La Cros s License T Revisio n 6.Co m 6.1.6.2.6.2.6.2.

6.2.4 6.3.6.4.6.5.6.5.6 6 6.5.

6.5.4 6.5.

6.8.6.9.6.10.6.1 0 6 6

6 6 s e Boiling W Termination n 0 m pliance wit hSite Releas e General Sit e 1.Site G e 2.Site H y 3.Area L 4.Area GBasements, Future Lan d Dose Mode 1.Backfi l.5.1.1.BF M.5.1.2.BF M 2.Soil ....3.Buried 4.Existi n 5.Remai n 6.Dose S 7.Altern a Mixture Fr a 1.Potent i 2.Mixtur Soil Dose A 1.Soil S o 2.Soil E x Soil DCGL 1.Param e 2.RESR A 3.Soil D CSoil Deter mBasemen t 0.1.So u.10.1.1.R e.10.1.2.W.10.1.3.W.10.1.4.R e W ater Reacto r Plan h the Radio l e Criteri a ....e Descriptio n e ology.........

G roundwater Structures a d Use Scena r l Overview lled Baseme M Insitu Sc e M Excavati o...................

n g Groundw a n ing Above Summation fo a te Scenario s a ctions for I n i al Radionu c e Fractions f Assessment a ource Term .

x posure Pat hComputati o eter Selectio n AD Paramet e C GL Uncert m inistic Ana l t Fill Conce p urce Term ...

e actor Build i W aste Treatm W aste Gas Ta n emaining St r r TABLE O l ogical Crite r...................

.a nd Piping t o r io and Ave r...................

.e nario .........

.a te r .............

.Ground Bui l for Complia n s .................

.n itial Suite R c lides of Co n for Initial S u and DCGL ..

.h ways and C r o n Model -

R n Process ...

.e r Selection ainty Analy s l ysis and So i p tual Model

.i ng .............

.ent Buildin g nk Vault .....

.r uctures ......

.6-i OF CONT E ria for Lice n...................

.o Remain a ft rage Memb e...................

.l dings.........

.n ce ..............

.R adionuclid e n cern and In i u ite Radion u...................

.r itical Grou p R ESRAD v 7...................

.for Uncerta i sis Results..

.E NTS nse Termina t...................

.fter License T e r of the Cri t...................

.e s ................

.u clides ........

.t ion ............

.Terminatio n tical Group .

.i s ................

.... 6-1... 6-1... 6-1... 6-1... 6-2... 6-2... 6-3) .. 6-3... 6-6... 6-7... 6-7... 6-7... 6-8... 6-9... 6-9. 6-10. 6-10. 6-10. 6-10. 6-11. 6-11. 6-12. 6-13. 6-13. 6-14. 6-14. 6-14. 6-15. 6-17. 6-18. 6-19. 6-20. 6-20. 6-20. 6-21. 6-21 La Cros s License T Revisio n 6.1 0 6.11.6.1 1 6 6 6

6 6.1 1 6.12.6.13.6.1 3 6.14.6.15.6.16.6.17.6.18.6.1 8 6.1 8 6.1 8 6.1 8 6.1 8 6.19.6.20.6.21. s e Boiling W Termination n 0 0.2.BF M BFM Ins i 1.1.BF M.11.1.1.B F.11.1.2.B F.11.1.3.B F.11.1.4.B F 1.2.BF M BFM Ex c Insignifi c 3.1.Ra d Concentr aAlternate BFM Ele v Soil Are a Buried P i 8.1.So u 8.2.Ex p 8.3.Bu r 8.4.Bu r 8.5.Bu r Existing GDemonst r Referenc e W ater Reacto r Plan M Exposur e itu Scenario M Insitu Gr o F M Insitu gw F M Insitu gw F M Insitu gw F M Insitu gw M Insitu Dr i c avation Sc e c ant Dose C o d ionuclides o a tions in Ex c Land Use S v ated Area C a Factors .....

i ping Dose A u rce Term a n p osure Scen a r ied Piping D r ied Pipe D C r ied Pipe R a G roundwat e rating Com p e s ...............

.o undwater SComputatio RESRAD URESRAD D Dose Facto r illing Spoils e nario ..........

.o ntributors a o f Concern a c avated Fill S cenario Do s C onsiderati o...................

.Assessment a n d Radionu c a rio and Cri t D ose Assess C GLs Initial a dionuclides e r Dose........

.p liance with  

.S cenario ......

.Uncertainty A Deterministi c r s ................

.and Radionu a nd Adjuste d Material ....

.s e ................

.o ns ..............

.and DCGL ..clide Mixtur e t ical Group  

.A nalysis for c Analysis a n...................

.n d DF Calc u...................

.uclides of C o d Soil DCG L...................

.i on .............

.Initial Suit e n d DSR Re s...................

.u lation .........

.o ncern .........

.L s and BF M...................

.s ults ............

.. 6-22. 6-22. 6-22. 6-24. 6-24. 6-26. 6-26. 6-33. 6-33. 6-35. 6-36. 6-39. 6-39. 6-41. 6-42. 6-43. 6-43. 6-43. 6-44. 6-44. 6-45. 6-47. 6-48. 6-49 La Cros s License T Revisio n Table 6-1 Table 6-2 Table 6-3 Table 6-4 Table 6-5 Table 6-6 Table 6-7 Table 6-8 Table 6-9 Table 6-1 Table 6-1 Table 6-1 Table 6-1 Table 6-1 Table 6-1 Table 6-1 Table 6-1 Table 6-1 Table 6-1 Table 6-2 Table 6-2 Table 6-2 s e Boiling W Termination n 0 1Basem e End S t 2Buried 3Initial S 4Deter m used i n 5Deter m Kd pa r 6Soil D C for No n 7LACB W 8Deter m Uncer t 9Result s Select e 1 0BFM I n for Di s 1 1BFM I n for Di s 1 2BFM I n Distri b 1 3BFM I n Distri b 1 4BFM I n for Di s 1 5BFM I nRemai n 1 6BFM I n 1 7BFM I n 1 8BFM E 1 9Soil D C Dose F 2 0Reacto r Contri b 2 1WTB B Contri b 2 2WGT V Contri b W ater Reacto r Plan e nts and Be l tate Ground Piping to r e Suite of Pot e m inistic Val u n to calcula t m inistic para m rameters for C GL Uncert n-Nuclide S W R Soil D C m inistic Geo m t ainty Anal y s of RESRA D ed Determin i n situ gw Rx B stribution C o n situ gw Rx B stribution C o n situ gw WT B b ution Coef fi n situ gw WG T b ution Coef fi n situ gw Re m stribution C o n situ gw DS R n ing Struct u n situ gw Dos e n situ Drillin E xcavation D CGLs for R O F raction ......

r Building B b utor Dose F B FM DFs fo b utor Dose F V BFM DFs f b utor Dose F r LIST l ow Ground surface ele v emain in LA C e ntial Radio n u es selected f t e Soil DCG L m eter value s soil DCGL c ainty Resul t pecific Para m C GLs for Ini t m etry RES R y sis for the f D Uncertai n istic Param e B uilding abo v o efficients (K B uilding bel o o efficients (K B Uncertain t ficients (Kd)  

.T V Uncerta i ficients (Kd)  

.m aining Stru c o efficients (K R s for React o u res .............

.g Spoils Do s Dose Factors O C Adjuste d...................

.B FM DFs fo r F raction ......

.r ROC Adj u F raction ......

.f or ROC A d F raction ......

.6-iii OF TABL E Structures t o v ation is 63 9 CBWR End nuclides  an d for Sensitiv e Ls ..............

.s selected fo r calculation .

.t and Deter m m eter Distri tial  Suite R a RAD Parame five BFM In s nty Analysis e ters ............

.v e 619: Un c K d) .............

.o w 619 Unc e K d) .............

.t y Analysis R...................

.ctures Uncer t K d) .............

.o r Building, W...................

.r ROC Adju...................

.u sted for Ins i...................

.E S o Remain i n 9 feet AMS L State .........

.d Mixture F r e Kd param e...................

.m inistic Val u i butions ......

.a dionuclide s eters used in s itu gw Confi gfor BFM In

.e rtainty An a...................

.WTB, WG T...................

.r actions ......

.e ters ...................

.i ve   ...................

.u es selected   

.the  g urations ....

.a lysis Resul t...................

.a lysis Resul t...................

.y sis Results   

.r ibutor ...................

