Text

Ses Drill 95-04 Emergency Preparedness Annual Exercise 950712
	ML20091G301
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Site:	Waterford
Issue date:	07/12/1995
From:	; ENTERGY OPERATIONS, INC.
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1 WATERFORD 3 STEAM ELECTRIC STATION DRILL #95-04 j EMERGENCY PREPAREDNESS ANNUAL EXERCISE

JULY 12,1995 6

PARTICIPANTS ENTERGY OPERATIONS, INC.

LOUISIANA POWER & LIGHT COMPANY

' STATE OF LOUISIANA -

ST. CHARLES PARISH '

ST. JOHN THE BAPTIST PARISH l

APPROVAL: . .

EMERGENCY Pl.ANNING AND ADMINISTRATION MANAGER 9

i APPROVAL:

GENERAL MANAGER - PLANT OPERATIONS APPROVAL-

VICE PRESIDENT, OPERATIONS !

D 9505 g6 y Q --

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

TABLE OF CONTENTS j

l. INTRODUCTION l

' l A. Abbreviations

11. OBJECTIVES 111. GUIDELINES A. General Guidelines

B. Safety Precautions I C. Simulation Guidelines IV. NARRATIVE

SUMMARY

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A. Initial Conditions

(

4 B. Summary of Events V. DRILL SCENARIO SEQUENCE OF EVENTS

) VI. CUE CARDS

. Vll. CHARTS, GRAPHS AND TABLES j A. Reactor Plant Data B. In-Plant Health Physics Data l C. Chemistry Data D. Meteorological Data E. Onsite Radiological Data F. Offsite Radiological Data Vllt. DRILL TEAM ASSIGNMENTS IX. DRILL TEAM INSTRUCTIONS A. ControllerInstructions B. MonitorInstructions C. Observerinstructions l

X. REFERENCES l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

. l. - INTRODUCTION In the interest of assuring the health and safety of the general public in the area of the Waterford 3 Steam Electric Station, in the event of a radiological emergency,

Waterford 3 conducts exercises jointly with the Federal, State and local agencies on an annual basis, j

This manual contains the scenario of activities and supporting data describing the Waterford 3 Annual Emergency Preparedness Exercise.

The scenario was developed by postulating events that will require response by the i various Entergy Operations, Inc., and LP&L emergency response organizations.

During the exercise, the licensee and support organizations will respond to the i

postulated events and conditions that have been selected to provide the level of i achvity necessary to meet the exercise objectives.

i The State of Louisiana, St. Charles and St. John the Baptist Parishes will participate in the annual exercise. The level of involvement of these govemment agencies is more completely described in the separate exercise package containing the offsite j scenario developed by the State of Louisiana.

Exercise "r,er%eerde" will have no orior knc d:d-:= of the ==atence of events or

! radioloaical release information The exercise scenario will allow those individuals j- and agencies assigned to respond during a radiological emergency to demonstrate 4

their performance according to current emergency preparedness plans and procedures.

1

! The scenario is a mechanism by which selected drill controllers and monitors will i initiate and evaluate the activities of the drill participants. The exercise will be initiated at the Waterford 3 SES at 07:45 on July 12,1995 and is expected to last i approximately 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months .

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, Participating organizations are shown in Section 111, Guidelines, of this manual, i . ,

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

A. ABBREVIATIONS ALARA- -

As Low As Reasonably Achievable ANO -

Arkansas NuclearOne BKR -

Breaker CAS -

Central Alarm Station CASCO -

Central Alarm Station Console Operator CIAS -

Containment isolation Actuation Signal CNTMT -

Containment CRS -

Control Room Supervisor CS -

Containment Spray CSP -

Containment Spray Pump l CVAS -

Controlled Ventilation Area System CVCS -

ChemicalVolume Control System DI -

Dose Equivalentlodine DNBR -

Departure from Nucleate Boiling Ratio

-DPC -

Dose Projection Coordinator i

DPM -

Duty Plant Manager

) !

DPM -

Disintegrations Per Minute EAB -

Exclusion Area Boundary

EAL -

Emergency Action Level EC -

Emergency Coordinator ECC -

Emergency ControlCenter

ECCS -

Emergency Core Cooling System :

EDG. -

Emerge,ncy Diesel Generator

, EFAS -

Emergency Feedwater Actuation Signal EFAT -

Emergency First Aid Team I-2 l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 " '

A,. ABBREVIATIONS (CONT'Di EFWP --

Emergency Feedwater Pump ENC- -

Emergency News Center ENS -

Emergency Notification System EOC -

Eirwgericy Operations Center

= EOF -

Emergency Operations Facility EPZ '

Emergency Planning Zone ERDS -

Emergency Response Data System FEMA -

Federal Emergency Management Agency FFRT -

Fixed Facility Response Team FTC -

Field Team Controller GWM -

Gaseous Waste Management System HP -

Health Physics HPC -

Health Physics Coordinator HPSI -

High Pressure Safetyinjection IC -

Initiating Condition lHL -

Industrial Hotline _

INST -

Instrument LLEA Local Law Enforcement Agency j LOCA -

Loss of Coolant Accident LOEP -

Louisiana Office of Emergency Preparedness

LP&L~ -

Louisiana Power & Light Company LPSI -

Low Pressure Safety injection LRPD -

Louisiana Radiation Protection Division MARMOND -

Meteorological and Radiation Monitoring Display MCC -

Motor Control Center 1-3

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

i A.- ABBREVIATIONS (CONT'D)

MSL -

Mean Sea Level MSIS -

Main Steam isolation Signal i

MSIV -

. Main Steam isolation Valve ,

MTR -

Motor NAO -

Nuclear Auxiliary Operator NG -

Noble Gas NPO -

Nuclear Plant Operator (RO) t NRC -

Nuclear Regulatory Commission NWS -

National Weather Service OHL -

Operational Hotline OSC -

Operational Support Center PAP -

Primary Access Point PM -

Preventative Maintenance PME -

Plant Maintenance Electrical i

PMI -

Plant Maintenance instrumentation !

PMM -

Plant Maintenance Mechanical PZR -

Pressurizer '

i RAB -

Reactor Auxiliary Building RAS -

Recirculation Actuation Signal RCA -

Radiological Controlled Area 3

RCB -

ReactorContainment Building 1

RCP -

Reactor Coolant Pump RCS -

ReactorCoolant System

.RMS -

Radiation Monitoring System

'RO -

Reactor Operator 1-4

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

- A. ABBREVIATIONS (CONT'D) '

RVLM -

Reactor Vessel Level Monitor RWP -

. Radiation Work Permit RWSPL -

Refueling Water Storage Pool SAS -

Secondary Alarm Station SASCO -

Secondary Alarm Station Console Operator SCBA -

Self Contained Breathing Apparatus SDC -

Shutdown Cooling l

SG -

Steam Generator l

SlAS -

Safety injection Actuation Signal SIS -

Safety injection System l

SPDS -

Safety Parameter Display System SRD -

Self Readmg Dosimeter SRO -

Senior Reactor Operator -

SS -

Shift Supervisor

SSS -

Security Shift Supervisor l

TSC -

TechnicalSupport Center I

VNS -

Voice Notification System 1

j W3SES -

Waterford 3 Steam Electric Station XFMR -

Transformer XFRMR -

Transformer 1

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I WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 ~'

11. OBJECTIVES As a result of discussions between Waterford 3 staff, the Nuclear Regulatory Commission -

Region IV (NRC), the Federal Emergency Management Agency - Region VI (FEMA), the Louisiana Radiation Protection Division (LRPD), the Louisiana Office of Emergency Preparedness (LOEP), St. Charles and St. John the Baptist Parishes, the following general objectives and guidelines have been developed for the 1995 Emergency Preparedness Exercise at the Waterford 3 Steam Electric Station, which is scheduled to be conducted on July 12,1995.

A. FOR THE ENTERGY (UCENSEE) EMERGENCY RESPONSE ORGANIZATION:

1. Demonstrate proficiency in classifying the emergency condition. (B.2,0.1, D.2,1.1,1.2) '

2. Demonstrate the ability to mobilize and activate the Technical Support Center !

(TSC) emergency response personnel. (B.1-B.5, B.7, E.2, F.1.e, H.1, H.4, l N.1.b)

3. Demonstrate the ability to mobilize and activate the Operational Support Center (OSC) emergency response personnel. (B.1-B.5, 8.7, E.2, F.1.e, H.1, ;

H.4, N.1.b)

4. Demonstrate the ability to coordinate repair team activities between the OSC and -4 Control Point. (0.4.e) 1

5. Demonstrate the ability to mobilize and activate the Emergency Operations l Facility (EOF) emergency response personnel. (B.1-B.5, B.7, E.2, F.1.e, H.2, H.4, N.1.b) i 6. Demonstrate the ability to fully alert, mobilize and activate the Emergency i News Center (ENC) emergency response personnel (including the Rumor l Control Center). (E.2, F.1.e, G.3, G.4, H.4, N.1.b) a

7. Demonstrate the ability to make notifications of emergency classifications and i

protective action recommendations to offsite agencies within the procedural time limits. (B.2, B.4, E.1-E.4, F.1, F.2, J.7, N.2.a)

8. Demonstrate the ability of the senior facility managers to establish and maintain command and control of their facilities throughout the exercise.

(8.1-B.3, 8.5) 4

9. Demonstrate the adequacy of facilities, equipment, displays and other materials to support emergency operations. (H.1, H.2, H.3, H.5, H.6, H.9) 4 4

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WATERFORD 3 ANNUAL EXERCISE 4 JULY 12,1995

11. OBJECTIVES (CONT'D)

~

10. Demonstrate adequate and effective use of emergency communications

equipment and communications procedures and methods' necessary to J

establish and maintain communications with:

a) All Waterford 3 emergency response facilities. (E.2, F.1.d) 1 j b) Parish, State and Federal agencies. (C.1, E.4, F.1.a. F.1.b, F.1.c, l N.2.A) c) Radiological Field Monitoring Teams. (F.1.d, H.6, H.12) i d) In-plant emergency teams. (H.9) 1 e) The selected offsite assembly area. (J.1)

I f) Local and industry emergency support organizations, as required.

3 (E.4, F.1.a, F.2, H.6) i i 11. Demonstrate the ability to perform onsite and offsite radiological monitoring

- and assessments. (1.3, l.4,1.7-l.9, H.7, N.2.d)

12. Demonstrate the ability to perform the necessary offsite dose projection

+ i calculations tr., provide advance waming to Parish, State and Federal agencies. (E.3, E.4, H.12,1.3, l.4,1.6,1.8, l.9,1.10, J.7, N.2.d)

! 13. Demonstrate coordination of protective action decision making activities with '

i NRC (if NRC participates) and Louisiana Radiation Protection Division in the Emergency Operations Facility. (J.3, J.6, J.7, Ki-K.3, KS, K.6, N.2.a, N.2.d)

14. Demonstrate the following accident mitigation activities: effective accident

analysis and accident mitigation decision making. (1.1,1.2) i 15. Demonstrate the ability of the emergency organization to perform re-

)

classification (downgrade) decision-making and to de-escalate emergency

! response activities, as necessary. (D.1, D.2,1.1,1.2) '

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16. Demonstrate the ability to perform a Protected Area evacuation and offsite assembly by evacuating non-essential personnel in the Protected Area to ,

i parking lots and sending a selected group of personnel to an offsite assembly I j area. (J.1-J.5)

17. Demonstrate the ability to perform accountability in the Protected Area after a site evacuation. (J.5) .

18. Demonstrate the ability to perform continuous accountability activities for the j onshift, onsite and nearsite emergency organizations. (J.5) ll-2 i

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 4

ll. OBJECTIVES (CONT'D)

! 19. Demonstrate the ability to draw and analyze a plant liquid post accident i sample using the Post Accident Sampling System (PASS) within the 3-hour j required time limit. (l.2, N.2.e) i 20. Demonstrate adequate security measures at each of the Waterford 3 emergency response facilities. (8.1, B.6, H.1, H.2)

21. Demonstrate the ability to conduct a post-exercise critique to determine areas l requiring additionalimprovements. (N.4, N.5) l B. LOUISlANA RADIATION PROTECTION DIVISION

1. Demonstrate the capability to alert and fully mobilize personnel for both 4

emergency facilities and field operations. Demonstrate the capability to activate and staff emergency facilities for emergency operations. (FEMA l OBJECTIVE #1) l l 2. Demonstrate the adequacy of facilities, equipment, displays and other j materials to support emergency operations. (FEMA OBJECTIVE #2)

3. Demonstrate the capability to direct and control emergency operations.

! (FEMA OBJECTIVE #3) l 4.- Demonstrate the capability to communicate with all appropriate emergency personnel at facilities and in the field. (FEMA OBJECTIVE #4)

5. Demonstrate the capability to continuously monitor and control radiation i exposure to emergency workers. (FEMA OBJECTIVE #5)

! 6. Demonstrate the appropriate use of equipment and facilities for determining field radiation measurements. (FEMA OBJECTIVE #6)

! 7. Demonstrate the capability to develop dose projections and protective action recommendations regarding evacuation and sheltering. (FEIM i OBJECTIVE #7) l l 8. Demonstrate the appropriate use of equipment and procedures for the measurement of airbome radiolodine concentrations as low as 10~7 (.0000001)

' microcuries per cubic centimeter in the presence of noble gases and obtain samples of particulate activity in the airbome plume. (FEMA OBJECTIVE #8)

9. Demonstrate the capability and resources to implement potassium iodide (KI) l protective actions for emergency workers, institutionalized individuals, and, if

the State plan speafies, the general public. (FEMA OBJECTIVE #14)

10. Demonstrate laboratory operations and procedures for measuring and

analyzing samples. (FEMA OBJECTIVE #25) (NOTE 7) l- Il-3 f

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 4

11. OBJECTIVES (CONT'D)

C.

LOUISlANA OFFICE OF EMERGENCY PREPAREDNESS (STATE EOC)

) 1. Demonstrate the capability to alert and fully mobilize personnel for both ,

emergency facilities and field operations. Demonstrate the capability to i- activate and staff emergency facilities for emergency operations. (FEMA j- OBJECTIVE #1)

2. Demonstrate the adequacy of facilities, equipment, displays, and other

materials to support emergency operations. (FEMA OBJECTIVE #2) 4

3. Demonstrate the capability to direct and control emergency operations.

(FEMA OBJECTIVE #3)

4. Demonstrate the capability to communicate with all appropriate emergency personnel at facilities and in the field. (FEMA OBJECTIVE #4)

5. Demonstrate the capability and resources to implement potassium iodide (KI) t protective actions for emergency workers, institutionalized individuals, and, if j the State plan specifies, the general public. (FEMA OBJECTIVE #14) 1 l - D. ST. CHARLES EOC

1. Demonstrate the capability to alert and fully mobilize personnel for both 1 emergency facilities and field operations. Demonstrate the capability to I activate and staff emergency facilities for emergency operations. (FEMA l OBJECTIVE #1) l

2. Demonstrate the adequacy of facilities, equipment, displays, and other materials to support emergency operations. (FEMA OBJECTIVE #2) l' 3. Demonstrate the capability to direct and control emergency operations.

j (FEMA OBJECTIVE #3)

! 4. Demonstrate the capability to communicate with all appropriate emergency

personnel at facilities and in the field. (FEMA OBJECTIVE #4) 4

5. Demonstrate the capability to continuously monitor and control radiation

exposure to emergency workers. (FEMA OBJECTIVE #5) i <

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6. Demonstrate the capability to make timely and appropriate protective action i

decisions (PAD). (FEMA OBJECTIVE #9) l

7. _ Demonstrate the capability to promptly alert and notify the public within the ,

10-mile plume pathway emergency planning zone (EPZ) and disseminate l

instruebonal messages to the public on the basis of decisions by appropriate

l State or local officials. (FEMA OBJECTIVE #10) !

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 i

j 11. OBJECTIVES (CONT'D) j 8. Demonstrate the capability to coordinate the formulation and dissemination of l accurate information and instructions to the public. (FEMA OBJECTIVE #11)

9. Demonstrate the capability and resources to implement potassium iodide (KI) j protective actions for emergency workers, institutionalized individuals, and, if j the State plan specifies, the general public. (FEMA OBJECTIVE #14)

10. Demonstrate the capability and resources necessary to implement appropriate l protective actions for special populations. (FEMA OBJECTIVE #15) 1

11. Demonstrate the capability and resources necessary to implement protective actions for school children within the plume pathway emergency planning g zone. (FEMA OBJECTIVE #16) i j 12. Demonstrate the organizational capability and resources necessary to control j

evacuation traffic flow and to control access to evacuated and sheltered areas.

l (FEMA OBJECTIVE #17)

13. Demonstrate the capability to carry out emergency response functions in an f, unannounced exercise or drill. (FEMA OBJECTIVE #32) (NOTE 1)

I 14. Demonstrate the capability to carry out emergency response functions during 4

an off-hours exercise or drill. (FEMA OBJECTIVE #33) (NOTE 2)

L E. ST. JOHN THE BAPTIST EOC

, 1. Demonstrate the capability to alert and fully mobilize personnel for both emergency facilities and field operations. Demonstrate the capability to activate and staff emergency facilities for emergency operations. (FEMA 4

' OBJECTIVE #1) a l 2. Demonstrate the adequacy of facilities, equipment, displays, and other i

materials to support emergency operations. (FEMA OBJECTIVE #2) j 3. Demonstrate the capability to direct and control emergency operations.

(FEMA OBJECTIVE #3)

4. Demonstrate the capability to communicate with all appropriate emergency ,

l personnel at facilities and in the field. (FEMA OBJECTIVE #4)

) 5. Demonstrate the capability to continuously monitor and control radiation l exposure to emergency workers. (FEMA OBJECTIVE #5)

6. Demonstrate the capability to make timely and appropriate protective action decisions (PAD). (FEMA OBJECTIVE #9) '

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 " '

11. OBJECTIVES (CONT'D)

7. Demonstrate the capability to promptly alert and notify the public within the 10 mile plume pathway emergency planning zone (EPZ) and disseminate instructional messages to the public on the basis of decisions by appropriate State or local officials. (FEMA OBJECTIVE #10)

8. Demonstrate the capability to coordinate the formulation and dissemination of accurate information and instructions to the public. (FEMA OBJECTIVE #11)

9. Demonstrate the capability and resources to implement potassium iodide (KI) protective actions for emergency workers, institutionalized individuals, and, if the State plan specifies, the general public. (FEMA OBJECTIVE #14)

10. Demonstrate the capability and resources necessary to implement appropriate protective actions for special populations. (FEMA OBJECTIVE #15)

11. Demonstrate the capability and resources necessary to implement protective

^

actions for school children within the plume pathway emergency planning zone. (FEMA OBJECTIVE #16)

12. Demonstrate the organizational capability and resources necessary to control 1

evacuation traffic flow and to control access to evacuated and sheltered areas.

(FEMA OBJECTIVE #17)

13. Demonstrate the capability to carry out emergency response functions in an i

unannounced exercise or drill. (FEMA OBJECTIVE #32) (NOTE 1)

14. Demonstrate the capability to carry out emergency response functions auring an off-hours exercise or drill. (FEMA OBJECTIVE #33) (NOTE 2)

! F.

EMERGENCY NEWS CENTER (ENC) l

1. Demonstrate the capability to alert and fully mobilize personnel for both emergency facilities and field operations. Demonstrate the capability to activate and staff emergency facilities for emergency operations. (FEMA OBJECTIVE #1)

2. Demonstrate the adequacy of facilities, equipment, displays, and other materials to support emergency operations. (FEMA OBJECTIVE #2) 3.

Demonstrate the capability to communicate with all appropriate emergency

personnel at facilities and in the field. (FEMA OBJECTIVE #4)

4. Demonstrate the capability to coordinate the development and dissemination of clear, accurate, and timelyinformation to the news media. (FEMA OBJECTIVE #12) ll-6

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

II. OBJECTIVES (CONT'D)

5. Demonstrate the capability to establish and operate rumor control in a coordinated and timely manner. (FEMA OBJECTIVE #13)

G. TANG lPAHOA PARISH EOC

1. Demonstrate the capability to alert and fu!!y mobilize personnel for both emergency facilities and field operations. Demonstrate the capability to activate and staff emergency facilities for emergency operations. (FEMA OBJECTIVE #1)

2. Demonstrate the adequacy of facilities, equipment, displays and other materials to support emergency operations. (FEMA OBJECTIVE #2)

3. Demonstrate the capability to direct and control emergency operations.

(FEMA OBJECTIVE #3)

4. Demonstrate the capability to communicate with all appropriate emergency personnel at facilities and in the field. (FEMA OBJECTIVE #4)

5. Demonstrate the capability to maintain staffing on a continuous,24-hour basis through an actual shift change. (FEMA OBJECTIVE #30)

H.

SOUTHEASTERN LOUISIANA UNIVERSITY RECEPTION CENTER 1.' Demonstrate the capability to alert and fully mobilize personnel for both emergency facilities and field operations. Demonstrate the capability to activate and staff emergency facilities for emergency operations. (FEMA OBJECTIVE #1)

2. Demonstrate the capability to communicate with all appropriate emergency personnel at facilities and in the field. (FEMA OBJECTIVE #4) -

3. Demonstrate the capability to continuously monitor and control radiation exposure to emergency workers. (FEMA OBJECTIVE #5) (NOTE 3) l 4. Demonstrate the adequacy of proceduis, facilities, equipment, and personnel for the radiological monitoring, decontamination, and registration of evacuees.

j (FEMA OBJECTIVE #18) (NOTE 4) f 5. Demonstrate the adequacy of facilities, equipment, supplies, personnel, and procedures for congregate care of evacuees. (FEMA OBJECTIVE #19) l (NOTE S) 1

6. Demonstrate the capability to maintain staffing on a continuous,24-hour basis through an actual shift change. (FEMA OBJECTIVE #30) (NOTE 6) j 11- 7

.WATERFORD 3 ANNUAL EXERCISE

$. JULY 12,1995 "

11. OBJECTIVES (CONT'D)

. l. SOUTH VACHERIE VFD DECONTAMINATION STATION i -

l 1. Demonstrate the capability to alert and fully mobilize personnel for both emergency facilities and field opersbons. Demonstrate the capability to i activate and staff. emergency facilities for emergency operations. (FEMA j OBJECTIVE #1) j 2. Demonstrate the capability to communicate with all appropriate emergency j personnel at facilities and in the field. (FEMA OBJECTIVE #4)

3. Demonstrate the capab!Ilty to continuously monitor and control radiation

exposure to emergency workers. (FEMA OBJECTIVE #5)

4. Demonstrate the adequacy of procedures for the monitoring and j i

decontamination of emergency workers, equipment and vehicles. (FEMA !

OBJECTIVE #22)

S. Demonstrate the capability to maintain staffing on a continuous,24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months basis

through an actual shift change. (FEMA OBJECTIVE #30)

! J. OCHSNER FOUNDATION HOSPITAL l 1. Demonstrate the capability to alert and fully mobilize personnel for both ;

! emergency facilities and field operations. Demonstrate the capability to i

' activate and staff emergency facilities for emergency operations. (FEMA

, OBJECTIVE #1)

2. Demonstrate the capability to communicate with all appropriate emergency

[ personnel at facilities and in the field. (FEMA OBJECTIVE 04) i l 3. Demonstrate the capability to continuously monitor and control radiation j exposure to emergency workers. (FEMA OBJECTIVE #5) -

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4. Demonstrate the adequacy of the equipment, procedures, supplies, and i

personnel of medical facilities responsible for treatment of contaminated,

! injured, or exposed individuals. (FEMA OBJECTIVE #21) i

K. ST. CHARLES EMS

1. Demonstrate the capability to alert and fully mobilize personnel for both emergency facilities and field operations. Demonstrate the capability to activate and staff emergency facilities for emergency operations. (FEMA

' OBJECTIVE #1) -

, 2. [.4monstrate the capability to communicate with all appropriate emergency i personnel at facilities and in the field. (FEMA OBJECTIVE #4) 1 ll-8

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

11. OBJECTIVES (CONT'D) i 3 3. Demonstrate the capability to continuously monitor and control radiation i

exposure to emergency workers. (FEMA OBJECTIVE #5) 4

4. Demonstrate the adequacy of vehicles, equipment, procedures, and personnel for transporting contaminated, injured, or exposed individuals. (FEMA j OBJECTIVE #20) 1, OBJECTIVES NOTES 1

l 1.

An unannounced drill will be conducted separate from the exercise during the week of July 10th for St. Charles Parish EOC staff and St. John the Baptist EOC staff to satisfy this

objective.

i j 2.

An off-hours drill will be conducted separate from the exercise during the week of July 10th

{

I for St. Charles Parish EOC staff and St. John the Baptist Parish EOC staff to satisfy this objective.

3. This objective applies to the monitoring and decontamination staff only.

4. Several simulated contaminated persons and one simulated contaminated vehicle will be i

processed at this reception center. Two personnel monitoring teams and one vehicle monitoring team will be mobilized for each shift.

i 5.

To minimize disruption to those institutions (principally schools) which normally provide congregate care, demonstration of the ability to mobilize congregate care resources will be made by American Red Cross personnel at the reception center through discussion.

6.

. Monitoring teams, decontamination teams, Red Cross personnel, registration personnel and facility management personnel will be subject to a shift change.

7. l Air sample cartridge (s) and particulate filter (s), collected in the field by the field monitoring l l teams, will be transported to the laboratory, and only the particulate filter (s) will be analyzed in the laboratory (cartridges for iodine are read in the field). The results will be transmitted from the laboratory to the State's response team at the utility's Emergency Operations Facility l (EOF).

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

lli. GUIDELINES To define the scope and extent of participation by organizations and " participants", the following guidelines are established in order to meet the objectives listed in Section li of this manual. The Annual Exercise will be performed using the Waterford 3 Control Room 4 Simulator.

2 A. General Guidelines j

1. The exercise will be conducted on July 12,1995. Exercise " participants"will not possess prior knowledge of the exercise start time, and will follow normal 1

routines for that day until mobilized as part of the emergency response.

2. The exercise will commence with a postulated condition necessitating the j

declaration of an Unusual Event and escalate through the emergency i classifications to a General Emergency.

3. The scenario contains simulated radiological release conditions which will require consideration of protective actions for the general public.

I

4. Exercise participants will perform, as appropriate, radiological monitoring and

dose assessment activities.

5. Radiological field monitoring teams will be disp.k.hed in order to evaluate

response time, communications and monitoring procedures.

6. The Emergency News Center (ENC) will be staffed and activated. Pasticipation

by members of the media will be simulated. News bulletins will be made which l depict simuisted exercise events. However, no exercise press bulletins will be j made to the public.

I i 7. If postulated accident conditions warrant evacuation of non-essential site i

personnel, a small number of pre-designated personnel will proceed to an offsite assembly area. All other non-essential personnelin the Protected Area will be assembled in station parking lots or accounted for. Once accountability procedures have been completed, assembled personnel will retum to their normal work stations.

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

til. GUIDELINES (CONT'D)

NOTE Care shall be taken to assure individuals who may overhear or observe exercise activities are not misled into believitig that an actual emergency situation exists.

8. All emergency communications that are part of the exercise shall be dearty identified as part of the exercise. Verbal communications shall be initiated and closed by the statement "This is a drill". Communications forms which are transmitted via facsimile machine shall have the word " Drill" stamped on them prior to transmittal.

9. Methodology and assumptions related to the development of data for specific areas are provided with the data in Section Vil of this manual.

10. Exercise participants will include the following emergency organizations- I i

Waterford 3 Onshift Emergency Orenizeuen v (Control Room)

Onsite Emergency Organization (TSC and OSC)

Nearsite Emergency Organization (EOF)

Louisiana Power & Licht Comoany i

, Offsite Emergency Organization (ENC)

! Entergy district omces and maintenance divisions will not participate in this l exercise. Communications with these groups may be initiated but their response will be simulated.

Offsite Omanizations State of Louisiana i l l

Louisiana Radiation Protection Division !

i Full participation. LRPD will staff positions in the Waterford 3 EOF and I ENC.

Louisiana Office of Emergency Preparedness Full participation.

I '

s 4

111- 2

-WATERFORD 3 ANNUAL EXERCISE' I JULY 12,1995 "

e

, 'lli. GUIDELINES _{ CONT'D)

[

St. Charles Parish 4

Department of Emergency Preparedness !

j. Full participation.

i~

, St. John the Bantist Parish Office of Civil Defense Full participation.

1 B. Safety Precautions l_ 1. ~ Personnel will not, in response to the postulated accident conditions, take any j action which jeopardizes plant or personnel safety.

4

2. Valves, breakers, and controls shall not be manipulated in response to this exercise except as necessary to meet a specific exercise objechve. Actual

opersbon of valves, breakers and controls that may be required to meet an !

objechve will be coordmated between the " drill" and " operating" Shift !

Supervisors. '

i

3. In the event an actual emergency occurs during the conduct of this exercise, the I

drill Emergency Coordinator shall immediately contact the real Shift Supervisor ;

and ccntdanate available resources to mitigate the emergency. l

' i In the case of an actual fire report, the " operating shift" will provide the initial response.

L In the case of an actual medical emergency, the " operating shift" will l provide the initial response until relieved of that responsibility by the drill j shift. -

The drill clock and exercise activities can be stopped at the discretion of 'l l the drill Emergency Coordinator and the real Shift Supervisor until the j actual emergency is assessed and/or under control.

Qualified drill participants and drill control team members can be directed

, to support the real Shift Supervisor in response to the actual emergency.

4. All personnel who enter an RCA will be radiation worker qualified.

l- 5. Exercise personnel will observe all radiological controls. In the event the data l presented in this exercise package indicates lower radiation levels than those ,

actually found in the plant, actions for the actual (higher) readings will be !

followed. .in such instances the Health Physics Controller and the Lead

' Controller will be notified.

i 111- 3 e -, ,-w- , s -

4 j

WATERFORD 3 ANNUAL EXERCISE

[ JULY 12,1995 "

lit. ' GUIDELINES (CONT'D)

J

^

6. ALARA concepts will be observed during the course of the exercise. Activibes >

associated with the performance of the exercise will not occur in areas where 4

personnel will receive significant exposures.

4 i- C. Simulation Guidelines

?

! , NOTE-

.. Simulated exercise events will be initiated as indicated in this exercise scenario i

package under the direction of the Lead Controller. Since all possible i

participant reactions to the simulated exercise events can not be anticipated, j

individual Controllers may initiate simulated situations to preserve the continuity

{ of the overall scenario timeline without prior approval of the Lead Controller. -

However, individuals are prohibited from creating real or simulated situations which are not provided for in the scenario package and may effect the timeline without prior approval.

1. Exercise participants are expected to carry out all responses to the postulated 1

scenario events as if responding to a real emergency. Actions required by Plant Operating Procedures and Emergency Plan implementing Procedures shall be

!' carried out to the fullest extent possible, unless otherwise directed by the drill j control team.

9

' 2. Since the exercise will be performed using the Waterford 3 Control Room i Simulator, exercise plant parameter data will be obtained from the Simulator control panels and the Simulator SPDS CRTs. Radsological monitoring data will be simulated through the use of posted data sheets. The exercise participants must take the appropriate actions required to obtain the data prior to the i- initiation of data postags. Radiological data sheets will be posted in appropriate

locahons in the Simulator, TSC, EOF and -4 Control Point. *^

3. Portable fire extinguishers or other sealed canisters shall not have the seals broken or safety pins removed in response to the postulated scenario events,

[ ' except when specifically required by instructions provided in this scenario package.

l 4. Exercise participants will be expected to obtain the proper tools and equipment necessary in respondmg to the scenario conditions in order to receive credit for their actions to mitigate the consequencas of the simulated conditions.

5. The use of protective clothing, in the plant, will.ng.t be simulated by the exercise participants.

t 5

i 111- 4 i

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

lil. GUIDELINES (CONT'D)

. 6. To prevent unnecessarily alarming members of the generai public, who may i

observe their activities, the use of protective clothing and respirators will be simulated by the radiological field monitoring teams.

7. SCBAs will be donned, as required by tha scenario conditions, but, afterinitial fitting on the face, the masks may be removed.

f 8. The use of the Post Accident Sampling System (PASS) will be coordinated j between the " drill" and " operating" Shift Supervisors.

9. No plant equipment will actually be tagged out in response to the scenario i

events. All necessary authorizations required by procedures are expected to be j

obtained prior to the simulation of the tag out.

, 10. Radiological postings as required by the simulated scenario radiation levels y@

' ng.1 be simulated. The drill control team will insure that the postings are appropriately labeled to identify them as part of the drill.

I

11. Actual operation of the Whole Body Counter, or the Backup Whole Body l Counter, will be simulated. Due to the number of Health Physics personnel

assigned to the drill control team, sufficient personnel will not be available to

support this activity. 3 1

12. i If consideration is given to relocating the Primary Access Point (PAP) due to the simulated radiological conditions, this activity will be simulated. l

13. Response to a fire is not an objective of this exercise. The staffing of the

Emergency Fire Brigade will be simulated.

14. Onsite response to a medical emergency is not an objective of this exercise.

The staffing of the Emergency First Aid Team will be simulated. The scenario events for the medical emergency portion of this exercise are provided in a

separate document. -

l

! 15. The activation of the Emergency Response Data System (ERDS) will be simulated. ERDS is not installed in the Simulator and there is no method at the present time to displ6y drill data from the Simulator on the ERDS in the plant.

l 8

lll-5 1

l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

IV. NARRATIVE

SUMMARY

The sequence of events hypothesized in this exercise package is provided to test the integrated emergency response capability of organizations established to protect the public should an actual emergency occur. In order to achieve a sequence of events that will mobilize these emergency organizations in fulfillment of the objectives of this exercise, the scenario must contain incredible plant situations, unlikely equipment failures and failure sequences. It is stressed that offsite personnel (i.e., the public) should not be misled into believing that an event causing the radiological consequences of this scenario could occur. The following is a summary of these events:

' A. Initial Conditions The plant has been operating at 100% power for the past 45 days and is at the beginning of core life, i

The lower seal on Reactor Coolant Pump (RCP) 1B is leaking. The other seals on RCP 18 are functioning properly. There are no seal problems with any other RCPs.

l The A/B charging pump is out of service for preventative maintenance (oil change). The pump was tagged out on the night shift and a PM crew came in at 06:00 to begin work. At the start of the drill, the oil has been drained and the crew is exiting the plant with the drained oil. They estimate the PM to be completed by 10:30 on July 12,1995.

