ML20237K067
| ML20237K067 | |
| Person / Time | |
|---|---|
| Site: | Hope Creek  |
| Issue date: | 08/05/1987 |
| From: | Nichols J Public Service Enterprise Group |
| To: | |
| Shared Package | |
| ML20237K032 | List: |
| References | |
| PROC-870805-06, NUDOCS 8709040177 | |
| Download: ML20237K067 (93) | |
Text
. _ - _.
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OFFSITE DOSE CALCULATION MANUAL FOR PUBLIC SERVICE ELECTRIC AND GAS COMPANY HOPE CREEK GENERATING STATION Revision 8 f
(-
June 1987 Approval:
SORC Chairman:
h /[6[<[-'
Date:
l' ' 7 Mtg.#
T 7 - /c ('
U(3 y
Rev. 8 B709040177 870828 PDR ADOCK 05000354 R
(']
LIST OF EFFECTIVE PAGES U
Revision 0 - April, 1985 Revision 1 - December, 1985 Revision 2 - Jar.aary, 1986 Revision 3 - August, 1986 Revision 5 - November, 1986 Revision 6 - February, 1987 (Entire Manual)
Revision.7 - March, 1987 Revision 8 - June, 1987 Page No.
Rev. No.
Page No.
Rev. No.
Title 7
2 7
6 7
8 7
9 7
10 7
11 7
12 7
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13 7
V 31 7
32 7
39 7
52 7
53 7
54
,7 55 7
A-3 7
A-4 7
A-5 7
B-3 7
B-4 7
B-5 7'
5
'8 13 8
38-59 8
oidleAppendices (A-E) 8 s
A
. p
,'s r
't I
z HOPE CREEK GENERATING STATION OFFSITE DOSE CALCULATION MANUAL I
TABLE OF CONTENTS
' INTRODUCTION.
1
.l.0-LIQUID EFFLUENTS j
1.'l-~ Radiation Monitoring l
Instrumentation and Controls 2
1.2 Liquid Effluent Monitor Setpoint Determination 3
- 1. 2.1 - Liquid Effluent Monitors 4
i
~
1.2.2 Conservative Default Values 5
~1.3 Liquid Effluent Concentration Limits -10 CPR 20 7
.l.4 Liquid Effluent Dose i
Calculations - 10 CFR 50 8
1.4.1 Member of the Public Dose -
Liquid Effluents 8
O, 1.4.2 Simplified Liquid Effluent Dose Calculation 10 1.5 Liquid Effluent Dose Projection 12 2.0 GASEOUS EFFLUENTS 2.1 Radiation Monitoring Instrumentation and Controls 13 2.2 Gaseous Effluent Monitor Setpoint Determination.
15 2.2.1 Plant Vent and FRVS Monitors 15 2.2.2 Conservative Default Values 18 2.3 Gaseous Effluent Instantaneous Dose Rate Calculations - 10 CFR 20.
19 2.3.1 Site Boundary Dose Rate -
Noble Gases.
19 2.3.2 Site Boundary Dose Rate -
Radioiodine and Particulate 21
/(
~
2.4 Noble Gas Effluent Dose I
Calculations - 10 CFR 50 24 i
rN
{
(,)
- 2. 4. l' UNRESTRICTED AREA Dose -
{
Noble Gses 24 i
2.4.2 Simplified Dose Calculation j
for Noble Gases 25 2.5 Radioiodine and Particulate Dose Calculations - 10 CFR 50 27 2.5.1 UNRESTRICTED AREA Dose -
Radiciodine and Particulate 27 3
2.5.2 Simplified Dose Calculation for i
Radioiodines and Particulate 29 j
2.6 Gaseous Effluent Dose Projection 31 3.0 SPECIAL DOSE ANALYSIS j
i 3.1 Doses Due to Activities Inside the SITE BOUNDARY 33 3.2 Doses to MEMBERS OF THE PUBLIC -
40 CFR 190 34 3.2.1 Effluent Dose Calculations 35 3.2.2 Direct Exposure Determination 35 i
f~^)
4'.0 RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM 36
(_
4.1 Sampling Program 36 4.2 Interlaboratory Comparison Program 37 TABLES 1-1 Parameters for Liquid Alarm Setpoint Determination 39 I
l-2 Site Related Ingestion Dose Commitment Factors, Aio 40 1-3 Bioaccumulation Factors (BFi) 42
{
2-1 Dose Factors for Noble Gases 45
)
2-2 Parameters for Gaseous Alarm Septoint Determination 46 2-3 Controlling Locations, Pathways i
and Atmospheric Dispersion for Dose Calculations 47 2-4 Pathway Dose Parameters -
Atmospheric Releases 48 Ov 1
\\
A-1 Calculation of Effective MPC A-4 B-1 Adult Dose Contributions Fish and
("%
Drinking Water Pathways B-4
)
C-1 Effective Dose Factors C-5 D-1 Infant Dose Contribution Fraction of Dose D-4
-D-2 Fraction of Dose Contributions by Pathway D-4 APPENDICIES Appendix A - Evaluation of Conservative, Default MPC Value for Liquid Effluents A-1 Appendix B - Technical Basis for Effective Dose Factors - Liquid Radioactive Effluents B-1 Appendix C - Technical Basis for Effective Dose Factors - Gaseous Radioactive Effluents C-1 Appendix D - Technical Basis for Effective Dose Parameters - Gaseous Radioactive Effluents.
D-1 Appendix E - Radiological Environmental Monitoring Program
. Sample Type, Location and Analysis.
E-1 l
l m
I l
e
(~(_
Hope Creek ODCM 7/29/87
~-)
\\
HOPE CREEK GENERATING STATION OFFSITE DOSE CALCULATION MANUAL i
INTRODUCTION l
l The Hope Creek Offsite Dose Calculation Manual (ODCM) describes the methodology and parameters used in:
- 1) the calculation of radioactive liquid and gaseous effluent monitoring instrumentation alarm / trip setpoints; and 2) the calculation of I
radioactive liquid and gaseous concentrations, dose rates and cumulative quarterly and yearly doses.
The methodology stated in this manual is acceptable for use in demonstrating compliance with 10 CFR 20.106, 10 CFR 50, Appendix I and 40 CFR 190.
More conservative calculation methods and/or conditions (e.g.,
TN.
(
)
location and/or exposure pathways) expected to yield higher i
x/
i computed doses than appropriate for the maximally exposed person i
may be assumed in the dose evaluations.
The ODCM will be maintained at the station for use as a reference
]
guide and training document of accepted methodologies and calculations.
Changes will be made to the ODCM calculation methodologies and parameters as is deemed necessary to ensure reasonable conservatism in keeping with the principles of 10 CFR 50.36a and Appendix I for demonstrating radioactive effluents are ALARA.
I 1
NOTE:
As used throughout this document, excluding acronyms, I
words appearing all capitalized denote the application of j
definitions as used in the Hope Creek Technical 1
Specifications.
r~h 1
Rev. 8
1
' Hope Creek ODCM 7/29/87 l
\\
l
-f~)
l.0 Liquid Effluents
- 1. l' Radiation Monitoring 7 instrumentation and Controls The liquid effluent monitoring instrumentation'and j
controls at Hope Creek for controlling and monitoring normal radioactive material releases in accordance i
with the Hope Creek Radiological Effluent Technical Specifications are summarized as follows:
- 1) Alarm (and Automatic Termination) - Liquid Radwaste Discharge Line Monitor provides the alarm and automatic termination of liquid (RE4861) radioactive material releases from the liquid waste management system as required by Technical Specification 3.3.7.9.
- 2) Alarm (only) - The Cooling-Tower Blowdown Effluent Monitor (RE8817) provides an Alarm function only for releases into the enviroment as required by Technical Specification 3.3.7.9.
Liquid radioactive waste flow diagrams with the applicable, associated radiation monitoring i
instrumentation and controls are presented in Fiqure 1-1.
2 Rev. 8 m--___m____ _ -
Hope Creek ODCM 7/29/87 (3
k 'l 1.2 Liquid Effluent Monitor Setpoint Determination Per the requirements of Technical Specification 3.3.3.8, alarm setpoints shall be established for the liquid effluent monitoring instrumentation to ensure that the release concentration limits of Specification 3.11.1.1 are met (i.e.,
the concentration of radioactive material released in liquid effluents to UNRESTRICTED AREAS shall be limited to the concentrations specified in 10 CFR 20, Appendix B, Table II, Column 2, for radionuclides and 2.0E-04 uCi/ml for dissolved or entrained noble gases).
The following equation
- must be satisfied to meet the liquid effluent restrictions:
C (F + f)
(1.1) r-c<
(
N f
where:
C = the effluent concentration limit of Technical Specification (3.11.1.1) implementing the 10 CFR 20 MPC for the site, in uCi/ml.
c = the setpoint, in uCi/ml, of the radioactivity monitor measuring the radioactivity concentration in the effluent line prior to dilution and subsequent release; the setpoint, represents a value which, if exceeded, w'ald result in concentrations exceeding the limits of 10 CFR 30 in the UNRESTRICTED AREA.
3 Rev. 8
Hope Creek ODCM 7/29/87 i
- -m f = the flow rate at the radiaton monitor location, in volume per unit time, but in the same units as F,
below F = the dilution water flow rate as measured prior to the release point, in volume per unit time.
[ Note that if no dilution is provided, c 1 C.
Also, note that when (F) is large compared to (f), then (F + f) = F.]
1.2.1 Liquid Effluent Monitors The setpoints for the liquid effluent monitors at the Hope Creek Generating Station are determined by the following equation:
j
g MPCe
- CTBD
]
v._,/
SP 1
+ bkg (1.2)
RR i
with:
(( Ci I
MPCe (1.3) i
=
C (Ci / MPCi) where:
i SP
= alarm setpoint corresponding to the maximum allowable release rate (uC1/ml)
MPCe = an effective MPC value for the mixture of radionuclides in the effluent stream (uCi/ml)
Cd.
4 Rev. 8
)
Hope Creek ODCM 7/29/87 c\\~)
Ci
= the concentration of radionuclides i in the liquid effluent (uCi/ml)*
l
- NOTE:
The concentration mix must include the mest recent composite of alpha emmitters, 1
Sr-89, Sr-90, Fe-55, and H-3 as
~
per Technical Specification 3.11.1.1.
_j MPCi = the MPC value corresponding to radionuclides i from 10 CPR 20, Appendix B, Table II, Column 2 (uCi/ml)
CTBD = the Cooling-Tower Blowdown Discharge (gal min) rate at the time of release f
= the liquid effluent release rate (gal / min) g-sg s-)
bkg the background of the monitor (cpm)
=
The radioactivity monitor setpoint equation (1.2) remains valid during outages when the Cooling-Tower Blowdown discharge is potentially at its lowest value.
Reduction of the waste stream flow (RR) may be necessary during these periods to meet the discharge criteria.
Procedural restrictions prevent simultaneous liquid releases.
1.2.2 Conservative Default Values Conservative alarm setpoints may be determined through the use of default parameters.
Table 1-1 summarizes all current default values in use for Hope Creek.
5 Rev. 8
_________________________________J
Hope Creek ODCM 7/29/87 p)-'
They are based upon the following:
^\\
a) substitution of the effective MPC value with a default value of 1.9E-5 uCi/ml for radwaste releases (Refer to Appendix A for justification);
b) substitutions of the Cooling-Tower Blowdown discharge rate with the minimum average flow, in gal / min; and, c) substitutions of the effluent release rate with the highest allowed rate, in gal / min.
With pre-established alarm setpoints, it is possible to control the radwaste release rate (RR) to ensure the inequality of equation (1.2) is maintained under changing values for js MPCe and for differing Cooling-Tower Blowdown e-discharge.
i l
l I
i L) 6 Rev. 8
L l
l Hope Creek ODCM 7/29/87' l
l l (h.
! V l
1.3 Liquid Effluent Concentration Limits - 10 CFR 20 i
Technical Specification 3.11.1.1 limits the concentration of radioactive material in liquid effluents (after dilution in the Cooling-Tower Blowdown Discharge System) to less than the concentrations as specified in 10 CFR 20, Appendix B, Table II, Column 2 for radionuclides other than noble gases.
Noble gases are limited to a diluted concentration of 2.0E-04 uCi/ml.
Release rates are controlled and radiation monitor alarm setpoints are established as addressed above to ensure that these concentration limits are not exceeded.
However, in the event any liquid release results in an alarm setpoint being exceeded, an evaluation of compliance with the concentration limits of Technical r
Specification 3.11.1.1 may be performed using the k
following equation:
[Ci RR 1
(1,4) j
\\ MPCi /
(CTBD + RR l
where:
Ci
= actual concentration of radionuclides i as I
measured in the undiluted liquid effluent 1
(uCi/ml)
MPCi = the MPC value corresponding to radionuclides i from 10 CFR 20, Appendix B, Table II, Column 2 (uCi/ml)
= 2E-04 uCi/ml for dissolved or entrained noble gases I
= the actual liquid effluent release rate (gal / min) 0)
CTBD = the actual Cooling-Tower Blowdown discharge
(
at the time of release (gal / min) 7 Rev. 8 i
Hope Creek ODCM 7/29/87 i &
4 kJ~
1.4 Liquid Effluent Dose Calculation - 10 CFR 50 1
1.4.1 MEMBER OF THE PUBLIC Dose - Liquid Effluents Technical Specification.3.11.1.2 limits the dose or dose commitment to MEMBERS OF THE PUBLIC from radioactive materials in liquid effluents from Hope Creek Generating Station to:
- during any calendar quarter:
1 1.5 mrem to total body 1 5.0 mrem to any organ
- during any calendar year:
1 3.0 mrem to total body i
i 10.0 mrem to any organ 1
~s
\\~J Per the surveillance requirements of Technical Specification 4.11.1.2, the following calculation methods may be used for determining the dose or dose commitment due to the liquid radioactive effluents from Hope Creek.
8.35E-04 VOL Do = ----------------
- {,(Ci
- Aio)
(1.5)
CTBD i
where:
1 Do dose or dose commitment to organ
=
o, including total body (mrem) l l
l
/~%
k 8
Rev. 8 1
i
l Hope Creek ODCM 7/29/87
, g-)w site-related ingestion dose j
(
Aio
=
commitment factor to the total body or any organ o for radionuclides i (mrem /hr per
)
uCi/ml)
J average concentration of Ci
=
radionuclides i, in undiluted q
liquid effluent representative of the volume VOL (uCi/ml)
]
volume of liquid effluent VOL
=
released (gal) average Cooling-Tower dlowdown CTBD
=
discharge rate during release period (gal / min) conversion factor (1.67E-2 8.35E-04
=
hr/ min) and a near field dilution factor of 0.05 (refer
-(}
to Appendix B, Page B-4 for
\\#
definition).
The site-related ingestion dose / dose commitment factors (Aio) are presented in Table 1-2 and have been derived in accordance with a NUREG-0133 by the equation:
1.14E+05 ((UI BIi) +
Aio
'UP
- BPi)] DPi (1.6)
=
where:
Aio composite dose parameter for the total body
=
or critical organ o of an adult for radionuclides i, for the fish and invertebrate ingestion pathways (mrem /hr per uCi/ml) 1.14E5 conversion factor (pCi/uCi ' ml/kg per
=
hr/yr) adult invertebrate consumption (5 kg/yr)
(,
UI
=
9 Rev. 8
l Hope Creek ODCM 7/29/87 Ak-BIi bioaccumulation factor for radionuclides i
=
s in invertebrates from Table 1-3 (pci/kg per pCi/1) adult fish consumption (21 kg/yr)
UP
=
bioaccumulation factor for nuclide i in BFi
=
fish from Table 1-4 (pCi/kg per pCi/1)
DFi dose conversion factor for nuclide i for
=
adults in pre-selected organ, o, from Table E-ll of Regulator Guide 1.109 (mrem /pCi)
The radionuclides included in the periodic dose assessment per the requirements of i
Technical Specification 3/4.11.1.2 are those as identified by gamma spectral analysis of the liquid waste samples collected and analyzed per the requirements of Technical i
(,/
Specification 3/4.11.1.1, Table 4.11.1.1.1-1.