.i gnificant  

.t s   ...................

.t s ...................

.... 6-4... 6-5. 6-12. 6-17. 6-18. 6-18. 6-19. 6-25. 6-27. 6-28. 6-28. 6-29. 6-29. 6-30. 6-31. 6-32. 6-34. 6-35. 6-37. 6-38. 6-38. 6-38 La Cros s License T Revisio n Table 6-2 Table 6-2 Table 6-2 Table 6-2 Table 6-2 Table 6-2 Table 6-2 Table 6-3 Figure 6-Figure 6-Figure 6-Figure 6-Figure 6-Figure 6-Figure 6- 6-1 RE S 6-2 RE S 6-3 Dos Ag g s e Boiling W Termination n 0 2 3Remai n Insign i 2 4ROC a n 2 5Surfac e 2 6RESR A 2 7Buried 2 8Buried Radio n 2 9Summ e Insign i 3 0Groun d-1Site R e-2Site O v-3LACB W-4LACB W-5LACB W-6LACB W Elevat i-7RESR A SRAD Inpu t SRAD Inpu t e Contributi g regate Dos e W ater Reacto r Plan n ing Structu r i ficant Cont r nd Insignifi c e Soil Area F A D Source T Piping DC G Pipe DCG L nuclide Frac t ed Buried P i i ficant Radi o d water Exp o e gional Loc a v erview .......

W R Buildin g W R End St a W R End St a W R End St a ion View ....

AD Paramet e t Parameters t Parameters on Percenta g e Percentage r  res BFM D F r ibutor Dos e c ant Radion u F actors .......

.Term Param e GLs .............

.L s for ROCs t ions ...........

.i pe DCGLs f o nuclide Fr a o sure Factor s LIST O a tion ............

.g s ...............

.a te ...............

.a te - Backfil l a te - Backfil

.e r Selection ATT A for LACB W for LACB W ge for Initia lfrom Insig n 6-iv F s for ROC A e Fraction ....

.e ters for Bu r...................

.f or ROCs a d a ctions .........

.O F FIGUR E...................

.ACHMEN T W R Soil DC G W R BRM U n l Suite Radi o nificant Dos e A djusted fo r...................

.r ied Piping   

.o r Insignific

.e s ................

.T S G L Uncerta i ncertainty A o nuclides a n e Contributo r  ...................

.n s ................

.DCGL Cal c...................

.i nty Analysi Analysis  .....

.nd Determin a o rs ...............

.c ulations .....

.a tion of ..................  

: 6. 6-38. 6-39. 6-43. 6-45. 6-46. 6-47. 6-47. 6-48. 6-50. 6-51. 6-52. 6-53. 6-54. 6-55. 6-56. 6-57. 6-796-103 La Cros s License T Revisio n AF ALARA AMCG AMSL ANL BFM BFM In s BFM In s bgs DCGL DF DPC FRS G-3 GW HSA HTD ISFSI LACB W LSE LTP MARS A MARSS I MDA MDC NRC PRCC RESRA D ROC TEDE USACE WGTV WTB  

s e Boiling W Termination n 0 Are a As L Av e Ab o Arg Bas e s itu gw  BF M s itu ds  BF M Bel o Der i Do s Dai r Fin a Ge n Gro His t Har d Ind e WR  La C LA C Lic e A ME Mu l Ma n I M Mu l Mi n Mi n Nu c Par t D RE S Ra d Tot a U.S Wa s Wa s W ater Reacto r Plan LIST OF a Facto r L ow As Re a erage Memb e o ve Mean S e onne Natio n ement Fill M M Insitu Gr o M Insitu Dri l o w Ground S i ved Conce n s e Facto r ryland Pow e al Radiation n oa-3 undwate r torical Site A d-to-Detect e pendent Sp e C rosse Boili n CBWR Site ense Termin l ti-Agency R n ual  l ti-Agency R nimum Dete c nimal Detect clear Regula t t ial Rank C o S idual RAD i d ionuclides o a l Effective D. Army Cor p s te Gas Tan k ste Treatme n r  ACRONY M a sonable Ac h e r of the Cri e a Level  n al Laborato r M odel o undwater l ling Spoils S urface ntration Gui d e r Cooperati v Survey  Assessment e nt Fuel Sto r ng Water R e Enclosure ation Plan Radiation S u Radiation S u ctable Activ iable Conce n tory Commi orrelation C o ioactive ma t o f Concern D ose Equiv a ps of Engin e k Vault n t Building 6-v M S AND A B h ievable tical Group r y  deline Level v e rage Install a e acto r u rvey and A s u rvey and Si t ity ntration ssion o efficient terials alent eers B BREVIA T l  ation ssessment o f te Investigat TIONS f Materials a ion Manual a nd Equipm e e nt La Cros s License T Revisio n  s e Boiling W Termination n 0 W ater Reacto r Plan r  Page Inten t 6-vi t ionally Le ft ft Blank La Cros s License T Revisio n 6.CS 6.1.The site r criteria f R egulati oDos e resul t grou p wate rAs L o redu c Chapter Criterio nCriterio nG 6.2.This sec t site. La n descripti o Hydroge Coopera The LA C Village o to the n o the west 522), fiv east sho r shown i n Enclosu r 6.2.1.S LACB W of the C describe d and fluv i shales o f approxi m s e Boiling W Termination n 0 C omplian cite Release r elease crite r f or unrestric o ns (10 CF R Criterion:

T t s in a Total p that does n r; an d o w As Reas o c ed to levels 4 describes

: n. This Ch a n. General Site t ion provid e n d and gro u on of site ological In v tive, Genoa CBWR facil i o f Genoa (p o orthwest) is R shore of t h e miles sou t re, is an uni n n Figure 6-2 r e (LSE) fen c ite Geolo gy WR is locate d C entral Lo w d as approxi i al deposits

.f the Dres h m ately 650 f e W ater Reacto r Plan ce with th eCriteria ria for the Lted release R 20.1402):

T he residual Effective D n ot exceed 2 5 o nably Ach i that are ALthe metho d a pter descri b Descriptio n e s a general u ndwater us geology a vestigation R Wisconsin (i ty is locate d o pulation a b R eno, Minn h e Mississip t hwest of th e ncorporated 2, with a m c e shown in y d on the east land Physi omately 15 f

: e. These unc h bach Grou p eet below th e r e Radiolo g a Crosse B ospecified i nradioactivit y ose Equival e 5 mrem/yr, i i evable (AL AARA. d s and resu l bes the me t n description e in the vi a nd hydro g Report, La 1). d 17 miles s o b out 800) (s eesota, an u npi River. T h e plant. Vi c hamlet of a more detaile Figure 6-3.

bank of the o graphic Pr o e et of hydra u onsolidated p and by d e e ground su r 6-1 g ical Crit e oiling Water n Title 10, S y that is dist ent (TEDE) i ncluding th a A RA) Crite r lts for dem o t hods for d e of the geol o c inity of si t g eology is Crosse Bo i o uth of the C e e Figure 6-nincorporate d he nearest c ctory, Wisco n a bout 80 pe o d view of t Mississipp i ovince. The ulic fill ove r deposits ar e e nse Preca m r face (bgs).

e ria for Li cReactor (L A S ection 20.1 4 t inguishable to an avera g at from gro u rion: The re s o nstrating c o emonstratin g o gy and hy d te are also provided i n iling Water City of La C1). The ne a d hamlet of community i nsin, five m ople. The L A the facilitie s i River in th elocal geol o r lying 100 t oe underlain m brian crys t cense Ter A CBWR) ar e 4 02, of the from backg r ge member o undwater so u s idual radio a ompliance w g complian c d rogeology described.

n Haley &Reactor, D C rosse and a a rest comm u about 300 p i n Iowa is N m iles south o A CBWR lic es inside th e e Wisconsi n o gy of the o 130 feet o by flat lyi n talline rock s mination e the radiol oCode of F e r ound radia t of the critic a u rces of dri n a ctivity has b w ith the A L ce with the at the LAC B A detaile d& Aldrich, D airyland Pmile south o u nity (three m people locat e N ew Albin f the plant o e nse d site a r e LACBW R n Driftless s esite is gen e f glacial ou t ng sandston e s encounter o gical e deral t ion a l n king b een L ARA Dose BWR d site Inc., Power of the miles ed on (pop. o n the rea is R Site ection erally t wash e and ed at La Cros s License T Revisio n The pri m0 to 2 b gs a20 to thick n30 to grav e100 t115 t 6.2.2.S Regiona l it is like l the surf a ground w influenc e 6.2.3.A The LA C the Mis s b ounded Enginee r The 163.the 1the G and i locat ean ar e (ISF San a pfrom the l a oil) fu was ha par c The are a and fres h to the G-s e Boiling W Termination n 0 m ary soil typ e 2 0 feet bgs.

