Revised Draft Offsite Dose Calculation Manual

ML19259D179
Person / Time
Site:	Farley
Issue date:	01/26/1979
From:	ALABAMA POWER CO.
To:
Shared Package
ML19259D178	List: ML19259D177 ML19259D179
References
NUDOCS 7910160568
Download: ML19259D179 (70)
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Text

O O

g ENCLOSURE 6 O

REVISED ODCM 11': :50 791016054 8

n Ju. 2 b,I1'lf DRAFT U

OFFSITE DOSE CALCULATION VANUAL JOSEPH M. FALEY NUCLEAR PLANT o

w UNITS 1 AND 2

.,, )

a-I l )

ALABAMA POWER COMPANY

i TABLE OF CONTENTS Radiological Effluent Technical Dose Calculation Specification Section Manual Page 4.11.1.2.1 Liquid Effluents 3.11.2.1 Gaseous Effluents 3.11.2.2 Noble Gases

)

3.11.2.3 Radiciodines and Radioactive Materials in Particulate Form 3.11.2.5 Dose Assessment for Environmental Radiation Standards Ii m

D

Dose Caiculation Due to Liould Effluents 4.11.1.2.1 Liouid Effluents-Dose Calculations m

The dose contributions for the total time period I

at shall be determined y

f =1 by the following calculation and a cumulative summation of these total body and any organ doses shall be maintained for each calendar quarter. These dose contributions shall be calculated for all radionuclides measured in liquid effluents released to unrestricted areas using the following expression:

m D = 4A at 7

j7 y

$g

$g]

C F

]

where:

the cumulative dose or dose commitment to the total body or an D

=

T organ T from the liquid effluents for the total time period m

I atg, in mrem.

f =1 th 9g and Fy the length of the 4 time period over which C at

=

j are averaged for all liquid releases, in hours the average concentration of radionuclide i in undiluted liquid

')

C

=

9g effluent during time period Aty from any liquid release, in pCi/ml.

the site related ingestion dose and dose commitment factor to A

=

IT the total body or any organ T for each identified principal garana and beta emitter, in mrem-m1 per hr-pCi.

A

=kUB DF j7 o f pj g

where:

unit conversion factor,1.14 x 105 (year /hr).

k 4 3

=7

=

(ml/1).(pCi/pci)

Ii

.J 0

adult fish consumption, 21 kg/yr.

U

=

f the bioaccumulation factor in fish for each measured radionuclide B

=

Fi i, in pCi/kg per pCi/ liter (Table 1).

the dose conversion factor for nuclide i for adults, in mrem /pCi D

=

pg (Table 2).

during any liquid

'? 3 Fj the near field average dilution factor for Cu

=

effluent release.

Defined as the ratio of the maximum undiluted liquid waste flow during release to the product of the average flow from the site discharge structure to unrestricted receiving waters times 5.

(5 is the site specific applicable factor for the mixing effect of the discharge structure.)

For radionuclides not cetermined in each batch or weekly composite, the dose contribution to the current calendar quarter cumulative summation may be approximated by assuming an average monthly concentration based on the previous monthly or quarterly composite analyses.

Ii s9 O

e e

S e

e

Parc 1 of Z k

TABLE 1****

D D

^

BIGACCU'fif t.ATION FACTOTIS D

(pCi/kg per pri/ liter)

FRESHw&TE2

$&LTasTE9 ELEMENT FISM INVERTE6RaiE P(ANT ft$M INVERTE33&TE Plaa?

H 9.0E-01 9 0E-01 9.0E-01 9.0E-ot 4.!E-01 9.3!-01 NE 1.CE 00 1.0E 00 1.0E GQ t.0E CO 1.3E 00 1.&E CC LT 5.5E.at a.a! et 3.cf 00 5.:E-st 5 :E-01 3.3E a1 6E 2.06 Os 1.ni 01 2.;z :1 2..:

c c.-

Oc 1.wi 42 8

2.2E-01 5.s! 01 2.2E 00 2.2E-01 a.:E-01 2.2E 20 C

a.$E a3 o..E 13 s.sE o3

1. 3 E 0 3 1.:! 03 1.8E 33 M

1.5E 03 15 Si~

1.3E 04 o.G 9*

1..-

J' a.et sa O

9.2E 01 9.7E-01 9.2E-01 4.6E-at o.6E-01 9 tE-01 F

1.0E 01 1.aE 02 2.0E 00 3.t! ao 3.sE 00 f.sE 10 NE 1.06 00 1.0d 00 1.0E GQ 1.3t QJ 1.s

J 1.0E Gs NA 1.0E 02 2.0E 02 5.0E 02 6.1E-02 1.9E=J1 4.5E-01 MG 5.0E 01 1.o! 02 1.0E c2 7.7E-St 7.7E-0!

7.7E-01 AL 1.0i of o.si 01

6. 21 w 2 1 1.;E 01 c.s-0t o.

i ec 31 2.5E 00 2.5E 01 1.3E c2 l 1.0E 01 3.3E 01 e.7E 01 3

T 5E 02 1 0L 02 1.0C 02 1.ii G3

.=c-01

.*d-41 CL 5.0C 01 1.0E 02 5.3E 01 1.3E-02 1.9E-02 7.6E-c2 AR t. 0 E' 0 0 f.eE 00 1.it a5 1.

E 00

!.:E C0

!.0f C0

~~

A 1 0L 03 a.3i 02 p./E 02 1.li 01 n.s C3 2.oi 01

..s CA 8.0E 01 3.3E 02 1.3E C2 5.3E-01 1.3E 01 5.0E 03

_SC 2.cf 00 1.6! 01 1.:E 09 2.

E 00 1.c! Da

!.cr 01 T1

1. 0 s u 2 3.ci 05 b.0E 02 1.0E ai 1.:t ;)

2.JE ;I~ ~

V

!.CE 01 3.0E 03

1. E 02 1.0! c1 5.0E 01 1.cE C2

.,C R 2.0E 02 2.35 33 3.0! 03 a.:r 32 2.cE 0 3 2.cE 33 MN 4.0L Od 9 0L 04 1.05 Qu 5.mi 32

.sE 04 5.:t Ja FE 1.CE 02 3 2E 03 1.CE 33 3.;E 33 2.0E ca 7.3E 02 CD 5.ct 01 2.n! 02 2.0! 02 1.$E 02 t.:E 33

1. ! 03 N1 1.0E 02 1.0L 02 5.0E 01 1.ai 32 2,55 02 2.'E 04 CU 5.0E 01 4 0E 02 2.0 E c 3 6.7E 02 1.7E 03 1.0E 03

_ZN 2.eE 03 1.*E ed 2.cr es 2 ?E 33 5.:E 04 t.0E 03 GA 3.3E 02 c.7 02 i.7E 33 3.ii C2 3.2: 32 1.iE 91 CE 3.3E 03 3.3E 01 3.3E 01 3.3C 03 2.7E

.4 3.3E 02 13 1.0E 02 4.aE St 3.SE 33 3.3E c?

3.3! S2 f.7Y 13 SL 1.li 04 1.11 32 1.

E :)

d.*E

'2 a.;L 04 1 46 0'I~

SR a.2E 02 3.3E 02 5.0E 01 1.5E-Oi 3.!! 00 1.5E 00 E2 1.$E 00 1.*E 14 f.?r am 1.ar aa t..*T 30 1.ar c3 AS 2.JE 04 1.ai 43 1.0E 33 3.35 03

. 35 J1 1.16 ' !

w 3R 3.ct 01 1.nE 02 5.0E 02 2.0E 00 2.3! 01 1.:E 01 Y

2.5E 01 1.ar 63 5,9E 13 2.5r et 1.Te 03 5.:E C3 24 3.3i 00.

6.;c Ga 1.0i 05 2.Gi Jd o.di 31

1. ; E G 5~

NB 3.0E 04 1.0E 02 S 0E 02 3.3E 04 1.0E 02 5.0E 02 mo 1.cr 01 1.aE 0; t.ar it t.;r t

t.:e of t.ar 11 TC 1.5E 01 5.gi 00 d.CE Jt i 1.ci 31 s.Ji et 4.0E 03 RU l.0E 01 3.et c2 2.0E 03 l

3. E 03 1.3E 03 2.JE 03 JM t.:E 01 3.

E 02

.or_of i i,sr at

2. r 13 2.ee <3 10 1.0d 01 30 02 2.cE 02 1.JE 01 4.c 44 2.JE ;)

AG 2.3E 00 7.75 02 2.0E 02 3.3E 03 3.3E 03 2.JE 02

_C 0 2.*C 02 2.1E 03 1.or at 3.

e 13 2.5E 05 t.E03 IN 1.oE 03 1.at 03 1.r.E 23 1.;i Ji

...t Ji 1..E la SN 3.0E 03 1.aE 03 1.0E 32 3.0E 03 1.:E.3 3 1.cE 02

_S8 1.af oc t.aE 11 1_cr at

.[; et 5,cr :o

_t.ir 93

(* 's; TE 4.JE 02" 1.0E JS 1.0E C2*)

1. J E n t *

• 1.;E 22

1. ; E s k-

• 1 1.5E 01 5.0E 00 e,0E 01 [ 1.JE 01 5.0E 01 1.0E 33

• • • • 0btaintd from Regulatory Guide 1.109 (iiarch, 1976)

]ji ore _D

% 7 of]

TABLE 1**** (Continued) g TN ooga o

m D

FRE3HWATER SaLTdaTER ELEMENT FI59 INVERT !4 ATE PLANT FISH INVE1TE32&TE PL&MT E

IC 1.0E 00 1.'o E ' 0 0 1.CE 00 1.0! 00 1.0E 30 1.0E 00 CS 2.0E 03 1.oE 02 5.0E 02 a.0E 01 2.5E 01 5.0E 01 SA e.0E 00 2.0E 32 5.0E 02 1.0E 01 1.0E 02 5.0E 02 L&

2.5E 01 1.eE $3 5.n! 05 2.5E e t 1.0E 03 5.:! 03 CE 1.06 so 1.ni Ja 4.01 03

..oi a t o.Ji as o.si us PR 2.5E 01 1.0E 33 5.0E 03 2.5E 01 1.0E 03 5.0E 03 10 2.5E ot 1.9r 31 5.er at 2.5E Ot 1.cf 31 5.cr 53 Pn 2.5E 01 1.ot 94 3.o! 03 2.)i Gt t.oi J3 3.oE os SM 2.5E 01 1 0E 03 5.0E 03 2.5E of 1.0E 03 5.0E 03

_EU 2.5E St t.,E 13 5.c! n3 2.5E 01 1.nf 03 5.or $3 GD 2.Si 04 10: JA 5.JE G3 2.si at 1.Ji 03 5.0E 03 TS 2.5E 01 1 0! 03 5.0E 03 2.5E 01 1.0E 03 5.0E 03 DY 2.5E of 1.n! 03 5.cE 03 2.5E 11 1.0E 03 5.0E 93 no 2.5i at 1.ci 32 s.QE 03 2.51 at 1.3E 03 5.oE 23 ER 2.5E 01 1 0E 33 5.0E 03 2.5E 01 1.c! 03 5.0E 03

_TM 2.5E of 1.3E 13 5.nE 33 2.5E nt 1.0E 03 5.Sr il 15 2.55 on 1.ci 03 5.JE J3 2.51 ot t.01 J3 5.oE 33 LU 2.5E 01 1 0! 03 5.QE 03 2.5E 01.

1.0E 03 5.0E 03

_HF 3.3E 00 6.7E c0 1.oE 03 2.0! 02 2.0E St 2.0E 33 IA 3.36 0*

o.7i 32 a.GE 02 3.Ji~ G4 t.JE de 1.CC Ja

.(

W 1.2! 03 1.0E 01 1.2E 03 3.0E 01 1.0E 01 3.0E 01 A

_RE 1.2E 02 6.s! 01 2.aE 02 J.!E 00 s.0E 01 2.2E 02 03 1.oE on 3.Di :2 2.0E J2 1.JL Jt 2.ct of 2.0E 22 IR 1.0E 01 3.0E 02 2.0E 02 1.0E 01 2.0E 03 2.oE 03

._PT 1.SE 02 3.9E J2 2.0E 02 1.0E 32 2.0E 03 2.0E 43 AU 3.ji 41 50i at 3.3E 01 3.36.01 2.3E Ga 3.2i JL MG 1.0E 03 1.0E 05 1.0E 03 1.7E 03 3.3E Sa 1.0E 03 TL 3.n! Os 1.gE 14 f.n! 05 1.OE os 1.5E on 1.ct SS PB 1.0i.o 2 1.ni 02 2.JE 02 8 3.45 02 1.CE 33 5.0t ;)

51 1.5E 01 2.4E 01*** 2.o! O t *** 1.5E 01

2. s E 01"" 2. o! 01**

• P3 5.0E 02 2.aE 33 2.nr 03 I 3,tr 02 5.0E 03 2.or 11 AI 1.5i 01 5 0c 00 a.Ji ot t.Gc 01 3.JE 01

• .Ji JA RN 1.CE CO 1 0! 00 1.c! 00

1. 0 E 0 0 1.0E 00 1 0E 00 FR 4.0E 02 1,a! 12 S.ot et 3.0! ot 2.0E 01 2.0E at Aa 5.0i 01 2.si J2 2.51 33 5.Gi og 1.JE og 1.oi J2 AC 2.5E 01

.1 0E 33 5.0E 03 2.5E 01 1.0E 03 5.GE 03 TN 3.0E O!

5.mE 12 t:5E 11 t.ar ca 2.0E 03 3.cE 03 PA 1.15 0; t.1: J2 t.tg c3 t.ei at 1.0i at a0 90 U

2.0E 00 6 0E 01 5.0E-01 1.0E 01 1.0E 01 6.7E 01 NP 1.0E 01 4.a? 1?

3.of ??

f.1E 01 t.CE St 6.at do PU 3.56 00 t.cs 22 3.51 32 3.;I 33 2.06 ad 1.JC 33 AN 2.5E 01-1.nE 03 5.0E 03 2.5E 01 1.0E 03 5.0E 03 EM 2.5E et t.6E 03 5.0E 01 2.5E of t.0E 03 5.0E 43 SA 2.51 at 1.oi JJ 5.oi os 2.36 on t.ot 94 3.of 43 CF 2.5E 01 1.0! 03 5.0E c5 2.5E 01 1.0E 03 5.0E 33

,ES t.9E St 1.1E 02 f.e? et t s1r et 1.0! Ot S.5r it FM 1.ci 01 1 0L J2 1.ot 03 [ 1.3E Ja 1.oE on o.0E ot

• C2.'!L - Private C..=i.nf ea tt en

• • Freke. A.M., "A Pepel for t.,e Acercri.vate Calculatten cf E4fe Rar.<s of Olscharge into hrine Er.viromr ests." west n r=.a.ie. Vol.13, p. 741.1957.

s 3

• • • 0erhed fr:3 Cata in B:-en, n.J.a.

