Forwards NMPNS - Unit 2 Semi-Annual Radioactive Effluent Release Rept for Jul-Dec 1992, & ODCM for Nmpns.

ML18038A737
Person / Time
Site:	Nine Mile Point
Issue date:	03/01/1993
From:	TERRY C D NIAGARA MOHAWK POWER CORP.
To:	NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
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ML17056C296	List: ML17056C295 ML17056C297 ML18038A737
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NMP2L-1371, NUDOCS 9303100368
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ACCEIERADOCUMENTDIST.BUTIONSYSTEMREGULAINFORMATION DISTRIBUTIO YSTEM(RIDS)'g>.ACCESSION NBR:9303100368 DOC.DATE:

93/03/01NOTARIZED:

NODOCKET¹FACIL:50-410 NineMilePointNuclearStation,Unit2,NiagaraMoha05000410AUTH.NAMEAUTHORAFFILIATION TERRY,C.D.

NiagaraMohawkPowerCorp.RECIP.NAME RECIPIENT AFFILIATION DocumentControlBranch(Document ControlDesk)

SUBJECT:

Forwards"NMPNS-Unit2Semi-Annual Radioactive EffluentReleaseReptforJul-Dec1992."DISTRIBUTION CODE:IE48DCOPIESRECEIVED:LTR ENCLSIZE:TITLE:50.36a(a)(2)

Semiannual EffluentReleaseReportsNOTES:RECIPIENT IDCODE/NAME PDl-1LAMENNINGiJ INTERNAL:

ACRSREGFI01GN1FILE02EXTERNALBNLTICHLERiJ03NRCPDRCOPIESLTTRENCL33111111111111RECIPIENT'D CODE/NAME PD1-1PDNRR/DRSS/PRPB11 RGN1DRSS/RPBEGSGSIMPSON,F COPIESLTTRENCL11222222NOTETOALL"RIDS"RECIPIENTS:

PLEASEHELPUSTOREDUCEWASTEICONTACTTHEDOCUMENTCONTROLDESK,ROOMP1-37(EXT.504-2065)

TOELIMINATE YOURNAMEFROMDISTRIBUTION LISTSFORDOCUMENTS YOUDON'TNEED!TOTALNUMBEROFCOPIESREQUIRED:

LTTR16ENCL16gyes r'~IlasYI4I'I NIAGARAMOHAWKPOWERCORPORATION/301 PLAINFIELD ROAD,SYRACUSE, N.Y.13212/TELEPHONE (315)474-1511March1,1993NMP2L1371U.S.NuclearRegulatory Commission Attn:DocumentControlDeskWashington, DC20555Re:NineMilePointUnit2DocketNo.50-410NPF-Gentlemen:

SUBJECT:

JULY-DECEMBER, 1992SEMI-ANNUAL RADIOACTIVE EFFLUENTRELEASEREPORTInconformance withtheNineMilePointNuclearStationUnit2(NMP2)Technical Specifications, weareenclosing theSemi-Annual Radioactive EffluentReleaseReport(SARERR)forthereporting periodJuly-December, 1992.Includedinthisreportisasummaryofgaseous,liquid,andsolideffluents releasedfromthestationduringthereporting period(Attachments 1-6),anupdateonanyrevisiontotheOff-SiteDoseCalculation ManualandtheProcessControlProgram(Attachments 7and8),andanexplanation astothecauseandcorrective actionsregarding theinoperability ofanystationliquidand/orgaseouseffluentmonitoring instrumentation (Attachment 9).Attachments 10and11provideasummaryandassessment ofradiation dosestomembersofthepublicwithinandoutsidethesiteboundary, respectively, fromliquidandgaseouseffluents aswellasdirectradiation.

Inaddition, Attachments 1,5(pages1and2)and6(page1)fromtheJanuary-June1992SARERRareincludedinthe"UpdatestoPreviousReports"section.Theseattachments presentanupdateofdatacontained inthesecondquarteroftheJanuary-June1991report.TheformatusedfortheeffluentdataisoutlinedinAppendixBofRegulatory Guide1.21,Rev.1.Doseassessments weremadeinaccordance withtheNMP2Off-SiteDoseCalculation Manual.Distribution ofthisreportisinaccordance withRegulatory Guide10.1,10CFR50.4(b)(1) andtheTechnical Specifications.

Duringthereporting period,fromJuly-December1992,NMP2didnotexceedany10CFR20,10CFR50,40CFR190orTechnical Specification limitsforgaseousandliquideffluents.

Ifyouhaveanyquestions concerning theattachedreport,pleasecontactElizabeth D.Thomas,Chemistry andRadiation Protection Support,SalinaMeadows,(315)428-7188.

Verytrulours,yoo02V.CcC.D.TerryVicePresident

-NuclearEngineering EDT/sek003535LLAttchmentAttachment.

PDRADOCK05000410R,,'.PDRxc:RegionalAdministratoi,"Region IMr.W.L.Schmidt,SeniorResidentInspector Mr.R.A.Capra,Director, ProjectDirectorate l-1,NRRMr.J.E.Menning,ProjectManager,NRRRecordsManagement C

NINEMILEPOINTNUCLEARSTATIONNINEMILEPOINTUNIT2OFFSITEDOSECALCULATION MANUALODCMAPPROVALS SIONATURESDATEANDINITIALSREVISION7M.J.McCormick PlantManagerU2C.D.TerryV.P.NuclearEngineering IAOARAMOHAWKPOWERCORPORATION 002916LL".~-9303100368

SummaofRevisions evision7Effective 1-iiii1214i18i2831g34g3753'558i6082'789i9215541990-91,93-103 20-27,83-86 i-ii1llg16g3233i3536i59100-102i106 i-viiiPartI-addedsectionPartZI-2-19,21-25,28-31,33,35-53, 55PartII-addedAppendices pp.60-104PartZZ-addedpages77,78,88,94,99,102 May1986May1987May1987(TCN-1)June1987(TCN-2)February1988April1988November1988February1990June1992December1992002916LL

TABLE0CONTENTSListofTablesListofFiguresIntroduction PARTI-RADIOLOGICAL EFFLUENTCONTROLSSECTION1.0-DEFINITIONS SECTION2'-RETAINEDINTECHNICAL SPECIFICATIONS SECTIONS3.0AND4.0-CONTROLSANDSURVEILLANCE REQUIREMENTS viiviiiI1-0I3/40-03/4.03/4.3.7.3 3/4.3.7.9 3/4.3.7.10 3/4.11.1.1 3/4.11.1.2 3/4.11.1.33/4.11.1.4 3/4.11.2.1 3/4.11.2.2 3/4.11.2.3 3/4.11.2.4 3/F11.2.53/4.11.263/4.112'3/4'11.283/4.1133/4.11.43/4.12.13/4.12~23/4.12.3Applicability Meteorological Monitoring Instrumentation Monitoring Instrumentation-Radioactive LiquidEffluentRadioactive GaseousEffluentMonitoring Instrumentation LiquidEffluents-Concentration LiquidEffluents-Dose LiquidEffluents

-LiquidRadwasteTreatment SystemRetainedinRETSGaseousEffluents DoseRateGaseousEffluents Dose-NobleGasesGaseousEffluents Dose-Zodine-131, Zodine-133, Tritium,andRadioactive MaterialinParticulate FormGaseousEffluents

-GaseousRadwasteTreatment SystemGaseousEffluents

-Ventilation ExhaustTreatment SystemRetainedinRETSRetainedinRETSVentingorPurgingRetainedinRETSRadioactive Effluents TotalDoseRadiological Environmental Monitoring ProgramLandUseCensusInterlaboratory Comparison ProgramI3/40-1I3/43-74I3/43-92I3/43-97I3/411-1I3/411-5I3/411-6I3/411-8I3/411-12I3/411-13I3/411-14I3/411-15I3/411-18I3/411-21I3/412-1I3/412-14I3/412-16002916LI

TABLEOFCONTENTSBASESIB3/43-7SECTION5.0-DESIGNFEATURESI5-05.1.3MapsDefiningUnrestricted AreasandSiteBoundaryForRadioactive GaseousandLiquidEffluents I5-1SECTION6.0-ADMINISTRATIVE CONTROLSI6-06.9.1.76.9.1.86.146.15AnnualRadiological Environmental Operating ReportSemiannual Radioactive EffluentReleaseReportOffsiteDoseCalculation ManualMa)orChangestoLiquid,Gaseous/andSolidRadwasteTreatment SystemsI6-19I6-20I6-26I6-27002916LL

-TABLEOFCONTENTSSECTIONPartII-Calculational Methodologies RECSECTIONPAGE1.01.1.111.21~1.2'1.1.2.21.1.2.31~21~31.41.52.02.12.1.12.1.22.1.2.12.1.2.22.1.2.32.22.2.12.2.22.2'2.2.42.3LIQUIDEFFLUENTS LiquidEffluentMonitorAlarmSetpoints BasisSetpointDetermination Methodology LiquidRadwasteEffluentRadiation AlarmSetpointContaminated DilutionWaterRadwasteEffluentMonitorAlarmSetpointCalculations ServiceMaterandCoolingTowerBlowdownEffluentRadiation AlarmSetpointLiquidEffluentConcentration Calculation LiquidEffluentDoseCalculation Methodology LiquidEffluentSamplingTable'epresentativeness LiquidRadwasteSystemOperability GASEOUSEFFLUENTS GaseousEffluentMonitorAlarmSetpoints BasisSetpointDetermination Methodology Discussion StackNobleGasDetectorAlarmSetpointEquationVentNobleGasDetectorAlarmSetpointEquationOffgasPretreatment NobleGasDetectorAlarmSetpointEquationGaseousEffluentDoseRateCalculation Methodology X/QandW-Dispersion Parameters forDoseRate,Table3-23WholeBodyDoseRateDuetoNobleGasesSkinDoseRateDuetoNobleGasesanDoseRateDuetoI-131,I-133,tiumandParticulates withhalf-livesgreaterthan8daysGaseousEffluentDoseCalculation Methodology 3.11~1~13.3.7.93.11.1~14.11'1~23.11.1.24.11.1.24.11.1-1noteb3.11.1~34.11.1.3.1 4.11.1~3'3:11.2'3.3.7.103.11.2'3.11.2.1.a 4.11.2.1.1 3.11.2.1.a 4.11~2o1.13.11.2.1.b 4.11'.1.23.11.2.23.11.2.33.11.2.510101010111213141415151617002916LL

TABLE0CONTENTSSECTIONRECSECTION2~3~1222.3.4W,andW-Dispersion Parameters ForDose,Table3-23GammaAirDoseDuetoNobleGasesBetaAirDoseDuetoNobleGasesOrganDoseDuetoI-131,I-133,TritiumandParticulates withhalf-lives greaterthan8days.173.11.2.2.a./b.

184.11.2.23.11.2.2.a./b.

18183'13.11.2.54.11.2.34.11.2.5.1 2.42.52.62.72.83.0I-133andI-135Estimation Isokinetic SamplingUseofConcurrent Meteorological Datavs.Historical DataGaseousRadwasteTreatment SystemOperation Ventilation ExhaustTreatment SystemOperation URANIUMFUELCYCLE3.113.11~2~53'1'1919191919203.13'3.33.44.04.14'4.3AppendixAAppendixBAppendixCAppendixDAppendixEEvaluation ofDosesFromLiquidEffluents Evaluation ofDosesFromGaseousEffluents Evaluation ofDosesFromDirectRadiation DosestoMembersofthePublicWithintheSiteBoundaryENVIRONMENTAL MONITORING PROGRAMSamplingStationsInterlaboratory Comparison ProgramCapabilities forThermoluminescent Dosimeters UsedforEnvironmental Measurements LiquidDoseFactorDerivation PlumeShineDoseFactorDerivation DoseParameters forIodine131and133,Particulates andTritiumDiagramsofLiquidandGaseousRadwasteTreatment SystemsandMonitoring SystemsNineMilePointOn-SiteandOff-SiteMaps4.11~4~14.11.4.14.11.4.26.9.1.83~124.123.12.14.12.14.12.3212222232525252560636777102002916LLiv

LIST0TABLESPARTIRADIOLOGICAL EFFLUENTCONTROLSTABLENO.TTLE1~23.3+7.3-1 4-13'.7'-14'.7.9-13.3.7.1014.3.7.10-1 4.11.1-14~11.2-13.12.1-13'2'-24'2'-1Surveillance Frequency Notations Operational Conditions Meteorological Monitoring Instrumentation Meteorological Monitoring Instrumentation Surveillance Requirements Radioactive LiquidEffluentMonitoring Radioactive LiquidEffluentMonitoring Instrumentation Surveillance Requirements Radioactive GaseousEffluentMonitoring Instrumentation Radioactive GaseousEffluentMonitoring Instrumentation Surveillance Requirements Radioactive LiquidWasteSamplingandAnalysisProgramRadioactive GaseousWasteSamplingandAnalysisProgramRadiological.

Environmental Monitoring ProgramReporting LevelsforRadioactivity Concentrations inEnvironmental SamplesDetection Capabilities forEnvironmental SampleAnalyses(LowerLimitofDetection)

I1-5I1-6I3/43-75I3/43-76I3/43-93I3/43-95I3/43-98I3/4,3-100 I3/411-2I3/4119I3/412>>3I3/412-10I3/412-11002916LL

LISTOPTABLESPARTII-CALCULATIONAL METHODOLOGIES TABLENO.2-12-2thru2-53-13-23-33-4thru3-223-233-245.1TITLELiquidEffluentDetectorResponseAValues-LiquidEffluentDoseFactorOffgasPretreatment DetectorResponseFinitePlume-GroundLevelDoseFactorsfromanElevatedReleaseImmersion DoseFactorsDoseAndDoseRateFactors,R;Dispersion Parameters atControlling Locations, X/Q,WandW,ValuesParameters FortheEvaluation ofDosestoRealMembersofthePublicFromGaseousAndLiquidEffluents Radiological Environmental Monitoring ProgramSamplingLocations PAGEZI27ZI28ZI32II33II34II35ZI54IZ55ZI56002916LLvi

LIST0PIGURESTABLENO~5~1.3-15.1-15.1-2TITLESiteBoundaries NineMilePointOn-SiteMapNineMilePointOff-SiteMapPAGEI5-5II103II104002916LLvii 45 INTRODUCTION TheOFFSITEDOSECALCULATION MANUAL(ODCM)isasuPporting documentoftheTechnical Specifications.

ThepreviousLimitingConditions forOperation thatwerecontained intheRadiological EffluentTechnical Specifications arenowtransferred totheODCMasRadiological EffluentControls.

TheODCMcontainstwoparts'adiological EffluentControls, PartI;andCalculational Methodologies, PartII.Radiological EffluentControls, Part1,includesthefollowing:

(1)TheRadioactive EffluentControlsandRadiological Environmental Monitoring ProgramsrequiredbyTechnical Specification 6.8.4,(2)descriptions oftheinformation thatshouldbeincludedintheAnnualRadiological Environmental Operating andSemiannual Radioactive EffluentReleaseReportsrequiredbyTechnical Specifications 6.9.1.3and6.9.1.4,and(3)ControlsforMeteorological Monitoring Instrumentation.

Calculational Methodologies, PartII,describes themethodology andparameters tobeusedinthecalculation ofliquidandgaseouseffluentmonitoring instrumentation alarm/trip setpoints andthecalculation ofoffsitedosesduetoradioactive liquidandgaseouseffluents.

TheODCMalsocontainsalistandgraphical description ofthespecificsamplelocations fortheradiological environmental monitoring program,andliquidandgaseousradwastetreatment systemconfigurations.

TheODCMfollowsthemethodology andmodelssuggested byNUREG-0133 andRegulatory Guide1.109,Revision1.Simplifying assumptions havebeenappliedinthismanualwhereapplicable toprovideamoreworkabledocumentforimplementing theRadiological EffluentControlrequirementsg thissimplified approachwillresultinamoreconservative doseevaluation fordetermining compliance withregulatory requirements.

TheODCMwillbemaintained bytheCorporate Chemistry andRadiological SupportGroupforuseasareference andtrainingdocumentofacceptedmethodologies andcalculations.

Changestothecalculation methodsorparameters willbeincorporated intotheODCMtoassurethattheODCMrepresents thepresentmethodology inallapplicable areas.AnychangestotheODCMwillbeimplemented

.inaccordance withSection6.14oftheTechnical Specifications.

UntiltheUnit2Technical Specifications arerevisedtodeletetheRadiological EffluentTechnical Specifications, theODCMPartIwillbeusedasareference only,andtheTechnical Specifications withLCO'sandSurveillance requirements willremaintheprimarycontrolling document.

002916LLviii

PARTZ-RADZOLOOZCAL EFFLUENTCONTROLS002916LL

PARTI-RADIOLOOICAL EFFLUENTCONTROLSSECTION1.0DEFINITIONS 002916LLI1-0

.0DEFINITIO SThefollowing termsaredefinedsothatthespeci.fications maybeuniformly interpreted.

Thedefinedtermsappearincapitalized typethroughout thecontrols.

CTON1.1ACTIONshallbethatpartofacontrolwhichprescribes remedialmeasuresrequiredunderdesignated conditions.

CCIBTIONls4ACHANNELCALIBRATION shallbetheadjustment, asnecessary, ofthechanneloutputsothatitrespondswiththenecessary rangeandaccuracytoknownvaluesoftheparameter whichthechannelmonitors.

TheCHANNELCALIBRATION shallencompass theentirechannelincluding thesensorandalarmand/ortripfunctions, andshallincludetheCHANNELFUNCTIONAL TEST.TheCHANNELCALIBRATION maybeperformed byanyseriesofsequential, overlapping ortotalchannelstepssuchthattheentirechanneliscalibrated.

CNCHECls5ACHANNELCHECKshallbethequalitative assessment ofchannelbehaviorduringoperation byobservation.

Thisdetermination shallinclude,wherepossible, comparison ofthechannelindication and/orstatuswithotherindications and/orstatusderivedfromindependent instrument channelsmeasuring thesameparameter.

CNUCO1.6ACHANNELFUNCTIONAL TESTshallbe:a.Analogchannels-theinjection ofasimulated signalintothechannelasclosetothesensoraspracticable toverifyOPERABILITY including alarmand/ortripfunctions andchannelfailuretrips.b.Bistablechannels-theinjection ofasimulated signalintothesensortoverifyOPERABILITY including alarmand/ortripfunctions.

TheCHANNELFUNCTIONAL TESTmaybeperformed byanyseriesofsequential overlapping ortotalchannelstepssothattheentirechannelistested.~COQQJgThepresentLimitingConditions forOperation orLCO'sthatarecontained intheRadiological EffluentTechnical Specifications arebeingtransferred tothaatda)tonoseoalooiation Mentaland.being renassdtoc~ontosThis.istodistinguish betweenthoseLCO'swhicharebeingretainedintheTechnical sgsoifiostions andthoseico'sorgaatrolsthatarebeingtransferred totheOffsiteDoseCalculation Manual.002916LL

UV31'0DOSEEQUIVALENT I-131shallbethatconcentration ofI-131,expressed inmicrocuries pergram,whichalonewouldproducethesamethyroiddoseasthequantityandisotopicmixtureofI-131,I-132,I-133,I-134,and1>>135actuallypresent.Thethyroiddoseconversion factorsusedforthiscalculation shallbethoselistedinTableIIIofTID-14844, "Calculation ofDistanceFactorsforPowerandTestReactorSites."FUENCYNOTION1.16TheFREQUENCY NOTATIONspecified fortheperformance ofSurveillance Requirements shallcorrespond totheintervals definedinTable1.1.GSEOUSWSETRAESYST1.17AGASEOUSRADWASTETREATMENT SYSTEMshallbeanysystemdesignedandinstalled toreduceradioactive gaseouseffluents bycollecting offgasesfromthemaincondenser evacuation systemandproviding fordelayorholdupforthepurposeofreducingthetotalradioactivity priortoreleasetotheenvironment.

BES0PUBLIC1.23MEMBER(S)

OFTHEPUBLICshallincludeallpersonswhoarenotoccupationally associated withtheNineMilePointNuclearStationandJamesA.'itxPatrick NuclearPowerPlant.Thiscategorydoesnotincludeemployees ofNiagaraMohawkPowerCorporation, theNineMilePointUnit2co-tenants, theNewYorkStatePowerAuthority, theircontractors orvendors.Alsoexcludedfromthiscategoryarepersonswhoenterthesitetoserviceequipment ortomakedeliveries.

Thiscategorydoesincludepersonswhouseportionsofthe'siteforrecreational, occupational, orotherpurposesnotassociated withNineMi,lePointNuclearStationandJamesA.Fit@Patrick NuclearPowerPlant.SGLOCION~1.24AMILKSAMPLINGLOCATIONisalocationwhere10ormoreheadofmilkanimalsareavailable forcollection ofmilksamples.0SIDOSCCULONU1.26TheOFFSITEDOSECALCULATION MANUAL(ODCM)shallcontainthecurrentmethodology andparameters usedinthecalculation ofoffsitedosesthatresultfromradioactive gaseousandliquideffluents, inthecalculation ofgaseousandliquideffluentmonitoring Alarm/Trip Setpoints, andintheconductoftheenvironmental radiological monitoring program.TheODCMshallalsocontains(1)theradioactive effluentcontrolsandRadiological

~Environmental Monitoring ProgramrequiredbySection6.8.4and,(2)descriptions oftheinformation thatshouldbeincludedintheAnnualRadiological Environmental Operating andSemiannual Radioactive EffluentReleaseReportsrequiredbyCONTROLS6.9.1.7and6.9.1.8.002916LLI1-2

BITY1.27Asystem,subsystem, train,component, ordeviceshallbeopERABLEorhaveOPERABILITY whenitiscapableofperforming itsspecified function(s) andwhenallnecessary attendant instrumentation,

controls, electrical power,coolingorsealwater,lubrication, orotherauxiliary equipment thatarerequiredforthesystem,subsystem, train,component, ordevicetoperformits-function(s) arealsocapableofperforming theirrelatedsupportfunction(e).

0TIONALCONDITION

-CONDITIO1.28AnOPERATIONAL CONDITION, i.e.,CONDITION, shallbeanyoneinclusive combination ofmodeswitchpositionandaveragereactorcoolanttemperature asspecified inTable1.2.P-URGING1.33PURGEandPURGINGshallbethecontrolled processofdischarging airorgasfromaconfinement tomaintaintemperature,

pressure, concentration, orotheroperating condition, insuchamannerthatreplacement airorgasisrequiredtopurifytheconfinement.

DERMALPO1.34RATEDTHERMALPOWERshallbeatotalreactorcoreheattransferratetothereactorcoolantof3323MWt.OTAEET1.36AREPORTABLE EVENTshallbeanyofthoseconditions specified in10CFR50.73'OUD1.40THESITEBOUNDARYshallbethatlinearoundtheNineMilePointNuclearStationbeyondwhichthelandisnotowned,leasedorotherwise controlled bytheNiagaraMohawkPower,Corporation ortheNewYorkStatePowerAuthority.

SETCOOSISLE(NOTFROMTHERETS)AREPRESENTATIVE COMPOSITE SAMPLEisthatpartofmorethanoneliquidorgaseousstreamsorvolumesthatcontainsthesameradioactive nuclidesormaterials inthesameratiosasthewholestreamsorvolumes,thatisobtainedovershort-time intervals.

1.42ASOURCECHECKshallbethequa~ative assessment ofchannelresponsewhenthechannelsensorisexposedtoasourceof'increased radioactivity.

002916LLI1-3

1.44THERHALPOWERshallbethetotalreactorcoreheattransferratetothereactorcoolant.UNSTRI1.47AnUNRESTRICTED AREAshallbeanyareaatorbeyondtheSITEBOUNDARY, accesstowhichisnotcontrolled bytheNiagaraMohawkPowerCorporation ortheNewYorkStatePowerAuthority forpurposesofprotection ofindividuals fromexposuretoradiation andradioactive materials, oranyareawithintheSITEBOUNDARYusedforresidential quartersorforindustrial, commercial, institutional, and/orrecreational purposes.

IL0AUSTTRSS1.48AVENTILATION EXHAUSTTREATMENT SYSTEMshallbeanysystemdesignedandinstalled toreducegaseousradioiodine orradioactive materialinparticulate formineffluents bypassingventilation orventexhaustgasesthroughcharcoaladsorbers and/orHEPAfiltersforthepurposeofremovingiodinesorparticulates fromthegaseousexhauststreampriortothereleasetotheenvironment (suchasystemisnotconsidered tohaveanyeffectonnoblegaseffluents).

Engineered safetyfeatures(ESP)atmospheric cleanupsystemsarenotconsidered tobeVENTZLATION EXHAUSTTREATMENT SYSTEMcomponents.

~~NG1.49VENTINGshallbethecontrolled processofdischarging airorgasfromaconfinement tomaintaintemperature,

pressure, concentration, orotheroperating condition, insuchamannerthatreplacement airorgasisnotprovidedorrequiredduringVENTZNG.Vent,usedinsystemnames,doesnotimplyaVENTINGprocess.002916LLI1-4

TABLE1.1SVEILLANCE FREUENCYNOTATIONS NoTATIoN8/UNAFREQUENCY Atleastonceper12hoursAtleastonceer24hoursAtleastoncer7dasAtleastonceper31daysAtleastonceper92daysAtleastoncer184dasAtleastonceer366dasAtleastonceper18months(550days)PriortoeachreactorstartuPriortoeachradioactive releaseNotapplicable 002916LLI1-5

TABLE.20ERATIONCONDITIONS CONDITION 1.Power0eration2.Startup3.HotShutdown4.ColdShutdown5.Refuelingtt NODESWITCHPOSITIONRunStartup/Hot StandbyShutdown*,**

Shutdown*,*+t ShutdownorRefuel*PAVERAGEREACTORCOOLANTTEMPERATURE AnterneratureAnytemperature

)2000Fc2000F1404FNOTATIONSThereactormodeswitchmaybeplacedintheRunorStartup/Hot Standbypositiontotesttheswitchinterlock functions providedthatthecontrolrodsareverifiedtoremainfullyinsertedbyasecondlicensedoperatororothertechnically qualified memberoftheunittechnical staff.*+ThereactormodeswitchmaybeplacedintheRefuelpositionwhileasinglecontrolrodisbeingrecoupled providedthattheone-rod-out interlock isOPERABLE.

tThereactormodeswitchmaybeplacedintheRefuelpositionwhileasinglecontrolroddriveisbeingremovedfromthereactorpressurevesselperTechnical Specification 3.9.10.l.

ttFuelinthereactorvesselwiththevesselheadclosureboltslessthanfullytensioned orwiththeheadremoved.SeeTechnical Specification SpecialTestExceptions 3.10.1and3.10.3.H002916LLI1-6

PARTI-RADIOLOGICAL EFFLUENTCONTROLSSECTIONS3'AND4.0CONTROLSSURVEILLANCE REQUIREMENTS 002916LLI3/40-0

0SURVEZLCE-REUIREMNTS~.0PCONTROLSLZY3.0.1Compliance withtheCONTROLSisrequiredduringtheOPERATIONAL CONDITIONS orotherconditions specified therein;exceptthatuponfailuretomeettheCONTROL,theassociated ACTIONrequirements shallbemet.3.0.2Noncompliance withaCONTROLshallexistwhentherequirements oftheCONTROLandassociated ACTIONrequirements arenotmetwithinthespecified timeintervals.

IftheCONTROLisrestoredpriortoexpiration ofthespecified timeintervals, completion oftheACTIONrequirements isnotrequired.

3.0.3WhenaCONTROLisnotmet,exceptasprovidedintheassociated ACTIONrequirements, within1houractionshallbeinitiated toplacetheunitinanOPERATIONAL CONDITION inwhichtheCONTROLdoesnotapplybyplacingit,asapplicable, in:l.AtleastSTARTUPwithinthenext6hours,2.AtleastHOTSHUTDOWNwithinthefollowing 6hours,and3.AtleastCOLDSHUTDOWNwithinthesubsequent 24hours.Wherecorrective measuresarecompleted thatpermitoperation undertheACTIONrequirements, theACTIONmaybetakeninaccordance withthespecified timelimitsasmeasuredfromthetimeoffailuretomeettheCONTROL.Exceptions totheserequirements arestatedintheindividual CONTROLS.

ThisCONTROLisnotapplicable inOPERATIONAL CONDITIONS 4or5.3.0.4EntryintoanOPERATIONAL CONDITION orotherspecified condition shallnotbemadeunlesstheconditions fortheCONTROLaremetwithoutrelianceonprovisions contained intheACTIONrequirements.

Thisprovision shallnotpreventpassagethroughortoOPERATIONAL CONDITIONS asrequiredtocomplywithACTIONrequirements.

Exceptions totheserequirements arestatedintheindividual CONTROLS.

002916LLI3/40-1

SVELLANCUZREMENTS

4.0. 1SURVEZLLANCE

REQUIREMENTS shallbemetduringtheOPERATIONAL CONDITIONS orotherconditions specified forindividual Controlsunlessotherwise statedinanindividual Surveillance Requirement.

4.0. 2EachSURVEILLANCE

RE{}UIREMENT shallbeperformed withinthespecified timeintervalwithamaximumallowable extension nottoexceed25%ofthesurveillance interval.

4.0. 3FailuretoperformaSURVEZLLANCE

REQUIREMENT withintheallowedsurveillance

interval, definedbySpecification 4.0.2,shallconstitute noncompliance withtheOPERABILITY requirements foraCONTROL.ThetimelimitsoftheACTIONrequirements areapplicable atthetimeitisidentified thataSURVEILLANCE RE{}UZREMENT hasnotbeenperformed.

TheACTIONrequirements maybedelayedforupto24hourstopermitthecompletion ofthesurveillance whentheallowable outagetimelimitsoftheACTIONrequirements arelessthan24hours.SURVEILLANCE REQUIREMENTS donothavetobeperformed oninoperable equipment.

4.0. 4EntryintoanOPERATIONAL

CONDITION orotherspecified applicable condition shallnotbemadeunlesstheSurveillance Requirement(s) associated withtheCONTROLhavebeenperformed withintheapplicable surveillance intervalorasotherwise specified.

Thisprovision shallnotpreventpassagethroughortoOPERATIONAL CONDZTIONS asrequiredtocomplywithACTIONrequirements.

002916LLI3/40-2

NAONOROLONORNGISTRUMENTA IONLIMITINGCONDITIONS FOROPERATION 3.3.7.3TheMeteorological Monitoring Instrumentation channelsshowninTable3.3.7.3-1 shallbeOPERABLE.

CAB(atalltimes)a.Withoneormoremeteorological monitoring instrumentation channelsinoperable formorethan7days,inlieuofanyotherreportrequiredbyControls6.9.1,prepareandsubmitaSpecialReporttotheCommission pursuanttoControls6.9.2withinthenext10daysoutlining thecauseofthemalfunction andtheplansforrestoring theinstrumentation toOPERABLEstatus.b.Theprovisions ofControls3.0.3and3.0.4arenotapplicable.

SURVEILLANCE REUIREMENTS 4.3.7.3EachoftheaboverequiredMeteorological Monitoring Instrumentation channelsshallbedemonstrated OPERABLEbytheperformance oftheCHANNELCHECKandCHANNELCALIBRATION operations atthefrequencies showninTable4.3.7.3-1

~002916LLI3/43-74

TABLE3~37~3HETEOROLOOICAL MONITORINO ISTRUMENTAT IONINSTRUMENT 1.WindSed2.WindDirection 3.AirTemperature Dil.'ference ELEVATION 30/20030/20030/200tt.MINIMUMINSTRUHENTS OPERABLE002916LLI3/43-75

TABLE4~3~7.31OROLOOICAL NONITORINO INSTRUNENTAT IONSURVEILLANCE UIREMENTS INSTRUMENT 1.WindSed2.WindDirection 3.AirTemperature Difference ELEVATION 30/20030/20030/200CHANNELCHECRD/DD/DD/DCHISELCALIBRATIONSA/SASA/SASA/SA002916LLI3/43-76

N0DEFUETMONITORING INSTRUMENTATION CONTROLS3.3.7.9Theradioactive liquideffluentmonitoring instrumentation channelsshowninTable3.3.7.9-1 shallbeOPERABLEwiththeirAlarm/Trip Setpoints settoensurethatthelimitsofCONTROL3.11.1.1arenotexceeded.

TheAlarm/Trip Setpoints ofthesechannelsshallbedetermined andadjustedinaccordance withthemethodology andparameters intheOFFSITEDOSECALCULATION MANUAL(ODCM)~a.Witharadioactive liquideffluentmonitoring instrumentation channelAlarm/Trip Setpointlessconservative thanrequiredbytheabovecontrol,immediately suspendthereleaseofradioactive liquideffluents monitored bytheaffectedchannel,ordeclarethechannelinoperable, orchangethesetpointsoitisacceptably conservative.

b.WiththenumberofchannelsOPERABLElessthantheMinimumChannelsOPERABLErequirement, taketheACTIONshowninTable3.3.7.9-1.

Restoretheinstruments toOPERABLEstatuswithin30daysand,ifunsuccessful, explaininthenextSemiannual Radioactive EffluentReleaseReportwhytheinoperability wasnotcorrected inatimelymanner.c.Theprovisions ofCONTROLS3.0.3and3.0.4arenotapplicable.

SURVELLANCEREUIREMENTS 4.3.7.9Eachradioactive liquideffluentmonitoring instrumentation channelshallbedemonstrated OPERABLEbyperformance oftheCHANNELCHECK,SOURCECHECK@CHANNELCALIBRATION ANDCHANNELFUNCTIONAL TESTat'thefrequencies showninTable4.3.7.9-1.

002916LLI3/43-92

TABLE3.3.7~9-1IOACTIVELIUIDEFFLUENTMONITORING INSTRUMENTATION INSTRUMENT 1.Radioactivity MonitorsProviding AlarmandAutomatic Termination ofReleaseLiquidRadwasteEffluentLine2.Radioactivity MonitorsProviding AlarmbutnotProviding Automatic Termination ofReleasea.ServiceWaterEffluentLineAb.ServiceWaterEffluentLineBc.CoolingTowerBlowdownLine3.FlowRateMeasurement Devicesa.LiquidRadwasteEffluentLineb.ServiceWaterEffluentLineAc.'ServiceWaterEffluentLineBd.CoolinTowerBlowdownLine4.TankLevelIndicating Devices*MINIMUMC1ULNNELS OPERABLEACTION128130130130131131131131132Tanksincludedinthiscontxolarethoseoutdoortanksthatarenotsurrounded byliners,dikes,orwallscapableofholdingthetankcontentsanddonothavetankoverflows andsurrounding areadxainsconnected totheliquidradwastetreatment system,suchastemporary tanks.002916LLI3/43-93

IOABLE3.3.7.9-(Continued)

IUIEPVENTONITORINO INSTRUMENTAT 0TABLENOTATIONS ACTION128WiththenumberofchannelsOPERABLElessthanrequiredbytheMinimumChannelsOPERABLErequirement, effluentreleasesmaycontinueprovidedthatbeforeinitiating arelease:a.Atleasttwoindependent samplesareanalyzedinaccordance withSurveillance 4.11.1.1.1, andb.Atleasttwotechnically qualified membersofthefacilitystaffindependently verifythereleaseratecalculations anddischarge linevalving;Otherwise, suspendreleaseofradioactive effluents viathispathway.ACTION129-Notused.ACTION130ACTION131ACTION132WiththenumberofchannelsOPERABLElessthanrequiredbytheMinimumChannelsOPERABLErequirement, effluentreleasesviathispathwaymaycontinueprovidedthat,atleastonceper12hours,grabsamplesarecollected andanalyzedforradioactivity atalimitofdetection ofatleast5x10'icrocuries/ml.

