ML20080F889
| ML20080F889 | |
| Person / Time | |
|---|---|
| Site: | Callaway  |
| Issue date: | 02/02/1984 |
| From: | Grundstrom R UNION ELECTRIC CO. |
| To: | |
| Shared Package | |
| ML20080F826 | List: |
| References | |
| EIP-ZZ-01211, EIP-ZZ-1211, NUDOCS 8402130178 | |
| Download: ML20080F889 (20) | |
Text
.
EIP-ZZ-01211 January 27, 1984 Revision 1 CALLAWAY PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE EIP-ZZ-01211 INITIAL AND INTERMEDIATE DOSE ASSESSMENT RESP. DEPT. 6m f/tP6,t ext trAArtdYREPAREDBY k b.O
/
I Vb DATE
/* 3/"
APPROVED BY u
/
DATE ISSUED 2-2-[M This procedure contains.the following:
Pages 1
through' 6
Attachments 1
through 9
l Appendices through Checklist through if4FO h u: ON ONLY JNC0NTROLLED CD '1 I
l l
8402130178 840202 m) h* AU DR 1
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2roced. No. EIP-ZZ-01211 Rrv.
1 Date 01/24/84 DEFICIENCY LIST Section Deficiency Description Constraints,
Recalculate conversion None Containment High factor upon calibration Range Monitors, At'achment 3
. Change flow rates None c
following fan testing Justification for None
' stability class determination using wind deviation not available.
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Procad. No.
EIP-ZZ-01211 Rev.
1
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Table of Contents Section Page Number 11. 0 Purpose and Scope 1
2.0 Responsibilities 1
3.0
-Initiating. conditions 1
4.0
' Procedure 2
4.1 Release Rate Determination 2
4.2 Dose Assessment from Release Rates 3
4.3 Dose Assessment from Known Isotopic Mix 4
4.4 Plume Tracking 4
l 4.5 Status Board Upkeep 5
-5.0 Final Conditions 5-L
)
6.0-C Records 5
l L
7.0 References 6
8.0 Attachments-6 - Control Room Summary
, - Release Rate Determination - Fan Status l Attachment 4 - Dose Assessment from Release Rate - Conversion Factors - Dose Assessment Based on Isotopic Mix - Stability Class Determination - Plume Travel Time
. Protective Action Recommendations and EAL's t.
O
Procad. No.
EIP-ZZ-01211 Rsv.
1 INITIAL AND INTERMEDIATE DOSE ASSESSMENT 1.0
. PURPOSE AND SCOPE This procedure provides the means for project-i ing off-site exposures prior to or during a release of radioactive material.
It is in-tended.as a backup to the Radioactive Release
.Information System.
-2.0 RESPO'NSIBILITIES 2.1 ON-SHIFT HEALTH PHYSICS COORDINATOR (RAD-CHEM FOREMAN) Initiates this prcJedure upon notifi-cation of an emergency which involves or may involve an off-site release of radioactive material.
l 2.2 DOSE ASSESSMENT COORDINATOR (TSC) Assumes responsibility form the Rad-Chem Foreman upon activation of the TSC.
2.3 DOSE ASSESSMENT COORDINATOR (EOF) Assumes O
responsibility from the Dose Assessment Coordi-nator (TSC) upon activation of the EOF.
l 3.0 INITIATING CONDITIONS i
l 3.1 This procedure shall be implemented upon de-l claration of an emergency which involves or may
-involve the release of radioactive material to
'the environment.
i i
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Procad. No.
EIP-ZZ-01211 Rsv.
1 O
l 4.0 PROCEDURE The HP coordinator or Dose Assessment Coordina-4 tor shall-perform the following:
4.1 RELEASE RATE DETERMINATION l
4.1.1-Request the Rad Chem Coordinator to assign a Rad Chem technician to the Control Room to provide readings from the following monitors or indicators, as applicable:
GT-RE-10B Radwaste Vent GT-RE-21B Unit Vent AB-RE-ll Steam Effluent Monitor AB-RE-ll2 Steam Effluent Monitor AB-RE-ll3 Steam Effluent Monitor AB-RE-ll4 Steam Effluent Monitor FC-RE-385. Aux. Feedwater Turbine Discharge Monitor GT-RE-59 Containment High Range Monitor GT-RE-60 Containment'High Range Monitor Vent Fan Status
(/
l 4.1.2 Request, the technician to provide additional data from the BOP computer room as follows:
Wind Speed Wind Direction Delta T 4.1.3 Ensure the technician provides updates when conditions change or every 15 minutes, l 4.1.4 Enter monitor data on' Attachment 1, Control Room Summary.