.n ess of 7 to 100 feet bg el below the o 115 feet b o 135 feet b ite H y dro ge lly, ground w l y that the g r a ce water.

G w ater flow a n e d by the riv A rea Land U C BWR facil i s issippi Riv e by the Mi r s (USACE) 5 acre site i s.5 acre LA C Genoa-3 (G-3 s owned an d ed to the so u e a south of G SI) is locate d pproximatel y past operat i a nd north of fueled powe r h ing area (an c el of land t o a of the Mis s h water fish i 3 station lo c W ater Reacto r Plan e s encounte r H ydraulic F i d as light br

U se ity is locate d e r. Althou g ssissippi Ri property to s comprised CBWR facili t 3) coal-fired d operated b y uth, adjacen t G-3 where t h d , y 36 acre ar e ions, the LACB W r plant (rem oapproxima t o the east o f s issippi Riv e i ng) and co m c ated south o r  r ed at the sit e i ll - Fill san d o wn to bro w g rey, fine to m ne to mediu m i ne to medi u i ne to medi u from the blu flow directi o r elevation w s seasonal v d in the far w gh the site aver to the wthe north, a nof the follo w ty, , 379 MWe e y Dairyland t to LACB W h e LACBW R ea surroundi n W R plant wa o ved in 198 9 ely 900 m 2 c f Highway 3 5 er adjacent t mmercial ba r of the LAC B 6-2 e are: d s are enco u w n, fine to m medium fin e m sands tha t um sand and um sand wit hff towards t h on turns "d o dat a from e v ariation on u w estern porti a rea is 163.

west, a rail nd a wildlif e wing: e lectric po w Power Coo p WR, R Independ e n g the ISFS I s the site of

: 9) which no w c oal ash lan d 5, across fr o to the site i s r ge and ship B WR plant).

u ntered fro m medium sand s e sands und e t also have zfine to med i h trace silt, o h e Mississi p ownstream" a e ight onsite upward and i on of Vern o 5 acres, it iline to th e e and fish re f wer station t h perative (D P e nt Spent F u I containing the former G w includes t h dfill is also p om LACBW R s used for r e p traffic (e.g

. There is a p m approxima t s with occas i erlie the fill, z ones of coa rium gravels

, o ccasional z o p pi River. C l a s groundw a e wells agr e downward g o n County o n is relativel y e east, U.S.

f uge to the s h at was com p P C). The G-uel Storage I nthe closed c G enoa-1 (G-he site switc h present),

: p. barges of c p ublic boat l t ely 0 to 20 f i onal fine g rwith an ave r se sand an d , o nes of gra v l oser to the a ter dischar g e es with re g gradients th a n the east b a y isolated a sArmy Cor p outh. p leted in 19 6 3 station is n stallation c oal ash lan d-1) coal (an d h yard and ba p urposes (b o c oal are deli v l anding on t h f eet ravel, rage d fine vel. river, g es to gional at are a nk of s it is p s of 6 9 dfill d later a rge oating v e r ed h e La Cros s License T Revisio n site, loc a Mississi p for hunti n National Lock an d north of operated from da wmaintain LACB W The clos no resid e 6.2.4.A There ar e in 1963 t LSE and to the G-Highwa yB 6.3.The con f b uilding s All but t correspo n that will

operatio nmeet cur projecte d Resident as it is b

the nort h that wou the pres e foreseea b property In sum m plans to infrastru c 25 years Finally, t develop the DPC plausibl e discussi o LACB W s e Boiling W Termination n 0 ncentrations o f loor drains d own gradi a tions. In la rization an d an found in d water sam p F uture Lan d e asonably F o d ated Deco m gical Criteri a 100 years.

T s t acquired l aadditional 1 q uired in 19 6 a owned or c plant beg a W R construct i DPC's th i n as a major r ent enviro n d remaining i al use of th e o unded by t h, and a wildld be more s e nce of ove r b le future re to recreatio n m ary, the D P change the l cture to sup

: p. Adjacent l there are lar gfor resident isite from i n e" in accor d o n of futur e W R dose asse W ater Reacto r Plan o f groundw a under the T ent of the t e 2012, fiv e d license te r 1983, pred o pling results

.d Use Scena r oreseeable S m missioning a (NUREG-T he Reasona b a nd at the s i 8.6 acres w e 62. Finally, a c ontrolled b y an operatio n i on began i n i rd plant o n generation nmental stan o peration li f e site over t h t he Mississi p l ife and fish suitable to a d r 36 acres o fsidential de v n al use at so P C site has b land use in t port the site sand, and a p g e tracts of l ial use with i ndustrial use dance with land use, ssment is th e r ater contami n T urbine Bui lTurbine B u e additional rmination.

R ominantly H

. r io and Av e Scenario", i s Guidance 1757), (3), T b ly Foresee a i te in 1941t o ere acquire d an addition a y DPC was t h n in 1941 a n 1963, was nsite, G-3, bresource to dards and i s f e of G-3 is p h e next 100 ppi River to refuge to t h d ditional re s f closed coa l velopment.

Bme point in been in con t the future.

T s future use f part of the D land nearby i n at least t

: h. Residentia NUREG-1 7 t he Averag e e Industrial W 6-6 n ation have lding. Gro u uilding ide nmonitoring Results indi c-3. See LT P e ra g e Mem b s defined i n- Characte r T able 5.1 a s able Scenari o o build its f i d for G-1 co a al 26.8 acres h en, and co n a nd was de c completed i b egan com m the DPC sy s s currently p p rojected to years appe athe west, a he south. Th e sidential de v l ash landfi l B ased on su rthe distant fu t inuous ind u The site con t f or power s u DPC site is c that would b h e next 100 l land use i s 7 57, Table e Member o W orker. been identi f undwater sa m n tified cont a well pairs w cated lower P Chapter 2, b er of the C n NUREG-1 r ization, S u s a land use o for LACB irst coal-fir eal ash disp owas filled b ntinues to b e commission e i n1967, and m ercial oper a s tem. The Gerforming abe 20-25 y e a rs unlikely. rail line to t ere are seve r velopment t h lls further s u r rounding l a future is mo r u strial use f o t ains a tran s u pply after G currently us be preferab lyear time p s therefore c

i o f the Criti f ied adjacen t m pling in 1 amination a were install e groundwat e section 2.3

.Critical Gro u 1 757, Volu m urvey, and Dscenario th a WR is indu s e d generatio n o sal. An add i b y dredging e , 163.5 acr e e d and dis mwas perma n a tion in 19 6 G-3 plant ha s a major turb i e ars. The site is r t he east, U S ral small co m han the DP C u pports the a a nd use, the c re likely tha n o r 74 years smission sta t G-3 is deco med for recr e le, and mor e p erio d than tategorized a ions. Bas e cal Group (t to the sus p983 from a at relativel y e d to suppo r er contami n.7 for a su m u p me 2, Revis i Determinati o at is likely w strial use.

