ML20039B857

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Public Version of Revised Emergency Plan Implementing Procedures,Including Procedures 3100023E Re Onsite Emergency Organization & Roster & 3100033E Re LOCA Dose Calculations
ML20039B857
Person / Time
Site: Saint Lucie NextEra Energy icon.png
Issue date: 07/13/1981
From: Robert E. Uhrig
FLORIDA POWER & LIGHT CO.
To:
Shared Package
ML17212B264 List:
References
PROC-810713, NUDOCS 8112240034
Download: ML20039B857 (44)


Text

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FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT #1 E-PLAN IMPLEMENTING PROCEDURI NO. 3100023E REVISION 20

1.0 Title

ON-SITE EMERGENCY ORGANIZATION AND ROSTER

2.0 Approval

Reviewed by Facility Review Group July 25, 1975 Approved by K. N. Harris Plant Manager July 29, 1975 Rev. 20 Review March 20 and 25 19 81 Approved by //jd by FRG

///)fAm WA-- Vice Pres-Pwr Resourceuwu194 / ~

'3 . 0 Scope: y .;>

f 3.1 Purpose j-9~N _

This procedure describes the members and duties of the On-Site Emergency Organization (see Figure 1).

3.2 Discussion During the period immediately following the declaration of an emergency, the shift operating staff constitutes the immediate response organization, i.e., the Interim Emergency Teams. Emergency requirements take immediate precedence over normal operating responsibilities (as determined by Emergency Procedures or at the direction of the Emergency Coordinator). Subsequent to the immediate response actions and notifications, off-duty plant staff will begin arriving to form the Primary Emergency Teams and to staff the Technical Support Center. The On-Site Emergency Organization reports to and supports the Emergency Coordinator.

3.3 Authority This procedure implements the St. Lucie Plant Radiological Emergency-Plan.

3.4 Definitions 3.4.1 Emergency coordinator Responsible for notifying off-site authorities, both inside and outside the Corpany and has full authority and responsibility for on-site emergency response actions. This function is performed by the Nuclear Plant Supervisor. His normal alternate is the Watch Engineer. The Operations

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E-PLAN IMPLEMENTING PROCEDURE NO. 3100023E, RES.~. 20 EMERGENCY ROSTER EMERGENCY RdSTER APPENDIX A

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DUTY CALL .e % dVISORS MAINTENANCE DUTY OPERATIONS DUTY H. P. DUTY CALL CALL SUPERVISOR CALL SUPERVISOR SUPERVISOR T. A. Dillard D. A. Sager \ G. M. Green C. F. Leppla J. A. Spodick ,

\ H. F. Buchanan R. W. Marr B. W. Mikell H. M. Mercer M. B. Vincent R. L. Hayes R. M. McCullers M. G. Craig P. L. Fincher C. L. Wilson j R. S. Glaze f

. -k N. G. Roos I

M. D. Sheppard Beeper No. '

Beeper No.  ; Beeper No. \

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Pcga 10 of 11 E-PLAN IMPLEMENTING PROCEDURE NO. 3100023E, REV. 20 EMERGENCY ROSTER iT/

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6/p t Manager Date DUTY CALL SUPERVISOR'S CALL LIST PHONE TITLE NAME HOME OFFICE Emer. Recovery & Restoration C. M. Wethy 461-4529 Ex.

  • team leader - Plant Manager Alternate: Ops. Superintendent J. H. Barrow- 465-6919 Ex.

Emergency Control Officer A. D. Schmidt 666-3188 Beeper ALTERNATES Asst. Vice Pres. Power Res. J. R. Bensen _

Beeper Manager Power Res.-Nuclear C. O. Woody , _ . .

~ Beeper _ _ _ _ _.___._

Radiological Duty Officers Asst. Mgr. Pwr. Res.-Nuclear K. N. Harris (Ft. Pierce-Weekends 3

(MIEmSWY$1rdavq _

Beeper Mgr. of Pwr. Res. H. N. Paduano ._.

Nuclear Services Beeper- _ _ _

Pwr. Res. Sec. Supv. Plant R. J. Acosta _

Beeper-Pwr. Res. Specialist D. K. James Beeper Systems Operations Power _

Coordinator TEAM LEADERS & ALTERNATES ,

Emergency radiation team H. F. Buchanan l k Ex.

leader j Alternate emergency H. M. Mercer  ; Ex.

radiaion team leader  !

Alternate emergency G. M. Green or Ex.

radiation team leader R. M. McCullers Ex.

Plant Fire Protection W. J. Barrow Ex.: >

Coordinator -

- C:[.'77 77.2... &~CE2 __,

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. Page 1 of 26 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT UNIT NO. 1 EMERGENCY PLAN UfPLEMENTING PROCEDURE 3100033E REVISION 2

1.0 Title

LOSS OF COOLANT ACCIDENT DOSE CALCULATIONS

2.0 Approval

Reviewed by acilit wG March 20 and 25, 198 Approved by{hr/8/y?4m Revie4roup TV Vic_e Pres-Pwr Resources Nd sc6 'V-i 19 Rev. 1 Revi ed by FRp May 12 19 0 I Approved by ////84/mf/# Mice Pres-Pwr Resources h 2, 19g/__

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Rev. ? Rev e d by ,o 3LI V 7 19 9 Appr O b //9 ##7Vice Pres-Pwr Resources ih / 3 19

3.0 Scope

3.1 Purpose This procedure provides a method for estimating thyroid and whole body doses for the area surrounding the plant out to ten miles.

This procedure is intended for use by the Emergency Coordinator upon indications that a loss of coolant accident has occurred.

3.2 Discussion 3.2.1 The Emergency Coordinator shall estimate thyroid and whole body doses for off-site locations from one mile to ten miles if a loss of coolant accident has occurred.

3.3 Authority This procedure implements the St. Lucie Plant Radiological Emergency Plan.

4.G Precautions None.

5.0 Responsibilities

The Emergency Coordinator or his designec has the responsibility for making whole body dose rate estimates and calculating integrated whole body doses.

The Chemistry Department representative shall make refined estimates upon arriving at the sceae at the direction of the Emergency Coordinator.

Page 2 of 26 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT UNIT NO. 1 EMERGENCY- PLAN IMPLEMENTING PROCEDURE 3100033E REVISION - 2 I 6.0

References:

6.1 -St. Lucie Plant Radiological Emergency Plan 6.2 St. Lucie Plant Radiation Protection Manual.