Radionuclides requiring radiochemical analysis I
(e.g.,
Sr-89 and Sr-90) will be added to the j
dose analysis at a frequency consistent with q
the required minimum analysis frequency of Technical Specification Table 4.11.1.1.1-1.
l 1.4.2 Simplified Liquid Effluent Dose Calculation 1
In lieu of the individual radionuclides dose assessment as presented in Section 1.4.1, the following simplified dose calculation equation may be used for demonstrating compliance with the dose limits of Technical Specification 3.11.1.2.
(Refer to Appendix B for the derivation and justification for this
()
simplified method.)
10 Rev. 8 I
Hope Creek ODCM 7/29/87 Total Body
<~s
/
\\
(,,)
5.40E+01 VOL
- [Ci (1.7)
Dtb
=
CTBD Maximum Organ 1.26E+02 VOL
- [Ci (1.8)
Dmax =
CTBD where:
conservatively evaluated total body Dtb
=
dose (mrem) conservatively evaluated maximum Dmax
=
organ dose (mrem) average concentration of Ci
=
radionuclides i, in undiluted liquid effluent representative of the volume VOL (uCi/ml)
()
volume of liquid effluent released VOL
=
(gal) i I
average Cooling-Tower Blowdown i
CTBD
=
1 discharge rate during release l
period (gal / min) conversion factor (1.67E-2 hr/ min) 5.40E+01
=
the conversative total body dose conversion factor (Cs-134, total body -- 6. 4 8E4 mrem /hr per uCi/ml),
and the near field dilution factor of 0.05 (See Appendix B).
1.26E+02 conversion factor (1.67E-2 hr/ min)
=
the conservative maximum organ dose conversion factor (Nb-95, GI-LLI --
1.51E6 mrem /hr per uCi/ml), and the near field dilution factor of 0.05 (See Appendix B).
DT l
i 11 Rev. 8 0
Hope Creek ODCM 7/29/87 1.5 Liquid Effluent Dose Projections
-~
(_)
Technical Specification 3.11.1.3 requires that the liquid radioactive waste processing system be used to reduce the radioactive material levels in the liquid waste prior to release when the 31-day projected
. doses exceed:
3.06 mrem to the total body, or 0.2 mrem to any organ.
l The applicable liquid waste processing system for maintaining radioactive material releases ALARA are the drain filters and deminerilizers as delineated in Figure 1-1.
I Dose projections are made at least once per 31-days-by the following equations:
('h
\\ssl i
(Dtb / d) 31d (1.9)
]
Dtbp
=
31d (1.10) i (Dmax / d)
Dmaxp
=
1 where:
the total body dose projection for current Dtbp
=
31-day period (mrem)
)
Dtb the total body dose to date for current
=
calendar quarter as determined by equation (1.5) or (1.7) (mrem)
)
the maximum organ dose projection for
)
Dmaxp
=
current 31-day period (mrem)
(
the maximum organ dose to date for current Dmax
=
calendar quarter as determined by equation j
(1.5) or (1.8) (mrem) d the number of days in current calendar j
=
quarter at the end of the release I
[G}
31d the number of days of concern
=
12 Rev. 8
Hope Creek ODCM 7/29/87 I IN 4\\.s) 2.0 Gaseous Effluents l
2.1 Radiation Monitoring Instrumentation and Controls The gaseous effluent monitoring instrumentation and controls at Hope Creek for controlling and monitoring normal radioactive material releases in accordance with the Radiological Effluent Technical Specifications are summarized as follows:
1)
Filtration, Recirculation, and Ventilation System -
The FRVS is maintained in a standby condition.
Upon reactor building isolation, the FRVS recirculation system recirculates the reactor building air through HEPA and charcoal filters.
Releases are made to the atmosphere via a reactor building vent or the South Plant Vent depending on
/3
(_j mode of operation.
Noble gas monitoring is provided by RE-4811A.
2)
South Plant Vent - The SPV receives discharge from the radwaste evaporator, reactor building purge, auxiliary building radwaste area, condensate demineralized, pipe chase, feedwater heater, and untreated ventilation sources.
Effluents are monitored (for noble gas) by the RE-4875B monitor.
3)
North Plant Vent - The NPV receives discharges from the gaseous radwaste treatment system (Offgas l
system) and untreated ventilation air sources.
i Effluents are monitored (for noble gases) by the RE-4573B monitor.
)
p 5v 13 Rev. 8
Hope Creek ODCM 7/29/87 A gaseous radioactive waste flow diagrams with the applicable, associated radiation monitoring instrumentation and controls are presented in Figures 2-1 and 2-2.
(*
l I
O O
J 14 Rev. 8 l
l
Hope Creek ODCM 7/29/87
./
i 5~/
2.2 Gaseous Effluent Monitor Setpoint Determination 2.2.1 Plant Vent and FRVS Vent Monitors Per t?.a requirements of Technical Specification 3.3.L.10, alarm setpoints shall be established for the gaseous effluent monitoring instrumentation to ensure that the release rate of noble gases does not exceed the limits of Specification 3.11.2.1, which corresponds to a
]
dose rate at the SITE BOUNDARY of 500 mrem / year j
to the total body or 3000 mrem / year to the
)
skin.
Based on a grab sample analysis of the applicable release (i.e., of FRVS, pipe chase, gasecus radwaste treatment system air, etc.),
j i
the radiation monitoring alarm setpoints may be established by the following calculation
-(,f~s) method.
The measured radionuclides concentrations and release rate are used to calculate the fraction of the allowable release i
rate, as limited by Specification 3.11.2.1, by j
i the equation:
i I
FRAC = [4.72E+02
- X/O
- VF *[(Ci
- Ki)] / 500 (2.1) 1 FRAC = [4.72E+02
- X/O
- VF *E(Ci (Li + 1.1 Mi))] / 3000 (2.2) j l
where:
fraction of the allowable release FRAC
=
rate based on the identified radionuclides concentrations and the release flow rate X/O annual average meterological
=
dispersion to the controlling site boundary location (sec/m3)
(-)
V l
15 Rev. 8 I
1 Hope Creek ODCM 7/29/87 l
l
/w,
' \\s ')
I ventilation system flow rate for VF
=
the applicable release point and monitor (ft3/ min) concentration of noble gas Ci
=
radionuclides i as determined by radioanalysis of grab sample (uCi/cm3) total body dose conversion factor Ki
=
for noble gas radionuclides 1 (mrem /yr per uCi/m3, from Table 2-1) beta skin dose conversion factor l
Li
=
for noble gas radionuclides 1 (mrem /yr per uCi/m3, from Table 2-1) gamma air dose conversion factor Mi
=
fm for noble gas radionuclides i k
(mrad /yr per uCi/m3, from s
Table 2-1) mrem skin dose per mrad gamma air 1.1
=
dose (mrem / mrad) 4.72E+02 conversion factor (cm3/ft3 *
=
min /sec) 500 total body dose rate limit
=
(mrem /yr) 3000 skin dose rate limit (mrem /yr)
=
Based on the more limiting FRAC (i.e.,
higher value) as determined above, the alarm setpoints for the applicable monitors may be calculated by the equation:
SP = [AF
- [Ci
/
FRAC)
+ bkg (2.3) 16 Rev. 8
Hope Creek ODCM 7/29/87
,~
%r where:
alarm setpoint corresponding to the S'i
=
maximum allowable release rate (uCi/cc) highest fraction of the allowable FRAC
=
release rate as determined in equation (2.2) background of the monitor (cpm) bkg.
=
administrative allocation factor for AF
=
the specific monitor (0.2 NPV, 0.2 SPV, 0.1 FRVS)
The allocation factor (AF) is an administrative control imposed to ensure that combined releases from Salem Units 1 and 2 and Hope Creek will not exceed the regulatory limits on release rate
/g from the s'te (i.e.,
the release rate limits of
's s/
Technical 6,scification 3.11.2.1).
- Normally, the combined AF value for Salem Units 1 and 2 is 0.5'(0.25 per unit), with the remainder 0.5 allocated to Hope Creek.
Any increase in AF above 0.5 for the Hope Creek Generating Station will be coordinated with the Salem Generating Station to ensure that the combined allocation factors for all units do not exceed 1.0.
17 Rev. 8
Hope Creek ODCM 7/29/87 l,s i
\\~/
2.2.2 Conservative Default Values i
A conservative alarm setpoint can be established, in lieu of the individual radionuclides evaluation based on the grab sample analysis, to eliminate the potential of periodically having to adjust the setpoint to reflect minor changes in radionuclides distribution and variations in release flow rate.. The alarm setpoint may be conservatively determined by the default values presented in Table 2-2.
i These values are based upon:
I the maximum ventilation (or purge) flow rate; g-a radionucide distribution adopted from ANSI (m
N237-1976/ANS 18.1 " Source Term Specifications", Table 5 and; an administrative allocation factor of 0.5 to conservatively onsure that any releases from Hope Creek do not exceed tha maximum allowable release rate.
For the noble gas radionuclides distribution from ANSI N237-1976/ANS 18.1 (Note Table C-1), the alarm setpoint based on the total body dose rate j
is more restrictive than the corresponding setpoint based on the skin dose rate.
The resulting conservative, default setpoints are presented in Table 2-2.
' Adopted from ANSI N237-1976/ANS-18.1, Source Term Specifications, Table 6 L-18 Rev. 8
l Hope Creek ODCM 7/29/87
\\
rn k
\\-,}
f 2.3 Gaseous Effluent Instantaneous Dose Rate Calculations -
]
l
.I 2.3.1 Site Boundary Dose Rate - Noble Gases i
Technical Specification 3.ll.2.la limits the dose rate at the SITE BOUNDARY due to noble gas releases to 1 500 mrem /yr, total body and i 3000 mrem /yr, skin.
Radiation monitor alarm setpoints are established to ensure that these release limits are not exceeded.
In the event any gaseous releases from the station results in an alarm setpoint being exceeded, an evaluation of the SITE BOUNDARY dose rate resulting from the release may be performed using the following equations:
(
Dtb = X/O * { (Ki
- Qi)
(2.4) s and Ds
= X/Q * [ ((Li + 1.lMi)
- Qi)
(2.5) where:
total body dose rate (mrem /yr)
Dtb
=
skin dose rate (mrem /yr)
Ds
=
atmospheric dispersion to the X/O
=
controlling SITE BOUNDARY location (sec/m3) average release rate of radionuclides i Qi
=
over the release period under evaluation (uCi/sec) 19 Rev. 8
~. _
Hope Creek ODCM 7/29/87
,r-ltd Ki total body dose conversion factor for
=
noble gas radionuclides i (mrem /yr per uCi/m3, from Table 2-1) beta skin dose conversion factor for Li
=
noble gas radionuclides i (mrem /yr per uCi/m3, from Table 2-1) gamma air dose conversion factor for Mi
=
noble gas radionuclides i (mrad /yr per uCi/m3, from Table 2-1) mrem skin dose per mrad gamma air dose 1.1
=
(mrem / mrad)
As appropriate, simultaneous releases from Salem Units 1 and 2 and Hope Creek will be considered in evaluating compliance with the release rate limits of Specification 3.ll.2.la, following any releases exceeding the above prescribed alarm
,,(_j setpoints.
Monitor indications (readings) may be averaged over a time period not to exceed 15 minutes when determining noble gas release rate based on correlation of the monitor reading and monitor sensitivity.
The 15-minute averaging is needed to allow for reasonable monitor response to potentially changing radioactive material concentrations and to exclude potential electronic spikes in monitor readings that may be unrelated to radioactive material releases.
As identified, any electronic spiking monitor responses may be excluded from the analysis.
,/ %
k%/
l 20 Rev. 8
Hope Creek ODCM 7/29/87
\\--
NOTE:
For administrative purposes, more conservative alarm setpoints than those as prescribed above may be imposed.
However, conditions exceeding these more limiting alarm setpoints do ot necessarily indicate radioactive material release rates exceeding the dose limits of Technical Specification 3.11.2.la.
Provided actual releases do not result in radiation monitor indications exceeding alarm setpoint values based on the above l
criteria, no further analyses are required for demonstrating compliance with the limits of Specification 3.11.2.la.
l Actual meteorological conditions concurrent with j
(,,)
the release period or the default, annual average dispersion parameters as presented in Table 2-4 may be used for evaluating the gaseous effluent dose rate.
j 2.3.2 Site Boundary Dose Rate - Radiciodine and Particulate Technical Specification 3.ll.2.lb limits the dose rate to < 1500 mrem /yr to any organ for I-131, tritium and particulate with half-lives greater than 8 days.
To demonstrate compliance with this limit, an evaluation is performed at a frequency no greater than that corresponding to 1
(h 21 Rev. 8
Hope Creek ODCM 7/29/87 g
the sampling and analysis time period (e.g, nominally once per 7 days).
The following equation may be used for the dose rate evaluation:
Do = X/Q
- {(Ri
- Qi)
(2.6) where:
average organ dose rate over the
]
Do
=
sampling time period (mrem /yr) atmospheric dispersion to the X/Q
=
controllir.g SITE BOUNDARY location for the inhalation pathway (sec/m3) dose parameter for radionuclides i, Ri
=
(mrem /yr per uCi/m3) for the child inhalation pathway from Table 2-4 Qi average release rate over the
=
(,)
appropriate sampling period and analysis frequency for radionuclides i -- I-131, I-133, tritium or other radionuclides in particulate form with half-live greater than 8 days (uCi/sec)
By substituting 1500 mrem /yr for Do and solving for Q, an allowable release rate for I-131 can be dete rmined.
Based on the annual average meteorological dispersion (See Table 2-3) and the most limiting potential pathway, age group and organ (inhalation, child, thyroid -- Ri
=
1.62E+07 mrem /yr per uCi/m3), the allowable I
release rate for I-131 is 34.7 uCi/sec.
Reducing this release rate by a factor of 2 to
^
(G
\\
22 Rev. 8
I Hope Creek ODCM 7/29/87 4
i es i
.!(_f account for potential dose contributions from other radioactive particulate material and other.
]
release' points
'e.g.,
Salem), the corresponding j
i release rate allec ~.sd to ' Hope Creek is 17.4 uCi/sec.
For a 7-cay period, which is the J
nominal sampling and analysis frequency for j
I-131, the cumulative release is 10.5 Ci.
I 1
Therefore, as long as the I-131 releass in any i
'd 7-day period do not exceed 10.5 Ci, no j
additional analyses are needed for verifying l
4 compliance with the Technical Specification j
3.11.2.1.b limits on allowable release rate.
/^%
l
<- s
\\
23 Rev. 8 l
I 1
I j
Hope Creek ODCM 7/29/87 (A) 2.4 Noble Gas Effluent Dose Calculations - 10 CFR 50 1
2.4.1 UNRESTRICTED AREA Dose - Noble Gases Technical Specification 3.11.2.2 requires a periodic assessment of releases of noble gases i
to evaluate compliance with the quarterly dose limits of 1 5 mrad, gamma-air and i 10 mrad, beta-air and the calendar year limits i 10 mrad, gamma-air and i 20 mrad, beta-air.
The limits are applicable separately to each generating station and are not combined site limits.
The following equations may be used to calculate the gamma-air and beta-air doses:
3.17E-08
- X/O
- E(Mi
- Qi)
(2.7)
Dg
=
f%
and
)
i NJ 3.17E-08
- X/O
- E(Ni
- Qi)
(2.8)
Db
=
where:
air dose due to gamma emmissions Dg
=
for noble gas radionuclides (mrad) air dose due to beta emissions for Db
=
noble gas radionuclides (mrad) atmospheric dispersion to the X/O
=
controlling SITE BOUNDARY location (sec/m3) cumulative release of noble gas i
Oi
=
radionuclides i over the period of interest (uCi)
I l
/~N N_s 1
24 Rev. 8
-+f n
/
Hope Creek ODCM 7/29/87
.l l (y l (,,j/
Mi air' dose factor due"to' gamma
=
- ~
l -
emissions from noble gas f
l l
radionuclides i (mrad /yr per uCi/m3, i
j
. /~
from Table 2-1) air dose factor cue to beta
" ~ '
Ni
=
,j, '
9 missions from noble gas e
3
,/,
radionudlide i'(mrad /yr per uCi/m3, i
v' l
j
'1
/
Table 2-1) l _
/
3.17E-06 =
ccn/ersion factor (yr/sec) l' i
2.4.2 Simplified Dose Calculation for Noble Gasec
- +
In lieu of the individual noble gas radionuclides dose assessmert as presented abcVe, the i
following simpilfied dose calculation equations may be used for verifying compliance with the dose limits of Technical Specification
/-
.f 3.11.2.2.
