ML20062B223

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Public Version of Revision 1 to Emergency Plan Implementing Procedure EPIP 3.3b, Followup Dose Projections & Revision 2 to EPIP 1.2, Notification of Emergency Response Organizations & Offsite Agencies
ML20062B223
Person / Time
Site: Duane Arnold NextEra Energy icon.png
Issue date: 07/12/1982
From:
IES UTILITIES INC., (FORMERLY IOWA ELECTRIC LIGHT
To:
Shared Package
ML112410182 List:
References
PROC-820712-01, NUDOCS 8208040382
Download: ML20062B223 (115)
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Text

{{#Wiki_filter:a.ew-MANUAL' Emeraency Plan imolmentina Pr'ocedure TO: DISTRIBUTION Date 7-12-82 ~ (1) Index and/or Revision Control Page(s) and (2) Procedure or Please remove: Procedure Page(s) listed below and insert the revised material. INSTRUCTIONS REMOVE INSERT Rev. Date Rev. Date Revision Control Sheet 7 7-9-82 8 7-12-82 0 5-13-81 1 6-15-82 EPIP 3.3b Subsequent to making the above changes, sign and date the notice below, detach it at the bottom line and return it to the addressee. [h' NOTICE OF RECEIPT OF REVISION NOTIFICATION f , jg TO: DAEC SUPPORT SERVICES P.O. Box 351, Cedar Rapids, Iowa 52406 This acknowledges receipt of revision notification to the Procedure (s) 1 EPIP 3.3b and updating of Frocedure(s) in accordance with the notification dated 7-12-82 B208ddbb8d'b2'O728 ~ PDR ADOCK 05000331 F PDR Date: ....._. ixit4ture: .-,a

Y- ,,* r EMERGENCY PLAN IMPLEMENTING PROCEDURES REVISION CONTROL SHEET ?.. e-Revision No. 8 Revision Date_, 7-12-82 Page/ Proc Date Rev. Page/ Proc Date Rev. Page/ Proc Date Rev. INDEX 6-1-82 4 1.1 311-82' '1 ' 1.2 6/9/82 2 ~ 2.1 1/15/82 2 2.2 2/1/82 3 2.3 12/2/81 0 3.1 ~3/1/82 2 3.2 3/1/82 3 3.3a 10/21/81 1 3.3b 6/15/82 'l 4.1 5/13/82 2 1 4.2 5/11/81 0 4.3 10/19/81 1 4.4 5/11/81 0 4.5 5/13/82 0 5.1 11/24/81 1 5.2 11/24/81 1 1 6.1 5/11/81 0 6.2 5/11/81 0 l 6.3 3/1/82 1 6.4 3/3/82 2 3 ' %s I e N, - = = =--we- = e.

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EMERGENCY PLAN TMPLEMENTlNG PROCEDURE EPIP 3.3b Page 1 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 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 specific steps to be taken by radiological assessment personnel during a release of radioactive material (after the first hour following shutdown) to the environment. 3.0 RESPONSIBILITIES 3.1 Site Radiation Protection Coordinator Perform dose projection calculations until the E0F.is manned. Evaluate the results of dose projection calculations. Initially identify the need for field survey data to backup projected dose. calculations. 3.2 Emergency Coodinator Initially advise local and State authorities of the results of dose projection calculations and provide protective action recommendations as required. 3.3 IELP Radiological Assessment Coordinator Perform' dose projection calculations. Provide protective action recommendations as required. l

4.0 INTRODUCTION

The major objective of this procedure is to perform the offsite dose estimate for comparison with protective action guidelines to determine the appropriate I emergency action to be taken following an accidental atmospheric release of g radioactive material. As a result of this objective the procedure has been i developed with five major parts. The first consists of the main body of the procedure and contains general information about the procedure, general instructions for its use and the protective action quidelines. The second part consists of a Data Summary Sheet, Attachment I, which contains all the monitor data necessary for the dose projections. The third part, Attachment II, consists of a sunmary Table to be completed during the dose estimation procedure. This table contains all the information necessary for comparison with the protective s _,) action guidelines. The completion of this table requires a number of calculations ,to be performed. These calculations are set up in detail on Calculation Sheets which comp, rise the fourth part of the procedure, Attachment III. The, Data l -..-~.,

EMERGENCV PLAN IMPLEMENTlNG PROCEDURE EPIP 3.3b Page 2 of 98 Revision 1 FOLLOW-UP DOSE PROJECTIONS Date 6/15/82 Summary Sheet, Summary Table, and the Calculation Sheets are designed to be used together, that is, the Calculation Sheets are required to complete the Summary Table while 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 Summary Table line number is referenced on the Calculation Sheet. The fifth part, Attachment IV, contains all the figures referenced in the Calculation Sheets. NOTE A supply of Data Swnmary Sheets, Stmmary Tables, and Calculation Sheets are to be maintained in the Technical Suppor: Center (TSC) and Emergency Operations Facility (EOF) 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. ~ 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. j 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 the necessary release rate calculations. When multiple monitor ranges are available complete the calculations for ONE range ONLY. For the Reactor Building Stack Monitors use the range which gives a reading nearest mid-scale. For the Offgas Stack Monitors use the range which gives the highest reading. n-.-.~, o-.-. nee ~w -.e n ---.e

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 3 of 98 FOLLOW-UP DOSE PROJECTIONS Revision i Date 6/15/82 ( 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 Sunmary Table are those of the appropriate section for dose estimation as determined by Section I. That is, Sections II through V of Calculation Sheet III have the same format only the constants which are dependent on atmospheric stability are different. 5.2.5 Complete 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 Coordinator shall compare the dose estimates from the ~' _) Summary Table to the following Protective Action Guidelines and initiate the appropriate action. i J ..s+ - -.... _. -.., m.,,. -e.

EMERGENCY PLAN IMPLEMENT!NG PROCEDURE EPIP 3.3b Page 4 of 98-FOLLOW-UP 00SE PROJECTIONS Revision 1 . Date 6/15/82' PROTECTIVE ACTION GUIDELINES Projected Exposure to An Individual In the Population Recommended Action Whole Body = less than 1 Rem or 1. No protective action required. Thyroid = less than 5 Rem. 2. Issue an advisory to seek shelter and await further instructions or voluntarily evacuate. w c. 3. Monitor environmental radiation levels. Whole Body = 1 to 5 Rem or 1. Seek shelter and await further i Thyroid = 5 to 25 Rem instructions. 2. Consider evacuation, particularly for children and pregnant women. s ..) 3. Monitor environmental radiation levels. 4. Control access. Whole Body = 5 Rem and above or l. 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. e w. ..-s..8__ ..,..w-me--.,.-w. ,,_..,,,,.,,e ..w.. -,www., ,sa - -,.. + -

EMERGENCY PLAN IMPLEMENTlNG PROCEDURE EPIP 3.3b Page 5 of 98 FOLLOW-UPDQSEPROJECTIONS Revision 1 Date 6/15/82 n. )

6.0 REFERENCES

1. Duane Arnold Energy Center Emergency Plan
2. IELP Corporate Emergency Response Plan 7.0 ATTACHMENTS
1. Data Summary Sheet
2. Summary Table
3. Calculation Sheets
4. Figures APPROVED BY:

<d/ [], f e,,, .DATE: 6[7T RadiationProtect,JtonSupfrvisor ) a REVIEWED BY: s/r/ d%., . /v-7 /,, DATE: D 7"' ALARACoordinatg gi APPROVED BY: / M. 4C EBV BATE: 7 F2 Operations Supervisor REVIEWED BY: O DATE: 7'8 - Chairman, Operptions Comittee l e APPROVED BY: [A C 4 DATE: Plant Supertintendent - Nuclear -g l 4 ....,,-..n ,n.. .e. .,,..-,-...n. .n. .-<--p-,.y.en -n~

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page f 98 6 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 s., ATTACHMENT I, DATA

SUMMARY

SHEET Date: Recorded By: Time: Calculation Number: I. METER 0 LOGICAL DATA 1. Wind Directiona (Wind from) 2. Wind speeda mph 3. ATb op 4. Time after shutdown (hours) 5. Time release started (24 hour clock) NOTES: a0btain wind speed agdirection from met panel in con. trol room or Cedar Rapids Flight Service at s bObtain from atmospheric AT recorder readout in control room. II. RELEASE DATA A. Reactor Building Stacks 1. ARM 9163a mR/hr 2. RANGE: (Use range which gives reading nearest mid-scale). HIGH INTERMEDIATE NORMAL 3. A Stack Flow CFMb 4. B Stack Flow CFMb 5. C Stack Flow CFMb 6. Total Stack Flow CFMb (sum lines 3, 4 and 5) 7. 182C ___CPMc 8. 1C-1828 CPMc NOTES: a - Obtain ARM reading from Control Room panel 1C-10, ARM RT9163 ' ./ or other refuel floor ARM.

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pag 2 7 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT 1 DATA

SUMMARY

SHEET (continued) b - Exhaust flow obtained from local panel (C stack only) on refuel floor (Reactor Bldg. El. 855'0") or control room panel 1C-23 (all stacks) c - Normal and Intermediate range - obtain monitor readings from local panel reactor building El 855'0" (gaseous channel) directly from instrument. May also be obtained from data printer in cph, if so divide by 60 to obtain cpm. It may be possible to observe these readings from the CAS via the security TV camera. High range - obtain monitor reading from the temporary high range instrument located in a metal cabinet at the Secuirty l Control Point adjacent to the ingress turnstyle. B. Offgas Stack 1. RANGE: (Use range which gives highest reading). (Complete (Complete HIGH Lines 3 and 4) NORMAL l Lines 2 and 4) j 2. Normal Range 4116 A or B CPSa 3. High Range CPMb 4. Stack Flow CFMc l NOTES: a Normal range - obtain monitor reading from control room panel 1C-02. b High range - obtain monitor reading from temporary high range instrument located in metal cabinet No. 5 at the Security Control Point adjacent to the ingress turnstyle. c Stack flow obtained from control room panel IC-02. + m* weep.ow==.+- g 4.vs ya+m. so e 4 mg

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EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page g of 98 FOLLOW-UP 00SE PROJECTIONS Revision 1 Date 6/15/82 l. ATTACHMENT I, DATA

SUMMARY

SHEET (continued) l I C. Turbine Building Vent 1. Dose Rate Outside Shielda ~ mR/hr 2. Oose Rate Inside Shielda mR/hr 3. Exhaust Flowb g flow 4. Number of fans operating: Slow speed high speed (Use only if % flow, line 3, is unavailable.) NOTES: aExposure rate is obtained with teletector probe outside and inserted in shield access hole as appropriate. Shield is located on the exhaust of RCF 33, 35 next to condensate demin. panel. bPercent of maximum exhaust flow obtained from flow indicator on I-beam adjacent to samplers. D. Miscellaneous Data 1. Is Standby Gas Treatment for Offgas Stack Exhaust in operation: I I I i YES l l NO l l 2. Anticipated duration of release hours. (If no estimate is available use 1.77 hours.) 3. Iodine activity to noble gas activity ratio-optional, to be completed only if known to be different than default valves. 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. -y a m ,eh e

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EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b ~ Page 9 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT II,

SUMMARY

TABLE Calculations Performed By: 1. 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. J4, line 1) 5. Wind Speed: meters /sec. (Calc. sheet I, Sec. A, line 2) 6. AT: '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 Bldg. Stack: C1/sec (Calc. Sheet II, sec. I) 3. Release rate - offgas stack C1/sec (Calc. Sheet II, Sec. II) 4. Release rate - Turbine Bldg. Roof Exhaust: C1/sec (Calc. Sheet II, Sec. III.) 5. Total Gaseous Release Rate: Ci/sec (add release rates l from previous three lines) . ~.,.. -.

i ) ( i i l ATTACHMENT 11 StH ERY TABLE (continued) III. DOSE INFORMATION m Cal. sheet III, section nisaber M for remainder of dose m S calculations: n (from calc. sheet 111, sectionI) o z Do m Wind Location p Q d Point of max. X/Q Additional Locations j-y i Site forOffgag*gtack C 2 ' release 2m1 Set 10ml No. 1 No. 2 No. 3 m 2 Bndry Distance to location,111, 1. meters -a o H o 3 (miles)(Calc Sheet subsection A)6 3218 8045 16090 I ni l tz) to) (lu) 2. Nor.malized concentsatton M M M Groundlevel 2 o z X/Q,sec/m3,lc.gheet release (Ca hi d Ill, Subsect. B) l-Q g I~ ~ l 3. Normalized concentration, o m E l X/Q, sec/m3 Elevated o CaIc X n release (C)b. Sheet III, g g Subsect.

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4. Whole bod dose rate A mrem /hr ( afc. Sheet III, -4 Subsect. ) l@ ~ r-m 5. Whole body dose { Calc. Sheeg III.arem ubsect. E) ,Q ? o 6. Thyroid dose coninttment,C mrem (Calc Sheet III, 7 1 Subsect.Fjb g 4 ct ':l 7. Plume width meters (miles) (Calc. Shee III, E E o, @ 1 "<e-l Subsect. 6) t ) L it it )( ) L ) L ) L )

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8. Plisne arrival time, hr 8 w l { Calc.Sheeg111, m ubsect. H) ~ cr e-* w o see next page R NOTE: 'a,b,c,d and e o O 5 = i i

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 11 of 98 F0LLOW-UP 00SE PROJECTIONS Revision I Date 6/15/82 eg ATTACHMENT II,

SUMMARY

TABLE (continued) [ NOTES: jl aFor 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. b Calculation sheet subsection refers to the subsection of the Calculation Sheet III section as given in the heading of this table and also in Calc. Sheet III, Section I. cThe thyroid dose comitment given is for an inf ant, i.e., the worst case. The adult dose commitment is obtained by multiplying by 0.58. dAdditional locations may be added at users discretion. eMaximum X/Q is the location corresponding to the point of maximum ground level X/Q for an offgas stack (elevated) release. 3;, IV. Release Rate From Exposure Rate (Field Measurement) Estimated total gaseous release rate C1/sec (Calc. Sheet IV) l Caution: This estimate should be considered to be a lower limit of the release rate. l l J l I

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 12 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 y ATTACHMENT III, CALCULATION SHEET I GENERAL INFORMATION A. Wind Speed 1. Downwind direction: deg. (180* different from wind direction). 2. Wind Speed mph (Data Summary Sheet, Section I, line 2) x 0.447 = l l Meters /sec (To Summary Table Sec. I, line 4) 3. Sector designation Down Wind Drection, deg. Sector 348.750 - 11.25 A 11.25 - 33.75 B 56.25 C 33.75 78.75 D 56.25 101.25 E 78.75 101.25 123.75 F 123.75 146.25 G 168.75 H 146.25 191.25 J 168.75 191.25 213.75 K 236.25 L 213.75 258.75 M 236.25 281.25 N 258.75 281.25 303.75 P 326.25 Q 303.75 348.75 R 326.25 B. Stability Class 1.

  1. Tl l *F - (obtained from Data Summary Sheet, Section I, line 3) (To Sunmary Taole, Sec. I, line 7) 2.

Stability class is determined from the following table as a function of #T. Stability class l l(ToSummaryTable,SecI,line1)

  1. T Range, *F Stability Class

-1.26 or less AB -1.26 to -1.11 C -1.11 to 1.11 DE 1.11 of greater FG w w -g g -4m q gg e em.*

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 13 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET II Page 1 of 5 RELEASE INFORMATION l I. Reactor Building Stack Releases 1. Complete Subsection A, B, OR, C (one subsection ONLY) as determined by the following criteria on the range indicated on Data Summary Sheet Section II, Line 2. Normal Range - complete Subsection A Intermediate Range - complete Subsection B High Range - complete Subsection C A. Normal Range 1. ARM 9163 reading mR/hra x 70 = background cpm 2. Total Stack Flow CFMb 3. 182C cpmc - background cpm (line 1) = corrected cpm. 4 182C corrected cpm (line 3) x CFM Total Stack Flow (line 2) x 2.36 x 10-11 = l l Ci/sec = Total Reactor building Gaseous Release Rate (To Summary Table, Sec. II, line 2) NOTES: a0btain ARM reading from DATA Summary Sheet, Section II.A, line 1. bObtain Total Stack Flow from Data Summary Sheet, Section II.A, line 6 i c0btain 182C monitor reading from Data Summary Sheet, Section II.A, line 7.

