Proposed Offsite Dose Calculation Manual

ML20042A189
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Site:	Shoreham File:Long Island Lighting Company icon.png
Issue date:	03/15/1982
From:	LONG ISLAND LIGHTING CO.
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ML20042A185	List: ML20042A184 ML20042A189
References
SNPS-1-ODCM, NUDOCS 8203230188
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LONG ISLAND LIGHTING COMPANY 4

OFFSITE DOSE CALCDLATION MANUAL I

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SNPS-1 ODCM N

TABLE OF CONTENTS Radiological Effluent Tecnnical Specification Section Subiect Section Page

1.0 INTRODUCTION

1-1 2.0 SET POINTS 2-1 2.1 LIQUID EFFLUENT SET POINT 3.3.7.11 2-1 2.1.1 Liquid Radwaste Eftluent Line Flow 2-1 Indicator Set Point 2.1.1.1 Liquid Radwaste Discharge Radiation 2-2 Monitor Set Point 2.1. 2 Reactor Building Salt Water Drain 2-3 Tank Discharge Monitor Set Point 2.1. 2.1 Batch Release 2-3 2.1. 2. 2 Non batch Release 1-4 2.1.3 Residual Heat Removal Heat Exchanger 2-4 Service Water Outlet Monitor Set Point 2.2 GASEOUS EFFLUENT MONITOR SET POINT 3.3.7.12 2-5

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2.2.1 Method 1 (Computerized Method) 2-5 2.2.1.1 Gaseous Ettluent Monitor Set Point 2 -6 s-Based on Noble Gases Total Body Dose Rate 1

2.2.1.2 Gaseous Ef tluent Monitor Set Point 2-b i

Based on Noble Gases Skin Dose Rate 2.2.1.3 Gaseous Eftluent Monitor Set Point 2-7 Based on Organ Dose Rate 2.2.2 Method 2 (Nonccmputerized Metnod) 2-7 2.2.2.1 Gaseous Effluent Monitor Set Point 2-7 Based on Noble Gases Total Body Dose Rate 2.2.2.2 Gaseous Eftluent Monitor Set Point 2-9 Based on Noble Gases Skin Dose Rate 2.2.2.3 Gaseous Effluent Monitor Set Point 2-10 Based on Organ Dose Rate 3.0 DOSE CALCULATION METHODS 3-1 3.1 LIQUID EFFLUENT DOSE CALCULATION 3.11.1.2 3-1 3.1.1 Method 1 (Computerized Metnod) 3-1 3.1.2 Method 2 (Noncomputerized Method) 3-3 3.2 OPERATION OF LIQUID WASTE TREATMENT 3.11.1.3 3-4 SUBSYSTEMS g

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3.3 DOSE RhTE DUE TO GAbtOUS EFFLUENTS 3-4 3.3.1 Methoa 1 (Computerized Method)

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SNPS-1 ODCM m

Raciological 1

Effluent Technical Specitication Section Subiect Sec'ign Page 3.3.1.1 Noble Gas Total Body and Skin Dose 3.11.2.1 3-4 Rate 3.3.1.2 Organ Dose Rate (Particulate 3.11.2.1 3-5 Releases) 3.3.2 Method 2: (Noncomputerized Method) 3-5 3.3.2.1 Nonle Gas Total Body Dose Rate 3.11.2.1 3-5 3.3.2.2 Noble Gas Skin Dose Rate 3.11.2.1 3-7 3.3.2.3 Organ Dose Rate (Particulate 3.11.2.1 3-9 Releases) 3.4 GASEOUS EFFLUENTS, NOBLE GAS AIR DOSE 3-11 3.4.1 Method 1: (Computerized Method) 3-12 3.4.1.1 Noble Gas Gamma and Beta Air Dose 3.11.2.2 3-12 3.4.2 Method 2: (Noncomputerized Method) 3-12 3.4.2.1 Noble Gas Gamma Air Dose 3.11.2.2 3-12 3.4.2.2 Noble Gas Beta Air Dose 3.11.2.2 3-14 3.5 GASEOUS EFFLUENT, DOSE DUE TO 3-1b RADIOIODINES AND RADIOAL7IVE MATERIALS IN PARTICULATE FORM, O

AND RADIONUCLIDES 3.5.1 Method 1: (Computerized Method) 3-16 3.5.1.1 Organ Doses 3.11.2.3 3-16 3.5.2 Method 2: (Bacxup Method) 3-20 3.5.2.1 Organ Doses 3.11.2.3 3-20 3.6 OPERATION OF VENTILATION EXHAUST 3.11.2.5 3-23 TREATMENT SYSTEM 4.0 RECEPTOR LOCATIONS, METEOROLOGY AND 4-1 l

HYDROLOGY 5.0 RADIOLOGICAL ENVIRONMENTAL MONITORING PRUGRAM dAMPLING LOCATIONS 5-1 l

l ii

S;PS-1 ODCM LIST OF TABLES Tacle Title 2.2-1 Dose Factors

or Exposure to a Semi-Inrinite Cloud of Uccle Gases 3.1-1 3 oaccumulation Factors to he Used in tne Absence of Site-Specific Data 3.1-2 Ingestion Dose Factors for Adults 3.1-3 Ingestion Dose Factors for Teenager 3.1-4 Ingestion Dose Factors for Child t

l 3.1-5 Decay Constants 3.1-6 External Dose Factors for Standing on Contaminated Ground 3.1-7 Dose Rate Conversion

Factors, A

for (Fish and T

Invertebrate) Ingestion Pathway 3.3-1 Child Inhalation Dose Rate Conversion Factors, Plj 3.4-1 Noble Gas Dose Factors 3.5-1 Inhalation Dose Factors for Adulta 3.5-2 Inhalation Dose Factors for Teenager 3.5-3 Inhalation Dose Factors for Child 3.5-4 Inhalation Dose Factors for Infant 3.5-5 Recomunended Values for U to be Used for the Maximum Exposed Individual in Lieu of Site-Specific Data 3.5-6 Stable Element Transfer Data 3.5-7 Humidity Parameters at Receptors 3.5-8 Child Inhalation Dose Rate Conversion Factors, Pij 3.5-9 Poij Cone==4nated Ground, Ingestion of Leafy and Stored Vegetables Dose Rate Conversion Factors 3.5-10 Distance from Reactor Centerline by Sector Out to 80% m 3.5-11

Poij, Child Ingestion of Cow *s Milk Dose Rate Conversion Factors iii

3:iPS-1 GCC!!

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',IST OF T':2*25 f CCMT

• D)

Tasle Title 3.5-12

2c13, Child Ingesticn c-Goat's

111x Ccsa Rate l

Conversion Factors 1

l 3.5-13

Poij, Child Ingssticn of Meat Dese Rate Ccnversion j

Factors i

3.5-14

Poij, Inzant Ingestion of Cow's Mi.Lc Dose Conversion Factors 3.5-15

Polj, Infant Ingestion of Goat's Milk Dose Conversion Factors i

4-1 Critical Receptor Locations for Gaseous Effluent l

Calculations i

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i SIGS-1 CDCM LIST C? FIGUF2s Ficure Title 3.1-1 Site Boundary for L1:;uid Effluents 3.2-1 Idquid Radwaste Treat:nent Syctem 3.6-1 Ventilation Exnaust Treatment Svstem 5-1 On Site Sampling Lcestions - Radiological Environmental Monitoring Program 5-2 Off Site Sampling Lccations - Radiological i

Environmental Monitoring Program L

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r-l SUPS-1 CDCM 1.0 I:rrRODLCTION Tne purpose of this manual is to snow the calculational methocology and parameters used to comply with tne Radiological E::luent Tecnnical Spec 1:1caticn (RETS).

Section 2.0 establishes mennods to calculate the Liquid S :luent Monitor setpoint and the Gaseous rffluent Monitor setpoint in order to comply with RETS Sections 3.3.7.11 and 3.3.7.12, respectively.

Section 3.0 establishes dose calculational methods for liquid and gaseous ettluents.

The liquid erfluents dose calculation methods,

are used to show compliance with RETS Sections 3.11.1.2 and 3.11.1.3.

Tne dilution factor of 8.85 used in calculation Method 2

is a calculated value based on a submerged, multiport ditfuser with a port discharge velocity of 12 fps and a

300 tt radius mixing zone.

The gaseous effluent dose calculation methods are used to show compliance with RETS Sections 3.11.2.1, 3.11.2.2, and 3.11.2.3.

The atmospheric dispersion and deposition factors used in calculation methods were calculated based on onsite meteorological data for the 2 year period October 1, 1973 -

September 30, 1975.

Section 4.0 identifies the receptor locations which represent critical pathway locations, water

dilution, atmospheric dispersion, and deposition factors used in calculation Method 2.

Table 4-1 sunscarizes the above factors for the gaseous effluent pathways.

Section 5.0 indicates locations at which environmental sampling may be conducted.

Tables 3.5-11 through 3.5-15 are incorporated only for future use if there is a enange in the land use census which requires l

considering any combination of the following pathway (s) : cows

• l milk; goats

• milk; and meat.

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1-1

SNPS-1 ODCM 2.0 SET POINTS

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2.1 LIQLID EFFLUENT SET POINT (Compliance with Sections 3.3.7.11 and 3.11.1.1 of the Radiological Ettluent Technical Specitication (RETS)

The radionuclide concentrations released into Long Island Sound via the dittuser may not exceed the concentrations specified in 10 CFR20, Appendix B, Table II, Column 2 and 2.00E-04 gCi/ml for dissolved or entrained noble gases.

The alarm set point of the ettluent monitors is dependent on:

1.

circulating water 110w rate, 2.

discharge waste sample tank flow rate, 3.

1sotopic composition of liquid to be discharged, and 4

the maximum permissible concentration (MPC) or tne radionuclides in the effluent.

2.1.1 Liquid Radwaste Etfluent Line Flow Indicator Set Point (FE-179)

A sample will De taken of the liquia to De discharged and an f-gj isotopic analysis performed.

Using the results or the isotopic

analysis, calculate the rollowing:

C C

C C

a y

n MPC MPC

+ MPC

++ MPC A

B n

where:

C C b, etc. = concentration or the individual radio a,

nuclides loentiried (uCi/ml), and MPC A, MPCg, etc. = maximum permisr tf-, e <:oncentration of the respective racionuclides

!, 's /..t) trom

10CFR20, Appendix b,

Table II, Colt iti

/

For dissolved or entrained noble gases, the MPC

.s b u. c. :w will ne 2.006-04.

C The quantity MPC is numerically equivalent to the required allution factor (i.e., circulating water flow rate / tank discharge Ilow rate).

O)

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Obtain tne circulating water disenarge flow rate Irom the centrol

's room.

2-1

SNPS-1 ODCM Calculate the radwaste discharge isolation release rate as tollows:

Cire. Water Flow (qpm) *

.8 Isolation Release Rate (gpm)

_C

=

MPC This isolation release rate is the maximum discharge pump release rate which would discharge the tanx contents at exactly 80 percent of the MPC permitted in 10CFR20, Appendix B, TaDle II, Column 2 and 2.00E-04 uci/ml tor alssolved and entrainea noble gases.

2.1.1.1 Liquid Radwaste Disenarge Radiation Monitor Set Point The tunction of this monitor set point is to verify that the liquid radwaste being discharged has the same activity as was analyzed to De discharged.

It the activity is nigher than the activity which was analyzed to be disenarged, the radiation monitor will terminate the release.

One of the two to11owing procedures will be used to calculate the 11guld radwaste discharge monitor set point:

1.

Determine the count rate factor (CRF), by estaclishing O-the relationship between the efficiency of the laboratory Na I (T1) well crystal and that of tne liquid radwaste discharge monitor (RE-013).

CRF - liquid radwaste discharge monitor count rate Na I well crystal count rate The expected reading for RE-013 is calculated as rollows:

l Expected count rate = CRF x well count rate 2.

The expected reading for RE-013 is calculated as follows:

Expected count rate = (C a x Ea ) + (C hX E b) +

(C u X Eu )

+

l l

where:

Ca

,C b, etc. = concentrations of the indivicual radionuclices identitled (uC1/b1) and l

(s Ea E b, etc. = counting etficieny ot xE-013 for

\\-}

radienuclide A, b,

etc., respec-(

tively (cpm /u ci/ml).

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2-2

SNPS-1 ODCM

/

The 11guld racwaste discharge monitor (RE-013) isoiation set

(

point will be set equal to 1.2 or the above expectec count rate.

Tne alarm set point will be set to 1.1 or the expected count rate calculated above.

Tne above calculation will be done for each baten to be released.

2.1.2 Reactor Building Salt Water Drain Tank Discharge Monitor Set Point (RE-07 9) 2.1.2.1 Batch Release The function of this monitor set point is to verity that tne release from the reactor building salt water drain tank does not exceed the concentrations specified in 10CFR20, Appendix B, Taole II, Column 2 and 2.00E-04 gC1/ml for dissolved or entrained noole gas.

A sample will be taken of the liquid to be discharged and an isotopic analysis performed.

Using the isotopic concentration, C i, from the sample analysis and the bPC or each detectea radionuclide, an MPC ratio (R) will be calculated for each radionuclide, using tne tollowing equation:

= C /MPC i R;

i i

l where:

C i

= tank concentration of radionuclide 1 (uCi/ml),

MPC i MPC of radionuclide 1 (uC1/bl), trom 10CFR20,

=

Appendix B, Tabie II, Column 2 (for dissolved or entrained noole gasses, tne MPC assumed will be 2.00E-04), and R

= MPC ratio for radionuclide i.

Tne resulting ratios are summed up to obtain 1]R.

i The set point is calculated as follows:

1 f+F Set point =.8 C

• E 1

ER.

t f

(cpm) 1_

1 where:

E i = monitor counting erficiency for Isotope, i, (cpm /uci/bl),

f

= salt water drain tank discnarge Ilow rate (gpm),

s F

= circulating dater Ilow rate (gpm), and 2-3

SNPS-1 ODCM g

.8 = conservative f actor to permit discharge at 80

)

percent or the MPC permittel in 10CFR20, x'

Appendix B, Table II, Column 2 and 2.006-04 g C1/ml for dissolved and entrained noble gases.

Ontain the circulat:ag water flow rate f rom the control room.

2.1.2.2 Non Batch Release The set point will be s et to 10CFR20 Appendix B limit for unloentified radionuclide mixture release concentration of 1.00E-07 uC1/h1 as follows:

(f+F)

Set point = 1.00E-07

• e *

.8 f

(cpm) where:

e = monitor counting etriciency for Isotope, Cs-137, (cpm /g Ci/ml),

t = salt water drain tank discharge flow rate (gpm),

F = circulating water flow rate (gpm), and

(

.8 = conservative tactor to permit discharge at 80 percent i

of the MPC permitted in 10CFR20, Appendix 3, Table II, i

Column 2.

Ontain the circulating water flow rate from the control room.

2.1.3 Residual heat Removal Heat Excnanger Service hater Outlet Monitor Set Point (RE-02 3) i l

The runction of this monitor is to detect RHR leakage into the service water.

The service water is expected to contain activity l

only it there is RhR system leakage.

Tnererore, initially the set point will be based on three times the cacxground.

After operation of RdR system and II activity is measured in the l

service water system then the monitor set point will be l

calculated as rollows.

l t

A sample will be taken tron the service water discnarge and an isotopic analysis performed.

Using the isotopic concentration, j

Ci, trom the sample analysis and the MPC of each detected i

radionuclide, an MPC ratio (R) will be calculated, using the j

following equation:

i

= C /MFCi R i i

A where:

l 2-4

SNPS-1 ODCM Ci service water concentration of radionuclide i

=

g (gCi/ml),

MPC i = MPC of radionuclide 1 (uC1/ml), from 10CFK20, Appendix 3, Table II, Column :s (For dissolved or entrained noble gases, the MPC will be 2.00E-04), and Rg

= MPC ratio for radionuclide i.

The resulting ratios are summed up to obtain 1]Rj.

The set point is calculated as follows:

. 8 )() i 1

f+

• E.

(cpm)

Set point =

C.

f

'R 1

y where:

E i = monitor for counting efficiency isotope, i, (cpm /gCi/ml) f

= RHR system service water discharge tiow rate (gpm),

1 F

= circulating water flow rate (gpm), and

.8 = conservative factor to permit discharge at 80 percent of the MPC permitted in 10CFR20, Appendix B, Table II, Column 2 and 2.00E-04 l

gC1/ml tor dissolved and entrained noble gases.

l 2.2 GASEOUS EFFLui.NT MONITOR SET POINT (Compliance with Section 3.3.7.12 of tne RETS)

The alarm set point for tne station ventilation exnaust monitor l

1s set to the noble gas, total body, dose rate limit spec 1ried in l

Section 20.105 b (1) of 10CFR20 and to tne corresponding noole gas l

skin dose rate.

l Eitner or two methods may oe used to calculate tne dose rates based on tne measured release rate or eacn isotope.

The first method is the methoc useo oy the computerized radiation monitoring

system, the second method is an alternate noncomputerized method.

I 2.2.1 Method 1:

(Computerized clethod)

Eq uations in Sections 2.2.1.1 and 2.2.1.2 w111 be used in conjunction witn the measured release rate or each radionuclide p'

to calculate tne ortsite doses due to noble gases.

Ottsite dose rates will ne calculated anc recorded eacn 15 minutes.

They will (N-then ne comparea with the rollowing limits:

2-5

SNPS-1 ODCM Equivalent 15 min Dose Total body Dose Rate 2 mrem /hr 0.5 mrem SXin Dose Rate 12 mrem /hr 3.0 mrem Organ Dose Rate 6 mrem /hr 1.5 mrem lf any one of the 15 minute doses are equal to or greater than the above an alarm message will be displayed on both CRT's and printers.

2.2.1.1 Gaseous Ertluent Monitor Set Point Based on Noble Gases Total Body Dose Rate 15 (X/Q) * (2.22E+04 *] ] Q.

DT

• DFB )

=

s 1

i i=1 where:

DT

= dose to adult total body and skin in sector (s) s at site boundary, due to noble gases during the last 15 minutes (mrem),

Qi

= variable, quantity of each isotope,1, (noble gases only), released in the last 15 minutes (curies),

(X/Q)

= variable, atmospheric dispersion tactor for period of release (sec/m3), and constants, from Table 2.2-1.

DFB;

=

2.2.1.2 Gaseous Effluent Monitor Set Point based on Noble Gases Skin Dose Rate 15 (2.46E+04+)()Q DS (X/Q) *

=

• DFH )

s f

l i=1 15

+ (3.17E+04 * ]{ Qi

• DFS )

i=1 l

where:

T dss

= dose to adult total Dody and skin in g

\\~-

sector (s) at site bcundary, one to nocle gases during the last 15 minutes (mrem),

2-6

SNPS-1 ODCM Qi

= variable quantity of each isotope, 1,

noble gases only) released in ene last 15 minutes (curies),

variable, atmospheric dispersion ractor (X/Q)

=

for the period of release sec/m, and a

DFS and DFH = constants, from Table 2.2-1.

2.2.1.3 Gaseous Ettluent Monitor set Point Based on Oroan Dose Rate 5

• )Q D

= 3.17E+04 * (X/0)

• R

• DFA 3

g i=1 where:

D3 inhalation dose to adult thyroid in

=

sector (s) at site boundary during the last 15 minutes (mrem),

R

= constant, adult 8,000 m3/yr, a

j Qi

= variable, quantity of each 1sotope, 1,

released in the last 15 minutes i

(curies),

l l

(;X/Q)

= variable, atmospheric dispersion l

factor for the period ot release (site councary only)

(secAnd), and DFAi

= constant, frcm Table 3.5-1 acult thyroid only (I-131 through I-135).

2.2.2 Method 2: (Noncomputerized Methoc)

To calculate the set paint in cpm, the to11owing metnocology is established:

1.

A gaseous sample trom the monitor will be taxen and analyzed for isotopic c mposition and concentration, C;.

2.

At the time or sampling, the count rate, cpm, of the station ventilation exhaust noble gas radiation monitor will be recorded, C.R.

l 2.2.2.1 Gaseous Erfluent Monitor Set Point Based on Noble Gases Total Body Dose Rate 1.

The noble gas total cody dose rate is calculatea using the following equation:

2-7

SNPS-1 ODCM Total Body Dose Rate:

1)iDR; = 8.00E-05

• DFB;

• X/Q

• C;

• V (mrem /hr) wnere:

DRi

= predicted dose rate based on gas sample (mrem /hr),

X/Q

= 7.94E-07 sec/ma, nistoric annual average X/g at 366 meters NNE due to releases via the station ventilation exnaust point, DFB i

= total body dose rate conversion factor (mrem /yr/pC1/m3), from Table 2.2-1, Ci

= sampled isotope release concentration (pC1/cc),

1.70E+08 cc/sec (3.60E+05 cfm), station ventilation V

=

exhaust rate, and 8.004-5 = cose reduction ractor due to snielding (0.7) provided by residential structures divioed by u,760 hr/yr.

2.

The isotopic release activity concentration is normalized to a total body dose rate or 2 mrem /hr by multiplying by the following normalizing factor:

F

= 2/l]DR; 3.

