Consolidated Edison Co of Ny Indian Point,Unit 2 Exercise Scenario,1992

ML20118A268
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Site:	Indian Point
Issue date:	12/31/1992
From:	CONSOLIDATED EDISON CO. OF NEW YORK, INC.
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1 CollSOLIDATED EDISOti CO!4PANY OF llEW YORK IllDI AN POIllT UtlIT 110, 2 EXERCISE 9CEt1ARIO tJO. 1992

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l CONSOLIDATED EDISON COMPANY OF NEW YORK INDIAN POINT UNIT NO. 2 DRILL BCENARIO NO. 1992 I.

JNTRODUCTION The purpose of this exercise is to demonstrate Con Edison's capability to effectively implement the Indian Point Unit No. 2 Site Energency Plan and Procedures and the interface with New York Stato and the counties of Westchester, Rockland, Orange and Putnam.

This document has been prepared to assist the exercise Observer /

Controllers in the conduct and evaluation of the exercise.

It contains all the information and data necessary to properly conduct the exercise in an efficient and coordinated manner and is broken down as follows:

Secilon_IJ Objectives - this section defines the licensee exercise objectives.

Eection III Exercise scenario - this section describes the Indian Point Unit No. 2 postulated sequence of events occurring which will require the onsite emergency response organizations to respond.

For each event described, the anticipated results of the participants are also detailed.

These results should be used as a guide in evaluating the exercise.

eever, it should be m + ++ d that the results observed may vary from those stated and should be. evaluated on a case-by-case basis with respect'to applicable procedures.

Section IV Messages - this section contains copies of the exercise messages and Controller Field Reports.which will be utilized to control the progress of the exercise scenario.

Section V Observe./ Controller Inst _ ructions - this section pro-vides general instructions to the exercise observers and Controllers in the conduct of the exercise.

Also include is evaluation criteria for evaluating the responses of the exercise participants.

Section VI Plant Status Loc - this section contains time-related information (non-radiological) concerning plant conditions, which corresponds to the development of-the exercise scenario.

Section VII Radiolocical/Meteorolocical Loc - this section con-tains time-related plant radiological and meteorological data which corresponds to the development of the exercise scenario.

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l CONSOLIDATED EDISON COMPANY CF NEW YORK

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INDIAN POINT UNIT NO. 2 DRILL BCENARIO NO. 1992 TABLE OF CONTENTS Cection j

I.

Introduction II.

Objectives III.

Exercise Scenario IV.

Messages and Controller Field Reports V.

Observer / Controller Instructions VI.

Plant Status Log VII.

Radiological / Meteorological Log VIII.

Radiological Information IX.

Logistics T

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BCENARIO NO. 1992 Section VI_II Radiglo_gi.qal Inforpation - this section contains time-related radiological information in the following categories as required by the scenario:

Primary Coolant Activity Containment Activity Release Path Activity Plant Radiation Levels Reuter-Stokes Readings Plume Monitoring Data & Figures Offsite TLD Readings Post Accident Samples Post Accident Offside Contamination Levels Medical Emergency Data 4

section IX Locistics - this section cor tains information and direction for the handling of peripheril items related to the day of the exercise.

Food for participants Access lists Methods of identification of players, controllers, observers, visitors, etc.

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CONSOLIDATED EDISON COMPANY OF NEW YORK INDI\\N POINT UNIT NO. 2 4

TRAINING DRILL SCENARIO NO. 1992 II.

OBJECTIVES 1

Our objectives are to demonstrate the licensee's; 1.

capability to classify emergencies through the four (4) classifications utilizing the EAL tables.

2.

initial notification to offsite authorities within 15 minutes of the declaration of each of the four emergency classifications.

3.

ability to activate the emergency organization as deline-ated in section 5 of the Emergency Plan.

This includes completing Level II within 60 minutes.

4.

ability to activate the EOF, CCR, TSC, OSC, ENC, CIG and j

ECC.

5.

simulate communications capabilities to state and local authorities and the NRC, and between offsite monitoring teams and licensee facilities.

6.

ability to transmit data from the TSC to the EOF.

I 7.

deployment of offsite and onsite radiological monitoring teams.

8.

deployment of inplant radiological monitoring teams.

9.

ability to receive and assess radiological data, i

10.

completion of assembly and accountability of site personnel within 30 minutes.

(No evacuation of site personnel will be demonstrated and there will be no activation of the alert notification [ siren]_ system.)

i 11.

command and control at the emergency response facilities.

12.

changeover of responsibility for the direction and control of the emergency force from the Senior Watch Supervisor to the Plant Operations Manager and then to the Emergency Director.

13.

ability of facility staff to perform their specified emergency plan job function in an efficient manner.

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BCENARIO NO. 1992 i

14.

site access control and security measures to ensure there are no delays to the passage of EOF emergency personrel to the EOF.

15.

ability to calculate' dose projections, determine recom-mended protective actions, 16.

personnel radiological exposure control capabilities for emergency personnel.

17.

ability to brief the media in an accurate, ceardinated and j

timely manner.

18.

ability to plan for a shift change.

19.

ability to deescalate the emergency and declare the re-covery stage.

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I 9T CONHolilDNIMD I;DADON COHPAllY OP NEW YOttK INDIAN PU1HT UNIT No.

• n DillLL flCUllAll10 HO. 1992 111. DRILL SCEi.ARIO initial _COUditlopq the Indian Point Nuclonr Power Station Unit'llo. 2 han boon at full power for the innt 150 dnyn.

Tho Operatorn have detected an unidentiflod lonkago in itCS of 0.9 gpm which hau been unchanged for the the innt week.

A containment entry in scheduled for tomorrow to positively identify the soutco of the lonkage, ilumber 23 Emergency Dienol Generator in out of servico for periodic maintonnneo including a completo lubricating oil chango.

It in expected to bo return to norulco in 24 hourn.

!!a rra tilo_Bumma ry h

.9mic ovont han occurred.

The Contrni control Room (Cc4 operator han boon nollfled by tinit 3 of the noinmic event.

A !!otlfication of Unusuni Event will be declarod based on the Indian Point 2 IlUE Cinsniflcation Tablo Item 5.n lintural Phenomenn, On-sito nelninic activity verlfled by Unit 3 plant Instrumento.

It in expected that the CCR operntor will enter nbnormal operata'g procedure A 20.0.0, Earthquake Emergency.

Sometina intor, another noinmic event occuro.

Unit 3 hnn noti fled the CCit operator of a noinmic event of 0.16 g in the horizontal direction.

An Alert Emorgoney will be declared baned on the Indlnn Point 2 Event Bnned Alert Table item 3.c:

linturni Phenomenn Earthquake = 0.10 g vertical or o

0.15 g horizontal confirmed by Unit 3 monitors.

The operator will enter A 28.0.5 and direct an inspection of the pinnt and commenco an immediate pinnt n.4tdown por POP 3.1.

Coincident with the carthquake, 21 Charging Pump tripn.

The CCR operator starts 22 Charging Pump.

The CCR Operntor receiven many reporto that people on-nito felt an earthqunho.

A Inrgo lons of coolant accident combined with a loss of offsite power occurn, ilumber 22 EDG f alls to ntart.

Number 21 Safety Injaction Pump and flo. 21 Spray Pump fail to start.

Emergency Dlonel llo. 23 in out of nervice for maintenanco.

The containment liigh Range monitor R-25 indienten >195 R/hr.

The Emergency Director declaron a sito Aron Emergency bnned on thn Indian Pcint 2 Pinnion Product 111 - 1

l DCENARIO No. 1992 I

Barrior Dreach Tablet Reactor Coolant System Dreach i

confirmod by RCS Loakage to V.C. greator than 100 gpm and i

fuel clad breach confirmed by High Radiation Monitort, R-25 I

readings.

l Humber 22 Emergency Diosol Generator is started.

All equipment 4

supplied by 22 EDG is operable.

Approximately one half hour later recirculation conditions have boon reached and recircula-tion started.

Radiation lovels in the VC have boon increasing steadily sinco l

the loss of coolant accideint occurred.

The reading on High Radiation Monitor R-25 now roads 9.6 X 104 R/hr.

The Emor-goney Director will declare a Gonoral Emergency based on the Indian Point 2 Fission Product Barrier Bronch Tablot Major i

core overheat conditions.

Greator than GAP inventory present i

in containment (R-25 greater than 9.4 X 104 R/hr constitutes 4

a 3 barrior breach, Rac.rculation Fpray cause radiation to decrease in contain-ment.

A two day time warp occurs in which the reactor core will be consider in safe condition with no potential releases of radioactive material to the environment.

The ED will close out the smorgency and declare the Recovery Stage at which i

4 time the drill will ond.

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SCENARIO NO 1992

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DRIL ENDS 0800 0815 0900 1015 1030 1200 1215 1230 1345 1400 I

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ALERT SAE GE I

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SEISMIC

. SEISMIC RCS CLAD INTERNAL 3RD BARRIER RECIR.

2 DAY KNITIAL EVENT EVENT BREACH BREACH RECIR.

BREACH SFRAY TIME CONDITION NUE

>.11g VERTICAL R-25 R-25

' REDUCING WARP

>.16g HORIZONTAL'

>195 9.6X104 RADIATION

.R/hr R/hr LEVEL IN V.C.

III - 3

._.. =. _ _ _ _ - _ _ _ _ _..

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l DCEt1ARIO NO. 1992 QET.h1 LED DCENhilIO T1]i4 R t(E I

INITIATING HESSAGE TIME NUMDER EVENT

SUMMARY

1 i

T = 08:00 1

Initial conditions aro:

Operating at full power for the last 158 days.

- Plant paramotors are atmble and normal.

- A confirmed leak rato 0.9 gpm had earlier boon identiflod.

j

- 11 umber 23 EDG is held off for scheduled maintenance and is scheduled for return-in 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

A cuismic event occurs.

Unit flo. 2 T = 08:15 2

is notiflod by Unit 110, 3 CCR.

AUI1SllWEER_IlEWJ1LG Control Room 0.nenttAt

- Enter abnormal operat',ng proceduro A-28.0.8 Earthquako Emergency.

Send 11PO to check AREAS.

D.euior Wa.Lc.h_GjuptD_icot 9

- Declaron an 110E due to 110E classifica-tion Table 'iA onsite solomic activity verified in 'Jnit 3 plan instrumenta-

tion, i

DPIL INDE 0900 0919 0900 101S 10)n 1200

1215, li3D 1345 1400

~

AltRT sat CC StitHla St SMic POS C AD INT Pte A1.

IhD SARPitP P!CIR, 1 DAY IHITIAL tytNT iVENT PhTACH PPrftH PTCIP.

PPTACH S T PA Y TIME

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CONDITIOff HUE

. 13g VEPTICAL P-25 P-29 P tt)UCING Wart j

v.169 HOPit0HTAL s195 9.5N104 PADIATION P/hr P/ tit LtVtl IN V.C.

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f DCENARIO No. 1992 i

DE.Th nED_RCEMABIO TIME _klHC INITIATINO HEBBAGE i

TIME NUHilER EVENT BUMMARY Fills out Radiological Emergency Data form Part 1 Direct the communicators to make appropriato notification with 1P-1002.

Ta 08:30 A

Controller Pield Heport rencarning noismic event from flPO's reportn normal conditionn.

T = 09:00 3

- Another Seismic Event occurs, Unit 3 notifieu CCR operator of seismic event of.169 in horizontal direction and confirmed by Unit 3.

T = 9:15 11

- Controllers Field Hoports, llPO's report felt vibration of ovent.

Dobrin on turbine room floor.

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- No.21 Charging Pump Tripn. Pump block leaks, inolating pump.

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DRIL FNDS

-8900 0911 0900 10l$

1010 3200 1719 1530 1349 1400 l

Al.FPT lt A t CF

.l St!$ HIC St SMIC PCS C AD lif f FPNAL 3PD SARDIFR RECIR.

3 DAV INITIAL TVtHT EVTNT PREACH PDEACH PFCIP.

PPfACH SFPAT TIME Cont'! TION Hl)F D.)lg VfDTICAL P*)$

P*2$

PEDUCING WAPP t.36g HORITONTAI

>l95 9.EX104 PADIATION P/br P./ h r LEVEL IN V.C.

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i acENARIO 110. 1992 I

PEIAILEP_.!LCEHARLo T1111LLIHS INITIATING HEBDAGE TIME NUHDER EVENT DUMMARY l

Ta 09 15 h!!ILgifMf1LRERQ1((g 4

i

- CCR should go to A-28.0.8 Earthquake i

Emergency.

• Start 110. 22 charging pump.

SILG

- Declares an Alert duo to -IP !!c.

2.

)

Event bano Tablo item 3A.

J

- Dirrtet Cito to sound the Emergency Assembly Alarm.

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- r111s out " Radiological Emergoney Data j

Form Part 1" and Form 450.

Direct the commun cator to make i

i appropriato notifications in IP-1002.

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DRIL ENDS 0800 081S 0900 1019 1910-1200 1219 1730 1345 1400 t

At1RT SAE ct Sf!SMIC St SMic PCS C AD I N1 T Fil A L 3PO BAPR1FR PECIR.

2 0AY INITIAL F.V tHT tvFNT FPEACH BPEAril PTCIP.

DPE Acit

$ FPAY T3HE CONDIT10H wtr F

>.lig vtPTICAL P-25 P-25 Pi tWC !lb.

WAfr

>,16g Hf1p !!DtiT Al.

>l95 9.fX108 PADtATION P/hr P/hr LFYtt. IN a

V.C.

111 6

DCEllARIO 110. 1992 DEMILED DCEtiAIRo._tu!E_Mlle IHITIATIlla HEDSAGE TIME HUHDER EVENT DUltHARY T = 09 15 Plattt 9DRA:311911.ti.jjallplior (l'9U1

- Report to the control Rooro.

Discuss and review plant status, emergency action levoln, initiating conditions and omorgency classification with SWS and assumos control.

- At the SWS offico discuss the situa-tion with the assembled personnel and appoint individuals to the following poaltionni a

TSC Hanager OSC Manager Of fnito Itad Asom't Dir (ORAD)

Toch Advisor (TA) to EOF 1 & C Coordinator Maint Coordinator Itad Pro Coordinator T= 09:30 IQf_Untiallgr Activate TSC.

Provido technical support to the SWS and POM including:

Evaluato Plant Data Evaluation of fuel condition.

g_SC lin11alloJ:

- Activaton OSC.

- Site accountability in progress.

0R1L 0900 0815 6400 1014 1010 1700 till 1710 114%

4 AttPT SAT Gt St!$MIC Sti$ HIC PCS 0 AD INitPHAL IPD SAppitD PtCfD.

3 DAV INITI AL EVrHT IVrHT DPPACH PPEACH PFCIR, PPTACH 8tPAY TIME COHf'! TION nut D.!!g YtPTICAL D-l$

P-21 P t(WK] NS WAPf' s,161 HDD)7AH1AL

>)9%

1.4Xin4 PADI AT]CH P/ht P/ht Lf'VI L I N V.C.

111

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DCENARIO NO, 1992 l

DEThl. LED ILCENARIO_ TIMILLIl[G l

INITIATING HED8 AGE TIME NUMDER EVENT

SUMMARY

l T = 9:30 ILoIG21L Who WUl_AED.11FLO_lio.Q1t191 LOLL.D i

- May stay at control room with POM or report to the EOT.

j atLolts_Jtad Aqsm't Dir- (ollM21

- Contact individuals to fill EOF positions.

i

- Report to the EOF.

T= los15 4

Itonctor Trip and Saft.ty Injection due to Largo Broach LOCA has occurred.- Loss of offaite poWor.

EDG 110. 22 falls to i

start.

Ilo. 21 apray pump fails to

ntart, llo. 21 SIS pump falls to start.

1 T = 10:30 5

ruel clad breach contirmed by liigh Had Monitor R-25' reading 200,H/hr following a loan of RCS to V.C.

T= 10:30 hJlT.LQl1%TXD REJ1LTJ EoILt.tgLRoom OneEtoI

)

- Trien to start flo. 21 SIS pump.

Will not staTt.

- Tries to start 110. 21 Spray Pump.

Will not start.

- Chemlot to sample HCS.

fiP ! L E Nt%8 0000 0415 t> 900 1015 3030 13bo 1215 1830 l)45 1400 A1.fRT R AF -

CT I N ITI A1, f

\\ il P ACll Cil If A

D cotit 17 8084 Not z.lly VfPTICAl, P-26 P-33 P tt1UCits1 w A r t-5.1$g Itofti rotit At.

s19%

9, fiX 104 pat >IATIGH P/hr P/ht LivrL IN V.C.

111 8

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t DCEllARIO 110. 1992 Q01hlhEP _ DCEllBRI_0_T_IllIl_LLilE INITIATING HEDDAGE TIME NUHDER EVENT DUMMARY Ta 10:20

- Sonds llPO to try to start EDG llo. 22 T = 10:30 htil(QJIATED RESJJJfz l'lA11t_0_112t011ollp Manaatt Direct OSC Coordinator to check out flo.

21 Spray pump and flo. 21 SI pump.

T = 10:30 C

Contt_ol.lers Tleid__Rg1Lqtt.

- !!PO manually starts llo. 22 EDG and CR0 starts available equipment on 110. 22 EDG.

- GT-2 fails to closo.

Unit !!o. 3 unable to closo GT-IIT - will investigat*.

T=

10: 45 (Ll11.W1PKEED_lLl S_Ullm ElBRMio_Or.y_ Director (I:D1 Declare an SAE due to cocond barrior breach.

Dincuss Protective Actions with the ORAD, POM and TSC Manager.

l DPIL THD5 0000 091$

0900 101%

1010 1700 1349 1730 134%

n400

.a At.RT f

Cf SE!SMIC St SMIC PCS C AD IN7 f phal, 3PD BADP!FR PLCIR, 2 DAV IIlTIA1 tvil87 T V t TIT Pftf ACII B P F ACil PTCIR.

BPFACH S f t' A V TIPE CONDIT!Dil NUT 5.110 VtftT]CA(,

P+I$

ft + 2 $

P Et%IClllO WAPP n 169 ff0p!!OtitAt.

>let 9,6x104 PADIA110N P/tst P!ht 15Vi t. 118 V.C.

111 9

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i UCEllARIO NO. 1992 RE.TAIJ,ED SCEffAT11_0_j'IliRJIJ1E 4

INITIATING MEDSAGE TIME HUNDER EVENT DUMMARY Pills out " Radiological Emergency Data T= 10:45 i

FORM PART 1".

Part II is not required because there is no roJease to the environment.

- Ilave offsite authorition notified.

I

- Directs evacuation of onalto non-ossential personnel.

T= 10:45 P1_altt OppIO. tion 9 Mallagor_.I.P011).

Sond 1 & C Team from OSC to investigato Breaker GT-2 i

l T = 11:00 D

gontroRo_rpq_Elold Iloportu NPO reports 110. 21 SIS Pump has oil j

leak on bearing and will not rotato, i

llPO reports break for No. 21 Spray Putnp is smoking, no fire.

T = 11:15 AllT1CIPATED ]tJSULTS Send Maintenance to check llo. 21 Spray Pump.

4 Sond Maintenance to check llo. 21 SIS Pump.

I ORIL ENDS 0g00 0815 OMO 1015 nmo 1200 12M MM MO

~ IW l

kLTRT SAT Ct S E!$ PilC St SHtC PCS C D INTEPtl AL JPD PARPltP. RECID.

2 DAT INITIAL tytHT tvrt3T PPTACH PPTACH PECIP, PPtACH 3rPAt TIME CONP171DN NUE 5.11g VTPTICAL Paf$

P 73 PtDUCINC WAPP 3.161 ftCfllEDHTA L

>19%

9.61104 FADIATION e/hr P/hr LEVEL IN

{

V.C.

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DCENARIO NO. 1992 DETAlkED_AcIttARIo T1RILkU!E INITIATING HEDDAGE TIHC NUMDER EVENT DUMMARY T= 11:30 APPROX.

E ggvirgllttp _ F1211 Ro.nwin Maintenanco Reporto llo. 21 Spray Pump unable to removo Bronker from compartment.

Maintonnnce Itoports llo. 21 SIS Pump bonring damage, will start repairs.

r 1&C Reportn rolny damnge to GT-2 11ronkov, coveral hourn to repair.

T= 11:45 Recirculation Conditions reached.

RWST level down to 9.24 ft, b11T1C._LPSTJ'D REFULTE 99J1kE91._llcom Operatot

+

- Establichen internal recirculation with Pump 110, 21.

Entorn EOP ES-1.3.

T=

12:15 6

Radiation Loveln on R-25 rend 9.6x104 R/hr.

ARTIGHWTEILJ1ESUL3TE Emoraoncv ttinog191 Declares A Gonoral Emergency based on Fission Product Barrier Breach Table.

Major core overhont conditions.

Rad

.Honitor R 9.6 X 104 R/hr.

I'P ! L ENDS C400 0915 0900 1011 1010 1700 1715 tt10 1345 1400 AllPT SAE Cf StitMic St SMIC PCS C D 118TEPHAL

)RD PAPP!tR ktCIP.

8 DAV INITIAL EVENT EVENT ppt %CH PREACH PTCIP.

IIPEACH STRAY TIME cettetTicti 14J t m.11g VTPTICAL P-25 R-t$

PEDUCING MAPF D.161 HOft t ? OllT Al.

219%

9.6X104 PADIA110H P/hr R/tir Ltytt. IN v.C.

111 11

DCENARIO NO. 1992 REJAILED D_CEHARLo_.11Igi_kIJg INITIATING HEBSAGE TIME NUHDER EVENT

SUMMARY

)

T= 12:15 Ilocommended protectivo actions would be evacuation of n 5 ftilo radius and 10 miles downwind and sheltering for all other ERPAs not ovacuated.

F111s out "Itadiological Ernergoney Dnta l'ORM, PAltT I (FORM 30n).

T*

12 15 lins ORAD cniculate potential exposure rates.

- Directs the " Communicator" to notify offalto authorities using PART 1.

