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{{#Wiki_filter:Oo[gg~[@NINEMILKPOINTNUCLEARSTATIONUNIT1OIFSITEDOSECALCULATION MANUALNIAGARAMOHAWKPOWERCORPORATION
{{#Wiki_filter:Oo[gg~[@
,-,MARCH1,198478p03f30<0500028+0308>goQKpQRP
NINE MILKPOINT NUCLEAR STATION UNIT            1 OI FSITE DOSE CALCULATION MANUAL NIAGARA MOHAWK POWER CORPORATION
                      ,-,MARCH 1, 1984 8+030 7 88p03f30 <
      >goQK 050002pQR P


ODCM-NINEMILEPOINT~Pae
ODCM - NINE MILE POINT
                                                          ~Pa  e


==1.0INTRODUCTION==
==1.0  INTRODUCTION==


==2.0 LIQUIDEFFLUENTS==
2.0 LIQUID    EFFLUENTS 2.1    Setpoint Determinations 2.2    Dose  Determinations 3.0 GASEOUS EFFLUENTS                                      12 3.1    Setpoint Determinations                        12
2.1SetpointDeterminations 2.2DoseDeterminations
    -3.2   Dose  Determinations 3.3    Critical  Receptor                              19 4.0 40    CFR 190 REQUIREMENTS                              20 4.1    Evaluation of Doses From Liauid Effluents      23 4.2    Evaluation of Doses From Gaseous Effluents      24 4.3    Evaluation of Doses From Direct Radiation      24 5.0 ENVIRONMENTAL MONITORING PROGRAM                        25 5.1    Sampling Stations                              25 5.2   Interlaboratory Comparison  Program            25 5.3    Capabilities for Thermoluminescent Dosimeters Used  for Environmental Measurements            26 TABLES                                                      30 APPENDIX A  -  Dose Parameters for Iodine  -  131 and 133, Particulates and Tritium                        59 8  -  Diagrams  of Liauids and Gaseous  Radwaste Treatments Systems                              72 C  - Dispersion Calculation Tables                    79


==3.0 GASEOUSEFFLUENTS==
==1.0 INTRODUCTION==
3.1SetpointDeterminations
-3.2DoseDeterminations 3.3CriticalReceptor4.040CFR190REQUIREMENTS 4.1Evaluation ofDosesFromLiauidEffluents 4.2Evaluation ofDosesFromGaseousEffluents 4.3Evaluation ofDosesFromDirectRadiation


==5.0 ENVIRONMENTAL==
The  Offsite  Dose  Calculation    Manual (ODCM) provides the methodology        to  be used  for  demonstrating compliance with the Radiological Effluent Technical Specifications (RETS),      10 CFR 20, 10 CFR 50, and 40 CFR 190.        The  contents of the  ODCM  are based on Draft NUREG-0472, Revision 3, "Standard Radiological Effluent Technical Specifications for Pressurized Water Reactors," September 1982; Draft        NUREG-0473,  Revision 2, "Radiological Effluent Technical Specifications for BWR's," July 1979;            NUREG  0133, "Preparation of Radiological Effluent Technical Specifications for Nuclear Power  Plants," October 1978; the several Regulatory Guides referenced in these documents; and, communication with the          NRC staff.
MONITORING PROGRAM5.1SamplingStations5.2Interlaboratory Comparison Program5.3Capabilities forThermoluminescent Dosimeters UsedforEnvironmental Measurements TABLESAPPENDIXA-DoseParameters forIodine-131and133,Particulates andTritium8-DiagramsofLiauidsandGaseousRadwasteTreatments SystemsC-Dispersion Calculation Tables121219202324242525252630597279
Notwithstanding the above, rather than redefine the basis            for  an  offsite dose  limit or  release  limit,    the limits listed in the Environmntal Technical Specifications      for  Nine Mile Point Nuclear Station Unit      1  dated March 1, 1979, have been        utilized  whenever possible. In this manner      a minimum number    of changes to the current implementing procedures are needed. One  of the major differences      between the RETS and  -ODCM  and  the Environmental Technical Specification is that release          limits  and  offsite dose  limits in the latter      are based on  site releases while they    are based on  unit releases in the former.         This difference is compensated      for in the ODCM  by  setting the releases from other units at the site eaual to zero.
Section  5  contains  a detailed description of the Radiological Environmental Monitoring      (REM)  sampling locations. These  locations are subject to change based      on  the results of the annual Land    Use Census.
Should  it be  necessary  to revise the    ODCM, these revisions    will be    made  in accordance    with Technical Specifications.


>
l J


==1.0INTRODUCTION==
> 2.0 LIQUID EFFLUENTS 2.1  Setpoint Determinations 2.1.1 Basis Monitor setpoints    will be    established such that the concentration of r adionuclides in the liouid effluent releases in the discharge canal      will not    exceed those concentrations      as specified in  10 CFR 20, Appendix        8, Table  II,  Column 2.
Setpoints for the Service Water System Effluent Line              will be calculated based    on  the  r adionuclides identified during the previous year's releases from the liquid radwaste system or the isotopes identified in the most recent radwaste release.
Setpoints  for the Liauid    Radwaste    Effluent Line will    be based on  the radionuclides identified in each batch of liauid waste prior to  its release.
After release, Liauid    Radwaste the monitor        setpoint  may  remain as  set, or revert back to      a setpoint    based on a previous Semi-Annual Radioactive      Effluent Release Report.
2.1.2 Service Water System Effluent Line Alarm Setpoint The  detailed methods for establishing setpoints for the Service Water System  Effluent Line Monitor shall          be  contained in the Nine Mile Point Station Procedures.            These methods    shall  be in I
accordance  with the following;


TheOffsiteDoseCalculation Manual(ODCM)providesthemethodology tobeusedfordemonstrating compliance withtheRadiological EffluentTechnical Specifications (RETS),10CFR20,10CFR50,and40CFR190.ThecontentsoftheODCMarebasedonDraftNUREG-0472, Revision3,"Standard Radiological EffluentTechnical Specifications forPressurized WaterReactors,"
J I
September 1982;DraftNUREG-0473, Revision2,"Radiological EffluentTechnical Specifications forBWR's,"July1979;NUREG0133,"Preparation ofRadiological EffluentTechnical Specifications forNuclearPowerPlants,"October1978;theseveralRegulatory Guidesreferenced inthesedocuments; and,communication withtheNRCstaff.Notwithstanding theabove,ratherthanredefinethebasisforanoffsitedoselimitorreleaselimit,thelimitslistedintheEnvironmntal Technical Specifications forNineMilePointNuclearStationUnit1datedMarch1,1979,havebeenutilizedwheneverpossible.
Inthismanneraminimumnumberofchangestothecurrentimplementing procedures areneeded.Oneofthemajordifferences betweentheRETSand-ODCMandtheEnvironmental Technical Specification isthatreleaselimitsandoffsitedoselimitsinthelatterarebasedonsitereleaseswhiletheyarebasedonunitreleasesintheformer.Thisdifference iscompensated forintheODCMbysettingthereleasesfromotherunitsatthesiteeaualtozero.Section5containsadetaileddescription oftheRadiological Environmental Monitoring (REM)samplinglocations.
Theselocations aresubjecttochangebasedontheresultsoftheannualLandUseCensus.Shoulditbenecessary torevisetheODCM,theserevisions willbemadeinaccordance withTechnical Specifications.
lJ
>2.0LIQUIDEFFLUENTS 2.1SetpointDeterminations 2.1.1BasisMonitorsetpoints willbeestablished suchthattheconcentration ofradionuclides intheliouideffluentreleasesinthedischarge canalwillnotexceedthoseconcentrations asspecified in10CFR20,Appendix8,TableII,Column2.Setpoints fortheServiceWaterSystemEffluentLinewillbecalculated basedontheradionuclides identified duringthepreviousyear'sreleasesfromtheliquidradwastesystemortheisotopesidentified inthemostrecentradwasterelease.Setpoints fortheLiauidRadwasteEffluentLinewillbebasedontheradionuclides identified ineachbatchofliauidwastepriortoitsrelease.Afterrelease,LiauidRadwastethemonitorsetpointmayremainasset,orrevertbacktoasetpointbasedonapreviousSemi-Annual Radioactive EffluentReleaseReport.2.1.2ServiceWaterSystemEffluentLineAlarmSetpointThedetailedmethodsforestablishing setpoints fortheServiceWaterSystemEffluentLineMonitorshallbecontained intheNineMilePointStationProcedures.
ThesemethodsshallbeinIaccordance withthefollowing; JI Setpoint(Hi-Hialarm)-0.9IC;)T0FCF+background
~sw7ClQMPCiwhereC.=concentration ofisotopeiinthesample1(units=uCi/ml)TDF=TotalDilutionFlow(units=gallons/min)
F=ServiceWaterFlow(units=gallons/min)
'CF=monitorcalibration factor(units=netcps/uCi/ml)
MPC.=liauideffluentradioactivity concentration limitforradionuclide iasspecified inl0CFR20,Appendix8,TableII,Column2,forthosenuclidespresentinthepreviousbatchreleasefromtheliauidradwasteeffluentsystemorforthosenuclidespresentinthelastSemi-annual Radioactive EffluentReleaseReport(units=uCi/ml)orforthosenuclidespresentintheservicewatersystem.**
0.9=factortoaccountforthepresenceofIsemittersC.=iMPC.RequiredDilutionFactorTDF=ActualDilutionFactor**ForperiodswithknownreactorwatertoRCLCsystemleakage,RCLCmaximumpermissible concentration maybeprudently substituted fortheabove.
0 aSetpoint(Hialarm)~0.7Setpoint(Hi-Hialarm)2.1e3LiauidRadwasteEffluentLineAlarmSetpoint'Thedetailedmethodsforestablishing setpoints fortheLiauidRadwasteEffluentLineMonitorshallbecontained intheNineMilePointStationProcedures.
Thesemethodsshallbeinaccordance withthefollowing:
Setpoint(Hi-Hialarm)~0.9(QC)iTDCF$+background
~reglijwhereC=activityofisotopeiinthesample(units=uCi/ml)TDF=TotalDilutionFlow(units=gallons/min)
F=RadwasteEffluentFlow(units=gallons/min) reCF=monitorcalibration.
factor(units=netcps/uCi/ml)
MPC.=1liauideffluentradioactivity concentration limitforradionuclide iasspecified in10CFR20,AppendixB,TableII,Column2,forthosenuclidesdetectedbyspectralanalysisofthecontentsoftheradwastetankstobereleased(units=uCi/ml)Oe9=factortoaccountforemittersC.=1MPC.1ReauiredDilutionFactor II Setpoint(Hialarm)~0.7Setpoint(Hi-HiAlarm)Note:IfTDF=Ci~reMPCithedischarg~
coulonotbemade.sincethemonitorwouldbecontinuously inalarm.Toavoidthissituation, Fwillbereduced(normally byafactorreof2)toallowsettingthealarmplaintataconcentration higherthantankconcentration.
Thiswillalsoresultindischarge canalconcentration atapproximately 50kmaximum,permissible concentration.
afterthe.batchreleasehasbeenmadefromtheliquidradwasteeffluentsystem,thesetpointmayremainthesameorbereturnedtoalevelbasedonthepreviousSemi-annualRadioactive EffluentReleaseReportwhereanactualreleasewasmade.'.2DoseDetermination 2.2.1MaximumOoseEquivalent PathwayAdoseassessment reportwasprepareofortheNineMilePointUnit1facilitybyCharlesT.Main,Inc.,ofBoston,MA.Thisreportpresented thecalculated doseequivalent rateszoindividuals aswellasthepopulation withina50-mileradiusofthefacilitybasedontheradionuclides releasedinliquidandgaseouseffluents duringthetimeperiodsof1July1980through31Oecember1980andfrom1January1981through31Oecember1981.Utilizing theeffluentdatacontained inthe J
Semi-Annual Radioactive EffluentReleaseReportsassourceterms,doseequivalent ratesweredetermined usingtheenvironmental pathwaymodelsspecified inRegulatory Guidesl.109andl.illasincorporated intheNRCcomputercodesLADTAPforliquidpathways, andXOQDOQandGASPARforgaseouseffluentpathways.
Doseequivalent rateswerecalculated forthetotalbodyaswellassevenorgansand/ortissuesforadults,teenagers,
: children, andinfants.Fromthestandpoint ofliquideffluents thepathwaysevaluated includedfishingestion, drinkingwater,andexternalexposuretowaterandsediment.
Basedonthefindingsoftheabovereferenced report,themaximumtotalbodydosefromallliquidpathwaysisreceivedbyanadult.Similarly, themaximumtotaldosetoanyorganisreceivedbytheteenliver.Inbothofthesecases(i.e.,adultwholebodydoseandteenliverdose),99Kand98Krespectively ofthesedoseswerereceivedviathefishingestion pathway.Inordertodetermine thedosecontribution fromthereleaseofliquideffluents, theannualdosetoanadultwholebodyandateenliverwillbecalculated foreachofthesignificant nuclides(seeTable2-l)identified intheliquidwastebasedonthefishingestion pathwayutilizing thefollowing formula:
~iI FWhereRa.i=totalannualdosetoorgan"j"ofindividuals ofagegroup"a"fromallofthenuclides"i"inpathway"p"(units=mrem/year
-Ci)apusagefactorspecifying theexposuretimeorintakerateforanindividual ofanagegroup"a"associated withpathway"p"(units=kg/year)MPmixingrates(reciprocal ofdilutionfactor)atthepointofexposureorpointofharvest(units=dimensionless) flowrateoftheliquideffluent(units=ft/sec)releaserateofradionuclide "i"(units=Ci/year)lpequilibriumbioaccumulation factorfornuclide"i"inpathway"p"(units=liters/kg)


alpjthedosefactor,specifictoaspecificagegroup"a",radionuclide "i",pathway"p",andorgan"j",whichcanbeutilizedtocalculate theradiation dosefromanintakeofaradionuclide (units=mrem/pCi) radioactive decayconstantofnuclide"i"(units=hours)theaveragetransittimerequiredfornuclidestoreachthepointofexposure.
Setpoint (Hi-Hi alarm)          0.9    I C;)  T0F      CF      +  background
Forinternaldose,tisthetotaltimepelapsedbetweenthereleaseofthenuclidesandtheingestion ofthefoodand/orwater(units=hours)1100=factortoconvertfrom(Ci/year)/(ft
                                                              ~sw  7  Cl QMPCi where C.
/sec)topCi/liter ValuesforR..arecontained inTable2-1.Alloftheseapj1valuesofR..areonaperCuriebasisforeachoftheapjlnuclidesreleased.
1
Table2-2indicates thoseparameters usedforselectedfactorsoftheformula.Priortoeachradioactive liquiddischarge, eachliquidwastetanktobedischarged willbeanalyzedforisotopecontentutilizing aGeLidetector.
                            =  concentration of isotope i in the sample (units = uCi/ml)
Onthebasisofthisanalysis, projected dosestoanadultwholebodyandateenliverwillbecalculated usingthefollowing relationships:
TDF =      Total Dilution Flow (units       = gallons/min)
F
                          =  Service Water Flow (units     =   gallons/min)
                  'CF =     monitor calibration factor (units          = net cps/uCi/ml)
MPC. =          liauid effluent radioactivity concentration limit for radionuclide i as specified in 10 CFR 20, Appendix 8, Table      II, Column 2,    for those nuclides present in the previous batch release from the    liauid  radwaste    effluent  system or  for those nuclides present in the last Semi-annual Radioactive Effluent Release Report (units          =
uCi/ml) or for those nuclides present in the service water system.**
0.9    =      factor to account for the presence of Is emitters C. =
i            Required Dilution Factor MPC.
TDF =          Actual Dilution Factor
** For periods with known reactor water to          RCLC  system leakage,    RCLC maximum permissible concentration        may be  prudently substituted for the above.
0 a
Setpoint (Hi alarm) ~ 0.7 Setpoint (Hi-Hi alarm) 2.1e3 Liauid Radwaste Effluent Line Alarm Setpoint The    detailed methods for establishing setpoints for the Liauid Radwaste      Effluent Line Monitor shall    be  contained in the Nine Mile Point Station Procedures.         These methods      shall  be in accordance        with the following:
Setpoint (Hi-Hi alarm)~ 0.9 (QC)i              TD      CF  $  + background
                                                      ~re    gli where      C  =    activity of isotope i in the j
sample  (units  =
uCi/ml)
TDF =          Total Dilution Flow (units    =  gallons/min)
F re
              =      Radwaste  Effluent Flow (units    =  gallons/min)
CF =          monitor calibration. factor (units      =  net cps/uCi/ml)
MPC. =
1 liauid effluent radioactivity concentration limit for r adionuclide i  as specified in    10 CFR 20, Appendix B, Table  II,  Column 2, for  those nuclides detected by spectral analysis of the contents of the radwaste tanks to be released  (units  =  uCi/ml)
Oe9 =      factor to account for      emitters C. =          Reauired Dilution Factor 1
MPC.
1


POWB-1.05gR'1(WB)C.PBL1'05QR"(L)CWh~rePDWBProjected doseexpectedtothewholebodyofanadultduetothereleaseoftheidentified concentration ofnuclide"i".(Units=mrem/year)
I I
PDL=Projected doseexpectedtotheliverofateenagerduetothereleaseoftheidentified concentration ofnuclide"i"(units=mrem/year)
Ri(WB)=totalannualdosetothewholebodyofanadultcausedbytheingestion ofnuclide"i"perCurieofnuclide"i"released(units=mrem/year/Curi e)Ri(L)=totalannualdosetotheliverofateenagercausedbytheingestion ofnuclide"i"perCurieofnuclide"i".released (units=mrem/year/Curi e)C.quantityofnuclide"i"identified aspresentintherelease(units=Curies)
I 1.05=correction factortoaccountfor100Kofdoseassumingthat95Kofdosereceivedisdelivered viathefishingestion pathway.Thebasisforthederivation oftheaboveparameters iscontained inthepreceding pages6,7and8andonpage10.Asstated,ithasbeendetermined thatgreaterthan95Koftheprojected organandwholebodydosefromtheliquidpathwaycomesfromingestion offish.Thevalueof1.05isusedinthe'quationasaconservative factortoincreasetheprojected dosefromananticpated releaseto100K.Allprojected dosescalculated inthismannerforeachbatchofliquideffluentwillbesummedforcomparison withquarterly andannuallimits,addedtothedosesaccumulated fromotherreleasesinthequarterandyearofinterest.
Inallcases,thefollowing relationships willhold:Foracalendarquarter:0~1.5mremtotalbody045mremforanyorgan


Forthecalendaryear:043.0mremtotalbodyDt~10mremforanyorganwhere0=totaldosereceivedduetoliauideffluenttreleasesIftheselimitsareexceeded, aspecialreportwillbesubmitted totheNRCidentifying thecauseandproposedcorrective actions.Inaddition, iftheselimitsareexceededbyafactoroftwo,calculations shallbemadetodetermine ifthedoselimitscontained in40CFR190havebeenexceeded.
Setpoint (Hi alarm) ~ 0.7 Setpoint (Hi-Hi Alarm)
Doselimits,ascontained in40CFR190aretotalbodyandorgandosesof25mremperyearandathyroiddoseof75mremperyear.Thesecalculations willincludedosesasaresultofliauidandgaseouspathwaysaswellasdosesfromdirectradiation.
Note:         If TDF  =      Ci
Liauid,gaseousanddirectradiation pathwaydoseswillconsidertheJamesA.FitzPatrick facilityaswellasNineMilePointNuclearStation.Intheeventthecalculations demonstrate thatthe40CFR190doselimits,asdefinedabove,havebeenexceeded, thenareportshallbepreparedandsubmitted totheCommission within30daysasspecified inSection3.6.15.doftheTechnical Specifications.
                        ~re      MPCi the discharg~ coulo not be made. since the monitor would be continuously in alarm.           To avoid this situation,    F re will be reduced (normally by        a  factor of 2) to allow setting the alarm plaint at a concentration higher than tank concentration.                This will also result in discharge        canal concentration at approximately 50k      maximum, permissible concentration.
Section4.0oftheODCMcontainsmoreinformation concerning calculations foranevaluation ofwhether40CFR190limitshavebeenexceeded.
after the      .batch release has been made from the          liquid radwaste effluent system, the setpoint            may remain    the same  or be returned to      a  level based on the previous        Semi -annual Radioactive Effluent Release Report where an actual release                    was made.
II I3.0GASEOUSEFFLUENTS
              '.2 Dose  Determination 2.2.1 Maximum Oose        Equivalent Pathway A  dose assessment      report    was prepareo  for the  Nine Mile Point Unit  1  facility by    Charles T. Main,     Inc., of Boston,   MA. This report presented the calculated dose equivalent rates                  zo individuals      as  well  as  the population within    a  50-mile radius of the    facility based      on  the radionuclides released in liquid and gaseous      effluents during the time periods of          1  July 1980 through    31  Oecember  1980 and from    1 January 1981 through      31 Oecember    1981. Utilizing the effluent      data contained in the J
)3.1SetpointDeterminations
Semi-Annual Radioactive        Effluent Release Reports      as source terms, dose equivalent rates were determined using the environmental pathway models specified in Regulatory Guides
'.1.1BasisThemonitorsetpoints willbeestablished suchthattheinstantaneous releaserateofradioactive materials ingaseouseffluents doesnotexceedthe10CFR20limitsforannualrelease.Thesetpoints willbeactivated iftheannualdoseatorbeyondthesiteboundarywouldexceedSOOmremtothewholebodyor3000mremtotheskinfromthecontinuous releaseofradioactive noblegasinthegaseouseffluent.
: l. 109  and  l. ill as  incorporated in the      NRC  computer codes LADTAP  for liquid    pathways, and    XOQDOQ  and GASPAR  for  gaseous effluent pathways.       Dose  equivalent rates were calculated for the total body as well      as seven organs      and/or tissues  for adults, teenagers,     children,    and  infants. From the standpoint of liquid effluents the pathways evaluated included fish ingestion, drinking water,        and  external exposure to water      and sediment.
TheStackGasMonitorsetpoints willbedetermined oncepermonthandwillbebasedontheisotopiccomposition oftherelease.Ifthecalculated setpointislessconservative thantheexistingsetpointitisnotmandatory thatthesetpointbechanged.Duringoutages,thelastoperating setpointshallbeused.Following anoutageofgreaterthan30daysthesetpoints atthetimeofshutdownshallbeutilizeduntilsuchtimeasthecurrentisotopiccomposition oftheeffluenthasbeendetermined; thisperiodmaynotexceedonemonth.3.1.2StackMonitorSetpointThedetailedmethodsforestablishing setpoints shallbecontained inthestationprocedures.
Based on    the findings of the above referenced report, the maximum  total  body dose from    all liquid    pathways  is received    by an  adult. Similarly, the    maximum total    dose  to any organ  is received by the teen      liver. In both of these cases    (i.e.,
Thesemethodsshallbeinaccordance withthefollowing:  
adult whole body dose      and  teen  liver dose),   99K and 98K respectively of these doses were received via the fish ingestion pathway.
~l,I (1)ThereleaseratelimitfornoblegasesfromNineMilePointUnit1is:$[(}(1.6Ey+03E.)]~1where:i=Qi=Eanindividual nuclidereleaseratefromNineMilePointUnit1mainstackinCi/secforisotopeitheaveragegammaenergyperdisintegration theaveragebetaenergyperdisintegration RefertoTable3-1forE~andEpvalues.(2)Utilizing theisotopiccomposition ofnoblegasreleases, determine f.(thefractionofeachnoblegasisotopein1theeffluent) theconcentration inuCi/ccofisotopeiinthegaseouseffluent.
In order to determine the dose contribution from the release of liquid effluents, the      annual dose    to  an  adult whole body    and a teen  liver will  be  calculated for each of the significant nuclides (see Table 2-l) identified in the liquid waste based on  the  fish ingestion    pathway    utilizing  the following formula:
(3)Determine themaximumacceptable releaserateQmax(Ci/sec)fortheisotopicmixtureofnoblegases.Qmax=fi16iy+03E W,0
  ~i I
(<)Oetermine theHiHialarmpointvalueHiHiAlarmPoint=L(('@ax)(CF)
)CF=Calibration Factor(netcps/Ci/sec)
(5)TheHialarmpointvaluei's1/2theHi.Hialarmpointvalue.3.1.3Recombiner Oischarge MonitorThereleaserateattheRecomhiner Discharge t'onitorislimitedto500,000uCi/sec(1Ci/secforupto60days).(1')TheHiHialarmpointvalue.isdetermined as.follows:?HiHialarmpoint'=3/4&#x17d;X500,000uCi/sec=11,900mr/hr31.5uCi/sec/mr/hr""
"(2)and,theHi-alarmpointvalueisHialarmpoint=1/4*X500,000uCi/sec=3,960mr/hr3.5ussec/mr/hr
*3/4and1/4represent factorsofconservatism whichmaybesetlessconservative ifisotopicanalysisfrequency isincreased frommonthlytoweekly.*"Typicalvalue,asdetermined byisotopicanalysis.
3.2OoseOetermination 3.2.1OoseRate3.2.1.1NobleGasesInaccordance withtheprovisions of10CFR20thedoseratesfromnoblegasreleasetounrestricted areasaretobelimitedto500mrem/yrtothetotal I1 bodyand3,000mrem/yrtotheskin.Themonitoralarmsetpointdeterminations inSection3.1arebasedonthislimitandsettingthealarmsetpoints inthemannerspecified willassurethattheselimitsarenotexceeded.
3.2.1.2Tritium,IodinesaridParticulates Thedoserateinunrestricted areasfromthereleaseoftritium,iodine-131, iodine-133 andallradionuclides inparticulate formwithhalflivesgreaterthan8daysislimitedto1500mrem/year toanyorgan.Inordertoassurethatthislimitisnotexceededtheaverageannualreleaserateoftritium,I-131,I-133andparticulates withhalflivesgreaterthan8daysshallbe:12X10Q~1where:Q=releaseratefromUnit1stackinPCi/secorthemaximumreleaserate(Qpmax)shallnotexceed:Qpmax=1=8~3X10-5Ci/sec~=83uCi/secO~3.2.2DoseCalculations willbeperformed monthlytodemonstrate thatdosesresulting fromthereleaseofnoblegases,tritium,I-131,I-133andparticulates withhalflivesgreaterthan8daysarewithinthelimitsspecified in10CFR50,AppendixI.Theselimitsare:
0 NobleGas5mrgamma/calendar quarter10mradbeta/calendar quarter10mrgamma/calendar year20mradbeta/calendar yearRadioiodines Tritium8Particulates 7.5mremtoanyorgan/calendar quarter15mremtoanyorgan/calendar year3.2.2.1NobleGasTheairdoseatthecriticalreceptorduetonoblegasreleasesis'etermined asfollows:Forgamma,radiation D=3.17x10$M.X/01}.Forbetaradiation DD=3.17x10$N.X/QQ.whereM.=airgammadosefactorin(mr/year1peruCi/m)foreachisotopei(Table3-3)  


N.=1airbetadosefactor(mrad/year peruCi/m)foreachisotopei(Table3-3)X/Q=thehighestcalculated 5yearannualaveragerelativeconcentration forareasatorbeyondthesiteboundary(sec/m)(Table3thetotalquantityofisotopeireleasedduringtheperiod,(uCi)3.17X10=theinverseofthenumberofsecondsinayear3.2.2.2Radioiodine, Tritium5Particulates Thedosestoanindividual fromI-131,I-133,tritium,andparticulates withhalflivesgreaterthan8dayswillbecalculated monthlyasfollows:Dose=3.17X10g$RiakW.Q.A.WhereW.=dispersion parameter eitherX/QorJD/Qdepending onpathwaythetotalquantityofisotopeireleasedduringtheperiod,(uCi)
F Where Ra  .= total  annual dose to organ    "j" of individuals of  age group "a" from    all of  the nuclides "i" in  pathway "p"  (units  =  mrem/year - Ci) usage  factor specifying the exposure time or ap intake rate for    an individual of  an age group "a" associated    with pathway "p" (units  = kg/year)
C R..=thedosefactorforeachisotopei,pathwayijakj,agegroupa,andorgank(Table3-4,AthroughS)3.17X10=theinverseofthenumberofsecondsinayearTheRvaluescontained inTable3-4werecalculated usingthemethodology definedinNUREG-0133 andRegulatory Guide1.109,Revisionl.3.2.2.3Accumulating DosesDoseswi11becalculated monthlyfortheidentified criticalorgan,agegroup,andpathway,andtheresultswillbesummedforeachcalendarauarterandyear.Ithasbeenhistorically demonstrated thatthecriticalpathwayisusuallythegrass-cow-milk pathwayandthecriticalorganistheinfant'sthyroid.Thecriticaldosesarebasedonthefollowing pathways.
M          mixing rates (reciprocal of dilution factor)
noblegasplumedosegroundplanedose(deposition) inhalation dosecow'smilkdosegoat'smilkdosemeatconsumption dosevegetation (foodcrops)dose
P at the point of exposure or point of harvest (units  = dimensionless) flow rate of the liquid effluent (units      =
ft /sec) release rate of radionuclide      "i" (units  =
Ci/year) equi librium bioaccumulation    factor for lp nuclide "i " in pathway "p" (units    =
liters/kg)


Criticalreceptorlocations havebeenidentified forthepurposesofevaluating eachpathway.Thesereceptorlocation's arecontained inTable3-2.Forthenoblegasplumedoseandinhalation dosethecriticalX/gresidence isapplicable.
the dose factor, specific to            a  specific  age alpj group "a", radionuclide        "i", pathway      "p",
Forthemilk,meatandvegetation dose,thecriticalreceptorlocations arethecritical0/gmilkcowlocation, milkgoatlocation, meatanimallocationandcriticalD/9gardenlocation.
and organ      "j", which    can be  utilized to calculate the radiation          dose from an      intake of  a  radionuclide (units      =  mrem/pCi) radioactive decay constant of nuclide              "i" (units    =  hours    )
Thequarterly andannualresultsshallbecomparedtothelimitslistedinparagraph 3.2.2.Ifthelimitsareexceeded, specialreportsasreauiredbySection6,9.3oftheTechnical Specification mustbesubmitted.
the average      transit time required for nuclides to reach the point of exposure.
3.3CriticalReceptors Inaccordance withtheprovisions of10CFR20and10CFR50,AppendixI,thecriticalreceptors willbeidentified.
For  internal dose,    t p is  the total time elapsed between the release of the nuclides and  the ingestion of the food and/or water (units    =  hours) 1100 =          factor to convert from (Ci/year)/(ft /sec) to pCi/liter Values for  R    .. are contained in Table 2-1.             All of these apj1 values of  R    ..
Fornoblegases,onlytheexternalnoblegasplumedosepathwaywillbeIconsidered andthelocationofconcernwillbethegreatestX/gresidence asdetermined inspecification 3.6.22oftheTechnical Specifications.
apjl are    on a per      Curie basi  s  for  each  of the nuclides released.       Table 2-2 indicates those parameters              used for selected factors of the formula.
ForI-133,I-131,tritiumandparticulate radionuclides withahalflifeofgreaterthaneightdays,thecriticalpathwaysaremilk(cowandgoat),meat,vegetation, inhalation anddirectradiation (groundplane)asaresultofgrounddeposition.
Prior to  each    radioactive liquid discharge,           each    liquid  waste tank to be discharged        will    be  analyzed  for isotope content utilizing  a GeLi    detector.       On  the basis of this analysis, projected doses to      an  adult whole body      and a teen      liver will  be calculated using the following relationships:
C Thecowmilkandgoatmilkpathwaywillbebasedonthegreatest0/9milkcowandmilkgoatlocationasdetermined inspecification 3.6.22.Theinhalation dosepathwaywillbebasedonthegreatestX/gresidence asdetermined inspecification 3.6.22sincethislocationwouldhavethegreatestpotential residence time.Thiscriticalreceptorlocationisthesameasthelocationusedforthenoblegasplumedosepathway.Thegroundplanedosepathwaywillbecalculated asthegreatest0/gresidence becauseofthegreatestpotential residence time.Forthemeatconsumption dosepathway,thecriticalreceptoristhegreatest0/gmeatanimallocation.
Thislocationisdetermined inconjunction withthelandusecensus(specification 3.6.22).Thevegetation (foodcrop)doseisbasedonthegreatest0/ggardenlocation.
Thislocation, asthecriticalmeatanimallocation, willbedetermined inconjunction withthelandusecensus.
l0
)4~040CFR190RE'gUIREMENTS The"UraniumFuelCycle"isdefinedin40CFRPart190.02(b)asfollows:"Uraniumfuelcyclemeanstheoperations ofmillingofuraniumore,chemicalconversion ofuranium,isotopicenr'ichment ofuranium,fabrication ofuraniumfuel,generation ofelectricity byalight-water-cooled nuclearpowerplantusinguraniumfuel,andreprocessing ofspenturaniumfuel,totheextentthatthesedirectlysupporttheproduction ofelectrical powerforpublicuseutilizing Inuclearenergy,butexcludesminingoperations, operations atwastedisposalsites,transportation ofanyradioactive materialinsupportoftheseoperations, andthereuseofrecovered non-uranium specialnuclearandby-product materials fromthecycle."Section3.6.15.doftheTechnical Specifications requiresthanwhenthecalculated dosesassociated withtheeffluentreleasesexceedtwicethespecified limitsofsections3.6.15.a.(2)(b),
3.6.15.b.(2)(b) and3.6.15.b.(3)(b),
thencalculations shallbemadeincluding directradiation contributions fromthereactorunitsandoutsidestoragetanks(asapplicable) todetermine whethertheabove40CFR190doeslimitshavebeenexceeded.
Ifsuchisthecase,NiagaraMohawkshallsubmitaSpecialReporttotheNRCandlimitsubsequent releasessuchthatthedosecommitment toarealindividual fromalluraniumfuelcyclesourcesislimitedto~25mremtothetotalbodyoranyorgan(exceptthethyroid,whichislimitedto75mrem)overthecalendaryear.Thisreportistodemonstrate thatradiation exposures toallrealindividuals fromalluraniumfuelcyclesources(including allliquidandgaseouseffluentpathwaysanddirectradiation) arelessthanthelimitsin40CFRPart190.Ifreleasesthat


resultindosesexceeding the40CFR190limitshaveoccurred, thenavariancefromtheNRCtopermitsuchreleaseswillberequested andifpossible, actionwillbetakentoreducesubsequent releases.
POWB 1.05    gR    '1(WB)
ThereporttotheNRCshallcontain:1)Identification ofalluraniumfuelcyclefacilities oroperations within5milesofthenuclearpowerreactorunitsatthesite,thatcontribute totheannualdoseofthemaximumexposedmemberofthepublic.2)Identification ofthemaximumexposedmemberofthepublicandadetermination ofthetotalannualdosetothispersonfromallexistingpathwaysandsourcesofradioactive effluents anddirectradiation.
C.
Thetotalbodyandorgandosesresulting fromradioactive materialinliquideffluents fromNineMilePointUnit1willbesummedwiththedosesresulting fromthereleasesofnoblegases,radioiodines, andparticulates forpreceeding 3quartersandfromthequarterinwhichtwicethelimitwasexceeded.
1'05 PBL Q    R
Thedirectdosecomponents willalsobedetermined byeithercalculation oractualmeasurement.
                          "(L)   C Wh~re  PDWB            Projected dose expected to the whole body of an  adult  due to the release of the identified concentration of nuclide "i".
ThedosesfromNineMile'Point Unit1willbeaddedtothedosestothemaximumexposedindividual thatarecontributed fromotheruraniumfuelcycleoperations.
(Units  =  mrem/year)
Forthepurposeofcalculating doses,theresultsoftheRadiological Environmental Monitoring Programm'aybeincludedforproviding morerefinedestimates ofdosestoarealmaximumexposedindividual.
PDL
Estimated doses,ascalculated fromstationeffluents, maybereplacedbydosescalculated fromactualenvironmental sampleresults.  
              =        Projected dose expected to the        liver of  a teenager due to the release of the identified concentration of nuclide "i" (units  =  mrem/year)
R i (WB)
                    =  total  annual dose to the whole body of an adult  caused by the    ingestion of nuclide      "i" per Curie of nuclide      "i" released (units      =
mrem/year/Curi e)
R i(L)
                    =  total  annual dose to the    liver of  a  teenager caused by the ingestion      of nuclide    "i" per Curie of nuclide    "i".released (units      =
mrem/year/Curi e)
C.             quantity of nuclide "i " identified        as present in the release      (units  =  Curies)


4.1Evaluation ofDosesFromLiquidEffluents Fortheevaluation ofdosestorealmembersofthepublicfromliquid.effluents; thefishconsumption andshoreline sedimentgrounddosewillbeconsidered.
I 1.05  =        correction factor to account for      100K  of dose assuming  that  95K  of dose received      is delivered via the fish ingestion pathway.
Thedoseassociated withfishconsumption maybecalculated usingtheODCMmethodology orbycalculating adosetomanbasedonactualfishsampleanalysisdata.Thedoseassociated withshoreline sedimentisbasedontheassumption thattheshoreline wouldbeutilizedasarecreational area.Thisdosemaybederivedfromliquideffluentdataorfromactualshoreline sedimentsampleanalysisdata.Dosestomembersofthepublicfromthefishconsumption andshoreline sedimentpathwayswillbecalculated usingRegulatory Guide1.109methodology orOOCMmethodology.
The basis    for the derivation of the    above parameters    is contained in the preceding pages 6,      7 and 8 and on page      10. As stated,  it has  been determined  that greater than    95K  of the projected organ    and whole body dose from    the liquid pathway comes  from ingestion of    fish. The value  of 1.05 is    used  in the
4.2Evaluation ofDosesFromGaseousEffluents Fortheevaluation ofdosestorealmembersofthepublicfromgaseouseffluents, thepathwayscontained insection3.2.2.3oftheODCMwillbeconsidered.
'quation    as a  conservative factor to increase the projected dose from an    anticpated release to 100K.
However,anyupdatedfielddatamaybeutilizedthatconcernslocations ofrealindividuals, realtimemeteorological data,locationofcriticalreceptors, etc.Datafromthemostrecentcensusandsamplelocationsurveysshouldbeutilized.
All projected    doses calculated  in this manner for each batch of liquid effluent will    be summed  for comparison with quarterly and annual    limits, added  to the doses accumulated from other releases  in the quarter    and year of interest. In  all  cases, the following relationships      will hold:
Dosesmayalsobecalculated fromactualenvironmental samplemedia,asavailable.
For a calendar    quarter:
Environmental samplemediadatasuchasTLD,airsample,milksampleandvegetable (foodcrop)sampledatamaybeutilizedinlieuofeffluentcalculational data.  
0  ~  1.5 mrem  total  body 0  4  5 mrem  for  any organ


Dosestomembersofthepublicfromthepathwayscontained inODCMsection3.2.2.3asaresultofgaseouseffluents willbecalculated usingthedosefactorsofRegulatory Guide1.109orthemethodology oftheODCM,asapplicable.
For  the calendar year:
4.3Evaluation ofDosesFromDirectRadiation Section3.6.15.doftheTechnical Specifications reauiresthatthedosecontribution asaresultofdirectradiation beconsidered whenevaluating whetherthedoselimitations of40CFR190havebeenexceeded.
04    3.0  mrem  total  body Dt  ~  10 mrem    for any organ where 0 t  =      total  dose received due  to liauid effluent releases If these  limits  are exceeded,    a special report will be submitted to the      NRC  identifying the cause and proposed corrective actions.         In addition,  if these limits are exceeded by a factor of two, calculations shall be made to determine if the dose limits contained in 40 CFR 190 have been exceeded.
Directradiation dosesasaresultofthereactor,turbineandradwastebuildings andoutsideradioactive storagetanks(asapplicable) maybeevaluated byengineering calculations orbyevaluating environmental TLDresultsatcriticalreceptorlocations, siteboundaryorotherspecialinterestlocations.  
Dose limits, as contained in 40 CFR 190 are total body and organ doses of 25 mrem per year and a thyroid dose of 75 mrem per year. These calculations will include doses as a result of liauid and gaseous pathways as well as doses from direct radiation. Liauid, gaseous and direct radiation pathway doses will consider the James A. FitzPatrick facility as well as Nine Mile Point Nuclear Station.
In the event the calculations demonstrate that the 40 CFR 190 dose limits, as defined above, have been exceeded, then a report shall be prepared and submitted to the Commission within 30 days as specified in Section 3.6.15.d of the Technical Specifications.
Section 4.0 of the      ODCM  contains more information concerning calculations for      an  evaluation of whether 40 CFR 190 limits have been exceeded.
I I I
3.0 GASEOUS EFFLUENTS
  )
: 3. 1 Setpoint Determinations
                                        '.1.1 Basis The  monitor setpoints          will be established    such that the instantaneous    release rate of radioactive materials in gaseous effluents  does not exceed the 10          CFR  20 limits for  annual release. The  setpoints        will be activated    if the  annual dose at or beyond the site boundary would exceed            SOO  mrem  to the whole body or 3000 mrem          to the skin from the continuous release of radioactive noble          gas in the gaseous effluent.      The Stack Gas Monitor setpoints          will be determined once per month and      will be based on the    isotopic composition of the release.            If the calculated setpoint is less conservative than the existing setpoint  it is  not mandatory that the setpoint be changed.
During outages,     the last operating setpoint shall be used.
Following  an  outage of greater than 30 days the setpoints at the time of shutdown shall            be utilized until  such time as the current isotopic composition of the effluent              has been determined;    this period        may  not exceed one month.
3.1.2 Stack Monitor Setpoint The  detailed methods for establishing setpoints shall              be contained in the station procedures.              These methods  shall be  in accordance  with the following:
  ~l, I


