.129 NA PA/VA4/15/2016 12:46 PM Bromochloromethane ND 3.00 µg/L0.346 NA PA/VA4/15/2016 12:46 PM Bromodichloromethane ND 1.00 µg/L0.162 NA PA/VA4/15/2016 12:46 PM Bromoform ND 3.00 µg/L0.400 NA PA/VA4/15/2016 12:46 PM Bromomethane ND 10.0 µg/L0.497 NA PA/VA4/15/2016 12:46 PM 2-Butanone ND 100 µg/L4.68 NA PA/VA4/15/2016 12:46 PM Carbondisulfide ND 100 µg/L1.27 NA 4/15/2016 12:46 PM Carbontetrachloride ND 1.00 µg/L0.250 NA PA/VA4/15/2016 12:46 PM Chlorobenzene 0.540 3.00 J µg/L0.177 NA PA/VA4/15/2016 12:46 PM Chloroethane ND 10.0 µg/L0.942 NA PA/VA4/15/2016 12:46 PM Chloroform ND 5.00 µg/L0.253 NA PA/VA4/15/2016 12:46 PM Chloromethane ND 1.00 µg/L0.327 NA PA/VA4/15/2016 12:46 PM Dibromochloromethane ND 3.00 µg/L0.419 NA PA/VA4/15/2016 12:46 PM 1,2-Dibromo-3-chloropropane ND 13.0 µg/L0.499 NA PA/VA4/15/2016 12:46 PM 1,2-Dibromoethane ND 1.00 µg/L0.341 NA PA/VA4/15/2016 12:46 PM Dibromomethane ND 10.0 µg/L0.293 NA PA/VA4/15/2016 12:46 PM Page4of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20165:51:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-02A Matrix:Groundwater MW-3ClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP 1,2-Dichlorobenzene ND 5.00 µg/L0.450 NA PA/VA4/15/2016 12:46 PM 1,4-Dichlorobenzene 2.23 1.00 µg/L0.287 NA PA/VA4/15/2016 12:46 PM 1,1-Dichloroethane ND 5.00 µg/L0.383 NA PA/VA4/15/2016 12:46 PM 1,2-Dichloroethane ND 1.00 µg/L0.428 NA PA/VA4/15/2016 12:46 PM 1,1-Dichloroethene ND 5.00 µg/L0.328 NA PA/VA4/15/2016 12:46 PM cis-1,2-Dichloroethene ND 5.00 µg/L0.226 NA PA/VA4/15/2016 12:46 PM trans-1,2-Dichloroethene ND 5.00 µg/L0.392 NA PA/VA4/15/2016 12:46 PM 1,2-Dichloropropane ND 1.00 µg/L0.461 NA PA/VA4/15/2016 12:46 PM cis-1,3-Dichloropropene ND 1.00 µg/L0.220 NA PA/VA4/15/2016 12:46 PM trans-1,3-Dichloropropene ND 1.00 µg/L0.216 NA PA/VA4/15/2016 12:46 PM Ethylbenzene ND 1.00 µg/L0.178 NA PA/VA4/15/2016 12:46 PM 2-Hexanone ND 50.0 µg/L4.11 NA PA/VA4/15/2016 12:46 PM Iodomethane ND 10.0 µg/L3.44 NA PA/VA4/15/2016 12:46 PM Methylenechloride ND 1.00 µg/L0.539 NA PA/VA4/15/2016 12:46 PM 4-Methyl-2-pentanone ND 100 µg/L4.40 NA PA/VA4/15/2016 12:46 PM Styrene ND 1.00 µg/L0.240 NA PA/VA4/15/2016 12:46 PM 1,1,1,2-Tetrachloroethane ND 5.00 µg/L0.360 NA PA/VA4/15/2016 12:46 PM 1,1,2,2-Tetrachloroethane ND 3.00 µg/L0.384 NA PA/VA4/15/2016 12:46 PM Tetrachloroethene ND 1.00 µg/L0.196 NA PA/VA4/15/2016 12:46 PM Toluene ND 1.00 µg/L0.167 NA PA/VA4/15/2016 12:46 PM 1,1,1-Trichloroethane ND 1.00 µg/L0.354 NA PA/VA4/15/2016 12:46 PM 1,1,2-Trichloroethane ND 1.00 µg/L0.492 NA PA/VA4/15/2016 12:46 PM Trichloroethene ND 1.00 µg/L0.302 NA PA/VA4/15/2016 12:46 PM Trichlorofluoromethane ND 1.00 µg/L0.299 NA PA/VA4/15/2016 12:46 PM 1,2,3-Trichloropropane ND 1.00 µg/L0.358 NA PA/VA4/15/2016 12:46 PM Vinylacetate ND 50.0 µg/L4.87 NA PA/VA4/15/2016 12:46 PM Vinylchloride ND 1.00 µg/L0.223 NA PA/VA4/15/2016 12:46 PM o-Xylene ND 1.00 µg/L0.186 NA PA/VA4/15/2016 12:46 PM m,p-Xylene ND 2.00 µg/L0.287 NA PA/VA4/15/2016 12:46 PM Surr:1,2-Dichloroethane-d4 105 75.9-132 %RecNANA 4/15/2016 12:46 PM Surr:4-Bromofluorobenzene 108 73.6-132 %RecNANA 4/15/2016 12:46 PM Surr:Dibromofluoromethane 99.2 80.1-127 %RecNANA 4/15/2016 12:46 PM Surr:Toluene-d8 97.9 72.4-119 %RecNANA 4/15/2016 12:46 PM TOTALSUSPENDEDSOLIDS Method:SM2540 D-1997 Analyst:SF TotalSuspendedSolids 172 10 mg/L2.0 NA PA/VA4/15/2016 1:25 PM Page5of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20164:44:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-03A Matrix:Groundwater MW-6ClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP TOTALMETALSbyICP-MS Method:SW6020B Analyst:BG Antimony ND 0.0060 mg/L0.0002 NA 4/22/2016 3:44 PM Arsenic 0.0014 0.0100 J mg/L0.0010 NA 4/22/2016 3:44 PM Barium 0.543 0.100 mg/L0.0010 NA 4/22/2016 3:44 PM Beryllium 0.0003 0.0010 J mg/L0.0002 NA 4/22/2016 3:44 PM Cadmium 0.0002 0.0010 J mg/L0.0002 NA 4/22/2016 3:44 PM Chromium 0.0281 0.0100 mg/L0.0010 NA 4/22/2016 3:44 PM Cobalt 0.0121 0.0100 mg/L0.0010 NA 4/22/2016 3:44 PM Copper 0.0750 0.0100 mg/L0.0010 NA 4/22/2016 3:44 PM Lead 0.0117 0.0100 mg/L0.0002 NA 4/22/2016 3:44 PM Nickel 0.0131 0.0500 J mg/L0.0020 NA 4/22/2016 3:44 PM Selenium 0.0011 0.0100 J mg/L0.0010 NA 4/22/2016 3:44 PM Silver ND 0.0100 mg/L0.0010 NA 4/22/2016 3:44 PM Thallium 0.0005 0.0055 J mg/L0.0002 NA 4/22/2016 3:44 PM Vanadium 0.0413 0.0250 mg/L0.0010 NA 4/22/2016 3:44 PM Zinc 0.124 0.0100 mg/L0.0030 NA 4/22/2016 3:44 PM VOLATILEORGANICCOMPOUNDS-8260 Method:SW8260B Analyst:MD trans-1,4-Dichloro-2-butene ND 100 µg/L5.00 NA 4/15/2016 1:20 PM Acetone ND 100 µg/L4.88 NA PA/VA4/15/2016 1:20 PM Acrylonitrile ND 200 µg/L4.24 NA PA/VA4/15/2016 1:20 PM Benzene ND 1.00 µg/L0.129 NA PA/VA4/15/2016 1:20 PM Bromochloromethane ND 3.00 µg/L0.346 NA PA/VA4/15/2016 1:20 PM Bromodichloromethane ND 1.00 µg/L0.162 NA PA/VA4/15/2016 1:20 PM Bromoform ND 3.00 µg/L0.400 NA PA/VA4/15/2016 1:20 PM Bromomethane ND 10.0 µg/L0.497 NA PA/VA4/15/2016 1:20 PM 2-Butanone ND 100 µg/L4.68 NA PA/VA4/15/2016 1:20 PM Carbondisulfide ND 100 µg/L1.27 NA 4/15/2016 1:20 PM Carbontetrachloride ND 1.00 µg/L0.250 NA PA/VA4/15/2016 1:20 PM Chlorobenzene ND 3.00 µg/L0.177 NA PA/VA4/15/2016 1:20 PM Chloroethane ND 10.0 µg/L0.942 NA PA/VA4/15/2016 1:20 PM Chloroform ND 5.00 µg/L0.253 NA PA/VA4/15/2016 1:20 PM Chloromethane ND 1.00 µg/L0.327 NA PA/VA4/15/2016 1:20 PM Dibromochloromethane ND 3.00 µg/L0.419 NA PA/VA4/15/2016 1:20 PM 1,2-Dibromo-3-chloropropane ND 13.0 µg/L0.499 NA PA/VA4/15/2016 1:20 PM 1,2-Dibromoethane ND 1.00 µg/L0.341 NA PA/VA4/15/2016 1:20 PM Dibromomethane ND 10.0 µg/L0.293 NA PA/VA4/15/2016 1:20 PM Page6of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20164:44:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-03A Matrix:Groundwater MW-6ClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP 1,2-Dichlorobenzene ND 5.00 µg/L0.450 NA PA/VA4/15/2016 1:20 PM 1,4-Dichlorobenzene 2.55 1.00 µg/L0.287 NA PA/VA4/15/2016 1:20 PM 1,1-Dichloroethane ND 5.00 µg/L0.383 NA PA/VA4/15/2016 1:20 PM 1,2-Dichloroethane ND 1.00 µg/L0.428 NA PA/VA4/15/2016 1:20 PM 1,1-Dichloroethene ND 5.00 µg/L0.328 NA PA/VA4/15/2016 1:20 PM cis-1,2-Dichloroethene 0.750 5.00 J µg/L0.226 NA PA/VA4/15/2016 1:20 PM trans-1,2-Dichloroethene ND 5.00 µg/L0.392 NA PA/VA4/15/2016 1:20 PM 1,2-Dichloropropane ND 1.00 µg/L0.461 NA PA/VA4/15/2016 1:20 PM cis-1,3-Dichloropropene ND 1.00 µg/L0.220 NA PA/VA4/15/2016 1:20 PM trans-1,3-Dichloropropene ND 1.00 µg/L0.216 NA PA/VA4/15/2016 1:20 PM Ethylbenzene ND 1.00 µg/L0.178 NA PA/VA4/15/2016 1:20 PM 2-Hexanone ND 50.0 µg/L4.11 NA PA/VA4/15/2016 1:20 PM Iodomethane ND 10.0 µg/L3.44 NA PA/VA4/15/2016 1:20 PM Methylenechloride ND 1.00 µg/L0.539 NA PA/VA4/15/2016 1:20 PM 4-Methyl-2-pentanone ND 100 µg/L4.40 NA PA/VA4/15/2016 1:20 PM Styrene ND 1.00 µg/L0.240 NA PA/VA4/15/2016 1:20 PM 1,1,1,2-Tetrachloroethane ND 5.00 µg/L0.360 NA PA/VA4/15/2016 1:20 PM 1,1,2,2-Tetrachloroethane ND 3.00 µg/L0.384 NA PA/VA4/15/2016 1:20 PM Tetrachloroethene ND 1.00 µg/L0.196 NA PA/VA4/15/2016 1:20 PM Toluene ND 1.00 µg/L0.167 NA PA/VA4/15/2016 1:20 PM 1,1,1-Trichloroethane ND 1.00 µg/L0.354 NA PA/VA4/15/2016 1:20 PM 1,1,2-Trichloroethane ND 1.00 µg/L0.492 NA PA/VA4/15/2016 1:20 PM Trichloroethene ND 1.00 µg/L0.302 NA PA/VA4/15/2016 1:20 PM Trichlorofluoromethane ND 1.00 µg/L0.299 NA PA/VA4/15/2016 1:20 PM 1,2,3-Trichloropropane ND 1.00 µg/L0.358 NA PA/VA4/15/2016 1:20 PM Vinylacetate ND 50.0 µg/L4.87 NA PA/VA4/15/2016 1:20 PM Vinylchloride ND 1.00 µg/L0.223 NA PA/VA4/15/2016 1:20 PM o-Xylene ND 1.00 µg/L0.186 NA PA/VA4/15/2016 1:20 PM m,p-Xylene ND 2.00 µg/L0.287 NA PA/VA4/15/2016 1:20 PM Surr:1,2-Dichloroethane-d4 109 75.9-132 %RecNANA 4/15/2016 1:20 PM Surr:4-Bromofluorobenzene 106 73.6-132 %RecNANA 4/15/2016 1:20 PM Surr:Dibromofluoromethane 95.4 80.1-127 %RecNANA 4/15/2016 1:20 PM Surr:Toluene-d8 98.3 72.4-119 %RecNANA 4/15/2016 1:20 PM TOTALSUSPENDEDSOLIDS Method:SM2540 D-1997 Analyst:SF TotalSuspendedSolids 918 20.0 mg/L4.0 NA PA/VA4/15/2016 1:25 PM Page7of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20164:50:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-04A Matrix:Groundwater MW-6CRClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP TOTALMETALSbyICP-MS Method:SW6020B Analyst:BG Antimony ND 0.0060 mg/L0.0002 NA 4/22/2016 3:50 PM Arsenic 0.0072 0.0100 J mg/L0.0010 NA 4/22/2016 3:50 PM Barium 0.307 0.100 mg/L0.0010 NA 4/22/2016 3:50 PM Beryllium ND 0.0010 mg/L0.0002 NA 4/22/2016 3:50 PM Cadmium ND 0.0010 mg/L0.0002 NA 4/22/2016 3:50 PM Chromium ND 0.0100 mg/L0.0010 NA 4/22/2016 3:50 PM Cobalt 0.0323 0.0100 mg/L0.0010 NA 4/22/2016 3:50 PM Copper ND 0.0100 mg/L0.0010 NA 4/22/2016 3:50 PM Lead ND 0.0100 mg/L0.0002 NA 4/22/2016 3:50 PM Nickel 0.0125 0.0500 J mg/L0.0020 NA 4/22/2016 3:50 PM Selenium ND 0.0100 mg/L0.0010 NA 4/22/2016 3:50 PM Silver ND 0.0100 mg/L0.0010 NA 4/22/2016 3:50 PM Thallium ND 0.0055 mg/L0.0002 NA 4/22/2016 3:50 PM Vanadium ND 0.0250 mg/L0.0010 NA 4/22/2016 3:50 PM Zinc 0.0065 0.0100 J mg/L0.0030 NA 4/22/2016 3:50 PM VOLATILEORGANICCOMPOUNDS-8260 Method:SW8260B Analyst:MD trans-1,4-Dichloro-2-butene ND 100 µg/L5.00 NA 4/15/2016 1:54 PM Acetone ND 100 µg/L4.88 NA PA/VA4/15/2016 1:54 PM Acrylonitrile ND 200 µg/L4.24 NA PA/VA4/15/2016 1:54 PM Benzene 1.51 1.00 µg/L0.129 NA PA/VA4/15/2016 1:54 PM Bromochloromethane ND 3.00 µg/L0.346 NA PA/VA4/15/2016 1:54 PM Bromodichloromethane ND 1.00 µg/L0.162 NA PA/VA4/15/2016 1:54 PM Bromoform ND 3.00 µg/L0.400 NA PA/VA4/15/2016 1:54 PM Bromomethane ND 10.0 µg/L0.497 NA PA/VA4/15/2016 1:54 PM 2-Butanone ND 100 µg/L4.68 NA PA/VA4/15/2016 1:54 PM Carbondisulfide 3.90 100 J µg/L1.27 NA 4/15/2016 1:54 PM Carbontetrachloride ND 1.00 µg/L0.250 NA PA/VA4/15/2016 1:54 PM Chlorobenzene 3.73 3.00 µg/L0.177 NA PA/VA4/15/2016 1:54 PM Chloroethane ND 10.0 µg/L0.942 NA PA/VA4/15/2016 1:54 PM Chloroform ND 5.00 µg/L0.253 NA PA/VA4/15/2016 1:54 PM Chloromethane ND 1.00 µg/L0.327 NA PA/VA4/15/2016 1:54 PM Dibromochloromethane ND 3.00 µg/L0.419 NA PA/VA4/15/2016 1:54 PM 1,2-Dibromo-3-chloropropane ND 13.0 µg/L0.499 NA PA/VA4/15/2016 1:54 PM 1,2-Dibromoethane ND 1.00 µg/L0.341 NA PA/VA4/15/2016 1:54 PM Dibromomethane ND 10.0 µg/L0.293 NA PA/VA4/15/2016 1:54 PM Page8of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20164:50:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-04A Matrix:Groundwater MW-6CRClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP 1,2-Dichlorobenzene 0.910 5.00 J µg/L0.450 NA PA/VA4/15/2016 1:54 PM 1,4-Dichlorobenzene 14.4 1.00 µg/L0.287 NA PA/VA4/15/2016 1:54 PM 1,1-Dichloroethane 1.03 5.00 J µg/L0.383 NA PA/VA4/15/2016 1:54 PM 1,2-Dichloroethane ND 1.00 µg/L0.428 NA PA/VA4/15/2016 1:54 PM 1,1-Dichloroethene ND 5.00 µg/L0.328 NA PA/VA4/15/2016 1:54 PM cis-1,2-Dichloroethene 14.0 5.00 µg/L0.226 NA PA/VA4/15/2016 1:54 PM trans-1,2-Dichloroethene ND 5.00 µg/L0.392 NA PA/VA4/15/2016 1:54 PM 1,2-Dichloropropane ND 1.00 µg/L0.461 NA PA/VA4/15/2016 1:54 PM cis-1,3-Dichloropropene ND 1.00 µg/L0.220 NA PA/VA4/15/2016 1:54 PM trans-1,3-Dichloropropene ND 1.00 µg/L0.216 NA PA/VA4/15/2016 1:54 PM Ethylbenzene ND 1.00 µg/L0.178 NA PA/VA4/15/2016 1:54 PM 2-Hexanone ND 50.0 µg/L4.11 NA PA/VA4/15/2016 1:54 PM Iodomethane ND 10.0 µg/L3.44 NA PA/VA4/15/2016 1:54 PM Methylenechloride ND 1.00 µg/L0.539 NA PA/VA4/15/2016 1:54 PM 4-Methyl-2-pentanone ND 100 µg/L4.40 NA PA/VA4/15/2016 1:54 PM Styrene ND 1.00 µg/L0.240 NA PA/VA4/15/2016 1:54 PM 1,1,1,2-Tetrachloroethane ND 5.00 µg/L0.360 NA PA/VA4/15/2016 1:54 PM 1,1,2,2-Tetrachloroethane ND 3.00 µg/L0.384 NA PA/VA4/15/2016 1:54 PM Tetrachloroethene ND 1.00 µg/L0.196 NA PA/VA4/15/2016 1:54 PM Toluene ND 1.00 µg/L0.167 NA PA/VA4/15/2016 1:54 PM 1,1,1-Trichloroethane ND 1.00 µg/L0.354 NA PA/VA4/15/2016 1:54 PM 1,1,2-Trichloroethane ND 1.00 µg/L0.492 NA PA/VA4/15/2016 1:54 PM Trichloroethene 0.780 1.00 J µg/L0.302 NA PA/VA4/15/2016 1:54 PM Trichlorofluoromethane ND 1.00 µg/L0.299 NA PA/VA4/15/2016 1:54 PM 1,2,3-Trichloropropane ND 1.00 µg/L0.358 NA PA/VA4/15/2016 1:54 PM Vinylacetate ND 50.0 µg/L4.87 NA PA/VA4/15/2016 1:54 PM Vinylchloride ND 1.00 µg/L0.223 NA PA/VA4/15/2016 1:54 PM o-Xylene ND 1.00 µg/L0.186 NA PA/VA4/15/2016 1:54 PM m,p-Xylene ND 2.00 µg/L0.287 NA PA/VA4/15/2016 1:54 PM Surr:1,2-Dichloroethane-d4 107 75.9-132 %RecNANA 4/15/2016 1:54 PM Surr:4-Bromofluorobenzene 103 73.6-132 %RecNANA 4/15/2016 1:54 PM Surr:Dibromofluoromethane 101 80.1-127 %RecNANA 4/15/2016 1:54 PM Surr:Toluene-d8 97.3 72.4-119 %RecNANA 4/15/2016 1:54 PM TOTALSUSPENDEDSOLIDS Method:SM2540 D-1997 Analyst:SF TotalSuspendedSolids 10.5 5.0 mg/L1.0 NA PA/VA4/15/2016 1:25 PM Page9of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20164:21:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-05A Matrix:Groundwater MW-7ClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP TOTALMETALSbyICP-MS Method:SW6020B Analyst:BG Antimony ND 0.0060 mg/L0.0002 NA 4/22/2016 4:06 PM Arsenic 0.0010 0.0100 J mg/L0.0010 NA 4/22/2016 4:06 PM Barium 0.649 0.100 mg/L0.0010 NA 4/22/2016 4:06 PM Beryllium 0.0007 0.0010 J mg/L0.0002 NA 4/22/2016 4:06 PM Cadmium 0.0004 0.0010 J mg/L0.0002 NA 4/22/2016 4:06 PM Chromium 0.0252 0.0100 mg/L0.0010 NA 4/22/2016 4:06 PM Cobalt 0.0136 0.0100 mg/L0.0010 NA 4/22/2016 4:06 PM Copper 0.0508 0.0100 mg/L0.0010 NA 4/22/2016 4:06 PM Lead 0.0045 0.0100 J mg/L0.0002 NA 4/22/2016 4:06 PM Nickel 0.0150 0.0500 J mg/L0.0020 NA 4/22/2016 4:06 PM Selenium 0.0016 0.0100 J mg/L0.0010 NA 4/22/2016 4:06 PM Silver ND 0.0100 mg/L0.0010 NA 4/22/2016 4:06 PM Thallium 0.0003 0.0055 J mg/L0.0002 NA 4/22/2016 4:06 PM Vanadium 0.0415 0.0250 mg/L0.0010 NA 4/22/2016 4:06 PM Zinc 0.0643 0.0100 mg/L0.0030 NA 4/22/2016 4:06 PM VOLATILEORGANICCOMPOUNDS-8260 Method:SW8260B Analyst:MD trans-1,4-Dichloro-2-butene ND 100 µg/L5.00 NA 4/15/2016 2:28 PM Acetone ND 100 µg/L4.88 NA PA/VA4/15/2016 2:28 PM Acrylonitrile ND 200 µg/L4.24 NA PA/VA4/15/2016 2:28 PM Benzene ND 1.00 µg/L0.129 NA PA/VA4/15/2016 2:28 PM Bromochloromethane ND 3.00 µg/L0.346 NA PA/VA4/15/2016 2:28 PM Bromodichloromethane ND 1.00 µg/L0.162 NA PA/VA4/15/2016 2:28 PM Bromoform ND 3.00 µg/L0.400 NA PA/VA4/15/2016 2:28 PM Bromomethane ND 10.0 µg/L0.497 NA PA/VA4/15/2016 2:28 PM 2-Butanone ND 100 µg/L4.68 NA PA/VA4/15/2016 2:28 PM Carbondisulfide ND 100 µg/L1.27 NA 4/15/2016 2:28 PM Carbontetrachloride ND 1.00 µg/L0.250 NA PA/VA4/15/2016 2:28 PM Chlorobenzene ND 3.00 µg/L0.177 NA PA/VA4/15/2016 2:28 PM Chloroethane ND 10.0 µg/L0.942 NA PA/VA4/15/2016 2:28 PM Chloroform ND 5.00 µg/L0.253 NA PA/VA4/15/2016 2:28 PM Chloromethane ND 1.00 µg/L0.327 NA PA/VA4/15/2016 2:28 PM Dibromochloromethane ND 3.00 µg/L0.419 NA PA/VA4/15/2016 2:28 PM 1,2-Dibromo-3-chloropropane ND 13.0 µg/L0.499 NA PA/VA4/15/2016 2:28 PM 1,2-Dibromoethane ND 1.00 µg/L0.341 NA PA/VA4/15/2016 2:28 PM Dibromomethane ND 10.0 µg/L0.293 NA PA/VA4/15/2016 2:28 PM Page10of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20164:21:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-05A Matrix:Groundwater MW-7ClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP 1,2-Dichlorobenzene ND 5.00 µg/L0.450 NA PA/VA4/15/2016 2:28 PM 1,4-Dichlorobenzene ND 1.00 µg/L0.287 NA PA/VA4/15/2016 2:28 PM 1,1-Dichloroethane ND 5.00 µg/L0.383 NA PA/VA4/15/2016 2:28 PM 1,2-Dichloroethane ND 1.00 µg/L0.428 NA PA/VA4/15/2016 2:28 PM 1,1-Dichloroethene ND 5.00 µg/L0.328 NA PA/VA4/15/2016 2:28 PM cis-1,2-Dichloroethene ND 5.00 µg/L0.226 NA PA/VA4/15/2016 2:28 PM trans-1,2-Dichloroethene ND 5.00 µg/L0.392 NA PA/VA4/15/2016 2:28 PM 1,2-Dichloropropane ND 1.00 µg/L0.461 NA PA/VA4/15/2016 2:28 PM cis-1,3-Dichloropropene ND 1.00 µg/L0.220 NA PA/VA4/15/2016 2:28 PM trans-1,3-Dichloropropene ND 1.00 µg/L0.216 NA PA/VA4/15/2016 2:28 PM Ethylbenzene ND 1.00 µg/L0.178 NA PA/VA4/15/2016 2:28 PM 2-Hexanone ND 50.0 µg/L4.11 NA PA/VA4/15/2016 2:28 PM Iodomethane ND 10.0 µg/L3.44 NA PA/VA4/15/2016 2:28 PM Methylenechloride ND 1.00 µg/L0.539 NA PA/VA4/15/2016 2:28 PM 4-Methyl-2-pentanone ND 100 µg/L4.40 NA PA/VA4/15/2016 2:28 PM Styrene ND 1.00 µg/L0.240 NA PA/VA4/15/2016 2:28 PM 1,1,1,2-Tetrachloroethane ND 5.00 µg/L0.360 NA PA/VA4/15/2016 2:28 PM 1,1,2,2-Tetrachloroethane ND 3.00 µg/L0.384 NA PA/VA4/15/2016 