Ulroct CLEltICAL to tolocopy PAltT 1 to offsito authorities.

T-12:30 RqtttJ3d_IJgom_Omo_ratt_qr llocirculation Spray is establish reducing Radiation levels in V.C.

T=

13:45 2 day time warp.

Emergency has been declacsiflod to ontering in the recovery phase.

Ta 1400 Drill 1:nds PP ! t, END$

0000 081$

0900 1015 1010 1}o0 till 1230 1349 1400 AtEPT sat Ct Stl$Mtc 5t $Mir PCS C.AD t eil t P t A L.

IPD SAPPttP PECIP.

3 DAY

! }i t T! A t.

TV EttT ty ttrT PP T Atll BPL Arfl PFCIP.

BPTACH STPAf T I M t.

Coff 0lT10tl HUT.

3.11g vtPTIC AL P-2$

P-2%

PEDUCING MP T 5.16g Hopit0HTA1,

>195 9.6X104 PADIATION P/ht P/ht LTVt t. IPs v.c.

III 12

CONSOLIDATED EDISON COM"'F" OF NEW YORK INDI AN POINT UNIs i,0.

2 DRILL SCENARIO No. 1992 4

IV.

MESSAGER i

TO:

ALL DRILL PARTICIPA!1TS LOCATIOlit ALL LOCATIOllS TIME When the players report to the facility MESSAGEt pBLLL_ GROUND RULED All participants are requircd to observe the following Ground Rules for the entire duration of the exercise.

If you have any questions, ask your Facility controller for clarification at this time.

1.

Ensure that all communications indicate that this is only a drill.

Make a positive statement that this is a drill-related message at the beginning and end of i

all messages or conversations.

If communication lines are kept open for extended periods, periodical-i ly repeat the caution.

This is especially critical when transmitting messages over communication facili-ties that are monitored by non-Consolidated Edison personnel.

2.

Take no actions that affect unit or non-drill related operations.

3.

Take immediate action (s) to restore safe operation, if an unsafe condition exists.

ignore drill situa-tion if actual safety becomes a concern.

4.

Use only the information provided in accordance with the ground rules or derived from approved procedures.

po not improvise information.

a.

Controllers will provide appropriate information at the location where that information would 4

normally be availabic (e.g.,

Reactor status at the Control Room, dose rate readings with field teams. meteorological information at control Room or EOF).

b.

Only selected parameters and readings will be provided.

The selected information will be sufficient to make decisions in accordance with Con Edison plans and procedures.

IV - 1

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BCENARIO NO. 1992 i

c.

The intent of the scenario is to test the emergency plans and procedures of Con Edison and j

the offsite authorities.

In certain instances 1

the logic involved in selecting the details stretches the imagination.

This was done to accommodate the onsite ari offsite objectives of the drill.

Do not becomt overly concerned when this occurs.

l d.

There will be a con Edison Observer / Controller 1

at each important location.

Controllers will provide information and clarification on which j

actions are to be simulated or are-outside the j

scope of this drill in order to keep the drill i

progressing in accordance with the scenario.

Observer / Controllers will also observe all aspects of the drill to prepare an in-house evaluation of plans, procedures and training.

I 5.

Be sure that the con Edison Observer / Controller is aware of your actions (actual or simulated).

4 6.

Make all procedurally required notifications unless directed not to by the Controller.

^

7.

If samples inside or outside the site are deemed necessary, their collection will be performed and their analysis conducted unless simulation is directed by a Controller.

Observer / Controllers will i

accompany the survey teams, onsite and offsite.

I 8.

This drill is conducted to evaluate our plans and procedures-The drill is also a training vehicle for members of the con Edison Emergency Response organization to practice working together and_with outside organizations.

Please make note of any improvements in any area that you observe as a participant and submit them to the observer / Control-1er at the' conclusion of the drill.

9.

If, during any part of the drill, you are having trouble accomplishing your required dutics, confusion arises, or clarification is necessary-ask your Controller.

Controller assistance or clarification does not necessarily imply failure on your part.

Your Controller will know the limitations of informa-tion he can provide you.

10.

The Radiation Work Permit number for the emergency drill is 10001.

This number will be used by all participants and observer / controllers entering the radiation area.

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DCENARIO NO. 1992 H_IMULhTJOB CONTROL ROOM (CR) 1.

KI use TECHi1ICAL SUPPORT CENTER (TSC)

None QEERATIONAL SUPPORT CEllTER (OSC) 1.

Anti-C and respirators for teams 2.

Sampling and Counting, including the PASS 3.

Entry of repair teams into contaminated areas or areas requiring a site specific RWP MiEEGE!1CY OPERATJ011S FACILITY- (EOF) 1.

KI use 2.

Disarming of Halon System 3.

Switching ventilation to internal mode 4.

Evacuation and movement of all non-essential personnel 5.

Estimates of population doso after recovery

+

6.

Buchanan Sub Station Service Center not participating 7.

With the exception of the Security Guard for CCR, EOF and onsite team, all other security requests will be simulated.

9.

The main gate and the command guard house will bo secured for one hour after the assembly alarm-is sounded.

At other times it will be simulated.

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ASTORIA EC.g l

1.

Only one offsite team needs to be dispatched from Astoria.

After the team is dispatched, the rest of the personnel may be released for normal duty.

l CORPORATE RESPONSE CENTER (CRCl l

1.

CRC personnel are only required to contact appropriate directors, managers and chief engineers once after activating the facility stating, "This is a notification drill beina performed in coniunction with an Indian Point-Site Drill.

Thank you."

CENTRAL IliFORMATIOli GROUP (CIGj 1.

The initiation of the Automated Telephone Emergency Notifica-tion Service (IP-?902 Section 5.4.1.c).

IV - 3 l

DCEllARIO No. 1992 TO:

SEllIOR WATCll SUPERVISOR LOCATIOlit CollTROL ROOM TIME:

T = 08:00 MESSAGE:

11 0. 1 lbisjs a prill con Ed Indian Point Unit lio. 2 has been operating at full power for 158 days and near end of core life.

All plant parameters are normal and stable.

A confirmed Icak rate of 0.9 gpm had earlier been identified.

RCS activity has been steadily increasing over the pant several days and is now 34.ucl/cc.

lio, 23 Emergency Diesel Generator was held off 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> ago for scheduled maintenance and is scheduled for return in 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

This is a_orill IV - 4

___m

.i DCE!1ARIO 110. 1992 t

To:

SE!110ft WATCll SUPEftVIScit i

)

LOCATIOlis CO!1 TROL It00M 1

j TIME:

T = 08:15 l

MESSAGE 11 0. 2 i

i 7_Ili s i s a_prJU.

j onsite soismic activity verified by Unit flo. 3 plant j

instrumentation.

Unit flo. 3 reports one amber light lit on Unit 3 Peak Shock Annunciator.

This_is a Drl1.1 1

i l

IV - 5

4 BCEllARIO NO. 1992 p_Q1[TJ10hkE.JLfJfhp__BIPORT A TI!4E!

8:30 LOCAT1011:

r1 ELD flPos IlirOR14ATIO!1 TO:

llPO RADI\\TIOll LEVELS:

AS READ The llPos reports f mm field normal conditions f rort noismic event.

4 i

t 4

(

l l

IV - 6

.m___

l DCENARIO NO. 1992 i

\\

i i

TO SEtJIOR WATCll SUPERVISOH

)

d LOCATION:

CONTROL ROOM TIME:

T = 09:00 MESSAGE:

11 0. 3 2

1 l

This_is_a Drij1 Unit #3 notifies Central control Room Operators of another seismic event of.169 in horizontal direction with two red annunciators lit and this is confirmed by t' nit 110, 3.

F l

i i

i h

k 1

a d

1 IV-7

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

BCENAitIO NO. 1992 CONIROLLEll f_LE_LpJEPORT D TI!!E:

9:15 IDCATIOlit FIELD NPos IllFORl4ATIO!1 TO:

HPos RADIATION LEVELS:

AS ItEAD Conventionni NPO - tieports felt vibration.

Dobric on turbine room floor.

Checking equipment status.

Iluclea_r 13PO - Reports felt vibrativn.

Checking equipment status.

11 o. 21 charging purnp trip.

s IV - 8

BCENARIO Ho. 1992 90RIILOLLJR FIELP_RE_ TORT TIl!E t 9 15 LOCATIOll; CilARGIllG PUMP ROOM 111FORMATIoll TO:

IIPO RADI ATIOli LEVELS:

AS READ 11PO reports !!c. 21 Charging Pump Leaking from Block and ilPO isolating.

1 IV - 9

l SCEllARIO No. 19 92 1

Tot CollTROL ROOM OPERATOR i

LOCATIolit CollTROL ROOM TIME T = 10:15 4

MESSAGE:

No. 4 i

This is a Dd1_1 i

Reactor Trip 1

l Large Break LOCA has occurred.

l

!!o. 22 EDG falls to start in auto.

11 0. 21 Spray Pump fails to start.

11 0. 21 SIS pump fails to start.

l This is a Drill i

I 1

1 4

i

'1V - 10

. _... - ~ _.

1 i-i i

DCEllARIO NO. 1992 TO:

CO!1 TROL ROOM OPERATOR LOCATIOll CL.. TRAL CollTROL ROOM TIME:

T= 10:30 1

j MESSAGE:

11 0. 5 I

ThlLis 18._a Drill j

l'uol clad breach confirmed by liigh Rad Monitor R-25 Reading l

200 R/hr.

This_is.a_ Drill _

1 l

1.

4 b

i IV - 11

. - -.. -. ~

SCENARIO NO. 1992 COJ1TRO_L_LER_FJJLD REPollT C l

i j

TIME:

10t30 l

LOCATIO!It EDG BUILDINO IliFORMAT10!! TO:

IIPO RADI ATIO!I LEVELS AS READ After the CRO is unsuccessful in starting EDG #22, it is expected that he will send an IIPO to manually start the diesel.

llave NPO notify the CRO that at 10:30 he has successfully started EDG #22.

After the cRO is unsuccessful in starting llo. 21 SIS Pump and llo. 21 Spray Pump it is expected that he will send an llPO to check.

IV - 12

i l

BCENARIO NO. 1992 l

l l

.C_0_FIRO_LLER_F_I_RkDlEPORT D TIME:

11:00 LOCATIOll CONVENTIONAL AllD llVCLEAR IllFORMATIOli TO:

IlPO RADIAT10!i LEVELS:

AS READ l

i llave the Conventional NPO notify CCR that smnke is coming from llo. 21 Spray Pump breaker.

11 0 fire.

llave the lluclear NPO notify CCR that flo. 21 SIS Pump oil leak and pump will not rotate.

l

.- IV

-13

.-m.-

~.. -

SCE!1ARIO NO. 1992 CONTROLLER FIELD REPORT _I; TI!4E:

11:30 LOCATIOll:

480 V DREAK Ill!'ORMATIOli TO:

14AlllTEllAllCE RADIATIO!1 LEVELS:

AS READ liaintenance:

Breaker damage to llo. 21 Spray Pump unnble to remove Breaker irom compartment.

liaintenance:

Bearing on lio. 21 SIS Pump damage.

Will start repairs.

IV - 14

BCEllARIO Ho. 1992 RQ1LTRQ_LLER FIELD REPORT F TI14E:

11:30 LOCATIOll:

GT-2 BREAKCR 5' ELEVATIO!1 IliFORMATIoll TO:

I & C REPAIR RADI ATIOli LEVELS:

AS READ Dreaker damage to GT-2 relays damago - several hourn to repair.

E d

I 4

I

)

i i

IV - 15

-. ~..

DCENARIO NO. 1992 TO:

EMERGEllCY DIRECTolt 14CATIOll EMERGEliCY OPERATIO!JS FACILITY TI!4E:

1 = 12:15

]

MESSAGE:

!io. 6 i

1 1

j T_ttis i s..a_ odu a

4 R/hr.

Radiation levels on R-25 road greater than 9.4 x 10 i

4 i

This is a Drill i

T t

4 f

4 IV J y._4

BCENARIO NO. 1992 TO:

EXERCISE PARTICIPA!iTS LOCATIOll:

ALL LOCATIOli

)

TIME:

T = 14:00 MESSAGE:

NO. 7 This is a Dri_11 All exercise activities are terminated.

All reports logs data and other pertinent material-will be collected at this time by by an observer / controller.

Tn s is a Drill 1

w IV - 17

1-l-

1-CONSOLIDATED EDIBON COMPANY OF NEW YORK

}

INDIAN POINT UNIT NO. 2 --

?

DRILL' SCENARIO NO. 1992 i

V.

QRRERVER/ CONTROLLER INSTRUCTIONS i

]

A.

Exercise Control Orq_anization l

Exercise Observer /Controllors shall be appointed in order to control, observer, and later critique exerciFe activities.L The title " Observer / Controller" is used to der lqo te_either a single, or dual function _during the exercise.

Q ; e_r,v a will be assigned to watch exercise activities as they occur.

1. acy will provide no input or active involvement cn: direction to any-participants i

during the exercise.

Their only function is to quietly observe j

in order to later help develop-a representative critigae of exercise participants' actions. -Controllers will be assigned to various " key". locations in orderi.v actively _ control the progress I

of the exercise.

They will input control and Contingency Messages at the appropriate times and provide any necessary interpretation to exercise participants.

Controllers will be the only ones who can answer partic.'. pants' questions.

They willLalso i

]

function as Observers to help evaluate performance; thus Observer /Controllegu.- The designation belck of Observer //

Controller will mean either Observer, Controller,-or Observer and Controller.

The " Chief Controller" is the lead exercise manager (or controller) and will be located in the Control Room.

Prior to.the exercise, Observer / Controller l

instructions will be provided in order to-familiarize all L

Observer / Controllers with the entire scope of the_ exercise, j

and ant-wer any specific questions.

The assignment sheets at the t-end of 5.his section contain the listing of all exercise Players, observers and Controllers, as well as their locations.

D.

Exercise Control Instructions l

1.

All Controllers shall be pre-positioned'at least one j

half hour prior to the_first message time.

2.

Prior to exercise commencement, all Controller communica-tions will be tested to ensure' satisfactory _ exercise

[

control.

L 3.

All Controllers will comply with instructions _fromLthe Chief-Controller.

4.

Each Controller will have copies _of the' messages-con-i trolling the' progress of the exercise scenario.

Message l

nhall be delivered by the' Controller _at the appropriate i

times, to the-designated individual (s).

In the case of emergency declarations, if the response of exercise l

participants necessitates the use of a contingency

[

message, the situation should be discussed with the j_

Chief Controller prior to issuance of'the message.

y_1 L

4 BCENARIO NO. 1992 Controllers will use the following techniques

'.o control the exercise in accordance with the scenario, a.

Messaces & Field ReDort.p_ - Messages providing information are given to the participant at the specific time.

The controller may clarify the 1

message by answering questions to ensure that no 2

extraneous meaning is read into the message.

Field reports are for the Controller's use and are a

not given to the participant.

When the field report contains direction to the Controller to provide information it is donc verbally.

The-Controller will not tell participants what action they are expected to take.

l b.

Continapncy Messaacs - Contingency messages will be used only if particilants fail to take the

^

major actions expected from the control messages by the time designated.

Controllers will give the contingency message to the designated participant and explain in as much detail as necessary what actions the participant is expected to perform.

Contingency messages are used to keep the exercise on schedule, though their use may indicate inadequate plan implementation.

~

c.

Control InformatinD - Controller-for Health Physics and Environs Field Teams s 11 provide instrument readings and other information to team members verbally when they request it by performing the measurements, etc.

Controllers will refer to their current location and the applicable time period to obtain requested data from the approp-riate tables in section 8.

d.

Control Guidance - Controllers will provide verbal guidance to participants to keep the exercise oriented to the pre-arranged scape and scenario.

Controllers will direct partic ipants to simulate 2

certain actions that are outside the immediate scope of the exercise at the time participants announce their intention to perform the action.

Observer / Controllers will_ note that the participants simulated the action.

Participants must request information that is not automatically provided from participants at other locations.

Controllers will steer participants away from types of informa-tion that are outside the exercise scope to avoid bogging the exercise down in a quest for informa-tion that Controllers do not possess and have no intention of providing.

V-2

BCENARIO NO. 1992 NOTE:

All messages controlling the progress of the exercise scenario are noted with a number.

5.

All Controllers shall synchronize their watches to ensure that messages are delivered at the proper time.

Times on messages are real time.

6.

Each Controller will have copies of time-related plant and radiological parameters (data) corresponding to the development of the exercise scenario.

This information should be issued, only upon request or when required to the appropriate exercise participants by either the Control Room Drill Controller, or controllers accompany-ing the radiological monitoring or inplant health physics personnel.

7.

Controllers shall not provide information to the exercise participants regarding scenario development or resolution of problem areas encountered.

The exercise participants are expected to obtain information through their own organizations and exercise their own judgements in determining response actions and resolving problems.

8.

Any inquiries originating frem the general public, as a result of exercise activities, will be referred to a Controller.

An explanation will consists only.of stating that a practice drill is underway at the plant and all events are simulated (i.e., not real).

9.

Some exercise participants may insists that certain parts of the scenario are unrealistic.

The Drill Controller has the sole authority to clarify any questions regarding scenario content.

10.

Each Observer / Controller should use the Log Sheet contained at the end of this section to take detailed notes regarding the progress of the exercise and the responses of the exercise participants at their respec-tive assigned locations.

Each Observer / Controller should carefully note the arrival and departure times for exercise participants, the times at which major activities or milestones occur, and problem areas encountered.

Observer / Controllers' comments should consider the evaluation elements set forth in Section C,

" Exercise Evaluation Criteria."

All notes taken should be retained for_the purposes of reconstructing the exercise chronology and preparing a written critique to the exercise.

11.

The exercise is tentatively scheduled to end as indicated in the last message.

Instructions for reassembly of 4

the Observer / Controller team will be given at that time.

V-3

. =.. _ _ _ _ _. _ _

i i

SCENARIO NO. 1992 t

i l

NOTE:

In the event of a real emergency during tho'

exercise, the_ exercise may~be immediately terminated by the i

Chief Controller, if deemed; appropriate.

l C.

Exerqise Evaluation ^ Criteria 4

Observer / Controllers shall familiarize themselves with the duties and action requirements of the personnel;they are I

monitoring.

i Certain generic evaluation _ points are to be considered-for 4

j all locations / participants, as appropriate.

These include:

I Notification, alerting and mobilization of emergency I

response personnel.

Adequate communications capabilities among.onsite and l

offsite emergency response facilities andEpersonnel.

Timely activation of emergency facilities and teams.

Clear and appropr'iate direction and control of all i

exercise activities.

j

-Emergency procedures are followed.

In some cases they 1

l should be referred to during accomplishment of' specific j

duties; e.g.,

dose assessment.

l Overall adequacy of the scenario to test-the various emergency preparedness plans and procedures.

Benefit of the exercise to-its participants, i

l The following guidelines provide basic evaluation criteria i

which must be addressed by.the-Observer / Controller.in_ order to effectively critique the_ exercise.

Evaluation criteria

[

are grouped according to exercise 1 activity location and individual (or team)-functions.

NOTE:

Specific exercise. performance-must be compared i

directly with1 company emergency. procedures.

j Therefore, individuals assigned as Observer / Con-trollers shall-be-cognizant of the respective proceduresfandLall actions _that shall be carried

}

out by thesparticipants-they observe, j'

~

After completion of theydrill,.and before thelend:of the next.

normal working dayi-the_ Chief controller shall hold a L

verbal critique,Lwhere all10bserver/ Controllers'shall

[

discuss'their observations and any.noted-shortcoming,:and-i present their~ recommendations to' improve' performance and emergency preparedness.-

Critique comments will 1xf requested

{

from all participants 1at the_ conclusion /of-the_ exercise.

l-l v. _

~

c7 BCENARIO NO. 1992 1.

Control Room Prior to initiating the exercise, the Chief Controller will confer with the Senior Watch Supervisor (SWS) fn order to identify any ongoing operational or maintenance activities that should not be_ interrupted.

Those personnel engaged in these activities will be notified l

that they are to disregard any exercise-related announce-ments or activities.

Emphasis should be made however, that in the event of a real emergency the exercise may be terminated and station announcements will specify "TilIS IS NOT A DRILL" and that instructions should be followed by all personnel.

The Observer / Controller shall observe the action of all personnel assigned to the Control Room and all personnel who report to the Control Room for assignment.

In addition, he will pay special attention to the following:

Use of map and overlays.

Placement of calls to NRC, NYS and Counties.

Notification, alerting and mobilization of emergency personnel, i

Operations handling of accident conditions if appropriate.

Instructions given to Search and Rescue teams, and i

Repair and Corrective Action teams, and Rad Protection and Chem. Techs by the Senior Watch Supervisor (SWS).

Does the SWS handle the emergen / by directing his people or trying to do the work himself.

Is the time frame of actions-by the SWS reasonable j

enough.

Department of all personnel in the Control Room.

The following procedures are to be used in the evaluation:

4 t

IP-1001 Mobilization of Onsite Emergency Organization IP-1002 Emergency Notification-and Communication IP-1003 Planned Discharge of Containment Atmosphere During Accident Conditions IP-1007 Determination of the Magnitude of Release and Exposure Rate IP-1010 Search and Rescue Teams IP-1011 Repair and Corrective Action IP-1013 Recommendation of Protective Actions for offsite Population.

V-5

BCENARIO NO. 1992 IP-1016 Obtaining Meteorological Data IP-1020 Airborne Radiciodine Determination IP-1021 Manual Update and Readout of Proteus Plant Parameter Data IP-1024 Emergency Classification IP-1037 Obtaining Offsite Router-Stokes Monitor Data IP-1038 Emergency Personnel Exposure IP-1043 operation of the NYS Radiological Emergency Communications System (RECS)

IP-1047 Obtaining Offsite Exposure Rates from MIDAS Via Control Room Terminal.

Plus Immediate Action Procedures for SWS, CRO, WATCil IIP, POM 2.