==5.0 ENVIRONMENTAL==
(1) The release rate        limit for  noble gases from Nine Mile Point Unit  1 is:
MONITORING PROGRAM)5.1SamplingStationsThecurrentsamplinglocations arespecified inTable5-1andFigures5.1-1,5.1-2.TheEnvironmental Monitoring ProgramisajointeffortbetweentheNiagaraMohawkPowerCorporation andtheNewYorkPowerAuthority, theownersandoperators oftheNineMilePointUnit1andtheJamesA.FitzPatrick NuclearPowerPlant,respectively.
      $ [(}  (1.6E    y    + 0 3 E.  )] ~    1 where:    i  =     an  individual nuclide Qi
Samplinglocations arechosenonthebasisofhistorical averagedispersion ordeposition parameters frombothunits.Theaveragedispersion anddeposition parameters forthetwounitshavebeencalculated fora5yearperiod,1978through1982.Thesedispersion calculations areattachedasAppendixC.Thecalculated dispersion ordeposition parameters willbecomparedtotheresultsoftheannuallandusecensus.Ifitisdetermined thatamilksamplinglocati'on existatalocationthatyieldsasignificantly highe~(e.g.50K)calculated D/grate,thenewmilksamplinglocationwillbeaddedtothemonitoring programwithin30days.Ifanewlocationisadded,theoldlocationthatyieldsthelowestcalculated D/gmaybedroppedfromtheprogramafterOctober31ofthatyear.5.2Interlaboratory Comparison ProgramAnalysesshallbeperformed onsamplescontaining knownauantities ofradioactive materials thataresuppliedaspartofaCommission approvedorsponsored Interlaboratory Comparison Program,suchasthe I
                        =     release rate from Nine Mile Point Unit 1 main stack  in Ci/sec for isotope i E            the average  gamma  energy per disintegration the average beta energy per disintegration Refer to Table 3-1       for E~    and Ep values.
EPACrosscheck Program.Participation shallbeonlyforthosemedia,e.g.,air,milk,water,etc.,thatareincludedintheNineMilePointenvironmental monitoring programandforwhichcrosschecksamplesareavailable.
(2) Utilizing the isotopic composition of noble gas releases, determine f1. (the fr action of each noble gas isotope in the effluent) the concentration in uCi/cc of isotope        i in the gaseous effluent.
Thesiteidentification symbolortheactualgualityControlsampleresultsshallbereportedintheAnnualRadiological Environmental Operating ReportsothattheCommission staffmayevaluatetheresults.5.3Capabilities forThermoluminescent Dosimeter sUsedforEnvironmental Measurements Reauireddetection capabilities forthermoluminescent dosimeters usedforenvironmental measurements reauiredbyTable4.6.20-1, footnoteboftheTechnical Specifications arebasedonANSIStandardN545,section4.3.Reauireddetection capabilities areasfollows.TLDsaredefinedasphosphors packagedforfielduse.Inregardtothedetection capabilities forthermoluminescent dosimeters, onlyonedetermination isreauiredtoevaluatetheabovecapabilities pertypeofTLD.Furthermore, theabovecapabilities maybedetermined bythevendorwhosuppliestheTLDs.5.3.1Uniformity shallbedetermined bygivingTLDsfromthesamebatchanexposureeaualtothatresulting fromanexposurerateof10uR/hrduringthefieldcycle.Theresponses obtainedshallhavearelativestandarddeviation oflessthan7.5X.Atotalofatleast5TLDsshallbeevaluated.
(3) Determine the    maximum    acceptable release rate    Qmax  (Ci/sec) for the isotopic mixture of noble          gases.
Qmax =
fi    1  6   iy+ 03E W,
0


Reproducibility shallbedetermined bygivingTLDsrepeatedexposures eaualtothatresulting fromanexposurerateof10uR/hrduringthefieldcycle.Theaverageoftherelativestandarddeviations of.theresponses shallbelessthan3.N,.Atotalofatleast4TLDsshallbeevaluated.
(<) Oetermine the Hi Hi alarm point value Hi Hi  Alarm Point      = L(('@ax)(CF) )
Dependence ofexposureinterpretation onthelengthofafieldcycleshallbeexaminedbyplacingTLDsforaperiodeaualtoatleastafieldcycleandaperiodequaltohalfthesamefieldcycleinanareawheretheexposurerateisknowntobeconstant.
CF =  Calibration Factor (net cps/Ci/sec)
Thistestshallbeconducted underapproximate averagewintertemperatures andapproximate averagesummertemperatures.
(5)  The Hi    alarm point value i's 1/2 the Hi. Hi alarm point value.
Forthesetests,theratiooftheresponseobtainedinthefieldcycletotwicethatobtainedforhalfthefieldcycleshallnotbelessthan0.85.Atleast6TLDsshallbeevaluated.
3.1.3 Recombiner Oischarge Monitor The  release rate at the Recomhiner Discharge t'onitor is limited to 500,000 uCi/sec        (1  Ci/sec for up to 60 days).
Energydependence shallbeevaluated bytheresponseofTLDstophotonsforseveralenergiesbetweenapproximately 30keVand3MeV.Theresponseshallnotdifferfromthatobtainedwiththecalibration sourcebymorethan25Kforphotonswithenergiesgreaterthan80keVandshallnotbeenhancedbymorethanafactoroftwoforphotonswithenergieslessthan80keV.Atotalofatleast8TLDsshallbeevaluated.  
(1') The Hi Hi alarm        point value. is determined as. follows:
                                        ?
                                                '= 3/4' Hi Hi alarm      point            X  500,000 uCi/sec = 11,900 mr/hr
: 31. 5  uCi/sec/mr/hr""
                " (2) and,    the  Hi -alarm    point value is Hi  alarm point      =  1/4*  X 500,000 uCi/sec = 3,960 mr/hr 3 .5  u  s  sec/mr/hr
*3/4 and 1/4 represent factors of conservatism which may be set less conservative if isotopic analysis frequency is increased from monthly to weekly.
*" Typical value,    as  determined by isotopic analysis.
3.2  Oose  Oetermination 3.2.1  Oose Rate 3.2.1.1      Noble Gases In accordance with the provisions of 10          CFR  20  the dose rates from noble gas release          to unrestricted areas  are to be limited to 500 mrem/yr to the          total I 1 body and 3,000 mrem/yr          to the skin.      The  monitor alarm setpoint determinations in Section 3.1 are                  based on this limit and setting the            alarm setpoints in the manner  specified will assure that these limits are not exceeded.
3.2.1.2  Tritium, Iodines        arid  Particulates The dose  rate in unrestricted areas from the release of tritium, iodine-131, iodine-133              and  all r adionuclides      in particulate form with half lives greater than      8 days    is limited to      1500 mrem/year    to any organ.      In order to assure that          this limit is not exceeded  the average annual release rate of                tritium, I-131, I-133      and  particulates with half lives greater than  8 days    shall be:
12X10        Q    ~    1 where:      Q
                                  =  release rate from Unit          1  stack in P
Ci/sec or the          maximum  release rate (Qpmax) shall not exceed:
                      =                    = 8 ~ 3X10-5  Ci/sec    = 83  uCi/sec Qpmax          1                                  ~
O~
3.2.2 Dose Calculations  will be    performed monthly to demonstrate              that doses  resulting from the release of noble gases, tritium, I-131, I-133  and  particulates with half lives greater than                8 days are  within the limits specified in              10 CFR 50, Appendix      I.
These limits are:
0 Noble Gas 5 mr  gamma/calendar        quarter 10 mrad  beta/calendar quarter 10 mr gamma/calendar          year 20 mrad  beta/calendar year Radioiodines        Tritium    8  Particulates 7.5  mrem  to any organ/calendar quarter 15 mrem  to  any organ/calendar        year 3.2.2.1    Noble Gas The    air  dose at the    critical    receptor due to noble gas releases      is'etermined      as  follows:
For    gamma,   radiation D      =  3.17 x 10        $ M. X/0    1}.
For beta radiation DD
                =  3.17 x 10        $ N. X/Q  Q.
where M. =
1 air  gamma    dose  factor in (mr/year per uCi/m      )  for  each isotope  i (Table 3-3)


Thedirectional dependence oftheTLDresponseshallbedetermined bycomparing theresponseoftheTLOexposedintheroutineorientation withrespecttothecalibration sourcewiththeresponseobtainedfordifferent orientations.
N. =
Toaccomplish this,theTLDshallberotatedthroughatleasttwoperpendicular planes.Theresponseaveragedoveralldirections shallnotdifferfromtheresponseobtainedinthestandardcalibration positionbymorethanlOX.Atotalofatleast4TLOsshallbeevaluated.
1 air  beta dose factor (mrad/year per uCi/m    )  for  each isotope  i (Table 3-3)
Lightdependence shallbedetermined byplacingTLDsinthefieldforaperiodequaltothefieldcycleunderthefourconditions foundinANSIN545,section4.3.6.TheresultsobtainedfortheunwedappedTLDsshallnotdifferfromthoseobtainedfortheTLDswrappedinaluminumfoilbymorethanle.Atotalofatleast4TLDsshallbeevaluated foreachofthefourconditions.
X/Q =        the highest calculated        5 year annual average relative concentration for          areas at or beyond    the site boundary (sec/m 3 ) (Table the total quantity of isotope          i released during the period, (uCi) 3.17  X  10    =  the inverse of the number of seconds in  a year 3.2.2.2 Radioiodine, Tritium        5  Particulates The doses    to  an  individual from I-131, I-133, tritium, and  particulates with half lives greater than            8 days will  be  calculated monthly      as  follows:
Moisturedependence shallbedetermined byplacingTLOs(thatis,thephosphors packagedforfielduse)foraperiodequaltothefieldcycleinanareawheretheexposurerateisknowntobeconstant.
Dose = 3.17    X  10        g $      Ri ak  W .Q.
TheTLDsshallbeexposedundertwoconditions:
A.
(1)packagedinathin,sealedplasticbag,and(2)packagedinathin,sealedplasticbagwithsufficient watertoyieldobservable moisturethroughout thefieldcycle.TheTLOorphosphor, asappropriate, shallbedriedbeforereadout.The I
Where W . =  dispersion parameter either          X/Q  or J
responseoftheTLDexposedintheplasticbagcontaining watershallnotdifferfromthatexposedintheregularplasticbagbymorethanlOX.Atotalofatleast4TLDsshallbeevaluated foreachcondition.
D/Q depending      on pathway the total quantity of isotope i released during the period, (uCi)
Selfirradiation shallbedetermined byplacingTLDsforaperiodeaualtothefieldcycleinanareawheretheIexposurerateislessthan10uR/hrandtheexposureduringthefieldcycleisknown.Ifnecessary, corrections shallbeappliedforthedependence ofexposureinterpretation onthelengthofthefieldcycle(ANSIN545,section4.3.3).Theaverageexposureinferredfromtheresponses oftheTLDsshallnotdifferfromtheknownexposurebymorethananexposureeaualtothatresulting fromanexposurerateof10uR/hrduringthefieldcycle.Atotalofatleast3TLDsshallbeevaluated.
C R..
V1 TABLE2-1RgpjiVALUESFORTHENINEMILEPOINTUNIT1FACILITYNUCLIUE89Sr90sr134Cs137Cs58co60co54MnADULT-TOTALBODYRgi(MREM/YR-Ci) 2.05E-34.37E-11.89E+01.12E+06.47E-41.85E-32.72E-32.87E48.38E-41.19E-2TEEN-LIVERRgi(MREM/YR-Ci
ijak
)N/AN/A2.35E+01.78E+0
                =    the dose factor    for  each isotope    i,  pathway j,  age group a, and organ k (Table      3-4, A through S) 3.17  X  10    =  the inverse of the number of seconds in  a year The  R  values contained in Table 3-4 were calculated using the methodology defined in          NUREG-0133 and Regulatory Guide 1.109, Revision          l.
3.2.2.3 Accumulating Doses Doses wi 11 be      calculated monthly for the identified critical      organ, age group, and pathway, and the results will        be summed  for each calendar auarter      and year.     It has    been  historically  demonstrated    that the critical      pathway    is usually the grass-cow-milk      pathway and  the    critical    organ is the infant's thyroid.       The critical      doses  are based on the following pathways.
noble gas plume dose ground plane dose (deposition) inhalation      dose cow's milk dose goat's milk dose meat consumption dose vegetation (food crops) dose


TAHLE2-2PARAMETERS FORTHELIQUIDEFFLUENTPATHWAYPARAMETER UapMpFBipDaipitpVALUEAdult=21.0Kg/grTeen=16.0Kg/gr0.2590ft.3/second EachelementEachradionuclide 26.9hoursREFERENCE (REG.GUIDE1.109)TableE-5SiteSpecificSiteSpecificTableA-1TablesE-lltoE-14SiteSpecific 0
Critical receptor locations      have been    identified for the purposes of evaluating each pathway.          These receptor location's are contained in Table 3-2.           For the noble gas plume dose    and  inhalation    dose the critical  X/g residence    is applicable.       For the  milk, meat and vegetation dose,    the  critical    receptor locations are the    critical  0/g milk    cow  location, milk goat location, meat animal location and          critical  D/9 garden  location.
~~TABLE3-1AverageEnergyPerOisintegration ISOTOPE.Emev/disRef(3)/'r-83mKr-85Kr-85mKr-87Kr-88Kr-89Kr-90Xe-131MXe-133Xe-133mXe-135Xe-135mXe-137Xe-1380.002480.00220.1590.7931.952.222.10I0.02010.04540.0420.2470.4320.1941.18(1)(1)(1)(1).(1)(2)(2)(1)(1)(1)(1)(1)(1)(1)0.03710.2500.2531.320.3771.371.010'.1430.1350.190.3170.0951.640.611(1)(1)(1).(1)(.1)(2)(2).'(1)(1)(1)(1)(1)(1)(1)(1)ORNL-4923, Radioactive Atoms-SulementI,M.S.Martin,November1973.(2)NE00-12037, "SummaryofGammaandBetaEmittersandIntensity Oata";M.E.Meek,R.S.Gilbert,January1970.(TheaverageenergywascomputedfromthemaximumenergyusingtheICRPIIequation, notthe1/3valueassumption usedinthisreference).
The  quarterly  and annual  results shall      be compared  to the  limits listed in  paragraph 3.2.2.       If the limits are exceeded,  special reports    as  reauired by Section 6,9.3 of the Technical Specification must          be  submitted.
(3)Theaverageenergyincludesconversion electrons.
3.3 Critical  Receptors In accordance with the provisions of 10        CFR  20 and 10 CFR 50, Appendix  I,  the  critical  receptors  will  be  identified.     For noble gases,  only the external noble      gas plume dose pathway      will be I
I'II TABLE3-2CriticalReceptorDispersion Parameters LOCATIONResidences DairyCowsMilkGoatsMeatAnimalsGardens0IRESESWESEMILES1.21.62.91.61.6X/g~m1.00E-07*
considered and the location of concern        will  be  the greatest X/g residence as determined in specification 3.6.22 of the Technical Specifications. For I-133, I-131,   tritium  and  particulate radionuclides with    a half  life of  greater than eight days, the critical  pathways are milk (cow and      goat), meat, vegetation, inhalation  and  direct radiation (ground plane)       as a  result of  ground deposition.
5.00E-08**
C The cow  milk  and goat  milk pathway  will be  based on the  greatest 0/9 milk cow and  milk goat location  as determined    in specification 3.6.22. The  inhalation  dose pathway  will be  based on the  greatest X/g residence  as determined  in specification 3.6.22 since this location would  have the  greatest potential residence time.       This critical  receptor location is the    same as  the location used for the noble gas plume dose pathway.     The ground plane dose pathway    will be calculated  as  the greatest 0/g residence because of the greatest potential residence time.     For the meat consumption dose pathway, the critical  receptor is the greatest 0/g meat animal location.         This location is determined in conjunction with the land        use census (specification 3.6.22). The  vegetation (food crop) dose is based      on the greatest 0/g garden location.       This location, as the  critical meat animal  location, will  be determined  in conjunction with the land use census.
1.25E-08**
l 0
5.00E-08**
8.00E-08**
6.00E-09*
2.00E-09**
2.00E-10**
2.00E-09**
2.50E-09**
*Estimated value(conservative) basedon5yearannualmeteorological data**Estimated value(conservative) basedon5yearaveragegrazingseasonmeteorological data


TABLE3-3DOSEFACTORSFORNOBLEGASESRadionuclides Kr-83mKr-85mKr-85Kr-87Kr-88Kr-89Kr-90Xe-131mXe-133mXe-133Xe-135mXe-135Xe-137Xe-138Xe-139Ar-41GammaAir3oseFactorMiml-m3ui-yr1.93E+011.23E+031.72E+016.17E+031.51E+041.73E+041.63E+041.56E+023.27E+023.53E+023.36E+031.92E+031.51E+039.21E+035.28E+039.30E+03BetaAirDoseFactorNimrad-m3uCi-yr2.88E+021.97E+031.95E+031.03E+042.93E+031.-6E+047.83E+031.11E+031.48E+031.05E+037.39E+022.46E+031.27E+044.75E+036.52E+043.28E+03*Regulatory Guide1.109,"Calculation ofAnnualDosestoManFromRoutineReleasesofReactorEffluents forthePurposeofEvaluating Compliance with10CFRPart50,AppendixI,"datedOctober1977,page1.109-21.  
)4~ 0 40  CFR  1 90 RE'gUIREMENTS The "Uranium Fuel Cycle"      is defined in  40  CFR  Part 190.02 (b)    as  follows:
            "Uranium fuel cycle means the operations of          milling of  uranium ore, chemical conversion of uranium, isotopic enr'ichment of uranium, fabrication of uranium fuel, generation of electricity            by a light-water-cooled nuclear      power  plant using uranium fuel,      and reprocessing of spent uranium fuel, to the extent that these              directly support the production of electrical power          for public  use  utilizing I
nuclear energy, but excludes mining operations, operations at waste disposal sites, transportation of any radioactive material in support of these operations,      and  the reuse of recovered non-uranium special nuclear  and  by-product materials from the cycle."
Section 3.6.15.d of the Technical Specifications requires than when the calculated doses associated with the effluent releases exceed twice the specified limits of sections 3.6.15.a.(2)(b), 3.6.15.b.(2)(b)              and 3.6.15.b.(3)(b), then calculations shall          be made  including direct radiation contributions from the reactor units          and  outside storage tanks (as applicable)    to determine whether the      above 40  CFR  190 does  limits  have been exceeded.       If such  is the case, Niagara    Mohawk  shall submit    a  Special Report to the    NRC  and  limit subsequent  releases  such  that the  dose commitment    to a real individual from all uranium fuel cycle sources is limited to ~ 25 mrem to the total body or any organ (except the thyroid, which  is limited to      75 mrem)  over the calendar year.       This report is to demonstrate that radiation exposures to        all real individuals from all uranium fuel cycle sources (including all liquid and gaseous effluent pathways and direct radiation) are less than the limits in 40 CFR Part 190. If releases    that


TABLE3-4ARVALUES-COW'SMILK-INFANTm2-mrem/yr uCi/secNUCLIDEH3*CR51MN54FE59CO58CO602N65SR80SR902R95I131I133CS134CS136CS137BA148CE141T.BODY2.40E037.46E044.54E067.21E072.88E071.11E085.26E091.70E081.79E105.58E026.92E087.91E063.59E091.03E092.37E095.94E061.44E03GI-TRACT2.40E032.17E067.36E068.74E072.88E071.12E089.63E091.22E088.75E083.92E055.62E074.57E069.65E074.19E071.04E082.83E076.30E06BONE1.05E083.32E095.94E097.01E103.23E031.34E091.85E071.90E109.37E082.85E101.15E082.00E04LIVER.2.40E032.00E07KIDNEY2.40E031.06E044.44E067.87E021.57E092.70E073.55E102.76E093.34E101.15E051.22E048.48E021.84E093.17E079.14E091.10E098.96E092.74E043.76E031.83E081.15E074.71E071.14E105.53E09THYROIDLUNG2.40E032.40E035.41E075.17Ell4.91E093.75E092.25E083.63E097.03E044.87E044.47E04*mrem/ruCi/m
result in  doses exceeding the 40      CFR  190  limits  have occurred,    then  a variance from the    NRC  to permit  such releases    will be  requested    and  if possible, action    will  be taken  to reduce subsequent releases.
The  report to the    NRC  shall contain:
: 1)    Identification of all      uranium fuel cycle    facilities  or operations within  5 miles of the nuclear power reactor units at the site, that contribute to the annual      dose  of the  maximum exposed    member    of the public.
: 2)    Identification of the      maximum exposed    member  of the public    and a determination of the total annual dose to this person from all existing pathways    and sources    of radioactive effluents      and  direct radiation.
The  total  body and organ doses      resulting from radioactive material in liquid effluents from      Nine Mile Point Unit      1 will be  summed  with the doses resulting from the releases of noble gases, radioiodines,            and  particulates for  preceeding  3  quarters  and from  the quarter in which twice the        limit was exceeded. The  direct  dose components    will  also  be determined    by either calculation or actual      measurement. The doses  from Nine Mile'Point Unit  1  will  be added  to the  doses  to the  maximum exposed    individual that are contributed from other uranium fuel cycle operations.
For the purpose    of calculating doses, the results of the Radiological Environmental Monitoring Program        m'ay be  included for providing more refined estimates of doses to      a  real  maximum exposed    individual.
Estimated doses,    as  calculated from station effluents,        may be  replaced by doses  calculated from actual environmental sample results.


TABLE3-4BRVALUES-COW'SMILK-CHILDm2-mrem/yruCi/sec0NUCLIDEH3*Cr51Nn54Fe59Co58Co60Zn65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY1.58E034.71E042.87E064.52E071.77E076.81E074.10E098.93E071.63E103.56E023.66E084.11E064.09E098.53E082.52E093.27E067.47E02GI-TRACT1.58E032.50E069.04E069.45E073.37E071.28E081.16E091.21E088.68E084.17E055.73E074.38E061.05E084.63E071.07E082.84E076.28E06BONE1.58E035.61E072.47E093.13E096.44E101.82E036.40E088.78E061.18E104.80E081.79E105.60E071.01E04LIVER1.58E031.08E079.08E075.77E062.31E076.59E094.00E026.44E081.09E071.94E101.32E091.71E104.91E045.03E03KIDNEY1.58E037.14E033.02E064.15E095.72E021.06E091.81E076.01E097.07E085.57E091.60E042.21E031.58E032.61E041.58E034.77E042.63E072.13E112.02E092.16E091.05E082.00E092.93E04THYROIDLUNG*mrem/ru1m
4.1  Evaluation of Doses From Liquid Effluents For the evaluation    of  doses  to real  members  of the public from liquid  .
effluents; the fish      consumption and shoreline sediment ground dose will be    considered. The dose associated    with fish consumption    may be calculated using the      ODCM  methodology or by calculating a dose to      man based on actual    fish  sample analysis data.       The dose associated with shoreline sediment is based        on the assumption that the shoreline would be    utilized  as a  recreational area.     This dose  may be  derived from  liquid effluent data or from actual shoreline          sediment sample analysis data.
Doses  to  members  of the public from the fish consumption        and shoreline sediment pathways        will be calculated    using Regulatory Guide 1.109 methodology or      OOCM  methodology.
4.2 Evaluation of Doses From Gaseous Effluents For  the evaluation of doses to real        members  of the public from gaseous    effluents, the    pathways contained in section      3.2.2.3 of the ODCM  will be  considered.     However, any updated    field data  may be utilized that    concerns locations of real individuals, real time meteorological data, location of          critical receptors, etc. Data from the most recent census and sample location surveys should            be utilized. Doses may  also  be  calculated from actual environmental sample media, as    available.     Environmental sample media data such as TLD,  air  sample, milk sample and vegetable        (food crop) sample data may be  utilized in lieu of effluent calculational data.


TABLE3-4CRVALUES-COW'SMILK-TEENm2-mrem/yr uCi/secNUCLIDEH3*Cr51Mn54Fe59Co58Co601n65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY1.00E032.31E041.43E062.18E078.70E063.35E072.04E093.62E079.42E091.70E021.98E08.1.87E065.60E095.62E083.44E091.58E063.14E02GI-TRACT1.00E033.88E061.48E071.34E085.21E071.94E081.85E091.50E081.07E095.70E057.31E074.64E061.50EF086.73E071.40E083.58E077.83E06BONE2.42E071.26E091.26E093.81E107.83E022.64E083.61E065.12E092.13E087.42E092.32E074.10E03LIVER1.00E037.20E06KIDNEY1.00E035.06E032.15E062.47E023.69E086.13E061.21E108.37E089.87E092.84E042.74E033.63E026.36E081.08E073.83E094.55E083.36E099.65E031.29E035.65E073.78E061.49E074.38E092.80E09THYROID1.00E031.28E041.08E118.56E08LUNG1.00E033.30E041.78E071.46E097.18E071.30E091.91E04*mrem/rU1m
Doses  to members  of the public from the pathways contained in    ODCM section 3.2.2.3  as a result of  gaseous  effluents will  be calculated using the dose factors of Regulatory Guide 1.109 or the methodology of the  ODCM, as  applicable.
4.3 Evaluation of Doses From Direct Radiation Section 3.6.15.d of the Technical Specifications reauires that the dose  contribution  as a  result of direct radiation  be considered  when evaluating whether the dose limitations of 40      CFR 190 have been exceeded. Direct radiation doses    as a result of the reactor, turbine and radwaste  buildings  and outside radioactive storage tanks (as applicable)  may be  evaluated by engineering calculations or by evaluating environmental    TLD results at critical receptor locations, site  boundary or other special    interest locations.


TABLE3-4DRVALUES-COW'SMILK-ADULTm2-mrem/yr uCi/secNUCLIDEH3*Cr51Mn54Fe59Co58Co60Zn65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY7.69E021.32E048.25E051.25E075.03E061.93E071.18E091.97E076.62E099.72E011.19E081.05E065.74E093.55E083.65E098.43E051.71E02GI-TRACT7.69E023.32E061.32E071.09E084.56E071.65E081.65E091.10E087.80E084.55E055.49f073.09E061.23E085.60E071.08E082.65E075.78E06BONE1.39E078.21E086.85E082.70E104.48E021.45E081.98E062.95E091.25E084.09f091.29E072.24E03LIVER7.69E024.32E063.26E072.24E068.77E062.81E09KIDNEY7.69E022.91E031.29E061.75E091.44E022.25E023.44E067.02E094.93E085.59E091.62E041.51E036.01E062.27E092.74E081.90E095.49E037.02E022.08E083.57E08THYROID7.69E027.90E036.82E105.06E08LUNG7.69E021.75E049.10E067.54E083.76E076.31E089.25E03*mrem/rU1m
5.0 ENVIRONMENTAL MONITORING PROGRAM
)
5.1  Sampl  ing Stations The  current sampling locations are specified in Table 5-1            and  Figures 5.1-1, 5.1-2. The Environmental    Monitoring Program is      a joint effort between the Niagara Mohawk Power Corporation and the New York Power Authority, the    owners and operators    of the Nine Mile Point Unit        1 and the  James  A. FitzPatrick Nuclear    Power  Plant, respectively.       Sampling locations are chosen    on  the basis of historical aver age dispersion or deposition parameters from both units.
The average    dispersion  and deposition parameters for the two units have been  calculated for    a 5 year period, 1978 through 1982.         These dispersion calculations are attached      as Appendix C.       The calculated dispersion or deposition parameters      will be  compared    to the results of the annual land use census.       If it  is determined that    a  milk sampling locati'on  exist at  a location that yields    a  significantly highe~ (e.g. 50K) calculated D/g rate, the new milk sampling location will be  added  to the monitoring program within      30 days.     If a  new location is added, the old location that yields the lowest calculated D/g may be dropped from the program      after October    31  of that year.
5.2  Interlaboratory Comparison      Program Analyses shall be performed on samples containing known auantities of radioactive materials that are supplied        as part of    a  Commission approved or sponsored    Interlaboratory    Comparison Program, such as the I
EPA  Crosscheck  Program. Participation shall      be  only for those media, e.g., air, milk, water, etc., that are included in the              Nine Mile Point environmental monitoring program          and  for which cross check samples are    available. The  site identification      symbol  or the actual guality Control    sample  results shall    be  reported in the Annual Radiological Environmental Operating Report so that the Commission staff  may  evaluate the results.
5.3 Capabilities for Thermoluminescent Dosimeter          s Used  for Environmental Measurements Reauired detection    capabilities for thermoluminescent dosimeters            used for  environmental measurements        reauired by Table 4.6.20-1, footnote        b of the Technical Specifications are based            on ANSI Standard    N545, section 4.3. Reauired detection      capabilities are    as  follows. TLDs are defined as phosphors packaged for          field  use.
In regard to the detection capabilities for thermoluminescent dosimeters, only one determination is reauired to evaluate the above capabilities per type of      TLD. Furthermore, the above capabilities may be  determined by the vendor who supplies the TLDs.
5.3.1      Uniformity shall    be  determined by giving TLDs from the same batch an exposure eaual to that resulting from            an  exposure rate of  10 uR/hr    during the    field cycle.     The responses obtained shall have      a  relative standard deviation of less than 7.5X. A  total of at least      5 TLDs  shall  be  evaluated.


TABLE3-4ERVALUES-GOAT'SMILK-INFANTm2-mrem/yr uCi/sec0NUCLIDEH3*Cr51Mn54Fe59Co58Co60Zn65Sr89Sr90Sr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY4.90E038.95E035.45E059.37E053.45E061.34E076.31E083.58E083.57E106.70E018.31E089.49E061.08E103.09E097.10E097.13E051.72E02GI-TRACT4.90E032.61E058.83E051.14E063.45E061.35E071.16E092.57E081.84E094.70E046.74E075.48E062.89E081.26E083.13E083.40E067.57E05BONE1.36E063.99E081.25E101.47E113.88E021.60E092.23E075.71E102.81E098.55E101.38E072.40E03LIVER4.90E032.40E06KIDNEY4.90E031.28E035.33E059.45E011.89E093.24E071.07E118.27E091.00E111.38E041.46E031.02E022.21E093.81E072.74E103.30E092.69E103.29E034.52E022.38E061.38E065.65E061.37E096.63E084.90E035.84E034.90E031.14E047.03E056.21E115.89E091.12E106.74E081.09E108.50E03THYROIDLUNG*mrem/r'U1m
Reproducibility shall      be determined    by  giving  TLDs  repeated exposures  eaual to    that resulting from    an  exposure rate of 10  uR/hr during the    field cycle. The average    of the relative standard deviations        of. the responses    shall  be  less than 3.N,. A total of at least      4 TLDs  shall  be evaluated.
Dependence    of exposure interpretation      on  the length of    a field cycle shall    be examined    by  placing  TLDs  for  a  period eaual  to at least    a  field cycle    and a  period equal to half the  same  field cycle in    an area where the exposure rate          is known  to  be  constant. This test shall be conducted under approximate average winter temperatures          and approximate average summer temperatures.         For these    tests, the ratio of the response obtained in the        field cycle to twice that obtained  for half the field cycle shall        not be less than 0.85. At least  6 TLDs    shall  be  evaluated.
Energy dependence    shall  be evaluated by the response of TLDs  to photons for several energies between approximately 30 keV and 3 MeV.       The response    shall not differ from that obtained with the calibration source by more than 25K              for photons with energies greater        than 80 keV and shall not be enhanced  by more than a    factor of  two  for  photons with energies less than 80 keV.         A total of at least    8 TLDs shall  be evaluated.


TABLE3-4FRVALUES-GOAT'SMILK-CHILDm2-mrem/yr uCi/sec0NUCLIDEH3*Cr51Mn54Fe59Co58Co60Zn65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY3.23E035.65E033.44E055.88E052.12E068.17E064.92E081.87E083.43E104.27E014.39E084.93E061.23E102.56E097.57E093.92E058.97E01GI-TRACT3.23E033.00E051.08E061.23E064.04E061.53E071.39E082.54E081.82E095.01E046.88E075.25E063.14E081.39E083.21E083.41E067.54E05BONE7.29E052.97E086.56E091.35E112.18E027.68E081.05E073.55E101.44E095.36E106.72E061.21E03LIVER3.23E03KIDNEY3.23E031.18E066.92E052.77E067.91E084.98E084.80E017.72E081.30E075.82E103.96E095.13E105.89E036.04E026.87E011.27E092.17E071.80E102.11E091.67E101.92E032.65E028.57E021.29E063.62E053.23E033.14E033.23E035.73E033.42E052.55Ell2.42E096.47E093.14E086.01E093.51E03THYROIDLUNG*mrem/ru1m
The  directional    dependence    of the  TLD  response    shall  be determined by comparing the response of the            TLO  exposed    in the routine orientation with respect to the calibration source with the response obtained          for different orientations. To accomplish      this, the    TLD shall  be  rotated through at least two perpendicular planes.             The response averaged over    all directions shall not differ          from the response  obtained in the standard calibration position by more than lOX.     A  total of at least    4 TLOs  shall  be evaluated.
Light dependence shall      be determined    by placing TLDs      in the field for  a period equal to the        field cycle  under the    four conditions found in      ANSI N545,  section 4.3.6.     The  results obtained  for the  unwed apped TLDs    shall not differ from those obtained for the    TLDs wrapped    in aluminum    foil  by more than le. A total of at least      4 TLDs  shall  be evaluated    for each  of the four conditions.
Moisture dependence      shall  be determined    by placing TLOs (that is, the phosphors        packaged  for field  use)  for  a period equal to the      field cycle in    an area where    the exposure rate    is  known  to  be  constant. The TLDs  shall    be exposed under two    conditions:      (1) packaged in    a  thin, sealed  plastic  bag, and (2) packaged        in  a thin,  sealed plastic  bag  with sufficient water to yield observable moisture throughout the        field cycle. The TLO  or phosphor, as  appropriate, shall      be  dried before readout.       The I
response    of the  TLD exposed  in the plastic      bag  containing water  shall not differ from that exposed in the regular plastic    bag by more than lOX. A  total of at least      4 TLDs shall  be  evaluated  for  each  condition.
Self irradiation shall      be determined    by placing TLDs    for  a period eaual to the      field cycle in  an  area where the I
exposure rate    is less than  10 uR/hr and the exposure during the  field cycle is    known. If necessary,    corrections shall be  applied for the dependence of exposure interpretation            on the length of the    field cycle  (ANSI N545,    section 4.3.3).
The average    exposure inferred from the responses          of the TLDs  shall not differ from the    known exposure      by more than an  exposure eaual to that      resulting from    an  exposure rate of  10  uR/hr during the    field cycle. A  total of at least    3 TLDs  shall  be evaluated.
V 1


ITABLE3-4GRVALUES-GOAT'SMILK-TEENm2-mrem/yr uCi/secNUCLIDECr51Mn54Fe59Co58Co60Zn65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY2.04E032.77E031.71E052.83E051.04E064.02E062.45E087.59E071.98E102.04E012.38E082.24E061.68E101.69E091.03E101.80E053.77E01GI-TRACT2.04E034.66E051.77E061.74E066.25E062.32E072.22E083.16E082.25E096.84E048.77E075.57E064.50E082.02E084.21E084.30E069.39E05BONE3.14E051.51E082.65E098.81E109.40E013.17E.084.34E061.54E106.38E082.22E102.79E064.92E02LIVER2.04E038.64E05KIDNEY2.04E036.07E022.58E052.97E014.43E087.36E063.62E102.51E092.96E103.41E033.28E024.36E017.63E081.29E071.15E101.37E091.01E101.16E031.55E027.34E054.63E051.78E065.25E083.36E082.04E031.54E032.04E033.95E032.31E051.29Ell1.03E094.39E092.15E083.91E092.30E03THYROIDLUNG*mrem/yr~llC1/III
TABLE 2-1 Rgpji VALUES FOR THE NINE MILE POINT UNIT 1 FACILITY ADULT  - TOTAL BODY                TEEN  - LIVER NUCLIUE          Rg  i (MREM/YR-Ci)                Rg  i  (MREM/YR-Ci )
89Sr                2.05E  -3                                N/A 90sr                4.37E  -1                                N/A 134Cs                1.89  E +0                        2.35    E + 0 137Cs                1.12  E+0                          1.78 E+ 0 58co                6.47E  -4                        2.87    E    4 60co                1.85E  -3                        8.38E      -4 54Mn                  2.72E  -3                          1.19E    -2


TABLE3-4HRVALUES-GOAT'SMILK-ADULTm2-mrem/yr uCi/secNUCLIDEH3*Cr51Mn54Fe59Co58Co60Zn65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY1.57E031.59E039.89E041.62E056.03E052.32E06~1.42E084.13E071.39E101.17E011.43E081.26E061.72E101.06E091.10E101.01E052.06EOlGI-TRACT1.57E033.99E051.59E061.41E065.46E061.98E071.97E082.31E081.64E095.46E046.59E073.71E063.69E081.68E083.25E083.18E066.94E05BONE1.80E059.85E071.44E095.67E105.37E011.74E082.37E068.85E093.75E081.25E101.54E062.68E02LIVER1.57E035.19E05KIDNEY1.57E033.49E021.54E051.72E012.50E084.13E062.70E014.28E087.21E062.11E106.82E091.48E098.23E081.68E105.70E091.94E036.59E021.81E028.43E014.23E052.69E051.05E063.14E082.10E081.57E039.48E021.57E032.11E031.18E058.18E106.07E082.26E091.13E081.89E091.11E03THYROIDLUNG*mrem/ruCi/m
TAHLE 2-2 PARAMETERS FOR THE    LIQUID EFFLUENT PATHWAY REFERENCE PARAMETER                VALUE                      (REG. GUIDE  1.109)
Uap              Adult  =  21.0 Kg/gr                Table E-5 Teen =    16.0 Kg/gr Mp                0.2                                  Site Specific F                590  ft.3/second                      Site Specific Bip              Each element                          Table A-1 Daipi            Each  radionuclide                    Tables E-ll to E-14 tp                26.9 hours                            Site Specific 0
  ~
~
TABLE 3-1 Average Energy Per    Oisintegration ISOTOPE .         E    mev/dis                Ref                  /        (3)
                                                                          'r-83m 0.00248                    (1)            0. 0371                      (1)
Kr-85                0.0022                    (1)            0. 250                      (1)
Kr-85m              0.159                      (1)            0.253                      (1)
Kr-87                0. 793                    (1)            1.32                    . (1)
Kr-88                1.95                      .(1)            0. 377                      (.1)
Kr-89                2. 22                      (2)            1.37                        (2)
Kr-90                2.10                      (2)            1.01                        (2)  .
I Xe-1 31M            0.0201                    (1)            0'.143                    '(1)
Xe-133              0.0454                    (1)            0.135                      (1)
Xe-1 33m            0. 042                    (1)            0. 19                      (1)
Xe-135              0.247                      (1)            0. 317                      (1)
Xe-135m            0.432                      (1)            0.095                      (1)
Xe-137              0. 194                    (1)            1.64                        (1)
Xe-138              1.18                      (1)            0.611                      (1)
(1)  ORNL-4923,  Radioactive Atoms -    Su  lement  I, M.S. Martin,        November 1973.
(2)  NE00-12037,  "Summary of Gamma and    Beta Emitters and Intensity Oata"; M.E.
Meek, R.S. Gilbert, January 1970.     (The average energy was computed from the  maximum energy using the ICRP II equation, not the 1/3 value assumption used in this reference).
(3)  The average  energy includes conversion electrons.
I 'I I


