To Offsite Dose Calculation Manual

ML20040E996
Person / Time
Site:	San Onofre
Issue date:	01/29/1982
From:	SOUTHERN CALIFORNIA EDISON CO.
To:
Shared Package
ML13323A228	List: ML13323A227 ML20040E996
References
PROC-820129, NUDOCS 8202080184
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- 0FFSITE DOSE CALCULATION MANUAL f

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Rev. 4 1-29,

8202080184 820204 PDR ADOCK 05000361 A

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ODCM TABLE OF CONTENTS Page LIST OF FIGURES......................................................

ii LIST OF TABLES.......................................................

iii INTRODUCTION iv 1.0 LIQUID EFFLUENTS 1.1 Liquid Effluent Monitor Setpoints.......................

1-1 1.1.1 Batch Release Setpoint Determination......

6.....

1-2 1.1.2 Continuous Release Setpoint Determination.......

1-8 1.2 Dose Calculations for Liquid Effluents................... 1-16 13 Representative Sampling................................... 1-19 2.0 GASEOUS EFFLUENTS 2.1 Gaseous Effluent Monitor Setpoints......................

2-1 2.1.1 Plant Stack.....................................

2-1 2.1.2 Condencer Evacuation System.....................

2-2 2.1 3 Containment Purge............................... 2-3 2.1.4 Waste Gas Header.................................

2-5 2.2 Gaseous Effluent Dose Rate.............................. 2-28 2.2.1 N o b l e G a s e s.....................................

2-28 2.2.2 Radioiodines and Particulates................... 2-29 2.3 Gaseous Ef fluent Dose Calculation....................... 2-31 2 3.1 Noble Gases..................................... 2-31 2 3 1.1 Historical Meteorology................ 2-31 2 3 1.2 Concurrent Meteorology................ 2-32 2.3 2 Radioiodines and Particulates...................

2-34 2 3 2.1 Historical Meteorology................ 2-34 2 3 2.2 Concurrent Meteorology................

2-36 30 PROJECTED DOSES................................................

3-1 3.1 Liqu id Dos e Proj ection...................................

3-1 3.2 G a s eous Dose Pr oj e ction..................................

3-1 4.0 OP E R A BI L ITY OF EQ UI PM EN T.......................................

4-1 5.0 R ADIOLOGICAL EN VIRON M EN TAL H ON ITORING..........................

5-1 i

Rev. 4 1-29-82

ODCM LIST OF FIGURES Figure Title' Page 1-1 Calibration Curve for the Radwaste Discharge Line M on i t or ( 2 / 3 RT-7 813 )...................................

1-13 1-2 Calibration Curve for the Neutralization Sump Discharge Monitor (2RT-7817)......................................

1-14 1-3 Calibration Curve for the Turbine Plant Area Sump M on i t o r ( 2 RT-7 8 21 )......................................

1-15 2-1 Calibration Curves for the Plant Stack Airborne 2-9 thru Monitor (2/3 RT-7808)...................................

2-11 2-2 Calibration Curves for the Containment Purge 2-12 thru and Plant Vent Stack Wide Range Monitor (2RT-7865-1).... 2-14

(

2-3 Calibration Curves for the Containment Purge 2-15 thru and Plant Vent Stack Wide Range Monitor (3RT-7865-1)....

2-17 2-4 Calibration Curve for the Condenser Air Ejector 2-18 and Gas Monitor (2RT-7818)..................................

2-19 2-5 Calibration Curves for the Condenser Air Ejector 2-20 thru Wide Range Monitor (2RT-7870-1).........................

2-22 2-6 Calibration Curves for the Containment Airborne 2-23 thru Monitor (2RT-7804-1)....................................

2-25 2-7 Calibration Curve for the Waste Gas Header Monito7 2-26 and (2/3 RT-7814)...........................................

2-27 4-1 SONGS 2&3 Radioactive Liquid Waste Treatment Systems...

4-2 4-2 SONGS 2&3 Radioactive Gaseous Waste Treatment Systems..

4-3 4-3 SONGS 2&3 Solid Waste Handling.........................

4-4 5-1A Terrestrial Radiological Environmental Monitoring Points...................................... 5-8 5-1B Terrestrial Monitoring Radiological Environmental l

Monitoring Program......................................

5-9 i

5-2 Control Stations for the Radiological Environmental Monitoring Program....................... 5-10 5-3 Oceanographic Monitoring for the Radiological Environmental Monitoring Program....................... 5-11 ii Rev. 4 1-29-82 l

ODCM LIST OF TABLES Table Title Page 1-1 Dose Commitment Factors Ai<V............................

1-18 2-1 Dose Factors for Noble Gas and Daughters............... 2-39 2-2 Dose Parameters Pik.................................... 2-40 1

2-3 controlling Location Factors........................... 2-41 for WNW Sector...................... 2-42 thru 2-4 Dose Parameters Ri 2-44 2-45 thru 2-5 Dose Parameters Ri for }iW Sector 2-48 for NNW Sector 2-49 thru 2-6 Dose Paramcter Ri 2-52 i f or }i Se c t or......................... 2-53 2-7 Dose Parameter R 2-8 Dose Parameter Ri for NN E Sec tor....................... 2-54 2-9 Dose Parameter Ri for!@_ Sector 2-55 2-10 Dose Parameter R for EN E Se c t or....................... 2-56 i

2-11 Dose Parameter Ri for E, Sector 2-57 2-12 Dose Parameter R for ES E Sec t or....................... 2-58 thru i

2-59 2-60 2-13 Parameters used to calculate Ri........................

5-1 Radiological Environmental Monitoring 5-2 thru Sample Locations.......................................

5-7 i

I iii Rev. 4 1-29-82

INTRODUCTION The OFFSITE DOSE CALCULATION MANUAL is a supporting document of the RADIOLOGICAL EFFLUENT TECHNICAL SPECIFICATIONS (NUREG 0472).

The ODCM describes the methodology and parameters to be used in the calculation of offsite doses due to radioactive liquid and gaseous effluents.

It also calculates the liquid and gaseous effluent monitoring instrumentation alarm / trip setpoints. The ODCM contains a list of the sample locations for the radiological environmental monitoring pro 6 ram.

The ODCM will be maintained at the Station for use es a document of acceptable methodologies and calculations to be used in implementing the technical specification.

Changes in the calculational methods or parameters will be incorporated into the ODCM in order to assure that the ODCM represents the present methodology.

Rev. 4 1-29-82

1.0 LIQUID EFFLUENTS 1.1 Liquid Effluent Monitor Setpoints (3.11.1.1)

Liquid Radwaste Effluent Line Monitors provide alarm and automatic termination of release prior to exceeding the concentration limits spec!fied in 10CFR20, Appendix B. Table II, Column 2 at the release point to the unrestricted area. To meet this specification and for the purpose of implementation of specification 3.11.1.1, the alarm / trip setpoints for liquid effluent monitors and flow measurement devices are set to assure that the following equation is satisfied:

cR 4 g (j_j)

F+R where:

C=

the effluent concentration limit implementing 10CFR20 for the site, in uCi/ml.

c=

the setpoint, representative of a radioactivity concentration in uCi/ml, of the radioactivity monitor measuring the radioactivity in the waste effluent line prior to dilution and subsequent release.

Rev. 4 1-29-82

i R=

the permissible waste effluent flow rate at the radiation monitor location, in volume per unit time in the same units as for F.

F=

the dilution water flow in volume per unit time. The available dilution water flow (F) is constant.

207,500 gpm/ pump (x no. of cire pumps to be run)

=

1.1.1 Batch Release Setpoint Determination The waste flow (R) and monitor setpoint (c) are set to meet the condition of equation (1-1) for a given effluent cancentration, C.

The method by which this is accomp-lished is as follows:

Step 1) The isotopic concentration for each batch tank j

(or sump) to be released is obtained from the sum of the measured concentrations in the tank (or sump) as determined by analysis.

g gg+ C, + C, + Ct+C, (1-2)

C C=I p

Where:

C = The total concentration 1

i l

l 1-2 Rev. 4 1-29-82 l

gCyg = The concentration for each radionuclide, i, in the gamma spectrum.

The Fe-55 concentration as determined in the Fe =

previous quarterly composite sample.

C, =

The gross alpha concentration determined in the previous monthly composite sample.

The Sr-89 and Sr-90 concentrations as determiced C =

3 in the previous quarterly composite sample.

Ct=

The H-3 concentration as determined in the previous monthly composite sample.

Step 2) The adjustment factor, A, for each batch tank (or sump) is determined using:

1 A=

Ig

+C

+

C

+ C,

+C, (1-3) 3 t

p MPC

MPC, MPC MPC MPC,

g t

p the limiting concentrations of the appropriate MPC gi, MPC, MPC.

=

3 t

HFCpe, MPC a radionuclide from 10CFR20 Appendix B Table II, l

Column 2.

For dissolved or entrained noble gases, the concentration shall be limited to 2.0 E-4pCi/nt total activity.

1 E

Rev. 4 1-29-82 i

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4 Step 3) The radioactivity monitor setpoint may now be

~

specified based on the values of I;Cgg, F. A and R to provide compliance with the limits of 10CFR20, Appendix B. Table II, Column 2.

The monitor setpoint (cpm) is taken from the applicable calibration curve (Figure 1-1 for 2/3 RT-7813, Figure Iw2 for 2RT-7817) to correspond to the calculated monitor limit C,.

2/3 RT - 7813

.8 F C m' R A) +R A2 +... +R A

3 2

Where:

C,rp Effective gamma isotopic concentration at the

=

monitor for the tank combination to be released l

(equal to I C for single tank releases).

yg 1

(

j QCgg)) +R2 qCyg)2 +...+Rn qC31)n R

(1-5)

R3+R2+****En l

(ECy ) 3, O'Cg)2, etc. = The total gamma isotopic l

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l concentration of first tank, second tank, etc.

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Rev. 4 1-29-82 l

R, R, etc. = The effluent flow rate from first tank, j

p second tank, etc.

Values of R for each tank are as follows:

Radwaste primary tanks R = 140 gpm/ pump (x no. of pumps to be run)

Radwate secondary tanks R = 140 gpm/ pump (x no. of pumps to be run)

Primary plant makeup tanks R = 160 gpm/ pump (x no. of pumps to be run)

Condensate monitor tanks R = 100 gpm/ pump (x no. of pumps to be run)

A, A, etc. = Value of A from equation (1-3) for first 3

2 tank, second tank, etc.

The.8 is an administrative value used to account for the potential activity for other releases.

This assures that the total concentration from all release points to the plant discharge will not result in a release of concentrations exceeding the limits of 10CFR20, Appendix B.

Table II, Column 2 from the site.

1-5 Rev. 4 1-29-82

NOTE:

If equation (1-4) is not satisfied, then increase dilution flow F (by running more circulating water pumps in the applicable discharge structure), and/or decrease the effluent flow rates Rj, R '

2 etc. (by throttling the combined flow as measured on 2/3 FI-7643), and recalculate C, using the new F. R and equation (1-4).

If there is no release associated with this monitor, the monitor setpoint should be established as close to background as practical to prevent spurious alarms and yet assure an alarm should an inadvertant release occur.

2RT - 7817

.1 F qCgg (1-6)

C, <

gg l

l I

l 1-6 Rev. 4 1-29-82

Where:

and A (as defined ECyg, A

=

The values of qCyg i

in Steps 1) and 2) above) for the neutralization sump. R = 400 gpm/ pump (x no. of sump pumps to be run).

The.1 is an administrative value used to account for the potential activity from other releases. This assures that the total concentration from all release points to the plant discharge will not result in a release of concentrations exceeding the limits of 10CFR20, Appendix B. Table II, Column 2 from the site.

NOTE:

If equation (1-6) is not satisfied, increase dilution flow F (by running more circulating water pumps), ana/or decrease the effluent flow rate R (by throttling the flow as measured on 2FI 3772), and recalculate C using the m

new F. R and equation (1-6).

~I Rev. 4 1-29-82

If there is no release associated with this monitor, the monitor setpoint should be established as close to background as practical to prevent spurious alarms and yet assure an alarm should an inadvertant release occur.

1.1.2 Continuous Release Setpoint Determination Step 1) The isotopic concentratio'n for the continuous releases are obtained for each release stream (steam generator blowdown or turbine building sump) from the sum of the respective measured concentrations as determined by analysis:

+C, (1-7)

C=(Cg g + C, + Ct+

s f

where:

4 gi =

the total gamma activity ( p C1/cc) associated C

with each radionuclide, i, in the weekly composite analysis for the release stream.

C, =

The total measured gross alpha concentration (pCi/cc) determined from the previous monthly composite analysis for the release stream.

~

Rev. 4 1-29-82

C,=

The total Fe-55 concentration as determined in y

the previous quarterly composite sample for the release stream, i

Ct=

the total measured H-3 connentration (pci/cc) determined from the previous monthly composite analysis for the release stream.

C =

the total measured concentration (pCi/cc) of 3

i Sr-89 and Sr-90 as determined from the previous quarterly composite analysis for the release stream.

Step 2) The adjustment factor, B, for each release stream (steam generator blowdown or turbine building sump) is determined using:

+

C

+

C

+

(l~0 yg 3

t b2 B=

C Fe MPC

MFC, MPC MPqg MPC t

Fe

~

l 1-9 Rev. 4 1-29-82

~_

Step 3) The setpoint for each continuous release radioactivity monitor may now be specified based on the respective values of (Cyg, F B and R to provide compliance with the limits of 10CFR50, Appendix B. Table II, Column 2.

The monitor setpoint (cpm) is taken from the applicable calibration curve (Figure 1-2 for 2RT-7817 and Figure 1-3 for 2RT-7821) to correspond to the calculated monitor limit, C,.

2RT - 7817 C, <

.1 qC i (j_g) g RB Where:

I C gg, B = values of IC and B (as defined in g1 i

i Steps 1 and 2 above) for the steam generator blowdown.

R = 400 gpm where R is the effluent flow rate at the radiation monitor as defined in Step 2.

1-10 Rev. 4 1-29-82

The.1 is an administrative value to account for the potential activity in other release pathways. This assures that the total concentration from all release points to the plant discharge will not result in a release of concentrations exceeding the limits of 10CFR20, Appendix B. Table II, Column 2 from the site.

NOTE:

If equation (1-9) is not satisfied, then increase the dilution flow F (by running more circulating water pumps), and/or decrease the effluent flow rate R (by throttling the flow as measured on 2FI-3772), and recalculate C, using the new values of F. R and equation (1-9).

2RT - 7821

.1 F Q Cgg C <

(1-10)

RB Where:

gg, B =

values of IC and B (as defined in IC gg i

i steps 1) and 2) above) for the turbine building sump R

= 50 gpm/ pump (x no. sump pumps to be run)

'~ '

Rev. 4 1-29-82 l

The.1 is an administrative value to account for the potential activity in other release pathways. This assures that the total concentration from all release points to the plant discharge will not result in a release of concentrations exceeding the limits of 10CFR20, Appendix B. Table II, Column 2 from the site.

NOTE:

If equation (1-10) is not satisfied, increase the dilution flow F (by running more i

circulating water pumps) and recalculate C, using the new value of F and equation (1-10).

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1.2 Dose Calculation for Liquid Effluents (3 11.1.2) The dose commitment to an individual from radioactive materials in liquid effluents released to unrestricted areas are calculated for the purpose of implementing Specification 3 11.1.2 using the following expression. D,7 = E ( A f G$t C ) F )] (1-9) g g g j g j where: Agg = the site related adult ingestion dose committment factor to the total body or an organ, 7", for each identified principal gamma and beta emitter, i, from Table 1-1 in mrem /hr per pCi/ml. gg = the average concentration of radionuclide, i, C in the undiluted liquid effluent during time period. At inpCi/ml. j the dose commitment to the total body or an Dy = l

organ, 7,

from the liquid effluents for the time period, At), in mrem. i ~0 Rev. 4 1-29-82

Fj = the near field average dilution factor for Ci1 during the time period. A t). This facter is the ratio of the maximum undiluted liquid waste flow during time period. At, to the average j flow from the site discharge structure to unrestricted receiving waters or , maximum liquid radioactive waste flow discharge structure exit flow th At= the length of the I time period over which j C11 and Fj are averaged for all liquid releases, in hours. '~'I Rev. 4 1-29-82

TABLE 1-1 DOSE COHn1ENT FACIMS, Ag (nrerrAr per pCi/ml) Radio-Total GI-Ntelid Body Bone Liver 'Ihyroid Kidney big Ill H-3 2.80 E-1 2.80 E-1 2.80 E-1 2.80 E-1 2.80 E-1 2.80 E-1 P - 32 6.46 E45 1.67 E+7 1.04 E46 1.88 E46 0 - 51 5.60 3.30 1.20 7.40 1.40 E+3 m - 52 1.35 E+3 7.08 E+3 2.11 E+3 2.17 E4 re - 55 8.24 E+3 5.12 EA 3.53 E4 1.97 E4 2.03 E d Fe - 59 7.27 E4 8.07 EA 1.90 E45 5.30 E4 6.23 E45 Q) - 58 1.35 E+3 6.04 E42 1.22 E d Co - 60 3.83 E+3 1.74 E+3 3.26 E4 Zn - 65 2.32 E+5 1.61 E+5 5.13 E+5 3.43 E+5 3.23 E+5 Rb - 86 3.02 E+2 6.48 E+2 1.28 E+2 Sr - 89 1.43 E+2 4.99 E+3 8.00 E+2 Sr - 90 3.01 E4 1.23 E+5 3.55 E+3 91 2.38 8.90 E+1 4.90 E4 Y Zr - 95 3.47 1.60 E+1 5.12 8.03 1.62 E4 Zr - 97 8.14 E-2 8.80 E-1 1.80 E+1 2.70 E-1 5.51 E4 Nb - 95 1.34 E42 4.48 E+2 2.49 E42 2.46 E42 1.51 E46 m - 99 2,44 E+1 1.28 E42 2.90 E+2 2.97 E42 Ru - 103 4.61 E+1 1.07 E42 4.08 E42 1.25 E4 Ru - 106 2.01 E42 1.59 E+3 3.07 E+3 1.03 E+5 Ag - 110m 8.61 E+2 1.57 E+3 1.45 E+3

