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{{#Wiki_filter:1/18/73U.S. ATOMIC ENERGY COMMISSIONREGULATORY GUIDEDIRECTORATE OF REGULATORY STANDARDSREGULATORY GUIDE 4.1MEASURING AND REPORTING OF RADIOACTIVITYIN THE ENVIRONS OF NUCLEAR POWER PLANTSA. INTRODUCTION(;Geneil Design ('C itein 4i .'o.nitoringRadioactivitv Releases." ol' Appendix A it) 1( ('FR Part50. "'(Lennd I Desigji ('iteria Ior Nun:leair Power Plants.'requires that licensees provide for mroitioring the plantenvirons totr radioactivity that may lie released fromnormal oqperations. including anticipated operationaloccurrences, and fion pi!stulated accidents.Subpala, ,rapih tall 2) of § 50.36a of 10 CFR Part 50requires Ihat technical specifications for each licenseinclude a requirement that the licensee submit a reportto the * ('tnniissiotn within 60 days after Janutarv I andJuly I of each year which. iii addition to specifying thequantity of each of the principal radionucides releasedto unrestricted areas in liquid and airborne effluentsduting the last six months of operation,' providessitflicient intormation to estimate annual radiation dosesW to the public resulting from effluent releases.Paragraph (c) of § 20.106 of 10 CFR Part 20 statesthat the CoInjIssion nMav limit the quantities ofradioactive materials released in air or water duringi aspecified period of time to assure that the daily intake ofradia ctive materials from air. water. or food by asuitable sample of all exposed population group.averaged over a time period not exceeding one year.would not exceed specified quantities. Section 20.201 of10 CFR Part 20 further requires that a licensee conductsurveys of levels of radiation or con1centrations ofradioactive itaterial as necessary to show compliancewith AIC regiulatioims."riis ginde describe., an acceptable basis fordesigning a progrant to measture and report levels ofI At, :acct-t:M,-i" pr,-grti is preseunt.l its saref v (.;tide 2 I (to)he re sitsed :,%; : Regtla, try Gttide). "M ,: avurini and I~ttep rling (foEffluents frillr Ncttc'i:r llnwer Narls.'radiation and radioactivity in the plamt environs. Theprovisions and principles in International (Commoissiotn onRadiological Protection (I('RI'l) Pulicanion 7-pertaining to the releases of radioauctivitv during ornmalplant operation should be used as additional guidance indeveloping a program of this nature.B. DISCUSSIONPresent requirements to keep levels of radioactivematerial in effluents as low as practicable should assurethat radiation doses to the puhlic resulinig front efflutentreleases will continue to retnain mninimal. The type ofprogram described in this guide is considered adequateto provide information needed to determine whetherexposures in the environment are within prescribed orexpected limits and to assure that long-term buildup ofspecific radionuclides in the environment will notbecome hazardous.A preoperational program should be conducted inthe environs of cach proposed nuclear power plant siteto: (I) identify probable critical' pathways io bemonitored after the plant is in operation: (2) measorebackground levels and their variations along theanticipated critical pathways in the area surrounding theplant. (3) train personnel" and (4) evaluate procedures.equipment, and techniques.Years of experience at various Contitnissitt facilitieshave demonstrated that specific radionuclides behave inknown ways under given environtmental cottditions.Therefore. comprehensive and detailed envitonlmenialstudies may not be needed at sires wiilh well knownt C R P ublication "7. Iroin4 p! t'" h'id' ,'rt,o 'tlI.Io,,itoring Related to thie' Il otdlhig of R idi., t'ti t .1" 1,al riIt9.Septemher 13. 196S t(henrenin rir It.'RI' I'Ltsicali ,tt I7.t iF r the p ors've orf this. guite. thie Ierni "crilicar"t tit lit,same meaning as in t'RIt t'uhblication 7. Sipra niote 2.USAEC REGULATORY GUIDESResfutAiorv Guide, Wi'. 1su"nf It' dtecr''ts amit flt~i't oAV.,Ihhtt In the p~ublicmeiohorb. Acc-titabl- lto the AEC stioclinoirs'taff of mtSiirmoni,roo %s~eci'c patrts of'he Cnmm-n',s~ e.I55 to doiti-.1ie to-chnoriurs used hy the staff in"aWAiiung S1 s*f14 W911f9.'tthi Of9 tnSIUtSi'd a~ccidenrim of Is isoisvde 9lwdaneem toWith thf-fsitt A '995! Itjit.'ti Mi 'h-c A", soloot-9'5 dii etenl friom those set Dor othe gui~de, i to"I beAcmteilef -1 tt't'v p'ovide i ti.1t9% 1(5 the finings d flt9rlufsoi Inihm. issuane" ot cont~nUAA9CP' Of .. pe~m9o is' teens't, the 95'Cnmmosvo'Putftshpcj i qud$S.lit ~t~s~ ~ ,rti, 01Il 4199t' coI9or.91.' In iro-iwrnrcommodi.' ..Copiei of oublishpil gui&ns m'sv be ObtainedI iv 10ourst .rsdic.lting ihe division%desired io the US. Atomice EitefqV Commtttsi~to, VY-shIM9is.. D.C. 20Ob45.Attention: Director of Regultfory Siend~itds. Cofnrmwnis Anil wrgoo'sions totir19ifovenerflts int these quidei are en'couraged And %thisuit he lenti t) ihes" 5'c~fiatvof the Commissuions. US. Atomic EnetfgY Commisitn. W.Iihinaroin, D.C. 21if"45.Aifent,nn: Chief. Public Peooceed-nos Sitaf.The g,,.des ate issu~ed in itshe fotlhvittg tenr btirnd rss1. Pow~er Reactor% in'. P,oducis2. Research And Test Reiclto.' 7. Itasnsttimti""J. Fuels And Mate.'3s Fscdmtm' B. orrciur.1iOn'si 9-J..111t4. Environmintat and 5,5mm ' Anf-l'usl RteW,~5. Material% A"tS'ii Pitotwe'rs'etiof 10) 6--M~sS bleu1vJirlon1etal nrsport process". Onc( e adequatesttudies have been done to assure that the tratisportprocesses are understood. analyses otC "indicatororganiis'ns may adequately define radiotuclide levels intile envirtomnent. The "'indicator orLalnis1t" concept of'environmental samplinl"g involves tile practice o Iexamining food chainls for selecied orga;nisins o0rmaterials which provide a sensitive and reliable mneatsuret' (lhe uti:Uatites of' eac'h (adiolluclide cycling throughteach lood chaint. For example. ill the case where theplaitt'cow,'nilk-nian food chain is determined to be acritical palthway, it may not he necessar Ito extensivelysample anld illeasure grazing plants :mnd f'odder to keeptliack of iodine-I 3l cycline in fhle food chain. sihcesampling and nieastiring tile milk produced by dairycow\s in stirrotndine areas may be :dequate.At'ler the plant is iii operationt. a program forradiation levels and radioactivity in the plantenvirons manst he maintained on :a cOnlintlilln basis toassist in verilt.,ing projected or ariicipated radioactivi 1vconcentrations and related public exposures. Anentvironu ental tnonitoritng program shotld be flexible.aid, as results are obtained. tihe prograni should bereviewed to identil'y any\ necessary changes. The progra nshuhld then be appropriately nodified. The initialpttogram should be designed in accordance vith thefollowinug criteria:I. It should be based on thepathwayIs for the typesradionuclides released fronistlrtoundine envi rotinten Ianalysis of" criticaland quanlities ofthe plant into theradioactivity in the environs may all be useful forthis purpose.) Inifornation of' this nature will be ofconsiderable help1 in inodil ying t[ie initiallnvilonllillental ti easure tut.nts program.hil'orimalion obthaied f'ront this programn will leinsed. in conjuintetion with data oil radioaclive effluents.to evaluate mneasulres taken by 'ite licensee to assure thatplantt releases to the environt1ient and radiation doses tothe public are mailntinel wvitlhii the numerical doselimits determined by the Commission io be as low aspracticable. Also. licensees' data will be compiled andico III pared. and a comlrprehlensive stimitiray ii 1'radioactivity in thle enivirons of nuttclkear power plants willbe prepared by tlie Coimmission.'[e Commission's Regulator.' siarf has evaluatedthe types of fitforination needed to provide supportingevidence for assessing tile pert'ormance of 'he plant witlirespect to keeping populatnit exposures as low :ispracticable and to verify predictions of concentrationsohI speciflic radiontiucl ides in lie environment based otteffluent iieasurements at the plant. Based on 1hisevailtation and oil a review and assessment of' existlinelicensees' monitoring anid reporli g prograins. ihle s:tlt'has developed tile regulatory position set forth belo'v.C. REGULATORY POSITIONThe proerani for nieasuring attd reporting clfradioactivity ill the environs ofi nuclear power plantsmust provide suitable inf'rs:auion from which levels ofradiation and radioactivity in the environs of each plaitcarl be estimated. This inlfornation also may providesupporting evidence in evaluating tie perforniance ofsystems and equipment installed to control releases of'radioactive material it) tile environnenw.The basic principles set forth in this guide constitutean acceptable basis tor use in establishing anen viro ini ental Imonitoring program. These saneprinciples will also b: used as bases in developing thelicensee's corresponding technical specifications.1. Preoperational ProgramPotential critical pathways should he idemifiiedprior to plant operation. l';,e provisions in ICRVFPtlblicaiion 7 rela ted to operational releases ofradioactivity to the environm-nt should be used as aguide in determining critical radionuclides and pathways.Other patlhways not directly related to humans shouldalso be identified (see regulalory position 2.a. below).Wherevet possible. suitable indicator organisms or mediashould be identified in each pathway.2. Operational Programa. Sample MediaWhere practical. a suitable indicator organisinor ttedium in each critical pathway should be sampled2. It sihould consider tile possibility of buildup of longhalf-lived radiominclides in the environment andidentify physical and biological sites ofacctmniutlationt that ntaty contribute to hunianiex\posures:3. It should be designed to facilitate use of reportedlevels of radiation and radioactivily in estimatingannual radiation doses to tle public resulting froiteffluents:4. It should consider the potential daimage toitttpot tant plants :mud arimals:'ai. It should be designed to establish correlationsbetween levels of radiation atid radioactivity in theenvironment and radioactive releases front plantOperation. (A variety of lechniques. includingmeasurements at control locations. preoperationalsurveys. correlations with effluent data, andcomparisons of operating versus shutdown levels of'-A species. wthethe'r ainin ,tor plant is' "irnport:nlt'" (I) Kitis t'-nimeu 'rciatlv or r.creaLit ally vaitiau:tule. (2) if it is rare ire~ndanlge~red. r 3) if ir t :iffect% thLe' ,vll-te.ing 'it stoF¢ importanIwiethin criteri: (I) and (2) ahiivc or (4) if it is critical tofit! structure and function (if (ht ¢crtiogical system. A "rare ourendulangetred" species is any species cufficiatty tiesignated as suchhb the 1).S. Hih and wildlife Service.4. :and analyzed for the critical iado mliclidels? releasedfrom the plant. An abundant, readily available form withnowt habits should be selected.