TABLE3-4IRVALUES-MEAT-CHILDm2-mrem/yr uCi/secNUCLIDEH3*Cr51Mn54Fe59Co58Co60Zn65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY2.36E024.07E031.09E061.42E082.39E071.09E083.72E086.55E061.52E092.48E054.64E061.55E-011.67E081.35E071.04E081.22E067.57E02GI-TRACT2.36E022.16E053.45E062.97E084.56E072.05E081.05E088.87E068.08E072.91E087.29E051.66E-Ol4.26E067.34E054.43E061.06E076.36E06BONE1.76E082.25E082.29E086.00E091.27E068.14E063.32E-014.81E087.60E067.39E082.10E071.02E04LIVER2.36E024.11E062.85E087.82E063.70f075.99E082.79E058.19E064.11E-017'.90E082.09E077.07E081.84E045.10E03KIDNEY2.36E026.17E021.15E063.77E083.99E051.34E076.85E-012.45E081.11E072.30E085.98E032.24E03THYROIDLUNG2.36E022.36E028.26E072.71E097.63E018.78E071.66E068.29E071.10E042.26E034.12E03*mrem/ruCi/m I
TABLE 3-2 Critical  Receptor Dispersion Parameters LOCATION            0IR        MILES          X/g  ~m Residences                      1.2            1.00E-07*      6.00E-09*
TABLE3-4JRVALUES-MEAT-TEENm2-mrem/yr uCi/secNUCLIDEH3*Cr51Mn54Fe59Co58Co60Zn65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY1.95E022.61E037.12E058.95E071.54E077.03E072.43E083.47E061.15E091.55E053.30E069.25E-022.98E081.16E071.86E087.33E054.14E02GI-TRACT1.95E024.39E057.37E065.48E089.22E074.06E082.20E081.44E071.30E085.20E081.22E062.30E-017.99E061.40E067.59E061.75E071.04E07BONE9.93E071.50E081.21E084.64E097.15E054.39E061.79E-012.73E084.41E064.01E081.14E075.43E03LIVER1.95E023.59E06KIDNEY1.95E025.72E021.07E062.25E056.14E063.03E-016.42E081.73E075.34E081.39E043.63E033.31E051.06E075.32E-012.04E089.44E061.82E084.72E031.7'IE032.32E086.69E063.12E075.20E083.33E081.95E021.45E031.95E023.73f037.31E071.79E094.23E017.78E071.49E067.06E079.37E03THYROIDLUNG*mrem/ruCi/m
Dairy  Cows          ESE        1.6            5.00E-08**      2.00E-09**
Milk Goats          SW        2.9            1.25E-08**      2.00E-10**
Meat Animals        ESE        1.6            5.00E-08**      2.00E-09**
Gardens                        1.6            8.00E-08**      2.50E-09**
* Estimated value (conservative) based on  5 year annual meteorological data
** Estimated value (conservative)  based on 5 year average  grazing season meteorological data


TABLE3-4KRVALUES-MEAT-ADULTm2-mrem/yr uCi/secNUCLIDEH3*Cr51Mn54Fe59Co58Co60Zn65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY3.27E023.26E038.98E051.12E081.95E078.87E073.06E084.12E061.76E091.94E054.33E061.13E-016.68E081.61E074.33E089.01E054.96E02GI-TRACT3.27E028.21E051.44E079.73E081.76E087.56E084.27E082.30E072.07E089.07E081.99E063.34E-011.43E072.53E061.28E072.83E071.67E07BONE1.24E082.13E081.43E087.17E098.92E055.28E062.14E-013.43E085.65E064.83E081.38E076.47E03LIVERKIDNEY2.86E054.49E057.55E061.29E073.72E-016.49E-018.15E082.64E082.23E071.24E076.61E082.24E081.73E044.38E035.87E032.03E033.27E023.27E027.19E024.71E061.40E062.92E088.68E064.02E076.78E084.53E083.27E021.95E033.27E024.33E038.16E072.48E095.46E018.78E071.70E067.46E079.89E03THYROIDLUNG*mrem/ruCi/m l
TABLE  3-3 DOSE FACTORS FOR NOBLE GASES Gamma    Air              Beta  Air 3ose Factor              Dose  Factor Mi                      Ni ml -m3                mrad-m3 Radionuclides                              u  i-yr                 uCi-yr Kr-83m                                    1.93E+01                2.88E+02 Kr-85m                                    1.23E+03                1.97E+03 Kr-85                                    1.72E+01                1.95E+03 Kr-87                                    6.17E+03                1.03E+04 Kr-88                                    1.51E+04                2.93E+03 Kr-89                                    1.73E+04                1.-6E+04 Kr-90                                    1.63E+04                7.83E+03 Xe-131m                                  1.56E+02                1.11E+03 Xe-133m                                  3.27E+02                  1.48E+03 Xe-133                                    3.53E+02                1.05E+03 Xe-135m                                  3.36E+03                  7.39E+02 Xe-135                                    1.92E+03                2.46E+03 Xe-137                                    1.51E+03                1.27E+04 Xe-138                                  9.21E+03                  4.75E+03 Xe-139                                  5.28E+03                  6.52E+04 Ar-41                                    9.30E+03                  3.28E+03
TABLE3-4LRVALUES-VEGETATION
* Regulatory    Guide 1.109, "Calculation of Annual Doses to Man From Routine Releases  of Reactor Effluents for the Purpose of Evaluating Compliance with 10 CFR  Part 50, Appendix I," dated October 1977, page 1.109-21.
-CHILDm2-mrem/yr uCi/secNUCLIDEH3*Cr51Mn54Fe59Co58Co60Zn65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY4.04E031.16E051.73E083.17E081.92E081.11E091.70E091.03E093.49Ell7.44f058.16E071.67E065.40E091.43E083.52E091.61E074.75E04GI-TRACT4.04E036.15E065.44E086.62E083.66E082.08E094.81E081.40E091.86E108.71E081.28E071.78E061.38E08'7.77E061.50E081.40E083.99E08BONE3.93E081.03E093.62E101.38E123.80E061.43E083.57E061.56E108.04E072.48E102.76E086.42E05LIVER4.04E036.49E08KIDNEY4.04E031.76E041.82E088.35E051.44E081.20E062.36E084.42E06,7.36E062.56E107.93E092.21E081.18E082.39E102.42E053.20E057.78E097.87E041.40E056.36E086.27E073.76E082.74E091.73E096.44E041.18E051.84E084.75E108.21E082.84E091.76E072.80E091.44E05THYROIDLUNG4.04E034.04E03*mrem/ruCi/m
)I TABLE3-4NRVALUES-VEGETATION
-TEENm2-mrem/yr uCi/sec0NUCLIDEH3*Cr51Mn54Fe59Co58Co60Zn65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.-BODY2.61E036.11E048.79E071.60E089.79E075.57E088.68E084.36E082.05E113.68E055.77E071.01E067.54E091.13E084.90f098.88E062.12E04GI-TRACT2.61E031.03E079.89E089.78E085.85E083.22E097.88E081.81E092.33E101.23E092.13E072.51E062.02E081.35E072.00E082.12E085.29E08BONE1.77E085.36E081.52E108.32E111.69E067.68E071.96E066.90E094.28E071.06E101.38E082.77E05LIVER2.61E03KIDNEY2.61E034.14E084.25E072.47E081.86E091.19E095.35E057.86E051.07E081.85E083.32E061.62E101.68E081.41E105.83E065.16E099.16E074.78E091.69E05.5.72E041.85E058.70E041.34E044.43E081.32E082.61E033.39E042.61E038.72E041.30E083.14E104.64E081.97E091.44E071.86E091.14E05THYROIDLUNG*mrem/ruCi/m


TABLE3-4NRVALUES-VEGETATION
TABLE 3-4A R VALUES  - COW'S MILK  - INFANT m2-mrem/yr uCi/sec NUCLIDE    T. BODY        GI-TRACT          BONE        LI VER. KIDNEY  THYROID    LUNG H  3*     2.40E 03          2.40E 03                      2.40E 03 2.40E 03 2.40E 03 2.40E 03 CR  51    7.46E 04          2.17E 06                              1.06E 04 4.87E 04 4.47E 04 MN  54    4.54E 06          7.36E 06                      2.00E 07 4.44E 06 FE 59      7.21E 07          8.74E 07      1.05E 08      1.83E 08                  5.41E 07 CO  58    2.88E 07          2.88E 07                      1.15E 07 CO  60    1.11E 08          1.12E 08                      4.71E 07 2N 65      5.26E 09          9.63E 09      3.32E 09      1.14E 10 5.53E 09 SR  80    1.70E 08          1.22E 08      5.94E 09 SR  90    1.79E 10          8.75E 08      7.01E 10 2R 95      5.58E 02          3.92E 05      3.23E 03      7.87E 02 8.48E 02 I  131    6.92E 08          5.62E 07      1.34E 09      1.57E 09 1.84E 09 5.17E ll I  133    7.91E 06          4.57E 06        1.85E 07      2.70E 07 3.17E 07 4.91E 09 CS  134    3.59E 09          9.65E 07        1.90E 10      3.55E 10 9.14E 09          3.75E 09 CS  136    1.03E 09          4.19E 07      9.37E 08      2.76E 09 1.10E 09          2.25E 08 CS  137    2.37E 09          1.04E 08        2.85E 10      3.34E 10 8.96E 09          3.63E 09 BA 148    5.94E 06          2.83E 07        1.15E 08      1.15E 05 2.74E 04          7.03E 04 CE 141      1.44E 03        6.30E 06        2.00E 04      1.22E 04 3.76E 03
-ADULTm2-mrem/yr uCi/secNUCLIDE3*Cr51Nn54Fe59Co58Co60Zn65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY2.28E034.60E045.83E071.12E086.71E073.67E085.77E082.87E081.64Ell2.51E056.6'IE071.12E068.83E091.19E085.94E098.40E061.48E04GI-TRACT2.28E031.16E079.36E089.75E086.07E083.12E098.04E081.60E091.93E101.17E093.04E073.30E061.89E08'1.88E071.76E082.64E084.99E08BONE1.24E084.01E081.08E106.70E111.16E068.07E072.11E064.54E094.19E076.63E091.28E081.93E05LIVER2.28E03KIDNEY2.28E033.71E051.15E083.67E061.08E105.82E051.98E086.40E063.49E091.66E089.21E079.07E091.61E051.31E053.08E095.47E046.07E041.01E043.05E089.09E072.93E082.99E071.66E081.28E098;54E08THYROIDLUNG2.28E032.28E032.75E046.10E048.17E073.78E105.39E081.16E091.26E071.02E099.22E04*mrem/ruCim
* mrem/ r                                                uCi/m


TABLE3-40RVALUES-INHALATION
TABLE R VALUES  COW'S 3-4B MILK  CHILD m2-mr em/yr 0
-INFANTmrem/yruci/m3NUCLIDEH3Cr51Mn54Fe59Co58Co60Zn65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY6.46E028.93E014.98E039.46E031.82E031.18E043.10E041.14f042.59E062.03E041.96E045.59E037.44E045.28E044.54E042.89E031.99E03GI-TRACT6.46E023.56E027.05E032.47E041.11E043.18E045.13E046.39E041.31E052.17E041.06E032.15E031.33E031.43E031.33E033.83E042.15E04BONE1.35E041.93E043.97E054.08E071.15E053.79E041.32E043.96E054.82E045.48E055.59E042.77E04LIVER6.46E02KIDNEY6.46E021.32E012.53E044.98E032.36E041.22E038.01E036.25E043.24E04~2.78E043.10E041.92E047.02E051.34E056.11E055.59E011.66E042.24E041.90E055.63E041.72E051.34E015.24E034.43E045.17E04THYROID6.46E025.75E011.48E073.55E06LUNG6.46E021.28E049.98E051.01E067.76E054.50E066.46E052.03E061.12E071.75E067.95E041.17E047.12E041.59E065.16E05
uCi/sec NUCLIDE    T. BODY        GI-TRACT        BONE      LI VER  KIDNEY  THYROID    LUNG H  3*      1.58E 03        1.58E 03      1.58E 03    1.58E 03 1.58E 03 1.58E 03 1.58E 03 Cr 51      4.71E 04        2.50E 06                            7.14E 03 2.61E 04 4.77E 04 Nn 54      2.87E 06        9.04E 06                  1.08E 07 3.02E 06 Fe 59      4.52E 07        9.45E 07      5.61E 07    9.08E 07                  2.63E 07 Co 58      1.77E 07        3.37E 07                  5.77E 06 Co 60      6.81E 07        1.28E 08                  2.31E 07 Zn 65      4.10E 09        1.16E 09      2.47E 09    6.59E 09  4.15E 09 Sr 89      8.93E 07        1.21E 08      3.13E 09 Sr 90      1.63E 10        8.68E 08      6.44E 10 Zr  95    3.56E 02        4.17E 05      1.82E 03    4.00E 02  5.72E 02 I  131      3.66E 08        5.73E 07      6.40E 08    6.44E 08  1.06E 09 2.13E 11 I  133      4.11E 06        4.38E 06      8.78E 06    1.09E 07  1.81E 07 2.02E 09 Cs  134    4.09E 09        1.05E 08      1.18E 10    1.94E 10  6.01E 09          2.16E 09 Cs  136    8.53E 08        4.63E 07      4.80E 08    1.32E 09  7.07E 08          1.05E 08 Cs  137    2.52E 09        1.07E 08      1.79E 10    1.71E 10  5.57E 09          2.00E 09 Ba 140      3.27E 06        2.84E 07      5.60E 07    4.91E 04  1.60E 04          2.93E 04 Ce  141    7.47E 02        6.28E 06      1.01E 04    5.03E 03  2.21E 03
* mrem/ r u  1  m                                         


TABLE3-4PRVALUES-INHALATION
TABLE 3-4C R VALUES  - COW'S MILK    - TEEN m2-mrem/yr uCi/sec NUCLIDE    T. BODY          GI-TRACT          BONE    LIVER    KIDNEY  THYROID    LUNG H  3*      1.00E 03          1.00E 03                  1.00E 03 1.00E 03 1.00E 03 1.00E 03 Cr 51      2.31E 04          3.88E 06                            5.06E 03 1.28E 04 3.30E 04 Mn 54      1.43E 06          1.48E 07                  7.20E 06 2.15E 06 Fe 59      2.18E 07          1. 34E 08      2.42E 07    5.65E 07                  1.78E 07 Co 58      8.70E 06          5.21E 07                  3.78E 06 Co 60      3.35E 07          1.94E 08                  1.49E 07 1n 65      2.04E 09          1.85E 09      1.26E 09    4.38E 09 2.80E 09 Sr 89      3.62E 07          1.50E 08      1.26E 09 Sr 90      9.42E 09          1.07E 09      3.81E 10 Zr 95      1.70E 02          5.70E 05      7.83E 02    2.47E 02 3.63E 02 I  131      1.98E 08 .       7.31E 07      2.64E 08    3.69E 08 6.36E 08 1.08E 11 I  133      1.87E 06          4.64E 06      3.61E 06    6.13E 06 1.08E 07 8.56E 08 Cs  134    5.60E 09          1.50E 08 F
-CHILDmrem/yruCi/m3NUCLIDECr51Mn54Fe59Co58Co60Zn65Sr89Sr90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY1.12E031.54E029.50E031.67E043.16E032.26E047;02E041.72E046.43E063.69E042.72E047.68E032.24E051.16E051.28E054.32E032.89E03.GI-TRACT1.12E031.08E032.29E047.06E043.43E049.61E041.63E041.67E053.43E056.10E042.84E035.47E033.84E034.17E033.61E031.02E055.65E04BONE2.07E044.25E045.99E051.01E081.90E054.80E041.66E046.50E056.50E049.05E057.39E043.92E04LIVER1.12E034.29E043.34E041.77E031.31E041.13E054.17E044.80E042.03E041.01E061.71E058.24E056.47E011.95E04KIDNEY1.12E032.43E011.00E047.13E045.95E047.87E043.37E043.30E059.53E042.82E052.11E018.53E03THYROID1.12E038.53E011.62E073.84E061.12E031.70E041.57E061.27E061.10E067.06E069.94E052.15E061.47E072.23E061.21E051.45E041.04E051.74E065.43f05
5.12E 09    1.21E 10 3.83E 09          1.46E 09 Cs  136    5.62E 08          6.73E 07      2.13E 08    8.37E 08 4.55E 08          7.18E 07 Cs  137    3.44E 09          1.40E 08      7.42E 09    9.87E 09 3.36E 09          1.30E 09 Ba 140      1.58E 06          3.58E 07      2.32E 07    2.84E 04 9.65E 03          1.91E 04 Ce  141    3.14E 02          7.83E 06      4.10E 03    2.74E 03 1.29E 03
* mrem/ r m
U  1


TABLE3-4gRVALUES-INHALATION
TABLE 3-4D R  VALUES  - COW'S MILK  ADULT m2-mrem/yr uCi/sec NUCLIDE      T. BODY          GI-TRACT        BONE        LI VER  KIDNEY  THYROID    LUNG H  3*        7.69E 02          7.69E 02                    7.69E 02 7.69E 02 7.69E 02 7.69E 02 Cr 51        1.32E 04          3.32E 06                            2.91E 03 7.90E 03 1.75E 04 Mn 54        8.25E 05          1.32E 07                    4.32E 06 1.29E 06 Fe 59        1.25E 07          1.09E 08    1.39E 07      3.26E 07                  9.10E 06 Co 58        5.03E 06          4.56E 07                    2.24E 06 Co 60        1.93E 07          1.65E 08                  8.77E 06 Zn 65        1.18E 09          1.65E 09    8.21E 08      2.81E 09 1.75E 09 Sr 89        1.97E 07          1.10E 08    6.85E 08 Sr  90      6.62E 09          7.80E 08    2.70E 10 Zr 95        9.72E  01          4.55E 05    4.48E 02      1.44E 02 2.25E 02 I  131      1.19E 08          5.49f 07    1.45E 08      2.08E 08 3.57E 08 6.82E 10 I  133      1.05E 06          3.09E 06    1.98E 06      3.44E 06 6.01E 06 5.06E 08 Cs  134    5.74E 09          1.23E 08    2.95E 09      7.02E 09 2.27E 09          7.54E 08 Cs  136    3.55E 08          5.60E 07    1.25E 08      4.93E 08 2.74E 08          3.76E 07 Cs  137    3.65E 09          1.08E 08    4.09f  09    5.59E 09 1.90E 09          6.31E 08 Ba 140      8.43E 05          2.65E 07    1.29E 07      1.62E 04 5.49E 03          9.25E 03 Ce  141    1.71E 02          5.78E 06    2.24E 03      1.51E 03 7.02E 02
-TEENmrem/yruCi/m3NUCLIDEH3Cr51Mn54Fe59Co58Co60Zn65Sr89Sr90.Zr95I131I133Cs134Cs136Cs137Ba140Ce141T.BODY1.27E031.35E028.39E031.43E042.77E031.98E046.23E041.25E046.67E063.15E042.64E046.21E035.48E051.37E053.11E053.51E032.16E03GI-TRACT1.27E033.00E036.67E041.78E059.51E042.59E054.66E043.71E05.7.64E051.49E056.48E031.03E049.75E031.09E048.47E032.28E051.26E05BONE1.59E043.85E044.34E051.08E081.45E053.54E041.21E045.02E055.14E046.69E055.46E042.84E04LIVER1.27E035.10E04KIDNEY1.27E033.07E011.27E044.58E044.90E042.05E041.13E061.93E058.47E056.69E016.73E048.39E043.59E043.75E051.10E053.04f052.24E011.89E048.87E033.69E042.07E031.51E041.33E058.63E04THYROID1.27E037.49E011.46E072.92E06LUNG1.27E032.09E041.98E061.53E061.34E068.7.1E061.24E062.41E061.65E072.68E061.46E051.77E041.21E052.03E066.13E05
* mrem/ r U  1  m                                             


TABLE3-4RRVALUES-INHALATION
R VALUES  -
-ADULTmrem/yruci/m3NUCLIDEH3Cr51Mn54Fe59Co58Co60Zn65Sr89Sl90Zr95I131I133Cs134Cs136Cs137Ba140Ce141T;BODY1.26E039.99E016.29E031.05E042.07E031.48E044.65E048.71E036.09E062.32E042.05E044.51E037.27E051.10E044.27E052.56E031.53E03GI-TRACT1.26E033.32E037.72E041.88E051.06E052.84E055.34E043.49E057.21E051.50E056.27E038.87E031.04E041.17E048.39E032.18E051.20E05BONE1.17E043.24E043.04E059.91E071.07E052.52E048.63E033.72E053.90E044.78E053.90E041.99E04LIVER1.26E033.95E042.77E041.58E031.15E041.03E05KIDNEY1.26E032.28E019.83E036.89E043.44E043.57E045.41E046.12E048.47E051.46E056.20E054.90E011.35E042.87E058.55E042.22E051.67EOl6.25E031.48E042.58E04THYROID1.26E035.94E011.19E072.15E06LUNG1.26E031.44E041.40E061.01E069.27E055.96E068.63E051.40E069.59E061.77E069.75E041.20E047.51E041.27E063.61E05
TABLE 3-4E GOAT'S MILK  INFANT m2-mrem/yr 0
uCi/sec NUCLIDE      T. BODY          GI-TRACT        BONE        LI VER    KIDNEY  THYROID    LUNG H  3*      4.90E 03          4.90E 03                    4.90E 03  4.90E 03 4.90E 03 4.90E 03 Cr 51        8.95E 03          2.61E 05                              1.28E 03 5.84E 03 1.14E 04 Mn 54        5.45E 05          8.83E 05                    2.40E 06  5.33E 05 Fe 59        9.37E 05          1.14E 06    1.36E 06      2.38E 06                    7.03E 05 Co    58    3.45E 06          3.45E 06                    1.38E 06 Co 60        1.34E 07          1.35E 07                    5.65E 06 Zn 65        6.31E 08          1.16E 09    3.99E 08      1.37E 09  6.63E 08 Sr 89        3.58E 08          2.57E 08    1.25E 10 Sr 90        3.57E 10          1.84E 09    1.47E  11 Sr 95        6.70E 01        4.70E 04      3.88E 02      9.45E 01  1.02E 02 I  131      8.31E 08        6.74E 07      1.60E 09      1.89E 09  2.21E 09 6.21E 11 I  133      9.49E 06        5.48E 06      2.23E 07      3.24E 07  3.81E 07 5.89E 09 Cs    134    1.08E 10          2.89E 08    5.71E 10      1.07E  11 2.74E 10          1.12E 10 Cs 136      3.09E 09          1.26E 08    2.81E 09      8.27E 09  3.30E 09          6.74E 08 Cs    137    7.10E 09        3.13E 08      8.55E 10      1.00E  11 2.69E 10          1.09E 10 Ba 140      7.13E 05        3.40E 06      1.38E 07      1.38E 04  3.29E 03          8.50E 03 Ce    141    1.72E 02          7.57E 05    2.40E 03      1.46E 03  4.52E 02
* mrem/ r
  'U    m 1


TABLE3-4SRVALUES-GRUUNO-ALLAGEGROUPSm2-A]ran/yr NUCLIDECr51Nn54Fe,",9Co58Co60Zn65Sr89Zr95I131I"133Cs134Cs136Cs137Ba140Ce141SN)LDI'lOfebq<gbl>oT.BODY4.66E061.34E092.75E083.79E082.15E107.49E082.23E042.49E081.72E072.47E06'6.82E091.49E081.03E102A5E071.36E07l~h~1AMj6)<Q.in+~
R  VALUES  -
TABLE 3-4F GOAT'S MILK m2-mrem/yr
                                      - CHILD 0
uCi/sec NUCLIDE      T. BODY          GI-TRACT        BONE    LIVER    KIDNEY  THYROID    LUNG H  3*        3.23E 03          3.23E 03                3.23E 03 3.23E 03 3.23E 03 3.23E 03 Cr 51        5.65E 03          3.00E 05                          8.57E 02 3.14E 03 5.73E 03 Mn  54      3.44E 05          1.08E 06                1.29E 06 3.62E 05 Fe 59        5.88E 05          1.23E 06      7.29E 05  1.18E 06                  3.42E 05 Co 58        2.12E 06          4.04E 06                6.92E 05 Co 60        8.17E 06          1.53E 07                2.77E 06 Zn 65        4.92E 08          1.39E 08      2.97E 08  7.91E 08 4.98E 08 Sr 89        1.87E 08          2.54E 08      6.56E 09 Sr 90        3.43E 10          1.82E 09      1.35E  11 Zr 95        4.27E  01        5.01E 04      2.18E 02  4.80E 01 6.87E 01 I  131      4.39E 08          6.88E 07      7.68E 08  7.72E 08 1.27E 09 2.55E ll I  133      4.93E 06          5.25E 06      1.05E 07  1.30E 07 2.17E 07 2.42E 09 Cs  134    1.23E 10          3.14E 08      3.55E 10  5.82E 10 1.80E 10          6.47E 09 Cs 136      2.56E 09          1.39E 08      1.44E 09  3.96E 09 2.11E 09          3.14E 08 Cs  137    7.57E 09          3.21E 08      5.36E 10  5.13E 10 1.67E 10          6.01E 09 Ba 140      3.92E 05          3.41E 06      6.72E 06  5.89E 03 1.92E 03          3.51E 03 Ce  141    8.97E  01        7.54E 05      1.21E 03  6.04E 02 2.65E 02
* mrem/ r u  1  m


NineMilePointNuclearStationUnit1Radiation Environmental Monitoring ProgramSamplingLocations Table5.1Typeof*Map=-Samle.-.Location Collection SiteLocationRadioiodine and1Particulates(air)VillageofLycoming, NY1.9mi8145'ERadioiodine andParticulates (air)Radioiodine andParticulates (air)Radioiodine andParticulates (air)NearEastPropertyBoundaryofJAFNPPRt.29NEShoreline Area1.0mi885'1.3mi8115'SE0.8mi868'NERadioiodine andParticulates(air)DirectRadiation (TLD)6DirectRadiation (TLD)7DirectRadiation (TLD)8DirectRadiation (TLD).9DirectRadiation (TLO)10DirectRadiation (TLD)llDirectRadiation (TLO)12DirectRadiation (TLD)13DirectRadiation (TLD)14DirectRadiation (TLD)15DirectRadiation (TLD)16DirectRadiation (TLD)17DirectRadiation (TLO)18MontarioPointRoadNorthShoreline AreaNorthShoreline AreaNorthShoreline AreaNorthShoreline AreaSunsetBayRoadRt.29Rt.29MinerRoadMinerRoadLakeviewRoadLakeviewRoad16.4mi842'E0.1mi80'0.1mi825'NE0.2mi845'E0.9mi875'NE1.2mi890E1.3mi8115'SE1.5mi8135'E1.8mi8160'SE1.7mi8180'1.1mi8200'SW0.7mi8225'WSiteMeteorological Tower0.7mi8250'SWEnergyInformation Center0.5mi8268'*Map-SeeFigures5.1-1and5.1-2  
I    R  VALUES  -
TABLE 3-4G GOAT'S MILK  TEEN m2-mrem/yr uCi/sec NUCLIDE          T. BODY          GI-TRACT        BONE      LI VER  KIDNEY  THYRO ID    LUNG 2.04E 03          2.04E 03                  2.04E 03 2.04E 03 2.04E 03  2.04E 03 Cr 51            2.77E 03          4.66E 05                          6.07E 02 1.54E 03  3.95E 03 Mn 54            1.71E 05          1.77E 06                  8.64E 05 2.58E 05 Fe 59            2.83E 05          1.74E 06    3.14E 05    7.34E 05                    2.31E 05 Co 58            1.04E 06          6.25E 06                  4.63E 05 Co 60            4.02E 06          2.32E 07                  1.78E 06 Zn 65            2.45E 08          2.22E 08    1.51E 08    5.25E 08 3.36E 08 Sr 89            7.59E 07          3.16E 08    2.65E 09 Sr 90            1.98E 10          2.25E 09    8.81E 10 Zr    95        2.04E 01          6.84E 04    9.40E 01    2.97E 01 4.36E 01 I  131          2.38E 08          8.77E 07    3.17E .08    4.43E 08 7.63E 08 1.29E  ll I  133          2.24E 06          5.57E 06    4.34E 06    7.36E 06 1.29E 07 1.03E 09 Cs    134        1.68E 10          4.50E 08    1.54E 10    3.62E 10 1.15E 10          4.39E 09 Cs 136            1.69E 09          2.02E 08    6.38E 08    2.51E 09 1.37E 09          2.15E 08 Cs    137        1.03E 10          4.21E 08    2.22E 10    2.96E 10 1.01E 10          3.91E 09 Ba 140            1.80E 05          4.30E 06    2.79E 06    3.41E 03 1.16E 03          2.30E 03 Ce    141        3.77E  01          9.39E 05    4.92E 02    3.28E 02 1.55E 02
* mrem/yr
  ~ll C 1 /III


NineMilePointNuclearStationUnit1Radiation Environmental Monitoring ProgramSamplingLocations Table5.1(Continued)
TABLE 3-4H R  VALUES  -  GOAT'S MILK  - ADULT m2-mrem/yr uCi/sec NUCLIDE    T. BODY            GI-TRACT        BONE      LIVER    KIDNEY  THYROID    LUNG H  3*      1.57E 03            1.57E 03                  1.57E 03  1.57E 03 1.57E 03 1.57E 03 Cr 51      1.59E 03            3.99E 05                            3.49E 02 9.48E 02 2.11E 03 Mn 54      9.89E 04            1.59E 06                  5.19E 05  1.54E 05 Fe 59      1.62E 05            1.41E 06      1.80E 05    4.23E 05                    1.18E 05 Co 58      6.03E 05            5.46E 06                  2.69E 05 Co 60      2.32E 06    ~
Typeof~'amle*MapLocation.-Collection Site:.Location SurfaceWaterSurfaceWater3839DirectRadiation (TLD)19Di'rectRadiation (TLD)20DirectRadiation (TLD)21DirectRadiation (TLO)22DirectRadiation (TL'D)23DirectRadiation (TLD)24DirectRadiation (TLO)25DirectRadiation (TLD)26DirectRadiation (TLO)27DirectRadiation (TLD)28DirectRadiation (TLD)29DirectRadi'ation (TLD)30DirectRadiation (TLO)31DirectRadiation (TLD)32DirectRadiation (TLO)33DirectRadiation (TLD)34DirectRadiation (TLD)'5DirectRadiation (TLO)36DirectRadiation (TLD)37NorthShoreline NorthShoreline NorthShoreline OemsterBeachRoadLeavittRoadRt.104Rt.51AMaidenLaneRoadRt.53MitchellStreetLakeShoreline Phoenix,NYControlS.W.Oswego,ControlScriba,NYAlcanAluminum, Rt.1ALycoming, NYNewHaven,NYW.Boundary, BibleCampLakeRoadOSSInletCanalJAFNPPInletCanal0.2mi8290'NW0.1mi8315'W0.1mi8335'NW4.5mi8100'4.2mi8115'SE4.2mi8140'E4.8mi9160'SE4.4mi8190'4.8mi8205'SW4.8mi8220'W4.4mi8240'SW20.0mi9165'-SSE112.8mi8225'W4.1mi8195'SW3.2mi8220'W1.9mi8145'E5.4mi8120'SE0.9mi82384SW-WSW1.1mi8105'-ESE7.7mi8230'W-WSW 0.5mi870ENE*Map-SeeFigures5.1-1and5.1-2  
1.98E 07                  1.05E 06 Zn 65      1.42E 08            1.97E 08      9.85E 07    3.14E 08  2.10E 08 Sr 89      4.13E 07            2.31E 08      1.44E 09 Sr 90      1.39E 10            1.64E 09      5.67E 10 Zr  95      1.17E  01          5.46E 04      5.37E  01    1.72E  01 2.70E 01 I  131      1.43E 08            6.59E 07      1.74E 08    2.50E 08  4.28E 08 8.18E 10 I  133      1.26E 06            3.71E 06      2.37E 06    4.13E 06  7.21E 06 6.07E 08 Cs  134    1.72E 10            3.69E 08      8.85E 09    2. 11E 10 6.82E 09          2.26E 09 Cs  136    1.06E 09            1.68E 08      3.75E 08    1.48E 09  8.23E 08          1.13E 08 Cs  137    1.10E 10            3.25E 08      1.25E 10    1.68E 10  5.70E 09          1.89E 09 Ba 140      1.01E 05            3.18E 06      1.54E 06    1.94E 03  6.59E 02          1.11E 03 Ce  141    2.06E Ol            6.94E 05      2.68E 02    1.81E 02  8.43E 01
* mrem/ r uCi/m


NineMilePointNuclearStationUnit1Radiation Environmental Monitoring ProgramSamplingLocations Table5.1(Continued)
TABLE  3-4I R VALUES  -  MEAT  - CHILD m2-mrem/yr uCi/sec NUCLIDE    T. BODY          GI-TRACT    BONE    LI VER    KIDNEY  THYRO ID    LUNG H  3*      2.36E 02          2.36E 02            2.36E 02  2.36E 02 2.36E 02  2.36E 02 Cr 51      4.07E 03          2.16E 05                      6.17E 02 2.26E 03  4.12E 03 Mn 54      1.09E 06          3.45E 06            4.11E 06  1.15E 06 Fe 59      1.42E 08          2.97E 08 1.76E 08  2.85E 08                    8.26E 07 Co 58      2.39E 07          4.56E 07            7.82E 06 Co 60      1.09E 08          2.05E 08            3. 70f 07 Zn 65      3.72E 08          1.05E 08 2.25E 08  5.99E 08  3.77E 08 Sr 89      6.55E 06          8.87E 06 2.29E 08 Sr 90      1.52E 09          8.08E 07 6.00E 09 Zr  95    2.48E 05          2.91E 08 1.27E 06  2.79E 05  3.99E 05 I  131    4.64E 06          7.29E 05 8.14E 06  8. 19E 06 1.34E 07 2.71E 09 I  133    1.55E-01          1.66E-Ol 3.32E-01  4.11E-01  6.85E-01 7.63E  01 Cs  134    1.67E 08          4.26E 06 4.81E 08  7'.90E 08 2.45E 08          8.78E 07 Cs  136    1.35E 07          7.34E 05 7.60E 06  2.09E 07  1.11E 07          1.66E 06 Cs  137    1.04E 08          4.43E 06 7.39E 08  7.07E 08  2.30E 08          8.29E 07 Ba 140    1.22E 06          1.06E 07 2.10E 07    1.84E 04 5.98E 03          1.10E 04 Ce  141    7.57E 02          6.36E 06 1.02E 04    5.10E 03 2.24E 03
TypeofSamleShoreline SedimentFishFishFishMilkMilkMilkMilkFoodProductFood.ProductFoodProductFoodProductFoodProductFoodProductFoodProductFoodProduct*MapLocation40414243444546474849.505152535455Collection SiteNMPNSShoreline NMPSiteDischarge AreaNMPSiteDischarge AreaOswegoHarborAreaMilkLocation&#xb9;45MilkLocation&#xb9;7MilkLocation&#xb9;16MilkLocation&#xb9;40ProduceLocation&#xb9;1**ProduceLocation&#xb9;2**ProduceLocation&#xb9;3**ProduceLocation&#xb9;4**ProduceLocation&#xb9;5**ProduceLocation&#xb9;6**ProduceLocation&#xb9;7**ProduceLocation&#xb9;8**Location1.3mi882'0.3mi9315'Wand/or0.6mi855'E6.3miIa235'SW8.0mi8125'E5.5mi9107'SE5.2mi8190'15.2mi8220'W1.6mi895'1.6mi9115'SE2.0mi8103'SE15.2mi8220'W1.3mi8225'1.6mi8132'E2.3mi8118'SE12.6mi8225'W*Map-SeeFigures5.1-1and5.1-2**FoodProductsamplesneednotnecessarily becollected fromalllistedlocations.
* mrem/ r uCi/m I
Collected sampleswillbeofthehighestcalculated siteaverageD/g.
TABLE  3-4J R  VALUES  MEAT  -  TEEN m2-mrem/yr uCi/sec NUCLIDE    T. BODY        GI-TRACT    BONE    LI VER    KIDNEY    THYRO ID    LUNG H  3*       1.95E 02        1.95E 02            1.95E 02  1.95E 02  1.95E 02  1.95E 02 Cr 51      2.61E 03        4.39E 05                      5.72E 02  1.45E 03  3.73f  03 Mn 54      7.12E 05        7.37E 06            3.59E 06  1.07E 06 Fe 59      8.95E 07        5.48E 08 9.93E 07    2.32E 08                      7.31E 07 Co 58      1.54E 07        9.22E 07            6.69E 06 Co 60      7.03E 07        4.06E 08            3. 12E 07 Zn 65      2.43E 08        2.20E 08 1.50E 08    5.20E 08  3.33E 08 Sr 89      3.47E 06        1.44E 07 1.21E 08 Sr 90      1.15E 09        1.30E 08 4.64E 09 Zr  95      1.55E 05        5.20E 08 7.15E 05    2.25E 05  3.31E 05 I  131      3.30E 06        1.22E 06 4.39E 06    6.14E 06  1.06E 07  1.79E 09 I  133      9.25E-02        2.30E-01 1.79E-01    3. 03E-01 5.32E-01  4.23E  01 Cs  134    2.98E 08        7.99E 06 2.73E 08    6.42E 08  2.04E 08            7.78E 07 Cs 136      1.16E 07        1.40E 06 4.41E 06    1.73E 07  9.44E 06            1.49E 06 Cs  137    1.86E 08        7.59E 06 4.01E 08    5.34E 08  1.82E 08            7.06E 07 Ba 140      7.33E 05        1.75E 07 1.14E 07    1. 39E 04 4.72E 03            9.37E 03 Ce  141    4.14E 02        1.04E 07 5.43E 03    3.63E 03  1.7'IE 03
* mrem/ r uCi/m                                     


APPENDIXADOSEPARAMETERS FORIODINE-131 AND-133,PARTICULATES ANDTRITIUMThisappendixcontainsthemethodology whichwasusedtocalculate thedoseparameters for1-131,1-133,particulates, andtritium.Thedoseparameter, R,wascalculated usingthemethodology outlinedinNUREG-0133 andRegulatory Guide1.109,Revision1.Theradioiodine andparticulate Technical Specification (Section3.6.15)isapplicable tothelocationintheunrestricted areawherethecombination ofexistingpathwaysandreceptoragegroupsindicates themaximumpotential exposureoccurs,i.e.,thecriticalreceptor.
TABLE 3-4K R  VALUES  - MEAT - ADULT m2-mrem/yr uCi/sec NUCLIDE    T. BODY          GI-TRACT    BONE  LIVER    KIDNEY  THYROID    LUNG H  3*      3.27E 02          3.27E 02          3.27E 02 3.27E 02 3.27E 02 3.27E 02 Cr 51      3.26E 03          8.21E 05                    7.19E 02 1.95E 03 4.33E 03 Mn 54      8.98E 05          1.44E 07          4.71E 06 1.40E 06 Fe 59      1.12E 08          9.73E 08  1.24E 08 2.92E 08                  8.16E 07 Co 58      1.95E 07          1.76E 08          8.68E 06 Co 60      8.87E 07          7.56E 08          4.02E 07 Zn 65      3.06E 08          4.27E 08  2.13E 08 6.78E 08 4.53E 08 Sr 89      4.12E 06          2. 30E 07 1.43E 08 Sr 90      1.76E 09          2.07E 08  7.17E 09 Zr 95      1.94E 05          9.07E 08  8.92E 05 2.86E 05 4.49E 05 I  131      4.33E 06          1.99E 06  5.28E 06 7.55E 06 1.29E 07 2.48E 09 I  133      1.13E-01          3. 34E-01 2.14E-01 3.72E-01 6.49E-01 5.46E 01 Cs  134    6.68E 08          1.43E 07  3.43E 08 8.15E 08 2.64E 08          8.78E 07 Cs 136      1.61E 07          2.53E 06  5.65E 06 2.23E 07 1.24E 07          1.70E 06 Cs  137    4.33E 08          1.28E 07  4.83E 08 6.61E 08 2.24E 08          7.46E 07 Ba 140      9.01E 05          2.83E 07  1.38E 07 1.73E 04 5.87E 03          9.89E 03 Ce  141    4.96E 02          1.67E 07  6.47E 03 4.38E 03 2.03E 03
Theinhalation andgroundplaneexposurepathwaysareconsidered toexistalllocations butthecriticallocationwillbeusedfordosepurposes.
* mrem/ r uCi/m
Thegrass-goat-milk, thegrass-cow-milk, grass-cow-meat, andvegetation pathwaysareconsidered toexistatspecificlocations.
R.valueshavebeen1calculated fortheadult,teen,childandinfantagegroupsforallpathways.
.Themethodology usedtocalculate thesevaluesfollows:A.lInhalation PathwaR)where:Kl(BR)a(DFAi)aKl(DFA;),dosefactorforeachidentified radionuclide ioftheorganofinterest(units=mrem/hrperuCi/m3);aconstantofunitconversion:
106pCi/uCi;Breathing rateofthereceptorofagegroupa,(units=m3/yr);organinhalation dosefactorforradionuclide iforthereceptorofagegroupa,(units=mrem/pCi).