2. 5 E+3 5.91 E+5 Sb - 124 1.10 E42 2.77 E+2 5.23 6.70 E-1 7.85 E+3 Sb - 125 4.42 E+1 2.20 E+2 2.37 2.00 E-1 2.30 E4 1.94 E+3 Te - 125m 2.91 E+1 2.17 E42 7.87 E+1 6.54 E+1 8.84 E42 8.68 E42 Te - 127m 6.69 E+1 5.49 E42 1.%

E42 1.40 E42 2.23 E+3 1.84 E+3 Te - 129m 1.48 E42 9.33 E+2 3.48 E42 3.20 E42 3.89 E+3 4.67 E+3 Te - 131m 5.72 E+1 1.40 E42 6.88 E+1 1.09 E42 6.95 E42 6.81 E+3 Te - 132 1.24 E+2 2.40 E+2 1.32 E42 1.46 E42 1.27 E+3 6.25 E+3 I - 131 1.79 E+2 2.18 E42 3.12 E+2 1.02 E45 5.36 E42 8.24 E+1 I - 133 3.95 E+1 7.46 E+1 1.30 E42 1.91 E4 2.26 E+2 1.17 E+2 Cs - 134 1.33 E4 6.84 E+3 1.63 E4 5.27 E+3 1.75 E+3 2.85 E42 Cs - 136 2.04 E+3 7.16 E+2 2.83 E+3 1.57 E+3 2.16 E42 3.21 E+2 Cs - 137 7.85 E+3 8.77 E+3 1.20 E+4 4.07 E+3 1.35 E+3 2.32 E+2 BB - 140 1.08 E+2 1.65 E+3 2.07 7.00 E-1 1.18 3.39 E+3 la - 140 2.10 E-1 1.58 8.00 E-1 5.84 Ed Ce - 141 2.60 E-1 3.43 2.32 1.08 8.86 E+3 Ce - 143 4.94 E-2 6.00 E-1 4.47 E-2 2.00 E-1 1.67 E4 Ce - 144 9.59 1.99 E+2 7.47 E+1 4.43 E+1 6.04 E4 Np - 239

1. R E-3 3.53 E-2 3.47 E-3 1.08 E-2 7.13 E42

-I0 Rev. 4 1-29-82

1.3 Representative Sampling Prior to sampling of a batch release, each batch shall be thoroughly mixed to assure representative sampling. The methodology for mixing and sampling is described in S023 III - 5.4.1 Liquid Radwaste Sampling. i I j ) l Rev. 4 i 1-29-82 e-- --m+ w-a#. ...,,,*w ,,m.. y r-,. p.. -p. --s, m y -p p r-

c 2.0 GASEOUS EFFLUENTS 2.1 Gaseous Effluent Monitor Setpoints (3.11.2.1) 2.1.1 Plant Stack - 2/3RT - 7808, 2RT-7865-1, 3RT-7865-1 For the purpose of implementation of Specification 3 11.2.1, the alarm setpoint level for noble gas monitors is based on the gaseous effluent flow rate and meteorological dispersion frctor. The concentration at the detector is determined by using: MP C< (.45) (2120) (-' (xjg) (fy w rate) where: C = the instantaneous concentration at the detector in pCi/cc l MPC = the 10CFR Part 20 concentration for the limiting l l radionuclide present in sample analysis in pCi/cc l (i.e., smallest MPC) l flow rate = the plant vent flow rate in cfm l = 83,000 cfm/ fan (x no. of fans to be run) I l Rev. 4 1-29-82

(X/Q) = 2.4 E-5 sec/m3 the annual average atmosphere dispersion 2120 = conversion of cfh to m3f3ec 45 is.an administrative value used to account for potential activity from other gaseous release pathways The alarm setting is determined by using the calibration curve for the applicable Plant Stack Airborne Monitor (Figure 2-1 for 2/3RT-7808, Figure 2-2 for 2RT-7865-1 and Figure 2-3 for 3RT-7865-1). The alarm setpoint is the opm value corresponding to the concentration, C, which is conservatively assumed to be the isotope of greatest sensitivity for the monitor. 2.1.2 Condenser Evacuation System - 2RT - 7818 or 2RT - 7870-1 For the purpose of implementation of Specification 3.11.2.1, the alarm setpoint level for noble gas monitors is based on the gaseous effluent flow rate and meteorological dispersion factor. The concentration at the detector is determined by using: ~ (X/Q) f ow rate) where: C = the instantaneous concentration at the detector in pCi/cc ~ Rev. 4 1-29-82

HPC = the 10CFR Part 20 concentration for the limiting radionuclide present in sample analysis in yCi/cc (i.e., smallest HPC) flow rate = the condenser evacuation system flow rate in cfm = 1,000 cfh (X/Q) = 2.4 E-5 sec/m3 the annual average atmosphere dispersion 2120 = conversion of com to m3f3,c .1 is an administrative value used to account for potential activity from other gaseous release pathways. The alarm setting is determined by using the calibration curve for the corresponding Condenser Evacuation System Honitor. The alarm setpoint is the cpm value corresponding to the concentration, C, which is conservatively assumed to be the isotope of greatest sensitivity for the monitor. 2.1.3 Containment Purge - 2RT - 7804-1 For the purpose of implementation of Specification 3.11.2.1, the alarm setpoint level for noble gas monitors 1 is based on the gaseous effluent flow rate and meteorological dispersion factor. 2-3 Rev. 4 1-29-82 i

The concentration at the detector is determined by using: (2-3) (X/Q) flow rate) where: C = the instantaneous concentration at the detector in yCi/cc MPC = the 10CFR Part 20 concentration for the limiting radionuclide present in sample analysis in p Ci/cc. (i.e., smallest MPC) flow rate = the containment purge flow rate in cfm = 40,000 cfm full purge = 2,000 cfm mini purge (X/Q) = 2.4 E-5 sec/m3 the annual average atmosphere dispersion 212C = conversion of cfm to m3/sec 45 is an administrative value used to account for potential activity from other gaseous release pathways. The alarm setting is determined by using the calibration curve for the Containment Airborne Monitor, Figure 2-6. The alarm setpoint is the epm value corresponding to the concentration, C, which is conservatively assumed to be the isotope of greatest sensitivity for the monitor. 2-4 Rev. 4 1-29-82

i ) 2.1.4 Waste Gas Header - 2/3 RT-7814, 2/3 RT-7808 For the purpose of Specification 3.11.2.1. the alarm setpoint level for noble gas monitors is based on the gaseous effluent flow rate and meteorological dispersion factor. Since the waste gas header discharges to the plant vent stack, either 2/3 kT-7814 or 2/3 RT-7808 may be used to monitor waste gas header releases. 2/3 RT-7808 When plant vent stack monitor 2/3 RT-7808 is being used to monitor waste gas header releases, the setpoint determined by equation (2-1) will provide automatic termination of release from the waste gas header. NOTE: If equation (2-1) is not satisfied, then decrease the waste gas header effluent flow rate in accordance with the following: .9) C F Faf (I (2-4) C i gg Where: f = waste gas header effluent flow rate F = plant vent stack flow rate used in equation (2-1) 2-5 g,,, y 1-29-82

~ F. g Cyg = total gamma activity ( pCi/cc) of the waste gas holdup tank to be released, as determined from the pre-release sample analysis. The.9 is an administrative value to account for the potential activity from other releases in the same release pathway. 2/3 RT-7814 (fyowrate) PC C 6 (.9) (.45) (2120) (2-5) {g,q) Where: C = the instantaneous concentration at the detector in fC1/cc MPC = the 10CFR20 concentration for the limiting radionuclide present in the sample analysis in pCi/cc (i.e., smallest HPC) flow rate = the waste gas header flow rate in cfm = 50 cfm (X/Q) = 2.4 E-5 sec/m3, the annual average atmosphere dispersion 3 2120 = conversion of cfm to m f3,e The.45 is an administrative value to account for potential activity from other release pathways. ~ Rev. 4 1-29-82

\\ The.9 is an administrative value to account for potential activity from other gaseous releases in the same release pathway. The alarm setting is determined by using the calibration curve for the Waste Gas Header Monitor, Figure 2-7..The alarm setpoint is the cpm value corresponding to the cdncentration, C, which is conservatively assumed to be the isotope of-greatest sensitivity for the monitor. NOTE: If equation (2-5) is not satisfied, determine the permissible waste gas effuent flow rate by using: (.9) (.45) (2120) MPC (flow rate =- (2-6) E C i yg 1 Where: flow rate = the maximum permissible waste gas effluent flow rate in efm 9,.45, 2120, MPC are de'ff ned in equation (2-5) l i 4Cgg= total gamma activity (fCi/cc) of the waste gas holdup tank 1 to be released, os determined from the pre-released sample analysis. l l Recalculate the monitor setpoint using the new flow rate and equation (2-5). l 2-7 g,,, y 1-29-82 s

\\ If there is no release associated with this monitor, the monitor setpoint should be established as close as practical to background to Prevent spurious alarms and yet assure an elarm should an inadvertant release occur. 1 4 i a d t l 7 I I 2-8 Rev. 1-29-82 4 e i i

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1 g LOGARITHMIC 3 = 5 CYCLES [ [ MEurrtL 6 Es5Em to==os.= v s e + CALIBRATION CURVE FDR 'IHE OIDENSER AIR EJECIOR WIDE RANGE FWI'IOR (2RI'-7870-1) MID RANGE 1 2 3 4 5 67891 1 2 3 4 5 6 789 1 2 3 4 5 6789 1 2 3 4 5 6 799 6 I 2 3 4 S 6 789 ,1 + w ', + r. y 1 - I' A' 'M ~. I~ 'l Ij B m i- . f' .f y-i qa. ti: 4

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t./g LOGARITHMIC 3 = 5 CYCLES ( ' O Ein MEUFFEL & ES*sER CD

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'Sg:lir gag-M:jgj7.[ [ ~ }.{ .; := =. Jg gp.; :e. :... = 7,_,._- __-

x =.=.5

=,_=.=.

-:_= _ m--= :. z= :y=,;t=_..:= q.. q. =3 7q...

= ;==

... =.. =. _:y:=. ..=t..y=_c :. :nm.... ~ .=...== = .== .g = . n= _ - - -. - +... - -- ... -, _ _ * *. _,-....,r_ i.

H+

r=pr. --- : t

x; :: rM d- "-i :-..,. _.. #-

}-.+...4 g _ g ~' t ~ p._ . _j rp r ..~.~.1.. _. _. ' =. -. + t g 9. .2 e';'.! i i f s_ t- + i. + i

NOTE,

/.t

=y

y_ +. - m .iW. %= 2 m. a.'N 5- 'N WEN 8 2 ~ i b5N' = N9' E# Ebr interim use only - not

if. ii:

n.. iq=h., a sp.

,=.p. u i.4i.a..li...:q. a

m. i.=m =..s. irai-. e+s..

m. i=.

= a_ g, m a per Regulatory Guide 4.15 n .t 2 & a '_..p p.. = m .. T $ _ 1 9 .? I Rev. 1, February 1979 N iiim=: M_ .. /_= Y. .c 1 5 N E ,, Sih:m

45: +

!!= ! w a E=sa

is F=ir-==E2#. ii=

.. _m....

= v. . 7 4 ~'!-f . 2.'M'! T * *;' b'j ~^I'~ ~~ ' C.^ U - ~

• 1'-~ **.1~Z2 7'!Mh_.,!!

w.7+r-- +. f. y 4+ .-,+

g..

1,- l e .w.. .e p /~ ' i i I r e a a f I a t t i e 1 i f I I t it t f T I M g g3 y* Activity pCi/cc /O' e< N=f3* Figure 2-7b

2.2 Gaseous Effluents Dose Rate (3 11.2.1) The methodology used for the purpose of implementation of Specification 3 11.2.1 for the dose rate above background to an individual in an unrestricted area is calculated by using the following expressions: 2.2.1 For noble gases: s DTB *I Ei i II'Q) ~I i =( ((L1 + 1.1M ) (1/Q) 6 (2-8) D g 1 3 i where: Ki = the total body dose factor due to gamma emissions for each identified noble gas radionuclide, in 3 mrem /yr per pCi/m from Table 2-1 Li = skin dose factor due to the beta emissions for each identified noble gas radionuclide in mrem /yr per 3 fCi/m from Table 2-1. l i ~ 2-28 Rev. 4 1-29-82 w

Hi = the air dose factor due to gamma emissions for each identified noble gas radionuclide, in mrad /yr per 3 PCi/m from Table 2-1. (Unit conversion constant of 1.1 mrem / mrad converts air dose to skin dose.) 6 = the release rate of radionuclide, i, in gaseous 1 effluents in f i/sec = 2.4 E-5 sec/m3 The highest calculated annual average relative concentration for any area at or beyond the unrestricted area boundary DTB = total body dose rate in unrestricted areas due to radioactive materials released in gaseous effluents, in mrem /yr D = skin dose rate in unrestricted areas due to 3 radioactive materials released in gaseous effluents, in mrem /yr 1 2.2.2 For all radiciodines, radioactive materials in particulate form, and radionuclides other than noble gases with half lives greater than eight days: Do= 1 (I P k] 0 (2-9) ik 1 i k 2-29 Rev. 4 1-29-82

where: Do = organ dose rate in unrestricted areas due to radioactive materials released in gaseous effluents, in mrem /yr

• Q = the release rate of radionuclide, i, in gaseous 1

effluents in yCi/see I Pik = the dose parameter for radionuclide, i, for pathway, k, from Table 2-2 for the inhalation pathway in 3 mrem /yr per p Ci/m and for the food and ground plane pathway in m -mrem /yr per y Ci/sec. The dose factors are based on the critical individual organ and the infant age group. Wk = the highest calculated annual average dispersion parameter for estimating the dose to an individual at or beyond the unrestricted area boundary for pathway at, k. 3 = 2.3 E-5 sec/m for the inhalation pathway. l The location is the unrestricted area in the NNW sector. = 1. 5 E-7 m-2 for the food and ground plane pathways. The location is the unrestricted area in the ESE sector. 2-30 Sev. 4 1-29-82

2.3 Gaseous Effluent Dose Calculation 2.3.1 Dose from Noble Gases in Gaseous Effluent (3.11. 2. 2 ) The air dose in unrestricted areas due to noble gases released in gaseous effluents is calculated using the following expressions: 2.3.1.1 For historical methodology: -8 3.17 x 10 I H ( (X/Q) Q ) (2-10) D = g ( (X/Q) Q ) (2-11) D a 3.17 x 10 I N g g i where: D = the total projected gamma air dose from gaseous effluents, in mrad Dg= the total projected beta air dose from gaseous effluents, in mrad 2-31 Rev. 4 1-29-82

Hg= the air dose factor due to gamma emis-sions for each identified noble gas radionuclide, i, in mrad /yr per 3 pC1/m in Table 2-1 N = the air dose due to beta emis-g ssions for each identified noble radionuclide, i, in mrad /yr per 3 pCi/m from Table 2-1 (X/Q) = 2.4 E-5 sec/m. The highest calculated annual average relative concentration for any area at or beyond the unre-stricted area boundary. Q1= the amount of noble gas radionuclide, i, released in gaseous effluents in pCi. 2.3.1.2 For meteorology concurrent with release: D = 1.14x10- I M (I B tj (X/Q) Q )) (2-12) 0 D = 1.14x10-N IN (I B tj (X/Q) Q +f (2-13) i gg i j + 2-32 Rev. 4 1-29-82

Where: D = the total gamma air dose from gaseous g effluents in sector.0, in mrad ~ ^ DSO = the total beta air. dose from gaseous effluents sector 0, in mrad Mg= the air dose factor due to gamma emis-sions for each identified noble gas radionuclide, i, in mrad /yr per 3 u Ci/m from Table 2-1 N the air dose factor due to beta emissions g= for each identified noble gas radionuclide, i, in mrad /yr per pCi/m from Table 2-1 A t) = the length of the hh time period over which (X/Q) and Q are averaged JB ij for gaseous releases in hours 2-33 Rev. 4 1-29-82

(X /Q))g the atmospheric dispersion factor for = time period A t) at exclusion boundary location in sector 0 determined by concurrent meteorology, in sec/m3 Q) the average release rate of = g radionuclide, i, in gaseous effluents during time period,At, in pCi/sec 2.3.2 Dose from Radioiodines, Radioaccive Material in Particulate Form, and Radionuclides,other than Noble Gases in Gaseous Effluents. ( 3.11. 2. 3) The dose to an indiviuaal from radioiodines, radioactive materials in particulate form and all radionuclides other than noble gases with half lives greater than eight days in gaseous effluents released to unrestricted areas is calculated using the following expressions: 2.3.2.1 For historical meteorology: -8 j D = 3.17x10 [ 0' R W)Q] (2-1k) o y g g s s $b, h 2-3h Rey, 4 g 1-29-82 \\ 3 k l

where: D, = the total projected dose from gaseous effluents to an individual, in mrem Qg = the amount of radioiodines, radioactive materisis in particulate form and radionuclides other than noble gases with half lives greater than eight days, i, released in gaseous effluents in pCi (Rik k = the sum of all pathways k for radionuclide, i, of the R, W product in mrem /yr per g bCi/sec. The (Rik k N value for each racionuclide, i, is given in Table 2-3 The given is the maximum (Rik k N f r all locations and is based on the most restrictive age groups. R = the dose factor for each identified ik radionuclide, i, for pathway k (for the inhalation pathway in mrem /yr per 3 pCi/m and for the food and ground plane pathways in m - mrem /yr per p Ci/sec) at the controlling location. The Rik's for each controlling location for each age group are given in Tables 2-4 thru 2-12. 2-35 Rev. 4 1-29-82