7.0 Records and Notifications:

i Detailed records of meteorological conditions used to estimate doses,

, and the estimated thyroid and whole body doses shall be kept on the attached worksheets. As deemed l appropriate by the Emergency Coordinator, the off-site authorities shall be notified of:

i

1) Meteorological conditions (wind speed, wind direction, stability and precipitation).
2) Projected thyroid and whole body doses at 1, 2, 5, and 10 miles, and
3) Whether default values of actual measurements were used for dose estimates.
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. Page ,3 of 26 FLORIDA POWER & LIGHT COMPANY -

ST. LUCIE PLANT UNIT NO. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE 3100033E -

REVISION 2

8.0 Instructions

8.1 The Emergency Coordinator shall, upon the initiation of an event -

which is determined to be a loss of coolant accident, project,the thyroid and whole body doses in areas surrounding.the plant as follows:

8.1.1 The dose rate as measured by the post-LOCA radiation mohitor at the shield building wall shall be determined and recorded on App. A. These dose rates shall be verified by portable dose rate instruments before estimating off-site dose /R2 projections. The monitor reading shall be used to further categorize the event in accordance with the following.

~

Initial w Post-LOCA Category of ,

Monitor Reading LOCA ,

< 30 mr/hr Case A 30-100 mr/hr Case B 100 mr/hr - 1 R/hr Case C

> 1 R/hr Case D NOTE: If the post-LOCA monitors are inoperable detemine shield building wall dose rates by using portable' dose rate, instruments. Dose rates are to be taken at the. post-LOCA monitor locations. -

/R2 s This category shall also be included on App. A. If it.has, ,

2 been determined that a Case A LOCA has occurred, doses will' be low and no further estimates are required.

8.1.2 Determine stability class from the temperature difference '

between the 200 foot temperature sensor reading and the -

32.0 foot temperature sensor reading from 'he t meteor-ological tower (i.e. 200 foot reading minus-32.8 foot reading). This value should be an average for at least a fifteen minute period. Record this value on Appendix A. 3 8.1.3 Determine the stability class from the folliwng Table based on the temperature difference uteasurement:  ;' '

AT(from 8.1.2) Stability Class -

< - 1.6 A and B ~ ^

-1.5 to - 0.5 C and D

> - 0.4 E and F Record the stability class on Appendi: A.

NOTE: If temperature difference measurements are not available, then a default value for stability class is required. During daytime assume C and D stability and during night-time assume E and F stability. Record'the stability class on App. A. and note that it represents a default vflue.

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FLORibA POWEP~& LIGHT COMPANY l '[ '~

ST.11UCIE"?LANT UNIT NO. 1

, EMERGENCY PLAN IMPLalENTING PROCEDURE 3100033E x #

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eEEVISION{2 s

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' 8.0 Instructions: (cont 'd)

, 1; . 8.1 (cont'dr - -

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i 8.1.4 Determine the average wind speed over at least *he most

_ , recent fif teen minute period using the output of the win.1 spyhd; sensor at the lower level on the meteorological

- -y.' to:ser. , Record.on App. A.

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.~' NOTE: if'thekowerlevelsenso.rvalueisnotavailable,usethe

' s

. upper l'ev-el sensor value aad note on App. A. If neither

'.  ; sensor output is available, assume a default.value of 5 nph during daytime and 5 mph during nighttime. -Record this. _ _

valde andznote on Xppendix A that it represents a default. . . _ .

value.

c 'S.1.5 Determine' tiie average wi:id direction'value over at least i

- the most recent(fifteen' minute period from the wind direc-tion sensory at the icwer level of the meteorological tower .. : Record ,this value on App. A. If the lower level, value is not,available, use the upper level sensor value and ncte this on App. A.. If neither. sensor

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output;;it EvrGable, record "ALL" for wind direction on< Appr A' -

03.1.6 Select $he u.froid and whole bo'dy time-dose-distance tables' corresponding- to the meteorological conditions recorded on App. A ' from Tables D-1 through D-18.

y Record \the dose' factor on Ap'p. A . based on the

- ifollbwingI '

LOCA' Type- Dose Factor x m s

. Case B 1 Case C '

6 i ' Case D 60 Case B dose estimates are read directly from Tables

'e- .

D-l~through D-18. For Cases C and D the table values s

are multiplied by the_ dose factor.

'8 1.7 Position the overlay, Figure D-1, with the " PLANT"

' reference point over the center of the reactor containment building on a map of the site area ,

  • - ' Position the centerline of the overlay plume in the
1. - 1., direction towards which the wind is blowing.

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$ \ "D.L.  %'m#

t s kg. 4

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Page 5 of 26

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FLORIDA POWER 6 LIGh'T COMPANY

,, ST. LUCIE PLANT UNIT NO. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE 3100033E REVISION 2

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), 8.0 Instructions: (cont'd)

?,

  • 8.1 (cont'd)

, 8.1.8 For each time period of interest (e.g. 7 hours8.101852e-5 days <br />0.00194 hours <br />1.157407e-5 weeks <br />2.6635e-6 months <br /> 4 hours, etc.), record the dose information (Table values multiplied by the dose factor) on Alp. B. In order to account for wind shifts, the values should be recorded in the sectors adjacent to the indicated downwind sector.

If "ALL" has been recorded for wind direction on App. A then it shall be assumed that the estimated doses could occur in any sector.

NOTE: To censervatively accommodate any plume stabilization effects that could conceivably result from a postulated potential stabilizing effect of the Indian River, those residents in sectors K, L, or M (between SW and WNW of the facility), should be considered to' reside at 1.0 miles. Thus, Tables D-1 to D-18 should be used at a 1.0 mile distance for these environs.

8.1.9 If there is eyshift in wind direction of more than 45c, the procedure shall be repeated.

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, Page 6 of 26 FLORIDA POWER & LIGIIT COMPANY ST. LUCIE PLANT UNIT NO. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE 3100033E REVISION 2 APPENDIX A DOSE CALCULATION WORKSHEET I

TIME J INITIAL POST-LOCA MONITOR READING:

CATEGORY OF LOCA: CASE O

TEMPERATURE DIFFERENCE: F STABILITY CLASS:

4 WIND SPEED: mph WIND DIRECTION:

DOSE FACTOR:

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Page 7 of 26 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT UNIT NO. 1 DiERGENCY PLAN IMPLEMENTING PROCEDURE 3100033E REVISION 2 APPENDIX B CUMULATIVE DOSE DISTRIBUTION

. TIME RELEASE ASSUMED TO OCCUR:

TIME THROUGH WHICH THIS DISTRIBUTION APPLIES:

f Thyroid Dose Whole Body Dose Met Station Downwind Distance Downwind Distance Wind Direction Downwind (miles) (miles)

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s .- 3 e e e e e e Me- e , e e . .nr1 e e i  ;

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nae 6 3 . tad u8 O N .= == .e .o .e e .* _e O C oe o o o o o o o o o e

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  • F3 w t l t >= me 9 ee == .= .e .s e me - ==

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=

c. s . . e e le e M. se e. e to e e te e e

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a . e e e . . e 6 e M. es e e le e e o o es- sr- n a p. O- o e. o- .e 9 o o o o o o o o c. o o o oB o o o o o o o o o o o o o o o o o9 9 't *B 4 *= e- * *