es. m antled in n ently shut d 6 9 and con t s been upda t i ne overhau l relatively is o S ACE prope r mmunities n e C site. In ad d a ssumption c onversion o n residential and DPC h a t ion and val u mmissioned i e ational pur p e cost-effect i the conversi a s "less like l e d on the a (AMCG) f o pected a well y low r t site n ation mmary i on 1 o n of within -1. In acres  The 1989. down t inues ted to l. The o lated r ty to e arby dition, of no of the use. a s no uable i n 20-poses. i ve to on of l y but a bove o r the La Cros s License T Revisio nD 6.5.Dose m olicense t25 mre m model a n There ar eas follo w ground w very lo wmajority concrete currentl ythe rema iremain wcontami n ground w summed An over v descripti o 6.5.1.B The dos e designat e residual r The b as ealtered t o The BF M the conc r Excavati The res umrem/yr group. It

sure to well oncrete sur f surface du r is designat e nated as BF M ng at the ti m e r) exceedi n R site conc e were categ o u ried piping n intact but if any. Th e o n will be i ncontaminat i h the except i e d piping th a n minimal, i f lso very lo w u r sources w erion. below. De t (see Table 6 the AMCG hat are phys i s to be occ u u geometry w n ation and 2 t to the surf a (DF) in un i a ining Stru c e excavated complianc e water cont a faces into t h ring the ass u e d as BFM I M Insitu D r m e of n g the e ptual orized , and has a e vast n the i on is i on of a t will f any, w but will be tailed -1) is from i c a lly upied. w here 2) the a ce. its of ctures and a e will aining h e fill umed I nsitu rilling La Cros s License T Revisio n The con c floors a n with the radioacti v release o water su p and flo w a clean c direct e x pathway The BF M are brou gterminat i The res iinstallati o brought t pathway s The BF M (RESR A spreadsh assessm e basemen t at the ti m for each with the 6.5.1.2.The BF M excavate conserv a credit fo rassumed which is contami n Excavati mrem/yr the aver a are not e x BFM E x"Remai n s e Boiling W Termination n 0 ceptual mo d n d walls is r concrete s vity is rele a o ccu r s imm e p ply well is w to the well c over of at l x posure and to the indus M Insitu ds sc e ght to the s u ion, before a i dual radio a on is assu m t o the grou n s are the sa m M Insitu gw d A D) v7.0 meet calculat i e nts are exp r t (and the R e m e of licens e Radionucli d 25 mrem/yr BFM M Excavati o d and spre atism, the ex c r radioactiv eto inadvert econsistent w n ation. Th e on DFs that per total m a ge concent r x ceede d. x cavation D F n ing Structu r W ater Reacto r Plan d el for the B e leased to a s urfaces aft e ased instantl e diately afte rassumed to is conserva t least 3 feet i soil ingesti o trial worker enario assu m u rface. The a ny leaching activity in t ed to be in a nd surface, a m e as those t h d ose assess m model. The i ons couple d r essed as D F emaining St e terminatio n d e of Conce r dose criteri o Excavation o n scenario a ad on the cavation is a e decay. Th e ntly mix w w ith the gu i e calculatio n are express eCi. The fu n ration in the F s were cal c r es" consiste n r B FM Insitu g w adjacent fill er backfill.

y into the fi r license te r be installe d tively mode l is present o v o n/inhalatio n AMCG is d mes that the d well install a from concr e t he floor c o advertently m a nd spread o h at apply to ment is impl e BFM Insit u d with RES R Fs in units oructures) (s e n , as determ i r n (ROC), a n o n. Scenario assumes th a ground sur assumed to o e residual r a with the ma s i dance in N U n is perfor m e d in the sa m ndamental dexcavated c c ulated sep a nt with the B 6-8 w scenario a through lea c The scena r fi ll which is rmination ta k d adjacent t o led assumin g v er potentia l n is negligi b d rinking wat e d rilling spo i a tion is ass u e te occurs a n oncrete tha t m ixed with t ver a 15 c mcontaminat e emented usi n u ds dose as RAD model i of mrem/y r e e Table 6-1 i ned by the F nd summed at some or a face at so m occur imme d adioactivity s s of struct u U REG-175 7 med using E m e units as t driver of the concrete is l i arately for t h B FM Insitu D assumes tha t c hing into w rio assumes then treate d k ing no cre d o the down g g that struct u lly contami n ble or zero.

er from the o i ls from the i umed to oc c n d taking n o t is contac tthe fill mat e m thick laye r ed surface s o ng the RESsessment i s ing. The re sper mCi to t). The inve n F RS, will b e as necessar y all of the ba c me time af t diately after remaining i n ural concret e 7 , Appendix E xcel spre a the DFs for t BFM Exca v imited such t h e Reactor B D F calculat i t the residu a w ater that c o that 100%d as conta m d it for radi o gradient ed g ures are not n ated surfa c The BFM I onsite well. installation o c ur immedi a o credit for r a t ed by the e rial above t r. The BFM o il. idual RADi s impleme n s ults of the tal activity i ntory of resi d e multiplied y, to demon s ckfilled str u t er license license ter m n the backfi e removed dJ, for addr e a dsheet and t he BFM In s vation DF c t hat the sur f Building, W i ons. a l radioactiv i omes into c o% of the re s minated soil.

o active deca y g e of the bu i present. Be c ces the dose I nsitu gw exp of the onsit e ately after li c adioactive d borehole d t he floor su r Insitu ds expoactive mat n ted using E BFM Insitu nventory in d ual radioa c by the BF M strate comp l u cture concr etermination mination taki n lled baseme during exca v essing subs uresults in s itu scenari o c alculation i s face soils D C W TB, WGT V ity in o ntact s idual The y. A ilding c ause from osure e well cense decay. during rface, osure erials E xcel dose each ctivity M DFs l iance e te is . For n g no nts is v ation urface BFM o , i.e., s that C GLs V , and La Cros s License T Revisio n 6.5.2.S Derived C radioacti v used to p For con s containe dcm wou lcontami n modelin g Using a contami n potential

a clean s o In the u during F discover eCommis s Standar d with gui d 6.5.3.BWith th e piping t ocontami n conduct e The con c two sce ninternal s layer of s the soil mthe pipe e2.54 cm transpor t Dischar gassumes layer of s and Exc a scenario s in units o s e Boiling W Termination n 0 oil C oncentrati o vity in surf a perform the c servatism, a d in a 1 m d e l d result in n ation is id e g may be re1 m thic k n ation with for subsur fa o il layer ov e unlikely eve n F SS that a r ed geometri e s ion (NRC) w d methods f o dance in N U B uried Pipi n e exception o o remain a n ation pote n e d to develo p ceptual mod narios: Insit u s urfaces of t soil in an ar e m ixing laye r excavation. layer of soi t and migrat i ge Pipe whi that the pi p s oil on the g a vated soil  

: s. RESRAD of dpm/100 c W ater Reacto r Plan o n Guidelin e a ce soils th a c alculation.

a nd to opti m epth from t h lower dose entified at L quire d if th e k ness redu c a thicknes s face contami n er a contami n n t that geo m r e not bou n es will be a d w ill be noti f or RESRAD U REG-1757.

ng o f the porti o a t LACBW R ntial is min i p DCGLs fo r e l for the b u u and Exca v t he pipe is a ea equal to t h r is 15 cm d The Insitu s c l with no c r ion. This is a ch will be pe is excava t g round surfavia the sa mmodeling i s cm 2. r  e Levels (D C at correspo n mize reme d h e surface.

A(i.e., highe r LACBWR w e conceptu a ces the po t s somewhat n ation to re m nated soil la y m etries are n ded by th e d dressed by fied if additi oparameter s The AMC G o n of the C i R was ass o imal (see T r pipe. u ried piping v ation. In t h assumed to i h e internal s due to the e x cenario ass u r edit taken fo a conservati vfilled with ted followe d ce with no c m e pathway s s used in co n 6-9 C GLs), in u n n d to the 25 diation effi c A standard s u r DCGL). H w ith a thick n al model ass u t ential for greater tha m ain in the y er at depth

.encountere d e assumed additional m o nal modeli n s election an d G for soil is t h i rculating W ociated wit h T able 6-2).

dose assess m he Insitu s c i nstantaneo u s urface area x tensive gr o umes that th e fo r the prese ve assumpti o a flowable d by instant c over. The I n s applicable n junction wi t n its of pCi/gmrem/yr d o ciency, sur fa u rface soil c However, in ness greater umed a 15 delays or an 15 cm i s End State  

T n g is requir e d uncertaint y h e Industria l W ater Disch a h contamin a A b uried p m ent is sim i cenario the r usly release a of the pipe.

o und surfac e e released ra ence of the p o n, particul afill materi arelease of a n dustrial W o to the BF M t h Excel spr g , were deve l o se criterio n face soil is ontaminatiothe unlike lthan 15 c mcm contam i unnecessar y s encounter e w ith a geom e o ntinuing c hontaminatio T he U.S. N u e d. y analysis a rl Worke r. a rge Pipe, n o a ted syste m p iping dose i lar to the B residual ra d and mix wi t For the Ex c e disturbanc e dioactivity i p ipe to redu c a rly for the C a l. The Ex c all radioacti v o rker is exp o M and soil readsheet to loped for re s n. RESRA D defined a s o n thickness ly event th a m additional ination thic k y remediati o e d. There i s etry compri s h aracterizati o o n thicknes s u clear Regu l r e used cons o ne of the b m s and the rassessmen t B FM and in c dioactivity o n t h a thin 2.