(Refer to Appendix C for the derivation and justification of this simplified method.)
/
/
3.17E-00
- X/O
- Meff *[Qi (2.9)
Dg
=
- 0. 50 and 3.17 a -08
- X/O
- Neff * { Qi (2.10)
Db
=
0.50 C(
25 Rev. 8 l
Hope Creek ODCM 7/29/87 1
1.
l.!3
'O where:
.8.1E2, effective gamma-air dose Meff
=
factor (mrad /yr per uCi/m3) 8.5E3, effective beta-air dose' Neff
=
factor (mrad /yr per uCi/m3) 01 cumulative release for all noble
=
gas radionuclides (uC1) conservatism factor to account for 0.50
=
l potential variability in the radionuclides distribution Actual meteorological conditions concurrent with the release period or the default, annual average dispersion parameters as presented in Table 2-3, may be used for the evaluation of the gamma-air and beta-air doses.
m
(
l t::)
26 Rev. 8 I
E______.__
Hope Creek ODCM 7/29/87 l
m
, i y
A./
2.5 Radioiodine and Particulate Dese Calculations -
10 CFR 50 2.5.1 UNRESTRICTED AREA Dose - Radiciodine and Particulate In accordance with requirements of Technical Specification 3.11.2.3, a periodic assessment shall be performed to evaluate compliance with the quarterly dose limit of 1 7.5 mrem and calendar year limit i 15 mrem to any organ.
The following equation may be used to evaluate the i
maximum organ dose due to release of I-131, tritium and particulate with half-lives greater than 8 days:
Daop = 3.17E-08
- W
- SFp * { (Ri
- Qi)
(2.11) where:
dose or dose commitment via Daop
=
controlling pathway p and age group a j
(as identified in Table 2-3) to organ o,
including the total body (mrem).
s atmospheric dispersion parameter to I
W
=
the controlling location (s) as identified in Table 2-3.
X/O =
atmospheric dispersion for I
inhalation pathway and H-3 dose contribution via other pathways (sec/m3).
D/O =
atmospheric deposition for j
vegetation, milk and ground plane exposure pathways (1/m2).
U(%
27 Rev. 8 1
l
f.
Hope Creek ODCM 7/29/87 r~g
(
)
N_/
Ri dose factor for radionuclides i,
=
(mrem /yr per uCi/m3) or (m2 - mrem /yr per uCi/sec) from Table 2-4 for each age group a and the applicable' pathway p as identified in Table 2-3.
Values for Ri were derived in accordance with the methods described in NUREG-0133.
Oi cumulative release over the period of
=
interest for radionuclides i -- I-131 or radioactive material in particulate form with half-life greater than 8 days (uCi).
annual seasonal correction factor to SFp
=
account for the fraction of the year that the applicable exposure pathway does not exist.
.Q
(,)
1)
For milk and vegetation exposure pathways:
= A six month fresh vegetation and grazing season (May through October).
= 0.5 2)
For inhalation and ground plane exposure pathways:
= 1.0 For evaluating the maximum exposed individual, the infant age group is controlling for the milk j
pathway and the child age group is controlling for the vegetation pathway.
Only the
)
controlling age group and pathway as identified in Table 2-3 need be evaluated for compliance with Technical Specification 3.11.2.3.
(12)
)
28 Rev. 8 I
i Hope Creek ODCM 7/29/87 l
i i
l
(')
(_/
2.5.2 Simplified Dose Calculation for Radioiodines and Particulate l
In lieu of the individual radionuclides (I-131
)
and particulate) dose assessment as presented above, the following simplified dose calculation equation may be used for verifying compliance with the dose limits of Technical Specification 3.11.2.3 (Refer to Appendix D for the derivation and justification of this simplified method).
(2.12)
Dmax = 3.17E-08
- W
- SFp
- RI-131 * [ 0i where:
()
Dmax maximum organ dose (mrem)
=
RI-131 =
I-131 dose parameter for the thyroid for the identified controlling pathway
.l.67E12, infant thyroid dose parameter
=
with the cow-milk pathway controlling (m2 - mrem /yr per uCi/sec)
D/0 for radiciodine, 2.87E-10 1/m2 W
=
01 cumulative release over the period of
=
interest for radionuclides i -- I-131 or radioactive material in particulate form with half-life greater than 8 l
days (uci)
AU 29 Rev. 8 l
Hope Creek ODCM 7/29/87 R
/
1 >I The location of exposure pathways and the maximum organ doso calculation may be based on the available pathways in the surrounding environment of Hope Creek as identified by the annual' land-use census (Technical Specification 3.12.2).
Otherwise, the dose will be evaluated based on the predetermined controlling pathways as identified in Table 2-3.
,R l
?- (m/
30 Rev. 8 1
Hope Creek ODCM 7/29/87
(~h
(_)
2.6 Gaseous Effluent Dose Projection Technical Specification 3.11.2.4 requires that the VENTILATION EXHAUST TREATMENT SYSTEM be used to reduce radioactive material levels prior to discharge whan projected doses in 31-days exceed:
0.2 mrad to air from gamma radiation, or 0.4 mrad to air from beta radiation, or 0.3 mrem to any organ of a MEMBER OF THE PUBLIC The applicable gaseous processing systems for maintaining radioactive material releases ALARA are the Gaseous Radwaste Treatment System and Exhaust Treatment System as delineated in Figures 2-1 and 2-2.
Dose projection are performed at least once per 31-days (q
,)
by the following equations:
- 31d (2.17)
(Dg / d)
Dgp
=
i 1
(Db / d)
- 31d (2.18)
Dbp
=
(Dmax / d)
- 31d (2.19)
Dmaxp
=
where:
gamma air dose projection for current 31-day Dgp
=
period (mrad) gamma air dose to date for current calendar Dg
=
quarter as determined by equation (2.7' or (2.9) (mrad) beta air dose projection for current 31-day Dbp
=
period (mrad) beta air dose to date for current calendar Db
=
quarter as determined by equation (2.8) or (2.10) (mrad)
O 31 Rev. 8
.__________________-_-_a
Hope Creek ODCM 7/29/87
(~'s maximum organ dose projection for current T
Dmaxp
=
31-day period (mrem) maximum organ dose to date for current Dmax
=
calendar quarter as determined by equation (2.11) or (2.12) (mrem) number of days in current calendar quarter at d
=
the end of the release the number of days of concern 31d
=
.O
'd 1
l 1 (~
32 Rev. 8 l
l
{...
Hope Creek ODCM 7/29/87 9
)
3.0 Special Dose Analysis l
l l
3.1 Doses Due to Activities Inside the SITE BOUNDARY In accordance with Technical Specification 6.9.1.7, the Radioactive Effluent Release Report (RERR) submitted within 60-days after January 1st of each year shall include an assessment of radiation doses from radioactive liquid and gaseous effluents to MEMBERS OF THE PUBLIC due to their activities inside the SITE
- BOUNDARY, There is one location on Artificial Island that is accessible to MEMBERS OF THE PUBLIC for activities unrelated to PSE&G operational and support activities.
This location is the Second Sun (visitor's center) located near the contractors gate in the Salem
,_()
Generating Station.
The calculation methods as presented in Sections 2.4 and 2.5 may be used for determining the maximum potential dose to a MEMBER OF THE PUBLIC based on the parameters from Table 2-3 and 2-hours per visit per year.
The default value for the meteorological dispersion data as presented in Table 2-3 may be esed if current year meteorology is unavailable at the time of NRC reporting.
However, a follow-up evaluation shall be performed when the data becomes available.
(
33 Rev. 8
Hope Creek ODCM 7/29/87 4-3.2 Total Dose to MEMBERS OF THE PUBLIC - 40 CFR 190 The Radioactive Effluent Release Report (RERR) submitted within 60-days after January 1st of each year shall also include an assessment of the radiation dose i
to the likely most exposed MEMBER OF THE PUBLIC for reactor releases and other nearby uranium fuel cycle sources (including dose contributions from effluents and direct radiation from on-site sources).
For the likely most exposed MEMBER OF THE PUBLIC in the vicinity of Artificial Island, the sources of exposure need only consider the Salem Generating Station and the Hope Creek Generating Station:
No other fuel cycle facilities contribute to the MEMBER OF THE PUBLIC dose for the Artificial Island vicinity.
7-~
The, dose contribution from the operation of Hope Creek
(,)
Generating Station will be estimaced based on the methods as presented in the Salem Offsite Dose Calculation Manual (SGS ODCM).
As appropriate for demonstrating / evaluating compliance with the limits of Technical Specification 3.11.4 (40 CFR 190), the results of the environmental monitoring program may be used for providing data on act.al measured levels of radioactive material in the 1
actual pathways of exposure.
l l
h i
I 34 Rev. 8
Hope Creek ODCM 7/29/87 3.2.1 Effluent Dose Calculations
(
x.
For purposes of implementing the surveillance
)
requirements of Technical Specification 3/4.11.4 and the reporting requirements of 6.9.1.11 (RERR), dose calculations for the Hope Creek Generating Station may be performed using the calculation methods contained within the ODCM; the conservative controlling pathways and locations of Table 2-4 or the actual pathways and locations as identified by the land use census (Technical Specification 3/4.12.2) may be used.
Average annual meteorological dispersion parameters or meteorological conditions concurrent with the release period under evaluation may be used.
3.2.2 Direct Exposure Dose Determination Any potentially significant direct exposure
( }
contribution to off-site individual doses may be evaluated based on the results of the environmental measurements (e.g., TLD, ion chamber measurements) and/or by the use of a radiation transport and shielding calculation method.
Only during a typical conditions will there exist any potential for significant on-site sources at Hope Creek that would yield potentially significant off-site doses (i.e.,
in excess of 1 mrem per year to a MEMBER OF THE PUBLIC), that would require detailed evaluation for demonstrating compliance with 40 CFR 190.
However, should a situation exist whereby the direct exposure contribution is potentially significant, on-site measurements, off-site measurements.and/or calculational techniques will be used for determinate'. of dose for r~g assessing 40 CFR 190 compliance.
)
35 Rev. 8
Hope Creek ODCM 7/29/87
/%
4.0 Radiological Environmental Monitoring Program s-i 4.1 Sampling Program I
The operational phase of the Radiological Environmental Monitoring Program (REMP) is conducted in accordance with the requirements of Appendix A Technical Specification 3.12.
The objectives of the program are:
To determine whether any significant increases occur
)
in the concentration of radionuclides in the critical pathways of exposure in the vicinity of Artificial Island; To determine if the operation of the Hope Creek Generating Station has resulted in any increase in the inventory of long lived radionuclides in the t(
environment; i
1 To detect any changes in the ambient gamma radiation levels; and i
To verify that HCGS operations have no detrimental j
effects on the health and safety of the public or on the environment.
l The sampling requirements (type of samples, collection frequency and analysis) and sample locations are presented in Appendix E.
1 rx N..]
36 Rev. 8
Hope Creek ODCM 7/29/87 i'~
A/
4.2 Interlaboratory Comparison Program Technical specification 3.12.3 requires analyses be 1
i performed on radioactive material supplied as part of an Interlaboratory Comparison.
l l
t Participation in an approved Interlaboratory Comparison Program provides a check on the precisness of measurements of radioactive materials in environmental l
samples.
A summary of the Interlaboratory Comparison Program results will be provided in the Annual Radiological Environmental Operating Report pursant to Technical Specification 6.9.1.7.
a v
37 Rev. 8 1
Hope Creek ODCM 7/29/87 I l
FIGURE l-1 l f) l Q LIQUID RADWASTE TREATMENT SYSTEM Cooling A
A Tower Basin Collector y->
Tanks (2)
Equipment Equipment Equipment y>
Drain Drain e Drain Sample Surge A
Filter IL Demineralized Tanks (2) 1
--J>.
Tank y
Condensate Storage Tank h
Al h
Floor Floor Floor Floor Drain Drain 1>.
Drain Drain Collector A
Filter Demineralized Sample Tanks (2)
Tanks (2)
> Vapor to Chemical Decontamination South Vent Solution Waste A>
Tank Evaporator
> Bottoms to Solid Waste Detergent Detergent
'q Drain Drain Tanks (2)
Filter RE 4861 Logged:
RE = Effluent Radiation Monitor RE 8817 To Delaware River (offsite)
I
'l uJ 38 Rev. 8
J Hope Creek ODCM 7/29/87 l
[>
L TABLE l-1 PARAMETERS FOR LIQUID ALARM SETPOINT DETERMINATION l
i I
l i
l Actual Default
)
Parameter Value Value Units Comments l
MPCe Calculated 1.9E-5 uCi/ml Calculated for each batch l
to be released l
t i
MPC I-131 3.0E-08 N/A uCi/ml I-131 MPC conservatively used for HC CTBD and l
liquid radwaste monitor i
setpoints l
l Ci Measured N/A uCi/ml Taken from gamma spectral analysis of liquid effluent MPCi As N/A uCi/ml Taken from 10 CFR 20, i
Determined Appendix B, Table II, I
Column 2
9TBD As 1.90E4 gpm Cooling tower blowdown l ()
Determined discharge l
l RR As 176 gpm or Determined prior to Determined 1300 gpm (CST) release; release rate can i
be adjusted for Technical Specification compliance SP A) RE4861 Calculated 2.0E-03 uCi/ml*
Default alarm setpoints; more conservative values RE8817 Calculated 1.9E-5 uCi/ml may be used as deemed appropriate and desirable for ensuring regulatory compliance and for maintaining releases ALARA B) RE4861 Calculated 2.8E-04 uCi/ml These setpoints are for condensate storage tank RE8817 Calculated 1.9E-5 uCi/ml releases
- These setpoints are more conservative for Detergent Drain Tank releases.
For lower conservative default setpoints multiply setpoint by 7.04 for i p DDT-releases.