WiththenumberofchannelsOPERABLElessthanrequiredbytheMinimumChannelsOPERABLErequirement, effluentreleasesviathispathwaymaycontinue, providedtheflowrateisestimated atleastonceper4hoursduringactualreleases.

Pumpperformance curvesgenerated inplacemaybeusedtoestimateflow.-WiththenumberofchannelsOPERABLElessthanrequiredbytheMinimumChannelsOPERABLErequirement, liquidadditions tothistankmaycontinueprovidedthetankliquidlevelisestimated duringallliquidadditions tothetank.002916LLI3/43-94

.79-NGNSUNENTATION SCEEUIINSTRUMENT 1.Radioactivity MonitorsProviding AlarmandAutomatic Termination ofReleaseLiidRadwaateEffluentLine2.Radioactivity MonitorsProviding AlarmbutnotProviding Automatic Termination ofReleasea.ServiceWaterEffluentLineAb.ServiceWaterEffluentLineBc.CoolingTowerBlowdonLine3.FlowRateMeasurement Devicesa.LiquidRadwasteEffluentLineb.ServiceWaterEffluentLineAc.ServiceWaterEffluentLineBd.CoolingTowerBlowdownLine4.TankLevelIndicating Devices*CHANNELCHECKD(d)D(d)D(d)D(d)D**SOURCECHECKNANANANANACHANNELCALIBRATION RcR(c)R(c)R(c)CmLRXELFUNCTIONAL TESTM(ab)SA(b)SA(b)SA(b)*Tanksincludedinthiscontrolarethoseoutdoortanksthatarenotsurrounded byliners,dikes,orwallscapableofholdingthetankcontentsanddonothavetankoverflows andsurrounding areadrainsconnected totheliquidradwastetreatment system,suchastemporary tanks.**Duringliquidadditions tothetank.002916LLI3/43-95

UFFLMONTORINGINSTRUMENTATION SURVEILLANCE REUIREMENTS TABLENOTATIONS (a)TheCHANNELFUNCTIONAL TESTshallalsodemonstrate thatautomatic isolation ofthispathwayandcontrolroomalarmannunciation occursiftheinstrument indicates measuredlevelsabovetheAlarm/Trip Setpoint.

(b)TheCHANNELFUNCTIONAL TESTshallalsodemonstrate thatcontrolroomalarmannunciation occursifanyofthefollowing conditions existss(1.)Instrument indicates measuredlevelsabovetheAlarmSetpoint, or(2.)Circuitfailure,og(3.)Instrument indicatks adownscale failure,or(4.)Instrument controlsnotsetinoperatemode.(c)TheinitialCHANNELCALIBRATION shallbeperformed usingoneormoreofthereference standards certified bytheNationalBureauofStandards*

(NBS),standards thataretraceable totheNBSstandards, orusingactualsamplesofliquideffluents thathavebeenanalyzedonasystemthathasbeencalibrated withNationalInstitute ofStandards andTestingtraceable sources.Thesestandards shallpermitcalibrating thesystemoveritsintendedrangeofenergyandmeasurement.

Forsubsequent CHANNEL-CALIBRATION, sourcesthathavebeenrelatedtotheinitialcalibration maybeused.(d)CHANNELCHECKshallconsistofverifying indication offlowduringperiodsofrelease.CHANNELCHECKshallbemadeatleastonceper24hoursondaysonwhichcontinuous,

periodic, orbatchreleasesaremade+*Wentetecncalspecification changeiscompletetodeletetheprocedural detailsthatarebeingtransferred totheODCM,thentheNBSwillbechangedtothecorrectNIST.002916LLI3/43-96

UMENATIOOUSEFFLUNTMONITOINGINSTRUMENTATION CONTROLS3.3.7.10Theradioactive gaseouseffluentmonitoring instrumentation channelsshowninTable3.3.7.10-1 shallbeOPERABLEwiththeirAlarm/Trip Setpoints settoensurethatthelimitsofCONTROL3.11.2.1arenotexceeded.

TheAlarm/Trip Setpoints ofthesechannelsshallbedetermined andadjustedinaccordance withthemethodology andparameters intheODCM.hQ~O~a.Witharadioactive gaseouseffluentmonitoring instrumentation channelAlarm/Trip Setpointlessconservative thanrequiredbytheabovecontrol,immediately suspendthereleaseofradioactive gaseouseffluents monitored bytheaffectedchannel,ordeclarethechannelinoperable, orchangethesetpointsoitisacceptably conservative.

b.WiththenumberofchannelsOPERABLElessthantheMinimumChannelsOPERABLErequirement, taketheACTIONshowninTable3.3.7.10-1.

Restoretheinstruments toOPERABLEstatuswithin30daysand,ifunsuccessful, explaininthenextSemiannual Radioactive EffluentReleaseReportwhytheinoperability wasnotcorrected inatimelymanner.c.Theprovisions ofCONTROLS3.0.3and3.0.4arenotapplicable.

SURVEILLANCE REUIREMENTS 4.3.7.10Eachradioactive gaseouseffluentmonitoring instrumentation channelshallbedemonstrated OPERABLEbyperformance oftheCHANNELCHECK,SOURCECHECK,CHANNELCALIBRATION andCHANNELFUNCTIONAL TESToperations atthefrequencies showninTable4.3.7.10-1.

5002916LLI3/43-97

TABLE3.3.7.10-1RADIOACTIVE GSEOUSEFFLUENTMONITORING INSTRUMENTATION INSTRUMENT 1.OffgasSystema.NobleGasActivityMonitor-Providing AlarmandAutomatic Termination ofReleaseb.SystemFlow>>Rate Measuring Devicec.SamplerFlow-Rate MeasurinDevice2.OffgasSystemExplosive GasMonitoring System-RetainedintheRETS3.Radwaste/Reactor BuildingUentEffluentSystema.NobleGasActivityMonitortb.ZodineSamplerc.Particulate Samplerd.Flow-Rate Monitore.SamleFlow-Rate Monitor4.MainStackEffluenta.NobleGasActivityMonitortb.IodineSamplerc.Particulate'Sampler d.Flow-Rate Monitore.SampleFlow-Rate MonitorMINIMUMCHANNELSOPERABLEAPPLICABILITY ACTION'135136136139138138136136139138138136136002916LLI3/43-98

LE3.3.7.10-1(Continued)

IOACTIOASEOUSEFFLUENTMONITORINO NSTRUMENTATIO TABLEAIONS*Duringoffgassystemoperation.

tIncludeshighrangenoblegasmonitoring capability.

ttAtalltimes.ACTION135-a.b.ACTIONSWiththenumberofOPERABLEchannelsonelessthanrequiredbytheMinimumChannelsOPERABLErequirement, effluentreleasesviathispathwaymaycontinuepzovidedtheinoperable channelisplacedinthetrippedcondition within12hours.4WiththenumberofOPERABLEchannelstwolessthanrequiredbytheMinimumChannelsOPERABLEzequirement, effluentreleasesviathispathwaymaycontinueprovidedgrabsamplesaretakenatleastonceper12hoursandthesesamplesareanalyzedfor.grossactivitywithin24hours.ACTION136-WiththenumberofchannelsOPERABLElessthanzequiredbytheMinimumChannelsOPERABLErequirement, effluentreleasesviathispathwaymaycontinueprovidedtheflowratefortheinoperable channel(s) isestimated atleastonceper4hours.ACTION137-RetainedintheRETS.ACTION138-WiththenumberofchannelsOPERABLElesethanrequiredbytheMinimumChannelsOPERABLErequizement, effluentreleasesviathispathwaymaycontinueprovidedsamplesarecontinuously collected startingwithin8hoursofdiscovery, usingauxiliary samplingequipment asrequiredinTable4.11.2-1.

ACTION139-a.WiththenumberofchannelsOPERABLElessthanrequizedbytheMinimumChannelsOPERABLErequirement, effluentzeleasesviathispathwaymaycontinueprovidedgrabsamplesaretakenatleastonceper12hoursandthesesamplesareanalyzedforgrossactivitywithin24hoursforaradioactivity limitofdetection ofatleast1x10~microcurie/ml.

b.Restoretheinoperable channel(s) toOPERABLEstatuswithin72hoursorinlieuofanotherreport,requiredbyTechnical Specification 6.9.1,prepareandsubmitaSpecialReporttotheCommission pursuanttoTechnical Specification 6.9.2within14daysfollowing theeventoutlining theactiontaken,thecauseoftheinoperability andthescheduleforrestoring thesystemtoOPERABLEstatus.002916LLI3/43-99

00SOUUENTNONABLE4~3~7.10-NOINSTRUMENTATION SURVEICEREUIR19lENTS INSTRUMENT l.OffgasSystema.NobleGasActivityMonitor-Providing AlarmandAutomatic Termination ofReleaseb.SystemFlow-Rate Measuring Devicec.SampleFlow-Rate Measuring Device2.OffgasSystemExplosive GasMonitoring System-RetainedinRETS3.Radwaste/Reactor BuildingVentEffluentSystema.NobleGasActivityMonitortb.IodineSamplerc.Particulate Samplerd.Flow-Rate MonitorCHA11NELCHECKSOURCECHECKNANANANANACHANNELCALIBRATION R(a,e)R(a)NANACHANNELFUNCTIONAL TESTM(b,c)Q(c)NANAMODESIXNHICHSURVEILLANCE REQUIREDe.SampleFlow-Rate MonitorNA001916LLI3/43-100

00OUEABLE4.3.7.10-(Continued)

MONTORINOINSTRUMENTATION SURVEICEREUIREMENTS INSTRUMENT 4.MainStackEffluentCHANNELCHECKSOURCECHECKCHANNELCALIBRATION CHANNELFUNCTIONAL TESTMODESINWHICHSURmILLANCE REQUIREDa.NobleGaeActivityMonitortb.IodineSamplerc.Particulate Samplerd.Flow-Rate Monitore.SampleFlow-Rate MonitorNANANANAR(a)NANAQ(c)NANA001916LLI3/43-101

0-(Continued)

INCNSTRUNENTATION SURVEILIJWCE REURENENTSABLEOTATIONS*Atalltimes.**Duringoffgassystemoperation.

tIncludeshighrangenoblegasmonitoring capability.

(a)TheinitialCHANNELCALIBRATION shallbeperformed usingoneormoreofthereference standards

.certified bytheNationalBureauofStandards (NBS)orusingstandards thathavebeenobtainedfromsuppliers thatparticipate inmeasurement assurance activities withNBS,orusingactualsamplesofgaseouseffluents thathqvebeenanalyzedonasystemthathasbeencalibrated withNBStraceable sources.Thesestandardshallpermitcalibrating thesystemoveritsintendedrangeofenergyandmeasurement.

Forsubsequent CHANNELCALIBRATION, sourcesthathavebeenrelatedtotheinitialcalibration maybeused.(b)TheCHANNELFUNCTIONAL TESTshallalsodemonstrate theautomatic isolation capability ofthispathwayandthatcontrolroomalarmannunciation occursiftheinstrument indicates measuredlevelsabovetheAlarm/Trip Setpoint(eachchannelwillbetestedindependently soastonotinitiateisolation duringoperation).

(c)TheCHANNELFUNCTIONAL TESTshallalsodemonstrate thatcontrolroomalarmannunciation occursifanyofthefollowing conditions exists:(1.)Instrument indicates measuredlevelsabovethealarmsetpoint.

(2.)Circuitfailure.(3.)Instrument indicates adownscale failure.(4.)Instrument controlsnotsetinoperatemode.(d)RetainedinRETS.(e)TheCHANNELCALIBRATION shallalsodemonstrate thatautomatic isolation ofthispathwayoccurswhentheinstrument channelsindicatemeasuredlevelsabovetheTripSetpoint.

001916I.I.

I3/43-102

EFFLUENTS 3~~EFFLUENTS COCENTCONTROLS3.11.1.1Theconcentration ofradioactive materialreleasedinliquideffluents toUNRESTRICTED AREAS(seeFigure5.1.3-1)shallbelimitedtotheconcentrations specified in10CFR20,AppendixB,TableII,Column2,forradionuclides otherthandissolved orentrained noblegases.Fordissolved orentrained noblegases,theconcentration shallbelimitedto2x10microcurie/ml totalactivity.

~CT~OWiththeconcentration ofradioactive materialreleasedinliquideffluents toUNRESTRICTED AREASexceeding theabovelimits,withoutdelayrestoretheconcentration towithintheabovelimits.SURVEILLANCE REUIREMENTS 4.11.1.1.1 Radioactive liquidwastesshallbesampledandanalyzedaccording tothesamplingandanalysisprogramofTable4.11.1-1.

4.11.1.1.2 Theresultsoftheradioactivity analysesshallbeusedinaccordance withthemethodology andparameters intheODCMtoassurethattheconcentrations atthepointofreleasearemaintained withinthelimitsofCONTROL3,11.1.1.002916LLI3/411-1

TABLE4.11.1-1IOACTZVELZUIDWASTESAMPLINGANDANALYSISPROGRAMLIQUIDRELEASETYPESAMPLINGFREUENCYMINIMUMANALYSISFREUENCYTYPEOFACTIVITYANALYSISLOWERLIMITOFDETECTION (LLD)(a)uCimlBatchWasteReleaseTanks(b)a.2LWS-TK4A b.2LWS-TK4B c.2LWS-TKSA d.2LWS-TK5B PEachBatchPOneBatch/MPPrincipal GammaEachBatchEmttescI-131OneBatch/MDissolved andEntrained Gases(GammaEmitters) 5x10'x104 PEachBatchMComposite(d)

H-3GrossAlpha1x10iPEachBatchQSr-89,Sr-90Composite(d)

Fe<<555x1041x102.Continuous ReleasesGrabSampleGrabSamplePrincipal GammaM(e)M(e)Emitters(c)Sx10'-131 lx10~a.ServiceWaterEffluentAb.ServiceWaterEffluent, BDissolved andEntrained Gases(GanesaEmitters)

H-3GrossAlpha1x10'ilx10'x10'.

CoolingTowerGrabSampleGrabSampleSr-89,Sr-90BlowdownQ(~)Q(e)Fe-55Sx10~1x10d.Auxiliary BoilerPumpSealandSampleCoolingDischarge (ServiceWater)GrabSampleM(f)GrabSampleGrabSampleM(f)GrabSamplePrincipal GammaEmitters(c)

H-3Sx10'x10i002916LLI3/411-2

TMLE4.11.1-1(Continued)

IOAIVELIUIDWASTESAMPLINGANDANALYSISPROGRAMTABLENOTATIONS (a)TheLLDisdefined,forpurposesoftheseCONTROLS, asthesmallestconcentration ofradioactive materialinasamplethatwillyieldanetcount,abovesystembackground, thatwillbedetectedwith95%probability withonly5%probability offalselyconcluding thatablankobservation represents a"real"signal.Foraparticular measurement system,whichmayincluderadiochemical separation:

4~66siLLDEV2.22x10~Yexp(-4t)WhereJLLDthebefore-the-fact lowerlimitofdetection (microcurie perunitmassorvolume),thestandarddeviation ofthebackground countingrateorofthecountingrateofablanksampleasappropriate (countsperminute),Ethecountingefficiency (countsperdisintegration),

V'thesamplesire(unitsofmassorvolume),2.22x10~~thenumberofdisintegrations perminutepermicrocurie, thefractional radiochemical yield,whenapplicable, dttheradioactive decayconstantfortheparticular radionuclide (sec'),andAtheelapsedtimebetweenthemidpointofsamplecollection andthetimeofcounting(seconds).

TypicalvaluesofE,V,Y,and4tshouldbeusedinthecalculation.

Itshouldberecognised thattheLLDisdefinedasabefore-the-fact limitrepresenting thecapability ofameasurement systemandnotasanafter-the-factlimitforaparticu1armeasurement.

(b)Abatchreleaseisthedischarge ofliquidwastesofadiscretevolume.Priortosamplingforanalyses, eachbatchshallbeisolated, andthenthoroughly mixedbyamethoddescribed intheODCMtoassurerepresentative sampling.

002916LLI3/411-3

TABLE4.11.1-1(Continued)

IOACTIVELIUIDWASTESAMPLINGANDALYSISOORANTABLENOTATIONS (c)Theprincipal gammaemittersforwhichtheLLDCONTROLappliesincludethefollowing radionuclidess Mn-54,Fe-59,Co<<58,Co-60,Zn-65,Mo-99,Cs-134,Cs-137andCe-141.Ce-144shallalsobemeasured, butwithanLLDof5x10~.Thislistdoesnotmeanthatonlythesenuclidesaretobeconsidered.

Othergammapeaksthatareidentifiable, togetherwiththoseoftheabovenuclides, shallalsobeanalyzedandreportedintheSemiannual Radioactive EffluentReleaseReportpursuanttoCONTROL6.9.1.8intheformatoutlinedinRG1.21,AppendixB,Revision1,June1974'd)Acomposite sampleisoneinwhichthequantityofliquidsampledisproportional tothequantityofliquidwastedischarged andinwhichthemethodofsamplingemployedresultsinaspecimenthatisrepresentative oftheliquidsreleased.

(e)Zfthealarmsetpointoftheeffluentmonitor,asdetermined bythemethodpresented intheODCM,isexceeded, thefrequency ofsamplingshallbeincreased todailyuntilthecondition nolongerexists.Frequency ofanalysisshallbeincreased todailyforprincipal gammaemittersandanincidentcomposite forH-3,grossalpha,Sr-89,Sr-90,andPe-55.(f)ZfthealarmsetpointofServiceWaterEffluentMonitorAand/or8,asdetermined bythemethodpresente+in theODCM,isexceeded, thefrequency ofsamplingshallbeincreased todailyuntilthecondition nolongerexists.Frequency ofanalysisshallbeincreased todailyforprincipal gaamaemittersandanincidentcomposite forH-3,grossalpha,sr-89,Sr-90,andFe-55..002916LLI3/411-4

UN~DOSCONTROLS3.11.1.2Thedoseordosecommitment toaMEMBEROFTHEPUBLICfromradioactive materials inliquideffluents

released, fromeachunit,toUNRESTRICTED AREAS(seeFigure5.1.3-1)shallbelimitedsa.Duringanycalendarquartertolessthanorequalto1.5mremtothewholebodyandtolessthanorequalto5mremtoanyorgan,andb.Duringanycalendaryeartolessthanorequalto3mremtothe~holebodyandtolessthanorequalto10mremtoanyorgan.~C~Oa.Withthecalculated dosefromthereleaseofradioactive materials inliquideffluents exceeding anyoftheabovelimits,prepareandsubmittotheCommission within30days,pursuanttoTechnical Specification 6.9.2,aSpecialReportthatidentifies thecause(s)forexceeding thelimit(s)anddefinesthecorrective actionsthathavebeentakentoreducethereleasesandtheproposedcorrective actionstobetakentoassurethatsubsequent releaseswillbeincompliance withtheabovelimits.b.Theprovisions ofCONTROLS3.0.3and3.0.4arenotapplicable.

SURVEILLANCE REUIREMENTS 4.11.1.2Cumulative dosecontributions fromliquideffluents forthecurrentcalendarquarterandthe.currentcalendaryearshallbedetermined inaccordance withthemethodology andparameters intheODCMatleastonceper31days.002916LLI3/411-5

NSUDLIDCONTROLSTREATMETSYSTEM3.11.1.3Theliquidradwastetreatment systemshallbeOPERABLE, andappropriate portionsofthesystemshallbeusedtoreducereleasesofradioactivity whentheprojected dosesduetotheliquideffluent, fromtheunit,toUNRESTRICTED AREAS(seeFigure5.1.3-1)wouldexceed0.06mremtothewholebodyor0.2mremtoanyorganina31-dayperiod.ICBcAtalltimes.~Capta.Withradioactive liquidwastebeingdischarged withouttreatment andinexcessoftheabovelimitsandanyportionoftheliquidradwastetreatment systemnotinoperation, prepareandsubmittotheCommission within30days,pursuanttoTechnical Specification 6.9.2,aSpecialReportthatincludesthefollowing information:

1.Explanation ofwhyliquidradwastewasbeingdischarged withouttreatment, identification ofanyinoperable equipment orsubsystems, andthereasonfortheinoperability, 2.Action(s) takentorestoretheinoperable equipment toOPERABLEstatus,and3.Summarydescription ofaction(s) takentopreventarecurrence.

b.Theprovisions ofCONTROLS3.0.3and3.0.4arenotapplicable.

SUVELLANCEREUIREMENTS 4.11.1.3.1 Dosesduetoliquidreleases, fromeachunittoUNRESTRICTED AREASshallbeprojected atleastonceper31daysinaccordance withthemethodology andparameters intheODCMwhenliquidradwastetreatment systemsarenotbeingfullyutilized.

4.11.1.3.2 Theinstalled liquidradwastetreatment systemshallbeconsidered OPERABLEbymeetingCONTROLS3.11.1.1and3.11.1.2.

002916LLI3/411-6

-2CSFFLUETS~DOSEEACONTROLS3.11.2.1Thedoseratefromradioactive materials releasedingaseouseffluents fromthesitetoareasatorbeyondthe"SITEBOUNDARY(seeFigure5.1.3-1)shallbelimitedtothefollowing:

a.Fornoblegases:Lessthanorequalto500mrem/yrtothewholebodyandlessthanorequalto3000mrem/yrtotheskin,andb.Foriodine-131, foriodine-133, fortritium,andforallradionuclides inparticulate formwithhalf-lives greaterthan8days:Lessthanorequalto1500mrem/yrtoanyorgan.~C~ONtWiththedoserate(s)exceeding theabovelimits,immediately restorethereleaseratetowithintheabovelimit(s).SURVEILLANCE REUIREMENTS 4.11.2.1.1 Thedoseratefromnoblegasesingaseouseffluents shallbedetermined tobewithintheabovelimitsinaccordance withthemethodology andparameters intheODCM.4.11.2.1.2 Thedoseratefromiodine-131, iodine-133, tritium,andallradionuclides inparticulate formwithhalf-lives greaterthan8daysingaseouseffluents shallbedetermined tobewithintheabovelimitsinaccordance withthemethodology andparameters intheODCMbyobtaining representative samplesandperforming analysesinaccordance withthesamplingandanalysisprogramspecified

'inTable4.11.2-1.

002916LLI3/411-8

0SOUSW8SI0ANDjWALYSISP0008OU8E1.Containment(b)

SAXPLINOCEachPURGENININUNANALYSISUENCYEachPURGETYPEOFACTIVITYjWALYSSPrincipal GammaEmitters(c)

H-3(oxide),Principal GammaEmitters(c)

LOWERLIMITOFUETECTION (LLU)>>uCiallxlO~lx10,lx10>>2.HainStackR(d)Radwaste/Reactor BuildingVentGrabSampleM(e)Continuous(f)

Continuous(

f)Continuous(f)

M(d)M(e)W(g)CharcoalSampleW(e)Particulate Sample9Composite Particulate SamePrincipal GammaEmitters(c)

H-3(oxide)I-131Principal GammaEmitters(c)

GrossAlphaSr-89,Sr-90lx10lxlOlxlOlx10"lxlo"lxlo'02916LL T3/411-9

OAGASEOUSHASSINCANDANALYSISOOIVWABLEOTATIONS(a)TheLLDisdefined,forpurposesoftheseCONTROLS, asthesmallestconcentration ofradioactive materialinasamplethatwillyieldanetcount,abovesystembackground, thatwillbedetectedwith95%probability withonly5tprobability offalselyconcluding thatablankobservation represents a"real"signal.Foraparticular measurement system,whichmayincluderadiochemical separation:

LLD4.66SgEV2.22x10~Yexp(-ht)Mhere:LLDs,Thebefore-the-fact lowerlimitofdetection (microcuries perunitmassorvolume)thestandarddeviation ofthebackground countingrateorofthecountingrateofablanksampleasappropriate (countsperminute)Ethecountingefficiency (countsperdisintegration)

Vthesamplesize(unitsofmassorvolume)2.22x10~~thenumberofdisintegrations perminutepermicrocurieYthefractional radiochemical yield,whenapplicable theradioactive decayconstantfortheparticular radionuclide (sec')dttheelapsedtimebetweenthemidpointofsamplecollection andthetimeofcounting(seconds)

TypicalvaluesofE,V,Y,anddtshouldbeusedinthecalculation.

Itshouldberecognized thattheLLDisdefinedasabefore-the-fact limitrepresenting thecapability ofameasurement systemandnotasanafter-the-fact limitforaparticular measurement.

002916LLI3/411-10

TABLE4.11.2-1(Continued)

OACTIGASEOUSWASTESAHPLINOANDANALYSISPROGRAHTABLENOTATIONS (b)SampleandanalysisbeforePURGEisusedtodetermine permissible PURGErates.SampleandanalysisduringactualPURGEisusedforoffsitedosecalculations.

(c)Theprincipal gammaemittersforwhichtheLLDCONTROLappliesincludethefollowing radionuclidess Kr-87,Kr-88,Xe-133,Xe-133m,Xe-135,andXe-138innoblegasreleasesandMn-54,Fe-59,Co-58,Co-60,~Zn-65,Mo-99,I-131,Cs-134,Cs-137,Ce-141,andCe-144iniodineandparticulate releases.

Thislistdoesnotmeanthatonlythesenuclidesaretobeconsidered.

Othergammapeaksthatareidentifiable, togetherwiththoseoftgeabovenuclides, shallalsobeanalyzedandreportedintheSemiannual Radioactive EffluentReleaseReportpursuanttoCONTROL6'.1.8intheformatoutlinedinRG1.21,Appendix8,Revision1,June1974.(d)Ifthemainstackorreactor/radwaste buildingisotopicmonitorisnotOPERABLE, samplingandanalysisshallalsobeperformed following

shutdown, startup,orwhenthereisanalarmontheoffgaspretreatment monitor.(e)Tritiumgrabsamplesshallbetakenweeklyfromthereactor/radwaste ventilation systemwhenfuelisoffloaded untilstabletritiumreleaselevelscanbedemonstrated.

(f)Theratioofthesampleflowratetothesampledstreamflowrateshallbeknownforthetimeperiodcoveredbyeachdoseordoseratecalculation madeinaccordance withCONTROLS3.11.2.1.b and3.11.2.3.

(g)Whenthereleaserateofthemainstackorreactor/radwaste buildingventexceedsitsalarmsetpoint, theiodineandparticulate deviceshallberemovedandanalyzedtodetermine thechangesiniodineandparticulate releaserates.Theanalysisshallbedonedailyuntilthereleasenolongerexceedsthealarmsetpoint.

Whensamplescollected for24hoursareanalyzed, thecorresponding LLDsmaybeincreased byafactorof10.002916LLI3/411-11

UNSGOUDOSE-NOCONTROLSSES3.11.2.2Theairdosefromnoblegasesreleasedingaseouseffluents, fromeachunit,toareasatorbeyondtheSITEBOUNDARY(seeFigure5.1.3-1)shallbelimitedtothefollowing:

a.Duringanycalendarquarter:Lessthanorequalto5mradforgammaradiation andlessthanorequalto10mradforbetaradiation, andb.Duringanycalendaryear:Lessthanorequalto10mradforgammaradiation andlessthanorequalto20mradforbetaradiation.

'a~b.Withthecalculated airdosefromradioactive noblegasesingaseouseffluents exceeding anyoftheabovelimits,prepareandsubmittotheCommission within30days,pursuanttoTechnical Specification 6.9.2,aSpecialReportthatidentifies thecause(s)forexceeding thelimit(s)anddefinesthecorrective actionsthathavebeentakentoreducethereleasesandtheproposedcorrective actionstobetakentoassurethatsubsequent releaseswillbeincompliance withtheabovelimits.Theprovisions ofCONTROLS3.0.3and3.0.4arenotapplicable.

SURVEILLANCE REUIREMENTS 4.11.2.2Cumulative dosecontributions forthecurrentcalendarquarterandcurrentcalendaryearfornoblegasesshallbedetermined inaccordance withthemethodology andparameters intheODCMatleastonceper31days.002916LLI3/411-12

UNTS0OUSDOS-10PARTICULO31IODINE-133 TRITIUANDDIOACTIYE MATERILINCONTROLS3.11.2.'3 ThedosetoaMEMBEROFTHEPUBLICfromiodine-131, iodine-133, tritium,andallradioactive materialinparticulate formwithhalf-lives greaterthan8daysingaseouseffluents

released, fromeachunit,toareasatorbeyondtheSITEBOUNDARY(seeFigure5.1.3-1)shallbelimitedtothefollowing:

a.Duringanycalendarquarter:Lessthanorequalto7.5mremtoanyorganand,b.Duringanycalendaryear:Lessthanorequalto15mremtoanyorgan.~C~Oa~Withthecalculated dosefromthereleaseofiodine-131, iodine-133, tritium,andradioactive materialinparticulate formwithhalf-lives greaterthan8days,ingaseouseffluents exceeding anyoftheabovelimits,prepareandsubmittotheCommission within30days,pursuanttoTechnical Specification 6.9.2,aSpecialReportthatidentifies thecause(s)forexceeding thelimit(s)anddefinesthecorrective actionsthathavebeentakentoreducethereleasesandtheproposedcorrective actionstobetakentoassurethatsubsequent releaseswillbeincompliance withtheabovelimits.b.Theprovisions ofCONTROLS3.0.3and3.0.4arenotapplicable.

SURVELLANCEREUIREMENTS 4.11.2.3Cumulative dosecontributions forthecurrentcalendarquarterandcurrentcalendaryearforiodine-131, iodine-133, tritiumandradioactive materialinparticulate formwithhalf-lives greaterthan8daysshallbedetermined inaccordance withthemethodology andparameters intheODCMatleastonceper31days.002916LLI3/411-13

SUSGASEOUSCONTROLSETREATMENT SYSTEM3.11.2.4TheGASEOUSRADWASTETREATMENT SYSTEMshallbeinoperation.

operation.

~C~O!Withgaseousradwastefromthemaincondenser airejectorsystembeingdischarged withouttreatment formorethan7days,prepareandsubmittotheCommission within30days,pursuanttoTechnical Specification 6.9.2,aSpecialReportthatincludesthefollowing information.

l.Identification oftheinoperable equipment orsubsystems andthereasonfortheinoperability, 2.Action(s) takentorestoretheinoperable equipment toOPERABLEstatus,and3.Summarydescription ofaction(s) takentopreventarecurrence.

b.Theprovisions of,CONTROLS3.0.3and3.0.4arenotapplicable.

SURVEILLANCE UIREMENTS 4.11.2.4Thereadingsoftherelevantinstruments shallbecheckedevery12hourswhenthemaincondenser airejectorisinusetoensurethatthegaseousradwastetreatment systemisfunctioning.

002916LLI3/411-14 Cl 0FLUSGSOUSNILATIOCONTROLSUSTTRETMENTSYSTEM3.11.2.5TheVENTILATION EXHAUSTTREATMENT SYSTEMshallbeOPERABLEandappropriate portionsofthissystemshallbeusedtoreducereleasesofradioactivity whenthepro)ected dosesin31daysfromiodineandparticulate

releases, fromeachunit,toareasatorbeyondtheSITEBOUNDARY(seeFigure5.1.3-1)wouldexceed0.3mremtoanyorganofaMEMBEROFTHEPUBLIC.~C~ION:a.Withradioactive gaseouswastebeingdischarged withouttreatment andinexcessoftheabovelimits,prepareandsubmittotheCommission within30days,pursuanttoTechnical Specification 6.9.2,aSpecialReportthatincludesthefollowing information:

1.Identification ofanyinoperable equipment orsubsystems, andthereasonfortheinoperability, 2.Action(s) takentorestoretheinoperable equipment toOPERABLEstatus,and3.Summarydescription ofaction(s) takentopreventarecurrence.

b.Theprovisions ofCONTROLS3.0.3and3.0.4arenotapplicable.

SURVEILLANCE REUIREMENTS 4.11.2.5.1 Dosesfromiodineandparticulate releasesfromeachunittoareasatorbeyondtheSITEBOUNDARYshallbepro)ected atleastonceper31daysinaccordance withthemethodology andparameters intheODCMwhentheVENTILATION EXHAUSTTREATMENT SYSTEMisnotbeingfullyutilized.

4.11.2.5.2 Theinstalled VENTILATION EXHAUSTTREATMENT SYSTEMshallbeconsidered OPERABLEbymeetingCONTROLS3.11.2.1or3.11.2.3.

002916LLI3/411-15

USGSEOUSEVEGOCONTROLSING3.11.2.8VENTINGorPURGINGofthedrywelland(orsuppression chambershallbethroughthestandbygastreatment system.*~C~ON;a.Withtherequirements oftheaboveCONTROLnotsatisfied, suspendallVENTINGandPURGZNGofthedrywelland/orsuppression chamber.b.Theprovisions ofCONTROLS3.0.3and3.0.4arenotapplicable.

SURVEILLANCE REUIREMENTS 4.11.2.8.1 Thedrywelland/orsuppression chambershallbedetermined tobealignedforVENTINGorPURGINGthroughthestandbygastreatment systemwithin4hoursbeforestartofandatleastonceper12hoursduringVENTINGorPURGING*SeeTechnical Specification 3.6.5.3.002916LLI3/411-18

IOUES3OSECONTROLS3.11.4Theannual(calendar year)doseordosecommitment toanyMEMBEROFTHEPUBLICduetoreleasesofradioactivity andtoradiation fromuraniumfuelcyclesourcesshallbelimitedtolessthanorequalto25mremtothewholebodyoranyorgan,exceptthethyroid,whichshallbelimitedtolessthanorequalto75mrem.a.Withthecalculated dosesfromthereleaseofradioactive materials inliquidorgaseouseffluents exceeding twicethelimitsofCONTROLS3.11.1.2.a, 3.11.1.2.b, 3.11.2.2.a, 3.11.2.2.b, 3.11.2.3.a, or3.11.2.3.b, calculations shallbemadeincluding directradiation contributions fromtheunits(including outsidestoragetanks,etc.)todetermine whethertheabovelimitsofCONTROL3.11.4havebeenexceeded.