4.1.5 Place an X in the "ON" column of Attachment 1, Fan Status for each fan presently operating, NOTE If fan status is unknown, use normal flow from Attachment 3.
l 4.1.6 Record met data on Attachment 1.
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Proc 2d. N3.
EIP-ZZ-01211
- 4 R;v.
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l 4.1.7 Deterraine Stability Class ' from Delta T by cir-cling the column with the given Delta T and Stability Class letter designator.
l NOTE If Delta T is unavailable, Sta -
Fility class may be determined from the secondary met tower using wind deviation (sigma theta) per Attachment 7, Sta-bility Class Determination.
l l 4.1.8 Transfer appropriate data from Attachment 1 to, Release Rate Determination.
l NOTE applies to all ac-cident types except an unmoni-tored Main Steam Line Break which requires the use of At-i-
tachment 6, Dose Assessment _
from Known Isotopic Mix (Section 4.3.).
l 4.1.9 If required, determine flow rate from Attach-ment 3, Fan Status, or obtain flow rates from
()
Technical Assessment Coordinator.
l 4.1.10 Complete calculations on Attachment 2 to obtain Release Rate in Curies per second.
4.2 DOSE ASSESSMENT FROM RELEASE RATE l 4.2.1 Enter release rate (Ci/s) from Attachment 2 on, Dose Assessment from Release Rate Worksheet.
4.2.2 Circle the entire column below Stability Class.
4.2.3 Enter windspeed in meters per second from At-tachment 1.
NOTE m/s = km/hr X 0.28 m/s = mph X 0.44 l 4.2.4 Obtain whole body and thyroid dose conversion L
factors from Attachment 5, Conversion Factors.
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'Proccd, No.
EIP-22-01211
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4.2.5 Obtain an approximate release duration from the Technical Assessment Coordinator.
4.2.6 Perform the calculations required for EAB only.
4.2.7 Compare dose rates or projected dose to Attach-ment 9, Protective Action Recommendations and EAL's.
l 4.2.8 Inform the HP Coordinator of any changes in EAL's or PAR's required.
4.2.9 Complete calculations for other distances, revaluating PAR's.
4.3 DOSE ASSESSMENT FROM KNOWN ISOTOPIC MIX 4.3.1 Obtain isotopic data from PASS analysis or grab samples.
4.3.2 Enter isotopic data on Attachment 4, Dose As-sessment from Known Isotopic Mix.
4.3.3
-Enter flow rate from Attachment 3, Fan Status.
4.3.4 Complete the necessary calculations for EAB only.
l l 4.3.5 Compare results to Attachment 9, Protective Ac-tion Recommendations and EAL's.
4.3.6 Inform the HPC of any changes in EAL's or PAR's required.
4.3.7
. Complete calculations for other distances, l
revaluating PAR's.
4.4 PLUME TRACKING l 4.4.1 Determine the length of the plume using the ta-ble of travel times, Attachment 8.
4.4.2
. Determine the affected sector as the sector containing the plume centerline.
4.4.3 Draw the plume centerline in red on the Field Monitoring Map.
l I
Procsd. No.
EIP-ZZ-01211 R2v.
1 0
4.4.4 Outline the affected sector in blue, reflecting the length of the plume.
l 4.4.5 Update the map on a regular basis (preferably every 15 minutes).
i l 4.5 STATUS BOARD UPKEEP 4.5.1 Ensure the Status Board Keeper updates the Dose Assessment Status board with the latest projections.
4.5.2 Ensure the time of entry is included with all data on statue board.
4.5.3 Review Status Boards regularly for correctness and timeliness.
4.5.4 Ensure latest information is transmitted to the Status Board Keeper in the other Dose Assess-ment facility.
5.0 FINAL CONDITIONS
()
l 5.1 The emergency has been closed out or the recov-i ery phase has been declared.
5.2 Complete all necessary records and forms ac-l l
cording to this procedure and EIP-ZZ-00250.
6.0 RECORDS 6.1 QA Records 6.1.1 Control Room Summary 6.1.2 Release Rate Determination 6.1.3 Fan Status l 6.1.4 Dose Assessment from Release Rate l
6.1.5 Dose Assessment Based on Isotopic Mix l
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. _ _.. _ _ _ _ _ ~ _ _ - _ _., _ _ _, _ _ _ -. _...., _.. _ _.
