ML20063M416

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Public Version of Revision 0 to Emergency Plan & Procedure PEP-2.6.20, Dose Projection Coordinator. Revision 6 to Emergency Plan & Procedures,Vol 13,table of Contents,Encl
ML20063M416
Person / Time
Site: Robinson Duke Energy icon.png
Issue date: 07/29/1982
From:
CAROLINA POWER & LIGHT CO.
To:
Shared Package
ML14188B940 List:
References
PEP-2.6.20-01, PEP-2.6.20-1, NUDOCS 8209140063
Download: ML20063M416 (20)


Text

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e ou%3:Aus M. B. ROSINSON SEG PLANT TITLE EMERGENCY PLAN AND PROCEDURES VOLUME 13 TABLE OF CONTENTS REVISION 6 DATE REV. APPROVED BY DATE REV. APPROVED BY DATE REV. APPROVED BY

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Recommend By: T [*w- 7 /- L

^7E Emergency Planning CObrdinator Y

Approved By: _[, rt [t .

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^7' Plant General Manager /

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8209140063 820827 PDR ADOCK 05000261 PDR

PAGE TITLE REV. PROC. NO.

T.O.C.

b OF L PLANT EMERGENCY PROCEDURES 7 TABLE OF CONTENTS TABLE OF CONTENTS 1.0 PLANT EMERGENCY PROCEDURES INTRODUCTION 1.1 Manual Purpose and Use 1.2 Emergency Organization 2.0 EMERGENCY CLASSIFICATIONS AND CONTROL PROCEDURES 2.1 Initial Emergency Actions 2.2 Emergency Control - Unusual Event 2.3 Emergency Control - Alert 2.4 Emergency Control - Site Emergency 2.5 Emergency Control - General Emergency 2.6 Emergency Management Guides 2.6.1 Plant Operations Director 2.6.2 Emergency Repair Director 2.6.3 Logistics Support Director 2.6.4 Radiological Control Director 2.6.5 Representative at the Forward Emergency Operations Center 2.6.6 Environmental Monitoring Team Leader 2.6.7 Plant Monitoring Team Leader 2.6.8 Personnel Protection and Decontamination Team Lea; er 2.6.9 Fire Brigade Leader (to be used for fire concurrent with declared emergency) bs

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PAGE TITLE REV. PROC. NO.

PLANT EMERCENCY PROCEDURES 7 T.O.C.

2 OF 5 (Continued) 2.6.10 Emergency Security Team Leader 2.6.11 Damage Control Team Leader 2.6.12 Operational Support Center /Evacua tion Assembly Area Leader 2.6.13 Site Public Information Coordinator 2.6.14 Site Commnications Systems Coordinator 2.6.15 Support Services coordinator 2.6.16 Emergency Response Manager 2.6.17 Administrative & Logistics Manager 2.6.18 Technical Analysis Manager 2.6.19 Radiological Control Manager 2.6.20 Dose Projection Coordinator 3.0 EMERGENCY ACTION PROCEDURES 3.1 Comnunications Procedures 3.1.1 Followup No tification and Communications 3.1.2 Comcunications Activities 3.1.3 Use of Communications Equipment 3.2 Augmentation and Mobilization Procedures 3.2.1 No tification of Of fduty Personnel 3.2.2 Mobiliza tion of Outside Organiza tions and Personnel 3.2.3 Activation of the Technical Support Center (TSC)/

Emergency Operation Facility (EOF) ba

3 PAGE TITLE REV. PROC. NO.

.3 ,,,_ g p 5 _ PLANT DfERGENCY PROCEDURES 7 T.O.C.

