ML20133G995
| ML20133G995 | |
| Person / Time | |
|---|---|
| Site: | Grand Gulf  |
| Issue date: | 09/27/1985 |
| From: | Galen Smith MISSISSIPPI POWER & LIGHT CO. |
| To: | |
| Shared Package | |
| ML20133G992 | List: |
| References | |
| PROC-850927, NUDOCS 8510160216 | |
| Download: ML20133G995 (74) | |
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0FFSITE DOSE CALCULATION MANUAL 4
- l. GRAND GULF NUCLEAR STATION i
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i hydOl60216851010 l F ADOCK 05000416 ,
PDR O l GRAND GULF, UNIT I Rev. 6 - 9/85 J200DCM850829
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Revision No. 6 Date 9/27/85 GRAND GUIE NUCLEAR STATION OFFSITE DOSE CALCULATION MANUAL SAFETY RELATED EVALUATION APPLICABILITY SAFETY EVALUATION ENVIRONMENTAL EVALUATION APPLICABLE APPLICABLE NOT APPLICABLE X NOT APPLICABLE Reviewed / Approved: sm C f[/7/h Superviit4 Environmental Services /Date Reviewed / Approved: . 2-M; A 7/r7//f Supervisor, Radiolo'gical Services /Date
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Reviewed / Approved: 7/ r ag , diologi & Environmental Services /Date Reviewed / Approved: ,W f /f!/7/65 D' c or .'ucle r/Suppor1(/Datd Reviewed / Approved: > I/M )/[f Chwiriad, Plfnl Safety Review Committee /Dpf.e ~ /~
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GRAND GULF, UNIT I i Rev. 6 - 9/85 J200DCM850829 1 . _.. - . - _ _ _ - . _ . - . . - . _ _ - . . - .
l INTH3XX. TIN O -%e GTSITE DOSE CAICUIATIN MANUAL is a supporting h==nt of Grand Gulf n2 clear Station Radiological Effluent Technical Specifica- 2 tions (RETS) . As such the axe describes the methodology and parameters M
to be used in the calculation of offsite doses due to radioactive li?
and gaseous effluents and in the calculaticm of liquid and gaseous effluent nonitoring instrunentation alarm / trip setpoints. 'the GXX contains a list and graphical description of the specific sapple loca-tions for the radiological enviremental sonitoring progrm. Diagrams 2 of the liquid and gaseous radwaste treatment systems are also included.
The GXE will be maintained at the Station for use as a reference guide and training doceent of accepted nethodologies and calculations.
Changes in the calculational methods or parameters will be incorporated into the com in order to assure that the GXE represents the present methodology in all applicable areas. Conputer software to perfom the described calculations will be maintained current with this GXM.
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GRAND GUIE, UNIT 1 Rev. 2 - 5/84
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(O .~- w. TABE T OCNTDirS MPNUAL APPMNAL SHTr. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I,rumm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. u TABE T CQfrDirS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . iii UST T FIGURES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . iv V
U ST T TABIE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
UFr T REEERD4CES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Vi USr T DTETIVE PAGES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Vii 1.0 LIQUID EETwDfIS 1.1 Liquid Effluent Monitor Setpoints 1.1.1 Liquid Radwaste Effluent Line Monitors........ 1.0-1 1.2 Dose Calculations for Liquid Effluents i
1.2.1 Maximan Exposed Individual Mode 1. . . . . . . . . . . . . . 1.0-7 1.3 Liquid Ra&raste Treatznent Systen. . . . . . . . . . . . . . . . . . . . . 1.0-15 2.0 GASEUS EFTwDTIS 2.1 Gaseous Effluent Monitor Setpoints 2.1.1 Continuous ventilation Monitors. . . . . . . . . . . . . . . 2.0-1 2.1.2 W.xt Deleted. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2. 0-3 l2 2.2 Gaseous Effluent Dose Calculations 2.2.1 Unzustrict.ad Area Boundary Dose............... 2.0-7 2.2.2 Unrestricted Area Dose to Individual.. ........ 2.0-8 2.3 Meteorological Mode..
2.3.1 Atnospheric Iispersion........................ 2.0-24 2.3.2 Deposition.................................... 2.0-25 2.4 De finitions of Ga srmus Ef fluents Paraneters. . . . . . . . . . 2.0-27 2.5 Gaseous Radwaste ".reatzent Systan. . . . . . . . . . . . . . . . . . . . 2.0-35 3.0 RADIGDGICAL DNIPONENIAL MCETICRING 3.1 Sanpling Iocations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3. 0-1 iii (O
GRAND GUIE, IMIT 1 Rev. 2 - 5/84
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GXM i
.c..:- LIST & FIGURES Fiaure Title Page 1.0-1 Calibration Curve for Liquid Effluent Monitor........ 1.0-6 2.3-1 Plume Depletion Effect for Ground Invel Releases..... 2.0-31 2.3-2 vertical Standard Deviation of Material in a Pitzne... 2.0-32 1
2.3-3 Relative Deposition of Ground-Invel Releases. . . . . . . . . 2.0-33 2.3-4 Open Terrain Recirculation Factor. . . . . . . . . . . . . . . . . . . . 2.0-34 3.0-1 Collection Site Iccations, 0-5 Mile Area Map. . . . . . . . . 3.0-7 2 l
3.0-2 Collection Site Iocations , General Area Map. . . . . . . . . . 3. 0-8 1
3.0-3 Collection Site Incations, 0-10 Mile Area Map....... . 3.0-9 l2 3.0-4 Deleted.............................................. 3.0-10 2 P
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- GRAtO GUIE, LEIT 1 Rev. 2 -5/84 i
10 OFFSITE DOSE CALCULATION MANUAL LIST OF TABLES i
Table Title Page 1.2-1 Bioaccumulation Factors.................................. 1.0-9 1.2-2 Ingestion Dose Factors For Adults . . . . . . . . . . . . . . . . . . . . . . . 1.0-10 1.2-3 Site Related Ingestion Dose Commitment Factor........... 1.0-13 s 2.1-1 Dose Factors for Exposure to a Semi-infinite Cloud of Noble Gases.................................... 2.0-6 2.2-la Pathway Dose Factors for Technical Specification 3.11. 2.1 and Se ction 2. 2.1.b . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2. 0-11 2.2-lb Pathway Dose Factors for Technical Specification 3.11. 2.1 a nd Se c tion 2. 2.1. b . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2. 0-13 2.2-2a Pathway Dose Factors for Technical Specification 4.11.2.3 and Section 2.2.2.b............................ 2.0-15 f) 2.2-2b Pathway Dose Factors for Technical Specification 4.11.2.3 and Section 2.2.2.b............................ 2.0-17 2.2-2c Pathway Dose Factors for Technical Specification 4.11. 2. 3 and Section 2. 2. 2.b . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.0-19 2.2-2d Pathway Dose Factors for Technical Specification 4.11.2.3 and Section 2.2.2.b............................ 2.0-21 2.2-3 Controlling Receptors, Locations and Pathways........... 2.0-23 2.3-1 Atmospheric Dispersion Parameters for Technical 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 Sample r Collection Sites . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.0-2 l
3.0-2 Miscellaneous Collection Sites.......................... 3.0-3 3.0-3 TLD Lo c a t i o n s . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 . 0 - 4 l 3.0-4 Vegeta tion Sample Source s . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.0-10 3.0-5 Fish Sample Sources..................................... 3.0-11 GRAND GULF, UNIT 1 v Rev. 6 - 9/85 J200DCM850829
.. J 00CM ,
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- 1. '-90egli, T. S., R. R. Bellamy, W. L. Britz, and R. L. Waterfield,
" Preparation of Radiological Effluent Technical Specifications for Nuclear Power Plants", NUREG-0133 (Octe+=r 1978) . 2
- 2. Calculation of Annual Doses to Man from Routine Releases of Reactor Effluents for the Purpose of Evaluating Capliance with 10TR50, Appendix I, U.S. NIC Regulatory Guide 1.109 04 arch 1976) .
- 3. Calculation of Annual Doses to Man frcan Routine Releases of Reactor Effluents for the Purpose of Evaluating Capliance with 10CER50, Appendix I, U.S. NBC Regulatory Guide 1.109, Rev.1 (Octr**r 1977) .
- 4. "Envirorsnental Report", Mississippi Power and Light Capany, Grard Gulf Nuclear Station, Units 1 and 2.
- 5. " Final Safety Analysis Report", Mississippi Power and Light Campany, Grand Gulf Nuclear Station.
- 6. Methods for Estirnating Atmospheric Transport and Dispersicm of Gaseous Effluents in Routine Releases frtzn Light - Water - Cooled
! Reactors, U.S. NBC Regulatory Guide 1.111 (Hards 1976) .
- 7. Methods for Estimating Atmospheric Transport and Dispersion of Gaseous Effluents in Routine Releases frtzn Light - Water - Cooled Reactors, U.S. NRC Regulatory Guide 1.111, Rev.1 (July 1977) .
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O vi I GRAND GRE, UNIT 1 Rev. 2 - 5/84 l ._. _ _ . . _ _ _ _ _ _ _ _ _ _ _ _ _ _ , _ _
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ODCM LIST OF EFFECTIVE PAGES
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PAGE REY. PAGE REV.
NO. NO. NO. NO.
i 6 2.0-22 1 11 2 2.0-23 5 iii 2 2.0-24 6 iv 2 2.0-25 0 v 6 2.0-26 5 vi 2 2.0-27 3 vii 6 2.0-28 5 2.0-29 3 1.0-1 0 2.0-30 3 1.0-2 2 2.0-31 0 1.0-3 2 2.0-32 0 1.0-4 1 2.0-33 0 1.0-5 6 2.0-34 0 1.0-6 1 2.0-35 6 1.0-7 5 2.0-36 5 1.0-8 6 3.0-36 6 1.0-9 2 3.0-2 6 1.0-10 0 3.0-3 5 1.0-11 0 3.0-3a 6 1.0-12 0 3.0-3b 6
() 1.0-13 1.0-14 2
1 3.0-4 3.0-5 6
5 1.0-15 4 3.0-6 5 3.0-6a 5 2.0-1 5 3.0-6b 5 2.0-2 5 3.0-6c 6 2.0-3 2 3.0-7 3 2.0-4 6 3.0-8 1 2.0-5 6 3.0-9 3 2.0-6 0 3.0-10 5 2.0-7 5 3.0-11 5 2.0-8 6 2.0-9 6 2.0-10 5 2.0-10a 5 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 l(]} 2.0-21 2 GRAND GULF, UNIT 1 vii Rev. 6 - 9/85 J20 LIST
O' 1.0 ue-I 1.1 Lidiid Effluent Monitor Setpoints 1.1 Liquid Radwaste Effluent Line Monitors Liquid Ra&aste Effluent Line Monitors provide alarm and auto-matic tenrination of release prior to exceeding the ccmcentra-tion limits specified in 10cm20, Appendix B, Table II, Colum 1
2 at the release point to the unrestricted area. To neet this specification and for the purpose of inplementation of speci-fication 3.3.7.11 of the RETS, the alarm / trip setpoints for liquid effluent monitors and flow measurement devices are set to assure that the following egaation is satisfied:
i 4
i M -(cf (1) 4 1
/
s O where: .
! C = the effluent concentration limit (RETS Specification 3.11.1.1) inplesnenting 10CFR20 for the site, in uC1/ml.
e = Me setpoint, representative of a radioactivity concen-tration in uCi/ml, of the radioactivity nonitor naasuring l
the radioactivity in the waste tank effluent line prior
- to dilution and subsequent release; the setpoint, which L
is inversely proportional to the voltsretric flow of the i
effluent linc and directly proportional to the voltanetric flow of the dilution stream plus the waste tank effluent stream, represents a value which, if exceeded, would f
result in cxmcentrations exceeding the limits of 10CFR20 i
in the unrestricted area.
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GRAND GUIE, tMIT 1 1.0-1 Rev. 0 - 8/82
f a the waste tank effluent flow setpoint as measured at the radiation monitor location, in volme per unit time, but in the same units as F, below.
F = the dilution water flow setpoint as measured prior to the release point, in volme per unit time.
At Grand chilf Unit 1, the available dilution water flow (F) should be constant for a given release, and the waste tank flow (f) and nonitor setpoint (c) are set to meet the condition of equation 1 for a given effluent concentration, C. 'Ihe method by which this is accatplished is as follows:
Step 1) 'Ihe isotopic concentration for a waste tank to be released is obtained frm the se of the measured concentrations as deter-mined by the analysis required in the RETS Table 4.11.1.1.1-1:
O [c 1 -Ec,+ Qc +1c a +s c t) m 2
= the s e of canoentrations C 9of each measured
[C9 gama mitter observed by gama-ray spectroscopy of the waste sanple.
[C, = the sum of concentrations C, of alpha emitters in liquid waste as measured in the enthly esposite sanple.
C, = the measured concentrations of Sr-89 and Sr-90 in liquid waste as observed in the quarterly wsite sanple.
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GRAto GU1F,LNIT 1 1.0-2 Rev. 2 - 5/84
C = maued etntim of W3 h ligd wasu as -
t
-, - .- detemined fra analysis of the monthly caposite sanple.
The C tem will be included in the analysis of each waste :
9 I tank batch to be relaamad; tems for alpha, strmtiums, and h tritim may be included if analysis of reactor water has shown t i the presence of these isotopes.
4
- Step 2) The measured radionuclide concentrations are used to calculate t
i 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 10CFR20, Appendix B, Table l
- II, colm 2 are met at the point of discharge.
t q
= C x S. F. 2 f i
h D.F. MPC i
i (3) i
= C C, , C, , Ct
- 2
\
a W" W" 13'C ),
i leere:
I Cg =
C9 , C ,, C ,, and tC I " " " * " **
defined in Step 1. Terms C ,, C ,, and Ct included in the calculation as appropriate.
I MPCf= E ,gE ,, and E are t limiting concentra- [
tions of the appropriate radionuclide fra 10CFR20, Appendix B, Table II, Col m 2. For dissolved or
- l entrained noble gases, the concentration shall be limitad [
to 2. 5-4 uCi/ml total activity. ,
p i f
t t
GRAIO GUIF, UNIT 1 1.0-3 REV. 2 - $/64 {
S.F. = an administrative safety factor normally applied at Grand h ~
Gulf dtich causes the calculated Dilution Factor to be w (2) times larger than the dilution factor M for empliance with 10CFR20 limits. ,
Step 3) The maxima permissible waste tank effluent flow rate prior to dilution, f ,dis calculated based on a fixed fraction of the dilution flow rate, F
- d F
- dgFd+Id y U. d for F d d I4I D.F.
where:
F d
= 0.9 x h W M1udon nw ra*.e 1 f
d maxiME Pramissible waste tank effluent f1w rate D.F. = Dilution Factor fra Step 2.
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! NCTTE: Equation 4 is valid only for D.F.>1r for D.F.I._1, the waste tank offluent concentration meets the limits of 10CFR20 with-out dilution, and fdmay W m any des ed M ue.