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I EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 14 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET II (continued) Page 2 of 5 B. Intermediate Range Use either of two options for determination of background count rate - options given by lines 1 and 2, line 1 is preferred l 1. 1828 (RM15/HP260)a background cpm l or 2. ARM reading b mR/hr x 0.46 = background cpm. 3. 182C (RM15/HP260)c cpmc - background cpm (line 1 or 2) = corrected I cpm. 4. 182C corrected cpm (line 3) x Total Stack Flow cfmd x AFCFe x 1.18 x 10-5 i Ci/sec Total Reactor = L Building Gaseous Release Rate (To Sumary Table, Sec. II, line 2) NOTES: i a0btain monitor reading from Data Sumary sheet, Section II.A, line 8. b0btain ARM reading from Data Summary Sheet, Section II.A, line 1. c0btain monitor reading from Data Sumary Sheet, Section II.A, line 7. t dExhaust flow obtained from Data Summary Sheet, Section II.A, line 6. eActivity Response Conversion Factor (ARCF) obtained from Figure 1 using time after l shutdown from Simnary Table, Section I, line 2. I C. HIGH RANGE (RM16/HP200) 1. 1828 (RM16/HP200)a background cpm. 2. 182C (RM16/HP200)b cpm - background cpm (line C.1) = corrected cpm. 3. 182C corrected cpm (line 2) x CFMc Total Stack 1 Flow x ARCFd x 6.74 x 10-5 Ci/sec. = I l Total Reactor Building Gaseous Release Rate (To Sumary Table, Sec. II, line 2) = +. e'--sus em=g.- c.-- e =. -c-- -w a ,*e-a w -Me de

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 15 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET II (continued) Page 3 of 5 NOTES: l a0btain monitor reading from Data Summary Sheet, Section II.A, line 8. b l Obtain monitor reading from Data Summary Sheet, Section II.A, line 7. l cExhaust flow obtained from Data Summary Sheet, Section II.A, line 6. dActivity Response Conversion Factor (ARCF) obtained from Figure 2 using time after i shutdown from Summary Table, Section I, line 2. l II. Offgas Stack Releases 1. Complete line 2 OR 3 (0NE ONLY) as determined by the following criteria on the range selected (siie Data Summary Sheet Section II.B, line 1): Normal Range - Complete line 2 I High Range - Complete line 3 j 2. Normal Range (RM4116 A or B) cpsa x cfmb x 9.44 x 10-11 Ci/sec. Total offgas stack release rate = (to Sunmary Table Sec. II, line 3) 3. High Range (RM16/HP200) cpma x cfmb x ARCFc x 6.74 x 10-5 Ci/sec Total offgas stack release rate = (To Summary Table, Sec. II, line 3) NOTES: aMonitor readings obtained from Data Summary Sheet Section IIB, line 2 or 3. bStack flow obtained from Data Summary Sheet Section IIB, line 4. cActivity Response Conversion Factor (ARCF) obtained from Figure 2 using time after shutdown from Sunmary Table, Section I, line 2. s e&=*-e w epedhgm-seie%e.m w e upm.

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l EMERGENCY PLAN TMPLEMENTING PROCEDURE EPIP 3.3b Page 16 of 98 FOLLOW-UP 00SE PROJECTIONS Revision 1 Date 6/15/82 ~ ATTACHMENT III, CALCULATION SHEET II (continued) Page 4 of 5 III. Turbine Building Roof Ex_haust (RCF 33, 35) j i 1. mR/hr outside shield a x 2.5 x 10-4 l F mR/hr adjusted bkg. l = 2. mR/hr inside shieldb-adjusted bkg (line 1) net mR/hr. = 3. Two options for obtaining exhaust flow: flow indicator reading available. (go to line 4). flow indicator reading not available. (go to line 5). 4. % flowc x 720 = cfm (go to line 6) 5. number of fans slow speedd x 18,000 + number of fans l high speedd x 36,000 = cfm 6. net mR/hr (line 2) x 3.37 x 10-5 x ARCFe x cfm i (line 4 or 5) = l l Ci/sec. Total Turbine Bldg. Gaseous Release l l Rate (To Summary Table Sec. II, line 4) i NOTES: l a0btain reading from Data Summary Sheet, Section IIC, line 1. j bObtain reading from Data Summary Sheet, Section IIC, line 2. l c0btain % flow from Data Summary Sheet, Section IIC, line 3. l dObtain number of f ans operating at slow and high speeds from Data Summary Sheet, l Section IIC, line 4. eActivity Response Conversion Factor (ARCF) obtained from Figure 3 using time after t shutdown from Summary Table, Section I, line 2. j I ++-aw-

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EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 17 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 r\\) ATTACHMENT III, CALCULATION SHEET III Page 5 of 5 00SE INFORMATION I. Section for the remaining calculations Appropriate section is determined from the following table based on the atmospheric stability class. Complete ONLY ONE section. Stability Class Section (from Sunmary Table, Section I, line 6) AB II (page 18 of 98) C III(page31of98) DE IV (page 44 of 98) FG V (page 56 of 98) ..) ~. .,/ - - - = - - = = - - ~..me ee, .ne., . nee, ..m_ ...n._,n... m.__

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 1$'of 98 FOLLOW-UP DOSE PROJECTIONS Revision Date 6/15/82 O ATTACHMENT III, CALCULATION SHEET III (continued) II. Dose information for atmospheric stability class AB A. Variable distance and Xu/Q 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 "li (Ground Level Rel.) = 3@ Distance = m Xu 1 Ti(ElevatedRel.)= 32 XE e 12 Distance to Q m Down Wind Direction deg. 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 10-5 191.25 - 213.75 500 3.0 x 10-5 1.9 x 10-5 213.75 - 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 10-5 1.1 x 10-5 303.75 - 326.25 980 6.2 x 10-6 5.8 x 10-6 l 326.25 - 348.75 1300 3.1 x 10-6 3.0 x 10-6 348.75 - 360.00 1200 3.8 x 10-6 3.7 x lu-6 -Xu 2. Distance to point of maximum i{ for offgas stack release = 400 m. 1 l m ,ey, w _we4 asw=am e e e -+ -em*We- =N*d -'*%^

EMERGENCY PLAN IMPLEMENTlNG PROCEDURE EPIP 3.3b Page 19 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) B. Normalized concentratio_n, Ground Level Release - Results for Summary Table, Section III, Line 2. la sec 1. 52 + m/secb =l ma at site boundary i l i sec 2. 5.3 x 10-5 + m/secb = m3 at point of max X/Q for offgas stack release sec j 3. 3.8 x 10-7 + m/secb= i m3 at 2 miles sec 4. 4.0 x 10-8 + m/secb=l inTat 5 miles \\ l \\ sec 5. 7.4 x 10-9 + m/secb= m4 at 10 miles ic sec 6. m2 + m/secb =l l m.a't additional a ( Ic sec l l location No. 1 7. m2 + m/secb= l ma at additional l ' location No. 2 j le sec 8. m2 + m/secb =l . ma at additional I l location No. 3 ~ l NOTE: Xu a btain TforgroundlevelreleasefromSectionII,SubsectionA,line1. u bObtain wind speed from Summary Table, Section I, line 5. Xu c0btain ground level release T for additional locations using Figure 4 and appropriate distance from Summary Table, Section III, line 1. e %amw em ms 4=*' h" '^

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 20 of 98 FOLLOW-UP DOSE PROJECTIONS Revision I Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) C. Normalized concentration, Elevated Release - Results for Summary Table, Section III, line 3. la sec 1. m2 + m/secb= ma at site boundary sec 2. 2.4 x 10-5 + m/secb.l DF-at point of max i X/Q for offgas stack release sec 3. 3.5 x 10-7 + m/secb =, m3at 2 miles l sec 4. 3.9 x 10-8 + m/secb =l l m3at 5 miles sec 5. 7.6 x 10-9 + m/secb. , ig at 10 miles t Ic see 6. m2 + m/secb = 53 at additional L location No. 1 Ic sec 7. m2 4 m/secb. l 53 at additional j location No. 2 Ic sec m/secb = , m4 at additional 8. m2 + location No. 3 NOTE: -Xu a0btain il for elevated release from Section II, Subsection A, line 1. bObtain wind speed from Summary Table, Section I, line 5. -Xu j c0btain elevated release li for additional locations using Figure 5 and appropriate j distance from Summary Table, Section III, line 1. i ,,,9,,,, ,wm enhM W "h'"""*4'">W""* ~ * " " '

  • rw w

-w r-

'v

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pagn 21 Of 90 FOLLOW-UP DOSE PROJECTIONS Revision I Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) D. Whole body dose rate - Results from Summary Table Section III, line 4. Cia Cib Ci 1. sec + sec = sec 2 a. FIm x opId. 2b. (1 - FIm x DFNGe = 2c. (line 2a) + (line 2b) = DF Du 3. IT for site boundary: 3 a. FIc x DU0QIfx TCFI9 = 3b. (1 - FIc) x DUOQNG x TCFNGI= h 3c. (line 3a) + (line 3b) = Du Xu 4. IT for location of maximum l{: l 4 a. FIc x 18.0 x TCFI9 = l 4b. (1 - FIc) x 9.20 x TCFNGi= 4c. (line 4a) + (line 4b) = Du 5. IT for 2 miles: l S a. FIc x 0.360 x TCFI9 = Sb. (1 - FIc) x 0.250 x TCFNGi= Sc. (line Sa) + (line 5b) = Du 6. IT for 5 miles: 6 a. FIc x 5.00 x 10-2 x TCFI9 = 6b. (1 - FIc) x 3.40 x 10-2 x TCFNGi= 6c. (line 6a) + (line 6b) = -~w o,.,e.- -em-~~

==w ,e'm*-e=~ ~- ~ ,-em.- m-

7 EMERGENC'( PLAN IMPLEMENTING PROCEDURE EPIP 3.3b of 98 Page 29 FOLLOW-UP DOSE PROJECTIONS Revision I Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) Du

7. ii for 10 miles:

7a. FIc x 2.10 x 10-2 x TCFI 9= 7b. (1 - FIc) x 1.50 x 10-2 x TCFNGi= 7c. (line 7a) + (line 7b) = Du 8. Q for additicnal location No. 1 8a. FIc x DU0QIfx TCFI 9= 8b. (1 - FIc) x DU0QNG x TCFNGi= h 8c. (line 8a) + (line 8b) = Du 9. ii for additional location No. 2 9a. FIc x DU0QIfx TCFI 9= 9b. (1 - FIc) x DU0QNGhx TCFNGi= 9c. (line 9a)' + _ (line 9b) = Du

10. Q for additional location No. 3 10a.

FIc x DU0QIfx TCFI = 10b.(1 - FIc) x DUOQNGhx TCFNGi= 10c. (line 10a) + (line 10b) = C1 secj lla. _ __ Ec (line 1) x Tx (line 2) = Cik Du ml lib. He x 1 (line 3)+ sec = 11c. (line lla) + (line lib) = mrem hr at site boundary O e

  • e--ew

= e-mwm-- e,me em. m - e p

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 23 of 98 FOLLUW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) Ci secj 12a. Tic (line 1) x m3 x (line 2) = Cik Du ml 12b. Tic x 7 (line 4)+ sec = 12c. (line 12a) + (line 12b) l l mrem Du = l l hr at point of max 7 for offgas stack release Ci secj 13a. sic (line 1) x m4 x (line 2) = Cik Du ml l 13b. Te'c x . 7 (line 5)+ s"GI = 13c. (line 13a) + (line 13b) { ~ l l mrem l = l i hr at 2 miles Ci secj 14a. sec (line 1) x mJ 'x (line 2) = l Cik Du ml 14b. Te'c x 7 (line 6)+ sec = 14c. (line 14a) + (line 14b) l l mrem = l l l nr at 5 miles Ci sec) 15a. Tic (line 1) x m3 x (line 2) = Cik Du ml 15b. Tic x 7 (line 7)+ sec = 15c. (line 15a) + (line 15b) l l mrem = l l nr at 10 miles l s i W4u e3 e .w-we -g e w

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pag 24 of 98 FOLLOW-UP 00SE PROJECTIONS Revision 1 Date 6/15/82 .s ATTACHMENT III, CALCULATION SHEET III (continued) Ci secj 16a. sic (line 1) x mJ x (line 2) = gk Du ml 16b. sec x 17 (line 8)+ Ilti = 16c. (line 16a) + (line16b) = mrem hr at additional location No.1 Ci secj 17a. sec (line 1) x mJ x (line 2) = Cik Du ml 17b. Ie'r. x li(line9)+ ,sec = 17c. ('ine 17a) + (line17b) = mrem (~s hr at additional location No. 2 ( Ci secj 18a. ie'c (line 1) x mJ x (line 2)= Cik Ou ml 18b. ii'c x TT (line 10) + sec = 18c. (line 18a) + '(line18b) l = mrem hr at additional location No. 3 NOTES: aReactor building stack release rate from Sunmary Table, Section II, line 2. bTurbine building roof exhaust release rate from Summary Table, Section II, line 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 Summary Sheet, Section II.0, line 1) then use 0.003. d0btain iodine dose f actor (DFI) for time after shutdown (Summary Table, Section I, line 2) from Figure 6. 'Obtain noble gas dose f actor (DFNG) for time after shutdown (Summary Table, Section I, line 2) from Figure 7. l

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Paga 2g of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) Du f0btain 7 for iodine (OU0QI) from Figure d using the appropriate distance from Summary Table, Section III, line 1. 90btain time correction factor for iodine (TCFI) from Figure 9 using time after shutcown (Sunmary Table, Section I, line 2). Du h0btain f for noble gas (DU0QNG) from Figure 10 using the appropriate distance from Summary Table, Section III, line 2. IObtain the noble gas time correction factor (TCFNG) from Figure 11 using time after shutdown (Sunmary Table, Section I, line 2). X 30btain appropriate Q for ground level release from Summary Table, Section III, line 2. k0btain offgas stack rele'ase rate from Semmary 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. l mrem 1. hr (from Section IID, line lic) x hra mrem at site boundary = mrem 2. hr (from Section IID, line 12c) x hra j mrem at point of max X/Q for offgas stack release = mrem l 3. hr (from Section IID, line 13c) x hra mrem at 2 miles = mrem 4. hr (from Section IID, line 14c) x hra mrem at 5 miles =

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 26 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) mrem 5. hr (from Section 110, line 15c) x hra =l l mrem at 10 miles I I mrem 6. hr (from Section IID, line 16c) x bra i =l l mrem at additional location No. 1 1 I mrem 7. nr (from Section IID, line 17c) x hra =l l mrem at additional location No. 2 I I mrem 8. hr (f. rom Section IID, line 18c) x hra =l l mrem at additional location No. 3 l 1 NOTE: a0btain exposure time from Summary Table, Section II, line 1. F. Thyroid Dose Commitment - Result for Swanary Table, Section III, line 6. Cia Cib Ci 1. ( sec + sec ) x FIGd= IIc Cic Ci 2. Tec x FIEe sEE Ci sec Ci 3 a. iec (line 1) x m3 (Sect. IIB, line 1) = EUI Ci sec Ci 3b. Tec (line 2) x m3 (Sect. IIC, line 1) = EEI Ci 3c. (line 3a) + (line 3b) = EP' ~

EMERGENCY PLAN TMPLEMENTING PROCEDURE EPIP 3.3b Page 27 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) Ci sec Ci 4a. TEc (line 1) x m3 (Sect. IIB, line 2) = U Ci sec Ci 4b. TEc (line 2) x m3 (Sect. IIC, line 2) = U Ci (line 4b) = 4c. (line 4a) + Ci sec Ci Sa. Tic (line 1) x m4 (Sect. IIB, line 3) = U Ci sec Ci Sb. Tic (line 2) x m3 (Sect. IIC, line 3) = 3 4C Sc. (line Sa) + (line 5b) = m Ci sec Ci 6a. sic (line 1) x m4 (Sect. IIB, line 4) = U' Ci sec Ci 6b. Tic (line 2) x mJ (Sect. IIC, line 4) = U k (line 6a) + (line 6b) = m 6c. Ci sec Ci 7a. Tic (line 1) x m4' (Sect. IIB, line 5) = U i ' Ci ~ Cl (line 2) x CJ sec sec m4 (Sect. IIC, line 5) = 7" 7b. Ci sec 7c. (line 7a) + (line 7b) = l l Ci sec Ci 8a. Tic (line 1) x m4 (Sect. IIB, line 6) = U Ci sec Ci 8b. Tic (line 2) x m3 (Sect. IIC, line 6) = U Ci 8c. (line 8a) + (line 8b) = E l -ew-ga .--i..-M m-- e g w.e ,ye

