ML20077S728
| ML20077S728 | |
| Person / Time | |
|---|---|
| Site: | Cook  |
| Issue date: | 03/14/1991 |
| From: | INDIANA MICHIGAN POWER CO. (FORMERLY INDIANA & MICHIG |
| To: | |
| Shared Package | |
| ML17329A153 | List: |
| References | |
| PMP-6010.OSD., PMP-6010.OSD.00, NUDOCS 9109100029 | |
| Download: ML20077S728 (37) | |
Text
n e P
Q INDIANA At#CMfGAN w.
POWER DONALD C. COOK NUCLEAR PLANT PROCEDURE COVER SHEET l
I
' PMP 6010.050.001 Revision Wo. 3 TITLE off-site Dose Calculation Manual SCOPE OF REVISION Revision 3 - Minor Revision. Incorporated the new liquid waste radiatien monitor _RRS-1000, replacing Westinghouse F-18. Changed the environmental sampling locations (Attachment 3. 33 through Attachment 3.36) to reflect current status of program.
lnecrporation of change sheets 1-8 as applicable.
The portion of Change Sheet 2 excluding the consideration of entrained or dissolved noble gases has not been incorporated
! into this procedure. The technical specification (3/4 11.1:
concentration pertaining to entrained and dissolved noble gases is now utilized when determining monitor setpoints.
Added radionuclides and associated dose conversion factors per AEPSC to Attachment 3.20. Marginal markings used, i
SIGNATURES REVISION NUMBER Revision 3 4l L PREPARED BY q l
DEPARTMENT HEAD ,
APPROVAL - g[
- INTERFACING DEPARTMENT d '
HEAD CONCURRENCE
\ /
QUALITY ASSURANCE SUPERVISOR APPROVAL - 0 -
1
\
PLANT NUCLEAR 8CMf SAFETY COMMITTEE 72367
- PLANT MANAGER APPROVAL APPROVAL DATE ((7 f)
EFFECTIVE DATE gh[Q[
e
- 9109100029 910830 PDR i
R ADOCK 05000315 g' POR
PMP 6010 OSD.001 LIST OF EFFECTIVE PAGES PAGE NUMBER REVISION NUMBER./ EFFECTIVE CHANGE' SHEET Page 1_of 41 Revision 3 Page 2 of 41 Revision 3 Page 2a of Revision 3 Page 3 of 41 Revision 3 Page 4 of 41 Revision 3 Page 5 of 41 Revision 3 Page Sa of 41 Revision 3 Page 6 of 41 Revision 2 Page 7 of 41 Revision 2 Fage 8 of 41 Revision 2 Page 9 of 41 Revision 3 Page 10 of 41 Revision 2 Page 11 of 41 Revision 3 Page 12 of '41 Revision-3
. Page 13 of 41 Revision 2 Page 14 of 41 Revision 2~
~Page 15 of 41 Revision 2 Page 16 --of 41 Revision 2 Page 17 of- 41 Revision 2 Page 18 = of 41 Revision 2 Page 19'of 41 Revision-2 Page 20 of 41 Revision 3 l
! - Page 21-_of 41 Revision _2 l
Page 22 of 41 Revision 2 Page 1 of 6 Revision 3 l ___ ,
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PMP 6010 OSD.001 l
PAGE' NUMBER REVISION NUMBER / EFFECTIVE-CHANGE SHEET Page 23 of 41 Revision 2 Page 24 of 41 Revision 2 Page 25 of 41 Revision 2 Sage 26 of 41 Revision ?
Page 27 of 41 Revision 2 Page 28 of 41 Revision 3 CS-2 Page 29 of 41 Revision 2 i Page 30 of 41 Revision 2 Page 31 of-41 Revision 3 Page 32 of 41 Revision 3 Page 33 of 41 Revision 2 Page 34 of 41 Revision 2 Page 35 of 41 Revision 2 Page 36 of 41 Revision 2 Page 37 of 41 Revision 2 Page 38 of 41 Revision 2
-Page 39 of.41 Revision 2 Page 40 of-41 Revisica 2
'Page 41 of 41 Revision 2 ATTACEMENT 3'.1 Page 1 of 1 Revision 3 ATTACRMENT 3.2 Page l'of 1 Revision 2 ATTACHMENT 3.'3 Page 1 of 1 Revision 2 Page 2 of 6 Revision 3, CS-2
PMP 6010 OSD.001 PAGE NUMBER REVISION NUMBER / EFFECTIVE CHANGE SHEET ;
ATTACHMENT 3.4 Page 1lof 1 Revision 2 ;
ATTACHMENT 3.5 Page 1 of 1 Revision 2 i ATTACRMENT 3.6 Page 1 of 1 Revision 2 ATTACHMENT 3.7 i
Page 1 of 1 Revision 2 ATTACEMENT 3.8 Page 1 of 1 Revision 2 ATTACHMENT 3.9 Page 1 of 2 Revision 2 Page 2 of 2 Revision 2 ATTACEMENT 3.10 Page 1 of 1 Revision 2 ATTACEMENT 3.13 Page 1 of 1 Revision 2 ATTAC!iMENT 3.12 Page 1 of 1 Revision 2 ATTACEMENT 3.13 Page 1 of 1 Revision 3 CS-2 ,
ATTACEMENT 3.14 Page 1 of 1 Revision 3 ATTACEMENT 3.15 Page 1 of 1 Revision 2 Page 3 of 6 Revision 3, CS-2
PMP 6010 OSD.001 PAGE NUMBER REVISION NUMBER /ETTECTIVE CHANGE SHEET ATTACRMENT 3.16 Page'l of 1 Revision 2 ATTACHMENT 3.17 Page-1-of 1 Revision 1, CS-1 ATTACHMENT 3.18 Page 1 of 1 Revision 3, CS-1 l ATTACRMENT 3.19 Page 1 of 1 Revision 2 ATTACRMENT 3.20 Page 1 of 1 Revision 3 ATTACRMENT 3.21 Page 1 of 2 . Revision 2 Fage 2 of 2 Revision 2 ATTACHMENT 3.22 Page 1 of 2 Revision 2 Page 2 of 2 Revision 2 ATTACHMENT 3.23 Page 1 of 2 Revision 2 Page 2 of 2 Revision 2 ATTACRMENT 3.24 r
! Page'l of 2 Revision 2 Page 2 of 2 -Revision 2 ATTACHMENT 3.25 Page 1 of_1 Revision 2 ATTACEMENT 3.26 -'
Page 1 of 1 Revision 3 Page 4 of 6 Revision 3, CS-1
PMP 6010 OSD.001 PAGE NUMBER REVISION NUMBER / EFFECTIVE CHANGE SHEET ATTACHMENT 3.27 Page 1 of 1 Revision 3 ATTACHMENT 3.28 Page 1 of 1 Revision 2 ATTACHMENT 3.29 Page 1 of 1 Revision 2 ATTACHMENT 3.30 Page 1 of 1 Revision 2 ATTACHMENT 3.31 Page 1 of 2 Revision 3 Page 2 of 2 Revision 3 ATTACHMENT 3.32 Page 1 of 2 Revision 2 Page 2 of 2 Revision 2 ATTACRMENT 3.33 Page 1 of 3 Revisic:1 3 Page 2 of 3 Revision 3 Page 3 of 3 Revision 3 ATTACHMENT 3.34 Page 1 of 1 Revision 3 ATTACRMENT 3.35 Page 1 of 1 Revision 3 ATTACEMENT 3.36 Page 1 of 1 Revision 3 ATTACHMENT 3.37 Page 1 of 1 Revision 3, CS-2 Page 5 of 6 Revision 3, CS-2 l
PMP 6010.OSD.001 PAGE NUMBER- -REVISION NUMBER / EFFECTIVE CHANGE-SHEET ATTACHMENT 3.38 Page.1 of 5 Revision 2 Page 2 of-5 ' Revision 2 ,
i Page 3 of 5 Revision 2 j Page 4 of 5 Revision 2 !