Technical suonort CentqE The Observer / Controller should observe the following:

Timely activation A minimum of four qualified persons manning the center.

Field survey perfccmed.

Noble gas monitor set up.

"Frisker" set up.

Work performed in professional manner.

Phones are plugged in and direct lines to Control Room, NRC, and EOF are checked out.

The following procedures are to be used in the evaluation:

IP-1020 Airborne Radiciodine Determination IP-1021 Manual Update and Readout of Proteus Plant Parameter Data IP-1035 Technical Support Center IP-1041 Use of the Triton to Monitor Radiogas 3.

Central Information Group CIG)

The Observer / Controller should observe the following:

Timely initiation of a call to the paging service company.

Adequate communications, including how problems with the radio and telephones are handled.

Message handling and communication-logging procedures.

V-6

BCENARIO NO. 1992 Verification call to Indian Point Unit No. 2 Control Room for authenticity of emergency.

Preparation of recoras of Dersonnel who have called in.

The following procedure is to be used in the evaluation:

IP-1002 Emergency Notification and Communication 4

4.

Assembly Area The Observer / Controller should observe the following:

Do they seek out their section or department accountability officer, generally stay together as a group and remain orderly?

Were Assembly Area radiation curveys performed and 1

results recorded?

This will depend on whether there is an SAE or GE classification and releases to the environment.

Is there documentation of accountability and is it understandable to others.

4 The following procedure is to be used in the evaluation:

IP-1027 Site Personnel Accountability and Evacuation 5.

Operational SuoDort Center The Gbserver/ Controller should observe the following:

a Is there documentation of accountability and is it understandable to others?

Do the personnel awaiting assignment remain orderly?

Were radiation surveys performed and recorded?

Receipt of request to form teams.

Handling the assignment of team members.

The following procedures are to be used in the evaluation.

IP-1020 Airborne Radiolodine Determination IP-1023 Operational Support Center IP-1027 Site Personnel Accountability and Evacuation IP-1041 Use of the Triton to Monitor Radicgas.

V-7

r i

f l

BCENARIO NO. 1992 6.

Eme rgelicLOpe ra tions Facilit_y.

This is the command post for the interface with offsite authorities and it should seem so to the Observer / Control-ler.

Look for the following things:

The Emergency Director is in command of the EOF.

The ORAD is in control of the radiological assess-ment activities, and reports results and recommenda-tions to the Emergency Director in a timely and efficient manner.

Any extra personnel, spectators and those' awaiting 5

+

orders are quietly standing out of the way.

The 11. P. or support personnel are performing duties in a timely and efficient manner and reporting results to either the Emergency Director.or ORAD.

Instrumentation deployed in the EOF is placed lu a non-interfering position.

Adequate communications, including how problems with the radio and telephone are handled.

Message handling and communications logging procedures.

Radioactive release rates, whole body and thyroid exposures to the offsite population are calculated i

quickly after the receipt of data from the control Room or the offsite monitoring team (s).

4 Prompt notification to the NRC,.IlYS and Counties of exposure data and changes to site meteorological conditions.

The Emergency Director assigns, where possible, his routine calls to s?meone else thereby leaving himself free to command the action.

Data forms filled out and turned in to the ORAD /

Ilealth Physicist.

Timely deployment of teams, i

A central point for receipt of radiological monitoring data is-designated and adequate communications with fle]d teams demonstrated.

Demonstrate ability to assess plant conditions, reclassify the incident'(if appropriate), develop i

timely protective action recommendations, and communicate to offsite authorities in an accurate and timely manner.

V-8

~

SCENARIO NO. 1992 Demonstrate ability to control radiological monitoring field teams for " plume-tracking," and ingestion pathway monitoring.

Demonstrate ability to develop recommendations for recovery and re-entry activities.

Demonstrate ability to provide radiation exposure control for emergency workers.

The following procedures arc to be used in the evaluation:

IP-1002 Emergency Notification and Communication IP-1003 Planned Discharge of Containment Atmosphere During Accident Conditions IP-1004 Post Accident Of fsite Environmental Surveys, Sampling and Counting IP-1005 Use of SAM-2/RD-22 to Determine Thyroid Burdens IP-1006 Site Perimeter Surveys IP-1007 Determination of the Magnitude of Release and Exposure Rate IP-1013 Recommendation of Protective Actions for offsite Population IP-1016 Obtaining Meteorological Data IP-1020 Airborne Radiciodine Determination IP-1021 Manual Update and Readout of Proteus Plant Parameter Data IP-1024 Emergency Classification IP-1029 Emergency Closecut/ Class Reduction Written Summary to Authorities IP-1036 Estimation of Population Dose Within the 10 Mile Emergency Planning Zone IP-1037 Obtaining-Offsite Reuter-Stokes Monitor Data IP-1038 Emergency Personnel Exposure IP-1041 Use of Triton to Monitor Noblegas IP-1043 Operation of the NYS Radiological Emergency Communications System (RECS)

IP-1048 Deescalation of Emergency and Initiation of Recovery Plus Immediate Action Procedures for ED, TA, ORAD, DAHP, STHP, MIDAS, EOF COMM, EOF CLERICAL 7.

Security Buildinafs) or Security Control Points It is to be noted that all normal practices, such as sign-out and use of the hand and foot monitor and the portal monitor, are to be accomplished unless the Rad Prot Technician gives other directions because of radiological conditions.

The Observer / Controller will pay special attention to the above along with the following:

Timely activation or establishment of control points.

V-9

c-4 SCENARIO NO. 1992 No one is wearing Anti-C clothing when leaving the site.

All alarms from monitoring equipment or computer card terminals are acknowledged.

The following procedures are to be used in the evaluation:

IP-1017 Issuance and Use of-Radiological Equipment Stored in the Command Guard House 8.

Onsite Monitorina Teams Onsite monitoring teams will normally be assigned field survey work onsite, outside of the protected area fence, and the the Service Center building complex.

l Check on the following items:

Received KI dose (simulated) from ORAD if required.

NOTE:

Do not actually take the KI Dose.

They have a dosimeter and TLD badge.

They have a charcoal filter respirator when leaving the building complex to perform a survey.

Radio check performed before leaving the EOF-parking lot.

Field readings taken along the route to the.

designated area.

Simulated field data will only be available at designated monitoring points.

Work performed in a professional manner.

Data forms filled out as appropriate and turned in to the ORAD / Health Physicist.

The following procedures are to be used in the evaluation:

IP-1006 Site Perimeter Surveys IP-1008 Personnel Radiological Check and Decontamination IP-1009 Radiological Check and Decontamination of Vehicles IP-1014 Radiological Check of Equipment Before it Leaves the Site IP-1028 onsite ~ (out of plant) Field Surveys 9.

Offsite Monitorina Teams The Observer / Controller should observe the following:

Received KI dose (simulated) from ORAD if required.

V-10

SCENARIO NO. 1992.

HQIEi Do not actually take the KI dose.

Operational check performed on survey instruments, sample counter and sample pump before leaving the EOF parking lot.

Equipment check-off performed.

Assignment of badges and dosimeters before leaving the EOF parking lot.

Charcoal cartridge respirator made available before leaving EOF parking lot.

Survey instrument made ready to take field readings.

Radio check-out by communication to EOF before leaving.

Beta and gamma field eurveys performed on the way to sample point.

Sampling and field surveys performed at sample location.

Instrument calibration performed and samples counted.

Air sampling started.

The following procedures are to be used in the evaluation:

IP-1004 Post Accident Of fsito Environmental Surveys, Sampling and Counting IP-1006 Site Perimeter Surveys IP-1008 Personnel Radiological Check and Decontamination IP-1009 Radiological Check and Decontamination of Vehicles IP-1015 Mobilization and Operational Procedure for offsite Monitoring Teams - Immediate Response IP-1020 Airborne Radiciodine Determination IP-1034 Mobilization and Operational Procedure for Off-site Monitoring T: mas - Supplemental-Response IP-1039 Offsite Contamination Checks 10.

Jiealth Physics Technician (HPT)

The Observer / Controller should observe the following:

HPT follows his instructions indicated in immediate action procedures.

HPT follows instructions from SWS or OSC coordinator.

HPT performs survey as indicated using appropriate instrumentation.

V-11

J BCENARIO NO. 1992 HPT performs duties during medical emergency as indicated in IP-1012.

The following procedures are to be used in the evaluation:

IP-1010 Search and Rescue Teams IP-1011 Repair and Corrective Action IP-1012 Onsite Medical Emergency IP-1020 Airborne Radiciodine Determination IP-1042 In-Plant Radiological Surveys and Sampling Plus Immediate Action Procedure WATCH H.P.

11.

Chemistry Technician The observer / Controller should observe the following:

a Chemistry Technician follows Chemistry Procedures as appropriate.

Samples are actually collected and counted, as indicated by the scenario.

Results of sample counting (simulated and real) are transmitted to the SWS or OSC Coordinator as appropriate.

l The following procedures are to be used in the evaluation:

IPC-E-001 Post Accident Sampling and Analysis of Reactor Coolant.

IPC-E-002 Post Accident Sampling and Analysis of the. Vapor Containment Atmosphere IPC-E-003 Post Accident Sampling and Analysis of Plant Discharges to Atmosphere IPC-E-004 Post Accident Sampling and Analysis of Main Steam Releases to Atmosphere 12.

Maintenance Repair Team The Observer / Controller should observe tha following:

)

Response and repair time.

Proper equipment brought to perform the work.

Maintenance Repair Team members follow Health Physics Technician's instructions.

Radiological precautions taken.

V-12

a E--

BCENARIO NO. 1992 The following procedures are to be used in the evaluation.

IP-1010 Search and Rescue Teams IP-1011 Repair and Corrective Action IP-1023 Operational Support Center b

9 1

l 4

9 e

o l

1 I

8 V-13 a

~

SCENARIO NO. 1992 CONSOLIDATED EDISON COMPANY OF NEW YORK INDIAN POINT UNIT NO. 2 EMERGENCY PREPAREDNESS EXERCISE OBSERVER / CONTROLLER LOG Bi] RET Hame:

1 60:

Location:

TIME OBSERVATION / COMMENT 1

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V-14

SCENARIO NO. 1992 CONSOLIDATED EDISON COMPANY OF NEW YCRK INDI/J POINT UNIT NO. 2 EMERGENCY PREPAREDNESS EXERCISE OBSERVER / CONTROLLER LOG SliEE_T Name:

Date:

Location:

TDLE OBSERVATION / COMMENT l -

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I I

I I

I I

l l

l l

I I

I I

i l

l l

l l

l 1

1 I

I l.__ __

l l

I i

l l

1 1

I I

I I

I I

l' I

I l

l 1

i l

l I

I I

I l

l I

I I

I I

I ___

l i

I I

I I

I I

V-14

SCENARIO NO. 1992 EMERGENCY DRILL PARTICIPANT ASSIGNMENT SHEET CONTROLLER 8-ODBERVEM i

LOCATION l

POSITION I

HAME I

I CCR 1,__Chie f Controll er i

l l

l Controller I

l l

l lontroller - SWS Dose Assm't I

1 I

l Controller - Communicators 1

1 I

l_ Controller - Watch Rad Prot Tech i I

I l Controller - Watch Chem Tech I

I I

l Controller - Medical 1

I I

i l Controller - Fire Briqade I

i l

I l Controller - NPO I

I I

l Controller - Data Displayer i

l I

TSC l Controller I

I Info flow &

I

[ Observer - utilization I

1 I

I Observer - Communicator I

I I

OSC l Controller - Coordinators TSC 53'l I

I l Controller - OSC Team (Maint) 1 I

i l Controller - OSC Team (Maint) l I

I 3

l Controller - OSC Team (I&C) i l

I l Controller - OSC Team (Rad Prot) I I

l l Controller - OSC Team (Che_m_1

_I I

I l Controller - 72' elevation l

I I

EOF l Controller i

l I

l Observer - Communicators 1

I l

l Observer - Dose Assm't 1

I J

i V-15 i

SCENARIO NO. 1992 EMERGENCY DRILL PARTICIPANT ABBIGNMENT SHEET CONTROL'LERB-ODBERVERB LOCATION 1

POSITION I

NAME I

I EOF l Controller - Emergency Director i

I I

l Cortt; roller - Of fsite Team I

l l

l Controller - Offsite Team I

I I

i Controller - Onsite Team I

i I

ASSEMBLY l Observer - Area A-B l

i I

.l Observer - Simulator I

I I

l Observer - Constr. Off. Complex I

I l Observer - M.O.

Bldo.

I 1

I l Observer - 72' TS/ Admin i

I I

l Observer - Unit No. 1 Admin Blda I i

i l Observer - Service Center 1

I 1 Observer - Security Admin Blda.

I I

i SECURITY l Controller - Command Guard House I 1

I I

l Observer - River Front Gate I

- ~---

I l

l l Observer - Main Gate I

l 1

i i Observer I

l l

ENC l Controller I

I i

l l Observer i

I I

l Observer I

i I

l Observer i

I l

CIG l Controller l

I I

CRC l Controller 1

l V-16

BCENAPIO NO. 1992 EM_ERGENCY _ DRILL PARTICIPANT ABBf '4 MENT Si!E.ET CONTRQLLERB-ODSERVrh R

LOCATION l

P081TLQN I

NAME I

I ASTORIA-ECC l Controller I

i 1

l Controller - Of fstte Team i

l RC I Controller 1

1 I

AEOF I Controller i

V-17

DCENARIO NO. 1992 EMERGENCY DRILL _PART_ICIPANT.ASSIONMENT SHEET JOD FUNCTION i

NAME I

Emercency Director 1_ED) i I

offsite Radioloalcal Assessment PiJectori l

Dose Asyessment H,P.

I I

Su rvey Team H.P.

I I

Technical Advisor i

I

1IDAS Operators I

l EOF Information Liaison 1

l Technical Advisor to Public Information l I

Liaison to NYS EOC 1

1 EOF Communicator No. 1& 2 l

l Offsite Team I

l Onsite Team i

l Astoria ECC Coordinator I

I Astoria Backup Team (s)

I l

Meteorolocist I

l EOF Clerical l

l SAS/ Proteus Operator I

l Plant Operations Manager i

i TSC Manaaer l

l I & C Coordinator I

i Rad Protection Coordinator I

l-Maintenance Coordinator i

V-18

SCENARIO NO. 1992 EMERGENCY DRILL PARTICIPANT AB,BIGNMENT SiEET l

JOD FUNCTION I

NAME I

Test & Performa.Dco Engineer i

l Systems Analysis Coordinator I

I TSC Communicator l

I

_Dpta Courier I

i TSC Communicator at CCR I

l Data Processor at CCR 1

l Core Physics Engineer I

I Document Controller i

l Data Loccer/SAS-Proteus Operator I

l TSC Clerical i

I OSC Mananer l

l

_ Accountability Officer l

l OSC Communicator I

I Chemistry I

i Maintenance l

I Instrument & Control l

l Ouality Assurance l

I Radiation Protection l

I Material Control Storekeeper i

l Accident Victim I

1 METACON/First Aid Team 1

V-19

BCENARIO NO.,

1992 EMERGENCY DR_ILL PART_ICIPANT ASSIGNMENT SHEET JOB FUNCTION I

NAME I

i Medical Representative I

l

_ Senior Watch Supervisor I

l Support Facility Supervisor l

l Senior Reactor Operator l

i i

Reactor Operator I

i Nuclear Plant Operators (7) 1 l

i Shift Technical Advisor I

l Control Room Communicator 1

1 Security Supervisors I

4 I

Watch had Prot Tech 1

I watch Chem Tech 1

l 4

Administration & Loaistics Manaaer I

I Encineering & Constr. Support Manaaer l

l Central Information Group l-Watch ~ Person i

Recovery Manager 1

l 4

Schedule & Plannina coordinator I

I Proiect Manacement Specialist I

~~----

I Emeroency News Center Director i

I Asst, Emeroency News Center Director I

i Corporate Spokesperson 1

l Information Coordinator 1

I Information Gatherer 1

V-20

SCENARIO NO. 1992 EMERGENCY DRILL PARTICIPANT ASSIGNMENT SHEET e

JOD FUNCTION I

NAME I

Writer i

1 Government Liaison l

l Media Liaison 1

1 Technical Expert i

1 i

Health Physics Expert I

i Documenter i

i I

Status Board Person l

l

_ Rumor Control Staff I

l In_quiry Response Staff I

l 1

Audio / visual Coordinator i

i Recistration Coordinator 1

l Telecopier Operator i

I Photocopier Operator I

I Typist I

l Messencer i

I I

l l

1 I

l l

l 1

l I

l I

l l

4 V-21

... ~.

. - -... _ ~

SCENARIO NO. 1992 PLANT STATUS LOG PARAMETER TIME 08:00 08:15 8:30 08:45 09:00 09:15 09:30 Reactor Shutdown (Y/N)

N N

N N

N N

N NIS Power Range (%)

100 100 100 100 100 100 35 NIS Interim.. Range

1. 35 (Amps)

Ox10-4 3x10-4 3x10-4 3x10-4 3x10-4 3x10-4 3x10-4 NIS Interim. Range

1. 36 (Amps) 3x10-4 3x10-4 3x10-4 3x10-4 3x10-4 3x10-4 3x10-4

'NIS Source Range

1. 31 (CPM)

O/S O/S O/S O/S O/S O/S O/S NIS Source Range

1. 32 (CPM)

O/S O/S O/S O/S O/S O/S O/S RCS Incor T/C (Center) (OF) 601 601 601 601 601 601 598 RCS Incore T/C (Highest) (OF) 603 603 603 603 603 603 601 RCS Pressure (PSIG) 2235 2235 2235 2235 2235 2235 2235 RCS Avg. Temp. (OF) 559 559 559 559 559 559 557 RCS Cold Leg Temp. (OF) 529 529 529 529 529' 529 531 SAT Meter Margin (OF) 29 29 29 29 29 29 30 RCP in Service (Y/N)_

Y Y

Y Y

Y Y

Y Pressurizer Level-(%)

40 40 40 40 40 40 39 Reactor Vessel Level '(%)

120 120 120 120 120 120 120 S/G Levels #21 (%)

44 44 44 44 44 44 45

1. 22 44 44 44 44 44 44 45

1. 23 44 44 44 44 44 44 45

1. 24 44 44 44 44 44 44 45 S/G Press #21 (PSIG) 670 670 670 670 670 670 700

1. 22 670 670 670 670 670 670 700

1. 23 670 670 670 670 670 670 700

1. 24 670 670 670 670 670 670 700 VC Pressure (PSIG) 0 0

-O O

O O

O VC Temperature ~(OF) 100 100 100 100 100 100 100 VC Sump Level (ft.)

<39.6

<39.6

<39.6

<39.6

<39.6

<39.6

<39.6 VC Hydrogen (%)

0 0

0 0

0 0

0

-Aux FW Flow SG21 (GPM) 0 0

0 0

0 0

0 SG22 (GPM) 0 0

0 0

0 0

0 SG23'(GPM) 0 0

0 0

0 0

0 SG24 (GPM) 0 0

0 0

0 0

'O RWST Level (ft.)

36.5 36.5 36.5 36.5 36.5 36.5 36.5 cond Stor Tk Level (ft.)

28 28 28 28 28 28 28 O/S = Out of Service VI - 1

SCENARIO NO. 1992 PLANT STATUS LOG PARAMETER TIME 09:45 10:00 10:15 10:30 10: 45

__?l:00 11:15 Reactor Shutdown (Y/N)

N N

Y Y

Y Y

Y NIS Power Range (%)

90 85 0

0 0

0 0

NIS Interin. Range

1. 35 (Amps) 3x10-4 3x10-4 1x10-8 1x10-ll UNSTABLE NIS Interim. Range

1. 36 (Amps) 3x10-4 3x10-4 1x10-8 1x10-ll UNSTABLE NIS Source Range

1. 31 (CPM)

O/S O/S O/S 5x103 UNSTABLE NIS Source Range

1. 32 (CPM)

O/S O,/ S O/S

' 103 UNSTABLE RCS Incor T/C (Center) (OF) 595 590 600 1050 1050 1040 1030 RCS Incore T/C (Highest) (OF) 599 598 620 1075 1080 1070 1050 RCS Pressure (PSIG) 2235 2235 40 30 29 29 28 RCS Avg. Temp. (OF) 556 555

<540

<540

<540

<540

<540 RCS Cold Leg Temp. (OF) 531 531

>800 s750

>750

>750

>750 SAT Meter-Margin (OF) 30 31 0

0 0

0 0

RCP in Service (Y/N)

Y Y

N N

N N

N Pressurizer Level (%)

39 39 0

0 0

0 O

Reactor Vessel Level (%)

120 120 56 34 32 30 28 S/G Levels #21 (%)

45 45 0

4 18 c8 30

1. 22 45 45 0

3 16 28 30

1. 23 45 45 0

0 10 18 10

1. 24 45 45 0

2 11 20 11 S/G Press #21 (PSIG) 710 720 800

'/ 00 900 780 700

1. 22 710 720 800 700 800 700 10

1. 23 710 720 800 700 800 700 680

1. 24 710 720 800 700 900 750 750 VC Dressure (PSIG) 0 0

30 30 29 29 28 VC Temperature (OF) 100 100

>150

>150

>150

>150

>150 VC Sump Level (ft.)

<39.6

<39.6 42 43 45 47 48 VC Hydrogen (%)

.5 0.1

.15

.15

.2 l

Aux FW Flow SG21 (GPM) 0 0

200 200 200 200 100 SG22 (GPM) 0 0

200 200 200 200 100 SG23 (GPM) 0 0

200 100 0

0 0

SG24 (GPM) 0 0

200 100 0

0 0

36.5 36.5 36.5 36.5 32.5 27 21 RWST Level (ft.)