From the above, the set point based on total body dose rate can be calculated as follows:

Set point = F

• C.R.

(cpm) wnere:

Set point = alarm set point that results in a total body dose of 2 mrem /hr, F = normalization tactor (unitless), and C.R. = station ventilation exhaust noble gas radiation monitor count rate (cpm).

The above procedure and tormat can be used tor variable set point calculation.

As an

example, the expression could be used to calculate a new set point during containment purge by substituting the appropriate purge X/Q (trom Table 4-1), purge V (5.70t+05 cc/sec (1200 cim)), and purge Ci (pC1/cc).

2-8 l

E SNPS-1 ODCM 2.2.2.2 Gaseous Effluent Monitor Set Point Based on Noble Gases Skin Dose Rate 1.

The noble gases skin dose rate is calculated using tne following equation:

[ DR

= 1.14E-04

• Ksi

• X/g

• Ci

• V (mrem /hr) i wnere:

DRi predicted dose rate based on gas sample,

=

(mrem /hr),

l X/Q = 7.94E-07 sec/m3, historic annual average X/Q at 366 meters NNE due to releases via the station ventilation exahust point, l

Ksi=

skin dose rate conversion tactor (mrem /yr/pC1/m3), frcm Table 2.2-1, Ci sampled isotope release concentration

=

j (pCi/cc),

1.70E+08 cc/sec (3.60E+05), station ventila-V

=

tion exhaust rate, and l

1.14E-04 = inverse of 8,760 br/yr.

2.

The isotopic release activity concentration is normalized to a

skin dose rate of 12 mrem /hr by multiplying Dy the following normalizing factor:

12/}]DR F

=

S 3.

From the above, the alarm set point, based on sxin cose rate, can be calculated as follows:

Set point = F

• C.R.

(cpm) where:

Set point = alarm set point that results in a skin dose rate of 12 mrem /hr (cpm),

F = normalization tactor (unitless), and C.R. = station ventilation exhaust noble gas radiation monitor count rate (cpm).

The above procedure and format can te used ror variable set point calculation.

As an

example, tne expression could ne used to calculate a new set point during containment purge by substituting tne 2-9

SNPS. ODCM

[

\\

appropriate purge X/Q, (from Table 4-1), purge V (5.70E+05

(,,,/

cc/sec (1200 cfm)), and purge C (pCi/cc).

f 2.2.2.3 Gaseous Effluent Monitor Set Point Baced on Organ Dose Rate 1.

Skip Step 2 of Section 2.2.2.

2.

The organ (inhalation thyroid) dose rate is calculated using the following equation:

))g X/O

• C

• V*R (mrem /hr)

DR

= 1.14E-04

• DFA f

a f

f where:

r calculated inhalation dose rate DR

=

1 to adult thyroid based on gas sample (mrem /hr),

3 7.94E-07 sec/m, historical annual X/O

=

average X/O at 336 meters NNE due to release via the station ventilation exhaust point, s_j/

DFA

~ dose factors adult thyroid only

=

f (I-131 through I-135), from Table 3.5-1, (mrem /pci),

sampled isotope release C

=

f concentration (pci/cc),

1.70E+08 cc/sec station ventila-V

=

tion exhaust rate, and 1.14E-04 =

inverse of 8,760 hr/yr.

3 adult breathing rate, 8000 m /yr.

Ra

=

I 1

3.

The isotopic release activity concentration is normalized to an organ dose rate of 6 mrem /hr by multiplying by the following normalizing factor:

F = 6/[]DRf O-2-10

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N ne Q

+

5

?-

!a.

1 23 O

S Q

,,, e.,,,,,,, s.,,

4 m

o o o o o o o o o o o o o O

9 H

me w

I i

1 4

1 0

0 1

0 0

0 8

8 1

s 4

4 4

4

,4 4

4 4

a4 4

4 4

4 4 4

4 10 W

4 a n n

m a m e

n n a a N

n n n

e 4

0

?

h o

A o

D we t

o n 3

t'a s

e 6

e e

e e

e e

e e

e e

e e

e e

N m

M.

r*

M N

N N

P 9

man

, o 4

9 o

h M

11 a4 Ro 4,

,4 m,

J,

,o i t i k ".

4 l

)

o-

-., e k-s u ce 4 O

2 D

D D

2 F*

r. 3.

M 4

DO I

l i

1 I

l 9

0 1

l l

l l

1 1

4 4

4 13 l3 4

H 54 H

ke 4

14 b

a 0

3 13 m

es 4

e 14 T.

a4 4 4 4 4 4 4 M

4 M

4 M

M w

w w

r SNPS-1 ODCM 3.0 DOSE CALCULATION METHODS x-This section presents the calculational specilles required to demonstrate compliance with the f ollowing Radiological Effluent Technical Specifications (RETS) sections:

3.11.1.2 - Liquid Etfluent Dose Calculation 3.11.1.3 - Operation of Liquid Radwaste Treatment System 3.11.2.1 - Gaseous Effluent Dose Rate 3.11.2.2 - Noble Gas Air Dose 3.11.2.3 - Gaseous Eifluent Dose From Radioiodines, Radio-active Materials In Particulate Form 3.11.2.5 - Operation of Vent 11ation Exhaust Treatment System Calculation methods are l'ased on the equation and calculational metnods described in Regulatory Guide 1,109

" Calculation of Annual Doses to Man frc.n Routine Releases of Reactor Ettluents for the Purpose of Evaluating Compliance with

10CFA50, Appendix I".

Eitner of two methods may be used to calculate the cose rates based on the measured release rate of each 1sotope.

The first s

metnod is the method used by the computerized radiation monitoring

system, the second method is an alternate noncomputerized method.

3.1 LIQUID EFFLUENT, DOSE CALCULATION To comply with Section 3.11.1.2 cf the RETS, the liquid effluents released into Long Island Sound (see Fig. 3.1-1) shall De limited:

1. During any calendar quarter to less than or equal to 1.5 mrem to the total body and to less than or equal to 5 mrem to any organ.

2. During any calendar year to less than or equal to 3 Itcem to the total body and to less tnan or equal to 10 mrem to any organ.

3.1.1 Method 1: (Computerized Method)

Equations A

through C

are to be used to calculate the offsite doses due to release of liquid radwaste.

For this cose calculation the actual concentration to be discharged by 1sotope, the total volume of liquid to be discharged, and the number of

[h circulating water pumps running, supplied ny the operator, snall De used.

3-1

l SNPS-1 ODCM A.

Ingestion of Fish

• D

• **E (~ Li+

.0) g = (0. 344

• U /K)

Oi*Bf aij R

a i=1 where:

h R.

= dose to organ (j) of individuhls in age group (a) aI due to the release (mrem),

K

= Integer variable, 1 to 4, number of cir culating water pumps running, Ua

= c"nstants, child 6.9, teen 10.0, adult 21.0 kg/yr, Qi

= variable, quantity or each 1sotope (1) released (curies),

= constants, from Table 3.1-1 for fish, Bi D

= constants, trom Tables 3.1-2 through 3.1-4, and aij constants, from Table 3.1-5.

L

=

B.

Ingestion ot Seafood Equation and parameters are identical to Equation A except Ior the tollowing:

constants, en11d 1.7, teen 3.8, adult 5.0 kg/yr, and Ua

=

constants, from Table 3.1-1 for seafood.

B;

=

C.

Shoreline Deposits 80 U,/K) * )[) D

• O

• exp (-L

• 1.0)/L (0.506

• Raj =

g 1

i=1

• 1.314E+05))

• (1. 0 - exp (-L g where:

Rj

= dose to organ (j) of individuals in age group (a) a due to the release (mrem),

[\\

Qi

= variable, quantity ot each 1sotope (i) r eleas ed (m,/

(curies),

3-2

SNPS-1 ODCM U,

= constants, child 14.0, teen 6 7.0, adult 12.0 hr/yr, and aj

= constants, from tad 1e 3.1-6.

D All other terms are as defined in Equation A 3.1.2 Method 2: (honcomputerized Itethod)

The dose contributions tor the total release period shall be calculated f or all radionuclides identified in 11guld effluents released into Long Island Sound using the following expression:

N M

)

At

=}'

C F

(3.1-1)

A D

fT y

gy y

i= 1 l=1 where:

Dr

= the cumulative dose or dose commitment to the total body or an organ r from the liquid eftluents for the M

total release period p

(mrem),

L 1

O

(

l=1 a t]

= the lengtn of the Lth release period over which C]

i and Fg are averaged f or all liquid released (aanutes),

Cg

= tne average concentration of radionuclide Cjr in i

undiluted liquid ef fluent during release period at t from any liquid release (uC1/cc),

A

= the site-related ingestion dose or dose canmitment r

factor to the total body or any organ for each identified prine'ipal gamma and Dete emitter listed in l

Table 3.1-7 (mrem / min per # C1/cc), and F

= the near field average dilution factor for C il,

g l

during any liquid effluent

release, derined as tne average undiluted liqu_d waste flow rate during release divided by the product of the average circulating water flow rate times 8.85.

(8.85 is the near field mixing factor for the mixing of the dif fuser discharge into Long Island Sound.)

I If tne calculated doses exceed the limit specifieo above consult RETS Section 3.11.1.2.

N i

)

l

~~ /

l l

3-3

- 1

SNPS-1 ODCM s

3.2 OPERATION OF LIQUID WASTt TREATMENT SUBSYSTtMS

\\

x/

The dose projection analysis will be performed using the methodology described in Section 3.1 with the exception that the calculated doses will ne compared with the limits specitled in RETS Section 3.11.1.3.

Liquid radwaste subsystems are shown on Fig. 3.2-1.

3.3 DOSE RATE DUE TO GASEOUS EFFLUENTS To comply with Section 3.11.2.1 of RETS, the dcse rate at any time in tne unrestricted area for noble gas dose and for organ dose due to radioactive materials in gaseous eftluents released via the station ventilation exhaust duct snall be limited to the tollowing values:

1.

The dose rate limit for noble gas shall be less than

2. mrem /hr to the total body and less than 12 mrem /hr to the skin, and 2.

tne dose rate limit f or all radiolodines and for all radioactive materials in particulate fonn and radionucildes (other than noole gases) witn half ilves greater than 8 days shall be less than 6 mren/hr to any organ.

Elther of the following two methods may be used to determine the dose rates:

3.3.1 Method 1: (Computerized Method) 3.3.1.1 Noble Gas Total Body and Skin Dose Rate 15

)

Q.

(X/Q)

• 2.22E+04

• DT

• DFB.

=

s 1

1 i=1 15 (X/Q) * [(2.46E+04 * ){)

Of

• DFHg)

DS

=

s i=1 15

)()O

• DFSg)]

+ (3.17E+04

• i where:

i=1 DT, and DS

= dose to adult total body and skin in sector (s) s at site boundary, due to noble gases during the last 15 minutes (mrem),

l l

3-4

SNPS-1 ODCM Qi

= variable, quantity of each 1sotope, 1,

(noble n

gases only), released in the last 15 minutes v

(curies),

(X/Q)

= variable, atmospheric dispersion factor for the period of release (site boundary only),

(sec/m3), and DFBj, DFH, and DFS

= constants, f rom Table 2.2-1.

i

3. 3.1. 2 Organ Dose Rate (Particulate Release)

The organ dose rate will be calculated as described in Section 3.5.1.1.

3.3.2 Method 2: (Noncomputerized Method) 3.3.2.1 Noble Gas Total Body Dose Rate 1.14E-04* X/O *

[DFB.* (C.

• V

- C.

• V

- C.

• V )]*0.70 DT

=

s 1

1 11 1

12 2

13 3

,1

()

X/Q*)((DFBi* C1]

+ 1.14E-04* V *

• 0.70 2

2 i

1.14E-0 4

• V + X/Q * )() [DFB *C1]

• 0.70

+

3 3

i 3

i During periods ot no intermittent releases such as no main condenser air removal pump operation and no containment crywell purge the above formula reduces to the following:

1.14E-04* V

• X/Q

• ][) [DFB

• Cg]

• 0.70 DT

=

g s

3 i

= 8.00E-05* V

• X/Q

• }] [DFB

• C

]

g i l i

3-5

SNPS-1 ODCM where:

)

DT

=

3 total body dose rate from all radionuclides releases (mrem /hr ),

DFB

=

the total body dose rate factor due to gamma emissions for eacn identified noble gas radionuclide (mrem /yr per pC1/m3) (Table 2.2-1),

Cn i

=

the station ventilation exhaust duct release concentration of radionuclide,1, (pC1/cc)

(trom the isotopic analyses performed on the gaseous smnple taken from the station ventilation exhaust monitor),

C, the air removal pump ventilation exnaust duct

=

i release concentration ot radionuclide, 1,

(pC1/cc)

(from the isotupic analyses perrormed on tne gaseous sample taken f rom the air removal pump discharge monitor),

C the containment drywell purge ventilation exhaust

=

i3 concentration of radionuclide, 1,

(pC1/cc)

(trom the isotopic analyses periormed on the gaseous sample taxen trom the containment drywell filter train exhaust monitor),

O V

1.70E+08 cc/sec (3.60E+05 ctm),

station

=

ventilation exhaust duct ventilation exhaust flow

rate, V,

5.70E+05 cc/sec (1200 cim),

air removal pump

=

exhaust duct ventilation exhaust flow rate, V

=

3 5.70E+05 cc/sec (1200 cfm), containment drywell purge ventilation exnaust flow rate, X/Q:

7.94E-07 sec/m3, historic annual average X/Q at

=

366 meters NNE due to release via the station ventilation exhaust point, X/g,

1. 8 9E-0 6 sec/m3, historic annual average, short

=

term X/Q at 1931 meters ESE due to air removal pump release via the station' vent 11ation exhaust

point, X/Q3 1.89E-06 sec/m3, historic annual average short

=

term X/Q at 1931 meters ESE due to containment drywell purge via the station ventilation exnaust

point, 1.14E-04

=

inverse of 8,760 hr/yr, and 3-6 l

l SNPS-1 ODCM 0.70 shielding factor that accounts for dose reduction

=

)

due to shielding from residential structures.

V Substituting historic values for X/Q's and V's.

The noble gas total body dose rate (mrem /hr) is calculated by the following equation:

DT

= 3.7E-05* ),[DFB.*

(298 C.

- C.

-C

)]

s 1

11 12 i 3 1

]

[DFBf* Cf]

8. 4E-05 *)

[DFBf*Cf]

+ 8.4E-05*

+

1 1

Note that during periods or no intermittent releases such as no main condenser air removal pump operation and no containment drywell purge the above formula reduces to the following:

DT

= 1.1E-02

• { [ DFb,

• C i3 )

mrem /hr 3

3.3.2.2 Noole Gas Skin Dose Rate X/Q*)

[K. * (C.

• V.

- C.

• V

- C.

• V )]

1.14E-04*

DS

=

s 1

s1 11 1

12 2

1 3 3

\\

i ud X/Q * )() [K.

• C.12]

+ 1.14c-04* V

• Sl 2

2 1

1.14E-04*V*X/Q*][][K.* Ci]

+

3 3

si 3

i During periods of no intermittent releases such as no main condenser air removal pump operation and no containment drywell purge the above formula reduces to the f ollowing:

1.14E-04* V* X/O

• ),[K DS

=

• Cf]

s si 1

where:

DS

= sxin dose from all radionuclides released (mrem /hr),

3 K

- the skin dose tactor due to beta and gamma emissions O

for each identified noble gas radionuclide (mrem /yr k

per pCi/m3) trom Table 2.2-1, 3-7

SNPS-1 ODCM the station ventilation exhaust duct release pg C i

=

s's /)

concentration of radionuclide, i,

(pCi/cc)

(trom isotopic analyses performed on the gaseous sample taken from the station ventilation exhaust monitor),

= the air removal pump ventilation exhaust duct release C,i concentration of radionuclide,1, (pC1/cc)

(from tne isotopic analyses performed on the gaseous sample taken from the air removal pump discharge monitor),

the containment drywell purge ventilation exhaust C i3

=

concentration of radionuclide, 1,

(pC1/cc)

(from the isotopic analyses performeo on tne gaseous sample taken from the containment drywell 111ter train exhaust monitor),

1.7E+08 cc/sec (3.b OE+ 05 c tm),

station ventilation V

=

exhaust duct ventilation exhaust ilow rate, 5.70E+05 cc/sec (1200 cim), air removal pump exhaust V,

=

duct ventilation exhaust flow rate, 5.70E+05 cc/sec (1200 cim), containment drywell purge V

=

3 ventilation exhaust flow rate, 7.94E-07 sec/m3, historic annual average X/Q at 366 X/V

=

A meters NNE due to release via the station ventilation exhaust point, A/Q, = 1.89E-06 sec/m3, historic annual average short term X/Q at 1931 meters h6E due to air removal pump release via the station ventilation exhaust point, 1.89E-06 sec/m3, historic annual average short tern X/Q3

=

X/Q a t 1931 meters ESE due to containment drywell purge via tne station ventilation exhaust point, and 1.14E-04 = inverse ot 8,7b0 hr/yr.

l l

t 3-8

b SNPd-1 ODCM 3.3.2.3 organ Dose Rate (pa rticulate releases)

V

=1.14E-04*[s [P..*

X/Q

• (C V

-C V

DS 12 2 13 1

i l 1 s

i 1.14E-04*V*)()[P..*X/O

• C.

]

-C

/3))

+

i3 2

13 2

12 i

1.14E-04*V*][][Pf3*X/Q

• Cf]

+

3 i

During periods of no intermittent releases such as no main condenser air removal pump operation and no containment drywell purge one above formula reduces to the fol. lowing:

V * )

(P

• X/Q *C y 1.14E-04*

D

=

1 g

f3 s

1 where:

t\\_-

Ds

= total dose rate to organ j (mrem /hr),

Pj

= the inhalation dose rate conversion factor for radio-i nuclides other than noble

gases, 1,

and organ j,

(mrem /yr per PCi/m3) trom Table 3.3-1, Cg

= the station vent 11ati6n

~

duct release exhaust concentration of radionuclide, i, (u C1/cc)

(trom the isotopic analyses performed on the 111ter paper and charcoal cartridge taken from the station ventilation exhaust monitor),

Cr

= the air removal pump ventilation exhaust duct release i

concentration or radionuclide, i, (u C1/cc)

(trom tne isotopic analyses perrormed on the lodine ar.d filter cartridge taken from the air removal pump discharge monitor),

Ca

= the containment drywell purge ventilation exhaust i

concentration of radionuclide, i, (uCi/cc)

(from the isotopic analyses performed on the gaseous sample taken from the containment drywell 111ter train exhaust monitor),

')

V

= 1.70E+08 cc/sec (3.60E+05 cfm), station ventilation s_j exnaust duct ventilaticn exhaust flow rate, 3-9 e

f SNPS-1 ODCM 5.70E+05 cc/sec (1200 cfm), air removal pump exhaust V,

=

(

duct ventilation exhaust flow rate, 5.70E+05 cc/sec (1200 cim), containment drywell purge V

=

3 ventilation exhaust flow rate, 1.10E-07 sec/m,

historic annual average X/g at 1931 a

X/Q:

=

meters ESE due to releases via tne station ventilation exhaust point, X/Q, = 3.60E-07 sec/m3, historic annual average snort term X/Q at 1931 meters ESE due to condenser air removal pump release via the station ventilation exhaust

point, 3.60E-07 sec/m3, historic annual average short term X/Q3

=

X/Q at 1931 meters ESE due to containment drywell purge via the station ventilation exhaust point, 4.80E-09 m-2, historic annual average D/Q deposition D/Q

=

factor at 1931 meters ESE due to releases via the station ventilation exhaust point, D/Q, = 1.40E-08 m-8, historic annual average short term D/Q deposition tactor at 1931 meters ESE due to condenser air removal pump releases via the station ventilation

(

exhaust point, 1.4 0c-0 8 m-a, historic annual average short tena D/Q D/Q3

=

deposition factor at 1931 meters ESE due to containment drywell purge via the station ventilation exhaust point, and 1.14E-04 = Inverse of 8,760 hr/yr.

Substituting constant historic values for X/Qs, D/Q's, and V.

The organ dose rate (mrem /hr) from the particulate releases is calculated by the tollowing equation:

(

R) l 1

t 3-10

i SNPS-1 ODCM

= 1.14E-0 4 * )(, [ (1.10E-07 Pg)

D g

]

i

• (1. 7 0 E+ 0 8 C.

5.70E+05 C.

- 5.70E+05 C. )]

1 1 12 1 3 6.50E+01*[][(3.60E-07P

+

• Cg]

fj i

• ]s [(3.60E-07 P..

• C

+ 6.50E+01 is]

13 i

Note that during periods of no intermittent releases such as no main condenser air removal pump operation and no Containment Drywell purge the above formula reduces to the following:

1.90E+04*)

1.10E-07 P..

D

=

• C.

S 17 11 3.4 GASEOUS EFFLUENTS, NOBLE GAS AIR DOSE To comply with Section 3.11.2.2 of the RETS, the air dose in unrestricted area location due to releases via the station ventilation exhaust point shall be limited to the following:

1.