Ifsuchisthecase,prepareandsubmittotheCommission within30days,pursuanttoTechnical Specification 6.9.2,aSpecialReportthatdefinesthecorrective actiontobetakentoreducesubsequent releasestopreventrecurrence ofexceeding theabovelimitsandincludestheschedule'forachieving conformance withtheabovelimits.ThisSpecialReport,asdefinedin10CFR20.405(c),

shallincludeananalysisthatestimates theradiation exposure(dose)toaMEMBEROFTHEPUBLICfromuraniumfuelcyclesources,including alleffluentpathwaysanddirectradiation, forthecalendaryearthatincludestherelease(s) coveredbythisreport.Itshallalsodescribelevelsofradiation andconcentrations ofradioactive materialinvolved, andthecauseoftheexposurelevelsorconcentrations.

Iftheestimated dose(s)exceedstheabovelimits,andifthereleasecondition resulting inviolation of40CFR190hasnotalreadybeencorrected, theSpecialReportshallincludearequestforavarianceinaccordance withtheprovisions of40CFR190.Submittal ofthereportisconsidered atimelyrequest,andavarianceisgranteduntilstaffactionontherequestiscomplete.

b.Theprovisions ofCONTROLS3.0.3and3.0.4arenotapplicable.

SURVEILLANCE REUREMENTS4.11.4.1Cumulative dosecontributions fromliquidandgaseouseffluents shallbedetermined inaccordance withCONTROLS4.11.1.2, 4.11.2.2, and4.11.2.3, andinaccordance withthemethodology andparameters intheODCM.4.11.4.2Cmaulative dosecontributions fromdirectradiation fromtheunits(including yetsidestoragetanks,etc.)shallbedetermined inaccordance withthemethodoXogy andparameters intheODCM.Thisrequirement isapplicable onlyundercimditions setforthinACTIONaofCONTROL3.11.4.002916LLI3/411-21

ALENVRONMENTAL ONORG34..1RIGPROGCONTROLS3.12.1TheRadiological Environmental Monitoring Programshallbeconducted asspecified inTable3.12.1-1.

AAC'~IOta.WiththeRadiological Environmental Monitoring Programnotbeingconducted asspecified inTable3.12.1-1, prepareandsubmittotheCommission, intheAnnualRadiological Environmental Operating ReportrequiredbyCONTROL6.9.1.7,adescription ofthereasonsfornotconducting theprogramasrequiredandtheplansforpreventing arecurrence.

b.Withthelevelofradioactivity astheresultofplanteffluents inanenvironmental samplingmediumataspecified locationexceeding thereporting levelsofTable3.12.1-2whenaveragedoveranycalendarquarter,prepareandsubmittotheCommission within30days,pursuanttoTechnical Specification 6.9.2,aSpecialReportthatidentifies thecause(s)forexceeding thelimit(s)anddefinesthecorrective actionstobetakentoreduceradioactive effluents sothatthepotential annualdose+toaMEMBEROFTHEPUBLICislessthanthecalendaryearlimitsofCONTROLS3.11.1.2, 3.11.2.2, or3.11.2.3.

Whenmorethanoneoftheradionuclides inTable3.12.1-2aredetectedinthesamplingmedium,thisreportshallbesubmitted if:concentration 1+cocetration2+...>1.0reporting level1reporting level2Whenradionuclides otherthanthoseinTable3.12.1-2aredetectedandaretheresultofplanteffluents, thisreportshallbesubmitted ifthepotential annualdose*toaMEMBEROFTHEPUBLICfromallradionuclides isequaltoorgreaterthanthecalendaryearlimitsofCONTROL3.11.1.2, 3.11.2.2, or3.11.2.3.

Thisrepor'tisnotrequiredifthemeasuredlevelofradioactivity wasnottheresultofplanteffluentsi however,insuchanevent,thecondition shallbereportedanddescribed intheAnnualRadiological Environmental Operating ReportrequiredbyCONTROL6.9.1.7.Themethodology andparameters usedtoestimatethepotential annualdosetoaMEMBEROFTHEPUBLICshallbeindicated inthisreport.001916LLI3/412-1

0OGRONMENTAL MONITORING 0ORCONTROLS3.12.1(Continued)

~C~IOC~d~Mithmilkorfreshleafyvegetation samplesunavailable fromoneormoreofthesamplelocations requiredbyTable3.12.1-1, identifyspecificlocations forobtaining replacement samplesandaddthemwithin30daystotheRadiological Environmental Monitoring Program.Thespecificlocations fromwhichsampleswereunavailable maythenbedeletedfromthemonitoring program.PursuanttoCONTROL6.9.1.8,submitinthenextSemiannual Radioactive EffluentReleaseReportdocumentation forachangeintheODCMincluding arevisedfigure(s) andtablefortheODCMreflecting thenewlocation(s) withsupporting information identifying thecauseoftheunavailability ofsamplesand)ustifying theselection ofthenewlocation(s) forobtaining samples.Theprovisions ofCONTROLS3.0.3and3.0.4arenotapplicable.

SURVEILLANCE REUIREMENTS 4.12.1Theradiological environmental monitoring samplesshallbecollected pursuanttoTable3.12.1-1fromthespecificlocations giveninthetableandfigure(s) intheODCM,andshallbeanalysedpursuanttotherequirements ofTable3.12.1-1andthedetection capabilities requiredbyTable4.12.1-1.

001916LLI3/412-2 i

OLOORONNENTAL NONITORINO OORANEXPOSUREPATHWAY0QSlRtROFSANPLESANDOSaSAMPLINOANDCOLLECTION FRETYPEANDFREgu~CYCYOFANALYS1.DirectRadiation(b) 32routinemonitoring stationseitherwith2ormoredosimeters orwith1instrument formeasuring andrecording doseratecontinuously, placedasfollows:Aninnerringofstations, oneineachmeteorological sectorinthegeneralareaoftheSITEBOUNDARYOnceper3monthsGammadoseonceper3monthsAnouterringofstations, oneineachlandbasemeteorological sectorinthe4to5~mile*rangefromthesiteThebalanceofthestationsshouldbeplacedinspecialinterestareassuchaspopulation centers,nearbyresidences, schools,andinoneortwoareastoserveascontrolstations(c).

ht.thisdistance, 8wandtosesectors,(W,WNW,NW,NNW,N,NNE,NE,andENE)areoverLakeOntario.nn~eirrr3/4

TABLE3.12.1-1(Continued)

RADIOLOGI ENVIRONMENTAL MONITORING PROGRM4EXPOSUREPATHWAYORSAMPNUMBEROFSAMPLESAND08aSAMPLINGANDCOLLECTION FREUENCYTYPEANDFREQUENCY OFANALYSIS2.AirborneRadio-i,odineandParticulates 3.Waterborne Samplesfromfivelocations:

3samplesfromoffsiteloca-tionsclosetothesitebound-ary(withinonemile)indifferent sectorsofthehigh-estcalculated annualsiteaverageground-level D/Q(basedonallsitelicensedreactors) 1samplefromthevicinityofanestablished year-round community havingthehighestcalculated annualsiteaverageground-level D/Q(basedonallsitelicensedreactors) 1samplefromacontrollocation, atleast10milesdistantandinaleastprevalent winddirection(c)

Continuous sampleroper-ationwithsamplecollec-tionweekly,ormorefrequently ifrequiredbydustloadingadioiodine CanisteI-131analysisweeklyParticulate SamlerGrossbetaradioactivi.ty analysisfollowing filterchange(d) andgammaisotopicanalysis(e) ofcomposite (bylocation) atleastquarterly a.Surface(f) onesampleupstream(c) gonesamplefromthesite'sdownstream coolingwaterintakeComposite sampleover1-monthperiod(g)

Gammaisotopicanalysis(e) once/month; composite fortritiumanalysi.s once/3months002916LLI3/412-4

0ALNONTORINGPROGRAXEZPOSUREPATHWAYSNUNBEROFSAXPLESANDONSaSAHPLINOANDCOLLECTION FREUENCYTYPEANDFREQUENCY OFANALYSIS3.Waterborne (Continued) b.GroundSamplesfromoneortwosources,onlyifliglytobeaffected(h)

{}uarterly grabsampleGamaisotopic(e) andtritiumanalysisquarterly c.Drinking1sampleofeachofonetothreeofthenearestwatersuppliesthatcouldbeaffectedbyitsdischarge(i)

Composite sampleovera2-weekperiod(g) whenI-131analysisisperformed; monthlycomposi.te otherwise I-131analysisoneachcomposite whenthedosecalculated fortheconsumption ofthewaterisgreaterthan1mremperyear.())Composite forgrossbetaandgammaisotopicanalyses(e) monthly.Composite fortritiumanalysisquarterly d.SedimentfromShoreline 1samplefromadownstream areaTwiceperyearwithexistingorpotential recreational valueGammaisotopicanalysis(e) nn2O16I.L I3/412-5

0CALENVIRONHENTAL MONITORING PROGRAMEZPOSUREPATHWAY0SNUNEEROFSAXPLESANDSANPLINQANDCOLLECTION FREUENCYTYPEANDFRE{}UENCY OFANALYSIS4.Ingestion a.Milkb.FishSamplesfromMILKSAMPLINGLOCA-TIONSinthreelocations within3.5milesdistancehavingthehighestcalculated siteaverageD/{}(basedonalllicensedsitereactors).

fIftherearenone,then1samplefromMILKSAMPLINGLOCATIONS ineachofthreeareas3.5-5.0milesdistanthavingthehighestcalculated siteaverageD/{}(basedonalllicensedsitereactors).

OnesamplefromaMILKSAMPLINGLOCATIONatacontrollocation9-20milesdistantandinaleastprevalent winddirection(c)

Onesampleeachoftwocom-mercially orrecreationally im-portantspeciesinthevicinityofaplantdischarge area(k)Onesampleofthesamespeciesinareasnotinfluenced bystationdischarge(c)

Twicepermonth,April-December(sampleswillbecollected January-March ifI-131isdetectedinNovemberandDecemberofthepreceding year)TwiceperyearGammaisotopic(e) andI-131analysistwice/monthwhenanimalsareonpasture(April-December)l oncepermonthatothertimes(January-March ifrequired)

Gammaisotopicanalysis(e) onedibleportionstwiceperyearnnoaorrr I

TABLE3.12.1-1(Continued) 0ENVRONXENTAL XONITORINQ PROORAXEXPOSUREPATHWAYSNUXBEROFSAXPLESAND8OSaSAXPLINGANDCOLLECTION FREUENCYTYPEANDFREQUENCY OFANALYSIS4.Ingestion (Continued) c.FoodProductsOnesampleofeachprincipal classoffopdproductsfromanyareathatisirrigated bywaterinwhichliquidplantwasteshavebeendischarged(l)

Samplesofthreedifferent kindsofbroadleafvegetation (suchasvegetables) grownnearesttoeachoftwodifferent offsitelocations ofhighestcalculated siteaverageD/Q(basedonalllicensedsitereactors)

Attimeofharvest(m)

OnceperyearduringtheharvestseasonGammaisotopic(e) analysisofedibleportions(isotopic toincludeI-131)Gammaisotopic(e) analysisofedibleportions(isotopic toincludeI-131)OnesampleofeachofthesimilarOnceperyearduringbroadleafvegetation grownattheharvestseasonleast9.3milesdistantinaleastprevalent winddirection Gammaisotopic(e) analysisofedibleportions(isotopic toincludeI-131)nnoosrrr.

0NITORINGPROGNOTATONS(a)Specificparameters afdistanceanddirection sectorfromthecenterline ofonereactor,andadditional description wherepertinent, shallbeprovidedforeachandeverysamplelocationinTable3.12.1-1inatableandfigure(s) intheODCM.RefertoNUREG-0133, "Preparation ofRadiological EffluentTechnical Specifications forNuclearPowerPlants,"October1978,andtoRadiological Assessment BranchTechnical PositiononEnvironmental Monitoring, Revision1,November1979.Deviations arepermitted fromtherequiredsamplingscheduleifspecimens areunobtainable becauseofsuchcircumstances ashazardous conditions, seasonalunavailability,+

ormalfunction ofautomatic samplingequipment.

Ifspecimens areunobtainable becausesamplingequipment malfunctions, effortshallbemadetocompletecorrective actionbeforetheendofthenextsamplingperiod.Alldeviations fromthesamplingscheduleshallbedocumented intheAnnualRadiological Environmental Operating ReportpursuanttoCONTROL6.9.1.7.Itisrecognized that,attimes,itmaynotbepossibleorpractical tocontinuetoobtainsamplesofthemediaofchoi'ceatthemostdesiredlocationortime.Intheseinstances, suitablealternative mediaandlocations maybechosenfortheparticular pathwayinquestionandappropriate substitutions maybemadewithin30daysintheRadiological Environmental Monitoring ProgramgivenintheODCQ.PursuanttoCONTROL6.9.1.8,submitinthenextSemiannual Radioactive EffluentReleaseReport8revisedfigure(s) andtablefortheODCMreflecting thenewlocation(s) withsupporting information identifying thecauseof.theunavailability ofsamplesforthatpathwayand)ustifying theselection ofnewlocation(s) forobtaining samples.(b)Oneormoreinstruments, suchasapressurized ionchamber,formeasuring andrecording doseratecontinuously maybeusedinplaceof,orinadditiontointegrating dosimeters.

Forthepurposeofthistable,athermoluminescent dosimeter (TLD)isconsidered tobeonephosphor; twoormorephosphors inapacketareconsidered astwoormoredosimeters.

Filmbadgesshallnotbeusedasdosimeters formeasuring directradiation.

(c)Thepurposeofthesesamplesistoobtainbackground information.

Ifitisnotpractical toestablish controllocations inaccordance withthedistanceandwinddirection

criteria, othersites,whichprovidevalidbackground data,maybesubstituted.

(d)Airborneparticulate samplefiltersshallbeanalyzedforgrossbetaradioactivity 24hoursormoreaftersamplingtoallowforradonandthorondaughterdecay.Ifgrossbetaactivityinairparticulate samplesisgreaterthan10timesthepreviousyearlymeanofcontrolsamples,gammaisotopicanalysisshallbeperformed ontheindividual samples.(e)Gammaisotopicanalysismeanstheidentification andquantification ofgamma-emitting radionuclides thatmaybeattributable totheeffluents fromthefacility.

~Seasonalunavaalabality ismeanttoincludetheftanduncooperative

'residents.

0IENVIRONMENTAL MONITORINO PROORAXABLEOTATIONS(f)The"upstream" sampleshallbetakenatadistancebeyondsignificant influence ofthedischarge.

The"downstream" sampleshallbetakeninanareabeyondbutnearthemixingxone.(g)Inthisprogram,representative composite samplealiquotsshallbecollected attimeintervals thatareveryshort(e.g.,hourly)relativetothecompositing period(e.g.,monthly)inordertoassureobtaining arepresentative sample(refertotheODCMfordefinition ofrepresentative composite

.sample).

(h)Groundwater samplesshaljbetakenwhenthissourceistappedfordrinkingorirrigation purposesinareaswherethehydrauli.b gradientorrechargeproperties aresuitableforcontamination (seeODCMfordiscussion).

(i)Drinkingwatersamplesshallbetakenonlywhendrinkingwaterisadosepathway(seeODCMfordiscussion).

(j)AnalysisforI-131maybeaccomplished byGe-Lianalysisprovidedthatthelowerlimit-ofdetection (LLD)forI-131inwatersamplesfoundonTable4.12.1-1canbemet.Dosesshallbecalculated forthemaximumorganandagegroupsusingthemethodology intheODCM.(k)Intheeventtwocommercially orrecreationally important speciesarenotavailable, afterthreeattemptsofcollection, thentwosamplesofonespeciesorotherspeciesnotnecessarily commercially orrecreationally important maybeutilized.

(l)ThisCONTROLappliesonlytomajorirrigation projectswithin9milesofthesiteinthegeneral"downcurrent" direction (seeODCMfordiscussion).

(m)Ifharvestoccursmorethanonceayear,samplingshallbeperformed duringeachdiscreteharvest.Ifharvestoccurscontinuously, samplingshallbetakenmonthly.Attention shallbepaidtoincluding samplesoftuberousandrootfoodproducts.

002916LLI3I412-9

hBLE3.2.1-20VCONCENTRhTIONS INENVIROALShMPLESRhDIONUCLIDE hNhLYSISH-3Mn-54Fe-59Co-58Co-60Zn-65Zr-95,Nb-95I-131Cs-134Cs-137Ba/La-140 NhTER(pCi/1)20,000*1F0004001,0003003004002k'050200hIRBORNEPhRTICULhTE ORO@SES(pCi/)0.91020FISH(pCi/1,wet)30,00010,00030,00010,00020,0001,0002,000MILK(pCi/kg,wet)6070300FOODPRODUCTS(pCi/kg,eeet)1001,0002,000Fordrinkingwatersamples.Thisisa40CFR141value.Ifnodrinkingwaterpathwayexists,avalueof30,000pCi/liter maybeused.**Ifnodrinkingwaterpathwayexists,avalueof20pCi/liter maybeused.

abe4.12.-1SRONllENThL ShMPLEhÃhLYSSabWERTOFDETECTIOcRhDIONJCLUDE hNhLYSISCrossBeta8-3Mn-54Fe-59Co-58,60Zn-65Zr-95,Nb-95NhTER(pCi1)2,000*1530153015hIRBORNEPhRTICULhTE OROhSES(pCl/m')0.01FISH(pCi/kg,wet)130260130260HILKFOODPRODUCTS(pCi/1).(pCi/kg,wet)SEDINENT(pCi/kg,dry)I-131Cs-134Cs-137Ba/La-140 lt*1518150.070.050.06130150151815606080150180*Ifnodrinkingwaterpathwayexists,avalueof3000pci/liter maybeused.**Ifnodrinkingwaterpathwayexists,avalueof15pCi/liter maybeused.

oNTESENVIRONNENTAL SANPhLSS-WERLNITOFDETECTXOTOTATONS(a)Thislistdoesnotmeanthatonlythesenuclidesare.tobeconsidered.

Otherpeaksthatareidentifiable, togetherwiththoseoftheabovenuclides, shallalsobeanalyxedandreportedintheAnnualRadiological Environmental Operating ReportpursuanttoCONTROL6.9.1.7.(b)Requireddetection capabilities forthermoluminescent dosimeters usedforenvironmental measurements aregiveninANSIN-545,Section4.31975.Allowable exceptions toANSIN-545,Section4.3arecontained intheNineMilePointUnit2ODCM.(c)Thelowerlimitofdetection (LLD)isdefined,forpurposesoftheseCONTROLS, asthesmallestconcentration ofradioactive materialinasamplethatwillyieldanetcount,abovesystembackground,'hat willbedetectedwith95\probability withonly5\probability offalselyconcluding thatablankobservation represents a"real"signal.Foraparticular measurement system,whichmayincluderadiochemical separation:

t4.66s$LLD$sEV2.22Yexp(-dt)Where:Sg2.22thebefore-the-fact lowerlimitofdetection (picocuries perunitmassorvolume)thestandarddeviation ofthebackground countingrateorofthecountingrateofablanksampleasappropriate (countsperminute)thecountingefficiency (countsperdisintegration) thesamplesize(unitsofmassorvolume)thenumberofdisintegrations perminuteperpicocurie thefractional radiochemical yield,whenapplicable theradioactive decayconstantfortheparticular radionuclide (sec-')dttheelapsedtimebetweenenvironmental collection, orendofthesamplecollection period,andtimeofcounting(seconds)

TypicalvaluesofE,V,Y,andhtshouldbeusedinthecalculation.

002916LL CS 0ASIESFORENVRONMENTAL SAMPALS8WERLIMITOFDETECTION TABLENOTATIONS Itshouldberecognixed thattheLLDisdefinedasabefore-the-fact limitrepresenting thecapability ofameasurement systemandnotasanafter-the-fact limitforaparticular measurement.

Analysesshallbeperformed insuchamannerthatthestatedLLDswillbeachievedunderroutineconditions.

Occasionally background fluctuations, unavoidable smallsamplesixes,thepresenceofinterfering

nuclides, orotheruncontrollable circumstances mayrendertheseLLDsunachievable.

Insuchcases,thecontributing factorsshallbeidentified anddescribed intheAnnualRadiological Environmental Operating ReportpursuanttoCONTROL6.9-1.7002916LLI3/412-13

ONMENMONITORING SECENSUCONTROL3.12.2Alandusecensusshallbeconducted andshallidentifywithinadistanceof5milesthelocationineachofthe16meteorological sectorsofthenearestmilkanimalandthenearestresidence, andthenearestgarden+ofgreaterthan500squarefeetproducing broadleafvegetation.

ForelevatedreleasesasdefinedinRG1.111,Revision1,July1977,thelandusecensusshallalsoidentifywithinadistanceof3milesthelocations ineachofthe16meteorological sectorsofallmilkanimalsandallgardens+greaterthan500squarefeetproducing broadleafvegetation.

MXXQE:a.Withalandusecensusidentifying alocation(s) thatyieldsacalculated dose,dosecommitment, orD/Qvaluegreaterthanthevaluescurrently beingcalculated inCONTROL4.11.2.3, pursuanttoCONTROL6.9.1.8,identifythenewlocation(s) inthenextSemiannual Radioactive EffluentReleaseReport.b.'Withalandusecensusidentifying alocation(s) thatyieldsacalculated dose,dosecommitment, orD/Qvalue(viathesameexposurepathway)significantly greater(50%)thanatalocationfromwhichsamplesarecurrently beingobtainedinaccordance withCONTROL3.12.1-1, addthenewlocation(s) within30daystotheRadiological Environmental Monitoring ProgramgivenintheODCM.Thesamplinglocation(s),

excluding thecontrolstationlocation, havingthelowestcalculated dose,dosecommitment(s) orD/Qvalue,viathesameexposurepathway,maybedeletedfromthismonitoring programafter(October31)oftheyearinwhichthislandusecensuswasconducted.

PursuanttoCONTROL6.9.1.8submitinthenextSemiannual Radioactive EffluentReleaseReportdocumentation forachangeintheODCMincluding arevisedfigure(s) andtable(s)fortheODCMreflecting thenewlocation(s) withinformation supporting thechangeinsamplinglocations.

c.Theprovisions ofCONTROLS3.0.3and3.0.4arenotapplicable.

SURVEILLANCE REUIREMENTS 4.12.2Thelandusecensusshallbeconducted duringthegrowingseasonatleastonceevery12monthsusingthatinformation thatwillprovidethebestresults,suchasbyadoor-to-door survey,aerialsurvey,orbyconsulting localagriculture authorities.

TheresultsofthelandusecensusshallbeincludedintheAnnualRadiological Environmental Operating ReportpursuanttoCONTROL6917~*Broadleafvegetation samplingofatleastthreedifferent kindsofvegetation, sqchasgardenvegetables, maybeperformed atoffsitelocations ineachoftwodifferent locations withthehighestpredicted D/Qsinlieuofthegardencensus.CONTROLSforbroadleafvegetation samplinginTable3.12.1-1, Part4.c,shallbefollowed, including analysisofCONTROLsamples.002916LLI3/412-14

0INVIRONMEN MONITORING 3~~3BORATORCOMPARISON PROGRAMCONTOLS3.12.3Analysesshallbeperformed onallradioactive materials, suppliedaspartofanInterlaboratory Comparison ProgramthathasbeenapprovedbytheCommission, thatcorrespond tosamplesrequiredbyTable3.12.1-1.

Participation inthisprogramshallincludemediaforwhichenvironmental samplesareroutinely collected andforwhichintercomparison samplesareavailable.

~CTION:a.Withanalysesnotbeingperformed asrequiredabove,reportthecorrective actionstakentopreventarecurrence totheCommission intheAnnualRadiological Environmental Operating ReportpursuanttoCONTROL6.9.1.7.b.Theprovisions ofCONTROLS3.0.3and3.0.4arenotapplicable.

SURVEILLANCE REUIREMENTS 4.12.3TheInterlaboratory Comparison Programshallbedescribed intheODCM.AsummaryoftheresultsobtainedaspartoftheaboverequiredInterlaboratory Comparison ProgramshallbeincludedintheAnnualRadiological Environmental Operating ReportpursuanttoCONTROL6.9.1.7.002916LLI3/412-16

PARTI-RADIOLOGICAL EFFLUENTCONTROLSBASES002916LLI3/412-17

BASES~3.7~0CTIUDEFFLUENTMONITORING INSTRUMENTA IONTheradioactive liquideffluentinstrumentation isprovidedtomonitorandcontrol,asapplicable, thereleasesofradioactive materials inliquideffluents duringactualorpotential releasesofliquideffluents.

Thealarm/Trip Setpoints fortheseinstruments shallbecalculated andadjustedinaccordance withthemethodology andparameters intheODCMtoensurethatthealarm/trip willoccurbeforeexceeding thelimitsof10CFR20.TheOPERABILITY anduseofthisinstrumentation isconsistent withtherequirements ofGDC60,63,and64ofAppendixAto10CFR50.Thepurposeoftanklevelindicating devicesistoassurethedetection andcontrolofleaksthatifnotcontrolled couldpotentially resultinthetransport ofradioactive materials toUNRESTRICTED AREAS..3.7.00CTIVEGASEOUSEFFLUNTMONITORING ISTRUMENTATION Theradioactive gaseouseffluentinstrumentation isprovidedtomonitorandcontrol,asapplicable, thereleasesofradioactive materials ingaseouseffluents duringactualorpotential releasesofgaseouseffluents.

Thealarm/Trip Setpoints fortheseinstruments shallbecalculated andadjustedinaccordance withthemethodology andparameters intheODCMtoensurethatthealarm/trip willoccurbeforeexceeding thelimitsof10CFR20.Therangeofthenoblegaschannelsofthemainstackandradwaste/reactor buildingventeffluentmonitorsissufficiently largetoenvelopebothnormalandaccidentlevelsofnoblegasactivity.

Thecapabilities oftheseinstruments areconsistent withtherecommendations ofRegulatory Guide1.97,"Instrumentation forLightWaterCooledNuclearPowerPlantstoAssessPlantConditions DuringandFollowing anAccident,"

December1980andNUREG-0737, "Clarification oftheTMIActionPlanRequirements,"

November1980.Thisinstrumentation alsoincludesprovisions formonitoring andcontrolling theconcentrations ofpotentially explosive gasmixturesintheoffgassystem.TheOPERABILITY anduseofthisinstrumentation isconsistent withtherequirements ofGDC60,63,and64ofAppendixAto10CFRSO.002916LLIB3/43-7

0FLUBASS34.1.EFFLUENTS 34.11.1.CONCNTRATIONThisCONTROLisprovidedtoensurethattheconcentration ofradioactive materials releasedinliquidwasteeffluents toUNRESTRICTED AREASwillbelessthantheconcentration levelsspecified in10CFR20,AppendixB,TableII,Column2.Thislimitation providesadditional assurance thatthelevelsofradioactive materials inbodiesofwaterinUNRESTRICTED AREASwillresultinexposures within:(1)theSectionII.Adesignob)ectives ofAppendixIto10CFR50,toaMEMBEROFTHEPUBLICand(2)thelimitsof10CFR20.106(e) tothepopulation.

Theconcentration limitfordissolved orentrained noblegasesisbasedupontheassumption thatXe-135isthecontrolling radioisotope anditsMPCinair(submersion) wasconverted toanequivalent concentration inwaterusingthemethodsdescribed inInternational Commission onRadiological Protection (ICRP)Publication 2.ThisCONTROLappliestothereleaseofradioactive materials inliquideffluents fromallunitsatthesite.Therequireddetection capabilities forradioactive materials inliquidwastesamplesaretabulated intermsofthelowerlimitsofdetection (LLDs).Detaileddiscussion oftheLLD,andotherdetection limitscanbefoundinL.A.Currie,"LowerLimitofDetection:

Definition andElaboration ofaProposedPositionforRadiological EffluentandEnvironmental Measurements,"

NUREG/CR-4007 (September 1984),andintheHASLProcedures Manual,HASL-300(revisedannually).

3~~~DOSThisCONTROLisprovidedtoimplement therequirements ofSectionsII.A,ZZI.A,andIV.AofAppendixIto10CFR50.TheCONTROLimplements theguidessetforthinSectionII.AofAppendixI.TheACTIONstatements providetherequiredoperating flexibility andatthesametimeimplement theguidessetforthinSectionIV.AofAppendixItoassurethatthereleasesofradioactive materialS inliquideffluents toUNRESTRICTED AREASwillbekeptaslowasisreasonably achievable.

Also,forfreshwatersiteswithdrinkingwatersuppliesthatcanbepotentially affectedbyplantoperations, thereisreasonable assurance thattheoperation ofthefacilitywillnotresult,inradionuclide concentrations inthepotabledrinkingwaterthatareinexcessoftherequirements of40CFR141.Thedosecalculation methodology andparameters intheODCMimplement therequirements inSectionIZZ.AofAppendixIthatconformance withtheguidesofAppendixIbeshownbycalculational procedures basedonmodelsanddata,d5'hattheactualexposureofaMEMBEROFTHEPUBLICthroughappropriate pathwaysisunlikelytobesubstantially underestimato4..

Theequations specified intheODCMforcalculating thedosesthatresultfaaactualreleaseratesofradioactive materialinliquidoffluentsareconsistent withthemethodology providedinRG1.109,"Calculatioa otAnnualDosesToManfromRoutineReleasesofReactorEffluents forthePurposeofEvaluating Compliance with10CFRPart50,AppendixI,"002916LLIB3/4ll-l

ASESUDE~OS3/4.11.1.2(Continued)

Revision1,October1977andR.G.1.113,"Estimating AquaticDispersion ofEffluents fromAccidental andRoutineReactorReleasesforthePurposeofImplementing AppendixI,"April1977.ThisCONTROLappliestothereleaseofradioactive materials inliquideffluents fromeachunitatthesite.Forunitswithsharedradwastetreatment systems,theliquideffluents fromthesharedsystemaretobeproportioned amongtheunitssharingthatsystem.3UWETREATMENT SYSTETheOPERABILITY oftheliquidradwastetreatment systemensuresthatthissystemwillbeavailable forusewheneverliquideffluents requiretreatment beforereleasetotheenvironment.

Therequirement thattheappropriate portionsofthissystembeusedwhenspecified providesassurance thatthereleasesofradioactive materials inliquideffluents willbekeptaslowasisreasonably achievable.

ThisCONTROLimplements therequirements of10CFR50.36a,GDC60ofAppendixAto10CFR50andthedesignobjective giveninSectionZZ.DofAppendixIto10CFR50.Thespecified limitsgoverning theuseofappropriate portionsoftheliquidradwastetreatment systemwerespecified asasuitablefractionofthedosedesignobjectives setforthinSectionIZ.AofAppendixIto10CFR50forliquideffluents.

ThisCONTROLappliestothereleaseofradioactive materials inliquideffluents fromeachunitatthesite.Forunitswithsharedradwastetreatment systems,theliquideffluents fromthesharedsystemaretobeproportioned amongtheunitssharingthatsystem.GSOUEFFUSThisCONTROLisprovidedtoensurethatthedoserateatanytimeatandbeyondtheSITEBOUNDARYfromgaseouseffluents fromallunitsonthesitewillbewithintheannualdoselimitsof10CFR20toUNRESTRICTED AREAS.002916LLIB3/411-2

UNSBASESGSEOUSDOSF~3/4.11.2.1 (Continued)

Theannualdoselimitsarethedosesassociated withtheconcentrations of10CFR20,AppendixB,TableII,Column1.Theselimitsprovidereasonable assurance thatradioactive materialdischarged ingaseouseffluents willnotresultintheexposureofaMEMBEROFTHEPUBLICinanUNRESTRZCTED AREA,eitherwithinoroutsidetheSITEBOUNDARY, toannualaverageconcentrations exceeding thelimitsspecified inAppendixB,TableZIof10CFR20.106(b).

ForMEMBERSOFTHEPUBLICwhomayattimesbewithintheSITEBOUNDARY, theoccupancy ofthatMEMBEROFTHEPUBLICwillusuallybesufficiently lowtocompensate foranyincreaseintheatmospheric diffusion factorabovethatfortheSITEBOUNDARY.

Examplesofcalculations forsuchMEMBERSOFTHEPUBLIC,withtheappropriate occupancy factors,shallbegivenintheODCM.Thespecified releaseratelimitsrestrict, atalltimes,thecorresponding gammaandbetadoseratesabovebackground toaMEMBEROFTHEPUBLICatorbeyondtheSITEBOUNDARYtolessthanorequalto500mrem/year tothewholebodyortolessthanorequalto3000mrem/year totheskin.Thesereleaseratelimitsalsorestrict, at=alltimes,thecorresponding thyroiddoserateabovebackground toachildviatheinhalation pathwaytolessthanorequalto1500mrem/year.

ThisCONTROLappliestothereleaseofradioactive materials ingaseouseffluents fromallunitsatthesite.Therequireddetection capabilities forradioactive materials ingaseouswastesamplesaretabulated intermsofthelowerlimitsofdetection (LLDs).Detaileddiscussion oftheLLD,andotherdetection limitscanbefoundinL.A.Currie,"LowerLimitofDetection:

Definition andElaboration ofaProposedPositionforRadiological EffluentandEnvironments Measurements,"

NUREG/CR-4007 (September 1984),andintheHASLProcedures Manual,HASL-300(revisedannually).

3..0-NOLEGSESThisCONTROLisprovidedtoimplement therequirements ofSectionIZ.B,III.A,andIV.AofAppendixIto10CFR50.TheCONTROLimplements theguidessetforthinSectionIZ.BofAppendixI.TheACTIONstatements providetherequiredoperating flexibility and,atthesametime,implement theguidessetforthinSectionIV.AofAppendixItoassurethatthereleasesofradioactive materialingaseouseffluents toUNRESTRICTED AREASwillbekeptaslowasisreasonably achievable.

TheSurveillance Requirements implement therequirements inSectionIZI.AofAppen81xIthatconformance withtheguidelines ofAppendixIbeshownbycalculational procedures basedonmodelsanddatasothattheactualexposureofaMEMBEROFTHEPUBLICthroughappropriate pathwaysisunlikelytobesubstantially underestimated.