39 Rev. 8l i
Hope Creek ODCM' 7/29/87 l TABIE 1-2
[T SITE REIATED INGESTICN DOSE 0]PMITMENT FACIOR, Ait
-(FISH AND INVERTEBRATE CONSLMPrION)
(MRDVhr per uCi/ml)
'Page 1 of 2 NUCLIDE
. Bone Liver Total Body Thyroid Kidney Lung GI-LLI 2.82E-1 2.82E-1 2.82E-1 2.82E-1 2.82E-1 2.82E-1 H-3 C-14 1.45E+4 2.90E+3 2.90E+3 2.90E+3 2.90E+3 2.90E+3 2.90E+5 NA-24 4.57E-1 4.57E-1 4.57E-1 4.57E-1 4.57E-1 4.57E-1 4.57E-1 P-32 4.69E+6 2.91E+5 1.81E+5 5.27E+5 CR-51 5.58E40 3.34E+0 1.23E+0 7.40E+0 1.40E+3 2.10E+3 2.16E+4 7.06E+3 1.35E+3 MN-54 MN-56 1.78E+2 3.15E+1 2.26E+2 5.67E+3 FE-55 5.llE+4 3.53E+4 8.23E+3 1.97E+4 2.03E+4 FE-59 8.06E+4 1.90E+5 7.27E+4 5.30E+4 6.32E+5' CO-58 6.03E+2 1.35E+3 1.22E+4 CO -57 1.42E+2 2.36E+2 3.59E+4
- CO-60 1.73E+3 3.82E+3 3.25E+4 NI-63 4.96E+4 3.44E+3 1.67E+3 7.18E+2 NI-65 2.02E+2 2.62E+1 1.20E+1 6.65E+2 2.14E+2 1.01E+2 CU-64 5.40E+2 1.83E+4 ZN-65 1.61E+5 5.13E+5 2.32E+5 3.43E+5-3.23E+5 3
ZN-69 3.43E+2 6.56E+2 4.56E+1 4.26E+2 9.85E+1 BR-82 4.07E+0 4.67E+0
-BR-83 7.25E-2 1.04E --
BR-84 9.39E-2 7.37E-7 BR-85 3.86E-3 RE-86 6.25E+2 2.91E+2 1.23E+2 RB-88 1.79E+0 9.49E-1 2.47E-ll RB-89 1.19E+0 8.34E-1 6.89E-14 SR-89 4.99E+3 1.43E+2 8.00E+2 SR-90 1.23E+5 3.01E+4 3.55E+3 Sh-91 9.18E+1 3.71E+0 4.37E+2 SR-92 3.48E+1 1.51E+0 6.90E+2 Y-90 6.06E+0 1.62E-1 6.42E+4 Y-9hn 5.72E+2 2.22E-3 1.68E-1
.Y-91 8.88E+1 2.37E+0 4.89E+4 Y-92~
5.32E-1 1.56E-2 9.32E+3 Y-93 1.69E+0 4.66E-2 5.35E+4 ZR-95 1.59E+1 5.llE+0 3.46E+0 8.02E+0 1.62E+4 ZR-97 8.81E-1 1.78E-1 8.12E-2 2.68E-1 5.51E+4 i
NB-95 4.47E+2 2.49E+2
-1.34E+2 2.46E+2 1.51E+6
-NB-97 3.75E+0 9.49E-1 3.46E-1 1.llE+0 3.50E+3 i
2.96E+2 f
MO-99 1.28E+2 2.43E+1 2.89E+2 s
TC-9&n 1.29E-2 3.66E-2 4.66E-1 5.56E-1 1.79E-2 2.17E+1 TC-101 1.33E-2 1.92E-2 1.88E-1 3.46E-1 9.81E-3 5.77E-14 40 Rev. 8l
k Hope Creek ODCM 7/29/87
.j TABLE l-2 O~-
. SITE RELATED INGESTION DOSE COMITMENT FACIOR, Alt (FISH AND INVERIEBPATE CONSUMPTION)
(MROVhr per uCi/ml)
Page 2 of 2 1
NUCLIDE Bone Liver Total Body Thyroid Kidney Lung GI-LLI RU-103 1.07E+2 4.60E+1 4.07E+2 1.25E+4 RU-105-8.89E+0 3.51E+0 1.15E+2 5.44E+3 LRU-106 1.59E+3 2.01E+2 3.06E+3 1.03E+5 RH-103m RH-106 AG-110m 1.56E+3 1.45E+3 8.60E+2 2.85E+3 5.91E+5 SB-124.
2.77E+2 5.23E+0 1.10E+2 6.7lE-1 2.15E+2 7.86E+3 1.36E+2 1.95E+3
-SB-125 1.77E+2 1.98E+0 4.21E+1 1.80E-1 TE-125m 2.17E+2 7.86E+1 2.91E+1 6.52E+1 8.82E+2 8.66E+2 1.84E+3-TE-127m 5.48E+2 1.96E+2 6.68E+1 1.40E+2 2.23E+3 TE-127' 8.90E+0 3.20E+0 1.93E+0 6.60E+0 3.63E+1 7.03E+2 TE-129m 9.31E+2 3.47E+2 1.47E+2 3.20E+2 3.89E+3 4.69E+3 TE-129 2.54E+0 9.55E-1 6.19E-1 1.95E+0 1.07E+1 1.92E+0 TE-131m 1.40E+2 6.85E+1 5.71E+1 1.08E+2 6.94E+2 6.80E+3 TE-131 1.59E+0 6.66E-1 5.03E-1 1.31E+0 6.99E+0 2.26E-1
'TE-132 2.04E+2 1.32E+2 1.24E+2
- 1. 4 6E+2 1.27E+3 6.24E+3 V
I-130 3.96E+1 1.17E+2 4.61E+1 9.91E+3' 1.82E+2 1.01E+2
.I-131 2.18E+2 3.12E+2 1.79E+2 1.02E+5 5.35E+2 8.23E+1 I-132' l.06E+1 2.85E+1 9.96E+0 9.96E+2 4.54E+1 5.35E+0
.l I-133 7.45E+1 1.30E+2 3.95E+1 1.90E+4 2.26E+2
- 1. '.6E+2 1
I-134 5.56E+0 1.51E+1 5.40E+0 2.62E+2 2.40E+1 1.32E-2 I-135 2.32E+1 6.08E+1 2.24E+1 4.01E+3 9.75E+1 6.87E+1 CS-134 6.84E+3 1.63E+4 1.33E+4 5.27E+3-1.75E+3 2.85E+2 CS-136.
7.16E+2 2.83E+3 2.04E+3 1.57E+3' '2.16E&2 3.21E+2 CS-137 8.77E+3 1.20E+4 7.85E+3 4.07E+3 1.35E+3 2.32E+2 CS-138 6.07E+0 1.20E+1 5.94E+0 8.81E+0 8.70E-1 5.11E-5 BA-139.
7.85E+0 5.59E-3 2.30E-1 5.23E-3 3.17E-3 1.39E+1 BA-140 1.61E+3 2.06E+0 1.08E+2 7.02E-1 1.18E+0 3.38E+3 2.68E-3 1.63E-3 1.80E-9 BA-141 3.81E+0 2.88E-3 1.29E-1 BA-142 1.72E+0 1.77E-3 1.08E-1 1.50E-3 1.00E-3 2.43E-18 IA-140 1.57E+0 7.94E-1 2.10E-1 5.83E+4 IA-142 8.06E-2 3.67E-2 9.13E-3 2.68E+2 CE-141 3.43E+0 2.32E+0 2.63E-1 1.08E+0 8.86E+3 CE-143 6.04E-1 4.46E+2 4.94E-2 1.96E-1 1.67E+4 CE-144 1.79E+2 7.47E+1 9.59E+0 4.43E+1 6.04E+4 PR-143 5.79E+0 2.32E+0 2.87E-1 1.34E+0 2.54E+4 PR-144
'l.90E-2 7.87E-3 9.64E-4 2.73E-9
'l 4.44E-3 2.68E+0 2.20E+4 I
ND-147 3.96E+0 4.58E+0 2.74E-1 W-187 9.16E+0 7.66E+0 2.68E+0 2.SlE+3 NP-239 3.53E-2 3.47E-3 1.91E-3 1.08E-2 7.llE+2 41 Rev. 8
Hope Creek ODCM 7/29/87 l
TABLE 1-3 BIOACCUMULATION FACTORS (pCi/kg per pCi/ liter)*
ELEMENT SALTWATER FISH SALTWATER INVERTEBRATES H
9.0E-01 9.3E-01 C
1.8E+03 1.4E+03 NA 6.7E-02 1.9E-01 P
3.0E+03 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-02 3.1E+00 RB 8.3E+00 3.7E+01 SR 2.0E+00 2.0E+01 Y
2.5E+01 1.0E+03 ZR 2.0E+02 8.0E+01 l
NB 3.0E+04 1.0E+02 MO 1.0E+01 1.0E+01 TC 1.0E+01 5.0E+01 RU 3.0E+00 1.0E+03 RH 1.0E+01 2.0E+03 AG 3.3E+03 3.3E+03 Sb 4.0E+01 5.4E+00 TE 1.0E+01 1.0E+02 I
1.0E+01 5.0E+01 CS 4.0E+01 2.5E+02 BA 1.0E+01 1.0E+02 LA 2.5E+01 1.0B+03 CE 1.0E+01 6.0E+02 PR 2.5E+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 Values in Table 2.2-2 are taken from Regulatory Guide 1.109 except for phosphurus (fish) which is adapted from NUREG/CR-1336 and silver and antimony which are taken from UCRL 50564, Rev.
1, October 1972.
O 42 Rev. 8l
i Hope Creek ODCM 7/29/87 FIGURE 2-1
,_,)
GASEOUS RADWAS'1E TREATMENT SYSTEM Main or Auxiliary Steam SJAE Offgas I
Recombiner U
i Praheater Recombiner Condenser A
1 l
Condenser Offgas Typical of 2 Recombiner Packages I
_ _J Y
Holdup Pipes 4
l l
f^x k, J L
l Cooler Reheater Guard Condenser Bed L_
l V
l To North g
HEPA Filter Absorber Plant Vent Train (Figure 4.1-2) l l
Ambient Charcoal System 1
r,'m l
1
%/
43 Rev. 8 l
--_____-.________J
Hope Creek ODCM 7/29/87 l
i e-(g~-)
APPENDIX C Technical Basis for Effective Dose Factors -
Gaseous Radioactive Effluents i
Overview i
The evaluation of doses due to releases of radioactive material to the atmosphere can be simplified by the use of ef fective dose transfer factors instead of using dose factors which are radionuclides. specific.
These effective factors, which are based on typical radionuclides distributions of releases, can be applied to the total radioactivity released to approximate the dose in the environment.
Instead of having to perform individual radioluclide dose analysis only a single multiplication (i.e.,
Keff, Meff, or Neff times the total quantity of radioactive material released) would be needed.
The approach provides a J
reasonable estimate of the actual dose while eliminating the need for a detailed calculation technique.
Determination of Effective Dose Factors Effective dose transfer factors are calculated by the following equations:
[' (Ki
- fi)
=
Where:
the effective total body factor due to gamma
)
=
emissions from all noble gases released.
the total body dose factor due to gamma j
Ki
=
emissions from each noble gas radionuclides i released.
the fractional abundance of noble gas fi
=
radionuclides i relative to the total noble gas activity.
ds E ((Li + 1.1 Mi) fi)
(L
+
1.1 M)eff
=
Where:
(L
+
1.lM)eff the effective skin dose factor due to
=
beta and gamma emissions from all noble j
gases released, j
4 I)
\\,)
C-2 Rev. 8 l
Hope Creek ODCM 7/29/87 l
ym(')
(Li + 1.1 Mi) the skin dose factor due to beta and
=
gamma emissions from each noble gas radionuclides i released.
Meff
=[(Mi fi)
Where:
the effective air dose factor due to gamma Meff
=
emissions from all noble gases released.
the air dose factor due to gamma emissions Mi
=
from each noble gas radionuclides i released.
ds Neff
= {(Ni fi)
'The re :
the effective air dose factor due to beta Neff
=
emissions from all noble gases released.
the air dose factor due to beta emissions Ni
=
from each noble gas radionuclides i released.
Normally, it would be expected that past radioactive effluent data would be used for the determination of the effective dose factors.
However, the noble gas releases from Hope Creek have a x,
short history.
So, to provide a reasonable basis for the
)
derivation of the effective noble gas dose factors, the source is terms from ANSI N237-1976/ANS-18.1, " Source Term Specifications",
Table 5 has been used as representing a typical distribution.
The effective dose factors as derived are presented in Table B-1.
Application To provide an additional degree of conservatism, a factor of 0.50 is introduced into the dose calculational process when the effective dose transfer factor is used.
This conservatism provides additional assurance that the evaluation of doses by the use of a single effective factor will not significantly underestimate any actual doses in the environment.
For evaluating compliance with the dose limits of Technical Anecification 3.11.2.2, the following simplified equations may be used:
3.17E-08 X/O Meff
- { Qi Dx
=
0.50 and
,A C-3 Rev. 8
Hope Creek ODCM 7/29/87 l
< m, 3.17E-08 Db X/O Neff
- { Qi
=
0.50 Where:
air dose due to gamma emissions for the D
=
cumulative release of all noble gases (mrad) air dose due to beta emissions for the Db
=
cumulative release of all noble gases (mrad) l atmosphericdisgersiontothecontrollingsite X/O
=
boundary (sec/m )
8.lE3, effective gamma-air dose factor (mrad /yr Meff
=
3 per uCi/m )
8.5E3, effective beta-air dose factor (mrad /yr Neff
=
3 per uCi/m )
cumulative release for all noble gas Oi
=
radionuclides (uCi) 3.17E-08 =
conversion factor (yr/sec)
./~3
/
0.50 conservatism factor to account for the
=
variability in the effluent data Combining the constants, the dose calculational equations simplify to:
X/O
- [ Qi 5.14E-4 D
=
X/O
- E Qi 5.39E-4 Db
=
The effective dose factors are to be used on a limited basis for the purpose of facilitating the timely assessment of radioactive effluent releases, particularly during periods of computer malfunction where a detailed dose assessment may be unavailable.
I i
l 1
1 C-4 Rev. 8 l
l
a
Hope Creek ODCM 7/29/87 f~h (j!
TABLE C-1 Effective Dose Factors Noble Gases - Total Body and Skin Total Body Effective Skin Effective Keff (L + 1.1 M) eff Radionuclides fi*
(mrem /y per uCi/m3)
(mrem /y per uCi/m3)
Kr83m 0.01 Kr85m 0.01 1.0El 2.8El Kr87 0.04 2.4E2 6.6E2 Kr88 0.04 5.9E2 7.6E2 Kr89 0.27 4.5E3 7.9E3 Xel33 0.02 5.9E0 1.4El Xel35 0.05 9.0E1 2.0E2 Xel35m 0.06 1.9E2 2.6E2 Xel37 0.31 4.4E2 4.3E3 Xel38 0.19 1.7E3 2.7E3 TOTAL 7.8E3 1.7E4
/~N Noble Gases - Air k
)
Gamma Air Effective Betta Air Effective Meff Neff Radionuclides fi*
(mrad /y per uCi/m3)
(mrad /y per uCi/m3) 3.0E0 Kr83m 0.01 Kr85m 0.01 1.2El 2.0El Kr87 0.04 2.5E2 4.lE2 1
Kr88 0.04 6.lE2 2.0E2 j
Kr89 0.27 4.7E3 2.9E3 i
Xel33 0.02 7.0E0 2.lEl Xel35m 0.05 9.6El 1.2E2 Xel35 0.06 2.0E2 4.4El Xel37 0.31 4.7E2 3.9E3 Xel38 0.19 1.8E3 9.0E2 l
TOTAL 8.lE3 8.5E3 Based on noble gas distribution from ANSI N237-1976/ANS-18.1,
]
" Source Term Specification".
g-%
\\~h l
C-5 Rev. 8
Hope Creek ODCM 7/29/87 O
APPENDIX D TECHNICAL BASIS FOR EFFECTIVE DOSE PARAMETER GASEOUS RADIOACTIVE EFFLUENT
{s I
I I
il l
l i
t
)
D-1 Rev. 8 l
Hope Creek ODCM 7/29/87-D O
APPENDIX D Technical' Basis for Effective Dose Parameter Gaseous Radioactive Effluent Releases The pathway dose' factors for the controlling infant age group
~
i were evaluated to-determine the controlling pathway, organ and l
radionuclides. 'This analysisJwas performed to provide a simplified. method for determining compliance with Technical Specification 3.11.2.3.
For.the infant age group, the
-controlling pathwayfis the. grass
. milk - cow (g/m/c) pathway.
An infant receives a: greater radiation dose'from the g/m/c pathway than any'other pathway.
Of this g/m/c pathway, the maximum: exposed organ. including the total body, is the thyroid, and the highest dose contributor is radionuclides I-131.
The results of this' evaluation are presented in Table D-1.
For purposes of-simplifying the details of the dose calculation
. process, it is conservative to identify a controlling, dose-
.significant organ and radionuclides and limit the calculation process to the use of the dose. conversion factor for the organ and radionuclides.
Multiplication offthe total release (i.e.,
cumulative activity for all radionuclides) by'this dose.
is t O
conversionLfactor provides for,a dose. calculation method that simplified while also being conservative.
For the evaluation of the dose commitment via a controlling
~
pathway ~andfage group, it is conservative to'use the infant, 2
g/m/c, thyroid, I-131~ pathway dose factor (1.67E12m mrem /yr per
.uCi/sec).
By this approach, the maximum dose commitment will be overestimated since I-131 has the highest pathway dose factor of all radionuclides evaluated.
l For evaluating compliance with the dose limits of Technical Specification 3.11.2.3, the following simplified equation may be i
used:
W RI-131
- EQi 3.17E-8 Dmax
=
Where:
1 I
-Dmax =
maximum organ dose (mrem) atmospheric dispersion parameter'to the W
=
controlling location (s) as identified in Table 2-3.