5 c avation sce n e associate d i s a below g r c e environ m Circulating W c avation sc e vity into a 1 osed to the Idose asses s calculate D C s idual D was s that of 15 at soil dose kness. o n if s low s ed of o n or s , the l atory istent b uried r efore t was cludes n the 54 cm n ario, d with r ound mental W ater e nario 5 cm Insitu sment C GLs La Cros s License T Revisio n 6.5.4.E Ground wlicense t e Low lev e well pai r ground wcontami n 6.5.5.R The L A Switchy a contain r in NUR E and Equ i 6.5.6.D The vari oexclusiv e BFM In s the acti vwith the encount e The dos simultan edemonst rfollowin gmaxi mmaxi msum omaxi mmaxi mmaxi m 6.5.7.A As disc u foreseea b use scen a well and A qualit a lower th a s e Boiling W Termination n 0 E xistin g Gr o water monit o ermination.

T e ls of H-3 a n r s were inst a w ater concen n ation prese n R emainin g A A CBWR A d a rd Fire Se r r esidual ra d EG-1575, S u ip ment Man u D ose Summ a o us source t e. For exa m situ drilling vity released groundwat e ering the wee from soi eously with rate compli a g using the m mum BFM I mum BFM E of the BFM m um soil d o mum b urie d m um existi n Alternate Sc u ssed in s e ble" scenari o arios were c o onsite gard e ative evalu a a n that calc u W ater Reacto r Plan oundwater oring has b e T he final m o n d S r-90 ha v alled at the s i t ration are p nt at license A bove Gro u dministrativ e vice Water dioactivity.

T upplement 1 u a l (MARS A a tion for C o terms and c o m ple, althou g spoils scen a to ground w er activity r l l. Therefor e l, buried pthe BFM d o a nce with t h m ean values I nsitu ds dos e E xcavation d Insitu gw dos ose, d piping dos e n g groundw aenarios e ction 6.4, o based on p o nsi d ered i n e n. ation of a re ulated for th e r e en and wi l o nitoring da t v e been ide n i te. Ground w provide d to termination

, u nd Buildin g e Building, System wil l They will b , Multi-Age AME) (4) .

o mpliance o nceptual m g h a low pr o a rio and sub s w ater in the released fr o e , the BFM iping, and o se scenari o he 25 mrem/from FRS: e ,  d ose,  e from all b a e , a ter dose.

the indust r p ast and pro j n cluding rec r creational l a e industrial u 6-10 ll continue t t e will depe n ntified in sa m w ater expos uperform d o , if any.

g s LACBW R l remain in t b e free rel e ncy Radiati o models discu obability, a s equently e x BFM Insit u om another Insitu gw do s groundwat e os. Therefor e/yr dose crit asements co m rial use sc e j ected use o reational us e a nd use sce n use scenario to be cond u nd on the e v m ples collec t ure factors i n o se assessm e R Crib Ho u tact. The b eased in ac con Survey a u ssed above given b ase m x cavated. A n u gw scenario basement t h se will be s u e r could al s e, the final s terion will i n m bine d , e nario was of the LAC B e , and resid e n ario concl u because oc c ucted until v aluation of ted since 20 n units of m ent for exis t use and T uildings ar e c ordance w i a nd Assess m are not nec e m ent could b n other exa m for one b a s h at is dow n u mmed acr o so be vie w site-wide d o nclude the s selected a BWR site. T w ential use wi t u de d that t h c upancy tim esometime bsampling r e 12 after fiv e mrem/yr per p t ing ground w T urbine Bu i e not expec tith the gui d ment of Mat e e ss arily mu t be subject t m ple could b e s ement co m n gradient b o ss all b ase m w ed as occ u o se assessm e s ummation o a s a "reaso n w o alternat e th a water s u he dose wo u e would be l b efore esults. e new p Ci/L w ater ilding t ed to d ance erials tually to the e that m bines b efore m ents. urring e nt to of the nably e land u pply u ld be ess La Cros s License T Revisio n than tha t the recre than ass u The resi d scenario spreadsh states th a assuranc e section 6M 6.6.A comp r present a that hav e characte rthe prim a The initi a and BF Mthe soil D ROC th a describe d 6.6.1.P Energy S o Decommdocume n R eactor M Around Decommfuel inv e 10 CFR P The list o after eli m with the o Co-60 a nsamples) coupled several a present d Finally, Piping a n were not s e Boiling W Termination n 0 t assigned t oational land umed for the dent garde n as defined ieet, to calc u at if the pea k e that the sc 6.15. M ixture Fra r ehensive "

across c o s e Boiling W Termination n 0 lting list of p6-3. The pr M ixture Fra ribed in R e ed from con c n d Piping/V eslices from . The use o f assigned t o m Detectab l a tion data a v d in Table 6-3 T t ure was ba s for all buil din Referen c ores from th e W ater Reacto r Plan potentially p ocess for de tctions for I n ference 5, t crete core d a e ntilation T u the cores w f cores wit h o low abun d l e Concent r v ailable. T h 3. T able 6-3 s ed on a co m d ings. The a c e 5 by a r e e different a r r  present radi o termining t h nitial Suite the mixture ata collecte d u nnels. The w hich were t h h higher co n d ance radio n r ation (MD he mixture f rInitial S u and Mi xNuclideH-3 C-14 Fe-55 Ni-59 Co-60 Ni-63 Sr-90 Nb-94 Tc-99 Cs-137 Eu-152 Eu-154 Eu-155 Pu-238 Pu-239/240 Pu-241 Am-241 Am-243 Cm-243/244Total m pilation of 1 application o eview of C s r eas. The po t 6-12 onuclides is he mixture f r Radionucli d fractions f d during ch avast majori t herefore us e ncentrations n uclides we r C) values ractions assi g uite of Pote n xture FractMix t Frac t0.00 00.00 00.00 20.01 00.01 20.08 00.00 90.00 00.00 00.87 70.00 00.00 00.00 00.00 00.00 00.00 30.00 00.00 00.00 0 1.0 1 2 cores fro m of the comb s-137/Sr-90 t ential effec tcalled the "

I r actions is d e d es f or the Init i a racterizatio n t y of the ac t ed to deter m was requir e r e not overl y which wer e gned to the I ntial Radio n tions t ure tions 071 065 294 038 221 048 907 008 015 736 093 080 045 014 013 306 037 004 005 0 0 m all buildi n b ined data t oratios whi c t of uncerta i Initial Suite "e scribed bel o ial Suite ra d n from the R t ivity was l o mine the rad i ed to ensure y influence d e in many Initial Suite n uclides  ngs to deter m o determine c h were rel a i nty in the m" and is pro v o w. dionuclides R eactor Bui l ocated in th e i onuclide m ithat the m i d by the re pcases the radionuclid e m ine one m ithe mixtur e a tively cons mixture fract i vided were l ding, e first i xture ixture p orted only e s are i xture e was istent i ons La Cros s License T Revisio n on the fi nmixture i uncertai n b ecause Complia n concentr aemitters insignifi c soil DC G that is p odemonst r The pri m Detect (H FRS. H o conserv a fraction.

There wpredomi n evaluati oless than HTD ra d MDC v a Therefor soil and u contribu t sufficien tS 6.7.Site-spe c 10 CFR 2 radionuc percenta g The sur funiforml y expectat igeometr y with con c 6.7.1.S There is based o n subsurfa c monitori n s e Boiling W Termination n 0 nal complia n is comprise d nty in the m ithe FRS f nce with th a tions for gthat were c ant contrib u G Ls and Bu r o sitively ide n r ation. m ary source o HTD) mixt u owever, the ative and pr See section w ere only a n antly Cs-1 o n of the rel athe MDC.

W d ionuclides t a lue which ce, the radio n u sed to dete r t or dose per t margin to a oil Dose As cific DCGL s 2 0.1402 do s lide in orde r g e and the f i f ace soil c o y contamin a i ons that at y consisting centrations e oil Source T limited pot e n the resul t c e soil co n ng results d o W ater Reacto r Plan n ce dose ca l d of Cs-137 i xture fracti o f or structur ee 25 mrem/

y gamma-b eta designated u tor dose c a ried Pipe D n tified duri n o f potential u re fractions method us eovides suff i 6.13 for the a few pos i37, and th ative mixtur e When the C t hat are not c ould be or d nuclide mixt u rmine the s o centage ass i a ccount for m sessment a n s were deve l s e criterion r to provide i nal list of R onceptual m ated 1 m la ythe time o f of a clean e xceeding t h T erm ential for si g ts of soil c n tamination o wn gradien t r  lculations i s which is a o ns for Cs-1 e s and soi l y r dose cri t emitters.

