Text

Rev 3 to Offsite Dose Calculation Manual - Safety-Related
	ML20092P284
Person / Time
Site:	Grand Gulf
Issue date:	05/31/1984
From:	Mckay L, Galen Smith, Jay Wallace; MISSISSIPPI POWER & LIGHT CO.
To:	;
Shared Package
ML20092P272	List: AECM-84-0323, Forwards Suppl to Monthly Operating Rept for May 1984 & Revs 2 & 3 to Offsite Dose Calculation Manual, Describing Change to Radwaste Treatment Sys; ML20092P278; ML20092P283; ML20092P284;
References
	PROC-840531-01, NUDOCS 8407060136
	Download: ML20092P284 (160)
	v • d • e

{{#Wiki_filter:- l' (- ., : -9, Revision No. 3 Date 5/84 GRAND GUIF NUCLEAR STATIN OETSITE DOSE CAILULATIm MANUAL SAFEIY REIATED EVAWATION APPLICABILITY san:ri EVAWATIm DWIRCIEENTAL EVAWATIm APPLICABLE ] APPLICABIE Nor APPLICABLE X NOT APPLICABLE Reviewed / Approved: mm O _-_ +1 9'//d/// IvlsoP of Environmental Services /Date [ Mg28( m

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Reviewed / App Mupe isor of Radiological $Nices/Date~ M Revieed/ Approved: Manager of Padiol 1 & Environmental Services /Date d /[!(( Reviewed / Approved: Mana er o Nucl r Gervffes/Date 9/d f/h Reviewed / Approved: unhn', PlMt Saf ty Review Ccmnittee/Dat6 "'/ 8407060136 840703 PDR ADOCK 05000416 R PDR 1 Rev. 3 - GRAND GUIF, UNIT 1

INTRODlX.TICN '1he GTSITE DOSE CAICUIATIN MANUAL is a supporting document of Grand Gulf Nuclear Station Radiological Effluent Technical Specifica-2 tions (RETS). As such the CDCM describes the methodology and parameters to be used in the calculation of offsite doses due to radioactive liquid ard gaseous effluents and in the calculation of liquid and gaseous effluent monitoring instrtmentation alarm / trip setpoints. 'Ihe CDCM contains a list and graphical description of the specific sanple loca-tions for the radiological envirorsnental monitoring program. Diagrams 2 of the liquid and gaseous radwaste treatment systans are also included. The CDCM will be maintained at the Station for use as a reference , tide and training document of accepted methodologies and calculations. Changes in the calculational methods or parameters will be incorporated into the CDCM in order to assure that the CDm represents the present nethodology in all applicable areas. Conputer software to perform the described calculations will be maintained current with this Com. ii e GRAND GUIE, UNIT 1 Rev. 2 - 5/84 i

.( = QXM TABIE & CXNTENTS MANUAL APPIOTAL SHEE7f...................................... u Imi m er1<N............................................... iii TABLE T CCNTENTS.......................................... iv LIST CF FIGURES............................................ v LISr T TABLES............................................. Vi LISI T REFERENCES......................................... vii LIST T DTECTIVE PAGES.................................... 1.0 LIQUID EFFWENTS Liquid Effluent Monitor Setpoints 1.1 Liquid Radwaste Effluent Line Monitors........ 1.0-1 1.1.1 Dose Calculations for Liquid Effluents 1.2 Maximn Exposed Individual Mode 1.............. 1.0-7 1.2.1 Liquid Radwaste Treatment System.....................

1. 0-15 1.3 2.0 GASEQUS EFFWENTS Gaseous Effluent Monitor Setpoints 2.1 Continuous Ventilation Monitors...............

2.0-1 l2 2.1.1 Text Deleted.................................. 2.0-3 2.1.2 Gaseous Effluent Dose Calculations 2.2 Unrestricted Area Boundary Done............... 2.0-7 2.2.1 Unrestricted Area Dose to Individual.......... 2.0-8 2.2.2 Meteorological Model 2.3 Atmospheric Dispersion........................ 2.0-24 2.3 1 Deposition.................................... 2.0-25 2.3.2 Definitions of Gasecus Effluents Paraneters.......... 2.0-27 2.4 Gaseous Radwaste Treatment System.................... 2.0-35 2.5 3.0 RADIOWGICAL ENVIRCMENTAL MNTIORING 3.1 Sanpling Incations...................................

3. 0-1 i

iii Rev. 2 - 5/84 GRAW GUIE, EMIT 1

'.( Com LIST OF FIGURES Page Title Fiaure Calibration Curve for Liquid Ef fluent Monitor........ 1.0-6 1.0-1 Plume Depletion Effeet for Ground Ievel Releases..... 2.0-31 2.3-1 Vertical Standard Deviation of Material in a P1tne... 2.0-32 2.3-2 Belative Deposition of Ground-Invel Deleases......... 2.0-33 2.3-3 Open Terrain Becirculation Factor.................... 2.0-34 2.3-4 Collection Site Incations, 0-5 Mile Area Map......... 3.0-7 2 3.0-1 Collection Site locations, General Area Map.......... 3.0-8 3.0-2 Collection Site Incations, 0-10 Mile Area Map........ 3.0-9 l2 3.0-3 2 Deleted.............................................. 3.0-10 3.0-4 iv \\ l GRAW GUIF, UNIT 1 Rev. 2 -5/84 l

.g um List & TABLES Page Title Table Bioaccutulation Factors.............................

1. 0-9 1.2-1 Ingestion Dose Factors For Adults...................

1.0-10 1.2-2 Site Related Ingesticm Dose Cannitent Factor....... 1.0-13 1.2-3 Dose Factors for Dcposure to a Smi-infinite Cloud of Noble Gases................................

2. 0-6 2.1-1 Pathway Dose Factors for Technical Specification 3.11.2.1 and Section 2.2.1.b......................... 2.0-11 2.2-la Pathway Dose Factors for Technical Specification 2.2-lb 3.11.2.1 and Section 2. 2.1.b........................

2. 0-13 Pathway Dose Factors for Technical Specifications 2.2-2a 4.11.2.3 and Section 2.2.2.b........................

2.0-15 1 Pathway Dose Factors for Technical Specifications 2.2-2b 4.11.2.3 and Section 2.2.2.b........................ 2.0-17 Pathway Dose Factors for Technical Specifications 2.2-2c 4.11.2.3 and Section 2.2.2.b........................ 2.0-19 Pathway Dose Factors for Technical Specifications 2.2-2d 4.11.2.3 and Section 2.2.2.b........................ 2.0-21 Controlling Deceptors, locations and Pathways....... 2.0-23 2.2-3 Abiespteric Dispersicm Paraneters for Technical 1 2.3-1 4.11.2.1.1, 4.11.2.2, 4.11.2.3, Specifications 4.11. 2. 5.1.......................................... 2. 0-2 Air Sanpler Collection Sites........................ 3.0-2 3.0-1 Miscellaneous (bliection Sites...................... 3.0-3 3.0-2 TID Incations.......................................

3. 0-4 3.0-3 V

Rev.1 - 7/83 GRAND GUIE, UNIT 1 i

.g 00CN LIsr OF lerneNCES Boegli, T. S., R. R. Bellamy, W. L. Britz, ard R. L. Waterfield, 1. " Preparation.of Radiological Effluent Technical Specifications for Nuclear Power Plants", NUREG-0133 (October 1978). l2 Calculation of Annual Doses to Man frcan Routine Beleases of Beactor 2. Effluents for the Purpose of Evaluating Capliance with 10CFR50, Appendix I, U.S. NIC Begulatory Guide 1.109 (Mard 1976). Calculation of Annual Doses to Man frcza Routine Releases of Reactor 3. Effluents for the Purpose of Evaluating Capliance with 10CER50, Appendix I, U.S. NIC Regulatory Guide 1.109, Bev.1 (Oc+r*wr 1977). "Enviromental Report", Mississippi Power and Light Canpany, Grand 4. Gulf Nuclear Station, Units 1 and 2. - " Final Safety Analysis Report", Mississi;pi Power and Light 5. Capany, Grand Gulf Nuclear Statim. Methods for Estimating Atnespheric Trarsport and Dispersion of 6. Gaseous Effluents in Routine Beleases frtzn Light - Water - Cooled Reactors, U.S. NBC Regulatory Guide 1.111 (Mard 1976). Methods for Estimating Atmospheric Transport and Dispersion of 7. Gaseous Effluents in Routine Beleases frtan Light - Water - Cooled - Reactors, U.S. NBC Begulatory Guide 1.111, Rev. 1-(July 1977). vi Rev. 2 - 5/84 e GRAND GUIE, UNIT 1

OD04 LIST OP mu;r1VE PAGES BW. PhGE PRGE BEV. NO. NO. NO. NO. 2.0-22 1 3 1 1 3 2 2.0-23 11 2 2.0-24 2 iii 2 2.0-25 0 iv 2 2.0-26 3 1 y 2.0-27 3 vi 2 3 3 2.0-28 3l vii 3 3 2.0-29 3 2.0-30 1.0-1 0 0 2.0-31 1.0-2 2 0 2.0-32 1.0-3 2 0 2.0-33 1.0-4 1 2.0-34 0 1.0-5 0 3 l3 2.0-35 1.0-6 1 1.0-7 1 1 3.0-1 1.0-8 0 3 3.0-2 1.0-9 2 3 3.0-3 1.0-10 0 3 3.0-3a 1.0-11 0 3.0-3b 3 1.0-12 0 3 3.0-4 1.0-13 2 3 3 3.0-5 1.0-14 1 3.0-6 3 1.0-15 2 3.0-6a 3 3.0-6b 3 2.0-1 3 3.0-6c 3 3 2.0-2 3 3 3.0-7 2.0-3 2 1 3.0-8 2.0-4 3 3 l3 3.0-9 3 2.0-5 3 2 3.0-10 2.0-6 0 2.0-7 2 2.0-8 2 2.0-9 2 2.0-10 2 2.0-11 1 2.0-12 1 2.0-13 2 2.0-14 1 2.0-15 2 2.0-16 2 2.0-17 1 2.0-18 2 2.0-19 1 2.0-20 1 ~ 2.0-21 2 vii Rev. 3 - 5/84 GRAND GULF, UNIT 1

1.0 LIQUID EFF11ENIS 1.1 Liquid Effluent Monitor Setpoints 1.1 Liquid Ra @aste Effluent Line Monitors Liquid Ra@aste Effluent Line Monitors provide alam and auto-matic temination of release prior to exceeding the concentra-tion limits specified in 10CFR20, Appendix B, Table II, Column To meet this 2 at the release point to the unrestricted area. specification and for the purpose of inplementation of speci-ficatico 3.3.7.11 of the REIS, the alam/ trip setpoints for liquid effluent nonitors and fim measurement devices are set to assure that the following equation is satisfied: cf ( F+f C (1) where: = the effluent concentration limit (REIS Specification C 3.11.1.1) inplernenting 10CFR20 for the site, in uCi/ml. = 'Ihe setpoint, representative of a radioactivity concen-c tration in uti/ml, of the radioactivity monitor measuring the radioactivity in the waste tank effluent line prior to dilution and subsequent release; the setpoint, which' is inversely proportional to the vehmetric flow of the effluent line and directly proportional to the volumetric i flow of the dilution stream plus the waste tank effluent stream, represents a value which, if exceeded, would result in concentrations exceeding the limits of 10CFR20 in the unrestricted area. . Rev. 0 - 8/82 GRAND GUIE, UNIT 1 1.0-1

= the waste tank effluent flow setpoint as measured at the f radiation nonitor location, in voltne per unit time, but in the same units as F, below. = the dilution water flow setpoint as measured prior to the j F release point, in voltme per unit time. At Grand Gulf Unit 1, the available dilution water flow (F) 1 should be constant for a given release, and the waste tank flow (f) and nonitor setpoint (c) are set to neet the condition of equation 'Ibe method by which this 1 for a given effluent concentration, C. is accouplished is as follows: 'Ihe isotopic concentration for a waste tank to be relamaad is Step 1) obtained from the sun of the measured concentrations as dete 4.11.1.1.1-1: mined by the analysis required in the RETIS Table (2) 2 C + ( C, + C, + C ) t Cg= g where: the sun of concentrations C of each masured {C g = g ganna emitter observed by gama-ray spectroscopy of the waste sanple. the stun of concentrations C, of alpha snitters in C, = liquid waste as neasured in the monthly conposite l sanple. the measured concentrations of Sr-89 and Sr-90 in C, = i liquid waste as observed in the quarterly ocuposite sanple. \\ l ) Rev. 2 - 5/84 grate GUIE, UNIT 1 1.0-2

= .o = nea n en ua m 3 h @ d wasu as Ct determined fran analysis of the monthly mite sanple. i term will be included in the analysis of each waste %eC g tank batch to be released; terms for alpha, strontiums, and tritium may be included if analysis of reactor water has shown the presence of these isotopes. S e measured radionuclide concentrations are used to calculate Step 2) a Dilution Factor, D.F., which is the ratio of total dilution flow rate to waste tank effluent flow rate required to assure 4 that the limiting concentration of 10CFR20, Appendix B, Table II, Coltam 2 are net at the point of discharge. 2 = Ci x s, y, D.F. MPCf (3) C C C, C, t = x S. F. 2 MPC MPC MPC g a s t i Where: C, C,, C,, and C ; measured concentrations as I C = g t g defined in Step 1. Terms C,, C,, and C will be t included in the calculation as appropriate. MPCy= MPC, MFC,, and MPC are limiting concentra-t g tions of the appropriate radionuclide fran 10CFR20, f Appendix B, Table II, Colum 2. For dissolved or entrained noble gases, the concentration shall be limitad l to 2.2 -4 uCi/ml total activity. l Rav. 2 -.5/84 GRAIO GUIE, UNIT 1 1.0-3 i L:-. ^ - - - 1 y

an administrative safety factor nomally applied at Grand S.F. = Onlf which causes the calculated Dilutim Factor to be two (2) times larger than the dilution factor required for otmpliance with 10CFR20 limits. The maxima pemissible waste tank effluent fim rate prior to Step 3) alculated based on a fixed fraction of the dilution, f, is d dilution flw rate, F

d F

for F IdgFd+I I4) d d d d y E7. D.F. J where: 1 0.9 x minim m expected dilution flow rate F = d mRXimE Pemissible waste tank effluent flow rate fd" Dilution Factor frm Step 2. D.F. = Equation 4 is valid only for D.F.>1; for D.F.I1, the waste NOIE: tank effluent oorcentration meets the limits of 10CFR20 with-out dilution, and f may e m any deshed Mue. d The dilution flow rate setpoint for minim a dilution flw Step 4) rate, F, and waste tank flow rate setpoint for maximum waste tank effluent flow rate, f are calculated as follows: (5) 1 d = 0.9 x minian expected dilution flow rate F F = d = 0.9 x caldaW mh wah M nw f = 0.9 x f rate for the stated release (6) conditions. Rev.1 - 7/83 GRNO GUIE, tJNIT 1 1.0-4 t l

'4 9 %us, a control rocrn alann occurs if the dilution flow rate falls below the asstrned flow rate of 90 percent of the actual dilution flow, or if the waste tank effluent flow ra'te exceeds 90 percent of the calculated maxinzn waste tank effluent flew rate, and the release is terminated. The radioactivity rronitor setpoint may now be specified based Step 5) on the values cf fC, F, and f which were specified to g provide ccrrpliance with the limits of 10cm20, Appendix B, S e monitor response is primarily to Table II, Coltr.n 2. therefore, the actual setp int is based on gantna radiation; S e setpoint concentration, C,is de W C.g as follows: f 9 (uci/ml) (7) d C C* ='y l (af g where f, is the actual (or maximan expected) effluent flow The value of C, (uCi/ml) is used to detennine the rate. monitor setpoint (CIN) frcrn the calibration curve of Figure 1.0-1. The setpoint contains a factor of conservatisrt, even if the NOTE: calculated naxinum waste tank flow rate is attainable, since the calculated rate contains the safety factor margin, waste tank effluent flow rate margin, and the dilution flow rate In practice, the actual waste tank effluent flow rate margin. normally is many tines less than the calculated tank flow rate, thus providing an additional conservatism during release. Dev. 0 - 8/82 1.0-5 GRM O GULF,LNIT 1

c Figure 1.0-1 Calibrction Curva kr Liquid Efflu:nt Moniter 10-2__ L is -C . p ;.;.h O - _./ I. .1.. '.. a-1 y >, M,..,.g,._,.u _2 . _ _.. r.r _.f -. ,,m -:! i. h.~ p; la. 8,M:-::.n ,. *..f. p :,.-i E. :... f ~' y

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--- -_ --g =y= 55=. T2- - =, e. nA - m'= 5 10' ~ 10-8 3 10' 10 1 2 10 10 10 Count Rate (Counts Per Minute) 1.0-6 Rev.{ Grand Gulf. Unit 1 i i j l

1.2 Dose Calculation for Liquid Effluents '1he dose contribution to the maxinun e_W individual 1.2.1 fra all radimuclides identified in waste tank liquid effluents released to unrestricted areas is calculated for the purpose of implementing RETS Specifications 1 3.11.1.2, 4.11.1.2 and 4.11.1.3.1 using the following expression: (1) m A 6t C F M&m) (8) hu " iTm g 3 l'1 i where: Site-related ingestion dose ommitment factor, A = iTau in millirm/hr per uCi/ml. K U E T = g p g g and length of the 1 th time period over which Cg3 6t = 3 are averaged for all waste tank liquid releases, F 3 in hours. average concentration of radionuclide i nhaanrad in C = g3 the undiluted waste tank liquid effluent during tine fr m any liquid release fr a the waste perioddt 3 tank, in uCi/ml. Concentrations are determined primarily frm a ganma isotopic analysis of the waste tank liquid effluent sanple. For Sr-89, ^ Sr-90, H-3, the last neasured value fra the most recent nonthly and quarterly omposite sanples will be used in the dose calculation. Note: LID values are not used in dose calculations. Dev.1 - 7/83 1 G W O GU1F, UNIT 1 1.0-7 1

during near field average dilution factor for C g F = 9 Defined as the ratio any liquid effluent release. of the average undiluted liquid waste fic5r during release to the product of the average flow from the site discharge structure to unrestricted receiving waters tim s the applicable factor of 5(2) average undiluted liquid waste flow average flow frm site discharge x 5 = units ocnversion factor 1.14 x 10 X, h = I6 3 10 ml 2 8766 hr 10 pCi x = uCi Eg yrj (3) adult fish consunption (21 kg/yr) U = p Bioaccurm11ation factor for each nuclide, i, in BF = g fish, in pCi/kg per pCi/1 frun Table 1.2-1 (tr. ken frm Beference 3, Table A-1). Dose cxriversion factor for each nuclide,1, for DFg= + adults in preselected organ, Tau, in rren/pci, frcra Table 1.2-2 (taken fra Reference 3, Table E-11). for radienuclides which might be observed Calculated values of Agg in liquid effluents is given in Table 1.2-3. 1 ) f Rev. 0 - 8/82 1.0-8 GRA!O Gulf, LNIT 1

T__AB E 1.2-1_ BIQACCGUIATIN FACIORS (BFi) (pCi/kg per pCi/ liter)* 1 FRESHWATER INVERITBRATE FISH _ ELDENT 9.Te01 9.0E-01 H 9.1E+03 4.6E+03 C

2. 2+02 1.N+02 NA 2.m+04 1.0E+05 P

2. 2+03 2.E+02 CR 9.N+04 4.2+02 eti 3.2E+03 1.T+02 FE 2.N+02 5.m+01 CD 1.T+02 1.2+02 NI 4.N+02 5.2+01 CU 1.2+04 2.T+03 ZN 3.3E+02 4.2E+02 BR 1.T+03 2.2+03 RB 1.2+02 3.N+01 SR 1.0E+03 2.5E+01 Y

6.7E+00 2 3.3E+00 ZR 1.T+02 3.M+04 NB 1.T+01 1.2+01 MO

5. 2 400 1.5E+01

'IC 3.m+02 1.M+01 RU 3.2+02 1.M+01 RH 6.1E+03 4.T+02 TE 5.0E+00 1.SE+01 I 1.OE+03 2.T+03 CS 2.m+02

4. m+00 BA 1.m+03 2.5E+01 IA 1.0E403 1.0E+00 CE 1.N+03 2.5E+01 PR 1.0E+03 2.5E+01 ND 1.m+01 1.2E+03 W

4.N+02 1.2+01 NP taken fmn Eferen 3, We R

Values in Table 1.2-1 are i

Bev. 2 - 5/84 1.0 GRNO GUIE, UNIT 1

i M BLE 1.2-2 Page 1 of 3 INGESTION DOSE OJNVERSION FACIORS FOR ADULTS (DFi) (mren per pCi ingested) NUCLIDE BCME LIVER T.BCDY 'DfYROID XIDNEY 11MG GI-LLI H 3 NO DATA 1.05E-07 1.05E-07 1.05E-07 1.05E-07 1.05E-07 1.05E-07 C 14 2.84E-06 5.68E-07 5.68E-07 5.68E-07 5.68E-07 5.68E-07 5.6 NA 24 1.70E-06 1.70E-06 1.70E-06 1.70E-06 1.70E-06 1.70E-06 1.7 P 32 1.93E-04 1.20E-05 7.46E-06 NO DATA NO DATA NO DATA 2.17E-05 CR 51 NO DATA NO DAM 2.66E-09 1.59E-09 5.86E-10 3.53E-09 6.69E-07 m 54 NO DATA 4.57E-06 8.72E-07 NO DATA 1.36E-06 NO DATA 1.40E-05 m 5G NO DATA 1.15E-07 2.04E-08 NO DATA 1.46E-07 NO DATA 3.67E-06 FE 55 2.75E-06 1.90E-06 4.43E-07 NO DATA NO DAM 1.06E-06 1.09E-06 FE 59 4.34E-06 1.02E-05 3.51E-05 NO DATA NO DATA 2.85E-06 3.40E-05 CD 58 NO DATA 7.45E-07 1.67E-06 NO DATA NO DATA NO DATA 1.51E-05 CD 60 NO DATA 2.14E-06 4.72E-06 NO DATA NO DATA NO DAM 4.02E-05 NI 63 1.30E-04 9.01E-06 4.36E-06 NO DATA NO DATA NO DATA 1.88E-06 NI 65 5.28E-07 6.86E-08 3.13E-08 NO DATA NO DATA HD DAM 1.74E-06 CU 64 NO DAM 8.33E-08 3.91E-08 NO DATA 2.10E-07 NO DATA 7.10E-06 ZN 65 4.84E-06 1.54E-05 6.96E-06 NO DATA 1.03E-05 NO DATA 9.70E-06 ZN 69 1.03E-06 1.97E-08 1.37E-09 NO DATA 1.28E-08 NO mTA 2.96E-09 BR 83 NO DATA NO DATA 4.02E-08 NO DATA NO DATA NO DATA 5.79E-08 BR 84 NO DATA NO DATA 5.21E-08 NO DATA NO DATA NO DATA 4.09E-13 BR 85 NO DATA NO DATA 2.14E-09 NO DATA NO DATA NO DATA LT E-24 RB 86 NO DATA 2.11E-05 9.33E-06 NO DATA NO DATA NO DATA 4.16E-06 RB 88 NO DATA 6.05E-08 3.21E-08 NO DATA NO DATA NO DATA 8.36E-19 i RB 89 NO DATA 4.01E-08 2.82E-08 N3 DATA NO DATA NO DATA 2.33E-21 SR 89 3.08E-04 NO DATA 8.84E-06 NO DATA NO DATA NO DATA 4.94E-05 l SR 90 7.58E-03 NO DATA 1.86E-03 NO DATA NO DATA NO DATA 2.19E-04 SR 91 5.67E-06 NO DATA 2.29E-07 NO DATA NO DATA NO DATA 2.70E-05 l SR 92 2.15E-06 NO DATA 9.30E-08 NO DATA NO DATA NO DATA 4.26E-05 Y 90 9.62E-09 NO DATA 2.58E-10 NO DATA NO DATA NO DATA 1.02E-04 Y 91M 9.09E NO DATA 3.52E-12 NO DATA-NO DATA NO DATA 2.67E-10 .Y 91 1.41E-07 NO DATA 3.77E-09 NO DAM NO DATA NO DATA 7.76E-05 Y 92 8.45E-10 NO DATA 2.47E-11 NO DATA-NO DATA NO DATA 1.48E-05 Values taken fran Reference 3, Table E-11. ~ I ^ Rev. 0 - 8/82 GRAPD GUIE, LMIT 1 1.0-10 -n-O - - - .-e ,+-,e -, e a we wm, - +,- 6 -n ,~+.,,--e --n-e - w.~go w-w .g-e, vw-- .m,, w, - -

mBIZ 1.2-2 (Continued) 4 Page 2 of 3 INramION DOSE CDNERSION FACIDRS FOR ADUL ^ (mrern per pCi ingested)

yr n m E BONE IJVER T.BCDY

'INYROID KIDNEY 11NG GI-ILI l 2.68E-09 NO DATA 7.40E-11 NO DATA NO DAM NO DATA 8.50E-05 ER 95 3.04E-08 9.75E-09 6.60E-09 NO DATA 1.53E-08 NO DATA 3.09E-05 Y 93 ER 97 1.68E-09 3.39E-10 1.55E-10 NO DATA 5.12E-10 NO DATA 1.05E-04 NB 95 6.22E-09 3.46E-09 1.86E-09 NO DATA 3.42E-09 NO DATA 2.10E ; 60 99 NO DATA 4.31E-06 8.20E-07 NO DATA 9.76E-06 NO DATA 9.99E-06 'IC 99M 2.47E-10 6.98E-10 8.89E-09 NO DATA 1.06E-08 3.42E-10 4.13E-07 'IC101 2.54E-10 3.66E-10 3.59E-09 No DATA 6.59E-09 1.87E-10 10E-21 RU103 1.85E-07 No DATA 7.97E-08 NO DATA 7.06E-07 NO DATA 2.16E-05 RU105 1.54E-08 NO Dhm 6.08E-09 No DATA 1.99E-07 NO DAM 9.42E-06 RD106 2.75E-06 No DATA 3.48E-07 NO DATA 5.31E-06 No DATA 1.78E-04 AG110M 1.60E-07 1.48E-07 8.79E-08 NO DATA 2.91E-07 No DATA 6.04E-05 TE125M 2.68E-06 9.71E-07 3.59E-07 8.06E-07 1.09E-1.07E-05 4 'IE127M 6.77E-06 2.42E-06 8.25E-07 1.73E-06 2.75E-0 2.27E-05 l TE127 1.10E-07 3.95E-08 2.38E-08 8.15E-08 4.48E-07 NO D 8.68E-06 TE129M 1.15E-05 4.29E-06 1.82E-06 3.95E-06 4.80E-5.79E-05 hE129 3.14E-08 1.18E-08 7.65E-09 2.41E-08 1.32E-07 NO D 2.37E-08 TE131M 1.73E-06 8.46E-07 7.05E-07 1.34E-06 8.57E 8.40E-05 TE131 1.97E-08 8.23E-09 6.22E-09 1.62E-08 8.63E-08 No D 2.79E-09 TE132 2.52E-06 1.63E-06 1.53E-06 1.80E-06 1.57E-05 NO D 7.71E-05 I 130 7.56E-07 2.23E-06 8.80E-07 1.89E-04 3.48E-06 NO D 1.92E-06 I 131 4.16E-06 5.95E-06 3.41E-06 1.95E-03 1.02E-05 NO D 1.57E-06 I 132 2.03E-07 5.43E-07 1.90E-07 1.90E-05 8.65E-07 NO D 1.02E-07 I 133 1.42E-06 2.47E-06 7.53E-07 3.63E-04 4.31E-06 NO 2.22E-06 I 134 1.06E-07 2.88E-07 1.03E-07 4.99E-06 4.58E-07 No D 2.51E-10 I 135 4.43E-07 1.16E-06 4.28E-07 7.65E-05 1.86E-06 NO D 1.31E-06 CS134 6.22E-05 1.48E-04 1.21E-04 NO DATA 4.79E-05 1.59E-05 2.59E-06 CS136 6.51E-06 2.57E-05 1.85E-05 No DATA 1.43E-05 1.96E-06 2.92E-06 CS137 7.97E-05 1.09E-04 7.14E-05 NO DAM 3.70E-05 1.23E-05 2.11E-06 CS138 5.52E-08 1.09E-07 5.40E-08 NO DATA 8.01E-08 7.91E-09 4.65E-13 BA139 9.70E-08 6.91E-11 2.84E-09 NO DAM 6.46E-11 3.92E-11 1.72E-07

Values taken from Reference 3, Table E-11.

Rev. 0 - 8/82 1.0-11 GRAtO GUIE,IMIT 1

~ s f TABLE 1.2-2 (Continued) Pa p 3 of 3 INPSION DC%T CENVERSION FACIORS FOR ADULTS ( ~ (mrem per pci ingested) NUrTM BCNE IlVER T.BCDY THYPOID KIDNEY IANG GI-III' BA140 2.03E-05 2.55E-08 1.33E-06 No DATA 8.67E-09 1.46E-08 4.18E-05 BA141 4.71E-08 3.56E-11 1.59E-09 No DATA 3.31E-11 2.02E-11 2.22E-17 I EA142 2.13E-08 2.19E-11 1.34E-09 NO DATA 1.85E-11 1.24E-11 3.00E-26 \\ IA140 2.50E-09 1.26E-09 3.33E-10 NO DATA NO DATA NO DATA 9.25E-05 IA142 1.28E-10 5.82E-11 1.45E-11 NO DATA 10 DATA No DATA 4.2SE-07 CE141 9.36E-09 6.33E-09 7.18E-10 NO DATA 2.94E-09 No DATA 2.42E-05 CE143 1.65E-09 1.22E-06 1.35E-10 No DATA 5.37E-10 NO DATA 4.56E-05 E144 4.88E-07 2.04E-07 2.62E-08 No DATA 1.21E-07 NO DATA 1.65E-04 PR143 9.20E-09 3.69E-09 4.56E-10 NO DATA 2.13E-09 NO DATA 4.03E-05 PR144 3.01E-11 1.25E-11 1.53E-12 No DATA 7.05E-12 No DATA 4.33E-18 ND14'i 6.20E-09 7.27E-09 4.35E-10 NO DATA 4.25E-09 No DATA 3.49E-05 W 187 1.03E-07 8.61E-08 3.01E-08 NO DATA NO DATA No DATA 2.82E-05 NP239 1.19E-09 1.17E-10 6.45E-11 N0 DATA 3.65E-10 No DATA 2.40E-05 Values taken from Reference 3, Table E-11. f b t - s V t i 1 \\ Rev. 0 - 8/82 1 1.0-12 GRAto GJIE, 'JNIT 1 \\ a s L

m. ws ,etv. s r. , + :.... e.u. ...:.~,7. y c r ;. .1, .... x ..=.c u

. v.,.. z.

TABLE 1.2-3 Page 1 of 2 GRAW GUIE SITE REIATED INGESTICN DOSE CCM4ITNENT FACICR, A,pg 1 (mren/hr per uCi/ml)

NLrT.mE BCNE LIVER T.BCDY

'lHYROID KIENEY IANG GI-LLI_ H-3 0.00E+00~ 2.26E-01 2.26E-01 2.26E-01 2.26E-01 2.26E-0 C-14 3.13E+04 6.26E+03 6.26E+03 6.26E+03 6.26E+03 6.26E Na-24 4.07E+02 4.07E+02 4.07E+02 4.07E+02 4.07E+02 4.07E P-32 4.62E+07 2.87E+06 1.79E+06 0.00E+00 0.00E+00 0.00 ' 2 Cr-51 0.00E+00 0.00E+00 1.27E+00 7.61E-01 2.81E-01 1.69E ) Mn-54 0.00E+00 4.38E+03 8.35E+02 0.00E+00 1.30E+03 0.00 Mn-56 0.00E+00 1.10E+02 1.95E+01 0.00E+00 1.40E+02 0.00 Fe-55 6.58E+02 4.55E+02 1.06E+02 0.00E+00 0.00E+00 2.54 Fe-59 1.04E+03 2.44E+03 9.36E+02 0.00E+00 0.00E+00 6.82 Co-58 0.00E+00 8.92E+01 2.00E+02 0.00E+00 0.00E+00 0.00 Co-60 0.00E+00 2.56E+02 5.65E+02 0.00E+00 0.00E+00 0.00 Ni-63 3.11E+04 2.16E+03 1.04E+03 0.00E+00 0.00E+00 0.00 Mi-65 1.26E+02 1.64E+01 7.49E+00 0.00E+00 0.00E+00 0.00 Cu-64 0.00E+00 9.97E+00 4.68E+00 0.00E+00 2.51E+01 0.00 Zn-65 2.32E+04 7.37E+04 3.33E+04 0.00E+00 4.93E+04 0.00 Zn-69 4.93E+01 9.43E+01 6.56E+00 0.00E+00 6.13E+01 0.00 Br-83 0.00E+00 0.00E+00 4.04E+01 0.00E+00 0.00E+00 0.00 Br-84 0.00E+00 0.00E+00 5.24E+01 0.00E+00 0.00E+00 0.00 BR-85 0.00E+00 0.00E+00 2.15E+00 0.00E+00 0.00E+00 0.00E l Rb-86 0.00E+00 1.01E+05 4.71E+04 0.00E+00 0.00E+00 0.0 RI> 88 0.00E+00 2.90E+02 1.54E+02 0.00E+00 0.00E+00 0.00E Rb-89 0.00E+00 1.92E+02 1.35E+02 0.00E+00 0.00E+00 0.00E Sr-89 2.21E+04 0.00E+00 6.35E+02 0.00E+00 0.-00E+00 0.00E Sr-90 5.44E+05 0.00E+00 1.34E+05 0.00E+00 0.00E+00 0.00E+ Sr-91 4.07E+02 0.00E+00 1.64E+01 0.00E+00 0.00E+00 0.00E Sr-92 1.54E+02 0.00E+00 6.68E+00 0.00E+00 0.00E+00 0.00E Y-90 5.76E-01 0.00E+00 1.54E-02 0.00E+00 0.00E+00 0.00E+ Y-91m 5.44E-03 0.00E+00 2.11E-04 0.00E+00 0.00E+00 0.00E+ Y-91 8.44E+00 0.00E+00 2.26E-01 0.00E+00 0.00E+00 0.00E Y-92 5.06E-02 0.00E+00 1.48E-03 0.00E+00 0.00E+00 0.00E Y-93 1.60E-01 0.00E+00 4.43E-03 0.00E+00 0.00E+00 0.00E+ Zr-95 2.40E-01 7.70E-02 5.21E-02 0.00E+00 1.21E-01 0.00E+ Zr-97 1.33E-02 2.68E-03 1.22E-03 0.00E+00 4.04E-03 0.00E Nb-95 4.47E+02 2.48E+02 1.34E+02 0.00E+00 2.46E+02 0.00 M>-99 0.00E+00 1.03E+02 1.96E+01 0.00E+00 2.34E+02 0.00 Tc-99m 8.87E-03 2.51E-02 3.19E-01 0.00E+00 3.81E-01 Tc-101 9.12E-03 1.31E-02 1.29E-01 0.00E+00 2.37E-01 6 Ru-103 4.43E+00 0.00E+00 1.91E+00 0.00E+00 1.69E+0 Ru-105 3.69E-01 0.00E+00 1.46E-01 0.00E+00 4.76E+00

Calculated frcan Equation 8.