W = the annual average dispersion parameter for k estimating the dose to an individual at the controlling location for pathway ks i 3 (X/Q) for the inhalation pathway in sec/m, = The (X/Q) for each controlling location are given in Tables 2-4 thru 2-12 (D/Q) for the food and ground plane pathways in m-2 The (D/Q) for each ? controlling location are given in Tables 2-4 thru 2-12. 2.3.2.2 For meteorology concurrent with releases. W)g3) 'Q )) (2-15) D, = 1.14 x10' q D:f t)0( Rggg g where: Do = the total annual dose from gaseous effluents to an individual in sector 0 in mrem. A t) = the length of the jth period over which W and Q are averaged for gaseous jkB g releases in hours 2-30 Rev. 4 1-29-82

• Qg) = the average release rate of radiorruclide, i, in gaseous effluents during time period at in yCi/sec Rygg = the dose factor for each identified radionuclide i, for pathway k for sector 6 (for the inhalation pathway in j

3 mrem /yr per pCi/m and for the food and 2 ground plane pathways in m mrem /yr per pCi/sec) at the controlling location. The dose factor is based on the maximum dose to the most restrictive age group. A listing of Rik for the controlling P locations in each landward sector for each group is given in Tables 2-4 thru 2-12. The O is determined by the con-current meteorology. jk9 = the dispersion parameters for the time W A t) period for each pcthway k for calculating the dose to an individual at the controlling location in sector 0 using concurrent meteorological conditions. I 2-37 Rev. 4 1-29-82

5 i (X/Q) for the inhalation pathway in = sec/m3 (D/Q) for the food and ground plane = pathways in m-2 2-38 Rev. 4 1-29-82

TABLE 2-1 IEE FACIORS Em NTLE C/'bES AND DUJGflERS Total Body Dose Sdn Ibe Gass Air Dose Beta Air Ibse Radio-Factor K Factor Li Factor M Factor Ni 1 i 3 3 3 nuclide (r evyr per pCi/m ) (r evyr perpC1/m ) (r. rad /yr per y ci/m ) (r ad/yr per y ci/m ) Kn-83m 7.06 E-28 1.93 E+1 2.88 E4 Kn-85m 1.17 E+3 1.46 E+3 1.23 E+3 1.77 E+3 Kr-85 1.61 E+1 1.34 E+3 1.72 E+1 1.95 E+3 Kn-87 5.92 E+3 9.73 E+3 6.17 E+3 1.03 Ed Kn-88 1.47 E4 2.Il E+3 1.52 E4 2.93 E+3 Kn-89 1.66 E 4 1.01 E4 1.73 E 4 1.06 E+4 Kr-90 1.56 E4 7.29 E+3 1.63 E4 7.83 E+3 Xe-131n 9.15 E+1 4.76 E4 1.56 E 4 1.11 E+3 Xe-133m 2.51 E4 9.94 E4 3.27 E4 1.48 E+3 Xe-133 2.94 E4 3.06 E 4 3.53 E 4 1.05 E+3 Xe-135m 3.12 E+3 7.11 E4 3.36 E+3 7.39 E4 Xe-135 1.81 E+3 1.86 E+3 1.92 E+3 2.46 E+3 Xe-IIT 1.42 E+3 1.22 E4 1.51 E+3 1.27 E4 [ Xe-138 8.83 E+3 4.13 E+3 9.21 E+3 4.75 E+3 l An-41 8.84 E+3 2.69 E+3 9.30 E+3 3.28 E+3' i 0 7.56 x 104 = 7.56 E-2 2-39 Rev. 4 1-29-82

TAHI 2-2 DTE PARAMEIUt Pg QiIID AGE GROUP Inhalatim Pathey, Inhalatim Patbey 3 Radionuclide forevyr pr pr ) Radionuclide (revy per pCi/sec) H-3 1.1 h3 Tc - 101 5.8 L2 C - 14 3.6 EA au - 103 6.6 h5 15 - 24 1.6 E4 au - 105 1.0 55 P - 32 2.6 E+6 au - 106 1.4 h7 0 - 54 1.7 E+4 Rg - 110M 5.5 L6 % - 54 1.6 E+6 Te - 1291 4.8 US

• - 56 1.2 E+5 Te - 12/M 1.5 66 Fe - 55 1.1 E45 Te - 127 5.6 E4 Fe - 59 1.7 D6 Te - 129M 1.8 D 6 Co - 58 1.1 E+6 Te - 129 2.5 E4 Co' - 60 7.1 E+1 Te - 131M 31 L5 Ni - 63 8.2 E4 Te - 131 2.1 E*3 Ni - 65 8.4 E4 Te - 132 3 8 E43 W - 64 3 7 E4 I - 130 1.8 E+6 Zn - 65 1.0 L6 I - 131 1.6 E+7 Zn - 69 1.0 E4 I - 132 1.9 G5 IP - 83 4.7 E+2 I - 133 3 8 D6

& - 84 5.5 L2 I - 134 5.1 D4 & - 85 2.5 h1 I - 135 7.9 D5 Hb - 86 2.0 E+5 Os - 134 1.0 E+6 Rb - 88 5.6 E+2 Cs - 136 1.7 L5 ab - 89 3.5 E+2 Cs - 137 9.1 E+5 & - 89 2.2 E+6 Cs - 138 8.4 L2 & - 90 1.0 L8 Ib - 139 5.8 E4 & - 91 1.7 L 5 Ih - 140 1.7 E+6 & - 92 2.4 E+5 Ih - 141 2 9 E+3 Y - 90 2.7 E+5 as - 142 1.6 h3 Y - 9N 2.8 E+3 La - 140 2.3 h5 Y - 91 2.6 L6 la - 142 7.6 E4 Y - 92 2.4 E45 Ce - 141 5.4 h5 Y - 93 3 9 DS Ce - 143 13 E6 2r - 95 2.2 E+6 Ce - 144 1.2 h7 2r - 97 3 5 E+5 Pr - 143 4 3 E45 Nb - 95 6.1 E+5 Pr - 144 1.6 h3 Mo - 99 1.4 L5 Nd - 147 3 3 E+5 To - 99H 4.8 E+3 W - 187 9.1 E4 Np - 239 6.4 E4 -O g,,, y 1-29-82 ~

TABE 2-3 COGOLLING LOCATION FACIORS Eik N Rationuclide w per pCi/sec H-3 1.5 E-3 Cr-51 1.5 E-1 th-54 2.0 E+1 Fe-59 1.1 E+1 Co-58 8.9 Co-60 2.2 E4 Zn-65 3.1 E+1 Sr-89 3.1 E4 S m 90 1.3 E+4 Zr-95 1.3 E+1 Sb-124 32 E+1 I -131 5.8 E4 I -133 5.6 E+1 Cs-134 2.9 E4 Cs-136 3.7 Cs-137 - 3.0 Ed Ba-140 3.1 Ce-141 5.1 Unidentified 1.2 E+4 Footnote: These values to be used in maiual calculations we the maximtsu ( Rg k W locations based ai the most restrictive age pup. f I 2-kl Rev. 4 1-29-82

Page 1 of 3 TAM I 2-4 for WFW Sector Dose Preeta Rg Pathway San Onofh Beach Distance 48 miles XM 1.1E-5 DA) 2.5 E-6 Infant Qiild Teen Adult Radienuclide Inhalatim Food & Grurr! Inhalation Teod & Grurx! Inhalatim Bad & Grusid Inhalatim Ibod & Grusti 'Pathey

• • Pathway Path e y Pathway Pathway Pathway Pathway Pathway H-3 1.5 E+2 0

2.6 E+2 0 2.4 E+2 0 2.9 E42 0 P-32 4.6 E+5 0 5.9 E+5 0 4.3 E+5 0 3.0 E+5 0 Cr - 51 8.2 E+1 1.1 E+6 2.5 E+2 1.1 E+6 6.8 E4 1.1 E+6 7.6 E42 1.1 E4 Mi - 54 5.8 E+3 3.2 E+8 9.8 E+3 3.2 E+8 1.5 E4 32 E+8 1.8 E4 3.2 E+8 Fe - 59 5.4 E+3 6.2 E+7 7.6 E+3 6.2 E+7 4.1 E4 6.2 E+7 4.3 E4 6.2 E+7 Eo - 58 2.5 E+3 8.7 E+7 7.8 E+3 8.7 E+7 2.2 E4 8.7 E+7 2.4 E4 8.7 E+7 Co - 60 7.3 E+3 4.9 E+9 2.2 E4 4.9 E+9 5.9 E4 4.9 E+9 6.5 E4 4.9 E+9 Zn - 65 1.4 E4 1.7 E+8 2.6 E 4 1.7 E+8 3.1 E+4 1.7 E+8 2.4 E4 1.7 E+8 Rb - 86 4.3 E4 2.1 E+6 4.5 E4 2.1 E+6 4.3 E4 2.1 E+6 3.1 E4 2.1 E46 Sr - 89 9.1 E4 4.9 E+3 1.4 E+5 4.9 E+3 9.9 E4 4.9 E+3 6.9 E 4 4.9 E+3 Sr - 90 9.3 E+6 0 2.3 E+7 0 2.5 E+7 0 2.3 E+7 0 Y-91 1.6 E 4 2.3 E+5 4.2 E4 2.5 E+5 9.3 E4 2.5 E45 8.8 E 4 2.5 E+5 Zr - 95 5.0 E+3 5.7 E+7 1.4 E4 5.7 E+7 3.4 E4 5.7 E+7 3.4 E4 5.7 E+7 Nb - 95 2.9 E+3 3.1 E+7 8.4 E+3 3.1 E+7 2.2 E+4 3.1 E+7 2.4 E4 3.1 E+7 Ru - 103 3.7 E+3 2.5 E+7 1.0 E4 2.5 E+7 2.5 E4 2.5 E+7 2.5 E4 2.5 E+7 au - 106 3.7 E4 4.7 E+7 9.8 E4 9.7 E+7 2.2 E45 9.7 E+7 2.1 E+5 9.7 E+7 Ag - 110'1 7.5 E+3 7.9 E+8 2.3 E4 7.9 E+8 6.2 E4 7.9 E+8 6.9 E4 7.9 E48 Cd - 1191 1.6 E 4 0 4.2 E4 0 9.3 E 4 0 8.0 E 4 0 Sn - 123 6.7 E4 0 1.1 E+5 0 7.6 E4 0 7.2 E4 0 Sn - 126 2.7 E45 6.0 E+9 5.3 E+5 6.0 E+9 4.0 E+5 6.0 E+9 2.9 E+5 6.0 E+9 Sb - 124 1.3 E4 1.4 E48 3.7 E4 1.4 E+8 9.1 E4 1.4 E48 9.3 E4 1.4 E46 Sb - 125 ?.4 E+3 5.3 E+8 4.2 E+3 5.3 E+8 2.3 E4 5.3 E+8 2.3 E4 5.3 E48 Te - 127M 8.6 E+3 2.1 E4 1.5 E4 2.1 E4 1.5 E4 2.1 E4 1.0 E4 2.1 E4 Tm - 1291 7.3 E+3 4.5 E+6 1.1 E4 4.5 E+6 1.2 E4 4.5 E+6 8.3 E+3 4.5 E+6 Cs - 134 1.6 E+5 1.6 E4 2.3 E+5 1.6 E+9 2 6 E45 1.6 E+9 1.9 E45 1.6 E+9 cs - 136 3.1 E4 3.4 E+7 3.4 E4 3.4 E+7 4." E+4 3.4 E+7 3.3 E 4 3.4 E+7 Cs - 137 1.4 E+5 2.3 E+9 1.9 E+5 2.3 E+9 1.9 E45 2.3 E49 1.4 E+5 2.3 E49 Ib - 140 1.3 E4 4.7 E+6 1.7 E4 4.7 E+6 5.2 64 4.7 E+6 5.0 E4 4.7 E46 Ce - 141 4.9 E+3 3.1 E46 1.3 E+4 3.1 E46 2.9 E4 3.1 E46 2.7 E4 3.1 E+6 Ce - 144 3.4 E4 1.6 E+7 8.9 E4 1.0 E+7 2.0 E+5 1.6 E+7 1.9 E+5 1.6 E+7 I - 111 3.4 E46 3.9 E4 3.7 E+6 3.9 E46 3.3 E46 3.9 E46 2.7 E+6 3 9 E46 I - 133 8.1 E45 5.6 E45 8.8 E+5 5.6 E+5 6.7 E+5 5.6 E+5 4.9 E+5 5.6 E6 I - 135 1.6 E45 5.8 E45 1.8 E+5 5.8 E+5 1.4 E+5 5.8 E45 1.0 E45 5.8 E+5 Unidstified 9.3 E+6 0 2.3 E+7 0 2.7 E+7 0 2.3 E+7 0

• nrm /yr
  • 8 - rrrm/y-3 pC1/m pci/see 2-h2 Rev. 4 1-29-82

4 Page 2 of 3 TABLE 24 Dose Paranete R for }W Sector 1 Pathway Nearest Residence Distance 2.8 miles X/Q 2.T-7 D/0

3. 4E-10 Infant 0111d Teen Adult Ra11onuclide Inhalatim Ibod & Ground Inhalatim Ibod & Grumd Inhalation Rod & Grund Inhalatim kod & Grund

' Pathway

• • Pathway Pathey Pathway Pathey Pathway Pathway Pathway H-3 6.5 E+2 0

5.1 E+3 0 3.9 E+3 0 3.6 E+3 0 P-32 2.0 E+6 0 2.6 E+6 3.3 E+9 1.9 E46 1.8 E+9 1.3 E+6 1.5 E+9 Q - 51 3.6 E42 4.7 E46 1.1 E+3 1.1 E+7 3.0 E+3 1.5 E+7 3.3 E+3 1.6 E+7 % - 54 2.5 E4 1.4 E+9 4.3 E4 2.0 E+9 6.7 E 4 2.3 E+9 7.7 E4 2.3 E+9 re - 59 2.4 E4 2.7 E48 3.3 E4 9.0 E48 1.8 E45 1.2 E+9 1.9 E+5 1.2 E+9 Eo - 58 1.1 EA 3.8 E+8 3.4 E4 7.5 E+8 9.5 E4 9.7 E+8 1.1 E+5 9.9 E+8 Co - 60 3.2 E4 2.2 E+10 9.6 E4 2.4 E+10 2.6 E+5 2.5 E+10 2.8 E45 2.5 E+10 2h - 65 6.3 E4 7.5 E+8 1.1 E45 3.5 E 4 1.3 E+5 2.6 E+9 1.0 E+5 2.0 E+9 Rb - 86 1.9 E+5 9.0 E+6 2.0 E+5 4.7 E+8 1.9 E+5 2.9 E+8 1.4 E+5 2.3 E48 Sr - 89 4.0 E+5 2.2 E 4 6.0 E45 3.5 E+10 4.3 E+5 1.5 E+10 3.0 E45 9.8 E+9 Sr - 90 4.1 E+7 0 1.0 E48 1.4 E+12 1.1 E+8 8.3 E+11 9.9 E+7 6.7 E+11 Y - 91 7.0 E4 1.1 E+6 1.8 E+5 2.4 E+9 4.1 E+5 3.1 E+9 3.8 E45 2.8 E+9 Zr - 95 2.2 E4 2.5 E48 6.1 E4 1.1 E+9 1.5 E45 1.5 E+9 1.5 E+5 1.4 E+9 Nb - 95 1.3 E 4 1.4 E48 3.7 E4 4.3 E+8 9.7 E4 5.9 E48 1.0 E45 6.1 E+8 Rv - 103 1.6 E4 1.1 E+8 4.5 E4 5.0 E48 1.1 E+5 6.8 E48 1.1 E+5 6.6 E+8 Rv - 106 1.6 E+5 4.2 E48 4.3 E45 1.2 E410 9.6 E+5 1.5 E+10 9.1 E+5 1.3 E+10 Ag - 1101 3.3 E4 3.5 E+9 1.0 E+5 6.6 E+9 2.7 E+5 7.1 E+9 3.0 E+5 9.8 E+9 Cd - 1191 7.0 E4 0 1.8 E+5 2.0 E+9 4.1 E+5 2.6 E+9 3.8 E+5 2.3 E+9 & - 123 2.9 E+5 0 4.8 E+5 6.3 E+9 3.3 E+5 4.0 E+9 3.1 E+5 3.4 E+9 Sn - 126 1.2 E+6 2.6 E+10 2.3 E+6 3.0 E+10 1.7 E+6 3.6 E+10 1.3 E+6 3.3 E+10 Sb - 124 5.9 E4 6.0 E+8 1.6 E45 2.8 E+9 4.0 E45 3.6 E+9 4.1 E45 3.5 E+9 Sb - 125 1.5 E 4 2.3 E+9 4.0 E+4 3.5 E+9 9.9 E 4 3.9 E+9 1.0 E+5 3.8 E+9 Ta - 127M 3.8 E4 9.2 E+4 6.4 E4 5.4 E+9 6.5 E44 3 2 E+9 4.6 E4 2.0 E+9 Te - 1291 3.2 E4 2.0 E+7 5.0 E4 2.9 E+9 5.2 E4 1.8 E+9 3.7 E4 1.2 E+9 Cs - 134 7.0 E45 6.8 E+9 1.0 E+6 3.3 E+10 1.1 E+6 2.3 E+10 8.5 E45 1.8 E+10 Cs - 136 1.3 E45 1.5 E+8 1.7 E+5 3.8 E+8 1.9 E+5 3.2 E+8 1.5 E+5 3.2 E+8 Cs - 137 6.1 E+5 1.0 E+10 8.3 E+5 3.4 E+10 8.5 E45 2.4 E+10 6.2 E45 1.9 E+10 Ba - 140 5.6 E4 2.1 E+7 7.4 E4 3.0 E48 2.3 E+5 2.3 E+8 2.2 E45 2.9 E+8 Ce - 141 2.2 E44 1.4 E+7 5.7 E4 4.7 E48 1.3 E45 5.5 E48 1.2 E45 5.2 E+8 Ce - 144 1.5 E+5 7.0 E+7 3.9 E+5 1.0 E+10 8.1 E+5 1.3 E+10 8.2 E+5 1.1 E+10 I - 111 1.7 E+7 1.7 E+7 1.6 E+7 4.8 E+10 1.5 E+7 31 E+10 1.2 E+7 3.8 E+10 I - 133 3.6 E+6 2.4 E+6 3.8 E46 8.1 E48 8.9 E46 4.6 E+8 2.2 E+6 5.3 E+8 I - 135 7.0 E45 2.5 E46 7.9 E+5 1.2 E+7 6.2 E45 8.2 E46 4.5 E45 1.1 E46 Unidentified 4.1 E+7 0 1.0 E48 1.4 E+12 1.1 E48 8.3 E+11 9.9 E+7 6.7 E+11 emreWr "r8 - r:ren/yr O uCi/M yCi/sec 2-43 Rev. 4 1-29-82