2:28 PM Tetrachloroethene ND 1.00 µg/L0.196 NA PA/VA4/15/2016 2:28 PM Toluene ND 1.00 µg/L0.167 NA PA/VA4/15/2016 2:28 PM 1,1,1-Trichloroethane ND 1.00 µg/L0.354 NA PA/VA4/15/2016 2:28 PM 1,1,2-Trichloroethane ND 1.00 µg/L0.492 NA PA/VA4/15/2016 2:28 PM Trichloroethene ND 1.00 µg/L0.302 NA PA/VA4/15/2016 2:28 PM Trichlorofluoromethane ND 1.00 µg/L0.299 NA PA/VA4/15/2016 2:28 PM 1,2,3-Trichloropropane ND 1.00 µg/L0.358 NA PA/VA4/15/2016 2:28 PM Vinylacetate ND 50.0 µg/L4.87 NA PA/VA4/15/2016 2:28 PM Vinylchloride ND 1.00 µg/L0.223 NA PA/VA4/15/2016 2:28 PM o-Xylene ND 1.00 µg/L0.186 NA PA/VA4/15/2016 2:28 PM m,p-Xylene ND 2.00 µg/L0.287 NA PA/VA4/15/2016 2:28 PM Surr:1,2-Dichloroethane-d4 109 75.9-132 %RecNANA 4/15/2016 2:28 PM Surr:4-Bromofluorobenzene 102 73.6-132 %RecNANA 4/15/2016 2:28 PM Surr:Dibromofluoromethane 96.0 80.1-127 %RecNANA 4/15/2016 2:28 PM Surr:Toluene-d8 96.5 72.4-119 %RecNANA 4/15/2016 2:28 PM TOTALSUSPENDEDSOLIDS Method:SM2540 D-1997 Analyst:SF TotalSuspendedSolids 962 20.0 mg/L4.0 NA PA/VA4/15/2016 1:25 PM Page11of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20164:45:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-06A Matrix:Groundwater MW-7 CClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP TOTALMETALSbyICP-MS Method:SW6020B Analyst:BG Antimony ND 0.0060 mg/L0.0002 NA 4/22/2016 4:12 PM Arsenic ND 0.0100 mg/L0.0010 NA 4/22/2016 4:12 PM Barium 0.446 0.100 mg/L0.0010 NA 4/22/2016 4:12 PM Beryllium ND 0.0010 mg/L0.0002 NA 4/22/2016 4:12 PM Cadmium 0.0003 0.0010 J mg/L0.0002 NA 4/22/2016 4:12 PM Chromium ND 0.0100 mg/L0.0010 NA 4/22/2016 4:12 PM Cobalt 0.0134 0.0100 mg/L0.0010 NA 4/22/2016 4:12 PM Copper 0.0011 0.0100 J mg/L0.0010 NA 4/22/2016 4:12 PM Lead ND 0.0100 mg/L0.0002 NA 4/22/2016 4:12 PM Nickel 0.0046 0.0500 J mg/L0.0020 NA 4/22/2016 4:12 PM Selenium ND 0.0100 mg/L0.0020 NA 4/22/2016 4:12 PM Silver ND 0.0100 mg/L0.0010 NA 4/22/2016 4:12 PM Thallium ND 0.0055 mg/L0.0002 NA 4/22/2016 4:12 PM Vanadium ND 0.0250 mg/L0.0010 NA 4/22/2016 4:12 PM Zinc 0.0067 0.0100 J mg/L0.0030 NA 4/22/2016 4:12 PM Notes: ThereportinglimitforSeiselevatedduetomatrixinterference. VOLATILEORGANICCOMPOUNDS-8260 Method:SW8260B Analyst:MD trans-1,4-Dichloro-2-butene ND 100 µg/L5.00 NA 4/15/2016 3:02 PM Acetone ND 100 µg/L4.88 NA PA/VA4/15/2016 3:02 PM Acrylonitrile ND 200 µg/L4.24 NA PA/VA4/15/2016 3:02 PM Benzene 0.810 1.00 J µg/L0.129 NA PA/VA4/15/2016 3:02 PM Bromochloromethane ND 3.00 µg/L0.346 NA PA/VA4/15/2016 3:02 PM Bromodichloromethane ND 1.00 µg/L0.162 NA PA/VA4/15/2016 3:02 PM Bromoform ND 3.00 µg/L0.400 NA PA/VA4/15/2016 3:02 PM Bromomethane ND 10.0 µg/L0.497 NA PA/VA4/15/2016 3:02 PM 2-Butanone ND 100 µg/L4.68 NA PA/VA4/15/2016 3:02 PM Carbondisulfide ND 100 µg/L1.27 NA 4/15/2016 3:02 PM Carbontetrachloride ND 1.00 µg/L0.250 NA PA/VA4/15/2016 3:02 PM Chlorobenzene 7.92 3.00 µg/L0.177 NA PA/VA4/15/2016 3:02 PM Chloroethane ND 10.0 µg/L0.942 NA PA/VA4/15/2016 3:02 PM Chloroform ND 5.00 µg/L0.253 NA PA/VA4/15/2016 3:02 PM Chloromethane ND 1.00 µg/L0.327 NA PA/VA4/15/2016 3:02 PM Dibromochloromethane ND 3.00 µg/L0.419 NA PA/VA4/15/2016 3:02 PM 1,2-Dibromo-3-chloropropane ND 13.0 µg/L0.499 NA PA/VA4/15/2016 3:02 PM 1,2-Dibromoethane ND 1.00 µg/L0.341 NA PA/VA4/15/2016 3:02 PM Page12of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20164:45:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-06A Matrix:Groundwater MW-7 CClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP Dibromomethane ND 10.0 µg/L0.293 NA PA/VA4/15/2016 3:02 PM 1,2-Dichlorobenzene 1.55 5.00 J µg/L0.450 NA PA/VA4/15/2016 3:02 PM 1,4-Dichlorobenzene 5.58 1.00 µg/L0.287 NA PA/VA4/15/2016 3:02 PM 1,1-Dichloroethane ND 5.00 µg/L0.383 NA PA/VA4/15/2016 3:02 PM 1,2-Dichloroethane ND 1.00 µg/L0.428 NA PA/VA4/15/2016 3:02 PM 1,1-Dichloroethene ND 5.00 µg/L0.328 NA PA/VA4/15/2016 3:02 PM cis-1,2-Dichloroethene 1.47 5.00 J µg/L0.226 NA PA/VA4/15/2016 3:02 PM trans-1,2-Dichloroethene ND 5.00 µg/L0.392 NA PA/VA4/15/2016 3:02 PM 1,2-Dichloropropane ND 1.00 µg/L0.461 NA PA/VA4/15/2016 3:02 PM cis-1,3-Dichloropropene ND 1.00 µg/L0.220 NA PA/VA4/15/2016 3:02 PM trans-1,3-Dichloropropene ND 1.00 µg/L0.216 NA PA/VA4/15/2016 3:02 PM Ethylbenzene ND 1.00 µg/L0.178 NA PA/VA4/15/2016 3:02 PM 2-Hexanone ND 50.0 µg/L4.11 NA PA/VA4/15/2016 3:02 PM Iodomethane ND 10.0 µg/L3.44 NA PA/VA4/15/2016 3:02 PM Methylenechloride ND 1.00 µg/L0.539 NA PA/VA4/15/2016 3:02 PM 4-Methyl-2-pentanone ND 100 µg/L4.40 NA PA/VA4/15/2016 3:02 PM Styrene ND 1.00 µg/L0.240 NA PA/VA4/15/2016 3:02 PM 1,1,1,2-Tetrachloroethane ND 5.00 µg/L0.360 NA PA/VA4/15/2016 3:02 PM 1,1,2,2-Tetrachloroethane ND 3.00 µg/L0.384 NA PA/VA4/15/2016 3:02 PM Tetrachloroethene ND 1.00 µg/L0.196 NA PA/VA4/15/2016 3:02 PM Toluene ND 1.00 µg/L0.167 NA PA/VA4/15/2016 3:02 PM 1,1,1-Trichloroethane ND 1.00 µg/L0.354 NA PA/VA4/15/2016 3:02 PM 1,1,2-Trichloroethane ND 1.00 µg/L0.492 NA PA/VA4/15/2016 3:02 PM Trichloroethene ND 1.00 µg/L0.302 NA PA/VA4/15/2016 3:02 PM Trichlorofluoromethane ND 1.00 µg/L0.299 NA PA/VA4/15/2016 3:02 PM 1,2,3-Trichloropropane ND 1.00 µg/L0.358 NA PA/VA4/15/2016 3:02 PM Vinylacetate ND 50.0 µg/L4.87 NA PA/VA4/15/2016 3:02 PM Vinylchloride ND 1.00 µg/L0.223 NA PA/VA4/15/2016 3:02 PM o-Xylene ND 1.00 µg/L0.186 NA PA/VA4/15/2016 3:02 PM m,p-Xylene ND 2.00 µg/L0.287 NA PA/VA4/15/2016 3:02 PM Surr:1,2-Dichloroethane-d4 113 75.9-132 %RecNANA 4/15/2016 3:02 PM Surr:4-Bromofluorobenzene 104 73.6-132 %RecNANA 4/15/2016 3:02 PM Surr:Dibromofluoromethane 101 80.1-127 %RecNANA 4/15/2016 3:02 PM Surr:Toluene-d8 98.6 72.4-119 %RecNANA 4/15/2016 3:02 PM TOTALSUSPENDEDSOLIDS Method:SM2540D-1997 Analyst:SF TotalSuspendedSolids 2.5 5.0 J mg/L1.0 NA PA/VA4/15/2016 1:25 PM Page13of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20163:54:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-07A Matrix:Groundwater MW-10ClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP TOTALMETALSbyICP-MS Method:SW6020B Analyst:BG Antimony ND 0.0060 mg/L0.0002 NA 4/22/2016 4:18 PM Arsenic ND 0.0100 mg/L0.0010 NA 4/22/2016 4:18 PM Barium 0.0952 0.100 J mg/L0.0010 NA 4/22/2016 4:18 PM Beryllium ND 0.0010 mg/L0.0002 NA 4/22/2016 4:18 PM Cadmium ND 0.0010 mg/L0.0002 NA 4/22/2016 4:18 PM Chromium ND 0.0100 mg/L0.0010 NA 4/22/2016 4:18 PM Cobalt ND 0.0100 mg/L0.0010 NA 4/22/2016 4:18 PM Copper ND 0.0100 mg/L0.0010 NA 4/22/2016 4:18 PM Lead ND 0.0100 mg/L0.0002 NA 4/22/2016 4:18 PM Nickel 0.0033 0.0500 J mg/L0.0020 NA 4/22/2016 4:18 PM Selenium ND 0.0100 mg/L0.0010 NA 4/22/2016 4:18 PM Silver ND 0.0100 mg/L0.0010 NA 4/22/2016 4:18 PM Thallium ND 0.0055 mg/L0.0002 NA 4/22/2016 4:18 PM Vanadium ND 0.0250 mg/L0.0010 NA 4/22/2016 4:18 PM Zinc 0.0058 0.0100 J mg/L0.0030 NA 4/22/2016 4:18 PM VOLATILEORGANICCOMPOUNDS-8260 Method:SW8260B Analyst:MD trans-1,4-Dichloro-2-butene ND 100 µg/L5.00 NA 4/15/2016 3:36 PM Acetone ND 100 µg/L4.88 NA PA/VA4/15/2016 3:36 PM Acrylonitrile ND 200 µg/L4.24 NA PA/VA4/15/2016 3:36 PM Benzene 0.640 1.00 J µg/L0.129 NA PA/VA4/15/2016 3:36 PM Bromochloromethane ND 3.00 µg/L0.346 NA PA/VA4/15/2016 3:36 PM Bromodichloromethane ND 1.00 µg/L0.162 NA PA/VA4/15/2016 3:36 PM Bromoform ND 3.00 µg/L0.400 NA PA/VA4/15/2016 3:36 PM Bromomethane ND 10.0 µg/L0.497 NA PA/VA4/15/2016 3:36 PM 2-Butanone ND 100 µg/L4.68 NA PA/VA4/15/2016 3:36 PM Carbondisulfide ND 100 µg/L1.27 NA 4/15/2016 3:36 PM Carbontetrachloride ND 1.00 µg/L0.250 NA PA/VA4/15/2016 3:36 PM Chlorobenzene 4.03 3.00 µg/L0.177 NA PA/VA4/15/2016 3:36 PM Chloroethane ND 10.0 µg/L0.942 NA PA/VA4/15/2016 3:36 PM Chloroform ND 5.00 µg/L0.253 NA PA/VA4/15/2016 3:36 PM Chloromethane ND 1.00 µg/L0.327 NA PA/VA4/15/2016 3:36 PM Dibromochloromethane ND 3.00 µg/L0.419 NA PA/VA4/15/2016 3:36 PM 1,2-Dibromo-3-chloropropane ND 13.0 µg/L0.499 NA PA/VA4/15/2016 3:36 PM 1,2-Dibromoethane ND 1.00 µg/L0.341 NA PA/VA4/15/2016 3:36 PM Dibromomethane ND 10.0 µg/L0.293 NA PA/VA4/15/2016 3:36 PM Page14of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20163:54:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-07A Matrix:Groundwater MW-10ClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP 1,2-Dichlorobenzene 0.810 5.00 J µg/L0.450 NA PA/VA4/15/2016 3:36 PM 1,4-Dichlorobenzene 3.24 1.00 µg/L0.287 NA PA/VA4/15/2016 3:36 PM 1,1-Dichloroethane ND 5.00 µg/L0.383 NA PA/VA4/15/2016 3:36 PM 1,2-Dichloroethane ND 1.00 µg/L0.428 NA PA/VA4/15/2016 3:36 PM 1,1-Dichloroethene ND 5.00 µg/L0.328 NA PA/VA4/15/2016 3:36 PM cis-1,2-Dichloroethene 1.84 5.00 J µg/L0.226 NA PA/VA4/15/2016 3:36 PM trans-1,2-Dichloroethene ND 5.00 µg/L0.392 NA PA/VA4/15/2016 3:36 PM 1,2-Dichloropropane ND 1.00 µg/L0.461 NA PA/VA4/15/2016 3:36 PM cis-1,3-Dichloropropene ND 1.00 µg/L0.220 NA PA/VA4/15/2016 3:36 PM trans-1,3-Dichloropropene ND 1.00 µg/L0.216 NA PA/VA4/15/2016 3:36 PM Ethylbenzene ND 1.00 µg/L0.178 NA PA/VA4/15/2016 3:36 PM 2-Hexanone ND 50.0 µg/L4.11 NA PA/VA4/15/2016 3:36 PM Iodomethane ND 10.0 µg/L3.44 NA PA/VA4/15/2016 3:36 PM Methylenechloride ND 1.00 µg/L0.539 NA PA/VA4/15/2016 3:36 PM 4-Methyl-2-pentanone ND 100 µg/L4.40 NA PA/VA4/15/2016 3:36 PM Styrene ND 1.00 µg/L0.240 NA PA/VA4/15/2016 3:36 PM 1,1,1,2-Tetrachloroethane ND 5.00 µg/L0.360 NA PA/VA4/15/2016 3:36 PM 1,1,2,2-Tetrachloroethane ND 3.00 µg/L0.384 NA PA/VA4/15/2016 3:36 PM Tetrachloroethene ND 1.00 µg/L0.196 NA PA/VA4/15/2016 3:36 PM Toluene ND 1.00 µg/L0.167 NA PA/VA4/15/2016 3:36 PM 1,1,1-Trichloroethane ND 1.00 µg/L0.354 NA PA/VA4/15/2016 3:36 PM 1,1,2-Trichloroethane ND 1.00 µg/L0.492 NA PA/VA4/15/2016 3:36 PM Trichloroethene ND 1.00 µg/L0.302 NA PA/VA4/15/2016 3:36 PM Trichlorofluoromethane ND 1.00 µg/L0.299 NA PA/VA4/15/2016 3:36 PM 1,2,3-Trichloropropane ND 1.00 µg/L0.358 NA PA/VA4/15/2016 3:36 PM Vinylacetate ND 50.0 µg/L4.87 NA PA/VA4/15/2016 3:36 PM Vinylchloride ND 1.00 µg/L0.223 NA PA/VA4/15/2016 3:36 PM o-Xylene ND 1.00 µg/L0.186 NA PA/VA4/15/2016 3:36 PM m,p-Xylene ND 2.00 µg/L0.287 NA PA/VA4/15/2016 3:36 PM Surr:1,2-Dichloroethane-d4 110 75.9-132 %RecNANA 4/15/2016 3:36 PM Surr:4-Bromofluorobenzene 105 73.6-132 %RecNANA 4/15/2016 3:36 PM Surr:Dibromofluoromethane 102 80.1-127 %RecNANA 4/15/2016 3:36 PM Surr:Toluene-d8 100 72.4-119 %RecNANA 4/15/2016 3:36 PM TOTALSUSPENDEDSOLIDS Method:SM2540 D-1997 Analyst:SF TotalSuspendedSolids ND 5.0 mg/L1.0 NA PA/VA4/15/2016 1:25 PM Page15of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20163:54:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-08A Matrix:Groundwater MW-10DUPLICATEClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP TOTALMETALSbyICP-MS Method:SW6020B Analyst:BG Antimony ND 0.0060 mg/L0.0002 NA 4/22/2016 4:23 PM Arsenic ND 0.0100 mg/L0.0010 NA 4/22/2016 4:23 PM Barium 0.0966 0.100 J mg/L0.0010 NA 4/22/2016 4:23 PM Beryllium ND 0.0010 mg/L0.0002 NA 4/22/2016 4:23 PM Cadmium ND 0.0010 mg/L0.0002 NA 4/22/2016 4:23 PM Chromium ND 0.0100 mg/L0.0010 NA 4/22/2016 4:23 PM Cobalt ND 0.0100 mg/L0.0010 NA 4/22/2016 4:23 PM Copper ND 0.0100 mg/L0.0010 NA 4/22/2016 4:23 PM Lead ND 0.0100 mg/L0.0002 NA 4/22/2016 4:23 PM Nickel 0.0033 0.0500 J mg/L0.0020 NA 4/22/2016 4:23 PM Selenium ND 0.0100 mg/L0.0010 NA 4/22/2016 4:23 PM Silver ND 0.0100 mg/L0.0010 NA 4/22/2016 4:23 PM Thallium ND 0.0055 mg/L0.0002 NA 4/22/2016 4:23 PM Vanadium ND 0.0250 mg/L0.0010 NA 4/22/2016 4:23 PM Zinc 0.0082 0.0100 J mg/L0.0030 NA 4/22/2016 4:23 PM VOLATILEORGANICCOMPOUNDS-8260 Method:SW8260B Analyst:MD trans-1,4-Dichloro-2-butene ND 100 µg/L5.00 NA 4/15/2016 4:10 PM Acetone ND 100 µg/L4.88 NA PA/VA4/15/2016 4:10 PM Acrylonitrile ND 200 µg/L4.24 NA PA/VA4/15/2016 4:10 PM Benzene 0.660 1.00 J µg/L0.129 NA PA/VA4/15/2016 4:10 PM Bromochloromethane ND 3.00 µg/L0.346 NA PA/VA4/15/2016 4:10 PM Bromodichloromethane ND 1.00 µg/L0.162 NA PA/VA4/15/2016 4:10 PM Bromoform ND 3.00 µg/L0.400 NA PA/VA4/15/2016 4:10 PM Bromomethane ND 10.0 µg/L0.497 NA PA/VA4/15/2016 4:10 PM 2-Butanone ND 100 µg/L4.68 NA PA/VA4/15/2016 4:10 PM Carbondisulfide ND 100 µg/L1.27 NA 4/15/2016 4:10 PM Carbontetrachloride ND 1.00 µg/L0.250 NA PA/VA4/15/2016 4:10 PM Chlorobenzene 4.13 3.00 µg/L0.177 NA PA/VA4/15/2016 4:10 PM Chloroethane ND 10.0 µg/L0.942 NA PA/VA4/15/2016 4:10 PM Chloroform ND 5.00 µg/L0.253 NA PA/VA4/15/2016 4:10 PM Chloromethane ND 1.00 µg/L0.327 NA PA/VA4/15/2016 4:10 PM Dibromochloromethane ND 3.00 µg/L0.419 NA PA/VA4/15/2016 4:10 PM 1,2-Dibromo-3-chloropropane ND 13.0 µg/L0.499 NA PA/VA4/15/2016 4:10 PM 1,2-Dibromoethane ND 1.00 µg/L0.341 NA PA/VA4/15/2016 4:10 PM Dibromomethane ND 10.0 µg/L0.293 NA PA/VA4/15/2016 4:10 PM Page16of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20163:54:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-08A Matrix:Groundwater MW-10DUPLICATEClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP 1,2-Dichlorobenzene 0.830 5.00 J µg/L0.450 NA PA/VA4/15/2016 4:10 PM 1,4-Dichlorobenzene 3.32 1.00 µg/L0.287 NA PA/VA4/15/2016 4:10 PM 1,1-Dichloroethane ND 5.00 µg/L0.383 NA PA/VA4/15/2016 4:10 PM 1,2-Dichloroethane ND 1.00 µg/L0.428 NA PA/VA4/15/2016 4:10 PM 1,1-Dichloroethene ND 5.00 µg/L0.328 NA PA/VA4/15/2016 4:10 PM cis-1,2-Dichloroethene 2.04 5.00 J µg/L0.226 NA PA/VA4/15/2016 4:10 PM trans-1,2-Dichloroethene ND 5.00 µg/L0.392 NA PA/VA4/15/2016 4:10 PM 1,2-Dichloropropane ND 1.00 µg/L0.461 NA PA/VA4/15/2016 4:10 PM cis-1,3-Dichloropropene ND 1.00 µg/L0.220 NA PA/VA4/15/2016 4:10 PM trans-1,3-Dichloropropene ND 1.00 µg/L0.216 NA PA/VA4/15/2016 4:10 PM Ethylbenzene ND 1.00 µg/L0.178 NA PA/VA4/15/2016 4:10 PM 2-Hexanone ND 50.0 µg/L4.11 NA PA/VA4/15/2016 4:10 PM Iodomethane ND 10.0 µg/L3.44 NA PA/VA4/15/2016 4:10 PM Methylenechloride ND 1.00 µg/L0.539 NA PA/VA4/15/2016 4:10 PM 4-Methyl-2-pentanone ND 100 µg/L4.40 NA PA/VA4/15/2016 4:10 PM Styrene ND 1.00 µg/L0.240 NA PA/VA4/15/2016 4:10 PM 1,1,1,2-Tetrachloroethane ND 5.00 µg/L0.360 NA PA/VA4/15/2016 4:10 PM 1,1,2,2-Tetrachloroethane ND 3.00 µg/L0.384 NA PA/VA4/15/2016 4:10 PM Tetrachloroethene ND 1.00 µg/L0.196 NA PA/VA4/15/2016 4:10 PM Toluene ND 1.00 µg/L0.167 NA PA/VA4/15/2016 4:10 PM 1,1,1-Trichloroethane ND 1.00 µg/L0.354 NA PA/VA4/15/2016 4:10 PM 1,1,2-Trichloroethane ND 1.00 µg/L0.492 NA PA/VA4/15/2016 4:10 PM Trichloroethene ND 1.00 µg/L0.302 NA PA/VA4/15/2016 4:10 PM Trichlorofluoromethane ND 1.00 µg/L0.299 NA PA/VA4/15/2016 4:10 PM 1,2,3-Trichloropropane ND 1.00 µg/L0.358 NA PA/VA4/15/2016 4:10 PM Vinylacetate ND 50.0 µg/L4.87 NA PA/VA4/15/2016 4:10 PM Vinylchloride ND 1.00 µg/L0.223 NA PA/VA4/15/2016 4:10 PM o-Xylene ND 1.00 µg/L0.186 NA PA/VA4/15/2016 4:10 PM m,p-Xylene ND 2.00 µg/L0.287 NA PA/VA4/15/2016 4:10 PM Surr:1,2-Dichloroethane-d4 108 75.9-132 %RecNANA 4/15/2016 4:10 PM Surr:4-Bromofluorobenzene 106 73.6-132 %RecNANA 4/15/2016 4:10 PM Surr:Dibromofluoromethane 101 80.1-127 %RecNANA 4/15/2016 4:10 PM Surr:Toluene-d8 100 72.4-119 %RecNANA 4/15/2016 4:10 PM TOTALSUSPENDEDSOLIDS Method:SM2540 D-1997 Analyst:SF TotalSuspendedSolids 2.5 5.0 J mg/L1.0 NA PA/VA4/15/2016 1:25 PM Page17of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20165:03:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-09A Matrix:Groundwater HAIREClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP TOTALMETALSbyICP-MS Method:SW6020B Analyst:BG Antimony ND 0.0060 mg/L0.0002 NA 4/22/2016 4:40 PM Arsenic ND 0.0100 mg/L0.0010 NA 4/22/2016 4:40 PM Barium 0.0760 0.100 J mg/L0.0010 NA 4/22/2016 4:40 PM Beryllium ND 0.0010 mg/L0.0002 NA 4/22/2016 4:40 PM Cadmium ND 0.0010 mg/L0.0002 NA 4/22/2016 4:40 PM Chromium ND 0.0100 mg/L0.0010 NA 4/22/2016 4:40 PM Cobalt ND 0.0100 mg/L0.0010 NA 4/22/2016 4:40 PM Copper 0.109 0.0100 mg/L0.0010 NA 4/22/2016 4:40 PM Lead 0.0039 0.0100 J mg/L0.0002 NA 4/22/2016 4:40 PM Nickel ND 0.0500 mg/L0.0020 NA 4/22/2016 4:40 PM Selenium ND 0.0100 mg/L0.0010 NA 4/22/2016 4:40 PM Silver ND 0.0100 mg/L0.0010 NA 4/22/2016 4:40 PM Thallium ND 0.0055 mg/L0.0002 NA 4/22/2016 4:40 PM Vanadium ND 0.0250 mg/L0.0010 NA 4/22/2016 4:40 PM Zinc 0.0472 0.0100 mg/L0.0030 NA 4/22/2016 4:40 PM VOLATILEORGANICCOMPOUNDS-8260 Method:SW8260B Analyst:MD trans-1,4-Dichloro-2-butene ND 100 µg/L5.00 NA 4/15/2016 4:44 PM Acetone ND 100 µg/L4.88 NA PA/VA4/15/2016 4:44 PM Acrylonitrile ND 200 µg/L4.24 NA PA/VA4/15/2016 4:44 PM Benzene