l Page-5 of 5 Revision 2 j Page 6 of 6 Revision 3
. . , _- -. . . . .~ . - _ - - -
'PMP 6010.OSD.001 INDIANA MICHIGAN POWER COMPANY DONALD C. COOK NUCLEAR PLA!!T OFF-SITE DOSE CALCULATION HANUAL 1.0 OBJECTIVE The Off-Site Oose Calculation Manual-(ODCM) is a supporting
-document to tae Radiological Effluent Technical Specifications (RETS), as defined in NUREG-0472. The ODCM contains the methodology and parameters to be used in the calculation of offsite doses due to radioactive liquid and gaseous effluents and in the calculation of liquid and gaseous monitoring instrumentation alarm / trip setpoints. The ODCM provides flow diagrams detailing the treatment path and the major components of the radioactive liquid and gaseous waste management systems.
The ODCM also presents a map of the radiological environmental monitoring sample locations and the meteorological model used ,
to estimate the atmospheric dispersion and deposition j parameters. The ODCM specifically addresses the design !
characteristics of the Donald C. Cook Nuclear Plant based on 1 the flow diagrams contained on the "OP Drawings" and plant l " System Description" documents.
- 1.1 The Technical Physical Sciences Department is responsible for implementation of the Off-Site Dose Calculation Manual. The Radiation Protecticn Section of the Technical Physical Sciences Department will conduct periodic review and update of the ODCM. Any design related change will be reviewed ano approved by the Radiological Support Section Manager, AEPSC and forwarded to the Plant Radiation Protection Section for implementation.
2.0 REFERENCES
2.l' 10CFR20, Standards for Protection Against Radiation.
- 2. 2- 10CFR50, Domestic Licensing of Production and Utilization Facilities.
2.3 12 THP 6010 ENV.051 .061, Radiation Protection Environ.tental Sampling Procedures.
2.4 12 THP 6010 RAD.332, Batch Liquid Waste Releases Using Monitor RRS-1001.
- 2. 5 12 THP 6010 RAD.337, Gaseous Waste Releases, Manual Calculations. .
2.6 12 THP 6010 RAD.548, Radiation Monitoring System Setpoints.
Page 1 of 41 Revision 3
t'
=
- PMP 6010.0SD.001.
2.7 12 THP 6010 RPP.005, Radiation Protection Records Control and Retention.
2.8 PMI 6010, Radiation Protection Plan.
- 2. 9- NUREG-0472 2.10 NUREG-0133 I
2.11 Regulatory Guide 1.109. j 2.12 Regulatory Guide 1.111.
2.13 Regulatory Guide 1.113, 2.14 Final Safety Analysis Report (FSAR).
2.15 Technical Specifications, Appendix A, Sections 6.8.1.H; 6.15, Offsite Dose Calculation Manual.
2.16 Final Environmental Statement D. C. Cook Nuclear Plant, August 1973.
2.17 NUREG-0017 2.18 Watts-Bar Jones Primary Calibration of Eberline Instrument Corporation DAM-4 and. Water Monitor, no revision'date.
3.0 EATTACHMENTS-3.1 Characteristics and Functions of Radiation Monitor RRS 1000.
3.2 Characteristics and Functions of Radiation Monitor R-19 (Tag No. DRA-300).
. 3.3 Characteristics and Functions of Radiation ~ Monitor R-24 (Tag No. DRA-353).
3.4 Characteristics and Functions of Radiation Monitors 1R20/2R20 (Tag No. WRA713'and WRA714).
3.5 Characteristics and' Functions of Radiation Monitors 1R28/2R28 (Tag No. WRA717 and WRA718).
3.6 Characteristics and Functions of the Unit Vent Effluent
. Monitor (VRS-1500/2500).
3.'7 Characteristics and Functions of the Lower Containment Airborne Moritor (ERS-1300/2300).
Page 2 of 41 Revision 3 g ce m,v,~y- ,y- r.--m-,-yu , e-4, r-.< ,.- -- -* . 4-r--- - - - ,e - ~ e- --*
- PMP-6010,OSD.001-3.8 Characteristics and Functions of the Lower Containment Airborne Monitor (ERS-1400/2400).
3.9 Characteristics and Functions of the Containment Area Radiation Monitor (VRS-1201/2201; 1101/2101).
l Page 2a of 41 Revision 3
PMP 6010.OSD.001
( 3.10 Characteristics and Functions of the Steam Jet Air
, Ejector Vent Monitor (SRA-1900/2900).