Page 3 of 3 TABII 2-4 Dose Paranete Ri orjg( Sector f Pathay Milk Pathay Distance 4.5 miles X4 6.1E-8 DM 1.2 E-10 Infant Q111d Teen Adult Radionuclide Inhalaticri kod & Grusd Inhalaticn kod & Gromd Inhalation kod & Grusd Inhalation kod & Gromd 'Patha y

• • Pathay Path e y Pathey Pathay Path a y Pathway Pathway H-3 2.4 E+3 0

1.6 E+3 0 9.9 E42 0 7.6 E42 0 Pc - 32 0 1.6 E+11 0 7.6 E+10 0 3.1 E+10 0 1.7 E+10 Cr - 51 0 4.2 E+6 0 4.8 E+6 0 7.5 E46 0 6.4 E46 m - 54 0 3.1 E+7 0 1.7 E+7 0 2.3 E+7 0 2.1 E+'t Te - 59 0 3.4 E+8 0 1.7 E+8 0 2.5 E+8 0 2.0 E+8 Eo - 58 0 5.0 E+7 0 5.9 E+7 0 9.1 E+7 0 7.9 E+7 Co - 60 0 1.7 E+8 0 1.9 E+8 0 2.9 E+8 0 2.4 E+8 2h - 65 0 1.7 E+10 0 9.9 E+9 0 6.6 E+9 0 3.9 E+9 Rb - 86 0 2.1 E+10 0 8.2 E+9 0 4.4 E49 0 2.4 E+9 Sr - 89 0 1.1 E+10 0 5.6 E+9 0 2.3 E+9 0 1.2 E+9 Sr - 90 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 Y - 91 0 4.4 E+6 0 4.4 E+6 0 5.4 E+6 0 4.0 E+6 Zr - 95 0 6.9 E+5 0 7.4 E+5 0 1.0 E46 0 8.0 E45 Nb - 95 0 1.8 E+8 0 2.0 E+8 0 2.9 E+8 0 2.4 E+8 Ru - 103 0 9.2 E+4 0 9.6 E+4 0 1.3 E45 0 1.0 E+5 lb - 106 0 1.2 E+6 0 1.2 E46 0 1.4 E+6 0 1.1 E+6 Ag - 11@1 0 1.2 E+10 0 1.6 E+10 0 2.1 E+10 0 1.8 E+10 Cd - 1191 0 5.7 E+7 0 5.1 E+7 0 6.4 E+7 0 4.6 E+7 & - 123 0 3.7 E+9 0 2.0 E+9 0 1.2 E+9 0 8.8 E48 Sn - 126 0 8.9 E+9 0 5.4 E+9 0 2.3 E+9 0 1.3 E+9 Sb - 124 0 5.4 E+8 0 5.7 E48 0 7.8 E+8 0 6.1 E+8 Sb - 125 0 1.6 E+8 0 1.6 E+8 0 2/2 E+8 0 1.8 E+8 T2 - 12TM 0 1.0 E+9 0 5.8 E+8 0 3.3 E+8 0 1.8 E+8 Tm - 1294 0 1.3 E+9 0 7.5 E48 0 4.3 E+8 0 2.1 E+8 Cs - 134 0 5.4 E+10 0 2.9 E+10 0 1.8 E+10 0 1.1 E+10 Cs - 136 0 5.5 E+9 0 2.6 E+9 0 1.7 E+9 0 9.9 E+8 Cs - 137 0 4.9 E+10 0 2.5 E+10 0 1.4 E+10 0 8.1 E+9 Ib - 140 0 2.3 E48 0 1.1 E+8 0 7.2 E+7 0 5.3 E+7 Ce - 141 0 1.2 E+7 0 1.2 E+7 0 1.5 E+7 0 1.1 E+7 Ce - 144 0 1.1 E+8 0 1.0 E+8 0 1.3 E48 0 9.6 E+7 I - 111 0 1.0 E+16 0 4.3 E+11 0 2.2 E+11 0 1.4 E+11 I - 133 0 9.6 E+9 0 3.9 E+9 0 1.7 E+9 0 9.9 E+8 I - 135 0 2.0 E+7 0 8.5 E+6 0 3.7 E46 0 2.2 E46 Unidentified 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 a 8 - nrea/yr arren/yr n S uCi/H pCi/sec 2D Rev. 4 1-29-82

Page 1 or 4 TABt2 2 6 Ibse Paranete R1 for g Sector Pathway Fanily Housirg Distance 1.8 miles X4 7.1E-7 D4 2.2 E4 Infant 0111d Teen Adult Rajimuulide Inhalatim kod & Grusd Inhalaticn Rxxi & Grund Inhalation Rxx! & Grurd Inhalatim Rod & Grwnd ' Pathway MPathway Pathway Pathway Pathway Pathway Pathway Pathway 3 6.5 E42 0 5.1 E+3 0 3.9 E+3 0 3.6 E+3 0 H P-32 2.0 E+6 0 2.6 E+6 3.3 E+7 1.9 E+6 1.8 E+4 1.3 E+6 1.5 E+9 cr - 51 3.6 E42 4.7 E+6 1.1 E+3 1.1 E+7 3.0 E+3 1.5 E+7 3.3 E+3 1.6 E+7 m - 54 2.5 E 4 1.4 E+9 4.3 E 4 2.6 E+9 6.7 E 4 2.3 E+9 7.7 E4 2.3 E+9 & - 59 2.4 E4 2.7 E+8 3.3 E4 9.0 E+8 1.8 E45 1.2 E+9 1.9 E+5 1.2 E+9 Eo - 58 1.1 E4 3.8 E48 3.4 E4 7.5 E+8 9.5 E4 9.7 E+8 1.1 E45 9.9 E+8 Co - 60 3.2 E4 2.2 E+10 9.6 E4 2.4 E+10 2.6 E+9 2.5 E+10 2.8 E+5 2.5 E+10 2n - 65 6.3 E 4 7.5 E+8 1.1 E+5 3.5 E 4 1.3 E+8 2.6 E+9 1.0 E+5 2.0 E+9 Rb - 86 1.9 E+5 9.0 E+6 2.0 E+5 4.7 E+8 1.9 E45 2.9 E+8 1.4 E+5 2.3 E48 Sr - 19 4.0 E+5 2.2 E4 6.0 E+5 3.5 E+10 4.3 E+5 1.5 E+10 3.0 E45 9.8 E+9 Sr - 90 4.1 E+7 0 1.0 E48 1.4 E+12 1.1 E+8 8.3 E+11 9.9 E+7 6.7 E+11 Y - 91 7.0 E4 1.1 E+6 1.8 E+5 2.4 E+9 4.1 E+5 3.1 E+9 3.8 E+5 2.8 E+9 Zr - 45 2.2 E4 2.5 E+8 6.1 E4 1.1 E+9 1.5 E45 1.5 E+9 1.5 E45 1.4 E49 Nb - 95 1.3 E A 1.4 E+8 3.7 E4 4.3 E+8 9.7 E4 5.9 E+8 1.0 E45 6.1 E48 Rv - 103 1.6 E4 1.1 E+8 4.5 E4 5.0 E+8 1.1 E+5 6.8 E48 1.1 E45 6.6 E48 Rv - 106 1.6 E45 4.2 E+8 4.3 E+5 1.2 E+10 9.6 E+5 1.5 E+10 9.1 E+5 1.3 E+10 Ag - 110'1 3.3 E4 3.5 E+9 1.0 E+5 6.6 E+9 2.7 E45 7.1 E+9 3.0 E45 7.8 E+9 Cd - 115M 7.0 E4 0 1.8 E+5 2.0 E+9 4.1 E+5 2.6 E+9 3.8 E+5 2.3 E+9 & - 123 2.9 E45 0 4.8 E+5 6.3 E49 3.3 E45 4.0 E+9 3.1 E45 3.4 E+9 Sn - 126 1.2 E+6 2.6 E+10 2.3 E+6 5.0 E+10 1.7 E+6 3.6 E+10 1.3 E+6 3.3 E+10 Sb - 124 5.9 E4 6.0 E48 1.6 E45 2.8 E+9 4.0 E45 3.6 E+9 4.1 E6 3.5 E49 Eb - 125 1.5 E4 2.3 E+9 4.0 E+4 3.5 E+9 9.9 E4 3.9 E4 1.0 E45 3.8 E+9 Te - 12F 3.8 E4 9.2 E4 6.4 E4 5.4 E+9 6.5 E4 3.2 E4 4.6 E4 2.0 E49 Ta - 129M 3.2 E 4 2.0 E+7 5.0 E4 2.9 E+9 5.2 E4 1.8 E+9 3.7 E4 1.2 E+9 cs - 134 7.0 E45 6.1 E+9 1.0 E+6 3.3 E+10 1.1 E46 2.3 E+10 8.5 E45 1.8 E+10 Cs - 136 1.3 E+5 1.5 E48 1.7 E+5 3.8 E+8 1.9 E+5 3.2 E+8 1.5 E+5 3.2 E+8 cs - 137 6.1 E45 1.0 E+10 8.3 E+5 3.4 E+10 8.5 E45 2.4 E+10 6.2 E+5 1.9 E+10 Ba - 140 5.6 E4 2.1 E+7 7.4 E4 3.0 E+8 2.3 E45 2.3 E+8 2.2 E+5 2.9 E+8 Ce - 141 2.2 E4 1.4 E+7 5.9 E4 4.7 E48 1.3 E45 5.5 E48 1.2 E45 5.2 E48 Ce - 144 1.5 E45 7.0 E+7 3.9 E+5 1.0 E+10 8.6 E45 1.3 E+10 8.2 E+5 1.1 E+10 I - 131 1.7 E+7 1.7 E+7 1.6 E+7 4.8 E+10 - 1.5 E+7 3.1 E+10 1.2 E+7 3.8 E+10 I - 133 3.6 E+6 2.4 E+6 3.8 E46 8.1 E48 8.9 E+6 4.6 E+8 2.2 E46 5.3 E+8 I - 135 7.0 E45 2.5 E46 7.9 E45 1.2 E+7 6.2 E45 8.2 E46 4.5 E45 1.1 E46 Unidentifia! 4.1 E+7 0 1.0 E+8 1.4 E+12 1.1 E48 8.3 E+11 9.9 E+7 6.7 E+11 amren/yr f2 - nren/yr p Ci/2 yCi/sec 2 h5 Rev. 4 1-29-82

Page 2 of 4 TABLE 2-5 Dose Pa aneter R for !W Sector 1 Pathay Vegetable Gartim Distance 2.2 miles X4 4.6 E-7 DM 1.3 E-9 Infant 0111d Teen Adult Radionuclide Inhalatim Rod & Gromd Inhalatim Rod & Gromd Inhalation kod & Gromd Inhalatim Bod & Gromd ' Pathway

• • Pathe y Pathway Pathway Path a y Pathway Pathey Pathway 3

1.6 E+2 0 2.9 E+3 2.6 E+3 H P - 32 5.1 E+5 0 6.5 E+5 3.7 E+9 4.7 E+5 1.8 E+9 3.3 E+5 1.5 E+9 Cr - 51 1.2 E46 7.3 E+6 7.5 E+2 1.1 E+7 8.3 E42 1.7 E+7 tti - 54 6.3 E+3 3.5 E46 1.1 E4 1.0 E+9 1.7 E4 1.3 E+9 1.9 E4 1.3 E+9 Fe - 59 5.9 E+3 6.8 E+7 8.4 E+3 2.0 E+8 4.5 E4 1.0 E+9 4.7 E4 1.0 E+9 Eo - 58 2.8 E+3 9.5 E+7 8.6 E+3 4.6 E46 2.4 E4 6.8 E+8 2.7 E4 7.0 E+8 Co - 60 8.0 E+3 5.4 E+9 2.4 E4 7.5 E+9 6.5 E4 8.6 E+9 7.1 E4 8.5 E+9 2h - 65 1.6 E 4 1.9 E48 2.8 E4 2.9 E+9 3.3 E4 2.1 E+9 2.6 E4 1.5 E+9 Bb - 86 4.8 E4 2.3 E46 5.0 E4 4.6 E48 4.8 E4 1.8 E48 3.4 E4 2.2 E48 Sr - 89 9.9 E 4 5.4 E+3 1.5 E+5 3.5 E+10 1.1 E+5 1.5 E+10 2.6 E4 9.8 E+9 Sr - 90 1.0 E+7 0 2.5 E+7 1.4 E+12 2.7 E+7 8.3 E+11 2.5 E+7 6.7 E+11 Y - 91 1.8 E 4 2.7 E+5 4.6 E4 2.4 E+9 1.0 E45 3.1 E+9 9.6 E4 2.8 E+9 Zr - 95 5.4 E+3 6.3 E+7 1.5 E4 9.4 E+8 3.7 E+4 1.3 E+9 3.8 E4 1.3 E+9 Nb - 95 3.2 E+3 3.4 E+7 9.2 E+3 3.3 E46 2.4 E4 4.3 E48 2.6 E4 5.1 E+8 Rv - 103 4.0 E+3 2.7 E+7 1.1 E4 4.2 E+8 2.7 E4 5.9 E48 2.8 E4 5.8 E48 Rv - 106 4.1 E4 1.1 E46 1.1 E+5 1.2 E+10 2.4 E+5 1.5 E+10 2.3 E45 1.3 E+10 Ag - 1101 8.3 E+3 8.7 E+8 2.5 E4 4.0 E+9 6.8 E4 5.2 E49 7.6 E4 5.2 E+9 Cd - 1194 1.8 E 4 0 4.6 E4 2.0 E+9 1.0 E+5 2.6 E49 9.6 E4 2.3 2+9 Sh - 123 7.4 E+4 0 1.2 E+5 6.3 E+9 8.3 E4 4.0 E+9 7.8 E4 3.4 E+9 Sn - 126 2.9 E45 6.5 E+9 5.8 E+5 3.0 E+10 4.4 E+5 1.7 E+10 3.2 E+5 1.3 E+10 Sb - 124 1.5 E4 1.5 E48 4.1 E4 2.3 E+9 1.0 E45 3.2 E49 1.0 E45 3.0 E+9 Sb - 125 3.7 E+3 5.8 E+8 1.0 E4 1.8 E+9 2.5 E 4 2.2 E+9 2.5 E4 2.1 E+9 Ta - 12m 9.4 E+3 2.3 E4 1.6 E4 5.4 E+9 1.6 E4 3.2 E+9 1.1 E4 2.0 E49 Ta - 1294 7.9 E+3 4.9 E+6 1.3 E4 2.9 E+9 1.3 E4 1.8 E+9 9.1 E+3 1.2 E+9 Cs - 134 1.8 E+5 1.7 E+9 2.5 E+5 2.7 E+10 2.8 E+5 1.8 E+10 2.1 E+5 1.3 E+10 cs - 136 3.4 EA 3.8 E+7 4.3 E4 2.6 E+8 4.8 E4 2.1 E+8 3.7 E4 2.1 E48 Cs - 137 1.5 E4 2.6 E+9 2.1 E45 2.7 E+10 2.1 E45 1.7 E+10 1.6 E45 1.2 E+10 & - 140 1.4 E4 5.1 E+6 1.9 E 4 2.8 E46 5.7 E 4 2.2 E48 5.5 E4 2.7 E+8 Ce - 141 5.4 E+3 3.4 E+6 1.4 E4 4.1 E48 3.2 E4 5.4 E48 3.0 E4 5.1 E+8 Ce - 144 3.7 E4 1.2 E+7 9.7 E 4 1.0 E+10 2.2 E+5 1.3 E+10 2.0 E+5 1.1 E+10 I - 131 3.7 E46 4.3 E46 4.1 E+6 4.8 E+10 3.7 E+6 3.1 E+10 3.0 E46 3.8 E+10 I - 133 8.9 E45 6.1 E+5 8.6 E45 8.1 E+8 7.3 E+5 4.6 E+8 5.4 E+5 5.3 E+8 I - 135 6.3 E45 1.0 E+7 1.6 E+5 6.4 E4 1.1 E45 7.2 E46 Unidentified 1.0 E+17 0 2.5 E+7 1.4 E+12 2.7 E+7 8.3 E4 2.5 E+7 6.7 E+11 %ren/yr y2 - nre'1/yr 3 pCi/m uci/sec 2 h6 Rev. 4 1-29-82 ~ m -

Page 3 of 4 i TABII 2-5 Ibse Paraneter R1 for 3, Sector Path ay Heat (Cattle) Path ay Distance 4.0 miles XA) 1.4 E-7 DA) 3.4 E-10 Infant 0111d Teen Adult Rafienuclide Inhalatim kod & Grumd Inhalatim Rod & Gromd Inhalation Rod & Grund Inhaladca kod & Gromd