Proc;d. No.
EIP-ZZ-01211 R;v.
1 fx
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)
7.0 REFERENCES
7.1 USNRC Regulatory Guide 1.109, " Calculation of Annual Doses to Man from Routine Releases of Reactor Effluents for the purposes of Evaluat-ing Compliance with 10CFG50, Appendix I, Revi-sion 1, October 1977."
7.2 USNRC Regulatory Guide 1.145, " Atmospheric Dispersion Models for Potential Accident Conse-quence Assessments at Nuclear Power Plants, Revision 1."
7.3 SNUPPS, Final Safety Analysis Report.
Chapters 2, 7, 11, 15 and 15A.
3.0 ATTACHMENTS 8.1 Control Room Summary 8.2 Release Rate Determination 8.3 Fan Status
(,J')
l S.4 Dose Assessment from Release Rate 8.5 Conversion Factors g
8.6 Dose Assessment Based on Isotopic Mix 8.7 Stability Class Determination l 8.8 Plume Travel Time l 8.9 Protective Action Pecommendations and EAL's l
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Procad. No. EIP-ZZ-01211 Rav.
1 CONTROL ROOM
SUMMARY
O (DAC COPY)
TIME:
AFFECTED MONITOR READING UNITS L
FAN STATUS INDICATOR LIGHTS INDICATOR ON INDICATOR ON INDICATOR ON CCLO3A CGF03A CGH01A CGLO3B CGF03B CCH01B CGG02A CGK02A
)
CGG02B CGK02B CGT01 CGE01A ~
CGT02 CGE01B -
Obtain flow rates from teachment 3 r
MET DATA (BOP COMPUTER ROOM)
Wind Direction
'(From)
Windspeed (10m) =
m/sec (u) l (See Attachment 8)
Delta T (90m - 10m)
'C/80m Delta T in 'C/80m [ circle appropriate colizan]
(. -l. 5 0
-1.50
-1.35
-1.20
-0.40 1.20 >3.20 to to to to to
-1.35
-1.20
-0.40 1.20 3.20 Stability Class A
B C
D E
F G
e Completed By:
Dai;c:
ATTACHMENT 1 Page 1 of 2
Proced. No. EIP-ZZ-01211 Rev.
1 Od CONTROL ROOM
SUMMARY
(TECHNICIAN COPY)
TIME:
AFFECTED MONITOR READING UNITS GT-RE-10B GT-RE-21B AB-RE-111 AB-RE-112 AB-RE-113 AB-RE-114 FC-RE-385 GT-RE-59 GT-RE-60 FAN STATUS OBTAIN THE FOLLOWING FAN INDICATORS OBTAIN THE FOLLOWING FAN INDICATORS FROM MAIN CONTROL BOARD PANEL RLO20:
FROM PANEL RP068 (BEHIND MAIN CONTROL BOARD)
INDICATOR ON INDICATOR ON INDICATOR ON CGLO3A CGF03A-CCH01A O
CGLO3B CCF03B CGE01B CGG02A CGK02A CGG02B CGIO2B CGT01 CGE01A j CGT02 CGE01B MET DATA (BOP COMPUTER ROOM) j l-Wind Direction
- (From)
Windspeed (10m) =
m/see Delta T (90m - 10m)
- C/80m Report all data to Dose Assessment Coordinator.
l Completed By:
Date:
O ATTACHMENT 1 Page 2 of 2
TIME:
Procsd. No. EIP-ZZ-01211 PROJECTION NO:
Rsv.
1 RELEASE RATE DETERMINATION
)
WIDE RANGE CAS MONITORS NOBLE GAS IODINE 7
FLOW RELEASE RELEASE 2
MONITOR READI?4G RATE RATE I/NG RATE GT-RE-10B or (CFM)
GT-RE-21B Ci/s uCi/sec x 1
x 1.0E-6 =
Ci/s x
=
Ci/s uCi/cc x x 4.7E-4 =
Ci/s x
=
Obtain flow rate from Attachment 3 I
See I/NG Table, Page 2 ATMOSPHERIC RELEASE VALVE MONITORS NOBLE CAS IODINE I
FLOW RELEASE RELEASE MONITOR READING RATE CF RATE ICF RATE (circle 1) lb/hr
~
AB-RE-Ill, j
112,113,114, C_/s FC-RE-385 mr/hr x x
x 1.0E-8 =
Ci/s x
=
Normal release rate, PORV = 5.1ES lb/hr for Safeties, obtain flow rate from Pressure Tabim, Page 2.