During any calendar quarter to less than or equal to 5 mrad for gamma radiation and less than or equal to l

10 mrad for beta radiation.

l 2.

During any calendar year to less than or equal to 10 mrad f or gamma radiation and less than or equal to 20 mrad for beta radiation.

Elther of the following two methods may be used to determine the l

dose:

l I

l l

t 3-11

SNPS-1 ODCM 3.4.1 Method 1: (Computerized Method)

'~'

3.4.1.1 Noble Gas Gamna and Beta Air Dose 15

• V 3.17E+04 + (X/Q)

Q.

• DFH.

D

=

G 1

A s

i=3 i

15 Q

• DFB (X/0)

D 3.17E+04

• i f

BS i=1 where:

D and D

= dose in sector (s) at site boundary due to gamma G

BS air and beta air radiation (mrad),

S Qj

= variable, gdontity of each isotope, i, releasea in the last hour (curies),

(X/Q)

= variable, atmospheric aispersion tactor tor the a

pericd or release (site boundary only) (sec/m ),

and DFHi and DFB;

= constants, from Table 2.2-1.

t\\

3.4.2 Method 2: (Noncomputerized Method) 3.4.2.1 Noble Gas Gamma Air Dose Tne general equation is:

3.17E-08*][] (M. *X/0 ) * (c. V t - C. Vt-C Vt) 1 3 3 3.-

D

=

1 1

11 1 1 12 2 2 Gs

.1

+ 3.17E-08*V *t *X/O *)

M

• t i

t,_

1

+ 3.17E-08*V *t *X/O *),

M

• C g

f 3_

1 During periods of no intermittent

releases, such as no main condenser air removal pumps operation and no containment drywell purge tne above formula reduces to the following:

D

= 3.17E-08* V *X/O +t *),

M.

+ C.

1 11 V

G 1

I I

s 1

3-12 i

SNPS-1 ODCM

'~T where:

D

= tne total gamma air dose trom the releases (mrad),

gg 3.17E-08

= the inverse of number of seconos in a year, M

= the air dose factor due to gamma emissions for each identitled ncble gas radionuclide (mrad /yr per

1. Ci/m3) from Table 3.4-1, t

= release period (s econ ds),

Cs

= the station ventilation exhaust duct release i

concentration of radionuclide, 1,

(uC1/cc)

(from the isotopic analyses perforned on the gaseous sample taken from the station ventilation exhaust monitor),

C i2

= the air removal pump ventilation exhaust duct release concentration of radionuclide, 1,

(HCi/cc)

(from the isotopic analyses perrormed on the gaseo:is sample taken from the air removal pump discharge mon: tor),

Ca

= the containment drywell purge ventilation exhaust i

concentration of radionuclide, i, (uC1/cc)

(trom the isotopic analyses performed on the gaseous sample

(_

taken from the containment drywell filter train exhaust monitor),

i l

V

= 1.70E+08 cc/sec (3.60E+05 cing, station ventilation exhaust duct ventilation exhaust flow rate, Vr

= 5.70E+05 cc/sec (1200 cim), air removal pump exhaust duct ventilation exhaust flow rate, V

= 5.70E+05 cc/sec (1200 cfm), containment drywell purge 3

ventilation exhaust flow rate, X/Q

= 8.44E-07 sec/m3, historic annual average X/Q at 457 meters ESE due to release via the station ventilation exhaust point, X/Q, = 1.83E-On sec/m3, historic annual average, short term X/Q at 457 meters ESE due to condenser air ESE due to condenser air removal pump release via the station ventilation exhaust point, and X/Q3 = 1.83-06 sec/k.3, historic annual average, short term X/Q at 457 meters ESE due to containment crywell purge release via the station ventilation exhaust release point.

Substituting historic values f or X/Q's and V.

3-13

SNPS-1 ODCM g

Tne noble gas gamma air dose is calculated by the following

)

equation:

1.60E-08*)(]

(M ) * (298 C.

t -C. t

-C.

t )

D

=

i 11 1 12 2 13 3-Gs

.1 3.30E-08*]

+3.30E-08*)[)

M *C

• t M *C

• t

+

_f f3 3

g i2 2

i l

~

~

Note that during periods of no intermittent releases such as no main condenser air removal pump operation and no containment drywell purge the above formula reduces to the following:

\\-

• )(,

. f f

4.50E-06 t M *C D

=

G i

1-s 1-3.4.2.2 Noble Gas Beta Air Dose The general equation 1s:

3.17E-08

• X/O

• )()

(Ni)

(C. Vt D

=

Bs I

11 1 1 i2V,t, C

Vt )

-C 1 1

+ 3.17E-08

• X/Q *V *t

• )[)

N.

+ C.

2 2

2 i,1 2,

1

+ 3.17E-08

• X/0 *V *t *))

N

• C 3

3 3

g f_

3 i

During periods of no intermittent r elea ses,

such as no main condenser air removal pump operation anc no containment drywell purge the above formula reduces to the following:

O I

3.17E-08

• X/O *V *t

• )('

D

=

N.

• C.

Bs 1

1 1

1 1 1 i

3-14 W

SNPS-1 ODCM where:

D

= beta air dose from all radionuclides releaseQ s_/

gg (mrem /yr),

Ni

= the air dose factor due to beta emissions for each identit led noble gas radionuclide (mrad /yr per

1. Ci/m3) from Table 3.4-1, 3.17E-Od = the inverse of nurter of seconds in a year, t

= release period (seconds),

Cs

= the station ventilat on exnaust duct release i

concentration of radionuclide, 1,

(uC1/cc)

(from the isotopic analyses performed on the gaseous sample taken from the station ventilation exhaust monitor),

Ce

= the air removal pump ventilation exhaust duct release i

concentration of radionuclide, i, (uC1/cc)

(f rom the isotopic a

performed on the gaseous sample taken trom,nalysesthe air removal pump discharge monitor),

C i3

= tne containment drywell purge ventilation exhaust concentration of radionuclide, i, (uC1/cc)

(trom the isotopic analysis performed on the gaseous sample

('N taken from the containment drywell 111ter train exhaust monitor),

V

= 1.70E+08 cc/sec (3.60E+05 cim), station ventilation 3

exhaust duct ventilation exnaust flow rate, V,

= 5.70E+05 cc/sec (1200 cim), air removal pump exhaust duct ventilation exhaust flow rate, V

= 5.70E+05 cc/sec (1200 cim), containment drywell purge 3

ventilation exnaust flow rate, X/Q

= 8.44E-07 sec/m3, historic annual average X/Q at 457 meters ESE due to release via the station ventilation exhaust point, X/Q, = 1.8 3E-0 6 sec/m3, historic annual average short term X/Q at 457 meters ESE due to condenser air removal pump release via the station ventilation exhaust point, and X/Q3 = 1.83E-06 sec/h3, historic annual average short term X/Q at 457 meters ESE due to containment drywell purge release via the station ventilation exhaust point.

The noble gas beta air dose is calculated by the tollowing

)

equation:

m 3-15 1

I SNPS-1 ODCM Substituting historic values for X/Q's and V's the general

[}

equation reduces to:

\\s /

1.60E-08*)b (Ni)

(298 C t

- C.

t

-Ci t )

D

=

i 12 2 3 3 _l B

l 1 s

1

• )[

• }]

N *C N *C

+

E-08

• t

+ 3. 3 0E-0 8

• t g

f 3 g

i2 3

2 i

i Note that during peliods or no intermittent releases such as no main condenser air removal pump operation and no containment drywell purge tne above formula reduces to the following:

• [

N.*C.

3.30E-08

• t D

=

Bs 1

1 11

~

~

i 3.5 GASEOUS EFFLUENT, DOSE DUE TO RADIOIODINES AND RADIOACTIVE MATr. RIALS IN PARTICULATr. FuhM AND RADIONUCLIDt.S (other than Noble Gases) with Half-Lives Greater than 8 days To comply with Section 3.11.2.3 or the Radiological Etfluent Technical Specifications, the organ dose to maximum incividual in Os unrestricted area due to radiolodines and particulates releases via the station ventilation exhaust point snall De limited to tne rollowing:

1.

During any calendar quarter to less than or equal to 7.5 mrem to ar.y organ, and 2.

During any calendar year to less than or equal to 15 mrem to any organ.

Either of the tollowing two methods may be used tc determine tne dose:

3.5.1 Method 1: (Computerized Method) 3.5.1.1 Organ Doses A.

Innalation Dose 80 D

= 3.17E+04 * (X/0)L

• R, O

• DFA s

sL f

f fj 1=1 m

3-16 l

SNPS-1 ODCM where:

-~

v D jo,i

= dose to an organ (j) of a person in age group (a) in sector (s) at location (L) during the last hour (mrem),

R

= constants, child 3,700, teen 8,000, adult 8,000, a

infant 1,400 m3/ yr,

Q

= variable, quantity of isotope (1) released in the last hour (curies),

(X/Q) g

= variables, atmospheric dispersion factors at location (L) for the period of release (sec/m ), and a

DFA i

= constants, f rom Tatles 3.5-1 through 3.5-4.

B.

Dose Due to Standing on Contaminated Ground 80 (D/Q)g*)[]DFG

• Og /Lg 7.00E+11

• D

=

ij jsL i=1

• (1. 0 - exp) ( L.

• 1.31E+05))

where.

j D jsi

= dose to organ (j) of individuals in all age groups

)

in sector (s) at location (L) due to the release (arem),

1 (D/Q)g

= variables, relative deposition factors at location (L) f or the period of release (m-2),

DFG ij

= constants,'from Table 3.1-6, Qi

= variable, quantity of each isotope (i) released in the last hour (curies), and L i

= constants, from Table 3.1-5.

G 3-17 l

l

r SNPS-1 ODCM C.

Dose Due to Eating Vegetation m

For All Isotopes Except H-3 and C-14 78 1.00

• C

• U

• (D/Q) * ][ DFI

• O D.

=

3as a

ij i

gg i

• [(R/2.0*E ) + (Bg /2.40.0*L )]

cxp (-Lg

• 24.0)

{

g g

For C-14 i

D

= 2.2E+07

• U

• (X/0) *Q

• DFI jas a

14 ij i

For H-3 D

• U

( /0)

• O /U jas "

ij a

t where:

D

= dose to organ (3) or an individual in age group (a) go, in sector (s) due to the release (mrem),

(

C

= constants, S.50E+07 tor lodines, 1.10E+08 for other

isotopes, Ua

= constants, child 2b.0, teen 42.0, adult 64.0 kg/yr (f rom Table 3.5-5),

(D/Q)

= variable, relative deposition factor at the nearest garden for the peliod of release On-2),

DFI j

= constants, f rom Tables 3.1-2 through 3.1-4, i

Qi

= variable, quantity of each isotope (1) released in the last hour (curies),

R

= constants, 1.0 for iodines, 0.2 tor otner isotopes, Ei

=L

+ 0.0021, Bj

= constants, from Table 3.5-6, i

L i

= constants, from Table 3.1-5, (X/Q)

= variable, atmospheric dispersion factor at the nearest garden for the period of release (se c/m3),

d 3-18

SNPS-1 ODCM l

Q.

= variable, quantity of C-14 released in the last hour (curies),

Qg

= variable, quantity of B-3 released in the last hour (curies), and d

= constants, from Table 3.5-7.

D.

Dose Due to Drinking Milk For All Isotopes Except C-14 and H-3 78 C * )[s F

(!*

i}

D

= Of

• U

• (D/0)

• mi j s a

i=1

• DFI

• Q

• exp (-L

• 48.0)

+ (Dfy/240.0*Lf )]

ija i

i For C-14

• U

• Q

• (X/0)

• Of

• F DFI ].ia a

14 D.

= 2.20E+07

• mi Jas

• exp (-Lg

• 48.00)

O For H-3 1.20E+07

• DFI

• (X/Q)

• Of

• F D3g ija U,

• O t

=

f

• exp (-L

• 48.0)/H g

where:

D

= dose to organ (j) of an individual in age group (a) g, in sector (s) at the nearest cow (mrem),

U.

= constants, child 330, teen 400, adult 310, inf ant 330 litres /yr, F;

= constants, from Table 3.5-6, m

Qt

= constants, 50 kg/ day for cattle, (X/Q)

= variable, atmospheric dispersion tactor at the nearest cow for the period of release (sec/m3), and g

\\

\\

l 3-19

SNPS-1 ODCM (D/Q)

= variaDie, relative dispersion factor at the nearest cow f or the period of release (m-2).

4 All other terms are as defined in Equation B.

3.5.2 Method 2: (backup Method) 3.5.2.1 Organ Doses:

3.17E-08*)()

(Pf3*X/Q +Pgg 3 *D/Q ) * (Cgl l

l

• V *t D

=

l l

1-

-C

• V *t

- C.

• C *t

)

12 2

2 1 3 3

3

• )

(Pf3*X/O gf3*D/0 )

12,

+ P

+ 3.17E-08

• t 2 2

1

~

v,

+ 3.17E-08

• t

• 2_,

(P

• X/Q

+P

..*D/O )

• C.

3 ij 3

013 3

1 3 i

(3. 5.1-1)

}

During periods of no intermittent

releases, sucn as no main condenser air removal pump operaticn and no containment drywell purge the above f ormula reouces to the f ollowing:

• )()

(P

• X/O

+P

• D/O )

• C 3.17E-08

• t D.

=

3 1

ij ol:

1 i l.

1 where:

Dj

= total dose to organ j (mr em/yr),

Pj

= the inhalation dose conversion factor for radionuclides, i, (other than noble gases), and organ j, (neem /yr per #C1/ht) from Table 3.5-8, P

= the dose conversion factor for radionuclides, other oi, than noble gases, 1,

and organ j,

for,the leafy vegetables, stored vegetables, and contaminated ground pathways in m2 (mrem /yr per

1. C1/s ec) respectively, from Table 3.5-9 the dose f actors Pj, Po, are i

based on the critical individual organ for the (U'~N) child group, since this group is most restrictive),

t

= release period (seconds),

3-20

SNPS-1 ODCM C

the station ventilation exhaust duct release

=

i concentration of radionuclide, 1,

(# C1/cc) (trom the isotopic analyses pertormed on the iodine and 111ter s

cartridge taken f rom the station ventilation exhaust monitor),

C,,

= the air removal pump ventilation exhaust duct release concentration of radicnuclide, 1, ( # C1/cc) (trom the isotopic analyses performed on the iodine and tilter cartridge taken trom the air removal pump discharge monitor),

C,

= tne containment drywell purge ventilation exhaust i

concentration of radionuclide, 1,

(# C1/cc) (Irom the isotopic analyses performed on the gaseous sample taken irom the containment drywell 111ter train exhaust monitor),

V

= 1.70E+08 cc/sec (3.60E+05 cfm), station ventilation exhaust duct ventilation exhaust flow rate, 5.70E+05 cc/sec (1200 cfm), air removal pump exhaust V,

=

duct ventilation exhaust flow rate, 5.70E+05 cc/sec (1200 cim), containment drywell purge V

=

3 ventilation exhaust flow rate, 1.10E-07 sec/m3, historic annual average X/Q at 1931 X/Q:

=

meters ESE due to releases via the station ventilation exhaust point, X/Q, = 3.60E-07 sec/m2, historic annual average short term X/Q at 1931 meters ESE due to condenser air removal pump release via the station ventilation exhaust

point, 3.60E-07 sec/m,

historic annual average short term X/Q3 a

=

X/Q at 1931 meters ESE due to containment drywell purge via the station ventilation exnaust point, 4. 8 0E-09 m-a, historic annual average D/Q deposition D/Q:

=

factor at 1931 meters ESE due to releases via the station ventilation exhaust point, D/g, = 1.4 0E-0 8 m-2, historic annual average short term D/Q deposition f actor at 1931 meters ESE due to condenser air removal pump releases via the station ventilation exhaust point,

1. 4 0E-0 8 m-a, historic annual average short term D/Q D/Q3

=

deposition factor at 1931 meters ESE due to

'~'

containment drywell purge exhaust via the station g

ventilation exhaust point.

l 3-21 l

i

\\

l

SNPS-1 ODCM Tne organ dose f rom the particulate releases is calculated by tne tollowing equation:

Sunstituting constant historic values for X/Q's, b/Q's, and v*s, the general equation reduces to:

3.17E-08*[

(1.10E-07 Pf3 + 4.80E-09 Pgg3)

D

=

j i

+ (1. 70E+0 8 C

- 5.70E+05 C

- 5.70E+05 Cf) 1 12 3

+3.17E-08*[

(3.60E-07 Pf3 + 1.40E-08 Pgf3) i2

• C 1

3.17E-08*[

(3. 60E-07 Pg3 + 1.40E-08 Pgg3) g

• C

• t

+

3.

(3.5.1-2)

Note that during periods of no intermittent releases sucn as no maln condenser air removal pump operation and no containment s

drywell purge the above formula reduces to the following:

3 = 3.17E-08*

D t

(18.7 P

+.82 Pgg$)

• C 3

f},

~

i NOT8:

It the land use census (Table 3.5 -10) changes, the critical

location, i.e., the location wnere an individual would be exposed to the nighest dose, must be reevaluated using Equation 3.5.1-1 for each of the following locations:

1.

nearest residence, 2.

nearest vegetable garden, and 3.

nearest milk cow or goat.

At each location, the tollowing pathways must be considered and dose (dose rates) reevaluated if any actual pathway exists:

1.

Inhalation, 2.

leafy vegetables (tresh),

3.

stored vegetables, a6.

goat's or cow's milk (11 both exist choose the one resulting in a higher dose), and S.

deposition on ground.

3-22

I l

SNPS-1 ODCM Since a

person will always be present, pathways 1 and 5 must always be evaluated.

Once the location of the critical individual is determined and round to be other than the one at 1931 meters ESA, the values or X/g and D/Q in Equation 3.5.1-2 become invalid.

Values for X/2 a no D/Q at the updated critical locatlora must be used.

3.6 OPERATION OF VENTILATION EXHAUST TREATMENT SYSTEM The Ventilation Exhaust Treatment System (Fig. 3.6-1) shall be used to reduce radioactive materials in gaseous waste prior to their discharge as specified in RETS Section 3.11.2.5.

The dose analysis will be performed as descriteo in Sections 3.5.1 or 3.5.2.

If tne calcula ted doses exceed the limits specified anove consult RETS Section 3.11.2.5.

O O

3-23

l SUPS-1 CDCM i

TA3Li 3.1-1

)

2ICACCU;10LATION FACICES IV SE 05rD Ill Ti:. M de..iOi OF SITE-SPECIFIC DATA (pC1/Xg per pC1/11ter) (1)

Saltwater Element Fish Invertebrate il 9.0E-01 9.3E-01 C

1.8E+03 1.4E+03 Na 6.7E-02

1. 9E-01 P

2.9E+04 3.0E+04 Cr 4.0E+02 2.0E+03 Mn 5.5E+02 4.0E+02 Fe 3.0E+03 2.0E+04 Co 1.0E+02 1.0E+03 Ni 1.0E+02 2.5E+02 Cu 6.7E+02 1.7E+03 Zn 2.0E+03 5.0E+04 Br

1. 5E-0 2 3.1E+00 Rb 8.3E*00

1. 7E +01 Sr 2.0E+00 2.0E+01 Y

2.5E+01 1.0E+03 Zr 2.0E+01 8.0E+01 Nb 3.0E+04 1.0E+02 i

s_/

Mo 1.0E+01 1.OE +01 Tc 1.0E+01

5. 0E +01 Ru 3.0E+00 1.0E+03 Rh 1.0E+01 2.0E+03 Teca) 1.0E+01 1.0E+02 1

1.0E+01 5.0E+01 Cs 4.0E+01 2.5E+01 Ba 1.0E+01 1.0E+02 La 2.5E+01 1.0E+03 Ce 1.0E+01 6.0E+02 Pr 2.SE+01 1.0E+03 Nd 2.5E+01 1.0E+03 W

3.0E+01 3.0E+01 Np 1.0E+01 1.0E+01 (1) Values in Table 3.1-1 are taken from Reference 6 of Regulatory Guide 1.109, Rev. 1, Oct. 1977 unless otherwise Indicated.

(2) Data taken from Reference 8 of Regulatory Guide 1.109, Rev.

1, Oct. 1977.

O 1 of 1

SNPS-1 s

L/

TABLE 3.