1. Pathway

• • Pathway Pathay Pathway Patha y Pathway Pathway Pathway 3

3.2 E+1 0 2.9 E42 0 2.5 E42 0 3.8 E+2 0 H P - 32 1.0 E+5 0 1.3 E45 7.3 E+9 9.4 E4 3.9 E+9 6.6 E4 4.6 E+9 Cr - 51 1.8 E+1 2.3 E45 5.4 E+1 6.5 E+5 1.5 E42 1.1 E+6 1.7 E42 1.8 E46 m - 54 1.3 E+3 6.9 E+7 2.1 E+3 7.6 E+7 3.3 E+3 8.1 E+7 3.9 E+3 9.2 E+7 re - 59 1.2 E+3 1.1 E+7 1.7 E+3 5.4 E48 8.9 E+3 1.0 E+9 9.4 E+3 1.8 E49 Eo - 58 5.6 E+2 1.9 E+7 1.7 E+3 9.9 E+7 4.8 E+3 1.8 E+8 5.3 E+3 3.3 E+8 Co - 60 1.6 E+3 1.1 E+9 4.8 E+3 1.4 E+9 1.3 E4 1.7 E49 1.4 E4 2.2 E+9 Zn - 65 3.1 E+3 3.7 E+7 5.7 E+3 9.4 E+8 6.7 E+3 8.2 E46 5.2 E+3 1.1 E+9 ab - 86 9.5 E+3 4.5 E45 9.9 E+3 5.4 E+8 9.5 E+3 3.8 E+8 6.8 E+3 4.6 E+8 Sr - 89 2.0 E4 1.1 E+3 3.0 E+3 4.1 E48 2.2 E 4 2.2 E+8 1.5 E 4 2.6 E48 Sr - 90 2.0 E46 0 5.1 E+6 8.6 E4 5.4 E46 6.7 E49 5.0 E+6 1.0 E+10 Y-91 3.5 E+3 5.4 E4 9.2 E+3 2.0 E48 2.0 E4 3.3 E+8 1.9 E4 5.2 E+8 Zr - 95 1.1 E+3 1.3 E+7 3.1 E+3 5.5 E+8 7.4 E+3 9.3 E48 7.5 E+3 1.6 E+9 Nb - 95 6.3 E42 6.8 E+6 1.8 E+3 2.0 E+9 4.8 E+3 3.7 E+9 5.2 E+3 6.8 E+9 Rv - 103 8.0 E42 5.4 E46 2.2 E+3 3.5 E+9 5.4 E+3 6.2 E+9 5.5 E+3 1.1 E+10 Rv - 106 8.2 E+3 2.1 E+7 2.1 E4 5.6 E+10 4.8 E4 9.1 E+10 4.6 E 4 1.5 E+11 A8 - 110M 1.7 E+3 1.7 E+8 5.0 E+3 8.1 E+8 1.4 E4 1.3 E+9 1.5 E4 2.3 E+9 Cd - 1194 3.5 E+3 0 9.2 E+3 2.1 E+7 2.0 E4 3.5 E+7 1.9 E4 5.3 E+7 & - 123 1.5 E44 0 2.4 E4 7.1 E+9 1.7 E4 5.7 E+9 1.6 E4 4.1 E49 31 - 126 5.8 E4 1.3 E+9 1.2 E+5 2.3 E+10 8.7 E 4 1.3 E+10 6.3 E 4 1.6 E+10 Sb - 124 3.0 E+3 3.0 E+7 8.2 E+3 1.8 E48 8.0 E+4 3.0 E48 2.0 E4 5.0 E48 Sb - 125 7.3 E+2 1.2 E48 2.0 E+3 i.7 E+8 5.0 E+3 2.1 E+8 5.0 E+3 2.8 E48 Te - 127M 1.9 E+3 4.6 E+3 3.2 E+3 5.0 E+9 3.3 E+3 3.7 E49 2.3 E+3 4.4 E+9 T3 - 1291 1.6 E+3 9.8 E 6 2.5 E+3 4.9 E+9 2.6 E+3 3.7 E+9 1.8 E+3 4.5 E+9 Cs - 134 3.5 E4 3.4 E+8 5.1 E4 1.5 E+9 5.6 E4 1.3 E49 4.2 E4 1.6 E+9 Cs - 136 6.7 E+3 7.5 E46 8.5 E+3 5.0 E+7 9.7 E+3 4.3 E+7 7.3 E+3 5.3 E+7 Cs - 1J7 3.1 E4 5.1 E+8 4.1 E4 1.6 E+9 4.2 E4 1.3 E+9 3.1 E4 1.5 E49 Ba - 140 2.8 E+3 1.0 E+6 3.7 E+3 4.3 E+7 1.1 E4 3.6 E+7 1.1 E4 3.8 E+7 Ce - 141 1.1 E+3 6.8 E45 2.8 E+3 1.3 E+7 6.3 E+3 2.1 E+7 6.0 E+3 3.3 E+7 Ce - 144 2.4 E+3 3.5 E+6 1.9 E 4 1.5 E+8 4.3 E 4 2.5 E+8 4.1 E4 3.9 E48 I - 131 7.4 E+5 8.6 E45 8.1 E45 5.4 E49 2.3 E45 3.6 E+9 6.0 E45 5.0 E+9 I - 133 1.8 E45 1.2 E+5 1.9 E45 1.2 E+5 1.5 E+5 1.2 E+5 1.1 E+5 1.2 E+5 I - 135 3.5 E4 1.3 E45 4.0 E4 1.3 E45 3.1 E+4 1.3 E45 2.2 E4 1.3 E+5 Unidentified 2.0 E+6 0 5.1 E46 8.6 E+9 5.6 E+6 6.7 E+9 5.0 E+6 1.0 E+10 m =J - wen /yr p Ci/m uCi/sec 2-47 Rev. 4 1-29-82

Page 4 of 4 TABIE 2-5 Ibse Paranete R1 for JW_ Sector Pathay Milk Pathay Distance 4.5 miles X/Q 8.5 E-8 DA) 2.6 E-10 Infant 0111d Teen Adult Rationuclide Inhalation Food & Gromd Inhalation Food & Gruari Inhalation Rod & Gruarf Inhalation kod & Grurx1 'Pathey

• • Pathey Pathway Pathay Pathney Pathey Pathway Pathway H-3 2.4 E+3 0

1.6 E+3 0 9.9 E42 0 7.6 E42 0 P-32 0 1.6 E+11 0 7.6 E+10 0 3.1 E+10 0 1.7 E+10 Cr - 51 0 4.2 E46 0 4.8 E+6 0 7.5 E46 0 6.4 E+6 m - 54 0 3.1 E+7 0 1.7 E+7 0 2.3 E+7 0 2.1 E+7 re - 59 0 3.4 E48 0 1.7 E48 0 2.5 E48 0 2.0 E48 Eo - 58 0 5.0 E47 0 5.9 E+7 0 9.1 E+7 0 7.9 E+7 Co - 60 0 1.7 E48 0 1.9 E48 0 2.9 E48 0 2.4 E48 2n - 65 0 1.7 E+10 0 9.9 E+9 0 6.6 E+9 0 3.9 E+9 Rb - 86 0 2.1 E+10 0 8.2 E+9 0 4.4 E49 0 2.4 E9 Sr - 89 0 1.1 E+10 0 5.6 E+9 0 2.3 E+9 0 1.2 E+9 Sr - 90 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 Y - 91 0 4.4 E+6 0 4.4 E+6 0 5.4 E+6 0 4.0 E+6 2r - 95 0 6.9 E+5 0 7.4 E+5 0 1.0 E+6 0 8.0 E45 Nb - 95 0 1.8 E+8 0 2.0 E48 0 2.9 E+8 0 2.4 E+8 Ry - 103 0 9.2 E+4 0 9.6 E+4 0 1.3 E45 0 1.0 E45 Rv - 106 0 1.2 E+6 0 1.2 E+6 0 1.4 E+6 0 1.1 E+6 Ag - 1101 0 1.2 E+10 0 1.6 E+10 0 2.1 E+10 0 1.3 E+10 Of - 1191 0 5.7 E+7 0 5.1 E+7 0 6.4 E+7 0 4.6 E+7 & - 123 0 3.7 E+9 0 2.0 E49 0 1.2 E+9 0 8.8 E48 Sn - 126 0 8.9 E+9 0 5.4 E+9 0 2.3 E+9 0 1.3 E+9 Sb - 124 0 5.4 E48 0 5.7 E+8 0 7.8 E48 0 6.1 Ec8 Sb - 125 0 1.6 E48 0 1.6 E46 0 2.2 E+8 0 1.8 E48 To - 127N O 1.0 E49 0 5.8 E48 0 3.3 E48 0 1.8 E48 Ta - 1291 0 1.3 E+9 0 7.5 E+8 0 4.3 E+8 0 2.4 E46 Cs - 134 0 5.4 E+10 0 2.9 E+10 0 1.8 E+10 0 1.1 E+10 Cs - 136 0 5.5 E+9 0 2.6 E+9 0 1.7 E+9 0 9.9 E48 Cs - 137 0 4.9 E+10 0 2.5 E+10 0 1.4 E+10 0 8.1 E49 Ib - 140 0 2.3 E+8 0 1.1 E+8 0 7.2 E+7 0 5.3 E+7 Ce - 141 0 1.2 E+7 0 1.2 E+7 0 1.5 E+7 0 1.1 E+7 Ce - 144 0 1.1 E+8 0 1.0 E48 0 1.3 E+8 0 9.6 E+7 I - 131 0 1.0 E+12 0 4.3 E+11 0 2.2 E+11 0 1.4 E+11 I - 133 0 9.6 E+9 0 3.9 E+9 0 1.7 E+9 0 9.9 E+8 I - 135 0 2.0 E+7 0 8.5 E+6 0 3.7 E46 0 2.2 E46 thidentified 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 2

• mren/yr
  • nf - rrren/yr pCi/m uCi/sec 2 h8 Rev. 4 1-29-82

Page 1 of 4 TlBE 2-6 Dose Paraneter Rg for E Sector Pathay Mobile Hanes Distance 1.3 miles X4 1.8 E-6 DM 8.8 E-9 Infant 0111d Teen Adult Raiionuclide Inhalation Food & Grourd Inhalatim bad & Grourd Inhalation kod & Grusd Inhalaticri Rxxi & Grcmd ' Pathway

• • Pathey Pathway Pathway Pathey Pathway Pathway Pathway 3

6.5 E42 0 5.1 E+3 0 3.9 E+3 0 3.6 E+3 0 H P - 32 2.0 E+6 0 2.6 E+6 3.9 E+9 1.9 E+6 1.8 E+9 1.3 E+6 1.5 E+9 Cr - 51 3.6 E42 4.7 E46 1.1 E+3 1.1 E+7 3.0 E+3 1.5 E+7 3.3 E+3 1.6 E+7 % - 54 2.5 E 4 1.4 E+9 4.3 E 4 2.0 E+9 6.7 E 4 2.3 E+9 7.7 M 2.3 E+9 re - 59 2.4 E4 2.7 E+8 3.3 E4 9.0 E+8 1.8 E45 1.2 E+9 1.9 E45 1.2 E4n B - 58 1.1 E4 3.8 E+8 3.4 E4 7.5 E+8 9.5 E4 9.7 E+8 1.1 E+5 9.9 E+8 Co - 60 3.2 E4 2.2 E+10 9.6 E4 2.4 E+10 2.6 E+5 2.5 E+10 2.8 E+5 2.5 E+10 2h - 65 6.3 E 4 7.5 E+8 1.1 E+5 3.5 E 4 1.3 E+5 2.6 E+9 1.0 E+5 2.0 E+9 Rb - 86 1.9 E45 9.0 E46 2.0 E+5 4.7 E48 1.9 E45 2.9 E+8 1.4 E6 2.3 E+8 Sr - 89 4.0 E+5 2.2 E4 6.0 E+5 3.5 Ev10 4.3 E+5 1.5 E+10 3.0 E45 9.8 E+9 Sr - 90 4.1 E+7 0 1.0 E48 1.4 E+12 1.1 E+8 8.3 E+11 9.9 E47 6.7 E+11 91 7.0 E4 1.1 E+6 1.8 E45 2.4 E+9 4.1 E+5 3.1 E+9 3.8 E+5 2.8 E+9 Y Zr - 95 2.2 E4 2.5 E43 6.1 E4 1.1 E+9 1.5 E+5 1.5 E49 1.5 E+5 1.4 E49 Nb - 95 1.3 E 4 1.4 E+8 3.7 E4 4.3 E+8 9.7 E4 5.9 E48 1.0 E45 6.1 E48 Rv - 103 1.6 E4 1.1 E48 4.5 E4 5.0 E+8 1.1 E+5 6.8 E+8 1.1 E45 6.6 E48 Rv - 106 1.6 E45 4.2 E+8 4.3 E+5 1.2 E+10 9.6 E+5 1.5 E+10 9.1 E+5 1.3 E+10 Ag - 1104 3.3 E4 3.5 E+9 1.0 E+5 6.6 E+9 2.7 E45 7.1 E+9 3.0 E+5 7.8 E49 Cd - 1191 7.0 E4 0 1.8 E+5 2.0 E+9 4.1 E45 2.6 E+9 3.8 E+5 2.3 E+9 Sn - 123 2.9 E45 0 4.8 E+5 6.3 E+9 3.3 E45 4.0 E+9 3.1 E45 3.4 E+9 Sn - 126 1.2 E+6 2.6 E+10 2.3 E+6 3.0 E+10 1.7 E+6 3.6 E+10 1.3 E+6 3,3 E+10 Sb - 124 5.9 E4 6.0 E+8 1.6 E+5 2.8 E+9 4.0 E45 3.6 E+9 4.1 E45 3.5 E+9 Sb - 125 1.5 E 4 2.3 E+9 4.0 E4 3.5 E+9 9.9 E 4 3.9 E+9 1.0 E+5 3.8 E+9 Ta - 127M 3.8 E4 9.2 E4 6.4 E4 5.4 E+9 6.5 E4 3.2 E+9 4.6 E4 2.0 E49 Tm - 1291 3.2 E 4 2.0 E+7 5.0 E4 2.9 E+9 5.2 E4 1.8 E+9 3.7 E4 1.2 E+9 Cs - 134 7.0 E+5 6.8 E49 1.0 E46 3.3 E+10 1.1 E46 2.3 E+10 8.5 E+5 1.8 E+10 Cs - 136 1.3 E+5 1.5 E+8 1.7 E+5 3.8 E48 1.9 E+5 3.2 E+8 1.5 E45 3 2 E+8 Cs - 137 6.1 E+5 1.0 E+10 8.3 E45 3.4 E+10 8.5 F45 2.4 E+10 6.2 E45 1.9 E+10 Ba - 140 5.6 E4 2.1 E+7 7.4 E4 3.0 E+8 2.3 E+5 2.3 E+8 2.2 E+5 2.4 E+8 Ce - 141 2.2 Ew 1.4 E+7 5.7 E4 4.7 E48 1.3 E+5 5.5 E+8 1.2 E+5 5.2 E48 Ce - 144 1.5 E45 7.0 E+7 3.9 E45 1.0 E+10 - 8.6 E+5 1.3 E+10 8.2 E+5 1.1 E+10 I - 131 1.7 E+7 1.7 E+7 1.6 E+7 4.2 E+10 1.5 E+7 3.1 E+10 1.2 E+7 3 8 E+10 I - 133 3.6 E46 2.4 E46 3.8 E46 8.1 E+8 2.9 E+6 4.6 E+8 2.2 E+6 5.3 E+8 I - 135 7.0 E45 2.5 E+6 7.9 E45 1.2 E+7 6.2 E45 8.2 E46 4.5 E45 1.1 E46 thidentified 4.1 E+7 0 1.0 E48 1.4 E+12 1.1 E+8 8.3 E+11 9.9 E+7 6.7 E+11

• nren/yr

1. 'nb - nren/yr uCi/ch pCi/sec 2 49 Rev. 4 1-29-82

Page 2 of 4 TABLE 2-6 for NW Sector Iba Praneter Ri Pathsey Vegetable Garden Distance 2.2 miles XM 5.0 E-7 DA) 1.9 E-9 Infant Child Teen Adult Rationuclide Inhalatim Food & Gromd Inhalation Food & Ground Inhalation kod & Grotid Inhalatim Rod & Gromd 'Pathey

