ML20078F520
| ML20078F520 | |
| Person / Time | |
|---|---|
| Site: | Duane Arnold  |
| Issue date: | 05/25/1983 |
| From: | IES UTILITIES INC., (FORMERLY IOWA ELECTRIC LIGHT |
| To: | |
| Shared Package | |
| ML112410286 | List: |
| References | |
| PROC-830525-01, NUDOCS 8310110060 | |
| Download: ML20078F520 (147) | |
Text
{{#Wiki_filter:. . .
. . ,7 T .
- EMERGENCY PLAN IMPLEMENTING PROCEDURES REVISION CONTROL SHEET i
Revision No. 13 Revision Date 5/25/83 Page/ Proc Date Rev. Page/ Proc Date Rev. Pace / Pro'c Date Rev.l INDEx 3-15-83 6 1.1 3-1-82 1 1.2 6/9/82 2 1.3 1-13-83 0 2.1 1/15/82 2 2.2 10/4/82 4 2.3 12/2/81 0 3.1 ~3/1/82 2 3.2 3/1/82 3 3.3a 2 3/11/83 { 3.3b 4/11/83 2 4.1 DELETED . 4.2 5/11/81 0 4.3 10/19/81 1 4.4 7/30/82 1 4.5 5/13/82 0 5.1 11/24/81 1 5.2 11/24/81 1 6.1 5/11/81 0
-6.2 5/11/t. O ;
l 6.3 3/1/82 1 i 6.4 3/19/83 3 : I ' l 8310110060 831065 , PDR ADOCK 05000331 F PDR
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3a Page 1 of al INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 1.0 PURPOSE This procedure provides instructions for estimating the downwind dose rates resulting from noble gas and radiciodine releases immediately following an emergency at DAEC. 2.0 APPLICABILITY This procedure applies to immediate soecific r.teos to be taken by control room operations personnel during a release of radion. ive materials to the environment. 3.0 RESPONSIBILITIES 3.1 Shift Suoervisino Enaineer Perform dose projection calculations until the Site Radiation Protection Coordinator arrives or the EOF is manned. 3.2 Site Radiation Protection Coordinate-Initially evaluate the results of dose projection calculations.
- Initially identify the need for field survey data to backup projected dose calc ul ations .
3.3 Eneroency Coodinator Initially advise local and State authorities of the results of dose projection calculations and provide protective action recommendations as required.
4.0 INTRODUCTION
The major objective of this procedure is to perform the offsite dose estimate for comoarison witn protective action guidelines to determine tne approcriate
- emergency action to be taken following an accidental atmospheric reiease of radioactive material. As a result of this objective the procedure ra
- been developed with four major parts. The first consists of the main bocy of the procedure and contains general information about the crocedure, ceneral instructions for its use and the protective action cuicelines. The second cart consists of a Data Summary Sheet, Attacnment I, wnich contains all tne monitor data necessary for tne dos? Orojections. The tnird part, Attacnment II, consists l
l l of a summary Taole to be comoieted during the cose estimation procedure. This table contains all the information necessary fo- comparison witn the crotective action guicelines. The completior, of tnis table recuires a numoer of calculaticos to be performed. These calculations are set uo in detail on Calculation Sneets which comprise the fourth part of tne procecure, cttacnment I:!. The, Data Summary Sneet, Summary Table, and the Calculation Sneets are designed to De used together, that is, tne Calculation Sneets are recuirec to complete the Summary Tatle *hile i I l
1 *, ,.
-ZMERGENCY PLAN XMPLEMENTING PROCEDURE EPIP 3.3a -
Page '2 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 __, information from the Data Summary Sheet and Summary Table is required in many of the calculations performed on the Calculation Sheets. When calculations are required the Summary Table references the appropriate segment of the Calculation Sheets to be completed, likewise when data is required from the Data Summary Sheet and Summary Table the appropriate Data Summary Sheet or Svanary Table line number
. is referenced on the Calculatien Sheet.
NOTE A supply of Data Summary Sheets, Sumnary Tables, and Calculation Sheets are to be maintained in the Control Roc.n and Technical Support Center (TSC) for emergency use. 5.0 INSTRUCTIONS 5.1 This simplified method shall be used by operations personnel for determining initial dose estimates only. It should be used until the Site Radiation Protection Coordinator arrives, but not beyond one(1) hour after shutdown. At that time, EPIP 3.3b shall be used. One (1) hour after shutdown decay factor.
- 5.2 If an accidental atmospheric release of radioactive material has been identified or there-is a significant change in the release rate a dose projection is to be performed as follows.
5.2.1 Complete Data Sumnary Sheet. 5.2.2 Complete Section I of the Summary Table, General Information, using Calculation Sheet I where referanced. 5.2.3 Complete Section II of the Summary Table, Release Information, to determine the total gaseous release rate from the Reactor Building Stacks, the Offgas Stack, and the Turbine Building Roof Exhaust. Use Calculation Sheet II, where referenced, to perform the necessary release rate calculations. When multiple monitor ranges are available complete the calculations for ONE range ONLY. Use the range which gives a reading nearest mid-scale. i I e- [ l
'. v.- t EMERGENCY PLAN XMPLEMENTXNG PROCEDURE EPIP 3.3a Page 3 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83
- 5.2.4 Complete Section III of the Summary Table, Dose Information. Use Calculation Sheet III. where referenced, to perform all necessary calculations. Calculation Sheet III is divided into five sections of which only two are to be completed. Section I is always completed and determines, based on the atmospheric stability, which one of the remaining four sections is to be used to perform the dose estimation.
The Calculation Sheet subsections referenced in Section III of the Summary Table tre those of the appropriate section for dose estimation as determined by Section I. That is, Sections II through V oi' Calculation Sheet III have the same format only tha constants which are dependent on atmospheric stability are different.
- 5.2.5 Report the results of the dose estimation calculations, i.e., supply copies of the Summary Table, to the Emergency Coordinator and/or the Site Radiation Protection Coordinator.
5.2.6 The Operations Shift Supervisor shall compare the dose estimates from the Summary Table to the following Protective Action Guidelines and initiate the appropriate action until the Site Radiation Protection Coordinator is available. {
EPIP 3.3a ,' EMERGENCY PLAN IMPLEMENTfNG PROCEDURE Page 4 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 PROTECTIVE ACTION GUIDELINES Projected Exposure to An Individual Recommended Action in the Population Whole Body = less than 1 Rem or 1. No protective action required. Thyroid = less than 5 Rem. Issue an advisory to seek 2. shelter and await further instructions or voluntarily evacuate.
- 3. Monitor environmental radiation levels.
Whole Body = 1 to 5 Rem or 1. Seek shelter and await further Thyroid = 5 to 25 Rem instructions.
- 2. Consider evacuation, particularly for children and >
pregnant women.
- 3. Monitor environmental radiation levels.
- 4. Control access.
Whole Body = 5 Rem and above or 1. Conduct evacuation of populations in the predetermined Thyroid = 25 Rem and above area.
- 2. Monitor environmental radiation levels and adjust area for evacuation based on these controls.
- 3. Control access.
EMERGENCY PLAN TMPLEMENTIi4G PROCEDURE EPIP 3.3a Pace 5 of 41
. INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83
6.0 REFERENCES
- 1. Duane Arnold Energy Center Emergency Plan
- 2. IELP Corporate Emergency Response Plan 7.0 ATTACHMENTS
- 1. Data Summary Sheet
- 2. Sumary Table
- 3. Calculation Sheets APPROVED BY: /2(/ hagspr.4 DATE: 4 /26!83 I Raciation Prpectiorff 5upervisor C
REVIEWED BY: /1 Np b .,c. y. DATE: a /- o/F j ALARA Coordinator 3 APPROVED BY:' '2 - DATE: E ?O - F3 - Operatiojti>Supervigt
,C J/7 DATE: ~ NO REVIEWED BY:
Cnairman, Oca ations Committee m m0sD eY: 4444d 4 Dm 9 83 P1antse,e,7encentgueear
EMERGENCY PLAN XMPLEMENT!NG PROCEDURE EPIP 3.3a , Page 6 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ATTACHMENT I, DATA
SUMMARY
SHEET Date: Recorded By: Time: _ Calculation Number: I. METER 0 LOGICAL DATA
- 1. Wind Direction a' degrees
- 2. Wind speeda mph
- 3. ATb .p
~
N0TES: a0btain wind speed and direction from met panel in control rocm or Cedar Rapids Flight Service at 9-364-7127. bObtain from atmospheric A T recorder readout in control room. II. RELEASE DATA . A. Reactor Building Stacks - Obtain release concentrations from the effluent monitoring system. Ranoe
- 1. "A" Stack Conc.a uCi/cc Hi Int. Nor.
- 2. "B" Stack Conc.a uCi/cc Hi Int. Nor.
- 3. "C" Stack Conc.a uCi/cc Hi Int. Nor.
4 "A" Stack Flowb cfm
- 5. "B" Stack Flowb cfm
- 6. "C" Stack Flowb cfm I
i I
' ' EPIP 3.3a EMERGENCY PLAN IMPLEMENTING PROCEDURE Page 7 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 AT7 ACHMENT I, DATA
SUMMARY
SHEET (continued)
- 8. Offgas Stack - obtain release concentration from the effluent monitoring system.
Ranae
- 1. Offgas Stack Conc.a uCi/cc Hi Int. Nor.
- 2. Offgas Stack Flowc cfm C. Turbine Exhaust - obtain release concentration from the effluent monitoring system.
- 1. Turb. Exhaust Conc.a uCi/cc Hi 2 Int. 2 Nor. ,
- 2. Turb. Exhaust Flowd cfm Notes (a-d):
- a. Data collected from Kaman Effluent Monitoring System see PASAP 6.0 and PCP 10.6A for system operating instructions.
- b. Data available either from the Kaman Effluent Monitoring System or from Control Room Panel 1C-23.
- c. Data available either from the Kaman Effluent Monitoring System or from Control Room Panel 1C-02.
- d. Data available either from the Kaman Effluent Monitoring System or can be estimated by: 18,000 cfm for each fan in slow speed 36,000 cfm for each f an in f ast speed
EMERGENQY PLAN XMPLEMENTING PROCEDURE EPIP 3.3a Page 8 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ; ATTACHMENT I, DATA
SUMMARY
SHEET (continued) D. Miscellaneous Data
- 1. Is Standby Gas Treatment for Offgas Stack Exhaust in operation:
YES NO
- 2. Anticipated duration of release hours. (.f no estimate is available use 1.77 hours.)
]
b
EMERGENCY PLAN IMPLEMENTING PROCEDURE __ EPIP 3.3a Page 9 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ATTACHMENT II,
SUMMARY
TABLE Calculations Performed By: I. GENERAL INFORMATION
- 1. Calculation Number: Date: Time:
- 2. Time after Shutdown: hours
- 3. Wind Direction: deg. (Data Summary Sheet Section I, line 1).
- 4. Down Wind Direction: deg. (180* different from 3 above)
- 5. Wind Speed meters /sec (Calculation Sheet I,A.1)
- 6. A T: 'F, Stability Class: (calc. sheet I. sec.
B) II. RELEASE INFORMATIGN
- 1. Exposure Time hours (Data Summary Sheet Section II D, line 2).
- 2. Release rate Reactor Bldg. Stack: Ci/sec or 0.3 x Ci/sec.
= actual Ci/sec. (see Note A) (Galc. Sheet II, sec. 1) [
- 3. Release rate - offgas stack Ci/sec a or 0.3 x Ci/sec. =
actual C1/sec. (see Note A) (Galc. sheet II, sec. II)- l
- 4. Release rate - Turbine Bida. Roof Exhaust: Ci/sec 0.3 x sheet II, sec. l Ci/sec = actual Ci/sec. (see Note A) (calc.
III)
- 5. Total Gaseous Release Rate: Ci/sec (add release rates from previous three lines)
Note A: If the monitor readings were obtained from the intermediate or hign range { effluent monitor multiply by 0.3 to obtain actual realease rates. This corrects for monitor response at I hour per P.A.S.A.P. 7.1. l
5
- EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3a .
Page 10 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ATTACHMENT II,
SUMMARY
TABLE (continued) III. DOSE INFORMATION
- 1. Cal, sheet III, section number for remainder of calculations:
(calc. sheet III, sec. I) Distance from Source Point of max. X/Q Site for Offgas Stack 2mi Smi 10mi Bdya released
- 2. Normalized concentration, X/Q, sec/m3 G release (calc.roundlevel sheet III, subsect.A)c
- 3. Normalized concentration, 'j X/0, sec/m3 E release (caic.levated sheet III,subsect. B)c ,
- 4. Whole body dose rate, mrem /hr (calc. sheet III, subsect. B)c
- 5. Whole body dose, mrem (calc. sheet III, subsect. C)c
- 6. Thyroid dose commitmentd , mrem (calc. sheet III, subsect. D)c ___
- 7. Total plume width, meters (miles) (calc.
sheet III, subsect. E)c
- 8. Plume arrival time, hr (calc. sheet III, subsect. F)c
' EPIP So3a
. EMERGENCY PLAN XMPLEMENTXNG PROCEDURE Page 11 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ATTACHMENT II,
SUMMARY
TABLE (continued) NOTESI a Assumes wind direction in the ESE sector. For directions in other sectors doses will be lower and plume arrival time and width will be greater. bFor stability class FG the distance to the maximum X/Q is greater than 10 miles. In order to limit the dose information to the EPZ a distance of 10 miles is used for class FG. cCalculation sheet subsection refers to the subsection of the Calculation Sheet III
~section as given in line 1 of Section III of this table.
dThe thyroid dose commitment given is for an inf ant, i.e., the worst case. The adult dose commitment is obtained by multiplying by 0.58.
?
e
EMERGENCY PLAN XMPLEMENTXNG PROCEDURE EPIP 3.3a , Page 12 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ATTACHMENT III, CALCULATION SHEET I GENERAL INFORMATION
. Wind Speed
- 1. Wind Speed mph (Data Sumary Sheet, Section I, line 2) x 0.447 =
1 l l Meters /sec (to Sumary Table sec. I, line 6)
- 8. Stability Class 1.ATl l *F - obtained from Data Sumary Sheet, Sc: tion I, line 3 (to Sumary Taole sec. I, line 6)
- 2. Stability class is determined from the following table as a function of 4T.
Stability class l l (to Sumary Table, see I, line 6) ..,
)
A T Range, *F Stability Class
-1.26 or less AB
-1.26 to -1.11 C
-1.11 to 1.11 DE 1.11 or greater FG Y
e
,+,-,e .- r m.% c...- , -- -
% . ,,,,.,.m -- ye,.,, , . . _ ,#-, p. , , . .-- - -
o . EMERGE:lCY PLAN XMPLEMENTXNG PROCEDURE EPIP 3.3a Page 13 of 41 INITIAL DOSE PROJECTION 5 Revision 2 Date 3/11/83 i ATTACHMENT III, CALCULATION SHEET II Page 1 of 3 RELEASE INFORMATION I. Reactor Building Stack Releases I
- 1. "A" Stack Conc.a uCi/cc x "A" Stack Flow a cfm x 472 = uCi/sec
- 2. "B" Stack Conc.a uCi/cc x "B" Stack Flowa
~
cfm x 472 = uCi/sec
- 3. "C" Stack Conc.a uCi/cc x "C" Stack Flowa cfm x 472 = uCi/sec
/
- 4. "A" Sta,k Release Rate uCi/sec j "B" Stick Release Rate uCi/sec "C" Stack Release Rate uCi/sec Total Release Rate uCi/sec x 1 Curie -
= Ci/sec 106 uCi (To Summary Table, Sec. II, Line 2) l Note:
- a. 'Obtain data from' D=ta Summary Sheet, Section II. A, line 2.
II. Offgas Stack Releases I 1. Stack Conc.a uCi/cc x Offgas Stack l Flowa cfm x 472 = uCi/sec l 1 Curie
- 2. Release rate uCi/sec x 106 uCi Ci/sec i
(To Summary Table, Sec. II, Line 3) Note:
- a. Obtain data from Data Summary Sheet, Section II.S.
l '~ ~ -- - - ---
l EMERGENCY PLAN IMPLEMENTXNG PROCEDURE . EPIP 3.3a Page 14 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 , ATTACHMENT III, CALCULATIGN SHEET II (continued) Page 2 of 3 III. Turbine Building Releases
- 1. Release Conc.a uCi/cc x Flowa cfm x 472 =
uCi/sec 1 Curie
- 2. Release rate uCi/sec x = .
106 uCi l
,- l Ci/sec l (To Sumary Table Sec. II. Line 4)
Note: .
- a. Obtain data from Data Summary Sheet, Section II.C.
4 1 }
. i
= ' EMERGENCY PLAN KMPLEMENTlNG PROCEDURE EPIP 3.3a Page 15 of al INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ATTACHMENT III, CALCULATION SHEET III Page 3 of 3 DOSE INFORMATION
- 1. Section for the remaining calculations - Appropriate section is determined from the following table based on the atmospheric stability class. Complete ONLY ONE section, j i
Stability Class Section , (from Summary Table, Section I, line 6). AS II (page 18 of 41) C III (page 22 of 41) DE IV (page 28 of 41) :
}
FG V (page 35 of 41) j i F 4 6
,, =
EMERGENCV PLAN ?MPLEMENTING PROCEDURE EPIP 3.3a Page 16 of 41 INITIAL 00SE PROJECTIONS Revision 2 .) Date 3/11/83
=
ATTkCHMENTIII,CALCULATIONSHEETIII(continued) II. Dose information for atmospheric stability class AB
- A. Normalized concentration, Ground Level Release - Results for Summary Table, 5ection III, Line 2.
see
- 1. 4.0 x 10-5 + m/seca= m3 at site boundary sec
- 2. 5.3 x 10-5 + m/seca= m3 at point of max
- X/Q for offgas stack release sec
- 3. 3.8 x 10-7 + m/seca= _ m4 at 2 miles
\
sec m3 at 5 miles i
- 4. 4.0 x 10-8 + m/seca=
sec
- 5. 7.4 x 10-9 + m/seca= m3 at 10 miles NOTE:
a0btain wind speed from Summary Table, Section I, line 5. B. Normalized concentration, Elevated Release - Results for Summary Table Section III, line 3. sec
- 1. 2.2 x 10-5 + m/seca =h ' m3 at site boundary 1
sec
- 2. 2.4 x 10-5 + m/seca= mo at point of max X/Q for offgas stack release
' sec
- 3. 3.5 x 10-7 + m/seca =l m3at 2 miles I
sec
- 4. 3.9 x 10-8 + m/seca. Epat 5 miles sec
- 5. 7.6 x 10-9 + m/seca= m3 at 10 miles NOTE:
aCbtain wind speed from Summary Table Section I, line 5.
o ,. EMERGENCY PLAN TMPLEMENT!NG PROCEDURE EPIP 3.3a Page 17 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ATTA'CHMENT III, CALCULATION SHEET III (continued) C. Whole body dose rate - Results from Surrrnary Table Section III, line 4 Cia Cib Ci
- 1. seC + sec = seC Ci
- 2. Te'c (from line 1) x 32.0 mc Cid divided by Ec + Tec x 11.00 mc mrem at site boundary divided by sic = hr Ci
- 3. Ec (from line 1) x 42.4 mc Cid divided by sec + sec x 12.0e mc mrem at point of max X/Q divided by Tic = hr for offgas' stack release Ci
- 4. Ec (from line 1) x 0.304
~
mc Cid divided by sec + sec x 0.280e mc mrem at 2 miles divided by Ec = nr Ci-
- 5. sec (from line 1) x 3.20 x 10-2 mc Cid divided by sec + sec x 3.3 x 10-28 mC mrem at 5 miles divided by sic = nr
,, _ - _ __m. - ,_ _ , - , ,._ , , - ,n.
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3a , Page 18 of 41 INITIAL DOSE PROJECTIONS Revision 2
\
Date 3/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) Ci
- 6. E c (from line 1) x 5.92 x 10-3 d
mc Ci divided by sec + sec x 1.7 x 10-28 me mrem at 10 miles divided by Ec = nr N.0TES : aReactor building stack release rate from Summary Table, Section II, line 2. bTurbine building roof exhaust release rate from Sumary Table, Section II, line 4. . cWind speed from Summary Table, Section I, line 5. , d0ffgas stack release rate from Sumary Table, Section II, line 3.
'If Standby Gas Treatment is in operation (see Data Sumary Sheet, Section II D, line
- 1) multiply this number by 0.662.
D. Whole body dose - Results for Sumary Table Section III, line 5. mrem
- 1. nr (from line C2) x hra
= mrem at site boundary mrem
- 2. nr (from line C3) x hra
= mrem at point of max X/Q for offgas stack release mrem
- 3. nr (from line C4) x hra
= mrem at 2 miles wrem 4 nr (from line C5) x bra
= mrem at 5 miles
EMERGENCV PLAN 1MPLEMENTING PROCEDURE EPIP 3.3a Page 19 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) mrem
- 5. hr (from line C6) x hra mrem at 10 miles
= lI NOTE:
a0btain exposure time from Summary Table, Section II, line 1. E. Thyroid Dose Commitment - Result for Summary Table, Section III, line 6. Cia Cib Ci
- 1. ( sec + sec ) x 0.3 = Tic Cic C1
- 2. He x 0.3d= sec Ci sec
- 3. E c (line 1) x 7 (line A.1)
Ci sec
+ sic (line 2) x me (line B.1)
=
S c Ci sec
- 4. se T (line 1) x F (line A.2)
Ci sec
+ Ec (line 2) x m3 (line B.2)
Ci
= m-Ci- sec
- 5. Tic (line 1) x F (line A.3)
Ci sec
+ sic (line 2) x ma (line B.3)
Ci
= F .
Ci sec
- 6. sic (line 1) x md (line A.4)
Ci sec
+ Tic (line 2) x m3 (line B.4)
=
-.r, - - - , , ,
-w-.-- - , - - - . - , , , , , , - , - - - - _ .
'g 'y 8 EMERGENCY PLAN XMPLEMENT1NG PROCEDURE EPIP 3.3a ,
Page 20 of 41 INITIAL DOSE _ PROJECTIONS Revision 2 , Date 3/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) Ci sec
- 7. sec (line 1) x E3- (line A.5)
Ci sec
+ IEc (line 2) x m3 (line B.5) a k m
Ci
- 8. W (line 3) x hre x 3.8 x 108
=1 l mrem at site boundary Ci
- 9. EUI(line 4) x hre x 3.8 x 108
= )
I mrem at point of max X/Q for offgas stack release. , Ci
- 10. W (line 5) x hre x 3.3 x 108
= 1 l mrem at 2 miles C1
- 11. U (line 6) x hre x 3.8 x 108
= l i >
l mrem at 5 miles Ci
- 12. iif (line 7) x hre x 3.8 x 108
=l mrem at 10 miles NOTES:
a Reactor building stack release rate from Summary Table, Section II, line 2. bTurbine building roof exhaust releasa rate from Summary Table, Section II, line 4. C0ffgas stack release rate from Summary Table, Section II, line 3. d If Standby Gas Treatment is in operation (See Data Summary Sheet, Section 11.0, line 1) use 0.003, otherwise use 0.3.
. . - ~ , - - - . . . . - . . - . _ , . , - -. -.,
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP. 3.3a Pace 21 of 41 INITIAL DOSE PROJECTIONS Revision 2
Date 3/11/83 4
ATTACHMENT ,III, CALCULATION SHEET III (continued) e0btain exposure time from Summary Table, Section II, line 1. F. Plume width - The following are the plume widths to be placed in the Summary Taole, Section III, line 7. Site Point of maximum X/Q Bdya for Offgas Stack release 2mi Smi 10mi 470 3200 6200 11000 530 G. Plume arrival time - Results for Summary Table Section III, line 8. ma hr to Site Boundary
- 1. 0.125 divided by 'sec =
ma .hr to point of max X/Q for
- 2. 0.111 divided by sec = offgas stack release ma hr to 2 miles
- 3. 0.894 divided by Tec =
ma hr to 5 miles
- 4. 2.23 divided by sec =
ma hr to 10 miles
- 5. 4.47 divided by sec =
i NOTE: a0btain wind speed from Summary Table, Section I, line 5. e
. \
EPIP 3.3a EMERGENCY PLAN IMPLEMENTlNG FROCEDURE l Page 22 of 41 INITIAL DOSE PROJECTIONS Revision 2
,I Date 3/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) fl!. Dose information for atmospheric stability class C.
A. Normalized concantration, Ground level release - Results for Sunnary Table, dection ill, line z.
- 1. 1.8 x 10-4 + .m/seca= sec F at site boundary
- 2. 3.2 x 10-5 4 m/seca= s e at point of max m X/Q for offgas
. release
- 3. 6.0 x 10-6 + m/seca= see F at 2 miles 4 1.2 x 10-6 + m/seca= sec mJ at 5 miles . .)
- 5. 3.7 x 10-7 + m/seca= sc m at 10 miles NOTE:
a0btain wind speed from Summary ' Table Section I, line 5. B. Normalized concentration, Elevated release - Results for Summary Table, Section III, line 3.
- 1. 1.0 x 10-6 + m/seca= sec F at sit.e boundary m/seca= s c at point of max e 2. 3.3 x 10-5 +
m X/Q for offgas stack release
- 3. 5.1 x 10-6 + m/seca= see F at 2 miles m/seca=
- 4. 1.2 x 10-6 + h 5 es 5* ')
**7 x 10-7 + m/seca= sec F at 10 miles
. NOTE: a0btain wind speed from Summary Table, Section I, line 5.
EMERGENCY PLAN TMPLEMENTlNG PROCEDURE EPIP 3.3a Page 23 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) C. Whole body dose rate - Results from Summary Table, Section III, line 4 Cia Ci b Ci
- 1. Ec+ sic = sec Ci
- 2. Ec (from line 1) x 144 mc Cid divided by sec + sec x 9.30e mc divided by Ec = mrem at site boundary nr Ci
- 3. Ec (from line 1) x 25.6 mc Cid divided by sec + sec x 10.5e mc divided by Ec = ; mrem at point of max X/Q for nr offgas stack release Ci
- 4. Ec (from line 1) x 4.80 mc Cid divided by sec + sec x 6.50e divided by c= mrem at 2 miles nr Ci
- 5. Ec (from line 1) x 0.960 mc Cid divided by Ec+ Tec x 1.45e mC divided by Ec = mrem at 5 miles nr
'o .
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3a , Page 24 of 41 Revision 2 - INITIAL DOSE PROJECTIONS '
}
Date 3/11/83 ATTA'CHMENT III, CALCULATION SHEET III (continued) Ci
- 6. Tec (from line 1) x 0.296 mc Cid divided by Tec + sec x 0.350e mc divided by sic = l mrem at 10 miles I nr NOTES:
aReactor building stack release rate from Summary Table, Section II, line 2. b Turbine building roof exhaust release rate from Summary Table, Section II, line 4. CWind speed from Summary Table, Section I, line 5. .