* Careftul attenttioni should ble given to avoidinsdt(tLSng serious stress onl art ihm portan't species otforganism by a samipling program. Heavy samplingpressure added to natural prcdaliun and otherelvironitSelillal stiesses could restil I in tenpora ryobliteration of desirable potpulations. In stich cases.other indigenotts hut al mnda n spcies souch as rodents.rabbits or scrap lish. mayl be stilistituted as indicatororg:antisms IthatI vill provide an estimate of theradionuclides avai.lable to main through natiral f'oodchains. In some instatnces. prop,!rly selected and sampledvegetam 11my 'list) provide a good imteaslie of theradionuclides in , critical FpatlIway.WhcLtre use of a single indicator tneditim isimpractical. samples of' several media from each pathwayshould be collected and analyzed. The C(ommissionrecomizes that some pathways do not have more thanolne eiviromnittillal meditiht. c... external radialionexposures from clotds of uatnima-ray-emittitog radio-nclides inlvol-.. onlV onle paithway the atmosphere.The actual tit:uhier of' media it he sampled in eachpathwlay will be determined oni a case-by.case basis foreach site. Itt some cases field measurements may beprelerable to collecting samples for laboratory analysis.O The program should include sampling ofenvironmental media to estimate average radionuclideconcentrations in important biota (see B.4. above).Radiation exposures (external) and internal doses fromshort half-lived nuelides may be estimated bycalculationrs (,tisin g e[floeii mn easuremen ts andappropriate dispersion and concentration factors) rather[han by routine collection of samples of environmentalmedia. In some cases field measurements at certainlocations to establish cotcert t rations of specificradionucl ides may be necessar". initially. to confirmpredictionls.h. Sampling FrequencyWhen a critical radionuclide has a short hallflifeImtinutes to days). it may be necessary to evaluateradiation expUsure by tuaking measurements in the field(e.g.. by use of thermoluminescen t dosimeters orportable multichannel gamma spectrometers).When ;I critical radionuclide with aninternnediate half-life (weeks to months) is releasedcontinuotisly or frequently. sampling and analysis ofetvirotlneinial media in the critical pathway shouldgenerally be carried omt at inltervals no greater than twoor 'h ree half-lives of tIte iuclide. For long half[liife.dionuclides (years). measurements should be made atst once per year. Where seasonal eflects ,ay beimportant. sampling should be on a quarterly or at leastsemiannual basis.Ilt sotmie cases. sat ll)lingll .1 t ll illttitous b:sismay be necessar\ (e.g.. air samttplinig and co,]ItitIotIsmile astire ie Illt f. c u ttInlaIive exterit1al ,:dia, it inexposure). Composites of some selected s:aiple types.such as air filters. niav be appropriate I'm" meastmrettietttot long-lived madi nit ticlides.When critical pathlways become firmdlyidentified awtd correlations are developed betweenconcentraiJuis of radionuclides itt einvirontm.entaml mediaanid planlt releases, or level, have been iotind too' low todetect. it is probable tltat saripling frequte .,cies ot'ccittilmedia irmay be apprli mriaiel " iticreased or decreased.Such chan6ges shtIould onlyl he titade on itidividual paOwerplants after considerable 'peraliotlal experienlce Ilsaaccrued.c. Program ScopeDuring (hft initial three years of commercialpower operation (or other period corresponditie tomaximum fuel burnup it] the initial core cycle). tihemecastirememti program shotuld be relatively c11muipre-nensive in an attempt to verify anys' torle-lations between radioactivc eflltuilts attd levels inenvirontmental media. The extetnt of measturettent ofenvironnmental media should be flexible and shoulddepend on the type. quantity. and concentration ofradionuclides from the plant as well as the resultsobtained from previotus nmeasurements.1f. after this period. the licensee is able todemonstrate from levels in environutetumal media orcalculations (using measured effluents and appropriatedispersion and bioaccumulation factors) that the dosesfrom a particular pathway are sufficiently small, thenumber of media sampled in the patlihway and thefrequency of sampling may be reduced. An adequateprogram wiln i emphasis m ml indicator o rganisins andselected media should still be continued in order tocon firm that the levels of radioactivity in environmten talmedia remain small.d. AnalysesSamples should he analyzed for the criticalradionticlide(s) released from the plani. (Gross belta andgainnia analyses of samples stuch as air and fresh watermay be useful to indicate that the concenltralioni of acritical radionuclide is not greater thall the delectiollcapability for that nuclide.3. Detection CapabilitiesThe detection capabilities associated with ,1,eaisiritmgand atinalvzitt radioactivity levels shotild he eSltablishedprimarily on the basis of poleittial hutnatt dose. The leastdetectable dose will vary from facilitvy to facilitydepending on the critical pathways ideI iifled arm d IItCstalof-tl'-he-art of sampling and analysis in thesepathways. Because of tie need for a preoperationalmonitoring program, detectiot capabilities for a4.1-3 Wpat tcular piorat11 should he deternmined during :n earlystaLc of licensing. The staff rc,.ognizes that directtmeeas uremtetn ts of envirotnml enltal Imredia cannot1 alvays'cet ct levels lruepo -dine to Commissiti design, Iieclites. Nevertheless. every reasonable effort shouldbe made to achieve detection capabilities which willdewclt ratdiition levels or radioactiVity I ol0cent-rat ions illcritical pathways that could result in radiatiom dosescor respudindg to a 11ew 1'ercen t of thie Federal Radiation(',tmcil's radiation protection guides Ie.g.. a ftw percenti! !70 mren'years for whole body dose to a stiiable-ample tithe exposed population ).4. Reporting of ResultsData sholtld he reported to the Commission in ther..,ort suhmitted within t,-0 days aflter January I andJuly I of each year.' InI the eveut that all unexpectedmclea,ýe iln radjoaCtivMI or r:diation levels is measured ina p-Mricular critical pathway. the Commnission should henot, fied prontptl.. Appropriate levels and reportinginetvals will he determined on an individual plant basisand included in the technical specifications for eachlicense.The Commission utilizes the data from these reportsto provide assurance that man and his environment arenot heinu subjc,:ted It unacceptable radiation exposures.Consequently. all assumptions. parameters and methodsused to measure and report radioactivity concentrationsand radiation levels should be specified in the licensee'sinitial report aid updated in subsequent reports ass t-'d,.at Radiatiiin Councit Report No. I. bIac'kgroutnd.llawrnelkr th'e" Dere'ml-Fea t '',.RadiathOn Pro'tetion Srandards.Ia J3. 19 h (.";uhpalragraph (a)(2) of (,f 1o C0 R Part 50requites the subtinjsimi or a report within ot, d-'s after JainuaryI :ie-d Jul ' I i f eacit )'ear speciriflin the quantitv of eac lih o t .prin` iial radimiuclidts released lto unrestricted areas in liquidandll in g'awous erffenlt%. the duta taken in suppnrt of thelite'i.ee'" en.-iroiitnential monitoring programn shriuld also he,,jonmia ltd s;emiannually. Ir additional lime is needed, the repnrt.sit; indicane :md the shoulJ he carried into theIo'et ,emiannua:ll report. it would greatl, r:ocililgte comparismnsrnd 7.'ierrlaitil ot t ta if the en 3ind effluentniaiateirilg dat.a m.ere .mnihtited ilnto single reports.alpprolri:e. Trie licensee should demtostiale that aillassutittiolts. parameters and methods, used are adcqumtteand compiele Ito allow Itwhere data pertii) a c omparison ,with predicted concei.ratitms and doses based oleffluents from each nuclear power plant under license.(See Safety (uide 21).To petlmit comparison of signi'icart entvironmentalmIolnitoritng data willh predicted eoncent ratiotls anid doses(bhaid on reluiretletts ol' I0 CFR Part 50). the reportshould include Ilie following i tents for eachtttedii: :1:a. Samnple TypeI. Biological (it tile extent practicable. listspecics. life' stage. age. weight or size. biolog.icalconditiot, tissue or m1terial sampled. sample weight.etc.).2. Non-Biological (identify type -soil, air.etc.: list actual area. depth and weight or volumesampled as appropriate, whether grab or continuoussample. number of samples. etc.).b. Sample Localtion (also !tipply mtap showinglocations)c. Collection Period (continuous samples) or Daleof Collectiond. Critical Pathwaye. Radionuclidef. Concentration (mCi/ml or g. specifying wet orstandard dry. weight) and/or Deposilion (jiCi/mh oriother apprupriate units of tteastire). (List conversionti,factors relating sample activity and volume -depth Xcross section -It) total area deposition: average andttlaXIillttt values (for each medium. etc.)g. Background Valueh. Analytical Method7j. Comparison of Observed Concentrations.Depositions and Estimated Doses with Predicted Values(based on effluent measurenments)j. Remarks (be sure to explain any tititstalmeasurements or deviations).'I .stim-mtes i)f the error assoeinted with the: measurement ofeach environmental medium should he reported.O04.1.4}}
{{#Wiki_filter:1/18/73 U.S. ATOMIC ENERGY COMMISSION
                                      REGULATORY
                                      DIRECTORATE OF REGULATORY                                       STANDARDS
                                                                                                                                                    GUIDE
                                                                            REGULATORY GUIDE 4.1 MEASURING AND REPORTING OF RADIOACTIVITY
                                                IN THE ENVIRONS OF NUCLEAR POWER PLANTS
 