(,/

INGESTION DOSE FAC'IDRS FOR ADULTS (mrem per pC1 ingested)

Radio-nuclide Bone Liver T. Body

'Ihyroid Kidney Lung GI-LLI H-3 No Data 1.05E-07 1.05E-07 1.05E-07 1.05E-07 1.05 E-0 7 1.05E-07 C-14 2.84E-Ob 5.6 B E-0 7 5.68E-07 5.bdE-07 5.b8E-07

5. 68 r.-0 7 5.6 8 E-0 7 Na-24 1.70E-06 1.70E-0 6 1.70E-06 1.70E-Ob 1.70E-06 1.70E-06 1.70 E-06 P-32 1.93E-04 1.20E-05 7.4bE-Ob No Data No Data ho Data 2.17E-05 Cr-51 No Data No Data 2.bbE-09 1.59t-09 5.86h-10 3.53E-09 6.b n-0 7 Mn-54 No Data 4.57E-06 8.72E-07 No Data

1. 3 bt-0 6 No Data

1. 4 0 E-0 5 Mn-56 No Data 1.15E-07 2.04E-08 No Data 1.4bt-07 No Data 3.67E-06 Fe-55 2.75E-06 1.90E-06 4.43E-07 No Data No Data 1.06E-06 1.09E-06 Fe-59 4.34E-06 1.0 2 E-0 5 3.91h-06 No Data No Data 2.85h-Ob 3.406-05 Co-58 No Data 7.45E-07 1.b7E-Ob No Data No Data No Data 1.51E-05 Co-b0 No Data 2.14E-06 4.72E-06 No Data No Data No Data 4.02E-05 Ni-63 1.30E-04 9.01E-Ob 4.3bE-06 No Data No Data No Data 1.886-06 N1-65 5.28E-07 6.86 L-0 8 3.13 L-08 No Data No Data No Data 1.746-06 Cu-64 No Data 8.33E-08 3.91t-06 No Data 2.10E-07 No Data 7.10E-Ob Zn-65 4.84t-06 1.54E-C 5 6.96E-06 No Data 1.03E-05 No Data 9.70E-Ob Zn-69 1.03E-08 1.97E-03 1.37E-09 No Data 1.28t-08 No Data 2.9mE-09 Br-83 No Data No Data 4.02t-08 No Data No Data No Data 5.796-08 Br-84 No Data No Data 5.21E-08 No Data No Data No Data 4.09E-13 Br-85 No Data No Data 2.14 L-0 9 No Data No Data No Data LT E-24 Rb-86 No Data 2.11E-05 9.83E-Ob No Data No Data No Data 4.1 bE-O b kb-88 No Data 6.05E-08 3.21h-08 No Data No Data No Data B.3bL-19 Rb-89 No Data 4.01E-0 8 2.82L-08 No Data No Data No Data 2.33E-21 Sr-89 3.08E-04 No Data 8.84E-Ob No Data No Data No Data 4.94 E-0 5 Sr-90 7.58E-03 No Data 1.8bE-03 No Data No Data No Data 2.19h-04 Sr-91 5.67E-06 No Data 2.29E-07 No Data No Data No Data 2.70E-05 Sr-92 2.15E-06 No Data 9.30E-08 No Data No Data No Data 4.2bE-05 Y-90 9.62E-09 No Data 2.58t-10 No Data No Data No Data 1.02 L-0 4 Y-91m 9.09E-11 No Data

3. 52 E-12 No Data No Data No Data 2.67E-10 Y-91 1.41E-07 No Data 3.77E-09 No Data No Data No Data 7.76t-OS Y-92 8.45E-10 No Data 2.47E-11 No Data ho Data No Data 1.4 8 E-05 Y-9 3 2.68E-09 No Data 7.40E-11 No Data No Data No Data 8.50h-05 Zr-95 3.04E-08 9.75E-09 6.bOE-09 No Data 1.536-08 No Data 3.0 9E-0 5 Zr-97 1.6 8 E-0 9 3.39E-10 1.55E-10 No Data 5.12L-10 No Data 1.05E-04 Nb-95 6.22E-09 3.4 6E-0 9 1.8bE-09 No Data 3.42E-09 No Data 2.10E-05 Mo-99 No Data 4.31E-06 8.20E-07 No Data 9.7bE-06 No Data 9.99r.-Ob Tc-99m 2.47E-10 6.98E-10 9.89E-09 No Data 1.0bE-08 3.42E-10 4.13E-07 Tc-101 2.54E-10 3.66E-10 3.59E-09 No Data 6.59t-09 1.87h-10 1.10E-21 Ru-103 1.85E-07 No Data 7.97h-08 No Data 7.0 b E-07 No Data 2.16h-0 5 Ru-105 1.54E-08 No Data 6.08E-09 No Data 1.99E-07 No Data 9.42E-Ob Ru-106 2.75E-06 No Data 3.48E-07 No Data

5. 31E-0 6 No Data 1.78E-04 Ag-110m 1.60E-07 1.48E-07 8.79E-08 No Data 2.91t-07 No Data 6.0 4h-0 5 Te-125m 2.68E-06 9.71E-07 3.59E-07 8.0bb-07 1.09E-05 No Data 1.0 7 t-0 5 Te-127m 6.77E-Ob 2.4 2E-0 6 8.25E-07 1.73E-06 2.75h-0 5 No Data 4.47E-05 Te-127 1.10E-07 3.95E-08 2.38E-08 8.15h-08 4.48L-07 No Data 8.68h-Ob Te-129m 1.15E-05 4.29E-08 1.82E-Ob 3.95E-06 4.80E-05 No Data 5.79E-05 1 of 2

SNPS-1 OOCH N

N

\\

TABLE 3.1-NTED)

.v

%J Radio-nuclide Bone Liver T. Body Thyroid Kidney Lunq GI-LLI Te-129 3.14 E-0 8 1.18E-0 8 7.65 L-0 9 2.41E-08 1.32t-07 No Data 2.37E-08 Te-131m 1.73E-Ob 8.46E-07 7.05E-07 1.34E-Oo 8.57E-O b No Data u.40E-OS Te-131 1.97s-08 8.2 3E-0 9

6. 22 E-09

1. 04 L-0 5 8.63E-08 No Data 2.7 9 E-09 Te-132 2.52E-06 1.6 3E-0 6

1. 5 3E-0 6 1.80E-06 1.57t-0 5 No Data 7.71c -05 I-130 7.SoE-07 2.2 3E-0 6 8.80E-07 1.89E-04 3.48E-06 No Data 1.92 t-O b I-131 4.16E-06 5.9 5E-0 6

3. 41h-06 1.95s-03 1.04t-05 No Data 1.5FE-Ob I-132 2.03E-07 5.4 3E-0 7 1.90E-07 1.10E-05 8.65L-07 No Data 1.02E-07 I-133 1.4 2 E-0 6 2.47E-0 6 7.53E-07 3.63E-04 4.31E-06 No Data 2.22 E-0 6 I-134 1.06 E-07 2. 88 E -07

1. 03 E-07 4.996-06 4.58E-07 No Data 2.51E-10 I-135 4.43E-07 1.16 E-0 6 4.286-07 7.'5b-05 1.4 6 h-06 No Data

1. 31E-0 6 Co-134 6.22E-05 1.4 8 E-0 4 1.21E-04 No Data 4.7 9 t-05 1.59 E-0 5 J.59h-Ob Cs-136 6.51E-06 2.57E-05 1.85E-05 No Data 1.436-05 1.96E-00 2.92E-00 Cs-137 7.97 E-05 1.09E-04 7.14E-05 No Data 3.70 E-05 1.23 E-0 5 2.11E-0 6 Cs-138 5.52E-08 1.09 E-07 5.40E-08 No Data 8.01 E-0 8 7.91E-09 4.65E-13 Ba-139 9.70 E-08 6.91E-11 2.84E-09 No Data 6.4bE-11 3.92E-11 1.74 t-0 7 Ba-140 2.0 3E-0 5 2.55E-08

1. 33 h-0 6 No Data

8. 67E-0 9 1.4bE-08 4.15 h-0 5 Ba-141 4.71E-0 8 3.56E-11 1.59E-09 No Data 3.31L-11 2.02E-11 2.22L-17 Ba-142 2.13E-08 2.19E-11 1.34E-09 No Data 1.85E-11 1.24E-11 3.00E-26 La-140 2.50E-09 1.26E-09 3.33E-10 No Data No Data No Data 9.45E-05 La-142 1.28E-10 5.82E-11 1.45E-11 No Data No Data No Data 4.25E-07 Ce-141 9.36E-09 6.3 3E-0 9 7.18E-10 No Data

2. 9 4 E-0 9 No Data 2.4 2E-0 5 Ce-143

1. 65E-09 1.J 2 E-O b 1.35E-10 No Data 5.37E-10 No Data 4.5bE-05 Ce-144 4.8BE-07 2.04E-07 2.62 E-08 No Data 1.21L-07 No Data 1.6 5E-04 Pr-143 9.20E-09 3.69E-09 4.56E-10 No Data 2.13E-09 No Data 4.036-05 Pr-144 3.01E-11 1.25E-11 1.53E-12 No Data 7.05h-12 No Data 4.33E-1d Nd-147 6.29E-09 7.27E-0 9 4.35L-10 No Data 4.25E-09 No Data 3.4 9 E-0 5 W-187 1.03E-07 8.61E-0 8 3.01E-08 No Data No Data No Data 2.8 2 E-0 5 Np-239 1.19E-09 1.11E-10 6.45E-11 No Da ta 3.656-10 No Data 2.40s-05 2 of 2

SNPS-1 ODCM N

)

'/

TABLE 3k V

j INGESTION DOSE FACTORS FOR TEENAGER (mrem per PC1 ingested)

Radio-nuclide Bone Liver T. Body

%yroid Kidney Lung GI-LLI H-3 No Data 1.06E-07 1.06E-07 1.066-07 1.0 6 E-07 1.06 E-07 1.00E-07 C-14 4.06E-06 8.12L-07 8.12 E-07 8.126-07 8.12b-07 8.12 E-07 8.12E-07 Na-24 2.30E-06 2.30L-06 2.30t-06 2.30E-06 2.30E-06 2.30E-06 2.30E-06 P-32 2.76E-04 1.71E-05 1.07E-05 No Data No Data No Data 2.32E-05 Cr-51 No Data No Data 3.60t-09 2.00r.-09 7.89E-10 5.14E-09 6.05E-07 Mn-54 No Data 5.90E-06 1.17h-06 No Data 1.76L-06 No Data 1.21E-05 Mn-56 No Data 1.58E-07 2.81E-08 No Data 2.00E-07 No Data 1.04t-05 Fe-55 3.78E-06 2.08E-06 6.25b-07 No Data No Data 1.70E-06 1.16E-06 Fe-59 5.87E-06 1.376-05 5.29E-06 No Data No Data 4.32h-06 3.2=E-05 Co-58 No Data 9.72E-07 2.24E-06 No Data No Data No Data

1. 3 4 E-0 5 Co-60 No Data 2.816-06 6.33E-06 No Data No Data No Data 3.66E-05 N1-63 1.77E-04 1.25E-05 6.00 E-06 No Data No Data No Data 1.998-06 Ni-65 7.49E-07 9.57E-08 4.36E-08 No Data No Data No Data 5.19t-06 Cu-64 No Data 1.15E-07 5.41E-08 No Data 2.91E-07 No Data 8.92E-06 En-65 5.76E-06 2.00E-05 9.33E-06 No Data 1.28E-05 No Data 8.4 7E-06 Zn-69 1.47E-OU 2.80E-08 1.96E-09 No Data 1.83E-08 No Data 5.16E-08 Br-83 No Data No Data 5.74E-08 No Data No Data No Data LT E-24 Br-84 No Data No Data 7.22E-08 No Data No Data No Data LT E-24 Br-85 No Data No Data 3.05E-09 No Data No Data No Data LT d-24 Rb-86 No Data 2.98E-05 1.40E-05 No Data No Data No Data 4.41E-0 6 kb-88 No Data 8.92 E-O tf 4.54E-08 No Data No Data No Data 7.30h-15 Rb-89 No Data 5.50E-09 3.89E-08 No Data No Data No Data 8.43E-17 Sr-89 4.40E-04 No Data 1.26E-05 No Data No Data No Data 5.248-05 Sr-90 8.30E-03 No Data 2.09E-03 No Data No Data No Data 2.33E-04 Sr-91 8.07E-06 No Data 3.21E-07 No Data No Data No Data 3.66d-05 Sr-92 3.05E-06 No Data 1.30E-07 No Data No Data No Data 7.77E-05 Y-90 1.37 E-08 No Data 3.69E-10 Fo Data No Data No Data 1.13E-04 Y-91m 1.29E-10 No Data

4. 93 E-12 No Data No Data No Data t>. 09E-0 9 Y-91 2.01E-07 No Data 5.39E-09 No Data No Data No Data 8.24h-05 Y-92 1.21E-09 No Data 3.50E-11 No Data No Data No Data 3.32L-05 Y-93 3.83E-09 No Data 1.05E-10 No Data No Data No Data 1.17h-04 Zr-95 4.12E-08 1.30E-08 8.94E-09 No Data 1.01E-08 No Data 3.00E-05 Zr-97 2 37E-09 4.69t-10 2.16E-10 No Data 7.11h-10 No Data 1.276-04 Nb-95 8.22E-09 4.56E-09 2.51E-09 No Data 4.42E-09 No Data 1.95E-05 Mo-99 No Data 6.03E-06 1.15E-06 No Data 1.38L-05 No Data 1.0 8E-05 Tc-99m 3.32E-10 9.26E-10 1.20E-08 No Data 1.38E-08 5.14E-10 6.0db-07 Tc-101 3.60E-10 5.12E-10 5.03h-09 No Data 9.26E-09 3.12t-10 8.758-17 Ru-103 2.55E-07 No Data 1.09E-07 No Data 8.99 E-0 7 No Data 2.13 E-05 Ru-105 2.18E-08 No Data 8.46E-09 No Data 2.75E-07 No Data 1.76E-05 Ru-106 3.92E-06 No Data 4.94h-07 No Data 7.56E-06 No Data 1.888-04 Ag-110m 2.05E-07 1.94 E-07 1.18E-07 No Data 3.70E-07 No Data 5.45E-05 Te-125m 3.83E-06 1.3BE-06 5.12E-07 1.07E-06 No Data No Data 1.13E-05 Te-127m 9.67E-06 3.43a-06 1.15E-06 2.30h-06 3.92E-OS No Data 2.418-05 Te-127 1.58E-07 5.60 E-0 8 3.40E-08 1.09E-07 6.40E-07 No Data 1.22E-05 Te-129m 1.63E-05 6.05E-06 2.58E-06 5.26E-06 6.82E-05 No Data 6.12E-05 1 of 2 m*

SNP3-1 0001 s

\\

TABLE 3.1-3 (CC A )

Radio-reaclide Bone Liver T. Body Thyroid Kidney Ltmq GI-LLI Te-129 4.48E-CB 1.67E-08 1.09E-08 3.208-08 1.88E-07 No Data 2.4 5e.-0 7 Te-131ra 2.44E-06 1.17E-06 9.76E-07 1.75E-Ob 1.22E-05 No Data 9.39E-05 Te-131 2.79E-08 1.15E-08 5.72E-09 2.15E-OB

1. 22 E-0 7 No Data 2.29E-09 Te-132 3.49E-06 2.21E-06 2.08 E-06

2. 3 3r.-0 6 2.12 E-0 5 No Data 7.00 E-0 5 I-130 1.03E-06 2.9 8 E-0 6 1.19E-06 2.43E-04 4.59E-06 No Data 2.29E-06 I-131 5.85E-06 8.19E-0 6 4.40E-06 2.39E-03 1.41E-05 No Data 1.628-06 I-132 2.79E-07 7.30E-07 2.62E-07 2.46E-05 1.15E-06 No Data 3.1st-07 I-133 2.01E-06 3.41E-0 6 1.04E-06 4.76E-04 5.98E-06 No Data 2.5dE-Ob I-134 1.4 6 E-0 7 3.87E-07 1.39E-07 6.45E-06 6.10E-07 No Data 5.10E-09 I-135 6.10E-07 1.57E-0 6 5.82E-07 1.01E-04 2.48E-06 No Data 1.7ae E-0 6 Cs-134 8.37E-05 1.97E-04 9.14E-05 No Data 6.26E-OS 2.39E-OS 2.45t-Ob Cs-136 8.59E-06 3.35E-09 2.27E-05 No Data

1. 8 4 E-0 5 2.90E-06 2.72E-06 Cs-137 1.12E-04 1.49E-04 5.19 E-0 5 No Data 5.07E-05 1.978-05 2.12E-06 Cs-138 7.76E-08 1.4 9 E-0 7 7.45E-08 No Data 1.10 E-0 7 1.28E-08 6.7bE-11 ba-139 1.39E-07 9.78E-11 4.05E-09 No Data 9.22E-11 6.74E-11 1.2 4 E-0 6 Ba-140 2.84E-05 3.48E-08 1.88E-06 No Data 1.18E-08 2.34E-08 4.38E-05 Ba-141 6.71E-08 5.01E-11 2.24E-09 No cata 4.65E-11 3.43E-11 1.4 3E-13 Ba-142 2.99E-08 2.99E-11 1.54E-09 No Data 2.53E-11 1.99E-11 9.18 E-2 0 La-140 3.48E-09 1.71E-0 9 4.55E-19 No Data No Data No Data 9.82E-05 La-142 1.79E-10 7.95E-11 1.98E-11 No Data No Data No Data 2.42E-06 Ce-141 1.33E-08 8.88E-09 1.02E-09 No Data 4.18 E-9 8 No Data 2.54E-05 Ce-143 2.35E-09 1.71E-0 6 1.91E-10 No Data 7.67E-10 No Data 5.14 E-0 5 Ce-144 6.96E-07 2.88E-07 3.748-06 No Data 1.72E-07 No Data 1.756-04 Pr-143 1.31E-OB 5.23E-09 6.52E-10 No Data 3.04 E-0 9 No Data 4.31E-05 Pr-144 4.30E-11 1.76E-11 2.13E-12 No Data 1.01E-11 No Data 4.74E-14 Nd-147 9.38E-09 1.02E-08 6.11E-10 No Data 5.99E-09 No Data 3.6sE-05 W-187 1.46 E-07 1.19 E-0 7 4.17E-08 No Data No Data No Data 3.22E-05 Np-239 1.76E-09 1.66E-10 9.22E-11 No Data 5.21E-10 No Data 2.67E-05 2 of 2

SNPS-1 C h

O v

xd TABLE 3.1-4 4

INGESTION DOSE FAC10RS EVR CHILD (mreso per pCi ingested)

Radio-nuclide Bone Liver T. Body Thyroid Kidrwy huno GI-LLI H-3 No Data 2.031-07 2.03E-07 2.03E-07 2.03E-07 2.038-07 2.03E-07 C-14 1.21E-05 2.428-06 2.42E-06 2.42E-06 2.42E-Oe 2.42E-06 2.42E-On Na-24 5.bOE-06 5.80E-06 5.80E-06 5.80E-06 5.80E-Oe 5.80E-06 5.80 E-0 6 P-32 8.25E-04 3.86c-05 3.183-05 No Data No Data No Data 2.26E-05 Cr-51 No Data No Data 8.90E-09 4.84t-09 1.35E-09 9.02 E-09 4.72E-07 Mn-54 No Data 1.07E-05 2.85E-06 No Data 3.00E-06 No Data 8.98E-06 Mn-56 No Data 3.34E-07 7.54E-08 No Data 4.04E-07 No Data

4. b 4 E-0 5 Fe-55 1.15E-05 6.108-06 1.89E-06 No Data No Data 3.45E-06 1.13E-06 Fe-59 1.65E-05 2.67E-05 1.35E-05 No Data No Data 7.74E-06 2.78E-05 Co-58 No Data 1.80E-06 5.51h-06 No Data No Data No Data 1.05E-05 Co-60 No Data 5.29E-06 1.56E-05 No Data No Data No Data 2.93E-05 Ni-63 5.38E-04 2.88E-05 1.83t-05 No Data No Data No Data 1.94E-06 Ni-65 2.22E-06 2.09E-07 1.22E-07 No Data No Data No Data 2.56E-OS Cu-64 No Data 2.45E-07 1.4BE-07 No Data 5.92E-07 No Data 1.15E-05 En-65 1.37E-05 3.65E-05 2.27E-05 No Data 2.30E-05 No Data 6.41E-06 En-69 4.38E-08 6.33E-08

5. 85 E-09 No Data 3.84E-08 No Data 3.99E-06 Br-83 No Data No Data 1.71E-07 No Data No Data No Data LT E-24 Br-84 No Data No Data 1.93E-07 No Data No Data No Data LT E-24 Br-85 No Data No Data 9.12 E-09 No Data No Data No Data LT E-24 Rb-86 No Data 6.70E-0 5 4.12 E-05 No Data No Data No Data 4.318-06 Rb-88 No Data 1.90E-07 1.32E-07 No Data No Data No Data 9.32E-09 Rb-89 No Data 1.17E-07 1.04E-07 No Data No Data No Data 1.026-09 Sr-89 1.32E-03 No Data 3.77E-05 No Data No Data No Data 5.11E-05 Sr-90 1.70E-02 No Data 4.31E-03 No Data No Data No ma