)
d0ffgas stack release rate from Sunnary Table, Section II, line 3. ,
'If Standby Gas Treatment is in operation (see Data Summary Sheet, Section II D, lina 1) multiply this number by 0.662.
D. Whole body dose - Results for Sunnary Table, Section III, line 5. mrem
- 1. hr (from line C2) x hra E
mrem at site boundary mrem
- 2. nr (from line C3) x hra 2 s
,' g,
. i.
mrem at point of max X/Q for. offgas' stack release ' \. - i, ' mrem
- 3. nr (from line C4) x hra
.s 7 s-m
( 4 mrem at 2 miled 's', , , s -s 1 .,,. l , mrem '
- 4. nr (froc line C5) x* hra ,
t E mrem at 5 mi..les'. i .' s., ;
~"t ,
s
EMERGENCV PLAN IMPLEMENTXNG PROCEDUPE EPIP 3.3a Page 25 of 41 INITIAL DOSE PROJECTIONS Revision 2
' Date 3/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) mrem
- 5. nr (from line C6) x hra a1 mrem at 10 miles NOTE:
a0btain exposure time from Summary Table, Section II, line 1. E. Thyroid Dose Commitment - Result for Summary Table, Section III, line 6. Ci a Cib Ci
- 1. ( sec + sec ) x 0.3 = sic Cic Ci
- 2. sec x 0.3d = sec Ci sec
- 3. sec (line 1) x m3 (line A.1)
Ci sec
+ sec (line 2) x W (line B.1)
=
S m* Ci sec
- 4. sec (line 1) x m3 (line A.2)
Ci sec
+ sec (line 2) x m3 (line B.2)
Ci
= F Ci sec
- 5. sec (line 1) x m3 (line A.3)
Ci sec
+ sec (line 2) x F (line B.3)
=
S m*
-+.,r ., ,.-,.,r , , , , . . , . , . . , . . . .,w
EMERGENCY PLAN IMPLNENTING PROCEDURE EPIP 3.3a , Page 26 of 41 INITIAL 00SE PROHCTIONS Revision 2 Date 3/11/83 (, ) d 1 ATTACHMENT III, CALCULATION SHEET III (continued) Ci sec
- 6. sec (line 1) x F (line A.4)
Ci se:
+ sec (line 2) x F (line B.4)
= h m
Ci see
- 7. sec (line 1).x F (line A.5)
Ci sec
+ sec (line 2) x m3 (line B.5)
Ci ;
- F /
Ci
- 8. U (line 3) x hre x 3.8 x 108
=l mrem at site boundary Ci
- 9. 3 (line 4) x bre x 3.8 x 108
= mrem at point of max. X/Q for offgas stack release Ci
- 10. U (line 5) x hre x 3.8 x 108
=l mrem at 2 miles l
Ci
- 11. U (line 6) x hre x 3.8 x 108 mrem at 5 miles
= ll .
Ci
- 12. IEI (line 7) x hre x 3.8 x 108
=i mrem at 10 miles ,
l
3.3a
- EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP Page 27 of 41 i INITIAL DOSE PROJECTIONS Revision 2 1 Date 3/11/83 ATTACHMENT III, CALCULATION SHEET III (continued)
NOTES: .I aReactor building stack release rate from Summary Tabie, Section II, line 2. bTurbine building roof exhaust release rate from Summary Table, Section II, line 4. c0ffgas stack release rate from Sunnary Table, Section II, line 3. d If Standby Gas Treatment is in operation (See Data Summary Sheet, Section 11.0, 1 ljne 1) use 0.003, otherwise use 0.3.
; 'Obtain release duration from Summary Table, Section II, line 1. , ; F. Plume width - The following are the plume widths to be placed in the Summary Table Section III, line 7.
I Site Point of maximum X/Q Bdy for Offgas Stack release 2mi Smi. 10mi 4 310 meters 720 1900 2700 6600 G. Plume arrival time - Results for Summary Table, Section III, line 8. ma i hr to Site Boundary
- 1. 0.125 divided by sec =(
ma hr to point of max X/Q - 2. 0.333 divided by Tec = for offgas stack release ma hr to 2 miles ,
- 3. 0.894 divided by Tec =
ma hr to 5 miles 4 2.23 divided by Tec = i ma hr to 10 miles
- 5. 4.47 divided by Tec =
NOTE: a0btain wind speed from Summary Table, Section I, line 5. 4 r
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3a ,
'h ' '
Page 28 of 41 INITIAL DOSE PROJECTIONS Revision 2 ,., Date 3/11/83 - I ATTACHMENT III, CALCULATION SHEET III (continued) IV. Dose information for atmospheric stability class DE. A. Normalized concentration, Ground level release - Results for Summary Table. l 5ection 151, line 2.
- 1. 7.3 x 10-4 divided by m/seca, s,e ma at site boundary 2, 2.2 x 10-5 divided by m/seca= sec at point of max W X/Q for offgas stack release
- 3. 3.1 x 10-5 divided by m/seca= see F at 2 miles
- 4. 7.2 x 10-6 divided by m/seca= sc m at 5 miles
)
5, 2.4 x 10-6 divided by m/seca.l s l m at 10 miles j NOTE: . a0btain wind speed from Summary Table, Section I, line 5. B. Normalized concentration, Elevated release - Results for Summary Table, Section III, line 3.
- 1. 1.6 x 10-lldivided by n/seca l- see F at site boundary
- 2. 7.0 x 10-6 divided by m/seca.
s c at point of max m X/Q for offgas stack release
- 3. 6.6 x 10-6 divided by m/seca.
- 4. 4.7 x 10-6 divided by m/seca= sec ma at 5 miles
- 5. 2.0 x 10-6 divided by m/seca= sec ma at 10 miles NOTE:
a0btain wind speed from Summary Table, Section I, line 5. t
, ,--,y. , , . . , , , - - . ,-------,,_,,,_--,.,.y. , , , _ . . _ _ . . _ . , . , - - ,
EMERGENCV PLAN XMPLEMENTING PROCEDURE EPIP 3.30 Page 29 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) C. Whole body dose rate - Results from Sumary Table, Section III, line 4. Cia Cib Ci
- 1. sec + sec = sec Ci
- 2. Tec (from line 1) x 584 mc Cid divided by sec + Tec x S.00e
~
mc divided by sic = mrem at site boundary f nr Ci
- 3. Tic (from linec
- 1) x 17.6 m Cid divided by sec + sec x 8.000 mc divided by sic = mrem at point of max X/Q for nr offgas stack release Ci 4 ss; (from line 1) x 24.8 mc Cid divided by se: + sec x 9.000 mC divided by sec e mrem at 2 miles nr Ci
- o. sec (from line 1) x 5.76 me cid divided by sec + se: x 5.10e mC divided by sec =
mrem at 5 miles nr b l t
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3a . Page 30 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 d ATTACHMENT III, CALCULATION SHEET III (continued) Ci
- 6. Tec (from line 1) x 1.92 me Cid divided by Te~c + sTEc x 2.05e 2
mC divided by Tic = I mrem at 10 miles hr NOTES: aReactor building stack release rate from Sumary Table, Section II, line 2. DTurbine building roof exhaust release rate from Sumary Table, Section II, line 4. cWind speed from Summary Table, Section I, line 5. dGfigas stack release rate from Sumary Table, Section II, line 3. ) l
'If Standby Gas Treatment is in operation (see Data Sumary Sheet, Section II D, . line 1) multiply this numoer by 0.662.
D. W' hole body dose - Results for Summary Table, Section III, line 5. mrem
- 1. hr (from line C2) x hra
, =l mrem at site boundary l mrem '-
- 2. nr (from line C3) x hra l = mrem at point of max X/Q for offgas stack release mrem
- 3. nr (from line C4) x hra
= mrem at 2 miles mrem
- 4. hr (from line CS) x hra
= l mrem at 5 miles l
l - EMERGENCY PLAN IMPLEMENT!NG PROCEDURE EPlP 3.3a Page 31 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) mrem
- 5. nr (from line C6) x hra
=l mrem at 10 miles I
NOTE: a0btain exposure time from Summary Table, Section II, line 1. E. Thyroid Dose Commitment - Result for Summary Table, Section III, line 6. Cia cib Ci
- 1. sec + sec) x 0.3 = see
( Cic Ci
- 2. He x 0.3d = sec Ci sec
- 3. sec (line 1) x m3 (line A.1)
Ci sec
+ sec (line 2) x E (line B.1)
=
S m* Ci sec
- 4. sec (line 1) x m3 (line A.2)
Ci sec
+ sec (line 2) x F (line B.2)
Ci
= F Ci sec
- 5. E c (line 1) x m3 (line A.3)
Ci sec
+
sec (line 2) x m3 (line B.3)
=
EMERGENCY PLAN IMPLEMENTXNG PROCEDURE EPIP 3.3a , Pago 32 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 [ ATTACHMENT III, CALCULATION SHEET III (continued) Ci sec
- 6. sec (line 1) x F (line A.4)
Ci sec
+ sec (line 2) x F (line B.4)
=
k m Ci sec
- 7. sec (line 1) x m3 (line A.5)
Ci sec
+ sec (line 2) x F (line B.5)
= S :
Ci
- 8. 3 (line 3) x hre x 3.8 x 108
=l mrem at site boundary
)
Ci
- 9. 3 (line 4) x hre x 3.8 x 108
=1 mrem at point of max X/Q for offgas strce release l
Ci
- 10. E (line 5) x hre x 3.8 x 108
=l mrem at miles C1
- 11. U (line 6) x hre x 3.8 x 108
=1 mrem at 5 miles l
?
3.3a EMERGENCV PLAN IMPLEMENTING PROCEDURE EPIP Page 33 of 41 INITIAL DOSE PR0liOTIONS Revision 2 Date 3/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) Ci
- 12. "UI (line 7) x hre x 3.8 x 108
=l 1 mrem at 10 miles l __.
NOTES:
,a Reactor building stack release rate from Summary Taole, Section II, line 2.
bTurbine building roof exhaust release rate from Summary Table, Section II, line 4 c0ffgas stack release rate from Summary Table, Ee: tion II, line 3. dIf Standby Gas Treatment is in operation (See Data Summary Sheet, Section 11.0, line 1) use 0.003, otherwise use 0.3 e0btain release duration from Summary Table, Section II, line 1. F. Plume width - The following are the plume widths to be placed in the Summary Table, Section III, line 7. Site Point of maximum X/Q for Offgas Stack release 2mi 5mi 10mi Bdy 1400 1100 2400 4300 190 meters G. Plume arrival time - Results for Summary Table, Section III, line 8. ma
- 1. 0.125 divided by isc = the to Site Boundary I
ma sec = hr to point of max x/Q for 2* 1.11 divided b~y offgas stack release ma
- 3. 0.894 divided by sec = hr to 2 miles ma 4 2.23 divided by sec = hr to 5 miles
~
EMERGENCY OLAN EMPLEMENTING PROCEDURE EPIP 3.3a , Page 34 of 41 INITIAL DOSE PROJECTIONS Revision 2 ,.-
~
Date 3/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) ma
- 5. 4.47 divided by sec = l he to 10 miles l
NOTES: a0btain wind speed from Summary Table, Section I, line 5. 4 1 (
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3a Page 35 of 41 Revision 2 i INITIAL DOSE PROJECTIONS Date 3/11/83 ATTA'CHMENT III, CALCULATION SHEET III (continued) V. Dose information for atmospheric stability class FG. A. Normalized concentration, Ground level release - Results for Sumary Table, Section ill, line 2 se_ c 4.0 x 10-3 + m/seca=! ma at site boundary 1. sec
- 2. 2.0 x 10-5 + m/seca=1 ma at point of max X/0
. i for offgas stack relesse sec
- 3. 2.1 x 10-4 & m/seca= ma at 2 miles sec
- 4. 5.5 x 10-5 + m/seca=1 ma at 5 miles i
l sec
- 5. 2.0 x 10-0 &
m/sec me at 10 miles
- a = ll NOTE:
a0btain wind speed from Summary Table, Section I, line 5. B. Normalized concentration, Elevated release - Results for Sumary Table Section Ill, line 3. sec m/seca= at site boundary
- 1. 0.0 +
i sec
- 2. 1.7 x 10-4 & m/seca= tra at point of max X/Q for offgas stack release sec
- 3. 1.7 x 10-11+ m/seca= md at 2 miles l
l l I . _ _ _ _ _ _ _ . . _ ___ _._ __ , , _
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3a - - Page .36 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ) ATTACHMENT III, CALCULATION SHEET III (continued) sec
- 4. 2.2 x 10-7 + m/seca=' mo at 5 miles sec
- 5. 1. 7 x t.
m/seca=' m3 at 10 miles NOTE: a0btain wind speed from Summary Tabh., -tion I, line 5. C. Whole body dose rate - Results froi.. mary Table, Section III, line 4. Ci a Cib Ci
- 1. sec + sec = sec Ci 'l
- 2. sec (from line 1) x 3.20 x 103 mc Cid
. divided by sec + sec x 7.000 i mC divided by Tic = ' mrem at site boundary nr Ci
- 3. Tic (from line 1) x 16.0 mc Cid divided by sec + sec x 3.400 mC divided by Tic = l mrem at point of max X/Q for nr offgas stack release Ci
- 4. sic (from line 1) x 168.0 mc Cid divided by sec + sec x d.000 mc divided by Tic = mrem at 2 miles
! nr
--,a y ,- - - - - - - , - * , - . , . , , . . , . . - - - -..,,m.. - - - - - = , , , - , , -
-,m-
. EMERGENCY PLAN TMPLEMENTfNG PROCEDURE EPIP 3.3a
'Page 37 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83
~
ATTACHMENT III, CALCULATION SHEET III (continued) Ci
- 5. Ec (from line 1) x 44.0 m0 Cid divided by sec + sec x 4.20e mc divided by Ec = mrem at 5 miles l _
nr
. Ci
- 6. sec (from line 1) x 16.0 mc Cid divided by sec + sec x 3.400 mC divided by Tec = mrem at 10 miles nr .
- NOTES:
i aReactor building stack release rate from Summary Table, Section II, line 2. bTurbine building roof exhaust release rate from Summary Table, Section II, line 4 c Wind speed from Summary Table, Section I, line 5. d0ffgas stack release rate from Summary Table, Section II, line 3.
'If Standby Gas Treatment is in operation (see Data Summary Sheet, Section II.0, line 1) multiply this number by 0.662.
D. Whole body dose - Results for Summary Table Section III, line 5. mrem
- 1. nr (from line C2) x hr3 mrem at site boundary
=
mrem
- 2. nr (from line C3) x nra mrem at point of max X/Q for offgas stack release
=
.c ,e a ..,---,,.,.,-.-,v,-------- , . . . - - , . -,,.,,---.e.n,,~.,-. -
,, , - .,,----,,c--c--, ---
EMERGENCY PLAN XMPLEMENTANG PROCEDURE EPIP 3.3a . 4 ' Page 38 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 '.I ATTACHMENT III, CALCULATION SHEET III (continued) mrem
- 3. hr (from line C4) x hra mrem at 2 miles-3 mrem
- 4. hr (from line C5) x hra mrem at 5 miles mrem
- 5. hr (from line C6) x hra mrem at 10 miles '
=
NOTE: a0btain exposure time from Summary Table, Section II, line 1. E. Thyroid Dose Comitment - Result for Summary Table, Section III, line 6. Cia Cib C1
- 1. sec + sec) x 0.3 = see
( Cic Ci
- 2. H e x 0.3d = sec Ci sec
- 3. He (line 1) x T (line A.1)
Ci sec
+ Ec (line 2) x T (line B.1)
= k m
Ci sec 4 Ec (line 1) x m3 (line A.2-) Ci sec
+ E c (line 2) x T (line B.2)
=
, EMERGENCV PLAN TMPLEMENTING PROCEDURE EPlP 3.3a Page 39 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) Ci sec
- 5. Ec (line 1) x 3 -(line A.3)
Ci sec
+ E c (line 2) x , m3 (line B.3)
Ci
= F Ci sec
- 6. sec (line 1) x m3 (line A.A)
Ci sec
+ Ec (line E) x m3 (line B.4)
Ci
- F Ci sec
- 7. Ec (line 1) x m3 (line A.5)
+ c (line 2) x (line 5.5)
C1
= m*
Ci
- 8. U (line 3) x hre x 3.8 x 108
=1 mrem at site boundary l
Ci
- 9. 3 (line 4) x hre x 3.8 x 108
=
l mrem at point of max X/Q for offgas stack release I Ci
- 10. W (line 5) x hre x 3.8 x 105
=
l mrem at 2 miles I
EMERGENCY PLAN IMPLEMENTXNG PROCEDURE EPIP 3.3a .~. Page 40 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 -} ATTACHMENT III, CALCULATION SHEET III (continued) Ci
- 11. EDI(line 6) x hre x 3.8 x 108
=l mrem at 5 miles l
Ci
- 12. igr(line 7) x hre x 3.5-x 108
=! mrem at 10 miles l
NOTES:' aReactor building stack release rate from Summary Table, Section II, line 2. i b Turbine building roof exhaust release rate from Summary Table, Section II, line 4. j c0ffgas stack release rate from Summary Table, Section II, line 3. d If Standby Gas Treatment is in operation (See Data Summary Sheet, Section II.D, line 1) use 0.003, otherwise use 0.3.
'Obtain release duration from Summary Table, Section II, line 1.
F. Plume Width - The following are the plume widths to be placed in the Summary laole, dection III, line 7. Site Point of maximum X/Q for Offgas Stack release 2mi Smi. 10mi Bdy 2000 530 970 2000 90 meters G. Plume arrival time - Results for Summary Table, Section III, line 8. ma sec = br to Site Boundary
- 1. 0.125 +
ma
- 2. 4.47 + sec = hr to point of max X/Q for offgas stack release o
e e
3.3a EMERGENCV PLAN XMPLEME,NTlNG PROCEDURE EP8P Page 41 of 41 INITIAL DOSE PROJECTIONS Revision 2 Date 3/11/83 1 ATTACHMENT III, CALCULATION SHEET III (continued) ma
- 3. 0.894 , Tic = hr to 2 miles ma
- 4. 2.23 + Tec = l l hr to 5 miles 1
ma
- 5. 4.47
- isc = hr to 10 miles NOTE:
a0btain wind speed from Summary Table, Section I, line 5. 3 e 9
~-
y w-,- - 7 . , -m-ww. 7,--r,-, giy-,,,=,, w,,, ,-,r.,, yes . ..,,,-.p.y -sya,-y --,.,,-7.--- , - - , . , - , - - - - - - , -
- EMERGENCY PLAN 1MPLEMENT1NG PROCEDURE EPZP 3.3b I.'
Pace 1 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date a/11/53 1.0 PURPOSE This procedure provides instructions for estimating the downwind dose rates resulting from noble gas and radioiodine releases during an emergency at DAEC.
- 2.0 APPLICABILITY This procedure applies to immediate sDecific steos to be taken by radiological assessment personnel durino a release of radioactive material (after tne first hour following shutdown) to the environment.
3.0 RESPONSIBILITIES 3.1 Site Radiation Protection Coordinator Perform dose projection calculations until the EOF is manned. Evaluate the results of dos'o orojection calculations. Initially identify the need fer field survey data to backup projected dose calcul ations . 3.2 Emeroency Coordinator Initially advise local and State authorities of the results of dose , projection calculations and provide protective action recommendations as required. 3.3 IELP Radiolocical Assessment Coordinator 4 Perform dose projection calculations. Provide protective action recommendations as recuired. 1
4.0 INTRODUCTION
The major objective of this procedure is to perform the cffsite dose estimate for comparison with protective action guidelines to determine the appropriate emercency actior. to be taken following an accidental atmosoheric release of radioactive material. As a result of this objective the procedure has been developed with five major oarts. The first consists of the main bocy of the procedure and contains general information about the procedure, ceneral The second part instructions for its use and the orotective action ouicelines. consists of a Data Summary Sheet, Attachment I, whicn contains all the monitor data necessary for the dose orojections. The third cart, Attachment II, consists of a summary Table to be completed durina the cose estinatien procecure. Inis table contains all the information necessary for comcariso- witn the protective actinn cuicelines. These The completion of tnis table reouires a numcer of calculatiens to be ofrformed. calculations are set up in detail on Calculation Sheets wnich comprise the fourtn oart of tne crocedure, Attachment III. The, Data
3.3b EMERGENCY PLAN IMPLEMENTENG PROCEDURE EPIP ., Page 2 of 94 . FOLLOW-UP 00SE PROJECTIONS Revision 2 Date 4/11/83 Summary Sheet, Summary Table. and the Calculation Sheets are designed to be used together, that is, the Calculation Sheets are required to complete the Sunmary Table while information from the Data Summary Sheet and Summary Table is required ir, many of the calculations performed on the Calculation Sheets. When calculations are required the Summary Table references the appropriota segment of the Calculation Sheets to be completed, likewise when data is required from the Data Summary Sheet and Summary Table the appropriate Data Summary Sheet or Summr.y Table line number is referenced on the Calculation Shest. The fifth part, Attachment IV, contains all the figures referenced in the Calculation Sheets. NOTE A supply of Data Summary Sheets, Summary Tables, and Calculation Sheets are to be maintained in the Techn1 cal Support Center (TSC) and Emergency Operations Facility (E0F) for emergency use. 5,0 INSTRUCTIONS 5.1 If an off-site radiological release has been identified, use the simplified method EPIP 3.3a for the initial dose calculation (within the first hour following shutdown). Subsequent dose calculations shall be made utilizing the methods contained within this procedure. 1 5.2 If an accidental atmospheric release of radioactive material has been identified or there is a significant change in the release rate a dose prajection is to be performed as follows. 5.2.1 Complete Data Summary Sheet. 5.2.2 Complete Section I of the Summary Table, General Information, using Calculation Sheet I where referenced. 5.2.3 Complete Section II of the Summary Table, Release Information, to determine the total gaseous release rate from the Reactor Building Stacks, the Offgas Stack, and the Turbine Building Roof Exhaust. Use Calculation Sheet II, where referenced, to perform tile necessary release rate calculations. When multiple monitor ranges are available complete the calculations for 0NE range ONLY. Use the range which gives a reading nearest mid-scale.
, ,, . , . ,pe._ -
gy. , _.- - , , , ---
L 04ERGENCY PLAN IMPLEMENTXNG PROCEDURE EPXP 3.3b 3 cf 94 Pace FOLLOB-UP 00SE PROJECTIONS Revision 2 Date 4/11/83 5.2.4 Complete Section III of the Summary Table, Dose Information. Use Calculation Sheet III, where referenced to perform all necessary 3 calculations. Calculation Sheet III is divided into five sections of which only two are to be completed. Section I is always completed and determines, based on the atmospheric stability, which one of the remainino four sections is to be used to perform the dose estimation. The Calculation Sheet subsections referenced in Section III of the Summary Table are those of the aopropriate section for dose estimation as determined by Section I. That is, Sections II throuch V of Calculation Sheet III have the same format only the constants which are dependent on atmospheric stability are different. 5.2.5 Comolete Section IV of the Summary Table if an estimate of the release rate is to be made from a field exposure rate measurement. 5.2.6 Report the results of the dose estimation calculations, i.e., supply copies of the Summary Table, to the Emergency Coordinator and/or the Site Radiation Protection Coordinator or the Radiological Assessment Coordinator. 5.2.7 The Site Radiation Protection Coordinator or the Radiological Assessment Coord'nator shall compare the dose estimates from the Summary Table to the followino Frotective Action Guidelines and initiate the appropriate action. w---- - y .v
, y
EMERGENCV PLAN IMPLEMENTfNG PROCEDURE EPIP 3.3b . , , , Pace 4 of 94
- FOLLOW-UP DOSE PROJECTIONS Revisica 2 Date 4/11/83 s
PROTECTIVE ACTION GUIDELINES Projected Exposure to An Individual In the Pooulation Recommended Action Whole Body = less than 1 Rem or 1. No protective action required. Thyroid = less than 5 Rem. Issue an advisory to seek 2. shelter and await further instructions or voluntarily evacuate.
- 3. Monitor environmental radiation levels.
Whole Body = 1 to 5 Rem or 1. Seek shelter and await further' Th.yroid = 5 to 25 Rem instructions.
- 2. Consider evacuation, particularly for children and pregnant women.
- 3. Monitor environmental radiation levels. 4
- 4. Control access.
Whole Body = 5 Rem and above or 1. Conduct evacuation of Thyroid = 25 Rem and above populations in the predetermined area.
- 2. Monitor environmental radiation levels and adjust area for evacuation based on these controls.
- 3. Control access.
EMERGEMCV PLAN TMPLEMENTlNG PROCEDURE EPZP 3.3b Paas 5 of 98 FOLLOH-UP DOSE PROJECTIONS Revision 2 Date 4/11/83
6.0 REFERENCES
- 1. Duane Arnold Energy Center Emergency Plan
- 2. IELP Corporate Emergency Response Plan 7.0 ATTACHMENTS
- 1. Data Sumary Sheet
- 2. Summary Table
- 3. Calculation Sheets
- 4. Figures APPROVED BY: /fl knihrta DATE: 5//p[83 Radiation Pr ectiop5upervisor 1
m REVIEWED BY: / 2d.L due,& DATE: 5/ C// 6 ~.3 ALARA Coordinator APPROVED BY: h S W -t- .A DATE: T.9 - 8 3 OperationJ 5uperv' gor , J REVIEWED BY: k DATE: 8 6/83 Cnairman Operations Committee APPROVED BY: p) y1 DATE: [4!$3 __ Piant 5u e'rta ntentent - Nuclear [
- , - - - . , , . . - - , ,.~ . - - - - . , n , -- .-.e
. ,. .,e--,. e , - , - , , , , - . . .,
EMERGENCY PLAN XMPLEMENTXNG PROCEDURE EPIP 3.3b '. Pa90 6 of 94
- FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 e
ATTACH 4ENT I, DATA SlNMARY SHEET Date: Recorded By: Time: Calculation Number: I. METER 0 LOGICAL DATA
- 1. Wind Directiona (Wind from)
- 2. Wind speeda _ mph
- 3. ATb .p
- 4. Time after shutdown (hours)
- 5. Time release started (24 hour clock)
NOTES: a0btain wind speed and direction from met panel in control room or Cedar Rapids Flight Service at 9-364-7127. bObtain from atmospheric AT recorder readout in control room. i II. RELEASE DATA
. A. Reactor Building Stacks - Obtain release concentrations from the ef fluent monitoring system.