N as insignifi a lculation a n CGLs. The g FRS will bdose impac tbecause th e e d to calcul a icient marg iassessment itive soil s e concentr a e fractions fo s-137 conce positively i ders of mag n ure fraction s oil ROC. H o i gned to soi l m ixture unc e n d DCGL l oped for re s of 25 mrem/an input to OC. m odel assu m yer of soil f license te rsurface lay e he surface s o gnificant su r c haracteriza tunder the t of suspect e 6-13 s minimized beta-gamm a 37, or any o l will be p t erion will b N ote that t hcant contri b nd the corr eadditional d be directly c t from mixt u e re will be n a te the insi g i n to accou nof insignifi c sample res u ations were fo r the HTD ntrations ar e i dentified a r n itude highe s determine d owever, as d l is demons t e rtainty. sidual radio a/yr. A DC G the determ i m es that th efrom the g r rmination r e er of soil o v o il DCGL.

r face or sub ion perfor m Turbine B u ed broken d r by the fact a emitter. T o ther beta-g a performed u be demonst r he dose co n butors is a l e sponding a d dose from a n calculated a n u re uncertai n n o analysis o g nificant c o n t for unce r c ant contrib u u lts identif iinsufficie n radionuclid e e low the re l r e artificiall y er than the a d from the c o d escribed in trated to be activity in s GL was cal i nation of i n e soil cont a r ound surfa c esidual radi o v er a conta msurface soil med in 201 4 u ilding bas e rain lines. H o that the va s T here is no d amma emitti using gam m r ated using ntribution f r lready acco u djustments t ny beta-ga m n d included i nty is limit e o f HTD rad i o ntributo r d ortainty in t h utor dose pe r i ed during n t to provi d e s which w e lative mixtu r y increased a ctual conce n o ncrete cor e section 6.1 3conservati vurface soil t culated for n significant c amination i s c e downwar d oactivity wi m inated sub scontaminat i 4. There a r e d on posi t o wever, geo st majority o d ose impact ng radionuc m a spectros cactual mea r om beta-g a u nted for i n to the BFM mma radion u in the comp l e d to the Ha r i onuclides d ose percent a h e HTD m i rcentage. characteriz a de a mean i ere all repor t r e fractions o due to usi n n trations pr e es were appl i 3 the insigni f ve and to pr o t hat represe n each initial c ontributors s contained

: d. There a r i ll remain w s urface soil i on at LAC B r e indicatio n t ive ground wprobe samp l of the from lides, c opy. sured amma n the DFs, uclide liance rd-to-during a ge is i xture a tion, i ngful t ed as of the n g the esent. ied to ficant o vide nt the suite  dose in a r e no w ith a laye r BWR n s of w ater l es La Cros s License T Revisio n collecte d plant-de rcontinui n soil exp o Soil cha r b iased s u collecte d 137 abo v indicate dsamples 60 result 6.7.2.S The A M apply: Dire cInha lInge sInge s The agrimilk, gr aS 6.8.The RE Sfor the Energy S o Factors (6.8.1.P RESRA D b elong t o location site-spec characte r exposur e Behavio rfor the s changed LACB W for both t s e Boiling W Termination n 0 d under the T rived radio n n g character i o se d. racterizatio n u rface soil s a d inside the L v e the MD C d Co-60 abo v indicated C s s greater th a oil Exposu r CG at the L c t exposure t l ation of air b s tion of soil s tion of wat ecultural an d a in and vege t oil DCGL C SRAD mode l modeling o lutions TS (8). P arameter S D parameter s o more tha n of the sourc i fic) includi r istics of at m e to, the dos e ral paramet eite. For th e(e.g., para m W R, the beh a t he BFM an d W ater Reacto r Plan T urbine Bu i n uclides ab o i zation after n results are amples and 7 L SE fence.

T C with a m a v e the MD C s-137 abov e a n MDC. Th e re Pathwa ys LACBWR s to external r a b orne radioa c er from onsi t d gardening table ingesti C omputati o l was used t o discussed D RS-TD-3 S election Pr o s are classi fi n one categ oe term and t ng the geo h mospheric a n e receptor ar e e rs define th e e same gro u m eters for a vioral para m d soil dose a r ilding in th e o ve backg r the Turbin eprovided in 7 9 subsurfa c T hirteen of t aximum of C with a ma x e MDC with e Cs-137 re s s and Criti cite is the I n adiation c tivity t e well pathways a on pathway s o n Model -

R o calculate D below ar e 3 13196-004, ocess fi ed as b eha v o ry. Physi c t he geologic hydrologic, g n d biosphe r e also consi d e receptor's u p of recept oindustrial u m eters are b a assessments.

6-14 e vicinity o f r ound. Sub s e Building f o LTP Chapt e ce soil samp l t he surface s 1.07 pCi/g.

ximum of 0.a maximu m s ults are all i cal Group n dustrial W o a re not appl i s are theref o R ESRAD v 7 D CGLs for s e provide d LACBWR vioral, meta b cal paramet e al character i geochemica l ric transport d ered physi c behavior c o o rs, a para m u se could b e ased on an i  f the suspec t s urface soil o undation is er 2 and su m les (at varyi n soil sample a Two of th e 287 pCi/g.

F m of 0.161 p i n the range o rke r. The fo icable to in d o re not inclu d 7.0 s urface soil.

d electroni c Soil DCG L b olic or phy ers are dete r i stics of the l, and mete o up to, but cal input par a o nsidering t h m eter value c e different industrial u s t drain line s l will be e s removed a n mmarized h e n g depths to a nalyses res u e surface s o Fifteen of t h p Ci/g with n of natural b a fo llowing e x dustrial lan d d ed. The RESR A cally in c o L and Con c sical. Som e rmined by t h site (i.e., so o rologic ch a not includi nameters. he conceptu a c ould chan gfrom resid e se scenario a s did not id e evaluated d n d the unde r ere. A total  six meters) ults indicate oil sample r e h e subsurfac e n o subsurfac e a ckground.x posure pat h d use. The m AD output r e o njunction c rete BFM e parameter s he geometr yurce-specifi aracteristics.

n g, uptake b al model se l ge if the sc e e ntial use).

and are the e ntify d uring rlying of 22 were d Cs-esults e soil e Co-h ways m eat, e ports with Dose s may y and c and  The by, or lected e nario  For same La Cros s License T Revisio nMetabol i set of m e Physical ,dose mo d uses sin gselectio n Argonne Priority 1 ranking i Probabi l Priority 3from the either a sparamet esite-spec from th e Priority 1 negative l negative l and posi t to positi v than 0.2 5 Consiste nparamet e Contami n Table 6.8 Figure 6-determi nto deter m 6.8.2.R The unc e rounded radionuc respecti v Section I for. The practical

with the for selec t Attachm efor the u n s e Boiling W Termination n 0 ic paramete r etabolic par a , behavioral d eling to ca l g le values f o n process is dNational L 1 parameter s is documen t l istic RESR A 3 physical pparameter dsigned site

-er distributi o ific parame t e RESRAD 1 and 2 pa r ly correlate d ly correlate d t ively correl vely correla t 5 were assig n n t with th e e rs were ass i n ation Fr o 8 7.  -7 provides n istic param e mine the fin a R ESRAD P a e rtainty ana lmixture fr a l ides, and e n ve mixture f I.7.5 and en s threshold oimplement aobjective o f t ion of dete r e nt 6-1 pro v ncertainty a n W ater Reacto r Plan r s define ce r ameters appl iand metabo l lculate soil D o r input pa r d escribed be l Laboratory (s have the h t ed in Attac h AD 6.0 and R parameters w d istributions specific de t ons defined i t er distribut iuncertainty r ameters.