EMERGENCY PLAN TMPLEMENTING PROCEDURE EPIP 3.3b Page 28 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III,(continued) Ci sec Ci iT (line 1) x md (Sect. IIB, line 7) = isi 9a. c Ci sec Ci 9b. IIc (line 2) x,_ _ m3 (Sect. IIC, line 7) = EUI $}. 9c. (line 9a) + (line 9b) = m Ci sec Ci 10a. Tec (line 1) x m3 (Sect. IIB, line 8) = 3DI Ci sec Ci 10b. Tec (line 2) x m (Sect. IIC, line 8) = iDI i $}. 10c. (line 10a) + ,(line 10b) = m Ci 11. ECT (line 3c) x hr9 x 3.8 x 108 x TCFIf =~l mrem at site boundary Ci 12. EUI(line 4c) x hr9 x 3.8 x 108 TCFIf = l x l mrem at point of max X/Q Ci 13. EUI(line Sc) x hr9 x 3.8 x 108 TCFIf = l x l-mrem at 2 miles C1 14. EDI(line 6c) x hr9 x 3.8 x 108 x TCFIf= mrem at 5 miles Ci 15. EUI(line 7c) x hr9 x 3.8 x 108 x TCFIf= mrem at 10 miles e = * - wmesg y 4,w.M emmygig e, e-- e,-p

  • e qq.smN-M-

ag 99 + e- '%---mseme-e m+ ,w

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b 2} of 98 Page FOLLOW-UP DOSE PROJECTIONS Revision Date 6/15/82 d' ATTACHMENT III, CALCULATION SHEET III (continued) C1 16. EUI (line 8c) x hr9 x 3.8 x 108 x TCFIf = mrem at additional location No. 1 Ci 17. EUI (line 9c) x hr9 x 3.8 x 108 x TCFIf = mrem at addi'.ional location No. 2 C1 18. iDI (line 10c) x hrg x 3.8 x 108 x TCFIf= i mrem 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 ffgas stack release rate from Summary Table, Section II, line 3. o d Iodine activity fraction for ground level release, obtain from Data Summary Sheet Section IID, line 3a. If unknown use 0.3. elodine 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 11.0, line 1) is in operation then use 0.003. f0btain TCFI from Figure 12 using time after shutdown (Summary Table, Section I, line 2). 9 btain exposure time from Summary Table, Section II, line 1. 0 G. Plume width - The following are the plume widths to be placed in the Sunnary Table, Section III, line 8. Point of maximum X/Q for Offgas Stack release 2mi Sni 10mi 470 3200 6200 11000 (meters) (0.29) (2.0) (3.9) (6.8) (miles) NOTE: Obtain remaining plume widths from Figure 13 using the appropriate distances from Summary Table, Section III, line 1. e -we g -g ogee -e--e.nsse--m ew - m -e-9M u

  • N

-N* 4'd6h9"" 4WM**

I EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 30 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 / ATTACHMENT III, CALCULATION SHEET III (continued) H. Plume arrival time - Results for Summary Table Section III, line 8. mb l lhr to Site 1. 2.78 x 10-4 x ma+ Tec = l l Boundary I l mb l hr to point of max X/Q for 2. 0.111 divided by sec = l l offgas stack release i i mb lhr to 2 miles Tec = l 3. 0.894 divided by l l !I mb lhr to 5 miles Tec = l l l 4 2.23 divided by l mb Tec = l lhr to 10 miles 5. 4.47 divided by l l l mb l lhr to additional . 6. 2.78 x 10-4 x ma+ Iec = l l location No.1 mb l lhrto. additional I 7. 2.78 x 10-4 x ma, Tec = l l location No.2 mb l lhr to additional 8. 2.78 x 10-4 x ma+ sec = l l location No.3 NOTES: i a0btain appropriate distance from Summary Table, Section III, line 1. I bObtain wind speed from Summary Table, Section I, line 5. l S [

EMERGENCY PLAN IMPLEMENTING PROCEDJRE EPIP 3.3b Page 31 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) III. Dose information for atmosphtric 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 l Sumnary Table, Section I, line 4. Xu 1 'll (Ground Level Rel.) 2 Distance m m Xu 1 4-(ElevatedRel.) nGI Xu, 1 2 Down Wind Distance to IT-m Direction deg. 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 4R0 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 10-6 191.25 - 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 4.6 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 Xu 2. Distance to point of maximum "Ti for offgas stack release = 1200m. ~.y' ,.-..e-. -~ ~~ y -#-m

3 EMERGENCY PLAN IMPLEMENT 1NG PROCEDURE EPIP 3.3b Page 3 of 98 I'OLLdd-UP DOSE PROJECTIONS Revision Date 6/15/82 \\ ATTACHMENT III, CALCULATION SHEET III (continued) 8. Nor'salizt6 concentration, Gro:tnd level _ release - Results for Summary Table, Section ill, line 2. la / EU! + m/secb=l sec 1. l ma at site boundary i 2. 3.2 x 10-5 + m/secb= lsec at point of max _lms X/Q for offgas release 3. 6.0 x 10-6 +. m/sech= sec IC at 2 miles 4. 1.2 x 10-6 + m/secb =l sec I ma at 5 miles 5. 3.7 x 10-7 + m/se'cb= sec ~t 10 miles ma a Ic b lsec at additional 6. UR + m/secl=l I imo location No. 1 ic 7. E2 + m/ssc '={ isec at additional h j' lma location No. 2 le 1 8. HR + i, n/se'cb =;-- lsec at additional y l Imd location No. 3 s . 3 NOTE: s t Xu a0btain Q for ground level release from Section III, Subsection A, line 1. ~ bObtain wind speed from Summary Table Section I, line 5. Xu c0btaingroundlevelreleaseQIforadditionallocationsusingFigure14and appropriate distance from Sunnary Table, Section III, line 1. s n (' s + 0 9 .+.5--g,, I

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 33 of 98 F.0LLOW-UP OOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) C. Normalized concentration, Ele _vated release - Results for Summary Table, Section i III, line 3. la 1. _ m2 + m/secb= sec l M t site boundary 2. 3.3 x 10-5 + m/secb= sec at point of max F X/Q for offgas stack release 3. 5.1 x 10-6 + m/secb= lsec imo at 2 miles i i 4. 1.2 x 10-6 + m/secb=, sec ma at 5 miles 5. 3.7 x 10-7 + m/secb= sec ma at 10 miles ic 6. m2 + m/secb =l Isec at additional l Ima location No. 1 ic-4 7. Hi2 + m/secb =l Isec at additional l Ima location No. 2 lc 8. 152 + m/secb =l (sec at additional l Ima location No. 3 Xu a0btain 7 for elevated release from Section III, Subsection A, line 1. bObtain wind speed from Summary Table, Section I, line 5. Xu c0btain elevated release 7 for additional locations using Figure 15 and appropriate distances from Stenary Table, Section III, line 1. D. Who_le body dose rate - Results for Sumary Table, Section III, line 5. Cia Cib Ci 1. sec + sec = sec 2a. FIm x DFId= 2b. (1 - FIm) x DFNGe = j 2c. (line 2a) + (line'2b) = i o

j~ EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Paga 34 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15r/82 ATTACHMENT III, CALCULATION SHEET III (continued) Du 3. Q for site boundary: 3a. FIc x DU0QIfx TCF1 9= l 3b. (1 - FIc) X DUOQNGhx TCFNGi= \\ 3c. (line 3a) + (line 3b) = Du Xu 4. ii~ for location of maximum 7 for offgas stack release: 4 a. FIc x 12.0 x TCFI9= 4b. (1 - FIc) x 8.50 x TCFNGi= l 4c. (line 4a) + (line 4b) = Du 5. Q for 2 miles: Sa. FIc x 8.30 x TCFI 9= Sb.(1 - FIc) x 5.90 x TCFNGI= Sc. (line Sa)' + (line 5b) = Du 6. Q for 5 miles TCFI' = 6a. FIc x 1.85 x 6b.(1 - FIc) x 1.30 x _ TCFNGI= 6 c.~ ~ (line 6a) + (line 6b) = Du 7. E--for -10 miles 7a. FIc x 0.440x TCFI S= 7b.(1 - FIc) x 0.320 x TCFNGi= 7c.- ~ (line 7a)-+- (line 7b) =- O 6 6+N N w OM +M h - -m -ve*WN +-e esp.e, mo .yg ..m

^ ~ - ^ - ~ ^ ~ EMERGENCY PLAN IMPLEMENTING PRUCEDURE EPIP 3.3b Page 35 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 , Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) Du 8. F for additional location No. 1: 8a. FIc x DU0Qifx TCFI 9= Bb.(1 - FIc).X DUOQNGhx TCFNGi = __ 8c. (line 8a) + (line 8b) = Du 9. Q for additional location No. 2: 9a. FIc x 000QIfx TCFI 9= l 9b.(1 - FIc) X DU0QNGhx TCFNGi= 9c. (line 9a) + (line 9b) = Du

10. T for additional location No. 3:

3 10a. FIc x DU0QIfx TCFI 9 = 10b.(1-Fic) X DUOQNGhx TCFNGi= 10c. (line 10a) + (line 10b) = Ci secj ~ ~ 11a. sec (line 1) x mT x (line 2)= Cik Du m1 lib. sec x f (line 3c) 4 sic = 11c. (line lla) + '(linelib) .= mrem hr at site boundary Ci secj 12a. sec (line 1) x mFx (line 2) = f Cik Du ml 12b. sec x f (line 4c) + sic = 12c. (line 12a) + (line 17_b) = mrem Xu hr at point of max 7 .m e,_ .w. --m. .gp.. e... ep,w, e.+

== EMERGENCY PLAN TMPLEMENTlNG PROCEDURE EPIP 3.3b Page 36 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 l Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) Ci secJ t 13a. sec (l'ine 1) x m3 x (line 2) = i Cik Du ml 13b. sec x f (line Sc) + Nc = 13c. (line 13a) + (line 13b) =l Imrem l l hr at 2 miles Ci secj 14a. sec (line 1) x m4 x (line 2) = Cik Du ml f f (line 6) + Rc = 14b. sec x 14c. (line 14a) + (line 14b) =l Imrem ..). I l hr at 5 miles Ci secj I 15a. sec (line 1) x 7 'x (line 2) = f Cik Du ml l 15b. sec x T (line 7c) + Ec j = i 15c. (line 15a) + (line 15b) =l Imrem l l hr at 10 miles Ci se_cd 16a. sec (line 1) x m3 x (line 2) = Cik Du ml 16b. sec x F (line 8c) + Ec = 16c. (line 16a) + (line16b) =l Imrem l l nr at additional location No. 1 Ci secj 17a. sec (line 1) x m4 x (line 2) = - ~ - *, .,.e..m ,---e

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 37 of 98 FOLLOW-UP 00SE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) Cik Du ml 17b. sec x T (line 9c) 4 sic = 17c. (line 17a) + (line 17b) = = mrem hr at additional location No. 2 Ci secj 18a. sec (line 1) x m3 x (line 2) = l Cik Du ml 18b. sec x 7 (line 10c) + Tic = 18c. (line 18a) + (line18b) = j mrem hr at additional location No. 3 ( ] NOTES: aReactor building stack re, lease rate from Sumary Table, Section II, line 2. bTurbine building roof exhaust release rate from Sumary Table, Section II, line 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 Summary Sheet, Section II.0, line 1) then use 0.003. d0btain iodine dose factor (DFI) for time after shutdown (Sumary Table, Section I, line 2) from Figure 6. 'Obtain noble gas dose factor (DFNG) for time after shutdown (Sumary Table, Section I, line 2) from Figure 7. Du f0btain f for iodine (DU0QI) from Figure 16 using the appropriate distance from Summary Table, Section III, line 1. 90btain time correction factor for iodine (TCFI) from Figure 9 using time after shutdown (Sisnmary Table, Section I, line 2). Du h 0btain 7 for noble gas (DUOQNG) from Figure 17 using the appropriate distance from Summary Table, Section III, line 1. 1

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pagm 38 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 s Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) I Obtain the noble gas time correction f actor (TCFNG) from Figure 11 using time after shutdown (Summary Table, Section I, line 2). X d0btain appropriate if for ground level release from Summary Table, Section III, line 2. k0btain offgas stack release rate from Summary Table, Section II, line 3. I Obtain wind speed from Summary Table, Section I, line 5. " Iodine activity to noble gas activity ratjo - obtain from Data Sumary Sheet, Section IID, line 3a. If unknown use 0.3. E. Whole body dose - Results for S'ummary Table Section III, line 5. j mrem 1. hr (from Section IIID, line llc) x hra mrem at site boundary = ,m j mrem { 2. hr (from Section 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 mrem at 2 miles = mrem 4. hr (from Section IIID, line 14C) x hra mrem at 5 miles = j mrem 5. hr (from Section IIID, line 15C) x hra j i mrem at 10 miles = mrem 6. hr (from Section IIID, line 16C) x hra I mrem at additional location No.1 l J = .-..w .~w- -.,..#....-s,~ e--

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 39 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) mrem 7. hr (from Section IIID, line 17C) x hra =l l mrem at additional location No. 2 I I mrem 8. hr (from Section IIID, line 18C) x hra =1 I mrem at additional location No. 3 I I 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 Eic C_,1, 2. sec x FIEe sec Ci sec Ci 3a. Ec (line 1) x m4 (Sect. IIIB, line 1) = 3 Ci sec Li 3b. _Hc (line 2) x m4 (Sect. IIIC, line 1) = U 3c. (line 3a) + (line 3b) = Nm Ci sec Ci 4a. Ec (line 1) x F (Sect. IIIB, line 2) = 3 Ci sec ci l 4b. Ec (line 2) x m3 (Sect. IIIC, line 2) = 3 4 4c. (line 4a) + (line 4b) = m Ci sec Ci Sa. Ec (line 1) x m4 (Sect. IIIB, line 3) = U Ci sec Li 5b. Ec (line 2) x m4 (Sect. IIIC, line 3) = U l h} Sc. (line Sa) + (line 5b) = m ~.. - - - - - ~,.....,.., - -

EMERGENCY PLAN TMPLEMENTING PROCEDURE EPIP 3.3b Page 40 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ] ATTACHMENT III, CALCULATION SHEET III (continued) CJ (line 1) x sec Ci sec m3 (Sect. IIIB, line 4) = 3 6a. Ci sec L1 6b. Tic (line 2) x m3 (Sect. IIIC, line 4) = U M Sc. (line 6a) + (line 6b) = m* Ci sec Ci 7a. Tic (line 1) x m3 (Sect. IIIB, line 5) = U Ci sec Li 7b. Tic (line 2) x m4 (Sect. IIIC, line 5) = U 7c. (line 7a) + (line 7b) = Ci sec Ci 8a. _ Tic (line 1) x m3 (Sect. IIIB, line 6) = U Ci sec Li 8b. Tic (line 2) x m3 (Sect. IIIC, line 6) = U L1 8c. (lin.e Ba) + (line 8b) = N (s\\ Ci sec Ci ~ 9a. Tic (line 1) x m3 (Sect. IIIB, lin 7) = F Ci sec Li 9b. Tic (line 2) x md (Sect. IIIC, line 7) = U N 9c. (line 9a) + (line 9b) = m Ci sec Ci lua. Tic (line 1) x m3 (Sect. IIIB, line 8) = U Ci sec Ci 10b. Tec (line 2) x md (Sect. IIIC, line 8) = U~ 4 10c. (line 10c) + (line 10c) + m Ci 11. U (line 3c) x hr9 x 3.8 x 108 TCFIf = I x j mrem at site boundary Ci 12. U (line 4c)'x hr9 x 3.8 x 108 x TCFIf = l l mrem at point of max X/Q O _s.-,-. -.m r.._..