(Continued) 3.3 Plant Monitoring Procedures 3.3.1 In-plant Monitoring and Surveys 3.3.2 On-site Monitoring and Surveys 3.3.3 Collection of Very High Level Radioactive Samples 3.3.4 Analysis of Very High Level Radioactive Samples 3.4 Radiclogical Consequences 3.4.1 Initial Dose Projections 3.4.2 Whole Body Dose Projections 3.4.3 Thyroid Dose Projections 3.4.4 Initial Ingestion Dose Analysis 3.4.5 Automa tion of Dose Assessment 3.4.6 Determination of Affected Areas by Use of Visual Aids (Isopleths) 3.5 Environmental Monitoring Procedures 3.5.1 Confirmation of Initial Dose Projections 3.5.2 Expanded Environmental Monitoring 3.5.3 Plume Tracking by Actual Measurement

3. 5 . 4 Coordination with State Monitoring 3.6 Source Term Assessments and Estimates of Core Damage f 3.6.1 Release Estimates Based Upon Stack / Vent Readings 3.6.2 Release Estimates Based Upon Direct Radiation Levels l

3.6.3 Interpretation of Liquid and Caseous Samples 3.6.4 Consequences of Leakage spills l -

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PAGE TITLE REV. PROC. NO.

1 OF5 _ PLANT EMERGENCY PROCEDURES 7 T.O.C.

(Continued) 3.7 Radiation Control Procedures 3.7.1 Emergency Work Permits and Exposure Control 3.7.2 Emergency Personnel Monitoring and Dosimetry 3.7.3 Issuance ~ and Use of Protective Gear 3.8 Protective Action Procedures 3.8.1 Evacua tion 3.8.2 Personnel Accountability 3.8.3 Administration of Radioprotective Drugs 3.8.4 Access Control 3.9 Aid to Af fected Personnel 3.9.1 (Reserved) 3.9.2 First Aid and Medical Care 3.9.3 Transporting of Contaminated Injured Personnel 3.9.4 (Reserved) 3.9.5 Personnel Decontamination 3.9.6 Search and Rescue 3.10 Damage Control Activities 4.0 SUPPLEMENTAL PROCEDL'RES 4.1 Record Keeping and Documentation 4.2 Emergency Facilities and Equipment 4.3 Performance of Training, Exercises and Drills 4.4 (Rese rved) 4.5 Public Educa tion and Informa tion 4.6 (Reserved) he .

PAGE TITLE REV. PROC. NO.

,-.1. O F l _ PLANT DfERGENCY PROCEDURES 7 T.O.C.

(Continued)

APPENDICES ,

A.0 DfERGENCY ORGANIZATION MEMBERS AND TELEPHONE NUMBERS A.1 H. B. Robinson Unit #2 Personnel A.2 Federal State and County Agencies A.3 Police Fire and Medical Phone Numbers A.4 Other Emergency Response Contacts l

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.l f w a sgam H. B. ROSINSON SEG PLANT TITLE EMERGENCY PLAN AND PROCEDURES VOLUME 13 DOSE PROJECTION C0ORDINATOR PEP-2.6.20 REVISION 0 REV. APPROVED BY DATE REV. APPROVED BY D/.TE REV. APPROVED 3Y , DATE I

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EmergencyPlanningCdhdinator Approved By:

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Plant General Manager

DOSE PROJECTION COORDINATOR 1.0 Responsibilities and Objectives The Dose Projection Coordinator is responsible to the Radiological Control Director for projecting doses off site during a declared emergency.

After activation of the Emergency Operations Facility, the Dose Projection Coordinator will provide meteorological data and source term information to EOF personnel.

2.0 Scope and Applicability This procedure shall be implemented upon activation of the Dose Projection Team. The actions and responsibilities are limited to the Dose Projection Team Leader and those team members assigned to him.

3.0 Actions and Limitations 3.1 General Requirements:

3.1.1 Report your position and readiness to the Radiological Control Director.

3.1.2 Announce your name and assumed position title to all team members.

3.1.3 Ensure that all personnel actively assigned to you are accounted for at all times. (See PEk-3.8.2, Personnel Accountability, for initial accountability requirements.)

3.1.4 Determine and procure equipment, supplies and manpower necessary for use by the Dose Projection Team.

3.1.5 A. When assuming the Dose Projection Team Leader position, request a briefing on the emergency and emergency actions status from the previous position holder.

B. When relinquishing the Dose Projection Team Leader position, brief your successor on the emergency and emergency actions status.