28 28 27.5 26.5 26 26 25.5 Cond Stor Tk Level-(ft.)

l O/S = Out of Service VI - 2

SCENARIO NO. 1992 PLANT STATUS LOG PARAMETER TIME 11:30 11:45 12:00 12:15 12:30 12:45 13:00 Reactor Shutdown (Y/N)

Y Y

Y Y

Y Y

Y i

NIS Power Range (%)

0 0

0 0

0 0

0 NIS Interim. Range l

1. 35 (Amps)

UNSTABLE UNSTABLE UNSTABLE UNSTABLE

<1x10-ll NIS Interim. Range

1. 36 (Amps)

UNSTABLE UNSTABLE UNSTABLE UNSTABLE

<1x10-ll NIS Source Range

1. 31 (CPM)

UNSTABLE UNSTABLE UNSTABLE UNSTABLE

<4x101 NIS Source Range

1. 32 (CPM)

UNPTABLE UNSTABLE UNSTABLE UNSTABLE

<5x101 RCS Incor T/C (Center) (OF) 1020 1000 1000 1170 1130 1050 870 RCS Incore T/C (Highest) (OF) 1050 1020 1020 1170 1130 275 275 RCS Pressure (PSIG) 28 27 27 24 22 18 16 RCS Avg.. Tamp. (OF)

<540

<540

<540

<540'

<540

<540

<540 RCS Cold Leg Temp. (OF)

>700

>700

>700

>700 650 630 630 SAT Meter Margin (OF) 0 0

0 0

0 0

0 RCP in Service (Y/N)

N N

N N

N N

N Pressurizer Level (%)

0 0

0 0

0 0

0 Reactor Vessel Level (%)

26 28 30 60 60 60 60 S/G Levels #21 (%)

45 45 45 45 45 45 45

1. 22 40 45 45 45 45 45 45

1. 23 11 11 11 11 11 11 11

1. 24 11 11 33 33 33 33 33 S/G Press #21 (PSIG) 600 500 500 305 325 328 328 422 550 428 425 236 236 300 300

1. 23 550 428 425 231 231 231 230

1. 24 600 500 500 395 395 395 395 VC Pressure (TSIG) 28 27 27 25 22 18 16 I

VC Temperature (OF)

>150

>150

>150

>150

.>150

>150

>150 VC Sump Level (ft.)

49 49 49 49 49 VC Hydrogen (%)

.15

.2

.2

.2

.2

.2

.2 Aux FW Flow SG21 (GFM) 100 100 0

0 0

0 0

SG22 (GPM) 100 100 0

0 0

0 0

SG23 (GPM) 0 0

0 0

0 0

C SG24 (GPM) 0 0

0 0

0 0

0 RWST Level (ft.)

16 9.24 9

9 9

9 9

Cond Stor Tk Level (ft.)

25 24 23 23 23 23 23 l

O/S = Out of Service VI - 3

SCENARIO NOo 1992 PLANT STATUS LOG

• • Two days later PARAMETER TIME 13:15 13:30 13:45 Reactor Shutdown (Y/N)

Y Y

Y NIS Power Range (%)

0 0

0 NIS Interim. Range

1. 35 (Amps)

<1x10-ll

<1x10-ll

<1x10-ll NIS Interim. Range

1. 36 (Amps)

<1x10-ll

<1x10-ll

<1x10-ll NIS Source Range

1. 31 (CPM)

<4x101

<4x101

<4x101 NIS Source Range

1. 32 (CPM)

<5x101

<5x101

<5x101 RCS Incor T/C (Center) (OF) 800 750

<200 RCS Incore T/C (Highest) (OF) 820 750

<200 RCS Pressure (PSIG) 15 14 0

RCS Avg. Temp. (OF)

<540

<540

<540 RCS Cold Leg Temp. (OF) 600 590 180 SAT Meter Margin (CF) 0 0

0 RCP in Service (Y/N)

N N

N Pressurizer Level (%)

0 0

0 Reactor Vessel' Level (%)

60 60 60 S/G Levels #21 (%)

45 45 45

1. 22 45

-45 45

1. 23 11 11 11

1. 24 33 33 33 S/G Press #21 (PSIG) 240 240 0

1. 22 240 240 0

1. 23 240 240 0

1. 24 240 240 0

VC Pressure (PSIG) 15 14 0

VC Temperature (OF)

>100

>150

>100 VC Sump Level (ft.)

49 40 49 VC Hydrogen (%)

.2

.2

.0 Aux FW Flow SG21 (GPM) 0 0

0 SG22 (GPM) 0 0

0 SG23 (GPM) 0 0

0 SG24 (GPM) 0 0

0 RWST Level (ft.)

8 8

8 Cond Stor Tk Level (ft.)

23 23 23 O/S = Out of Service VI - 4

~,

a s

SCENARIO No. 1992 PL ANT ST ATULLQQ FARAwETE4 11ME FARAMETER TIME _

08:00 08:00 offsite Power Available 138KV 0

Sei vice Water Ptrps

1. 21 0

13.BKV S

(Circle Essentist Hdr)

1. 22 S

6900 volt BUS NO. 1 0

1. 23 0

BUS NO. 2 0

1. 24 0

SUS NO. 3 0

1. 25 5

BUS NO. 4 0

1. 26 0

BUS No. 5 0

cire Unter Porps

1. 21 0

BUS NO. 6 0

1. 22 0

480 Volt BUS 5A 0

1. 23 0

BUS 2A 0

1. 24

-0 BUS 3A 0

1. 25 0

l BUS 6A 0

1. 26 0

Emergency D/cs

1. 21 S

Condensate Porps

1. 21 0

1. 22 C

1. 22 0

)

1. 23 0/5

1. 23 0

Cas Turbines GT-1 S

Coirp. Cool Heat Exch

1. 21 0

)

GT 2 S

1. 22 5

GT-3 5

RHR Heat Exchanger

1. 21 5

$15 Pttps

1. 21 S

1. 22 5

1. 22 S

Fan Cooler Units

1. 21 0

j

1. 23

1. 22 0

RHR Purps

1. 21 S

1. 23 0

1. 22 5

824 0

Charging Pm ps

1. 21 0

1. 25 0

1. 22 S

4

1. 23 S

s a

Rr Coolant Pwps

1. 21 0

VC lsol. Phase A Cs 2Lete (Y/N)

N

1. 22 O

VC isol. Phase B Corotete (Y/N)

N

1. 23 0

VC isot. Vent Cocplete (Y/N)

Y I

'#24 0

conponent Coot ing Puros

1. 21 5

Excepticos NONE l

1. 22 0

1. 23 0

High Head SIS Flow

1. 21 (crM) i Aux Copponent Cooling Ptros

1. 21 S

1. 22 (GFM)

1. 22 S

1. 23 (CPM)

S Aux Feed Water Purps

1. 21 5

1. 24 (GPM)

S

]

1. 22 S

Low Head $15 Flow

1. 21 (GPM)

1. 23 S

1. 22 (GPM)

S Contaircent Spray Ptsps

1. 21 S

1. 23 (CFM)

S

1. 22 S

1. 24 (CPM)

S Recirculation Purps

1. 21 S

Accumulator Level

1. 21 (t) 62

1. 22 S

1. 22 (%)

.62 Hydrogen Recombiner

1. 21 S-

1. 23 (%)

65

1. 22 5

1. 24 (%)

62 Operating Legend 0 =

0/S = Out of Service used to denote defective equi eent t

Standby S =

Change on status from previous log

• =

V1 5

m

..m__

_ = _ _

)((W9 10 NO. 19R ELAAUIAWL129

D 8kE 11 R 11ME UtAHillR Wt OBL

06:1} Offette tower Avaltable 13tAV 0 service Vater ta ts

1. 21 0

13.Btv (Circle tssential Mdr)

1. 22 (900 Volt 9U$ WO. 1 0
2. 23 0

aus w0. ? O

1. 24 0

put wo. 3 0

1. 25

$US NO. 4 0

1. 26 0

$U$ NO. 5 0 Circ water hrtis $21 0 BUS WO. 6 0

1. M 0

400 Volt But $A 0

1. 23 0

DU$ 2A 0

1. 24 0

gul 3A 0

1. ?$

0 BU$ 6A 0

1. 26 0

tenergency D/Gs $21 Cordensate Puts $21 0

1. 22

$22 0

1. 23 0/S
2. 23 0

Gas turbiries CV 1 fcep. (oot Heat $sch

1. 21 0

GT-2

1. 22 GT 3 RHR Heat [achanger
2. 21

$15 Furs

1. 21
2. 22
3. 22 f an Cooler Units
4. 21 0
5. 23
6. 22 0

RHR Puta

1. 21
2. 23 0
3. 22
4. 24 0

Charging Pu ts

1. 21 0
2. 25 0
3. 22
4. 23 Pa Coolant tu ts
5. 21 0

VC lsel. Phase A Corotete (Y/W) W

1. 22 0

VC 1s0l tha6e B Conplete (Y/W) W $23 0 VC isol. Vent Conplete (Y/ al) Y

1. 24 0

• ponent Cooling Puts

1. 21 Exceptions Nt*E
2. 22 0

l

1. 23 0

High Head $l$ flow

1. 21 (GPM)

A..a Conponent Cooling ruts

1. 21
2. 22 (GtM)

$?2

1. 23 (GrM) i Aux Feed Water Purps
2. 21
3. 24 (GPM)
4. 22 Low Head $lt flow
5. 21 (GPM)
6. 23
7. 22 (CFM) 9 Contaircent tpray Puts
8. 21
9. 23 (GrM)

[

1. 22
2. 24 (GPM)

Rectrcutatlen rups

1. 21 Accumulator tevel
2. 21 (%)

62

1. 22
2. 22 (%)

62 l

<drogen #econtilner

1. 21
2. 23 (%)

65 l-

1. 22
2. 24 (%)

62 l 8 tegend 0 e Operat ng O/S e Out of Service used to denote def ective equipnent $ e $tandby Change on status fren previous tog

• e l

VI

• 6

v-r ft((!iRJ0. n 1992 PL ANT $141U$ LOG LAHMitIR flME. [fisMjftR flkt _ 08:19 DLt]Q Offsite Power Avellable 11BKV O Service Water Pu re

1. 21 0

13.8K y 5 (circle tssentlet Hdr)

1. 22 6900 Volt Bus No. 1 0
2. 23 0

BUS Wo. 2 0

1. 24 0

90$ Wo. 3 0

1. 25 BUS WO. 4 0
2. 26 0

BUS Wo. $ 0 Circ Water tu'es

1. 21 0

BUS Wo. 6 0

1. 22 0

4B0 Volt BUS 5A 0

1. 23 0

Bus 2A 0

1. 24 0

4 Bus 3A 0

1. 25 0

lius 6A 0

1. 26 0

(mergency D/Cs

1. 21 l

Corvjensate ruts

1. 21 0
2. 22 6
3. 22 0
4. 23 0/5
5. 23 0

Ces lutbinen G1 1 Conp. Cool Heat tach

1. 21 0

C1 2

1. 22 5

GT 3 s RHR Heat tachanger

1. 21 5

$15 hsrps

1. 21
2. 22
3. 22 fan Cooler Units
4. 21 0
5. 21
6. 22 0

RHR hres

1. 21 0
2. 23 0
3. 22
4. 24 0

Charglfig P6sts $21

1. 25 0
2. 22 s
3. 23 Ra Coolant Pw ps
4. 21 C

VC isol. *hase A CcnPlete (Y/W) W

1. 22 0

VC leol, these B Conplete (Y/h) N 823 0 VC isol. Verit Corplete (Y/N) Y

1. 24 0

ccmponent Cooling hs:ps $21 5 Exceptions NONE'

1. 22 0
2. 23 0

High Head $15 flow

1. 21 (CPM) 5 Aux Conponent Cooling PLrps
2. 21 5
3. 22 (GPM)

S

1. 22 S
2. 23 (CPM)

S Aux tecd Water havs

1. 21
2. 24 (CtM)
3. 22 S

tow Head sl$ flow

1. 21 (GrM)

S

1. 23
2. 22 (CPM) 5 Contelrewnt spre, hrps
3. 21
4. 23 (Gru) 5 822 S
5. 24 (GPM)

Recirculatior, hres

1. 21 Atttsnulptor level
2. 21 (%)

62

1. 22 5

822 (%) 62 Hydrogen Reccetiiner

1. 21
2. 23 (%)

6$ 822

1. 24 (1.4 62 Operating l

Legend 0 e 0/5 a out of Service used to denote def ective equipnent $ t arriby $ e Change on status f rca previous log

• e l

l VI 7

RikAP10 Wh.1W2 PLANT $1ATUS LOG [APAMtiff 11Mt. IAPAMfitR 11Mt _ 0)LQ 08:0 Of f site Power Avellebte 11BW 0 Service Water Pwps

1. 21 0

13.Bav (circle E ssentist Ndr)

1. 22 5

6900 Volt 905 NO. 1 0

1. 23 0

$US NO. 2 0

1. 24 0

MUS h0. 3 0

1. 2$

w NO. 4 0

1. 26 0

$U$ No. $ 0 Circ Water Pwps

1. 21 0

SUS No. 6 0

1. 22 0

~ 4B0 Volt BUS 5A 0

1. 23 0

PU$ 2A 0

1. 24 0

sus 3A 0

1. 25 0

BUS 6A 0

1. 26 0

(mergerty D/Gs

1. 21 Cordensate Purs
2. 21 0
3. 22 t
4. 22 0
5. 23 0/8
6. 23 0

Gas lurbines GT 1 CcwT. Cool Heat inh

1. 21 0

G1 2 S

1. 22 0

Cl*3 RHR Heat (achanget

1. 21

$15 Purs

1. 21
2. 22
3. 22 f an Cooter Units
4. 21 0
5. 23 5
6. 22 0

RHR Pw os

1. 21
2. 23 0
3. 22
4. 24 0

Charging Pu ts

1. 21 0
2. 2$

0

1. 22 5
2. 23 1,

Ra Coolant Pwps

1. 21 0

VC isot. Phase A Cormlete (T/N) N

1. 22 0

VC laot. Phase B Crvlete (Y/N) N

1. 23 0

VC isot. Vent Conplete (V/N) t $24 0 Conconent Cooling twps

1. 21 5

taceptions NOAt

1. 22 0
2. 23 0

High Head 115 flow

1. 21 (GtM)

Ava Cteponent Coot ing Pwps

1. 21
2. 22 (GtM)

S

1. 22
2. 23 (G0M)

Aus f eed Water Pwps

1. 21
2. 24 (GPM) 5
3. 22 low Head 515 ficiw
4. 21 (GPM)

S

1. 23 5
2. 22 (GrM)

Conteltrent Spray Pwps

1. 21 5
2. 23 (GrM) s
3. 22
4. 24 (Gt'M)

Recirculation Puts

1. ?1 5

Acewutator level

1. 21 (1) 62
2. 22
3. 22 (1) 62 -

Hydrogen Recwtilner

1. 21 5
2. 23 (%)

65

1. 22 5
2. 24 (%)

62 tecend oe operating 0/S = Out of service used to denote defective equipnent $ = Standby Change ori status from previous log VI 8

L((_hatto NO. 1992 FLANT $1ATUS tog LAP AME f t R 11ML FADAuffit 11>t. 09:00 09100 Offsite Power Available 138tv 0 Service Water Puts $21 0 13.BKV (Circle fasential Hdr)

1. 22 0

6900 Volt But Wo. 1 0 823 Bus ko. 2 0

1. 24 0

BUS Wo. 3 0 825 0 B0$ NO. 4 0 $26 Bus No. 5 0 circ Water Pate 821 0 BU$ No. 6 0 822 0 480 vot' BUS SA 0 823 0 BUS 2A 0

1. 24 0

BUS 3A 0

1. 25 0

BUS 6A 0

1. 26 0

(merBency D/Cs

1. 21 CorrJensate Pmps
2. 21 0

022 s

1. 22 O
2. 23 0/s

$23 0 ces turbines 01 1 two. Coot Heat Each

1. 21 0

m G1 2 5

1. 22 0

GT 3 thR Heat tachanger 411 5 $15 Pwpe

1. 21 5
2. 22 5
3. 22 fan Cooter Units
4. 21 0
5. 21 5
6. 22 0

kHR Ptats

1. 21 S
2. 23 0
3. 22 5

824 0 Charging twos

1. 21 0/$*
2. 25 0

822 S

1. 23 5

Ps Coot ent Pu'ps

1. 21 0

VC isot. Phase A Cwpirrte (Y/W) W

1. 22 0

VC isol Phase B tcmplete (Y/N) W

1. 23 0

VC isol. Vent Cceptete (Y/N) Y

1. 24 0

Cteponent Cooting Pw ps

1. 21 O

taceptions WDNE

1. 22 0

823 High Head $15 flow

1. 21 (GrH) 0 At.x Cortonent Cooling Pu ts

$21

1. 22 (crM)

O

1. 22 5

823 (CPM) 0 Aux f eed Water twos

1. 21 5
2. 24 (GrM) 0 822 S

Low Head $15 flow

1. 21 (GrM) 0
2. 23 s

822 (crM) o Contalvvent spray Puts

1. 21 823 (CPM) 0 822 5

824 (COM) 0 Rectreutet ton Puts

1. 21 5

Acewutator level

1. 21 (1) 67
2. 22
3. 22 (%)

66 Hydrogen Rccorbiner

1. 21 5
2. 23 (%)

62 822

1. 24 (%)

68 Legend 0 = Operating O/S = Out of Service used to denote def ective equipnent $tandby S = Change on status from previous tog VI + 9

K[kARIO N2..1972 l'L ANT $1 ATU1,1QQ ~ t FARAut1tp t iti, P ara #If t R fiki 09:15 09:15 Offsite Power Avstlebte 13BKV O service Water Pu rs

1. 21 0

13.Btv (Citete itsentist Ndr)

1. 22 0

6h'O volt BUS NO. 1 0

1. 23 pus No. 2 0
2. 24 0

BUS Wo. 3 0

1. 25 0

but PO. 4 0

1. 26 S

J But No. $ 0 Circ Water Puts

1. 21 0

But No. 6 0

1. 22 0

480 Volt Bus $A 0

1. 23 0

But 2A 0

1. 24 0

$Ul 34 0

1. 25 0

PUS 64 0

1. 26 0

[mergency D/cs til 5 Condensate rups

1. 21 0
2. 22 5
3. 22 0
4. 23 0/8
5. 23 0

Ces turbines C1 1 S Conp. Cool Heat ( Ach

1. 21 0

C1 2 5

1. 22 0

ci 3 RHa Heat tschaiger

1. 21 5

s1E Puvs

1. 21
2. 22
3. 22 fan Cooler linits
4. 21 0
5. 23 s
6. 22 0
7. He Purs
8. 21 5
9. 23 0
10. 22 5
11. 24 0

Charging Pays

1. 21 0/S
2. 25 0
3. 22 0 3
4. 23 5

Ra Cootent Purs

1. 21 0

VC isol. Phase A Corp lete (f/N) N 822 0 VC isol. Phase B Cceptete (V/N) N

1. 23 0

VC isol. Vent Cteplete (Y/N) T 4

1. 24 0

Copponent Cooting Puts

1. 21 0

(Aceptions NONE

1. 22 0
2. 23 High Head Sl$ flow
3. 21 (GrM) 0 Aun Conponent Cooling Puts
4. 21

.#22 (GPM) 0

1. 22 S
2. 23 (CPM) 0 Aus feed Water Pa ys
3. 21 5
4. 24 (GtM) 0
5. 22 S

tow Head 515 Flow

1. 21 (GrM) 0 l
2. 23 5
3. 22 (GPM) 0 Contairrent Spray Purs
4. 21
5. 23 (crM) 0
6. 22 1
7. 24 (CPM) 0 Recirculation Puts
8. 21 5

Accurulator tevet

1. 21 (%)

67

1. 22
2. 22 (t)

(4 Hydrogen Reconbinee

1. 21
2. 23 (%)

67

1. 22 5
2. 24 (t) f4 Legend 0 =

Operating O/S

• Out of service used to denote defective equircent

$ e $tarrb y Change on status f rcrs previous nog VI - 10

itL18A_No._1222 LL*1 Lit!1ULLDQ [,At Amtit k 11Mt iA8AMt1[a 1IM1 09:30 09:32 Offsite tower Avaltable 13BKV 0 service Water Ptros

1. 21 0

11.BKV (Circle itsentlet Ndr) 822 0 6900 Volt put ko. 1 0

1. 23 t

BUS No. 2 0

1. 24 0

BUS Wo. 3 0

1. 25 0

DOS WD. 4 0

1. 26 BUS Wo. $

0 Circ Water l'tres

1. 21 0

BU$ NO. 6 0 822 0 460 Volt BUS $A 0

1. 23 0

SUS 2A 0

1. 24 0

BUS 3A 0

1. 2$

0 BUS 6A 0

1. 26 0

Energency D/Cs

1. 21 Condensate Pttps

- #2 9 0

1. 22 5
2. 22 0

823 0/s 823 0 Ces turbines C1 1 5 Cono. Cool Heat tach

1. 21 0

Ci 2 t

1. 22

-0 Cf 3

• HR Heat tachanger

1. 21 ill twos Wii S
2. 22
3. 22 fan Cooter Units
4. 21 0
5. 23 s
6. 22 0

pHa twes 421 5

1. 23 0

til

1. 24 0

ChergIng Ptros

1. 21 0/$
2. 2$

0

1. 22 0
2. 23 Rn Cootent Ftros
3. 21 0

VC tsol. Phase A Corptete (Y/N) W

1. 22 0

VC loot. Phase B Conplete (T/N) W

1. 23 0

VC isot. Vent conplete (t/N) Y

1. 24 0

Conponent Cooling twps

1. 21 0

luceptlons WONE

1. 22 0
2. 23 s

High Head $15 flow

1. 21 (CrM)

-0 Aus Conpor ent Cooling Ftrps $21

1. 22 (CPM) 0
2. 22 5
3. 23 (GPM) 0 Aux feed Water Ptros
4. 21 5
5. 24 (CrM) 0
6. 22 S

L

• Head $15 flow 821 (GrM) 0

1. 23
2. 22 (CrM)

O Contairrent $ pray Ptsps

1. 21 5

823 (COM) 0

1. 22 824 (COM) 0 Recirculation Ptrps
2. 21 Acewn;Istor level 821 (%)

67 822 5 822 (t) f4 Hydrogen Recorbiner

1. 21
2. 23 (%)

67

1. 22 5
2. 24 (1)

(4 Operating Legend 0 s O/S = Out of Service used to denote def ective equirrent S = Standby Charege on status f rom previous tog VI - 11

.._.____.m..__ I gpsR10 wo.1972 ELANT st Atus t0a PARAMETER l lMJ, grAWIftR 11Mt 29 4j 09:45 L Of felte Power Avellatile 138tV 0 service Water Puts

1. 21 0

13.Btv (Circle Essentist hdr)

1. 22 0

6900 volt BUS WD. 1 0

1. 23 BU$ NO. 2 0
2. 24 0

But ho. 3 0

1. 25 0

I BUS WO. 4 0

1. 26 Bus No. $

0 cire Water Furs

1. 21 0

BU$ ho. 6 0

1. 22 0

480 volt BU$ $A 0

1. 23 0

BUS 2A 0

1. 24 0

BUS 3A 0

1. 25 0

BUS 6A 0

1. 26 0

f reegency D/cs

1. 21 5

Cordensate Purs

1. 21 0
2. 22 s
3. 22 0
4. 23 0/s
5. 23 0

Gao turbines C1 1 Ccep, Cool Heat tach

1. 21 0

G1 2

1. 22 0

Gi+3 s RHR Heat tachanger $21 1 $15 Pugs

1. 21
2. 22
3. 22 Fan Cooter Units

$21 0

1. 23 5
2. 22 0

RHR rurs

1. 21 5
2. 23 0
3. 22
4. 24 0

Charging Purs $21 0/5

1. 25 0
2. 22 0
3. 23 5

ta Cootent Puts

1. 21 0

VC isot, Fbase A Ccuttete (t/N) N

1. 22 0

VC isol. Phase B Corptete (Y/N) W

1. 23 0

vc isot. Vent conplete (Y/N) Y

1. 24 0

Ccrronent Cooling Puys

1. 21 0

faceptions NUWE

1. 22 0
2. 23 s

High Head sls flew

1. 21 (GrM) 0 Aux Cceponent Cooling ru ps
2. 21 5
3. 22 (GrM) 0
4. 22
5. 23 (GrM) 0 Aux Feed Water Pups

$21 5

1. 24 (GrM) 0
2. 22 5

Low head 51$ Flow

1. 21 (GrM) 0
2. 23
3. 22 (GrM) 0-Con *airvnent spray Puts
4. 21 1
5. 23 (GrM) 0
6. 22 S
7. 24 (GrM) 0 Recirculation Puts all Accunulator tevet
8. 21 (1) 47
9. 22 S
10. 22 (%)

66 Hydrogen secontiner

1. 21
2. 23 (1) 67 822 S
3. 24 (%).

