Consolidated Edison Co of Ny,Indian Point Unit 2,Drill Scenario Number 1998C

ML20236T551
Person / Time
Site:	Indian Point
Issue date:	06/24/1998
From:	CONSOLIDATED EDISON CO. OF NEW YORK, INC.
To:
References
NUDOCS 9807280255
Download: ML20236T551 (200)
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O CONSOLIDATED EDISON COMPANY OF NEW YORK INDIAN POINT UNIT NO. 2 DRILL SCENARIO NO.1998C i

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l CONSOLIDATED EDISON COMPANY OF NEW YORK INDIAN POINT UNIT NO. 2 DRILL SCENARIO NO.1998C TABLE OF CONTENTS EDG1 LOD l

1.

Introduction ll.

Objectives O

lil.

Exercise Scenario IV.

Messages and Controller Field Reports V.

Observer / Controller Instructions VI.

Plant Status Log Vll.

Radiological / Meteorological Log Vill.

Radiological Information IX.

Logistics l

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CONSOLIDATED EDISON COMPANY OF NEW YORK

\\ v INDIAN POINT UNIT NO. 2 DRILL SCENARIO NO.1998C l.

INTRODUCTION The purpose of this exercise is to demonstrate Con Edison's capability to effectively implement the Indian Point Unit No. 2 Site Emergency Plan and Procedures.

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:

Section II Objectives - this section defines the licensee exercise objectives.

Section ill Exercise Scenario - this section describes the Indian Point Unit (N

No. 2 postulated sequence of events occurring which will require the onsite k/

emergency response organizations to respond. For each event described, the anticipated responsive actions of the participants are also detailed. These anticipated actions may be used as a guide in evaluating the exercise. However, it should be noted 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 Messaaes - this section contains copies of the exercise messages and Controller Field Repor'r which will be utilized to control the progress of the exercise scenario.

Section V Observer /ControIIer Instructions - this section provides general instructions to the exercise Observers and Controllers in the conduct of the exercise. Also included are evaluation criteria for evaluating the response of the exercise participants.

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

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<j 1-1

t SCENARIO NO.1998C i

l Section Vil Radiological /Meteoroloalcal Loa - this section contains time-sequenced plant radiological and meteorological data which corresponds to the j

development of the exercise scenario.

J Section Vill Radioloalcal loformation - this section contains time-sequenced l

radiological information in the following categories requred by the scenario:

Primary Coolant Activity Containmetn Activity Release Path Activity Plant Radiation Levels l

Reuter-stokes Readings Plume Monitoring Data & Figures Offsit TLD Readings

=.

Post Accident Samples Post Accident Offsit e Contamination Levels Medical Emergency Data l

Section IX Loaistics - this section contains information and direction for the handling of peripheral items related to the drill, including:

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

i O

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CONSOLIDATED EDISON COMPANY OF NEW YORK INDIAN POINT STATION NO. 2 DRILL SCENARIO NO.1998C l

l-l OBJECTIVES Our objectives are to demonstrate the licensee's:

I 1.

ability to identify emergencies utilizing the EAL tables.

2.

ability to notify offsite authorities within 15 minutes of declaration of each of the emergencies.

3.

ability to activate the emergency organizations as delineated in Section 5 of the Emergency Plan. This includes completing Level 11 staffing within 60 minutes.

4.

ability to activate the EOF, CCR, TSC, OSC, CIG and JNC.

~

5.

ability to communicate with offsite monitoring teams and licensee facilities.

i 6.

ability to transmit data from the TSC to the EOF.

7.

ability to deploy offsite and onsite radiological monitoring teams.

8.

ability to deploy inplant radiological monitoring teams.

9.

ability to receive and assess radiological data.

l 10.

ability to complete assembly and accountability of site personnel within 30 minutes.

l (no evacuation of site personnel will be demonstrated and there will be no l

activation of the alert notification (siren) system).

l 11.

command and control at the emergency response facilities by the Emergency l

Director, Plant Operations Manager, TSC Manager, OSC Manager and Joint News l

Center Director.

12.

ability to change over 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.

O 11-1 l

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SCENARIO NO.1998C 13.

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

14.

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

15.

ability to perform dose projections and determine recommended protective actions and transmit the information in a timely manner to offsite authorities.

16.

personnel radiological exposure control capabilities for emergency personnel.

17.

ability to brief the media in an accurate, coordinated, and timely manner.

18.

ability to plan for a shift change.

19.

ability to de-escalate the emergency and declare the recovery stage.

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CONSOLIDATED EDISON COMPANY OF NEW YORK INDIAN POINT STATION NO. 2 DRILL SCENARIO NO.1998C 111.

DRILL SCENARIO initial Condition The Indian Point Unit No. 2 Nuclear Generating Station has been operating at full power for 73 days. No equipment is out of service.

Narrative Summarv An electrical fault on the transmission system will cause the generator output breakers to open This will trip the turbine and close the turbine stop valves. The reactor will also trip. The operators will take actions to respond to the Reactor trip and identify a loss of all offsite AC power. All three emergency diesel generators will start but #23 diesel generator will not tie in to 480V Bus GA due to an electrical fault on the bus. 480V Busses 5A, 2A and 3A will be energized from #21 and #22 diesel generators.

The Senior Watch Supervisor will declare an NUE based on EAL 6.1.1, Loss of Unit Auxiliary transformer, Station auxiliary transformer and 13.8KV gas turbine auto transformer for greater than 15 minutes.

Emergency Diesel Generator #22 will fail and 480V Busses 2A and 3A will be de-energized. The Senior Watch Supervisor will declare an Alert Emergency based on EAL 6.1.3, Available AC power sources reduce to only one emergency diesel generator for greater than 15 minutes.

A large break LOCA will occur resulting in an automatic Safety injection actuation signal. Due to the degraded 480V system the minimum requirements for engineerad i

safety features cannot be established injection flow into the Reactor Coolant System will not be adequate and Reactor Coolant inventory wil.1 continue to decrease. When Reactor Vessel level decrer.ses below 39%, the Emergency Director will declare a Site Area u

Emergency based on either EAL 3.1.3, RVLIS less than 39% with no RCPs running, or l

EAL 1.2.1, Orange path on Core Cooling.

Inadequate core cooling will result in fuel damage and cause containment radiation monitors to increase greater than 68R/hr. The Emergency Director will declare a General Emergency based on EAL 2.2.3, containment radiation monitors R-25 or R-26 greater than O

68R/hr or EAL 1.2.2, Red path on Core Cooling and function restoration actions taken and procedures not effective within 15 minutes, Ill-1 g

The Emergency Director will recommend evacuation of the two mile radius and 2-5 miles downwind for the General Emergency. In addition sheltering of all remaining Emergency Response Planning Areas will also be recommended.

Operations and Maintenance will take actions to restore power to 480V Busses 2A and 3A. When the Refueling Water Storage tank inventory is depleted the operators will establish cold leg recirculation.

The containment fission product barrier will be brea.hed at 12:45 p.m. and an I

offsite release will be identified by the operators. A dose assessment will be performed and identify total dose (TEDE) to the whole body in excess of 1 Rem beyond the two mile l

radius. The Emergency Director will then recommend extending the evacuation to the five i

mile radius and 5-10 miles downwind.

)

Operations and Health Physics will identify the source of the radioactive release and at 3:45 p.m. isolate the leak. After the operators place the plant on cold leg recirculation normal offsite power will be restored. After the release is terminated the reactor will be in a stable condition on long term recirculation. The drill will be terminated when the plant is in cold shutdown and the Emergency Director enters the recovery stage.

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V SCENARIO NO.1998C DETAILED SCENARIO TIME LINE l

INITIATING MESSAGE TIME NUMBER EVENT

SUMMARY

j T = 08:00 1

Senior Watch Supervisor Initial conditions are:

- Operating IP-2 for 73 days at full power.

- No equipment is out of service.

l T = 08:15 2

Control Room Operator

- Reactor Coolant Pump #23 Trip.

l

- Reactor Trip.

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- Turbine Trip.

- Loss of all Offsite Power.

- Lors of 480V Bus 6A.

ANTICIPATED RESULTS Control Room Operator

- Perform immediate actions for E-0 Reactor Trip /SI.

I

- Transi in to ES-0.1 Reactor Trip Response.

occo ceSo sets 1030 114s 124s 164s seco isto sumAL NUE ALERT StrE AREA GENERAL OFFSITE OFFSITE COLD DRILL COfem0N DECLARED DECLARED EMERGENCY EMERGENCY RELEASE RELEASE SHUTDOWN ENDS (EALs.1.1)

(EALs.t.3)

DECLARED DECLARED STARTS ENDS (EAL3.1.3)

(EAL2.2.3) oR oR (EAL1.2.1)

(EAL1.2.2) l 111-4 L___-________

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DETAILED SCENARIO TIME LINE i

INITIATING MESSAGE TIME NUMBER EVENT

SUMMARY

- Dispatch NPO to 480V Swithchgear to investigate cause of fault.

Senior Watch Supervisor

- Upon recognition that 138KV and 13.8KV Power will not be restored within 15 minutes the SWS will declare an NUE based on EAL 6.1.1.

- Senior Watch Supervisor directs that notification be made for NUE declaration.

- Dispatch Maintenance /l&C to inspect 480V Bus 6A.

CCR Communicator

-Initiate notification to offsite authorities within 15 minutes of the NUE declaration.

I T = 08:15 A

Control Room Controller

- Report loss of 13.8 KV feed to Unit #2.

1

- Report loss of 138 KV feed from Buchanan Switchyard.

- Report 480V Bus 6A Lockout Relay status light is extinguished.

i

- Report loss of alternate safe shutdown power supply.

esso osso sets 1030 114s 1246 1545 seco isso j

Os INmAL NUE ALERT SITE AREA GENERAL OFFSITE OFF&lTE COLD DRILL (j

CONDITKW DECLARED DECLARED EMERGENCY EMERGENCY RELEASE RELEASE SHUTDOWN ENDS (EAL8.1.1)

(EAL4.1.3)

DECLARED DECLARED STARTS ENDS (EAL3.1.3)

(EAL2.2.3) i on om (EAL1.2.1)

(EAL1.2.2) lll-5

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SCENARIO NO.1998C

%J DETalLED_SGENARIQ_IIMELINE J

l INITIATING MESSAGE EME NUMBER EVENT

SUMMARY

l T = 08:15 B

NPO Controller

- Report 480V Bus 6A Normal Supply Breaker SS6 tripped on L

overcurrent.

- Report indications of damage to 480V Bus 6A due to ground fault.

T = 08:15 C

Control Room Controller I

- EOP Procedure Usage Timeline for Reactor Trip.

T = 08:15 D

Maintenance / lac Controiler

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- Report damge to buswork of 480V Bus 6A Switchgear.

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'~T = 08:55 3

Control Room Operator

- Loss of Emergency Diesel Generator #22.

ANTICIPATED RESULTS Control Room Operator

- Dispatch NPOs to Diesel Generator Building to identify cause of diesel failure l

0000 0830 0916 1030 1146 1246 1646 1000 1830 l

INITIAL NUE ALERT SITE AREA GENERAL OFFSITE OFFSITE COLD DRILL f

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CONDmON DECLARED DECLARED EMERGENCY EMERGEMCY RELEASE RELEASE SHUTDOWN ENDS (EALS.1.1)

(EAl.E.1.3)

DECLARED DECLARED STARTS ENDS (EALS.1.3)

(EAL2.2.3) l OR OR (EAL1.2.1)

(EAL1.2.2) 111-6

O SCENARIO NO.1998C v

DETAILED _S_CENARIO TIME LINE INITIATING MESSAGE TIME NUMBER EVENT

SUMMARY

Senior Watch Supervisor

- Dispatch Maintenance /l&C to Diesel Generator Building to help restore diesel generator

- Upon recognition that #21 Emergency Diesel Generator is the only source of 480V power for greater than 15 minutes the SWS will declare an ALERT EMERGENCY based on EAL 6.1.3.

- Senior Watch Supervisor directs that notification be made for the ALERT EMERGENCY declaration.

- Senior Watch Supervisor briefs the POM of plant status and POM gy assumes the duties of the Emergency Director.

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CCR Communicator

- Initiate notification to offsite authorities within 15 minutes of the ALERT declaration.

- Sound assembly alarm and announce over PA system for all persons to report to their assembly areas.

POM

- Reviews plant status with Senior Watch Supervisor.

- Assumes the role of Emergency Director.

0000 0830 0915 1030 1145 1245 1645 1500 1830 FN INITIAL NUE ALERT SITE AREA GENERAL OFFSITE OFFSITE COLD DRtLL

[

CONDITION DECLARED DECLARED EMERGENCY EMERGENCY RELEASE RELF.ASE SHUTDOWN ENDS

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(EALS,1.1)

(EALS.1.3)

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(EAL2.2.3)

OR OR (EAL1.2.1)

(EAL1.2.2) 111-7

OQ SCENARIO NO.1998C DETAILED SCENARIO TIME LINE INITIATING MESSAGE TIME NUMBER EVENT

SUMMARY

- Conducts briefing of the TSC Manager and Emergency Director in the Senior Watch Supervisors office.

Emeraency Director

- Reports to the Senior Watch Supervisors office for briefing with POM.

- Reviews Plant status with POM.

- Departs for EOF.

- Conducts briefing of the staff at the EOF.

(3 V

- Activates the EOF and assumes the role of ED from the POM.

TSC Manaaer

- Reports to the Senior Watch Supervisors office for briefing with POM.

- Reviews Plant status with POM.

- Departs for TSC.

- Conducts briefing of the staff at the TSC.

- Activates the TSC.

0000 0830 0015 1030 1145 1245 1545 1000 1830 l

\\

4O MTIAL NUE ALERT SITE AREA GENERAL OFFSITE OFFSITE COLD ORILL CoNDmON DECLARED DECLARED EMERGENCY EMERGENCY RELEASE RELEASE SHUTDOWN ENDS j

taALs.1.1)

(EAL5.1.3)

DECLARED DECLARED STARTS ENDS i

(EALS 13)

(EAL2 2.3)

(EAL1.2.1)

(EAL1.2.2) lll-8 I

SCENARIO NO.1998C DETAILED SCENARIO TIME LINE INITIATING 2

MESSAGE TIME NUMBER EVENT

SUMMARY

OSC Manaaer

- Reports to the Senior Watch Supervisor's office and departs for OSC.

- Activates the OSC.

- Completes accountability within 30 minutes of the sounding of the assembly alarm.

- Dispatch personnel as necessary to support the emergency response efforts.

r7 = 09:00 E

NPO/ Maintenance /l&C Controllers

'V

- Report Status of #22 Emergency Diesel Generator failure.

- Estimated repair time is unknown at this time.

T = 10:15 4

Control Room Operator

- A Large Break LOCA occurs.

- Automatic Safety injection Signal is initiated.

esso osso cois to30 114s 134s is4s 1eco 1s30 h

INITIAL NUE ALERT SITE AREA GENERAL OFFSITE OFFSITE COLD DRILL

<(V

)

CONDmDN DECLARED DECLARED EMERGENCY EMERGENCY RELEASE RELEASE SHUTDDWN ENDS (EAL8.1.1)

(EALS.1.3)

DECLARED DECUULED STARTS END$

(EAL3.1.3)

(EAL2.2.3) on OR (EAL1.2.1)

(EAL1.2.2) lll-9 L_____________._

i SCENARIO NO.1998C DETAILED SCENARIO TIME LINE INITIATING I

MESSAGE TIME NUMBER EVENT

SUMMARY

ANTICIPATED RESULTS Control Room Operator i

- Perform immediate actions for E-0 Reactor Trip /SI.

- Perform subsequent actions for E-0 Reactor Trip /SI.

- Transition to E-1 Loss of Reactor or Secondary Coolant.

- Perform actions to respond to Loss of Reactor Coolant.

l 1

T = 10:30 -

F Control Room Controller

- Reactor Vessel Level decreases to less than 39% resulting in an Orange Path on the Core Cooling Critical Safety Function Status l

Tree.

i ANTICIPATED RESULTS Control Room Operator I

- Identify an Orange Path on the Core Cooling Critical Safety Function Status Tree and transition to FR C.2 Degraded Core

. Cooling.

- Perfo'm actions to respond to Degraded Core Cooling.

0003 0000 0015 1930 1145 1245 1945 1e00 1880 DOWN END.

Y GENCY R.1-.

im...1,

imo,

=

7_5, (EAL1.2.1)

(EAL1.2.2) 111-1 0

[

. O SCENARIO NO.1998C G

DETAILED SCENARIO TIME LINE INITIATING MESSAGE TIME NUMBER EVENT

SUMMARY

Emeraency Director

- Upon recognition that RVLIS has decreased less than 39% the Emergency Director will declare a SITE AREA EMERGENCY based on EAL 3.1.3, RVLIS cannot be maintained >39% with no RCPs running or EAL 1.2.1 Orange Path in F-0.2 Core Cooling Status Tree.

- Emergency Director directs that notification be made for the SITE AREA EMERGENCY declaration.

EOF Communicator

)

-Initiate notification to offsite authorities within 15 minutes of the SITE AREA EMERGENCY declaration.

= 11:45 G

Control Room Controller

- Core Exit temperatures increase greater than 700 F with Reactor i

Vessel Level less than 39% resulting in a Red Path on the Core Cooling Critical Safety Function Status Tree.

- Containment Radiation Level increases greater than 68R/hr.

- RWST level less than 9.24 feet requires transition to cold leg recirculation.

osso osso cois isso 1945 124s is4s seco isso EMERGENCY EMERG NCY R

(,)

(eALs.t.1)

(EALs.t.s)

DactARED DECLARED STARTS ENos (EALs.1.3)

(

.s)

(EAL1.2.1)

(EAL1.2.2) 111-1 1

lV SCENARIO NO.1998C i

DETAILED SCENARIO TIME LINE INITIATING MESSAGE TIME NUMBER EVENT

SUMMARY

ANTICIPATED RESULTS Control Room Ooerator

- Identify a Red Path on the Core Cooling Critical Safety Function Status Tree and transition to FR-C.1 Inadequate Core Cooling.

- Identify the need to transfer to ES-1.3 Transfer to Cold Leg Recirculation from the caution in FR-C.1

- Perform actions to transfer to cold leg recirculation.

Emeraency Director OV

- Upon recognition that a red path exists on core cooling and function restoration actions are inadequate the Emergency Director will declare a GENERAL EMERGENCY based on EAL 1.2.2, Red Path in F-0.2 Core Cooling Status Tree, or EAL 2.2.3 Containment Radiation Monitor R-25 or R-26 reading greater than 68R/hr.

- Emergency Director directs that notification be made for the GENERAL EMERGENCY declaration.

i

- Recommend protective actions of evacuating the two mile radius and 2-5 miles downwind and sheltering for all remaining ERPAs.

l 0000 0830 0015 1030 1145 1248 1848 1000 1830 i

O INITIAL NUE ALERT SITE AREA GENERAL OFFSITE OFFSITE CDLD DRELL CONDITION DECLsJtED DECLARED EMERGENCY EMERGENCY RELEASE RELEASE SHUTDOWN ENDS (EALS.1.1)

(EALS.1.3)

DECLARED DECLARED STARTS ENDS (EALS.1.3)

(

.3)

(EAL1.2.1)

(EAL1.2.2) l 111-1 2 l

I

i SCENARIO NO.1998C mms-momm INITIATING MESSAGE

'ME NUMBER EVENT

SUMMARY

EOF Communicator

- Initiate notification to offsite authorities within 15 minutes of the GENERAL EMERGENCY declaration.

T = 11:45

'H Control Room Controller i

- Refueling Water Storage Tank Level decreases to less than 9.24 feet.

ANTICIPATED RESULTS Control Room Operator

- Identify transition from FR-C.1 to ES-1,3 Cold Leg Recirculation.

l

- Perform actions to establish Cold Leg Recirculation.

l l

- Establish core cooling using #21 Containment Recirculation Pump.

l I

l l

esso osso cois teso tids 124s is4s teso isso y

memAL NUE ALERT SITE AREA OENERAL OPPSITE OFFSITE COLD DRILL coNDmON DECLARED DECLARED EMEROENCY EIAERGENCY RELEASE RELEASE SHUTDOWN ENDS (EALs.t.1)

(EALs.t.3)

DECLARED DECLARED STARTS ENDS

- (EALS.1.3)

(EN_2.2.3) on on (EAL1.2.1)

(EAL1.2.2)

I lll-13

SCENARIO NO.1998C DET. AILED S.C.ENARlQ_ TIME 11HE INITIATING MESSAGE UME NUMBER EVENT

SUMMARY

T = 12:05 5

Control Room Operator

. District Operator reports 13.8KV power restored to Unit #2 ANTICIPATED RESULTE Control Room Operator

- Restore power to 6.9KV Busses from 13.8KV power source.

- Restore power to 480V Busses 2A and 3A.-

- P ant e adiation Monitors increase indicating a loss of the Containment Fission Product Barrier with radioactive releases offsite.

- EPA Protective Action Guidelines exceed beyond the two mile radius.