3.11 Characteristics and Functions of the Gland Steam Condenser Vent Monitor (SRA-1800/2800).
3.12 Plant Liquid Effluent Parameters.
3.13 Plant Gaseous Effluent Parameters.
3.14 Volumetric Detection Efficiencies and MPC of Principle Gamma Emitting Radionuclides.
3.15 Bioaccumulation Factor for Freshwater F;.sh.
3.16 Site Related Ingestion Dose Commitment Factor.
3.17 Ground Average x/Q (sec/m3).
3.18 Deposition D/Q (1/m2),
3.19 Dose Factors for Noble Gases and Daughters.
3.20 Dose Parameters for Radioiodines and Radioactive Particulate, Gaseous Effluents.
3.21 Pathway Dose Parameters for Radionuclides Other than Noble Gases, for Infant.
3.22 Pathway Dose Parameters for Radionuclides Other than Noble Gases, for Child.
3.23 Pathway Dose Parameters for Radionuclides Other than Noble Cases, for Teenager.
3.24 Pathway Dose Parameters for Radionuclides Other than Noble Gases, for Adult.
3.25 Pathway Dose Factors Due to Radionuclides Other than Noble Cases (Maximum Dose Conversion Factor, Age Independent).
3.26 IN'I'ENTIONALLY LEFT BLANK.
3.27 Volumetric Energy Efficiency Curve, for RRS 1000 Liquid Waste.
3.28 Graph epm vs. pCi/ml for R-19 Steam Generator Blowdown.
3.29 Graph cpm vs. pCi/ml for R-24 Steam Generator Blowdown Treatment.
3.30 Graph cpm vs. pCi/ml for R-20, R-28 Essential Service Water.
Page 3 of 41 Revision 3
PMP 6010.OSD.001 l
3.31 Liquid Effluent Release Systems.
3.32 Gaseous Effluent Release Systems.
3.33 Environmental Sampling Location Codes.
3.34 Maps of TLD, Air, and Water Sampling Stations on Plant Site.
3.35 Map of TLD Stations Within 4-5 Mile Radius of the Plant.
3.36 Map of TLD, Air, Drinking Water and Milk Sample Stations Within a 20 Mile Radius.
3.37 Annual Evaluation / Update of (/O values for all sectors.
3.38 Definitions of terms / variables used in this procedure.
4.0 DETAILS 4.1 Liquid Effluent Wastes:
4.1.1 The Donald C. Cook site is located on Lake Michigan. The lake provides supply and discharge capacity for the plant's circulating water system. The plant's liquid effluents are discharged into the environment via six release points. Except for the Turbine Building Sump, all liquid effluents are discharged into Lake Michigan via the site's Circulating Water Discharge Tunnels. The Turbine Building Sump is discharged into the absorption field located southeast of the facility. Each effluent pathway and its discharge point are described below.
4.1.2 Identification of Liquid Effluent Release Points 4.1.2.1 Waste Disposal System Liquid Effluent Line (WDS)
The liquid processing portion of the WDS is shared by both units, 1 and 2 and discharges liquid effluents into Lake Michigan. The liquids are generally categorized as either
" clean" or " dirty" waste. Liquid effluents originating Page 4 of 41 Revision 3
PMP 6010.OSD.001 from the Monitor Tanks, Waste Evaporator Condensate Tanks, Chemical l Drain Tank, and the Laundry and Hot Shower Tanks are released via a radiation monitor RRS-1000 and 2iquid effluent flow monitoring device. The Liquid Waste Effluen:
Monitor (RRS-1000) is comprised of an Eberline Data Acquisition Module (DAM-4/6) coupled to an SA-5 sampler.
The SA-5 sampler employes an RDA-5A (2 in. x 2 in, diameter NaI(Tl))
detector surrounded by a 2700 cc sample volume. This provides the monitor with an energy response range of 60 kev-1.5 MeV and concentration cange of 10 7 to 10 ' uCi/cc for Cs-137.
The SA-5 sampler obtains its sample of the effluent by differential pressure across a pneumatically operated valve (RRV-284) in the discharge line. Sample flowrate can be varied in the range of 0-13 gpm and is normally set at ~10 gpm.
Prior to each release to the lake, adjustments will be made to ensure adequate sample flow is available.
In-line rotometer (RFS-1010) provides local indication of the sample flow.
The regulating valve RRV-284 controls flow through the sample loop.
The radiation monitor, upon a nigh level alarm or fail alarm conditions, automatically terminates the liquid effluent release by tripping off the pumps of the Waste Evaporator Condensate Tank, monitor tank pumps and closes discharge valve (RRV-285).
A delay line is provided to allow time for alarm detection and subsequent valve closure prior to the liquid passing the discharge valve (RRV-287 for Unit 1 and RRV-286 for Unit 2).
Discharge valve hRV-285 isolates all liquid effluent releases identified Page 5 of 41 Revision 3
PMP 6010.OSD.001 above. Attachment 3.1 presents the characteristics and functions of liquid waste radiation monitor RRS 1000 Attachment 3.31 schematically presents the sources of liquid effluerts, major treatment systems, and their release points.
4.1.2.2 Steam Generator Blowdown and Blowdown Treatment System a) Steam Generator Blowdown System (SGBD)
During normal operation, the Steam Generator Blowdown System directs secondary side water to the normal Steam Generator Blowdown Flash Tank. The water is flashed to steam, approximately 40% of the fluid flashes to steam and 60%
remains liquid. When it enters the normal blowdown flash tank, the steam is vented to the A Condenser and the liquid is ;
directed to the blowdown >
^
treatment system. The steam is returned to the condensate :
system via the unit "A" turbine ;
condenser. The fluid stream is directed to the blowdown ;
treatment pump, between the :
flash tank and the heat exchanger.. '
The radiation monitor R-19 (Tag i No. DRA-300) monitors the fluid i stream from all four (4) steam 1 generators via a sample line l (Attachment 3.31). Upon a high level alarm on l l
l
~
l J \
t Page Sa of 41 Revision 3 l
_ _ _ - _ _ _ _ _ _ _ _ _ _ _ _ - - - - - _ _ _ _ - - - - - - _ - - _ - .- - - - _ . --- . - - - --- A
PMP 6010.oED.001 e= the setpoint, in pCi/ml, of the radioacti'e monitor measuring the radioactivity concentration in the effluent line prior to dilution and subsequent release; the setpoint, which is inversely proportional to the volumetric flew of the effluent line and proportional to the volumetric flow of the dilution stream plug the effluent
? stream, represents a value which, if exceeded, would i
result in concentrations exceeding the limits of 10 CFR w 20, Appendix B, Table II for l_ the unrestricted area.
F F f= the effluent flow rate as r measured at the radiation l- monitor location, in unit of L volume per time, but in the I same units as F below ( gpm ) .
[ Attachment 3.12 presents the effluent flow rate parameter.
I F
F= the dilution satar flow rate as
__ e tinated prior to the release r- point, in unit of volume per time J ~
(gpm). Attachment 3.12 presents t the dilution flowrate parameters.
4 The minimum available dilution
][ - water flow rate (F) is .230,000 tr : gpm for one circulation pump in
'r .
eperation. For two or more
=-
pumps, the available dilution
{ flowrates are:
j- -
2 circulation pumps - 460,000 gpm 3 circulation pumps - 690,000 gpm 4 circulation pumps (U>it 2 only) -
- g
- 920,000 gpm
[; C= effluent concentration limit.
.il ' implementing 10 CFR 20, 4 ,
Appendix b, Table II column 2 and Technical Specification E- ! 3/4.11.1 (noble gas), in pCi/ml.
i Since f<F, equation (1) can be rewritten as follows, to obtain the It ~ minimum required dilution flow rate for any discharge:
- Page 9 of 41 Revision 3
i PMP 6010.OSD.001 !
i m
- 2) Compute (I Ci )T f r all MPCi diluted effluent.
stream, T,
-discharged into the environment.
.'~
- 3) Ratio 1) to 2) above to compute the MRP for each release point j- <
- 4) Repeat steps 1) through 3) for each of'the site's liquid release points.