APPENDIX-ADOSEPARAMETERS FORIODINE131AND133]PARTICULATESANDTRITIUM
l TABLE 3-4L R  VALUES  -  VEGETATION  -  CHILD m2-mrem/yr uCi/sec NUCLIDE    T. BODY            GI-TRACT          BONE    LIVER      KIDNEY  THYROID    LUNG H  3*      4.04E 03            4.04E 03                  4.04E 03  4.04E 03 4.04E 03 4.04E 03 Cr 51      1.16E 05            6.15E 06                              1.76E 04 6.44E 04 1.18E 05 Mn 54      1.73E 08            5.44E 08                  6.49E 08  1.82E 08 Fe 59      3.17E 08            6.62E 08      3.93E 08    6.36E 08                    1.84E 08 Co 58      1.92E 08            3.66E 08                  6.27E 07 Co 60      1.11E 09            2.08E 09                  3.76E 08 Zn 65      1.70E 09            4.81E 08      1.03E 09    2.74E 09  1.73E 09 Sr 89      1.03E 09            1.40E 09      3.62E 10 Sr 90      3.49E  ll          1.86E 10      1.38E 12 Zr 95      7.44f  05          8.71E 08        3.80E 06    8.35E 05  1.20E 06 I  131      8.16E 07            1.28E 07      1.43E 08    1.44E 08  2.36E 08 4.75E 10 I  133      1.67E 06            1.78E 06      3.57E 06    4.42E 06 , 7.36E 06 8.21E 08 Cs  134    5.40E 09            1.38E 08      1.56E 10    2.56E 10  7.93E 09          2.84E 09 Cs  136    1.43E 08          '7.77E  06      8.04E 07    2.21E 08  1.18E 08          1.76E 07 Cs  137    3.52E 09            1.50E 08      2.48E 10    2.39E 10  7.78E 09          2.80E 09 Ba 140      1.61E 07            1.40E 08      2.76E 08    2.42E 05  7.87E 04          1.44E 05 Ce  141    4.75E 04            3.99E 08      6.42E 05    3.20E 05  1.40E 05
* mrem/ r uCi/m
  )
I


APPENDIXADOSEPARAMETERS FORIODINE-131 AND-133,PARTICULATES ANDTRITIUMThisappendixcontainsthemethodology whichwasusedtocalculate thedoseparameters for1-131,1-133,particulates, andtritium.Thedoseparameter, Riwascalculated usingthemethodology outlinedinNUREG-0133 andRegulatory Guide1.109Revision1.Theradioiodine andparticulate Technical Specification (Section3.6.15)isapplicable tothelocationintheunrestricted areawherethecombination ofexistingpathwaysandreceptoragegroupsindicates themaximumIpotential exposureoccurs,i.e.,thecriticalreceptor.
TABLE 3-4N R VALUES  VEGETATION    -  TEEN 0
Theinhalation andgroundplaneexposurepathwaysareconsidered toexistatalllocations, butthecriticallocationwill'eusedfordosepurposes.
m2-mrem/yr uCi/sec NUCLIDE    T.- BODY          GI-TRACT        BONE        LI VER      KIDNEY    THYROID    LUNG H  3*      2.61E 03          2.61E 03                    2.61E 03    2.61E 03  2.61E 03 2.61E 03 Cr 51      6.11E 04          1.03E 07                                1.34E 04  3.39E 04 8.72E 04 Mn 54      8.79E 07          9.89E 08                    4.43E 08    1.32E 08 Fe 59      1.60E 08          9.78E 08      1.77E 08      4.14E 08                      1.30E 08 Co 58      9.79E 07          5.85E 08                    4.25E 07 Co 60      5.57E 08          3.22E 09                    2.47E 08 Zn 65      8.68E 08          7.88E 08      5.36E 08      1.86E 09    1.19E 09 Sr 89      4.36E 08          1.81E 09      1.52E 10 Sr 90      2.05E  11        2.33E 10      8.32E  11 Zr  95    3.68E 05          1.23E 09      1.69E 06      5.35E 05    7.86E 05 I  131     5.77E 07          2.13E 07      7.68E 07      1. 07E 08  1. 85E 08 3.14E 10 I  133     1.01E 06          2.51E 06      1.96E 06      3.32E 06    5.83E 06  4.64E 08 Cs  134    7.54E 09          2.02E 08      6.90E 09      1.62E 10    5.16E 09          1.97E 09 Cs  136    1.13E 08          1.35E 07      4.28E 07      1.68E 08  9.16E 07          1.44E 07 Cs  137    4.90f  09        2.00E 08      1.06E 10      1.41E 10  4.78E 09          1.86E 09 Ba 140    8.88E 06          2.12E 08      1.38E 08      1.69E 05 . 5.72E 04          1.14E 05 Ce 141    2.12E 04          5.29E 08      2.77E 05      1.85E 05  8.70E 04
Thegrass-goat-milk, thegrass-cow-milk, grass-cow-meat, andvegetation pathwaysareconsidered toexistatspecificlocations.
* mrem/ r uCi/m                                           
R.valueshavebeencalculated fortheadult,teen,1child,andinfantagegroupsforallpathways.
Themethodology usedtocalculate thesevaluesfollows:A.1Inhalation PathwaR.=K'(BR)(DFA.)Iaiawhere:R.Idosefactorforeachidentifiedradionuclide ioftheorganofinterest(units=mrem/hrperuCi/m3);K'aconstantofunitconversion; 10pCi/uCi;6(BR)=Breathing rateofthereceptorofagegroupa,(unitsm~/yr);(DFAi)=organinhalation dosefactorforradionuclide iforthereceptorofagegroupa,(units=mrem/pCi).


Thebreathing rates(BR)forthevariousagegroups,asgiveninTableaE-5ofRegulatory Guide1.109Revision1,aretabulated below.AeGroup(a)BreathinRate(m~/yr)InfantChildTeenAdult1400370080008000Inhalatton dosefactors(DFA.)forthevariousagegroupsaregiveniniaTablesE-7throughE-10ofRegulatory Guide1.109Revisionl.A.2GroundPlanePathwaR.=K'K"(SF)DFG.Il-A~t(I-e)where:GR.Idosefactorforthegroundplanepathwayforeachidentified radionuclide ifeartheorganofinterest(units=mrem/yrperuCi/secperm)2K'aconstantofunitconversion; 10pCi/uCi;6K"=aconstantofunitconversion; 8760hr/year;
TABLE 3-4N R  VALUES  -  VEGETATION  -  ADULT m2-mrem/yr uCi/sec NUCLIDE    T. BODY          GI-TRACT          BONE        LI VER    KIDNEY    THYRO ID    LUNG 3*      2.28E 03          2.28E 03                      2.28E 03  2.28E 03  2.28E 03 2.28E 03 Cr 51      4.60E 04          1.16E 07                                1.01E 04  2.75E 04 6.10E 04 Nn 54      5.83E 07          9.36E 08                      3.05E 08  9.09E 07 Fe 59      1.12E 08          9.75E 08      1.24E 08      2.93E 08                    8.17E 07 Co  58      6.71E 07          6.07E 08                      2.99E 07 Co 60      3.67E 08          3.12E 09                      1.66E 08 Zn 65      5.77E 08          8.04E 08      4.01E 08      1.28E 09  8;54E 08 Sr 89      2.87E 08          1.60E 09      1.08E 10 Sr 90      1.64E  ll          1.93E 10      6.70E  11 Zr  95      2.51E 05          1.17E 09      1.16E 06      3.71E 05  5.82E 05 I  131      6.6'IE 07          3.04E 07      8.07E 07      1.15E 08  1.98E 08  3.78E 10 I 133      1.12E 06          3.30E 06      2.11E 06      3.67E 06  6.40E 06  5.39E 08 Cs  134    8.83E 09          1.89E 08      4.54E 09      1.08E 10  3.49E 09          1.16E 09 Cs  136    1.19E 08        '1.88E  07      4.19E 07      1. 66E 08 9. 21E 07          1.26E 07 Cs  137    5.94E 09          1.76E 08      6.63E 09      9.07E 09  3.08E 09          1.02E 09 Ba 140      8.40E 06          2.64E 08      1.28E 08      1.61E 05  5.47E 04          9.22E 04 Ce  141    1.48E 04          4.99E 08      1.93E 05      1.31E 05  6.07E 04
* mrem/ r uCi m


theradiological decayconstantforradionuclide i,(units=sec)-1It=theexposuretime,sec;4.73x10sec(1Syears);8DFG.=Ithegroundplanedoseconversion factorforradionuclide i;(units=mrem/hrperpCi/m')SF=theshielding factor(dimensionless);
TABLE  3-40 R  VALUES  -  INHALATION - INFANT mr em/yr uci/m3 NUCLIDE    T. BODY          GI-TRACT        BONE      LIVER    KIDNEY  THYROID    LUNG H  3      6.46E 02          6.46E 02                  6.46E 02 6.46E 02 6.46E 02 6.46E 02 Cr 51      8.93E  01          3.56E 02                          1.32E 01 5.75E 01 1.28E 04 Mn 54      4.98E 03          7.05E 03                  2.53E 04 4.98E 03          9.98E 05 Fe 59      9.46E 03          2.47E 04    1.35E 04    2.36E 04                  1.01E 06 Co 58      1.82E 03          1.11E 04                  1.22E 03                  7.76E 05 Co 60      1.18E 04          3.18E 04                  8.01E 03                  4.50E 06 Zn 65      3.10E 04          5.13E 04    1.93E 04    6.25E 04 3.24E 04          6.46E 05 Sr 89      1.14f  04          6.39E 04    3.97E 05                                2.03E 06 Sr 90      2.59E 06          1.31E 05    4.08E 07                                1.12E 07 Zr  95    2.03E 04          2.17E 04    1.15E 05  ~ 2.78E 04 3.10E 04          1.75E 06 I  131    1.96E 04          1.06E 03    3.79E 04    4.43E 04 5.17E 04 1.48E 07 I 133    5.59E 03          2.15E 03    1. 32E 04    1.92E 04 2.24E 04 3.55E 06 Cs  134  7.44E 04          1.33E 03    3.96E 05    7.02E 05 1.90E 05          7.95E 04 Cs 136    5.28E 04          1.43E 03    4.82E 04    1.34E 05 5.63E 04          1.17E 04 Cs  137  4.54E 04          1.33E 03    5.48E 05    6.11E 05 1.72E 05          7.12E 04 Ba 140    2.89E 03          3.83E 04    5.59E 04    5.59E 01 1.34E 01          1.59E 06 Ce  141  1.99E 03          2.15E 04    2.77E 04    1.66E 04 5.24E 03          5.16E 05
lAshielding factorof0.7isdiscussed inTableE-15ofRegulatory Guide1.109Revision1.Atabulation ofDFG.valuesispresented inTableE-6IofRegulatory Guide1.109Revision1.A.3Grass-Cow orCoat-.Milk PathwaXetfR.=K'QFUF(DFL.)effpstr(l-eIYAEI-X.tb+B.(1-eI(l-ff)ps-XEtr(l-e)YSI+B.(I-eIv-X.tbI)-X.thwhere:MRidosefactorforthecowidentified radionuclide imrem/yrperuCi/secpermilkorgoatmilkpathway,foreachfortheorganofinterest, (unitsm)


K'aconstantofunitconversion; 10pCi/uCiThecow'sorgoat'sfeedconsumption rate,(units=Kg/day-wet weight)Uapthereceptor's milkconsumption rateforagegroupa,(units=liters/yr);Ytheagricultural productivity byunitareaofpasturefeedgrass,(units=kg/m2);Y=theagricultural productivity byunitareaofstoredfeed,(unitss=kg/m~);F=thestableelementtransfercoefficients, (units=pCi/liter permpCi/day);
TABLE 3-4P R  VALUES  INHALATION - CHILD mrem/yr uCi/m3 NUCLIDE  T. BODY        GI-TRACT      BONE    LI VER  KIDNEY  THYROID 1.12E 03        1.12E 03                1.12E 03 1.12E 03 1.12E 03 1.12E 03 Cr 51    1.54E 02        1.08E 03                        2.43E 01 8.53E 01 1.70E 04 Mn  54    9.50E 03        2.29E 04                4.29E 04 1.00E 04          1.57E 06 Fe 59    1.67E 04        7.06E 04    2.07E 04    3.34E 04                  1.27E 06 Co 58    3.16E 03        3.43E 04                1.77E 03                  1.10E 06 Co 60    2.26E 04        9.61E 04                1.31E 04                  7.06E 06 Zn 65    7;02E 04        1.63E 04    4.25E 04    1.13E 05 7.13E 04          9.94E 05 Sr 89    1.72E 04        1.67E 05    5.99E 05                              2.15E 06 Sr 90    6.43E 06        3.43E 05    1.01E 08                              1.47E 07 Zr 95    3.69E 04        6.10E 04    1.90E 05    4.17E 04 5.95E 04          2.23E 06 I  131    2.72E 04        2.84E 03    4.80E 04    4.80E 04 7.87E 04 1.62E 07 I 133    7.68E 03        5.47E 03    1.66E 04    2.03E 04 3.37E 04 3.84E 06 Cs  134  2.24E 05        3.84E 03    6.50E 05    1.01E 06 3.30E 05          1.21E 05 Cs 136    1.16E 05        4.17E 03    6.50E 04    1.71E 05 9.53E 04          1.45E 04 Cs  137  1.28E 05        3.61E 03    9.05E 05    8.24E 05 2.82E 05          1.04E 05 Ba 140    4.32E 03        1.02E 05    7.39E 04    6.47E 01 2.11E 01          1.74E 06 Ce  141  2.89E 03.        5.65E 04    3.92E 04    1.95E 04 8.53E 03          5.43f 05
'=fractionof'deposited activityretainedoncow'sfeedgrass;(DFL.)=theorganingestion dosefactorforradionuclide ifortheiareceptorinagegroupa,(units=mrem/pCi);
XE=X.+itheradiological decayconstantforradionuclide i,I(units=sec);thedecayconstantforremovalofactivityonleafandplantsurfacesbyweathering 5.73x10sec(corresponding toa14dayhalf-life);


tf=thetransport timefromfeedtocoworgoattomilk,toreceptor, (units=sec);th=thetransport timefromharvest,tocoworgoat,toconsumption, (units=sec);tb=periodoftimethatsoilisexposedtogaseouseffluents, (units=sec);B.Ivconcentration factorforuptakeofradionuclide ifromthesoilbytheediblepartsofcrops,(units=pCi/Kg(wetweight)perpCi/Kg(drysoil);P=effective surfacedensityforsoil,(units=Kg(drysoil)/m');
TABLE  3-4g R  VALUES  -  INHALATION  TEEN mrem/yr uCi/m3 NUCLIDE    T. BODY          GI-TRACT      BONE    LIVER      KIDNEY    THYROID    LUNG H 3        1.27E 03          1.27E 03                1.27E 03  1.27E 03  1.27E 03 1.27E 03 Cr 51      1.35E 02          3.00E 03                          3.07E  01 7.49E 01 2.09E 04 Mn 54      8.39E 03          6.67E 04                5. 10E 04  1.27E 04          1.98E 06 Fe 59      1.43E 04          1.78E 05    1.59E 04    3.69E 04                      1.53E 06 Co  58      2.77E 03          9.51E 04                2.07E 03                      1.34E 06 Co 60      1.98E 04          2.59E 05                1.51E 04                      8.7.1E 06 Zn 65      6.23E 04          4.66E 04    3.85E 04    1 . 33E 05 8. 63E 04          1.24E 06 Sr 89      1.25E 04          3.71E 05    4.34E 05                                  2.41E 06 Sr 90  . 6.67E 06        .7.64E 05    1.08E 08                                  1.65E 07 Zr 95      3.15E 04          1.49E 05    1.45E 05    4.58E 04  6.73E 04          2.68E 06 I  131      2.64E 04          6.48E 03    3.54E 04    4.90E 04  8.39E 04  1.46E 07 I 133      6.21E 03          1.03E 04    1.21E 04    2.05E 04  3.59E 04  2.92E 06 Cs  134    5.48E 05          9.75E 03    5.02E 05    1.13E 06  3.75E 05          1.46E 05 Cs 136      1.37E 05          1.09E 04    5.14E 04    1.93E 05  1.10E 05          1.77E 04 Cs  137    3.11E 05          8.47E 03    6.69E 05    8.47E 05  3.04f  05          1.21E 05 Ba 140      3.51E 03          2.28E 05    5.46E 04    6.69E 01  2.24E 01          2.03E 06 Ce  141    2.16E 03          1.26E 05    2.84E 04    1.89E 04  8.87E 03          6.13E 05
f=fractionoftheyearthatthecoworgoatisonpasture*;
pf=fractionofthecowfeedthatispasturegrasswhilethecowissonpasture";
t=periodofpasturegrassandcropexposureduringthegrowingeseason,(units=sec);*Milkcattleandgoatsareconsidered tobefedfromtwopotential sources,pasturegrassandstoredfeeds.Following thedevelopment inRegulatory Guide1.109Revision1,thevalueoffwasconsidered unityinlieuofssite-specific information.
Thevalueoffwas0.667baseduponanp8-monthgrazingperiod.TableA-1containstheappropriate valuesandtheirsourceinRegulatory Guide1.109Revision1.Theconcentration oftritiuminmilkisbasedontheairborneconcentration ratherthanthedeposition.
Therefore, theR.isbasedonX/Q:IRT=K'K"'FQFU(DFL.)0.75(0.5/H) 0 MRTdosefactorforthecoworgoatmilkpathwayfortritiumfortheorganofinterest, (units=mrem/yrperuCi/m');K'"=aconstantofunitconversion; 103gm/kg.H=absolutehumidityoftheatmosphere, (units=gm/m');0.75=thefractionoftotalfeedthatiswater;0.5theratioofthespecificactivityofthefeedgrasswatertotheatmospheric water.Othervaluesaregivenabove.AvalueofHof8grams/meter, wasusedinlieuofsite-specific information.
A.4Crass-Cow-Meat PathwaI'X.tfR-=K'qUF.(DFIr(l-eYI-X.tb+B.(1-eI(I-ff)p5-XEr(l-e)+ieYXSB.(l-eIV-X.thBR.Idosefactorforthemeatingestion pathwayforradionuclide ifor-2anyorganofinterest, (units=mrem/yrperuCi/secperm):F<=thestableelementtransfercoefficients, (units=days/Kg);


eUapthereceptor's meatconsumption rateforagegroupa,(units=kg/year;t=thetransport timefromslaughter toconsumption, (units=sec);th=thetransport timefromharvesttoanimalconsumption, (units=sec);t=periodofpasturegrassandcropexposureduringthegrowingeseason,(units=sec)Allothertermsremainthesameasdefinedforthemilkpathway.TableA-2containsthevalueswhichwereusedincalculating R..Theconcentration oftritiuminmeatisbasedonairborneconcentration ratherthandeposition.
TABLE 3-4R R  VALUES  INHALATION - ADULT mrem/yr uci/m3 NUCLIDE    T; BODY          GI-TRACT      BONE    LIVER    KIDNEY  THYROID    LUNG H  3      1.26E 03          1.26E 03              1.26E 03 1.26E 03 1.26E 03 1.26E 03 Cr 51      9.99E 01          3.32E 03                        2.28E 01 5.94E 01 1.44E 04 Mn 54      6.29E 03          7.72E 04              3.95E 04 9.83E 03          1.40E 06 Fe 59      1.05E 04          1.88E 05  1.17E 04    2.77E 04                  1.01E 06 Co  58    2.07E 03          1.06E 05              1.58E 03                  9.27E 05 Co 60      1.48E 04          2.84E 05              1.15E 04                  5.96E 06 Zn 65      4.65E 04          5.34E 04  3.24E 04    1.03E 05 6.89E 04          8.63E 05 Sr 89      8.71E 03          3.49E 05  3.04E 05                              1.40E 06 Sl  90    6.09E 06          7.21E 05  9.91E 07                              9.59E 06 Zr 95      2.32E 04          1.50E 05  1.07E 05    3.44E 04 5.41E 04          1.77E 06 I  131    2.05E 04          6.27E 03  2.52E 04    3.57E 04 6.12E 04 1.19E 07 I  133    4.51E 03          8.87E 03  8.63E 03    1.48E 04 2.58E 04 2.15E 06 Cs  134  7.27E 05          1.04E 04  3.72E 05    8.47E 05 2.87E 05          9.75E 04 Cs  136  1.10E 04          1.17E 04  3.90E 04    1.46E 05 8.55E 04          1.20E 04 Cs  137  4.27E 05          8.39E 03  4.78E 05    6.20E 05 2.22E 05          7.51E 04 Ba 140    2.56E 03          2.18E 05  3.90E 04    4.90E 01 1.67E Ol          1.27E 06 Ce  141  1. 53E 03        1.20E 05  1.99E 04    1.35E 04 6.25E 03          3.61E 05
Therefore, theR.isbasedonX/Q.IR=K'K"'FQFU(DFL.)(0.75(0.5/H)
]where:BRT=dosefactorforthemeatingestion pathwayfortritiumforanyorganofinterest, (units=mrem/yrperuCi/m~),Alltermsaredefinedabove.A.5VetationPathwayTheintegrated concentration invegetation consumedbymanfollowstheHexpression developed formilk.Manisconsidered toconsumetwotypesofvegetation (freshandstored)thatdifferonlyinthetimeperiodbetweenharvestandconsumption, therefore:


R.=K'(DFL.)IiaUfeaL-AErl-eYIBI-eLvPA.-X.tbwhere:S-KithUfe-AEtr(l-eie)YvIB.(I-eIv-A.tb)RVidosefactorforvegetable pathwayforradionuclide ifortheorganofinterest, (units=mrem/yrperuCi/secperm);K'aconstantofunitconversion; 10pCi/uCi:6ULatheconsumption rateoffreshleafyvegetation bythereceptorinagegroupa,(units=kg/yr);fL=thefractionoftheannualintakeoffreshleafyvegetation grownlocally;f=thefractionoftheannualintakeofstoredvegetation grownglocally.tL=theaveragetimebetweenharvestofleafyvegetation anditsconsumption, (units=sec);theaveragetimebetweenharvestofstoredvegetation anditshconsumption, (units=sec);rY=thevegetation areadensity,(units=kg/m');te=periodofleafyvegetable exposureduringgrowingseason(units=sec);
TABLE 3-4S R VALUES - GRUUNO  - ALL AGE GROUPS m 2-A]ran/yr NUCLIDE                                T. BODY Cr  51                                4.66E 06 Nn 54                                  1.34E 09 Fe,",9                                2. 75E 08 Co  58                                3.79E 08 Co  60                                2.15E 10 Zn 65                                  7.49E 08 Sr 89                                  2.23E 04 Zr 95                                  2.49E 08 I  131                                1.72E 07 I" 133                                2.47E 06 Cs  134                              '6.82E 09 Cs  136                                1.49E 08 Cs  137                                1.03E 10 Ba 140                                  2A5E 07 Ce 141                                1.36E 07 l~h~
SN)LD    I'lO                            1AM j 6)<Q.
feb q<
gb l>o in+~


Allotherfactorsaredefinedabove.TableA-3presentstheappropriate parameter valuesandtheirsourceinRegulatory Guide1.109Revisionl.Inlieuofsite-specific data,valuesforfLandfof,1.0and0.76,respectively, wereusedinthecalculation.
Nine Mile Point Nuclear Station Unit 1 Radiation Environmental Monitoring Program Sampling Locations Table 5.1 Type  of
ThesevalueswereobtainedfromTableE-15ofRegulatory Guide1.109Revisionl.Theconcentration oftritiuminvegetation isbasedontheairborneconcentration ratherthanthedeposition.
* Map
Therefore, theR.isbasedonIX/Q:R=K'K"Uf+UaLag(DFL.)0.75(0.5/H) where:VRTdosefactorforthevegetable pathwayfortritiumforanyorganofinterest, (units=mrem/yrperuCI/m~).Allothertermsaredefinedinpreceeding sections.  
  =- Sam  le          . .Location        Collection Site          Location Radioiodine    and                1      Village of Lycoming, NY  1.9 mi  8 145'E Particul ates  (air)
Radioiodine    and                        Near  East Property        1.0 mi  8 85' Particulates (air)                        Boundary of JAFNPP Radioiodine    and                        Rt. 29                    1.3 mi 8  115'SE Particulates (air)
Radioiodine and                          NE  Shoreline Area        0.8 mi 8  68'NE Particulates (air)
Radioiodine and                          Montario Point Road        16.4 mi 8  42'E Par ticul ates (air )
Direct Radiation    (TLD)        6      North Shoreline Area      0.1 mi  80' Direct Radiation    (TLD)        7      North Shoreline Area      0.1 mi 8  25'NE Direct Radiation    (TLD)        8      North Shoreline Area      0.2 mi 8  45'E Direct Radiation    (TLD)     . 9      North Shoreline Area      0.9 mi 8  75'NE Direct Radiation    (TLO)        10      Sunset Bay Road            1.2 mi 8 90    E Direct Radiation    (TLD)        ll      Rt. 29                    1.3 mi 8  115'SE Direct Radiation    (TLO)        12      Rt. 29                    1.5 mi 8  135'E Direct Radiation    (TLD)        13      Miner  Road              1.8 mi 8  160'SE Direct Radiation    (TLD)        14      Miner Road                1.7 mi 8 180' Direct Radiation    (TLD)        15      Lakeview Road              1.1 mi 8  200'SW Direct Radiation    (TLD)        16      Lakeview Road              0.7 mi  8 225'W Direct Radiation    (TLD)       17      Site Meteorological  Tower 0.7 mi 8  250'SW Direct Radiation    (TLO)       18      Energy Information Center  0.5 mi 8  268'
*Map  -  See  Figures 5.1-1 and 5.1-2


TABLEA-1Parameters forCowandGoatMilkPathwaysParameter QF(kg/day)Y(kg/mi)tf(seconds)
Nine Mile Point Nuclear Station Unit 1 Radiation Environmental Monitoring Program Sampling Locations Table 5.1 (Continued)
(DFLi)(mrem/pCi)
Type  of
F(pCi/dayperpCi/liter)
* Map
Value50(cow)6(goat)0.71.73x10(2days)51.0(radioiodines) 0.2(particulates)
  ~ 'am le                  Location .-      Collection Site        :.Location Direct Radiation    (TLD)     19      North Shoreline            0.2  mi 8  290'NW Di'rect Radiation (TLD)       20      North Shoreline            0.1 mi 8  315'W Direct Radiation    (TLD)     21      North Shoreline            0.1 mi 8 335'NW Direct Radiation    (TLO)     22      Oemster Beach Road          4.5 mi 8 100' Direct Radiation    (TL'D)     23      Leavitt  Road              4.2 mi 8  115'SE Direct Radiation    (TLD)     24      Rt. 104                    4.2 mi  8  140'E Direct Radiation    (TLO)     25      Rt. 51A                    4.8  mi 9  160'SE Direct Radiation    (TLD)     26      Maiden Lane Road            4.4  mi 8  190' Direct Radiation    (TLO)     27      Rt. 53                    4.8 mi 8 205'SW Direct Radiation    (TLD)     28      Mitchell Street            4.8  mi 8  220'W Direct Radiation    (TLD)     29      Lake Shoreline              4.4 mi  8  240'SW Direct Radi'ation  (TLD)     30      Phoenix,  NY  Control      20.0 mi 9 165'-SSE 1
Eachradionuclide EachstableelementReference (Re.Guide1.109Rev.1)TableE-3TableE-3TableE-15TableE-15TableE-15TableE-15TablesE-11toE-14TableE-1(cow)TableE-2(goat)tb(seconds)
Direct Radiation    (TLO)     31      S.W. Oswego,    Control    12.8 mi 8  225'W Direct Radiation    (TLD)     32      Scriba,  NY                4.1 mi 8  195'SW Direct Radiation    (TLO)     33      Alcan Aluminum, Rt. 1A  3.2 mi 8  220'W Direct Radiation    (TLD)     34      Lycoming,  NY              1.9 mi 8  145'E Direct Radiation    (TLD)   '5        New  Haven,  NY            5.4 mi  8  120'SE Direct Radiation    (TLO)     36      W. Boundary, Bible    Camp 0.9  mi 8 2384 SW-WSW Direct Radiation    (TLD)     37      Lake Road                  1.1 mi 8  105'-ESE Surface Water                  38      OSS  Inlet  Canal          7.7  mi 8 230'W-WSW Surface Water                  39      JAFNPP  Inlet  Canal      0.5  mi 8 70    ENE
Y(kg/m')Y(kg/m')th(seconds)
*Map  - See  Figures 5.1-1 and 5.1-2
U(liters/yr) ap4.73x10(15yr)82.00.77.78x10(90days)6330infant330child400teen310adultTableE-15TableE-15TableE-15TableE-15TableE-5TableE-5TableE-5TableE-5t(seconds) e2.59x106(pasture)
TableE-1565.18x10(storedfeed)B.,(pCi/Kg(wetweight)perpCi/Kg(drysoil))P(Kgdrysoil/m')Eachstableelement240TableE-1TableE-15


TABLEA-2Parameters fortheMeatPathwayParameter Ff(pCi/KgperpCi/day)U(Kg/yr)Value1.0(radioiodines) 0.2(particulates)
Nine Mile Point Nuclear Station Unit 1 Radiation Environmental Monitoring Program Sampling Locations Table 5.1 (Continued)
Eachstableelement0infant41child65teen110adultReference (Re.Cuide1.109Rev.1)TableE-15TableE-15TableE-1TableE-5TableE-5TableE-5TableE-5(DFL.)(mrem/pCi)
Type  of            *Map Sam  le            Location        Collection Site            Location Shoreline Sediment          40      NMPNS  Shoreline              1.3 mi 8  82' Fish                        41      NMP  Site Discharge Area      0.3 mi 9  315'W and/or Fish                        42      NMP  Site Discharge Area      0.6 mi 8  55'E Fish                        43      Oswego Harbor Area            6.3 mi Ia 235'SW Milk                        44      Milk Location &#xb9;45              8.0 mi 8  125'E Mi lk                        45      Milk Location &#xb9;7              5.5 mi 9  107'SE Milk                        46      Milk Location &#xb9;16              5.2 mi 8  190' Milk                        47      Milk Location &#xb9;40              15.2 mi 8  220'W Food Product                48      Produce Location  &#xb9;1**        1.6 mi 8 95' Food. Product                49.     Produce Location  &#xb9;2**        1.6 mi 9  115'SE Food Product                50      Produce Location  &#xb9;3**        2.0 mi 8  103'SE Food Product                51      Produce Location  &#xb9;4**        15.2 mi 8  220'W Food Product                52      Produce Location  &#xb9;5**        1.3 mi 8 225' Food Product                53      Produce Location  &#xb9;6**        1.6 mi 8  132'E Food Product                54      Produce Location  &#xb9;7**        2.3 mi 8  118'SE Food Product                55      Produce Location  &#xb9;8**        12.6 mi 8  225'W
Y(/m~Y(kg/m')tb(seconds) t(seconds) th(seconds) t(seconds)
* Map - See Figures 5.1-1 and 5.1-2
QF(kg/day)B.(pCi/Kg(wetweightperpCi/Kg(drysoil))P(Kg(drysoil)/m~)
** Food Product samples need not necessarily      be collected from all listed locations. Collected samples  will be of  the highest calculated site average D/g.
Eachradionuclide 0.72.04.731.737.782.595.1850x10(15yr)8x10(20days)6x10(90days)x106(pasture) x10(storedfeed)240EachstableelementTablesE-11toE-14TableE-15TableE-15TableE-15TableE-15TableE-15TableE-15TableE-3TableE-1TableE-15


TABLEA-3Parameters fortheVegetable PathwayParameter r(dimensionless)
APPENDIX A DOSE PARAMETERS FOR    IODINE-131  AND  -133,  PARTICULATES AND TRITIUM This appendix contains the methodology which was used to calculate the dose parameters  for 1-131, 1-133,  particulates,    and  tritium. The dose parameter, R  , was calculated using the methodology outlined in        NUREG-0133 and Regulatory Guide 1.109, Revision 1.      The  radioiodine    and  particulate Technical Specification (Section 3.6.15) is applicable to the location in the unrestricted area where the combination of existing pathways            and  receptor  age groups indicates the maximum    potential exposure occurs,      i.e.,  the  critical receptor. The  inhalation  and ground plane exposure      pathways are considered    to exist all locations but the critical location will          be used  for dose purposes.
(DFL.)(mrem/Ci)
The  grass-goat-milk, the grass-cow-milk,      gr ass-cow-meat,    and  vegetation pathways are considered    to exist at specific locations.        R. values have been 1
U(kg/yr)-infant-child-teen-adultU(kg/yr)-infantS~-child-teenadulttL(seconds) th(seconds)
calculated for the adult, teen, child     and  infant    age groups  for all  pathways.
Y(kg/~)t(seconds) etb(seconds)
.The methodology used    to calculate these values follows:
P(Kg(drysoil)/m~)
A.l Inhalation  Pathwa R)                   Kl(BR)(DFAi)a where:
8i(pCi/Kg(wetweight)perpCi/kg(drysoil))Value1.0(radioiodines) 0.2(particulates)
dose  factor for each identified radionuclide i of the organ of  interest (units = mrem/hr per uCi/m3);
Eachradionuclide 026426405206305208.6x10(1day)45.18x10(60days).2.05.18x10(60days)4.73x10(15yr)240EachstableelementReference (Re.Guide1.109Rev.1)TableE-1TableE-1TablesE-lltoE-14TableE-5TableE-5TableE-5TableE-5TableE-5TableE-5TableE-5TableE-5TableE-15TableE-15TableE-15TableE-15TableE-15TableE-15TableE-1
Kl                    a constant of unit conversion:
106  pCi/uCi; Breathing rate of the receptor of age group a, (units
                            = m3/yr);
(DFA;),              organ inhalation dose factor for radionuclide i for the receptor of age group a, (units = mrem/pCi).


DIAGRAMSOFUQUIDANDGASEOUSRADWASTETREATMENT SYSTEMS
APPENDIX  A DOSE PARAMETERS FOR IODINE 131      AND 133 ]
PARTI CU LATES AN D TRI TI U M


.RADIOACTIVE WASTEDISPOSALSYSTEAIItttaoaa>>Is>>KIea4>>taIM(CeM(~IOWIOlaA>>KOtal(IMI~IIAttWla,t~tEooc>>IKe>>aKElwEca>>e>>tn~o>>IIIOK(II\
APPENDIX A DOSE PARAMETERS FOR  IODINE-131 AND -133, PARTICULATES AND TRITIUM This appendix contains the methodology which was used to calculate the dose parameters for 1-131, 1-133, particulates, and tritium. The dose parameter, Ri was calculated using the methodology outlined in NUREG-0133 and Regulatory Guide 1. 109 Revision 1. The radioiodine and particulate Technical Specification (Section 3.6. 15) is applicable to the location in the unrestricted area where the combination of existing pathways and receptor age groups indicates the maximum I
Ol~OIOl>>VKI(14
potential exposure occurs, i.e., the critical receptor. The inhalation and ground plane exposure pathways are considered to exist at all locations, but the critical location will'e used for dose purposes. The grass-goat-milk, the grass-cow-milk, grass-cow-meat, and vegetation pathways are considered to exist at specific locations. R.1 values have been calculated for the adult, teen, child, and infant age groups for all pathways. The methodology used to calculate these values follows:
~IKtlCeaa>>141t COE(I>>ltWK~Klatlat4%,IK(1KIKMCOOK(It(It I\I(4OIa>>14OaaI(aIaa(aHellcoaccl44IKKIIsalKI(I>>aa(III~lhtntCOCI1>>htSIK~IIItAla(K~4las,OIOIoa>>I4IO'IVlhal~~>>KKt>>IKO~llV>>ltEat>>,lot~IllhlahI>>(K>>alesettIICcalLones~KCOEI>>HI>>VIIIIIVtoa>>,O>>~IS>>O>>.WKO>>.1(oelease(OE(H>>heWKIaa>>catst~4IO>>Vhatha~ISSMO>>,Vt(H\~\t>>Y(tfestIatollaJeh(lhC(((h
A. 1    Inhalation Pathwa R.
~(KCh(h~%(CLJILJSIIIO
I
~KKIO((CI>>KIAIOIO~~a(1Cl>>ah(ha~MIIIAttIK,I~IeaalCO((IsaIMAtA>>oa~coEEtaa>>a(litKtnI4.1~otno>>K~t>>e(I~>>>>oa~OK>>>>ItIMIate~tI(aFIGUREB-I14naa>>otoRADIOACTIVE IIASTEDISPOSALSYSTEMNIAGARAMOHAWKPOWERCORPORATION NINEMILEPOINT-UNIT 1OFFSITEDOSECALC.MANUAL
            =    K'(BR) a    (DFA.)
i a where:
R.
I dose  factor for each identi fied radionuclide  i of the organ of interest (units = mrem/hr per uCi/m3);
K'        a  constant of unit conversion; 6
10  pCi/uCi; (BR)      =      Breathing rate of the receptor of age group a, (units m~/yr);
(DFAi)    =      organ inhalation dose factor for radionuclide      i  for the receptor of age group a, (units = mrem/pCi).