Trace Ete-o't; in Stocomistr/. New York. Acade iic Press (1555).

• • • • 0btained from Regulatory Guide 1.109 (March,1976) 3$

,c, i I

.: u 4L

8 1

b

(

s' TABLE 2*

g b

N a

9

. I'OSF CONVE!!SION FAC rOn.S (mrem /pri ingested)

NUCLIOC 50NY LIVE 9 TnTAL !937 1979.113 Af3NEY LUN-CT-LL!

IM 3

0.0 1.3 cec 07 1.3sE 1.3eE-07 1.34E-07 1.3eE-07 1.346-07 ASE 10 3.15E-06 d.91r-a7 7.CSE-04 a.3 3.FIE-17 3.0

2. 6 d f-0 5 <

6C la 2.1 G r -0 6, 5.6:r a7 8.tst-47 5.per-a7 q.gct-17 5.eer-c7 5.scE-47 JM 43 S.31:=sw 3.3it-09 S.371-04 e.3it-49

.3/i-J4

$.31i-04 o. J.' ' *. 4 4F 15 6.25f-07 3.0 6.43E-05 0.1 0.3 0.0 1.55E-OS 11Wa 22

!.74F-05 1.7:(-95 1.7cE-95 1.7a!-05 1.7EE-65 f.74E-05 1.7JT-15 11%4 24

2. d oi s's 4.co:-Ja d. c.s i - J e 2.4si-d>

2. hi-G o

2. doi-ut

.d:

e ISP 32 1.93E-ca 1.21.r-05 7.37E-06 0.0 0.3 S.0 2.17E-05 20Ca el 1.9;E-14 S.1 2.0tf=35 0.1 0.1 S.o 1.*JE-17 215C so 2.31i w+

1.4mi-05 3.115-04 c.J 1.J0E-na 3.3 5.2ti v5 2eCR $1 0.0 0.0 2.66E-14 1.59E-09 5.87E-to 3.53E-09 6.adt-17 25=v

%g 9.0 a.57r-*%

1.7ti-17 c.i t.it! ag 9.0

f. ate-as 25aN So 0.0 1.15i-37 L c5i-'1-J.1 1..oi-07 0.0 3.mic-us 26FE 55 6.20E-06 2.7*E-05 1.33E-Ch 0.0 0.0 3.23E-05 1.08t-05 26FC 59 4 ICE-06 1.0!E-99 1.e t sg a,a 9.1 2.86E-06

3. - 3 I- ' 5 27C0 $7 0.0

~

1.75i-37 2.911-01 4.3 0.3 0.0 d.u-t-ce 27E0 55 0.0 7.c6E-07 1.67E.16 0.0 0.0 0.0 1.51F-05 27CO 60 0.0 3.tTE a4 a.7)f-16 a.6 0.3 0.0 0.12E 15 26%1 59 v.1;i-do a.Jii-03 1.s3E-)s J.4 c.o 0.0 e.4;1-fT 2S9 63 1.30E-03 9.02E-36 4.3hE-06 0.0 0.0 0.0 1.SSE-06 2941 65 5.21T-37 4.*7i a*

3.11r=14 9.3 S.3 n.0 1.7er=4%

29CU se U.)

3.2-i-ce 3.Q21-04 0.0 2.106-41 0.0 l. ; J- -v o 30ZN 65 4.S$E-06 1.54E-05 6.97r-06 0.3 1.33E-oS 0.0 9.70C-06 30ZN 6*M l.700-07 2.10r

• 7 t,7tr-1a n.3 2,atr-n7 1,0 2.

(-05 302N 09 1.03C*01

1. 4 t i +.'s 1.27E-43 G.3 l'. 2 S E -G S 0.0

2. h t -N 3e5E 79 0.0 2.6.tE-06 4.00E-07 0.0 4.56E-06 0.0 5.33E-07 3572' 82 S.S 3.1

?.?Ar-ig 3.9 9.0 3.0 2.SST-06 I5783 0.0 3.3 e.021-04 0.3 3.0 3.3 5.l*:-Co 3558 84 0.0 0.0 5.22E-OS 0.3 0.0 0.0 4.39E-13 3534 85 0.0 0.0 2.taE-04 4.0 3.3 1.0 0.0 37aB 86 0.0 d.11L-03

4. Add-in 0.3 C.J 0.0 d.not so 3748 87 0.0 1.23E-05 a.2mE-06 0.o a.0 0.0 5.76E-07

_37RS 93 0.0 6.66F-ae 3,2tt-9a e.0 1.0 e.0 e.36E-10 37d6 $9 0.0 J.Gtc 06 2.935-44 0.0 0.3 3.0 3.0 3854 89 3.09E-ca 0.3 a.65r-03 0.0 0.n 0.0 a.caE-05 J854 to 7.s*E-13 3.3 f.*tf=01 0.1 0.0 3.0 t.02i=0a 3454 91 5.sik-90

.?. 0 2.ind-41 J.0 9.J 0.0

,2.vj;.i 3654 92

2. tee-06 J.0 9.3tE-08 0.0 0.0 0.0 4.2sf-05 30Y 91 0,A3E-01 1.3 2.5pr-t3 n.i n.9 3.0 1.32C-Su 397 919 +. l c t -i l J.3 3.53E-12 J.0 0.0 3.0 2.oit-tJ 197 91

1. ate-07 0.0 3.7aE-09 0.0 0.0 0.0 7.76C-05 Note: 0.0 eeans insufficient cata or that the d:se fac:or is <1.CE-20.

t'.%

1

,,. /

' ~ " '

g' g'

• 0btained from Regufatory Guide 1.109 (March,1976) 5

I b

(

s--

vs

,0

~ -

\\D TABLE 2* (Continued)

O 6

MICLIOE BONT.

LivrL TO7AL 30 7 '"U7mID C=t 7 LU::C C.-f.L 397 92 8.coE-to 3.0 2~. a 7E - t t O'. o 0.c 0.0 1.o8E-05 39Y 93 2.6AE-09 0.0 7.s0E-tt n.0 0.0 0.0 6.50E-05 a0Zo 93 a.14E-45 '3.3:r-es 1.0e!-ot 0.0

9. set-co n.o 2.33E-o%

solR 95 3.1 -i.' i 1.:s--o4 o.o.i-44 0.G t.5-i-0$

o.0

3. J ak -0 2 a02R 97 1.66E-09 3.32E-10 1.5%E=!c o.o 5.12E-te o.0 1.051-on othe 93*

2.55E-C4 5.11E-e9

?.79

-18 c.6 9.5?E a#

8.o 3.aut-6%

at"$

65 p.22c-Je 4.

c-33 1.235-;4 4.0 3.414-01 Geo 2 10L-03 stNB 97 5.23E-tt t.321-11 a. f 2 E '. 2 0.n 1.5aE-It 0.0 a 87E-c3 a2"O el o.S 7.52E-os 7.**r a.0 2.t1E-os o.n 1.22E-a, a2"O 90 0.0

• .314-0o 6.231-07 6.n e.lig-co c.a 9.vo:-43 a3fC 991 2.o7E-10 6.95E-10 4.*nt 13 a.o 1.06E-od 3.o2E-10 a.13E-37 a3fC to 1.2SE-ST 1.5%E-67 5.c0E.CE o.o 2.3ct-as 1.94E-0" 6.2*T-as a3IC tot 2.5 a i N 's 3.371-10 3.bci-9a n.o e.swd-09 t.4tt-10 J.0 a4QU 103 1.85E-C7 0.0 7.9sE-oA c.0 7.07E-07 0.0 2.16E-05 saaU tC5

!.Su!*t' i.3

6. car-10 0.0 t.ger-97 o.o

o. ope-c5 assu 100 2.7Lcava J.0 3.afE-07 c.0 5.325-os 0.0

1. l o c -C a ASEN 105 1.22E-07 S.36E-08 5.53E-05 0.0

'3.76E-07

'O.0 1.a1E-05 a6PD 107 1.0 1.a7r-e7 o,atr-31 ao 1.32E-os n.0 g.ttE-47 abd0 l 'J S o.3 1.77ca)i 6.005-0s 0.3 1.0tE-Gb 0.0 1.40--43 a74G 110M 1.s0E-C7 1.a6E-07 4.80E-09 0.0 2.9tE-07 0.0 6.c o!-05

,g-47AG til 3.82E-ta 2.:aE-09 t.21E-19 a.s 7.8.5E a*

0.0 a.461 05 o8CO 112' O.0 3.146-33 1.02i-07 0.0 3.5)s-9o C.0 4.5ci-05 48CD 1151 0.0 1.84E-oo 5.64i-0A 0.c 1.a6E-06

.o.0 7.7aE-05 50$N 123 t.t!E-at 5.tsr-07

?.sar-n7 c.1?r-a7 a.0 n.o 6: 31E e5

.5051 145 o.3ai-e>

t. c e! -3 7 3.;ai-Ji 1.3di-41 0.3 0.0 1.0-c-u-505N 126 S.esE-05

!.Sff-06 2.stE-06 a.92!-of 0.0 0.0 2.43E-05 5154 123 2.9tr a5 5.'-

E ai 1.ttt

's A.77/-o*

o.o 2.t*E-es 7.45E-c5 5:58 125 2.25c-1=

2.act-os a.usE-ai

1. ?g-c+

o.o 2.33E-04 1.vlE-45 5133 126 1.15E-03 2.34E-os a.15E-07 7.05E-09 c.o 7.05E-07 9.o0E-c5 5159 127 2.Sar-37 3,g,E no s,ase $a 3,ttr-co o.3 1.53E-47 5.cor-as

$2iE 12is 2.eei-03

+.131-07 3.5ci-at

6. ale-61 1.oqE-25 0.0 1.07E-c5 52TE 1274 6.76E-06 2.37E-ch 3. 2.s t - 0 7 1.73E-os 2.75E-05 0.0 2.27F-05

_52Tr g37 t. t ei-??

1.ote aa 7.!ar aa a.ts -ot 2.aer-47 a.9 9.3at-c$

52fE 121" 1.155-05 d.33E-Os 1.f2E-:o 3.95E-03 u..*0E-05 0.3 5.746-es 52TE 122 3.15E-05

1. t

• E.14 7.6,E-o*

2. ate-05 1.32E-47 0.4 2.37E-Da

_527E 13 t

• 1.74 35 f. 4 -r -o f 7 em -37

1. Tar-as 8.54E-3%

0.0 S. ace-os 52tE 131 t.9/E-as S.2.i-09 e.221-)*

t.625-04 a.ead-os 0.0

2. + 5 - -9 4 52fE 132 2.53E-05 1.saE-05 1.5TE-45 t.anf-Os 1.5=E-OS 0.0 7.7tE-05

$2TE 1134 s, g 3 r...* a

?,qe!-na s,2%; as 3.=pr a1 7.3 E-17 g,s a.17r-40

'T2if 13-

1. 2.i. -l $

2.tli-14 1.3:L-31 2..is-*a 2.075-01 0.0

a. doc-ve a

531 129 3.27E-Je 2.stf-es 1.22E-os 7.25E-05 6.03E-06 0.0 a.aar-07 53f 130 7.57e 37 2.?:r as a.eir s7 p..igr n2 3.ase-a3

.1. o 3.opc.c3

~531 til u.toi-en 5.isi-es 3.alf-os 1.95i-a6 4.4/E-65 0.J 1.5ec-wo 53I 132 2.03E-J7 5.c3E-07 1.935-07 7.tSE-05 a.66E-07 0.o 1.02E-07

• 0btained from. Regulatory Guide 1.109 (March,1976)

}I.

'E0 u

e b e.,,

e

Gb b

D

\\Q

~

0

\\

TABLE 2* (Continued)

In:C.I:E ECNE LIvr1 37:M. ScoY : noIo r=:: t LcfC CI-LLI 8424 223 a.9'E-o3 7.s6E-cb o.osE-os 0.0 2.17E-os 0.0 3.2tE-os 884A 224 t.62E-03 3.90E-ob

}.23!-0u 0.0 1.11E-oa 0.0

3. ace-aa 8821 ??5 6.57E-03 7.?'E a*

t.3t?-ot 0.0

2. ? t E-n a S.o

3. o 6 F. -4 4 884A 223 J.c5E-on 5.15E-on 2.416-41 U.o 1.b3E-od o.o 3.32E-c4 884A 22S 1.12E-01 3.12E-ob 1.21!-01 0.0 8.8aE-c5 0.0 5.ta!-05 89ac 225 a.cis-os

• .o7E-as s.a r-or o.o s.*er-or o.o a.o7E-oa 894C 227

1. dei-wA 2..te-04 1.11i-04 4.a 4.03E-oS o.o 3.ht-05 907H 227 1.37E-05 2.a!'-07 3.9t!-07 0.o

1. ate-n6 0.0

5. doe-04 90fM 224 a.4eF-Ou 9.21!-as 1.63Y 95 c.o a.67t-n5 o.o

%.h;.r.no 9afM 244 s.0es-03 1.2 E-04 3.45f-2s c.o

5. 04-04 0.c 5.idi-Je 907M 230 2.08E-o1 1.155-04 5.7aE-05 0.0 5.69E-04 a.o 6.02E-05 9o7H F32 1.!s:-o1 1.9ti-44

o?! a5 n.o a.=SE as o.0 1.2*F-as 9aiN 23e a.c2i-06 a.72f-oq 2.521-09 0.0 2.31E-oh 0.c

1. tie-04 9tPA 231 a.14E-03 1.56E-04 1.6tE-on o.o 0.0 0.0-6.27E ou 9tPa 233 5.24r.ng t,ggg.93 0.2ar.gn e.n 3.oor no 6.o 1.osf-09 924 232 a.1.E-03 J.o 2.iSE-04

c.. J s.uTE-ce o.0 6.12E-05 920 233 5.72E-on o.o 5.2*E-oS 0.0 2.04E-oa 0.o 6.27E-05 920 Pla a.T7E-4a o.o 9.'4!-1%

o.o 1.sor.42 1.0 6.ts!-o%

920 235 6.0 E-Ju 4.o a,46E-J5 0.0 1.41E-au 0.0 1.816-45 92U 236 8.02E-on 0.0 a,27E-05 0.0 1.9tE-o4 0.0 5.76E-oS

~

920 737 T_g3r.no

?*

t.31f-98 9.0 7.27'-07 9.5 1.94F-15 s.,

92u 235 7.67E-Qu 0.0 a.55E-05 a.s 1.75E-ou o.o

..boi-04 93NP 237

1. 35E-0 3 1.2cE-os 5.59E-oS o.o a.16f-04 0.0 7.out-os 93NP 239 1.17E-o?