Thedosecalculatioa'methodology andparameters established intheODCMforcalculating thedoses8raatheactualreleaseratesofradioactive noblegases002916LLIB3/411-3

UENSBASESGSEOUSDOSE-NOBGASES3/4.11.2.2 (Continued) ingaseouseffluents areconsistent withthemethodology providedinRG1.109,"Calculation ofAnnualDosestoManfromRoutineReleasesofReactorEffluents forthePurposeofEvaluating Compliance with10CFRPart50,AppendixI,"Revision1,October1977,andRG1.111,"MethodsforEstimating Atmospheric Transport andDispersion ofGaseousEffluents inRoutineReleasesfromLight-Water CooledReactors,"

Revision1,"July1977.TheODCMequations providedfordetermining theairdosesatorbeyondtheSITEBOUNDARYarebaseduponreal-time meteorological conditions orthehistorical averageatmospheric conditions.

ThisCONTROLappliestothereleaseofradioactive materialingaseouseffluents fromeachunitatthesite.34.11.2.3DOSE-IODINE-131 ZODZE-133TITUANDRADIOACTIVE MATERIALPTICUEFOThisCONTROLisprovidedtoimplement therequirements ofSectionsII.C,ZII.A,andIV.AofAppendixIto10CFR50.TheCONTROLimplements theguidessetforthinSectionII.CofAppendixI.TheACTIONstatements providetherequiredoperating flexibility andatthesametimeimplement theguidessetforthinSectionIV.AofAppendixItoassurethatthereleasesofradioactive materials ingaseouseffluents toUNRESTRICTED AREASwillbekeptaslowasisreasonably achievable.

TheODCMcalculational methodsspecified intheSurveillance Requirements implement therequirements inSectionIII.AofAppendixIthatconformance withtheguidesofAppendixIbeshownbycalculational procedures basedonmodelsanddata,sothattheactualexposureofaMEMBEROFTHEPUBLICthroughappropriate pathwaysisunlikelytobesubstantially underestimated.

TheODCMcalculational methodology andparameters forcalculating thedosesfromtheactualreleaseratesofthesub)ectmaterials areconsistent withthemethodology providedinRG1.109,"Calculation ofAnnualDosestoManfromRoutineReleasesofReactorEffluents forthePurposeofEvaluating Compliance with10CFRPart50,AppendixI,Revision1,October1977,andRG1.111,"MethodsforEstimating Atmospheric Transport andDispersion ofGaseousEffluents inRoutineReleasesfromLight-Water-Cooled Reactors,"

Revision1,July1977.Theseequations alsoprovidefordetermining theactualdosesbaseduponthehistorical averageatmospheric conditions.

ThereleaserateCONTROLSforiodine-131, iodine-133, tritium,andradioactive materialinparticulate formwithhalf-lives greaterthan8daysaredependent upontheexistingradionuclide pathwaystoman,intheareasatorbeyondtheSITEBOUNDARY.

Thepathwaysthatwereexaminedinthedevelopaent ofthesecalculations were:(1)individual inhalation ofairborneradioactive

material, (2)deposition ofradioactive materialontogreenleaffvegetation withsubsequent consumption byman,(3)deposition ontograssy~wheremilk-producing animalsandmeat-producing animalsgraxe(humanconsumption ofthemilkandmeatisassumed),

and(4)deposition onthe002916LLIB3/411-4

BASESGOUSSSCULFO3ODINE-133 TRITIUMDRADIOACTIVE MATERIALIN3/4.11.2.3 (Continued) groundwithsubsequent exposuretoman.ThisCONTROLappliestothereleaseofradioactive materials ingaseouseffluents fromeachunitatthesite.Forunitswithsharedradwastetreatment systems,thegaseouseffluents fromthesharedsystemareproportioned amongtheunitssharingthatsystem.411..5GASOUSWSTETMNTSYSTEMDILONSNSYSTTheOPERABILITY oftheGASEOUSRADWASTETREATMENT SYSTEMandtheVENTILATION EXHAUSTTREATMENT SYSTEMensuresthatthesystemswillbeavailable forusewhenevergaseouseffluents requiretreatment beforereleasetotheenvironment.

Therequirement thattheappropriate portionsofthesesystemsbeused,whenspecified, providesreasonable assurance thatthereleasesofradioactive materials ingaseouseffluents willbekeptaslowasisreasonably achievable.

ThisCONTROLimplements therequirements of10CFR50.36a,GDC60ofAppendixAto10CFR50,andthedesignobjectives giveninSectionZI.DofAppendixIto10CFR50.Limitsgoverning theuseofappropriate portionsofthesystemwerespecified asasuitablefractionofthedosedesignobjectives setforthinSectionsZZ.BandZI.CofAppendixIto10CFR50,forgaseouseffluents.

ThisCONTROLappliestothereleaseofradioactive materials ingaseouseffluents fromeachunitatthesite.Forunitswithsharedradwastetreatment systems,thegaseouseffluents fromthesharedsystemareproportional amongtheunitssharingthatsystem.0GThisCONTROLprovidesreasonable assurance thatreleasesfromdrywelland/orsuppression chamberpurgingoperations willnotexceedtheannualdoselimitsof10CFR20forunrestricted areas.002916LLIB3/411-5

BASESGU3.1.4ALDOSEThisCONTROLisprovidedtomeetthedoselimitations of40CFR190thathavebeenincorporated into10CFR20by46~18525.TheCONTROLrequiresthepreparation andsubmittal ofaSpecialReportwheneverthecalculated dosesfromreleasesofradioactivity andfromradiation fromuraniumfuelcyclesourcesexceed25mremtothewholebodyoranyorgan,exceptthethyroid(whichshallbelimitedtolessthanorequalto75mrem).Forsitescontaining uptofourreactors, itishighlyunlikelythattheresultant dosetoaMEMBEROFTHEPUBLICwillexceedthedoselimitsof40CFR190iftheindividual reactorsremainwithintwicethedosedesignobjectives ofAppendixI,andifdirectradiation dosesfromtheunitsincluding outsidestoragetanks,etc.,arekeptsmall.TheSpecialReportwilldescribeacourseofactionthatshouldresultinthelimitation oftheannualdosetoaMEMBEROFTHEPUBLICtowithinthe40CFR190limits.ForthepurposesoftheSpecialReport,itmaybeassumedthatthedosecommitment totheMEMBEROFTHEPUBLICfromotheruraniumfuelcyclesourcesisnegligible, withtheexception thatdosecontributions fromothernuclearfuelcyclefacilities atthesamesiteorwithinaradiusof5milesmustbeconsidered.

IfthedosetoanyMEMBEROFTHEPUBLICisestimated toexceedtherequirements of40CFR190,theSpecialReportwitharequestforavariance(provided thereleaseconditions resulting inviolation of40CFR190havenotalreadybeencorrected),

inaccordance withtheprovisions of40CFR190.11and10CFR20.405c,isconsidered tobeatimelyrequestandfulfillstherequirements of40CFR190untilNRCstaffactioniscompleted.

Thevarianceonlyrelatestothelimitsof40CFR190anddoesnotapplyinanywaytotheotherrequirements fordoselimitation of10CFR20,asaddressed inCONTROLS3.11.1.1and3.11.2.1.

Anindividual isnotconsidered aMEMBEROFTHEPUBLICduringanyperiodinwhichtheindividual isengagedincarryingoutanyoperation thatispartofthenuclearfuelcycle.002916LLIB3/411-6

0NTALMONTORINGBASS1GPRTheRadiological Environmental Monitoring ProgramrequiredbythisCONTROLprovidesrepresentative measurements ofradiation andofradioactive materials inthoseexposurepathwaysandforthoseradionuclides'that leadtothehighestpotential radiation exposureofMEMBERSOFTHEPUBLICresulting fromtheplantoperation.

Thismonitoring programimplements SectionIV.B.2ofAppendixIto10CFR50andtherebysupplements theRadiological EffluentMonitoring Programbyverifying thatthemeasurable concentrations ofradioactive materials andlevelsofradiation arenothigherthanexpectedonthebasisoftheeffluentmeasurements andthemodelingoftheenvironmental exposurepathways.

Guidanceforthismonitoring programisprovidedbytheRadiological Assessment BranchTechnical PositiononEnvironmental Monitoring, Revision1,November1979.Theinitially specified monitoring programwillbeeffective foratleastthefirst3yearsofcommercial operation.

Afterthisperiod,programchangesmaybeinitiated basedonoperational experience.

Therequireddetection capabilities forenvironmental sampleanalysesaretabulated intermsofthelowerlimitsofdetection (LLDs).TheLLDsrequiredbyTable4.12.1-1areconsidered optimumforroutineenvironmental measurements inindustrial laboratories.

Itshouldberecognised thattheLLDisdefinedasabefore-the-fact limitrepresenting thecapability ofameasurement systemandnotasanafter-the-fact limitforaparticular measurement.

Detaileddiscussion oftheLLD,andotherdetection limits,canbefoundinL.A.Currie,"LowerLimitofDetection:

Definition andElaboration ofaProposedPositionforRadiological EffluentandEnvironmental Measurements,"

NUREG/CR-4007 (September 1984),andintheHASLProcedures Manual,HASL-300(revisedannually)

.USCESUThisCONTROLisprovidedtoensurethatchangesintheuseofareasatorbeyondtheSITEBOUNDARYareidentified andthatmodifications totheRadiological Environmental Monitoring ProgramgivenintheODCMaremadeifrequiredbytheresultsofthiscensus.Thebestinformation, suchasfromadoor-to-door survey,fromanaerialsurvey,orfromconsulting withlocalagricultural authorities, shallbeused.Thiscensussatisfies therequirements ofSectionIV.B.3ofAppendixIto10CFR50.Restricting thecensustogardensofgreaterthan500squarefeetprovidesassurance thatsignificant exposurepathwaysvialeafyvegetables willbeidentified andmonitored sinceagardenofthissiseistheminimumrequiredtoproducethequantity(26kg/year)ofleafyvegetabTes assumedinRG1.109forconsumption byachild.Todetermine thisminimumgardensise,thefollowing assumptions weremadet(k)20%ofthegardenwasusedforgrowingbroadleafvegetation (i.~.,similartolettuceand.cabbage)and(2)thevegetation yieldwas2kg/m.AMILKSAMPLINGLOCATION, asdefinedinSection1.0,requiresthatatleast10milkingcowsarepresentatadesignated milksamplelocation.

Ithasbeen002916LLIB3/412-1 I

RONNMOITOINCBSESUSE3/4.12.2(Continued) foundfrompastexperience, andasaresultofconferring withlocalfarmers,thataminimumof10milkingcowsisnecessary toguarantee anadequatesupplyofmilktwiceamonthforanalytical purposes.

Locations withfewerthan10milkingcowsareusuallyutilizedforbreedingpurposes, eliminating astablesupplyofmilkforsamplesasaresultofsucklingcalvesandperiodswhentheadultanimalsaredry..3NBOORCOMPARISO Therequirement forparticipation inanapprovedInterlaboratory Comparison Programisprovidedtoensurethatindependent checksontheprecision andaccuracyofthemeasurements ofradioactive materials inenvironmental samplematricesareperformed aspartofthequalityassurance programforenvironmental monitoring inordertodemonstrate thattheresultsarevalidforthepurposesofSectionIV.B.2ofAppendixIto10CFR50.002916LL.IB3/412-2

PARTIRADIOLOGICAL EFFLUENTCONTROLSSECTION5.0DESIONFEATURES002916LLIB3/412-3

5SGURESSections5.1.1,5.1.2,5.2,5.3,5.4,5.6,and5.7areretainedintheRETS.5'.3GUSRICTEDAESANDSITEOUNDARYFORIOACTIVEGSOUSUIDFLUENTS.Information regarding radioactive gaseousandliquideffluents, whichwillallowidentification ofstructures andreleasepointsaswellasdefinition ofUNRESTRICTED AREASwithintheSITEBOUNDARYthatareaccessible toMEMBERSOFTHEPUBLIC,shallbeasshowninFigure5-1.3-1~5.5METEOROLOGICAL TOWERLOCATIONTheMeteorological TowershallbelocatedasshownonFigure5.1.3-1.002916LLI5-1

(4)~gE~~e)~(!)y(x)(S)(a)~0)gfktlSe~L~l%oCg(c))ieewatC0f4gli41gjIg)Nate%~OKAPICRKlaailCN

+0+cRLUTle7a~tuTKtwatesoar04t(s)~4er1oadTECHNIChL SPECIFICATIONS FiGURE5.1.3-1SITEBOVNOARIES NINEMILEPOINTUNIT2.

NOTESTOFIOURE5~i+31(a)'MP1Stack(heightis350')(b)NMP2Stack(heightis430')(c)JAFNPPStack(heightis385')(d)NMP1Radioactive LiquidDischarge (LakeOntario,bottom)(e)NMP2Radioactive LiquidDischarge (LakeOntario,bottom)(f)JAFNPPRadioactive LiquidDischarge (LakeOntario,bcttom)(g)SiteBoundary(h)LakeOntarioShoreline (i)Meteorological Tower(j)TrainingCenter(k)EnergyInformation CenterAdditional Information:NMP2ReactorBuildingVentislocated187feetabovegroundlevelJAFNPPReactorandTurbineBuildingVentsarelocated173feetabovegroundlevelJAFNPPRadwasteBuildingVentis112feetabovegroundlevelTheEnergyInformation Centerandadjoining picnicareaareUNRESTRZCTED AREASwithintheSiteBOUNDARYthatareaccessible toMEMBERSOFTHEPUBLICLakeRoad,aprivateroad,isanUNRESTRICTED AREAwithintheSITEBOUNDARYaccessible toMEMBERSOFTHEPUBLIC002916LLI5-6

PARTI-RADIOLOGICAL EPPLUENTCONTROLSSECTION6~0AZWINISTRATIVECONTROLS002916LL

NSCO0SCNVRONMENTAL OPERATING REPORT>>6.9.1.7RoutineAnnualRadiological Environmental Operating Reportscoveringtheoperation oftheunitduringthepreviouscalendaryearshallbesubmitted beforeMay1ofeachyear.Theinitialreportshallbesubmitted beforeMay1oftheyearaftertheplantachievesinitialcriticality.

TheAnnualRadiological Environmental Operating Reportshallincludesummaries, interpretations, andananalysisoftrendsoftheresultsoftheradiological environmental surveillance activities forthereportperiod,including acomparison, asappropriate, withpreoperational studies,operational

controls, previousenvironmental surveillance reports,andanassessment oftheobservedimpactsoftheplantoperation ontheenvironment.

ThereportsshallalsoincludetheresultsofthelandusecensusrequiredbyCONTROL3+12.2.TheAnnualRadiological Environmental Operating Reportsshallincludetheresultsofanalysisofallradiological environmental samplesandofallenvironmental radiation measurements takenduringtheperiodpursuanttothelocations specified inthetableandfiguresintheOFFSITEDOSECALCULATION MANUAL,aswellassummarized andtabulated resultsoftheseanalysesandmeasurements intheformatofthetableintheRadiological Assessment BranchTechnical

Position, Revision1,November1979.Intheeventthatsomeindividual resultsarenotavailable forinclusion withthereport,thereportshallbesubmitted notingandexplaining thereasonsforthemissingresults.Themissingdatashallbesubmitted assoonaspossibleinasupplemental

.report.Thereportsshallalsoincludethefollowing:

asummarydescription oftheRadiological Environmental Monitoring Programpatleasttwolegiblemaps+*coveringallsamplinglocations keyedtoatablegivingdistances anddirections fromthecenterline ofonereactorstheresultsoflicenseeparticipation intheInterlaboratory Comparison Program,requiredbyCONTROL3.12.3;discussion ofalldeviations fromtheSamplingScheduleofTable3.12.1-1g anddiscussion ofallanalysesinwhichtheLLDrequiredbyTable4.12.1-1wasnotachievable.

• Asinglesubmittal maybemadeforamultipleunitsite.Thesubmittal shouldcombinethosesectionsthatarecoaaentoallunitsatthesite.*~OnemapshallcoverstationsneartheSITEBOUNDARY' secondshallincludethemoredistantstations.

002916LLI6-19

ILUENTRELESREPORT**6.9.1.8RoutineSemiannual Radioactive EffluentReleaseReportscoveringtheoperation of~theunitduringtheprevious6monthsofoperation shallbesubmitted wjthin60daysafterJanuary1andJuly1ofeachyear.Theperiodofthefirstreportshallbeginwiththedatetheplantachievesinitialcriticality.

Asinglesubmittal maybemadeforamultipleunitsite.Thesubmittal shouldcombinethosesectionsthatarecommontoallunitsatthesite;however,forunitswithseparateradwastesystems,thesubmittal shallspecifythereleasesojradioactive materialfromeachunit.002916LLI6-20 i

ADINISTTVECONTROLSS0CTIVEEFFLUENTRELEASEREPORT6.9.1.8(Coatinued)

TheSemiannual Radioactive EffluentReleaseReportsshallincludeasummaryofthequantities ofradioactive liquidandgaseouseffluents andsolidwastereleasedfromtheunitasoutlinedinRegulatory Guide1.21,"Measuring, Evaluating, andReporting Radioactivity inSolidWastesandReleasesofRadioactive Materials inLiquidandGaseousEffluents fromLight-Water-Cooled NuclearPowerPlants,"Revision1,June1974,withdatasummarized onaquarterly basisfollowing theformatofAppendixBthereof.Forsolidwastes,theformatforTable3inAppendixBshallbesupplemented withthreeadditional categories; classofsolidwastes(asdefinedby10CFR61),typeofcontainer (e.g.,LSA,TypeA,TypeB,LargeQuantity),

andSOLIDIFICATION agentorabsorbent (e.g.,cement,ureaformaldehyde).

TheSemiannual Radioactive EffluentReleaseReporttobesubmitted within60daysafterJanuary1ofeachyearshallincludeanannualsummaryofhourlymeteorological datacollected overthepreviousyear.Thisannualsummarymaybeeitherintheformofanhour-by-hour listingonmagnetictapeofwindspeed,winddirection, atmospheric stability, andprecipitation (ifmeasured) gorintheformof)ointfrequency distribution ofwindspeed,winddirection, andatmospheric stability.*

Thissamereportshallalsoincludeanassessment oftheradiation dosesfromtheradioactive liquidandgaseouseffluents releasedfromtheunitduringthepreviouscalendaryear.Thissamereportshallalsoincludeanassessment oftheradiation dosesfromradioactive liquidandgaseouseffluents toMEMBERSOFTHEPUBLICfromtheiractivities insidetheSITEBOUNDARY(Figure5.1.3-1)duringthereportperiod.Allassumptions usedinmakingtheseassessments, i.e.,specificactivity, exposuretime,andlocation, shallbeincludedinthesereports.Theassessment ofradiation dosesshallbeperformed inaccordance withthemethodology andparameters intheOFFSZTEDOSECALCULATION MANUAL(ODCM).TheSemiannual Radioactive EffluentReleaseReporttobesubmitted within60daysafterJanuary1ofeachyearshallalsoincludeanassessment ofradiation dosestothelikelymostexposedMEMBEROFTHEPUBLICfromreactorreleasesandothernearbyuraniumfuelcyclesources,including dosesfromprimaryeffluentpathwaysanddirectradiation, forthepreviouscalendaryeartoshowconformance with40CFR190,"Environmental Radiation Protection Standards forNuclearPowerOperation."

Acceptable methodsforcalculating thedosecontribution fromliquidandgaseouseffluents aregivenintheODCM.TheSemiannual Radioactive EffluentReleaseReportsshallincludealistanddescription ofunplanned releasesfromthesitetoUNRESTRICTED AREASofradioactive materials ingaseousandliquideffluents madeduringthereporting period.*Inlieuofsubmission withtheSemiannual Radioactive EffluentReleaseReport,thelicenseehastheoptionofretaining thissummaryofrequiredmeteorological dataonsiteinafilethatshallbeprovidedtotheNRCuponrequest.002916LLI6-21

NISTRACONROLSOAVEUENTREEASEREPORT6.9.1.8(Coatinued)

TheSemiannual Radioactive EffluentReleaseReportsshallincludeanychangesmadeduringthereporting periodtothePROCESSCONTROLPROGRAM(PCP)andtotheOFFSITEDOSECALCULATION MANUAL(ODCM),pursuanttoTechnical Specification 6.13andCONTROL6.14,respectively, aswellasanymajorchangetoliquid,gaseous,orsolidradwastetreatment systemspursuanttoCONTROL6.15.Itshallalsoincludealistingofnewlocations fordosecalculations and/orenvironmental monitoring identified bythelandusecensuspursuanttoCONTROL3+12.2.TheSemiannual Radioactive EffluentReleaseReportsshallalsoincludethefollowing!

anexplanation ofwhytheinoperability ofliquidorgaseouseffluentmonitoring instrumentation wasnotcorrected withinthetimespecified inCONTROLS3.3.7.9or3.3.7.10respectively, andadescription oftheeventsleadingtoliquidholduptanksexceeding thelimitsofTechnical Specification 3.11.1.4.

002916LLI6-22

6OFSCLAIONMANUAL6.14.1TheOPPSITEDOSECALCULATION MANUAL(ODCM)shallbeapprovedbytheCommission beforeimplementation.

6.14.2Licensee-initiated changestotheODCM:a.Shallbesubmitted totheCommission intheSemiannual Radioactive EffluentReleaseReportfortheperiodinwhichthechange(s) wasmadeeffective.

Thissubmittal shallcontain:1.Sufficiently detailedinformation tototallysupporttherationale forthechangewithoutbenefitofadditional orsupplemental information.

Information submitted shouldconsistofapackageofthosepagesoftheODCMtobechanged;eachpageshouldbenumbered, dated,andmarkedwiththerevisionnumber;appropriate analysesorevaluations justifying thechange(s) shouldbeincluded; 2.Adetermination thatthechangewillnotreducetheaccuracyorreliability ofdosecalculations orsetpointdeterminations; and3.Documentation ofthefactthattheSORChasreviewedthechangeandfounditacceptable.

b.Shallbecomeeffective uponreviewandacceptance bytheSORC.002916LLI6-26

0GTOUDGOUSASODDWASTENTSST6.15.1Liceasee-initiated majorchangestotheradwastetreatment systems(liquidygaseousiandsolid):ShallbereportedtotheCommission intheSemiannual Radioactive EffluentReleaseReportfortheperiodinwhichtheevaluation wasreviewedbytheSORC.Thediscussion ofeachchangeshallcontain:1.Asummaryoftheevaluation thatledtothedetermination thatthechangecouldbemadeinaccordance with10CFR50.59.2.Sufficient detailedinformation tototallysupportthereasonforthechangewithoutbenefitofadditional orsupplemental informationg 3.Adetaileddescription oftheequipment, components, andprocesses involvedandtheinterfaces withotherplantsystems;4.Anevaluation ofthechange,whichshowsthepredicted releasesofradioactive materials inliquidandgaseouseffluents and/orquantityofsolidwastethatdifferfromthosepreviously predicted inthelicenseapplication andamendments thereto;5.Anevaluation ofthechange,whichshowstheexpectedmaximumexposures toaMEMBEROFTHEPUBLICintheUNRESTRICTED AREAandtothegeneralpopulation thatdifferfromthosepreviously estimated inthelicenseapplication andamendments thereto;6.Acomparison ofthepredicted releasesofradioactive materials, inliquidandgaseouseffluents andinsolidwaste,totheactualreleasesfortheperiodthatprecedesthetimewhenthechangeistobemadei7.Anestimateoftheexposuretoplantoperating personnel asaresultofthechange;andB.Documentation ofthefactthatthechangewasreviewedandfoundacceptable bytheSORC.b.Shallbecomeeffective uponreviewandacceptance bytheSORC.*Licensees maychoosetosubmittheinformation calledforinthisCONTROLaspartoftheannualFSARupdate.002916LLI6-27

PARTII-CALCULATIONAL METHODOLOGIES

1.0 UIDEFFLUENTS

ServiceWaterAandB,CoolingTowerBlowdownandtheLiquidRadioactive WasteDischarges comprisetheRadioactive LiquidEffEuents atUnit2.Presently therearenotemporary outdoortankscontaining radioactive watercapableofaffecting thenearestknownorfuturewatersupplyinanunrestricted area.NUREG0133andRegulatory Guide1.109,Rev.1werefollowedinthedevelopment ofthissection.1~1.1LiquidEffluentMonitorAlarmSetpoints Basis1~1~21~1~2~1Theconcentration ofradioactive materialreleasedinliquideffluents toUNRESTRICTED AREAS(seeFigure5.1.3-1)shallbelimitedtotheconcentrations specified in10CFR20,AppendixB,TableII,Column2,forradionuclides otherthandissolved orentrained noblegases.Fordissolved orentrained noblesgases,theconcentration shallbelimitedto2E-04uCi/mltotalactivity.

SetpointDetermination Methodology LiquidRadwasteEffluentRadiation AlarmSetpointTheLiquidRadioactive WasteSystemTanksarepumpedtothedischarge tunnelwhichinturnflowsdirectlytoLakeOntario.Attheendofthedischarge tunnelinLakeOntario,adiffuserstructure hasbeeninstalled.

Itspurposeistomaintainsurfacewatertemperatures lowenoughtomeetthermalpollution limits.However,italsoassistsinthenearfielddilutionofanyactivityreleased.

ServiceWaterandtheCoolingTowerBlowdownarealsopumpedtothedischarge tunnelandwillprovidedilution.

IftheServiceWaterortheCoolingTowerBlowdownisfoundtobecontaminated, thenitsactivitywillbeaccounted forwhencalculating thepermissible radwasteeffluentflowforaLiquidRadwastedischarge.

TheLiquidRadwasteSystemMonitorprovidesalarmandautomatic termination ofreleaseifradiation levelsaboveitsalarmsetpointaredetected.

Theradiation detectorisasodiumiodidecrystal.Itisascintillation device.Thecrystalissensitive togammaandbetaradiation.

However,becauseofthemetalwallsofthesamplechamberandtheabsorption characteristics ofwater,themonitorisnotparticularly sensitive tobetaradiation.

ActualdetectorresponseZ,(CG,/CF,),

cpm,hasbeenevaluated byplacingasampleoftypicalradioactive wasteintothemonitorandrecording thegrosscountrate,cpm.Acalibration ratiowasdeveloped bydividingthenoteddetectorresponse, Z,(CG,/CF,)

cpm,bytotalconcentration ofactivityZ,(CG,),uCi/cc.Thequantification ofthegammaactivitywascompleted withgammaspectrometry equipment whosecalibration istraceable toNIST.Thiscalibration ratioverifiedthemteafacturer's prototype calibration, andanysubsequent transfercaXihrations performed.

Thecurrentcalibration factor(expressed as'hereciprocal conversion factor,uCi/ml/cpm),

willbeusedforsubsequent setpointcalculations inthedetermination ofdetectorresponse:

Zi(CG(/CFi)

Zi(CGi/CF))

Wherethefactorsareasdefinedabove.003072LLII2

Forthecalculation ofRDF~ZMPCfraction~Z,(C,/MP+)

thecontribution fromnongammaemittingnuclidesexcepttritiumwillbeinitially estimated basedontheexpectedratiostoquantified nuclidesaslistedintheFSARTable11.2.5.Fe-55,Sr-89andSr-90are2.5,0.25and0.02timestheconcentration ofCo-60.Thesevaluesmaybereplacedbyratioscalculated fromanalysisofcomposite samples.Tritiumconcentration isassumedtoequalthelatestconcentration detectedinthemonthlytritiumanalysis(performed offsite)ofliquidradioactive wastetanksdischarged.

NominalflowratesoftheLiquidRadioactive WasteSystemTanksdischarged is<165gpmwhiledilutionflowfromtheServiceWaterPumps,andCoolingTowerBlowdowncumulatively istypically over10,200gpm.Becauseofthelargeamountofdilutionthealarmsetpointcouldbesubstantially greaterthanthatwhichwouldcorrespond totheconcentration actuallyinthetank.Potentially adischarge couldcontinueevenifthedistribution ofnuclidesinthetankweresubstantially different fromthegrabsampleobtainedpriortodischarge whichwasusedtoestablish thedetectoralarmpoint.Toavoidthispossibility of"Nonrepresentative Sampling" resulting inerroneous assumptions aboutthedischarge ofatank,thetankisrecirculated foraminimumof2.5tankvolumespriortosampling.

Thismonitor's setpointtakesintoaccountthedilutionofRadwasteEffluents providedbytheServiceWaterandCoolingTowerBlowdownflows.Detectorresponseforthenuclidestobedischarged (cpm)ismultiplied bytheActualDilutionFactor(dilution flow/waste streamflow)anddividedbytheRequiredDilutionFactor(totalfractionofMPCinthewastestream).Asafetyfactorisusedtoensurethatthelimitisneverexceeded.

ServiceWaterandCoolingTowerBlowdownarenormallynon-radioactive.

Iftheyarefoundtobecontaminated priortoaLiquidRadwastedischarge thenanalternative equationisusedtotakeintoaccountthecontamination.

Iftheybecomecontaminated duringaRadwastedischarge, thenthedischarge willbeimmediately terminated andthesituation fullyassessed.

NormalRadwasteEffluentAlarmSetpointCalculation:

AlarmSetpoint(0.8*TDF/PEF*TGC/CF+1/RDF+Background.

Where:AlarmSetpoint0.8mTDFCF)PEFMPC>Background TheRadiation DetectorAlarmSetpoint, cpmSafetyFactor,unitlessNonradioactive dilutionflowrate,gpm.ServiceWaterFlowrangesfrom30,000to58,000gpm.Blowdownflowistypically 10,200gpmConcentration ofisotopeiinRadwastetankpriortodilution, uCi/ml(gamma+non-gammaemitters)

Detectorresponseforisotopei,netuCi/ml/cpm SeeTable2-1foralistofnominalvaluesThepermissible RadwasteEffluentFlowrate,gpm,165gpmisthemaximumvalueusedinthisequationConcentration limitforisotopeifrom10CFR20AppendixB,TableII,Column2,uCi/mlDetectorresponsewhensamplechamberisfilledwithnonradioactive water,cpm003072LLII3

CFTGC>ZCG(Z(CGI/CFl)

RDF~Z((C(/MPH)TGC/CFTDF/PEFMonitorConversion Factor,uCi/ml/cpm, determined ateachcalibration oftheeffluentmonitorConcentration ofgammaemittingnuclideinRadwastetankpriortodilution, uCi/mlSummation ofallgammaemittingnuclides(whichmonitorwillrespondto)Thetotaldetectorresponsewhenexposedtotheconcentration ofnuclidesintheRadwastetank,cpmThetotalfractionofthe10CFR20,AppendixB,TableII,Column2limitthatisintheRadwastetank,unitless.

ThisisalsoknownastheRequiredDilutionFactor(RDF),andincludesnon-gamma emittersAnapproximation toZ,(CG,/CF<)

usingCFdetermined ateachcalibration oftheeffluentmonitorAnapproximation to(TDF+PEF)/PEF, theActualDilutionFactorineffectduring.adischarge.

Permissible effluentflow,PEF,shallbecalculated todetermine thatMPCwillnotbeexceededinthedischarge canal.PEF~DilutionFlow1-FractionTemerin(RDF)1.5FractionTempering

~Adiversion ofsomefractionofdischarge flowtotheintakecanalforthepurposeoftemperature control.IfActualDilutionFactorissetequaltotheRequiredDilutionFactor,thenthealarmpointsrequiredbytheaboveequations correspond toaconcentration of80%oftheRadwasteTankconcentration.

Nodischarge couldoccur,sincethemonitorwouldbeinalarmassoonasthedischarge commenced.

Toavoidthissituation, maximumallowable radwastedischarge flowiscalculated usingamultiple(usually1.5to2)oftheRequiredDilutionFactor,resulting indischarge canalconcentration of2/3to1/2ofMPCpriortoalarmandtermination ofrelease.Inperforming thealarmcalculation, thesmallerof165gpm(themaximumpossibleflow)andPEFwillbeused.Toensurethealarmsetpointisnotexceeded, analertalarmisprovided.

Thealertalarmwillbesetinaccordance withtheequationaboveusingasafetyfactorof0.5(orlower)insteadof0.8~1.1.2.2CoOtaminated DilutionWaterRadwasteEffluentMonitorAlarmSetpointCefeulations r"Tgeallowable discharge flowrateforaRadwastetank,whenoneofthenormaldilutionstreams(ServiceWaterA,ServiceWaterB,orCoolingTowerBlowdown) iscontaminated, willbecalculated byaniterative process.UsingRadwastetankconcentrations withatotalliquideffluentflowratetheresulting fractionofMPCinthedischarge canalwillbecalculated.

FMPCZs[Fo/Zo(Fo)

ZI(C4+MPCI))Thenthepermissible radwasteeffluentflowrateisgivenby:PEF~TotalRadwasteEffluentFlowFMPC003072LLII4

'llThecorresponding AlarmSetpointwillthenbecalculated usingthefollowing

equation, withPEFlimitedasabove.TGC/CFAlaanSetpoint(0.8FMPC+Background Where:AlarmSetpoint0'F,CiC.CFMPHPEFBackground TGC/CFZi(CGi/CF)E.(F,C~)Z,[F,]TheRadiation DetectorAlarmSetpoint, cpmSafetyFactor,UnitlessAnEffluentflowrateforstreams,gpmConcentration ofisotopeiinRadwastetankpriortodilution, uCi/mlConcentration ofisotopeiinEffluentstreamsincluding theRadwasteEffluenttankundiluted, uCi/mlAveragedetectorresponseforallisotopesinthewastestream,netuCi/ml/cpm Concentration limitforisotopeifrom10CFR20AppendixB,TableZZ,Column2,uCi/mlThepermissible RadwasteEffluentFlowrate,gpmDetectorresponsewhensamplechamberisfilledwithnonradioactive water,cpmThetotaldetectorresponsewhenexposedtotheconcentration ofnuclidesintheRadwastetank,cpmThetotalactivityofnuclideiinallEffluentstreams,uCi-gpm/ml ThetotalLiquidEffluentFlowrate,gpm(ServiceWater6CTBlowdown6Radwaste) 1.1.2.3ServiceWaterandCoolingTowerBlowdownEffluentAlarmSetpointThesemonitorsetpoints donottakeanycreditfordilutionofeachrespective effluentstream.Detectorresponseforthedistribution ofnuclidespotentially discharged isdividedbythetotalMPCfractionoftheradionuclides potentially intherespective stream.Asafetyfactorisusedtoensurethatthelimitisneverexceeded.

ServiceWaterandCoolingTowerBlowdownarenormallynon-radioactive.

Zftheyarefoundtobecontaminated bystatistically significant increaseindetectorresponsethengrabsampleswillbeobtainedandanalysismeetingtheLLDrequirements ofTable4.11.1-1completed sothatanestimateofoffsitedosecanbe,madeandthesituation fullyassessed.