nIWtcnffCn>>tn<<WI>>
The breathing rates (BR) a for the various age groups, as given in Table E-5 of Regulatory Guide 1.109 Revision 1, are tabulated below.
ItRIlit~w<<naInI~nf4n.enRtIaaIII~.InCIcwRICnlallen<<CRI~I>>l~I>>I~l(tncIn,tinIIffutl<<ffl<<~<<WnlI>>ca>>I<<II~IcatltWRC>>t<<>>ne>>nIn<<anewffl<<<<c>>I<<I IlI"Id~iIH:<<I<<IR>>RI>>tn>><<IVeIR'g'4<<~ljVIntac>>wIn<<<<c>>w~n<<neanffIlncI<<~~mcRI>><<IIcnffRefflIff~ItCIICntlwlaln>>n<<CRI>><<ICt>>CR>>~tn>>IMM+~<<tP~P~,ll<<>><<afttltlCIR>>elWaIffR<<<<<<I<<Iln,In'IGURE8-pSTEAMPACKINGEXINUSTER ANDRECOMBINER SYSTEMSCRIC>>INIAGARAMOHAWKPOWERCORPORATION NINEMILEPOINT-UNIT 1OFFSITEDOSECALOIMANUAL l~
A e Group (a)                               Breathin  Rate (m~/yr)
REACTORBUILDINGIIEATING, COOLING.ANDVENTILATION SYSTEMMC~Isl-~~B.IEI~o<<<<s>>a>>M>>cDasl~<<MMLPI4~4SM~S<<f~PQM~~Ia<<ltlt~alatwII~~~--aalI.PDCIClaDMM>><<MMMsslaslag<~astll<<~M:-~~P'>>say~<<IMa<<It<<<<~<<al<<swlIMIaIIIMDLIM~a<<MI~MI<<4MP>>SIal<<wt~MMt~ILIMII-QwM)IMN'CWI>>~IM<<sSS~~<<MaMQMIaiMOSEI~a<<IMCEaawILEMa~LM+gIS~'MlS>>PWMIt>>~~sta~LDPIIt>>'>>la~SSL~MMELIM'<<ta~~~~~~~-~~~~~~~~~MM~~~~4.~LIMIlIMMsaasas>>ts.aa.
Infant                                              1400 Child                                                3700 Teen                                                8000 Adult                                                8000 Inhalatton dose factors (DFA.) i a for the various age groups are given in Tables E-7 through E-10 of Regulatory Guide 1.109 Revision l.
Ia>>a~QP~DlalaM~r-M>>saa>>II>>ltpal>>a>>lCasa>>EtMCENP-.>>MDasa>>>>~IMMacsCMII>><<DC>><<MI>>ls~LaaM(IM'~ILMo~LD>>ELMl'taoswami+<<ts~Do~aMSLM~ta>>Cs~~>>4l~<laMIMhIMI<<<IN~<<*DDal>>I>>soa,a<<sa)~a<<as~4(SotSVOaIMMMlslMMa<<w<<twasl>>slC<<as>><<alI:~pa~ELMaIa<<aa>>>>Is>>~<<DlI<<a>>aIILIEISLDMMIt'IMMa>>laa<<M>><<>>asasE<<~,<<>>~I~~P.DIME~apslaD>><<I~aIIa<<>>aaFIGUREB-3REACTORBUILDINGVENTILATION STSTEIINIAGARAMOHAWKPOWERCORPORATION NINEMILEPOINT-UNIT 1OFFSITEDOSECALO.MANUAL l~
A. 2 Ground Plane Pathwa
IVASTEDISPOSALBUILDINGVENTILATION SYSTEMN<<aa~I\ILa<<ea<<EI~OICF.l.I./~aaaCEPtAP!h$
                                              -A ~ t R.   =      K'K"(SF) DFG.         ( I-e        )
5$a>>ENtEWd-8-sP-.-d'-]~\NEllRIHNH<<'<<WEINNVeCENacaINILVIEt~at<<HNCVI~IIN'<<PWEI~NCI~INVw3NtEIIttEIaNI<<I<<e<<IQQRIKIE9;:'6IEI<<Ia~I.IalIpga~I,IIaalI~-(>>JstetJ~CEMOR\~~~tla~IVINLHad<<~'I<<<<a~N~NII~NIl<<HI3'<<ILNdNNVIlEallCINWNla~aa~Ctat<<<<W<<INEpe.aa~aa~NPege<<IIall<<<<I....p>>at<<IIHNaaIllEreaal~a<<H~aaeMa~EN~aaalI<<Ia<<~alaadlwaaclat~all~~alitENVWdeINEIIILIELN<<aeaaltla~I~IHNt<<I~>>Cal<<INdeaI<<,IN~IEN<<INVe<<NPl<<LwaI<<NI>>~Ial~IIa'<<Clg<<Lteadea<<I:8-IQg+IIat~ac<<a~alwII.IIO.<<<<IeaeI~~1<<NIaINIaIrI~I=-I'Q>>I4)laI<<I'<<al~NdNtCI~INVINCI~I~IIN<<FIGURE8-4I<<NI>>*IatNASTEDISPOSALBLDG.VENTILATION SYSTEMNIAGARAMOHAWKPOWERCORPORATION NINEMILEPOINT-UNIT 1OFFSITEDOSECALC.MANUAL
I                     l where:
(>>le(I STACK-PLANANDELEVATION PLATFORM~LSiS!%CI~11'O.Pl.ATFORM LEGSZ,.I.'IIISONNCTIC PROBCK~PPl.ANCCCYATON6IIAPHICPLATFORMCONCCKVCIOPCCLt50'4TOCL15f4PLATFORM42K'JCOFFCAStlNCSiPLANglt07'0f<.105.'O-TOPOF1100S'liltCl,1C110'IGURE B-5~gll'0ROCKCt.ttlC'MP-1STACKeElVATIONNIAGARAMOHAWKPOWERCORPORATION NINEMILEPOINT-UNIT tOFFSlTEDOSECALC.MANUAL l~s)tI OFFGASBUILDINGVENTILATION SYSTEM~~~~a~asaslooalooosts~ososasoovosossassasw~ss~wsstoooMoowsoa~omo~ossos~oloaa%Ms'v~wsooaaswssaeOs~o~ot~ss~osas%Mo'v\otsCtoolsstlotSsloOosatao~\A~Samosa~osas~ovo'vtwso~otoowa~og<<Ioavs'vsso~s~wolsRJll'vassosossaow,sotasFIGUREB6~aosssasasl<<o~OFF-GASBUILDINGVENTILATION SYSTDINIAGARAMOHAWKPOWERCORPORATION NINEMILEPOINT-UNIT 1OFFSIDEDOSECALC.MANUAL eCI APPENDlX.-C DlSPERSION CALCULATlON TABl.ES 4
R.GI      dose  factor for the ground plane pathway for each identified radionuclide i fear the organ of interest (units = mrem/yr per uCi/sec per m 2 )
TABLEC-1D/QTABLE{ANNOALii1ETEOROLOGICAL DATA)050too34EObbt7E-093'26E09I~079E09I~187E092%684E095%095E094~SOZE09525<<f-09I~Tbbf092686E091%499EOb2~IZOE-08I857f-ObI~34)E085'91IE-09HIIPUHII<<ISTACKCVRHECIEO FOROPENTERRA~ooo44o84A<<40oop0<<44pnlRECIIONFHOI1SI)tSSS>>S>>>>Sw1tH>>HwHtt>>NHHEHtEHEEESEStSSfIOU3'62E-09I~981E-09Iob4bE095597E-lu7%420E10).45UE-09 2Zlaf-O9I8Isf-092265E099250E-IQ1.196E-09 544OE-097i?30E096%185E094%983E092'3ZE-09Isu439E-098.62OE-IQ 7~733f-102.t2<<E-103757f-lo7~167E10924F.-I0~89ot-IOI~0loE-094~526E.-I05733E-10344E-093029F-092'4lf-09205)E-09829IE-lu2Ov7~79)f10souloflv4~661E10I~582Elo233'tf-lv4.39bf-Iu5~828E-104.57bE-IO 5.914E-I02TbbELo3452E-10I~337E-V9I6'I'tE-09 1.409E-09 1.155E-09 4.65<<E-lo INRECIRCuLATION RELATIVfOEPOSIIIONPtkUtilIAktA(Haai?IAIfIILVVOIHlSII)ITS'TAHCFS IttHILtS2'vS~nv3Sv9usF.Iv3Shuf.-)u247(FIu3.288E-IQ 2.322F.-IU 1.72<<f-lv 3~121F..-IV2~229EIVI66<<FIuI059f-tv756'IE-115'52f-llI593E101149f.-lU86lbFII2.971E-IQ 2.132E>>IU 1.595E-IO 3Babf-lvZ.TZSF-I02.022f.-lu 99TElv2ll<<ElvI567f-lv896Elv2~757F.-IV2Q<<bF.IVI665E-luI33of.-tU'I986F.-II.308F-lu1.)45F-lu1.22<<f-lv eTZF.-lu60716-lu4<<Tsflu1.09VF.-09 7.5hof-lu 5.5tIf.-lua.98lf-Iub.220f.-tv 4.55<<t-lv7.<<lbf-lu 5.1'tZE-lu 3.8UIF-Iv2.99tE-Io2.ohbF-IuI.sauF-IuVO>>H>>ltonSfCIOHS450I~498EloLE048EIvI~Q15E103~asofott5'70E119'2)E11IZZ8E109~slIE111~242E)V6'82E-1141bfIL2'90E-IV3'3lflv2~723f-IQ2'abfII)9'33fll4.ou1.84<<f-lv ISZof.IuI283):Iv4'6UElloob59E111.23uE-IQ I555F-lu1%)naf-Iu I.'bTSf-1v7~O'46EAII9<<IIFII3.<<ZQE-Iu4~241F-IUS<<69fo-IU2.91St-Iv1%181E)II~as'OI~~Aoaaa~~ji~4s.nvs.sv1.2)5F-IU I.UObf-lO 8<<768-116977F-II8.19bf,.-l I6.731F'-l l2~787f-112290F.-II4.25)f-ll 3.486Ell7'43E11bo<<29Ell99OSEIt6t32fIIT,ehlF.-I Ib317E-11I~oo2F.Iu6231F11<<~901E-II<<015E115966)-11a88QF-ll216<<f>>lvI773f.-lu2.67bf-lu2.1laf-IO2.1'auf.-l ul.I'96E-IV1.85SE-lu 1.525E-lu 7~'552F-11623lf-11OIRFCTIONFROHSITESSS>>8>>>>SnHHIIN>>NHTIHHHtHf.EHEEESESt,SSEF008.a7<<E-IL 5.832f-ll 5609E11I~909E112~897E115%344E116~779E-llso276ELL6~863E113'36E114%049E111.<<TSE-082TE1049bfIuI275E105224ELl65UT.aZQE-11 5~148E114968Ell1%6'92Ell57'5E"114~73UE115981E114obsiE-ll 6054E-112'55E-It3%574E-1129SE-tv595E-IoI305E-loI~118E-Iu4'92E117006%562E-11 454of-ll4%385E111~4'ISE-112'72E-114%18UEll5'79E114'06E-115344E112607E-IIST152EII1.141E-IU I~408E-I0IISIE-IU9870E-Il4U5)f-1175U5'53f-ILV49E113%9Q3EllI329E-ll2'2fEll3~719EIL4699Ell365)E-11475TElt2319E-11i?603E-IIIu15E10Ii?52E-I01~U25E10b79UE113616F.-IIOTSTAHCES h.nu5%261EII363SF,-II3~suof-lllol92E-11 1%8tlE-ll 3.333t-ll
K'         a  constant of unit conversion; 6
<<~21<<E-II328OEll4.26OE-II 2UTbf-112~51ofIt9097E-11I12i?F.I09'85E-117'8)F.Il324TE-11IHHILtbR.Sua.nub9QF11S496F"llITOOF.-IIZ.U52f-ll
10   pCi/uCi; K"  =    a constant of unit conversion; 8760  hr/year;
<<4<<F-11t.lb<<f-tl 7519F-11o.<<TOE-II2bbu)11296ZE-IlS85LF.-III,87<<f-tt Z~Z6SF.IlZopf-11I~012fIVU~Zh'TFIlIZSF"112'35E-ll4.76IF-Iu.33<<R->>3~282F,-I2%981):llS~)SvfI2868fIlI07ofI9'69F.121%63<<F.-II~<<83F)IS~QOTF-I2'l2b).-ll 5'04F-IS~<<53F.Il9.SV3.965F-)1 2t2SE11617E-IIU9Iof12I~SSZFII2.<<b)f-tl 3'5OEIl2456E113%190EIIL,550E11I%869E-IIth)f-lI8374FIIbsIF.-II5'0UE-ll2'3QElltn.no3646f-ll49bf1I399E-ll817sf12239f-II2279E11bbUE-1125SE-ll2925fIlI420E11I7Ilf-I)o~217f11767QE-IIo~28ZE-ll5.<<lvf-ll Z,i?39f1115nu20ovI9tlkf,}I128)1F-)II329F,-IIb<<aZF12265t-ll7.98)E-IZ Slbf-)22726E-126119ufI24v71fI193t11'7aboFI~522E11959bf)2I19<<F117564E<<'IZI~5<<SF-II97326-)Z7.415F-IZ a.balfIZ887bfI25~522f123.247f-lt z.u30E-II 4'n<<F-ll2.502f-lt 32866-ll2usbf-112476F.-III~822F-IlI~ZOIEllIe7<<El2 I
TABLEC-2D/QTABLE(GRAZINGSEASONhlETEOROLOGICAL DATA)"NHPUNII11SLACKCORRECTED FUROPENIEHRAt~~~tt~tttttt~tttttttOIRECITUNFROHSIIE0SuSI205KOdSSH4.522E>>09 Sn324SE09abcU6)E>>09H1.16)f>>09Hkr:258<<E09NN5102E09NNn4~779K>>09N6102E09HHEI,l62E09NE2o13)f-09ENEI~466KOdE2'05K08ESEI506E-OdSEI201E08SSEa.909E>>09 DIRECTION FROHSIIE55S-.cSecHNKNnNNH)INktHfEHEtESESESSEb.oob.UhIf>>115196Ell4+8)IEII742K-11261<<E115'9<<fll6~856E>>115'20E11744bf)12'SOE113,632E11I~Sc)F:10::81)=.'-tu
>.2)OK-tu I~LOSE>>10<<.<<blf"11INKECINCULATJON RELATIVEUEPOSIILUN PERUNITARtAIHtt2)AIFIXEUPOINTSRYUOHHWIHDStCIOUSDISTANCES INHILtS25U3ou3'U4OU4505.)83f-tu 3'<<IF>>lu2~ShufIuI9)IE-IuISbkf-)0I~50I56SE>>097926K>>lu6873Klu43SEIU43SE-106846ElvI~OOLE09u~728EIvI')5E094~125E>>)u5~0)2E10240SE092,963E09212<<E091.80<<E>>09 7545Elu2OuU.34)f-)u 453SElu4'66EIuI<<5SE>>lv2~12<<E>>1040192KIu5SSSE)0Soo52E04)7fv2.495E>>lu 3.uSLE>>lu I~3S$E>>09I~6)LE>>09IISSE>>09L.OUSE>>09 4'blf>>10I~OU4~219E>>09IUl)f09I~523E095'S4E>>IO6>>9)ofloI~399E092'33E092'12E092'45E098'25E10I'25K095'44E>>097030E095154E-094'11E09I~84)K-09I178EIuI~04)Elu3975E116005KIIl>>)72EloI~5)tfIV2~U)2F.>>IuI914F.-I0b>>915F.II1.03)F>>Iu203oElu2>>752KIU2'32F.U2~949F.Iv2>>b'9<<EIV9>>703K>>I1.441F>>Iv2U31F.>>lu3~885K)0530)Flu).53<<F-)v 1.<<75E>>lu S~1sbf117771F>>119>>3)SEII867SE115>>145EI4l5QE>>I9~26<<E11241KQI519EI2.Ua<<F>>II72UF.II52SF.IUI049KIVI)OSE>>lv346F.10~u)IFv22uF.108~919F.11I095Elua.246F>>Ivb)uf>>lv~052E>>lv9~UQQF.LUI>>0)SE>>09 7~559K>>lv6~45)E>>102~58)E10I).<<2)E-LL Ibe649EIl2~996Klv1.196F>>uI~46VE>>U6'2<<F.U749bf>>lv5.2abE>>lv4~auaf>>IOI796E-Lv6be428K>>bbSF.IV5.509F>>lu S,U46Elv3'0SEluI521F.IUU'2~Ul<<EluV530lEIuv2.306K>>lu VI993EloUI991E>>ll3.57uf.>>4'0IE2.93uE>>2'52SEI~0)2FINHILtShSU4986F>>)I2~921F>>112)OSE-II9ov)2E-12I~ul<<E-ll2S6)E-113~V4SE>>115.268F-II4~I)If>>11I~67<<F.IL2.V3<<f>>II8.626E>>ll I~009E>>IU).U5OF.>>11 b19'SF-112~519E11ulsTANcEbh.OU5~'SU)E>>II3'3$EII5~Qoof>>11IUblf>>11I~63<<E113~l)SE>>lI4~265K>>113619F>>)14>>626K11I~SSSFII2.25bf>>ll 562K'>>ll1.119E>>lu7812F.-II6'5SE112)SSF>>ll10~003'24F>>112'26F.I2+VS9EI).45)E>>12 I~IIVE11217$E112922Ell4hbf-II317$E-11I~26SFllI~53SEIL65<<UE117,65vfll5$49Ell4~7lbf11I'25Kll7OUF86)E-II4~045K113)56E11I361E-112Qauf-II3985E115~54lf)I<<~530K-II 5'9<<E112'27E112V32E-11I~199F--101.402F.-L v)89EIL8~SSQE-113479K-II7506.124K>>11 Su4~LS)E112'2SE>>112'<<SE-LL8~13i?E12I22UEll2'72Ell3~Ibufll2~7)OEII5~46)E111>>384E>>ll I~bhof11713bf118350F>>tI5V3)E>>11S'il<<OF-1) 2~vu<<F.)I6507~75)E>>114')SEIl<<.25aE>>lI~542E>>12~321E>>14516EIb.oSQE>>15'30E')I6563Ell2'3)f-II3~211E>>11L.35sfIoIo589E-IVI~Iouf>>Iu9~7lufII5'36E>>1I9.nuu.S<<IF>>11 2>>65SFll.u60E>>lI9)OE-12I33)I-112bOIE113<<93E112'6SF113'92EtlI~SLSFllI~84<<f>>lI782)F119~15)f>>11598FIIS.b2uf>>ll 22<<UF113,6Q2t-lI5544E-11212E>>11823E-I~Subf-I<<.75<<E-I<<.V3<<f>>I5>>)5VE>>)1 2'70E112S)9EIlI067E10I24uflbu~71'5E>>lll64$E113.101K>>IIttttttttttttttttt
~~~5SuI~QSkflvb20)E>>115>>765K11(OS)f11612bE>>118'24F.115ooI~265FIV7~533E>>117~UlIEI~541F.'I>>833F.I7~<<7Lf11~UOLF108~4)tfllI086Elub>>968KId>>92)fI3SSSF>>IIa.37)E>>I.858E>>u>>tb)f0I523Ev<<.37<<F>>5350E-2~266KbblE>>I.856F.>>1.609F.>>64)OE>>I~325Elu5%34<<f112000~35SE>>11+57)f12690bf122.49<<E-12 3'85E)27e148F129~719E>>12U>>353K12I~059E>>114~)59K12u>>9)bE>>12 2~148FIL2So/fIII~763F.II1>>59lf>>11 L.b3lK>>12 15.0u2'9lf11I~)89K11I091F115944f12S.uh<<F>>12 I~139F>>11I~54)f11I+5)SE11I~67)E116>>63SF127~9huf123.<<2bF.-II a.vn3f>>11 2~VU<<F.LI2'08F111>>U36f>>ll Basedonmilksamplingseason


TABLf-C-3CHI/QTABLLI*(ANNUALli1ETEOROLOGICAL DATA)NNPUNIIitSTACKNULJECA7UNUEI'LfTLOCORKECTEtIFOROt'ENIfkRAINkEC)kCULAT IONANNUALAVERAGECkl/ULSEC/HE'Tf RCUSEOISECInkv~5DUI,UooIesou52.160f-o) 4.92)f-oe 2.76)E-AS SshIOSPE0734)VEOS2062E-008>~9'15E-Dd2'7)f05I'99f-oslISh5331E'5I~V36E-086Solf09k3769EOdI~203E06)~)O2E09kkkI225E073425E06I949E05'h2'5)feo)belbbE-06 3~ISOE-OdNNMI014E0)445)f052342f-.odH2Oeof075'5SE-063045F.-06NNE9SISE052'43f05I44)f-05NEL.S)2E-O) a.'u)3E-05 2.'uIbf-nsEhf5.4OOE-O) 1.43)E-D) t.8)OE-oeE6~715E07I7'93E0)S36)E05ESES.OStE-071.354E-O) b.37)E-OS SE334bfWo)9~905Eos5IAQE05SSEI253E073.69)E-DS I9baf-08000012E05I~616E05Saafeos5520E09)~IIaE-0')I)33Eod2'31E0565bf-tIS2415E-0515)E-05548E054.)a)E-ud 5.55af-os 41)SE063'20E-OSI~421E05Ie63SF.05L.anSE=od I05UF.-tls 5~600EIIV8.53bf-l19 1.)2)f-nd 2~361FtibI~720E052.235f-osI~120EeneI~SNIF053e)PLF.-05 0.236E-AS 3'39F.-QS2'0LF.AbIe1elf-05I~409E05I~269FAeSN>fAN593bE099')OE09Ie)30F-A5
I the radiological decay constant for radionuclide i, (units = sec -1              )
?.~262EtldIbs)F.Ad2e144FONI~ONuF.05I<<2h5F053215FAd3,4SNF-QN 573EAs2'56F-OdI,Uo)F.-OSVIS)ANCElteNtLFS.2.SAUS.UIIQS.SAUI~2SSF-nsILeNF05IS23Fn56169F099.70NF-n9I)1bf-nd2.210F-ns I~en3E-nd2'62F05Ieo4)F-05 1,20)f.-nd 2507F-Ad293tfns2.109F.-AN elISE-AV5.9)PF-OV 0.QQVI~13SEAsv83F.-05I26IEtl563nbf-DP9:99SE-OP bhPE052el?9E-06 le54SE-05 I9)bf'-05I~DASE05I13)F-052.49SE-ne 54SFA5L.SILE-ns lebbbF05S~L41fAPI~041E-059.64IF>>DPI009E-059'55E<<APle20uf05le143E-ON 6'5)E096305F.09L.oo)f.-os I.vn3F-ns 1.616f-os I~55SF-Ad2'4SFDdIPSbF-05I~48SE05I422F.-DNI~SSSF.ASI~Snlf-As9boaf099lblf'-09I~V)2F.OSIIVIIF2.245f-ns 2;oaof-05 2.209F-05 2.ut5f-os I~sssf05I~4IUf.-osI~07IEQsI~SLNF05)~461E-09b.90)F-A9 PeuOSF-n96693E'VIuh9Fns6'5bF.099910E-09LeuPSE05I8)tfcodle362F.<<05 1.)t)E-OS 8~)3lf099'52F-09I669F.DeI525FOSI~269F.05I~193E08b.a35E-09 4.50oS.oov5.5noAHNUALAVERAGECkl/0ISEC/HFTER CUSEO}BEAKING6~Qoa6~50U)~Qov).SovUISTANCEINNILE5S.voue.snu9~VQUP.SOU1'Uno15vnu2u.onu6SSlISkk6'hIIhIINNIINNNENffNEEESESfSSE8~440E~OP5~386E09I~03)E056~191E099'44E09~3)f05I)SSE05I304f05.e38E-os32VE099'3)f"09I~722E-05leb6)E05I153E06I.oePE-oe 6~027E097'97E097'.Pesf-o9 9e939E096102EA99567E09le3bbf06I718E-05I~255E06I~570EOS)~9)lf09560)E09Ieoaf-DdI~541f05leuetf-08 I~00)E05seb'93E09)eb44E09e32fo99595E-096~03SE099')VE09LE345E-06b63E-OdI~21SE-06I~StbE-007692E-095.26af-09 I~SIOF.-05I~442E05989bf-099~4lbf-095.03Of.-OP
t    =    the exposure time, sec; 8
)ef(3E099'52E-095'44f099'1)E-DPI~303f-OSIb06E051.1)bf-ns le463E08).utaf-09
4.73 x  10      sec (1S  years);
)930E-09I42sfOeI~35af-os9'60E-098~635E-095'54E-097.Q02f-097ODSE095~'916F.09S835E-09Pe141F-09I261EnbI~551F--081.13)F-ASIuIIE-Ad7~142E-UP7610E-A9347f-05L.275E-AN 869IEA98312E-AP4PSSf-09be)A9FDPbe)14F098SSPEOPS.)lsf-n9 6948E-09I219F.05le497F.05I~099f-DN1.3eoF.-ne e.879E-AP
DFG. =    the g round plane dose conversion                factor    for radionuclide      i; I
)~30afII9I2)bfns203E-06ISOE-09)54QFAP4~73bF.-AP6,43SF-n9 6439F.A9s.2)aF-D9 ass)fenP674)E-II9I.LTNE-OS Iuasf-odI~o6IE"nel.31LF-Abb62SF-AP).A1uF-09I21oF.Ad1.138f-as).720l-n9741lf-NP533ft>9be176E-096')SE-09)~972F.-OPS454E-A9d,S40f'-09 I139F-ASI39uf-osIa25f-neIe260F.08e.353f-n9 6.)38E-QP I.ISOF-ASI.o)PE-AS
(units = mrem/hr per pCi/m')
).302E-n9
SF    =  the shielding factor (dimensionless);
).Q21F.-n9 4~344F095e930E-A9 5~932f09)eb82E095~320EAP5e332E"09 IIolfAs346F.Os99IIE-A9I2?of08b.152f-0)6')SE-09I~09sf-08L.O2SF-VS b.922f-A96b65f-094.16bF-090.3)af'-OP 4.326F.-09 S.)3)f'-09 4.29SF,-n9 6~783f095~45bF09IQ24F-067~bn3FA99.253F-09 0~616F-n9))bf-n97551F-A97oa8F-09u.b)IF-AP 4542F-tI93U3SFA9e4A)E3?SF.094466EA93'b6E095571E09b.)33E-AP 8112F"A96~063E-09),333F-09 362IF-A93.)nrf.-nP 5'9)EAPS209f-VP3073F-A9S.349F-A9 2e30SE-n9 A}}
l A shielding factor of 0.7 is discussed in Table E-15 of Regulatory Guide 1.109 Revision 1. A tabulation of DFG. values is presented in Table E-6 I
of Regulatory Guide 1.109 Revision 1.
A.3 Grass-Cow or Coat-.Milk Pathwa t                    -X. tb Xetf          r(l-e      I
                                                                              +    B. (1-e R.  =      K'QF U    F    (DFL.)       e        fp fs    Y  AE                        I I
                          -XE    t                                -X. tb      -X. th (l-fp fs )   r(l-e                )     +    B.
Iv    (I-e    I
                                                                          )
Y S
I where:
M Ri          dose    factor for the cow milk or goat milk pathway,                  for each identified radionuclide i for the organ of interest,                    (units mrem/yr per uCi/sec per m )
 
K'        a   constant of unit conversion; 10    pCi/uCi The cow's or goat's feed consumption            rate, (units    = Kg/day-wet weight)
U          the receptor's        milk consumption  rate for age group a, (units          =
ap li ters/y  r );
Y          the agricultural productivity by unit area of pasture feed grass, (units    =  kg/m2);
Y s
      =  the agricultural productivity by unit area of stored feed, (units
          =    kg/m~);
F m
      =  the stable element          transfer coefficients,    (units  =  pCi/liter per pCi/day);
      =  fraction of'deposited activity retained on cow's feed grass; (DFL.)    =      the organ ingestion dose factor for radionuclide              i for the i a receptor in age group a, (units = mrem/pCi);
XE    =  X.     +
i I
the      radiological        decay    constant      for    radionuclide    i, (units    = sec        );
the decay constant for removal            of activity on leaf and plant surfaces by weathering
: 5. 73 x    10      sec      (corresponding to  a  14  day hal f-life);
 
tf    =  the transport time from feed to cow or goat to milk, to receptor, (units = sec);
th    =  the transport time from harvest, to cow or goat, to consumption, (units = sec);
tb    =  period of time that soil is exposed to gaseous effluents, (units =
sec);
B.
Iv      concentration factor for uptake of radionuclide i from the soil by the edible parts of crops, (units = pCi/Kg (wet weight) per pCi/Kg (dry soil);
P      =  effective surface density for soil, (units = Kg  (dry soil)/m');
fp    =   fraction of the year that the cow or goat is on pasture*;
fs    =  fraction of the cow feed that is pasture grass while the cow is on pasture";
te    =  period of pasture grass and crop exposure during the growing season, (units = sec);
*Milk cattle and goats are considered to be fed from two potential sources, pasture grass and stored feeds.       Following the development in Regulatory Guide 1.109 Revision 1, the value of f was considered unity in lieu of s
site-specific information. The value of f was 0. 667 based upon an p
8-month grazing period.
Table A-1 contains the appropriate values and their source in Regulatory Guide 1.109 Revision 1.
The concentration of tritium in milk is based on the airborne concentration rather than the deposition. Therefore, the R.I is based on X/Q:
R      =    K'K"'F  QFU    (DFL.) 0.75(0.5/H)
T 0
M RT          dose factor for the cow or goat milk pathway for tritium for the organ of interest, (units =  mrem/yr per uCi/m');
K'"    =    a constant of unit conversion; 103  gm/kg.
H      =  absolute humidity of the atmosphere,      (units  = gm/m');
0.75    =  the fraction of total feed that is water; 0.5        the ratio of the specific activity of the feed grass water to the atmospheric water.
Other values are given above. A value of          H  of 8  grams/meter,  was used in lieu of site-specific information.
A.4 Crass-Cow-Meat Pathwa I'X.tf          r (l-e              +  B. (1-e
                                                                                    -X.tb R-I  =      K'q  U        (DF                      Y                            I F.                                     I
                        -XE
                                                                        -X.th (I-fp f5 )   r(l-e      i  e
                                  )  +    B.
IV (l-e Y    X S
R.BI        dose factor for the meat ingestion pathway for radionuclide          i  for
                                                                                  -2 any organ of interest, (units    = mrem/yr per uCi/sec per      m    ):
F<    =    the stable element transfer coefficients, (units      =  days/Kg);
 
e        U ap the receptor's kg/year; meat consumption    rate for age group a, (units    =
t      =    the transport time from slaughter to consumption,          (units = sec);
th    =    the    transport      time  from    harvest  to  animal  consumption, (units  =  sec);
te    =    period of pasture grass and crop exposure during the growing season,    (units  =  sec)
All other terms remain the same as defined for the milk pathway.                  Table A-2 contains the values which were used in calculating R..
The concentration of tritium in meat is based on airborne concentration rather than deposition. Therefore, the R. is based on X/Q.
I R    =      K'K"'F QFU          (DFL.)   (0.75(0.5/H) ]
where:
B R
T
                  =    dose    factor for the meat ingestion pathway for tritium for any organ of interest, (units = mrem/yr per uCi/m~),
All terms are defined above.
A.5 V etation Pathway The integrated concentration in vegetation consumed by man follows the H
expression developed for milk. Man is considered to consume two types of vegetation (fresh and stored) that differ only in the time period between harvest and consumption, therefore:
 
                                                                                            -X.tb
                                                        -AE                  B      I-e R .  =    K'( DFL. )      U  f    e r l-e                            Lv I                i a      a L                      Y                            PA.
I
                                          -AE    t                                  -A. tb i    e                B.
Iv    (I-e            )
S      -Kith    r(l-e                )
U  f  e Y
v      I where:
RV            dose  factor for vegetable pathway for radionuclide                    i  for the i
organ of interest, (units = mrem/yr per uCi/sec per m                    );
K'           a  constant of unit conversion; 6
10  pCi/uCi:
UL            the consumption rate of fresh leafy vegetation by the receptor in a
age group a, (units = kg/yr);
fL      =      the fraction of the annual intake of fresh leafy vegetation grown locally; fg      =      the fraction of the annual              intake of stored vegetation            grown locally.
tL    =      the average time between harvest                of leafy vegetation        and    its consumption, (units = sec);
the average time between harvest of stored vegetation and its h
consumption, (units = sec);                  r Y      =      the vegetation area      density, (units      = kg/m');
te      =      period    of leafy vegetable            exposure    during    growing        season (units  =  sec);
 
All other factors are defined above.
Table A-3 presents the appropriate      parameter  values and their source in Regulatory Guide 1.109 Revision l.
In lieu  of site-specific data,  values for fL and f of, 1.0 and 0.76, respectively, were used in the calculation. These values were obtained from Table E-15 of Regulatory Guide 1.109 Revision l.
The    concentration of tritium in vegetation is based on the airborne concentration rather than the deposition.       Therefore, the R.I is based on X/Q:
R    =    K'K"  U  fL  +  U      (DFL.)   0.75(0.5/H) a          ag where:
V RT        dose  factor for the vegetable pathway for tritium for any organ of interest, (units = mrem/yr per uCI/m~).
All other terms are defined in preceeding sections.
 
TABLE A-1 Parameters  for  Cow and Goat Milk Pathways Parameter                      Value                  Reference  (Re  . Guide 1.109 Rev. 1)
QF    (kg/day)                 50  (cow)                   Table E-3 6  (goat)                  Table E-3 Y      (kg/mi)                 0.7                          Table E-15 5
tf  (seconds)                 1.73 x 10 (2 days)           Table E-15 1.0 (radioiodines)          Table E-15 0.2 (particulates)          Table E-15 (DFLi) (mrem/pCi)             Each radionuclide            Tables E-11 to E-14 F    (pCi/day per pCi/liter)  Each stable element          Table E-1 (cow)
Table E-2 (goat) 8 tb (seconds)                   4.73 x 10 (15    yr)       Table E-15 Y    (kg/m')                  2.0                          Table E-15 Y    (kg/m')                  0.7                          Table E-15 6
th (seconds)                    7.78 x  10    (90 days)      Table E-15 U        (liters/yr)            330 infant                  Table  E-5 ap                          330 child                    Table  E-5 400 teen                    Table  E-5 310 adult                    Table  E-5 t e (seconds)                   2.59 x 1066 (pasture)       Table E-15 5.18 x 10 (stored feed)
B.,    (pCi/Kg (wet weight)    Each stable element          Table E-1 per pCi/Kg (dry soil))
P  (Kg dry soil/m')           240                          Table E-15
 
TABLE A-2 Parameters    for the Meat Pathway Parameter                    Value                    Reference (Re  . Cuide 1.109 Rev. 1) 1.0 (radioiodines)                   Table E-15 0.2 (particulates)                  Table E-15 Ff (pCi/Kg per pCi/day)      Each stable element                  Table E-1 U    (Kg/yr)                 0  infant                            Table E-5 41  child                            Table E-5 65  teen                            Table E-5 110  adult                          Table E-5 (DFL.)    (mrem/pCi)          Each radionuclide                  Tables E-11 to E-14 Y      (  /m~                 0.7                                Table E-15 Y    (kg/m')                  2.0                                Table E-15 8
tb (seconds)                  4.73 x    10    (15 yr)             Table E-15 6
t  (seconds)                  1.73 x    10    (20 days)          Table E-15 th (seconds)                  7.78 x    10    (90 days)           Table E-15 t  (seconds)                 2.59 x 106 (pasture)                Table E-15 5.18 x 10 (stored feed)
QF  (kg/day)                 50                                  Table E-3 B.   (pCi/Kg (wet weight    Each stable element                  Table E-1 per pCi/Kg (dry soil))
P  (Kg (dry soil)/m~)        240                                  Table E-15
 
TABLE A-3 Parameters    for the Vegetable Pathway Parameter                        Value                    Reference (Re  . Guide 1.109 Rev. 1) r (dimensionless)               1. 0 (radioiodines)                    Table E-1 0.2 (particulates)                     Table E-1 (DFL.)    (mrem/Ci)              Each radionuclide                      Tables  E-ll to E-14 U    (kg/yr)    infant          0                                     Table  E-5 child            26                                    Table  E-5 teen            42                                    Table  E-5 adult            64                                    Table  E-5 S                                                                            E-5 U    (kg/yr) infant            0                                      Table
            ~
child            520                                    Table  E-5 teen            630                                    Table  E-5 adult            520                                    Table  E-5 4
tL (seconds)                     8.6 x  10  (1  day)                 Table E-15 th (seconds)                      5.18 x  10    (60 days)              Table E-15 Y    (kg/  ~)                 . 2.0                                    Table E-15 te (seconds)                      5.18 x  10    (60 days)               Table E-15 tb (seconds)                      4.73 x  10    (15 yr)                Table E-15 P(Kg(dry soil)/m~)                240                                    Table E-15 8i (pCi/Kg (wet weight)          Each stable element                    Table E-1 per pCi/kg (dry soil))
 
DIAGRAMS OF UQUID AND GASEOUS RADWASTE TREATMENTSYSTEMS
 
RADIOACTIVE WASTE DISPOSAL SYSTEAI
                                                                                                                                ~ t Eooc>>IK e>>aKE                                                lwE ca>>e>>
It ttaoaa>> Is>>K                Iea IOW 4>>ta IM(C eM(                >>K    Otal( IMI
                                                                        ~      IO laA                  ~ IIAtt W la,t tn                                                                                                    ~ o>>IIIOK(II\                        Ol~  OI Ol>>VKI(14
                                                                                                                                                                                            ~  IK  tl Ceaa>>141t
                                                                                                                                                                      ~
COE(
K la lt WK I>> tlat 4%,I I(a Iaa(a Hell coaccl44                                                                                                                          COCI 1>>ht I IKKI                                                                                                                                          I K(1K IK                                                                                                                                                                          SI K ~    I I(
sal K I>>aa( III~
ItAla (K I\MI(4OI COOK(It(It a>>14 Oaa lht  nt                                                                                    >>HI>>
                                                            ~ 4 las,  OIO
                                                                                                                                                                            >>KllKt>>IKO                      lt Eat>>, lot Ioa>>I4I                                                                                                            ~
                                                                                                                                                                                ~  V>>
O'I Vlhal ~                                                                                                                                                              ~ Illhlah tt IICcalL ones I>>(K>>a lese                                                                                              ~ K COE I VIII I IV toa (OE(H>>he WK Iaa>>ca tst
                                                                    >>, O>>~
                                                                                                                                                                                                  ~4 IO>>V hat ha IS>> O>>.                                                                                                                      ~ ISSM O>>,
Vt(H\ ~
                                                                                                                                                                                                              \t>>Y(t fest WK    O>>.
1(oe lease                                                                                                                              I at ol  la J coEE taa>>a  (lit Kt nI4.1                                      Ia te IM OK>>>>It
                  ~ KK IO((CI>>                                                                                                                                                                                                        14 na a>> oto KIAIOIO  ~
                                                                                                                                                                            ~ t I(a eh(lhC(((h
~ (KC h(h~                                                                                                              ~o
                                                                                                                        ~
                                                                                                                        ~
tn o>>K t>>e(
                                                                                                                          >>>> oaI ~
FIGURE            B-      I
%(CLJILJSIIIO
                                                ~ a(1C l>>ah(ha
                                                        ~M
                                                                                  ~ Iea CO((Isa alIM IIIAttIK,I                    AtA>> oa  ~
RADIOACTIVE IIASTE DISPOSAL SYSTEM NIAGARA MOHAWK POWER CORPORATION NINE MILE POINT-UNIT 1 OFFSITE DOSE CALC. MANUAL
 
n IWtc nff Cn>>tn<<WI>> It R I lit w I<<na        ~
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4 n.en                              CIcwRI n<<
Rt~ . Iaa III    In                              Cnla  lle    CR I~
I>>ca I>>l ~ I>>I                                                                                      ~ <<W                                              >>I<<II nl ffutl<< ffl<<
~l(t                                                                                                                                                catltI
                                                                                                                                                      ~
nc In, tin II                                                                                                                                                      WRC>>
t<<>>ne
                                                                                                                                        >>n In<<anew ffl<<<<c>>I<<I IlI"Id~iI wlaln>>
IR'g '4 <<~ljV                                  anff Ilnc I<<~
                                                                                        ~ mcRI>>
ffl~ ItIff H:        R>>R<<I
                        <<I I>>tn                    In tac>>w                ~n <<ne
                                                                                                                                            <<II cnffRe CIICntl
                                >><<I Ve In<<<<c>>w n<<CRI>>
                                                                                                                                            <<I  Ct>>CR>>
                ~ tn>>I
                                                        +  ~<<tP~P
                                                            ~,ll <<>><<aft tltl ffR<<<<<<
ln, I<<I MM C IR>> el W a I In'IGURE                                  8 p STEAM PACKING EXINUSTER AND RECOMBINER SYSTEMS NIAGARA MOHAWK POWER CORPORATION CRIC>>I NINE MILE POINT-UNIT 1 OFFSITE DOSE CALOI MANUAL l~
REACTOR BUILDING IIEATING, COOLING. AND VENTILATION SYSTEM M  C 4~4SM ~ S<<f
                                                                -~~I B.
EI o
                                                                  ~
                                                                          ~ I sl
                                                                                                                                                                                                                                          <<<<s>> a>>M>>
cD    asl ~ <<MM      LPI Dl sas>>ts.aa. Ia>>a                                          ~
QM~
                                                                                                                                                                                                                                        ~Q            P                        ala
  ~Pal Ia<<atwltIIlt