Technical Assessment Coordinator can provide pressures from ERFIS.
3 Conversion from lb to ft, from Pressure Table, Page 2.
5 Iodine conversion factor, Page 2 l
LEAK RELEASE RELEASE S
l MONITOR READING RATE g
RATE ICF RATE (CFM)
, GT-RE-59 or
-GT-RE-60 C1/s i
R/hr x x 7.1E-7 =
Ci/s x
=
l 5
l Iodine conversion factor, Page 2 1
0 Containment leak rate (containment isolated) = 3.5 CFM Obtain more accurate data from Technical Assessment Coordinator.
i O
Completed By Date l
ATTACIU1ENT 2 PAGE 1 of 2 l
TIME:
Proced. No. EIP-ZZ-01211 PROJECTION NO:
Rev.
1 CONVERSION FACTORS IODINE IODINE /
CONVERSION NOBLE GAS RATIO ACCIDENT TYPE FACTOR (ICF) 5.9E-4 Fuel Handling (Fuel Building) 5.9E-4 5.7E-3 Fuel Handling (RX Building) 5.7E-3 5.6E-3 CVCS Letdown Line 5.6E-3 7.2E-5 Waste Gas Decay Tank 7.2E-5 1.9E-4 Liquid Radvaste Tank 1.9E-4 4.1E-1 Rod Cluster Control Assembly 2.9E-1 6.5E-3 Locked Rotor 6.5E-3 5.8E-2 Loss of Coolant 5.3E-2 1.0E+0 Primary Evap. Bottoms Tank 1.0E+0 6.0E-1 Steam Generator Tube Rupture 3.8E-1 4.1E+0 Main Steam Line Break 8.0E-1 Use the above conversion factors unless more accurate data is available.
PRESSURE TABLE i
NUMBER 4
0F SAFETIES COWERSION 3
PRESSURE OPEN TOTAL FLOW FACTOR g
3 (psig)
(lb/hr)
(ft /lb) 1000 0
0 4.6E-1 1100 0
0 4.1E-1
[
1185 1
7.9ES 3.7E-1 1197 2
1.6E6 3.6E-1 1210 3
2.4E6 3.6E-1 l
1222 4
3.2E6 3.6E-1 h
l 1234 5
4.0E6 3.5E-1 I
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ATTACHMENT 2 Page 2 of 2 l
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c,_.,...
Tis:s Proced. Ns. EIP-ZZ-01211 Projection No.
Rev.
1 FAN STATUS VENTILATION EXHAUST FAN ON
- DESIGN RATED FUEL BLDG.-
AUX. BLDG. CONTAINMENT EXHAOST SYSTEM INDICATOR (X)
FLOW (CFM)
NORMAL FLOW ISOLATION ISOIATION PURGE LIGHTS Auxiliary Bldg./
CGLO3A 32,000 32,000 13,000-Shutdown 32,000
' Fuel Handling Bldg.
CGLO3B
.32,000 (Slow SMd)
~' '
Nor.aal Exhaust - Fast Fuel Handling Bldg.
CGG02A 9,000 Shutdown 9,000 9,000 Shutdown Emergency Exhaust CGG028 9,000 Main Steam CGF03A 23,000 23'000 23'000 23'000 23'000 Enclosure Bldg. Exhaust CGF03B 23,000
- a Access Control Exhaust CGK02A 6,000 6,000 6,000 6,000 6,000 CGK02B 6,000
-p Condenser Air CGE01A 1,000 1'000 1*000 1*000 1*000
- I Removal Filtration CGE01B 1,000 d
urge Exhaust
, / :..i utdown g Exhaust
",*I 66,000 56,000 43,000 82,000-p J
\\
Radwaste Bldg.
CGH-01A 12,000 12,000 12,000 12,000 12,000 Exhaust CGH-O1B 12,000 NOTE:
DESIGN RATED FLOWS from FSAR.
Completed By Date ATTACHMENT 3 Page 1 of 1
O O
O DOSE ASSl!SEMNF Fracal, lem. EINZ-01211 TDE IWUILTICN 10.
Not REIEASE MIE Rey.