Rangee
- 1. " A" St ack Conc.a uCi/cc x MRCF(if applicable)= corrected uCi/cc Hi b Int. b Nor.
- 2. "B" Stack Conc.a uC1/cc x MRCF(if applicable)= corrected uCi/cc Hi Int. Nor, i 3. " A" Stack Conc.a uCi/cc x MRCF(if applicable)= corrected uCi/cc Hi Int. Nor,b
- 4. " A" St ack Fl owb cfm l
~5. "B" St ack F1 owb cfm i
cfm !
- 6. "C" St ack F1owb
.__1 - - .. _ _ - , _. . _ _ - _ , .- ._. .._-_ _ - _ - . . _ _ , - ,
EMERGENCV PLAN XMPLEMENTING PROCEDURE EPlP 3.3b
-
- Page 7 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date t/11/83 ATTACHiENT I,. DATA SLMMARY SHEET (continued)
B. Offgas Stack - obtain release concentration from the ef fluent monitoring syst en. Range e
- 1. Of fgas St ack Conc.a uCi/cc x MRCF(if applicable)= corrected uCi/cc Hi Int. Nor.
- 2. Of fg as St ack Fl ow c cfm C. Turbine Exhaust - obtain release concentration from the ef fluent monitoring systen.
- 1. Turb. Exhaust Conca uCi/cc x MRCF(if applicable)= corrected uCi/cc fii bInt. b Nor.
4 2. Turb. Exhaust Flowd cfm Notes (a-e):
- a. Data collected from Kaman Effluent Monitoring System see PASAP 6.0 and PCP 10.6A for system operating instructions.
- b. Data available either from the Kaman Effluent Monitoring System or from Control Room Panel 1C-23.
- c. Data available either from the Kaman Effluent Monitoring System or from Control Room Panel 1C-02.
- d. Data available either from the Kaman Effluent Monitoring System or can be estimated by: 18,000 cfm for each f an in slow'speec 36,000 cfm for each fan in f ast speed
- e. If the high or intermediate range is used, use Fig. 26 to get the Monitor Response Correction Factor (MRCF).
EMERGENCY PLAN IMPLEMENTXNG PROCEDURE EPIP 3.3b . Paoe 8 of 94 ' FOLLOW-UP DOSE PROJECT 10i45 Revision 2 Date 4/11/83 l -) ATTACHMENT I, DATA
SUMMARY
SHEET (continued) D. Miscellaneous Data
- 1. Is Standby Gas Treatment for Offgas Stack Exhaust in operation:
1 l YES NO
- 2. Anticipated duration of release hours. (If no estimate is available use 1.77 hours.)
- 3. lodire activity to noble gas activity ratio-optional, to be completed only if known to be different than default valves (0.3).
3a. Reactor Building Stacks and Turbine Building Vent 3b. Offgas Stack III. Field Exposure Rate Information
- 1. Time of measurement after shutdown __ hours. }
}
- 2. Distance from release point to measurement location meters.
- 3. Exposure rate mR/hr.
9 l t
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 9 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT II,
SUMMARY
TABLE Calculations Performed By: I. GENERAL INFORMATION
- 1. Calculation Number: Date: Time:
- 2. Time after Shutdown: hours
- 3. Wind Direction (direction wind is blowing from): deg.
(Data Summary Sheet Section I, line 1).
- 4. Down Wind Direction: deg. (Calc. Sheet I, Sec'. A, line 1)
- 5. Wind Speed: meters /sec. (Calc. sheet I, Sec. A, line 2)
- 6. ZiT: *F, Stability Class: (Calc. Sheet I.,
Sec. B)
- 7. Down wind. Sector (Calc. Sheet I, Section A, Line 3)
- 8. Time release started hr. (24 hr. clock).
II. RELEASE INFORMATION
- 1. Exposure Time hours (Data Summary Sheet, Section 11.0, line 2).
- 2. Release rate Reactor Bido. Stack: Ci/sec (Calc. Sheet II, Sec. I)
- 3. Release rate - offgas stack Ci/sec (Calc. Sheet II, Sec. II) 4 Release rate - Turtine Bldg. Roof Exhaust: Ci/sec (Calc.
Sheet II, Sec. III.)
- 5. Total Gaseous Release Rate: Ci/sec (acd release rates from Drevious three lines)
o
^ p f
c, ATTAClfdENTII,
SUMMARY
TABl.E(continued) 9 111. DOSE IflFORMATION 9 o Cal. sheet lit, section number for remainder of dose y 9 r- o calculations: , 3 * (fro 4n calc. sheec sin, section 1) - G x m Down Wind Location a. 9 o z Site Point of max X/Q Additional Locationsd ' o - Bndry forOffgag'gtack
' release 2ml o x
- 1. Distance to location, meters Sml 10ml No. 1 No. 2 No. 3 K! r" (miles) (Calc Sheet lit, $ rn subsection A)6 3218 8045 16090
--e 3 ef, z
M o 2.-Nor.malizedconcent[ation L2) (5) (IU) I 3 fil dz X/Q,sec/m3,GroundItvel *
<ielease (Calc. -
E H d i11,Subsect.-B)gheet o m l .-. M o I o
- 3. Normalized concentration,' J
~ X/Q, sec/m3 Elevated '
v> ' @ c J Subsect.(CaIc release C Clb . Sheet 111, \ ;r $ g 4 Idiol'ebod dose rate '< - mrem /hr ( afc. Sheet 111,
~
y subsyd . )
- g 5.3 Whole body dose m
{ ubsect. Calc. Sheet E)' lil, mrem ,.,,
;g
- 6. Thyroid dose coinnitment,C '
iS
.nrem (Cale. Sheet 111 y Subsect.F)t anom g' ggg o 7 Pitune wirtth, meters (miles) a m-.o S
(Calc. St.ect 111 Subsen . 6'D ' s w ) ( )L I( )( Ji ) ( )L )(
- 8. I'li>ce arrival time, hr
) b g h (Calc. Sheet III, C" N o Subsec t. II)b ~
'3 hulE: 'a,h,c,d and e - -see next page -
L an p ? i
s 4 s,
~
' 3.3b
. ." EMERGENCY PLAN IMPLEMENT!NG PROCEDURE 1 EPIP '
. Page 11 of 94 FOLLOB-UP 00SE PROJECTIONS t' Revision 2 Date 4/11/83
\
ATTACHMENT II,
SUMMARY
TABLE (continued) I 2 NOTES: a For stability class FG the distance to' the. maximum X/Q is greater than 10 miles. In order to limit the dose information to tne EPZ a distance of 10 miles is used for class FG. . bCalculation sheet subsection refers to the subsection of the Calculation Sheet III-section as civen in the heading of this table and also in Calc. Sheet III, Section I. cThe thyroid dose commitment given is for an infant, i .e.., the worst case. The adult dose commitment is obtai'ned by multiplying by 0.58. dAdditional locations 'may be added at users discretio,n.
" Maximum X/Q is the location corresponding to the point of maximum around level X/Q for an off aas sta .k (elevated) release. ,
IV. ReleashRate From Exoosure Rate (Field Measurement) Ci/sec (Calc. Estimated total gaseous release rate ~~ 3he'et4IV)-
- 1 .
Caution: .This estimate should be' considered tc be a lower limit of the release' rate. , , 4 4 i, k' \
.. r .
c} t, '
,l'
. A 1
.l
\
\
'\
' s ,
s 1 i s
. k
\
5 4, ' i 1
"*~ . ., _ _. - , , _ _
,+ .
a' ti EMERGENCY PLAN 1MPLEMENTING PROCEDURE EPIP 3.3b - Page 12 of 94 ' 4 FOLLOW-UP DOSE PROJECT 80NS Revision 2 Date 4/11/83
. 1 i
ATTACWlENT III, C.".CULATION SHEET I
,t GENERAL INFORMATION
, A. Wind Speed
- 1. Downwind direction: deg. (180* different from wind direction) .
- 2. Wind Speed mph (Data Sunmary Sheet, Section I, line 2) x 0.447 =
l l Meters /sec (To Summary Table Sec. I, line 4)
- 3. Sector designation Down Wind Direction, deg. Sector 348.750 - 11.25 A 11.25 -
33.75 B 33.75 - 56.25 C 56.25 - 78.75 D 78.75 - 101.25 E 101.25 - 123.75 F 3 123.75 - 146.25 G j , 146.25 - 168.75 H 168.75 - 191.25 J ' 191.25 - 213.75 K 213.75 - 236.25 L 236.25 - 258.75 M 258.75 - 281.25 N 281.25 - 303.75 'P 303.75 - 326.25 0 326.25 - 348.75 R S. Stability Class
- 1. AT l l 'F - (obtained from Data Summary Sheet, Section I, line 3) (To Summary e ao t e, Sec. I, line 7)
- 2. Stability class is determined from the following table as a function of AT.
Stability class j j (To Summary Table, Sec I, line 7) AT Range. *F Stability Class
-1.26 or less AB
-1.26 to -1.11 C
-1.11 to 1.11 DE 1.11 or greater FG
EMERGENCY PLAN XMPLEMENTING PROCEDURE EPIP 3.3b Page 13 of 94 FOLLOM-UP POSE PROJECTIONS ' Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET II Page 1 of 5 t RELEASE INFORMATION I. Reactor Buildino Stack Releases
- 1. "A" Stack Conc.a uCi/cc x "A" Stack Flowa cfm x 472 = uCi/sec
- 2. "B" Stack Conc.d uCi/cc x "B" Stack Flow a ,
cfm x 472 = uCi/sec
- 3. "C" Stack Conc.a uCi/cc x "C" Stack Flowa cfm x 472 = uCi/sec
- 4. " A" Stack Release Rate uCi/sec "B" Stack Release Rate uCi/sec "C" Stack Release Rate uCi/sec Total Release Rate x
_ uCi/sec 1 Curie -
= Ci/sec 106 uCi (To Summary Table, Sec. II, Line 2)
Note:
- a. Obtain data from Data Summary Sheet, Section II. A.
II. - Offgas Stack Releases
- 1. Stack Conc.a uCi/cc x Offgas Stack Flowa cfm x 472 = uCi/sec 1 Curie
- 2. Release rate uCi/sec x =
106 uCi Ci/sec (To Su= nary Table, Sec. II, Line 3) Note:
- a. Obtain cata from Data Summary Sheet, Section II.S.
EMERGENCY PLAN 1MPLEMENTING PROCEDURE EPIP 3.3b ' Page 14 of 94 . FOLLOW-UP DOSE PROJECT 10NS Revision 2 Date 4/11/83 ('\ ATTACHMENT III, CALCULATION SHEET II (continued) Page 2 of 5 III. Turbine Building Releases
- 1. Release Conc.a uCi/cc x Flowa cfm x 472 =
uCi/sec 1 Curie
=
- 2. Release rate uCi/sec x Ci/sec
. (To Summary Table Sec. II, Line 4)
Note:
- a. Obtain data from Data Summary Sheet, Section II.C. !
i 1 [ i i
., , , ~ , _ _ _ . _ _ . . _ _ _. _ ~ - - , - - _-
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 15 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III Page 5 of 5 DOSE INFORMATION I. Section for the remaining calculations - Appropriate section is determinec from the following table based on the atmospheric stability class. Comolete ONLY ONE section. Stability Class Section (from Summary Table, Section I, line 6) AB II (page 16 of 94)
~
C III (pace 29 of 94) DE IV (page 42 of 94) FG V (page 54 of 94) 4
EMERGENCY PLAN IMPLEMENTlNG PROCEDURE EPIP 303b '
- Page 16 of 94*
- FOLLOM-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued)
- 11. Dose information for atmospheric stability class AB A. Variable distance and Xu/0 values
- 1. Obtain distance to site boundary and Xu/Q for ground level and elevated releases from following Table using the down wind direction from Summary Table, Section I, line 4.
Xu 1 7 (Ground Level Rel .) = m2 Distance = m Xu 1 1 (Elevated Rel.) = E2 Xu , 1 Distance to F- m2 Down Wind Direction dea. Site Bdy, meters Ground Level Rel. Elevated Rel. 0 - 11.25 1200 3.8 x 10-6 3.7 x 10-6 ; 11.25 - 33.75 1600 1.9 x 10-6 1,9 x 10-6 33.75 - 56.25 700 1.4 x 10-5 1.2 x 10-5 56.25 - 78.75 610 1.9 x 10-5 1.5 x 10-5 78.75 - 101.25 490 3.2 x 10-5 2.0 x 10-5 101.25 - 123.75 450 4.0 x 10-5 2.2 x 10-5 123.75 - 146.25 480 3.3 x 10-5 2.1 x 10-5 146.25 - 168.75 500 3.0 x 10-5 1.9 x 10-5 168.75 - 191.25 460 3.9 x 10-5 2.2 x 10-5 500 3.0 x 10-5 1,9 x 10-5 191.25 - 213.75 213.75 - 236.25 630 1.8 x 10-5 1.4 x 10-5 236.25 - 258.75 720 1.3 x 10-5 1.2 x 10-5 258.75 - 281.25 670 1.5 x 10-5 1.3 x 10-5 281.25 - 303.75 730 1.3 x 10-6 1.1 x 10-5 303.75 - 326.25 980 6.2 x 10-6 5.8 x 10-6 326.25 - 348.75 1300 3.1 x 10-6 3.0 x 10-6 1200 3.8 x 10-6 3,7 x 10-6 348.75 - 360.00 Xu
- 2. Distance to point of maximum 7 for offgas stack release = 400 m.
o EMERGENCY PLAN IMPLEMENTlNG PROCEDURE EPIP 3.3b Paae 17 of 98 FOLLOW-UD DOSE PROJECT 10NS Revision 2 Date 4/11/83 ; ATTACHMENT III, CALCULATION SHEET III (continued) B. Normalized concentration, Ground Level Release - Results for Summary Table, Section Ill, Line 2. la. sec
- 1. m2 + m/ticb= mo at site boundary sec
- 2. 5.3 x 10-5 + m/secb= mo at point of max X/Q'for offgas stack release sec
- 3. 3.8 x 10-7 + m/secb = m3 at 2 miles sec 4 4.0 x 10-8 + m/secb = m3 at 5 miles sec
- 5. 7.4 x 10-9 + m/secb= m3 at 10 miles le sec
- 6. m2 + m/secb = m3 at additional location No. I lc sec
- 7. E2 + m/secb= m3 at additional
! location No. 2 - Ic sec
- 8. m2 + m/secb= m3 at additional location No. 3 NOTE:
Xu a 0btain Tfor ground level release from Section II, Subsection A, line 1. bObtain wind speed from Summary Table, Section I, line 5. Xu c0btain around level release 7 for additional locations using Ficure 1 and appropriate distance from Summary Table, Section III, line 1. 4 m
' rN- e y _ _ , , _,,,
EMERGENCY PLAN TMPLEMENTlNG PROCEDURE EPIP 3.3b , Page 18 of 9a , FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) C. f;ormalized concentration, Elevated Release - Results for Summary Table, Section Til, line 3. la sec
- 1. M+ m/secb= m3 at site boundary sec
- 2. 2.4 x 10-5 & m/secb= ma at point of max X/Q for offgas stack release sec
- 3. 3.5 x 10-7 + m/secb= 153a't 2 miles sec 4 3.9 x 10-8 + m/secb = moat 5 miles
~
sec
- 5. 7.6 x 10-9 + m/secb = ma at 10 miles 1
Ic sec
- 6. m2 + m/secb = ma at additional location No. I s Ic sec
- 7. m2 + m/secb = m3 at additional I location No. 2
- Ic sec
- 8. E2 + m/secb = F at additional lo, cation No. 3 NOTE:
Xu "Obtain 7 for elevated release from Section II, Subsection A, line 1. bObtain wind speed from Summary Table, Section I, line 5. Xu c0btain elevated release 7 for additional locations using Figure 2 and appropri ate distance from Summary Table, Section III, line 1.
i ,. EMERGENCY PL,N XMPLEMENTlNG PROCEDURE EPZP 3.3b Page 19 of 94 FOLLOW-LP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) D. Whole body dose rate - Results for Summary Table Section III, line 4. Cia Cib Ci
- 1. seC + sec = seC 2a. FIm x DFId =
2b. (1 - FIm) x DFNGe = 2c. (line 2a) + (line 2b) = DF Du
. 3. T for site boundary:
3a. FIc x DU0QIfx TCFI9 = TCFNGi = 3b. (1 - FIc) x DU0QNGh x 3c. (line 3a) + (line 3b) = Du Xu
- 4. T for location of maximum 7 :
4a. FIc x 18.0 x TCFI9 = 4b. (1 - FIc) x 9.20 x TCFNGi= 4c. (line 4a) + (line 4b) = Du
- 5. T for 2 miles:
Sa. FIc x 0.360 x TCFI9 = Sb. (1 - FIc) x 0.250 x TCFNGi= Sc. (line Sa) + (line 5b) = Du
- 6. F for 5 miles:
6a. FIc x 5,00 x 10-2 x TCFI9 = 6b. (1 - FIc) x 3.40 x 10-2 x TCFNGi= 6c. - (lin.e 6a) - (line 6b) =
EMERGENCY PLAN XMPLEMENTING PROCEDURE EPZP 3.3b ,, Page 20 of 98 " FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) Du
- 7. F for 10 miles:
7a. _ FIc x 2,10 x 10-2 x TCFI9 = 7b. (1 - FIc) x 1.50 x 10-2 x TCFNGi= 7c. (lira 7a) + (line 7b) = Du .
- 8. T for additional location No. 1 Sa. FIc x DU0QI f
x TCFI9 = 8b. (1 - FIc) x DU0QNGhx TCFNGi= 8c. (line 8a) + (line 8b) = Du
- 9. T for additional location No. 2 9a. FIc x DU0QIf x TCFI9 =
9b. (1 - FIc) x DU0QNGhx TCFNGi= 9c. (line 9a) + (line 96) = Du
- 10. T for additional location No. 3 10a. FIC x DU0QIf x TCFI9 =
10b.(1 - FIc) x DUOQNGh x TCFNGi= 10c. (line 10a) + (line 10b) = Ci secj l lla. sec (line 1) x mo x (line 2) = Ci k Du ml lib. sec x y (line 3)4 sec = 11c. (line lla) + (line lib)
=l l mrem nr at site boundary l l
s .- r_MERGENCY PLAN IMPLEMENTING PROCEDURE EPZP 3.3b Page 21 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/8a, ATTACHMENT III, CALCULATION SHEET III (continued) Ci setj 12a. Ec (line 1) x ma x (line 2) = _ _ _ Cik Du ml 12b. sec x y (line 4)4 sec = 12c. (line 12a) + (line 12b)
= mrem Du hr at point of max l for offgas stack release Ci secj 13a. Ec (line 1) x m3 x (line 2) =
- Cik Du ml 13b. Ec x 7 (line 5)+ sec =
13c. (line 13a) + (line 13b) mrem
=li nr at 2 miles Ci secj 14a. Tic (line 1) x ma x (line 2) =
Cik Du ml 14b. sec x y (line 6)+ sec = 14c. (line 142) + (line 14b)
= mrem nr at 5 miles Ci secj 15a. Tic (line 1) x ma x (line 2) =
Ci k Du ml 15b. sic x 7 (line 7)4 sec = 15c. (line 15a) + (line 15b)
=l mrem l nr at 10 miles
EMERGENCV PLAN IMPLEMENTlNG PROCEDURE EPIP 3.3b .. < Page 22 of 94 . FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ~ ATTACHMENT III, CALCULATION SHEET III (continued) Ci secj 16a. IIc (line 1) x ma x (line 2) = Cik Du ml 16b. sec x y (line 8)+ sec = 16c. (line 16a) + (line 16b)
= mrem hr at additional location No.1 Ci secj 17a. iec (line 1) x mo x (line 2) =
Cik Ou ml 17b. iic x II (line 9)+ sec = 17c. (line 17a) + (line 17b)
= mrem nr at additional location No. 2 Ci secj 1Sa. iic (line 1) x m3 x (line 2)=
Cik Ou ml 18b. sec x y (line 10) + sec = 18c. (line 18a) + (line'18b)
= mrem nr at additional location No. 3 NOTES:
aReactor building stack release rate from Summary Table, Section II, line 2. bTurbine building roof exhaust release rate from Summary Table, Section II, line 4 C Iodine activity to noble gas activity ratio-obtain from Data Summary Sheet Section IID, line 3b. If unknown use 0.3 unless_ Standby Gas Treatment is in operation (See Data Summary Sheet, Section II.0, line 1) then use 0.003. d Cbtain iodine dose f actor (DFI) for time af ter shutdown (Summary Table, Section I, line 2) from Figure 3.
*0btain noble cas dose factor (DFNG) for time efter shutdown (Summary Table, Section I, line 2) from Fiaure 4
, .' EMERGENCV PLAN IMPLEMENT!NG PROCEDURE EPIP 3.3b Page 23 of 94 FOLLOV-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued)
Obtain for iodine (DU0QI) from Figure 5 using the appropriate distance from Summary Table, Section.III, line 1. G0btain time correction factor for iodine (TCFI) from Figure 6 using time after shutdown (Summary Table, Section I, line 2). Du h0btain F for noble gas (DU0QNG) from Figure 7 using the appropriate distance from Summary Table, Section III, line 2. i0btain the noble gas time correction f actor-(TCFNG) from Figure 8 usina time af ter shutdown (Summary Table, Section I, line 2). . i O~btain appropriate for ground level release from Sumary Table, Section III, line 2. Obtain offgas stack release rate frcm Summary Table, Section II, line 3. I0btain wind speed from Sumary Table, Section I, line 5.
- Iodine activity to noble gas activity ratio, obtain from Data Sumary Sheet, Section II D, line 3a. If unknown use 0.3.
E. Whole body dose - Results for Summary Table Section III, line 5. mrem
- 1. nr (from Section IID, line lic) x hra
= mrem at site boundary mrem
- 2. hr (from Section IID, line 12c) x hra
= l mrem at point of max X/0 for off aas stack release l
mrem hr (from Secticn IID, line 13c) x hra 3.
= mrem at 2 miles mrem 4 hr i from Section IID, line 14c) x hra
= r em at 5 miles
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b . Paqa 24 of 94 ' FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) mrem
- 5. hr (from Section IID, line 15c) x hra
= mrem at 10 miles mrem
- 6. hr (from Section IID, line 16c) x bra
= mrem at additional location No.1 mrem
- 7. nr (from Section IID, line 17c) x hra mrem at additional location No. 2
~
=
mrem
- 8. hr (from Section IID, line 18c) x hra
= mrem at additional location No. 3 NOTE:
a0btain exposure time from Summary Table, Section II, line 1. , F. Thyroid Dose Commitment - Result for Summary Table, Section III, line 6. Cia Cib Ci
- 1. sec + sec ) x FIGd = IEc
( - Cic Ci
- 2. iic x FIEe sTE sec Ci Ci 3a. iic (line 1) x mo (Sect. IIB, line 1) = E7 sec Ci Ci 3pr 4
3b. iic (line 2) x mo (Sect. IIC, line 1) = Ci (line 3b) = ET 3c. (line 3a) + ma ,. - y. - r-. -,,e. . ---e =-e y- m,-r----- ye~-- --,m- yy y
EMERGENCV PLAN XMPLEMENTING PROCEDURE EPIP 3.3t Page 25 of 94 FOLLOW-UP 00SE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continuea) Ci see Ci 4a. Tic (line 1) x m3 (Sect. IIB, line 2) = U Ci sec Ci 4b. , Tic (line 2) x _ m3 (Sect. IIC, line 2) = M C1 4c. (line 4a) + (line 4b) = N Ci sec Ci Sa. Tic (line 1) x m3 (Sect. IIB, line 3) = M Ci sec Ci 5b. Tsc (line 2) x m3 (Sect. IIC, line 3) = W Ci i Sc. (line Sa) + (line 5b) = F Ci sec Ci 6a. Tic (line 1) x m3 (Sect. IIB, line 4) = F Ci see Ci 6b. sec (line 2) x m3 (Sect. IIC, line 4) = F Ci N 6c. (line 6a) + (line 6b) =
- Ci sec Ci 7a. sic (line 1) x m3 (Sect. IIS, line 5) = F Ci Ci sec Ci 7b. Tic (line 2) x m3 (Sect. IIC, line 5) = 7E Ci sec Ci 7c. (line 7a) + (line 7b) = Y Ci sec H 8a. sec (line 1) x m3 (Sect. IIB, line 6) = m3 Ci sec Ci 8b. Tic (line 2) x m3 (Sect. IIC, line 6) = F i Ci Sc. (line Sa) + (line 8b) = F
EMERGENCY PLAN XMPLEMENTING PROCEDURE EPIP 3.3b . 26 of 94
~
Page , FOLLOW-UP DOSE PROJECTIONS kevision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) Ci see Ci 9a. Ec (line 1) x mo (Sect. IIB, line 7) = U Ci sec CJ 9b. He (line 2) x mo (Sect. IIC, line 7) = mo Ci 9c. (line 9a) + (line 9b) = N Ci sec Ci 10a. Ec (line 1) x mo (Sect. IIB, line 8) = 9 Ci sec C1 10b. Tec (line 2) x mo (Sect. IIC, line 8) = mo El n-10c. (line 10a) + (line 10b) = Ci
- 11. U (line 3c) x hr9 x 3.8 x 108 x TCFIf=
mrem et site boundary
. Ci
- 12. E (line 4c) x hr9 x 3.8 x 108
. x TCFIf=
mrem at point of max X/0 Ci
- 13. U (line 5c) x hrc x 3.8 x 108 x TCFIf=
mrem at 2 miles Ci
- 14. D (line 6c) x hr9 x 3.8 x 108 x TCFIf=
mrem at 5 miles Ci
- 15. E (line 7c) x hr9 x 3.8 x 108 x TCFIf=
mrem at 10 miles
I
- EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 27 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Data 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued)
Ci
- 16. U (line 8c) x hr9 x 3.8 x 108 x TCFIf= I i
l mrem at addit onal location No.1 Ci
- 17. U (line 9c) x ,
hr9 x 3.S x 108 x TCFIf= mrem at additional location No. 2 Ci
- 18. U (line 10c) x hr9 x 3.8 x 108
~
x TCFIf = mrem at additional location No. 3 NOTES: 8 Reactor building stack release rate from Summary Table, Section II, line 2. O Turbine building roof exhaust release rate from Summary Table, Section II, line 4
. c0ffgas stack release rate from Sumary Table, Section II, line 3.
dIodine activity fraction for ground level release, obtain from Data Sunmary Sneet Section IID, line 3a. If unknown use 0.3.