Normally no more than one tank is lined-up for. sampling or release simultaneously. But in case of an accident, combined liquid effluent discharges through radiation monitor RRS-1000, i.e., two or more tank leaktgen or discharges from either the_ Waste Evaporator. Condensate Tanks (CT), Laundry and Hot Shower Tanks (L), and Monitor Tanks (MT),
equation (3) is rewritten as follows ;
to accomodate-each subsystem's 4
effluent flow rate (f): ,
C4* C- Ci Y >'((1 fL I
- Il f
~
7FC]'fCT ) ' + "MTri II E MT)3 i
(5)
The condition for an acceptable-single or combined release from one or more subsystems is-met if_ equations (3)1and/or (5) are satisfied. If th's' i condition cannot be met, the
' intended discharges can proceed only <
if any one of'the'following conditions-(1), (2)_, or (3) are-Satisfied:
(1) _ Increase ~the minimum dilution l flow rate, F, while' maintaining Li a constant effluent flow rate, C.
t.
Page 11 of 41 j l_ '
i t.
Revision 3 l
i t_.- !
PMP 6010.OSD.001 (2) Decrease the maximum effluent flow rate, f, while maintaining a constant dilution flow rate F.
(3) Reprocess liquid effluents as is necessary.
In case of the liquid waste monit.or RRS 1000, the monitor alarm setpoint,c, may be displayed in uci/cc or cpm, using tne monitor volumetric detection efficiency for CS-137 (3.0 x 10 7 cpm /uci/cc).
The monitor efficiency can also be obtained from Attachmert 3.27 or Attachment 3.14 for tne identified camma emitting radionuclides.
nttacnment 3,14 presents the isotopic volumetric detection efficiencies and their respective M7C': for the principle gamma emitting radionuclides.
If no discharges are planned through I liquid effluent radiation monitor RRS-1000, the monitor set point will be set as close to the ambient background radiation level as practicable to prevent Page 12 of 41 Revision 3 l
, . . . . . - ~, - - . . .
t PMP 6010.OSD.001-
= dilution factor at-the Dw-nearest potable water intake. A value of 2.6 is used for the Lake township i intake located approximately ;
2800 feet SW of the station discharge points.
See reference 2.16.
Inserting the usage-factors;of R.G.
L 1.109 as appropriately into equation (14), the.following equation is F -derived:
Aio = 1.14 x 105 (730/Dw + 21 Bri)-DFi (15) j.
The value of:Aio for those elements.
listed in Attachment 3.15 are tabulated' ]
in Attachment 3 .16 . -
L 4.1.4.4 Shore Line Activities Doses-e '
-Based on the D.C. Cook nuc'aar-cower
[ plant semi-annual radioactiva effluent release reports, it has
- - been shown that thE exposures due'Co
! swimming and boating activitics are ;
l lessothan 1% ofothe dose due to.all h liqu'id-effluents. See NRC regulations
, position C. in Regulatory Guide -1 l 1.109. Therefore, only shoreline ~
E activities are considered here.
4 Shoreline-activities doses, DsL,,due I to! liquid effluents are determined,
- basedLon equation (A-6) of R.G.
.. 1.109, usingsthe following h -methodology:
l- m I , Dst = 1.14 x 107 'af LHM pUap I (Tici2DF) I At2 (1-exp(-Altb)] (16)
, i-- 2=1 I
where:-
Dgt a dose due tx> saorn line i,
j' activities from deposited /
i:
radionuclides,.in mrem. 9 5 Ti =. radiological half-life of y 'nuclide 1, in-days.
i, Jf a- i fi
, Page 20 of'41
- Revision 3' ,
d gb[' i (F f4
7:
PMP 6010.05D.001 Sp = the maximum setpoint of the monitor in uCi/cc for release point p, based on the most ,
limiting organ. !
'SF = an operating safety factor, i fl.0. (see page 10)
MRP= a weighed multiple release point factor (<1.0), such that when all site gaseous releases are integrated, the applicable dose will not be exceeded based on the release rate of each effluent point. The MRP will I be based on the release rate or the volumetric flow rate of each effluent point to the total respective value and will be consistent with past ;
operational experience. The MRP is comptted as follows:
- 1) compute the average -
release rate, Op, (or the volumetric flow rate, f)p from each release point p.
- 2) compute IQp (orIfp) for all release points.
- 3) ratio Op/IQp (or fp /Ifp) for eacn release point.
This ratio is the MRP for that specif.ic release point.
- 4) repeat 1) through 3) for each of the site's eight gascous release points.
Pp = the maximum volumetric flow rate of release point p, at the time of the release in cc/sec.
The maximum Unit Vent flow
. rate, by design,-is 139,600 cfm CS-2 for Unit 1 and 103,500' cfm for Unit 2.
Page 28 of 41 Revision 3, CS-2
PMP 6010.OSD.001 The plant vent radiation monitor low range noble gas channel set?oint, Sp, will be set such that tae dose rate in unrestricted areas to the whole body, skin and thyroid (or any other organ), whichever is most limiting, will be less than or equal to 500 mrem /yr, 3000 mrem /yr, and 1500 mrem /yr, respectively. The thyroid dose is limited to the inhalation pathway only. The plant vent radiation monitor low range noble gas channel setpoint, Sp vill be recomputed whenever gaseous releases from the Containment and gas decay tanks are discharged through the plant vent to redetermine the most limiting organ.
The setpoint, Sp, may be established at less concentration level than the lowest computed value via equation 17.
At certain times, it may be desirable to increase the setpoint, if the vent flowrate is decreased and this may be accomplished in one of two vays.
a) (Max. Concentration-pCi/ec)(Max. Flowrate-efru)
(New Mnx. Concentratton-pCi/cc)
- New Max. Flowrate in efm b) (Max. Flowrate-cfm)(Max Concentration pCi/ce)
(New Max. Flowrate-cfm)
= New Max. Concentration in ,Ci/cc a) Waste Gas System Decay Tanks The gaseous effluents discharged or it aked from the Waste Gas System will be monitored by the vent stack monitors VRS-1505 and 2505.
i i
l Page 31 of 41 Revision 3 y+ r-yJ- ew p -m-;r 7, t .c y y , y 3+ m -- -
- r- -n p --4
PMP 6010.053.001 l
l
, Due to a high radiation alarm, an automatic termination of the release from the waste gas system will be initiated from the plant vent radiation monitor low range noble gas channel (VRS-1505 or VRS-2505).
Therefore, for any gaseous release configuration, which include normal operation and waste gas system gasecus discharges, the alarm setpoint of the plant vent radiation monitor will be recomputed to determine the most limiting organ based on all gaseous effluent source terms.
b) Contanunent Purge and Exhaust System The gaseous effluents discharged by the Containment Purge and Exhaust Systems and Instrumentation Room Purge and Exhaust System will be monitored by the plant vent radiation monitor noble gas channels (VRS-1505 for Unit 1, VRS-2505 for Unit 2); and alarms and trip actions will occur prior to exceeding the Technical Specifications 3.3.3.10 and 3.11.2.1.
For the Containment System, continuous air sample from the Containment atmosphere is crawn through a closed, sealed system to the radiation monitors (Tag No. ERS-1300/1400 for Unit 1 and ERS-2300/2400 for Unit 2). The sample is constantly mixed in the fixed, shielded volume, where it is viewed by the monitor detector.