!.str_.3 g,..g.in n,a t,ggr.3.

n,n 3,3gr.45 93NP 234 1.20E-09 1.155-10 b.u%i-11 0.0 3.55E-to c.0 2.udE-05 9aPU 235 6.73f-od 4.31E-65 1.b7E-OS 0.o 7.12E-oS 0.0

.7.30E-OS 9aPU P34

?,63r.Sa t,nsg.*2 1,ser.?S n.n 7.167-35 n.o 6.4*F-oM 9aPU 2aa 7.5cE-og 1.c41-04 1.3SE-05 0.3 1.40L-c5 0.o o.ict-01 taPU 201 1.5eE-05

!.s7E-07 3.33E-o7 o.0 1.53C-ob o.0 1.aoE-06 gaPU 2a?

' 22!-03 0.sSc

.5 t,7st-;5 9.o 7.54r as 9.n 6.53r.ng gePU 2*4 4.241-08 1.tdi-04

2. lie-05 0.0 9.03E-05 0.J 9.124-9) 95&M 2at

8. toe-on 2.75E-os 5.2st-05 0.0 3.9eE-04 0.0 7.42E-05 95aN 232*

4.12'-oc 2.782-95 5.s?? 19 6.n a.ser.no n,a o,$ag.ag 954a 2a3 8.1 E-34 2.15E-24 5.2Ji-05 0.0 3.15E-04 0.J 9.13i-)5 96CM 2a2 1.53E-05 1.64E-oS t.out-ce 0.0 4.57E-ob o.o 7.12E-oS 96CM 233 e.23r-03 2.21E

^4 1.??!-ss n.e 1.76r nu n.c 7.8t!-65 9tCM 244 4.osc-44 2.0/1-04 2.?si-23 0.0 1.346-04 0.o 1.ait-J' 96CM 2uS 1.33E-o!

2.S4E-ca 5.StE-05 0.0 2.7tE-04 0.o 7.03E

'.S 96CM 2J5 1.o2r-43

?.a4! en c.ser.35

.,n p,73

.a.

.,e g, o t 6 - n e.

96C" 281 9.93E-0a 2.d3E-04 5.72f-J5 J.o 2.37E-94 0.0 9.o+E-uS 96CM 2u4 8.27E-c3 2.33E-o3 a.Tt!-os 0.0 2.20E-03 0.0 1.u7E-03 98cp 252 t.9sE-ca o.o a.95E-o6 0.c o.o o.o 2.88E-o=

• 0btained from Regulatory Guide 1.109 (March,1976) pmy 5

O

Dose Calculation Oue to Gaseous Effluents 3.11.2.1 Caseous Effluents-Dose Calculations The dose rate in unrestricted areas due to radioactive materials released in gaseous effl Jents from the site shall be limited to the following expressions:

(a) Release rate l'imit for noble gases:

~

g[y[(x/Q)Q 6

]

< 500 trem/yr, and 10 IK

,i

~

2 6

10 I(Lg + 1.1 M ) I [(x/Q)y$y]

< 3000 mrem /yr Q

j i

y where the te s are defined below:

(b)

Release rate limit for all radiofodines and radioactive materials in particulate form, with half lives greater than 8 days:

2 6

238 x 10 IP I [Cx/Q) y $y] < 1500 mrem /yr Q

j i V

~

\\

where:

the factor to convert inhalation dose to grass-cow-milk 238

=

pithway dose.

the total body dose factor due to gamma emissions for each K

=

g identified radionuclide, in mrem /yr per pCi/m3 (Tabel 3).

the skin dose factor due to beta emissions for each identified L

=

I radionuclide, in mrem /yr per pCi/m3 (Table 3).

the air dose factor due to gamma emissions for each identified M

=

j radionuclide, in mrad /yr per pCi/m3 (Table 3).

the product of the largest inhalation dose factor for any P

=

g organ of an infant for each identified radionuclide and the infant inhalation rate of 1900 m3/yr, in mrem /yr per pCi/m3 The infant age group and pathways are the most restrictive, thus the infant dose factors in Table 4 usually apply.

However, for the kidney and for some radionuclides, the adult inhalation dose factors in Table 5 are applicable.

the highest value of the annual average atinospheric its-(W)y = persion factor at the site boundary, for all sectors, in i

sec/m3 The value of 7.5 x 10-7 sec/m3 will be used for i

the plant vent and 1.2 x 10-5 sec/m3 for the turbine building steam jet air ejector.

13,-

m,pv 4

+

1S e

rs.

w v-i i Liy

.,ll (946L '43JPW) 60l*l BPing KaogulnBay moa; paulesq0..

50-39t*9 0*C IO-325*2 c'O 50-309's no-315*z 'ec-345*t 012 0409 50-152's C*0 50-3es*t C*o EO-346*C 90-30t*t 40-329*>

• 012 1919 50-3?p*5 e*0 Pu-3f7't o*o Pa-IP *5 T D 2 6 5

• t-Po 1f5*t e12 AsF0 59 226*2 9'u 0'b C*u es-i:L*1 hv=324*E 40-35C*1 498 ret 50-345*1 C*0 C*0 C*0 Sk-I2n*1 20-35t*1 10-39D*r 591 pet to-le=*e o'c e*o a*e ot to *f t o-2-? *f on-?7s'e 191-wat 0*C 0*L 20-392*)

c'0 bc-56P'4 bu-Joe'k LO-3Ca*2 h945 Om19 50-3tt*n C*o so-3n6*1 0*C 60-359*5 c*c 90-30L*o 091 9159 50-?E?*f 0*C 6*-160*f

~

0*C 6U-71t*1 90-?tL*1 03-?tf*1 est 3319

%0-309*b 0*v bu-30%*5 ~

p*v o0-3vs*4 bu-322*1 90-319*e SSL D319 50-39e*5 0*0 LO-320*t c'O so-3nt*5 90-315*1 40-39t*9 est n3t9 50-765*2

!*C 20-30f*?

0*C S0-716*t F;-?se*r to-1ch*t

?Ct n219 50-355"E C*v Di-3c1*2 c*C 31-3i2*h 04-39;*4 01-JE5*9 CSL h529 90-352*5 0*C 90-3tt*1 0*o 60-399*2 90- 3 L i ' l 90-316*9 151 Ws29 50-???*f 0*0 01-Is?*2 e*0 11-12 *5 el-?zt*1 01-?fe*o 151 we19 50-3t;*r 0*e 03-310'o 0*u nL-aet*s on-351 2 60-325*:

6el wel9 50-det*6 C*O 60-352*2 0*C 01-200'9 60-301*I 60-391*l Set Wd19 50-1%!**

0*C 90-?l2*f 0*0 60-isL*4 et=?4e*1 p r.- ? ! 0

• f k9nt ust9 90-3ie*G 0*C 60-3et*I c*c o;-343 *i eu-3c;*:

90-3;&*z ton wel9 50-36>*t c'O 60-352**

c'O ci-35t*e 60-332*l 60-3ct*9 an! cac9 11-3tt'e 0*C 21-?9t*I e*t 21-if5*1 ft ?st*1 11 70*f 1 es65 70-sic's u'w o.-311*2 c't wi :Ab*a cL-3CL*1 60-312*6 ill tdes 90-359*!

0*C 10-312*1 0*0 20-329*2 LC-3nc'2 It-339'n est 3395 Sa-?tS*n 0*0 Gt-?9f*5 c*o 01-75t*t 9*-tr?'t ee-35o*t fel 1395 50-32n*2 b'u ow-3sp*2 u*u Gn-3s;'t co-3:1*5 00-34t*6 Inl 3395 40-352**

0*C 0*t 0*C 11-35e*1 11-329*5 01-392*1 Zol v145 Sa-?vt*f e*O c*e e*c tt-??c*t it-3t(*o et-76t*f Int 99ts 50-352'o G*0 0*C L'9 ot-3ti*L cG-342*1 60-3G5*2 ont r7LS c'O 11-3 2*1 11-35?*1 C*0 6 0'-3 n t

• 1 11-361'2 EO-3E1*2 2pt T995 11 i??*7 ft

?c'?

Il-?tf*t e*C 60-;s5*!

It-tos f o'o int vses Sc-36;*e 60-3;c*6 oc-355'k c'o 9L-5:L'e we-353*2 50-3*c 2 Gan 1995 10 322*!

11-326*t 11-3te*9 0*0 6C-3ns*2 11-32o*9 90-31L*t til 7995

• • e 60-30f*t po-ite*n e*e 50-15g t co-?9t*g pa-?trag (ft g355 ii-356*r oc-32.*4 so-32G*G 0*0 su ane's tv-inc*l bk-325*5 bi n S355' 9D-301*2 50-3t2'I 50-31t*t c'0 50-35t*l to-3o0*!

50-3Gt*1 It1 5355 en-??e*?

90 sot *1 50-?te*1 C*C SS-359't Sc-?!s*? c f. - ? t ;

• c cft g3ss 49-3;2*

gr-330*L 4c sth*e u*u ve-19L*s 59 3C6*1 50-356*1 Sil S355 90-3e5*2 50-365*!

50-3cs'n 3*0 00-312*!

ro 3w:*1 50-322*9 stl 5355 50.cq'1 e0-:fp*f

&t-?e**?

t*e 50-3cf*P pos *r*r sa.:St*?

wert g355 ve-3 t*1

&*w

• v-3 9 6

• 1 tv-3ti*n 19-30t*r 96-341'l LO-3sn*n 511 115 01-315*2 0*o lo-3e5's 50-384*C Le-3t:*1 20*399*2 10-390*1 ett Its90-391'2 0*C 90-3tt's n0-3fl*#

10-315*4 90-35:*2 90-Ito*1 tt! Its n1,-:3 cm m...:x ocun 7, con me.

um 3xos 3 c*=:ut

.~

c5

^^ 'N gp (panu;2uo3).2 318Y1 c-V 43 0, O_m J T

d'

,g,

• ' a P I

e f

r

ti74),y the highest value of the annual average atrospheric

=

dispersion factor at the distance of 5 miles, for all will be used for the plant vent and 5.1 x 10 7 s/m3 sectors, in sec/m3 Tha value of 7.6 x 10-8 sec ec/m3 for the turbine building steam jet air ejector.

the average release rate of nuclide i in gaseous effluent Q

=

9y from each vent release point y at the site, in pCi/sec.

Noble gases may be averaged over a period of 1 heur, and any other nuclides may be averaged over a period of 1 week.

9 3 ;

e

1. b c) s e

9

S

~

TABLE 3****

! SE FAhTORS rot? NOBLE GASES AND DAI'GIITI:ltS I.i* *

}fik

}qt

• gg.

• f0F!g)

• fCF3

Nacifde e-afr (OF ) 3-Skin * (OFS ) v Afr S v-Body g 1.93E-05 . 7. 56'E-08 tr-23m

2. E S E-c 4 tr-85a 1.971-03 1.46C-03 1.23-03 1.17E-03 Er-85 1.95E-03 1.34E-03 1.72E-05 '

1. 61 E-05

. \\' tr-87 1.03E-02 .9.73E-03 6.17E-03 5.92E-03 Kr-88 2.93E-03 2.37E-03 1.52E-02 1.47E-02 Kr-89 1.06E-02 1.01E-02 1.73E-02 1.66E-02 Er-90 7.83E-03 7.29E-03 1.63E-02 1.56E-02 Ie-13km 1.11E-03 '4.76C-04 1.56E-04 9.15E-05 L Ie-132s 1.45E-03 9.94E-04 3.27E-04 2.51E-04 m. 1e-133 1.05E-03 3.06E-04 3.53E-04 2.94E-04 ' Ie-135c 7.39E-04 7.11E-04 3.36E-03 3.12C-03 Ze-135 2.46E-03 1.86E-03 1.92E-03 1.81E-03 Ie-137 1.27E-02 1.22E-02

1. 51 C-03 1.42E-03 Ic-138 4.75E-03 4.13E-03 9.21E-03 8.83E-03 Ar-41

.3.23E-03 2.69E-03 S.30E-03 8.84E-03 3 mrad-n pCl-yr 3 mrem m b pCl-yr D 's 2.ESE 2.88 x 10*# 9

• • • • 0btained from Regulatory Guide 1.109 (March,1976)

,o*em e ~ q, - i

• i J,
• M j;

rageim 1 ( TABLE 5* (Continued) RUCLDE 3c:tt LITIR TOIA.I. 30DY ~4 7.0D KO!if II:fC CI-I.LI SARA 223 1.50E-Os 2.77E-07 3.60E-05 0.0 7.55E-06 2.55E-02 2.54E-Os 58RA 224 1.96E-05 4.,41-06 3.o6E-06 0.0 1.35E-06 8.75E-03 3.01E-04 88R4 ?S 3.00E-an %,7%E-a7 q co!-ac 3.3 t.at!-SS ?.02E-02 2.71E-04 68RA 22b 1.25E-on i.3 E-06 9.13E-02 0.G o.17E-45 1 171-31 2.i-s-da CSRA 226 a.stE-02 1.23E-06 a.73E-02 3.0 3.c8E-05 1.61E-01 5.0:1-05 89AC 225 a.23!-Os 5. 2E aa 2.5:!-55 a.3 6.63E-05 ?.2tE-02 2.52E-12 89AC 227

2. 3 4 F. 00 3.c3E-01 1.3as-31 0.0 9.s2E-02

2. ate-OL 6.92i-v5 90TH 227

.?.17E-On 3.:!E-06 6.25E-06 0.0 2.22E-05 3.7tE-02 3.33E-04 90TH 223 h,cc!-01 3.1:T-03 6.77E-11 n.0 1.19E-6? t.31E 00

3. 2!-3a 90TH 224 5,coi 00 t.;3E-01 a.3ni-01 a.J s.52E-01 3 53E G:

3. tis-v4 90TH 230 2.29E 00 1.31E-01 6.36E-32 a.0 6.30E-01 6.22E-01 3.73E-05 00TH 232 1.90E C0 1.12E-41

5. !E-02 a.0 5.s7E-01 5 3tE-Ot 7.94E-05 90lH 23d t.oiE-Js

9. a = i-9 6 a./JI-GS 0.0 5.;1E-01 1,441-Ca 7.0Ji-J5 91PA 231 5.cEE 00 1.9tE-01 1.95E-01 0.0 0.0 5.75E-02 3.3:E-04 9tPA 233 1.2tE-06

2. 2!-97 2.0cE-07 3.3 0.15E-07 3.52E-05 1.32E-05

~ 920 232 5.t-E-02 0.G 3.o6i-03 0.0 5.5=E-03 2 231-01 a.itc w5 92U 233 1.c9E-02 0.3 6'.59E-03 0.0 2.SdE-03 5.33E-C2 3.!9E-05 92U 238 f.*8E-02 0.0 6.a6E-aa n.o 7.ao!-61 5.72E-02 1.5tE-:5 920 235 1.JGi-92 0.0 6.07E-04 0.0 2.3sE-03 a.9GE=?2 4.6-i-45 . ~ ',- 92U 236 1.00E-02 0.0 6.20E-0a 3.0 2.39E-03 5.01E-02 3.57E-05 920 237 3.67E-c3 3.0 e.77E as n.o t.StE ^7 t.02E-^5 !.20E-35 920 238 9.5si-05 0.0 5.a3E-ju .n 2.185-03 a.5 E-02

1. 3 :: -7!