' Iodine activity fraction for elevated release-obtain from Data Summary Sheat Section IID, line 3b. If unknown use 0.3 unless Standby Gas Treatment (see Data Summary Sheet, Section II.D, line 1) is in operation then use 0.003.
f0btain TCFI from Ficure 9 using time af ter shutdown (Summary Table, Section I, line 2). 90btain exposure time from Summary Table, Section II, line 1. G. Plume width - The following are the plume widths to be olaced in the Summary Table, Section III, line 7. Point of maximum X/Q for Offgas Stack release 2ni Smi 10mi a70 3200 6200 11000 (meters! (0.29) (2.0) (3.9) (6.S) (miles) WOTE: Obtain remaininc plume widths from Figure 10 using the aoprocriate distances from Su=ary Table, Section III, line 1.
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b , Page 28 of 94 , - FOLLOW-UP DOSE PROJECTIONS Revision 2 , Date 4/11/83 _ g.} ATTACHMENT III, CALCULATION SHEET III (continued) H. Plume arrival time - Results for Summary Table Section III, line 8. mb hr to Site
- 1. 2.78 x 10-4'x ma+ Tec = Boundary mb hr to point of max X/Q for
- 2. 0.111 divided by Tec = offgas stack release mb c hr to 2 miles
- 3. 0:894 divided by Tec =
mb hr to 5 miles
- 4. 2.23 divided by Tec =
mb hr to 10 miles
- 5. 4.47 divided by Tec =
mb hr to additional
- 6. 2.78 x 10-4 x ma+ Tec = location No.1 mb hr to additional
- 7. 2.78 x 10-4 x ma+ Tec = location No.2 mb hr to additional
- 8. 2.78 x 10-4 x ma+ Tec = location No.3 NOTES:
4 a0btain appropriate distance from Summary Table, Section III, line 1. 60btain wind speed from Sumary Table, Section I, line 5.
EMERGENCY PLAN IMPLEMENT"G PROCEDURE EPIP 3.3b Page 29 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 t ATTACHMENT III, CALCULATION SHEET III (continued) III. Dose information for atmosoberic stability class C A. Variable distance and Xu/0 values.
- 1. Obtain distance to site boundary and Xu/Q for ground level and elevated releases from following table using the down wind direction from Summary Table, Section I, line 4.
Xu 1 ii;2 Distance m Q (Ground Level Rel.) Xu 1 f(Elevated Rel.) mT Xu , 1 Down Wind Distance to y j;i2 Direction deo. Site Bdy, meters Ground Level Rel. Elevated Rel. 0 - 11.25 1200 3.2 x 10-5 1.3 x 10-5 11.25 - 33.75 1600 2.0 x 10-5 1.1 x 10-5 33.75 - 56.25 700 8.2 x 10-5 7.5 x 10-6 56.25 - 78.75 610 1.0 x 10-4 5.0 x 10-6 78.75 - 101.25 490 1.5 x 10-4 2.0 x 10-6
- 101.25 - 123.75 450 1.8 x 10-4 1.2 x 10-6 123.75 - 146.25 480 1.5 x 10-4 1.8 x 10-6 146.25 - 168.75 500 1.4 x 10-4 2.4 x 10-6 168.75 - 191.25 460 1.7 x 10-4 1.4 x 10-6 193.25 - 213.75 500 1.4 x 10-4 2.4 x 10-6 213.75 - 236.25 630 1.0 x 10-4 5.4 x 10-6 236.25 - 258.75 720 7.8 x 10-5 7.6 x 10-6 258.75 - 281.25 670 8.8 x 10-5 6.7 x 10-6 281.25 - 303.75 730 7.8 x 10-5 7.8 x 10-6 303.75 - 326.25 980 4.e x 10-5 1.2 x 10-5 326.25 - 348.75 1300 2.8 x 10-5 1.2 x 10-5 348.75 - 360.00 1200 3.2 x 10-5 1.3 x 10-5 i
Xu
- 2. Distance to point of maximum 7 for offgas stock release = 1200m.
l t i i
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPZP 3.3b . Page 30 of 94 - . FOLLOS-UP 00SE PROJECTIONS Revision 2 . Date 4/11/83 ATTACHMENT III, CALCULATION SMEET III (continued)
- 3. Normalized concentration, Ground level release - Results for Summary Table, Section 111, line 2.
la
- 1. 32 + m/secb=l sec ,
ma at site boundary l
- 2. 3.2 x 10-5 + m/secb= sec at point of max ma X/0 for offgas release
- 3. 6.0 x 10-6 + m/secb= sec
' ma at 2 miles
- 4. 1.2 x 10-6 + m/secb = sec ma a'. 5 miles
- 5. 3.7 x 10-7 + m/secb= sec HDF at 10 miles Ic
- 6. ER + m/secb= sec at additional ma location No. 1 1c
- 7. is + m/secb= sec at additional m7 location No. 2 1c
~
- 8. ER + m/secb= sec at additional ma location No. 3 NOTE:
Xu a0btain D for ground level release from Section III, Subsection A, line 1. bObtain wind speed from Summary Table Section I, line 5. Xu
*0btain ground level release Q for additional locations using Figure 11 and accrocriate distance from Summary Table, Section III, line 1.
-w -
p - - , - - - , - ,, w g -g ,s - - ~- c - ~ ~
+
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b
'- Page 31 of 94 FOLLOW-UP DOSE PROJECTIONS Revi sion 2 Date 4/11/83 ATTACHiENT III, CALCULATION SHEET III (continued)
C. Normalized concentration, Elevated release - Results for Sur. mary Taole, Section III, line 3. l a.
- 1. 32 + m/sech= lsec
( ma at site boundary
- 2. 3. 3 x 10-5 + m/secb= isec at point of max l mo X/Q for of fgas st ick release
- 3. 5.1 x 10-6 + m/secb, gms at 2 miles
- 4. 1.2 x 10-6 + _m/sec b= lsec ,
ms at o, miles
- 5. 3.7 x 10-7 + m/secb= :sec mo at 10 miles Ic
- 6. m2 + m/secb =l lsec at additional I
mo location No.1 Ic
- 7. E2 + m/secb =l isec at additional i ma location No. 2 Ic
- 8. m2 + m/secD =l Isec at additional
!m o location No. 3 NOTE:
Xu a0btain f for elevated release from Section III, Subsection A, line 4. 00btain wind speed from Summary Table, Section I, line 5. Xu c0btain elevated release T for additional locations using Figure 12 and appropriate distances from Summary Table, Section III, line 1. D. W'n ole body dose rate - Results for Sunmary Table, Section III, line 4. Cia Cib Ci
- 1. sec + sec = sec 2a. FIm x DFId=
;Fsge = -
2b. (1 - FIm) x 2c. (line 2a) - (line 2b) =
~
EMERGENCV PLAN XMPLEMENTlNG PROCEDURE EPIP 3.3b - 32 of 94 Page - FOLLOW-UP 00SE PROJECTIONS Revision 2 - Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (centinued) Du
- 3. F for site boundary:
3a. FIc x ogGaIfx TCFI9 = _ 3b. (1 - FIc) X DU0QNGh x TCFNGi= 3c. (line 3a) + (1,ine 3b) = Du Xu
- 4. 17~ for location of maximum F for offgas stack release:
c.a FIc x 12.0 x TCFI9 = 4b. (1 - FIc) x 8.50 x TCFNGi= 4c. (line 4a) + (line 4b) = Du
- 5. F for 2 miles:
Sa. FIc x 8.30 x TCFI9 = Sb.(1 - FIc) x 5.90 x TCFNGi= Sc. _, (line Sa) + (line 5b) = _ Du
- 6. F for 5 miles 6a. FIc x 1.85 x TCFI9 =
6b.(1 - FIc) x 1.30 x TCFNGi = 6c. (line 6a) + (line 6b) = Du
- 7. F for 10 miles 7a. FIC x 0.440x TCFI4 =
7b.(1 - FIc) x 0.320 x TCFNGi = 7c. (line 7a) + (line 7b) =
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 33 of 94 FULLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) Du
- 8. f for additional location No.1:
8a. FIc x DUOQIf x TCFI9 = 8b.(1 - FIc) X DU0QNGh x TCFNGi= 8c. (line Sa) + (line 8b) = Du
- 9. Q for additional location No. 2:
9a. FIc x DU0QIf x TCFI9 = 9b.(1 - FIc) X DUOQNGh x TCFNGi= 9c. (line 9a) + (line 9b) = Du
- 10. T for additional location No. 3:
10a. FIc x DU0QIfx TCFI9 = 10b.(1 - FIc) X DU00NGh x TCFNGi = __ 10c. (line 10a) + (1tne 10b) = Ci sec) lla. sec (line 1) x m3 x (line 2)= Cik Du ml lib. sec x F (line 3c) + Ec = lic. (line 11?.) + (line lib)
.= mrem nr at site boundary Ci secj 12a. sec (line 1) x m3 x (line 2) =
Cik Du ml 12b. sec x T (line de) 4 Ec = 12c. (line 12a) - (line 12b)
= mrem Xu nr at point of max 7
EMERGENCY PLAN TMPLEMENTING PP0CEDURE EPIP 3.3b '
~~
Page 34 of 94 rumLOM-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 s ATTACHMENT III, CALCULATION SHEET.III (continued) Ci secj 13a. sec (line 1) x mo x (line 2) = Cik Du ml 13b. see x 7 (line Sc) + Fc = 13c. (line 13a) + (line 13b)
= mrem nr at 2 miles Ci secj 14a. sec (line 1) x m3 x (line 2) =
Cik Du ml 14b. sec x 7 (line 6) + He = 14c. (line 14a) + (line 14b)
= mrem nr at 5 miles Ci sec) 15a. sec (line 1) x m3 x (line 2) =
Cik Du ml 15b. sec x F (line 7c) + sec = 15c. (line 15a) + (line 15b)
= mrem nr at 10 miles Ci secj j 16a. sec (line 1) x m3 x (line 2) =
Cik Du ml 16b. sec x F (line Sc) + Ec = 16c.
~
(line 16a) + (line 16b)
=' mrem 4 ( nr at additional location No.1 Ci secj (line 2) =
x 17a. sec (line 1) x m
I
- EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 35 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION S4EET III (continued)
Cik Du ml 17b. sec x F (line 9c) 4 Ec = 17c. (line 17a) + _ (line 17b) =
= mrem nr at additional location No. 2 Ci secd 18a. sec (line 1) x _ m3 x (line 2) =
Cik Du ml 18b. seE x 7 (line 10c) 4 Ec = ISc. (line 18a) + (line 18b)
= mrem nr at additional location No. 3 NOTES:
aReactor building stack release rate from Summary Table, Section II, line 2.
- b Turbine building roof exhaust release rate from Sumary Table, Section II, line 4 4
Clodine activity to noble gas activity ratio-obtain from Data Summary Sheet Section IID, line 3b. If unknown use 0.3 unless Standby Gas Treatment is in operation (See Data Sumary Sheet, Section II.D, line 1) then use 0.003. d 0btain iodine dose factor (DFI) for time after shutdown (Summary Table, Section I, line 2) from Figure 3. e0btain noble gas dose factor (DFNG) for time after shutdown (Sumary Table, Section I, line 2) from Figure 4 Du
# 0btain F for iodine (DU0QI) from Figure 13 using tne appropriate distance from y; mary iable, Section III, line 1.
900tain time correction factor for iodine (TCFI) from Figure e using time after snutdown (Summary Table, Section I, line 2). Du "Octain T for ncble gas (DU00NG) from Fiqure la usina the accropriate distance from Sumary Table, Section III, line 1.
^
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b , Page 36 of 94 ' FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83
,s ATTACHMENT III, CALCULATION SHEET III (continued) i 0btain the noble gas time correction factor (TCFNG) from Figure 8 using time after shutdown (Summary Table, Section I, line 2).
50btain appropriate for ground level release from Summary Table, Section !II, line 2. k 0btain offgas stack release rate from Summary Table, Section II, line 3. 10btain wind speed from Summary Table, Section I, line 5. mIodine activity to noble gas a:tivity ratio - obtain from Data Summary Sheet, Section IID, line 3a. If unknown use 0.3. E. Whole body dose - Results for Summary Table Section III, line 5. mrem
- 1. nr (from Section IIID, line 11C) x hra
= mrem at site boundary mrem
- 2. hr (from Sectice IIID, line 12C) x hra
= mrem at point of max X/Q for offgas stack release mrem
- 3. hr (from Section IIID, line 13C) x hra
= l mrem at 2 miles I
mrem 4 hr (from Section IIID, line 14C) x hra
= ' mrem at 5 miles I
mrem
- 5. hr (from Section IIID, line 15C) x hra
= mrem at 10 miles mrem
- 6. hr (fro,n Section IIID, line 16C) x hra
= mrem at additional location No. I
I
- EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 37 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/S3 2
ATTACHMENT III, CALCULATION SHEET III (continued) mrem
- 7. hr (from Section IIID, line 17C) x hra
= mrem at additional location No. 2 mrem S. hr (from Section IIID, line 18C) x hra
={ mrem at additional location No. 3 L
NOTE: a0btain exposure time from Summary Table, Section II, line 1. F. Thyroid Dose Commitment - Result for Summary Table, Section III, line 6. Cia Cib Ci
- 1. ( sec + sec ) x FIGd= Ec
; Cic Ci
- 2. sic x FIEE sE scc Ci Ci 3a. s"Ec (line 1) x mo (Sect. IIIB, line 1) = F L1 sec ci 3b. sic (line 2) x ma (Sect. IIIC, line 1) = F L1 3c. (line 3a) + (line 3b) = F sec Ci Ci 4a. sic (line 1) x m3 (Sect. IIIB, line 2) = M see Ci Ci 4b. Tec (line 2) x m3 (Sect. IIIC, line 2) = E u
4c. (line Aa) + (line ab) = F sec Ci Ci Sa. Tic (line 1) x mc (Sect. IIIB, line 3) = E sec Ci Ci mi (Sect. IIIC, line 3) = W l 5b. sic (line 2) x u l Sc. (line Sa) + (line 5b) = 9 I i I _ - . , , , .- ,, _ , . . , . - . - _ _ . . . _ - . _
qe : - 3 3- '
-EMERGENCY PLAN IMPLEMENTING PROCEDURE . EPIP 3.3b .
Pa9e_ 38 of 94 . .
.1 FOLLOW-UP DOSE PROJECTIONS . Revision 2 .*
', 4/11/83 l l' [, '
~
f.3 -' ' , , , Date , j , ~.
\ _L , i
. i h; ATTACHMENT III,-CALCULATION SHIET III (continpad)
Ci se - Ci int' (Sect. IIIB, 1_ine 4) =
, 6a. Te'c (line 1) x m3
/ ci Li
~; set (Sect. IIIC, line 4) =
c 6b. sec-(line 2) x mt , mI
,i . L1 '/
'6d. __( line 6a) * (line 6b) = F i Ci sec Ci .
, Ta. Ec'(line 1) x m3 (Sect. IIIB, line 5) = F Ci ~ sec ci 7b. e He,(1 ins'2-) t ' -
_m a (Sect. IIIC, line 5) = F ti 7c. (line 7a) + (line 7b) = M Ci C~i ' sec F , . Sa. Ec (line 1) x , m4 (Sect. IIIB, line 6) = Ci sec Ci 8b. Ec (line 2) x . ma (Sect. .IIIC, line 6) = 9 s s ci 8c. (line aa) +f (line 8b) = @ Ci sec Ci . 9a. Te~c (line 1) x mo (Sect. IIIB, line 7) = -F L1 see - Li 9b. Te': (line 2) x m3 (Sect; IIIC,'lipe 7) = 9
- ci 9c. (line 9a) + (line 9b) = F Ci sec Ci 10a. He (line l') x mo (Sect. IIIB, line 8) = 'W' Ci s ec Ci
-s 10b. E c (line 2) x _ E - '(Sect. IIIC, line 8) = E' Li 10c. (line 10c) + (line 10c) +- E -
s Ci .
- 11. F (line 3c) x nr9 x 3.8 x 103 '
x TCFIf= mre'n at site boundary , Ci
- 12. F (line 4c) x hr9 x 3.8 x 108 x' TCFIf =
mrem at point cf max X/0
, ,~ , ,y w- 9- ---_ey %, - , ," = - %- - - y .- -m, , --:-,-.---,, -
l - EMERGENCh PLAN IMPLEMENTING PROCEDURE "~ EPIP 3.3b Page 39 of 94 FOLLOW-UP DO5E PROJECTIONS Revision 2
- r. Date 4/11/83
% ATTACHMENT-III, CALCULATION SHEET III (continued)
C'i a1
- 13. III(lineScjx hr9 x 3.8 x 108 x 'TCFIf= J
)mremat2 miles Ci 14 III (line M6c) x hr9 x 3.8 x 108 x TCFIf= ~
, mrem at 5 miles b
O r i
\
4 4
i G EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b ' Page 40 of 94 FOLLOW-UP DOSE PROJECTIONS Revisisn 2 - Date 4/11/83
,']
4 ATTACHMENT III, CALCULATION SHEET III (continued) Ci
- 15. U (line 7c) x hr9 x 3.8 x 108 x 'TCFIf=
mrem at 10 miles C1
- 16. F (line 8c) x hrA x 3.8 x 108 x TCFIf=
, mrem at additional location No.1 Ci
- 17. U (line 9c) x hr9 x 3.8 x 108 x TCFIf=
mrem at additional location No. 2 C1
- 18. U (line 10c) x hr9 x 3.8 x 108 x' TCFIf=
mrem at additional location No. 3 NOTES: aReactor building stack release rate from Summary Table, Section II, line 2. bTurbine ou'ildino rcof exhaust release rate from Sumary Table, Section II, line 4. C 0ffaas. stack release rate from Summary Table, Section II, line 3. dIodine activity fraction for ground level release, - obtain from Data Sumary Sheet Section IID, line 3a. If unknown use 0.3. Iodine activity fraction for elevated release - obtain from Data Su=ary Sheet Section IID, line 3b. If unknown use 0.3 unless Standby Gas Treatment (see Data Summary Sheet, Section II.D, line 1) is in ooeration then use 0.003. f0btain TCFI from Figure 9 using time after snutdown (Sumary Table, Section I, line 2). 90btain exposure; time from Sumary Table, Section II, line 1. l l _~
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 41 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) G. Plume width - The followina are the plume widths to be placed in the Summary Table, Section III, line 7. Point of maximum X/Q for Offgas Stack release 2mi Smi 10mi 720 meters 1900 2700 6600 (meters) (0.45) (1.2) (1.7) (4.1)(miles) NOTE: Obtain remaining plume widths from Figure 15 using the appropriate distances from Summary Table, Section III, line 1. H. Plume arrival time - Results for Summary Table Section III, line S.
~
mb hr to Site ma+ sec = Soundary
- 1. 2.78 x 10-4 x mb hr to point of max X/Q for
- 2. 0.333 divided by sec = offgas stack release mb hr to 2 miles
- 3. 0.894 divided by sec =-
mb hr to 5 miles
- 4. 2.23 dividec by _ sec = ____
mb hr to 10 miles
- 5. 4.47 divided by sec =
mb hr to additional
- 6. 2.78 x 10-4 x ma& Tec = location No. 1 mb hr to additional
- 7. 2.78 x 10-4 x ma+ Tec = location No. 2 mb hr to additional
- 8. 2.78 x 10-4 x ma+ sec = location No. 3 NOTES:
a0btain acprooriate distance fror. Summary Table, Section 'II, line 1. 3 0btain wind speed from Summary Table, Section I, line 5. 9 P e
EMERGENCY PLAP.1MPLEMENTlNG PROCEDURE EPfP 3.3b "
- Page 42 of 94 -
FOLLOB-UP DOSE PROJECTIONS Revision 2 Date 4/11/S3 j ') ATTACHMENT III, CALCULATION SHEET III (continued) IV. Dose information for atmospheric stability class DE A. Variaole distance and Xu/0 values.
- 1. Obtain distance to site boundary and Xu/Q for ground level and elevated releases from following table using the down wind direction from Summary Table, Section I, line 4.
Xu 1 Distance n li (Ground Level Rel.) m2 Xu 1
~
17-(Elevated Rel.) nT Xu , 1 Down Wind Distance to U- m 2 Site Bdy, meters Elevated Rel. Direction dea. Ground Level Rel.
- O - 11.25 1200 1.5 x 10-4 3.4 x 10-7 11.25 - 33.75 1600 9.5 x 10-5 1.6 x 10-6 33.75 - 56.25 700 3.5 x 10-4 1.8 x 10-9 56.25 - 78.75 610 4.4 x 10-4 8.0 x 10-10 78.75 - 101.25 490 6.1 x 10-4 2.1 x 10-10 101.25 - 123.75 450 7.3 x 10-4 1.6 x 10-11 123.75 - 146.25 480 6.4 x 10-4 1.6 x 10-10 146.25 - 168.75 500 6.0 x 10-4 2.6 x 10-10 168.75 - 191.25 460 6.9 x 10-4 6.5 x 10-11 191.25 - 213.75 500 6.0 x 10-4 2.6 x 10-10 213.75 - 236.25 630 4.3 x 10-4 9.0 x 10-10 236.25 - 258.75 720 3.4 x 10-4 2.6 x 10-9 258.75 - 231.25 670 3.7 x 10-4 1.2 x 10-9 281.25 - 303.75 730 3.3 x 10-4 3.0 x 10-9 303.75 - 326 25 980 2.1 x 10-4 6.8 x 10-8 325.25 - 348.75 1300 1.3 x 10-4 6.0 x 10-7 348.75 - 360.00 1200 1.5 x 10-4 3.4 x 10-7 Xu
- 2. Distance to point of maximum Ti for offgas stack release = 4000m.
EMERGENCV PLAN TMPLEMENTfNG PROCEDURE EPIP 3.3b
* - Page 43 of 94 FOLLOB-UP DOSE PROJECTIONS Revision 2 Date 4/11/S3 ATTACHMENT III, CALCULATION SHEET III (continued)
B. Normalized concentration, Ground level release - Results for Summary Table, Section III, line 2. la
- 1. 32 & m/secb= sec mo at site boundary
- 2. 2.2 x 10-5 & n/secb = sec at point of max ma X/Q for offgas release
- 3. 3.1 x 10-6 & m/secb= sec W at 2 miles 4 7.2 x 10-6 e m/secb= sec ma at 5 miles
- 5. 2.4 x 10-7 e m/secb = sec ma at 10 miles Ic
- 6. m2 + m/secbl sec at additional ma location No. 1 IC
- 7. m2 & m/secb= sec at additional ma location No. 2 lc --
- 8. 32 & m/secb . sec at additional ma location No. 3 NOTE:
Xu a0btain Q for ground level release from Section IV, Subsection A, line 1. bObtain wind speed from Sumary Table Section I, line 5. Xu c0btain ground level release Efor additional locations ucing Figure 16 and appropriate distance from Summary Table. Section III, line 1. C. Normalized concentration. Elevated release - Results for Summary Table, Section III, line 3. la
- 1. 32 & m/secb = sec me at site boundary S
-,.c -,-w-- p -m - m -g - g ,,-.~vg . -~,-e., --
- EMERGENCY PLAN IMPLEMENTING PROCEDURE l EPIP 3.3b L Page 44 of 94 .. -
FOLLOW-UP DOSE PROJECTIONS Revision 2 .
.Date 4/11/83
\
ATTACHMENT III, CALCULATION SHEET III (continued)
- 2. 7.0 x 10-6 & m/secb= sec at point of max ma X/Q for offgas stack release
- 3. 6.6 x 10-6 & m/secb = see me at 2 miles
- 4. 4.7 x 10-6 & m/secb= sec me at 5 miles
- 5. 2.0 x 10-6 & m/secb = sec ma at 10 miles Ic
- 6. ER & m/secb = sec at additional ma location No. 1 1C
- 7. Ei2 & m/secb = sec at additional ma location No. 2 1c
- 8. 32 & m/secb =
sec at additional i m3 location No. 3 NOTE: Xu a0btain if~ for elevated release from Section IV, Subsection A, line 1. bObtain wind speed from Summary Table, Section I, line 5. Xu c0btain elevated release if' for additional locations using Ficure 17 and appropriate distances from Summary Table, Section III, line 1. D. Whole body dose rate - Results for Summary Table, Section III, line 4. Cia Cib ci
- 1. sec + sec = sec 2a. FIm x 0FId =
2b. (1 - FIm x 0FNG9= 2c. (line 2a) + (line 2b) =
--p -
w - - - - - , - - yy - ,c --- -,-< g--
. EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pa9e 45 of 94
- FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) Du
- 3. Q for site boundary:
3a. 'FIc x DU0QIf x TCFI9 = 3b.(1 - FIc) x DUOQNGh x TCFNGi= 3c. (line 3a) + (line 3b) = _ Du Xu 4 T for location of maximum T for offgas stack release: 4a. FIc x 11.0 x TCFI9 = 4b.(1 - FIc) x 7.2 x TCFNGi = 4c. (line 4a) + (line 4b) = Du
- 5. Q for 2 miles:
Sa. FIc x 11.1 x TCFI9 = Sb.(1 - FIc) x 8.0 x TCFNGi=
^
Sc. (line Sa) + (line 5b) =
- 6. for 5 miles 6a. FIc x 7.4 x TCFI9 =
6b.(1 - FIc) x 4.1 x TCFNGi= 6c. (line 6a) + (line 6b) = Du
- 7. T for 10 miles 7a. FIc x 2.6 x TCFI9 =
7b.(1 - FIc) x 1.85 x TCFNGi = 7c. (line 7a) + (line 7b) =
-- wr y, , ,
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b - Page 46 of 94 *- FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/S3 s ATTACHMENT III, CALCULATION SHEET III (continued) Du S. IT for additional location No.1: Sa. FIC x DU0QIf x TCFIA = Sb.(1 - FIc) X DU0QNGh x TCFNGi= Sc. (line Sa) + (line 8b) = Du
- 9. i ' for additional location No. 2:
f TCFI9 = 9a. FIc x DU0QI x 9b.(1 - FIc) X DU00NGh x TCFNGi= 9c. (line 9a) + (line 9b) = Du l
- 10. l[' for additional location No. 3:
.: 10a. FIc x DU0QIfx TCFI9 = 10b.(1 - FIc) X DU0QNGh x TCFNGi =
^
10c. (line 10a) + (line 10b) = Ci secj lla. sec (line 1) x mo x (line 2) = Cik Du 71 lib. sec x IT- (line 3) + IEc = 11c. (line lla) + (line lib)
= mrem nr at site boundary Ci sec) 12a. sec (line 1) x m3 x (line 2) =
Cik Du ml 12b. sec x IT- (line 4) 4 iec = 12c. (line 12a) + (line 12b) _
= mrem Xu
- nr at coint of max ~17
,_ _-. y . , - _
l . EMERGENCY PLAN XMPLEMENTING PROCEDURE EPIP 3.3b
' '- Page 47 of 94 . FOLLOS-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued)
Ci secj 13a. sec (line 1) x mo x (line 2) = Ci k Du ml 13b. sec x T (line 5) 4 Tic = 13c. (line 13a) + (line 13b)
= mrem nr at 2 miles Ci secj 14a. sec (line 1) x mJ x (line 2) =
Cik Du ml 14b. sec x T (line 6) 4 Tic = 14c. (line 14a) + (line 14b)
=l mrem nr at 5 miles Ci secj 15a. sec (line 1) x mo x (line 2) =
Cik Du ml 15b. sec x 7 (line 7) + Tsc = 15c. (line 15a) + (line 15b)
=l mren l nr at 10 miles Ci secj 16a. sec (line 1) x mo x (line 2) =
Cik Du ml 16b. sec x T (line 8) + Te~c = 16c. (line 16a) + (line 16b)
= mrem nr at additional location Nc. 1 l
EMERGENCV PLAN XMPLEMENTING PROCEDURE EPZP 3.3b - 48 of 9S .. - Pacs FOLLOS-UF DOSE PROJECT 10NS Resision 2 . Date 4/11/83 T ATTACHMENT III, CALCULATION SHEET III (continued) Ci secj 17a. sec (line 1) x m3 x (line 2) = Cik Du ml T (line 9) + He = 17b. sec x 17c. (line 17a) + (line 17b)
= mrem nr at additional location No. 2 Ci secj 18a. sec (line 1) x m3 x (line 2) =
Cik Du ml 18b. sec x 7 (line 10)+ Ec = 18c. (line 18a) + (line 18b)
= mrem nr at additional location No. 3 )
NOTES: aReactor building stack release rate from Summary Table, Section II, line 2. b Turbine buildinc roof exhaust release rate from Sumary Table, Section II, line 4. clodine activity to.r.oble gas activity ratio - obtain from Data Sumsry Sheet Section IID, line 3b. If unknown use 0.3 unless Standby Gas Treatment is in operation (See Data Summary Sheet, Section II.D. line 1) then use 0.003. d0btain iodine dose factor (DFI) for time after shutdown (Sumary Table, Section I, line 2) from Figure 3. 80btain noble gas dose factor (DFNG) fer time after shutdown (Summary Table, Section I, line 2) from Figure 4. Du Obtain T for iodine (DU00I) from Fiaure 18. using the aopropriate distance from Summary Tacle, Section III, line 1. 3 0btain time correction f actor for iodine (TCFI) from F1 cure 6 using time af ter shutdown (Summary Table, Section I, line 2). Du "Obtain E for noble cas (DJ00NG) from Fiaure 19 usina the accrocriate distance from
~ ~
Summary Taole, Secticn III, line 1.
l
- EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b
- Page 49 of 94
. :0LLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) 10btain the noble oas time correction factor (TCFNG) from Figure 8 usina time after shutdown (Summary Table, Section I, line 2). d00tain appropriate for ground level release from Sumnary Table, Section III, line 2. Obtain offgas stack release rate from Suramary Table, Section II, line 3. IObtain wind speed from Summary Table, Section I, line 5.