Rev. 2 - 5/84 1.0-13 GRA E GUIF, UNIT 1

... ~ _- 4 TABLE 3.2-3 (Continued) Page 2 of 2 GRAND GUIE SITE RELATED INGFSTION DOSE COMI7NENT FACIOR, A i iTau (mresn/hr per uCi/ml) * { NLr7 iM BCNE LIVER T.BCDY 'IHYROID KIDICI IANG GI-III mu-106 6.58E+01 0.00E+00 8.33E+00 0.00E+00 1.27E+02 Ag-110m 8.81E-01 8.15E-01 4.84E-01 0.00E+00 1.60E+00 0.00E+00 3 Te-125m 2.57E+03 9.30E+02 3.44E+02 7.72E+02 1.04E+0 > 127m 6.48E+03 2.325+03 7.80E-02 1.66E+03 2.63E+04 0 Te-127 1.05E+02 3.76E+01 2.28E+01 7.80E+01 4.29E+02 'It-129m 1.10E+04 4.11E+03 1.74E+03 3.78E+03 4.60E+04 'I&-129 3.01E+01 1.13E+01 7.33E+00 2.31E+01 1.26E+02 Te--131m 1.65E+03 8.10E+02 6.75EM2 1.2BE+03 8.21E+0 Te-131 1.89E+01 7.88E+00 5.96E+00 1.55E+01 8.26E+01 '14-132 2.41E+03 1.56E+03 1.47E+03 1.72E+03 1.50E+04 I-130 2.71E+01 8.01E+01 3.16E+01 6.79E+03 1.25E+02 0.00E+ l I-131 1.49E+02 2.14E+02 1.22E402 7.00E+04 3.66E+02 0.00E+ I-132 7.29E+00 1.95E+01 6.82E+00 6.82E+02 3.11E+01 0.00E+ I-133 5.10E+01 8.87E+01 2.70E+01 1.30E+04 1.55E+02 0.00E+ I-134 3.81E+00 1.03E+01 3.70E+00 1.79E+02 1.64E+01 0.00E+ I-135 1.59E+01 4.17E+01 1.54E+01 2.75E+03 6.6BE+01 0.00E+ Cs-134 2.98E+05 7.09E+05 5.79E+05 0.00E+00 2.29E+05 7. Cs-136 3.12E+04 1.23E+05 8.86E+04 0.00E+00 6.85E+04 '9 Cs-137 3.82E+05 5.22E+05 3.42E+05 0.00E+00 1.77E+05 5 Cs-138 2.64E+02 5.22E+02 2.59E+02 0.00E+00 3.84E+02' 3 Ba-139 9.29E-01 6.62E-04 2.72E-02 0.00E+00 6.19E-04 3.75 Ba-140 1.94E+02 2.44E-01 1.27E+01 0.00E+00 S.30E-02 1.4 Ba-141 4.51E-01 3.41E-04 1.52E-02 0.00E+00 3.17E-04 1.93 Ba-142 2.04E-01 2.10E-04 1.28E-02 0.00E+00' 1.77E-04 1.1 la-140 1.50E-01 7.54E-02 1.99E-02 0.00E+C0 0.00E+00 0.0 La-142 7.66E-03 3.48E-03 8.68E-04 0.00E+00 0.00E+00 0.0 Ce-141 2.24E-02 1.52E-02 1.72E-03 ' O.00E+00 7.04E-03 0. Ce-143 3.95E-03 2.92E+00 3.23E-04 0.00E+00 1.29E-03 0.0 Oe-144 1.17E+00 4.88E-01 6.27E-02~ 0.00E+00 2.90E-01 0.0 Pr-143 5.51E-01 2.21E-01 2.73E42 0.0CE+00 1.27E-01 0.00 Pr-144' 1.80E-03 7.48E-04' 9.16E-05' O.00E+00 4.22E-04 0.0 Nd-147 3.76E-01 4.35E-01 2.60E-02 C'.00E+00 2.54E-01 0.0 W-187 2.96E+02 2.47E+02 8.65E+01. 0.00E+00 0.00E+00 0.00E+ Np-239 2.85E-02 2.80E-03 1.54E-03 0.COE+00 P 74E-03 0.00E+00 5.

calculated fran Equation G.

r ~ T ,A w Dev.1 - 7/83 ( l, s. GRidO GUIE, tMIT 1 1.0-14 l k f . -.. :. f., #-, + ,.*/.. _.. . - - - =. ,t.,

1.3 Liquid Radwaste Treatment System The essential ocuponents of the liquid radwaste treatment systen for the CPERABILITY requirement of NEPS Specification 3/4.11.1.3 are indicated below by an asterisk (*). seem

I m.au 1 M.

r 4, g Uns*Eun i @k h77., ".z, 3 ' r. = 1P u ,.A7.Milii P. -

==,,,,L. = , L._

== = L.

=

L. = = - .= ram m y%

""m* ".".

-3 m i.:. '=:::l-l" =. m,,,,,, qP q, .~..,:., e _e -H'" ,, -. ~.m-e

ge-.

2 m== amum = = ww =

==,===,nfitz susr=. Lama _q,

== = = - - +- t

suo=

- wrt a===== o.om =DEDM N I.= j = l~ NOTES'Ihe essential ocznponents outlined above are those necessary to collect, 1. process and sanple liquid radwaste prior to discharge to the environment. Only one of the following is required in order to process liquid waste. 2. ~ a. Fquipnent drain filter b. Floor drain filter Equipuent drain'denineralizer c. Floor drain demineralizer d. One of the Waste surge Tanks may be used to replace the Floor Drain Waste 3 Collection Tank. (A CONON SYSTM SCALED TO A PER UNIT B5 SIS) GRAND GUIF, UNIT 1 1.0-15 Rev. 2 - 5/84

II i 2.0 GASTUJS EFEHIENTS Gaseous Effluent Monitor Setpoints 2.1 For, the purpose of inpleentation of Specification 3.3.7.12 of 2.1.1 the REIS, the alam setpoint level for continuous ventilation noble gas nonitors will be calculated as follows: Count rate of vent noble gas nonitor at alarm setpoint S = y level 0.25 x R x D t g (1) the lesser of k or = l D,, R, x 1 0.25 x (

Where, safety factor allowing for cunulative uncertainties of 0.25 =

neasurernents Dose rate limit to the total body of an individual at the D = g Site Boundary required to limit dose to 500 mrem in one year. (X/Q) KE ( I 500 mern) g 1 = Dose rate limit to the skin of the body of an individual D,, = at the Site Boundary required to limit dose to 3000 inrem in one year. 1+1.1M)E ( I 3000 W = (X/Q) (L g g i ount rate per mrem /yr,to the total body R = t l X/Q K Q C l = pg s \\ Rev. 3 - 5/84 2.0-1 GPMO GULF, UNIT 1

Nhere, count rate of the vent monitor corresponding to grab C

= sanple radionuclide wsxchations highest' sector annual average atmospheric dispersion a't X/Q = the Site Boundary 3 5.176 x 10~

sec/m in the WSW rector.

= total body dose factor due to gama emissions from each K = g noble gas radionuclide i (mren/yr per uCi/m ) frm Table 2.1-1. ( = rate of release of noble gas radienuclide i (uci/sec) 3 from the release point count rate per mrem /yr to the skin R, = 3 X/Q (Lg + 1.1 M ) Qg =C g i skin dose factor due to beta emissions fra isotope i L = g 3 (mrm/yr per uCi/m ) from Table 2.1-1 mrem skin dose per mrad air dose 1.1 = air dose factor due to ganma missions fra isotope i M = y 3 (mrad /yr per uCi/m ) from Table 2.1-1 \\

Value taken frm Reference 4, Table 6.1.26.

) GRNO GUIE, UNIT 1 2.0-2 Rev. 3 - 5/84 '~ ,x

2.1.2 TEXT DELETED _ 2 Innv. 2 - 5/84 grate GUIE, IMIT 1 2.0-3

NOTES h calculated setpoint values will be regarded as upper bounds for 1) the actual setpoint adjustments. h t is, setpoint adjustnents are not required to be performed if the existing setpoint level corre-sponds to a lower count rate than the calculated value. A nore conservative setpoint may be calculated to mininuze require-2) ments for adjustment of the monitor as follows: 500 mran/yr 3 D = g 3000 mren/yr D,, = consewah com e p WK 2 & W % R = t (Xe-133 detection, Kr-89 dose) 3 C' i (X/O x K x Q" ) = i

Where, Assigned release rate value of, for exanple,1.0 uCi/sec, 3

Q" = Xe-133. (See definition of C' below.) count rate of vent monitor for an effluent concentration of C' = Xe-133 corresponding to a 1.0 uCi/sec release rate of Xe-133, (Note: Calculate the related concentration based on dilution flow.) total body dose factor for Kr-89, the nost restrictive K = isotope, frun Table 2.1-1. conservative count rate per mrem /yr to the skin R," = ~ X/Q x (L + 1.lM) x Q" 3 C' = i_ Where skin dose factor for Kr-89, the nost restrictive isotope, L = frun Table 2.1-1, R8V 5/84 GRAND GUIE, UNIT 1 2.0-4 i

i =. air dose factor for 73-89, the most restrictive isotope, M i fr m Table 2.1-1. i t i i 3 1 t I 1 I I 1 m, 3 5/84 GRAlt Gm F, UNIT 1 2.0-5 =-~~-w -....._,.;__7,,_., - -. - -. ~,,,.... _, _, _,.

,i TABIE 2.1-1 DOSE FACIORS FOR EXPCSURE TO A SDE-D4 FINITE CLOUD & NCELE GA . Nuclide_ Y-Body * * (K) i B-Skin ** (L) i Y-Air *00i B-Air * (N)i Kr-85m 1.17E+03*** 1.46E+03 1.23E+03 1.97E+03 Kr-85 1.61E+01 1.34E+03 1.72E+01 1.95E+03 Kr-87 5.92E+03 9.73E+03 6.17E+03 1.03E+04 Kr-88 1.47E+04 2.37E+03 1.52E+04 2.93E+03 Kr-89 1.66E+04 1.01E+04 1.73E+04 1.06E+04 Kr-90 1.56E+04 7.29E+03 1.63E+04 7.83E+03 Xe-131m 9.15E+01 4.76E+02 1.56E+02 1.11E+03 4 Xe-133m 2.51E+02 9.94E+02 3.27E+02 1.48E+03 Xe-133 2.94E+02 3.06E+02 3.53E+02 1.05E+03 Xe-135m 3.12E+03 7.11E+02 3.36E+03 7.39E+02 Xe-135 1.91E+03 1.86E+03 1.92E+03 2.46E+03 Xe-137 1.42E+03 1.22E+04 -1.51E+03 1.27E+04 Xe-138 8.83E+03 4.13E+03 9.21E+03 4.75E+03 Ar-41 8.84E+03 2.69E+03 9.30E+03 3.28E+03 I Values taken frczn Beference 3, Tesle B-1 mrad - m8 i uci - yr mrem - m2 l f uci - yr ~ 1.17 x 10

- - 1.17E+03

= 1 GRA!O GUIE, UNIT 1 2.0-6 Rev. 0 - 8/82

Gaseous Effluent Dose Calculations 2.2 For the purpose of inp1 mentation of Specification 2.2.1.a 3.11.2.1.a, the dose at the Site Boundary due to noble gases 2 shall be calculated as follows: average total body dose rate in current year D = g (mrem /yr) T O X/Q LKy g = average skin dose rate in current year (mrum/yr) D, = X/Q (Lg + 1.1 M ) Og g = organ doses due to tritiun, I-131, I-133 and all radioactive 2.2.1.b materials in particulate form, with half-lives greater than eight days will be calculated for the purpose of implenentation of Specification 3.11.2.1.b. as follows: average organ dose rate in current year (mren/yr) D = g Wm g Qg W P = i centro 111ng sector annual average atnespheric disper-W = sion at the site Boundary for the appropriate pathway. 2 3 for inhalaticn in the NSW 2 i X/Q = 5.176 x 10-6* sec/m sector. -8*,-2 for other pat N ays in the (DTQ 1.301 x 10 = SSE* sector

Value taken from Beference 4, Table 6.1.26.

~ Bev. 2 - 5/84 GRM O GUIE, UNIT 1 2.0-7 't V

CM h pm for Mmh 1, W@ F P = g neem /yr per uCi/sec) for a* for inhalation and (m other patlways, fra Table 2.2-1.a-b. average release rate of isotope i of radicioni. e Q = or other radionuclide in particulate fom, with half-life greater than eight (8) days in the current year (uci/sec). For the purpose of inplementation of Specification 3.11.2.2, 2.2.2.a the air dose at the Site Boundary shall be detemined as follows: air dose due to gama emissions fre noble gas D = y radionuclide 1 (mrad) 't 3.17 x 10-8 [yM X/Q' Qg =

=re, X3'

relative concentration for the Site Boundary 3 5.176 x 10 sec/m, in the WSW sector = air dose factor due to gama anissions from noble gas M = 1 3 radienuclide i (mrad /yr per uCi/m ) from Table 2.1-1 mMw miease of die gas numucHde i w W '\\. O = g period of interest (uci) is the inverse of the nunter of seconds -8 Note: 3.17 x 10 per year, and air dose due to beta emissions from noble gas radio-D = D nuclide i (mrad) 3.17 x 10 N XTQ' -8 g g = [ e L Value taken frm Deference 4, Table 6.1.26. Dev. 2 - 5/84 I 2.0-8 GRMO GUIE, UNIT 1 0

a..

there, air dose factor due to beta missicas frm noble gas N

= g 3 radionuclide 1 (mrad /yr per uCi/m ) fra Table 2.1-1 X70'= relative concentration for the Site Boundary 2 3 5.176 x 10 sec/m, in the WSW sector = cmulative release of noble gas radiorwx:lide i over the 1 O = g period of interest (uci). Dose to an individual fr a tritiun, I-131, I-133 and radio-2.2.2.b active naterials in particulate form, with half-lives greater than eight (8) days will be calculated for the purpose of imple-mentation of Specification 3.11.2.3 as follows: dose to an individual fr a radioiodines and radio-D = P nuclides in particulate form, with half-life greater than eight days (mrm) -8 3.17 x 10 3 y, g,i = i

Where, relative concentration at a controlling location fer an W'

= individual is.001 x 10-6** sec/m8 for inhalation in the SW X70' = = sector D3 ' = 4.440 x 10~9** m-2 for other pathways in the g Sector 4* Value taken fr a reference 4 Table 6.1.26 l Values taken fr m Tables 2.2-3 and 2.3-1 i l l Bev. 2 5/84 GRAND GJLF, UNIT 1 2.0-9 L

3 dose factor for radionuclide i, (mren/yr per uCi/m ) or R = g 2. mren/yr per uCi/sec) fra Tables 2.2-2a - d (sa ctmulative release of radionuclide i of iodine or Q' g. = material in particulate form over the period of interest (uci) Pcr the purpose of inplementing Specification 6.9.1, o 2 2.2.2.c RErs, dose calculations will be performed using the above equa-tions with the substitution of average meteorological paraneters which prevailed for the period of the report. '2 Bev. 2 - 5/84 2.0-10 GPMO GUIE, UNIT 1 ~-

TABIE 2.2-la 1 PNIHRAY DOSE F)cwNS (Pi) FOR TECHNICAL SPECIFICATIN 3 Sn3 ION 2.2.1.b Page 1 of 2 7CE GROUP (INFANT) ( N.A. ) (INFANI) GROUND FIANE EVCD 1 ^ ISulwB INHA1ATIm 2.382E+03 H-3 6.468E+02 0.000E+00 C-14 2.646E404 0.000E+00 2.340E+09 NA-24 1.056E+04 1.979E+07 1.542E+07 P-32 2.030E+06 0.000E+00 1.602E+11 CR-51 1.284E+04 7.864E+06 4.700E+06 193-5 4 9.996E+05 1.287E+09 3.900E407 194-56 7.168E+04 1.525E+06 2.862E+00 FE-55 8.694E+04 0.000E+00 1.351E+08 FE-59 1.015E+06 4.562E+08 3.919E+08 CO*-58 7.770E+05 6.194E+08 6.055E+07 CO-60 4.508E406 5.172E+09 2.098E+08 NI-63 3.388E+05 0.000E+00 3.493E+10 NI-65 5.012E+04 4.930E+05 3.020E+01 CU-64 1.498E+04 9.823E+05 3.807E+06 ZN-65 6.468E+05 7.907E+08 1.904E+10 ZN-69 1.322E+04 0.000E+00 3.855E-09 BR-83 3.808E+02 1.011E+04 9.339E-01 BR-84 4.004E+02 3.376E+05 1.256E-22 BR-85 2.044E+01 0.000E+00 0.000E400 RB-86 1.904E+05 1.478E+07 2.234E+10 RB-88 5.572E&O2 5.399E+04 1.874E-44 RB-89 3.206E+02 2.075E+05 4.193E-53 SR-89 2.030E+06 3.560E+04 1.258E+10 SR-90 4.088E+07 0.000E+00 1.216E+11 SR-91 7.336E+04 3.587E+06 3.215E+05 SR-92 1.400E+05 1.233E+06 5.005E+01 Y-90 2.688E+05 7.583E+03 9.406E+05 Y-91M 2.786E+03 1.658E+05 1.876E-15 Y-91 2.450E+06 1.702E+06 5.251E+06 Y-92 1.266E+05 3.060E+05 1.026E401 Y-93 1.666E+05 3.620E+05 1.776E+04 ZR-95 1.750E+06 3.975E+08 8.257E+05 ZR-97 1.400E+05 4.921E+06 4.446E+04 NB-95 4.788E+05 2.291E+08 2.062E+08 MD-99 1.348E+05 6.608E+06 3.108E+08 'IC-99M 2.030E+03 3.013E+05 1.646E+04 'IC-101 8.442E+02 3.253E+04 1.423E-56 RU-103 5.516E+05 1.804E+08 1.055E+05 RU-105 4.844E+04 1.030E+06 3.204E+00 RU-106 1.156E+07 3.590E+08 1.445E+06 Kr-110M 3.668E+06 3.649E+09 1.461E+10 '2.0-11 Rev. 1 - 7/83 GRAto GUIE, WIT 1 t

TABLE 2.2-la (Continued) 1 PA'IMOW Den FAciORS (Pi) FOR nGEICAL SPECIFICA srL-HW 2.2.1.b Page 2 of 2 ( N.A. ) (INFANT) (INFANT) r@ } AGE Q WP GROUND PIANE ISU10PE INHAIATIm 1.508E+08 3.001E+06 TE-125M 4.466E+05 1.037E+09 'IE-127M 1.312E+06 1.395E+05 1.359E+05 4.704E+03 TE-127 2.436E+04 1.392E+09 E-129M 1.680E+06 3.290E+07 TE-129 2.632E+04 4.395E+04 1.678E-07 2.288E+07 E-131M 1.988E+05 1.351E+07 TE-131 8.218E+03 4.929E+07 1.384E-30 7.098E+06 6.513E+07 'IE-132 3.402E+05 I-130 1.596E+06 9.560E+06 8.754E+08 I-131 1.484E+07 2.985E+07 1.053E+12 2.075E+06 1.188E+02 I-132 1.694E+05 9.601E+09 4.259E+06 1-133 3.556E+06 8.402E-10 I-134 4.452E+04 7.578E+05 I-135 6.958E+05 4.210E+06 2.002E+07 CS-134 7.028E+05 3.282E+09 6.801E+10 CS-136 1.345E+05 2.432E+08 5.795E+09 CS-137 6.118E+05 1.337E+09 6.024E+10 CS-138 8.764E+02 5.860E+05 2.180E-22 BA-139 5.096E+04 1.705E+05 2.874E-05 BA-140 1.596E+06 3.352E+07 2.410E+08 BA-141 4.746E+0? 6.762E+04 3.141E-44 BA-142 1.554E+03 7.234E+04 0.000E+00 IA-140 1.680E+05 3.114E+07 1.880E+05 IA-142 5.950E+04 1.269E+06 6.019E-06 CE-141 5.166E+05 2.199E+07 1.366E+07 CE-143 1.162E+05 3.753E+06 1.536E+06 CE-144 9.842E+06 6.761E+07 1.334E+08 PR-143 4.326E+05 0.000E+00 7.845E+05 PR-144 4.284E+03 3.017E+03 1.171E-48 N>-147 3.220E+05 1.441E+07 5.743E+05 W-187 3.962E+04 3.915E+06 2.501E+06 NP-239 5.950E+04 2.823E+06 9.400E+04 1 Inhalation and all tritium pat} ways - mrem /yr per (Ci/m2 Units: Others - m2. mran/yr per uti/sec Values based on standard NUREG-0133, Section 5.2.1 asstmptions unles otherwise indicated. 2.0-12 may.1 - 7/83 GRAND GULF, UNIT 1 Li

TABIE 2.2-1b PKIMdAY DOSE FN3 ORS (Pi) FOR TBOMICAL SPECIFICATIWS 3.11.2.1 and SELTIN 2.2.1.b Page 1 of 2 FGE GROUP ( GIID ) ( N. A. ) { GIID ) ISOIOPE INHAIATIm GROUto PLANE GRS/ANL/MENr H-3 1.125E+03 0.000E+00 1.826E+02 C-14 3.589E+04 0.000E+00 2.991E+08 NA-24 1.610E+04 1.385E+07 1.345E-03 P-32 2.605E+06 0.000E+00 5.781E+09 l CR-51 1.698E+04 5.506E+06 3.636E+05 794-54 1.576E+06 1.625E+09 6.249E+06 j 304-56 1.232E+05 1.068E+06 1.901E-51 FE-55 1.110E+05 0.000E+00 3.566E+08 j IT-59 1.269E+06 3.204E+08 4.943E+08 CS58 1.106E+06 4.464E+08 7.485E+07 CO>-60 7.067E+06 2.532E+10 2.993E+08 NI-63 8.214E+05 0.000E+00 2.272E+10 4 NI-65 8.399E+04 3.451E+05 3.167E-51 CU-64 3.670E+04 6.876E+05 1.087E-05 ZN-65 9.953E+05 8.583E+08 7.801E+08 ZN-69 1.018E+04 0.000E+00 0.000E+00 j l BR-83 4.736E+02 7.079E+03 7.425E-57 BR-84 5.476E+02 2.363E+05 0.000E+00 l BR-85 2.531E+01 0.000E+00 0.000E+00 1 3 f RB-86 1.983E+05 1.035E+07 4.536E+08 RB-88 5.624E+02 3.779E+04 0.000E+00 i l RB-89 3.452E+02 1.452E+05 0.000E+00 SR-89 2.157E+06 2.509E+04 3.756E+08 SR-90 1.010E+08 0.000E+00 8.111E+09 SR-91 1.739E+05 2.511E+06 4.128E-10 SR-92 2.424E+05 8.631E+05 2.724E-48 Y-90 2.679E+05 5.308E+03 3.806E+05 Y-91M 2.812E+03 1.161E+05 0.000E+00 i Y-91 2.627E+06 1.207E+06 1.872E+08 Y-92 2.390E+05 2.142E+05 5.428E-35 Y-93 3.885E+05 2.534E+05 1.207E-07 ZR-95 2.231E+06 2.837E+08 4.763E+08 ZR-97 3.511E+05 3.445E+06 5.471E-01 NB-95 6.142E+05 1.605E408 1.738E+09 l2 ,. Mon-99 1.354E+05 4.626E+06 1.915E+05 E-99M 4.810E+03 2.109E+05 5.394E-18 T-101 5.846E+02 2.277E+04 0.000E+00 W 103 6.623E+05 1.265E+08 3.127E+09 W 105 9.953E+04 7.212E+05 4.590E-25 D 106 1.432E+07 5.049E+08 5.384E+10 E R(M 5.476E+06 4.019E+09 5.259E+08 j 4 GRm o auIr, UNIT 1 2.0-13 may. 2 - 5/84 .. - - i

4 TABLE 2.2-lb (Continued) 1 PA1HO3 DO6E FAC1tRS (Pi) FOR TECHNICAL SPECIFICATIC std ION 2.2.1.b Page 2 of 2 )GE GROUP ( CHIID ) ( N. A. ) ( CHIID )* ~ ISuiwE INHALATICN GROUND PIANE GRS/ANL/ MEAT E -125M 4.773E+05 2.128E+06 4.438E+08 TFe127M 1.480E+06 1.083E+05 3.947E+09 E-127 5.624E+04 3.293E+03 1.254E-08 TFr129M 1.761E+06 2.305E+07 4.091E+09 E-129 2.549E+04 3.076E+04 0.000E+00 TE-131M 3.078E+05 9.459E+06 7.656E+03 E-131 2.054E+03 3.450E+07 0.000E+00 TE-132 3.774E+05 4.96BE+06 7.274E+06 I-130 1.846E+06 6.692E+06 5.271E-04 I-131 1.624E+07 2.089E+07 4.293E+09 I-132 1.935E+05 1.452E+06 1.895E-57 I-133 3.848E+06 2.981E+06 1.017E+02 1-134 5.069E+04 5.305E+05 0.000E+00 I-135 7.918E+05 2.947E+06 8.104E-15 CS-134 1.014E+06 8.007E+09 1.180E+09 CS-136 1.709E+05 1.702E+08 3.452E+07 CS-137 9.065E+05 1.201E+10 1.040E+09 CS-138 8.399E+02 4.102E+05 0.000E+00 BA-139 5.772E+04 1.194E+05 0.000E+00 BA-140 1.743E+06 2.346E+07 3.420E+07 BA-141 2.919E+03 4.734E+04 0.000E+00 BA-142 1.643E+03 5.064E+04 0.000E+00 IA-140 2.257E+05 2.180E+07 4.284E+02 IA-142 7.585E+04 8.886E+05 0.000E+00 CE-181 5.439E+05 1.540E+07 1.078E+07 CE-143 1.273E+05 2.627E+06 1.963E+02 CE-144 1.195E+07 8.032E+07 1.476E+08 PR-143 4.329E+05 0.000E+00 2.815E+07 PR-144 1.565E+03 2.112E+03 0.000E+00 }"J-147 3.282E+05 1.005E+07 1.174E+07 W-187 9.102E+04 2.740E+06 2.176E+00 NP-239 6.401E+04 1.976E+06 1.741E+03 1 Inhalation and all tritium pattways - nren/yr per uCi/m3 thits: Others - m2. mrem /yr per uCi/sec values based on standard NUREG-0133, Section 5.3.1 assm ptions unless otherwise indicated. - Heat consmption assmed 75 percent beef and 25 percent putton. I 2.0-14 Rev.1 - 7/83 GRMD GUIE, UNIT 1

4-I TAstz 2.2-2a PMn990f DOSE FCIORS (Ri) 70R TECit(ICAL SPECIFICATIWS SECrim 2.2.2.b j i i' Page 1 of 2 L AGE GROUP ( INFAlff ) ( N.A. ) ( NANT ) ( M Alff ) ( INFANT ) i ISOIOPE INHAIRrim GROUte P!JHE GRS/CW/MIIK GRS/C N / MEAT VEGETATIW H-3 6.468E+02 0.000E+00 2.382E+03 0.000E+00 0.000E+00 C-14 2.646E+04 0.000E+00 2.340E+09 0.000E+00 0.000E+00 Nh-24 1.056E+04 1.385E+07 1.542E+07 0.000E+03 0.000E+00 P-32 2.030E+06 0.000E+00 1.602E+11 0.000E+00 0.000E+00 CR-51 1.284E+04 5.506EM6 4.700E+06 0.000E+00 0.000E+00 104-54 9.996E+05 1.625E+09 3.900E+07 0.000E+00 0.000E+00 Sci-56 7.168E+04 1.068E+06 2.862E+00 0.000E+00 0.000E+00 FE-55 8.694E+04 0.000E+00 1.351E+08 0.000E+00 0.000E+00 FE-59 1.015E+06 3.204E+08 3.919E+08 0.000E+00 0.000E+00 Co-58 7.770E+05 4.464E+08 6.055E+07 0.000E+00 0.000E+00 CD-60 4.508E+06 2.532E+10 2.098E+08 0.000E+00 0.000E+00 NI-63 3.388E+05 0.000E+00 3.493E+10 0.000E+00 0.000E+00 NI-65 5.012E+04 3.451E+05 3.020E+01 0.000E+00 0.000E+00 CU-64 1.498EM4 6.876E+05 3.807E+06 0.000E+00 0.000E+00 ZN-65 6.468E+05 8.583E+08 1.904E+10 0.000E+00 0.000E+00 ZN-69 1.322E+04 0.000E+00 3.855E-09 0.000E+00 0.000E+00 BR-83 3.808E+02 7.079E+03 9.339E-01 0.000E+00 0.000E+00 BR-84 4.004E+02 2.363E+05 1.256E-22 0.000E+00 0.000E+00 BR-85 2.044E+01 0.000E+00 0.000E+00 0.000E+00 0.000E+00 RB-86 1.904E+05 1.035E+07 2.234E+10 0.000E+00 0.000E+00 RB-88 5.572E+02 3.779E+04 1.874E-44 0.000E+00 0.000E+00 RS-89 3.206E+02 1.452E+05 4.193E-53 0.000E+00 0.000E+00 SR-89 2.030E+06 2.509E+04 1.258E+10 0.000E+00 0.000E+00 SR-90 4.088E+07 0.000E+00 1.216E+11 0.000E+00 0.000E+00 SR-91 7.336E+04 2.511E+06 3.215E+35 0.000E+00 0.000E+00 SR-92 1.400E+05 8.631E+05 5.005E41 0.000E+00 0.000E+00 Y-90 2.688E+05 5.308E+03 9.406E+05 0.000E+00 0.000E+00 Y-91M 2.786E+03 1.161E+05 1.8763-15 0.000E+00 0.000E+00 Y-91 2.450E+06 1.207E+06 5.251E+06 0.000E+00 0.000E+00 Y-92 1.266E+05 2.142E+05 1.026E+01 0.000E+00 0.000E+00 Y-93 1.666E+05 2.534E+05 1.776E+04 0.000E+00 0.000E+00 i ZR-95 1.750E+06 2.837E+08 8.257E+05 0.000E+00 0.003E+00 ZR-97 1.400E+05 3.445E+06

4. 446E+04 0.000E+00 0.000E+00 NS-95 4.788E+05 1.605E+08 2.062E+08 0.000E+00 0.00CE+00 l

M&99 1.348E+05 4.626E+06 3.108E+08 0.000FA00 0.000E+00 K-99M 2.030E+03 2.109E+05 1.646E+04 0.000E+00-0.000E400 K-101 8.442E+02 2.277E+04 1.4235-56 0.000E+00 0.000E+00 RU-103 5.516E+05 1.265E+08 1.055E+05 0.000E+00 0.000E+00 l2 h 105 4.844E+04 7.212E+05 3.204E+00 0.000E+00 0.000E+00 p 206 T.156E+07 5.049E+08 1.445E+06 0.000E+00 0.000E+00 0.000E+00 l AG-110M - 3.068E+06 4.019E+09 1.461E+10 0.000E+00, - Rev. 2 - 5/84 2.0-15 grate GUIE, WIT 1 - - - - - -, _ _ ~ _

TAstz 2.2-2a (Continued) PMIMWf DO6E FACf0RS (Ri) fTR _ TECHNICAL SPECIFICATIms 4.11.2.3 AND __swrim 2.2.2.b Page 2 of 2 AGE GROUP ( INFMFr ) ( N.A. ) ( INFMfr ) ( INFANT ) ( INFANT ) ISOIOPE DG W RTI N GROUND IU NE GS/CW/MIIJC GRS/CCW/ MEAT VBGLTATIm 17.-125M 4.466E+05 2.128E+06 1.508E+08 0.000E+00 0.000E+00 'rE-127M 1.312E+06 1.083E+05 1.037E+09 0.000E+00 0.000E+00 TE-127 2.436E+04 3.293E+03 1.359E+05 0.000E+00 0.000E+00 'IE-129M 1.680E+06 2.305E+07 1.392E+09 0.000E+00 0.000E+00 TE-129 2.632E+04 3.076E+04 1.678E-07 0.000E+00 0.000E+00 '11-131M 1.988E+05 9.459E+06 2.288E+07 0.000E+00 0.000E+00 TE-131 8.218E+03 3.450E+07 1.384E-30 0.000E+00 0.000E+00 TE-132 3.402E+05 4.968E+06 6.513E+07 0.000E+00 0.000E+00 2 l I-130 1.596E+06 6.692E+06 8.754E+08 0.000E+00 0.000EH)0 I-131 1.484E+07 2.089E+07 1.053E+12 0.000E+00 0.000E+00 I-132 1.694E+05 1.452E406 1.188E402 0.000E+00 0.000E+00 I-133 3.556E+06 2.981E+06 9.601E+09 0.000E+00 0.000E+00 I-134 4.452E+04 5.305E+05 8.402E-10 0.000E+00 0.000E+00 I-135 6.958E+05 2.947E+06 2.002E+07 0.000E+00 0.000E+00 CS-134 7.028E+05 8.007E+09 6.801E+10 0.000E+00 0.000E+00 CS-136 1.345E+05 1.702E+08 5.795E+09 0.000E+00 0.000E+00 CS-137 6.118E+05 1.201E+10 6.024E+10 0.000E+00 0.000E+00 CS-138 8.764E+02 4.102E+05 2.180E-22 0.000E+00 0.000E+00 BA-139 5.096E+04 1.194E+05 2.874E-05 0.000E+00 0.000E+00 BA-140 1.596E+06 2.346E+07 2.410E+08 0.000E+00 0.000E+00 BA-141 4.746E+03 4.734E+04 3.141E-44 0.000E+00 0.000E+00 BA-142 1.554E+03 5.064E+04 0.000E+00 0.000E+00 0.000E+00 IA-140 1.680E+05 2.180E+07 1.880E+05 0.000E+00 0.000E400 1A-142 5.950E+04 8.886E+05 6.019E-06 0.000E+00 0.000E+00 CE-141 5.166E+05 1.540E+07 1.366E+07 0.000E+00 0.000E+00 CE-143 1.162E+05 2.627E+06 1.536E+06 0.000E+00 0.000E+00 CE-144 9.842E+06 8.03?E+07 1.334E+08 0.000E+00 0.000E+00 PR-143 4.326E+05 0.000E+00 7.845E+05 0.000E+00 0.000E+00 PR-144 4.284E+03 2.112E+03 1.171E-48 0.000E+00 0.000E+00 10-147 3.220E+05 1.009E+07 5.743E+05 0.000E+00 0.000E+00 W-187 3.962E+04 2.740E+06 2.501E+06 0.000E+00 0.000E+00 NP-239 5.950E+04 1.976E+06 9.400E+04 0.000E+00 0.000E+00 Units: -Inhalation and all trititsn pathways - mrem /yr per tci/m3 Others - m2. mran/yr per uci/sec Values based on standard NUREG-0133, Section 5.3.1 assimptions unless otherwise indicated. 4 GRAtO GUIE, WIT 1 2.0-16 Dev. 2 - 5/84