I ANTICIPATED RESULTS Control Room Operator

- Dispatch HP and NPO to identify source of leakage 0000 OSSO 9015 1980 1145 1248 1846 1000 1830 O

CONDmDN INmAL NUE ALERT SmE AREA GENERAL. OPPs4TE OPPSITE COLD DfuLL DECLARED DECLARED EMERGENCY EMERGENCY pm sans pm sama SHUTODWN ENDS (EAL8.1.1)

(EALS.1.3)

DECLARED DECLARED STARTS ENDS (EAL3.1.3)

(

)

(EAL1.2.1)

(EAL1.2.2) lli-14

SCENARIO NO.1998C DETAILED SCENARIO TIME LINE INITIATING MESSAGE TIME NUMBER EVENT

SUMMARY

ORAD

- Perform dose assessment calculation.

- Identify projected doses greater than 1 Rem TEDE at the two mile radius

- Identify affected downwind sectors.

Emeroency Director

- Identify need to re-evaluate protective action recommendations.

- Recommend evacuation of five mile radius and 5-10 miles downwind.

O

.T = 12:45 J

NPO/HP/ Maintenance /l&C Controllers

- Report Extremely High Radiation levels in the Piping Penetration area.

Release path is from Containment Spray header upstream of containmnet isolation valve (away from containment) MOV-869B.

- Actions to remotely close valve with motor operator will fail.

- Refer to Controller Field report for details.

0000 0830 0015 1030 1145 1245 1846 1000 1830 l

O INITIAL NUE ALERT SITE AREA OENERAL OFFSITE OPP 5ffE COLD DREL

)l CONDITION DECLARED DECLARED EMERGENCY EMERGENCY RELEASE pstsaar SHUTDOWN ENDS 1

(EALS.1.1)

(EAL4.1.3)

DECLARED DECLARED STARTS ENDS (EALS.1.3)

(EAL2.2.3)

OR OR (EAL1.2.1)

(EALt.2.2) l lll-15

SCENARIO NO.1998C DETAILED SCENARIO TIME LINE INITIATING MESSAGE TIME NUMBER EVENT

SUMMARY

ANTICIPATED RESULTS Emeraency Director

- Emergency Director may authorize emergency personnel exposure limit increase to 25 Rem to identify and isolate release path.

T = 15:45 K

NPO/HP/ Maintenance /l&C Controllers

- Report that MOV-8698 is closed.

ANTICIPATED RESULTS Emeroency Director Emergency Director may De-escalate from a GENERAL EMERGENCY based on the re-establishment of containment integrity.

l esos osso sets teso 1145 124s is4s seco teso l

O INmAL NUE ALERT SITE AREA GENERAL OFFstTE OFFslTE COLD DRILL CDNDmDN DECLARED DECLARED EMERGENCY EMERGENCY RELEASE RELEASE SHUTDOWN ENDS (EALs.1.13 (EALS.1.3)

DEctARED DECLARED STARTS ENDS (EALs.t.s)

(EAL2.2.3) om OR (EAL1.2.1)

(EALt.2.2) 111-1 6

SCENARIO NO.1998C DETAILED SCENARIO TIME LINE l

lNITIATING MESSAGE DME NUMBER EVENT

SUMMARY

T = 16:00 6

All Players l

- Plant is in cold shutdown with long term internal recirculation cooling established.

ANTICIPATED RESULTS l

l L

Emeraency Director l

- Emergency Director enters recovery phase.

l T= 16:30 Drill Ends.

1 l

!U l

I l

l 0000 0830 0915 1030 1145 1245 1545 1000 1830 L

INmAL NUE ALERT SITE'NtEA GENERAL OFFSITE OFFSITE COLD DREL CONDmON DECLARED DECLARED EMERGENCY EMERGENCY RELEASE RELEASE SHUTDOWN ENDS (EALS.1.1)

(EALS.1.3)

DECLARED DECLARED STARTS ENOS (EAL3.1.3)

(EAL2.2.3)

OR OR -

(EAL1.2.1)

(EAL1.2.2) 111-1 7 L___----______-----_------

CONSOLIDATED EDISON COMPANY OF NEW YORK INDIAN POINT UNIT NO. 2 DRILL SCENARIO NO.1998C IV..

MESSAGE i

L TO:

ALL DRILL PARTICIPANTS LOCATION:

ALL LOCATIONS TIME:

When the players report to the facility f

MESSAGE:

DRILL GROUND RULES l

l All participants are required 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 l-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 l'

end of all messages or conversations. If communication lines are kept open for extended periods, periodically repeat the caution. This is especially critical when transmitting messages over communication facilities that are monitored by non-Consolidated Edison personnel.

2.

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

i 3.

Tak'e immediate action (s) to restore safe operation, if an unsafe condition exists. Ignore drill situation if actual safety becomes a concern.

4.

Use only the information provided in accordance with the ground rules or derived from approved procedures. Do not improvise information.

l a.

Controllers will provide appropriate information at the location where J

that information would normally be available (e.g., Reactor status at l

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- ",ill be sufficient to make decisions in accordance with Con Eo' son plans and procedures.

i IV-1 l

The intent of the scenario is to test implementation of the emergency c.

plans and procedures by Con Edison and the offsite authorities. In certain instances the logic involved in selecting the details stretches the imagination. This has been done to accommodate the onsite and offsite objectives of the drill. Do not become overly concerned when this occurs.

d.

There will be a Con Edison Observer / Controller at each important location. Controllers will provide information and clarification on which actions are to be simulated or are outside the scope of this drill in order to keep the drill 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.

5.

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

6.

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

7.

If samples inside or outside the site are deemed necessary, their collection O

will be performed and their analysis conducted unless simulations is directed by a Controller. Observer / Controllers will accompany the survey teams, onsite and offsite.

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 / Controller at the conclusion of the drill.

9.

If, during any part of the drill, you are having trouble accomplishing your required duties, 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 information he can provide you.

10.

The Radiation Work Permit number for the emergency drill is 98-0001. This number will be used by all participants and observer / controllers entering the radiation area.

O IV-2

SCENARIO NO.1998C plMULATION CONTROL ROOM (CR) 1.

KIuse TECHNICAL SUPPORT CENTER (TSC)

None OPERATIONAL SUPPORT CENTER (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 4.

Requiring a site specific RWP EMERGENCY. OPERATIONS FACILITY (EQE) i i

1.

Kluse l

2.

Disarming of Halon System l

[]

3.

Switching ventilation to internal mode l

4.

Evacuation and movement of all non-essential personnel 5.

Estimates of population dose 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.

8.

The Main Gate and the Command Guard house will be secured for one hour after the assembly alarm is sounded. At another times it will be simulated.

CENTRAL INFORMATION GROUP (CIG) 1.

The initiation of the Automated Telephone Emergency Notification Service (IP-1002 Section 5.4.1.c).

IV-3 l

SCENARIO NO.1998C O

TO:

SENIOR WATCH SUPERVISOR LOCATION:

CENTRAL CONTROL ROOM TIME:

T = 08:00 MESSAGE:

NO.1 This is a Drill Con Edison Indian Point No. 2 has been operating for 73 days at full power.

Plant parameters are stable and normal with no equipment out of service.

O i

i This is a Drill l

l O

IV-4

SCENARIO NO.1998C TO:

CONTROL ROOM OPERATOR L

LOCATION:

CENTRAL CONTROL ROOM TIME:

T = 08:15 MESSAGE:

NO. 2 This is a Drill

1. 23 Reactor Coolant Pump Trip Reactor Trip Turbine Trip Loss of Offsite Power 138KV & 13.8KV Loss of 480V Bus 6A This is a Drill i

O IV-5

SCENARIO NO.1998C lO-l CONTROLLER FIELD REPORT TO:

CONTROL ROOM CONTROLLER LOCATION:

CONTROL ROOM TIME:

T = 08:15 MESSAGE:

"A" j

This is a Drill When requested report that 13.8KV feeder from Unit 1.is de-energized and breaker GT-2 will not reclose.

When Requested report from Unit #3 that breaker GT/BT will not close and report

~T (G

estimated time to restoration to be about two hours.

When requested report that 138KV feeder from Buchanan Switchyard is grounded.

When requested report Lockout Relay status light is extinguished on 480V Bus 6A.

When requested report Lockout Relay status light is extinguished on 480V Bus 6A.

When requested report that alternate safe shutdown power supply from Unit 1 is unavailable because Unit #1 L&P Bus 3 is faulted.

This is a Drill O-b IV-6

SCENARIO NO.1998C

!O CONTROLLER FIELD REPORT l

TO:

NPO CONTROLLER

{

LOCATION:

480V SWITCHGEAR ROOM TIME:

T = 08:15 l

MESSAGE:

"B" i

l This is a Drill When NPO is dispatched to check 480V Bus 6A report that the normal supply breaker tripped on overcurrent and that there are indications of damage to the buswork from an apparent ground fault.

l If NPO is dispatched to GT#1 to align power to Unit #2 report that breaker GT-2 is open and will not close, i

This is a Drill l

i i

i i

l O

IV-7 L -

SCENARIO NO.1998C O

CONTROLLER FIELD REPORT TO:

CONTROL ROOM CONTROLLER LOCATION:

CENTRAL CONTROL ROOM TIME:

T = 08:15 MESSAGE:

"C" This is a Drill EOP MILE STONES E-0 STEP 1 08:15 ES-0.1 STEP 1 08:18 O

ES-0.1 STEP 9 08:30 ES-0.1 STEP 18b 08:40 POP 3.2 STEP 1 08:45 POP 3.2 STEP 3.2 09:00 POP 3.2 STEP 3.13 09:15 POP 3.2 STEP 3.22 09:30 E-0 STEP 1 10:15 E-0 STEP 22 10:30 i

E-0 STEP 29 10:35 E-1 STEP 1 10:36 FR-C.2 STEP 1 10:38 EOP TRANSITIONS E-0 TO ES-0.1 STEP 3 l

ES-0.1 TO POP 3.2 STEP 18b l

POP 3.2 TO E-0 LOCA E-0 TO E-1 STEP 29 E-1 TO FR-C.2 ORANGE PATH This is a Drill O

IV-8

SCENARIO NO.1998C CONTROLLER FIELD REPORT O

TO:

MAINTENANCEll&C CONTROLLERS l

LOCATION:

EMERGENCY DIESEL GENERATOR BUILDING TIME:

T = 08:15 MESSAGE:

"D" This is a Drill l

When dispatched to inspect 480V Bus 6A repod that one of the bus bars went to ground and is padially vaporized.

l I

l l

This is a Drill l

l l

l l

1

\\

O IV-9

i SCENARIO NO.1998C j

TO:

CONTROL ROOM OPERATOR j

LOCATION:

CENTRAL CONTROL ROOM TIME:

T = 08:55 l

MESSAGE:

NO. 3 l

l l

This is a Drill l

l l

l l.

Emergency Diesel Generator #22 is tripped.

This is a Drill i,

9 IV-10

SCENARIO NO.1998C n

CONTROLLER FIELD REPORT TO:

NPO/ MAINTENANCE /l&C CONTROLLERS LOCATION:

EMERGENCY DIESEL GENERATOR BUILDING TIME:

T = 09:00 MESSAGE:

"E" This is a Drill When NPO is dispatched to investigate cause of #22 Emergency Diesel Generator trip, report that the machine tripped for unknown reason and will not reset.

When Maintenance and l&C investigate they will find a defective reset latch mechanism that needs to be replaced. Estimated repair time is unknown, however at about 10:00 report that repairs can be completed in about two hours.

After the latch is replaced, and the diesel is restarted it will trip on overspeed.

Investigation will discover a speed control failue that will require replacement of the governor. Estimated repair time will be an additional three hours.

)

This is a Drill I

,O IV-11

SCENARIO NO.1998C TO:

CONTROL ROOM OPERATOR

. LOCATION:

CENTRAL CONTROL ROOM t

TIME:

T = 10:15 MESSAGE:

- NO. 4 i

This is a Drill RCS Pressure is less than 1000 psig and is decreasing rapidly, Containment Pressure is greater than 2 psig and is increasing.

Automatic Safety injection is initiated due to Low Pressurizer Pressure and Hi Containment Pressue.

This is a Drill l

l

)

O l

IV-12 l

l N

SCENARIO NO.1998C I

CONTROLLER FIELD REPORT I

TO:

CONTROL ROOM CONTROLLER l

LOCATION:

CONTROL ROOM TIME:

T = 10:30 i

MESSAGE:

"F" This is a Drill Upon transition to E-1 the Watch Engineer will monitor Critical Safety L

Function Status Trees and identify an Orange Path on the Core Cooling.

The operators will transition to FR-C.2 Response to Degraded Core Cooling l

EOP MILE STONES l

FR-C.2 STEP 1 10:38 FR-C.2

. STEP 10 10:45 l

FR-C.1 STEP 1 11:45 ES-1.3 STEP 1 11:45 i

l EOP TRANSITIONS l

FR-C.2 TO FR-C.1 RED PATH l

FR-C.1 TO ES-1.3 RWST LEVEL <9.24 FEET This is a Drill O

IV-13 m

l SCENARIO NO.1998C CONTROLLER FIELD REPORT l

l TO:

CONTROL ROOM CONTROLLER l

LOCATION:

CENTRAL CONTROL ROOM TIME:

T = 11:45 MESSAGE:

"G" This is a Drill l

The Watch Engineer will identify a Red Path on the Core Cooling Status Tree and the operators will transition to FR-C.1, however RWST level is less than 9.24 feet and transition to ES-1.3 Transfer to Cold Leg Recirculation based on cautions that exist in both FR-C.1 and FR-C.2.

O EOP MILE STONES ES-1.3 STEP 1 11:45 EOP TRANSITIONS FR-C.2 TO FR-C.1 RED PATH FR-C.1 TO ES-1.3 RWST LEVEL <9.24 FEET This is a Drill l

l O

l l

IV-14 l

i t

l SCENARIO NO.1998C CONTROLLER FIELD REPORT TO:

CONTROL ROOM CONTROLLER l

LOCATION:

CENTRAL CONTROL ROOM l

TIME:

T = 11:45 MESSAGE:

"H" 2

This is a Drill RWST level is less than 9.24 feet and transition to ES-1.3 Transfer to Cold l

Leg Recirculation based on cautions that exist in both FR-C.1 and FR-C.2.

I EOP Mll'. c (ONES nl f]

ril.3 STEP 1 11:45 V

ES-1.3 STEP 19 12:00 l

ES-1.3 STEP 32 12:15 EOP TRANSITIONS FR-C.2 TO FR-C.1 RED PATH FR-C.1 TO ES-1.3 RWST LEVEL <9.24 FEET This is a Drill l

I

,GV IV-15

SCENARIO NO.1998C TO:

CONTROL ROOM OPERATOR O

f LOCATION:

CENTRAL CONTROL ROOM I

TIME:

T = 12:05 l

MESSAGE:

NO. 5 l.

This is a Drill i

District Operator reports 13.8 KV feeder to Unit #2 is restored and permission is grantecl to close breakers GT-25 and GT-26 l

This is a Drill l

I

{

i-O IV-16 i

SCENARIO NO.1998C CONTROLLER FIELD REPORT TO:

EOF CONTROLLER LOCATION:

EOF TIME:

T = 12:45 MESSAGE:

T This is a Drill Plant Vent Radiation Monitors increase indicating a loss of the Containment Fission Product Barrier with radioactive releases offsite.

EPA Protective Action Guidelines exceed beyond the two mile radius.

\\

Provide meterological forecast for stable wind direction for the next 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> when

~

t l

requested.

l This is a Drill i

2 i

)

t IV-17

SCENARIO NO.1998C l

CONTROLLER FIELD REPORT TO:

NPO/HP/ MAINTENANCE /l&C CONTRO',LERS LOCATION:

PIPING PENETRATION AREA (PAB)

TIME:

T = 12:45

?

MESSAGE:

"J" This is a Drill When dispatched to investigate source of containment leakage report extremely high l

radiation levels in the piping penetration area. Use plant radiation levels provided in TAB D when requested.

l/7 When access is authorized into the piping penetration area identify source of leakage

,U from containment spray line upstream (away from containment) of Containment Spray valve MOV-869B.

When directed to close MOV-869B report valve will not close. Report MOV-869B has blown fuse and replacement fuses continue to blow. When attempts are made to manually close valve report that the handwheel is very hard to turn and thr' the valve stem seems to be binding.

Any attempt to close valve must fail until 15:45.

This is a Drill I

('f i

4 IV-18

_________.___m_

SCENARIO NO.1998C O

CONTROLLER FIELD REPORT TO:

NPO/HP/ MAINTENANCE /l&C CONTROLLERS l

LOCATION:

PIPING PENETRATION AREA (PAB)

I TIME:

T = 15:45 l

MESSAGE:

"K" This is a Drill Report that MOV-869B is closed.

This is a Drill

!O i

I l

i IV-19

SCENARIO NO.1998C

' TO:

ALL PLAYERS LOCATION:

ALL LOCATIONS TIME:

T = 16:00 MESSAGE:

NO. 6 l

l l

l l

This is a Drill

-Plant is in cold shutdown with long term internal recirculation cooling established.

l This I's a Drill O

I l

O 1

IV-20 l

! G CONSOLIDATED EDISON COMPANY OF NEW YORK lLJ INDIAN POINT UNIT NO. 2 DRILL SCENARIO NO.1998C L

. V.

OBSERVER / CONTROLLER INSTRUCTIONS l

- A.

Exercise Control Organization Exercise Observer / Control:ers shall be appointed in order to control, observe, and

. later critique exercise activities. The title " Observer / Controller" is used to designate either a single, or dual function during the exercise. Observers will be assigned to i

watch exercise activities as they occur. They will provide no' input or active i

involvement or direction to any participants during the exercise. Their only function is to quietly observe in order to later help develop a representative critique of L

exercise participants' actions.

Controllers will be assigned to various " key" locations in order to actively control the progress 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 participants' questions. ' They will also function as Observers to help evaluate performance; thus Observer / Controllers. The designation below of Observer // Controller will mean either Observer, Controller, or Observer and Controller. The "Ch:ef Controller" is the lead exercise manager (or controller) and will be located in the Control Room. Prior to the exercise, Observer / Controller instructions will be provided in order to familiarize all Observer / Controllers with the entire scope of the exercise, and answer any specific questions. The assignment

(

sheets at the end of this section contain the listing of all exercise players, Observers and Controllers, as well as their locations.

B.

Exercise Controlinstructions 1.

All Controllers shall be pre-positioned at least one half hour prior to l

the first message time.

i l

2.

Prior to exercise commencement, all Controller communications will be tested to ensure satisfactory exercise control.

3.

All Controllers will comply with instructions from the Chief Controller.

4.

Each Controller will have copies of the messages controlling the 1

progress of the exercise scenario. Message shall be delivered by the Controller at the appropriate times, to the designated individual (s).

j In the case of emergency declarations, if the response of exercise participants necessitates the use of a contingency message, the situation should be discussed with the Chief Controller prior to s

issuance of the message.

j i

l V-1 0 i

--_ _ --- J

l SCENARIO NO.1998C l

L(].

Controllers will use the following techniques to control the exercise in iV accordance with the scenario.

a.

Messaaes & Field Reports - Messages providing information are given to the participant at the specific time. The Controller may clarify the message by answering questions to ensure that l

no extraneous meaning is read into the message. Field reports are for the Controller's use and are not given to the participant. When the field report contains direction to the Controller to provide information it is done verbally. The Controller will not tell participants what action they are expected to take.

b.

Contingency Messaaes - Contingency messages will be used only if participants fail to take the major actions expected from L

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 Information - Controllers for Health Physics and Environs Field Teams will 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 appropriate tables in Section 8.

d.

Control Guidance - Controllers will provide verbal guidance to participants to keep the exercise oriented to the pre-arranged scope and scenario. Controllers will direct participants to simulate 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 information that are outside the exercise scope to L

avoid bogging the exercise down in a quest for information that Controllers do not possess and have no intention or providing.

(p NOTE:

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

V-2

SCENARIO NO.1998C 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 accompanying the radiological monitoring or inplant health physics personnel.

i

7..

Controllers shall not provide information to the exercise participants l

regarding scenario' development or resolution of problem areas i

encountered. The exercise participants are expected to obtain

. information through their own organization and exercise their own judgements in determining response actions and resolving problems.

[

8.

Any inquiries originating from the general public, as a result of l

exercise activities, will be referred to a Controller. An explanation will consists only of stating that a practice drill is underway at the plant j

L and all events are simulated (i.e., not real).

O 9.

Some exercise participants may insists that certain parts of the

' scenario are unrealistic. The Drill Controller has the sole authority to l

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 L

the exercise and the responses of the exercise participants at their l

respective 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, i

l-and problem areas encountered. Observer / Controller's comments shodd consider the evaluation elements set forth in Section C,

-1 H

" Exercise Evaluation Criteria." 'All notes taken should be retained for the purpose 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 the Observer / Controller l

. team will be given at that time.

NOTE:

In the event of a real emergency during the exercise,

' the exercise may be immediately terminated by the

,O Chief Controller, if deemed appropriate.

V-3

=_

SCENARIO NO.1998C e

C.

Exercise Evaluation Criteria l

l Observer / Controllers shall familiarize themselves with the duties and action requirements of the personnel they are monitoring.

l Certain generic evaluation points are to be considered for all locations /

participants, as appropriate. These include:

l Notification, alerting and mobilization of emergency response personnel.

l Adequate communications capabilities among onsite personnel and offsite monitoring team.

I Timely activation of emergency facilities and teams.