.i Atmospheric dispersion for inhalation pathway and X/0
=
3 H-3 dose contribution via other pathways (sec/m )
D-2 Rev. 8
)
\\
Hope Creek ODCM 7/29/87 l
./~h l
4
-r\\-
atmospheric disposition for vegetation, milk and D/O
=
ground plane exposure pathways (m-2) cumulative release over the period of interest for Oi
=
radiciodines and particulate (uCi) 3.17E-8=
conversion factor (yr/sec)
RI-131 =
I-131 dose parameter for the thyroid for the identified controlling pathway 1.675E12, infant thyroid dose parameter with the
=
2 (m mrem /yr cow - milk - grass pathway controlling per uCi/sec) l l
The ground plane exposure and inhalation pathways need not be considered when the above simplified calculational method.is used l
because of the overall negligible contribution of these pathways to the total thyroid dose.
It is recognized that for some particulate radionuclides (e.g.,
Co-60 and Cs-137), the ground exposure pathway may represent a higher dose contribution than either the vegetation or milk pathway.
However, use of the I-131 thyroid dose parameter for all radionuclides will maximize the organ dose calculation, especially considering that no other i
rx radionuclides has a higher dose parameter for any organ via any
-()
pathway than I-131 for the thyroid via the milk pathway.
The location of exposure pathways and the maximum organ dose calculation may be based on the available pathways in the surrounding environment of Hope Creek as identified'by the annual land-use census (Technical Specification 3.12.2).
Otherwise, the dose will be evaluated based on the predetermined controlling pathways as identified in Table 2-3.
l l
D-3 Rev. 8
l' Hope Creek ODCM 7/29/87-j t
r3 s-1 TABLE D-1 Infant Dose Contributions Fraction of Total Organ and Body Dose.
\\
PATHWAYS Target Organs Grass - Cow - Milk Ground Pldne Total Body 0.02 0.15 i
Bone 0.23 0.14 Liver 0.09 0.15 1
/)
J t..
,f Thyroid 0.59 0.15 1
Kidney 0.02 0.15 Lung 0.01 0.14 l
GI-LLI 0.02 0.15 1
TABLE D-2 Fraction of Dose Contribution by Pathway i
Pathway f
l Grass-Cow-Milk 0.92 Ground Plane 0.06 Inhalation 4
i%
D-4 Rev. 8 l
f l
I tN./
I l
l l
3 1
1 I
i 1
APPENDIX E RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM -
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FIGURE E-1 CFFSITE SAMPLING LOCATIONS ARTIFICIAL ISLAND h
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Rev. 8 7/29/87
r-._....
l Hope Creek ODCM 7/29/87 l FIGURE 2-2
(
VENTILATION EXilAUST TREATMENT SYSTEM Gaseous Radwaste RE Treatment System 4573B (from Figure 4.1-3)
North pr Plant Vent l
Untreated Ventilation pr l
Air Sources l
Radwaste Decon.
>=
Evaporator Reactor Building R
H Purge Air (Typ. of 3)
RE Auxiliary Building 4875B Radwaste Area R
H pr South Ventilation Air prPlant (Typ. of 3)
Vent Condensate
+
Demineralized Room Air Pipe Chase Air y
R H
C H +
Room Air Untreated Ventilation Dr Air Sources
{.
(Recirculation)
/
RE km 4811A h
FRVS Reactor H
C H
>=
C H
)= System Vent Building Air (Typ. of 6)
(Typ. of 2)
Roughing Filter Legend:
R
=
Charcoal Filter C
=
HEPA Filter H
=
RE =
Effluent Radiation Monitor O
This Foot-Treatment Monitor is not an effluent monitor as designated by the RETS.
44 Rev. 8
Hope Creek ODCM 7/29/87 TABLE 2-1 DOSE FACTORS FOR NOBLE GASES Total Body Skin Gamma Air Beta Air Dose Factor Dose Factor Dose Factor Dose Factor Ki Li Mi.
Ni (mrem /yr per (mrem /yr per (mrad per (mrad /yr Radionuclides uCi/m3) uCi/m3) uCi/m3) uCi/m3) 1.93E+01 2.88E+02 Kr-83m 7.56E-02 Kr-85m 1.17E+03 1.46E+03 1.23E+03 1.97E+03 Kr-85 1.61E+01 1.34E+03 1.72E+01 1.95E+03 Kr-87 5.92E+03 9.73E+03 6.17E+03 1.03E+04 Kr-88 1.47E+04 2.37E+03 1.52E+04 2.93E+03 Kr-89 1.66E+04 1.01E+04 1.73E+04 1.06E+04 Kr-90 1.56E+04 7.29E+03 1.63E+04 7.83E+03 Ch
( j Xe-131m 9.15E+01 4.76E+02 1.56E+02 1.11E+03 Xe-133m 2.51E+02 9.94E+02 3.27E+02 1.48E+03 Xe-133 2.94E+02 3.06E+02 3.35E+02 1.05E+03 1
Xe-135m 3.12E+03 7.11E+02 3.36E+03 7.39E+02
)
1 Xe-135 1.81E+03 1.86E+03 1.92E+03 2.46E+03
)
1 Xe-137 1.42E+03 1.22E+04 1.51E+03 1.27E+04 Xe-138 8.83E+03 4.13E+03 9.21E+03 4.75E+03
)
l Ar-41 8.84E+03 2.69E+03 9.30E+03 3.28E+03 O
45 Rev. 8 l
l l
Hope; Creek ODCM 7/29/87 TABLE 2-2
..'O PARAMETERS FOR GASEOUS ALARM' U
SETPOINT DETERMINATION' HOPE CREEK
,y Actual Default
- Parameter.
Value Value Units Comments f
X/O Calculated 2.67E-6 sec/m3 From FSAR Table 2.3-31 0.5 mile,.N 3
ft / min Maximum Operation VF (NPV)
Measured 41900 3
ft / min Maximum Operation VF (SPV)
Measured 440,180 3
VFL (FRVS)
Measured 9000 ft / min Maximum Operation
. AF (NPV).
Coordinated 0.2 Unitiess Administrative with SGS allocation factor to ensure releases AF (SPV) 0.2 Unitless do not exceed release rate limit AF (FRVS)-
0.1 Unitiess Ci.
Measured N/A uCi/m3 Ki Nuclide N/A (mrem /yr Table 3.1-1 Specific per uCi/m3)
Li-
.Nuclide N/A (mrem /yr Table 3.1-1 Specific per uCi/m3)
Mi Nuclide N/A (mrem /yr Table 3.1-1 Specific per uCi/m3)
Sv: NPV.
Calculated 2.43E-4 uCi/cc Default alarm SPV; Calculated 2.31E-5 uCi/cc Setpoints; more FRVS Calculated 5.56E-4 uCi/cc conservative values may be used as deemed appropriate for ensuring ALARA and regulatory compliance Sv(Q) NPV Calculated 4.8E3 uCi/sec Determined by SPV~
Calculated 4.8E3 uCi/sec multiplying setpoint FRVS Calculated 2.4E3 uCi/sec (uCi/cc) times vent flow rates (cc/sec)
O 46 Rev. 8 l
i Hope Creek ODCM 7/29/87 TABLE 2-3 f']
CONTROLLING LOCATIONS, FATHWAYS AND l
\\s ATOMSPHERIC DISPERSION FOR DOSE CALCULATIONS
- l Controlling X/0 D/0 Tech. Spec.
Location Pathway (s)
Age Group (sec/m3)
(1/m2) 3.11.2.la Site Boundary Noble Gases N/A 2.67E-06 N/A (0.5 Mile, N) direct exposure 3.11.2.lb Site Boundary Inhalation Child 2.67E-06 N/A (0.5 Mile, N) 3.11.2.2 Site Boundary Gamma-Air N/A 2.67E-06 N/A (0.5 Mile, N)
Beta-Air 3.11.2.3 Residence / Dairy milk and Infant 7.2E-08 2.87E-10 (4.9 Miles, W) ground plane 5\\_29.1.7 Second Sun direct exposure N/A 8.22E-06 N/A (0.21 Miles, SE) and inhaltion The identified controlling locations, pathways and atmospheric dispersion are from the Artificial Island Radiological Monitoring Program and the Hope Creek FSAR.
I)
\\_
47 Rev. 8
Hope Creek ODCM 7/29/87 TABLE 2-4
/
PATHWAY DOSE FACTORS - ATMOSPHERIC RELEASES
\\m,/
R(lo) INHALATION PATHWAY FACTORS - ADULT (mrem /yr per uCi/m3)
Nuclide Bone Liver Thyroid Kidney Lung GI-LLI Total Body 1.26E+3 1.26E+3 1.26E+3 1.26E+3 1.26E+3 1.26E+3 H-3 C-14 1.82E+4 3.41E+3 3.41E+3 3.41E+3 3.41E+3 3.41E+3 3.41E+3 8.64E+4 5.01E+4 P-32 1.32E+6 7.71E+4 5.95E+1 2.28E+1 1.44E+4 3.32E+3 1.00E+2 Cr-51 9.84E+3 1.40E+6 7.74E+4 6.30E+3 3.96E+4 Mn-54 Fe-55 2.46E+4 1.70E+4 7.21E+4 6.03E+3 3.94E+3 1.02E+6 1.8BE+5 1.06E+4 Fe-59 1.18E+4 2.78E+4 3.70E+5 3.14E+4 6.71E+2 6.92E+2 Co-57 9.28E+5 1.068+5 2.07E+3 Co-58 1.58E+3 5.97E+6 2.85E+5 1.48E+4 1.15E+4 Co-60 1.78E+5 1.34E+4 1.45E+4
-Ni-63 4.32E+5 3.14E+4 6.90E+4~
8.64E+5 5.34E+4 4.66E+4 2n-65 3.24E+4 1.03E+5 1.66E+4 5.90E+4 1.35E+5 Rb-86 3.04E+5 1.40E+6 3.50E+5 8.72E+3
('S)r-8 9 9.60E+6 7.22E+5 6.10E+6
-90 9.92E+7 1.70E+6 3.85E+5 1.24E+4
\\ -91 4.62E+5 5.42E+4 1.77E+6 1.50E+5 2.33E+4 Zr-95 1.07E+5 3.44E+4 7.74E+3 5.05E+5 1.04E+5 4.21E+3 Nb-95 1.41E+4 7.82E+3 5.83E+3 5.05E+5 1.10E+5 6.58E+2 Ru-103 1.53E+3 1.34E+5 9.36E+6 9.12E+5 8.72E+3 Ru-106 6.91E+4 Ag-110m 1.08E+4 1.00E+4 1.97E+4 4.63E+6 3.02E+5 5.94E+3 1
Sb-124 3.12E+4 5.89E+2 7.55E+1 2.48E+6 4.06E+5 1.24E+4 f
Sb-125 5.34E+4 5.95E+2 5.40E+1 1.74E+6 1.01E+5 1.26E+4 Te-125m 3.42E+3 1.58E&3 1.05E+3 1.24E+4 3.14E+5 7.06E+4 4.67E+2 Te-127m 1.26E+4 5.77E+3 3.29E+3 4.58E+4 9.60E+5 1.50E+5 1.57E+3 Te-129m 9.76E+3 4.67E+3 3.44E+3 3.66E+4 1.16E+6 3.83E+5 1.58E+3 I-131 2.52E+4 3.58E+4 1.19E+7 6.13E+4 6.28E+3 2.05E+4 Cs-134 3.73E+5 8.48E+5 2.87E+5 9.76E+4 1.04E+4 7.28E+5 Cs-136 3.90E+4 1.46E+5 8.56E+4 1.20E+4 1.17E+4 1.10E+5 Cs-137 4.78E+5 6.21E+5 2.22E+5 7.52E+4 8.40E+3 4.26E+5 1.67E+1 1.27E+6 2.18E+5 2.57E+3 Ba-140 3.90E+4 4.90E+1 Ce-141 1.99E+4 1.35E+4 6.26E+3 3.62E+5 1.20E+5 1.53E+3 Ce-144 3.43E+6 1.43E+6 8.48E+5 7.78E+6 8.16E+5 1.84E+5 l
Pr-143 9.36E+3 3.75E+3 2.16E+3 2.81E+5 2.00E+5 4.64E+2
,Nd-147 5.27E+3 6.10E+3 3.56E+3 2.21E+5 1.73E+5 3.65E+2
(_
48 Rev. 8
Hope Creek ODCM 7/29/87 t-TABLE 2-4-(Con't)
PATHWAY DOSE FACTORS - ATMOSPHERIC RELEASES
.R(io) INHALATION PATHWAY FACTORS - TEENAGER (mrem /yr per uCi/m3)
.i
.. :Nuclide Bone Liver Thyroid Kidney Lung GI-LLI Total Body-
- 1.27E+3 1.27E+3 1.27E+3 1.27E+3 1.27E+3 1.27E+3' J
H 3:
C-14 2.60E&4 4.87E+3 4.87E+3 4.87E+3-4.87E+3 4.87E+3 4.87E+3 9.28E+4 7.16E+4 P-32 1.89E+6 1.10E+5 7.50E+1' 3.07E+1 2.10E+4 3.00E+3 1.35E+2 Cr-51 1.27E+4 1.98E+6 6.68E+4 8.40E+3 Mn-54 5.11E+4 1.24E+5 6.39E+3 5.54E+3 Fe-55 3.34E+4 2.38E+4-1.53E+6 1.78E+5 1.43E+4 Fe-59 1.59E+4 3.70E+4 5.86E+5 3.14E+4 9.20E+2 6.92E+2 Co-57 1.34E+6 9.52E+4 2.78E+3 2.07E+3
.Co-58 8.72E+6 2.59E+5 1.98E+4 Co-60
'l.51E+4 3.07E+5 1.42E+4 1.98E+4 Ni-63 5.80E+5 4.34E+4 8.64E+4 1.24E+6 4.66E+4 6.24E+4 Zn-65 3.86E+4 1.34E+5 1.90E+5 1.77E+4-8.40E+4 Rb-86 2.42E+6 3.71E+5 1.25E+4 Er-89 4.34E+5
- [ i-90
.l.08E+8 1.65E+7 7.65E+5 6.68E+6
\\s,191 6.61E+5 2.94E+6 4.09E+5 1.77E+4 6.74E+4 2.69E+6 1.49E+5 3.15E+4 2r-95' l.46E+5 4.58E+4 1.00E+4 7.51E+5
~9.68E+4 5.66E+3 Nb-95 1.86E+4
-1.03E+4 7.43E+3 7.83E+5
'l.09E+5 8.96E+2 Ru-103=
2.10E+3' 1.90E+5 1.61E+7 9.60E+5 1.24E+4 Ru-106 9.84E+4
.Ag-110m 1.38E+4 1.31E+4 2.50E+4 6.75E+6 2.73E+5 7.99E+3 Sb-124 4.30E+4 7.94E+2 9.76E+1 3.85E+6 3.98E+5 1.68E+4
.Sb-325 7.38E+4 8.08E+2 7.04E+1 2.74E+6 9.92E+4 1.72E+4 Te-125m 4.88E+3-2.24E+3 1.40E+3 5.36E+3 7.50E+4 6.67E+2 Te-127m 1.80E+4 8.16E+3 4.38E+3 6.54E+4 1.66E+6 1.59E+5 2.18E+3 Te-129m 1.39E+4 6.58E+3 4.58E+3 5.19E+4 1.98E+6 4.05E+5 2.25E+3 I-131 3.54E+4 4.91E+4 1.46E+7 8.40E+4 6.49E+3 2.64E+4 Cs-134 5.02E+5' l.13E+6 3.75E+5 1.46E+5 9.76E+3 5.49E+5 Cs-136 5.15E+4
- 1. 9 4 E +5 1.10E+5 1.78E+4 1.09E+4-1.37E+5 Cs-137 6.70E+5 8.48E+5-3.04E+5 1.21Et5 8.48E+3 3.11E+5 Ba-140 5.47E+4 6.70E+1 2.28E+1 2.03E+6 2.29E+5 3.52E+3 Ce-141 2.84E+4 1.90E+4 8.88E+3 6.14E+5 1.26E+5 2.17E+3 Ce-144' 4.89E+6 2.02E+6 1.21E+6 1.34E+7 8.64E+5 2.62E+5 Pr-143 1.34E+4 5.31E+3 3.09E+3 4.83E+5 2.14E+5 6.62E+2 Nd-147 7.86E+3 8.56E+3 5.02E+3 3.72E+5 1.82E+5 5.13E+2 O
49 Rev. 8
Hope Creek ODCM 7/29/87 TABLE 2-4t (Con't) i
)I PATHWAY DOSE. FACTORS - ATMOSPHERIC RELEASES 4
R(io) INHALATION PATHWAY FACTORS - CHILD (mrem /yr per uC1/m3)
Nuclide Bone Liver-Thyroid Kidney Lung GI-LLI Total Body 1.12E+3 1.12E+3 1.12E+3 1.12E+3
'l.12E+3 1.12E+3 H-3
,C-14 3.59E+4 6.73E+3 6.73E+3 6.73E+3 6.73E+3 6.73E+3-6.73E+3 4.22E+4 9.88E+4
- P-32 2.60E+6 1.14E+5 8.55E+1 2.43E+1
.l.70E+4-1.08E+3 1.54E+2 Cr-51 1.00E+4 1.58E+6 2.29E+4 9.51E+3 Mn-54 4.29E+4 1.llE+5 2.87E+3 7.778+3 lFe-55 4.74E+4 2.52E+4 1.27E+6 7.07E+4 1.67E+4 Fe-59 2.07E+4 3.34E+4 5.07E+5 1.32E+4 1.07E+3 9.03E+2
.Co-57 1.llE+6 3.44E+4 3.16E+3 1.77E+3
.Co-58 7.07E+6 9.62E+4 2.26E+4 1.31E+4 Co-60 2.75E+5 6.33E+3 2.80E+4 JNi-63 8.21E+5 4.63E+4 7.14E+4 9.95E+5 1.63E+4 7.03E+4 Zn-65 4.26E+4 1.13E+5 7.998+3 1.14E+5 1.98E+5 Rb-86 2.16E+6 1.67E+5 1.72E+4
,rRg-89 5.99E+5 1.48E+7 3.43E+5 6.44E+6 90 1.01E+B
-.Is291 2.63E+6 1.84E+5 2.44E+4 y
9,14E+5 5.96E+4 2.23E+6 6.11E+4 3.70E+4
.Zr-95 1.90E+5 4.18E+4 8.62E+3 6.14E+5 3.70E+4 6.55E+3 Nb-95 2.35E+4 9.18E+3 7.03E+3 6.62E+5 4.48E+4 1.07E+3
.Ru-103 2.79E+3 1.84E+5 1.43E+7 4.29E+5 1.69E+4 Ru-106 l'.36E+5-2.12E+4 5.48E+6 1.00E+5 9.14E+3 Ag-110m 1.69E+4 1.14E+4 3.24E+6 1.64E+5 2.00E+4
.Sb-124 5.74E+4 7'40E+2 1.26E+2 2.32E+6 4.03E+4 2.07E+4 Sb-125 9.84E+4 7.59E+2 9.10E+1 4.77E+5 3.38E+4 9.14E+2 LTe-125m 6.73E+3
- 2.33E+3 1.92E+3 Te-127m 2.49E+4 8.55E+3 7.14E+4 6.07E+3-6.36E+4 1.48E+6
'3.02E+3
.Te-129m 1.92E+4 6.85E+3 6.33E+3 5.03E+4 1.76E+6 1.82E+5 3.04E+3 2.84E+3 2'.73E+4 I-131 4.81E+4 14.81E+4 1.62E+7 7.88E+4 3.30E+5 1.21E+5 3.85E+3 2.25E+5 Cs-134 6.51E+5 1.01E+6 9.55E+4 1.45E+4 4.18E+3 1.16E+5 t
Cs-136 6.51E+4~
'1.71E+5 2.82E+5 1.04E+5 3.62E+3 1.28E+5 l
Cs-137-9.07E+5 8.25E+5 2.llE+1 1.74E+6 1.02E+5 4.33E+3 Ba-140 7.40E+4 6.48E+1 8.55E+3 5.44E+5 5.66E+4 2.90E+3 Ce-141 3.92E+4 1.95E+4
(
1.17E+6 1.20E+7 3.89E+5 3.61E+5 1
Co-144 6.77E+6 2.12E+6 3.00E+3 4.33E+5 9.73E+4 9.14E+2
-Pr-143 1.85E+4 5.55E+3 4.81E+3 3.28E+5 8.21E+4 6.81E+2 1.08E+4 8.73E+3 Od-147 l
50 Rev. 8 l
1 I
r 1
Hope-Creek ODCM 7/29/87 ]
TABLE 2-4 (Con't)
- [~ )
PATHWAY DOSE FACTORS - ATMOSPHERIC RELEASES
. k,.)