ND 1.00 µg/L0.129 NA PA/VA4/15/2016 4:44 PM Bromochloromethane ND 3.00 µg/L0.346 NA PA/VA4/15/2016 4:44 PM Bromodichloromethane ND 1.00 µg/L0.162 NA PA/VA4/15/2016 4:44 PM Bromoform ND 3.00 µg/L0.400 NA PA/VA4/15/2016 4:44 PM Bromomethane ND 10.0 µg/L0.497 NA PA/VA4/15/2016 4:44 PM 2-Butanone ND 100 µg/L4.68 NA PA/VA4/15/2016 4:44 PM Carbondisulfide ND 100 µg/L1.27 NA 4/15/2016 4:44 PM Carbontetrachloride ND 1.00 µg/L0.250 NA PA/VA4/15/2016 4:44 PM Chlorobenzene ND 3.00 µg/L0.177 NA PA/VA4/15/2016 4:44 PM Chloroethane ND 10.0 µg/L0.942 NA PA/VA4/15/2016 4:44 PM Chloroform ND 5.00 µg/L0.253 NA PA/VA4/15/2016 4:44 PM Chloromethane ND 1.00 µg/L0.327 NA PA/VA4/15/2016 4:44 PM Dibromochloromethane ND 3.00 µg/L0.419 NA PA/VA4/15/2016 4:44 PM 1,2-Dibromo-3-chloropropane ND 13.0 µg/L0.499 NA PA/VA4/15/2016 4:44 PM 1,2-Dibromoethane ND 1.00 µg/L0.341 NA PA/VA4/15/2016 4:44 PM Dibromomethane ND 10.0 µg/L0.293 NA PA/VA4/15/2016 4:44 PM Page18of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/20165:03:00PM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-09A Matrix:Groundwater HAIREClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP 1,2-Dichlorobenzene ND 5.00 µg/L0.450 NA PA/VA4/15/2016 4:44 PM 1,4-Dichlorobenzene ND 1.00 µg/L0.287 NA PA/VA4/15/2016 4:44 PM 1,1-Dichloroethane ND 5.00 µg/L0.383 NA PA/VA4/15/2016 4:44 PM 1,2-Dichloroethane ND 1.00 µg/L0.428 NA PA/VA4/15/2016 4:44 PM 1,1-Dichloroethene ND 5.00 µg/L0.328 NA PA/VA4/15/2016 4:44 PM cis-1,2-Dichloroethene ND 5.00 µg/L0.226 NA PA/VA4/15/2016 4:44 PM trans-1,2-Dichloroethene ND 5.00 µg/L0.392 NA PA/VA4/15/2016 4:44 PM 1,2-Dichloropropane ND 1.00 µg/L0.461 NA PA/VA4/15/2016 4:44 PM cis-1,3-Dichloropropene ND 1.00 µg/L0.220 NA PA/VA4/15/2016 4:44 PM trans-1,3-Dichloropropene ND 1.00 µg/L0.216 NA PA/VA4/15/2016 4:44 PM Ethylbenzene ND 1.00 µg/L0.178 NA PA/VA4/15/2016 4:44 PM 2-Hexanone ND 50.0 µg/L4.11 NA PA/VA4/15/2016 4:44 PM Iodomethane ND 10.0 µg/L3.44 NA PA/VA4/15/2016 4:44 PM Methylenechloride ND 1.00 µg/L0.539 NA PA/VA4/15/2016 4:44 PM 4-Methyl-2-pentanone ND 100 µg/L4.40 NA PA/VA4/15/2016 4:44 PM Styrene ND 1.00 µg/L0.240 NA PA/VA4/15/2016 4:44 PM 1,1,1,2-Tetrachloroethane ND 5.00 µg/L0.360 NA PA/VA4/15/2016 4:44 PM 1,1,2,2-Tetrachloroethane ND 3.00 µg/L0.384 NA PA/VA4/15/2016 4:44 PM Tetrachloroethene ND 1.00 µg/L0.196 NA PA/VA4/15/2016 4:44 PM Toluene ND 1.00 µg/L0.167 NA PA/VA4/15/2016 4:44 PM 1,1,1-Trichloroethane ND 1.00 µg/L0.354 NA PA/VA4/15/2016 4:44 PM 1,1,2-Trichloroethane ND 1.00 µg/L0.492 NA PA/VA4/15/2016 4:44 PM Trichloroethene ND 1.00 µg/L0.302 NA PA/VA4/15/2016 4:44 PM Trichlorofluoromethane ND 1.00 µg/L0.299 NA PA/VA4/15/2016 4:44 PM 1,2,3-Trichloropropane ND 1.00 µg/L0.358 NA PA/VA4/15/2016 4:44 PM Vinylacetate ND 50.0 µg/L4.87 NA PA/VA4/15/2016 4:44 PM Vinylchloride ND 1.00 µg/L0.223 NA PA/VA4/15/2016 4:44 PM o-Xylene ND 1.00 µg/L0.186 NA PA/VA4/15/2016 4:44 PM m,p-Xylene ND 2.00 µg/L0.287 NA PA/VA4/15/2016 4:44 PM Surr:1,2-Dichloroethane-d4 110 75.9-132 %RecNANA 4/15/2016 4:44 PM Surr:4-Bromofluorobenzene 106 73.6-132 %RecNANA 4/15/2016 4:44 PM Surr:Dibromofluoromethane 99.2 80.1-127 %RecNANA 4/15/2016 4:44 PM Surr:Toluene-d8 98.5 72.4-119 %RecNANA 4/15/2016 4:44 PM TOTALSUSPENDEDSOLIDS Method:SM2540 D-1997 Analyst:SF TotalSuspendedSolids ND 5.0 mg/L1.0 NA PA/VA4/15/2016 1:25 PM Page19of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/201612:00:00AM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-10A Matrix:TripBlank TRIPBLANKClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP VOLATILEORGANICCOMPOUNDS-8260 Method:SW8260B Analyst:MD trans-1,4-Dichloro-2-butene ND 100 µg/L5.00 NA 4/15/2016 5:18 PM Acetone ND 100 µg/L4.88 NA PA/VA4/15/2016 5:18 PM Acrylonitrile ND 200 µg/L4.24 NA PA/VA4/15/2016 5:18 PM Benzene ND 1.00 µg/L0.129 NA PA/VA4/15/2016 5:18 PM Bromochloromethane ND 3.00 µg/L0.346 NA PA/VA4/15/2016 5:18 PM Bromodichloromethane ND 1.00 µg/L0.162 NA PA/VA4/15/2016 5:18 PM Bromoform ND 3.00 µg/L0.400 NA PA/VA4/15/2016 5:18 PM Bromomethane ND 10.0 µg/L0.497 NA PA/VA4/15/2016 5:18 PM 2-Butanone ND 100 µg/L4.68 NA PA/VA4/15/2016 5:18 PM Carbondisulfide ND 100 µg/L1.27 NA 4/15/2016 5:18 PM Carbontetrachloride ND 1.00 µg/L0.250 NA PA/VA4/15/2016 5:18 PM Chlorobenzene ND 3.00 µg/L0.177 NA PA/VA4/15/2016 5:18 PM Chloroethane ND 10.0 µg/L0.942 NA PA/VA4/15/2016 5:18 PM Chloroform ND 5.00 µg/L0.253 NA PA/VA4/15/2016 5:18 PM Chloromethane ND 1.00 µg/L0.327 NA PA/VA4/15/2016 5:18 PM Dibromochloromethane ND 3.00 µg/L0.419 NA PA/VA4/15/2016 5:18 PM 1,2-Dibromo-3-chloropropane ND 13.0 µg/L0.499 NA PA/VA4/15/2016 5:18 PM 1,2-Dibromoethane ND 1.00 µg/L0.341 NA PA/VA4/15/2016 5:18 PM Dibromomethane ND 10.0 µg/L0.293 NA PA/VA4/15/2016 5:18 PM 1,2-Dichlorobenzene ND 5.00 µg/L0.450 NA PA/VA4/15/2016 5:18 PM 1,4-Dichlorobenzene ND 1.00 µg/L0.287 NA PA/VA4/15/2016 5:18 PM 1,1-Dichloroethane ND 5.00 µg/L0.383 NA PA/VA4/15/2016 5:18 PM 1,2-Dichloroethane ND 1.00 µg/L0.428 NA PA/VA4/15/2016 5:18 PM 1,1-Dichloroethene ND 5.00 µg/L0.328 NA PA/VA4/15/2016 5:18 PM cis-1,2-Dichloroethene ND 5.00 µg/L0.226 NA PA/VA4/15/2016 5:18 PM trans-1,2-Dichloroethene ND 5.00 µg/L0.392 NA PA/VA4/15/2016 5:18 PM 1,2-Dichloropropane ND 1.00 µg/L0.461 NA PA/VA4/15/2016 5:18 PM cis-1,3-Dichloropropene ND 1.00 µg/L0.220 NA PA/VA4/15/2016 5:18 PM trans-1,3-Dichloropropene ND 1.00 µg/L0.216 NA PA/VA4/15/2016 5:18 PM Ethylbenzene ND 1.00 µg/L0.178 NA PA/VA4/15/2016 5:18 PM 2-Hexanone ND 50.0 µg/L4.11 NA PA/VA4/15/2016 5:18 PM Iodomethane ND 10.0 µg/L3.44 NA PA/VA4/15/2016 5:18 PM Methylenechloride ND 1.00 µg/L0.539 NA PA/VA4/15/2016 5:18 PM 4-Methyl-2-pentanone ND 100 µg/L4.40 NA PA/VA4/15/2016 5:18 PM Styrene ND 1.00 µg/L0.240 NA PA/VA4/15/2016 5:18 PM 1,1,1,2-Tetrachloroethane ND 5.00 µg/L0.360 NA PA/VA4/15/2016 5:18 PM Page20of21 WO#:16041523 DateReported:6/6/2016 REIConsultants, Inc.-AnalyticalReport Client:MACONCOUNTYSOLIDWASTEMANAGEMENT CollectionDate:4/12/201612:00:00AM Project:OLDFRANKLIN-1SA-2016 Lab ID:16041523-10A Matrix:TripBlank TRIPBLANKClientSample ID: Analysis Date AnalyzedResultMDLQualUnitsPQLMCL DateReceived:4/14/2016 OLDFRANKLINLFSiteID: NELAP 1,1,2,2-Tetrachloroethane ND 3.00 µg/L0.384 NA PA/VA4/15/2016 5:18 PM Tetrachloroethene ND 1.00 µg/L0.196 NA PA/VA4/15/2016 5:18 PM Toluene ND 1.00 µg/L0.167 NA PA/VA4/15/2016 5:18 PM 1,1,1-Trichloroethane ND 1.00 µg/L0.354 NA PA/VA4/15/2016 5:18 PM 1,1,2-Trichloroethane ND 1.00 µg/L0.492 NA PA/VA4/15/2016 5:18 PM Trichloroethene ND 1.00 µg/L0.302 NA PA/VA4/15/2016 5:18 PM Trichlorofluoromethane ND 1.00 µg/L0.299 NA PA/VA4/15/2016 5:18 PM 1,2,3-Trichloropropane ND 1.00 µg/L0.358 NA PA/VA4/15/2016 5:18 PM Vinylacetate ND 50.0 µg/L4.87 NA PA/VA4/15/2016 5:18 PM Vinylchloride ND 1.00 µg/L0.223 NA PA/VA4/15/2016 5:18 PM o-Xylene ND 1.00 µg/L0.186 NA PA/VA4/15/2016 5:18 PM m,p-Xylene ND 2.00 µg/L0.287 NA PA/VA4/15/2016 5:18 PM Surr:1,2-Dichloroethane-d4 112 75.9-132 %RecNANA 4/15/2016 5:18 PM Surr:4-Bromofluorobenzene 103 73.6-132 %RecNANA 4/15/2016 5:18 PM Surr:Dibromofluoromethane 96.7 80.1-127 %RecNANA 4/15/2016 5:18 PM Surr:Toluene-d8 96.9 72.4-119 %RecNANA 4/15/2016 5:18 PM Page21of21 DB P i x E v a l u a t i on w ww .a m m a r a .c om OldFranklinLandfill Franklin,MaconCounty,NorthCarolina PermitNumber:57-01 AppendixD: Historical Laboratory Analytical Results REIConsultants,Inc.P.OBox286,Beaver,WV25813 800-999-0105 www.reiclabs.com Hi s t o r i c a l A n al y t i c a l R e s u l ts M a c o n Co un t y Ol d F r a n k li n L a nd f i ll P er m i t N o . 57 -01 V O Cs NC 2L S W SL J un -19 94 O c t- 19 94 M ar -19 95 N ov -19 95 A pr -19 96 O c t- 19 96 M a y -19 97 O c t- 19 97 A pr -19 98 O c t- 19 98 A pr -19 99 O c t- 19 99 M a y -20 00 O c t- 20 00 A pr -20 01 O c t- 20 01 1 ,1 -D i ch l o r o e t h a ne 70 5 * * * * * * * * 2 .4 * 2 .9 2 .6 3 .8 3 .2 3 .3 2 .9 1 ,2 -D i ch l o r o b en z e ne 24 5 * * * * * * * * * * * * * * * * 1 ,2 -D i ch l o r o e t h a ne 0 .38 1 * * * * * * * * * * * * * 1 1 .1 * 1 ,4 -D i ch l o r o b en z e ne 1 .4 1 * * * * * * 6 6 * 6 .7 8 .1 8 .5 9 .2 12 9 .4 9 .7 A ce t o ne 70 0 10 0 * * * 53 * * * * * * * * * * * * B en z e ne 1 1 * * * * * * * * * 3 .5 4 .5 4 .4 5 .2 4 .6 4 .7 4 .5 C a rb o n D is u l f i de 70 0 10 0 * * * * * * * * * * * * 7 71 * * C h l o r o b en z e ne 50 3 * * * * * * * * * * * * * * * * c is -1 ,2 -D i ch l o r o e t h e ne 70 5 * 7 8 .8 * 8 * * * 12 .5 9 .2 13 .3 12 15 .7 13 13 15 D i ch l o r o d i f l u o r o m e t h a ne 14 0 0 NA * * * 17 * 19 * 7 * * * * * * * * M e t h y l e ne C h l o ri de 4 .6 1 * * * 28 17 * * * * * * * * * * * T e tr a ch l o r o e t h e ne (P C E) 0 .7 1 .0 * * * * * * * * * 2 .5 3 2 .9 3 .4 3 4 3 .3 T o l u e ne 10 0 0 1 * * * * * * * * * * * * * * * * T ri c hl o r o e t h e ne (T CE ) 2 .8 1 .0 * * * * * * * * * 2 2 * 2 .4 2 .4 3 2 .9 T ri c hl o r of l u o r o m e t h a ne 21 0 0 1 * * * * * * * * * * * * * * 1 .7 * V i n y l C h l o ri de 0 .01 5 1 * * * * * * * * * * * * * 2 .2 1 .5 1 .6 M E T A LS NC 2L S W SL J un -19 94 O c t- 19 94 M ar -19 95 N ov -19 95 A pr -19 96 O c t- 19 96 M a y -19 97 O c t- 19 97 A pr -19 98 O c t- 19 98 A pr -19 99 O c t- 19 99 M a y -20 00 O c t- 20 00 A pr -20 01 O c t- 20 01 A n ti m o ny NL 6 * * * * * * * * * * * * * * 3 .2 * A r s e n ic 50 10 * * * * * * * * * * * * * 8 .1 * * B ar i um 20 0 0 10 0 21 3 25 2 37 0 49 0 22 9 46 23 9 15 3 20 3 19 2 19 2 20 9 19 9 24 0 20 0 23 0 C ad m i um 1 .75 1 * * * 1 * * 2 * * * * * * * * * C hr o m i um 50 10 * * * * * 11 * * * * * * * 8 .3 4 .2 5 .5 C o ba lt NL 10 * * * * * * * * * * * * * * * * C o pp er 10 0 0 10 * * * * * * 12 21 * * * * * * * * L e ad 15 10 * * * * * * 6 4 * * * * * * * * N i c k el 10 0 50 * * * * * * * 22 * * * * * * * * S e l en i um 50 10 * * * * * * * * * * * * * 10 * * V a n ad i um NL 20 * * * * * * * * * * * * * 10 * * Z i nc 10 5 0 10 22 10 11 * 26 46 29 * 41 * 39 * * 42 30 * N O TE S : 1 . * - C o n s t i t u e n t d i d n o t e x ce e d l a b o r a t o r y P r a ct i c a l Q u a n t i t a t i o n (P QL ) Li m i t o r S o li d W as te S ec t i o n L i m i t (S W SL ). 2 . N S - l o c a t i o n n o t sa m p l ed 3 . N L -c o n s t i t u e n t d o e s n o t h a v e a NC 2 L S t a nd a rd 4 . C o n s t i t u e n t s t h a t e x ce e d t h e NC 2 L S t a nd a r d a re h i g h li g h e d i n re d 5 . DR Y -w e ll w as d r y du r i n g sa m p li n g e v e nt 6 . A ll c o n s t i t u e n t s re p o rt e d i n p a rt s p er b il li o n (p p b) 7 . O n l y c o m p o u nd s d et e ct e d a b o v e t h e l a b o r a t o r y P QL o r S W SL a re li s t ed 8 . N /A - N o t A pp li c a b le M W -1 Hi s t o r i c a l A n al y t i c a l R e s u l ts M a c o n Co un t y Ol d F r a n k li n L a nd f i ll P er m i t N o . 57 -01 V O Cs 1 ,1 -D i ch l o r o e t h a ne 1 ,2 -D i ch l o r o b en z e ne 1 ,2 -D i ch l o r o e t h a ne 1 ,4 -D i ch l o r o b en z e ne A ce t o ne B en z e ne C a rb o n D is u l f i de C h l o r o b en z e ne c is -1 ,2 -D i ch l o r o e t h e ne D i ch l o r o d i f l u o r o m e t h a ne M e t h y l e ne C h l o ri de T e tr a ch l o r o e t h e ne (P C E) To l u e ne T ri c hl o r o e t h e ne (T CE ) T ri c hl o r of l u o r o m e t h a ne V i n y l C h l o ri de M E T A LS A n ti m o ny A r s e n ic B ar i um C ad m i um C hr o m i um Co ba lt Co pp er L e ad N i c k el S e l en i um V a n ad i um Z i ncMW-1 A pr -20 02 A pr -20 02 NC 2L S W SL A pr -20 04 D ec -20 04 A pr -20 05 O c t- 20 05 A pr -20 06 O c t- 20 07 A pr -20 07 O c t- 20 07 A pr -20 08 O c t- 20 08 A pr -20 09 O c t- 20 09 NC 2L S W SL A pr -20 10 O c t- 20 10 A pr -20 11 O c t- 20 11 2 .6 2 .7 70 5 NS * * * * * * * * 2 .9 * * 7 5 * * * * * * 24 5 * * * * * * * * * 1 .0 * * 20 5 * * * * * * 0 .38 1 NS * * * * * * * * * * * 0 .4 1 * * * * 8 .9 10 1 .4 1 NS 12 .6 12 .2 14 .1 13 .9 11 .9 12 .5 13 .3 13 .4 10 .8 12 .1 12 .3 6 1 12 .9 13 13 .9 13 .3 * * 70 0 10 0 NS * * * * * * * * * * * 60 0 0 10 0 * * * * 4 .3 4 .3 1 1 NS 3 .7 3 .8 3 .4 3 .1 4 .6 4 .0 4 .7 5 .0 4 .3 4 .8 3 .9 1 1 3 .7 3 .3 3 .1 3 .9 * * 70 0 10 0 NS * * * * * * * * * * * 70 0 10 0 * * * * 1 1 50 3 NS * * * * * 4 .8 5 .6 4 .2 3 .4 3 .2 * 50 3 3 .4 6 .3 7 .8 10 .2 15 17 70 5 NS 14 .7 15 .4 16 .2 15 .4 15 .0 14 .5 14 .4 14 .0 12 .4 13 .1 13 .3 70 5 13 .6 14 .5 16 .8 16 .3 * * 14 0 0 NA NS NA NA NA NA NA NA NA * * * * 10 0 0 5 * * * * * * 4 .6 1 NS * * * * * * * * * * * 5 1 * * * * 2 .9 3 .1 0 .7 1 .0 NS 2 .1 * * 2 .0 2 .2 2 .0 2 .4 1 .8 1 .5 1 .6 1 .7 0 .7 1 * 1 .2 1 .6 1 .4 2 .9 * 10 0 0 1 NS * * * * * * * * * * * 60 0 1 * * * * 3 .2 2 .7 2 .8 1 .0 NS 2 .3 2 .3 * 2 .0 2 .4 2 .1 2 .3 1 .9 1 .6 1 .8 1 .8 3 1 1 .5 1 .5 1 .5 1 .4 * * 21 0 0 1 NS * * * * * * * * * * * 20 0 0 1 * * * * 2 .2 1 .8 0 .01 5 1 NS 1 .1 1 .4 * 1 .3 1 .1 * 1 .4 1 .0 * * 0 .03 1 * * * * A pr -20 02 A pr -20 02 NC 2L S W SL A pr -20 04 D ec -20 04 A pr -20 05 O c t- 20 05 A pr -20 06 O c t- 20 07 A pr -20 07 O c t- 20 07 A pr -20 08 O c t- 20 08 A pr -20 09 O c t- 20 09 NC 2L S W SL A pr -20 10 O c t- 20 10 A pr -20 11 O c t- 20 11 * * NL 6 NS * * * * * * * * * * NL 6 * * * * * * 50 10 NS * * * * * * * * * * * 10 10 * * * * 25 0 28 0 20 0 0 10 0 NS * * * * * 63 6 27 3 30 9 50 1 30 5 26 8 70 0 10 0 26 1 26 1 25 1 25 8 * * 1 .75 1 NS * * * * * * * * 1 .3 * * 2 1 * * * 1 .4 * 17 50 10 NS * * * * * 14 .9 * 14 .7 55 .4 * * 10 10 * * * * * * 10 0 0 10 NS * * * * * * * * * * * 10 0 0 10 * * * * * 10 10 0 0 10 NS * * * * * 17 .7 * * 22 .8 * 10 .2 10 0 0 10 * * * * * * 15 10 NS * * * * * * * * * * * 15 10 * * * * * 21 10 0 50 NS * * * * * * * * * * * 10 0 50 * * * * * * 50 10 NS * * * * * * * * * * * 20 10 * * * * * * NL 20 NS * * * * * * * * 35 .6 * * NL 25 * * * * 30 33 10 5 0 10 NS * * * * * 79 * 11 .7 28 .3 * 18 .9 10 0 0 10 * * * 15 .3 N O TE S : 1 . * -C o n s t i t u e n t d i d n o t e x ce e d l a b o r a t o r y P r a ct i c a l Q u a n t i t a t i o n (P QL ) Li m i t o r S o li d W as te S ec t i o n L i m i t (S W SL ). 2 . N S -l o c a t i o n n o t sa m p l ed 3 . N L - c o n s t i t u e n t d o e s n o t h a v e a NC 2 L S t a nd a rd 4 . C o n s t i t u e n t s t h a t e x ce e d t h e NC 2 L S t a nd a r d a re h i g h li g h e d i n re d 5 . DR Y - w e ll w as d r y du r i n g sa m p li n g e v e nt 6 . A ll c o n s t i t u e n t s re p o rt e d i n p a rt s p er b il li o n (p p b) 7 . O n l y c o m p o u nd s d et e ct e d a b o v e t h e l a b o r a t o r y P QL o r S W SL a re li s t ed 8 . N /A - N o t A pp li c a b le Hi s t o r i c a l A n al y t i c a l R e s u l ts M a c o n Co un t y Ol d F r a n k li n L a nd f i ll P er m i t N o . 57 -01 V O Cs 1 ,1 -D i ch l o r o e t h a ne 1 ,2 -D i ch l o r o b en z e ne 1 ,2 -D i ch l o r o e t h a ne 1 ,4 -D i ch l o r o b en z e ne A ce t o ne B en z e ne C a rb o n D is u l f i de C h l o r o b en z e ne c is -1 ,2 -D i ch l o r o e t h e ne D i ch l o r o d i f l u o r o m e t h a ne M e t h y l e ne C h l o ri de T e tr a ch l o r o e t h e ne (P C E) To l u e ne T ri c hl o r o e t h e ne (T CE ) T ri c hl o r of l u o r o m e t h a ne V i n y l C h l o ri de M E T A LS A n ti m o ny A r s e n ic B ar i um C ad m i um C hr o m i um Co ba lt Co pp er L e ad N i c k el S e l en i um V a n ad i um Z i ncMW-1 NC 2L S W SL A pr -20 12 O c t- 20 12 A pr -20 13 O c t- 20 13 A pr -20 14 O c t- 20 14 A pr -20 15 O c t- 20 15 A pr -20 16 7 5 * * * * * * * * * 20 5 * * * * * 7 .4 6 .6 6 .0 6 .0 0 .4 1 * 3 .1 * * * * * * * 6 1 13 .3 12 .4 13 .9 13 .3 13 .0 17 .0 15 .2 12 .0 14 .2 60 0 0 10 0 * * * * * * * * * 1 1 3 .7 2 .3 3 .9 4 .0 3 .8 4 .2 3 .3 3 .4 3 .8 70 0 10 0 * * * * * * * * * 50 3 11 .7 12 .1 12 .9 17 .0 19 .4 26 .3 22 .8 25 .3 22 .3 70 5 14 .2 11 .3 17 .1 15 .9 15 .7 16 .8 14 .9 13 .6 15 .0 10 0 0 5 * * * * * * * * * 5 1 * * * * * * * * * 0 .7 1 1 .6 * 1 .1 1 .0 * 1 .0 * * * 60 0 1 * * * * * * * * * 3 1 1 .4 * 1 .2 * 1 .0 1 .0 * * * 20 0 0 1 * * * * * * * * * 0 .03 1 * * * * * * * * * NC 2L S W SL A pr -20 12 O c t- 20 12 A pr -20 13 O c t- 20 13 A pr -20 14 O c t- 20 14 A pr -20 15 O c t- 20 15 A pr -20 16 1 6 * * * * * * * * * 10 10 * * * * * * * * * 70 0 10 0 25 8 28 5 21 6 26 2 25 0 26 9 24 7 48 7 48 9 2 1 1 .6 7 .2 1 .2 2 .3 1 .5 4 .3 1 .6 63 .9 12 .9 10 10 * 12 .7 * * * * * 29 .9 34 .0 10 0 0 10 * * * * * * * 12 .2 15 .3 10 0 0 10 * 13 .1 * * * * 11 .4 48 .5 35 .8 15 10 * * * * * * * * * 10 0 50 * * * * * * * * * 20 10 * * * * * * * * * 0 .3 25 * * * * * * * 29 .7 36 .3 10 0 0 10 14 .1 14 .4 29 .8 * 19 .7 10 .6 27 .5 44 .2 45 .9 N O TE S : 1 . * - C o n s t i t u e n t d i d n o t e x ce e d l a b o r a t o r y P r a ct i c a l Q u a n t i t a t i o n (P QL ) Li m i t o r S o li d W as te S ec t i o n L i m i t (S W SL ). 