• • Pathey Pathey Pathey Pathey Pathway Pathey Pathway H-3 1.6 E42 0

2.9 E+3 2.6 E+3 32 5.1 E+5 0 6.5 E+5 3.7 E+9 4.7 E+5 1.8 E+9 3.3 E+5 1.5 E+9 P Cr - 51 1.2 E46 7.3 E46 7.5 E42 1.1 E+7 8.3 E42 1.7 E+7 m - 54 6.3 E+3 3.5 E48 1.1 E4 1.0 E+9 1.7 E 4 1.3 E+9 1.9 E 4 1.3 E+9 Fe - 59 5.9 E+3 6.8 E+7 8.4 E+3 7.0 E+8 4.5 E4 1.0 E+9 4.7 E4 1.0 E+9 Eo - 58 2.8 E+3 9.5 E+7 8.6 E+3 4.6 E48 2.4 E4 6.8 E+8 2.7 E4 7.0 E+8 Co - 60 8.0 E+3 5.4 E+9 2.4 E4 7.5 E+9 6.5 E4 8.6 E+9 7.1 E4 8.5 E49 Zn - 65 1.6 E 4 1.9 E+8 2.8 E 4 2.9 E+9 3.3 E 4 2.1 E+9 2.6 E 4 1.5 E+9 11b - 86 4.8 E4 2.3 E46 5.0 E4 4.6 E+8 4.8 E4 1.8 E+8 3.4 E4 2.2 E48 & - 89 9.9 E 4 5.4 E+3 1.5 E45 3.5 E+10 1.1 E+5 1.5 E+10 7.6 E4 9.8 E+9 Sr - 90 1.0 E+7 0 2.5 E+7 1.4 E+12 2.7 E+7 8.3 E+11 2.5 E+7 6.7 E+11 Y-91 1.8 ' E4 2.7 E+5 4.6 E+4 2.4 E+9 1.0 E+5 3.1 E49 9.6 E4 2'.3 E+9 Zr - 95 5.4 E+3 6.3 E+7 1.5 E4 9.4 E+8 3.7 EA 1.3 E+9 3.8 E4 1.3 E49 Nb - 95 3.2 E+3 3.4 E+7 9.2 E+3 3.3 E+8 2.4 E4 4.8 E+8 2.6 E4 5.1 E48 Rv - 103 4.0 E+3 2.7 E+7 1.1 E4 4.2 E+8 2.7 24 5.9 E48 2.8 E4 5.8 E+8 Rv - 106 4.1 E4 1.1 E+8 1.1 E+5 1.2 E+10 2.4 E+5 1.5 E+10 2.3 E+5 1.3 E+10 Ag - 11CN 8.3 E+3 8.7 E+8 2.5 E4 4.0 E+9 6.8 E4 5.2 E49 7.6 E4 5.2 E+9 Cd - 1191 1.8 E 4 0 4.6 E4 2.0 E+9 1.0 E+5 2.6 E+9 9.6 E4 2.3 E+9 Sn - 123 7.4 E4 0 1.2 E45 6.3 E+9 8.3 E4 4.0 E+9 7.8 E4 3.4 E+9 Sn - 126 2.9 E45 6.5 E+9 5.8 E+5 3.0 E+10 4.4 E+5 1.7 E+10 3.2 E45 1.3 E+10 Sb - 124 1.5 E4 1.5 E+8 4.1 E4 2.3 E+9 1.0 E+5 3.2 E49 1.0 E45 3.0 E+9 Sb - 125 3.7 E+3 5.8 E+8 1.0 E4 1.8 E+9 2.5 E+4 2.2 E+9 2.5 E4 2.1 E+9 T4 - 127M 9.4 E+3 2.3 E4 1.6 E4 5.4 E+9 1.6 E4 3 2 E+9 1.1 E4 2.0 E49 T2 - 1291 7.9 E+3 4.9 E+6 1.3 E 4 2.9 E+9 1.3 E 4 1.8 E+9 9.1 E+3 1.2 E49 Cs - 134 1.8 E+5 1.7 E+9 2.5 E45 2.7 E+10 2.8 E+5 1.8 E+10 2.1 E45 1.3 E+10 Cs - 136 3.4 E4 3.8 E+7 4.3 E 4 2.6 E48 4.8 E 4 2.1 E+8 3.7 E4 2.1 E-8 Cs - 137 1.5 E45 2.6 E+9 2.1 E45 2.7 E+1C 2.1 E45 1.7 E+10 1.6 E45 1.2 E+10 Ib - 140 1.4 E4 5.1 E46 1.9 E 4 2.8 E+8 5.2 E4 2.2 E+8 5.5 E4 2.7 E+8 Ce - 141 5.4 E+3 3.4 E+6 1.4 E4 4.1 E48 3.2 E4 5.4 E48 3.0 E4 5.1 E+8 Ce - 144 3.7 E4 1.7 E+7 9.7 E 4 1.0 E+10 2.2 E45 1.3 E+10 2.0 E45 1.1 E+10 I - 131 3.7 E+6 4.3 E+6 4.1 E+6 4.8 E+10 3.7 E46 3.1 E+10 3.0 E+6 3.8 E+10 I - 133 8.9 E45 6.1 E45 9.6 E45 8.1 E+8 7.3 E+5 4.6 E+8 5.4 E45 5.3 E+8 I - 135 6.3 E45 1.0 E+7 1.6 E+5 6.4 E4 1.1 E45 7.2 E46 Unidentified 1.0 E+7 0 2.5 E+7 1.4 E+12 2.7 E+7 8.3 E4 2.5 E+7 4.7 E+11

• cren/yr
  • r8 - rrrm/yr p Ci/M pCi/sec 2-50 Rev. 4 1-29-82

Page 3 of 4 TABLE 2-6 Dose Paraneter Ri forIg(Sector Pathey Heat (Cattle) Pathay Distance 4.5 miles X4 1.2 E-7 DA) 3.7 E-10 Infant mild Teen Adult Radionuclide Inhalatim kod & Grurd Inhalatim kod & Grusd Inhalation kod & Grurd Inhalatim kod & Grurd 'Pathay

• • Pathay Pathay Pathay Pathay Pathway Pathey Pathway H

3 3.2 E+1 0 2.9 E42 0 2.5 E+2 0 3.8 E42 0 P - 32 1.0 E+5 0 1.3 E45 7.3 E+9 9.4 E4 3.4 E+9 6.6 E4 4.6 E+9 Cr - 51 1.8 E+1 2.3 E+5 5.4 E+1 6.5 E+5 1.5 E+2 1.1 E46 1.7 E42 1.8 E+6 m - 54 1.3 E+3 6.9 E+7 2.1 E+3 7.6 E+7 3.3 E+3 8.1 E+7 3.9 E+3 9.2 E+7 Fe - 59 1.2 E+3 1.1 E+7 1.7 E+3 5.4 E48 8.9 E+3 1.0 E+9 9.4 E+3 1.8 E+9 Eo - 58 5.6 E42 1.9 E+7 1.7 E+3 9.9 E+7 4.8 E+3 1.8 E48 5.3 E+3 3.3 E4 Co - 60 1.6 E+3 1.1 E+9 4.8 E+3 1.4 E+9 1.3 E4 1.7 E+9 1.4 E4 2.2 E+9 2h - 65 3.1 E+3 3.7 E+7 5.7 E+3 9.4 E+8 6.7 E+3 8.2 E+8 5.2 E+3 1.1 E+9 lb - 86 9.5 E+3 4.5 E+5 9.9 E+3 5.4 E+8 9.5 E+3 3.8 E48 6.8 E+3 4.6 E+8 Sr - 89 2.0 E44 1.1 E+3 3.0 E+3 4.1 E+8 2.2 E 4 2.2 E48 1.5 E4 2.6 E+8 Sr - 90 2.0 E46 0 5.1 E+6 8.6 E4 5.4 E46 6.7 E49 5.0 E+6 1.0 E+10 Y - 91 3.5 E+3 5.4 E4 9.2 E+3 2.0 E+8 2.0 E 4 3.3 E+8 1.9 E4 5.2 E+8 Zr - 95 1.1 E+3 1.3 E+7 3.1 E+3 5.5 E+8 7.4 E+3 9.3 E+8 7.5 E+3 1.6 E+9 Nb - 95 6.3 E42 6.8 E+6 1.8 E+3 2.0 E+9 4.8 E+3 3.7 E+9 5.2 E+3 6.8 E+9 Rv - 103 8.0 E42 5.4 E+6 2.2 E+3 3.5 E49 5.4 E+3 6.2 E49 5.5 E+3 1.1 E+10 Rv - 106 8.2 E+3 2.1 E+7 2.1 E4 5.6 E+10 4.8 E4 9.1 E+10 4.6 E4 1.5 E+11 As - 11m 1.7 E+3 1.7 E48 5.0 E+3 8.1 E+8 1.4 E4 1.3 E+9 1.5 E+4 2.3 E49 Cd - 1191 3.5 E+3 0 9.2 E+3 2.1 E+7 2.0 E A 3.5 E+7 1.9 E 4 5.3 E+7 Sn - 123 1.5 E4 0 2.4 E4 7.1 E+9 1.7 E4 5.7 E49 1.6 E4 4.1 E+9 Sn - 126 5.8 E 4 1.3 E+9 1.2 E+5 2.3 E+10 8.7 E 4 1.3 E+10 6.3 E4 1.6 E+10 Sb - 124 3.0 E+3 3.0 E+7 8.2 E+3 1.8 E+8 2.0 E4 3.0 E48 2.0 E4 5.0 E48 2 - 125 7.3 E+2 1.2 E+8 2.0 E+3 1.7 E+8 3.0 E+3 2.1 E+8 5.0 E+3 2.8 E48 T2 - 127M 1.9 E+3 4.6 E+3 3.2 E+3 5.0 E49 5.3 E+3 3.7 E+9 2.3 E+3 4.4 E49 T2 - 1291 1.6 E+3 9.8 E+5 2.5 E+3 4.9 E+9 2.6 E+3 3.7 E+9 1.8 E+3 4.5 E+9 Cs - 134 3.5 E4 3.4 E48 5.1 E4 1.5 E+9 5.6 E4 1.3 E49 4.2 E4 1.6 E49 Cs - 136 6.7 E+3 7.5 E46 8.5 E+3 5.0 E+7 9.7 E+3 4.3 E+7 7.3 E+3 5.3 E+7 Cs - 137 3.1 E4 5.1 E48 4.1 E4 1.6 E+9 4.2 E4 1.3 E49 3.1 E4 1.5 E49 Ba - 140 2.8 E+3 1.0 E 6 3.7 E+3 1.3 E+7 1.1 EA 3.6 E+7 1.1 E4 3.8 E+7 Ce - 141 1.1 E+3 6.8 E+5 2.8 E+3 1.3 E+7 6.3 E+3 2.1 E+7 6.0 E+3 3.3 E+7 Ce - 144 7.4 E+3 3.5 E+6 1.9 E4 1.5 E48 4.3 E 4 2.5 E+8 4.1 E4 3.9 E+8 i l I - 131 7.4 E+5 8.6 E+5 8.1 E+5 5.4 E+9 7.3 E+5 3.6 E+9 6.0 E45 5.0 E+9 I - 133 1.8 E45 1.2 E45 1.9 E45 1.2 E+5 1.5 E+5 1.2 E+5 1.1 E+5 1.2 E45 l I - 135 3.5 E4 1.3 E+5 4.0 E4 1.3 E45 3.1 E4 1.3 E45 2.2 E4 1.3 E45 l Widentified 2.0 E46 0 5.1 E+6 8.6 E+9 5.6 E46 6.7 E+9 5.0 E+6 1.0 E+10 rrren/yr

• • z8 - rrren/yr a

p Ci/M yCi/sec 2-51 Rev. 4 1-29-82

Page 4 of 4 TABLE 2-6 Ibse Praneter R for NMI Sector g Pathw/ Milk Pathay Distance 4.5 miles X4 1.2 E-7 D4 3.7 E-10 Infant mild Teen Mult Radimuclide Inhalatim Food & Grourd Inhalatim Ibod & Grusd Inhalation Tood & Grurd Inhalatim Tood & Grurd 'Pathay

• • Pathay Path e y Pathey Pathey Pathay Pathway Pathway 3

2.4 E+3 0 1.6 E+3 0 9.9 E42 0 7.6 E42 0 H P - 32 0 1.6 E+11 0 7.6 E+10 0 3.1 E+10 0 1.7 E+10 Cr - 51 0 4.2 E+6 0 4.8 E+6 0 7.5 E46 0 6.4 E46 m - 54 0 3.1 E+7 0 1.7 E+7 0 2.3 E+7 0 2.1 E+7 Te - 59 0 3.4 E48 0 1.7 E+8 0 2.5 E+8 0 2.0 E+8 Eo - 58 0 5.0 E+7 0 5.9 E+7 0 9.1 E+7 0 7.9 E+7 Co - 60 0 1.7 E48 0 1.9 E48 0 2.9 E48 0 2.4 E48 2h - 65 0 1.7 E+10 0 9.9 E+9 0 6.6 E+9 0 3.9 E+9 flb - 86 0 2.1 E+10 0 8.2 E+9 0 4.4 E+9 0 2.4 E+9 Sr - 89 0 1.1 E+10 0 5.6 E+9 0 2.3 E+9 0 1.2 E49 Sr - 90 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 Y - 91 0 4.4 E+6 0 4.4 E+6 0 5.4 E+6 0 4.0 E+6 Zr - 95 0 6.9 E+5 0 7.4 E+5 0 1.0 E46 0 8.0 E45 Nb - 95 0 1.8 E+8 0 2.0 E+8 0 2.9 E+8 0 2.4 E+8 Rv - 103 0 9.2 E+4 0 9.6 E44 0 1.3 E45 0 1.0 E45 Rv - 106 0 1.2 E+6 0 1.2 E+6 0 1.4 E46 0 1.1 E+6 Ag - 11CH 0 1.2 E+10 0 1.6 E+10 0 2.1 E+10 0 1.8 E+10 Cd - 1194 0 5.7 E+7 0 5.1 E+7 0 6.4 E+7 0 4.6 E+7 Si - 123 0 3.7 E49 0 2.0 E+9 0 1.2 E49 0 8.8 E48 Sn - 126 0 8.9 E+9 0 5.4 E+9 0 2.3 E+9 0 1.3 E+9 Sb - 124 0 5.4 E48 0 5.7 E+8 0 7.8 E48 0 6.1 E+8 Sb - 125 0 1.6 E+8 0 1.6 E+8 0 2.2 E48 0 1.8 E48 Ta - 127M 0 1.0 E+9 0 5.8 E48 0 3.3 E48 0 1.8 E48 Ta - 12 5 0 1.3 E+9 0 7.5 E+8 0 4.3 E+8 0 2.4 E+8 Cs - 134 0 5.4 E+10 0 2.9 E+10 0 1.8 E+10 0 1.1 E+10 cs - 136 0 5.5 E+9 0 2.6 E+9 0 1.7 E+9 0 9.9 E+8 cs - 137 0 4.9 E+10 0 2.5 E+10 0 1.4 E+10 0 8.1 E49 Ib - 140 0 2.3 E48 0 1.1 E4 0 7.2 E+7 0 5.3 E+7 Ce - 141 0 1.2 E+7 0 1.2 E+7 0 1.5 E+7 0 1.1 E+7 Ce - 144 0 1.1 E+8 0 1.0 E+8 0 1.3 E+8 0 9.6 E+7 I - 131 0 1.0 E+12 0 4.3 E+11 0 2.2 E+11 0 1.4 E+11 I - 133 0 9.6 E+9 0 3.9 E+9 0 1.7 E+9 0 9.9 E48 I - 135 0 2.0 E+7 0 8.5 E+6 0 3.7 E46 0 2.2 E46 thidentified 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 anren/yr

• • r8 - min /yr pCi/m uCi/sec 2-52 Rev. 4 1-29-82

l Page 1 of 1 I TABLE 2-7 Ibse Paraneter Rg fbr N, Sector Path wy Milk Pathwy Distance 4.5 miles X4 7.0 E-8 DM 3.5 E-10 Infant 0111d Teen Adult Rationuclide Inhalation road & Gromd Inhalatim kod & Growd Inhalation Rxx! & Gromd Inhalatim road & Grumd 'Pathay

• • Pathay Pathey Pathe y Pathay Pathway Pathe y Path 6ey H - 3 2.4 E+3 0

1.6 E+3 0 9.9 E42 0 7.6 E42 0 P - 32 0 1.6 E+11 0 7.6 E+10 0 3.1 E+10 0 1.7 E+10 Cr - 51 0 4.2 E46 0 4.8 E46 0 7.5 E46 0 6.4 E46 m - 54 0 3.1 E+7 0 1.7 E+7 0 2.3 E+7 0 2.1 E+7 re - 59 0 3.4 E48 0 1.7 E+8 0 2.5 E48 0 2.0 E48 Eo - 58 0 5.0 E+7 0 5.9 E+7 0 9.1 E+7 0 7.9 E+7 Co - 60 0 1.7 E48 0 1.9 E48 0 2.9 E48 0 2.4 E48 2h - 65 0 1.7 E+10 0 9.9 E+9 0 6.6 E+9 0 3.9 E+9 Rb - 86 0 2.1 E+10 0 8.2 E+9 0 4.4 E49 0 2.4 E49 Sr - 89 0 1.1 E+10 0 5.6 E+9 0 2.3 E+9 0 1.2 E+9 Sr - 90 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 Y-91 0 4.4 E46 0 4.4 E+6 0 5.4 E+6 0 4.0 E+6 Zr - 95 0 6.9 E45 0 7.4 E+5 0 1.0 E46 0 8.0 E45 Nb - 95 0 1.8 E+8 0 2.0 E+8 0 2.9 E+8 0 2.4 E+8 Rv - 103 0 9.2 E+4 0 9.6 E+4 0 1.3 E45 0 1.0 E45 Rv - 106 0 1.2 E46 0 1.2 E+6 0 1.4 E+6 0 1.1 E+6 Ag - 1101 0 1.2 E+10 0 1.6 E+10 0 2.1 E+10 0 1.8 E+10 Cd - 1191 0 5.7 E+7 0 5.1 E+7 0 6.4 E+7 0 4.6 E+7 & - 123 0 3.7 E+9 0 2.0 E+9 0 1.2 E49 0 8.8 E48 & - 126 0 8.9 E+9 0 5.4 E+9 0 2.3 E+9 0 1.3 E+9 Sb - 124 0 5.4 E+8 0 5.7 E+8 0 7.8 E48 0 6.1 E+8 Sb - 125 0 1.6 E+8 0 1.6 E+8 0 2.2 E+8 0 1.8 E48 Ta - 127H 0 1.0 E49 0 5.8 E46 0 3.3 E48 0 1.8 E48 T2 - 1291 0 1.3 E+9 0 7.5 E+8 0 4.3 E48 0 2.4 E+8 Cs - 134 0 5.4 E+10 0 2.9 E+10 0 1.8 E+10 0 1.1 E+10 Cs - 136 0 5.5 E+9 0 2.6 E+9 0 1.7 E+9 0 9.9 E+8 Cs - 137 0 4.9 E+10 0 2.5 E+10 0 1.4 E+10 0 8.1 E+9 BB - 140 0 2.3 E+8 0 1.1 E+8 0 7.2 E+7 0 5.3 E+7 Ge - 141 0 1.2 E+7 0 1.2 E+7 0 1.5 E+7 0 1.1 E+7 Ce - 144 0 1.1 E48 0 1.0 E48 0 1.3 E48 0 9.6 E+7 I - 131 0 1.0 E+12 0 4.3 E+11 0 2.2 E+11 0 1.4 E+11 I - 133 0 9.6 E+9 0 3.9 E+9 0 1.7 E+9 0 9.9 E+8 I - 135 0 2.0 E+7 0 8.5 E+6 0 3.7 E46 0 2.2 E46 thidetified 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 %ren/yr