{

Clear and appropriate direction and control of all exercise activities.

Emergency procedures are followed. In some cases they should be referred to during accomplishment of specific duties; e.g., dose assessment.

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

s Benefit of the exercise to its participants.

The following guidelines provide basic evaluation criteria which must be addressed by the Observer / Controller in order to effectively critique the exercise. Evaluation criteria are grouped according to exercise activity location and individual (or team) functions.

NOTE:

Specific exercise performance must be compared directly with company emergency procedures.

Therefore, individuals l

assigned as Observer / Controllers shall be cognizant of the i

respective procedures and all actions that shall be carried out by the participants they observe.

After completion of the drill, and before the end of the next normal working

)

day, the Chief Controller shall hold a verbal critique, where all Observer /

Controllers shall discuss their observations and any noted shortcoming, and present their recommendations to improve performance and emergency preparedness. Critique comments will be requested from all participants at i

the conclusion of the exercise.

g3U l

i

)

v-4

SCENARIO NO.1998C 1.

Control Room Prior to initiating the exercise, the Chief Controller will confer with the Senior Watch Supervisor (SWS) in order to identify any ongoing L

operational or maintenance activities that should not be interrupted.

l Those personnel engaged in these activities will be notified that they l

are to disregard any exercise-related announcements or activities.

l Emphasis should be made however, that in the event of a real l-emergency the exercise may be terminated and station L

announcements will specify "THIS IS NOT A DRILL" and that l

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 l

attention to the following:

Use of map and overlays.

l Placement of calls to NRC, NYS and Counties.

l Notification, alerting and mobilization of emergency personnel.

l Operations handling of accident conditions if appropriate.

l Instructions given to Search and Rescue teams, and Repair and Corrective Action teams, and Radiation Protection and Chemistry Technicians by the Senior Watch Supervisor (SWS).

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

Is the time frame of actions by the SWS reasonable enough.

Deportment of all personnel in the Control Room.

The following procedures could be used in the ovaluation:

IP-1001 Mobilization of Onsite Emergency Organization i

L IP-1002 Emergency Notification and Communication i

[

IP-1003 Planned Discharge of Containment Atmosphere During j

Accident Conditions IP-1007 Determination of the Magnitude of Release and O-Exposure Rate IP-1010 Search and Rescue Teams V-5

SCENARIO NO.1998C IP-1011 Repair and Corrective Action IP-1013 Recommendation of Protective Actions for offsite Population IP-1016 Obtaining Meteorological Data IP-1020 Airborne Radioiodine Determination IP-1021 Manual Update and Readout of Proteus Plant Parameter Data lP-1024 Emergency Classification IP-1037 Obtaining Offsite Reuter-Stokes Monitor Data IP-1038 Emergency Personnel Exposure l

lP-1043 Operation of the NYS Radiological Emergency l

Communication System (RECS)

IP-1047 Obtaining Offsite Exposure Rates from MIDAS Via i

Control Room Terminal.

j j

Plus immediate Action Procedures for SWS, CRO, WATCH HP, POM l

i 2.

Technical Sucoort Center The Observer / Controller should observer the following:

Timely activation l0 lV A minimum of four qualified persons manning the center.

e l

' Field survey performed.

e' Noble gas monitor set up.

"Frisker" set up.

]

Work performed in professional manner.

j.

Phones are plugged in and direct lines to Control Room, OSC, i

f and EOF are checked out.

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

IP-1020 Airborne Radioiodine Determination IP-1021 Manual Update and Readout of Proteus Plant Parameter Data L

IP-1035 Technical Support Center IP-1041 Use of the Triton to Monitor Radiogas O

l l.

I V-6

SCENARIO NO.1998C 3.

Central Information Group (ClG)

' The Observer / Controller should observer 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.

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

Preparation of records of personnel who has called in.

The following procedure is to be used in the evaluation:

IP-1002 Emergency Notification and Communication i

4.

Assembiv Area l

i i

l.

The Observer / Controller should observe the following:

l Do they seek out their section or department accountability i

)

officer, generally stay together as a group and remain orderly?

l Were Assembly Area radiation surveys performed and results recorded? This will depend on whether there is an SAE or GE l

classification and releases to the environment.

l ls there documentation of accountability and is it under-

=

l standable to others.

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

l lP-1027 Site Personnel Accountability and Evacuation 5.

Operational Support Center The Observer / Controller should observe the following:

is there documentation of accountability and is it under-e standable to others?

Do the personnel awaiting assignment remain orderly?

V-7 L_-_

i SCENARIO NO.1998C i

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 Radiciodine Determination IP-1023 Operational Support Center IP-1027 Site Personnel Accountability and Evacuation IP-1041 Use of the Triton to Monitor Radiogas.

6.

Emeraency Operations Facility This is the Command Post for the interface with offsite authorities and it should seem so to the Observer / Controller. Look for the following:

The Emergency Director is in command of the EOF.

q The ORAD is in control of the radiological assessment activities, and reports results and recommendations to the Emergency Director in a timely and efficient manner.

Any extra personnel, spectators and those awaiting orders are quietly standing out of the way.

The Health Physics 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 in 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 quickly after the receipt of data from the Control Room or the offsite monitoring teams (s).

v-8

SCENARIO NO.1998C Prompt notification to the NRC, NYS and Counties of exposure

hq data and changes to site meteorological conditions.

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

Data forms filled out and tumed in to the ORAD / Health e

Physicist.

Timely deployment of teams.

A central point for receipt of radiological monitoring data is designated and adequate communications with field teams demonstrated, Demonstrate ability to assess plant conditions, reclassify the a

incident (if appropriate), develop timely protective action recommendations, and communicate to offsite authorities in an accurate and timely manner.

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 i

a emergency workers.

The following procedures are 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 Offsite Environmental Surveys, Sampling and Counting -

IP-1005 Use of MS-2/ SPA-3 to Determine Thyroid Burdens lP-1006 Site Perimeter Surveys IP-1007 Determine of the Magnitude of Release and Exposure Rate IP-1013 Recommendations of Protective Actions for Offsite Population IP-1016 Obtaining Meteorological Data IP-1020 Airborne Radioiodine Determination l

V-9

. _a

SCENARIO NO.1998C 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 Noble Gas 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, COMM, EOF CLERICAL 7.

Security Buildina(s) 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 O

accomplished unless the Radiation Protection 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.

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 Monitorino Teams l

Onsite monitoring teams will normally be assigned field survey work onsite, outside of the Protected Area fence, and the Service Center building complex.

O V-10

l SCENARIO NO.1998C Check on the following items:

,O Received Kl dose (simulated) from ORAD if required.

l a

NOTE:

Do not actually take the Ki Dose.

l 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 tne 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 Kl dose (simulated) from OPAD if required.

NOTE:

Do not actually take the Kl 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.

V-11

SCENARIO NO.1998C l

Charcoal cartridge respirator made available before leaving j

EOF parking lot.

j Survey instrument made ready to take field readings.

e Radio check-out by communication to EOF before leaving.

l l

Beta and gamma field surveys performed on the way to

]

l i

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 Offsite Environmental Surveys, Sampling i

and Counting i

IP-1006 Site Perimeter Surveys i

IP-1008 Personnel Radiological Check and Decontamination f)

IP-1009 Radiological Check and Decontamination of Vehicles V

IP-1015 Mobilization and Operational Procedure for Offsite Monitoring Teams - Immediate Response IP-1020 Airborne Radioiodine Determination IP-1034 Mobilization and Operational Procedure for Offsite Monitoring Teams - Supplemental Response IP-1039 Offsite Contamination Checks i

10.

Health Physics Technician (HPT)

The Observer / Controller should observe the following:

HPT follows his instructions indicated in immedima action procedures.

HPT performs survey as indicated using appropriate instrumentation.

The following procedures are to be used in the evaluation:

l IP-1010 Search and Rescue Teams e<

IP-1011 Repair and Corrective Action fl IP-1020 Airborne Radiciodine Determination

}

IP-1042 In-Plant Radiological Surveys and Sampling Plus immediate Action Procedure WATCH H.P.

V-12

SCENARIO NO.1998C c

11.

Chemistry Technician

(

The Observer / Controller should observe the following:

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.

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 the 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.

The following procedures are to be used in the evaluation.

IP-1010 Search and Rescue Teams i

l IP-1011 ReprJr and Corrective Action

)

IP-1023 Open=tional Support Center (m) i V-13

SCENARIO NO.1998C 13.

Joint News Center i'

The Observer / Controller should observe the following utility functions:

Timely activation of the facility.'

The JNC Director is in command of the facility.

The ability to issue press releases.

The ability of the Corporate Spokesperson to provide accurate and timely information to the media through press briefings.

The ability of the JNC utility staff to interact with county / state PIO staffs and coordinate information.

The following procedures are to be used in the evaluation.

Indian Point Public Information Emergency Response Plan and Implementing Procedure.

7b i

)

i

' NOTE: The JNC Director will be at the JNC initially to simulate being at his/her office, home, or at a nearby computer for the purposes of issuing the first press release. The JNC director is not to activate any equipment (e.g. copiers, etc) that he/she would not normally use or have available. The JNC director, however, should make whatever phone contacts he/she would normally make for the press release.

OV l

l V-14 i

SCENARIO NO,1998C EMERGENCY EXERCISE / DRILL OBSERVER /CONTROLLERLaG S13EEI l

Name:

Date:

Location:

TIME OBSERVATION / COMMENT i

l l

r l

V-15 i

CON EDISON INDIAN POINT STATION n

EMERGENCY PLANNING

(*)

ATTACHMENT 7.2 Page 1 OF 3 EMERGENCY DRILL PARTICIPANT ASSIGNMENT SHEET Controllers-Observers Drill Date 06-24-98 LOCATION POSITION NAME CCR Chief Controller Gorman, A.

Controller Rogers, M.

Controller-SWS Dose Assessment Controller Communicators Bollin, E.

Controller -Watch HP Technician Henry, R.

Controller - Watch Chem Technician Peters, J.

Controller - Medical Controller - Fire Brigade Controller - NPO Stroppel, M.

Controller - Data Displayer Wassmann, P.

TSC Controller Limoges, C.

Info flow & Observer - utilization Bar, A.

Observer - Communicator OSC Controller - Coordinators TSC 53' Perry, V.

Controller OSC Team (Maint)

Roper, K.

Controller - OSC Team (Maint)

Regan,K.

j Controller-OSC Team (l&C)

Mak, S.

l Controller - OSC Team (Rad Pro)

Cubeta, G.

Controller - OSC Team (Chem)

Poptees, F.

Controller - 72' Elevation Noto, M.

EOF Controller Ferraro, A.

V Observer - Communicators Falciano, P.

[

Observer - Dose Assessment Teague,T.

?

l l

L CON EDISON INDIAN POINT STATION

! O EMERGENCY PLANNING b

i ATTACHMENT 7.2 Page 2 OF 3 1

EMERGENCY DRILL PARTICIPANT ASSIGNMENT SHEET Controllers-Observers Drill Date 06-24-98 l

LOCATION POSITION NAME EOF Controller - Emergency Director Ferraro, A.

Controller - Offsite Team Mettey, L.

t Controller - Offsite Team Ressihuber, B.

Controller - Onsite Team Dampf, M.

ASSEMBLY Observer-Area A-B Dohr, H.

Observer - Simulator Hagarty, D.

Observer - Constr. Off. Complex Assigned by Gencarelli l

Observer - M.O. Building Observer - 72' TS/ Admin Owen, G.

Observer - Unit No.1 Admin Bldg.

Watson, W.

)

i Observei Service Center Capalbo, R.

Observer-Material & Services Bldg.

Pisiak, B.

1 SECURITY Controller - Controller Guard House Assigned by Elsroth Observer - River Front Gate Observer - Main Gate b

Observer ENC Controller Meltzer, B Observer Observer Observer V

CIG Controller CRC Controller L----------_-_

CON EDISON INDIAN POINT STATION C]/

(

EMERGENCY PLANNING l

l ATTACHMENT 7.2 Page 3 OF 3 EMERGENCY DRILL PARTICIPANT ASSIGNMENT SHEET Controllers-Obsefygfa Drill Date 06-24-98 LOCATION POSITION NAME UNIT NO. 3 Supplement Offsite Team Assigned by Unit No. 3 RC Controller AEOF Controller l

l lO l

l k

D\\

V L_____________________-____

CON EDISON 1

INDIAN POINT STATION l

EMERGENCY PLANNING

'~~)

\\

ATTACHMENT 7.1 l

Page 1 OF 4 EMERGENCY _DRILLEARIICIPANIASSIGNMENI.SEEET Drill Date 06-24-98 JOB FUNCTION NAME Emergency Director (ED)

McAvoy, J.

Offsite Radiological Assessment Director Nutter, V.

Dose Assessment Health Physics Smith, D.

Survey Team Health Physics Baer, J.

Technical Advisor Goetchius, E., Murphy, D.

MIDAS Operators Hughes, J.

EOF Information Liaison Gitten, M.

h Technical Advisor to Public Information Schoen,P.

O Liaison to NYS EOC Allen, R.

EOF Communicator No.1 & 2 Finucan, K., Maier, R.

Offsite Team Porrazzo, J., Martucci, R.

Muller, G., Hewitt, R.

Onsite Team Gallagher, J., Mages, R.

Offsite Team Unit No. 3 Assigned by Unit No. 3 Meteorologist EOF Clerical Daly, M., Tyner,D.

Lancaster, K., Sideris, D.

SASIProteus Operator Genadry, A.

l Plant Operations Manager Inzirillo, F.

l TSC Manager O'Toole, W.

_I & C Coordinator Naku,K.

Rad!ation Protection Coordinator Visosky, F.

O'.~

Maintenance Coordinator Poirier, T.

CON EDISON INDIAN POINT STATION EMERGENCY PLANNING O

ATTACHMENT 7.1 Page 2 OF 4 EMERGENCY DRILL PARTICIPANT ASSIGNMENT SHEET Drill Date 06-24-98 JOB FUNCTION NAME Test & Performance Engineer King, A.

Systems Analysis Coordinator Goebel, J.

TSC Communicator Redding, R.

Data Courier Bishop, D.

TSC Commun!cator at CCR Assigned by Durr Data Processor at CCR Core Physics Engineer Yuan,R.

Q Document Controller Walk, F.

Data Logger /SAS-Proteus Operator Freer, S.

TSC Clerical Alvarez, D., McKeon, D.

OSC Manager Poirier, D.

Accountability Officer See,T.

OSC Communicator Sullivan. J.

Chemistry Kohnken,J.

Maintenance Assigned by Meyer Instrument & Control Assigned by Naku Quality Assurance Trombetta, R., Brozski, S.

Radiation Protection Gately, D.,Daniele,J., Colville, R.

l Evangelists,J.,Jennings, A.,

Gross, G.,

Material Control Storekeeper Accident Victim METACON/First Aid Team l

CON EDISON INDIAN POINT STATION j

EMERGENCY PLANNING l p)

\\_

ATTACHMENT 7,1 Page 3 OF 4 EMERGENCY DRILL PARTICIPANT ASSIGNMENT SHEET Drill Date 06-24-98 l

JOB FUNCTION NAME Medical Representative Senior Watch Supervisor Assigned by Durr j

Support Facility Supervisor Senior Reactor Operator Reactor Operator Nuclear Plant Operators (7) l Watch Engineer Control Room Communicator l

Security Supervisors Assigned by Elsroth Watch Rad Pro Tech Colville H.

Watch Chem Tech Assigned by Popiees Administration & Logist_ics Manager Engineering & Construction Support Manager Centralinformation Group Watch Recovery Manager ~

Schedule & Planning Coordinator Project Management Specialist l

Emergency News Center Director Mulieri, R.

Asst. Emergency News Center Director Spall, M.

Corporate Spokesperson Durkin, C.

Information Coordinator Information Gatherer I

l l

CON EDISON INDIAN POINT STATION EMERGENCY PLANNING ATTACHMENT 7.1 Page 4 OF 4 EMERGENCY DRILL PARTICIPANT ASSIGNMENT SHEET Drill Date 06-24-98 l

JOB FUNCTION NAME Writer Bisky, T.

Government Liaison O'Toole, J.

Media Liaison Larkin, J.

i Technical Expert Reese,A.

Health Physics Expert Parry, J.

Documenter Edip, S.

Status Board Person McGee,E.

O Rumor Control Staff Assigned by Mulieri inquiry Response Staff Audiovisual Coordinator Amara, R.

Registration Coordinator Assigned by Elsroth Telecopier Operator Assigned by Mulieri Photocopier Operator Assigned by Mulieri Typist Messenger Westchester County EOC Rep.

Liberatori, L Rockland County EOC Rep.

Primrose, E Putnam County EOC Rep.

Griffith, P.

Orange County EOC Rep.

Langerfeld, R.

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i SCENARIO NO.1998C PLANT STATUS LQG

!V l

PARAMETER TIME PARAMETER TIME l

-08:00 08:00 l

l Offsite Power Available 138KV O

Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 12-3)

1. 22 0

6900 Volt BUS NO.1 0

1. 23 S

BUS NO. 2 0

1. 24 S

BUS NO. 3 0

1. 25 O

BUS NO. 4 0

1. 26 0

BUS NO. 5 O

Circ Water Pumps

1. 21 O

BUS NO. 6 O

1. 22 0

480 Volt BUS SA O

1. 23 O

BUS 2A O

1. 24 0

l BUS 3A O

1. 25 O

BUS 6A O

1. 26 O

Emergency D/Gs

1. 21 S

Condensate Pumps

1. 21 0

1. 22 S

1. 22 0

1. 23 S

1. 23 0

Gas Turbines GT1 S

Comp. Cool Heat Exch

1. 21 0

GT-2 S

1. 22 S

GT 3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23

-S

1. 22 0

1 RHR Pumps

1. 21 S

1. 23 0

1. 22 S

1. 24 O

l f=ing Pumps

1. 21 S

1. 25 0

l

\\ 'j

1. 22 0

1. 23 S

Rx Coolant Pumps

1. 21 O

VC lsol. Phase A (Y/N)

N t

1. 22 O

VC isol. Phase B (Y/N)

N

1. 23 O

VC l$ol. Vent (Y/N)

N

1. 24 O

Component Cooling Pumps

1. 21 S

Exceptions NONE

1. 22

'O

1. 23 O

High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 S

1. 22(GPM) 0

1. 22 S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 S

1. 24 (GPM) 0

1. 22 S

Low Head SIS Flow

1. 21 (GPM) 0

1. 23 S

1. 22 (GPM)

O Containment Spray Pumps

1. 21 S

1. 23 (GPM) 0

1. 22 S

1. 24 (GPM) 0 Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

66

1. 22 S

1. 22 (%)

67 Hydrogen Recombiner

1. 21 S

1. 23 (%)

t'4

1. 22 S

1. 24(%)

68

=

Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Change in Status (v3 VI-7 o____--_-----_---__------------._--.--

l ll' SCENARIO NO.1998C l/

PLAN _T STATUS LOG

'(

, u PARAMETER TIME PARAMETER TIME l

08:15 08:15 Offsite Power Available 138KV O/S*

Service Water Pumps

1. 21 0

13.8KV O/S*

(Essential Hdr 1-2-3)

1. 22 0

6900 Volt DUS NO.1 O/S'

1. 23 O/S*

BUS NO. 2 O/S'

1. 24 S

BUS NO. 3 O/S*

1. 25 S*

BUS NO. 4 O/S'

1. 26 O/S*

BUS NO. 5 O/S*

Circ Water Pumps

1. 21 O/S' BUS NO. 6 O!S*

1. 22 O/S' 480 Volt BUS 5A O

1. 23 O/S*

BUS 2A O

1. 24 O/S*

BUS 3A O

1. 25 O/S*

BUS 6A O/S*

1. 26 O/S*

Emergency D/Gs

1. 21 O'

Condensate Pumps

1. 21 O/S'

1. 22 O'

1. 22 O/S*

1. 23 O'

1. 23 O/S*

Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 O

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 S

i SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 S*

1. 23 O/S*

1. 22 S*

RHR Pumps

1. 21 S

1. 23 S*

n

1. 22 O/S*

1. 24 S*

f

!ging Pumps

1. 21 S

1. 25 O/S'

\\

/

1. 22 S*

1. 23 O/S' Rx Coolant Pumps

1. 21 O/S*

VC isol. Phase A (Y/N)

N

1. 22 O/S*

VC isol. Phase B (Y/N)

N

1. 23 O/S*

VC isol. Vent (Y/N)

N

1. 24 O/S*

Component Cooling Pumps

1. 21 S

Exceptions NONE

1. 22 0

1. 23 O/S' High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 S

1. 22 (GPM) 0

1. 22 S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 O'

1. 24 (GPM) 0

1. 22 O'

Low Head SIS Flow

1. 21 (GPM) 0

1. 23 O/S*

1. 22 (GPM)

O Containment Spray Pumps

1. 21 S

1. 23 (GPM) 0

1. 22 O/S*

$24 (GPM) 0 Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

66

1. 22 O/S*

1. 22 (%)

67 Hydrogen Recombiner

1. 21 S

1. 23 (%)

66

1. 22 S

1. 24 (%)

68 tegend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status k

V VI-8

SCENARIO NO.1998C l

lO PLANT STATUS LOG lk.