Step 4) The diluticm f1w rate setpoint for minima dilution flw rate, F, and waste tank flow rate setpoint for maxim e waste tank effluent flow rate, f are calculated as follows:
F = F d = 0.9 x minian expected dilution f1w rate (5) 1 ,
f = 0.9 x fd = 0.9 x calMaW maxh wam M nw rate for the stated release
! conditions. (6) r GRAIO GUIE,LSIIT 1 1.0-4 Rev.1 - 7/83 l
[
! Thus, a control room alarm occurs if the dilution flow rate falls below the assumed flow rate of 90 percent of the actual dilution flow, or if the waste tank effluent flow rate exceeds 90 percent of the calculated maximum waste tank effluent flow rate, and the release is terminated.
Step 5) The radioactivity monitor setpoint may now be specified based on the values of ICg, F, and f which were specified to provide compliance with the limits of 10CFR20, Appendix B, Table II, Column 2. The monitor response is primarily to gamma radiation; therefore, the actual setpoint is based on I C. The setpoint 8 g concentration, C,is determined as follows:
i f
d C = -
I C f
8 8 (uCi/ml) (7) s y a where f, is the actual (or maximum expected) waste tank effluent 6 flow rate. The value of C, (uCi/ml) is used to determine the monitor setpoint (CPM) from the calibration curve of Figure 1.0-1.
NOTE: The setpoint contains a factor of conservatism, even if the
! calculated maximum 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 margin.
In practice, the actual waste tank effluent flow rate normally is many times less than the calculated tank flow rate, thus providing i
an additional conservatism during release.
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GRAND GULF, UNIT 1 1.0-5 Rev. 6 - 9/85 J200DCM850829
Figure 1.0-1 Calibration Curve for I.iquid Effluent Monitor 10 , .
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- p_L
' -- :3 10-8. '--"'--.- > 6
-.3 6 105 10 1 2 10 10 10 10 g
Count Rate (Counts Per Minute) i 1.0-6 RW. 1 Grand Gulf, Unit 1 .
I i
j
(
1.2 Dose Calculation for Liquid Effluents r
1.2.1 The dose contribution to the maximum exposed individual from all radionuclides identified in waste tank liquid
- effluents released to unrestricted areas is calculated 1
for the purpose of implementing RETS Specifications
- 5
' 3.11.1.2, 4.11.1.2, 4.11.1.3.1, and 6.9.1.9 using the 1
following expression:
. , (1)
D Tau
" A iTau A *1 C g3 F 3
(millirem)(8) l5 i '
. where:
A = Site-related ingestion dose connitment factor for 5 iTau radionuclide i, in millirem /hr per uC1/ml.
iO =
K, Up BF, DFg l
At g = length of the time period over which Cgy and F3 are l
averaged for all waste tank liqaid releases, in I hours.
C gy = average concentration of radionuclide i observed in the undiluted waste tank liquid effluent during time-period A t3 from any liquid release from the waste i
i tank, in uCi/ml. Concentrations are determined primarily from a genna isotopic analysis of the waste tank liquid effluent sample. For Sr-89, Sr-90. H-3, the last measured value from the most i
recent monthly and quarterly composite samples will be used in the dose calculation. Note: LLO values
' are not used in dose calculations.
GRAND GULF, UNIT 1 1.c.7 Rev. 5 - 1/85
-_ - _ - _ _ _ _ - - _ = _ _ - -. .
' =
Fg near field average dilution factor for Cg during any liquid effluent release. Defined as the ratio of the average undiluted liquid waste flow during release to the product of the average flow from the site discharge structure to unrestricted receiving waters times the applicable factor of 2(5) ,
= average undiluted liquid waste flow average flow from site discharge x 2 K, = units conversion factor 1.14 x 10 6
= 10 pCi x 10 3a1 + 8766 hr uCi Kg yr Up = adult fish consumption (21 kg/yr) (3) ,
BF g = Bioaccumulation factor for each nuclide, i, in fish, in pCi/kg per pCi/l from Table 1.2-1 (taken from Reference '
[
O 3, Table A-1). ,
DF g = Dose conversion factor for each nuclide, i, for adults in preselected organ, Tau, in ares /pci, from Table 1.2-2 (taken from Reference 3, Table E-11).
1 F
Calculated values of A iTau f r radionuclides which might be observed in liquid effluents are given in Table 1.2-3.
Doses from liquid effluents to UNRESTRICTED AREAS are projected at least every 31 days as required by GGNS Technical Specification 4.11.1.3.1.
6 These projections are made by averaging the doses (DTAU) fr
- Previous operating history (normally the previous six months) which is indicative of ,
expected' future operations.
GRAND GULF, UNIT 1 1.0-8 Rev. 6 - 9/85 J200DCM850829
TABIE 1.2-1 l BIOACCtMJIATICN FAC%RS (BFi)
. . ~ . .
(pci/kg per pC1/litar)*
rRisamTm ELDENT FISH INVERIDARATE H 9.2-01 9.5-01 C 4.6E+03 9.1E+03 NA 1.m+02 2.m+02 P 1.m+05 2.m+04 CR 2. m+02 2. m+03 MI 4. m+02 9.m+04 FT 1.m+02 3.2E+03 CD 5. m+01 2.m+02 NI 1.m+02 1.2+02 CU 5.m+01 4.2+02 ZN 2.m+03 1.3+04 BR 4.2E+02 3.3E+02 RB 2.m+03 1.m+03 SR 3.0E+01 1.2+02 Y 2.5E+01 1.0E+03 6.7E+00 2 ZR 3.3E+00 NB 3.0E+04 1.m+02 MO 1.2+01 1.m+01 (Q E 1.5E+01 5.m+00 RU 1.0E+01 3.m+02 RH 1.m+01 3. 2+02 TE 4.2+02 6.1E+03 I 1.5E+01 5.m+00 CS 2.m+03 1.2+03 BA 4. m+00 2.0002 IA 2.5E+01 1.2+03 CE 1.2+00 1.m+03 PR 2.5E+01 1. 2+03 ND 2.5E+01 1.2+03 W 1.2E+03 1.m+01 NP 1.0E+01 4.3+02 i
- Values in Table 1.2-1 are taken from Reference 3, Table A-1.
i (O :
t l
GRAND GUIF, UNIT 1 1.0-9 Bev. 2 - 5/84 i
- f l
l
I i TABIE 1.2-2 Page 1 of 3
'Q '"~#-
IMhiION DOSE CONVERSION FACIORS FOR ADULTS (tFi)
(mram per pci ir.gested) * :
'DfYNDID KIDNEY IANG GI-ILI f ENE LIVER T.BCEnf --
NUCLIDE - ----- . -
l N 3 NO DATA 1.05E-07 1.05E-07 1.05E-07 1.05E-07 1.0$E-07 1.05E-07 C ' 14 2.84E-06 5.68E-07 5.68E-07 5.68E-07 5.68E-07 5.68E-07 5.68E-NA 24 1.70E-06 1.70E-06 1.70E-06 1.70E-06 1.70E-06 1.70E-06 1.70E-
-_ --=__
2.17E-05 NO DATA NO DATA P 32 1.93E-04 1.20E-05 7.46E-06 NO DATA CR 51 NO DATA NO DATA 2.66E-09 1.59E-09 5.86E-10 3.53E-09 6.69E-07 1.40E-05 4.57E-06 8.72E-07 NO DATA 1.36E-06 NO DATA m 54 NO DATA --_ ----__ -
1.46E-07 NO DATA 3.67E-06 1
- 56 No DATA 1.15E-07 2.04E-08 NO DATA 1.06E-06 1.09E-06 NO D4n FE 55 2.75E-06 1.90E-06 4.43E-07 NO D4m NO DATA 2.85E-06 3.40E-05 FI 59 4.34E-06 1.02E-05 3.91E-06----NO -_
DATA - --_ ---
- _ No DATA 1.51E-05 NO DATA CD 58 NO DATA 7.45E-07 1.67E-06 NO DATA 70 DAM 4.02E-05 NO DATA CD 60 NO DATA 2.14E-06 4.72E-06 NO DATA NO DATA 1.88E-06 l NO DATA NI 63 1.30E-04 9.01E-06 4.36E-06 NO DATA NO DATA NO Dhm 1.74E-06 NI 65 5.28E-07 6.86E-08 3.13E-08 NO DATA 2.10E-07 NO Dhn 7.10E-06 CU 64 NO dan 0.33E-08 3.91E-08 NO D4m 1.03E-05 NO DATA 9.70E-06 4.84E-06 1.54E-05 6.96E-06 NO DATA
! ZN 65 - - - - . ---
! n -
1.28E-08 NO DATA 2.96E-09
.V ZN 69 1.03E-06 1.97E-08 1.37E-09 NO DATA NO DATA NO DATA 5.79E-08 l
BR 83 NO DATA NO DATA 4.02E-08 NO DATA 4.09E-13 NO DATA NO DhTA BR 84 NO DATA NO DATA 5.21E-08 NO DhTA NO DATA NO DATA LT E-24 BR 85 NO DATA NO DATA 2.14E-09 NO DATA 4.16E-06 NO DAM NO Dhm RB 86 NO dan 2.11E-05 9.83E-06 NO DATA NO DATA 8.36E-19 6.05E-08 3.21E-08 NO DATA NO DATA RB 88 HO DATA NO DATA No Dhm 2.33E-21 RB 89 NO DATA 4.01E-08 2.82E-08 NO DATA NO Dhm 4.94E-05 NO DATA
! SR 89 3.08E-04 NO DATA 8.84E-06 m DATA NO DATA NO Dhm 2.19E-04 SR 90 7.58E-03 NO DATA 1.86E-03 NO DATA - .
NO DATA NO DATA 2.70E-05 SR 91 5.67E-06 NO DATA 2.29E-07 NO DhTA 4.26E-05 NO DATA NO DATA SR 92 2.15E-06 NO DATA 9.30E-08 NO DATA 1.02E-04 l NO DATA NO DATA Y 90 9.62E-09 NO DATA 2.58E-10 NO DATA NO DATA NO DATA 2.67E-10 Y 91M 9.09E-11 NO DATA 3.52E-12 NO DATA 7.76E-05 l NO DATA NO DAM Y 91 1.41E-07 NO DATA 3.77E-09 NO DATA 1.48E-05 NO DATA No DATA Y 92 8.45E-10 NO Dam 2.47E-11 NO DATA
- Values taken frczn Reference 3, Table E-11.
(O I
GRAW GUIE, LMIT 1 1.0-10 Rev 0 - 8/82
. - _ . _ . _ _.,.,__.,-._-.m,,._._.____,__,_,,______.___._._..._...,_...,m. . , _ - . _ _ _ _ _ , , , . _ _ . _ _ _ ,..-____,_..__y_.__.__.-.7.,_ . _ . . _
BBLE 1.2-2 (Continued)
]~
I
- ~ ~
Page 2 of 3 INGESTICt; DOSE CSVERSICN FAC'IDRS FDR ADUL'IS (Dril (mrarn per pCi ingested) * ,
KIDNEY 11NG GI-ILI LIVER T.BCDY 'DfYROID NLum BONE ~
10 MTA 10 mm 8.50E-05 Y. 93 2.68E-09 to mm 7.40E-11 NO MTA 3.09E-05 1.53E-08 NO MTA ER 95 3.04E-08 9.75E-09 6.60E-09 No MTA 5.12E-10 NO MTA 1.05E-04 ER 97 1.68E-09 3.39E-10 1.55E-10 No mm 3.42E-09 NO mTA 2.10E NB 95 6.22E-09 3.46E-09 1.86E-09 No EAR 9.76E-06 NO MTA 9.99E-06 to 99 NO M TA 4.31E-06 8.20E-07 No mm 1.06E-08 3.42E-10 4.13E-07
'IC 99M 2.47E-10 6.98E-10 8.89E-09 NO mm 6.59E-09 1.87E-10 1.10E-21
'IC101 2.54E-10 3.66E-10 3.59E-09 No N 7.06E-07 NO mm 2.16E-05 E103 1.85E-07 to mm 7.97E-08 No mm 1.99E-07 No n 9.42E-06 E105 1.54E-08 NO mn 6.08E-09 No mm s
5.31E-06 NO MTA 1.78E-04
- E106 2.75E-06 NO mm 3.48E-07 No n 2.91E-07 NO M TA 6.04E-05 l AG110M 1.60E-07 1.48E-07 8.79E-08 NO M TA 1.07E-05 E125M 2.68E-06 9.71E-07 3.59E-07 8.06E-07 1.09E-05 No n 2.27E-05 E127M 6.77E-06 2.42E-06 8.25E-07 1.73E-06 2.75E-05 to mm 8.68E-06 TE127 1.10E-07 3.95E-08 2.38E-08 8.15E-08 4.48E-07 No mm 5.79E-05 TE129M 1.15E-05 4.29E- 06 1.82E-06 3.95E-06 4.80E-05 to mm 2.37E-08 E129 3.14E-08 1.181.-08 7.65E-09 2.41E-08 1.32E-07 No mm 8.40E-05 TE131M 1.73E-06 8.46E-07 7.05E-07 1.34E-06 8.57E-06 NO2.79E-09 M E131 1.97E-08 8.23E-09 6.22E-09 1.62E-08 8.63E-08 No Mn _
7.71E-05 TE132 2.52E-06 1.63E-06 1.53E-06 1.80E-06 1.57E-05 NO N 1.92E-06 I 130 7.56E-07 2.23E-06 8.80E-07 1.89E-04 3.48E-06 No MTA 1.57E-06 I 131 4.16E-06 5.95E-06 3.41E-06 1.95E-03 1.02E-05 to m m l 1.02E-07 I 132 2.03E-07 5.43E-07 1.90E-07 1.90E-05 8.65E-07 NO M 2.22E-06 I 133 1.42E-06 2.47E-06 7.53E-07 3.63E-04 4.31E-06 NO MTA2.51E-10
. I 134 1.06E-07 2.88E-07 1.03E-07 4.99E-06 4.58E-07 No M TA 1.31E-06 I 135 4.43E-07 1.16E-06 4.28E-07 7.65E-054.79E-05 1.86E-06 HD DNIA 1.59E-05 2.59E-06 CS134 6.22E-05 1.4BE-04 1.21E-04 NO MTA 1.43E-05 1.96E-06 2.92E-06 l CS136 6.51E-06 2.57E-05 1.85E-05 NO un l 3.70E-05 1.23E-05 2.11E-06 i CS137 7.97E-05 1.09E-04 7.14E-05 NOmm 8.01E-08 7.91E-09 4.65E-13 i
CS138 5.52E-08 1.09E-07 5.40E-08 No MTA 6.46E-11 3.92E-11 1.72E-07 [
R139 9.70E-08 6.91E-11 2.84E-09 NO mn t
- Values taken fran Reference 3, Table E-11.
l
- O i
1.0-11 nev. 0 - 8/82 GRAND GUIE, LJNIT I ,
MBIE 1.2-2 (continued)
! O ' ~r -
Page 3 of 3 Dr mTION DOSE QMDSION FACIORS FOR ADULTS (DFi)
(mrum per pei ingested) * .