2 . N S - l o c a t i o n n o t sa m p l ed 3 . N L -c o n s t i t u e n t d o e s n o t h a v e a NC 2 L S t a nd a rd 4 . C o n s t i t u e n t s t h a t e x ce e d t h e NC 2 L S t a nd a r d a re h i g h li g h e d i n re d 5 . DR Y -w e ll w as d r y du r i n g sa m p li n g e v e nt 6 . A ll c o n s t i t u e n t s re p o rt e d i n p a rt s p er b il li o n (p p b) 7 . O n l y c o m p o u nd s d et e ct e d a b o v e t h e l a b o r a t o r y P QL o r S W SL a re li s t ed 8 . N /A - N o t A pp li c a b le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs NC 2L S W SL J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 A pr -2 0 0 2 Be n ze ne 1 1 * * * * * * 22 * * * * * * D RY * NS NS NS C ar bo n D i su l f i de 70 0 10 0 * * * * * * * * * 3 .8 * * * D RY * NS NS NS M ET A LS NC 2L S W SL J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 A pr -2 0 0 2 A n ti m on y NL 6 * * * * * * * * * * * * * D RY * NS NS NS A r s e n ic 50 10 * * * * * * * * * 11 * * * D RY * NS NS NS B ar i um 20 00 10 0 * 84 4 63 2 58 1 39 8 89 2 52 49 1 57 42 6 25 9 21 20 19 2 D RY 23 0 NS NS NS Ca d m i um 1 .75 1 * * * * * * 1 * * * * * * D RY * NS NS NS C h r o m i um 50 10 * * * * * 10 6 * 35 * 60 18 17 2 19 D RY 26 NS NS NS C ob a lt NL 10 * * * * * 40 * * * 29 * 77 * D RY * NS NS NS C op p er 10 00 10 * * * * * 18 * 45 * 42 * 16 7 12 D RY 17 NS NS NS L e ad 15 10 * * * * * * 6 9 * 6 * 28 5 D RY 19 NS NS NS N i c k el 10 0 50 * * * * * * * 44 * 26 * 66 * D RY * NS NS NS V a n a d i um NL 20 * * * * * 14 5 * * * 76 24 24 5 31 D RY 38 NS NS NS Z i nc 10 5 0 10 * 16 29 * 31 14 3 11 10 6 24 13 4 80 53 4 37 D RY 49 NS NS NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S -l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b ill i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le M W -2 H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs Be n ze ne C ar bo n D i su l f i de M ET A LS A n ti m on y A r s e n ic B ar i um Ca d m i um C h r o m i um C ob a lt C op p er L e ad N i c k el V a n a d i um Z i ncMW-2 NC 2L S W SL A pr -2 0 0 3 O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 7 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2L S W SL A pr -2 0 1 0 S ep -2 0 1 0 A pr -2 0 1 1 1 1 * NS NS NS * NS NS NS * NS NS NS * NS 1 1 NS NS * 70 0 10 0 * NS NS NS * NS NS NS * NS NS NS * NS 70 0 10 0 NS NS * NC 2L S W SL A pr -2 0 0 3 O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 7 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2L S W SL A pr -2 0 1 0 S ep -2 0 1 0 A pr -2 0 1 1 NL 6 * NS NS NS * NS NS NS * NS NS NS * NS NL 6 NS NS * 50 10 * NS NS NS * NS NS NS * NS NS NS * NS 10 10 NS NS * 20 0 0 10 0 82 NS NS NS * NS NS NS 18 9 NS NS NS 17 5 NS 70 0 10 0 NS NS 27 1 1. 7 5 1 * NS NS NS * NS NS NS * NS NS NS * NS 2 1 NS NS * 50 10 7. 2 NS NS NS * NS NS NS * NS NS NS 10 .6 NS 10 10 NS NS 11 . 9 10 0 0 10 * NS NS NS * NS NS NS * NS NS NS * NS 10 00 10 NS NS * 15 10 7. 1 NS NS NS * NS NS NS * NS NS NS 10 .1 NS 15 10 NS NS * 10 0 50 * NS NS NS * NS NS NS * NS NS NS * NS 10 0 50 NS NS * 50 10 * NS NS NS * NS NS NS * NS NS NS * NS 20 10 NS NS * NL 20 11 NS NS NS * NS NS NS * NS NS NS * NS NL 25 NS NS * 10 50 10 23 NS NS NS * NS NS NS 15 .7 NS NS NS 34 .3 NS 10 50 10 NS NS 35 .7 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S -l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b ill i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs Be n ze ne C ar bo n D i su l f i de M ET A LS A n ti m on y A r s e n ic B ar i um Ca d m i um C h r o m i um C ob a lt C op p er L e ad N i c k el V a n a d i um Z i ncMW-2 NC 2L S W SL O c t- 2 0 1 1 A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 1 1 NS NS NS * NS NS NS * NS NS 70 0 10 0 NS NS NS * NS NS NS * NS NS NC 2L S W SL O c t- 2 0 1 1 A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 1 6 NS NS NS * NS NS NS * NS NS 10 10 NS NS NS * NS NS NS * NS NS 70 0 10 0 NS NS NS * NS NS NS 17 4 NS NS 2 1 NS NS NS * NS NS NS * NS NS 10 10 NS NS NS * NS NS NS 14 .0 NS NS 10 00 10 NS NS NS * NS NS NS * NS NS 15 10 NS NS NS * NS NS NS 16 .1 NS NS 10 0 50 NS NS NS * NS NS NS * NS NS 20 10 NS NS NS * NS NS NS * NS NS 0 .3 25 NS NS NS * NS NS NS * NS NS 10 50 10 NS NS NS 25 .1 NS NS NS 38 .5 NS NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S -l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b ill i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 A pr -2 0 0 2 A pr -2 0 0 3 1, 2 -D i c h lo r ob e n ze ne 24 5 * * * * * * * * * * D RY * * * * * * * * 1 ,4 -D i c h lo r ob e n ze ne 1 .4 1 * 7 .7 7 * 6 9 * * 6 .0 4 .3 D RY 2 .9 4 .0 3 .5 4 .8 * * * * A ce t on e 70 0 10 0 * * * 12 * * * * * * D RY * * * * * * * * Be n ze ne 1 1 * * * * * * * * * * D RY 1 * * 1 .1 * * * * C ar bo n D i su l f i de 70 0 10 0 * * * * * * * * * 4 .1 D RY * * * * * * * * C h lo r ob e n ze ne 50 3 * * * * * * * * * * D RY * * * 1 * * * * C h lo r o e th a ne 28 00 10 * * * * * * * * * * D RY 1 .5 * * * * * * * c is -1 ,2 -D i c h lo r o e th e ne 70 5 12 22 30 26 * * * 21 .8 13 .7 8 .3 D RY 6 .4 5 .1 3 .8 6 .2 * * * * V in y l C h lo r i de 0 .01 5 1 * * * * * * * 4 * * D RY * * * * * 5 .4 * * M ET A LS NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 A pr -2 0 0 2 A pr -2 0 0 3 A n ti m on y NL 6 * * * * * * * * * * D RY 3 .7 * * * * * * * A r s e n ic 10 10 * * * * * * * * * * D RY * * * * * 6 * * B ar i um 20 00 10 0 11 70 14 90 11 10 14 40 13 25 24 9 43 3 36 9 15 ,00 0 92 1 D RY 66 0 12 00 94 0 68 0 39 0 56 0 87 0 62 1 B er y ll i um NL 1 * * * * * * * * * * * * * * * * * * * Ca d m i um 1 .75 1 10 1 1 * 15 2 13 14 .6 89 95 D RY 32 30 32 5 .5 2 .8 * 7 .3 4 .6 C h r o m i um 50 10 * 6 * * 18 1 * * 9 64 0 66 D RY 36 61 38 29 16 34 64 16 .3 C ob a lt NL 10 * 65 73 67 14 2 63 46 72 92 0 46 D RY * 61 54 44 37 42 44 29 .8 C op p er 10 00 10 13 11 11 22 34 13 * * 69 0 11 0 D RY 50 11 0 65 48 32 48 88 * L e ad 15 10 * * 5 12 * 13 * 4 80 29 D RY 17 22 16 14 7 .5 10 24 * N i c k el 10 0 50 * 13 * * 19 12 * 16 50 0 35 D RY 17 47 27 30 16 26 36 * Se l e n i um 50 10 * * * * * * * * * 14 D RY 14 * * * 7 .4 * * * V a n a d i um NL 20 * * * * * * * * 91 0 64 D RY 37 73 47 27 16 31 71 * Z i nc 10 50 10 14 44 19 70 30 0 51 32 26 6 25 30 64 2 D RY 27 0 27 0 22 0 19 0 63 88 16 0 * N O T E S: 1 . *- C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le M W -3 H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs 1 ,2 -D i c h lo r ob e n ze ne 1 ,4 -D i c h lo r ob e n ze ne A ce t on e Be n ze ne C ar bo n D i su l f i de C h lo r ob e n ze ne C h lo r o e th a ne c is -1 ,2 -D i c h lo r o e th e ne V in y l C h lo r i de M ET A LS A n ti m on y A r s e n ic B ar i um B er y ll i um Ca d m i um C h r o m i um C ob a lt C op p er L e ad N i c k el Se l e n i um V a n a d i um Z i ncMW-3 NC 2 L S WS L O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 7 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S WS L A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 24 5 * * * * * * * * * * 2. 9 * * 20 5 * * * * * 1. 4 1 * * * * 1. 3 1. 6 3. 1 1. 8 2. 1 2. 5 1. 0 * 2. 5 6 1 2. 5 * 1. 4 * 1. 1 70 0 10 0 * * * * * * * * * * * * * 60 0 0 10 0 * * * * * 1 1 * * * * * * * * * * 10 . 8 12 . 1 12 . 3 1 1 * * * * * 70 0 10 0 * * * * * * * * * * * * * 70 0 10 0 * * * * * 50 3 * * * * * * * * * * 4. 3 4. 8 * 50 3 * * * * * 28 0 0 10 * * * * * * * * * * * * * 30 0 0 10 * * * * * 70 5 * * * * * * * * * * 3. 4 3. 2 * 70 5 * * * * * 0.0 1 5 1 * * * * * * * * * * 12 . 4 13 . 1 * 0. 0 3 1 * * * * * NC 2 L S WS L O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 7 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S WS L A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 NL 6 * * * * * * * * * * * * * 1 6 * * * * * 10 10 * * * * * * * * * * * * * 10 10 * * * * * 20 0 0 10 0 96 6 * 19 4 0 62 6 0 25 8 0 26 6 36 0 63 3 0 13 5 0 62 5 1. 5 1. 6 62 5 70 0 10 0 33 4 84 0 31 3 48 0 13 3 0 NL 1 * * * 4. 3 1. 3 * * 3. 9 * * * * * 4 1 * * * * * 1.7 5 1 6. 3 1. 6 9. 3 26 . 2 4. 9 * * 23 . 6 2. 0 0 1. 4 1. 6 1. 8 1. 4 2 1 1. 6 1. 4 1. 1 * 1. 1 50 10 * * 14 . 8 11 4 20 . 3 * * 10 4 28 . 3 * * * * 10 10 * 46 . 8 * * 11 . 4 NL 10 43 23 . 7 64 . 3 21 5 74 . 5 16 . 1 14 . 1 19 1 41 . 0 20 . 4 1. 0 * 20 . 4 1 10 21 . 4 39 . 9 14 . 7 19 . 0 31 . 2 10 0 0 10 * * * * 18 4 * * 45 7 81 . 1 29 * * 29 10 0 0 10 18 . 9 77 . 1 * 32 . 4 71 . 1 15 10 14 . 7 * 18 . 5 82 . 6 26 . 1 * * 10 8 23 . 8 * * * * 15 10 * 17 . 6 * * 17 . 4 10 0 50 * * * 11 6 * * * 10 9 * * 50 1 30 5 * 10 0 50 * * * * * 50 10 * * * * * * * * * * 1. 3 * * 20 10 * * * * * NL 20 * * 44 27 9 74 . 9 * * 19 0 53 . 7 * 55 . 4 * * 0.3 25 * 56 . 6 * * 28 . 2 10 5 0 10 * * 82 . 6 61 6 10 3 * 12 . 8 50 6 84 . 5 21 . 5 22 . 8 * 21 . 5 10 0 0 10 14 . 6 13 9 16 . 1 22 . 4 53 . 0 N O T E S: 1 . *- C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs 1 ,2 -D i c h lo r ob e n ze ne 1 ,4 -D i c h lo r ob e n ze ne A ce t on e Be n ze ne C ar bo n D i su l f i de C h lo r ob e n ze ne C h lo r o e th a ne c is -1 ,2 -D i c h lo r o e th e ne V in y l C h lo r i de M ET A LS A n ti m on y A r s e n ic B ar i um B er y ll i um Ca d m i um C h r o m i um C ob a lt C op p er L e ad N i c k el Se l e n i um V a n a d i um Z i ncMW-3 NC 2 L S W SL O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 20 5 * * * * * * * * 6 1 * 1.9 1. 5 2. 8 * * * 2. 2 60 0 0 10 0 * * * * * * * * 1 1 * * * * * * * * 70 0 10 0 * * * * * * * * 50 3 * * * * * * * * 30 0 0 10 * * * * * * * * 70 5 * * * * * * * * 0. 0 3 1 * * * * * * * * NC 2 L S W SL O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 1 6 * * * * * * * * 10 10 * * * * * * * * 70 0 10 0 73 9 26 5 77 0 48 6 63 6 81 3 48 0 30 5 4 1 * * * * * * * * 2 1 * * * * * * * * 10 10 * * * * 21 . 8 45 . 2 24 . 8 * 1 10 22 . 3 18 . 7 25 . 6 22 . 5 25 . 5 31 . 5 20 . 3 20 . 9 10 0 0 10 42 . 0 * 35 . 5 16 . 2 46 . 5 70 . 5 34 . 7 12 . 6 15 10 12 . 7 * * * 12 . 8 18 . 1 * * 10 0 50 * * * * * * * * 20 10 * * * * * * * * 0. 3 25 * * * * 31 . 8 59 . 5 32 . 7 * 10 0 0 10 28 . 9 19 . 0 30 . 5 15 . 8 60 . 6 12 1 72 . 9 32 . 6 N O T E S: 1 . *- C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le Hi s t o r i c a l A n al y ti ca l R e s u l ts M a co n C ou nt y O l d F ra n k l i n L an d f i ll P er m it N o . 5 7 -01 MW -4 V O Cs NC 2 L S W S L Oc t -1 99 4 M a r -19 9 5 N ov -19 9 5 Ap r -19 9 6 Oc t -1 99 6 M a y -19 9 7 Oc t -1 99 7 Ap r -19 9 8 Oc t -1 99 8 Ap r -19 9 9 Oc t -1 99 9 M a y -20 0 0 Oc t -2 00 0 Ap r -20 0 1 Oc t -2 00 1 Ap r -20 0 2 Oc t -2 00 2 Ap r -20 0 3 Oc t -2 00 3 1 ,1 ,1 -T ri c h l o r o e t h a ne 20 0 1 13 10 9 6 * * * * * * * * * * NS NS NS * NS 1 ,1 -Di c h l o r o e t h a ne 70 5 16 14 22 16 13 12 9 11 .1 8 .4 8 .2 6 .2 7 .9 7 6 .7 NS NS NS * NS 1 ,4 -Di c h l o r ob e n ze ne 1 .4 1 12 10 11 8 10 15 14 * 14 13 .3 13 .5 13 16 11 NS NS NS 11 NS A ce t o ne 70 0 10 0 * * * * * * * * * * * * * * NS NS NS 79 0 NS B e n ze ne 1 1 9 .7 7 .1 8 8 9 * 7 * 7 .1 6 .9 6 .2 6 .4 5 .5 4 .6 NS NS NS 5 .4 NS C a r bo n Di s u l fi de 70 0 10 0 * * * * * * * * 2 .2 * 12 .6 7 .4 * * NS NS NS * NS C h l o r ob e n ze ne 50 3 * * * * * * * * * * * * 2 1 .8 NS NS NS * NS C h l o r o e t h a ne 28 00 10 16 13 19 15 18 14 * * * 9 .4 8 8 .6 * 8 .6 NS NS NS * NS c i s -1 ,2 -Di c h l o r o e t h e ne 70 5 * * * * * * * 28 .3 26 .9 31 .6 28 .6 30 .6 25 22 NS NS NS 21 NS M e t h y l e n e C h l o ri de 4 .6 1 11 0 11 0 16 0 10 0 * 31 * * * 24 .3 11 .8 9 .5 * 11 NS NS NS 9 .5 NS T e tr ac h l o r o e t h e n e (P C E) 0 .7 1 7 .1 5 .4 * * * * * * 2 .3 2 * * 1 .3 1 .5 NS NS NS * NS T ri c h l o r o e t h e n e (T C E ) 2 .8 1 * * * * * * * * * * * * 2 .1 2 NS NS NS * NS Vi n y l C h l o ri de 0 .01 5 1 * * * * * * * * * * * * 1 .7 1 .2 NS NS NS * NS X y l e n es t o t al 53 0 3 15 7 .3 6 9 29 28 17 17 .6 13 13 .9 6 .5 5 NS NS NS * NS M ET A LS NC 2 L S W S L Oc t -1 99 4 M a r -19 9 5 N ov -19 9 5 Ap r -19 9 6 Oc t -1 99 6 M a y -19 9 7 Oc t -1 99 7 Ap r -19 9 8 Oc t -1 99 8 Ap r -19 9 9 Oc t -1 99 9 M a y -20 0 0 Oc t -2 00 0 Ap r -20 0 1 Oc t -2 00 1 Ap r -20 0 2 Oc t -2 00 2 Ap r -20 0 3 Oc t -2 00 3 A n ti mo ny NL 6 * * * * * * * * * * * * * 3 .1 NS NS NS 5 .2 NS Ar se n ic 50 10 * * * * * * * * * * * * 13 * NS NS NS 5 .8 NS B a ri um 20 00 10 0 12 80 11 60 87 4 76 6 87 1 76 4 84 3 69 5 76 1 86 6 89 4 92 6 95 0 98 0 NS NS NS 67 0 NS C a d m i um 1 .75 1 1 * * * * * * * * * * * * * NS NS NS * NS C h r om i um 50 10 * 6 * * * 13 * * 29 7 * * 7 .6 * NS NS NS 66 NS C ob a lt NL 10 * * * * * * * 11 2 21 5 20 0 23 2 25 5 24 0 25 0 NS NS NS 33 NS C o pp er 10 00 10 23 30 20 * 14 13 * 19 * * * * * NS NS NS 18 0 NS L e ad 15 10 * * * * * 77 * * * * * * * * NS NS NS 22 NS Ni c k el 10 0 50 * * * * 30 29 34 26 43 43 34 39 64 27 NS NS NS 35 NS S e l e n i um 50 10 * * * * * * * * * 10 12 19 31 19 NS NS NS 6 .9 NS S il v er 18 10 * * * * * * * * * * * * 8 * NS NS NS * NS V a n a d i um NL 20 * * * * * * * * 26 * * * * * NS NS NS 87 NS Z i nc 10 50 10 68 67 41 69 66 26 * 93 45 29 32 * 27 19 NS NS NS 24 0 NS N O TE S : 1 . *- C o n s t i tu e n t d i d n o t e x c ee d la b o r a t o r y P r a c t i ca l Q u a nt i t a t io n ( PQ L )Li m i t o r S o li d W a s t e S ec t io n Li m i t (S W S L ). 2 . NS -l oc a t io n n o t s a m p l ed 3 . N L - c o n s t i tu e n t d o e s n o t h av e a NC 2 L St a nd a rd 4 . C o n s t i tu e nt s th a t e x c ee d th e NC 2 L St a nd a r d a re h ig h l ig h e d i n r ed 5 . DR Y - w e ll wa s d r y du ri n g s a m p li n g e v e nt 6 . A ll c o n s t i tu e nt s re p o r t e d i n p a r t s p er b i l l io n (pp b) 7 . O n ly c o m p o un d s d e t ec t e d a b ov e th e la b o r a t o r y PQ L o r S W S L a re li s t ed 8 . N /A - N o t A pp l i ca b le Hi s t o r i c a l A n al y ti ca l R e s u l ts M a co n C ou nt y O l d F ra n k l i n L an d f i ll P er m it N o . 5 7 -01 MW -4 V O Cs 1 ,1 ,1 -T ri c h l o r o e t h a ne 1 ,1 -Di c h l o r o e t h a ne 1 ,4 -Di c h l o r ob e n ze ne A ce t o ne B e n ze ne C a r bo n Di s u l fi de C h l o r ob e n ze ne C h l o r o e t h a ne c i s -1 ,2 -Di c h l o r o e t h e ne M e t h y l e n e C h l o ri de T e tr ac h l o r o e t h e n e (P C E) T ri c h l o r o e t h e n e (T C E ) Vi n y l C h l o ri de X y l e n es t o t al M ET A LS A n ti mo ny Ar se n ic B a ri um C a d m i um C h r om i um C ob a lt C o pp er L e ad Ni c k el S e l e n i um S il v er V a n a d i um Z i nc NC 2 L S W S L Ap r -20 0 5 Oc t -2 00 5 Ap r -20 0 6 Oc t -2 00 6 Ap r -20 0 7 Oc t -2 00 7 Ap r -20 0 8 Oc t -2 00 8 Ap r -20 0 9 Oc t -2 00 9 NC 2 L S W S L Ap r -20 1 0 Oc t -2 01 0 Ap r -20 1 1 Oc t -2 01 1 Ap r -20 1 2 Oc t -2 01 2 Ap r -20 1 3 Oc t -2 01 3 Ap r -20 1 4 Oc t -2 01 4 20 0 1 * NS NS NS * NS NS NS * NS 7 5 NS NS * NS NS NS * NS NS NS 70 5 * NS NS NS * NS NS NS * NS 0 .4 1 NS NS * NS NS NS * NS NS NS 1 .4 1 13 .3 NS NS NS 13 .6 NS NS NS 10 .5 NS 6 1 NS NS 10 NS NS NS 9 .3 NS NS NS 70 0 10 0 * NS NS NS * NS NS NS * NS 60 00 10 0 NS NS * NS NS NS * NS NS NS 1 1 5 .7 NS NS NS 3 .8 NS NS NS 3 .8 NS 1 1 NS NS 1 .9 NS NS NS 2 .3 NS NS NS 70 0 10 0 * NS NS NS * NS NS NS * NS 70 0 10 0 NS NS * NS NS NS * NS NS NS 50 3 * NS NS NS * NS NS NS * NS 50 3 NS NS 4 .9 NS NS NS 5 .2 NS NS NS 28 00 10 * NS NS NS * NS NS NS * NS 30 00 10 NS NS * NS NS NS * NS NS NS 70 5 21 .2 NS NS NS 15 .9 NS NS NS 13 .0 NS 70 5 NS NS 14 .1 NS NS NS 13 .6 NS NS NS 4 .6 1 5 .4 NS NS NS 1 .2 NS NS NS 1 .5 NS 5 1 NS NS * NS NS NS * NS NS NS 0 .7 1 * NS NS NS * NS NS NS * NS 0 .7 1 NS NS * NS NS NS * NS NS NS 2 .8 1 1 .7 NS NS NS 1 .5 NS NS NS * NS 3 1 NS NS * NS NS NS * NS NS NS 0 .01 5 1 1 .8 NS NS NS * NS NS NS * NS 0 .03 1 NS NS * NS NS NS * NS NS NS 53 0 3 * NS NS NS 1 .6 NS NS NS * NS 50 0 5 NS NS * NS NS NS * NS NS NS NC 2 L S W S L Ap r -20 0 5 Oc t -2 00 5 Ap r -20 0 6 Oc t -2 00 6 Ap r -20 0 7 Oc t -2 00 7 Ap r -20 0 8 Oc t -2 00 8 Ap r -20 0 9 Oc t -2 00 9 NC 2 L S W S L Ap r -20 1 0 Oc t -2 01 0 Ap r -20 1 1 Oc t -2 01 1 Ap r -20 1 2 Oc t -2 01 2 Ap r -20 1 3 Oc t -2 01 3 Ap r -20 1 4 Oc t -2 01 4 NL 6 * NS NS NS * NS NS NS * NS 1 6 NS NS * NS NS NS * NS NS NS 50 10 * NS NS NS * NS NS NS * NS 10 10 NS NS * NS NS NS * NS NS NS 20 00 10 0 95 7 NS NS NS 90 3 NS NS NS 10 30 NS 70 0 10 0 NS NS 94 5 NS NS NS 11 00 NS NS NS 1 .75 1 * NS NS NS * NS NS NS * NS 2 1 NS NS * NS NS NS 1 .6 NS NS NS 50 10 * NS NS NS * NS NS NS * NS 10 10 NS NS * NS NS NS 13 .9 NS NS NS NL 10 11 5 NS NS NS 86 .7 NS NS NS 56 .2 NS 1 10 NS NS 65 .7 NS NS NS 21 2 NS NS NS 10 00 10 * NS NS NS * NS NS NS * NS 10 00 10 NS NS * NS NS NS 27 .3 NS NS NS 15 10 * NS NS NS * NS NS NS * NS 15 10 NS NS * NS NS NS * NS NS NS 10 0 50 * NS NS NS * NS NS NS * NS 10 0 50 NS NS * NS NS NS 74 .2 NS NS NS 50 10 * NS NS NS * NS NS NS * NS 20 10 NS NS * NS NS NS * NS NS NS 18 10 * NS NS NS * NS NS NS * NS 20 10 NS NS * NS NS NS * NS NS NS NL 20 * NS NS NS * NS NS NS * NS 0 .3 25 NS NS * NS NS NS 37 .7 NS NS NS 10 50 10 * NS NS NS 77 .8 NS NS NS 29 .0 NS 10 00 10 NS NS 51 .2 NS NS NS 26 5 NS NS NS N O TE S : 1 . *- C o n s t i tu e n t d i d n o t e x c ee d la b o r a t o r y P r a c t i ca l Q u a nt i t a t io n ( PQ L )Li m i t o r S o li d W a s t e S ec t io n Li m i t (S W S L ). 