  • em go * * * * + -

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2. l* T Z Z 2 2 2 2 = =

. .r.e- me .Z* ee .Z= re .Z.e 2.e . se .e e ==

  • E E E E E E E Z E T C E E E Z E t 6 e t -

t Me o I6 o o e o o e o o e o o o o e6 9 o l '4 M Saa 8 2a , 3 P* 9 E E E, I.I*. E E E E E E E E E g - ~- g g . f N M e 4 M o W 4 6 o W - m- .N N_ m _ w N N , s i. . . . . . . l l i l u oo , e Y s e e e N . ev ~ ~ N N ~ ~ ~ ~ ~ OO e.s O OI o o o o o oe o e os e es ei e is a e :s e e 6/ N ea w .w wt w w wi w J 6.a l w o4 . . . e, e ,,. - M e a's i e Mt e. 4 e ,Ne WI e. P= e .CP e Ml e, p. e M o o o o e o == N M M pr e at N ye en l I l N . M ~ ~ ~ N ~ N ~ ~ N r"4 oB o o O o o o o o e o o o 8 9 5 i$ $l 0 g5 0, g gg g g Q ea L J. n.J k.A gna l sJ na i,a , w a,a n.4 a, 'd P G o 9 EP l N 0" en ese p= cg a * . an e e 40.' e 4 e . e i. N.t e ,P=e .4 e llL, e o o o o e N M er a wij in we e e i i l E N' N N N Af N NI N es As N O e o* O o o' o o o' o o o o o 9 0 e.a t u 0 'a B SOO 3 SI B 's W 3 ea e e in e o i M w! e= , w wcP w Niw e na .o es = w o 3 . . m e e = e ee . es e ee e, e e e e o o o o o =e N M e wt en 4 e  !.e >= e

t. *
  • a6

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e (P i M e e ie N

.. O. ,r a e e e e . O o- . o o N M er to 4 P= P= e e t> sm 9 N N N 1 N N N i N N l \ O oe C o-' o o e o e o o o o o o4 9 18 0 8-

  • 0 't 0 e t 0 it B e ed faJ LaJ i tad laa nas naa 4.4 tad tas hea Im.3 and 4 0 sr ==i' e3 4A 481 GP == Pm o == N Me 2 U g e e . e e je o e eo e e )e o e e e e em g e o o o 43 4 no >= P= y sh = == == ==

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  • e e e e ie e.
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hJ N N ** == =* == == ** == { =e es TQse C 2 se C Q. 53 Z9 = 8 oe oI o o 18 o 9 e o e 11 o o e o o o o ned s 8 0 5 4 it. S S $4 4 8 Q ** =4 as C s.L 6 e 4 inJ be laJ led bJ LaJ ind nna taJ ens led tJ ta Cr u 6 *= 2 E O e8 F W P= **

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= o ElP * == == == == =e N ftp N

= > .J l l l e Q .,a j y lme g.- p na ne == == == == =e oo == ea e3 = ot e o o o o o e o o o o C o o O O $ 4 8 .8 8 6 it 6j t 8 8 0 84 3 g r5 e4 w na LaJ LaJ 14 n.J kes naJ taJ taA lima laa 4.J led as M t ** 4 N 8r 4 P= no l er == o! o == e p

a. 4 * * *
  • l*
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, o o tr 4 == = = m N N ma M M M M

, N - - - _ _ _ _ _ _f _f, _ _ _ _

oe o o o o o o o o e o oi O 8e 8* * ;5*

O I 18 8 8 18 E E O O 8 8 8 e I kna and W laJ 14J Las w'I LaJ Laa ha kJf nas n.4 w na N 8 A N P= P'1 P* O (d N LA == tr i P= D* 6:'1 o g e eo e e 4e e e ie e o 4e e a eo e e O Lo == == N M PT e e vt W't trl trt 4 >=

e CP G 4

o o o I e*

o

. ==f' ==

o o

==

o o o Lc +

o o o e

Lo en o

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+

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o e.

o o

.+

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+

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(*

o3 8 ft 4 9 if S O 4 }

a=

e8 0

LaJ er saJ N

LaJ P=

led c

naJ

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lad una o

laa

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>=

Ln4 a

w' o

  • A me

%d e 6e e e se e e e e .. 4.! e l= e .

.a N sq er 4 p== e3 gm p ee. *e ee N N e

2" = "l* Z r2 2 2 2 2 Z Z Te == e.* .T == 7.e o en se e ee == . 2."

o e.e se

$ $ $ $ $ $ $ $ $ $ $ $ $ 5 5 5 I I t e i N ts in O o o o O CD o o o o o o o

. N *T e 81 P9 wB ZS

  • es s
  1. 8 6 6 6 - 6 6 6 6 6 6_ . z E 6 6 6

& .  : a

=* ** N AS M d Pm o As , at 4 o, er

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  1. ee . S ,

b b TABLE D-6 Page 13 of 26 TH1aut? DOSf 1REH) ,

BT. LUC!I EHEHGENCY PL4N .

~

~

, DVERLD n ol3PER$10H PA40UILL STAMILITY ELASSES C & D W { *80$PEEpa4 HPll DisT4NCE (HIEE$)

..........g ....

TIHE $,00 2.00 3.00 a 00 5.00 6.00 7.00 8.00 9 00 10.00 22 HIN 1,9E-01 ,4.6E-n2 0 O. O. O. 0 O. O. O.

.20 HIN 2i4E-Qt 6;3E;o2 7 ;5E;p2 7 ;3E;04 0 4 6 4 6, c.

45 HIH 3.3E-01 9.5E-02 4.lE-02 2.lE-02 1.lE-02 2.9E-04 0, O. O, 0, I HR 0 HIN 3.9E-01 1.3E-01 5.9E-02 3.?E-02 8.9E-02 1.lE-02 6.8E-03 2.6E-09 0 D.

'* I HR70 HIN 9.~6E3OI l!5E;0T 7 9E'02 a!9EsD2-~374E;02 f 5E D 1.7&;0T'~l~.f E 02 777f 76iT2E;01 2 HR 0 HIN 5.2E-01 1.7E-01 9.2E-02 5.PE-02 4.0E-02 3.0E-02 2,3E-02 1,8Ep2 1,5E-02 1, U - 0.)