LIVER T.BGN 'WYPDID KIDNEY IING GI-III NUCLIDE BNE 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 BA142 2.13E-08 2.19E-11 1.34E-09 NO DATA 1.85E-11 1.24E-11 3.00E-26 NO DATA NO DATA 9.25E-05 IA140 2.50E-09 1.26E-09 3.33E-10 No DATA NO DATA 4.25E-07 NO DATA IA142 1.28E-10 5.82E-11 1.45E-11 NO DATA 2.42E-05 9.36E-09 6.33E-09 7.18E-10 No DATA 2.94E-09 NO DATA CE141 5.37E-10 NO DATA 4.56E-05 CE143 1.65E-09 1.22E-06 1.35E-10 NO DAM 1.65E-04 4.88E-07 2.04E-07 2.62E-08 NO DAM 1.21E-07 No DAM CE144 4.03E-05 9.20E-09 3.69E-09 4.56E-10 NO DATA 2.13E-09 NO DAM PR143 7.05E-12 NO DATA 4.33E-18 PR144 3.01E-11 1.25E-11 1.53E-12 No DATA 3.49E-05 6.29E-09 7.27E-09 4.35E-10 No DATA 4.25E-09 NO DATA ND147 NO DATA 2.82E-05 NO DATA W 187 1.03E-07 8.61E-08 3.01E-08 NO DATA 3.65E-10 NO DATA 2.40E-05 NP239 1.19E-09 1.17E-10 6.45E-11 No DATA O
- Values taken frcra Reference 3, Table E-11.
i l
l l
l l
t O GRAND GUIE, INIT 1 1.0-12 Rev. 0 - 8/82
t
\
i -
TAR 12 1.2-3 l ..
Page 1 of 2
?
GRAW GRE SITE RE!MTD INGESTIGI DOSE COMFDENT FACICR, AiTau
} 3. -r.. Daran/hr per tCi/ml)
- j i
eM 3CNE LIVER T.BGW 'DfYROID KIERIEY 11 RIG GI-ILY J N-3 0.00E+00 2.26E-01 2.26E-01 2.26E-01 2.26E-01 2.26E-01 2.25E-01 1
C-14 3.13E+04 6.26E+03 6.26E403 6.26E43 6.26E+03 6.26E+03 6.265+03 ,
) Na-24 4.07E+02 4.07E+02 4.07E+02 4.07E+02 4.075+02 4.07E+02 4.07E+02 1 P-32 4.62E+07 2.87E+06 1.79EM6 0.00E+00 0.00E*00 0.00E+00 5.19E+06 2 Cr-51 0.00E+00 0.00E+00 1.27E+00 7.61E-01 2.815-01 1.69E+00 3.20E+02 )
' Mn-54 0.00E+00 4.38E+03 0.35E+02 0.00E+00 1.30E+03 0.00E+00 1.34E+04 i Mn-56 0.00E+00 1.10E+02 1.95E+01 0.00E+00 1.40E+02 0.00E+00 3.51E403 l Fe-55 6.58E+02 4.55E+02 1.06E42 0.00E+00 0.00E+00 2.54E+02 2.61EM2 ,
.: F5-59 1.04E+03 2.44E43 9.36E+02 0.00E+00 0.00E+00 6.82E+02 8.14E+03 l l C0-50 0.00E+00 S.92E+01 2.00E+02 0.00E+00 0.00E+00 0.00E40 1.81E+03 l
Q>60 0.00E+00 2.56E+02 5.65E+02 0.00E+00 0.00E+00 0.00E+00 4.81E4 3 Ni-63 3.11E+04 2.16E+03 1.04E+03 0.00E+00 0.00E+00 0.00E+00 4.50E+02 ;
j Ni-65 1.26E+02 1.64E+01 7.49E+00 0.00E+00 0.00E+00 0.00E+00 4.17E+02 r i Cu-64 0.00E+00 9.97E+00 4.68E+00 0.00E+00 2.51E+01 0.00E+00 S.50E+02 !
2.32E+04 7.37E+04 3.33E+04 0.00E+30 4.93E+04 0.00E+00 4.64E+04 En-65 '
En-69 4.93EMI 9.43E+01 6.56E+00 0.00E+00 6.13E+01 0.00E+00 1.42E+01 Er-03 0.00E+00 0.00E+00 4.04E+01 0.00E+00 0.00E+00 0.00E+00 5.82E+01 l Br-84 0.00E+00 0.00E+00 5.24E+01 0.00E+00 0.005+00 0.00E+00 4.11E-04 l ER-05 0.00E+00 0.00E+00 2.15E+00 0.00E40 0.00E+00 0.00E+00 1.0,15-15 i h 86 0.00E+00 1.01E+05 4.71E44 0.00E+00 0.00E+00 0.00E+00 1.99E+04 i It>OS 0.00E+00 2.90E+02 1.54E+02 0.00E+00 0.00E40 0.00E+00 4.00E-09
- O i N it-=9 Sr-89 0.00E+00 1.92E+02 1.25E+02 0.00E+00 0.00E+00 0.00E+00 1.12E-11 2.21E+04 0.00E+00 6.35E42 0.00E+00 0.00E40 0.00E+00 3.55E+03 j I Sr-90 5.44E+05 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 1.54E+02 0.00E+00 6.68E+00 0.00E+00 0.00E+00 0.00E+00 3.06E+03 l I Sr-92 l Y-90 5.76E-01 0.00E+00 1.54E-02 0.00E+00 0.00E+00 0.00E+00 6.10E403 Y-91m 5.44E-03 0.00E+00 2.11E-04 0.00E+00 0.00E+00 0.00E+00 1.60E-02 l 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 8.96E+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 5.21E42 0.00E+00 1.21E-01 0.00E+00 2.44E+02 Er-97 1.33E-02 2.68E-03 1.22E-03 0.00E+00 4.04E-03 0.00E+00 S.30E+02 l It>95 4.47E+02 2.48E+02 1.34E+02 0.00E+00 2.46E+02 0.00E+00 1.51E+06 ft>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 0.00E400 3.81E-01 1.23E-02 1.4SE+01
'It-101 9.12E-03 1.31E-02 1.29E-01 0.00E+00 2.37E-01 6.72E-03 3.95E-14 l Ru-103 4.43E+00 0.00E+00 1.91E+00 0.00E+00 1.69E+01 0.00E+00 5.17E+02 l
22-105 3.69E-01 0.00E+00 1.46E-01 0.00E+00 4.76E+00 0.00E+00 2.26E+02 1
- Calculated fram Equation 8. ,
l.O
,s GRNO GRE, WIT 1 1.0-13 muv. 2 - 5/84 i
i i
2 .
t ..
iO . w .-
Tantz 1 2-3 <ccatiau oi Page 2 of 2 GRAIC W Sr!E MEIKITD INGESTION DOSE OCDMI'ITENT FACIOR, Ag, l
(mram/hr per uCi/ml)
- l 4
T.3CEN 'DfYHDID RIDNCY 1ANG GI-12.Y ,
arm BCDIE LIVD ha-106 6.54E+01 0.00E+00 8.33E+00 0.00E+00 1.27E+02 0.00E+00 4.26E+03 3 i
l Ag-110m 8.81E-01 8.15E-01 4.84E-01 0.00E+00 1.60E+00 0.00p00 3.30E+02 i > 125m 2.57E+03 9.30E+02 3.44E+02 7.72E+02 1.04E+04 0.00E+00 1.02E+04
'It-127m 6.48E+03 2.32>03 7.90E-02 1.66E+03 2.63E+04 0.00E+00 2.17p04
}
Te-127 1.05E+02 3.78E+01 2.28p01 7.80E+01 4.29E+02 0.00E+00 8.31E+03 l f
4 7t-129m 1.10E+04 4.11h03 1.74E+03 3.78E+03 4.60E+04 0.00E+00 5.54E+04 i
'14-129 3.01p01 1.13E+01 7.33E+00 2.31p01 1.26p02 0.00E+00 2.27E+01 l i Te-131m 1.66E+03 8.10E+02 6.75p02 1.28E+03 0.21E+03 0.00E+00 8.04E+04 I Te-131 1.89E+01 7.88E+00 5.96E+00 1.55E+01 8.26E+01 0.00E+00 2.67E+00 5 l
'It-132 2.41E+03 1.56E+03 1.47903 1.72p03 1.50E+04 0.00E+00 7.38004 ,
! I-130 2.71E+01 8.01p01 3.16E+01 6.79E+03 1.25p 02 0.00F00 6.89p01 i I-131 1.49E+02 2.14E+02 1.22E+02 7.00D04 3.66E+02 0.00E+00 5.64E+01 I 1-132 7.29E+00 1.95E+01 6.82E+00 6.82E+02 3.11p 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 3.01E+00 1.03E+01 3.70E+00 1.79E+02 1.64E+01 0.00E+00 9.01E-03
,j 1-135 1.59E+01 4.17p01 1.54E+01 2.75E+03 6.68E+01 0.00E+00 4.70E+01 Co-134 2.98E+05 7.09p05 5.79p05 0.00E+00 2.29E+05 7.61 p04 1.24E+04 l l
Cs-136 3.12E+04 1.23E+05 0.86E+04 0.00E+00 6.85p04 9.38p03 1.40D 04 !
l Cs-137 3.82E+05 5.22E+05 3.42E+05 0.00E+00 1.77p05 5.89E+04 1.01E+04 l
c -238 2.64E.02 5.22E.02 2.59E.02 0.00p00 3.84002 3.79E.01 2.23E-03 i 10 i Ba-139 9.29E-01 6.62E-04 2.72E-02 0.00F00 6.19E-04 3.75E-04 1.65E+00 l l
ta-140 1.94002 2.44E-01 1.27E+01 0.00E+00 8.30E-02 1.40E-01 4.00002 i l
Be-141 4.51E-01 3.41E-04 1.52E-02 0.00E+00 3.17E-04 1.93E-04 2.13E-10 l
! Sa-142 2.04E-01 2.10E-04 1.28E-02 0.00000 1.77E-04 1.19E-04 2.87E-19 ~
- Ia-140 1.50E-01 7.54E-02 1.99E-02 0.00000 0.00000 0.00E+00 5.54E+03 j 1a-142 7.66E-03 3.48E-03 8.68E-04 0.00E+00 0.00E+00 0.00p00 2.54p01 l Co-141 2.24E-02 1.52E-02 1.72E-03 0.00E+00 7.04E-03 0.00D00 5.79001 1 Co-143 3.95E-03 2.92E+00 3.23E-04 0.00D00 1.29E-03 0.00E+00 1.09E+02 I Co-144 1.17t+00 4.88E-01 6.27E-02 0.00E+00 2.90D01 0.00D00 3.95902 Pr-143 5.51E-01 2.21E-01 2.73E-02 0.000 00 1.27E-01 0.00E+00 2.41p 03 l Pr-144 1.80E-03 7.48E-04 9.16E-05 0.00E+00 4.22E-04 0.00E+00 2.59E-10 I Nd-147 3.76E-01 4.35E-01 2.60E-02 0.00E+00 2.54E-01 0.00E+00 2.09E+03 i W-187 2.96002 2.47E+02 0.65E+QJ 0.00E+00 0.00E+00 0.00E+00 8.10E+04 NP 239 2.85E-02 2.80E-03 1.54E-9 0.00E+00 8.74E-03 0.00E+00 5.75E+0 l
l
[
- Calculated frcrn Equation 8.
l 1
i I graft W ,IMIT 1 1.0-14 NsV.1 - 7/83 l
1.3 Liquid Padwaste Treatment System t'
O 'the essantial -ip#nts of the liquid ra&mste treatment system are 4 indicated below by an asterisk (*).
[p" 0 ;
- f. i E --+F
.::::: 7 ,,:::"",.L' e
i '
q i dI
.. 8la#EM. - = L.. .=T ===
d ,=',,,, = L. -. m.,., L. _. . . ==. o --
.. .-u ,
o ._ u u
^
".".A'.".
t
- 1. =llll::.
==
1 "Z3tff. ,,,m_
o Eo m 1t ij
.. somJP- -+ g--t ,,,, + ms. e* . . t -+ ,=,, E +
p gg-u -
c,. . ,,,,,
. - . . , =
4
- ~ #"*E *
.E' , 7 "'""""
.a - , , _
- . ,. L.
== - : . , , ,
~ . . . , . .
[ .'. ;'."*..... ,
i NCnts
- 1. The essential canponents outlined above are those necessary to collect, process and sarple liquid radwaste prior to discharge to the environnent.
- 2. Only one of the folloaing is required in order to process liquid wasta.
- a. Equirrent drain filter
- b. Floor drain filter
- c. Equi; rent drain dmineralizer
- d. Floor drain dcsnineralizer
- 3. One of the Waste Surgo Tanks may be used to replace the Floor Drain Wasta Collection Tank.
(A Caf ni SYSTm SCALID '!O A PIR WIT BASIS)
(O cpno GUIE, WIT 1 1.0-15 Fev. 4 - 8/84
O 2.0 Gast0uS trrtutars 2.1 Gaseous Effluent Monitor Setpoints 2.1.1 For the purpose of implementation of Specification 3.3.7.12 of the RETS, the alarm setpoint level for continuous ventilation noble gas monitors will be calculated as follows:
Sy = Count rate of vent noble gas monitor at alann setpoint level f 0.25 x R g x D TB
=
the lesser of f or (1) 0.25 x R, x D,,
Where, y 0.25 = safety factor allowing for cumulative uncertainties of measurements D = Dose rate limit to the total body of an individual TB at the SITE BOUNDARY or at UNRESTRICTED AREAS inside the SITE BOUNDARY required to limit dose to 5
500 mrem in one year.
= $ 500 mrem /yr D,, = Dose rate Ifmit to the skin of the body of an individual at the SITE BOUNDARY or at UNRESTRICTED 5 AREAS inside the SITE BOUNDARY required to limit dose to 3000 mrem in one year.
= $ 3000 mrem /yr 5 R = count rate per mrem /y,r to the total body t
= C+ X7Q{Kg Qg
- j - 5 GRAND GULF. UNIT 1 2.0-1 Rev. 5 - 1/85
Where, C = count rate of the vent monitor corresponding to grab sample radionuclide concentrations X3 = highest sector annual average atmospheric dispersion at the SITE BOUNDARY or at 5 UNRESTRICTED AREAS inside the SITE BOUNDARY
= 4.537 x 10'0* sec/m3 in the WNW sector.
K g
= total body dose factor due to gama emissions from each noble gas radionuclide 1 (mrem /yr per uti/m3 ) from Table 2.1-1.
rate of release of noble gas radionuclide 1 Qg
=
l5 (uC1/sec)fromthereleasepoint R = count rate por mrem /yr to the skin
=
C+ X70 [j(Lg+1.1M)Q1 g 5 Lg = skin dose factor due to beta emissions from isotope 1 (mrem /yr per uti/m3 ) from Table 2.1-1 1.1 = mrem skin dose per arad air dose Mg = air dose factor due to gama emissions from 3
isotope 1(mrad /yrperuti/m)fromTable2.1-1
- The highest annual average X/Q for the GGNS SITE BOUNDARY or UNRESTRICTED AREAS inside the $1TE BOUNDARY is Hamilton Lake (WNW,0.75 miles). This value is taken from the Grand Gulf 5 Nuclear Station Final Environmental Report. Table 6.1.28.