T d parameter sated to dos e ted paramet e ned the med e guidance i gned the m e o m Deco m a flow c h e ters and pa rl determinis t a rameter S e l ysis includ e a ctions of 0 ntered into R f actions. Th i sures that th e o f 0.1% fo r ation of the R f identifying rministic par vides a tabl e nalysis. The r  r tain physio l i es to both t h lic paramet e D CGLs (an dameters an d l ow. (ANL) ran k h ighest pote hment B to t R ESRAD-BU w ere assign e defined in N terministic v in NUREG/C i ons. The Panalysis w A PRCC v a T he 25 th per c s. A PRC C e. The 75 th p e rs. Priority ian value o f in NURE G e an values fr mmissioning h art of the rameter dist r tic paramet e election for U ed all of th e 0.1% or gr e R ESRAD fo r i s approach e sensitiviti e r including R ESRAD u nsensitive p aameters thr o e with the d e references o 6-15 l ogical char a he BFM an d e rs are treat e d BFM DFs)d generates a k ed physica lntial impac t t he ANL re p U ILD 3.0 Co m e d either a s N UREG/C R v alues, eval u C R-6697, o r P artial Rank ere used to a lue less t h centile of th e C value gre a p ercentile o f 1 and 2 par a fthe parame t G-1757, se c fr om NURE GParamete rparameter ributions is u e r set used t o U ncertaint y e initial suit e e ater. The c r the uncert a is consiste n e s of the sig nradionuclid e ncertainty a n aramete r s fo o ugh the un c eterministic or justificati o acteristics o f d soil dose a s e d as determ i). The dete r a single val l parameter s t on dose a n p ort, NURE m puter Cod e site-specific R-6697. Pri o uated by u n r evaluated b Correlatio nevaluate t h h an -0.25 w e parameter ater than +0

.f the param e ameters wit h t er distributi c tion I.6.4.2

, G/CR-5512 r Analysisselection p r u sed in a R E o calculate s o y Anal y sis e radionucli concentratio a inty analys nt with the nificant radi o e s was pri m nalysis mod ur significan t certainty an a values and o ns for the p f the potent i ssessments.

i nistic para m rministic m o l ue for dose s by priorit y n d Priority 3 E G/CR-6697 , e s , (NURE G value or t h ority 1 and 2 n certainty a n b y uncertai n n Coefficie n h e relative s was conside r distributio n.25 was co n eter distribu t h a PRCC a b i on. , metabolic Vol. 3, R es i(NUREG/rocess. The E SRAD Un c oil DCGLs. des from T ans assigne d is, were val uguidance i n onuclides a r m arily appli e ule but is als t radionucli d alysis is disc uparameter d parameter se l i al receptor.

m eters in th e o dule of the . The para m y as 1, 2, 3 the least.

, Developm e G/CR-6697) he median v parameters n alysis usin nty analysis u n t (PRCC) v sensitivity o red sensitiv e n was assig n n sidered sen t ion was ass i b solute valu e an d b eha v i dual Radio a/CR-5512) set of se l certainty An a a ble 6-3 th a d to the se l ues equal to n NUREG-re fully acco u ed to facili t o fully cons des. The rati u ssed belo w distributions lections are One e final code meter or 3. This e nt of (9). values were g the using values of the e and ned to sitive i gned e less vioral a ctive (10) lected alysis at had l ected  their 1757, u nted t ate a istent onale w. used listed La Cros s License T Revisio n in Attac h and the g with theparamet e The con t specific sto ensur ethan the from Re fCont aSoil DSoil PSoil ESatu rA site-s pparamet e Support Hydrolo g The Inh a 5512, T a equates tInhalati oA simila r industria residenti a rate for a The RE S 6697 At tAssumi nmajority report U s and 25 (2190*.7 (2190*.2Site-spe cPumpin g LACB W 129 foot The 33.1 b e repre s s e Boiling W Termination n 0 hment 6-1.

T generic par a process fl o er distributi o taminated a r s oil type is s e efficient retypical def a f erence 1 w e aminated Z o Density, P orosity, Effective Po rated Zone H pecific dete r e r based on Document gical Param alation Rate able 5.1.1 w h t o 23 m 3/d. n Rate (m 3/y r process w a l worker. N U al user whic a worke r as f S RAD para m t. C, Table n g 5 days a of industri a s er's Manu a% outdoo 7 5)/(24*365

)2 5)/(24*365

)cific parame t g Rate Para m WR. The wel l depth is 10 9 m depth is a s ented by a n W ater Reacto r Plan T he basis f o ameter distr i o w chart i n ons are disc u r ea was ass u sand. The d e m ediation (i a ult value o ere applied:

o ne Hydraul i rosity,  H ydraulic G r rministic va l a calculati o14-006, C oeters in Sup pparameter fo h ich provid e The inhal a yr) = 23 m 3/d as followed U REG/CR-5h correspon d follows: 1.3 1 m eters Indo o 7.6-1, whi c week and a l work is e al for RESR A rs. The ) = .187 5) = 0.0625.

t er distribut i m eters. Ther e l depths are 9 feet (33.1 m assumed to b n ominal 20 f r o r the beha v i butions (N U n Figure 6-ussed in mor e umed to be t h epth of soil c i f necessary

)o f 0.15 m. T i c Conducti v radient. l ue was als o o n perform e o nestoga R o p ort of Dos e fo r the indus t e s an annual ation rate th d ÷ 24h/d

* 2to determi n 5512, Table d s to 1.31 L

* 250 w or and Outd o c h recomme50 weeks p e xpected to A D Version co r respondi 5. The O u i ons were d e e are two ex i 116 feet a n m) below t h be maximu m f oot screen d 6-16 vioral and m UREG/CR-6 7. The b as i e detail belo w he full 750 0 contaminati o) and FRS i f T he followi n vity, o selected fo ed for a sa n o vers & A s e M odeling f trial worker inhalation re industrial 2 000 h/y =

1 ne the Drink 6.87, provi d/d. This rate w ork days/y oor Time Frnds a medi a p er year, th i be indoors.

%n g RESR A u tdoor Ti m e veloped fo r isting onsite n d 129 feet b h e average w m well dept h d epth (6.08 m m etabolic pa r 6 697) are st ris for the s w. 0 m 2 area in s o n was cons e f contaminat i n g site-spec i for the "Sat u n d soil type s sociates (C f or the Zion R AMCG w a rate of 8400

/worker wa s 1 917 m 3/yr.k ing Water I n d es a water e was conser v yr = 327 L/y r ractions wer e an indoor w is equates t oConsistent  

% of work t i A D Indoo m e Fractio n r the Well P e industrial w below the g w ater table e l h. The mini m m) starting a t rameters (N U r aightforwa r site-specific s ide the LS E e rvatively a s i on is foun d ific determi n u rated Zone in Zion So l C RA) Repo r Restoration a s derived fr o/y for a resi d s then calc u n take Rate pintake rate o vatively ap p r. e derived fr o w ork day o f o 2190 ho uwith Table ime is assu m o r Fractio n n is the n Pump Intak e w ater supply g round surfa c levation wh i m um well de p t the averag e UREG/CR-5 rd and cons parameter s E fence. Th e ssumed to b e d at depths g r nistic para m e Field Cap a lutions Tec h r t, Evaluati o Project (11)om NURE G d ential user

.ulated as fol parameter f o of 478 L/yr plied as the i n om NURE G f 8.76 hour s urs per year

.2-3 of the med to be in d n paramet e n calculate d e Depth and wells supp o ce (bgs) (1) ich is 20 fee t p th is assu m e water tabl e 5512) istent s and e site-e 1 m r eater meters a city" h nical o n of ). G/CR-. This lows:  o r the for a ntake G/CR-s/day.  . The ANL d oors e r = d as Well orting . The t bgs. m ed to e La Cros s License T Revisio n elevatio n b etween similar t distribut iNUREG/variabili tpumpin g develop e persons oassumin g which e q actual w a to provi d The rem a with the p 6.8.3.SThe full Referen c The unc e were se n The sen s distribut i Four M aj provide dNUREG/determi n Table 6-paramet e N s e Boiling W Termination n 0 n. The mod e6.08 m and t o the NU R ion. /CR-6697 d t y. For an in d g rate is in c e d. NURE G o f 328.7 m 3/g four work q uates to164 a ter use at a d e a range th a ining para m process flo w oil DCGL U R ESRAD U ce 8. The un c e rtainty ana l nsitive whic h sitive para m i ons in She p aj or Soil Ty p d in Referen c/CR-6697 d n istic values 5). The un c ers evaluate d Table 6-4Radionuclid e Cs-137 Eu-152 Eu-154 Note 1: NS indi c W ater Reacto r Plan e of the re c33.1 m whi c R EG/CR-66 oes not pro v dustrial use cluded in t G-6697, Tab l/yr. This va l ers. A nom i 3.5 m 3/yr. T a n unknown at can be us e meters in A t w chart in Fi g U ncertaint y Uncertainty R certainty an a l ysis results h are listed, m eter for Cs