1 I

PARAMETER TIME PARAMETER TIME 08:30 08:30 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O/S (Essential Hdr 1-2 3)

1. 22 0

0900 Volt BUS NO.1 O/S

1. 23 O/S BUS NO. 2 O/S

1. 24 S

BUS NO. 3 O/S

1. 25 S

BUS NO. 4 O/S

1. 26 O/S BUS NO. 5 O/S Circ Water Pumps

1. 21 O/S BUS NO. 6 O/S

1. 22 O/S 480 Volt BUS SA O

1. 23 O/S BUS 2A O

1. 24 O/S BUS 3A O

1. 25 O/S BUS 6A O/S

1. 26 O/S Emergency D/Gs

1. 21 O

Condensate Pumps

1. 21 O/S

1. 22 0

1. 22 O/S

1. 23 0

1. 23 O/S Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 0

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 O'

1. 23 O/S

1. 22 O'

RHR Pumps

1. 21 S

1. 23 O*

1. 22 O/S

1. 24 O*

ing Pumps

1. 21 S

1. 25 O/S

1. 22 O*

1. 23 O/S Rx Coolant Pumps

1. 21 O/S VC isol. Phase A (Y/N)

N

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

N

1. 23 O/S VC lsol. Vent (Y/N)

N

1. 24 O/S Component Cooling Pumps

1. 21 S

Exceptions NONE

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 S

1. 22 (GPM) 0

1. 22 S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 0

1. 23 O/S

1. 22 (GPM)

O Containment spray Pumps

1. 21 S

1. 23 (GPM) 0

1. 22 O/S

1. 24 (GPM) 0 Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

66

1. 22 O/S

1. 22 (%)

67 Hydrogen Recombiner

1. 21 S

1. 23 (%)

66

1. 22 S

1. 24 (%)

68 LegeM O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Change in Status l

l mL.

l VI-9

i I

SCENARIO NO.1998C

)

l i

PLANT STATUS _LQG b]

e l

PARAMETER TIME PARAMETER TIME 08:45 08:45 i Offsite Power Avaliable 138KV O/S Service Water Pumps

1. 21 0

13.BKV O/S (Essential Hdr 12-3)

1. 22 O

8000 Volt BUS NO.1 O/S

1. 23 O/S i

BUS NO. 2 O/S

1. 24 S

BUS NO 3 O/S

1. 25 S

BUS NO 4 O/S

1. 26 O/S BUS NO. 5 O/S Circ Water Pumps

1. 21 O/S l

BUS NO. 6 O/S

1. 22 O/S 480 Volt BUS SA O

1. 23 O/S I

BUS 2A O

1. 24 O/S BUS 3A O

1. 25 O/S BUS 6A O/S

1. 26 O/S i Emergency D/Gs -

1. 21 0

Condensate Pumps

1. 21 O/S

1. 22 0

1. 22 O/S

1. 23 0

1. 23 O/S Gas Turbines GT1 S

Comp. Cool Heat Exch

1. 21 0

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 S

1. 23 0

1. 22 O/S

1. 24 0

9ing Pumps

1. 21 S

1. 25 O/S

1. 22 0

1. 23 O/S Rx Coolant Pumps

1. 21 O/S VC isol. Phase A (Y/N)

N

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

N

1. 23 O/S VC isol. Vent (YIN)

N

1. 24 O/S Component Cooling Pumps

1. 21 S

Exceptions NONE

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 S

1. 22 (GPM) 0

1. 22 S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 O

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 0

1. 23 O/S

1. 22 (GPM)

O Containment Spray Pumps

1. 21 S

1. 23 (GPM) 0

1. 22 O/S

1. 24 (GPM) 0

. Recirculation Pumps

1. 21 S

Accumulator Leve!

1. 21 (%)

66

1. 22 O/S

1. 22(%)

67 Hydrogen Recombiner

1. 21 S

1. 23 (%)

66

1. 22 S

1. 24(%)

68 Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status i

l p

l vi-10

SCENARIO NO.1998C q

PLANT STATU1 LOG V

PARAMETER TIME PARAMETER TIME 09:00 09:00 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O/S (Essential Hdr 12-3)

1. 22 C/S*

6900 Volt BUS NO.1 O/S

1. 23 O/S BUS NO. 2 O/S

1. 24 S

BUS NO. 3 O/S

1. 25 O/S*

BUS NO. 4 O/S

1. 26 O/S BUS NO. 5 O/S Cire Water Pumps

1. 21 O/S BUS NO. 6 O/S

1. 22 O/S 480 Volt BUS SA O

1. 23 O/S BUS 2A O/S*

1. 24 O/S BUS 3A O/S*

1. 25 O/S BUS 6A O/S

1. 26 O/S Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 O/S

1. 22 O/S*

1. 22 O/S

1. 23 0

1. 23 O/S Gas Turbines GT1 S

Comp. Cool Heat Exch

1. 21 0

GT 2 S

1. 22 S

GT 3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 S

1. 22 S

1. 22 O/S' Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 O/S*

1. 23 O/S*

1. 22 O/S

1. 24 O/S' ing Pumps

1. 21 S

1. 25 O/S

1. 22 O/S*

1. 23 O/S Rx Coolant Pumps

1. 21 O/S VC isol. Phase A (Y/N)

N

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

N

1. 23 O 'S VC isol. Vent (YIN)

N

1. 24 O/S Component Cooling Pumps

1. 21 O*

Exceptions NONE

1. 22 O/S*

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 S

1. 22 (GPM) 0 l

1. 22 O/S*

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 O/S*

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 0

1. 23 O/S

1. 22 (GPM)

O Containment Spray Pumps

1. 21 S

1. 23 (GPM) 0

1. 22 O/S

1. 24 (GPM) 0 Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

66

1. 22 O/S

1. 22(%)

67 Hydrogen Recombiner

1. 21 S

1. 23 (%)

66

1. 22 S

1. 24(%)

68 l

Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status

/%

VI-11 u--_---___--------

SCENARIO NO.1998C PLANT STATUS LOG

/

\\

. \\v).

i PARAMETER TIME PARAMETER TIME 09:15 09 15 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 O

t 13.BKV O/S (Essential Hdr 1-2-3)

1. 22 O/S j

6900 Volt BUS NO.1 O/S

1. 23 O/S i

BUS NO. 2 O/S

1. 24 S

BUS NO. 3 O/S

1. 25 O/S BUS NO. 4 O/S

1. 26 O/S l

BUS NO. 5 O/S Circ Water Pumps

1. 21 O/S BUS NO. 6 O/S

1. 22 O/S 480 Volt BUS SA O

1. 23 O/S I

BUS 2A O/S

1. 24 O/S l

BUS 3A O/S

1. 25 O/S BUS 6A O/S

1. 26 O/S Emergency D/Gs

1. 21 O

Condensate Pumps

1. 21 O/S

1. 22 O/S

1. 22 O/S l

1. 23 0

1. 23 O/S l

Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 O

{

GT2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 S

1. 22 S

1. 22 O/S Fan Cooler Units

1. 21 O

l

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 O/S

1. 23 O/S t

1. 22 O/S

1. 24 O/S

/Nng Pumps

1. 21 O*

1. 25 O/S I

i/

1. 22 O/S s'd

1. 23 O/S -

Rx Coolant Pumps

1. 21 O/S VC isol. Phase A (Y/N)

N

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

N

1. 23 O/S VC isol. Vent (Y/N)

N l

1. 24 O/S i

Component Cooling Pumps

1. 21 O

Exceptions NONE I

1. 22 O/S

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 j

i Aux Component Cooling Pumps

1. 21 S

1. 22 (GPM) 0 1

1. 22 O/S

1. 23 (GPM) 0 l

Aux Feed Water Pumps

1. 21 O/S

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 0 i

1. 23 O/S

1. 22 (GPM) 0 i

Containment Spray Pumps

1. 21 S

1. 23 (GPM)

O l

1. 22 O/S

1. 24 (GPM)

O Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

66 r

1. 22 O/S

1. 22 (%)

67

)

Hydrogen Recombiner

1. 21 S

1. 23 (%)

66

1. 22 S

1. 24 (%)

68 Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby j

• = Changein Status O

v l

VI-12

1 J

SCENARIO NO.1998C ip PLANT STATUS LOG V

PARAMETER TIME PARAMETER TIME 09:30 09:30 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O/S (Essential Hdr 1-2-3)

1. 22 O/S 6900 Volt BUS NO.1 O/S

1. 23 O/S BUS NO. 2 O/S

1. 24 S

BUS NO.3 O/S

1. 25 O/S BUS NO. 4 O/S

1. 26 O/S BUS NO. 5 -

O/S Cire Water Pumps

1. 21 O/S BUS NO. 6 O/S

1. 22 O/S 480 Volt BUS SA O

1. 23 O/S BUS 2A O/S

1. 24 O/S BUS 3A O/S

1. 25 O/S BUS 6A O/S

1. 26 O/S i

Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 O/S

1. 22 O/S

1. 22 O/S

1. 23 O

1. 23 O/S Gas Turbines GT1 S

Comp. Cool Hea' Exch

1. 21 O

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 S

1. 22 S

1. 22 O/S Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 O/S

1. 23 O/S

1. 22 O/S

1. 24 O/S l

9ing Pumps

1. 21 0

1. 2S O/S

1. 22 O/S

1. 23 O/S Rx Coolant Pumps

1. 21 O/S VC isol. Phase A (Y/N)

N

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

N

1. 23 O/S VC isol. Vent (Y/N)

N

{

,#24 O/S Component Coohng Pumps

1. 21 O

Exceptions NONE

1. 22 O/S

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 S

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 O/S

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 0

1. 23 O/S

1. 22 (GPM)

O Containment Spray Pumps

1. 21 S

1. 23 (GPM) 0

1. 22 O/S

1. 24 (GPM) 0 Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

66

1. 22 O/S

1. 22 (%)

67 Hydrogen Recombiner

1. 21 S

1. 23 (%)

06 j

1. 22 S

1. 24(%)

68 j

i

. Legend O = Operating O/S = Out of Service used to denote defectwe equipment S = Standoy l

• = Change in Status l

l VI-13

L i

l SCENARIO NO.1998C i

i l,q PLANT STATMS LOG iV l

PARAMETER TIME PARAMETER TIME l

' 09:45 09:45 i

Offsite Power Avellable 138KV O/S Service Water Pumps

1. 21 O

l 13.8KV O/S (Essential Hdr 12-3)

1. 22 O/S 6000 Volt BUS NO.1 O/S

1. 23 O/S BUS NO 2 O/S

1. 24 S

4 BUS NO. 3 O/S

1. 25 O/S BUS NO. 4 O/S

1. 26 O/S i

BUS NO. 5 O/S Circ Water Pumps

1. 21 O/S BUS NO. 6 O/S

1. 22 O/S 480 Volt BUS SA O

1. 23 O/S BUS 2A O/S

1. 24 O/S i

BUS 3A O/S

1. 25 O/S BUS 6A O/S

1. 26 O/S Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 O/S

1. 22 O/S

1. 22 O/S 1

1. 23 0

1. 23 O/S

' Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 0

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 S

1. 22 S

1. 22 O/S Fan Cooler Unds

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 O/S

1. 23 O/S

1. 22 O/S O

1. 24 O/S aing Pumps

1. 21 0

1. 25 O/S t k, '/

1. 22 O/S

'~

1. 23 O/S Rx Coolant Pumps

1. 21 O/S VC isol. Phase A (Y/N)

N

1. 22 O/S VC isol. Phase B (YIN)

N

1. 23 O/S VC isol. Vent (Y/N)

N

1. 24 O/S

[

Component Cooling Pumps

1. 21 O

Exceptions NONE

1. 22 O/S

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 S

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 O/S

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 0

1. 23 O/S

1. 22 (GPM)

O Containment Spray Pumps

1. 21 S

1. 23 (GPM) 0

1. 22 O/S

1. 24 (GPM) 0 Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

66

1. 22 O/S

1. 22 (%)

67 Hydrogen Recombiner

1. 21 S

1. 23 (%)

66

1. 22 S

1. 24(%)

68 Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Change in Status L

l VI-14 l-

J SCENARIO NO.19980 r-x PLANT STATUS LOG

'% d PARAMETER TIME PARAMETER TIME 10:00 10:00 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O/S (Essential Hdr 1-2-3)

1. 22 O/S 6900 Volt BUS NO.1 O/S

1. 23 O/S BUS NO. 2 O/S

1. 24 S

BUS NO. 3 O/S

1. 25 O/S

]

BUS NO. 4 O/S

1. 26 O/S BUS NO. 5 O/S Circ Water Pumps

1. 21 O/S BUS NO. 6 O/S

1. 22 O/S 480 Volt BUS SA O

1. 23 O/S BUS 2A O/S

1. 24 O/S BUS 3A O/S

1. 25 O/S BUS 6A O/S

1. 26 O/S Emergency D/Gs

1. 21 0

- Condensate Pumps

1. 21 O/S

1. 22 O/S

1. 22 O/S I

1. 23 0

1. 23 O/S Gas Turbines GT1 S

Comp, Cool Heat Exch

1. 21 O

GT2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 S

1. 22 S

1. 22 O/S Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 O/S

1. 23 O/S

1. 22 O/S

1. 24 O/S 9ing Pumps

1. 21 0

1. 25 O/S

1. 22 O/S

1. 23 O/S

- Rx Coolant Pumps

1. 21 O/S VC isol. Phase A (Y/N)

N

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

N

1. 23 O/S VC isol. Vent (Y/N)

N

1. 24 O/S Component Cooling Pumps

1. 21 O

Exceptions NONE

1. 22 O/S

1. 23 O/S High Head SIS Flow

1. 21 (GPM)

C Aux Component Cooling Pumps

1. 21 S

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 O/S

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 0

1. 23 O/S

1. 22 (GPM)

O Containment Spray Pumps

1. 21 S

1. 23 (GPM) 0

1. 22 O/S

1. 24 (GPM) 0 Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

66

1. 22 O/S

1. 22(%)

67 Hydrogen Recombiner

1. 21 S

1. 23 (%)

66

1. 22 S

1. 24(%)

68 Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Change in Status

./

\\

V) l f

VI-15

SCENARIO NO.1998C ELANT STATILS_LQG l

l PARAMETER TIME PARAMETER TIME 10:15 10:15 Offsite Power Availab!e 138KV O/S Service Water Pumps

1. 21 0

13.8KV O/S (Essential Hdr 1-2-3)

1. 22 O/S 6900 Volt BUS NO.1 O/S

1. 23 O/S BUS NO. 2 O/S

1. 24 S

BUS NO. 3 O/S

1. 25 O/S BUS NO. 4 O/S

1. 26.

O/S BUS NO. 5 O/S Circ Water Pumps

1. 21 O/S BUS NO. 6 O/S

1. 22 O/S 400 Volt BUS SA O

1. 23 O/S BUS 2A O/S

1. 24 O/S BUS 3A O/S

1. 25 O/S BUS 6A O/S

1. 26 O/S Emergency D/Gs

1. 21 O

Condensate Pumps

1. 21 O/S

1. 22 O/S

1. 22 O/S

1. 23 0

1. 23 O/S Gas Turbines GT1 S

Comp. Cool Heat Exch

1. 21 S*

GT2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 O'

1. 22 S

1. 22 O/S Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 O/S

1. 23 O/S

1. 22 O/S

1. 24 O/S ging Pumps

1. 21 S*

1. 25 O/S

1. 22 O/S

1. 23 O/S Rx Coolant Pumps

1. 21 O/S VC isol Phase A (Y/N)

Y'

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

N

1. 23 O/S VC isol. Vent (Y/N)

Y'

1. 24 O/S Component Cooling Pumps

1. 21 S*

Exceptions NONE

1. 22 O/S

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 170*

Aux Component Cooling Pumps

1. 21 O'

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 170*

Aux Feed Water Purnps

1. 21 O/S

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 0

1. 23 O/S

1. 22 (GPM)

O Containment Sp sy Purnps

1. 21 S

1. 23(GPM) 0

1. 22 O/S

1. 24 (GPM) 0 Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

66

1. 22 O/S

1. 22 (%)

67 Hydrogen Recombiner

1. 21 S

1. 23 (%)

66

1. 22 S

1. 24 (%)

68 Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Change in Status I

VI-16

SCENARIO NO.1998C PIANLSIATRE LQG PARAMETER TIME PARAMETER TIME t

10:30 10:30 l

Off Jte Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O/S (Essential Hdr 12-3)

1. 22 O/S 6900 Volt BUS NO.1 O/S

1. 23 O/S BUS NO. 2 O/S

1. 24 S

BUS NO. 3 O/S

1. 25 O/S BUS NO. 4 O/S

1. 26 O/S BUS NO. 5 O/S Cire Water Pumps

1. 21 O/S BUS NO. 6 O/S

1. 22 O/S 480 Volt BUS SA O

1. 23 O/S BUS 2A O/S

1. 24

( 3 BUS 3A O/S

1. 25 O/S BUS 6A O/S

1. 26 O/S Emergency D/Gs

1. 21 O

Condensate Pumps

1. 21 O/S

1. 22 O/S

1. 22 O/S

1. 23 0

1. 23 O/S Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 S

GT2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 0

1. 22 S

1. 22 O/S Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 O/S

1. 23 O/S

1. 22 O/S

1. 24 O/S Oing Pumps

1. 21 O'

1. 25 O/S

1. 22 O/S

1. 23 O/S Rx Coolant Pumps

1. 21 O/S VC 1so1. Phase A (Y/N)

Y

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

Y'

1. 23 O/S VC isol Vent (Y/N)

Y

1. 24 O/S Component Cooling Pumps

1. 21 S

Exceptions MOVs 786,769,789 Y'

1. 22 O/S

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 170 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 170 Aux Feed Water Pumps

1. 21 O/S

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 0

1. 23 O/S

1. 22 (GPM)

O Containment Spray Pumps

1. 21 O'

1. 23 (GPM) 0

1. 22 O/S

1. 24 (GPM) 0 Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

0*

1. 22 O/S

1. 22 (%)

0*

Hydrogen Recombiner

1. 21 S

1. 23 (%)

0*

1. 22 S

1. 24 (%)

O' Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status VI-17

SCENARIO NO.1998C PLANT STATUS _LS_G V,o PARAMETER TIME PARAMETER TIME 10:45 10:45 l

Offene Power Available 13'3KV O/S Service Water Pumps

1. 21 0

13.8KV O/S (Essential Hdr 12-3)

1. 22 O/S 6000 Volt BUS NO.1 O/S

1. 23 O/S BUS NO. 2 O/S

1. 24 S

BUS NO. 3 O/S

1. 25 O/S BUS NO. 4 O/S

1. 26 O/S BUS NO. 5 O/S Circ Water Pumps

1. 21 O/S BUS NO. 6 O/S

1. 22 O/S 480 Von BUS SA O

1. 23 O/S BUS 2A O/S

1. 24 O/S BUS 3A O/S

1. 25 O/S BUS 6A O/S

1. 26 O/S Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 O/S

1. 22 O/S

1. 22 O/S

1. 23 0

1. 23 O/S Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 S

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 0

1. 22 S

1. 22 O/S Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 O/S

1. 23 O/S

1. 22 O/S

1. 24 O/S 9ging Pumps

1. 21 0

1. 25 O/S

1. 22 O/S

1. 23 O/S Rx Coolant Pumps

1. 21 O/S VC iso!. Phase A (Y/N)

Y

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

Y

1. 23 O/S VC isol. Vent (Y/N)

Y

1. 24 O/S Component Cooling Pumps

1. 21-S Exceptions MOVs 786,769,789 Y

1. 22 O/S

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 290*

Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 290*

Aux Feed Water Pumps

1. 21 O/S

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 70*

1. 23 O/S

1. 22 (GPM) 150' Containment Spray Pumps

1. 21 0

1. 23 (GPM) 70*

1. 22 O/S

1. 24 (GPM) 150*

' Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

0 l

Hydrogen Recombiner

1. 21 S

1. 23 (%)

0

1. 22 S

1. 24(%)

O Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status i

i,o

[ \\v)

I VI-18

SCENARIO NO.1998C

!tn PLANT STATUS LQG V) l PARAMETER TIME PARAMETER TIME 11:00 11:00 l

Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O/S (Essential H6: 1-2-3)

1. 22 O/S 6900 Volt BUS NO.1 O/S

1. 23 O/S BUS NO. 2 O/S

1. 24 S

BUS NO. 3 O/S

1. 25 O/S BUS NO. 4 O/S

1. 26 O/S BUS NO. 5 O/S Circ Water Pumps

1. 21 O/S BUS NO. 6 O/S

1. 22 O/S 480 Von BUS 5A O

1. 23 O/S BUS 2A O/S

1. 24 O/S BUS 3A O/S

1. 25 O/S BUS 6A O/S

1. 26 O/S Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 O/S

1. 22 O/S

1. 22 O/S

1. 23 0

1. 23 O/S Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 S

GT-2 S

1. 22 S

. GT-3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 0

1. 22 S

i

1. 22 O/S Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 O/S

1. 23 O/S

1. 22 O/S

1. 24 O/S

[qjng Pumps

1. 21 0

1. 25 O/S AU

1. 22 O/S

1. 23 O/S Rx Coolant Pumps

1. 21 O/S VC isol. Phase A (Y/N)

Y

1. 22 O/S VC lsol. Phase B (YIN)

Y

1. 23 O/S VC isol. Vent (Y/N)