O GRAND GULF, UNIT 1 2.0-2 Rev. 5 - 1/85
AM4m - Sp a _-- --'
-.hwwh .w a mh4-a oaem ,w a.
w wh J hr o.am.m.mmmJah.wm_tJ _h m_M _ 3
^h- _ ,
- i t
J G l 2.1.2 l J
- u own.
f l
J l
t 1
J f
f i i
- i I
L Toerocris i 1
2 ,
O 1
i l
t 1.
i i
! I i
i l
I
" 3
?
I O
ame auw, unrr 1 2.o.3 nw. 2 - 5/s4 l r
O NOTES For Section 2.1.1
- 1) The calculated setpoint values will be regarded as upper bounds for the actual setpoint adjustments. That is, setpoint adjustments are not required to be performed if the existing setpoint level corresponds to a lower count rate than the calculated value.
- 2) A more conservative setpoint may be calculated to minimize requirements for adjustment of the monitor utilizing the calculations provided in section 2.1.1 and the terms listed below:
D TB
= 500 mres/yr D,, = 3000 ares /yr R"g
= conservative count rate per arem/yr to the total body (Xe-133 detection, Kr-89 dose)
= C' + (X/Q x X x F)
Where, P = Assigned release rate value of, for example, 1.0 uCi/sec, Xe-133. Flow rate utilized is the maximum designed flow.
(See definition of C' below.)
C' = count rate of vent monitor for an effluent concentration of Xe-133 corresponding to a 1.0 uCi/see release rate of Xe-133, (Note: Calculate the related concentration based on dilution flow.)
= (X)_Q' (3.53E-5) (60) 6 V
i O
I
, GRAND GUI.F, UNIT 1 2.0-4 Nev. 6 - 9/85 l
J200DCM850829
i i
!O i
Where, ,
I l
! X = volume efficiency factor of the system j for Xe-133 in epa /uCi/cc.
i V = maximum designed ventilation flow rate in
) cubic feet per minute (cfa) 6 3
3.53E-5 = the conversion factor for cc to ft i
- 60 = the conversion factor for minutes to 1 seconds f
X = total body dose factor for Kr-89, the most restrictive isotope, from Table ;
2.1-1.
R" *
= conservative count rate per ares /yr to the skin
= C' + [ X/Q x (L + 1.1M) x QW]
i Where, J
O L = skin dose factor for Kr-89, from Table 2.1-1, M = air dose factor for Kr-89 from Table 2.1-1 i
l, I
i i
i i
o
- O 1
l l GRAND GULF, UNIT 1 2.0-5 Rev. 6 - 9/85 J200DCM850829
I OJ . .-
T - 1 2.1-1 DOSE FACMES EVR EXPOSURE 'IO A SDG-INFINITE CIDLD & NCBIE GASES Nuclide Y-Body * * (K) i B-Skin ** (L) i Y-Air
- 04)i B-Air
- 03)i l 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 1.11E403 Xe-133m 2.51E+02 9.94E+02 3.27E+02 1.4CE+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 1 Xe-135 1.81E+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 Values taken frcan Reference 3, Table B-1
- mrad - m3 uCi - yr
- - mrem - mi I
uCi - yr
- 1.17E+03 = 1.17 x 10 3 GRAND GUIE, IMIT 1 2.0-6 Rev. 0 - 8/82
2.2 ses ous t<<iueat oos c iculatioas
<O 2.2.1.a For the purpose of implementation of Specification 3.11.2.1.a. the dose at the SITE BOUNDARY or at - 5 UNRESTRICTED AREAS within the SITE BOUNDARY due to nob gases shall be calculated as follows:
D = average total body dose rate in current year tb (mrem /yr) 5
= KlQ Kg Q'g D = average skin dose rate in current year s
(mrem /yr)
= 7 XQ (Lg + 1.1 Mg ) Qi 5 2.2.1.b Organ doses due to tritium. 1-131,1-133 and all radioactive materials in particulate fonn, with half-lives greater than eight days will be calculated for the purpose of implementation of Specification 3.11.2.1.b. as follows:
- D,
= average organ dose rate in current year (mrem /yr)
= W Pg h g. where
.( O 2.0-7 Rev. 5 - 1/85 GRAND GULF, UNIT 1
W = controlling sector annual average atmospheric dispersion at the SITE BOUNDARY or UNRESTRICTED AREAS inside the SITE BOUNDARY for the appropriate pathway.
-6* ,,,j,3 for
( X/Q = 4.537 x 10 inhalation in the WNW sector.
= i
~
~2 (D/Q = 1.301 x 10 m for other pathways in the SSE sector Pg = thetotaldoseparasegerforradionuclide i, (arge/yr per uCi/m ) for inhalation and (m . area /yr per uCi/sec) for food and ground plane pathways, from Table 2.2-1.a-b.
= rate of release of noble gas Q'g 6 radionuclide i (uci/Sec) from the release point, p Q'g = average release rate of isotope i of v tritium, I-131, 1-133 or other radionuclide in particulate form, with half-lives greater thau eight (8) days in the current year (uci/sec).
- The highest annual average X/Q for the GGNS SITE BOUNDARY or UNRESTRICTED AREAS inside the SITE BOUNDARY is Hamilton Lake (WNW, 0.75 miles). This value is taken from the Grand Gulf Nuclear Station Final Environmental Report, Table 6.1.28.
l
- Value taken from Reference 4, Table 6.1.26.
{
GRAND GULF, UNIT 1 2.0-8 Rev. 6 - 9/85 J200DCM850829
1 . ,
i ,
iO 2.2.2.a For the purpose of implementation of l Specification 3.11.2.2, the air dose at the SITE BOUNDARY or at UNRESTRICTED AREAS inside I
the SITE BOUNDARY shall be determined as follows:
1 D, = air dose due to gamma emissions from i noble gas radionuclide i (erad) i
~8 k = 3.17 x 10 IM gg X/Q' Q g Where, X/Q' = relative concentration for the SITE BOUNDARY or UNRESTRICTED AREAS inside the
- SITE BOUNDARY. {
~0*
= 4.537 x 10 sec/m3 , in the WNW sector i
j Mg = sir dose factor due to gamma emissions i from noble gas radionuclide 1 (arad/yr l per uCi/m3 ) from Table 2.1-1 Qg = cumulative release of radionuclide i of j noble gas, tritium, 1-131, 1-133, or
- material in particulate form over the i j period of interest (uC1) !
Note: 3.17 x 10 ~0 is the inverse of the number
- of seconds per year, and ..
J 'l 1 D B
= air dose due to beta emissions from noble gas radionuclide 1 (arad) l
= 3.17 x 10 ~0 Ig Ng X/Q' Qg i Where, ,
I !
l N I
= air dose factor due to beta emissions !
from noble gas radionuclide 1 (erad/yr
, per uCi/m3 ) from Table 2.1-1 i L
]
j X/Q' = relative concentration for the SITE
, BOUNDARY or UNRESTRICTED AREAS inside the .
SITE BOUNDARY 1 l i 6* sec/m3 , in the WNW sector r
! = 4.537 x 10 i I
i i
!
- The highest annual average X/Q for the GGNS SITE BOUNDARY [
l q or UNRESTRICTED AREAS inside the SITE BOUNDARY is Hamilton Lake (WNW, 0.75 miles). This value is taken from the Grand l
'p j
- Gulf Nuclear Station Final Environmental Report, Table t l
6.1.28. l l
l GRAND GUIE, UNIT 1 2.0-9 Rev. 6 - 9/85 (
J200DCM850829 l
~
.m O
, oi
= cumui tiv r i se of r dioauciide i or aabi. ,
gas, tritium, I-131, 1-133, or material in particulate form over the period of interest (uC1).
2.2.2.b Dose to an individual from tritium, I-131, 1-133 and radioactive materials in particulate form, with half-lives greater than eight (8) days will be calculated for the purpose of implementation of Specification 3.11.2.3
! as follows:
D = dose to an individual from tritium, 1-131 p
I-133 and radionuclides in particulate fonn, withhalf-lifegreaterthaneightdays(mrem)
= 3.17 x 10" R, W' Qg O i 5
Where, W' = relative concentration at a controlling
. location for an individual k[Q' = 4.057 x 10'0* sec/m3 for inhalation in 5
=4 the S sector D3 ' = 1.408 x 10*8* m-2 for other pathways 5
! in the S Sector Rj = the total dose factor for radionuclide 1, 3 2 (mrem /yrperuC1/m)and(m . mrem /yr per 5 uCi/sec)forfoodandgroundplanepathways from Tables 2.2 2a - d
- This conservative approach utilizes values for the onsite MP&L n
M.
gardens (Tables 2.2-3and2.3-1).AsanalternativeMP&Lmayuse the most conservative offsite controlling locations identified in 5 the above referenced tables.
GRAND GULF, UNIT 1 2.0-10 Rev. 5 - 1/85
~
en O Qj = cumulative release of radionuclide i of noble 5
gas, tritium. I-131, 1-133, or material in particulate fonn over the period of interest (uC1) 2.2.2.c For the purpose of ir.plementing Specification 6.9.1, of the RETS, dose calculations will be perforwed using the above equations or with the substitution of average meteorological parameters (most limiting parameters will 5 beused)whichprevailedfortheperiodofthereport.
O O
GRAND GULF, UNIT 1 2.0-10s Rev. 5 - t/85
.g.
TABIE 2.2-la 1
PA'INWAY DOSE FACIORS (Pi) ftR TECHNICAL SPECIFICATION 3.11.2.1 and
~ . - - SECTIN 2.2.1.b Page 1 of 2 AGE GRUP (INFANT) ( N.A. ) (INFANT)
IS010PE INHA1ATIN GROUND PIANE ftXD H-3 6.468E+02 0.000'E+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 i P-32 2.030E+06 0.000E+00 1.602E+11 CR-51 1.284E+04 7.864E+06 4.700E+06 Mi-54 9.996E+05 1.287E+09 3.900E+07 Mi-56 7.168E+04 1.525E+06 2.862D 00 ITe55 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 00-60 4.508E+06 5.172E+09 2.098D08 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 7.907D OS 1.904E+10 IN-69 1.322D04 0.000E+00 3.855E-09 BR-83 3.808E+02 1.011E+04 9.339E-01 1.256E-22 O =a-84 BR-85 4 oo4E+02 2.044E+01 3.376E+05 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
- RS-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 3.587D06 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 1.658D05 1.876E-15 Y-91 2.450E+06 1.702E+06 5.251D06 Y-92 1.266E+05 3.060E+05 1.026D01 Y-93 1.666E+05 3.620E+05 1.776E+04 ER-95 1.750E+06 3.975E+08 8.257E+05 1R-97 1.400E+05 4.921E+06 4.446E+04 NB-95 4.788E+05 2.291E+08 2.062E+08 D 99 1.34BE+05 6.608E+06 3.108E+08 K-99M 2.030E+03 3.013E&05 1.646D04 K-101 8.442E+02 3.253E+04 1.423E-56 D 103 5.516E+05 1.804E+08 1.055D05 5 105 4.844E+04 1.030E+06 3.204E+00 p 106 1.156E+07 3.590E+08 1.445E+06 Ell (M 3.668E+06 3.649D09 1.461E+10 0
GRMO QUIE, IJNIT 1 2.0-11 Dev. 1 - 7/83
i I
? i l
' TABIZ 2.2-la (Continued)
I PA2H00f DOSE FACIORS (Pi) ITR '1TDtGCAL SPECIFICATIN 3.11.2.1 and
', SEL713 2.2.1.b l Page 2 of 2 i
M GRCUP (INFANT) ( W.A. ) (INFANT) '
! 1SOltPE I!GIA1ATI S GBCUtc PIANE ftXD W 125M 4.466E+05 3.001E+06 1.508D08 i
1.312E+06 1.395E+05 1.037E+09
't > 127M l
2.436E+04 4.704E+03 1.359E+05 i TF127 1.392D09 1 'IE-129M 1.680E+06 3.290E+07 2.632E+04 4.395E+04 1.678E-07 l T F 129 1.988E+05 1.351E+07 2.288E+07 TI-131M 1.384&30 l TF131 8.218p 03 4.9295+07 i
3.402E+05 7.098906 6.513E+07
? 'IE-132 1.596E+06 9.560E+06 8.754E+08 l I-130 1.053E+12 I-131 1.484E+07 2.985E+07 j 1.188E+02 i I-132 1.694E+05 2.075D06 3.556E+06 4.259E+06 9.601E+09
/ I-133 8.402E-10
) I-134 4.452E+04 7.578E+05 6.958E+05 4.210E+06 2.002E+07 l I-135 6.801E+10 i CS-134 7.028D05 3.282E+09 l 1.345E+05 2.432E+08 5.795E+09 C5-136 4
2 >>7ac' 5 a24=+1o iO 1
c=-227 CS-138 5 22'=+cs 8.764E+02 5.860E+05 1.705E+05 2.180E-22 2.874E-05 i l BA-139 5.096E+04 '
1.596E+06 3.352p07 2.410E+08 BA-140 34-141 4.746E+03 6.762E+04 3.141E-44 1.554D03 7.234E+04 0.000E+00 BA-142 1.680D05 3.114007 1.880E405 l IA-140 6.019E-06
! 1A-142 5.950E+04 1.269E+06 5.166E+05 2.199D07 1.366E+07 l CE-141 S-143 1.162h05 3.753D06 1.536D06 i !
9.842E+06 6.761D 07 1.334E+08 CD144 4.326E+05 0.000E+00 7.845E+05 :
19t-143 4.284D03 3.017D03 1.171E-48 79-144 1 0-147 3.220E+05 1.441907 5.743&05 l 3.915E+06 2.501E+06 W-187 3.962E+04 NP-239 5.950E+04 2.8230 06 9.400D04 t I
1 I
tktits: Inhalation and all tritiwn patNays - mram/yr per sci /m8
! others - m8 . aram/yr per uci/see I values based on standard NUREG-0133, Section 5.2.1 asstaptions unless i ,
otherwise indicated.