        ~
                  ~                                                            ~
                                                                                    ~ <<IM a<<It<<<<
                                                                                  <<al<<swl      IM
                                                                                                                                                                      ~ IM<<s SS ~
                                                                                                                                                                        ~ <<M a            aaw      ILE  Ma                            ~
                                                                                                                                                                                                                                          ~
                                                                                                                                                                                                                                              ~
                                                                                                                                                                                                                                              ~
                                                                                                                                                                                                                                                  ~
                                                                                                                                                                                                                                                  ~
                                                                                                                                                                                                                                                  ~-
                                                                                                                                                                                                                                                      ~
                                                                                                                                                                                                                                                      ~  ~
MM
                                                                                                                                                                                                                                                            ~
                                                                                                                                                                                                                                                                  ~
4.
    ~
Ia          I II MDLIM
                                                                                        ~ a<<M
                                                                                                                                                                                                ~
LM+gIS ~ '      ~ MM EL  IM'<<ta
                                                                                                                                                                                                                                              ~
                                                                                                                                                                                                                                              ~  ~
                                                                                                                                                                                                                                                  ~
                                                                                                                                                                                                                                              ~  ~
  ~          ~                        I.
      --aal                      PDC                                              I~            M
                                                                                                                                                                                                                                              ~  ~
I Cla DMM>>
                                    <<MM M sslasla I<<4                                                                                                  Mlt>>    S>>P ~WMI MP>>S I al<<wt                    I-Qw ast ll<<~ M                                                                                                                                              ~ st a
                ~P'
                          ~                                                                                                                              M g<                                                                        ~ M        Mt                                                            QM
                                                                    >>say              ~ IL IM          I        M)I MN'CWI>>                                      I                          ~ LDP    II t>>'
                                                                                                                                                                                                        >>la        ~ LIM Il  IM  Msa a
: ~                                                                                                                                                ai MOSE                                      ~ SSL I
                                                                                                                                                                      ~ a<<IMC E
                                                                                                                                                                                                ~ Laa M( IM' M~
Ml'tao r-
                                                                                                                                                                                                                  ~ LD>> EL
                                                                                                                                                                  >>M pal>>>>II>>lt M>>saa                            Dasa>>>>
                                                                                                                                                                    ~ IM Ma cs a>>l                                        I<<<IN ts swami+<<
Casa>>Et P-.
MCEN CMI    I>><<DC>>                  ~ IL Mo
                                                                                                                                                                    <<M      I>> ls
                                                                                                                                                                                                        ~  >>
                                                                                                            ~ ta>>
                                                                                                  ~ Do~a    MSLM MIM h IM Cs ~          4l    ~    <la DD  al>> I>> soa,      a<<
sa) ~a<<as                                                                                                              IMMM lsl MMa
                                                                                                                                                                ~    4( Sot SVOa
                    <<w<<t was l>>sl pC<<as>>                                                              Ma I a<<a a>>>> Is>>                                <<Dl I<<                                    SLDM  M  I t' IM                  Ma>>la  a<<M>> <<>> asas a ~ <<al EL                                              ~
I:            ~                                                                                                                        a>> a                II            LIEI
                                                                                                                                                                            ~ ap              sla D>><<
I E << I~,<<>>      ~ P. DIME                          ~ a    II a<<>>
a    a        FIGURE        B 3
                                                                                                                                          ~    ~
REACTOR  BUILDING VENTILATION STSTEII NIAGARA MOHAWK POWER CORPORATION NINE MILE POINT-UNIT 1 OFFSITE DOSE CALO. MANUAL l~
IVASTE DISPOSAL BUILDINGVENTILATIONSYSTEM aaa CEPtAP!h$ 5$ a>>E                                                                                                                                                                        ga NtE        Wd                                                Itt EI
                                                                                      ~ I IN'<< PWEI                a NI<<
N<<aa  ~ I\ILa<<e a<<                                        sP-.-d'-                                                                                                                                                                          I,
                                                                    ]
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EI ~
3 Nt EI CE  Naca R      <<e<<I                                          K  IE9;:                    I.
Q Q                I                                                                      I al    I INI LVI
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F.l                                                                                                                                                                  EI<<I  I a  ~
                          /  .I    .~                                                                                                                                                                                    I        ~
                                                                                                                                                                                                                                        -(>>J Et~at<<
                                                    ~ \N Ell stet RIHNH<<'<<                                        ~ IN V OIC W EI                    NN Ve                            w HN CV I J
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Il EallCIN WN la      ~
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                                                ~ t la ~~ IVINL Had<<        'I<<<<a
                                                  ~ N ~ N II N
                                                              ~
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ILN d Il <<HI3'<<      NN V
                      ~C EM                                                          aa  ~
Ctat<<<<W
                                                                                  <<I Naa              IllEre    aal ~
a<<H
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                                                                                                                                              ~I
                                                                                      ~ alit    EN V                  IN EI la
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                                                                                                                                                                              <<<<Ieae IN Ve                              Ltea    Qg+I Iat g<<          Cl                                                                                                                                            Q>>
dea<< I
                                                                            <<N Pl<<L                                                            ~ ac<<  a                                        I                                4)I'<<
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wa Ia
                                                                                                                                                                            ~~
I 1<<NI a IN I          ~=- I'                                      ~ Nd
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                                                                            ~ I Ia'<<
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I<<NI>> *Iat                                                  NASTE DISPOSAL BLDG.                  VENTILATION SYSTEM NIAGARA MOHAWK POWER CORPORATION NINE MILE POINT-UNIT 1 OFFSITE DOSE CALC. MANUAL
 
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STACK        PLAN AND ELEVATION CI ~11'O.
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K~P Pl.AN I      ISONNCTIC Pl.ATFORM LEGS  Z,          PROBC                          CCCYATON 6IIAPHIC PLATFORM CONC CKVCIOPC CLt50'4 TOCL15f4 PLATFORM 42K'JC                                                          OFF CAS tlNCS i
PLAN gl t07'0                    TOP OF f <.105.'O                  1100 S'lilt 1C110'IGURE                                                B 5 C'MP-1 Cl,
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OFF GAS BUILDING VENTILATION SYSTEM
                                                                                                      ~    ~
                                                                                                      ~
                                                                                                            ~
a          ~
as a slooalo oosts
                                                                  ~o  sos                asoo  v                                                      os o ssassas
                          ~ ss w
                                                                                                  ~ wsst oooMoo wsoa
                                                                ~ omo~
                                                                                                                      ~ wso oa as wss ae oa a ossos  ~    ol
                                                                                %  Ms'v
                                                                                  ~ os as Os  ~ o~  ot ss
                                                          ~
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        \ots  t                                      tao~
lsstlot C  oo SsloOosa                                                          \A    ~
twso  ~
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                                                        ~ og    <<Io a
w ols sso
                                    ~ s ~                                                  R Jll'v
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                                          ~ a osssa asl s
                                                  <<o ~
NIAGARA MOHAWK POWER CORPORATION NINE MILE POINT-UNIT 1 OFFSIDE DOSE CALC. MANUAL e
C  I
 
APPENDlX.-C DlSPERSION CALCULATlON TABl.ES 4
TABLE C-1 D/Q TABLE
{ANNOAL ii1ETEOROLOGICAL DATA)
HIIP UHI I <<I STACK CVRHECIEO FOR OPEN TERRA IN RECIRCuLATION
~ o o o 4 4 o 8 4 A << 4 0 o o p 0 <<4 4 p      RELAT I Vf OEPOS I I ION    Ptk Util I AktA      (Ha a  i? I  A I Itt HILtS f I ILV    VOIHl S II    VO>>H>>l ton Sf CIOHS                ~ as'  OI ~ ~ Aoaaa ~ ~  ji ~ 4 nlRE C I ION FHOI1    SI )
S t                  0 50 too34E Ob 3 '62E-09 I OU          I su          2 Ov 439E-09 7 ~ 79)f 10 2 'v
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TABLE      C-2 D/Q TABLE (GRAZING SEASON hlETEOROLOGICAL DATA)"
NHP UNI I 11 SLACK t ~ ~ ~ tt ~ tttttt ~ ttttttt CORRECTED FUR OPEN OIREC I TUN IEHRA IN KECINCULATJON RELATIVE UEPOSIILUN PER UNIT ARtA DISTANCES IHtt 2)    AI F IXEU POINTS IN HILtS RY UOHHWIHD      StC IOUS              ttttttttttttttttt          ~~ ~
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9  ~
11 15)f>>11 598F I I 8 350F>>t I 7,65vf 5 V3)E>>11 5 $        49E ll ll  a.vn3f>>11 2 So/f I I 2    VU<<F. LI  I  ~ 763F. II ESE                                                                                                                                                                ~
I ~ LOSE>>10 9 ~ 7 luf I I 8 ~ SSQE-11 l 64$ E 11 6 '5SE 11 b 19'SF -11                      S.b2uf>>ll        S'il<<OF-1) 4 ~ 7 lbf 11 2 '08F 11 1>>59lf>>11 SE SSE              <<.<<b l f "11 5 '36E>>1 I 3 479K-I I 3.101K>> I I 2 )SSF>>ll 2 ~ 519E 11                          2 2<<UF      11  2 ~ vu<<F. ) I I'25K        ll  1>>U36f>>ll        L.b3lK>>12 Based on        milk sampling season
 
TABLf- C-3 CHI/Q TABLLI*
(ANNUAL li1ETEOROLOGICAL DATA)
NNP UNI I NU LJECA7 it  STACK UNUEI'LfTLO CORKE CTEtI FOR Ot'EN    If  kRAIN  kEC)kCULAT ION ANNUAL AVERAGE    Ckl/U    LSEC/HE'Tf R CUSE OI                                VIS)ANCE lte NtLFS SEC Ink            v ~ 5DU        I, Uoo        I esou              000    . 2.SAU      S.UIIQ        S.SAU          0.QQV        4.50o        S.oov        5.5no 5        2.160f-o) 4.92)f-oe 2.76)E-AS                      012E 05 I e 63SF. 05 I ~ 409E 05  I ~ 2SSF -ns  I ~ 13SE As I ~ 041E-05 9.64I F>>DP PeuOSF -n9 Ssh          I OSPE 07 3 4)VE OS 2 062E-00                  I ~ 616E 05 L.anSE=od I ~ 269F Ae      I LeNF 05          v83F.-05 I 009E-05 9 '55E<<AP 6 693E'V 8>        9 '15E-Dd 2 '7)f 05 I'99f-os                        Saafeos I 05UF.-tls      SN>f AN  I S23F n5      I 26IE tl5 le20uf 05 le143E-ON I uh9F ns 6 3nbf-DP 6 '5)E 09 6 305F. 09 6 '5bF. 09
            ~
lISh          5 331E'5 I ~ V36E-08 6 Solf 09                  5 520E 09 5 ~ 600E IIV 5 93bE 09      6 169F 09 k        3 769E      Od I ~ 203E 06 ) ~ )O2E 09        )~II  aE-0') 8.53bf-l19 9 ')OE 09    9.70NF -n9    9:99SE-OP L.oo)f.-os I.vn3F-ns 9 910E-09 kkk          I 225E 07      3  425E 06 I 949E              I )33E od 1.)2)f-nd Ie)30F-A5          I ) 1bf-nd        bhPE 05 1.616f-os I ~ 55SF-Ad LeuPSE 05
                    '5)feo)      belbbE-06                      2 '31E 05 2 ~ 361F tib ?. ~ 262E tld  2.210F-ns      2el?9E-06 2 '4SF Dd I PSbF-05 I 8) tf cod 05'h 2                              3 ~ ISOE-Od NNM          I  014E 0)    4 45)f 05 2 342f-.od                65bf-tIS I ~ 720E 05 I bs)F. Ad    I ~ en3E-nd    le54SE-05 I ~ 48SE 05 I 422F.-DN le362F.<<05 H        2 Oeof 07 5 '5SE-06 3 045F.-06                  2 415E-05 2.235f -os 2e 144F ON        2 '62F 05      I 9)bf'-05 I ~ SSSF. AS I ~ Snlf-As 1.)t)E-OS NNE NE 9 SISE 05 2      '43f      05 I 44)f-05 L.S)2E-O) a.'u)3E-05 2.'u I bf-ns 15)E-05 I ~ 120Eene I ~ ONuF. 05 548E 05 I ~ SN IF 05 I <<2h5F 05 Ieo4)F-05 1,20)f.-nd I ~ DASE 05 9 boaf 09 9 lblf'-09 I 13)F-05 I ~ V)2F. OS I IVI IF
                                                                                                                                                                  )3lf 09 9 '52F-09 8 ~
Ehf          5.4OOE-O) 1.43)E-D) t .8)OE-oe                  4.)a)E-ud 3e)PLF.-05 3 215F Ad        2  507F-Ad    2.49SE-ne 2.245f-ns 2;oaof-05 I 669F. De E        6 ~ 715E 07 I 7'93E 0) S 36)E 05                5.55af-os 0.236E-AS 3,4SNF-QN          2  93tf ns        54SF A5 2.209F-05 2.ut5f-os I 525F OS ESE          S.OSt E-07 1.354E-O) b.37)E-OS                  4 1)SE 06 3 '39F.-QS        573E As  2.109F.-AN    L.SILE-ns I ~ sssf 05 I ~ 4 I Uf.-os I ~ 269F. 05 SE        3  34bf Wo)    9 ~ 905E os 5 IAQE 05          3 '20E-OS 2 '0LF. Ab 2 '56F-Od            el I SE-AV lebbbF 05 I ~ 07 IE Qs I ~ SLNF 05 I ~ 193 E 08 SSE          I  253E 07 3.69)E-DS I 9baf-08                I ~ 421E 05 I e 1 elf-05 I,  Uo)F.-OS  5.9)PF-OV      S ~ L4 1f AP ) ~ 461E-09 b.90)F-A9 b.a35E-09 AHNUAL AVERAGE    Ckl/0      ISEC/HFTER CUSEO}                                  UI STANCE IN NILE5 BEAK ING            6 ~ Qoa        6 ~ 50U        ) ~ Qov          ).Sov        S.vou      e.snu        9 ~ VQU        P.SOU      1'Uno        15 vnu      2u.onu 6        8 ~ 440E~OP 7    '97E      09 )eb44E 09        )ef(3E 09 7. Q02f-09 be)A9F    DP 6,43SF-n9 be 176E-09 5e930E-A9 0.3)af'-OP              e4A)E S SlI        5 ~ 386E 09 7'.Pesf-o9            e32f o9                    7 ODSE 09 be)14F      09 6 439F. A9 6 ')SE-09 5 ~ 932f 09 4.326F.-09              3?SF. 09 Sk        I ~ 03)E    05 9e939E 09 9 595E-09 9 '52E-09 5 ~ '916F. 09 8 SSPE                  OP s.2)aF-D9 ) ~ 972F.-OP )eb82E 09 S.)3)f'-09          4    466E A9 k 6'h        6 ~ 191E 09 9 '44E 09 6 102E A9 6 ~ 03SE 09 5 9 567E 09 9      ')VE            '44f    09 S 835E-09 09 9 '1)E-DP Pe 141F-09 S.)lsf-n9    ass)fenP S 454E-A9 5 ~ 320E AP 4.29SF,-n9 6 948E-09 6 7 4 ) E-II9 d,S40f'-09 5e332E"09 6 ~ 783f 09 3 'b6E 09 5 571E 09 IIhII            ~ 3)f 05    le3bbf 06 LE 345E-06 I ~ 303f-OS I 261E nb              I 219F. 05 I.LTNE-OS I 139F-AS I I le497F. 05 I uasf-od I 39uf-os olf  As 5 ~ 45bF 09 346F. Os I Q24F-06 b.)33E-AP I )SSE 05      I 718E-05          b63E-Od I b06E 05 I ~ 551F--08                                                                          8 112F"A9 NNII          I 304f 05      I ~ 255E 06    I ~ 21SE-06 1.1)bf-ns 1. 13)F-AS          I ~ 099f-DN I ~ o6IE "ne I a25f-ne 9 9IIE-A9 7 ~ bn3F A9          6 ~ 063E-09 NNE N          .e38E-os 32VE 09 I ~ 570E OS
                                  ) ~ 9)  lf  09 I ~ StbE-00 le463E 08 I uIIE-Ad 7 692E-09        ).utaf-09 7 ~ 142E-UP 1.3eoF.-ne    l. 31 LF -Ab I e260F. 08 I 2?of 08 9.253F-09 e.879E-AP b 62SF-AP e.353f-n9 b. 152f-0 ) 0 ~ 616F-n9
                                                                                                                                                              ),333F-09 3    62IF-A9 Nf        9 '3)f"09      5 60)E 09      5.26af-09 ) 930E-09 7 610E-A9            ) ~ 30af II9 ).A 1uF-09 6.)38E-QP 6 ')SE-09 I.                            ))bf-n9 3.)nrf.-nP
                                                                                                                                                                  '9)E fNE          I~  722E-05    I eoaf-Dd      I ~ SIOF.-05 I 42sf Oe            347f-05 I 2)bf ns I 21 oF. Ad            ISOF-AS I ~ 09sf -08 7 551F-A9    5          AP E        leb6)E 05      I ~ 54 1f 05  I ~ 442E 05 I ~ 35af-os L.275E-AN            203E-06 1.138f -as I.o)PE-AS L.O2SF-VS 7 oa8F-09 S 209f -VP ESE          I 153E 06      leuetf-08      9 89bf-09 9        '60E-09    8  69IE A9    ISOE-09 ).720l -n9 ).302E-n9 b.922f -A9 u.b)IF-AP 3 073F-A9 Sf        I.oePE-oe      I ~ 00)E 05    9~4  lbf-09    8 ~ 635E-09  8  312E-AP ) 54QF AP 7 41 lf -NP ).Q21F.-n9 6 b65f -09 4 542F-tI9 S.349F-A9 SSE          6 ~ 027E    09 seb'93E    09 5.03Of.-OP 5 '54E-09          4  PSSf-09 4 ~ 73bF.-AP      533f t>9 4 ~ 344F 09 4.16bF -09 3 U3SF A9 2e30SE-n9 A}}

Latest revision as of 19:16, 4 February 2020

Offsite Dose Calculation Manual.
ML17054A516
Person / Time
Site: Nine Mile Point Constellation icon.png
Issue date: 03/01/1984
From:
NIAGARA MOHAWK POWER CORP.
To:
Shared Package
ML17054A517 List:
References
RTR-NUREG-0133, RTR-NUREG-0472, RTR-NUREG-0473, RTR-NUREG-133, RTR-NUREG-472, RTR-NUREG-473 PROC-840301, NUDOCS 8403130349
Download: ML17054A516 (166)


Text

Oo[gg~[@

NINE MILKPOINT NUCLEAR STATION UNIT 1 OI FSITE DOSE CALCULATION MANUAL NIAGARA MOHAWK POWER CORPORATION

,-,MARCH 1, 1984 8+030 7 88p03f30 <

>goQK 050002pQR P

ODCM - NINE MILE POINT

~Pa e

1.0 INTRODUCTION

2.0 LIQUID EFFLUENTS 2.1 Setpoint Determinations 2.2 Dose Determinations 3.0 GASEOUS EFFLUENTS 12 3.1 Setpoint Determinations 12

-3.2 Dose Determinations 3.3 Critical Receptor 19 4.0 40 CFR 190 REQUIREMENTS 20 4.1 Evaluation of Doses From Liauid Effluents 23 4.2 Evaluation of Doses From Gaseous Effluents 24 4.3 Evaluation of Doses From Direct Radiation 24 5.0 ENVIRONMENTAL MONITORING PROGRAM 25 5.1 Sampling Stations 25 5.2 Interlaboratory Comparison Program 25 5.3 Capabilities for Thermoluminescent Dosimeters Used for Environmental Measurements 26 TABLES 30 APPENDIX A - Dose Parameters for Iodine - 131 and 133, Particulates and Tritium 59 8 - Diagrams of Liauids and Gaseous Radwaste Treatments Systems 72 C - Dispersion Calculation Tables 79

1.0 INTRODUCTION

The Offsite Dose Calculation Manual (ODCM) provides the methodology to be used for demonstrating compliance with the Radiological Effluent Technical Specifications (RETS), 10 CFR 20, 10 CFR 50, and 40 CFR 190. The contents of the ODCM are based on Draft NUREG-0472, Revision 3, "Standard Radiological Effluent Technical Specifications for Pressurized Water Reactors," September 1982; Draft NUREG-0473, Revision 2, "Radiological Effluent Technical Specifications for BWR's," July 1979; NUREG 0133, "Preparation of Radiological Effluent Technical Specifications for Nuclear Power Plants," October 1978; the several Regulatory Guides referenced in these documents; and, communication with the NRC staff.

Notwithstanding the above, rather than redefine the basis for an offsite dose limit or release limit, the limits listed in the Environmntal Technical Specifications for Nine Mile Point Nuclear Station Unit 1 dated March 1, 1979, have been utilized whenever possible. In this manner a minimum number of changes to the current implementing procedures are needed. One of the major differences between the RETS and -ODCM and the Environmental Technical Specification is that release limits and offsite dose limits in the latter are based on site releases while they are based on unit releases in the former. This difference is compensated for in the ODCM by setting the releases from other units at the site eaual to zero.

Section 5 contains a detailed description of the Radiological Environmental Monitoring (REM) sampling locations. These locations are subject to change based on the results of the annual Land Use Census.

Should it be necessary to revise the ODCM, these revisions will be made in accordance with Technical Specifications.

l J

> 2.0 LIQUID EFFLUENTS 2.1 Setpoint Determinations 2.1.1 Basis Monitor setpoints will be established such that the concentration of r adionuclides in the liouid effluent releases in the discharge canal will not exceed those concentrations as specified in 10 CFR 20, Appendix 8, Table II, Column 2.

Setpoints for the Service Water System Effluent Line will be calculated based on the r adionuclides identified during the previous year's releases from the liquid radwaste system or the isotopes identified in the most recent radwaste release.

Setpoints for the Liauid Radwaste Effluent Line will be based on the radionuclides identified in each batch of liauid waste prior to its release.

After release, Liauid Radwaste the monitor setpoint may remain as set, or revert back to a setpoint based on a previous Semi-Annual Radioactive Effluent Release Report.

2.1.2 Service Water System Effluent Line Alarm Setpoint The detailed methods for establishing setpoints for the Service Water System Effluent Line Monitor shall be contained in the Nine Mile Point Station Procedures. These methods shall be in I

accordance with the following;

J I

Setpoint (Hi-Hi alarm) 0.9 I C;) T0F CF + background

~sw 7 Cl QMPCi where C.

1

= concentration of isotope i in the sample (units = uCi/ml)

TDF = Total Dilution Flow (units = gallons/min)

F

= Service Water Flow (units = gallons/min)

'CF = monitor calibration factor (units = net cps/uCi/ml)

MPC. = liauid effluent radioactivity concentration limit for radionuclide i as specified in 10 CFR 20, Appendix 8, Table II, Column 2, for those nuclides present in the previous batch release from the liauid radwaste effluent system or for those nuclides present in the last Semi-annual Radioactive Effluent Release Report (units =

uCi/ml) or for those nuclides present in the service water system.**

0.9 = factor to account for the presence of Is emitters C. =

i Required Dilution Factor MPC.

TDF = Actual Dilution Factor

    • For periods with known reactor water to RCLC system leakage, RCLC maximum permissible concentration may be prudently substituted for the above.

0 a

Setpoint (Hi alarm) ~ 0.7 Setpoint (Hi-Hi alarm) 2.1e3 Liauid Radwaste Effluent Line Alarm Setpoint The detailed methods for establishing setpoints for the Liauid Radwaste Effluent Line Monitor shall be contained in the Nine Mile Point Station Procedures. These methods shall be in accordance with the following:

Setpoint (Hi-Hi alarm)~ 0.9 (QC)i TD CF $ + background

~re gli where C = activity of isotope i in the j

sample (units =

uCi/ml)

TDF = Total Dilution Flow (units = gallons/min)

F re

= Radwaste Effluent Flow (units = gallons/min)

CF = monitor calibration. factor (units = net cps/uCi/ml)

MPC. =

1 liauid effluent radioactivity concentration limit for r adionuclide i as specified in 10 CFR 20, Appendix B, Table II, Column 2, for those nuclides detected by spectral analysis of the contents of the radwaste tanks to be released (units = uCi/ml)

Oe9 = factor to account for emitters C. = Reauired Dilution Factor 1

MPC.

1

I I

Setpoint (Hi alarm) ~ 0.7 Setpoint (Hi-Hi Alarm)

Note: If TDF = Ci

~re MPCi the discharg~ coulo not be made. since the monitor would be continuously in alarm. To avoid this situation, F re will be reduced (normally by a factor of 2) to allow setting the alarm plaint at a concentration higher than tank concentration. This will also result in discharge canal concentration at approximately 50k maximum, permissible concentration.

after the .batch release has been made from the liquid radwaste effluent system, the setpoint may remain the same or be returned to a level based on the previous Semi -annual Radioactive Effluent Release Report where an actual release was made.

'.2 Dose Determination 2.2.1 Maximum Oose Equivalent Pathway A dose assessment report was prepareo for the Nine Mile Point Unit 1 facility by Charles T. Main, Inc., of Boston, MA. This report presented the calculated dose equivalent rates zo individuals as well as the population within a 50-mile radius of the facility based on the radionuclides released in liquid and gaseous effluents during the time periods of 1 July 1980 through 31 Oecember 1980 and from 1 January 1981 through 31 Oecember 1981. Utilizing the effluent data contained in the J

Semi-Annual Radioactive Effluent Release Reports as source terms, dose equivalent rates were determined using the environmental pathway models specified in Regulatory Guides

l. 109 and l. ill as incorporated in the NRC computer codes LADTAP for liquid pathways, and XOQDOQ and GASPAR for gaseous effluent pathways. Dose equivalent rates were calculated for the total body as well as seven organs and/or tissues for adults, teenagers, children, and infants. From the standpoint of liquid effluents the pathways evaluated included fish ingestion, drinking water, and external exposure to water and sediment.

Based on the findings of the above referenced report, the maximum total body dose from all liquid pathways is received by an adult. Similarly, the maximum total dose to any organ is received by the teen liver. In both of these cases (i.e.,

adult whole body dose and teen liver dose), 99K and 98K respectively of these doses were received via the fish ingestion pathway.

In order to determine the dose contribution from the release of liquid effluents, the annual dose to an adult whole body and a teen liver will be calculated for each of the significant nuclides (see Table 2-l) identified in the liquid waste based on the fish ingestion pathway utilizing the following formula:

~i I

F Where Ra .i = total annual dose to organ "j" of individuals of age group "a" from all of the nuclides "i" in pathway "p" (units = mrem/year - Ci) usage factor specifying the exposure time or ap intake rate for an individual of an age group "a" associated with pathway "p" (units = kg/year)

M mixing rates (reciprocal of dilution factor)

P at the point of exposure or point of harvest (units = dimensionless) flow rate of the liquid effluent (units =

ft /sec) release rate of radionuclide "i" (units =

Ci/year) equi librium bioaccumulation factor for lp nuclide "i " in pathway "p" (units =

liters/kg)

the dose factor, specific to a specific age alpj group "a", radionuclide "i", pathway "p",

and organ "j", which can be utilized to calculate the radiation dose from an intake of a radionuclide (units = mrem/pCi) radioactive decay constant of nuclide "i" (units = hours )

the average transit time required for nuclides to reach the point of exposure.

For internal dose, t p is the total time elapsed between the release of the nuclides and the ingestion of the food and/or water (units = hours) 1100 = factor to convert from (Ci/year)/(ft /sec) to pCi/liter Values for R .. are contained in Table 2-1. All of these apj1 values of R ..

apjl are on a per Curie basi s for each of the nuclides released. Table 2-2 indicates those parameters used for selected factors of the formula.

Prior to each radioactive liquid discharge, each liquid waste tank to be discharged will be analyzed for isotope content utilizing a GeLi detector. On the basis of this analysis, projected doses to an adult whole body and a teen liver will be calculated using the following relationships:

POWB 1.05 gR '1(WB)

C.

1'05 PBL Q R

"(L) C Wh~re PDWB Projected dose expected to the whole body of an adult due to the release of the identified concentration of nuclide "i".

(Units = mrem/year)

PDL

= Projected dose expected to the liver of a teenager due to the release of the identified concentration of nuclide "i" (units = mrem/year)

R i (WB)

total annual dose to the whole body of an adult caused by the ingestion of nuclide "i" per Curie of nuclide "i" released (units

mrem/year/Curi e)

R i(L)

total annual dose to the liver of a teenager caused by the ingestion of nuclide "i" per Curie of nuclide "i".released (units