==A. INTRODUCTION==
radiation and radioactivity in the plamt environs. The provisions and principles in International (Commoissiotn on
          (;Geneil Design ('C itein                               4i.     'o.nitoring            Radiological                Protection (I('RI'l) P ulicanion 7- Radioactivitv Releases." ol' Appendix A it) 1( ('FR Part                                      pertaining to the releases of radioauctivitv during ornmal
  50. "'(Lennd I Desigji ('iteria Ior Nun:leair Power Plants.'                                   plant operation should be used as additional guidance in requires that licensees provide for mroitioring the plant                                      developing a program of this nature.
 
environs totr radioactivity that may lie released from normal oqperations. including anticipated operational                                                                       
 
==B. DISCUSSION==
occurrences, and fion pi!stulated accidents.
 
Present requirements to keep levels of radioactive Subpala, ,rapih tall 2) of § 50.36a of 10 CFR Part 50                                  material in effluents as low as practicable should assure that radiation doses to the puhlic resulinig front efflutent requires Ihat technical specifications for each license releases will continue to retnain mninimal. The type of include a requirement that the licensee submit a report program described in this guide is considered adequate to the * ('tnniissiotn within 60 days after Janutarv I and to provide information needed to determine whether July I of each year which. iii addition to specifying the exposures in the environment are within prescribed or quantity of each of the principal radionucides released expected limits and to assure that long-term buildup of to unrestricted areas in liquid and airborne effluents specific radionuclides in the environment will not duting the last six months of operation,' provides become hazardous.
 
sitflicient intormation to estimate annual radiation doses to the public resulting from effluent releases.
 
W
                                                                                                        A preoperational program should be conducted in the environs of cach proposed nuclear power plant site Paragraph (c) of § 20.106 of 10 CFR Part 20 states to: (I) identify probable critical' pathways io be that the CoInjIssion nMav limit the quantities of radioactive materials released in air or water duringi a monitored after the plant is in operation: (2) measore specified period of time to assure that the daily intake of background levels and their variations along the anticipated critical pathways in the area surrounding the radia ctive materials from air. water. or food by a plant. (3) train personnel" and (4) evaluate procedures.
 
suitable sample of all exposed population group.
 
equipment, and techniques.
 
averaged over a time period not exceeding one year.
 
would not exceed specified quantities. Section 20.201 of Years of experience at various Contitnissitt facilities
  10 CFR Part 20 further requires that a licensee conduct have demonstrated that specific radionuclides behave in surveys of levels of radiation or con1centrations of                                          known ways under given environtmental cottditions.
 
radioactive itaterial as necessary to show compliance                                          Therefore. comprehensive and detailed envitonlmenial with AIC regiulatioims.                                                                       studies may not be needed at sires wiilh well known
          "riis ginde describe., an acceptable basis for                                                  tCR P          ublication        "7. Iroin4p!            t'"  h'id','rt,o 'tlI
  designing a progrant to measture and report levels of                                          . Io,,itoring Related to thie' Il otdlhig of R idi., t'ti t .1"                    1,alriIt9.
 