O i
l l
WAfC (ME,14f2T 1 2.0-12 may.1 - 7/83
~
- TABIE 2.2-1b pan 60& DOSE FAC'IORS (Pi) FOR TEWNICAL SPECIFICATIONS 3.11.2.1 and SECTIm 2.2.1.b Page 1 of 2 ME GROUP ( GIID ) ( N. A. ) ( CHIID )
~ ISOIOPE INHAIATIN GROUtO PLANE GRS/ANL/NUd H-3 1.125E+03 0.000E+00 1.826E+02 -
C-14 3.589E+04 0.000E+00 2.991E+08 Nh-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 i
m-54 1.576E+06 1.625E+09 6.249E+06 i
m-56 1.232E+05 1.068E+06 1.901E-51 FE-55 1.110E+05 0.000E+00 3.566E+08 TE-59 1.269E+06 3.204E+08 4.943E+08 CO-58 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 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 DR-83 4.736E+02 7.079E+03 7.425E-57 h BR-84 5.476E+02 2.363E+05 0.000E+00 i
BR-85 2.531E+01 0.000E+00 0.000E+00
! RB-86 1.983E+05 1.035E+07 4.536E+08 RS-88 5.624E+02 3.779E+04 0.000E+00 l
RB-89 3.452E+02 1.452E+05 0.000E+00
, SR-89 2.157E+06 2.509E+04 3.756E+08 i 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
, 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 2R-95 2.231E+06 2.837E+C8 4.763E+08 ZR-97 3.511E+05 3.445E+06 5.471E-01 NS-95 6.142E+05 1.605E+08 1.738E+09 1.915E+05 l2 M&99 1.354E+05 4.626E+06
'IC-99M 4.810E+03 2.109E+05 5.394E-18
'IC-101 5.846E+02 2.277E+04 0.000E+00 RD-103 6.623E+05 1.265E+08 3.127E+09 RD-105 9.953E+04 7.212E+05 4.590E-25
, 50-106 1.432E+07 5.049E+08 5.384E+10
, AG-R(M 5.476E+06 4.019E+09 5.259E+08 (O
i I
GFJ@O GJLF, UNIT 1 2.0-13 Dev. 2 - 5/84 i
~
~=
pBLE 2.2-lb (Continued) 1 t PAD 503 DOSE FACIORS (Pi) IOR 'IECHNICAL SPECIFICATINS 3.11.2.1 and SELTION 2.2.1.b Page 2 of 2 AGE GROUP ( OGID ) ( N. A. ) ( QillD )*
ISOIT E INEAIATIW GROUND PIANE GRS/ANL/ MEAT i 2-125M 4.773E+05 2.128E+06 4.438E+08 TE-127M 1.480E+06 1.083E+05 3.947E+09
'IE-127 5.624E+04 3.293E+03 1.254E-08 TE-129M 1.761E+06 2.305E+07 4.091E+09
'IE-129 2.549E+04 3.076E+04 0.000E+00 TE-131M 3.078E+05 9.459E+06 7.656E+03 1E-131 2.054E+03 3.450E+07 0.000E+00 TE-132 3.774E+05 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 3.848E+06 2.981E+06 1.017E+02 1-134 5.069E+04 5.305E+05 0.000E+00 1-135 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 C5-137 9.065E+05 1.201E+10 1.040E+09 i
O CS-138 BA-139 8.399E+02 5.772E+04 4.102E+05 1.194E+05 0.000E+00 0.000E+00 i 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
' G-141 5.439E+05 1.540E+07 1.078E+07
! CE-143 1.273E+05 2.627E+06 1.963E+02
! G-144 1.195E+07 8.032E+07 1.476E+08 PR-143 4.329E+05 0.000E+00 2.815E+07 l
j PR-144 1.565E+03 2.112E+03 0.000E+00 ND -147 3.282E+05 1.009E+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 ,
mits: Inhalation and all tritiwn pathways - scen/yr per uti/m8 1 Others - m2 . mrern/yr per uci/sec ,
values based on standard NUREr,-0133, Section 5.3.1 assmptims unless -
otherwise indicated. -
i
- - Neat omssption assmed 75 percent beef and 25 percent sutton. .
r t
O i GRAtO GUIF, WIT 1 2.0-14 mev.1 - 7/83 l l r
,.n. . , , , - - - , , - - - - ~ - , , , - - . --,-----,e,e- ,,---r,,--.---n,-. - , - , -vn-.-a..a--- -,-v.-.-v,- ,,- -,--.-+-e,--ne--a - , - , m , g---, - - - - - - , , -
I TABIE 2.2-2a 10 PA'IM&Y DOSE FACIORS (Ri) FOR TEENNICAL SPECIFICATICNS 4.11.2.3 AND SEETI m 2.2.2.b l
Page 1 of 2 3 1
( INF M ) ( N.A. ) ( INF M ) ( INF M ) ( INFANT ) l AGE GROUP VEX 2HATIW INHAIATIW GROUND PLANE GRS/CW/MIIK GRS/C W/ MEAT ISOIOPE 0.000E+00 6.468E+02 0.000E+00 2.382E+03 0.000E+00 H-3 0.000E+00 2.646E+04 0.000E+00 2.340E+09 0.000E+00 C-14 1.542E+07 0.000E+00 0.000E+00 NA-24 1.056E+04 1.385E+07 1.602E+11 0.000E+00 0.000E+00 !
P-32 2.030E+06 0.000E+00 !
5.506E+06 4.700E+06 0.000E+00 0.000E+00 CR-51 1.284E+04 0.000E+00 9.996E+05 1.625E+09 3.900E+07 0.000E+00 W-54 0.000E+00 0.000E+00 l W-56 7.168E+04 1.068E+06 2.862E+00 ?
0.000E+00 1.351E+08 0.000E+00 0.000E+00 7T-55 8.694E+04 0.000E+00 1.015E+06 3.204E+08 3.919E+08 0.000E+00 FE-59 0.000E+00 7.770E+05 4.464E+08 6.055E+07 0.000E+00 CD-58 0.000E+00 l 4.508E+06 2.532E+10 2.098E+08 0.000E+00 CO-60 0.000E+00 i 3.388E+05 0.000E+00 3.493E+10 0.000E+00 '
NI-63 0.000E+00 5.012E+04 3.451E+05 3.020E+01 0.000E+C0 NI-65 0.000E+00 0.000E+00 CU-64 1.498E+04 6.876E+05 3.807E+06 1.904E+10 0.000E+00 0.000E+00 )'
ZN-65 6.468E+05 8.583E+08 0.000E+00 3.855E-09 0.000E+00 0.000E+00 ZN-69 1.322E+04 9.339E-01 0.000E+00 0.000E+00 l g-83A-84 3.808E+02 4.004E+02 7.079E+03 2.363E+05 1.256E-22 0.000E+00 0.000E+00
)
l 0.000E+00 0.000E+00 0.000E+00 0.000E+00 BR-85 2.044E+01 1.035E+07 2.234E+10 0.000E+00 0.000E+00 l RB-86 1.904E+05 i 3.779E+04 1.874E-44 0.000E+00 0.000E+00 RB-88 5.572E+02 1.452E+05 4.193E-53 0.000E+00 0.000E+00 {
RB-89 3.206E+02 2.509E+04 1.258E+10 0.000E+00 0.000E+00 j SR-89 2.030E+06 0.000E+00 1.216E+11 0.000E+00 0.000E+00 l
SR-90 4.088E+07 2.511E+06 3.215E+05 0.000E+00 0.000E400 :
l SR-91 7.336E+04 8.631E+05 5.005E+01 0.000E+00 0.000E+00 l SR-92 1.400E+05 5.308E+03 9.406E+05 0.000E+00 0.000D+00 r Y-90 2.688E+05 1.161E*C5 1.876E-15 0.000E+00 0.000E+00 l Y-91M 2.786E+03 1.207E+06 5.251E+06 0.000E+00 0.000E+00 i Y-31 2.450E+06 2.142E+05 1.026E+01 0.000E+00 0.000E+00 l Y-92 1.266E+05 2.534E+05 1.776E+04 0.000E+00 0.000E+00 j Y-93 1.666E+05 2.837E+08 8.257E+05 0.000E+00 0.000E+00 l ZR-95 1.750E+06 3.445E+06 4.446E+04 0.000E+00 0.000E+00 ;
ZR-97 1.400E+05 1.605E+C8 2.062E+08 0.000E+00 0.000E+00 !
NB-95 4.788E+05
- 4.626E+06 3.108E+08 0.000E+00 0.000E+00 E 99 1.348E+05 2.109E+05 1.646E+04 0.000E+00 0.000E+00 l
'IC-99M 2.030E+03 0.000E+00 ?
'IC-101 8.442E+02 2.277E+04 1.423E-56 0.000E+00 W 103 5.516E+05 1.265E+08 1.055E+05 0.000E+00 0.000E+00 0.000E+00 l2 l 4.844E+04 7.212E+05 3.204E+00 0.000E+00 l h 105 0.000E+00 T.156E+07 5.049E+08 1.445E+06 0.000E+00 l h 106 0.000E+00 AG-110M 3.068E+06 4.019E+09 1.461E+10 0.000E+00 l0 l.
GRAND GULF, WIT 1 2.0-15 Rev. 2 - 5/84 j
_ . _ - - _ - - -____ -- _. -.- - - ._.- _ I
TABIE 2.2-2a (Continued)
.O pal %iAY DOSE FACIORS (Ri) FOR TECHNICAL SPECIFICATINS 4.11.2.3 AND SECTIN 2.2.2.b Page 2 of 2 AGE GROUP ( INFANT ) ( N.A. ) ( INFANT ) ( INFANT ) ( INFANT )
ISOIOPE INHAIATION GROUND PIANE GRS/ COW /MIIK GRS/ COW / MEAT VEGETATIN TE-125M 4.466E+05 2.128E+06 1.508E+08 0.000E+00 0.000E+00 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 TE-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 TE-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 4.9o8E+06 6.513E+07 0.000E+00 0.000E+00 2 TE-132 3.402E+05 I-130 1.596E+06 6.692E+06 8.754E+08 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 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+00 137 6.118E+05 1.201E+10 6.024E+10 0.000E+00 0.000E+00 J5-138 8.764E+02 4.102E+05 2.180E-22 0.00QE+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 Bh-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 1.680E405 2.180E+07 1.880E+05 0.000E+00 0.000E+00 IA-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 8.032E+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 E-144 4.284E+03 2.112E+03 1.171E-48 0.000E+00 0.000E+00
}D-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 tritium pathways - mrem /yr per tCi/m2 others - m2 . mran/yr per uCi/sec values based an standard NUREX3-0133, Section 5.3.1 asstmptions unless otherwise indicated.
~
l 10 GRAND GULF, INIT 1 2.0-16 Dev. 2 - 5/84
TABII 2.2-2b 1
PATHKE DOSE FACIORS (Ri) ITR 'ITC)NICAL SPECIFICATINS 4.11.2.3 AND SECTIm 2.2.2.b Page 1 of 2 )
( N.A. ) ( CHILD ) ( GIID ) ( GIID )
NZ @ CUP ( GIID ) Vm'rATIW INHA1ATI N GRWND PIANE GRS/ COW /MIII GRS/CXM/ MEAT
~IsorCPE 4.008E+03 1 1.125E+03 0.000E+00 1.570E+03 2.341E+02 H-3 8.894E+08 3.589E+04 0.000E+00 1.195E+09 3.834E+08 I
C-14 3.729E+05 1.610E+04 1.385E+07 8.853E+06 1.725E-03 NA-24 3.366E+09 2.605E+06 0.000E+00 7.775E+10 7.411E+09 P-32 6.213E+06 1.698E+04 5.506E+06 5.398E+06 4.661E+05 CR-51 6.648E+08 1.576E+06 1.625E+09 2.097E+07 8.011E+06 193- 54 2.723E+03 1.232E+05 1.068E+06 1.865E+00 2.437E-51 Mi-56 4.571E+08 8.012E+08 FE-55 1.110E+05 0.000E+00 1.118E+08 3.204E+08 2.025E+08 6.338E+08 6.693E+08 FE-59 1.269E+06 4.464E+08 7.080E+07 9.596E+07 3.771E+08 00-58 1.106E+06 2.532E+10 2.391E+08 3.838E+08 2.095E+09 CO-60 7.067E+06 0.000E+00 2.964E+10 2.912E+10 3.949E+10 NI-63 8.214E+05 3.451E+05 1.909E+01 4.061E-51 1.211E+03 NI-65 8.399E+04 6.876E+05 3.502E+06 1.393E-05 5.159E+05 CU-64 3.670E+04 8.583E+08 1.101E+10 1.000E+09 2.164E+09 ZN-65 9.953E+05 1.018E+04 0.000E+00 1.123E-09 0.000E+00 9.893E-04 ZN-69 5.369E+00 4 735E+02 7.0,9E+03 4.399E-01 9.519E-57
'O 58-83 BR-84 5.476E+02 2.363E+05 6.508E-23 0.000E+00 3.822E-11 0.000E+00 0.000E400 0.000E+00 0.000E+00 BR-85 2.531E+01 1.983E+05 1.035E+07 8.804E+09 5.816E+08 4.584E+08 RB-86 5.624E+02 3.779E+04 7.150E-45 0.000E+00 4.374E-22 RB-88 3.452E+02 1.452E+05 1.715E-53 0.000E+00 1.642E-26 RB-89 3.593E+10 SR-89 2.157E+06 2.509E+04 6.618E+09 4.815E+08 1.010E+08 0.000E+00 1.117E+11 1.040E+10 1.243E+12 SR-90 2.511E+06 2.878E+05 5.292E-10 1.157E+06 SR-91 1.739E+05 8.631E+05 4.134E+01 3.492E-48 1.378E+04 SR-92 2.424E+05 2.679E+05 5.308E+03 9.171E+05 4.879E+05 6.569E+07 Y-90 1.737E-05 2.812E+03 1.161E+05 5.198E-16 0.000E+00 Y-91M 2.484E+09 2.62 7E+06 1.207E+06 5.199E+06 2.400E+08 Y-91 4.576E+04 Y-92 2.390E+05 2.142E+05 7.310E+00 6.959E-35 2.534E+05 1.573E+04 1.547E-07 4.462E+06 Y-93 3.885E+05 2.837E+08 8.786E+05 6.106E+08 8.843E+08 ZR-95 2.231E+06 3.445E+06 4.199E+04 7.015E-01 1.248E+07 2R-97 3.511E+05 1.605E+08 2.287E+08 2.228E+09 2.949E+08 NB-95 6.142E+05 4.626E+06 1.738E+08 2.456E+05 1.647E+07 MD-99 1.354E+05 2.109E+05 1.474E+04 6.915E-18 5.255E+03 K-99M 4.810E+03 2.277E+04 5.593E-58 0.000E+00 4.123E-29 K-101 5.846E+02 3.971E+08 RD-103 6.623E+05 1.265E+08 1.108E+05 -
4.009E+09 7.212E+05 2.493E+00 5.885E-25 5.981E+04 RD-105 9.953E+04 5.049E+08 1.437E+06 6.902E+10 1.159E+10 RD-106 1.432E+07 4.019E+09 1.678E+10 6.742E+08 2.581E+09 AG-11G4 5.476E+06 i
GAND GUIE, WIT 1 2.0-17 ,
Rev. 1 - 7/83
. _ _ _ _ _ _ . - - - . _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ . ~ - _ _ _ _ . _ _ _ . _ _ _ _
~
l
. TABIE 2.2-2b (Continued)
O PA'IHWAY DQSE FACIORS (Ri) FTR TEGNICAL SPIEIFICATINS 4.11.2.3 Ato SECTIm 2.2.2.b Page 2 of 2 AGE GROUP -( GIID ) ( N.A. ) ( GIID ) ( CHIID ) ( CHIID )
156IOPE INHAIATIW GBOUND PIANE GRS/CW/MIIJC GRS/C W/ MEAT VEGETATIN TE-125M 4.773E+05 2.128E+06 7.377E+07 5.690E+08 3.506E+08 l 7E-127M 1.480E+06 1.083E+05 5.932E+08 5.060E+09 3.769E+09 TE-127 5.624E+04 3.293E+03 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 6.1665-08 0.000E+00 7.204E-02 TE-131M 3.078E+05 9.459E4 6 2.244E+07 9.815E+03 2.163E+07 TE-131 2.054E+03 3.450E+07 8.489E-32 0.000E+00 1.349E-14 TE-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 1.624E47 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 I-133 3.84BE+06 2.981E+06 3.945E+09 1.304E+02 3.113E+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 CS-136 1.014E+06 1.709E+05 8.007E+09 1.702E+08 3.715E+10 1.513E+09 2.631E+10 2.247E+08 l2 2.773E+09 4.426E+07 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 1.326E+08 1.893E+08 1.039E+10 PR-143 4.329E+05 0.000E+00 7.754E+05 3.609E+07 1.575E+08 PR-144 1.565E403 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 tritium patNays - mran/yr per uCi/m2 Others - m2 . mrem /yr per uCi/sec values based on standard NUREG-0133, Section 5.3.1 assunptions unless otherwise indicated.