93NP 237 1.69E 00 1.47E-01 6.57E-02 0.0 5.10E-01 5.22E-02 a.92E-05 .-DE-05 2.13! -C 5 93NP 238 2.26E-07 7.CCE a* S.ht!-a* ?.C 2.77!-^A 93NP 239 2.61i-03 2.325-J4 1.555-04 0.3 a.154-04 a.Ilf-us 1.-,i-wi 90PU 233 2.69E 00

3. 7.3 E -41 6.66E-02 3.0 2.55E-01 1.76E-01 c.52E-05 9aPU 234 3.05E 00 a.t?E491 7.57E-33

.S 3.20E-31 1.37!-01 a.!IE-05 9aPu 230

3. Gad GG 6.191-01 7.53E-02 3.0 3.2GE-01 1.37!-Ct s.40 i-i5

~ 9aPU 241 6.05E-02 3.23E-03 1.29E-03 0.0 5.93E-03 1.52E-ca s.65E-s7 9aPU 222 2.A9E 00

3. #E at 7.t?!-6?

9.0 3.SSE-at t.50!-01 a..*5E 35 94PU Zud 3.ad 00 4.Thi=0; 3.5aE-02 3.0 3.361-01 1.697-G1 b.03E-45 95AH 241 9.93E-01 3.asE-et 6.47E-02 0.'s a.S7E-01 5.56E-02 a.60E-05 95AM 222M t.02E C0 3.25E al s.71! ^2 n.n

5. ate-01

?.25E-02 5.7.!-05 95An.243 +.9-E-os 3.40s-01 m.uSE-42 0.0 a.$os-31 5.=55-02 a.wli-45 96CM 202 1.12E-02 1.15E-02 7.50E-Os 0.3 3.5aE-03 3.74E-02 4.otE-05 96CH 2:3 7 35E-01 2.o7E-01 a.StE-42 n.3 2.tSE-o! 6.32E-02 s.9:E-09 9aCM Jua 5, 1-01 2.5et-01 3.5ti-02 c.a 1.d45-01 6.375-Oc 4.mai-65 3 96CM 2a5

1. 4E 00 3.59E-01 7.laE-02 0.0 3.33E-01 5.SoE-42 u.35E-05 96CH PRS 1.25E 00 3.SeE-?t 7.t E-a7 c.a 1.33E-at 9.*?!-^2 s.2cE-05 96C1 247 1.221 00 3.53E-01 7.03E-02 0.3 J.2SE-01 5.3e5-92 5.3 2t-4 5 l

96CM 24S 1.01E 01 2.91E 00 5.79E-01 0.0 2.70E 00 a.33E-01 9.c4E-04 98CF 252 7.33E-01. 0.0 1.43E-02 0.0 0.0 1.56E-01 1.78E-04 2 n I

• 0btained from Regulatory Guide 1.109 (March,1976) g j

9 % \\ t[ ~ ) [ l ! L V -t -r g t& p

(. TABLE 4* INFANT INIIALATION DOSE FACTORS, (mrem /pCi inhaled) EUCLIDE SONE LIVER' TOTAL 53 7 THv20ID KI3NEY LUNC CI-LLI IM 3 0.0 3.07E-07 3.07E-C7 3.07E-07 3.07E-07 3.C7E-07 66 -i e 3.60E-06 3.6CE-06 3.ecE-06 3.h4E-06 3.60E-06 3.60E-06' 11NA 22 7.53E-05 7.53E-os 7.51E-05 7.53E-05 7.53E-05 1.22t-ce 27CO Sa 0.0 $.346-05 1.21i-J7 0.0 h.2sE-04 6.=i'-is 27CD 60 0.0 %.00E-07 3.35E-37 0.0 3.95E-03 2.34E-05 ms, 3854 29 3.o*!-05 3.0 s.a:E-07 n.9 1.65E-03 4.it!-05 3854 90 9.u-I-J3 J.3 5.7aE-04 0.a 1.09E-02 4.5'i-i 397 90 2.10E-07 0.0 5.65E-09 0.0 1.ost-04 s.02E-05

1. 0 1 39Y 91 a.27E-05 S.1 1.t:r-66 9.o 1.!*!-43 5.13E

~5 40ZR 95 7.7sE-os 1.9-E-06 1.3*E-Jh a.0 1.29E-03 1.-ai-Ji 41NS 95 9.16E-07 3.11E-07 2.stE-37 0.0

3. ate-04 8.s7E-Cs C _'

442U 103 1.2!E-07 0.0 4,tBE-98 0.0 s.o:E-04 1.13E-:5 eaau 106 o.e:E-ce 0.J s.tsi-ci 0.; 1.076-02

1. 2 :- -4 a 50$N 123 2.22E-05 2.61E-07 7.3cE-07 a.s15-07 2.58E-03

.2fE-05 SPTE 125W 3.2cE-47 1.3aE-97 c. : e !

.? a 1.04r-07 per?s 3.Sa!-oc o.71E-.s 523E 127 1.J3E-10 4.3fE-11 2'5=I-11 1...I-1J 7.03E-0 1.:J:-45 52TE 129M 9.:6E-G7 c.tcE-07 1.:7E-07 3.63E-07 1.31E-03 5.23E-35 52TE 13? 2.25t-ce 1.42E. 5 .,*st-og ,??t-05 ?.csE-Os 6.g=E-c5 531 129 2.2iE-45 1.32L-05 5.*II-G5 5. e t '.-G e 2.0

2. c.ii-s 7 0.0 7.66E-07

..s 531 131 2.5'E-05 3.05E-25 1.790-05 1.01E-02 531 133 9.56E-06 t.?"E-SS 3.11E-es !.33E-43 0.0 1.635-26 $5Cs 134 3.43c-ca 5.5,4i-04 5.231-05 0.; 7.22E-05 a. i c i - 4.' 55CS 137 a.o0E-04 5.22E-on 3.15E-05 0.0 6.75E-05 9.:54-07 5681 too 2.975-05 3.'EE-a9 2.ttE-37 0.1 f.17E-03 2.7?E-Os 57LA tu3 1.0'E-06

2. 2.ii-3 4

?.a15-10 0.G 1.21E-04 s.=3E-95 58CE tal 1.50E-06 1.11E-06 1.2*E-67 0.0 3.7aE-04.1.c7E-05 58CE tc4 3.322-0c 1,30E-so t,74 45 ?.0 9.n6E-03 t.!SE-Ma '63EU 154 5.95E-ca u.*5E-05 3.7. -05 0.0 3.09E-03 3.73i-05 920 232 3.91E-02 3.0 2.75E-03 0.0 2.02E 00 0.5fE-05 920 ??2 7.oct-03 0.o s.etr-Sa 9.0 a.7af-nt a.!SE-05 9aPU 235 2.JtE 60 2.hei-01 5.055-J2 0.0 1.516 00 a.i'2c-05 gePU 239 2.33E 00 3.00E-21 5.77E-02 0.0 1.43E 00 a.5tE-05 9ePU 220 2.33E 10

1. 0 2 E -91 5.?ti-c?

o.o 1.oSE 00 u.5 E-c5 9sPU Zu! $ 1=E-04 1.1CE-a 2.G7E-c5 .G

9. ace-os e.oni-43 95AM ist 7.615-01 2.d7E-01 a.96E-02 0.0 5.32E-C1 c.StI-05 96C4 Pc2 S 62E-03

9. set.n3 5.7'E is a.1 3.atf-St 5.2:E as 96CM 2au u.45E-01 1.19g-01 2.35E-02 0.0 5.51E-01 5.031-45

$4 Note: 0.0 nans insufficient data er cat ce dcse factor is <1.0E-ZO. ?Q

• 0btained from Regulatr 1 Guide 1.109 (March,1976) g r-9

.~ g jt e - < ~% i i []

TABLE 5* ' ADULT INHALATION DOSE.~. ACTORS (mrcm/pci inhaled) NUCLIO. 50NE lIvCR total 903Y THYROID

• t}NEf (UNG o!-(LI 1H 3

0.0 1.3dE-07 1.3at-07 1.3aE-07 1.3aE-07 1.3aE-07 1 '3 ;E-0 7 SSE 10 1.9'C-04 3.06E-05 a.46E-06 0.0 0.0 2.23E-03 1.37E-05 6C la 2.28E-06 a.27!-17 c.27!-17

.27!-07 s.2 t-07 a.??f-01 a.27E

• 7 74 13 6.2/i-J9 a.2Ti-39 n.2;E-09 h. 21 E -w d o.27E-04 o.21E-04 3.dit-Vi 9F 18 4.71E-07 0.0 5.20E-08 0.0 0.0 0.0 9.22E-09

.33? #5 11Na 22

1. 3 0 F -0 5 1.35?-a5 1.31!-15 1.34T-05

?.3ff-c5 ' 10f-94 IE N A 24 1.sii-06 1.3 i-Os

1. sci-Jo 1.o55-05

1. hie-03 1.bii-06 1.oYi-Gs ItP 32 1.65E-04

9. 6 S E-0 6 6.27E-06 0.0 0.0 0.0 1.0*E-05 Pi ca 41 3.53E-05 0.0 c.13E-36 3.0 0.3 0.0

2..* 4 ! -0 7 21aC un 5.515-05 1.0ii-04 3.11i-05 0.0 1.00E-02 0.0 3.231-05 2cCR 51 0.0 0.0 1.25!-08 7.aaE-09 2.!SE-09 1.50!-06 8.15E-07 25MN Sa 0.0 a.oSE-os 7.87E-07 0.0 1.23i-04

?.75E-0: 4. s 7 E .T. - 25'N S o-0.0 ,1.5ti-10 2.24i-11 0.0 1.35E-10 1.1:i-03 2.:3E v3 26FE 55 7.6 2 E-0 6 3.43E-05 9.01E-06 0.0 0.0 9.95E-05 7.34E-Os 26FE 59 1.a7E-06 3.:7E-il ?.3?! ^6 c.0 e.0 1.2?E-oc 2.35E-n5 TT CO 51 0.0 3.356-03 a.35E-06 0.0 4.0 a.32f-05 3.43i-G3 27CO SS 0.0 1.9EE 2.59E-07 0.0 0.0 1.16E-ca

.33E-0$

27CO 60 0.0 1. cE-a6

1. 9 5'i-o s 0.0 0.0 7.c?!-03 3.9eE-a5 2SMI 59

u. cot-co 1.aei-co o.17E-07 0.0 0.0 6.21E-0$

t.iti-ci 28NI 63 5.40E-05 3.92E-06 1.2:E-06 0.0 0.0 2.23E-05 1.67E-cd .28NI 65 1.92E-10 2.52E *t t 1.'ci-11 0.0 4.0 7.01E-47 1.54E=?$ 'T 29CO au 0.0 1.a3E-to 7.oad-11 0.0 5.76E-10 1.491-G1 e.12i-c3 30ZN 65 4.05E-06 1.29E-05 5.52E-06 0.0 S.62E-06 1.09E-0a

s. 3E-03 30ZN Se4 1.02E-oc 2.:5?-no 7.!c!-to 0.0 1.s't-a=

?.3ci-Os 1.715-05 30ZN o9 u.2aE-12 2.131-12 5.oiic13 0.0 5.2iE-12 a.15i-ci 2.J.;-09 345E 79 0.0 3.83E-07 6.09E-05 0.0 s.69E-07 a.uSE-05 3.33E-Os 355R 82 0. ~0 0.0 1.oof-as n.o 0.0-n.0 1.30e-03 ~ 358R 63 0.0 0.0 3.01E-05 0.0 0.0 0.0 2,901-04 355R Sa 0.0 0.0 3.9tE-08 0.0 0.0 0.0 2.05E-13 358R SS 0.0 0.0 1.An!-os e.3 1.0 0.0 0.0 1.6*E-05 7.35E=on 0.a 0.0 0.0 2.06E-Og 37RS So 0.0 9.57E-06 3.21t-06 0.0 0.0 0.0 2.8tE-07 37RB 87 0.0 37RS 88 0.0 2.agr-aa p,aqg-as o.a o.0 n.0 a.18E-19 37R8 69 0.0 3.21E-08 2.125-04 0.0 0.0 0.0 0,0 355R 59 3.80E-05 0.0 1.09E-06 0.0 e.0 1.75E-Os a.37E-oS 33SR 10 1.2:T-02 1.0 7.67!-00 n.n n.0 t.20E .3 9.02E-a5 365W 91 1.9-E-09 0.0 3 u9E-10 0.0 0.0 a.92E-06 2.:4i-;5 355R' 92 6.43E-10 0.0 3.64E-11 0.0 0.0 2.06E-06 5.3!E-0$ 39Y 90 2.415-07 0.4 7.0t!-69 3.0 0.0 2.125-05 4.32E-05 g 397 911 3.2eE-11 0.0 1.27E-12 J.0 0.0 2.etE-07 1.noi-la l 39r 91 5.7aE-Os 0.0 1.55E-06 0.0 0.0 2.13E-Da a.stE-05 I

• 0btainedfromRegulatoryGuide1.109(March,1976) ss s

9h KOte: 0.0 reans insufficient data Or that the d:se factor is <l.CE-20. S C 9 ~ R / / ii c u i . ~~ /3

..(. TABLE 5* (Continued) NtCIIDE 3c ft t.IVE1 TtT71L 303T *~47?.013 KI NIY LCtG C -I.II 3.77E-11 c.3 0.0 1.96E-Ch 9.191-06 397 93 1.16C-05 3.2 3.26E-10 3.0 0.0 6.07E-0$ 5.27E-35 39Y 92 1.29E-09 3.0 g 40ZR 93 5.2?E-05 2.*?f a6 ?,37 ?--? % 0.C 1.!!*-65 ?.13i-45 t.5??-04 e02R 95 1.3dE-05 4.33E-?h 2.eti-os 1.0 S.11E-cd 2.22E-Gd 1.$9E-05 40ZR 97 1.21E-05

2. 5E-09 1.13E-o9 0.0 3.71E-09 9.85E-06 6.5aE-05 41NB 93M 3.10E-05 f.?!i=^5 2.aci-06 p.2 1,1tE-SS 1.it!-35 2.3*E-03

~ 41.N a 95 1.15E-ca i.17E-07 5.2si-07 C.J 9.67E-01 m.32E-05 1.30i-45 41NS 97 2.7aE-11 7.33E=12 2.561-12 0.3 S.!!E-12

3. ace-07 3.025-05 4290 93 0.0

?.177-96 1.17!-04 3.3 3.55! a7 5.tti-05 3.7:E-35 4290 99 3.G 1.51E-36 2.o7E-09 0.0 3.34E-03 1.1;i-95 3..si ~5 43fC 99M 0.0 3.boE-13 c.63E-12 3.0 5.52E-12 9.56E-05 5.2:E-37 437C 99 0.0 2.63E-0* t.37E-?s 3.: 5.SSE-07 1.61!-04 ?.54E-06 43iC 101 0.0 1.521-15

7. 3 a i-t u' J.0 1.35E-13 2.iii-do e..