Septemher 13. 196S t(henrenin rir It.'RI' I'Ltsicali ,tt I7.
 
I At, :acct-t:M,-i" pr,-grti is preseunt.l          its saref    v (.;tide 2 I (to)
                                                                                                        tiF r the p        ors'veorf this. guite. thie Ierni "crilicar"t              tit lit, he  re sitsed :,%;: Regtla, try Gttide). "M ,:              avuriniand I~ttep rling (fo Effluents frillr Ncttc'i:r llnwer Narls.'
                                                                                                same meaning as in t'RIt t'uhblication 7. Sipra niote 2.
 
USAEC REGULATORY GUIDES                                            Copiei of oublishpil gui&ns m'sv be ObtainedI iv 10ourst .rsdic.lting ihe division%
                                                                                                desired io the US. Atomice EitefqV Commtttsi~to, VY-shIM9is..                    D.C. 20Ob45.
 
Attention: Director of Regultfory Siend~itds. Cofnrmwnis Anil wrgoo'sions tot ResfutAiorv Guide, Wi'. 1su"nf It' dtecr''ts amit flt~i't oAV.,Ihhtt In the p~ublic ir19ifovenerflts int these quidei are en'couraged And %thisuithelenti t) ihes"       5'c~fiatv meiohorb. Acc-titabl- lto the AEC stioclinoirs'taff of mtSiirmoni,roo %s~eci'cpatrts of
  'he Cnmm-n',s~          e.I55      to doiti-.1ie to-chnoriurs used hy the staff in of the Commissuions.    US. Atomic EnetfgYCommisitn. W.Iihinaroin, D.C. 21if"45.
 
Aifent,nn: Chief. Public Peooceed-nos      Sitaf.
 
S1 s*f14 W911f9.'tthi Of9 tnSIUtSi'd a~ccidenrim
  "aWAiiung                                                    of Is isoisvde 9lwdaneem to The g,,.des ate issu~ed in itshe fotlhvittg tenr btirnd rss S
  With thf-fsitt A '995! Itjit.'ti Mi  'h-c A", soloot-9'5 dii etenl friom those set Dor o the gui~de,        beAcmteilef -1 tt't'v p'ovide i ti.1t9%1(5 the finings i to"I                                                  d    flt9rlufsoi In    1. Pow~erReactor%                                in'. P,oducis ihm. issuane" ot cont~nUAA9CP'Of .. pe~m9o is' teens't, the95'Cnmmosvo'                        2.  Research AndTest Reiclto.'                      7. Itasnsttimti""
                                                                                                  J.  Fuels And Mate.'3s Fscdmtm'                   B. orrciur.1iOn'si 9-J..111t
                                                                                                  4.
 
Putftshpcj i qud$S.lit  01Il              ~ ,rti,
                                ~t~s~ coI9or.91.'            4199t'    iro-iwrnrcommodi.'
                                                                            In              ..
                                                                                                  5.
 
Environmintat and 5,5mm Material%A"tS'iiPitotwe'rs'etiof
                                                                                                                                                  '       Anf-l'usl RteW,~
                                                                                                                                                    10) 6--M~s
 
bleu1vJirlon1etal              nrsport process". Onc(e adequate                            radioactivity in the environs may all be useful for sttudies have been done to assure that the tratisport                                      this purpose.) Inifornation of' this nature will be of processes are understood. analyses otC "indicator                                          considerable          help1    in  inodil ying  t[ie  initial organiis'ns may adequately define radiotuclide levels in                                      lnvilonllillentalti  easure tut.nts program.
 
tile envirtomnent. The "'indicator orLalnis1t" concept of'
environmental samplinl"g involves tile practice o I                                        hil'orimalion obthaied f'ront this programn will le examining food chainls for selecied orga;nisins o0r                                  insed. in conjuintetion with data oil radioaclive effluents.
 
materials which provide a sensitive and reliable mneatsure                          to evaluate mneasulres taken by 'ite licensee to assure that t' (lhe    uti:Uatites of' eac'h (adiolluclide cycling throught                  plantt releases to the environt1ient and radiation doses to each lood chaint. For example.                   ill the case where the              the public are mailntinel wvitlhii              the numerical dose plaitt'cow,'nilk-nian food chain is determined to be a                              limits determined by the Commission io be as low as critical palthway, it may not he necessar Ito extensively                            practicable. Also. licensees' data will be compiled andi sample anld illeasure grazing plants :mnd f'odder to keep                            co III pared. and a comlrprehlensive stimitiray ii 1'
tliack of iodine-I 3l cyclinein fhle food chain. sihce                              radioactivity in thle enivirons of nuttclkear power plants will sampling and nieastiring tile milk produced by dairy                                be prepared by tlie Coimmission.
 
cow\s in stirrotndine areas may be :dequate.
 
'[e Commission's Regulator.' siarf has evaluated At'ler the plant is iii operationt. a program for                            the types of fitforination needed to provide supporting me.*sturiniz radiation levels and radioactivity in the plant                        evidence for assessing tile pert'ormance of 'he plant witli environs manst he maintained on :a cOnlintlilln basis to                            respect to keeping populatnit exposures as low :is assist in verilt.,ing projected or ariicipated radioactivi 1v                        practicable and to verify predictions of concentrations concentrations and related public exposures. An                                    ohI speciflic radiontiucl ides in lie environment based ott entvironu ental tnonitoritng program shotld be flexible.                            effluent iieasurements at the plant. Based on 1his aid, as results are obtained. tihe prograni should be                              evailtation and oil a review and assessment of' existline reviewed to identil'y any\ necessary changes. The progra n                          licensees' monitoring anid reporli g prograins. ihle s:tlt'
shuhld then be appropriately nodified. The initial                                  has developed tile regulatory position set forth belo'v.
 
pttogram should be designed in accordance vith the followinug criteria:                                                                                  
 
==C. REGULATORY POSITION==
I.     It should be          based    on    the analysis of" critical                    The      proerani      for    nieasuring  attd  reporting  clf pathwayIs        for    the    types      and quanlities of              radioactivity ill the environs ofinuclear power plants radionuclides        released    froni the plant into the                  must provide suitable inf'rs:auion from which levels of stlrtoundine envi rotinten I                                                 radiation and radioactivity in the environs of each plait carl be estimated. This inlfornation also may provide
2.     It sihould consider tile possibility of buildup of long                      supporting evidence in evaluating tie perforniance of half-lived radiominclides in the environment and                            systems and equipment installed to control releases of'
        identify physical and biological sites of                                    radioactive material it) tile environnenw.
 
acctmniutlationt      that ntaty contribute to huniani ex\posures:                                                                        The basic principles set forth in this guide constitute an acceptable basis tor use in establishing an
3.     It should be designed to facilitate use of reported                          en viro ini ental Imonitoring program. These sane levels of radiation and radioactivily in estimating                          principles will also b: used as bases in developing the annual radiation doses to tle public resulting froit                        licensee's corresponding technical specifications.
 
effluents:
                                                                                    1.    Preoperational Program
4.      It should consider the potential                        daimage    to itttpot tant plants :mud arimals:'a                                                Potential critical pathways should he idemifiied prior to plant operation. l';,e provisions in ICRV
i.    It should be designed to establish correlations                              FPtlblicaiion 7 rela ted to operational releases of between levels of radiation atid radioactivity in the                       radioactivity to the environm-nt should be used as a environment and radioactive releases front plant                            guide in determining critical radionuclides and pathways.
 