2 . NS -l oc a t io n n o t s a m p l ed 3 . N L - c o n s t i tu e n t d o e s n o t h av e a NC 2 L St a nd a rd 4 . C o n s t i tu e nt s th a t e x c ee d th e NC 2 L St a nd a r d a re h ig h l ig h e d i n r ed 5 . DR Y - w e ll wa s d r y du ri n g s a m p li n g e v e nt 6 . A ll c o n s t i tu e nt s re p o r t e d i n p a r t s p er b i l l io n (pp b) 7 . O n ly c o m p o un d s d e t ec t e d a b ov e th e la b o r a t o r y PQ L o r S W S L a re li s t ed 8 . N /A - N o t A pp l i ca b le Hi s t o r i c a l A n al y ti ca l R e s u l ts M a co n C ou nt y O l d F ra n k l i n L an d f i ll P er m it N o . 5 7 -01 MW -4 V O Cs 1 ,1 ,1 -T ri c h l o r o e t h a ne 1 ,1 -Di c h l o r o e t h a ne 1 ,4 -Di c h l o r ob e n ze ne A ce t o ne B e n ze ne C a r bo n Di s u l fi de C h l o r ob e n ze ne C h l o r o e t h a ne c i s -1 ,2 -Di c h l o r o e t h e ne M e t h y l e n e C h l o ri de T e tr ac h l o r o e t h e n e (P C E) T ri c h l o r o e t h e n e (T C E ) Vi n y l C h l o ri de X y l e n es t o t al M ET A LS A n ti mo ny Ar se n ic B a ri um C a d m i um C h r om i um C ob a lt C o pp er L e ad Ni c k el S e l e n i um S il v er V a n a d i um Z i nc NC 2 L S W S L Ap r -20 1 5 Oc t -2 01 5 Ap r -20 1 6 7 5 * NS NS 0 .4 1 * NS NS 6 1 8 .9 NS NS 60 00 10 0 * NS NS 1 1 2 .0 NS NS 70 0 10 0 * NS NS 50 3 4 .7 NS NS 30 00 10 * NS NS 70 5 9 .3 NS NS 5 1 * NS NS 0 .7 1 * NS NS 3 1 * NS NS 0 .03 1 * NS NS 50 0 5 * NS NS NC 2 L S W S L Ap r -20 1 5 Oc t -2 01 5 Ap r -20 1 6 1 6 * NS NS 10 10 * NS NS 70 0 10 0 88 0 NS NS 2 1 * NS NS 10 10 * NS NS 1 10 36 .1 NS NS 10 00 10 * NS NS 15 10 * NS NS 10 0 50 * NS NS 20 10 * NS NS 20 10 * NS NS 0 .3 25 * NS NS 10 00 10 11 .1 NS NS N O TE S : 1 . *- C o n s t i tu e n t d i d n o t e x c ee d la b o r a t o r y P r a c t i ca l Q u a nt i t a t io n ( PQ L )Li m i t o r S o li d W a s t e S ec t io n Li m i t (S W S L ). 2 . NS -l oc a t io n n o t s a m p l ed 3 . N L - c o n s t i tu e n t d o e s n o t h av e a NC 2 L St a nd a rd 4 . C o n s t i tu e nt s th a t e x c ee d th e NC 2 L St a nd a r d a re h ig h l ig h e d i n r ed 5 . DR Y - w e ll wa s d r y du ri n g s a m p li n g e v e nt 6 . A ll c o n s t i tu e nt s re p o r t e d i n p a r t s p er b i l l io n (pp b) 7 . O n ly c o m p o un d s d e t ec t e d a b ov e th e la b o r a t o r y PQ L o r S W S L a re li s t ed 8 . N /A - N o t A pp l i ca b le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W -5 V O Cs NC 2L S WS L O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 O c t- 2 0 0 3 1, 1 -D i c h lo r o e th a ne 70 5 5 .5 * 8 6 * * 8 5 5 .3 5 .6 5 .2 5 .5 4 .6 3 .8 NS NS NS * NS 1 ,2 -D i c h lo r o e th a ne 0 .38 1 * * * * * * * * * * * 2 .1 2 1 .5 NS NS NS * NS 1 ,4 -D i c h lo r ob e n ze ne 1 .4 1 9 .6 7 .5 11 7 12 9 13 * 16 13 .5 12 .4 13 .4 16 13 NS NS NS 29 NS A ce t on e 70 0 10 0 * 21 0 64 12 * * * * * * * * * * NS NS NS 19 0 NS Be n ze ne 1 1 11 7 12 8 8 * 11 * 9 .7 11 .6 12 .6 13 .9 11 7 .8 NS NS NS 13 NS C ar bo n D i su l f i de 70 0 10 0 * * * * * * * * * * 3 .6 * * * NS NS NS * NS C h lo r o e th a ne 28 00 10 * * * * * * * * * * * * * 1 .7 NS NS NS * NS c is -1 ,2 -D i c h lo r o e th e ne 70 5 14 12 21 13 * * * 18 .1 17 .1 20 .1 18 19 .9 17 12 NS NS NS 32 NS D i c h lo r od i f l uo r o m e th a ne 14 00 NA * * 18 * 15 * * * * * * * * * NS NS NS * NS Me th y l e n e C h lo r i de 4 .6 1 * * 89 43 * * 45 * 39 .5 55 .5 52 .1 42 .2 8 .2 14 NS NS NS 21 NS T e t r ac h lo r o e th e n e (PC E) 0 .7 1 12 5 .8 * * * * * * 5 .6 5 .2 5 5 .3 3 .8 3 .9 NS NS NS 5 .4 NS T o lu e ne 10 00 1 * * * * 6 * * * * * * * * * NS NS NS * NS t ra ns -1 ,2 -D i c h lo r o e th e ne 10 0 5 * * * * * * * * * * * * * * NS NS NS * NS T r i c h lo r o e th e n e (T C E ) 2 .8 1 * * * * * * * * 3 .4 3 .3 3 3 .4 3 .1 2 .7 NS NS NS * NS V in y l C h lo r i de 0 .01 5 1 * * * * * * * * * 2 .4 * * 2 .1 * NS NS NS * NS X y l e n e s t ot al 53 0 3 7 .3 * 7 5 * * * * 5 .2 11 11 .3 7 .8 7 .2 7 .2 NS NS NS 8 .5 NS M ET A LS NC 2L S WS L O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 O c t- 2 0 0 3 A n ti m on y NL 6 * * * * * * 30 * * * * * * 4 .2 NS NS NS * NS A r s e n ic 50 10 * * * * * * * * 9 * 7 6 9 .8 NS NS NS * NS B ar i um 20 00 10 0 62 1 4 ,22 0 53 9 2 ,34 0 1 ,78 0 36 1 35 1 35 8 41 9 50 3 2 ,82 0 1 ,95 0 61 0 1 ,10 0 NS NS NS 48 0 NS Ca d m i um 1 .75 1 * * * * * * * * * * * 3 * 6 NS NS NS * NS C h r o m i um 50 10 * 7 * * 22 3 * * 14 15 13 19 9 14 0 44 95 NS NS NS 24 NS C ob a lt NL 10 22 97 16 45 12 2 * * * * * 10 2 74 21 45 NS NS NS 89 NS C op p er 10 00 10 12 12 8 * 47 91 30 23 44 33 35 52 7 36 9 77 22 0 NS NS NS 12 0 NS L e ad 15 10 6 41 * 34 * 7 9 * * 6 72 47 * 26 NS NS NS 13 NS N i c k el 10 0 50 * * * * 12 * * * * 75 54 25 36 NS NS NS 23 NS Se l e n i um 50 10 * * * * * * * * * * * * * 12 NS NS NS 16 NS V a n a d i um NL 20 * * * * 31 3 * * * * * 19 4 15 8 39 11 0 NS NS NS 22 NS Z i nc 10 50 10 27 10 0 18 64 18 5 15 9 22 98 88 74 74 53 6 15 0 32 0 NS NS NS 11 0 NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W -5 V O Cs 1 ,1 -D i c h lo r o e th a ne 1 ,2 -D i c h lo r o e th a ne 1 ,4 -D i c h lo r ob e n ze ne A ce t on e Be n ze ne C ar bo n D i su l f i de C h lo r o e th a ne c is -1 ,2 -D i c h lo r o e th e ne D i c h lo r od i f l uo r o m e th a ne Me th y l e n e C h lo r i de T e t r ac h lo r o e th e n e (PC E) T o lu e ne t ra ns -1 ,2 -D i c h lo r o e th e ne T r i c h lo r o e th e n e (T C E ) V in y l C h lo r i de X y l e n e s t ot al M ET A LS A n ti m on y A r s e n ic B ar i um Ca d m i um C h r o m i um C ob a lt C op p er L e ad N i c k el Se l e n i um V a n a d i um Z i nc NC 2L S W SL A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 O c t- 2 0 1 2 70 5 NS NS * NS NS NS * NS NS NS * NS 7 5 NS NS * NS NS NS 0. 3 8 1 NS NS 2. 1 NS NS NS * NS NS NS * NS 0 .4 1 NS NS * NS NS NS 1. 4 1 NS NS 22 NS NS NS 23 . 5 NS NS NS 17 . 6 NS 6 1 NS NS 24 . 1 NS NS NS 70 0 10 0 NS NS * NS NS NS * NS NS NS * NS 60 00 10 0 NS NS * NS NS NS 1 1 NS NS 10 .4 NS NS NS 13 .8 NS NS NS 6 .5 NS 1 1 NS NS 5. 3 NS NS NS 70 0 10 0 NS NS * NS NS NS * NS NS NS * NS 70 0 10 0 NS NS * NS NS NS 28 0 0 10 NS NS * NS NS NS * NS NS NS * NS 30 00 10 NS NS * NS NS NS 70 5 NS NS 21 .5 NS NS NS 21 .6 NS NS NS 16 .7 NS 70 5 NS NS 19 .3 NS NS NS 14 0 0 NA NS NS NA NS NS NS NA NS NS NS * NS 10 00 5 NS NS * NS NS NS 4. 6 1 NS NS * NS NS NS 1 .1 NS NS NS 6. 9 NS 5 1 NS NS * NS NS NS 0. 7 1 NS NS * NS NS NS 3. 2 NS NS NS 1. 5 NS 0 .7 1 NS NS * NS NS NS 10 0 0 1 NS NS * NS NS NS * NS NS NS * NS 60 0 1 NS NS * NS NS NS 10 0 5 NS NS * NS NS NS * NS NS NS * NS 10 0 5 NS NS * NS NS NS 2. 8 1 NS NS 2 NS NS NS 3. 6 NS NS NS 2 .2 NS 3 1 NS NS 1 .4 NS NS NS 0.0 1 5 1 NS NS 1. 1 NS NS NS * NS NS NS * NS 0 .03 1 NS NS * NS NS NS 53 0 3 NS NS * NS NS NS * NS NS NS * NS 50 0 5 NS NS * NS NS NS NC 2L S W SL A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 O c t- 2 0 1 2 NL 6 NS NS * NS NS NS * NS NS NS * NS 1 6 NS NS * NS NS NS 50 10 NS NS * NS NS NS * NS NS NS * NS 10 10 NS NS * NS NS NS 20 0 0 10 0 NS NS 12 80 NS NS NS 49 3 NS NS NS 36 3 NS 70 0 10 0 NS NS 46 6 NS NS NS 1. 7 5 1 NS NS * NS NS NS * NS NS NS * NS 2 1 NS NS * NS NS NS 50 10 NS NS 10 .5 NS NS NS * NS NS NS 8 NS 10 10 NS NS * NS NS NS NL 10 NS NS 94 .3 NS NS NS 35 .7 NS NS NS 15 .5 NS 1 10 NS NS 96 . 9 NS NS NS 10 0 0 10 NS NS * NS NS NS 39 .5 NS NS NS 39 .4 NS 10 00 10 NS NS 66 .5 NS NS NS 15 10 NS NS 24 . 4 NS NS NS * NS NS NS * NS 15 10 NS NS * NS NS NS 10 0 50 NS NS * NS NS NS * NS NS NS * NS 10 0 50 NS NS * NS NS NS 50 10 NS NS * NS NS NS * NS NS NS * NS 20 10 NS NS * NS NS NS NL 20 NS NS * NS NS NS * NS NS NS * NS 0 .3 25 NS NS * NS NS NS 10 5 0 10 NS NS 12 0 NS NS NS 48 .8 NS NS NS 45 .7 NS 10 00 10 NS NS 56 .8 NS NS NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W -5 V O Cs 1 ,1 -D i c h lo r o e th a ne 1 ,2 -D i c h lo r o e th a ne 1 ,4 -D i c h lo r ob e n ze ne A ce t on e Be n ze ne C ar bo n D i su l f i de C h lo r o e th a ne c is -1 ,2 -D i c h lo r o e th e ne D i c h lo r od i f l uo r o m e th a ne Me th y l e n e C h lo r i de T e t r ac h lo r o e th e n e (PC E) T o lu e ne t ra ns -1 ,2 -D i c h lo r o e th e ne T r i c h lo r o e th e n e (T C E ) V in y l C h lo r i de X y l e n e s t ot al M ET A LS A n ti m on y A r s e n ic B ar i um Ca d m i um C h r o m i um C ob a lt C op p er L e ad N i c k el Se l e n i um V a n a d i um Z i nc NC 2 L S WS L A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 7 5 1. 4 NS NS NS * NS NS 0 .4 1 18 . 6 NS NS NS 1. 8 NS NS 6 1 * NS NS NS 27 . 3 NS NS 60 00 10 0 * NS NS NS * NS NS 1 1 4. 4 NS NS NS 3. 9 NS NS 70 0 10 0 * NS NS NS * NS NS 30 00 10 * NS NS NS * NS NS 70 5 17 .7 NS NS NS 15 .1 NS NS 10 00 5 * NS NS NS * NS NS 5 1 * NS NS NS * NS NS 0 .7 1 * NS NS NS * NS NS 60 0 1 * NS NS NS * NS NS 10 0 5 * NS NS NS * NS NS 3 1 1 .3 NS NS NS 1 .0 NS NS 0 .03 1 * NS NS NS * NS NS 50 0 5 * NS NS NS * NS NS NC 2 L S WS L A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 1 6 * NS NS NS * NS NS 10 10 * NS NS NS * NS NS 70 0 10 0 44 5 NS NS NS 42 5 NS NS 2 1 * NS NS NS * NS NS 10 10 * NS NS NS * NS NS 1 10 12 2 NS NS NS 11 7 NS NS 10 00 10 46 .9 NS NS NS 21 .8 NS NS 15 10 * NS NS NS * NS NS 10 0 50 * NS NS NS * NS NS 20 10 * NS NS NS * NS NS 0 .3 25 * NS NS NS * NS NS 10 00 10 63 .8 NS NS NS 71 .6 NS NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W -6 V O Cs NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 1, 1 -D i c h lo r o e th a ne 70 5 N /A N /A N /A N /A N /A N /A * * * * 2 .4 2 .3 3 .9 2 .6 2 .6 2 .8 2 .5 2 .2 * 1 ,2 -D i c h lo r o e th a ne 0 .38 1 N /A N /A N /A N /A N /A N /A * * * * * * * 1 .2 * * * * * 1 ,4 -D i c h lo r ob e n ze ne 1 .4 1 N /A N /A N /A N /A N /A N /A * * * 7 .1 11 .5 11 .2 13 .9 14 10 13 12 11 * Be n ze ne 1 1 N /A N /A N /A N /A N /A N /A * * * 3 .8 6 .7 7 .4 9 .2 6 .6 3 .8 7 .8 7 6 .2 * C h lo r o e th a ne 28 00 10 N /A N /A N /A N /A N /A N /A * * * * * * * * * 1 .3 * * * c is -1 ,2 -D i c h lo r o e th e ne 70 5 N /A N /A N /A N /A N /A N /A * * * 7 14 .2 14 .4 18 .5 14 8 .5 17 17 14 * Me th y l e n e C h lo r i de 4 .6 1 N /A N /A N /A N /A N /A N /A * * * * 19 22 .9 27 .5 7 .8 16 24 25 21 * T e t r ac h lo r o e th e n e (PC E) 0 .7 1 N /A N /A N /A N /A N /A N /A * * * 3 .1 4 .1 3 .7 4 3 .3 3 .6 3 .8 3 .9 3 * T r i c h lo r o e th e n e (T C E ) 2 .8 1 N /A N /A N /A N /A N /A N /A * * * * * * * 2 1 .8 2 .3 2 .1 2 .1 * X y l e n e s t ot al 53 0 3 N /A N /A N /A N /A N /A N /A * * * 4 .1 8 .6 9 .1 5 .3 11 4 .9 9 9 .8 7 .4 * M ET A LS NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 A n ti m on y NL 6 N /A N /A N /A N /A N /A N /A * * * * * * * * 3 .5 * * * * A r s e n ic 50 10 N /A N /A N /A N /A N /A N /A * * * 11 6 9 8 25 * * * * 36 B ar i um 20 00 10 0 N /A N /A N /A N /A N /A N /A 13 7 9 12 8 2 28 2 11 5 0 27 80 44 30 48 00 22 00 26 00 35 00 12 0 00 10 0 00 13 0 B er y ll i um NL 10 N /A N /A N /A N /A N /A N /A * * * * * * * 3 .8 * 2 .2 5 .2 5 .1 * Ca d m i um 1 .75 1 N /A N /A N /A N /A N /A N /A * * * * * 2 2 * 10 * * * * C h r o m i um 50 10 N /A N /A N /A N /A N /A N /A * * * 54 57 17 5 94 13 0 17 0 19 0 33 0 30 0 * C ob a lt NL 10 N /A N /A N /A N /A N /A N /A 18 23 * 61 12 0 24 6 21 2 10 0 15 0 17 0 44 0 37 0 * C op p er 10 00 10 N /A N /A N /A N /A N /A N /A 14 29 * 12 1 15 7 49 0 26 2 23 0 35 0 44 0 78 0 93 0 4 .9 L e ad 15 10 N /A N /A N /A N /A N /A N /A 6 24 * 22 48 12 5 10 8 * * 88 23 0 25 0 * N i c k el 10 0 50 N /A N /A N /A N /A N /A N /A * * * 22 37 80 48 96 63 10 0 19 0 27 0 * Se l e n i um 50 10 N /A N /A N /A N /A N /A N /A * 11 * * 6 * * 19 13 * * * 5 .5 S il v er 18 10 N /A N /A N /A N /A N /A N /A * * * * * * * 2 .8 * * * * * V a n a d i um NL 20 N /A N /A N /A N /A N /A N /A * * * 83 84 20 4 10 2 15 0 25 0 26 0 46 0 49 0 * Z i nc 10 50 10 N /A N /A N /A N /A N /A N /A 37 25 64 28 1 30 8 85 4 43 8 38 0 71 0 84 0 15 00 13 00 12 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L -c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W -6 V O Cs 1 ,1 -D i c h lo r o e th a ne 1 ,2 -D i c h lo r o e th a ne 1 ,4 -D i c h lo r ob e n ze ne Be n ze ne C h lo r o e th a ne c is -1 ,2 -D i c h lo r o e th e ne Me th y l e n e C h lo r i de T e t r ac h lo r o e th e n e (PC E) T r i c h lo r o e th e n e (T C E ) X y l e n e s t ot al M ET A LS A n ti m on y A r s e n ic B ar i um B er y ll i um Ca d m i um C h r o m i um C ob a lt C op p er L e ad N i c k el Se l e n i um S il v er V a n a d i um Z i nc NC 2 L S WS L O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 70 5 * * * * * * * * * * * * * 0. 4 1 * * * * * 0.3 8 1 * * * * * * * * * * * * * 20 5 * * * * * 1. 4 1 * * 9. 2 5. 6 * * 12 . 2 12 . 7 16 . 9 10 . 1 12 . 6 15 . 8 11 . 8 6 1 * 3. 6 5.2 7. 9 8. 4 1 1 * * * * * * 2. 1 2. 0 3. 2 1. 4 3. 1 3. 8 2. 2 1 1 * * * 1. 4 * 28 0 0 10 * * * * * * * * * * * * * 30 0 0 10 * * * * * 70 5 * * * * * * 5. 4 6. 0 9. 2 6. 7 8. 7 10 . 0 7. 4 70 5 * * * * * 4. 6 1 * * * * * * 7. 2 7. 4 11 . 6 5. 7 10 . 6 12 . 2 7. 7 5 1 * * 1.3 2. 4 2. 4 0. 7 1 * * 1. 3 * * * * * 1. 5 * * 1. 1 1 0. 7 1 * * * * * 2. 8 1 * * * * * * * * 1. 1 * * 1. 0 * 3 1 * * * * * 53 0 3 * * * * * * * 3. 7 7. 3 * 4. 8 5. 8 1. 6 50 0 5 * * * * * NC 2 L S WS L O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 NL 6 * * * * * * * * * * * * * 1 6 * * * * * 50 10 6. 1 7. 1 * * * * * * * * * * * 10 10 * * * * * 20 0 0 10 0 11 0 0 34 0 0 16 3 0 15 2 0 70 9 86 2 63 9 70 7 31 7 31 4 37 1 29 1 25 3 70 0 10 0 28 3 50 0 45 3 28 2 43 1 NL 10 * * * * * * * * * * * * 4 1 * * * * * 1.7 5 1 * 21 * * * * * * * * * * * 2 1 * * * * * 50 10 89 20 0 13 3 * * * * * * * * * 10 10 * 25 . 7 * * * NL 10 44 18 0 85 . 6 47 . 6 12 . 9 16 . 6 * 12 . 4 12 . 7 * 14 . 8 13 . 6 * 1 10 * 10 . 3 * * * 10 0 0 10 23 0 55 0 30 7 * * * * 26 . 1 * * 21 . 5 * * 10 0 0 10 * 54 . 2 23 . 1 * 24 . 1 15 10 34 11 0 42 23 . 3 * 11 . 8 * 10 . 9 * * * * * 15 10 * 10 . 1 * * * 10 0 50 58 10 0 57 . 4 * * * * * * * * * * 10 0 50 * * * * * 50 10 * * * * * * * * * * * * * 20 10 * * * * * 18 10 * * * * * * * * * * * * * 20 10 * * * * * NL 20 12 0 29 0 19 1 * * * * * * * * * * 0. 3 25 * 34 . 7 * * * 10 5 0 10 32 0 79 0 40 3 * 51 * * 32 . 5 11 . 4 18 . 1 45 . 1 22 . 7 * 10 0 0 10 11 . 2 10 6 39 . 3 11 . 5 32 . 9 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L -c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W -6 V O Cs 1 ,1 -D i c h lo r o e th a ne 1 ,2 -D i c h lo r o e th a ne 1 ,4 -D i c h lo r ob e n ze ne Be n ze ne C h lo r o e th a ne c is -1 ,2 -D i c h lo r o e th e ne Me th y l e n e C h lo r i de T e t r ac h lo r o e th e n e (PC E) T r i c h lo r o e th e n e (T C E ) X y l e n e s t ot al M ET A LS A n ti m on y A r s e n ic B ar i um B er y ll i um Ca d m i um C h r o m i um C ob a lt C op p er L e ad N i c k el Se l e n i um S il v er V a n a d i um Z i nc NC 2 L S WS L O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 0. 