68 Operating tegend 0

• 0/$ = Out of Service used to denote defective equipment

$tandby $ = Change on status from previous log

• =

VI 12

---

~-

1CINAttD NO. 1992 [1f N1. 81MUS L OG [11pf1fR 11Mt LAffMO !

• 11Mt 10tQ9 10:00 Of f site Power Available 13D.V 0

Service Water Pwps all 0 13.BKV S (Circle (stentist Mdr) 822 0 6900 Volt SUS k0. 1 0 823 BUS NO. 2 0

1. 24 0

BUS NO. 3 0 825 0 BUS No. 4 0

1. 26 S

SUS NO. $ 0 Cite Water Pwps

1. 21 0

BUS WO. 6 0

1. 22 0

483 voit BUS $A 0

1. 23 0

SUS 2A 0

1. 24 0

BUS 3A 0 425 0 BUS 6A 0

1. 26 0

(perg'ncy D/Gs

1. 21 S

CorvJensate Ptsta

1. 21 0
2. 22 S

922 0 823 0/S

1. 23 0

Gas turbines G1 1 S Cony Cool Heat beh 821 0 GT 2

1. 22 0

GT 3 RHR Heat tachanger

1. 21 SIS Pttps
2. 71
3. 22 m

S fan Cooler Units $21 0 923 022 0 RHa Ptros

1. 21 S
2. 23 0
3. 22 S
4. 24 0

Cherging Pwes

1. 21 0/S 82$

0 822 0

1. 23 Rn Coolant Ptsps
2. 21 0

VC isol. Phase A Conplete (T/N) N

1. 22 0

vt Isot, Phase B Cmplete (Y/N) N $23 0 VC isot. Vent Cm plete (Y/N) T

1. 24 0

Cmponent Cooling Pwps $21 0 Exceptions NONI

1. 22 0
2. 23 High Hend $18 itow
3. 21 (GrM) 0 Aus Cmponent Cooling Ptros
4. 21 S
5. 22 (GPM) 0
6. 22 S
7. 23 (GrM) o Aux Feed Water Pw es
8. 21 5
9. 24 (GPM) 0
10. 22 tow Head $15 Flow
11. 21 (GrM) 0
12. 23
13. 22 (GrM)

O Contalrvnent Spray Ptros

1. 21 S
2. 23 (GPM) 0
3. 22 S
4. 24 (GrM) 0 peltculation Pwre
5. 21 S

Accunulator tevet

1. 21 (1) 67
2. 22 5

822 (1) 66 Hydrogen Recmbiner

1. 21 S
2. 23 (1) 67~
3. 22
4. 24 (1) f4 Operating tegend 0 =

0/S e Out of Service used to denote def ective equipnent Standby S

• Change on status from previous tog VI 13

~_ _ _ _ _.... _.. 1 }IthARt0 WO. 1992 t1831.11 AM_1M i j f At AMt1iR 11ML LAPAMII(# 11Mt. i 10:15 10:15 J 1 a Offsite ?ower Available 13Bav 0/5' service Water Puts

1. 21 0

13.Btv 5 (Circle tssentist Mdr)

1. 22 8

6900 Volt e,US WO. i

1. 23 BUS h0. 2
2. 24 But NO. 3
3. 25 BUS WO. 4
4. 26 i

sus No. 5 Circ Vater Pu ts

1. 21 BU$ NO. 6
2. 22 40 Volt 80$

5A 0

1. 23 s'

BUS 2A

1. 24

[ BUS 3A

1. 25 l

l BUS 6A

1. 26 l

j inergency D/Cs

1. 21 0*

Condensate Puts

1. 21
2. 22 0/5'
3. 22
4. 23 0/5
5. 23 Ces turbines C1 1 Corto. Cool Heat Each
6. 21 0

G1 2 s

1. 22 0

C1 3 RHR Heat (achanger

1. 21

$15 hers

1. 21 0/l*
2. 22
3. 22 5

f an Cooler Units

1. 21 0
2. 23
3. 22 0

l RHR hrps

1. 21 5
2. 23
3. 2?

S

1. 24 Charging hros
2. 21 O/t
3. 25
4. 22 5
5. 23 as Cootent Pu ts
6. 21 VC 1 01. F' hose A Cortlete (Y/N) 1*
7. 22 VC lsol. Phase B Ccrtlete (Y/N)

N

1. 23 t'

VC lsol. Vent Cwptete (Y/N) Y

1. 24 5*

Cecconent Cooling hvos

1. 21 taceptions ONE PHA$t 0 VALVil
2. 22 (ACH LINC FAILED 10 CLOSE t
3. 23 High Head SIS Flow
4. 21 (GrM) 0 Aus twgunent Cooling Putos
5. 21 0*
6. 22 (CrM)

O 4 ]

1. 22
2. 23 (crM) 0 Aus f eed Water hsts
3. 21 S
4. 24 (CFM) 0 1
5. 22 C'

low Head $l$ Flow

1. 21 (COM)

Q

1. 23 5
2. 22 (GrM) 0 Contatteent Spray hros
3. 21 0/S*
4. 23 (CPM) 0
5. 22 S
6. 24 (GPM) 0 Recirculation Puts
7. 21 S

Accumletor levet

1. 21 (%)

0*

1. 22 S
2. 22 (%)

0* Hydrogen Reconbiner

1. 21 5
2. 23 (%)

0*

1. 22
2. 24 (1) 0*

1 Legend 0 = Operating l O/$ e Out of Service used to denote def ective equipnent S a - St ardby Change on status from previous Log VI

• 14

-g-g-w4 ..,e pw--, q.w.. y-- ,gr g y-p -sma'r'- ~ 'N W

• tw t-C r %'

7' *M' YT* *

• I e

$ClNAtjQ,g Q yg RAW 1 51A1US LOG LQA,WU{R 11ME PARAWE1ER 11ME 121}2 10t32 Offsite Power Available 13hv 0/$ Service Water Punos

1. 21 0

13.kV (circle tssential Hdr)

1. 22 0*

6900 Volt BUS Wo. 1 0/S

1. 23 BU$ Wo. 2 0/$
2. 24 BUS WQ. 3 0/$
3. 25 BUS Wo. 4 0/8
4. 26 5

BUS WO. 5 0/$ Circ Water Puts

1. 21 S

BUS WD. 6 0/$

1. 22 5

480 Volt BUS 5A 0

1. 23 BUS 2A 0*
2. 24 5

$US 34 0'

1. 25 BUS 6A O/S
2. 26 8

(nergency D/Gs

1. 21 0

Cordensate Punps

1. 21 S
2. 22 0*
3. 22
4. 23 0/$
5. 23 Gas turbines GI 1 Corp. Cool Heat tach
6. 21 0

GT 2

1. 22 0

GI 3 5 RNR Heat tachonger

1. 21 S

$15 hsts

1. 21 0/t
2. 22 8
3. 22 0*

fan Cooler Units

1. 21 0

f23

1. 22 0

AkR twps

1. 21 0*
2. 23 0*
3. 22 0/S
4. 24 0*

Chargirig Funpo

1. 21 0/5
2. 25
3. 22 0*
4. 23 Ra Coolant Punos
5. 21 5

VC isot l'hase A Complete (Y/N) Y

1. 22 VC isol. l'hase 9 Conplete (Y/N)

W

1. 23 VC isol. Vent Conplete (T/W)

T '#24 Conoonent Coeling Punos

1. 21 5

faceptions ONE PHA$t B VAWi$

1. 22 S

(ACH tlWE TAlttD 10 CLOSI

1. 23 High Head $15 tlow
2. 21 (GrM) 230 Aus Conponent Cooling Pw ps
3. 21 0
4. 22 (GrM) 230
5. 22 5

'#23 (GPM) 230 Aux Feed Water Pwps

1. 21 o'
2. 24 (GrM) 230
3. 22 0

tow Head $tt flow

1. 21 (GrM) 630
2. 23
3. 22 (GrM) 680 Contairwent Spray hats
4. 21 0/S
5. 23 (GPM) 630
6. 22
7. 24 (GPM) 680 Recirculation twos
8. 21 Acevutator Levet
9. 21 (%)

0

1. 22 3
2. 22 (%)

O Hydrogen acconbiner

1. 21
2. 23 (%)

0

1. 22
2. 24 (%)

O t egerri 0

• Operating O/S e Out of Service used to denrae defsctive equipnent

$ t erdtiy S

• Chhnge on status f rca previous log
• a VI 15

l 4 tiliARJC ho 1992 } E131LilALVL1L9 fp ptitt ,,,,_1Lul titiu1J.( R flut 10145 10:45 4 Offsite Power AvailaL>te 136tv 0/$ Service Water Pw es

1. 21 0

13.BKV 0/5' (Circle Essential Ndr)

1. 22 0

6900 volt SUS Wo. 1 8

1. 23 i

BUS WO. 2

1. 24 S

But Wo. 3

1. 25 l

BUS 40. 4

1. 26 8

Bus Wo. $ Cite Water twps

1. 21 j

Bus No. 6 0/5

1. 22 4L3 Volt BU$

SA 0

1. 23 S

BUS 2A 0

1. 14 j

995 3A 0

1. 25 S

BUS 6A 0/$

1. 26 Emergency D/cs
2. 21 0

Ccwedentate twon

1. 21
2. 22 0
3. 22 l

823 0/$

1. 23 Got lurbines GT 1 Cmp. Cool Heat tach
2. 21 0

G1 2

1. 22 0

a G1 3 RHR Heat Enchanger

1. 21 5

51$ Pwps

1. 21 0/l
2. 22
3. 22 0

fon Cooler Unita

1. 21 0
2. 23 5
3. 22 0

RHR Funpt

1. 21 0
2. 23 0
3. 22 0/$
4. 24 0

Charging Pw ns

1. 21 0/5
2. 25 5

j

1. 22 0
2. 23 s

I Ra Coolant runps

1. 21 VC lsol. thase A Cmplete (Y/H)

Y

1. 22 VC isot. Phase B Cmplete (V/N)

N i

1. 23 VC 15o%, Vent Complete (Y/N)

T 824 Cmgenent Cooling twos

1. 21 5

faceptions Okt PHA$F B VALVit

1. 22 (ACH LINE FAlltD 10 CLO$t
2. 23 High Head $15 Flow
3. 21 (GrM) 230 Aux Cmponent tooling Pts ps
4. 21 0
5. 22 (GrM) 230
6. 22 5
7. 23 (GrM) 230 4

Aus f eed Vater Punos

1. 21 0
2. 24 (GrM) 230
3. 22 0

tow Head $15 flow

1. 21 (GrM) 630
2. 23
3. 2i (GrM) 680 Contairvnent spray Pwps
4. 21 0/5
5. 23 (GrM) taf:
6. 22
7. 24 (GrM) 680 Recirculation Pwps
8. 21 Acetsmalator Level
9. 21 (1) 0
10. 22
11. 22 (1)

O Hydrogen Recombiner

1. 21 5
2. 23 (1) 0
3. 22 S
4. 24 (%)

O Operating Legend 0

• 0/5 Out of Service used to denote defective equipnent Standby S =

Change on status from previous tog VI 16

1(liar 10 h0. 1991 Pt Auf $141U$ too LAk Aut1t t 11ML IARAMtitt tiet. iltLN 11t00 Of f site Power Avaltatale 13hKV 0/$ tervice Vater Pu ts $21 0 13.BA V (Circle Essentlet Ndr)

1. 22 0

6900 Volt DU$ Wo. 1

1. 23 DV$ WO. 2
2. 24 9U$ No. 3
3. 25 BU$ NO. 4
4. 26 tus NO. $

Circ Water Pu ts

1. 21 BU$ Wo. 6
2. 22 450 volt BUS SA 0
3. 23 BUS 2A 0
4. 24 DV$

34 0

1. 25 BU$

6A O/$

1. 26 (mergency D/Gs
2. 21 0

Cordennete Puts

1. 21 0
2. 22 0
3. c2 0
4. 23 0/$
5. 23 Gas Turbines C1 1 Cono. Cool Heat toch
6. 21 0

GT t

1. 22 0

GT 3 RHW Heat (schenger

1. 21

$ll Pu'es

1. 21 0/$
2. 22
3. 22 0

Fan Cooter Units

1. 21 0
2. 23
3. 22 0

RM Puti

1. 21 0
2. 23 0
3. 22 0/$
4. 24 0

Charging Purts $21 0/$

1. 25
2. 22 0
3. 23 Ra Coolant Ptros

$21 VC 1n01. Fhase A Conplete (T/N) T

1. 22 VC ltol. Pt.ase B Ctxtlete (Y/N)

N

1. 23 VC isol. Vent Conplete (Y/N)

T

1. 24 Cony:nent Cooling Puts
2. 21 taceptions ONE PHA$t B VALVil
3. 22

( ACH LINE FAltfD 10 CLO$t

1. 23 High Head $ll flow
2. 21 (GPM) 230 Aus Corponent Cooting Puts
3. 21 0
4. 22 (GPM) 230
5. 22
6. 23 (GPM) 230 Aun feed Water Puvs
7. 21 0
8. 24 (GPM) 230
9. 22 0

tow Head $15 Flow

1. 21 (GPM) 630
2. 23
3. 22 (GPM) 630 Cont airvrent $ pray Puts

$21 0/$

1. 23 (GPH) 630
2. 22 5
3. 24 (GPM) 630 tecirculation Ptros
4. 21 Accutulator Level
5. 21 (%)

0

1. 22
2. 22 (t) 0 Hydrogen #econbiner
3. 21
4. 23 (t) 0
5. 22
6. 24 (%)

O Operating Legend 0

• 0/$ = Out of Service used to denote defective equirnent

$ e $tandby Change on status from previous tog

• =

VI 12

SCtkatl0 No. 1912 M ANT ST ATUS LOG [LPArtitR llME O RAMIitR flME 11 1$ 11:1$ Offsite Power Available 138KV 0/5 service Water hres

1. 21 0

13.Bav 0/$ (Circle Essential udt)

1. 22 0

6900 volt BUS NO. 1

1. 23 BUS NO. 2
2. 24 BUS ND. 3 5
3. 25 s

BUS NO. 4 S

1. 26 BUS No. ;

Cire Water hsrs

1. 21 BU$ NO. 6
2. 22 S

480 Volt Bus 5A 0

1. 23 s

but 2A 0

1. 24 5

BUS 3A 0

1. 25 t

BUS 6A O/S

1. 26 Energency D/Ca
2. 21 0

Co'Klensate hops

1. 21
2. 22 0
3. 22 5
4. 23 0/5
5. 23 Gas turbines C1 1 Cono. Cool Neat t uh
6. 21 0

GT 2

1. 22 0

C1 3 5 kHR Heat Exchanger

1. 21 5

$19 hros

1. 21 0/S
2. 22 S
3. 22 0

Fan Cooler Units

1. 21 0
2. 23 5
3. 22 0

RHR Purs

1. 21 0
2. 23 0
3. 22 O/S
4. 24 0

Charging hrps

1. 21 0/S
2. 25 S
3. 22 0
4. 23 5

km Coolant Ptros

1. 21 S

VC 1so1. Fhase A Conplete (Y/N) Y

1. 22 VC isol. These P Conclete (Y/N)

N

1. 23 S

VC lsel. Vent Cecplete (Y/N) Y -#24 5 Cceponent Cooling Punps

1. 21 S

Exceptions ONF PHASE B VALVES

1. 22 S

EACH LINE F AlltD 10 CLOSE

1. 23 High Head $15 Flew
2. 21 (crM) 230 Aun Conponent Cooling hsTs
3. 21 0
4. 22 (COM; 230
5. 22 S
6. 23 (GtM) 210 Asx Feed Water Ptros
7. 21 0
8. 24 (crM) 230
9. 22 0

trw Head $15 Flow

1. 21 (Grk) 63b
2. 23 5-
3. 22 (CFM) 680 Contairnent Spray hits
4. 21 0/s
5. 23 (crM) 630
6. 22
7. 24 (GrM) 680 Recirculation haps
8. 21 5

Accuwlator tevel

1. 21 (%)

0

1. 22
2. 22 (1)

O Hycfrogen Reconbiner

1. 21
2. 23 (%)

0

1. 22
2. 24 (1)

O Operating t egeru:1 0 = 0/5 e out of Service used to denote defective egsirment $tandby $ e Change on status from previous Iog - VI 18

Eth ulo NO. 1992 PL111 $1Atut LOG P 4 AMtitR IIME hat AN fi R 11ML 11:30 _ 11:3g Offsite Power Available 138KV O/$ Service Water Pw es

1. 21 0

13. 8t v 0/1 (Circle (ssential Hdr)

1. 22 0

6900 volt BUS Wo. 1

1. 23 5

BUS h0. 2

1. 24 8

But No. 3 S

1. 25 s

BU$ NO. 4

1. 26 BUS Wo. $

Circ Water twps

1. 21 BUS WO. 6 5
2. 22 3

460 Volt Bus SA 0

1. 23 BUS 2A 0
2. 24 EU$

3A 0

1. 25 S

CUS 6A 0/$

1. 26 Emergency 0/cs

$21 0 Condensate Pw ps

1. 21 5
2. 22 0
3. 22
4. 23 0/s
5. 23 Cas lurbines CT 1 5

Comp. Cool Heat Each

1. 21 0

C1 2

1. 22 0

GT 3 RkR Heat tachanger

1. 21 S

Sls twps

1. 21 0/S
2. 22 1
3. 22 0

f an Cooler Units

1. 21 0
2. 23
3. 27 0

RNR hrps

1. 21 0
2. 23 0
3. 22 0/5
4. 24 0

Charging Pwes

1. 21 0
2. 25
3. 22 5
4. 23 9m Coolant Pwpt
5. 21 S

VC 1801. Phase A Conplete (V/N) T

1. 22 VC isol. Phase B Conplete (Y/N)

W

1. 23 5

VC isol. Vent Conplete (Y/N) Y

1. 24 S

Conemnt Coot ltig Pwps

1. 21 fAcept(ons ONE PHA$E B VALVES
2. 22 5

(ACH LINE FAllED 10 CLOSE

1. 23 High Head $15 flow
2. 21 (CPM) 230 Aus Cwponant Cooling runts
3. 21 0
4. 22 (CPM) 230
5. 22
6. 13 (CrM) 230 Aun f eed Water Pwps
7. 21 0

'24 (CrM) 230

1. 22 0

tow Head $15 7 tow

1. 21 (CrM) 630
2. 23
3. 22 (CPM) 680 Contaltunent Spray Pwes
4. 21 0/S
5. 23 (CrM) 630
6. 22 5
7. ?4 (CFM) 680 Recirculation Pu rs
8. 21 S

AccumJiator Levet

1. 21 ( b 0
2. 22
3. 22 (t) 0 Hydrogen Recert>lner
4. 21 S
5. 23 (%)

0

1. 22 S
2. 24 (%)

0 Operating-Legend 0 = 0/5 = Out of Service used to denote def ective equipnent S = $tandby Change on status frce previous tog VI 19

.. __~ l 1(fNARl0N0ml??] i PL ANT $1 Anf$ LOG i U!AMETER 11ME. FAPAM'1ER 11ME_ 11:45 11:45 i Offsite Power Avellabl6 13Bav 0/5 Service Water Ptste

1. 21 0

i 11.8KV O/S (Circle Essential Hdr)