442U 103 1.9tE-07 _0. 0 8.23E-05 0.0 7.29E-07 b.32E-05 1.. E-05 anRU 105 9.4fi=11 3.0 3.ac?-tt 9.1 1.27!-10 1.35i-06 e.3 I-36 44RU 10s 4.34E-93 Q ~. 1.091-0o 0.0 1.bli-05 1.1ti-03 a. .a 45RH 105 9.2sE-10 6.73E-10 a.a3E-10 0.3 2.36E-09 2.c1E-06 1.09E-05 46PO 107 3.0 9.27E-?4 5.???-30 3.5 5.57E-07 4.3*i-46 7.0s0 07 / 4673 109 0.o u.63E-10 1.16E-10 0.3 2.35E-09 .:ii-03 1.:J -75 5..cE-0 3.71E-05 ' (,,, ' 47AG 1101 1.35E-06 1.25!-06 7.c3E-07 4.0 2.36E-05 ) 47AG 111 s.25!-OS t.73E-09 a.=7!-se 3.0 5.7ai-09 ?.3ai-n3 2 ?-:-C5 esto 3r5M 0.3 1.5=E-ou u.uri-vo 0.J 1.111-64 2.;^C-04 .5+:-02 48CO 115M 0.0 2.a6E-05 7.95E-37 3.3 1.93E-05 1.76E-03 2.3CE-05 50SN 123 3.:2E-05

6. 3 6 E -9 7 9.a?? a7 s.6st-or 0.0

?.S*!-ca 3.421-05 s$05N 125 1.1: -03 3.;3i-05 1.03E-04 1.5ii-0$ o.3 7.-2E-05 o.a.i-c5 50SN 12b 1.53E-Os 2.1!E-es 6.30E-06 1.23E-06 0.0 1.17E-03 1.59E-05 5158 12: 3.scE-os 7.Iti-a9 1.55!-?+ c.4:!-0= 0.0 3.10E-Ou 5.c=E-os 5158 125 d.231-93 3.4;E-04 2.oof.0t' 7.Jss-vi 0.0 2.15E-G4 1.cs--05 5158 12h m.50E-07 8.13E-39 1.62E-07 2.75E-09 0.0 9.53E-05 6.0:E-05 5153 127 3.3 T-09 7.???

• 9 t.?7?-04 3.o7?-to 0.0

?.nsi-n5 3.77E-c5 1 52iE 1254 4.21E-07 1.9t!-07 5.$ci-Oe 1.31E-01 1.555-06 3.421-05 5. 35-93 52TE 127M 1.5tE-06 7.02E-07 1.86E-07 c.1:E-07 5.72E-06 1.20E-04 1.57E-05 52TE 127 1.75E-to 3.03?-ft 1.37E-t? .3??-13 5.37 -tn m.tSE-07 .:7E-cs i 52iE 1293 1.225-06 5.$45-17 1.aai-o;

.30E-01 u.5tE-a=

g,-5:-da 4.i.c-v3 52TE 129 6.22E-12 2.99E-12 1.55E '2 c.37E-12 2.34E-11 2.42E-07 1.96E-06 .!? -.35 5. 5 -Os 52TE 13tM S.7Ji-08 5.:5? as

1. t t i-c o t.aar-03 1.asi-se 52iE 131 1.391-12 7.4;E-:3 4.ust-13 1.tJE-12 5.3s5-12 1.74E-07 2.--i-04 52TE 132 3.25E-07 2.64E-08 2.02!-0a 2.37E-05 1.52E-c7 3.60E-05 6.372-05 52TE 't33w 7.?4?-t?

5.sJE-e? ?.toi-!? 6.?? -t ! 3.7:t-tt 9.StE-07 3.:5E ^9 52iE 13% 3.6SE-12 3.22E-12 1.57E-12 '3.4ui-12 2.tdC-11 u.341-01 2.3.:-ve j 532 129 2.a6E-06 2.11E-06 6.9 t E-O' 5.55E-03 s.SaE-os 0.0 2.22E-07 I 531 t30 5. 7 3 E -o ? 1.s!E as s. % ' f i7 ?.19?-92 7.sti a6 p.- e.6tE-07 531 131 3.15E-os 2.a/E-Co 2.5t!-co 1.aiE-0) 1.3/E-os 0.5 7.dsi-01 531 132 .1.45E-07 4.072-07 1.a5E-07 5.uSE-05 6.n9E-07 0.0 5.38E-Qa =

• 0btained from Regulatory Guide I.T09 (March,1976)

}g\\ 9\\% r s s 9 11 n7 I I c. / 14c ~

Page 3 of 4 TABLE 5* (Continued) 1:cC:,1cr sorc I;Iv!.?. 7trIA:. 30DY 7ET%31:3 E7MIT f.13C G'.-Il.I 53I 133 1.02E-06 1.26E-06 5.67E-07 3.6bE-44 3.25E-06 0.0 1.09E-06 532 13a s.06E-04 g,g6E-37 7.10E-05 2.A7!-05 3.a:E-07 0.0 1.26E-10 531 135 1.36E-07 a.7cE-e7 3.77i-07 1.17E-os 1.3cE-e6 0.0 6'.56E-07 55C5 1346 1.sws-9e 3.2Lt-:d 1.72i-od 0.? 1.s3E-06 2.961-39 7.5ci-va 55CS 13a a.67E-05 1.06E-04 9.11E-05 0,0 3.60E-05 1.22E-05 1.30E-06 55CS 135 1.26E-05 1.2Si a5 6.SsE-16 9.0 5.!!E-06 1.575-c6 2.!!E-17 55CS 13s

4. HSE-as 1.33 -02 1.341-05 1.0 1.c7E-05 1.395-Oo i.de:- se 55CS 137 5.96E-05 7.77E-05 5.36E-05 0.0 2.7aE-05 9.: 1E-06 1.05E-06 55CS 133 e.1:E-09 7.77E':=

c.08E-os n.0 6.0tE-as 6.07E-Os 2.33E-13 55C5 139

2. 5 e s -0 6-

i. sis -a s t.35i-01 0.0 3.0$E-0$

2.5-:-iv 0.J 56BA 139 1.17E-10 2.32E-!J 3.c2E-12 0.0 7.reE-la a.70E-or 1.12E-47 568A 120 a.*eE-06 6.!3E

• o 3.2t!-07 4.0 2.coE-no 1.So?-0:

2.7I!-*5 5632 lut 1.236-11 4.d11-1) 4.20E-13 0.0 s.755-15 2.-2i-01 1.-:i-17 56BA 1u2 3.29E-12 3.3eE-15 2.C7E-13 0.0 2.*6E-15 1.29E-07 0.0 57LA 1:0 a.3cE-ce 3, 7E as 5,73E-a, n,0 q,0 g,7eg-a5 5.73E-09 57LA 141 5.3-E-10 1.and-10 2.71i-11 3.0 0.0 1.35E-os 7.3;d 57LA 142 8.5cE-11 3.SSE-11 9.65E-12 0.0 0.0 7.92E-07 2.6sE-07 SSCE tot 2.;of-06 .6:E-46 1.9tE-07 0.0 7.53E-07 s.52E-65 f.5 i-15 56CE tc3 s.32E-03 1.72t-04 1.91I-Qa 0.a

.nor-09 9.sti-co

2. sit-05

, _,f SSCE tan a.2cE-os 1,7;E-ca 2.30E-05 0.0

1. ate-os 9.73E-Ga 1.02E-ca 59Pa las

.17E-06 s.68!-o7

5. toe-03 a.0 2.70E

.7 3.5tE-05 7.5 E-05 599R gga j, Jet-12 1,$3(-32 3,9((-[3 Q.0 d 31(-]3 1.27E-Oi

2. cit-td 60NG 147 6.59E-07 7.62E-07

.56E-25 0.0 4.a5E-07 2.76E-45 2.16E-05 6tPM 107 9.37F-05 7.97T-86 3.t*E-06 n.0 1.20E-95 6.htE-45 5.54E-06 61PM 16d1 9.ecE-16 2.5-i-06 1.9-E-un 0.0 3.55E-06 2.1-4-sd 4.16t-vi 61P8 ga8

3. sue-07 S.37E-08 3.20E-Qa 0.0 1.20E-07 3.01E-05 5.50E-05 6tPM ta9

!.a:E-0M 2.87E-on 1,ooE-no 0;o o.19E-Oo 7.22E-0% 2.50?-05 61Pn 151 S.50E-09 1.4di-0* 7.21E-10 e.0 2.55E-00 3.14E-93 2.00t-ei 625M 151 S.59E-05 1.a!E-05 3.55E-os 0.0 1.66E-05 a.c6E-45 3 2SE-ch 6.'SM 153 t.7 a t-0

• 1.2?E-05 1.0a!-00 n.0 a 5st-no s.tSE-46 1.58F-05 Eliu 152

2. 3 6. E - 0 4 5.

01-05

u. lee-05 0.0 3.35E-0a 3.63E-03 1.'4L-vi 4

63 E t' 154 7.20E-on 9.10E-05 6.Jt!-05 0.0 a.36E-0a 5..g5E-Qa

3. ace-05 63EU 155 1.ntE-Os 1.u1E-05 o.2tE-06 0.0 6.5SE-15 c.37E-05 5.95F ^s 636u 15.

1.93E-co 1.aod-00 2.40E-07 0.0 9.95E-07 5.57E-05 a.5GE-05 65.T 5 160 2.21E-05 0.0 2.75E-66 0.0 9.10E-06 1.02E-ca 2.68E-05 67HO 166M 1.37E-0a 1.05E-os 9.00E-05 0.0 1.57E-Qa 3

E-na t.Sof-c5 lun g61 a.235-04 z 03L-ng g,1;L-10 0.0 n,0 1,125-qu d,5 h s -:,1 7aW 185 1.95E-07 b.a7E-08 6.SIE-09 0.0 0.0 5.57E-05 1.07E-05 7aW 187

1. 0 6 E-6 9, 9.PST-*a

.t.? -to 0.0 0.0 3.63E-a6 1.out-ce 62P8 210 2.osE-3.72i-03 8.17E-ou 0.0 2.12E-02 2.635-0d 3.33 -63 838I 210 0.0

1. 5.9 E -0 6 1.32E-07 0.0 1.92E-05 1.11E-03 2.95E-05 SAPO 210' 3.97E-On 8.60E-Qa 9.56E-05 0.0 -

2.95E-03 3.taE-02 4.19E-05 1 s -9, J l

• 0btained from Regulatory Gu.ide 1.109 (March,1976) 4e\\

T i rf % l' ) \\%g v ,"3 9 />,. +

Dose Calculations Due to Noble Cases 3.11.2.2 Noble Gases - Dose Calculations T. Method A: Real Time Meteorological Input (Normal Mode) The air dose in unrestricted areas due to noble gases released in gaseous effluents from each reactor at the site shall be determined by using the following expressions: (a) During any calendar quarter, for gama radiation: gf,g Atj [(x/Q)jev ijv]' ""d E 0 D = 110 M g During any calendar quarter, for beta radiation: n E g3 g 3 [x/Q)3gy $3y], and Q D = 110 N I At j=1 (b) During any calendar year, for gamma radiation: n- =110fM At3 [(x/Q)3gy j3y], and Q D j ay During any calendar year, for beta radiation: n E Atj [(x/Q)j0v ijv] 0 D = 110 N I gg g j_1 where: the total beta air dose in sector 6 from gaseous effluents D = OS n for the total time period E Atj, in mrad. j=1 the total gama air dose in sector 0 from gaseous effluents 0 = 0y n for the total time period I Atj, in mrad. 11 mea ~ 1 ' j=1 th the length of the j time period over which (x/Q) and Q. At = I are averaged for all gaseous releases, in hours. 3n 43 For batch releases, no time period At. shall be more than I hour; J for continuous releases, no time perioa At shall be more d than a week.

the 'ir dose factor due to beta emissions for each Il = I ider.iified radionuclide, in mrad /yr per pui,'m3 (Table 3). the average atmospheric dispersion factor for the time (x/Q)3gy= period atj in sector 0, from all vent release points at the site, in sec/m3 When atj is greater than 1 hour, the average shall be based on observations of wind speed and atmospheric stability taken at least every hour during atj. The turbine building steam jet air ejector is considered a ground-level ralease at all times. The plant vent is a mixed-mode release (elevated at timer,, ground level at times, and mixed at times). However, for ease of impbmentation, the licensee may cunsider the plant vent to be a ground level r@.ase anc' calculate (x/Q)3gy values using the following equation. ~ (X/Q)jev = k lg gy/u L = 2.03/r r gy gz j,[ 2 I =(a + 0.5h z y 3 subject to the condition ~f .44 so E a z z The values of L are provided in Table 6 for the site boundary and food pathways. gy = the vertical standard deviation of the plume for the o applicable atanspheric stability class (Pasquill Category) z determined at least hourly, for the distance r during the time e period atj. the distance from the midpoint between the vent stacks to r = ~ 0 the receptor for each sector 6, in meters, provided in Table 6. the average wind speed determined at least hourly, during time = u-period atj in sector 0, at a height of 10 meters for vent releases, in m/sec. the recirculation factor accounting for spatial and temporal k = B variations in air flow. For noncontinuous releases, its value is unity. For cor.tinuous raleases, see figure 1 for correction factor. the height of the tallest adjacent structure, which is the s b = y containment building (=40 m). 1!' NO

Since the plant vent is actually a mixed-mode release, when these effects are taken into consideration, (x/Q) is calculated using methods described in Regulatory Positions C.l.c, C.2)$! C.2.b, and C.2.c of Regulatory Guide 1.111 (March 1976). As an alternative method, the dispersion factor may be calculate using values from joint frequency tables sunrarizing hourly meteorological observations during release period. ]1 ~ '71 i i O h e - e e S e D 9 e e ,9 e O

memmmercremmmmmm occooGoccccccooo I i 8 i I I I O I 8 9 9 'I I I I tal kl he u kJ Las tal tal LJ td i.J (J t J t4J LJ hl & <n CD 'D O* @* C, t"'l m o C er e O' cc CD \\M e t!\\ tts /m -== tti 4 4 4 If tf. e *= V V 0 e e e e e e e o e e e o ee e e rm N C 7 t'~ h I< < < i Os t~ rm > 0 O rm e l t Y a i a D T.tr.@ f tt'Tth D D D D D D m @ e ccccccccoeccocco D l*1 I I I I I I I I I I I I I l t.J ha 141014. td td 1414 IJ ta.! 1414 td td taJ rm G. C &, C:. Ce X *~ r~ C'. o c o T T. rm- - - e C a,e c. g C. c. c. c. c e.e e e e e

e. e o e o e e.e e e

• C.to O W 4 < T.@ Wtt)V.Lt1 4 < m W I

I I I l s a i 1f tf \\f V tf V V V Ll' V tf tf V tf ff V ccccccccocccocco l'9 I I I I I I I I I I tel i I t tan taJ td taJ t.J tJ ta.J taa hJ he td W tal tal ts ta) C.9-r~ (~ Q corm 4 4 4. rm em C1 O t'* V* C*.== - 7 ?.== Vs A sf*==.-= C* 7==== g . e e e e e e e e..

e. e e e 4 l4 4 4 4 4 4 t*' t**. t". '4 4 4 '4 <? <

8 l l s e s @ tt" t[ tb 7 tf tr t[. t[' @ t[** tt) @ @ LII @ c c c o.C C C C c o c c c o o c I I I I'l I I I I I I i 8,8 I 1 k ts ta.14 ka t.a La a h> taa tae t.e t4J tu te L., LaJ N I 4 t'1 f*) t. 4 @ (" O O @ ("'. r". 4 =C (*) t"1 m gg a t-== ~ e. t* t' .<a e D e.