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page , 40 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) sec Ci CJ (line 1) x sec m3 (Sect. IIIB, line 4) = 3 6a. Ci sec Li 6b. Tic (line 2) x m3 (Sect. IIIC, line 4) = U 6c. (line 6a) + (line 6b) = ~ h Ci sec Ci 7 a. Tic (line 1) x m4 (Sect..IIIB, line 5) = U Ci sec L1 7b. Tic (line 2) x m4 (Sect. IIIC, line 5) = F 7c. (line 7a) + (line 7b) = _h Ci sec Ci 8a. Tic (line 1) x m3 (Sect. IIIB, line 6) = F Ci sec Li 8b. Tic (line 2) x m3 (Sect. IIIC, line 6) = U @Li 8c. (line 8.a) + (line 8b) = Ci sec Ci 9a. Tic (line 1) x m3 (Sect. IIIB, line 7) = F Ci sec Li 9b. Tic (line 2) x m4 (Sect. I'IIC, line 7) = ' W N 9c. (line 9a) + (line 9b) = m Ci sec Ci lua. Tic (line 1) x m3 (Sect. IIIB, line 8) = U Ci sec Ci i 10b. Tic (line 2) x m3 (Sect. IIIC, line 8) = B' 4-10c. (line 10c) +. (line 10c) + m Ci ~ 8 11. U (line 3c) x hr9 x 3.8 x 10, x TCFIf = l _l mrem at site boundary Ci 12. U (line 4c) x hr9'x 3.8 x 108 _CFIf = l T x l mrem at point of max X/Q s 8 .--w----- +i.--. e ,.-e-

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 41 of 98 FOLLOW-UP 00SE PROJECTIONS Revision 1 Date . 6/15/82 3 J ATTACHMENT III, CALCULATION SHEET III (continued) Ci 13. EEI (line Sc) x hr9 x 3.8 x 108 TCFIf = i x mrem at 2 miles Ci 14. _HEI(line 6c) x hr9 x 3.8 x 108 x TCFIf = mrem at 5 miles = 1 0 e .-i-*-m+m en,q,m,-.ee. o +-w-

  • a

"*-**C

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 42 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ~ 3 ATTACHMENT III, CALCULATION SHEET III (continued) Ci 15. U (line 7c) x hr9 x 3.8 x 108 x TCFIf= mrem at 10 miles Ci 16. U (line 8c) x hr9 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=l l l l 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 i 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. c0ffgas stack release rate from Summary Table, Section II, line 3. d Iodine activity fraction for ground level release, - obtain from Data Summary Sheet Section IID, line 3a. If unknown use 0.3. elodine 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.D, line 1) is in operation then use 0.003. f0btain TCFI from Figure 12 using time after shutdown (Summary Table, Section I, line 2). 90btain exposure time from Summary Table, Section II, line 1. I l ...., ~, .e- --.=w-* .e a =

  • r

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Paga of 98 43 FOLLOW-UP D0SE PROJECTIONS Revision I Date 6/15/82 j D J ATTACHMENT III, CALCULATION SHEET III (continued) G. Plume width - The following are the plume widths to be placed in the Sumary 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 18 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 ihr to point of max X/Q for 3 2. 0.333 divided by sec = offgas stack release J mb lhr to 2 miles 3. 0.894 divided by Tec = l mb lhr to 5 miles 4. 2.23 divided by sec = mb lhr to 10 miles 5. 4.47 divided by sec = [ mb hr to additional 6. 2.78 x 10-4 x ma+ sec = location No. 1 mb hr to additional 7. 2.78 x 10-4 x ma+ sec = location No. 2 mb hr to additional 8. 2.78 x 10-4 x ma4 sec = location No. 3 NOTES: a0btain appropriate distance from Summary Table, Section III, line 1. b + Obtain wind speed from Summary Table, Section I, line 5. i ,,w.. -,-e#-~,n ---=.e + = = = m -dwe** -*or*==.

    • =-

e "w' - * - ' - ' + * * ,3-,4

I EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 44 of 98 FOLLOW-UP 00SE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) IV. 00se information for atmospheric stability class DE A. Variable distance and Xu/Q values. j 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 3. Xu 1 "l[(GroundLevelRel.) g[2 Distance m Xu 1 4-(Elevated Rel.) nUI Xu, 1 Down Wind Distance to ii~ EN l Direction deg. Site Bdy, meters Ground Level Rel. Elevated Rel. 0 - 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 l 78.75 - 101.25 490 6.1 x 10-4 2.1 x 10-10 t 101.25 - 123.75 450 7.3 x 10-4 1.6 x 10-11 i 123.75 - 146.25 480 6.4 x 10-4 1.6 x 10-10 1 146.25 - 168.75 500 6.0 x 10-4 2.6 x 10-10 108.75 - 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 - 281.25 670 3.7 x 10-4 1.2 x 10-9 l 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 10-8 326.25 - 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 j i Xu 2. Distance to point of maximum "l{ for offgas stack release = 4000m. O .e

EMERGENCY PLAN TMPLEMENTZNG PROCEDURE EPIP 3.3b Page 45 of 98 FOLLOW-UP 00SE PROJECTIONS Revision 1 Date 6/15/82 .. ~ l ATTACHMENT III, CALCULATION SHEET III (continued) B. Normalized _concentrat_ ion, Ground level releas_e - Results for Sumary Table, Section III, line 2. la 1. m2 + m/secb=l sec j l W at site boundary l l 2. 2.2 x 10-5 + m/secb= ,sec at point of max ' W X/Q for offgas release 3. 3.1 x 10-6 + m/secb =l sec ma at 2 miles 4. 7.2 x 10-6 + m/secb =r sec m3 at 5 miles 5. 2.4 x 10-7 + m/secb=l sec I ma at 10 miles 6. m2 + m/secb =l lsec at additional l Ima location No. 1 ic 7. E2 + m/secb =l Isec at additional l Ima location No. 2 lc 8. m2 + m/secb =l lsec at additional 1 Ima location No. 3 NOTE: Xu l a0btain li for ground level release from Section IV, Subsection A, line 1. bObtain wind speed from Summary Table Section I, line 5. Xu c0btain ground level release Q for additional locations using Figure 19 and appropriate distance from Sumary Table, Section III, line 1. C. Normalized concentration, Elevated release - Results for Sumary Table, Section 111, line 3. la 1. m'2 + m/secb =l lsec l lmo at site boundary j

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 46 of 98 FOLLOW-UP 00SE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) 2. 7.0 x 10-6 + m/secb= sec at point of max mJ X/Q for offgas stack release 3. 6.6 x 10-6 + m/secb =l sec l HET at 2 miles 4. 4.7 x 10-6 + m/,secb =, sec ma at 5 miles 5. 2.0 x 10-6 + m/secb =l Isec Ima at 10 miles Ic 6. 52 + m/secb =l lsec at additional a location No. 1 [ im lc 7. 52 + m/secb =l isec at additional l Ima location No. 2 lc 8. m2,+ m/secb =l Isec at additional l liET-location No. 3 N0!E: Xu a btain IT for elevated release from Section IV, Subsection A, line 1. u bObtain wind speed from Summary Table, Section I, line 5. Xu c0btain elevated release if" for additional locations using Figure 20 and appropriate distances from Sunnary 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 DFId = 2b. (1 - FIm x DFNGe = 2c. (line 2a) + (line 2b) = = y- ,.y i,m- -e,-% %*-m' - *

  • yr r----

' y EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 47 of 98 FOLLOW-UP 00SE PROJECTIONS Revision 1 Date 6/16/82 ATTACHMENT III, CALCULATION SHEET III (continued) Du 3. 7 for site boundary: 3a. FIc x DU0QIf TCFI x = 3b.(1 - _FIc) x DUOQNGhx TCFNGi= 3c. (line 3a) + (line 3b) = Du Xu 4. 7 for location of maximum 7 for offgas stack release: 4a. FIc x 11.0 x TCF19= 4b (1 - _FIc) x 7.2 x TCFNGi = (line 4a) + (line 4b) = 4c. Du

5. 7 for 2 miles:

Sa. FIc x 11.1 x TCFI9= Sb.(1 - FIc) x 8.0 x TCFNGi= Sc. .(line Sa) + (line 5b) = Du

6. 7 for 5 miles 6a.

FIc x 7.4 x TCFI = 6b.(1 - FIc) x 4.1 x TCFNGi= 6'c- '. (line 6a) + (line 6b) = Du' 7. T for~10 milei 7a. -~FIC x 2.6 x TCFI9= ,7b.(1 - FIc) x 1. 85'x TCFNGi = Tc.' (line 7a) + (line 7b) = em 9 e

    • e -me h wa-

-.,mg p, -g e a ew e

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 48 cf 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET I'II (continued) l Du 8. T for additional location No. 1: DU0QIfx TCFI9 = 8a. FIc x 8b.(1 - FIc) X DU0QNGhx TCFNGi= 8c. (line 8a) + (line 8b) = Du

9. T for additional location No. 2:

TCFI9= l 9a. FIc x DU0QIfx 9b.(1 - FIc) X DUOQNGhx TCFNGi = ~ l 9c. (line 9a) + (line 9b) = l Du

10. T for additional location No. 3:

10a. FIc x DU0QIfx TCFI S= 10b.(1 - _FIc) X DUOQNGhx TCFNGi = (line 10b) = 10c. (line 10a) + C1 secd lla. sec (line.1) x m3 x (line 2) = 1 Cik Du _ m, lib. sec x IT" (line 3) + sec = 11c. (line lla) + (linelib) =l Imrem l' _l hr at site boundary ~ l Ci secj 12a. sec (line 1) x m3 x (line 2) = Cik Du ml 12b. sec x T (line 4) + sic = 12c. (line 12a) + (line12b) =l Imrem Xu J l l-l' hr atpointofmax~T ww e ,---w ..w.c.

r-w----w me

-r

EMERGENCY PLAN XMPLEMENTING PROCEDURE EPIP 3.3b Page 49 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) Ci secj 13a. sec (line 1) x mo x (line 2)~= Cik Du ml 13b. sec x _F (line 5) + Ec = 13c. (line 13a) + (line 13b) =l Imrem I i hr at 2 miles Ci secj -14a. sec (line 1) x m3 x (line 2) = Cik Du ml 14b. sec x 7 (line 6) + Nc = 14c. (line 14a) + (line 14b) =l Imrem l l hr at 5 miles Ci secj 15a. W (line 1) x TJ x (line 2) = Cik Du ml 15b. sec x 7 (line 7) + Nc = 15c. (line 15a) + (line 15b) =l Imrem_ l l hr at 10 miles l Ci seci 16a. sec (line 1) x m3 x (line 2) = Cik Du ml 16b. sec x 7 (line 8) + Rc = 16c. (line 16a) + (line 16b) l =l Imrem j I hr at additional location No.1 -r s e, + ,-----,-,,n ~ w W

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 50 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 ~ Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) Ci secj 17a. sec (line 1) x 7x (line 2) = Cik Du ml 17b. sec x 7 (line 9) + Rc = 17c. (line 17a) + (line17b) = mrem hr at additional location No. 2 Ci secj 18a.

  • sec (line 1) x m3 x (line 2) =

Cik Du ml 18b. sec x f (line 10)+ Rc = 18c. (line 18a) + (line 18b) = mrem hr at additional location No. 3 NOTES: aReactor building stack release rate from Summary Table, Sec' tion II, line 2. bTurbine building roof exhaust release rate from Summary Table, Section II, line 4. j clodine activity to noble gas activity ratio - obtain from Data Sumary 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 (Summary Table, Section I, line 2) from Figure 6. e0btain noble gas dose factor (DFNG) for time after shutdown (Summary Table, Section I, line 2) from Figure 7. I Du ( f0btain Q for iodine (DUOQI) from Figure 21 using the appropriate distance from Summary Table, Section III, line 1. 90btain time correction factor for iodine (TCFI) from Figure 9 using time after shutdown (Stanary Table, Section I, line 2). Du h i 0btain Q for noble gas (DU0QNG) from Figure 22 using the appropriate distance from l Summary Table, Section III, line 1. I

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 51 f 98 FOLLOW-UP DOSE PROJECTIONS Revision I Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) I Obtain the noble gas time correction factor (TCFNG) from Figure 11 using time after ( shutdown (Sunmary Table, Section I, line 2). X d0btain appropriate Q for ground level release from Summary Table, Section III, line 2. j k0btain offgas stack release rate from Summary Table, Section II, line 3. I Obtain wind speed from Summary Table, Section I, line 5. " Iodine activity to noble gas activity ratio - obtain from Data Summary Shet Section IID, line 3a. If unknown use 0.3. E. Whole body dose - Results for Sunmary Table Section III, line 5. l wm 1. hr (from Section IVD, line llc) x hra l l mrem at site boundary = l mrem j 2. hr (from Section IVD, line 32C) 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 = I wm i 4. hr (from Section IVD, line 14C) x hra mrem at 5 miles = mrem hr.(from Section IVD, line 15C) x hra 5. i mrem at 10 miles = i mrem 6. hr (from Section IVD, line 16C) x hra mrem at additional location No.1 = o e N* m-W

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 52 of 98 FOLLOW-UP 00SE PROJECTIONS Revision I Date 6/15/92 s ATTACHMENT III, CALCULATION SHEET III (continued) mren 7. hr (from Section IVD, line 17C) x hra =l l mrem at additional location No. 2 l l mrem l 8. hr (from Section IVD, line 18C) x hra =l l mrem at additional location No. 3 l 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= isc Cic Ci 2. iic x FIEe sec Ci sec Ci ~ 3a. IIc (line 1) x m3 (Sect. IVB, line 1) = fqr Ci sec L1 3b. IIc (line 2) x m3 (Sect. IVB, line 1) = EUI f 3c. (line 3a) + (line 3b) = Ci sec Ci 4 a. Tec (line 1) x ma (Sect. IVB, line 2) = iDr Ci sec Li 4b. ITc (line 2) x m3 (Sect. IVB, line 2) = iUI ( 4c. (line 4a) + (line 4b) = P Ci sec Ci Sa. sec (line 1) x m3 (Sect. IVB, line 3) = EsI Ci sec Ci 5b. Tec (line 2) x m3 (Sect. IVB, line 3) = m7 Li Sc. (line Sa) + (line Sb) = EEf 9 ~~ -n-- ms as -ges e o ~

EMERGENCY PLAN IMPLEMENTlNG PROCEDURE EPIP 3.3b Page 53 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT II,I, CALCULATION SHEET III (continued) Ci sec Ci 6a. Ec (line 1) x mi (Sect. IVB, line 4) = U Ci sec Li 6b. Ec (line 2) x m4~ (Sect. IVB, line 4) = U N 6c. (line 6a) + (line 6b) = m Ci sec Ci 7a. Ec (line 1) x md (Sect. IVB, line 5) = U Ci see Li 7b. Ec,(line 2) x m3 (Sect. IVB, line 5) = 3 4 7c. (line 7a) + (line 7b) = m Ci sec Ci 8a. Ec (line 1) x ' m3 (Sect. IVB, line 6) = U .Ci sec Li 8b. Ec (line 2) x mo (Sect. IVB, line 6) = U Li 8c. (line 8a) + (line 8b) = ~ Ci see Ci 9a. Ec (line 1) x m4 (Sect. IVB, line 7) = U Ci sec Li 9b. sec (line 2) x md (Sect. IVB, line 7) = U N 9c. (line 9a) + (line 9b) = m Ci sec Ci 10a. Ec (line 1) x m3 (Sect. IVB, line 8) = U Ci sec Li 10b. _ Ec (line 2) x m3 (Sect. IVB, line 8) = U N 10c. (line 10a) + (line 10b) = m Ci 11. U (line 3) x hr9 x 3.8 x 108 TCFIf = l l x l l mrem at site boundary Ci 12. E (line 4) x hr9 x 3.8 x 108 x TCFIf=l l l _l mrem at point of max X/Q -,.4-mm ... - -, -e m--- w -a*--e-e-e=~-e--- 'w--~= -~*

  • ' - * ' ~ ~ ' * * * * *

--m

EMERGENCY PLAN TMPLEMENTlNG PROCEDURE EPIP - 3.3b Page 54 Of 90 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ) ATTACHMENT III, CALCULATION SHEET III (continued) Ci 13. U (line 5) x hr9 x 3.8 x 108 l 4' x TCFIf= mrem at 2 miles l Ci l 14. U (line 6) x hr9 x 3.8 x 108 x TCFIf = mrem at 5 miles Ci i i 15. ' U (line 7) x hr9 x 3.8 x 108 x TCFIf= mrem at 10 miles Ci 16. U (line 8) x hr9 x 3.8 x 108 l TCFIf = l~ x l l mrem at additional location No. 1 i Ci 17. U (line 9) x hr9 x 3.8 x 108 x TCFIf= mrem at additional location No. 2 l Ci i 18. U (line 10)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 building roof exhaust release rate from Summary Table, Section II, line 4. 1 c0ffgas stack release rate from Summary Table, Section II, line 3. d Iodine activity fraction for ground level release - obtain from Data Summary Sheet Section IID, line 3a. If unknown use 0.3. l elodine activity fraction for elevated release - obtain from Data Summary (see Data Sheet Section IID, line 3b. If unknown use 0.3 unless Standby Gas Treatment i Summary Sheet, Section 11.0, line 1) is in operation then use 0.003. ,.w-Ju-me .**e,* me-i ww

  • -eseem

--m --hehec--@ _aweisurewe - =., =-e--ueemane=we

  • mme-

--*w -+na--

EMERGENCY PLAN TMPLEMENTING PROCEDURE EPIP 3.3b Page 55 of 98 F0LLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) f0btain TCFI from Figure 12 using time after 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 placed in the Sumary Table, Section III, line 7. 1 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 pitzne widths from Figure 23 using the appropriate distances from Summary Table, Section III, line 2. H. Plume arrival time - Results for Summary Table Section III, line 9. i mb l lhr to Site l. 2.78 x 10-4 x ma+ sec = l l Boundary l mb l lhr to point of max X/Q for 2. 1.11 divided by sec = 1 I offgas stack release i mb l lhr to 2 miles 3. 0.894 divided by sec = l l mb l hr to 5 miles 4. 2.23 divided by sec = l l I mb I lhr to 10 miles l l 5. 4.47 divided by sec = l l l mb l lhr to additional 6. 2.78 x 10-4 x ma+ sec = l l location No. 1 l mb l ' lhr to additional I 7. 2.78 x 10-4 x ma+ Tec= l l location No. 2 mb l lhr to additional ]'. 8. 2.78 x 10-4 x ma+ sec = l l location No. 3 l NOTES: l i a0btain appropriate distance from Summary Table, Section III, line 1. i bObtain wind speed from Summary Table, Section I, line 5. l

~ EMERGENCY PLAN IMPLEMENTlNG PROCEDURE EPIP 3.3b Page 56 of 98 FOLLOW-UP 00SE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) V., Dose information for atmospheric stabi_lity class FG A. Variable distance and Xu/Q value_s. 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.) lii2 Distance m Xu 1 f(ElevatedRel.} m7 Xu 1 Down Wind Distance to p, m-2 Direction deg. Si_te 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 0.0 168.75 - 191.25 460 3.9 x 10-3 0.0 191.25 - 213.75 500 3.5 x 10-3 0.0 213.75 - 236.25 630 2.5 x 10-3 0.0 236.25 - 258.75 720 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 point of maximum 7 for offgas stack release = 16090m. _ - - ~.