- Iodine activity to noble gas activity ratio - obtain from Data Summary Sheet Section IID, line 3a. If unknown use 0.3.'
E. Whole body dose - Results for Summary Table Section III, line 5. mrem
- 1. nr (from Section IVD, line llc) x bra
= mrem at site boundary mrem
- 2. hr (from Section IVD, line 12C) x hra
= mrem at point of max X/Q for offgas stack release mrem
- 3. hr (from Section IVD, line 13C) x hra
= mrem at 2 miles mrem 4 hr (from Section IVD, line 14C) x hra
= ' mrem at 5 miles mrem
- 5. hr (from Section IVD, line 15C) x hra
= mrem at 10 miles l l mrem nr (from Section IVD, line 15C) x hra 5.
=, mrem at additional location No.1
I EMERGENCY PLAN XMPLEMENTING PROCEDURE EPIP 3.3b Poae 50 of 94 FOLLOW-UP DOSE PROJECTIONS Resision 2 Date 4/11/83 (3 ATTACHMENT III, CALCULATION SHEET III (continued) mrem
- 7. hr (from Section IVD, line 17C) x hra
= mrem at additional location No. 2 l
mrem S. hr (from Section IVD, line 18C) x hra
= mrem at additional location No. 3 NOTE:
a0btain exposure time from Summary Table, Section II, line 1. F. Thyroid Dose Comnitment - Result for Summary Table, Section III, line 6. Cia Cib Ci
- 1. ( sec + sec ) x FIGd= i?c Cic Ci
- 2. iic x FIEe sec
. Ci sec Ci 3a. sec (line 1) x ma (Sect. IVB, line 1) = E7 Ci sec ci 3b. iic (line 2) x m3 (Sect. IVB, line 1) = m7 c1 3c. (line 3a) + (line 3b) '= i$I C' see Ci 4a. sec (line 1) x mo (Sect. IVB, line 2) = E7 Ci sec Ci Ab. Tic (line 2) x mo (Sect. IVB, line 2) = EI vi (line 4b) = E? Ac. (line 4a) + Ci sec Ci Sa. iec (line 1) x m3 (Sect. IVB, line 3) = E3 Ci sec Ci 5b. isc (line 2) x mo (Sect. IVB, line 3) = FEi Li 5c. (line Sa) + (line 5b) = ENF
EMERGENCY PLAN XMPLEMENTING PROCEDURE EPIP 3.3b 4 . Pa9@ 51 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) Ci sec Ci 6a. sec (line 1) x mo (Sect. IVB, line 4) = F Ci sec Ci Sb. Ec (line 2) x m3 (Sect. IVB, line 4) = F c1 6c. (line 6a) + (line 6b) = F Ci sec Ci 7a. E c (line 1) x mo (Sect. IVB, line 5) = F Ci sec ci 7b. E c (line 2) x mo (Sect. IVB, line 5) = F L1 7c. (line 7a) + (line 7b) = N Ci sec Ci 8a. He (line 1) x mo (Sect. IVB, line 6) = F Ci sec Ci 8b. E c (line 2) x ma (Sect. IVB, line 6) = IU Ci 8c. (line 8a) + (line 8b) = @ Ci sec Ci 9a. E c (line 1) x mo (Sect. IVB, line 7) = F
- Ci sec Ci 9b. Ec (line 2) x mi (Sect. IVB, line 7) = F c1 9c. (line 9a) + (line 9b) = N Ci sec Ci 10a. E c (line 1) x ma (Sect. IVB, line 8) = U Ci see Ci 10b. Ec (line 2) x m3 (Sect. IVB, line 8) = F ui 10c. (line 10a) + (line 10b) = N Ci
- 11. U (line 3) x hr9 x 3.3 x 108 x TCFIf=
mrem at site boundary Ci
- 12. U (line 4) x hr9 x 3.8 x 103 x TCFIf=
mrem at poir.t o' max X/Q
EMERGENCV PLAN XMPLEMENTfWG PROCEDURE EPZP 3.3b ' Page 52 of 94 FOLLOW-UP DOSE PROJECT!0NS Revision 2 - Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) Ci
- 13. Esi(line 5) x hr9 x 3.8 x 108 x 'TCFIf=
nrem at 2 miles Ci
- 14. Epi (line 6) x br9 x 3.8 x 108 x TCFIf=
mrem at 5 miles Ci
- 15. EE (line 7) x hr9 x 3.8 x 108 x TCFIf=
mrem at 10 miles Ci
- 16. iiI (line 8) x hr9 x 3.8 x 108 x TCFIf=
mrem at additional location No.1 Ci
- 17. IEI.(line 9) x hel x 3.8 x 108 x, TCFIf=
mrem at additional location No. 2 Ci
- 18. IEI (line 10)x hr9 x 3.8 x 108 x TCFIf =
mrem at additional location No. 3 I NOTES: aReactor building stack release rate from Summary Table, Section II, line 2. bTurbine buildinc roof exhaust release rate from Summary Table, Section II, line 4 00ffcas stack -release rate from Summary Table, Section II, line 3. I dIodine activity fraction for around level release - obtain from Data Summary Sheet Section IID, line 3a. If unknown use 0.3. i !odine activity fraction for elevated release - obtain from Data Summary Sheet Section IID, line 3b. If unknown use 0.3 unless Standoy Gas Treatment (see Data Summary Sheet, Section II.0, line 1) is in ooeration then use 0.003. i i i
l . EMERGENCV PLAN XMPLEMENTING PROCEDURE EPIP 3.3b Paqs 53 of 94 . FOLLOB-UP DOSE PROJECTIONS Revision 2 Cate 4/11/83 ATTACHMENT III. CALCULATION SHEET III (continued)
#0btain TCFI from Figure 9 using time af ter shutdown (Summary Table, Section I, line l 2).
40btain exposure time from Summary Table, Section II, line 1. G. Plume width - The following are the plume widths to be placed in the Summary Table, Section III, line 7. Point of maximum X/Q for Offgas Stack release 2mi Smi 10mi 1400 1100 2400 4300 (meters) (0.87) (0.68) (1.5) (2.7)(miles) NOTE: Obtain remaining plume widths from Figure 20 using the appropriate distances from Summary Table, Section III, line 1. H. Plume arrival time - Results for Summary Table Section III, line 8. mb hr to Site
- 1. 2.78 x 10-4 x ma+ sec = Boundary mb hr to point of max X/Q for
~
- 2. 1.11 divided by Tec = offgas stack release mb hr to 2 miles
- 3. 0.894 divided by Tec =
mb hr to 5 miles 4 2.23 divided by sec = mb nr to 10 miles
- 5. 4.47 divided sy sec =
mb hr to additional
- 6. 2.78 x 10-4 x ma+ _
Tec = location No. 1 mb hr to additional
- 7. 2.7S x 10-4 x ma+ Tec = location No. 2 mb hr to sdditional
- 3. 2.73 x 10-4 x ma+ Tec = location No. 3 NOTES:
a0btain accropriate distance from Summary Table, Section III, line 1. D0btain wind speed from Summary Table, Section I, line 5.
EMERGENCY PLAN TMPLEMENTlNG PROCEDURE EPIP 3.3b - 54 of 94 Page - FOLLOB-UP DOSE PROJECTIONS Revision 2 . Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) V.. Dose information for atmospheric stability class FG A. Variable distance and Xu/0 values.
- 1. Obtain distance to site boundary and Xu/0 for around level and elevated releases from following table using the down wind direction from Summary Table, Section I, line 4.
Xu 1
~ii(GroundLevelRel.) m2 Distance m Xu 1 4-(Elevated Rel.) m7 Xu , 1 Distance to IT- 752 Down Wind Direction dea. Site Bdy. meters Ground Level Rel. Elevated Rel.
0 - 11.25 1200 9.5 x 10-4 0.0 11.25 - 33.75 1600 6.2 x 10-4 0.0 33.75 - 56.25 700 2.1 x 10-3 0,0 56.25 - 78.75 610 2.6 x 10-3 0.0 78.75 - 101.25 490 3.6 x 10-3 0.0 101.25 - 123.75 450 4.1 x 10-3 0,0 123.75 - 146.25 480 3.7 x 10-3 0.0 146.25 - 168.75 500 3.5 x 10-3 0.0 460 3.9 x 10-3 0,0 168.75 - 191.25 0.0 191.25 - 213.75 500 3.5 x 10-3 213.75 - 236.25 630 2.5 x 10-3 0.0 236.25 - 253.75 720 2.0 x 10-3 0.0 258.75 - 281.25 670 2.2 x 10-3 0.0 281.25 - 303.75 730 2.0 x 10-3 0,0 303.75 - 326.25 980 1.2 x 10-3 0.0 326.25 - 348.75 1300 8.3 x 10 4 0.0 348.75 - 360.00 1200 9.5 x 10-4 0.0 Xu
- 2. Distance to coint of maxinum Ti for offgas stack release = 16090m.
l .- EMERGENCV PLAN XMPLEMENTlNG PROCEDURE EPIP 3.3b - .* Page 55 of 94 . FOLLOM-UP DOSE PROJECT 10NS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continu i) B. Normalized concentration, Ground level release - Results for Summary Table, Section Ill, line 2. la
- 1. ER > m/secb = sec 57' at site boundary
- 2. 2.0 x 10-5 + m/seeb= see at point of max me X/Q for offgas release
- 3. 2.1 x 10-4 & m/secb= sec me at 2 miles
- 4. 5.5 x 10-5 + m/secb= see m? at 5 miles
- 5. 2.0 x 10-5 + m/seeb= sec ma at 10 miles Ic
- 6. ER & m/secb= sec at additional ma location No. I 1c
- 7. i@ + m/secb= sec at additional ma location No. 2 lc
~
- 8. 52 & m/secb= sec at additional ma location No. 3 NOTE:
a Xu-0btain Q for ground level release from Section V, Subsection A, line 1. bObtain wind speed from Summary Table Section I, line 5. Xu c0btain around level release U for additional locations using Figure 21'and accropriate distance from Summary Table, Section III, line 1. 9
EMERGENCV PLAN XMPLEMENTlNG PROCEDURE EP!P 3.3b - Page 56 of 98 *- FOLLOB-UP DOSE PROJECT 10NS Revision 2 . Date 4/11/83
. s, ATTACHMENT III, CALCULATION SHEET III (continued)
C. Normalized concentration, Elevated release - Results for Summary Table, Section III, line 3. la
- 1. ER + m/secb= sec m a at site boundary
- 2. 1.7 x 10-4 + m/secb= sec at point of max
-~'
ma X/Q for offgas stack release
- 3. 1.7 x 10-11+ m/secb. see mo at 2 miles 4 2.2 x 10-7 + m/secb = sec WO-~ at 5 miles
- 5. 1.7 x 10-6 + m/secb= see ma at 10 miles ic
- 6. 32 + m/secb= sec at additional m3 location No. 1 1C
- 7. ER + m/secb = sec at additional' ma location No. 2 1c
- 8. 33 + m/secb .- sec at additional l_ ,m a location No. 3 NOTE:
Xu a 0btain U for elevated release from Section V, Subsection A, line 1. bObtain wind soeed from Summary Table, Section I, iine 5. Xu 00btain elevated release II" for additional locations using Figure 22 and aooropriate distances from Summary Table, Section III, line 1. D. Whole bcdv dose rate - Results for Sumr.ary Table, Section III, line 4. Cia Cib Ci
- 1. sec + sec = sec 2a. FIm x DFId =
2t. (1 - FIm) x DFNGe = 2c. (line 2a) - (line 2b) =
EMERGENCV PLAN TMPLEMENT!NG PROCEDURE EPZP 3.3b Pa90 57 of 94 FOLLOB-UP DOSE PROJECT 10NS Revision 2 Date 4/11/S3 ATTACHMENT III, CALCULATION SHEET III (continued) Du
- 3. 7 for site boundary:
3a. FIc x DU0QIfx TCFI4 = FIc) X TCFNGi = 3b. (1 - DUOQNGh x 3c. (line 3a) + (line 3b) = Du Xu
- 4. T for loc: tion of maximum 7 4a. FIc x 4.2 x TCFI9 =
=
4b.(1 - ,FIc) x 3.0 x TCFNGi 4c. _ (line 4a) + (line 4b) = Du
- 5. Q for 2 miles:
Sa. FIc x 6.8 x TCFI9 = FIc) x 4.8 x TCFNGi = Sb.(1 - (line 5b) =
~
Sc. (line Sa) + Du
- 6. F for 5 miles 6a. FIc x 5.3 x TCFI9 =
6b.(1 - FIc) x 3.7 x TCFNGi =_ 6c. (line 6a) + (line 6b) = Du
- 7. Q for 10 miles FIC x 4.2 x TCFIo ,
7a.
=
7b.(1 - FIc) x 3.0 x TCFNGi 7c. (line 7a) + (line 7b) =
- 3. for additional location No. 1 Sa. Fic x DU00!f x TCFI9 =
Sb.(1 - FIC) X DUOONGh x TCFN3i=
"ine 3b) =
Sc. (line 8al + t
EMERGENCV PLAN TMPLEMENTlNG PROCEDURE EPlP 3.3b - Page 58 of 94 * *
- FOLLOW-UP DOSE PROJECT 10NS Revision 2 .
Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) Du
- 9. T for additional location No. 2 9a. FIc x DU0QIf x TCFI9 = __
9b. (1 - FIC) X DU0QNGh x TCFNGi= - 9c. (line 9a) + (line 9b) = Du
- 10. Q for additional location No. 3 10a. FIc x DU0QI f x TCFI9 =
10b.(1 - FIc) X DU0QNGh x TCFNGi= 10c. (line 10a) + (line 10b) = Ci secj 3 11a. set (line 1) x m3 x (line 2) = ml i Cik Du lib. sec x F (line 3c)+ Tec = 11c. (line lla) + (line lib)
=
l mrem _lnr at site boundary Ci segj 12a. sec (line 1) x mo x (line 2)= Cik Du ml 12b. sec x T (line 4c)+ slic = 12c. (line 12a) + (line 12b) 1
= imrem Xu nr at point of max 7 Ci secj 13a. sec (line 1) x m3 x (line 2)=
Cik Du ml 13b. - sec x 7 (line 5c)+ Tec = 13c. (line 13a) + (line 13b)
= -
mrem l nr at 2 miles
-r-r-- --- - - -- -- - +- y v y----- - g-m--*w.w-- um &m----m c- #7-
++gmm.g -r p- w- --- p
l
- EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pc90 59 of 94 FOLLOW-UP 00SE PROJECTIONS Revision 2 Date 4/11/83' ATTACHMENT III, CALCULATION SHEET III (continued)
Ci secd 14a. sec (line 1) x m3 x (line 2) = Cik Du ml 14b. sec x T (line 6c)4 _He = 14c. (line 14a) + (line 14b)
=. mrem l nr at 5 miles Ci secj 15a. sec (line 1) x m3 x (line 2) =
Cik Du ml 15b. sec x T (line 7c)4 Ec = 15c. (line 15a) + (line 15b)
= mrem nr at 10 miles Ci seed 16a. sec (line 1) x mo x (line 2) =
Cik Du ml 16b. sec x T (line 8c)+ sec = 16c. (line 16a) + (line 16b)
= mrem nr at additional location No.1 Ci secj l
17a. sec (line 1) x m3 x (line 2) = Cik Du ml 17b. sec x T (line 9c)4 Ec = 17c. (line 17a) + (line 17b)
= mrem nr at a3ditional location No. 2 r -- , , , - .w. - p y+,y.. -+w, -.
t , w. --p- - -
3.3b EMERGENCV PLAN IMPLEMENT!NG PROCEDURE EPZP '
- Page 60 of 94 FOLLOW-UP 00SE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued)
Ci seed 18a. sec (line 1) x m3 x (line 2) = Cik Du ml 18b. sec x TT- (line 10c)+ sec = 18c. (line 18a) + (line 18b)
= mrem nr at additional location No. 3 NOTES:
aReactor building stack release rate from Summary Table, Section II, line 2. bTurbine building roof exhaust release rate from Sumary Table, Section II, line 4. cIodine activity to noble gas activity ratio - obtain from Data Sumary Sheet, Section IID, lie 3b. If unknown use 0.3 unless Standby Gas Treatment is in operation (See Cata Summary Sheet, Section II.D, line 1) then use 0.003. d0btain iodine dose f actor (DFI) for time af ter shutdown (Sumary Table, Section I, lir.e 2) from Figure 3.
'Obtain noble gas dose factor (DFNG) for time af ter shutdown (Summary Table, Section I, line 2) from Figure 4.
Du
#0btain F for iodine (DUGOI) from Figure 23 using the appropriate distance from Sumary Table, Section III, line 1.
0 0btain time correction factor for iodine (TCFI) fr:m Figure 6 using time after shutdown (Summary Table, Section I, line 2).
"Ob t ai n for noble gas (DU0QNG) from Figure 24 using the appropriate distance from Summary Table, Section III, line 1.
i0btain the noble cas time correction factor (TCFNG) from Figure 8 using time after shutdown (Summary Table, Section I, line 2). X 30btain accropriate Q for ground level release from Summary Table, Section III, line c. Octain effgas stack release rate from Summary Table, Section II, line 3. IObtain wind speed from Sumary Table, Section I, line 5.
" Iodine activity to noble cas activity ratio-obtain from Data Summary Sneet Section IID, line 3a. If unknown use 0.3.
L
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPZP 3.3b Fa92 61 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Dete 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued) E. Whole body dose - Results for Summary Table Section III, line 5. mrem (from Section VD, line llc) x bra
- 1. r. -
= mrem at site boundary mrem hr (from Section VD, line 12C) x hra 2.
=
mrem at point of max X/Q mrem (from Section VD, line 13C) x hra
- 3. .hr
= mrem at 2 miles mrem hr (from Section VD, line 14C) x hra 4.
= mrem at 5 miles mrem hr (from Section VD, line 15C) x hra
. 5.
= mrem at 10 miles mrem hr (from Section VD, line 16C) x hra 6.
= mrem at additional location No.1 mrem hr (from Section VD, line 17C) x bra 7.
= mrem at additional location No. 2 mrem hr (from Section VD, line 13C) x hra S.
= mrem at additional location No. 3 -
EPZP 3.3b I. EMERGENCY PLAN 1MPI.EMENTTNG PROCEDURE 62 of 94 Pa92 FOLLOS-UP DOSE PROJECTIONS Revision 2 . Date 4/11/S3
) ,
ATTACHMENT III, CALCULATION SHEET III (continued) NOTE: a0btain exposure time from Summary Table, Section II, line 1. F. Thyroid Dose Commitment - Result for Summary Table, Section III, line 6. Cia Cib Ci
- 1. ( sec + sec ) x FIGd= Tic Cic Ci
- 2. Tic x FIEe sec Ci see Ci 3a. Tic (line 1) x m3 (Sect. VB, line 1) = F Ci sec Ci Ib. sec (line 2) x m3 (Sect. VC, line 1) = F Ci 3c. (line 3a) + (line 3b) = N Ci see Ci a.a Tic (line 1) x mo (Sect. VB, line 2) = U Ci sec .
Ci 4b. Tic (line 2) x mo (Sect. VC, line 2) = F S m s 4c. (line 4a) + (line Ab) = Ci see Ci ca. sec (line 1) x mo (Sect. VB, line 3) = F Ci see Ci 5b. isc (line 2) x mo (Sect. VC, line 3) = F Ci 5c. (line Sa) + (line 5b) = E Ci sec Ci 6a. sec (line 1) x m3 (Sect. VB, line 4) = mJ Ci sec Ci 6b. Tic (line 2) x m3 (Sect. VC, line a) = F Ci 6c. (line 63) + (line 6b) = FI
- , , , , -+-e- -. ,---es -y s w 9y
. - , - - - - - *'e9 4-T w& c--
, - - ,m. .
. EMERGENCY PLAN IMDLEMENTING PROCEDURE' EPIP 3.3b Pa93 63 of 94 . FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued)
Ci see Ci 7a. sic (line 1) x m3 (Sect. VB, line 5) = F
. Ci see Ci 7b. Tic (line 2) x m3 (Sect. VC, line 5) = @
Ci 7c. (line 7a) + (line 7b) = M Ci sec Ci 8a. TEc (line 1) x m3 (Sect. VB, lite 6) = M , Ci see Ci 8b. sec (line 2) x m3 (Sect. VC, line 6) = U Ci Sc. (line 8a) + (line 8b) = F Ci sec Ci M 9a. T6c (line 1) x mo (Sect. VB, line 7) = Ci sec Ci 9b. Tic (line 2) x F (Sect. VC, line 7) = W S 9c. (line 9a) + (line 9b) = m* Ci see Ci 10a. Tic (line 1) x , ma (Sect. VB, line 8) = M Ci see Ci I 10b. TEc (line 2) x m3 (Sect. VC, line 8) = M Ci l 10c. (line 10a)+ (line 10b) = # l Ci
- 11. W (line 3c)x hr9 x 3.8 x 108 x TCFIf=
mrem at site boundary l Ci
- 12. M (line ac)x hra x 3.8 x 108 x TCFIf=
mrem at point of max X/0 l i l l l
EMERGENCYPLANIMPLEMEkTINGPROCEDURE EPIP 3.3b . Page 64 of 9a - ' ' FOLLOW UP DOSE PROJECTIONS Revision 2 . Date 4/11/83 N ATTACHMENT III, CALCULATION SHEET III (continued) Ci
- 13. EDI (line Sc)x hr9 x 3.8 x 108 x 'TCFIf=
mrem at 2 miles Ci 14 IEI (line 6c)x hr9 x 3.8 x 108 ) x TCFIf= - mrem at 5 miles Ci
- 15. isI (line 7c)x hr9 x 3.8 x 108 x TCFIf=
mrem at 10 miles Ci
- 16. III (line Sc)x hr9 x 3.8 x 108 x TCFIf=
mrem at additional location No.1 Ci
- 17. EDI(line 9c)x hr9 x 3.8 x 108 x TCFIf=
mrem at additional location No. 2 Ci
- 18. WP (line 10c) x hr9 x 3.8 x 108 x TCFIf=
mrem at additional location No. 3 NOTES: 3 Reactor building stack release rate from Summary Table, Section II, line 2. DTurbine building roof exhaust release rate from Summary Table, Section II, line 4 C 0ffgas stack release rate from Summary Table, Section II, line 3. Iodine activity fraction for ground level release - obtain from Data Summary Sneet d Section IID, line 3a. If unknown use 0.3. y- er F- - - P +-- - - - , ,-4 ---m r- - i-- ?P--~--p a+m-w ------ e -+- e
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b ' - Page 65 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 ATTACHMENT III, CALCULATION SHEET III (continued)
' Iodine activity fraction for elevated release - obtain from Data Summary Sheet Section IID, line 3b. If unknown use 0.3 unless Standby Gas Treatment (see Data Summary Sheet, Section.II.0, line 1) is in operation then use 0.003.
f0btain TCFI from Fioure 19 using time af ter shutdown (Summary Table, Section I, line 2). 90btain exposure time from Sumary Table, Section II, line 1. G. Plume width - The following are the plume widths to be placed in the Summary Table, Section III, line 7. Point of maximum X/Q for Offgas Stack release 2mi 5mi 10mi 2000 530 970 2000 (meters) (1.2) (0.33) (0.60) (1.2)(miles) NOTE: Obtain remaining plume widths from Figure 25 using the appropriate distances from Summary Table, Section III, line 1. , H. Plume arrival time - Results for Summary Table Section III, line 8. mb hr to Site Boundary
~
- 1. 2.78 x 10-4 x ma+ Tec =
mb hr to point of max X/Q for
- 2. 4.47 divided by sec = offgas stack release mb hr to 2 miles
- 3. 0.894 divided by sec =
mb hr to 5 miles 4 2.23 divided by Tec = mb hr to 10 miles
- 5. 4.47 divided by sec =
mb hr to additional
- 5. 2.78 x 10-4 x ma+ Tec = location Nc. 1
4 EMERGENCYPLANIMPLkMENTIf40 PROCEDURE ~ EPZP. 3.3b
- Pagd 66 of 94 FOLLOW-UP 00SE PROJECTICr;S ~ '
Revisien. 2 . ' Date 4/11/83
^
- -~ . ATTACHMENT III,' CALCULATION SHEET III (continued) mb hr to addit'.onal
- 7. 2.78 x 10-4 x ma+ -
sec = , location No. 2 mb he to additional
- 8. 22.78 x'10-4 x- ma; --sec =' location No. 3 NOTES: ,
30btain appropriate distance from Summary Table, Section 'III, line 1,
~-e-605tain wind speea from Summary Table, Section I, line 5.
f e b
.m e
h 2 . e-o .-" ,.