C. Notify all appropriate personnel of your name, the position you are assuming, and the name of the person you replace.

3.1.6 Ensure documentation of the following:

Communications Key decisions Data collected HBR PEP 2.6.20 Rev. 0

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Data transmitted (In accordance with PEP-4.1, Record Keeping and Documentation) 3.1.7 Ensure proper use of communications equipment (in accordance with PEP-3.1.3, Use of Communications Equipment).

3.2 Assign personnel to perform dose projection and source term procedures as directed by the Radiological Control Director.

3.3 If the plant computers are not accessible, determine meteorological data in accordance with Exhibit 2.6.20-1, Manual Met Tower Data ,

Acquisition.

3.4 If the on-site meterological station is completely inoperable, National Weather Service data can be used to obtain an estimate of the on-site wind speed and direction, and the appropriate atmospheric stability class. (Refer to Exhibit 2.6.20-3 for steps to follow.).

3.5 Periodically call Licensing and Permits Section in Raleigh and request meteorological forecast data. (PEP Appendix A.4 for phone numbers.) Make use of Exhibits 2.6.20-4 and 2.6.20-5 for recording forecast and other meteorological data.

3.6 Use Exhibit 2.6.20-6 to detail wind direction in terms of degrees from north versus sector wind is blowing from and sector wind is blowing to.

3.7 Record source term data on Exhibit 2.6.20-7 and transmit to EOF if activated.

3.8 Record environmental field results on Exhibit 2.6.20-8 and transmit to the EOF if activated.

3.9 Record dose projection results on Exhibit 2.6.20-9 and transmit to the EOF if activated.

3.10 Ingestion dose projection procedures are contained in the Harris Environmental and Energy Centers Emergency Procedures should they be needed before activation of the EOF. Copies of HEEC Emergency Procedures are available in the TSC.

HBR PEP 2.6.20 Rev. O

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EXHIBIT 2.6.20-1 Manual Met Tower Data Acquisition 1.0 If the CRT, modem circuit, or telephone system for contacting the met tower is out of service, the data is obtained as follows (if unavailable from process computer):

a. Obtain key from E&RC or Security to allow access to the Meteorological Building, located at the base of the tower, northwest of the site.
b. On the shelf in the building, locate the manual pulse counter. This unit should be plugged into a 110 VAC outlet for recharging the .

internal batteries. ,

c. The unit has a stop/ start switch and a position 1/ position 2 switch.

It has a black lead and white lead.

d. Unplug manual pulse counter.
e. Open the left-hand cabinet on the right wall of the building.

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f. Inside this cabinet you will observe several black jacks and one white jack.
g. Each black jack is labeled as to what parameter is involved.
h. Plug the shite lead into the white jack and the black lead into the parameter whose pulses are needed.
j. Reset counter to zero.
k. Place switch into position 2.
m. Observe time, place stop/ start to start.
n. At the end of 90 seconds, turn stop/ start to stop.
o. Record number *of pulses and multiply number by 10. This will scale up the pulses to equal 15 minute values.
p. Proceed to obtain the other parameters.
q. Record readings on Exhibit 2.6.20-2.
r. Record the wind direction and wind speed from the recorders on the data form.
s. Turn switch to stop and plug counter into 110 VAC.
t. Secure all cabinets, lock building, and return keys to E&RC/ Security.

HER PEP 2.6.20 Rev. 0

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Exhibit 2.6.20-1 (Cont'd)

u. Perform the E&RC tabletop computer program to convert the pulses to usable parameters as normal. .
v. Compare the wind parameters to the values from q above to see if they are reasonable.

2.0 If the calculator is out of service but the pulses can be obtained either automatically or by hand, proceed as follows:

CONVERSION OF PULSES TO ENGINEERING UNITS -

WIND SPEED (MPH) = WIND SPEED PULSES + 15 WIND DIRECTION: A = (SIN PULSES - 750)

B = (COS PULSES - 750)

APPARENT ANGLE = ARCTAN OF ABSOLUTE VALUE OF A/B A B WIND DIRECTION (DEGREES FROM NORTH)

+ + APPARENT ANGLE

+ -

180 - APPARENT ANGLE 180 + APPARENT ANGLE

- + 360 - APPARENT ANGLE AMBIENT TEMPERATURE (*F) = (TEMP PULSES X 0.12) + ZA ZA = SITE SPECIFIC ZERO ADJUST FACTOR

  • DIFFERENTIAL TEMPERATURE (*F) = (DT PULSES + 60) + ZA ZA = SYSTEM SPECIFIC ZERO ADJUST FACTOR
  • ANSWER IN DEGREES F MULTIPLIED BY SITE

- SPECIFIC NORMALIZING FACTOR (0.5976)

CONVERTS UNITS TO *C/100 METERS.