• • d - nren/yr 3

pCi/m pCi/see 2-53 Rev. 4 1-29-82 j

Page 1 of 1 TABLE 2-8 Dose Paramete R for NNE Sector i Pathway Milk Pathw Distance 4.5 miles X4 6.0 E-8 D4 3.2 E-10 Infant 0111d Teen Adult Ra11onuclide Inhalatim Ibad & Grund Inhalatim Ibod & Grurd Inhalation Food & Grund Inhalatim Tood & Grourd ' Pathway 'dPathway Pathay Pathway Pathway Pathway Path ey Path 6ey 3 2.4 E+3 0 1.6 E+3 0 9.9 E+2 0 7.6 E+2 0 H P - 32 0 1.6 E+11 0 7.6 E+10 0 3.1 E+10 0 1.7 E+10 Cr - 51 0 4.2 E46 0 4.8 E+6 0 7.5 E4 0 6.4 E+6 m - 54 0 3.1 E+7 0 1.7 E+7 0 2.3 E+7 0 2.1 E+7 Te - 59 0 3.4 E+8 0 1.7 E+8 0 2.5 E48 0 2.0 E48 Eo - 58 0 5.0 E+7 0 5.9 E+7 0 9.1 E+7 0 7.9 E+7 Co - 60 0 1.7 E48 0 1.9 E46 0 2.9 E46 0 2.4 E+8 Zn - 65 0 1.7 E+10 0 9.9 E+9 0 6.6 E+9 0 3.9 E+9 ab - 86 0 2.1 E+10 0 8.2 E+9 0 4.4 E+9 0 2.4 E+9 Sr - 89 0 1.1 E+10 0 5.6 E+9 0 2.3 E 6 0 1.2 E+9 Sr - 90 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 Y-91 0 4.4 E46 0 4.4 E+6 0 5.4 E+6 0 4.0 E+6 Zr - 95 0 6.9 E+5 0 7.4 E+5 0 1.0 E46 0 8.0 E45 Nb - 95 0 1.8 E+8 0 2.0 E48 0 2.4 E48 0 2.4 E+8 Rv - 103 0 9.2 E+4 0 9.6 E+4 0 1.3 E6 0 1.0 E+5 Rv - 106 0 1.2 E+4 0 1.2 E+6 0 1.4 E+6 0 1.1 E+6 Ag - 11(N 0 1.2 E+10 0 1.6 E+10 0 2.1 E+10 0 1.8 E+10 Cd - 1191 0 5.7 E+7 0 5.1 E+7 0 6.4 E+7 0 4.6 E+7 & - 123 0 3.7 E49 0 2.0 E+9 0 1.2 E+9 0 8.8 E48 & - 126 0 8.9 E+9 0 5.4 E+9 0 2.3 E+9 0 1.3 E+9 Sb - 124 0 5.4 E+8 0 5.7 E48 0 7.8 E48 0 6.1 E48 Sb - 125 0 1.6 E+8 0 1.6 E+8 0 2.2 E+8 0 1.8 E+8 Ta - 127M 0 1.0 E+9 0 5.8 E48 0 3.3 E+8 0 1.8 E46 To - 1291 0 1.3 E+9 0 7.5 E48 0 4.3 E+8 0 2.4 F+8 Cs - 134 0 5.4 E+10 0 2.9 E+10 0 1.8 E+10 0 1.1 E+10 Cs - 136 0 5.5 E+9 0 2.6 E+9 0 1.7 E+9 0 9.9 E+8 Cs - 137 0 4.9 E+10 0 2.5 E+10 0 1.4 E+10 0 8.1 E+9 Be - 140 0 2.3 E+8 0 1.1 E+8 0 7.2 E+7 0 5.3 E+7 Ge - 141 0 1.2 E+7 0 1.2 E+7 0 1.5 E+7 0 1.1 E+7 Ce - 144 0 1.1 E+8 0 1.0 E48 0 1.3 E+8 0 9.6 E+7 I - 131 0 1.0 E+12 0 4.3 E+11 0 2.2 E+11 0 1.4 E+11 I - 133 0 9.6 E+9 0 3.9 E+9 0 1.7 E+9 0 9.9 E46 I - 135 0 2.0 E+7 0 8.5 E+6 0 3.7 E46 0 2.2 E46 thidatified 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 anren/yr

• • 8 - mrn/yr 3

pCi/m pCi/see 2-5h Rev. 4 1-29-82

Page 1 of 1 TABLE 2-9 Dose Paranete R fbr IE Sectcr i P they Milk Pathay Distance 4.5 miles X4 4.5 E-8 DM 2.9 E-10 Infant 0111d Teen Adult Radionuclide Inhalatim Food & Grourd Inhalation kod & Grotid Inhalaticri Rod & Ground Inhalatim food & Gromd 'Pathey

• • Pathay Pathay Pathway Padney Prsthey Pathey Pathay 3

2.4 E+3 0 1.6 E+3 0 9.9 E42 0 7.6 E42 0 H P - 32 0 1.6 E+11 0 7.6 E+10 0 3.1 E+10 0 1.7 E+10 Cr - 51 0 4.2 E46 0 4.8 E+6 0 7.5 E46 0 6.4 E46 fti - 54 0 3.1 E+7 0 1.7 E+7 0 2.3 E+7 0 2.1 E+7 re - 59 0 3.4 E+8 0 1.7 E48 0 2.5 E48 0 2.0 E48 Eo - 58 0 5.0 E+7 0 5.9 E+7 0 9.1 E+7 0 7.9 E+7 Co - 60 0 1.7 E+8 0 1.9 E+8 0 2.9 E+8 0 2.4 E+8 Zn - 65 0 1.7 E+10 0 9.9 E+9 0 6.6 E+9 0 3.9 E+9 Rb - 86 0 2.1 E+10 0 8.2 E49 0 4.4 E+9 0 2.4 E+9 l Sr - 89 0 1.1 E+10 0 5.6 E+9 0 2.3 E+9 0 1.2 E+9 Sr - 90 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 Y - 91 0 4.4 E+6 0 4.4 E+6 0 5.4 E+6 0 4.0 E46 Zr - 95 0 6.9 E+5 0 7.4 E+5 0 1.0 E46 0 8.0 E+5 Nb - 95 0 1.8 E+8 0 2.0 E48 0 2.4 E+8 0 2.4 E+8 Rv - 103 0 9.2 E+4 0 9.6 E44 0 1.3 E45 0 1.0 E45 Rv - 106 0 1.2 E+6 0 1.2 E+6 0 1.4 E+6 0 1.1 E+6 Ag - 1101 0 1.2 E+10 0 1.6 E+10 0 2.1 E+10 0 1.8 E+10 cd - 1191 0 5.7 E+7 0 5.1 E+7 0 6.4 E+7 0 4.6 E+7 31 - 123 0 3.7 E+9 0 2.0 E49 0 1.2 E+9 0 8.8 E48 Sn - 126 0 8.9 E+9 0 5.4 E+9 0 2.3 E+9 0 1.3 E+9 Sb - 124 0 5.4 E+8 0 5.7 E48 0 7.8 E48 0 6.1 E+8 Sb - 125 0 1.6 E+8 0 1.6 E48 0 2.2 E48 0 1.8 E48 T4 - 127H 0 1.0 E+9 0 5.8 E48 0 3.3 E46 0 1.8 E+8 T4 - 1291 0 1.3 E+9 0 7.5 E+8 0 4.3 E+8 0 2.4 E+8 Cs - 134 0 5.4 E+10 0 2.9 E+10 0 1.8 E+10 0 1.1 E+10 Cs - 136 0 5.5 E+9 0 2.6 E+9 0 1.7 E+9 0 9.9 E48 Cs - 137 0 4.9 E+10 0 2.5 E+10 0 1.4 E+10 0 8.1 E49 Ih - 110 0 2.3 E+8 0 1.1 E+8 0 7.2 E+7 0 5.3 E+7 Ce - 141 0 1.2 E+7 0 1.2 E+7 0 1.5 E+7 0 1.1 3+7 Ce - 144 0 1.1 E+8 0 1.0 E48 0 1.3 E+8 0 9.6 E+7 I - 131 0 1.0 E+12 0 4.3 E+11 0 2.2 E+11 0 1.4 E+11 I - 133 0 9.6 E+9 0 3.9 E+9 0 1.7 E+9 0 9.9 E+8 I - 135 0 2.0 E+7 0 8.5 E46 0 3.7 E46 0 2.2 E46 thideitified 0 1.0 E+11 0 9.3 E+10 0 5-5 E+10 0 3.9 E+10 2

• cren/yr
  • cf - rrrun/yr p Ci/M pCi/sec 2-55 Rev. 4 1-29-82

Page 1 of 1 TABLE 2-10 Ibse Paraneter R1 for DE_ Sector Pathay Milk Pathay Distance 4.5 miles X4 4.8 E-8 D4 3.4 E-10 Infarit 0111d Teen Adult Radionuclide Inhalatim Food & Gmrd Inhalatim Ibod & Gmad Inhalation Ibod & Gmsd Inhalation Ibod & Gmsd ' Pathway Hpathgy pathygy pathgy pathygy pgthygy pathygy pathgy 3 2.4 E+3 0 1.6 E+3 0 9.9 E42 0 7.6 E42 0 H 32 0 1.6 E+11 0 7.6 E+10 0 3.1 E,10 0 1.7 E+10 P Cr - 51 0 4.2 E+6 0 4.8 E46 0 7.5 E46 0 6.4 E4 fti - 54 0 3.1 E+7 0 1.7 E+7 0 2.3 E+7 0 2.1 E+7 Fe - 59 0 3.4 E48 0 1.7 E+8 0 2.5 E48 0 2.0 E48 Eo - 58 0 5.0 E+7 0 5.9 E+7 0 9.1 E+7 0 7.9 E+7 Co - 60 0 1.7 E+8 0 1.9 E+8 0 2.9 E48 0 2.4 E48 2n - 65 0 1.7 E+10 0 9.9 E+9 0 6.6 E+9 0 3.9 E+9 Rb - 86 0 2.1 E+10 0 8.2 E+9 0 4.4 E+9 0 2.4 E+9 fr - 89 0 1.1 E+10 0 5.6 E+9 0 2.3 E+9 0 1.2 E+9 Sr - 90 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 Y - 91 0 4.4 E+6 0 4.4 E+6 0 5.4 E+6 0 4.0 E+6 Zr - 95 0 6.9 E+5 0 7.4 E+5 0 1.0 E46 0 8.0 E+5 Nb - 95 0 1.8 E+8 0 2.0 E+8 0 2.9 E+8 0 2.4 E+8 Rv - 103 0 9.2 E+4 0 9.6 E+4 0 1.3 E+5 0 1.0 E45 Rv - 106 0 1.2 E+6 0 1.2 E+6 0 1.4 E+6 0 1.1 E+6 Ag - 1101 0 1.2 E+10 0 1.6 E+10 0 2.1 E+10 0 1.8 E+10 CJ - 115M 0 5.7 E+7 0 5.1 E+7 0 6.4 E+7 0 4.6 E+7 Sn - 123 0 3.7 E+9 0 2.0 E+9 0 1.2 E49 0 8.8 E48 Sh - 126 0 8.9 E+9 0 5.4 E+9 0 2.3 E+9 0 1.3 E+9 Sb - 124 0 5.4 E+8 0 5.7 E+8 0 7.8 E48 0 6.1 E+8 Sb - 125 0 1.6 E46 0 1.6 E+8 0 2.2 E+8 0 1.8 E46 Ta - 127M 0 1.0 E+9 0 5.8 E48 0 3.3 E48 0 1.8 E48 Ta - 1291 0 1.3 E+9 0 7.5 E+8 0 4.3 E+8 0 2.4 E48 Cs - 134 0 5.4 E+10 0 2.9 E+10 0 1.8 E+10 0 1.1 E+10 Cs - 136 0 5.5 E+9 0 2.6 E+9 0 1.7 E+9 0 9.9 E+8 CS - 137 0 4.9 E+10 0 2.5 E+10 0 1.4 E+10 0 8.1 E49 Ih - 140 0 2.3 E+8 0 1.1 E,8 0 7.2 E+7 0 5.3 E+7 Ce - 141 0 1.2 E+7 0 1.2 E+7 0 1.5 E+7 0 1.1 E+7 Ce - 144 0 1.1 E48 0 1.0 E46 0 1.3 E48 0 9.6 E+7 I - 131 0 1.0 E+12 0 4.3 E+11 0 2.2 E+11 0 1.4 E+11 I - 133 0 9.6 E+9 0 3.9 E+9 0 1.7 E+9 0 9.9 E+8 I - 135 0 2.0 E+7 0 8.5 246 0 3.7 E46 0 2.2 E46 thidentified 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 %ren/yr ag2 - nrm /yr pC1/rb pCi/sec 2-56 Rev. 4 1-29-82

Page 1 of 1 TABIE 2-11 Dose Paranete R for E Sector 1 Path ay Milk Pathay Distance 4.5 miles X4 5.8 E-8 D4 4.7 E-10 Infant Child Teen Adult Rajianuclide Inhalatim Food & Grusd Inhalatim Tood & Grted Inhalation Teod & Gnad Inhalatim food & Grusd 'Pathay 'Tathay Pathay Pathay Pathway Pathway Fathay Pathway H-3 2.4 E+3 0 1.6 E+3 0 9.9 E42 0 7.6 E42 0 P - 32 0 1.6 E+11 0 7.6 E+10 0 3.1 E+10 0 1.7 E+10 Cr - 51 0 4.2 E+6 0 4.8 E+6 0 7.5 E46 0 6.4 E46 m - 54 0 3.1 E+7 0 1.7 E+7 0 2.3 E+7 0 2.1 E+7 Te - 59 0 3.4 E+8 0 1.7 E+8 0 2.5 E+8 0 2.0 E+8 Eo - 58 0 5.0 E+7 0 5.9 E+7 0 9.1 E+7 0 7.9 E+7 Co - 60 0 1.7 E+8 0 1.9 E+8 0 2.9 E48 0 2.4 E+8 2h - 65 0 1.7 E+10 0 9.9 E+9 0 6.6 E+9 0 3.9 E+9 Rb - 86 0 2.1 E+10 0 8.2 E+9 0 4.4 E+9 0 2.4 E+9 Sr - 89 0 1.1 E+10 0 5.6 E+9 0 2.3 E+9 0 1.2 E+9 Sr - 90 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 Y-91 0 4.4 E+6 0 4.4 E+6 0 5.4 E+6 0

• i.0 E+6 Zr - 95 0

6.9 E+5 0 7.4 E+5 0 1.0 E+6 0 8.0 E45 Nb - 95 0 1.8 E+8 0 2.0 E+8 0 2.9 E+8 0 2.4 E+8 Rv - 103 0 9.2 E+4 0 9.6 E+4 0 1.3 E45 0 1.0 E45 Ry - 106 0 1.2 E+6 0 1.2 E+6 0 1.4 E+6 0 1.1 E+6 Ag - 110'! O 1.2 E+10 0 1.6 C+10 0 2.1 E+10 0 1.8 E+10 Cd - 1191 0 5.7 E+7 0 5.1 E+7 0 6.4 E+7 0 4.6 E+7 fh - 123 0 3.7 E+9 0 2.0 E+9 0 1.2 E49 0 8.8 E+8 Sn - 126 0 8.9 E+9 0 5.4 E+9 0 2.3 E+9 0 1.3 E+9 Sb - 124 0 5.4 E+8 0 5.7 E+8 0 7.8 E+8 0 6.1 E+8 Sb - 125 0 1.6 E+8 0 1.6 E+8 0 2.2 E+8 0 1.8 E+8 T2 - 127M 0 1.0 E+9 0 5.8 E48 0 3.3 E+8 0 1.8 E+8 Ta - 1291 0 1.3 E+9 0 7.5 E+8 0 4.3 E+8 0 2.4 E+8 Cs - 134 0 5.4 E+10 0 2.9 E+10 0 1.8 E+10 0 1.1 E+10 Cs - 136 0 5.5 E+9 0 2.6 E+9 0 1.7 E+9 0 9.9 E+8 Cs - III O 4.9 E+10 0 2.5 E,10 0 1.4 E+10 0 8.1 E+9 th - 140 0 2.3 E+8 0 1.1 E+8 0 7.2 E+7 0 5.3 E+7 Ce - 141 0 1.2 E+7 0 1.2 E+7 0 1.5 E+7 0 1.1 E+7 Ce - 144 0 1.1 E+8 0 1.0 E+8 0 1.3 E+8 0 9.6 E+7 I - 131 0 1.0 E+12 0 4.3 E+11 0 2.2 E+11 0 1.4 E+11 I - 133 0 9.6 E+9 0 3.9 E+9 0 1.7 E+9 0 9.9 E+8 I - 135 0 2.0 E+7 0 8.5 E+6 0 3.7 E46 0 2.2 E46 thidentified 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 2 %ren/yr 'Nf - mm/yr p Ci/M pCi/sec 2-57 Rev. 4 1-29-82

Page 1 of 2 TABLE 2-12 Dose Paramete Ri ibr g Sector Path ay Cap Store Distance .60 miles X4 3.1 E-6 DA) 2.8 E-8 Infant 0111d Teen Adult Rationuclide Inhalatim Ibod & Grund Inhalatim Food & Grtxad Inhalation Tbod & Grund Inhalation Ibod & Gromd ' Pathway