2 HR 30 HIN 5.7E-01 1.9E-01 1,0E-01 6.5E-02 4.6E-02 3.sE-02 2.6E.02 2.lE-02 8.7E.02 1.4E-02 3'HR 0-HIN silE-DI7!!Ee01 ITIE;OT 7?AEID2~~4;9E;02 1~7E;02 2!9C;O2' 2;4E3027;i)E;02 I.6E-c2 6 HR 0 hlH 8.0E-04 2.7E*01 1.4E-01 9.cE-02 6.aE-02 4.8E-02 3.8E.02 3.lE-02 2,6E.02 2.2E-02 7 HR 0 HIN 8.5E-01 2.8E-01 3.5E-01 9 6E-02 6.8E-02 5.lE=02 4.lE-02 3.3E-02 2.8E-02 2.4E-02

~~IO'HR 0 HIN 9?7E-01 7 ;2Esci ITTEs0I 1 TIE;D D .~7E;02' 5;sE;D2-~4.bE;D2~~'3!aE-02-~3!2E;02 7 .7E;42 12 Hft 0 HIH 1.0Et00 3.4E-01 8.8E-01 1.lE-Ol 8dE-02 6.lE-02 a 9E.02 4.0E-02 3,3E-02 2,9 E, _0 2 14 HR 0 HIN 1,lE*00 3.6E-01 l,9E-01 1.2E-01 S.5E-92 6.aE-02 5.lt 02 4.2E-02 3.5L-02 3.0E-02

~~1ti'HR u Hiti ITIEt00 3 7Eia'l 4.0E;DT F2E;51 ll!9E752 6.TE~02 5~3E;02 4.3E402~ 374EIO2 371E;02 20 HR 0 Hiti 1.2Et00 4.lE-01 2.lE-01 1.0E.01 9.7g.02 7.3E-02 5.8E.02 4.7E-02 4.0E-02 3.4E-02 24 HR 0 HIN 1.3Et00 4.4E-01 2.3E-01 1.%E-01 1.0E-01 7.9E-02 6.2E.02 5.lE-02 4.3E.02 3.6E-02 I

TABLE D-7 Page 14 of 26 THY 4010 D03F (NEM)

Si, LUCIF EHERGENEy PL4N

  • OVERI AHii bliPER&lOli

~

PASQUILL STABILITY ELASSES E & F WINDAPEEDe3 Hpil DIST4 HEE (HILE8)

TINE I.00 2.00 3.00 a.00 5.00 6.00 7.00 8.00 9.00 10.00 22 HIN l.0Et00 0 O. O, 0 O, 0;

  • 0 O.

G.

~ 30 HIN I,5Et00 0.~ 0, 6. 6 a,

~

0 4 ~0 O.

45 HIN' 2.ete00 S.lE.01 0 O. O. n. O, 0, , 0 , ,, , 0, I HR 0 HIN 3.4Et00 8.6E.01 0 O. 0 0 0 O. O. O.

4 HR'--'30~ MIN 4 0E600'~lTTEf 00'--~6~ 6E401 2;5E;41 d. 6 6 O. c. O.

2 HR 0 HIti 5.0Et00 2.0Et00 1.lEt00 5.9E.01 2.5E.01 0. 0 ,, 0 , _0 , _ ,_ 0 ,

2 HR 30 HIN 5.5E+00 2.3Et00 1,2Et00 7.8E.04 5.2E.08 2.6E.01 1.2E.01 0 O. O.

3'HR'~~0'HIH 5;0Et00 7 .4Ef00 li4E100'~9;0E;61 CIE bl U 4Es01 2;8E;01 1,'0E.01~~0 c.

6 HR 0 HIN 7,2Et00 2.9Et00 1.7Et00 1.lE+00 6,3E.01 6.5E.01 5,2g.01 4.3E.0l_ 3.7E.01_ 3.2E.01 7 HR 0 HIN 7.5Ee00 3.0Et00 1.7Et00 1.2Et00 '0.6E.01 6.7[.01 5.4E.01 4.5E.01 3.9E.01 3.3E.01

~~IO HR-~~~0 HIN 8.3Ef 00-~3.3Et00 l';9Ef 00 l!1EtBO 9'.5E;61-~~f.4E;01 G0E;ol 5!0E 01 4;~3f.6]T3;7E;01 12 HR 0 HIN 0.7Et00 3.4Et00 2.0Et00 1.3E*00 9.0f.08 7.fE.08 6.2E.01 5.2E.01 4.5E.01 '3.9E.01 14 HR 0 HIN 9.0Et00 3.6Et00 2.0E*00 1.4Et00 1.0f+00 4.0E.01 6.5E.01 5.4E.01 4.6E.01 4.0E.01

- l 6 HR. 0 HIh 1pff 0R777Ef 00 GIE400 lT4Ef00 ITOET00 f.2Ei41 G6E;01~5;6E'017;eE;01~GlE;01 20 HR 0 HIN l.0Et01 3.9Et00 2.2Et00 1.5E+00 l.lEt00 8.11 01 7.0E 01 5,9E.01 5, 0 E_. 01 4 dE.0 [

, 24 HR 0 HIN 1.*l E t 0 ! 4.lEt00 2.4Et00 1.6Et00 1.2E*00 9,lE.01 7.4E.01 6.2E.01 5.3E.01 4.6E.01 9

e I

e

.= == e .e ee .-e .e we 8 N O O O Os O O # O. .O. O.

O e O. .'O. a e iq4,s ei g: y e

gg 4/ e p i.,

W 4 i,4 g,3, sen g,,a

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,,a l ar 8 in . .e3 w

Po e3 O 8

.= g e * ** e .e e e le e. . .P'i e N

e t. e. 4e N N o

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0 O O O O O see N N N N.

.O 4

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@ P Si gl, o e . as e e e e ge e, e ee e e je o e s=4 O O e 4f> ee === N N A4 N N P9 M M O O 6

f

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\

Page 17 of 26 ST, LUEIE EMEPGf racy PL4H .

~ ' ' - - -** " - * * -

.' 0VERL Awn DISPFHS10H PA50ulLL STAaILITY ELA5sts A $ n -

WlHD S PE E D e 3 11PH .

DIAIAHEE (HILES) 2.00 3.00 4.00 5.00 6.00 7.00 8.00 9.00 10.00 T illE , 1.00 ==---- - -- - ----- ===.-- -.--.- ------ ------

4* D. O. O. 0 22 HIH 9.4E-06 0 O. O. G. 0.

. * ~ '"

'o, ~C. O. 0 0

-3 0 "HIN ' -13 7E-0 5 - g r -"' O .- -- ~ " O . -" - 0 . -"

2.6E-06 0 O. O. O. O. O. O. 0.

45 HIH 3.6E-05 O. O. O, 0 O. G.

I HR 0 HIN 6.0L-05 5.6E-06 0 4

'O. O. O. O.

- --1 HR- 30 HIN 9.5E-05' I.St-05~5.9f-06 't.9E-06 0 - 0.

O.

2 HR 0 HlH 1.2L-04 2.lf-05 1.3E-05 6.st-06' 2.5E-06 0 4 O. O.

i 30 HIrl l,50-04 2.6E-05 1.6E-05 4

l.lE-05 7,3E=06 3.2E-06 1.lE-06 0, O. O, 2 HR

- 3 HR - 0 - H I H ~'- --~ l . 7 E- 0 8 - 3. l E -4 5 --2. 0 E- 0 5 " l . a E - 0 5 9,8E-06 6.9E-06 3.9E-06 1.50-06 0 O.