  • - +

.c .-=

l EMERGENCY PLAN 1MPLEMEN'TlNG PROCEDURE EPIP 3.3b Page 57 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) 8. Normalized _ concentration, Ground level release - Results for Summary Table, Section 111, line 2. la 1. E+ m/secb =l sec l ma at site boundary 2. 2.0 x 10-5 + m/secb= sec at point of max ma X/Q for offgas release 3. 2.1 x 10-4 + ,m/secb= sec I F at 2 miles 4. 5.5 x 10-5 + m/secb= sec W at 5 miles 5. 2.0 x 10-5 + m/secb= sec. ma at 10 miles Ic 6. E +' m/secb =l lsec at additional l Imo location No. 1 7. R+ m/secb =l Isec at additional I ima location No. 2 1c 8. R+ m/secb =l lsec at additional l Imo location No. 3 NOTE: Xu a0btain E for ground level release from Section V, Subsection A, line 1. bObtain wind speed from Summary Table Section I, line 5. Xu c0btain ground level release 7for additional locations using Figure 24 and appropriate distance from Summary Table, Section III, line 1. g# .-m. w_a.- ...m, n -.-m e

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 58 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ) ATTACHMENT III, CALCULATION SHEET III (continued) C. Normalized concentration, Elevated release - Results for Summary Table, Section i l 111, line 3. 1. 32 + m/secb= sec lii3at 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= sec mJ at 2 miles 4. 2.2 x 10-7 + m/secb= sec Tm at 5 miles 5. 1.7 x 10-6 + m/secb= sec liiT at 10 miles Ic 6. E2 + m/secb=, sec at additional L iiiT-location No. 1 Ic 7. E2 + m/secb= sec at additional I ma location No. 2 ic 8. 52 + m/secb =. sec at additional m4 location No. 3 NOTE: Xu a0btain IT for elevated release from Sectopm V. Subsection A, line 1. l bObtain wind speed from Summary Table, Section I, line 5. Xu c0btain elevated release IT for additional locations using Figure 25 and appropriate distances from Sunmary Table, Section III, line 1. O. Whole body dose rate - Results for Summary Table, Section III, line 4. 1 l Cia Cib Ci 1. sec + sec = sec l 2 a. FIm x DFId= ~ 2b. (1 - FIm) x DFNGe. 1 l 2c. (line 2a) + (line 2b) = ++%et+--~-e.-e -i-p =e m ..+w -s e a re. -w

    1. N r

= -w-

EMERGENCY PLAN IMPLEMENTING PROCEDURE 'EPIP 3.3t !c.f 98 Pagu. 5 ~ FOLLOW-UP 00SE PROJECTIONS Rwision 7 Date 6/!S/82 f j ATTACHMENT III,. CALCULATION SHEET III (continued) Du i 3;i f for site boundary: .f 'TCFI 9= 3a. ' 1 FIc x DU0QIfx i i'= 3b. (l'- FIc) X DUOQNGhx TCFNG i (line 3a) + (line 3b)' = iI 3c. Du Xu f 4. Q for location of maximam F TCFI'9 = 4a. FIc x 4'.2 x 4b. (1 ', FIc) x,3.0 x TCFNGI= A 4c. (line 4a) + (line 4b) = j Du ( 5.'~Q 'for 2 miles: i S a'. 'FIc x 6.8 x TCFI 9=, Sb.'(1 - NIc) x 4.8 'TCFNGi= f ^ x l('line5b)= ' Sc. (line Sa) +- Du i 6. Q for 5 miles 6a. FIc x 5.3 x TCFI 9= l. 6b.(1-Tic) x 3.7' x TCFNGi= ~ 6c. '(line 6a) + -(line 6b) = s t i Du j

7.. Q for 10 miles 3'

7a. Fic x 4.2 x TCFI 9= i i= FIC)~ x' 3.0 7b.(1 - x TCFNG i .(line 7a) + (line 7b) = l 7c. i Du , f' ~ ~ ~ 8. Q for additional location No. 1 y i Ba. ' c.Ic x OU0QIfx TCFI 9= I i l i 8b.(1 - FIc) X 000QNGhx TCF.NG ~= .___._-__. _.._..o. .Il4aa o.\\.A ./14an o' i - a i 1. 6

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 60 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) Du 9, 7 for additional location No. 2 f 9 a. FIc x DU0QI x TCFI9 = 9b. (1 - FIc) X DU0QNG x TCFNGi= h 9c. (line 9a) + (line 9b) = Du

10. 7 for additional location No. 3 f

10a. FIc x DU0QI x TCFI9 = 10b.(1 - FIc) X DU0QNG x TCFNGi= h 10c. (line 10a) + (line10b)= d Ci s 11a. sec (line 1) x x (line 2) = Ci Du ml k lib. sec x 7 (line 3c)4 Ec = 11c. (line lla) + (linelib) = mrem hr at site boundary d Ci seq 12 a. sec (line 1) x m x (line 2)= a Ci Du ml k 12b. sec x F (line 4c)+ Ec = 12c. (line 12a) + (line 1;- = mrem Xu hr at point of max 7 d Ci seq 13a. sec (line 1) x 7 (line 2)= __ m x Ci Du ml k 13b. sec x IT- (line Sc)4 sec = 13c. (line 13a) + (line 13b) = mrem nr at 2 miles ~ +-

. = -. EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pag 3 61 Of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) Ci secd 14a. sec (line 1) oc m3 x (line 2) = Cik Du ml 14b. .sec x ___. IT~ (line 6c)+ II'c = 14c. (line 14a) + (line14b) =l l mrem l l hr at 5 miles Ci secj 15a. sec (line 1) x m3 x (line 2) = Cik Du ml 15b. sec x IT~ (line 7c)+ TE'c = 15c. (line 15a) + (line15b) =l Imrem l l hr at 10 miles Ci sec) 16a. sec (line'l) x m3 x (line 2) = Cik Du ml 16b. sec x IT- (line 8c)+ TE'c = 16c. (line 16a) + (line 16b) =l l mrem l _l hr at additional location No. 1 Ci secj 17a. sec (line 1) x m4 x (line 2) = Cik Du ml 17b. sec x IT~ (line 9c)+ TE'c = 17c. (line 17a) + (line 17b) =l l mrem l l hr at additional location No. 2 ,a b = s mee m - er ee-m e m. 3e -w e-W

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pag 2 of 98 62 FOLLOW-UP DOSE PROJECTIONS Revision I Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) Ci secj 18a. sec (line 1) x mJ x (line 2) = Cik Du ml 18b. sec x f (line 10c)+ sec = i 18c. (line 18a) + (line18b) l = mrem hr 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. C lodine 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 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 6. 'Obtain noble gas dose factor (DFNG) for time after shutdown (Sumary Table, l Section I, line 2) from Figure 7. Du f0btain 7 for iodine (DUOQI) from Figure 26 using the appropriate distance from Summary Table, Section III, line 1. 90btain time correction f actor for iodine (TCFI) from Figure 9 using time af ter shutdown (Sunmary Table, Section I, line 2). l Du l h0btain 7 for noble gas (DU0QNG) from Figure 27 using the appropriate distance from Summary Table, Section III, line 1. IObtain the noble gas time correction factor (TCFNG) from Figure 11 using time after shutdown (Sunmary Table, Section I, line 2). X d0btain appropriate Q for ground level release from Sumary Table, Section III, line 2. kObtain offgas stack release rate from Sumary Table, Section II, line 3. 10btain wind speed from Summary Table, Section I, line 5.

  • Iodine activity'to noble gas activity ratio-obtain from Data Sumary Sheet Section IID, line 3a.

If unknown use 0.3. -W= -q -p 4 y h e==-

  • e e

-z=--, e- -d + r

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 63 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) E. Whole body dose - Results for Summary Table Section III, line 5. mrem 1. hr (from Section VD, line llc) x hra =l l mrem at site boundary i I i mrem 2. hr (from Section VD, line 12C) x hra =I l mrem at point of max X/Q I I mrem 3. hr (from Section VD, line 13C) x hra =I l mrem at 2 miles l l mrem 4. hr (from Section VD, line 14C) x hra =l l mrem at 5 miles ./ l I l mrem 5. hr (from Section VD, line 15C) x hra =l l mrem at 10 miles I I mrem 6. t hr (from Section VD, line 16C) x hra =l l mrem at additional location No.1 I I mrem 7. hr (from Section VD, line 17C) x hra =l l mrem at additional location No. 2 l I l mrem l 8._ hr (from Section VD, line 18C) x hra =l l mrem at additional 1.ocation No. 3 l I l l ...s- +

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 64 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) NOTE: a0btain exposure time from Summary Table, Section II, line 1. F. Thyroid Dose Connitment - Result for Summary Table, Section III, line 6. Cia Cib Ci 1. ( _.sec + sic ) x FIGd= IIc Cic Ci

2.,

IIc x FIEe sic Ci sec Ci 3a. iic (line 1) x m3 (Sect. VB, line 1) = mI Ci sec Ci 3b. lic (line 2) x md (Sect. VC, line 1) = EUI Ci 3c. (line 3a) + (line '3b) = EEP Ci, sec Ci 4a. Tic (line 1) x m4 (Sect. VB, line 2) = EUI 1 Ci sec Ci 4b. iic (line 2) x _ m4 (Sect. VC, line 2) = m7 k 4c. (line 4a) + (line 4b) = m Ci sec Ci I Sa. sec (line 1) x mJ (Sect. VB, line 3) = EUI l I C i, sec Ci l Sb. sec (line 2) x m3 (Sect. VC, line 3) = EUI k 5c. (line Sa) + (line 5b) = m l Ci sec Ci i 6a. IIc (line 1) x m3 (Sect. VB, line 4) = EUI Ci sec Ci 6b. lec (line 2) x m3 (Sect. VC, line 4) = mT l Ci 6c. (line 6a) + (line 6b) = 39I m p amw g wee.= = +W e-a w-eda = em.a g. +*e-g +-W6* h N*

EMERGENCY PLAN IMPLEMENTING _PROCED_URE EPIP 3.3b Page 65 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (con.tinued) i Ci sec Ci 7a. sic (line 1) x mJ (Sect. VB, line 5) = 3DI Ci sec Ci 7b. isc (line 2) x mi (Sect. VC, line 5) = isi Ci 7c. (line 7a) + (line 7b) = iPP Ci sec Ci 8a. sec (line 1) x m3 (Sect. VB, line 6) = EDI Ci sec Ci Bb. iic (line 2) x m3 (Sect. VC, line 6) = EUI 4C 8c. (line 8a) + (line 8b) = m \\ ~ l Ci sec Ci ~ 9a. sic (line 1) x m4 (Sect. VB, line 7) = EUI ~ Ci sec Ci 9b. sic (line 2) x m3 (Sect. VC, line 7) = EUI 4C 9c. (line 9a) + (line 9b) = m CJ (line 1) x ,C_i, sec i sec m3 (Sect. VB, line 8) = mo 10a. Ci sec C1 10b. Tec (line 2) x m3 (Sect. VC, line 8) = iUI l 4C m 10c. (line 10a)+ (line 10b) = C1 11. EDI (line 3c)x hr9 x 3.8 x 108 x TCFIf = l l l _l mrem at site boundary Ci 12. 30I(line 4c)x hr9 x 3.8 x 108 ~ x TCFI'f = mrem at point of max X/Q + +-*=.--eare_.--o-m. ens-ppm - e +=m.-de -n my em-

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 66 of 98 i FOLLOW-UP 00SE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CALCULATION SHEET III (continued) Ci } 13. m7 (line Sc)x hr9 x 3.8 x 108 x TCFIf=, l l 1 mrem at 2 miles Ci 14. U (line 6c)x hr9 x 3.8 x 108 j x TCFIf= mrem at 5 miles C1 15. U (line 7c)x hr9 x 3.8 x 108 x TCFIf= mrem at 10 miles j Ci I 16. U (line 8c)x hr9 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= l mrem at additional location No. 2 Ci 18. U (line 10c) x hr9 x 3.8 x 108 x TCFIf = -l l mrem 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. c0ffgas stack release rate from Summary Table, Section II, line 3. l d Iodine activity fraction for ground level release - obtain from Data Summary Sheet i Section IID, line 3a. If unknown use 0.3. O e -a se,,%em,--e. a a e n = w -e**

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 67 of 98 FOLLOW-UP 00SE PROJECTIONS Revision 1 Date 6/15/82 m ATTACHMENT III, CALCULATION SHEET III (continued) elodine activity fraction for elevated release - obtain from Data Summary (se Sheet Section 110, line 3b. If unknown use 0.3 unless Standby Gas Treatment Summary Sheet, Section II.0, line 1) is in operation then use 0.003. f0btain TCFI from Figure 12 using time after 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 placed in the Summary Table, Section III, line 7. Point of maximisn X/Q for Offgas Stack release 2mi Smi 10mi i 2000 530 970 2000 (meters) I (1.2) (0.33) (0.60) (1.2)(miles) NOTE. J Obtain remaining plume widths from Figure 28 using the appropriate distances from Summary Table, Section III, line 1. H. Plume arrival time - Results for Summary Table Section III, line 8. mb l lhr to Site 1. 2.78 x 10-4'x ma+ sec = l l Boundary mb ihr to point of max X/Q for 2. 4.47 divided by sec = offgas stack release mb 1 thr to 2 miles 3. 0.894 divided by sec = l l mb l lhr to 5 miles 4. 2.23 divided by sec = l l mb l lhr to 10 miles 5. 4.47 divided by sec = l l mb l lhr to additional 6. 2.78 x 10-4 x ma+ sec = l l location No. 1 9 e -en yso-as e ~ o + um w e-+---p

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pag 2 68 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ATTACHMENT III, CdLCULATION SHEET III (continued) mb l lhr to additional 7. 2.78 x 10-4 x ma, s'ec = l l location No. 2 mb l lhr to additional 8. 2.78 x 10-4 x ma+ sec = l l location No. 3 NOTES: a0btain appropriate distance from Summary Table, Section III, line 1. bObtain wind speed from Summary Table, Section I, line 5. '. g G -ej e -o em e &WW.-eea-emo.+=w e.e Awome*+p'4 Newe e M em- '-N-r 88- "9 h-i-..