4 1 * * * * * * * * 20 5 * * * * * * * * 6 1 10 . 5 2. 9 1. 8 1.7 4. 3 7.6 9. 1 2. 6 1 1 * * * * * * * * 30 0 0 10 * * * * * * * * 70 5 * * * * * * * * 5 1 3. 5 * * * * 1.1 1. 9 * 0. 7 1 * * * * * * * * 3 1 * * * * * * * * 50 0 5 * * * * * * * * NC 2 L S WS L O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 1 6 * * * * * * * * 10 10 * * * * * * * * 70 0 10 0 23 6 29 5 36 2 48 0 24 1 24 7 28 3 54 3 4 1 * * * * * * * * 2 1 * * * * * * * * 10 10 * * * * * * * 28 . 1 1 10 * * * * * * * 12 . 1 10 0 0 10 * 11 . 8 13 . 8 10 . 4 * 11 . 3 21 . 7 75 . 0 15 10 * * * * * * * 11 . 7 10 0 50 * * * * * * * * 20 10 * * * * * * * * 20 10 * * * * * * * * 0. 3 25 * * * * * * * 41 . 3 10 0 0 10 12 . 3 24 . 1 28 . 8 13 . 1 21 . 0 17 . 5 25 . 6 12 4 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L -c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W- 6A V O Cs NC 2L S W SL A pr -2 0 0 3 O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 A pr -2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 1, 4 -D i c h lo r ob e n ze ne 1 .4 1 8 .2 NS NS NS 9 .5 NS NS NS 8 .6 NS NS NS 11 .2 NS 6 1 NS NS 15 .3 A ce t on e 70 0 10 0 12 NS NS NS * NS NS NS * NS NS NS * NS 60 00 10 0 NS NS * Be n ze ne 1 1 6 .3 NS NS NS 5 .6 NS NS NS 6 .0 NS NS NS 6 .2 NS 1 1 NS NS 4 .7 c is -1 ,2 -D i c h lo r o e th e ne 70 5 16 NS NS NS 17 .3 NS NS NS 14 .6 NS NS NS 16 .4 NS 70 5 NS NS 19 .5 Me th y l e n e C h lo r i de 4 .6 1 11 NS NS NS 5 .2 NS NS NS 5 .1 NS NS NS 2 .5 NS 5 1 NS NS 2 .2 T e t r ac ho r o e th a ne 0 .7 1 * NS NS NS * NS NS NS 1 .6 NS NS NS 1 .3 NS 0 .7 1 NS NS 1 .1 T r i c h lo r o e th e ne 2 .8 1 * NS NS NS 1 .7 NS NS NS 1 .6 NS NS NS 1 .7 NS 3 1 NS NS 1 .4 X y l e n es 53 0 3 * NS NS NS * NS NS NS * NS NS NS 1 .2 NS 50 0 5 NS NS * M ET A LS NC 2L S W SL A pr -2 0 0 3 O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 A pr -2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 A n ti m on y NL 6 36 NS NS NS * NS NS NS * NS NS NS * NS NL 6 NS NS * B ar i um 20 00 10 0 28 0 NS NS NS * NS NS NS 28 1 NS NS NS 28 8 NS 70 0 10 0 NS NS 30 2 C h r o m i um 50 10 6 .8 NS NS NS * NS NS NS * NS NS NS * NS 10 10 NS NS * C ob a lt NL 10 14 NS NS NS 14 .5 NS NS NS 14 .5 NS NS NS 14 .3 NS NL 10 NS NS 14 .3 C op p er 10 00 10 17 NS NS NS * NS NS NS * NS NS NS * NS 10 00 10 NS NS * N i c k el 10 0 50 19 NS NS NS * NS NS NS * NS NS NS * NS 10 0 50 NS NS * V a n a d i um NL 20 7 NS NS NS * NS NS NS * NS NS NS * NS NL 25 NS NS * Z i nc 10 50 10 58 NS NS NS * NS NS NS 92 .5 NS NS NS 12 .5 NS 10 00 10 NS NS 18 .6 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W- 6A V O Cs 1 ,4 -D i c h lo r ob e n ze ne A ce t on e Be n ze ne c is -1 ,2 -D i c h lo r o e th e ne Me th y l e n e C h lo r i de T e t r ac ho r o e th a ne T r i c h lo r o e th e ne X y l e n es M ET A LS A n ti m on y B ar i um C h r o m i um C ob a lt C op p er N i c k el V a n a d i um Z i nc NC 2L S W SL O c t- 2 0 1 1 A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 6 1 NS NS NS 11 .3 NS NS NS 9 .6 NS NS 60 00 10 0 NS NS NS * NS NS NS * NS NS 1 1 NS NS NS 4 .5 NS NS NS * NS NS 70 5 NS NS NS 18 .9 NS NS NS 6 .8 NS NS 5 1 NS NS NS * NS NS NS * NS NS 0 .7 1 NS NS NS * NS NS NS * NS NS 3 1 NS NS NS 1 .5 NS NS NS * NS NS 50 0 5 NS NS NS * NS NS NS * NS NS NC 2L S W SL O c t- 2 0 1 1 A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 1 6 NS NS NS * NS NS NS * NS NS 70 0 10 0 NS NS NS 29 6 NS NS NS 29 7 NS NS 10 10 NS NS NS * NS NS NS * NS NS 1 10 NS NS NS 14 .0 NS NS NS 12 .4 NS NS 10 00 10 NS NS NS * NS NS NS * NS NS 10 0 50 NS NS NS * NS NS NS * NS NS 0 .3 25 NS NS NS * NS NS NS * NS NS 10 00 10 NS NS NS 13 .2 NS NS NS 43 .7 NS NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W- 6 CR V O Cs NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 1, 1 -D i c h lo r o e th a ne 70 5 .0 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 2 3 .5 1 .4 2 .7 2 .2 2 .3 2 .3 * 1 ,2 -D i c h lo r ob e n ze ne 24 5 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * 1 ,4 -D i c h lo r ob e n ze ne 1 .4 1 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 3 .3 4 .5 3 .3 3 .6 4 4 .2 3 .5 8 .4 2 -B ut a no ne 42 00 10 0 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * A ce t on e 70 0 10 0 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * 12 * * * * * * Be n ze ne 1 1 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 3 .3 5 .2 2 .9 3 .7 4 3 .8 4 .2 * C ar bo n D i su l f i de 70 0 10 0 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * 18 .6 * * * * 9 .9 * C h lo r ob e n ze ne 50 3 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * C h lo r o e th a ne 28 00 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * 1 .6 * * * * c is -1 ,2 -D i c h lo r o e th e ne 70 5 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 8 .5 8 .3 7 .8 9 .9 9 .4 8 .6 10 14 Me th y l e n e c h lo r i de 4 .6 1 .0 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 16 .6 15 .8 10 22 * * * 10 T e t r ac h lo r o e th e n e (PC E) 0 .7 1 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * 1 .8 1 .8 1 .6 * 1 .1 * T r i c h lo r o e th e n e (T C E) 2 .8 1 .0 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * 1 .2 1 .4 1 .4 1 .4 1 .1 * X y l e n e s t ot al 53 0 3 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 4 .8 2 .6 * * 3 .4 3 .6 3 .5 5 .4 M ET A LS NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 A n ti m on y NL 6 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * 2 .2 * * * * A r s e n ic 50 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 5 * 8 .6 6 .6 8 .4 13 16 * B ar i um 20 00 10 0 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 34 30 47 48 61 61 72 11 Ca d m i um 1 .75 1 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * C h r o m i um 50 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 19 5 21 11 6 .4 * * * C ob a lt NL 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * L e ad 15 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 5 * * * * * * * N i c k el 10 0 50 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * 11 * * * * * Se l e n i um 50 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * 6 23 11 * * * * Z i nc 10 50 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 23 * 41 40 23 14 11 11 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S -l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W- 6 CR V O Cs 1 ,1 -D i c h lo r o e th a ne 1 ,2 -D i c h lo r ob e n ze ne 1 ,4 -D i c h lo r ob e n ze ne 2 -B ut a no ne A ce t on e Be n ze ne C ar bo n D i su l f i de C h lo r ob e n ze ne C h lo r o e th a ne c is -1 ,2 -D i c h lo r o e th e ne Me th y l e n e c h lo r i de T e t r ac h lo r o e th e n e (PC E) T r i c h lo r o e th e n e (T C E) X y l e n e s t ot al M ET A LS A n ti m on y A r s e n ic B ar i um Ca d m i um C h r o m i um C ob a lt L e ad N i c k el Se l e n i um Z i nc <= =M W -6C M W -6 CR == > NC 2 L S WS L O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S WS L A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 70 5. 0 * * * * * * * * NS * 1 .6 * * 7 5 * * * * * 24 5 * * * * * * * * NS * * * * 20 5 * * * * * 1. 4 1 15 8. 5 12 . 3 11 12 . 1 11 . 8 11 . 0 11 . 6 NS 7. 6 7. 4 10 . 1 12 . 7 6 1 11 . 6 11 . 2 13 . 2 12 . 8 14 . 3 42 0 0 10 0 * * * * * * * * NS 24 4 * * * 40 00 10 * * * * * 70 0 10 0 * * * * * * * * NS * * * * 60 00 10 0 * * * * * 1 1 8. 2 * 5. 5 5. 8 5. 6 5. 1 6. 5 5. 4 NS 1. 3 1. 5 2.2 2. 6 1 1 1. 6 1. 7 1. 5 2. 2 1. 7 70 0 10 0 * * * * * * * * NS * * * * 70 0 10 0 * * * * * 50 3 * * * * * * * * NS * * * * 50 3 * * * * * 28 0 0 10 * * * * * * * * NS * * * * 30 00 10 * * * * * 70 5 27 15 14 . 2 16 . 7 18 . 4 16 . 8 15 . 8 15 . 3 NS 10 .5 10 .8 13 .5 14 . 9 70 5 13 . 3 14 . 6 16 . 6 16 . 4 15 . 2 4. 6 1. 0 8. 1 * * * * * * * NS 1 .4 * * * 5 1 * * * * * 0. 7 1 * * 2. 1 * * 1. 3 1. 5 1. 4 NS * * * 1. 1 0. 7 1 * * 1. 0 * * 2. 8 1. 0 * * 2. 0 1. 8 * 1. 6 2. 0 1. 8 NS 1 .2 1 .1 1 .5 1. 6 3 1 1. 2 1. 3 1. 3 1. 2 1. 2 53 0 3 * * * * * * * 3. 0 NS * * * * 50 0 5 * * * * * NC 2 L S WS L O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S WS L A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 NL 6 * * * * * * * * NS * * * * 1 6 * * * * * 50 10 27 20 16 . 7 11 . 1 13 . 3 13 . 7 11 . 7 12 . 9 NS * * * * 10 10 * * * * * 20 0 0 10 0 14 0 12 0 * * * * * 17 1 NS * * * 22 4 70 0 10 0 27 8 37 1 36 9 40 2 51 4 1. 7 5 1 * 3. 3 * * * * * * NS * * * * 2 1 * * * * * 50 10 * * * * * * * * NS * * * * 10 10 * * * * * NL 10 * * * * * * * * NS 10 .5 * * 14 . 2 1 10 14 . 3 30 . 4 33 . 3 31 . 8 41 . 2 15 10 * * * * * * * * NS * * * * 15 10 * * * * * 10 0 50 * * * * * * * * NS * * * * 10 0 50 * * * * * 50 10 * * * * * * * * NS * * * * 20 10 * * * * * 10 5 0 10 * * * * * * * 47 . 7 NS * * * * 10 00 10 * 13 .0 * * 19 .4 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S -l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W- 6 CR V O Cs 1 ,1 -D i c h lo r o e th a ne 1 ,2 -D i c h lo r ob e n ze ne 1 ,4 -D i c h lo r ob e n ze ne 2 -B ut a no ne A ce t on e Be n ze ne C ar bo n D i su l f i de C h lo r ob e n ze ne C h lo r o e th a ne c is -1 ,2 -D i c h lo r o e th e ne Me th y l e n e c h lo r i de T e t r ac h lo r o e th e n e (PC E) T r i c h lo r o e th e n e (T C E) X y l e n e s t ot al M ET A LS A n ti m on y A r s e n ic B ar i um Ca d m i um C h r o m i um C ob a lt L e ad N i c k el Se l e n i um Z i nc NC 2 L S WS L O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 7 5 * * * * * * * * 20 5 17 . 0 * * * * * * * 6 1 13 . 9 14 . 1 13 . 0 12 . 6 15 . 2 15 . 6 13 . 9 14 . 4 40 0 0 10 * * * * * * * * 60 0 0 10 0 * * * * * * * * 1 1 1. 3 2. 3 1. 9 1. 7 1. 7 1. 4 1. 6 1. 5 70 0 10 0 * * * * * * * * 50 3 * * * * 3. 3 3. 1 3. 3 3. 7 30 0 0 10 * * * * * * * * 70 5 12 . 5 20 . 1 15 . 3 15 . 6 15 . 6 14 . 4 13 . 1 14 . 0 5 1 * * * * * * * * 0. 7 1 * * * * * * * * 3 1 * 1. 4 * 1. 2 1. 2 * * * 50 0 5 * * * * * * * * NC 2 L S WS L O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 1 6 * * * * * * * * 10 10 * * * * * * * * 70 0 10 0 38 3 34 0 29 3 33 6 36 7 40 3 36 7 30 7 2 1 * * * * * * * * 10 10 * * * * * * * * 1 10 44 . 3 41 . 8 28 . 6 33 . 3 37 . 1 36 . 9 32 . 3 32 . 3 15 10 * * * * * * * * 10 0 50 * * * * * * * * 20 10 * * * * * * * * 10 0 0 10 * 10 . 9 * 14 . 2 12 . 4 11 . 6 * * N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S -l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 1, 4 -D i c h lo r ob e n ze ne 1 .4 1 N /A N /A N /A N /A N /A N /A * * * 4 .3 2 .8 2 4 2 * 1 .9 * * * c is -1 ,2 -D i c h lo r o e th e ne 70 5 N /A N /A N /A N /A N /A N /A * * * 5 .6 5 .9 4 .3 4 .3 3 .3 2 .2 4 * 3 * M ET A LS NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 A n ti m on y NL 6 N /A N /A N /A N /A N /A N /A * * * * * * * * 2 .9 * * 6 .2 * A r s e n ic 50 10 N /A N /A N /A N /A N /A N /A * * * * * 9 * 11 0 * * * * * B ar i um 20 00 10 0 N /A N /A N /A N /A N /A N /A 6 ,40 2 2 ,96 1 2 ,71 0 1 ,10 0 1 ,63 0 10 ,20 0 1 ,18 0 25 ,00 0 1 ,90 0 12 ,00 0 2 ,80 0 1 ,90 0 38 0 B er y ll i um NL 1 N /A N /A N /A N /A N /A N /A * * * * * * * 27 3 13 2 .4 2 * Ca d m i um 1 .75 1 N /A N /A N /A N /A N /A N /A 2 1 * * * 4 * * 6 .4 5 .3 * * * C h r o m i um 50 10 N /A N /A N /A N /A N /A N /A * 5 69 10 68 33 3 23 82 0 89 53 0 90 93 7 .7 C ob a lt NL 10 N /A N /A N /A N /A N /A N /A 19 * 60 * 36 23 6 * 56 0 46 37 0 61 55 * C op p er 10 00 10 N /A N /A N /A N /A N /A N /A 79 23 13 3 17 10 8 75 0 46 1 ,60 0 20 0 1 ,10 0 19 0 20 0 16 L e ad 15 10 N /A N /A N /A N /A N /A N /A 9 * 6 4 * * 14 14 * 92 14 19 * N i c k el 10 0 50 N /A N /A N /A N /A N /A N /A 18 * 37 * 37 13 7 11 55 0 56 30 0 53 86 * Se l e nu im 50 10 N /A N /A N /A N /A N /A N /A * * * * 9 * * 18 0 * 6 .9 15 * * S il v er 18 10 N /A N /A N /A N /A N /A N /A * * * * * * * 18 * * * * * V a n a d i um NL 20 N /A N /A N /A N /A N /A N /A * * 10 8 22 11 0 31 1 40 63 0 20 0 51 0 15 0 16 0 11 Z i nc 10 50 10 N /A N /A N /A N /A N /A N /A 11 2 35 21 3 34 17 0 1 ,05 0 63 2 ,20 0 34 0 1 ,80 0 27 0 24 0 22 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le M W -7 H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs 1 ,4 -D i c h lo r ob e n ze ne c is -1 ,2 -D i c h lo r o e th e ne M ET A LS A n ti m on y A r s e n ic B ar i um B er y ll i um Ca d m i um C h r o m i um C ob a lt C op p er L e ad N i c k el Se l e nu im S il v er V a n a d i um Z i ncMW-7 NC 2 L S WS L O c t- 2 0 0 3 O c t- 0 3 d up A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 1. 4 1 * * * * * * * * * * * * * * 6 1 * * * * 70 5 * * * * * * * * * * * * * * 70 5 * * * * NC 2 L S WS L O c t- 2 0 0 3 O c t- 0 3 d up A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 NL 6 * * * * * * * * * * * * * * NL 6 * * * * 50 10 * 7. 1 * * * * * * * * * * * * 10 10 * * * * 20 0 0 10 0 94 0 94 0 96 0 2, 4 1 0 3, 2 0 0 1, 6 2 0 1, 9 5 0 56 3 5, 5 3 0 6, 2 2 0 1, 0 0 0 9, 1 7 0 1,5 8 0 10 7 0 70 0 10 0 13 3 0 18 7 0 12 7 0 38 8 0 NL 1 * * * 2. 3 * * * * 2. 0 1. 2 * 7. 1 1. 1 * NL 1 * 1 .2 * * 1. 7 5 1 * * 2. 7 * * * * * * * * 2. 0 * 2 1 * * * * 50 10 62 65 24 17 1 * 26 . 1 * * * * * 27 8 38 . 7 * 10 10 * 42 . 8 * * NL 10 23 24 18 61 . 1 49 . 9 15 . 9 20 . 7 * 54 . 0 14 . 7 * 21 9 28 . 6 14 . 9 NL 10 22 . 6 26 . 6 23 . 4 19 . 5 10 0 0 10 12 0 13 0 55 28 1 * * * * 65 . 3 27 13 . 8 52 4 82 . 3 22 . 2 10 0 0 10 26 . 5 82 . 2 26 . 9 53 . 1 15 10 10 11 9. 1 19 . 4 11 . 4 * * * 11 . 4 9. 5 * 68 . 6 * * 15 10 * * * * 10 0 50 43 46 11 78 . 6 * * * * * * * 11 4 * * 10 0 50 * * * * 50 10 * * * * * * * * * * * 16 . 3 * * 20 10 * * * * 18 10 * * * * * * * * * * * * * * 20 10 * * * * NL 20 86 92 48 24 7 * 40 . 1 * * * * * 22 0 74 . 1 25 . 7 NL 25 * 56 . 4 * 27 . 1 10 5 0 10 13 0 15 0 71 32 7 55 98 * * 11 3 59 . 3 25 . 1 87 9 14 1 43 . 2 10 0 0 10 46 . 5 11 6 46 . 7 59 . 4 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs 1 ,4 -D i c h lo r ob e n ze ne c is -1 ,2 -D i c h lo r o e th e ne M ET A LS A n ti m on y A r s e n ic B ar i um B er y ll i um Ca d m i um C h r o m i um C ob a lt C op p er L e ad N i c k el Se l e nu im S il v er V a n a d i um Z i ncMW-7 NC 2 L S WS L A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 6 1 * * * * * * * 1. 2 * 70 5 * * * * * * * * * NC 2 L S WS L A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 1 6 * * * * * * * * * 10 10 * * * * * * * * * 70 0 10 0 11 5 0 31 2 0 10 4 0 10 8 0 10 7 0 13 2 0 16 1 0 96 8 64 9 4 1 * * * * * * 2. 3 * * 2 1 * * * * * * * * * 10 10 * * 26 . 2 * * 23 . 8 10 6 36 . 2 25 . 2 1 10 14 . 0 20 . 8 20 . 3 13 . 3 17 . 3 21 . 4 46 . 4 15 . 1 13 . 6 10 0 0 10 22 . 7 51 . 3 58 . 9 24 . 6 24 . 6 57 . 1 14 7 77 . 2 50 . 8 15 10 * * * * * * 15 . 2 * * 10 0 50 * * * * * * 57 . 3 * * 20 10 * * * * * * * * * 20 10 * * * * * * * * * 0. 3 25 * * 39 . 3 * * 41 . 3 16 2 57 . 0 41 . 5 10 0 0 10 39 . 6 68 . 8 95 . 2 41 . 9 31 . 5 72 . 4 18 1 90 . 3 64 . 