The A/B electrical bus is aligned to the B side.

' The sky is cloudy and scattered thunderstorms are predicted for southeastern Louisiana. There is no precipitation present in the immediate area at the start of the exercise.

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IV-1

WATERFORD 3 ANNUAL EXERCISE

~ JULY 12,1995 t

IV.. NARRATIVE

SUMMARY

(CONT'D) -

ib

} B.' Summary of Events -

i The exercise will commence at 07:45.

4 At 08:00, a tornado' strikes the backup meteorological tower causing severe

' damage. Lightning from the tornado results in the loss of the primary.

meteorological tower indications. ' A person in the General Support Building l notifies the Control Room that a tornado has damaged the backup meteorological tower. When the Control Room attempts to obtain

meteorological data they will identify that indication from both meteorological .

l- towers has been lost. The Shift Supervisor declares an Unusual Event based j on Emergency Plan implementing Instruction EP-001-001, Recognition and Classification of Emergency Conditions, initiating Condition D/UEllV, ' Tornado observed within the Owner Controlled Area." There are no Protective Action Recommendations (PARS) required at this time.

I After checking with the National Weather Service and receiving indication that the tornado activity has passed out of the area, the Control Room should j dispatch l&C maintenance personnel to investigate the failure of the l meteorological towers. The l&C personnel will find that the backup i meteorological tower has been damaged beyond repair. The power supply l circuit breaker for the primary meteorological tower instrument cabinet (Circuit j Breaker #7, EM-EBKR-PMT-1-7) has tripped. When the breaker is reset they will find that there is no output current power indications locally or remotely.

They will determine that there is a loss of power to the current driver card rack due to a blown 1 amp fuse. The primary meteorological tower can be restored to service by closing the power supply breaker and replacing the damaged j fuse. The repairs should take approximately 21/2 hours. Until the primary

meteorological tower is restored, the meteorological data will be obtained from the National Weather Service. . >

i At 09:00, a vibration alarm is received for RCP 18. Immediately after receiving the vibration alarm, RCP 1B trips due to a shaft seizure. An automatic reactor

! , trip signal is received, but the reactor trip does not occur. The Control Room j staff will manually trip the reactor. The Shift Supervisor declares an Alert based on Emergency Plan implementing instruction EP-001-001, Recognition

. and Classification of Emergency Conditions, Initiating Condition C/AllV "RPS 1

Automatic Trip failed." There are no Protective Action Recommendations ;

(PARS) required at this time.

.IV-2

~

.WATERFORD 3 ANNUAL EXERCISE !

l JULY 12,1995 ,,

L l 4

IV. ' NARRATIVE

SUMMARY

(CONT'D) '

r i The Alert declaration results in the activation of the Technical Support Center j (TSC), the Operational Support Center (OSC) and the Emergency News Center j (ENC). The Emergency Operations Facility (EOF) will also be staffed at this !

j time.

)

i The RCP shaft seizure results in an increase in Reactor Coolant System (RCS) .

activity due to damage to the fuel cladding, as indicated by radiaten monitor

! ' alarms. The Control Room should request Chemistry to draw an RCS sample.

j If Chemistry attempts to use the primary sample panel, radiation levels will l dictate the use of the Post Accident Sampling System (PASS). When results of the PASS sample are received (PASS sampling normally requires 2 to 3 hours3.472222e-5 days 8.333333e-4 hours 4.960317e-6 weeks 1.1415e-6 months ), they will verify that initial fuel cladding damage has occurred. If a i'

decision is made not to use the PASS panel, the drill team will direct that a PASS sample be drawn and analyzed to meet an exercise objective. l i

l l At 09:40, the "A" charging pump trips on low oil pressure. The failure of the charging pump is due to a leaking fitting for the oil pump pressure relief valve.

1 The relief valve fitting and tubing will need to be replaced to restart the i charging pump. Due to the fuel damage, precautions must be taken to prevent j overexposure of the repair team.

At 10:05, an instrument air leak occurs on the header in the B switchgear room.

[ This leak is unisolable and instrument air pressure will drop to about 80 psi. At this pressure the instrument air to station air cross connect should open, but

! doesn't due to a failed pneumatic relay in the valve controller. Mechanical maintenance should be dispatched to repair the header leakage and l&C l maintenance should be dispatched to repair the cross connect valve. Both i failures need to be fixed to restore instrument air to normal operation and prevent loss of equipment due to low instrument air pressure.

At approximately 10:30, a large break Loss of Coolant Accident (LOCA) is j initiated releasing radioactive primary coolant into the Containment. The Emergency Coordinator declares a Site Area Emergency based on Emergency Plan implementing Instruction EP-001-001, Recognition and Classification of

Emergency Conditions, initiating Condition B/SAEli, "RCS leakage greater than

available Charoino Pumo moscity (LOCA OR Steam Generator Tube l Rupture)" OR Initiating Condition E/SAEll, " Plant conditions exist that warrant j precautionary activation of the TSC and EOF OR a orecautionary notification to offsite authorities (Indicator #2: Failure of one fission product barrier and a challenge to another OR #3: Failure of two fission product barriers)". There are no Protective Action Recommendations (PARS) required at this time.

t IV-3

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I

1

!. WATERFORD 3 ANNUAL EXERCISE j JULY 12,1995

l i ..

l L IV. ' NARRATIVE

SUMMARY

(CONT'D)

! l l

The Emergency Coordinator selects an offsite assembly area and announces a l

site evacuation. The Assembly Area Supervisor is dispatched and Security '

} performs accountability in accordance with EP-002-190, Personnel i Accountability. For the purposes of this exercise, the personnel in the

}

Protected Area will evacuate to station parking lots and a small number of pre-designated personnel will evacuate to the selected offsite assemoly area. !

4 l

if not already performed, transfer of responsibilities for command and control, offsite dose assessment and communications from the TSC to the EOF will be J initiated.

l 1

At approximately 11: 00, indication of low pressure will be received for l

{ transformer SS XFMR 3A315-S due to a leaking weld. Electrical maintenance j' will be dispatched to repressurize the transformer. Mechanical maintenance l i

[

i should be requested to operate the crane to lower the gas bottle to the transformer in the west dry cooling tower area. Security should be requested l t to secure access to the cooling tower area while lowering the gas bottle. If the

j. transformer is not pressurized, temperature will rise, eventually causing a loss i of the transformer. This would result in the loss of the 'A' dry and wet cooling i j tower fans.

Due to the size of the RCS leakage, Recirculation Actuation Signal (RAS)

should occur approximately 1 1/2 hours after the initiation of RCS leakage.

l Approximately 20 minutes prior to the RAS, a 30 gallon per minute leak occurs

!- on the inlet flange of the "A" HPSI pump suction relief valve SI-2034A. The operators should attempt to isolate the "A" HPSI pump to terminate the leakage. Since the HPSI pump suction isolation valve (SI-203A) is a locked i open valve, the Operator must go the valve gallery, above the Safeguards r Room, to unlock and close the valve. While closing SI-203A, the roll pin in the

reach rod breaks and the valve cannot be closed remotely. .

i i

When Recirculation Actuation Signal (RAS) is initiated, the "B" Containment l Spray Pump falls due to bumt motor windings. Electrical maintenance will be dispatched to investigate the problem and will determine that the motor needs to be replaced. Due to radiation levels in the Safeguards Room, the motor repairs will not be able to be performed.

i -

i IV-4

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

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

I IV. NARRATIVE

SUMMARY

(CONT'D)

Due to RCS temperature and pressure, about 15 minutes aher the RAS is initiated, the water leaking from the HPSI suction line flashes to steam. The radioactive steam is trcnsmitted via the RAB normal ventilation system to the i

plant stack resulting in a release of radioactivity to the environment. Any emergency rasponse personnel in the Safeguards Room will have to leave due l to high radiation levels. The Emergency Coordinator, or EOF Director, a

declares a General Emergency based on Emergency Plan implementing Instruction EP-001-001, Recognition and Classification of Emergency

Conditions, initiating Condition B/GElli OR E/ Gell, "EC opinion that a loss of 2

any two of the three fission product barriers has occurred AND plant conditions are such that a potential loss of the third barrier exists" OR initiating Condition A/GE/1," Dose projection or radiological monitoring team indicates TEDE dose rate at EAB greater than or equal to 1QQQ MR/HR OR CDE Thyroid dose rate at EAB greater than or equal to SQQQ MR/HR." Initial Protective Action Recommendations of evacuation of Protective Response Areas A1, B1, C1, D1 (2-mile radius), A2 and C2 (5 miles downwind) and sheltering for the remainder of the Protective Response Areas in the 10-mile EPZ are made.

When the "A" HPSI pump suction isolation valve SI-203A is closed, the release will be terminated and offsite dose rates will decrease. The emergency organization should discuss downgrading the emergency classification.

After the release has been terminated (or at the disestion of the Lead Controller), the exercise will be secured. Area Critiques will ba hold.

i i

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WATERFORD 3 ANNUAL EXERCISE l JULY 12,1995 *

{ V. SEQUENCE OF EVENTS

ILME EVENT EXERCISE ACTIVITY j 07: 00 Exercise Controllers brief the Operations Following the briefing, the NAOs take their 1 T= -0:45 shift personnelin the Simulator, positions in the plant.

. CC-1 Exercise guidelines and initial conditions i are discussed with the participants.

i NOTE: The remaining Shift personnel (HP, The plant has been operating at 100%

Maintenance, Chemistry, Security) are power for the past 45 days and is at the

briefed at 07: 15. beginning of core life.

I The lower seal on the 1B RCP is leaking.

CC-2 The A/B Charging pump is out of servka i for an oil change PM.

1 The sky is cloudy and scattered thunderstorms are prodicted for the area.

. 07:45 The Control Room participants are !

T= +0:00 instructed to start the Exercise.

! CC-3 l t

j 08:00 Exercise continuation announcement.

t T= +0:15 CC-4 I

i

! CC-5 The Control Room receives a report of a A tomado has severely damaged the

! CC-6 tomado touching down in the Owner backup meteorological tower and lightning i CC-7 Controlled Area and damaging the from the tomado damaged the primary

! CC-8 backup meteorological tower. meteorological tower. Investigation by

! CC-9 l&C maintenance identifies that the

CC-10 backup toweris unable to be repaired and l the primary meteorological tower instrumentation has no output current indications. This results in the loss of all

meteorological data.

CC-11 Declaration of Unusual Event. The Shift Supervisor declares an Unusual j Event based on EP-001-001, Recognition

. and Classification of Emergency Conditions, initiating Condition D/UE/IV, "Tomado observed within the Owner Controlled Area." There are no PARS ;

i required for this declaration.

V-1

WATERFORD 3 ANNUAL EXERCISE l JULY 12,1995 "

i 2

V. SEQUENCE OF EVENTS (CONT'D)

! TjME EVENT EXERCISE ACTIVITY l

EP-001-010, Unusual Event is implemented. The emergency condition is j announced to stabon personnel. State j

and local govemment agencies,

! Waterford 1&2 and the NRC are notified.

l 09:00 RCP 1B shaft seizure. A high vibration alarm is received for RCP

T= 1:15 18, immediately followed by a trip of the CC-12 RCP. An automatic reactor trip signal is CC-13 received, but the reactor does not trip.

j The Operators will manually trip the reactor.

CC-14 Declaration of Alert. The SS/EC declares an Alert based on CC-15 EP-001-001, Recognition and Classificatum of Emergency Conditions, i Initiating Condition C/A/IV,"RPS 3

Automabc Trip failed." There are no

PARS required for this declaration.

l CC-18 EP-001-020, Alert,isimplemented. The i CC-17 emergency condition is announced to

' CC-18 station personnel. The Onsito (TSC &

OSC) and Nearsite (EOF) Emergency Organizations are mobilized. State and

! local government agencies, Waterford i

1&2 and the NRC are notified. The SS p

will notify the shift Computer Technician to

{

1 activate ERDS.

r CC-19 PASS Stample initiated.

The RCP shaft seizure results in fuel damage increasing RCS achvity. The i

Control Room will request an RCS j sample. If Chemistry attempts to use the primary sample panel, radiation levels will l

indicate that the PASS panel should be

used.

1

. NOTE: PASS sampling is an objective of f l this exercise. An actual PASS sample will l be drawn and analyzed. Coordination j with the actual Operating Shift will be '

. required to line up the PASS panel for j

sampling.

, l y V-2 i

i WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

V. SEQUENCE OF EVENTS (CONT'D) i

.TJIME EVENT EXERCISE ACTIVITY l' 09:00 Exercise continuation announcement.

T= +1:15 '

j CC-20 09:40 "A" Charging pump failure. The Control Room receives indication of

T= +1: 55 the failure of the A charging pump. Upon i CC-21 investigation, maintenance personnel will i

CC-22 find a leaking fitting for the oil pump CC-23 pressure relief valve. The relief valve s

1 fitting will need to be replaced to retum

the charging pump to service.

, 10:00' Exercise continuation announcement.

T= +2:15

. CC-24 l 10:05 Instrument Airleak. An instrument airleak occurs on the l

, T= +2:20 piping in the B switchgear room. The leak i CC-25 is unisolable and must be repaired to I l CC-26 preventloss of equipment due to low CC-27 instrument air pressure. At this time the CC-28 instrument air to station air cross connect

~ valve also fails to open. Mechanical and l&C maintenance will be dispatched to

repair the instrument air problems.

i 10:30 RCS leakage. A large break LOCA occurs. (Source of T= +2:45 the leak will be determined based on what CC-29 the Simulator will model. The actual

CC-30 source is not important since radiation i levels will prevent containment entry.)

i i

CC-31 Site Area Emergency declaration. A Site Area Emergency is declared based CC-32 on EP-001-001, Recognition and Classification of Emergency Conditions, 4

initiating Condition B/SAE/l, "RCS leakage i

greater than available charging pump ,

capacity" OR initiating Condition E/SAE/l, !

" Plant conditions exist that warrant i precautionary activation of the TSC gag i

EQE OR a precautionary notification to offsite authontles". There are no offsite l j , PARS required for this declaration. A site

' l evacuation of non-essential personnelis

, implemented.

V-3

WATERFORD 3 ANNUAL EXERCISE

JULY 12,1995 "

i V. SEQUENCE OF EVENTS (CONT'D)

I(ME EVENT EXERCISE ACTIVITY j EP-001-030, Site Area Emergency is implemented. The Emergency Coordinator selects the appropnate offsite assembly area, notifies Security, dispatches the Assembly Area Supervisor and an HP technician to the selected j assembly area and announces the 4

Protected Area Evacuation. (The

Emergency Coordinator may elect not to dispatch an HP technician to the offsite

assembly area.)

NOTE: For the purposes of this exercise, ;

l only the Protected Area will be evacuated 1 to station parking lots. A small group of

pre-designated persons will be evacuated

, to the assembly area to demonstrate

- evacuation and assembly area activities.

CC-33 State and local govemment agencies, Waterford 1&2 and the NRC are notified.

Protective Actions taken by Waterford 3 are reported to Waterford 1&2 (for the j purposes of this exercise, ev'a cuation of Waterford 1&2 will not occur). If the Nearsite Emergency Organization (EOF) is not activated, the declaration of Site Area Emergency results in the activation of the EOF.

EP-002-190, Personnel Accountability, and PS-018-103, Accountability of

Personnelwithin the Protected Area -

During Emergencies, are implemented.

CC-34 When Security completes their accountability activities, a Missing Person report is sent to the TSC. When all personnel have been accounted for, i personnel evacuated to station parking lots will be allowed to retum to their .

normal work areas.

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1 i

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

V. SEQUENCE OF EVENTS (CONT'D) l IIME EVENT EXERCISE ACTIVITY

CC-35 When assembly area activities are completed, the evacuated personnel i

should be directed to return to the plant.

This objective will have been completed 1

and the evacuation / assembly area porbon j

of the Exercise will have been completed.

4 4 11:00 Exercise continuation announcement.

T= +3:15 j CC-36 CC-37 Transformer 3A315-S failure A gas leak is detected on transformer CC-38 3A315-S. The gas is used for cooling the CC-39 transformer and must be fixed to prevent CC-40 failure of the transformer. Loss of this i

transformer would result in the loss of the dry cooling tower fans. An electrical repair team will be dispatched to repair the leak and add gas to the transformer.

i =11:40 HPSI suction line leak. A 30 gpm leak occurs on the inlet flange

! Ts +3:55 of the A HPSI suction relief valve SI-CC-41 2034A. The Control Room should attempt i CC-42 to line up and start the A/B HPSI pump.

. CC-43 When they attempt to close the A HPSI l CC-44 suction isolation valve SI-203A, the valve c

reachrod freewheels, indicating damage to the reachrod. Mechanical maintenance

! will be dispatched to repair the reachrod.

=12:00 RAS initiation. "B" Containment Spray Approximately 1 1/2 hours after the RCS 3 T= +4:15 Pump Failure. leakage occurs, the recirculation actuation CC-45 signal (RAS) should be initiated. At this CC-46 time, the water leaking from the A HPSI flashes to steam and results in a release of radioactivity to the atmosphere via the i

RAB ventilation system to the plant stack.

Also at this time, the B Containment Spray Pump trips due to failure of the motor.

Due to high radiation levels, personnel will not be able to enter the Safeguards Room .

' to repair the motor.

f V-5

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

i V. SEQUENCE OF EVENTS (CONT'D)

?

IlME EVENT EXERCISE ACTNITY l CC 47 General Emergency declaration. A General Emergency is declared based i . CC-48 on EP-001-001, Recognition and Classificabon of Emergency Condsons, . l Initiating Condition 8/GE/II OR E/ Gell, l

} "EC opinion that a loss of any two of the .

.l three fission product bamers has occurred ;

! AND plant conditions are such that a

) l potential loss of the third barrier exists" !

OR Initiating Condition A/GE/l, " Dose j

projection or radiological monitoring team j i

indicates TEDE dose rate at EAB greater l than or equal to1QQQ MR/HR OR CDE j !

Thyroid dose rate at EAB greater than or l

[ equal to 5000 MR/HR."

! EP-001-040, General Emergency is implemented. Protective Actions for

offsite personnel are required in accordance with EP-002-052. Protective l Action Guidelines. Expected protective

{ actions are evacuation for protective

response areas A1, B1, C1, D1, A2 and B2 and sheltering for all other protective

! response areas in the 10-mile EPZ. State j L and local govemment agencies, 1 Waterford 1&2 and the NRC are notified. ;

12:00 Exercise continuation announcement.

T= +4:15 CC-49 CC-50 Release terminated. When the A HPSI suction isolation valve -

is closed, the' release will be terminated '

and offsite dose rutes will begin to decrease. At this time, the emergency I organization should evaluate the emergency classification and discuss downgrading of the emergency.

13:00 Exercise continuation announcement.

T= +5:15 e

CC-51

. a V-6

WATERFORD 3 ANNUAL EXERCISE !

, JULY 12,1995 "

l l

V. SEQUENCE OF EVENTS (CONTD) )

ILME EVENT EXERCISE ACTIVITY 4

CC-52 Exercise termination. When the Lead Controller determines that

. the objectives for the exercise have been demonstrated, the exercise will be terminated and area critiques will be conducted.

4 4

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i E

V-7

l WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 288 TO: l&C REPAIR TEAM TIME: Upon arrival at SA-IA X-Conn.

d

. FROM: REPAIR TEAM MONITOR T= N/A

.=__===_===============__==_=====_==_=============_=________=

t THIS IS A DRILL i NOT initiate actions aWeging nonngplant openitions -__=

. .===___= . . = = =

ANTICIPATED RESPONSE 1

1. The repair team finds that the pressure relay inside the controller has failed. l

2. The repair team will replace the pressure relay.

COMMENTS i

! The failure of the pressure relay in the valve controller causes the controller to maintain pressure on the valve to keep it closed.

INSTRUCTIONS Provide the information on this cue card when the repair team investigates the failure of the valve to open.

j IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED AS SOON AS THE CROSS CONNECT VALVE IS REPAIRED AND OPENED.

^

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VI-57

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 29A j TO: CRS/NPO TIME: 10:30 FROM: CONTROL ROOM CONTROLLER T= + 2:45

..== =_= -_======________ ===_= =_=-_===__======

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations

.. _ -- = = = =_= =__. =_ = = = = =_____ ._= =_ -_= = = = 1 Provide the following information:

1 A large break LOCA is indicated !

l ALARMS:

i

) CONTAINMENT WATER LEAKAGE HI-HI, on CP-8, Cabinet N, Window K20

! CONTAINMENT WATER LEAKAGE HI, on CP-8, Cabinet N, Window L20 i SlAS TRAIN A LOGIC INITIATED, on CP-2, Cabinet K, Window G19 SIAS TRAIN B LOGIC INITIATED, on CP-2, Cabinet K, Window G20 i CIAS TRAIN A LOGIC INITIATED, on CP-2, Cabinet K, Window E19 l CIAS TRAIN B LOGIC INITIATED, on CP-2, Cabinet K, Window E20 '

, RADIATION MONITOR ALARMS:

AAS-018, ARM-IRE 5024S, PURGE ISOLATION B, HIGH ALARM AAS-020, ARM-IRE-5025S, PURGE ISOLATION A, HIGH ALARM l 4

AAS-023, ARM-IRE-5027S, PURGE ISOLATION B, HIGH ALARM AAS-024, ARM-IRE-5026S, PURGE ISOLATION A, HIGH ALARM 1

PPS-311, PRM-IRE-0100Y, CONTAINMENT ATMOS. PIG PART., HIGH ALARM

, PIS-312, PRM-IRE-0100Y, CONTAINMENT ATMOS. PIG IOD., HIGH ALARM l PGS-313, PRM-lRE-0100Y, CONT. ATMOS. PIG GAS, HIGH ALARM . ..

, AAA 557, ARM-IRE-5201,-4 RCB PERSONNEL AIR LOCK, ALERT i

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Vl-58

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EN ERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. .1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 29B TO: CRS/NPO TIME: 10:30 FROM: CONTROL ROOM CONTROLLER T= + 2:45

..=.=.====.=_=..=..==============..=:==..==

THIS IS A DRILL DO NOT initiate actions affectin

..====..=== ==g normal plant operations

. = ==...==== == = . = = = = = = = . . . . . = = = = =

ANTICIPATED RESPONSE

1. Since this leakage is greater than charging pump capacity, the Emergency Coordinator should declare a Site Area Emergency based on Initiating Condition B/SAE/l.

2. The EC willimplement EP-001-030, Site Area Emergency.

COMMENT _S A large break LOCA is initiated on an RCS cold leg. The exact location of the leak is not important since the drill participants would not be able to determine this information without entering Containment. Due to high radiation levels, a Containment entry would not be possible during the course of this drill.

INSTRUCTIONS This cue card will not need to be issued unless the Simulator fails and the indications are not available on the control panels.

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VI-59 i

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 30A TO: MECHANICAL / ELECTRICAL REPAIR TEAM TIME: 10:30 FROM: REPAIR TEAM MONITOR T= +2:45 THIS IS A DRILL DO NOT Initiate actions affecting normal plant o

.;_ _;;_:: ;; ;;;;;; _ _ :::::::::::::::::: _ _ _ _;;;;;;;_ _ _ _;;;;;;;:_ _ _ _;;;; _ _ _ ;;;perations CONTINGENCY CUE CARD Implementina Conditions: If the control switch for "A" charging pump had been placed in the i OFF position and then returned to the AUTO position after it l tripped or the breaker has not been racked down to work on the pump, the charging pump will start when SIAS is initiated after the large break LOCA.

Continaency Action: Repair teams in the area will be provided indication that the A charging pump is running.

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i VI-60

l i

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WATERFORD 3 ANNUAL EXERCISE

JULY 12,1995 -

1 1

, W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD l DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 30B i

)'

TO: MECHANICAL / ELECTRICAL REPAIR TEAM TIME: 10:30 FROM: REPAIR TEAM MONITOR T= +2:45 g ..- __.. .. ____ ...... ...__......_. ..._ _..._.. __ _..- ...........- .._ l

) THIS IS A DRILL j DO NOT initiate actions affecting normal plant operations I l l ANTICIPATED RESPONSE 1 1

! 1. Repair teams in the area of the A charging pump will report that the charging pump is

running.

j

2. The Control Room may choose to secure the A charging pump.

3. If the pump is not secured, it will run for approximately 30 minutes and then trip due to

, mechanical seizing of the shaft.

l

4. If the pump seizure occurs, the repair team will report this information to the Control Room i and investigate the cause of the trip.

5. Mechanical repair team will find that the shaft will not tum and is very hot.

6. Electrical repair team will find that the motor tripped on overcurrent.

COMMENTS It has been determined that, without lube oil, the charging pump can run for approximately 30 minutes. After this time it will trip due to a mechanical seizure of the shaft.

! INSTRUCTIONS i

The information on this cue card will be issued if the charging pump A control switch had been i placed in the " AUTO" position after the initial trip.

i DRILL TEAM COORDINATION IS VERY IMPORTANT TO ENSURE THAT THE STATUS OF THE A CHARGING PUMP IS MONITORED. THE SIMULATOR INSTRUCTOR BOOTH MUST i

BE INFORMED IF THE PUMP HAS BEEN TAGGED OUT FOR REPAIRS. THE OSC i MONITORS MUST BE INFORMED IF THE CONTROL SWITCH IS IN THE AUTO POSITION.

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VI-61 i

T l l

l WATERFORD 3 ANNUAL EXERCISE l JULY 12,1995 -

l W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 31A TO: EMERGENCY COORDINATOR / EOF DIRECTOR TIME: Upon i

declaration of Site Area Emergency FROM: TSC/ EOF CONTROLLER T= N/A

=___======_______x=_=___=_==================.

THIS IS A DRILL DO NOT Initiate actions affecting normal plant operation >

............... = = = = _ = = = = = = :_=====

Substitute for Steo 5.1.5 of EP-001-030:

5.1.5 Sound the STATION ALARM (for at least 5 seconds) and make the following I

announcement (s): i 5.1.5.1 ATTENTION ALL PERSONNEL! ATTENTION ALL PERSONNELI THIS IS A DRILLI THIS IS A DRILL!

A SITE AREA EMERGENCY WAS DECLARED AT ( )DUETO(

).

ALL MEMBERS OF THE EMERGENCY ORGANIZATION FOR THIS EXERCISE 1 i

REPORT TO YOUR STATIONS (if necessarv. announce routino instructions for i EOF responders). DUE TO PLANT CONDITIONS, ALL PERSONNEL IN THE PROTECTED AREA NOT PARTICIPATING IN THIS EXERCISE MUST EXIT THE PROTECTED AREA iMMEDIATELY. DESIGNATED EVACUEES PROCEED TO

(

). THERE WILL BE NO SMOKING, EATING OR DRINKING UNTIL FURTHER NOTICE. THE MAINTENANCE RADIO FREQUENCY IS DEDICATED FOR EMERGENCY USE ONLYI THIS IS A DRILL! THIS IS A DRILLI 5.1.5.2 If there is a localized emergency (e.g., fire, radiological hazard outside of normally established RCAs), announce its type and location and instruct personnel to stand clear of this area (refer to FP-001-020 for fire).

5.1.5.3 Sound the STATION ALARM (for at least 5 seconds) and repeat the announcement (s) at least two more times. allowing sufficient time for personnel who may be in high noise areas to reach a location where the announcement can be heard.

VI-62

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

i W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 318

] TO: EMERGENCY COORDINATOR / EOF OIRECTOR TIME: Upon declaration of Site Area j Emergency i

FROM: TSC/ EOF CONTROLLER T= N/A

, .==__________================_=====__========._==

THIS IS A DRILL DO NOT initiate actions affecting normal

..... .. = = = = = = = = = = = = = = = = = = _ _ u = = = = = == pla

_ = nt operations .

J ANTICIPATED RESPONSE

1. EC/ EOF Director determines the proper offsite assembly area.

2. Security is notified to prepare for the evacuation.

3. The Assembly Area Supervisor is dispatched to the selected offsite assembly area.

4. EC makes site announcement.

i

5. Non-essennel Protected Area personnel exit the Protected Area to station parking lots.

6. Designated evacuees depart for the selected assembly area.

7. Security performs accountability and supplies a Missing Person Roster to the TSC. '

8. There are no offsite PARS required for this declaration.

COMMENTS t

1. A small number of pre-selected plant personnel have been designated to report to the announced offsite assembly area. All other non-essential personnelin the Protected Area

, will evacuate to station parking lots until accountability activities have been completed, j 2. Since the EOF staffs at an Alert, it is possible that the EOF may be activated prior to the

declaration of Site Area Emergency. In this case, the cue card will be provided to the EOF Director.

I

INSTRUCTIONS i

Issue this cue card as the Emergency Coordinator / EOF Director prepares to announce the Site Area Emergency.

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VI-63

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL T(PE/NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 32A TO: EMERGENCY COORDINATOR / EOF DIRECTOR TIME: At the discretion of the Lead Controller FROM: TSC/ EOF CONTROLLER T= N/A

..==_====.=====______======___=___=__=_====

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations

. ..===== =_____======.==_=___=.=======

CONTINGENCY CUE CARD implementino Condi+ ions: When it appears imminent that the classification will not be made in accordance with the design of this exercise package.

Continaency Action: Direct the Emergency Coordinator / EOF Director to classify the event as a Site Area Emergency.

VI-64

l WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD 1

DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 328 1 TO: EMERGENCY COORDINATOR / EOF DIRECTOR TIME: At the discretion of the Lead Controller FROM: TSC/ EOF CONTROLLER T= N/A

.=========.____==.____===.....==___-..__============

THIS IS A DRlLL DO NOT initiate actions affecting normal plant operations I

.= = = . ... =. ___. = ==_..=

ANTICIPATED RESPONSE l

1. Site Area Emergency declared.

2. EP-001-030, Site Area Emergency implemented.

3. Site evacuation prepared for and announced.

4 COMMENTS

INSTRUCTIONS The purpose of this cue card is to maintain the scenario time line. This cue card will not be issued any earlier than 15 minutes after Site Area Emergency conditions are present. .

If this cue card is issued, provide the Emergency Coordinator / EOF Director with the drill declaration announcement from the previous cue card.

This cue card is not to be issued without authorization from the Lead Controller.

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VI-65 -

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 33A TO: EOF COMMUNICATOR TIME: When the EOF Communicators begin to activate the EOF Activated VNS Scenario FROM: EOF COMMUNICATIONS MONITOR T= N/A

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

THIS IS A DRILL DO NOT initiate actions affecting normal

.. .. . = = = _ _ _ = u = = _ u = = = = _ _ ___u.===_===

=pla nt operations i

When the EOF Communicator begins to activate the VNS to initiate the EOF Activated Scenario, ensure that the DRILL scenario is used by substituting the " DRILL USE ONLY" copy of EP-002-015.

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4 VI-66

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 338 TO: EOF COMMUNICATOR TIME: When the EOF Communicators begin to activate I the EOF Activated VNS Scenario l

FROM: EOF COMMUNICATIONS MONITOR T= N/A

_=====._==___=_===__=====_===============

THIS IS A DRILL DO NOT initiate actions affecting normal

.. ..= = = . . = = = = = = = = = = _ _ = = _ _ = = = . . .. .. pla nt operations

. . . = = = = . . = = = = = . . =

ANTICIPATED RESPONSE The EOF Communicator willinitiate the DRILL EOF Activated Scenario.

COMMENTS EP-002-015 is written for use in actual emergency situations and directs the Communicator to initiate the scenarios in the EMERGENCY mode which will not include the "THIS IS A DRILL" statement. By initiating the DRILL scenario, the "THIS IS A DRILL" statement will be provided to the personnel when they call in. This will eliminate any confusion as to whether or not an cctual emergency has been declared.

INSTRUCTIONS Since the EOF personnel staff the facility at an Alett, the EOF could be activated prior to the declaration of Site Area Emergency. The EOF Communications Monitor must note the staffing

{ End activation of the EOF and issue the " DRILL USE ONLY" copy of EP-002-015 accordingly.

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VI-67

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD

, DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 34A TO: TSC SUPERVISOR TIME: When Accountability is completed FROM: TSC CONTROLLER T= N/A

.=======_==_____=_______________====______=======_==_===

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations Make the following announcement:

4 THIS IS A DRILLI THIS IS A DRILLI l

ACCOUNTABILITY ACTIVITIES HAVE BEEN COMPLETED. ALL PERSONNEL WHO I

EVACUATED THE PROTECTED AREA MAY RETURN TO THEIR NORMAL WORK AREAS.

Repeat the announcement once.

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VI-68

i WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95 04 CUE CARD NO. 34B TO: TSC SUPERVISOR TIME: When Accountability is completed FROM: TSC CONTROLLER T= N/A

=:_____ =;; =;;;;;;;;;;;;;;;_ = =:=;;= ___;=;=__= = =____:_;;;;;;;;____=;;;;;_;;=;;;;

THIS IS A DRILL DO NOT initiate actions affecting normal plant o

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

.===

ANTICIPATED RESPONSE Plant parsonnel who had evacuated the Protected Area to the station parking lots retum to their work areas.

COMMENTS INSTRUCTIONS This cue card will be issued after all personnel identified on the Missing Person Roster have

been accounted for.

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l VI69

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

4 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 35A

TO: OSC SUPERVISOR TIME: When Assembly Area Supervisor reports to OSC 1

FROM: OSC CONTROLLER T= N/A

..=====_.===_==_===__==...-===_____=_;=======___=__==

THIS IS A DRILL

...;;; _ _ _ _ _ _ _ _ _;;; _ _ _;;;;;; _ _ _ _ _ _ _ affectin DO NOT initiate actions _ _ _ _ ;;;;;;;;; _ _ ;;;;;_ _ _;g normal plant operations

} When the Assembly Area Supervisor has completed his objectives at the offsite assembly area, the OSC Supervisor will be directed to allow the personnel at the assembly area to retum to the plant.

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b VI-70 i

j WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

l W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD 1

DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 35B TO: OSC SUPERVISOR TIME: When Assembly j

Area Supervisor reports to OSC 4

FROM: OSC CONTROLLER T=

4 N/A

..=__=____________=__======_==_======__=====.======.