SognriceWaterAandBandtheCoolingTowerBlowdownarepumpedtothe'ischarge tunnelwhichinturnflowsdirectlytoLakeOntario.NormalflowratesforeachServiceWaterPumpis10,000gpmwhilethatfortheCoolingTowerBlowdownmaybeasmuchas10,200gpm.Creditis.nottakenforanydilutionoftheseindividual effluentstreams.Theradiation detectorisasodiumiodidecrystal.Ztisascintillation device.Thecrystalissensitive togammaandbetaradiation.

However,becauseofthemetalwallsinitssamplechamberandtheabsorption.

characteristics ofwater,themonitorisnotparticularly sensitive tobetaradiation.

003072LLII5

DetectorresponseE,(g/CF,)

hasbeenevaluated byplacingadilutedsampleofReactorCoolant(afteratwohourdecay)inarepresentative monitorandnotingitsgrosscountrate.ReactorCcggantwaschosenbecauseitrepresents themostlikelycontaminant ofditionWaters.A4r'hourdecaywaschosenby)udgement ofthestaffofNiagaraMohiirkPowerCorporation.

ReactorCoolantwithnodecaycontainsaconsiderable amountofveryenergetic nuclideswhichwouldbiasthedetectorresponsetermhigh.Howeverassumingalongerthan2hourdecayisnotrealistic asthemostlikelyreleasemechanism isaleakthroughtheResidualHeatRemovalHeatExchangers whichwouldcontainReactorCoolantduringshutdowns.

ServiceWaterandCoolingTowerBlowdownAlarmSetpointEquation:

AlarmSetpointc0.81/CFZ,Q/[Z,(Q/MPC,))

+Background.

Where>AlarmSetpoint0.8C,CFiMPCiBackground Z,(g/CF,)

Z,(g/MPC,)

(1/CF)E<Q CFTheRadiation DetectorAlarmSetpoint, cpmSafetyFactor,unitlessConcentration ofisotopeiinpotential contaminated stream,uCi/mlDetectorresponseforisotopei,netuCi/ml/cpm SeeTable2-1foralistofnominalvaluesConcentration limitforisotopeifrom10CFR20AppendixB,TableII,Column2,uCi/mlDetectorresponsewhensamplechamberisfilledwithnonradioactive water,cpmThetotaldetectorresponsewhenexposedtotheconcentration ofnuclidesinthepotential contaminant, cpmThetotalfractionofthe10CFR20,AppendixBgTableII,Column2limitthatisinthepotential contaminated stream,unitless.

Anapproximation toZ,(Q/CF,),

determined ateachcalibration oftheeffluentmonitorMonitorConversion Factor,uCi/ml/cpm 1.2LiquidEffluentConcentration Calculation Thiscalculation documents compliance withCONTROLSSection3.11.alt".ccincentration ofradioactive materialreleasedinliquidgentstoUNRESTRICTED AREAS(seeFigure5.1.3-1)shallbetotheconcentrations specified in10CFR20,AppendixB,II,Column2,forradionuclides otherthandissolved orentrained noblegases.Fordissolved orentrained noblegases,theconcentration shallbelimitedto2E-04microcurie/ml totalactivity.

~Theconcentration ofradioactivity fromLiquidRadwaste, ServiceWaterAandBandtheCoolingTowerBlowdownareincludedinthecalculation.

Thecalculation isperformed foraspecificperiodoftime.Nocreditistakenforaveraging.

Thelimitingconcentration iscalculated asfollowscEl(FI/El(FO)

El(CLŽ%))003072LL

WherecFMPCCgF,MPCiEi(+/MPQ)

Es(Fo)ThefractionofMPC,theratioatthepointofdischarge oftheactualconcentration tothelimitingconcentration of10CFR20,AppendixB,TableII,Column2,forradionuclides otherthandissolved orentrained noblegases,unitlessTheconcentration ofnuclideiinaparticular effluentstreams,uCi/mlTheflowrateofaparticular effluentstreams,gpmThelimitingconcentration ofaspecificnuclideifrom10CFR20,Appendixb,TableII,Column2(fornoblegases,theconcentration shallbelimitedto2E-4microcurie/ml),

uci/mlTheMPCfractionofstreamspriortodilutionbyotherstreamsThetotalflowrateofalleffluentstreamss,gpm1.3AvalueoflessthanoneforMPCfractionisrequiredforcompliance.

LiquidEffluentDoseCalculation Methodology Thedoseordosecommitment toaMEMBEROFTHEPUBLICfromradioactive materials inliquideffluents

released, fromeachunit,toUNRESTRICTED AREAS(seeFigure5.1.3-1)shallbelimited:a.Duringanycalendarquartertolessthanorequalto1.5mremtothewholebodyandtolessthanorequalto5mremtoanyorgan,andb.Duringanycalendaryeartolessthanorequalto3mremtothewholebodyandtolessthanorequalto10mremtoanyorgan.DosesduetoLiquidEffluents arecalculated monthlyforthefishanddrinkingwateringestion pathwaysandtheexternalsedimentexposurepathwaysfromalldetectednuclidesinliquideffluents releasedtotheunrestricted areasusingthefollowing expression fromNUREG0133,Section4.3.Where<Di~El[AtEL(dTICgFg)

)Thecumulative dosecommitment tothetotalbodyoranyorgan,tfromtheliquideffluents forthetotaltimeperiodEz(dTI),mremThelengthoftheLthtimeperiodoverwhichCs.andFareaveragedforallliquidreleases, hours~Theaverageconcentration ofradionuclide, i,inundiluted liquideffluents duringtimeperioddTfromanyliquidrelease,uCi/mlThesiterelatedingestion dosecommitment factorforthemaximumindividual tothetotalbodyoranyorgantforeachidentified principal gammaorbetaemitter,mrem/hrperuCi/ml.Table2-2.003072LLII7

1.4ThenearfieldaveragedilutionfactorforCduringanyliquideffluentrelease.Definedastheratioofthemaximumundiluted liquidwasteflowduringreleasetotheproductoftheaverageflowfromthesitedischarge structure tounrestricted receiving waterstimes5.9.(5.9isthesitespecificapplicable factorforthemixingeffectofthedischarge structure.)

SeetheNineMilePointUnit2Environmental Report-Operating LicenseStage,Table5.4-2footnotel.LiquidEffluentSamplingRepresentativeness Therearefourtanksintheradwastesystemdesignedtobedischarged tothedischarge canal.Thesetanksarelabeled4A,4B,5A,andSB.LiquidRadwasteTankSAand5BatNineMilePointUnit2containaspargersprayringwhichassiststhemixingofthetankcontentswhileitisbeingrecirculated priortosampling.

Thisspargereffectively mixesthetankfourtimesfasterthansimplerecirculation.

LiquidRadwasteTank4Aand4Bcontainamixingringbutnosparger.Nocreditistakenforthemixingeffectsofthering.Normalrecirculation flowis150gpmfortankSAand5B,110gpmfortank4Aand4Bwhileeachtankcontainsupto25,000gallonsalthoughtheentirecontentsarenotdischarged.

Toassurethatthetanksareadequately mixedpriortosampling, itisaplantrequirement thatthetankberecirculated forthetimerequiredtopass2.5timesthevolumeofthetank:Recirculation Time~2.5T/RMWhere:Recirculation Time2.5Istheminimumtimetorecirculate theTank,minIstheplantrequirement, unitlessIsthetankvolume,galIstherecirculation flowrate,gpm.Isthefactorthattakesintoaccountthemixingofthesparger,unitless, fourfortankSAandB,onefortank4AandB.Additionally, theAlertAlarmsetpointoftheLiquidRadwasteEffluentmonitorissetatapproximately 60%oftheHighalarmsetpoint.

Thisalarmwi.llgiveindication ofincomplete mixingwithadequatemargintoexceeding MPC.ServiceWaterAandBandtheCoolingTowerBlowdownaresampledftheradiation monitoroneachrespective stream.Theserscontinuously withdrawasampleandpumpitbacktotheentstream.Thelengthoftubingbetweenthecontinuously fftingsampleandthesamplespigotcontainslessthan200mlwhichisadequately purgedbyrequiring apurgeofatleast1literwhengrabbingasample.003072LLII8

1.5LiquidRadwasteSystemOperability TheLiquidRadwasteTreatment SystemshallbeOPERABLEandusedwhenpro)ected dosesduetoliquidradwasteeffluents wouldexceed0.06mr~tothewholebodyor0.2mremtoanyorganina31-dayperiod.Cue41ative doseswillbedetermined atleastonceper31days(asindicated inSection1.3)anddoseswillalsobepro)ected iftheradwastetreatment systemsarenotbeingfullyutilized.

Thesystemcollection tanksareprocessed asfollows')

LowConductivity (WasteCollector):

RadwasteFilterandRadwasteDemineralizer 2),HighConductivity (FloorDrains):FloorDrainFilterorWasteEvaporator orAdvancedLiquidProcessing System(ALPS)3)Regenerant Waste:Zfresinregeneration isusedatNMP-2;thewastewillbeprocessed throughthefloordrainfilterorwasteevaporator.

EMOTE:Regenerant Evaporator andWasteEvaporator maybeusedinterchangeably.

Thedosepro)ection indicated abovewillbeperformed inaccordance withthemethodology ofSection1.3.$'r~-I003072LLZZ9

2.0 USEFFLUENTS

ThegaseouseffluentreleasepointsarethestackandthecombinedRadwaste/Reactor Buildingvent.ThestackeffluentpointincludesTurbineBuildingventilation, maincondenser offgas(aftercharcoalbedholdup),andStandbyGasTreatment Systemexhaust.NUREG0133andRegulatory Guide1.109,Rev.1werefollowedinthedevelopment ofthissection.2.12~1~1GaseousEffluentMonitorAlarmSetpoints BasisThedoseratefromradioactive materials releasedingaseouseffluents fromthesitetoareasatorbeyondtheSITEBOUNDARY(seeFigure5.1.3-1)shallbelimitedtothefollowing:

a.Fornoblegases!Lessthanorequalto500mrem/yrtothewholebodyandlessthanorequalto3000mrem/yrtotheskin,andb.Foriodine-131, foriodine-133, fortritium,andforallradionuclides withhalf-lives greaterthan8days:Lessthanorequalto1500mrem/yrtoanyorgan.Theradioactivity rateofnoblegasesmeasureddownstream oftherecombiner shallbelimitedtolessthanorequalto350,000microcuries/second duringoffgassystemoperation.

2'~2SetpointDetermination Methodology Discussion NineMilePointUnit1andtheJamesAFitzPatrick nuclearplantsoccupythesamesiteasNineMilePointUnit2.Becauseoftheindependence oftheseplants'afety systems,controlroomsandoperating staffsitisassumedthatsimultaneous accidents arenotlikelytooccuratthedifferent units.However,therearetworeleasepointsatUnit2.ItisassumedthatifanaccidentweretooccuratUnit2thatbothreleasepointscouldbeinvolved.

ThealarmsetpointforGaseousEffluentNobleGasMonitorsarebasedonadoseratelimitof500mRem/yrtotheWholeBody.SincetherearetworeleasepointsatUnit2,thedoseratelimitof500mRem/yrisdividedequallyforeachreleasepoint,butmaybeapportioned otherwise, ifrequired.

Thesemonitorsaresensitive toonlynoblegases.Becauseofthisitisconsidered impractical tobasetheiralarmsetpoints onorgandoseratesduetoiodinesorparticulates.

Additionally skindoserateisneversignificantly greaterthanthewholebodydoserate.ThusthefactorRwhichisthebasisforthealarmsetpointcalculation isnominally takenasequalto250mRem/yr.Iftherearesignificant releasesfromanygaseousreleasepointonthesite()25mRem/yr)foranextendedperiodoftimethenthesetpointwillberecalculated withanappropriately smallervalueforR.T&.highalarmsetpointfortheOffgasNobleGasmonitorisbasedonalimitof350,000uCi/sec.ThisisthereleaserateforwhichaFSARaccidentanalysiswascompleted.

AtthisratetheOffgasSystemcharcoalbedswillnotcontainenoughactivitysothattheirfailureandsubsequent releaseofactivitywillpresentasignificant offsitedoseassumingaccidentmeteorology.

003072LLII10

Initially, inaccordance withCONTROL4.3.7.10, theGermanium multichannel analysissystemsofthestackandventwillbecalibrated withgasstandards (traceable toNIST)inaccordance withTable4.3.7.10-1, note(a).Subsequent calibrations maybeperformed withgasstandards, orwithrelatedsolidsources.Thequarterly ChannelFunctional Testwillincludeoperability ofthe30ccchamberandthedilutionstagestoconfirmmonitorhighrangecapability.

(Appendix D,GaseousEffluentMonitoring System).Thealertissetatasmallmultipleofcurrentoperating level.2.1.2.1StackNobleGasDetectorAlarmSetpointEquation:

ThestackatNineMilePointUnit2receivestheOffgasaftercharcoalbeddelay,TurbineBuildingVentilation andtheStandbyGasTreatment systemexhaust.TheStandbyGasTreatment SystemExhauststheprimarycontainment duringnormalshutdowns andmaintains anegativepressureontheReactorBuildingtomaintainsecondary containment integrity.

The,StandbyGasTreatment willisolateonhighradiation detected(bytheSGTSmonitor)duringprimarycontainment purges.Thestacknoblegasdetectorismadeofgermanium.

Itissensitive toonlygammaradiation.

However,becauseitisacomputerbasedmultichannel analysissystemitisabletoaccurately quantifytheactivityreleasedintermsofuCiofspecificnuclides.

Onlypurealphaandbetaemittersarenotdetectable, ofwhichtherearenocommonnoblegases.Adistribution ofNobleGasescorresponding tooffgasischosenforthenominalalarmsetpointcalculation.

Offgasischosenbecauseitrepresents themostsignificant contaminant ofgaseousactivityintheplant.ThereleaserateQ<<corresponds tooffgasconcentration expectedwiththeplantdesignlimitforfuelfailure.Thealarmsetpointmayberecalculated ifasignificant releaseisencountered.

Inthatcasetheactualdistribution ofnoblegaseswillbeusedinthecalculation.

Thefollowing calculation willbeusedfortheinitialAlarmSetpoint.

O.BRAlarmSetpoint, uCi/secZ>(QV<)0.8V)Ei(%%)SafetyFactor,unitlessAllocation Factor.Normally, 250mrem/yrythevaluemustbe500mrem/yrorlessdepending uponthedoseratefromotherreleasepointswithinthesitesuchthatthetotaldoseratecorresponds to<500mrem/yrThereleaserateofnuclidei,uCi/secTheconstantforeachidentified noblegasnuclideaccounting forthewholebodydosefromtheelevatedfiniteplumelistedonTable3-2,mrem/yrperuCi/secThetotalreleaserateofnoblegasnuclidesinthestackeffluent, uCi/secThetotaloftheproductofeachisotopereleaseratetimesitsrespective wholebodyplumeconstant, mrem/yr,uci/sec003072LLII11

Thealertalarmisnormallysetatlessthan10%ofthehighalarm.2.1.2.2VentNobleGasDetectorAlarmSetpointEquations TheventcontainstheReactorBuildingventilation aboveandbelowtherefuelfloorandtheRadwasteBuildingventilation effluents.

TheReactorBuildingVentilation willisolatewhenradiation monitorsdetecthighlevelsofradiation (theseareseparatemonitors, nototherwise discussed intheODCM).Nominalflowratefortheventis2.37E5CFM.Thisdetectorismadeofgermanium.

Itissensitive toonlygammaradiation.

However,becauseitisacomputerbasedmultichannel analysissystemitisabletoaccurately quantifytheactivityreleasedintermsofuciofspecificnuclides.

Onlypuzealphaandbetaemittersarenotdetectable, ofwhichtherearenocommonnoblegases.Adistribution ofNobleGasescorresponding tothatexpectedwiththedesignlimitforfuelfailureoffgasischosenforthenominalalarmsetpointcalculation.

Offgasischosenbecauseitrepresents themostsignificant contaminant ofgaseousactivityintheplant.Thealarmsetpointmayberecalculated ifasignificant releaseisencountered.

Inthatcasetheactualdistribution ofnoblegaseswillbeusedinthecalculation.

AlarmSetpoint, uCi/sec0.8RZ(X/Q)Z;(Q;Q)Where:0.8Q((X/Q)Ei(Q~)Ei(QA)SafetyFactor,unitlessAllocation Factor.Normally, 250mrem/yrgthevaluemustbe500mrem/yrorlessdepending uponthedoseratefromotherreleasepointswithinthesitesuchthatthetotalratecorresponds to(500mrem/yrThereleaserateofnuclidei,uCi/secThehighestannualaverageatmospheric dispersion coefficient atthesiteboundaryaslistedintheFinalEnvironmental Statement, NUREG1085,TableD-2,2.0E-6sec/m'heconstantforeachidentified noblegasnuclideaccounting forthewholebodydosefromthesemi-infinite cloud,listedonTable3-3gmzem/yrperuci/m~Thetotalreleaserateofnoblegasnuclidesintheventeffluent, uCi/secThetotaloftheproductoftheeachisotopereleaseratetimesitsrespective wholebodyimmersion

constant, mrem/yrpersec/m~003072LLII12

Thealertalarmisnormallysetatlessthan10%ofthehighalarm.TheOffgassystemhasaradiation detectordownstream oftherecombiners andbeforethecharcoaldecaybeds.Theoffgas,afterdecay,isexhausted tothemainstack.Thesystemwillautomatically isolateifitspretreatment radiation monitordetectslevelsofradiation abovethehighalarmsetpoint.

TheRadiation Detectorisasodiumiodidecrystal.Itisascintillation deviceandhasathinmylarwindowsothatitissensitive tobothgammaandbetaradiation.

DetectorresponseZ<(C,/CF,)

hasbeenevaluated fxomisotopicanalysisofoffgasanalyzedonamultichannel

analyzer, traceable toNIST.Adistribution ofoffgascorresponding tothatexpectedwiththedesignlimitforfuelfailureisusedtoestablish theinitialsetpoint.

However,thealarmsetpointmayberecalculated usinganupdatednuclidedistribution basedonactualplantprocessconditions.

Themonitornominalresponsevalueswillbeconfirmed duringperiodiccalibration usingaTransferStandardsourcetraceable totheprimarycalibration performed bythevendor.Particulates andIodinesarenotincludedinthiscalculation becausethisisanoblegasmonitor.Topxovideanalarmintheeventoffailureoftheoffgassystemflowinstrumentation, thelowflowalarmsetpointwillbesetatorabove10scfm,(wellbelownormalsy'temflow)andthehighflowalarmsetpointwillbesetatorbelow110scfm,whichiswellaboveexpectedsteady-state flowrateswithatightcondenser.

Toprovideanalarmforchangingconditions, thealertalarmwillnormallybesetat10,000uCi/secabovecurrentoperating level(15%oflevelifgreaterthan75,000uCi/sec).

Thisalertallo~sconformance withTechnical Specifications 3.4.5SpecificActivityActions.50E+052.E-03ZCCFAlarmSetpoint, cpm<0.8F~i(%)+Background 2.1.2.3OffgasPretreatment NobleGasDetectorAlarmSetpointEquation:

Where<AlarmSetpoint0.8350,0002.128-03Thealarmsetpointfortheoffgaspretreatment NobleGasDetector, cpmSafetyFactor,unitlessTheTechnical Specification LimitforOffgasPretreatment, uCi/secUnitconversion Factor,60sec/min/28317cc/CFTheconcentration ofnuclide,i,intheOffgas,uCi/ccTheDetectorresponsetonuclidei,uCi/cc/cpm; SeeTable3-1foralistofnominalvalues003072LLII13

=

Background===

El(9/CFI)Ei(Ci)TheOffgasSystemFlowrate,CFMThedetectorresponsewhenitschamberisfilledwithnonradioactive air,cpmThesummation ofthenuclideconcentration dividedbythecorresponding detectorresponse, netcpmThesummation oftheconcentration ofnuclidesinoffgas,uCi/cc2~2GaseousEffluents DoseRateCalculation Doserateswillbecalculated monthlyataminimumtodemonstrate thatthereleaseofnoblegases,tritium,iodines,andparticulates withhalflivesgreaterthan8daysarewithinthedoseratelimitsspecified in10CFR20.Theselimitsareasfollows:Thedoseratefromradioactive materials releasedingaseouseffluents fromthesitetoareasatorbeyondtheSITEBOUNDARY(seeFigure5.1.3-1)shallbelimitedper10CFR20tothefollowing:

a.Fornoblegases:Lessthanorequalto500mrem/yrtothewholebodyandlessthanorequalto3000mrem/yrtotheskin,and2.2.1b.Foriodine-131, iodine-133, fortritium,andforallradionuclides inparticulate formwithhalf-lives greaterthan8days:Lessthanorequalto1500mrem/yrtoanyorgan:X/QandW-Dispersion Parameters forDoseRate,Table3-23Thedispersion parameters forthewholebodyandskindoseratecalculation correspond tothehighestannualaveragedispersion parameters atorbeyondtheunrestricted areaboundary.

Thisisattheeastsiteboundary.

ThesevalueswereobtainedfromtheNineMilePointUnit2FinalEnvironmental Statement, NUREG1085TableD>>2fortheventandstack.Thesewerecalculated usingthemethodology ofRegulatory Guide1.111,Rev.1.Thestackwasmodeledasanelevatedreleasepointbecauseitsheightismorethan2.5timesanyadjacentbuildingheight.Theventwasmodeledasagroundlevelreleasebecauseeventhoughitishigherthananyadjacentbuildingitisnotmorethan2.5timestheheight.TheNRCFinalEnvironmental Statement valuesforthesiteboundaryX/QandD/Qtermswereselectedforuseincalculating EffluentMonitorAlarmPointsandcompliance withSiteBoundaryDoseRatespecifications becausetheyareconservative whencomparedwiththecorresponding NMPCEnvironmental Reportvalues.Inaddition, thestack"intermittent release"X/Qwasselectedinlieuofthe"continuous" value,sinceitisslightlylarger,andalsowouldallownotmakingadistinction betweenlongtermandshorttermreleases.

Tha'.dispersion parameters fortheorgandosecalculations wereobtainedfromtheEnvironmental Report,Figures7B-4(stack)and7B-8(vent)bylocatingvaluescorresponding tocurrently existing(1985)pathways.

Itshouldbenotedthatthemostconservative pathwaysdonotallexistatthesamelocation.

Itisconservative toassumethatasingleindividual wouldactuallybeateachofthereceptorlocations.

003072LLII14

2.2'WholeBodyDoseRateDuetoNobleGasesThegroundlevelgammaradiation dosefromanoblegasstackrelease(elevated),

referredtoasplumeshine,iscalculated usingthedosefactorsfromAppendixBofthisdocument.

Thegroundlevelgammaradiation dosefromanoblegasventreleaseaccountsfortheexposurefromimmersion inthesemi-infinite cloud.Thedispersion ofthecloudfromthepointofreleasetothereceptorattheeastsiteboundaryisfactoredintotheplumeshinedosefactorsforstackreleasesandthroughtheuseofX/Qintheequationfortheimmersion groundleveldoseratesforventreleases.

Thereleaserateisaveragedovertheperiodofconcern.Thefactorsarediscussed inAppendixB.Wholebodydoserate(DR)Yduetonoblegases:(DR)y3.17E-08Z,(VQ+g(X/Q)Q.]

Where:DRYViWholebodydoserate(mrem/sec)

Theconstantaccounting forthegammawholebodydoseratefromthefiniteplumefromtheelevatedstackreleasesforeachidentified noblegasnuclide,i.ListedonTable3-2,mrem/yrper'ci/sec Theconstantaccounting forthegammawholebodydoseratefromimmersion inthesemi-infinite cloudforeachidentified noblegasnuclide,i.ListedinTable3-3,mrem/yrperuCi/m'From Reg.Guide1.109)X/QX/Q,Therelativeplumeconcentration atorbeyondthelandsectorsiteboundary.

Averagemeteorological dataisused.ElevatedX/Qvaluesareusedforthestackreleases(s~stack);

groundX/Qvaluesareusedfortheventreleases(v~vent).

ListedonTable3-23QsiQ~Thereleaserateofeachnoblegasnuclidei,fromthestack(s)orvent(v).Averagedoverthetimeperiodofconcern.(uCi/sec) 23.17E-OB~Conversion Factor~theinverseofthenumberofsecondsinoneyear.(yr/sec)SkinDoseRateDuetoNobleGasesTherearetwotypesofradiation fromnoblegasreleasesthatcontribute totheskindoserate:betaandgamma.Paestackreleasesthiscalculation takesintoaccountthedosefrombetaradiation inasemiinfinitecloudbyusinganimmersion dosefactor.Additionally, thedispersion ofthereleasedactivityfromthe'stacktothereceptoristakenintoaccountbyuseofthefactor(X/Q).Thegammaradiation dosefromtheelevatedstackreleaseistakenintoaccountbythedosefactorsinAppendixB.Forventreleasesthecalculations alsotakeintoaccountthedosefromthebeta(I))andgamma(Y)radiation ofthesemiinfinitecloudbyusinganimmersion dosefactor.Dispersion istakenintoaccountbyuseofthefactor(X/Q).003072LLII15

Thereleaserateisaveragedovertheperiodofconcern.Skindoserate(DR)~duetonoblegases:(DR)~~~~3~17E8Z>[(L((X/{})~+1~11Bi){}~+(Lj+1~1lg)'(X/Q)

<<Q~)Where:(DR)~opL(Skindoserate(mrem/sec)

Theconstanttoaccountforthegammaandbetaskindoseratesforeachnoblegasnuclide,i,fromimmersion inthesemi-infinite cloud,mrem/yrperuCi/m',listedonTable3-3(fromR.G.1.109)Theconstanttoaccountfortheairgammadoserateforeachnoblegasnuclide,i,fromimmersion inthesemi-infinite cloud,mrad/yrperuCi/m~,listedonTable3-3(fromR.G.1.109)Bi(X/Q)(X/Q)Unitconversion

constant, mrem/mrad Theconstantaccounting fortheairgammadoseratefromexposuretotheoverheadplumeofelevatedreleasesofeachidentified noblegasnuclide,i.ListedonTable3-2,mrad/yrperuCi/sec.Therelativeplumeconcentration atorbeyondthelandsectorsiteboundary.

Averagemeteorological dataisused.ElevatedX/Qvaluesareusedforthestackreleases(s"-stack);

groundX/Qvaluesareusedfortheventreleases(v~vent).

23.17E-B~Conversion Factor;theinverseofthenumberofsecondsinayear;(yr/sec)Thereleaserateofeachnoblegasnuclidei,fromthestack(s)orvent(v)averagedoverthetimeperiodofconcern,uci/sec.OrganDoseRateDuetoI-131,I-133,Tritium,andParticulates withHalf-lives greaterthan8days.Theorgandoserateiscalculated usingthedosefactors(g)fromAppendixC.Thefactorgtakesintoaccountthedoseratereceivedfromthegroundplane,inhalation andingestion pathways.

W,andWtakeintoaccounttheatmospheric dispersion fromthereleasepointtothelocationofthemostconservative receptorforeachoftherespective pathways.

Thereleaserateisaveragedovertheperiodofconcern.Organdoserates(DR)duetoiodine-131, iodine-133, tritiumandallradionuelides inparticulate formwithhalf-lives greaterthan8days'here:

(DR)(DR)N~317E8Z~[Zip~[Wan+WvQw))Organdoserate(mrem/sec)

Thefactorthattakesintoaccountthedosefromnuclideithroughpathway)toanagegroupa,andindividual organt.Unitsforinhalation pathway,mrem/yrperuCi/m~.Unitsforgroundandingestion pathways; m~~rem/yr peruCi/sec.SeeTables3-4through3-22).003072LLII16

WWDispersion parameter eitherX/Q(sec/m')orD/g(1/m~)depending onpathwayandreceptorlocation.

Averagemeteorological dataisused(Table3-23).ElevatedW,valuesareusedforstackreleases(s=stack);

groundWvaluesareusedforventreleases(v=vent).

~N~()HThereleaseratesfornuclidei,fromthestack(s)andvent(v)respectively, uCi/sec.Whenthereleaserateexceeds0.75uCi/secfromthestackorvent,thedoserateassessment shall,also,includeJAFandNMP1dosecontributions.

Theuseofthe0.75'uCi/secreleaseratethreshold isconservative becauseitisbasedonthedoseconversion factor(R;)fortheSr-90childbonewhichissignificantly higherthanthedosefactorsfortheotherisotopespresentinthestackorventrelease.2'GaseousEffluentDoseCalculation Methodology Doseswillbecalculated monthlyataminimumtodemonstrate thatdosesresulting fromthereleaseofnoblegases,tritium,iodines,andparticulates withhalflivesgreaterthan8daysarewithinthelimitsspecified in10CFR.50.

Theselimitsareasfollows:Theairdosefromnoblegasesreleasedingaseouseffluents, fromeachunit,toareasatorbeyondtheSITEBOUNDARY(seeFigure5.1.3-1)shallbelimitedtothefollowing.

a.Duringanycalendarquarter:Lessthanorequalto5mradforgammaradiation andlessthanor'equalto10mradforbetaradiation, andb.Duringanycalendaryear:Lessthanorequalto10mradforgammaradiation andlessthanorequalto20,mradforbetaradiation.

ThedosetoaMEMBEROFTHEPUBLICfromiodine-131, iodine-133, tritium,andallradioactive materialinparticulate formwithhalf-lives greaterthan8daysingaseouseffluents

released, fromeachunit,toareasatorbeyondtheSITEBOUNDARY(seeFigure5.1.3-1)shallbelimitedtothefollowing:

a.Duringanycalendarquarter:Lessthanorequalto7.5mremtoanyorganand,b.Duringanycalendaryear:Lessthanorequalto15mremtoanyorgan.TheVENTILATION EXHAUSTTREATMENT SYSTEMshallbeOPERABLEandappropriate portionsofthissystemshallbeusedtoreducereleasesofradioactivity whentheprojected dosesin31daysfromiodineandparticulate

releases, fromeachunit,toareasatorbeyondtheSITEBOUNDARX;(see Figure5.1.3-1)wouldexceed0.3mremtoanyorganofaMEMBEROFTHEPUBLIC.2.F1WandW,-Dispersion Parameters forDose,Table3-23Thedispersion parameters fordosecalculations wereobtainedchieflyfromtheNineRilePointUnit2Environmental ReportAppendix78.Thesewerecalculated usingthemethodology ofRegulatory Guide1.111andNUREG0324.Thestackwasmodeledasanelevatedreleasepointbecauseheightismorethan2.5timestheheightofanyadjacentbuilding.

Theventwasmodeledasacombinedelevated/ground levelreleasebecausethevent'sheightisnotmorethan2.5timestheheightofanyadjacentbuilding; Averagemeteorology overtheappropriate timeperiodwasused.Dispersion parameters notavailable fromtheERwereobtainedfromC.T.MainDatareportdatedNovember, 1985,ortheFES.003072LLII17

2.3'GammaAirDoseDuetoNobleGasesGalenaairdosefromthestackorventnoblegasreleasesiscalculated monthly.Thegammaairdoseequationissimilartothegammadoserateequationexceptthereceptorisairinsteadofthewholebodyorskinofwholebody.Therefore, thestacknoblegasreleasesusethefiniteplumeairdosefactors,andtheventnoblegasreleases.use semi-infinite cloudimmersion dosefactors.ThefactorX/Qtakesintoaccountthedispersion ofventreleasestothemostconservative location.

Thereleaseactivityistotaledovertheperiodofconcern.Thefiniteplumefactorisdiscussed inAppendixB.Gammaairdoseduetonoblegases:DD3.17E-BZ,(M,(X/Q)Q+

B;Q)xtThegammaairdosefortheperiodofconcern,mrad2.3.3tThedurationofthedoseperiodofconcern,secWhereallotherparameters havebeenpreviously defined.BetaAirDoseDuetoNobleGasesThebetaairdosefromthestackorventnoblegasreleasesiscalculated usingthesemi-infinite cloudimmersion dosefactorinbetaradiation.

ThefactorX/Qtakesintoaccountthedispersion ofreleasestothemostconservative location.

Betaairdoseduetonoblegases:Dp~3'7E8Z(Ni((X/Q)vQw+(X/Q)sQu)xD>~Betaairdose(mrad)fortheperiodofconcernN(Theconstantaccounting forthebetaairdosefromimmersion inthesemi-infinite cloudforeachidentified noblegasnuclide,i.ListedonTable3-3,mrad/yrperuCi/m'.(From'Reg.Guide1.109).2.3.4t~Thedurationofthedoseperiodofconcern,secWhereallotherparameters havebeenpreviously defined.OrganDoseDuetoI-131,I-133,TritiumandParticulates withhalf-lives greaterthan8days.Theorgandoseisbasedonthesameequationasthedoserateequationexceptthedoseiscomparedtothe10CFR50doselimits.Thefactorgtakesintoaccountthedosereceivedfromthegroundplane,inhalatien, food(cowmilk,cowmeatandvegetation) pathways.

W,andWtake'into accounttheatmospheric dispersion fromthereleasepointtothe,locationofthemostconservative receptorforeachoftherespective pathways.

Thereleaseistotaledovertheperiodofconcern.Thegfactorsarediscussed inAppendixC.OrgandoseDduetoiodine-131, iodine-133, tritiumandradionuclides inparticulate formwithhalf-lives greaterthan8days'3~17E-8Zj[Z(R;[WgQ.+WvQ)]xt003072LLII18

2.4Where:D~Dosetothecriticalorgant,foragegroupa,mremt~Thedurationofthedoseperiodofconcern,secWhereallotherparameters havebeenpreviously definedinSection2.2.4.I-133andI-135Estimation 2.52.62'2.8Stackandventeffluentiodinecartridges areanalyzedtoasensitivity ofatleast1E-12uCi/cc.IfdetectedinexcessoftheLLD,theI-131andI-133analysisresultswillbereporteddirectlyfromeachcartridge analyzed.

Periodically, (usuallyquarterly butonamonthlyfrequency ifeffluentiodinesareroutinely detected) ashort-duration (12to24hour)effluentsampleiscollected andanalyzedtoestablish anI-135/I-131 ratioandanI-133/I-131 ratio,ifeachactivityexceedsLLD.Theshort-duration ratioisusedtoconfirmtheroutinely measuredI-133values.Theshort-duration I>>135/I-131 ratio(ifdetermined) isusedwiththeI-131releasetoestimatetheI-135release.Theshort-duration I-133/I-131 ratiomaybeusedwiththeI-131releasetoestimatetheI-133releaseifthedirectlymeasuredI-133releaseappearsnon-conservative.