1. 22 0

l 6900 volt But No. 1

1. 23 j

BUS NO. 2

1. 24 5

j BUS No. 3

1. 25 l

Bus ko. 4 5

1. 26 Bus No. 5 Circ Water t wps
2. 21 l

91l$ NO. 6

1. 22 480 Volt BUS SA 0
2. 23 i

BUS 2A 0

1. 24 5

f BUS 3A 0

1. 25 BUS 6A 0/$
2. 26 5

tmergency D/Gs

1. 21 0

Condensate hres

1. 21 f

j 422 0

1. 22 l
2. 23 0/$
3. 23 i

Ces turbines G1 1 Cort. Cool Heat inch

1. 21 0

Gi+2

1. 22 0

i G1-3 RHR Heat Enchanger

1. 21

$ll Ptros

1. 21 0/S
2. 22 5
3. 22 0

f an Cooler Units

1. 21 0

l

1. 23
2. 22 0

RHR Ptros

1. 21 0
2. 23 0

f

1. 22 0/$
2. 24 0

l Charging Puvs

1. 21 0/$
2. 25 5

j

1. 22 0
2. 23 RF Coolant PWpA
3. 21 VC isol. Ihole A Creolete (Y/N)

Y I

1. 22 VC 1601. Phase B Conplete (Y/N)

N

1. 23 VC lsot. Vent Conclete (Y/N)

Y l

1. 24 5

Conponent Coollr. ; Pmps

1. 21 8

(aceptions ONE PHAlf B VALV($

1. 22 (ACH LINE F AlltD to CLOSE
2. 23 High Head $ll Flow
3. 21 (GPM) 230 l

Aux Conponent Cooling Ptsrs

1. 21 0
2. 22 (GrM) 230
3. 22
4. 23 (CPM) 230 Aux Feed Vater Ptops
5. 21 0
6. 24 (GrM) 230
7. 22 0

tow Head $15 Flow

1. 21 (GPM)^

630

1. 23
2. 22 (GPM) 680 Contairm nt $ pray Fteps
3. 21 0/$
4. 23 (GPM) 630
5. 22
6. 24 (GrM) 680 Recirculation Ptros
7. 21 Acew ulator tevet
8. 21 (%)

0

1. 22
2. 22 (%)

O Hydrogen accontiner

1. 21
2. 23 (%)

0

1. 22 5
2. 24 (%)

0 i Operating legend 0 = 1 0/$ = Out of Service used to denote defective egalpment Standby Change on statue from previous (og

• =

VI

• 20

~ ~ - - I i jdtuR.tQ,NO 1992 [ phi status toc M AutitR 11ML _ M MEftR 11ME 12:00 12:02 Of fsite Power Avallet>te 138tV 0/5 service Water Puts

1. 21 0

13.6tv 0/$ (circle tssential Ndr)

1. 22 0

6900 Volt BUS Wo. 1

1. 23 DUS NO. 2
2. 24 4

j SUS kO. 3

1. 25 0*

BUS Wo. 4

1. 26 BUS Wo. 5 Circ Vater Pu ts
2. 21 BUS NO. 6
3. 22 480 Volt BUS 5A 0
4. 23 s

BUS 2A 0

1. 24

] Bus 3A 0

1. 25 s

BUS 6A 0/$

1. 26 Emergency D/Cs
2. 21 0

Condensate twps

1. 21
2. 22 0
3. 22 5
4. 23 0/$
5. 23 Ces Turbines CT 1 Ccst. Cool Heat fach
6. 21 0

i GT 2

1. 22 0

G1 3 RHR Heat tachanger

1. 21 0*

5:$ hrps

1. 21 0/$
2. 22
3. 22 Ian Cooter Units
4. 21 0
5. 23
6. 22 0

RHR Puts

1. 21 b
2. 23 0
3. 22 0/S
4. 24 0

Charging Pwps

1. 21 0/$
2. 25
3. 22
4. 23 5

Ra Coolant Puts

1. 21 VC 1501. Phase A Complete (Y/N)

Y

1. 22 VC 15ol, Phase B CorTlete (Y/N)

N

1. 3 VC Isol. Vent CcwTlete (Y/N)

Y '424 Component Cooling PuTo

1. 21 5

Exceptions ONE PHASE B VALVES is22 o' E ACH LINC FAlltD 10 Clost

1. 23 s

High Head $1s Ftow

1. 21 (GPM) 0*

~ Aun Conponent Cooling twps

1. 21 0
2. 22 (GPM) 0*
3. 22
4. 23 (CPM) 0*

Aun Feed Vater tw ps

1. 21 0
2. 24 (CrM) 0*

M2 0 Low Head $l$ Flow

1. 21 (GrM) 420*

s23

1. 22 (GPM) 460*

Contairmnt sprey twps

1. 21 0/5
2. 23 (CPM) 430*
3. 22
4. 24 (COM) 460*

Recirculation Purps

1. 21 0*

Accmutator levet

1. 21 (%)

0-

1. 22 5
2. 22 (1)

O Hydrogen Reccabiner

1. 21 5
2. 23 (%)

0

1. 22 5
2. 24 (1)

O tegend Operating e s O/S = Out of Service used to denote defective equipnent $ e Standby Change on status from previous log VI - 21

l.QWAtto WD. 1992 &l ANT $1 ATUS LOG l'APAt[1it Ilkf. f' AR Apl 1[ R 11Mt__ ) 12:15 12:15 i l Of f site Power Available 11BKV 0/5 service Water Pays

1. 21 0

13.8KV O/S (Circle tssential Ndr)

1. 22 0

690' Volt Bu$ k0. 1

1. 23 BUS Wo. 2
2. 24 BU$ No. 3
3. 2$

0 Bul WO. 4

1. 26 BUS Wo. 5 Clre water Ptsrs
2. 21 BU$ NO. 6
3. 22 480 Volt DU$

SA 0

1. 23 i

1 $U$ 2A 0

1. 24 BUS 34 0
2. 25 BUS 6A O/S
3. 26 imergency D/Gs
4. 21 0

Condensate l'uts

1. 21
2. 22 0
3. 22
4. 23 0/$
5. 23 Ces ivrbines CT 1 Ccep. Cool Heat tach
6. 21 0

C1 2

1. 22 0

01 3 WHR Neat tachanger

1. 21 0'

$15 Ptsrs

1. 21 0/$
2. 22
3. 22 fan Cooter Unitt
4. 21 0
5. 23
6. 22 0

RHR Ptros

1. 21
2. 23 0
3. 22 0/$
4. 24 0

Charging Ptron

1. 21 0/$
2. 25
3. 22
4. 23 Rn Coolant Ptsms
5. 21 vc isot, these A Conplete (V/N)

V

1. 22 VC isol. these B Conflete (Y/N)

N

1. 23 VC isot. Vent Corptete (Y/W)

Y

1. 24 Cmgment Cooling PtsTs
2. 21 Esceptions OW PFA$E 8 VALVi$
3. 22 0

(ACH tlht FAILID 10 CLO$t

1. 23 High Head $lt flow
2. 21 (GPM) 0 Aun Ccamonent Coc? Ing Ptsrs
3. 21 0
4. 22 (GPM) 0
5. 22 5
6. 23 (GPM) 0 Aun f eed Water Ptsps
7. 21 0
8. 24 g P*

• 0

1. 22 0

tow Head $l$ 7 tow

1. 21 (GPhs 420
2. 23
3. 22 (GPM) 460 Conteirvwnt Spray Puts
4. 21 0/S
5. 23 (CPM) 430
6. 22
7. 24 (CPM) 460 Recirculation Purs
8. 21 0

Accum;tator tevet

1. 21 (%)

0

1. 22
2. 22 (%)

0 Hydrogen Reconbiner

1. 21
2. 23 (1) 0
3. 22
4. 24 (%)

0 Oretating tegend 0 s O/S e Out of service used to denote defective equipment $tandby $ e s. Change on status f rom previous log VI 22

lilER.12 % 1992 PtANI $1A1VS LOG FAPAufIER 11MI F A8i Aill R 11Mt 12:30 12i}g Offsite Power Aveltable 13Bsv 0/5 Service Water turs

1. 21 0

13.Btv 0/8 (Circle tssentist Hor)

1. 22 0

6900 Volt DUS NO. 1

1. 23 BU$ NO. 2
2. 24 DuS No. 3
3. 25 0

DV$ Wo. 4

1. 26 BU$ NO. 5 Circ Water ruts
2. 21 DUt WO. 6
3. 22 480 Volt DU$

$4 0

1. 23 BUS 2A 0
2. 24 BUS 3A 0
3. 25

$US 6A 0/5

1. 26 S

tmergency D/Cs

1. 21 0

Condensate tuts

1. 21
2. 22 0
3. 22
4. 23 0/3
5. 23 Gas Turbines G1 1 Ccco. Cool Heat tach
6. 21 0

GT 2

1. 22 0

G1 3 BHR Heat tachanger

1. 21 0

$15 hre

1. 21 0/5
2. 22
3. 22 inn Cooler Uritts
4. 21 0
5. 23
6. 22 0

RHR hros

1. 21 S
2. 23 0
3. 22 0/S
4. 24 0

Charging Puts

1. 21 0/5
2. 2%
3. 22
4. 23 s

Ru Coolant hsTs

1. 21 S

VC lsol. Phase A Conplete (Y/N) Y

1. 22 S

VC 150l Phase B Cceptete (Y/N) W

1. 23 VC 1501. Vent Complete (Y/N)

Y

1. 24 Cteponent Cooling Puts
2. 21 Faceptions ONE PHA$t B VAlvil
3. 22 0

(ACH Llht FAllt010 CLOSE

1. 23 5

High Head sls flow

1. 21 (GPM) 0 Aus Cceponent Cooling have
2. 21 0
3. 22 (GPM) 0
4. 22 S
5. 23 (GPM) 0 Aun f eed Water hsTs
6. 21 0
7. 24 (GtM) 0
8. 22 0

tow Head $15 Itow

1. 21 (GrM) 420
2. 23 s
3. 22 (GrM) 460 Contalment Spray Puts
4. 21 0/$
5. 23 (GtM) 430
6. 22 1
7. 24 (GrM) 460 Recirculation Puts
8. 21 0

Acetsnulator levet

1. 21 (%)

0

1. 22
2. 22 (%)

0 Hydrcgen Recombiner

1. 21
2. 23 (%)

0

1. 22 5
2. 24 (%)

O tegend 0 e Operating 0/5 s out of service used to denote defective equipnent 3 e $ t anciby

• e Change on status f rcen previous 109 v1 - 23

\\

)(113P10 h0.1912 PL4N1 51ATUS LQg [f.tJf[1f R 11MI L8,LLMJlLR 11WL 1I10 121 0 Offstte Power Avaltable 138tv 0/$ service Water Ptros

1. 21 0

13.Bav 0/$ (Circle tssential Ndr)

1. 22 0

6900 Volt put Wo. 1

1. 23 BUS Wo. 2
2. 26 BUS WO. 3
3. 25 0

$U$ No. 4

1. 26 BUS Wo. 5 Cite Water Pure
2. 21

$U$ NO. 6

1. 22 480 Vnit BU$

$A 0

1. 23 BU$

2A 0

1. 24 Bul 3A 0
2. 2$

BUS 6A O/S

1. 26

(#nergency D/cs

1. 21 0

Corrientate Ptros

1. 21
2. 22 0
3. 22
4. 23 0/$
5. 23 ces turbinen C1 1 C(vm. Coot kent Each
6. 21 0

GT 2

1. 22 0

GT 3 RHR Heat tachanger

1. 21 0

$18 Puts

1. 21 0/$
2. 22
3. 22 fen Cooler Units
4. 21 0
5. 23
6. 22 0

RHR Ptsts

1. 21
2. 23 0
3. 22 0/$
4. 24 0

Charging Putos

1. 21 0/$
2. 25
3. 22
4. 23 Rn Coolant Ptrps
5. 21 VC isol. Phase A Conplete (V/W)

T

1. 22 VC lsol. T'hase 8 Cormlete (Y/N) k
2. 23 VC isot. Vent Conplete (Y/h)

Y

1. 24 Cceponent Cooling Purps
2. 21 laceptient Okt PHASE B VALV[$
3. 22 0

EACH tlWE F AlllD 10 CLOSE l

1. 23 Nigh Head $l$ flow
2. 21 (GPM) 0 Ava Conponent Cooling Pulps
3. 21 0
4. 22 (GPM) 0
5. 22 0
6. 23 (GPM) 0 Aux f eed Water Ptros
7. 21 0
8. 24 (GPM) 0
9. 22 0

tow Head $18 flow

1. 21 (GPM) 420
2. 23
3. 22 (GPM) 460 Contairvnent Spray PuTo
4. 21 0/$
5. 23 (GPM) 430
6. 22
7. '4 (GPM) 460 Recirculation Ptsrs
8. 21 0

Accu mlntor level

1. 21 (%)

0

1. 22
2. 22 ($)

0 Hydrogen Recortiner

1. 21
2. 23 (%)

0

1. 22
2. 24 (%)

0 l Legend 0 s Op3 rating 0/$ = 0;t of service used to denote defective equipnent f $ e Standby l Ch ..e on siaius,,,,, p,evious iog l l l VI 24 l l .-...,.,,.v.y.--

1([itJIO NO. 1992 EL81L1LAlL1_199 l' At Apf tt k 11tL F Arut t!R 11ME-13t0Q 13t00 Offsite tower Avell6ble 138tV 0/$ $ct rice Water Punos $21 0 13.BKV O/S (Circle tssentist Hdr)

1. 22 0

6900 Volt DU$ Wo. 1

1. 23

( BUS WO. !

1. 24 DU$ Wo. 3
2. 25 0

f BUS WO. 4

1. 26 i

sus No. 5 Cire Water twos $21 BUS Wo. 6

1. 22 480 Volt DU$

SA 0

1. 23 pul 2A 0
2. 24 BUS 3A 0
3. 25 DU$

6A 0/$ 826 f (nergency D/(,s $21 0 Cordensate l'uts

1. 21 l.

022 0 622 W23 0/$

1. 23 Cas turbites G1 1 Cono. Cool Heat tach
2. 21 0

j GT 2

1. 22

-0 GT 3 RNR liest tachnnger

1. 21 0

i Sit Po'ps

1. 21 0/8
2. 22
3. 22 fan Cooler (Jnlts
4. 21 0

4 623 022 0 f.He ruve

1. 21 8
2. 23 0
3. 22 0/8
4. 24 0

Charging ru ts $21 0/$ 825 i 822

1. 23 Rn Coolant Pu Ts

$21 VC isol. l' hose A Conclete (Y/N) V

1. 22 VC isol, thase 8 Conplete (V/N)

W

1. 23 VC isol. Vent Conplete (Y/N)

Y

1. 24 Copponent Cooling Puys
2. 21 Exceptions ONE PHAlt B VALVI$
3. 22 0*

IACH LINE FAllED 10 Clott

1. 23 High Head $ll flow 821 (GPM) 0 1

Aun Copponent Cooling twos

1. 21 0

Wl2 (GPM) 0 l 822

1. 23 (GrM) 0 Aa f eed Water l'ums

$21 0

• 24 (GrM) 0 W22 0

tow Head $ls flow

1. 21 (GPM) 420
2. 23
3. 22 (GPM) 460 Contelrynent Spray Puts
4. 21

$/0 $23 (GrM) 430 822 W24 (CPM) 460 Recirculation Puts

1. 21 0'

Accwulater Level 621 (%) 0

1. 22
2. 22 (%)

O Hydrogen Recombiner til

1. 23 (%)

0

1. 22
2. 24 (%)

O L egersi 0

• Operating 0/$ = Out of Service used to denote defective equi rent t

$ s S t andtsy Change on status from previous -1

• =

VI 25

1 REAR 10No.199] [1AN) $1A101 L M F At AMtiIR 11*L l' At Aut iIR 11ME 13:15 13:15 Offsite Power Available 13BKV 0/6 Service Water Pats

1. 21 0

13.Bav 0/$ (Circle Essetitiet Hdr)

1. 22 0

6900 volt DUS NO. i

1. 23 SUS NO. 2
2. 24 BU$ No. 3
3. 2$

0 BU$ Wo. 4

1. 26 DU$ No, 5 Cire Water hsts
2. 21 j

BUS WD. 6

1. 22 l

480 Volt DU$ $A 0

1. 23 BU$

2A 0

1. 24 BUS 3A 0
2. 25 BU$

64 0/$

1. 26 Energency D/Cs
2. 21 0

Cordensate Pwps til 5

1. 22 0
2. 22
3. 23 0/$
4. 23 Gas f urt>ines Cl*1 Conp. Cool Heat l ach
5. 21 0

G1'2 6

1. 21 0

G1 3 RHR Heat technnger

1. 21 0

$15 Pote

1. 21 0/$
2. 22
3. 22 9

fan Cooler Unita

1. 21 0
2. 23
3. 22 0

RHR Pwes

1. 21
2. 23 0
3. 22 0/$
4. 24 0

Charging twps

1. 21 0/$
2. 25
3. 22
4. 23 Rs Coolent Pw ps
5. 21 VC isol. Phase A Conplete (T/N)

Y

1. 22 VC isol. l'hnte B Cteplete (Y/N)

W

1. 23 VC isol. Vent Cornplete (Y/N)

Y

1. 24 Cortonent Cooling hsts
2. 21 taceptions ONE phall 9 VALVIS
3. 22 0

EACH LIWT FAlltD 10 CLOSE

1. 23 High Head $15 flow
2. 21 (GPM) 0 Aux Correonent CootIng Puts
3. 21 0
4. 22 (GPM) 0
5. 22
6. 23 (Gru) 0 Aun f eed Water Pwps
7. 21 0
8. 24 (GPM) 0
9. 22 0

Low Head $15 Ilow

1. 21 (GrM) 420
2. 23
3. 22 (GPM) 460 Contaltvaent Spray Pwes
4. 21 0/$
5. 23 (CPM) 430
6. 22
7. 24 (GPM) 460 Rectrevletion PtsTs
8. 21 0

Accuwltitor level

1. 11 tt) 0
2. 22
3. 22 (1)

O Hydrogen Recombiner

1. 21
2. 23 (%)

0

1. 22
2. 24 (%)

O. Operating legerd 0 = 0/$ = out of Service used to denote defective equipnent $tandby $ = Change on status frcen previrJs log

• =

VI 26

l l [ttuR10 k0.1992 PL AN1 11 A1US LOji FAttpf1tk firt FA9 WfitR BL 13r30 QL}g Offsite Power Avaltable 13BKV 0/S tervice Water Pwps 0 13.0KV O/S (Circle Essentist Hur)

1. 22 0

6900 Volt DOS No. 1 5

1. 23 S

BUS NO. 2

1. 24 5

BUS NO. 3

1. 25 0

BV5 NO. 4 S

1. 26 Bus WD. 5 Cire votet tues
2. 21 s

BUS NO. 6

1. 22 480 Volt But 5A 0
2. 23 BUS 2A 0
3. 24 BUS 3A 0
4. 25 BUS 6A 0/S
5. 26 S

Energency D/Gs

1. 21 0

CorwJensate Pwps

1. 21
2. 22 0
3. 22 5
4. 23 0/s
5. 23 Cas turbines G1 1 Coms. Cool Heat tach
6. 21 0

GT 2

1. 22 0

Cf 3 RHR Heat tachanger

1. 21 0

$18 tiers

1. 21 0/S
2. 22 S
3. 22 Fan Cooler Units
4. 21 0
5. 23 s
6. 22 0

RHR ruvo

1. 21 5
2. 23 0
3. 22 0/5
4. 24 0

Charging two

1. 21 0/$
2. 25
3. 22
4. 23 Rm Coolant Pwps
5. 21 S

VC 150l. Fhate A Corplete (Y/N) Y

1. 22 VC isol. Phase B Conplete (Y/N)

N

1. 23 VC isot. Vent Conplete (Y/N)

Y

1. 24 Conponent Cooling Pwes
2. 21 5

taceptions ONE PHAtt 8 VALVES

1. 22 0

E ACH LINI F AlltD 10 CLOSE

1. 23 HlJh Head fl$ flow
2. 21 (CPM) 0 Aun Conponent Cooling Pires
3. 21 0
4. 22 (CPM) 0
5. 22
6. 23 (GPM) o Aun feed Water Pa ps
7. 21 0
8. 24 (GrM) 0
9. 22 0

Low Head $15 TLow

1. 21 (GPM) 420
2. 23 5
3. 22 (CtH) 460 Contaltwnt spray Puts
4. 21 0/t
5. 23 (GPM) 430
6. 22
7. 24 (GrM) 460

• Recirculation Peps

1. 21 0

Acetamletor Level

1. 21 (%)

0

1. 22
2. 22 (1) 0 Hydrogen Recombiner
3. 21 S
4. 23 (%)

0

1. 22
2. 24 (%)

0-Legerd 0 s Operating O/S s out of Service used to denote defective eqairant $ e $tandby

• =

Change on status f rcun pievious Log vt 22

U 1R!)a10 NO,1992 [ LAW 1 ST ATU$ 1QQ FAD AMtif t f l ML, [ARAutifR _11Mt. 13M th4j Offsite Powee Available 138tV 0* Service Water Puts

1. 21 0

13.8tV (Circle tssential Ndr)

1. 22 s'

6900 Volt DOS Wo. 1 o'

1. 23 BUS NO. 2 0*
2. 24 5

BUS WO. 3 0*

1. 25 0

BUS WO. 4 0*

1. 26 0*

BU$ NO. 5 0* Clre Water Purs fit t BUS Wo. 6 0*

1. 22 5

480 volt But SA 0

1. 23 s

SU$ 2A 0

1. 24 BUS 3A 0
2. 25 BUS 6A 0*
3. 26 triergency D/Gs
4. 21 Cordensate Pues
5. 21
6. 22
7. 22 5
8. 23 s'
9. 23 Gas turbines GT 1 Corp. Cool Heat tach
10. 21 0