THIS IS A DRILL

= _ _ _ = = _ _ _ _DO

___ NOT

= = =initiate actions

= = = =..= = = =affectin

= = = = = =g normal plant operations

=====

I ANTICIPATED RESPONSE

! The OSC Supervisor will advise the Assembly Area Supervisor to secure the assembly area i activities and return to the plant with the exercise participants and monitors.

COMMENTS 4

The Assembly Area Supervisor reports to the site via the Assembly Area Supervisor radio

! frequency. This radio is located at the OSC HP Uaison area in the OSC.

i i INSTRUCTIONS l

i The OSC Controller, or OSC Monitor, will issue this cue card after determining that activities at

! the offsite assembly area (mustering evacuees, radiological survey of personnel and vehicles if j required) have been completed.

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VI-71 4

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 36A TO: CONTROL ROOM DATA CLERK TIME: 11:00 FROM: CONTROL ROOM CONTROLLER T= + 3:15 m

= = = == =__=. = _ = = _ = === = = = ==__ = ==_= == = =

THIS IS A DRILL

___::::::_____ _DO NOT initiate: actions

_ _;;;;;;;;_____ _ :;_ ___affectin

_;;;;;;;;;g normal plant operations Make the following announcement:

ATTENTION ALL PERSONNEL! THIS IS A DRILLI THE 1995 ANNUAL EXERCISE IS IN PROGRESS. DO NOT USE THE PLANT PAGE FOR NON-EXERCISE RELATED ANNOUNCEiAENTS.

DRILL TIME IS (Insert time from Simulator clock)

THIS IS A DRILLt Do not r4Deat thlS announcement.

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i 4 VI-72

._a --. es-.a WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. _36B TO: CONTROL ROOM DATA CLERK TIME: 11:00 FROM: CONTROL ROOM CONTROLLER T= + 3:15

. =____= = = _= = _ = _ = - .______= = = = = = = = =__=.= = = = _ =

THIS IS A DRILL DO NOT initiate actions affectin normal plant operations

_;;;;;;;;;______;;;_;;;;;;_ __;;;_;;;;;__ ___;;;;;___;;;;g ANTICIPATED RESPONSE The Control Room Data Clerk will make the announcement.

COMMENTS INSTRUCTIONS The Control Room Data Clerk should ensure that this announcement does not interfere with announcements being made by the exercise participants.

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VI-73

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 37A TO: CRS/NPO TIME: 11:00 FROM: CONTROL ROOM CONTROLLER / MONITOR T= +3:15

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

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations

..=_==== ===..==__________= =_u= __==____ =_____============

Provide the following information:

ALARM SS XFMR 3A315-S GRNfrEMP-PRESS Hl/LO on CP-1, Cabinet D, Window S-4.

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VI-74

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 378 TO: CRS/NPO TIME: 11:00 FROM: CONTROL ROOM CONTROLLER / MONITOR T= +3:15

.:.______==_= = =;_= = =__=____==____=== =_== = = =_===.

THIS IS A DRILL

.;;; : ;;;;. .;;;;;; _ _ DO NOT

_ _ _;;; _ initiate actions ;;;;;;;;;;;

_;;;;;;;;;;;;;;;;;;;_ affecting normal

_ _:: _ :: _plant

_ _ _o_perations ANTICIPATED RESPONSE

1. The Control Room will enter OP-500-004, Annunciator Response Procedure Control Room Cabinet D.

2. An NAO will be dispatched to check trar.sformer 3A315 S.

COMMENTS INSTRUCTIONS This Cue Card will not need to be issued unless the Simulator fails and the indications are not available on the control panels.

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l VI-75 1

1 WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 38A

! TO: NAO TIME: Upon arrival at XFRMR ;

i l

FROM: NAO MONITOR T=

_= = = = = = = = = = __== = _ = = =__= = = = _= = =_= = =

THIS IS A DRILL DO NOT Initiate actions affecting normal

.. .=______==== = = _ =.=== = = = = = = = = == plant operations

___=======_===___

l Provide the following information:

l When an NAO arrives at the transformer, provide the following information: )

l Voltage readings at the MCC (The readings listed are normai readings so the monitor will not have to supply the readings):

A-B 480VAC B-C 480VAC

C-A 480VAC A-GND 277VAC

, B-GND 277VAC i C-GND 277VAC Transformer pressure indicator SSDIPl2537:

At 11:00 pressure will be 2.5 psi At 11:15 pressure will be 2.0 psi At 11:30 pressure will be 1.5 psi At 11:45 pressure will be 1.0 psi At 12:00 pressure will be 0.5 psi 4

+

Transformer temperature indicator SSDITIS2537: [-

At 11:00 temperature will be 65'F At 11:15 temperature will be 75'F At 11:30 temperature will be 85'F At 11:45 temperature will be 95'F At 12:00 temperature will be 110' F I

VI-76

I WATERFORD 3 ANNUAL EXERCISE i JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 388

{ TO: NAO TIME: Upon arrival at XFRMR FROM: NAO MONITOR T= N/A

.=__===__====..___=__x==_________=.=.__==.__=______==_====.=

THIS IS A DRlLL I

. . .= = == = DO

= _ =NOT

= = =Initiate

_ _ _ _ actions

= _ _ _ _affectin

_ _ _ _ _ _ _ = =g normal plant operations )

========_==_=

ANTICIPATED RESPONSE l 1

Upon checking indications, the NAO should check the transformer for signs of gas leakage.

2. A small weld leak will be found at the pipe fitting to the pressure gage.

3. The NAO will report conditions to the Control Room.

4. The Control Room should contact the TSC and request assistance from electrical maintenance.

COMMENTS 4

LMSTRUCTIONS Provide the information on this cue card when the NAO arrives at the transformer. !

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VI-77

WATERFOPD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 39A TO: ELECTRICAL REPAIR TEAM TIME: Upon arrival at XFRMR FROM: REPAIR TEAM MONITOR T= N/A THIS IS A DRILL

........ : = = =DO

=._ NOT

= = = initiate

_ = = = actions

===== affectin

= _ _ =g nozmal plant operations

= = = = = = = = = = = = = .

Provide the following infornation:

Upon arrival at the transformer, the electrical personnel will receive the indications provided on the previous cue card.

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VI-78

d WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

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W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD l DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 39B TO: ELECTRICAL REPAIR TEAM TIME: Upon arrival at XFRMR i FROM: REPAIR TEAM MONITOR T= N/A 1 .

---====____________====_=====_=====-===

THIS IS A DRlLL DO NOT initiate actions affecting normal plant operations

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

] ANTICIPATED RESPONSE i

4

1. The repair team should recommend adding gas (C2F6) per ME-004-085, Sealed, Dry-Type, Gas-Filled Station Service Transformers. l i

j 2. The repair team will need to obtain a bottle of gas, hand tools and a regulator.

l

, 3. Arrangements should be made to have a mechanical maintenance person operate the i

crane to get the gas bottle to the transformer in the west cooling tower area. !

4. Security should be requested to post the west cooling tower area while handling the gas i

with the crane. t

5. Gas will be added in accordance with the procedure.

3 6. When the gas bottle runs out, the repair team should notify the OSC to obtain additional gas.

7. The OSC should get a bottle out of the warehouse, but will request additional bottles be

) obtained.

i 8. The TSC should request the EOF to obtain additional gas. ;

i 9. Mechanical Maintenance may be requested to repair the weld. .

i COMMENTS l When adding gas, the transformer pressure will be simulated to equalize at about 3.0 psi due i to the leak. This will lower the transformer temperature to approximately 85 degrees. The

repair team will not be able to lower the temperature further until the leak is secured.

I Extra gas for the transformer is not easily obtained since it is freon based. The participants .

may need to arrange to get gas from ANO. There is not a supplier in the New Orleans area. e i

i Procedure ME-004-085 CWD 2537 i

INSTRUCTIONS i

1. After all items are obtained and the gas bottle is in the basket ready to be lowered into the ,

cooling tower area, the participants will be instructed to simulate the remaining activities.

t

2. When adding gas at the transformer, the transformer pressure will increase to 3.0 psi then hold steady. This is indication that the gas bottle is empty, i 3. When the gas pressure exceeds 2.5 psi, notify the Simulator Operator to ruset annunciator D1004.

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j Vl-79

-J WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

i W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 40A TO: MECHANICAL REPAIR TEAM TIME: Upon arrival at 3A315-S XFMR FROM: REPAIR TEAM MONITOR T= N/A

. == = -._____==_===== ~= = ==-_____________= =_==== = = =====

THIS IS A DRILL DO

.=; ==NOT

=..=initiate

_ _ _ =actions

=...= =affectin

= = = =g= normal

) =__ = plant operations

_= = = = = =____ = ____

i j CONTINGENCY CUE CARD i

Imolementino Conditions: If mechanical maintenance is requested to repair the weld on the i pressure gage for transformer 3A315-S.

! Continoency Action: The mechanical repair team will find ice formation around the

, leaking fitting.

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s VI-80

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2 WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

l W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD i ,

DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 400

' l

, TO: MECHANICAL REPAIR TEAM TIME: Upon arrival at l 4

3A315-S XFMR FROM: REPAIR TEAM MONITOR T= N/A

.=_= = = = = =_= =__= =__== =_______= = = =_==__= = = =_= = = = =

THIS IS A DRILL l DO NOT initiate actions affecting normal plant operations ;

=========.: ====== ..======= ======= '

ANTICIPATED RESPONSE

1. The repair team will find that they cannot easily seal the leaking weld due to the ice j formation. l

2. The repair team will report the status to the OSC.

j 3. The TSC/ EOF engineers may assess methods to stop the leak.

1 i COMMENTS l

1. Tape will not stick to the fitting due to the ice formation and there is not enough tubing exposed to install a clamp to stop the gas leakage.

l 2. If the repair team finds a way to seal the leakage, they will be allowed to implement their

! resolution to the problem.

3. Since this transformer supplies power to the "A" side dry and wet cooling tower fans, power

! must be maintained. This prevents repair to the weld until the plant is shut down and cooled down.

l INSTRUCTIONS l Provide the information on this cue card when the mechanical repair team arrives at the i

transformer.

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VI-81

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 41A TO: CRS/NPO TIME: s 11:40 1

FROM: CONTROL ROOM CONTROLLER / MONITOR T= +3:55

:=_===___=_=====_====_=====___=

THIS IS A DRILL DO NOT initiate actions affectin

= = = = = = = = _ _ _ _ = = = = _ _ = _ _ _ _====_=__=======

=g normal plant operations Provide the following information:

ALARM l

i SAFEGUARD PUMPS AREA SUMP PUMP RUNNING, on CP-8, Panel M, Window N-10 '

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VI-82 i

i WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 41B TO: CRS/NPO TIME: = 11:40 FROM: CONTROL ROOM CONTROLLER / MONITOR Ta +3:55

===_____=======_========__===_____===_==_==_ _=;_

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations

..:_u=======:_====__===_===_ ===_==____=======_=====

4 ANTICIPATED RESPONSE Upon receiving the alarm, the Control Room will dispatch an NAO to investigate why the sump

pump is running and check for leaks.

COMMENTS The sump pump running alarm is due to a 30 gpm leak on the inlet flange for the A HPSI pump

! suction relief valve SI-2034A

lNSTRUCTIONS The information on this cue card will not need to be issued unless the Simulator fails and the indications are not available on the control panels.

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VI-83

l l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

i W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 42A TO: NAO TIME: Upon arrivalin the A Safeguards Room FROM: NAO MONITOR T= N/A THIS IS A DRlLL DO NOT initiate actions affecting normal plant operations

===_==.=====___==_

Provide the following information:

There is water leaking from the inlet flange of the A HPSI pump suction relief valve (SI-2034A).

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I VI-84

d )

4 WATERFORD 3 ANNUAL EXERCISE 1 JULY 12,1995 '

1 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD

! DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 42B

TO: NAO TIME: Upon anivalin the A Safeguards

Room i

FROM: NAO MONEOR T= N/A

__;l-___ii__ii;;_ ____i___-_____;^;;__li_i__i^_li;;;;iiiii_;___iiiii___11111122^_________222- ;__ i

! THIS IS A DRILL j DO NOT initiate actions affecting normal plant operations

, ===__== =_______=_==== __=========== ;

j ANTICIPATED RESPONSE

1. The NAO will report the leakage to the Control Room.

1 2. The Control Room may decide to secure the A HPSI pump and lineup the A/B HPSI pump.

3. The NAO will go to the valve gallery to close the A HPSI pump suction isolation valve (SI-203A) to secure the leakage.

4. When the NAO attempts to close SI-203A, the reachrod won't move at first and then will freewheel indicating a problem with the reachrod.

1

5. The Control Room should request a repair team to repair the reachrod.

COMMENTS 3

1. The water leaking from the inlet flange is coming from the RWSP. The Control Room should realize that RAS is imminent and will want to close the suction valve before the

suction shifts to the Safety injection (SI) sump.

2. The HPSI pump suction valve cannot be closed from the Safeguards Room since it is

! locked at the reachrod in the valve gallery.

3. A pin in the reachrod mechanism falls causing the reachrod to freewheel. The NAO ,

! will hear an uylble crack when the pin breaks. l

} 4. After RAS is initish,d, the radiation levels in the Safeguards Room willincrease significantly I and the room will be inaccessible.

5. If an NAO remains in the Safeguards Room, and is there when RAS occurs, he/she will be i contaminated.

INSTRUCTIONS j

~

1. Provide the information on this cue card when the NAO arrives in the Safeguards Room.

2. The following mock-ups will be used:

a) Audio / visual aids will be used to indicate water leakage in the Safeguards Room.

) b) A mock-up of the valve reachrod mechanism will be provided in the valve gallery.

3. THE SIMULATOR OPERATOR MUST BE INFORMED WHEN THE NAO LEAVES THE SAFEGUARDS ROOM TO GO TO THE VALVE GALLERY. THIS IS THE CUE TO INITIATE RAS.

i VI-85

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 43A l

TO: NAO/HP TIME: RAS FROM: NAO MONITOR /HP MONITOR T= N/A

.====_=====_====..___==_=========.=_=======_____=_=

THIS IS A DRILL DO NOT Initiate actions = .a#ectin

= = =g normal plant operations

.. ====_______======= = = = = = = = _ = = = . = = = _ =

CONTINGENCY CUE CARD Implementino Conditions: If an NAO remains in the A Safeguards Room after the initial assessment of HPSI leakage and is in the room when RAS is initiated.

Continaency Action: The person's dosimetry will alarm and/or the HP will receive indication of increased radiation levels.

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VI-86 1

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD i DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 438 1

TO: NAO/HP TIME: RAS FROM: NAO MONITOR /HP MONITOR T= N/A

.=__ = = ____ = = = = = = _______ = _ = = _______ = ___=_ = =_ = ____ = __ = _____________

. THIS IS A DRILL DO NOT initiate actions affecting normal plant operations

= = = _ _____________ ======_____====__=_________=______==___

i i ANTICIPATED RESPONSE The NAO will leave the Safeguards Room and report to HP.

HP will survey for contamination and attempt to decontaminate the NAO. l HP may arrange for a bioassay to check for intamal exposure. i 2

COMMENTS l When RAS is initiated, the HPSI pump suction shifts from the RWSP to the Si sump, which is

, highly contaminated. The leakage from HPSI pump suction will flash to steam and radiation j'

levels will significantly increase in the Safeguards Room. As a result, anyone in the room will become contaminated and HP will need to take appropriate measures.

4 l lNSTRUCTIONS i The NAO and/or HP will be given indication of increased radiation levels. The actual levels will I j be determined by the HP monitor based on the proximity to the leak and the time the personnel remain in the room. The Survey maps in the In-Plant Health Physics Section of this package will be used in determining the amount of contamination received.

l

' IT IS VERY IMPORTANT THAT THE SIMULATOR OPERATOR KEEP THE DRILL MONITORS INFORMED OF THE IMPENDING RAS INITIATION TO ENABLE THEM TO DETERMINE THE NEED FOR ISSUING THIS CUE CARD. . -

THE DRILL MONITORS SHOULD ESTABLISH RADIO / TELEPHONE CONTACT WITH THE

. SIMULATOR OPERATOR DURING THIS EVOLUTION.

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i Vl-87

i WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

j W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD t

DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 44A TO: MECHANICAL REPAIR TEAM TIME: Upon arrival at valve gallery FROM: REPAIR TEAM MONITOR T= N/A THIS IS A DRILL DO NOT initiate actions affectin

=..u=;=;....=g normal plant operations

.. .= === = = = = =. .... =

Provide the following information:

The HPS! suction valve (SI-203A) reachrod freewheels when tumed.

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l 1L VI-88

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD i DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 448 l TO: MECHANICAL REPAIR TEAM TIME: Upon anival at valve gallery FROM: REPAIR TEAM MONITOR T= N/A

.=___= = ________ _ = = __________ = = = = = _ = = =_ = ____= = ____ = ________ = =

THIS IS A DRILL

.. = _ = = = DO = = NOTinitiate

= = = = = =actions

==== affectin

_ =g normal plant operations

=====_=====_:

4 ANTICIPATED RESPONSE

1. The repair team will remove the cover and find that the pin in the reachrod has broken.

! 2. The reachrod pin will be replaced.

3. When the pin is replaced, tho HPSI pump suction valve can be closed and the release will be secured.

2

COMMENTS i

The radiation levels in the Safeguards Room will be too high to attempt to close the valve l locally. The reachrod must be repaired to secure the leak. The radiation levels in the valve gallery will also be above normal, but, with proper precautions, the repair team will be able to j perform the repairs.

3

INSTRUCTIONS f

' A mock-up of the reachrod mechanism is provided in the valve gallery. The repair team will be required to replace the pin in the mock-up. -

1 IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE i

STATUS OF REPAIR ACTMTIES IN THE PLANT AT ALL TIMES. . ,

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VI-89 1

T WATERFORD 3 ANNUAL EXERCISE j JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 45A j TO: CRS/NPO/ PAP SECURITY TIME: a 12:00 2

FROM: CONTROL ROOM CONTROLLER / MONITOR / T= +4:15 PAP MONROR

.. .= = = = = =_ = = = = =_ = = = = = _ = = = __ = = = = = = = _ = ___ = _____ = __ = _

4 THIS IS A DRILL DO NOT Initiate actions affecting normal

. .... .= = = _ = = = = = = = _ = = = = = . = = = = plant

= = operations

= = = = = = =

Provide the following indication:

i' LPSI pumps A&B indicate they have stopped.

! Valves SI-802A and SI-6028 indicate OPEN.

4 ALARMS

! RAS TRAIN A LOGIC INITIATED, on CP-2, Cabinet K, Window K19 RAS TRAIN B LOGIC INITIATED, on CP-2, Cabinet K, Window K20 SI SUMP WATER DETECTED on CP-8, Cabinet N, Window C20

CNTMT SPRAY PUMP B TRIP / TROUBLE on CP-8, Cabinet N, Window B14 Computer Point D42500, CSP B BKR SWGR 383-S-5, "OFF" Computer Point D42502, CSP B MTR OVERLOAD j Computer Point A42500, CSP B MTR AMPS, "0" RADIATION MONITORING SYSTEM ALARMS **

! EPS-131, PRM-lRE-0100.1S, Plant Stack A Particulate Channel, HIGH EIS-132, PRM IRE-0100.1S, Plant Stack A lodine Channel, HIGH

! l EGS-133, PRM-lRE-0100.1S, Plant Stack A Gas Channel, HIGH l

EPS-141, PRM-lRE-0100.2S, Plant Stack B Particulate Channel, HIGH l

)

EIS-142, PRM-IRE-0100.2S, Plant Stack B lodine Channel, HIGH . l EGS-143, PRM-IRE-0100.2S, Plant Stack B Gas Channel, HIGH .

EGG-514, PRM-lRE-0110, Plant Stack WRGM Low Range, HIGH EGG 515, PRM-lRE-0110, Plant Stack WRGM Mid Range, HIGH

EGG-517, PRM-IRE-0110, Plant Stack WRGM Effluent, HIGH Portal Monitors and Frisker at the PAP into ALARM l

j ** NOTE: Many RMS alarms would be received at this time. Only key alarms are listed.

VI-90 l

d WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

l W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 458 TO: CRS/NPO/ PAP SECURITY TIME: a 12:00 FROM: CONTROL ROOM CONTROLLER / MONITOR / T= +4:15 PAP MONITOR 1

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

THIS IS A DRILL i

DO NOT initiate actions

. . . . . . .affectin

. . . . . . . . . . .g normal pla nt operations

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

ANTICIPATED RESPONSE

1. The Control Room should announce the initiation of RAS.

2. The Control Room will enter OP-500-012, Annunciator Response Procedure Cabinet N.

3. The Control Room should dispatch an NAO to investigate the loss of the B Containment Spray Pump at the breaker.

4. The Control Room should request an OSC repair team to investigate the B Containment Spray Pump.

5. A General Emergency should be declared and initial protective action recommendations made of evacuation of the 2 mile radius,5 miles downwind and sheltering for all other protective response areas.

6. EP-001-040, General Emergency and EP-002-052, Protective Action Guidelines are implemented.

COMMENTS

! 1. The initiation of RAS is indicated. When RAS is initiated, the water leaking from the A i

HPSI pump will flash to steam. The activity will be picked up by the ventilation system and go out through the stack resulting in a release of radioactivity to the atmosphere.

2. The B Containment Spray Pump also fails at this time. This has been included in the scenario to prevent the participants from closing valve SI-602A to secure the release.

Shutting SI-602A would secure the A safety train (HPSI, LPSI and Containment Spray). .

! Due to the plant conditions, this would not be desirable. .

INSTRUCTIONS The information on this cue card will not need to be issued unless the Simulator fails and the indications are not available on the control panels.

The Security Monitor at the PAP will inform PAP Security personnel that the Portal Monitors tnd frisker are in alarm.

e VI-91

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL T(PE/NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 46A TO: NAO/ ELECTRICAL REPAIR TEAM TIME: Upon Arrival at CSP B Breaker FROM: NAO MONITOR / REPAIR TEAM MONITOR T= N/A

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

THIS IS A DRILL DO NOT initiate actions affectin

=g normal plant operations '

=====.u= === =__====_===___===_=

Provide the following information:

Containment Spray Pump B breakeris OPEN.

The following local indications are observed at the breaker 1

CS EREL38-5F (74/HR relay)is picked up.

CS EREL38-5A (Overcuirent relay Phase A) flag on inst unit (upper right) l CS EREL3B-5C (Overcurrent relay Phase C) flag on inst unit (upper right)

D Vl-92

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DP8LL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 488 TO: NAO/ ELECTRICAL REPAIR TEAM TIME: Upon Arrival at CSP B Breaker i

FROM: NAO MONITOR / REPAIR TEAM MONITOR T= N/A 4 .= _____= ____= = =_= =____= = =___= =___= = == _= = = = = = ==_= = = =

! THIS IS A DRILL i ..= = = = = = _ _ = DO

= _ =NOT

= = =initiate

_ _ _ = actions

_ = _ = _affectin

_ _ _ _ _ =g normal pla nt operations

====_________===== -

i ANTICIPATED RESPONSE

1. The Control Room will be notified of the indications at the breaker.

2. If requested to take a reading on the motor, the electrical repair team will receive the

following indications:

Phase-to-Phase resistance 1.4 OHMS (Phase A to B) a i

1.4 OHMS (Phase B to C)

Infinite (Phase C to A)

Phase to Ground 0 OHMS

{

COMMENTS The B Containment Spray Pump motor is bumt and must be replaced to restore the pump to I service. Due to the radiation levels in the B Safeguards Room, no work can be done on the l pump at this time.

INSTRUCTIONS i

If readings are mquested, the breaker will be racked down. If this occurs, ensure the Simulator instructor Booth is informed so that the control switch indications will be displayed as dark.

IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE STATUS OF REPAIR ACTIVITIES IN THE PLANT AT ALL TIMES.

i VI-93 l

l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD l DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 47A

TO: EMERGENCY COORDINATOR / EOF DIRECTOR TIME: At General Emergency declaration

FROM: TSC/ EOF CONTROLLER T= N/A

\ :^ :::_ _ _ ::_

__________==______=__====___=_===______=_=====

l THIS IS A DRILL

.= = = = = - _ =DO __NOT = =initiate

= = =actions

= = _ =affectin

. .g normal plant operations

.______.___===_===_==

Substitute for Steo 5.1.2 of EP-001-040:

i j 5.1.2 Sound the STATION ALARM (for at least 5 seconds) and make the following

announcement (s)

) 5.1.2.1 ATTENTION ALL PERSONNEL! ATTENTION ALL PERSONNEL!

THIS IS A DRILLI THIS IS A DRILL!

A GENERAL EMERGENCY WAS DECLARED AT ( ) DUE TO

! (

i

). THERE WILL BE NO SMOKING, EATING OR DRINKING UNTil FURTHER NOTICE. THE MAINTENANCE

. RADIO FREQUENCY IS NOW DEDICATED FOR EMERGENCY USE ONLY.

i j 5.1.2.2 If there is a localized emergency (e.g., fire, radiological hazard outside of 4

normally established RCAs), announce its type and location and instruct personnel to stand clear of this area (refer to FP-001-020 for fire).

5.1.2.3 Sound the STATION ALARM (for at least 5 seconds) and repeat the

! announcement (s) at least two more times. allowing sufficient time for personnel

} l who may be in high noise areas to reach a location where they can hear the

! announcement. -l 1

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I VI-94

_ - +-

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95 04 CUE CARD NO. 478 TO: EMERGENCY COORDINATOR / EOF DIRECTOR TIME: At General Emergency declaration FROM: TSC/ EOF CONTROLLER T= N/A

.=___=======_=;.___===;__=_=__==_=_=======_===

THIS IS A DRILL DO NOT Initiate actions affecting normal plant operations

=:.=_______u=

ANTICIPATED RESPONSE The exercise announcement will be substituted for the announcement in EP-001-040, General Emergency.

COMMENTS INSTRUCTIONS The TSC or EOF Controller will provide this cue card to the EC/ EOF Director when they are preparing to make the General Emergency announcement.

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VI-95 4

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

l W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 48A TO: EMERGENCY COORDINATOR / EOF DIRECTOR TIME: At the discretion of the Lead Controller FROM: TSC/ EOF CONTROLLER T= N/A THIS IS A DRILL

._____===

DO NOT Initiate actions affecting normal plant operations

...,=.__=_.=;_u=====___

CONTINGENCY CUE CARD Imolementina Conditions: When it appears imminent that the classification will nct be made in accordance with the design of this exercise package.

Continaency Action:

Direct the Emergency Coordinator / EOF Director to classify the event as a General Emergency.

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VI-96 l l

1 1

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD 1

DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95 04 CUE CARD NO. 48B l 1

j TO: EMERGENCY COORDINATOR / EOF DIRECTOR TIME: At the discretion I

of the Lead Controller i 1

FROM: TSC/ EOF CONTROLLER T= N/A i

THIS IS A DRILL I

),

DO NOT Initiate actions affecting normal plant operations I ANTICIPATED RESPONSE b

i 1. General Emergency declared.

2. EP-001-040, General Emergency implemented.

l 3. EP-002-052, Protective Action Guidelines implemented.

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COMMENTS i

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INSTRUCTIONS i

j If this cue card is issued, provide the Emergency Coordinator / EOF Director with the General

, Emergency announcement from the previous cue card.

! The purpose of this cue card is to maintain the scenario time line. This cue card will not be i issued any earlier than 15 minutes after General Emergency conditions are present.

i f This cue card is not to be issued without authorization from the Lead Controller.

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4 VI-97 8

_. - -_ - - - - - - - . - - - , - -e,

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WATERFORD 3 ANNUAL EXERCISE l JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 49A '

TO: CONTROL ROOM DATA CLERK TIME: 12:00 FROM: CONTROL ROOM CONTROLLER T= + 4:15

====_=======__======_========____=_===__

THIS IS A DRILL

= = = = = . _ =DO

= =NOT

_ _ =initiate

_ -.._ _actions

===== affectin

_ _ _ _ =g normal plant operations

=======____=_

Make the following announcement:

i ATTENTION ALL PERSONNEL! THIS IS A DRILLI 1

THE 1995 ANNUAL EXERCISE IS IN PROGRESS. DO NOT USE THE PLANT PAGE FOR NON-EXERCISE RELATED ANNOUNCEMENTS.

DRILL TIME IS Unsert time from Simulator clock)

THIS IS A DRILL!

Do not F9Deat this announcement.

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VI-98

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL WPE/NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 498 TO: CONTROL ROOM DATA CLERK TIME: 12:00 FROM: CONTROL ROOM CONTROLLER T= + 4:15

.= = =_= = ._= =_____= = = = = =_= _= = = ____= = ===__= = = = =

THIS IS A DRILL DO NOT initiate actions

= = = = =affectin

_ _ _ _ _ _g normal plant operations

.u = = = =.= _ _ = = = _ _ = = = =. _= = = _______ = = = = ____ = = = =

ANTICIPATED RESPONSE The Control Room Data Glerk will make the announcement.

COMMENTS INSTRUCTIONS The Control Room Data Clerk should ensure that this announcement does not interfere with cnnouncements being made by the exercise participants.

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1 VI-99 3

l t

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD i

DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. SOA 1

TO: CONTROLLERS / MONITORS TIME: When HPSI pump suction isolation valve is closed FROM: CONTROLLERS / MONITORS T= N/A THIS IS A DRILL DO NOT initiate actions affecting normal

.. ... = = = = = = = = _ _ = = = = . _ =pla = . _nt= operations

=____====__=.

This cue card is for the information of the drill control team.

When the A HPSI suction isolation valve is closed, the release will be secured and dose rates j

in the field will begin to decrease. Since this activity is dependent upon participant actions, the data package has been set up to allow for the release to continue until the valve has been closed. At this point, the drill team will need to shift to the data indicating the release has been secured.

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4 VI-100

WATERFORD 3 ANNUAL EXERCISE

JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD

~

DRILL TYPE /NO. SOB 1995 ANNUAL EXERCISE #95-04 _ CUE CARD NO.

1

! TO: CONTROLLERS / MONITORS TIME: When HPSI pump suction isolation valve is closed j

FROM: CONTROLLERS / MONITORS T= N/A THIS IS A DRILL DO NOT inklate actions affecting normal

= = _ = = = _ = = = = = = _ = = _ _ _ = = = = _ = =pla nt operations

_============

ANTICIPATED RESPONSE 4

The data team, HP monitors and field team monitors will be notified to begin issuing the i section of the data package indicating the termination of the release.

3 COMMENTS 4

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INSTRUCTIONS i

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VI-101 1

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95 04 CUE CARD NO. 51A TO: CONTROL ROOM DATA CLERK TIME: 13:00 FROM: CONTROL ROOM CONTROLLER T= + 5:15

=_____u___u-__u_____u__:_:___:=__:_u________uu:___u:__uu__uu=:=uuuuu:=uz; THIS IS A DRILL DO NOT initiate actions affecting normal

= = = u _ _ _ _ _ _ _ = = _ _ = _ _ _ = = = = _ = = _ _ _ _ _ _ _ _ _ _ _ _ _ = - _ _ _ pla nt operations

__=========u__=

l Make the following announcement:

4

$ ATTENTION ALL PERSONNELI THIS IS A DRILLI i

j THE 1995 ANNUAL EXERCISE IS IN PROGRESS. DO NOT USE THE PLANT PAGE FOR j NON EXERCISE RELATED ANNOUNCEMENTS.

s DRILL TIME IS (Insert time from Simulator clock) 1 l

THIS IS A DRILLI

Do not repeat this announcement.

\

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f VI-102

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 51B TO: CONTROL ROOM DATA CLERK TIME: 13:00 FROM: CONTROL ROOM CONTROLLER T= + 5:15

...===========_=_==:=_=======_===___==_===.

THIS IS A DRlLL DO NOT initiate actions affecting normal plant operations

===========_==_=_=======_============_

ANTICIPATED RESPONSE The Control Room Data Clerk will make the announcement.

COMMENTS INSTRUCTIONS The Control Room Data Clerk should ensure that this announcement does not interfere with announcements being made by the exercise participants.

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VI-103

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 52A TO: EOF DIRECTOR TIME: At the discretion of the Lead Controller FROM: EOF CONTROLLER T= N/A

. . :_=======_=.==____=___=_ ==__========_======

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations Make the following announcement:

ATTENTION ALL PERSONNELI ATTENTION ALL PERSONNEL!

THE WATERFORD 31995 ANNUAL EXERCISE HAS BEEN COMPLETED.

COMMENCE AREA CRITIQUES.

Repeat announcement once.

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k VI-104

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 52B TO: EOF DIRECTOR TIME: At the discretion of the Lead Controller FROM: EOF CONTROLLER T= N/A THIS IS A DRILL DO NOT initiate actions affecting normal plant operations ANTIC.lPATED RESPONSE

1. EOF Director announces the termination of the Exercise via plant page.

2. Documentation in each area will be collected and provided to the Drill Control Team.

3. Areas / Facilities will be restored to normal.

4. Area Critiques will be conducted with the participants in each area.

5. Drill Controllers will pass out attendance sheets, if not already completed.

6. Drill Controllers will pass out Drill / Exercise Participant Comment Sheets.

COMMENTS

1. The Lead Controller will coordinate the termination of the exercise with the LRPD Controller and the ENC Controller to determine if exercise objectives have been demonstrated.

! INSTRUCTIONS This cue card will be issued when the Lead Contro:ler has determined that the objectives for this portion of the exercise have been sufficiently demonstrated.

1

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VI-105 l J

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

VI. CUE CARDS l

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I VI-1

WATERFORD 3 ANNUAL EXERCISE

JULY 12,1995 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD 5 DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95 04 CUE CARD NO. 1A j TO: SHIFT SUPERVISOR TIME: 07:00 FROM: CONTROL ROOM CONTROLLER T= -0:45 l

. = __ = = .=_ = __________ = = __ = _ = = ___. = = = =____= = -_ =____ __ . .__=

THIS IS A DRILL DO NOT initiate actions affectin

- ==g normal

== = == = = _ _ _ _ -_ _ _ _ - _ _ _ plant

= _ _ operations

.= == _ _

._____________-

l 1

lNITIAL PLANT CONDITIONS:

The plant has been operating for the past 45 days at 100% power and is at the beginning of j core life.