p GRA!O GUIE, UNIT 1 2.0-18 Rev. 2 - 5/84
~
' TABLE 2.2-2c 1
PATHWAY DOSE FAC'IORS (Ri) FM TEPHNICAL SPEI'IFICATImS 4.11.2.3 AND swnCN 2.2.2.b Page 1 of 2
{ N.A. ) (TEENAGER) (msGER) (mWGER)
AGE GROUP (TEENGE'R) V N TATICN GROUND PIANE GRS/ COW / MILK GRS/ COW / MEAT ISvawE INHA1ATICE 2.588E+03 1 1.272E+03 0.000E+00 9.941E+02 1.938E+02 H-3 3.690E+08 2.600E+04 0.000E+00 4.859E+08 2.040E+08 C-14 2.389E+05 1.376E+04 1.385E+07 4.255E+06 1.084E-03 NA-24 1.608E+09 1.888E+06 0.000E+00 3.153E+10 3.931E+09 P-32 1.037E+07 2.096E+04 5.506E 06 8.387E+06 9.471E+05 CR-51 9.320E+08 1.984E+06 1.625E+09 2.875E+07 1.436E+07 M4-54 9.451E+02 5.744E+04 1.068E+06 4.856E-01 8.302E-52 36-56 2.382E+08 3.259E+08 FE-55 1.240E+05 0.000E+00 4.454E+07 3.204E+08 2.861E+08 1.171E+09 9.895E+08 FE-59 1.528E+06 6.034E+08 1.344E+06 4.464E+08 1.095E+08 1.942E+08 CD-58 3.238E+09 8.720E+06 2.53?E+10 3.621E+08 7.600E+08 CO-60 1.606E+10 5.800E+05 0.000E+00 1.182E+10 1.519E+10 NI-63 1.305E-51 3.966E+02 NI-65 3.672E+04 3.451E+05 4.692E+00 6.876E+05 3.293E+06 1.7135-05 6.465E+05 CD-64 6.144E+04 8.583E408 7.315E+09 8.688E+08 1.471E409 ZN-65 1.240E+06 2.067E-05 1.584E+03 0.000E+00 1.760E-11 0.000E+00 ZN-69 2.911E.00 7.079t+03 1.790E-01 5.066E-57 O "-83
=BR-84 3 44or+02 4.328E+02 2.363E+05 2.877E-23 0.000E+00 0.000E+00 2.251E-11 0.000E+00 BR-85 1.832E+01 0.000E+00 0.000E+00 1.035E+07 4.746E+09 4.101E+08 2.772E+08 RS-86 1.904E+05 3.779E+04 3.886E-45 0.000E+00 3.168E-22 RB-88 5.456E+02 1.452E+05 9.774E-54 0.000E+00 1.247E-26 RB-89 3.520E+02 1.513E+10 2.416E+06 2.509E+04 2.674E+09 2.545E+08 SR-89 7.507E+11 1.080E+0B 0.000E+00 6.612E+10 8.049E+09 SR-90 1.291E+06 2.592E+05 2.511E+06 2.409E+05 5.794E-10 SR-91 1.012E+04 1.192E+05 8.631E+05 2.277E+01 2.516E-48 SR-92 7.470E+05 1.025E+08 Y-90 5.592E+05 5.30BE+03 1.074E+06 1.161E+05 5.129E-18 0.000E+00 2.285E-07 Y-91M 3.200E+03 3.212E+09 2.936E+06 1.207E+06 6.475E+06 3.910E+08 Y-91 2.360E+04 1.648E+05 2.142E+05 2.828E+00 3.522E-35 Y-92 1.688E-07 4.983E+06 Y-93 5.792E+05 2.534E405 1.312E+04 1.201E+06 1.092E+09 1.253E+09 ZR-95 2.688E+06 2.837E+08 4.225E+04 9.231E-01 1.673E+07 2R-97 6.304E+05 3.445E+06 3.338E+08 4.251E+09 4.551E+08 NB-95 7.512E+05 1.605E+08 1.023E+08 1.892E+05 1.293E+07 MCH99 2.688E+05 4.626E+06 2.109E+05 1.055E+04 6.471E-18 5.011E+03 K-99M 6.128E+03 0.000E+00 3.229E-29 K-101 6.672E+02 2.277E+04 3.287E-58 1.513E+05 7.162E+09 5.706E+08 D 103 7.832E+05 1.265E+08 7.212E+05 1.263E+00 3.900E-25 4.039E+04 RD-105 9.040E+04 1.484E+10 5.049E+08 1.799E+06 1.130E+11 RU-106 1.608E+07 4.031E+09 4.019E+09 2.559E+10 1.345E+09 AG-110M 6.752E+06 i
1 GRAND GUIF, LNIT 1 2.0-19 Rev. 1 - 7/83
.~
TABLE 2.2-2c (Continued) 1 PA1HWXY SOSE FACIORS (Ri) EER TED{NICAL SPECIFICATICNS 4.11.2.3 AND su. tim 2.2.2.b Page 2 of 2
( N.A. ) (TuNAGER) bu2GGER) buMGER)
AGE GRCUP (TEEXAGER) WmuCIN GRCUND PIANE GRS/ COW /MIIK GRS/ COW / MEAT 150IOPE INHALATICN 4.375E+08 2.128E+06 8.863E+07 8.941E+08 E-125M 5.360E+05 2.236E+09 1.656E+06 1.083E+05 3.420E+08 3.816E+09 TE-127M 1.689E-08 4.180E+05 E-127 8.080E+04 3.293E+03 9.572E+04 4.602E+08 3.966E+09 1.508E+09 TE-129M 1.976E+06 2.305E+07 2.196E-09 0.000E+00 3.418E-03 E-129 3.296E+03 3.076E+04 2.529E+07 1.447E+04 3.248E+07 TE-131M 6.208E+05 9.459E+06 2.879E-32 0.000E+00 6.099E-15 E-131 2.336E+03 3.450E+07 8.581E+07 2.300E+07 7.818E+07 TE-132 4.632E+05 4.968E+06 1.742E+08 4.005E-04 8.276E+07 I-130 1.488E+06 6.692E+06 2.195E+11 3.645E+09 3.140E+10 I-131 1.464E+07 2.089E+07 2.242E+01 1.389E-57 4.262E+03 I-132 1.512E+05 1.452E+06 1.674E+09 7.234E+01 4.587E+08 I-133 2.920E+06 2.981E+06 5.305E+05 1.583E-10 0.000E+00 3.854E-03 I-134 3.932E+04 5.832E+06 2.947E+06 3.777E406 5.%3E-15 I-135 6.208E+05 1.231E+09 1.671E+10 1.128E+06 8.007E+09 2.310E+10 CS-134
'** ' "^"" *** *
"~' ' ** '
.781E+10 9.634E+08 '1 '.'34 8E+10 Cj' 'CS-137 ' '. '4 80E+051 8 ' '.'201E+10 1 6.935E-11 8.560E+02 4.102E+05 3.149E-23 0.000E+00 CS-138 2.472E-01 6.464E+03 1.194E+05 7.741E-07 0.000E+00 BA-139 2.130E+08 2.032E+06 2.346E+07 7.483E+07 3.663E+07 BA-140 8.699E-22 3.288E+03 4.734E+04 4.922E-46 0.000E+00 BA-141 2.269E-39 1.912E+03 5.064E+04 0.000E+00 0.000E+00 BA-142 8.689E+02 5.104E+07 IA-140 4.872E+05 2.180E+07 2.291E+05 8.886E+05 2.574E-07 0.000E400 1.868E+00 IA-142 1.200E+04 2.252E+07 5.404E+08 3-141 6.136E+05 1.540E+07 1.6%E+07 2.627E+06 1.671E+06 3.695E+02 2.040E+07 CE-143 2.552E+05 1.326E+10 1.336E+07 8.032E+07 1.655E+08 3.089E+08 CE-144 2.310E+08 4.832E+05 0.000E+00 9.553E+05 5.817E+07 PR-143 3.097E-26 1.752E+03 2.112E+03 1.238E-53 0.000E+00 PR-144 2.452E+07 1.424E+0S ND-147 3.720E+05 1.009E+07 7.116E+05 2.646E+06 3.989E+00 7.839E+06 W-187 1.768E+05 2.740E+06 1.060E+05 3.387E+03 2.097E+07 NP-239 1.320E+05 1.976E+06 i
Units: Inhalation and all tritium patlways - mrem /yr per uCi/m3 l1 Others - m2 . mrem /yr per uCi/sec i
Values based on standard NURDrr0133, Section 5.3.1 asstmptions unless l
j otherwise indicated.
0 GRAND GUIE, UNIT 1 2.0-20 Rev. 1 - 7/83 l
l l
TABIE 2.2-2d l
PA'IMO& DCSEE FACIORS (Ri) 70R 'IECHNICAL SPECIFICATICNS 4.11.2.3 AIO SEcrIW 2.2.2.b Page 1 of 2 N. A. ) ( ADULT ) ( ADULT ) ( ADULT )
AGE GRC11P ( ADULT ) (
VEIEIATIGI INHAIATIN GROUND PLANE GRS/CW/MIIK GRS/C W/ MEAT
-ISOIOPE 2.260E+03 1.264E+03 0.000E+00 7.629E+02 3.248E+02 H-3 2.276E+08 1.816E+04 0.000E+00 2.634E+08 2.414E+08 C-14 2.690E+05 1.024E+04 1.385E+07 2.438E+06 1.356E-03 Nh-24 1.403E+09 1.320E+06 0.000E+00 1.709E+10 4.651E+09 P-32 1.168E+07 1.440E+04 5.506E+06 7.187E+06 1.772E+06 CR-51 9.585E+08 1.400E+06 1.625E+09 2.578E+07 2.812E+07 Mi-54 5.082E+02 Mi-56 2.024E+04 1.068E+06 1.328E-01 4.958E-52 0.000E+00 2.511E+07 2.933E+08 2.096E+08 FE-55 7.208E+04 3.204E+08 2.326E+08 2.080E+09 9.875E+08 IE-59 1.016E+06 6.252E+08 CO-58 9.280E+05 4.464E+08 9.565E+07 3.703E+08 5.968E+06 2.532E+10 3.082E+C8 1.413E+C9 3.139E+09 C0-60 0.000E+00 6.729E+09 1.888E+10 1.040E+10 NI-63 4.320E+05 2.026E+02 NI-65 1.232E+04 3.451E+05 1.219E+00 7.405E-52 4.896E+04 6.876E+05 2.031E+06 2.307E-05 7.841E+05 CU-64 8.583E+08 4.365E+09 1.132E+09 1.009E+09 i EN-65 8.640E+05 '
9.200E+02 0.000E+00 5.207E-12 0.000E400 1.202E-05 9
2.408E+02 7.079E+03 1.399E-01 8.648E-57 4.475E+00 83 Jt-84 3.128E+02 2.363E+05 1.609E-23 0.000E+00 2.475E-11 1.280E+01 0.000E+00 0.000E+00 0.000E+00 0.000E+00 BR-85 1.352E+05 1.035E+07 2.604E+09 4.914E+09 2.217E+08 RB-86 3.872E+02 3.779E+04 2.1395-45 0.000E+00 3.428E-22 RB-88 2.560E+02 1.452E+05 5.523E-54 0.000E+00 1.385E-26 RB-89 1.400E+06 2.509E+04 1.451E+09 3.014E+08 9.961E409 SR-89 9.920E+07 0.000E+00 4.680E+10 1.244E+10 6.046E+11 SR-90 1.912E+05 2.511E+06 1.377E+05 7.233E-10 1.451E+06 i SR-91 l 4.304E+04 8.631E+05 9.675E+00 2.334E-48 8.452E403 SR-92 5.056E+05 5.308E+03 7.511E+05 1.141E+06 1.410E+08 l Y-90 1.527E48 l v-91M 1.920E+03 1.161E+05 1.743E-19 0.000E+00 1.704E+06 1.207E+06 4.726E+06 6.231E+08 2.814E+09 Y-91 2.142E+05 9.712E-01 2.657E-35 1.603E+04 Y-92 7.352E+04 4.216E+05 2.534E+05 7.388E+03 2.075E-07 5.517E+06 Y-93 1.768E+06 2.837E+08 9.587E+05 1.903E+09 1.194E+09 ZR-95 5.232E+05 3.445E+06 2.707E+04 1.292E+00 2.108E+07 ZR-97 1.605E+08 2.786E+08 7.748E+09 4.798E+08 W 95 5.048E+05 1.426E+07 W 99 2.480E+05 4.626E+06 5.741E+07 2.318E+05 2.109E+05 5.553E+03 7.439E-18 5.1875+03, i
'IC-99M 4.160E+03 3.992E+02 2.277E+04 1.813E-58 0.000E+00 3.5025-29 l
'IC-101 D 103 5.048E+05 1.265E+08 1.189E+05 1.229E+10 5.577E+08 l2 4.816E+04 7.212E+05 5.240E-01 3.533E-25 3.294E+04 h 105 5.049E+08 1.320E+06 1.811E+11 1.247E+10 i D 106 9.360E+06 4.019E+09 2.198E+10 2.523E+09 3.979E+09 l AG-110M 4.63tE+06 1
0 .