I
+
4 ICIE:
Ibr a quick analysis, cxmpare results below with Attactment 9 Protective Actim Recrummuistions Stability Class sul FAl.'s (circle column)
A B
C D
E F
C Relassee Does Rate klasse Projected Dome ilind XA)
Rate Carwersiers** 1hyroid lawle Body Duration 1hyroid 14ela bdy M
! head (C1/s)
Factor (mit/hr) (sitar)
Ors)
(mm)
(mm)
(m/s)
EAR 2.0 % 1.1 &5 3.2Fe5 1.!rr4 2.!Fr4 4.9Fr4 1.45-3 +
x
- 00) x
=
x
=
x
"(I) x x
Distara M
5.4Fr7 9.57 5.9% 2.3Fe5 4.59 1.lFr4 2.75 4 +
OC x.
_x 02w x
II'
- W2d x
=
92d M
2.5Fr7 3.2Fr7 1.3Fr6 5.9Fr6 1.3Fr5 3.25-5 8.1&5 +
=
x OC' x.
x f5W
=
x (I) x 05d e5W 10 mi 1.65-7 1.9E-7 4.5Fr6 8.65-7 5.4Fr6 1.4Fe5 3.7& 5 +
x-Oc) x x
j
=
x (I) x
@ 10 d
- 910 ad
- Release rate is deterednad using Attactment 2 Reimase Rata Deterudnatim.
- Cawersion factors detemtned by accidet type fran Attacteunt 5.
Ompleted By Date AttaM: 4 Fage I of'l
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1 O
ar-a CONVERSION FACTORS Ci-hr ACCIDENT TYPE WHOLE BODY THYROID (All Isotopes)
(Iodine Only)
Loss of Coolant 4.9ES 3.5E8 Rod Cluster Control Assembly Ejection 6.9ES 3.9E8 Fuel Handling Accident Reactor Building 3.4E4 1.8E9 i
Fuel Handling Accident Fuel' Building 3.3E4 1.7E9 Steam Generator Tube Rupture 4.2E5 6.6E8 Wasta Cas Decay Tank Rupture 3.4E4 1.6E9 Locked Rotor Accident 4.6ES 4.2E8 (g
Liquid Radwaste V
Tank R*ipture,
3.6E4 1.5E9 Primary Evap Bottoms Tank Failure 9.3E5 1.6E9 CVCS Letdown Line Rupture 1.6ES 6.8E8 Main Steam Break 6.8E5 7.0E8 l
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ATTACHMENT 5~ Page 1 of 1
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j DME AME59 BIT Proced. 100. N 1211 TDE FIElJIETIGi 110.
BASID GI 150ltFEC MX Rev.
MEI2 B34 DOSE FAClutS tC1/cc 30t-6Sn x
63 _ =
19115END DOSE FAcitBS i
IGt-87 x
319-tC1/ec
=
IGt-48 x
791 I-131 x 8.7415
=
Indine i
IGt-89 x
893 I-132 x 1.0686
=
=
not I
b l33 w
16 I-L33 x 2.07E5
=
hetor**
=
l 3e-13Se x
168 1-136 x 2.723
=
PIDP
=
3 Xe-135 x
97 1-135 x 4.26E6
=
Itart ar e
=
l Xe-137 x
76 WIm2
$300 im
=
b l38 x
475 BG4
=
I-131 x
146 IEE2ASE ltKAI.
=
=
x
=
I-132 x
846 FacitR
=
I-133 x
2632 FIOP
=
3 1-134 x
893 i
RAIE e
Imrt
=
l I-135 x
MI5 0 300 hr-ser Ibr e odek analysis, empare insults behnr with
=
j 10rAI. =
x
=
Attadussut 9, Protective Action WJans mal RAI.'s i
stability G ans t
(circle whsm) l A
B C
D E
F C
o j
Mole Iodine Dose Rate Helemme Projected Dome Mind IAI hdy Relamme flynut Wole Baby Deutkut thyrned Mude Body j
_ma sp==l nelassa heter (meAr) WtAr) 0=s)
WO (sa) de/s) heter FAs 2.0Fr6 1.15-5 3.25-5 1. IE-4 2.l u 4.guH 1.45-3 *
=
x OE0
=
x
=
,g
=
x (1) =
x
=
,m Distece 2 ed 5.4E-7 9.0Fr7 5.9E-6 2.X-5 4.03-5 1.IIM 2.71H e
=
x 01G)
=
x
=
i 02e III
- 92d n f2d M
2.55-7 3.25-7 1.3EH 5.9EH5 1.3Fr5 3.2Fr5 8.15-5 e
=
x Oc)
=
x
=
e5d
=
x (I) =
95d 95d 10 W l.6Fr7 1.95-7 4.55-6 8,6Fr7 5.4Fr6 1.45-5 3.75-5 *
=
x OIG)
=
x
=
II'
- 910 W
- 10 ud
- Flow rate is deterudned ustrig Attaciment 3. Fm Statis.