The lower seal on Reactor Coolant Pump (RCP) 18 is leaking. The "RCP 1B CONTROLLED l BLEEDOFF TEMP Hl" alarm is lit on CP-2, Cabinet H, Window F6. Step #3 in section E of 1

OP-901-130, Reactor Coolant Pump Malfunction, has been completed.

1 3 The A/B charging pump is out of service for preventative maintenance (oil change). Work began at 06:00 this moming. The PM is estimated to be completed by 10:30 on July 12,1995.

The A/B electrical bus is aligned to the B side.

! The sky is cloudy and scattered thunderstorms are predicted for southeastem Louisiana.

There is no precipitation present in the immediate area at this time. '

CHEMISTRY:

l 100/E (E-BAR) = 240.38

Acthrity Activity d

Isotope Activity (uCi/cc) Isotope (uCi/cc) Isotope

~

(uCi/cc) -

Gross Activity 8.86E-2 uCi/ml del 131 2.10E-3 '

Boron 1204 ppm Hydrogen 35 cc/Kg Dis. Oxygen pH

< 0.001 6.3 i Lithium 2.01 ppm I-131 9.27E-4 l-132 5.00E-3 1-133 2.28E-3 1-134 6.60E-3 1-135 3.19E-3 H-3 4.26E-1 Mn-56 7.15E-4 Rb-88 4.99E-3 Kr-85m 8.51 E-4 Co-58 1.17E-3 Cs-134 8.71 E-4 Cs-137 4.41 E-4 Xe-133 2.52E-2 Xe- 135m 4.95E-4 Xe-135 7.67E-3 Xe-138 3.44E-3

< i l Steam Generators: Gross Activity < LLD ; Tritium < LLD VI-2

e WATERFORD 3 ANNUAL EXERCISE JULY 12,1995

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD i

DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 1B TO: SHIFT SUPERVISOR TIME: 07:00 j FROM: CONTROL ROOM CONTROLLER T= -0:45

.=_============___===__========_ = = _ _ = =

j THIS IS A DRILL i

.= = = = _ _ = _ _ DO_== NOT

==_ initiate

= = = actions

= = _ _ _affectin

_ _ _ _ ==========_==

_g normal plant operations ANTICIPATED RESPONSE i

Shift personnel review the information provided and look over the Simulator panels.

COMMENTS 1

The Lead Controller will brief the " Operating Shift" regarding the applicable information below

and will ensure the SS understands the restriction on plant page usage is not intended to apply i to the Operating Shift. This briefing may be held on the day of the exercise or the preceding j day.

l l lNSTRUCTIONS j 1. Discuss the shift tumover package material with the participants.

2. Review the Guidelines in Section Ill. 'i l 3. Brief the " Exercise Shift Supervisor" on actions that will be taken in the event of an actual -

! emergency.

Emergency fire responsibilities will be handled by the " Operating Shift."

Medical emergency responsibilities will be handled by the " Exercise EFAT". Control of the medical emergency will be handled by the " Operating Shift" until the responsibility is assumed by the TSC.

i 4. Discuss methods of exercise control that will be necessary due to operating from the

! Simulator (Admin. NPO). . -

! 5. To contact Pine Bluff or Southem Control, ca4 extension 6059. '

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6. If the exercise runs past lunch, relayndon er r:ny restrictions on eating or drinking will be coordinated between the Facility Managu and the Facility Controller. After a designated 4

lunch period, any prior restrictions will again be enforced.

4

7. The Lead Controller will ensure the Chemistry technicians, HP technicians and

, maintenance personnel are briefed.

! 8. The NAO Monitors should have the Exercise NAOs perform a radio check on the operations and maintenance frequencies prior to leaving the Training Center to verify the ability to communicate with the Simulator.

9. A shift briefing for the HP, Chemistry, Maintenance and Security shift personnel will be provided between 07:15 and 07:30.

VI-3

l WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 2A TO: MECHANICAL MAINTENANCE PM CREW TIME: 07:15 FROM: MECHANICAL REPA!R TEAM MONITOR T= - 0:30 THIS IS A DRILL DO NOT initiate actions affecting normal plant o

. -. = _ = = = = = = = = _ = = ; = = = = = = = = _ _ _ _ = = =pe rations

==:==

The A/B charging pump is out of service for an oil change PM. The oil is drained, new oil has been drawn out of the warehouse and is in the Service Building Mechanical Maintenance shop.

4 VI-4

~ WATERFORD 3 ANNUAL EXERCISE JULY 12,1995

{ W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 28 TO: MECHANICAL MAINTENANCE PM CREW TIME- 07:15 FROM: MECHANICAL REPAIR TEAM MONITOR T= - 0:30

= = _ = __ = _ = _____ = = = = _ = _= = = = = _ = _ = __ _ = _

THIS IS A DRILL 4

DO NOT

===_=======_____==_ initiate actions affectin

_ == =g normal plant operations

_==____________=__________===

1 ANTICIPATED RESPONSE a

] 1. The repair team should review the work package and prepare to obtain new oil to refill the

! charging pump.

2. When the repair team completes the PM, they should sign off on the package and

! coordinate with Operations (OSC if activated) to have the tags cleared and place the pump j in service.

! COMMENTS i

The A/B charging pump was tagged out on the night shift. The crew is simulated to have j

come in at 06:00 and started the work. The oil has been drained. At the beginning of the drill, the crew is in the shop. The new oil has been drawn out of the warehouse and is located in the Service Building Mechanical Maintenance shop. The crew will have to adjust the cross i

hairs and add the new oil to complete the work package. A partially completed work package j indicates the work remaining.

INSTRUCTIONS 1

j

1. Provide the partially completed work package to the maintenance crew in the shop and.

, review the conditions.

! 2. Brief the maintenance crew on the initial conditions and exercise guidelines.

4

3. Direct the crew to resume work on the charging pump at 07:45. They will be reporting to the Control Room until such time that the OSC is activated.

4. Empty oil cans are staged in the shop as a drill mock-up to simulate the new oil which had been drawn out of the warehouse at the beginning of the task.

5. The crew will be required to obtain the empty oil cans (simulated to be full) from the shop.

They will take the empty cans to the charging pump and simulate adding the oil.

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VI-5

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

l W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD 4

DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 3A TO: SHIFT SUPERVISOR TIME: 07:45 j FROM: CONTROL ROOM CONTROLLER T= + 0:00

..:==_____=======_==_==____==_==__=_=====____===

THIS IS A DRILL DO NOT initiate actions affecting normal

.= = _ = _ _ _ _ _ _ = = _ = _ _ _ _ = = _ = = = = = = = = _ _ = =__pla nt operations

= _____ = _____ _ = = _____

i i

The Simulator is in "RUN" The Exercise has begun.

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VI-6

l 4

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995

t W3 SES EMERGENCY PREPAREDNESS DRlLL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 3B

, TO: SHIFT SUPERVISOR TIME: 07:45 FROM: CONTROL ROOM CONTROLLER T= + 0:00

i

......-_________==_=_________===_____=_===____==____=_=__==_;=;_-_____=__. ,

THIS IS A DRILL

_ _ _ -_;;;;;__

;;_DO NOT_initiate

__::::;_ ::_ _;;;;_actions affectin

_ _;;;; ::____ _;;;;g normal plant operations ANTICIPATED RESPONSE The Control Room staff takes control of the Simulator.

COMMENTS INSTRUCTIONS Provide the infonnation on this cue card to the Control Room personnel at 07:45.

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VI-7

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 4A TO: CONTROL ROOM DATA CLERK TIME: 08:00

. FROM: CONTROL ROOM CONTROLLER T= T= +0:15 i

.; _ _ u ;;;;; = _ . = _ = ::; = . _ _ _ _ . 21: u = ; = = _ _ . z : = _ . z ;; = = = . . . = ; 21 ::::: = = :::; _ _ u = : =

THIS IS A DRILL

..=--._

DO NOT initiate= == == actions

.== _affectin

== .g.:==-_=====.._:====_:

normal plant operations

, -_ _:=. := = =

Make the following announcement

! ATTENTION ALL PERSONNELI THIS IS A DRILLI THE 1995 ANNUAL EXERCISE IS IN PROGRESS. DO NOT USE THE PLANT PAGE FOR l NON EXERCISE RELATED ANNOUNCEMENTS.

l DRILL TIME IS (insert time from Simulator clock).

THIS IS A DRILL!

Do not repeat this announcement.

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1 VI-8

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

4 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 4B I

TO: CONTROL ROOM DATA CLERK TIME: 08:00

FROM: CONTROL ROOM CONTROLLER T= T= +0:15

========__==________________________===_____==_______==_____==_

I THIS IS A DRILL DO NOT Initiate actions a#ectin = .= =g normal plant operations

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

__====_=========

9 i

ANTICIPATED RESPONSE The Control Room Data Clerk will make the announcement.

COMMENTS INSTRUCTIONS 1

i The Control Room Data Clerk should ensure that this announcement does not interfere with

! announcements being made by the exercise participants, i

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4 VI-9 l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 "

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 5A TO: SS/CRS TIME: 08:00 FROM: LEAD CONTROLLER T= T= +0:15

...=======_==_=_____=_=______=________==__====_===_=

THIS IS A DRILL DO NOT initiate actions affecting normal plant o

. = = = _ = = = = = = = = = = = = = _ _ _ = _ _ _ _ = = _perations

___=____==_==

The Control Room receives the following information on the 4500 emergency telephone:

"This is Joe Employee in the GSB. I just saw a tomado strike one of the met towers. The tower is laying in the field next to the plant access road. It looked like lightning struck the other met tower. The tomado is now on the levee and moving across the river."

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e VI-10

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD 1

DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. SB i TO: SS/CRS TIME: 08:00 i

FROM: LEAD CONTROLLER T= T= +0:15

.==__=============_______=____==_____== = = _ = = ____ =

1 THIS IS A DRILL

= = = _ _ _ _ _ _ _DO

=__ NOT

= = _initiate

_ = = _actions

_____ affectin

_ _ _ ================

= = = =g normal plant operations I

ANTICIPATED RESPONSE i

j 1. The Control Room staff will implement OP-901-521, Severe Weather and Flooding.

2. The Control Room will direct Security to secure all exterior hatches and doors.

! 3. The SS will implement EP-001-001 and declare an Unusual Event based on IC D/UE/;V.

a

4. The SS implements EP-001-010, Unusual Event and announces the emergency to site i personnel.

5. Notifications are made to offsite agencies.

.,j 6. Once the tomado has been reported to have cleared the area, an NAO and/or l&C j maintenance will be dispatched to inspect the damage to the meteorological towers, f COMMENTS i

1. The tomado has damaged both meteorological towers. If the Control Room attempts to

call up the METDATA computer mimic, they will have no indication of instantaneous i

meteorological data. As a result, meteorological data must be obtained from the National

Weather Service until repairs are made to the primary tower.

l 2. The Control Room may wait until they receive information from the NWS that the danger of

! tomado activity in the area has passed prior to dispatching personnel to inspect the j damage.

INSTRUCTIONS

1. The Lead Controller will provide the information on this cue card by dialing extension 4500.

' 2. Ensure the Drill Continuation announcement from the previous cue card is in progress or has been completed prior to calling the Control Room.

3. The meteorological data will be posted until the power supply problem is corrected and this data will be able to be obtained from Simulator SPDS.

VI-11

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD 1

DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 6A !

TO: SECURITY SHIFT SUPERVISOR TIME: 08:00 FROM: SECURITY CONTROLLER / MONITOR T= + 0:15

==================_......=====_........=== l THIS IS A DRILL DO NOT initiate actions affecting normal plant operations

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

Provide the following information:

An alarm is received on the weather alert radio in the Security office.

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VI-12

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 6B

TO: SECURITY SHIFT SUPERVISOR TIME: 08:00 FROM: SECURITY CONTROLLER / MONITOR T= + 0:15

..===========___==___=._=======_==;===_______==

THIS IS A DRlLL

.. .= = = = _DO

= _NOT

_ _ _initiate

= = _ _actions

_ _ = = affectin

= = = = =g normal plant operations

_==_=======_____=

ANTICIPATED RESPONSE I

1. Security will check the radio for messages from the NWS.

2. Security will report the status of the message received to the Control Room.

COMMENTS 1

1. The message from the NWS willindicate that a tomado waming has been declared for St.

Charles, St. John the Baptist and Jefferson Parishes due to the sighting of a tomado near the Waterford 3 power plant.

2. Approximately 5 minutes after the initial report, a message will be received indicating that

the NWS has changed to a tomado watch and the tomado has moved out of the area.

, (See Cue Card #7.)

INSTRUCTIONS

1. A tape recording of the weather radio alarm and message from the NWS is provided. The Controller / Monitor will play the message just following the exercise continuation announcement.

2. Approximately 5 minutes after providing the initial report from the NWS, the Controller / Monitor will play the recording that the NWS has changed to a tomado watch.

(See Cue Card #7.) .

3. Ensure that Security personnel report the information to the Simulator on extension 4500.

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VI-13

i WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

t

- DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 7A TO: SECURITY SHIFT SUPERVISOR TIME: -08:05 FROM: . SECURITY CONTROLLER / MONITOR T= +0:20 THIS IS A DRILL DO NOT Initiate actions affectin

..;_ :::: ;._ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ : ;_ ::;;;_ _ _ _ _ _..;;_;;_ _ _ _::g normal plant operations Approximately 5 minutes after the initial weather radio information, provide the following information:

A weather radio alert signal is received.

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VI-14

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995

DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 78 TO: SECURITY SHIFT SUPERVISOR TIME: ~08:05 FROM: SECURITY CONTROLLER / MONITOR T= +0:20

-____ = . _ = = = ___________ ____. __= ___ _________ = = -___: = _ = =

THIS IS A DRILL

.. =______-

DO_NOTinitiate

_ := . . _ _ =actions

_ _ =. affectin

_ = _ .:g=...

normal plant operations

==_= _

_.===

ANTICIPATED RESPONSE

1. Security will check the radio for messages from the NWS.

2. Security will report the status of the message received to the Control Room.

COMMENTS

1. The message from the NWS willindicate that a the NWS has changed to a tomado watch for St. Charles and St. John the Baptist Parishes and the tomado has moved out of the area.

2. It is recognized that the time interval of 5 minutes between NWS messages is probably not realistic. The second message is provided for Control Room participants to feel more comfortable dispatching personnel to the meteorological towers in order to keep repair j activities on schedule.

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INSTRUCTIONS ,

l 1. A tape recording of the weathe,r radio alarm and message from the NWS is provided. The Controller / Monitor will play the message approximately 5 minutes after providing the initial report from the NWS.

2. Insure that Security personnel report the information to the Simulator on extension 4500.

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VI-15

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 8A TO: CONTROL ROOM STAFF TIME: When CR personnel call the NWS FROM: CR COMMUNICATIONS MONITOR T= N/A

.u = = _ = = =______ _ = = = = _ _ _ = = = _ _ _ _ = = = = = = = = = = _ = =_==____=

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations When the Control Room personnel call the National Weather Service (NWS), provide the weather report information from Meteorological Data Section of this package.

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VI-16

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 8B TO: CONTROL ROOM STAFF TIME: When CR personnel call the NWS FROM: CR COMMUNICATIONS MONITOR T= N/A

__===== =..=====_====_====_===__==

THIS IS A DRILL DO NOT Initiate actions affectin

==g normal plant operations

_ = _ ===== ==_ === ===_==_====u

ANTICIPATED RESPONSE The Control Room staff will use the NWS information to complete the Notification Message l Form. l I

l COMMENTS Due to the loss of both meteorological towers, the Control Room personnel will not have indication of met data from the plant computer (this will be indicated by posted data sheets).

They will have to call the NWS to obtain met data. This data is necessary to complete the notification forms. This information will be used until the primary met tower is repaired.

INSTRUCTIONS When the Control Room calls the NWS, read them the weather report information from the Meteorological Data Section of this package.

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VI-17

2 WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 9A TO: SECURITY SHIFT SUPERVISOR TIME: When requested ,

to secure doors I and hatches FROM: SECURITY CONTROLLER / SECURITY MONITOR T= N/A

..;====..==___=_======___=____==__===_=..==___==

THIS IS A DRILL DO NOT initiate actions affecting normal

= = = = _ _ _ u.= = = =. plant ope rations

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

When the Control Room requests Security to secure all exterior doors and hatches, direct this activity to be simulated.

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VI-18

i WATERFORD 3 ANNUAL EXERCISE q JULY 12,1995 -

j W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 98 l

! TO: SECURITY SHIFT SUPERVISOR TIME: When requested i

to secure doors and hatches l

) FROM: SECURITY CONTROLLER / SECURITY MONITOR T= N/A

THIS IS A DRILL i l DO NOT initiate actions affecting normal plant o

. = = . . . . . = . = = . . = = = _ = = = = = = = = = : . = = = =perations = = . = = = = .

J j ANTICIPATED RESPONSE s '

l Secunty personnel will carry out all activities associated with securing hatches and doors up to j the point of actually securing the doors and hatches.

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! COMMENTS 1

1 Due to the report of a tomado touching down in the Owner Controlled Area, OP-901-521

] directs that all exterior doors and hatches be secured. Since Security will receive information i that the tomado waming has been changed to a.tomado watch approximately 5 minutes after i the initial report, most hatches and doors would probably not be secured anyway. For the

! l purposes of this drill, there is no training to be gained by actually securing doors and hatches which could affect the actual operation of the plant. As a result a decision was made to ,

simulate securing the doors and hatches at this point in the scenario. Security will still be

' required to demonstrate proper actions per their procedures up to the point of actually securing the doors and hatches.

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INSTRUCTIONS l

' The information on this cue card will be provided to the appropriate Security personnel at the

point at which they would actually secure hatches and doors.

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VI-19 i

I WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

l Va SES EMERGENCY PREPAREDNESS DRILL CUE CARD l DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 10A l

TO: NAO/l&C REPAIR TEAM TIME: Upon inspection l

of met towers '

FROM: NAO MONITOR /l&C REPAIR TEAM MONITOR T= N/A l

..............._===:==:_______==...______===. j THIS IS A DRILL DO NOT initiate actions affecting normal. .pla nt operations

......... .. . = = = = =:______===_=: .... m . .. .

4 l

Provide the following information: I The backup meteorological tower has been uprooted and is laying in the cane field next to the

! plant access road.

The primary meteorological tower has sustained the following damage:

l 4

There is no local or remote (Control Room) current output indications.

4 VI-20

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

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95 04 CUE CARD NO. 108 TO: NAO/l&C REPAIR TEAM TIME: Upon inspection

! of met towers FROM: NAO MONITOR /l&C REPAIR TEAM MONITOR T= N/A l .= = =____= = = = =___==_____= =____ = __== = =_= =_ =___________ __ =

l THIS IS A DRILL

==DO= =NOT

= = initiate

= = _ =actions

_ _ _ _ affecting

= = _ = = normal

= = = = plant operations

, ..u = = = = ===_====_=_==

ANTICIPATED RESPONSE

1. The I&C repair team will assess the damage to the primary meteorological tower.

2. They will determine that there is no power to the primary met tower instrument cabinet. i 1

3. They will find that circuit breaker #7 (EM-EBKR-PMT-1-7) has tripped open in the 120/280 l VAC distribution panel PMT-1.

4. When the breaker is reset they will notice there will be no output current indications locally

, and remotely.

i

5. They will then find that there is a loss of power to the current driver card rack due to a

blotyn 1 amp fuse.

j 6. The fuse will be replaced and the tower will placed back in service.

2 COMMENTS

1. The damage to the meteorological towers results in the loss of all meteorological data. For the 1st 15 minutes, the Control Room will still see indication of the 15-minute averaged

! data, but will lose this indication also.

I i

2. The repair team will need to obtain a fuse from the warehouse. When the fuse is replaced, i all indications for the primary meteorological tower will be restored. The time frame to complete repairs is approximately 21/2 hours.

4 i INSTRUCTIONS ,

1. The drill control team will ensure that repairs to the primary meteorological tower are 4

completed no later than 10:30. *

2. When the fuse has been replaced and the power supply breakeris closed, the Control

Room Controller / Monitor will instruct the control Room data clerk to cease posting

)

meteorological data since it will now be available from the Simulator SPDS mimic.

3. Mock-ups will be provided to display the indications at the primary meteorological tower and to show the backup meteorological tower laying in the cane field.

IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE I

i STATUS OF REPAIR Av nVITIES IN THE PLANT AT ALL TIMES.

VI-21

1 WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

l W3 SES EMERGENCY PREPAREDNESS DRILt. CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 11A TO: SS/ EMERGENCY COORDINATOR TIME: At the discretion I of the Lead Controller FROM: CONTROL ROOM CONTROLLER T= N/A

. = = =_ = = = ;___ = _______________x = = = = ; = = ________u = _ = = = = = = = =

THIS IS A DRILL DO NOT initiate actions affecting normal plant o

= _ _ _ _ = = = _ = = = = = = = =. = _ _ _ = = _ _ _ _ = = = _ _ = =.; _ _ _= _= == =pe rati o n s

_ _ = = _ =

CONTINGENCY CUE CARD implementina Conditions: When it appears imminent that classification will not be in accordance with the design of this exercise package.

Continaency Action: Direct the Shift Supervisor / Emergency Coordinator to classify the event as an Unusual Event in accordance with the design of this exercise package, i

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l VI-22

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 118 TO: SS/ EMERGENCY COORDINATOR TIME: At the discretion of the Lead Contieller FROM: CONTROL ROOM CONTROLLER T= N/A

_==============_==__=======_=._=_==

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations

__=====...====== ================. ===_=

ANTICIPATED RESPONSE

1. The SS/ Emergency Coordinator declares Unusual Event.

2. EP-001-010, Unusual Event is implemented.

3. Offsite agencies are notified of the Unusual Event declaration.

COMMENTS The purpose of this cue card is to maintain the scenario time line. This cue card will not be issued any earlier than 15 minutes after Unusual Event conditions are present.

INSTRUCTIONS This cue card is not to be issued without authorization of the Lead Controller.

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VI-23 1

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREP / REDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 12A TO: CRS/NPO TIME: 09:00 FROM: CONTROL ROOM MONITOR T= + 1:15

..=_________==_=====______=======______==========

THIS IS A DRILL DO NOT Initiate actions affecting normal plant operations

. .=___=______= ===_____=__====a .===_u, ====___======

Provide the following information:

RCP 1B control switch indicates "STOP" Automatic trip signals are indicated on all four channels, but the reactor did not trip ALARMS:

RCP 1B VIBRATION HI on CP-2, Cabinet H Window A-6 l 1

RCP 1B TRIP / TROUBLE on CP-2, Cabinet H, Window A5 COMPUTER POINT D13602, RCPM 18 OVERCURR/OVERLD TRIP, " DETECTED" COMPUTER POINT D13600, RCP 1B, "OFF" ,

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COMPUTER POINT A13600, RCPM 18 AMPS,"0" RMS ALARMS:

i PRM-IRE-0100X, S/G BLOWDOWN, HIGH ALARM ARM-IRE-5021,-4 RAB LETDOWN HX/ BLOWDOWN PUMP HALLWAY, ALERT ALARM ,

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'i VI-24

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 128 TO: CRS/NPO TIME: 09:00 FROM: CONTROL ROOM MONITOR T= + 1:15

..===__=====;_____=====;===_===________==_==_==___==

THIS IS A DRILL DO NOT Initiate actions affecting normal plant operations ANTICIPATED RESPONSE

1. NPO will manually trip the reactor.

2. Immediate operator actions for reactor trip will be performed.

3. Control Room enters OP-902 000, Emergency Entry Procedure. ;

4. NPO may switch condenser vacuum exhaust to the plant stack as immediate action for j receiving the blowdown monitor alarm.

5. SS/EC declares an Alert based on Initiating Condition C/MV.

6. Control Room may dispatch an NAO/ electrical maintenance team to investigate the RCP 18 trip.

COMMENTS If the participants investigate the failure of the automatic reactor trip, they will not find any abnormalindications. The failure of the trip was a spurious occurrence.

INSTRUCTIONS 1

This cue card will not need to be issued unless the Simulator fails and the indications are not available on the Control Room panels.

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. VI-25

WATERFORD 3 ANNUAL EXERCISE l JULY 12,1995 - l

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 13A TO: NAO/ ELECTRICAL REPAIR TEAM TIME: Upon arrival at RCP 1B breaker FROM: NAO MONITOR / ELECTRICAL MONITOR T= N/A

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

THIS IS A DRILL l DO NOT Initiate actions affecting normal plant operations I

l When the NAO/ electrical repair team anives at RCP 18 breaker, provide the following information:

1

! The breakeris open.

The following relay indications will be observed

RC EREL18-7L (74/HR Relay) is picked up 1

RC EREL18-7A (Overcurrent relay Phase A) flag on standard inst unit (lower right)

RC EREL1B-78 (Overcurrent relay Phase B) flag on standard inst unit (lower right) 4' l

l VI-26

I WATERFORD 3 ANNUAL EXERCISE !

JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 13B i

TO: NAO/ ELECTRICAL REPAIR TEAM TIME: Upon arrival at '

RCP 1B breaker FROM: NAO MONITOR / ELECTRICAL MONITOR T= N/A

.=:==========------===--======

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations

= - = .... ..

ANTICIPATED RESPONSE l

1. The Control Room will be notified of the indications at the breaker.

2. If requested to take readings on the motor, the electrical repair team will receive the following indications:

Phase to-Phase resistance = 0.1 OHMS 1 Phase-to-Ground resistance > 600 MEGOHMS (non-temperature corrected) l (if ground readings are taken with a hand crank megger, this readings will be 0 !

MEGOHMS; this motor is equipped witn surge capacitors and the hand crank megger is not enough to overcome charging the capacitore.)

COMMENTS This team may not be requested due to the alarm indications present.

! Documents referenced:

CWD 230 CWD 231 CWD 234 CWD 235 CWD XLil WA 01118307 ME 004-331 EMDRAC 1564-6904 lNSTRUCTIONS i

If readings are requested, the breaker will probably be racked out. If this occurs, ensure'the Simulator instructor Booth is informed so the control switch can be made dark.

Ensure proper electrical safety precautions are followed.

IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE

, STATUS OF REPAIR ACTIVITIES IN THE PLANT AT ALL TIMES.

VI-27

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 14A TO: EMERGENCY COORDINATOR TIME: Upon declaration of Alert FROM: CONTROL ROOM CONTROLLER T= N/A

. =_________: = = = = = = = = _ = = = = :.. . . . . . .

THIS IS A DRILL DO NOT Initiate actions affecting normal plant operations

=_____=. . .. . .... ... ....

Substitute for Steo 5.1.1 of EP-001-020:

5.1.1 Sound the STATION ALARM (for at least 5 seconds) and make the following announcement (s):

5.1.1.1 ATTENTION ALL PERSONNELI ATTENTION ALL PERSONNELI THIS IS A DRILLI THIS IS A DRILLI AN ALERT WAS DECLARED AT ( )DUETO(

)

ALL MEMBERS OF THE EMERGENCY RESPONSE ORGANIZATION FOR THIS

' EXERCISE REPORT TO YOUR STATIONS (if necessarv. announce routina instructions for EOF responders). ALL OTHER PERSONNEL REPORT TO YOUR WORK STATIONS. (If the emergency is radiation oriented, add: "There 2

will be no smoking, eating or drinking until further notice.") THE MAINTENANCE i RADIO FREQUENCY IS NOW DEDICATED FOR EMERGENCY USE ONLY.

I

THIS IS A DRILLI THIS IS A DRILL!

] 5.1.1.2 If there is a localized emergency (e.g., fire, radiological hazard outside of normally

! established RCAs), announce its type and location and instruct personnel to stand clear of this area (refer to FP-001-020 for fire).

5.1.1.3 Sound the STATION ALARM (for at least 5 seconds) and repeat the i

announcement (s) at least two more times. allowing sufficient time for personnel who may be in high noise areas to reach a location where the announcement can be heard. .

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VI-28

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 14B TO: EMERGENCY COORDINATOR TIME: Upon declaration of Alert FROM: CONTROL ROOM CONTROLLER T= N/A

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

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations ANTICIPATED RESPONSE

1. EC substitutes the exercise announcement for Step 5.1.1 of EP-001-020, Alert.

2. Accountability card readers are activated.

3. Plant page announcement is made notifying station personnel that the accountability card readers are activated.

4. The TSC, OSC and EOF personnel are mobilized via the plant page announcement and the VNS.

5. The Control Room will simulate activating ERDS.

6. There are no PARS required for this declaration.

1 COMMENTS Since the Emergency Response Data System (ERDS) is not tied to the Simulator, the activation of ERDS will be simulated. The Control Room personnel may simulate the steps necessary to activate ERDS or decide to call the shift Computer Technician for activation of ERDS.

i i INSTRUCTIONS i

Controllers will ensure that all Drill Control Team members, NRC Evaluators and guest .

I observers log into the accountability card readers after it has been announced that they have j been activated A_NQ sign on a Facility Accountability Roster, i

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I VI-29

WATERFORD 3 ANNUAL EXERCISE 4

JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 15A TO: EMERGENCY COORDINATOR TIME: At the discretion of the Lead Controller

, FROM: CONTROL ROOM CONTROLLER T= N/A

..==

==...-___=======____===========--==== ====.

THIS IS A DRILL

, DO NOT initiate actions affecting normal plant operations j . . . . . . . = _ . = = = . = = . . _ . . . . = =

4 CONTINGENCY CUE CARD 1

Imolementina Condition: When it appears imminent that classification will not be in accordance with the design of this exercise package.

i Continaency Action: Direct the Shift Supervisor / Emergency Coordinator to classify the event as an Alert in accordance with the design of this exercise i package.

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VI-30

i WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

l W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 15B TO: EMERGENCY COORDINATOR TIME: At the discretion !

of the Lead Controller i

l FROM: CONTROL ROOM CONTROLLER T= N/A l

.======____=__===========___========_=======.

1 THIS IS A DRILL l DO NOT Initiate actions affecting normal plant operations 1

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

)

j ANTICIPATED RESPONSE l

1. Alert is declared.

! 2. EP-001-020, Alert is implemented.

l j COMMENTS The purpose of this cue card is to maintain the scenario time line. This cue card will not be j issued any eariier than 15 minutes after Alert conditions are present.

INSTRUCTIONS This cue card is not to be issued without authorization from the Lead Controller. ,

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i VI-31 l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 16A TO: EMERGENCY COMMUNICATOR TIME: When the Emergency Communicator begins activating the VNS FROM: CR COMMUNICATIONS MONITOR T= N/A

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

THIS IS A DRILL DO NOT Initiate actions affecting normal plant operations

.... ..=====

When the Emergency Communicator begins to activate the Voice Notification System (VNS) to callout the Onsite Organization, ensure that the " DRILL" scenario is used by substituting the

" DRILL USE ONLY" copy of EP-002-015 .

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, tL VI-32

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

I W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 168

! TO: EMERGENCY COMMUNICATOR TIME: When the Emergency Communicator begins activating a the VNS i FROM: CR COMMUNICATIONS MONITOR T= N/A i

.m.====.....___=_==..__====................==.=.

THIS IS A DRILL i

DO NOT initiate actions affecting normal plant operations j ==== = = = = = = = = = . = =

I l

ANTICIPATED RESPONSE The Emergency Communicator will initiate the Onsite callout " DRILL" scenario.

COMMENTS EP-002-015 is written for use in actual emergency situations and directs the Emergency Communicator to initiate the scenarios in the EMERGENCY mode which will not include the "THIS IS A DRILL" statement. By initiating the DRILL scenario, the "THIS IS A DRILL" statement will be provided to the personnel when they call in. This will eliminate any confusion cs to whether or not an actual emergency has been declared.

i INSTRUCTIONS I

The " DRILL USE ONLY" copy of EP-002-015 will be given to the Emergency Communicator when he begins to activate the VNS.

D VI-33

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD

. DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 17A

TO: PLANT SS TIME: Upon activation of the accountability card readers FROM: ADMIN. NPO MONITOR T= N/A

. = = = = = = _ = _ = _ = _= =____________________ = .. = =___ = _____ = _ = = = ___= = =

THIS IS A DRlLL 4 DO NOT initiate actions affecting normal plant operations

.... .. . ... . . . =____= = = = = =. = .. ____:.u.-____= = ____= = = = = ....

CONTINGENCY CUE CARD Imolementina Conditions: When the announcement is made that the accountability card readers have been activated.

1 Continaency Action: Direct the SS, in the Control Room, to have gj! of his shift j Operators (including NAOs) card in on the accountability card readers and sign in on a Facility Accountability Roster. ;

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I VI-34

i WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 178 TO: PLANT SS TIME- Upon activation of the l accountability card readers i

FROM: ADMIN. NPO MONITOR T= N/A i .; ::: ___;;;_; ::::::__:::::::::: ;_______:_:_ ::_:::::___:;;__;;;;;;;;;;;;;;;_:___________: _;;;;

THIS IS A DRILL 4

DO NOT initiate actions affecting normal plant operations

... ===== = = =_= ===_________=__=_= =_____=====;_______u==

ANTICIPATED RESPONSE The Operating shift personnel will card in on the accountability card readers and a Facility l Accountability Roster will be completed.

1 COMMENTS i The purpose of this cue card is to ensure that the Operating shift, which is not actually participating in the exercise, will be accounted for when a site evacuation is implemented. This

, will prevent the possibility of these Operators being inadvertently identified as missing persons when accountability is conducted after the evacuation.

J l INSTRUCTIONS

~

Issue this cue card immediately following the announcement that the accountability card i readers have been activated.

l Ensure that the Control Room Facility Accountability Roster is given to the TSC Supervisor I when the TSC begins to activate. The Admin. NPO will be responsible for cettinc the Facility j Accountability Roster to the TSC Supervisor. ,

The Facility Accountability Roster may be filled out by the Operating shift prior to the exercise during the briefing conducted by the Lead Controller.

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VI-35

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 18A TO: TSC COMMUNICATOR TIME: When the TSC Communicators begin to activate the TSC Activated VNS Scenario FROM: TSC COMMUNICATIONS MONITOR T= N/A

. .. ====..- .. .. -..... .

THIS IS A DRILL ,

DO NOT initiate actions affecting normal plant operations '

= = = = = = = =..= = = = = = = = = = = =... . .