Y

1. 24 O/S Component Cooling Pumps

1. 21 S

Exceptions MOVs 786,769,789 Y

1. 22 O/S

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 290 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 290 Aux Feed Water Pumps

1. 21 O/S

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 70

1. 23 O/S

1. 22 (GPM) 150 Containment Spray Pumps

1. 21 0

1. 23 (GPM) 70

1. 22 O/S

1. 24 (GPM) 150 Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen Recombiner

1. 21 S

1. 23 (%)

0 l

1. 22 S

1. 24 (%)

0 i

Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby i

• = Change in Status l

1 VI-19

i SCENARIO NO.1998C i!(n P_LANT SIATUS_LDG i

4

v i

l PARAMETER TIME PARAMETER TIMC 11:15 11:15 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13,8KV O/S (Essential Hdr 1-2-3)

1. 22 O/S 6900 Volt BUS NO.1 O/S

1. 23 O/S l

BUS NO. 2 O/S

1. 24 S

BUS NO. 3 O/S

1. 25 O/S BUS NO. 4 O/S

1. 26 O/S BUS NO. 5 O/S Cire Water Pumps

1. 21 O/S BUS NO. 6 O/S

1. 22 O/S 480 Volt BUS SA O

1. 23 O/S BUS 2A O/S

1. 24 O/S BUS 3A O/S

1. 25 O/S BUS 6A O/S

1. 26 O/S Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 O/S

1. 22 O/S

1. 22 O/S

1. 23 0

1. 23 O/S Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 S

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 0

1. 22 S

1. 22 O/S Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHO Pumps

1. 21 O/S

1. 23 O/S

1. 22 O/S

1. 24 O/S

1. ing Pumps

1. 21 0

1. 25 O/S

1. 22 O/S

1. 23 O/S Rx Coolant Pumps

1. 21 O/S VC isol. Phase A (Y/N)

Y

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

Y

1. 23 O/S VC 15o1. Vent (Y/N)

Y

1. 24 O/S Cumponent Cooling Pumps

1. 21 S

Exceptions MOVs 786,769,789 Y

1. 22 O/S

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 290 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 290 Aux Feed Water Pumps

1. 21 O/S

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 70

1. 23 O/S

1. 22 (GPM) 150 Containment Spray Pumps

1. 21 0

1. 23 (GPM) 70

1. 22 O/S

1. 24 (GPM) 150 Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen Recombiner

1. 21 S

1. 23 (%)

0

1. 22 S

1. 24 (%)

O Legend 0 = Operating O/S = Out of Service used to denote defective equipmerd S = Standby

• = Changein Status

,T'N t

VI-20

SCENARIO NO.1998C ex PLANT STATUS LOG

\\

PARAMETER TIME PARAMETER TIME 11:30 11:30 l

Offste Power Available 138KV O/S Service Water Pumps

1. 21 0

13.BKV O/S (Essential Hdr 12-3)

1. 22 O/S 6900 Volt BUS NO.1 O/S

1. 23 O/S 1

BUS NO. 2 O/S

1. 24 S

BUS NO. 3 O/S

1. 25 O/S BUS NO. 4 O/S

1. 26 O/S i

BUS NO. 5 O/S Circ Water Pumps

1. 21 O/S l

BUS NO. 6 O/S

1. 22 O/S l 480 Volt BUS SA O

1. 23 O/S i

BUS 2A O/S

1. 24 O/S BUS 3A O/S

1. 25 O/S BUS 6A O/S

1. 26 O/S Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 O/S

1. 22 O/S

1. 22 O/S

1. 23 0

1. 23 O/S Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 S

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 0

1. 22 S

1. 22 O/S Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

I

. RHR Pumps

1. 21 O/S

1. 23 O/S n

1. 22 O/S

1. 24 O/S l

ling Pumps

1. 21 0

1. 25 O/S V

1. 22 O/S

1. 23 O/S Rx Coolant Pumps

1. 21 O/S VC isol. Phase A (Y/N)

Y l

1. 22 O/S VC lsol. Phase B (Y/N)

Y

1. 23 O/S VC lsol. Vent (Y/N)

Y

1. 24 O/S Component Cooling Pumps

1. 21 S

Exceptions MOVs 786,769,789 Y

1. 22 O/S

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 290 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0 I

1. 22 O/S

1. 23 (GPM) 290 Aux Feed Water Pumps

1. 21 O/S

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 70

1. 23 O/S

1. 22 (GPM) 150 Containment Spray Pumps

1. 21 O

1. 23 (GPM) 70 l

1. 22 O/S

1. 24 (GPM) 150 Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22(%)

0 l Hydrogen Recombiner

1. 21 S

1. 23 (%)

0

1. 22 S

1. 24 (%)

0 i

Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status F

fh iU VI-21

SCENARIO NO.1998C i

l j

PLANT STATUS LOS l l

\\

?'J l

l PARAMETER TIME PARAMETER TIMS t

1&45 11:45 i

Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O/S (Essential Hdr 1-2-3)

1. 22 O/S 6900 Volt BUS NO.1 O/S

1. 23 O/S BUS NO. 2 O/S

1. 24 S

l BUS NO. 3 O/S

1. 25 O/S BUS NO. 4 O/S

1. 26 O/S BUS NO. 5 O/S Cire Water Pumps

1. 21 O/S BUS NO. 6 O/S

1. 22 O/S 480 Volt BUS SA O

1. 23 O/S BUS 2A O/S

1. 24 O/S BUS 3A O/S

1. 25 O/S BUS 6A O/S

1. 26 O/S Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 O/S

1. 22 O/S

1. 22 O/S

1. 23 0

1. 23 O/S i

Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 S

l GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 S

SIS Pumps

1. 21 0

1. 22 S

i

1. 22 O/S Fan Cooler Units

1. 21 O

J

1. 23 O/S

1. 22 0

RHR Pumps

1. 21 O/S

1. 23 O/S j

1. 22 O/S

1. 24 O/S i

Sging Pumps

1. 21 0

1. 25 O/S

1. 22 O/S

1. 23 O/S Rx Coolant Pumps

1. 21 O/S VC isol. Phase A (Y/N)

Y

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

Y

1. 23 O/S VC isol. Vent (Y/N)

Y

1. 24 O/S Component Cooling Pumps

1. 21 S

Exceptions MOVs 786,769,789 Y

1. 22 O/S

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 290 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 290 Aux Feed Water Pumps

1. 21 O/S

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 70

1. 23 O/S

1. 22 (GPM) 150 Containment Spray Pumps

1. 21 0

1. 23 (GPM) 70

1. 22 O/S

1. 24 (GPM) 150 Recirculation Pumps

1. 21 S

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22(%)

O Hydrogen Recombiner

1. 21 S

1. 23(%)

0

1. 22 S

1. 24 (%)

O Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Change in Status l

t l,[^\\i j G l

VI-22 a_

SCENARIO NO.1998C i

lp ELANT STATUS _LQG

]

V t

l PARAMETER TIME PARAMETER TIME 12:00 12:00 Offsite Power Avalable 138KV O/S Service Water Pumps

1. 21 0

13.BKV O/S (Essential Hdr 12-3)

1. 22 O/S 6900 Volt BUS NO.1 O/S

1. 23 O/S BUS NO. 2 -

O/S

1. 24 O'

BUS NO. 3 O/S

1. 25 O/S BUS NO. 4 O/S

1. 26 O/S

)

BUS NO. 5 O/S Cire Water Pumps

1. 21 O/S BUS NO. 6 O/S

1. 22 O/S 480 Volt BUS SA O

1. 23 O/S BUS 2A O/S

1. 24 O/S BUS 3A O/S

1. 25 O/S BUS 6A O/S

1. 26 O/S Emergency D/Gs

1. 21 O

Condensate Pumps

1. 21 O/S

1. 22 O/S

1. 22 O/S

1. 23 0

1. 23 O/S Gas Turbines GT-1 S

Comp Cool Heat Exch

1. 21 O'

GT-2 S

1. 22 S

GT 3 S

RHR Heat Exchanger

1. 21 O*

SIS Pumps

1. 21 S*

1. 22 S

1. 22 O/S Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 O/S

1. 23 O/S

1. 22 O/S

1. 24 O/S

' 9ingPumps

1. 21 S*

1. 25 O/S

1. 22 O/S

1. 23 O/S Rx Coolant Pumps

1. 21 O/S VC isol. Phase A (Y/N)

Y l

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

Y

1. 23 O/S VC lsol. Vent (Y/N)

Y

1. 24 O/S Component Cooling Pumps

1. 21 O'

Exceptions MOVs 786.769,789 Y

1. 22 O/S

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0*

Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0*

j Aux Feed Water Pumps

1. 21 O/S

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 702*

1. 23 O/S

1. 22 (GPM) 741' Containment Spray Purnps

1. 21 0

1. 23 (GPM) 666*

1. 22 O/S

1. 24 (GPM) 740*

Recirculation Pumps

1. 21 O*

Accumulator Level

1. 21 (%)

0 j

1. 22 O/S

1. 22 (%)

0

. Hydrogen Recombiner

1. 21 S

1. 23 (%)

0 j

1. 22 S

1. 24(%)

0 l

I Legend O = Operating O/S = Out of Service used to denote defective equipment i

S = Standby i

• = Changein Status iv i

(

VI-23 L

__ ____________--_____ - ____~

SCENARIO NO.1998C i c PLANT STATUS LQG (O

PARAMETER TIME PARAMETER TIME 12:15 12:15 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O*

(Essential Hdr 1-2-3)

1. 22 O/S 6000 Volt BUS NO.1 O'

1. 23 O/S BUS NO. 2 O'

1. 24 O

BUS NO. 3 O*

1. 25 O/S DUS NO. 4 O*

1. 26 O/S BUS NO. 5 O'

Cire Water Pumps

1. 21 S*

BUS NO. 6 O'

1. 22 S*

480 Volt BUS SA O

1. 23 S*

BUS 2A O/S

1. 24 S*

BUS - 3A O/S

1. 25 S*

BUS SA O/S

1. 26 S*

Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 S*

1. 22 O/S

1. 22 S*

1. 23 0

1. 23 S*

Gas Turbines GT1 S

Comp. Cool Heat Exch

1. 21 O

GT 2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 O

SIS Pumps

1. 21 S

1. 22 S

1. 22 O/S Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 O/S

1. 23 O/S

1. 22 O/S

1. 24 O/S Sging Pumps

1. 21 S

1. 25 O/S

1. 22 O/S

1. 23 O/S Rx Coolant Pumps

1. 21 S*

VC isol. Phase A (Y/N)

Y

1. 22 S*

VC isol. Phase B (Y/N)

Y

1. 23 S*

VC isol. Vent (Y/N)

Y

1. 24 S*

Component Cooling Pumps

1. 21 O

Exceptions MOVs 706.769.789 '

Y

1. 22 O/S

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooiing Pu'

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 l

Aux Feed Water Pumps

1. 21 O/S

1. 24 (GPM) 0 l

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706*

1. 23 O/S

1. 22 (GPM) 743' Containment Spray Pumps

1. 21 S*

1. 23 (GPM) 758*

1. 22 O/S

1. 24 (GPM) 742' Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen Recombiner

1. 21 S

1. 23 (%)

0

1. 22 S

1. 24(%)

0 Legend 0 = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status

,,R l5

\\

l()

1 VI-24 i

SCENARIO NO.1998C

{

l

/~T PLANT STATUS LOG l

PARAMETER TIME PARAMETER TIME 12:30 12:30 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 12-3)

1. 22 O'

6900 Volt BUS NO.1 0

1. 23 O/S BUS NO. 2 0

1. 24 O

BUS NO. 3 0

1. 25 O'

BUS NO. 4 0

1. 20 O/S BUS NO. 5 O

Circ Water Pumps

1. 21 S

BUS NO. 6 0

1. 22 S

480 Volt BUS 5A O

1. 23 S

BUS 2A O*

1. 24 S

BUS 3A O*

1. 25 S

BUS 6A O/S

1. 26 S

l Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

l

1. 23 0

1. 23 S

Gas Turbines GT1 S

Comp. Cool Heat Exch

1. 21 0

GT-2 S

1. 22 S

GT.3 S

RHR Heat Exchanger

1. 21 0

SIS Pumps

1. 21 S

1. 22 S

1. 22 S*

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 S*

1. 23 O'

6ing Pumpn

1. 22 O/S

1. 24 O*

1. 21 S

1. 25 O/S

1. 22 O/S

1. 23 O/S Rx Coolant Pumps

1. 21 S

VC lsol. Phase A (Y/N)

Y

1. 22 S

VC isol. Phase B (Y/N)

Y

1. 23 S

VC isol.. Vent (YIN)

Y

1. 24 S

Component Coohng Pumps

1. 21 O

Exceptions MOVs 786.769,789 Y

1. 22 O*

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 O'

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22 (GPM) 743 Containment Spray Pumps

1. 21

'S

1. 23 (GPM) 758

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen Recombiner

1. 21 S

1. 23 (%)

0

1. 22 S

1. 24(%)

0 6

j 1

i Legend O = Operating O/S = Out of Service used to denote defective equipment i

S = Standby

• = Change in Status (J

VI-25

SCENARIO NO.19980 l

l PLANT STATUS _LQG I J PARAMETER TIME PARAMETER TIME l

12:45 12:45 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 1-2-3)

1. 22 0

6900 Volt BUS NO.1 0

1. 23 O/S BUS NO. 2 0

1. 24 0

BUS NO. 3 0

1. 25 O

BUS NO. 4 0

1. 26 O/S BUS NO. 5 O

Circ Water Pumps

1. 21 S

BUS NO. 6 0

1. 22 S

480 Volt BUS SA O

1. 23 S

BUS 2A O

1. 24 S

BUS 3A O

1. 25 S

BUS CA O/S

1. 26 S

Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 O

GT-2 S

1. 22 S

GT3 S

RHR Heat Exchanger

1. 21 O

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O!S

1. 22 O

RHR Pumps

1. 21 S

1. 23 0

1. 22 O/S

1. 24 O

Ding Pumps

1. 21 S

1. 25 O/S

1. 22 S

1. 23 O/S Rx Coolant Pumps

1. 21 S

VC lsol. Phase A (Y/N)

Y

1. 22 S

VC isol. Phase B (Y/N)

Y

1. 23 S

VC isol. Vent (Y/N)

Y

1. 24 S

Component Cooling Pumps

1. 21 O

Exceptions MOVs 786,769,789 Y

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 0

1. 22(GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22 (GPM) 743 Containment Spray Pumps

1. 21 S

1. 23 (GPM) 758

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen Recombiner

1. 21 S

1. 23 (%)

0

1. 22 S

1. 24 (%)

O Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status o

ks) l VI-26 L- _ -- _.

SCENARIO NO.1998C PLANT STATUS 1QG i

,s

- (

l %,

PARAMETER TIME PARAMETER TIME

)

13.00 13:00 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 1-2-3)

1. 22 0

6900 Volt BUS NO.1 0

1. 23 O/S BUS NO 2 0

1. 24 0

BUS NO. 3 0

1. 25 O

BUS NO. 4 O

1. 26 O/S BUS NO. 5 O

Cire Water Pumps

1. 21 S

BUS NO. 6 0

1. 22 S

480 Volt BUS SA O

1. 23 S

i BUS 2A O

1. 24 S

BUS 3A O

1. 25 S

BUS 6A O/S

1. 26 S

Emergency D/Gs

1. 21 O

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

Gas Turbines GT1 S

Comp. Cool Heat Exch

1. 21 O

GT-2 S

1. 22 S

i GT-3 S

RHR Heat Exchanger

1. 21 O

)

SIS Pumps

1. 21 S

1. 22 S

j

1. 22 S

Fan Cooler Units

1. 21 O

1. 23 O/S

1. 22 O

RH3 Pumps

1. 21 S

1. 23 0

1. 22 O/S

1. 24 O

Sing Pumps

1. 21 S

1. 25 O/S

1. 22 S

1. 23 O/S Rx Coolant Pumps

1. 21 S

VC isol Phase A (Y/N)

Y

1. 22 S

VC isol. Phase B (Y/N)

Y

1. 23 S

VC isol. Vent (Y/N)

Y

1. 24 S

Component Cooling Pumps

1. 21 O

Exceptions MOVs 786,769.789,869B Y'

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22 (GPM) 743 Containment Spray Pumps

1. 21 S

1. 23 (GPM) 758

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen Recombiner

1. 21 S

1. 23 (%)

0

1. 22 S

1. 24 (%)

O Legend O = Operating O/S = Out of Service used to denote defective equipment l

S = Standby

• = Change in Status v(

VI-27

l l

SCENARIO i ).19980 5

g PLANT STAIU_S_ LOG

\\L PARAMETER TIME PARAMETER TIME 13:15 13:15 i

)

Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 12-3)

1. 22 O

6000 Voit BUS NO.1 0

1. 23 O/S BUS NO. 2 0

1. 24 O

BUS NO. 3 0

1. 25 O

BUS NO. 4 0

1. 26 O/S BUS NO. 5 O

Circ Water Pumps

1. 21 S

BUS NO.6 O

1. 22 S

480 Volt BUS SA O

1. 23 S

BUS 2A O

1. 24 S

BUS 3A O

1. 25 S

BUS SA O/S

1. 26 S

Emergency D/Gs

1. 21 O

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

Gas Turbines GT1 S

Comp. Cool Heat Exch

1. 21 0

GT-2 S

1. 22 S

i GT3 S

RHR Heat Exchanger

1. 21 O

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 S

1. 23 0

1. 22 O/S

1. 24 0

g ging Pumps

1. 21 S

1. 25 O!S V

1. 22 S

1. 23 O/S Rx Coolant Pumps

1. 21 S

VC isol Phase A (Y/N)

Y

1. 22 S

VC isot Phase B (Y/N)

Y

1. 23 S

VC isol. Vent (Y/N)

Y

1. 24 S

Component Cooling Pumps

1. 21 O

Exceptions MOVs 786,769,789,8698 Y

1. 22 O

1. 23 O/S High Head SIS Flow '

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22 (GPM) 743 Containment Spray Pumps.

1. 21 S

1. 23 (GPM) 758

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen F<ecombiner

1. 21 S

1. 23(%)

0

1. 22 S

1. 24(%)

O Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status o

VI-28

i SCENARIO NO.1998C PLANT STAIUS LOG I q) o i

PARAMETER TIME PARAMETER TIME 13:30 13:30 l

Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 1-2-3)

1. 22 O

l 6900 Volt BUS NO.1 0

1. 23 O/S BUS NO. 2 0

1. 24 O

BUS NO. 3 O

1. 25 O

BUS NO. 4 0

1. 26 O/S BUS NO. 5 O

Cire Water Pumps

1. 21 S

BUS NO. 6 0

1. 22 S

480 Volt BUS SA O

1. 23 S

BUS 2A O

1. 24 S

BUS 3A O

1. 25 S

BUS 6A O/S

1. 26 S

Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

j Gas Turbines GT1 S

Comp. Cool Heat Exch

1. 21 O

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 0

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 S

1. 23 0

1. 22 O/S

1. 24 0

ing Pumps

1. 21 S

1. 25 O/S

1. 22 S

1. 23 O/S Rx Coolant Pumps

1. 21 S

VC isol. Phase A (Y/N)

Y

1. 22 S

VC isol. Phase B (Y/N)

Y

1. 23 S

VC isol Vent (Y/N)

Y

1. 24 S

i Component Cooling Pumps

1. 21 O

Exceptions MOVs 786.769,789,869B Y

l

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22 (GPM) 743 Containment Spray Pumps

1. 21 S

1. 23 (GPM) 758

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen Recombiner

1. 21 S

1. 23 (%)

0

1. 22 S

1. 24 (%)

0 l Legend 0 = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status

(%U 1

VI-29 u_

SCENARIO NO.1998C l

I e

PLANT STATUSl.QG l

PARAMETER TIME PARAMETER TIME 13:45 13:45 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 1-2-3)

1. 22 0

6900 Volt BUS NO.1 0

1. 23 O/S BUS NO. 2 0

1. 24 O

BUS NO. 3 0

1. 25 O

BUS NO. 4 0

1. 26 O/S BUS NO. 5 0

Circ Water Pumps

1. 21 S

BUS NO. 6 0

1. 22 S

480 Volt BUS SA O

1. 23 S

BUS 2A O

1. 24 S

BUS 3A O

1. 25 S

BUS 6A O/S

1. 26 S

Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 O

1. 23 S

i Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 O

{

GT-2 S

1. 22 S

i GT-3 S

RHR Heat Exchanger

1. 21 O

I SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 S

1. 23 O

1. 22 O/S

1. 24 O

Oing Pumps

1. 21 S

1. 25 O/S

1. 22 S

1. 23 O/S Rx Coolant Pumps

1. 21 S

VC isol. Phase A (Y/N)

Y

1. 22 S

VC lsol. Phase B (Y/N)

Y

1. 23 S

VC lsol Vent (Y/N)

Y

1. 24 S

Component Cooling Pumps

1. 21 O

Exceptions MOVs 786,769,789,8698 Y

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22 (GPM) 743 Containment Spray Pumps

1. 21 S

1. 23 (GPM) 758

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Levei

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen Recombiner

1. 21 S

1. 23 (%)

0 J

1. 22 S

1. 24 (%)

0 i

Legend O = Operating i

l O/S = Out of Service used to denote defective equipment S = Standby

• = Change in Status l

\\

[v VI-30

l SCENARIO NO.1998C PLANT STATUS LQG l (._J i

PARAMETER TIME PARAMETER TIME 14:00 14:00 I

Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 1-2-3)

1. 22 0

6900 Volt BUS NO.1 0

1. 23 O/S BUS NO. 2 0

1. 24 O

BUS NO. 3 O

1. 25 O

BUS NO. 4 0

1. 26 O/S j

BUS NO. 5 O

Circ Water Pumps

1. 21 S

BUS NO. 6 0

1. 22 S

480 Volt BUS SA O

1. 23 S

BUS 2A O

1. 24 S

i BUS 3A O

1. 25 S

l BUS 6A O/S

1. 26 S

Emergency D/Gs

1. 21 O

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

Gas Turbines GT1 S

Comp. Cool Heat Exch

1. 21 O

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 O

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 S

1. 23.