3 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W- 7A V O Cs NC 2 L S W SL A pr -2 0 0 3 O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 1, 2 -D i c h lo r ob e n ze ne 24 5 * NS NS NS * NS NS NS * NS NS NS * NS 20 5 NS NS * NS 1 ,4 -D i c h lo r ob e n ze ne 1 .4 1 * NS NS NS 6 .7 NS NS NS 8 .1 NS NS NS 8 .4 NS 6 1 NS NS 8 .4 NS Be n ze ne 1 1 * NS NS NS * NS NS NS 1 .3 NS NS NS 1 .5 NS 1 1 NS NS * NS C h lo r ob e n ze ne 50 3 * NS NS NS * NS NS NS 10 .9 NS NS NS 18 .2 NS 50 3 NS NS 8 .0 NS c is -1 ,2 -D i c h lo r o e th e ne 70 5 6 .6 NS NS NS 5 .2 NS NS NS 8 .3 NS NS NS 9 .5 NS 70 5 NS NS * NS M ET A LS NC 2 L S W SL A pr -2 0 0 3 O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A n ti m on y NL 6 34 NS NS NS * NS NS NS * NS NS NS * NS NL 6 NS NS * NS B ar i um 20 00 10 0 48 0 NS NS NS * NS NS NS 54 0 NS NS NS 57 3 NS 70 0 10 0 NS NS 50 7 NS Ca d m i um 1 .75 1 4 .1 NS NS NS 1 .2 NS NS NS 1 .5 NS NS NS 1 .6 NS 2 1 NS NS 1 .5 NS C h r o m i um 50 10 12 NS NS NS * NS NS NS * NS NS NS * NS 10 10 NS NS * NS C ob a lt NL 10 15 NS NS NS * NS NS NS 11 .9 NS NS NS 11 .9 NS NL 10 NS NS 10 .4 NS C op p er 10 00 10 19 NS NS NS * NS NS NS * NS NS NS * NS 10 00 10 NS NS * NS L e ad 15 10 5 NS NS NS * NS NS NS * NS NS NS * NS 15 10 NS NS * NS N i c k el 10 0 50 12 NS NS NS * NS NS NS * NS NS NS * NS 10 0 50 NS NS * NS Se l e n i um 50 10 7 .4 NS NS NS * NS NS NS * NS NS NS * NS 20 10 NS NS * NS V a n a d i um NL 20 18 NS NS NS * NS NS NS * NS NS NS * NS NL 25 NS NS * NS Z i nc 10 50 10 54 NS NS NS * NS NS NS 20 .2 NS NS NS 10 .9 NS 10 00 10 NS NS 11 .0 NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W- 7A V O Cs 1 ,2 -D i c h lo r ob e n ze ne 1 ,4 -D i c h lo r ob e n ze ne Be n ze ne C h lo r ob e n ze ne c is -1 ,2 -D i c h lo r o e th e ne M ET A LS A n ti m on y B ar i um Ca d m i um C h r o m i um C ob a lt C op p er L e ad N i c k el Se l e n i um V a n a d i um Z i nc NC 2 L S WS L A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 20 5 NS NS * NS NS NS 7 .1 NS NS 6 1 NS NS 5 .9 NS NS NS 8 .4 NS NS 1 1 NS NS * NS NS NS 1 .2 NS NS 50 3 NS NS 7 .7 NS NS NS 22 .2 NS NS 70 5 NS NS * NS NS NS * NS NS NC 2 L S WS L A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 1 6 NS NS * NS NS NS * NS NS 70 0 10 0 NS NS 48 2 NS NS NS 82 4 NS NS 2 1 NS NS * NS NS NS 1 .9 NS NS 10 10 NS NS 1 .4 NS NS NS * NS NS 1 10 NS NS 10 .7 NS NS NS 21 .2 NS NS 10 00 10 NS NS * NS NS NS * NS NS 15 10 NS NS * NS NS NS * NS NS 10 0 50 NS NS * NS NS NS * NS NS 20 10 NS NS * NS NS NS * NS NS 0 .3 25 NS NS * NS NS NS * NS NS 10 00 10 NS NS 10 .1 NS NS NS 25 .6 NS NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 1, 2 -D i c h lo r ob e n ze ne 24 5 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * 1 ,4 -D i c h lo r ob e n ze ne 1 .4 1 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 5 .7 5 .5 4 .1 5 .1 4 .6 4 .7 4 .5 * Be n ze ne 1 1 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * C ar bo n D i su l f i de 70 0 10 0 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 90 .2 7 .1 * * * * * * C h lo r ob e n ze ne 50 3 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * c is -1 ,2 -D i c h lo r o e th e ne 70 5 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 8 .1 5 .6 6 .4 6 .1 6 .5 4 .8 5 .4 8 .2 M ET A LS NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 A n ti m on y NL 6 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * 6 .7 A r s e n ic 50 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * 8 .1 7 * * * * B ar i um 20 00 10 0 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 41 6 42 8 40 0 14 0 41 0 41 0 41 0 40 0 Ca d m i um 1 .75 1 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * C h r o m i um 50 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * 2 .6 * * * 74 * C ob a lt NL 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * 12 * 13 13 13 14 L e ad 15 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * 4 4 * * * * * N i c k el 10 0 50 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * 16 * * * 58 * Se l e n i um 50 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * 26 * * 13 * 7 .4 S il v er 18 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * 10 * * * * * Z i nc 10 50 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 28 * 40 * 15 22 27 * N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le M W- 7C H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs 1 ,2 -D i c h lo r ob e n ze ne 1 ,4 -D i c h lo r ob e n ze ne Be n ze ne C ar bo n D i su l f i de C h lo r ob e n ze ne c is -1 ,2 -D i c h lo r o e th e ne M ET A LS A n ti m on y A r s e n ic B ar i um Ca d m i um C h r o m i um C ob a lt L e ad N i c k el Se l e n i um S il v er Z i ncMW- 7C NC 2 L S WS L O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 24 5 * * * * * * * * * * 2. 4 * * 20 5 * * * * * 1. 4 1 * 6. 7 8. 1 * 7. 3 8. 1 7. 5 7. 8 8. 2 8. 1 7. 2 8. 2 8. 1 6 1 6. 7 7. 6 8. 0 8. 5 8. 6 1 1 * * 1. 2 1. 3 1. 0 1. 2 1. 7 1. 4 1. 3 1. 2 1. 2 1. 4 1. 1 1 1 * 1. 3 * 1. 7 1. 3 70 0 10 0 * * * * * * * * * * * * * 70 0 10 0 * * * * * 50 3 * * * * * * 5. 7 7. 1 9. 5 9. 5 10 . 1 12 . 3 10 . 1 50 3 5. 3 8. 7 7.5 11 . 9 13 . 7 70 5 7. 1 6. 6 5. 4 6. 6 5. 2 6 7. 8 7. 1 6. 5 6. 8 6. 2 7. 3 5. 4 70 5 * * * 5. 5 * NC 2 L S WS L O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 NL 6 * * * * * * * * * * * * * NL 6 * * * * * 50 10 * * * * * * * * * * * * * 10 10 * * * * * 20 0 0 10 0 46 0 46 0 * 51 1 57 3 * 43 8 42 2 43 5 47 8 46 8 44 9 70 0 10 0 48 0 51 6 52 4 54 1 54 2 1. 7 5 1 * 1. 4 * * * * * * * * * * * 2 1 * * * * * 50 10 * * * * * * * * * * * * * 10 10 * * * * * NL 10 15 16 10 . 6 13 . 3 13 . 8 14 . 9 * 13 . 4 11 . 5 11 . 5 16 . 7 13 . 9 13 . 7 NL 10 15 . 9 15 . 7 15 . 9 16 . 6 14 . 4 15 10 * * * * * * * * * * * * * 15 10 * * * * * 10 0 50 5. 9 * * * * * * * * * * * * 10 0 50 * * * * * 50 10 8. 4 6. 3 * * * * * * * * * * * 20 10 * * * * * 18 10 * * * * * * * * * * * * * 20 10 * * * * * 10 5 0 10 13 * 13 1 * * * * * 62 . 4 14 . 0 13 . 2 * * 10 0 0 10 * * * 12 . 4 11 . 6 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs 1 ,2 -D i c h lo r ob e n ze ne 1 ,4 -D i c h lo r ob e n ze ne Be n ze ne C ar bo n D i su l f i de C h lo r ob e n ze ne c is -1 ,2 -D i c h lo r o e th e ne M ET A LS A n ti m on y A r s e n ic B ar i um Ca d m i um C h r o m i um C ob a lt L e ad N i c k el Se l e n i um S il v er Z i ncMW- 7C NC 2 L S WS L O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 20 5 * * * * * 6. 0 6. 8 * 6 1 8. 9 6. 3 6. 4 5.2 8. 7 9.3 9. 3 5. 6 1 1 1. 0 1. 1 1. 3 1. 1 1. 5 1. 2 1. 6 * 70 0 10 0 * * * * * * * * 50 3 19 . 8 9. 5 9. 4 8. 0 18 . 9 23 . 3 25 . 2 7. 9 70 5 5. 1 * * * * * 5. 3 * NC 2 L S WS L O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 NL 6 * * * * * * * * 10 10 * * * * * * * * 70 0 10 0 56 1 45 0 52 8 60 1 63 8 61 5 60 4 44 6 2 1 1. 8 * * * * * 1. 7 * 10 10 * * * * * * * * NL 10 19 . 0 13 . 9 15 . 7 18 . 3 20 . 2 18 . 2 17 . 2 13 . 4 15 10 * * * * * * * * 10 0 50 * * * * * * * * 20 10 * * * * * * * * 20 10 * * * * * * * * 10 0 0 10 * 18 . 8 * 17 . 3 * 18 . 1 * * N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W -8 M ET A LS NC 2L S W SL A pr -2 0 0 3 O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A r s e n ic 50 10 14 0 NS NS NS * NS NS NS * NS NS NS 11 .8 NS 10 10 NS NS * NS B ar i um 20 00 10 0 6 ,10 0 NS NS NS * NS NS NS 22 4 NS NS NS 11 60 NS 70 0 10 0 NS NS 21 3 NS C h r o m i um 50 10 1 ,00 0 NS NS NS 11 .3 NS NS NS 13 .3 NS NS NS 15 4 NS 10 10 NS NS 24 .8 NS C ob a lt NL 10 38 0 NS NS NS 10 .6 NS NS NS 16 .3 NS NS NS 77 .9 NS NL 10 NS NS 14 .2 NS C op p er 10 00 10 2 ,40 0 NS NS NS * NS NS NS 30 .3 NS NS NS 12 8 NS 10 00 10 NS NS 31 .2 NS L e ad 15 10 15 0 NS NS NS * NS NS NS 13 .0 NS NS NS 33 .4 NS 15 10 NS NS * NS N i c k el 10 0 50 69 0 NS NS NS * NS NS NS * NS NS NS 13 9 NS 10 0 50 NS NS * NS Se l e n i um 50 10 62 NS NS NS * NS NS NS * NS NS NS * NS 20 10 NS NS * NS V a n a d i um NL 20 1 ,30 0 NS NS NS * NS NS NS 31 .7 NS NS NS 22 4 NS NL 25 NS NS 35 .3 NS Z i nc 10 50 10 2 ,00 0 NS NS NS * NS NS NS 60 .0 NS NS NS 28 5 NS 10 00 10 NS NS 53 .1 NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 M W -8 M ET A LS A r s e n ic B ar i um C h r o m i um C ob a lt C op p er L e ad N i c k el Se l e n i um V a n a d i um Z i nc NC 2L S W SL A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 10 10 NS NS * NS NS NS * NS NS 70 0 10 0 NS NS 11 2 NS NS NS 14 8 NS NS 10 10 NS NS 14 .0 NS NS NS 19 .3 NS NS 1 10 NS NS * NS NS NS * NS NS 10 00 10 NS NS 18 .7 NS NS NS 41 .9 NS NS 15 10 NS NS * NS NS NS * NS NS 10 0 50 NS NS * NS NS NS * NS NS 20 10 NS NS * NS NS NS * NS NS 0 .3 25 NS NS * NS NS NS 27 .1 NS NS 10 00 10 NS NS 31 .2 NS NS NS 37 .6 NS NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs NC 2 L S WS L A pr -2 0 0 3 O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S WS L A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 1, 4 -D i c h lo r ob e n ze ne 1 .4 1 * NS NS NS * NS NS NS 1 .9 NS NS NS 2 .5 NS 6 1 NS NS 3 .6 NS Be n ze ne 1 1 * NS NS NS 2 .3 NS NS NS 2 .2 NS NS NS 3 .0 NS 1 1 NS NS 2 .7 NS C h lo r ob e n ze ne 50 3 * NS NS NS * NS NS NS * NS NS NS * NS 50 3 NS NS 3 .9 NS c is -1 ,2 -D i c h lo r o e th e ne 70 5 5 .3 NS NS NS * NS NS NS * NS NS NS 5 .4 NS 70 5 NS NS 6 .5 NS M ET A LS NC 2 L S WS L A pr -2 0 0 3 O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S WS L A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 B ar i um 20 00 10 0 53 NS NS NS * NS NS NS * NS NS NS * NS 70 0 10 0 NS NS * NS Z i nc 10 50 10 * NS NS NS * NS NS NS * NS NS NS * NS 10 00 10 NS NS * NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le M W -9 H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs 1 ,4 -D i c h lo r ob e n ze ne Be n ze ne C h lo r ob e n ze ne c is -1 ,2 -D i c h lo r o e th e ne M ET A LS B ar i um Z i ncMW-9 NC 2 L S WS L A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 6 1 NS NS 3 .0 NS NS NS 3 .9 NS NS 1 1 NS NS 3 .4 NS NS NS 2 .8 NS NS 50 3 NS NS 7 .4 NS NS NS 14 .8 NS NS 70 5 NS NS 8 .1 NS NS NS 7 .2 NS NS NC 2 L S WS L A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 Ja n -1 9 0 0 70 0 10 0 NS NS * NS NS NS * NS NS 10 00 10 NS NS 17 .0 NS NS NS * NS NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 1, 4 -D i c h lo r ob e n ze ne 1 .4 1 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 5 .1 5 3 .6 3 .6 1 .6 2 .7 2 .6 * Be n ze ne 1 1 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * 1 .3 * 1 .3 2 .9 * C ar bo n D i su l f i de 70 0 10 0 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 13 7 51 .4 78 * * * 2 .4 * C h lo r ob e n ze ne 50 3 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * C h lo r o e th a ne 28 00 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * 1 .3 * * * * c is -1 ,2 -D i c h lo r o e th e ne 70 5 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 7 .8 9 .3 8 .5 7 .8 3 .3 4 .9 6 .2 8 M ET A LS NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 A r s e n ic 50 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * 12 5 .3 * * * * B ar i um 20 00 10 0 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 91 10 5 11 0 77 12 0 12 0 12 0 95 Ca d m i um 1 .75 1 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * C h r o m i um 50 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * 7 .5 * * * * * C ob a lt NL 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * C op p er 10 00 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * L e ad 15 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * N i c k el 10 0 50 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * 15 * * * * * Se l e n i um 50 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * 22 * * 11 * * V a n a d i um NL 20 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A * * * * * * * * Z i nc 10 50 10 N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A N /A 28 20 45 * * 20 37 * N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le M W- 10 H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs 1 ,4 -D i c h lo r ob e n ze ne Be n ze ne C ar bo n D i su l f i de C h lo r ob e n ze ne C h lo r o e th a ne c is -1 ,2 -D i c h lo r o e th e ne M ET A LS A r s e n ic B ar i um Ca d m i um C h r o m i um C ob a lt C op p er L e ad N i c k el Se l e n i um V a n a d i um Z i ncMW- 10 NC 2 L S W SL D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S WS L A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 1. 4 1 5. 3 5 * 5. 1 * 5.0 4. 9 4. 9 4. 0 4. 8 4. 5 6 1 4 4. 2 4. 7 4. 4 4. 4 4. 1 3. 6 1 1 1. 1 1. 2 1. 1 1. 0 1. 3 1.3 * 1. 1 * * * 1 1 * * 1. 0 1. 4 * * 1. 3 70 0 10 0 * * * * * * * * * * * 70 0 10 0 * * * * * * * 50 3 * * * * * * * * 2. 3 3. 1 * 50 3 * * * * 3. 2 3. 3 3. 9 28 0 0 10 * * * * * * * * * * * 30 0 0 10 * * * * * * * 70 5 5. 3 6. 3 6. 0 5. 7 5. 2 5.5 * * 3. 1 * * 70 5 * * * * * * * NC 2 L S W SL D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S WS L A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 50 10 * * * * * * * * * * * 10 10 * * * * * * * 20 0 0 10 0 * * * * * 11 1 11 5 11 9 12 5 12 4 11 3 70 0 10 0 10 6 10 7 10 8 11 0 10 4 10 9 10 6 1. 7 5 1 * * * * * * * * * * * 2 1 * * * * * * * 50 10 * * * * * * * * * * * 10 10 * * * * * * * NL 10 * * * * * * * * * * * 1 10 * * * * * * * 10 0 0 10 * * * * * * * * * * * 10 0 0 10 * * * * * * * 15 10 * * * * * * * * * * * 15 10 * * * * * * * 10 0 50 * * * * * * * * * * * 10 0 50 * * * * * * * 50 10 * * * * * * * * * * * 20 10 * * * * * * * NL 20 * * * * * * * * * * * 0. 3 25 * * * * * * * 10 5 0 10 * * * * * 26 . 8 * * 11 . 9 * * 10 0 0 10 * * 11 . 0 17 . 4 * 18 . 4 18 . 0 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs 1 ,4 -D i c h lo r ob e n ze ne Be n ze ne C ar bo n D i su l f i de C h lo r ob e n ze ne C h lo r o e th a ne c is -1 ,2 -D i c h lo r o e th e ne M ET A LS A r s e n ic B ar i um Ca d m i um C h r o m i um C ob a lt C op p er L e ad N i c k el Se l e n i um V a n a d i um Z i ncMW- 10 NC 2 L S WS L O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 A pr -2 0 1 5 A pr -2 0 1 6 6 1 3. 6 3. 9 4. 8 4. 1 3. 6 3. 2 1 1 1. 0 * 1. 1 * * * 70 0 10 0 * * * * * * 50 3 3. 3 3. 5 3. 8 3. 6 4.0 4. 0 30 0 0 10 * * * * * * 70 5 * * * * * * NC 2 L S WS L O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 A pr -2 0 1 5 A pr -2 0 1 6 10 10 * * * * * * 70 0 10 0 * 10 2 10 2 * 11 3 * 2 1 * * * * * * 10 10 * * * * * * 1 10 * * * * * * 10 0 0 10 * * * * * * 15 10 * * * * * * 10 0 50 * * * * * * 20 10 * * * * * * 0. 3 25 * * * * * * 10 0 0 10 * 10 . 8 * * 10 . 0 * N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 H a i re V O Cs NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 J un -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 O c t- 2 0 0 3 C h lo r o f o rm 70 5 * 0 .4 * * * * * * * * * * * * * * * * * * M ET A LS NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 J un -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 O c t- 2 0 0 3 B ar i um 2 ,00 0 10 0 * 22 1 * * * 10 7 * * 37 40 45 60 60 58 53 55 54 60 56 41 C op p er 1 ,00 0 10 * 32 * * * 24 * * 32 31 24 40 51 59 20 25 42 29 15 19 L e ad 15 10 * * * * * * 5 * * * * * 4 5 .5 * * * * * * S il v er 17 .5 10 * * * * * * 1 * * * * * * * * * * * * * T h a ll i um NL 5 * * * * * * 14 * * * * * * * * * * * * * Z i nc 1 ,05 0 10 * * * * * 40 * * 52 * * 32 36 32 25 24 44 38 * 22 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 H a i re V O Cs C h lo r o f o rm M ET A LS B ar i um C op p er L e ad S il v er T h a ll i um Z i nc NC 2 L S WS L A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S WS L A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 70 5 * * * * * * * * * * * * 70 5 * * * * * * * NC 2 L S WS L A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S WS L A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 2, 0 0 0 10 0 50 * * * * * * * * * * * 70 0 10 0 * * * * * * * 1, 0 0 0 10 26 * * * * * 49 . 2 25 . 0 34 . 3 63 . 9 49 . 2 36 . 8 10 0 0 10 11 2 10 7 13 9 13 9 21 9 46 2 25 . 3 15 10 * * * * * * * * * * * * 15 10 * * * * * * * 17 . 5 10 * * * * * * * * * * * * 20 10 * * * * * * * NL 5 * * * * * * * * * * * * 0.2 5. 5 * * * * * * * 1, 0 5 0 10 * * * * * 67 . 7 30 . 5 11 . 5 25 . 4 35 . 6 46 . 2 39 . 9 10 0 0 10 45 . 8 31 . 9 36 . 8 33 . 1 83 . 5 15 7 61 . 0 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 H a i re V O Cs C h lo r o f o rm M ET A LS B ar i um C op p er L e ad S il v er T h a ll i um Z i nc NC 2 L S W SL O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 70 5 * * * * * * NC 2 L S W SL O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 A pr -2 0 1 6 70 0 10 0 * * * * * * 10 0 0 10 67 . 8 34 . 8 35 0 59 . 1 26 4 10 9 15 10 * * * * * * 20 10 * * * * * * 0. 2 5. 5 * * * * * * 10 0 0 10 82 . 0 36 . 3 80 . 5 40 . 3 65 . 3 47 . 2 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 D o w d le V O Cs NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 J un -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 1, 2 -D ib r o m o -3 -c h lo r op r op a ne ( D B C P) 0. 0 2 5 1 NS NS NS NS NS NS * * * 0.1 2 * * * * * * * * 1, 4 -D i c h lo r ob e n ze ne 1. 4 1 NS NS NS NS NS NS * * * * * * * * * * * * Br o m od i c h lo r o m e th a ne 0. 5 6 1 NS NS NS NS NS NS * * * 3. 