TABLE 2.2-2b 1 PA'IMIAY DOSE FNawS (Ri) EM TECHNICAL SPECIFICATINS 4 sexfilm 2.2.2.b Page 1 of 2 AGE GROUP ( CHIID ) ( N.A. ) { CHIID ) ( CHIID ) _ ( GIID ) ~ISU1GE INHAIATIm GRWND PIANE GRS/ COW /MIlX GRS/ COW / MEAT VfXETATIm H-3 1.125E+03 0.000E+00 1.570E+03 2.341E+02 4.008E+03 1 C-14 3.589E+04 0.000E+00 1.195E+09 3.834E+08 8.894E+08 NA-24 1.610E+04 1.385E+07 8.853E+06 1.725E-03 3.729E+05 P-32 2.605E+06 0.000E+00 7.775E+10 7.411E+09 3.366E+09 CR-51 1.698E+04 5.506E+06 5.398E+06 4.661E+05 6.213E+06 304-54 1.576E+06 1.625E+09 2.097E+07 8.011E+06 6.648E+08 104-56 1.232E+05 1.068E+06 1.865E+00 2.437E-51 2.723E+03 FE-55 1.110E+05 0.000E+00 1.118E+0B 4.571E+08 8.012E+08 FE-59 1.269E+06 3.204E+08 2.025E+08 6.338E+08 6.693E+08 CD-58 1.10GE+06 4.464E+08 7.080E+07 9.596E+07 3.771E+08 CO-60 7.067E+06 2.532E+10 2.391E+08 3.838E+08 2.095E+09 N1-63 8.214E+05 0.000E+00 2.964E+10 2.912E+10 3.949E+10 NI-65 8.399E+04 3.451E+05 1.909E+01 4.061E-51 1.211E+03 CD-64 3.670E+04 6.876E+05 3.502E+06 1.393E-05 5.159E+05 ZN-65 9.953E+05 8.583E+08 1.101E+10 1.000E+09 2.164E+09 ZN-69 1.018E+04 0.000E+00 1.123E-09 0.000E+00 9.893E-04 BR-83 4.736E+02 7.079E+03 4.399E-01 9.519E-57 5.369E+00 BR-84 5.476E+02 2.363E+05 6.508E-23 0.000E+00 3.822E-11 BR-85 2.531E+01 0.000E+00 0.000E400 0.000E+00 0.000E+00 RFB6 1.983E+05 1.035E+07 8.804E+09 5.816E+08 4.584E+08 RB-88 5.624E+02 3.779E+04 7.150E-45 0.000E+00 4.374E-22 RB-89 3.452E+02 1.452E+05 1.715E-53 0.000E+00 1.642E-26 SR-89 2.157E+06 2.509E+04 6.618E+09 4.815E+0B 3.593E+10 SR-90 1.010E+08 0.000E+00 1.117E+11 1.040E+10 1.243E+12 SR-91 1.739E+05 2.511E+06 2.878E+05 5.292E-10 1.157E+06 SR-92 2.424E+05 8.631E+05 4.134E+01 3.492E-48 1.378E+04 Y-90 2.679E+05 5.308E+03 9.171E+05 4.879E+05 6.569E+07 Y-91M 2.812E+03 1.161E+05 5.198E-16 0.000E+00 1.737E-05 Y-91 2.627E+06 1.207E+06 5.199E+06 2.400E+08 2.484E+09 Y-92 2.390E+05 2.142E+05 7.310E+00 6.959E-35 4.576E+04 Y-93 3.885E+05 2.534E+05 1.573E+04 1.547E-07 4.482I+06 ZR-95 2.231E+06 2.837E+08 8.786E+05 6.106E+08 8.843E+08 ZR-97 3.511E+05 3.445E+06 4.199E+04 7.015E-01 1.248E+07 NF95 6.142E+05 1.605E+08 2.287E+08 2.228E+09 2.949E+08 MD-99 1.354E+05 4.626E+06 1.738E+08 2.456E+05 1.647E+07 'IC-99M 4.810E+03 2.109E+05 1.474E+04 6.915E-18 5.255E+03 'IC-101 5.846E+02 2.277E+04 5.593E-58 0.000E+00 4.123E-29 4.009E+09 3.971E+08 IEJ-103 6.623E+05 1.265E+08 1.108E+05 RU-105 9.953E+04 7.212E+05 2.493E400 5.885E-25 5.981E+04 RD-106 1.432E+07 5.049E+0B 1.437E+06 6.902E+10 1.159E+10 AG-110M 5.476E+06 4.019E+09 1.678E+10 6.742E+08 2.581E+09 Bev. 1 - 7/83 GRAND GUIE, WIT 1 2.0-17 l -w-, e

c TABIE 2.2-2b (Continued) PATHNAY DOSE FACIORS (Ri) MR TECHNICAL SPECIFICATIWS 4.11.2.3 AIO SacrIW 2.2.2.b Page 2 of 2 AGE GIOUP ( GIID ) ( N.A. ) ( GIID ) ( GIID ) ( GIID ) IS010PE IMIALATIW GROUtO PIANE GRS/ COW /MIIK GRS/ COW / MEAT VEGETATIW TE-125M 4.773E+05 2.128E+06 7.377E+07 5.690E+08 3.506E+08 'IE-127M 1.480E+06 1.083E+05 5.932E+08 5.060E+09 3.769E+09 TE-127 5.624E+04 3.293EM3 1.191E+05 1.607E-08 3.903E+05 ) TE-129M 1.761E+06 2.305E+07 7.961E+08 5.245E+09 2.460E+09 TE-129 2.549E+04 3.076E+04 6.166E-08 0.000E+00 7.204E-02 TE-131M 3.078E+05 9.459E+06 2.244E+07 9.815E+03 2.163E+07 j TE-131 2.054E+03 3.450E+07 8.489E-32 0.000E+00 1.349E-14 ) 'IE-132 3.774E+05 4.968E+06 4.551E+07 9.325E+06 3.111E+07 I-130 1.846E+06 6.692E+06 3.845E+08 6.758E-04 1.370E+08 I-131 1.624E+07 2.089E+07 4.333E+11 5.503E+09 4.754E+10 I-132 1.935E+05 1.452E+06 5.129F401 2.429E-57 7.314E+03 I-133 3.848E+06 2.981E+06 3.945E+09 1.304E+02 8.113E+08 I-134 5.069E+04 5.305E+05 3.624E-10 0.000E+00 6.622E-03 I-135 7.918E+05 2.947E+06 8.607E+06 1.039E-14 9.973E+06 CS-134 1.014E+06 8.007EM9 3.715E+10 1.513EM 9 2.631E+10 l2 CS-136 1.709E+05 1.702E+08 2.773E+09 4.426E47 2.247E+08 CS-137 9.065E+05 1.201E+10 3.224E+10 1.334E+09 2.392E+10 CS-138 8.399E+02 4.102E+05 5.528E-23 0.000E+00 9.133E-11 BA-139 5.772E+04 1.194E+05 1.231E-05 0.000E+00 2.950E+00 BA-140 1.743E+06 2.346E+07 1.171E+08 4.384E+07 2.767E+08 BA-141 2.919E+03 4.734E+04 1.210E-45 0.000E+00 1.605E-21 BA-142 1.643E+03 5.064E+04 0.000E+00 0.000E+00 4.105E-39 IA-140 2.257E+05 2.180E+07 1.894E+05 5.492E+02 3.166E+07 IA-142 7.585E+04 8.886E+05 2.904E-06 0.000E+00 1.582E+01 CE-141 5.439E+05 1.540E+07 1.361E+07 1.382E+07 4.082E+08 CE-143 1.273E+05 2.627E+06 1.488E+06 2.516E+02 1.364E+07 CE-144 1.195E+07 8.032E+07 1.326EM8 1.893E+08 1.039E+10 PR-143 4.329E+05 0.000E+00 7.754E+05 3.609E+07 1.575EM8 PR-144 1.565E+03 2.112E+03 2.040E-50 0.000E+00 3.829E-23 ND-147 3.282E+05 1.009E+07 5.712E+05 1.505E+07 9.197E+07 W-187 9.102E+04 2.740E+06 2.420E+06 2.790E+00 5.380E+06 NP-239 6.401E+04 1.976E+06 9.138E+04 2.232E+03 1.357E+07 Units:--Inhalation and all tritiun pathways - mrem /yr per uCi/m8 others - m2. mrem /yr per uti/sec values based an standard NUREG-0133, Section 5.3.1 assunptions unless otherwise indicated. I GPAIO GUIE, UNIT 1 2.0-18 Rev. 2 - 5/84

i i TABLE 2.2-2c 1 PA'IMIAY DOSE F7CIORS (Ri) FTR TECHNICAL SPECIFICATIWS 4.11.2.3 AND Sturim 2.2.2.b Page 1 of 2 AGE GROUP (TEENAGER) ( N.A. ) (mNAGFR) (mNAGER) (mMAGER) i ISOIIFE INHA1ATION GHOUND PIANE GRS/CCE/ MILK GtS/ COW / MEAT wwrATI(N H-3 1.272E+03 0.000E+00 9.941E+02 1.938E+02 2.588E+03 1 C-14 2.600E+04 0.000E+00 4.859E+08 2.040E+08 3.690E+08 NA-24 1.376E+04 1.385E+07 4.255E+06 1.084E-03 2.389E+05 P-32 1.888E+06 0.000E+00 3.153E+10 3.931E+09 1.608E+09 CR-51 2.096E+04 5.506E+06 8.387E+06 9.471E+05 1.037E+07 m-54 1.984E+06 1.625E+09 2.875E+07 1.436E+07 9.320E+08 E 56 5.744E+04 1.068E+06 4.856E-01 8.302E-52 9.451E+02 FE-55 1.240E+05 0.000E+00 4.454E+07 2.382E+08 3.259E+08 FE-59 1.528E+06 3.204E+08 2.861E+08 1.171E+09 9.895E+08 00-58 1.344E+06 4.464E+08 1.095E+08 1.942E+08 6.034E+08 CC)-60 8.720E+06 2.532E+10 3.621E+08 7.600E+08 3.238E+09 NI-63 5.800E+05 0.000E+00 1.182E+10 1.519E+10 1.606E+10 NI-65 3.672E+04 3.451E+05 4.692E+00 1.305E-51 3.966E+02 CD-64 6.144E+04 6.876E+05 3.293E+06 1.713E-05 6.465E+05 ZN-65 1.240E+06 8.583E+08 7.315E+09 8.688E+08 1.471E+09 ZN-69 1.584E+03 0.000E+00 1.760E-11 0.000E+00 2.067E-05 BR-83 3.440E+02 7.079E+03 1.790E-01 5.066E-57 2.911E+00 BR-84 4.328E+02 2.363E+05 2.817E-23 0.000E+00 2.251E-11 BR-85 1.832E+01 0.000E+00 0.000E+00 0.000E+00 0.000E+00 BB-86 1.904E+05 1.035E+07 4.746E+09 4.101E+08 2.772E+08 RB-88 5.456E+02 3.779E+04 3.886E-45 0.000E+00 3.168E-22 i RB-89 3.520E+02 1.452E+05 9.774E-54 0.000E+00 1.247E-26 l SR-89 2.416E+06 2.509E+04 2.674E+09 2.545E+08 1.513E+10 SR-90 1.080E+08 0.000E+00 6.612E+10 8.049E+09 7.507E+11 SR-91 2.592E+05 2.511E+06 2.409E+05 5.794E-10 1.291E+06 SR-92 1.192E+05 8.631E+05 2.277E+01 2.516E-48 1.012E+04 Y-90 5.592E+05 5.308E+03 1.074E+06 7.470E+05 1.025E+08 Y-91M 3.200E+03 1.161E+05 5.129E-18 0.000E+00 2.285E-07 Y-91 2.936E+06 1.207E+06 6.475E+06 3.910E+0B 3.212E+09 Y-92 1.648E+05 2.142E+05 2.828E+00 3.522E-35 2.360E+04 Y-93 5.792E+05 2.534E+05 1.312E+04 1.6BBE-07 4.983E+06 ZR-95 2.688E+06 2.837E+08 1.201E+06 1.092E+09 1.253E+09 ZR-97 6.304E+05 3.445E+06 4.225E+04 9.231E-01 1.673E+07 NB-95 7.512E+05 1.605E+08 3.338E+08 4.251E+09 4.551E+08 MC> 99 2.688E+05 4.626E+06 1.023E+08 1.892E+05 1.293E+07 l K-99M 6.128E+03 2.109E+05 1.055E+04 6.471E-18 5.011E+03 l K-101 6.672E+02 2.277E+04 3.287E-58 0.000E+00 3.229E-29 l 90-103 7.832E+05 1.265E+08 1.513E+05 7.362E+09 5.706E+08 9.040E+04 7.212E+05 1.263E+00 3.900E-25 4.039E+04 p 105 ~ 1.608E+07 5.049E+08 1.799E+06 1.130E+11 1.484E+10 AG-110M 6.752E+06 4.019E+09 2.559E+10 1.345E+09 4.031E+09 D 106 Rev. 1 - 7/83 GR7; > GUIE, UNIT 1 2.0-19

I I TAmr 2.2-2c (Continued) 1 PA'INWAY DOGE FACIORS (Ri) FOR TECHNICAL SPEI'IFICATIW SECTIN 2.2.2.b Pap 2 of 2 AGE GROUP (TEMAGERt ( N.A. ) (7uziAGEB) (TuziAGER) (TE WAGER) ISOIOPE INHA1ATIW GROUND PIANE GRS/ COW /MIIK GRS/ COW / MEAT VII r u CI m E-125M 5.360E+05 2.128E+06 8.863E+07 8.941E+08 4.375E+08 TE-127M 1.656E+06 1.083E+05 3.420E+08 3.816E+09 2.236E+09 E-127 8.080E+04 3.293E+03 9.572E+04 1.689E-08 4.180E+05 TE-129M 1.976E+06 2.305E+07 4.602E+08 3.966E+09 1.508E+09 E-129 3.2%E+03 3.076E+04 2.196E-09 0.000E+00 3.418E-03 TE-131M 6.208E+05 9.459E+06 2.529E+07 1.447E+04 3.24BE+07 E -131 2.336E+03 3.450E+07 2.879E-32 0.000E+00 6.099E-15 TE-132 4.632E+05 4.968E+06 8.581E+07 2.300E+07 7.818E+07 I-130 1.488E+06 6.692E+06 1.742E+08 4.00SE-04 8.276E+07 I-131 1.464E+07 2.089E+07 2.195E+11 3.645E+09 3.140E+10 I-132 1.512E+05 1.452E+06 2.242E+01 1.389E-57 4.262E+03 I-133 2.920E+06 2.981E+06 1.674E+09 7.234E+01 4.587E+08 I-134 3.952E+04 5.305E+05 1.583E-10 0.000E+00 3.854E-03 I-135 6.208E+05 2.947E+06 3.777E+06 5.%3E-15 5.832E+06 CS-134 1.128E+06 8.007E+09 2.310E+10 1.231E+09 1.671E+10 CS-136 1.936E+05 1.702E+08 1.759E+09 3.671E+07 1.708E+08 CS-137 8.480E+05 1.201E+10 1.781E+10 9.634E+08 1.348E+10 CS-138 8.560E+02 4.102E+05 3.149E-23 0.000E+00 6.935E-11 BA-139 6.464E+03 1.194E+05 7.741E-07 0.000E+00 2.472E-01 BA-140 2.032E+06 2.346E+07 7.483E+07 3.663E+07 2.130E+08 BA-141 3.288E+03 4.734E+04 4.922E-46 0.000E+00 8.699E-22 BA-142 1.912E+03 5.064E+04 0.000E+00 0.000E+00 2.269E-39 i IA-140 4.872E+05 2.180E+07 2.291E+05 8.689E+02 5.104E+07 IA-142 1.200E+04 8.886E+05 2.574E-07 0.000E+00 1.868E+00 CE-141 6.136E+05 1.540E+07 1.6%E+07 2.252E+07 5.404E+08 CE-143 2.552E+05 2.627E+06 1.671E+06 3.695E+02 2.040E+07 CE-144 1.336E+07 8.032E+07 1.655E+00 3.089E+08 1.326E+10 PR-143 4.832E+05 0.000E+00 9.553E+05 5.817E+07 2.310E+08 PR-144 1.752E+03 2.112E+03 1.238E-53 0.000E+LO 3.097E-26 ND-147 3.720E+05 1.009E+07 7.116E+05 2.452E+07 1.424E+0S W-187 1.768E+05 2.740E+06 2.646E+06 3.989E+00 7.839E+06 NP-239 1.320E+05 1.976E+06 1.060E+05 3.387E+03 2.097E+07 ,1 Inhalation and all tritium pathways - mresn/yr per uCi/m3 l Units: Others - m8. mresn/yr per uci/sec values based on standard NURD:',-0133, Section 5.3.1 asstsptions unless otherwise indicated. , Rev.1 - 7/83 GRAM GUIE, UNIT 1 2.0-20

4 TABIE 2.2-2d PJmt9& DOSE FACTORS (Ri) FOR TECit41 CAL SPECIFICRTICB I SECTIm 2.2.2.b Page 1 of 2 hGE GROUP ( ADULT ) ( N. A. ) ( ADULT ) ( ADifLT ) ( ADULT )_ ISOIOPE IlttAIMIN GROUlO PIANE GRS/ COW /MIIJC GRS/ COW / MEAT VEGEENTIQi_ H-3 1.264E+03 0.000E+00 7.629D02 3.248E+02 2.260E+03 C-14 1.816E44 0.000EMO 2.634E+08 2.414908 2.276D08 Nh-24 1.024E44 1.385E+07 2.438D06 1.356E-03 2.690E+05 P-32 1.320D06 0.000E+00 1.709E+10 4.651D09 1.403E+09 Ot-51 1.440E+04 5.506E+06 7.187D06 1.772 9 05 1.168E+07 Mi-54 1.400D06 1.625EM9 2.578E+07 2.812D07 9.585E+08 NI-56 2.024E+04 1.068E+06 1.328E-01 4.9585-52 5.082E+02 FE-55 7.208D04 0.000E+00 2.511D 07 2.933E+08 2.096E+08 72-59 1.016D06 3.204E+08 2.326E+08 2.080E+09 9.875E+08 Co-58 9.280EM5 4.464EM8 9.565E+07 3.703E+08 6.252E+08 G F60 5.968D06 2.532E+10 3.082E+08 1.413E+09 3.139E+09 NI-63 4.320E+05 0.000D00 6.729D09 1.888E+10 1.040910 NI-65 1.232D 04 3.451D05 1.219D00 7.405E-52 2.026E+02 CU-64 4.896D04 6.876D05 2.031E+06 2.307E-05 7.841E+05 EN-65 8.640D05 8.583E+08 4.365E+09 1.132E+09 1.009E+09 IN-69 9.200D02 0.000E+00 5.207E-12 0.000EMO 1.202E-05 BR-83 2.408E+02 7.079E+03 1.399E-01 8.648E-57 4.475E+00 BR-84 3.128E+02 2.363E+05 1.6095-23 0.000E+00 2.475E-11 BR-85 1.280E+01 0.000E+00 0.000D00 0.000EMO 0.000E+00 RB-86 1.352D05 1.035E+07 2.604E+09 4.914EM8 2.217E+08 RB-88 3.872E+02 3.779E+04 2.139Er45 0.000E+00 3.428E-22 RD-89 2.560E+02 1.452D05 5.5235-54 0.000EM0 1.385E-26 SR-89 1.400E+06 2.509E+04 1.451E+09 3.014D08 9.961E+09 SR-90 9.920E+07 0.000EMO 4.680E+10 1.244E+10 6.046E+11 SR-91 1.912E+05 2.511E+06 1.377E+05 7.2335-10 1.451EM6 SR-92 4.304904 8.631EM5 9.675E+00 2.334E-48 8.452EM3 Y-90 5.056E+05 5.308E+03 7.511E+05 1.141906 1.410908 ~Y-91M 1.920E+03 1.161D05 1.743E-19 0.000D00 1.527E-08 Y-91 1.704E+06 1.207D06 4.726E+06 6.231E+08 2.814E+09 Y-92 7.352E+04 2.142D05 9.772E-01 2.657E-35 1.603E+04 Y-93 4.216E+05 2.534E+05 7.388D03 2.075E-07 5.517E+06 2R-95 1.768E+06 2.837D08 9.587E+05 1.903E+09 1.194D09 ZR-97 5.232EM5 3.445E+06 2.707E+04 1.292E+00 2.109EM7 1e-95 5.048D05 1.605E+08 2.786E+08 7.748D09 4.79EEM8 N>-99 2.480E+05 4.626E+06 5.741E+07 2.318E+05

426D07 1C-99M 4.160D93 2.109D05 5.553E+03 7.439E-18 5.187D03, 1C-101 3.992D02

-2.277E+04 1.813E-58 0.000E+00 3.5025-29 IEJ-103 5.048E+05 1.265D08 1.389E+05 1.229D10 5.577E+08 l2 RU-105 4.816D04 7.212E+05 5.240E-01 3.533E-25 3.294E+04 RJ-106 9.360E M6 5.049E+08 1.320D 06 1.811E+11 -1.247E+10 AG 110M 4.63tD06 4.019D09 2.198910 2.523E+09 3.979E+09 2.0-21 nov. 2 '5/84 GRAtt GU1F, UNIT 1

I TABLE 2.2-2d (Continued) 1 1 PRIHWAY DOSE FEl%S (Ri) FOR 'IECHNICAL SPECIFICATINS 4.1 l ~ SECTIN 2.2.2.b Page 2 of 2 XGE GROUP ( ADULT ) ( N. A. ) ( ADULT ) ( ADULT ) ( FXTLT ) ~ISufGE INHALATION GROUND PIANE GRS/CCW/MIIK GRS/(XM/ MEAT VEGE'fATIN_ E-125M 3.136E+05 2.128E+06 6.626E+07 1.460E+09 3.927E+08 TE-127M 9.600E+05 1.083E+05 1.860E+08 4.531E+09 1.418E+09 E-127 5.736E+04 3.293E+03 5.278E+04 2.034E-08 4.532E+05 TE-129M 1.160E+06 2.305E+07 3.028E+08 5.698E+09 1.261E+09 E-129 1.936E+03 3.076E+04 9.167E-10 0.000E+00 2.806E-03 TE-131M 5.560E+05 9.459E+06 1.753E+07 2.190E+04 4.428E+07 E-131 1.392E+03 3.450E+07 1.578E-32 0.000E+00 6.575E-15 TE-132 5.096E+05 4.968E+06 7.324E+07 4.287E+07 1.312E+08 I-130 1.136E+06 6.692E+06 1.050E+0B 5.272E-04 9.809E+07 I-131 1.192E+07 2.089E+07 1.388E+11 5.034E+09 3.785E+10 I-132 1.144E+05 1.452E+06 1.342E+01 1.816E-57 5.016E+03 I-133 2.152E406 2.981E+06 9.891E+08 9.336E+01 5.331E+08 I-134 2.984E+04 5.305E+05 9.491E-11 0.000E+00 4.544E-03 I-135 4.480E+05 2.947E+06 2.217E+06 7.644E-15 6.731E+06 CS-134 8.480E+05 8.007E+09 1.345E+10 1.565E+09 1.110E+10 CS-136 1.464E+05 1.702E+08 1.036E+09 4.724E+07 1.675E+0B CS-137 6.208E+05 1.201E+10 1.010E+10 1.193E+09 8.696E+09 CS-138 6.208E+02 4.102E+05 1.786E-23 0.000E+00 7.730E-11 BA-139 3.760E+03 1.194E+05 8.322E-08 0.000E+00 5.225E-02 BA-140 1.272E+06 2.346E+07 5.535E+07 5.917E+07 2.646E+08 BA-141 1.936E+03 4.734E+04 2.677E-46 0.000E+00 9.305E-22 BA-142 1.192E+03 5.064E+04 0.000E+00 0.000E+00 2.463E-39 IA-140 4.584E+05 2.180E+07 1.672E+05 1.385E+03 7.327E+07 IA-142 6.328E+03 8.886E+05 3.503E-08 0.000E+00 4.999E-01 G-141 'J.616E+05 1.540E+07 1.253E+07 3.632E+07 5.097E+08 CE-143 2.264E+05 2.627E+06 1.149E+06 5.547E+02 2.758E+07 G-144 7.776E+06 8.032E+07 1.209E+08 4.928E+08 1.112E+10 PR-143 2.808E+05 0.000E+00 6.923E+05 9.204E+07 2.748E+08 PR-144 1.016E+03 2.112E+03 6.716E-54 0.000E+00 3.303E-26 ND-147 2.208E+05 1.009E+07 5.231E+05 3.935E+07 1.853E+08 W-187 1.552E+05 2.740E+06 1.796E+06 5.912E+00 1.046E+07 NP-239 1.192E+05 1.976E+06 7.385E+04 5.152E+03 2.872E+07 l1 Inhalation and all tritium pathways - mrem /yr per uCi/m s Units: Others - m3. mren/yr per uCi/sec Values based on standard NURDG-0133, Section 5.3.1 assurptions unless otherwi,se indicated. i Rev. 1 - 7/83 2.0-22 GRA!O GUIE, UNIT 1

J TABIE 2.2-3_ CCN1yvJ.TNG gr71MS, IOCATICNS, Ato PATit0LYS_ Origin Distance (for info only)_ Sector Oteters) ' Miles . Pathway Age Group N 1207 0.75 Vegetation Infant - garden tele 1207 0.75 Inhal/Gnd Plane Infant - residence NE 2414 1.50 Inha1/Gnd Plane Infant - residence Child - garden DIE 4023 2.50 Vegetation E 4023 2.50 Vegetation Infant - garden - residence ESE 1207 0.75 Inha1/Gnd Plane Teenager SE 2414 1.50 Vegetation Child - garden SSE 2414 1.50 Vegetation Adult - garden 2 S 4023 2.50 Inha1/Ghd Plane Child - residence SSW 3218 2.00 Inha1/Gnd Plane Infant - hypothetical SW 1432 0.90 Vegetation Child - garden WSW 8047 5.00 Cow / Milk Infant - hypothetical W 8047 5.00 Cow / Milk Infant - hypothetical NNW 7242 4.50 Inhal/Gnd Plane Infant - residence NW 8047 5.00 Cow / Milk Infant - hypothetical telW 2414 1.50 Inha1/Gnd Plane Child - residence Table ha d on 1983 Land Use Census Rev. 2 - 5/84 i GRAND GUIE, UNIT 1 2.0-23 --m-

2.3 Meteorological !tdel The atmospheric dispersion for all gaseous releases is 2.3.1 j calculated using a ground-level, wake-split form of the straight line flow model. 3 atmospheric dispersion (sec/m ) X/Q = 2.03 4 k ru [

Wwre, distance (m) from release point to location of r

= interest plume depletion factor at distance r fran = Figure 2.3-1. wind speed at ground level (m/sec) u = open terrain recirculaticm factor at distance k = 2 r, fran page 2.0-34 the lesser of (,2 + b2)h or[3r = Y

Were, vertical standard deviation (m) of the plume at F

= distance r for ground-level releases under the stability category indicated by T, fran Figure 2.3-2. tsperature differential with vertical separa-T = tion ('K/10Ckn) height of the reactor building = 53.3m. b = \\ ) Rev. 2 - 5/84 GRAND GUIE, UNIT 1 2.0-24

LsF mlative deposition per smit area for all releases is 2.3.2 calculated for a ground level release as follows: 1 D/Q = relative deposition per unit area (m-2) 2.55 (D ) = 9 r

Where, relative deposition rate at distance r for D

= 9 ground level releases from Figure 2.3-3. o k be in i ., ' y m.. s \\- g ,s t

4. \\

i,- s x. ,, ~ ~, ...s s s, s p.-. \\ x ~ s.(s ,~ q,s, \\ w n, _? .. ~ s s <s,.. .s, \\.s' r y, t..,. s ...?. ~ 4 s. .y. - s j g .y N Q\\1 'y ~., _ ' 's . w' x s..,' f s; g; ; s ,,. s

r...

s , s, +, ' X v,% s' 'N w,-- (s , a m e auzi, uscy 1 h i. '. d 2.b,is m v. o - s/s2 s ~,-# '4 +4 4

u

(_

TABIE 2.3-1 ADiOSPHERIC DISPERSION PARAMETERS

FOR TECHNICAL SPECIFICATIONS 4.11.2.2, 4.11.2.3, 4.11.2.5.1 SECIOR MIIES Q

Q [ f -6 ~9 3 N 0.75 1.868 x 10 7.751 x 10 -6 ~9 l RE 0.75 1.129 x 10 5.298 x 10 -9 NE 1.50 2.391 x 10 1.437 x 10 ~ -8 -10 DE 2.50 7.358 x 10 4.341 x 10 -8 -10 E 2.50 8.434 x 10 4.581 x 10 ~I ~9 ESE 0.75 5.134 x 10 3.348 x 10 ~7 ~I SE 1.50 2.628 x 10 1.474 x 10 1.288 x 10 ' ~ ~ SSE 1.50 3.760 x 10 ~7 -10 S 2.50 3.038 x 10 9.074 x 10 1.068 x 10 ' ~ ~ SSW 2.00 5.063 x 10 -6 4.440 x 10 ' l SW 0.90 3.001 x 10 -7 -10 WSW 5.00 3.931 x 10 3.177 x 10 -7 -10 W 5.00 4.259 x 10 3.746 x 10 -10 MM 4.50 3.164 x 10 3.739 x 10 ~ ~7 -10 NW 5.00 1.584 x 10 2.733 x 10 ~7 2.342 x 10'I NNW 1.50 7.237 x 10

Reference:

Grand Gulf Nuclear Station, Envirorsental Report, Table 6.1.28, 6.1.29 and GXX Table 2.2-3. Rev. 3-5/84 GRMO GUIF, UNIT 1 2.0-26

n .,j g f, *,

e 2.4 Definitions of Ganeous Effluents Paraneters

) height of reactor building (m) (2.3.1) O < /,,/' b I = f count rate of the station vent monitor corresponding to D, C = grab sanple radionuclide concentrations (2.1.1) ^ cormt.. rate of station vent nonitor corresponding to a 1.0 a. C' = uCi/ml concentration of Xe-133 (2.1.2) 3 rate for ground level releases fr a 1relativedeposity)(2.2. 2) D = 9 l'igure 2.3-3 (m J average crgan dose rate in current year (mr mi (2.2.1.b) D = g dose to an individual frm radiciodines and radionuclides D = in particulate form, with half-life greater than eight P c'cys (m:m) (2.2.2.b) average skin dose rate in current year (ute:n) (2.2.1.a) D' = s p average total body dose rate in current year (mrm) D y g (2.2.1.a) . ;i ; air dose due to beta suissiens frczn noble gas radio- / Dp; = nuclide i (mrad) (2.2.2.a) fj air dose doe to garrr. enissions from roble gas radio-Dg = / i nuclide 1 (mrad) (2.2.2.a) D/Q = relative deposition per unit area (mY) (2.3.2) plume depletion factor at distance r for appropriate 'r 6 = stability class and offective height'frm Figures 2.3-2 / and 2.3-3. (2.3.1) fraction of current year elapsed at time of calculation F = (2.1.1) i open terrain :ecirculation factor at distance r fr a 'k = Figure 2.3-1 (2.3.1) total body dose factor' for Kr-89, the nest restrictive \\ K = !m isotope (mrem /yr per uCi/m3),.fra Table 2.1-1 (2.1.2) l total bcdy dove facLar due to gama emissions frm ~ ' 'K = v g isotopo i (rr.;m/yr per uCi/m3) fra Table 2.1-1. (2.1.1) a- / ~' y s 1 .,4 Q m, sj!) y,e .u + ,3 2.0-27 Rev. 3 - 5/84 GRMWGUIE, UNIT l'. a. +1 '# hh lsj w, }<.A ' 2

n.. j.--

j, - 2/[ / ~. m

^- .o Definitions of Gaseous Effluents Pararteters (Continued) 2.4 limiting dose rate to the total body based on the limit g= of 500 mrem in one year. (2.1.1) limiting dose rate to the skin based on the limit of D,, 3000 mrem in one year. (2.1.1) = 3 skin dose factor for Kr-89, the nost restrictive isotope L = (mrem /yr per uCi/m2) frm Table 2.1-1 (2.1.2) skin dose factor due to beta snissions from isotope 1 L = g (mrem /yr per uCi/m2) frm Table 2.1-1 (2.1.1) air dose factor for Kr-89, the nost restrictive isotope M = (mrad /y'; per uCi/m8), from Table 2.1-1 (2.1.2) air dose factor due to gama enissions from isotope 1 M = g (mrad /yr per uCi/m2) frm Table 2.1-1 (2.1.1) air dose factor due to beta emissions from noble gas N = g radionuclide 1 (mrad /yr per uCi/m3) frm Table 2.1-1 (2.2.2.a) dose parameter for radionuclide i, (mren/yr per uCi/mS) P = g for inhalation from (m2 mrem /yr per uCi/sec) for other pathways, fr a Table 2.2-1 (2.2.1.b) {z rate of release of noble gas radionuclide i (uCi/sec) g3 of = I (2.1.1) average release rate of isotope i of radiciodine or other Q'g = radionuclide in particulate form, with half-life greater than eight (8) days in the current year (uci/sec) (2.2.1.b) currulative release of noble gas radionulide i over the Q. = period of interest (uCi) (2.2.2.a) 1 Y= cumulative release of radionuclide i of iodine or mate-g rial in particulate form over the period of interest (ucil (2.2.2.b) I I l GRAM) WLF, UNIT 1 2.0-28 Rev. 3 - 5/84 ~ \\

2.4 Definitions of Gaseous Effluents Parameters (Continued) l3 [i assigned release rate value of, for exanple,1.0 uCi/sec, = Xe-133; related to definition of C' for the vent. (Note 3) 3 dose factor for radionuclide i, (mrem /yr per tCi/m3) or R' = g (m2 mrem /yr per uCi/sec) R, count rate per mrm/yr to the skin. (2.1.1) = cmnt raw per mm/g 2 & W %. (2.1.1) R = t R", conservative count rate per mrem /yr to the skin. = (2.1.2) R"t onservative count rate per mrem /yr to the total = body (Xe-133 detection, Kr-89 dose). (2.1.2) distance (m) frcan release point to location of interest r = for dispersion calculation. (2.3.1) 3 l l l l l GRAIO GUIE, IMIT 1 2.0-29 Rev. 3 - 5/84 . 1.