The sample is then returned Page 32 of 41 Revision 3
PMP 6010.OSD.001 I ATTACHMENT 3.1 i CHARACTERISTICS AND FUNCTIONS OF THE LIQUID WASTE RADIATION MONITOR RRS-1000 ALARM LOCATION CONTROL ROOM MONITOR TYPE, LOCATION DAM 4/6, El. 587' l
120 VAC, DIST. CABINET CCRP-2, POWER SOURCE CIRC-1 CHECK SOURCE, ASSEMBLY l SUPPLIED FROM CCRP-2, CIRC.1 l
)
RRS-1001, EBERLINE SA-5 LIQUID CHANNEL NO. SAMPLER INCLUDING RDA-5A NaI(..)
SCINTILLATION DETECTOR AND EBL-LINE i CSM-1 CHECK SOURCE MECHANISM.
RRS-1002, EBERLINE IB-2 INTERFACE BOX.
RRA-1003, EBERLINE DAl-4CC AREA MONITOR DETECTOR WITH INTERNAL INTERFACE BOX AND CHECK SOURCE.
CHANNEL RANGE (RRS-1001) 10'? to 10-8 uCi/cc FOR CS-137 (x 8 circuitry)
-EFFLUENT ISOLATION DISCHARGE VALVE RRV-285 CLOSES.
CONTROL DEVICE ALSO RRV-287 (UNIT 1 DISCHARGE) OR RRV-186 (UNIT 2 DISCHARGE) CLOSES.
TRI: J WASTE EVAPORATOR CONDENSATE TANK PUMPS AND MONITOR TANK PUMPS ,
LOCATION OF DEVICE LIQUID WASTE DISCHARGE LINE SAMPLE FLOW RATE O - 13 gpm, NORMALLY SET AT 210 gpm TECHNICAL SPECIFICATION 3.3.3.9, TABLE 3.3-12 AND TABLE REFERENCES 4.3.8, ITEM 1.at ACTION STATEMENT ,
23 DURING RELEASES.
DIAGRAM RE"TRENCES 98810, 98313, 5104F Page 1 of 1 Revision 3
PHP 6010.0SD.001 ATTACHMENT 3.13 PLANT CASEOUS EFFLUENT PARAMETERS SYSTEM EXHAUST FLCW RATE CAPACITY NO. OF TANKS UNIT (CFM) 1 PLANT UNIT VENT UNIT 1 139,600 CS-2 ,
UNIT 2 103,500
+ WASTE CAS DECAY TANKS UNIT 1 600 FT' 8 4 WASTE CAS DECAY TANK 12$ 2 DISCHARCE HEADER
+ AUXILIARY BUILDING UNIT 1 72,600 EXHAUST UNIT 2 64,500
- ENC. SAFETY FEATURES /ENT UNIT 1&2 25,000
- TUEL HANDLING AREA VENT UNIT 1 30,000 SYSTEM
+ CONTAINMENT PURCE SYSTEM UNIT 1&2 12,000 CS-2
+ CONTAINMENT PRESSURE RELIrr UNIT 162 1,000 SYSTEM
+ INSTRUMENT ROOM PURCE SYSTEM UNIT 1&2 1,000 i
l II CONDENSER AIR EJECTOR SYSTEM UNIT 1&2 120* 2 Release Points One for Each Unit III TURBINE SEALS SYSTEM UNIT 1 1,260 UNIT 2 5,508 2 Release Points for snit 2 IV START UP FLASH TANK VENT UNIT 1 1,536 l
UNIT 2 1,536 CS-2
- The measured startup flovrate is approximately 230 SCTM by switching to the hoggers.
I Page 1 of 1 Revision 3, CS-2
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~_. ,
- hA N A M
'N % ".0$D.001
'?^;nildtNT 3.14 VOLUMETRIC DETECtLS Ef'OC W C s2; SD MFC OF PRINCIPLE CAMNg j }:(Ty
- Q "'. aUCLIDES MPC EFFICIENCY ISOTOPE (pCi/cc1 (cpm /yCi/cc) 1-131 3.00E-07 3.7817 Cs-137 2.00E-05 3 . 0 TF Cs-134 9.00E-06 7.9 E7
_Co-60 3.00E-05 5.75E7
__Co-58 9.00E-05 4.60E7 Cr-51 2.00E-03 3.60E6 Mn-54 1.00E-04 3.30E7 2n-65 1.00E-04 1.58E7 Ag-110T 3.00E-05 9.92E7 Ba-133 3.00E-06 4.85E7 Ba-140 2.00E-05 1.92E7 Cd-109 2.00E-0T 9.60E5 Ce-139 3.00E-06 3 . 2 7 L7 Ce-141 9.00E-05 1.92E8 Ce-144 1.00E-DT 4.82E6
__Co-57 4.00E-04 3.80E7 Cs-136 9.00E-05 1.07E8 Fe-59 5.00E-05 2.82E7 Sb-124 2.00E-05 5.92T F 1-133 1.00E-06 3. 40D I-134 2.00E-05 7.22E7 "T-135 4.00E-06 3.95E7 Mo-99 2.00E-04 8. 67 E6 Na-24 3.00E-0T 4.45E7
_Nb-95 1.00E-04 3.27E7 No-97 9.00E-04 3.50E8 Rb-89 3.00E-06 5.00E7 Ru-103 8.00E-05 3.47E7 Rn-106 1.00E-05 1.22E7 Sb-122 3.00E-05 2.55E7 Sb-125 1.00E-04 3.15E7 Sn-113 8.00E-05 7.32E5 Sr-85 1.00E-04 3.70E7 Sr-89 3.00E-06 2.87E3
~Tr-92 -
7.00E-05 3.67E7 Tc-99M 3.00E-03 3.60E7 Y-88 3.00E-06 5.25E7 Zr-95 6.00E-05 ~
3.37E7 Zr-97 2.00E-05 3.10YF Kr-85 N/A 1.56E5 Rr-85M N/A 3.52E7 Kr-86 N/A 4.10E7 Xe-131M N/A 8.15E5 Xe-133 N/A 7.77E6 Xe-133M N/A 5.75E6 Xe-135 ,_N/A 3.82E7 NOTE: MPC value for the total dissolved gas concentration shall be limited to 2.0E-4 pCi/cc.