7 * 35 * * * * * * C h lo r o f o rm 70 5 NS NS NS NS NS NS 53 * * 23 .2 * 42 .6 * * * * * 1 .1 c is -1 ,2 -D i c h lo r o e th e ne 70 5 NS NS NS NS NS NS * * 29 * * * * * * 1 .8 1 .8 1 .5 M ET A LS NC 2 L S WS L J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 9 95 A pr -1 9 9 6 O c t- 1 9 9 6 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 J un -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 B ar i um 2, 0 0 0 10 0 NS NS NS NS NS NS * 60 * 12 12 12 64 39 28 2 .3 28 27 Ca d m i um 1. 7 5 1 NS NS NS NS NS NS 2 * * * * * 1 * * * * * C h r o m i um 50 10 NS NS NS NS NS NS 5 * * * * * * 5 .6 * * * * L ea d 15 10 NS NS NS NS NS NS * 4 * * * * 4 * 8 .9 * * * Se l e n i um 50 10 NS NS NS NS NS NS 5 * * * * * * 23 6 * 12 * Z i nc 1, 0 5 0 10 NS NS NS NS NS NS * 94 6 0 41 3 0 * * * 43 2 0 25 0 0 34 0 0 51 0 0 21 0 0 32 0 0 N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - L o c a ti on N o t S a m p l ed 3 . N L - C on s t it u e n t d o es n o t h av e a NC 2 L S t a n da rd 4 . C on s t it u e n t t ha t e x c ee d t h e NC 2 L S t a n da r d a re H i gh li gh e d i n R ed 5 . D R Y - W e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll C on s t it u e n ts m e a s u re d i n p a r ts p er b il l i on s (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 D o w d le V O Cs 1 ,2 -D ib r o m o -3 -c h lo r op r op a ne ( D B C P) 1 ,4 -D i c h lo r ob e n ze ne Br o m od i c h lo r o m e th a ne C h lo r o f o rm c is -1 ,2 -D i c h lo r o e th e ne M ET A LS B ar i um Ca d m i um C h r o m i um L ea d Se l e n i um Z i nc NC 2 L S WS L A pr -2 0 0 3 O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 0 .02 5 1 * NS NS * * * * NS NS NS NS NS NS NS 0 .04 13 NS NS 1 .4 1 * NS NS * * * * NS NS NS NS NS NS NS 6 1 NS NS 0 .56 1 * NS NS * * * * NS NS NS NS NS NS NS 0 .6 1 NS NS 70 5 * NS NS * * * * NS NS NS NS NS NS NS 70 5 NS NS 70 5 * NS NS * * * * NS NS NS NS NS NS NS 70 5 NS NS NC 2 L S WS L A pr -2 0 0 3 O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S W SL A pr -2 0 1 0 O c t- 2 0 1 0 2 ,00 0 10 0 * NS NS * * * * NS NS NS NS NS NS NS 70 0 10 0 NS NS 1 .75 1 * NS NS * * * * NS NS NS NS NS NS NS 2 1 NS NS 50 10 * NS NS * * * * NS NS NS NS NS NS NS 10 10 NS NS 15 10 * NS NS * 23 .4 12 .8 * NS NS NS NS NS NS NS 15 10 NS NS 50 10 * NS NS * * * * NS NS NS NS NS NS NS 20 10 NS NS 1 ,05 0 10 * NS NS 40 60 39 50 43 20 32 20 NS NS NS NS NS NS NS 10 00 10 NS NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S -l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 D o w d le V O Cs 1 ,2 -D ib r o m o -3 -c h lo r op r op a ne ( D B C P) 1 ,4 -D i c h lo r ob e n ze ne Br o m od i c h lo r o m e th a ne C h lo r o f o rm c is -1 ,2 -D i c h lo r o e th e ne M ET A LS B ar i um Ca d m i um C h r o m i um L ea d Se l e n i um Z i nc NC 2 L S W SL A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 0. 0 4 13 NS NS NS NS NS NS NS NS NS NS 6 1 NS NS NS NS NS NS NS NS NS NS 0 .6 1 NS NS NS NS NS NS NS NS NS NS 70 5 NS NS NS NS NS NS NS NS NS NS 70 5 NS NS NS NS NS NS NS NS NS NS NC 2 L S W SL A pr -2 0 1 1 O c t- 2 0 1 1 A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 70 0 10 0 NS NS NS NS NS NS NS NS NS NS 2 1 NS NS NS NS NS NS NS NS NS NS 10 10 NS NS NS NS NS NS NS NS NS NS 15 10 NS NS NS NS NS NS NS NS NS NS 20 10 NS NS NS NS NS NS NS NS NS NS 10 00 10 NS NS NS NS NS NS NS NS NS NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S -l o c a ti on n o t s a m p l ed 3 . N L - c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs NC 2L S W SL J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 99 5 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 1 ,4 -D ic h l o r o b e n ze ne 1 .4 1 * * * * * * * * * * * * 5 .7 2 .9 * * * NS NS B r o m o d ic h l o r o m et h a ne 0 .56 1 * * * * * * * * * * * * * * 2 .4 3 .2 2 .7 NS NS C h l o r o f o rm 70 5 * * * * * * * * * * * * * * 18 51 24 NS NS c is -1 ,2 -D ic h l o r oe t h e ne 70 5 * * * * * * * * * 4 .8 4 .2 4 .2 7 .7 3 .3 * * * NS NS T e t r ac h l o r oe t h e n e (P C E) 0 .7 1 * * * * * * * * * * * 2 .8 * * * * * NS NS M ET A LS NC 2L S W SL J un -1 9 9 4 O c t- 1 9 9 4 M a r -1 9 9 5 N ov - 1 99 5 A pr -1 9 9 6 O c t- 1 9 9 6 M ay - 1 9 97 O c t- 1 9 9 7 A pr -1 9 9 8 O c t- 1 9 9 8 A pr -1 9 9 9 O c t- 1 9 9 9 M ay - 2 0 00 O c t- 2 0 0 0 A pr -2 0 0 1 O c t- 2 0 0 1 A pr -2 0 0 2 O c t- 2 0 0 2 A pr -2 0 0 3 A r se n ic 50 10 * * * * * * * * * * * * * 14 * * * NS NS B a ri um 20 00 10 0 * * * * * * * * 38 50 35 80 12 2 83 10 15 11 NS NS C a d m i um 1 .75 1 * * * * * * * * * * * * 5 * * * * NS NS C h r o m i um 50 10 * * * * * * * * * * * * * 12 * * * NS NS L ea d 15 10 * * * * * * * * * * * * 6 6 * * * NS NS N ic k el 10 0 10 * * * * * * * * * * * * * 24 * * * NS NS S e le n i um 50 10 * * * * * * * * * * * * 13 35 * * * NS NS Z i nc 10 50 10 * * * * * * * * 61 5 61 1 46 8 57 0 78 8 66 0 11 14 * NS NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L -c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le Ke e n er H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs 1 ,4 -D ic h l o r o b e n ze ne B r o m o d ic h l o r o m et h a ne C h l o r o f o rm c is -1 ,2 -D ic h l o r oe t h e ne T e t r ac h l o r oe t h e n e (P C E) M ET A LS A r se n ic B a ri um C a d m i um C h r o m i um L ea d N ic k el S e le n i um Z i ncKe e n er NC 2L S W SL O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S WS L A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 1. 4 1 NS NS * NS NS NS NS NS NS NS NS NS NS 6 1 NS NS NS NS 0. 5 6 1 NS NS * NS NS NS NS NS NS NS NS NS NS 0 .6 1 NS NS NS NS 70 5 NS NS * NS NS NS NS NS NS NS NS NS NS 70 5 NS NS NS NS 70 5 NS NS * NS NS NS NS NS NS NS NS NS NS 70 5 NS NS NS NS 0. 7 1 NS NS * NS NS NS NS NS NS NS NS NS NS 0 .7 1 NS NS NS NS NC 2L S W SL O c t- 2 0 0 3 A pr -2 0 0 4 D ec -2 0 0 4 A pr -2 0 0 5 O c t- 2 0 0 5 A pr -2 0 0 6 O c t- 2 0 0 6 A pr -2 0 0 7 O c t- 2 0 0 7 A pr -2 0 0 8 O c t- 2 0 0 8 A pr -2 0 0 9 O c t- 2 0 0 9 NC 2 L S WS L A pr -2 0 1 0 O c t- 2 0 1 0 A pr -2 0 1 1 O c t- 2 0 1 1 50 10 NS NS * NS NS NS NS NS NS NS NS NS NS 10 10 NS NS NS NS 20 0 0 10 0 NS NS * NS NS NS NS NS NS NS NS NS NS 70 0 10 0 NS NS NS NS 1. 7 5 1 NS NS * NS NS NS NS NS NS NS NS NS NS 2 1 NS NS NS NS 50 10 NS NS * NS NS NS NS NS NS NS NS NS NS 10 10 NS NS NS NS 15 10 NS NS * NS NS NS NS NS NS NS NS NS NS 15 10 NS NS NS NS 10 0 10 NS NS * NS NS NS NS NS NS NS NS NS NS 10 0 50 NS NS NS NS 50 10 NS NS * NS NS NS NS NS NS NS NS NS NS 20 10 NS NS NS NS 10 5 0 10 NS NS * NS NS NS NS NS NS NS NS NS NS 10 00 10 NS NS NS NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L -c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le H i s t o r ic a l An a l y t ic a l Re s ul ts Ma c o n C o un t y O ld F r a n k l in L a nd f i ll P er m i t N o . 57 -01 V O Cs 1 ,4 -D ic h l o r o b e n ze ne B r o m o d ic h l o r o m et h a ne C h l o r o f o rm c is -1 ,2 -D ic h l o r oe t h e ne T e t r ac h l o r oe t h e n e (P C E) M ET A LS A r se n ic B a ri um C a d m i um C h r o m i um L ea d N ic k el S e le n i um Z i ncKe e n er NC 2 L S WS L A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 6 1 NS NS NS NS NS NS NS NS 0 .6 1 NS NS NS NS NS NS NS NS 70 5 NS NS NS NS NS NS NS NS 70 5 NS NS NS NS NS NS NS NS 0 .7 1 NS NS NS NS NS NS NS NS NC 2 L S WS L A pr -2 0 1 2 O c t- 2 0 1 2 A pr -2 0 1 3 O c t- 2 0 1 3 A pr -2 0 1 4 O c t- 2 0 1 4 A pr -2 0 1 5 O c t- 2 0 1 5 10 10 NS NS NS NS NS NS NS NS 70 0 10 0 NS NS NS NS NS NS NS NS 2 1 NS NS NS NS NS NS NS NS 10 10 NS NS NS NS NS NS NS NS 15 10 NS NS NS NS NS NS NS NS 10 0 50 NS NS NS NS NS NS NS NS 20 10 NS NS NS NS NS NS NS NS 10 00 10 NS NS NS NS NS NS NS NS N O T E S: 1 . * - C on s t it u e n t d i d n o t e x c ee d l a bo r a t o r y P r a c t ic a l Qu an t it a ti on (P QL ) L i m it o r S o li d W a s te S e c ti on L i m it (S W SL ). 2 . N S - l o c a ti on n o t s a m p l ed 3 . N L -c on s t it u e n t d o es n o t h av e a N C 2 L S t a n da rd 4 . C on s t it u e n ts t ha t e x c ee d t h e N C 2 L S t a n da r d a re h i gh li gh e d i n r ed 5 . D R Y - w e ll w a s d r y d u ri ng s a m p li ng e v e nt 6 . A ll c on s t it u e n ts re po r te d i n p a r ts p er b il l i on (pp b) 7. O n l y c o m p o un d s d e t e c te d a b ov e t h e l a bo r a t o r y P Q L o r S W S L a re li s t ed 8 . N /A - N o t A pp li c ab le OldFranklinLandfill Franklin,MaconCounty,NorthCarolina PermitNumber:57-01 AppendixE: StatisticalAnalysis REIConsultants,Inc.P.OBox286,Beaver,WV25813 800-999-0105 www.reiclabs.com Ol d F ra n k li n L a nd f il l We ll Da te A r se n ic Ba r i um Be r y l li um Ca d mi um C h ro mi um C ob a lt C o pp er L ea d N i ck el S e l e n i um V a n a d i um Z i nc M W -2 J un -94 0 .00 5 0 .25 0 0 .00 1 0 .00 05 0 .00 5 0 .00 5 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .02 0 0 .02 5 M W -2 O c t- 94 0 .00 5 0 .84 4 0 .00 1 0 .00 05 0 .00 5 0 .00 5 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .02 0 0 .02 5 M W -2 M a r -95 0 .00 5 0 .63 2 0 .00 1 0 .00 05 0 .00 5 0 .00 5 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .02 0 0 .02 5 M W -2 N o v -95 0 .00 5 0 .58 1 0 .00 1 0 .00 05 0 .00 5 0 .00 5 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .02 0 0 .02 5 M W -2 A pr -96 0 .00 5 0 .25 0 0 .00 1 0 .00 05 0 .00 5 0 .00 5 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .02 0 0 .02 5 M W -2 O c t- 96 0 .00 5 0 .89 2 0 .00 1 0 .00 05 0 .10 6 0 .04 0 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .14 5 0 .14 3 M W -2 M ay -97 0 .00 5 0 .25 0 0 .00 1 0 .00 1 0 .00 5 0 .00 5 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .02 0 0 .02 5 M W -2 O c t- 97 0 .00 5 0 .25 0 0 .00 1 0 .00 05 0 .03 5 0 .00 5 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .02 0 0 .10 6 M W -2 A pr -98 0 .00 5 0 .25 0 0 .00 1 0 .00 05 0 .00 5 0 .00 5 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .02 0 0 .02 5 M W -2 O c t- 98 0 .01 1 0 .25 0 0 .00 1 0 .00 05 0 .06 0 .02 9 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .07 6 0 .13 4 M W -2 A pr -99 0 .00 5 0 .25 0 0 .00 1 0 .00 05 0 .01 8 0 .00 5 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .02 0 0 .08 0 M W -2 O c t- 99 0 .00 5 2 .12 0 .00 1 0 .00 05 0 .17 2 0 .07 7 0 .10 0 0 .02 8 0 .06 6 0 .01 0 0 .24 5 0 .53 4 M W -2 M ay -00 0 .00 5 0 .25 0 0 .00 1 0 .00 05 0 .01 9 0 .00 5 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .02 0 0 .02 5 M W -2 A pr -01 0 .00 5 0 .25 0 0 .00 1 0 .00 05 0 .02 6 0 .00 5 0 .10 0 0 .01 9 0 .02 5 0 .01 0 0 .02 0 0 .02 5 M W -2 A pr -03 0 .00 5 0 .25 0 0 .00 1 0 .00 05 0 .00 5 0 .00 5 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .02 0 0 .02 5 M W -8 A pr -03 0 .14 0 6 .10 0 .00 1 0 .00 05 1 .00 0 .38 0 2 .40 0 .15 0 0 .69 0 0 .06 2 1 .30 2 .00 M W -2 A pr -05 0 .00 5 0 .25 0 0 .00 1 0 .00 05 0 .00 5 0 .00 5 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .02 0 0 .02 5 M W -8 A pr -05 0 .00 5 0 .25 0 0 .00 1 0 .00 05 0 .01 13 0 .01 06 0 .10 0 0 .00 5 0 .02 5 0 .01 0 0 .02 0 0 .02 5 M W -2 A pr -07 0 .00 5 0 .18 9 0 .00 05 0 .00 05 0 .00 5 0 .00 5 0 .00 5 0 .00 5 0 .02 5 0 .00 5 0 .01 0 0 .01 57 M W -8 A pr -07 0 .00 5 0 .22 4 0 .00 05 0 .00 05 0 .01 33 0 .01 63 0 .03 03 0 .01 30 0 .02 5 0 .00 5 0 .03 17 0 .06 00 M W -2 A pr -09 0 .00 5 0 .17 5 0 .00 05 0 .00 05 0 .01 06 0 .00 5 0 .01 01 0 .00 5 0 .02 5 0 .00 5 0 .01 0 0 .03 43 M W -8 A pr -09 0 .01 18 1 .16 0 .00 05 0 .00 05 0 .15 4 0 .07 79 0 .12 8 0 .03 34 0 .13 9 0 .00 5 0 .01 0 0 .28 5 M W -2 A pr -11 0 .00 5 0 .27 1 0 .00 05 0 .00 05 0 .01 19 0 .00 5 0 .00 5 0 .00 5 0 .02 5 0 .00 5 0 .01 25 0 .03 57 M W -8 A pr -11 0 .00 5 0 .21 3 0 .00 05 0 .00 05 0 .02 48 0 .01 42 0 .03 12 0 .00 5 0 .02 5 0 .00 5 0 .03 53 0 .05 31 M W -2 A pr -13 0 .00 5 0 .05 0 0 .00 05 0 .00 05 0 .00 5 0 .00 5 0 .00 5 0 .00 5 0 .02 5 0 .00 5 0 .01 25 0 .02 51 M W -8 A pr -13 0 .00 5 0 .11 2 0 .00 05 0 .00 05 0 .01 40 0 .00 5 0 .01 87 0 .00 5 0 .02 5 0 .00 5 0 .02 08 0 .03 12 M W -2 A pr -15 0 .00 5 0 .17 4 0 .00 05 0 .00 05 0 .01 40 0 .00 5 0 .01 61 0 .00 5 0 .02 5 0 .00 5 0 .01 25 0 .03 85 M W -8 A pr -15 0 .00 5 0 .14 8 0 .00 05 0 .00 05 0 .01 93 0 .00 5 0 .04 19 0 .00 5 0 .02 5 0 .00 5 0 .02 71 0 .03 76 P QL 0 .0 10 0 .5 00 0 .0 02 0 .0 01 0 .0 10 0 .0 10 0 .2 00 0 .0 10 0 .0 50 0 .0 20 0 .0 40 0 .0 50 S W SL 0 .0 10 0 .1 00 0 .0 01 0 .0 01 0 .0 10 0 .0 10 0 .0 10 0 .0 10 0 .0 50 0 .0 10 0 .0 25 0 .0 10 # O b s. 28 28 28 28 28 28 28 28 28 28 28 28 # ND s 25 13 28 27 11 20 20 23 25 27 20 15 % ND s 8 9% 4 6% 1 0 0% 9 6% 3 9% 7 1% 7 1% 8 2% 8 9% 9 6% 7 1% 5 4% M e t h od N on p a r a m e tr ic N on p a r a m e tr ic N on p a r a m e tr ic N on p a r a m e tr ic N on p a r a m e tr ic N on p a r a m e tr ic N on p a r a m e tr ic N on p a r a m e tr ic N on p a r a m e tr ic N on p a r a m e tr ic N on p a r a m e tr ic N on p a r a m e tr ic P r . L i m it 0 .1 40 6 .10 0 .0 02 0 .0 01 1 .00 0 .3 80 2 .40 0 .1 50 0 .6 90 0 .0 62 1 .30 2 .00 Barium i xi xn-i+1 xn-i+1-xi an-i+1 bi 1 0.05 6.10 6.050 0.4328 2.6184 2 0.112 2.12 2.008 0.2992 0.6008 3 0.15 1.16 1.012 0.2510 0.2540 4 0.174 0.892 0.718 0.2151 0.1544 5 0.175 0.844 0.669 0.1857 0.1242 6 0.189 0.632 0.443 0.1601 0.0709 7 0.213 0.581 0.368 0.1372 0.0505 8 0.224 0.271 0.047 0.1162 0.0055 9 0.25 0.25 0.000 0.0965 0.0000 10 0.25 0.25 0.000 0.0778 0.0000 11 0.25 0.25 0.000 0.0598 0.0000 12 0.25 0.25 0.000 0.0424 0.0000 13 0.25 0.25 0.000 0.0253 0.0000 14 0.25 0.25 0.000 0.0084 0.0000 15 0.25 0.25 0.000160.25 0.25 0.000 sum bi 3.8788 17 0.25 0.25 0.000 18 0.25 0.25 0.000 19 0.25 0.25 0.000 20 0.25 0.25 0.000 21 0.271 0.224 -0.047 22 0.581 0.213 -0.368 23 0.632 0.189 -0.443 24 0.844 0.175 -0.669 25 0.892 0.174 -0.718 26 1.16 0.15 -1.012 27 2.12 0.112 -2.008 28 6.10 0.05 -6.050 Std.Dev.=1.16 W=0.416 ==>less than 0.896,normal assumption rejected Shapiro-Wilk Test - Normal Assumption,Detections Barium i yi yn-i+1 yn-i+1-yi an-i+1 bi 1 -2.9957 1.8083 4.804 0.4328 2.0792 2 -2.1893 0.7514 2.941 0.2992 0.8798 3 -1.9105 0.1484 2.059 0.2510 0.5168 4 -1.7487 -0.1143 1.634 0.2151 0.3516 5 -1.7430 -0.1696 1.573 0.1857 0.2922 6 -1.6660 -0.4589 1.207 0.1601 0.1933 7 -1.5465 -0.5430 1.003 0.1372 0.1377 8 -1.4961 -1.3056 0.190 0.1162 0.0221 9 -1.3863 -1.3863 0.000 0.0965 0.0000 10 -1.3863 -1.3863 0.000 0.0778 0.0000 11 -1.3863 -1.3863 0.000 0.0598 0.0000 12 -1.3863 -1.3863 0.000 0.0424 0.0000 13 -1.3863 -1.3863 0.000 0.0253 0.0000 14 -1.3863 -1.3863 0.000 0.0084 0.0000 15 -1.3863 -1.3863 0.00016-1.3863 -1.3863 0.000 sum bi 4.4726 17 -1.3863 -1.3863 0.000 18 -1.3863 -1.3863 0.000 19 -1.3863 -1.3863 0.000 20 -1.3863 -1.3863 0.000 21 -1.3056 -1.4961 -0.190 22 -0.5430 -1.5465 -1.003 23 -0.4589 -1.6660 -1.207 24 -0.1696 -1.7430 -1.573 25 -0.1143 -1.7487 -1.634 26 0.1484 -1.9105 -2.059 27 0.7514 -2.1893 -2.941 28 1.8083 -2.9957 -4.804 Std.Dev.=0.94 W=0.836 ==>less than 0.896,lognormal assumption rejected use nonparametric limit Shapiro-Wilk Test -Lognormal Assumption,Detections Chromium i xi xn-i+1 xn-i+1-xi an-i+1 bi 1 0.0106 1.00 0.989 0.4968 0.4915 2 0.0113 0.172 0.161 0.3273 0.0526 3 0.0119 0.154 0.142 0.2540 0.0361 4 0.0133 0.106 0.093 0.1988 0.0184 5 0.0140 0.060 0.046 0.1524 0.0070 6 0.0140 0.035 0.021 0.1109 0.0023 7 0.018 0.026 0.008 0.0725 0.0006 8 0.019 0.0248 0.006 0.0359 0.0002 9 0.0193 0.0193 0.000 0.0000 0.0000 10 0.0248 0.019 -0.006 11 0.026 0.018 -0.008 sum bi 0.6088 12 0.035 0.0140 -0.021 13 0.060 0.0140 -0.046 14 0.106 0.0133 -0.093 15 0.154 0.0119 -0.142 16 0.172 0.0113 -0.161 17 1.00 0.0106 -0.989 Std. Dev.=0.24 W=0.411 ==> less than 0.851,normal assumption rejected i yi yn-i+1 yn-i+1-yi an-i+1 bi 1 -4.5469 0.0000 4.547 0.4968 2.2589 2 -4.4830 -1.7603 2.723 0.3273 0.8911 3 -4.4312 -1.8708 2.560 0.2540 0.6503 4 -4.3200 -2.2443 2.076 0.1988 0.4126 5 -4.2687 -2.8134 1.455 0.1524 0.2218 6 -4.2687 -3.3524 0.916 0.1109 0.1016 7 -4.0174 -3.6497 0.368 0.0725 0.0267 8 -3.9633 -3.6969 0.266 0.0359 0.0096 9 -3.9477 -3.9477 0.000 0.0000 0.0000 10 -3.6969 -3.9633 -0.266 11 -3.6497 -4.0174 -0.368 sum bi 4.5727 12 -3.3524 -4.2687 -0.916 13 -2.8134 -4.2687 -1.455 14 -2.2443 -4.3200 -2.076 15 -1.8708 -4.4312 -2.560 16 -1.7603 -4.4830 -2.723 17 0.0000 -4.5469 -4.547 Std. Dev.=1.26 W=0.826 ==> less than 0.851, lognormal assumption rejected use nonparametric limit Shapiro-Wilk Test - Normal Assumption, Detections Shapiro-Wilk Test -Lognormal Assumption, Detections