Isokinetic SamplingSamplingsystemsforthestackandventeffluentreleasesaredesignedtomaintainisokinetic sampleflowatnormalventilation flowrates.Duringperiodsofreducedventilation flow,sampleflowmaybemaintained ataminimumflowrate(abovethecalculated isokinetic rate)inordertosamplelinelossesduetoparticulate deposition atlowvelocity.

UseofConcurrent Meteorological Datavs.Historical DataItistheintentofNMPCtousedispersion parameters basedonhistorical meteorological datatosetalarmpointsandtodetermine orpredictdoseanddoseratesintheenvironment duetogaseouseffluents.

Ifeffluentlevelsapproachlimitingvalues,meteorological conditions concurrent withthetimeofreleasemaybeusedtodetermine gaseouspathwaydoses.GaseousRadwasteTreatment SystemOperation CONTROL3.11.2.4requirestheGaseousRadwasteTreatment Systemtobeinoperation wheneverthemaincondenser aire)ectorsystemisinoperation.

Thesystemmaybeoperatedforshortperiodswiththecharcoalbedsbypassedtofacilitate transients.

Thecomponents ofthesystemwhichnormallyshouldoperatetotreatoffgasarethePreheater, Recombiner, Condenser, Dryer,CharcoalAdsorbers, HEPAFilter,andVacuumPump.(SeeAppendixD,OffgasSystem).P~VentilaCion ExhaustTreatment SystemOperation CONTROL3.11.2.5requirestheVentilation ExhaustTreatment SystemtobeOPERABLEwhenpro)ected dosesin31daysduetoiodineandparticulate releaseswouldexceed0.3mremtoanyorganofamemberofthepublic.Theappropriate components, whichaffectiodineorparticulate release,tobeOPERABLEare:1)HEPAFilter-RadwasteDeconArea2)HEPAFilter-RadwasteEquipment Area3)HEPAFilter-RadwasteGeneralArea003072LLII19

WheneveroneofthesefiltersisnotOPERABLE, iodineandparticulate doseprojections willbemadefor31-dayintervals startingwithfilterinoperability, andcontinuing aslongasthefilterremainsinoperable, inaccordance withSurveillance 4.11.2.5.1.

Predicted releaserateswillbeused,alongwiththemethodology ofSection2.3.4.(SeeAppendixD,GaseousRadiation Monitoring.)

3'URANIUMFUELCYCLEThe"UraniumFuelCycle"isdefinedin40CFRPart190.02(b)asfollows:"Uraniumfuelcyclemeanstheoperations ofmillingofuraniumorechemicalconversion ofuranium,isotopicenrichment ofuranium/fabrication ofuraniumfuel,generation ofelectricity byalight-water-cooled nuclearpowerplantusinguraniumfuel,andreprocessing ofspenturaniumfuel,totheextentthatthesedirectlysupporttheproduction ofelectrical powerforpublicuseutilizing nuclearenergy,butexcludesminingoperations, operations atwastedisposalsites,transportation ofanyradioactive materialinsupportoftheseoperations, andthereuseofrecovered non-uranium specialnuclearandby-product materials fromthecycle."Section3/4.11.4oftheCONTROLSrequiresthatwhenthecalculated dosesassociated withtheeffluentreleasesexceedtwicetheapplicable quarterorannuallimits,thelicenseeshallevaluatethecalendaryeardosesand,ifrequired, submitaSpecialReporttotheNRCandlimitsubsequent releasessuchthatthedosecommitment toarealindividual fromalluraniumfuelcyclesourcesislimitedto25mremtothetotalbodyoranyorgan(exceptthethyroid,whichislimitedto75mrem).Thisreportistodemonstrate thatradiation exposures toallrealindividuals fromalluraniumfuelcyclesources(including allliquidandgaseouseffluentpathwaysanddirectradiation) arelessthanthelimitsin40CFRPart190.Ifreleasesthatresultindosesexceeding the40CFR190limitshaveoccurred, thenavariancefromtheNRCtopermitsuchreleaseswillberequested andifpossible, actionwillbetakentoreducesubsequent releases.

ThereporttotheNRCshallcontain:1)Identification ofalluraniumfuelcyclefacilities oroperations within5milesofthenuclearpowerreactorunitsatthesite,thatcontribute totheannualdoseofthemaximumexposedmemberofthepublic.2)Identification ofthemaximumexposedmemberofthepublicandadetermination ofthetotalannualdosetothispersonfromallexistingpathwaysandsourcesofradioactive effluents anddirectradiation.

Thetotalbodyandorgandosesresulting fromradioactive materialinliquid.effluents fromNineMilePointUnit2willbesummedwiththedosesresulting fromthereleasesofnoblegases,radioiodines, andparticulates.

Thedirectdosecomponents willalsobedetermined byeithercalculation oractualmeasurement.

Actualmeasurements willutilizeenvircnunental TLDdosimetry.

Calculated measurements willutilizeengineering calculations todetermine aprojected directdosecomponent.

Intheeventcalculations areused,themethodology willbedetailedasrequiredinSection6.9.1.8oftheCONTROLS.

ThedosesfromNineMilePointUnit2willbeaddedtothedosestothemaximumexposedindividual thatarecontributed fromotheruraniumfuelcycleoperations within5milesofthesite.003072LLII20

Forthepurposeofcalculating doses,theresultsoftheEnvironmental Monitoring Programmaybeincludedtoprovidemorerefinedestimates ofdosestoarealmaximumexposedindividual.

Estimated doses,ascalculated fromstationeffluents, maybereplacedbydosescalculated fromactualenvironmental sampleresults.3.1Evaluation ofDosesFromLiquidEffluents Fortheevaluation ofdosestorealmembersofthepublicfromliquideffluents, thefishconsumption andshoreline sedimentgrounddosewillbeconsidered.

Sincethedosesfromotheraquaticpathwaysareinsignificant, fishconsumption andshoreline sedimentaretheonlytwopathwaysthatwillbeconsidered.

Thedoseassociated withfishconsumption maybecalculated usingeffluentdataandRegulatory Guide1.109methodology orbycalculating adosetomanbasedonactualfishsampleanalysisdata.Becauseofthenatureofthereceptorlocationandtheextensive fishinginthearea,thecriticalindividual maybeateenageroranadult.Thedoseassociated withshoreline sedimentisbasedontheassumption thattheshoreline wouldbeutilizedasarecreational area.ThisdosemaybederivedfromliquideffluentdataandRegulatory Guide1.109methodology orfromactualshoreline sedimentsampleanalysisdata.Equations usedtoevaluatefishandshoreline sedimentsamplesarebasedonRegulatory Guide1.109methodology.

Becauseofthesamplemediumtypeandthehalf-lives oftheradionuclides historically

observed, thedecaycorrected portionsoftheequations aredeleted.Thisdoesnotreducetheconservatism ofthecalculated dosesbutincreases thesimplicity fromanevaluation pointofview.Table3-24presentstheparameters usedforcalculating dosesfromliquideffluents.

Thedosefromfishsamplemediaiscalculated as:Where:~yjEl(Cif(U)(Dllpj)f)(1E+3)I1E+3Thetotalannualdosetoorgan$,ofanindividual ofagegroupa,fromnuclidei,viafishpathwayp,inmremperyearIex.ifcalculating totheadultwholebody,then~~~andD~D~Theconcentration ofradionuclide iinfishsamplesinpCi/gramTheconsumption rateoffishGramsperkilogram(D~)Theingestion dosefactorforagegroupa,nuclidei,fishpathwayp,andorgan$,.(Reg.Guide1.109,TableE-ll)(mrem/pCi).

ex.whencalculating totheadultwholebodyD~~D~Thefractional portionoftheyearoverwhichthedoseisapplicable Thedosefromshoreline sedimentsamplemediaiscalculated as:Z((Cg(U)(4E+4)(0.3)(D~)f)003072LLZI21

Where:Thetotalannualdosetoorgan),ofanindividual ofagegroupa,fromnuclidei,viathesedimentpathwayp,inmremperyear;ex.ifcalculating totheadultwholebody,thenR.=R~andD~~D;~Theconcentration ofradionuclide iinshoreline sedimentinpCi/gramUTheusagefactor,(hr/yr)(Reg.Guide1.109)4E+40.3Theproductoftheassumeddensityofshoreline sediment(40kilogrampersquaremetertoadepthof2.5cm)timesthenumberofgramsperkilogramTheshorewidthfactorforalakeNOTE:Thedosefactorforagegroupa,nuclidei,sedimentpathways,andorganj.(Reg.Guide1.109,TableE-6)(mrem/hrperpCi/m~);ex.whencalculating totheadultwholebodyD~D;zThefractional portionoftheyearoverwhichthedoseisapplicable Becauseofthenatureofthereceptorlocationandtheextensive fishi,nginthearea,thecriticalindividual maybeateenageroranadult..3'Evaluation ofDosesFromGaseousEffluents Fortheevaluation ofdosestorealmembersofthepublicfromgaseouseffluents, thepathwayscontained insection2ofthecalculational methodologies sectionintheODCMwillbeconsidered andincludegrounddeposition, inhalation, cowsmilk,goatsmilk,meat,andfoodproducts(vegetation).

However,anyupdatedfielddatamaybeutilizedthatconcernslocations ofrealindividuals, realtimemeteorological data,locationofcriticalreceptors, etc.Datafromthemostrecentcensusandsamplelocationsurveysshouldbeutilized.

Dosesmayalsobecalculated fromactualenvironmental samplemedia,asavailable.

Environmental samplemediadatasuchasTLD,airsample,milksampleandvegetable (foodcrop)sampledatamaybeutilizedinlieuofeffluentcalculational data.Dosestomembersofthepublicfromthepathwaysconsidered intheODCMsection2asaresultofgaseouseffluents willbecalculated usingthemethodology ofRegulatory Guide1.109orthemethodology oftheODCM,asapplicable.

Dosescalculated fromenvironmental samplemediawillbebasedonmethodologies foundinRegulatory Guide1.109.3.3Evaluation ofDosesFromDirectRadiation Thedote.contribution asaresultofdirectradiation shallbeconsidered whenevaluating whetherthedoselimitations of40CFR190havebeenexceeded.

Directradiation dosesasaresultofthereactor,turbineandradwastebuildings andoutsideradioactive storagetanks(asapplicable) maybeevaluated byengineering calculations orbyevaluating environmental TLDresultsatcriticalreceptorlocations, siteboundaryorotherspecialinterestlocations.

Fortheevaluation ofdirectradiation dosesutilizing environmental TLDs,thecriticalreceptorinquestion, suchasthecriticalresidence, etc.,willbecomparedtothecontrollocations.

Thecomparison involvesthedifference inenvironmental TLDresultsbetweenthereceptorlocationandtheaveragecontrollocationresult.003072LLII22

3.4DosestoMembersofthePublicWithintheSiteBoundary.

TheSemiannual Radioactive EffluentReleaseReportshallincludeanassessment oftheradiation dosesfromradioactive liquidandgaseouseffluente tomembersofthepublicduetotheiractivities insidethesiteboundaryasdefinedbyFigure5.1.3-1.Amemberofthepublic,wouldberepresented byanindividual whovisitsthesites'nergy Centerforthepurposeofobserving theeducational displaysorforpicnicking andassociated activities.

Fishingisamajorrecreational activityintheareaandontheSiteasaresultofthesalmonand"troutpopulations inLakeOntario.Fishermen havebeenobservedfishingattheshoreline neartheEnergyCenterfromAprilthroughDecemberinallweatherconditions.

Thus,fishingisthemajoractivityperformed bymembersofthepublicwithinthesiteboundary.

Basedonthenatureofthefishermen andundocumented observations, itisconservatively assumedthatthemaximumexposedindividual spendsanaverageof8hoursperweekfishingfromtheshoreline atalocationbetweentheEnergyCenterandtheUnit1facility.

Thisestimateisconsidered conservative butnotnecessarily excessive andaccountsforoccasions whereindividuals mayfishmoreonweekendsoronafewdaysinMarchoftheyear.Thepathwaysconsidered fortheevaluation includetheinhalation pathwaywiththeresultant lungdose,thegrounddosepathwaywiththeresultant wholebodyandskindoseandthedirectradiation dosepath~aywiththeassociated totalbodydose.Thedirectradiation dosepathway,inactuality, includesseveralpathways.

Theseinclude:thedirectradiation gammadosetoanindividual fromanoverheadplume,agammasubmersion plumedose,possibledirectradiation dosefromthefacilityandagroundplanedose(deposition).

Becausethelocationisincloseproximity tothesite,anybetaplumesubmersion doseisfelttobeinsignificant.

Otherpathways, suchastheingestion pathway,arenotapplicable.

Inaddition, pathwaysassociated withwaterrelatedrecreational activities, otherthanfishing,arenotapplicable here.Theseincludeswimming, boatingandwadingwhichareprohibited atthefacility.

EMOTEsWhere:Theinhalation pathwayisevaluated byidentifying theapplicable radionuclides (radioiodine, tritiumandparticulates) intheeffluentfortheappropriate timeperiod.Theradionuclide concentrations arethenmultiplied bytheappropriate X/Qvalue,inhalation dosefactor,airintakerate,andthefractional portionoftheyearinquestion.

Thus,theinhalation pathwayisevaluated usingthefollowing equationadaptedfromRegulatory Guide1.109.Table3-24presentsthereference fortheparameters usedinthefollowing equation.

Thefollowing equationisadaptedfromequations C-3andC-4ofRegulatory Guide1.109.SincemanyofthefactorsareinunitsofpCi/m~,m'/sec.,etc.,andsincetheradionuclide

~=,decayexpressions havebeendeletedbecauseoftheshortdistancetothereceptorlocation, theequationpresented hereisnotidentical totheRegulatory Guideequations.

Dp-~Zi[(C))F(X/{})(DFA)>>(BR)st)

CiThemaximumdosefromallnuclidestotheorganjandagegroup(a)inmrem/yr;ex.ifcalculating totheadultlung,thenD~DqandDFg~DF~Theaverageconcentration inthestackorventreleaseofnuclideifortheperiodinpCi/m~.003072LLII23

Unit2averagestackorventflowrateinm'/sec.X/Q(DFA)tpTheplumedispersion parameter foralocationapproximately 0.50mileswestofNMP-2(Theplumedispersion parameters are9.6E-07(stack)and2.8E-06(vent)andwereobtainedfromtheC.T.MainfiveyearaverageannualX/Qtables.TheventX/Q(groundlevel)istentimesthelisted0.50mileX/Qbecausetheventisapproximately 0.3milesfromthereceptorlocation.

Thestack(elevated)

X/Qisconservative whenbasedon0.50milesbecauseofthecloseproximity ofthestackandthereceptorlocation.

thedosefactorfornuclidei,organj,andagegroupainmremperpCi(Reg.Guide1.109,TableE-7);ex.ifcalculating totheadultlungtheDFA;=DFA;g(BR),~annualairintakeforindividuals inagegroupainM'eryear(obtained fromTableE-5ofRegulatory Guide1.109).fractional portionoftheyearforwhichradionuclide iwasdetectedandforwhichadoseistobecalculated (inyears).Thegrounddosepathway(deposition) willbeevaluated byobtaining atleastonesoilorshoreline sedimentsampleintheareawherefishingoccurs.Thedosewillthenbecalculated usingthesampleresults,thetimeperiodinquestion, andthemethodology basedonRegulatory Guide1.109aspresented inSection2.1.Theresultant dosemaybeadjustedforabackground dosebysubtracting theapplicable off-sitecontrolsoilorshoreline sedimentsampleradionuclide activities.

Intheeventitisnotedthatfishingisnotperformed fromtheshoreline butisinsteadperformed inthewater(i.e.,theuseofwaders),thenthegrounddosepathway(deposition) willnotbeevaluated.

Thedirectradiation gammadosepathwayincludesanygammadosesfromanoverheadplume,submersion intheplume,possibleradiation fromthefacilityandgroundplanedose(deposition).

Thisgeneralpathwaywillbeevaluated byaverageenvironmental TLDreadings.

Atleasttwoenvironmental TLDswillbeusedatonelocationintheapproximate areawherefishingoccurs.TheTLDswillbeplacedinthefieldonapproximately thebeginning ofeachcalendarquarterandremovedapproximately attheendofeachcalendarquarter(quarter2,3,and4).TheaverageTLDreadingswillbeadjustedbytheaveragecontrolTLDreadings.

Thisisaccomplished bysubtracting theaveragequarterly controlTLDvaluefromtheaveragefishinglocationTLDvalue.Theapplicable quarterly controlTLDvalueswillbeusedafteradjusting forthe.appropriate timeperiod(asapplicable).

IntheeventoflossortheftoftheTLDs,resultsfromaTLDorTLDsinanearbyareamaybeutilized.

003072LLII24 4

4.0 ENVIRONENTALMONITORING

PROGRAM4.1SamplingStationsThecurrentsamplinglocations arespecified inTable5-1andFigures5.1-1,5.1-2.Themeteorological towerlocationisshownonFigure5.1-1.ThelocationisshownasTLDlocationf17.TheEnvironmental Monitoring ProgramisajointeffortbetweentheNiagaraMohawkPowerCorporation andtheNewYorkPowerAuthority, theownersandoperators oftheNineMilePointUnits1and2andtheJamesA.FitzPatrick NuclearPowerPlants,respectively.

Samplinglocations arechosenonthebasisofhistorical averagedispersion ordeposition parameters frombothunits.Theenvironmental samplinglocationcoordinates shownonTable5-1arebasedontheNMP-2reactorcenterline.

4.2Theaveragedispersion anddeposition parameters forthethreeunitshavebeencalculated fora5yearperiod,1978through1982.Thecalculated dispersion ordeposition parameters willbecomparedtotheresultsoftheannuallandusecensus.Zfitisdetermined thatamilksamplinglocationexistsatalocationthatyieldsasignificantly higher(e.g.50%)calculated D/Qrate,thenewmilksamplinglocationwillbeaddedtothemonitoring programwithin30days.Ifanewlocationi.sadded,theoldlocationthatyieldsthelowestcalculated D/QmaybedroppedfromtheprogramafterOctober31ofthatyear.Znterlaboratory Comparison ProgramAnalysesshallbeperformed onsamplescontaining knownquantities ofradioactive materials thataresuppliedaspartofaCommission approvedorsponsored Znterlaboratory Comparison Program,suchastheEPACrosscheck Program.Participation shallbeonlyforthosemedia/e.g.,air,milk,water,etc.,thatareincludedintheNineMilePointEnvironmental Monitoring Programandforwhichcrosschecksamplesareavailable.

AnattemptwillbemadetoobtainaQCsampletoprogramsampleratioof5%orbetter.TheQualityControlsampleresultsshallbereportedintheAnnualRadiological Environmental Operating ReportsothattheCommission staffmayevaluatetheresults.SpecificsamplemediaforwhichEPACrossCheckProgramsamplesareavailable includethefollowing:

grossbetainairparticulate filtersgammaemittersinairparticulate filtersgammaemittersinmilkgammaemittersinwatertritiuminwaterI-131inwater4.3Capabilities forThermoluminescent Dosimeters UsedforEnvironmental Measureaents Requireddetection capabilities forthermoluminescent dosimeters usedforenvironmental measurements requiredbytheTechnical Specifications arebasedonANSIStandardN545,section4.3.TLDsaredefinedas.phosphors packagedforfielduse.Znregardtothedetection capabilities forthermoluminescent dosimeters, onlyonedetermination isrequiredtoevaluatetheabovecapabilities pertypeofTLD.Furthermore, theabovecapabilities maybedetermined bythevendorwhosuppliestheTLDs.Requireddetection capabilities areasfollows.003072LLZI25

4.3.1Uniformity shallbedetermined bygivingTLDsfromthesamebatchanexposureequaltothatresulting fromanexposurerateof10uR/hrduringthefieldcycle.Theresponses obtainedshallhavearelativestandarddeviation oflessthan7.5%.Atotalofatleast5TLDsshallbeevaluated.

4.3.2Repzoducibility shallbedetermined bygivingTLDsrepeatedexposures equaltothatresulting fromanexposurerateof10uR/hrduringthefieldcycle.Theaverageoftherelativestandarddeviations ofthezesponses shallbelessthan3.0%.Atotalofatleast4TLDsshallbeevaluated.

4Dependence ofexposureinterpretation onthelengthofafieldcycleshallbeexaminedbyplacingTLDsforaperiodequaltoatleastafieldcycleandaperiodequaltohalfthesamefieldcycleinanazeawheretheexposurerateisknowntobeconstant.

Thistestshallbeconducted underapproximate averagewintertemperatures andappzoximate averagesummertemperatures.

Forthesetests,theratiooftheresponseobtainedinthefieldcycletotwicethatobtainedforhalfthefieldcycleshallnotbelessthan0.85.Atleast6TLDsshallbeevaluated.

4.3.4Energydependence shallbeevaluated bytheresponseofTLDstophotonsforsevezalenergiesbetweenapproximately 30keVand3MeV.Theresponseshallnotdifferfromthatobtainedwiththecalibration sourcebymorethan25%forphotonswithenergiesgreaterthan80keVandshallnotbeenhancedbymorethanafactoroftwoforphotonswithenergieslessthan80keV.Atotalofatleast8TLDsshallbeevaluated.

4.3.5Thedirectional dependence oftheTLDresponseshallbedetermined bycomparing theresponseoftheTLDexposedintheroutineorientation withrespecttothecalibration sourcewiththeresponseobtainedfordifferent orientations.

Toaccomplish this,theTLDshallberotatedthroughatleasttwoperpendicular planes.Theresponseaveragedoveralldirections shallnotdifferfromtheresponseobtainedinthestandardcalibration positionbymorethan10%.Atotalofatleast4TLDsshallbeevaluated.

4.3.6Lightdependence shallbedetermined byplacingTLDsinthefieldforaperiodequaltothefieldcycleunderthefourconditions foundinANSIN545,section4.3.6.Theresultsobtainedfortheunwrapped TLDsshallnotdifferfromthoseobtainedforthe.TLDswrappedinaluminumfoilbymorethan10%.Atotalofatleast4TLDsshallbeevaluated foreachofthefourconditions.

4'.7Moisturedependence shallbedetermined byplacingTLDs(thatis,thephosphors packagedfozfielduse)foraperiodequaltothefieldcycleinanazeawheretheexposurezateisknowntobeconstant.

TheTLDsshallbeexposedundertwoconditions:

(1)packagedinathin,sealedplasticbag,and(2)packagedinathin,sealedplasticbagwithsufficient watertoyieldobservable moisturethroughout thefieldcycle.TheTLDorphosphor, asappropriate, shallbedriedbeforereadout.TheresponseoftheTLDexposedintheplasticbagcontaining watershallnotdifferfromthatexposedintheregularplasticbagbymorethan10%.Atotalofatleast4TLDsshallbeevaluated foreachcondition.

'.3.8Selfirradiation shallbedetermined byplacingTLDsforaperiodequaltothefieldcycleinanareawheretheexposurerateislessthan10uR/hrandtheexposureduringthefieldcycleisknown.Ifnecessary, corrections shallbeappliedforthedependence ofexposureinterpretation onthelengthofthefieldcycle(ANSIN545,section4.3.3).Theaverageexposureinferredfromtheresponses oftheTLDsshallnotdifferfromtheknownexposurebymorethananexposureequaltothatresulting fromanexposurerateof10uR/hrduringthefieldcycle.Atotalofatleast3TLDsshallbeevaluated.

003072LLII26

TABLE2-1LIQUIDEFFLUENTDETECTORS RESPONSES+

NUCLIDESr89Sr91Sr92Y91Y92Zr95Nb95Mo99Tc99mTe132Ba140Ce144Br84I131I132I133I134I135Cs134Cs136Cs137Cs138Mn54Mn56Fe59Co58Co60CPMCi611X100.78E-041.220.8172.470.2050.8350.850.2320.2321.120.4990.1031~121~012.630.9672'21.171.972.890.7321.450.8421.20.8631.141.65ValuesfromSWECpurchasespecification NMP2-P281F.

003072LLII27

TABLE2-2~VALUES-LIQUID'DULT g~e~mhr-uCiH3Cr513.67E-l1.263.67E-13'3E21.18E-2NUCLIDETBODYGI-TRACTBONELIVER3.67E-11.18E-2KIDNEY3.67E-l2.86E-1THYROIDLUNG3.67E-13.67E-l7.56E-11.66Cu64Mn54Fe55Fe591.282.33E22'38.38E21.34E43.984.38E34.57E22.42E39.04E13.24E27.35E46+18E-51.07E29.28E22.62E28.06E31.81E34.93E36.62E21.03E31~072.01E26.36E2Co58Co60Zn65Sr89Sr90Zr95Mn56Mo99Na24I131I132I133Ni65Cs134Cs136Cs137Ba140Ce141Nb95La140Ce144Tc99mNp239Te132.Zr97Sr92W187Ag110mCal1.16.47E13.32E46.38E24'3E43'7E32.31E42.22E41.36E51.60E45.55E57.59E-l2.83E29.77E-17.88E-13.07E-25.521~73E-11.60E11.95E21.97E-38~42E11.34E21.34E21.34E21.34E22.03E21.16E25.36E11.42E24.34E-31.22E11.14E-25.79ES8.42E43.42E51.37E13-79E-21.31E21.62E-23'3E12.05E-22.33E-33.59E16.35E-11.24E41~33E41.01E44.30E28'1E14.64E-32.30E11.93E-12.98E52.96E43'2E52.09E26.93E-24.38E21.03E-11.24E-23.99E12.50E-27i08E51.17E55.22ES3.04E-15.83E-2244E25'6E-21~48E63+72E39.66E-11.61E-36.15E22.029'4E-015.71E-42.50E-13'2E24.944.42E-11.18835.97E41.95E31.26E35.0~3'9E25.44E-31.10E-31.44J~26.613.34E-l4.31E14.04E41.48E21.23E21.09E13~94E21.14El1~13E1culatedinaccordance withNUREG0133,Section09,Regulatory positionC,Sectionl.6.891.31E33.983.987.53E-12.55E27.53E-16.76E21.071.071~076.47E14.92E46.18E-56.47El6.47E12.212.216.18E-S6.18E-58.39E-12.20E-11.91E21.34E23.48E21.98E-26.97E16.99E-16.99E-11.97E-31.97E-31.34E21.34E26.65E42'7E-24.34E-15.87E32.29E56.51E4l.77E5l.31E-14.60E-22.41E22.83E-36'7E-12.45E-22.04E17.61E43.28E-18.92E33.10El5.89E44.17E-21.92E-13.53E-23.53E-23.56E-13.56E-12.83E-32.83E-32'6E-12.06E-17.90E-41.22E41.66E-31.39E32.66E-37.11E-67.11E-64.43E-51.22El4.3.1~and4.43E-54.43E-51.04E11.04E1Regulatory Guide8.82E-015.95E-47'2E2003072LL28

TABLE2-3~VALUES-LI{}UID'EEN

~mrm-mlhr-uCiNUCLIDEH3Cr51Cu64Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Mn56Mo99Na24I131I132I133Ni65Cs134Cs136Cs137Ba140Ce141Nb95La140CQ144Tc99mNp239Te132Zr97Sr922.73E-11.351.358'5E21.15E29.59E22.10E29.44E23'0E46'2E21.14ES3.963.22E-21~71E11.38E21.14E24.56E-31.28E11.21E-23.33E57.87E41.90ES1.44E12.00E-11.17E22.97E-21.252.11E-24.63E-31.23B35~688M4.28K-22.73E-12m16E22.23E28.84E32.13E25.85E31.23E33m73E33.08E42.88E31.30E42.10E21.19E11.60E21.38E24.21E15.54E-33.17E11.449.05E39.44E37.91E33.40E26.85E11~05E63.01E34.83E21.073.78E24.13E43.11E22.02E16.56E-22.22E16.93E21.06E35.983.61E22.10E42.42E44.62ES4.191.10E-21.38E21.52E24.86E-32.47E12+08E-13.05E52.98E44.09ES2'1E22.33E-14.43E2122E-13.07Sm84E-42.82E-22.06E35.84E-31~07TBODYGI-TRACTBONELIVER2.73E-16.56E-22'74.32E34.91E22.48E39.47E16.20E27.28E43.45E-4KIDNEY2.73E-13.47E-l7.271.31E34.205.984.205.983.61E2'.61E23.11E27.84E25.983.61E2466E43.45E-41.24E11.24El3.45E-43.994.033.903.901~81E-18.95E12.29E-l2-OSE21~10E-2l.10E-21~38E21.38E21.38E21.38E22.12E21.27E-24.19E12.66E-27'8ES1~17ES5.44E52.60E-12.21E-l2.47E26.82E-23.66E22.00E-27.35E12.28ES6.38E4'.85E53m25E-12.08E-12.39E21.58E-26.19E44.29E-15.85E31.55E-11.14E28.72E41.831.73E21.01E47.21E42.33E-14.15E-11.97E-11.97E-11.991.99lm58E-21.58E-21.941.621.151.151.63E-35'7E-31,30E31.19E-32'3E-21.07E-21.25E41.78E-39.04E-43.32E-33.32E-31.37E31.48E-23.97E-S3'7E-STHYROIDLUNG2.73E-12.73E-17.79E-11.902.22E12.22E1W1874~SSE13'2E41~59E2Ag110m5.85E13,17E25.89E1'alculated inaccordance withNUREG0133,Regulatory positionC,Sectionl.1.30E25.88E12.47E-45'7E1Section4.3.1gand2.47E-45.79E1Regulatory 5.79E1Guide1.109,003072LL29

TABLE2-4AVALUES-LIQUIDCHILDmrem-mlhr-uCiNUCLIDEH3Cr51Cu64Mn54Fe55Fe59Co58Co60Zn65Sr89TBODYGI-TRACTBONE3.34E-13.34E-11.39'.29E11.37E-21.601.25E29.02E22.83E34.651.50E2899E19.15E2104E32.18E31.29E32.21E24.20E27.03E21.25E33.56E41.01E41.257.55E12.15E49.13E21.24E33.20E4LIVER3.34E-11.37E-22.653.37E34.85E22.09E37.30E12.88E25.73E4KIDNEY334E-12'2E-16.419.49E28.78E-11.257.55E13.61E44.654'52.74E28.78E-16.08E21.251.257.55E17.55E12.582.58THYROIDLUNG3.34E-13.34E-17.76E-11~41Sr901.06E55.62E34~17E5Zr95Mn56Mo99Na24I131I132I133Ni65Cs134Cs136Cs137Ba140Ce141Nb95La140Ce144Tc99mNp239Te132Zr97Sr928.95E-19.36E11.223.73E-22.22E12.39E17.42E11.51E21.51E22.30E-31.51E21.14E21.80E12.00E25.08E-31.30E-26.01E-31.51El1.60E13.22E+11.46E-21.27E56.26E47.28E43'73.28E33.40E33.12E32.66E-13.68ES3.52E45.15E51.87E11.62E23.19E24.61E-24.14E11.08E-11.45E23.75ES5.21E21.93E-21.33E31.39E-14.31E-12.92E23.812.29E-27.87E-12.40E-31.38E31.79E21.15E46.99E41.77E27.05E-43.44E-22.57E38.11E-31.8SE28.734.61E-19.04E-11.65E-18.98E11.51E22.01E21.10E-23.98El2'1E-26.04E59.67E44.93E53.28E-17.43E-22.03E25.09E-21.36138E-33.12E-31.14E31.18E-39.43E-12.OOE-11.92E21.51E23.31E21.69E-26.64E11.87E55.15E41~61ES1.40E-15.57E-21.91E23.30E-38.61E-12.01E-27.70E-31~06E41.69E-38.15E-18.15E-12.30E-32.30E-31.51E26.66E45.13E-1.7.40E31.51E23.23E-21.66E33.10E-38.29E-68.29E-62.38E16.72E43.82E-17.68E33.62E15.78E44.87E-22.15E-14.12E-24.12E-2416E-14.16E-13.30E-33.30E-3240E-1240E-17'2E-46.94E-46.94E-4W1875~37E11.68E42.02E2Ag110m1.29E11.24E21.35E1'alculated inaccordance withNUREG0133,Regulatory positionC,Sectionl.1.20E21.30E15.16E-51.39E15.16E-S1.21E15.16E-51.21E1Section4.3.liandRegulatory Guide1.109,003072LLII30

TABLE2-5~VALUES-LI{}UID'NFANT prem-mlhr<<uCiNUCLIDEH3Cr51CQ64Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Mn56Mo99Na24I131I132I133TBODYGI-TRACTBONE1.87E-11.87E-18~21E-32.39E-11.96E-28.70E-12'34.421.456.91E-18.421.25E11.52E15.365.361.55E11.56E11.76E13.22E14.27E13.06E12.86E31.40E21.82E11.11E11.49E31.12E49e61E-19.61E-19.61E-l9'87.94E-11.89E13.43E-67.80E-64.75E-68.26E-14.77E-11.942e12E-21.49E11.23E-11.81E-69.56E-42.654.48LIVER1.87E-14.24E-21~20E15'43.18E1F156.553.81E12.99E-21.05E-51.36E19.61E-l2.22E19.63E-62.82KIDNEY1.87E-11.17E-37~17E-22.671.85E13.23E-29.05E-62'3E19'1E-12.60E11.07E-S3.31THYROIDLUNG1.87E-11.87E-15.36E-31.04E-22.669419.61E-19.61E-17'1E34.52E-45.13E2Ni65Cs134Cs136Cs137Ba140Ce141Nb952.96E-64.96E-44.30E11.162'1E11.142.63El1.164.882.33El3.31E-31.45E15.87E-38.575.75E-52'8E22'6E13.17E29.48E14.61E-22.47E-2La1406.52E-42.98E16.43E-3Ce1441.01E-11.03E21.80Tc99m3.17E-49.37E-31~19E-5Np239Te132Zr97Sr92W1872.08E-44.081~385-41.56L451~06E11.62El192E14.54E-34~13E-27~024.12E-38.831.76E-34.21E-41.72E-lAg110m2~91E-12~28E16.02E-1'alculated inaccordance withNUREG0133,Regulatory positionC,Sectionl.6.51E-64.26E27.53E13.71E29.48E-22.81E-21.02E-22.53E-37'7E-12.46E-S3.68E-44.373.02E-41.10E23.00E19.95E12.25E-28.67E-37.28E-32.98E-12.64E-47.34E-42.74E13.04E-46.464.50E16.134.03E15.82E-21.28E-S1.19E-14.39E-16.28E-1Section4.3.1gandRegulatory Guide1.109,003072LL31

TABLE3-1OFFGASPRETREATMENT*

DETECTORRESPONSENUCLIDEKr85Kr85mKr87Kr88Xe133Xe133mXe135Xe135mXe137Xe138NETCPMCicc4.30E+34.80E+38.00E+37.60E+31.75E+35.10E+38.10E+37.10E+3*ValuesfromSWECpurchasespecification NMP2-P281F 003072LLII32

TABLE3-2PLUMESHINEPARAMETERS'UCLIDE Kr83mKr85Kr85mKr87Kr88Kr89Kr90Xe131mXe133Xe133mXe135Xe135mXe137Xe138Xe-127Ar41~BmaaduCi/sec9.01E-76.92E-75.09E-42'2E-37.23E-31.15E-26.57E-37.76E-67.46E-54.79E-S7.82E-41.45E-36.25E-44'6E-31.96E-35'OE-3V.mremruCi/sec4~91E-42.57E-37.04E-31.13E-24.49E-36.42E-53.95E-57.44E-41.37E-35.98E-44.26E-31.31E-34.79E-3',andV,arecalculated forcriticalsiteboundarylocationg 1.6kmintheeasterlydirection.