Operation. (A variety of lechniques. including                              Other patlhways not directly related to humans should measurements at control locations. preoperational                            also be identified (see regulalory position 2.a. below).
        surveys. correlations with effluent data, and                                Wherevet possible. suitable indicator organisms or media comparisons of operating versus shutdown levels of                           should be identified in each pathway.
 
===2. Operational Program===
      '-A species. wthethe'r ainin ,tor plant is' "irnport:nlt'" (I) Kit is t'-nimeu 'rciatlv or r.creaLit      ally vaitiau:tule. (2) if it is rare ir e~ndanlge~red.    r 3) ifir t :iffect% thLe' ,vll-te.ing 'it stoF¢ importanI              a.   Sample Media sp¢i*c      wiethin criteri: (I) and (2) ahiivc or (4) if it is critical to fit! structure and function (if (ht ¢crtiogical system. A "rare our                              Where practical. a suitable indicator organisin endulangetred" species is any species cufficiatty tiesignated as such hb the 1).S. Hih and wildlife Service.                                               or ttedium in each critical pathway should be sampled
                                                                              4.1.2
 
:and analyzed for the critical iadomliclidels? released                          Ilt sotmie cases. sat ll)lingll t.1
* ll illttitous b:sis from the plant. An abundant, readily available form with              may be necessar\ (e.g.. air samttplinig and co,]ItitIotIs nowt habits should be selected.                                    mile astire ie Illt    f. c u ttInlaIive exterit1al ,:dia, itin exposure). Composites of some selected s:aiple types.
 
*Careftul attenttioni should ble given to avoid            such as air filters. niav be appropriate I'm" meastmrettiettt insdt(tLSng serious stress onl art ihmportan't species otf            ot long-lived madi nit ticlides.
 
organism by a samipling program. Heavy sampling pressure added to natural prcdaliun and other                                    When critical pathlways become firmdly elvironitSelillal stiesses could restil I in tenpora ry              identified awtd correlations are developed between obliteration of desirable potpulations. In stich cases.              concentraiJuis of radionuclides itt einvirontm.entaml media other indigenotts hut al mnda n spcies souch as rodents.             anid planlt releases, or level, have been iotind too' low to rabbits or scrap lish. maylbe stilistituted as indicator              detect. it is probable tltat saripling frequte .,ciesot'ccittil org:antisms IthatI vill provide an estimate of the                    media irmay be apprli mriaiel " iticreased or decreased.
 
radionuclides avai.lable to main through natiral f'ood                Such chan6ges shtIould onlyl he titade on itidividual paOwer chains. In some instatnces. prop,!rly selected and sampled            plants after considerable 'peraliotlal experienlce Ilsa vegetam 11my 'list) provide a good imteaslie of the                  accrued.
 
radionuclides in , critical FpatlIway.
 
c. Program Scope WhcLtre use of a single indicator tneditim is During (hft initial three years of commercial impractical. samples of' several media from each pathway power operation (or other period corresponditie to should be collected and analyzed. The C(ommission maximum fuel burnup it] the initial core cycle). tihe recomizes that some pathways do not have more than olne eiviromnittillal meditiht. c... external radialion mecastirememti program shotuld be relatively c11muipre- nensive in an attempt to verify anys' pr,*iected torle- exposures from clotds of uatnima-ray-emittitog radio- lations between radioactivc eflltuilts attd levels in nclides inlvol-.. onlV onle paithway          the atmosphere.
 
environtmental media. The extetnt of measturettent of The actual tit:uhier of' media it he sampled in each environnmental media should be flexible and should pathwlay will be determined oni a case-by.case basis for depend on the type. quantity. and concentration of each site. Itt some cases field measurements may be radionuclides from the plant as well as the results prelerable to collecting samples for laboratory analysis.
 
obtained from previotus nmeasurements.
 
O            The program should include sampling of                               1f. after this period. the licensee is able to environmental media to estimate average radionuclide                demonstrate from levels in environutetumal media or concentrations in important biota (see B.4. above).                 calculations (using measured effluents and appropriate Radiation exposures (external) and internal doses from              dispersion and bioaccumulation factors) that the doses short half-lived nuelides may be estimated by                        from a particular pathway are sufficiently small, the calculationrs (,tisin g e[floeii           mn easuremen ts and        number of media sampled in the patlihway and the appropriate dispersion and concentration factors) rather             frequency of sampling may be reduce
 
====d. An adequate====
  [han by routine collection of samples of environmental              program wiln    i emphasis mml indicator o rganisins and media. In some cases field measurements at certain                  selected media should still be continued in order to locations to establish cotcert t rations of specific                con firm that the levels of radioactivity in environmten tal radionucl ides may be necessar". initially. to confirm              media remain small.
 
predictionls.
 
d.    Analyses h.   Sampling Frequency Samples should he analyzed for the critical When a critical radionuclide has a short hallflife      radionticlide(s) released from the plani. (Gross belta and Imtinutes to days). it may be necessary to evaluate                  gainnia analyses of samples stuch as air and fresh water radiation expUsure by tuaking measurements in the field             may be useful to indicate that the concenltralioni of a (e.g.. by use of thermoluminescen t dosimeters or                    critical radionuclide is not greater thall the delectioll portable multichannel gamma spectrometers).                         capability for that nuclide.
 
When ;I critical radionuclide with an                    3.    Detection Capabilities internnediate half-life (weeks to months) is released continuotisly or frequently. sampling and analysis of                      The detection capabilities associated with ,1,eaisiritmg etvirotlneinial media in the critical pathway should                and atinalvzitt radioactivity levels shotild he eSltablished
. generally be carried omt at inltervals no greater than two          primarily on the basis of poleittial hutnatt dose. The least or 'h ree half-lives of tIte       iuclide. For long half[liife     detectable dose will vary from facilitvy to facility dionuclides (years). measurements should be made at              depending on the critical pathways ideI iifled arm              d IItC
    st once per year. Where seasonal eflects             ,ay be       stalof-tl'-he-art of sampling and analysis in these important. sampling should be on a quarterly or at least            pathways. Because of tie need for a preoperational semiannual basis.                                                   monitoring program, detectiot capabilities for a
                                                                4.1-3
 
W
  pat tcular piorat11 should he deternmined during :n early                            alpprolri:e. Trie licensee should demtostiale that aill staLc of licensing. The staff rc,.ognizes that direct                                assutittiolts. parameters and methods, used are adcqumtte tmeeas uremtetn ts of envirotnml enltal Imredia cannot1 alvays                      and compieleIto allow Itwhere data pertii) a c omparison            ,
          'cctetlruepo levels                    -dine to Commissiti design                with predicted concei.ratitms and doses based ol
    , Iieclites. Nevertheless. every reasonable effort should                        effluents from each nuclear power plant under license.
 
be made to achieve detection capabilities which will                                (See Safety (uide 21).
dewclt ratdiition levels or radioactiVityI ol0cent-rat ions ill critical pathways that could result in radiatiom doses                                      To petlmit comparison of signi'icart entvironmental cor respudindg to a 11ew 1'ercen t of thie Federal Radiation                          mIolnitoritng data willh predicted eoncent ratiotls anid doses
(',tmcil's radiation protection guides Ie.g.. a ftw percent                          (bhaid on reluiretletts ol' I0 CFR Part 50). the report i! !70 mren'years for whole body dose to a stiiable                                  should include Ilie following i tents for each
-ample tithe exposed population ).                                                   enviro*mttlenttal tttedii: :1:
  4.         Reporting of Results                                                            a.   Samnple Type I. Biological (it tile extent practicable. list Data sholtld he reported to the Commission in the                        specics. life' stage. age. weight or size. biolog.ical r..,ort suhmitted within t,-0 days aflter January I and                             conditiot, tissue or m1terial sampled. sample weight.
 