\\ EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pag 69 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 m -. ) ATTACHMENT III, CALCULATION SHEET IV RELEASE RATE FROM FIELD MEASUREMENT 1. Fla x DUOQIbx TCFIc + (1 - Fla) x DU0QNGdx TCFNGe Du 17 m9 Du 2. mR/hrf x see t - Q (line 1) =l l Ci l . I sec Minimum Total Release Rate

  • Assumes measurement taken in plume centerline s

NOTES: ] aIodine activity to noble gas activity ratio. If unknown use 0.3 unless Standby Gas Treatment is in operation (Data Summary Sheet, Section II.D, line 1) then use 0.003. Du bObtain 7 for io' dine (DU0QI) from Figure 8 for atmospheric stability class AB, Figure 16 for class C, Figure 21 for class DE, or Figure 26 for class FG (see Sumary Table, Section I, line 6). Use the distance from the release point that the exposure rate measurement was made (Data Summary Sheet, Section III, line 1). c0btain time correction factor for iodine (TCFI) from Figure 9 using the time cf field measurement after shutdown (Data Sumary Sheet, Section III, line 1). Du l d0btain T for noble gas (DU0QNG' from Figure 10 for atmospheric stability class AB, Figure 17 for class C, Figure 22 for class DE, or Figure 27 for class FG (see Sumary Table, Section I, line 6). Use the distance from the release point that the exposure rate measurement was made (Data Summary Sheet', Section III, line 1). 'Obtain time correction factor for noble gas (TCFNG) from Figure 11 using the time of the field measurement after shutdown (Data Sumary Sheet, Section III, line 1). f0btain exposure rate from Data Summary Sheet, Section III, line 3. 90btain wind speed from Summary Table, Section I, line S. / o ...w.e .. ~... - - nw.. -,, n -+=

EMERGEN_CY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 70 of 98 FOLLOW-UP DOSE PROJECTIONS Revision I Date 6/15/82 l ATTACHMENT IV, FIGURES This attachment contains all the figures referenced in this procedure. G .4 e 1 'g ._d

EMERGENCY PLAN IMPLEMENT 8NG PROCEDURE EPIP 3.3b Page 71 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 3 FIGURE 1 (RM-15/HP-260) INTERMEDIATE RANGE NOBLE GAS MONITOR ACTIVITY RESPONSE VERSU5 TIME AFTER SHUTDOWN g-2 13 2 a % - m; . m r p.-- ~. % m.r,M r=I-,, m.w-. , w- - - = % r.T* , - i , i..... -""*W p,... ,y. , :1.14; 1 . n.. p ::,. s

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i EMERGENCY PLAN TMPLEMENTENG PROCEDURE EPIP 3.3b Page 7$ of 98 FOLLOW-UP DOSE PROJECTIONS Revision Date 6/15/82 4 I I FIGURE 2 (RM-16/HP-200) HIGH RANGE N0BLE GAS MONITOR, AGIIV1IY Rt5FONSE VERSUS TIME AFTER SHUT 00WN l ~ l t i 10 j 10.0 i; 1 8 i 4 g 4 [ i. I t i i.I: .6 ..i. i , i.. 2., i6ri i i 4 i4,, ..)-l:j: $ l}l : i. ' l - ! t5 1 i '$ 10 i* ;i"* I I I I bII I' 'l'- l l' 3i l-lt8 i a. s N ' *~ *"d i I I l l '., ', l i} l l i i :. ir '7 l 16

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1 EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Pag 73 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 FIGURE 3 TELETECTOR ACTIVITY RESPONSE CONVERSION FACTOR VERSUS TIME AFTER SHUTDOWN IM l'a' '7 f*' P "1-H -Q-1 Ei.4 ::$~ l ': }. J. -4 2q ::- 'l.,Q.j.J 't.? %= 4= =- l 4 t;

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j t i EMERGENCY PLAN IMPLEMENTING PROCEDURE 1 EPIP 3.3b Page g of 98 FOLLOW-UP DOSE PROJECT 10NS Revision 1 Date 6/15/82 FIGURE 4 ht or Ground Level Release - Class AB m-4 f o _e__ .~._ .w m.-... . e c A ---_..,&~m ..w; w n c s. _m g g.enu;p m a __ _ __ mn..w.n_w ~_w.m e ~.-m +o e-m u m .___~___-~.s- '.M_-___ _ "_P ' - I - ? s -- -F. 'i= ri.-=i 4 g __.;;'_.7._. - _.. _ _. g P.- W A,_ 5.!!;, - ..=.r- .____~_ _______-x_ _ __-s n,-ns,umw m-- - - a w.m = = _m e w =:- w s. - - 2 w + w w _ + : : =_ _8; m_ =___ w_ - m. _ _ w _ n_ _ _=.2._ _ _ _ - - -. _ ~ _, _ _ _ _a_ _. - _._ =____==_ = _. -v ,:0-5 ._= o _ -, ...-.m_ _ _ _~._n.n. _, + n n _ -...- n.. - ~ _._.... .C ;h E f.-13* sh _'e-* ?i. _VC M ^ rh( r-2-i. s- -~s M -- 2 -r__

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9 EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 75 of 98 F0LLOW-UP 00SE PROJECT 10NS Revision 1 Date 6/15/82 FIGURE 5 Xu for Elevated Release - Class AB ,_i.% .. -- a m , a-4 ~ ?f i w.- ~_..,.-x-.--. _.. - ~.- w w.....

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EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 76 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 FIGURE 6 Whole Body Dore Conversion Factor - Icdine a 7 I .L_ ~ e_ 4. -E ~ m _ _ = a. l I=' (/ YE 107 e =* 3 = 8 i ~ =. i 106 1; ~ 4 h_. 7_. s _4 r .. ', '.. = 105 i t .....a 1.0 10 102 103 Time, hr. .-~4v.. --s - - - - ' ' ~ ~ ~ ~ -_____.____-___-____.A_

7 ___. -.... EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 77 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 i i j l FIGURE 7 j Whole Body Dose Conversion. Factor - Noble Gas i Y L a 9 9: I r, ( = I ,i l..!_Lt ,,, i l i i l l, l l = : 1 00 i Uf3 ! j ~ a as 6 L A g s; g = W Q 3 -4 '-L N_ 105 s .\\_ %; _ _= 3 = 31 ^ -===__ t ] ~ ~ -=-a i104 i .......a 1.0 10 102 103 Time, hr. 9ygm,ap - i .py. .r= -g7.-

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l-EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 78 of 98 F0LLOW-UP 00SE PROJECTIONS Revision I Date 6/15/82 i l s r 4 i FIGURE. 8 t 7 Du for Iodine - Class A8 j 8,02 7-- a. a - ~ _..- x. un.~.n....... .... ~ m w -1.xm. m m.s-~-.m m.v,, m n w w -+- N:w.-.e mwsChs n.~ wrum:# [ em m &.- -h.. : : :. =_!M.- =W ++++s:;. __ w. m_ = = _=..=_ _=_= \\ mm.c. uu x.mmm..mewm e -,. :,_ m p*1m.2= _v.;-;8.-=.nex= -y.?m+y = m:+ q.p. = y--im:w ~ v.,..,~ p l ,_M'M_N_EE_( Y_:-M_ _i.. .._.M~___ 5__=_ g m__ 2 l t 1 ..m. ,. i0 .. _._ w_ __._ ~ m. W.. n. , n w.- ~ ~. g y m - .. m - g m.~ m -> % w.~.,- %. w m__a i.~ ~ r.- - l ge=w=n m -xyna=;+1 nhw2m+mawme-s-e n r._~..~W. - _i= w1;_w=_- -m_ - -m__'=. arm _ e _:a==a=. rHem.us=ss=me _ = - m eW-_..-- df q,.%dr.drs Jis:W-t.JV e4.MaHE aa.-- j - a mu. Mt.er-eumu i =eR==. :-_w_=-n_==2_= w~knewe+ =n__ __. _2m. _ [ l i .C' l u -Le, e.. -.. - _. ~.., y. = j,.c w.,- v ...~ 1 n. -w _~,. a ~ ~ w _, ~, _ s -m 4 N wr. w ur+aw ew. m.m - n-w.m s mm em : - m m wmw v.: =.- m - w w m -xxe n - _. -r_mu -w w t ..a w_ ::.; - : = +=== = =,=.z w= = - - - - - =_ .=_=__2 e ( - ay

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EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Paga 79 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 FIGURE 9 Time Correction Factor - Iodine ,8. - -~ ~ ._._ = ~ ~44_ ~. -. -. _ _ _ .~ ..g-g* I l N. : !1.0 r x , = -= x _ _u x xx m t t' ( v N H 'm Y__ ? ^[ m h 1 60 0.1 =-- = - _ *E=R ~] ~ ~ ~__ W-l d i.- 1.0 10 102 103 Time, hr. l [

1-EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page kof98 FOLLOW-UP DOSE PROJECTIONS Revision Date 6/15/82 FIGURE 10 DuforNobleGas-Clas[AB 2 ,.t 0 ~ .__.._-m.m__. -m.----- fi _~_ g,.,3-= y - J.@-, ~. 912. .je --m L.n=s. i % a r+~ -.r4 7 _h M- 'm--- m @ _ u_: _; _rm. --.. _. _%. _- t>r%_ _;1-e = % -mm_e-m-e = e_.w- _m_ w--*_ e.a n _ m.. _....._.m._. _____._._.g g _ _ _ _.. _ _ - ~ _ _ _ __.-_.__-._ _. g i - w m--rg.._e..w u e o m 2,m c_=_m e mm I F;')F_.=. 3]f@#. 7 _ = ___ - _" -4.5'._.-. _ 5.t. _~r. _ mi._= br WM._ T a -W-!.i@ EE-a 7 = .7 3 TEE--"~ ' ) _"._-T-_.7. 1 i f 1 ,10 : l . ~ ,.,m_.. m_.x. _. ..m.m.- '.R b '% i W ^M WE L ^- - s *:~-- di~J W+ s _ **

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.#..t w m, a.,,.. w wt = ~,.m34 g u. g r w _ =:-=- =x-: =-m=- :m' -G= = - c =:w : w c=:= -- 'W: *MN TA's 16amm @ 'v h-M nm r'-'"e=2'.-"NP--C. = _ l' Fr W -M '% N =f 6 #_H-7 i 8 UM I ( m==ww+' _ = _--- - a s --=-,_: - - - m-s I - - - - g g_._ =_- =- --- - - -:_ - - ,lu, "34' ar f 5 d: fMAh'E T '#'.2.' E.~.% 3"' W ' tWe==#-4-2 XJP.-MiWMF--C-Fi%- td - ~ S__ : "_. "_J_M_-$_ f_ _M._S__._ -- _S_EWT_ _"%__ _5_%_ _f_ _5__._. EE5. PS__Y_ __M_._^ I"".'83#_ _m-f:~3i 3 T g L & a 2 t _n t% C' -, -. - ~ - = _~ - n._ -.-.c._~._-_ -~., i 0-1 f/4P A4Mr-*:VWM * -_*i=179=! # 8 ' -?.' "i il--4 h _a's 7 W^'"U E"* W-*E-4 8i* diU- ? 3 7 K 22-~2.f2^i~ ='~ IEWM-W=EW^'.-T' f ;Q- ~ s ~~~~'* t __ _ = _ -, _ - - = _ - = _ _ = _ _ _ _., - _..__=---__=:- c_ i ' ' " " ' = -.?'" L_: - - FE:r' 4' =iM&"n D _ f i:!iW '\\_'4 M',= 3:gE 'L-w.~ :h_=M't i' f=vipE-'5th~i i_XM-' g _P..- _T.-.~_~ i. M^ 'rfEi-E=__ -+_- .T'._"._=*-"'__'.'."- 3 5jr2;i' #. -~_~f_ P=.- i -'t l 2 l l 1 I 20-2 l ._4.,...,...n-,..n~..~-__n._a, 1 _~ m-m, s _w-wo-mynom.mcm p_m_: - n-me:.m-m, 1 m 1 m

=_ 3 : _1==a r_.1 =-q:-- - - qw= c =_- q==qg=aa -9 e t

=. =- _-= a - _ _ _ = _ i 4 4Ls. Y rT.g3 - ~ ". _^.' "A h 1:2 =&'.r'_'. '.'2 WG: - w T-- -' M----E. --~W ^ s-f--i_! -%D-Ml=-:M'=. 3 9 _-=u_. a.;:yzgEE = 2 .57_._:;i=pm;

.,,_- - ; ; _= _.
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s

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ree: ,i s. r :: . i : :.i:. o i 102 103 jos ReceptorDistance.1I* i I

EMERGENCY PLAN TMPLEMENTlNG PROCEDURE EPIP 3.3b Page 81 of 98 FOLLOW-UP DOSE PROJECT 10NS Revision 1 Date 6/15/82 FIGURE 11 Time Correction Factor - Noble Gas i i P 3 1 l.0 ', A ~ .y -2. a. = 25 c y . = '\\ g i; 'N_ l 0.1 P ~ m_ I 'E ~ t l0.01 'i i 1.0 10 102 103 Time, hr. .ewg m -a.,e e e y m -Wh-m w.eehwe --d=w ewe.gmg. m +- e as m g. yw -w - - - ~ - -

i EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 82 of 98 FOLLOW-UP 00SE PROJECTIONS Revision I Date 6/15/82 FIGURE 12 Time Correction Factor for Thyroid Dose - Iodine ?I y ~-_. ~ 4 I 10.0 .5 ~ g *p y 3 E I i i l.0 F' 9 _ _ - ~ I t .....i 1.0 10 102 103 Time, hr. e e a ep'r-*e4 e m e m=mgimirM - + w e--4m ='.=y P a

4 EMERGENCY PLA_N EMPLEMENTING PROCEDURE EPIP 3.3b Pa9e 83 of 98 FOLLOW-UP 00SE PROJECTIONS Revision 1 1 Date 6/15/82 = -3 i i FIGURE 13 ~ Plume Width - Class AB i a

105 1

a l i i !.l j l I s a I m 104 9 s 5 T 8 3 2 ? i 103 s ir l i i a f 8 8. fl t '102 ,...... a j 102 103 104 105 i i N Receptor Distance, m f t i e - em a m -e ,a- ,s ar+e

  • NWN ^* "'

-" " " ' 9 L" C

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4 r*- e-w+, eve,-+-er

  • -w

- + - - - -, - -, - -ww-. ---w-.m.-ve---, -ww,,.,s.- e m wew mg. e e. w r-w-_-- ry----w-m-y- - - - +ma wW c W f'--Y'-T---" 'i'-a-M"---'-'T

l F EMERGENCY PLAN. IMPLEMENTING PROCEDURE EPIP 3.3b Paga 8f of 98 FOLLOW-UP DOSE PROJECTIONS Revision Date 6/15/82 l FIGURE 14 Xu for Ground Level Release - Class C g-2 ~ _._ .~ ,4 % . -. 4 a.... _.

n..,~, mea _.__a

, a.;4w o4 g une w y ygte 't := - 'e : c.; -p.4_ es. ; 7_7__.e_'c. i t _ _,. u r, 4 w e + M_4.= w.=eii=f e seg e4 Ar : w W.' = _B h^$%hh hN#[~ h-EL ![.A 0Y^5$ .?-^~~.^. Y1' ~ k 'Yi b 5?'-Y' N SY g MY qqM =,-- _~.- __~ : - La.-yf. ; _ - - ,_____L-~ ^d : = '= * ;.-:- : m _7. = _g 4 f':M b* A 2dM E A E h.1 } N" 6 ema. ."--"a b.b_ M b E-: i8- "d

I*bb_

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  1. 3-

.*M..I,#* 1i % ""M W=-a r M-E..ad= t2 'l --:# 5.55--M.*=-'T- -_id L= pit =* s f-na O-- FM.' -:- -' p-rM t g _ _ _." S. 3 ?D g ~.5SH?_fD.5.--A 0 '5? ~^ ~ ~- $.-9 -._ _._.$:'W 5~_'5~ 4 _ _ _ ~ " ~ g d'JE #A **=C S F~. _-1 T'-fV M, ii JJ L F w M 'h'N - *MA""M'E#"F-:P3 ? T_ e.7 ^ ^ Y _~.' T i-.T Hi 55 mil =1t~fM-- r2W+TAE 3 -#W-?] - = Ex@ ; W ' g

==._._:_.,@33_.=..=___-_.=_a.__.___._._.-:,._3___;__-_'5 __-_-______.;_,._a_._a__-__=: g_.- - - = = _ - -m e g- - __ 2 i - ~ ' " - .s0-4 ..~.-v,. v, - a .om m .c o. _s..,...- - _-_- m.m ~.. .r / _\\ EURWGAWilheia =6' H 5 iW--# -e (===- :-.i== 4 <--C mWhre-*= e-1. - J h j M y ^r ~~-~. ' 2 " EF#:.M '-~W W ^* t~'-_' AME*-~' ~ -P'-^' k'W =^~= hr

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a 3 3 4 5 47891 + I-M2 a a i. 7 e,i 103 104 105 Re:ector Distance, m t - - -' * = = = g g- .e.$ m e.__,..i-

~ f EMERGENCY PLAN IMPLEMENTIhG PROCEDURE EPIP 3.3b Page 85 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 f FIGURE 15 1 Xu for Elevated Release - Class C T , o-4 a...u... - ~ s. - -.m g ...em. -n w. ~. _.._w.,,,s~.,.-. ~ ..u.,_~ n m. i r.uww, _ s r_, - erm. m __ - 0 ; w n yc 42 e e i m n 39.. c A mu.- y -_m.e._____..'=gy:--a.=.-=_.,_.__..i': ~i rf c. f '-ygi== hw'- w 'M:a ~~ --& _-.!f. ' 's--'.';_[: -LR a.Q :.k~_iW ' LQ-T ~ ~ g . =4=.==.____._.n. g ... ~ _ _. _ - - - -. - _ - _ _ = - - _p mm-__.2-m Az n km-e K -am a m c A swe ns.h:-. -..w LWM Y M.K't-~-SW& 'M '_ h-i " : " ^^ s a.._.u._:-.__.-_-=_-___3_=-.=-.=_-_ Wi Mk& J

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+_g; _ _;.. -:==.=a.=__==_u_- w--.=. mm r~ ,.m.~, ,.. z - - n n. .s. , I 0* 5 v

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  1. 5=.=[E*-TE--:M____E^-*.