• em.t~ e * *==

ee e e e e

e. e e e e e ee e e e un H

tS M t* ("..f'" (" (9 N N (\\ (" (') t'1 t". (5 (" y l 6 l I i I 6 e g sn til tr.tn'f tr */ V D tf tr tr 1r tfu tr tf M = p H ct C C C c' c c : cocccccco C I e I e I I I e I l e I g i i I U ' td ts.8 tal I.63 L. W 'J kt (de td tai la tal ta a 10 Lu 2 gg e, tv tv tv r. m ft..t" P V N (V "O c. N N ,Y p p (L. It' 11' tr. Ce *D.r *% N N tt' tre %J W t!% tf. C .C U C.4 U e e e e e e e e e e e e e be >e e n e e. - e y .,= m e-e== e en e Q G o m Q D J c o c o o o o o c,clo c ele,C.c. l U N Z o M p. o

=

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e. e e e; e e e e e e,e e e o e e

- -. -,..-. e - -. - c. -- ak~ s c e ej e e og e e e e e e e e e e e e o o o o o o o o o o;o o o o o c la 0 Lt' tn in O Ci tta,- -* --* LD tn 0.0 Lt1 in U m N44 4 N N q 4 4 D 4 4 N 'tU 4 4 ~ e= ee - e= e.~ e em 6 .e.= =ee Hm C') m sa Q e l o e 8 hl LaJ ht taJ 3 3 7 3 cd IZ taJ 7. (A nas m m 3 tt! 232 C i t-* O I ll: ~4 n.a.J tal ha m'tl% tti Lfs m 3 **

• .5 2.'

l &O I e. b I w l l O .e e m .g s g ~~ FS I s e = = -. i .2 O

~ ~ TABLE 6 (CONTINUED) s M MMERS FARLEY NUCI: CAR PLANT VALUES OF L 0v ' LIMITING FOOD PATHWAY DISTANCE -2 L ~V D FOOD PATHWAY 0 g VENT ^ PASQUIL,L CATEGORY >)hifAn u wvig DIRECTION DISTANCE (M) A B C O E F C-N 4020.. 5 05E-07 5.05E-07 2 38r-06 6.2SE-06 8.80E.06 1 43E-05 P.02r-05 ~ NNE 3860. 5 26E-07 5.P6F-07 7 55F-06 6.67E-06 9.3PE-06 1.RIE-05 2.13r-05 NE 3700. 5.49E-07 5.49E-07 2 75F-06 7.13E-06 9.91E-06 1 49E-05 2.74r-Os Er:E 3860. 5.26E-07 5.P,6E-07 2 55r-06 6.67E-06 9.3PF-06 1.91E-05 2 13r-05 E 4340. 4 6AE-07 4.68F-07 ?.08F-06 5.53E-06 7.8HF-06 1 29E-05 1.94r-05 ESE 4810. 4 20E-07 4.POE-07 1 73F-06 4.6SE-06 6.75F-06 1 12E-05 1.61r-05 SE 5470 3.71E-07 3.71F-07 1 39F-06 3.81E-06 5.64F-06 9.46E-06 1 37r-05 -- SSE 7240 2.80F-07 2.90E-07 8.50F-07 2.43E-06 3.76F-06 6.48E-06 9.99r-06 -5 5610. 3.61E-07 3.61E-07 1 32F-06 3.64E-06 '3.41F-06 9 10E-06 1.32r-05 ' SSW 2090 9.71E-07 2.30E-06 7 74r-06 1.77E-05t 2.37E-09 3.64E-05 4.45r-05 54 1970. 1 05E-06 2.93E-06 R.97F-06 P.01F-05 2.69E-05 3.06E-05 9.14r-05 wSW 1490. 1 40E-06 6.0SF-06 1 52r-05 3 13E-05 4.17E-05 5 98E-05 7.ser-05 1440. 1 40E-06 6.05F-06 1 52F-05 3 13E-05 4.17F-Os S.P8E-05

7. Gar-Os r.

ty wNw 33A0. 6.01E-07 6.60E-07 3 22F-06 4.24E-06 1.13E-05 1 80E-05 2.91c-05 y w Ne 4500 4 51E-07 4 51E-07 1 95r-06 5.2hE-06 7.4HE-06 1.P3E-05 1.'6r-05 N N,# 3220. 6 30E-07 7.66E-07 3 50E-06 8.90E-06 1.21E-05 1.91E-05 2.66F-05 This table snay be updated based on annual land census results :as required in STS Section 3.12.2. Hote: . Note: hv = 40m

9 cgc@u g.- I i P- =a@ 3 3 _s ~ Oo@ aos5,.u<op8 0 1 1 n 4 b 1 0 1 0 b 1 i j_ ta n e i l d f r o m 1 R 0 e g u l O D a P I S R t E o N TA r T \\ 'I; ( y N E R C G R E u A s ( i I F K d N I

e G

I L C U 1 O R O R E M 1 R 1 E E C T 1 1 1 E 1 R \\ ( M ,0 S t1 a ) r F i c A C L ,h 1 TO 0 1 R 9 7 6 ) i i l 1 0 0 S' 3

3.11.2.2 Noble Gases - Dose Calculations (Cont'd) II. Method B: This method is to be used when the real time meteorolocical inputs are no t applicable. The dose contribution due to rioble 95;n in gaseous effluents shall he calculated using the following expressions: (a) During any calendar quarter, for gama radiation: 4fMj (x/Q)y 4, and D = 3.17 x 10 Q During any calendar quarter, for beta radiation: D = 3.17 x 10-2 N$ (x/Q)y $, and Q g (b) During any calendar year, for gama radiation: D = 3.17 x 10-2 M (x/Q) Q, and ..a During any calendar quarter, for beta radiation: D = 3.17 x 10-2 Ng $ )y j Q g where: D = the total gamma air dose from gaseous effluents, in mrad. D = the total beta air dose from gaseous effluents, in mrad. g (x/Q)y = the highest value of the annual average atmospheric dispersion factor at the site boundary, for all sectors, in sec/m3 The value of 7.5 x 10-7 sec/m3 will be used for the plant vent and 1.2 x 10-5 sec/m3 for the turbine building steam jet air ejector. Q = the release of noble gas radionuclides, i, in gaseous effluents 9 in pCi. Releases shall be cumulative over the calendar month or quarter as appropriate. Other terms are defined in Specifications 3.11.7.1. .] j o,- ~

3.11.2.3 Radiciodines and Radioactive Materials in Particulate Form - Dose Calculations I. Method A: Real Time Meteorolooical Inout (Normal Mode) The dose to an individual from radiofodines and radioactive materials in par-ticulate form, with half lives greater than 8 days, in gaseous effluents released from each reactor at the site to unrestricted areas (see Figure 5.1-1) shall be the following expressions: (a) During any calendar quarter: n $[j ei atj[WQgjy] D = 110 R I g g7 j=1 (b) During any calendar year:

• n

$[j gg R I Atj [W Q443y] 110 D = er j=1 where: the cumulative dose from gaseous effluents to the total body D = m, Or or an organ T of an individual in sector e for the total n time period I At, in mrem. j j=1 the dose factor for each identified radionuclide into R = ei in mrem /yr per pCi/m3 for tritium and in mrem /yr sector 0,2-sec for other isotopes, from Table 7. per pCf/m For sectors with real pathways dthin 5 miles from the point at the midway between the Unit 1 plant vent stack and the Unit 2 plant vent stack, the values of R have beer, determined based g on these ' eal pathways. For sectots with no real pathways within 5 miles from the point at the midway between the Unit 1 plant vent stack and the Unit 2 plant vent stack, R '. has been determined assuming that all pathways exist at the $-mile ~ distance. dispersion parameter for calculation of food pathway dose, 9 = 9 W9 = (x/Q)3gy for tritium (H-3) W9 = (D/Q)jev for other isotopes. factor which eauls 1 if wind in hour t is into sector e and is f = 0

g equal to 0 otherwise.

s. ]} ? I y

(D/Q)jev sector 6, in meters-{ areal) for the tir;e period Atj, hour, relative deposition in = . When 4tj is greater than one relative deposition shall be based on observation of atmospheric stability taken at least every hour during Atj. (D/Q)3gy = 0.3 2 E( ) Ove

• Ovg 3

re width (arc length) of 22.5 degree sector at dis :ance r ' 0.3927r = g e in meter. relative deposition rate (linear) at distance r in 6 = sector e for stability class of interest and reIease Ove height h, in meter-l. (Figures 3, 4, 5) 6 relative deposition rate (linear) at distance r for = Ovg stability class of interest and for ground levek release, in me_ter-l. (Figure 2) E fraction of effluent entrained in building wake. = ], E=1 if (W,/u ) s 1 rh sh e s y E = 2.78-1.58 (W,/ii,) if 1 5 (W,/IT,) $ 1.5 E = 0.3-0.06 (W,N ) if 1.5 5 (W,/IT,) s 5.0 e E=0 if (W,/IT,) > 5.0 /* "/ t

Tk 17 i P/ Dose Factor R ~ Oi h mrem /yr por pCi/m for H-3 ~ 2 mrem /yr per pCi/m -sec for all other isotopes / FARLEY NUCLEAR PLANT SECTOR N NNE NE ENE E ESE SE SSE 7240. DISTANCE ~ 4020. 386d. 3700. 3860. 4340. 4830. 5470. n (m) r Radior.uclide F-3 4 29E-03 4 29E-03 4 29E-03 4.P9E-03 4 29E-03 4 29E-03 4.20E-03 4.29E-03 CR c1 2 10E+01 2 10E+01 2.10E+01 2 10E+01 7.InE+nt 2 10E+01 2.InE+01 2.10E+01 MN-94 2.7DE+07 2 70E+03 2.70E+03 P.70E+03 7.70E+n3 2 70E+03 2.7pE+01 2.70E+03 FE-59 1.54F+03 3.54E+03 3.59F+03 3.59E+03 1 59E+n3 3 59E+01 3.50E+03 3.59E+03 CD-SA 1 51E+03 1 51E+03 1 51E+03 1 51E+03 1 51E+03 1 51F+03 1.51E+03 1.51E+03 CO-60 2 95E+04 2 95E+04 2 95E+04 ?.95E+04 p.95E+04 2 95E+04 2.95E+04 2 9SE+04 7N-65 5 11F+01 5 11E+03 5 11E+01 5 11E+n3 5 11F+03 5.llE+03 5.1)E+0'l 5.llE+03 sR-S9 4 24E+04 4.P4E+04 4 24F+04 4 24E*04 4.24E+04 4.P4E*04 4.24E+04 4 24F+34 SR-40 1 60F+06 1 60E+06 1 60E+06 1 60E+06 1 60E+n6 1 60E+06 1.6nF+06 1 60E+06 79-05 3 62E+07 3 62E+03 3 62E+03 3 62E+03 3 62E+n3 3 62F+03 3.6?EkO3 3 6/E+03 I-111 2.53E+04 2.53E+04 2.53E+04 P.53E+04 P.53E+04 2.53F+04 2.51E+04 2.53E+04 I-133 3.89E+02 3.A9E+02 3.89F+02 3.89E+02 7.89F+02 3.89E+02 3.84E+02 3.39r+0? ~~ } CS-134 3 94E+04 3.94E+04 3.94E+04 1 94E+04 7.94E+n4 3.94E+04 3.94E+04 3.94E+04 CS-136 4 87E+02 4 87E+02 4.87E+02 4 87E+02 4.87E+02 4 67E+02 4.87E+02 4.H7E+02 e CS-137 4 19E+04 4 19E+04 4 19E+0.4 4 19E+04 4 19E+04 4 19F+04 4.14E+04 4 19E*04 a PA-140 4 18F+02 4 18E+02 4 18F+02 4 18E+02 4 18E+02 4 18E+0? 4.InE+0? 4.lhE+02 CO CE-141 6 86E+02 6.86E+02 6.86E+02 6 86E+02 6.86E+n2 6.86E+02 6.86E+02 6 86E+02 Note: 1) This table may be updated based on annual land census results as required in STS Section 3.12.2.

2) Sector is wind into distance in~ met'eYs.