2.eE-09 5.2r.05 3.5E-05 2.AE-05 2.0E-05 1.6E-05 1.3E-05 1.0E-05 4.4E-06 7.0E-06 6 HR , O HIH 5.8E-05 3.9E-05 3.0E-05 2.3E-05 l.9E-05 1.5E-05 1.2E-05 9.9E-06 8.2E-06 7 HR 0 HIH 3.2E-04

-~4. lE-0 4-- 7.5E 5 ;1E-0 5 3.9E-05 3. l f -05 7.5E-05 '2,lE-05' t,7E 05 1.4E-05 1.2E-05

-- 10 HR -0 HIH-8.qE-05 5.7L-05 4.4E-05 3.5E-05 2.9E-05 2.4E-05 2.0E-oS l.7E-05 1.4E-05 12 HR 0 HIN 4.6L-Os .

9.3E-05 6.3E-05 4.9E-05 3.9E-05 3.2E-05 2.6E-05 2.2E-05 1.vE: 05 1.6E-05 14 HR 0 HIH 5.lE-04 5.5E-o n- 170g-04 v.9E-05 5.3g-05 4,3r -05 ' 3.5E-05 ' 2.9E 2.4E-05' 2.10-05 1.6E-05

- -- -- 1 6 H R 0-HIH 20 HR 0 HRH

. 6._3E-04.. -

1.2E-04 7.80 . .- . - -6.lE-05

- . . .- - .. . -.- ......~

4 a 9 E .0. 50E-05 .-. . 3.3E -

2.aE-05~-..2 4L -0S ..lt-05 2

7.1L-04 1.3E-04 8.7E-05 6.1E-05 5.4E-05 a.5E-05 3.7E-05 3.2E-05 2.8E-05 2.4E-05 24 HH 0 HIN

- - . . . . - . - - - - . . . - - i

,, , .ep. .. . 5

MDC O-tf *

, .. .. . . . . . . . . _ . . . . . _ _ . . ._. NHOLE BODY 005E (HEN) l 81. LuclE f.HE84GE14EY PL AN OVERLAND DISPER$1DH j

_ _ _ _ _ . . . _ _ _ _ _ . RA3 QUILL STABILITY GLA66Es A 4 a _ __... ...._ .... .

t8]NOSPEED*5 HPH DI$ LANCE (HILES) t 71HE l.00 2.00 3.00 4.00 5.00 6.00 7.00 6.00 9.00 10.00

==-_=-====_.-----...-+--_.-=-,..e.-===. = = = = - . ------ ==-- -

. . . _ . - - , . . . . . _.=-- -*___-e-22 HIN 1.!E-05 0, 0, 6 O, g, p, 0, 0 O.

1.8E-05 1.8F a; 0, 0 O. O. $. O. D. O.

30 HIN 4 5 . H I N ....__ .3. l t . ; 5 3.9E-06. l.5Er06 .0.. O, D. O. 0 D. O.

0 HIH 4.6E-05 6.8E-06 3.lE-06 l.4E-06 0 O. O. 6 D. O.

I HR I HR 30 HIN 6.4E-05 1.2E-05 T.5E-06 8.6E-06 2.6E-06 1.3E-06 6.2E-07 0 O. O.

. 2 HH. . O HIH.. 8.0E-05 1.5E-05 l.0E-05 -7.4E-06 5.5E-06 4.0E-06 2.3E-06 1.2E-06 6.3E-07 c.

2 HR 30 HIH 9.5E-05 1.8E-05 1.2E=05 9.4E-06 7.lE-06 5.5E-06 a.2E-06 3.2E-06 2.2E-06 1,2E-06 3 HR 0 HIH ~ 1

1. l E = 0'4~ 2.1E 05' 1".4E-05 1 lE-05 8.8E-06 6.9E-06' 5.4E-06 4.2E-06 3. 3 t -0 6 2.7E-06

.. .... 6 HR._. 0.f11H__ l.8E-04._3.9E-05...2.3E-05....l.8E-05 1.5E-05 1.2E-05 9.9E-06 a.3E-06 7.lE-06 6.lE-06 7 HR 0 Hiti 2.0E-04 3.8E-05 2.6E-05 2.!E-05 1.7E-05 1.4E-05 1.lE-05 9.4E-06 8.0E-06 7.0E-06 to HR 'O Hili 2.5E-04 4.7E-05 3. 3 E-0 5 2.6E-05 2.lE-05 1.8E-05 1.5E-05 1.3E-05 1.lt-05  %,5E-06 12 HR 0 HIH .. 2.ag-09 5.3E-05 3.7E-05. 2.9E-05 2.4E-05 2.0E-05 1.6E-05 1.4E-05 1.2 t ,05 1.lt-05 14 HH 0 HlH 3.lE-04 5.8E-05 4.0E=05 '3.2E-05 2.6E-05 2.2E-05 1.8E-05 1.5E-05 1.3E-05 1.2E-05 lb HR 0 HIH 3.4E-04 6.3E-05 4.4E-05 3.4E-05 2.et-05 2.3E-05 2. 0 r.-0 5 1.7E-05 1.St-05 1.3E-05

_. ._ 20 tlR. _ 0.HIH .3.9E-09._.7.2E-05_ 4.9E-05._ 3.9E-05 3.2E-05 2.7E-05 2.2E-05..l.9E-05 1.7E-05 1.5E=05 24 HR 0 HIN 4.3E-04 7,9E-A5 5.5E-05 4.3E-05 3.5E-05 2.9E-05 2.5E-05 2.lE-05 1.9E-05 1.7E-05

.-* d -

f

,f TABLE D-12 {

.._..... MHOLE 80DY 003E (REH) .. .. _.

{ {-

  • Page 19 of 26
87. LUCIE EMERGEtiCY PLAN OVERLAND DJSPERSIGH ,

. .~ ;. - .PASQUILL $7481LITY CLASSES A & B .. . _ . . ..... . . . .

Wil408PEEDep HfH *-

e DISTANCE (HILES)

TIME 1.00 2.00 3.00 4.00 5.00 6.00 7.00 8.00 9.00 1.O a f _1

! 22 HIN 1.0E-05 0 O. 4 O, D. O. 0, 0, O.

1 30 MIN 1,4E-05 2.0E-06 0, D. O. O. o. o. O. O.

. . . . . .. . 45.ttIH, 2.3E-05 _3.4E-06. 2.0E-06 .0.__ ..._ 0.. ____.O,.. .0,. .. O . .. . D. 4.

I HR 0 HIN 3.lE-05 5.8E-06 3.5E-06 2.2E-06 0, O. O, O. O. 0 I ttR 30 HIN 4.2E-05 8.2E-06 5.7E-06 4.3E-06 3.3E=0) 2.6E-06 1.7E-06 0 c. c.