^
s V e W
/
-.m I .W
^
{,'.q f
\
v i l 9 e
-v"-1 v..r- v - --- s m. , e - - w .-p., - - - - - - - - - - - . r--
EMERGENCY PLAN IMPLEMENT!NG PROCEDURE EPIP 3.3b Page 67 of 94 "FOLLOS-UP DOSE PROJECTIONS ~' Revision 2 Date 4/11/83 s
- ATTACfNENT III, CALCULATION SHEET IV RELEASE RATE FROM FIELD MEASUP.EMENT
- 1. Fla x DU0QIb x TCFIc
* (1 - Fla) x DU00NGd x TCFNGe Du
= Q j in9 Du
- 2. mR/hrf x sec + ~ Q (line 1)
= Ci
- Tic Minimum Total Release Rate o -Assumes measurement taken in plume centerline -
I " ' s NOTES: , alodine activit'y to noble gas activit'y ratio. If unknown use 0.3 unless Standby Ga5 Treatment is' in operation (Data Summary Sheet, Section II.D, line 1) then use 0.003. D 0btain for iodine (DU001) from Figure 5 f or atmospheric stability class AB, 4 Figure 13 for class C, Figure 18 for class DE, or Figure 23 for class FG (see Summary Table, Section I, line 6). Use the-distance:from the release coint that the exposure rate measurement was made (Data 3ummary Sheet, Section III, line 2). C0btain time correction f actor for iodine (TCFI) from Fioure 9 using the time of field measurement after shutdown (Data Summary Sheet, Section III, line 1). Du d0btain F for noble gas (DUOQNG) from Figure 7 for atmospheric stability class AS, Figure 14 for class C, Figure 19 for class DE, or Figure 24 for class FG (see Summary Table, S4ction I, line 6). Use the distance from the release point that the exposure rate measurement was made (Data Summary. Sheet, Section III, line 2), e0btain tim'e correction f actor for noble gas (TCFNG) from Figure 3 using the time of the field measurement af ter snutdoan (Data Summary Sheet, Section III, line 1). f 0btainkexpcsureratefromDataSummarySheet,SectionIII,line3. 00btain # nd soeed from Summary T able, Section I, line 5. ( i
=
m
' EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b '
Page 68 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 - Date 4/11/83
?
. i ATTACHMENT IV, FIGURES This attachment contains ail the figures referenced in this procedure.
e (
- {
e I
- , . - . _.. , . . . , , _ _ . . - , , . _ - , . _ , , , , , .w._, , . . . . , . ,-.e_.. ,,,~,-,...,,p,_4- , _ - , - - , , ,--,,e- .
?, _. .
,l
- EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pace 69 of 94 FOLLOW-UP. DOSE PROJECTIONS Reiision 2 Date 4/11/83 i
1 FIGURE 1 M for Ground Level Release - Class AB -r, Q - ._ _ _ m, .a 2-- __-- - _ . - - _ . . _ . . . - a
._a...._.m--__-,_-
- n-*I-M# M-T
-.?FhM *G s ** r-- i ar mM r 5' M :whC -- 2----M===-_
g
~
;;-- iF-w .. E_
-* .=11' s !.
-*e _Z _1_ _hi 6'--Y-- Z_.M. ..
_ _ . .r-W_d_ri@C_.- _-- 5 , _- 4
-+m ,
w :_ > wise-. .rs - wrr-= w _ : --- = . r-- -
*'f*T " % i" _ --- -~ - " GM2 -*- - % --2 MA ' S f_- '_'f
_--m I -- g
- g i
- . t l
, 0- 5
___,,~_~-,m_-
--'_e_-----,,s.e-m._.
_~.._.__- _-_.--= g _.; w #_e -u_w m - * -s,is
- a -~ 2.-
M u g-m u -' _ . _ _ _
-- m _ r e =W-t - -6 e
.=
_-. 3 _ - m__ _ -- 2_- . _ . . _ _ _ . .__ . _ .
.asir u rue-- - m mi P m+-_" h --> a r a_e x+-.a i. s
_-w-ww_J '_-_-~_ " ' . " -M 3 _ - - - = = - - " - =-M .; :i""__ __ _' T_ _.' _ _ - -_ -- _n
- -- .m- .
- -=. - = = _ _ _ . __ _ :=.: _g
' , . - - s _ ~ - ,10.A"
-----.w.._~-%- --
m-.~. -____-s._#---
- - - - . . _ . ~
g _7
,m 8
- i. =- esurnmi ..
__ m- g3
, , 7 3 t
-g !
Na=8L8"^--iiil N. .- M 3y 2 a--- 3 a*wn-i
.,-=---m
.-. __m.,#
-m. ,m. -s__ : -< ~ g
--- m e.w.~,~--.
a -_n ,_n .s - - T
.g..-
W '
-R93 N+e- " _ WiElqEf==== __** a 5 : GuGi d s?' l ifi i --
s
'-r - _ _ ,
~ ~ .. ;
.e Y
__ - e n. -
.,__.n.m . - - -,
__-__,-,--------~==~L:
- ~ - - -
---~~~__----: - -
-% _g
- - . . =::.G~-= .' ~- Y -a 7 i
_'_._ - _ n=i- M- %k.-i e=-- - ----__.-:i = - 9W~-
~
_9 '
~ -
..= i _ .~
1._._Mr_~--'--- - - - -
=__
-'~-
a j _s_=_ e l:-_ ___ i
.- _=-w_.-_g-=_-_
;_.e- ,.u.m _<
=- k-2 q ;-
-_.____.-==
_, _ _.___-gg._,_p-=_===-_--___...y. _- .-e? ML - _ - = + ._ 3 _ _ . . - _ _. _ =w - - - - - -
=-
_= . - = - -
-- 2 ;
I i es=2
\ ,
s6
, g 3 a sa7at .
s s 1 s e r s. 1- 102 u) i s
. .a s . i e risa.:
ev- : I Rece: :- 0 4::an:r. -
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPlP 3.3b - 5 Pace 70 of 94 ' ' FOLLOW-UP DOSE PROJECTIONS Revision 2 . Date 4/11/83 m,
. i FIGURE 2
_Xu for Elevatec Release - Class AE ~ Q c-s
-_ - - - _ , _ _ - - - __ - - -mm_ m. ,
;w,, - . ~ ~ . _ .- .
_'=_w"- 2 r B- _ = = ==:=- -f W= _w- - h e C ~- ' +5 + - ._ - : + =-W a =
-- =
Mm mt== - - g _M M-_-,E__=.-_-.'___.___===T=_-"__=_--_---J---_=':-_--=i=-=._=-'Ei~r_==_.*_
.:.- ^ _
...-_ _s-- i._=5. O=- - - - - _ _ ___
. _ . . g
- a
____. sa= m 4_ .,-- - = t u_ _-=-r --
=G -- -k=-wr- m = M :Et
~ ~- M :,2 -
^'
- _- - -E;;T; 5 2i:mi y i~~.__-
.=-. .e_=:_m.;-_'~-;---- =- ._
_ ^gg ,,-' _-an--C m=. ' '
- _-z= s.m.:=._-
- ~ - - ~ - - - - - E~ --- T - --
' '_h
~ ~'_
'C_.-.
m--_-___- -r ___.__=_:.-_,.
._ --=--_ -
b*b _. -, o _ ___ __ __ .. ._.-.ms . , - , _ _ .
._ - -. _ _ . _ . - - -- g
, _ _ _g A w.we i . . . .mw-,~-...,.,
7 M!!L M e r . -+ -r = m . r _- :-- -- -=~~=-- = 5-1:.: ;:__5y_____;_---i~====='jQ.==.;_--_=_--_____-____.___.r-s- r- - ~'-ME- =-2 := == =- r = - '_.n=g-=E ,
=-- ' - ;, ,
-,_____u___--__-._._... ______=_.:..=-=_
. 3
. _ . - . _ = = . _ - .__
^
1-* D = = = = = = - - - - . = - ^ ^ ~ . --_=n'
.- m B: -u Gv_ ._- 55-= -e e ~-rM "'~L.~ ==: ." == -fK=_=
=_ -
y
=. =* - - _
. =M:-' 1_-"_#2t-=_=t "-h-@ _:- .~: -_=-
^
- u :.-L.2: = - __-3=~- --
_ .a . = _ _ y____~--_- '-
.:- ~_ T ~ ': =^ -
_ . _ -._ __. . = = _ - - - _. _ __ __ . . _ ___- , r. o s my, , _ _ _ _ m _- _ _ _ _ _ ,
. . . _ . . _ , - - - _ - - . m .-..._.e ---#_. .s g m,- _.o w 5 w_ - - - -
=_=i _e 3 =r =
5
'J.-_-%=----,===%er..-=9-~-'m'_.+----==w-4=E_~_---
~
^ ~ ~ -
?
g g i. = 2_ _.==.
.=_ _
'E=E
__ ' _2k. ._ W_ __=- -i= i~~ ~ - _ .~--__._. E~= - -:_ T__ ~ ..'J _: _ .- T=5 ' ="_ W i-- M_ V---~"_ f
- _ J.: t -+'.-_.:_=1 5
__==- u.1_ =.--.=-._.-z_;
--een..==---=_=--._+_===-_=-m-r--==Ahr._.
---. = - 3
= _ _._
^-'_
^^ ~ ~ - - -
~~_-.._ . = : L .____.'_'^ - ^'- '---- -
- - ~-
'u _ _ _ _ . _ _ _ .
_-==_= .
~~
2 l. s n-I gm,_,__,,___._.,_-.__m.-.-- . _ _ _ .. _ _ _ ~ - . _%=r_--= -_. 8
- =-- - ~ . . -~~ -5
-f ---2==t- ?
zq=.,_--7_.;-====r.-=u=-==*._==~+==.__.----_==#':a-=__._=a-=- _. ---- _- -__=_--_---_--=_---_-as2 _- _
- - -- -- ;- g 3
-s
______s _s _;_=a-m =_ _----z_-+=_=_=__=---_:=-_'-'=' - -- _=-_. _:u, _w_ ,
.:- - - --===- ___.___
p_. .
-m. ._-_--2.__.L.__u=-_.:
- _ - - -_ - - ------__-----_33___-----_ .
2 t u- - _- - _ -.- - ~ ..-_ _-s. - ~- - Y~"W~5 - __- ,
. - _ - . - m,
,.u _ . y .- - _,,_ o
*g g_.._x,.,____ .
="'3_iikW'"~=._"_-_-K=__2_..-_2_=_1.E_*3~4_M.._Y'.'_L__-----^#_-.*_',_=3.==-t^---~_Ki1*~
.:=_-_--;.+ _
__ =-
--:-=__...:-.
_-.3=_.-. _ - = . _ - -
.--.----------m ------=_s
--- = .
3
' -' - ' ~ ~-
W L.- < +2__=_- L_- =--e__
- ; -- _- --M_ _=*C-G'L-u_ -=- _a - G= _- W n '=-'5===
- - - = _ - - - - _ == = . = - - - - - . _ _ = =
l w.__ ~. : . _ . - '^^~:. - - ' ' . - - *_:_~_^ - - ~ ~ ^_' -^ L^=-_---=.=- 2_: : 2
"___-==---- -_-
l _ . . \ t l i i 5 *'-" a Lf i 1 2 a 3 4'89-t a s e ss7se-
- . i afast .
a N, 10'~ 1 "~ Rect:*.:r Disun:e ,' ?
I EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 71 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 FIGURE 3 Whole Body Dose Conversion Factor - Iodine
- 3, x _
i 4 i _ i i I d
- . _ 10/
(6:- .' . s . - =_ _ _ E ,
~
i _
^=
G
=.
E - t !
~
' iGo
- a. __ _
~x ~
~
.=_. - _ . _ - - - _ -- -
. .~._- =_ -
a ~ i- . _ _ _ _ _ _ _ _ i _ l
....a
- 105 i
. . . . ..,.,:. . ....a i .
1.0 10 1C2 103 i i Time, hr. i l
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPlP 3.3b - 72 of 94 Page FOLLOW-UP DOSE PROJECTIONS Revision 2 . Date 4/11/83 . l 1 1 o FIGURE 4 Whole Body Dose Conversion Factor - Noble Gas
;0
-=._.
s -r ~ - _ _ 8 ' 1 OC
,,_ n Ul3 a
=- -- -- _ ___ -___-
E, i CLE
- w a: _
m - g -_ _ _ b g ' xs -
.10:
4 e -,
, _ _ _ _ _ _ _ _ _ _ _ _ _ _ . , _-w
_ _ - = ___ _ _ _ - 2 h_: - --
-___[.
- = = - ___
l 2 102
. 2 - i...
10' 104 i.0 10 Time, hr.
' - ' - -=rva--,
I - EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b
Page 73 of 94 FOLLOW-UP DOSE PROJECTICNS Revision 2 Date 4/11/83 FIGURE 5 Du for Iodine - Class AB T
, e2
- _ _ _ -- .- _ _ . _ _ -_,-a _ ;-
-~ _ ._ .. _ _ _ _
- - - . ._ .m u.
__r_c,_=,.~%.=- - - - g
~+=- c- # y _z . y_ _ m +- -= , -u m. W :._ r_ - ~ ' ' - - --s.rN =_- -=- _ _-a&T - =- m-W- W. _ '
FN'~5 g SE -- - _ _ _ -:-=_.m.' . _ . _ . _5_9___. .-E'"N N -__-J"-- _~ _N_7_ _. ' ".*A - - s*:- - ~-- I. d-.m-- _'- I.- _ _- - ~-.- --- - - - _ ..- *^"
E _ L _ " ' "* j
~
C C !i O H-~~=rM=-m,, m ~M3N'-~=~^-.-'.'~N-~-l' . *-5~_~ bh-E-9' ?-r.:_ . s r _~~~.~ _=~_--~__"___..=_-L_"~-'-_"..-_Q-'..^..~----'.r_._-~_=_-._^?_'_=._b.-~f-=~~2__.%'M._%'T^-'_=*
- w m
4 -- - g 'ws
-.- ._ _m . . -
-_me .--%- - _ .- + =
""t
.,4 m---u..-
.-u.._..~._.._4~,#.-%.- -
. - . v- J-L <- . 3
__ a, c : ;== 4 .-* -m=-u - ar r- -v-- =c - " 1 ' M- a=&- =m -r u
- y'14__--~_
di. h ~ =~ _Y_
.' -C~-- '- _s-9-1' ;.-A:_ : __ __ _ NAI I I =Eb 'r:~;- ~.P "' N ~
-N 6
-_ . ' _ . ' . '-~"~ =NI-EE_h $ -_ _ r E ~
__a=.-= 4 _?-%-=-N .5=E_dO 2.M" rE- -sr-~*-- PS.: U- 4~d" 8 8I .- i5 I2 M U-O 45----f'- = -T.'* 3E" . ~ __S
-T _ _ ~ ~ ~ ' v7 5 '-~E_2 '
- - - - _i_- - =-----S'*- _
M - .____
- - - - - . - . _ . _ . = ..
3 __-__.--E-i___ _. _ _ - . _ _ ~ - . - y _._ - s_ .- , _ _ _. _
. _.s_ ._ - ,e**
-.-- - -- _.- _._- _.-e----- g I sp m. __ . . _ . . _ . ~~s _
,,w- -
_.,m=m, Wl es
~ - - -
-[ - -- -- _- 6 g
u __ ____- _. . _ _ . _ g g, e
-~-
}
g6 _
~~
_- - ^ w - g 3
. ~ - . - ---
&+ m % ~ A* _
~ .,W--,_.I
.% _ Ab W-m W~ W" _
7_c a.,-'myg 4s
=E.-2,. ;_ :- -*.-_--~2_--=-1:*----%-=_---iE=_e======_._---M=*Ia _t
=
-?'E$ E N -- ?- Y--A^^
^
-~k_"_~_..
^
-__-$O WW&Y.- =._
- ~
___..6 -. $ S ~r Mi ^ ^ * - ~ -~ '-Dh %* 5 5 -
~~
^
E Q:_%'"&_T -,M_MTL-- - T - --' - += : = _s
-a==_= : ===- ._._- - _+m====_-_-_==-m==.-_==.=.=- -
. _--__ - - = x -__=_
~
1 d- -
~ -~ =- . o -
. --. . , ~ ., . . _ - _ , ._ -
. ~ , ~ _. - __~
-- ~ _ ,
2'- T_9
- m.ag .M -.<w'='i - . .-- .: gd 7-=r ?f ~lh -- r_. g_5_ ; - uN-M *-T
__ _ ^-
~~~~ M & [ - ~ ~ ' - '-t ik. _':n>Y_ - 5.-_.2 W: _ Z .d_5 kM_f_WM_, _ _._ 5W_^ T. __~=_ _. ' *--__- ,-: _7
_--_ _[_ _2_w -- -
-~~ .g3
____-.-.-__t
- me-e
_h
~
d'y-Lr.- ~-Sygr^% '.CC-8-'W :Z _'_1T*b- Q 4p_
~
,4.s__
*s,-' v --[_ _ ' ' - ~5__
I M-_S~.~ . ~~' 3,
^ ^ "
=?D _~ YF.. ^h -i -M._ 7--TI EN -- ~ ~ ~--_3_ - ~-~- }g E_--._E==_
---_-_~-}_.'^Q~~_-33_
- _=_.*'--. - - ~ ' - = *
-__=__.,T-- - 4
-=.--=--~=~=~ '
c-3 ia l'
- . e6 7e, 1 2 * * *
- 31
;4 8 8
* ' * * ' sw 'M 103
- ece:t? ~- : : :3. -
EMERGENCY PLAN. IMPLEMENTING PROCEDURE EPIP 3.3b '* ' 74 of 94 Page FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/S3 T FIGURE 6 Time Correction Factor - Iodine 4 s __ _ __ _ i 1.0
- =.
.__x _
- =_ =
t __ ._ _ _~ C v x
=
I t 0I I
-_ -- _ _ - _= g ,
i
, .....a . . i. . -
, : . . ....a , . .
102 103 1,g 10 Time, hr. f
, .. . - - - . . , -- ,,, .,-n.,- . , . , . , , . , , . , , . _ , - , _ _ _ , . , - . . . , . , _ . . . _ , , _ , , , _ . , . . . . . . _ , , , . . , . . , . , , . _ _ _ _ , _ . , , _ , . ,
' I I *
. EMERGENCY PLAN XMPLEMENTING PROCEDURE EPIP 3.3b '
, ' Page 75 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 h -
FIGURE 7
! Du for Noble Gas - Class AB T ,0,
. , _ _ _ _. .. ._~ _. _ . _ _ _ _ __ _ _ _ _ _.. .--_... _. _
~ ._ . _ . ___.. -_ ._._-. . _ _ _ _ _ . _ . _ _ _ _ _ m.
~ _ _~_ _____ . .
3
-4*e -h -- + -vw ' - - ?
E44 -wtf ew-- - ' -$5 --- - -a>> = t*= -=-h. _*_N_%? - = = = -M-h- e 3 33' t' _ . ,
~%3 -l YS-f'B ?, , ' ~ -~A
. '2', ': '.%_x g
= ?* R ?-'E'E s ~.^'im'3WK
~
M w_? - - .. ...
~=
g Z-
- ar.-ifa3 zu=._ _ _ .
_.__ _4
. n _, e _ n n
+.a p
.___ __. ~ - n w. - _ w.. m w a _.u .
' M WI m"s N # ~- '-Ni' M- g
._.~_LM_E EM@ *EIEkY8k N' N1
' .s ~- _ _ _ - _ - _ - _ - -; :-_;_-__=. _ . _ - - -
3 . _
..._-g _ . .
.M . _
N& Dgy _ .- .-- 2 g
. e. l l
s -
. .. .F. a. . . -4a - . . .a _ _ _ _
g DN 6 % d 74
%.m_,__,..,w a- .. . .
3.. n .w . . . , . , ._,w.,e.._r_,.%.. me.,sa. san w a-i . _ - --I* c we_r; 13 -sM an --e_-u.wr h e-='w t._-== .r-.._ n- ._v- .---.
*i y~~BPT A1Re. M . <_-1 . .-
Qh w ,,
'_"' _' @ge_ _M_T-Qsr -"',
g
-~] j {s;-'
N. - 7bT- _~NJ--Y. -j@&:M_M < e u ."m"saf'U _ _ P' g
-.a=-m.-... n-
, _._ W.P.,=, __"_i* -_ ~ , . ._
_ -_.4"_'I"=""l - i u
- == - - .
- .u -
- , _a-we, .. - 3. ; _ .- r _mw:.,
. m-_ . . _ _ ... . _ _ . _ . .dt. m. PL. _. z':2 -
.m _m, -
_ _ _ _ .-._._ . %..--- =. __- . .. _,_. m. a, mm _ 3 I-'T'I 23E y,. """ *" '
".", C. " ' ' -
.~ C 7 - - - -
1 . 9 _ e I s
.o*
l + - - - - m. s - --- _-.---,-_- g
@ was ame o .--. .umn. 4.= + = n _- ---- . _ as a e . s%-
===en* . m . ins --'
===
W* l u - G Mlpar-- ..-F - s- ur--t-Jr e syv r _-ir9'"e9AsselHr w.7,7 -im =* ->= j s.s. ads .sm.%._ r t un, " '3' 4
' i _ _ .
*~ '- - -f _3iF_3__
g
% -----_--E-"_'*_f.._%"-~-~--irW _,
-L__'C ' ___.. ; zMn_R W
. _ _ g y .
4 g .g g ,q;_,gq_ , a _ g ,g.g rs-sr. in m.1 - .- - - _v= 3 26a gg
.Z~- __T__'~_- __ -, h""E- l T4 re- L 2- 'Mi _3
_f"_____ _.__
,g .__
g -l . r S e e,
- s -
- - , , _ .m -w . . - . . . ., . ,
~ m.., ,r ww ,n _wa, _g
_-_m
-m a-r1...=.e.-
7 L- -=_re.-'au- suur - - - inew - . xx' M '<4 *
-~_-_-%L= WMn-i ': ~.9_.*_2 -. _ ? *cAFI A ' A.'.*u
-=- -ahl +du d' ~ '-~ 'V2.m3
--- - M - '
- _ - _ -~__4--__;- E
,w,r. - -
ummEY_ _m- _ - = . -"'..ra-,.__- _=sa_rm ._..__ { - - -
- = = = _ . - 5
~
~
4 i m G e
-h %M_gi E_-. i. M'-'_ a t
- _- m-_--=- '
z .-'_ ai gs , a~ , * " " ^
.,_,.",._ys,__ : CM .= M l"l. -: _^^.mii
.= 5 - I '_I@.E
- n. . _ - m. a_
1 __ r__ ._ _ _Q-. m_ur. _ _ . - 3 D j 1 . e f . eOef*
*w
-M -Er
- ..a.g.r_. ,__.g
-i. -. w h e me- W . ,6 s'9 DEN E"" . 5 6M. _. . ---g . ,i hTW T Ja
-A m.*' w a_ wJ t e as *a.w a..aa.% a m am _%_ _g.
.-1 s -d ade mme.amr m acN m appa I,_
,"M4,.se a- .: _nug+p_-mwc -u + __ _=_.: .v ; g- ___-==m-_e 4
= - _ - _ . _ -'_y--+-mec.-q_m w
_~= ------3 .-- w- -__--- _ 3 y_4 _ _
.-3p -3_3_.
~ -
, = . .3- . . r
=_ _- - - .-=;
= g
._v__
I
- hm_ ~ - ~_ m __m
- f. -
- -es-.s-, n - - -s >.-m :- : :_ M e #. -a- _ -=-J -' n5' '- -
_'- - ME--N ~-2_ _~ Z i I'_~l.,,, ! _'-~ dii.I _T DE.7_~_-'.._' .' .P____-M_l5. _._ --- - __
.M W__ -- ;
.. -._ = - .. _ - - . -- - - - - - -
g i 0b . LV i i -) 4
- 4 s e r as -
3 n z s . ssves s s . s a r en . 302 13 *, 103 i
! Recem Oism e.14 -
i }
~ __ . , _ . _ _ _ _ _ - . . _ _ _ . , ,_ . _ , _ . _ . _ . _ . _ , _ . , ._ _, _ . . _ _ _ _ _ . _ _ _ , _ _ _ _ , , _ , _ _ _ _ , _ _ , _ , _ ~
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPZP 3.3b ,, , Pace 76 of 94
- FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 FISURE 8 Time Correction Factor - Noble Gas a.
8
-- -=
i __
=
1.0
'.' N
.-g e
= '
i b
~
=
X-
-- - _m...___
--.=__
t - m 1 x . x . N. "O.1 l t
'. . I,
. _ _ _ _ ._ _w _ - - - _ _
i i _ i i _ l _ I - i I
- n. . n ,t
. : . ..-..a 2 . ..-..a . .....a :
1.0 10 102 103 ; i Time, nr. 1
I . EMERGENCY PLAN IMPLEMENTING PROCEDURE EPZP 3.3b
' '
- Pace 77 of 94
. FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 FIGURE 9 Time Correction Factor for Thyroid Dose - Iodine
;J
~_
3-10.0 a. 5 s i 6 _ i e --- - 1 4 1.0 B 4 i _ _ _ . . . _ 3 ~ 2 . i **'t=
, , ,..,,a , , . . . . . . ..
102 103 1.0 10 i Time, hr. 1 1 4 I
- _ _ - - .m.
, . - - . . .- .. = _ . . .. . . . -.