2. 29E-0 4 Sr-91 2.40E-05 No Data 9.06E-07 No Data No Data No Data 5.30E-05 Sr-92 9.03E-06 No Data 3.62E-07 No Data No Data No Data 1.71E-04 Y-90 4.11E-08 No Data 1.10E-09 No Data No Data No Data 1.178-04 Y-91m 3.82E-10 No Data 1.37E-11 No Data No Data No Data 7.4BE-07 Y-91 6.02E-07 No Data 1.61E-08 No Data No Data No Data 8.04E-05 Y-92 3.60E-09 No Data 1.03E-10 No Data No Data No Data 1.04 E-0 4 Y-93 1.14E-08 No Data 3.13 E-10 No Data No Data No Data 1.70E-04 1r-95 1.16E-07 2.55E-08 2.27E-08 No Data 3.65E-08 No Data 2.66E-05 Zr-97 6.99E-09 1.01E-0 9 5.96E-10 No Data

1. 4 5 E-09 No Data 1.53E-04 Nb-95 2.25E-08 8.76E-09 6.26E-09 No Data 8.23E-09 No Data 1.6 2E-05 No-99 No Data 1.33E-05 3.29E-06 No Data 2.84E-05 No Data 1.10E-05 Tc-99m 9.23E-10 1.81E-09 3.008-08 No Data 2.63E-08 9.19E-10 1.03E-06 Tc-101 1.07E-09 1.12E-09 1.42E-OB No Data 1.91E-08 5.92E-10 3.568-49 Ru-103 7.31E-07 No Data 2.81E-07 No Data 1.84E-36 No Data

1. 8 9E-0 5 Ru-105 6.458-08 No Data 2.34E-08 No Data 5.07E-07 No Data 4.21E-05 Ru-106 1.17E-05 No Data 1.46E-06 No Data 1.58E-05 No Data 1.82E-04 Ag-110m 5.39E-07 3.64E-07 2.91E-07 No Data 6.78L-07 No Data 4.33E-05 Te-125m 1.14E-05 3.09E-06 1.52E-06 3.20E-06 No Data No Data 1.10E-05 Te-127m 2.89E-05 7.78E-06 3.43E-06 6.91E-06 8.24E-05 No Data 2.3*E-05 Te-127 4.71E-07 1.27E-07 1.01E-07 3.26E-07 1.34E-06 No Data 1.84E-05 Te-129m 4.87E-05 1.36E-05

7. 56 E-06 1.57 E-05 1.43E-04 No Data 5.94 E-05 1 of 2

SNPS-1 I

],

TABLE 3.1-4 (CONT *D)

Radio-nuclide Bone Liver T. Body Thyroid Kidney Lung GI-LLI Te-129 1.34E-07 3.74E-08 3.18E-08 9.56E-08 3.92E-07 No Data 8.34E-06 Te-131rn 7.20E-06 2.49E-06 2.65E-06 5.12E-06 2.41E-05 No Data 1.01E-Oe Te-131 8.30E-08 2.53E-08 2.47E-08 6.35E-08 2.515-07 No Data 4.3bE-07 Te-132 1.01 E-0 5 4.47E-06 5.40E-06 6.51E-0 6 4.15 E-0 5 No Data 4.50 E-0 5 1-130 2.92E-06 5.908-06 3.04E-06 6.50E-04 8.82E-06 No Data 2.7bE-06 I-131 1.72E-05 1.73E-05 9.83E-06 5.72E-03 2.84E-05 No Data 1.5=E-Ob I-132 8.00E-07 1.4 7E-0 6 6.76E-07

6. 8 2E-0 5 2.256-06 No Data 1.7.lE -06 1-133 5.92E-06 7.32E-0 6 2.77E-06 1.36E-03 1.22E-05 No Data 2.95E-Oh I-134 4.19E-07

7. 7 sE-0 7 3.58E-07 1.79E-05 1.19E-06 No Data 5.1bE-07 I-135 1.75E-06 3.15E-06 1.49E-06 2.79E-04 4.83E-06 No Data 2.40E-06 Ca-134 2.34E-04 3.8eE-04 8.10E-05 No Data 1.19E-04 4.27E-05 2.07E-Ob Cs-136 2.35E-05 6.46E-05 4.18 E-05 No Data 3.44E-05 5.13 E-06 2.278-06 Cs-137 3.27E-04 3.13E-04 4.62E-05 No Lata 1.0 2 E-04 3.67E-05 1.9eE-Ob Cs-13J 2.28E-07 3.17E-07 2.01E-07 No Data

2. 23t-0 7 2.40E-08 1.4 b E-0 7 Ba-139 4.14 E-07 2.21E-10 1.20E-08 No Data 1.93E-10 1.30E-10 2.39E-05 Ba-140 8.31E-0 5 7.28E-08 4.85E-06 No Data 2.37E-08 4.34E-08 4.21E-05 Ba-141 2.00E-07 1.12E-10 6.51E-09 No Data 9.b9t-11 6.58E-10 1.14E-07 Ba-142 8.74E-08 6.29E-11 4.88E-09 No Data 5.09E-11 3.70E-11 1.14 E-0 9 La-140 1.01E-08 3.53E-09 1.10E-09 No Data No Data No Data 9.84E-05 La-14 2 5.24E-10 1.67E-10 5.23E-11 No Data No Data No Data 3.31E-05 Ce-141

3. 9 7E-08 1.98E-09 2.94E-09 No Data 8.68E-08 No Data 2.4 7E-0 5 Ce-14 3 6.99E-09 3.79E-Go

5. 4 9 E-10 No Data 1.59E-09 No Data 5.55E-05 Ce-144 2.08E-06 6.52E-07 1.11E-07 No Data 3.61 E-0 7 No Data 1.70E-04 Pr-143 3.93E-08 1.18E-08 1.95E-09 No Data b.39E-09 No Data 4.24 E-0 5 Pr-144 1.2 9E-10 3.99E-11

6. 49E-12 No Data 2.11E-11 No Data 8.59E-Oh Nd-147 2.79E-08 2.268-08 1.75E-09 No Data

1. 2 4 E-0 8 No Data

.$.5 8 E-05 N-187 4.29E-07 2.54E-07 1.14E-07 No Data No Data No Data 3.57E-05 Np-239 5.25E-09 3.77E-10 2.65E-10 No Data 1.09E-09 No Data 2.79E-05 s

2 of 2

SMPS-1 ODCM TABLE 3.1-5 DECAY CONSTANTS (1/nr)

Radic-Radio-nuclide Constant nuclide Constant H-3 6.408E-06 Ru-103 7.300E-04 C-14 1.379E-08 Ru-405 1.600E-01 Na-2 4 4.600E-02 Ru-106

7. 800E-05 P-32 2.000E-03 Ag-110m 1.100E-04 Cr-51 1.044E-03 Te-125m 5.000E-04 Mn-54 9.252E-05 Te-427m 2.6002-04 Mn-56

2. 700E-01 Te-127 7.400E-02 Fe-55 2.930E-05 Te-129m 8.6 00 E-04 Fe-59 6.480E-04 Te-129 5.900E-01 Co-58 4.068E-04 Te-131m 2.300E-02 Co-60 1.501E-05 Te-131 1.700E+00 Ni-63 d. 600 E-07 Te-132 a. 900E- 03 N1-65 2.700E-01 I-130 5.600E-02 Cu-64 5.400E-02 I-131

3. 593E-03 Zn-65 1.184E-04 I-132 3.000E-01 Zn-6 9 7.296E-01

." I-133 3.334E-02 Br-63 2.900E-01 I-134 7.900E-01 Br-84 1.300E+00 I-135 1.100E-01 Br-85 1.449E+01 Cs-134 3.852E-05 Rb-06 1.500E-03 Cs-436 2.203E-03

\\

Rb-88 2.400E+00 Cs-137.

2.635E-06 Rb-89 2.700E+00 Cs-438 1.300E+00 Sr-89 5.724E-04 Ba-139 5.000E-01 Sr-90 2.776E-06 Ba-140 2.257E-03 Sr-91 7.300E-02 Ba-141 2.300E+00 Sr-92 2.600E-0T Ba-442 3.900E+00 Y-90 1.100E-02 La-140 1.700E-02 Y-91m 8.300E-01 La-142 4.500E-01 Y-91

4. 900E-04 Ce-141 8.892E-04 Y-92 2.00E-01 Ce-143 2.100E-02 Y-93 6.800E-02 Ce-444 1.019E-04 Zr-95 4.392E-04 Pr-143 2.100E-03 Zr-97 4.100E-02 Pr-444 2.400E+00 Nb-95 8.200E-04 Nd-147 2.600E-03 Mo-99 1.000E-02 W-487 2.9 00E-02 Tc-99m 1.200E-01 Np-239 1.200E-02 l

Tc-101 2.900E+00 l

l 0U 1 of 1 1

l ShPS-1 ODCM TA3La 3.1-6 E/.TERNAL COSE FACTOhd FOR STANDI!:G GN CONTA113ATiD GROUhD (mrem /nr per pC:./me)

Element Total Betz Skin H-3 0.0 0.0 C-14 0.0 0.0 Na-24 2.50E-08 2.90E-08 P-32 0.0 0.0 l

Cr-51 2.20E-10

2. o 0E-10 Mn-54 5.80E-09 6.80E-09 Mn-56 1.10E-08 1.30E-06 Fe-55 0.0 0.0 Fe-59 8.0 0E-0 9

9. 40E-0 9 Co-68 7.00E-09 8.20E-09 Co-60 1.70E-0 8 2.00E-08 N1-o3 0.0 0.0 Ni-65 3.70E-09 4.30E-0 9 Cu-64 1.50E-09 1.70E-09 Zn-65 4.0 0E-09 4.60E-09 Zn-6 9 0.0; 0.0 Br-83 6.40E-11 9.30E-11 l

Br-84 1.20E-08 1.40E-08 Br-65 0.0 0.0 Rb-86 6.30E-10 7.20E-10 Rb-88 3.50E-09 4.00E-09 l

Rb-89 1.50E-0 8 1.80E-08 l

Sr-89 5.60E-13 6.50E-13 l

Sr-91 7.10E-09 8.30E-09 Sr-92 9.00E-09 1.00E-08 Y-90 2.20E-12 2.60E-12 Y-91m 3.80E-09 4.40E-09 Y-91 2.40E-11 2.70E-11 Y-92 1.60E-09 1.90E-09 Y-93 5.70E-10 7.80E-10 Zr-95 5.00E-09 5.80E-09 Zr-97 5.50E-0 9 6.40E-09 Nb-95 5.10E-09 b.00E-09 Mo-99 1.90E-09 2.20E-09 Tc-99m 9.60E-10 1.10E-09 Tc-101 2.70E-09 3.00E-09 mi-103 3.6 0E-09 4.20E-09 Ru-105 4.50E-09 5.10E-09 Ru-106 1.50E-09 1.80E-09 Ag-110m 1.8 0E-0 8 2.10E-08 Te-125m 3.50E-11 4.80E-11 Te-127m 1.10E-12 1.30E-12 Te-127 1.00E-11 1.10E-11 N

Te-129m 7.70E-10 9.00E-10 Te-129 7.10E-10 8.40E-10 Te-131m 8.40E-09 9.905-09 1 of 2

f s:ms-1 coca TAELE 3.1-o (CC:1T*0)

)

sle. ment Total 2cdv dRin Te-131 z.205-09 e.o0E-Oo Te-132 1.70E-03 2.00s-Os I-130

1. 4 0E-0 8 1.70E-04 1-131 2.80E-09 3.40E-03 I-132

1. 70E -0 6 2.00E-08 I-133 3.70E-0 9 4.50E-09 I-134 1.60E-08 1.90E-0 8 I-135 1.20E-08 1.40E-08 Cs-134 1.20E-0 8 1.40E-08 Cs-136 1.50E-0 8 1.70E-Od Cs-137 4.20 E-0 9 4.90E-09 l

Cs-138 2.10E-08 2.40E-08 l

Ba-139

2. 40E-0 9

2. 70E-0 9 Ba-140 2.10E-09 2.40E-09 Ba-141 4.30 E-0 9 4.90E-0 9 Ba-142 7.90E-09 9.00E-09 I

La-140 1.50E-0 8 1.70E-08 La-142 1.50E-08 1.80E-08 Ce-141 5.50E-10 6.20E-10 Ce-143 2.20E-09 2.50E-09 Ce-144 3.20E-10 3.70E-10 Pr-143 0.0 0.0 Pr-144 2.00E-10 2.30E-10 Nd-147 1.00E-09 1.20E-09 W-187 3.10E-0 9 3.60E-09 Np-239 9.50E-10 1.10E-09 l

l 2 of 2

]

/^

SNPS-1 &

TABLE 3.1-7 DOSE RATE CONVERSION FACTORSt& % Ay FOR (FISH AND INVERTEBRATE) INGLSTION PATHWAY (mrem / min per *C1/cc)

Isotope bone Liver T. Body Thyroid Kidney Lung GI-LLI H-3 5.9E-03 5.9E-0 3 5.9E-03 5.9E-03 5.9E-03 5.9h-03 C-14 Na-24 3.38-03 3.3E-03 3.3E-03 3.31-03 3.3E-03 3.3E-03 3.3E-03 P-32 2.6t+05 1.6E+04 1.0t+04 3.0t+0e Cr-51 8.9E-02 5.3E-02 2.0E-02 1.21-01 2.2L+01 1.2E+02 2.2E+01 3.4E+01 3.6E*04 Mn-54 Mn-56 4.bE-03 8.3h-04 5.bE-03 1.4E-01 Fe-55 1.9E+03 8.6E+03 2.2E+03 9.9E+03 3.3t*03 Fe-59 1.3E+03 3.1E+03 1.2E+03 8.6E+0J 1.0t*04 Co-58 9.8E+00 2.2E + 01 2.0E+02 00-60 2.8E+01 b.2E+01 5.3t+02 Ni-63 8.3E+02 5.8E*01

2. 7E

• 01 1.2 h

• 01 N1-65 4.8E-03 6.3E-04 2.8E-04 1.bE-02 Cu-64 9.6E-01 4.5E-01 2.4E+00 8.2h+01 2n-65 2.6E+03 8.3E+03 3.8E+03 5.6 E +0 3 5.2h*03 En-69m 2.8E*01 6.7E+01 6.2E-00 4.1E+01 4.1E*03 Br-83 1.2E-06 1.7t-06 2.8E-17 2.1E-22 Br-84 Br-85 Rb-86 Rb-88 Rb-89 5.3E-31 3.8E-31 Sr-69 8.2E+01 2.3E+00 1.3E+01 4.9E+02 2.7t*01 Sr-90 2.0E+03 Sr-91 2.6E-01 1.2E- 02 1.3 E+ 00 Sr-92 1.2 E-0 3 5.3E-05 2.4E-02 Y-90 Y-91m 7.9h+02 Y-91 1.5E+00 3.8E-02 Y-92 7.9E-05 2.3E-06 1.4E+00 Y-9 3 5.4E-03 1.5E-04 1.7t+0/

Zr-95 2.6E-01 8.3E-02 5.6E-02 1.35-01 2.6E+02 Zr-97 5.4 E-0 3 1.1E-03 4.9E-04 1.b E-0 3 3.3E+02 Nb-95 7.JE+00 4.0E+00 1.bE+00 3.9t+00 2.sh*04 Mo-99 1.6E+00 3.2E+01 3.7t+00 3.7E+00 i

Tc-99m 1.4 h-0 5 3.8L-05 4.8E-04 5.7t-04 1.9E-05

2. 2 E- 02 Tc-101 6.3E-35 9.0E-35 9.0E-34 1.6E-33 4.6E-35 Ru-103 1.7E*00 7.3E-01 6.6E*00 2.0t+02 Ru-105 3.5E-0 3

1. 4E-0 3 4.4E-02 4.1t+00 Ru-106 2.6E+01 3.3E+00 5.0E+01 1.7 E

• 03 Ag-110m 2.5E+01 2.4E+01 1.4E+01 4.5E+01 9.8t+03 Te-129m 1.5E+01 5.5E+00 2.4E+00 5.2E+00 6.2E+01 7.5E*01 Te-131m 1.3E+00 6.4E-01

5. 3E-01 1.0t+00 6.4E+00 6.3E*01 Te-132 2.7E*01 1.8E+00 1.6E+00 1.9E+00 1.7E+01 8.3E+01 1-131 3.3t+00 4.7t+00 2.7E+00 1.Sh+03 8.0E+00 1.2t+00 1 ot 2

\\

(

)

SNPS-1 ODCM i

s TABLE 3.1-7 (CONT'D)

Isotope Bone Liver T. Body Thyroid Kidney Lung GI-LL1 1-132 1.2E-04 3.3E-04 1.1E-04 4.3E-02 5.1E-04 6.1t-05 I-133 5.58-01 9.6E-01 2.9E-01 1.8E+02 1.7E+00 u.St-01 I-134

$.0E-10 1.4 E-09 4.9 E-10 1.8E-07

2. 2E-0 9 1.2E-12 I-135 3.1E-02 8.2E-02 2.9E-02 1.th+01 1.3E-01 8.9 r.-0 2 Cs-13 4 1.1E+02 2.7E+02 2.1E+02 8.6E+01 2.SE+01 4.6t*00 Cs-136 1.1L+01 4.4E+01

3. 2E + 01 2.4L+01 3.3E+00 5.0E+00 Cs-137 1.5E+02 1.9E+02 1.3E+02 6.7L+01 2.2E*01 3.HL*00 Cs-138 3.5E-15 7.0h-15 3.5E-15 5.2E-15 5.aE-10 3.0E-20 l

Ba-139 8.1E-07 5.7E-10 2.th-08 5.4E-10 3.3E-10 1.5E-On Ba-140 2.5E+01 3.2E-02 1.7E+00 1.1E-02 1.8E-02 5.3E*01 Ba-141 1.0E-28 4.6E-27 9.7E-29 5.8E-29 6.4 E-35 Ba-142 8.0E-43 8.2E-46 5.1t-44 7.0E-46 4.6E-46 La-142 2.6E-08 1.2E-08 3.0E-09 8.9E-05 Ce-141 5.5E-02 3.7E-02 4.2E-03 1.7 E-02 1.4E+02 Ce-143 5.9 E-0 3 4.4E+00 4.9E-04 2.0E-03 1.6E*02 Ce-144 2.9E+00 1.2E+00 1.6E-01 7.2E-01 9.7E*02 Pr-143 8.8E-02 3.6r.-0 2

4. 5E-0 3 2.1E-02 3.9E+02 Nd-147 6.1r-02 7.0E-02 4.2E-03 4.1E-02 3.4E*02 N-187 7.5E-02 6.3E-02 2.1E-02 2.On*01 Np-239 4.4E-04 6.3E-02 2.1E-02 2.0E+01 u 3 See Section 4.0 i

1 2 of 2

SNPS-A TABLE 3.3-1 CHILD INHALATION DOSE RATE CONVERSION FAC1WS, Pi)

(mrem /yr per uC1/in9 Isotope Bone Liver T. Body Thyroid Kidney 1,una GI-LLI Cr-51 3.4E*01 2.1E*01 7.9E+00 4.9E*03 1.1E+03 Mn-54 1.3E+04 2.1E+03 3.3E+03 4.9E+05 2.bt+0e Fe-59 4.0E+03 9.3E+06 3.5E*03 3.nE+05 6.5E+04 Co-58 1.1E+02 2.0E+02 1.1E+06 2.7E+0e Co-60 7.8E+02 1.3t*03 5.2E*06 7.0E+0e En-65 1.1E+0e 3.bE+0e 1.5E+0e 2.eE+0e 2.9E+05 1.bs+04 St-69 3.9E+04 1.1E+03 1.6E+06 1.2E+05 Sr-90

1. 2E + 07 7.3E+05 1.1E*07 2.5E*05 Er-95 1.0E+04 2.4E+03 2.2E+03 1.8E+0e 1.6E+06 4.3E+04 Sb-124 1.1E+0e 2.0E+02 4.tE+03 2.6E+01 8.3E+05 1.eE+05 I-131 3.3E*04 3.4E+04 2.6E+04 1.1E+07 2.1E+04 1.9E+03 I-133 1.3E+0a 1.5E+04 6.1E+03 3.7E*06 8.7E+03 4.1E+04 Cs-134 4.7E+05 7.3E*05 1.7E+05.