~ '~ ~ TABLE 7 ( JNTINUED) Dose Factor R 91 mrem /yr por pCi/m for H-3 mrem /yr por pCi/m -sec for all other isotopes FARLEY NUCLEAR PLANT SECTog s ssw sw wsw w wnw - nw nnx CISTANCE 5630. 2090. 1930. 1450. 1450. 33n0. 4500. 3220. r, (m) r l Radier.uclida P-3 4.29E-03 4.29E-03 4.29E-03 4.29E-03 4.20E-03 4.29E-03 4.24E-03 4.29E-03 CR- :51 2 10E+01 2 10E+01 2 10E+01 2 10E+01 2 10E+01 2.10F+01 2.InE+01 2 10E+01 PN-54 2 7aE+03 2.7nE+03 2 70E+03 2 70E+03 p.70E+n3 2 70E+03 2.7aE+03 2.70E+n3 FE-59 3.59F+03 3 59E+03 3.54F+03 3 59E+03 1.59E+03 3 59E+03 3.59E+03 3.59E+03 CO-98 1 51F+03 1 51E+03 1 51E+03 1 51E+03 1 51E+03 1 51E+03 1.SIE+03 1 51F+03 CO-60 2 95F+04 2 95E+04 2.95E+04 2 95E+04 p.95E+04 2 95E+04 2.9sE+04 2.95E+04 7N-AS 5 11E+03 S.11E+03 5+11F+03 5 11E+03 5 11E+03 S.11E+03 S'.11E+03 S.11F+03 SR-a9 4 24F+04 4 24E+04 4.24E+04 4 24E+04 4.24E+n4 4 24E+04 4.24E+04 4.24E+04 99-90 1 60F+06 1.60E+06 1.60F+06 1 60E+06 1 60E + 06' 1.60E+0A 1.6nE+06 1 60E+06 7R-95 3 62F+03 3.62E*03 3.62F+03 3 62E+03 7.62E+03 3 62F+03 3.6PE+03 3.62F+03 1-131 2 53E+04 2.53E+04 2.S~3F+04 2 53E+04 P.53E+04 2.53E+04 2.51E+04 2.53E+04 I-133 1 89E+02 3.89E+02 3.89E+02 3 89E+02 7.89E+n2 3.69E+02 3.89E+02 3.H9E+02 CS-134 3 94E+54 3 94E+04 3.94F+04 3 94E+04 3.94E+04 3 94E+04 3.94E+04 3.94F+04 CS-136 4.87F+0? 4.87E+02 4.87E+02 4 87E+02 4.87E+02 4.87E+02 4.87E+02 4.87E-02 3 CS-137 4.19E+04 4 19E 04 4.19Et 04 4 19E+04 4.19E+04 4.19E+04 4.14E.04 4.19E+04 p s w PA-140 4.18F+02 4.18E+02 4.18E+02 4 18E+02 4.18E+02 4.18E+02 4.1HE+n2 4.18E+02 CE-]41

• 6 86E+02 6 86E+02 6.86E+02 6 86E+02 6.86E+02 6.86E+02 6.86E+02 6.86E*02 Note: 1) This table may be updated based on annual land census results as required in STS Section 3.12.2.

2) Sector is wind into. distance in meters-

10-3 f i 10-4 \\ 's g x s x e x d x e N 5 \\ H< N c: Ns $ 10-5 NA h x i o ~. o. N 'A g I s P N \\l d. \\ c: 10-6 \\ i t -,j ~ 10-7 1 i 0.1 1.0 10.0 100.0 200.0 PLUME TRAVEL DISTANCE (KILOMETERS) Relative Deposition for Ground Level Releases (All Atmospheric Stability Clacs) FIGURE 2* ll a0

• 0btained from Regulatory Guide 1.111 (March,1976)

10-3 i 1 i UNSTABLE (A,B,C) 'II 104 ,A k_j I f l v E A e / m Al F / h, W 1 1 E /9 L'% ]. f / \\\\ NEUTRAL .5 / Nhx s - lll l t N w NN c: NEUTRAL (D) NN z Q STABLE; O y 10-5 f' N l V o /A 4 \\ / /' h \\ o. W v / NN N C l / l .2: / / \\ 1- / / N h s 3 m s I 1 STABLE (E,F,G) i 1 I 10-6 \\ 4 4 r r l I I 1 e Jl 10-7 10.0 100.0 200.0 0.1 1.0 PLUME TRAVEL DISTANCE (KILOMETERS)

• Relative Deposition for 30m Releases (Letters denote Pasquill J,

i. t~ 'l Stability Class) lI 'i FIGURE 3*

• 0btained from Regulatory Guide 1.111 (March,1976)

J' 10A 1 7 p UNSTABLE (A,B,C) l f K / N / \\ f 10-5 / NEUTRAL (D) Qg a ,/ / ' ' 't m / / i W H / NN a / \\%_ UNSTABLE 5 / \\ s / A N m / NEUTRAL N. N \\ $ 10-6 \\g G l s, O / 16 o l/ m f } P / j f m C 10-7 STABLE (E,F,G) k ~ \\ ~~ / / }., f 10-8 i 0.1 1.0 10.0' 100.0 2000 t PLUME TRAVEL DISTANCE (KILOMETERS) . Relative Deposition for 60m Releases (Letters denote Pasquill t Stability Class) FIGURE 4* 1 1 ' ~~ ' 7 i.

_vc l

• 0btained from Regulatory Guide 1.lll(March,1976)

.oA l _ UNSTABLE (A,B,C) \\ / N \\ N A 10-5 y i N~ f ^A f w C / / NN NEUTRAL (D)- NN y f f / / \\,N W w 2 w e ) / \\ \\ I \\ N W /,f \\ \\ __ ~ 4r l N K / 2o 10-6 E V / i W l O 2 ,l Y,/ = N w STABLE (E,F,G) NO DEPLET!ON I 10-7 l / ' ~ ~ l f.: I] E 10-8 o,3 1.o 10.0 100.o 200.o i ;; PLUME TRAVEL DISTANCE (KILOMETERS) Relative Deposition for 100m Releases (Letters denote Pasquill s, i Stability Class) FIGURE 5* aJ

• 0btained from Regulatory Guide 1.111 (March,1976)

3.11.2.3 Radio' iodines and Radioactive Matt.-ials in Particulate Form - Dose Calculations (Cont'd) II. Method B: This method is to be used when the real time meteorolocical inputs are not available. The dose contribut':on due to radiciodines, radioactive materials in par-ticulate form, with half lives greater than 8 days, in gaseous effluents shall be calct. lated using the following expressions: (a) During any calendar quarter: Dg = 3.17 x 10 fR W Q, and (b) During any calendar year: Dg = 3.17 x 10 fR$ W Qj where: xJ Dy = the cumulative dose from radiciodines and radioactise materials in particulate form with half lives greater than 8 days in gaseous effluents in mrem. 2 R9 = the dose factor for each identified radionuclide, i., in m - (mrem /yr) per pCi/sec or mrem /yr per pCi/m3 from Table 8. the annual average dispersion paraineter for estimating the dose W = to an individual at the critical location: W = (x7ii) for the inhalation pathway, in sec/m3 from Table 9a. -2 W = (i)M) for the food and ground plane pathways, in meters from Table 9b. Q= the release of radiciodines, radioactive materials in particulate, with half lives greater than 8 days in gaseous effluents. Releases shall be cumulative over the calendar month or quarter as appropriate. l1 a /, ,4

4 TABLE 8 FARLEY NUCLEAR PLANT PATHWAY DOSE FACTORS ~DUE TO RADIONUCLIDES OTHER THAN NOBLE GASES Heat Ground Plane Cov-Milk-Infant Leafy Vegetables U" Pathway Pathway Pathway Pathway y RL Bj. 4 RA RA 2 2 2 2 (mrem /yr (m. mrem /yr (m. mrem /yr (m

• mrem /yr (m.mren/yr 3

Radionuclide per uCi/m ) per pCi/sec) per pC1/sec) per pC1/sec) per uCi/sec) e-3 1.12F+03 ?.13E+02. O. P.3dE+03 ?.47E+0? CR-sl 1.70E.04 4.9AE+0S 5 31F+06 9.7SE+06 1 63E+06 uN-54 1.57F+06 7.60E+06 1 56F+09 ,3 70E*07 S.3FE+07 FE-49 1.27F+06 6.44E+08 3 09E+08 4.01E+08 1.loE 08 o.49F+07 4 27E+08 7 01F+07 4.ScE*07 CO-5A 1.10F+06 CO-60 7.0hF+06 3 61E+08 2 44E+10 ?.25E+04 1.icF+04 7 t4-69 9.94F+0S 1 0SF 09 8 2HE+08 1 99E+10 ?.2tE+0B SR-a9 P.15F+36 4.99F+08 2.42E+04 1 2HE+10 S.34E+09 so-9p 1.01E.04 1.plE+10 0. l.19E+11 4.8st.10 7R-95 2.23F+06 6.09E+08 2 73E+0A 8.76E+0S 1.13F.0a I-111 1.6?F+07 ?.60F+09 1 01E+07 4.9sE+11 2.0AE.10 1-1T3 3.84F+06 6.4SE*01 1 43E+06 4.62E+09 3.HPE.01 CS-134 1.'OlF+06 1.4?E+09 7.70E+09 6.37F+10 1.4AE 09 CS-136 .l.71E+0S 4.06E*07 1 64E*08 6.61E+09 1.6nE.0d CS-137 9.0SF+0S 1.27F+09 1.lSE*10 9.7SE*10

1. AGE +09 FA-140 1.74F 06 S.00E+07 2 26E+07

?.75E+0a P.03E+08 CE-141 S.43E+0S 1 4SE+07 1 4bE+07 l.43E*07 8.99E+07 O m.4 ) e

FARLEY NUCLEAR PLANT TABLE. 9a DISPERSION PARAMETER (X/Q)_ Distance to the control location, in miles ~ Sector 0-0.5 0.5-1.0 1.0-1.5 1.5-2.0 2.0-2.5 2.5-3,0 3.0-3.5 3.5-4.0 4.0-4.5 4.5-5.0 N 2.2E-06 6.9E-07 4.8E-07 3.lE-07 2.lE-07 1.6E-07 1.2E-07 1.0E-07 9.lE-08 7.6E-08 NNE 2.4E-06 7.4E-07 4.8E-07 3.0E-07 2.0E-07 1.5E-07 .l.lE-07 9.2E-08 8.3E-08 6.8E-08 NE 2.2E-06 7.lE-07 4.8E-07 3.lE-07 2.0E-07 1.6E-07 1.2E-07 9.6E-08 8.6E-08 7.lE-08 ENE 1.lE-06 4.0E-07 3.2E-07 2.2E-07 .l.5E-07 1.2E-07 9.3E-07 7.6E-08 6.9E-08 5.7E-08 E 1.2E-06 4.0E-07 3.0E-07 2.0E-07 1.4E-07 1.lE-07 8.5E-08 7.lE-08 6.4E-08 5.4E-08 ESE 1.5E-06 4.5E-07 3.0E-07 ,2.0E-07 1.3E-07 1.lE-07 8.lE-08 6.7E-08 6.lE-08 5 lE-08 SE 2.SE-06 6.6E-07 4.4E-07 2.8E-07 1.9E-07 1.5E-07 1.lE-07 9.5E-08 8.6E-08 7.3E-08 SSE 2,8E-06 7.6E-07 5.3E-07 3.5E-07 2.4E-07 2.0E-07 1.5E-07 1.3E-07 1.lE-07 9.8E-08 '.5E-06 6.6E-07 4.9E-07 3.4E-07 2.4E-07 2.0E-07 1.5E-07 1.3E-07 1.2E-07 1.0E-07 2 S SSW 2.0E-06 6.7E-07 5.lE-07 3.3E-07 2.3E-07 1.8E-07 1.4E 07 1.2E-07 1.2E-07 1.0E-07 SW 2.0E-06 8.lE-07 6.4E-07 4.0E-07 2.7E-07 2.lE-07 1.6E-07 1.3E-07 1.3E-07 1.lE-07 WSW l.9E-06 7.4E-07 5.9E-07 3.7E-07. .2.5E-07 1.9E-07 1.6E-07 1.3E-07 1.lE-07 9.3E-08 W l.7E-06 6.lE-07 5.0E-07 3.2E-07 2.lE-07 1.7E-07 1.7E-07 1.3E-07 1.2E-07 9.7E-08 WNW l.4E-06 4.5E-07 3.4E-07 2.8E-07 1.9E-07 1.7E-07 1.7E-07 1.4E-07 1.2E-07 9.8E-08 NW 1.3E-06 4.3E-07 3.2E-07 2.2E-07 1.5E-07 1.4E-07 1.2E-07 1.2E-07 1.lE-07 8.7E-08 NNW l.7E-06 5.5E-07 4.0E-07 2.6E-07 l.8E-07 1.4E-07 1.lE-07 1.0E-07 9.4E-08 7.8E-08 Note: Values are based a the joint frequen a between 1971 and 1975. 6 m.M h 0* q 'g r> C3 Cs

lJ FARLEY NUCLEAR PLANT TABLE. 9h ~. DISPERSION PARAMETER (X/Q) ~~~ 9 Distance to the control location, in miles Sector 0-0.5 0.5-1.0 J.0-1.5 1.5-2.0 2.0-2.5 2.5-3.0 3.0-3.5 3.5-4.0 4.0-4.5 4.5-5.0 N 7.3E-05 1.3E-05 5.8E-06 2.9E-06 1.6E-06 1.2E-06 8.2E-07 6.lE-07 5.4E-07 4.2E-07 NNE 6.2E-05 1.lE-05 4.9E-06 2.4E-06 1.4E-06 1.0E-06 6.9E-07 5.lE-07 4.5E-07 3.5E-07 NE 5.9E-05 1.lE-05 4.7E-06 2.1E-06 1.3E-06 9.5E-07 6.5E-07 4.8E-07 4.2E-07 3.3E-07 ENE 5.3E-05 9.6E-06 4.2E-06 2.lE-06 1.2E-06 8.6E-07, 5.9E-07 4.4E-07 3.8E-07 3.0E-07 E 6.3E-05 1.lE-05 4.9E-06 2.4E-06 1.4E-06 1.0E-06 7.lE-07 5.2F-07 4.6E-07 3.6E-07 ESE 6.2E-05 1.lE-05 4.7E-06 2.4E-06 1.4E-06 1.0E-06 7.0E-07 5.2E-07 4.6E-07 3.5E-07 SE 9.5E-05 1.6E-05 7.2E-06 3.8E 2.lE-06 1.5E-06 1.lE-06 8.0E-07 7.0E-07 5.5E-07 SSE 1.4E-04 2.5E-05 1.lE-05 5.5E-06 3.2E-06 2.3E-06 1.6E-06 1.2E-06 1.lE-06 8.4E-07 S 1.5E-04 2.6E-05 1.2E-05 5.9E-06 3.4E-06 2.5E-06 1.8E-06 1.3E-06 1.2E-06 9.0E-07 SSW 9.8E-05 1.7E-05 7.5E-06 3.7E-06 2.2E-06 1.6E-06 1.lE-06 8.2E-07 7.2E-07 5.6E-07 SW 7.4E-05 1.3E-05 5.8E-06 2.9E-06 1.6E-06 1.2E-06 8.3E-07 6.lE-07 5.4E-07 4.2E-07 WSW 6.0E-05 1.lE-US 4.8E-06 2.3E-06 1.3E-06 9.6E-07 6.7E-07 4.9E-07 4.3E-07 3.3E-07 W 5.8E-05 1.0E-05 4.5E-06 2.2E-06 1.3E-06 9.2E-07 6.4E-07 4.7E-07 4.lE-07 3.2E-07 WNW 5.6E-05 9.9E-06 4.4E-06 2.2E-06 1.2E-06 8.9E-07 6.2E-07 4.6E-07 4.0E-07 3.lE-07 NW 5.9E-05 1.0E-05 4.5E-06 2.2E-06 1.3E-06 9.3E-07 6.4E-07 4.7E-07 4.2E-07 3.2E-07 NNW 6.6E-05 1.2E-05 5.2E-06 2.6E-06 1.5E-06 1.lE-06 7,5E-07 5.5E-07 4.9E-07 3.8E-07 Note: Values are based on the joint frequency data bet'..een 1971 and 1975. +==eh e g. I' - ) '4