July I of each year.' InI the eveut that all unexpected                              etc.).
  mclea,ýe iln radjoaCtivMI or r:diation levels is measured in                                     2. Non-Biological (identify type - soil, air.
 
a p-Mricular critical pathway. the Commnission should he                            etc.: list actual area. depth and weight or volume not, fied prontptl.. Appropriate levels and reporting                              sampled as appropriate, whether grab or continuous inetvals will he determined on an individual plant basis                             sample. number of samples. etc.).
  and included in the technical specifications for each                                      b. Sample Localtion (also !tipply mtap showing license.                                                                             locations)
                                                                                            c. Collection Period (continuous samples) or Dale The Commission utilizes the data from these reports                      of Collection to provide assurance that man and his environment are                                      d. Critical Pathway not heinu subjc,:ted It unacceptable radiation exposures.                                  e. Radionuclide Consequently. all assumptions. parameters and methods                                        f. Concentration (mCi/ml or g. specifying wet or used to measure and report radioactivity concentrations                              standard dry. weight) and/or Deposilion (jiCi/mh                  ori and radiation levels should be specified in the licensee's                            other apprupriate units of tteastire). (List conversionti, initial report aid updated in subsequent reports as                                  factors relating sample activity and volume - depth X
                                                                                      cross section - It) total area deposition: average and s t-'d,.at      Radiatiiin  Councit  Report    No. I. bIac'kgroutnd      ttlaXIillttt values (for each medium. etc.)
.llawrnelkrth'e"Dere'ml-Feat '',.RadiathOnPro'tetion Srandards.
 
IaJ3. 19 h (.                                                                     
 
====g. Background Value====
                                                                                                                        7
 
====h. Analytical Method====
        ";uhpalragraph        (a)(2)  of  *50.3fia  (,f  1o C0 R Part 50
                                                                                            j. Comparison of Observed Concentrations.
 
requites the subtinjsimi or a report within ot, d-'s after Jainuary I :ie-d Jul ' Ii f eacit )'ear speciriflin the quantitv of eac oliht .               Depositions and Estimated Doses with Predicted Values prin` iial radimiuclidts released lto unrestricted areas in liquid                    (based on effluent measurenments)
andll in g'awous erffenlt%. the duta taken in suppnrt of the lite'i.ee'" en.-iroiitnential monitoring programn shriuld also he j.     Remarks (be sure to explain any tititstal
,,jonmia ltd s;emiannually. Ir additional lime is needed, the repnrt                  measurements or deviations).
stler*th            indicane :md the d*t:n shoulJ he carried o*er into the
                .sit;
Io'et ,emiannua:ll report. it would greatl, r:ocililgte comparismns rnd 7.'ierrlaitil        ot    t ta if the en sir.*inieint    3ind  effluent          'I .stim-mtes i)f the error assoeinted with the: measurement of niaiateirilg dat.a m.ere .mnihtited ilnto single reports.                             each environmental medium should he reported.
 
O0
                                                                                4.1.4}}


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Latest revision as of 00:28, 20 March 2020

Measuring and Reporting of Radioactivity in the Environs of Nuclear Power Plants
ML13350A200
Person / Time
Issue date: 01/18/1973
From:
US Atomic Energy Commission (AEC)
To:
References
RG-4.001
Download: ML13350A200 (4)


1/18/73 U.S. ATOMIC ENERGY COMMISSION

REGULATORY

DIRECTORATE OF REGULATORY STANDARDS

GUIDE

REGULATORY GUIDE 4.1 MEASURING AND REPORTING OF RADIOACTIVITY

IN THE ENVIRONS OF NUCLEAR POWER PLANTS

A. INTRODUCTION

radiation and radioactivity in the plamt environs. The provisions and principles in International (Commoissiotn on

(;Geneil Design ('C itein 4i. 'o.nitoring Radiological Protection (I('RI'l) P ulicanion 7- Radioactivitv Releases." ol' Appendix A it) 1( ('FR Part pertaining to the releases of radioauctivitv during ornmal

50. "'(Lennd I Desigji ('iteria Ior Nun:leair Power Plants.' plant operation should be used as additional guidance in requires that licensees provide for mroitioring the plant developing a program of this nature.

environs totr radioactivity that may lie released from normal oqperations. including anticipated operational

B. DISCUSSION

occurrences, and fion pi!stulated accidents.

Present requirements to keep levels of radioactive Subpala, ,rapih tall 2) of § 50.36a of 10 CFR Part 50 material in effluents as low as practicable should assure that radiation doses to the puhlic resulinig front efflutent requires Ihat technical specifications for each license releases will continue to retnain mninimal. The type of include a requirement that the licensee submit a report program described in this guide is considered adequate to the * ('tnniissiotn within 60 days after Janutarv I and to provide information needed to determine whether July I of each year which. iii addition to specifying the exposures in the environment are within prescribed or quantity of each of the principal radionucides released expected limits and to assure that long-term buildup of to unrestricted areas in liquid and airborne effluents specific radionuclides in the environment will not duting the last six months of operation,' provides become hazardous.

sitflicient intormation to estimate annual radiation doses to the public resulting from effluent releases.

W

A preoperational program should be conducted in the environs of cach proposed nuclear power plant site Paragraph (c) of § 20.106 of 10 CFR Part 20 states to: (I) identify probable critical' pathways io be that the CoInjIssion nMav limit the quantities of radioactive materials released in air or water duringi a monitored after the plant is in operation: (2) measore specified period of time to assure that the daily intake of background levels and their variations along the anticipated critical pathways in the area surrounding the radia ctive materials from air. water. or food by a plant. (3) train personnel" and (4) evaluate procedures.

suitable sample of all exposed population group.

equipment, and techniques.

averaged over a time period not exceeding one year.

would not exceed specified quantities. Section 20.201 of Years of experience at various Contitnissitt facilities

10 CFR Part 20 further requires that a licensee conduct have demonstrated that specific radionuclides behave in surveys of levels of radiation or con1centrations of known ways under given environtmental cottditions.

radioactive itaterial as necessary to show compliance Therefore. comprehensive and detailed envitonlmenial with AIC regiulatioims. studies may not be needed at sires wiilh well known

"riis ginde describe., an acceptable basis for tCR P ublication "7. Iroin4p! t'" h'id','rt,o 'tlI

designing a progrant to measture and report levels of . Io,,itoring Related to thie' Il otdlhig of R idi., t'ti t .1" 1,alriIt9.

Septemher 13. 196S t(henrenin rir It.'RI' I'Ltsicali ,tt I7.

I At, :acct-t:M,-i" pr,-grti is preseunt.l its saref v (.;tide 2 I (to)

tiF r the p ors'veorf this. guite. thie Ierni "crilicar"t tit lit, he re sitsed :,%;: Regtla, try Gttide). "M ,: avuriniand I~ttep rling (fo Effluents frillr Ncttc'i:r llnwer Narls.'

same meaning as in t'RIt t'uhblication 7. Sipra niote 2.

USAEC REGULATORY GUIDES Copiei of oublishpil gui&ns m'sv be ObtainedI iv 10ourst .rsdic.lting ihe division%

desired io the US. Atomice EitefqV Commtttsi~to, VY-shIM9is.. D.C. 20Ob45.

Attention: Director of Regultfory Siend~itds. Cofnrmwnis Anil wrgoo'sions tot ResfutAiorv Guide, Wi'. 1su"nf It' dtecrts amit flt~i't oAV.,Ihhtt In the p~ublic ir19ifovenerflts int these quidei are en'couraged And %thisuithelenti t) ihes" 5'c~fiatv meiohorb. Acc-titabl- lto the AEC stioclinoirs'taff of mtSiirmoni,roo %s~eci'cpatrts of

'he Cnmm-n',s~ e.I55 to doiti-.1ie to-chnoriurs used hy the staff in of the Commissuions. US. Atomic EnetfgYCommisitn. W.Iihinaroin, D.C. 21if"45.