SeeAppendixB.Thosevaluesthatshowadottedlinewerenegligible becauseofhighenergyabsorption coefficients.

003072LLII33

TABLE3-3IMMERSION DOSEFACTORS'cl deKr83mKr85mKr85Kr87Kr88Kr89Kr90Xe131mXe133mXe133Xe135mXe135Xe137Xe138Ar41gJy-B~od7.56E-02l.17E31.61E1592E3l.47E4l.66E4156E49.15E12.51E22.94E2312E31.81E31.42E38.83E38.84E3Lakin1.46E31.34E39.73E32.37E31.01E47.29E34.76E29.94E23.06E27.11E21.86E31.22E44.13E32.69E31.93E11.23E31.72E16.17E31.52E41.73E41.63E4l.56E23.27E23.53E23.36E31.92E31.51E39.21E39.30E3gQl-Ai~r'.88E2 1.97E31.95E31.03E42.93E31.06E47.83E31.11E31.48E31.05E37.39E22.46E31.27E44.75E33.28E3'From,TableB-l.Regulatory Guide1.109Rev.1'mrem/yrperuCi/m'.'mrad/yrperuCi/m'.003072LLII34

TABLE3-4DOSEANDDOSERATEVALUES-INHALATION

-INFANT'rem rUci/mH3+C14+Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I-131I133Cs134Cs137Ba140La140Ce141Ce144Nd1472.65E41.97E41.36E41.93E43.98ES4.09E71.15ES1.57E43.79E41~32E43.96ES5.49E55.60E45.05E22.77E43.19E67.94E3~UCLDE~BOLII~L,6.47E25.31E32.53E41.17E42.35E41.22E38.02E36.26E42.79E46.43E31.65E24.44E41.92E47.03ES6.12ES5.60E12.00E21.67E41.21E6813E3BODY6.47E25.31E38.95E14.98E33.33E39.48E31.82E31.18E43.11E41.14E42.59E62.03E43.78E33'3E11.96E45.60E37.45E44.55E42.90E35.15E11.99E31~76ESS.OOE2THYROID6.47E25.31E35.75E11.48E73.56E6IDEY6.47E25.31E31~32E14'8E33.25E43.11E44.72E32.65E25.18E42'4E41.90ES1.72ES1.34E15.25E35.38E53.15E3LUNG6.47E25.31E3GI-LLI6.47E25.31E31.28E43.57E21.00E67.06E38.69E41.09E31.02E62.48E47.77E51.11E46.47ES5.14E42.03E66.40E41.12E71.31ES1.75E62.17E44.79E51.35ES7.97E47.13E41.27E44.87E41.06E32.16E31.33E31.33E31.60E63.84E41.68ES5.17ES9.84E63.22ES8.48E42.16E41.48ES3.12E44.51E63.19E4*mrem/yrperpCi/m~'Thisandfollowing QTablesCalculated inaccordance withNUREG0133,Section5.3.1,exceptC14valuesinaccordance withRegulatory Guide1.109EquationC-B.003072LLII35

TABLE3-5DOSEANDDOSERATEgVALUES-INHALATZON-mremruCi/mCHILDCLIDEH3*C14*Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140LR140Ce141Ce144Nd147BONE3.59E44.74E42.07E44.26E45.99E51.01E81.90ES2.35E44.81E41.66E46.51ES9.07ES7.40E46.44E23.92E46.77E61.08E4LIVER1.12E36.73E34.29E42.52E43.34E41.77E31.31E41.13ES4.18E49.18E31.72E24'1E42.03E41.01E68.25E56.48E12.25E21.95E42.12E68.73E3T.BODY1.12E36.73E31.54E29.51E3777E31.67E43.16E32.26E47.03E41.72E46.44E63.70E46'5E34'6E12.73E47.70E32.25E51.28E54.33E37.55E12.90E33.61ES6.81E21.12E36.73E38.55E11.12E36.73E32.43E11.00E47.14E41.62E73.85E65.96E48.62E33.92E27.88E43.38E43.30ES2.82ES2.11E18.55E31.17E64.81E3THYROIDKIDNEYLUNG1.12E36.73E31.70E4GI-LLI1.12E36.73E31.08E31.58E62.29E41.11ES2.87E31.27E67.07E41.11E63.44E47.07E69.62E49.95E51.63E41~48E73.43ES2.23E66.11E46.14ES3.70E41.35ES1.21ES1.04ES1.27ES2.84E35.48E33.85E33.62E31.74E61.02ES1.83E55.44E51.20E73.28E52.26ES5.66E43.89ES8~21E42.16E6,lo67ESmrem/yrperpci/m'03072LL ZZ36

TABLE3-6DOSEANDDOSERATEgVALUES-INHALATION-mremuci/mTEENC14*Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd1472.60E43.34E41.59E43'6E44.34ES1.08E81.46ES1.86E43.54E41.22E45.02E56.70E55.47E44.79E22.84E44.89E67-86E3QUCI~IE~OH3*IVER1.27E34.87E35.11E42.38E43.70E42.07E31.51E41.34ES4.58E41.03E41.69E2491E42.05E41.13E68.48E56.70E12.36E21.90E42'2E68.56E31.27E34.87E31.35E28.40E35.54E31.43E42.78E31.98E46.24E41.25E46.68E63.15E45.66E33.22E12.64E46.22E35.49ES3.11E53.52E36.26E12.17E32.62E55.13E21.27E34.87E37.50E11.46E72.92E61.27E34.87E33.07E11.27E48.64E46.74E41.00E44~11E28.40E43.59E43.75ES3.04ES2.28E18.88E31.21E65.02E3T.BODY~TROIDKIDNEYLUNG1.27E34.87E3GI-LLI1.27E34.87E32.10E43.00E3198E66.68E41.24ES1.53E61.34E66.39E31.78ES9.52E48.72E62.59ES1.24E64.66E42.42E63.71ES1.65E77.65E5214ES6.14ES1.34E7372E54.87ES1.26ES8.64E51.82ES2.69E61.49ES7.51E59.68E41.54E52.69ES6.49E31.03E41.46E59.76E31.21ES8.48E32.03E62.29ES*mrem/yrperpci/m'03072LL II37

TABLE3-7DOSEANDDOSERATER)VALUES-INHALATION mremruci/mADULTCr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I1312.46E43.96E41.70E41.18E42.78E41.58E31.15E41.03ES3.24E43.04ES9.92E71.07ES1.41E43.44E47.82E31.21E22.52E43.58E4I133Cs134Cs137Ba=140La140Ce141Ce144Nd1478.64E33.73ES4.78ES3.90E43'4E2199E43.43E65.27E31.48E48.48ES6.21ES4.90E11.74E21.35E41.43E66.10E3NUCLIDEBOYLIVERH3*1.26E3C14*1.82E43.41E3T.BODY1.26E33.41E31.00E26.30E33.94E31.06E42.07E31.48E44.66E48.72E36.10E62.33E44'1E32.30E12.05E44.52E37.28ES4.28ES2.57E34.58E1l.53E31.84E53.65E21.26E33.41E35.95E1l.26E33.41E32.28E19-84E36.90E41.19E72.15E65.42E47.74E32-91E26.13E42.58E42.87ES2.22E51~67E16.26E38.48ES3.56E3THYROIDKIDNEYLUNG1~26E3GI-LLI1~26E33.41E33.41E31.44E41~40E67.21E41.02E69.28ES3-32E37.74E46.03E31.88ES1.06ES5.97E62.85E58.64ES1.40E69.60E61.77E65.05ES9.12E49.76E45.34E43.50E57.22E51.50ES1.04ES2.48ES6'8E38.88E31.04E41.36E53.62E57.78E62.21ES4.58ES1.20ES8.16E51.73E57.52E48.40E31~27E62.18E5*mrem/yrperpci/m'03072LL II38

NUCLIDEH3C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147TABLE3-8DOSEANDDOSERATER;VALUES-GROUNDPLANEALLAGEGROUPSm'~mremruci/secTOTAL'ODY 4.65E61.40E92.73E83.80EB2.15E107.46EB2.16E42.45EB1.36EB3.99E61.72E72.39E66.83E91.03E102'5E71.92E71.37E76.96E78.46E6~SKI5.50E61.64E93.20E84.45EB2.53E108.57E82.51E42.85EB1.61EB4.63E62.09E72.91E67.97E91.20E102.35E72.18E71.54E78.07E71.01E7003072LLII39

TABLE3-9DOSEANDDOSERATER;VALUES-COWMILK-INFANTm'~mremruCJ./secNUCLIDEBONELIVERT.BODYTHYROIDKIDNEYLUNGGI-LLIC14Cr513.23E66.89ESMn542.51E7Fe558.43E75.44E7Fe59Co58Co60Zn65Sr891~22EB2.13EB3.53E96.93E91.39E75.90E71.21E10Sr908.19E109.39E21.64ES1.04EB8'2EB1.24E73.85E34.21ESZr95Nb95Mo99I131I133Cs134Cs137Ba140Nd1476.81EB8.52E62.41E104.49E103.47E104.06E101.21EB1.21ES7.991.39E46.10ES4.55E2La1402.03E1Ce1412.28E4Ce1441.49E64.43E2H32.38E32.38E36.89E58.35E45.68E61.45E78.38E73.46E71.39EBS.SBE91.99EB2.09E106.66E21~17ES2.03E73.53EB3.63E64.54E92.88E96.22E62.061.64E38.34E42.79E12.38E36.89ES5.45E42.64E112'6E92.38E36.89ES1.19E45.56E62.38E32.38E36.89E56.89E51.06ES2.43E69e21E66.91E61.02EB3.46E71.40EB1.02E101.42EB1.02E94.68ES3.03EB3.43E72.86E72.10E61.22EB1.27EB2.97E79.39E47.18E68.54E72.89ES2.66E76.29E75.87E91.01E31.54ES1.55EB9.37EB1.46E72.87E47.42E44.28E32.46ES1.76E21.16E104.74E91.09E104.41E9mrem/yrperuci/mi.003072LLII40

RrTABLE3-10DOSEANDDOSERATEVALUES-CONMILK-CHILDm~mremuCi/secNUCLIDE~BONH3C141.65E6~LIVE1.57E33.29ESCr51Mn54Fe55Fe59Co58Co60Zn65Br89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd1476.97E76.52E72.63E93.64E97.53E102.17E31.86E53.26ES4.04E61.50E101.35E73.07E71.06EB6.94E62.89E77.00E94.77E2'.03E4 4.07E73.28ES4.99E62.45E105.87E79.701.15E45.14E43.395.73E31.04E63.26ES2.24E21.81E22.17E102.08E10T.BODY1.57E33.29E55.27E43.59E61.15E75.26E72.13E78.52E74.35E91.04EB1.91E104.25E25.69E41.01E71.86EB1.89E65.18E93.07E93.43E61.148.51E2S.SSE41.40E1THYROID1.57E33.29ES2.93E41.08E119'7ESKIDNEY1.57E33.29E57.99E33.78E64.41E96.83E21.00ES8.69E75.39ES8.32E67.61E96.78E91.67E42.51E31.80ES9.94E1LUNG1.57E33.29ESGI-LLI1.57E33.29ES2.09E73.06E72.73E92.44E93'7E4'.13E7 6.85E61.10EB4.05E71.60EB1.23E91.41EB1.01E94.98ES4.42ES3.37E72.92E72.01E61.32EB1.30EB2.97E79.45E47.15E68.49E72.87ES5.34E42.80E6mrem/yrperuCi/rrP.003072LLII41

C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd1476.70ES2.78E72~81E71.34E91.47E94.45E109.34E21.86ES1.34E81.66E66.49E99.02E92.43E7F054.67E34.22ES9.12E1NUCLIDE~BONH3~LIVE9.94E21.34ES9.01E61.97E76.57E74.55E61.86E74.65E92.95E21.03E52.24E71.88E82.82E61.53E101.20E10,2.98E41.993.12E31.74ES9.91E19.94E21.34E52'8E41.,79E64.59E62'4E71.05E74.19E72.17E94.21E71.10E102'3E25.69E44.27E61.01E88'9E57.08E94.18E91.57E65.30E-13.58E22.27E45.94EO9.94E21.34ES1.44E45.49E103.93E89.94E21.34ES5.66E32.69E62.97E94.33E21.00E55.12E73'4E84.94E64.85E94.08E91.01E41.47E31.04E55.82E1TABLE3-11DOSEANDDOSERATER(VALUES-COWMILK-TEENm'mremlrr uCi/secT.BODYTHYROIDKIDNEYLUNG9.94E21.35E53'9E4GI-LLI9.94E21.34E54.34E61.85E72.07E71.85E91.59E92.00E41~SSEB6.27E72'2E81.97E91.75EB1~25E9680ES4.42E84.01E73.72E72~13E61.90EB1~71E83.75E71.14ES8.91E61.06E83.58ES1.25E78.52E6mrem/yrperuci/mi.003072LLII42

TABLE3-12DOSEANDDOSERATER;VALUES-COWMILK-ADULTm~~mremCuC1/secEDCLIDEH3C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd1473.63E51.57E71.61E78.71E87.99E83.15E105.34E21.09ES7.41E79.09E53.74E94.97E91.35E72.262.54E32.29ES4.74ElIVER7.63E27.26E45.41E61.08E73.79E72.70E61.10E72.77E91~71E26.07E41.24E71.06EB1.58E68.89E96.80E91.69E4l.141.72E39.58E45.48E17.63E27.26E41.48E41.03E62.52E61.45E76.05E62.42E71.25E92.29E77.74E91.16E23.27E42.36E66.08E74.82ES7.27E94.46E98-83E53.01E-11.95E21.23E43.28EO7.63E27.26E48.85E33.47E102.32EBT.BODYTHYROIDIDNE7.63E27.26E43.26E31.61E61E85E92.69E26.00E42.81E71.82E82.76E62.88E92.31E95'5E37.99E25.68E43.20E1LUNG7.63E27.26E41.96E4GI-LLI7.63E27.26E43.72E6l.66E7604E6621E61.06E79.55EB1~26E85.47E72.06EB1.75E91.28EB9-11E85'3ES3.69E82.87E72.80E71.42E61.56E8768E8132EB9.69E32.77E78.35E46.58E67.74E72.63E5mrem/yrperuci/m'.003072LLII43

TABLE3-13DOSEANDDOSERATEVALUES-GOATMILK-INFANTm~mremuci/secZn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd1474.24E81.48E101.72E114.66E29.42E48.17EB1.02E77.23E101.04E111.45E72.4302.74E31.79ES5.32E1NUCLIDEBONEH3C143.23E6Cr51Mn54Fe551.10E6Fe591.59E6Co58Co60LIVER6.33E36.89ES3.01E67.08ES2.78E61.67E67.08E61.45E91.13E23.88E41.27E79.63E81.49E71.35E111.22Ell1.45E49.59E-11.67E37.32E45.47E1T.BODY6.33E36.89ES1.00E46.82ES1.89E51.09E64.16E61.67E76.70E84.24EB4.38E108.04E12.24E42.47E64.23E84.36E61.36E108.63E97.48ES2.47E-l1.96E21.00E43'5EOTHYROIDKIDNEY6.33E36.89ES6.56E36.33E36.89ESl.43E36.67ESLUNG6.33E36.89ES1.28E4GI-LLI6.33E36.89E52.93E51~llE63.46ES8.98E43.16Ell2.71E97.04EB1.22E22.78E41.89E71~12E91.75E78.21ES1.33E64.16E61.68E71.23E93.04E82.15E95.65E43'7E74.17E63.44E72.52E63.27E103.44E35.14E22'6E42'1E11.32E103.81E88.91E33.56E61.13E48.62ES1.03E73.46E43;47E101.42E103.66EBmrem/yrperuCi/m'.003072LLII44

Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs1343.15EB7.77E91.58E112.62E25.05E43.91EB4.84E64.49E10LIVER4.17E33.29ES1.62E64.81ES1.38E68.35E53.47E68.40EB5.76E11.96E44.95E63.94EB5.99E67.37E10Cs137Ba140La140Ce141Ce144Nd1476.52E106.24E107.05E61.161.38E31.25E52.68E16.18E34.07E-16.88E23'1E42.17E1rNUCLIDEBONEH3'141~65E6Cr51Mn54'e559.06ESFe598.52ESCo58T.BODY4.17E33.29E56'4E34.31ES1~49ES6.86E52.56E61.02E75.23EB2.22EB4.01E105.13E11.40E41.22E62.24EB2.27E61~55E109.21E94.12ES1.37E-11.02E26.66E31.68EOTHYROID4.17E33.29E53.52E31.30E111.11E9KIDNEY4.17E33.29E59.62E24.54ESLUNG4.17E3GI-LLI4.17E33.29ES3.29ES6.43E33.36E51.36E62.72ES8.91E45.29EB3.99ES1.43E64.87E61.92E71.48EB3.01EB2.13E98.25E11.85E41~06E76.46EB9.98E62'8E108.19E97.32E93.68E32.03E102.01E33.02E22.16E4.1~19E16.01E43.63E74.09E63.50E72.41E63.97EB3.91EB3.57E61.13E48.59E51.02E73.44E4TABLE3-14DOSEANDDOSERATEVALUES-GOATMILK-CHILDm'-mre~/rr uCi/secmrem/yrperuci/m'.003072LLII45

TABLE3-15DOSEANDDOSERATERIVALUES-GOATMILKm'-mrem/rrr uCi/secTEENNUCLIDEH3C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE6.70E5LIVER2.64E31'.34E53.61ES3.67E51.61E83.14E99.36E101.13E22.23E41.61E81.99E61.08E62.56E58.57E55.46E52.23E65.58E83.56E11.24E42.72E62'6E83.38E62.92E64.86E-15.60E25.06E41.09E13.58E32.39E-13.74E22.09E41.19E11.95E104.58E102.71E103.60E10T.BODY2.64E31.34E53.11E32~15ES5.97E43'1E51.26E65.03E62.60EB8.99E72.31E102'5E16.82E35.19ES1.21E81.03E62.13E101.25E101.88ES6.36E-24.30E12.72E37.13E-1TYROID2.64E31.34ES1.73E3FKIDNEY2.64E31.34ES6.82E23.23ES3.57E84.72E85.93E61.46E101.23E101.21E31.76E21.25E46.99EO5.23E11.20E46.23E66.59E10'.89E8LUNGGI-LLI1.35ES4.44E31.62ES2'0ES5.56E94.76E92.41E31.34ES5.23E52.22E61.11E52.03E67.53E62.91E72.36EB3.74E82.63E98.22E45.30E74.87E64.47E72.56E65.70EB5.12E84.50E61.37E41~07E61.27E74.29E42.64E32.64E3mrem/yrperuci/m'.003072LLII46

TABLE3-16DOSEANDDOSERATERIVALUES-GOATMILK-ADULTm'-mrem/rr uci/secFe59Co58Co60Zn652.10E54.95E51.05EB3.25E51.32E63.33EBSr891.70E9Sr906.62E10Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd1476.45El1.31E48.89E71.09E62.07E17.29E31.51E61.27EB1.90E61~12E102'7E101.49E102.04E101.62E62.71E-l3.06E22.75E45.69EO2.03E3l.36E-12.07E21.15E46.57EONUCLIDE~BONLIVERH32.03E3C143.63ES7.26E4Cr51Mn546.50ESFe552.04E51.41E5T.BODY2.03E37.26E41~78E31.24E53.28E41.90ES7.27ES2.91E61.51EB4.89E71.63E101.40E13.92E32.87ES7.29E75.79ES2.18E101.34E101.06ES3.61E-22~34E11.48E33.93E-1THYROID2.03E37.26E41.06E3KIDNEY2.03E3.7.26E43.92E21.93ES2.23EB2'9EB3.31E68.63E96.93E96.91E29.60E16.82E33.84EO3.25E17.21E33.41E64.17E102.18ESLUNG2.'03E37.26E42'6E3GI-LLI2.03E37.26E44.48ES1.99E67.85E48.07E41.38ES1.65E66.58E62.48E72.10EB2.73ES1.91E96.56E44.42E73.49E63.36E71.71E6l.16E33.33E61.00E47.90ES9.30E63.15E42.86E94.67EB2.30E93.95EBmrem/yrperuci/m'.003072LLII47

TABLE3-17DOSEANDDOSERATER)VALUESCOWMEATCHILDm'~NremruCi/secC14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd1475.29E52.89EB2.04EB2.38EB2.65E87.01E91~51E64.10E64.15E69.38E-26.09E88.99E82.20E72.80E-21~17E41.48E65.93E3NUCLIDEEBONH3LIVER2.34E21.06ES5.15E61.53E83.30EB9.41E64.64E76.35EB3.32ES1.59E65.42E44.18E61~16E-11OOE98.60E81.93E49.78E-35.82E34.65E54.80E3T.BODY2.34E21.06E54.55E31.37E64.74E71.65EB2.88E71.37EB3.95EB7.57E61.78E92.95E5l.14E61.34E42.37E64.39E-22.11E81.27EB1.28E63.30E-38.64E27'1E43.72E22.34E21.06ES2.52E32.34E21-06E56.90E21.44E64'OEB1.38E92.15E14.75E51.50E61.16ES6.86E61.93E-13.10E82.80E86.27E32.55E32.57ES2.64E3THYROIDKIDNEYLUNGGI-LLI2.34E22.34E21.06ES1.06E59.58E73.44E85.49E72.57E81.12EB1.03E79.,44E73.46EB2.95E94.48E43.72ES4.67E-21.11E85.39E61.01EB5.39E61.15E41.11E72.73E27'6E61.21EB7~61E64.61E3.2.41ES4.32E68.66E72.84E7mrem/yrperuci/m3.003072LLII48

gUCL~D~BOH3C142.81ESCr51Mn54Fe551.50EBFe59Co581.15EBCo60Zn651.59EBSr89Sr90Zr95Nb95Mo99I131I133Cs-134Cs137Ba1401.40EB5.42E98.50ES2.37E62.24E65.05E-23.46EB4.88EB1.19E7Nd1473.16E3La1401.53E-2Ce1416.19E3Ce1447.87ESLIVER1.94E25.62E44.50E61.07EB2.69EB8.05E63'0E75.52EB2.68E51.32E63.90E43.13E68.57E-28.13EB6.49EB1.46E47.51E-34.14E33.26E53.44E3T.BODY1.94E25.62E42.93E38.93ES2.49E71.04EB1.86E78.80E72.57EB4.01E61.34E91.84E57.24ES7.43E31.68E62.61E-23.77EB2.26EB7.68ES2.00E-34.75E24'3E42-06E2TYROID1.94E25.62E41~62E39.15EB1.20E1IDNEY1.94E25'2E46.39E21.34E63.53EB3.94E51.28E68.92E45.40E61.50E-12.58EB2~21EB4.95E31.95E31~94E52.02E3TABLE3-18DOSEANDDOSERATER;VALUES-COWMEAT-TEENm'~meemuCi/sec~LUGG-LLI1.94E25.62E41.94E25.62E44.16E34.90ES6.77E78.47E79.87E79.24E64.62E76.36EB1.11EB5.09EB2.34EB1.67E71.52EB6.19EB5.63E96.98E46.20ES6.48E-21.01E79.81E31.84E74'1E21.18E71.98EB1.24E78.58E79.24E6mrem/yrperuci/m'.003072LLII49

TABLE3-19DOSEANDDOSERATERiVALUES-COWMEAT-ADULTm'-modem/rr uCi/secC14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd1473.33E51.85E81.44E82.26E81.66E88.38E91.06E63.04E62.69E66.04E-24.35ES5.88ES1.44E71.86E-27.38E39.33ES3.59E3NUCLIDEBONEH3LIVER3.25E26.66E45.90E61.28ES3.39ES1.04E75'3E77.19E83.40ES1~69E64.71E43.85E61.05E-11.03E98.04ES1.81E49.37E-34.99E33.90ES4.15E3T.BODY3.25E26.66E43.65E31.13E62.98E71.30ES2.34E71.11E83.25E84.76E62.06E92.30ES9.08E58.97E32.21E63.20E-28.45ES5.26E89.44ES2.48E-35.66E25.01E42.48E2THYROID3.25E26.66E42.18E31.26E91.54E1KIDNEY3.25E26.66E48.03E21.76E64.81E85.34ES1.67E61.07ES6.61E61.83E-13.35ES2'3E86.15E32.32E32.31ES2.42E3LUNG3.25E26.66E44.84E37.14E79.46E71.11ES9.07E7GI-LLI3.25E26.66E49.17E51.81E77.34E71.13E92~12E89.45E84.53E82.66E72.42ES1-OSE91'3E101.09E51.02E69.44E-21~81E71.56E7104E4297E76.88E21'1E73.16E81.99E7mrem/yrperuci/m'.003072LLII50

R;TABLE3-20DOSEANDDOSERATEVALUES-VEGETATION m'~masmruci/secCHILDNUCLIDEBONEH3C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr903.50E67.63E83.97EB8'2E83.59E101~24E12LIVER4.01E37.01ES6.65E84.05E86.42EB6.45E73.78EB2~16E9Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd1473.86E6,8.50ES1.02E67.16E71~69E63.99ES7.70E67.20E72.09E62.77E83.25E36.56ES1.27E87.23E42.43E51.13E33'7ES3.98E75.86E41.60E102.63E102.39E102.29E10T.BODY4.01E37.01ES1.17ESl.77E81.25E83.20EB1.97E81.12E91.35E91.03E93.15E117.56ES2.85ES1.91E64'9E77.92ES5.55E93.38E91.62E73.83E24.85E46'8E64.54E34.01E37.01E56.49E44.01E37'1E51.77E41.86E81.36E92.38E103.89EB1.22E63.75ES1.65E71.18E83.49E68.15E97.46E97.90E41.43ES2.21E73'2E4THYROIDKIDNEYLUNG4.01E37.01ES1.18ESGI-LLI4.01E37.01E56.20E65.58E82.68E91.45E51.43EB1.40E83.16E74.08EB1.04E109.28E72.29E87.50E71.86EB6.69EB3.76EB2.10E93.80E81.39E91.67E108.86E87.37EB6.37E66.41E68.44ES2.93E91.42E8mrem/yrperuci/m~.003072LLII51

R;TABLE3-21DOSEANDDOSERATEVALUES-VEGETATION m'~modemruci/secTEENC14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd1471.45E6310E81.79E84.24EB1.51E107.51E111.72E64.80ES3'5E79.29ES7.10E91.01E101.38E81.81E32.83ES5.27E73.66E4NUCLIDE.BONDH3LIVER2.59E32.91ES4.54EB2.20E84.18EB4.37E72.49E81.47E95.44E52.66E55.64E65.39E71.58E61.67E101.35E101.69ES8.88E21.89ES2.18E73.98E4T.BODY2.59E32.91ES6.16E49.01E75.13E71.61EB1.01E85.60EB6.86E84.33EB1.85E113.74ES1.46ES1.08E62.89E74.80E57.75E94'9E98.91E62.36E22.17E42.83E62.38632.59E32'1E53.42E42.59E32.91ES1.35E41.36EB9.41E87.99ES2.58ES1.29E71.57E109.28E72.20EB2'6E65.31E94.59E95.74E48.89E41.30E72.34E4THYROIDKIDNEYLUNGGI-LLI2.91ES8.79E42.91E51.03E79.32EB1.40E89'3E71.32E82.03E91.78E91'4ES9.89E86.02E83.24E96.23EB1.80E92.11E101.26E91~14E91.01E71.07E71.19E62.08EB1.92EB2.13E85'0E75.40E81.33E101~44EB2.59E32.59E3mrem/yrperuCi/m~003072LLII52

TABLE3-22DOSEANDDOSERATEVALUES-VEGETATION m'-modem/rr uci/secADULTZn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134CB137Ba140La140Ce141Ce144'Nd1473.17EB9.96E96'SE111.18E63.55ES4.04E71.00E64.67E96.36E91.29EB1.98E31.97ES3.29E73.36E4~NDDLID~NONH3C148.97E5Cr51Mn54Fe552.00EBFe591.26EBCo58Co60LIVER2.26E31.79E53.13EB1.38EB2.96EB3.08E71.67EB1;01E93.77E51.98ES6.14E65.78E71.74E61.11E108.70E91.61E59.97E21.33E51.38E73.88E4T.BODY2.26E31.79E54.64E45.97E73.22E71.13EB6.90E73.69EB4.56EB2.86EB1.48E112.55ES1.06E51.17E63.31E75.30E59.08E95.70E98.42E62.63E21.51E41.77E62.32E3THYROIDKIDNEYLUNGGI-LLI2.26E31.79ES2.77E41.79ES1.02E49.31E71.79ES6.15E4179E51.17E79.58EB7.91E71.02E96.24EB3.14E96'6EB1.60E91.75E101.20E91.20E91.42E71.53E71.56E61.94EB7.69E78.27E76.75EB5.92ES1.95ES1.39E71.90E10991E72.56EB3.03E63.59E92.95E95.49E41.19E99.81EB1.68EB9.25E42.65EB6.19E48.16E62.27E47.32E75.09EB1.11E101.86EB2.26E32.26E32.26E3mrem/yrperuci/m~003072LLII53

TABLE3-23DISPERSION PARAMETERS ATCONTROLLING LOCATIONS'XWand WVALUES~VENSiteBoundary~

Inhalation andGroundPlaneCowMilkGoatMilk'eatAnimalVegetation

]gJglCTZONE(104)ESE(1300)SE(1400)E(114)E(96o)DISTANCE011,6001,8004,3004,8002,6002,900Xsecm~F00E-61.42E-74.11E-B3.56E-081~17E-71.04E-72.10E-92.90E-94.73E-105.32E-101.86E-91.50E-9STACKSiteBoundary~

Inhalation andGroundPlaneE(109)1,6001,7004.50E-B8.48E-96.00E-91.34E-9CowMilkESE(1350)GoatMilk'E(1400)MeatAnimalE(114')Vegetation E(960)4,2004,8002,5002,8001.05E-82.90E-081'3E-81.38E-83.64E-105.71E-101.15E-99.42E-10NOTE:Inhalation andGroundPlaneareannualaveragevalues.Othersaregrazingseasononly.X/QandD/QvaluesfromNMP-2ER-OLS.X/QandD/QfromNMP-2FES,NUREG-1085, May1985,TableD-2.X/QandD/QfromC.T.MainDataReportdatedNovember1985.003072LLII54

TABLE3-24PARAMETERS FORTHEEVALUATION OFDOSESTOREALMEMBERSOFTHEPUBLICFROMGASEOUSANDLIQUIDEFFLUENTS

~PattwaFishParameter U(kg/yr)-adultValue21Reference Reg.Guide1.109TableE-5FishD,;(mrem/pCi)

EachRadionuclide Reg.Guide1.109TableE-11Shoreline U(hr/yr)-adult-teen6767SiteSpecificSiteSpecificShoreline (mrem/hrperpCi/m-)EachRadionuclide Reg.Guide1.109TableE-6Inhalation DFA;;,EachRadionuclide Reg.Guide1.109TableE-7003072LLII55

NINEMILEPOINTNUCLEARSTATIONRADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAMSAMPLINGLOCATIONS TABLE5.1TypeofmIRadioiodine andParticulates (air)Radioiodine andParticulates (air)*MapLoinIIiniEnv.ProramNo.NineMilePointRoadNorth(R-1)Co.Rt.29&LakeRoad(R-2)Locain1.8miI88oE1.1mi5104ESERadioiodine andParticulates (air)Radioiodine andParticulates (air)Radioiodine andParticulates (air)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)10121314DirectRadiation (TLD)15DirectRadiation (TLD)16DirectRadiatiort'(TLD) 17DirectRadiation (TLD)18Co.Rt.29(R-3)VillageofLycoming, NY(R-4)MontarioPointRoad(R-5)NorthShoreline Area(75)NorthShoreline Area(76)NorthShoreline Area(77)NorthShoreline Area(23)JAFEastBoundary(78)Rt.29(79)Ri.29(80)MinerRoad(81)MinerRoad(82)LakeviewRoad(83)LakeviewRoad(84)SiteMeteorological Tower(7)EnergyInformation Center(18)15mio132oSE1.8miO143'E16.4miI42oNE0.1miOSoN0.1miQ25oNNE0.2miO45oNE0.8miO70oENE1.0miO90oE1.1miO115oESE1.4miO133oSE1.6rniO159oSSE1.6miO181oS1.2rni5200oSSW1.1miI225oSW0.7miO250oWSW0.4miO265oW*Map=SeeFigures5.1-1and5.1-2003072LLIZ56

NINEIVIILEPOINTNUCLEARSTATIONRADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAMSAMPLINGLOCATIONS TABLE5.1(Continued)

TypeofmI*MapLinCIlecioniteEnv.ProramNo.LocainDirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation-(TLD)SurfaceWaterSurfaceWater192021222324252627282930313233343536373839NorthShoreline (85)NorthShoreline (86)NorthShoreline (87)HickoryGrove(88)LeavittRoad(89)Rt.104(90)Rt.51A(91)MaidenLaneRoad(92)Co.Rt.53(93)Co.Rt.1(94)l.akeShoreline (95)Phoenix,NYControl(49)S.W.Oswego,Control(14)Scribe,NY(96)AlcanAluminum, Rt.1A(58)Lycoming, NY(97)NewHaven,NY(56)W.Boundary, BibleCamp(15)LakeRoad(98)OSSInletCanal(NA)JAFNPPInletCanal(NA)0.2miO294WNW0.1miI315'W0.1miI341NNW45mio97oE4.1rniI111oESE4.2miI135oSE4.8miI156SSE4.4mi@183oS4.4mi5205SSW4.7miO223oSW4.1miI237WSW19.8mi@163oS12.6miO226SW3.6miO199'SW3.1mi5220o,SW1.8miO143'E5.3miI123oESE0.9miO237oWSW1.2mie101oE7.6miI235oSW0.5miO70oENE(NA)=Notapplicable

• Map=SeeFigures5.1-1and5.1-2003072LLZj57

NINEMILEPOINTNUCLEARSTATIONRADIOLOGICAL ENVIRONIVIENTAL MONITORING PROGRAMSAIVIPLING LOCATIONS TABLE5.1(Continued)

TypeofamI*MapLocionCo!leeinSieEnv.ProramNo.LocaionShoreline SedimentFishFishFishMilkMilkMilkMilkMilkFoodProductFoodProductFoodProductFoodProductFoodProductFoodProductFoodProduct(CR)4041424344454647646566484950515354SunsetBayShoreline (NA)NMPSiteDischarge Area(NA)NMPSiteDischarge Area(NA)OswegoHarborArea(NA)MilkLocation¹50MilkLocation¹7MilkLocation¹16MilkLocation¹65MilkLocation¹55MilkLocation¹60MilkLocation¹4ProduceLocation¹6(Bergenstock)

(NA)ProduceLocation¹1(Cuieton)

(NA)ProduceLocation¹2(Vitullo)

(NA)ProduceLocation¹5(C.S.Parkhurst)

(NA)ProduceLocation¹3'C.Narewski)

(NA)ProduceLocation¹4(P.Parkhurst)

(NA)ProduceLocation¹7(McMillen)(NA)1.5miO80oE0.3miO315oNW(and/or)06miO55oNE6.2miO235'W82mio93oE5.5miO107oESE5.9miO190oS17.0miO220SW90miO95oE95mio90oE7.8miO113oESE1.9miO141oSE1.7miO96oE1.9miO101oE1.5miO114ESE1.6mi584oE2.1miO110ESE15.0miO223SW*Map=SeeFigures5.1-1and5.1-2++FoodProductSamplesneednotnecessarily becollected fromalllistedlocations.