R(io) INHALATION PATHWAY FACTORS - INFANT 4
(mrem /yr per uCi/m3)
Nuclide-Bone Liver Thyroid Kidney Lung GI-LLI Total Body 6.47E+2 6.47E+2 6.47E+2 6.47E+2 6.47E+2 6.47E+2 H-3
.C-14 2.65E+4 5.31E+3 5.31E43 5.31E+3 5.31E+3 5.31E+3 5.31E+3 1.61E+4 7.74E+4 P-32 2.03E+6 1.12E+5 5.75E+1 1.32E+1 1.28E+4 3.57E+2 8.95E+1 Cr-51 2.53E+4 4.98E+3 1.00E+6 7.06E+3 4.98E+3 Mn -----
8.69E+4 1.09E+3 3.33E+3 Fe-55 1.97E+4 1.17E+4 1.02E+6 2.48E+4 9.48E+3 Fe-59 1.36E+4 2.35E+4 6.51E+2 3.79E+5 4.86E+3 6.41E+2 Co-57 7.77E+5 1.11E+4 1.82E+3
- 1.22E+3 Co-58 4.51E+6 3.19E+4 1.18E+4 8.02E+3
'Co-60 2.09E+5 2.42E+3 1.16E+4 Ni-63 3.39E+5 2.04E+4 2n-65 1.93E+4 6.26E+4 3.25E+4 6.47E+5 5.14E+4 3.llE+4 3.04E+3 8.82E+4 l.90E+5
/~8b -----
3-3.98E+5 2.03E+6 6.40E+4 1.14E+4
\\,f 89 1.12E+7 1.31E+5 2.59E+6 90 4.09E+7 s
2.45E+6 7.03E+4 1.57E+4 Y-91 5.88E+5 Zr-95 1.15E+5 2.79E+4 3.llE+4 1.75E+6 2.17E+4 2.03E+4 4.72E+3 4.79E+5 1.27E+4 3.78E+3 Nb-95 1.57E+4 6.43E+3 4.24E+3 5.52E+5 1.61E+4 6.79E+2
]
Ru-103
'2.02E+3 1.07E+5 1.16E+7
- 1. 6 4E4 5 1.09E+4 Ru-106 8.68E+4 1.09E+4 3.67E+6 3.30E+4 5.00E+3 Ag-110m 9.98E+3 7.22E+3 2.65E+6 5.91E+4 1.20E+4
'Sb-124 3.79E+4 5.56E+2 1.01E+2 1.64E+6 1.47E+4 1.09E+4 Sb-125 5.17E+4 4.77E+2 6.23E+1 Te-125m 4.76E+3 1.99E+3 1.62E+3 4.47E+5 1.29E+4 6.58E+2 Te-127m 1.67E+4 6.90E+3 4.87E+3 3.75E+4 1.31E+6 2.73E+4 2.07E+3 Te-129m 1.41E+4-6.09E+3 5.47E+3 3.18E+4 1.68E+6 6.90E+4 2.23E+3 I-131' 3.79E+4 4.44E+4 1.48E+7 5.18E+4 1.06E+3 1.96E+4 Cs-134 3.96E+5 7.03E+5 1.90E+5 7.97E+4 1.33E+3 7.45E+4 Cr.-136 4.83E+4 1.35E+5 5.64E+4 1.18E+4 1.43E+3 5.29E+4 Cs-137 5.49E+5 6.12E+5 1.72E+5 7.13E+4 1.33E+3 4.55E+4 Ba-140 5.60E+4 5.60E+1 1.34E+1 1.60E+6 3.84E+4 2.90E+3
<Ce-141 2.77E+4 1.67E+4 5.25E+3 5.17E+5 2.16E+4 1.99E+3 1
Ce-144 3.19E+6 1.21E+6 5.38E+5 9.84E+6 1.48E+5 1.76E+5 1.40E+4 5.24E+3 I (r-143 1.97E+3 4.33E+5 3.72E+4 6.99E+2 l-147 7.94E+3 3.13E+3 3.15E+3 3.22E+5 3.12Ev4 5.00E+2 W
8{
51 Rev.
Hope Creek ODCM 7/29/87 TABLE 2-4 (Con't)
(
PATHWAY DOSE FACTORS - ATMOSPHERIC RELEASES R(io) GRASS-COW-MILK PATHWAY FACTOR - ADULT (mrem /yr per uCi/m3) for H-3 and C-14 (m2
- mrem /yr per uCi/sec) for others Nuclide Bone Liver Thyroid Kidney Luno GI-LLI Total Body 7.63E+2 7.63E+2 7.63E+2 7.63E+2 7.63E+2 7.63E+2 H-3
.C-14 3.63E+5 7.26E+4 7.26E+4 7.26E+4 7.26E+4 7.26E+4 7.26E+4 1.92E+9 6.60E+8 P-32 1.71E+10 1.06E+9 1.71E+4 6.30E+3 3.80E+4 7.20E+6 2.86E+4 l
Cr-51 2.50E+6 2.57E+7 1.60E+6 l
8.40E+6 Mn-54 9.67E+6 9.95E+6 4.04E+6 Fe-55 2.51E+7 1.73E+7 1.95E+7 2.33E+8 2.68E+7 Fe-59 2.98E+7 7.00E+7 3.25E+7 2.13E+6 1.28E+6 Co-57 4.72E+6 9.57E+7 1.06E+7 Co-58 3.08E+8 3.62E+7 l
1.64E+7 Co-60 Ni-63 6.73E+9 4.66E+8 9.73E+7 2.26E+8 2n-65 1.37E+9 4.36E+9 2.92E+9 2.75E+9 1.97E+9 J
1.66E+4 5.90E+4 1.35E+5
-86 2.33E+8 4.16E+7
, -89 1.45E+9 1.35E+9 1.15E+10 S -90 4.68E+10 4.73E+6 2.30E+2 Y-91 8.60E+3 Zr-95 1.07E+5 3.44E+4 5.24E+4 1.77E+6 1.50E+5 2.33E+4 Nb-95 1.41E+4 7.82E+3 7.74E+3 5.05E+5 1.04E+5 4.21E+3 Ru-103 1.02E+3 3.89E+3 1.19E+5 4.39E+2 Ru-106 2.04E+4 3.94E+4 1.32E+6 2.58E+3 Ag-110m 5.83E+7 5.39E+7 2.20E+10 3.20E+7 1.06E+8 2.00E+7 7.31E+08 4.86E+6 Sb-124 2.57E+7 4.86E+5 6.24E+4
.Sb-125 2.04E+7 2.28E+5 2.08E+4 1.58E+7 2.25E+8 2.18E+6 Te-125m 1.63E+7 5.90E+6 4.90E+6 6.63E+7 6.50E+7 2.18E+6
)
Te-127m 4.58E+7 1.64E+7 1.17E+7 1.86E+8 1.54E+8 5.58E+6
.Te-129m 6.04E+7 2.25E+7 2.08E+7 2.52E+8 3.04EA8 9.57E+6 1.12E+8 2.43E+8 I-131 2.96E+8 4.24E+8 1.39E+11 7.27E+8
.Cs-134 5.65E+9 1.34E+10 4.35E+9 1.44E+9 2.35E+8 1.10E+10
.Cs-136 2.61E+8 1.03E+9 5.74E+8 7.87E+7 1.17E+8 7.42E+8 3.43E+9 1.14E+9 1.95E+8 6.61E+9 Cs-137.
7.38E+9 1.01E+10 Ba-140 2.69E+7 3.38E+4 1.15E+4 1.93E+4 5.54E+7 1.76E+6 1.25E+7 3.71E+2 1.52E+3 Ce-141 4.84E+3 3.27E+3 Ce-144 3.58E+5 1.50E+5 1.21E+8 1.92E+4 8.87E+4 0143 1.59E+2 6.37E+1 3.68E+1 6.96E+5 7.88E+0 147 9.42E+1 1.09E+2 6.37E+1 5.23E+5.
6.52E+0 8l 52 Rev.
Hope Creek ODCM 7/29/87 l r
. TABLE 2-4 (Con't)
'/
. PATHWAY DOSE FACTORS - ATMOSPHERIC RELEASES
- mrem /yr per uCi/sec) for others Nuclide Bone Liver Thyroid Kidney Lung GI-LLI Total Body 9.94E+2 9.94E+2 9.94E+2 9.94E+2 9.94E+2 9.94E+2
'H-3.
'C-14 6.70E+5' l.34E+5 1.34E+5-1.34E+5 1.34E+5 1.34E+5 1.34E+5 2.65E+9 1.22E+9
- P-32 3.15E+10 1.95E+9
-2.78E+4 1.10E+4 7.13E+4 8.40E+6 5.00E+4 Cr-51 2.87E+7 2.78E+6 4.17E+6 Mn-54 1.40E+7 2.00E+7 1.37E+7 7.36E+6 Fe 4.45E+7 3.16E+7 3.82E+7 2.87E+8 4.' 6 8 E + 7 Fe-59 45.20E+7' l.21E+8 4.19E+7 3.76E+6 2.25E+6 Co-57 1.10E+8 1.83E+7 7.95E+6
.Co-58 3.62E+8 6.26E+7-2.78E+7 Co-60 1.33E+8 4.01E+8
.Ni-63 1.18E+10 8.35E+8 3.10E+9 3.41E+9 4.68E+9 2n-65 2.llE+9 7.31E+9 7.00E+8 2.22E+9 4.73E+9 nb-86
\\ur)-90 3.18E+8 7.66E+7
-89 2.67E+9 a
9.60E+6 7.22E+5 6.10E+6 9.92E+7-6.48E+6 4.24E+2 Y-911 1.58E+4
'Zr-95 1.65E+3 5.22E+2 1.20E+6 3.59E+2 7.67E+2 3.34E+8 4.30E+4 7.57E+4 Nb-95 1.41E+5 7.80E+4 1.52E+5 7.75E+2 6.40E+3 Ru-103
.l.81E+3 1.80E+6 4.73E+3 7.23E+4 Ru-106 3.75E+4 2.56E+10 5.54E+7 1.74E+8 Ag-110m-9.63E+7 9.11E+7 4.01E+7 9.25E+8 1.79E+2 l
Sb-124 4.59E+7 8.46E+5 1.04E+5 3.21E+7 2.84E+8 8.54E+6 i
Sb-125 3.65E+7 3.99E+5 3.49E+4 8.86E+7 4.02E+6 Te-125m 3.00E+7 1.08E+7 8.39E+6 2.10E+8 1.00E+7 Te-127m 8.44E+7 2.99E+7 2.01E+7 3.42E+8 Te-129m 1.llE+8 4.10E+7 3.57E+7 4.62E+8 4.15E+8 1.75E+7 I-131 5.38E+8 7.53E+8 2.20E+11 1.30E+9 1.49E+8 4.04E+8 7.34E+9 2.80E+9 2.87E+8 1.07E+10 Cs-134 9.81E+9 2.31E+10 9.53E+8 1.50E+8 1.41E+8 1.18E+9 Cs-136 4.45E+8 1.75E+9 Cs-137 1.34E+10 1.78E+10 6.06E+9 2.35E+9 2.53E+8 6.20E+9 2.02E+4 4.00E+4 7.49E+7 3.13E+6 Ba-140 4.85E+7 5.95E+4 6.26E+3 3.62E+5 1.20E+5 1.53E+3
.- C 3-141 1.99E+4 1.35E+4 Ce-144 6.58E+5 2.72E+5 1.63E+5 1.66E+8 3.54E+4 (r-143 9
2.92E+2 1.17E+2 6.77E+1 9.61E+5 1.45E+1 y-147 1.16E+2 7.llE+5 1.18E+1 1.81E+2 1.97E+2 53 Rev. 8
W' Hope. Creek ODCM. 7/29/87 TABLE 2-4 (Con't) b-(s/
PATHWAY DOSE FACTORS - ATMOSPHERIC RELEASES R(lo) GRASS-COW-MILK PATHWAY FACTOR - CHILD (mrem /yr per_uCi/m3) for H-3 and C-14' (m2
- mrem /yr per uCi/sec) for others
'Nuclide Bone Liver.