When the TSC Communicator begins to activate the VNS to initiate the TSC Activated Scenario, ensure that the DRILL scenario is used by substituting the " DRILL USE ONLY" copy of EP-002-015.

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a VI-36

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 18B TO: TSC COMMUNICATOR TIME: When the TSC Communicators begin to activate the TSC Activated VNS Scenario FROM: TSC COMMUNICATIONS MONITOR T= N/A

... . . =====.____= m u===.=====

THIS IS A DRILL DO NOT inMiate actions affecting normal plant operations

........... . . . = = = = = = = = = = = . = = = = = = . = = = = = = = = = = . .

ANTICIPATED RESPONSE The TSC Communicatorwillinitiate the DRILL TSC Activated Scenario.

COMMENTS EP-002-015 is written for use in actual emergency situations and directs the Communicator to initiate the scenarios in the EMERGENCY mode which will not include the "THIS IS A DRILL" statement. By initiating the DRILL scenario, the "THIS IS A DRILL" statement will be provided to the personnel when they call in. This will eliminate any confusion as to whether or not an cetual emergency has been declared.

, INSTRUCTIONS The " DRILL USE ONLY" copy of EP-002-015 will be given to the TSC Communicator when he 3 begins to activate the VNS.

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VI-37 l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 19A TO: CHEMISTRY SUPERVISOR TIME: When an RCS sample is requested FROM: CHEMISTRY CONTROLLER / MONITOR T= N/A THIS IS A DRILL DO NOT inMiate actions affecting normal plant operations

.......===;___======= ;__= = = =

CONTINGENCY CUE CARD Implementino Conditions: When Chemistry is requested to draw an RCS sample and decide to either use the primary panel or decide not to draw a sample at this time.

Continoency Action: Indicate that they must use the PASS panel, ensure that an actual PASS sample is drawn and analyzed.

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VI-38 i

~_ _ _ . . . _ _ _ __ - __.

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 19B TO: CHEMISTRY SUPERVISOR TIME: When an RCS sample is requested FROM: CHEMISTRY CONTROLLER / MONITOR T= N/A

~ .=__ = = = . = = ____ = = = = = = = = __= = = = = _ = ___ = = =.= = __ = .

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations

= = = =. =_____ = = = = =. .=_ = ____

ANTICIPATED RESPONSE The Chemistry personnel will coordinate drawing a PASS sample with HP and Operations.

COMMENTS

1. Since plant equipment is usually not operated during drills, it may be necessary to inform the participants that we actually want them to draw a PASS sample rather than simulate it.

This activity will have to be coordinated with the real Operations Shift to align the PASS panel for operation.

2. It is also possible that HP and Chemistry may decide that the radiation levels, although they do pose a hazard, are not high enough to force a PASS sample at this time, if this occurs, the drill team will give them credit for their assessment of the conditions and then direct them to draw a PASS sample to satisfy an exercise objective.

, INSTRUCTIONS

1. PASS sampling is an objective of this exercise. The drill team will ensure that an actual l PASS sample is drawn and analyzed.

j

2. If the Operations shift cannot support the PASS sampling activities, due to other plant activities, the PASS sampling will be simulated. Ensure the Lead Controller is informed if this activity must be simulated.

I VI-39

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 20A TO: CONTROL ROOM DATA CLERK TIME: 09:00 FROM: CONTROL ROOM CONTROLLER T= +1:15

.....=_=___:==___======_==____=_===_____=====_===_==__

THIS IS A DRILL

..= = = = == =DO

_=_ NOT

_ _ _initiate

_ = = _actions

_ _ _ = =affectin

= = = = _ _ _ =g normal plant operations

==__= = = = = = = =

Make the following announcement:

ATTENTION ALL PERSONNEL! THIS IS A DRILLI THE 1995 ANNUAL EXERCISE IS IN PROGRESS. DO NOT USE THE Pl. ANT PAGE FOR NON-EXERCISE RELATED ANNOUNCEMENTS.

DRILL TIME IS (Insert time from Simulator clock).

THIS IS A DRILLI Do not repeat this announcement.

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VI-40 a

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 20B TO: CONTROL ROOM DATA CLERK TIME: 09:00 FROM: CONTROL ROOM CONTROLLER T= +1:15

. = = = =... = = = = = = = = = = = = = = = = = = = = = = = = = = =;= ,=;;;;;_;___; ;,,,,,,,

THIS IS A DRILL

..+

DO NOT initiate=actions affectin

_ _ _ _ _ _ = = _ _ _ _ = =g normal plant operations

= = = = = = = = = = = = ===_____======;=,===_,

ANTICIPATED RESPONSE The Control Room Data Clerk will make the announcement.

COMMENTS l

I INSTRUCTIONS The Control Room Data Clerk should ensure that this announcement does not interfere with announcements being made by the exercise participants.

i VI-41

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

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 21A l TO: CRS/NPO TIME: 09:40 FROM: CONTROL ROOM CONTROLLER T= + 1:55

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

THIS IS A DRILL DO NOT Initiate actions affecting normal

= _ _ _ = = = = = = = _ _ _ _ _ _ _ _ plant operations

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

Provide the following information:

The top portion of the charging pump "A" control switch indicates "OFF" The bottom portion of the charging pump "A" control switch indicates " TURN OFF" ALARMS COMPUTER POINT D39605, CVCS CHG PMP A LO OIL PRES, " DETECTED" CHARGING PUMP A LUBE OIL PRESSURE LO, on CP-4, Cabinet G, Window C4 CHARGING PUMP A NOT AVAILABLE on CP 4, Cabinet G, Window A4 COMPUTER POINT D39600, CVCS CHG PMP A, "OFF" !

COMPUTER POINT A39600, CVCS CHG PMP A AMPS,"O" I

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vi-42 1

_ .- , m ._ ,

, WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

, W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD i

DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 218 i

TO: CRS/NPO TIME: 09:40 i

FROM: CONTROL ROOM CONTROLLER T= + 1:55

=_______==_===____==_________=___===_____==========

3 THIS IS A DRILL i

DO NOT initiate actions affecting normal plant operations

, .= _ ; = ; = _ _ ; = ; ; = = ;;;; ;;; = ;;;;;;; = _ = ; = ; = ; = _ = = = ; = _ ; = = _ ;; = ; _ _ x = ;;;; = ;;; = _ _ ;;; = ;;

ANTICIPATED RESPONSE

1. The Control Room will enter OP-901-112, Charging or Letdown Malfunction.

i

2. The Control Room will dispatch an NAO and/or maintenance personnel to inspect the 4

charging pump.

' 3. When the "A" charging pump will not restart, the Control Room may start an additional

charging pump.

I COMMENTS i

If the Control Room turns the control switch for the "A" charging pump to the "OFF" position i cnd then back to " AUTO", the charging pump will start when SIAS is initiated. Due to the low l j lube oil pressure, this will result in the charging pump seizing and tripping. If the control switch j

4 is just turned to the "OFF" position the pump will not start on SIAS.

l INSTRUCTIONS .,

o a no a a ne s i

( . ..

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VI-43 i

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL T/PE/NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 22A TO: NAO/ MECHANICAL REPAIR TEAM TIME: Upon arrival at "A" Charging pump FROM: NAO MONITOR / T= N/A MECHANICAL REPAIR TEAM MONITOR

...........=__;=_;.;_____=.=====.._...............=__==_

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations

= _____ = _ .... ..

l Provide the following information:

Oilis seen dripping from the fitting for the lube oil pressure relief valve.

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b Vl-44

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 228 TO: NAO/ MECHANICAL REPAIR TEAM TIME: Upon anival at "A" Charging pump FROM: NAO MONITOR / T= N/A MECHANICAL REPAIR TEAM MONITOR

.. .=__===.=== u===========_=_=====.======= .

THIS IS A DRILL DO NOT initiate actions affectin

===_=g normal plant operations

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

ANTICIPATED RESPONSE

1. Attempts to tighten the oil relief fitting failindicating that the fitting is galled.

2. Mechanical maintenance will replace the oil pressure relief valve fitting and associated j tubing.

COMMENTS

1. Since the PM on the A/B charging pump will be in the final stages, the emergency organization may decide to place a priority on getting the A/B pump back instead of working on the A charging pump.

2. The emergency organization may also decide to use the relief valve and fittings from the ,

A/B charging pump to repair the A charging pump.

i<

3. The emergency organization may also choose to expedite the restoration of the A/B l

charging pump and have another repair team work on the repair of the A charging pump.

4. If a SlAS occurs, and the A charging pump control switch is not in the OFF position, the charging pump will start, since the low lube oil pressure trip will be bypassed. This will result in seizing the pump and it will trip on overcurrent after approximately 30 minutes.

INSTRUCTIONS i

Provide the information on this cue card to the NAO/ repair team when they investigate the failure of the A charging pump.

l The repair team will enter the A charging pump room to investigate the problem and then the drill team will direct them to the mock-up provided in the -35 RAB hallway near the door to the A emergency feedwater pump room.

IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE [.

STATUS OF REPAIR ACTIVITIES IN THE PLANT AT ALL TIMES.

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i VI-45

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD !

DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 , CUE CARD NO. 23A TO: NAO/ ELECTRICAL REPAIR TEAM TIME: Upon investigation of "A" charging pump FROM: NAO MONITOR / T= IFA ELECTRICAL REPAIR TEAM MONITOR

..=_______=_=======_==.=_=====_____=========_==. l THIS IS A DRILL l

..... : _ _ = = = =DO

= =NOT

_ _ _initiate

_ u = =actions

= = _ _ affectin

= _ = = _g normai plant operations

_==______=====___=

When the NAO/ electrical repair team arrives at the A charging pump breaker, provide the following information:

The A charging pump breaker is open and no abnormal indications are observed for the breaker or protective relays. '

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VI-46 i

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 23B TO: NAO/ ELECTRICAL REPAIR TEAM TIME: Upon investigation of "A" charging pump FROM: NAO MONITOR / T= N/A ELECTRICAL REPAIR TEAM MONITOR

. ... . ..=-=== .

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations

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

ANTICIPATED RESPONSE

1. The Control Room will be notified of the indications at the breaker.

2. If requested to take readings on the motor, the electrical repair team will receive the following indications:

Phase-to-Phase resistance = 0.2 OHMS Phase-to-Ground resistance > 1000 MEGOHMS (non-temperature corrected)

COMMENTS This team may not be requested due to the alarm indications present. ,

If a SIAS occurs, and the A charging pump control switch is not in the OFF position, the charging pump will start, since the low lube oil pressure trip will be bypassed. This will result in seizing the pump and it will trip on overcurrent after approximately 30 minutes. ;

Documents referenced:

CWD 365 CWD E365 CWD 367

CWD XLil WA 01067190

1

. INSTRUCTIONS l

if readings are requested, the breaker will probably be racked out. If this occurs, ensure the Simulator Instructor Booth is informed so the control switch can be made dark.

4

Ensure proper electrical safety precautions are followed.

i IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE l STATUS OF REPAIR ACTIVITIES IN THE PLANT AT ALL TIMES. '

4 VI-47 4

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 24A TO: CONTROL ROOM DATA CLERK TIME: 10:00 FROM: CONTROL ROOM CONTROLLER T= + 2:15

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

THIS IS A DRILL DO NOT Initiate actions affecting normal plant operations Make the following announcement:

ATTENTION ALL PERSONNEL! THIS IS A DRILLI THE 1995 ANNUAL EXERCISE IS IN PROGRESS. DO NOT USE THE PLANT PAGE FOR NON EXERCISE RELATED ANNOUNCEMENTS.

DRILL TIME IS (Insert time from Simulator clock).

THIS IS A DRILLI Do not repeat this announcement.

VI-48

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL T/PE/NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 248 TO: CONTROL ROOM DATA CLERK TIME: 10:00 FROM: CONTROL ROOM CONTROLLER T= + 2:15

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

THIS IS A DRILL DO NOT initiate actions affectin g normal plant operations

. =_=== . . ==== ,

l ANTICIPATED RESPONSE 1

The Control Room Data Clerk will make the announcement.

COMMENTS INSTRUCTIONS The Control Room Data Clerk should ensure that this announcement does not interfere with announcements being made by the exercise participants.

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a VI-49

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 25A TO: CRS/NPO TIME: 10:05 FROM: CONTROL ROOM CONTROLLER T= + 2:20 l

... ....... .. . .. . ... .. m .. . . ;;;;;;_;;;;;

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations Provide the following information:

i ALARMS:

INST AIR DRYERS BYPASSED on CP-36, Cabinet L, Window H7 I

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VI-50

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1-WATERFORD 3 ANNUAL EXERCISE 1 JULY 12,1995 -

l W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD i

l DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 25B i

TO: CRS/NPO TIME: 10:05 l

! FROM: CONTROL ROOM CONTROLLER T= + 2:20 l

. = = = = = . = = ==== ============;= .

THIS IS A DRILL j DO NOT initiate actions affecting normal plant operations l

i

' i ANTICIPATED RESPONSE

1. The Control Room will implement OP-901-5$1, Instrument Air Malfunction and dispatch {

4 NAOs to investigate the problem with instrument air. '

j 2. The TSC and OSC should dispatch additional personnel to assist the Control Room in

locating the instrument air leak.

]

COMMENTS The instrument air problem is due to a leak on the instrument air header (71A2-5) in the B ,

switchgear room. The leak is just upstream of valve IA-590, is unisolable and must be i 4

repaired. The instrument air to station air cross connect valve does not open due to a l controller problem. I i The instrument air header pressure will drop to approximately 80 psi and remain steady. This

pressure will not cause the operation of any automatic valves.

i INSTRUCTIONS l

i

IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE l

STATUS OF REPAIR ACTIVITIES IN THE PLANT AT ALL TIMES.

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VI-51 1

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 26A TO: CHEMISTRY /HP TECHNICIAN TIME: 10:05 1

FROM: CHEt'STRY/HP MONITOR T= +2:20

;=====.

THIS IS A DRILL l

DO NOT initiate actions affecting normal plant operations l

.. ........ . ................ .. ... . ========== '

The air is leaking from the main instrument air header in the vicinity of the PASS panel. The personnel drawing the PASS sample should be able to hear the air leaking from the mock-up of the instrument air piping.

e VI-52

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 268 TO: CHEMISTRY /HP TECHNICIAN TIME: 10:05 FROM: CHEMISTRY /HP MONITOR T= +2:20

.... .. ... . . ...m... ... m. . . . . - .. - .

THIS IS A DRILL DO NOT Initiate actions affecting normal plant operations ANTICIPATED RESPONSE

1. The technicians should report the instrument air leakage to the Control Room.

2. The Control Room will dispatch an NAO to investigate the leakage.

3. When the NAO determines that the leak is unisolable, the Control Room will request a repair team to repair the leakage.

COMMENTS l The instrument air problem is due to a leak on the instrument air header (71A2-5) in the B ;

switchgear room. The leak is just upstream of valve IA-590. Closing lA-590 will not secure the l

leakage. '

INSTRUCTIONS A mock up of the instrument air header is provided in the B switchgear room. There is no line number on the piping mock-up, but there will be a valve labeled IA-590. This is consistent with the labeling of the actualinstrument airline.

A member of the drill team will be staged at the mock-up. The mock-up is attached to an air bottle. The drill team member will adjust the air flow, as appropriate, to provide the desired l conditions. Air flow is only necessary when drill participants are evaluating the situation or making repairs.

The PASS sampling team may not be in the area at the time of the instrument air leakage problem. IT IS IMPORTANT THAT THE DRILL TEAM MEMBER ADJUSTS THE MOCK-UP TO INDICATE AIR LEAKAGE WHEN A PARTICIPANT COMES INTO THE ROOM OR OPENS THE DOOR WHILE CONDUCTING THEIR INVESTIGATION.

1 IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE STATUS OF REPAIR ACTIVITIES IN THE PLANT,, AT ALL TIMES. '

1 VI-53

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 27A TO: MECHANICAL REPAIR TEAM TIME: Upon arrival at instrument air leak 4

FROM: REPAIR TEAM MONITOR T= N/A

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations 5 Provide the following information:

Direct the team to the instrument air mock-up.

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l VI-54 l I

l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 278 TO: MECHANICAL REPAIR TEAM TIME: Upon arrival at instrument air leak FROM: REPAIR TEAM MONITOR T= N/A

.......... ..... .... m ..... m . m . m .. m m . m .. .. m . m m . .. ..

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations

............. ...................... m . ........ m ..... m .... m .. ..... ... .. m . ..

ANTICIPATED RESPONSE

1. Repair team should attempt to patch the pipe rupture.

2. When patch has been installed, the instrument air header pressure will retum to normal operating pressure.

COMMENTS

1. The repair team may attempt various methods to patch the piping. They will be given credit for any method that would result in sealing the leaking pipe or slowing down the leakage. !

They will actually be required to repair the leak on the mock-up provided.

2. The instrument air piping is a 2" pipe.

INSTRUCTIONS A member of the drill team will be staged at the mock up. The mock-up is attached to an air !

bottle. The drill team member will adjust the air flow, as appropriate, to provide the desired j conditions. Air flow is only necessary when drill participants are evaluating the situation or i making repairs. I IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE STATUS OF REPAIR ACTIVITIES IN THE PLANT AT ALL TIMES.

1 VI-55

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

i W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1995 ANNUAL EXERCISE #95-04 CUE CARD NO. 28A TO: l&C REPAIR TEAM TIME: Upon arrival at SA-1A X-Conn.

FROM: REPAIR TEAM MONITOR T= N/A

................ . .. ... . m ... m .. . m .. . ... m .

THIS IS A DRILL 1 DO NOT initiate actions affecting normal

...m......... .......... . . .......... .......m.... ...... ....pla nt ope ratio

. .. . .n s.. .

1 Provide the following information:

4 The repair team will find that the station air to instrument air cross connect valve is closed.

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s VI-56

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1 WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

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i Vll. CHARTS. GRAPHS AND TABLES 9

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I WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

METHODOLOGY AND ASSUMPTIONS USED FOR THE DEVELOPMENT OF THE OPERATIONAL PLANT DATA i

j 1. The data is based on a trial run on the Waterford 3 plant specific simulator using an actual

Operating crew.

2. The scenario starts with the following initial conditions:

a. The lower seal on Reactor Coolant Pump (RCP) 1B is leaking. The condition has been evaluated by engineering and it was determined that the RCP can be operated with one seal failed.

b. The A/B charging pump is out of service to replace the oil.

j c. The A/B electrical safety bus is aligned to the B side.

4

3. The scenario starts with the plant at 100 % power at the beginning of core life. Boron concentration is assumed to be 1204 ppm.

4. At 09:00, a shaft seizure for RCP 1B occurs. All four Reactor Protection System (RPS) channels indicate that an automatic trip signalis present, but the reactor did not up. The Operators will manually trip the reactor and begin a plant shutdown and cooldown. The l RCP shaft seizure, with the failure of the automatic trip, results in fuel cladding damage.

i There are no clear indications of fuel failure at this time since the Reactor Coolant System i is intact and all emergency core cooling system components are operable. The a

participants should suspect fuel damage due to the shaft seizure and request a PASS l sample to check for fuel damage.

5. At 09:40, the A charging pump trips due to a leak in the lube oil piping. This will serve to limit the plant cooldown enough to support subsequent scenario activities, i

6. At 10:05, an instrument air leak occurs. The leak causes instrument air pressure drop to

, approximately 80 psi. This pressure was chosen since it will cause concem for the participants, but won't affect the operation of any automatic safety valves. This will also allow the PASS sampling activities to continue.

]

7. At 10:30, a large break LOCA is initiated. The Safety injection Actuation Signal (SlAS) will

! occur at this time. The size of the leak will be monitored and adjusted by the Simulator Operator such that the Refueling Water Storage Pool (RWSP) will reach a level at which the Recirculation Actuation Signal (RAS) is initiated (10% RWSP level) within j

1 approximately 90 minutes of the initiation of SIAS. This is necessary to maintain the drill timeline, since the offsite release will be initiated when RAS occurs, due to a leak on the A HPSI pump suction line. Due to the fuel damage, it is important that the participants be allowed to identify the HPSI pump leakage prior to the point where radiation levels will

' prevent access to the A Safeguards Room. After the leak is identified, the Simulator Operator will adjust the RCS leakage to expedite the initiation of RAS.

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 i

! PLANT DATA SECTION Vil TIME: 0745 REACTOR POWER (%) 100 SG 2 PRESSURE (PSIA) 870 PZR LEVEL (%) 55 SG 2 STEAM FLOW (MLBM/HR) 7.5E+06 PZR PRESSURE (PSIA) 2250 SG 2 FEED FLOW (MLBM/HR) 7.5E+06 PZR TEMPERATURE (T) 650-__

EFW FLOW TO SG 2 (GPM) 0

CET TEMPERATURE (T) 606 SG 2 BLOWDOWN FLOW (GPM) 150

, SUBCOOLED MARGIN (T) 48 LPSI A FLOW (GPM) 0 LOOP 1 TAVE (Y) 574 LPSI B FLOW (GPM) 0 LOOP 1 TH (T) 604 HPSI A FLOW (GPM) O LOOP 1A TC (Y) 544 HPSI B FLOW (GPM) O LOOP 1B TC (T) 544 CS FLOW (1)(GPM) 0 LOOP 2 TAVE (T) 574 CS FLOW (2)(GPM) 0 i

LOOP 2 TH (T) 604 SIT TANK 1A LEVEL (%) 82

! LOOP 2A TC (T) 544 SIT TANK 1B LEVEL (%) 82

} LOOP 2B TC (T) 544 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 207 SIT TANK 2B LEVEL (%) 82

! RV CORE LEVEL (%) 100 630 f SIT TANK 1A PRESSURE (PSIA)

CHARGING FLOW (GPM) 44 SIT TANK 1B PRESSURE (PSIA) 630 LETDOWN FLOW (GPM) 32 SIT TANK 2A PRESSURE (PSIA) 630

+

SG 1 LEVEL NR (%) 68 SIT TANK 28 PRESSURE (PSIA) 630 SG 1 LEVEL WR (%) 88 CONTAINMENT PRESS,(PSIA) 15

'. SG 1 PRESSURE (PSIA) 870 CONTAINMENT TEMP. (T) 111 SG 1 STEAM FLOW (MLBM/HR) 7.5E+06 SI SUMP LEVEL (FT) 0 SG 1 FEED FLOW (MLBM/HR) 7.5E+06 CONTAINMENT SUMP (FT) 2.5

, EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 94 SG 1 BLOWDOWN FLOW (GPM) 150 PLNT STACK FLOW RATE (CFM) 92000 i

SG 2 LEVEL NR (%) 68 ANNULUS PRESS. ('H2O GAGE) 14 l SG 2 LEVEL WR (%) 88 1132 TURBINE POWER (MW)

PLANT DATA SHEET PAGE 1 OF 24

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995

PLANT DATA SECTION Vil TIME: 0800 REACTOR POWER (%) 100 SG 2 PRESSURE (PSIA) 870 PZR LEVEL (%) 55 SG 2 STEAM FLOW (MLBM/HR) 7 5E+06 PZR PRESSURE (PSIA) 2250 SG 2 FEED FLOW (MLBM/HR) 7.5E+06 PZR TEMPERATURE (T) 650 EFW FLOW TO SG 2(GPM) O CET TEMPERATURE (T) 606 SG 2 BLOWDOWN FLOW (GPM) 150 SUSCOOLED MARGIN (Y) 48 LPSI A FLOW (GPM) O LOOP 1 TAVE (T) 574 LPSI B FLOW (GPM) O LOOP 1 TH (T) 604 HPSI A FLOW (GPM) O LOOP 1A TC (Y) 544 HPSI B FLOW (GPM) O LOOP 1B TC (Y) 544 . CS FLOW (1)(GPM) O LOOP 2 TAVE (T) 574 CS FLOW (2)(GPM) O LOOP 2 TH (T) 604 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 544 SIT TANK 1B LEVEL (%) 82 LOOP 28 TC (T) 544 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 207 SIT TANK 28 LEVEL (%) 82 RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) 630 CHARGING FLOW (GPM) 44 SIT TANK 1B PRESSURE (PSIA) 630 LETDOWN FLOW (GPM) 32 SIT TANK 2A PRESSURE (PSIA) 630 SG 1 LEVEL NR (%) 68 SIT TANK 2B PRESSURE (PSIA) 630 SG 1 LEVEL WR (%) 88 CONTAINMENT PRESS. (PSIA) 15 SG 1 PRESSURE (PSIA) 870 CONTAINMENT TEMP. (Y) 111 SG 1 STEAM FLOW (MLBM/HR) 7.5E+06 SI SUMP LEVEL (FT) 0 SG 1 FEED FLOW (MLBM/HR) 7.5E+06 CONTAINMENT SUMP (FT) _

2.5 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 94 SG 1 BLOWDOWN FLOW (GPM) 150 PLNT STACK FLOW RATE (CFM) 92000 SG 2 LEVEL NR (%) 68 ANNULUS PRESS. ('H2O GAGE) 14 ,

SG 2 LEVEL WR (%) 88 TURBINE POWER (MW) 1132 1

l PLANT DATA SHEET PAGE 2 OF 24 i

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[ WATERFORD 3 ANNUAL EXERCISE JULY 12,1995

PLANT DATA SECTION Vil TIME: 0815 REACTOR POWER (%) 100 SG 2 PRESSURE (PSIA) - 870 P2R LEVEL (%) 56 SG 2 STEAM FLOW (MLBWHR) 7.5E+06 PZR PRESSURE (PSIA) 2250 SG 2 FEED FLOW (MLBWHR) 7.5E+06 PZR TEMPERATURE (T) 660 EFW FLOW TO SG 2(GPM) O CET TEMPERATURE (T) 606 SG 2 BLOWDOWN FLOW (GPM) 150 SUSCOOLED MARGIN (T) 48 LPSI A FLOW (GPM) 0 LOOP 1 TAVE (T) 574 LPSI B FLOW (GPM) O LOOP 1 TH (T) 604 HPSI A FLOW (GPM) O LOOP 1A TC(T) 544 HPSI B FLOW (GPM) O LOOP 1B TC (T) 544 CS FLOW (1)(GPM) 0 LOOP 2 TAVE (1) 574 CS FLOW (2)(GPM) O LOOP 2 TH (T) 604 SIT TANK 1 A LEVEL (%) 82 LOOP 2A TC (T) 544 SIT TANK 1B LEVEL (%) 82 LOOP 28 TC (T) 544 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 207 SIT TANK 28 LEVEL (%) 82 RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) 630 CHARGING FLOW (GPM) 44 SIT TANK 1B PRESSURE (PSIA) 630 LETDOWN FLOW (GPM) 32 SIT TANK 2A PRESSURE (PSIA) 630 SG 1 LEVEL NR (%) 68 SIT TANK 28 PRESSURE (PSIA) 630 SG 1 LEVEL WR (%) 88 CONTAINMENT PRESS. (PSIA) 15 SG 1 PRESSURE (PSIA) 871 CONTAINMENT TEMP. (T) 111 SG 1 STEAM FLOW (MLBM/HR) 7.5E+06 SI SUMP LEVEL (FT) O SG 1 FEED FLOW (MLBWHR) 7.5E+06 CONTAINMENT SUMP (PT) 2.5 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 94

( SG 1 BLOWDOWN FLOW (GPM) 150 92000 PLNT STACK FLOW RATE (CFM) l 68 SG 2 LEVEL NR (%) ANNULUS PRESS. (*H2O GAGE) 14 SG 2 LEVEL WR (%) 88 TURBINE POWER (MW) 1132 l

PLANT DATA SHEET PAGE 3 0F 24

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, WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

PLANT DATA SECTION Vil TIME: 0830 REACTOR POWER (%) 100 SG 2 PRESSURE (PSIA) 870 PZR LEVEL (%) 56 SG 2 STEAM FLOW (MLBM/HR) 7.4E+06, ,

l PZR PRESSURE (PSIA) 2250

SG 2 FEED FLOW (MLBM/HR) 7.4E+06 i PZR TEMPERATURE (T) 650 EFW FLOWTO SG 2 (GPM) 0 l

, CET TEMPERATURE (T) 606 SG 2 BLOWOOWN FLOW (GPM) 150

48 SUSCOOLED MARGIN (T) LPSI A FLOW (GPM) 0 l LOOP 1 TAVE (T) 574 LPSI B FLOW (GPM) 0 ;

i LOOP 1 TH (T) 604 HPSI A FLOW (GPM) 0 i LOOP 1A TC (T) 544 HPSI B FLOW (GPM) 0 LOOP 1B TC (T) 544 CS FLOW (1)(GPM) O LOOP 2 TAVE (T) 574 CS FLOW (2)(OPM) 0 ;

LOOP 2 TH (T) 604 SIT TANK 1A LEVEL (%) 82 l

] LOOP 2A TC (T) 544 SIT TANK 18 LEVEL (%) 82 l LOOP 28 TC (7) 544 SIT TANK 2A LEVEL (%) 82

' RV HEAD LEVEL (INCHES) 207 SIT TANK 2B LEVEL (%) 82 j RV CORE LEVEL (%) 100 SlT TANK 1A PRESSURE (PSIA) 630 l CHARGING FLOW (GPM) 44 SIT TANK 1B PRESSURE (PSIA) 630 LETDOWN FLOW (GPM) 32 SlT TANK 2A PRESSURE (PSIA) 630 SG 1 LEVEL NR (%) 68 SIT TANK 28 PRESSURE (PSIA) 630 SG 1 LEVEL WR (%) 88 CONTAINMENT PRESS. (PSIA) 15

SG 1 PRESSURE (PSIA) 870 CONTAINMENT TEMP. (T) 111 i

SG 1 STEAM FLOW (MLBM/HR) 7.4E+06 SI SUMP LEVEL (FT) O SG 1 FEED FLOW (MLBM/HR) 7.4E+06 CONTAINMENT SUMP (FT) 2.5

, EFW FLOW TC 3G 1 (GPM) 0 RWSP LEVEL (%) 94

' SG 1 BLOWDOWN FLOW (GPM) 150 PLNT STACK FLOW RATE (CFM) 92000 SG 2 LEVEL NR (%) 68 ANNULUS PRESS. (*H2O GAGE) 14 SG 2 LEVEL WR (%) 88 TURBINE POWER (MW) 1132 4

PLANT DATA SHEET PAGE 4 OF 24 1

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

PLANT DATA SECTION Vil TIME: 0845

REACTOR POWER (%) 100 670 SG 2 PRESSURE (PSIA) j PZR LEVEL (%) 55 i

SG 2 STEAM FLOW (MLBWHR) 7.4E+06 PZR PRESSURE (PSIA) 2250 SG 2 FEED FLOW (MLBWHR) 7.4E+06 i

PZR TEMPERATURE (T) 650 EFW FLOW TO SG 2(GPM) O CET TEMPERATURE (T) 606 SG 2 BLOWDOWN FLOW (GPM) 150

SUSCOOLED MARGIN (T) 48 0 LPSI A FLOW (GPM)

LOOP 1 TAVE (T) 574 LPSI B FLOW (GPM) 0 LOOP 1 TH (Y) 604 HPSI A FLOW (GPM) 0 i

LOOP 1A TC (T) 544 HPSI B FLOW (GPM) 0 LOOP 1B TC (T) 544 CS FLOW (1)(GPM) 0 l LOOP 2 TAVE(T) 574 CS FLOW (2)(GPM) O LOOP 2 TH (T) 604 SIT TANK 1A LEVEL (%) 82

LOOP 2A TC (T) 544 SIT TANK 1B LEVEL (%) 82 LOOP 2B TC (T) 544 SIT TANK 2A LEVEL (%) 82 4

RV HEAD LEVEL (INCHES) 207 SIT TANK 28 LEVEL (%) 82 4

RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) , 630 CHARGING FLOW (GPM) 44 630

! SIT TANK 1B PRESSURE (PSIA)

LETDOWN FLOW (GPM) 32 SIT TANK 2A PRESSURE (PSIA) 630 SG 1 LEVEL NR (%) 68 SIT TANK 28 PRESSURE (PSIA) 630

SG 1 LEVEL WR (%) 88 CONTAINMENT PRESS. (PSIA) 15

SG 1 PRESSURE (PSIA) 870 CONTAINMENT TEMP. (T) 111 i

SG 1 STEAM FLOW (MLBM/HR) 7.4E+06 St SUMP LEVEL (FT) 0 l SG 1 FEED FLOW (MLBM/HR) 7.4E+06 CONTAINMENT SUMP (FT) 2.5

, EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 94

SG 1 BLOWDOWN FLOW (GPM) 150 PLNT STACK FLOW RATE (CFM) 92000 ,

SG 2 LEVEL NR (%) 68 ANNULUS PRESS. ('H2O GAGE) 14 SG 2 LEVEL WR (%) 88 TURBlNE POWER (MW) 1132 PLANT DATA SHEET PAGE 5 OF 24 d

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i WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

, PLANT DATA SECTION Vil TIME: 0900 REACTOR POWER (%) 100 SG 2 PRESSURE (PSM) 870 PZR LEVEL (%) 55 SG 2 STEAM FLOW (MLBMlHR) 7.4E+06

2250 PZR PRESSURE (PSM) SG 2 FEED FLOW (MLBM/HR) 7.4E+06 j PZR TEMPERATURE (T) 650 0 EFW FLOW TO SG 2(GPM) -

! 606 CET TEMPERATURE (T) SG 2 BLOWDOWN FLOW (GPM) 150 l

SUBCOOLED MARGIN (V) 48 LPSI A FLOW (GPM) 0 LOOP 1 TAVE (T) 574 LPSI B FLOW (GPM) O t

LOOP 1 TH (T) 604 HPSI A FLOW (GPM) __

0 LOOP 1A TC (T) 544 HPSI B FLOW (GPM) 0 LOOP 1B TC (T) 544 CS FLOW (1)(GPM) 0 d,

LOOP 2 TAVE (T) 574 CS FLOW (2)(GPM) 0

) LOOP 2 TH (T) 604 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 544 SIT TANK 1B LEVEL (%) 82 LOOP 2B TC (T) 544 SIT TANK 2A LEVEL (%) 82

RV HEAD LEVEL (INCHES) 207 SIT TANK 2B LEVEL (%) 82 j RV CORE LEVEL (%) 100 SlT TANK 1A PRESSURE (PSIA) 630 CHARGING FLOW (GPM) 44 SIT TANK 1B PRESSURE (PSIA) 630 i