Collected sampleswillbeofthehighestcalculated siteaverageD/Q.(NA)=Notapplicable CR=ControlResult(location) 003072LLII58

NINEMILEPOINTNUCLEARSTATIONRADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAMSAMPLINGLOCATIONS TABLE5.1(Continued)

TypeofmI*MapLoionCollionSiEnv.PrramNo.LcaionFoodProduct(CR)FoodProductFoodProductFoodProductFoodProduct5556575859ProduceLocation¹8'Denman)

(NA)ProduceLocation¹9(O'onnor)

(NA)ProduceLocation¹10'C.Lawton)(NA)ProduceLocation¹11(C.R.Parkhurst)

(NA)ProduceLocation¹12(Barton)(NA)12.6miO2254SW1.6miO171oS2.2miO123ESE2.0mi5112oESE1.9miO115ESEFoodProduct(CR)60ProduceLocation¹13(Flack)(NA)15.6mi5225SWFoodProductFoodProductFoodProduct616263ProduceLocation¹'14'Koeneke)

(NA).ProduceLocation¹15(Whaley)(NA)ProduceLocation¹16(Murray)(NA)1.9mi595oE1.7mi5136oSE1.2mi5207SSW*Map=SeeFigures5.1-1and5.1-2++FoodProductSamplesneednotnecessarily becollected fromalllistedlocations.

Collected sampleswillbeofthehighestcalculated siteaverageD/Q.(NA)=Notapplicable CR=ControlResult(location) 003072LLZI59

APPENDIXALIQUIDDOSEFACTORDERIVATION 003072LLII60

AppendixALiquidEffluentDoseFactorDerivation, A~(mrem/hrper'Ci/ml) whichembodiesthedoseconversion factors,pathwaytransferfa~s(e.g.,bioaccumulation factors),

pathwayusagefactors,anddilutionfaarsforthepointsofpathwayorigintakesintoaccountthedosefromingest%5K offishanddrinkingwaterandthesediment.

Thetotalbodyandorgando%iconversion factorsforeachradionuclide willbeusedfromTableE-llof-Regulatory Guide1.109.Toexpeditetime,thedoseiscalculated foramaximumindividual insteadofeachagegroup.Themaximumindividual dosefactorisacomposite ofthehighestdosefactorAofeachnuclideiagegroupa,andorgant,henceAi.Itshouldbenotedthatthefishi,ngestion pathwayisthemostsignificant pathwayfordosefromliquideffluents.

Thewaterconsumption pathwayisincludedforconsistency withNUREG0133.Theequationforcalculating dosecontributions giveninsection1.3requirestheuseofthecomposite dosefactorAforeachnuclide,.

i.Thedosefactorequationforafreshwatersiteis:-X,t~D-X,t'ip,

+69'UWe"(1e)(DPS)>)(>.>(4)Where:KoIsthedosefactorfornuclidei,agegroupa,totalbodyororgant,forallappropriate

pathways, (mrem/hrperuCi/ml)Istheunitconversion factor,1.14E5=1E6pCi/uCi x1E3ml/kg-:-8760hr/yrUWaterconsumption (1/yr)gfromTableE-5ofReg.Guide1.109UgFishconsumption (Kg/yr)gfromTableE-5ofReg.Guide1.109U,SedimentShoreline Usage(hr/yr);fromTableE-5ofReg.Guide1.109(BF)i(DFL)w(DFS)~.~D>>D,Bioaccumulation factorfornuclide,i,infish,(pCi/kgperpCi/1),fromTableA-1ofReg.Guide1.109Doseconversion factorforage,nuclide,i,groupa,totalbodyororgant,(mrem/pC1)g fromTableE-11ofReg.Guide1.109Doseconversion factorfornuclideiandtotalbody,fromstandingoncontaminated ground(mern/hrperpCi/m~)gfromTableE-6ofReg.Guide1.109Dilutionfactorfromthenearfieldareawithinone-quarter mileofthereleasepointtothepotablewaterintakefortheadultwaterconsumption.

ThisistheMetropolitan WaterBoard,OnondagaCountyintakestructure locatedwestoftheCityofOswego.(Unitless)

Dilutionfactorfromthenearfieldareawithinonequartermileofthereleasepointtotheshoreline deposit(takenatthesamepointwherewetakeenvironmental samples1.5milesgunitless) 003072LLII61 0

AppendixA(Cont'd)69'conversion factor.693x100,100~K,(L/kg-hr)+40*24 hr/day/.693 inL/m~-d,andK,~transfercoefficient fromwaterto~edimentinL/kgperhour.Averagetransittimerequiredforeachnuclidetoreachthepointofexposureforinternaldose,itisthetotaltimeelapsedfromreleaseofthenuclidestoeitheringestion forwater(w)andfish(f)orshoreline deposit(s),(hr)Lengthoftimethesedimentisexposedtothecontaminated water,nominally 15yrs(approximate midpointoffacilityoperating life),(hrs).decayconstantfornuclidei(hr')Shorewidthfactor(unitless) fromTableA-2ofReg.Guide1.109ExampleCalculation ForI-131ThyroidDoseFactorforanAdultfromaRadwasteliquideffluents releases(DFS)i(DFL)~BF)UtDD,U,Wt~t~tgUKo2.80E-9mrem/hrperpCi/m~1.95E-3mrem/pCi15pCi/KgperpCi/L21Kg/yr40unitless12unitless12hr/yr0.35.5hrs(s~Shoreline Sediment) 30hrs.(w~water)24hrs.(f~fish)1.314E5hr(5.48E3days)730L/yr1~14ESCiuCimlk(hr/yr)3.61E-3hr'hese valueswillyieldan~Factorof6.65E4mrem-mlperuCi-hraslistedinTable2-2.ItshouldbenotedthatonlyalimitednumberofnuclidesarelistedonTables2-2to2-5.Thesearethemostcommonnuclidesencountered ineffluents.

Ifanuclideisdetectedforwhichafactorisnotlisted,thenitwillbecalculated andincludedinarevisiontotheODCM.Inaddition, notalldosefactorsareusedforthedosecalculations.

Amaximumindividual isused,whichisacomposite ofthemaximumdosefactorofeachagegroupforeachorganasreflected intheapplicable chemistry procedures.

003072LLII62

APPENDIXBPLUMESHINEDOSEFACTORDERIVATION 003072LLII63

APPENDIXBForelevatedreleasestheplumeshinedosefactorsforgammaair(B,)andwholebody(V,),arecalculated usingthefiniteplumemodelwithanelevation abovegroundequaltothestackheight.Tocalculate theplumeshinefactorforgammawholebodydoses,thegammaairdosefactorisadjustedfortheattenuation oftissue,andtheratioofmassabsorption coefficients betweentissueandair.Theequations areasfollows:~GammaAkBi~Z8~EIReV,Where:K'conversion factor(seebelowforactualvalue).p,~massabsorption coefficient (cm/g~airforB<<tissueforV,)E~Energyofgammarayperdisintegration (Mev)V,~averagewindspeedforeachstability class(s),R~downwinddistance(siteboundary, m)esectorwidth(radians) s~subscript forstability classI,Ifunction~I,+kIiforeachstability class.(unitless, seeRegulatory Guide1.109)Fractionoftheattenuated energythatisactuallyabsorbedinair(seeRegulatory Guide1.109,seebelowforequation)

~Wo~eLoOd',Pa%l.11S~B;eWhere:t~tissuedepth(g/cm)SFshielding factorfromstructures (unitless)

Ratioofmassabsorption coefficients betweentissueandair.Whereallotherparameters aredefinedabove.'K~conversion factor3.7E10~dsCi-sec1293g1.6E-6~ev100~g-rad.46ik~~PGWhere:p~massattenuation coefficient (cd/giairforB<<tissueforV,)p,~definedabove003072LLII64

APPENDIX8(Cont'd)Therearesevenstability classes,AthruF.Thepercentage oftheyearthateachstability classoccursistakenfromtheU-2FSAR.Fromthisdata,aplumeshinedosefactoriscalculated foreachstability classandeachnuclide,multiplied byitsrespective fractionandthensummed.Thewindspeedscorresponding toeachstability classare,also,takenfromtheU-2FSAR.Toconfirmtheaccuracyofthesevalues,anaverageofthe12monthwindspeedsfor1985,1986,1987and1988wascomparedtotheaverageoftheFSARvalues.Theaveragewindspeedoftheactualdataisequalto6.78m/s,whichcomparedfavorably totheFSARaveragewindspeedequalto6.77m/s.Theaveragegammaenergieswerecalculated usingaweightedaverageofallgammaenergiesemittedfromthenuclide.Theseenergiesweretakenfromthehandbook"Radioactive DecayDataTables",DavidC.Kocher.Themassabsorption (p,)andattenuation (p)coefficients werecalculated bymultiplying themassabsorption (p,/p)andmassattenuation (p/p)coefficients givenintheRadiation HealthHandbookbytheairdensityequalto1.293E-3g/ccorthetissuedensityof1g/ccwhereapplicable.

ThetissuedepthisSg/cm~forthewholebody.Thedownwinddistanceisthesiteboundary.

003072LLII65

SECALCULTIONAPPENDIXB(Cont'd)Ex.Kr-89FSTABILITY CLASSONLY-GammaAir-DATAEppec,~K~.46VF=5.55m/seck~~~.871PaR~1600m2.22MeV2.943E-3m'.5064E-3m'39 19m.......vertical plumespreadtakenfrom"Introduction toNuclearEngineering",

JohnR.LaMarsh-IFunctionQc,aIgm.11~3.4I~+kIi~~3+(~871)(~4)~65B)0.46dis.C-seceves2.943E-3m'.22Mev

.65(g/m)(erers)=(g-rad)(5.55m/s)(.39)(1600m)3.18(-7)rads3600shr24hd365d1E3mradradCi/s(1E6uCi)Ci1.00(-2)~meaduci/sec-(.0253cm-/g)(Sg/cm')1.11(.7)(lE-2)mradr](e)pCi/secj6.85(-3)~radarpCi/secNote:Theabovecalculation isfortheFstability classonly.ForTable3-2andprocedure values,aweightedfractionofeachstability classwasusedtodetermine theB;andV,values.003072LLII66

APPENDIXCDOSEPARAMETERS FORIODINE131and133,PARTICULATES ANDTRITIUM003072LLII67 i

APPENDIXCDOSEPARAMETERS FORIODINE-131AND-133'ARTICULATES ANDTRITIUMlEThisappendixcontainsthemethodology whichwasusedtocalculate theorgandosefactorsforI-131,I-133,particulates, andtritium.Thedosefactor,wascalculated usingthemethodology outlinedinNUREG-0133.

Theradioiodine andparticulate Radiological Controls(Section3.11.2)isapplicable tothelocationintheunrestricted areawherethecombination ofexistingpathwaysandreceptoragegroupsindicates themaximumpotential exposureoccurs,i.e.,thecriticalreceptor.

Washoutwascalculated anddetermined tobenegligible.

R;valueshavebeencalculated fortheadult,teen,childandinfantagegroupsforallpathways.

However,fordosecompliance calculations, amaximumindividual isassumedthatisacomposite ofhighestdosefactorofeachagegroupforeachorganandpathway.Themethodology usedtocalculate thesevaluesfollows:C.lnalationPathwaQ(I)where:K'BR),(DFA)(~Q(I)dosefactorforeachidentified radionuclide ioftheorganofinterest(units~mrem/yrperuCi/m~);K'constantofunitconversion, 1E6pCi/uCi(BR),Breathing rateofthereceptorofagegroupa,(units=m'/yr);(DFA)(~Theinhalation dosefactorfornuclidei,organjandagegroupa,andorgant(units~mrem/pCi)

.Thebreathing rates(BR),forthevariousagegroups,asgiveninTableE-5ofRegulatory Guide1.109Revision1,aretabulated below.eGrouaBreathinRatem~rInfantChildTeenAdult1400370080008000Inhalation dosefactors(DFA),forthevariousagegroupsaregiveninTablesE-7throughE-10ofRegulatory Guide1~109Revision1.003072LLII68

APPENDIXC(Cont'd)C.2Q(G)GroundPlanePathwa'KSDFG-lit1-eWhere:5(G)Dosefactorforthegroundplanepathwayforeachidentified radionuclide ifortheorganofinterest(units~m'-mrem/yr peruci/sec)K'Aconstantofunitconversion, 1E6pCi/uCiAconstantofunitconversion, 8760hr/yearTheradiological decayconstantforradionuclide i,(units~sec')tTheexposuretime,sec,4.73EBsec(15years)(DFG)i=Thegroundplanedoseconversion factorforradionuclide i;(units~mrem/hrperpCi/m')SFTheshielding factor(dimensionless)

Ashielding factorof0.7isdiscussed inTableE-15ofRegulatory Guide1.109Revision1.Atabulation ofDFG<valuesispresented inTableE-6ofRegulatory Guide1.109Revisionl.003072LLII69

.

APPENDIXC(Cont'd)C.3GassCoworGoat-MilkPathwaR;(C)~K'FrDFL[~ff+(~l-ff)(e'e(lii1)lYpYWhere:Q(C)Dosefactorforthe.cowmilkorgoatmilkpathway,foreachidentified radionuclide ifortheorganofinterest, (units~m2-mrem/yr peruCi/sec)K'constantofunitconversion, 1E6pCi/uCiThecow'sorgoat'sfeedconsumption rate,(units=Kg/day-wet weight)Thereceptor's milkconsumption rateforagegroupa,(units~liters/yr)

Y,Theagricultural productivity byunitareaofpasturefeedgrass,(units~kg/m2)Theagricultural productivity byunitareaofstoredfeed,(units~kg/m2)(DFL)~Thestableelementtransfercoefficients, (units~pci/liter perpCi/day)Fractionofdeposited activityretainedoncow'sfeedgrassTheingestion dosefactorfornuclidei,agegroupa,andtotalbodyororgant(units=mrem/pCi)

Theradiological decayconstantforradionuclide i,(units~sec

-1)Thedecayconstantforremovalofactivityonleafandplantsurfacesbyweathering equalto5.73E-7sec-1(corresponding toa14dayhalf-life)

Thetransport timefrompasturetocoworgoat,tomilk,toreceptor, (units~sec)Thetransport timefrompasture,toharvest,tocoworgoat,tomilk,toreceptor(units=sec)003072LLII70

APPENDIXC(Cont'd)Fractionoftheyearthatthecoworgoatisonpasture(dimensionless)

Fractionofthecowfeedthatispasturegrasswhilethecowisonpasture(dimensionless)

Milkcattleandgoatsareconsidered tobefedfromtwopotential sources,pasturegrassandstoredfeeds.Following thedevelopment inRegulatory Guide1.109Revision1,thevalueoff,isconsidered unityinlieuofsitespecificinformation.

Thevalueoff,is0.5basedon6monthgrazingperiod.Thisvalueforf~wasobtainedfromtheenvironmental group.TableC-1containstheappropriate valuesandtheirsourceinRegulatory Guide1.109Revision1.Theconcentration oftritiuminmilkisbasedontheairborneconcentration ratherthanthedeposition.

Therefore, theR~(C)isbasedonX/Q:Rp(C)~K'K~QP~(DFL)~

0.75(0.5/H)

Where>Rg(C)0.75Dosefactorforthecoworgoatmilkpathwayfortritiumfortheorganofinterest, (units=mrem/yrperuCi/m~)Aconstantofunitconversion, 1E3g/kgAbsolutehumidityoftheatmosphere, (units-"g/m~)Thefractionoftotalfeedthatiswater0.5Theratioofthespecificactivityofthefeedgrasswatertotheatmospheric waterOthervaluesaregivenpreviously.

AsitespecificvalueofHequalto6.14g/m~isused.Thisvaluewasobtainedfromtheenvironmental groupusingactualsitedata.003072LLII71

C.4Grass-Cow-Meat PathwaAPPENDIXC(Cont'd)@(C)~K,UFrDFL~[f~f~(If~f)(e"e">t(1,+l)IY,Q(M)FgDosefactorforthemeatingestion pathwayforradionuclide iforanyorganofinterest, (units=m-mrem/yrperuCi/sec)Thestableelementtransfercoefficients, (units~pCi/kgperpci/day)Thereceptor's meatconsumption rateforagegroupa,(units=kg/year)'hThetransport timefromharvest,tocow,toreceptor, (units=sec)Thetransport timefrompasture,tocow,toreceptor, (units=sec)Allothertermsremainthesameasdefinedforthemilkpathway.TableC-2containsthevalueswhichwereusedincalculating R,(M).Theconcentration oftritiuminmeatisbasedonairborneconcentration ratherthandeposition.

Therefore, theRz(M)isbasedonX/Q.Rz(M)~KKFQPap(DFL) gi(0~('H))Where:Rz(M)=Dosefactorforthemeatingestion pathwayfortritiumforanyorganofinterest, (units~mrem/yrperuCi/m')Allothertermsaredefinedabove.C.5VeetationPathwaTheintegrated concentration invegetation consumedbymanfollowstheexpression developed formilk.Manisconsidered toconsumetwotypesofvegetation (freshandstored)thatdifferonlyinthetimeperiodbetweenharvestandconsumption, therefore:

Q(V)~K'l,t-l,t(DFL)U"Fe+U,F,e003072LLII72

APPENDIXC(Cont'd)Where'(V)

K'l.FgDose.factor forvegetable pathwayforradionuclide ifortheorganofinterest, (units~m-mrem/yrperuci/sec)Aconstantofunitconversion, 1E6pCi/uCiTheconsumption rateoffreshleafyvegetation bythereceptorinagegroupa,(units~kg/yr)Theconsumption rateofstoredvegetation bythereceptorinagegroupa(units~kg/yr)Thefractionoftheannualintakeoffreshleafyvegetation grownlocallyY,Thefractionoftheannualintakeofstoredvegetation grownlocallyTheaveragetimebetweenharvestofleafyvegetation anditsconsumption, (units~sec)Theaveragetimebetweenharvestofstoredvegetation anditsconsumption, (units~sec)Thevegetation arealPdensity,(units~kg/m')Allotherfactorshavebeendefinedpreviously.

TableC-3presentstheappropriate parameter valuesandtheirsourceinRegulatory Guide1.109Revisionl.Inlieuofsite-specific data,valuesforFandF,of,1.0and0.76,respectively, wereusedinthecalculation.

ThesevalueswereobtainedfromTableE-15ofRegulatory Guide1.109Revisionl.Theconcentration oftritiuminvegetation isbasedontheairborneconcentration ratherthanthedeposition.

Therefore, theRz(V)isbasedonX/Q:Rz(V)~[K'Kia)fi+Uafa(DFL)>075(05/HWhere'z(V)

~dosefactorforthevegetable pathwayfortritiumforanyorganofinterest, (units~mrem/yrperuci/m').Allothertermsaredefinedinpreceeding sections.

003072LLII73 S

TABLEC-1Parameters forGrass-(Cow orGoat)-Milk Pathways~aameaa:~Q,(kg/day)(DFL)>(mrem/pCi)

F(pCi/liter perpCi/day)YI(kg/m)Y~(kg/m~)t,(seconds) tf(seconds)U~(liters/yr)

Value50(cow)6(goat)1.0(radioiodines) 0.2(particulates)

Eachradionuclide Eachstableelement2.00.77.78x10~(90days)1.73x10'2days)330infant330child400teen310adultReference e.Guidele109Rev.1TableE-3TableE-3TableE-15TableE-15TablesE-11toE-14TableE-l(cow)TableE-2(goat)TableE-15TableE>>15TableE-15TableE-15TableE-STableE-5TableE-5TableE-5003072LLZI74

• il TABLEC-2Parameters fortheGrass-Cow-Meat PathwayF,(pCi/KgperpCi/day)U(Kg/yr)(DFL)>(mrem/pCi)

Y,(kY,(kg/m~)t(seconds) t,(seconds)

Qr(kg/day)~Vaue1.0(radioiodines) 0.2(particulates)

Eachstableelement0infant41child65teen110adultEachradionuclide 0.72'7.78E6(90days)1.73E6(20days)50Reference Re.Guidel.09ev.TableE-15TableE-15TableE-1TableE-5TableE-5TableE-STableE-5TablesE-lltoE-14TableE-15TableE-15TableE-15TableE-15TableE-3003072LLII75

TABLEC-3Parameters fortheVegetable Pathwayji~i~eter(dimensionless)

(DFL)>(mrem/pCi)

U"),(kg/yr)-infantchild-teen-adultU'),(kg/yr)-infant-child-teen-adultt(seconds) t,(seconds)

Y(kg/mi)Value1.0(radioiodines) 0.2(particulates)

Eachradionuclide 026426405206305208.6E4(1day)5.18E6(60days)2.0Reference Re.Guide1.109Rev.TableE-1TableE-1TablesE-iltoE-14TableE-5TableE-5TableE-STableE-5TableE-5TableE-5TableE-5TableE-STableE-15TableE-15TableE-15003072LLII76 l!4P APPENDIXDDIAGRAMSOFLIQUIDANDGASEOUSTREATMENT SYSTEMSANDMONITORING SYSTEMS003072LLIZ77

LiquidRad~asteTreatment SystemDiagrams003072LLZI78 t~JI TABLE~VALUES2-2-LIQUID'DULT

~e>~Q,hr-uciNUCLIDEH3Cr51CQ64Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Mn56Mo99Na24I131I132I133Ni65Cs134Cs136Cs137Ba140Ce141Nb95La140Ce144Tc99mNp239Te132Zr97Sr92TBODY3.67E-l1.261.288.38E21.07E29'8E22.01E26.36E23.32E46'8E21.36E57.59E-13.07E-2l.60E11~34E2l.16E24,34E-3lo22E11~14E-25.79ES8'2E43.42ES1.37E13.79E-21.31E21~62E-23.03E-12~OSE-22~SOE-11.18E3508$W1.44$2GI-TRACT3.67E-13.13E22.33E21.34E42.62E28.06E31.81E34.93E34.63E43.57E31'"60E42.83E25.521.95E2l.34E25.36E12.33E-33.59E16.35E-11.24E41~33E41.01E44.30E28.81El1.48E63.72E36.15E29.54E-013'2E25'7E4339E26.61BONE1.18E-23.986.62E21.03E31~076.47E12.31E42.22E45'5E59.77E-11.97E-31~34E2li42E24,64E-32.30E11~93E-12.98E52.96E43.82ES2.09E26.93E-24.38E21.03E-12.02571E-44941.95E35.44E-33'4E-1LIVER3'7E-11.18E-22.734.38E34.57E22'2E39.04E13.24E27.35E46'8E-57.88E-11.73E-18.42E11.34E22.03E21~24E-23.99E12'0E-27.08E51,17E55.22ES3.04E-15.83E-22'4E25.36E-29,66E-1161E-34.42E-11~26E31~10E-3KIDNEY3.67E-12.86E-16.891.31E37.53E-1THYROIDLUNG3.67E-13.67E-17.56E-11.663.983.982.55E27.53E-16.76E21.071.071.076.47E1.6.47E16.47E14.92E46.18E-S2.212~216.18E-56.18E-S839E-12.20E-1l.91E21.34E23.48E21.98E-26i97E16.99E-16.99E-11.97E-31.97E-31.34E2lo34E26.65E42.77E-24.34E-15.87E3229ES6.51E41.77ES1.31E-14.60E-2241E22.83E-36.57E-12.45E22.04El7.61E43.28E-18.92E33.10E15.89E44.17E-21.92E-l3.53E-23.53E-23.56E-13o56E-12.83E32+83E-32+06E-12.06E-17.90E-41~22E41.66E-31.39E32.66E-37llE-67~11E6882E-015.95E-47.92E2W1874~31El4.04E41.48E21.23E2Ag110m1~09E13,94E2l.14Ell.13E1Calculated inaccordance withNUREG0133,Section1.109,Regulatory positionC,Section1.4.43E-51.22El4.43E-S4.43E-S1~04E1l.04El4.3.1gandRegulatory Guide003072LLII28

H3Cr51Cu64Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr952.73E-11.351.358.75E21.15E29.59E22~10E29'4E23.40E46.92E21.14E53.962.73E-12.16E22.23E28.84E32~13E25.85E31.23E33.73E33OSE42.88E31.30E42~10E2656E-22.22E16.93E21.06E35.983.61E22'0E42.42E44'2E5419Mn56Mo993'2E-21.19El1.71El1.60E21.10E-2Na24I131I132I133Ni65Cs134Cs136Cs137lo38E2114E2456E-3128E11.21E-23.33ES7.87E41.90E51.38E24.21E15.54E-33~17E11.449.05E39.44E37.91E31.38E21.52E24.86E-32.47E12.08E>>13'5E52.98E4409ESBa1401.44El3.40E22~21E2Ce1412.00E-l6.85E12.33E-1Nb95La140l.17E22.97E-21.05E63.01E34.43E21~22E-1Ce1441.254.83E23.07Tc99m2.11E-21.075.84E-4Np239Te1324'3E-33'8E2282E-2123R3413B42'6E3Zr97Sr925.685M4.28E23~11E22.02E15.84E-31~07273E-1656E-22+874.32E34.91E22.48E39.47E16.20E27.28E43.991.81E-l8.95E11.38E22.12E21.27E-24.19E12.66E-27.18E51.17E55.44E52.60E-12.21E-12.47E26.82E-21.941.63E-35+67E-31.30E31.19E-32.73E-13.47E-17.271.31E34.205.983.61E24.66E44.032.29E-12.05E21.38E2366E22.00E-27'5E12.28E56.38E41.85ES3.25E-12.08E-12.39E21.58E-21.622.43E-21.07E-21.25E41.78E-3TABLE2-3~VALUES-LZ{}UID'EEN

~em-ehr-uCiNUCLIDETBODYGI-TRACTBONELIVERKIDNEY2.22E12.22E14'05'83.11E27.84E25.983.61E23.61E2lo24E11.24El3,903,901.10E-21.10E-21.38E21.38E26.19E44'9E-15.85E31.55E-1lo14E28.72E41~831.01E41.73E27.21E42.33E-14.15E-11.97E-11.97E-11.991.991.58E-21.58E-21.151.159.04E-43.32E33.32E-31.37E31.48E-23.97E53'7E-5THYROIDLUNG2.73E-12.73E-17'9E-1190W1874.55E13.52E41.59E2Ag110m5.85E13.17E25.89E1Calculated inaccordance withNUREG0133,Regulatory positionC,Sectionl.1.30E25.88E12.47E-45.97E12.47E-45~79E15~79E1Section4.3.lgandRegulatory Guide1.109,003072LLZI29

• "A SPENTFRLPS%CSLIH6FLONDRANFILTERRAOWASTEOEtIIIKRALIKR REACTNWATERCLEANSSYSTEtlQE6EKRAHT EVARNATOR CONKIIATE OEtSKRALI2ERS REACTNSLNLDNBEQJIPtKHT ORANSPIIASESEPARATNWASTEEVAPNATNIIIIIIIIIIIIIIIIIIIIILAOVITYPICAIOF3AOV84LTWASTECaiECTmTAtKAOV47PlTECfWASTECO.LECTNPUFFIIIAOV44IIIIIIAvV48IRADWASTEFILTERSFLONDRAINFILTERRECOMRYSA&uruaSMI&ILO8EIIIIPKtlr ORAIts%$$UAL%ATAEtlOVALSySTEtlRECOVERYSAt&fTAtII,SRADWASTE.

FKTERSAOV275WASTECOLLECTOR SUROETANKTKl8AOV277PIBAPSWASTECOLLECTOR SURGEPucaSPlCfPIBBAOV308AOV307FLOORDRAINFII.TERRADWASTEFILTERSWASTECOLLECTION

~~~gI~eeI~~JWEI~~I~5I'I'e~I~I~I~~IIliIIIIIWE~Ie'IS~,~8Ie~~~~IIeI'~II'I4~'eI~QPgeelI~~S~~~~II~~~~I~Ie~5eI~Se~~II~M~5IQa~~~II~~S~IISSIe~I~leII~II I~

ttf-tWASTESA&LETKSRADWASTEDENHIIIIII.IIIIIILIIIIAOV2tIIILTIIIRECOVERYSA&LETAN(OlÃRP4SUCTINLl%PlP4RECOVERYSAKI.EPS@TYPICALOF2IIIIIWASTECO.L)SURGETAILIIIAOV66REGENEVAP DISTCOOLERWASTEEVAPDISTCOOLERFLOORDRAINFILTERRAOWASTEDEI1INERALIZER RADWASTEFILTERSOTKRP4RECIRCI.INEIIIIIIIIcsrsAOV118IWASTECKLITAWSAOV314LI,AOV29ILTWASTEDISCHARGE SAtFLETANKTKSA,BAOVBOOT%RP5SUCTIONLINEICAOV33TYPICALOF2IIIIIIIrIIIIIIIIIIIIIIIJAOV76Oll%RP5RECIRCLINENK-IWASTESAKLETKSWASTEAOV27SEVAPREGENAOV279EVAPSERVICEWATERDISCHARGE BAYAOV142FLONDRAINCO.LECTOR TAILSHIGHRANGEFE33OFV331LOWRANGEFE331RECOYERYSAMPLESYSTEMand 6!'-I'4 ttt-IWASTESAtSLETKSAAtAfhSTE OEM'AOV2lIIILIIITYPICALOF2RECOVERYSAKLETANIIIIIWASTECOLLISURGETAINTIIIREOEMEVAP DISTCOOLERWASTEEVAPOISTCORERFLOORDRAINFILTERRAOWASTEOE11INERALllKR RADWASTEFILTERSOTHERP4RECIRCLINELIIITYPICALOF2I,AOV29WASTEDISCHARGE SAt%lETAIILlTKSA.8AOV80IIII"IIIIII<'IIOT%RP5RECIRCLINEIIILOl%RP4SUCTIONLINEPlP4RECOVERYISANTEPIN'OV66IIIIIIIcsrsAOV118IIWASTECOLLITANKSAOV314ILftP-IWASTESAtA.ETKSFV330OTKRP5'UCTINLINEICAOV33AOV76WASTEAOV27SEVAPREMAOV279EVAPSERVICEWATERDISCHARGE 8AYAOVI42FLODRDRAINCOLLECTNTAWSHIGHRANGEFE33QFV331LOIIEtRANGEFE331RECOVERYSAMPLESYSTEI1andVASTE

WASTEEVAP REGENEVAP CSTBLDGFLOORDRAIN RXBLDGSPENTRESIN AUXBOILER RWBLDGWASTEDISOIDSTQNNDISTClKW.ERDRAINSFILTERDRAINSTAtKBLDG~DRAINSRWFILTERTAILSWASTERUTT$8BLDGNN'-IFLONDRAINTKDRAINSDRAINSCOLLECTOR TA%FLONDRCM.TK2APOT%Rfl.OORDRNSUCTLINETYPICALOF2ORNERP2RECIRCllNEPlCETEOTIIERfL00RDRAINCOLLPROAOV738WASTEEVAPRWFILTERFLOORDRAINCOLLTKRFPAOV73AFLOORDRNfILTERWASTEDISNSAttlETKSfleeDRAINCOLLSINGETKt7AOV201AOV90AOTKRFLNNDRAINCOLLTKPlFLOORINNFILTERFLOORDRAINCOLLSURGEPNIPSFlOORDRAGONCOLLECTlON C'l WASTECRLQQGETKFLONDRHCOLQNKTXFLOORDRAINCOLLECT(8 TKSKSENWASTETKSWASTECRLTKSFV122AOV2AOV271FLATBEDFILTERAOV236SERVICEAIRCONDMAKEUPAN)DRAWOfFl~l~csrSOY251BODYFEEDTKHOPPERFEEDERAOV257SLUDGETKAOV451EDUCTOR800YFFEDPROFILTERPRECOATTALKIFLXRDRAINFILTERPRECOATP$%'27CSTFILTEREFFLKNTTAtKFILTEREFFLUENTPttPLV231AOV214REOENWASTEPAOV'127WASTEDISCHSAtA.ETKAOV123FLQNDRAINCRLTKAOV126WASTECOLLTKFlOORDRAINFllTERSYSTEM

Ig\i0~~~~'IFLOORORhlNFILTERSEQUENCES

FLONORANFI.TERCON001INK6MRATION RWFLOORA%KMPORANSRWFILlERBACKWASHPt%501'E6ENWASTERNrIIIIAOV54IIIIIIr---IIIIRE6E%RANTWASTETANTK3IIIIIIIIIIILRE6ENWASTEIKPS%PSA35TYPlCALOF2AOV69IIIIIIIIIIIIIIIIIIIIIILO'MRREGEKRAIIT WASTETQK1AOV68,IQE6ENEVAP IAOV92IWASTEEVAPIFLOORORAIMFILTERREGKNERANT HfASTESYSTEM

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1 OsseousTreatment SystemDiagrams003072LLZZ88 lI

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LiquidRadiation Monitoring Diagrams003072LLZZ94

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AIP OaseousEffluentMonitoring SysteaDiagrams003072LLZI99

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AppendixENineNilePointOn-SiteandOff-SiteNapa003072LLZI102

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