mrem/year/Curi e)

C. quantity of nuclide "i " identified as present in the release (units = Curies)

I 1.05 = correction factor to account for 100K of dose assuming that 95K of dose received is delivered via the fish ingestion pathway.

The basis for the derivation of the above parameters is contained in the preceding pages 6, 7 and 8 and on page 10. As stated, it has been determined that greater than 95K of the projected organ and whole body dose from the liquid pathway comes from ingestion of fish. The value of 1.05 is used in the

'quation as a conservative factor to increase the projected dose from an anticpated release to 100K.

All projected doses calculated in this manner for each batch of liquid effluent will be summed for comparison with quarterly and annual limits, added to the doses accumulated from other releases in the quarter and year of interest. In all cases, the following relationships will hold:

For a calendar quarter:

0 ~ 1.5 mrem total body 0 4 5 mrem for any organ

For the calendar year:

04 3.0 mrem total body Dt ~ 10 mrem for any organ where 0 t = total dose received due to liauid effluent releases If these limits are exceeded, a special report will be submitted to the NRC identifying the cause and proposed corrective actions. In addition, if these limits are exceeded by a factor of two, calculations shall be made to determine if the dose limits contained in 40 CFR 190 have been exceeded.

Dose limits, as contained in 40 CFR 190 are total body and organ doses of 25 mrem per year and a thyroid dose of 75 mrem per year. These calculations will include doses as a result of liauid and gaseous pathways as well as doses from direct radiation. Liauid, gaseous and direct radiation pathway doses will consider the James A. FitzPatrick facility as well as Nine Mile Point Nuclear Station.

In the event the calculations demonstrate that the 40 CFR 190 dose limits, as defined above, have been exceeded, then a report shall be prepared and submitted to the Commission within 30 days as specified in Section 3.6.15.d of the Technical Specifications.

Section 4.0 of the ODCM contains more information concerning calculations for an evaluation of whether 40 CFR 190 limits have been exceeded.

I I I

3.0 GASEOUS EFFLUENTS

)

3. 1 Setpoint Determinations

'.1.1 Basis The monitor setpoints will be established such that the instantaneous release rate of radioactive materials in gaseous effluents does not exceed the 10 CFR 20 limits for annual release. The setpoints will be activated if the annual dose at or beyond the site boundary would exceed SOO mrem to the whole body or 3000 mrem to the skin from the continuous release of radioactive noble gas in the gaseous effluent. The Stack Gas Monitor setpoints will be determined once per month and will be based on the isotopic composition of the release. If the calculated setpoint is less conservative than the existing setpoint it is not mandatory that the setpoint be changed.

During outages, the last operating setpoint shall be used.

Following an outage of greater than 30 days the setpoints at the time of shutdown shall be utilized until such time as the current isotopic composition of the effluent has been determined; this period may not exceed one month.

3.1.2 Stack Monitor Setpoint The detailed methods for establishing setpoints shall be contained in the station procedures. These methods shall be in accordance with the following:

~l, I

(1) The release rate limit for noble gases from Nine Mile Point Unit 1 is:

$ [(} (1.6E y + 0 3 E. )] ~ 1 where: i = an individual nuclide Qi

= release rate from Nine Mile Point Unit 1 main stack in Ci/sec for isotope i E the average gamma energy per disintegration the average beta energy per disintegration Refer to Table 3-1 for E~ and Ep values.

(2) Utilizing the isotopic composition of noble gas releases, determine f1. (the fr action of each noble gas isotope in the effluent) the concentration in uCi/cc of isotope i in the gaseous effluent.

(3) Determine the maximum acceptable release rate Qmax (Ci/sec) for the isotopic mixture of noble gases.

Qmax =

fi 1 6 iy+ 03E W,

0

(<) Oetermine the Hi Hi alarm point value Hi Hi Alarm Point = L(('@ax)(CF) )

CF = Calibration Factor (net cps/Ci/sec)

(5) The Hi alarm point value i's 1/2 the Hi. Hi alarm point value.

3.1.3 Recombiner Oischarge Monitor The release rate at the Recomhiner Discharge t'onitor is limited to 500,000 uCi/sec (1 Ci/sec for up to 60 days).

(1') The Hi Hi alarm point value. is determined as. follows:

?

'= 3/4' Hi Hi alarm point X 500,000 uCi/sec = 11,900 mr/hr

31. 5 uCi/sec/mr/hr""

" (2) and, the Hi -alarm point value is Hi alarm point = 1/4* X 500,000 uCi/sec = 3,960 mr/hr 3 .5 u s sec/mr/hr

  • 3/4 and 1/4 represent factors of conservatism which may be set less conservative if isotopic analysis frequency is increased from monthly to weekly.
  • " Typical value, as determined by isotopic analysis.

3.2 Oose Oetermination 3.2.1 Oose Rate 3.2.1.1 Noble Gases In accordance with the provisions of 10 CFR 20 the dose rates from noble gas release to unrestricted areas are to be limited to 500 mrem/yr to the total I 1 body and 3,000 mrem/yr to the skin. The monitor alarm setpoint determinations in Section 3.1 are based on this limit and setting the alarm setpoints in the manner specified will assure that these limits are not exceeded.

3.2.1.2 Tritium, Iodines arid Particulates The dose rate in unrestricted areas from the release of tritium, iodine-131, iodine-133 and all r adionuclides in particulate form with half lives greater than 8 days is limited to 1500 mrem/year to any organ. In order to assure that this limit is not exceeded the average annual release rate of tritium, I-131, I-133 and particulates with half lives greater than 8 days shall be:

12X10 Q ~ 1 where: Q

= release rate from Unit 1 stack in P

Ci/sec or the maximum release rate (Qpmax) shall not exceed:

= = 8 ~ 3X10-5 Ci/sec = 83 uCi/sec Qpmax 1 ~

O~

3.2.2 Dose Calculations will be performed monthly to demonstrate that doses resulting from the release of noble gases, tritium, I-131, I-133 and particulates with half lives greater than 8 days are within the limits specified in 10 CFR 50, Appendix I.

These limits are:

0 Noble Gas 5 mr gamma/calendar quarter 10 mrad beta/calendar quarter 10 mr gamma/calendar year 20 mrad beta/calendar year Radioiodines Tritium 8 Particulates 7.5 mrem to any organ/calendar quarter 15 mrem to any organ/calendar year 3.2.2.1 Noble Gas The air dose at the critical receptor due to noble gas releases is'etermined as follows:

For gamma, radiation D = 3.17 x 10 $ M. X/0 1}.

For beta radiation DD

= 3.17 x 10 $ N. X/Q Q.

where M. =

1 air gamma dose factor in (mr/year per uCi/m ) for each isotope i (Table 3-3)

N. =

1 air beta dose factor (mrad/year per uCi/m ) for each isotope i (Table 3-3)

X/Q = the highest calculated 5 year annual average relative concentration for areas at or beyond the site boundary (sec/m 3 ) (Table the total quantity of isotope i released during the period, (uCi) 3.17 X 10 = the inverse of the number of seconds in a year 3.2.2.2 Radioiodine, Tritium 5 Particulates The doses to an individual from I-131, I-133, tritium, and particulates with half lives greater than 8 days will be calculated monthly as follows:

Dose = 3.17 X 10 g $ Ri ak W .Q.

A.

Where W . = dispersion parameter either X/Q or J

D/Q depending on pathway the total quantity of isotope i released during the period, (uCi)

C R..

ijak

= the dose factor for each isotope i, pathway j, age group a, and organ k (Table 3-4, A through S) 3.17 X 10 = the inverse of the number of seconds in a year The R values contained in Table 3-4 were calculated using the methodology defined in NUREG-0133 and Regulatory Guide 1.109, Revision l.

3.2.2.3 Accumulating Doses Doses wi 11 be calculated monthly for the identified critical organ, age group, and pathway, and the results will be summed for each calendar auarter and year. It has been historically demonstrated that the critical pathway is usually the grass-cow-milk pathway and the critical organ is the infant's thyroid. The critical doses are based on the following pathways.

noble gas plume dose ground plane dose (deposition) inhalation dose cow's milk dose goat's milk dose meat consumption dose vegetation (food crops) dose

Critical receptor locations have been identified for the purposes of evaluating each pathway. These receptor location's are contained in Table 3-2. For the noble gas plume dose and inhalation dose the critical X/g residence is applicable. For the milk, meat and vegetation dose, the critical receptor locations are the critical 0/g milk cow location, milk goat location, meat animal location and critical D/9 garden location.

The quarterly and annual results shall be compared to the limits listed in paragraph 3.2.2. If the limits are exceeded, special reports as reauired by Section 6,9.3 of the Technical Specification must be submitted.

3.3 Critical Receptors In accordance with the provisions of 10 CFR 20 and 10 CFR 50, Appendix I, the critical receptors will be identified. For noble gases, only the external noble gas plume dose pathway will be I

considered and the location of concern will be the greatest X/g residence as determined in specification 3.6.22 of the Technical Specifications. For I-133, I-131, tritium and particulate radionuclides with a half life of greater than eight days, the critical pathways are milk (cow and goat), meat, vegetation, inhalation and direct radiation (ground plane) as a result of ground deposition.

C The cow milk and goat milk pathway will be based on the greatest 0/9 milk cow and milk goat location as determined in specification 3.6.22. The inhalation dose pathway will be based on the greatest X/g residence as determined in specification 3.6.22 since this location would have the greatest potential residence time. This critical receptor location is the same as the location used for the noble gas plume dose pathway. The ground plane dose pathway will be calculated as the greatest 0/g residence because of the greatest potential residence time. For the meat consumption dose pathway, the critical receptor is the greatest 0/g meat animal location. This location is determined in conjunction with the land use census (specification 3.6.22). The vegetation (food crop) dose is based on the greatest 0/g garden location. This location, as the critical meat animal location, will be determined in conjunction with the land use census.

l 0

)4~ 0 40 CFR 1 90 RE'gUIREMENTS The "Uranium Fuel Cycle" is defined in 40 CFR Part 190.02 (b) as follows:

"Uranium fuel cycle means the operations of milling of uranium ore, chemical conversion of uranium, isotopic enr'ichment of uranium, fabrication of uranium fuel, generation of electricity by a light-water-cooled nuclear power plant using uranium fuel, and reprocessing of spent uranium fuel, to the extent that these directly support the production of electrical power for public use utilizing I

nuclear energy, but excludes mining operations, operations at waste disposal sites, transportation of any radioactive material in support of these operations, and the reuse of recovered non-uranium special nuclear and by-product materials from the cycle."

Section 3.6.15.d of the Technical Specifications requires than when the calculated doses associated with the effluent releases exceed twice the specified limits of sections 3.6.15.a.(2)(b), 3.6.15.b.(2)(b) and 3.6.15.b.(3)(b), then calculations shall be made including direct radiation contributions from the reactor units and outside storage tanks (as applicable) to determine whether the above 40 CFR 190 does limits have been exceeded. If such is the case, Niagara Mohawk shall submit a Special Report to the NRC and limit subsequent releases such that the dose commitment to a real individual from all uranium fuel cycle sources is limited to ~ 25 mrem to the total body or any organ (except the thyroid, which is limited to 75 mrem) over the calendar year. This report is to demonstrate that radiation exposures to all real individuals from all uranium fuel cycle sources (including all liquid and gaseous effluent pathways and direct radiation) are less than the limits in 40 CFR Part 190. If releases that

result in doses exceeding the 40 CFR 190 limits have occurred, then a variance from the NRC to permit such releases will be requested and if possible, action will be taken to reduce subsequent releases.

The report to the NRC shall contain:

1) Identification of all uranium fuel cycle facilities or operations within 5 miles of the nuclear power reactor units at the site, that contribute to the annual dose of the maximum exposed member of the public.
2) Identification of the maximum exposed member of the public and a determination of the total annual dose to this person from all existing pathways and sources of radioactive effluents and direct radiation.

The total body and organ doses resulting from radioactive material in liquid effluents from Nine Mile Point Unit 1 will be summed with the doses resulting from the releases of noble gases, radioiodines, and particulates for preceeding 3 quarters and from the quarter in which twice the limit was exceeded. The direct dose components will also be determined by either calculation or actual measurement. The doses from Nine Mile'Point Unit 1 will be added to the doses to the maximum exposed individual that are contributed from other uranium fuel cycle operations.

For the purpose of calculating doses, the results of the Radiological Environmental Monitoring Program m'ay be included for providing more refined estimates of doses to a real maximum exposed individual.

Estimated doses, as calculated from station effluents, may be replaced by doses calculated from actual environmental sample results.

4.1 Evaluation of Doses From Liquid Effluents For the evaluation of doses to real members of the public from liquid .

effluents; the fish consumption and shoreline sediment ground dose will be considered. The dose associated with fish consumption may be calculated using the ODCM methodology or by calculating a dose to man based on actual fish sample analysis data. The dose associated with shoreline sediment is based on the assumption that the shoreline would be utilized as a recreational area. This dose may be derived from liquid effluent data or from actual shoreline sediment sample analysis data.

Doses to members of the public from the fish consumption and shoreline sediment pathways will be calculated using Regulatory Guide 1.109 methodology or OOCM methodology.

4.2 Evaluation of Doses From Gaseous Effluents For the evaluation of doses to real members of the public from gaseous effluents, the pathways contained in section 3.2.2.3 of the ODCM will be considered. However, any updated field data may be utilized that concerns locations of real individuals, real time meteorological data, location of critical receptors, etc. Data from the most recent census and sample location surveys should be utilized. Doses may also be calculated from actual environmental sample media, as available. Environmental sample media data such as TLD, air sample, milk sample and vegetable (food crop) sample data may be utilized in lieu of effluent calculational data.

Doses to members of the public from the pathways contained in ODCM section 3.2.2.3 as a result of gaseous effluents will be calculated using the dose factors of Regulatory Guide 1.109 or the methodology of the ODCM, as applicable.

4.3 Evaluation of Doses From Direct Radiation Section 3.6.15.d of the Technical Specifications reauires that the dose contribution as a result of direct radiation be considered when evaluating whether the dose limitations of 40 CFR 190 have been exceeded. Direct radiation doses as a result of the reactor, turbine and radwaste buildings and outside radioactive storage tanks (as applicable) may be evaluated by engineering calculations or by evaluating environmental TLD results at critical receptor locations, site boundary or other special interest locations.

5.0 ENVIRONMENTAL MONITORING PROGRAM

)

5.1 Sampl ing Stations The current sampling locations are specified in Table 5-1 and Figures 5.1-1, 5.1-2. The Environmental Monitoring Program is a joint effort between the Niagara Mohawk Power Corporation and the New York Power Authority, the owners and operators of the Nine Mile Point Unit 1 and the James A. FitzPatrick Nuclear Power Plant, respectively. Sampling locations are chosen on the basis of historical aver age dispersion or deposition parameters from both units.

The average dispersion and deposition parameters for the two units have been calculated for a 5 year period, 1978 through 1982. These dispersion calculations are attached as Appendix C. The calculated dispersion or deposition parameters will be compared to the results of the annual land use census. If it is determined that a milk sampling locati'on exist at a location that yields a significantly highe~ (e.g. 50K) calculated D/g rate, the new milk sampling location will be added to the monitoring program within 30 days. If a new location is added, the old location that yields the lowest calculated D/g may be dropped from the program after October 31 of that year.

5.2 Interlaboratory Comparison Program Analyses shall be performed on samples containing known auantities of radioactive materials that are supplied as part of a Commission approved or sponsored Interlaboratory Comparison Program, such as the I

EPA Crosscheck Program. Participation shall be only for those media, e.g., air, milk, water, etc., that are included in the Nine Mile Point environmental monitoring program and for which cross check samples are available. The site identification symbol or the actual guality Control sample results shall be reported in the Annual Radiological Environmental Operating Report so that the Commission staff may evaluate the results.

5.3 Capabilities for Thermoluminescent Dosimeter s Used for Environmental Measurements Reauired detection capabilities for thermoluminescent dosimeters used for environmental measurements reauired by Table 4.6.20-1, footnote b of the Technical Specifications are based on ANSI Standard N545, section 4.3. Reauired detection capabilities are as follows. TLDs are defined as phosphors packaged for field use.

In regard to the detection capabilities for thermoluminescent dosimeters, only one determination is reauired to evaluate the above capabilities per type of TLD. Furthermore, the above capabilities may be determined by the vendor who supplies the TLDs.

5.3.1 Uniformity shall be determined by giving TLDs from the same batch an exposure eaual to that resulting from an exposure rate of 10 uR/hr during the field cycle. The responses obtained shall have a relative standard deviation of less than 7.5X. A total of at least 5 TLDs shall be evaluated.

Reproducibility shall be determined by giving TLDs repeated exposures eaual to that resulting from an exposure rate of 10 uR/hr during the field cycle. The average of the relative standard deviations of. the responses shall be less than 3.N,. A total of at least 4 TLDs shall be evaluated.

Dependence of exposure interpretation on the length of a field cycle shall be examined by placing TLDs for a period eaual to at least a field cycle and a period equal to half the same field cycle in an area where the exposure rate is known to be constant. This test shall be conducted under approximate average winter temperatures and approximate average summer temperatures. For these tests, the ratio of the response obtained in the field cycle to twice that obtained for half the field cycle shall not be less than 0.85. At least 6 TLDs shall be evaluated.

Energy dependence shall be evaluated by the response of TLDs to photons for several energies between approximately 30 keV and 3 MeV. The response shall not differ from that obtained with the calibration source by more than 25K for photons with energies greater than 80 keV and shall not be enhanced by more than a factor of two for photons with energies less than 80 keV. A total of at least 8 TLDs shall be evaluated.

The directional dependence of the TLD response shall be determined by comparing the response of the TLO exposed in the routine orientation with respect to the calibration source with the response obtained for different orientations. To accomplish this, the TLD shall be rotated through at least two perpendicular planes. The response averaged over all directions shall not differ from the response obtained in the standard calibration position by more than lOX. A total of at least 4 TLOs shall be evaluated.

Light dependence shall be determined by placing TLDs in the field for a period equal to the field cycle under the four conditions found in ANSI N545, section 4.3.6. The results obtained for the unwed apped TLDs shall not differ from those obtained for the TLDs wrapped in aluminum foil by more than le. A total of at least 4 TLDs shall be evaluated for each of the four conditions.

Moisture dependence shall be determined by placing TLOs (that is, the phosphors packaged for field use) for a period equal to the field cycle in an area where the exposure rate is known to be constant. The TLDs shall be exposed under two conditions: (1) packaged in a thin, sealed plastic bag, and (2) packaged in a thin, sealed plastic bag with sufficient water to yield observable moisture throughout the field cycle. The TLO or phosphor, as appropriate, shall be dried before readout. The I

response of the TLD exposed in the plastic bag containing water shall not differ from that exposed in the regular plastic bag by more than lOX. A total of at least 4 TLDs shall be evaluated for each condition.

Self irradiation shall be determined by placing TLDs for a period eaual to the field cycle in an area where the I

exposure rate is less than 10 uR/hr and the exposure during the field cycle is known. If necessary, corrections shall be applied for the dependence of exposure interpretation on the length of the field cycle (ANSI N545, section 4.3.3).

The average exposure inferred from the responses of the TLDs shall not differ from the known exposure by more than an exposure eaual to that resulting from an exposure rate of 10 uR/hr during the field cycle. A total of at least 3 TLDs shall be evaluated.

V 1

TABLE 2-1 Rgpji VALUES FOR THE NINE MILE POINT UNIT 1 FACILITY ADULT - TOTAL BODY TEEN - LIVER NUCLIUE Rg i (MREM/YR-Ci) Rg i (MREM/YR-Ci )

89Sr 2.05E -3 N/A 90sr 4.37E -1 N/A 134Cs 1.89 E +0 2.35 E + 0 137Cs 1.12 E+0 1.78 E+ 0 58co 6.47E -4 2.87 E 4 60co 1.85E -3 8.38E -4 54Mn 2.72E -3 1.19E -2

TAHLE 2-2 PARAMETERS FOR THE LIQUID EFFLUENT PATHWAY REFERENCE PARAMETER VALUE (REG. GUIDE 1.109)

Uap Adult = 21.0 Kg/gr Table E-5 Teen = 16.0 Kg/gr Mp 0.2 Site Specific F 590 ft.3/second Site Specific Bip Each element Table A-1 Daipi Each radionuclide Tables E-ll to E-14 tp 26.9 hours1.041667e-4 days <br />0.0025 hours <br />1.488095e-5 weeks <br />3.4245e-6 months <br /> Site Specific 0

~

~

TABLE 3-1 Average Energy Per Oisintegration ISOTOPE . E mev/dis Ref / (3)

'r-83m 0.00248 (1) 0. 0371 (1)

Kr-85 0.0022 (1) 0. 250 (1)

Kr-85m 0.159 (1) 0.253 (1)

Kr-87 0. 793 (1) 1.32 . (1)

Kr-88 1.95 .(1) 0. 377 (.1)

Kr-89 2. 22 (2) 1.37 (2)

Kr-90 2.10 (2) 1.01 (2) .

I Xe-1 31M 0.0201 (1) 0'.143 '(1)

Xe-133 0.0454 (1) 0.135 (1)

Xe-1 33m 0. 042 (1) 0. 19 (1)

Xe-135 0.247 (1) 0. 317 (1)

Xe-135m 0.432 (1) 0.095 (1)

Xe-137 0. 194 (1) 1.64 (1)

Xe-138 1.18 (1) 0.611 (1)

(1) ORNL-4923, Radioactive Atoms - Su lement I, M.S. Martin, November 1973.

(2) NE00-12037, "Summary of Gamma and Beta Emitters and Intensity Oata"; M.E.

Meek, R.S. Gilbert, January 1970. (The average energy was computed from the maximum energy using the ICRP II equation, not the 1/3 value assumption used in this reference).

(3) The average energy includes conversion electrons.

I 'I I

TABLE 3-2 Critical Receptor Dispersion Parameters LOCATION 0IR MILES X/g ~m Residences 1.2 1.00E-07* 6.00E-09*

Dairy Cows ESE 1.6 5.00E-08** 2.00E-09**

Milk Goats SW 2.9 1.25E-08** 2.00E-10**

Meat Animals ESE 1.6 5.00E-08** 2.00E-09**

Gardens 1.6 8.00E-08** 2.50E-09**

  • Estimated value (conservative) based on 5 year annual meteorological data
    • Estimated value (conservative) based on 5 year average grazing season meteorological data

TABLE 3-3 DOSE FACTORS FOR NOBLE GASES Gamma Air Beta Air 3ose Factor Dose Factor Mi Ni ml -m3 mrad-m3 Radionuclides u i-yr uCi-yr Kr-83m 1.93E+01 2.88E+02 Kr-85m 1.23E+03 1.97E+03 Kr-85 1.72E+01 1.95E+03 Kr-87 6.17E+03 1.03E+04 Kr-88 1.51E+04 2.93E+03 Kr-89 1.73E+04 1.-6E+04 Kr-90 1.63E+04 7.83E+03 Xe-131m 1.56E+02 1.11E+03 Xe-133m 3.27E+02 1.48E+03 Xe-133 3.53E+02 1.05E+03 Xe-135m 3.36E+03 7.39E+02 Xe-135 1.92E+03 2.46E+03 Xe-137 1.51E+03 1.27E+04 Xe-138 9.21E+03 4.75E+03 Xe-139 5.28E+03 6.52E+04 Ar-41 9.30E+03 3.28E+03

  • Regulatory Guide 1.109, "Calculation of Annual Doses to Man From Routine Releases of Reactor Effluents for the Purpose of Evaluating Compliance with 10 CFR Part 50, Appendix I," dated October 1977, page 1.109-21.

TABLE 3-4A R VALUES - COW'S MILK - INFANT m2-mrem/yr uCi/sec NUCLIDE T. BODY GI-TRACT BONE LI VER. KIDNEY THYROID LUNG H 3* 2.40E 03 2.40E 03 2.40E 03 2.40E 03 2.40E 03 2.40E 03 CR 51 7.46E 04 2.17E 06 1.06E 04 4.87E 04 4.47E 04 MN 54 4.54E 06 7.36E 06 2.00E 07 4.44E 06 FE 59 7.21E 07 8.74E 07 1.05E 08 1.83E 08 5.41E 07 CO 58 2.88E 07 2.88E 07 1.15E 07 CO 60 1.11E 08 1.12E 08 4.71E 07 2N 65 5.26E 09 9.63E 09 3.32E 09 1.14E 10 5.53E 09 SR 80 1.70E 08 1.22E 08 5.94E 09 SR 90 1.79E 10 8.75E 08 7.01E 10 2R 95 5.58E 02 3.92E 05 3.23E 03 7.87E 02 8.48E 02 I 131 6.92E 08 5.62E 07 1.34E 09 1.57E 09 1.84E 09 5.17E ll I 133 7.91E 06 4.57E 06 1.85E 07 2.70E 07 3.17E 07 4.91E 09 CS 134 3.59E 09 9.65E 07 1.90E 10 3.55E 10 9.14E 09 3.75E 09 CS 136 1.03E 09 4.19E 07 9.37E 08 2.76E 09 1.10E 09 2.25E 08 CS 137 2.37E 09 1.04E 08 2.85E 10 3.34E 10 8.96E 09 3.63E 09 BA 148 5.94E 06 2.83E 07 1.15E 08 1.15E 05 2.74E 04 7.03E 04 CE 141 1.44E 03 6.30E 06 2.00E 04 1.22E 04 3.76E 03

  • mrem/ r uCi/m

TABLE R VALUES COW'S 3-4B MILK CHILD m2-mr em/yr 0

uCi/sec NUCLIDE T. BODY GI-TRACT BONE LI VER KIDNEY THYROID LUNG H 3* 1.58E 03 1.58E 03 1.58E 03 1.58E 03 1.58E 03 1.58E 03 1.58E 03 Cr 51 4.71E 04 2.50E 06 7.14E 03 2.61E 04 4.77E 04 Nn 54 2.87E 06 9.04E 06 1.08E 07 3.02E 06 Fe 59 4.52E 07 9.45E 07 5.61E 07 9.08E 07 2.63E 07 Co 58 1.77E 07 3.37E 07 5.77E 06 Co 60 6.81E 07 1.28E 08 2.31E 07 Zn 65 4.10E 09 1.16E 09 2.47E 09 6.59E 09 4.15E 09 Sr 89 8.93E 07 1.21E 08 3.13E 09 Sr 90 1.63E 10 8.68E 08 6.44E 10 Zr 95 3.56E 02 4.17E 05 1.82E 03 4.00E 02 5.72E 02 I 131 3.66E 08 5.73E 07 6.40E 08 6.44E 08 1.06E 09 2.13E 11 I 133 4.11E 06 4.38E 06 8.78E 06 1.09E 07 1.81E 07 2.02E 09 Cs 134 4.09E 09 1.05E 08 1.18E 10 1.94E 10 6.01E 09 2.16E 09 Cs 136 8.53E 08 4.63E 07 4.80E 08 1.32E 09 7.07E 08 1.05E 08 Cs 137 2.52E 09 1.07E 08 1.79E 10 1.71E 10 5.57E 09 2.00E 09 Ba 140 3.27E 06 2.84E 07 5.60E 07 4.91E 04 1.60E 04 2.93E 04 Ce 141 7.47E 02 6.28E 06 1.01E 04 5.03E 03 2.21E 03

  • mrem/ r u 1 m

TABLE 3-4C R VALUES - COW'S MILK - TEEN m2-mrem/yr uCi/sec NUCLIDE T. BODY GI-TRACT BONE LIVER KIDNEY THYROID LUNG H 3* 1.00E 03 1.00E 03 1.00E 03 1.00E 03 1.00E 03 1.00E 03 Cr 51 2.31E 04 3.88E 06 5.06E 03 1.28E 04 3.30E 04 Mn 54 1.43E 06 1.48E 07 7.20E 06 2.15E 06 Fe 59 2.18E 07 1. 34E 08 2.42E 07 5.65E 07 1.78E 07 Co 58 8.70E 06 5.21E 07 3.78E 06 Co 60 3.35E 07 1.94E 08 1.49E 07 1n 65 2.04E 09 1.85E 09 1.26E 09 4.38E 09 2.80E 09 Sr 89 3.62E 07 1.50E 08 1.26E 09 Sr 90 9.42E 09 1.07E 09 3.81E 10 Zr 95 1.70E 02 5.70E 05 7.83E 02 2.47E 02 3.63E 02 I 131 1.98E 08 . 7.31E 07 2.64E 08 3.69E 08 6.36E 08 1.08E 11 I 133 1.87E 06 4.64E 06 3.61E 06 6.13E 06 1.08E 07 8.56E 08 Cs 134 5.60E 09 1.50E 08 F

5.12E 09 1.21E 10 3.83E 09 1.46E 09 Cs 136 5.62E 08 6.73E 07 2.13E 08 8.37E 08 4.55E 08 7.18E 07 Cs 137 3.44E 09 1.40E 08 7.42E 09 9.87E 09 3.36E 09 1.30E 09 Ba 140 1.58E 06 3.58E 07 2.32E 07 2.84E 04 9.65E 03 1.91E 04 Ce 141 3.14E 02 7.83E 06 4.10E 03 2.74E 03 1.29E 03

  • mrem/ r m

U 1

TABLE 3-4D R VALUES - COW'S MILK ADULT m2-mrem/yr uCi/sec NUCLIDE T. BODY GI-TRACT BONE LI VER KIDNEY THYROID LUNG H 3* 7.69E 02 7.69E 02 7.69E 02 7.69E 02 7.69E 02 7.69E 02 Cr 51 1.32E 04 3.32E 06 2.91E 03 7.90E 03 1.75E 04 Mn 54 8.25E 05 1.32E 07 4.32E 06 1.29E 06 Fe 59 1.25E 07 1.09E 08 1.39E 07 3.26E 07 9.10E 06 Co 58 5.03E 06 4.56E 07 2.24E 06 Co 60 1.93E 07 1.65E 08 8.77E 06 Zn 65 1.18E 09 1.65E 09 8.21E 08 2.81E 09 1.75E 09 Sr 89 1.97E 07 1.10E 08 6.85E 08 Sr 90 6.62E 09 7.80E 08 2.70E 10 Zr 95 9.72E 01 4.55E 05 4.48E 02 1.44E 02 2.25E 02 I 131 1.19E 08 5.49f 07 1.45E 08 2.08E 08 3.57E 08 6.82E 10 I 133 1.05E 06 3.09E 06 1.98E 06 3.44E 06 6.01E 06 5.06E 08 Cs 134 5.74E 09 1.23E 08 2.95E 09 7.02E 09 2.27E 09 7.54E 08 Cs 136 3.55E 08 5.60E 07 1.25E 08 4.93E 08 2.74E 08 3.76E 07 Cs 137 3.65E 09 1.08E 08 4.09f 09 5.59E 09 1.90E 09 6.31E 08 Ba 140 8.43E 05 2.65E 07 1.29E 07 1.62E 04 5.49E 03 9.25E 03 Ce 141 1.71E 02 5.78E 06 2.24E 03 1.51E 03 7.02E 02

  • mrem/ r U 1 m

R VALUES -

TABLE 3-4E GOAT'S MILK INFANT m2-mrem/yr 0

uCi/sec NUCLIDE T. BODY GI-TRACT BONE LI VER KIDNEY THYROID LUNG H 3* 4.90E 03 4.90E 03 4.90E 03 4.90E 03 4.90E 03 4.90E 03 Cr 51 8.95E 03 2.61E 05 1.28E 03 5.84E 03 1.14E 04 Mn 54 5.45E 05 8.83E 05 2.40E 06 5.33E 05 Fe 59 9.37E 05 1.14E 06 1.36E 06 2.38E 06 7.03E 05 Co 58 3.45E 06 3.45E 06 1.38E 06 Co 60 1.34E 07 1.35E 07 5.65E 06 Zn 65 6.31E 08 1.16E 09 3.99E 08 1.37E 09 6.63E 08 Sr 89 3.58E 08 2.57E 08 1.25E 10 Sr 90 3.57E 10 1.84E 09 1.47E 11 Sr 95 6.70E 01 4.70E 04 3.88E 02 9.45E 01 1.02E 02 I 131 8.31E 08 6.74E 07 1.60E 09 1.89E 09 2.21E 09 6.21E 11 I 133 9.49E 06 5.48E 06 2.23E 07 3.24E 07 3.81E 07 5.89E 09 Cs 134 1.08E 10 2.89E 08 5.71E 10 1.07E 11 2.74E 10 1.12E 10 Cs 136 3.09E 09 1.26E 08 2.81E 09 8.27E 09 3.30E 09 6.74E 08 Cs 137 7.10E 09 3.13E 08 8.55E 10 1.00E 11 2.69E 10 1.09E 10 Ba 140 7.13E 05 3.40E 06 1.38E 07 1.38E 04 3.29E 03 8.50E 03 Ce 141 1.72E 02 7.57E 05 2.40E 03 1.46E 03 4.52E 02

  • mrem/ r

'U m 1

R VALUES -

TABLE 3-4F GOAT'S MILK m2-mrem/yr

- CHILD 0

uCi/sec NUCLIDE T. BODY GI-TRACT BONE LIVER KIDNEY THYROID LUNG H 3* 3.23E 03 3.23E 03 3.23E 03 3.23E 03 3.23E 03 3.23E 03 Cr 51 5.65E 03 3.00E 05 8.57E 02 3.14E 03 5.73E 03 Mn 54 3.44E 05 1.08E 06 1.29E 06 3.62E 05 Fe 59 5.88E 05 1.23E 06 7.29E 05 1.18E 06 3.42E 05 Co 58 2.12E 06 4.04E 06 6.92E 05 Co 60 8.17E 06 1.53E 07 2.77E 06 Zn 65 4.92E 08 1.39E 08 2.97E 08 7.91E 08 4.98E 08 Sr 89 1.87E 08 2.54E 08 6.56E 09 Sr 90 3.43E 10 1.82E 09 1.35E 11 Zr 95 4.27E 01 5.01E 04 2.18E 02 4.80E 01 6.87E 01 I 131 4.39E 08 6.88E 07 7.68E 08 7.72E 08 1.27E 09 2.55E ll I 133 4.93E 06 5.25E 06 1.05E 07 1.30E 07 2.17E 07 2.42E 09 Cs 134 1.23E 10 3.14E 08 3.55E 10 5.82E 10 1.80E 10 6.47E 09 Cs 136 2.56E 09 1.39E 08 1.44E 09 3.96E 09 2.11E 09 3.14E 08 Cs 137 7.57E 09 3.21E 08 5.36E 10 5.13E 10 1.67E 10 6.01E 09 Ba 140 3.92E 05 3.41E 06 6.72E 06 5.89E 03 1.92E 03 3.51E 03 Ce 141 8.97E 01 7.54E 05 1.21E 03 6.04E 02 2.65E 02

  • mrem/ r u 1 m

I R VALUES -

TABLE 3-4G GOAT'S MILK TEEN m2-mrem/yr uCi/sec NUCLIDE T. BODY GI-TRACT BONE LI VER KIDNEY THYRO ID LUNG 2.04E 03 2.04E 03 2.04E 03 2.04E 03 2.04E 03 2.04E 03 Cr 51 2.77E 03 4.66E 05 6.07E 02 1.54E 03 3.95E 03 Mn 54 1.71E 05 1.77E 06 8.64E 05 2.58E 05 Fe 59 2.83E 05 1.74E 06 3.14E 05 7.34E 05 2.31E 05 Co 58 1.04E 06 6.25E 06 4.63E 05 Co 60 4.02E 06 2.32E 07 1.78E 06 Zn 65 2.45E 08 2.22E 08 1.51E 08 5.25E 08 3.36E 08 Sr 89 7.59E 07 3.16E 08 2.65E 09 Sr 90 1.98E 10 2.25E 09 8.81E 10 Zr 95 2.04E 01 6.84E 04 9.40E 01 2.97E 01 4.36E 01 I 131 2.38E 08 8.77E 07 3.17E .08 4.43E 08 7.63E 08 1.29E ll I 133 2.24E 06 5.57E 06 4.34E 06 7.36E 06 1.29E 07 1.03E 09 Cs 134 1.68E 10 4.50E 08 1.54E 10 3.62E 10 1.15E 10 4.39E 09 Cs 136 1.69E 09 2.02E 08 6.38E 08 2.51E 09 1.37E 09 2.15E 08 Cs 137 1.03E 10 4.21E 08 2.22E 10 2.96E 10 1.01E 10 3.91E 09 Ba 140 1.80E 05 4.30E 06 2.79E 06 3.41E 03 1.16E 03 2.30E 03 Ce 141 3.77E 01 9.39E 05 4.92E 02 3.28E 02 1.55E 02

  • mrem/yr

~ll C 1 /III

TABLE 3-4H R VALUES - GOAT'S MILK - ADULT m2-mrem/yr uCi/sec NUCLIDE T. BODY GI-TRACT BONE LIVER KIDNEY THYROID LUNG H 3* 1.57E 03 1.57E 03 1.57E 03 1.57E 03 1.57E 03 1.57E 03 Cr 51 1.59E 03 3.99E 05 3.49E 02 9.48E 02 2.11E 03 Mn 54 9.89E 04 1.59E 06 5.19E 05 1.54E 05 Fe 59 1.62E 05 1.41E 06 1.80E 05 4.23E 05 1.18E 05 Co 58 6.03E 05 5.46E 06 2.69E 05 Co 60 2.32E 06 ~

1.98E 07 1.05E 06 Zn 65 1.42E 08 1.97E 08 9.85E 07 3.14E 08 2.10E 08 Sr 89 4.13E 07 2.31E 08 1.44E 09 Sr 90 1.39E 10 1.64E 09 5.67E 10 Zr 95 1.17E 01 5.46E 04 5.37E 01 1.72E 01 2.70E 01 I 131 1.43E 08 6.59E 07 1.74E 08 2.50E 08 4.28E 08 8.18E 10 I 133 1.26E 06 3.71E 06 2.37E 06 4.13E 06 7.21E 06 6.07E 08 Cs 134 1.72E 10 3.69E 08 8.85E 09 2. 11E 10 6.82E 09 2.26E 09 Cs 136 1.06E 09 1.68E 08 3.75E 08 1.48E 09 8.23E 08 1.13E 08 Cs 137 1.10E 10 3.25E 08 1.25E 10 1.68E 10 5.70E 09 1.89E 09 Ba 140 1.01E 05 3.18E 06 1.54E 06 1.94E 03 6.59E 02 1.11E 03 Ce 141 2.06E Ol 6.94E 05 2.68E 02 1.81E 02 8.43E 01

  • mrem/ r uCi/m

TABLE 3-4I R VALUES - MEAT - CHILD m2-mrem/yr uCi/sec NUCLIDE T. BODY GI-TRACT BONE LI VER KIDNEY THYRO ID LUNG H 3* 2.36E 02 2.36E 02 2.36E 02 2.36E 02 2.36E 02 2.36E 02 Cr 51 4.07E 03 2.16E 05 6.17E 02 2.26E 03 4.12E 03 Mn 54 1.09E 06 3.45E 06 4.11E 06 1.15E 06 Fe 59 1.42E 08 2.97E 08 1.76E 08 2.85E 08 8.26E 07 Co 58 2.39E 07 4.56E 07 7.82E 06 Co 60 1.09E 08 2.05E 08 3. 70f 07 Zn 65 3.72E 08 1.05E 08 2.25E 08 5.99E 08 3.77E 08 Sr 89 6.55E 06 8.87E 06 2.29E 08 Sr 90 1.52E 09 8.08E 07 6.00E 09 Zr 95 2.48E 05 2.91E 08 1.27E 06 2.79E 05 3.99E 05 I 131 4.64E 06 7.29E 05 8.14E 06 8. 19E 06 1.34E 07 2.71E 09 I 133 1.55E-01 1.66E-Ol 3.32E-01 4.11E-01 6.85E-01 7.63E 01 Cs 134 1.67E 08 4.26E 06 4.81E 08 7'.90E 08 2.45E 08 8.78E 07 Cs 136 1.35E 07 7.34E 05 7.60E 06 2.09E 07 1.11E 07 1.66E 06 Cs 137 1.04E 08 4.43E 06 7.39E 08 7.07E 08 2.30E 08 8.29E 07 Ba 140 1.22E 06 1.06E 07 2.10E 07 1.84E 04 5.98E 03 1.10E 04 Ce 141 7.57E 02 6.36E 06 1.02E 04 5.10E 03 2.24E 03

  • mrem/ r uCi/m I

TABLE 3-4J R VALUES MEAT - TEEN m2-mrem/yr uCi/sec NUCLIDE T. BODY GI-TRACT BONE LI VER KIDNEY THYRO ID LUNG H 3* 1.95E 02 1.95E 02 1.95E 02 1.95E 02 1.95E 02 1.95E 02 Cr 51 2.61E 03 4.39E 05 5.72E 02 1.45E 03 3.73f 03 Mn 54 7.12E 05 7.37E 06 3.59E 06 1.07E 06 Fe 59 8.95E 07 5.48E 08 9.93E 07 2.32E 08 7.31E 07 Co 58 1.54E 07 9.22E 07 6.69E 06 Co 60 7.03E 07 4.06E 08 3. 12E 07 Zn 65 2.43E 08 2.20E 08 1.50E 08 5.20E 08 3.33E 08 Sr 89 3.47E 06 1.44E 07 1.21E 08 Sr 90 1.15E 09 1.30E 08 4.64E 09 Zr 95 1.55E 05 5.20E 08 7.15E 05 2.25E 05 3.31E 05 I 131 3.30E 06 1.22E 06 4.39E 06 6.14E 06 1.06E 07 1.79E 09 I 133 9.25E-02 2.30E-01 1.79E-01 3. 03E-01 5.32E-01 4.23E 01 Cs 134 2.98E 08 7.99E 06 2.73E 08 6.42E 08 2.04E 08 7.78E 07 Cs 136 1.16E 07 1.40E 06 4.41E 06 1.73E 07 9.44E 06 1.49E 06 Cs 137 1.86E 08 7.59E 06 4.01E 08 5.34E 08 1.82E 08 7.06E 07 Ba 140 7.33E 05 1.75E 07 1.14E 07 1. 39E 04 4.72E 03 9.37E 03 Ce 141 4.14E 02 1.04E 07 5.43E 03 3.63E 03 1.7'IE 03