2.4 Definitions of Gaseous Effluents Parameters (Continued) f3 count rate of station vent noble gas monitor at alarm S = y setpoint level. (2.1.1) vertical standard deviation of the pim e with building = wake correction (m). (2.3.1) 6 vertical standard deviation (m) of the plume at distance = r for effective height under stability category indicated by T(m) frcan Figure 2.3-2. (2.3.1) e temperature differential with vertical separation T = ('K/100m). (2.3.1) wind speed at ground level (m/sec). (2.3.1) u = controlling sector annual average atmospheric dispersicn W = at the site boundary for the appropriate pathway (sec/m3). (2.2.1.b) relative concentration for unrestricted areas (sec/m3). W' = (2.2.2.b) X/0 = atmospheric dispersion (sec/m3) (2.3.1)

i/6 =

highest sector annual average atmospheric dispersion at the unrestricted area boundary (sec/m3) (2.1.1) X3' = relative concentration for unrestricted areas (sec/m3) (2.2.2.a) c m c curr, UNIT 1 2.0-30 Rev. 3 - 5/84

Fi..re 2.2-1 Pl.; e Uf?ie.i:in ifIfct fo~ 3G.nc ' frei E ift!es (All /.tmosoneric St&oility Classes) g ~ ( o. f. ,o o i i a i f 1 I l 1 I i/ I I I i i I/ I I I I l l l l / l L l l ~ l l l /l l l l u: C C; w 5- >= 3 w .?- l o, s o J e i /e e e i e e y I e 6 / l i i i i a E. I I f / I i i i I I I f E i i i/ i i i i i i i i g b I i 1/ I I I I I I I I z< e I / I .I I l 1 1 I t; y j 5 J L / w w e as C I-g ue 7,. s

i.

.e

s a

5-o '. l 5-e i e i .i u i. e i e i i e i 11 1 I l l t I i I I I l l /i I Il i I I I I I I I I I I i I ) .i l B C P s.. c'. es.. -, o e, m. e: e. u) o o o s e o o o o e 31'.'fMd NI DNINIYi'i3W NOI.!.3YEt e ) } GRAND GULF, UNIT 1 2,0-31 pev. 0.- 8/82

1

- eatical Sts: da-d Deviation of Material in a Pluma Fi ure 2,2-2

.('.et:ers.ienote Pascuill Sta:iility Class) r n 1000. ., i,,.... e e e. v i e i i.. i s e e e e es., i e i e e s eees ese e s, s.., 3 ) I l 1 1l l 11 f # 1 fl I i i il 1 /T I f I f I II i i i i i i ili/ I / i I 'Iisii /l I i i Ili I I I I l l ll1 1/ I I I l l11 V I I I l f i l)- l l l\\\\ll1l l l l ll%l l l l M Til i 11 / X X / / 17 til l /- / / I /, /. ~ 33

, /

,,._ 5. ; /.. e' .T;. .f 5 .,, f i f,..,.,,n. p..,, e. : / = i e , ei,eI V I fl t/ I fl i 1 il i M i l 1 i iIll A Yl tk' M i 8 lll /l X I l l W l l Im; 4 ,eg l E 5 V VIII I IF 4 l }fT ll M l lIl!ll $5 //!5 EY / j'T .n / / / / .I / / ~ ~ 10 i_/.Il..y_' 5 i' i / / ./ ,?. I ie s. / / I A I l/ li t i i I I i e il i il i i i eiii / /l / I 1/1 i lIi l I i l i l ii l I l l 1 18 1ii l/ l M lllli l l l l llll l l l lllIll [/l

l l Illi-1I lilli l

I Illllll /f / 1 0.1 1.0 10 100 7 r, PLUME TRAVEL DISTANCE (KILOMETERS) I Te seratw e Cr.ange Paseuill

Staniltt, e

with he tent litf *r..'1CO m_1 C a teoortes Cletstficatioe <-1.9 A tatremely wastante .l.. -1.9 to -1.7 5 Moocately unstat,le -1.7 to -1.5 C Slip'itly wastatie -1.5 to -0.5 0 s.evtral -0.5 to 1.5 1 51sently stable 3.5 to 4.0 F Poorratrip stable > 4.0 E tatre w ly statie 2.0-32 Rev. 0 - 8/82 GRAND GULF, UNIT 1

F i ve 2..?-3 Feietive Dep:sition for Ground *_evel Rele scs (2.11 *t.mospneric Stability Classes) .4 m 10-3 ..i,..i. .....i. ,,iie, iie i i i e i eiii. i i e i iilei i l I i le i 1 1 1 1 !!i h l l l'1 I lit I 1 I Iil 1 I l I ii 11 l l l l llll l l l l l 'I l l l1l ll ?- I l p-20e s.... .. i,... l iN.... ., e.iei i i...ii ~ )' l ..Ne, e i i i ieite C i. .eii p t I l : 1i.\\ i l i i l i 1ii I i l I i l1i. y _i l l l l l 1. l l K l l l l l 1lll l l 1ll 1: e l l l Ill ll Xl l l Illli i lll li .r_ E .l t I i g ...,,\\ r C ,.s i iii { _ wm. .e i..... e i i a i i s ie i e iiieisi w i i. eisai c. I I I i 1 l1i l i i e i 1 i!i t% I i i l1ili E I II II: 1 i i i ! III. I \\l i II il I y l I ll li i l i l ll'Il i I Kill ll E %q c g 10-6 s l l l l lll l l l l l lli; l l l lll: N i e i i eis. . i iii.. i i i i e i ii ~' I i l i L i liI 1 1 1 1 I l i li i e i i i i 11 - l l l l !! Ill1 l i l l l Illi i l l I Ill i o l l ll llll l l ll ll11 ll llll l It. r- }. 10 0.1 1.0 10.0 100.0 200.0 [,-

r. PLUr.iE TRAVEL DISTANCE (KILOMETERS) i*

Graph taken from Reference 7. Figure 6 Dev. 0 - 8/82 GRAND GU;.F. UNIT 1 2.0-33 o u I

F i pt 2. 3 l. O PP ~ O f'" 21r. E PC i'* *U. t' i On E &

tO**

A C

C 8

7e i ie g,, d l: iie i e i i liI .e i i e i lI eI l l iii i i e e ll l ! l l 1 I l lii 1 e i i I ) L ll l l l 'l i I llll !I I I l l ll l l l l 'l i !lll l l l 1 l I l. l -i I .!i i i 'll l ll l l l ! ii I. i. I m i ii : i i l = I s J I i i I .= ,/ l ~ .3 i,... /iiei i e i e i p i: : : : i [ te i i i i a /iil i i a i I y { ll i l I i i I / Ill; I ! I i i 9 ll l l l l l 1 / ll l I il I l 5 7 lil ! ! I i / l ll i l I s i / o v E l / l d 6 .x }. l l W 1' 1 e = i z F b,. l b. a-t- w C e (. e .ar 6 3 [3 4 .= li i i e l i i ei i i e E-1ii i i i i ii1-I i 5 lll 1 l 11 l 11_l1 : 1 I I I Ill I lill i I I I l lll l l l l lll l l l l l I ' ~ ~ l l ll l s-i 1. l i .g. r, d o o ei i. e Wolovd Noll338W03 '4 i! 7 s Rev. 0 - 8/82 GRAND GU!.F. UtilT 1 2.0-34 - ~

2.5 GASEOUS PADWAS'IE TREA'NIENT SYSTEM v The essential ocmponents of the GASEOUS RADWASTE TREA3 MENT (OE1 MAS) SYSTEM for the OPERABILITY requirement of REIS Specification 3/4.11.2.4 are indicated below by an asterisk (*). 9 IRIN VENT ltAIT4ETE ETAING ND H O a g CATA!,YTIC I BYPASS LI!E IEDeDEst 40 ocfm M m 2 ^ ItADIATI S Crr Gh5 10 MIN GUDIt FIOt PRIN EXD ty CDEmeSE3t r$ PIPE O ( CDccatut }

owctw, amS HEPA*

HEPA

CF 1 Pelt LEIT) rn.m rI:,m a V

wo ws 3 BLTSING vorrnATIm srs = m 1. The essential c w e.nts included above are those necessary to process gaseous radwaste prior to discharge to the envire==nt. 2. The charcoal beds may be bypassed provided the limits of Technical Specification 3.11.2.1 are not exceeded. 'Ibe charcoal beds will be used as nuch as possible to ensure releases are as low as reason-ably achievable. GRA10 GUIF, UNIT 1 2.0-35 Rev. 3 - 5/84

3.0 RADIOLOGICAL DNIRO@DFIAL MONIN Sampling locations as required in section 3/4'.12.1 of the Radiolo-gical Effluent Technical Specification arap.7escribed in Table 3.0-1 through 3.0-3 and shown on maps in Figures 3.0-1 through 3.0-4. l1 a GRAtO GUIE, UNIT 1 3.0-1

mev.1 - 7/83 i

i

ODCM TABLE 3.0-1 AIR SAMPIER COILECTIN SITES AIR SAMPIERS N WBER FIGURE IOCATICN

AS-1 PG 3.0-3 Southeast of GGNS at the Port Gibson City Barn.

3 _(Sector G Radius 5.5 miles) AS-2 61N 3.0-2 North Northeast of GGNS, on Hwy 61 South across 3 frcan the Yokena Church. (Sector B Radius 13 miles)

AS-3 61 VA 3.0-2 North Northeast of GGNS on Hwy 61 south at the Vicksburg Airport.

(Sector B Radius 18 miles)

AS-4 GJOE 3.0-1 Southwest of GGNS. Glodjo property on Waterloo Road. (Sector L Radius.9 miles) 1 AS-5 'It 3.0-1 South of GGNS behind MP&L training center 3

building. (Sector J Radius.4 miles) AS-6 RS 3.0-1 Northeast of GGNS, South of Grand Gulf Road. (Sector C Radius.8 miles)

AS-7 MP 3.0-1 North of GGNS, located next to the Meteorolo-3 gical 'Ibwer.

(Sector A Radius.8 miles) i AS-8 WR 3.0-1 East of GGNS, located at Maggie Jackson's trailer on Waterloo Road near the Eastern Site Boundary. (Sector E Radius.5 miles) 3

AS-9 G WP 3.0-1 North of GWS, located in Grand Gulf Military Park.

(Sector A Radius 1.5 miles) AS-10 NLT 3.0-3 West Northwest of GWS, located at Newellton, Iouisiana. (Sector P Radius 12.5 miles) AS-ll STJ 3.0-3 West Southwest of GGNS, located at St. Joseph, Ionisiana. (Sector M Radius 13.0 miles)

Technical Specification requirenents

- From Grand Gulf Nuclear Staticm's Annual Radiological Envirtmmental 3 operating Report. l_ GRAtO GU1F, UNIT 1 3.0-2 Rev. 3 - 5/84

CDCM TABIE 3.0-2 MISPFT.TANEXJS COLL 1rTIN SITES PAGE 1 of 3 MIIK SAMPLES (CON 1RL IOCATIN) Figure Alcorn State University

3.0-3 located Southwest of GGS.

(Sector K Radius 10.5 miles) Rosco Johnson fam 3.0-3 Located Southeast of GGNS. (Sector G Radius 9 miles) Hazetta Warren fam 3.0-3 located in Iouisiana West Northwest of GGNS. (Sector N Radius 8.5 miles) CISTERN WATER 1. Trimble Cistern

3.0-4 Iocated east of GGNS at the Trinble 'Ibnant House.

(Sector E Padius.5 miles) 2. Willis Cistern

3.0-3 Iocated at the C.E. Willis house East Northeast of GGNS across frcan the Shiloh Baptist Church.

(Sector D Radius 6 miles) GROUND WATER 1. PGWELL* 3.0-4 PORP GIBSCN WELL - Taken at Port Gibson City Water lifL Station. (Sector G Radius 5.0 miles) 2. GGMPWELL* 3.0-4 GRAND GULF MILITAM PARK - Taken frm faucet at the Grand Gulf Military Park. (Sector A Radius 1.5 miles) 3 3. TRINELL 3.0-4 TRIMBLE house faucet. (Sector E 3 Radius 0.7 miles) 4. IM E BRUIN 3.0-3 Taken fra faucet at the bath house in Lake Bnlin State Park, Iouisiana. (Sector M Radius' 9.5 miles) Technical Specification requirments From Grand Gulf Nuclear Station's Annual Radiological Enviromental Operating Report, l3 1 1 I 1 GRAND GULF, UNIT 1 3.0-3 Rev. 3 - 5/84 J

CDCM TABLE 3.0-2 (CCNTINUED) Page 2 of 3 SURFACE WATER Figure Upstream

3.0-4 4500 ft. upstream of the GGNS l3 outfall to allow adequate mixing of the Mississippi and Big Black Rivers. (Sector Q)

Downstream

3.0-4 5000 ft. downstream of GGNS l3 outfall, near the most southern radia1 well.

(Sector N) Discharge Basin

3.0-4 West of GGS, 0.5 miles, Sector P VEGEIATICN Broad Imaf Vegetation
3.0-4 South of GGNS in the MP&L garden near the training center, or South Southwest in Glodjo garden, or areas adjacent to these gardens.

(Sector J, 0.4 milen) Lake claiborne Willis garden (Sector E, 3.0 miles) Nelson Truck Farm (Sector E, 4.5 miles) Alcorn State University South-west of GGNS (Sector K,10.5 3 miles) FISH SAMPLES Catfish

3.0-4 Downstream of the discharge point in the Mississippi River 3.0-4 Upstream of Discharge Point uninfluenced by Plant Operations.

'Ibchnical Specification requirenents Frun Grand Gulf Nuclear Station's Annual Radiological Envirorunental Operating Report. l3 GRAtO GUIF, UNIT 1 3.0- 3a Rev. 3 - 5/84

CDO4 TABLE 3.0-2 (CCNTDHD) Page 3 of 3 SEDIMENT SAMPLES

Figure 3.0-4 Collected semiannually during the low water periods of the Tidal Basin - sanples taken downstream of the outfall in the vicinity of the boat landing near Hamilitaon Iake outlet and in the Barge Slip.

(Sector N and Q, 2 miles) Collected upstream fran barge SEDOCNT 3 slip at Upper Grand Gulf Landing (Sector R, 2.2 miles) J Technical Specification requirements Fran Grand Gulf Nuclear Station's Annual Radiological Envirornental 3 Operating Report. Rev. 3 - 5/84 GRAND GRE, WIT 1 3.0-3b

CDCM TABLE 3.0-3 TID IDCATICNS Page 1 of 6 FIGURE SECICR MIIE TID NO. IOCATICH

M-00 Maintained in lead shield 3

during the exposure period

M-01 REA Pole-East of Entry Gate at Lake Claiborne 3.0-3 E

3.5 M-02 REA Pole left of Entry Gate Windsor Ruins 3.0-3 L 7.0 M-03 REA Pole-East Side Hwy 61 P.G. Country Club entrance 3.0-3 H 7.0 M-04 MP&L Pole-Hwy 547 North Side Between Twin Power Poles G 6.5 l3 1 M-05 50 yards North of IWy 18 Approximately 5 miles East of U.S. 61 3.0-3 F 9.0 M-06 REA Pole-East of Willows Beyond M4B Church MS Hwy 462 E 8.0

M-07 Port Gibson City Barn AS-1 3.0-3 G

5.5 M-08 West Side Big Black River South Entrance 3.0-3 C 8.5

M-09 Oak Tree Hanger-South Warner Tully Cany 3.0-3 D

3.5

M-10 Entrance Gate Grand Gulf Military Park 3.0-1 R

1.5 M-11 Hwy 61 3 miles North of Big Black River at Twin Tower 3.0-3 C 10.5 M-12 Hwy 61 at AS-2-61 North Yokena 3.0-2 B 13.0 M-13 Hwy 61 IATourneau Hill West Side of Boad 3.0-2 B 15.0

Technical Specification requirements Frtun Grand Gulf Nuclear Station's Annual Radiological Environmental Operating Report.

l3 GRAND GUIE, UNIT 1 3.0-4 Rev. 3 - 5/84

CDm TABLE 3.0-3 (CWTINUED) TID IOCATIms Page 2 of 6 TID'NO. IOCATICH FIGURE SECIOR MIIE

M-14 Hwy 61 AS-3-61VA at Casket (CCNTROL) Capany 3.0-2 B

18.0 M-15 Barge Slip (South edge) 3.0-1 P 1.5 l3

M-16 AS-7 MET Tower 3.0-1 A

0.8 M-17 AS-6-RS Grand Gulf Road 3.0-1 C 0.5

M-18 Railroad Crossing Eastern Site Boundary 3.0-1 F

0.5 M-19 Behind Burn Pit on Fence at Eastern Site Boundary 3.0-1 E 0.5 M-20 Eastern site boundary behind 3 hazardous waste storage area 3.0-1 F 0.5 M-21 AS-5 'It Training Center 3.0-1 J 0.4 l3 M-22 100 yards south of RR Entrance 3 Crossing on West Side 3.0-1 G 0.5 M-23 County Road / Heavy Haul Road 50 Yards North on Power Pole 3.0-1 0 0.5 M-24 Upper Grand Gulf Landing 3.0-1 R 2.2 l3

M-25 Hamilton Lake Boat Launch 3.0-1 N

1.0 M-26 Hamilton Lake Outfall 3.0-1 N 1.5

M-27 South Point Site Boundary 3

200 Yards along Property Line 3.0-1 M 1.5

M-28 AS-4-Glodjo Residence Glodjo 3.0-1 L

0.9 M-29 In sharp curve of Waterloo Road to Waterloo Plantation 3.0-1 K 1.5

M-30 Arnold Acres Trailer Park Entrance 3.0-1 J

1.1 l3

Technical Specification requirements From Grand Gulf Nuclear Station's Annual Radiological Environmental Operating Report.

l3 GRAND GULF, UNIT 1 3.0-5 Rev. 3 - 5/84

N i TABLE 3.0-3 (CCNTINUED) TID IOCATIWS Page 3 of 6 TID'NO. IOCATIN FIGURE SBCIOR MILE M-31 Duplicate TID Installed at designated Site Ntrier M-32 Duplicate TID Installed at designated Site Ntzter

W33 Newellton, Imisiana Water

'Ibwer 3.0-3 P 12.5 3

M-34 Primary Ievee at End of County Road at Point Pleasant, Inuisiana 3.0-3 R

8.0

M-35 Mor Landing - Lake Yucatan 3.0-3 0

8.0

M-36 Curve on 608 Point Nearest GQ4S, at Power Pole 3.0-3 P

5.0 M-37 Winter Quarters Hme 3.0-3 N 8.0

M-38 Iake Bruin State Park Semnd Pole 3.0-3 M

9.5 3

M-39 St. Joseph, Imisiana, Aux.

Water Tank 3.0-3 M 13.0

M-40 International Paper Boad, Appronmately 5 miles frm Site 3.0-3 M

5.0

M-41 Heavy Haul Road - J Pipe on Concrete Block 3.0-1 P

1.0

M-42 Heavy Haul Road Ibrth Iron Gate 3.0-1 Q

1.0

M-43 Gin Lake Entrance 3.0-1 R

1.2

M-44 Truck Bypass on Grand Gulf Boad 3.0-1 C

0.5

M-45 Visitor Center Gate East Side 3.0-1 D

0.5

Technical Specification requirements Frm Grand Gulf Nuclear Statmn's Annual Radiological Enviromental Operating Report.

3 l GRAtO GUIF, UNIT 1 3.0-6 Rev. 3 - 5/84

COCM l TABLE 3.0-3 (CCNTINUED) TID IOCATICNS Page 4 of 6 TID'NO. IOCATICN FIGURE SECIOR MILE

M-46 Power Pole Across frcan Grand Gulf / Waterloo roads intersection 3.0-1 E

1.0

M-47 Bridge 0.6 miles past Rodney Road / Greenwood Road intersection North Side 3.0-3 L

5.2 3

M-48 Property Line Fence 0.4 miles on Greenwood Road on West Side 3.0-3 K

4.8

M-49 Fork in Weathers Road 3.0-3 H

4.5

M-50 Panola Hunting Club Entrance B

5.5 3

M-51 Power Pole 0.5 miles on Gravel Road to Big Black on West Side 3.0-3 C

4.8

M-52 Power Pole-Waterloo Road Marked with White Paint 3.0-1 K

1.0

M-53 Arnold Acres Property Fence Past Trailer Park 3.0-1 H

1.1 3

M-54 Bottan of curve past Arnold's 3

house 3.0-1 G 1.0

M-55 Behind Bonner's Beauty Shop at MSBH Air Sanple 3.0-3 D

5.0

M-56 Hwy 61 South at "All Creatures veterinary Hospital" 3.0-3 G

5.0

M-57 Hwy 61 North Behind the Welcme to Port Gibson sign 3.0-3 F

4.5 t

M-58 Big Bayou Pierre Bridge i

Southwest End 3.0-3 E 5.0 1

M-59 Off Ievee at Winter Quarters 3.0-3 N

5.1 Hunting Canp

Technical Specification requirenents Fran Grand Gulf Nuclear Station's Annual Radiological Enviromental 3

Operating Report. GRMD GUIE, UNIT 1 3.0-6a Rev. 3 - 5/84

CDCM TABIE 3.0-3 (CmrINUED) TID IDCATICNS Page 5 of 6 TID NO. IDCATIN FIGURE SECKR MIIE M-60 Duplicate TID M-61 Protected area fence by the Not vehicle entrance gate Shawn P Onsite M-62 Protected area fence North-east corner MP&L parking lot N parking lot M-63 Protected area fence middle MP&L parking lot N M-64 Protected area fence South-east corner MP&L parking lot M 3 M-65 South protected area fence behind MP&L warehouse L M-66 South protected area fence across frm moling tower K M-67 South protected area fence 3 east end J M-68 East protected area fence across fr m chlorination tank H M-69 East protected area fence near electric bus G M-70 North fen behind turbine bldg. F M-71 133' railway bay C 3 M-72 133' railway bay B M-73 Corner of fence outside control l bldg. P

Technical Specification requirements From Grand Gulf Nuclear Station's Annual Radiological Environmental Operating Report.

l3 GRAND GUIF, UNIT 1 3.0-6b Bev. 3 - 5/84

a CECM TABLE 3.0-3 (CCNTINUED) TID IDCATICNS Page 6 of 6 TID NO. LOCATICN FIGURE SECIOR MILE M-74 Midway of. North fence Not Shawn P Crisite M-75 Corner in fence in front of Maintenance Shop A M-76 Southeast corner SSW Basins A M-77 Protected area fence beside maintenance shop R M-78 Outside vault in Admin. Bldg. Q R-79 Wall in Central Records (middle) Q 3 M-80 Wall in Central Records old library location Q M-81 Inside Admin. Bldg., 2nd floor, northeast wall Q M-82 Tech Support Area Q M-83 'Ibch Support Secretary's office Q 3 M-84 Security Island P M-85 Rotating duplicate

M-86 Bechtel Gate North Site Boundary 3.0-1 B

0.5

M-87 Intersection of Rodney Road

& transmission line-3.0-3 J 3.5

M-88 River mile marker 409.5 3.0-1 A

4.2 M-89 Middle Ground Island 3.0-1 R 4.4 'M-90 Across frm Middle Ground Island 3.0-1 Q 3.5 M-91 Transmission line by pond 3.0-1 J 4.5

Technical Specification requirements Frm Grand Gulf Nuclear Station's Annual Radiological Enviromental Operating Report.

l3 l l l GRMD GUIF, UNIT 1 3.0-6c Rev. 3 - 5/84 l l

l l ! I 3 g l ll ~ g l 1I <a g \\, g I$ !! ll:!ggyll l! ./ \\ / lll ~. l l l lOO ) ;l * *

o e o * /,, "' *_. 'c r
- /

^? Ig I - = - - d. ', v'n A v f 9 /'- 1 u y,._, .. ~ .-~ l -} s' / (*$ K q i / s-s 3 \\y) . f-s 1 ~) s' 3 / t l I ' i.J.,. ~, ~-s, 's 7 M ~ ./ < s .ffrq \\ r' t. i _'t,_ d 7 g j f, p ,, ( 's. - ( ' - I' ( i i g f^ f '\\ ~ tiv,' / ] ' ,,,1 n, .x s,; c ) ,e x_ s s g.- x N-i) .s g ,s., I \\ 'g Qg I\\ g" / \\ i t ,,,,,_/ /I\\ nl / N v/ 5 e C N 1 q_- l ') .\\^ ~ S f 4 / y f Q / ~ wlf' +::&'s_' Nf /' 3f, [' \\ y j-- I a s,_ </ y g ,,g ' 'Q ] s 'f. hQ ( i \\l W' _- [ 2 ) n., % ... ~, V_ ^ 1. 2- _{ .n e-l s i.s. i a s i ~ ..y j' ~ 1 8: 1 \\_ M { E I, ,e l ~ ( s ') +

b.

uj (f / k

n g

.a s MISSISSIPPI POWER & LIGIT COMPANY COLLEC'Em SITE m'nmS GRAND WLF NUCLEAR STATION 0.5 MILE AREA MAP UNIT 1 & 2 FIGURE 3.0-1 ODN 3.0-7 Rev. 3 - 5/84

.o. 3 s ~ DELHI ALLULA ...e CLAN 7o 3 voggNA a l UTIC A n i L Cm.1 Aa.. sc, p A R 1 ,4 S M A2 LEMUR $T ( / kFAYETTE p' WESSON p i BR00stHAVEN FEmmlDAY RIDGECm I VIDAL e NA HEZ M'v 6 b LE GE ND_ O ** -'i a ac ' o-kNE Y,. d TLD LOCATION g Sr.Ath COLLECTION SITE LOCATIONS MISSISSIPPI POWER 8 LIGHT COMPANY GENERAL AREA MAP GRAND GULF NUCLEAR ST ATION UNITS 1 Si 2 FIGURE 3.0-2 ODCM Fev. 1 - 7/83 3.0-8 ... ~

'/ Q'N ' \\ // g/ h O, I L.. s v y Ilil i ') // -~ \\- fj b ' b ~fil= Qh K '~ A ~ s e sa x k.t Q. p ? ~ _L, ~( / i 'i , \\\\, ~ ' ' ~ s._ ,/ e.g \\ h 1 'i ys i g .Aj ~1, . 1 i.,}.M O I Q 't l J. if '\\ Ip" I i"ti .1 k [, .,.. l - i I / \\ /. \\! \\ 's I' s t. ./ s j.1 l[s,./ilf Ay, i n i s c Tj p l ~ b' t' ~ t/ [f- ) N e .gs N v g],e j us \\1 h q MISSISSIPPI POWER & LIGIT COMPANY COLLECTION SITE IOCATIONS GRAND GULF NUCLEAR STATION 0-10 MILE AREA MAP UNIT 1 & 2 FIGURE 3.0-3 ODEM 3.0-9 Rev. 3 - 5/84

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u 9 n TEXT DEIRITD 2 l [ l Dev. 2 - 5/84 GRAW GUIE, TWIT 1 3.0-10 t y c -Lw w n,egewms,+ q-

w Attachment _4 to-AECM-84/0323 4 ~. 1 4 s f t 1 i. i l' MARKUP OF REVISION 1 INCORPORATING THE CHANGES IDENTIFIED IN REVISIONS 2 AND 3 ~ TO THE GGNS ODCM 4 J' 1 h r. l f 4 -l I ,'.f e'tRdb2 ~~ 4 1 2 w ,,y 4 ,e.- z w y .--, e ye?m'- mp-% -y-- g 9 yg y y m.

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? r INNotCTIm_ I is a supporting doctnent of the '1he GTSITE DOSE CAlfUIATIGi MANUAL As such the CDCM IFICATImS. RADIG4GICAL DTIUDE 'ITCHNICAL SPIC to be used in the calculation describes the athodology and parameters id and gaseous effluent a i ] of offsite doses due to radioactive l quous offluent nonitorin the calculation of liquid and gase'Ihe cDCM contains a list a tion alazm/ trip setpoints. for the radiological envi-1 description of the specific sanple locations D%rmm _c. fig u tim of the A ri-i.h w / rcanental nonitoring program. tems e also included. W liquid and gaseous radwaste treatnent sysStation for use as a r '1he CDCM will be maintained at thed methodologies and guide and training docturent of acceptewill be incorporated calculational Fathods or parametersCDOS re Changes in tJe h into the CDCM in order to assure that t eCortputer software methodology in all applicable areas.d current with this @cE. described calculations will be saintaine l l l l ii - Dev. 0 - 8/82 GRAND GUIE, UNIT 1 l -+e --e,-----wr---N,w-- ~ - - -

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~, f s t 3 / - ~, 7 i ,t* t /,- r .- / - l am ~r r, W ef TABLE T CNITNIS I = i Paae ( .. hah 1E NTRNAL 5rurr...................................... i .F' ~ /. ~~ <? , n macrAgIN.................... s........................... ii {l. 2., iii ,e ' T ABLE W CNrDTI S.......................................... r iv ilST & FIGURES............................................ v r LIST T 'DBLrs... n........................................ 7 Vi 12ST CT MTERDCE........................................ LIST T mWFE PAES. ".................................. vii ~.. 1.0I LIQUID EFM2JB.~IS g / ..,e: l'.1 liquid Effluent re.itor Setpointn py 1.1.1 -Liquid Advaste Effluent Line Mcnitors........ 1.0-1 },- 1.2 Dose Calculaticos for Liquid Effluents 1.2.1 Mexi:mm Wsed Individual MMe1.............. 1.0-7 1.3 Liquid RadrasteTreatrent Systam..................... 1.0-15 f i / ~ + f< -2.0 GASDXS EnL7NIS j n A J , 'f ~ 2.1 Gasecus Elfluent M6 niter Setreints t Qejian Monitors............... 2.0-1 gs gJge%h.................... 2.0-3 U 2. 1. 11 ' -M e;- m.a, m 'E2 GmW Eff.hant Dose Calbulations

2. 2 ;1' J;rnstiicted Area Boundary Dose...............

2.0-7 ~ 2.2.2 %vestricted Area Dose to Individual.......... 2.0-8 -v ~2.3. Meteorological Model

2. 3.1 ' A+mospheric Di spersion........................ 2.0-24 2-1 1

w:' 2.3.2 C9positico................................... 2.0-25 2.G!HTiniticAs of Caseous Ef fluents Paraneters.......... 2.0-27 9 G seces 'Aaavaste Treatrent system.................... 2.0-35 f t. ,/- ,2. *,' s N 9 El >o. ,,}, .T..L m2cwc2 CAL nw1Rcw.DCAL MOhTitWNG e ~,. f/ M E 19. 4np11ng locaticere.....,.i...........................

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e i e G X:M I UST CF FIGURES + ~. Figure Title Page 1.0-1 Calibration Curve for Liquid Effluent Monitor........ 1.0-6 2.3-1 P1me Depletion Effect for Ground Invel Releases..... 2.0-31 2.3-2 vertical Standard Deviation of Material in a P1me... 2.0-32 2.3-3 Relative Deposition of Ground-Invel Releases......... 2.0-33 2.3-4 Open Terrain Recirculation Factor.................... 2.0-34 o-sM.E 3.0-1 Collection Site locations, eenenri Area Map.......... 3.0-7 12. 3.0-2 Collection Site Iocations, General Area Map.......... 3.0-8 l1 o-tomita RmMe 3.0-3 Cbilection Site Iocations, Si4e-Passeter............ 3.0-9 }L 3.0-4 - c.., -.< . e - y = :_,.......... 3.0 10 tl i l iv GRAND GUIE, UNIT 1 Dev. 1 - 7/33 v ~. -,,

u r t e Ws IJST T 'DBLES I . Table Title Page s

1.2-1 Bioaccmulation Factors.............................

1. 0-9 1.2-2 Ingestion Dose Factors For Mh11ts................... 1.0-10 1.2-3 Site Related Ingestion Dose Comnitzent Factor.......

1.0-13 2.1-1 Dose Factors for Deposure to a Serni-infinite Cloud of Noble Games................................

2. 0-6 2.2-la PatNay Dose Factors for Technical specification 3.11.2.1 and Secti m 2.2.1.b........................

2.0-11 2.2-lb Pathway Dose Factors for Technical Specification 3.11.2.1 and Section 2.2.1.b........................ 2.0-13 2.2-2a PatNay Dose Factors for Technical Specifications 4.11. 2. 3 and Se ction 2. 2. 2.b........................

2. 0-15 2.2-2b PatNay Dose Factors for hchnical Specificatims 4.11.2.3 and section 2.2.2.b........................

2.0-17 2.2-2c PatNay Dose Factors for Technical Specifications 4.11.2.3 and Section 2.2.2.b........................ 2.0-19 2.2-2d PatNay Dose Factors for hchnical Specifications 4.11.2.3 and Section 2.2.2.b........................ 2.0-21 2.2-3 Controlling Receptors, Iccations and PatNays....... 2.0-23 2.3-1 Atpospheric Dispersicm Paraneters for Technical 1 Specifications 4.11.2.1.1, 4.11.2.2, 4.11.2.,3, 4.11.2.5.1.......................................... 2.0-26 3.0-1 Air Sanpler Collection Sites........................