-p pard and T h pes: A Com p c e 13 and w distribution.

for sand fr o certainty an a d are listed i n 4 Deter m used i n e Kd in Co nZone 75th NS 1 75th c ates non-sen s r  commended c h is 19.6 m 9 7 distribu t v ide a reco mscenario, th e t he uncerta i le 3.10-1 ap p l ue is assu m inal maxim u These mini mfuture indu s e d to deter m ttachment 6

-g ure 6-7.

y Anal y sis R Report for S o a lysis result sfor the Kd along with  

-137 was a s hibault, Def a p endium , (13 w as therefor e All non-s e om Referen alysis result s n Table 6-6.

ministic Va l n to calcul ataminated 1460 NS 7302 itive paramete 6-17 triangular  

: d. Note that t h t ion values mmended v e pump rate inty analysi plies a sanit a m ed to be th e u m rate is a mum and ma x strial facilit y mine if the d o-1 not disc u R esults o il DCGL p a s are provid eparameters the selecte d ssigned the ault Soil/Sol i) which are e assigned t h e nsitive K dce 13 as li s s and the s e l ues selecte d ate Soil DC GKd in Un sZone NS 75th NS r distribution he site-spec i of 6, 10, alue for we depends on s a nomin a a ry and pot a e minimum a ssumed ba s ximum valu e y on the site ose is sensiti v u ssed above arameters i s e d in Tables indicated t h d determinis t 75 th percen t i d /Liquid P alisted in Re he 75 th perc d parameter s s ted in NU R e lected dete r d for Sensit G Ls saturated NS 7302 NS is assumed ific distribu t and 30 f o e ll pumping industry. T o al uniform able water u s industrial w s ed on supp l e s are not i nafter licensve to well p u were select s provided e l 6-4 to 6-6.

hat only thr etic paramet e t ile value f r artition Co ef eference 8.

Eentile value s were ass R EG-6697, T rministic va live Kd par aKd in Satu rZone NS NS NS to be mi d-t ion is reaso n or the tria n rate due to o ensure tha t distributio n s age rate fo r well pumpin g l y to 20 w o ntended to p re terminati o umping rate ed in accor d lectronicall y ee Kd para m e rs, in Tabl e r o m the san efficients, K d Europium w afrom the d e igned the m T able 3.9-2 l ues for all ameters  rated NS NS NS -point n ably ngular high t well n was r four g rate o rkers r edict on but . dance y with m eters e 6-4. nd Kd d s, for a s not efault mean  (see other La Cros s License T Revisio n N N TS 6.9.The soil paramet eContami n unsatura t electroni s e Boiling W Termination n 0 Table 6-5RadionucH-3 1 C-14 Fe-55 Ni-59 Ni-63 Co-60 Sr-90 Nb-94 Tc-99 Cs-13 7 Eu-152 Note 1: Sand K d NUREG-6697, T T able 6-6 Contaminate dContaminate dEvapotranspiWind Speed 1 Runoff coeff iSaturated zo nWell pump i n b Parameter oMass loadin gIndoor dust f i External ga mWell Pumpi nDepth of Soi loil Determ i DCGLs w e er distributi o n ated Zone F t ed and satu r cally with R W ater Reacto r Plan 5 Deter m Kd p a l ide K 7 1 ds not listed in Table 3.9-1 w a Soil DC G for Non-NParameter d zone erosion d zone b para m ration coeffici e i cien t ne b parameter ntake depth of Unsaturated g for inhalatio n iltration facto r mma shielding f ng Rate l Mixing Laye r i nistic Anal y e re calculate ons replaced F ield Capac rated zone.

T R eference 8.

T r ministic pa r a rameters f o Kd (cm 3/g) 0.06 5 220 400 400 60 15 160 0.1 280 825 NUREG-660 7 as used. L Uncertai n N uclide Spe crate m ete r ent    zone  n facto r r y sis and So i d using the by the dete r ity was also The full RE S T he Soil D C 6-18 r ameter val u o r soil DC GRad i E u E u Np P u P u P u P u A m A m C m C m 7 Table 3.9-2 f n t y Result a cific Para mUncertain tResult median median median median 75th median median median median median 75th median 25th i l DCGLs parameter s rministic val u changed fr o SRAD Sum m CGLs for th e ues selecte d G L calculati o ionuclide u-154 1 u-155 1 N p-237 u-238 u-239 u-240 u-241 m-241 m-241 m-243 m-244 for this radion u a nd Deter m meter Distri b ty Selecte d0.0015 0.97 0.62 6.8 0.45 0.97 19.6 0.97 2.35E-0 50.55 0.4 986.1 0.15 s et provide d u es listed in o m 0.2 to 0.

m ary Repor t e Initial Suit e d for non-se o n Kd  (c m825 825 5 550 550 550 550 190 0190 0400 0400 0 uclide. The me a ministic Val u b utions d Determinist i 5 d in Attach m n Tables 6-4, 066 to be c o t for Soil D C e are listed i nnsitive m 3/g) 0 0 0 0 an value from u es selected ic Value m ent 6-1 wi t 6-5 and 6-6 onsistent wi t CGLs is pro v n Table 6-7.

t h the 6. The t h the vided La Cros s License T Revisio nB 6.10.The BF M the back f concept u more de t pathway s The BF M (639 foo t 20 feet b ground w seasonal and Ven tthe aver aassumed The seas above 6 1somewh ain the sa t The BF M exposur e drilling s s e Boiling W Termination n 0 Basement Fi M is used to filled base m u al model w a tail includin g s. The comp M conceptu a t), i.e., to an b gs at 619 f o w ater is in d groundwat e t ilation Tun n a ge water t a to be insta lonal water f 1 9 foot and a t of an exc e t urated zone M includes t w e pathways; s poils that a r W ater Reacto r Plan ll Concept u calculate d o m ents to rem a s provided g assumed p u tational m o a l model ass u elevation o f o ot elevatio n direct com m er fluctuatio n nels, the se a able level, i l led in the s a f luctuations contacting b e ption in th a (see Figure Table 6-7 wo scenarioingestion o re assumed t r u al Model ose to the in d ain after lic e in section 6 p hysical co n odel is descr umes that a l f 636 foot, a n (1) which d m unication w n. Based o n a sonal fluct u i.e., to the 6 aturated zo nresult in fl u backfilled s t a t a portion o 6-6). 7 LAC B Suite RRadionuclid eH-3 C-14 Fe-55 Ni-59 Co-60 Ni-63 Sr-90 Nb-94 Tc-99 Cs-137 Eu-152 Eu-154 Eu-155 Pu-238 Pu-239 Pu-240 Pu-241 Am-241 Am-243 Cm-243 Cm-244 s; Insitu an d o f drinking to be broug h 6-19 dustrial wor k ense termin a 6.5.1. This s e n figuration, gibed in sect i l l structures a n d then b ac k d efines the b w ith the Mi n direct obs e uation can r e 6 29 foot el e n e below th e u shing of w a tructure sur f of building i s B WR Soil D R adionucli d e Soil d Excavatio nwater from ht to the su r ker AMCG f a tion. A ge n e ction descr g eohydrolo g i ons 6.11 an dare remove d kfilled. Th e b eginning o f ssissippi ri v e rvation of w esult in wat e e vation. An e 619 foot a v a ter into an d faces. Note s below 61 9 D CGLs for I d es DCGL (pCi/

: n. The BFM an onsite w r face during from residu a n eral descri pibes the co n gy, source-t e d 6.12. d to a depth e average w a f the saturat ver resultin g w ater ingre s e r rising up onsite wat e v erage wat e d out of the that the Re 9 foot and is I nitial g)  Insitu scen a w ell and d ithe installa t al radioacti v ption of the nceptual mo d e r m and exp of three fe e ater ta b le de p ed zone. T h g in river d ss into the Pto 10 feet a e r supply w e r table elev a unsaturated actor Build iassumed to a rio include i rect expos u t ion of the o vity in BFM d el in osure e t bgs p th is he site driven Piping a bove well is a tion. zone i ng is be in s two ure to onsite La Cros s License T Revisio n well. Th e the back f 6.10.1.S The sou rBaseme n characte r provide dremain i n 6.10.1.1.The Rea c bottom. I extends 2 upper h e elevatio n The tota l foot ele v 363 m 2. removed of the st e the 636 f structure