EMERGENCY PLAN IMPLB4ENTING PROCEDURE EPIP 3.3b Page 78 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 - FIGURE 10 Plume Width - Class AB i i
~
- 10:
+ 7 - __ 5 1 :
/. : 10' i
i
=
I i 9 e '
;~ s t =
s ! y s i
=-
10". i
- i S
{ ? .. s
-- c s _ _ . t I
10'
, , ,,..., , , . . . . . . 2 c- :0-ict w-t l
P.e:e:00r Di st2F02. - l
- - - - _ . . - - , _ . - , . . . _ , _ . _ . _ _ . _ _ _ _ . _ _ . . . . - . _ . _ . _ . . . . . _ _ , _ . . _ _ _ _ . , ~ - - _
EMERGENCY PLAN 1MPLEMENT!NG PROCEDURE EPIP 3.3b i . .-i Page 79 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 r 4 FIGURE 11 ' Xu for Ground Level Release - Class C r-2 gd l , . ~ . -:act.t:-~~ r._rs - _ ._ we-#_ - . a
. - .- g , _ _ ,__ ---=<-----s---*.-.-- m,,,_
r"--5E- at_a h_d- fe enersP'. rr- .areMzj y ks ".- _ m e ssf _1
" 4 d - a L-M rM _98 ve M -m 192 F-i .-AMV-ir g
_. ^ Ir.-Ws-_ ___--J'- ,- .;
' " - __ : : E.=-a_=_lt = ""- E_ _ _."-.
._ gg - - _
5
,__m_.._ - _ _ .
~ -
a
. r _ _
mu.ar _ __ _7'sT- C. r -r -~e = ^w- Mm_-a-r - m -i. :'aw_6m= --nw c c ; r1 2=---=- n:
-m=- .c- - _ . <
t w e __ . _ ::m.s=_m m:r- - . +. _w
- = .r- - -
-: a _. __
t 9' 2 i.. 7
._c. . % --ms._- . . . . . -
,10-3
.u g
,.. ---r_. y_-_ e-,..ea.w..--
. , . - - .me.,.-,n.m_.-_._.w.,__-...- ,,
--e"-a r
- r_' : ard'e=unPares * %r# m_P imL_J_- u . C . . _
WM-' W ? a_Y fJtts'- e__L i.- - _s
&-:qF,ggeh.i - - - ' 5q -@;a'M $
- - =.s_%EM.s.z- M.g_,,M -
'l , _.._-=r-f
--'-- - - mm.-s ---- - .Q. - ; a . mEE g d_iT_@ [ _ _ _ _ _ _ ._
=_ _2 _ _
a R c _--_ s r,- - .._ m-_ = . - .
- -_- cw. - - _ _e-- s.r
_-m e-m .,- .
" g
_-- . - _ ' " _*O_"_--.Z a m i..- 7 ' -=_'""_ EsEOf __ - _ ="---EdF_'""_-"=="5'G _' _ _ _'.r_P_ . ,__
-___. -a.-_.rr m. -
1
~
l J. O
.au.,e.,._---- - . . .
,..... _._%, .w - 4 -a g
--x_
v.,,-r_- *m, ,u - ,. w . , n v . s _ t .-
-vne.,,.,. - - . -- ,m-E s---- -% _ _,. -ws.s.o rl-es -
_ ~. ~_ _- ._k_-'a-Ins;--__ i C u-- ,- 6 _ __ ____ ins.d =_-.f.* *Ws'_p_" - .-- u v4mme-
- m. &_ __ ._
_ __m~"__&__
-_ _= E r =f. -
--- -- 3 s ,
'-M* -'. * *# T*O a -
.- - a%
74FFa--MT
-*"I '" S PM* ? E =";"i_ y#g g L_ :W T 4 4P.YTF-t^ 2 O"""--O
. ; h- 3 I _1 "'" 2;"$44g_",g -
. -._ A_._JYi . &_=-PiM=1=PT fD-s-- _ 4~ 'f_ .E__Y~ nT_-_
1 M3 C* e i __ _m._.._.,.,. ._, -w_., .. . ..-...m
-----.-==,,---m-we -
. - _ , t _n,, -- . 5 g
-w % - -
j =---ws--- .%-.__
- = ' - - Drin-Van +--a - rS__h _ .Bap. .--'pmer.s .,- .ar_ t e-*-.di y j
- __ nas-r. #A
_- - c _L- __=__. -.__ umyaMrX N e _-. -- -, - 'T -.' --- im-;Is:
~
. =- 5 C
_ _ . . ~
~ ,
{ 3 _. _ ___ ._m__ _
- .w
.a.r. ur- _-..__
- mm .~_ _
I l _ i
..-n.
8.*O
.- .w.. . _ . ,
c..
.-r. --
es r- _ & ~ ..
,.. n. . . , -
, ~ .- . ~-.e.- . , _ -
c=z-ti.ah A_-JaL-h.
- . . . , .g
- est -__-_3. w_%a -e _ Thema._- =#-i_-w._.,g^'
w - _ _ =- % =.r,=.m--- -
.-- -g
~ yny - -
.-~
, ^
^
A
~-
- - - - [- - r_[-_._^l1-
= = - .}
_=, { =: I
._. .m -n oga_w.,.- x.+. -- --sw s w=.= ze .m
-n
[ '- g
'. '.- M%:E-T 'W ' '^-~- M =^W- _^*-T^~~_
'^
_ ~. " _ f_ ' i: b- _ I I . _-:.:= = _ _ . , e i I V.
- t k 3 3 a 5 4709 2 3 a 9 4789 8
5- 8 8 ' ' 102 1a3s ic- ' ' ' "10 : -
-R*.,_...
. . . . . ~ ~ -
EMERGENCY PLAN TMPLEMENTlNG PROCEDURE EPTP 3.3b Page 80 of 94 FOLLOB-UP DOSE PROJECTIONS Revision 2 1 Date 4/11/83 i
)
FIGURE 12 Xu for Elevated Release - Class C ___.,...w _.___ jW y- _ . _ _ _, r .- - -%-~,,.. r r,-_-e=- -.. .. g
==-@=-r-=====*-+f==4.=-"M2'=*M ,
W t_m_ ==_->s-- '. -37. ' + = = Y=- --- --r _p- '
? _,;__jf.- _A:.'W.W~!_~"* 5 '-'~~~===5 g
^
D.'.____.__~8_.2._-'=---'*__$'.5.__-_Y#^"'-__
. . _ _ _ ==$W5_~ . .
g _ _ _ ' . _ _ . _ ~-.__J __ - g E - M.1"N SE _~~~2iB "hI= ; f- M N.EE_' N-3-E f~ _ '. - .h.-
^ '-
*7 3=5E: rE : = *d 9
- =.: .._=_== _ __ g_i g :p_____==.-_-_-._.:_gg,,g_'_-8-._-~
i/*'_'_2__- ig- __-- n_'..:.=.._.;;=.:;_.;_.--32=-=v'.'.".=
;g. _ ..
3 _ _-_-. -- ._ _ - . _ = ..__
- __._..- =_ . _._
_-e' _. w p
.-_4-..-_--__-_M
*^ "'. M MJ e _ . _,
M WJ F- vg _. e f g _ _ w _,3 ...- --, -- w
..,a_--u__
g
- _. m w .m ,w_
g_g_", y 'T, *y --m y "I D"r "* NN -Hp-a_-w @ ,7 E u,.[Q. _T._ @ __ . , 7hyti% t .1 __ - _
'_5_'$ 5 E b'- '--~~N _M T b M.-' [-_1 ~N~ N b M 9 .5_:1-N -
- E - - -d._ ~ .- M =E g
-= - . = =
- _ . _ ___=.
_ . __.w .=__=_...__=__=________.._______--_
=:
3 ___ g R"E_3
#E!= E..~ ~_ -** j=-= *=-h "*N W3 * ~-:-O---~' U- i- -I-!c5
,_5 -i' = ' A F.M_ -- -.__2_=_:.:-_- - . . =-= = - ,
.._e. _ . _ _ _ ^EfM
_ _ _ _ "'. _ _" == ._ ..__ _ . _ _ __ . _ . _ .__ . _ . _ ._
-~ _ _ 3
-~~~-
Z~~--'~~'.__----'"_^-_'-----C.^_______.-._.I~~----
- "'~5 g
m_. _ _ , ' . _ _ _ _ -_, - ._____~._.,_,. _ _-~ _ , _ . w N_-s,.: ._ . mu L% ,._ - .% . h- . .w .__. __a__-_ ag.=_,% _, , _,, _ ,=gg _,,__, ;____,. ,,,,,,,_g ,= 7 y
,j_ _ _ ' E-=-sm.a=sa .-r ~p _s-i 1 ,.bf .
J! ga M _
^^=_4___..,-_.-_==:.,,,__r.-___--.g=.=-_:-__= - = _ ._._.-.--p~=..,=._.h.6 g 3 _
._ - =__=__...__Q..__.-_
_ _ . _ _ . = . = _ _ - _ - .-_=_- - _ _-_._. _ _ _ 3 g e ~2.T' . ~as- l
..".-_"__'"sE_"bc'--=.C.&^--Y"_^'._.___*'.. <
^ -_
-'F '.~.=-
L' L i-
.==.=_.W
^
~* +'
X-
'=-
' ' ' ^ ^_ _ _ ' ~ ' -~ ' ' ~ ~ ; _ ~ _ _ . ' ' .'^~.'.^~~:_--~~ ^ . ' _ _ ' ' _ ~ ' . - ~ - ~ - -
2 +, M
- 3
_ m __ - . .. - _ _ _ . _ ___ _. _ _ _ _ -- - = =
,m; .
A=--s--,---_A _ , - - - - - - ,._=4_ __m-a_-- 8
$ Y?~- ._ ' ~ 2l_=_
^
_ . - ~ . ?'^2.' _ YD ? _ _ - - = =.=. __ .Y Y.S : . ''^_^_ _~$_ j~j ~Y - _A:
.-_- _. . __ _a- .__.
=____ _ __
__._._.___.. _=.._-- _. _ . = _ ____.----_ag.--
~~ -._ g 1
_E. ,' __ _ _ __. ;
-2 EE^*h_i~7_. . _. 3d=O_
_ ._ _, f= i$ f. _ :_4-s':-E l_ -l '-- E W EU_-"_'.__y'-^ _ _.'_@ E -- l- .-__-.___f__-*N_^-..*_'_~.~'_-~~-^.
=m 3
. _ _ _.- . - . _ _ _ - _ -- _ ~ _ _ _ _ _ _ . _ _ - - . - ___ - .-_.-__
ege.mm
..=0
-a m- _m - _ - . - - " - :-- - * ' ' -
- M ' W--- ~ - * ' - " -
g--u e- u.s. . r g - < _- r W6-wr*'~ '~ W r, mm _ - - - - mm =ur .- _ - - - a.==_.*m- #a - ^ - g= A--_ -- _m__. - a
;-2_-
- w. :_ __ .: w ~. __'_.'*--
T-__-_'^..:.._,^'-_ .
. 2 . --= = - _ ' ' ' ' _ _ . .
f~-__-=- _ -_ ' '.=:---- _----.--.=---.._--7__-:=f___,=-'--P=a-='_k,'.-%=_:--=?_. __',,__=L=--
---7----. .- ;_ ,-
-_-* .:---.-- ,_=:,_. -S
______u_____ - -- - _= s e- g 9-*- E#= E ---- [_. 1'--b- __.------ . - ~ _ _ - = = -* ^ :-.a _M_
^
__~-_a:-.. - =
- _,:_=_-- - r =_ -^ ~-
'-~'-~_j-_--~-~--=-,-:-=~.-IT:
L~^._- --..-_.-____1_,-
~ ~ ~ - ~ ^ -~
^^
'.--'~_~.~~_.&-T.--.--._^--'-_~----'___ -
_ =
,,, _g
~~ . _ _ . - .
, e.'
. w -
k 3 3 e 5 6 789 1 2 3 4 $ 4 ?St-
.n
. 4 8 * *84 w- 103 .
g . 4 Re:e:::- Distan:3. -
- EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b
. s Pace c1 of 94
~
FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 FIGURE 13 Du for Iodine - Class C T < e 109 3. 3
~
_- 10 - o a 4
!v ' _
u** 1 % s -- 1 !I Q 4
! Eg a E'
, . olu u- . i EF 1.0 l $> :. - 9 i a-t
- i 10-1
....w : i . . . r . . a.
10: 103 10 102 Recept:r Distar.ce l i e- -_ r,..mr...--,m,4 _.._,-,_m.r_-_.~.-.,,,,,-...~,_. . ~ . , . . . ~ , . - - . . ..m,~.~r_... .. . .- - -
EMERGENCY PLAN IMPLEMENTlNG PROCEDURE EP!P 3.3b i. , Page 82 of 94
- FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83
\
FIGURE 14 Du for Noble Gas - Class C II-1 102 I ? i i _ t 10 s v . ___ ul vi , N . U E 3>
=li:
P a_. r-I0 5lc i . i _ _ _ _ . . _ __ _ e __ I
- ess l
t
. ..-.: IC
. . . . .....a . . . .....: 1 2 .
102 103 icd 105 2 Recec:Or Cistance, - 4 1
. . , . - - -. . - . . . . . . , - . . - . - - - . - - - . - - - - - - - . . ~ . - - - , - . - , . - - - . , - - - . - . - , . - - - . - . - - , . - . . . - .
. __ ._ =. _. _ _ . - _ . _ .
' ' 5 EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b
- Page 83 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 4
FIGURE 15 Plume Width - Class C
! i 105 8
l n
; 10' s -
z
-- 8
- i
! _z I =
- i. - 103 F
~
3 ' l _ i . s- - - - _ _ - 3 M 102
- , , . . . , . .w . . . ..... > > . .....a r 102 103 lo 105 Receptor Distance, m
- , - , - - - , - - - - - - -,-~..,-,~,.-----<--..-~--c---.-,,-,_.---.,---,c,., - - - - - - - , - - --,r.---,,--wenn,--,
EMERGENCY PLAN ' IMPLEMENTING PROCEDURE EPIP 3.3b , j Page 84 of 94 FOLLO'J-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 4
\
I i 4 4 FIGURE 16 Xu fcr Ground Level Release - Class DE
.T . _ .__
10-2 _ , _ _ _ _ _ _ _ _ . . _ _ . _ _ _ _ . _ _ ___...,uma... -- g. 7 - ~m% .m . mma-1. m- -. - .. ,- - 6g ~n f m rc% . ; AW__m_- .ww urn ==- 5 ,_. __- a _ - _w- --vue == i-w-- -t __a g E ",i_ . Mids ]:-. _T.' = 'i.. , 2i:KYi 6 '5
- _,,' 2_ 3 -t. .~~M_ .-
Z E_y ~~-...,====s U L wm E;fM&_ 2 f-d" " .~ -'"-- -_
- 3. _
__._ . _2__-- g ____ - a
~ "
" - - - ~'T_ : - -- ' l ?-' r J 9 4 '-2 -
! MJ mqedrC#_ 7 _ __ -*- ~? -
- 8eE M T -. f '.--i . ' i P 5
- r r " " H '-=6 F 3
. - __ "__ : _' E:sv : f J " ' " . - _w.'
"l S'N _-=i"-#_S
- - = :
---5_2- . _
. . .... _i__
, ?_. -
~- --' .
F. = ~-~~a._ . ,--a
~-
-~ _ , _ .
2 i 4
,1 0-3
,m .3- , .- . um
~
- . or -, . g
, . _ _ . . - _._. .--=m._-or e - - - - . _ .._u.
=='-=-_2r_*' c----+'--N-.*r_.- m --
1-=. ;
"_-4-u--._ _
- w *_ - i ~_r3 --* M_-- -a ._-*-?=r'-- .-="
M' a. ,R . g "M N .bk_s :E ~~"*M' N3~~ IL* 2-M=N D. -'" . . F6. = _V ._ _
" _ l$ -C.'~sY
-._ -' " " " .. " " -_,,,, ". ' "_ " _" "_' " . _ - " " " 'J 4 ' ' ' ' ' ' ;,. ,
5 I,,N _u ,,== r_.-. O_-_ "'""-'
""'""*~ -
__. - . - - ~ _ g
-~ ~ 1. - 2T"*- -3 '
-2 TAT.-6 EL- al' 51aE* I"8E. ' _~__ - f**~8'L**
'"* +N rY I!"d ': EC-4 -- t
- 2_M .~
- _ ' I 1
_ .-~-- f
=- -- _ .__ . _ _
4
.1 e
.V l'M 4 _ .-__ . _ _ _ __-- g
_.,,_-r g r
- y ya -m yn A - - a ....,ss._.-. __1 At .
_ -. m , w ===.% _ _ r e.-~
. . -w _ - -._-..w-%+
._ #w - '
F'ie=E f w a s t EN" ' " _ [ -[F _
"'J N ^
h E -- y _1 ("--
-fj
-t-- ~ - - '-~ ..= _ - _g T 2 T ^. '" I 1 ' ' '
M~_.',# 80I"'TN --D----
' 3--==8 NI5'~- - _ _
8" -- - _ _- _ . _ _ _ _ _ ___ s
.m__-_.__.
.__==_-=_
in ._ ._. _ _= . . -. _ e . __ _- uma_- .g Um Pc-G m__%~2_ t ~~- n_JW a '%-u.2 & ^-- Wew-M M2 E4 l ,
. _ _ - 3 j - - -
_.N. _ -_
==
3 h_ M__f_ ._-_. 2 7_"'~'.'*..Z~
= _-
6 a _._. + Aoea f 1 4h _.g s , -W I =-.s-.. - - * - m-- -v aA A _.
.4 .g 6_--_s
._a_-w_-a,_
J._
.__s___,-
.e
_g g 0 r- -__mw-,..~-
- E &_-=_v=.m=.=_.+-'==
_"-==*-N=r'-- _--.2_--r- - FE' . = ,-; _'E 4_7
- z. _a -y=
__..;,-LPN- _ _; w==_=
- . s : .-= w_
L_ _. _ .- _- _-_= ,- _ - - _ _ - - . _ . - _ _ _ . _ -- - . 6 ny , .
- - .a-.-. .
9 i , _f'_. _ ____ . _4.
=* _8
.-~' :Mr _.-~ _' U~u'i,
~
Q puE.. "F'E w-{'- C _ s AMI.- _-~
" -'-..'_-_~~2m.'--?.;C,,,i-_._-d 27s' '7 L 3p r_s $- 3 Z "#7 Y _ _ _ _ " _ . ..__'S' .- ~_2[s'i .- 2
_ ' _ - - -- 7Nf:- t ' m.A*
; 'w m- _,
.-%-_-xv
- ..m-_. , -2
__m _.._g __-----e.ar==r=____-e .-.+,-.-se.-- t_, . -c - mm _- % . D _ 'i- _H y m-w= ur_ - .-_3-._w=r= mErM_h -M E@ _mE f 5E-@i" = _--M-=g"* M w _- s--%-a-1 i i.-_ e s ' r 9 F4 N -'+-P ; . _=.__u_.._ .=_2 . __=. r , u ,_ ; 6 p- .%.__._g. - . _ _ e _. ;..'_,_g_w.=_.__-==_- _ _____.2.=. - . - ._ - __ _ -- ______----5 1 M K
- ,** [ _. -- -_y_--- - - .,,.:..=-- : = r .= :- - _ _ __y ; ;-~--' % ,,, ,.-L- . ' ^ _
_3 w-_'T.~_~"g
---m.
.'T -- _ _ ' _ ' ' ' ' . _ _ . - - - - -
2_
]{~ .- __ _
m _ _ _ . _ . . p==_ e e
, e--M l
a.., , S to 1 3 3 3 a S 4789' - 1 . t #
- e*
I 3 1 5 e $ 4 7891,
.1 j ,a
, ,t M,- 2'.<* - 4 8 e....... -< ...-, . i
-- ., _ . _ , - - mm, ,- , _ _ . . . - . . - _ . . . - _ . . . , . , , . _ , , _ _ , . , . . _ , - _ _ _ , i-,--._,_m.,,.,, m., , _ . - . - _ , . - .,.-.--y,. ,, , , . , , , . _ , , . , . - _ , _ _ _ _ ,-
I I EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b 85 of 94 Pace FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 FIGURE 17 Xu for Elevated Release - Class DE IT t, 0-4
- . , - _ _ _ . . , _ _-w,
-..= - - - w- -
-._.._.mm.___._-_
~
m_
. ~ .
,-= ~
m.w e w s.w am_v,
= -- _ w_w.m
_,nmm :_w.p-wm, .- _ =m_&. . __ __ _ _ _=. =_ .
. .w_ w.
_ , ---nc _- u_ c, .=. wu a we.-u.m ,e_ :e em- ,s;m. , =---m-3
- m. _w * . . -
,-;z -
..._- m_ -c r r -- _ .
- = a_- e._ _
5
, z 0-
_ = . _ . _. _ _. . _ . _- .__,. . ~_ m m___.- % .a. .. ,
._.._.___....e____._.=_.-_-_e
- - ~ . .-m.._
= _ , , ,
-c ,w-zw L_ +
m = _ o ,~ _ s_..#.: __._ -=__e.,s .-m
. - - _n w n m._ 7..___ ,._
__ _. =_ _-A_ .._ ___.___ w_ _ _ _ a, n_ . x_ m__ . _ . _ma. _ _ _ . -- _ _ _ = __ _ _ _ __ . _ _ _ . . _ _ _ 4 m n.v-- - - . mm n--e
- m. _ -m.-
- =__ - - - - ,a
.=r= -:
.--- m -.
== - wmmnt -
= -
_s
=_ +=n - =
7.-.- _ , , g _,1C-5 Y
.. _ . . _ _m .
. ,_ . . ._r _,
.. _ _ _ _ . . ,_ s
__.._.~_.-_..-.-w-,,nA--
- w -i;_-o
# . -- 7 t-----m--,u.
_+=_zw._-,_= 1 s w .__w ,e __m--= -
-_ 1.-- w :- : n_a_mc-~s -t:_-r_.
w r_ -_ w a _ _ _i _- m__w_m_r e____-
;--a
_ . _ _ _ - - _ - -__ 8 y _ _ _ - _ ' - - - ;- _.- _-- g _. - _ _ _ _. , , = -- - ,-_ ;_n . x)
.s c
s _. _g w- w r j .s s._..~- ,-
- ,,, = .;-_ . - s_ _ _ _ _
~ - - -
--- w '* 5
--ee,ss 4- __ y m = ---------a.rme-_.4m.m-a.J..-a _ -C '= v.# ~_m
- re-= .-- sf4 - -m-r W 1m a --u--a m.an . s .
~-N- ^_ _ ' . . r3%.q ,
_~-
"_* ._ "- _ s._- -;_ M ,a % m _ -- __
_ i= - __ e-..'- __ -r ---____--m
-a _.
a s-- 1m -w a
-_ -- y_m. _ _s--# - - -me
-anc:= r -=v
.- :: = = '_ 2-- w >
_.= - - _ _ _ - r_ rcr - ._ _-_-- -
= -- _-
2
= -
---,.C-3 .
._.____.._._-- == === w _ g
_ _ ___,,,m._, _ _ _ , .a _. s - _-, -1.. , . .,==-e_---._=-=u=.=-.A_--- P--s - %~ ' ? W=="- r-~ -= P t " * ;E-*-" e =-@PM yj
-W- _
WE e
-w_ 9L_qm z . ;3=3 =- May mi= ig _
_w = q-..__
.;;_--==
-m- -_ . =L' . _ -s- _= _ -_ =K_
_._ M _3 4
- ~ -
^ -' I Y
~-~Y m!-- d-O::=_ =w-- +n- - -- ~ m ,
~
stE'.Z-.
.36 L-fz GidM
_ :-- g - I ' m~ - NS-5 3;g 4. ,_ ,; -- h
=.:n -- _- - --
;=_-A-
=. - _ - - - - .--
~=~- .~ _ ._._.
--=. - - - -
w_. . - _. - = . -
-. - _- s
~-
l _ 2 C-9 r s : . . 7s9: 2 3 a ae789- 3 4 5 67891 3 1 2 10} 105 102 -4.,..,.,. 1.4 3,.,.,... ...- . . . . . -
EMERGEUCY PLAN IMPLEMENTf NG PROCEDURE EPlP 3.3b - Page 86 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83
\
FIGURE 18 ' Du for Iodine - Class DE
'Q-
=. 102 i
I . T -- 1 10 8 U
-lo am , _ _ _ _ . .
s . _ _ u , a eo 1- 8 1 = 5 % 3 , h 5l C
- = i.v 8-
\ l l l t i 10-1
, , . . . ,..t. , , . . . , . . .. . > > . . . . . . :.
103 104 105 102 . , Receptor Distance, = i i 1 b
,w - -. - , - . - - -
s EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 87 of 94 FOLLOW-UP DOSE PROJECTIONS Revision 2 Date 4/11/83 FIGURE 19
~ Du for Noble Gas - Class DE U~
1 1. e ___ g__.. -- _ _ _ = _ _ _ s o. _i 0 x P 3-_ _ _ -- --- q UlU8 ___ s 0 - - - Elg 8 hh ,- _
'l . 0
= F ;.
l . . _=
-= _ _ _ _ . _ _ ___ - _.____ _ . _ _ _ _
S 10-1
. . . . > > . . r . . :: -
% . ....t. , . . . ..
10# 10" 10-102 , Recepter Distance, m
.~_ . .- _
b' - EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pace 88 of 94 - FOLLOW-UP DOSE PROJECTIONS Re0ision 2 Date 4/11/83
-)
FIGURE 20 Dlume Width - Class DE 104 e. 7
*=-- -
_x-- _- __.- _2- ; .- -- -= S I _. 104
- n. -
4 _-_ _ _ _r_
=. -
s _ _ _ -
= , _ __
8 4 - 104 a. t 9
.__. _ _ _ _ _ _ _ _ . _ _ ; -- _ _ . __g_ _ _ _ _
~ ~ ? _ . ~ : _]
_3__ 2- -__ __
- 101
..,.,a : > . ..*ia t, , , . . ,,..a , .
104 105 102 103 i Receptcr Distance, m j
1 EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pace no of 94 FOLLOW-UP 00SE PROJECTIONS Revision '2 Date 4/11/83 FIGURE 21 Xu for Ground Level Release - Class FG V . . ..- --_.- - -
,i c-1
~_m.- - _ - -m g
~
mm~r m.._-.c._._.a _ . _.._-,.w--,. _-a_. _g_.a : a e i:zeht '%z J'_ 3 a. # 4. _ .-_.w _. y--=W gs2 WhV @
- t 3_.~#--* ' < r~-l *" A 'm' M
,,,j.