Aifent,nn: Chief. Public Peooceed-nos Sitaf.

S1 s*f14 W911f9.'tthi Of9 tnSIUtSi'd a~ccidenrim

"aWAiiung of Is isoisvde 9lwdaneem to The g,,.des ate issu~ed in itshe fotlhvittg tenr btirnd rss S

With thf-fsitt A '995! Itjit.'ti Mi 'h-c A", soloot-9'5 dii etenl friom those set Dor o the gui~de, beAcmteilef -1 tt't'v p'ovide i ti.1t9%1(5 the finings i to"I d flt9rlufsoi In 1. Pow~erReactor% in'. P,oducis ihm. issuane" ot cont~nUAA9CP'Of .. pe~m9o is' teens't, the95'Cnmmosvo' 2. Research AndTest Reiclto.' 7. Itasnsttimti""

J. Fuels And Mate.'3s Fscdmtm' B. orrciur.1iOn'si 9-J..111t

4.

Putftshpcj i qud$S.lit 01Il ~ ,rti,

~t~s~ coI9or.91.' 4199t' iro-iwrnrcommodi.'

In ..

5.

Environmintat and 5,5mm Material%A"tS'iiPitotwe'rs'etiof

' Anf-l'usl RteW,~

10) 6--M~s

bleu1vJirlon1etal nrsport process". Onc(e adequate radioactivity in the environs may all be useful for sttudies have been done to assure that the tratisport this purpose.) Inifornation of' this nature will be of processes are understood. analyses otC "indicator considerable help1 in inodil ying t[ie initial organiis'ns may adequately define radiotuclide levels in lnvilonllillentalti easure tut.nts program.

tile envirtomnent. The "'indicator orLalnis1t" concept of'

environmental samplinl"g involves tile practice o I hil'orimalion obthaied f'ront this programn will le examining food chainls for selecied orga;nisins o0r insed. in conjuintetion with data oil radioaclive effluents.

materials which provide a sensitive and reliable mneatsure to evaluate mneasulres taken by 'ite licensee to assure that t' (lhe uti:Uatites of' eac'h (adiolluclide cycling throught plantt releases to the environt1ient and radiation doses to each lood chaint. For example. ill the case where the the public are mailntinel wvitlhii the numerical dose plaitt'cow,'nilk-nian food chain is determined to be a limits determined by the Commission io be as low as critical palthway, it may not he necessar Ito extensively practicable. Also. licensees' data will be compiled andi sample anld illeasure grazing plants :mnd f'odder to keep co III pared. and a comlrprehlensive stimitiray ii 1'

tliack of iodine-I 3l cyclinein fhle food chain. sihce radioactivity in thle enivirons of nuttclkear power plants will sampling and nieastiring tile milk produced by dairy be prepared by tlie Coimmission.

cow\s in stirrotndine areas may be :dequate.

'[e Commission's Regulator.' siarf has evaluated At'ler the plant is iii operationt. a program for the types of fitforination needed to provide supporting me.*sturiniz radiation levels and radioactivity in the plant evidence for assessing tile pert'ormance of 'he plant witli environs manst he maintained on :a cOnlintlilln basis to respect to keeping populatnit exposures as low :is assist in verilt.,ing projected or ariicipated radioactivi 1v practicable and to verify predictions of concentrations concentrations and related public exposures. An ohI speciflic radiontiucl ides in lie environment based ott entvironu ental tnonitoritng program shotld be flexible. effluent iieasurements at the plant. Based on 1his aid, as results are obtained. tihe prograni should be evailtation and oil a review and assessment of' existline reviewed to identil'y any\ necessary changes. The progra n licensees' monitoring anid reporli g prograins. ihle s:tlt'

shuhld then be appropriately nodified. The initial has developed tile regulatory position set forth belo'v.

pttogram should be designed in accordance vith the followinug criteria:

C. REGULATORY POSITION

I. It should be based on the analysis of" critical The proerani for nieasuring attd reporting clf pathwayIs for the types and quanlities of radioactivity ill the environs ofinuclear power plants radionuclides released froni the plant into the must provide suitable inf'rs:auion from which levels of stlrtoundine envi rotinten I radiation and radioactivity in the environs of each plait carl be estimated. This inlfornation also may provide

2. It sihould consider tile possibility of buildup of long supporting evidence in evaluating tie perforniance of half-lived radiominclides in the environment and systems and equipment installed to control releases of'

identify physical and biological sites of radioactive material it) tile environnenw.

acctmniutlationt that ntaty contribute to huniani ex\posures: The basic principles set forth in this guide constitute an acceptable basis tor use in establishing an

3. It should be designed to facilitate use of reported en viro ini ental Imonitoring program. These sane levels of radiation and radioactivily in estimating principles will also b: used as bases in developing the annual radiation doses to tle public resulting froit licensee's corresponding technical specifications.

effluents:

1. Preoperational Program

4. It should consider the potential daimage to itttpot tant plants :mud arimals:'a Potential critical pathways should he idemifiied prior to plant operation. l';,e provisions in ICRV

i. It should be designed to establish correlations FPtlblicaiion 7 rela ted to operational releases of between levels of radiation atid radioactivity in the radioactivity to the environm-nt should be used as a environment and radioactive releases front plant guide in determining critical radionuclides and pathways.

Operation. (A variety of lechniques. including Other patlhways not directly related to humans should measurements at control locations. preoperational also be identified (see regulalory position 2.a. below).

surveys. correlations with effluent data, and Wherevet possible. suitable indicator organisms or media comparisons of operating versus shutdown levels of should be identified in each pathway.

2. Operational Program

'-A species. wthethe'r ainin ,tor plant is' "irnport:nlt'" (I) Kit is t'-nimeu 'rciatlv or r.creaLit ally vaitiau:tule. (2) if it is rare ir e~ndanlge~red. r 3) ifir t :iffect% thLe' ,vll-te.ing 'it stoF¢ importanI a. Sample Media sp¢i*c wiethin criteri: (I) and (2) ahiivc or (4) if it is critical to fit! structure and function (if (ht ¢crtiogical system. A "rare our Where practical. a suitable indicator organisin endulangetred" species is any species cufficiatty tiesignated as such hb the 1).S. Hih and wildlife Service. or ttedium in each critical pathway should be sampled

4.1.2

and analyzed for the critical iadomliclidels? released Ilt sotmie cases. sat ll)lingll t.1
  • ll illttitous b:sis from the plant. An abundant, readily available form with may be necessar\ (e.g.. air samttplinig and co,]ItitIotIs nowt habits should be selected. mile astire ie Illt f. c u ttInlaIive exterit1al ,:dia, itin exposure). Composites of some selected s:aiple types.
  • Careftul attenttioni should ble given to avoid such as air filters. niav be appropriate I'm" meastmrettiettt insdt(tLSng serious stress onl art ihmportan't species otf ot long-lived madi nit ticlides.

organism by a samipling program. Heavy sampling pressure added to natural prcdaliun and other When critical pathlways become firmdly elvironitSelillal stiesses could restil I in tenpora ry identified awtd correlations are developed between obliteration of desirable potpulations. In stich cases. concentraiJuis of radionuclides itt einvirontm.entaml media other indigenotts hut al mnda n spcies souch as rodents. anid planlt releases, or level, have been iotind too' low to rabbits or scrap lish. maylbe stilistituted as indicator detect. it is probable tltat saripling frequte .,ciesot'ccittil org:antisms IthatI vill provide an estimate of the media irmay be apprli mriaiel " iticreased or decreased.