9.9E*04 8.8t+04 3.8t+03 Cs-136 1.3E+04 4.8E+04 3.7E+0*

2.9E+0s 4.2E+03 1.7t+03 Cs-137 6.4E+05 5.9E+05 9.1E+04 7.5E+04 7.3E+04 5.7E*03 Ba-140 5.3E+03 3.4E+04 3.0E+02 5.7E+00 1.3E+06 7.3E+03 Ce-141 2.3E+03 1.1E+03 1.7E+02 2.2E+03 3.7E*05 4.1E+04 a

9 1 of 1 e

m

SNPS-1 CDCM TABLE 3.4-1 SOELE GAS DOSE FACTORS Gamma Air meta Air Cose Factor Dose Factor M1 Ni Isotooe (mrad /yr oer uC1/m3)

(mrad /yr oer uC1/m3) i Kr - 83m 1.9E+01 2.9E+02 Kr - 85m 1.2E+03 2.0E+03 l

Kr - 85 1.7E+01 2.0E+03 Kr - 87 6.2E+03 1.0E+04 Kr - 88 1.5E+04 2.9E+03 i

Kr - 89 1.7E+04 1.1E+04 Kr - 9 0 1.6E+04 7.8E+03 Xe - 131m 1.6E+02 1.1E+03 Xe - 133m 3.3E+02 1.5E+03 Xe - 133 3.5E+02 1.1E+03 f

Xe - 135m 3.4E+03 7.4E+02 Xe - 135 1.9E+03 2.SE+03 Xe - 137 1.5E+03 1.3E+02 Xe - 138 9.2E+03 4.8E+03 Ar - 41 9.3E+03 3.3E+03 1 of 1

\\

SNP5-1 v

q TABLE 3.5-1 INHALATION DOSE FAC70RS FOR ADULTS (mram per pCi inhaled)

Radio-nuclide Bone Liver T. Body thyroid Kidney Lung GI-a.LI H-3 No Data 1.58 h-0 7 1.58E-07 1.58h-07 1.58h-07 1.58h-07 1.58 h-07 C-14 2.27E-06 4.26h-07 4.268-07 4.166-07 4.2bh-01 4.2ba-07 4.266-07 Na-24 1.2 8 h-0 6 1.28h-06 1.28h-Ob 1.2 8 h-06

1. 2 8 h-0 6 1.28E-06 1.2eh-06 P-32 1.65E-04 9.64h-06 6.2bE-Ob No Data No Data No Data 1.0 8 h-05 Cr-51 No Data No Data 1.2SE-08 7.4=h-09

2. 85h-0 9 1.80E-Ob 4.15h-07 Mn-54 No Data 4.9 5h-0 6 7.87E-07 No Data 1.236-06 1.75E-04 9.67E-06 Mn-Sb No Data 1.55h-10 2.29h-11 ho Data 1.63h-10 1.18h-Ob 2.53s-06 Fe-55 3.07h-06 2.12E-06 4.98h-07 ho Data No Data 9.0th-06 7.54 E-0 7 Fe-59 1.47h-06 3.47E-06 1.32E-06 No N ta No Data 1.27E-04 2.35h-05 Co-58 No Data 1.9 8 h-0 7 2.59h-07 No Data No Data 1.1bh-04 1.33h-05 Co-60 No Data 1.4 4 h-O b 1.85E-Ob No Data No Data 7.46E-04 3.5et-05 N1-63 5.40E-05 3.03h-06 1.81h-Ob No Data No Data 2.23E-05 1.67E-06 N1-65 1.92h-10 2.62h-11 1.14E-11 No Data No Data 7.00h-07 1.54a-06 Cu-64 No Data 1.83E-10 7.69E-11 No Data 5.7dh-10 8.48s-07 b.12h-Ob Zn-65 4.05h-06 1.2 9E-05 5.82E-Ob No Data 6.62h-06 1.08E-04 6.6uh-06 In-69 4.23h-12 8.14E-12 5.65h-13 No Data 5.27h-12 1.156-07 2.0 4 E-0 9 Br-83 No Data No Data 3.01E-08 No Data No Data No Data 2.40h-08 Br-84 No Data No Data 3.91E-08 No Data No Data No Data 2.058-13 br-85 No Data No Data 1.bOE-09 No Data No Data No Data LT E-24 Rb-86 No Data 1.69h-05 7.37s-06 No Data No Data No Data 2.08E-06 Rb-88 No Data 4.84E-08 2.41h-08 No Data No Data No Data 4.18h-19 Rb-89 No Data 3.20E-08 2.12 h-08 No Data No Data No Data 1.1bE-21 Sr-89 3.80h-05 No Data 1.09h-Ob No Data No Data 1.75E-04 4.3 ss-05 Sr-90 1.24E-02 No Data 7.62h-04 No Data No Data 1.20h-01 9.02m-0 5 Sr-91 7.74E-09 No Data 3.13 E-10 No Data No Data 4.5tsh-Ob 2.39E-05 Sr-92 8.43h-10 No Data 3.64h-11 No Data No Data 2.0 b u-0 6 5.3ss-06 Y-9 0 2.b1E-07 No Data 7.01t-09 No Data No Data 2.12h-05 6.32h-05 Y-91m 3.26E-11 No Data 1.27h-12 No Data No Data 2.40E-07 1.bb h-10 Y-91 5.7dh-05 No Data 1.55h-Ob No Data No Data 2.13h-04 4.81h-05 Y-92 1.29E-09 No Data 3.77E-11 No Data No Data 1.9 bh-O b 9.19h-06 Y-93 1.18h-05 No Data 3.26h-10 No Data No Data b.06h-Ob 5.27h-05 3r-95 1.34E-05 4.30E-Ob 2.91E-06 No Data 6.77E-06 1.21s-04 1.88E-05 Zr-97 1.216-08 2.45E-09 1.13h-09 No Data 3.71h-09 9.8 t h-0(i b.5th-05 ND-95 1.7bE-06 9.77E-07 5.26h-07 No Dat.a 9.67h-07 6.31h-05 1.30E-05 Mo-99 No Data 1.51E-08 2.87t-09 No Data 3.64h-08 1.146-05 3.10s-05 Tc-99m 1.29h-13 3.64E-13

4. b 3 E-12 No Data 5.52h-12 9.558-08 5.20s-07 Tc-101 5.22h-15 7.52h-15 7.38h-14 No Data 1.35h-13 4.998-08 1.3ba-21 ku-103 1.91E-07 No Data B.23h-08 No Data 7.29h-07 6.31h-05 1.3es-05 l-ku-105 9.u8E-11 No Data 3.u9E-11 No Data 1.27E-10 1.378-06 6.02E-06 r

Ru-106 8.64h-06 No Data 1.09h-Ob No Data

1. 67 h-0 5 1.17h-03 1.14h-04

~

Ag-110m 1.35E-Ob 1.25h-06 7.43E-07 No Data 2.46h-06 5.79h-04 3.78h-05 Te-125m 4.27E-07 1.98h-07 5.84h-08 1.31h-07 1.55h-0 6 3.9JE-05 8.83E-Ob Te-127m 1.58E-06 7.21h-07 1.96E-07 4.11E-07 5.72E-Ob 1.20h-04 1.878-05 Te-127 1.75h-10 8.03h-11 3.87E-11 1.32h-10 6.37h-10 8.14h-07 7.176-06 Te-129m 1.22h-Ob 5.84E-07 1.98h-07 4.306-07 4.57h-Ob 1.45h-04 4.79h-05

~

1 of 2

G D

SNPS-1

~

TABLE 3.5-1 (CONT'D)

Radio-nuclide Bone Liver T.

body Thyroid Kidney Lung GI-LLI Te-129 6.22E-12 2.99E-12 1.55t-12 4.87E-12 2.3et-11 2.42E-07 1.9et-08 Te-130m 8.7*E-09 5.45L-09 3.63t-09 b.8sh-09 3.abt-Os 1.026-05 m.95E-05 Te-131 1.39E-12 7.44E-13 4.49E-13 1.17L-12 5.4et-12 1.74e-07 2.30&-09 Te-132 3.45E-Ou 2.69t-08 2.02t-08 2.37t-Os

1. 8 2h-0 7 3.60E-05 6.37c-05 I-130 5.72E-07 1.o8E-06 6.006-07 1.42s-04 2.61E-06 No Data 9.m1E-07 1-131 3.15h-Ob 4.47E-0 6 2.566-00 1.496-03 7.oot-ce No Data 7.8>E-07 I-132 1.4 5L-0 7 4.07E-07 1.45h-07 1.43h-05 b.48h-07 No Data 5.0st-08 1-133 1.08c-06 1.d5E-Ob 5.b5E-07 2.69E-Os 3.23a-Ob No Data 1.11E-Om I-134 8.05E-Os 2.166-07 7.698-08 3.73t-Ob 3.44E-07 No Data 1.206-10 1-135 3.35E-07 8.73E-07 3.21h-07 5.60h-05 1.39s-06 No Data b.5tE-07 Cs-13e 4.bbE-05 1.0bE-04 9.10E-05 No Data 3.59E-05 1.22L-05 1.30E-Ob Cs-136 4.88E-Ob 1.8 3E-0 5 1.38E-05 No Data 1.0 7 h-0 5 1.50E-06 1.enE-06 Cs-137 5.98E-05 7.7bh-05 5.35t-05

• No Data 2.78 t-0 5 9.4 0 E-0 6 1.03h-06 Cs-138 4.14E-05 7.76E-08 4.05h-08 Ho Data 6.00c-08 6.07t-09 2.33E-13 Ba-139 1.178-10 8.328-14

3. 42 E-12 No Data 7.788-14 4.70E-07 1.14E-07 Ba-140 4.dBE-06 6.13L-09 3.21n-07 No Data 2.096-09 1.59E-04 2.73L-05 Ba-141 1.25E-11 9.41E-15 4.20E-13 No Data 8.75E-15 2.42E-07 1.45E-17 Ba-142 3.29E-12 3.385-15 2.076-13 No Data 2.8bE-15 1.49E-07 1.90E-26 La-140 4.30E-08 2.17E-08 5.73E-09 No Data No Data 1.70 E-05 5.73d-05 La-142 8.54E-11 3.88E-11 9.65E-12 Ho Data No Data 7.91t-07 2.but-07 Ce-141 2.49E-06 1.69E-06 1.91s-07 No Data 7.83E-07 e.52E-05 1.50 E-05 Ce-1853 2.33E-08 1.72E-08 1.916-09 No Data 7.60s-09 9.9 7 E-0 6 2.83E-05 Ce-144 4.296-04 1.79E-04 2.306-05 No Data 1.0 b L-Os 9.72L-04 1.02E-04 Pr-143 1.17E-Ob 4.69E-07 5.80E-08 No Data 2.70E-07 3.51E-05 2.50E-05 Pr-144 3.7bh-12 1.56b-12 1.916-13 No Data 8.61E-13 1.27m-0 7 2.69m-18 Nd-147 6.59E-07 7.62E-07 4.56E-08 No Data 4.45h-07 2.76L-05 2.1bE-05 W-187 1.0bE-09 8.85E-10 3.10E-10 No Data No Data 3.63n-06 1.9 = h-0 5 Np-239 2.87E-08 2.82E-09 1.55h-09 No Data 8.75h-09 4.70s-06 1.496-05 l

l l

l U

2 of 2

(sn)

Os SNPS-

/

(

)

Nv/

v' TAB 12 3.5-2 INHALATION DOSE FAC1VRS FOR TEENAGER (mrem per pC1 inhaled)

Radio-nuclide Bone Liver T. Body Thyroid Kidney Luno GT-LLI H-3 No Data 1.59h-07 1.59E-07 1.59E-07 1.59E-07 1.59E-07 1.5 9E-0 7 C-14

3. 25 E-0 6 6.0 9 t-0 7 6.09E-07 6.09t-07 6.09t-07 6.098-07 6.0 9h-0 7 Na-24 1.72E-06 1.72E-0 6 1.72E-Ob 1.72t-06 1.72L-06 1.72t-06 1.72r.-06 P-32 2.36E-04 1.37E-05 8.95E-06 No Data No Data No Data 1.tos-05 Cr-51 No Data No Data 1.696-08 9.37L-09

3. d 4 E-0 9 2.623-06 3.75E-0 7 Mn-54 No Data 6.39E-06 1.05E-06 No Data 1.59t-06 2.48t-04 8.35E-06 Mn-56 No Data 2.12E-10 3.15E-11 No Data 2.24E-10 1.90E-06 7.1eh-06 Fe-55 4.18 E-0 6 2.98t-06 6.93t-07 No Data No Data 1.55E-05 7.99t-07 Fe-59 1.9 9 E-0 6 4.62E-06 1.79h-06 No Data No Data 1.91t-04 2.23L-05 Co-58 No Data 2.59E-07 3.47L-07 No Data No Data 1.bbt-04 1.19E-05 Co-60 No Data 1.8 9E-0 6 2.48E-06 No Data No Data 1.09E-03 3.24E-05 Ni-63 7.2SE-05 5.43E-06 2.47E-06 No Data No Data 3.846-05 1.77E-06 Ni-65 2.73E-10 3.66E-11 1.59E-11 No Data No Data 1.17h-06 4.59E-Ob Cu-64 No Data 2.54E-10 1.06t-10 No Data 8.01E-10 1.39 h-0 6 7.6sE-Oh Zn-65 4.82E-06 1.67E-05 7.80E-Ob No Data 1.086-05 1.55L-04 5.83t-06 En-69 6.04E-12 1.15E-11 8.07E-13 No Data 7.53h-12 1.98t-07 3.566-08 Br-83 No Data No Data 4.30t-08 No Data No Data No Data LT h-24 Br-84 No Data No Data 5.41E-08 No Data No Data No Data LT L-24 Br-85 No Data No Data 2.29E-09 No Data No Data No Data LT E-24 Rb-86 No Data 2.38E-05 1.05h-05 No Data ho Data No Data 2.21E-Ob Rb-88 No Data 6.82E-08 3.40E-08 No Data No Data No Data 3.65E-15 Rb-89 No Data 4.40E-08 2.912-08 No Data ho Data No Data 4.22E-17 Sr-89 5.43E-05 No Data 1.5bE-06 No Data No Data 3.02E-04 4.6 4 E-0 5 Sr-90 1.35E-02 No Data 8.35E-04 No Data No Data 2.06t-03 9.56t-05 Sr-91 1.10E-08 No Data 4.39E-10 No Data No Data 7.59E-06 3.2 4 E-b Sr-92 1.19t-09 No Data 5.08t-11 No Data No Data 3.434-06 1.4 9t-0 5 Y-90 3.73E-07 No Data 1.00E-08 No Data No Data 3.66E-05 6.9 9L-0 5 Y-91m 4.63E-11 No Data 1.77E-12 No Data No Data 4.00E-07 3.77E-09 Y-91 8.2bE-05 No Data 2.21E-06 No Data No Data 3.67E-04 5.11E-05 Y-92

1. 8 4 E-09 No Data 5.36E-11 No Data No Data 3.35t-06 2.06t-05 Y-9 3 1.b9E-08 No Data 4.65 t-10 No Data No Data 1.04E-05 7.246-05 Zr-95 1.82E-05 5.73E-06 3.948-06 No Data

8. 42E-0 6 3.3bE-04 1.86E-05 l

Zr-97 1.72E-08 3.40E-09 1.57E-09 No Data 5.15t-0 9 1.62h-05

7. 8 8E-0 5 l

Nb-95 2.32E-06 1.2 9E-0 6 7.08E-07 No Data 1.25L-0 6 9.39h-05 1.21E-0 5 i

Mo-99 No Data 2.11E-08 4.08h-09 No Data 5.14E-08 1.92E-05 3.36 L-O S Tc-99m 1.73E-13 4.83E-13 6.24E-12 No Data 7.20E-12 1.44E-07 7.bbE-07 Tc-101 7.40E-15 1.0 5E-14 1.03E-13 No Data 1.90E-13 8.34E-08 1.0 9 a-16 Ru-103 2.63E-07 No Data 1.12E-07 No Data 9.29E-07 9.79t-05 1.3bt-05 l

Ru-105 1.40E-10 No Data 5.42E-11 No Data 1.76E-10 2.27h-06 1.13E-05 I.

Ru-106 1.23E-05 No Data 1.55E-06 No Data 2.386-05 2.01t-0 3 1.20 t-04 Ag-110m 1.73E-06 1.64E-06 9.99E-07 No Data 3.13E-06 8.44h-04 3.41t-05 l

Te-125m 6.10E-37 2.80E-07 8.34E-08 1.75E-07 No Data 6.70L-05 9.3nL-Ob Te-127m 2.25E-06 1.02 t-0 6 2.73E-07 5.48E-07 8.17E-06 2.07t-04 1.996-03 l

Te-127 2.51E-10 1.14E-10 5.52E-11 1.77E-10 9.10t-10 1.406-00 1.01h-0 5 Te-129m 1.74E-06 8.23E-07 2.818-07 5.72E-07 6.49E-06 2.47t-04 5.06t-05 1 of 2 l

j7 SNPS-h

(

)

W V

TABLE 3.5-2 (CONT'DF Radio-nuclide Bone Liver T. Body Thyroid Radney Lung GI-LLI Te-129 8.8 7E-12 4.22E-12 2.20E-12 b.48L-12 3.31E-11 4.12E-07 2.02 t-0 7 Te-131m 1.23E-08 7.51E-09 5.03E-09

9. 0 bt-0 9 5.49E-08 2.97t-0 5 7.7 b t-05 Te-131

1. 97E-12 1.04 E-12 6.30E-13 1.556-12 7.72t-12 a.92t-07 1.89t-09 Te-132 4.50 E-0 8 3.63E-08 2.74t-06 3.0 7t-0 8 2.446-07 5.61E-05

5. 7 9t-05 I-130 7.80E-07 2.24E-Ob 8.96E-07 1.8bE-04 3.44E-06 No Data 1.14E-On I-131 4.43E-Ob 6.14 E-0 6

3. 30 E-06 1.83b-03

1. 05 t-05 No Data 8.11E-07 I-132 1.99E-07 5.47E-07 1.97E-07 1.8 9E-0 5 8.6 5t-0 7 No Data 1.59 t-0 7 I-133 1.52E-Ob 2.S hE-O b 7.78E-07 3.656-04

4. 49 t-0 6 No Data 1.29 t-0 6 I-134 1.11E-07 2.90E -07

1. 0 5L-0 7 4.94 E-0 6 4.58L-07 No Data 2.S5E-09 I-135 4.62E-07 1.18t-O b 4.36t-07 7.766-05 1.86E-06 No Data 8.6 9E-0 7 Cs-134

0. 2 8 E-05 1.415-04 6.8bE-05 No Data 4.69L-05 1.83E-05 1.22E-On Cs-13b 6.4 4 E-0 6 2.4 2 E-0 5 1.71E-05 No Data

1. 3 8 E-0 5 2.24E-06 1.36s-00 Cs '37 8.38E-OS 1.06E-04 3.896-05 No Data 3.80s-05 1.51E-0 5 1.0 6 t-0 6 Cs-138 5.82E-Ob 1.07E-07 5.58t-08 No Data 8.Jht-08

9. 8 4 E-09 3.383-11 ba-139 1.67E-10 1.1BE-13

4. b7E-12 No Data 1.11E-13 8.O uE-07 8.0 bE-0 7 Ba-140 6.84E-06

8. 3 8 E-0 9 4.40 E-07 No Data 2.85t-09 2.54 E-0 4 2.8 es-05 Ba-141 1.78 E-11 1.32E-14 5.93E-13 No Data 1.236-14 4.11E-0 7 9.33E-14 Ba-14 2 4.628-12 4.63E-15 2.u4E-13 No Data 3.9at-15 2.39E-07 5.99E-20 La-140 5.99E-08 2.95E-08

7. 82E-0 9 No Data No Data 2.6 8 t-0 5 6.09E-0 5 La-142 1.20E 5.31E-11 1.326-11 No Data No Data

1. 27 t-O m 1.50s-06 Ce-141 3.55E-06 2. 37E-0 6 2.71E-07 No Data 1.116-06 7.67E-05 1.58E-05 Ce-143 3.32E-06 2.42E-08 2.70t-09 No Data 1.0 8 L-0 8 1.638-05 3.196-03 Ce-144 6.11E-04 2.53E-04 3.28t-05 No Data 1.51t-04 1.67t-03 1.0 s t-04 Pr-143

1. 67E-06 6.64E-07 8.24L-08 No Data 3.86E-07 6.04 E-0 5 2.67E-05 Pr-144 5.37L-12 2.20E-12 2.72t-13 No Data 1.266-12 2.196-07 2.94E-14 Nd-147 9.83E-07 1.07t-0 6 6.41E-08 No Data 6.28 t-07 4.65E-0 5 2.2 8 E-0 5 W-187 1.50E-09 1.22E-0 9 4.29t-10 No Data No Data 5.92t-06 2.21t-0 5 Np-23) 4.23E-08 3.99E-09 2.21t-09 No Data

1. 25E-0 8 8.11E-Ob 1.6 5E-0 5 l

l W

2 of 2 g

h-

fx

(

SNPS-1 0 V

TABLE 3.5-3 INHAIATION DOSE FACTORS FOR OllLD (mresa per pC1 inhaled)