  • NOTE: THE MOST RECENT ZER0 ADJUST FACTORS ARE USUALLY POSTED IN THE MET TOWER BUILDING. IF CURRENT FACTORS ARE UNAVAILABLE, ASSUME ZA FOR AMBIENT TEMP = -50 AND ZA FOR DELTA T = -10. ,

STABILITY CLASS DIFFERENTIAL TEMPERATURE AT A < -1.9 ( C/100m)

B -1.9 to -1.7 C -1.7 to -1.5 D -1.5 to -0.5 E -0.5 to +1.5 F +1.5 to +4.0 G > +4.0 HBR PEP 2.6.20 Rev. 0

Exhibit 2.6.20-2 MANUAL PULSE COUNTS DATE TIME PARAMETER PULSES /90 See WSU X 10 = WSU WDU SIN X 10 = WDU SIN WDU COS X 10 = WDU COS WSL X 10 = WSL WDL SIN X 10 = WDL SIN WDL COS X 10 = WDL COS AMB Temp X 10 = AMB Temp DT 1 X 10 = DT 'l DT 2 X 10 = DT 2 1

Wind speed upper from recorder (avg) aph Wind direction upper from record (avg) degrees Wind speed lower from recorder (avg) aph Wind direction lower from record (avg) degrees i

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HBR PEP 2.6.20 Rev. 0 l

1 __, _ _ _ . . , . _ - . . _ . . , , _ _ . . . . . - - , , , . . _ _ . . . _ . , _ . - _ _ . _ , _ . , . , . . _ , - _ . . _ , - _ _ . , _ _ _ - . _ . - _ . _ , _ - , , . - . - - , , , __ .

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Exhibit 2.6.20-3 Determining Stability Class from National Weather Service Data

1. Call the National Weather Service office at Columbia, South Carolina, for the current weather observations. Obtain the following information from the meteorological forecaster who is on duty:
a. Station for which data is given
b. Wind speed (knots)
c. Cloud cover (in tenths of total)
d. Cloud ceiling (feet above ground)
e. Wind direction (N, S, E, etc.)
2. Load the programmed cassette (the same cassette used in the Automated Dose Projection Procedure, PEP-3.4.5) into the HP9830A, enter LOAD 3 EXECUTE, and enter RUN EXECUTE.

NOTE: Press the EXECUTE button after each entry into the computer to allow the program to proceed.

3. The display will read WIND SPEED (knots). The program is asking for the wind speed in knots for the NWS observation station. Enter the appropriate response (example...l.0, 3.0, 0.0 for a calm wind).
4. ine display will read CLOUD COVER (tenths). The program is asking for the total cloud cover of the sky in tenths. That is, if the sky is overcast, 10/10ths would be to enter 10. If the sky was clear, the appropriate response to the computer would be to enter 0. Enter the appropriate response.
5. The display will read CLOUD CEILING (feet). The program is asking for the height of the most obscure cloud deck above the ground level. Enter the appropriate response (example.. 1000.). For no cloud ceiling enter 99,999 feet.

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6. The display will read JULIAN DATE. The program is asking for the current JULIAN DATE, that is, the number of calendar days since the first of the calendar year. Enter the appropriate response.
7. The display will read CURRENT TIME (24-hour clock). The program is asking for the current time (eastern standard time) in the common 24-hour clock (that is, noon = 1200 and midnight = 0000; all other times are reported such as 1:00 p.m. = 1300). Enter the appropriate response.
8. The computer program will now compute the appropriate atmospheric stability class, based upon the weather observations entered into the computer.