Page 1 o# 1 Revisio, 3
PMP 6010 05D.001 ATTACHMENT 3.17 t/Q GROUND AVERAGE (sec/m')
01JAN90 - 31DEC90 t:nRer
?!Kir!'im 594. 2416. 4720. ?630 ';40, iC O MtE)
N :.(61-06 4.26E+07 ? . ;;[ " 1 Tif-C" %.C E-08
?NL 2.$1E-06 3.03E-07 1.4tE-0' E . 'F l <8 6.1 M -09 N1 3.19L-06 3.7FL-07 1.84L-07 1.11E-07 '.XL4B DE 4 . ; t> E-06 4.C3E-07 !.44E-07 1. ' I t@? 1.;1L-O' E t.66[-06 6.18E-07 3.170-07 1. 9 M -07 1.431-O
EEE 6. 391-06 6.94f-07 3.59E-07 2.;7E-07 1.04E-07 SE 9.430-06 9.15E-07 4.71E-07 7.W-t-07 0.1]E-07 SSE 9.66E-06 1.06E-06 t.4tE-07 3. 4 2L-07 2.4(L-07 8 1.090-05 1.26E-06 6.270-0* 3.87E-07 2.'61-07 S.%' 5.170-06 6.1CE-07 2.97L-O' 1.60E-O' 1.2BL-07 SW 3.6,6E-06 4.26E-07 2.03E-07 1.;;E-07 E.610-06 W9W 2.04E-Ot I.?rt-07 1.30E-07 '.03E-Oe t.010-OP W 3.itL-06 3.570-07 1 '1E-07 1.031-07 '.;BE-08 WfM 3.26E-06 3.86f-07 1.B;E-O' 1.091-07 '.t?E-0E tM 2.640-06 3.03I-07 1.4;E-07 6.44E-08 5.v1L-0B talW 3.t.61-06 4.20E-07 1.98E-07 1.18E-07 E.04E-06 DISTRCT:
OIPIL*.'!ON 12067. ;4135. 402:5. 56315. F0500.
(WC Dt N)
N 4.24E-08 1.6tE-08 S.72E-09 $.;6E-09 3.311-09 tRE 3.13E-08 1.24E-08 6.17E-09 3.96E-09 2.50E-09
!E 4.040-08 1.6?E-08 8.07E-09 t.16E-09 3.;90-09 UTE S.59E-08 2.2BL-08 1.1tt-08 7.39E-09 4.75E-09 E 7.46E-06 3.DBE-08 1.55E-08 9.98E-09 6.45E-09 ESE 8. *.>4 E-08 3.54E-08 1.790-08 1.15E-08 7.440-09 EE 1.11E-07 4.61E-08 2.3;E-08 1.50E-Oa 9 . t.f,E-09 SSE 1.28E-07 5.28E-08 2 A6E.08 1.71E-08 1.11E-08 S 1.42E-07 5.77E-08 2.90E-08 1.87E-08 1.19E-08 SW 6.491-08 2.59E-08 1.29E-08 8.28E-09 5.25E-09 W 4.33E-08 1.71E-08 8.49E-09 5.440-09 3.440-09 WW 2.84E-08 1.13E-08 5.64E-09 3.6;E-09 2.31E-09 W 3.6BE-08 1.46E-08 7.26E-09 4.66E-09 :.9!E-09 WiM 3. 79E48 1.47E-08 7.29E-09 4.66E-09 2.9.E*09 HW 2.94E-08 1.14E-08 5.64E-09 3.60E-09 2.2tE-09 t#M 4.10E-08 1.59E-08 7.86E-09 5.0;E-09 3.ltE-09 DIRECTION - SECTOR N=A S=J NNE = B SSW = K NE = C SW = L ENE = D WSW = M E=E W=N ESE a P WNW = P SE = G NW = Q Current X/0 = 1.09 E-05 sec/m 3 SSE = H NNW
- R in SectoE A Page 1 of 1 Revision 3, CS-1 i
PMP 6010 OSD.001 ATTACHMENT 3.18 D/Q DEPOS! TION (1/m')
OlJAN90 - 31DEC90 0151NAT ODIL'EI31 594. 2416. 4020. 5630. '240.
(WDfD 112)
N 2.25E-CB 2.1BE-09 9.a?I-10 5.18E-10 3.30E-10
!#E 9.87E-09 9.53E-10 4.3/E-10 2.27E-10 1.45E-10 tZ 1.20E-08 1.22E-09 5.53E-10 2.90E-10 1.B!E-10 DE 1.2?E-09 1.22E-09 5.55E-10 2.91E-10 1.86E-10 E 1.39E-08 1.34E-09 6.07E-10 3.18E-10 2.03E-10 ISE 1.22E-08 1.1BE-09 5.30E-10 2.81E-10 1.79E-10 CE 1.67E-08 1.6*E-09 7.33E-10 3.85E-10 2.45E-10 CZ 2.42E-08 2.3]E-09 1.06E-09 f.55E-10 3.54E-10 S 4. 41E-08 4.20E-09 1.93E-09 1.01I-09 6.46E-10 SSW 2.97E-08 2.87E-09 1.3CE-09 6.83E-10 4.35E-10 SW 2.511 -08 2.42E-09 1.10E-09 S.76E-10 3.68E-10 W 2.00E-08 1.93E-09 8.74E-10 4.58E-10 2.92E-10 W
1.9BE-08 1.92E-09 8.69E-10 4.56E-10 2.911-10 W 1.83E-08 1.7'E-09 6.01I-10 4.20E-10 2.68E-10 NW 1.74E-08 1 (8E-09 7.60t-10 3.99E-10 2.B'E-10 '
10M 2.30E-08 2.22[-09 1.01E-09 5.2BE-10 3.37E-10 DLSENICE ,
DIR!ITICN 12067. 24135. 40225. 56315, 80500.