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-_= CW T wm <= un%' -M"-#' "-WWIi t - W'=# = Mr s 7 = ub-- W r d=='

r \\

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3 . A_ W= '11.~_-'_? _.'. : WM. F-MP'=._='#_.w.'__".. q =- T-y y 9 _ _ _ -. _-,__ _ ~ _ - __ w ._.__._._...__ ___ m. _ _. _ ~ _. --A w J_ mm - t'._. . - -__ _n -%9 w-.ar -%fscwa.-w l g g -- '_ !E 3 2

  • 2-' ~ 5_=-" = * * *M_ie 14-5.F_t.__.~~'

__..-'G ='s sN -- _ _ =_ _ __.-__--____ __..__ _.__ _ - _ _ =. s a x 2 , 204 m n +.-.,. --., -,e-m~..,__..,...-__.._,t m ~ ~.~ .g _~m rn' *z e4nm _ MF 'z 'hx'2 M-w: _ ' 'en-c _-4 4 a--~~ m .p .= _ m._- "k= ~ -E h~= ii _." '. --'c' E 'r =fr-'u % =6 =-"==} ?s-iF= r!"==MI? =.W*.4. =_-9 s +==3 ~ g -.A .._.m.... _ _ - _ _ _ - .____.________-_________w.-;___.-_-___-.-.r.._:....-.__q g ,i:g5 =- ~ 3 mm 1_ ugum. m n =.n. _uw w. i-Mcpa_ ynx.ar mx;m-a _.... s m '-_ l'=isiNh_.__._2_2-=r* -i.=!Ef.;JW~ -W F . _.*i. ' e 3 '.". Z '.Jihi?.- i.if..# _*6A. M. _:t - _..-:=s.---_------ -. - _.. - _ - - _ --_=_ - -.. = - =. w 1 ,a0-8 i _,...s_, _._ m, - m., -m __.n,.~.-~..-_-+--_.m__--c.,..w-.-_.,..,.-_w., .-- -w 3 4 tF-+ i_-i z _ O M u":s * =rgwn -emm m_y_wxy :. w%.j_jf- >- 5 7 M H W--9~. Hf:= 4W - -F=3x '.- Y: a i k kk=1=r_ u..=-41&F ?i~= _q u --~.~Q-L-.s-u ;.Z - ~l ^ ~T_~~ ~ ~ Z _ _ "="_.=_MW_n __J-f_6_._-' s __. _ M g _. _ a I "Ex-- 1.E. n"Tle v '~s n M2-'_^ ' " WM *iF'M: '-~ W-MS2C.'n'_A *" S s k + I'4 ~ - N=W _3 p-Mu*i4Ef7-'I=-lh4. "_ 3 7-f ~5M f.? t ~'NMN- '-'-~j* _ _. _ - - = _ - _. __ -- ____ _------_=-==:===__=_._._______-__...__=a, ~. =. _ -. = - _.. =. _ =_ 2

=.

a 0-9 I l.s.!s s. .s s. s a e se7n 1 '. I t. g g.. I g 3 3 4 es7se. 5 - 8 8 * ' ' 5 102 103 to4 105 Receptor Distance, m I mi.m-p.pg g e w-e--

_ EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 86 of 98 FOLLOS-UP 00SE PROJECTIONS Revision I Date 6/15/82 i i FIGURE 16 Du for Iodine - Class C T W .l' l102 P O e 3 3 = 10 Gl! s t bI g .c 55= - 1.0 [ 0 10-1 s ..,..n 102 103 104 105 Receptor Distance w. .,s. --W _ __ ___,,j

.a. .. 3 p ,s, +. i_ EMERGENCY PLAN ;MPLEMEfiriNG PROCEUJRE 1-EPIP 3.3b e.,PageRevision', 87 of 98 ) ' 4 FOLLO'4qP 00SC'PkbJECTIONS s / '1 Date 6/15/82 m .w-,. ',7 \\ + r e y i FIGURE $ 5

i. 4 1.

\\ iq r r. Du or Nobl,e Gas - Class'C 'r ' a, -y .. ~ .a t' e f ~ 102 i = - % _= g ___= _ _ _ _ _ _.. _ _. em-mm 1 uw - u.s =, z=-. - ;. w. =_ = - r-n,w 1 5 - w:n#-- en ,e\\ 3_ _-22:=-eg - -,. M.a l. f =_ g-- am -m_- -w+ - ya.= 2 _- I O =MM 10 ,y- /.,--- ,e., u, s y(* [=. ' --- +..-- - ~ 7-s L6 _ EN y< .s,D,w a 4 w _m mm_ r-_ - =n u

-_-_ =

m i - f ?I \\, U

  • 5m -

y f.yir;&-,- 3yg _ _ = ~j i ,7 ___ _e-: m m= -r ees.-- j_ , /, -.. -_- w a i-- - r --: f g g- . = - = = - _ -r= g _-,,;- ^ g;*,g-,. 7,. = ~ - ~ - /,., _,x. v- : = / p _ 2,-r, ' = -, + - 10 3 m, e.c _ _r_- _ _ x-m.,,, gpw--- Iw y_.. nm. .i _,. = _ g.___ g. _._. a s

w
m

..=== ._= = - m:-= - . = - - - = ..a- .s

=-n~

_ ~ ~ .s f l / s'.-____ _ e p -Mute. _-__ ~. - e.,,; _- _ 7.- - A = n,.w-n + -gi,m-- "C1...._ e r m ~c t _- I =EM,.. ,.l"""l, -( ,5. r J Wr i ' + " ' 10- . sv.. ..r..m .r.,a Y,. < ['i l 8 / e'r. 103 ),J'104 105 102 3 I i y/s,/ - s i i - (Recepdor Distance, m e f l N, ev .f f 2 ( t IJ ) W f I r g l f e t A o 1 / I ,,su h ,.p'P /* r f --.a. + s,. + tfg O p Lt.

~ l_ i EMERGENCY PLAN XMPLEMENTING PROCEDURE EPIP 3.3b Page gg of 98 FOLLOW-UP DOSE PROJECTIONS Revision I Date 6/15/82 () l FIGURE 18 Plume Width - Class C i 1 105 e 3 8 104 f e s z i 3 2 8 o E I I I 103 a. l ~ I i -~ i.___ m a p i 102 l 't i......i. ....... 1. l 102 103 104 105 Receptor Distance, m ,,a m. e a= J m-----rs ---ew- .%y y -e-- --w---e ._--w-yy--.

r EMERGENCY PLAN IMPLEMENTING PROCED_URE EPIP 3.3b Page 89 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 FIGURE 19 Xu for Ground Level Release - Class CE 4 T ,i 0 _.., ~,.. - m. u u m..- - _-_...-.. .._n_.,w g m n.;...___ ._..-urw-M%G ha V 7-l-y e~ -.u-W. A i:- _+ y'rq f:4."Ym-4 W. ^-O =_.A _.1 ~=~.9 m. t i ; w E + '- J y W ='M=id--'b' :J- ;=Ek=c.~ E&E-:=L.'#5=_d '-f-iMi =_-h=45'-L'+.k _-iis'^=='=~=%=~+i='-t. k' &'~' -' 5 g - ^ . i ~l T_~ " =~--" . Z__u=.as--1:E~~~' Y ' M g 7 -i'-i _= =fi _. ~ o__ __=. ..._._--4 Wh e-+_ wee mhee.w_e a.-h=r 2hw-nm._= -% d_.m. -r ,r _____m_-.__,_,____m___.__ .%_..e_.__.._=...=.... _ _ _ =. 3 n

==__.a_m_.r_.r-r.=_.,.._._.x_.__===--_.._._-___- -. _ = _ _ - _ =.. -

_ _ _ _ _ _ =. _ _ _e . _ - = h 0-3 ,5 m _ _ m..,.m m..m.- .a._-3=-__-. z. -;

  1. 2. _ _.. m m

a u -._.,v rw + -. m -r_-v.1 pvcw w c*.-%un.-v. w m m i. m,c y_mcr=-*+-_ w - A_e m-w f - E = =E -i=?.4 - b' _'E=L. min =W==K:i ' +=== \\-- -2 ~=.: ^.~r= ? -' =-=^% M =N e i t = = -_=.=.=_-=.:_=w...g==_---_2_2___;___===__._-___._=___-____=____.:.____-_z..x..w.._ g l 4 mw'_trlzhu.-ww-E u-nwre.neMNmd-'rwd;'-.7-r, nw an=-a 5 = ss=-wp 22=s.;- 9fTa-T -~_m W 'ErpErssiEFUf-- p--La== i.- 1.d_. r=3:_2 3 '^'__-~==.=_-=="-13---~=---_^__'.;_.:e;=~-__=._~-~~_;?.'4_-;_.^____-_ ^ rri 2 l l 1 ,20-4 n ._.s w a

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=- e_ u _ gg__ i .g -4 X_'t M4c rd. -]M= " E'W-,E--'-. F ' _'- ~ "C.j _" 4 := hd C lm'EndEU'_ ds 4 M h:. 4 'E=E.- 3 ^ 5 . _ _._=__. _- _"_.i_iT.._'_f.'.2= M_2_ ---_7.: in' ^2 '.:. _-K__:? ~~ _ _ -"i. f=\\=- 2 5_.^' W._.== =_ ~_ 2a=^2^i _* -~*- g __.-y I =- _____.:-- t -2 e 0-0 ,3 _ _-. e n s -_m,

s.

.-a..

v e.... -

vun-x j u % 1., _, % m m -.._ ~. % - w p ~%..--...__..w a cr M ?-w-Ws. I M K' a=~= n-h l'hT:-'weww W-G-Sc-c a m--'f! in -- I y _.__k=5__==_b :_i_ t_.=.- T. ;--. = =- T_ _-- _= =_==,, ;E8 _ s . nF_ ri=4 5W'_i ?+_1- '_.+ = =_ = '_-=.l_ _~:E' _M_ =s--L:^==: 2- ^ _g - 4 M-m r w _== & h-=-G u s,_e imm i a. eg- +A_, +U2 t_'_ -R=1-. nrm - u.I== L-h_ r_=.=.-=.rm=a.m.- _ _ _.

_a +_ w s.C_ ?. = =. =.=_ _cy-t y_===ta:rM_ -- = _-._ 7_ ________-_-:_._

_. -_ m. ^ _g _ _ _ = = _. _ _ _, = = 2 10-7 s e789; 9 ! !.. : ;l I ! ! I t 3 3 4 3 3 3 a 3 gyag. t 'l!. 1 2 3 4 5 47491 ,102 103 105 Receptor Distance 1 .-.+ge-e .=-w_-e + a,

EMERGENCY PLAN XMPLEMENTING PROCEDURE EPIP 3.3b Page gg of 98 FOLLOW-UP DOSE PROJECTIONS Revision I Date 6/15/82 FIGURE 20 Xu for Elevated Release - Class CE 7 .. _. - a a. m _w -. % 2 : ~. h m _ v.

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EMERGENCY PLAN IMPLEMENTfNG PROCEDURE EPIP 3.3b Page gx of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 FIGURE 21 Du for Iodine - Class DE i T i 2 102 . _ _ _.. - _. = __ _ _ __-. l 10 N 4 -l8 u= s !.E E $l

  • i; 1.0 i

g I s l10-1 1 i 102 103 104 105 Receptor Distance, m h .s ewpq-ao wn .+6 e-r-neee= e

EMERGENCY PLAN IMPLEMENTING PROCEDURE i EPIP 3.3b ) Page gp of 98 FOLLOW-UP 00SE PROJECTIONS Revision .I Date 6/15/82 FIGURE 22 l Du for Noble Gas - Class DE l T i 7 = _ _ i I jl 0 _r g ___ y- _ n __2 E -L i u 'u sl y, ' !.E.. _jl.0 s 3 b.P: --2_----- Og 3 a !10-1 i 102 3 104 .. r.. :' S .....n i 10 10 Receptor Distance, m 9 ,e. . -.. +. - _ g

EMERGENCY PLAN XMPLEMENTING PROCEDURE EPIP 3.3b Page 93 of 98 FOLLOW-UP DOSE PROJECTIONS Revision 1 Date 6/15/82 ~ N, FIGURE 23 Plune Width - Class DE 104 l 1 l l / _ a = _= 1 103 t x_ __ r_-- i i d '- y. 2 l E* s I l302 9 ~, -._ -- -3 _ _ = 8 i s 101 l i ) . i.,..= 102 103 104 105 Receptor Distance, m =,% ~ -. - y,-w-+- am myw--- -m----- 9 -r-, - - we+ --ww ,4 y-------%-s y*

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EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page of 98 FOLLOW-UP DOSE PROJECTIONS Revision Date 6/15/82 w FIGURE 24 i Xu for Ground Level Release - Class FG

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j EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 95 of 98 FOLLOW-UP 00SE PROJECTIONS Revision 1 Date 6/15/82 ,s ( I FIGURE 25 Xu for Elevated Release - Class FG ,10-5 m+_ _ _.. - _ - - - ~ _. _ - _ _. m_ u,.__.~. u. ..r~ . - _ ~ .,u ---.,aw.m.._w_a_- g -=g,s_.=__-.--_~=s-- _ m -.e : =a+,..# r ; _- - _- g _w-,v:. _xc__;-- - u.e -- -s eg. +3 7 = =___. m_-.._ e,.__.2.4 * +1 m_.__.___=., w =z_- m__ } =~-% _ Ew = =-n-u ^ . _. -.___--_-~~~.=__-T*-M-.. _ - - - ----_=_""--'"'-"M__J"-*~._-._...~.------. . _.~ Z r =_d,; ; ;-- t ; - @ n,,,,, _ fy_g=:; g K 12-E r. p dr... W.

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EMERGENCY PLAN TMPLEMENTHNG PROCEDURE EPIP 3.3b Page 96 of 98 FOLLOW-UP DOSE PROJECTIONS Revision I Date 6/15/82 (.3 FIGURE 26 Du for Iodine - Class FG T 2

10,

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EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 3.3b Page 97 of 98 FOLLOW-UP COSE PROJECTIONS Revision 1 Date 6/15/82 3, s. i i l FIGURE 27 Du for Noble Gas - Class FG l 3 l i:

102 F'

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\\- \\ EMERGENCV PLAN IMPLEMENTlNG PROCEDURE EPIP 3.3b Page gg of 98 FOLLOW-UP DOSE PROJECTIONS Revision I Date 6/15/82

3 FIGURE 28 i

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. +- TO: DISTRILUTION MANUAL Emergency Plan bplementing Procedure Date July 7, 1982 ) Please remove: (1) Index and/or Revision Control Page(s) and (2) Procedure or Procedure Page(s) listed below and insert the revised material. INSTRUCTIONS REMOVE INSERT Rev. Date Rev. Date Revision Control Sheet 6 6/1/82 7 7/7/82 l EPIP 1.2 1 10/12/81 2 6/9/82 ~

k. _m,I Subsequent to making the above changes, sign and date the notice below, detach it at the bottom line and return it to the addressee.