_. 2 HR . O HIH__. . 5.2E-05 .l.0E-05..7.3E-06. 5.7E-06. 4.5E-06 3.6E-06. 2.9E-06 2.3E-06 1.9E-06 6 4

{ 2 HR 30 HIN 6.1E-05 1.2E-05 8.7E-06 7.0E-06 5.6E-06 4.6E=06 3.7E-06 3.0E-06 2.5E.06 2.lE-06 3 HR 0 MIN 7.0E-05 1.4E-05 9.aE-06 7.9E-06 6.4E-06 5,3E-06 4.4E-06 3.8E-06 3.2E-06 2.7E-06

. . . 6 11R _. 9 .t11H 1.tE-04.._2.2C-05__1.6E-05 ..l.2E-05..l.0E-05 0.6E-06 7.2E-06 .6,lE-06 5.3E-06 4.7E-06 7 HR 0.HIH 1.3E-04 2.4E-05 1.7E-04 1.4E-05 1,tE-05 9.5E-06 8.0E-06 6.0E-06 5.9E-06 5.2E-06 10 f tR 0 HIH 1.6E-04 3.0E-05 2.lE=05 1.7E-05 1.4E=05 1.2E-05 8.cE-05 8.7E-06' 7.6E-06 6.it-06 i

, 12 HR . 0.HIH_ __1.aE-04_ 3.4E-05._.2.4E-05_.l.9E-05 1.6E-05. 1.3E-Oh .1,lE-05. 9.7E-06 a.5E-06 .7.5E-06 14 HN 0 MIN 2.0E-04 3.7E-05 2.6E-05 2.lf-05 1.7E-05 1.4E-05 1,2E-05 1.1E-05 9.3'E-06 a.2E-06 16 HR 0 HIH 2.tE-04 4.0E-05 2.eE-05 2.2E-05 1.6E-05 1.6E-05 1.3E-05 1.tE-05 1.0E-05 6.9E-06 1

' .. . _ _ _. . . 2 0 H M 0_t11ti_. _ 2.4E-09 9.5E-05__3.ZE-Q5 _2.5E-05. 2.tE-05..t.8E-05 .t.5E-05_.t.3E-05. 8.tE-05..l.0E-05 5.0E-05 3.5E-05 2.aE-05 2.30-05 1,9E-05 '.6E-05

24 HR 0 HIH 2.7E-04 t 1.4E-05 1.3E-05 1.lE-05 t

1 I

i

o

[ndtE D -13 l

. . . . . . . ..._ W H.OL E..BDD.D_O.B

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_. E..ll)  ;

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~~~ ~-

DVERL AND DJ8Pl'ASIOld I

PA30u!LL StaplLITV cLAssE8 C & D ,

i ,

NJN05PEEDm3 HPH DISTANCE (HILEB1 e

TillE 1.a0 2.00 3.00 4.00 5.00 6.00 - 7.00 a.00 9.co 10.00 22'NIH 4,lE-04 0, 0, 0. O. 4 O. o. O, O.

70 HIN I;9E-04 0 O, c'. O. 0, 6. 6 O. 4.

6.3E=05 c. O. O. o. 0 0 O, 0, d

45 HIN 3.9E-04 6.6E-04 1.4E-04 0, O. 0, 0 O. O. O, 0

! HR 0 HIN .

0;-  !

1 l HR 30'HIN 1.oE-03 3;BE l;20=04 3;3E;05 0 6. 0 O. ~0. ,

1.4E-03 5.2E-04 2.6E-04 1.2E-04 3,aE-05 0. 0 ,. _ 0 ,_ 0, 0 ,,

?

2 HR 0 HIN 2 HR 30 HIN l.6E-01 6.5E=04 3.4E-04 1,9E-0,4 4.lE-04 4.4E-05 1.4E.05 0 O. O.

s li7EiO37i3E';04 4;2EE04- 2.5Es04 1.5E;64 9.7E;05 5~.0'E ;05~~~ !!8Ee0F6

~

6

- 3 HR-~ ~0 HIH

! 6 HR 0 HIN 2.4E-03 1.0E-03 5.6E-04 3.AE-04 2.6E-04 1.9E-04 1.4E.04 1.lE-04 8,7E 05 7.CE-0} _

0 MIN 2.6E-03 1.1E-03 6, V.-0 4 4.lE-04 2.9E-04 2.lE'04 1.6E-04 1.2E*04 9.6E-05 7.8E-05 I 7 HR 37t E=03-~l T3E-037.40604 4.9E;04 3 74E;04' 2.5EE04 1.9E;0 4 1;5E404 l!2E;04 9'.7E;05---

'~ '10 ' HM 0 Hit?'

17 HR 0 HIN _ 3.4E=03 1.4E=03 8.lE,=04 5.3E,-04 3,fE-04 2.a[-04 2,IE-04 1,6E-04 1,IE-04 j,jE-04

$4 HR 0 HIH 3.7E*03 1.5E-03 8.7E-04 5.7E-04 4.oE-04 3.0E-04 2.3E-n4 1.et-04 1.4E-04 1.2E-04

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( V V Page 21 of 26 TABLE 0-14

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, . Page 1 of 7 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT UNIT NO. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100034E REVISION 1

1.0 Title

MAINTAINING EMERGENCY PREPAREDNESS - RADIOLOGICAL EMERGENCY PLAN TRAINING

2.0 Approvals

Reviewed by Facility Review Group 413 r'e b 1 D 19 8 /

$ Approved bygl D fe A a l /1!: V.P. Pwr. Res. Al 3 e e 4 2. 4 19 3 /

4 Ce e Sifned c o v e r Th e e t .

Rev. 1- Reviper*,.d by FRG Approved by / / // M w ? &

M7 199/

v- V. P. Pwr."Rel. \M /4, 19E g /

Rev. Reviewed by FRG 19 Approved by V. P. Pwr. Res. 19

3.0 Scope

3.1 Purpose This procedure provides requirements for a periodic training of individuals, onsite, who may have <one response upon initiation of the St. Lucie Plant Radiological Emergency Plan.

3.2 Discussion In order to maintain emergency preparedness, personnel working at the St. Lucie Plant must be familiar with certain preplanned actions in the Emergency Plan and its implementing procedures.

Any changes in required actions or response due to revision of the Plan or procedures must be presented to appropriate personnel on a periodic basis.

3.3 Authority St. Lucie Plant Radiological Emergency Plan 3.4 Definition Throughtout this procedure, the terms Emergency Plan and P1.an will be used to mean St. Lucie Plant Radiological Emergency Plan.

Pagn 2 of 7 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT UNIT NO 1 EiERGENCY PLAN IMPLEMENTING PROCEDURE No. 3100034E REVISION 1 4.0 Precauti7ns 4.1 This procedure does not cover requirements for periodic training of the FPL Offsite Emergency Organization.

5.0 Responsibilities

5.1 The Plant Manager has the overall responsibility for Emergency Plan Training.

5.2 The Plant Training Supervisor is responsible to the Plant Manager for ensuring all Emergency Plan Training is conducted in accordance with the references listed herein.