Radio-nuclide Bone Liver T. Body Thyroid Kidney Lung GI-LLI H-3 No Data 3.04E-07 3.04t-07 3.046-07 3.04t-07 3.04t-07 3.04 E-07 C-14 9.70E-06 1.82E-Ob 1.u2t-06 1.62h-Ob 1.u2t-06 1.82t-Ob 1.uan-Ob Na-24 4.35E-06 4.35E-06 4.356-06 4.356-06 4.35E-Ob 4.356-06 4.356-06 P-32 7.04E-04 3.09t-05 2.67t-05 No Data No Data No Data 1.14 t-0 5 Cr-51 No Data No Data 4.17 t-08 2.31t-08 6.57t-09 4.59t-Ob 2.93t-07 Mn-54 No Data 1.16E-05 2.57E-06 No Data 2.7th-Ob 4.2bh-04 6.19h-Ob Mn-56 No Data 4.48h-10 8.43t-11 No Data 4.52h-10 3.55E-Ob 3.33t-05 Fe-55 1.28h-05 6.80E-06 2.10h-Ob No Data No Data 3.00t-05 7.756-07 Fe-59 5.59E-06 9.0 4 E-O b 4.51E-06 No Data No Data 3.43E-04 1.91t-0 5 Co-58 No Data 4.79E-07 8.556-07 No Data No Data 2.99E-04 9.29E-06 Co-60 No Data 3.55E-Ob 6.12t-06 No Data No Data 1.91t-03 2.606-03 N1-63 2.22E-04 1.256-05 7.56t-06 No Data No Data 7.43t-05 1.71L-0 6 Ni-b5 8.08E-10 7.99E-11 4.44E-11 No Data No Data 2.216-06 2.27t-05 Cu-64 No Data 5.39h-10 2.90t-10 No Data 1.63t-09 2.598-06 9.94E-Ob 2n-65 1.15h-05 3.06t-05 1 #Jh-05 No Data 1.93h-05 2.69t-04 4.41t-Ob Zn-67 1.81E-11 2.b1E-11 2.41h-12 No Data 1.58t-11 3.uta-07 2.75h-Ob Br-83 No Data No Data 1.a8t-07 No Data No Data R, Data LT E-24 Br-84 No Data No Data 1.48t-07 No Data No Data No Data LT E-24 Br-85 No Data No Data 6.84t-09 No Data No Data No Data LT E-24 Rb-86 No Data 5.36t-05 3.09t-05 No Data No Data No Data 2.166-06 Rb-88 No Data 1.52E-07 9.90h-08 No Data No Data No Data 4.bbt-09 Rb-89 No Data 9.33t-08 7.u3t-08 No Data No Data No Data 5.116-10 Sr-89 1.62t-04 No Data 4.66t-06 No Data No Data 5.83t-04 4.52E-05 Sr-90 2.73t-02 No Data 1.74t-03 No Data No Data 3.99t-03 9.28t-05 Sr-91 3.28E-06 No Data 1.24E-09 No Data No Data 1.446-05 4.706-05 Sr-92 3.54t-09 No Data

1. 42 h-10 No Data No Data 6.49E-06 b.556-05 Y-9 0 1.11E-06 No Data 2.99h-08 No Data No Data 7.07t-05 7.24h-05 Y-91m 1.37E-10 No Data

4. 98 E-12 No Data No Data 7.60t-07 4.but-07 Y-91 2.47E-04 No Data 6.59t-06 No Data No Data 7.10 E-0 4 4.97h-0 5 Y-92 5.50E-09 No Data 1.57E-10 No Data No Data b.4bE-Ob b. 4 et.-0 5 Y-93 5.04E-08 No Data 1.38h-09 No Data No Data 2.01E-05 1.05t-04 2r-95 5.13E-05 1.13E-05 1.00E-05 No Data 1.61E-0 5 b.03E-04 1.65t-05 Zr-97 5.07t-08 7.34t-09 4.326-09 No Data 1.0 5L-0 8 3.06t-05 9.49h-05 Nb-95 6.35E-06 2.48E-06 1.776-06 No Data 2.33t-Ob 1.66t-04 1.0Jt-05 Mo-99 No Data 4.66t-08 1.15h-06 No Data 1.06h-07 3.6bh-05 3.4 2t-0 5 Tc-99m 4.81E-13 9.416-13 1.566-11 No Data 1.37t-11 2.57E-07 1.30E-Ob Tc-101 2.19t-14 2.306-14 2.91h-13 No Data 3.92t-13 1.58 h-0 7 4.418-09 Ru-103 7.55E-07 No Data 2.906-07 No Data 1.90E-Ob 1.7 9 E-04 1.21L-0 5 Ru-105 4.13E-10 No Data 1.50E-10 No Data 3.63E-10 4.30E-06 2.69E-05 Ru-106 3.68E-05 No Data 4.57h-06 No Data 4.97h-05 3.87t-03 1.1os-04 Ag-110m 4.56E-06 3.08t-06 2.47t-06 No Data 5.74 t-0 6 1.4 8 t-0 3 2.71t-05 Te-125m 1.82E-06 6.29h-07 2.47t-07 5.20E-07 No Data 1.29E-04 9.13t-Ob Te-127m 6.72E-06 2.31E-06 8.16E-07 1.but-06

1. 72 E-0 5 4.006-04 1.934-05 Te-127 7.4 9E-10 2.57t-10 1.b5t-10 5.30E-10 1.91t-0 9 2.716-06 1.5 4t-0 5 Te-129m 5.19E-06 1.85E-Ob 8.22E-07 1.71h-Ob

1. 36 h-05 4.76t-04 4.91t-05 Te-129 2.64h-11 9.45E-12 6.44E-12 1.936-11 6.94E-11 7.93E-07 6.89E-Ob 1 of 2

ENPS-1 0 TABLE 3.5-3 (COffr 'D)

Radio-nuclide Bone Liver T. Body ThYTold Kidney Lung GI-LLI Te-131m 3.63E-08 1.60E-08

1. 37E-08 2.64E-08 1.08E-07 5.56E-05 8.34E-05 Te-131 5.87E-12 2.28E-12 1.7 d t-12 4.59E-12 1.59E-11 5.55E-0 7 3.60 E-0 7 Te-132 1.30E-07 7.3 6E-0 8 7.12 a-08 8.5et-08

4. 79 t-0 7 1.02 E-04 J.72E-0 5 I-130 2.21E-Ob 4.4 3 E-0 6 2.28E-00 4.99E-0 4 6.01E-On No Data 1.J o E-O n 1-131 1.30t-05 1.30h-05 7.37F-On 4.396-03 2.13h-05 No Data

7. e s t-07 I-132 5.72E-07 1.10E-0 6 5.07E-07 5.23E-05 1.69c-Oe No Data 8.t SE-0 7 I-133 4.48E-06 5.4 9 E -O b 2.0nE-06 1.Ous-03 9.13E-On No Data 1.e s t-O s I-134 3.17h-07 5.b 4 E-0 7

2. b9E-0 7 1.376-05 8.92E-07 No Data 2.5aE-07 I-135 1.33E-06 2.36E-06 1.12 E-O b 2.14E-04 3.6 2t-0 6 ho Data 1.2 0E -0 6 Ca-134 1.7bE-04 2.74 E-0 4 6.07h-05 No Data 8.9 3 t-0 5 3.27E-05 1.04 E-0 6 Cs-136 1.76E-05 4.6 2 E-05 3.14s-05 No Data 2.58E-05 3.93E-00 1.13E-On Cs-137 2.45E-04 2.23E-04 3.47E-05 No Data 7.6 3c-0 5

2. 81E-0 5 9.7 8 E-0 7 Ca-138 1.71E-07 2.27E-07 1.501-07 No Data

1. 6 8 E-07

1. 8 4 E-0 8 7.2 9 t -0 8 ba-139 4.98E-10 2.66F-13 1.45E-11 No Data 2.33E-13 1.56E-Ob 1.50s-05 Ba-140 2.00E-05 1.75t-0 8 1.17 E-0 6 No Data 5.71E-09 4.71h-0*

2.7 5h-0 5 Ba-141 5.29E-11 2.95E-14 1.?2E-12 No Data 2.56E-14 7.89E-07 7.44 E-O s Ba-14 2 1.35E-11 9.73E-15 1.54E-13 No Data 7.87E-15 4.44E-07 7.41E-10 La-140 1.743-07 6.08E-08 2.04h-08 No Data No Data 4.94 E-0 5 6.10E-0 5 La-142 3.50E-10 1.11E-10 3.49E-11 No Data No Data 2.35t-Os 2.05s-05 Ce-141 1.0 6E-O S 5.28E-06 7.83E-07 No Data 2.31E-06 1.47E-04 1.53E-05 Ce-143 9.89E-08 5.37E-0 8 7.77t-09 No Data 2.2 6 h-0 8 3.12E-0 5 3.4 4 E-0 5 Ce-144

1. 8 3 E-03 5.72 E-0 4 9.77E-05 No Data 3.17E-0 4

3. 23 E-03 1.0 $E-0 4 Pr-143 4.99E-06 1.50 E-06 2.47E-07 No Data 8.11E-0 7 1.17E-04 2.63E-05 Pr-144 1.61E-11 4.99E-12 8.10 L-13 No Data 2.64s-12 4.2 3 h-07 5.32s-0 s Nd-147 2.92E-06 2.36E-06 1.84E-07 No Data 1.30 E-0 6 8.87t-05 2.22F-05 W-187 4.41E-09 2.61E-09 1.17E-09 No Data No Data 1.11E-05 2.4 t h-0 5 Np-239 1.26E-07 9.04 E-09

6. 35E-09 No Data 2.6 3 E-0 8 1.57E-05

1. 73E-05 2 of 2

m SNPS-1 O

TABLE 3 5-4 INHALATION DOSE FACTORS FOR INFANT (mran per pCi inhaled)

Radio-nuclide Bone Liver T. Body Thyroid Kidney Lung GI-ELI H-3 No Data 4.62E-0 7 4.62E-07 4.62E-07 4.b2E-07 4.62E-07 4.62E-07 C-14 1.89h-05 3.7 9h-0 6 3.79h-06 3.79h-Ob 3.79 h-0 6 3.798-06 3.796-On Na-24 7.54E-06 7.54E-Ob 7.54E-06 7.54E-06 7.54t-06 7.54 E-06 7.54E-06 P-32 1.45E-03 u.038-05 5.53h-05 No Data No Data No Data 1.156-05 Cr-51 No Data No Data

6. 39h-O s 4.11h-0 8 9.45E-09 9.17E-0 6 2.55h-07 Mn-54 No Data 1.81E-05 3.56h-06 No Data 3.5bE-06 7.14h-04 5.04E-06 Mn-56 No Data 1.10E-09 1.58E-10 No Data 7.8bt-10 W.95E-Oo 5.12s-0 5 Fe-55 1.41E-0 5 8.39E-0 6 2.38h-06 No Data No Data 6.a14-05 7.84E-07 Fe-59 9.69E-06 1.6BE-05 6.77E-Ob No Data No Data 7.25t-04 1.77h-05 Co-58 No Data 8.71E-07 1.30E-Ob No Data No Data 5.55E-04 7.95E-06 Co-60 No Data 5.73E-06 8.41E-06 No Data No Data 3.22t-03 2.2sh-05 N1-63 2.42E-04 1.46E-05 8.29h-06 No Data No Data 1.49s-04 1.73E-06 Ni-65 1.71E-09 2.03E-10 8.79E-11 No Data No Data 5.80 E-06 3.5st-05 Cu-64 No Data 1.34E-09 5.53E-10 No Data 2.84E-09

b. bet-06 1.0 7E-05 En-65 1.3sh-05 4.4 7E-0 5 2.22h-05 No Data 2.32E-05 4.62E-04 3.67E-05 En-69 3.85E-11 6.91E-11 5.13E-12 No Data 2.87E-11 1.05E-06 9.44E-06 Br-83 No Data No Data 2.72h-07 No Data No Data No Data LT h-24 Br-84 No Data No Data 2.86E-07 No Data No Data No Data LT E-24 br-85 No Data No Data 1.4bE-08 No Data No Data No Data LT E-24 Rb-86 No Data 1.3bE-04 c.30E-05 No Data No Data No Data 2.17E-06 kb-uS No Data 3.9dE-07 2.05E-07 No Data No Data No Data 2.42h-07 RD-89 No Data 2.293-07 1.47E-07 No Data No Data No Data 4.876-08 Sr-89 2.84E-04 No Data 8.15E-Ob No Data No Data 1.45h-0 3 4.578-05 Sr-90 2.92E-02 No Data 1.85F-03 No Data No Data 8.03E-03 9.36h-05 br-91 b.83E-08 No Data 2.47E-09 No Data No Data 3.7bE-05 5.24E-OS Sr-92 7.50E-09 No Data 2.79E-10 No Data No Data 1.70s-0 5 1.00E-04 Y-9 0 2.35h-06 No Data 6.30L-Od No Data No Data 1.92h-04 7.43h-05 Y-91m 2.918-10 No Data 9.90E-12 No Data No Data 1.99E-Ob 1.beh-06 Y-91 4.20E-04 No Data 1.12h-05 No Data No Data 1.75E-03 5.02h-05 Y-92 1.17E-08 No Data 3.49E-10 No Data No Data 1.75h-05 9.04E-0$

Y-93 1.07E-07 No Data 2.91h-09 No Data No Data S.46h-05 1.19E-04 tr-95 8.24E-05 1.99E-05 1.45E-05 No Data 2.22E-05 1.2 5t-0 3 1.55E-05 Zr-97 1.0 7h-07 1.8 3h-0 8 8.36E-G9 No Data 1.85t-08 7.88h-05 1.0 0h-0 4 Nb-95 1.12h-05 4.99E-06 2.70E-06 No Data 3.37h-06 3.42h-04 9.05h-06 Mo-99 No Data 1.182-07 2.31E-Os No Data 1.89E-07 9.63h-05 3.4sh-05 Tc-99m 9.98E-13 2.06E-12 2.66E-11 No Data 2.22h-11 5.79E-07 1.45E-06 Tc-101 4.65E-14 5.88h-14 5.80h-13 No Data b.99t-13 4.17E-07 6.038-07 Ru-103 1.44E-06 No Data 4.85E-07 No Data 3.03E-06 3.94h-04 1.15h-05

~

Ru-105 8.74E-10 No Data 2.93E-10 No Data 6.42E-10 1.12E-05 3.46s-05 Ru-106 6.20E-05 No Data 7.77E-06 No Data 7.61h-05 8.26h-03 1.17E-04 Ag-110m 7.13E-06 5.16E-06 3.57E-06 No Data 7.80t-06 2.62h-03 2.368-05 Te-125:n 3.40E-06 1.42E-Ob 4.70s-07 1.16h-Ob No Data 3.19E-04 9.22E-06

~

Te-127m 1.19E-05 4.9 3E-0 6 1.48E-06 3.48E-06

2. b u s-0 5 9.37h-04 1.95s-05 l

Te-127 1.59E-09 6.81E-10 3.49E-10 1.32s-09 3.47h-0 9 7.39h-06 1.74E-05 Te-129m 1.01t-05 4.35E-06 1.59E-06 3.91E-Ob 2.27E-05 1.20 E-0 3 4.93E-05

~

l 1 of 2

~

(e 0

SNPS-1 C\\

g TABLE 3.5-4 (CONT *D)

Radio-rmaclide Bone Liver T. Body Thyroid Kidney Ltmq GI-LL1 7e-129 5.63E-11 2.48E-11 1.34E-11 4.82t-11 1.25E-10 2.14h-Ob 1.8sh-05 Te-131m 7.62E-08 3.93E-08 2.59E-08 b.36t-Os 1.89E-07 1.42t-04 s.5th-05 Te-131 1.24h-11 5.87h-12 3.575-12 1.138-11 2.eSt-11

1. 47E-O b 5.87E-Ob Te-132 2.66E-07 1.b9E-07 1.26L-07 1.996-07

7. 39t-0 7 2.43t-04 3.15t-05 I-130 4.54E-Ob 9.91E-06 3.98E-Ob 1.14t-03

1. 09 t-0 5 No Data 1.42t-0.

1-131 2.71t-05 3.17E-0 5 1.40E-05 1.0bE-02 3.70E-05 No Data 7.5bE-07 I-132 1.21E-06 2.53E-Ob 8.99E-07 1.21L-04 2.82t-06 No Data 1.3bt-06 I-133 9.4b6-06 1.37t-0 5 4.00E-Ob 2.54E-03 1.60s-05 No Data 1.54 E-06 I-134 6.58E-07 1.34h-06 4.75h-07 3.18E-05 1.496-06 No Data 9.21E-07 I-135 2.7bE-06 5.43E-06 1.98t-06 4.97t-04 6.05E-06 No Data

1. 31E-06 Cs-13 4 2.33E-04 5.02E-04 5.32E-05 No Data 1.36E-04 5.69E-05 9.53t-07 Cs-136 3.45E-05 9.61E-05 1.7dh-05 No Data 4.03E-05 s.40E-Ob 1.04E-06 Cs-137 3.92E-04 4.37h-04 3.25t-05 No Data 1.23t-04 5.0 9h-0 5 9.53t-07 Cs-138 3.61E-07 5.58E-07 2.84E-07 No Data 2.93E-07 4.67h-08 6.2bt-07 Ba-139 1.068-09 7.03E-13 3.07E-11 No Data 4.23E-13 4.25t-Ob 3.64L-05 Ba-140 4.00E-05 4.00E-08 2.07b-Ob No Data 9.59E-09 1.14h-03 2.74E-05 Ba-141 1.12E-10 7.70E-14 3.55E-14 No Data 4.64E-14 2.12E-Ob 3.39E-Oh Ba-142 2.848-11 2.36E-14 1.40 s - 12 No Data 1.3bE-14 1.116-06 4.958-07 La-140 3.61E-07 1.43E-07 3.b8E-08 No Data No Data 1.20E-04 6.068-05 La-142 7.3 bt-10 2.69E-10 6.46E-11 No Data No Data 5.u7t-06 4.2 5t-05 Ce-141 1.986-05 1.198-05

1. 42 E-06 No Data 3.75E-Ob 3.69E-04 1.54 E-0 5 Ce-143 2.09h-07 1.38h-07 1.58h-08 No Data 4.03h-08 8.30E-05 3.55E-05 Ce-144 2.28E-03 8.65E-04 1.2bE-0W No Data 3.84h-04 7.03E-03 1.0 bt-44 Pr-143 1.00E-05 3.74E-06 4.99E-07 No Data 1.41L-Ob 3.09E-04 2.bbh-OS Pr-144 3.42t-11 1.32E-11 1.72E-12 No Data 4.80E-12 1.15h-Ob 3.0 b t-0 6 Nd-147 5.67E-06 5.81E-06 3.57E-07 No Data 2.25E-06 2.30h-04 2.23E-05 W-187 9.26E-09 6.4 4 h-0 9 2.23E-09 No Cata No Data 2.83h-05 2.54h-05 Np-239 2.65E-07 2.37h-08 1.34E-08 No Data 4.73E-08 4.21,s-0 5 1.7sh-05 e

O

~

J of 2

S!!PS-1 CDC:1 TABL2 3.5-5 Al' AME!DED VALUES FOR Unp TO Si USED FOR THE MAXIMUM c.XP0SZD IIIDIVIDUAL I:i LIEU OF SITE-SPECIFIC DkrA Patnway InIant Child Teen Adult Iruits, vege-taales 6 grain 520 630 520 (Xg/yr) ( 1 ), ( 2 )

Leafy vege-tables (kg/yr) ( 1 )

26 42 64 Milx (f/yr) ( 1 )

330 330 400 310 Meat & poultry 41 65 110 (kg/yr) ( 2 )

Fisn (fresh or salt) 6.9 16 21

( Ag/yr) (3 )

Other seafood l

1.7 3.8 5

(kg/yr)-( 1)

Drinking water

(//yr)(*)

330 5.10 510 730 Shoreline re-creation 14 67 12 (hr/yr) ( * )

Inhalation (m /yr) 1400(5) 3700(*)

8000(*)

8000(5) a (13 Consumption rate obtained from Reference 19 for average individual and age prorated and maximized using tecn-niques containea in Ref erence 10 of Regulatory Guide 1.109, Rev 1, Oct. 1977.

(a) Consists of the following (on a mass basis) : 22% fruit, 54% vegetables (including leafy vegetables), and 24% grain.

(3 ) Consumption rate for adult obtained by averaging data from References 10 and 21-24 of Regulatory Guide 1.109, Rev.

1, Oct. 1977 and age-prorated using techniques contained in Reference 10.

1 or 2 I

(.- -.--.....~ -

- _ ~ _

SMPS-1 ODCM i:

s t

i l

TA3L2 3.5-5 (CC".T ' C) l

(*) Data obtained directly f:cm Reference 10 :: Ragulancrf l

i Guide 1.109, Rev.

1, Oct 1977.

j l

(*) Data octained directly from Reference 20 of Reculatory l

Guide 1.109, Rev. 1, Oct.. 1977.

I

?