GRAND GUIE, WIT 1 2.0-21 Rev. 2 - 5/84
TABLE 2.2-2d (Continued) 1 PAIMG0L DOSE FAC'IORS (Ri) IDR TECHNICAL SPECIFICATIWS 4.11.2.3 AND SEXXIm 2.2.2.b l Page 2 of 2 AGE GROUP ( ADULT ) ( N. A. ) ( ADULT ) ( ADULT ) ( ADULT )
INHAIATIN GROUND PIANE GRS/ COW /MIII GRS/ COW / MEAT vu n ATI N ISCIOPE 3.136E+05 2.128E+06 6.626E+07 1.460E+09 3.927E+08
'IE-125M 1.418E+09 TE-127M 9.600E+05 1.083E+05 1.860E+08 4.531E+09 5.736E+04 3.293E+03 5.278E+04 2.034E-08 4.532E+05
'IE-127 1.261E+09 TE-129M 1.160E+06 2.305E+07 3.028E+08 5.698E+09 1.936E+03 3.076E+04 9.167E-10 0.000E+00 2.806E-03
'IE-129 4.428E+07 TE-131M 5.560E+05 9.459E+06 1.753E+07 2.190E+04 1.392E+03 3.450E+07 1.578E-32 0.000E+00 6.575E-15
'!E-131 1.312E+08 TE-132 5.096E+05 4.96BE+06 7.324E+07 4.287E+07 6.692E+06 1.050E+08 5.272E-04 9.809E+07 I-130 1.136E+06 3.785E+10 I-131 1.192E+07 2.089E+07 1.388E+11 5.034E+09 1.452E+06 1.342E+01 1.816E-57 5.016E+03 I-132 1.144E+05 5.331E+08 I-133 2.152E+06 2.981E+06 9.891E+08 9.336E+01 2.984E+04 5.305E+05 9.491E-11 0.000E+00 4.544E-03 I-134 6.731E+06 I-135 4.480E+05 2.947E+06 2.217E+06 7.644E-15 8.480E+05 8.007E+09 1.345E+10 1.565E+09 1.110E+10 CS-134 1.464E+05 1.702E+08 1.036E+09 4.724E+07 1.675E+08 CS-136 6.208E+05 1.201E+10 1.010E+10 1.193E+09 8.696E+09 CS-137
( 6.208E+02 4.102E+05 1.786E-23 0.000E+00 7.730E-11 CS-138 3.760E+03 1.194E+05 8.322E-08 0.000E+00 5.225E-02 BA-139 1.272E+06 2.346E+07 5.535E+07 5.917E+07 2.646E+0B BA-140 1.936E+03 4.734E+04 2.677E-46 0.000E+00 9.305E-22 BA-141 1.192E+03 5.064E+04 0.000E+00 0.000E+00 2.463E-39 BA-142 4.584E+05 2.180E+07 1.672E+05 1.385E+03 7.327E+07 IA-140 4.999E-01 IA-142 6.328E+03 8.886E+05 3.503E-08 0.000E+00 3.616E+05 1.540E+07 1.253E+07 3.632E+07 5.097E+08 CE-141 2.264E+05 2.627E+06 1.149E+06 5.547E+02 2.758E+07
[ CE-143 7.776E+06 8.032E+07 1.209E+08 4.928E+08 1.112E+10 3-144 2.748E+08 PR-143 2.808E+05 0.000E+00 6.923E+05 9.204E+07 1.016E+03 2.112E+03 6.716E-54 0.000E+00 3.303E-26 h-144 1.853E+08 ND-147 2.208E+05 1.009E+07 5.231E+05 3.935E+07 1.552E+05 2.740E+06 1.796E+06 5.912E+00 1.046E+07 W-187 1.192E+05 1.976E+06 7.385E+04 5.152E+03 2.872E+07 NP-239 Units: Inhalation and all tritium pathways - mrm/yr per tCi/m8 l1 others - m2 . mr m/yr per uCi/sec values based on standard NURDG-0133, Section 5.3.1 asstmptims unless l
otherwise indicated.
(
l l
GRAND GUIE, UNIT 1 2.0-22 Rev.1 - 7/83
TABLE 2.2-3 Q CONTROLLING RECEPTORS, LOCATIONS. AND PATHWAYS l Distance Origin Pathway Age Group (for info only)
Sector (Meters) Miles l N 2100 1.00 Vegetation Infant - garden NNE 1207 0.75 Inha1/Gnd Plane Infant - residence NE 1100 0.50 Vegetation Child - residence 4400 2.50 Vegetation Child - garden ENE E 982 0.61 Inha1/Gnd Plant Adult - residence 7000 4.00 Vegetation Adult - garden 5 ESE SE 3400 2.00 Vegetation Adult - residence SSE 1800 1.00 Inha1/Gnd Plant Adult - residence S 805 0.50 Vegetation Child - hypothetical
- SSW 3218 2.00 Inha1/Gnd Plane Infant - hypothetical SW 1432 0.90 Inha1/Gnd Plane Child - residence WSW 8047 5.00 Cow / Milk Infant - hypothetical W 8047 5.00 Cow / Milk Infant - hypothetical WNW 7242 4.50 Inha1/Gnd Plane Infant - residence NW 8047 5.00 Cow / Milk Infant - hypothetical Child - hypothetical
- 5 NNW 1207 0.75 Vegetation Table based on 1984 Land Use Census 5
- These locations represent MP&L gardens located inside the site boundary.
GRAND GULF, UNIT 1 2.0-23 Rev. 5 - 1/85
O 2.3 Meteorological Model 2.3.1 The atmospheric dispersion for gaseous releases may be 6 calculated using a ground-level, wake-split form of the straight line flow model.
X/Q = atmospheric dispersion (sec/m3 )
2.03 6 k ru 1 Where, r = distance (m) from release point to location of interest 6 = plume depletion factor at distance r from Figure 2.3-1.
u = wind speed at ground level (m/sec) k = open terrain recirculation factor at distance j r, from page 2.0-34
(} I = the lesser of (ca+ 2) % or 4 30 Where, o = verticle standard deviation (m) of the plume at distance r for ground-level relegses under the stability category indicated by T, from Figure 2.3-2.
T = temperature differential with vertical separation
(*K/100m) b = height of the reactor building = 53.3m.
O GRAND GULF, UNIT 1 2.0-24 Rev. 6 - 9/85 J200DCM850829
2.3.2 Relative depositicn per unit area for all releases is
'"~^ calculated for a ground level release as follows:
D/Q = relative deposition per unit area (m )
= 2.55 (Dg) r Where, D = relative deposition rate at distance r for 9
- ground level releases frcrn Figure 2.3-3.
. O O
GWO GLIIE, IMIT 1 2.0-25 Rev. 0 - 8/82
'I
. i
<O taste 2.3-1 ATMOSPHERIC DISPERSION PARAMETERS
- FOR TECHNICAL SPECIFICATIONS 4.11.2.2, 4.11.2.3, 4.11.2.5.1 SECTOR MILES yj DLQ 5
N 1.00 1.164 x 10~0 4.759 x 10-9 MME 0.75 1.129 x 10-0 5.298 x 10-9 NE 0.50 1.520 x 10-6 9.144 x 10~9 f#
ENE 2.50 7.358 x 10-8 4.341 x 10-10 E 0.61 8.618 x 10-7 5.135 x 10~9 ESE 4.00 3.206 x 10-8 1.824 x 10-10 SE 2.00 1.636 x 10~7 8.941 x 10-10 5 SSE 1.00 7.347 x 10-7 3.587 x 10-9 5 0.50 4.057 x 10-6 1.408 x 10-8 SSW 2.00 5.063 x 10~7 1.068 x 10~9 SW 0.90 2.653 x 10-6 4.463 x 10-9 l5 W5W 5.00 3.931 x 10~7 3.177 x 10-10 W 5.00 4.259 x 10~7 3.746 x 10-10 WNW 4.50 3.164 x 10~7 3.739 x 10-10 NW 5.00 1.584 x 10-7 2.733 x 10-10 NNW 0.75 2.199 x 10-6 7.650 x 10~9 5
Reference:
Grand Gulf Nuclear Station, Environmental Report, Table 5 6.1.26, 6.1.28, 6.1.29 andODCMTabie2.2-3.
0 4
GRAND GULF, UNIT 1 2.0-26 Rev. 5 - 1/85
l i
- 2.4 Definitions of Gaseous Effluents Parameters
( b.,..=, height of reactor building (m) (2.3.1) :
C = count rate of the station vent monitor corresponding to grab sanple radionuclide concentrations (2.1.1)
C' = count rate of station vent monitor corresponding to a 1.0 -
uCi/ml concentration of Xe-133 (2.1.2) 3 D = relative deposit 9 Figure 2.3-3 (m {an rate for ground level releases fra
) (2.3.2)
D, = average organ dose rate in current year (mran) (2.2.1.b)
D p
= dose to an individual frm radiciodines and radionuclides in particulate fom, with half-life greater than eight days (mnsn) (2.2.2.b)
D, = average skin dose rate in current year (mram) (2.2.1.a)
Dg = average total body dose rate in current year (mren) l (2. 2.1.a) air dose due to beta enissions fra noble gas radio-Dp = reclide 1 (mrad) (2.2.2.a)
Dy = air dose due to gama enissions fra noble gas radio-
- nuclide 1 (mrad) (2.2.2.a)
D/Q = relative deposition per unit area (m-2) (2.3.2)
CI = pim e depletion factor at distance r for appropriate stability class and effective height fra Figures 2.3-2 and 2.3-3. (2.3.1)
F = fracticn of current year elapsed at time of calculaticn j
(2.1.1) k = open terrain recirculation factor at distance r fra Figure 2.3-1 (2.3.1)
K = total body dose factor for Kr-89, the most restrictive isotope (mren/yr per uCi/m3), fra Table 2.1-1 (2.1.2)
Kg = total body dose factor due to gama enissicms fra isotope 1 (mrm/yr per uCi/mS) from Table 2.1-1 (2.1.1)
O GWO GUIE, IJNIT 1 2.0-27 Rev. 3 - 5/84
l .
i h 2.4 Definitions of Gaseous Effluents parameters (Continued)
= limiting dose rate to the total body based on the limit l
D T8 of500mreminoneyear.(2.1.1)
D = limiting dose rate to the skin based on the limit of ss 3000 mrem in one year. (2.1.1)
L = skin dose factor for Kr-89, the most restrictive isotope (mrem /yr per uti/m3) from Table 2.1-1(2.1.2)
]
! Lg = skin dose factor due to beta emissions from isotope 1 (mrem /yr per uCi/m3) from Table 2.1-1(2.1.1)
M = air dose factor for Kr-89, the most restrictive isotope
> (mrad /yr per uti/m3), from Table 2.1-1(2.1.2)
M = air dose factor due to gama emissions from isotope 1 4
(mrad /yr per uCi/m3) from Table 2.1-1(2.1.1)
Ng = air dose factor due to beta emissions from noble gas radionuclide 1 (mrad /yr per uCi/m3) from Table 2.1-1 (2.2.2.a) 1~
Pg = dose parameter for radionuclide i, (arem/yr per uC1/m3) for inhalation from (m8 mrem /yr per uC1/sec) for other i
pathways, from Table 2.2-1(2.2.1.b) i j Q' g
= rate of release of noble gas radionuclide 1 (uti/sec)
(2.1.1)
= average release rate for the current year (uci/sec) of Q'4 isotope i of tritium, I-131. I-133 or other radionuclide l5 in particulate form, with half-life greater than eight I
! (8) days (2.2.1.b).
1 Qg = cumulative release of radionuclide i of noble gas,
! tritium, I-131, I-133, or material in particulate fom 5 t
over the period of interest (uti) (2.2.2.a) (2.2.2.b)
!1 i
O GRAND GULF, UNIT 1 2.0-28 Rev. 5 - 1/85
~ 2.4 Definitions of Gaseous Effluents Paraneters (Continued) l3
?
Q"' u .U. assigned release rate value of, for exanple,1.0 uti/sec, i Xe-133; related to definition of C' for the vent.
(Note 3) 3 R = dose factor for radionuclide i, (mren/yr per uCi/m8) or f
6n2 mrem /yr per uCi/sec) count rate per mrun/yr to the skin. (2.1.1) 4
=
R, Rt = c unt rate per mrem /yr to the total body. (2.1.1)
R", = conservative count rate per mren/yr to the skin.
(2.1.2)
= c nservative count rate per mren/yr to the total R"t body (Xe-133 detection, Kr-89 dose) . (2.1.2) r = distance $n) fran release point to location of interest for dispersion calculation. (2.3.1) 3 O
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GWO GUIE, INIT 1 2.0-29 Rev. 3 - 5/84
- 2.4 Definitions of Gaseous Effluents Paraneters (Continued) $3 :
Sy , .=m, count rate of station vent noble gas monitor at alarm setpoint level. (2.1.1)
= vertical standard deviation of the pitzne with building wake correction k). (2.3.1)
T = vertical standard deviation b) of the pitzne at distance r for effective height under stability category indicated by T(m) frczn Figure 2.3-2. (2.3.1) e T = taperature differential with vertical separation
('K/100m). (2.3.1) u = wind speed at ground level (m/sec) . (2.3.1)
W = controlling sector annual average atmospheric dispersicm at the site boundary for the appropriate patNay (sec/m8) . (2.2.1.b)
W' = relative concentration for unrestricted areas (sec/m*) .
(2.2.2.b)
X/O = atmos #wric dispersion (sec/m8) (2.3.1)
X3 = highest sector annual average atmospheric dispersion at
,O the unrestricted area boundary (sec/ms ) (2.1.1)
Xl/'= relative concentration for unrestricted areas (sec/m2)
(2.2.2.a) i i
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- - GRAND GULF, UNIT 1 2.0-32 Rev. 0 - 8/82 ,
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I 2.5 Caseous Radaaste Treatwnt System
/ The instruments required to be checked by RETS 3/4.11.2.4 to ensure that the CASEOUS RADWASTE TREATMENT
(.v (Offgas) SYSTEN is functioning are:
- 1. Absorber train bypass switch (IN64-HS M611)
- 2. Bypass valve indication (IN64-F045)
When the absorber train bypass switch is in the TREAT position and the bypass valve indicates closed, the CASEOUS RADWASTE TREATMENT (Offgas) System is functioning.
so aseenman 6A
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- 1. The charcoal beds are bypassed during startup until an adequate dewpoint is obtained in the process stream.
- 2. This pathway may be utilized for power levels 6 5%.
(m g/ 3. During normal operations the demister and filter units (prefilters, charcoal filters and HEPA filters) are not installed in the filter train. However, the filter train is evallable to be operable at a later date when the filter and demister are installed. Taken from Reference 4, Figure 3-8.
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- 4. Standby Ces Treatment System not normally operated.
GRAND GULF, UNIT 1 2.0-35 Rev. 6 - 9/85
........n,nn,.
,O 25 oirect Radiatioa oose "easure= eat Technical Specification 3.11.4 requires the determination of cumu-lative dose contributions to a MEMBER OF THE PUBLIC from direct radiation from the reactor units and from radwaste storage tanks.