Cnspleted By:
Dates
- If naple talen is liquid, multiply ahnve factor by 0.01 (Todine partition fae.nr).
r Attaduumt 6 hqp I of I
Proced. No. EIP-ZZ-01211 Rav.
1 0
STABILITY CLASS DETERMINATION
- DETERMINATION OF PASQUILL STABILITY CLASS USING WIND DEVIATION WIND DEVIATION - SIGMA THETA STABILITY CLASS (DEGREES)
'A - Extremely Unstable SIGMA THETA 2 22.5 B. Moderately Unstable 22.5 > SIGMA THETA 2 17.5 C - Slightly Unstable 17.5 > SIGMA THETA 2 12.5 D - Neutral 12.5 > SIGMA THETA 2 7.5 E - Slightly Stable 7.5 > SIGMA THETA 2 3.8 F - Moderately Stable 3.8 > SIGMA THETA 2 2.1 G - Extremely Stable 2.1 > SIGMA THETA S-m/s
-g 3
Q VALUES a STABILITY CLASS O'
DISTENCE A
B C
D E
F G-EAB 2.0 E-6 1.2 E-5 3.2 E-5 1,1 E-4 2.1 E-4 5.0 E-4 1.1 E-3 l
1 Mile 1.1 E-6 7.2 E-6 2.1 E-5 8.1 E-5 1.4 E-4 3.4 E-4 8.6 E-4 1
2 Miles 5.4 E-7 9.0 E-7 5.9 E-6 2.3 E-5 4.0 E-5 1.1 E-4 2.7 E-4 j.
3 Miles 4.0 E-7 5.0 E 2.8 E-6 1.2 E-5 2.4 E-5 5.9 E-5 1.4 E-4 4 Miles 3.2 E-7 4.0 E-7 1.8 E-6 8.1 E-6 1.5 E-5 4.0 E-5 1.0 E-4 5 Miles 2.5 E-7.
3.2 E-7 1.3 E-6 5.9 E-6 1.3 E-5 3.2 E-5 8.1 E-5 l
6 Miles 2.1 E-7 2.7 E-7 9.9 E-7 4.4 E-6 9.9 E-6 2.4 E-5 6.3 E-5 7 Miles 1.9 E-7 2.3 E-7 8.1 E-7 3.7 E-6 8.6 E-6 2.2 E-5 5.4 E-5 8 Miles 1.8 E-7 2.1 E-7 6.3 E-7 3.3 E-6 7.2 E-6 1.9 E-5 4.5 E-5 l
9 Miles 1.7 E-7 2.1 E-7 5.4 E-7 2.7 E-6 6.8 E-6 1.6 E-5 4.2 E-5 10 Miles 1.6 E-7 1.9 E-7 4.5 E-7 2.2 E-6 5.4 E-6 1.4 E-5 3.7 E-5 12 Miles 1.2 E-7 1.4 E-7 3.1 E-7 1.9 E-6 4.3 E-6 1.2 E-5 2.9 E-5 15 Miles 1.1 E-7 1.3 E-7 2.2 E-7 1.2 E-6 3.1 E-6 8.6 E-6 2.2 E-5 j'
To obtain X/Q, divide above by the windspeed in m/s.
l.
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Proced. No. EIP-ZZ-01211 Rsv.
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PROJECTED DOSE PROTECTIVE ACTION DOSE RATE @ EAB TO POPULATION E.A.L.
RECOMMENDATIONS WHOLE WHOLE BODY THYROID BODY THYROID EIP-ZZ-00101 EIP-ZZ-00212 (mR/hr)
(mR/hr) mR mR 0.05 0.25 6.A. (UE)
O.5 2.5 6.B. (A) 50 250 6.C. (SE) 500 2500 6.C. (SE) 1,000 5,000 6.F.
(SE)
Shelter 2 mile 1000 5000 6.D. (GE)
Radius, 5 miles downwind 1,000 5,000 Shelter, evacuate to to if practical 5,000 25,000
>5,000
>25,000 Mandatory 0
evacuation NOTE: This attachment to be used as a guide only.
Refer to appropriate procedures for additional clarification.
i l
bv ATTACHMENT 9 Page 1 of 1
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