LETDOWN FLOW (GPM) 32 SIT TANK 2A PRESSURE (PSM) 630

SG 1 LEVEL NR (%) 68 SIT TANK 2B PRESSURE (PSM) 63_0 i SG 1 LEVEL WR (%) 88

' CONTAINMENT PRESS. (PSIA) 15 SG 1 PRESSURE (PSIA) 870 CONTAINMENT TEMP. (T) 111 SG 1 STEAM FLOW (MLBM/HR) 7.4E+06 SI SUMP LEVEL (FT) 0 SG 1 FEED FLOW (MLBM/HR) 7.4E+06 CONTAINMENT SUMP (FT) 2.5 l EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 94 SG 1 BLOWDOWN FLOW (GPM) 150 PLNT STACK FLOW RATE (CFM) 92000

SG 2 LEVEL NR (%) 68 ANNULUS PRESS. (*H2O GAGE) 14 i SG 2 LEVEL WR (%) 88 TURBINE POWER (MW) 1132

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PLANT DATA SHEET PAGE 6 OF _24_

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

PLANT DATA SECTION Vil TIME: 0915 REACTOR POWER (%) SE-06 SG 2 PRESSURE (PSIA) 970 PZR LEVEL (%) 32 SG 2 STEAM FLOW (MLBM/HR) 61E+03 PZR PRESSURE (PSIA) 2070 SG 2 FEED FLOW (MLBM/HR) 156E+03 PZR TEMPERATURE (T) 635 EFW FLOW TO SG 2 (GPM) O CET TEMPERATURE (T) 545 SG 2 BLOWDOWN FLOW (GPM) 0 SUBCOOLED MARGIN (T) 98 LPSI A FLOW (GPM) O LOOP 1 TAVE (T) 542 LP31 B FLOW (GPM) 0 LOOP 1 TH (T) 543 HPSI A FLOW (GPM) O LOOP 1A TC (T) 542 HPSI B FLOW (GPM) O LOOP 18 TC (T) 542 CS FLOW (1)(GPM) 0 LOOP 2 TAVE (T) 542 CS FLOW (2)(GPM) O LOOP 2 TH (T) 543 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 542 SIT TANK 1B LEVEL (%) 82 LOOP 28 TC (T) 542 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 207 CIT TANK 28 LEVEL (%) 82 RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) 630 CHARGING FLOW (GPM) 88 SIT TANK 1B PRESSURE (PSIA) 630 LETDOWN FLOW (GPM) 28 SIT TANK 2A PRESSURE (PSIA) 630 SG 1 LEVEL NR (%) 16 SIT TANK 2B PRESSURE (PSIA) 630 SG 1 LEVEL WR (%) 75 CONTAINMENT PRESS. (PSIA) 15 SG 1 PRESSURE (PSIA) 970 CONTAINMENT TEMP. (T) 110 SG 1 STEAM FLOW (MLBM/HR) 118E+03 Si SUMP LEVEL (FT) 0 SG 1 FEED FLOW (MLBM/HR) 160E+03 CONTAINMENT SUMP (FT) 2.5 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 94 SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 92000 SG 2 LEVEL NR (%) 32 ANNULUS PRESS. ('H2O GAGE) 14 SG 2 LEVEL WR (%) 81 TURBINE POWER (MW) 0 f

1 4

PLANT DATA SHEET PAGE 7 OF 24 I

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(

l WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 *

! PLANT DATA SECTION Vil TIME: 0930 REACTOR POWER (%) 2.1E 07 SG 2 PRESSURE (PSIA) 972 i

PZR LEVEL (%) 32 SG 2 STEAM FLOW (MLBMlHR) 52E+03 PZR PRESSURE (PSIA) 2048 SG 2 FEED FLOW (MLBM/HR) 83E+03 PZR TEMPERATURE (T) 659 EFW FLOW TO SG 2 (GPM) 0 l 545 CET TEMPERATURE (T) SG 2 BLOWDOWN FLOW (GPM) O SUSCOOLED MARGIN (T) 109 LPSI A FLOW (GPM) O LOOP 1 TAVE (T) 542 LPSI B FLOW (GPM) 0

, LOOP 1 TH (T) 543 HPSI A FLOW (GPM) O LOOP 1A TC(T) 542 HPSI B FLOW (GPM) 0 LOOP 1B TC (T) 542 CS FLOW (1)(GPM) 0 LOOP 2 TAVE (T) 542 CS FLOW (2)(GPM) 0 LOOP 2 TH (T) 543 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 542 SIT TANK 1B LEVEL (%) 82 LOOP 2B TC (T) 542 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 207 SIT TANK 2B LEVEL (%) 82 i RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) 630 CHARGING FLOW (GPM) 44 SIT TANK 1B PRESSURE (PSIA) 830 j LETDOWN FLOW (GPM) 28 SIT TANK 2A PRESSURE (PSIA) 630 j SG 1 LEVEL NR (%) 25 SIT TANK 2B PRESSURE (PSIA) 630 SG 1 LEVEL WR (%) 78 CONTAINMENT PRESS. (PSIA) 15 SG 1 PRESSURE (PSIA) 972 CONTAINMENT TEMP. (T) 110 SG 1 STEAM FLOW (MLBM/HR) 88E+03 Si SUMP LEVEL (FT) 0 SG 1 FEED FLOW (MLBM/HR) 95E+03 CONTAINMdNT SUMP (FT) 2.5 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 94 SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 92000 SG 2 LEVEL NR (%) 44 ANNULUS PRESS. (*H2O GAGE) 14 SG 2 LEVEL WR (%) 83 TURBINE POWER (MW) O PLANT DATA SHEET PAGE 8 OF 24

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

I PLANT DATA SECTION Vil TIME: 0945 REACTOR POWER (%) 2.1 E-09 SG 2 PRESSURE (PSIA) 947 PZR LEVEL (%) 33 SG 2 STEAM FLOW (MLBM/HR) 17E+03 PZR PRESSURE (PSIA) 2245 SG 2 FEED FLOW (MLBM/HR) 94E+03 PZR TEMPERATURE (T) 651 EFW FLOW TO SG 2(GPM) O CET TEMPERATURE (T) 542 SG 2 BLOWDOWN FLOW (GPM) 0 SU8 COOLED MARGIN (T) 109 LPSI A FLOW (GPM) 0 LOOP 1 TAVE (T) 539 LPSI B FLOW (GPM) O LOOP 1 TH (T) 541 HPSI A FLOW (GPM) 0 LOOP 1A TC (T) 538 HPSI B FLOW (GPM) O LOOP 1B TC (T) 538 CS FLOW (1)(GPM) 0 LOOP 2 TAVE (V) 539 CS FLOW (2)(GPM) O LOOP 2 TH (T) 541 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 538 SIT TANK 1B LEVEL (%) 82 LOOP 28 TC (T) 538 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 207 SIT TANK 28 LEVEL (%) 82 RV CORE LEVEL (%) 100 SlT TANK 1 A PRESSURE (PSIA) 630 CHARGING FLOW (GPM) 0 SIT TANK 18 PRESSURE (PSIA) 630 LETDOWN FLOW (GPM) 0 SIT TANK 2A PRESSURE (PSIA) 630 SG 1 LEVEL NR (%) 48 SIT TANK 28 PRESSURE (PSIA) 630 SG 1 LEVEL WR (%) 84 CONTAINMENT PRESS. (PSIA) 15 SG 1 PRESSURE (PSIA) 948 CONTAINMENT TEMP. (T) 110 SG 1 STEAM FLOW (MLBM/HR) 66E+03 SI SUMP LEVEL (FT) O SG 1 FEED FLOW (MLBM/HR) 104E+03 CONTAINMENT SUMP (FT) 2.5 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 94 SG 1 BLOWOOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 92000 SG 2 LEVEL NR (%) 48 ANNULUS PRESS (*H2O GAGE) 14 SG 2 LEVEL WR (%) 84 TURBINE POWER (MW) 0 l

PLANT DATA SHEET PAGE 9 OF 24

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - -

PLANT DATA SECTION Vil TIME: 1000 REACTOR POWER (%) 2.1E-00 SG 2 PRESSURE (PSIA) 947 PZR LEVEL (%) 33 SG 2 STEAM FLOW (MLBM/HR) 17E+03 PZR PRESSURE (PSIA) 2245 SG 2 FEED FLOW (MLBM/HR) 94E+03 PZR TEMPERATURE (T) 651 EFW FLOW TO SG 2 (GPM) O CET TEMPERATURE (T) 542 SG 2 BLOWDOWN FLOW (GPM) O SUSCOOLED MARGIN (T) 100 LPSI A FLOW (GPM) 0 LOO' 1 TAVE (T) 539 LPSI B FLOW (GPM) O LOOP 1 TH (T) 541 HPSI A FLOW (GPM) O LOOP 1A TC (T) 538 HP8l B FLOW (GPM) O LOOP 1B TC (T) 538 CS FLOW (1)(GPM) O LOOP 2 TAVE (T) 539 CS FLOW (2)(GPM) O LOOP 2 TM (T) 541 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 538 SIT TANK 1B LEVEL (%) 82 LOOP 2B TC (Y) 538 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 207 SIT TANK 2B LEVEL (%) 82 RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) 630 CHARGING FLOW (GPM) O SIT TANK 1B PRESSURE (PSIA) 630 LETDOWN FLOW (GPM) O SIT TANK 2A PRESSURE (PSIA) 630 SG 1 LEVEL NR (%) 48 SIT TANK 2B PRESSURE (PSIA) 630 SG 1 LEVEL WR (%) 84 CONTAINMENT PRESS. (PSIA) 15 SG 1 PRESSURE (PSIA) 948 CONTAINMENT TEMP. (T) 110 SG 1 STEAM FLOW (MLBM/HR) 66E+03 SI SUMP LEVEL (FT) O SG 1 FEED FLOW (MLBM/HR) 104E+03 CONTAINMENT SUMP (FT) 2.5 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 94 SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 92000 SG 2 LEVEL NR (%) 48 ANNULUS PRESS. (*H2O GAGE) 14 SG 2 LEVEL WR (%) 84 TURBINE POWER (MW) 0

~

5 PLANT DATA SHEET PAGE 10 OF 24 i

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

PLANT DATA SECTION Vil TIME: 1015 REACTOR POWER (%) 2.1E 09 SG 2 PRESSURE (PSIA) 947 PZR LEVEL (%) 33 SG 2 STEAM FLOW (MLBMMR) 17E+03 PZR PRESSURE (PSIA) 2245 SG 2 FEED FLOW (MLBMMR) 94E+03 PZR TEMPERATURE (T) 651 EFW FLOW TO SG 2 (GPM) O CET TEMPERATURE (T) 542 SG 2 BLOWDOWN FLOW (GPM) 0 1 SU8 COOLED MARGIN (V) 109 LPSI A FLOW (GPM) 0 i

LOOP 1 TAVE (T) 539 LPSI B FLOW (GPM) 0 i LOOP 1 TH (T) 541 HPSI A FLOW (GPM) 0 t

LOOP 1A TC (T) 538 HPSI B FLOW (GPM) 0

[ LOOP 1B TC (T) 538 CS FLOW (1)(GPM) 0 j LOOP 2 TAVE (T) 539 CS FLOW (2)(GPM) 0

, LOOP 2 TH (T) 541 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 538 SIT TANK 1B LEVEL (%) 82 LOOP 28 TC (T) 538 SIT TANK 2A LEVEL (%) -

82 4

- RV HEAD LEVEL (INCHES) 207 SIT TANK 2B LEVEL (%) 82 i RV CORE LEVEL (%) 100 SIT TANK 1 A PRESSURE (PSIA) 630 3 CHARGING FLOW (GPM) O SIT TANK 1B PRESSURE (PSIA) 630

LETDOWN FLOW (GPM) 0 SIT TANK 2A PRESSURE (PSIA) 630 SG 1 LEVEL NR (%) 48 SIT TANK 28 PRESSURE (PSIA) 630 i SG 1 LEVEL WR (%) 84 CONTAINMENT PRESS. (PSIA) 15

SG 1 PRESSURE (PSIA) 948 CONTAINMENT TEMP, (T) . 110 4

SG 1 STEAM FLOW (MLBM/HR) 66E+03 Si SUMP LEVEL (FT) 0

, SG 1 FEED FLOW (MLBM/HR) 104E+03 CONTAINMENT SUMP (FT) 2.5 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 94 SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 92000__

SG 2 LEVEL NR (%) 48 ANNULUS PRESS. (*H2O GAGE) 14 l SG 2 LEVEL WR (%) 84 0 TURBINE POWER (MW) i e

PLANT DATA SHEET PAGE II OF 24 i

4 s

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

4 PLANT DATA SECTION Vil TIME: 1030 REACTOR POWER (%) 1.7E-09 SG 2 PRESSURE (PSIA) 966 PZR LEVEL (%) 0 SG 2 STEAM FLOW (MLBM/HR) 1E+03 PZR PRESSURE (PSIA) 1053 SG 2 FEED FLOW (MLBM/HR) 86E+03

PZR TEMPERATURE (T) 551 EFW FLOW TO SG 2 (GPM) 0 j CET TEMPERATURE (T) 550 SG 2 BLOWDOWN FLOW (GPM) 0 l

SU8 COOLED MARGIN (T) O LPSI A FLOW (GPM) 0

, LOOP 1 TAVE (T) 545 LPSI B FLOW (GPM) O LOOP 1 TH (T) 550 HPSI A FLOW (GPM) 565 LOOP 1A TC (Y) 540 HPSI B FLOW (GPM) 565 j LOOP 1B TC (T) 540 CS FLOW (1)(GPM) O LOOP 2 TAVE (T) 545 CS FLOW (2)(GPM) 0 LOOP 2 TH (T) 550 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 540 SIT TANK 1B LEVEL (%) 82

LOOP 2B TC (T) 540 SIT TANK 2A LEVEL (%) 82

- RV HEAD LEVEL (INCHES) 207 SIT TANK 28 LEVEL (%) 82 j RV CORE LEVEL (%) 100 630 SIT TANK 1A PRESSURE (PSIA) i CHARGING FLOW (GPM) 88 SIT TANK 18 PRESSURE (PSIA) 630 j 0 630 LETDOWN FLOW (GPM) SIT TANK 2A PRESSURE (PSIA)

27 SG 1 LEVEL NR (%) SIT TANK 28 PRESSURE (PSIA) 630 SG 1 LEVEL WR (%) 77 CONTAINMENT PRESS. (PSIA) 16

! SG 1 PRESSURE (PSIA) 971 CONTAINMENT TEMP. (T) 126 ,

SG 1 STEAM FLOW (MLBM/HR) 121E+03 Si SUMP LEVEL (FT) 0 SG 1 FEED FLOW (MLBM/HR) 95E+03 CONTAINMENT SUMP (FT) 2.5

EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 94 SG 1 BLOWOOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 5000

, SG 2 LEVEL NR (%) 48 ANNULUS PRESS. (*H2O GAGE) 14 SG 2 LEVEL WR (%) 84 TURBINE POWER (MW) 0 i

I PLANT DATA SIEET PAGE 12 OF 24 4

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WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

PLANT DATA SECTION Vil TIME: 1045 REACTOR POWER (%) 1.2E-09 SG 2 PRESSURE (PSIA) 943 PZR LEVEL (%) O SG 2 STEAM FLOW (MLBM/HR) 0 PZR PRESSURE (PSIA) 1045 SG 2 FEED FLOW (MLBM/HR) 0 PZR TEMPERATURE (*F) 558 EFW FLOW TO SG 2(GPM) 50 CET TEMPERATURE (*F) 540 SG 2 BLOWDOWN FLOW (GPM) 0 SUBCOOLED MARGIN (*F) 0 LPSI A FLOW (GPM) O LOOP 1 TAVE ('F) 537 LPSI B FLOW (GPM) O LOOP 1 TH (*F) 549 HPSI A FLOW (GPM) 600 LOOP 1A TC (*F) 470 HPSI B FLOW (GPM) 600 LOOP 1B TC (*F) 470 CS FLOW (1)(GPM) O LOOP 2 TAVE (*F) 537 CS FLOW (2)(GPM) 0 LOOP 2 TH (*F) 549 SIT TANK 1A LEVEL (%) 82

. LOOP 2A TC ('F) 470 SIT TANK 18 LEVEL (%) 82 LOOP 28 TC (*F) 470 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 200 SIT TANK 28 LEVEL (%) 82 RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) 630 CHARGING FLOW (GPM) 88 SIT TANK 18 PRESSURE (PSIA) 630 LETDOWN FLOW (GPM) O SlT TANK 2A PRESSURE (PSIA) 630 SG 1 LEVEL NR (%) 34 SIT TANK 28 PRESSURE (PSIA) 630 SG 1 LEVEL WR (%) 76 CONTAINMENT PRESS. (PSIA) 16 SG 1 PRESSURE (PSIA) 940 CONTAINMENT TEMP. (*F) 146 SG 1 STEAM FLOW (MLBM/HR) 0 SI SUMP LEVEL (FT) 5.5 SG 1 FEED FLOW (MLBM/HR) 0 CONTAINMENT SUMP (FT) 15 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 91 SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 5000 SG 2 LEVEL NR (%) 54 ANNULUS PRESS. (*H2O GAGE) 14 SG 2 LEVEL WR (%) 83 TURBINE POWER (MW) 0 4

PLANT DATA SHEET PAGE 13 OF 24 4

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e T

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 PLANT DATA SECTION Vil TIME: 1100 REACTOR POWER (%) 8.2E-10 SG 2 PRESSURE (PSIA) 335 PZR LEVEL (%) 0 SG 2 STEAM FLOW (MLBM/HR) 39E+03 PZR PRESSURE (PSIA) 960 SG 2 FEED FLOW (MLBM/HR) 0 PZR TEMPERATURE (*F) 558 EFW FLOW TO SG 2 (GPM) -

0 CET TEMPERATURE (*F) 540 SG 2 BLOWDOWN FLOW (GPM) 0 SUBCOOLED MARGIN ('F) O LPS! A FLOW (GPM) O LOOP 1 TAVE (*F) 487 LPSI B FLOW (GPM) O LOOP 1 TH (*F) 545 HPSI A FLOW (GPM) 600 LOOP 1A TC (*F) 430 HPSI B FLOW (GPM) 600 LOOP 18 TC ('F) 430 CS FLOW (1)(GPM) O LOOP 2 TAVE (*F) 487 CS FLOW (2)(GPM) O LOOP 2 TH ('F) 545 SIT TANK 1A LEVEL (%) 82

$ LOOP 2A TC ('F) 430 SIT TANK 1B LEVEL (%) 82 LOOP 2B TC ('F) 430 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 214 SlT TANK 28 LEVEL (%) 82 RV CORE LEVEL (%) 100 SIT TANK 1 A PRESSURE (PSIA) 275 CHARGING FLOW (GPM) -

88 SIT TANK 1B PRESSURE (PSIA) 275 LETDOWN FLOW (GPM) O SIT TANK 2A PRESSURE (PSIA) 275 I.

SG 1 LEVEL NR (%) 16 SIT TANK 2B PRESSURE (PSIA) 275 SG 1 LEVEL WR (%) 76 CONTAINMENT PRESS. (PSIA) 17 SG 1 PRESSURE (PSIA) 335 CONTAINMENT TEMP. (*F) 150 SG 1 STEAM FLOW (MLBM/HR) 31E+03 St SUMP LEVEL (FT) 6.5 SG 1 FEED FLOW (MLBM/HR) O CONTAINMENT SUMP (FT) 16 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 88 SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 5000 SG 2 LEVEL NR (%) 33 ANNULUS PRESS. ('H2O GAGE) 14 SG 2 LEVEL WR (%) 81 TURBINE POWER (MW) 0 ;

1

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l PLANT DATA SFEET PAGE 14 OF 24 l

l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

PLANT DATA SECTION Vll TIME: 1115 REACTOR POWER (%) 6E 10 SG 2 PRESSURE (PSM) 310 PZR LEVEL (%) 0 SG 2 STEAM FLOW (MLBMMR) 39E+03 PZR PRESSURE (PSIA) 890 SG 2 FEED FLOW (MLBMMR) 0 PZR TEMPERATURE (T) 558 EFW FLOW TO SG 2 (GPM) O CET TEMPERATURE (T) 530 SG 2 BLOWDOWN FLOW (GPM) O SU8 COOLED MARGIN (T) 0 LPSI A FLOW (GPM) 0 LOOP 1 TAVE (T) 472 LPSI B FLOW (GPM) O LOOP 1 TH (T) 525 HPSI A FLOW (GPM) 650 LOOP 1A TC (T) 420 HPSI B FLOW (GPM) 650 LOOP 18 TC (T) 420 CS FLOW (1)(GPM) 2000 LOOP 2 TAVE (T) 472 CS FLOW (2)(GPM) 2000 LOOP 2 TH(1) 525 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 420 SIT TANK 1B LEVEL (%) 82 LOOP 2B TC (T) 420 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 214 SIT TANK 28 LEVEL (%) 82 RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) 275 CHARGING FLOW (GPM) 88 SIT TANK 18 PRESSURE (PSM) 275 LETDOWN FLOW (GPM) 0 SIT TANK 2A PRESSURE (PSIA) 275 SG 1 LEVEL NR (%) 16 SlT TANK 2B PRESSURE (PSIA) 275 SG 1 LEVEL WR (%) 76 CONTAINMENT PRESS. (PSIA) 20 SG 1 PRESSURE (PSIA) 310 CONTAINMENT TEMP. (T) 150 SG 1 STEAM FLOW (MLBM/HR) 31E+03 SI SUMP LEVEL (FT) 6.5 SG 1 FEED FLOW (MLBM/HR) O CONTAINMENT SUMP (FT) 16 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 69 SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 5000 SG 2 LEVEL NR (%) 33 ANNULUS PRESS. ('H2O GAGE) 14 SG 2 LEVEL WR (%) 81 TURBINE POWER (MW) 0 i

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i PLANT DATA SHEET PAGE 15 OF 24 i

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

O j WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

i l PLANT DATA SECTION Vil TIME: 1130 l REACTOR POWER (%) 8.2E-10 SG 2 PRESSURE (PSIA) 245 PZR LEVEL (%) 0 SG 2 STEAM FLOW (MLBM/HR) 39E+03

, PZR PRESSURE (PSIA) 810 SG 2 FEED FLOW (MLBM/HR) 0 PZR TEMPERATURE (T) 500 EFW FLOW TO SG 2 (GPM) 0

CET TEMPERATURE (T) 520 SG 2 BLOWDOWN FLOW (GPM) O SU8 COOLED MARGIN (T) 0 LPSI A FLOW (GPM) 0

, LOOP 1 TAVE (Y) 457 LPSI B FLOW (GPM) 0 l LOOP 1 TH (T) 515 HPSI A FLOW (GPM) 650 q

LOOP 1A TC (T) 400 HPSI B FLOW (GPM) 650 LOOP 1B TC (T) 400 CS FLOW (1)(GPM) -2000 i LOOP 2 TAVE (T) 457 CS FLOW (2)(GPM) 2000 j LOOP 2 TH (T) 515 SIT TANK 1A LEVEL (%) 82

LOOP 2A TC (T) 400 SIT TANK 1B LEVEL (%) 82 LOOP 2B TC (T) 400 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 214 SIT TANK 28 LEVEL (%) 82 4

i RV CORE LEVEL (%) 100 SIT TANK 1 A PRESSURE (PSIA) 275 CHARGING FLOW (GPM) 88 275 SIT TANK 1B PRESSURE (PSIA)

] LETDOWN FLOW (GPM) O SIT TANK 2A PRESSURE (PSIA) 275 1

SG 1 LEVEL NR (%) 16 SIT TANK 2B PRESSURE (PSIA) 275 l SG 1 LEVEL WR (%) 76 CONTAINMENT PRESS. (PSIA) 20 j SG 1 PRESSURE (PSIA) 245 CONTAINMENT TEMP. (T) 150 j i

SG 1 STEAM FLOW (MLBM/HR) 31E+03 SI SUMP LEVEL (FT) 6.5

0 SG 1 FEED FLOW (MLBM/HR) _

CONTAINMENT SUMP (FT) 16

{ EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 50 SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 5000 :

j SG 2 LEVEL NR (%) 33

' ANNULUS PRESS. (*H2O GAGE) 14 l SG 2 LEVEL WR (%) 81 TURBINE POWER (MW) 0 4

PLANT DATA SHEET PAGE 16 0F 24 J

J f

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. - , -.e., ..

WATERFORD 3 ANNUAL EXERCISE i JULY 12,1995 '

l PLANT DATA SECTION Vil TIME: 1145 REACTOR POWER (%) 8.2E-10 SG 2 PRESSURE (PSIA) 220 PZR LEVEL (%) 0 SG 2 STEAM FLOW (MLBWHR) 39E+03 PZR PRESSURE (PSIA) 735 SG 2 FEED FLOW (MLBM/HR) 0 PZR TEMPERATURE (T) 400 EFW FLOW TO SG 2(GPM) 0 j CET TEMPERATURE (T) 510 SG 2 BLOWDOWN FLOW (GPM) 0 !

SU9 COOLED MARGIN (V) 0 LPSI A FLOW (GPM) 0 !

LOOP 1 TAVE (T) 447 LPSI B FLOW (GPM) 0 LOOP 1 TH (T) 506 HPSI A FLOW (GPM) 650 (

LOOP 1A TC (T) 390 '

HPSI B FLOW (GPM) 650 LOOP 18 TC (V) 300 CS FLOW (1)(GPM) 2000

- LOOP 2 TAVE (T) 447 CS FLOW (2)(GPM) 2000 LOOP 2 TH (T) 505 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 390 SIT TANK 1B LEVEL (%) 82 LOOP 28 TC (T) 390 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 214 SIT TANK 2B LEVEL (%) 82 RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) 275 !

CHARGING FLOW (GPM) 88 SIT TANK 18 PRESSURE (PSIA) 275 LETDOWN FLOW (GPM) 0 ,

SIT TANK 2A PRESSURE (PSIA) 275 j SG 1 LEVEL NR (%) 16 SIT TANK 2B PRESSURE (PSIA) 275 SG 1 LEVEL WR (%) 76 l CONTAINMENT PRESS. (PSIA) 20 SG 1 PRESSURE (PSIA) 220 CONTAINMENT TEMP. (T) 150 l

- SG 1 STEAM FLOW (MLBM/HR) 31E+03 St SUMP LEVEL (FT) 6.5 SG 1 FEED FLOW (MLBWHR) 0 CONTAINMENT SUMP (FT) 18 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 29 SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 5000 SG 2 LEVEL NR (%) 33 ANNULUS PRESS. (*H2O GAGE) 14 SG 2 LEVEL WR (%) 81

, TURBINE POWER (MW) 0 i

PLANT DATA SHEET PAGE 17 OF 24 '

f l

l 1

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 PLANT DATA SECTION Vil 4 TIME: 1200 REACTOR POWER (%) 8.2E-10 i SG 2 PRESSURE (PStA) 185 PZR LEVEL (%) 0

- SG 2 STEAM FLOW (MLBM/HR) 39E+03 PZR PRESSURE (PSIA) 100 SG 2 FEED FLOW (MLBM/HR) O PZR TEMPERATURE ('F) 328 EFW FLOW TO SG 2(GPM) O CET TEMPERATURE (*F) 328 SG 2 BLOWDOWN FLOW (GPM) 0 SUBCOOLED MARGIN (*F) O LPSI A FLOW (GPM) O LOOP 1 TAVE ('F) 314 LPSI B FLOW (GPM) O LOOP 1 TH (*F) 328 HPSI A FLOW (GPM) 650 LOOP 1A TC ('F) 300 HPSI B FLOW (GPM) 650 LOOP 1B TC (*F) 300 CS FLOW (1)(GPM) 2000 LOOP 2 TAVE ('F) 314 CS FLOW (2)(GPM) O LOOP 2 TH (*F) 328 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (*F) 300 SIT TANK 18 LEVEL (%) 82 LOOP 28 TC (*F) 300 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 214 SlT TANK 28 LEVEL (%) 82 RV CORE LEVEL (%) 100 SlT TANK 1A PRESSURE (PSIA) 275 CHARGlNG FLOW (GPM) 88 SIT TANK 18 PRESSURE (PSIA) 275 LETDOWN FLOW (GPM) O 275 SIT TANK 2A PRESSURE (PSIA)

SG 1 LEVEL NR (%) 16 SIT TANK 2B PRESSURE (PSIA) 275

SG 1 LEVEL WR (%) 76 CONTAINMENT PRESS. (PSIA) 20 SG 1 PRESSURE (PSIA) 185 150 CONTAINMENT TEMP. ('F)

SG 1 STEAM FLOW (MLBM/HR) 31E+03 SI SUMP LEVEL (FT) 6.5 SG 1 FEED FLOW (MLBM/HR) O CONTAINMENT SUMP (FT) 16 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 10 SG 1 BLOWDOWN FLOW (GPM) O 5000

- PLNT STACK FLOW RATE (CFM)

SG 2 LEVEL NR (%) 33 ANNULUS PRESS. (*H2O GAGE) 14 SG 2 LEVEL WR (%) 81 TURBlNE POWER (MW) 0 PLANT DATA SHEET PAGE 18 OF 24

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

l PLANT DATA SECTION Vil TIME: 1215 t

REACTOR POWER (%) 8.2E-10 SG 2 PRESSURE (PSIA) 195 j PZR LEVEL (%) 0 SG 2 STEAM FLOW (MLBM/HR) 39E+03 PZR PRESSURE (PSIA) 100 SG 2 FEED FLOW (MLBM/HR) 0 PZR TEMPERATURE (T) 328 EFW FLOW TO SG 2(GPM) 0 CET TEMPERATURE (T) 328 SG 2 BLOWDOWN FLOW (GPM) 0

' SU9 COOLED MARGIN (T) 0 LPSI A FLOW (GPM) 0 LOOP 1 TAVE(T) 314 LPSI B FLOW (GPM) 0 1

LOOP 1 TH (T) 328 HPSI A FLOW (GPM) 650 LOOP 1A TC (T) 300 HPSI B FLOW (GPM) 650 q LOOP 18 TC (T) 300 CS FLOW (1)(GPM) 2000 LOOP 2 TAVE (T) 314 CS FLOW (2)(GPM) O LOOP 2 TH (T) 328 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 300 SIT TANK 1B LEVEL (%) 82

- LOOP 2B TC (T) 300 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 214 SIT TANK 2B LEVEL (%) 82 RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) 275 CHARGING FLOW (GPM) 88 SIT TANK 1B PRESSURE (PSIA) 275 LETDOWN FLOW (GPM) 0 SIT TANK 2A PRESSURE (PSIA) 275 SG 1 LEVEL NR (%) 16 SlT TANK 2B PRESSURE (PSIA) 275

' SG 1 LEVEL WR (%) 76 CONTAINMENT PRESS. (PSIA) 20 SG 1 PRESSURE (PSIA) 195 150 CONTAINMENT TEMP. (T)

' SG 1 STEAM FLOW (MLBM/HR) 31E+03 SI SUMP LEVEL (FT) 6.5 SG 1 FEED FLOW (MLBM/HR) 0 CONTAINMENT SUMP (FT) 16 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 10 SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 5000 l SG 2 LEVEL NR (%) 33 14 ANNULUS PRESS. (*H2O GAGE)

SG 2 LEVELWR (%) 81 TURBINE POWER (MW) 0

^

4 1

1

PLANT DATA SHEET PAGE 19 OF 24 l 4

6

~

1

^

l WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 ' '

i PLANT DATA SECTION Vil TIME: 1230 1

REACTOR POWER (%) 8.2E-10 SG 2 PRESSURE (PSIA) 136 PZR LEVEL (%) O SG 2 STEAM FLOW (MLBM/HR) 39E+03 )

PZR PRESSURE (PSIA) 100 SG 2 FEED FLOW (MLBM/HR) 0 4 l PZR TEMPERATURE (T) 328 EFW FLOW TO SG 2 (GPM) 0 ;

CET TEMPERATURE (T) 328 SG 2 BLOWDC WN FLOW (GPM) 0 l SUBCOOLED MARGIN (T) 0 LPSI A FLOW (GPwi) 0 l

'. LOOP 1 TAVE (T) 314 LPSI B FLOW (GPM) 0 !