Thyroid Kidney Lung
'GI-LLI Total Body.
.H-3 1.57E+3 1.57E+3 1.57E+3 1.57E+3 1.57E+3 1.57E+3 C-14 1.65E+6 3;29E+5 3.29E+5 3.29E+5 3.29E+5-3.29E+5 3.29E+5 2.15E+9 3.00E+9 P-32=
7.77E+10 04 64E+9 5.66E+4 1.55E+4 1.03E+5 5.41E+6 1.02E+5 Cr -----
1.76E+7 5.58E+6' 5.87E+6 2.09E+7
.Mn-54 3.35E+7 1.10E+7 1.84E+7
'Fe-55:
1.12E+8 5.93E+7 5.65E+7-2.03E+8 9.71E+7-Fe 1.20E+8 1.95E+8 3.14E+7 7.77E+6
-3.84E+6 Co-57 7.08E+7 3.72s+7 1.21E+7 Co-58 2.39E+8 1.27E+8 4.32E+7 Co-60 1.07E+8 1.01E+9 Ni-63 2.96E+10 1.59E+9.
1.93E+9 6.85E+9 6.94E+9 Zn-65 4.13E+9 1.10E+10 5.64E+8 5.39E+9 8.77E+9 j(r' -86 2.56E+8 1.89E+8
,-89 6.62E+9 1.51E+9 2.83E+10 Sr-90
'l.12E+11 2.63E+6 1.84E+5 2.44E+4 Y-91 9.14E+5
-2r-95 3.84E+3' 8.45E+2 8.81E+5 7.52E+2 1.21E+3 2.29E+8 8.84E+4 Nb-95 3.18E+5 1.24E+5 1.16E+5 1.llE+5 1.65E+3 1.08E+4
'Ru-103 4.29E+3 1.44E+6 1.15E+4 1.25E+5 Ru-106
-9.24E+4 1.6dE+10 1.13E+8 Ag-110m-
_2.09E+8 1.41E+8 2.63E+8 6.03E+8 6.79E+8 1.82E+7 Sb-124 1.09E+8
-1.41E+8 2.40E+5 4.85E+7 2.08E+8 9.84E+6
.Sb-125 8.70E+7 1.41E+6 8.06E+4 7.12E+7 9.84E+6 Te-125m 7.38E+7 2.00E+7 2.07E+7 1.68E+8-2.47E+7 Te-127m-2.08E+8 5.60E+7 4.97E+7 5.93E+8.
3.32E+8 4.23E+7 Te-129m 2.72E+8 7.61E+7 8.78E+7 8,00E+8 1.17E+8 7.46E+8 I-131 1.30E+9 1.31E+9 4.34E+11 2.15E+9 1.15E+10 4.13E+9 2.00E+8 7.83E+9 Cs-134 2.26E+10 3.71E+10 1.47E+9 2.19E+8 9.70E+7 1.79E+9 Cs-136
.l.00E+9 2.76E+9 1.01E+10 3.62E+9 1.93E+8 4.55E+9
/Cs-137-3.22E+10 3.09E+10 Ba 140 1.17E+8 1.03E+5 3.34E+4 6.12E+4 5.94E+7 6.84E+6 1.36E+7 1.62E+3 4.78E+3 Ce-141 2.19E+4 1.09E+4 1.33E+8 8.66E+4 Ce-144 1.62E+6 5.09E+5 2.82E+5 t -143 7.23E+2 2.17E+2 1.17E+2 7.80E+5 3.59E+1 i,]j-147 5.71E+5 2.79E+1 4.45E+2 3.60E+2 1.98E+2 s
8{
54 Rev.
1 Hope Creek ODCM 7/29/87 l
TABLE 2-4 (Con't) t PATHWAY DOSE FACTORS - ATMOSPHERIC RELEASES R(lo) GRASS-COW-MILK PATHWAY FACTOR - INFANT j
(mrem /yr per uci/m3) for-H-3 and C-14 (m2
- mrem /yr per uCi/sec) for others Nuclide Bone Liver Thyroid Kidney Lung GI-LLI Total Body i
J L
~
2.38E+3-
'2.38E+3 2.38E+3 2.38E+3' 2.38E+3 2.38E+3 i
'H-3 I
C-14 3.23E+6 6.89E+5-6.89E+5 6.89E+5 6.89E+5
~6.89E+5 6.89E+5 2.17E+9 6.21E+9 I
P-321 1.60E+11
'9.42E+9 1.05E+5 2.30E+4. 2.05E+5 4.71E+6 1.61E+5-
'Cr-51 l
3.89E+7 8.63E+6 1.43E+7-8.83E+6 l
.Mn-54 4.27E+7 1.llE+7 2.33E+7 Fe-55 1.35E+8 8.72E+7-1.16E+8 1.88E+8 1.55E+8-I L
?Fe-59 2.25E+8 3.93E+8 3.05E+7 1.46E+7-8.95E+6 Co -----
6.05E+7 6.06E+7 2.43E+7 Co-58 2.10E+8 2.08E+8 8.81E+7 Co-60 1.07E+8 1.21E+9 Ni 3.49E+10 2.16E+9 1.61E+10-8.78E+9-2n-65 5.55E+9 1.90E+10 9.23E+9 i. 'p), 8 6.
5.69E+8 1.10E+10 2.22E+10
(_ -89 1.26E+10 2.59E+8 3.61E+8-Sr-90 1.22E+11 1.52E+9 3.10E+10 5.26E+6 1.95E+3 Y-91 7.33E+4 i
Zr-95 6.83E+3 1.66E+3 1.79E+3 8,28E+5 1.18E+3 2.06E+8 1.41E+5 Nb-95 5.93E+5 2.44E+5 1.75E+5 1.81E+4 1.06E+5 2.91E+3' Ru-103 8.69E+3 Ru-106 1.90E+5 2.25E+5 1.44E+6 2.38E+4 Ag-110m' 3.86E+8 2.82E+8 1.46E+10 1.86E+8 4.03E+8 Sb-124 2.09E+8 3.08E&6 5.56E+5 1.31E+8 6.46E+8 6.49E+7 Sb-125 1.49E+8 1.45E+6 1.87E+5 9.38E+7 1.99E+8 3.07E+7 Te-125m 1.51E+8 5.04E+7 5.07E+7 7.18E+7 2.04E+7
.Te-127m-4.21E+8 2.40E+8 1.22E+8 1.04E+9 1.70E+8 5.10E+7 Te-129m 5.59E+8 1.92E+8 2.15E+8 1.40E+9 3.34E+8 8.62E+7 I-131 2.72E+9 3.21E+9 1.05E+12 3.75E+9 1.15E+8 1.41E+9 Cs-134-3.65E+10 6.80E+10' 1.75E+10 7.18E+9 1.85E+8 6.87E+9 Cs-136 1.96E+9 5.77E+9 2.30E+9-.4.70E+8 8.76E+7 2.15E+9
-Cs-137 5.15E+10 6.02E+10 1.62E+10 6.55E+9 1.88E+8 4.27E+9 Ba-140 2.41E+8 2.41E+5 5.73E+4 1.48E+5 5.92E+7 1.24E+7 Ce-141 4.33E+4 2.64E+4 8.15F+3 1.37E+7 3.11E+3 Ce-144 2.33E+6 9.52E+5 3.85E+5 1.33E+8 1.30E+5 O143' l.49E+3 5.59E+2 2.08E+2 7.89E+5 7.41E+1 147 8.82E+2 9.06E+2 3.49E+2 5.74E+5 5.55E+1 55 Rev. 8[
a; Hope Creek ODCM. 7/29/87 k
PATHWAY DOSE CTORb ATM P ERIC RELEASES R(lo) VEGETATION. PATHWAY FACTOR - ADULT (mrem /yr per uC3/m3) for H-3 and C-14 (m2
- mrem /yr per uCi/sec) for others Nuclide' Bone Liver
' Thyroid Kidney Lung GI-LLI
_ Total Body' 2.26E+3 2.26E+3 2.26E+3 2.26E+3 2.26E+3 2.26E+3 H-3.
C-14 8.97E+5 1.79E+5 1.79E+5 1.79E+5 1.79E+5 1.79E+5 1.79E+5 1.58E+8 5.42E+7 P-32 1.4CE+9-d.73E+7 2.79E+4 1.03E+4 6.19E+4 1.17E+7 4.66E+4
- Cr-51 Mn-541-9.54E+8 5.94E+7-9.27E+7 3.llE+8 8.06E+7 8.29E+7 3.37E+7' Fe-55 2.09E+8 1.45E+8 8.35E+7 9.96E+8 1.14E+8 Fe 1.27E+8 2.99E+8 2.97E+8 1.95E+7 1.17E+7 Co -----
6.26E+8 6.92E+7 3.09E+7 Co -----
3.14E+9 3.69E+8
-Co-60 1.67E+8 1.50E+8 3.49E+8
'Ni-63 1.04E+10 7.21E+8 6.36E+8 4.56E+8 Zn 3.17E+8 1.01E+9 6.75E+8 D-]-86 4.32E+7 1.02E+8
.l.19E+8
'((jf-89.
9.96E+9 1.60E+9 2.86E+8 1.75E+10 1.48E+11.
St-90 6.0SE+11 2.82E+9 1.37E+5 Y-91 5.13E+6 5.97E+5 1.21E+9 2.58E+5 Zr-95
.l.19E+6 3.81E+5 Nb-95 1.42E+5 7.91E+4 7.81E+4 4.80E+8 4.25E+4 1.83E+7 5.61E+8 2.07E+6 Ru-103 4.80E+6 1.25E+10 2.44E+7
.Ru-106 1.93E+8 3.72E+8 Ag-110m 1.06E+7 9.76E+6 1.92E+7 3.98E+9 5.80E+6 Sb-124 1.04E+8 1.96E+6 2.52E+5 8.08E+7 2.95E+9 4.11E+7 Sb-125 1.36E+8 1.52E+6 1.39E+5 1.05E+8 1.50E+9 3.25E+7 Te-125m 9.66E+7 3.50E+7 2.90E+7 3.93E+8 3.86E+8 1.29E+7 Te-127m.
'3.49E+8 1.25E+8 8.92E+7 1.42E+9 1.17E+9 4.26E+7 Te-129m 2.55E+8 9.50E+7 8.75E+7 1.06E+9 1.28E+9 4.03E+7 I-131 8.09E+7 1.16E+8 3.79E+10 1.988+8 3.05E+7 6.63E+7 LCs-134 4.66E+9 1.llE+10 3.59E+9 1.19E+9 1.94E+8 9.07E+9 Cs-136 4.20E+7 1.66E+8 9.24E+7 1.27E+7 1.89E+7 1.19E+8
- Cs-137 6.36E+9 8.70E+9 2.95E+9 9.81E+8 1.68E+8 5.70E+9 LBa-140 1.29E+8 1.62E+5 5.49E+4 9.25E+4 2.65E&8 8.43E+6
-Ce-141' l 96E+5 1.33E+S 6.17E+4 5.08E+8 1.51E+4 Ce-144 3.29E+7 1.38E+7 8.16E+6 1.llE+10 1.77E+6 O143 6.34E+4 2.54Ev4 1.47E+4 2.78E+8 3.14E+3 147-3.34E+4 3.86E+4 2.25E+4 1.85E+8 2.31E+3 56 Rev. 8
Hope Creek ODCM 7/29/87 l TABLE 2-4 (Con't) j,.
PATHWAY DOSE FACTORS - ATMOSPHERIC RELEASES s.
R(io) VEGETATION PATHWAY FACTOR - TEENAGER (mrem /yr per uCi/m3) for H-3 and C-14 (m2
- mrem /yr per.uCi/sec) for others.
'l Nuclide Bone Liver Thyroid Kidney Lung GI-LLI Total Body
' 2. 5 9E+3' 2.59E+3 2.59E+3 2.59E+3 2.59E+3 2.59E+3 H -----
C-14 1.45E+6 2.91E+5 2.91E+5 2.91E+5 2.91E+5 2.91E+5 2.91E+5 1.35E+8 6.23E+7 P-32 1.61E+9 9.96E+7 3.44E+4 1.36E+4 8.85E+4-1.04E+7 6.20E+4 Cr-51 Mn-54 4.52E+8 1.35E+8 9.27E+8 8.97E+7 Fe-55 3.25E+8 2.31E+8 1.46E+8 9.98E+7
'5.38E+7 Fe-59 1.81E+8 4.22E+8 1.33E+8 9.98E+8 1.63E+8 1.79E+7 3.34E+8 3.00E+7
]
Co-57 4.38E+7 6.04E+8 1.01E+8 Co-58 2.49E+8 3.24E+9 5.60E+8 Co-60 Ni-63 1.61E+10 1.13E+9 1.81E+8 5.45E+8 2n-65
'4.24E+8 1.47E+9 9.41E+8 6.23E+8' 6.86E+8 (s.]t-89
/' )-86 2.73E+8 4.05E+7
'1.28E+8 1.51E+10 1.80E+9 4.33E+8 Sr-90 7.51E+11 2.llE+10 1.85E+11 Y-91 7.87E+6 3.23E+9 2.llE+5 1.27E+9 3.78E+5 i
Zr-95 1.74E+6 5.49E+5 8.07E+5 4.55E+8 5.86E+4
]
Nb 1.92E+5 1.06E+5 1.03E+5 Ru-103 6.87E+6 2.42E+7 5.74E+8 2.94E+6 1
Ru-106 3.09E+8 5.97E+8 1.48E+10 3.90E+7
]
Ag-110m 1.52E+7 1.44E+7 2.74E+7 4.04E+9 8.74E+6 Sb-124 1.55E+8 2.85E+6 3.51E+5 1.35E+8 3.llE+9 6.03E+7 i
1.88E+8 1.66E+9 5.00E+7 I
Sb-125 2.14E+8 2.34E+6 2.04E+5
.Te-125m 1.48E+8 5.34E+7 4.14E+7 4.37E+8 1.98E+7 Te-127m 5.51E+8 1.96E+8 1.31E+8 2.24E+9 1.37E+9 6.56E+7 1.38E+9 5.81E+7 i
Te-129m 3.67E+8 1.36E+8 1.18E+8 1.54E+9 I-131 7.70E+7 1.08E+8 3.14E+10 1.85E+8 2.13E+7 5.79E+7 Cs-134 7.09E+9 1.67E+10 5.30E+9 2.02E+9 2.08E+8 7.74E+9 Cs-136 4.29E+7 1.69E+8 9.19E+7 1.45E+7 1.36E+7 1.13E+8 l
Cs-137 1.01E+10 1.35E+10 4.59E+9 1.78E+9 1.92E+8 4.69E+9 Ba-140 1.38E+8 1.69E+5 5.75E+4 1.14E+5 2.13E+8 8.91E+6 Ce-141 2.82E+5 1.88E+b 8.86E+4 5.38E+8 2.16E+4 e-144 5.27E+7 2.18E+7 1.30E+7 1.33E+10 2.83E+6
\\
- 143'
.7.12E+4 2.84E+4 1.65E+4 2.34E+8 3.55E+3 147 3.63E+4 3.94E+4 2.32E+4 1.42E+8 2.36E+3
)
l i
57 Rev. 8{
Hope Creek ODCM 7/29/87 TABLE 2-4 (Con't) l
()
PATHWAY DOSE FACTORS -- ATMOSPHERIC RELEASES R(io) VEGETATION PATHWAY FACTOR - CHILD 1
(mrem /yr per uCi/m3) for H-3 and C-14 I
(m2
- mrem /yr per uCi/sec) for others Nuclide Bone Liver Thyroid Kidney Lung GI-LLI Total Body
]
i 4.01E+3 4.01E+3 4.01E+3
- 4. ole +3 4.01E+3-4.01E+3 l
H-3 I
C-14 3.50E+6 7.01E+5 7.01E+5 7.01E+5 7.01E+5 7.01E+5 7.01E+5 9.30E+7 1.30E+8
.P-32 3.37E+9 1.58E+8 6.54E+4 1.79E+4 1.19E+5 6.25E+6
.l'.18E+5 Cr-51 5.55E+8 1.76E+8 6.61E+8 1.85E+8 Mn-54.