(, i ~ FARLEY NUCLEAR PLANT TABLE 9c I ~' ~ . DISPERSION PARAMETER (D/Q) v Distance to the control location, in miles Sector 0-0.5 0.5-1.0 1.0-1.5 1.5-2.0 2.0-2.5 2.5-3.0 3.0-3.5 3.5-4.0 4.0-4.5 4.5-5.0 N 3.8E-08 .l.lE-08 5.0E-09 2.3E-09 1.3E-09

8. 7E-10 5.6E-10 3.9E-10 3.4E-10 2.5E-10 NNE 4.6E-08 1.3E-08 5.7E-09

.7E-09 1.4E-09 9.9E-10 6.4E-10 4.4E-10 3.8E-10 2.9E-10 NE 4.8E-08 1.3E-08 5.9E-09 2.8E-09 1.5E-09 1.0E-09 6.6E-10 4.6E-10 4.0E-10 3.0E-10 ENE 2.7E-08 8.2E-09 3.7E-09 1.7E-09 9.4.E-10 6.6E-10,4.2E-10 3.0E-10 2.6E-10 1.9E-10 E 2.9E-08 8.5E-09 3.7E-09 1.8E-09 9.5E-10 6.6E-10 4.2E-10 3.0E-10 2.5E-10 1.9E-10 ESE 3.3E-08 9.2E-09

4. 0E F '

l.8E-09 9.9E-10 6.9E-10 4.4E-10 3.lE-10 2.7E-10 2.0E-10 SE 5.3E-08 1.4E-08 5.9E-09 2.7E-09 1.5E-09 1.0E-09 6.5E-10 4.5E-10 3.9E-10 2.9E-10 SSE 5.lE-08 1.4E-08 6.2E-09 2.9E-09 1 SE-09 1.lE-09 6.8E-10 4.8E-10 4.lE-10 3.lE-10 S 4.9E-08 1.4E-08 5.9E-09 2.7E-09 1.5E-09 1.0E-09 6.5E-10 4.6E-10 3.9E-10 2.9E-10 SSW 4.3E-08 1.3E-08 5.8E-09 2.7E-09 1.5E-09 1.0E-09 6.4E-10 4.5E-10 3.9E-10 2.9E-10 SW 4.7E-08 1.5E-08 6.5E-09 3.0E-09 1.6E-09 1.lE-09 6.9E-10 4.8E-10 4.lE-10 3.lE-10 WSW 4.5E-08 1.5E-08 6.lE-09 2.8E-09 1.5E-09 1.0E-09 6.5E-10 4.5E-10 3.9E-10 2.9E-10 W 4.0E-08 1.2E-08 5.3E-09 2.5E-09 1.3E-09 9.0E-10 5.9E-10 4.lE-10 3.5E-10 2.7E-10 WNW 3.2E-08 9.4E-09 4.lE-09 2.0E-09 1.lE-09 7.3E-10 4.9E-10 3.5E-10 3.0E-10 2.4E-10 NW 2.8E-08 8.2E-09 3.6E-09 1.7E-09 9.lE-10 6.4E-10 4.lE-10 1.9E-10 2.5E-10 1.9E-10 NNW 3.2E-08 9.6E-09 4.4E-09 2.0E-09 1.lE-09 7.7E-10 4.9E-10 3.4E-10 3.0E-10 2'.2E-10 Note: Values are based on the joint frequency data between 1971 and 1975. o ~ e. . e \\ t i I' s t J CJ

-s (.! PARLEY NUCLEAR PLANT 'd TABLE 9 'DISPERSIONPARAMETERTF/ lit 9' ' Distance to the control location, in miles ~ Sector 0-0.5 0.5-1.0 1.0-1.5 1.5-2.0 2.0-2.5 2.5-3.0 3.0-3.5 3.5-4.0 4.0-4.5 4.5-5.0 N 2.5E-07 4.lE-08 1.5E-08 6.3E-09 3.3E-09 2,.2F-09 1.4E-09 9.8E-10 8.3E-10 6.lE-10 NNE 2.5E-07 4.lE-08 1.4E-08 6.3E-09 3.2E-09 2.2E-09 1.4E-09 9.7E-10 8.2E-10 6.0E-10 NE 2.5E-07 4.lE-08 1.4E-08 6.3E-09 3.2E-09 2.2E-09 1.4E-09 9.7E-10 8.2E-10 6.lE-10 ENE 1.7E-07 2.8E-08 9.8E-09 4.3E-09 2.2E-09 1.5E-09 9.8E-10 6.6E-10 5.6E-10 4.lE-10 E 1.7E-07 2.8E-08 9.8E-09 4.3E-09 2.2E-09 1.5E-09 9.8E-10 6.6E-10 5.6E-10 4.lE-10 ESE 1.8E-07 2.9E-08 1.0E-06 4.5E-09 2.3E-09 1.6E-09 1.0E-09 6.9E-10 5.8E-10 4.3E-10 SE 2.8E-07 4.5E-08 1.6E-08 'i. 5 E- 0 9 3.6E-09 2.4E-09 1.6E-09 1.lE-09 9.lE-10 6.7E-10 SSE 3.7E-07 6.0E-08 2.lE-08 9.3E-09 4.8E-09 3.2E-09 2.lE-10 1.4E-09 1.2E-09 8.9E-10 S 3.7E-07 6.0E-08 2.2E-08 9.4E-09 4.8E-09 3.3E-09 2.lE-09 1.4E-09 1.2E-09 9.0E-10 SSW 2.8E-07 4.5E-08 1.6E-08 7.0E-09 3.6E-09 2.4E-09 1.6E-09 1.lE-09 9.lE-10 6.7E-10 SH 2.6E-07 4.3E-08 1.5E-08 6'.6E-09 3.4E-09 2.3E-09 1.5E-09 1.0E-09 8.6E-10 6.3E-10 WSW 2.3E-07 3.8E-08 1.3E-08 5.8E-09 3.0E-09 2.0E-09 1.3E-09 9.0E-10 7.6E-10 5.6E-10 W 2.lE-07 3.4E-08 1.2E-08 5.3E-09 2.7E-09 1.9E-09 4.2E-09 8.3E-10 7.0E-10 5.lE-10 WNW l.8E-07 3.0E-08 1.lE-08 4.6E-09 2.4E-09 1.6E-09 1.lE-09 7.2E-10 6.0E-10 4.4E-10 tTW l.7E-07 2.8E-08 1.0E-08 4.4E-09 2.3E-09 1.5E-09 1.0E-09 6.8E-10 5,7E-10 4.2E-10 NNW 2.lE-07 3.5E-08.l.2E-08 5.4E-09 2.8E-09 1.9E-09 1.2E-09 8.3E-10, 7.0E-10 5.2E-10 Note: Values are based on the joint frequency data between 1971 and 1975. +-4 k l I '..) CJ 'J

3.11.2.5 Dose Assessment for Environmental Radiation Standarf1 The Radiological Effluent Techilical Specification 3.11.2.5 specifies in the Acti:n th:t when the calculated doses associated with the efflu-ent releases exceed twice the limits of any one of the Specifications 3.11.1.2, 3.11.2.2 or 3.11.2.3, it is required to prepare and submit a Special Report to the Commission and limit subsequent releases such that the dose or dose co:::itmen't to the critical individual from all uranium fuel cycle sources is limited to S 25 mrem to the total body or any organ (except the thyroid, which is limited to 575 mrem) over 12 consecutive months. ~ The dose assessment which will be described in a Special Report, shall include' dose contributions from direct radiation from the plant and its A variety of techniques is available for assessing this components. contribution. A simple calculation may be sufficient to demonstrate that the contribution is unimportant, or conditions may dictate more The most appropriate assessment technique will be complex analyses. ~ determined in the course of preparing the Special Report and will be documented in 'the Special Report. .. m

• R e

e e e e e e o k O.- 9 2.1

3.12.1 Radiological Environmental Monitoring Locations Table 3.12-1 and Figures 3.12-1, 3.12-2, and 3.12-3 provide the Radiological Environmental Monitoring points' locations. 3/- "1 i. 6 e

TABLE 3.12-1 RADIOLOGICAL ENVIRONMENTAL MONITORING LOCATIONS EXPOSURE PATHWAY AND/OR SAMPLE SAMPLING IDCATIONS SAMPLE IDENTIFICATION 1. AIRBORNE a. Particulates Indicator Stations: Plant Entrance-Nearest PI - 1101 Residence (WSW-0.9) South Perimeter (SSE-1.0) PI - 0701 North Perimeter (N-0.8) PI - 1601 Cdatrol Stations: Blakely, Ga. (NE-15) PB - 0215 Dothan, Ala. (W-18) PB - 1218 b. Radioiodine Indicator Stations: Plant Entrance - Nearest II - 1101 Residence (WSW-0.9) South Perimeter (SSE-1.0) II - 0701 North Perimeter (N-0.8) II - 1601 Control Stations: Blakely, Ga. (NE-15) IB - 0215 Dothan, Ala. (W-18) IB - 1218 ..b e J ~ Id I I i

P \\ TABLE 3.12-1 (Contd), EXPOSURE PA'DI' JAY AND/OR SAMPLE SAMPLING LOCATIONS SAMPLE IDENTIFICATI0ri 2. Direct Radiation Indie ; tor Stations: Plant Perimeter (NE-1.0) RI - 0201 ( E-0.8) RI - 0401 (SSE-1.0) RI - 0701 (S 1.0) RI - 0801 (SW-G.9) RI - 1001 (WSW-0.9) RI - 1101 (NNW-0.9) RI - 1501 (N-0.8) RI - 1601 Control Stations : Blakely, Ga. (NE-15) RB - 0215 Neals Landing, Fla. RB - 0718 (SS E-18) Dothan, Ala. (W-18) RB - 1218 3. WATERBORNE a. Surface Indicator Station: Great Southern Paper WRI Intake Structure (River Mile-40) Control Station: Andrews Lock & Dam Upper Pier (River Mile-47) WRB b. Ground Indicator Station: Great Soutn.:rn Paper Co.Well (SSE-4) WGI - 0 7 Control S ta tion: Kings Court Trailer WGB - 12 Park (WSW-0.9) l' J l I I

TABLE 3.12-l (Contd) - EXPOSURE PATEWAY AND/OR AMPg SAMPLING LOCATIONS SAMPLE IDENTIFICATION c. Sediment Ir.dicator Station: Smith's Bend (River Mile-41) RSI 4. INGESTION a. Milk Indicator S tation s - Nane Control Station: Brooks-Silcox Dairy, Ashford, Ala. (WSW-10) MB-1110 b. Fish Indicator Station: Smith Bend (River Mile-41) Game Fish FGI Bottom Feeding Fish FBI Control Statio'* Andrews Lock & Dam Reservior (River M11e-47) Game Fish FGB Bottom Feeding Fish FBB c. Forage Indicator Stations: South Perimeter (SSE-1,0) FI - 0701 North Perimeter (N-0.8) FI - 1601 Cortrol Station: Dothan, Alabama (W-18) FB - 1218 l (' $ ' ] O_, I I I

1 L 7i 8#-- .E T 7 16 71-75 WAKE N SPLIT-NORMALg \\1 NNW

NNE, X/Q=1.016 3

J a,, SEC/ M \\ m 2 1 NW NE F f '* t. a. ' ~ '. * 'a f**'" ENE WNW / m. / f j 5 f Y$ E , % " w.w.' ~ g, iLT. k E!E I' ' jwsw .'i ( I \\ c~ l .,[8 1 , ~, go \\ SW 6 \\'N.e g!**s7. SE 4 \\ 's 7,'s,. M, l., 7 8 SSE 't SW A \\. I,, I l.../ ')' o I i,, i A_ + FORAGE S A MPLIN G ( A TLD SAMPLING @ TLD. PARTICULATES 8 IODINE SAMPLING j;

J zu,ur FIGURE 3.12-1 I N D IC ATO R SAMPLING LOC ATIONS FOR AIRBORNE ENVIRONMENTAL RADIO ACTIVITY AT THE FARLEY NUCLE AR PL ANT.

e l37l=lSTS urtsorological Date I woke Sph - Normal e - I (A) X/Q s 1.0 IO~I sec/m ( e 2 (8) X/Q

• 2.0 10~8 se Im 2

(C) X/O = 1.0 80-e.., m { ^ f 1 t 16 l' . lS - N s NNE Blekel NNW s g[ 44 2 Meadlead NW g NE 3 MIUM 33 c.i. 6. 3 edNW ENE .f <.-u. "g fd A 1[ o" b E W : j x Ashfort r. w'SW S ESE to 1 I k3 s,.. g

q so 6

S* SE El nwa 9 C'"'* *G 7 , SSW g SSE o.mesavne gg'"sJ gg,?-gi s j e L t Cw ,. s e *

• a seats em m.te s

+ FORAGE SAMPLINO FIGURE 3.12-2 CONTROL SAMPLING LOCATIONS FOR. A TLD SAMPLING D PARTICUL ATES AND AIRBORNE ENVIRONMENTAL RADIOACTlvlTY g E S A M PLIN G I IN THF FARLEY NilCLE AR PL ANT ARE A.

e. r-COLUMBIA 52 52 ANDREWS LOCK & DAM FARLEY 10 MILES / $ l 49 [ EARLY COUNTY D@ GEORGIA ASHFORD i' Nl I = _ _. _ l2 l 1 GO,RDON ; "*e, e HOUSTON COUNTY 1 ALABAMA Q INDICATOR STATIONS CONTROL STATIONS E SURFACE AND GROUND WATER SURFACE WATER AND FISH E FISH AND SEDIMENT GROUND WATER i)i 7 s FIGURE 3.12-3 INDICATOR ANO CONTROL SAMPLING LOCATIONS FOR WATERBORNE ENVIRUNMENTAL RADIOACTIVITY IN THE FARLEY NUCLEAR PLANT AREA.}}