3. 0-2 3.0-2 Miscellaneous Collection Sites......................

3.0-3 3.0-3 TID Ioca t ions.......................................

3. 0-4 v

s l I GRAND GUIE, UNIT 1 Dev. 1 - 7/83 l-I D v w.-[o, -, -. - -.,, +

f l-I a

1 l. m L T CF RETDENCES 2. Boegli, T. S., R.' R. Bellamy, W. L. Britz, and R. L. Waterfield, " Preparation of~ Radiological Effluent Technical Specifications for Nuclear Power Plants", ( N (October 1978).

t\\ ORE W M 2.

Calculation of Annual Doses to Man frm Ibutine Releases of Reactor Effluents for the Purpose of Evaluating Capliance with 10CFR50, Appendix I, U.S. NRC Regulatory Guide 1.109 (March 1976). 3. Calculation of Annual Doses to Man frm 3butine Releases of Reactor Effluents for the Purpose of Evaluating Ccrpliance with 10CFR50, Appendix I, U.S. NRC Regulatory Guide 1.109, Rev.1 (October 1977). i 4. "Environnental Report", Mississippi Power and Light Cmpany, Grand Gulf Nuclear Station, i;dts I and 2. 5. " Final Safety Analysis Report", Mississippi Power and Light Capany, Grand Gulf Nuclear Station. 6. Methods for Estimating Atm> spheric Transport and Dispersion of Gaseous Effluents in Routine Releases fr m Light - Water - Cooled - Deactors, U.S. NRC Regulatory W ide 1.111 (March 1976). l 7. Methods for Estimating A%peric Transport and Dispersim of Gaseous Effluents in Routine Releases fra Light - Water - (boled Reactors, U.S. NRC Regulatory m ide 1.111, Rev. 1 Quly 1977). vi GWO GUIE, LMIT 1 Rev. 0 - 8/82 ? ~ ~ ^

.e 5 01 LIST & DTirIIVE PAGES g .PAGE REV. PAGE 3Ed. itIO. NO. NO. NO. i 1 2.0-23 0 11, iii 0 2.0-24 0 iv, v 1 2.0-25 0 vi 0 2.0-26 1 vii 1 2.0,-27 0 4 0 1.0-1 0 2.0-34 0 1.0-2 1 2.0-35 1 1.0-3 0 1.0-4 1 3.0-1 1 1.0-5 0 3.0-2 1 1.0-6 1 3.0-3 1 1.0-7 1 3.0-3a 1 1.0-8 0 3.0-4 1 d 0 3.0-5 1 1.0-14 0 3.0-6 1 1.0-15 1 3.0-6a 1 3.0-6b 1 2.0-1 0 3.0-6c 1 j 0 3.0-7 1 2.0-6 0 4 1 2.0-7 1 3.0-10 1 j 1 2.0-22 1 Mi i GUGO GUIE, WIT 1 ',Rev. 1 - 7/83 ~ ~

1.0 LIQUID DTwD7rs 3.1 Liquid Effluent Monitor Set; points f p 1.1 Liquid Rackaste Effluent Line Monitors Liquid Ra&raste Effluent Line Monitors provide alarm and auto-matic temination of release prior to exceeding the concentra-tion limits specified in 20CTR20, Appendix B, Table II, Colu :n 2 at the release point to the unrestricted area. To neet this specification and for the purpose of inplarrentaticn of speci-fication 3.3.7.11 of the 6, the alarm /t. rip setpoints for liquid effluent nonitors and ficw measurenant devices are set to assure that the following egaation is satisfied: cf M< (1) where: C = the effluent concentration limit (m Specification 3.11.1.1) inplerrenting 10CTR20 for the site, in uCi/ml. c = '1he setpoint, representative of a radioactivity concen-tration in uti/ml, of the radioactivity ncnitor measuring the radioactivity in the waste tank effluent line prior to dilution and subsequent' release; the setpoint, which is inversely proportional to the volmetric f1w of the effluent line and directly proportional to the volurretric f3w of the dilution stream plus the waste tank effluent stream, represents a value which, if exceeded, would f result in concentrations exceeding the limits of 200 720 in the unrestricted area. GRAND GU17,IMIT 1 1.0-1 Dev. 0 - 8/82

= the waste tank effluent flow setpoint as seasured at the i radiation monitor location, in volme per unit time, but in the sane units as F, below. = the dilution water flow setpoint as neasured prior to the F release point, in volwe per unit tine. At Grand Gulf thit 1, the available diluticm water flow (F) should be constant for a given release, and the waste tank flow (f) l1 and monitor setpoint (c) are set to meet the ocmdition of equation 1 for a given effluent ocmoentration, C. 'fhe method by which this is acccuplished is as follows: 'Ihe isotopic concentration for a waste tank to be released is Step 1) obtained frcan the se of the neasured concentrations as deter-mined by the analysis required in the REIS Table 4.11.1.1.1-1: l1 ( 1Cg +[C, CI KCg [i + ci = t (2) where: the sun of concentrations C of each seasured 1C = 9 g ganma snitter observed by ganna-ray spectroscopy of the waste sanple. the sun of concentrations C, of alpha emitters in [C, = liquid waste as unasured in the sonthly ecmposite sample. the seasured concentrations of Sr-89 and Sr-90 in {C, = liquid waste as observed in the quarterly vungite sanple. I GlWO GUIE, IMIT 1 1.P2 Dev. 1 - 7/83 I e.- -ac.- --.,---v. -e ...,i,.- .--,,-,,,--.y ,r-,,,, ,e ,.---.,,-w--

the measured concentration of H-3 in liquid waste as C = t detemined frt:rn analysis of the monthly omposite sa.ple. SeC tem will be included in the analysis of each waste 9 tank batch.to be released; tems for alpha, strontiwns, and trititan may be included if analysis of reactor wcter has shown the presence of these isotopes. Step 2) he neasured radionuclide concentrations are used to calculate a Dilution Factor, D.F., which is the ratio of total dilution flow rate to waste tank effluent flow rate required to assure that the. limiting concentration of 20CFR20, Appendix B, Table II, Coltapn 2 are met at the point of discharge. ~ ~ ( S M. N. Cf x 3, p, A ,_ 1 gf M L ~ f C, C, C I + x S. F. g-g" g"+ g 9 ka h .9 h re: C, C,, C,, and C ; neasured concentrations as C i= j 9 t 11 defined in Step 1. hms C,, C,, and Ct included in the calculation as appropriate. MPCg= MPC, MPC,, and MPCt are concenha-9 tions of the appropriate radionuclide frun 10CFR20, Appendix B, Table II, Cblum 2. Ibr dissolved or entrained noble cases, the concentration shall be limited g to 2.0E-4 uti/ml total activity. (mAto GJII. tMIT 1 1 M____ ~ pev. 0 - 8/82

e ,i S.F. = an adrninistrative safety factor normally applied at Grand Gulf which causes the calculeted Dilutim Factpr to be two (2) tims larger than the dilution factor required g for empliance with 10CIR20 limits. Step 3) 'the maximan pemissible waste tank effluent f1w rate prior to dilution, f, is calculaw W m a N fradm of W d dilution f1w rate, Fd

dI#d*Id Fd for F D.r.

rr. d d I4I y where: F = d 0.9 x rh W dilude nw rate 1 fd maxim 3n Pemissible waste tank effluent nw rate = D.F. Dilution Factor frtzn Step 2. = NOII: Fquation4isvalidonlyforD.F.>1; ford.F.II,thewaste tank effluent concentration neets the limits of 10CFR20 with-out dilution, and f may e en an deshed Mue. d Step 4) 'the dilution f1w rate setpoint for miniman dilution now rate, F, and waste tank flow rate setpoint for maximan waste l tank effluent f1w rate, f are calculated as follws: Fd = 0.9 x miniman expected dilution f1w rate (5) l1 F = f = 0.9 x fd = 0.9 x aldaW maxh vam M nw rate for the stated release a =- conditims. (6) GRMc GULF, WIT 1 1.0-4 Rev. 1 - 7/83 ~.

l' 'Ihus, a control rocan alarm occurs if the dilution flew rate falls below the assmed flow rate of 90 percent of thb actual ,J' dilution flow, or if the waste tank effluent ficw rate exceeds 90 percent of the calculated maxinum waste tank effluent ficw rate, and the release is terminated. Step 5) The radioactivity nonitor setroint may ncw be specifi d based e cm the values of f C, F, and f which were spe afied to g prwide ocmpliance with the limits of 10CFR20,' Appendix B, Table II, colur:n 2. 'the nonitor respcnse is primarily to gama radiation; therefore, the actual setpoint is based cm [9 C. '!he setpoint concentration, C, is determined 9 as follows: fig C MW) C, g (7) = 9 where f, is the actual (or maxinum sped) effluent flow rate. 'the value of C, (uCi/ml) is used to determine the monitor setpoint (OH) frcan the calibraticn curve of Figure 1.0-1. NCfE: The setpoint contains a factor of conservatism, even if the calculated maxinum waste tank flow rate is attainable, since the calculated rate contains the safety factor margin, waste tank effluent ficw rate margin, and the dilution ficw rate margin. In practice, the actual waste tank effluent ficw rate normally is many tines Jess than the calculated tan (flow rate, thus prwiding an additional conservatiam during selease. GRAND (ME, LNIT 1 1.0-5 .. Arv. 0 - 8/82 ..ww cyw- -,,,,-,+,,--.,-e,y-, ,w-,-,,y, ,v,-c-,-w% --m-... - -, -.,, - -,

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z. %g...-w. -i

d. b T..> & ' k W 4 $ G. N, U. =. -

n 1. ? J R... % s.e,. q. -vt:m vv= g@-a,n. r '.'- uyi . uh-pn,.e .- g .ec.-=.'-.= h i-p+ys.,- n 3 -u

a_,.

..c _47]i .1 -_- - g-: p===.= 1, =5m -=_ - w.. n mw-a=3:s#=E: a _ - ---= . __. c=3==, p _ - -- _,. n =. _.n_ - L= a = - - -- r. =t.

3:2:-7_r.. = =s

. u sq..= _ 2 3 _=f=r,_ = =. - --- -est=-,w===g.. =0 = = =. _= 22. : L n.. m:x n.,m--_.__ n===-= -s . W y.:r.--,. n: g:

__.==__-. ~

f

==== : :-M:M..-~ w. 5::, = = 10-Scm= lq-W:--,: r4: -L y:-- =-. .x w-r- m 1 2 3 30 10 10 10* 103 1@ Count Rate (Counts per Minute) Crand Gulf. Unit 1 1.0-6 Rev. 1 e

= i near field average dilution factor for C during F = j 3 any liquid effluent release. Defined asIthe ratio p of the average undiluted liquid waste fic5r during release to the product of the average fi m frm. the site discharge structure to unrestricted receiving waters times the applicable factor of 5(2), everage undiluted liquid waste ficw = average f1w frm site discharge x 5 K, mits ocoversim factor 1.14 x 10 = 6 3 10 pCi x 10 ml 2 8766 = uC1 Eg yr) at:lt fish consurption (21 kg/yr) I3I. U = F Bioaccmuladw fam for ea& mclide, i, k BT = fish, in gi/kg per pCi/1 from Table 1.2-1 (take. frtr. Reference 3, Table A-1). Dose conversion factor for each nuclide, i, for Dr = j adults in preselected organ, Tau, in mzem/Ki, frcr. Table 1.2-2 (taken fra Reference 3, Table E-11). Calculated values of A r radionuclides Which might be observed iTau in liquid effluents is given in Table 1.2-3. GRMc GLnE, LMIT 1 1.0-8 Rev. 0 - 8/82 s w ,--v -,,-n--,n-n ...,w ,..,-,,-,,,r-.--- -,,-r--

' TABLE 1.2-1 BIQhCCIMJIMION FACIORS (BFi) f 6 (pci/kg per pci/ liter)* FRESEATER E12 MENT FISH -INVERTEBRATE H _ 9.0E-01

9. m-03 C

[ g. or-u.s 9.1E-03 NA 1.E-02

2. 2-02 P

1. 5 -05 2.2-04

'[h 2.0E-03 CR 2.5-02 0{ $g 0 9.E-04 M4 4.E -02 FE 1.0E-02 3.2E-03 00 5.0E-01 2.E-02 NI 1.E-02 3

1. 2 -02

[d/ CU 5.0E-01 4.E-02 ZN 2.0E-03 V 1.E-04 BR 4.2E-02 3.3E-02 RB 2.E-03 1.0E-03 SR 3.E -01 1.E-02 Y 2.5E-01 1.E-03 ER 3.3E-00 6.7E-00 NB 3.0E-04 1.E-02 PD 1.K-01 1.K-01 'IC 1.5E-01 5.E-00 RD 1.0E-01 3.2-02 RH 1.0E-01 3.OE-02 4 'IE 4.5-02 6.1E-03 2 1.5E-01 5.0E-00 1 G 2.2-03 1.E-03 BA 4.0E-00 2.E-02 IA 2.5E-01

1. 2 -03 CE 1.0E-00 1.0E-03 PR 2.5E-01 1.E-03 ND 2.5E-01 1.0E-03 l

W 3.2E-03 1.0E-01 NP 1.0E-01 4.CE-02

Values in Table 1.2-3 are taken fran Reference 3, Table A-1.

. =. l awe ans, WIT 1 1.0-9 nev. 0 - 8/s2

TABLE 1.2-2 Page 1 of 3 IN'mn0N DOSE CIINERSION FAC'IORS FOR ADUL'IS OpFi) (mrem per pci ingested) * - h ,. NUCLIDE BCNE LIVER T.BCDY 'DfYROID KIDEY IWG GI-LLI H 3 NO DATA 1.05E-07 1.05E-07 1.05E-07 1.05E-07 1.05E-07 1.05E-07 C 14 2.84E-06 5.6BE-07 5.6BE-07 5.6BE-07 5.6BE-07 5.6BE-07 5.6EE-07 NA 24 1.70E-06 1.70E-06 1.70E-06 1.70E-06 1.70E-06 1.70E-06 1.70E-06 P 32 1.93E-04 1.20E-05 7.46E-06 NO DATA NO DATA NO DATA 2.17E-05 Ot 51 NO DATA NO DATA 2.66E-09 1.59E-09 5.86E-10 3.53E-09 6.69E-07 m 54 NO DATA 4.57E-06 8.72E-07 NO DATA 1.36E- 06 NO DATA 1.40E-05 m 56 NO dan 1.15E-07 2.04E-08 No DAIA 1.46E-07 No DATA 3.67E-06 FE 55 2.75E-06 1.90E-06 4.43E-07 NO DATA NO DAR 1.06E-06 1.09E-06 FE 59 4.34E-06 1.02E-05 3.91E-06 NO DATA NO DATA 2.85E-06 3.40E-05 00 58 NO DATA 7.45E-07 1.67E-06 NO DATA NO DATA NO DATA 1.51E-05 CD 60 NO DATA 2.14E-06 4.72E-06 20 DATA NO DATA NO DATA 4.02E-05 NI 63 1.30E-04 9.01E-06 4.36E-06 NO DATA NO DATA NO DATA 1.8BE-06 NI 65 5.2BE-07 6.86E-08 3.13E-08 NO DATA NO DATA 10 DATA 1.74E-06 CU 64 NO DAR 8.33E-0B 3.91E-08 NO DATA 2.10E-07 NO DATA 7.20E-06 ZN 65 4.84E-06 1.54E-05 6.96E-06 NO DATA 1.03E-05 NO DATA 9.70E-06 ZN 69 1.03E-05 1.97E-08 1.37E-09 NO DATA 1.28E-08 NO DATA 2.96E-09 BR 83 NO DATA NO DATA 4.02E-08 NO DATA NO DATA NO DATA 5.79E-08 BR 84 NO DATA NO DATA 5.21E-08 NO DATA NO DAR NO DATA 4.09E-13 BR 85 NO DATA NO DATA 2.14E-09 NO DATA NO DATA NO DATA LT E-24 RB 86 NO dan 2.11E-05 9.83E-06 No DAR NO DATA NO dan 4.16E-06 RB 88 NO DATA 6.05E-08 3.21E-08 NO DATA No DATA NO DATA 8.36E-19 RB 89 No DATA 4.01E-CB 2.82E-08 NO DATA NO DATA NO DATA 2.33E-21 SR 89 3.OBE-04 NO DATA 8.84E-06 NO DATA NO DATA No DATA.4.94E-05 SR 90 7.5BE-03 NO DATA 1.86E-03 NO DATA NO DATA NO DATA 2.19E-04 SR 91 5.67E-06 NO DATA 2.29E-07 NO DATA NO DATA NO DATA 2.70E-05 SR 92 2.15E-06 NO DATA 9.30E-08 NO DATA NO DATA NO DATA 4.26E-05 Y 90 9.62E-09 NO DATA 2.58E-10 NO DATA NO DATA NO DATA 1.02E-04 Y 91M 9.09E-11 NO DATA 3.52E-12 NO DATA NO DATA NO DATA 2.67E-10 Y 91 1.41E-07 NO DATA 3.77E-09 NO DATA NO DATA NO DhTA 7.76E-05 Y 92 8.45E-10 NO DATA 2.47E-11 NO DATA NO DATA NO DATA 1.4BE-05 Values taken inrn Reference 3, Table E-11. E GRAND GULF, WIT I 1.0-10 Rev. 0 - 8/82

nBII 1.2-2 (Ccmtinued) Page 2 of 3 INGESTION DOSE CDNERSION FAC'IORS FDR ADUL15 bi) (mrem per sci angestad)

t yr7 mr BONE IJVER T.BCDY

'DfYROID KIDNEY ILNG GI-III Y 93 2.68E-09 No m2A 7.40E-11 NO MTA NO mm NO MTA 8.50E-05 ER 95 3.04E-08 9.75E-09 6.60E-09 NO MTA 1.53E-02 NO MTA 3.09E-05 ER 97 1.6BE-09 3.39E-10 1.55E-10 NO mm S.12E-10 ND MTA 1.05E-04 NB 95 6.22E-09 3.46E-09 1.86E-09 NO mTA 3.42E-09 ND M TA 2.10E-05 m 99 NO MTA 4.31E-06 8.20E-07 No MTA 9.76E-06 NO M TA 9.99E-06 K 99M 2.47E-10 6.98E-10 8.89E-09 NO MTA 1.06E-08 3.42E-10 4.13E-07 E101 2.54E-10 3.66E-10 3.59E-09 NO m2A 6.59E-09 1.87E-10 1.10E-21 E103 1.85E-07 ND M TA 7.97E-08 ND mm 7.06E-07 NO MM 2.16E-05 E105 1.54E-08 NO MTA 6.08E-09 NO MTA 1.99E-07 No mn 9.42E-06 E106 2.75E-06 NO MIA 3.48E-07 No M TA 5.31E-06 NO MTA 1.78E-04 AG110M 1.60E-07 1.48E-07 8.79E-08 NO MTA 2.91E-07 No MTA 6.04E-05 E125M 2.68E-06 9.71E-07 3.59E-07 8.06E-07 1.09E-05 to un 1.07E-05 E127M 6.77E-06 2.42E-06 8.25E-07 1.73E-06 2.75E-05 No mm 2.27E-05 TE127 1.10E-07 3.95E-08 2.38E-08 8.15E-08 4.48E-07 NO mn B.68E-06 E129M 1.15E-05 4.29E-06 1.82E-06 3.95E-06 4.80E-05 No mn 5.79E-05 E129 3.14E-08 1.18E-08 7.65E-09 2.41E-08 1.32E-07 NO MTA 2.37E-06 TE131M 1.73E-06 8.46E-07 7.05E-07 1.34E-06 8.57E-06 No mn 8.40E-05 E131 1.97E-08 8.23E-09 6.22E-09 1.62E-08 8.63E-08 No MTA 2.79E-09 TE132 2.52E-06 1.63E-06 1.53E-06 1.80E-06 1.57E-05 No mm 7.71E-05 2 130 7.56E-07 2.23E-06 8.80E-07 1.89E-04 3.48E-06 NO M TA 1.92E-06 I 131 4.16E-06 5.95E-06 3.41E-06 1.95E-03 1.02E-05 NO MTA 1.57E 46 I 132 2.03E-07 5.43E-07 1.90E-07 1.90E-05 8.65E-07 ND mm 1.02E-07 1 133 1.42E-06 2.47E-06 7.53E-07 3.63E-04 4.31E-06 NO MTA 2.22E-06 I 134 1.06E-07 2.0BE-07 1.03E-07 4.99E-06 4.58E-07 NO MTA 2.51E-10 2 135 4.43E-07 1.16E-06 4.28E-07 7.65E-05 1.86E-06 No mTA 1.31E-06 CS134 6.22E-05 1.48E-04 1.21E-04 NO MTA 4.79E-05 1.59E-05 2.59E-06 C5136 6.51E-06 2.57E-05 1.85E-05 NO MTA 1.43E-05 1.96E-06 2.92E-06 CS137 7.97E-05 1.09E-04 7.14E-05 ND mm 3.70E-05 1.23E-05 2.11E-06 CS138 5.52E-08 1.09E-07 5.40E-08 No MTA 8.01E-08 7.91E-09 4.65E-13 m139 9.70E-08 6.91E-11 2.84E-09 No mm 6.46E-11 3.92E-11 1.72E-07

Values taken fzur Reference 3, Table E-11.

=. (: RAND GU1F. LINIT 1 1.0-11 nev. 0 - 8/82

D BII 1.2-2 (Continued) Page 3 of 3 INGESTION DOSE 0]NVERSION FAC'IORS FOR ADULTS (DF'i) (mrum per pci 2.ngested)

NUC1IDE BCIE -

LIVER T.BCDY 'DfY3OID KIINEY IENG GI-III BA140 2.03E-05 2.55E-08 1.33E-06 NO DAR 8.67E-09 1.46E-DE 4.18E-05 BA141 4.71E-08 3.56E-11 1.59E-09 NO D M 3.31E-11 2.02E-11 2.22E-17 BA142 2.13E-08 2.19E-11 1.34E-09 NO DATA 1.85E-11 1.24E-11 3.00E-26 IA140 2.50E-09 1.26E-09 3.33E-10 NO DATA NO DATA NO DATA 9.25E-05 1A142 1.28E-10 5.82E-11 1.45E-11 NO DATA NO DATA NO DATA 4.25E-07 CE141 9.36E-09 6.33E-09 7.18E-10 NO DA'IA 2.94E-09 NO DATA 2.42E-05 CE143 1.65E-09 1.22E-06 1.35E-10 NO Dm 5.37E-10 NO DATA 4.56E-05 3144 4.89E-07 2.04E-07 2.62E-08 NO DM 1.21E-07 NO Dm 1.55E-04 PR143 9.20E-09 3.69E-09 4.56E-10 NO DATA 2.13E-09 No Dm 4.03E-05 PR144 3.01E-11 1.25E-11 1.53E-12 NO DATA 7.05E-12 NO DATA 4.33E-18 ND147 6.29E-09 7.27E-09 4.35E-10 NO DATA 4.25E-09 NO DATA 3.49E-05 W 187 1.03E-07 8.61E-06 3.01E-08 NO DATA NO DATA NO DATA 2.82E-05 HP239 1.19E-09 1.17E-10 6.45E-11 NO DATA 3.65E-10 NO DATA 2.40E-05 Values take.r. frcrn Reference 3, Table E-11. I t i GRAND GUIE, LNIT 1 1.0-12 Rev. 0 - 8/82 -r----

TABIE 1.2-3 Page 1 of 2 GRAND Gulf SITE RELATED INGESTIm DOSE CCPNI'IME2TT M AiTau kr m/hr per uCi/ml) *

f NOFT N BNE LIVER T.BCDY

'DIYROID KIDNEY IANG GI-LLI B-3 0.00E+00 2.26E-01 2.26E-01 2.26E-01 2.26E-01 2.26E-01 2.26E-01 C-14 3.13E+04 6.26E+03 6.26E+03 6.26E+03 6.26E+03 6.26E+03 6.26E+03 Na-24 4.07E+02 4.07E+02 4.07E+02 4.07E+02 4.07E+02 4.07E+02 4.07E+02 W 4.62E+07 2.87E+06 1.79E+06 0.00E+00 0.00E+00 0.00E+00 5.19E+06 b %-SD 0.00E+00 0.00E+00 1.27E+00 7.61E-01 2.81E-01 1.69E+00 3.20E+02 (2. Mn-54 0.00E+00 4.38E+08 8.35E+02 0.00E+00 1.30E+03 0.00E+00 1.34E+04 Mn-56 0.00E+00 1.10E+02 1.95E+01 0.00E+00 1.40E+02 0.00E+00 3.51E+03 Fe-55 6.58E+02 4.55E+02 1.06E+02 0.00E+00 0.00E+00 2.54E+02' 2.61E+02 h-59 1.04E+03 2.44E+03 9.36E+02 0.00E+00 0.00E+00 6.82E+02 8.14E+03 00-58 0.00E+00 8.92E+01 2.00E+02 0.00E+00 0.00E+00 0.00E+00 1.81E+03 Ct>-60 0.00E+00 2.56E+02 5.65E+02 0.00E+00 0.00E+00 0.00E+00 4.81E+03 Ni-63 3.11E+04 2.16E+03 1.04E+03 0.00E+00 0.00E+00 0.00E+00 4.50E+02 Ni-65 1.26E+02 1.64E+01 7.A9E+00 0.00E+00 0.00E+00 0.00E+00 4.17E+02 Cu-64 0.00E+00 9.97E+00 4.68E+00 0.00E+00 2.51E+01 0.00E+00 8.50E+02 En-65 2.32E+04 7.37E+04 3.33E+04 0.00E+00 4.93E+04 0.00E+00 4.64E+04 En-69 4.93E+01 9.43E+01 6.56E+00 0.00E+00 6.13E+01 0.00E+00 1.42E+01 Br-83 0.00E+00 0.00E+00 4.04E+01 0.00E+00 0.00E+00 0.00E+00 5.82E+01 1 Br-84 0.00E+00 0.00E+00 5.24E+01 0.00E+00 0.00E+00 0.00E+00 4.11E-04 BR-85 0.00E+00 0.00E+00 2.15E+00 0.00E+00 0.00E+00 0.00E+00 1.01E-15 Rb-86 0.00E+00 1.01E+05 4.71E+04 0.00E+00 0.00E+00 0.00E+00 1.95E+04 Rb-88 0.00E+00 2.90E+02 1.54E+02 0.00E+00 0.00E+00 0.00E+00 4.00E-09 Rb-89 0.00E+00 1.92E+02 1.35E+02 0.00E+00 0.00E+00 0.00E+00 1.12E-11 Sr-89 2.21E+04 0.00E+00 6.35E+02 0.00E+00 0.00E+00 0.00E+00 3.55E+03 Sr-90 5.44E405 0.00E+00 1.34E+05 0.00E+00 0.00E+00 0.00E+00 1.57E+04 Sr-91 4.07E+02 0.00E+00 1.64E+01 0.00E+00 0.00E+00 0.00E+00 1.94E+03 Sr-92 1.54E+02 0.00E+00 6.68E+00 0.00E+00 0.00E+00 0.00E+00 3.06E+03 Y-90 5.76E-01 0.00E+00 1.54E-02 0.00E+00 0.00E+00 0.00E+00 6.10E+03 Y-91m 5.44E-03 0.00E+00 2.11E-04 0.00E+00 0.00E+00 0.00E+00 1.60E-02 Y-91 8.44E+00 0.00E+00 2.26E-01 0.00E+00 0.00E+00 0.00E+00 4.64E+03 Y-92 5.06E-02 0.00E+00 1.48E-03 0.00E+00 0.00E+00 0.00E+00 8.86E+02 Y-93 1.60E-01 0.00E+00 4.43E-03 0.00E+00 0.00E+00 0.00E+00 5.09E+03 Er-95 2.40E-01 7.70E-02 5.21E-02 0.00E+00 1.21E-01 0.00E+00 2.44E+02 tr-97 1.33E-02 2.68E-03 1.22E-03 0.00E+00 4.04E-03 0.00E+00 8.30E+02 Nb-95 4.47E+02 2.48E+02 1.34E+02 0.00E+00 2.46E+02 0.00E+00 1.51E+Cs M>-99 0.00E+00 1.03E+02 1.96E+01 0.00E+00 2.34E+02 0.00E+00 2.39E+02 Tc-99m 8.87E-03 2.51E-02 3.19E-01 0.00E+00 3.81E-01 1.23E-02 1.48E+01 i 'It-101 9.12E-03 1.31E-02 1.29E-01 0.00E+00 2.37E-01 6.72E-03 3.95E-14 Ru-103 4.43E+00 0.00E+00 1.91E+00 0.00E+00 1.69E+01 0.00E+00 5.17E+02 Ru-105 3.69E-01 0.00E+00 1.46E-01 0.00E+00 4.7bE+00 0.00E+00 2.26E+02

Calculated fr e Equation 8.

( GRAND GU1F, UNIT 1 1.0-13 Bev. 1 - 7/83 L

{ TABLE 1.2-3 (Continued) Pap 2 of 2 g GRAND GUIE SITE RE2ATED INGESTION DOSE CCPEMMENT FACTOR, Ag (mram/hr per UCi/ml' * 'NUCLIDE BCNE LIVEF T.BCDY 'AfYROID RIDNEY 11NG GI '_2 I N-106 6.58E+01 0.00E+00 8.33E+00 0.00E+00 1.27E+02 0.00E+00 4.26E+03 Ag-110m 8.81E-01 8.15E-01 4.84E-01 0.00E+00 1.60E+00 0.00E+00 3.30E*02 3 h -125m 2.57E+03 9.30E+02 3.44E+02 7.72E+02 1.04E+04 0.00E+00 1.02E+04 h -127m 6.40E+03 2.32E+03 7.90E-02 1.66E+03 2.63E+04 0.00E+00 2.17E+04 h-127 1.05E+02 3.78E+01 2.28E+01 7.80E+01 4.29E+02 0.00E+00 8.31E+03 h-129m 1.10E+04 4.11E+03 1.74E+03 3.78E+03 4.60E+04 0.00E+00 5.54E+04 h-129 3.01E+01 1.13E+01 7.33E+00 2.31E+01 1.26E+02 0.00E+00 2.27E+01 h -131m 1.66E+03 8.10E+02 6.75E+02 1.28E+03 8.21E+03 0.00E+00 8.04E+04 Te-131 1.89E+01 7.88E+00 5.96E+00 1.55E+01 8.26E+01 0.00E+00 2.67E+00 h-132 2.41E+03 1.56E+03 1.47E+03 3.72E+03 1.50E+04 0.00E+00 7.38E+04 I-130 2.71E+01 8.01E+01 3.16E+C1 6.79E+03 1.25E+02 0.00E+00 6.89E+01 I-131 1.49E+02 2.14E+02 1.22E+02 7.00E+04 3.66E+02 0.00E+00 5.64E+01 2-132 7.29E+00 1.95E+01 6.82E+00 6.82E+02 3.11E+01 0.00E+00 3.66E+00 I-133 5.10E+01 8.87E+01 2.70E+01 1.30E+04 1.55E+02 0.00E+00 7.97E+01 I-134 3.81E+00 1.03E+01 3.70E+00 1.79E+02 1.64E+01 0.00E+00 9.01E-03 2-135 1.59E+01 4.17E+01 1.54E+01 2.75E+03 6.68E+01 0.00E+00 4.70E+01 Cs-134 2.98E+05 7.09E+05 5.79E+05 0.00E+00 2.29E+05 7.61E+04 1.24E+04 Cs-136 3.12E+04 1.23E+05 8.86E+04 0.00E+00 6.85E+04 9.38E+03 1.40E+04 Cs-137 3.82E+05 5.22E+05 3.42E+05 0.00E+00 1.77E+05 5.89E+04 1.01E+04 Cs-138 2.64E+02 5.22E+02 2.59E+02 0.00E+00 3.84E+02 3.79E+01 2.23E-03 Ba-139 9.29E-01 6.62E-04 2.72E-02 0.00E+00 6.19E-04 3.75E-04 1.65E+00 Ba-140 1.94E+02 2.44E-01 1.27E+01 0.00E+00 8.30E-02 1.40E-01 4.00E+02 Ba-141 4.51E-01 3.41E-04 1.52E-02 0.00E+00 3.17E-04 1.93E-04 2.13E-10 Ba-142 2.04E-01 2.10E-04 1.28E-02 0.00E+00 1.77E-04 1.19E-04 2.87E-19 14-140 1.50E-01 7.54E-02 1.99E-02 0.00E+00 0.00E+00 0.00E+00 5.54E+03 Ia-142 7.66E-03 3.48E-03 8.68E-04 0.00E+00 0.00E+00 0.00E+00 2.54E+01 Ce-141 2.24E-02 1.52E-02 1.72E-03 0.00E+00 7.04E-03 0.00E+00 5.79E+01 l Ce-143 3.95E-03 2.92E+00 3.23E-04 0.00E+00 1.29E-03 0.00E+00 1.09E+02 ) Ce-144 1.17E+00 4.88E-01 6.27E-02 0.00E+00 2.90E-01 0.00E+00 3.95E+02 Pr-143 S.51E-01 2.21E-01 2.73E-02 0.00E+00 1.27E-01 0.00E+00 2.41E+03 Pr-144 1.80E-03 7.48E-04 9.16E-05 0.00E+00 4.22E-04 0.00E+00 2.59E-10 No-147 3.76E-01 4.35E-01 2.60E-02 0.00E+00 2.54E-01 0.00E+00 2.09E+03 l W-187 2.96E+02 2.47E+02 8.65E+01 0.00E+00 0.00E+00 0.00E+00 8.10E+04 Np-239 2.85E-02 2.80E-03 1.54E-03 0.00E+00 8.74E-03 0.00E+00 5.75E+02

Calculated frcn Equation 8.

'~ GRAND GU17,IMIT 1 1.0-14 Rev.1 - 7/83 m

S< a, w q>w 1 3 Liquid >%ste Treatment Syste st m for the essential wpsts of the liquid radwaste treatment ILITY requiristent of RETS Specification 3/4.11.1.3 indicated 3 below an asterisk (*). 0 4 '8 O j = f magias -iO ux 4 .st _.u .- l _- u x d) di m. =~

ga-3, 5-w.%4=e-..y,,,'

' a -,rc-t -e t.. _, _.m. ) l in airwamb \\ emmau.e so k """ - bj u

i. ME m.

tla a; ggm a t w suo aws

c. m n.m.m.

e. . sw mac na.m en. e mww

~M*

M O M.7_ -+ e rTzRAEN =, -e ~ ~ /. semen u, v.i som u.sn h 4, IIE.at Q = =IM M ' s. Q-.l x SK.i M.M., -.I m=w.. ew. l g.s-i ......e,- l l \\ I I (A cot 90N SYSTD4 SCAUD 'lV A PER UNIT BASIS) I Taken from Reference 4, Figure 3-7. I Dev.1 - 7/83 1.0-15 cuaNn tanE. UNIT 1 1.