2.40Er8 7.86E+7 1.31E+8 i
Fe 8.00E+8 4.24E+8 1.888+8 6.76E+8 3.23E+8 Fe-59 4.01E+8
.6.49E+8 2.45E+8 6.04E+7 2.99E+7 Co -----
3.77E+8 1.98E+8 Co-58 6.47E+7 2.10E+9 1.12E+9 3.78E+8 Co-60 1.42E+8 1.34E+9 Ni-63 3.95E+10 2.llE+9 3.80E+8 1.35E+9 Zn-65 8.12E+8 2.16E+9 1.36E+9 2.91E+7 2.78E+8 4.52E+8 "b-86
)-89 3.59E+10 1.39E+9' l.03E+9
+
'.g 1.67E+10 3.15E+11 sr-90 1.24E+12 2.49E+9 5.01E+5
.Y-91 1.87E+7 Zr-95 3.90E+6 8.58E+5 1.23E+6 8.95E+8 7.64E+5 Nb-95 4.10E+5 1.59E+5 1.50E+5 2.95E+8 1.14E+5
-Ru-103 1.55E+7 3.89E+7 3.99E+8 5.94E+6
-Ru-106 7.45E+8 1.01E+9 1.16E+10 9.30E+7 Ag-110m 3.22E+7 2.17E+7 4.05E+7 2.58E+9 1.74E+7 Sb-124 3.52E+8 4.57E+6 7.78E+5 1.96E+8 2.20E+9 1.23E+8 Sb-125 4.99E+8 3.85E+6 4.62E+5 2.78E+8 1.19E+9 1.05E+8 3.38E+8 4.67E+7 To-125m 3.51E+8 9.50E+7 9.84E+7 Te-127m-1.32E+9 3.56E+8 3.16E+8 3.77E+9 1.07E+9 1.57E+8 1.04E+9 1.33E+8 Te-129m 8.54E+8 2.39E+8 2.75E+8 2.51E+9 I-131 1.43E+8 1.44E+8 4.76E+10 2.36E+8 1.28E+7 8.18E+7 Cs-134 1.60E+10 2.63E+10 8.14E+9 2.92E+9 1.42E+8 5.54E+9 Cs-136 8.06E+7 2.22E+8 1.18E+8 1.76E+7 7.79E+6 1.43E+8
,Cs-137 2.29E+10 2.29E+10 7.46E+9 2.68E+9 1.43E+G 3.38E+9 Ba-140 2.77E+8 2.43E+5 7.90E+4 1.45E+5 1.42 8
1.62E+7 Ce-141 1.23E+5 6.14E+4 2.69E+4 7.664e7 9.12E+3 Co-144 1.27E+8 3.98E+7 2.21E+7 1.04E+10 6.78E+6
";-143 1.48E+5 4.46E+4 2.41E+4 1.60E+8 7.37E+3
$-147 7.168+4 5.80E+4 3.18E+4 9.18E+7 4.49E+3 58 Rev. 8l
Hope Creek ODCM 7/29/87 l TABLE 2-4-(Con't)
' PATHWAY DOSE FACTORS - ATMOSPHERIC RELEASES R(io) GROUND PLANE PATHWAY PACTOR (m2
- mrem /yr per uCi/sec)
Nuclide Any Organ 3
g_
.P-32 Cr-51 4.68E'6
-Mn-54 1.34E 9 Fe-55 Fe-59 2.75E 8 Co-58 3.82E 8 Co-60 2.16E10 Ni-63 2n-65 7.45E.8 Rb 8.98E 6 Sr 2.16E 4
=
Sr-90 Y-91 1.08E 6 Zr-95~
2.48E 8 Nb-95 1.36E 8 Ru-103 1.09E 8 Ru-106 4.21E 8 Ag-110m 3.47E 9
.Te-125m 1.55E 6 Te-127m 9.17E 4 Te-129m 2.00E 7 I-131 1.72E 7 Cs-134 6.75E'9 Cs-136 1.49E 8 Cs-137-1.04E10 Ba-140 2.05E 7 Ce-141 1.36E 7' Ce-144 6.95E 7 Pr-143 Nd-147 8.40E 6 0
59 Rev. 8l
d i
1 Hope Creek ODCM 7/29/87 I
i C
r l
l i
APPENDIX A EVALUATION OF DEFAULT MPC VALUES l
FOR LIQUID EFFLUENTS 4
O A-1 Rev. 8 l
Hope Creek ODCM 7/29/87 l
g i
4 APPENDIX A
\\_/
Evaluation of Default MPC Value for Liquid Effluents In accordance with the requirements of Technical Specification 3.3.3.10 the radioactive effluent monitors shall be operable with alarm setpoints established to ensure that the concentration of radioactive material at the discharge point does not exceed the MPC value of 10 CFR 20, Appendix B, Table II, Column 2.
The determination of allowable radionuclides concentration and corresponding alarm setpoint is a function of the individual radionuclides distribution and corresponding MPC values.
In order to limit the need for routinely having to reestablish the alarm setpoints as a function of changing radionuclides j
distributions, a default alarm setpoint can be established.
T F. is l
[^)
default setpoint can be based on an evaluation of the radionuclides distribution from the Hope Creek FSAR, Section 11.2, Table 11.2-11 of the liquid effluents from Hope Creek and the effective MPC value for this distribution.
The effective MPC value for a radionuclides distribution is calculated by the equation:
Ci / { (Ci/MPCi)
(A.1)
MPCe
=
where:
an effective MPC value for a mixture of MPCe
=
radionuclides (uCi/ml)
Ci concentration of radionuclides i in the mixture
=
MPCi the 10 CFR 20, Appendix B, Table II, Column 2
=
MPC value for radionuclides i (uCi/ml)
A-2 Rev. 8
l Hope Creek ODCM 7/29/87 t
s_/
Based on the above equation and the radionuclides distribution in the effluents for Hope Creek from FSAR Table 11.2-11 (Expected Yearly Activity Released from Liquid Radwaste Management).
in Ta'le A-1.
b Results are presented Considering the average effective MPC values from FSAR Table 11.2-11 it is reasonable to select an MPC value of 1 9E-05 uCi/ml as typical of liquid radwaste discharges.
This value will be
-i reviewed and adjusted as necessary based on the distribution history of effluents from Hope Creek.
Using the value of uCi/ml l
to calculate the default alarm setpoint, results in a setpoint that:
1)
Will not require frequent re-adjustment due to minor variations in the nuclide distributi$n which are typical of routine plant operations, and; (G) 2)
will provide for a liquid radwaste discharge rate (as evaluated for each batch release) t h'a t is compatible with plant operations (Refer to TabIe 1-1).
t.
O l
A-3 Rev. 8
,,'t' t
Hope Creek ODCM 7/29/87
\\
f'N x
'd TABLE A-1' CALCULATION OF EFFECTIVE MPC
\\
r HOPE CREEK s
EXPECTED ACTIVITY
- NUCLIDE MPC RELEASED (Ci) j NaCk' 3.0E-05 9.3E-03 2
s P. 2.0E-05 7.0E-04 4
Cr-51 2.0E-03 2.3E-02 4
Mn-54 1.0E-04 1.3E-03 Fe-55 8.0E-04 4.3E-03 Mn-56 1.0E-04 5.4E-03 Co-58 9.0E-05 4.8E-03 Fe-59 6.0E-05 1.2E-04 Co-60 3.0E-05 1.0E-02 Cu-64 3.0E-04 2.4E-02' Ni-65 1.0E 3.2E-05
(]
Zn -69m 7.0E-05 1.7E-03 v
)
Br-83 3.0E-06 3.6E-04 J
Sr-89 3.0E-06 4.lE-04 1
(
Sr-90 3.0E-07 3.0E-05 I
Y-90 2.0E-05 1.4E-05 Sr-91 7.0E-05 2.4E-03 i
j Y-91m 3.0E-03 1.5E-03 J
Y-91 3.0E-05 2.6E-04 l.
Sr-92 7.OE-05 1.2E-03 Y-92
' 6.0E-05 2.9E-03 J'
Y-93 3,0E-05 2.6E-03 Nb-95 1.0E-04 2.03E-3 Zr-95 6.0E-05 1.4E-03 Tc-99m 6.0E-03 1.lE-02
'Ru-103 8.0E-05 2.2E-04 2
hh-103m 1.OE-02 7.9E-05 Ru-105 1.0E-04 4.8E-04 Ru-106-1.0s-05 4.3E-04 Ag-110n 3.0E-SS 1.3E-05 j
Te-129m 3.0E-OS 4.4E-04 Te-129-8.0E-04' l.6E-04 Te-131m 6.0E,05, 1.0E-04 i
(Cont'd) 1 l
A-4 Rev. 8 1
i
t Hope Creek ODCM 7/29/87 f ~\\.
-b l
TABLE A-1 (CONT'D)
CALCULATION OF EFFECTIVE MPC HOPE CREEK EXPECTED ACTIVITY
- NUCLIDE MPC RELEASED (Ci)
I-131 3.0E-07 2.9E-05
.Te-132 3.0E-05 1.0E-01 I-132 8.0E-06 2.5E-05 I-13' 1.0E-06 3.4E-03 I-134 2.0E-05 4.4E-02 Cs-134 9.0E-06 9.lE-04 I-135 4.0E-06 1.3E-02 Cs-136 9.0E-05 1.lE-02 C s -137 2.0E-05 1.1L-03 Ba-140 2.0E-05 1.4E-03 La-109 2.0E-05 7.3E-04 La-14l 3.0E-06 1.7E-04
/~~)
Ce-141 9.0E-05 1.3E-04
's_,/
Ce-143 4.0E-05 5.0E-05 Pr-143 5.0E-05 1.5E-04 Ce-144 1.0E-05 5.2E-03 W-187 7.0E-05 4.1E-04 Np-239 1.0E-04 1.5E-02 All Ocners 3.0E-08 4.3E-05 TOTAL 3.lE-01 SUM (Ci/MPCi) 1.6E+04 MPCe (uCi/ml) 1.9E-05
- From Hope Creek Final Safety Analysis Report, Table 11.2-11.
O A-5 Rev. 8 l
Hope Creek ODCM 7/29/87
. 13 APPENDIX B TECllNICAL BASIS FOR EFFECTIVE DOSE FACTORS LIQUID RADIOACTIVE EFFLUENT l
I i
1 O
B-1 Rev. 8
Hope Creek ODCM 7/29/87 l
%.-)
APPENDIX B Technical Basis for Effe:.tive Dose Factors -
Liquid Effluent Releases The expected radioactive liquid effluents from Hope Creek FSAR (Table 11.2-12) were evaluated to determine the dose contribution of the radionuclides distribution.
This analysis was performed to evaluate the use of a limited dose analysis for determining environmental doses, providing a simplified method of determining compliance with the dose limits of Technical Specification 3.11.1.2.
For the expected radionuclides distribution of effluents from Hope Creek FSAR (Table 11.2-12), the controlling organ is the GI-LLI.
The calculated GI-LLI dose is predominately a function of the Nb-95, Mn-54, Mn-56 and Ce-144 releases.
The radionuclides, Co-58 and Co-60 contribute the large majority of the calculated total body dose.
The results of this evaluation are presented in Table B-1.
For purposes of simplifying the details of the dose calculation process, it is conservative to identify a controlling, dose
()/
significant radionuclides and limit the calculation process to the
\\-
use of the dose conversion factor for this nuclide.
Multiplication of the total release (i.e.,
cumulative activity for all radionuclides) by this dose conversion factor provides for a dose calculation method that is simplified.~hile also being conservative.
For the evaluation of the maximum organ dose, it is conservative to use the Nb-95 dose conversian factor (1.51E6 mrem /hr per uCi/ml, CI-LLI).
By this approach, the maximum organ dose will I
be overestimated since this nuclide has the highest orga.n dose factor of all the radionuclides evaluated.
For the total body calculation, the Cs-134 dose factor (5.48E5 mrem /hr per uCi/ml, i
total body) is the highest amoung the identified dominant nuclides.
For evaluatir.g compliance with the dose limits of Technical Specification 3.11.1.2, the following simplified equations may be used:
1 Total Body 1.67E-02 VOL Ai,TB
- ECi Dtb
=
CTBD OV B-2 Rev. 8 l
Hope Creek ODCM 7/29/87 f'x 1
ih Where:
dose to the total body (mrem)
Dtb
=
6.48E5, total body ingestion dose conversion Ai,TB
=
factor for Cs-134 where A is dose conversion factor, i is isotope which is Cs-134, and TB is the' total body (mrem /hr per uCi/ml) volume of liquid effluent released (gal) i VOL
=
total concentration of all radionuclides (uCi/ml)
C
=
average cooling tower blowdown discharge rate CTBD
=
during release period (gal / min) conversion factor (1.67E-2 hr/ min) and the near 8.33E-04
=
field dilut. ton factor 0.05 Substituting the value for the Cs-134 total body cose conversion factor, the equation simplified to:
5.40El VOL
- [ Ci Dtb
=
CTBD Maximum Organ
/s 8.35E-4 VOL Aio, GI-LLI (j
Dmax
- E Ci
=
CTBD Where:
maximum organ dose (mrem)
Omax
=
1.51E+06, GI-LLI ingestion dose conversion factor for Ai,0
=
Nb-95 where A is dose conversion factor, i is isotope which is Nb-95 and O is maximum organ which is the GI-LLI.
(mrem /hr per uCi/ml).
Substituting the value for Aio the equation simplifies to:
1.26E2 VOL
- [ Ci Dmax
=
CTBD Tritium is not included in the limited analysis dose assessment for liquid releases, because the potential dose re3ulting from normal reactor releases is relatively negligible.
B-3 Rev. 8
Hope Creek ODCM 7/29/87 l
uf4 tg Near Field Dilution Factor
.The near field dilution factor stems from NuReg-0133, Section 4.1.
For plants with cooling towers, such as Hope Creek, a dilution factor is applicable so that the product of the average blowdown flow (in CFS) and the dilution factor is 1000 cfs or less.
The average. minimum cooling tower blowdown for Hope Creek is 1.90E4 GPM (from FSAR 11.2).
This converts to 42 CFS, for conservatism a dilution factor of 20 will be used, giving a dilution flow of 880 CFS.
This near field dilution factor of 20 is inverted to a tuultiple of 0.05, multiplied times the liquid-l effluent dose equations.
O
\\_)
i ba B-4 Rev. 8
Hope Creek ODCM 7/29/87 l
[/
x_,
7 TABLE B-1 Adult Dose Contributions Fish and Invertebrate Pathways Hope Creek
- i GI-LLI Radionuclides Release (Ci)
TB Dose Frac.
Dose Frac.
Mn-54 1.3E-3 0.13 Mn-56 5.4E-3 0.17 Cu-64 2.4E-2 0.07 Nb-95 2E-3 0.48 IO -
Cs-134 1.3E-2 0.46 0.02 O
Cs-137 2.4E-2 0.54 0.04
.Cs-144 5.2E-3 0.09 Release data cased on FSAR Table 11.2-12
=
Less than 0.01
=
l l
1 l
/%
s s
l l
B-5 Rev. 8 r
l
\\
_ _ _ = _ _ _ _ _ _ _ _ _ _ _.
Hope Creek ODCM 7/29/87 l
O APPENDIX C TECHNICAL BASIS FOR EFFECTIVE DOSE FACTORS GASEOUS RADIOACTIVE EFFLUENT G
~
)
t O
C-1 Rev. 8 l
.________-_--_--________-_____-_________-___________-_____-_________________-___-________________A
FIGURE E-2 ONSITE
' ' LING LOCATIONS ARTIFItiAL ISLAND O
l
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,(
'V Jo l
,E G
y 1
r
(
\\.
te
~
(
- h'
{'Wk 1
A
\\r 4 A _ ' s.
',A u e w AM s n
-s
'd
-([152 2'
15 g
c
)
)
n o~
t a-i n
,o
{j 7
~
5 f
I ssi
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.o 18 si es2 12 6
kN 11 7
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10 8
9 s,
N 1
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./ s a
..a u n.
, n. u,,
Rev. 8 7/29/87
_ _ - _ _ _ _ _ _ _ _ _ _ _ _ _