5.3 The primary team leader of each emergency team is responsible for the development and implementation of his team's training and retraining program. He may assign competent individuals to assist him in accomplishing this task.

5.4 The Operations Superintendent is responsible for the development and implementation of the Emergency Coordinator training and retraining program. He may assign conpetent individuals to assist him in accomplishing this task.

5.5 The Plant Training Supervisor is responsible for development and implementation of Emergency Plan Training of all candidates for reactor operator or senior reactor operator licenses.

5.6 The Plant Training Supervisor shall provide for training all individuals requiring unescorted access on site describing the action to be taken by an individual discovering an emergency condition, the location of assembly areas, the identification of emergency alarms, and the action to be taken on hearing those alarms.

6.0 References 6.1 St. Lucie Plant Radiological Emergency Plan 6.2 10 CFR 50.47 6.3 10 CFR 50 Appendix E 6.4 NUREG 0654, Revision 1

Pags 3 of 7 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT UNIT NO. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE No. 3100034E REVISION 1 7.0 Records and Notifications:

Records documenting the Emergency Plan Training received by individuals are quality assurance records and, therefore, snall be retained in accordance with Quality Instruction, QI-17-PR/PSL-1, Quality Assurance Records.

. 1 Page 4 of 7 l FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT UNIT NO. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100034E REVISION 1

8.0 Instructions

I 8.1 Emergency Coordinator Training All Nuclear Plant Supervisors, Duty Call Supervisors (Operations),

-Nuclear Watch Engineers, Reactor Control Operators (who are holders of Senior Reactor Operator licenses) shall receive training in categories provided in this section, annually: (+ 3 months) a) Interpretation of plant and field data and how it relates to emergencies and their classification (i.e. emergency action level determination).

b) Prompt and effective notification methods, including the types of communication system c) Method of activating the Florida Power & Light Company Emergency Organization.

d) The methods used for estimating radiation doses.

8.2 Other Operational Assistance Other control room shif t personnel who may be required during an emergency shall receive training in the following areas on an annual basis:

a) Emergency Plan familiarization.

b) Emergency implementing procedures familiarization.

c) Communications and record keeping methods.

d) Accident assessment and corrective action.

e) Shift relief policy.

f) Specific emergency team training (for" individuals assigned to interim emergency teams).

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FLORIDA POWER & LIGHT COMPANY '

ST. LUCIE PLANT UNIT NO. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100034E REVISION 1 S.0 Instructions: (cont'd) n

\

8.3 Shift Technical Advisor "

All Shift Technical Advisors shall receive the following ,tanual training: (+ 3 months)

^

a) Emergency Plan familiarization s b) Emergency implementing procedures familiarization. ~,

c) Technical Specifications (in-depth understanding). '

s d) Specialized training in power plant and reactor specific core '~

operating characteristics (normal and abnormal) and accident s assessment.

8.4 Emergency Teams '. .' ,

A 8.4.1 Primary and interim Emergency Team Leaders, their alternates, 22.

and emergency team members shall have successfully completedx <'x radiation protection training conducted by the Health Physics s s group. Successful completion of this training is acknowledgad' ^

by the issuance of a " Red Badge" identification card. ~

.g 8.4.2 All assigned primary and interim ~1eaders shall participate;in an annual training exercise designed to have them and their'

teams respond to simulated situations.

8.4.3 Specific emergency team training shall be conducted by the primary team leader or his qualified designee familiarizing ^ '

team members with their responsibilities described in the -

Emergency Plan and its implementing procedures, communications and coordination with other emergency teams and the following team-specific topics: /

8.4.3.1 Radiation Emergency Team /R1 a) Use of air sampling equipment.

b) Performance of contamination surveys.

c) Determination of air activity and stay times based on MPC values.

d) Determination of radiation levels and allowable dose limits in emergency conditions.

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. ', Page 6.of 7 7' ~~

[l - ;~~ 'N FLORIDA POWER & LIGHT COMPAhl ST. LUCIE PLANT UNIT NO. 1-

% ,. EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100034E

, lf ' N REVISION 1

s. .

a' ,

_ T E 8.0! Ins _truccions: (cont 'd)

- 8.4-E:eergench*eams (cont'd) 8.4.3 (cont'd)

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8./.j,3.1 ;(cont'd)

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, e) Record keeping methods.

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.f) In -depth, knowledge of personnel and field conitoring/ analyzing techniques.

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.y; Team.

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\h~8.4.3.b '-

S5;urity Team

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~ %)' Personnel accountability procedures.

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s b,) Site ingress and egress control procedures.

s, c) Deploynent of Security Personnel, s

' 8.4 3.3 First Aid / Decontamination Team

, s, s ~ .n -s g-p a) Description, storage location, and application

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%g s of supplies and equipment.

e s- s b) Sequential steps for the assessL ;nt of contamination levels and treatment of injured 2 .- c

-/, q

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personnel.

5 c) Allowable radiation exposures and advisable e s radiological environments.

d) Personnel decontamination procedures, e) Procedures for the evacuation of contaminated persons to off-site medical facilities.

-f) At least three members will satisfactorily complete the American National Red Cross Multi-Media First Aid Course and will requalify every.

three years. _(+ 6 months. And CPR and will requalify on an annual basis.

_ _ . _ . , ~ . . _ . .

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. Pags 7 of'7 FLORIDA POWER &' LIGHT COMPANY

( ST. LUCIE PLANT UNIT NO. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE No. 3100034E REVISION 1

8.0 Instructions

(cont'd) 8.4 Emergency Teams (cont'd) 4 8.4.3 (cont'd)'

- 8.4.3.4 Fire Team Fire Team training is covered by the Fire Protection manual, Administrative Procedure 1800022.

8.4.3.5 Recovery and Restoration & Re-entry Teams i

These teams are composed of personnel previously described teams and as such receive adequate training with respect to the Emergency Plan and its implementing procedures.

a 8.4.3.6 Other Personnel Requiring Unescorted Access On Site a) Emergency Plan Familiarization.

b) Selected Emergency implementing procedures familiarization.-

8.4.3.7 Techni:a1 Support Center Supervisor a) Emergency Plan familiarization.

b) Emergency implementing. procedures

-familiarization.

c) Technical Specifications (in-depth understanding).

d) Specialized training in power plant and reactor specific core operating characteristics (normal and abnormal) and accident assessment.

. . 8.4.3.7.1 Those personnel designated as " Support Staff" on Table 3 of Emergency Plan Implenting Procedure 3100032E need not receive the above training.