LOOP 1 TH (T) 328 HPSI AFLOW(GPM) 650 i LOOP 1A TC (T) 300 HPSI B FLOW (GPM) 650 l LOOP 18 TC (T) 300 CS FLOW (1)(GPM) 2000

{

LOOP 2 TAVE (T) 314 CS FLOW (2)(GPM) 0 l LOOP 2 TH(T) 328 SIT TANK 1A LEVEL (%) 82

! Loop 2A TC (T) 300 SIT TANK 1R LEVEL (%) 82

, LOOP 28 TC (T) 300 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 214 SIT TANK 28 LEVEL (%) 82

RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) 275 CHARGING FLOW (GPM) 88 SIT TANK 18 PRESSURE (PSIA) 275 i LETDOWN FLOW (GPM) 0 SIT TANK 2A PRESSURE (PSIA) 275 !

j SG 1 LEVEL NR (%) 16 SIT TANK 28 PRESSURE (PSIA) 275 i SG 1 LEVEL WR (%) 76 CONTAINMENT PRESS. (PSIA) 20

! SG 1 PRESSURE (PSIA) 135 CONTAINMENT TEMP. (T) 150 i SG 1 STEAM FLOW (MLBM/HR) 31E+03 6.5

~

SI SUMP LEVEL (FT)

SG 1 FEED FLOW (MLBM/HR) 0 CONTAINMENT SUMP (FT) 16 i

EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 10 SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 5000 SG 2 LEVEL NR (%) 33 ANNULUS PRESS. ('H2O GAGE) 14 SG 2 LEVEL WR (%) 81 TURBINE POWER (MW) 0 l

PLANT DATA SHEET PAGE i 20 OF 24 l

l l

4 4

.i 4

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

PLANT DATA SECTION Vil TIME: 1245 REACTOR POWER (%) 8.2E-10 SG 2 PRESSURE (PSIA) 115 PZR LEVEL (%) 0 SG 2 STEAM FLOW (MLBM/HR) 39E+03 PZR PRESSURE (PSIA) 100 0 SG 2 FEED FLOW (MLBM/HR)

PZR TEMPERATURE (V) 328 EFW FLOW TO SG 2(GPM) 0 CET TEMPERATURE (T) 328 SG 2 BLOWDOWN FLOW (GPM) O SUSCOOLED MARGIN (T) O LPS! A FLOW (GPM) 0 LOOP 1 TAVE (T) 314 LPSI B FLOW (GPM) O LOOP 1 TH (T) 328 HPSI A FLOW (GPM) 650 LOOP 1A TC (T) 300 HPSI B FLOW (GPM) 650 LOOP 1B TC (T) 300 CS FLOW (1)(GPM) 2000 LOOP 2 TAVE (T) 314 CS FLOW (2)(GPM) 00 LOOP 2 TH (T) 328 SITTANK 1A LEVEL (%) 82 LOOP 2A TC (T) 300 SIT TANK 1B LEVEL (%) 82 LOOP 2B TC (T) 300 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 214 SIT TANK 28 LEVEL (%) 82 RV CORE LEVEL (%) 100 275 SIT TANK 1A PRESSURE (PSIA)

CHARGING FLOW (GPk*) 88 SlT TANK 1B PRESSURE (PSIA) 275 LETDOWN FLOW (GPM) O 275 SIT TANK 2A PRESSURE (PSIA)

SG 1 LEVEL NR (%) 16 275 SIT TANK 28 PRESSURE (PSIA)

SG 1 LEVEL WR (%) 76 20 CONTAINMENT PRESS. (PSIA)

SG 1 PRESSURE (PSIA) 115 150 CONTAINMENT TEMP. (T)

SG 1 STEAM FLOW (MLBM/HR) 31E+03_ S1 SUMP LEVEL (FT) 8 SG 1 FEED FLOW (MLBM/HR) O CONTAINMENT SUMP (FT) 16 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 10 SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 5000 SG 2 LEVEL NR (%) 33 ANNULUS PRESS. ('H2O GAGE) 14 SG 2 LEVELWR (%) 81 TURBINE POWER (MW) 0 i

A 9

PLANT DATA SHEET PAGE 21 OF 24

,)

t i

.t f

i l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

, PLANT DATA SECTION Vil TIME: 1300 l REACTOR POWER (%) 8.2E 10 100 SG 2 PRESSURE (PSIA)

{ PZR LEVEL (%) 0 SG 2 STEAM FLOW (MLBM/HR) 39E+03 j PZR PRESSURE (PSIA) 100 4

SG 2 FEED FLOW (MLBM/HR) 0 PZR TEMPERATURE (T) 328 EFW FLOW TO SG 2(GPM) 0 CET TEMPERATURE (Y) 328 SG 2 BLOWOOWN FLOW (GPM) 0

, SUSCOOLED MARGIN (T) 0 LPSI A FLOW (GPM) 0 LOOP 1 TAVE (T) 314 LPSl B FLOW (GPM) 0 j LOOP 1 TH (T) 328 650

' HPSI A FLOW (GPM)

LOOP 1A TC (T) 300 HPSI B FLOW (GPM) 650 l LOOP 18 TC (T) 300 CS FLOW (1)(GPM) 2000 ;

LOOP 2 TAVE (T) 314 CS FLOW (2)(GPM) 0 LOOP 2 TH (T) 328 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 300 SIT TANK 18 LEVEL (%) 82 i

LOOP 28 TC (T) 300 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 214 SIT TANK 28 LEVEL (%) 82 RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) 275 CHARGING FLOW (GPM) 88 SIT TANK 1B PRESSURE (PSIA) 275 l l LETDOWN FLOW (GPM) O SIT TANK 2A PRESSURE (PSIA) 275

SG 1 LEVEL NR (%) 16 _ SIT TANK 2B PRESSURE (PSIA) 275 j SG 1 LEVEL WR (%) 76 CONTAINMENT PRESS. (PSIA) 20 SG 1 PRESSURE (PSIA) 100 CONTAINMENTTEMP (Y) 150 j SG 1 STEAM FLOW (MLBM/HR) 31E+03 8 S1 SUMP LEVEL (FT)

o SG 1 FEED FLOW (MLBM/HR) CONTAINMENT SUMP (FT) 16 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) 10

0 SG 1 BLOWDOWN FLOW (GPM) PLNT STACK FLOW RATE (CFM) 5000 SG 2 LEVEL NR (%) 33 ANNULUS PRESS. (*H2O GAGE) 14 SG 2 LEVEL WR (%) 81 TURBINE POWER (MW) 0 PLANT DATA SHEET PAGE 22 OF 24 i

i e

f I

l u_.____ ____u __ ______ ___.__ _ . _ ___..___ _ _. _.

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

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995

PLANT DATA SECTION Vil TIME: 1315 REACTOR POWER (%) 8.2E-10 SG 2 PRESSURE (PSIA) 90 PZR LEVEL (%) - 0 39E+03 SG 2 STEAM FLOW (MLBM/HR)

PZR PRESSURE (PSIA) 100 SG 2 FEED FLOW (MLBM/HR) O PZR TEMPERATURE (T) 328 EFW FLOW TO SG 2 (GPM) O CET TEMPERATURE (T) 328 SG 2 BLOWOOWN FLOW (GPM) 0 SU8 COOLED MARGIN (T) 0 LP81 A FLOW (GPM) 0 LOOP 1 TAVE (T) 324 LPSI B FLOW (GPM) 0_

LOOP 1 TH (T) 428 HPSI A FLOW (GPM) 650 LOOP 1A TC (T) 320 HPSI B FLOW (GPM) 650 LOOP 1B TC (T) 320 CS FLOW (1)(GPM) 2000 LOOP 2 TAVE (T) 324 CS FLOW (2)(GPM) O LOOP 2 TH (T) 428 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 320 SIT TANK 1B LEVEL (%) 82

- LOOP 28 TC (T) 320 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 214 SIT TANK 2B LEVEL (%) 82 RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) 275 CHARGING FLOW (GPM) 88 SlT TANK 18 PRESSURE (PSIA) 275 LETDOWN FLOW (GPM) 0 SlT TANK 2A PRESSURE (PSIA) 275 SG 1 LEVEL NR(%) 16 SIT TANK 28 PRESSURE (PSIA) 275 SG 1 LEVEL WR (%) 76 20 CONTAINMENT PRESS. (PSIA)

SG 1 PRESSURE (PSIA) 90 150 CONTAINMENT TEMP. (T)

SG 1 STEAM FLOW (MLBM/HR) 31E+03 Si 9 UMP LEVEL (FT) 8 SG 1 FEED FLOW (MLBM/HR) O CONTAINMENT SUMP (FT) 16 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) to SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 5000 SG 2 LEVEL NR (%) 33 ANNULUS PRESS. (*H2O GAGE) 14 SG 2 LEVEL WR (%) 81 TURBINE POWER (MW) 0 J

4 i

i PLANT DATA SHEET PAGE 23 OF 24 n

4 e

i

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l e, -- , ., - - - - --- - --- _ _ _ ---_- _ --- --

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 '

PLANT DATA SECTION Vil TIME: 1345 REACTOR POWER (%) 8.2E-10 SG 2 PRESSURE (PSIA) 70 PZR LEVEL (%) O GE+03 SG 2 STEAM FLOW (MLBM/HR) _

PZR PRESSURE (PSIA) 100 SG 2 FEED FLOW (MLBM/HR) O PZR TEMPERATURE (T) 328 EFW FLOW TO SG 2 (GPM) O CET TEMPERATURE (T) 328 SG 2 BLOWDOWN FLOW (GPM) 0 SUBCOOLED MARGIN (T) 0 LPSI A FLOW (GPM) 0 LOOP 1 TAVE (T) 314 LPSI B FLOW (GPM) O LOOP 1 TH (T) 328 HPSI A FLOW (GPM) 650 LOOP 1A TC (T) 300 HPSI B FLOW (GPM) 650 LOOP 1B TC (1) 300 CS FLOW (1)(GPM) 2000.

LOOP 2 TAVE (*F) 314 CS FLOW (2)(GPM) 0 LOOP 2 TH(T) 328 SIT TANK 1A LEVEL (%) 82 LOOP 2A TC (T) 300 SIT TANK 1B LEVEL (%) 82 LOOP 28 TC (T) 300 SIT TANK 2A LEVEL (%) 82 RV HEAD LEVEL (INCHES) 214 SIT TANK 2B LEVEL (%) 82 RV CORE LEVEL (%) 100 SIT TANK 1A PRESSURE (PSIA) 275 CHARGING FLOW (GPM) 88 SIT TANK 1B PRESSURE (PSIA) 275 LETDOWN FLOW (GPM) O SIT TANK 2A PRESSURE (PSIA) 275 SG 1 LEVEL NR (%) 16 SIT TANK 2B PRESSURE (PSIA) 275 SG 1 LEVEL WR (%) 76 CONTAINMENT PRESS. (PSIA) 20 SG 1 PRESSURE (PSIA) 70 150 CONTAINMENT TEMP. (T) i SG 1 STEAM FLOW (MLBM/HR) 1E+03 SI SUMP LEVEL (FT) to SG 1 FEED FLOW (MLBM/HR) 0 CONTAINMENT SUMP (FT) 16 EFW FLOW TO SG 1 (GPM) 0 RWSP LEVEL (%) to SG 1 BLOWDOWN FLOW (GPM) O PLNT STACK FLOW RATE (CFM) 5000 SG 2 LEVEL NR (%) 33 14 ANNULUS PRESS. (*H2O GAGE)

, SG 2 LEVEL WR (%) 81 TURBINE POWER (MW) 0 I

l PLANT DATA SHEET PAGE 24 OF 24 4

I 4

m i

__ ,_, _ ,_ - , ~ ' ' " ~ ' "~

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 -

METHODOLOGY AND ASSUMPTIONS USED FOR THE DEVELOPMENT OF THE IN PLANT HEALTH PHYSICS DATA Please see the " Basis for the Radiological Portion of the Exercise"in the Onsite Radiologcal Data Section.

1 i

4 s

INPLANT-1

.,. - - . ~ . . - .,+....r..~. . + . . - > . - . . - ..a +,o s. n .

4

- WATERFORD 3 ANNUAL EXERCISE ,

, JULY 12,1995 ' -

i RADIATION MONITOR DATA PROVLDED IN THIS PACKAGE:

PAGE

EifEL1MOMIQRS INPLANT- I l

Post LOCA B RCB East Wing +46 MSIV Area ARM-IRE 5028S AAS.021 5 i Post LOCA A RCB West Wing +46 MSIV Area ARM IRE-5031S AAS-022 6

+46 RAB HVAC Area ARM-lRE-5002 AAA-029 7 i . GRID 2 MONITORS RCB +46 Construction Hatch Area ARM-IRE-5015 AAA-016 8

. RCB +46 Refueling Machine Area ARM-IRE-5013 AAA-017 9 Purge isolation B Area +46 Containment . ARM-IRE-5024S AAS-018 - 10 j . RCB +46 RCB SW Stair Area ARM-IRE 5014 AAS-019 - 11

. Purge Isolation A Area +46 Containment ARM-IRE-5025S AAS-020 12

, Purge Isolation B Area +21 Containment ARM-IRE-5027S AAS-023 13 Purge isolation A Area +21 Containment ARM-IRE 5026S AAS 024 14

j. Post LOCA A East +21 RCB Wing ARM-IRE-5030S AAS-025 15 l Post LOCA B West +21 RCB Wing ARM-IRE-5029S AAS-026 16 RAB +21 Hold Up Tanks Area ARM-IRE-5019 AAA-030 17 RCB West Wing +21 Decon Room ARM IRE-5023A AAA-047 18 1

GRID 3 MONITORS i

RCB -4 Personnel Lock Area ARM IRE 5018 AAA-027 19

! ' RAB -4 Radio Chem Lab Area ARM-IRE-5020 AAA-034 20

RAB -4 Filter Flush Tk Area ARM-IRE-5022 AAA-036 21 l Letdown Halfway Area -4 RAB ARM-IRE-5021 AAA-038 22 LWM Filter Area -35 RAB ARM-IRE-5009 AAA-041 23

, Charging Pump Area -35 RAB ARM-IRE-5017 AAA-044 24 i GRID 4 MONITORS Plant Stack A PIG (Particulate) PRM-IRE-0100.1S EPS-131 25 Plant Stack A PIG (lodine) PRM-IRE-0100.1S EIS-132 26

, Plant Stack A PIG (Gas) PRM IRE-0100.1S EGS-133 27 J

4 4

t INPLANT-2

l WATERFORD 3 ANNUAL EXERCISE L JULY 12,1995 -

3

[- RADIATION MONITOR DATA PROVIDED IN THIS PACKAGE (CONT'D):

PAGE-GRID 4 MONITORSICONT'D) INPLANT-l

! Plant Stack B 'PlG (Particulate) PRM-IRE-0100.2S EPS 141 28

. Plant Stack B PlG (lodine) PRM-IRE-0100.2S EIS-142 29

Plant Stack B PlG (Gas) PRM IRE-0100.2S EGS-143 30

! Circ Water Discharge - PRM-IRE-1900 ELL-203 31

GRID 5 MONITORS l i

Containment Atmosphere PIG (Particulate) PRM-lRE-0100Y PPS-311 32 l : Containment Atmosphere PIG (lodine) PRM-IRE-0100Y PIS-312 33 1

i

. Containment Atmosphere PIG (Gao) PRM-IRE-0100Y PGS-313 34

HVAC Dr '40 (Particulate) PRM-IRE 6710B PPP-341 35 i

HVAC La P!C (lodine)- PRM-IRE-6710B Pl!-342 36 HVAC Duct PlG (Gas) PRM-IRE-6710B PGG-343 37 l HVAC Duct PIG (Particulate) PRM-lRE-6710D PPP-351 38 l HVAC Duct PIG (lodine) PRM-IRE-67100 Pil-352 39

HVAC Duct PlG (Gas) PRM-lRE-6710D PGG-353 40 1 Reactor Building Sump PRM-IRE-6777 PLL-401 41 0

S/G Blowdown -4 Wing Area PRM-IRE-0100X PLL-407 42 l

GRID 6 MONITORS -

l Plant Stack WRGM (Low Range) PRM-IRE-0110 EGG-514 43

{. Plant Stack WRGM (Mid Range) PRM-IRE-0110 EGG-515 44 Plant Stack WRGM (High Range) PRM-lRE-0110 EGG-516 45

Plant Stack WRGM (Effluent) PRM-IRE-0110 EGG-517 46 Recire, Penetration HRM ARM-IRE-5200 AAA-548 47 PASS Control Panel Area +21 RAB ARM-IRE-5204 AAA-549 48 Elec. Equipment Area HRM ARM-IRE-5207 AAA-550 49 SlS Sump -35 Wing Area ARM-IRE-5202 AAA-553 50 Personnel Air Lock -4 RCB ARM-IRE-5201 AAA-557 51 RCB High Range A +99 Containment ARM-IRE-5400AS CAS-561 52 RCB High Range B +99 Containment ARM-lRE-5400BS CAS-562 53 INPLANT-3

.-.~-=n~.-.2 +u. . - . . . . . , .- . , ~ . . . - . . -

l WATERFORD 3 ANNUAL EXERCISE I JULY 12,1995 '

i RADIATION / CONTAMINATION SURVEY RECORDS PROVIDED IN THIS PACKAGE:

{ PAGE

, INPl. ANT-HP-SM-04 +46 HVAC Area 54 - 55

! HP-SM-08 +46 RCB E Wing 56 - 57 i

HP-SM-09 +46 RCB Center Wing Area 58 - 60 HP-SM-19 +21 RAB West Wing Area 61-62 i HP-SM-27 +21 RAB Hallways 63 - 64 HP-SM-29 +21 RAB East Wing Area 65-66 HP-SM-37 -4 RAB Hot Chem Lab 67-68 HP-SM-38 -4 Laundry Room Area 69-70 HP-SM-41 -4 RAB Letdown Heat Exchanger Area 71 - 72 HP-SM-48 -4 RAB Center Wing Area 73 - 74 HP-SM-52 -15.5 RAB Safeguard Valve Galleries 75- 76 HP-SM-65 -35 RAB Charging Pumps Area 77-78 HP-SM-66A Safeguard Room "A" 79 - 80 HP-SM-67 -35 RAB Shutdown Heat Exchangers 81 - 82 HP-SM-68 -35 RAB Waste Tank Area 83 - 84 HP-SM-72 -35 RCB Center Wing Area 85 - 86 HP-SM-74 -35 RAB Hallways 87- 88 l HP-SM-108 Outside 89 - 90 i

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! RADIATION MONITORS j DESCRIPTION TAG ID #/ GRID ID #

PURGE ISOLATION A ARM-IRE-5025S DRILL #: 95-04 GRID 2 AAS-020 DATE: 07/12/95 LOCATION: +46 RCB #2 S/G S WALL i

MONITOR TIME READING MISCELLANEOUS TYPE OF MONITOR:

(ACTUAL) (mR/hr) NOTES 0700 7.0 E1 NORMAL AREA (X)

4 4 4 PROCESS ()

4 4 4 EFFLUENT ()

1030 2.2 E5 HIGH ALARM ACCIDENT ()

4 4 4 RAS 5.0 E5 HIGH OFF SCALE ALARM SETPOINTS:

4 4 4 ALERT: 1.00 E+2 mR/hr

TO END HIGH: 1.20 E+2 mR/hr i

1 MONITOR RANGE:

2.0 E+1 TO 5.0 E+5 mR/hr e

When the monitoris off 5 scale high or low, the reading will remain at j

the upper orlower level of the instrument range.

PAGE 1 OF 1 t

INPLANT-12

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

t RADIATION MONITORS DESCRIPTION TAG 10 #/ GRID 10 #

PURGE ISOLATION B ARM-IRE-5027S DRILL #: 95-04 l GRID 2 i

, AAS-023 . DATE: 07/12/95 1

LOCATION: +21 RCB NE RX CAVITY WALL l

I MONITOR I TIME READING MISCELLANEOUS TYPE OF MONITOR: !

(ACTUAL) (mR/hr) NOTES

0700 2.0 E1 NORMAL AREA (X) 4 4 4 PROCESS ()

4

()

4 4 EFFLUENT 1030 2.4 E5 HIGH ALARM ACCIDENT ()

1 4 4 4 4 4 ALARM SETPOINTS:

RAS 5.0 ES HIGH OFF SCALE ALERT: 3.0 E+1 mR/hr 4 4 4 HIGH: 4.0 E+1 mR/hr 4 4 4 TO END MONITOR RANGE:

2.0 E+1 TO 5.0 E+5 mR/hr I i

l

,

When the monitoris off d

scale high or low, the ,

reading will remain at the upper or !owerlevel

of the instrument range.

l-4

i PAGE 1 OF 1 l lNPLANT-13 9

- - - =.

l RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

PURGE ISOLATION A ARM-IRE-5026S DRILL #: 95 04 GRID 2 AAS-024 DATE: 07/12/95 j LOCATION: +21 RCB SE ON PZR WALL i

j MONITOR TIME READING MISCELLANEOUS TYPE OF MONITOR:

(ACTUAL) (mR/hr) NOTES 0700 2.0 E1 NORMAL AREA

. (X) 4 4 4 PROCESS ()

4 4 4 4 EFFLUENT ()

1030 2.4 ES HIGH ALARM ACCIDENT ()

4 4 4 J

4 4 4 ALARM SETPOINTS:

, RAS 5.0 E5 HIGH OFF SCALE ALERT: 3.0 E+1 mR/hr j 4 4 4 HIGH: 4.0 E+1 mR/hr i 4 4 4 TO END MONITOR RANGE:

i 2.0 E+1 TO 5.0 E+5 mR/hr i

When the monitoris off scale high or low, the ,

reading will remain at '

the upper orlowerlevel j of the instrument range.

i t..

PAGE 1 OF 1 INPLANT-14

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?

f

RADIATION MONITORS l DESCRIPTION TAG ID #/ GRID ID #

RAS +21 ARM lRE 5019 DRILL #: 95-04 )

HOLD UP TANKS AREA GRID 2 l AAA-030 DATE: 07/12/95 j i

l LOCATION: +21 RAB EAST OF ELEVATOR MONITOR TIME READING MISCELLANEOUS TYPE OF MONITOR:

(ACTUAL) (mR/hr) NOTES 1

0700 4.0 E 2 NORMAL AREA (X) 4 4 4 PROCESS ()

1 4 4 EFFLUENT ()

1 4 4 ACCIDENT ()

l 4 4 4 4

4 4 4 ALARM SETPOINTS:

4 4 4 ALERT: 5.00 E-1 mR/hr j 4 4 4 HIGH: 5.00 E+00 mR/hr

, RAS (CVAS TRAIN "B"IN SERVICE) 4 30 HIGH ALARM MONITOR RANGE:

j 4 4- 0.01 TO 1000 mR/hr 4 4 4 4 4 4 4 4

When the monitoris off 4 4 scale high or low, the

) 4 4 reading will remain at 4 4 the upper orlowerlevel Release Secure 4.0 E 2 NORMAL of the instrument range.

PAGE 1 OF 1 INPLANT-17

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r 4

f f

RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

-4 RAB LETDOWN HX AREA ARM IRE 5021 DRILL #- 95-04 GRID 3 AAA 038 DATE: 07/12/95 J

LOCATION: -4 RAB HALLWAY BY LETDOWN HEAT EXCHANGER MONITO5 TIME READING MISCELLANEOUS TYPE OF MONITOR:

(ACTUAL) (mR/hr) NOTES 0700 5.0 E-1 NORMAL AREA (X) j 0900 4.0 E+0 ALERT PROCESS ()

4 4 4 EFFLUENT ()

q 4 4 1 ACCIDENT ()

l 4 4 1 TO END ALARM SETPOINTS:

ALERT: 2.0 E0 mR/hr

HIGH: 5.0 E0 mR/hr MONITOR RANGE:

1.0 E-2 TO 1.0 E+3 mR/hr l

i 4

When the monitor is off scale high or low, the l l

reading will remain at i the upper orlowerlevel of the instrument range.

1 i

PAGE 1 OF 1 INPLANT-22 l 1

I

~

RADIATION MONITORS DESCRIPTION TAG 10 #/ GRID 10 #

LWM FILTER AREA ARM-IRE-5009 DRILL #: 9544 GRID 3 i AAA-041 DATE: 07/12/95 LOCATION: 35 RAB NEAR WASTE AND LAUNDRY FILTERS 4

MONITOR TIME READING MISCELLANEOUS TYPE OF MONITOR:

(ACTUAL) (mR/hr) NOTES 0700 7.54E-2 NORMAL AREA (X) 4 4 4 PROCESS ()

1 4 4 EFFLUENT ()

4 4 4 ACCIDENT ()

i RAS 100 HIGH ALARM 4 4 4 ALARM SETPOINTS:

4 4 4 ALERT: 5.0 E-1 mR/hr j Reisese Secure 4.0 E+0 ALERT HIGH: 5.0 E0 mR/hr 4 4 4 4 4 4 '

MONITOR RANGE:

TO END ?

1.0 E-2 TO 1.0 E+3 mR/hr

When the monitoris off scale high orlow, the .

reading will remain at the upper orlowerlevel of the instrument range.

J PAGE 1 OF 1 INPLANT-23

i -

i WOlY1lON WONllOWS L

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(X) IN3nidd3 i t t

() SS3OOWd t t t l

() Y3WV lVWWON 9-3 0't 0040 f S310N (oo/ lod) (lyn 10Y) [

WO11NOW do 3dA1 SnO3NYT130SlW ONIGY38 BWil WO11NOW V3WY ONIM 1YW1N30 GOW 9t+ 'ROTIV561 96/Eb/40 :31YO EtI103

t GlWC SYO 90-96 417fWO SE*00LO BWIWWd 9 Did M OY19 1N Y1d i

01 OlWO/# 01 OY1 NOlldlWOS30 l a '

SWO11NOW NOl1Yl0VW

'?

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

1

-: P j- RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

CIRd WATER DISCHARGE PRM-IRE-1900 DRILL #: 95 04 GRID 4 4 ELL-203 DATE: 07/12/95

LOCATION: -35 RCB WING AREA f

MONITOR TIME READING MISCELLANEOUS TYPE OF MONITOR:

j (ACTUAL) (pCl/ml) NOTES

! 0700 NORMAL NORMAL AREA ()

f 4 1.82 E-8 4 PROCESS ()

! 4 4 4 EFFLUENT (X) 4 4 4 ACCIDENT ()

l 4 4 4 RAS 4.5 E-3 HIGH ALARM Al. ARM SETPOINTS:

l 4 4 4 ALERT: 5.0 E-7 uCi/mi 4 4 4 HIGH: 1.00E-04 uCl/ml 1 TO END (High Due to Radiation Levels in Wing Area) MONITOR RANGE. 1 l

, 1E-8 TO 1E-2 uCl/ml '

l

\

i i l

!

When the monitor is off l scale high orlow, the l reading will remain at )

the upper orlowerlevel of the instrument range.

i i

4 4

PAGE 1 OF 1 l

! INPLANT-31

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L 30 L 30Vd f

I i

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f i t !

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() IN30'idd3 t i t (X) SSBOOWd t t '

t

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WO11NOW V3WV ONIM M 90W P 3R5 Trig 5'1 !

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t t t '

i t t t t t t t t .

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t t i P

00 Mon 9 3gyy :HClH t t t 00 Mon 4-3C VP :1837Y t t t

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() Y3WV 7YWWON 6-3 0'L 0040 f

S310N (33 Mod) (lYO10Y) i

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t 96/EL/40 :31YO EIC-Sid j 9 OlWO BNIQOl t016 ;

4 T1fMO A00LO 3Wi-WWd Old

SOW 1Y *1NO3

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i (X) SS3OOWd t t t I

() V3WV 7VWWON t-399'I 0040 t

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WollNOW f i

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f f f ,

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{

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() INEGIDOY t t t

() 1N3Oldd3 t t t r

(X) SSBOOMd t t t

() V38Y 7YWHON LL-3 0'I 0040 S310N (30AO") (7Yn10Y)

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9 OlWO 31Y100llWYd MMiB :#'1718 0 90LL9-3BI-WBd Old 1000 OYAH

01 OlWO/# 01 OY1 NolidlWOS3G SBollNOW NOl1YlOYM l

I l

9C-1NV1dNI i

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t t t !

I t t i !

t t t i i i !

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t i

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i .t i !

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SINIOd13S WHY1Y t t t :

t i i ;

() IN30lOOY t t t l

() IN3Oldd3 i t i f (X) SS3OOMd t ? -t .'

() V3WV 1YWWON 6-3 0'I 0040 ;

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NO11YW13N3d lVOlW10313 AG ONIM 193M 80W IE+ M l StVEb/40 :31YO EM-ild

9 OlWO ENICOI t MMi6 4 TilWO 90LL9 3Hi-WWd Old 1000 OVAH t

Of OlWO/S 01 OY1 NOlldlWOS30

SWO11NOW NOl1Yl0VW !

. +

l

RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

HVAC DUCT PlG PRM-lRE-6710B DRILL #- 95-04 GAS GRID 5 PGG-343 DATE: 07/12/95 LOCATION: +21 RCB WEST WING BY ELECTRICAL PENETRATION MONITOR TIME READING MISCELLANEOUS TYPE OF MONITOR:

(ACTUAL) (pC1/cc) NOTES 0700 9.24 E-7 NORMAL AREA ()

1 4 4 PROCESS (X) 4 4 4 EFFLUENT ()

1 4 4 ACCIDENT ()

4 4 4 4 4 4 ALARM SETPOINTS:

4 4 4 ALERT: 2.50E-05 uCl/cc 4 4 4 HIGH: 1.00E-04 uCi/cc !

4 4 4 !

RAS 5.0 E 5 ALERT :

MONITOR RANGE.

I 4 LOSS OF PROCESS FLOW 1.0 E-7 TO 1.0 E-1 uCl/cc 1 1 Due to Rad Levels from 4 4 -4 Wino Area 1 4 4 4 4 4

When the monitoris off 4 4 4 scale high orlow, the '

4 4 4 reading will remain at END the upper orlowerlevel of the instmment range.

PAGE 1 OF 1 INPLANT-37

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r r

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3DNYH HollNOW mold ssacoud do ssol 031y10SlW31SAs SyM -

i t t l 557P5 F N W 5 :HDlH t t i collon 8-309' L :1837Y t t i !

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() IN3OIOOY t t t

() IN3Oldd3 t i t (X) SSBOO8d t t t

() Y38V 7YWWON &I-3 0'I 0040 S310N (03/13 6) (7YO10Y) 8011NOW dO 3dA1 SnO3NYT130SIW DNIOY38 BWil 8011NOW V3WY OYAH 8YM 9t+ WOTIVool 96/3t/40 ;31YO LSE-ddd 90180 31Y100118Yd 90-S6 4 T11MO 00LL9-3Wl-WWd Old 1000 OYAH

Ol 0180/# 01 DY1 NOlldlWOS30 S8011NOW Nol1YlOVW

60-1NYldNI Ldo IBOYd t

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};o siJolluow ey) ueqM , y '

f f t t t ;

t i t ;

t t i

{

03/lon E 3 0'L 016-3 0'k i .t t

3DNYM HollNOW Mold ssroowd do ssol 031ylost nalsAs syg i i t i 00/lOn g. goo g :HClH t t t 00/lon 6-300'9 :1M37Y t t i

S1NIOd13S WHY"lY {

t t t t t i f

() IN30lODY t t i

() IN307dd3 f

t t i {

(X) SS3DOWd t t t

() Y38Y 7YWWON 6 3 0'I 0040 [

S310N (00/ lod) (7Yn10V) i

MollNOW do 3dA1 SnOENYTIBOS!W ONIOYHW 3Wil !

BOllNOW V3WY OVAH SYW 9t+ :Nol1YOO'1 i S6/3I/40 :31YO ESE-Ild r

9 OlWD ENICOI M M;6 4 T1180 00119-3MI-WWd Old 10n0 OYAH

01 0l8 0/# 01 O Y1 NO!1dluCS30 -

SWollflon NOl1Y10VW

- ,- - -,---- e,- -

e, e - -- - '=

r.ww.,

RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

HVAC DUCT PlG PRM-IRE-67100 DRILL #: 95-04 GAS GRID 5 PGG-353 DATE: 07/12/95 i

LOCATION: +46 RAB HVAC AREA l

MONITOR TIME READING MISCELLANEOUS TYPE OF MONITOR (ACTUAL) (pCi/cc) NOTES 0700 1.96 E-6 NORMAL AREA ()

1 4 4 PROCESS (X) i 4 4 4 EFFLUENT ()

4 4 4 ACCIDENT ()

4 4 4 4 4 4 ALARM SETPOINTS:

4 4 4 ALERT: 2.50E-5 uCl/cc 1

4 4 4 HIGH: 1.00E-4 uCi/cc 4 4 4 RAS 3.0 E 5 ALERT MONITOR RANGE:

4 4 LOSS OF PROCESS FLOW 1.0 E 7 TO 1.0 E-1 uCl/cc 4 4 Due to General Area 4 4 Background Level from 4 4 CVAS System -

4 4 4

When the monitoris off 4 4 4 scale high or low, the 4 4 4 reading will remain at TO END OF DRILL the upper orlowerlevel of the Instrument range.

PAGE 1 OF 1 1

INPLANT-40

LP .LNY1dNI L do 130Vd l l

souBJ lueWruMUl ey)jo leAsl JomolJo Jeddn ey)

[

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lWMOn E-30V3 :1W3"IY t t t l

S I NIO d 13 S W W Y'iY t t t t t t

() INEOlOOY t t t

() IN3Oldd3 t t t (X) SSEDOMd t t t

() Y3BY 7YWWON F-33VC 0040 S310N (IWMO") (7YO10Y)

MOllNOW 30 3dA1 SnO3NW30SIW DN10Y3H BWil .

MO11NOW f TYM *1NO3 NO DNIM 3 GON t- 55IIV561 [

96/EI/LO ;31YO l09-Td [

t 9 01H0 90 96 4M /L19-BWIMMd dWAS*D07GXW ,

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P-

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I i

SE10N (lWMod) (7Yn10Y) ;

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i i

V3WY ONIM 7YWIN30 90W t- ' NOTI?5&T i.

56/56/40 "d1VG 10t 'I7d '

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01 OlWO/# Of OY1 NOlidlWOS3G SWollNOW NOl1Yl0VW s

e

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e

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() SS3OOMd i i t

() Y3MY 7YWMON 9-3 OVE 0040 SE10N (03/10") (7Yn10Y)

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t I+3 Ft DEL + SYW l MMon g+3 o t or p.3 o g t t ;

t

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() V3WY MO7 3 IVOS ddO t-3 0'I 0040 ,

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);o siJotluom ey) usyM . t t t

t L+3 L'S 09 L+ SW i t i t L+3 t't OZ L+ SW 00 mon 9+3 0'L 01 L-3 0'L i t i

3DNW WOllNOW t i+3 E F 06+ SW t t i f 00 Mon C+3 0'L :HClH t L+3 E'S 09+ SW 03/lon C+3 0'L :183 lY t t t

SINIOd13S WWY'lY t k+3 E'S OC+SYW ;

i T i (X) IN3OlOOY 1YWWON L+3 t'C SW (X) IN3nldd3 i t t

() SS3OOWd t t t

() Y3WY MO7 31YOS ddO L-3 0'I 0040 S310N (00 mod) (1Yn10Y)

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l BOllNOW V3WY ONIM 7W1N30 GOW 9t+ WOTIli571 96/EL/40 :31YO 9L9 003 9 OlWO BON W IH 90-96 :# T11MG 0L LO-3HIWWd WOMM MOY1S INV"Id

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t i t ;

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5H7Pyryg7gT :HClH t L+3199'S 09+ SYW !

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() SS3OOWd t t t

() V3WY 'IYWWON E+3 fI - 0010

~

'h S310N (oes/ lod) (7yn10y) {

WollNOW do eda 1 SOO3NYTT30SlW ONIQY3W EWil ;

WO11NOW !

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0 56/3b/40 :31VG LL9903 9 OlWO . 1N30"Idd3 :

90-96 :#111W0 0LLO 3Him WOMM) TOY 1SANYld [

01 OlWO/# Of OY1 NotidlWOS30 -

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(ACTUAL) (mR/hr) .