1.3 Liquid Rackaste Treatment Systen The essential wents of the liquid radwaste treatment system for the t CPERABILITY requirement of RETS Specification 3/4.11.1.3 are indicated below by an asterisk (*). W ~ g g

: 9. serv 1 lcumen t

[ H ""." M h-en 7== = 2 4, o 4, + + d,

=.-

""""" 2.

e" r m,,,, .. =v o 1I q, n#miE%ym. t / ,,,n. t. .- L., -v. . L-

== -- y . g g. -+ g,,,, m

c. --==

n== 2 ..rnux . m x.m = = -n. C .aJ. GSGCNA

======9' RafrID UMETIG* M N d' J T, i== .s= w==imm_

== asem. mas Ab ( )_ 2 j* l '""* 1. 'the essential cupents outlined above are those necessary to collect, process and sanple liquid radwaste prior to discharge to the environrrent. 4 2. m1y one of the following is required in order to process liquid waste. a. Equiprent drain filter I b. Floor drain filter c. Equipent drain denineralizer d. Floor drain demineralizer 3. One of the waste surge Tanks may be used to replace the Floor Drain Waste l Collection Tank. J j I,A CCH4CN SYSTEM SCAIID 'IO A PER LNIT BASIS) i GRAND GUIE, LNIT 1 1.0-15 Rev. 2 - y__,. e.r -..,y .v.. ,.m -,.c. g w-e

o 2.0 CASE 00s DTwD7rs [ 2.1 Gaseous Effluent Monitor Setpoints 2.1.1 Ibr the punose of inplanentaticri of Specification 3.3.7.12 of the Rrrs, the alarm setpoint level for continuous ventilation noble ga.,nonitors will be calculated as follows: cerant rate of vent noble gas nonitor at alant. setpoint s = y level e 0.25 x g x g thelesserof4 or (1) = D,3 0.25 x R, x

Where, 0.25 = safety factor allcwing for emulative uncertainties of weasurenants Dose' rate limit to the total body of an individual-in k2, O

D = L g St6r ho4 = zmtrim%. _. required to limit dose to 500 mrem in one year. (E) lK D ( 6 so6WQ 2., ii i, / y D** Dose rate limit to the skin of the bcdy of an =

S h %ta~Booan individual = r rzer*zi 1 ' =g_ required to linit dose

. 1 to 3000 mrern in one year. 3 (@) 1(Li+1.1M)D = 1 1 i g / - 'y ~ count rate per mrern/g to the total body R = g ~K = c-x/o x0i1 3 See Note 2 om )

Where,w I count rate of the vent monitor correspmding to grab C = 6 sanple radionuelide concentraticms X70 = highest sector annual average atnospherie dispersion at the boundary .lL 5.376 x 10N aec/m3 in the WSW acetor. = total body dose factor due to gama emissions frtr. ma::h E = g 3 noble gas radicmuelide 1 (mrert/yr per uti/m ) frtrn Table 2.1-1. - re =!

i-& 1z ;;; r

ii = ;:lida, i ';Ci!= :),

S '.. n1=.w rat -? fr:tir ! =. :. jaa ;1;pz ;t Liva 0: ca.1% \\ Q = evecoge. rate of release of noble gas radicmuelide i-for 2. i k 0.: ;;;px2 C;ri-c' +' - _- r 'ri/x;; frcr.Nelease, point R, count, rate per mram/yr to the skin = ~ t C-J7D (Lg + 1.1 11 ) Qi L See note 2 3 g i = skin dose factor due co beta emissions frtra isotope 1 L = j (mresn/yr per uC1/m i frm Table 2.1-1 1.1 mrem skin %se per mrad air dose = air dose factor due to game emissions from isotope 1 M = y (mrad /yr per uCi/m ) frtrn Table 2.1-1 r

Value taken fran Reference 4, Table 6.1.26.

I

== = a a e e=w e 2.0-2 hev. 0 - B/82

b,MW+ To& TAa]bs-Te d h letE.Q 2.1.2 Containnent Purge Monitor t setpoint level for discharge through the cm mnent proe t ~ syst. nonitor, S, ca slated in a c6 pending d D'7B 0.25 x r t S I I d 0.25 x r x D ss s

Where, 500 - F

) K D'g g q = (1 F) g+1.1M)i 3000 - F () Q) (L D',, g f = i (1 - unt rate Per yr to the total body r t gk { X/ K ~ i See Note 2 c ~ ~ c = count r of the ocrita 7t purge r itor for rad. e-nucli concentrations to discharged. dy = ra of release of noble ga radionuelide 1 (uci/se:) erage rate of release of e gas radionuelide i frcr Tj = the ventilation system for the apsed fraction of the year F (uci/sec). ~ count rate per mrum/3T to the skin r = ~ i l 3+1.1M)kg See t ote = c X/O (L g 4 l rmM e mar. tNIT 1 2.0-3 [- Rev. 0 - 8/82

2.1.2 TEXT DE2ETED 2 4 1 'l I l l GRAtO GUIE, talIT 1 2.0-3 Barv. 2 - 5/84 I r

NCHES 1) The calculated setpoint values will be regarded as bounds for the actual setpoint adjustrnents. 'that is, setpoint adjustnants are g not required to be performed if the existing setpoint level corre-sponds tb a Icwer count rate than the calculated value. 12) ease of iglementation, the count rate setpoints may be 'l. lated by apply nethodologies presented in 2ons 2.1.1 and 2.1.2 with the more restrictive of continuous release at the' limiting rate for a ollows: 500 mre/ year D"3 D'3 = = = 3000 mram/ year t D,, D',, J = = = ~2. X) A more conservative setpeint may be calculated to mininuze regaire-nents for adjustment of the nonitor as folicws: D% 500 mrem /yr = g D}, i 3000 rr.rerr./yr = conservative count rate per mram/yr to the total bcdy R" = g 4 (Xe-133 detection, Kr-B9 dose) C' * (X/O x K x Q") h =

Where, Assigned release rate value of, for exa gle, 1.0 uCi/sec, l3 Q{

= Xe-133. (See definiticm of C' below.) count rate of vent monitor for an effluent concentration of C' = Xe-133 corresponding to a 1.0 uti/see release rate of Xe-133, (Note: Calculate the related concentration based on dilution flow.) total body dose factor for Kr-89, the nost Nstrictive K = isotope, fran Table 2.1-1. ~ ' h-e =. w. a nors

I R"" cxmservative count rate per mren/yr to the skin = [ C' X/Q x (L + 1.1M) x Q" 3 = 4 i Where skin dose factor for Kr-89, the nest restrictive isotope,, L = frczn Table 2.1-1, air dose factor for Kr-89, the nest restrictive isotcpe, M = frcrn Table 2.1-1. I 500 mrarn/yr = 3000 rzurn/yr D",, = .servative count rate per mren/yr to total body r" = t for tainre.nt purge only Qx K x q" c' =

Hbere, f

zulease rate f the con t purge (may be determine ! q" l = i I for maximan flow f system and tS concentration I specified for c' ). count rate of ocmta purge scmitor cx>rrespcmding to c' = a 1.0 uCi/ml traticm of

133, i

= conserva count rate per mram/ to the skin for ~ r," conta' at purge only, c' XTO x (L + 1.1M) x q" = f i l l I l __..m mm n-n m

P .x s s .s n .. ~ '\\

- i l,%

j s c. 4 s e k t s 7ABLE 2.1-1 ,,', 3 m= ,c i s m s. 4, y ,s ,,,. <',J,; DOSE FAC'IORS )DR DOO5'HE 70 A 9DU-DFINITE CIDUD CF NCELE GASES 1 w s s A %.3. NdElide Y-Bcx}p 5 (K)i B-Skin **jl.)i Y-Air * (M)i B-Air

m)i w

\\ 4 it a\\ 2i. Kr-85m 1.17E+ 03? *

1.46E*03' 2.23E+03 1.97E+03 N

.i 1 's Kr-85 " 1.61E+0F 1.34E+03 1.72E+01 1.95E+03 ~ ' . 's g g/, ', Kr-87, % 5.92E+03 sN* '9 73E+03 6.17E+03 1.03E+04 r s, ~ r '2 L ' Fr-88 s 2.47E+04 ( \\ '"2.37E+03 1.52E+04 2.93E+03 ,s 3 -v u s 3 ,cw Kr-89 ' 2.66t 04 s. i 1.01D04 1.73E+04 1.06E+04 s s i 4 Kr-90 1.56E*C4 ' 7.29E,403 1.63E+04 7.83E+03 1 Xe-131m 9.15E+C) 4.76E+02 1.56E+02 1.11E+03 ,s 2 s ss s' 9. 947.+02 3.27E+02 1.48E+03 Xe-133m 2.51E+02 i s i \\ 3.S5,f+02 3.53E+02 1.05E+03 a.xe-133 2.9E402 4, Xe-135m '3.12E+03 7.11E+02 3.36E+03 7.39E+02 Xe-135 ,".'1.hr+03 i 1.46E+03 1.92E+03 2.46E+03 ~s 8r t, 1 s - O, Xe-137 1.42E+03 \\1.22E+04 1.515+03 1.27 N 4 Xe-138 6.83E+03 4.13E+03 ' 9.21E+03 4.75E+03 4 N-41 8.84E+03 2.69E+03 9.30E+03 3.28E+03 ~ i,, 4 s s Values taken frh Deference 3,"."Able B'-1 s

" grad (m8 ia i

l y,,f1. 'yr ~ ,( pgq- '\\

- N,w an-

-. s i t ~ Wi - yr) \\ \\ i,. 1 i ^s '\\ 3N i s s s 7, ' s '.,, M ', f.3 ?eS 03 =.1.17 x 10 ij, s s e. s \\ sI r 6< '( ) t' g' ] .i h l

i 2.2 Gaseous Effluent Dose Calculations For the purpose of inplerientaticm of Specificatdon i 2.2.1.a C6 1 3.11.2.1.a, the dose at the unrestricta+eeea boundary due to ,2 noble gases shall be calculated as fo11cus: average total body dose rate in current year D = g tmram/yr) X/O E Q = g g i D, average skin dose nte in current year (mrum/yr) = XTQ (Lg + 1.1 M ) Qg = g 2.2.1.b organ doses due to tritian,1-131, I-133 and all radioactive l1 materials in particulate fom, with half-lives greater than eight days will be calculated for the purpose of inplanentation of specification 3.11.2.1.b. as follows: D, average organ dose rate in current year (mrum/yr) = 4 l1 = W P E h g g i controlling sector annual average aLivspherie disper-W = S~rth a sion at the w..Lic;.24 na bou'dary for the appro-12 priate pathey. ~ 5. M Ls V 8 0

/M f

g tLa,u)S O 14c4*r 1-O X/Q for inhalation ^(Mir ?_L1) i ( i = -2 I ' D/O = 1.301 x 10 m for other patheys in the 5 SSE* sector

Value taken from IInference 4, Table 6.1.26.

...-w,. ,-m-. w--,-.

p ...?. pd. ~ ,~,r* 3, / \\4 Pg dose parameter for radimuclide i, (mram/yr per = "~ 3 f ~" uci/m ) for inhalation and _. aram/yr 2ar l2-- i' 6 uCi/sec) for other petNays, frm Table 2.2-1.a-b. \\ 3 Q'g average nisase rau of isotope i of MoMw = t .i or other radicmuclide in particulate fom, with half-life grsatar than eight (B) days in the current year (uCi/sec). 2.2.2.a For the purpose of inpleantation of Specification 3.11.2.2, the air dose a.Re_ Sik Boodwo-uid ~% shall be detamin }'l af =s follcus: Dy air dose due to gara emissions fr e noble gas = radionucli&t i (mrad) -8 [g g 3.17 :c 10 = M X/Q' Qg

Where,

-k.a S % % s d X/Q' = relative concentration for unrestrzews-ereas % 1 ~0* sec/m, in the WSW sector 3 5.176 x 10 = M = g air dose factor &ae to gama emissions fra noble gas 3 radionuclide i (mrad /yr per uCi/m ) fra Table 2.1-1 4 Q. cmulative release of noble gss radionuclide i over the = I period of interest (uci) ~ ~8 Note: 3.17 x 10 is the Amerse of the ruber of seconds per year, and l Dp air dose due to beta anissions fra noble gas radio- = l l nuclide i (mrad) =. Value taken frm Reference 4, Table 6.1.26. r i l F l 200-8 Bev. 1 - 7/a3 J GWC GLnt, IMIT 1

l {i i 79, g -8 3.17 x 10 y i 1 I. } Werei air dose factor de to beta arrdssicms fre noble gas N = g 3 radionuclide i (mrad /p per uCi/m ) frcn Table 2.1-1 +Q h.Lb %= ' 2, X/Q' = relative concentration mi a.wie' " ---- 5.176 x 10-6*,,cj,3, in the NSW sector = cmulative release of n&le gas radienuclide i over the o = f pericd of interest (uci). 2.2.2.b Dose to an individual frm trititzn, I-131, I-133 and radie-1 active materials in particulate fom, with half-lives greater than eight (8) days will be calculated for the purpose of imple-ne.ntation of Specification 3.11.2.3 as follows: dose to an individual frczn radioiodines and radio-D = P nuclides in particulate fom, with half-life greater than eight days (mrun) ~I 3.17 x 10 R W' Q'y = g A he, agg4 kmDO for 64 Mob k g W' relative concentration 'a.a u tri ^d u s: = XTQ' = 3.001 x 10 for inhalation A A k S W ec k -2 D70' ~ 4.440 x 10 m for other pattways in l = L the E Sector l Values taken fram Reference 4, Table 6.1.26 -tK O M 4c b 3re TAW. 2-2.-3. Q 7 3-l 2. GRMC 0017, WIT 1 2.0-9 flev.1-7/83

dose factor for radionuclide i, (mran/yr per uCi/m ) R = g 2 or im. mren/yr per uCi/sec) frun Tablys 2.2-2a - d l1 o'g cum 21ative release of radionuclide i of icdine or = t material in particulate fom over the period of interest (uci) 2.2.2.c For the purpose of inplernanting Specification 6.9.1. of ~2, the REIS dose calculations will be perfomed using the above equaticms with the substituticm of average setaorological para-neters which prevailed for the period of the report.

E.1-e ' A n fis.. k!.i-s.;, Te k 0.1.25._

g 1 GMND GM, WIT 1 2.>10 Rev.1 - 7/83 .w, m e ->n --,a

e I TAB 12 2.2-la PATHWAY DOSE FAC'IORS (PI) FOR 'ECHNICAL SPECIFICATICN 3.11.2.0 and 1 SECTICE 2.2.1.b i Page 1 of 2 AGE GROUP (NMTT) ( N.A. ) (INFMC) ISOIOPE INHAIATICN GRCUND PLANE IDCI) H-3 6.468E+02 0.000E+00 2.382E+03 1 C-14 2.646E+04 0.000E+00 2.340E+09 NA-24 1.056E+04 1.979E+07 1.542E+07 P-32 2.030E+06 0.000E+00 1.602E+11 l CR-51 1.284E+04 7.864E+06 4.700E+06 p 54 9.996E+05 1.287E+09 3.900E+07 304-56 7.168E+04 1.525E+06 2.862E+00 FE-55 8.694E+04 0.000E+00 1.351E+08 FE-59 1.015E+06 4.562E+08 3.919E+08 C0-58 7.770E+05 6.194E+08 6.055E+07 Co-60 4.508E+06 5.172E+09 2.098E+08 NI-63 3.388E+05 0.000E+00 3.493E+10 NI-65 5.012E+04 4.930E+05 3.020E+01 CD-64 1.498E+04 9.823E+05 3.807E+06 EN-65 6.468E+05 7.907E+08 1.904E+10 IN-69 1.322E+04 0.000E+00 3.855E-09 BR-83 3.808E+02 1.011E+04 9.339E-01 BR-84 4.004E+02 3.376E+05 1.256E-22 BR-85 2.044E+01 0.000E+00 0.000E+00 RB -86 1.904E+05 1.478E+07 2.234E+10 RB-88 5.572E+02 5.399E+04 1.874E-44 RB-89 3.206E+02 2.075E+05 4.193E-53 SR-89 2.030E+06 3.560E+04 1.258E+10 SR-90 4.088E+07 0.000E+00 1.216E+11 SR-91 7.336E+04 3.5372+06 3.215E+05 SR-92 1.400E+05 1.233E+06 5.005E+01 Y-90 2.638E+05 7.583E+03 9.406E+05 Y-91M 2.786E+03 1.658E+05 1.876E-15 Y-91 2.450E+06 1.702E+06 5.251E+06 Y-92 1.266E+05 3.060E+05 1.026E+01 Y-93 1.666E+05 3.620E+05 1.776E+04 ER-95 1.750E+06 3.975E+08 8.257E+05 ER-97 1.400E+05 4.921E+06 4.446E+04 MB-95 4.788E+05 2.291E+08 2.062E+08 30-99 1.34BE+05 6.608E+06 3.108E+08 E-99M 2.030E+03 3.013E+05 1.646E+04 E-101 8.442E+02 3.253E+04 1.423E-56 MD-103 5.516E+05 1.804E+08 1.055E+05 MD-105 4.844E+04 1.030E+06 3.204E+00 3D-106 1.156E+07 3.590E+08 1,445E+06 AG-110M 3.668E+06 3.649E+09 1.461E+10 GRMc GUIE, GIIT 1 2.t>-11 Dev,. 1 - 7/83 l .1. 1

1 TABLE 2.2-13 (Continued) l PA'Im%Y DOSE F7CIORS (Pi) FOR TECHNICAL SPECIFICATICN 3.11f2.1 an 1 SECTICE 2.2.1.b .i Page 2 of 2 AGE GROUP (INFMm ( N.A. ) (IhTA!m ISOIDPE INHA1ATION GROUND PIANE FOCD TE-125M 4.466E+05 3.001E+06 1.50BE+0B 'ITe127M 1.312E+06 1.395E+05 1.037E+09 TEr127 2.436E+04 4.704E403 1.359E+05 'IE-129M 1.680E+06 3.290E+07 1.392E409 TEr129 2.632E+04 4.395E+04 1.678E-07 'IE-131M 1.988E+05 1.351E+07 2.28BE+07 TE-131 8.218E+03 4.929E+07 1.384E-30 TE-132 3.402E+05 7.09BE+06 6.513E+07 I-130 1.596E4 6 9.560E+06 8.754E+08 I-131 1.484E+07 2.985E+07 1.053E+12 I-132 1.694E+05 2.075E+06 1.18BE+02 2-133 3.556E+06 4.259E+06 9.601E+09 I-134 4.452E+04 7.578E+05 8.402E-10 I-135 6.958E+05 4.210E+06 2.002E+07 CS-134 7.028E+05 3.282E+09 6.801E+10 G-136 1.345E+05 2.432E+08 5.795E+09 CS-137 6.118E+05 1.337E+09 6.024E+10 CS-138 8.764E+02 5.860E+05 2.180E-22 BA-139 5.096E+04 1.705E^05 2.874E-05 BA-140 1.596E+06 3.352E+07 2.410E+08 BA-141 4.746E+03 6.762E404 3.141E-44 BA-142 1.554E+03 7.234E+04 0.000E+00 1A-140 1.680E+05 3.114E+07 1.880E+05 IA-142 5.950E+04 1.269E+06 0.019E-06 CE-141 5.166E+05 2.199E+07 1.366E+07 G-143 1.162E+05 3.753E+06 1.536E+06 CE-144 9.842E+06 6.761E+07 1.334E+0B i l PR-143 4.326E+05 0.000E+00 7.845E+05 PR-144 4.284E+03 3.017E+03 1.171r-48 M)-147 3.220E+05 1.441E+07 5.743E+05 W-187 3.962E+04 3.915E+06 2.501E+06 NP-239 5.950E+04 2.823E+06 9.400E+04 1 l Units: Inhalation and all tritium patNays - wasn/yr per uti/W Others - se. mesn/yr per uci/sec values based on standard NURIr,-0133, Section 5.2.1 asseptions unless otherwise indicated, s . GRAND GU1En thi1T 1 mev. 1 7/83-. 2.0-12

TABLE 2.2-1b PLM DOSE FACIt)RS (Pi) FOR 'IEHNICAL SPECIFICATIONS 3.11.2.1 ard 1 SIISICN 2.2.1.D t* Page 1 of 2 AGE GROUP ( CHILD ) ( N. A. ) ( CH3.D ) Iso mPE INHA1ATIm GRO.HD_ PIA E GHS/ANL/ MEAT B-3 1.125E+03 0.000E+00 1.826E+02 C-14 3.589E+04 0.000E+00 2.991E+08 NA-24 1.610E+04 1.385E+07 1.345E-03 P-32 2.605E+06 0.000E+00 5.781E+09 CR-51 1.698E+04 5.506E+06 3.636E+05 W-54 1.576E+06 1.625E+09 6.249E+06 m-56 1.232E+05 1.068E+06 1.901E-51 YTr55 1.110E+05 0.000E+00 3.566E+08 FE-59 1.269E+06 3.204E+08 4.943E+0B C0-58 1.106E+06 4.464E+08 7.485E+07 CO-60 7.067E+06 2.532E+10 2.993E+0B NI-63 8.214E405 0.000E+00 2.272E+10 NI-65 8.399E+04 3.451E405 3.167E-51 C1)-64 3.670E+04 6.876E+05 1.087E-05 EN-65 9.953E+05 8.583E+0B 7.801E+08 EN-69 1.018E+04 0.000E+00 0.000E+00 BR-83 4.736E+02 7.079E+03 7.425E-57 BR-84 5.476E+02 2.363E+05 0.000E+00 BR-85 2.531E401 0.000E+00 0.000E400 RB-86 1.983E+05 1.035E+07 4.536E+0B RB-88 5.624E+02 3.779E+04 0.000E+00 RB-89 3.45?E+02 1.452E+05 0.000E+00 SR-89 2.157E+06 2.509E+04 3.756E+0B SR-90 1.010E+08 0.000E+00 8.111E+09 SR-91 1.739E+05 2.511E+06 4.128E-10 SR-92 2.424E+05 8.631E+05 ,2.724E-48 Y-90 2.679E+05 5.30BE+03 3.806E+05 Y-91M 2.812E+03 1.161E+05 0.000E+00 Y-91 2.627E+06 1.207E+06 1.872E+08 Y-92 2.390E+05 2.142E+05 5.42BE-35 Y-93 3.885E+05 2.534E+05 1.207E-07 ZR-95 2.231E+06 2.337E+08 4.763E+0B 1R-97 3.511E+05 3.445E+06 5.471E-01 NS-96 6 6.142E+05 1.605E+08 1.738E+09 1 M0a-99 1.354E+05 4.626E+06 1.015E+05 'IC-99M 4.810E+03 2.109E+05 5.394E-18 'JC-101 5.846E+02 2.277E+04 0.000E400 D 103 6.623E+05 1.265E+08 3.127E+09 D 105 9.953E+04 7.212E+05 4.590Tc25 D 106 1.432E+07 5.049E+08 5.384E+10 AG-110M 5.476E+06 4.019E+09 5.259E+08 GRAND GUIF, WIT 1 2.0-13 pay, 1 - 7/83

e TABE 2.2-Ib (Continued) PA'IMO3 DOSE FACIDPS (Pi) FOR TECHNICAL SPECIFICATICNS 3.11 1 I SEL7 ION 2.2.1.b i Page 2 of 2 ME GRCUP ( CHIG ) ( N. A. ) ( CM12 )* IscnoPE INHAIATION GROUtc PIANE GRS/ASL/ MEAT 1Tr325M 4.773E+05 2.128E+06 4.43BE+0S TE-127M 1.480E+06 1.083E405 3.947E+09 E-127 5.624E+04 3.293E+03 1.254E-08 TE-129M 1.761E46 2.305E47 4.091E+09 E -129 2.549E+04 3.076E+04 0.000E+00 TE-131M 3.078E+05 9.459E+06 7.656E+03 Wr131 2.054E+03 3.450E+07 0.000E+00 TE-132 3.774E405 4.968E+06 7.274E+06 I-130 1.846E+06 6.692E+06 5.271E-04 I-131 1.624E+07 2.089E+07 4.293E+09 I-132 1.935E+05 1.452E+06 1.895E-57 I-133 3.84BE406 2.981E+06 1.017E+02 1-134 5.069E+04 5.305E+05 0.000E+00 2-135 7.918E+05 2.947E+06 8.104E-15 CS-134 1.014E+06 8.007E+09 1.180E+09 CS-136 1.709E+05 1.702E408 3.452E47 CS-137 9.065E+05 1.201E+10 1.040E&O9 CS-138 8.399E+02 4.102E+05 0.000E+00 2-139 5.772E+04 1.194E+05 0.000E+00 E-140 1.743E+06 2.346E+07 3.420E+07 E-14) 2.919E+03 4.734E+04 0.000E+00 E-142 1.643E+03 5.064E+04 0.000E+00 1A-140 2.257E+05 2.180E+07 4.284E+0? 1A-142 7.585E+04 8.886E+05 0.000E+00 G -141 5.439E+05 1.540E+07 1.078E+07 CE-143 1.273E+05 '2.627E+76 1.963E42 G-144 1.195E+07 8.032E+07 1.476E+08 'PR-143 4.329E+05 0.000E+00 2.815E+07 PR-144 1.565E+03 2.112E+03 0.000E+00 l ND-147 3.282E+05 1.009E+07 1.174E+07 W-187 9.102E+04 2.740E+06 2.176E+00 MP-239 6.401E+04 1.976E+06 1.741E+03 1 thits: Inhalation and all tritium pat 1 ways - mresu/yr per uCi/W Others - W. mran/yr per ti/sec Values based on Jtandard NORErr0133, Section 5.3.1 assm ptions unless otherwise indicatad. l Meat conswption assmed 75 percent beef and 25 percent mattm. l r SA?O GUIF, IMIT 1 2.0-14 liev.1 - 7/83

I TABLE 2.2-2a l f PADfWAY DOSE FAC'IOPS (Ri) FOR TEDNICAL SPfrIFICATICNSr4.11.2.3 AND 1 SIETICE 2.2.2.b Page 1 of 2 AGE GROUP ( INFANT ) ( N.A. ) ( INFANT ) ( INFANT ) ( IhTAVI ) ISCn W E INKAIATICE GROUND PLANE GRS/ COW / MILE GRS/CCE/ MEAT VIw uTICF H-3 6.468E+02 0.000E+00 2.382E+03 0.000E+00 0.000E+00 1 C-14 2.646E+04 0.000E+00 2.340E+09 0.000E+00 0.000E+00 NA-24 1.056E+04 1.385E+07 1.542E+07 0.000E+00 0.000E+00 i P-32 2.030E+06 0.000E+00 1.602E+11 0.000E+00 0.000E+00 CR-51 1.284E+04 5.506E+06 4.700E+06 0.000E+00 0.000E+00 304-54 9.996E+C5 1.625E+09 3.900E+07 0.000E+00 0.000E+00 304-56 7.168E+04 1.068E+06 2.862E+00 0.000E+00 0.000E+00 FL-55 8.694E+04 0.000E+00 1.351E+08 0.000E+00 0.000E+00 FE-59 1.015E+06 3.204E+08 3.919E+08 0.000E+00 0.000E+00 CC> 58 7.770E+05 4.464E+08 6.055E+07 0.000E+00 0.000E+00 CD-60 4.508E+06 2.532E+10 2.098E+08 0.000E+00 0.000E+00 NI-63 3.388E+05 0.000E+00 3.493E+10 0.000E+00 0.000E+00 NI-65 5.012E+04 3.451E+05 3.020E+01 0.000E+00 0.000E+00 CU-64 1.498E+04 6.876E+05 3.807E+06 0.000E+00 0.000E+00 EN-65 6.468E+05 8.583E+08 1.904E+10 0.000E+00 0.000E+00 IN-69 1.322E404 0.000E+00 3.855E-09 0.000E+00 0.000E+00 BR-83 3.808E+02 7.079E+03 9.3395-01 0.000E+00 0.000E+00 BR-84 4.004E+02 2.363E+05 1.256E-22 0.000E+00 0.000E+00 BR-85 2.044E+01 0.000E+00 0.000E+00 0.000E+00 0.000E+00 RB-86 1.904E+05 1.035E+07 2.234E+10 0.000E+00 0.000E+00 RB-88 5.572E+02 3.779E+04 1.874E-44 0.000E+00 0.000E+00 RB-89 3.206E+02 1.452E+05 4.193E-53 0.000E+00 0.000E+00 SR-89 2.030E+06 2.509E+04 1.258E+10 0.000E+00 0.000E+00 SR-90 4.088E+07 0.000E 00 1.216E+11 0.000E400 0.000E+00 l SR-91 7.336E+04 2.511E+06 3.215E+05 0.000E400 0.000E+00 SR-92 1.400E405 8.631E+05 5.005E+01 0.000E+00 0.000E+00 Y-90 2.688E+05 5.308E+03 9.406E+05 0.000E+00 0.000E+00 Y-91M 2.786E+03 1.161E+05 1.876E-15 0.000E+00 0.000E+00 Y-91 2.450E+06 1.207E+06 5.251E+06 0.000E+00 0.000E+00 Y-92 1.266E+05 2.142E+05 1.026E+01 0.000E+00 0.000E+00 Y-93 1.666E+05 2.534E+05 1.776E+04 0.000E+00 0.000E+00 ER-95 1.750E+06 2.837E+08 8.257E+05 0.000E 00 0.000E+00 ER-97 1.400E+05 3,445E+06 4.446E+04 0.000E+00 0.000E+00 MB-95 4.788E+05 1.605E+08 2.062E+C8 0.000E+00 0.000E 00 30-99 1.348E+05 4.626E+06 3.108E+08 0.000E400 0.000E+00 E-99M 2.030E+03 2.109E+05 1.646E+04 0.000E+00 0.000E+00 E-101 8.442E+02 2.277E+04 1.423E-56 3 0.000E+00 0.000E+00 3D-303 5.516E405 1.265E+0% 1.cg5E+05 0.000E400 0.000E+00 {1. 3D-105 4.844E+04 7.212E+05 3.20G+00 0.000E+00 0.000E+00 l 30-106 1.156E+07 5.049E+0B 1.445t+06 0.000E406 0.000E+00 l AG-130M 3.668E+06 4.019E+09 1.461E+10 0.000E+00 0.000E+00 N E M I.. 2 0-15 Rev. 1 7/83 2

TABLE 2.2-2a (Continued) l PATEAY DOSE FACIORS (Ri) FCR '!TCHNICAL SPIEIFICATICNd 4.13.2.3 AN 1 SEli[CN 2.2.2.b ~ i Page 2 of 2 TGE G0UP ( IhTAE ) ( N.A. ) ( IhTAhi ) ( INTAhi ) ( IhTAE ) ISOIOPE INHA1ATION GROUND PIANE GRS/CW/MIIE GRS/C N/_ MEAT VEteaATICE ~ 1-5M 4.466E+05 2.128E+06 1.508E+0B 0.000E+00 0.000E+00 TE TE-127M 1.312E+06 1.083E+05 1.037E+09 0.000E+00 0.000E+00 TE-127 2.436E+04 3.293E+03 1.359E+05 0.000E+00 0.000E+00 'IE-129M 1.680E+06 2.305E+07 1.392E+09 0.000E+00 0.000E+00 TE-129 2.632E+04 3.076E+04 1.678E-07 0.000E+00 0.000E+00 'IE-131M 1.988E+05 9.459E+06 2.288E47 0.000E+00 0.000E+00 TE-131 8.218E+03 2 3.450E+07 1.384E-30 0.000E+00 0.000E+00 'IE-132 3.4 4.968E+06 6.513E+07 0.000E+00 0.000E+00ll. 1-130 1.5 E+06 6.692E+06 8.754E+0B 0.000E+00 0.000E+00 I-131 1.484E+07 2.089E+07 1.053E+12 0.000E+00 0.000E+00 I-132 1.694E+05 1.452E+06 1.188E+02 0.000E+00 0.000E+00 1-133 3.536E+06 2.981E+06 9.601E+09 0.000E*00 0.000E+00 l I-134 4.452E+04 5.305E+05 8.402E-10 0.000E+00 0.000E+00 I-135 6.95BE+05 2.947E+06 2.002E+07 0.000E+00 0.000E+00 CS-134 7.028E+05 8.007E+09 6.801E+10 0.000E400 0.000E+00 CS-136 1.345E+05 1.702E+0B 5.795E+09 0.000E+00 0.000E+00 CS-137 6.118E+05 1.201E+10 6.024E+10 0.000E+00 0.000E+00 CS-138 8.764E+02 4.102E+05 2.180E-22 0.000E+00 0.000E+00 BA-139 5.096E+04 1.194E+05 2.874E-05 0.000E+00 0.000E+00 l BA-140 1.596E406 2.346E+07 2.410E+08 0.000E+00 0.000E+00 2A-141 4.746E+03 4.734E+04 3.141E-44 0.000E+00 0.000E+00 BA-142 1.554E+03 5.064E+04 0.000E+00 0.000E+00 0.000E+00 1A-140 1.680E+05 2.180E+07 1.880E+05 0.000E+00 0.000E+00 1A-142 5.950E+04 8.886E+05 6.019E-06 0.000E+00 0.000E+00 CFr141 5.166E405 1.540E+07 1.366E+07 0.0bOE+00 0.000E+00 CE-143 1.162E+05 2.627E+06 1.536E+C6 0.000E+00 0.000E+00 CE-144 9.842E+06 8.032E+07 1.334E+08 0.000E+00 0.000E 00 PR-143 4.326E+05 0.000E+00 7.845E+05 0.000E+00 0.000E+00 PR-144 4.284E+03 2.112E+03 1.171E-48 0.000E+00 0.000E+00 K>-147 3.220E+05 1.009E+07 5.743E+05 0.000E+00 0.000E400 W-187 3.962E+04 2.740E+06 2.501E+C6 0.000E+00 0.000E+00 NP-239 5.950E+04 1.976E+06 9.400E+04 0.000E+00 0.000E+00 Units: Inhalation and all tritim pat 1 ways - wm/yr per uCi/m8 f1 1 Others - m8. w m /yr per uti/sec values based cm standard NURErr0133, Section 5.3.1 assmptions miess otherwise indicatad. - r. 1MIT_1 2.0-16 Rev. 1 - 7/83 W X 0 GU1F2