(WDC ITM)
N 1.38E-10 4.49E-11 1.65E-11 8.83E-12 4.43E-12
'IE 6.04E-11 1.97E-11 7.24E-12 3.86E-12 1.94E-12 IE 7.74E-11 2.52E-11 9.27E-12 4.95E-12 2.48E-12 DE 7.76E-11 2.53E-11 9.30E-12 4.96E-12 2.49E-12 E 8.40E-11 2.76E-11 1.02E-11 5.43E-12 2.7 I-12 E2 7.49E-11 2.44E-11 8. lE E-12 4.79E-12 2.40E-12 SE 1.02E-10 3.34E-11 1.23E-11 6.56E-12 3.290-12 SSE 1.48E-10 4.82E-11 1.77E-11 9.47E-12 4.75E-12 S
2.7CE-10 8.79E-11 3.24E-11 1.73E-11 8.66E-12 SSW 1.82E-10 5.92E-11 2.18E-11 1.16E-11 5.84E-12 SW 1.54E-10 5.00E-11 1.84E-11 9.83E-12 4. 93 E-12 W 1.22E-10 3.98E-11 1.46E-11 7.82E-12 3.92E-12 W
W 1.21I-10 3.96E-11 1.46E-11 7.77E-12 3.90E-12 1.12E-10 3.65E-11 1.34E-11 7.16E-12 3. *s 9 E-12 W 1.06E-10 3.46E-11 1.27E-11 6. 80E-12 3.411-12 o t#W 1. 41E-10 4.58E-11 1.69E-11 9.00E-12 4.5 E-12 DIREC' ION - SECTOR o
j
, T4 = A 5=J NNY = B SSW = K NE = C SW = L ENE = D WSW = M l Ca E W=N ESE = F WNW = P SE = G NW = 0 Current D/O = 4.41 E-08 1/m2 SSE = H NNW = R in Sector A l
Page 1 of 1 Revision 3, CS-1
PHP 6010.05D.001 ATTACHMENT 3.20 DOSE PARAMETERS FOR RADI0 IODINES AND RAD 10AC*!VE PARTICULATE. CASEOUS EFFLUENTS
- Pi Pi Pt Pi INHALATION FOOD & CROUND INHALATION FOOD & CROUND PATHWAY PATHWAYS PATHWAY PATHWAYS (inRem/ yr (m' . mrem /yr (tRem/yr (m' . mrem /yr-RADIONUCLIDE per uCi/m 3 ) per UCi/tec) RADIONUCL!DE _
per uCiim') per utilsec)
H-3 6.47E+02 2.40E+03 Rb-88 5.57E*02 4.74E+04 C-14 2.65E+04 2.380+09 Rb-89 3.21E*02 1.76E+05 Na-24 1.06E+04 3.28E+07 Sr-89 2.03E+06 1.28E+10 P-32 2.03E+06 1.63E*11 Sr-90 4.09E+07 1.24E+11 Cr-51 1.2SE+04 1.15E-07 Sr-91 7.34E+04 3.41E*06 1 Mn-54 1.00E+06 1.14E*09 Sr-92 1.40E+05 1.11E+06 Mn-56 7.17E+04 1.29E+06 Y-90 3
2.69E+05 9.64E+05 '
Fe-55 8.69E+04 1.38E+08 Y-91m 2.79E*03 1.44E+05 {
Fe-59 1.02E*06 7.89E+08 Y-91 2.45E+06 Co-5B 6.86E+06 7.77E+05 5.89E+08 Y-92 '. 27E+05 Cc-50 2.59E+05 4.51E+06 4.62'+09 Y-93 1.67E+05 2.80E*05 Ni-63 3.39E+05 3.56E+10 2r-95 i
1.75E+06 3.45E+08 t Ni-65 5.01E+04 4.43E+05 Zr-97 1.40E+05 Cu-64 4.29E+06 1.50E+04 4.75E+06 Nb-95 4.79E+05 Zn-65 4.06E+08 l 6.47t+05 2.01E+10 Mo-99 1.35E+05 3.23E+08 Zn-69 1.32E+04 3.01E-09 Te-99m 2.03E+03 2.81E+05 Rb-86 1.90E+05 2.27t+10 Tc-101 8.44E+02 2.92E+04 Te-131m 1.99E+05 3.48E+07 Ru-103 5.52E+05 1.55E+0B Te-131 8.22E+03 4.18E*04 Ru-105 4.84E+04 9.12E*05 Te-131 3.40E+05 7.26E+07 Ru-106 1.16E*07 3.02E+08 I-130 1.60E+06 8.99E*08 Ag-110m 3.67E+06 1.80E+10 I I-131 1.4BE+07 1.07E+12 Te-125m I-132 4.47E*05 1.56E*08 1.69E+05 1.79E*06 Te-127m 1.31E+06 I-133 1.06E+09 3.56E+06 9.78E+09 Te-127 2.44E+04 1.53E+05 I-134 4.45E+04 6.40E*05 Te-129m 1.68E*06 I-135 1.45E+09 6.96E+05 2.40E+07 Te-129 2.63E+04 3.76E+04 1
Cs-134 7.03E*05 7.21E+10 Ce-143 1.16E+05 4.88E+06 Cs-136 1.35E+05 6.13E+09 Ce-144 9.84E*06 1.95E+08 Cs-137 6.12E+05 6.25E+10 Pr-143 4.33E+05 7.98E+05 Cs-138 8.76E+02 5.15E+05 Pr-144 4.28E+03 2.63E+03 Ba-139 5.10E+04 1.52E+05 Nd-147 3.22E+05 1.26E+07 Ba-140 1.60E+06 2.75E+08 W-187 3.96E+04 5.90E+06 8e-141 4.75E+03 5.98E+04 Np-239 5.95E+04 2.55E+06 Ba-142 1.55E+03 6.43E+04 La-140 1.68E+05 2.77E+07 La-142 5.95E+04 1.09E+06 Ce-141 5.17E+05 3.35E+07
- If SR-90 analysis is performed, use Pi given in RU-106 for unidentified compenents.
If SR-90 and RU-106 analyses are performed, use Pi given in I-131 for unidentified components.
If SR-90, RU-106 and I-131 analyses are performed, use Pi given in P-32 for unidentified components.
Page 1 of 1 Revision 3
PMP 6010.osD.001 ATTACllMENT 3.26 l
l l
PAGE. INTENTIONALLY LETI BLANF.
f l
l l
l 6
Page 1 of 1 Revision 3
PMP 6010 OSD.001 ATTACIPINT 3.27 EFFICIENCY (CPM /pci/cc)
(x 8 Circuitry) V
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w em O
C N 0.S eum Oi e.
m . _ - _ .
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.7
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as.,
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l Revision 3 Page 1 of 2
PMP 6010.OSD.001 ATTACHMENT 3.31 NOTES NOTE 1: Drawings: OP-12-5119, -5123B, -5133, -5134, -5138,
~5138A, 1-5661, -?-5661, 5104F.
System Descriptions: SD-DCC-CH113, -NE101, -HP119.
Engineering Control Procedure ECP-12-R2-08.
NOTE 2: Drawings: OP-12-5105, ~5105B, -5141, -5141A, -5119,
-5125, 5661, 5661, 5104F.
System Descriptions: SD-DCC-CH114, -NE101, -HP119.
NOTE 3: Drawingst OF-12-5113, -5119, 5661, 5661.
l System Descriptions: SD-DCC-HP102, -HP119, NE101.
i NOTE 4: Drawings: OP-12-5125, -5125A, 5160.
System Descriptions: SD-DCC-CH11'.
]
i E
t i
I f
1 USE THE MOST CURRENT DRAWING AND SYSTEM DESCRIPTIONS Page 2 of 2 Revision 3
- . ~ . _ . _ _ _ _ _ . . _ . - -. _ . _ , . _ . . _ _ _ _ . _ . _ __ . _ . _ ._. . _ _ . . . _ . _ ._
PMP 6010.0SD.001 ATTACHMENT 3.33 ENVIRONHENTAL S AMPLINO LOCATIONS CODES LOCATION CODE DESCRIPT!0NW S AMPLE TYPES ONS-1 (A1) 0.4 mi NNE, Rosemary Beach Air, TLD ONS-2 (A2) 0.4 mi NE, Visitors Center road Air TLD ONS-3 (A3) 0.5 mi E, 765 KV Yard Air, TLD
-ONS-4 (A4) 0.4 mi ESE Onsite Air, TLD ONS-5 (A5) 0.4 mi S, Onsite Air, TLD '
ONS-6 (A6) 0.4 mi SSW, Shoreline and Fence Line Junction Air, TLD NBF 16.0 mi SSW, New Buffalo Substation Air. ILD SBN 24.0 mi SE, Kankakee Substation Air, TLD DOW 26.0 mi ENE, Dowagiac Substation Air, TLD COL 20.0 mi RNE, Coloma Substation Air. TLD ONS-7 (A7) 0.4 mi NNE, Onsite TLD ONS-B (AB) 0.4 mi ENE, Onsite TLD ONS-9 (A9) 0.3 mi SSE, Onsite TLD ONS-10 (A10) 0.3 mi SE, Onsite TLD ONS-11 (All) 0.4 mi RNE TLD ONS-12 (A12) 0.4 mi NE TLD OFS-1 4.5 mi NE, Intersection of Red Arrow Highway and Marquette Woods Road,-Pole #B294-44 TLD OFS-2 3.0 mi NE, Stevensville Substation TLD.