O

1. 22 O/S

1. 24 O

Ding Pumps

1. 21 S

1. 25 O/S

1. 22 S

1. 23 O/S Rx Coolant Pumps

1. 21 S

VC isol Phase A (Y/N)

Y

1. 22 S

VC isol. Phase B (Y/N)

Y

1. 23 S

VC isol. Vent (Y/N)

Y

1. 24 S

Component Cooling Pumps

1. 21 O

Excephons MOVs 786.769.789,8698 Y

l

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 l

Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22 (GPM) 743 Containment Spray Pumps

1. 21 S

1. 23 (GPM) 758

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen Recombiner

1. 21 S

1. 23 (%)

0

1. 22 S

1. 24 (%)

0 Legend 0 = Operating -

O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status o

e a

VI-31

I l

l SCENARIO NO.1998C PLANT STATUS _LO.G PARAMETER TIME PARAMETER TIME r

14:15 14:15 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 1-2-3)

1. 22 O

l 6900 Volt BUS NO.1 0

1. 23 O/S i

BUS NO. 2 0

1. 24 O

[

BUS NO. 3 O

1. 25 0

BUS NO. 4 O

1. 26 O/S l

BUS NO. 5 O

Cire Water Pumps

1. 21 S

l BUS NO.6 O

1. 22 S

i 480 Volt BUS SA O

1. 23 S

I BUS 2A O

1. 24 S

BUS 3A O

1. 25 S

BUS 6A O/S

1. 26 S

Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

Gas Turbines GT.1 S

Comp. Cool Heat Exch

1. 21 0

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 O

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

CHR Pumps

1. 21 S

1. 23 0

1. 22 O/S

1. 24 0

' Oging Pumps

1. 21 S

1. 25 O/S

(

/

1. 22 S

V

1. 23 O/S l

Rx Coolant Pumps

1. 21 S

VCisol Phase A (Y/N)

Y

1. 22 S

VC isot Phase B (Y/N)

Y l

1. 23 S

VC isti Vent (YIN)

Y

1. 24 S

Component Cooling Pumps

1. 21 O

Exceptions MOVs 786,769,789,869B Y

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0 I

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22 (GPM) 743 Containment Spray Pumps

1. 21 S

1. 23 (GPM) 7'A

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen Recombiner

1. 21 S

1. 23 (%)

0

1. 22 S

1. 24(%)

0 l Legend 0 = Operating O/S = Out of Service used to denote defective equipment S = Standby l

• = Changein Status l

/%

r n

vi-32

SCENARIO NO.1998C i

PJ. ANT _S_TAIQS LOS PARAMETER TIME PARAMETER TIME 14:30 14:30 Offsite Power Available 138KV O/S Service Water Purnps

1. 21 0

13.8KV O

(Essential Hdr 1-2-3)

1. 22 0

6900 Volt BUS NO.1 0

1. 23 O/S BUS NO. 2 0

1. 24 O

BUS NO,3 0

1. 25 O

BUS NO. 4 O

1. 26 O/S BUS NO,5 O

Circ Water Pumps

1. 21 S

BUS NO. 6 O

1. 22 S

j 480 Volt BUS SA O

1. 23 S

1 BUS 2A O

1. 24 S

BUS 3A O

1. 25 S

BUS 6A O/S

1. 26 S

Emergency D/Gs

1. 21 O

Condensate Pumps

1. 21 S

i I

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

Gas Turbines GT1 S

Comp. Cool Heat Exch

1. 21 0

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 0

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 S

1. 23 0

1. 22 O/S

1. 24 0

gs

'(

hing Pumps

1. 21 S

1. 25 O/S

\\Q

1. 22 S

1. 23 O/S Rx Coolant Pumps -

1. 21 S

VC isol Phase A (Y/N)

Y

1. 22 S

VC isol. Phase B (Y/N)

Y f,23 S

VC isol. Vent (Y/N)

Y

1. 24 S

Component Cooling Pumps

1. 21 O

Exceptions MOVs 786,769,789,869B Y

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0-

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22 (GPM) 743 Containment Spray Pumps

1. 21 S

1. 23 (GPM) 758

1. 22 O/S

1. 24 (GPM) 742 Rectreutation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen Recombiner

1. 21 S

1. 23(%)

0

1. 22 S

1. 24 (%)

O Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status I

lln v

VI-33

l l

SCENARIO NO.1998C l<s P_LANT STATUS LO_G n

b PARAMETER TIME PARAMETER TIME l

14:45 14:45 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 1-2-3)

1. 22 0

6900 Volt BUS NO.1 0

1. 23 O/S BUS NO.2 0

1. 24 O

BUS NO.3 0

1. 25 O

BUS NO. 4 0

1. 26 O/S BUS NO. 5 O

Circ Water Pumps

1. 21 S

BUS NO. 6 0

1. 22 S

1 480 Volt BUS SA O

1. 23 S

BUS 2A O

1. 24 S

BUS 3A O

1. 25 S

BUS 6A O/S

1. 26 S

Emergency D/Gs

1. 21 O

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 O

GT2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 O

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 S

1. 23 0

1. 22 O/S

1. 24 0

/mNing Pumps

1. 21 S

1. 25 O/S V

1. 22 S

1. 23 0,-

Rx Coolant Pumps

1. 21 VC isol. Phase A (Y/N)

Y

1. 22 1

VC isol. Phase B (YlN)

Y

1. 23 I

VC isol. Vent (Y/N)

Y

1. 24 5

Component Cooling Pumps

1. 21 O

Exceptions MOVs 786,769,789,8698 Y

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22 (GPM) 743 Containment Spray Pumps 1 11 S

1. 23 (GPM) 758

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen Recombiner

1. 21 S

1. 23 (%)

0

1. 22 S

1. 24 (%)

O Legend 0 = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status pv VI-34

SCENARIO NO.1998C

.p PLANT SIATUS LO_Q d

PARAMETER TIME PARAMETER TIME 15:00 15:00 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 12-3)

1. 22 O

6900 Volt BUS NO.1 0

1. 23 O/S BUS NO.2 0

1. 24 O

BUS NO. 3 0

1. 25 0

BUS NO. 4 0

1. 26 O/S BUS NO. 5 O

Circ Water Pumps

1. 21 S

BUS NO. 6 0

1. 22 S

480 Volt BUS 5A O

1. 23 S

BUS 2A O

1. 24 S

BUS 3A O

1. 25 S

BUS 6A O/S

1. 26 S

Emergency D/Gs

1. 21 O

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

Gas Turbines GT1 S

Comp Cool Heat Exch

1. 21 0

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 O

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 S

1. 23 0

r~~g

1. 22 O/S

1. 24 0

(J;ing Pumps

1. 21 S

1. 25 O/S

1. 22 S

1. 23 O/S Rx Coolant Pumps

1. 21 S

VC isol. Phase A (Y/N)

Y

1. 22 S

VC isol. Phase B (Y/N)

Y

1. 23 S

VC isol. Vent (Y/N)

Y

1. 24 S

Component Cooling Pumps

1. 21

')

Exceptions MOVs 786.769.789,869B Y

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pur.1ps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 ;GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22 (GPM) 743 Containment Spray Pumps

1. 21 S

1. 23 (GPM) 758

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22(%)

O Hydrogen Recombiner

1. 21 S

1. 23(%)

0

1. 2?

S

1. 24 (%)

0 Legend 0 = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Changein Status I

l

. [~'T G

VI-35 u___----_-_--_

l SCENARIO NO.1998C j fm PLANT STATUS LOG l i 3

l'O i

PARAMETER TIME PARAMETER TIME 15:15 15:15

(

Offsite Power Available 13SKV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 1-2 3)

1. 22 0

6900 Volt BUS NO.1 0

1. 23 O/S BUS NO.2 0

1. 24 O

BUS NO. 3 0

1. 25 O

BUS NO. 4 0

1. 26 O/S BUS NO. 5 O

Circ Water Pumps

1. 21 S

BUS NO. 6 0

1. 22 S

480 Volt BUS 5A O

1. 23 S

BUS 2A O

1. 24 S

BUS 3A O

1. 25 S

BUS 6A O/S

1. 26 S

Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

. Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 O

GT2 S

1. 22 S

(IT-3 S

RHR Heat Exchanger

1. 21 O

I SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 S

1. 23 0

1. 22 O/S

1. 24 0

ging Pumps

1. 21 S

1. 25 O/S

1. 22 S

1. 23 O/S Rx Coolant Pumps

1. 21 S

VC isol. Phase A (Y/N)

Y

1. 22 S

VC isol. Phase B (Y/N)

Y

1. 23 S

VC isol. Vent (Y/N)

Y

1. 24 S

Component Cooling Pumps

1. 21 O

Exceptions MOVs 786,769,789,869B Y

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22 (GPM) 743 Containment Spray Pumps

1. 21 S

1. 23 (GPM) 758

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accurnulator Level

1. 21 (%)

0 l

1. 22 O/S

1. 22 (%)

0 Hydrogen Recombiner

1. 21 S

1. 23(%)

0

1. 22 S

1. 24(%)

O Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Change in Status I[N 1

V VI-36 L____-_______

a

l SCENARIO NO.1998C PLANT STATUS _LQG n

PARAMETER TIME PARAMETER TIME 1

15:30 15:30 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 1-2-3)

1. 22 0

6900 Voit BUS NO.1 O

1. 23 O/S BUS NO. 2 0

1. 24 O

BUS NO. 3 0

1. 25 O

BUS NO. 4 0

1. 26 O/S BUS NO. 5 O

Circ Water Pumps

1. 21 S

BUS NO. 6 0

1. 22 S

480 Volt BUS SA O

1. 23 S

BUS 2A O

1. 24 S

BUS 3A O

1. 25 S

BUS 6A O/S

1. 26 S

Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

Gas Turbines GT1 S

Comp. Cool Heat Exch

1. 21 O

GT2 S

1. 22 S

GT3 S

RHR Heat Exchanger

1. 21 O

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 0

RHR Pumps

1. 21 S

1. 23 0

l

1. 22 O/S

1. 24 0

)

' fling Pumps

1. 21 S

1. 25 O/S

1. 22 S

tbj

1. 23 O/S Rx Coolant Pumps

1. 21 S

VC isol. Phase A (Y/N)

Y

1. 22 S

VC isol. Phase B (Y/N)

Y l

1. 23 S

VC 1501. Vent (Y/N)

Y

]

1. 24 S

Component Cooling Pumps

1. 21 O

Exceptions MOVs 786,769,789.8698 Y

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Component CooFng Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22(GPM) 743 Containment Spray Pumps

1. 21 S

1. 23 (GPM) 758

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%)

O Hydrogen Recombiner

1. 21 S

1. 23 (%)

0

1. 22 S

1. 24(%)

O Legend O = Operating O/S = Out of Service used to denote defective equipment S = Standby

• = Change in Status (v

VI-37

SCENARIO NO.1998C p

PLANTJTATUS LOG V

PARAMETER TIME PARAMETER TIME 15:45 15:45 Offste Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essential Hdr 12-3)

1. 22 0

6900 Volt BUS NO.1 0

1. 23 O/S BUS NO. 2 0

1. 24 O

BUS NO. 3 0

1. 25 O

BUS NO. 4 0

1. 26 O/S BUS NO. 5 O

Circ Water Pumps

1. 21 S

BUS NO. 6 O

1. 22 S

480 Volt BUS SA O

1. 23 S

BUS 2A O

1. 24 S

BUS 3A O

1. 25 S

BUS 6A O/S

1. 26 S

Emergency D/Gs

1. 21 0

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 O

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 O

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 S

1. 23 0

1. 22 O/S

1. 24 0

gm

'ging Pumps

1. 21 S

1. 25 O/S

V

1. 22 S

1. 23 O/S Rx Coolant Pumps

1. 21 S

VC isol. Phase A (Y/N)

Y

1. 22 S

VC isol. Phase B (Y/N)

Y

1. 23 S

VC lsol. Vent (Y/N)

Y

1. 24 S

Component Cooling Pumps

1. 21 O

Exceptions MOVs NONE'

1. 22 O

l

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 l

Aux Compone' ",ooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22(GPM) 743 Containment Spray Pumps

1. 21 S

1. 23 (GPM) 758

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22 (%),

O HydroDen Recombiner

1. 21 S

1. 23(%)

-0

1. 22 S

1. 24 (%)

0 l

Legend 0 = Operating O/S = Out of Service used to denote defective equipment S = Standby l.

• = Changein Status

()

tv)

Vb38

SCENARIO NO.1998C l

PLANT STATUS 1Qf;[

l.S

(.)

PARAMETER TIME PARAMETER TIME 16:00 16:00 Offste Power AveRobie 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Essental Hdr 1-2-3)

1. 22 0

0000 Volt BUS NO.1 0

1. 23 O/S BUS NO.2 0

1. 24 0

BUS NO. 3 0

1. 25 O

BUS NO.4 0

1. 26 O/S BUS NO. 5 O

Circ Water Pumps

1. 21 S

BUS NO. 6 O

1. 22 S

480 Volt BUS SA O

1. 23 S

BUS 2A O

1. 24 S

1 BUS 3A O

1. 25 S

BUS 6A O/S

1. 26 S

Emergency D/Gs

1. 21 O

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

Gas Turbines GT-1 S

Comp. Cool Heat Exch

1. 21 0

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 O

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 0

RHR Pumps

1. 21 S

1. 23 0

1. 22 O/S

1. 24 O

ing Pumps

1. 21 S

1. 25 O/S

1. 22 S

l

1. 23 O/S l

Pumps

1. 21 S

VC lsol. Phase A (Y/N)

Y l

1. 22 S

VC isol. Phase B (Y/N)

Y

1. 23 S

VC lsol. Vent (Y/N)

Y

1. 24 S

Component Cooling Pumps

1. 21 O

Exceptions NONE i

1. 22 O

l

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 l Aux Component Cooling Pumps

1. 21 0

1. 22 (GPM) 0

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706 l

1. 23 O/S

1. 22 (GPM) 743 i Containment Spray Pumps

1. 21 S

1. 23 (GPM) 758 i

1. 22 O/S

1. 24 (GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22(%)

0

' Hydrogen Recombiner

1. 21 S

1. 23(%)

0 l

1. 22 S

1. 24(%)

O Legend O = Operating O/S = Out of Service used to denote defective equipment

[

S

= Standby i

= Change in Status l

VI-39

SCENARIO NO.1998C i

l l

e PLANT STATUS LOG v

l PARAMETER TIME PARAMETER TIME 16:15 16:15 Offsite Power Available 138KV O/S Service Water Pumps

1. 21 0

13.8KV O

(Esserdial Hdr 1-2-3)

1. 22 0

6000 Volt BUS NO.1 0

1. 23 O/S BUS NO. 2 0

1. 24 0

BUS NO. 3 0

1. 25 O

BUS NO. 4 O

1. 26 O/S l

BUS NO. 5 O

Cire Water Pumps

1. 21 S

BUS NO. 6 0

1. 22 S

480 Volt BUS 5A O

1. 23 S

BUS 2A O

1. 24 S

BUS 3A O

1. 25 S

BUS 6A O/S

1. 26 S

Emergency D/Gs

1. 21 O

Condensate Pumps

1. 21 S

1. 22 O/S

1. 22 S

1. 23 0

1. 23 S

Gas Turbines GT1 S

Comp. Cool Heat Exch

1. 21 0

GT-2 S

1. 22 S

GT-3 S

RHR Heat Exchanger

1. 21 0

SIS Pumps

1. 21 S

1. 22 S

1. 22 S

Fan Cooler Units

1. 21 0

1. 23 O/S

1. 22 O

RHR Pumps

1. 21 S

1. 23 0

1. 22 O/S

1. 24 0

ing Pumps

1. 21 S

1. 25 O/S I

1. 22 S

.a Coolant Pumps

1. 21

~O/S

1. 23 S

VC isol. Phase A (Y/N)

Y l

1. 22 S

VC isol. Phase B (Y/N)

Y

)

1. 23 S

VC isol. Vent (YIN)

Y

1. 24 S

Component Cooling Pumps

1. 21 O

Exceptions NONE

1. 22 0

1. 23 O/S High Head SIS Flow

1. 21 (GPM) 0 Aux Componert Cooling Pumps

1. 21 0

1. 22 (GPM) 0 l

1. 22 O/S

1. 23 (GPM) 0 Aux Feed Water Pumps

1. 21 0

1. 24 (GPM) 0

1. 22 O

Low Head SIS Flow

1. 21 (GPM) 706

1. 23 O/S

1. 22(GPM) 743 CuGine; Spray Pumps

1. 21 S

1. 23 (GPM) 758

1. 22 O/S

1. 24(GPM) 742 Recirculation Pumps

1. 21 O

Accumulator Level

1. 21 (%)

0

1. 22 O/S

1. 22(%)

0 Hydrogen Recombiner

1. 21 S

1. 23 (%)

0

1. 22 S

1. 24(%)

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= Standby i

= Changein Status 1o

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CONSOLIDATED EDISON COMPANY OF NEW YORK INDIAN POINT UNIT NO. 2 DRILL SCENARIO NO.1998C l

Vill RADIOLOGICAL INFORMATION TAB A TABLE 1:

Primary Coolant Activity Boron Concentrations I

TAB B TABLE 2:

Containment Activity t

TAB C TABLE 3:

Release Path Activity l

TAB D TABLE 4:

Plant / Sample Radiation Levels f

TAB E TABLE 5:

Facility Radiation Levels TAB F TABLE 6:

Reuter-Stokes Readings TAB G TABLE 7:

Plume Monitoring Data & Figures TAB H TABLE 8:

Offsite TLD Readings TAB l TABLE 9:

Post Accident Environmental Samples TAB J TABLE 10:

Post Accident Offsite Contamination Levels TAB K TABLE 11:

Medical Emergency Data O

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1 SCENARIO NO.1998C PLANT / SAMPLE RADIATION LEVELS l

l TABLE OF CONTENTS i

SMBEGI PAGE i

FAN BUILDING DATA Vlli-D-2 i

FAN BUILDING PHYSICAL LAYOUT Vill-D-3 4

PLANT VENT ALLEY DATA Vill-D-4 PLANT VENT ALLEY PHYSICAL LAYOUT Vill-D-5 PAB 80' DATA Vill-D-6 PAB 80' PHYSICAL LAYOUT Vill-D-7 PAB 98' DATA Vill-D-8 PAB 98' PHYSICAL LAYOUT Vill-D-9 PIPING PENETRATION AREA FIELD DATA Vill-D-10 PIPING PENETRATION AREA LAYOUT Vill-D-11 l

ELECTRICAL PENETRATION AREA FIELD DATA Vill-D-12 l

ELECTRICAL PENETRATION AREA LAYOUT Vill-D-13 MEZZANINE AREA FIELD DATA Vill-D-14 qQ MEZZANINE AREA LAYOUT Vill-D-15 SECURITY FENCE DATA Vill-D-16 SECURITY FENCE / ASSEMBLY AREA LAYOUT Vill-D-17 ASSEMBLY AREA FIELD DATA Vill-D-18 O

Vill-D-1

SCENARIO NO.1998C TABLE 4 PLANT RADIATION LEVELS LOCATION TIME RADIATION LEVELS FAN BLDG Point 1

<12:45 AS READ mR/hr 12:45 to 15:45 40,000 mR/hr

>15:45 30,000 mR/hr Point 2

<12:45 AS READ mR/hr 12:45 to 15:45 70,000 mR/hr

>15:45 55,000 mR/hr Point 3

<12:45 AS READ mR/hr 12:45 to 15:45 50,000 mR/hr

>15:45 40,000 mR/hr Point 4

<12:45 AS READ mR/hr 12:45 to 15:45 100,000 mR/hr

>15:45 80,000 mR/hr Point 5

<12:45 AS READ mR/hr p.,

12:45 to 15:45 40,000 mR/hr C/

>15:45 30,000 mR/hr i

i l

l

[

NOTE 1:

All closed window (CW) mR/hr readings will be 25% less than the open window (OW) mR/hr readings listed above.

NOTE 2:

Data to be supplied to Radiation Protection Technician at the locations after the survey is performed.

Vill-D-2

SCENARIO NO.1998C

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SCENARIO NO.1998C TABLE 4 PLANT RADIATION LEVELS LOCATION TIME RADIATION LEVELS PLANT VENT-Point 1

<12:45 AS READ mR/hr ALLEY 12:45 to 15:45 70,000 mR/hr

>15:45 55,000 mR/hr Point 2

<12:45 AS READ mR/hr 12:45 to 15:45 50,000 mR/hr i

>15:45 40,000 mR/hr i

l i

l l

l 1

l l

l i

NOTE 1:

All closed window (CW) mR/hr readings will be 25% less than the open window (OW) mR/hr readings listed above.