G1 2

1. 22 0

G1 3 RHR Heat tachanger

1. 21 0

sls Puts

1. 21 0/s
2. 22 0
3. 22 5

Fan Cooler Units

1. 21 0
2. 23 5
3. 22 0

thR fwen

1. 21 s
2. 23 0
3. 22
4. 24 0

Charging Pu ms

1. 21 0/8
2. 25 0*
3. 22 s
4. 23 Rn Coolant Outs
5. 21 5

VC lsol. Phase A Conplete (V/N) V

1. 22 VC isol. Phase B Cwptete (f/N)

V

1. 23 VC isol. Vent Conplete (Y/N)

T

1. 24 Cwicnent Cocling runps
2. 21 0

Exceptions kONE

1. 22 0
2. 23 High Head SIS tion
3. 21 (gem) 0 Aux twponent Cooling Purs
4. 21 0
5. 22 (GPM) 0
6. 22 0*
7. 23 (GIM) 0 Aux f eed Water Puts
8. 21 L'
9. 24 (GrM) 0 a
10. 22 Low Head SIS flow
11. 21 (GrM) 900*
12. 23
13. 22 (GrM) 930' Contaltvwnt spray Pums
14. 21 0/$
15. 23 (GrM) 925*
16. 22 S
17. 24 (GPM) 960*

+ Recirculation Puts

1. 21 0

Accuwletor Level

1. 21 (1)

'O

1. 22 0*
2. 22 (1)

O Hydrogen Recwbtner

1. 21 5
2. 23 (%)

0

1. 22
2. 24 (1)

O L egerd oe Operating O/S e out of service used to denote defsabe equiptent S e Standby Change on status fica previous log VI

• 28

SCENARIO NO. 1992 RADIOLOGICAL / METEROLOGICAL LOG PARAMETER TIME 08:00 08:15 08: 30 08:45 09:00 09:15 09:30 n R-5987 MCC 98' mR/hr 1 1 1 1 1 1 1 R-1 CCR mR/hr 0.1 0.1 0.1 0.1 0.1 0.1 0.1 j: R-2 VC 80' mR/hr 1 1 1 1 1 1 1 -R-4 Chrg. Pump mR/hr 1 1 1 1 1 1 1 R-5 F.S.B. mR/hr 0.2 0.2 0.2 0.2 0.2 0.2 0.2 R-6 Sample Rm. mR/hr 2 2 2 2 2 2 2 R-7 VC Seal Table mR/hr 5 5 5 5 5 5 5 R-8 Drum Sta. mR/hr 0.5 0.5 0.5 0.5 0.5 0.5 0.5 R-41 VC Part uCi/cc 4.0E-12 4.OE-11 4.0E-10 4.0E-09 5.0E-08 5.OE-08 5.0E-08 R-42 VC Gas uCi/cc 5.OE-05 8.0E-05 2.0E-04 3.0E-03 1.0E-02 1.0E-02 1.0E-02 R-43 Vent Part uCi/CC 4.0E-12 4.0E-12 4.0E-12 4.0E-12 4.0E-12 4.0E-12 4.0E-12 R-44 Vent Gas uCi/cc 1.0E-08 1.0E-08 1.0E-08 1.0E-08 1.0E-08 1.0E-08 1.0E-08 R-45 Air Ejector uCi/cc 1.0E-07 1.0E-07 1.0E-07 1.0E-07 1.0E-07 1.0E-07 1.0E-07 R-66 F.C. Water uCi/cc 2.0E-07 2.0E-07 2.OE-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 R-47 Comp. Cool uCi/cc 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 i R-48 Liquid Waste uCi/cc 2.OE-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.OE-07 2.0E-07 -R-49 S/G B.D.-uCi/cc 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 R-53 F.C. Water uCi/cc 2.0E-07 2.0E-07 2.0E-07 2.0E-07' 2.0E-07 2.0E-07 2.0E-07 R-25 VC Hi-Rge R/hr <1 <1 <1 <1 <1 <1 <1 R-26 VC Hi-Rge R/hr <1 <1 <1 <1 <1 <1 <1 R-27 Vent Monitor uCi/cc 0 0 0 0 0 0 0 F 7 Vent Flow Rate CFM 4.5E+04 4.5E+04 4.5E+04 4.5E+04 4.5E+04 4.5E+04 4.5E+04 1,.7 Vcat Dis Rate uCi/sec 0 0 0 0 0 0 0 R-28 Main Stm Rad Mon CPM 10 10 10 10 10 10 10 R-29 Main Stm Rad Mon CPM 10 10 10 10 10 10 10 R-30 Main Stm Rad Mon CPM 10 10 10 10 10 10 10 R-31 Main Stm Rad Mon CPM 10 10 10 10 10 10 10 Vent Flow Rate CFM Main Steam Exh Lbs/Hr Air Ejector CFM (measured value) + i METEOROLOGICAL Wind Speed (meters /sec) 6.3 6.3 6.3 6.3 6.3 6.3 6.3 Wind Direction (degreees) 060 060 060 060 060 060 060 Pasquill Stability Catagory C C C C C C ~ 1 VII - 1

SCENARIO NO. 1992 RADYOLOGICAL/ METEROLOGICAL LOG PARAMETER TIME 09:43 10:00 10:15 10:30 10:45 11:00 11:15 R-5987 MCC 98' mR/hr 'l 1 1 1 1 2 3 .R-1 CCR mR/hr 0.1 0.1 0.1 0.1 0.1 0.1 0.1 R-2 VC'80' mR/hr 1 1 2000 OFFSCALE OFFSCALE OFFSCALE OFFSCALE R-4 Chrg. Pump mR/hr 'l 1 1 4 10 20 25 R-5 F.S.B. mR/hr O.2 0.2 1 2 5 8 8 'R-6 Sample Rm. mR/hr 2 2 2 2 2 2 2 R-7 VC Seal Table'mR/hr 5 5 1500 OFFSCALE OFFSCALE OFFSCALE OFFSCALE R-8 Drum Sta. mR/hr 0.5 0.5 0.5 0.5 0.5 0.5 0.5 R-41 VC Part uCi/cc 5.0E-04 5.0E-04 0.0E-04 0.0E-Q2 0.0E-02 0.0E-02 0.0E-02 R-42 VC Gas uCi/cc 1.0E-04 1.0E-04 0.0E-04 0.0E-02 0.0E-02 0.0E-02 0.0E-02 R-43 Vent Part uCi/CC 4.0E-12 4.0E-12 4.0E-12 4.0E-12 4.0E-12 4.0E-12 4.0E-12 R-44 Vent Gas uCi/cc 1.0E-08 1.0E-08 1.0E-08 1.0E-08 1.0E-08 1.OE-08 1.0E-08 R-45 Air Ejector uCi/cc 1.0E-07 1.0E-07 1.0E-07 1.0E-07 1.0E-07 1.0E-07 1.0E-07 R-46 F.C. Water uCi/cc 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 R-47 Comp. Cool uCi/cc 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.OE-07 2.0E-07 R-48 Liquid Waste uCi/cc 2.OE-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 R-49 S/G B.D. uCi/cc 2.OE-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.OE-07 R-53 F.C. Water uCi/cc 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 R-25 VC Hi-Rge R/hr <1 <1 <1 2.0x1012 3.3x102 4.0x103 6.5x103 R-26 VC Hi-Rge R/hr <1 <1 <1 2.2x1012 3.6x102 4.4x103 7.2x103 R-27 Vent Monitor uCi/cc 0 0 0 0 0 0 0 R-27 Vent Flow Rate CFM 4.5E+04 4.5E+04 4.5E+04 4.5E+04 4.5E+04 4.5E+04 4.5E+04 R-27 Vent Dis Rate uCi/sec 0 0 0 0 0 0 0 R-28 Main Stm Rad Mon CPM 10 10 10 10 10 10 10 R-29 Main Stm Rad' Mon CPM 10 10 10 10 10 10 10 R-30 Main Stm Rad Mon CPM 10 10 10 10 10 10 10 R-31 Main Stm Rad Mon CPM 10 10 10 10 10 10 10 Vent Flow Rate CFM Main Steam Exh Lbs/Hr Air Ejector CFM (measured value) METEOROLOGICAL Wind Speed (meters /sec) 6.3 6.3 6.3 6.3 6.3 6.3 6.3 Wind Direction (degreees) 060 060 060 060 060 060 060 Pasquill l Stability Catacorv C C C C C C C ^ VII - 2

SCENARIO NOo 1992 RADIOLOGTCAL/ METEROLOGICAL LOG PARAMETER TIME 11:30 11:45 12:00 12:15 12:30 12:45 13:00 R-5987 MCC 98' mR/hr 4 8 8 8 5 2 1 R-1 CCR mR/hr 0.1 0.1 1 0.1 0.1 0.1 Oil R-2~VC 80' mR/hr OFFSCALE OFFSCALE OFFSCALE OFFSCALE OFFSCALE OFFSCALE OFFSCALE R-4 Chrg. Pump mR/hr 30 40 50 50 50 50 50 R-5 F.S. B. mR/hr 8 10 15 15 15 15 15 R-6 Sample Rm. mR/hr 50 150 200 250 300 300 300 R-7 VC Seal Table mR/hr OFFSCALE OFFSCALE OFFSCALE OFFSCALE OFFSCALE OFFSCALE OFFSCALE R-8 Drum Sta. mR/hr 0.5 0.5 0.5 0.5 0.5 0.5 0.5 R-41 VC Part uCi/cc. 0.0E-02 0.0E-02 OFFSCALE OFFSCALE OFFSCALE OFFSCALE OFFSCALE R-42 VC Gas uCi/cc 0.0E-02 0.0E-02 OFFSCALE OFFSCALE OFFSCALE OFFSCALE OFFSCALE R-43 Vent Part uCi/CC 4.0E-12 4.0E-12 4.0E-12 4.0E-12 4.0E-12 4.0E-12 4.0E-12 R-44 Vent Gas uCi/cc 1.0E-08 1.0E-08 1.0E-08 1.0E-08 1.0E-08 1.9E-07 0.0E-00 R-45 Air Ejector uCi/cc 1.0E-07 1.0E-07 1.0E-07 1.0E-07 1.0E-07 1.0E-07 1.0E-07 R-46 F.C. Water uCi/cc 2.OE-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 R-47 Comp. Cool uCi/cc 2.0E-07 2.0E-07 2.OE-07 2.0E-07 2.0E-07 2.OE-07 2.0E-07 R-48 Liquid Waste.uCi/cc 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.OE-07 R-49 S/G B.D. CCi/cc 2.0E-07 2.0E-07 2.OE-07 2.0E-07 2.0E-07 2.0E-07 2.OE-07 R-53 F.C. Water uCi/cc 2.0E-07 2.0E-07 2.0E-07 2.OE-07 2.OE-07 2.0E-07 2.0E-07 R-25 VC Hi-Rge R/hr 1.8x104 5.8x104 7.1x104 9.6x104 9.6x104 9.6x104 9.6x104 R-26 VC Hi-Rge R/hr 2.1x104 6.6x104 7.6x104 1.1x105 1.1x105 1.1x105 1,1xio5 R-27 Vent Monitor uCi/cc 0 0 0 0 0 0 0 R-27 Vent Flow Rate CFM 4.5E+04 4.5E+04 4.5E+04 4.5E+04 4.5E+04 4.5E+04 4.5E+04 R-27 Vent Dis Rate uCi/sec 0 0 0 0 0 0 0 l R-28 Main Stm Rad Mon CPM 10 10 10 10 10 10 10 R-29 Main Stm Rad Mon CPM 10 10 10 10 10 10 10 R-30 Main Stm Rad Mon CPM 10 10 10 10 10 10 10 R-31 Main Stm Rad Mon CPM 10 10 10 10 10 10 10 Vent Flow Rate CFM Main Steam Exh Lbs/Er Air Ejector CFM (measured value) I METEOROLOGICAL Wind Speed (meters /sec) 6.3 6.3 6 6.3 6.3 6.3 6.3 Wind Direction (degreces) 060 060 060 060 060 060 060 Pasquill Stability Catacorv C _C C C C C C VII - 3 .a.....-.

4 4 SCENARIO NO. 1992 RADIOLOGICAL / METEROLOGICAL LOG PARAMETER TIME 13:15 13:30 13:45** R-5987 MCC 98' mR/hr 1 1 1 L R-1 CCR mR/hr 0.1 0.1 0.1 R-2 VC 80' mil 'hr OFFSCALE OFFSCALE OFFSCALE R-4 Chrg. Pump mR/hr 50 50 50 R-5 F.S.B. mR/hr 15 15 15 R-6 Sample Rm. mR/hr 300 300 300 R-7 VC Seal Table mR/hr OFFSCALE OFFSCALE OFFSCALE R-8 Drum Sta..mR/hr 0.5 0.5 0.5 R-41 VC Part uCi/cc OFFSCALE OFFSCALE 3.2E+04 i R-42 VC Gas uCi/cc OFFSCALE OFFSCALE 7.8E+04 R-43 Vent Part uCi/CC OFFSCALS OFFSCALE 2.0E+03 R-44_ Vent Gas uCi/cc 0.0E+00 0.0E+00 2.5E*03 R-45 Air Ejector uCi/cc 1.0E-06 1.0E-06 1.0E-07 R-46 F.C. Water uCi/cc 2.0E-07 ,2.0E-07 2.0E-07 R-47 Comp. Cool uCi/cc 2.0E-07 2.0E-07 2.0E-07 R-48 Liquid Waste uCi/cc 2.0E-07 2.0E-07 2.0E-07 R-49 S/G B.D.-uCi/cc 2.0E-07 2.0E-07 2.0E-07 [ R-53 F.C. Water uCi/cc 2.0E-07 2.0E-07 2.0E-07 R-25 VC Hi-Rge R/hr 9.6x101 9.6x101 5.2x102 R-26 VC Hi-Rge R/hr 1.1x105 1.1x105 5.7x102 R-27 Vent Monitor uCi/cc 0 0 0 R-27 Vent Flow Rate CFM 4.5E+04 4.5E+04 4.5E+04 R-27 Vent Dis Rate uCi/sec 0 0 0 I R-28 Main Stm Rad Mon CPM 10 l'0 10 R-29 Main Stm Rad Mon CPM 10 10 10 R-30 Main Stm Rad Mon CPM 10 10 10 R-31 Main Stm Rad Mon CPM 10 10 10 Vent Flow Rate CFM Main Steam Exh Lbs/Hr Air Ejector CFM' (neasured value) METEOROLOGICAL Wind Speed (meters /sec) 6.3 6.3 4.8 Wind Direction (degreees) 060 060 210 Pasquill Stability Catacorv C C D

• • Two days later VII - 4 k

BCE1

• NO. 1992 ME_TEOROLOGICAL FORECADT General weather conditions during the drill call for clear skies with an average temperature of 620F.

No precipitation is expected. The wind direction will be from 060 degroos at 6.3 m/ soc and romain that way throughout the drill until the two-day time warp. C VII - 5

CONSOLIDATED EDISON COMPANY OF NEW YORK INDIAN POINT UNIT NO. 2 DRILL SCENARIO NO. 1992 VIII RADIOLOGICAL INFORMATION TAB A TABLE 1: Primary Coolant Activity Boron Concentrations TAB B TABLE 2: Containment Activity TAB C TABLE 3: Release Path Activity TAB D TABLE 4: Plant / Sample Radiation Levels TAB E TABLE 5: Facility Radiation Levels TAB F TABLE 6: Reuter-Stokes Readings TAB G TABLE 7: Plume Monitoring Data & 7tqures TAB H TABLE 8: Offsite TLD Readings TAB I TABLE 9: Post Accident Enviromental I Samples TA2 J TABLE 10: Post Accident Offsite Contami-tion Levels TAB K TABLE 11: Medical Emergency Data 1 1 d VIII

e N w-SCENARIO NO. 1992 TABLE 1 PRIMARY COOLANT ACTIVITY 08:00 hrs. 09:00 hrs. 10j00 hrs. Nuclidq UCi/cc UCi/cc uCi/cc I-131 3.01E+00 3.85E+00 3.85E+00 132 4.29E+00 5.26E+00 '5.26E+00 133 6.16E+00 7.24E+00 7.24E+00-135 5.52E+00 6.07E+01 6.07E+01 Xe-131m 1,93E-02 2.22E-02 2. 2 2 E--0 2 133 6.16E+00 7.24E+00 7.24E+00 133m 8.60E-01 9.46E-01 9.46E-01 135 1.13E+00 1.78E+00 1.78E+00 135m 1.29E-04 1.42E-04 1.42E-04 Kr-85 6.77E-01 7.44E-01 7.44E-01 85m 6.77E-01 7.44E-01 7.44E-01 87 1.22E+00 1.88E+00 1.88E+00 88 1.75E+00 2.46E+00 2.46E+00 Rb-88 1.78E+00 2.50E+00 2.50E+00 4 Te-132 < LLD < LLD < LLD-Cs-134 < LLD < LLD < LLD 137 < LLD < LLD < LLD Ce-144 < LLD < LLD < LLD La-140 < LLD < LLD < LLD Ba-140 < LLD < LLD < LLD La-142 < LLD < LLD < LLD Ba-142 < LLD < LLD < LLD Total 3.56E+01 3.80E+01 3.SOE+01 EBAR 1.21E+00 1.21E+00 1.21E+00 4 f % TECH SPEC 7.00E+01 7.70E+01 7.70E+01 Samole mR/hr 0 1 Meter 0.1 0.4 0.4 Room mR/hr i While 10 15 15 Sampling LLD = Lower Limit of Detection J VIII - A - 1

SCENARIO NO. 1992 TABLE 1 PRIMARY COOLANT ACTIVITY 11:00 hrs 2 12:00 hrs. 13:00 hrs. 13:30 hrs. Nuclide uci/cc uci/cc uci/cc uCi/cc I-131 1.84E+02 7.57E+02 6.91E+04 6.86E+04 132 9.19E+01 3.77E+02 6.28E+04 3. eE+04 133 3.39E+02 1.39E+03 1.35E+05 1.26Ev05 135

2. 3 8E4 02 9.79E+02 1.09E+05 8.R7E+04 Xe-131m 7.92E-01 3.26E+00 2.96E+02 2.95E+02 133 2.49E+02 1.02E+03 9.36E+04 9.29E+04 133m 3.40E+01 1.40E+02 1.30E+04 1.27E+04 135 3.60E+01 1.48E+02 1.56E+04 1.34E+04 135n.

4.74E-03 1.95E-02 3.65E-02 1.77E-00 Kr-85 2.79E+01 1.1SE+02 .1.04E+04 1.04E+04 / 85m 1.62E401 6.67E+01 8.24E+03 6.05E+03 L 87 7.53E+00 3.09E+01 8.34E+03 2.80E+03 88 3.01E+01 1.25E+02 1.86E+04 1.13E+04 Ab-88 2.27E+02 9.33E-02 8.58E-02 8.46E-00 [ Te-132 3.44E+02 1.41E+03 1.30E+05 1.28E+05 f Cs-134 5.84E+01 2.40E+02 2.17E+04 2.17E+04 137 2.79E+01 1.15E+02 1.04E+04 1.04E+04 Ce-144 2.79E+02 1.15E+03 1.04E+05 1.04E+05 ( La-140 4.29E+02 1.76E+03 1.66E+05 1.60E+05 Ba-140 4.30E+02 1.77E+03 1.61E+05 1.60E+05 La-142 7.96E+01 3.27E+02 7.25E+04 2.96E+04 Ba-142 4.06E+02 1.67E+03 1.51E+05 1.51E+05 Total 3.31E+03 1.36E+04 1.36E+06 1.23EiO6 EBAR 1.21E+00 1.21E+00 1.22Et00 1.08E+00 % TECH SPEC 6.40E+03 2.77E+04 2.78E+06 2.21Et06 / Sample mR/hr 9 1 Meter 10 30 1,200 1,100 Roon mR/br While 100 300 1,500 1,500 Sampling LLD = Lower Limit of Detection i VIII - A - 2

SCENARIO NO. 1992 TABLE 2 CONTAINMENT COOLING ACTIVITY 08:00 hrs. 09:00 hrs. 10:00 hrs. Nuclide uCi/cc uti/cc uCi/cc Xe-131m 2.89E-06 6.00E-07 1.19E-05 133 1.89E-05 1.89E-05 3.91E-03 133m 2.65E-06 2.65E-06 5.48E-04 135 3.49E-06 3.49E-06 7.21E-04 135m 3.97E-06 3.97E-06 8.21E-04 Kr-85 < LLD < LLD < LLD 85m 2.08E-06 2.08E-06 4.30E-04 87 3.78E-06 3.78E-06 7.81E-04 ^ 88 5.39E-06 5.39E-06 1.11E-03 Rb-88 5.49E-06 5.49E-06 1.13E-03 TOTAL 4.79E-05 4.64E-05 0.47E-03 EBAR 1.iOE+00 1.10E+00 1.10E+00 Sample raR/hr_f Contact < 1 <1 <1 1 Ft. < 1 <1 <1 %H2 0 0 0 %O2 21 21 21 NOTE lt LLD = Lower Limit of Detection NOTE 2: It is expected that the Chemist will go to the location where the containment Sample is to be drawn. -Sampling and counting may be simulated. Twenty minutes after reaching the sample location the Chemist will report the activity given above. VIII -B-1

SCENARIO NO. 1992 TABLE 2 CONYATNMENT COOLING ACTIVITY 11:00 hrs. 12:30 hrs, 13:30 hrs. i i J Nuclide uCi/cc uCi/cc uCi/cc Xe-131m 5.93E-02 5.42E-01 5.31E-00 133 1.88E+01 9.34E+02 1.67E+03 133m 2.60E+00 1.28E+02 2.28E+02 135 3.12E+00 1.45E+02 2.41E+02 135m 7.29E-02 4.18E-01 3.18E+00 Kr-85 2.08E+00 1.04E+02 1.87E+02 85m 1.52E+00 7.06E+01 1.09E+02 87 1.67E+00 4.83E+01 5.05E+01 88 3.72E+00 1.45E+02 2.04E+02 Rb-88 1.72E-01 1.65E+00 1.52E+01 TOTAL 3.39E+01 1.57E+03 2.70E+03 EBAR 1.00E+00 1.00E+00 1.00E+00 Suple mR/hr @ Contact 8 400 560 1 Ft. 1 40 56 %H2 0.1 0.2 0.2 %O2 21 21 21 4 NOTE 1: LLD = Lower Limit of Detection VIII - B - 2