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r FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT UNIT NO. 1 EMERGENCY PLANT IMPLEMENTING PROCEDURE NO. 3100035E REVISION 0

1. TITLE:

0[h~ S/75 fA&G,ldR/($1 /Y)en/hbnt1d 2nd 03e /fSSESS/7/Bff f h (([M b

2. PREPARED BY: O Mo/f f 7/) 19
3. SUBCOMMITTEE REVIEW SY: 'ml P e for FP&L PR /'7 19 '

4 REVIEWED 3Y FRG ON: / )/9 19 //

5. APPROVED BY: -

V.P. PWR. RES. % /3 , 19N

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6. REVISION REVIEWED BY FRG ON: __

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7. APPROVED 3Y: 19 4

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FLORIDA POWER & LIGHT ST. LUCIE PLANT UNIT NO. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE 3100035E REVISION 0

1.0 Title

Offsite Radiological Monitering and Dose Assessment 2.0 Review and Approval:

Revision 0 Revr%wed by Facility Review Group CIh /v ~7 19jf/

Approved by/ / ///t-[t*-7//htte Pres. Pwr.Res. h/5 19 1/

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. Revision Reviewed by F R. G 19__

Approved by Vice Pres. Pvr.Res. 19__

3.0 Scope

3.1 Purpose

This procedure gives guidelines for assessment of thyroid and whole body dosses based on offsite radiological monitoring

3.2 Authority

This procedure implements the St. Lucie Plant Radiological Emergency Plan.

4.0 Precautions

None

5.0 Responsibilities

o 5.1 The Emergency Coordinator, or his designee, is responsible for ensuring that offsite monitoring is performed during plant emergencies which involve the release of radioactive material to the environment.

5.2 The Emergency Coordinator is responsible for determining the protective actions that will be recommended to off-site agencies.

The TSC Supervisor is responsible for notification of of f-site agencies of the recommended protective actions.

5.3 The Radiation Team Leader is responsible for the activation and direction of offsite monitoring team (s).

5.4 The Radiation Team Leader is responsible for providing dose projections based upon offsite monitoring data to the TSC Supe rvisor.

L - - _ _

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Page 2 of 7 FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT NO. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE 3100035E REVISION 0

5.0 Responsibilities

(continued) 5.5 The State of Florida's Department of Health and Rehabilitative Services assumes responsibility for offsite monitoring and dose projections upon the arrival of the Mobile Emergency Radiological Laboratory (MERL).

6.0

References:

6.1 St. Lucie Plant Radiological Emergency Plan 6.2 Florida Radiological Emergency Plan for Fixed Nuclear Facilities 7.0 Records and Notifications:

7.1 Offsite monitoring data and projected thyroid and whole body doses will be recorded on Appendix A.

7.2 The TSC Supervisor shall inform the appropriate of fsite agencies concerning offsite monitoring data and projected doses until relieved of this responsibility by the Recovery Manager.

,/ .

. Page 3 of 7 FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT NO. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE 3100035E REVISION 0

8.0 Instructions

s 8.1 When a release of radioactive material to the environment is occurring or anticipated, the offsite monitoring team (s) will be dispatched from the plant site under the direction of the Radiation Team Leader.

8.2 The Radiation Team Leader shall determine monitoring points based upon meteorological conditions and population zones.

8.2.1 Preselected monitoring points are listed in Appendix B and indicated on the area maps contained in the offsite monitoring kits. The preselected points are both possible monitoring points and may be used as reference points to direct monotoring teams.

8.3 Communication with monitoring teams will be through the FPL FM, two-way radio system or telephone.

8.4 Monitoring teams will take direct radiation readings and air samples and analyze air samples for radioiodine concentration.

8.4.1 Radioiodine analysis will be performed using portable analyzers with scintillation detectors.

Note: In the event radioiodine analysis cannot be done in the field, the Radiation Team Leader will provide for the transport of air samples to the plant site for analysis.

8.5 Thyroid dose projections will be done using the nomagram in Appendix C.

! 8.5.1 If radioiodine concentrations are known, the projected thyroid dose may be determined by matching the radioiodine concentration, on the right, vertical scale, with the i projected exposure time, on the horizontal scale, and reading j the projacted thyroid dose off the nomagram.

I 8.5.2 If radioiodine concentrations are not immediately known, ,

i projected thyroid doses may be determined by matching the gamma exposure rate, on the left, vertical scale, with the l projected exposure time and reading the projected thyroid dose off the nemagram.

Note: Projected thyroid doses using gamma erposure rates are based on a.very co servative nobel gas to radioiodine concentration ratis. Projected doses using this method should be reevaluated as soon as actual radioiodine concentrations are known.

8.6 Whole body dose projections will be determined by multiplying the gamma exposure rate by the projected exposure time.

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Page 4 of 7 i FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT NO. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE 3100035E REVISION.0 j 8.0 Instructions: (continued) 8.7 Projected doses and survey data will be recorded on Appendix A.

8.8 The Radiation Team Leader will inform the TSC Supervisor and the Emergency Coordinator in regard to offsite monitoring data and projected doses to the general public.- Recommended off-site

~i protective actions shall be based on whole body and thyroid dose projections for adults.

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F Page 6 of 7 FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT NO. 1 EMERGENCY PLAN IMPLEMENTING PROCEDURE 3100035E REVISION 0 APPENDIX B PRESELECTED OFFSITE MONITORING POINTS Survey Distance EPZ Point Location From Plant Sector A-1 S.R. A1A, North of plant site 6.0 mi. NNW B-1 Intersection S.R. 707 and S.R. 712 3.9 mi. NW E. of White City & S. of Ft. Pierce B-2 Intersection U.S. 1 & S.R. 611, S. 6.5 mi. I;W side of Ft. Pierce near RR crossing B-3 S.R. 707, S.E. side of Ft. Pierce 6.7 mi. NW B-4 Intersection U.S. I and S.R. 70 8.1 mi. NW C-1 Intersection U.S. 1 & S.R. 712 5.1 mi. WNW White City C-2 S.R. 70 near Florida Turnpike 10.1 mi. WNW D-1 S.R. 707 W. of plant site 1.1 mi. W D-2 U.S.1, S. of White City 4.9 mi. W E-1 Intersection U.S. 1 & Prima Vista 4.9 mi. WSW Blvd., Port St. Lucie F-1 Intersection U.S. 1 & Walton Rd., 5.0 mi. SW Port St. Lucie F-2 Port St. Lucie Blvd. at F1. Turnpike 8.6 mi. SW G-1 Intersection S.R. 707 & Walton Rd. 3.5 mi. S l G-2 Intersection U.S. 1 & Port St. Lucie 5.9 mi. SSW

! Blvd., Port St. Lucie H-1 S.R. 707 in Eden, 2 mi. N. of 3.5 mi. S Jensen Beach Causeway H-2 S.R. 707 & Jensen Beach Causeway 6.9 mi. S H Intersection S.R. 707 & Palmer Rd., 8.1 mi. S S. of Jensen Beach I

H-4 S.R. 707 in Rio 8.9 mi. S H-! Martin Memorial Hospital in Stuart 10.2 mi. S I-l S.R. A1A, S. of plant site 4.0 mi. SSE i

( I-2 S.R. AIA & Causeway in Sewell's Point 10.3 mi. SSE i

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