• • Pathway Pathay Patha y Pathway Pathway Patha y Pathay 3

1.5 E42 0 2.6 E+2 0 2.9 E42 0 2.9 E42 0 H P-3? 4.6 E+5 0 5.9 E+5 0 4.3 E+5 0 3.0 E45 0 Cr - 51 8.2 E+1 1.1 E4 2.5 E42 1.1 E+6 6.8 E42 1.1 E46 7.6 E+2 1.1 E+6 Hi - 54 5.8 E+3 3.2 E48 9.8 E+3 3.2 E+8 1.5 E4 3.2 E+8 1.8 E 4 3.2 E+8 l' - 59 5.4 E+3 6.2 E+7 7.6 E+3 6.2 E+7 4.1 E4 6.2 E+7 4.3 E4 6.2 E+7 e Eo - 58 2.5 E+3 8.7 E+7 7.8 E+3 8.7 E+7 2.2 E4 8.7 E+7 2.4 Ev4 8.7 E+7 Co - 60 7.3 E+3 4.9 E+9 2.2 E4 4.9 E+9 5.9 E44 4.9 E+9 6.5 E4 4.9 E+9 2h - f6 1.4 E4 1.7 E+8 2.6 E 4 1.7 E+8 3.1 E4 1.7 E+8 2.4 E4 1.7 E48 Ilb - 86 4.3 E4 2.1 E46 4.5 E4 2.1 E+6 4.3 E4 2.1 E+6 3.1 E4 3.1 E+6 Sr - 89 9.1 E4 4.9 E+3 1.4 E+5 4.9 E+3 9.9 E4 4.9 E+3 6.9 E 4 4.9 E+3 Sr - 90 9.3 E+6 0 2.3 E+7 0 2.5 E+7 0 2.3 E+7 0 Y - 91 1.6 E 4 2.3 E+5 4.2 E 4 2.5 E+5 9.3 E 4 2.5 E45 8.8 E 4 2.5 E45 Zr - 95 5.0 E+3 5.7 E+7 1.4 E4 5.7 E+7 3.4 E4 5.7 E+7 3.4 E4 5.7 E+7 Nb - 95 2.9 E+3 3.1 E+7 8.4 E+3 3.1 E+7 2.2 E4 3.1 E+7 2.4 E4 3.1 E+7 Ru - 103 3.7 E+3 2.5 E+7 1.0 E4 2.5 E+7 2.5 E4 2.5 E+7 2.5 E4 2.5 E+7 lb - 106 3.7 E 4 9.7 E+7 9.8 E 4 9.7 E+7 2.2 E+5 9.7 E+7 2.1 E45 9.7 E+7 Ag - 1101 7.5 E+3 7.9 E+8 2.3 E4 7.9 E48 6.2 E4 7.9 E+8 6.9 E4 7.9 E48 Cd - 11 $ 1.6 E 4 0 4.2 E 4 0 9.3 E4 0 8.0 E 4 0 Sn - 123 6.7 E4 0 1.1 E+5 0 7.6 E4 0 7.2 E4 0 Sn - 126 2.7 E45 6.0 E+9 5.3 E45 6.0 E+9 4.0 E+5 6.0 E+9 2.9 E+5 6.0 E+9 SD - 124 1.3 E4 1.4 E+8 3.7 EA 1.4 E+8 9.1 E4 1.4 E48 9.3 E4 1.4 E48 Sb - 125 3.4 E+3 5.3 E+8 4.2 E+3 5.3 E+8 2.3 E4 5.3 E46 2.3 E4 5.3 E48 T2 - 127H 8.6 E+3 2.1 E4 1.5 E4 2.1 E44 1.5 E4 2.1 E44 1.0 E44 2.1 E4 T2 - 1291 7.3 E+3 4.5 E+6 1.1 E4 4.5 E46 1.2 E+4 4.5 E46 8.3 E+3 4.5 E+6 Cs - 134 1.6 E+5 1,6 E+9 2.3 E+5 1.6 E49 2.6 E45 1.6 E+9 1.9 E45 1.6 E49 Cs - 136 3.1 E4 3.4 E+7 3.4 E4 3.4 E+7 4.4 E4 3.4 E+7 3.3 E 4 3.4 E+7 Cs - 137 1.4 E45 2 3 E+9 1.9 E+5 2.3 E+9 1.9 E45 2.3 E+9 1.4 E+5 2.3 E+9 Ba - 140 1.3 E 4 4.7 E+6 1.7 E 4 4.7 E46 5.2 E4 4.7 E+6 5.0 E4 4.7 E46 c2 - 141 4.9 E+3 3.1 E+6 1.3 E4 3.1 E46 2.9 E4 3.1 E46 2.7 E4 3.1 E46 Ce - 144 3.4 E4 1.6 E+7 8.9 E+4 1.0 E+7 2.0 E+5 1.6 E+7 1.9 E45 1.6 E+7 I - 131 3.4 E46 3.9 E46 3.7 E46 3.9 E46 3.3 E46 3.9 E+6 2.7 E46 3.9 E46 I - 133 8.1 E45 5.6 E+5 8.8 E+5 5.6 E45 6.7 E+5 5.6 E+5 4.9 E45 5.6 E45 I - 135 1.6 E45 5.8 E+5 1.8 E45 5.8 E45 1.4 E45 5.8 E45 1.0 E45 5.8 E45 thidentified 9.3 E46 0 2.3 E+7 0 2.7 E+7 0 2.3 E+7 0 2 arren/yr

• • cf - rren/yr y C1/h pC1/sec 2-58 Rev. 4 1-29-82

Page 2 of 2 TABLE 2-12 Ib.se Pranete Rg for g i Sector Pathway Milk Pathwy Distance 4.5 miles X4 7.0 E 8 DM 5.8 E-10 Infant Q111d Teen Adult Radionuclide Inhalatim kod & Grutrd Inhalatim Rod & Ground Inhalation Tood & Gromd Inhalatim Rxx! & Gromd 'Pathbey "Pathley Pathbay Path 6ey Pathley Pathway Pathley Pathway 3 2.4 E+3 0 1.6 E+3 0 9.9 E42 0 7.6 E42 0 H P - 32 0 1.6 E+11 0 7.6 E+10 0 3.1 E+10 0 1.7 E+10 Cr - 51 0 4.2 E46 0 4.8 E46 0 7.5 E46 0 6.4 Et6 m - 54 0 3.1 E+7 0 1.7 E+7 0 2.3 E+7 0 2.1 E+7 re - 59 0 3.4 E+8 0 1.7 E+8 0 2.5 E48 0 2.0 E+8 Eo - 58 0 5.0 E+7 0 5.9 E+7 0 9.1 E+7 0 7.9 E+7 Co - 60 0 1.7 E+8 0 1.9 E+8 0 2.9 E+8 0 2.4 E48 Zn - 65 0 1.7 E+10 0 9.9 E+9 0 6.6 E+9 0 3.9 E+9 Rb - 86 0 2.1 E+10 0 8.2 E+9 0 4.4 E+9 0 2.4 E+9 Sr - 89 0 1.1 E+10 0 5.6 E+9 0 2.3 E+9 0 1.2 E+9 Sr - 90 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 Y - 91 0 4.4 E+6 0 4.4 E+6 0 5.4 E+6 0 4.0 E+6 Zr - 95 0 6.9 E45 0 7.4 E+5 0 1.0 E+6 0 8.0 E45 Nb - 95 0 1.8 E+8 0 2.0 E+8 0 2.9 E+8 0 2.4 E48 Rv - 103 0 9.2 E+4 0 9.6 E44 0 1.3 E45 0 1.0 E45 Rv - 106 0 1.2 E+6 0 1.2 E+6 0 1.4 E+6 0 1.1 E+6 Ag - 1101 0 1.2 E+10 0 1.6 E+10 0 2.1 E+10 0 1.8 E+10 Od - 1191 0 5.7 E+7 0 5.1 E+7 0 6.4 E+7 0 4.6 E+7 Sn - 123 0 3.7 E+9 0 2.0 E+9 0 1.2 E+9 0 8.8 E+8 Sn - 126 0 8.9 E+9 0 5.4 E+9 0 2.3 E+9 0 1.3 E+9 Sb - 124 0 5.4 E+8 0 5.7 E48 0 7.8 E48 0 6.1 E46 Sb - 125 0 1.6 E+8 0 1.6 E48 0 2.2 E+8 0 1.8 E48 Ta - 127H 0 1.0 E+9 0 5.8 E+8 0 3.3 E48 0 1.8 E48 TJ - 1291 0 1.3 E+9 0 7.5 E46 0 4.3 E48 0 2.4 E48 Cs - 134 0 5.4 E+10 0 2.9 E+10 0 1.8 E+10 0 1.1 E+10 Cs - 136 0 5.5 E+9 0 2.6 E+9 0 1.7 E+9 0 9.9 E+8 Cs - 137 0 4.9 E+10 0 2.5 E+10 0 1.4 E+10 0 8.1 E+9 Be - 140 0 2.3 E+8 0 1.1 E+8 0 7.2 E+7 0 5.3 E+7 Ce - 141 0 1.2 E+7 0 1.2 E+7 0 1.5 E+7 0 1.1 E+7 Ce - 144 0 1.1 E+8 0 1.0 E+8 0 1.3 E+8 0 9.6 E+7 I - 131 0 1.0 E+12 0 4.3 E+11 0 2.2 E+11 0 1.4 E+11 I - 133 0 9.6 E+9 0 3.9 E+9 0 1.7 E+9 0 9.9 E48 l I - 135 0 2.0 E+7 0 8.5 E46 0 3.7 E+6 0 2.2 E46 Unidentified 0 1.0 E+11 0 9.3 E+10 0 5.5 E+10 0 3.9 E+10 a F - nrm /yr arrm/yr n uCi/h pCi/sec 2-59 Rev. 4 1-29-82

TABE 2-13 PARMEIliRS USED TO CAlfUULTE Rg Paraneter Residence Beach Camp Store Vegetable Meat Milk YL 2.0 (default) 2.0 2.0 2.0 2.0 2.0 W 2.0 (default) 2.0 2.0 2.0 2.0 2.0 W 0.7 (default) 0.7 0.7 0.7 0.7 0.7 E 2.0 (default) 2.0 2.0 2.0 2.0 2.0 GC 50 (default) 50 50 50 50 50 CE 6 (default) 6 6 6 6 6 H 8.0 (default) 8.0 8.0 8.0 8.0 8.0 GF 1.00 .0594 .228 .25 0.05 0 ZIN 1.00 .0594 .228 .25 0.05 0 FY 1.00 0 0 1.00 0 0 FP 0 0 0 0 0 1.00 10 0.76 0 0 0.76 0 0 FPF 0 0 0 0 0 1.00 IUT 0 0 0 0 0 0 F10 0 0 0 0 0 0 FB 0 0 0 0 1.00 0 FBF 0 0 0 0 1.00 0 ?UIE: Paranetes defined cm) Page M of NLRED-4133 'l 2-60 Rev. 4 1-29-82

3.0 PROJECTED DOSES 3.1 Liquid Dose Projection (3.11.1.3) s The methodology used for projecting a liquid dose for specification 3.11.1.3 is as follows: 1. Determine the average monthly release for the previous twelve months for each radionuclide. i 2. Using the average monthly release, project a dose using the methodology of Section 1.2 3.2 Gaseous Data Projection (3.11.2.4) The methodology used for projecting a gaseous dose for specification 3.11.2.4 is as follows: 1. Determine the average monthly release for the previous twelve months for each radionuclide. 2. Using the average monthly release, project a dose using the methodology of Sections 2.3.1.1 and 2.3.2.1. 3-1 Bev. 4 1-29-81

. z-4.0 OPERABILITY OF EQUIPMENT ~ 1 a s. The flow diagr,ams defining the treatshr.t. paths and tne caponents of the radioactive liquid, gaseous and solid waste managements.3ystems are shown in Figures 4-1 thru 4-3 \\ I v 'i .u s 'o A + T t i 4-1 Rey, 4 1-29-82 - +. -. .m

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( 5.0 RADIOLOGICAL DIVIRONMENTAL MONITORING ~ The Radiological Environmental' Monitoring Sample Locations are identified in Figures 5-1A. 5-1B, 5-2 and 5-3 These sammple locations are described in Table 5-1 and indicate the direction from the center of the Units 2&3 building complex. 4 5-1 Rev. II 1-29-82

Page 1 of 6 TABLE 5-1 RADIOLOGICAL ENVIRONMENTAL MONITORING SAMPLE LOCATIONS Distance Type.of Sample' and Sampling Location (M1) Direction Airborne 4 City of San Clemente 5.0 IN C 5 Camp San onofre 2.3 NE = 6 Huntington Beach Generating Station 37 WNW 2 Unit 1 East Site Boundary 0.1 NNE 3 Units 2/3 Switchyard 0.13 ESE 1 Unit 1 Meteorological Tower 0.3 NW Soil Samples hCampSanOnofre .3.0 NE h Old Route 101 3.0 SE h Basilone Road Freeway Offramp 1.6 NW h Huntington Beach Generating Station 37 WNW Site Boundary 0.1 NNE I l Ocean Water Station Discharge Outfall - Unit 1 0.5 SW Newport Beach 30 'NW houtfall-Unit 2 0.7 SW hOutrall.-Unit 3 0.7 SW 5-2 Rev. 4 1-29-82 i

Page 2 of 6 TABLE 5-1 (cont'd.) RADIOLOGICAL ENVIRONMENTAL MONITORING SAMPLE LOCATIONS Distance Type of Sample and Sampling Location (M1) Direction Direct Radiation hPostOffice-DanaPoint 10.5 NW hHuntingtonBeachGeneratingStation 37 WNW Reservoir 0.1 NW h San Onofre State Beach (Unit 1 North) ' 0.1 NW hBluff 0.5 NW h Noncommissioned Officers Beach Club 1.0 NW h Basilone Road Freeway Offramp 1.6-NW hSanOnofreSchool 1.7 NW h.CoastGuardStation-SanClemente 3.0 NW Concordia School - San Clemente 4.0 NW San Clemente City 5.0 NW h Convalescent liome - San Clemente 5.5 NW hFishingPier-SanClemente 5.0 NW l hGeneralHospital-SanClemente 8.0 NW h Fire Station #29 - Capistrano Beach 10.0 NW h Fire Station - Laguna Beach ~14.0 NW. I h Fire Station " santa Ana 32.0 NW 5-3 g,y, 4 1-29-82

Page 3 of 6 TADLE 5-1 (cont'd.) RADIOLOGICAL ENVIRONMENTAL MONITORING SAMPLE. LOCATIONS Distance Type of Sample and Sampling Location (Mi) Direction Water Tank - San Clemente 5.0 NNW h High School - San Clemente 6.0 NNW h Foster Marco Jr. High School - 11.0 NW Dana Point h Fire Station #7 - San Juan Capistrano 12.0 NW h Fire Station - Mission Viejo 19.0 hNW Japanese Mesa 1.0 NNE h Camp San Mateo 3.8 N h Camp Talega 6.0 N h Visitors Center 0.2 NNE h Trailer Park (San Onofre Canyon) 1.4 NNW h Observation Tower (San Mateo Canyon) 4.0 NNE h Camp San Onofre 3.0 NE h Observation Tower (San Onofre Canyon) 4.0 NE h Camp Pendleton 4.0 ENE h Cs.1p Pendleton 4.0 E h Camp Horne -4.5 E h Fire Station - Fallbrook 18.0 E h Old Route 101 0.5 ESE h San Onofre State Beach Park 1.5 ESE h Camp Las Pulgas 8.8 ESE Rev. 4 1-29-82

Page 4 of 6 TABLE 5-1 (cont'd.) RADIOLOGICAL ENVIRONMENTAL MONITORING SAMPLE LOCATIONS Distance Type of Sample and Sampling Location (Mi) Direction 22 Area (Camp Pendleton) 13.0 ESE h Main Side (Camp Pendleton) 15.0 ESE h Vista 21 ESE h Escondido 30 ESE Site Boundary 0.13 SE Interstate 5 (0.2 Mi. SE of Station) 0.2 SE South Edge of Switchyard 0.2 SE SE Site Boundary 0.5 SE h San Onofre Weigh Station 3.0 SE h Old Route 101 3.0 SE Old Highway 101 (5 Mi, South of Station) 5.0 SE h Camp Las Flores (Camp Pendleton) 9.0 SE Oceanside 18.0 SE h Carlsbad 19.0 SE h San Diego 45 SE San Onofre State Beach (Unit 3) 0.1 S SSW Site Boundary 0.1 SSW San Onofre State Beach (Unit 2) 0.1 SW San Onofre State Beach (Unit 1 South) 0.1 W l Transit, Dose Transit Dose l 5-5 Rev. 4 1-29-82

Page 5 of 6 TABLE 5-1 (cont'd.) RADIOLOGICAL ENVIRONMENTAL MONITORING SAMPLE LOCATIONS Distance Type of Sample t.nd Sampling Location (Mi) Direction DrinkingWaterh h Tri-Cities Municipal Water District 8.7 NW Reservoir h Huntington Beach 37 WNW Ground Waterh h Local Well 3.5 NW Control 20 SE Sediment from Shoreline f Station Beach 0.5 SE Surfing Beach 1.4 NW h San Onofre State Beach 4.1 SE ' Newport Beach 30 NW 4 Local Crops a h San Mateo Canyon 2.1 NW h Near Oceanside 23 SE ~ Rev. 4 1-29-82

i Page 6 of 6 TABLE 5-1 (cont'd.) RADIOLOGICAL ENVIRONMENTAL MONITORING SAMPLE LOCATIONS Distance Type of Sample and Sampling Location (Mi) Direction Non-Migratory Marine Animals Station Discharge Outfall - Unit 1 0.6 SW B Outfall -' Units 2/3 0.7 SW ~ C Newport Beach 30 NW Kelp b k San Mateo Kelp Bed 2.9 WNW h Barn Kelp Bed 6.6 SSE h San Onofre Kelp Bed 1.6 SSW h Newport Beach 30 NW Ocean Bottom Sediments h h East of Station Discharge Outra)1 0.5 SW l West of Station Discharge Outfall 0.6 SW Newport Beach 30 WNW j Outfall - Unit 2 0.8 WSW h Outfall - Unit 3 0.9 S i hLocalVegetation 0.7 N i 0.5 E Rabbit C.D 0.5 'E i ( 5-7 g,y, y j' 1-29-82 l

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