TABLE 2.2-2b i ( PATHWAY DOSE FAC'IORS (Ri) FG 'ITCHNICAL SPECITICATICF J.11.2;3 AND 1 SECTICN 2.2.2.b J Page 1 of 2 l AGE GROUP ( GIID ) ( N.A. ) ( GIID ) ( GILD ) ( CH'.1D ) [ISOITE INHA1ATION GROUND PLANE GRS/CCW/WILK GRS/ COW / MEAT VEGEIATICE H-3 1.125E+03 0.000E+00 1.ru3 2.341E+02 4.00BE"03 1 C-14 3.589E+04 0.000E+DO 1.195E+09 3.834E+08 8.894E+0B NA-24 1.610E+04 1.385E+07 8.853E+06 1.725E-03 3.729E+05 P-32 2.605E+06 0.000E+00 7.775E+10 7.411E+09 3.366E+09 CR-51 1.69BE+04 5.506E+06 5.39BE+06 4.661E+05 6.213E+06 293-54 1.576E+06 1.625E+09 2.097907 8.011E+06 6.648E+08 994-56 1.232E+05 1.068E+06 1.865E+00 2.437E-51 2.723E+03 FT-55 1.110E+05 0.000E+00 1.118E+08 4.571E+0B 8.012E408 FE-59 1.269E+06 3.204E+0B 2.025E408 6.33BE+08 6.693E+08 CD 58 1.106E+06 4.464E+08 7.080E+07 9.596E+07 3.771E+08 l CO-60 7.067E+06 2.532E+10 2.391E+08 3.83BE+08 2.095E+09 NI-63 8.214E+05 0.000E400 2.964E+10 2.912E+10 3.949E+10 NI-65 8.399E+04 3.451E+05 1.909E+01 4.061E-51 1.211E+03 CLk64 3.670E+04 6.876E+05 3.502E+06 1.393E-05 5.159E+05 EN-65 9.953E+05 8.583E+08 1.101E+10 1.000E+09 2.164E+09 EN-69 1.018E+04 0.000E+00 1.123E-09 0.000E+00 9.893E-04 BR-83 4.736E+02 7.079E+03 4.399E-01 9.519E-57 5.369E+0C BR-84 5.476E+02 2.363E+05 6.50BE-23 0.000E+00 3.822E-11 DR-85 2.531E+01 0.000E+00 0.000E+00 0.000E+00 0.000E+00 REk86 1.983E+05 1.03EE+07 8.804E+09 5.816E+08 4.584E+0S RB-88 5.624E+02 3.779E+04 7.150E-45 0.000E+00 4.374E-22 RIF-89 3.452E+02 1.452E+05 1.715E-53 0.000E+00 1.642E-26 SR-89 2.157E+06 2.509E+04 6.618E+09 4.815E+08 3.593E+10 CA-90 1.010E+09 0.000E+00 1.117E+11 1.040E+10 1.243E+12 SR-91 1.739E+05 2.511E+06 2.878E+05 5.292E-10 1.157E+06 SR-92 2.424E+05 8.631E+05 4.134E+01 3.492E-48 1.378E+04 Y-90 2.679E+05 5.30BE+03 9.171E405 4.879E+05 6.569E+07 l Y-91M 2.812E+03 1.161E+05 5.196E-16 0.000E+00 1.737E-05 Y-91 2.627E+06 1.207E+06 5.199E+06 2.400E+08 2.484E+09 Y-92 2.390E+05 2.142E+05 7.310E+00 6.959E-35 4.576E+04 Y-93 3.885E+0L 2.534E+05 1.573E+04 1.547E-07 4.482E+06 ER-95 2.231E+06 2.837E+08 8.786E+05 6.106E+08 8.843E+0B l ER-97 3.511E+05 3.445E+06 4.199E+04 7.015E-01 1.24BE+07 Mi>95 6.142E+05 1.605E+0B 2.287E+08 2.228E+09 2.949E+08 MD-99 1.354E+05 4.626E+06 1.738E+08 2.456E*05 1.647E+07 EC-99M 4.810E+03 2.109E+05 1.474E+04 6.915E-18 5.255E+03 1C-101 5.846E+02 2.277E+04 5.593E-58 0.000E+00 4.123E-29 RF103 6.623E+05 1.265E+08 1.108E+05 4.009E+09 3.971E+08 RD-105 9.953E+04 7.212E+05 2.493E+00 5.885E-25r. 5.981E+04 Rb106 1.432E+07 5.049E+0B 1.437E+06 6.902E+10 1.159E+10 AG-11(H 5.476D06 4.019E+09 1.678E+10 6.742E+08 2.581E409 w

TABLE 2.2-2b (Continued) PATSM DOSE F.TIVRS (Ri) 70R TEGNICAL SPECIFICATIWS 4.11.2.) AND 1 Suzum 2.2.2.b i ? Page 2 of 2 h2 GROUP ( CHIID ) ( N.A. ) t CHIID ) ( GIID ) ( GIID ) IS01tPE INHA1ATIm GROUND PIANE GRS/C N /Mn X GRS/COi/ MEAT VE E ATIm ~ TE-125M 4.773E+05 2.128E+06 7.377E+07 5.690E+08 3.506E+08 E-127M 1.480E+06 1.083E+05 5.932E+08 5.060E+09 3.769E+09 TEr127 5.624E+04 3.293E+03 1.191E+05 1.607E-06 3.903E+05 1E-129M 1.761E+06 2.305E+07 7.961E+08 5.245E+09 2.460E+09 TE-129 2.549E+04 3.076E404 6.166E-08 0.000E+00 7.204E-02 We131M 3.078E+05 9.459E+06 2.244E+07 9.815E+03 2.163E+07 TF131 2.054E+03 3.450E+07 8.4895-32 0.000E400 1.349E-14 1E-132 3.774E+05 4.96BE+06 4.551E+07 9.325E+06 3.111E+07 I-130 1.846E+06 6.692E+06 3.845E+08 6.75BE-04 1.370E+0E I-131 1.624E+07 2.089E+07 4.333E+11 5.503E+09 4.754E+10 I-132 1.935E+05 1.452E+06 5.129E+01 2.429E-57 7.314E+03 2-133 3.848E+06 2.981E+06 3.945E+09 1.304E+02 8.113E+08 I-134 5.069E+04 5.305E+05 3.624Fe10 0.000E+00 6.622E-03 2-135 7.918E+0 0l 2.947E+06 8.607E+06 1.039E-14 9.973E+06 CS-134 1 4E 6 8.007E+09 3.715E+10 1.513E+09 2.631E+10 { 2. CS-136 1.709E+05 1.702E+08 2.773E+09 4.426E+07 2.247E+0B CS-137 9.065E+05 1.201E+10 3.224E+10 1.334E+09 2.392E+10 CS-138 8.399E+02 4.102E+05 5.52BE-23 0.000E+00 9.133E-11 E-139 5.772E+04 1.194E+05 1.231E-05 0.000E+00 2.950E+00 M-140 1.743E+06 2.346E+07 1.171E+08 4.384E+07 2.767E+08 M-141 2.919E+03 4.734E+04 1.210E-45 0.000E+00 1.60SE-21 M-142 1.643E+03 5.064E+04 0.000E+00 0.000E+00 4.105E-39 1A-140 2.257E+05 2.180E+07 1.894E+05 5.492E+02 3.166E+07 1A-142 7.585E+04 8.886E+05 2.904E-06 0.000E+00 1.582E+01 CE-141 5.439E+05 1.540E+07 1.361E+07 1.382E+07 4.082E+0B M-143 1.273E+05 2.627E+06 1.488E+06 2.516E+02 1.364E+07 CE-144 1.195E+07 8.032E+07 1.326E+08 1.893E+08 1.039E+10 PE-143 4.329E+05 0.000E+00 7.754E+05 3.609E+07 1.575E+08 PR-144 1.565E+03 2.112E+03 2.040E-50 0.000E+00 3.829E-23 I 10-147 3.282E+05 1.009E+07 5.712E+05 1.505E+07 9.197E407 i W-187 9.102E+04 2.740E+06 2.420E+06 2.790E+00 5.380E+06 f NP-239 6.401E+04 1.976E+06 9.138E+04 2.232E+03 1.357E407 1 Units: Inhalation and all tritiun patNays - mran/yr per ti/m8 Others - m8. mrtsn/yr per uCi/sec Values based on standard NUREG-0133, Section 5.3.1 assepticms unless otherwise indicated. l j GRAND GUIE,1 NIT 1 2.0-18 Dev.1 - 7/83

TABLE 2.2-2c PA'IWiAY DOSE FACIORS (Ri) 7tR TECHNICAL SPECIFICATICNS 4.1112.3 AND 1 mmCN 2.2.2.b Page 1 of 2 hGE GROUP (TED;AGER) ( N.A. ) buMAGDil - (TwUGER) hwCGER ISC7ITPE INHA1ATICE GROUND PIANE GRS/CCW/M 1K GRS/COK/W AT MJCICE H-3 1.272E403 0.000E400 9.941E+02 1.938E+02 2.588E+03 1 C-14 2.600E+04 0.000E+00 4.859E+08 2.040E+08 3.690E+08 NA-24 1.376E+04 1.385E+07 4.255E+06 1.084E-03 2.389E+05 i P-32 1.888E+06 0.000E+00 3.153E+10 3.931E+09 1.608E+09 CR-51 2.096E+04 5.506E+06 8.387E+06 9.471E+05 1.037E+07 304-54 1.984E+06 1.625E+09 2.875E+07 1.436E+07 9.320E+08 304-56 5.744E 04 1.068E+06 4.856E-01 8.302E-52 9.451E402 FE-55 1.240E+05 0.000E+00 4.454E+07 2.382E+08 3.259E+08 ITr59 1.528E+06 3.204E+0B 2.861E+08 1.171E+09 9.895E 08 00-58 1.344E+06 4.464E+08 1.095E+08 1.942E+08 6.034E+08 CC> 60 8.720E+06 2.532E+10 3.621E+08 7.600E+08 3.23BE+09 NI-63 5.800E+05 0.000E+00 1.182E+10 1.519E+10 1.606E+10 NI-65 3.672E+04 3.451E+05 4.692E+00 1.305E-51 3.966E+02 CD-64 6.144E+04 6.876E+05 3.293E+06 1.713E-05 6.465E+05 EN-65 1.240E406 8.583E+08 7.315E+09 8.688E+08 1.471E+09 EN-69 1.584E+03 0.000E+00 1.760E-11 0.000E+00 2.067E-05 BR-83 3.440E+02 7.079E+03 ~1.790E-01 5.066E-57 2.911E+00 BR-84 4.328E+02 2.363E+05 2.877E-23 0.000E+00 2.251E-11 BR-85 1.832E+01 0.000E+00 0.000E+00 0.000E+00 0.000E+00 RB-86 1.904E+05 1.035E+07 4.746E+09 4.101E+08 2.772E+08 RB-88 5.$56E+02 3.779E+04 3.886E-45 0.000E+00 3.16BE-22 RB-89 3.520E+02 1.452E+05 9.774E-54 0.000E+00 1.247E-26 SR-89 2.416E+06 2.509E+04 2.674E+09 2.545E+08 1.513E+10 SR-90 1.080E+08 0.000E+00 6.612E+10 8.049E+09 7.507E+11 SR-91 2.592E+05 2.511E+06 2.409E+05 5.794E-10 1.29'.E+06 SR-92 1.192E+05 8.631E+05 2.277p01 2.516E-48 1.012E+04 Y-90 5.592E+05 5.308E+03 1.074E+06 7.470E+05 1.025Et08 Y-91M 3.200E+03 1.161E+05 5.129E-18 0.000E+00 2.285E-07 Y-91 2.936E+06 1.207E+06 6.475E+06 3.910E+0B 3.212E+09 Y-92 1.64BE+05 2.142E+05 2.828E+00 3.522E-35 2.360E+04 Y-93 5.792E 05 2.534E+05 1.312E+04 1.688E-07 4.983E+06 ER-95 2.688E+06 2.837E+08 1.201E+06 1.092E+09 1.253E+09 ER-97.. 6.304E+05 3.445E+06 4.225E+04 9.231E-01 1.673E+07 30> 95 7.512E+05 1.605E+08 3.338E+08 4.251E+09 4.551E+08 MD-99 2.688E+05 4.626E+06 1.023E+08 1.892E+05 1.293E+07 1C-99M 6.128E+03 2.109E+05 1.055E+04 6.471E-18 5.011E+03 SC-101 6.672E+02 2.277E+04 3.287E-58 0.000E+00 3.229E-29 30 103 7.832E+05 1.265E+0B 1.513E+05 7.162E+09 5.706E+06 140-105 9.040E+04 7.212E+05 1.263E+00 3.900E-25 4.039E+04 3D 106 1.60BE+07 5.049E+08 1.799E+06 1.130E+11-1.484E+10 AG-110M 6.752E+06 4.019E+09 2.559E+10 1.345E+09 4.031E409 GRAND GUIE, tNIT 1 2.0-19 Dev. 1 - 7/83

.~ 1 l i TABLE 2.2-2c (Continued) j PAnh7J DOSE FACIORS (Ri) FOR TEDNICAL SPECIFICATICNS 4.11.I.3 AND 1 SDCTION 2.2.2.b i hp 2 cf 2 AGE GROUP (TEDMER) ( N.A. ) (TEDOGER) (mzMER) bruMEFJ 1SOIOPE DumLATICE GROUND PIANE GRS/ COW /MI1X GRS/CCE/ MEAT VumATICt; ~ n-125M 5.360E+05 2.12BE+06 8.863E+07 8.941E+0B 4.375E+0B TE-127M 1.656E406 1.083E+05 3.420E+08 3.816E+09 2.236E+09 '1E-127 8.080E+04 3.293E+03 9.572E+04 1.689E-08 4.180E405 TE-129M 1.976E+06 2.305E+07 4.602E+0B 3.966E+09 1.508609 'IE-129 3.296E+03 3.076E+04 2.196E-09 0.000E+00 3.418E-03 T&l31M 6.20BE+05 9.459E+06 2.529E+07 1.447E+04 3.248E+07 'IE-131 2.336E+03 3.450E+07 2.879E-32 0.000E+00 6.099E-15 T&l32 4.632E+05 4.96BE+06 8.581E+07 2.300E+07 7.818E+07 I-130 1.488E+06 6.692E+06 1.742E+08 4.005E-04 8.276D 07 1-131 1.464E+07 2.089E+07 2.195E+11 3.645E+09 3.140E+10 l I-132 1.512E+05 1.452E+06 2.242E+01 1.389E-57 4.262E+03 I-133 2.920E+06 2.981E+06 1.674E+09 7.234E+01 4.587E+0B I-134 3.952E+04 5.305E+05 1.583E-10 0.000E+00 3.854E-03 1-135 6.20BE+05 2.947E+06 3.777E406 5.963E-15 5.832E+06 CS-134 1.12BE+06 8.007E+09 2.310E+10 1.231E+09 1.671E+10 CS-136 1.936E+05 1.702E+08 1.759E+09 3.671E+07 1.70BE+08 G-137 8.480E+05 1.201E+10 1.781E+10 9.634E+0B 1.348E+10 CS-138 8.560E+02 4.102E+05 3.149E-23 0.000E+00 6.935E-11 BA-139 6.464E+03 1.194E+05 7.741E-07 0.000E+00 2.472E-01 BA-140 2.032E+06 2.3461.+07 7.483E+07 3.663E+07 2.130E+08 BA-141 3.288E+03 4.734E+04 4.922E-46 0.000E+00 8.699E-22 BA-142 1.912E+03 5.064E+04 0.000E+00 0.000E+00 2.269E-39 IA-140 4.872E+05 2.180E+07 2.291E+05 8.689E+02 5.104E+07 IA-142 1.200E+04 8.886E+05 2.574E-07 0.000E+00 1.868E+00 3-141 6.136E+05 1.540E+07 1.696E+07 2.252E+07 5.404E+0B C &l43 2.552E+05 2.627E+06 1.671E+06

3.695E+02 2.040E+07 G-144 1.336E+07 8.032E+07 1.655E+0B 3.089E+08 1.326E+10 PR-143 4.832E+05 0.000E+00 9.553E+05 5.817E+07 2.310E+08 i

PR-144 1.752E+03 2.112E+03 1.238E-53 0.000E+00 3.097E-26 l ND-147 3.720E+05 1.009E407 7.116E+05 2.452E+07 1.424E+0B W-187 1.76BE+05 2.740E+06 2.646E+06 3.989E+00 7.839E+06 NP-239. 1.320E+05 1.976E+06 1.060E+05 3.387E+03 2.097E+07 1 thits: Inhalation and all tritium pathways - mran/yr per uti/m2 l1 Others - m8. mrern/yr per uCi/sec Values based on standard NUREG-0133, Section 5.3.1 assm ptions unless otherwise indicated. GRAND GUIE. INIT 1 2.0-2n M'.1 - 7/83

'mBLE 2.2-2d 1 PAT 1h7J DOSE FAC'ITRS (Ri) FOR '!TDINICAL SPErITICATICES 4.11.7.3 A10 1 SEXXIW 2.2.2.b i 's Page 1 of 2 AGE GROUP ( ADULT ) ( N. A. ) ( ADULT ) ( ADULT ) ( ADO.T I ISOITFE INHALATICN GRCDC PIME GRS/ COW / MILK GRS/CCW/ MEAT VEETATION H-3 1.264E+03 0.000E+00 7.629E+02 3.248E+02 2.260E+03 1 C-14 1.816E+04 0.000E+00 2.634E+08 2.414E+0B 2.276E+0B NA-24 1.024E+04 1.385E+07 2.438E+06 1.356E-03 2.690E+05 P-32 1.320E+06 0.000E+00 1.709E+10 4.651E+09 1.403E+09 CR-51 1.440E+04 5.506E+06 7.187E+06 1.772E+06 1.168E+07 St&-54 1.400E+06 1.625E+09 2.578E+07 2.812E+07 9.585E+08 303-56 2.024E+04 1.068E406 1.328E-01 4.958E-52 5.082E+02 FTe55 7.20BE+04 0.000E+00 2.511FA07 2.933E+08 2.096E+0B FE-59 1.016E+06 3.204E+08 2.326E+08 2.080E+09 9.875E+08 CD-56 9.280E+05 4.464E+0B 9.565E+07 3.703E+08 6.252E+08 Co-60 5.968E+06 2.532E+10 3.082E+08 1.413E+09 3.139E+09 NI-63 4.320E+05 0.000E+00 6.729E+09 1.888E+10 1.040Ewl0 i l NI-65 1.232E+04 3.451E+05 1.219E+00 7.405E-52 2.026E+02 CU-64 4.896E+04 6.876E+05 2.031E+06 2.307E-05 7.841E+05 l1 EN-65 8.640E+05 8.583E+08 4.365E+09 1.132E+09 1.009E+09 EN-69 9.200E+02 0.000E+00 5.207E-12 0.000E+00 1.202E-05 BR-83 2.408E+02 7.079E+03 1.399E-01 8.648E-57 4.475E+00 l1 BR-84 3.128E+02 2.363E+05 1.609E-23 0.000E+00 2.475E-11 BR-85 1.280E+D1 0.00')E+00 0.000E+00 0.000E+00 0.000E40 RB-86 1.352E+05 1.035E+07 2.604E+09 4.914E+08 2.217E+08 RB-88 3.872E402 3.779E+04 2.139E-45 0.000E+00 3.428E-22 RF89 2.560E+02 1.452E+05 5.523E-54 0.000E+00 1.385E-26 SR-89 1.400E+06 2.509E+04 1.451E+09 3.014E+08 9.961E409 ER-90 9.920E+07 0.000E+00 4.680E+10 1.244E+10 6.046E+11 ER-91 1.912E+05 2.511E+06 1.377E+05 7.233E-10 1.451E46 ER-92 4.304E+04 8.631E+05 9.675E+00 2.334E-48 8.452E+03 Y-90 5.056E+05 5.308E+03 7.511E405 1.141E406 1.410E+0S Y-91M 1.920E+03 1.161E+05 1.743E-19 0.000E+00 1.527E-08 Y-91 1.704E+06 1.207E+06 4.726E46 6.231E+08 2.814E49 Y-92 7.352E+04 2.142E+05 9.772E-01 2.657E-35 1.603E+04 Y-93 4.236E+05 2.534E+05 7.388E+03 2.0755-07 5.517E+06 ER-95 1.768E+06 2.837E+08 9.587E+05 1.903E+09 1.194E+09 ER-97 5.232E+05 3.445E+06 2.707E+04 1.292E+00 2.10BE+07 38-95 5.048E+05 1.605E+08 2.786E+08 7.748E+09 4.798E+0B h 99 2.480E405 4.626E+06 5.741E+07 2.318E+05 1.426E+07 'IC-99M 4.160E+03 2.109E+05 5.553E+03 7.439E-18 5.187E+03 l 'IC-101 3.992E+02 2.277E+04 1.813E-58 0.000 +0 1 3.502E-29 3E)-103 5.048E+05 1.265E+08 1.189E+05 1.2 E+ 0 5.577E+08 \\1 30-105 4.816E+04 7.212E4 5 5.240E-01 3.533rr25 3.294E+04 30-106 9.360E+06 5.049E+0B 1.320E+06 1.011E+11 ~- 1.247E+10 AG-11(M 4.632E+06 4.019E+09 2.198E+10 2.523E409 3.979E+09 GRAND GUIE, WIT 1 2.0-21 ., Rev. 1 - 7/83

+. TABLE 2.2-2d (Continued) PADfaY DOSE FACIORS (Ri) FOR TECHNICAL SPECIFICATICNS 4.11.R.3 AND 1 SECTICN 2.2.2.b i l i Page 2 of 2 TGE @0UP ( ADULT ) ( N. A. ) ( ADULT ) ( ADULT ) ( ADULT ) ISoIuPE IN E1ATION GROUND PIANE GRS/ COW / MILK GRS/ COW /MEE V m MIQ; W 125M 3.136E+05 2.12BE+06 6.626E+07 1.460E+09 3.927E+0B TE-127M 9.600E+05 1.083E+05 1.860E+08 4.531E+09 1.418E+09 'IE-127 5.736E+04 3.293E+03 5.278E+04 2.034E-08 4.532E+05 TE-129M 1.160E+06 2.305E+07 3.028E+08 5.69BE+09 1.261E+09 'E-129 1.936E+03 3.076E+04 9.167E-10 0.000E+00 2.806E-03 TE-131M 5.560E+05 9.459E+06 1.753E+07 2.190E+04 4.42BE+07 'E-131 1.392E+03 3.450E+07 1.578E-32 0.000E+00 6.575E-15 TE-132 5.096E+05 4.968E+06 7.324E+07 4.287E+07 1.312E+08 1.136E+06 6.692E+06 1.05CE+08 5.272E-04 9.809E+07 I-130 3 I-131 1.192E+07 2.089E+07 1.38BE+11 5.034E+09 3.785E+10 I-132 1.144E+05 1.452E+06 1.342E+01 1.816E-57 5.016E+03 1-133 2.152E+06 2.981E+06 9.891E+08 9.336E+01 5.331E+0B I-134 2.984E+04 5.305E+05 9.491E-11 0.000E+00 4.544E-03 2-135 4.480E+05 2.947E+06 2.217E+06 7.644E-15 6.731E+06 CS-134 8.480E+05 8.007E+09 1.345E+10 1.565E+09 1.110E+10 CS-136 1.464E+05 1.702E+0B 1.036E+09 4.724E+07 1.675E+0B CS-137 6.208E+05 1.201E+10 ~1.010E+10 1.193E+09 8.696E+09 CS-138 6.208E+02 4.102E+05 1.786E-23 0.000E+00 7.730E-11 BA-139 3.760E+03 1.194E+05 8.322E-08 0.000E+00 5.225E-02 BA-140 1.272E+06 2.346E+07 5.535E+07 5.917E+07 2.646E+0B BA-141 1.936E+03 4.734E+04 2.677E-46 0.000E+00 9.305E-22 BA-142 1.192E+03 5.064E+04 0.000E+00 0.000E+00 2.463E-39 IA-140 4.584E+05 2.180E+07 1.672E+05 1.385E+03 7.327E+07 1A-142 6.328E+03 8.886E+05 3.503E-08 0.000E+00 4.999E-01 3-141 3.616E+05 1.540E+07 1.253E+07 3.632E+07 5.097E+08 CE-143 2.264E+05 2.627E+06 1.149E+06 5.547E+02 2.758E+07 G-144 7.776E+06 8.032E+07 1.209E+08 4.928E+08 1.112E+10 PR-143 2.80BE+05 0.000E+00 6.923E+05 9.204E+07 2.748E+0S PR-144 1.016E+03 2.112E+03 6.716E-54 0.000E+00 3.303E-26 ND-147 2.208E+05 1.009E+07 5.231E+05 3.935E+07 1.853E+08 W187 1.552E405 2.740E+06 1.796E+06 5.912E+00 1.046E+07 NP-239 1.192E+05 1.976E+06 7.385E404 5.152E+03 2.872E+07 Otits: Inhalation and all tritim patNays - mre/yr per uCi/m* l1 Others - m8. mrem /yr per uCi/sec Values based on standard NUREG-0133, Section 5.3.1 assunpticms unless I otherwise indicated. .r l l i l GRAND GUIE, LMIT 1 2.0-22 Dev. 1 - 7/83

j ey,g.A.A-3Sd ~ TABIE 2.2-3 YS CINI9mf LTNG Pit n'iORS, LOCATIONS, AND P Origin Dis ce Sector (He s) ' Pathway Age Group or info m ly) N 2816 Vegetation Child - garden BSE 2414 Vegetation Child - garden NE 1062 nhal/Grd Plane Infan - residence DE 4828 egetation d - garden E 2414 tation d - garden ESE 4426 Vege tion Child - garden SE 3299 Inhal/Grd P1 Infant - residence SSE 1690 Inhal/Grd P ane Infant - residence S 1770 Inha1/Gr Plane. Infant - residence SSW 3734 Inha1/ Plane . Infant - residence j SW 1432 I /Grd Plane Infant - residence x WSW 8047 / Milk Infant - hypothetical \\ Infant \\, - hypothetical W 8047 Cow / Milk \\ WH 6437 Inha1/Grd Plane Infant \\., - residence Mf 8047 Cow / Milk Infant . - hypnthetical \\ 2C : 17 Inhal/Grd Plane Infant gresidence \\ Table based m Deference 4, Tables 5.2.8 and 6.1.26. i 2.0-23 inev. o - 8/82 GRAFO GUIE, LMIT 1 ~

TABLE 2.2-3 CQmumMG RBCEPKRS, IOCATICNS, AND PA'IHWAYS Distance Origin Sector Dieters) Miles Pathway Age Group (for info only) N 1207 0.75 Vegetation Infant - garden INE 1207 0.75 Inhal/Gnd Plane Infant - residence NE 2414 1.50 Inha1/Gnd Plane Infant - residence ENE 4023 2.50 Vegetation Child - garden E 4023 2.50 Vegetation Infant - garden ESE 1207 0.75 Inha1/Gnd Plane Teenager - residence SE 2414 1.50 Vegetation Child - garden SSE 2414 1.50 Vegetation Adult - garden 2 S 4023 2.50 Inha1/Gnd Plane Child - residence SSW 3218 2.00 Inha1/Gnd Plane Infant - hypothetical SW 1432 0.90 Vegetation Child - garden NSW 8047 5.00 Cow / Milk Infant - hypothetical W 8047 5.00 Cow / Milk Infant - hypothetical WW 7242 4.50 Inhal/Gnd Plane Infant - residence NW 8047 5.00 Cow / Milk Infant - hypothetical itM 2414 1.50 Inha1/Gnd Plane Child - residence Table based on 1983 Land Use Census Bev. 2 - GRAND GUIE, LMIT 1 2.0-23

2.3 Meteorological Model 'the atmospheric dispersion for all gaseous releales is 2.3.1 calculated using a ground-level, wake-split forin of the i j straight line ficw model. 3 X/O = abwsperie dispersion (sec/m ) 2.03 s k. ru I

Nhere, distance (m) from release point to location of r

= interest 6 plune depletion factor at distance r frera = Figure 2.3-1. wind speed at ground level (m/sec) u = open terrain recirculation factor at distance k = r, frcrn Figure 2.3.4~ ~2-.O'N 1, 1= the lesser of (e2+b2 % or [a 3 W

Nhere, vertical standard deviation (m) of the phrne at F

= distance r for ground-level releases under the stability category indicated by h, from Figure 2.3-2. h tenperature differential with vertical separa- = tien ('K/100m) height of the reactor building = 53.3m. b = L G W O GU17, EMIT 1 2.0-24 . Rev. 0 - 8/82

) I l 2.3.2 Relative deposition per unit area for all releases is calculated for a gruand level release as fo11cws: I i -2 I D/O = relative deposition per unit area (m 3 = 2.55 (D ) 9 r h15ere relative deposition rate at distance r for D = 9 ground level releases frtrn Figure 2.3-3. l 1 - w, p 1 2.0-25 nw. 0 - 8/82

_Easa w&% TABLE 2.3-1 XD40 SPHERIC DISPDSICN PARAMETERS

FOR '2TCHNICAL I

SPIrITICATIONS 4.11.2.1.1, 4.11.2.2, 4.11.2.3, 4.11.2.5.1' ) ? SECIUR XJ D/ ~7 Y 5.468 x 10 1.84 x 10 ~7 ~I 4.079 x 10 1. O x 10 ~I ME 1.121 x 10 .759 x 10 ~I -10 DE 7.044 x 10 3.207 x 10 -9 ~ E 2.283 x 10 1.093 x 10 -10 ~ ESE 7.188 x 10 3.520 x 10 -10 ~ SE 1.817 x 8.420 x 10 ~I SSE 600 10' 3.300 x 10 -6 ~I S 1.2 x 10 3.809 x 10 -10 SSW .113 x O' 8.261 x 10 Q ~I SW 3.001 x 10 4.440 x 10 -10 M5W 3.931 x 10' 3.177 x 10 ~7 -10 W 4.259 x 10 3.476 x 10 -10 M*: 4.359 x 10' .662 x 10 ~7 -10 W 1.548 x 10 2. 3 x 10 1.373 x 10'I 4.174 10'I NNW

Ileference: Grand Gulf Nuclear Station, Dvircnental 14eport, $1-6.1.26.

GRArc GUIE, WIT 1 2.0-26 Inev. 1 - 7/83

TABLE 2.3-1_ w A2406PHERIC DISF@SICH PARAMMERS* FOR TECHNICAL 4.11.2.2, 4.11.2.3, 4.11.2.5.1_ serrdICATICNS SN MILES ff_Q D3 g ~X 3 -6 7.751 x 10 1 N 0.75 1.868 x 10 ~9 ~0 5.298 x 10 NNE 0.75 1.129 x 10 ~9 1.437 x 10 ~ NE 1.50 2.391 x 10 -10 -8 4.34 x 10 ENE 2.50 7.358 x 10 -10 -8 4.581 x 10 E 2.50 8.434 x 10 ~9 ~7 ESE 0.75 5.134 x 10 3.348 x 10 ~9 SE 1.50 2.628 x 10 1.474 x 10 ~ ~9 ~7 SSE 1.50 3.760 x 10 1.288 x 10 2 -10 ~7 S 2.50 3.038 x 10 9.074 x 10 ~9 -7 SSW 2.00 5.063 x'10 1.068 x 10 ~9 -6 4.440 x 10 SW 0.00 3.001 x 10 -10 NSW 5.00 3.931 x 10 3.177 x 10 ~ -10 ~7 W 5.00 4.259 x 10 3.746 x 10 -10 ~7 WM 4.50 3.164 x 10 3.739 x 10 -10 ~7 NW 5.00 1.584 x 10 2.733 x 10 ~9 ~7 NNW 1.50 7.237 x 10 2.342 x 10 Grand Gulf Nuclear Station, Envircmental Report, Table

Reference:

6.1.28, 6.1.29 and CDCM Table 2.2-3. l Rev. 2 - 2.0-26 GRAND GU1F, LINIT 1

l 2.4 Definitions of Gaseous Effluents Paraneters height of reactor building (m) (2.3.1) f b = count rate of the station vent wenitor co24=.pc.Ek to i C = grab sanple radienuclide concentrations (2.1.1) count rate of station vent nonitor correspond 2ng to a 1.0 C' = uCi/ml concentration of Xe-133 (2.1.2) = m+ va+= af th: secrei..ma N g -.it: 'ei reSc- '3 - J a m w arctir: te M dis 9 W n 1 2) count rate of the contaiment purge ncnitor corresponding c' = to a 1.0 uCi/ml concentration of Xe-133 (2.1.2) relative deposit 3en rate for ground level releases frcrn D = 9 Figure 2.3-3 (m ) (2.3.2) ~ average organ dose rate in current year (mram) (2.2.1.b) D = o dose to an individual frcrn radiciodines and radicnuclides D = P in particulate form, with half-life greater than eight days (mrem) (2.2.2.b) D, average skin dose rate in current year (nrern) (2.2.1.a) = average total bodj dose rate in current year (mrem) D = g (2.2.1.a) air dose due to beta emissicns fran noble gas radio-D, = nuclide 1 (mrad) (2.2.2.a) air dose due to ganvna emissions fran noble gas radio-D, = nuclide i (mrad) (2.2.2.a) D/O = relative depsition per unit area (m-2) (2.3.2) p3me depletion factor at distance r for appropriate ( = i i stability class and effective height frczn Figures 2.3-2 l and 2.3-3. (2.3.1) ( fraction of current year elapsed at time of calculation F = (2.1.1) cpen terrain recirculation factor at distance r fran k = Figure 2.3-1 (2.3.1) ^ l t W

Definitions of Gaseous Effluents Paraceters (Continued) 2.4 total body dose factor for Kr-89, the nest restrictive isotope (mrem /yr per uCi/m8), frm Table 2.1-1 (2,.1.2) K = total body dose factor due to gansra ernissions fran 2.1-1 (2.1.1) K isotope 1 (mrem /yr per uti/m8) fr m Table = g d cn the limiting dose rate to the total body base g= limit of 500 mram in one year. (2.1.1) limiting dose rate to the skin based m the limit of D'8 3000 mrm in me year. (2.1.1) = h=d = tb F li..JLir.; i : r e ^^ W 'd =1 M i.tet...r.; N ; l2.1.2) 8 li--1; vI,00 = = in u m y U,c lin u ef lindti,; 3;;; ::'- +r +h @b b :d o. 52.1.2) } c'ss JUUU nuern an one year (Conta2ama pup) ,,_4._<~.m__...._..._m.__.___.,m,._....~~ ' Note 2) g vumcaew. b.ete of 500 ::=.'y::. li.-dting 6 0- rr'_- e & :S b ;;d ;. ;l a D"as - ,,L, g; 3;;;,._ o, I skin dose factor for Kr-89, the nost restrictive isotope (mrem /yr per uCi/m8) frcra Table 2.1-1 (2.1.2) L = skin cbse factor due to beta enissions frm isotope i L*. (mran/yr per uCi/m ) fra Table 2.1-1 (2.1.1) = 8 air dose factor for Kr-89, the nost restrictive isotope 8 2.1-1 (2.1.2) M = (mrad /yr per uCi/m ), fr m Table air dose factor due to ganma emissions frcrn isotope i 2.1-1 (2.1.1) M. = (mrad /yr per uCi/m8) from Table 2 air dose factor due to beta snissions frun noble gas N*. radionuclide 1 (mrad /yr per uCi/m*) from Table 2.1-1 = (2.2.2.a) dose paraneter for radionuelide i, (mren/yr per uCi/m ) 8 for inhalation fran (m. mrem /yr per uti/sec) for other P = 8 g pathways, from Table 2.2-1 (2.2.1.b) O .t ef.cle_ ef i~.ble w..uicnocuoe i iii/ c) e i ii.i.li-3 - =_v rate of release of noble gas radionuclide i fee. (2.1.1) & 972 ' f :di= ef 5 y-M (uCi/sec) Q. = 1 i I 2.0-28 .Rev. 0 - 8/82 I- _ _. GRAfO GUIE, imIT 1 _.