NOTE 2:

Data to be supplied to Radiation Protection Technician at the locations after the survey is performed.

O Vill-D-4 i

i i

SCENARIO NO.1998C ALLEY BY PLANT VENT i

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l Vill-D-5 l

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SCENARIO NO.1998C r

TABLE 4 PLANT RADIATION LEVELS LOCATION TIME RADIATION LEVELS 80' PAB Point 1

<12:45 AS READ mR/hr 12:45 to 15:45 50 mR/hr 15:45 30 mR/hr Point 2

<12:45 AS READ mR/hr 12:45 to 15:45 1,000 mR/hr 15:45 800 mR/hr Point 3

<12:45 AS READ mR/hr 12:45 to 15:45 AS READ mR/hr 15:45 AS READ m R/hr Point 4

<12:45 AS READ mR/hr 12:45 to 15:45 AS READ mR/hr 15:45 AS READ mR/hr O

Point 5

<12:45 AS READ mR/hr 12:45 to 15:45 AS READ mR/hr 15:45 AS READ mR/hr NOTE 1:

All closed window (CW) mR/hr readings will be 25% less than the open window (OW) mR/hr readings listed above.

NOTE 2:

Data to be supplied to Radiation Protection Technician at the locations after survey is performed.

Vill-D-6

SCENARIO NO.1998C

(

TABLE 4 PLANT RADIATION LEVELS LOCATION TIME RADIATION LEVELS 80' PAB Point 1

<12:45 AS READ mR/hr 12:45 to 15:45 50 mR/hr

>15:45 30 mR/hr Point 2

<12:45 AS READ mR/hr 12:45 to 15:45 1,000 mR/hr

>15:45 800 mR/hr Point 3

<12:45 AS READ mR/hr 12:45 to 15:45 AS READ mR/hr

>15:45 AS READ mR/hr Point 4

<12:45 AS READ mR/hr 12:45 to 15:45 AS READ mR/hr

>15:45 AS READ mR/hr Point 5

<12:45 AS READ mR/hr

'x 12:45 to 15:45 AS READ mR/hr

>15:45 AS READ mR/hr l

NOTE 1:

All closed window (CW) mR/hr readings will be 25% less than the open window (OW) mR/hr readings listed above.

NOTE 2:

Data to be supplied to Radiation Protection Technician at the locations after survey is performed.

O Vill-D-6

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SCENARIO NO.1998C i

G TABLE 4 PLANT RADIATION LEVELS LOCATION TIME RADIATION LEVELS 98' PAB Point 1

<12:45 AS READ mR/hr 12:45 to 15:45 AS READ mR/hr

>15:45 AS READ mR/hr Point 2

<12:45 AS READ mR/hr 12:45 to 15:45 AS READ mR/hr

>15:45 AS READ mR/hr i

Point 3

<12:45 AS READ mR/hr l

12:45 to 15:45 AS READ mR/hr i

>15:45 AS READ mR/hr l

l Point 4

<12:45 AS READ mR/hr l

12:45 to 15:45 AS READ mR/hr

>15:45 AS READ mR/hr l

Point 5

<12:45 AS READ mR/hr l^

12:45 to 15:45 AS READ mR/hr l

>15:45 AS READ mR/hr Point 6

<12:45 AS READ mR/hr 12:45 to 15:45 AS READ mR/hr

>15:45 AS READ mR/hr l

l NOTE 1:

All closed window (CW) mR/hr readings will be 25% less than the open window (OW) mR/hr readings listed above.

NOTE 2:

Data to be supplied to Radiation Protection Technician at the locations after survey is performed.

O Vill-D-8 l

F SCENARIO NO.1998C i

PRIMARY AUXILIARY BUILDING ELEVATION 98'-0"

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SCENARIO NO.1998C

(

TABLE 4

)

PLANT RADIATION LEVELS LOCATION TIME RADIATION LEVELS I

PIPING Point 1

<12:45 AS READ mR/hr PENETRATION 12:45 to 15:45 200,000 mR/hr AREA

>15:45 160,000 mR/hr

)

Point 2

<12:45 AS READ mR/hr 12:45 to 15:45 100,000 mR/hr

>15:45 80,000 mR/hr 1

Point 3

<12:45 AS READ mR/hr 12:45 to 15:45 40,000 mR/hr

>15:45 30,000 mR/hr l

NOTE 1:

All closed window (CW) mR/hr readings will be 25% less than the open l

window (OW) mR/hr readings listed above.

NOTE 2:

Data to be supplied to Radiation Protection Technician at the locations after survey is performed.

O ia Vill-D-10

SCENARIO NO.1998C i

PRIMARY AUXILIARY BUILDING q(s PIPING PENETRATION AREA j

ELEVATION 51' 0" l

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Vill-D-11 l

SCENARIO NO.1998C l

l l /,^)

TABLE 4 i '

PLANT RADIATION LEVELS l

LOCATION TIME RADIATION LEVELS ELECTRICAL Point 1

<12:45 AS READ mR/hr PENETRATION 12:45 to 15:45 10,000 mR/hr AREA

>15:45 8,000 mR/hr Point 2

<12:45 AS READ mR/hr 12:45 to 15:45 6,000 mR/hr

>15:45 5,000 mR/hr Point 3

<12:45 AS READ mR/hr 12:45 to 15:45 4,000 mR/hr

>15:45 3,000 mR/hr O

NOTE 1:

All closed window (CW) mR/hr readings will be 25% less than the open l

window (OW) mR/hr readings listed above.

i NOTE 2:

Data to be supplied to Radiation Protection Technician at the locations 7

after survey is performed.

Vill-D-12

SCENARIO NO.1998C PRIMARY AUXILIARY BUILDING ELECTRICAL PENETRATION AREA I

ELEVATION 46' 0" l

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Vill-D-13 l

SCENARIO NO.1998C TABLE 4 PLANT RADIATION LEVELS LOCATION TIME RADIATION LEVELS MEZZANINE Point 1

<12:45 AS READ mR/hr 12:45 to 15:45 1,000 mR/hr

>15:45 800 mR/hr Point 2

<12:45 AS READ mR/hr 12:45 to 15:45 700 mR/hr

>15:45 500 mR/hr Point 3

<12:45 AS READ mR/hr 12:45 to 15:45 500 mR/hr

>15:45 400 mR/hr

(

j i

NOTE 1:

All closed window (CW) mR/hr readings will be 25% less than the open window (OW) mR/hr readings listed above.

l NOTE 2:

Data to be supplied to Radiation Protection Technician at the locations after survey is performed.

'O Vill-D-14

l.

SCENARIO NO.1998C O~

PRIMARY AUXILIARY BUILDING MEZZANINE AREA ELEVATION 78' 0" i

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SCENARIO NO.199BC SECURITY FENCE -

ASSEMBLY AREA LAYOUT sits pesiMeTza secTen ute

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SCENARIO NO.1998C TABLE 4

(

PLANT RADIATION LEVELS LOCATION TIME RADIATION LEVELS OLD SIMULATOR BUILDING ALL TIMES AS READ mR/hr MATERIAL SERVICES ALL TIMES AS READ mR/hr BUILDING (MSB)

ASSEMBLY AREA A-B ALL TIMES AS READ mR/hr 15 FT TURBINE BLDG M.O. BUILDING ALL TIMES AS READ mR/hr CONSTRUCTION OFFICE ALL TIMES AS READ mR/hr COMPLEX l'

i l

l l

l NOTE 1:

All closed window (CW) mR/hr readings will be 25% less than the open window (OW) mR/hr readings listed above.

NOTE 2:

Data to be supplied to Radiation Protection Technician at the locations after the survey is performed.

3(G Vill-D-18

SCENARIO flO.1998C TABLE 5 FACILITY RADIATION LEVELS 1 METER HEIGHT READING 10FT* AIR SAMPLE LOCATION TIME OW CW BKGD IODINii PART mR/hr mR/hr CPM CPM CPM Emergency ALL

<1.0

<1.0 20 20 20 Operation Times Facility (EOF)

Operational All

<1.0

<1.0 20 20 20 Support Times Center (OSC)

Technical All

<1.0

<1.0 20 20

?0 Support Times Center (TSC)

(',ontrol Room All

<1.0

<1.0 20 20

~20 L.<CR)

Times I

Recovery All

<1.0

<1.0 20' 20 20 l

Center (RC)

Times I

l j

t 1

I 4

l i

NOTE:

Data to be supplied to Radiation Protection Technician after the survey is completed.

I I

O Vill-E i

4 I

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RRRRRRRRRRRRRRR C

7 GGGGGGGGGGGGGGG S

KKKKKKKKKKKKKKK BBBBBBBBBBBBBBB DDDDDDDDDDDDDDD RRRRRRRRRRRRRRR 6

GGGGGGGGGGGGGGG KKKKKKKKKKKKKKK BBBBBBBBBBBBBBB S

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RRRRRRRRRRRRRRR 5

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GGGGGGGGGGGGGGG KKKKKKKKKKKKKKK BBBBBBBBBBBBBBB DDDDDDDDDDDDDDD RRRRRRRRRRRRRRR GGGGGGGGGGGGGGG 1

KKKKKKKKKKKKKKK BBBBBBBBBBBBBBE 494949494949495 451 2451 2451 2451 223333444455556 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 E

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T 01 1 1 1 1 1 1 1 1 1 1 1 1 1

SCENARIO NO.1998C R-27 Monitor = 2.69E-04 Ci/sec CDE-

' Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Air Sample 10 Ft.*

Particulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 0800 l

WD 290' i

WS (m/sec) 4.3 1/WS 0.23 l

PASQUILL D

L SB Xu/O 1.8E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/Q 5.0E-5 BKGRD BKGRD BKGRD BKGRD l

2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD l-3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD L

4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD l

6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/Q 3.2E-6 BKGRD BKGRD BKGRD BKGRD l

8 mi Xu/Q 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/Q 2.1 E 6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 L

1 RR (Ci/sec) 2.69E-8 l

l TIME AFTER SHUTDOWN N/A (HRS.)

NG DCF 2.3E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW OW = OPEN WINDOW i

Vill-G-1

SCENARIO NO.1998C l (' R-27 Monitor = 2.69E-04 Ci/sec CDE-

! VFlume Speed 1 mile per 6 min.

CW" OW" THYROID CHARCOAL Air Sample 10 Ft.8 P _rticulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 0815 WD 290'

{

WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 1.8E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/Q 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/Q 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 l

I RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 0

(HRS.)

NG DCF 4.7E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW

'OW = OPEN WINDOW v

Vill-G-2

SCENARIO NO.1998C OR-27 Monitor = 2.69E-04 Ci/sec CDE-U ume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Pl l

Air Sample 10 Ft.8 Particulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM j

TIME 0830 i

WD 290*

WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 1.8E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/Q 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/Q 2.1 E-6 BKGRD BKGRD BKGRD BKGRD __

l NG RR Ci/sec 2.69E-4 i RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 1/4 (HRS.)

NG DCF 4.7E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW

'OW = OPEN WINDOW DG f

i Vill-G-3

i l

SCENARIO NO.1998C O R-27 Monitor = 2.69E-04 Cih ec CDE-O Plume Speed 1 mile per 6 mir.

CW OW THYROID CHARCOAL Air Sample 10 Ft.'

Particulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 0845 WD 290' WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

i i

SB Xu/O 1.8E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/Q 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 3

6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/Q 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/Q 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 i RR (Cl/sec) 2.69E-8 TIME AFTER SHUTDOWN 1/2 (HRS.)

NG DCF 4.7E+05 IDCF 8.0E+08 l

• CW = CLOSED WINDOW

• OW = OPEN WINDOW r

Vill-G-4 l

l l

SCENARIO NO.1998C

('N R-27 Monitor = 2.69E-04 Ci/sec CDE-k) Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL l

Air Sample 10 Ft.8 Particulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 0845 l

l WD 290 l

WS (m/sec) 4.3 i

1/WS 0.23 PASQUILL D

SB Xu/O 1.8E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/Q 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/Q 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/Q 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/Q 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/Q 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 I RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 1/2 (HRS.)

NG DCF 4.7E+05 IDCF 8.0E+08 l

• CW = CLOSED WINDOW l

• 0W = OPEN WINDOW p

Vill-G-4

SCENARIO NO.1998C AR-27 Monitor = 2.69E-04 Ci/sec CDE-UPlume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Air Sample 10 Ft.'

Particulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM

~ TIME 0900 WD 290' l

. WS (m/sec) 4.3

~

1/WS 0.23 PASQUILL D

SB Xu/O 1.8E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/Q 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/Q 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/Q 1.0E-5 BKGRD BKGRD BKGRD BKGRD L

4 mi Xu/Q 6.8E-6 BKGRD BKGRD BKGRD BKGRD i

l 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/Q 3.8E-6 BKGRD BKGRD BKGRD BKGRD 1

7 mi Xu/Q 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/Q 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/Q 2.1 E-6 BKGRD BKGRD BKGRD BKGRD

' NG RR Ci/sec 2.69E-4 i RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 3/4 (HRS.)

1 L

NG DCF 4.7E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW i

"OW = OPEN WINDOW Vill-G-5 f-

SCENARIO NO.1998C A R-27 Monitor = 2.69E-04 Ci/sec CDE-

! V Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL _

l Air Sample 10 Ft.'

l P rticulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 0915 l

WD 290' l

WS (m/sec) 4.3

\\

l 1/WS 0.23 PASQUILL D

4 SB Xu/O 1.8E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2 E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/Q 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 i RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 1

(HRS.)

NG DCF 4.7E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW

• 0W = OPEN WINDOW i O' Vill-G-6

SCENARIO NO.1998C i

e'NR-27 Monitor = 2.69E-04 Ci/sec CDE-CPlume Speed 1 mile per 6 min.

CW" OW~

THYROID CHARCOAL Air Sample 10 Ft.

Particulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 0930 WD 290*

WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 1.8E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/Q 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD I

I 6 mi Xu/Q 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/Q 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD l

10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 i RR (Ci/sec) 2.69E-8 i

TIME AFTER j

SHUTDOWN 1 1/4 i

(HRS.)

l NG DCF 4.7E+05 IDCF 8.0E+08 l

• CW = CLOSED WINDOW l

• 0W = OPEN WINDOW D) c Vill-G-7

i SCENARIO NO.1998C OR-27 Monitor = 2.69E-04 Ci/sec CDE-i V ume Speed 1 mile per 6 min.

C#

OW THYROID CHARCOAL Pl Air Sample 10 Ft.8 Paticulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 0945 l

WD 290' j

WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 1.8E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD l

3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD l

4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/Q 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD

- 9 mi Xu/Q 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 I

I RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 1 1/2 (HRS.)

j NG DCF 2.8E+05 i

IDCF 8.0E+08

'CW = CLOSED WINDOW i

}

• OW = OPEN WINDOW

(

Vill-G-8

j SCENARIO NO.1998C

(^;R-27 Monitor = 2.69E-04 Ci/sec CDE-VPlume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Air Sample 10 Ft.8 P rticulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 1000 1

WD 290' WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

s SB Xu/O 1.8E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD

)

2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD i

9 mi Xu/Q 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 i RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 1 3/4 (HRS.)

NG DCF 2.8E+05 1

IDCF 8.0E+08

'CW = CLOSED WINDOW

'OW = OPEN WINDOW lO l

Vill-G-9 j

l SCENARIO NO.1998C OR-27 Monitor = 2.69E-04 Ci/sec CDE-U Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Air Sample 10 Ft.'

Particulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM I

TIME 1015 WD 290*

WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 1.8E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD l

5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 1

7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/Q 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 I RR (Ci/sec) 2.69E-8 TIME AFTER l

SHUTDOWN 2

(HRS.)

NG DCF 2.8E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW

• 0W = OPEN WINDOW O

Vill-G-10 I

SCENARIO NO.1998C l

pdPlume Speed 1 mile per 6 min.

R-27 Monitor = 2.69E-04 Ci/sec CDE-CW OW THYROID CHARCOAL Air Sample 10 Ft.

P rticulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 1030 WD 320' WS (m/sec) 4.3 i

1/WS 0.23 PASQUILL D

I SB Xu/Q 1.9E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD f

2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/Q 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 i RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 21/4 (HRS.)

NG DCF 2.8E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW f

"OW = OPEN WINDOW l

(>\\

l Vill-G-11

SCENARIO NO.1998C R-27 Monitor = 2.69E-04 Ci/sec CDE-p Plume Speed 1 mile per 6 min.

d CW OW THYROID CHARCOAL Air Sample 10 Ft.'

Particulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 1045 WD 320' WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 1.9E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/Q 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O -

2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/Q 2.1 E-6 BKGRD BKGRD BKGRD BKGRD f

NG RR Ci/sec 2.69E-4 l

I RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 2 1/2 (HRS.)

NG DCF 2.3E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW

• OW = OPEN WINDOW O

Vill-G-12

___.________________________d

SCENARIO NO.1998C l

R-27 Monitor = 2.69E-04 Cl/sec CDE-Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Air Sample 10 Ft.'

Paticulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 1100 WD 340*

WS (m/sec) 4.3 1/WS 0.23 i

PASQUILL D

SB Xu/O 1.6E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/Q 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD

- 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD l

5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/Q 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/Q 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/Q 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/Q 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 l RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 2 3/4 (HRS.)

NG DCF 2.3E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW

• OW = OPEN WINDOW O

Vill-G-13

SCENARIO NO.19980 A -27 Monitor = 2.69E-04 Ci/sec R

CDE-U ume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Pl Air Sample 10 Ft.'

Particulate Filter = BKGD, mR/hr mR/hr mrem /hr CPM TIME 1115 WD M&

j WS (m/sec) 4.3 r

1 1/WS 0.23-l PASQUILL D

SB Xu/O 1.6E-4 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/Q 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/Q 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/Q 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/Q 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/Q 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/Q 3.2E-6 BKGRD BKGRD BKGRD BKGRD I

8 mi Xu/Q 2.7E-6 BKGRD-BKGRD BKGRD BKGRD 9 mi Xu/Q 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD.

BKGRD BKGRD NG RR Ci/sec 2.69E-4 i RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 3

(HRS.)

NG DCF 2.3E+05 IDCF 8.0E+08

'CW = CLOSED WINDOW

'OW = OPEN WINDOW O

Vill-G-14

SCENARIO NO.1998C

('iR-27 Monitor = 2.69E-04 Ci/sec CDE-VPlume Speed 1 mile per 6 min.

CW" OW" THYROID CHARCOAL Air Sample 10 Ft.

i l

Particulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 1130 WD i

360*

WS (m/sec) 4.3 l

1/WS 0.23 PASQUILL D

l SB Xu/O 9.9E-5 BKGRD BKGRD BKGRD BKGRD l

1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD l

l 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 i RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 31/4 (HRS.)

NG DCF 2.3E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW

'OW = OPEN WINDOW (v/

Vill-G-15

SCENARIO NO.1998C D,R-27 Monitor = 2.69E-04 Ci/sec CDE-V Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Air Sample 10 Ft.

P rticulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 1145 WD 360 WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

i SB Xu/O 9.9E-5 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/Q 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O S.1 E-6 BKGRD BKGRD BKGRD BKGRD I

I 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD i

NG RR Ci/sec 2.69E-4 i RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 31/2 l

(HRS.)

NG DCF 2.0E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW

'OW = OPEN WINDOW

(

Vill-G-16

)

SCENARIO NO. fd98C l

t R-27 Monitor = 2.69E-04 Ci/sec CDE-p; Plume Speed 1 mile per 6 min.

t, CW OW THYROID CHARCOAL l

Air Sample 10 Ft.'

l Particulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM l

W i

TIME 1200 l

WD 20 l

WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 9.9E-5 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD I

I 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 I RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 3 3/4 (HRS.)

NG DCF 2.0E+05 lDCF 8.0E+08

'CW = CLOSED WINDOW

• OW = OPEN WINDOW Vill-G-17

SCENARIO NO.1998C

,q R-27 Monitor = 2.69E-04 Ci/sec CDE-C/ Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Air Sample 10 Ft.8 Particulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 1215 W D_

20 WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

I SB Xu/O 9.9E-5 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/Q 6.8E-6 BKGRD BKGRD BKGRD BKGRL' 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/Q 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 i RR (Ci/sec) 2.69E-8 l

TIME AFTER l

SHUTDOWN 4

(HRS.)

NG DCF 2.0E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW

'OW = OPEN WINDOW O

Vill-G-18

l i

l l

SCENARIO NO.1998C i

O R-27 Monitor = 2.69E-04 Ci/sec CDE-O Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL l

Air Sample 10 Ft.8 Particulate Filter = BKGD.

mR/hr mR/hr mrem /hr CPM TIME 1230 WD 20' WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 9.9E-5 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/Q 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 2.69E-4 I RR (Ci/sec) 2.69E-8 TIME AFTER SHUTDOWN 4 1/4 (HRS.)

NG DCF 2.0E+05 IDCF 8.0E+08 l

• CW = CLOSED WINDOW j

• OW = CPEN WINDOW iO Vill-G-19

1 SCENARIO NO.1998C D

(VR-27 Monitor = 4.0E+02 Ci/sec i

CDE-Plume Speed 1 mile per 6 min.