SCENARIO NO. 1992 TABLE 3 PLANT VENT ACTIVITY NOT REQUIRED FOR THIS SCENARIO 1 VIII - C

SCENARIO NO. 1992 PLANT / SAMPLE RADIATION LEVELS TABLE OF CONTENTS. SUBJECT PAGE PAB 15' RER AREA DATA VIII-D-2 LAYOUT 3 DIESEL GENERATOR BUILDING DATA 4 LAYOUT 5 480V SW GEAR ROOM DATA 6 LAYOUT 7 MEZZ, PIPE PEN, SG BD RM, SERV W.' lR CHASE DATA 8 MEZZANINE LAYOUT 9 PIPE PENETRATION LAYOUT. 10 STEAM GENERATOR BLOWDOWN ROOM LAYOUT 11 SERVICE WATER CHASE LAYOUT 12 PAB 80' DATA 13 LAYOUT 14 PAB 80' NEW CHEM SAMPLE CELL DATA 15 LAYOUT 16 PAB 98' DATA 17 LAYOUT 18 FAN BLDG DATA 19 LAYOUT 20 ASSEMBLY AREA FIELD DATA 21 SECURITY FENCE DATA 22 LAYOUT 23 't VIII-D-1

'V l SCENARIO NO. 1992 l 1 LOCATION TIME RADIATION LEVELS RHR AREA - Point 1 < 10:30 1 raR/hr 15' EL 10:30 to 12:15 10 mR/hr 12:36 to 13:30 15 mR/hr > 13:45 DECREASING Point 2 < 10:30 3 mR/hr 10:30 to 12:15 10 mR/hr 12:16 to 13:30 15 mR/hr > 13:45 DECREASING Point 3 < 10:30 3 mR/hr 10:30 to 12:15 15 mR/hr 12:16 to 13:30 20 mR/hr > 13:45 DECREASING Point 4 < 10:30 5 rR/hr 10:30 to 10:30 15 mR/hr 12:16 to 13:30 25 rR/hr > 13:45 DECREASING Point 5 < 10:30 5 mR/hr 10:30 to 12:15 15 mR/hr 12:16 to 13:30 20 mR/hr > 13:45 DECREASING Point 6 < 10:30 5 rR/hr 10:30 to 12:15 15 mR/hr 12:16 to 13:30 55 mR/hr > 13:45 DECREASING NOTE 1: All open window (OW) mR/hr readings will be the same as the closed window (CW) mR/hr readings listed above. NOTE 2: All loose contamination and airborne concentrations are actual levels detected. NOTE 3: Data to be supplied to Rad Prot Tech at the locations after the survey is performed. VIII-D-2

SCENARIO No. 1992 i LAYOUT 15' PAB RHR 4 4 $Upp fM/MP RF 5tOVAL Mf A7 REMOV AL PUMP 21 ROOM Su ws > f4 H P 2(. $ UMP PVwP 1AFM HOOM Pipit *C V ALVE5 ARE A H.P..' A - ROL L.UP OOGR O. $UwP 1 APK

1. 2r i

RE$4 DUAL Hf AI } 7 ROLL.vP NE* 1R APN CAuC R g DOOR I YARD O. CO} 3 ROLL UP* OUOn ll I \\ VIII.-D-3 4 iy--,

SCENARIO NO. 1992 LOCATION TIME RADIATION LEVELS DIESEL - Point 1 < 10:30 AS READ mR/hr GENERATOR 10:30 to 13:30 AS READ mR/hr BUII DING > 13:49 AS READ mR/br_ Point 2 < 10:30 AS READ mR/hr 10:30 to 13:30 AS READ mR/hr > 13:45 AS READ mR/hr 1 NOTE 1: All open window (OW) mR/hr readings will be the same as the closed window (CW) mR/hr readings listed above. NOTE 2: All loose contamination and cirborne concentrations are actual levels detected. NOTE 3: Data to be supplied to Rad Prot Tech at the locations after the survey is performed. VIII-D-4

SCENARIO'NO. 1992 DIESEL GENERATOR BUILDING LAYOUT TO P AB E xTEntOft b Q. OCO2 COtJCRE TE 0 cog g FLOOA CO2 ZOf C 10 ELE V. 7 2' W BELOw OOMi 10 PL Air CAu TOPE 32 A CEtEAAf005 ELEC. A q f ut e EL 1 I ---7-- - gg,5,- - i i I. g i DJ g i != i t v 1 dc i e i a a d "C% i e -i WD o - o O Om I i l 3 j - o j CA ATING - V I J AT APPROX. 9 i C-1 5 1 - ELEV. II' [LU 21 i i i i 5HtEtn i I j CR ATING i.- CA ATING DIESEL Et<.tNES OVER OVER PIT wagt I ,1 Pli l CR ATiteC SPRimLER CONTROL VALVES I T OvtR .j i %{ FP610 - j ElI. rp6tl j FP4CS i j .N P ~~ ~ COEll Pl! 04y DAY DAY FP407 2 -- D r 4 TArx T Am . T A' W acO2 N FP726 I J EXTEntOR HYDR Allt. HO5E FLEL-27 BOX T Atx CCHinOL Pl'I F On 0.G. TO H53 RAMP t\\ LOC. 1.9 VIII-D-5

SCENARIO NO. 1992 LOCATION TIME RADIATION LEVELS ALL TIMES AS READ mR/hr 480 VOLT SWITCH GEAR RM NOTE 1: All open window (OW) mR/hr readings will be the same-as the closed window (CW) mR/hr readings listed above. ' NOTE 2: All loose contamination and airborne concentrations are actual levels detected. Data to be'. supplied to Rad Prot Tech at the locations NOTE 3: after the survey is performed. VIII-D-6 4

~. -.. -SCENARIO NO. 1992 1 -I d ^ LAYOUT 4 480 VOLT 2 SWITCH _ GEAR ROOM 'r k TM AtJSTORM(N Y ARD

(g c%,

cp> rens emn tn.m T.,r,onMen =l wvet-n w-SI A'A II Sw11CHCCAR Utill 7 SwtiCHCE AR ROOM 4 itU 9 i

s. _.,

e o CO2 PH9 D IlV*IO f [ hy C [g 6 ZOtt 783 200C 180 surcn*cArtn ' w Artn rActony GUILDIFC ~h I 51 AIR H d=p .I A 4 1 4 1 VIII-D-7 i

3 SCENARIO NO. 1992 TABLE 4 PLANT RADIATION LEVELS LOCATION TIME RADIATIdN LEVELS Point 1 < 10:30 AS READ mR/hr R-11,R-12 MEZZANINE 10:30 to 12:15 5 mR/hr 12:15 to 13:30 > 13:45 DECREASING PIPE PENET Point 1 < 10:30 AS READ mR/hr 10:30 to 12:15 10 mR/hr 12:30 to 13:30 140 > 13:45 DECREASING Point 2 < 10:30 AS READ mR/hr 10:30 to 12:15 10 mR/hr 12:15 to 13:30 150 > 13:45 DECREASING Point 3 10:30 to 12:15 AS READ mR/hr 12:15 to 13:30 15 mR/hr 12:15 to 13:30 100 > 13:45 DECREASING SG BD ROOM Point 1 < 10:30 AS READ mR/hr EL 51' 10:30 to 12:15 5 mR/hr 12:15 to 12:30 15 > 13:45 DECREASING Point 2 < 10:30 AS READ mR/hr EL 35' 10:30 to 12:15 5 mR/hr 12:15 > 13:30 39 > 13:45 DECREAS1t-~ SERVICE - Point 1 < 10:30 AS READ mR/hr WATER 10:30 to 12:15 10 mR/hr CHASE 12:15 > 13:30 50 > 13:45 DECREASING Point 2 < 10:30 AS READ mR/hr 10:30 to 12:15 10 mR/tr 12:15 to 13:30 20 > 13:45 DECREASINC NOTE 1: All open window (OW) mR/hr readings will be the same as the closeo window (CW) mR/hr readings listed above. NOTE 2: All loose contamination and airborne concentrations are-actual levels detected. NOTE 3: Data to be supplied to Rad Prot Tech at the locations after the survey is performed. VIII-D-8

SCENARIO NO. 1992 MEZZANINE LAYOUT T((- 1i111111 PIPE l Pun.TanTg/ n R'9, &' sl l/ g# g & p/gt O +' / f e tmes FCN Q O D U I L D I N G R 4. Ei E L. 78' 0"' .. Pci l;. Pal 2.- M E Z Z 6 N I N E VIII-D-9

BCENARIO NO. 1992 PIPE PENETRATION LAYOUT 4 VC -U- ? .3-i --l --I (

l 6

-O 0 b .T. 2' J 4 \\ L Q

s

'sg' l i l r ^ \\. j i I M i s 3 sic skM ) r [ .l-l I (- } P E N. 51, O,, f ptptNO i l l l I VIII-D-10 i. 4 I

SCENARIO NO. 1992 LAYOUT SERVICE WATER CHASE PAD 35' EL %~/O f.i p 0# , k* ~': O 4 '~} n ~ T / . r-s ) i j 8 '. - N x J. C _> . ' s,..g l.:.,.:j, l , \\.~ ~. c l l' l 'f' i\\l\\', f// '.' % L. \\, !//l' g, lulll,' Y',Mt >:.2-l ~ ~ llll O m + N' h S' ~' H L.h

. CVERHLAc 9 y e 1

l VIII-D-12

SCENARIO NO. 1992 LOCATION TIME RADIATION LEVELS 80' PAB - Point 1 < 10:30 AS READ mR/hr 10:30 to 12:15 5 mR/hr 12:16 to 13:30 7 mR/hr > 13:45 DECREASING mR/hr Point 2 < 10:30 AS READ mR/hr 10:30 to 12:15 5 mR/hr 12:16 to 13:30 7 mR/hr > 13:45 DECREASING mR/hr Point 3 < 10:30 AS READ mR/hr 10:30 to 12:15 5 mR/hr 12:16 to 13:30 7 mR/hr > 13:45 DECREASING mR/hr Point 4 < 10:30 AS READ mR/hr 10:30 to 12:15 8 mR/hr 12:15 to 13:10 10 mR/hr > 13:45 DECREASING mR/hr t NOTE 1: All open window (OW) mR/hr readings will be the same as the closed window (CW) mR/hr readings listed above. NOTE 2: All loose contamination and airborne concentrations are actual levels detected. NOTE 3: Data to be supplied to Rad Prot Tech at the locations after the survey is performed. i VIII-D-13 j

F Af 4 HOUSE A LJ CONT AIt4MEr4T N d M i i i

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2 H

PH o AIE S o wHP S T l '1 PRIMARY At>XILIARY BUILDING CHE*4 cEt.z rsf 2 7 ELEVATION 80' cs C, Port e ry 27 se hs

~ r SCENARIO NO. 1992 LOCATION TIME RADIATION LEVELS" 80' PAB - Point 1 08:00 to 09:14 10 mR/hr NEW C EM 09:15 to 10:14 15 mR/hr SAMPLE CELL 10:15 to 11:14 60 mR/hr 11:15 to 11:59 100 mR/hr 12:00 to 12:59 400 mR/hr 13:00 to 13:59 1200 mR/hr 14:00 to 16:00 1000 mR/hr ~ Point 2 08:00 to 09:14 5 mR/hr-09:15 to 10:14 10 mR/hr 10:15 to 11:14 25 mR/hr' 11:15 to 11:59 90 mR/hr 12:00 to 12:59 300 mR/hr 13:00 to 13:59 300 mR/hr 14:00 to 16:00 1000 mR/hr NOTE 1: All cpen-window (OW) mR/hr readings will be the same as the closed window (CW) mR/hr readings listed above NOTE 2: All loose contamination and airborne concentrations are actual levels detected. NOTE 3: Data to be supplied to Rad Prot Tech at the locations after the survey is-performed. VIII-D-15 _ ~ _

SCENARIO NO. 1992-h pgg - NEW CHEM SANELE f \\ 5 W SAMPLE PAhlEl \\ / \\ \\ a a g 4 i VIII-D-16 m.

--..m-SCENARIO NO. 1992 4 LOCATION TIME RADIATION LEVELS ~ 98' PAD - Point 1 < 10:30 AS READ mR/hr 10:30 to 13:30 10 mR/hr > 13:45 AS READ mR/hr Point 2 < 10:30 AS READ mR/hr 10:30 to 13:30 8 mR/hr > 13:45 AS READ mR/hr Point 3 < 10:30 AS READ mR/hr 10:30 to 13:30 6 mR/hr > 13:45 AS READ mR/hr AS READ mR/hr Point 4 < 10:30 l 10:30 to 13:30 10 mR/hr > 13 : 45 AS READ mR/hr Point 5 < 10:30 AS READ mR/hr l 10:30 to 13:30 5 mR/hr > 13:45 AS READ mR/hr Point 6 < 10:30 AS READ mR/hr 10:30 to 13:30 4 mR/hr > 13:45 AS READ mR/hr f J NOTE 1: All open window (OW) mR/hr readings will be the same as the closed window (CW) mR/hr readings listed above. NOTE 2: All loose contamination and airborne concentrations are actual levels detected. NOTE 3: Data to be supplied to Rad Prot _ Tech at the locations after the survey is performed. VIII-D-17

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u-SCEMARIO NO. 1992 LOCATION TIME RADIATION LEVELS FAN BLDG - Point 1 < 10:30 AS READ mR/hr 10:30 to 12:15 5 mR/hr 12:15 to 13:30 12 mR/hr > 13:45 DECREASING mR/hr Point 2 < 10:30 AS READ mR/hr 10:30 to 12:15 7 mR/hr 12:15 to 13:30 14 mR/hr > 13:45 DECREASING mR/hr Point 3 < 10:30 AS READ mR/hr 10:30 to 12:15 7 mR/hr 12:15:to 13:30 14 mR/hr > 13:45 DECREASING mR/hr Point 4 < 10:30 AS READ mR/hr 10:30 to 12:15 5 mR/hr 12:15 to 13:30 13 mR/hr > 13:45 DECREASING mR/hr Point 5 < 10:30 AS READ mR/hr 10:30 to 12:15 5 mR/hr 12:15 to 13:30 15 mR/hr > 13:45 DECREASING mR/hr 1 i i l NOTE 1: All open window (OW) mR/hr readings will be the same as the closed window (CW) mR/hr readings listed above. NOTE 2: All loose contamination and airborne concentrations are actual levels detected. I l NOTE 3: Data to be supplied to Rad Prot Tech at the locations j after the survey is performed. VIII-D-19

1 SCENARIO NO. 1992 Vali 2 CONT AWMEN1 PtPWC PFt< TR AllON udli 2 CONI AINMENT CHARCOAL FP.1ERS (LU-40A to CONT. P= J$ CE D' JCT E L,E,.V* PE rt. Col 5 g p 0 Ptt

• ION 10 Can AWMENT 4

ZONES 90A & 91 A p CRA TING (ty.42 h k oPEN ELEY.90 j ELEV B7 1 illii#1 UPllllllllllll( ELEV. T (p y CMARCOAL Fit.TER5 ELEV. m & 90 ADJACENT 7ONE ABOVE. NONE BELOW - ZONE l A 1 01 P 204 59A

• TOW $1AttOUS

_F AN N USE IKRE ARE 3 Ord fr< W EL.OF T4 PAB Et.EV.87 pp._ D H.P. 79 & MOSE Onx 9 DN l l l t If] / N (BETwEEN THE M&O 1, BLDC. Am THE P AB) -i 6;g i;j - 'd(LU40 .ELEV.97 & & Ill 111 / TO CoefTAWMENT - (L U-41 R M.L9 W y oOon (LU 41 FAN HOUSE nc uury ELEVATION 8(r, 72', 88', 90' ocsg i ZOtt 59A pA, ELEv.87 VIII-D-20. i

~. l SCENARIO NO. 1992 LOCATION TIME RADIATION LEVELS l b_SSEMBLY AREAS SIM/ VISITOR CENTER < 10:30 AS READ mR/hr i ALL TIMES AS READ mR/hr > 13:45 AS READ mR/hr SECURITY /A" MIN BLDG ALL TIMES AS READ mR/hr ASSEMBLY AREA A-B ALL TIMES AS READ mR/hr 15 FT TURBINE BLDG M.O. BLDG ALL TIMES AS READ mR/hr CONST OFFICE COMPLEX NOTE 1: All loose contamination and airborne concentrations are actual levels detected. NOTE 2: Data to be supplied to Rad Prot Tech at the locations after the survey is performed. VIII-D-21 r y

SCENARIO NO. 1992 LOCATION TIME RADIATION LEVELS SECURITY - Point 1 ALL TIMES AS READ mR/hr Point 2 ALL' TIMES AS READ mR/hr Point 3 ALL TIMES AS READ nR/hr Point 4 ALL TIMES AS READ mR/hr Point 5 ALL TIMES AS READ mR/hr Point 6 ALL TIMES AS READ mR/hr Point 7 ALL TIMES AS READ mR/hr Point 8 ALL TIMES AS READ mR/hr 4 S NOTE 1: All open window (OW) mR/hr readings will be the same as the closed window (CW) mR/hr readings listed above. 4 NOTE 2: All loose contamination and airborne concentrations are actual levels detected. 1 NOTE 3: Data te he supplied to Rad Prot Tech at the locations after the survey-is performed. VIII-D-22 4 r e-

~ w m s. 2 SCENARIO NO. 1992 ( f m r / \\ f ,\\ r PARK EINIR. f'g BLDG. jg stcuRITv rtnct - ,.ss m tv n u usour /- x I +*# f COHHMD' 4 cunRD [ q% House o / %y C / ,7 / ,u 3 tgiu r HDL G. ~ ~ *' y E1; Q o I 4 "i FSJMb n.ine uni 1 - \\s / MT r fx

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~ a / \\G-I IC OM / / _\\ \\ _ N I UNIT /U}/lT 1 \\ AUX UNIT 3 w l' BINE f' pRBIN TURBINE I HTR. BAY / S[R.Bl_ D G. hWAY h xois. cm.D IscR swl \\ \\j[,...i b sc aw. VIII-D-23

DCENARIO NO. 1992 TADLE 5 FACILITY Rh.DIATION LEVELS ~ 1 METER HEIGHT READING 10 ft.J AIR SAMP1.E LOCATION TIME OW CW BKGD IODINE PART i mR/hr mR/hr CPM CPM CPM Emergency All < 1.0 < 1.0 10 10 10 operation Times Facility (EOF) operational All < 1.0 < 1.0 10 10 10 Support Times Center (OSC) Technical All < 1.0 < 1.0 10 10 10 Support Times Center (TSC) Contol Room All < 1.0 < 1.0 10 10 10 (CR) Times NOTE: Data to be supplied to Rad Protection Technician af ter the survey is completed. VIII - E

8 2 9 9 1 7 ON O IRAF E 6 O C I S RANECS S 5 I HT S G R N O I F 1 D A D E E R 4 R F 6 I S r U E E h Q L K / E I B O R R I A T m I TS T V O R N E 3 M W TUE R 2 w 1 s a E M IT m e l ,i i 1 i!::li i i 1 l4 il 54

:i e:;{!

- j;

n SCENARIO NO. 1992 LAEkE 1 PLUXE MONITORING DATA AND FIGURER NOT REQUIRED FOR THIS SCENARIO VIII - G c.

SCENARIO No. 1992 TABLE 9 E0ST ACCIDENT SAMPLEQ d NOT REQUIRED FOR THIS SCENARIC C VIII - I

A I I

SCENARIO NO. 1992 TABLE 8 OFFSITE TLD READIN7,a NOT REQUIRED FOR THIS SCENARIO e VIII - H . ~.

SCENARIO NO. 1992 TABLE 10 POST ACCIDENT OFFSITE CONTAMINATIONJ.EVELS 9 8 !!OT REQUIRED FOR TilIS SCE!!ARIO 1 VIII - J - _., _... ~... -,.._

~ SCENARIO No. 1992 IApLe I1 georCAL EMenaENCY DA B i l NOT REQUIRED FOR THIS SCENARIO VIII - K

w V 1 CONSOLIDATED EDIBLN COMPANY OF NEW YORK INDIAN POINT UNIT NO. 2 EXERCISE DCENARIO NO. 1992 IX. LOGISTICE A. Drill Size There will be a full scale activation of the following facilities. Control Room Technical Support Center Operational Support Center Emergency Operations Facility Corporate Response Center Astoria Emergency Control Center Emergency News Center (con Edison Personnel Only) B. participation Assembly and accountability will be required by all con Edison personnel and contractor personnel at the site. After accountauility has been completed, pcrsonnel not participating as players, controllers or observers will be permitted to return-to their normal work locatior.s. New York Power Authority personnel and contractors are not required to participate. C. Arm Band Use The following arm band color coding will be used during the drill. Green - Controller Red - Observer White - Player D. Access Lists Access lists will only be prepared for the EOF for use by the Security Guard assigned to that post. All other Nuclear Power personnal not participating will be directed by their Department Managers to refrain from entering the TSC and OSC areas. Non drill participants requiring entry to the Control Room will be directed to contact the SWS assigned to the watch. -Security restrictions on entry l through the Main Gate and Command Guard House will be lifted by the Security Controller one hour after the declaration of ALERT. IX-1

SCENARIO NO. 1992 E. Lunch Lunch will be provided to all players, observers and controllers at their respective facilities in order that the drill can continue without interruptions. F. Criticue Emergency Planning will hold a critique at 1000 hours on October 15, 1992 at the Simulator Auditorium. All controllers and observers shall attend. This critique will be followed by one held by the NRC. IX-2 .}}