OFS-3 5.0 mi ENE, Pole #B296-13 TLD OFS 4.2 mi E, Pole #B350-72 TLD
.0FS-5 4.0 mi ESE, Intersection of Shawnee and Cleveland, Pole #B387-32 TLD OFS-6 4.5 mi SE, Intersection of Snow Road and Holden, Pole #B426-70 TLD Page 1 of 3 Revision 3
PMP 6010.0SD.001 ATTACHMENT 3.33 ENVIRONMENTAL SAMPLINC LOCATION CODES l 1
LOCATION l CODE DESCRIPTION # SAMPLE TYPES OFS-7 2.5 mi S. Bridgman Substation TLD OFS-8 4.0 mi SSE, California Road, Pole #B424-20 TLD OFS-9 4.5 mi E. Ruggles Road. Pole dB369-214 TLD OFS-10 3.8 mi SSW, Intersection of Red Arrow Highway and Floral Lane, Pole #B422-152 TLD OFS-11 3.8 mi S. Intesection of Snow Road and TLD Baldwin Road, Pole # B423-12. l I
W1 0.4 mi NNE, Rosemary Beach Well Water W2 0.4 mi ENE. Training Center Well Water W3 0.6 mi E, 500 feet east of 765 Kv yard Well Water W4 0.1 ml RNW, Onsite Well Water W5 0.1 mi VNW, Onsite Well Water
- W6 0.1 mi SW, Onsite Well Water W7 0.4 mi S. Livingston Beach Well Water
- 2 (M) 4.5 mi NE, Totzke Farm, Sector D- Milk M2 (M) 18.0 mi E, Wyant Farm Milk
- 5 (M) 9.0 mi SE, Lozmack Farm. Sector J Milk
- 1 (M) 4.25 mi ESE, Shuler Farm, Sector C Milk M1 (M) 20 mi S, Ray Livinghouse Farm Milk
- 4 (M) 7.8 mi SE, Warmbein Farm, Sector J Milk
- 3 (M) 4.8 mi SSE, Zelmer Farm, Sector H Milk
- 0NS-S 0.5 mi S (maximum), Lake Michigan Fish
- 0NS-N 0.5 mi N (maximum), Lake Michigan Fish
- 0FS-S 0.5 mi S (minimum), Lake Michigan Fish
- 0FS-N 0.5 mi N (minimum), Lake Michigan Fish
- Actual location will vary due to fluctuating Page 2 of 3 water levels in Lake Michigan,. Revision 3
- _ _ . . . _ _ _ _ . _ ~ . . _ . _ _ _ . . _ . . . _ _ . _ . . _ _ . _ _ _ . .- . _. _.._. . - _ _ _ _ _ _ _ _
PMP 6010.050.001 ATTACHMENT 3.33 ENVIRONMENTAL SAMPLINC LOCATION CODES LOCATION CODE DESCRIPTION # SAMPLE TYPES Li Condenser cooling water intake Lake Water L2 At Plant south, red and white range pole. Lake Water.
0.35 mi SW Sediment L3 At Plant, north, red and white range pole, Lake Water.
0.2!. mi NE Sediment j Lt. Shoreline, 0.1 mi SSW Lake Water, l Sediment L5 Shoreline, 0.1 mi NhC Lake Water, Sediment 1
i
- V1 Onsite Broadleaf j Vegetation l
- V2 Onsite or Offsite Grapes STJ (I) St. Joseph Station Drinking Water LTW (I) Lake Township Station Drinking f Water 1
- All distances are measured from the center line between Unit 1 and Unit 2.
I ** Actual location determined by sect:r with highest annual average D/Q.
Page 3 of 3 Revision 3
PMP 6010 OSD 001 ATTACHMENT 3.34 f
l inte et at UN R E S TRICT ED AREA
"" $ "" j ,
PROPERTY UNE i Al*#hess:;r)
N A-7 i
+ +RS %
Lok r- - j A-11
-ROAO 7f w1
~.k TW,. $ l 0 *
/:
2W 7y y ; ^-a g , 6 NEW ! A3 / EN -"
/ --
i a,4 _ -
Pt_ ANT ,
=
. j ( 765 kV YARD N3 '
SHORE LINES:/ NS gl CHESAP E MT ,,,,,A ,y 6 OHIO R.R.
= '
W7 'x'zam roor
--- 43A6s -
a g*. RADIUS i
! N i
/ :
o sooo 200o xoo *ooo rui
~
scAu A Air, TLD Stations W Well Water Sample Stations L Lake Water Sample Stations NOTE Stations A7 through A12 are TLD Stations only Station L2, L3, L4, L5 are also sediment sample stations.
Page 1 of 1 Revision 3 l
PMP 6010 0$D 001 ATTACHMENT 3.35 1/ 11 s% ,,
/C=a P yv o
- m. I yS-<h"x$ s .._ = _ . ,
TLD Stations Within 1-$ Mile Radius I
^
of Plant g FS-ff p,, g a 1 Fe f om .-
== .. I" 3gl .
? ? ';8 8,0 5
)
1* = 1 Mile I b a gT
]
I
== -. ,
F9 i .ao y ~- -
g g_\.y
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4 1
. . _ s i
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b Pan su w. , OFS
~
\
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i
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k 4
'OFS-4 l OPS-6>I
~
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- I=
/ u, n
! (,/
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PMP 6010 OSD 001 ATTACllMENT 3.36 A - Control Air and TLD Stations M - Milk Sample Str.tions Intake Sample Station
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PMP 6010.OSD.001 ATTACHMENT 3.37 ANNUAL EVALUATION OP X/O AND D/O VALUES FOR ALL SECTORS
- 1. Received annual update of X/Q and D/O values from Environmental Section.
Signature R.P. Section (print name, title)
- 2. Worst X/Q and D/O value and sector determined. PMP 6010 OSD.001 and Computer Program have been ;pdated.
lCS-2 Signature R.P. Section (print name, title)
- 3. Approved and verified by:
Signature R.P. Section (print name, title)
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Ret. #25.000 Page 1 of 1 Revision 3, CS-2
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