CW" OW" THYROID CHARCOAL Air Sample 10 Ft.'

Particulate Filter = 50% Charcoal Activity mR/hr mR/hr mrem /hr CPM TIME 1245 WD 20' WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 9.9E-5 1200 1600 2300 6500 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/Q 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.CE-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7 E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 4.0E+2 i RR (Ci/sec) 4.0E-2 TIME AFTER SHUTDOWN 4 1/2 (HRS.)

NG DCF 1.7E+05 IDCF 8.0E+08 "CW = CLOSED WINDOW W = OPEN WINDOW Vill-G-20

l SCENARIO NO.1998C l

i.]" R-27 Monitor = 4.0E+2 Ci/sec

/

CDE-Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Air Sample 10 Ft.'

Particulate Filter = 50% Charcoal Activity mR/hr mR/hr mrem /hr CPM TIME 1300 WD 20' WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 9.9E-5 1200 1600 2300 6500 1 mi Xu/O 5.0E-5 600 800 1200 3300 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/Q 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD j

7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 4.0E+2 I RR (Ci/sec) 4.0E-2 TIME AFTER SHUTDOWN 4 3/4 (HRS.)

NG DCF 1.7E+05 IDCF 8.0E+08

'CW o CLOSED WINDOW l

i OW = OPEN WINDOW

'(G

\\

l Vill-G-21

/

SCENARIO NO.1998C

-27 Monitor = 4.0E+2 Ci/sec CDE-Plume Speed 1 mile per 6 min.

CV(

OW" THYROID CHARCOAL Air Sample 10 Ft.'

mR/hr mR/hr mrem /hr CPM Particulate Filter = 50% Charcoal Activity TIME 1315 WD 20*

WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 9.9E-5 1200 1600 2300 6500' 1 mi Xu/O 5.0E-5 600 800 1200 3300 2 mi Xu/O 1.9E-5 225 300 400 1100 3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7 E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 4.0E+2 i RR (Ci/sec) 4.0E-2 TIME AFTER SHUTDOWN 5

(HRS.)

NG DCF 1.7E+05 l

lDCF 8.0E+08

• CW = CLOSED WINDOW W = OPEN WINDOW Vill-G-22 l

u_-_______--__-

l l

SCENARIO NO.1998C l

l l

-27 Monitor = 4.0E+2 Ci/sec CDE-Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL l

Air Sample 10 Ft.

mR/hr mR/hr mrem /hr CPM l

Particulate Filter = 50% Charcoal Activity l

l TIME 1330 l

WD 20 WS (m/sec) 4.3 l

1/WS 0.23 PASQUILL D

SB Xu/O 9.9E-5 1200 1600 2300 6500 1 mi Xu/Q 5.0E-5 600 800 1200 3300 2 mi Xu/O 1.9E-5 225 300 400 1100 3 mi Xu/Q 1.0E-5 115 150 200 550 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD 5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 BKGRD BKGRD BKGRD BKGRD 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 4.0E+2 i RR (Ci/sec) 4.0E-2 TIME AFTER SHUTDOWN 51/4 (HRS )

NG DCF 1.7E+05 l

lDCF 8.0E+08 "CW = CLOSED WINDOW

• OW = OPEN WINDOW iv)

Vill-G-23 w______

SCENARIO NO.1998C R-27 Monitor = 4.0E+2 Ci/sec CDE-Plume Speed 1 mile per 6 min.

C#

OW

. THYROID CHARCOAL Air Sample 10 Ft.'

mR/hr

' mR/hr mrem /hr CPM Particulate Filter = 50% Charcoal Activity TIME '

1345 WD 20 WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

l SB Xu/O 9.9E 1200 1600 2300 6500 1 mi Xu/Q 5.0E-5 600 800 1200 3300 2 mi Xu/O 1.9E-5 225 300 400 1100 3 mi Xu/O 1.0E-5.

115 150 200 550 l

l 4 mi Xu/O 6.8E-6 75 100 140 380 C

5 mi Xu!O 5.1 E-6 60 80 10

'30 6 mi Xu/Q 3.8E-6 BKGRD BKGRD BKGRD BKGRD L

7 mi Xu/Q 3.2E-6 BKGRD BKGRD BKGRD BKGRD L

8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD 9 mi Xu/O 2.'c -

BKGRD~

BKGRD BKGRD BKGRD 10 mi Xu/Q 2.1EL BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 4.0E+2 1

I RR (Ci/sec) 4.0E-2 TIME AFTER SHUTDOWN 5 1/2 l

'(HRS.)

NG DCF 1.7E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW

• OW = OPEN WINDOW Vill-G-24

SCENARIO NO.19980

- O R-27 uonitor = 4.0e+2 Ci/sec CDE-Plume Speed 1 mile per 6 min.

CW OW" THYROID CHARCOAL Air Sample 10 Ft.'

mR/hr mR/hr mrem /hr CPM Particulate Filter = 50% Charcoal Activity TIME 1400 WD 20*

l l

WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/Q 9.9E-5 1600 1600 2300 6500 1 mi Xu/Q 5.0E-5 600 800 1200 3300 2 mi Xu/O 1.9E-5 225 300 400 1100 l

3 mi Xu/O 1.0E-5 115 150 200 550 l

4 mi Xu/O 6.8E-6 75 100 140 380 5 mi Xu/O 5.1 E-6 60 80 10 30 6 mi Xu/O 3.8E-6 45 60 7

20 7 mi Xu/O 3.2E-6 BKGRD BKGRD BKGRD BKGRD 8 mi Xu/O 2.7E-6 BKGRD BKGRD BKGRD BKGRD l

9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD l

10 mi Xu/Q 2.1E-6 BKGRD BKGRD BKGRD BKGRD l

' NG RR Ci/sec 4.0E+2 i RR (Ci/sec) 4.0E-2 l

l.

TIME AFTER l

SHUTDOWN 5 3/4 (HRS.)

NG DCF 1.7E+05 -

IDCF 8.0E+08

• CW = CLOSED WINDOW -

• O

--O. W = OPEN WINDOW L

t Vill-G-25

)

SCENARIO NO.1998C f

I I

O R.27 uenitor = 4.0e+2 Casec

{

CDE.

Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL

{

l Air Sample 10 Ft.'

l Particulate Filter = 50% Charcoal Activity mR/hr mRfhr mrem /hr CPM i

TIME 1415 l

WD 20' l

WS (m/sec)

' 4.3 I

1/WS 0.23 L

l-PASQUILL D

SB Xu/O -

9.9E-5 1200 1600 2300 6500 1 mi Xu/O 5.0E-5 600 800 1200 3300 2 mi Xu/O 1.9E-5 225 300 400-1100 l

3 mi Xu/Q 1.0E-5 115 150 200 550 L

4 mi Xu/Q 6.8E-6 75 100 140 380 j

5 mi Xu/O 5.1 E-6 60 80 10 30 6 mi Xu/O 3.8E-6 45 60 7

20 7 mi Xu/Q 3.2E-6 35 50 6

15 8 mi Xu/O -

2.7E-6 BKGRD BKGRD BKGRD BKGRD i

9 mi Xu/O 2.3E-6 BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD L

NG RR Ci/sec-4.0E+2 i RR (Ci/sec) 4.0E-2

)

TIME AFTER SHUTDOWN 6

(HRS.)

NG DCF 1.7E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW L

• 0W = OPEN WINDOW

]

Vill-G-26 l

SCENAfdO NO.1998C O R-27 uonitor = 4.0E+2 Ciisec CDE-Plume Speed 1 mile per 6 min.

CW" OW' THYROID CHARCOAL Air Sample 10 Ft.'

Particulate Filter = 50% Charcoal Activity mR/hr mR/hr mrem /hr CPM TIME 1430 WD 20*

WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 9.9E-5 1200 1600 2300 6500 1 mi Xu!Q 5.0E-5 600 800 1200 3300 2 mi Xu/O 1.9E-5 225 300 400 1100 3 mi Xu/O 1.0E-5 115 150 200 550 4 mi Xu/O 6.8E-6 75 100 140 380 5 mi Xu/O 5.1 E-6 60 80 10 30 6 mi Xu/O 3.8E-6 45 60 7

20 7 mi Xu/O 3.2 E-6 35 50 6

15 8 mi XuiQ 2.7E-6 30 40 5

10 9 mi Xu/O 2.3E-G BKGRD BKGRD BKGRD BKGRD 10 mi Xu/O 2.1 E-6 BKGRD BKGRD BKGRD BKGRD NG RR Ci/sec 4.0E+2 l

l RR (Ci/sec) 4.0E-2 j

l TIME AFTER l

SHUTDOWN 61/4 (HRS.)

l NG DCF 1.7E+05 j

IDCF 8.0E+08 1

i

• CW = CLOSED WINDOW

• OW = OPEN WINDOW i

O v

Vill-G-27

SCENARIO NO.1998C l b R-27 Monitor = 4.0E+2 Ci/sec CDE-l_

Plume Speed 1 mile per 6 min.

CW-OW THYROID CHARCOAL Air Sample 10 Ft.8 Particulate Filter = 50% Charcoal Activity mR/hr mR/hr mrem /hr CPM TIME 1445 WD 20' WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 9.9E-5 900 1200 1800 5100 j

1 mi Xu/O 5.0E-5 350 500 900 2550 2 mi Xu/Q 1.9E-5 225 300 400 1100 1

l 3 mi Xu/Q 1.0E-5 115 150 200 550 4 mi Xu/Q 6.8E4 75 100 140-380 L^

5 mi Xu/Q 5.1E4 60 80 10 30 6 mi Xu/O 3.8E-6 45 60 7

20 7 mi Xu/Q '

3.2E-6 35 50 6

15 8 mi Xu/O 2.7E-6 30 40 5

10 l

L 9 mi Xu/O 2.3E 25 35 5

10 10 mi Xu/Q 2.1 E4 2

3 5

10 l

NG RR Ci/sec 4.0E+2 i RR (Ci/sec) 4.0E-2

. TIME AFTER SHUTDOWN,

6 1/2 4

(HRS.)

NG DCF 1.2E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW

'OW = OPEN WINDOW 1

.O:

vm-G-28

SCENARIO NO.1998C i

O R-27 Monitor = 4.0e+2 Ci/sec CDE.

Plume Speed 1 mile per 6 min.

CW~

OW" THYROID CHARCOAL Air Sample 10 Ft.'

Particulate Filter = 50% Charcoal Activity mR/hr mR/hr mrem /hr CPM TIME 1500 WD 20*

WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 9.9E-5 900 1200 1800 5100 1 mi Xu/O 5.0E-5 350 500 900 2550 2 mi Xu/O 1.9E-5 225 300 400 1100 3 mi Xu/O 1.0E-5 115 150 200 550 4 mi Xu/O 6.8E-6 75 100 140 380

]

5 mi Xu/O 5.1 E-6 60 80 10 30

)

6 mi Xu/O 3.8E-6 45 60 7

20 7 mi Xu/O 3.2E-6 35 50 6

15 8 mi Xu/O 2.7E-6 30 40 5

10 9 mi Xu/O 2.3E-6 25 35 5

10 10 mi Xu/O 2.1 E-6 2

3 5

10 NG RR Ci/sec 4.0E+2 l RR (Ci/sec) 4.0E-2 TIME AFTER SMUTDOWN 6 3/4 (HRS.)

NG DCF 1.2E+05 lDCF 8.0E+08

'CW = CLOSED WINDOW f

• 0W = OPEN WINDOW

'O Vill-G-29

SCENARIO NO.1998C O R-27 uonitor = 4.0E+2 Ci/sec CDE-Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Air Sample 10 Ft.

Particulate Filter = 50% Charcoal Activity mR/hr mR/hr mrem /hr CPM TIME 1515 WD 20*

WS (m/sec) 4.3 1/WS 0.23 i

PASQUILL D

SB Xu/O 9.9E-5 900 1200 1800 5100 1 mi Xu/O 5.0E-5 350 500 900 2500 2 mi Xu/Q 1.9E-5 165 220 350 1000 3 mi Xu/O 1.0E-5 85 110 180 500 4 mi Xn/Q 6.8E-6 65 90 120 330 5 mi Xu/O 5.1 E-6 60 80 10 30 6 mi Xu/O 3.8E-6 45 60 7

20 7 mi Xu/O 3.2E-6 35 50 6

15 8 mi Xu/O 2.7E-6 30 40 5

10 9 mi Xu/O 2.3E-6 25 35 5

10 10 mi Xu/O 2.1 E-6 2

3 5

10 NG RR Ci/sec 4.0E+2 I RR (Ci/sec) 4.0E-2 TIME AFTER

)

SHUTDOWN 7

(HRS.)

NG DCF 1.2E+05 IDCF 8.0E+08

'CW = CLOSED WINDOW

• OW = OPEN WINDOW O.

Vill-G-30 t

)

SCENARIO NO.1998C O R-27 uonitor = 4.0e+2 Ci/sec CDE-Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Air Sample 10 Ft.'

Particulate Filter = 50% Charcoal Activity mR/hr mR/hr mrem /hr CPM TIME 1530 WD 20*

WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 9.9E-5 900 1200 1800 5100

~

1 mi Xu/O

-5.0E-5 350 500 900 2550 2 mi Xu/O 1.9E-5 165 220 350 1000 3 mi Xu/O 1.0E-5 85 110 180 500 4 mi Xu/O 6.8E-6 65 90 120 330 5 mi Xu/O 5.1 E-6 60 80 10 30 6 mi Xu/O 3.8E-6 45 60 7

20 7 mi Xu/O 3.2E-6 35 50 6

15 8 mi Xu/Q 2.7E-6 30 40 5

10 9 mi Xu/O 2.3E-6 25 35 5

10 10 mi Xu/Q 2.1 E-6 2

3 5

10 NG RR Ci/sec 4.0E+2 I RR (Ci/sec) 4.0E-2 i

TIME AFTER j

l SHUTDOWN 7 1/4 (HRS.)

i NG DCF 1.2E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW I

'OW = OPEN WINDOW O

l Vill-G-31

SCENARIO NO.1998C O R-27 uonitor = 2.7E-04 Ci/sec CDE-Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Air Sample 10 Ft.'

Particulate Filter = 50% Charcoal Activity mR/hr mR/hr mrem /hr CPM TIME 1545 WD 20' WS (m/sec) 4.3 1/WS 0.23 PASQUILL D

SB Xu/O 9.9E-5 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/Q 5.0E-5 350 500 900 2550 2 mi Xu/O 1.9E-5 165 220 350 1000 3 mi Xu/O 1.0E-5 85 110 180 500 4 mi Xu/Q 6.8E 6 65 90 120 330

^

5 mi Xu/O 5.1 E-6 60 80 10 30 6 mi Xu/O 3.8E-6 45 60 7

20 7 mi Xu/Q 3.2E-6 35 50 6

15 l

8 mi Xu/O 2.7E-6 30 40 6

10 9 mi Xu/O 2.3E-6 25 35 5

10 10 mi Xu/Q 2.1 E-6 2

3 5

10 NG RR Ci/sec 2.7E-4 I RR (Ci/sec) 2.7E-8 TIME AFTER SHUTDOWN -

7 1/2 i

(HRS.)

NG DCF 1.2E+05 l

'lDCF 8.0E+08

• CW = CLOSED WINDOW

~

OW = OPEN WINDOW Vill-G-32

SCENARIO NO.1998C l

b R-27 Monitor = 2.7E-04 Ci/sec CDE-i Plume Speed 1 mile per 6 min.

CW OW THYROID CHARCOAL Air Sample 10 Ft.'

mR/hr mR/hr mrem /hr CPM Particulate Filter = 50% Charcoal Activity TIME 1600 WD 20' WS (m/sec) 4.3 i

1/WS 0.23 PASQUILL D

SB Xu/O 9.9E-5 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD 3 mi Xu/O 1.0E-5 85 110 180 500 4 mi Xu/O 6.8E-6 65 90 120 330 n

5 mi Xu/O 5.1 E-6 60 80 10 30 v

6 mi Xu/O 3.8E-6 45 60 7

20 7 mi Xu/O 3.2E-6 35 50 6

15 8 mi Xu/O 2.7E-6 30 40 6

10 9 mi Xu/Q 2.3E-6 25 35 5

10 10 mi Xu/O 2.1 E-6 2

3 5

10 1

NG RR Ci/sec 2.7E-04

{

l RR (Cl/sec) 2.7E-08 TIME AFTER l

SHUTDOWN 7 3/4 (HRS.)

NG DCF 1.2E+05 IDCF 8.0E+08

• CW = CLOSED WINDOW

'OW = OPEN WINDOW

\\

Vill-G-33 J

SCENARIO NG.1998C O R-27 uonitor = 2.7e-04 Ciisec CDs-Plume Speed 1 mile per 6 min.

CW" OW" THYROID CHARCOAL Air Sample 10 Ft.'

Particulate Filter = 50% Charcoal Activity mR/hr mR/hr mrem /hr CPM TIME 1615 WD 20' WS (m/sec) 4.3 l

1/WS 0.23 PASQUILL D

SB Xu/O 9.9E-5 BKGRD BKGRD BKGRD BKGRD 1 mi Xu/O 5.0E-5 BKGRD BKGRD BKGRD BKGRD 2 mi Xu/O 1.9E-5 BKGRD BKGRD BKGRD BKGRD l

3 mi Xu/O 1.0E-5 BKGRD BKGRD BKGRD BKGRD 4 mi Xu/O 6.8E-6 BKGRD BKGRD BKGRD BKGRD g

5 mi Xu/O 5.1 E-6 BKGRD BKGRD BKGRD BKGRD 6 mi Xu/O 3.8E-6 45 60 7

20 7 mi Xu/O 3.2E-6 35 50 6

15 8 mi Xu/O 2.7E-6 30 40 6

10 9 mi Xu/O 2.3E-6 25 35 5

10 i

10 mi Xu/O 2.1 E-6 2

3 5

10 NG RR Ci/sec 2.7E-04 l

l RR (Cl/sec) 2.7E-08 l

TIME AFTER SHUTDOWN 8

(HRS.)

NG DCF 5.8E+04 IDCF 8.0E+08

'CW = CLOSED WINDOW

~O'W = OPEN WINDOW j

jQ Vill-G-34

\\

SCENARIO NO.1998C IABLE_H OFFSITE TLD READINGS i

t MILE MILE ffEdQB BIBfg MBEM SECIQB B!Bfa MBEM l

1 1

<1 9

1 200 5

<1 5

15 10

<1 10 5

l 2

1

<1 10 1

2200 5

<1 5

210 10

<1 10 80 3

1

<1 11 1

200 5

<1 5

15 10

<1 10 5

4 1

<1 12 1

<1 5

<1 5

<1 l

10

<1 10

<1 5

1

<1 13 1

<1 5

<1 5

<1 10

<1 10

<1 6

1

<1 14 1

<1 5

<1 5

<1 10

<1 10

<1 7

1

<1 15 1

<1 5

<1 5

<1 10

<1 10

<1 8

1

<1 16 1

<1 5

<1 5

<1 10

<1 10

<1 l

i l

NOTE:

Data to be supplied to Offsite Radiological Assessment Director.

(>

l Vill-H

4 SCENARIO NO.1998C O

P_OST ACCIDENT SAMPLES l

l l

NOT REQUIRED FOR THIS SCENARIO O

I i

O Vill-l

SCENARIO NO.1998C 50 lO l

POST ACCIDENT OFFSITE CONTAMINATION LEVELS i

l I

i l

i.

I NOT REQUIRED FOR THIS SCENARIO i

O l

h O Vill-J

SCENARIO NO.1998C l

l TABLE 11

! O MEDICAL EMERGENCY DATA l

l t

l l

c l

l l

j NOT REQUIRED FOR THIS SCENARIO 1O I

l l

O Vill-K r

I

i l

CONSOLIDATED EDISON COMPANY OF NEW YORK INDIAN POINT UNIT NO. 2 EXERCISE SCENARIO NO.1998C 1

IX.

LOGISTICS i

A.

Drill Size l

l There will be a full scale activation of the following facilities.

Control Room e

l Technical Support Center

=

Operational Support Center Emergency Operations Facility i

B.

Participation Assembly and accountability will be required by all Con Edison personnel I

and contractor personnel at the site.

After accountability has been l

completed, personnel not participating as players, controllers or observers will be permitted to return to their normal work locations. 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 l

Access lists will only be prepared for the EOF for use by the Security Guard l

assigned to that post. All other Nuclear Power personnel not participating l

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 O

restrictions on entry through the Main Gate and Command Guard House will V

be lifted by the Security Controller one hour after the declaration of ALERT.

IX-1 l

l 4

SCENARIO NO.1998C E.-

Lunch O

Lunch will be provided to all players, observers and controllers at their, respective facilities in order that the drill can continue without interruptions.

F.

Critiaue Emergency Planning will hold a critique at 1200 hours0.0139 days <br />0.333 hours <br />0.00198 weeks <br />4.566e-4 months <br /> on Thursday, June 25,1998 at the Simulator Auditorium. All controllers and observers shall attend.

O l

l l

l 1

I O

l.

IX-2 C_

- - - - - - - - _ _ - - - - - - - _ _ - - _ _ _ _