~ NOTICE OF RECEIPT OF REVISION NOTIFICATION TO: DAEC SUPPORT SERVICES P.O. Box 351, Cedar Rapids, Iowa 52406 This acknowledges receipt of revision notification to the Procedure (s) EPIP 1.2 dated July 7, 1982 and updating of Procedure (s) in accordance with the notification instructions. Signature: Date: ..e. e w e,_ _ _ _ _ _ - _. _ _ -,. _,.. -m._r-wi-e- me -me,is.e-o ew OG w- . - + ~ * - ^ N e <e h

EMERGENCY PLAN IMPLEMENTING PROCEDURES REVISION CONTROL SHEET i Revision No. 7-Revision Date_7/7/82 Page/ Proc Date Rev. Page/ Proc Date Rev. Page/ Proc Date Rev. INDEX 6-1-82 4-1.1 3-Ir82 1 1.2 6-9-82 2 2.1 1/15/82 2 2.2 2/1/82 3 2.3 12/2/81 0 3.1 ~3/1/82 2 3.2 3/1/82 3 3.3a 10/21/81 1 3.3b 5/13/81 0 () ~ 4.1 5/13/82 2 4.2 5/11/81 0 1 4.3 10/19/81 1 i 4.4 5/11/81 0 4.5 5/13/82 0 5.1 11/24/81 1 1 5.2 11/24/81 1 6.1 5/11/81 0 6.2 5/11/81 0 6.3 3/1/82 1 6.4 3/3/82 '2 l1 i e i 1 rw

EMERGENCY PLAN !MPLEMENTlNG PROCEDURE EPIP 1.2 Page 1 of 12 NOTIFICATION OF THE EMERGENCY RESPONSE ORGANIZATION Revision 2 AND OFFSITE AGENCIES Date 6/9/82 7 1.0 PURPOSE This procedure provides instructions for notifying the Emergency Response Organization and offsite agency personnel of the declaration of an Emergency Action Level (EAL). 2.0 APPLICABILITY This procedure applies to members of the on duty Operations and Security Shifts and to the Emergency Response Organization upon declaration of an EAL. 3.0 RESPONSIBILITIES 3.1 Shift Superv_ising Engineer (SSE) 3.1.1 Initiate the notification process appropriate for the event classification. 3.1.2 Insure that notifications made to off-site agencies are correct and timely. 3.1.3 Verify that the NRC is contacted within one hour of declaration of an event. 3.2 Security Shift Supervisor 3.2.1 Assign communicators as required to conduct notifications. 3.2.2 Advise the Emergency Coordinator upon completion of all required notifications and appraise him of problems encountered. 3.3 Assistant Chief Engineer - Radiation Protection and Security 3.3.1 Ensure that the Duty Emergency Response Assignments Special Order is updated and published as required. 3.4 Emergency Planning Coordinator 3.4.1 Ensure that the Emergency Response Organization Notification Lists (Attachment 3) are updated and published quarterly. 4.0 INSTRUCTIONS 4.1 NOTIFICATION OF UNUSUAL EVENT 4.1.1 During normal working hours, the Shift Supervising Engineer shall initiate the notification process by contacting the Operations Supervisor. n

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 1.2 Page 2 of 12 NOTIFICATION OF THE EMERGENCY RESPONSE ORGANIZATION Revision 2 AND OFFSITE AGENCIES Date 6/9/82 ) a) The Operations Supervisor shall assume all responsibility for contact of DAEC and Corporate Management personnel. b) The Director of Nuclear Generation shall normally be contacted by the Chief Engineer. c) Off-Site Agency contact shall normally be made by the Operations Supervisor. NOTE: Regardless of the circumstances, the Operations Supervisor shall insure that the NRC is contacted as per 10 CFR 50.72 within 1 hour of declaration of the event. 4.1.2 During backshifts, weekends, and holidays, when the normal staff complement is not at the site, the Shift Supervising Engineer shall initiate the notification process by contacting the Operations ~ Supervisor. a) The Operations Supervisor shall provide direction to the SSE regarding further contacts to be made. s b) Unless directed otherwise, the Shift Supervising Engineer shall then contact the Duty Emergency Coordinator. c) Off-site agency contact shall be made as directed by the Shif t Supervising Engineer. At the option of the SSE the Security Shift Supervisor may be requested to make such calls as described l in paragraph 4.3 of this procedure. d) NRC notification shall normally be made by the SSE. NOTE: Contact with the NRC shall be made within 1 hour of declaration of the event. 4.2 ALERT, SITE EMERGENCY OR GENERAL EMERGENCY l l NOTE: Full activation of the DAEC Emergency Response Organization is required for all events classified as an ALERT or greater. 4.2.1 The SSE shall direct implementation of EPIP 4.1, " Plant and Site Evacuation". 3 l i

EMERGENCY PLAN IMPLEMENTlNG PROCEDURE EPIP 1.2 Page 3 of 12 NOTIFICATION OF THE EMERGENCY RESPONSE ORGANIZATION Revision 2 AND OFFSITE AGENCIES Date 6/9/82 .J 4.2.2 During normal working hours, the Emergency Coordinator shall assume all responsibility for contact of Corporate Management and off-site agency personnel. a) Such notification shall normally be made from the Technical Support Center. NOTE: Use of the common pager number to notify the Emergency Response Organization need not be done under these circumstances, b) NRC contact and establishment of a continuous open communication path with NRC headquarters shall normally by made from the TSC. 4.2.3 During backshifts, weekends, and holidays, when Emergency Response Facilities are not manned and the normal staff complement is not at the site, notification of Corporate Management, DAEC Emergency Response Organization personnel and off-site agency personnel shall be initiated as follows: NOTE: If emergency response facility activation is required due to a security related emergency, all notification functions performed by Security Force personnel shall be assumed by Operations personnel under the direction of SSE. a) Upon hearing the evacuation alarm and paging announcement the Security Shift Supervisor shall dispatch a member of the Security Force to the Control Room. b) The SSE shall insure that items 2 through 7 of the Initial Notification Message, Attachment 1, is completed and provided to the Security Force member dispatched to the Control Room. In addition, he shall, insure that the Emergency Response Organization Notification Message, Attachment 2, is completed and provided to the Security Force member. c) The SSE shall direct notification of key members of the Emergency Response Organization using the group pager telephone number and pre-planned message as prescribed in the current Duty Emergency Response Assignments Special Order. NOTE: The group pager message should be repeated twice more at 5 minute m intervals each. ., ~ ---~ ~

l EMERGENCY PLAN IMPLEMENTlNG PROCEDURE EPIP 1.2 Page 4 of 12 NOTIFICATION OF THE EMERGENCY RESPONSE ORGANIZATI'ON Revision 2 ] AND OFFSITE AGENCIES Date 6/9/82 d) The SSE shall also notify or insure that the Duty Emergency Coordinator is notified of the event by making direct telephone contact. e) The Duty Emergency Coordinator shall notify the Emergency Response and Recovery Director by making direct telephone contact and appraise him of the situation, the sequence of events, as appropriate, and corrective actions being taken. NOTE: This initial contact should be brief and, if at all practicable, made before traveling to the site. f) Off-site agency contact shall be accomplished as described in paragraph 4.3 following. g) NRC contact and establishment of an open continuous communication path will normally be accomplished by the assigned cormlunicator in the TSC as described in paragraph 4.6. NOTE: y Regardless of the situation the Emergency Coordinator - the SSE until relieved-shall insure the NRC is contacted within 1 hour of declaration of the event. 4.3 Notification of Off-Site Agencies NOTE: This notification process will be accomplished for initial notification only unless otherwise instructed by the Emergency Coordinator. All follow-up notifications will be conducted from the TSC or EOF, once manned. 4.3.1 The Security Force member dispatched to the Control Room shall provide the Initial Notification Message to the Security Shift l Supervisor. NOTE: If the emergency is a fire and the Security Shift Supervisor is functioning as the Fire Brigade Leader, the Security Shift Supervisor's responiibilities shall be assumed by the SSE. The SSE may elect to delegate this responsibility to the STA or others, as appropriate.

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 1.2 Page U 5 NOTIFICATION OF THE EMERGENCY RESPONSE ORGANIZATION Revision 2 AND 0FFSITE AGENCIES Date 6/9/82 4.3.2 The Security Shift Supervisor shall assign a communicator to contact the following agencies identified on Notification List #1 of, " Emergency Response Organization Notification Lists" and provide the communicator with the Initial Notification Message. a) Linn County Sheriff b) Benton County Sheriff c) State Office of Disaster Services 4.3.3 The communicator shall contact each of the agencies listed, read the message to the individual who receives the call and insure that the information is correctly received. NOTE: Call back verification of these initial notifications can be expected from the agencies contacted. 4.3.4 The assigned communicator shall log on the Initial Notification Message the time each agency is contacted and the name of the ^ individual who received the call. 4.3.5 Upon completion of all calls, the communicator shall so advise the Security Shift Supervisor who, in turn, shall advise the Duty Emergency Coordinator upon his arrival on site. 4.4 Notification of the DAEC Emergency Response Organization 4.4.1 The Security Force member dispatched to the Control Room shall provide the Emergency Response Organization Notification Message to the Security Shif t Supervisor. NOTE: If the emergency is a fire and the Security Shift Supervisor is functioning as the Fire Brigade Leader, the Security Shift Supervisor's responsibilities shall be assumed by the SSE. The SSE may elect to delegate this responsibility to the STA or others, as appropri ate. 4.4.2 The Security Shift Supervisor shall assign two communicators to contact members of the DAEC Emergency Response Organization and provide each with a copy of the Emergency Response Organization Notification Message. a) Notification Lists Nos. 2 and 3 of Attachment 3 shall be provided to the connunicators.

EMERGENCY PLAN IMPLEMENTlNG PROCEDURE EPIP 1.2 Page 6 of 12 NOTIFICATION OF ThE EMERGENCY RESPONSE ORGANIZATION Revision 2 AND OFFSITE AGENCIES Date 6/9/82 b) Notification of the Emergency Response Organization by the assigned communicators shall proceed in parallel to enable rapid response by personnel who may be needed at the site. 4.4.3 The Security Force Communicators shall perform the following: a) Telephone, in sequence, the individuals for each emergency position and repeat the Emergency Response Organization Notification Message (Attachment 2). b) Use the priority established in the respective Notification Lists until all positions have been filled. NOTE: l Reference shall be made to the current Duty Emergency Response Assignments Special Order. Those individuals assigned should be called first. c) Allow approximately 10 rings (about 1 minute) for a call to be answered. i d) Log all calls and attempts on the notification lists. e) Proceed through the entire sequence identified on the respective Notification. f) If the total nunber of people required for each emergency position has not been reached, attempt notification of these individuals unavailable during the first calling cycle. g) Advise the Security Shift Supervisor of problems encountered and positions which can not be successfully filled. 4.4.4 Upon being advised of the completion of all calls by the Security Force Comunicators and of all problems encountered, the Security Shift Supervisor shall report the status to the Security and Support Supervisor or, if not present, the Emergency Coordinator. 4.5 Upon completion of all required notifications the Security and Support Supervisor shall advise the Emergency Coordinator of their completion and of significant problems encountered 4.5.1 If the required Emergency Response Organization positions have not been filled, the Emergency Coordinator shall designate temporary personnel reassignments which may be necessary to fill the positions. l l

EMERGENCY PLAN TMPLEMENTlNG PROCEDURE EPIP 102 Page 7 of 12 NOTIFICATION OF THE EMERGENCY RESPONSE ORGANIZAT' ION Revision 2 AND OFFSITE AGENCIES Date 6/9/82 4.5.2 If additional support personnel are required and available from the Corporate Emergency Response Organization, the Security and Support Supervisor shall coordinate such needs with the Emergency Support Manager. 4.6 Notification of the Nuclear Regulatory Commission (NRC) shall proceed as follows: 4.6.1 Notification of the NRC should occur following activation of the TSC by the connunicator assigned. 4.6.2 As directed by the Emergency Coordinator or Technical Support Center Supervisor, the communicator shall notify the NRC of th'e declared EAL. 4.6.3 The time of the initial call and the recipients name shall be recorded in the TSC log. 4.6.4 Notification of the NRC shall be accomplished within one hour of declaration of the event, as prescribed in 10CFR50.72. 4.6.5 Once communications with the NRC have been established, continuous / communications must be maintained unless terminated by the NRC. 4.7 The DAEC Security Force and local law enforcement agencies may have established road blocks at predetermined points around the DAEC to prevent access by unauthorized personnel during an emergency. To gain acess to the site during an emergency, personnel notified to report to the DAEC should be prepared to present appropriate identification.

5.0 REFERENCES

5.1 Iowa Electric Light and Power Company Emergency Response Plan. 5.2 Duane Arnold Energy Center Emergency Plan 5.3 NUREG 0654, Rev. 1. 6.0 ATTACHMENTS 1. Offsite Agency Notification Message Content 2. Emergency Response Organization Notification Message Content 3. Emergency Response Personnel Notification Lists s e -w -,eew-- +~.-ewe-e+ e4 . ewe-ee

1 EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 1.2 [ Page 8.of 12 NOTIFICATION OF THE EMERGENCY RESPONSE ORGANIZATf0N Revision 2 ~ AND OFFSITE AGENCIES Date 6/9/82 1 .b%s daum DATE: d-/#'/2 APPROVED BY: Secu y Supervidor REVIEWED BY: /MM/.; DATE: 4//o /F'1 ALARA Coordinator APPROVED BY: md g/ DATE: 4-/o-f a Uptfrations 5upervisor / / APPROVED BY: /i ~ Uc T-!c DATE: (- - 4' - 8 2-Assistant Plant Superintendent Radiation Protection and Security s \\ /h!/ 2 REVIEWED BY: 't DATE: Chairman, Operations Comittee '!,Ao tedh DATE: [/$[c2-C APPROVED BY: Plant Superintencent - Nuclear l l l l l

i EMERGENCY PLAN IMPLEMENTZNG PROCEDURE EPIP 1.2 Page 9 of 12 NOTIFICATION OF THE EMERGENCY RESPONSE ORGANIZAT' ION Revision 2 AND OFFSITE AGENCIES Date 6/9/82 ATTACHMENT 1 INITIAL NOTIFICATION MESSAGE Time " Date SSE 1) This is calling from the Duane Arnold Energey Center. Caller's name & title l 2) An event has cLccured which is catagorized as a: a) Notification of an Unusual Event, a Type A-event. b) Alert, a Type B-event. c) Site Emergency, a Type C-event. t --s I d) General Emergency, a Type D-event. l 3) Use of the prompt notification system IS/IS NOT recomended. 4) Abnormal radiological releases ARE/ARE NOT occuring -- If occuring: a) The wind is out of the The population of concern is located in sector (s) 5) Protective measures for the public ARE/ARE NOT recomended. -- If recommended: a) Sheltering b) Evacuation of prq-school children and pregnant women c) General evacuation i e

EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 1.2 Page 10 of 12 NOTIFICATION OF THE EMERGENCY RESPONSE ORGANIZATION Revision 2 AND OFFSITE AGENCIES Date 6/9/82 ATTACHMENT 1 (Continued) 6) Off-site radiological monitoring IS/IS NOT planned. l -- If planned: a) Emergency Monitoring Teams are being/have been dispatched 7) Direct assistance at DAEC by your agency IS/IS NOT requested. -- If assistance is desired, explain: Received by: Linn County Time Benton County Time Office of Disaster Services Time 1 e -n ~ r

i EMERGENCY PLAN IMPLEMENTlNG PROCEDURE EPIP 1.2 Page 11 of 12 ~ NOTIFICATION OF THE EMERGENCY RESPONSE ORGANIZATI0N Revision 2 ~'- AND OFFSITE AGENCIES Date 6/9/82 ATTACHMENT 2 EMERGENCY RESPONSE ORGANIZATIOh NOTIFICATION MESSAGE This is (caller's name and job position) calling from the OAEC. An event classified as an ALERT / SITE EMERGENCY / GENERAL EMERGENCY (strike out classifications not applicable) has occured at DAEC. A release IS/IS NOT in progress and heading towards (applicable town, as appropriate). Use NORMAL / ALTERNATE access to the site. Be prepared to provide identification to the Highway Patrol. Report to the site and assume your assigned emergency response duties. Please drive cautiously and do not take any unnecessary risks. l m. o

i \\ EMERGENCY PLAN IMPLEMENTING PROCEDURE EPIP 1.2 Page 12 of 12 l NOTIFICATION OF THE EMERGENCY RESPONSE ORGANIZATION Revision 2 I AND OFFSITE AGENCIES Date 6/9/82 i ATTACHMENT 3 EMERGENCY RESPONSE ORGANIZATION NOTIFICATION LISTS See enclosed Special Order " Emergency Response Organization Notification List" l l 1 o I l l l l ? 's, -= . w w-- e =, a w ,-g-}}

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