The output will be displayed on the visual screen as follows:

HBR PEP 2.6.20 Rev. 0

Exhibit 2.6.20-3 (Cont'd)

Wind speed = (number) mph Atmospheric stability class = (letter)

NOTE: The letter for the atmospheric stability class will be the pasquill stability indicator.

9. Obtain and record wind direction and speed on Exhibit 3.4.2-1 or 3.4.3-1.

Use the correct atmospheric stability class in the dose calculations.

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I HBR PEP 2.6.20 Rev. O

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%,b\ ' WA .J Exhibit 2.6.20-4 Carolina Power C: Light Com;;any

.& FEO RO LOGICAL V FORECAST FO RISE Date:

Time Issued: .

Issued By:

Received By:

TorecastLocktion:

I A) Next 1 Hour Sector Deg.

1) Wind Direction:
2) Winds Should Remain (Steady; Shif ting; Variable)

Deg.

2a) Variction Should Be

3) Wind Velocityj to (MPH)
4) Stability Class
5) Precipitation Activiry Will Be (None', Scattered. . Steady)
6) Precipitation Type (Rain, Rainshowers, Thunderstorms, Ice, Snow)
7) Precipitation Intensity (Light, Moderate, Severe)

E B) Next 3 Bours:

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i C) Remarks:

ev. O HBR PEP- 2.6.20

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Q.{]>['VT dj Exhibit 2.6.20-5 Carolina Power & Light Company ord S UTE METEGRGE.8G E C A L DATA i Ik a:

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Tisne ( )

Upper' Speed (mph) (m/s) / / / /

Upper Direc. (DEG)

Lower Speed (mph) (m/s) / / / /

Lower Direc. (DEG)

AME Tc=p. ( F) bT ( C/100m) .

.hility Class Time ( )

Upper Speed (mph) (m/s) / / / /

l Upper Direc. (DEG) 1,ower Speed (mph) (m/s) [ [  !

Lower Direc. (DEG)

AMB Temp. ( F) dT ( C/100m) __

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Stability Class Rev. 0 HBR' PEP- 2.6.20

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Exhibit 2.6.20-6 WIND DIRECTIONS l WIND FROM DEGREES FROM NORTH WIND TOWARD N 349-11 S NNE 12-33 SSW

- NE 34-56 SW

ENE 57-78 WSW E 79-101 W i ESE 102-123 WNW SE 124-146 NW i SSE 147-168 NNW S 169-191 N SSW 192-213 NNE SW 214-236 NE
WSW 237-258 ENE 4

W 259-281 E l WNW 282-303 ESE-NW 304-326 SE NNW 327-348 SSE i

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Exhibit 2.6.20-/

SOURCE TERM DA TA DATE:

TIME:

ElFVATED RELEASE os GROUND. LEVEL REL ALARMING MONITORi MONITOR INDICATION:

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FLOW RATE (scru).-

w . 'HER:

SOURT TERI// = Ci/sec H B R ' PEP- 2. 6.20 Rw. -0

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Exhibit 2.6.20-8 ENVIRONMENTAL FIELD MONITORING REPORT l

Plant Date Time Analysis / Reading:

Representative of:

Location: '/ miles Team Comment:

HER PEP 2.6.20 Rev. 0 py-v- - . - - - . - - - - , _ . . - , . __ _ _ _ _ _ , ,

i Exhibit 2.6.20-9 3

i DOSE PROJECTIONS i

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! DATE TIME ASSESSOR WIND DIRECTION WIND SPEED STABILITY CLASS SOURCE TERM DOSE CONVERSION FACTOR RELEASE HEIGHT

COMMENTS:

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4 Potential Potential  :

{ WHOI.E BODY Actual Actual

! POINT OF INTEREST (DOWNWIND) DOSE (REM) DOSE RATE (RHR) i SITE BOUNDRY i

j 1 MI.

2 MI.

5 MI.

!, 10 MI.

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] Potential i

THYROID Actual 1

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f POINT OF INTEREST (DOWNWIND) DOSE (REM) j SITE BOUNDRY I 1 MI.

1 2 MI.

1 5 MI.

l 10 MI.

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i HBR PEP 2.6.20 Rev. O I

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