  • mrem/ r uCi/m

TABLE 3-4K R VALUES - MEAT - ADULT m2-mrem/yr uCi/sec NUCLIDE T. BODY GI-TRACT BONE LIVER KIDNEY THYROID LUNG H 3* 3.27E 02 3.27E 02 3.27E 02 3.27E 02 3.27E 02 3.27E 02 Cr 51 3.26E 03 8.21E 05 7.19E 02 1.95E 03 4.33E 03 Mn 54 8.98E 05 1.44E 07 4.71E 06 1.40E 06 Fe 59 1.12E 08 9.73E 08 1.24E 08 2.92E 08 8.16E 07 Co 58 1.95E 07 1.76E 08 8.68E 06 Co 60 8.87E 07 7.56E 08 4.02E 07 Zn 65 3.06E 08 4.27E 08 2.13E 08 6.78E 08 4.53E 08 Sr 89 4.12E 06 2. 30E 07 1.43E 08 Sr 90 1.76E 09 2.07E 08 7.17E 09 Zr 95 1.94E 05 9.07E 08 8.92E 05 2.86E 05 4.49E 05 I 131 4.33E 06 1.99E 06 5.28E 06 7.55E 06 1.29E 07 2.48E 09 I 133 1.13E-01 3. 34E-01 2.14E-01 3.72E-01 6.49E-01 5.46E 01 Cs 134 6.68E 08 1.43E 07 3.43E 08 8.15E 08 2.64E 08 8.78E 07 Cs 136 1.61E 07 2.53E 06 5.65E 06 2.23E 07 1.24E 07 1.70E 06 Cs 137 4.33E 08 1.28E 07 4.83E 08 6.61E 08 2.24E 08 7.46E 07 Ba 140 9.01E 05 2.83E 07 1.38E 07 1.73E 04 5.87E 03 9.89E 03 Ce 141 4.96E 02 1.67E 07 6.47E 03 4.38E 03 2.03E 03

  • mrem/ r uCi/m

l TABLE 3-4L R VALUES - VEGETATION - CHILD m2-mrem/yr uCi/sec NUCLIDE T. BODY GI-TRACT BONE LIVER KIDNEY THYROID LUNG H 3* 4.04E 03 4.04E 03 4.04E 03 4.04E 03 4.04E 03 4.04E 03 Cr 51 1.16E 05 6.15E 06 1.76E 04 6.44E 04 1.18E 05 Mn 54 1.73E 08 5.44E 08 6.49E 08 1.82E 08 Fe 59 3.17E 08 6.62E 08 3.93E 08 6.36E 08 1.84E 08 Co 58 1.92E 08 3.66E 08 6.27E 07 Co 60 1.11E 09 2.08E 09 3.76E 08 Zn 65 1.70E 09 4.81E 08 1.03E 09 2.74E 09 1.73E 09 Sr 89 1.03E 09 1.40E 09 3.62E 10 Sr 90 3.49E ll 1.86E 10 1.38E 12 Zr 95 7.44f 05 8.71E 08 3.80E 06 8.35E 05 1.20E 06 I 131 8.16E 07 1.28E 07 1.43E 08 1.44E 08 2.36E 08 4.75E 10 I 133 1.67E 06 1.78E 06 3.57E 06 4.42E 06 , 7.36E 06 8.21E 08 Cs 134 5.40E 09 1.38E 08 1.56E 10 2.56E 10 7.93E 09 2.84E 09 Cs 136 1.43E 08 '7.77E 06 8.04E 07 2.21E 08 1.18E 08 1.76E 07 Cs 137 3.52E 09 1.50E 08 2.48E 10 2.39E 10 7.78E 09 2.80E 09 Ba 140 1.61E 07 1.40E 08 2.76E 08 2.42E 05 7.87E 04 1.44E 05 Ce 141 4.75E 04 3.99E 08 6.42E 05 3.20E 05 1.40E 05

  • mrem/ r uCi/m

)

I

TABLE 3-4N R VALUES VEGETATION - TEEN 0

m2-mrem/yr uCi/sec NUCLIDE T.- BODY GI-TRACT BONE LI VER KIDNEY THYROID LUNG H 3* 2.61E 03 2.61E 03 2.61E 03 2.61E 03 2.61E 03 2.61E 03 Cr 51 6.11E 04 1.03E 07 1.34E 04 3.39E 04 8.72E 04 Mn 54 8.79E 07 9.89E 08 4.43E 08 1.32E 08 Fe 59 1.60E 08 9.78E 08 1.77E 08 4.14E 08 1.30E 08 Co 58 9.79E 07 5.85E 08 4.25E 07 Co 60 5.57E 08 3.22E 09 2.47E 08 Zn 65 8.68E 08 7.88E 08 5.36E 08 1.86E 09 1.19E 09 Sr 89 4.36E 08 1.81E 09 1.52E 10 Sr 90 2.05E 11 2.33E 10 8.32E 11 Zr 95 3.68E 05 1.23E 09 1.69E 06 5.35E 05 7.86E 05 I 131 5.77E 07 2.13E 07 7.68E 07 1. 07E 08 1. 85E 08 3.14E 10 I 133 1.01E 06 2.51E 06 1.96E 06 3.32E 06 5.83E 06 4.64E 08 Cs 134 7.54E 09 2.02E 08 6.90E 09 1.62E 10 5.16E 09 1.97E 09 Cs 136 1.13E 08 1.35E 07 4.28E 07 1.68E 08 9.16E 07 1.44E 07 Cs 137 4.90f 09 2.00E 08 1.06E 10 1.41E 10 4.78E 09 1.86E 09 Ba 140 8.88E 06 2.12E 08 1.38E 08 1.69E 05 . 5.72E 04 1.14E 05 Ce 141 2.12E 04 5.29E 08 2.77E 05 1.85E 05 8.70E 04

  • mrem/ r uCi/m

TABLE 3-4N R VALUES - VEGETATION - ADULT m2-mrem/yr uCi/sec NUCLIDE T. BODY GI-TRACT BONE LI VER KIDNEY THYRO ID LUNG 3* 2.28E 03 2.28E 03 2.28E 03 2.28E 03 2.28E 03 2.28E 03 Cr 51 4.60E 04 1.16E 07 1.01E 04 2.75E 04 6.10E 04 Nn 54 5.83E 07 9.36E 08 3.05E 08 9.09E 07 Fe 59 1.12E 08 9.75E 08 1.24E 08 2.93E 08 8.17E 07 Co 58 6.71E 07 6.07E 08 2.99E 07 Co 60 3.67E 08 3.12E 09 1.66E 08 Zn 65 5.77E 08 8.04E 08 4.01E 08 1.28E 09 8;54E 08 Sr 89 2.87E 08 1.60E 09 1.08E 10 Sr 90 1.64E ll 1.93E 10 6.70E 11 Zr 95 2.51E 05 1.17E 09 1.16E 06 3.71E 05 5.82E 05 I 131 6.6'IE 07 3.04E 07 8.07E 07 1.15E 08 1.98E 08 3.78E 10 I 133 1.12E 06 3.30E 06 2.11E 06 3.67E 06 6.40E 06 5.39E 08 Cs 134 8.83E 09 1.89E 08 4.54E 09 1.08E 10 3.49E 09 1.16E 09 Cs 136 1.19E 08 '1.88E 07 4.19E 07 1. 66E 08 9. 21E 07 1.26E 07 Cs 137 5.94E 09 1.76E 08 6.63E 09 9.07E 09 3.08E 09 1.02E 09 Ba 140 8.40E 06 2.64E 08 1.28E 08 1.61E 05 5.47E 04 9.22E 04 Ce 141 1.48E 04 4.99E 08 1.93E 05 1.31E 05 6.07E 04

  • mrem/ r uCi m

TABLE 3-40 R VALUES - INHALATION - INFANT mr em/yr uci/m3 NUCLIDE T. BODY GI-TRACT BONE LIVER KIDNEY THYROID LUNG H 3 6.46E 02 6.46E 02 6.46E 02 6.46E 02 6.46E 02 6.46E 02 Cr 51 8.93E 01 3.56E 02 1.32E 01 5.75E 01 1.28E 04 Mn 54 4.98E 03 7.05E 03 2.53E 04 4.98E 03 9.98E 05 Fe 59 9.46E 03 2.47E 04 1.35E 04 2.36E 04 1.01E 06 Co 58 1.82E 03 1.11E 04 1.22E 03 7.76E 05 Co 60 1.18E 04 3.18E 04 8.01E 03 4.50E 06 Zn 65 3.10E 04 5.13E 04 1.93E 04 6.25E 04 3.24E 04 6.46E 05 Sr 89 1.14f 04 6.39E 04 3.97E 05 2.03E 06 Sr 90 2.59E 06 1.31E 05 4.08E 07 1.12E 07 Zr 95 2.03E 04 2.17E 04 1.15E 05 ~ 2.78E 04 3.10E 04 1.75E 06 I 131 1.96E 04 1.06E 03 3.79E 04 4.43E 04 5.17E 04 1.48E 07 I 133 5.59E 03 2.15E 03 1. 32E 04 1.92E 04 2.24E 04 3.55E 06 Cs 134 7.44E 04 1.33E 03 3.96E 05 7.02E 05 1.90E 05 7.95E 04 Cs 136 5.28E 04 1.43E 03 4.82E 04 1.34E 05 5.63E 04 1.17E 04 Cs 137 4.54E 04 1.33E 03 5.48E 05 6.11E 05 1.72E 05 7.12E 04 Ba 140 2.89E 03 3.83E 04 5.59E 04 5.59E 01 1.34E 01 1.59E 06 Ce 141 1.99E 03 2.15E 04 2.77E 04 1.66E 04 5.24E 03 5.16E 05

TABLE 3-4P R VALUES INHALATION - CHILD mrem/yr uCi/m3 NUCLIDE T. BODY GI-TRACT BONE LI VER KIDNEY THYROID 1.12E 03 1.12E 03 1.12E 03 1.12E 03 1.12E 03 1.12E 03 Cr 51 1.54E 02 1.08E 03 2.43E 01 8.53E 01 1.70E 04 Mn 54 9.50E 03 2.29E 04 4.29E 04 1.00E 04 1.57E 06 Fe 59 1.67E 04 7.06E 04 2.07E 04 3.34E 04 1.27E 06 Co 58 3.16E 03 3.43E 04 1.77E 03 1.10E 06 Co 60 2.26E 04 9.61E 04 1.31E 04 7.06E 06 Zn 65 7;02E 04 1.63E 04 4.25E 04 1.13E 05 7.13E 04 9.94E 05 Sr 89 1.72E 04 1.67E 05 5.99E 05 2.15E 06 Sr 90 6.43E 06 3.43E 05 1.01E 08 1.47E 07 Zr 95 3.69E 04 6.10E 04 1.90E 05 4.17E 04 5.95E 04 2.23E 06 I 131 2.72E 04 2.84E 03 4.80E 04 4.80E 04 7.87E 04 1.62E 07 I 133 7.68E 03 5.47E 03 1.66E 04 2.03E 04 3.37E 04 3.84E 06 Cs 134 2.24E 05 3.84E 03 6.50E 05 1.01E 06 3.30E 05 1.21E 05 Cs 136 1.16E 05 4.17E 03 6.50E 04 1.71E 05 9.53E 04 1.45E 04 Cs 137 1.28E 05 3.61E 03 9.05E 05 8.24E 05 2.82E 05 1.04E 05 Ba 140 4.32E 03 1.02E 05 7.39E 04 6.47E 01 2.11E 01 1.74E 06 Ce 141 2.89E 03. 5.65E 04 3.92E 04 1.95E 04 8.53E 03 5.43f 05

TABLE 3-4g R VALUES - INHALATION TEEN mrem/yr uCi/m3 NUCLIDE T. BODY GI-TRACT BONE LIVER KIDNEY THYROID LUNG H 3 1.27E 03 1.27E 03 1.27E 03 1.27E 03 1.27E 03 1.27E 03 Cr 51 1.35E 02 3.00E 03 3.07E 01 7.49E 01 2.09E 04 Mn 54 8.39E 03 6.67E 04 5. 10E 04 1.27E 04 1.98E 06 Fe 59 1.43E 04 1.78E 05 1.59E 04 3.69E 04 1.53E 06 Co 58 2.77E 03 9.51E 04 2.07E 03 1.34E 06 Co 60 1.98E 04 2.59E 05 1.51E 04 8.7.1E 06 Zn 65 6.23E 04 4.66E 04 3.85E 04 1 . 33E 05 8. 63E 04 1.24E 06 Sr 89 1.25E 04 3.71E 05 4.34E 05 2.41E 06 Sr 90 . 6.67E 06 .7.64E 05 1.08E 08 1.65E 07 Zr 95 3.15E 04 1.49E 05 1.45E 05 4.58E 04 6.73E 04 2.68E 06 I 131 2.64E 04 6.48E 03 3.54E 04 4.90E 04 8.39E 04 1.46E 07 I 133 6.21E 03 1.03E 04 1.21E 04 2.05E 04 3.59E 04 2.92E 06 Cs 134 5.48E 05 9.75E 03 5.02E 05 1.13E 06 3.75E 05 1.46E 05 Cs 136 1.37E 05 1.09E 04 5.14E 04 1.93E 05 1.10E 05 1.77E 04 Cs 137 3.11E 05 8.47E 03 6.69E 05 8.47E 05 3.04f 05 1.21E 05 Ba 140 3.51E 03 2.28E 05 5.46E 04 6.69E 01 2.24E 01 2.03E 06 Ce 141 2.16E 03 1.26E 05 2.84E 04 1.89E 04 8.87E 03 6.13E 05

TABLE 3-4R R VALUES INHALATION - ADULT mrem/yr uci/m3 NUCLIDE T; BODY GI-TRACT BONE LIVER KIDNEY THYROID LUNG H 3 1.26E 03 1.26E 03 1.26E 03 1.26E 03 1.26E 03 1.26E 03 Cr 51 9.99E 01 3.32E 03 2.28E 01 5.94E 01 1.44E 04 Mn 54 6.29E 03 7.72E 04 3.95E 04 9.83E 03 1.40E 06 Fe 59 1.05E 04 1.88E 05 1.17E 04 2.77E 04 1.01E 06 Co 58 2.07E 03 1.06E 05 1.58E 03 9.27E 05 Co 60 1.48E 04 2.84E 05 1.15E 04 5.96E 06 Zn 65 4.65E 04 5.34E 04 3.24E 04 1.03E 05 6.89E 04 8.63E 05 Sr 89 8.71E 03 3.49E 05 3.04E 05 1.40E 06 Sl 90 6.09E 06 7.21E 05 9.91E 07 9.59E 06 Zr 95 2.32E 04 1.50E 05 1.07E 05 3.44E 04 5.41E 04 1.77E 06 I 131 2.05E 04 6.27E 03 2.52E 04 3.57E 04 6.12E 04 1.19E 07 I 133 4.51E 03 8.87E 03 8.63E 03 1.48E 04 2.58E 04 2.15E 06 Cs 134 7.27E 05 1.04E 04 3.72E 05 8.47E 05 2.87E 05 9.75E 04 Cs 136 1.10E 04 1.17E 04 3.90E 04 1.46E 05 8.55E 04 1.20E 04 Cs 137 4.27E 05 8.39E 03 4.78E 05 6.20E 05 2.22E 05 7.51E 04 Ba 140 2.56E 03 2.18E 05 3.90E 04 4.90E 01 1.67E Ol 1.27E 06 Ce 141 1. 53E 03 1.20E 05 1.99E 04 1.35E 04 6.25E 03 3.61E 05

TABLE 3-4S R VALUES - GRUUNO - ALL AGE GROUPS m 2-A]ran/yr NUCLIDE T. BODY Cr 51 4.66E 06 Nn 54 1.34E 09 Fe,",9 2. 75E 08 Co 58 3.79E 08 Co 60 2.15E 10 Zn 65 7.49E 08 Sr 89 2.23E 04 Zr 95 2.49E 08 I 131 1.72E 07 I" 133 2.47E 06 Cs 134 '6.82E 09 Cs 136 1.49E 08 Cs 137 1.03E 10 Ba 140 2A5E 07 Ce 141 1.36E 07 l~h~

SN)LD I'lO 1AM j 6)<Q.

feb q<

gb l>o in+~

Nine Mile Point Nuclear Station Unit 1 Radiation Environmental Monitoring Program Sampling Locations Table 5.1 Type of

  • Map

=- Sam le . - .Location Collection Site Location Radioiodine and 1 Village of Lycoming, NY 1.9 mi 8 145'E Particul ates (air)

Radioiodine and Near East Property 1.0 mi 8 85' Particulates (air) Boundary of JAFNPP Radioiodine and Rt. 29 1.3 mi 8 115'SE Particulates (air)

Radioiodine and NE Shoreline Area 0.8 mi 8 68'NE Particulates (air)

Radioiodine and Montario Point Road 16.4 mi 8 42'E Par ticul ates (air )

Direct Radiation (TLD) 6 North Shoreline Area 0.1 mi 80' Direct Radiation (TLD) 7 North Shoreline Area 0.1 mi 8 25'NE Direct Radiation (TLD) 8 North Shoreline Area 0.2 mi 8 45'E Direct Radiation (TLD) . 9 North Shoreline Area 0.9 mi 8 75'NE Direct Radiation (TLO) 10 Sunset Bay Road 1.2 mi 8 90 E Direct Radiation (TLD) ll Rt. 29 1.3 mi 8 115'SE Direct Radiation (TLO) 12 Rt. 29 1.5 mi 8 135'E Direct Radiation (TLD) 13 Miner Road 1.8 mi 8 160'SE Direct Radiation (TLD) 14 Miner Road 1.7 mi 8 180' Direct Radiation (TLD) 15 Lakeview Road 1.1 mi 8 200'SW Direct Radiation (TLD) 16 Lakeview Road 0.7 mi 8 225'W Direct Radiation (TLD) 17 Site Meteorological Tower 0.7 mi 8 250'SW Direct Radiation (TLO) 18 Energy Information Center 0.5 mi 8 268'

  • Map - See Figures 5.1-1 and 5.1-2

Nine Mile Point Nuclear Station Unit 1 Radiation Environmental Monitoring Program Sampling Locations Table 5.1 (Continued)

Type of

  • Map

~ 'am le Location .- Collection Site  :.Location Direct Radiation (TLD) 19 North Shoreline 0.2 mi 8 290'NW Di'rect Radiation (TLD) 20 North Shoreline 0.1 mi 8 315'W Direct Radiation (TLD) 21 North Shoreline 0.1 mi 8 335'NW Direct Radiation (TLO) 22 Oemster Beach Road 4.5 mi 8 100' Direct Radiation (TL'D) 23 Leavitt Road 4.2 mi 8 115'SE Direct Radiation (TLD) 24 Rt. 104 4.2 mi 8 140'E Direct Radiation (TLO) 25 Rt. 51A 4.8 mi 9 160'SE Direct Radiation (TLD) 26 Maiden Lane Road 4.4 mi 8 190' Direct Radiation (TLO) 27 Rt. 53 4.8 mi 8 205'SW Direct Radiation (TLD) 28 Mitchell Street 4.8 mi 8 220'W Direct Radiation (TLD) 29 Lake Shoreline 4.4 mi 8 240'SW Direct Radi'ation (TLD) 30 Phoenix, NY Control 20.0 mi 9 165'-SSE 1

Direct Radiation (TLO) 31 S.W. Oswego, Control 12.8 mi 8 225'W Direct Radiation (TLD) 32 Scriba, NY 4.1 mi 8 195'SW Direct Radiation (TLO) 33 Alcan Aluminum, Rt. 1A 3.2 mi 8 220'W Direct Radiation (TLD) 34 Lycoming, NY 1.9 mi 8 145'E Direct Radiation (TLD) '5 New Haven, NY 5.4 mi 8 120'SE Direct Radiation (TLO) 36 W. Boundary, Bible Camp 0.9 mi 8 2384 SW-WSW Direct Radiation (TLD) 37 Lake Road 1.1 mi 8 105'-ESE Surface Water 38 OSS Inlet Canal 7.7 mi 8 230'W-WSW Surface Water 39 JAFNPP Inlet Canal 0.5 mi 8 70 ENE

  • Map - See Figures 5.1-1 and 5.1-2

Nine Mile Point Nuclear Station Unit 1 Radiation Environmental Monitoring Program Sampling Locations Table 5.1 (Continued)

Type of *Map Sam le Location Collection Site Location Shoreline Sediment 40 NMPNS Shoreline 1.3 mi 8 82' Fish 41 NMP Site Discharge Area 0.3 mi 9 315'W and/or Fish 42 NMP Site Discharge Area 0.6 mi 8 55'E Fish 43 Oswego Harbor Area 6.3 mi Ia 235'SW Milk 44 Milk Location ¹45 8.0 mi 8 125'E Mi lk 45 Milk Location ¹7 5.5 mi 9 107'SE Milk 46 Milk Location ¹16 5.2 mi 8 190' Milk 47 Milk Location ¹40 15.2 mi 8 220'W Food Product 48 Produce Location ¹1** 1.6 mi 8 95' Food. Product 49. Produce Location ¹2** 1.6 mi 9 115'SE Food Product 50 Produce Location ¹3** 2.0 mi 8 103'SE Food Product 51 Produce Location ¹4** 15.2 mi 8 220'W Food Product 52 Produce Location ¹5** 1.3 mi 8 225' Food Product 53 Produce Location ¹6** 1.6 mi 8 132'E Food Product 54 Produce Location ¹7** 2.3 mi 8 118'SE Food Product 55 Produce Location ¹8** 12.6 mi 8 225'W

  • Map - See Figures 5.1-1 and 5.1-2
    • Food Product samples need not necessarily be collected from all listed locations. Collected samples will be of the highest calculated site average D/g.

APPENDIX A DOSE PARAMETERS FOR IODINE-131 AND -133, PARTICULATES AND TRITIUM This appendix contains the methodology which was used to calculate the dose parameters for 1-131, 1-133, particulates, and tritium. The dose parameter, R , was calculated using the methodology outlined in NUREG-0133 and Regulatory Guide 1.109, Revision 1. The radioiodine and particulate Technical Specification (Section 3.6.15) is applicable to the location in the unrestricted area where the combination of existing pathways and receptor age groups indicates the maximum potential exposure occurs, i.e., the critical receptor. The inhalation and ground plane exposure pathways are considered to exist all locations but the critical location will be used for dose purposes.

The grass-goat-milk, the grass-cow-milk, gr ass-cow-meat, and vegetation pathways are considered to exist at specific locations. R. values have been 1

calculated for the adult, teen, child and infant age groups for all pathways.

.The methodology used to calculate these values follows:

A.l Inhalation Pathwa R) Kl(BR)a (DFAi)a where:

dose factor for each identified radionuclide i of the organ of interest (units = mrem/hr per uCi/m3);

Kl a constant of unit conversion:

106 pCi/uCi; Breathing rate of the receptor of age group a, (units

= m3/yr);

(DFA;), organ inhalation dose factor for radionuclide i for the receptor of age group a, (units = mrem/pCi).

APPENDIX A DOSE PARAMETERS FOR IODINE 131 AND 133 ]

PARTI CU LATES AN D TRI TI U M

APPENDIX A DOSE PARAMETERS FOR IODINE-131 AND -133, PARTICULATES AND TRITIUM This appendix contains the methodology which was used to calculate the dose parameters for 1-131, 1-133, particulates, and tritium. The dose parameter, Ri was calculated using the methodology outlined in NUREG-0133 and Regulatory Guide 1. 109 Revision 1. The radioiodine and particulate Technical Specification (Section 3.6. 15) is applicable to the location in the unrestricted area where the combination of existing pathways and receptor age groups indicates the maximum I

potential exposure occurs, i.e., the critical receptor. The inhalation and ground plane exposure pathways are considered to exist at all locations, but the critical location will'e used for dose purposes. The grass-goat-milk, the grass-cow-milk, grass-cow-meat, and vegetation pathways are considered to exist at specific locations. R.1 values have been calculated for the adult, teen, child, and infant age groups for all pathways. The methodology used to calculate these values follows:

A. 1 Inhalation Pathwa R.

I

= K'(BR) a (DFA.)

i a where:

R.

I dose factor for each identi fied radionuclide i of the organ of interest (units = mrem/hr per uCi/m3);

K' a constant of unit conversion; 6

10 pCi/uCi; (BR) = Breathing rate of the receptor of age group a, (units m~/yr);

(DFAi) = organ inhalation dose factor for radionuclide i for the receptor of age group a, (units = mrem/pCi).

The breathing rates (BR) a for the various age groups, as given in Table E-5 of Regulatory Guide 1.109 Revision 1, are tabulated below.

A e Group (a) Breathin Rate (m~/yr)

Infant 1400 Child 3700 Teen 8000 Adult 8000 Inhalatton dose factors (DFA.) i a for the various age groups are given in Tables E-7 through E-10 of Regulatory Guide 1.109 Revision l.

A. 2 Ground Plane Pathwa

-A ~ t R. = K'K"(SF) DFG. ( I-e )

I l where:

R.GI dose factor for the ground plane pathway for each identified radionuclide i fear the organ of interest (units = mrem/yr per uCi/sec per m 2 )

K' a constant of unit conversion; 6

10 pCi/uCi; K" = a constant of unit conversion; 8760 hr/year;

I the radiological decay constant for radionuclide i, (units = sec -1 )

t = the exposure time, sec; 8

4.73 x 10 sec (1S years);

DFG. = the g round plane dose conversion factor for radionuclide i; I

(units = mrem/hr per pCi/m')

SF = the shielding factor (dimensionless);

l A shielding factor of 0.7 is discussed in Table E-15 of Regulatory Guide 1.109 Revision 1. A tabulation of DFG. values is presented in Table E-6 I

of Regulatory Guide 1.109 Revision 1.

A.3 Grass-Cow or Coat-.Milk Pathwa t -X. tb Xetf r(l-e I

+ B. (1-e R. = K'QF U F (DFL.) e fp fs Y AE I I

-XE t -X. tb -X. th (l-fp fs ) r(l-e ) + B.

Iv (I-e I

)

Y S

I where:

M Ri dose factor for the cow milk or goat milk pathway, for each identified radionuclide i for the organ of interest, (units mrem/yr per uCi/sec per m )

K' a constant of unit conversion; 10 pCi/uCi The cow's or goat's feed consumption rate, (units = Kg/day-wet weight)

U the receptor's milk consumption rate for age group a, (units =

ap li ters/y r );

Y the agricultural productivity by unit area of pasture feed grass, (units = kg/m2);

Y s

= the agricultural productivity by unit area of stored feed, (units

= kg/m~);

F m

= the stable element transfer coefficients, (units = pCi/liter per pCi/day);

= fraction of'deposited activity retained on cow's feed grass; (DFL.) = the organ ingestion dose factor for radionuclide i for the i a receptor in age group a, (units = mrem/pCi);

XE = X. +

i I

the radiological decay constant for radionuclide i, (units = sec );

the decay constant for removal of activity on leaf and plant surfaces by weathering

5. 73 x 10 sec (corresponding to a 14 day hal f-life);

tf = the transport time from feed to cow or goat to milk, to receptor, (units = sec);

th = the transport time from harvest, to cow or goat, to consumption, (units = sec);

tb = period of time that soil is exposed to gaseous effluents, (units =

sec);

B.

Iv concentration factor for uptake of radionuclide i from the soil by the edible parts of crops, (units = pCi/Kg (wet weight) per pCi/Kg (dry soil);

P = effective surface density for soil, (units = Kg (dry soil)/m');

fp = fraction of the year that the cow or goat is on pasture*;

fs = fraction of the cow feed that is pasture grass while the cow is on pasture";

te = period of pasture grass and crop exposure during the growing season, (units = sec);

  • Milk cattle and goats are considered to be fed from two potential sources, pasture grass and stored feeds. Following the development in Regulatory Guide 1.109 Revision 1, the value of f was considered unity in lieu of s

site-specific information. The value of f was 0. 667 based upon an p

8-month grazing period.

Table A-1 contains the appropriate values and their source in Regulatory Guide 1.109 Revision 1.

The concentration of tritium in milk is based on the airborne concentration rather than the deposition. Therefore, the R.I is based on X/Q:

R = K'K"'F QFU (DFL.) 0.75(0.5/H)

T 0

M RT dose factor for the cow or goat milk pathway for tritium for the organ of interest, (units = mrem/yr per uCi/m');

K'" = a constant of unit conversion; 103 gm/kg.

H = absolute humidity of the atmosphere, (units = gm/m');

0.75 = the fraction of total feed that is water; 0.5 the ratio of the specific activity of the feed grass water to the atmospheric water.

Other values are given above. A value of H of 8 grams/meter, was used in lieu of site-specific information.

A.4 Crass-Cow-Meat Pathwa I'X.tf r (l-e + B. (1-e

-X.tb R-I = K'q U (DF Y I F. I

-XE

-X.th (I-fp f5 ) r(l-e i e

) + B.

IV (l-e Y X S

R.BI dose factor for the meat ingestion pathway for radionuclide i for

-2 any organ of interest, (units = mrem/yr per uCi/sec per m ):

F< = the stable element transfer coefficients, (units = days/Kg);

e U ap the receptor's kg/year; meat consumption rate for age group a, (units =

t = the transport time from slaughter to consumption, (units = sec);

th = the transport time from harvest to animal consumption, (units = sec);

te = period of pasture grass and crop exposure during the growing season, (units = sec)

All other terms remain the same as defined for the milk pathway. Table A-2 contains the values which were used in calculating R..

The concentration of tritium in meat is based on airborne concentration rather than deposition. Therefore, the R. is based on X/Q.

I R = K'K"'F QFU (DFL.) (0.75(0.5/H) ]

where:

B R

T

= dose factor for the meat ingestion pathway for tritium for any organ of interest, (units = mrem/yr per uCi/m~),

All terms are defined above.

A.5 V etation Pathway The integrated concentration in vegetation consumed by man follows the H

expression developed for milk. Man is considered to consume two types of vegetation (fresh and stored) that differ only in the time period between harvest and consumption, therefore:

-X.tb

-AE B I-e R . = K'( DFL. ) U f e r l-e Lv I i a a L Y PA.

I

-AE t -A. tb i e B.

Iv (I-e )

S -Kith r(l-e )

U f e Y

v I where:

RV dose factor for vegetable pathway for radionuclide i for the i

organ of interest, (units = mrem/yr per uCi/sec per m );

K' a constant of unit conversion; 6

10 pCi/uCi:

UL the consumption rate of fresh leafy vegetation by the receptor in a

age group a, (units = kg/yr);

fL = the fraction of the annual intake of fresh leafy vegetation grown locally; fg = the fraction of the annual intake of stored vegetation grown locally.

tL = the average time between harvest of leafy vegetation and its consumption, (units = sec);

the average time between harvest of stored vegetation and its h

consumption, (units = sec); r Y = the vegetation area density, (units = kg/m');

te = period of leafy vegetable exposure during growing season (units = sec);

All other factors are defined above.

Table A-3 presents the appropriate parameter values and their source in Regulatory Guide 1.109 Revision l.

In lieu of site-specific data, values for fL and f of, 1.0 and 0.76, respectively, were used in the calculation. These values were obtained from Table E-15 of Regulatory Guide 1.109 Revision l.

The concentration of tritium in vegetation is based on the airborne concentration rather than the deposition. Therefore, the R.I is based on X/Q:

R = K'K" U fL + U (DFL.) 0.75(0.5/H) a ag where:

V RT dose factor for the vegetable pathway for tritium for any organ of interest, (units = mrem/yr per uCI/m~).

All other terms are defined in preceeding sections.

TABLE A-1 Parameters for Cow and Goat Milk Pathways Parameter Value Reference (Re . Guide 1.109 Rev. 1)

QF (kg/day) 50 (cow) Table E-3 6 (goat) Table E-3 Y (kg/mi) 0.7 Table E-15 5

tf (seconds) 1.73 x 10 (2 days) Table E-15 1.0 (radioiodines) Table E-15 0.2 (particulates) Table E-15 (DFLi) (mrem/pCi) Each radionuclide Tables E-11 to E-14 F (pCi/day per pCi/liter) Each stable element Table E-1 (cow)

Table E-2 (goat) 8 tb (seconds) 4.73 x 10 (15 yr) Table E-15 Y (kg/m') 2.0 Table E-15 Y (kg/m') 0.7 Table E-15 6

th (seconds) 7.78 x 10 (90 days) Table E-15 U (liters/yr) 330 infant Table E-5 ap 330 child Table E-5 400 teen Table E-5 310 adult Table E-5 t e (seconds) 2.59 x 1066 (pasture) Table E-15 5.18 x 10 (stored feed)

B., (pCi/Kg (wet weight) Each stable element Table E-1 per pCi/Kg (dry soil))

P (Kg dry soil/m') 240 Table E-15

TABLE A-2 Parameters for the Meat Pathway Parameter Value Reference (Re . Cuide 1.109 Rev. 1) 1.0 (radioiodines) Table E-15 0.2 (particulates) Table E-15 Ff (pCi/Kg per pCi/day) Each stable element Table E-1 U (Kg/yr) 0 infant Table E-5 41 child Table E-5 65 teen Table E-5 110 adult Table E-5 (DFL.) (mrem/pCi) Each radionuclide Tables E-11 to E-14 Y ( /m~ 0.7 Table E-15 Y (kg/m') 2.0 Table E-15 8

tb (seconds) 4.73 x 10 (15 yr) Table E-15 6

t (seconds) 1.73 x 10 (20 days) Table E-15 th (seconds) 7.78 x 10 (90 days) Table E-15 t (seconds) 2.59 x 106 (pasture) Table E-15 5.18 x 10 (stored feed)

QF (kg/day) 50 Table E-3 B. (pCi/Kg (wet weight Each stable element Table E-1 per pCi/Kg (dry soil))

P (Kg (dry soil)/m~) 240 Table E-15

TABLE A-3 Parameters for the Vegetable Pathway Parameter Value Reference (Re . Guide 1.109 Rev. 1) r (dimensionless) 1. 0 (radioiodines) Table E-1 0.2 (particulates) Table E-1 (DFL.) (mrem/Ci) Each radionuclide Tables E-ll to E-14 U (kg/yr) infant 0 Table E-5 child 26 Table E-5 teen 42 Table E-5 adult 64 Table E-5 S E-5 U (kg/yr) infant 0 Table

~

child 520 Table E-5 teen 630 Table E-5 adult 520 Table E-5 4

tL (seconds) 8.6 x 10 (1 day) Table E-15 th (seconds) 5.18 x 10 (60 days) Table E-15 Y (kg/ ~) . 2.0 Table E-15 te (seconds) 5.18 x 10 (60 days) Table E-15 tb (seconds) 4.73 x 10 (15 yr) Table E-15 P(Kg(dry soil)/m~) 240 Table E-15 8i (pCi/Kg (wet weight) Each stable element Table E-1 per pCi/kg (dry soil))

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TABLE C-1 D/Q TABLE

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28OE ll 2 96ZE-Il S ~ <<53F. 3 '5OE b9QF 11 2 456E 11 Il bbUE-11 25SE-ll I ~ 522E 11 9 59bf )2 I 19<<F 11 7 564E<<'IZ HHt H 6 ~ 863E

'36E 11 6 054E-11

'55E-It 5 344E 11 4 75TE 607E-II 319E-11 lt 4.26OE-II 2 UTbf-11 S 85LF.-II S 496F"ll 3%190E I,87<<f-tt Z.U52f-ll TOOF.-II L,550E 11 II 2 925f I 420E Il I ~ 5<<SF-I I 9 7326-)Z 7.415F-IZ a.balf IZ EHE Hf.

3 4%049E 1.<<TSE- 0 11 2 11 3 %57 4E-11 2

ST 152E II 2

i? 603E-II 2 ~ 51 of I t 29SE-tv 1.141E-IU I u1 5E 10 9 097E-11 Z ~ Z6SF.

Zopf-11 Il I <<4<<F-11 I %869E-I I I 7 I th)f-l lf-I11 I o ~ 217f 11

) 8 87bf I 2 5 522f 12 3.247f-lt ~

z.u30E-II E 82TE 10 595E- I o I ~ 408E-I 0 I i?52E-I 0 I 12i?F. I 0 I ~ 012f I V t.lb<<f-tl 8 374F I I 7 67QE-I I 4 'n<<F-ll 2.502f-lt ESE 49bf I u I 305E-lo I ISIE-IU 1 ~ U25E 10 9 '85E-11 U ~ Zh'TF Il 7 519F-11 bs I F.- I I o ~ 28ZE-ll 3 2866-ll 2 usbf-11 St, I 275E 10 I ~ 118E-I u 9 870E-I l b 79UE 11 7 '8)F. Il IZSF"11 o.<<TOE-I I 5 '0UE-ll 5.<<lvf-ll 2 476F.-II 822F-Il SSE 5 224E Ll 4 '92E 11 4 U5)f-11 3 616F.-I I 3 24TE-11 2 '35E-ll 2 bbu) 11 2 '3QE ll Z,i?39f 11 I ~ ZOIE ll I ~

I e7<<E l2 I

TABLE C-2 D/Q TABLE (GRAZING SEASON hlETEOROLOGICAL DATA)"

NHP UNI I 11 SLACK t ~ ~ ~ tt ~ tttttt ~ ttttttt CORRECTED FUR OPEN OIREC I TUN IEHRA IN KECINCULATJON RELATIVE UEPOSIILUN PER UNIT ARtA DISTANCES IHtt 2) AI F IXEU POINTS IN HILtS RY UOHHWIHD StC IOUS ttttttttttttttttt ~~ ~

FROH SIIE 0 Su I ~ OU I ~ 50 2 Ou 2 5U 3 ou 3 'U 4 OU 4 50 5 oo 5 Su S I 205K Od 4 ~ 219E>>09 I 56SE>>09 U.34)f-)u 5.)83f-tu 3 '<<IF>>lu 2 Shuf Iu

~ I 9)IE-Iu I Sbkf-)0 I ~ 265F I V I ~ QSkf lv SSH 4.522E>>09 I Ul)f 09 7 926K>>lu 4 53SE lu 2 ~ 949F. I v 2 ~ U)2F.>> I u ).53<<F-)v I 178E Iu 9>>3)SE I I 7~ 533E>>11 b 20)E>>11 Sn 3 24SE 09 I ~ 523E 09 6 873K lu 4 '66E Iu 2>>b'9<<E IV I 914F.-I 1.<<75E>>lu 0 I ~ 04)E lu 8 67SE 11 7 ~ Ul IE I'I 5>>765K 11 abc U6)E>>09 5 'S4E>>IO 43SE I U I <<5SE>>lv 9>>703K>> I b>>915F. I I S~ 1sbf 11 3 975E 11 5>>145E I ~ 541F. OS)f 11 H 1. 16)f>>09 6>>9)of lo 43SE-10 2 ~ 12<<E>>10 1. 4 41F>> I v 1. 03)F>> I u 7 771F>>11 6 005K I I 4 l5QE>> I >>833F. I (6 Hkr: 2 58<<E 09 I~ 399E 09 6 846E lv 40192K Iu 2 U31F.>>lu 2 03oE lu I 519E I l>>)72E lo 9~26<<E 11 7 ~ <<7 Lf 11 12bE>>11 5 102E 09 2 '33E 09 I ~ OOLE 09 5 SSSE )0 3~885K )0 2>>752K IU 2. Ua<<F>> I I~5) tf IV 241K Q UOLF 10 8 '24F. 11 NN NNn N

4 ~ 779K>>09 2 '12E 09 u ~ 728E Iv Soo52E 6 102E 09 2 '45E 09 I')5E 09 4)7f v 0 5 30)F lu

a. 246F>> I v 2 '32F.

2 ~ 996K lv U I 72UF.

22uF.

Iv 10 I 52SF. IU I )OSE>>l v I 049K I V 346F. 10 I 8~

~

4)tf 086E ll b>>968K lu d>>92)f I

I HHE NE I, l62E 09 8 '25E 2o 13)f-09 I'25K 10 4 125E>>)u

~ 2.495E>>lu 09 5 ~ 0)2E 10 3.uSLE>>lu b)uf>>lv 1.196F>>

~ 052E>>lv I ~ 46VE>> U u 8 ~ 919F.

I 095E 11 lu 6 ~ u) IF be 428K>> I I ).<<2)E-LL <<.37<<F>>

be649E Il 5 350E-3 SSSF>>II a.37)E>> I ENE I ~ 466K Od 5 '44E>>09 2 40SE 09 I ~ 3S$ E>>09 9 ~ UQQF. LU 6 '2<<F. U bbSF. IV 3.57 uf. >> U '2 ~ Ul<<E lu 2 ~ 266K .858E>> u 2 '05K 08 7 030E 09 2,963E 09 I ~ 6)LE>>09 I>>0)SE>>09 7 49bf>>lv 5.509F>>lu 4 '0IE V 5 30 lE I u bblE>> >>tb)f 0 ESE E

I 506E-Od 5 154E-09 2 12<<E 09 I ISSE>>09 7 ~ 559K>>lv 5.2abE>>l v S,U46E lv 2.93uE>> v 2.306K>>lu I. 856F.>> I 523E v SE I 201E 08 4 '11E 09 1.80<<E>>09 L.OUSE>>09 6 ~ 45)E>>10 4 ~ auaf>>IO 3 '0SE lu 2 '52SE V I 993E lo 1.609F.>> I ~ 325E lu SSE a.909E>>09 I ~ 84)K-09 7 545E lu 4 'blf>>10 2 ~ 58)E 10 I 796E-Lv I 521F. IU I ~ 0)2F U I 991E>>ll 6 4)OE>> 5%34<<f 11 DIRECTION uls TANcEb IN HILtS 15.0u FROH SIIE 5

5 S-.c

b. I b.oo Uh f >>11 7 ~

6 50 75)E>>11 F 7 OU 86)E-II 7 50 6.124K>>11 5 196E ll 4 ')SE Il 4 ~ 045K 11 3,6Q2t-l I 3 '3$ E II 2 ~ 921F>>11 h.OU h SU 5 ~ 'SU)E>> I I 4 986F>>) I 2>>65SF 9.nu u.S<<IF>>11 4 ~ LS)E 11 ll 2 '2SE>>11 Su 10 ~ 00 3 '24F>>11 2 '26F. I 2

I~

'9lf

)89K 11 11 20 00 35SE>>11

+57) f 12

~

Sec 4+8) IE I I <<.25aE>>l 3 )56E 11 5 544E-11 5 ~ Qoof >>11 2 )OSE-I I .u60E>>l I 2 '<<SE-LL 2+VS9E I I 091F 11 6 90bf 12 742K-11 I ~ 542E>>1 I 361E-11 212E>>11 I Ubl f>>11 9 ov)2E-12 9)OE-12 8 ~ 13i? E 12 ).45)E>>12 5 944f 12 2.49<<E-12 2 61<<E 11 2 ~ 321E>>1 5 '9<<f ll 2 Qauf-I I 823E- I I ~ 63<<E 11 I ~ ul<<E-ll

~ Subf- I 3 ~ l)SE>>l I 2 S6)E-11 I 33)I-11 I 22UE 2 bOIE 11 2 '72E ll ll I ~ I IVE 11 S.uh<<F>>12 3 '85E )2 2 17$ E 11 I ~ 139F>>11 7 e148F 12 HNK Nn 4 516E I 6 ~ 856E>>11 b.oSQE>>1 5 '20E 11 '30E 3 985E 11 5 ~ 54 lf )I <<.75<<E- I 4 ~ 265K>>11 3 ~ V4SE>>11

<<.V3<<f>> I 3 619F>>)1 5.268F-I I 3 <<93E 2 '6SF 11 3 ~ Ibuf ll 2 922E ll I ~ 54) f 11 9 ~ 719E>>12 4hbf-I I I +5)SE 11 U>>353K 12 NNH llII 2<<~530K-II 11 2 ~ 7)OE I I

')

Nkt

)I 5

7 44bf )1 6 563E

'3)f-I 5 '9<<E 11 5>>)5VE>>)1 4>>626K 11 4 ~ I) If>>11

'27E 11 2 '70E 11 I ~ SSSF II I ~ 67<<F.

3 '92E tl ll 5 ~ 46)E 11 3 17$ E-11 I ~ 67)E 11 I ~ 059E>>11 1>>384E>>ll I ~ 26SF ll 6>>63SF 12 4 ~ )59K 12 2 'SOE 11 2 I I ~ SLSF 3,632E 11 3 ~ 211E>>11 2 V32E-11 2 S)9E Il 2.25bf>>ll 2. 3<<f >> I I L

Hf I ~ 84<<f>>l I I ~ bhof 11 I ~ 53SE IL 7 ~ 9huf 12 u>>9)bE>>12 7 13bf 11 6 5<<UE 11 3.<<2bF.-II 2 ~ 148F V

I ~ Sc)F: 10 L.35sf Io I ~ 199F--10 562K'>>ll 8.626E>>ll 82)F IL EHE t  ::81)=.'-tu

>.2)OK-tu I ~ I ouf >>I u I 067E 10 I o589E-I V 1.402F.-L v I 24uf lb 1.119E>>l u I ~ 009E>>IU

)89E I L u ~ 71'5E>>ll 7 812F.-I I ).U5OF.>>11 7

9 ~

11 15)f>>11 598F I I 8 350F>>t I 7,65vf 5 V3)E>>11 5 $ 49E ll ll a.vn3f>>11 2 So/f I I 2 VU<<F. LI I ~ 763F. II ESE ~

I ~ LOSE>>10 9 ~ 7 luf I I 8 ~ SSQE-11 l 64$ E 11 6 '5SE 11 b 19'SF -11 S.b2uf>>ll S'il<<OF-1) 4 ~ 7 lbf 11 2 '08F 11 1>>59lf>>11 SE SSE <<.<>1 I 3 479K-I I 3.101K>> I I 2 )SSF>>ll 2 ~ 519E 11 2 2<<UF 11 2 ~ vu<<F. ) I I'25K ll 1>>U36f>>ll L.b3lK>>12 Based on milk sampling season

TABLf- C-3 CHI/Q TABLLI*

(ANNUAL li1ETEOROLOGICAL DATA)

NNP UNI I NU LJECA7 it STACK UNUEI'LfTLO CORKE CTEtI FOR Ot'EN If kRAIN kEC)kCULAT ION ANNUAL AVERAGE Ckl/U LSEC/HE'Tf R CUSE OI VIS)ANCE lte NtLFS SEC Ink v ~ 5DU I, Uoo I esou 000 . 2.SAU S.UIIQ S.SAU 0.QQV 4.50o S.oov 5.5no 5 2.160f-o) 4.92)f-oe 2.76)E-AS 012E 05 I e 63SF. 05 I ~ 409E 05 I ~ 2SSF -ns I ~ 13SE As I ~ 041E-05 9.64I F>>DP PeuOSF -n9 Ssh I OSPE 07 3 4)VE OS 2 062E-00 I ~ 616E 05 L.anSE=od I ~ 269F Ae I LeNF 05 v83F.-05 I 009E-05 9 '55E<<AP 6 693E'V 8> 9 '15E-Dd 2 '7)f 05 I'99f-os Saafeos I 05UF.-tls SN>f AN I S23F n5 I 26IE tl5 le20uf 05 le143E-ON I uh9F ns 6 3nbf-DP 6 '5)E 09 6 305F. 09 6 '5bF. 09

~

lISh 5 331E'5 I ~ V36E-08 6 Solf 09 5 520E 09 5 ~ 600E IIV 5 93bE 09 6 169F 09 k 3 769E Od I ~ 203E 06 ) ~ )O2E 09 )~II aE-0') 8.53bf-l19 9 ')OE 09 9.70NF -n9 9:99SE-OP L.oo)f.-os I.vn3F-ns 9 910E-09 kkk I 225E 07 3 425E 06 I 949E I )33E od 1.)2)f-nd Ie)30F-A5 I ) 1bf-nd bhPE 05 1.616f-os I ~ 55SF-Ad LeuPSE 05

'5)feo) belbbE-06 2 '31E 05 2 ~ 361F tib ?. ~ 262E tld 2.210F-ns 2el?9E-06 2 '4SF Dd I PSbF-05 I 8) tf cod 05'h 2 3 ~ ISOE-Od NNM I 014E 0) 4 45)f 05 2 342f-.od 65bf-tIS I ~ 720E 05 I bs)F. Ad I ~ en3E-nd le54SE-05 I ~ 48SE 05 I 422F.-DN le362F.<<05 H 2 Oeof 07 5 '5SE-06 3 045F.-06 2 415E-05 2.235f -os 2e 144F ON 2 '62F 05 I 9)bf'-05 I ~ SSSF. AS I ~ Snlf-As 1.)t)E-OS NNE NE 9 SISE 05 2 '43f 05 I 44)f-05 L.S)2E-O) a.'u)3E-05 2.'u I bf-ns 15)E-05 I ~ 120Eene I ~ ONuF. 05 548E 05 I ~ SN IF 05 I <<2h5F 05 Ieo4)F-05 1,20)f.-nd I ~ DASE 05 9 boaf 09 9 lblf'-09 I 13)F-05 I ~ V)2F. OS I IVI IF

)3lf 09 9 '52F-09 8 ~

Ehf 5.4OOE-O) 1.43)E-D) t .8)OE-oe 4.)a)E-ud 3e)PLF.-05 3 215F Ad 2 507F-Ad 2.49SE-ne 2.245f-ns 2;oaof-05 I 669F. De E 6 ~ 715E 07 I 7'93E 0) S 36)E 05 5.55af-os 0.236E-AS 3,4SNF-QN 2 93tf ns 54SF A5 2.209F-05 2.ut5f-os I 525F OS ESE S.OSt E-07 1.354E-O) b.37)E-OS 4 1)SE 06 3 '39F.-QS 573E As 2.109F.-AN L.SILE-ns I ~ sssf 05 I ~ 4 I Uf.-os I ~ 269F. 05 SE 3 34bf Wo) 9 ~ 905E os 5 IAQE 05 3 '20E-OS 2 '0LF. Ab 2 '56F-Od el I SE-AV lebbbF 05 I ~ 07 IE Qs I ~ SLNF 05 I ~ 193 E 08 SSE I 253E 07 3.69)E-DS I 9baf-08 I ~ 421E 05 I e 1 elf-05 I, Uo)F.-OS 5.9)PF-OV S ~ L4 1f AP ) ~ 461E-09 b.90)F-A9 b.a35E-09 AHNUAL AVERAGE Ckl/0 ISEC/HFTER CUSEO} UI STANCE IN NILE5 BEAK ING 6 ~ Qoa 6 ~ 50U ) ~ Qov ).Sov S.vou e.snu 9 ~ VQU P.SOU 1'Uno 15 vnu 2u.onu 6 8 ~ 440E~OP 7 '97E 09 )eb44E 09 )ef(3E 09 7. Q02f-09 be)A9F DP 6,43SF-n9 be 176E-09 5e930E-A9 0.3)af'-OP e4A)E S SlI 5 ~ 386E 09 7'.Pesf-o9 e32f o9 7 ODSE 09 be)14F 09 6 439F. A9 6 ')SE-09 5 ~ 932f 09 4.326F.-09 3?SF. 09 Sk I ~ 03)E 05 9e939E 09 9 595E-09 9 '52E-09 5 ~ '916F. 09 8 SSPE OP s.2)aF-D9 ) ~ 972F.-OP )eb82E 09 S.)3)f'-09 4 466E A9 k 6'h 6 ~ 191E 09 9 '44E 09 6 102E A9 6 ~ 03SE 09 5 9 567E 09 9 ')VE '44f 09 S 835E-09 09 9 '1)E-DP Pe 141F-09 S.)lsf-n9 ass)fenP S 454E-A9 5 ~ 320E AP 4.29SF,-n9 6 948E-09 6 7 4 ) E-II9 d,S40f'-09 5e332E"09 6 ~ 783f 09 3 'b6E 09 5 571E 09 IIhII ~ 3)f 05 le3bbf 06 LE 345E-06 I ~ 303f-OS I 261E nb I 219F. 05 I.LTNE-OS I 139F-AS I I le497F. 05 I uasf-od I 39uf-os olf As 5 ~ 45bF 09 346F. Os I Q24F-06 b.)33E-AP I )SSE 05 I 718E-05 b63E-Od I b06E 05 I ~ 551F--08 8 112F"A9 NNII I 304f 05 I ~ 255E 06 I ~ 21SE-06 1.1)bf-ns 1. 13)F-AS I ~ 099f-DN I ~ o6IE "ne I a25f-ne 9 9IIE-A9 7 ~ bn3F A9 6 ~ 063E-09 NNE N .e38E-os 32VE 09 I ~ 570E OS

) ~ 9) lf 09 I ~ StbE-00 le463E 08 I uIIE-Ad 7 692E-09 ).utaf-09 7 ~ 142E-UP 1.3eoF.-ne l. 31 LF -Ab I e260F. 08 I 2?of 08 9.253F-09 e.879E-AP b 62SF-AP e.353f-n9 b. 152f-0 ) 0 ~ 616F-n9

),333F-09 3 62IF-A9 Nf 9 '3)f"09 5 60)E 09 5.26af-09 ) 930E-09 7 610E-A9 ) ~ 30af II9 ).A 1uF-09 6.)38E-QP 6 ')SE-09 I. ))bf-n9 3.)nrf.-nP

'9)E fNE I~ 722E-05 I eoaf-Dd I ~ SIOF.-05 I 42sf Oe 347f-05 I 2)bf ns I 21 oF. Ad ISOF-AS I ~ 09sf -08 7 551F-A9 5 AP E leb6)E 05 I ~ 54 1f 05 I ~ 442E 05 I ~ 35af-os L.275E-AN 203E-06 1.138f -as I.o)PE-AS L.O2SF-VS 7 oa8F-09 S 209f -VP ESE I 153E 06 leuetf-08 9 89bf-09 9 '60E-09 8 69IE A9 ISOE-09 ).720l -n9 ).302E-n9 b.922f -A9 u.b)IF-AP 3 073F-A9 Sf I.oePE-oe I ~ 00)E 05 9~4 lbf-09 8 ~ 635E-09 8 312E-AP ) 54QF AP 7 41 lf -NP ).Q21F.-n9 6 b65f -09 4 542F-tI9 S.349F-A9 SSE 6 ~ 027E 09 seb'93E 09 5.03Of.-OP 5 '54E-09 4 PSSf-09 4 ~ 73bF.-AP 533f t>9 4 ~ 344F 09 4.16bF -09 3 U3SF A9 2e30SE-n9 A