Definitions of Gaseous Effluents Parameters (Continued) ~ 2.4 average release rate of isotope i of radiciodine or Q'g = other radionuclide in particulate form, with half-life greater than eight (8) days in the current year'(uCi/sec) (2.2.1.b) cwulative release of noble gas radicmulide i over the Q. = - period of interest (uCi) (2.2.2.a) 1 cunulative release of radionuclide i of iodine or O'f material in particulate form over the period of interest = (uci) (2. 2. 2.b) M I/ m ) --t: c' =12:.= cf..ile,.. i.41., liac 4 n.4. X aaaia ; ::t: :! r:1:::: ;f eila g&5 z&dia~clide i frcn A i elay,cu izanim vi Ge,es T ' sci /.ec) '2.1.2) 3 v Q[ assigned release rate value of, for exa.ple,1.0 uCi/sec, = Xe-133; related to definition of C' for the vent. (Note 3)

f. - m = '2 L._.,t m associated d th

..m u-u fi# izuu y= W.. r.d w.r.'2: tie. .,m ined for I V. CA,a ;) dose factor for radionuclide i, (mrem /yr per uCi/m3) or R = g (m8. mram/yr per uci/sec) R, count rate per mren/yr to the skin. (2.1.1) = unt rate per mrem /yr to the total body. (2.1.1) R = t R", conservative count rate per mrern/yr to the skin. = (2.1.2) ra e Per Myr 6 & W R"t CNW8 Ve un body (Xe-133 detection, Kr-89 dose). (2.1.2) distance (m) fran release point to location of interest r = for dispersion calculation. (2.3.1) E, ~~=t

t; g: ..

'y. da Ge &LL.. foz ='A_ nt 7m ,u e wa m Ay. u.4.o r rat r;b pei nuem/yr to Ine unal-bodj f;; a.ui._1 it g g su d a,. wily. (hht) www .s", Perfethe m.t ::t p r. r/,c .v Gm sk.L iv.- r.^2i...u.t p gc x.ly. P.1 "A GRMO GUIE, LMIT 1 2.0-29 Dev. 0 - 8/82 ~ _y-... c-

e 2.4 Defin'itions of Gaseous Effluents Paraneters (Continued) ^ F .'ly." 3 ' ~ ~;; '; '* = I"t cr

2.a.2) 3 i-Pj 'er ca..a i..: d. m N '-

0 i;; "~"

2 -

^ -O ~~ ~ 'ElaT K @ iJn. icvel. '~(2.1.2i d l cxunt rate of station vent noble gas nonitor at alarm S = y setpoint level. (2.1.1) 1= vertical standart1 deviation of the pime with build 2ng wake correction (m). (2.3.1) vertical standard deviation (m) of the pi ne at distance 8 = r for effective height under stability category indicated by T(m) frczn Figure 2.3-2. (2.3.1) terperature differential with vertical separation T = ('K/100m). (2.3.1) wind speed at ground level (m/sec). (2.3.1) u = controlling sector annual average atnospherie dispersicn W = at the site boundary for the apropriate patNay (sec/m3). (2.2.1.b) \\. relative concentration for unrestricted areas (sec/m2). W' = (2.2.2.b) X/O = atmospheric dispersion (sec/m8) (2.3.1) highest sector annual average abusperic dispersion at X/Q = the unrestricted area boundary (sec/m2) (2.1.1) X/O' = relative concentration for unrestricted areas (sec/m2) (2.2.2.a) 4 I

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d e

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D

.,,,8 e c. o, . e 0i l j, 5 i i e I i ji t i i i l I I i f-l l 1 i i l 1 Jl l I I I I I I l L h 1., l l l .I l C n ?.. 9 .o ~~ l ~- e n e e e v., N e. l i k' o.

g d

6 6 d o e r 31*in1d NI DNINIYlV3W NOlJ.3YEt ? i .I. h. 0 - 8/82 - nu

i-Fi$u'Wer2.2-2 '*e-tical $13:-::a-d Deviation of I'aterial in a Pla e ('.et ers ::enote Pascuill Stability Class) s ~ 4 ~ .e i 1000 i v i e i... / i .,i, e iei. ./ i e., ,e ia.,; i e e i ilet / i e iiiei i e i i iia i Lt l l li i / I I i i iiii ~i l i l _ >) l I i 1/ l _/'li 1 ( I I I I I Lil) I f '. I l i l lly i I I I f l U-1 I } l i l l/l / I I l i krf l i I I JMll 5 b ll N'I / .F o / / 17 / / ,!f /s N i m e e 6 9 f )~~

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e. t ej _ t e/ ee f e e i f, i e fr.. i + p..ee eS:/.. / ,e = i i iii xiii. i e,i.., i e e i j i f _1_ 34 : t/ I fl l l ll i e i i e i ifII a y l A y t r ll /i X iiI W I I U_J u+; g E. V V l/I I iV / l }1'T li l M i l l l !.l_I j ;' - $5 / V ! 5 E Y / j '$~ l l f y ,/ ( i ,/ /. ./1 l 3e.__, / W. lf# ; ' _'M -l ..: I ' :: l l l l u / / 1 A I l/ li t i i1 ei eiti i i I iilii_ 7 /t yi IA I t i l i i l i li i Il l l I i i 1 e l l _ _I l !i l l l lll l l l lllIll l/ l M i l lll [fl Il l Illi. _I I l l l11 1 I I Illlll /f i / l 0.1 1.0 10 100 I r PLUME TRAVEL DISTANCE (KILOMETERS) s'. l ;- Te,serata,re Cr.ange P astel11 Stant1 tty ! b e tth heitht lill*Et1CO m)_ C ateoor tes C1ststficatiet I ~ !strtMI) w95tabit c.1.9 s ) 1.9 te.1.7 8 'fece stely wastat,ie 1.7 to.1.5 C 51ststly wastante l .1.5 to 4.5 9 Lestral l .O.5 to 1.5 1 51stuli stable 1.5 to 4.0 F Maceratrip stable

i p 4.0 5

[atre m is table s 2.e32 Rev. 0 - 8/82 GRAND GULF, UNIT 1 m s -

F b ee ?.3-3 7eletive Dep:sition for Ground.evel Releases (t.11 *:msspneric Stability Classes) ~ 10-3 ,., i.. i i,, I , i.,,i. ,,I I I il i i Ili e I i l Il l1 I I l 1 I i1I I i l 1 I l lll 1 1 I IIlill i I I II II:

r-1 I

I l lilli I i l lill! I I Ililli 1 1 t icd i s ..,s. i N. e... l ~ I g ,,..w.. ,e ,ie,. I 1 I t II.\\ l I i l 11III I i1 I I Ia: i i i i ii ii N i i i iliii i i I ll i l:. y e i I I Ill ll Xl l l ll1 1 lll li .r_ e I i e i lli( $ 10-5 . :N x. -. i 2" l l i l l lll4 I l l l lllt Nl l l l llI, i l l ll llll l l l l l 1. l i l \\l l lllll l s I I lli i l i Illu ll l % I lllll l E M e y e 8 10-6 N, ,.,,,,i, iei. i i eiei u. i i i iei.. i I i l l 4ll8 l l l l 1ili, i l i l l 1lI l j [' i I I I t illi I I I II!lli I I Il t il i i.., l l lll1111 1 Il l Ill Ii' ll l l.

l

10-7 0.1 1.0 10.0 100.0 200.0 fi

r. PLUME TRAVEL DISTANCE (KILOMETERS)

,t,. i-Dev. 0 - 8/82 l E Graph taken from Reference 7. Figure 6 2.(-33 GRAND GU'J, UNIT 1

"ig yg 2,2 5 h. > P f' E*. # I V 5 f E i'*

G h ** i Of-b A
I.O~

,e C.c - ~7... I e 1 8 jl I t t I t I l i l l l l t l ll l l l 8 8 8 f ll 1 i i l U lI! I s_ I ss I e I i 1 1 ll 1 I i 'i l l Ill ! I I I I-l Ill i I I I i !!! i I I I i ll l ll. j i l i j l l l 8 ,,II !li I i i i : I l i / I l = ~ /I! I ia i_e l I; 4 i e I e i b le I i i j i i /tt ] l 6 i I ll 11 I I I I / 11 1: I ! I i i i E ') lil l 1 l l 1 / Il Ii i i i i l 5 lil ! ! I i l / Illi ! ! i l i o 5 / l d t-b b m. t l 11 t i 5 E ll' u t c e. . =. i a= i ii,, i i iii. i h ll l l l l f IlI* I l ? l i e

:: i i i

j i l _i i : i i i u i ill J l l l Ili i I I I I l L ! I -l I I lillIi i i i _l l I I i l t l i L.- -a I o. o o e e e W01DVd NOl133WWOD '4 ~ i-Fev. 0 - 8/82 2.0-34 GRA*10 Gut.F. Uti1T 1

.T,a.Seeb % Gsh 9W 1 [ GASE00S'RADASTE TREXD1EhT SYSM / .5 1he essential -pents of the gaearm ra&raste treatnant system for the CPERABILITY requirerrent of RET. S Specificaticm 3/4.11.,2.4 ,1 iDflicated be10W. annos:t suzanc dg-39@ VENT s,o, E# CataL MIC at to t Stast IIII"II"II W Ass M ,yfyf ~ llUt"c'_'".*' 8I I "g,,g,Mc" 385 5 sta M V h aot u t 9

Nt a.

~ -y l pEmsnmtvt ,.it a e er 1 Pta vistT) .au i I V f EA A ff I (415WML 16 N0ut5 PER flaR Op[34T105) A [ET FINta! t Nte nNa ~ 1" MICM. 9&C. P 9 ( -s >

n s

l ea !"" t!N e l ,{tal l ^ 8'I* TI j to DU!$13ti IWIL8 G I At#98Fhial Alt ! l j L , r, Net ,i:J,;N:. 1 i. set.o,a. se FILTttl 1 s .vi.. i.t,, l 4 u u .U,g g j ,g vuot.c ..t J n rat uy* .., 8445 allen l MIE Wel19e. I flLTitj SU Of I to atmetraget g l est eten sua l '"1" ' ""' '2"_ c e s I ri_t3t,i ataisarmt stos.* s e.. _ g7 b = t l 'I.' ( 'n';n,.- m i w. to stregestat J l S est .u. te. Sta inst g rattle tutte e na l '~ Sh5 1 l -7 taga pggf tesetest g stes y y,g7g, / 'gy, (REPRE5DIATIVE %/ OF 2 PER NRif) nooral operations the dernister and filter units (prefilters,

Dur' coal filters and HEPA filters) are not installed in the filter However, the filter train is available to be operable at a in.

later date Vwn the filter and demistar are installed. Taken fran Beference 4, Figure 3-8. ( \\ Dev. 1 - 7/83 GRA10 GUIE, UNIT 1 2.0-35 f 4 i .,r ,-v--< ~ v- -,,

GASEOUS RADWASTE TREA'INENT SYSTEM 2.5 The essential ocmponents of the GASEQUS RADWASTE TR*RIMENT (OFEGAS) SYSTEM for the OPERABILITY requiremnt of RETS Specification 3/4.11.2.4 are indicated below by an asterisk (*). som veer nomm amnc M 0 2 2 1' CAD 1YTIC smss z.nz immna 2 n 40 sefa RADIATIG4 10 MDI man Cfr Gh5 g axa in y r e earn n em cosm e ( crumm ) cnam. 0 ses mA

ma -

er i ro tNrn rna me a V maux 3 nmoc VDCIIATICN 5Y5 m i q NOIES 1. The essential ocmponents included above are those necessaty to prccess gaseous radwaste prior to discharge to the envite.imit. 2. 'Ihe charcoal beds may be bypassed provided the limits of Technical Specification 3.11.2.1 are not exceeded. The charcoal beds will be used as nuch as possible to ensure releases are as low as reason-I ably achievable. GRAto GUIE, UNIT 1 2.0-35 Rev. 3 - 5/84

f 3.0 RADIgrr.ICAL DNIKWIENTAL MONI'IORING Sanpling locations as required in section 3/4.12.1 of the Radiolo-gical Effluent W eal Specification are described in Table 3.0-1 through 3.0-3 and shown on maps in Figures 3.0-1 through 3.0-4. l1 h i I l l ( I-l GRAFO GUIE, IJNIT 1 3.0-1 pey. 1 - 7/83 l ~ .4 ,e ~ e---a x --e-4 -e --m-

GX:M TABLE 3.0-1 AIR SAMPIDt COL 12CTICN SITES i AIR SAMPIERS NLMBER FIGURE ILCATICN SNthest cf GGNS at the Port Gibson City PMn. 3

AS-1 PG 3.0-3 (Sector G Radius SSrtiles)

AS-2 61N 3.0-2 North Northeast of GGNS, cm Wy 61 South across l3 fra the Yokena Church. -t-i ^ 'y 20.41= Jeem419er (Sector B Radius 13 miles)

AS-3 61 VA 3.0-2 North Northeast of G WS on Hwy 61 south at the Vicksburg Airport.

(Sector B Radius 18 miles)

AS-4 GJOE 3.0-1 SoutNest of G WS. Glodjo property on Waterloo Road. (Sectcr L Badius.9 miles)

AS-5 7C 3.0-1 South of G W S behind MF&L training center 3 1 building. (Sector J Radius. miles) AS-6 RS 3.0-1 Northeast of GGNS, South of Grand Gulf Road. (Sector C Radius.8 miles) DM.r.t.3 a-I 1 i S i'

AS-7 Mr 3.0-1 North of GGNSy Located next to the rgef tower.

+ W =t 6. -._;l i.11 4 (Sector A Badius.8 miles) AS-8 WR 3.0-1 East of GGNS, located at Maggie Jackscm's trailer on Waterloo Road near the Eastern Site Soundary. (Sector E Radius.5 miles) A S-9 G WP 3.0-1 Eorth of G WS, located in Grand Gulf Military 3 A Park. (Sector A Radius 1.5 miles) l I AS-10 NLT 3.0-3 Nest NortNest of GWS, located at Newellton, Iouisiana. (Sector P Radius 12.5 miles) l AS-11 STJ 3.0-3 West Sott N est of G WS, located at St. Joseph, louisiana. (Sector M Radius 13.0 miles)

'nechnical Specification requirements Frcan Grand Gulf Nuclear Station's Annual Tdological Dwironmental

'3 Operating Report.4884,- i 4 i Rev.1 - 7/83 GRA!O GUIF, C 1 3.0-2

z 1 CDCM ~ TABLE 3.0-2 MISr'n1ANEns tynnrrIW SI'!ES PAGE 1 of 2 gIIy S w M (CCN1141 IDCATIW) a gigp I,catedS stofG S. Alcorn State Urn.versity. (Sector K Badius 10.5 miles) Bosco Johnson fa m 3.0-3 Iocated Southeast of GGNS. (Sector G Padius 9 miles) i i Hazetta Warren fam 3+0-3 Iocated in Iouisiana West Nort1 west of GGNS. (Sector N Radius 8.5 miles) CISTERC WATER located east of GGNS at the 1. Trinble Cistern

3.0-4 Trinble Tenant House.

(Sector E 1 Radius.5 miles) located at the C.E. Willis house I 2. Willis Cistern

3.0-3 East Northeast of GGNS across J

fr a the Shiloh Baptist Church. (Sector D Badius 6 miles) i GROUND WATER PCRT GIBSCN WELL - Taken at Port 3.0-4 1. PGWELL* Gibson City Water lift Station. (Sector G Radius 5.0 miles) b ( GRAND GUIE MILITARY PARK - Taken 3.0-4 2. GWFWELL fr m faucet at the Grand Gulf Military Park. (Sector A Radius g 1. miles) h

3. M 3.0-4

'IRIELE house faucet. (Sector E l3 Padius 0.7 miles) L Taken frce faucet at the bath 3.0-3 Z 4. IAKE BRUIN house in Lake Bruin State Park, 7 Iouisiana. (Sector M Radius 9 g miles) Technical Specification requirestents Frm Grand Gulf Nuclear Station's Annual Radiological Envirmnental N Operating Beport, C 1_ 3.0-3 pev.1 - 7/83 g3 4 e ~_

CDCM TABLE 3.0-2 (CCNTINUED) Page 2 of 3 SUFFACE WATER Figure Upstream

3.0-4 4500 ft. upstream of the GGNS 13 outfall to allow adequate mixing of the Mississippi and Big Black Rivers. (Sector Q)

Downstream

3.0-4 5000 ft. downstream of G a s l3 outfall, near the nest southern radial well.

(Sector N) Discharge Basin

3.0-4 West of GmS, 0.5 miles, Sector P VECEIATIm Broad Isaf Vegetation
3.0-4 South of GGNS in the MP&L garden near the training center, or South Southwest in Glodjo garden, or areas adjacent to these gardens.

(Sector J, 0.4 miles) Lake Claiborne Willis garden (Sector E, 3.0 miles) Nelson Truck Farm (Sector E, 4.5 miles) Alcorn State University South-west of GGNS (Sector K,10.5 3 miles) FISH SAMPLES Catfish

3.0-4 Downstream of the discharge point in the Mississippi River 3.0-4 Upstream of Discharge Point uninfluenced by Plant Operations.

Technical Specification requirernents Frcun Grand Gulf Nuclear Station's Annual Radiological Envirorynental l Operating Report. l3 GRAtO GUIF, UNIT 1 3.0- 3a Rev. 3 - 5/84 \\ l ---v., ---.\\

i ~ m TAB 2 3.0-2 (CCNTDED) Page 2 of 2 J SURFACE WhTER Figure A/500 rt. Upstream

3.0-4 500 ZOO A upstream of the l3 GGNS outfall to allow adequate nnxing of the Mississippi and Big Black Rivers. (Sector Q)

I3 gsoo th.~00 y d downstream of G ES 3.0-4 Downstream

outfall, near the nest southern radial well.

(Sector N) 3.0-4 West of G WS, 0.5 miles, Discharge Basin

Sector P VEGETATICE South of GGNS in the MP&L garden Broad Imaf Vegetation
3.0-4 near the training center, or South Southwest in Glodjo garden, or areas adjacent to these gardens.

(Sector J, 0.4 miles)- 1 lake Claiborne Willis garden ( (Sector E, 3.0 miles) Nelson Tmck Fann (Sector E, 4.5 miles) I Akera Ma%., Opion,% LAwust 13 of Go, ss Cha.e % m.s %W FISH SAMPLES 3.0-4 Downstream of the discharge Catfish

point in the Mississippi River 3.0-4 U p tream of Discharge Point uninfluenced by Plant Operations.

SIDIMENT SAMP125

l Collected semiannually during 3.0-4 the low water periods of the Tidal Basin - sanples taken downstrem of the outfall in the i

vicinity of the boat landing O near H eilitaan lake outlet and c, w d,a, w b m p se. s k 9 in the Bax @ Slip. (Sector N 3 SEDCofill o,p s,n".>4s e L F - and Q, 2 miles) l 21 abj ~ OederT.I Specification requirements From Grand Gulf Nuclear Station's Annual Radiological Ihvironmental {3

Technica Operating Report, W 3.0-3a

,Dev. 1 - 7/83 GRAfD GUEF, UNIT 1

- - -'erN....%.

CDCM NMel A led SWM TABIz 3.0-3 3 % h<. cyewet 9 CAM TID IOCATIWS Page 1 of 6 l[1sm w[ REA Pole-East of Entry Gate at FIGURE seita MIIz IccnTIm g* M-01 3.0-3 E 3.5 Iake Claiborne M-02 REA Pole Inft of htry Gate 3.0-3 L 7.0 Windsor Rains M-03 REA Pole-East Side Hwy 61 3.0-3 H 7.0 P.G. Country Club entrance 3 M-04 MP&L Pole-Wy 547 North Side [o[5 G Between 'Nin Power Poles M-05 50 yards North of Wy 18 Approximately 5 miles East 3.0-3 F 9.0 of U.S. 61 M-06 REA Pole-East of Willows E 8.0 Beyond WE Church MS Wy 462

M-07 Port Gibson City Barn AS-1 3.0-3 G

5.5 j 1 M-08 West Side Big Black River 3.0-3 C 8.5 South Entrance

M-09 Oak Tree Hanger-South Warner 3.0-3 D

3.5 Tully Caup i

M-10 Entrance Gate Grand Gulf 3.0-1 R

1.5 Military Park I l M.-11 Hwy 61 3 miles North of 3.0-3 C 10.5 Big Black River at 'N2.n Tower l M-12 Hwy 61 at AS-2-61 North i 3.0-2 B 13.0 Yokena M-13 by 61 ImTourneau Hill West 3.0-2 B 15.0 l Side of Road

M-14 Hwy 61 AS-3-61VA at Casket 3.0-2 B

18.0 (CCNram.) Company

Te&nical Specification requiraients Fran Grand Gulf Hoclear Station's Annual Badiological hviiv,.wtal Operating Beport.0002.~

( 3.0-4 Dev.1 - 7/83 GRABC GUIE, WIT 1 -.w ...ww.. 4,.. - <, ,,.,,.-..f-,... ...~,.-----..r.+,- ,e...' .--c. _.ww.,. v.-o,

= ~ CE O4 I TABLE 3.0-3 (CCNTINUED) TID 10CATICNS Page 2 of 6 '!ID NO. IOCATICE FIGURE SECKR MILE ~W15 Barge Slip (south edge) 3.0-1 P 1.5 )46 0.8 $3 3.0-1 A

W16 AS-7 MEr 'Ibwer W17 AS-6-RS Grard Gulf Road 3.0-1 C

0.5

M-18 Railre 3 Crossing Eastern 3.0-1 F

0.5 Site boundary M-19 Behind Burn Pit on Fence at Eastern Site Boundary 3.0-1 E 0.5 M-20 Eastern Site Boundary Behind

3. -1 F

0.5 i- &gjgAda & w w w M-21 AS-5-TC Training Center 3.0-1 J 0.f '-{ 13 100 9%ccLS M-22 6.gouth of RR Entrance Crossing \\3 1^^ Y-t on West Side 3.0-1 G 0.5 M-23 County Road / Heavy Haul Road 1 (' 50 Yards North on Power Pole 3.0-1 Q 0.5 M-24 Upper Grand Gulf Ianding 3.0-1 R 2./ 2 l3

M-25 Hamilton lake Boat Iaunch 3.0-1 N

1.0 I3 M-26 Hamilton Iake Outfall 3.0-1 N 1.f f

M-27 South Point Site Boundary 200 Yards along Property Line 3.0-1 M

1.g5-P M 0,i l3 f ' M-28 AS-4-Glodjo Residence Glodjo 3.0-1 L K-29 In sharp curve of Waterloo Road to Waterloo Plantation 3.0-1 K 1.5

M'30 Arrald Acres Trailer Park 3.0-1 J

19I I3 Entrence W31 Duplicate TID Installed at designated Site Nmber

Technical Specification requirstents Fran Grand Gulf Nuclear Station's Annual Radiological Envirurnental

}"$ Operating Report.19834-4 I GRAE GUIE, IJNIT 1 3.0-5 Rev. 1 - 7/83

7 CDCM ~ TABLE 3.0-3 (CCNTINUED) TID IIIATICES Page 3 of 6 TID NO. IOCATICN FIGURE SECKR MILE W32 Duplicate TID Installed at designated Site Nunber

M-33 Newe11 ton, Iouisiana Water Tower 3.0-3 P

12.fI l3-

M-34 Primary Imvee at End of Country Ibad at Point Pleasant, Iouisiara 3.0-3 R

Jd F.O \\3

M-35 Mor tanding - Iake Yocatan 3.0-3 Q

8.0 l

M-36 Curve on 608 Point Nearest GGNS, at Power Pole 3.0-3 P

5.0 G M-37 Winter Quarters Hane 3.0-3 N Jdi P.O

M-38 Iake Bruin State Park 1

Second Pole 3.0-3 M pd)Tf~ l3 (

M-39 St. Joseph, Iouisiana, Aux.

l ( Water Tank 3.0-3 M JM 13.D 13 A r. 00 "-ir' W L.1:2.' shield ^ -i..ii Gwm pri;d

M-40 International Paper Road, Approximately 5 wiles fra site 3.0-3 M

5.0

M-41 Heavy Haul Road - J Pipe on Concrete Block 3.0-1 P

1.0

M-42 Heavy Haul Boad North Iron Gate 3.0-1 Q

1.0

M-43 Gin Lake Entrance 3.0-1 R

1.2

M-44 Truck Bypass on Grand Gulf Road 3.0-1 C

0.5

M-45 Visitor Center Gate East Side 3.0-1 D

0.5

Technical Specification requirments Frm Grand Golf Hoclear 5:.ation's Annual Radiological Dwimmetal Operating Report,1002 -

}3 I GRNO GUIE, tNIT 1 3.0-6 Dev.1 - 7/83 ---_,.-,,,y. ~.,. -,, -. _., _.....,,,,, __.__

l CDm TABLE 3.0-3 {CCNTINUED)_ Tm ILCATIms _Page 4 of 6 FIGURE SECitR MIIE 11D NO. IDCATIm Pcwer Pole Across frczn Grand Gulf / Waterloo roads intersection 3.0-1 E 1.0

^M-46
M-47 Bridge 0.6 miles past Rodney l3 Road /Greemood Road intersection 3.0-3 I,

5.J/ 2-- North Side 3.0-3 K Mdf 8 I3

M-48 Property Line Fence 0.4 miles on Greemood Road on West Side 3.0-3 H

4.5

M-49 lbrk in Weathers Road B

51/f g3 7p.h. Bo44s cw Ed,Sgm

Lg Thr'.. h st L li..g

M-50
M-51 Power Pole 0.5 miles on Gravel pd 'l I Road to Big Black on West Side 3.0-3 C
M-52 Power Pole-Waterloo Road 3.0-1 K

1.0 Marked with White Paint 3.0-1 H 1.$ l '{5 i

M-53 Arrold Acres Property Fence Past Trailer Park 9%Y
M-54 ptte of Carve Arnold Mee 3.0-1 G

1.0 )$ o houSC

M-55 Behind Bonner's Beauty Shop 3.0-3 D

5.0 at MSBH Air Sanple

M-56 Hwy 61 South at 'All Creatures 3.0-3 G

5.0 Veterinary Hospital"

M-57 Hwy 61 North Behind the Welocme 3.0-3 F

4.5 to Port Gibson sign

M-58 Big Bayou Pierre Bridge 3.0-3 E

5.0 Southwest End

M-59 Off levee at Winter Quarters 3.0-3 N

5.1 Hunting Cany

Technical Specification requirments Frm Grand Gulf Nuclear Station's Annual Radiological Dwiiu.w.tal

)3 Operating Beport,199ilw t Dev. 1 - 7/83 GRAND GU1F, UNIT 1 3.0-6a ee .g., .a e, .e.- _,<.,_,_.g ,,,-,e--r ,,---<-,-,,mw r e g- ,,,,p~, + - <---e w-

.[ GXM TABLE 3.O 3 [CQfrINUID) ~~ TID 14CATIms Page5oR M~ILE SECitR ~ ~ ~ FIGURE T ~'~~~~~ 14CATIN ED NO. 'W Duplicate TID Q1 site Not P E h Shown r Protected area fence by t e entrance gate W61 vehicle N h Protected area fence Nort - lot east corner MP&L parking M-62 N middle }3 Protected area fence M-63 MP&L parking lot n Protected area fence South k-a lo east corner MP&L parking M-64 L South protected area fence behind MP&L warehouse M-65 K South protected area fence h across fra cooling tower l M-66 J l South protected area fence w end A.O.fe M-67 H East protected area fence en tank across fr a hlorination c M-68 G r East protected area fence nea l F M-69 electric Buss bldg. 3 North fence behind turbine c f M-70 j = pbneturenarbTag. 10 M-71 a = Idg. M-72 ude-a-ende control P Corner of fence outside ironmental )3 5 73 blog. equirements's Annual Radiological Dw

Technical Specification rFran Grand Gulf Nu operating neport,hea

'i c pey. 1 - 7/83 I 3* " D w, curr 1 p m -~ W"* 9'v - - ~

mot TABII 3.0-3 (CCNTINUED) I T1D lirATINS 'Page 5 of 6 [ 31D NO. IirATIN FIGURE SECKR MIII

.w60 Duplicate T2 M-61 Protected area fence by the Not vehicle entrance gate Shawn P

msite W62 Protected area fence North-east corner MP&L parking lot N Parking lot W63 Protected ar fence middle f3 N MP&L parking M-64 Protected area fence South-east corner MP&L parkang M M-65 South protected area fence behind MPLL warehouse L M-66 Scuth protected area fence across frcrn cooling tower K 1 M-67 South protected area fence J 3 gendNorthfence M-68 hst protected area fence across fran chlorination tank H M-69 hst protected area fence near electric Buss G F M-70 North fence behind turbine b1dg. G3' bdiug @E 2 cit rf _ 1" ' 12. 1 -. L M-71 C 3 p'-t 5*h bid;;. G1' tad w % 1" ' 1r. 1 tu.g.a 4 M-72 . _J L?R 2 -id-B N-73 Corner of fence outside control P blog.

Technical Specification requireents Fran Grand Golf Noclear Station's Annual Radiological hviro.etal Operating Report. K Il I

grate GU1F, UNIT 1 3.0-6b hr>. 1 - 7/83

t GXM TABIE 3.0-3 (COGNUED) TID 10CATICNS Page 6 of 6 FIGJRE SECITR MIIE 'HD 10. IirATICN Not W74 Midway of North fence Stewn P msite M-75 Corner in fence in front A of Maintenance Shop A M-76 Southeast corner SSW Basins M-77 Protected area fence beside R maintenance shop ~ M-78 Outside vault in Admin. Bldg. Q l3 Wall in Central Records (.miMQ Q M-79 M-80 Wall in Central Records Old Q library location '1 M-81 Inside Admin. Bldg., 2nd floor, Q northeast a ll Q i M-82 Tech Su;4crt Area (1 M-83 M Support Secretary'S o@u - Q P M-84 Security Island M-85 Rotating duplicate

M-86 Bechtel Gate North Site 3.0-1 B

0.5 Boundary

M-8')

Intersecticn of Rodney Road & transmission line 3.0-3 J 4.5

Technical Specification requirements F

Frm Grand Gulf Nuclear Station's Annual Radiological Dwirormental sy l3 /7 Operating Report 19th%, 4 42. 14-2 t' b n. Wl4 m%e b.40 % s.o-s.o-i %i M-li %466. Gnwa A th( M-9 o he.<>.ss, noem mtaAh. Gemet Is.k A Lo-, 9 s.s 3 Mco TrA m >s Me b3 p. set

g. o. )

5-g, i 3*N Rev.1 - 7/83 GRAIO GUIE, UNIT 1 1

[p 3Q Q j t [ .f V 'h/ N~ )w% ../ %l ( s l s g [ I j N. J.,- I o u I f*' .) [.. 9 'I l / P.s}. ( D \\ e 5 3 g 'O " l.i ' /\\ ) l .. 9, f* l ~- 'u

x. - f' f.b/ s ll) s

/ 'p 'V' .. A -f [ j d I sen. A Y, +'gAkhf6ULF..,Y'. Lane s. 'I [ ta. :,e.. - p.> A e { F f, F .d* @~ ann ae u ,,, ~ !. ~ ? n as .. _ ~

I h

a ens 'h$

i.
?-{*h *.

y [:.,,,

. s..-

ogRRV .f., ; gP / ..z,* ,Q {e s i . :,,,.e, 3 [ g ::....... ( .e COL 12LTICN GI'IE ONS MI SSIPPI POWER & LIGC OCNPANY g GENERAL AREA MAP GRAND CUIE NUCLEAR STATION FIGURE 3.0-1 UNIT 1 & 2 ODCM 4 Rev.1 - 7/83 1.0-7

l s, x. 3

l II

!I 1..... f - ? ~'./ S --- t o ,L' '~ l l l 100 ) ; g : if l[i f eI l; / 9 r-u , N ..2 -'jlj ll t s f. t / h_ s ,/ ) 'N -s, .3 h I I ._ ;r Q,., ) ^ ~" e J \\,

s. t /,$

\\' -)., l' _ _ ' d'y,. f~' l& 's 9; "Q f f',)I,, ' -3 \\ v' T'./L \\ ,~. ' ./ e8 'g' L T g'. s_ / g \\~' \\ ', ) 1 ^ '~ / \\ \\ '.3 / -) '~ t s s ~ f ) g m ". f \\ l ) N ,' j~ ~ \\ht;\\fh, f. ' i n, 4', W fy t. ) z' y;. 7 \\l P i.d L' t p. - ^ ' ' '/y, i r L-3,>- e ~. - 1.- i *. %.

7l+

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ML20092P284

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