(*DInhalation rate derived from data provided in Reference 20 of Regulatory Guide 1.109, Rev. 1, Oct. 1977.

t l

I I

l t

I s

4 h

f r

?

l i

I t

lL@

l 2 of 2 4

SNPS-1 ODCM TABLE 3.5-6 STABLE ELEMENT TRANSFER DATAC1)

Bv Fm (Cow)

Fr i

Element Vec/Soll Milx (c /1)

Meat (d/kc)

H(a) 4.8E+00 1.0E-02 1.2E-02 Cta) 5.5E+00 1.2E-02 3.1E-02 Na 5.2E-02 4.0E-02 ( 3 )

3.0E-02 P

1.1E*00 2.5E-02 4.6E-02 Cr 2.5E-04 2.2E-03 2.4E-03 Mn 2.9E-02 2.5E-04 8.0 E-04 Fe 6.6E-04 1.2E-03 4.0E-02 Co 9.4E-03 1.0E-03 1.3E-02 Ni 1.9E-02 6.7E-03 5.3E-02 Cu 1.2E-01 1.4E-02 8.0E-03 Zn 4.0E-01 3.9E-02 3.0E-02 Rb 1.3E-01 3.0E-02 3.1E-02 Sr 1.7E-02 8.0E-04(3) 6.0E-04 Y

2.6E-03 1.0E-05 4.6E-03 Zr 1.7E-04 5.0E-06 3.4E-02 Nb 9.4 E-0 3 2.5E-03 2.8E-01 Mo 1.2E-01 7.5E-03 8.0E-03 Tc 2.5E-01 2.5E-02 4.0E-01 Ru 5.0E-02 1.0E-46 4.0E-01 l

Rh 1.3E-01 1.OE-02 1.5E-03 Ag 1.5E-01 5.0E-02 1.7E-02 f

Te 1.3E-00 1.0E-03 7.7E-02 I

2.0E-02 6.0E-03(*)

2.9E-03 Cs 1.0E-02 1.2E-02(as 4.0E-03 Ba 5.0E-03 4.0E-04(3) 3.2E-03 La 2.5E-03 5.0E-06 2.0E-04 Ce 2.5E-03 1.0E-04(3)

' 1.2E-03 Pr 2.5E-03 5.0E-06 4.7E-03 l

Nd 2.4E-0 3 5.0E-06 3.3E-03 W

1.8E-02 5.0E-04 1.3E-03 Np 2.5E-03 5.0E-06 2.0E-04(s)

(1) Data presented in this table is from Reference 1 of Regulatory Guide 1.109, Rev. 1, Oct. 1977.

sa) Meat and m2.lk coefficients are based on specific activity considerations.

(a)From Reference 15 of Regulatory Guide 1.109, Rev. 1, Oct. 1977.

(*)See text (Regulatory Guide 1.109, Rev.

1, Oct. 1977).

O-(5)From Reference 13 of Regulatory. Guide 1.109, Rev. 1, Oct 1977.

1 of 1

l ddPS-1 OOC 1 TABLE 3.5-7 l

hL. LID '"Y PA?lsMET22S AT RiCiP10RS Monthlv Averace ADsolute Humiditv (om/ nQ January 3.06 February 3.09 March 3.83 April 5.71 May 8.19 5

June 12.62 July 15.53 August 14.62 September 11.68 October 8.11 Novemoer 5.37 December 3.73 i

f I

I 4

1 of 1

SNPS-1 TABLE 3.5-8 CHILD INHAIATION DOSE RATE CONVERSION FAC10RS, Pij (mren/yr per uCi/m3)

Isotope Bone Liver T. Body Thyroid Kidney Lung GI-LLI Cr-51 3.5E+01 2.1E+01 7.9E+00 4.9E*03 1.1E+03 Mn-54 1.3E+04 2.1E+03 3.3E+03 4.9E+05 2.6E+04 Fe-59 4.0E+03 9.3E+06 3.5E+03 3.4E+05 6.5E+04 Co-58 1.1E+02 2.0E+02 1.1E*06 2.7E+04 7.8E+02 1.3E+03 5.2E+06 6.8t+04 Co-60 En-65 1.1E+04 3.6E+04 1.5E+04 2.4E*04 2.9E+05 1.8 E+ 04 Sr-89 3.9E+04 1.1E+03 1.6E+06 1.2E+05 7.3E+05 1.1E+07 2.5E+05 Sr-90 1.2E+07 Zr-95 1.0E+04 2.4E+03 2.2E+03 1.8E+04 1.6E+06 4.3E+04 S b-124 1.1E+04 2.0E+02 4.1E+03 2.6E+01 8.3E+05 1.4E+05 I-131 3.3E+04 3.4E+04 2.6E+04 1.1E+07 2.1E+04 1.9E+03 I-133 1.3E+04 1.5E+04 5.9E+03 3.7E+06 8.7E+03 4.1E+04 Cs-134 4.7E+05 7.3E+05 1.7E+05 9.9E+04 8.8E+04 2.8E+03 Cs-136 1.3E+04 4.8E+04 3.7E+04 2.9E+04 4.2E+03 4.2E+03 Cs-137 6.4E+05 5.9E+05 9.1E+04 7.5E+04 7.3E+04 5.7E*03 Ba-140 5.3E+03 3.4E+04 3.OE+02 5.7E+00 1.3E+06 7.3E+03 Ce-141

':.3 E + 0 3 1.1E*03 1.7E+02 2.2E+03 3.7E+05 4.1E+04 1 of 1

SNPS g N

TABLE 3 5-9 Poij CONTAMINATED GROUND, INGESTION OF LEAFY AND STURED VEGETABLES LOSE RATA COtWERSION FAC"! ORS ma (mrem /yr/uC1/sec)

Isotope Bone Liver T. Body Thyroid Kidney Lung GI-LLI Cr-51 4.9E+06 4.9E+06 4.9E+06 4.9E+06 4.9E+06 5.0E*06 1.5E+07 Mn-54 1.3E+09 1.6E+09 1.4E+09 1.3E+09 1.4E+09 1.3E*09 2.3E+09 Fe-59 3.9E+03 5.5E+08 3.8E+08 2.8E+08 2.7E+08 3.5E+0a

1. 2E + 0 9 Co-58 3.8E+03 4.5E+08 6.1E+08 3.8E+08 3.8E+08 3.8E+08 8.3E+08 Co-60 2.2E+10 2.2E+10

2. 3E + 10 2.2E+10 2.2E+10 2.2E+10 2.4 E+ 10 En-65 1.3E+09 2.2E+09 1.4E+09 8.4E+08 1.7E+09 8.4E+08

1. 7E+ 09

{

Sr-89 4.4E+10 2.1E+04 1.2E+09 2.1E+04 2.1E +0 4 2.1E +04 1.6E+09 Sr-90 1.7 E+ 12 5.3E+06 4.1E+11 5.3E*06 5.3E+06 5.3E+06 2.2E+ 10 Er-95 4.9E+0B 4.9E+08 4.9E+08 4.9E+08 4.9E+08 4.9E+08 1.4E+09 Sb-124 7.1E+0B 6.1E*08 6.5E+08 6.1E+0B 6.1E+08 6.9E+08 3.5E+09 I-131 7.6E+07 7.6E+07 1.4E+07 2.1E+10 5.1E+07 8.68+06 1.4E+07 I-133 2.9E+06 3.3E+06 2.0E+06 5.2E+08 2.4E+06 1.2E+06 2.1E+06 Cs-134 2.5E+10 3.6E+10 1.3E+10 6.9E+09 1.1E+10 1.0E+10 7.1E+09 Cs-136 1.7E+ 08 2.4E+08 2.2E+08 1.5E*08 2.0E+08 1.6E+0B

1. 6 E+ 08 Co-137 3.8E+10 3.6E+10 1.4E+10 1.0E+10 1.3E+10 1.3E+10 1.0E+ 10 Ba-140 4.6E+0B 1.7E+0B 1.9E+08 1.7E+08 1.7E+08 1.7E+0B 1.8 E+ 08 Ce-141 1.5E+07 1.4E+07 1.4E+07 1.4E+07 1.4E+07 1.4E+07 4.5E+08 l

l l

l 1 of 1

.--a.

SIGS-1 OCC:!

ThbLE 3.5-10 DISTANCE FROM REACTOR CENTERLIUE SY SECTCR QUT TO 8,046 m (tieters)

Nearest Nearest Nearest Sector Residence Veoetabla Garden Site Ecundary 436 N

365 NNE 381 332 NE 518 ENE 884 1,932 311 E

1,128 3,867 346 ESE 914 1,932 457 SE 1,097 2,091 1,105 SSE 914 1,771 876 S

610 1,771 610 SSW 518 7,080 457 SW 549 4,073 533 WSW 1,585 2,252 457 W

1,570 2,252 360 354 WNW 610 419 NW 436 NNW NOTE:

There are no milk cows, milk goats, or meat animals within the 8,046 m radius of the site.

The nearest milk cow and milk goat are located 8,690 m east of the site.

k 1 of 1

SNPS-1

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TABLE 3.5-11 Poij CHILD INGESTION OF CONS MILK DOSE RATE LMERSION FACIORS ma (mrem /yr/uCi/sec)

Isotope Bone Liver T. Body Thyroid Kidney Lung GI-LLI cr-51 1.3E+04 7.7E+03 2.8E+03 1.7E+04 3.2E+06 Mn-54 4.2E+06 7.9E+05 1.2E+06 1.3E+07 Fe-59 1.4E+07 3.1E+07 1.2E+07 8.8E+06 1.0E+08 Co-58 5.3E+06 1.6E+07 3.2E+07 Co-60 2.0E+07 6.1E+07 1.1E+08 2n-65 7.9E+08 2.6E+09 1.1E+09 1.7E+09 1.6E+09 Sr-89 2.9E+09 8.4E+07 1.1E+08 Sr-90 6.2E+10 1.5E+10 1.8E+08 1r-95 1.5E+03 3.5E+02 3.1E+02 2.3E+02 3.5E+05 Sb-124 1.2E+07 2.2E+05 4.5E+06 2.9E+04 9.0E+06 3.2E+0B I-131 2.7E+08 2.8E+08 2.1E+07 8.98+10 1.7E+08 2.4E+07 I-133 3.9E+06 4.8E+06 1.9E+06 1.9E+09 2.8E+06 1.9E+06 Cs-134 1.0E+10 1.7E+10 3.6E+09 2.2E+09 1.9E+09 9.4E+07 Cs-136 1.2E+08 4.6E+08 3.4E+08 2.6E+08 3.7E+07 5.4E+07 Cs-137 1.5E+10 1.5E+10 2.2E+09 1.9E+09 1.78+09 9.1E+07 Ba-140 4.9E+07 4.3E+04 2.9E+06 5.2E+03 2.6E+04 2.5E+06 Ce-141 5.1E+04 2.7E+04 3.8E+03 4.0E+03 3.1E+07 M

.g M

1 of 1

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TABLE 3.5 s

Polj CHILD INGESTION OF GOAT *S MIIA DOSE RATE CONVERSION FACTORS ma (mrem /yr/uci/sec)

Isotope Bone Liver T. Body Thyroid Kidney Lung GI-LLI 1.6E+03 9.1E+02 3.4E+0?

2.0E+03 3.8E+05 Cr-51 Mn-54 5.0E+05 9.5E+04 1.5E*05 1.5E+06 Fe-59 1.7E+05 4.1E+05 1.6E+05 1.1E+05 1.4E+06 6.4E+05 2.0E+06 3.8E+06 Co-58 Co-60 2.5E+06 7.4E+06 1.4E*07 En-65 9.7E+07 3.0E+08 1.4E+08 2.0E+08 1.9 E+ 08 2.3E+08 Sr-89 6.0E+09 1.7E+08 Sr-90 1.2E+11 3.1E+10 1.7E+09 Zr-95 1.7E+02 4.0E+01 3.7E+01 2.7E+01 4.3E+04 Sb-124 1.4E+06 2.6E+04 5.6E+05 3.4E+03 1.1E+06 4.0E+07 I-131 3.2E+08 3.2E+08 2.5E+07 1.1E+11 2.0E+08 2.8E+07 2.3E+06 I-133 4.7E+06

2. 2E +0 6 2.3E+06 1.4E+09 3.4E+06 Cs-134 3.1E+10 5.1E+10 1.1E+10 6.7E+09 5.8E+09 2.9E+08 Cs-136 3.7E+08 1.4E+09 1.0E+09 7.7E+08 1.1E+08 1.6E+08 Cs-137 4.7E+10 4.5E+10 6.7E+09 5.6E+09 5.2E+09 2.7E+08 Ba-140 6.0E+06 5.2E+03 3.5E+05 6.3E+02 3.1E+03 3.1E+05 Ce-141 6.2E+03 3.1E+03 4.7E+02 4.9E+42 3.8E+06 1 of 1 e

i

l l

TABLE 3.5-13 Poij CHILD INGESTION OF MEAT DOSE RATE COtNERSION FACTORS ma (mrem /yr/,C1/sec)

Isotope Bona Liver T. Body Thyroid Kidney Lung GI-LLI 1.1E+03 6.78+02 2.5E+02 1.5E+03 2.8E+05 Cr-51 Mn-54 1.2E+06 2.3E+05 3.4E+05 3.7E+06 Fe-59 4.2E+07 9.9E+07 3.7E+07 2.71+07 3.2E+08 Co-58 7.2E+06 2.2E+07 4.3E+07 Co-60 3.3E+07 9.7E+07 1.9E+08 En-65 7.0E+07 2.3E+08 1.1E+08 1.5E+08 1.5E+08 Sr-89 2.1E+08 6.0E*06 7.8E+06 Sr-90 5.6E+09 1.4E+09 7.3E+07 Zr-95 1.0E+06 2.5E*05 2.3E*05 1.5E+05 2.5E+08 Sb-124 3.2E+06 5.8E+04 1.2E+06 7.7E+03 2.4E+06 9.0E+07 I-131 3.5E+06 3.5E+06 2.7E+05 1.11+09 2.2E+06 3.0E+05 I-133 1.3E+01 1.6E+01 6.4E+02 3.9E+c1 9.7E+02 6.6E+02 Cs-134 4.2E+08 7.1E+08 1.5E+08 8.9E+07 7.BE+07 3.8E+06 Cs-136 1.9E+06 7.4E+06 5.4E+06 4.3E+06 5.7E+05 8.5E+05 Cs-137 6.4E+08 6.2E+08 9.3E+07 7.6E+07 7.2E+07 3.78+06 Ba-140 1.9E*07 1.7E+04 1.1E+06 2.0E+03 9.7E+03 9.4E+05 Ce-141 8.7E+03 4.2E+03 6.5E+02 6.7E+02 5.3E+06 1 of 1

O SNPS-1 C' TABLE 3.5-14 Polj INFANT INGESTION OF COW'S MILK DOSE CONVERSION FACTORS mm (mrem /yr/uCi/sec)

Isotope Bone Liver T. Body Thyroid Kidney Lung GI-LLI 1.3E+04 7.7E+03 2.8E+0 3 1.7E+04 3.2E+06 cr-51 Mn-54 4.2E+06 7.9E+05 1.2E+06 1.3E

• 07 8.8E+06 1.0E+08 Fe-59 1.4E+07 3.1E+07 1.2E+07 2.8E+07 1.1E+07 2.7E+07 Co-58 Co-60 4.3E+07 1.0E+08 1.0E+08 1.6E+09 En-65 7.9E+08 2.6E+09 1.1E+09 1.7E+09 Sr-89 6.3E+09 1.8E+08 1.2E*08 Sr-90 8.4E+10 2.2E+10 8.4E+08 Er-95 2.9E+03 7.4E+02 5.3E+02 2.3E+02 3.3E+05 Sb-124 1.2E+07 2.2E+05 4.5E+06 2.9E+04 9.0E+06 3.2E*08 I-131 5.7 E+ 08 6.7E+08 3.BE+08 2.2E+11 1.7E+08 2.6E+07 2.2E+06 I-133 8.0E+06 1.2E+07 3.6E+06 2.8E+09 2.BE+06 2.2E+09 4.2E+09 8.9E+07 Ca-134 2.1E+10 3.8E+10 3.1E+09 Cs-136 1.2E+08 4.6E+08 3.4E+08 2.6E+08 3.7E+07 5.4E*07 Cs-137 3.2E+10 3.7E+10 2.0E+09 1.9E+09 4.4E+09 9.4E+07 Ba-140 1.0E+08 1.0E+05 8.4E+06 5.2d+03 6.5E+04 2.6E+06 3.3E*07 Ce-141 1.1E+05 6.7E+04 7.8E+03 4.0E+03 l,-

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TABLE 3.5-15 Poij INFANT INGESTION OF GOAT'S MILK DOSE CONVERSION FACT.LS m* Nren/yr/uC1/sec)

Isotope Bone Liver T. Body Thyroid Kidney Lung GI-LLI 1.6E+03 9.1E+02 3.4E+02 2.0E+03 3.8E+05 Cr-51 Mn-54 5.0E+05 9.5E+04 1.5E+05 1.5E+06

'Fe-59 1.7E+05 4.1E+05 1.6E+05 1.1E+05 1.4E+06 Co-58 1.3E+06 3.2E+06 3.4E+06 Co-60 5.1E+06 1.2E+07 1.3E+07 Zn-65 9.7E+07 3.0E+08 1.4E+0B 2.0E+08 1.9 E+ 08 2.eE+08 Sr-89 1.3E+10 3.6E+0B Sr-90 1.8E+11 4.7E+10 1.7E+09 tr-95 3.5E+02 9.OE+01 6.4E+01 2.7E*01 4.1E+04 i

Sb-124 1.4E+06 2.6E+05 5.6E+05 3.4E+03 1.1E+06 4.OE+07 I-131 6.7E+0B 8.0E+10 4.8E+08 2.6E+11 2.0E+08 3.1E*07 I-133 9.7E+06 1.4E+07 4.3E+06 3.4E+09 3.4E+06 2.6E+06 Cs-134 6.2E+10 1.1E+11 9.6E+09 6.7E+09 1.3E+10 2.7E+05 Cs-136 3.7E+08 1.4E+09 1.0E+09 7.7E+08 1.1E+08 1.6E+08 Cs-137 9.8E+10 1.1E+11 6.2E+09 5.6E+09 1.3E+10 2.9E+08 6.3E+02 7.7E+03 3.2E+05 Ba-140 1.2E+07 1.3E+04 6.5E+05 3.8E+06 Ce-141 1.3E+04 8.0E+03 9.4E+02 4.9E+02 l

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ww 4.0 RECEPTOR LOCATIONS, METEOROIDGY AND HYDEOIEGY Ine purcose o:

this section is to identify those receotor iccaticns.;n:.cn represent critical pathway locations and to C i

sci 7 e.e d_lutien, dispersion, and deposition ractors at t.ese

_: canons to ce used in Calculaticn Method 2

wnen computerized raciation z.onitoring system is inocerable.

7or 11guld etriuent patnways a dilution ractcr of 8.85 is used

' cased on a calculation.

For gaseous effluent

pathways, Table 4-1 lists the critical locations for receptors and their respective dispersion anc ceposition tactors.

The atmospneric dispersion and deposition factors were calculated based on onsite meteorological data for the 2 year period October 1, 1973 - Septemoer 30,.1975.

Regulatory Guide 1.109 methodology and parameters, except as noted above, were used in the noncomputerized metnod dose rate conversion factors.

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TABLE 4-1 GITICAL RECEPTOR IDCATIONS FOR GASEOUS EFFLUElfr CALCULATIOf*S Technical Specification 3.11.2.1 3.11.2.2 3.11.2.3 3.11.2.5 Section Sections in this Manual 3.3 3.4 3.5 3.6 Limiting Criteria Instantaneous Dose Quarterly and Annual Quarterly and Dose to any organ Rate to Whole Body Air Doses due to Annual Dose due due to radionuclides and Skin due to Gamma and Beta to radionuclides other than Noble Gas Noble Gas and Dose radiation other than Noble for 31 day period to any organ due Gas To radionuclides other than Noble Gas Distance and Direction

1) Noble Gas:

457 meters, ESE 1931 meters ESE 1931 meters, ESE of Receptor from the 366 meters, NNE Plant

2) organ:

1931 meters, ESE Description of Location Incation of highest Location of highest Iccation of highest Incation of highest Dose Rate Dose Dose Dose Long Terin Atmospheric

1) 7.94E-07 sec/ma g,ggg-07 sec/m*

1.10E-07 sec/ma 1.10E-07 sec/ma Dispersion Factor for

2) 1.10E-07 sec/ina Station ventilation Exhaust X/Qs Short Term Atmospheric

1) 1.89E-06 secA s 1.83E-06 secAna 3.60E-07 sec/ina 3.60E-07 sec/tn*

Dispersion Factor for

2) 3.60E C' 2ec/ma Air Removal Pump X/Qa Short Term Atmospheric

1) :a 56 sec/m*

1.83E-06 sec/in*

3.60E-07 sec/ina 3.60E-07 secAna Dispersion Factor for

2) 3.60'.-07 sec/kn*

Containment Drywell Purge X/Qa Long Term Relative

1) NA NA 4.80E-09 m-a 4.80E-09m-a Deposition Factor for

2) 4.80E-09 m-a Station Ventilation w

Exhaust D/Q H

Short Term Relative

1) NA NA 1.40E-08 m-*

1.40E-08 m-a Deposition Factor for

2) 1.40E-08 m-a i

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Short Term Relative

1) NA NA 1.40E-08 m-a 1.40E-08 m-*

Deposition Factor for

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5.0 RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM SAMPLING LOCATIONS 1

The purpose of this section is to identify those sampling locations l

from which the radiological environmental monitoring samples shall be collected' pursuant to Technical Specification 3/4.12, i

t Sampling locations for on site and off site locations are shown on j

Figure 5-1 and 5-2 respectively.

The number and frequency for ll sampling at these locations is given in Techni~al Specification i

Table 3.12-1.

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OFF SITE SAMPLING LOCATIONS RADIOLOGICAL ENVIRONMENTAL i

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