This requirement is applicable only under conditions set forth in Specification 3.11.4 Action a. This determination is made by the utilization of direct radiation measurements from thermoluminescent dosimeters (TLDs) M-61 through M-84 located at equidistant intervals on the Unit I protected area fence. Exact locations are defined in Table 3.0-3. Measurements from these TLDs represent the direct radiation generated by the facility plus normal background radiation. 5 Control TLD's are also utilized to differentiate between background O radiation and direct radiation from the factisty. The following seven TLDs are designated as controls based on the criterion that they are located ten miles or greater from the facility. Exact locations are identified in Table 3.0-3.
l l M-06 M-12 M-14 M-39 i
M-11 M-13 M-33 f
i The difference between the averaged quarterly radiation measure-i ments of the protected area TLDs and the control TLDs represents the direct radiation dose to a MEMBER OF THE PUBLIC from the operating facility.
l P
GRAND GULF, UNIT 1 2.0-36 Rev. 5 - 1/85
I l
O 3.0 RADIOLOGICAL ENVIRONMENTAL MONITORING
! Sampling locations as required in Section 3/4.12.1 of the Radiological i Effluent Technical Specification are described in Tables 3.0-1 through 3.0-3 and shown on maps in Figures 3.0-1 through 3.0-3. The types of 6 i
vegetation and fish which are normally available for sampling are j identified in Tables 3.0-4 and 3.0-5 respectively.
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GRAND GULF, UNIT 1 3.0-1 Rev. 6 - 9/85 J200DCM850829
.~ . . _ . . _ - _ _ -_-.-._ _ __. _ _ _ _ _ _ _ . _ _ _ _ _ . ..._ _ _ _.-_ _ _. _ -._ __ - ,_.,_.,
-. . =_ _. . _ _ .____ _ . _ _ _ _ _ _ _ _ _ - . . _ _ - - _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ __
4 ODCM TABLE-3.0-1 f
AIR SAMPLER COLLECTION SITES AIR SAMPLERS 1
NUMBER FIGURE LOCATION i
- AS-1 PG 3.0-3 Southeast of GGNS at the Port Gibson City Barn.
(Sector G Radius 5.5 miles) ,
i AS-2 61N 3.0-2 North Northeast of GGNS, on Hwy 61 South across from the Yokena Church. (Sector B Radius 13 miles) 4
- AS-3 61 VA 3.0-2 North Northeast of GGNS on Hwy 61 south at the Vicksburg Airport. (Sector B Radius 18 miles)
I
- AS-4 GJOE 3.0-1 Southwest of GGNS. Glodjo property on Waterloo Road. (Sector L Radius .9 miles)
AS-5 TC 3.0-1 South of GGNS behind MP&L training center building. (Sector J Radius .4 miles)
- AS-6 RS 3.0-1 Northeast of GGNS, South of Grand Gulf Road. 6
- (Sector C Radius .5 miles) i
- AS-7 MT 3.0-1 North of GGNS, located next to the Meteorological l Tower. (Sector A Radius .8 miles) 1 l
- trailer on Waterloo Road near the Eastern SITE BOUNDARY. (Sector E Radius .5 miles) 1 AS-9 GGMP 3.0-1 North of GGNS, located in Grand Gulf Military
. Park. (Sector A Radius 1.5 miles) i AS-10 NLT 3.0-3 West Northwest of GGNS, located at Newellton, i Louisiana. (Sector P Radius 12.5 miles)
AS-11 STJ 3.0-3 West Southwest of GGNS, located at St. Joseph, Louisiana. (Sector M Radius 13.0 miles) f I
- Technical Specification requirements !
.o .
l GRAND GULF, UNIT 1 3.0-2 Rev. 6 - 9/85 J200DCM850829
. _ _____ _ _____ _ _ _. _ __ ____ _ __ _ _.._ _.~___._,.._.. _ _..___-, _ _ _ .
i L' ODCM TABLT3.0-2 MISCELLANEOUS COLLECTION SITES PAGE 1 of 3 MILK SAMPLES (CONTROL LOCATION)
Ficure Alcorn State University
- 3.0-3 Located Southwest of GGNS.
(SectorKRadius10.5 miles)
Rosco Johnson farm 3.0-3 Located Southeast of GGNS.
(Sector G Radius 9 miles)
Hazetta Warren farm 3.0-3 Located in Louisiana West Northwest of GGNS. (Sector N Radius 8.5 miles)
CISTERN WATER
- 1. Trimble Cistern
- 3.0-4 Located east of GGNS at the Trimble Tenant House. (SectorE Radius .5 mile!)
'O 2. Wiiiis Cistern- 3.0-3 tocated at the C.E. Wiiiis house East Northeast of GGNS across from the Shiloh Baptist Church.
(Sector D Radius 6 miles)
GROUND WATER
- 1. PGWELL* 3.0-4 PORT GIBSON WELL - Taken at Port
- Gibson City Water lift Station.
(SectorGRadius5.0 miles)
- 2. GGMPWELL* 3.0-4 GRAND GULF MILITARY PARK - Taken from faucet at the Grand Gulf Military Park. (Sector A Radius 1.5 miles) l5
- 3. LAKE BRUIN 3.0-3 Taken from faucet at the bath house in Lake Bruin State Park, Louisiana. (Sector M Radius 9.5 miles)
- Technical Specification requirements 5
p
! GRAND GULF, UNIT 1 3,o_3 Rev. 5 - 1/85 t
( ODCM TABLE 3.0-2 (CONTINUED)
Page 2 of 3 SURFACE WATER FIGURE Upstream
- 3.0-1 4500 ft. upstream of the GGNS 6l outfall to allow adequate mixing of the Mississippi and Big Black Rivers. (Sector Q)
Downstream
- 3.0-1 5000 ft. downstream of GGNS outfall, 6l near the most southern radial well.
(Sector N)
Discharge Basin
- 3.0-1 West of GGNS, 0.5 miles, Sector P 6l VEGETATION l
Broad Leaf Vegetation
- 3.0-1 South of GGNS near the old training 6 center (Sector J, 0.4 miles) and l North Northwest of GGNS near the Meteorological Tower (Sector R, 0.7 i miles) 6 NOTE The above locations are gardens maintained by MP&L inside the SITE BOUNDARY in order to provide a more conservative calculation of doses due to the potential ingestion of contam-inated vegetation. These two sam-pling sites exceed the requirements of Technical Specification 3.12.1.
Alcorn State University Southwest of GGNS (Sector X, 10.5 miles)
FISH SAMPLES Commercially or Downstream of the discharge point 6l recreationally important in the Mississippi River species
- Upstream of Discharge Point 6l uninfluenced by Plant Operations.
h
- Technical Specification requirements GRAND GULF, UNIT 1 3.0-3a Rev. 6 - 9/85 J200DCM850829
~
io ODCM TABLE 3.0-2 (CONTINUED)
Page 3 of 3 SEDIMENT SAMPLES
- FIGURE 3.0-1 Collected semiannually during the 6l low water periods of the Tidal Basin - samples taken downstream of the outfall in the vicinity of the boat landing near Hamilton Lake outlet and in the Barge Slip.
(Sector N and Q, 2 miles)
SEDCONT Collected upstream from barge slip at Upper Grand Gulf Landing 6 (Sector R, 2 miles)
,0
- Hamilton Lake outfall is a Technical Specification requirement 6 i
l U(~T GRAND GULF, UNIT 1 3.0-3b Rev. 6 - 9/85 J200DCM850829
I
'i ODCM TABLE 3.0-3 TLD LOCATIONS Page 1 of 6 TLD NO. LOCATION FIGURE SECTOR MILE M-00 Maintained in lead shield - - -
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 6]
P.G. Country Club entrance 3.0-3 H 7.0 M-04 MP&L Pole-Hwy 547 North Side Between Twin Power Poles 3.0-3 G 6.5 6 M-05 50 yards North of Hwy 18 Approximately 5 miles East of U.S. 61 3.0-3 F 9.0 M-06 REA Pole-East of Willows Beyond MMB Church MS Hwy 462 3.0-3 D 10.0 6
- M-07 Port Gibson City Barn AS-1 3.0-3 0 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 Camp 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 Letourneau Hill West Side of Road 3.0-2 B 15.0
- Technical Specification requirements
{])
! GRAND GULF, UNIT 1 3.0-4 Rev. 6 - 9/85 l J200DCM850829
.~ _ _ . - - _ _ . - . _ _ -. _
ODCM l I
b) TABLE 3.0 T TCONTINUED)
TLD LOCATIONS Page 2 of 6 FIGURE SECTOR MILE TLD NO. LOCATION "
- M-14 Hwy 61 AS-3-61VA at Casket 18.0 (CONTROL) Company 3.0-2 8 Barge Slip (South edge) 3.0-1 P 1.5 M-15 3.0-1 A 0.8
- M-16 AS-7 MET Tower 3.0-1 C 0.5 M-17 AS-6-RS Grand Gulf Road
- M-18 Railroad Crossing Eastern 3.0-1 F 0.5 SITE BOUNDARY M-19 Behind Burn Pit on Fence 0.5 at Eastern SITE BOUNDARY 3.0-1 E M-20 Eastern site boundary behind hazardous waste storage area 3.0-1 F 0.5 1
AS-5-TC Training Center 3.0-1 J 0.4 M-21
(} M-22 100 yards south of RR Entrance 0.5 Crossing on West Side 3.0-1 G M-23 County Road / Heavy Haul Road 3.0-1 Q 0.5 50 Yards North on Power Pole Upper Grand Gulf Landing 3.0-1 R 2.2 M-24 3.0-1 N 1.0
- M-25 Hamilton Lake Boat Launch l 3.0-1 N 1.5 M-26 Hamilton Lake Outfall
- M-27 South Point SITE BOUNDARY 1.5 200 Yards along Property Line 3.0-1 M AS-4-Glodjo Residence Glodjo 3.0-1 L 0.9
- M-28 M-29 In sharp curve of Waterloo 1.5 Road to Waterloo Plantation 3.0-1 K
- M-30 Arnold Acres Trailer Park J 1.1 Entrance 3.0-1
- Technical Specification requirements 5 f)
GRAND GULF, UNIT 1 3.0-5 Rev. 5 - 1/85
Q ODCM TABLE 3.0 T TCONTINUED)
TLD LOCATIONS
_Page 3 of 6 TLD NO. LOCATION FIGURE SECTOR *. MILE M-31 Duplicate TLD Installed at designated Site Number - - -
M-32 Duplicate TLD Installed at designated Site Number - - -
- M-33 Newellton, Louisiana Water Tower 3.0-3 P 12.5 M-34 Primary Levee at End of 5 County Road at Point Pleasant, Louisiana 3.0-3 R 8.0 8.0 5 M-35 Mor Landing - Lake Yucatan 3.0-3 Q
- M-36 Curve on 608 Point Nearest GGNS, at Power Pole 3.0-3 P 5.0 M-37 Winter Quarters Home 3.0-3 N 8.0 0 M-38 take 8,uin State Park Second Pole 3.0-3 M 9.5
- M-39 St. Joseph, Louisiana, Aux, Water Tank 3.0-3 M 13.0
- M-40 International Paper Road, Approximately 5 miles from Site 3.0-3 M 5.0 l
- M-41 Heavy Haul Road - J Pipe on Concrete Block 3.0-1 P 1.0
- M-42 Heavy Haul Road 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 requirements 5
l ,
O :
GRAND GULF, UNIT 1 3.0-6 Rev. 5 - 1/85
O TABLE 3.0'TTCONTINUED)
_TLD LOCATIONS Page 4 of 6 TLD NO. LOCATION FIGURE SECTOR . MILE
- M-46 Power Pole Xcross from 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
- 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
- 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
- M-54 Bottom of curve past Arnold's house 3.0-1 G 1.0
- M-55 Behind Bonner's Beauty Shop at MSBH Air Sample 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 Welcome to Port Gibson sign 3.0-3 F 4.5
- M-58 Big Bayou Pierre Bridge 5 Southeast End 3.0-3 E 5.0
- M-59 Off Levee at Winter Quarters Hunting Camp 3.0-3 N 5.1
- Technical Specification requirements
- 5 9
GRAND GULF, UNIT 1 3.0 6a Rev. 5 - 1/85
I I ODCM
( TABLE 3.0 M CONTINUED)
TLD LOCATION 5 Page 5 of 6 4
LOCATION FIGURE SECTOR MILE TLD NO. - -
M-60 Duplicate TLD -
M-61 Protected area fence by the Not vehicle entrance gate Shown P Onsite M-62 Protected area fence North- " "
east corner MP&L parking lot N 5
M-63 Protected area fence middle " "
MP&L parking lot N M-64 Protected area fence South- " "
east corner MP&L parking lot M t
M-65 South protected area fence " "
L
. behind MP&L warehouse M-66 South protected area fence " "
across from cooling tower K O M-67 South protected area fence "
J east end M-68 East protected area fence " "
H across from chlorination tank M-69 East protected area fence near " "
G electric bus M-70 North fence behind turbine b1dg. F 133' railway bay C M-71 133' railway bay B M-72 M-73 Corner of fence outside control "
P b1dg.
- Technical Specification requirements 5
,0 GRAND GULF, UNIT 1 3.0-6b Rev. 5 - 1/85
ODCM TABLE 3.0-3 (CONTINUED)
TLD LOCATIONS Page 6 of 6
, TLD NO. LOCATION FIGURE SECTOR MILE M-74 Midway of North fence Not Shown P Onsite M-75 Corner in fence in front of Maintenance Shop A i M-76 Southeast corner SSW Basins A M-77 Protected area fence beside "
maintenance shop R M-78 Outside vault in Admin. Bldg. Q M-79 Wall in Central Records (middle) Q 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 Tech Support Secretary's office Q M-84 Security Island P M-85 Lee Electric Building Across from Port Gibson High School 3.0-3 G 5.2 6
- 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 from Middle Ground Island 3.0-1 Q 3.5
- M-91 Transmission line by pond 3.0-1 J 4.5
- Technical Specification requirements l GRAND GULF, UNIT 1 3.0-6c Rev. 6 - 9/85 j J200DCM850829
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MIS $lS$1PPI POWER & LIGHT COMPANY COLLECTION SITE LOCATIONS GENERAL AREA MAP GRAND GULF NUCLEAR ST ATION UNITS 1 & 2 FIGURE: 3.0-2 ODCM 3.0-8 Rev. 1 - 7/83
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Q ODCM TABE O .0-4 VEGETATION SAMPLE SOURCES This table identifies the common names of vegetation sources which are ,
nomally available for broadleaf vegetation sampling as required by .
Technical Specification 3.12.1; however, this list is not considered all inclusive.
Beets Mustard greens Box elder Oak Brocccli Pear Cabbage Peas Cauliflower Pecans Clover (red and white) Poplar Co11ards Potato
> Corn Radishes Cottonwood Rape 5 Cucumbers Rhubarb Elephant ears Skunk cabbage Honeysuckle Soy beans Johnson grass Spinach Kale Squash Kudzu Turnip greens Lettuce Vetch Magnolia Watennelon 4
r Mayapple i
O GRAND GULF, UNIT 1 3.0-10 Rev. 5 - 1/85
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(([]) FISH SAMPLE SOURCES This table identifies the common names of fish sources which are '
normally available for sampling as required by Technical Specification 3.12.1; however, the list is not considered all inclusive. 5 Black bass Gar Bream Sturgeon
- Buffalo White bass Catfish White perch
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Rev. 5 -
GRAND GULF, UNIT 1 3.0-11 1/85
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