radionuclides avai.lable to main through natiral f'ood Such chan6ges shtIould onlyl he titade on itidividual paOwer chains. In some instatnces. prop,!rly selected and sampled plants after considerable 'peraliotlal experienlce Ilsa vegetam 11my 'list) provide a good imteaslie of the accrued.

radionuclides in , critical FpatlIway.

c. Program Scope WhcLtre use of a single indicator tneditim is During (hft initial three years of commercial impractical. samples of' several media from each pathway power operation (or other period corresponditie to should be collected and analyzed. The C(ommission maximum fuel burnup it] the initial core cycle). tihe recomizes that some pathways do not have more than olne eiviromnittillal meditiht. c... external radialion mecastirememti program shotuld be relatively c11muipre- nensive in an attempt to verify anys' pr,*iected torle- exposures from clotds of uatnima-ray-emittitog radio- lations between radioactivc eflltuilts attd levels in nclides inlvol-.. onlV onle paithway the atmosphere.

environtmental media. The extetnt of measturettent of The actual tit:uhier of' media it he sampled in each environnmental media should be flexible and should pathwlay will be determined oni a case-by.case basis for depend on the type. quantity. and concentration of each site. Itt some cases field measurements may be radionuclides from the plant as well as the results prelerable to collecting samples for laboratory analysis.

obtained from previotus nmeasurements.

O The program should include sampling of 1f. after this period. the licensee is able to environmental media to estimate average radionuclide demonstrate from levels in environutetumal media or concentrations in important biota (see B.4. above). calculations (using measured effluents and appropriate Radiation exposures (external) and internal doses from dispersion and bioaccumulation factors) that the doses short half-lived nuelides may be estimated by from a particular pathway are sufficiently small, the calculationrs (,tisin g e[floeii mn easuremen ts and number of media sampled in the patlihway and the appropriate dispersion and concentration factors) rather frequency of sampling may be reduce

d. An adequate

[han by routine collection of samples of environmental program wiln i emphasis mml indicator o rganisins and media. In some cases field measurements at certain selected media should still be continued in order to locations to establish cotcert t rations of specific con firm that the levels of radioactivity in environmten tal radionucl ides may be necessar". initially. to confirm media remain small.

predictionls.

d. Analyses h. Sampling Frequency Samples should he analyzed for the critical When a critical radionuclide has a short hallflife radionticlide(s) released from the plani. (Gross belta and Imtinutes to days). it may be necessary to evaluate gainnia analyses of samples stuch as air and fresh water radiation expUsure by tuaking measurements in the field may be useful to indicate that the concenltralioni of a (e.g.. by use of thermoluminescen t dosimeters or critical radionuclide is not greater thall the delectioll portable multichannel gamma spectrometers). capability for that nuclide.

When ;I critical radionuclide with an 3. Detection Capabilities internnediate half-life (weeks to months) is released continuotisly or frequently. sampling and analysis of The detection capabilities associated with ,1,eaisiritmg etvirotlneinial media in the critical pathway should and atinalvzitt radioactivity levels shotild he eSltablished

. generally be carried omt at inltervals no greater than two primarily on the basis of poleittial hutnatt dose. The least or 'h ree half-lives of tIte iuclide. For long half[liife detectable dose will vary from facilitvy to facility dionuclides (years). measurements should be made at depending on the critical pathways ideI iifled arm d IItC

st once per year. Where seasonal eflects ,ay be stalof-tl'-he-art of sampling and analysis in these important. sampling should be on a quarterly or at least pathways. Because of tie need for a preoperational semiannual basis. monitoring program, detectiot capabilities for a

4.1-3

W

pat tcular piorat11 should he deternmined during :n early alpprolri:e. Trie licensee should demtostiale that aill staLc of licensing. The staff rc,.ognizes that direct assutittiolts. parameters and methods, used are adcqumtte tmeeas uremtetn ts of envirotnml enltal Imredia cannot1 alvays and compieleIto allow Itwhere data pertii) a c omparison ,

'cctetlruepo levels -dine to Commissiti design with predicted concei.ratitms and doses based ol

, Iieclites. Nevertheless. every reasonable effort should effluents from each nuclear power plant under license.

be made to achieve detection capabilities which will (See Safety (uide 21).

dewclt ratdiition levels or radioactiVityI ol0cent-rat ions ill critical pathways that could result in radiatiom doses To petlmit comparison of signi'icart entvironmental cor respudindg to a 11ew 1'ercen t of thie Federal Radiation mIolnitoritng data willh predicted eoncent ratiotls anid doses

(',tmcil's radiation protection guides Ie.g.. a ftw percent (bhaid on reluiretletts ol' I0 CFR Part 50). the report i! !70 mren'years for whole body dose to a stiiable should include Ilie following i tents for each

-ample tithe exposed population ). enviro*mttlenttal tttedii: :1:

4. Reporting of Results a. Samnple Type I. Biological (it tile extent practicable. list Data sholtld he reported to the Commission in the specics. life' stage. age. weight or size. biolog.ical r..,ort suhmitted within t,-0 days aflter January I and conditiot, tissue or m1terial sampled. sample weight.

July I of each year.' InI the eveut that all unexpected etc.).

mclea,ýe iln radjoaCtivMI or r:diation levels is measured in 2. Non-Biological (identify type - soil, air.

a p-Mricular critical pathway. the Commnission should he etc.: list actual area. depth and weight or volume not, fied prontptl.. Appropriate levels and reporting sampled as appropriate, whether grab or continuous inetvals will he determined on an individual plant basis sample. number of samples. etc.).

and included in the technical specifications for each b. Sample Localtion (also !tipply mtap showing license. locations)

c. Collection Period (continuous samples) or Dale The Commission utilizes the data from these reports of Collection to provide assurance that man and his environment are d. Critical Pathway not heinu subjc,:ted It unacceptable radiation exposures. e. Radionuclide Consequently. all assumptions. parameters and methods f. Concentration (mCi/ml or g. specifying wet or used to measure and report radioactivity concentrations standard dry. weight) and/or Deposilion (jiCi/mh ori and radiation levels should be specified in the licensee's other apprupriate units of tteastire). (List conversionti, initial report aid updated in subsequent reports as factors relating sample activity and volume - depth X

cross section - It) total area deposition: average and s t-'d,.at Radiatiiin Councit Report No. I. bIac'kgroutnd ttlaXIillttt values (for each medium. etc.)

.llawrnelkrth'e"Dere'ml-Feat ,.RadiathOnPro'tetion Srandards.

IaJ3. 19 h (.

g. Background Value

7

h. Analytical Method

";uhpalragraph (a)(2) of *50.3fia (,f 1o C0 R Part 50

j. Comparison of Observed Concentrations.

requites the subtinjsimi or a report within ot, d-'s after Jainuary I :ie-d Jul ' Ii f eacit )'ear speciriflin the quantitv of eac oliht . Depositions and Estimated Doses with Predicted Values prin` iial radimiuclidts released lto unrestricted areas in liquid (based on effluent measurenments)

andll in g'awous erffenlt%. the duta taken in suppnrt of the lite'i.ee'" en.-iroiitnential monitoring programn shriuld also he j. Remarks (be sure to explain any tititstal

,,jonmia ltd s;emiannually. Ir additional lime is needed, the repnrt measurements or deviations).

stler*th indicane :md the d*t:n shoulJ he carried o*er into the

.sit;

Io'et ,emiannua:ll report. it would greatl, r:ocililgte comparismns rnd 7.'ierrlaitil ot t ta if the en sir.*inieint 3ind effluent 'I .stim-mtes i)f the error assoeinted with the: measurement of niaiateirilg dat.a m.ere .mnihtited ilnto single reports. each environmental medium should he reported.

O0

4.1.4