7 g at n s h--' _ hf M-'-fg -
.@. ;,_-,-2~=-= _
-E- ,i-
- - -_ . i.ai-r'tt - -r - @@i.-a.-v.' 3 [ _!! 3, ,,je- .: - .
- - - --- - 2
.. _ _ .M*'
- *"N
.. T- g
. _ . . ~..
W 4 m . e m.
* * -. M _ ' - -.m y
'-{-.-
3 2:ss'Aizr.jif .s aa _Jrf@ p--
- 3- -rG d (- -3Q- --j- __r'-,, ,pfg,FQs.d_-S.m.;. _;_- ,i ~ -
E ____n_".13- _h_f .a__5 __ ,_ ym __ _ _ - . . _ f, _"*. * -
- - g
- - .N ,
6
*6-W ==. _
.- 0-2
. " . .- .s. * . I g ,
_..a- .% . .e. - .
- e-wmar. *-5 %W u f" =*""4FJ" g s-M,d 4 - -w. -.
..m*b-f. .r . Me d - m mm -V_ e wa- , wr-==. 'ja ' s gE le_, ... r__. : r _-7Js E s . .W'M & M - . 7
- r-== a ---
Me *-e oh- me'S & 5.'P-M2 - - - r-%_M"-r e"m - _2. , s _ -Mi ^- -p _ Iis -".~~D."-Y .~2N _g 9CC"2 M _i. .' 8 T""E" N1 -"u"i_~N h_W ~'-UJ -N*_-~_',1*.-~ - , . .-
. .
- _ .= . = -==:=r.
"'_ ,,3
-m --eme L,. == .m
- .= -
, mmm - - . - . .:z=..--
.mmm.-- wm
'I-m--
-.mmmm
- _-_ :=:;
4
. M
. em e,w& "
X . - - 5
$';~'- -- - I
-M ,,d'.'~~"*'#_,. M_ i ~jT Ni-1_'-:: !'._b .b3
_w . '
'~'
__. ;.'.'~.':-'l
~..-- -,
#~='-'Q G 3 .
L~ ~ :._ _ :r - _ _' -~,.".5T=E . t __ ,,_ ,_- _:: ==_
. . _. ... . . _ .__ _ .__._ __ . _.,. s _ .. _
-w- +m._..- mer. g
.~--3
. _ _ - _e s r- - e.,,e,s,.-
-% ~ 7 e
_-W_ ,- , _ , _,._ . , . +auw-ww. .,ar _p -p=w, --* =-#r5 E=-= m -e e. .-_ . , _
" - - - - L-r_3 es _,,, , - i.,_M_---==&_" *~ g is=iT Q -Fx 2.wsM " --"-5--'3- EQ. ~
M .'y-'._T,yMat ~ ' ' ~_ 3 P = . . _
^
--. = ,m wy
, ~. . - -"" ~.:
n _. w . - - -
-. . ~ . _ ,,
_- -m
-f~ . ' '_
~'
-h- _~--
~ I
=:: -
M
, C" -
-- 3 h
-,2 0~
.g
>__- xm_s
' ma-- u umm -- - -
..,-o----,a,- =b':* - 4 7
- - - . - mm .c , .-.
? 's-h- < =s- . .%-:- - _M ~ ~ ~ - - - - v =
h.m- mdrw .c= . _- ==--r,=- .t-,.- _ _ - - ^ ~ I N! ( __E _ - - -- I M -- ME~-' ' ps. - R."- O_C E mi:dI5s_ 2-'7.1_ ._ 2:: ._
-= .
___ --. -==-
- -==- -'- l
_ . __ _w 0
._ eh . -
-- 4--" -L-5.-.5'~- l " ~ = A M n-p_l 4 1a a,s M .ea' - . _ ' ~ -~ ~ ^ - ^2."-^2_
---~r f [I_.S.,@EE^
_' Ih_- _::: _J bh:- - --_
-- _. ==
__ -- --=___ m.-_-- 3 a- ,m W-M -e 1w .*
~ ~=
,,n- ...:,~,,,,,,,_,, .c -, , - , . - - - . - . . - -
- - - _ w _ .r- - - ~ ' ~ - - ---w.%r==ss---_-
. _-'s~*.._hg
- gg, ._q.
d' =~'==I -E="T.~~ =S1- - r.
~MI~ r '" ' -I" ~ I -E
-4.': '- *E :
g =m ir= w - udR ;--- '*s . -_ - s T_ ;_ _= Y-6
~
.r-Y " -~ ,~ ^ ^ $_ E - 5.$N Y ~ ~ 13 N -;- Y-~'- L-
_--' ?
-MSE._A
- - _ _ -- - - ~ -=- _-- --_ - - -
- --mm _ $ --
p_, _ . _ _ , , , , , , _
, ,, _ -- , - - - g
~2 W- *
- 5-= A : - - - ~~~=-*M k-._'~ ~ : : _--- ~ =-- w,_='~~,
" . . ' ~. ~:. - , -
_-M_M s= ,cis _- n_
~ - -
-P_ , -_.'- -
._.~-~~- 1.-.U---_'..'___~__ _ _] {-~-- - '- - ~ ~
-~-~!~~-
- ==- ---_l-
_- --~- - _.--a
-- . _ _ _ , _ _ _ _ _ _ , _ _ = _ _ . -
_mm. O.____ c-6 i : . . i . - . .
; . . i 7... 3 a i 6 769;
; 2
,d I i. e 91 - ~- ,
..I $3e
.&$$)
s . EMERGENCY PLAN IMPLEMENTING PROCEDURE EPZP 3.3b , , , Pace 90 of od ~ '
. FOLLOW-UP DOSE PROJECTIONS Refision 2 Date 4/11/83
~
A, FIGURE 22 X,g for Elevated Release - Class FG . Q 10-3 _ _ _ _ ._ _ _ _ ~ . - y
-____..__..____-.n. _
.~ w -- c.. w m n _.w-w +-se < -c y r w -- = -, _-= - -__s-s -ear- w. a= _ M . v .. ,-z:-w, ,- & - - _ _
g
==
- R E ."_ - -=J =rS2 =-
smah,-rw wr ' _--f. _r^-w - -- . _J_ra---- eE-- ? :== i
'M'i=^
" ~ = _-: 4 - fl Epr -Ars-s-N4 Es: _-.;4- Z~_ _55 _g
~
b_ - -
=='Y=~~-= - - _ _ .._-
- ~M_T.W_ _ %_ -_ - _
- - .- - ? p -- -N /E
~-
meum: v - --; , . - rw a- - EO 4 u - - - == - -- -ZW - EC =%= -W-- T _. - 3 _ __" ~~~- : sin-x s ~_ ~ '-
. ** = 4J - == T =-r - -- --r._T _ =- _-___;_= --:.-=i q .
=- _ -h. _
;___=._ g- 3 .__._._--_ - _ .
g T. +
. . . _== - - -__
e t ._
,-1O*C m..m__: .,_
g _._a..a_.,.m._a__.:-w- _.o ._ . _wr m -._,.c-.-- . - ~ - a--= .t e -- w-,--a . _ .
.- r-- '=4 mis-en.Ess _' a -= r - r _
r- - in- ;-= =W pi. g
- ~_ =-=g-* e .ME.J3.;g.__-M * . u - c f en-e M'es 5rF;s:- === M ____=s ,[F.es.s A
, . . _,___r__--
[
'F-- _ - -= draw _ _ . _ _ _ _~_--
; _m- - g t
=
__L..-._-_=s.:. _ --.-.m , b
" " c ' r w.v == -*_N= = m _ __ ~ M = 9-r a 4
- W %P" m um. -a rm -+ -; v m-- _n- N'iDM '!iE#9, 3
_'-_d^__--'.~
~ ~ -
=~._-r=Ji .m
-=.
M -- -- M_.F.rK-E55 f_-- ' " __"- ? ~ . :-; _-=-:,,._.___. _v___.-__.
. g
~~, - - .
, S=
- 7
-- - - _ .i-._
. + . < _ u..,- ._. _g '
m.,_. _ _ - _ ,
.-m-c.__.-,e..-ma.-
===" M ==L ---3 u'."_.---==.=r=_-.cr.-_=*--M
. 7
__ . r w-fr_= ~- .; T_ I-' i b g ham.mitr = ma 7 5P M 1 I AN 5.. ._. . . _ -5_.~_
- -. --M_=N
._S.=N,_N_ _._N.=~ N _-_.E ___=_MY y_ _.__- _- _
-=:.= _g y
^ - M - ". -5 1---" _ - - - - ' -
'-J'=
w .#% --t mFM_ r ". 2 _----T-=- 1
' ~--" .c. - _ _ _. -
r _-_ - - - i .C-s_1_ _, n-e
; -- --,-r_.__-
a y _ _ . e __ 0
- ,s
.a -
. . y
., - .- - ~ - 4 _g
~ .
3 w-met ase=n _ w- _.,~++.._..'---=r*-.- .
- e -- = -
= M -m_.w-n _,_ .w ._s _
_g _- --_ ;c.- pa__ -, ->_ p,w.r.e e-,r-- awT.+_r,;~_-_-[- L - - -. f _'==': }:" j
--U- . . wynn W -5/f
-]!!i,- .,#,,{- == r ;I F - l-
--=.-E _s
=E=_.;_ _ _ _=- . _ . _ _ _ _ -
._ _...=:-
--a
_- - r - 75 _.WM. .M a.,r._-- p__..-w .; , M s 2 - % n_---_ 1;_1 .-
=' '~~ ~. -2: _)
i sma 7.-_ 2 N N ~"::'Ni - NN1.~ ,_ Ed[f" l - ~ .- - . i -_ i l a..y 1* s- - m - - - - - -~- a _e
- i. - . . . -
g 7 - . - ~ __ _-#. .
-. - - - --- 3=~.------
- 4 _ , -
r ='.s.d-EE -ee O 7 2- M ' _J' 'e@ -- -d w,.#__._..
; C. '_ _-r-~ ? r - #- -O_ s :==-i ~
"---!'-M-*==s.~._1:.J"^ 6
_ ._ r f -G -G--EWE.Ei: - - -=---~-- .-- 5l-t - --i.--- _. '- ,{
- -' -."_ _ __ Z .-
', .-2_.: -- __
-r_k.ggh_-r _=_=E-4__ Emer 9._ .
____g_
- u _ = _
- 2-
- _ . . ._ .=- _
,, -- _4
__- % r=5h-- D * '==c- = + . - M 2-t:= I e
" r" .-_---h[
s._ %& m _1 - --=-a-; - .- -m w.: e i-- ?.
=- my -- _ . ' ' . ~ - _
p .+ siEE _ 3 _:-_7-____.;:._=_______._.--.-___r____._m_s--==m=__._
-=._;-=_;- _ _ _ ._;____-
4 _.._______,_____ . __ --.__ -g 4 4
.n.ei ?-
T 1 3 4 8 ef89- 4 6 e'89 6 7891 l t 1 1 3 4 : 4 1o2 w-
- 10:
- s. e. e. . e.e. R s 4. *a *.3 *.* a. .
, ,- , - - , , , , , ,. . .,----,,-,.,,,.n, ~ . , - - , ,n ,,,-,,,..-.,,y,, .m..nn ..n -a-~-, ,-,-a.,.--,,-,,,~w-nr-nm, --
1 I
. EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 91 of 94 Revision FOLLOW-UP DOSE PROJECTIONS 2 Date 4/11/83 FIGURE 23 Du for Iodine - Class FG T
.. lv-o 8-t, - -
6 _ _. = = 4 s . _ _ .- t - 10 i.
~
lr __ u >- ,_
- - - = = -
x
~{vi v 7) ,
s U a slo
.m 3 _ _
= __
s% 2u 3 e 5 l = ., . 1.0 l ..
-_n _
==z z =
4
._= ~ -.
Z-~Z
- y --
=---
~~
]Z i
in-1
. .....:. < > . i..a_
, ......a , ,
104 1C: l 102 103 I ) I Receptor Distance, =
4 EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b ' P age 92 of 94 Revision FOLLOW-UP DOSE PROJECTIONS 2 Date 4/11/83 T FIGURE 24 Du for Noble Gas - Class FG Q i
*- =102 t
.: l l
- ~10
=
a-U!N . _-=- - - w - __ s . ~ v x -- e o ut .: . 3 __- - 'l 31 clu u- s sr 5lc , __1.0 F- - - - - -- ' s . _ _ _ . _ _ _ _ _ . _ s -. e _._____._m____ _ I
- --; g- i
..r.a
', , , . ..,... 2 2 . . . , . .. . . .
104 105 102 103 , WW f
r , f , EPIP 3.3b l
. ., EMERGENCY PLAN IMPLEMENTING PROCEDURE Page 93 of 94 l FOLLOW-UP OOSE PROJECTIONS Revision 2 Date 4/11/83 FIGURE 25 Plume Width - Class FG
; __ _ -1c a 4
9. 6'-_._ _-. -_ ---__ __--_.____ 4 _ _- _.____ _ ==-- _ -- _ _ =_- __=-=- _- _ i 3
/ .
--- 104
- a. '
u; ,. _ g__ _ _ _ _ = _ _ _ _ _ . _ _ _ _ _ _ a 3 _ o e 2 : t - I. L _.102 3_ 8 7 _s -~
= - . -
___.=_:= 10'
, , , . . . . ..a , , . .....t., , , .
....a_
102 . 103 10"' 10: Receptor Distance, m r e i - - - . . . . . . . , . . _ . _ . . _ _ _ . . , , . . _ _ _ _ _ , _ _ _ _ , , _ ___.,,___ _
i ,
EMERGENCY plait 1MPLEMENTING PROCEDURE EPIP 3.30- , . l Pace -94 of _94 s ',
FOLLOW UP DOSE PROJECTIONS Revision <2 . Date 4/11/83 f I
,~
' - FIGURE 26 Monitor Response Correction Factor ,
7 %
- r--
.~
8 -
. . 1 i
, i !
.. i T
v , i-4 -;o 1, 2
*w i , ... ... ,.
'n
( i\
\ it --
;\ i ,
- i. l,
. 1 \ _3_ i-
_1 1 , 1 g
--i H, i ;
\ %,
a s
,4
"~~~\ l \-5 .,
i 1, . '
#' \.
h 1 i\
\
. s *
\ L
-m o s
,_ _ ' cc -i ~"
- 9. -h . ,
e
* \_ -
2 e 4 ,. r , G .
% i. - <
\ ._,\
-so m i
o I s.,. ,
\ t- . -
.. 1 1
i .. s < i i _g
- ,x-_)\ -
t __t' a o ;
\--\ -_
_m s ,
- NA O i e
\,
x __ 4 w* _, _.g-.g.. s i
\ \
N o . _ f-- -' '
- h. _\_ .
-- . . . . ~
y: __ m N -. .- - . . . . _ . .
. _ . . . -N . .s =_ . N s -
_ __N ... ._ m._. -. N..-g . _ . N__ \. _-6...,..__.. : _. a _ .. t_.......__. .._..~....
~~
I .. l . , w e e. - , . o o
.C .
o e -
- o. o 'o 1
.. ..'.. o J0;Sej vo!1)oaa:;
N-.- i t _ /
(.
, . s ! 4 '
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 6.4 Page 1 of 11 Revision 3 EMERGENCY PREPAREDNESS COMMUNICATIONS j TESTING Date 3/19/83 1.0 PURPOSE , This procedure defines the requirements for emergency preparedness communications systems checks to be conducted on a periodic basis as defined in 10CFR50 Appendix E. 2.0 APPLICABILITY
' This procedure applies to the emergency communications systems that are installed at both the DAEC and at the IE Tower which are associated with emergency preparedness response efforts.
3.0 RESPONSIBILITIES 3.1 Emeroency Plannino Coordinator l 3.1.1 Ensure communications checks are performed as assigned in Saction 4.0 , 3.1.2 Verify satisfactory completion of the communications checks conducted on a periodic basis, as defined in Attachments 1 through 4. 3.2 STA Coordinator 3.2.1 Verify that emergency preparedness canmunications systems checks are completed as assigned. 3.2.2 Coordinate with the Emergency Planning Coordinator, as reouired, to insure satisfactory completion of the communications systems checks. 3.3 Security Suoervisor 3.3.1 . Verify that emergency preparedness communications systems checks are completed as assigned. 4.0 INSTRUCTIONS 4.1 The following communications systems shall be checked and verified operable at..the specified frequency. 4.1.1 Completion of monthly communications checks shall be documented on Attachments 1 and 2.
/
The1following systems or circuits are included: a) NRC ENS b) NRC HPN e
EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 6.4 Page 2 of 11 EMERGENCY PREPAREDNESS COMMUNICATIONS Revision 3 TESTING Date 3/19/83
. c) PBX and Centrix connections to:
(1) Office of Disaster Services (2) Linn County Sheriff (3) Benton County Sheriff 4.1.2 Completion of the quarterly communications checks shall be documented on Attachment 3, " Quarterly DAEC Emergency Comunications Checks". ( [
- 1 The following systems. or circuits are included:
4.1.2.1 Dedicated telephone circuits between: (a) Control Room and t Technical Support Center
! > . Access Control
~ I Security Control Point i Emergency Operations Facility
- (b) Technical Support Center and Control Room l
' Access Control i Security Control Point
. c Emergency Operations Facility (c) Access Control and Control Room Technical Support Center
' Security Control Point ,
(d) Security Control Point and j Control Room
~
Technical Support Center [_ 1 Access Control
- i. .
4.1.2.2 Operations Radio between: (a Control Room (base station) i (b Technical Support Center (console) (c Access Control (console) t (d) Site Boundary (portable radio) 4.1.2.3 Security / Radiological Survey Radio between: (a Ten (10) mile radius (portable radio) i Technical Support Center (console) Emergency Operation Facility (console) (d) Security Control Point (base station) 4.1.2.4 Check operability 'and inventory the following equipment: 4 (a) Six Button Phones in the Control Room (2) (b) Headset in the Control Roan (1) (c) Twe%/ Button Phones in the TSC (8) I i-
, .s EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 6.4 Page 3 of 11 EMERGENCY PREPAREDNESS COMMUNICATIONS Revision 3 TESTING Date 3/19/83 (d) Headsets in the TSC (5)
(e) Operations Radios in the SCP (4) (f) Security / Radiological Porta-Mobiles in the SCP (2) (g) Magnetic Mount Antennas in the SCP (2) (h) Antenna Adapters in the SCP (2) NOTE The head sets in the TSC are located in the cabinet in the Communications Room. 4.1.3 Completion of the annual communications checks shall be
' documented on Attachment 4, " Annual IE Tower Emergency Communications Checks".
4.1.3.1 Centrix connections to: (a) FEMA (b) DOE (c) Linn County Civil Defense (d) Benton County Civil Defense 4.2 Communications checks should be conducted as follows: 4.2.1 Montnly - first full calendar week 4.2.2 Quarterly - first full calendar week during January, April, July and October 4.2.3 Annual - first full calendar week during October. 4.3 A message similar to that shown on Attachment 5, " Example Communications Check Message Format", should be used when conducting comunications systems checks external to IELP. 4.4 The Emergency Plar.ning Coordinator shall ensure that all of the communications checks are performed. 4.4.1 The comunications checks identified on Attachment 1,
" Monthly DAEC Emergency Communications Checks", should be completed as follows:
a) Items 1 through 3a - STA b) Items 3b through 7 - Security NOTE The IWAS Phone check should be initiated by the Office : of Disaster Services on the first working Monday of i I every month.
/ t EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 6.4 Page 4 of 11 EMERGENCY PREPAREDNESS COMMUNICATIONS Revision 3 TESTING Date 3/19/83 4.4.2 The communications checks identified on Attachments 2
,through 4 shall be comoleted as directed by the Emergency Planning Coordinator.
4.5 The Emergency Planning Coordinator shall review all documentation l associated with the communications checks. 4.6 Acceptance Criteria 4.6.1 All required communications checks shall be made and satisfactorily completed. 4.6.2 In the event that a call cannot be completed
- a. Contact the party by another means and inform them of the problem. Make sure the party understands no .
I problem exists at the DAEC and their response is not required.
- b. Determine the cause of the problem, if possible, and rectify it as soon as possible.
- c. If the problem cannot be readily resolved, attach a note clearly stating which phone was being used, who and what number (if any) was being called, who was
- placing the call and any other pertinent information to the EPIP checklist in use.
4.6.3 After completing the communications checks, forward the checklist and comments to the Emergency Planning Coordinator. 5.0 REFERENCE 5.1 10 CFR 50, Appendix E l 5.2 NUREG 0654, Rev. 1 6.0 ATTACHMENTS 6.1 Monthly DAEC Emergency Communications Checks 6.2 Monthly IE Tower Emergency Communications Checks 6.3 Quarterly DAEC Emergency Communications Checks 6.4 Annual IE Tower Emergency Communications Checks 6.5 Example Communications Check Message Format
r-8
', 4 EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 6.4 Page 5 Of 11 EttERGENCY PREPAREDNESS COMMUNICATIONS Revision 3 TESTING Date 3/19/83 Approved by: Date .3 imergency Planni orcina e '/
i / . Date Approved by: _ 5ecurity Supervisor Approved by: ~ M 7/f,dde Date 5////A3 STA Coordinator
. Reviewed by: /d>
ALARA Coordinator a# O Date 5 /f 3/ ts 3 Reviewed by:
- Date I operatiop Committee Chairman Approved by: Date Plant Sup intend - Nuclear
. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 6.4 Page 6 of 11 EMERGENCY PREPAREDNESS C04MUNICATIONS Revision 3 TESTING Date 3/19/83 ATTACHMENT 1 Monthly DAEC Emergency Communications Checks Communication Initiated By Received By Circuit (Name) (Name) Time Date 1.NRC ENS
. a) Control Room b) Technical Support Center (TSC) 2.NRC HPN a) Access Control Dial 22(Bethesda) b)TSC Dial 22 (Bethesda) c)TSC Dial 23 (Region III-During Regular Business Hours Only) d) Security Control Point Dial 22 (Bethesda)
- 3. COMMERCIAL TELEPHONES l
a)NRC-Betnesca (202)951-0550 or (301)427-4056 or (301)492-7000 b)0f fice of Disaster Services (515)281-3231 or (515)281-3561 c)Linn Co. Sheriff 398-3911 d)Benton Co. Sheriff 1-472-4777 or 1-472-2337
- 4. POINT TO POINT RADIOS a Linn County Sneriff b)jBenton County Sheriff c) Iowa Highway Patrol 5.IWAS PHONE-Initiated by the Office of Disaster Services 6.NWS FIRST ORDER STATION, Ceaar Rapids Flignt Service (During Regular Business Hours only) 364-7127 ~
7.NWS FORECASTING STATION Des Moines (515) 284 4496 l CQiMENTS: REVIEWED BY DATE 5ecurity Supervisor REVIEWED BY DATE STA Coordi nator REVIEWED BY DATE Emergency Planning Cocrainatcr
c~ 1
.< ;s EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 6.4 Page 7 of 11
- OMERGENCY PREPAREDNESS COMMUNICATIONS Revisien 3 TESTING Date 3/19/83 ATTACHMENT 2 Monthly IE TOWER Emeroency Communications Checks Communication Initiated By Received By (initials) (Name) Time Date Circuit Centrex -
NRC Region III (312)932-2500 NRC Bethesda l (202)951 0550 or (301)427-4056 or(301)492-7000 Office of Disaster Services (515)281-3231 -- I or (515)281-3561 Linn County Sheriff 398-3911 iton County Sheriff 1-472-4777 or 1-472-2337 NRC ENS
- Emergency Operations Facility NRC HPN - Bethesda Dial 22 NRC HPN - Ragion III Dial 23 NWS First Order Station Cedar Rapids Flight Service (Durina Regular Business Hours only) 364-7127 i
NWS Forecasting Station (515)284-4496 COMMENTS: CONDUCTED BY DATE REVIEWED BY DATE Emergency Pl anning Coorainator
l s: .. EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 6.4 Page 8 of 11
-EMERGENCY PREPAREDNESS. COMMUNICATIONS Revision 3 TESTING Date 3/19/83 ATTACHMENT 3 Quar'terly DAEC Emergency Communications Checks Communication Initiated By Received By Circuit (initials) (N ame) Time Date Remarks Control Room Dedicated Circuits TSC Access Control Security Control Point EOF Back Panel Circuit to TSC
, Intercom Operability Check and Inventory Headset.
Six Button Phones TSC Dedicated Circuits Control Room Control Room (back panel) Access Control Security Control Pt. - TSC to EOF EOF to TSC - Intercom Operability Check and Inventory (5) Headsets (8) Twenty Button Phones Access Control Dedicated Circuits Control Room TSC Security Control Pt. Intercom
-Security Control Pt. Dedicated Circuits Control Room TSC Access Control Intercom Continued on next page
(~ '
"4 EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 6.A Page 9 of 11 04ERGENCY PREPAREDNESS COMMUNICATIONS Revision 3 TESTING Date 3/19/83 ATTACHMENT 3 (continued)
Quarterly DAEC Emeraency Communications Checks Communication Initiated By Received By Circuit (initials) (Name) Time Date Remarks
, Operations Radio (TSC)
Secondary Alarm Station Security Control Point Site Boundary Operability Check and Inventory (4) Hand Held Radios Security / Health Physics Radio (TSC) EOF Security Control Point 10 mile radius trability Check and Inventory (2) Porta Mobile Radios (2) Magnetic Mount Antennas (2) Antenna Adapters COMMENTS: CONDUCTED BY DATE REVIEWED BY DATE Emergency Planning coordinator
a: ' EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 6.4
.Page 10 of 11
.E4ERGENCY PREPAREDNESS CCNMUNICATIONS Revi sion 3 TESTING Date 3/19/83 ATTACHNENT 4 Annual IE Tower Emergency Communications Checks Communication Initiated By Received By Circuit (initials) (N ame) Time Date
. Centrex I FBiA (816)374-5912 DOE (312)972-4800 or (312)972-5731 Linn County CD 363-2671 Benton County CD 1-472-4519 COMMENTS: 1 CONDUCTED BY DATE REVIEWED BY DATE , Energency Planning Coordi nator
r-e' EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 6.4 Page 11 of 11 EMERGENCY PREPAREDNESS COMMUNICATIONS Revision 3 TESTING Date 3/19/83 ATTACHMENT 5 EXAMPLE COMMUNICATIONS CHECK MESSAGE FORMAT This is , Name Title from DAEC or IELP The purpose of this call is simply to check operability of this communication system. An emergency situation does not - I repeat - does not exist at the DAEC.
- NOTE Advise the individual who answered the call that this check is being done monthly, quarterly, or yearly, at the case may be, to comply with NRC regulations. Obtain his or her name, advise it is simply for documentation purposes, thank him and end the conversation courteously.
e}}