NOTES 0700 1.0 E+1 NORMAL AREA (X) 4 4 4 PROCESS ()

1 4 4 EFFLUENT ()

4 4 4 ACCIDENT ()

RAS 3.0 E+6 HIGH ALARM 4 4 4 ALARM SETPOINTS:

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1.0 E+1 TO 1.0 E+7 mR/hr i

l

When the monitoris off

scale high orlow, the reading will remain at i the upper orlowerlevel i of the instrument range.

t j PAGE 1 OF 1 INPLANT-50 1

1 1

, ,, -- r

RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

-4 WING HRM ARM-IRE 5201 DRILL #: 95-04 GRID 6 AAA-557 DATE: 07/12/95 LOCATION: -4 RCB PERSONNEL AIR LOCK MONITOR TIME READING MISCELLANEOUS TYPE OF MONITOR:

(ACTUAL) (mR/hr) NOTES 0700 1.0 E+1 NORMAL AREA (X) 0900 4.0 E+01 4 PROCESS ()

1 1 1 EFFLUENT ()

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, RAS 5.0 E+3 HIGH ALARM 1 4 1 ALARM SETPOINTS:

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1.0 E+1 TO 1.0 E+7 mR/hr

When the monitoris off scale high or low, the reading will remain at the upper or lowerlevel of the instrument range.

PAGE 1 OF 1 INPLANT-51

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Sample dose rate at Contact = 1400 mR/hr Sample dose rate at 18 inches = 85 mR/hr i i

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RATE At 30 Cal HP-2-201 REVISION 9 23 ATTACHMENT 12.2 (1 OF 1)

INPLANT-88

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INPLANT-90 -

I WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 . t i

METHODOLOGY AND ASSUMPTIONS i

USED FOR CHEMISTRY DATA CALCULATIONS

1. The plant has been operating for the past 45 days at 100% power and is at the beginning of core life.

2. Boron concentration is assumed to be 1204 ppm. Boron concentration will depend on reactor power and operator actions. Actual Boron concentrations will be obtained from the Simulator.

3. Reactor Coolant System (RCS) activity is assumed to remain constant after the shaft seizure until the end of the exercise. After the shaft seizure, Boron, H2, Dissolved Oxygen, pH and Lithium concentrations will vary per plant conditions and Boron concentrations indicated in the Simulator.

j j 4. 100/E (E-Bar) = 240.38.

5. The Steam Generators will have no activity throughout the Exercise.

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6. At 10:30, RCS leakage into Containment is initiated. For the first 30 minutes, the ,

leakage is assumed to be 500 gpm. With a 4000 gpm dilution factor, the Containment l

sump readings are assumed to be 1/9 of the RCS concentrations. '

1

' - 7. After the first 30 minutes, the RCS leakage is assumed to increase to 1000 gpm. With a 4000 gpm dilution factor, the Containment sump readings are assumed to be 1/5 of

RCS concentrations.

8. When the RAS occurs, the HPSI leak rate is assumed to be 30 gpm

! 9. After the shaft seizure, the primary sample panel will read 10 R/hr on contact and

} 4.5 R/hr at 30 cm from the panel.

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WATERFORD 3 ANNUAL EXERCISE < JULY 12,1995 . 4 CHEMISTRY CUE CARD

 ,     TO:       CHEMISTRY PARTICIPANTS                                     CUE CARD NO.

1 i FROM: CHEMISTRY CONTROLLER TIME: Prior to 09:00 4 Initial: SAMPLING TIME: ) , j SAMPLE ID: _ REACTOR COOLANT CHEMISTRY j Gross Activity X Sample Size X 7.8 E-3 = Dose Rate @ 1" GAMMA SAMPLE DOSE RATE: pCl/gm(cc) X gm(cc) X 7.8 E-3 = (mr/nr)

BETA SAMPLE DOSE RATE: gamma X 1.5 = (mr/hr) 4 BORON (ppm) 1204 H2 (cc/Kg) 35 Dis 02 (ppm) < 0.01 pH 6.3 l

Li(ppm) 2.01 Other Conductivity = 19 nmhos/cm2

SPECIFIC ACTIVITY: Ci/gm(cc) j Gross Activity 8.86E-02 Br-83 Te-129

) del-131 _ 2.10E-03 Br-84 Te-131 . Kr-85m 8.51 E-04 1-131 9.27E-04 Te 132 i i Kr-85 l-132 5.00E-03 Mo-99 Kr-87 l-133 2.28E-03 Tc-99m ) i Kr-88 l-134 6.60E-03 H-3 4.26E-01 ! Kr-89 l-135 3.19E-03 Na-24 4.49E-04 Xe-131m Rb-88 4.99E-03 Co-58 1.17E-03 ' Xe-133m Rb-89 ,2.49E-03 Co-60 Xe-133 2.52E-02 Cs-134 8.712-04 Ba-137m ! Xe-135m _4.95E-04 Cs-136 Ba-140 Xe 135 7.87E-03 Cs-137 4.41E-04 Nb-95 3.73E-04 Xe-137 Cs-138 6.30E-03 Nb-97 3.13E-04 Xe-138 3.44E-03 Cs-139 8.04E-03 W-187 2.40E-03

Cr-51 Mn-56 7.15E-04 Zr-95 7.89E-04 Ar-41 2.19E 03 La-140 Zr-97 4.93E-04 Cl-38 8.94E-04 l - COMMENTS: '

CHEM-2 1 i

1 l WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 . CHEMISTRY CUE CARD j j TO: CHEMISTRY PARTICIPANTS CUE CARD NO. i FROM: CHEMISTRY CONTROLLER TIME: 09:00 - END ] Initial: SAMPLING TIME: l

,   SAMPLE ID:        REACTOR COOLANT SYSTEM CHEMISTRY - SHAFT SElZURE j                                Gross Activity X Sample Size X 7.8 E-3 = Dose Rate @ 1" l  GAMMA SAMPLE DOSE RATE:                        pCi/gm(cc) X         gm(cc) X 7.8 E-3 =                     (mr/hr)

{ BETA SAMPLE DOSE RATE: gamma X 1.5 = (mr/hr) j BORON (ppm) H2 (cc/Kg)

Dis 02 (ppm)
pH
Li (ppm) Other

SPECIFIC ACTIVITY: Ci/gm(cc)

Gross Activity 10144 Br-83 420 Te-129 156 del-131 500 pei/CC Br-84 74 Te-131 186 l Kr-85m 60.42 1-131 355 Te 132 18.4 Kr-85 101.6 l-132 354.57 Mo-99 468 . Kr-87 6.76 l-133 355.5 Tc-99m 347 4 j Kr-88 99.4 l-134 355 H-3 12885 l Kr-89 8.72E-1 1-135 355.36 Na-24 31 88 . } Xe-131m 96.5 Rb-88 354.29 Co-58 83.07 l Xe-133m 176.2 Rb-89 176.79 Co-60 10.42 l Xe-133 1789 Cs-134 61.84 Ba-137m 156

Xe-135m 35.1 Cs-136 35.6 Ba-140 376 Xe-135 544.57 Cs-137 31.31 Nb-95 26.48 Xe-137 7.43 Cs-138 447.3 Nb-97 22.22

Xe-138 244.24 Cs-139 570.84 W-187 170.4 Cr-51 260 Mn-56 50.76 Zr-95 56.02 Ar-41 155.49 La-140 362 Zr-97 35.0 i

l Cl-38 63.47 COMMENTS: * = Parameters will vary per Simulator Boron and plant conditions l For drill purposes assume RCS activity remains constant until end of drill. CHEM-3 i )

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

i WATERFORD 3 ANNUAL EXERCISE

JULY 12,1995 CHEMISTRY CUE CARD 4

TO: CHEMISTRY PARTICIPANTS CUE CARD NO. i i

)            FROM:        CHEMISTRY CONTROLLER                                                   TIME: 10:30- 11:00 l                         Initial:                                                  SAMPLING TIME:

I SAMPLE ID: R'CS CONTAINMENT SUMP - FIRST 30 MINUTES (500 GPM LEAK) l Gross Activity X Sample Size X 7.8 E-3 = Dose Rate @ 1" l ! GAMMA SAMPLE DOSE RATE: Ci/gm(cc) X gm(cc) X 7.8 E-3 = (mr/hr) ~ 1 BETA SAMPLE DOSE RATE: gamma X 1.5 = (mr/hr) { BORON (ppm) H2 (cc/Kg) Dis 02 (ppm) pH } 4 Li(ppm) Other j SPECIFIC ACTIVITY: Cl/gm(cc) i j Gross Activity 1127 Br-83 46.7 Te-129 17.3

del-131 55.6 Br-84 8.22 Te-131 20.67

Kr-85m 6.71 1-131 39.4 Te-132 2.04

! Kr-85 11.29 l-132 39.39 Mo-99 52 i Kr-87 0.75 l-133 39.5 Tc-99m 38.56 Kr-88 11.04 l-134 39.4 H-3 1431.7 Kr-89 9.68E-2 1-135 39.48 Na-24 3.54 L Xe-131m 10.72 Rb-88 39.36 Co-58 9.23 1 i Xe-133m 19.58 Rb-89 ,19.64 Co-60 1.16 Xe-133 198.8 Cs-134 6.87 Ba-137m 17.33 $ Xe-135m 3.9 Cs-136 3.95 Ba-140 41.78 Xe-135 60.5 Cs-137 3.48 Nb-95 2.94 Xe-137 0.825 Cs-138 49.7 Nb-97 2.47 Xe-138 27.1 Cs-139 63.42 W-187 18.93

Cr-51 28.88 Mn-56 5.64 Zr-95 6.22

j. Ar-41 17.28 La-140 40.22 Zr 97 3.89 Cl-38 7.05 1

COMMENTS: CHEM-4 , 4 v w, -

WATERFORD 3 ANNUAL EXERCISE l JULY 12,1995 - CHEMISTRY CUE CARD TO: CHEMISTRY PARTICIPANTS CUE CARD NO. FROM: CHEMISTRY CONTROLLER TIME: 11:00 - END l Initial: SAMPLING TIME: l SAMPLE ID: RCS CONTAINMENT SUMP - AFTER 10:30 (1000 GPM LEAK) l Gross Activity X Sample Size X 7.8 E-3 = Dose Rate @ 1" i l GAMMA SAMPLE DOSE RATE: pCl/am(cc) X gm(cc) X 7.8 E-3 = (mr/hr)

BETA SAMPLE DOSE RATE: gamma X 1.5 = (mr/hr) i BORON (ppm) H2 (cc/Kg) Dis 02 (ppm) pH l Li(ppm) Other SPECIFIC ACTIVITY: Ci/gm(cc)

J j Gross Activity 2028.8 Br-83 84 Te-129 31.2

del-131 100 Br-84 14.8 Te-131 37.2

{ Kr-85m 12.08 l-131 71 Te-132 3.68 , Kr-85 20.32 1-132 70.91 Mo-99 93.6 Kr-87 1.352 1-133 71.1 Tc-99m 69.4 l Kr-88 19.88 l-134 71 H-3 2577 i l Kr-89 0.1744 l-135 71.07 Na-24 6.38 [ Xe-131m 19.3 Rb-88 70.86 Co-58 16.614 ! Xe-133m 35.24 Rb-89 35.36 Co-60 2.08 i Xe-133 357.8 Cs-134 12.37 Ba-137m 31.2 l Xe-135m 7.02 Cs-136 7.12 Ba-140 75.2 ] Xo MS 108.91 Cs-137 6.26 Nb-95 5.296 j Xe-137 1.486 Cs-138 89.46 Nb-97 4.44 Xe-138 48.85 Cs-139 114.2 W-187 34.08 Cr-51 52 Mn-56 10.15 Zr-95 11.2 Ar-41 31.098 La-140 72.4 Zr-97 7.0

Cl-38 12.69 COMMENTS

) CHEM-5

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - CHEMISTRY CUE CARD TO: CHEMISTRY PARTICIPANTS CUE CARD NO. FROM: CHEMISTRY CONTROLLER TIME: AT RAS Initial: SAMPLING TIME: SAMPLE ID: (RCS) HPSI LEAK (30 GPM) Gross Activity X Sample Size X 7.8 E-3 = Dose Rate @ 1" GAMMA SAMPLE DOSE RATE: Ci/gm(cc) X gm(cc) X 7.8 E-3 = (mr/hr) BETA SAMPLE DOSE RATE: gamma X 1.5 = (mr/hr) BORON (ppm) H2 (cc/Kg) Dis 02 (ppm) pH Li(ppm) Other ! SPECIFIC ACTIVITY: Ci/gm(cc) 1 Gross Activity 6088 Br-83 252 Te-129 93.6 del-131 300 Br-84 44.4 Te-131 111.6 ! Kr-85m 36.3 1-131 213 Te-132 11.04 j Kr-85 60.96 l-132 212.4 Mo-99 280.8 Kr-87 4.056 l-133 213.1 Tc-99m 208.2

l Kr-88 59.8 l-134 213 H-3 7730 i Kr-89 5.23 1-135 213.1 Na-24 19.13 Xe-131m 57.9 Rb 88 212 Co-58 49.8 Xe-133m 105.7 Rb-89 106.1 Co-00 8.25 Xe-133 1073 Cs-134 37.1 Ba-137m 93.8

Xe-135m 21.1 Cs-136 21.38 Ba-140 225.6 Xe-135 ,326.8 Cs-137 18.8 Nb-95 15.89 Xe-137 4.46 Cs-138 268.4 Nb-97 18.3 Xe-138 146.5 Cs-139 342.5 W-187 102.2 Cr 51 156 Mn-56 30.46 Zr-95 33.6 i

Ar-41 93.2 La-140 217.2 Zr-97 21 Cl-38 38.04

COMMENTS

CHEM-6 l l L _ _ _ - ___ _ _ _.__.______.

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - METEOROLOGICAL SCENARIO OUTLINE AND DATA The meteorological scenario selected for the Waterford 3 SES 1995 Annual Exerr~,e has been prepared to meet the overall objectives of the exercise. The scenario assumes winds from the south west at 10 MPH and very unstable meteorological , conditions until 08:00 am. This is followed by a wind shift toward the east and southeast with gusts to 30 MPH for approximately one half-hour, during which a tornado touches down in the Owner Controlled Area damaging the meteorological towers. This choice of weather conditions is consistent with a meteorological stability class of B, changing to category C. These conditions are assumed from 08:00 to 10:45 am. After 10:45 am, the meteorological conditions stabilize out of the south south west (from 203 degrees) at a speed of 5 MPH and meteorological stability class D. These conditions remain stable throughout the remainder of the exercise. These meteorological conditions were chosen to provide a maximum number of fixed field sample points affected by the radiological release postulated for this scenario. The meteorological data presented in this section includes: i

a. Simulated general weather forecasts from the National Weather Service.

b. Simulated computer printouts from the plant's metsarological system.

1 l I , MET-1

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - 4 W SIMULATED WEATHER FORECASTS PROVIDED BY THE NATIONAL WEATHER SERVICE i 4 4 4 l e l MET-2 i

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - Simulated Forecast Provided By The National Weather Service For Wednesday, July 12,1995 1 l TIME: 07:45 ) The extended forecast for the New Orleans area and southeast Louisiana is as follows: l j For Wednesday, July 12,1995, moming lows are in the middle to upper 70's; aftemoon highs

,    will be in the low to mid 90's. There is a 60% chance of thunderstorms this moming,
,    decreasing to 40% for the late aftemoon and evening. Skies are partly cloudy, with winds up to 10 miles per hour from the west (from 270 degrees). Conditions are moderately unstable (Stability Class B) and wind shifts towards the south are likely.

l i 1 i i i f i i l I j MET-3

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - Simulated Forecast Provided Ey The 4 National Weather Service For Wednesday, July 12,1995 TIME: 08:00 i The extended forecast for the New Orleans area and southeast Louisiana is as follows: For Wednesday, July 12,1995, moming lows are in the upper 70's; aftemoon highs will be in

the low to mid 90's. There is a 60% chance of thunderstorms this moming, decreasing to 40%

for the late aftemoon and evening. Skies are partly cloudy, with winds up to 30 miles per hour from the west south west (from 250 degrees). Conditions are moderately unstable (Stability Class B) and wind shifts towards the north are likely. Tomadoes have been sighted in the area. A tomado waming has been declared for St. Charles Parish, St. John the Baptist Parish and Jefferson Parish until 9:00 this moming. a 4 + 1 i i MET-4

l WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - Simulated Forecast Provided By The National Weather Service For Wednesday, July 12,1995 l TIME: 08:05 The extended forecast for the New Orleans area and southeast Louisiana is as follows: For Wednesday, July 12,1995, moming lows are in the upper 70's; aftemoon highs will be in I the low to mid 90's. There is a 60% chance of thunderstorms this moming, decreasing to 40% for the late sitemoon and evening. Skies are partly cloudy, with winds up to 30 miles per hour - from the west south west (from 250 degrees). Conditions are moderately unstable (Stability Class B) and wind shifts towards the north are likely. Tomadoes have been sighted in the area earlier, but there have been no further reports of tomado activity. The Tomado Waming has been down-graded to a Tomado Watch for St. Charles Parish, St. John the Baptist Parish and Jefferson Parish until 9:00 this moming. I 4 J

i 7 , MET-5

l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - Simulated Forecast Provided By The National Weather Ser' -::s For Wednesday, July 12,1t95 TIME: 08:30 The extended forecast for the New Odeans area and southeast Louisiana is as follows: For Wednesday, July 12,1995, moming lows are in the lower 80's; aftemoon highs will be in the low to mid 90's. There is a 60% chance of thunderstorms this moming, decreasing to 40% for the late aftemoon and evening. Skies are partly cloudy, with winds up to 10 miles per hour from the south west (from 230 degrees). Conditions are slightly unstable (Stability Class C) and wind shifts towards the south are likely. The Tomado Watch has been terminated for St. Charles and St. John the Baptist Parishes, and remains in effect for Jefferson Parish until 9:00 AM. 1 4 i 1 t 9 MET-6

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 . Simulated Forecast Provided By The National Weather Service For Wednesday, July 12,1995 1 TIME: 09:00 The extended forecast for the New Orleans area and southeast Louisiana is as follows: For Wednesday, July 12,1995, moming lows are in the lower 80's; aftemoon highs will be in the low to mid 90's. There is a 80% chance of thunderstorms this moming, decreasing to 40% for the late afternoon and evening. Skies are partly cloudy, with winds up to 10 miles per hour from the south west (from 230 degrees). Conditions are slightly unstable (Stability Class C) , and wind shifts towards the south are likely. The Tomado Watch has been terminated for Jefferson Parish. i I i i I MET-7 ! i

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - Simulated Forecast Provided By The National Weather Service l For Wednesday, July 12,1995 1 TIME: 09:30 The extended forecest for the New Crieans area and southeast Louisiana is as follows: 1 For Wednesday, July 12,1995, moming lows are in the lower 80's; aftemoon highs will be in the low to mid 90's. Theta is a 60% chance of thunderstorms this moming, decreasing to 40% j for the late r,ftemoon and evening. Skies are partly cloudy, with winds up to 10 miles per hour l from the south west (from 220 degrees). Conditions are slightly unstable (Stability Class C) and wind shifts towards the scuth are likely. 4 i i i r l 4 1 l t i l 4 MET-8

l WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 ' Simulated Forecast i Provided By The i National Weather Service For Wednesday, July 12,1995 ) I

TIME: 09:45 The extended forecast for the New Orleans area and southeast Louisiana is as follows:

For Wednesday, July 12,1995, moming lows are in the middle 80's; aftemoon highs will be in the low to mid 90's. There is a 50% chance of thunderstorms this moming, decreasing to 40% for the late aftemoon and evening. Skies are partly cloudy, with winds up to 9 miles per hour from the south west (from 230 degrees). Conditions are slightly unstable (Stability Class C)

and wind shifts towards the south are likely.

W } i T i ? a e i .l MET-9

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - Simulated Forecast Provided By The National Weather Service For Wednesday, July 12,1995 TIME: 10:00 The extended forecast for the New Orleans area and southeast Louisiana is as follows: For Wednesday, July 12,1995, moming lows are in the middle 80's; aftemoon highs will be in the low to mid 90's. There is a 50% chance of thunderstorms this moming, decreasing to 40% for the late aftemoon and evening. Skies are partly cloudy, with winds up to 9 miles per hour from the south south west (from 215 degrees). Conditions are slightly unstable (Stability Class C) and wind shifts towards the south are likely. i 4 i 4 e 4 l 1 I i MET-10

k 1 WATERFORD 3 ANNUAL EXERCISE ! JULY 12,1995 ' 4 Simulated Forecast Provided By The National Weather Service j For Wednesday, July 12,1995 1 i TIME: 10:30

 ;   The extended forecast for the New Orleans area and southeast Louisiana is as follows:

For Wednesday, July 12,1995, moming lows are in the middle 80's; aftemoon highs will be in

  ,  the low to mid 90's. There is a 50% chance of thunderstorms this moming, decreasing to 40%

for the late aftemoon and evening. Skies are partly cloudy, with winds up to 9 miles per hour

    . from the south south west (from 215 degrees). Conditions are slightly unstable (Stability Class C) and wind shifts towards the south are likely, i

i 4 1 1 4 f 4 4 J MET-11

WATERFORD 3 ANNUAL EXERCISE

;                                                  JULY 12,1995                                           -

Simulated Forecast Provided By The National Weather Service j For Wednesday, July 12,1995 TIME: 10:45 - END OF EXERCISE

 !      The extended forecast for the New Orleans area and southeast Louisiana is as follows:

i For Wednesday, July 12,1995, moming lows are in the lower 90's; aftemoon highs will be in the low to mid 90's. There is a 40% chance of thunderstorms this moming, decreasing to 40% for the late aftemoon and evening. Skies are partly clouoy, with winds up to 5 miles per hour from the south south west (from 203 degrees). Conditions are neutral (Stability Class D) and w'nd shifts towards the north are likely. 1 e 1 L a e f MET-12

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 . SIMULATED COMPUTER PRINTOUT OF METEOROLOGICAL DATA I i

1 l 1 4 1 1 i MET-13

WATERFORD 3 ANNUAL EXERCISE i JULY 12,1995 - 4 SIMULATED METEOROLOGICAL OUTPUT . 07:45 l 1 MIN SAMPLE l 15 MIN AVG i i

  !-     PRI METR TWR 33 FT WIND SPEED       l           4.47 M/SEC       l       4.46 WSEC 4.48 M/SEC               4.48 M/SEC BKUP METR TWR 33 FT WIND SPEED l                                 l PRI METR TWR 33 FT WIND DlR        !          270.00 DEGR       !  272.00 DEGR BKUP METR TWR 33 FT WIND DIR                  270.00 DEGR          269.00 DEGR

} l l PRI METR TWR 199 FT WIND SPEED 4.45 M/SEC 4.47 M/SEC l PRI METR TWR 199 FT WIND DIR 269.00 DEGR. 270.00 DEGR ! PRI METR TWR 33 FT SIGMA THETA 3.91 DEGR 3.90 DEGR i BKUP METR TWR 33 FT SIGMA THETA l 3.82 DEGR l 3.80 DEGR i i 3.87 DEGR 3.90 DEGR PRI METR TWR 199 FT SIGMA THETA l l

PRI METR TWR DIF TEMP PRI ! -0.89 DEGC ! -0.90 DEGC
PRI METR TWR DIF TEMP SEC l -0.90 DEGC l -0.91 DEGC: BKUP METR DIF TEMP -0.90 DEGC -0.91 DEGC l l PRI METR 33 FT AIR TEMP ! 23.89 DEGC ! 23.85 DEGC 1 l l
PRI METR PRECIPITATION .

l 0.00 INCH 0.00 INCH l l l l i i i l k l l 1 l I i .. MET-14

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995

i SIMULATED METEOROLOGICAL OUTPUT

 ;                                     08:00

l 1 MIN SAMPLE l 15 MIN AVG 1 i i i i PRI METR TWR 33 FT WIND SPEED lB****** M/SEC l 13.50 M/SEC BKUP METR TWR 33 FT WIND SPEED lB****** M/SEC l 13.45 M/SEC I I

PRI METR TWR 33 FT WIND DIR lB****** DEGR l 252.00 DEGR BKUP METR TWR 33 FT WIND DlR I'Be***** DEGR l 253.00 DEGR i

l l PRI METR TWR 199 FT WIND SPEED lBe***** M/SEC l 13.41 M/SEC l l ! PRI METR TWR 199 FT WIND DIR l Be***** DEGR l 250.00 DEGR l l PRI METR TWR 33 FT SIGMA THETA l B****** DEGR l 3.90 DEGR i ' BKUP METR TWR 33 FT SIGMA THETA l Be***** DEGR l 4.00 DEGR l l PRI METR TWR 199 FT SIGMA THETA lB****** i DEGR l i 4.00 DEGR l l I PRI METR TWR DIF TEMP PRI l B****** DEGC i -0.90 DEGC PRI METR TWR DIF TEMP SEC lB****** DEGC l -0.91 DEGC BKUP METR DIF TEMP lB****** DEGC l -0.91 DEGC I l PRI METR 33 FT AIR TEMP lB****** i DEGC i i 23.85 DEGC l l t PRI METR PRECIPITATION lB****** i i INCH i 0.00 INCH

i i e

l ! i t J MET-15 1

                                                                   - - -      -         --     - -    -l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 08:15 l 1 MIN SAMPLE l 15 MIN AVG l l PRI METR TWR 33 FT WIND SPEED l Be***** WSEC lB****** M/SEC BKUP METR TWR 33 FT WIND SPEED l B****** WSEC lB****** WSEC i l PRI METR TWR 33 FT WIND DIR lB****** DEGR l B****** DEGR

 ' BKUP METR TWR 33 FT WIND DIR      l  B****** DEGR    l   Be***** DEGR I                  l PRI METR TWR 199 FT WIND SPEED    lBe***** WSEC      lB****** WSEC l                  l PRI METR TWR 199 FT WIND DIR      lB****** DEGR      lBe***** DEGR l                  l PRI METR TWR 33 FT SIGMA THETA    l  B****** DEGR    l   B****** DEGR OKUP METR TWR 33 FT SIGMA THETA l    B****** DEGR    lB****** DEGR l                  l PRI METR TWR 199 FT SIGMA THETA lBe***** DEGR      lB****** DEGR PRI METR TWR DIF TEMP PRI        !Be***** DEGC      !B****** DEGC

^ PRI METR TWR DIF TEMP SEC l Be*** *

DEGC l Be***** DEGC BKUP METR DIF. TEMP l Be* **** DEGC lB****** DEGC l l PRI METR 33 FT AIR TEMP lB****** DEGC lBe***** DEGC l

PRI METR PRECIPITATION i i B****** INCH !B****** i INCH

I I .

i i l i i 4 MET-16

1 l l WATERFORD 3 ANNUAL EXERCISE , JULY 12,1995 '

SIMULATED METEOROl'OGICAL OUTPUT 08:30 i l 1 M!N SAMPLE l 15 MIN AVG l l PRI METR TWR 33 FT WIND SPEED ' lB****** M/SEC l B****** M/SEC i

BKUP METR TWR 33 FT WIND SPEED l B****** M/SEC lB****** M/SEC l l PRI METR TWR 33 FT WIND DIR l B* * * * *

DEGR l B****** DEGR j BKUP METR TWR 33 FT WIND DlR ! B****** DEGR l B****** DEGR l l 4

PRI METR TWR 199 FT WIND SPEED l B****** M/SEC l Be***** M/SEC

l l PRI METR TWR 199 FT WIND DIR lB******

DEGR l Be***** DEGR s I PRI METR TWR 33 FT SIGMA THETA lB****** DEGR l3***** DEGR

, BKUP METR TWR 33 FT SIGMA THETA ! B******                  DEGR       lB******   DEGR l                          l PRI METR TWR 199 FT SIGMA THETA            l,  B****** DEGR          l,  Be***** DEGR i

l l PRI METR TWR DIF TEMP PRI i B****** DEGC g Be***** DEGC PRI METR TWR DIF TEMP SEC l B* * * * *

DEGC i B****** DEGC BKUP METR Dl* TEMP lB******

DEGC l B****** DEGC i i PRI METR 33 FT AIR TEMP l B* * * * *

DEGC lB****** DEGC I

PRI METR PRECIPITATION l' B * * *

INCH** l B****** INCH l l 1 I i l

l l MET-17

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 09:00 l 1 MIN SAMPLE l 15 MIN AVG I l PRI METR TWR 33 FT WIND SPEED l B****** M/SEC l B* * * * *

M/SEC BKUP METR TWR 33 FT WIND SPEED l B****** M/SEC l B* * * * *
M/SEC I l PRI METR TWR 33 FT WIND DIR l B****** DEGR ! B****** DEGR BKUP METR TWR 33 FT WIND DIR l Be * * * *
DEGR l B****** DEGR l l PRI METR TWR 199 FT WIND SPEED l Be***** M/SEC l Be***** M/SEC l l PRI METR TWR 199 FT WIND DlR lB****** DEGR lB****** DEGR l l PRI METR TWR 33 FT SIGMA THETA l B****** DEGR l B****** DEGR BKUF METR TWR 33 FT SIGMA THETA l B****** DEGR l Be***** DEGR l l PRI METR TWR 199 FT SIGMA THETA l, B****** DEGR l, B****** DEGR PRI METR TWR DIF TEMP PRI !B****** DEGC !B****** DEGC PRI METR TWR DIF TEMP SEC l B* ** * *
DEGC lB****** DEGC BKUP METR DIF TEMP lB****** DEGC l Be***** DEGC l l PRI METR 33 FT AIR TEMP lB****** DEGC lB****** DEGC PRI METR PRECIPITATION B****** INCH B****** INCH I I i i J

l l [ MET-18

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 09:15 l 1 MIN SAMPLE l 15 MIN AVG l l PRI METR TWR 33 FT WIND SPEED l Be***** M/SEC l B****** WSEC BKUP METR TWR 33 FT WIND SPEED l Be***** M/SEC l B****** M/SEC l l PRI METR TWR 33 FT WIND DlR lB****** DEGR l B****** DEGR BKUP METR TWR 33 FT WIND DIR l B****** DEGR l B****** DEGR l l PRI METR TWR 199 FT WIND SPEED lB****** M/SEC l B****** M/SEC l l PRI METR TWR 199 FT WIND DIR ! B****** DEGR lB****** DEGR l l PRI METR TWR 33 FT SIGMA THETA l B****** DEGR lB****** DEGR BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR lBe***** DEGR l l PRI METR TWR 199 FT SIGMA THETA DEGR lB****** lB****** DEGR PRI METR TWR DIF TEMP PRI !B****** DEGC !B****** DEGC PRI METR TWR DIF TEMP SEC lB****** DEGC l B****** DEGC BKUP METR DIF TEMP lB****** DEGC {B****** DEGC I PRI METR 33 FT AIR TEMP i i B****** DEGC !Be***** DEGC i PRI METR PRECIPITATION B****** INCH Be***** INCH , I l i i I l l MET-19 1

WATERFORD 3 ANNUAL EXERCISE 4 JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 09:30 l 1 MIN SAMPLE l 15 MIN AVG i i i 1 PRI METR TWR 33 FT WIND SPEED lB****** M/SEC l B****** M/SEC a BKUP METR TWR 33 FT WIND SPEED l B****** M/SEC l B****** M/SEC i s PRI METR TWR 33 FT WIND DIR l B****** DEGR l B****** DEGR i BKUP METR TWR 33 FT WIND DIR l B****** DEGR l Be***** DEGR l l PRI METR TWR 199 FT WIND SPEED l B****** M/SEC lB****** M/SEC 4 i i i PRI METR TWR 199 FT WIND DIR lB****** DEGR lB****** DEGR l l PRI METR TWR 33 FT SIGMA THETA l B****** DEGR l Be***** DEGR !; BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR l i Be***** DEGR i PRI METR TWR 199 FT SIGMA THETA i B****** i DEGR !B****** i DEGR l PRI METR TWR DIF TEMP PRI l B****** DEGC l B* * * * * *DEGC l , PRI METR TWR DIF TEMP SEC i B****** DEGC i B****** DEGC BKUP METR DIF TEMP lBe***** DEGC lBe***** DEGC l PRI METR 33 FT AIR TEMP !B****** DEGC e i i B****** DEGC ! l ' PRI METR PRECIPITATION i Be***** INCH B****** INCH t i l i I I 1 l-1 f a MET-20 4

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT ~ 09:30 (lF PRIMARY TOWER RESTORED)

!                                               1 MIN SAMPLE l                      l        15 MIN AVG I                      !

, PRI METR TWR 33 FT WIND SPEED l 4.48 M/SEC l 4.48 M/SEC BKUP METR TWR 33 FT WIND SPEED l Be***** M/SEC l B****** M/SEC 3 l PRI METR TWR 33 FT WIND DIR 231.06 DEGR 233.00 DEGR } BKUP METR TWR 33 FT WIND DIR i I B****** OEGR lB****** DEGR i i

 .      PRI METR TWR 199 FT WIND SPEED       !     4.48 M/SEC      !                   4.47 M/SEC l        PRI METR TWR 199 FT WIND DlR            229.00 DEGR               230.00             DEGR l                      l PRI METR TWR 33 FT SIGMA THETA      !      4.32 DEGR       !                   4.30 DEGR i

BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR l B****** DEGR l l 4.39 DEGR 4.40 DEGR .i PRI METR TWR 199 FT SIGMA THETA l l ! l l PRI METR TWR DIF TEMP PRI i -0.83 DEGC i -0.84 DEGC i PRI METR TWR DIF TEMP SEC l -0.85 DEGC l -0.84 DEGC 4 BKUP METR DIF TEMP l B****** DEGC l B****** DEGC l l PRI METR 33 FT AIR TEMP 25.45 DEGC 25.78 DEGC l l PRI METR PRECIPITATION 0.45 INCH 0.45 INCH l l

                                            !                      I i                      i                                                                 i l

j 1 1 l MET-21

i WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 1 09:45 l 1 MIN SAMPLE l 15 MIN AVG l l PRI METR TWR 33 FT WIND SPEED l B* * * * *

M/SEC l Be***** M/SEC BKUP METR TWR 33 FT WIND SPEED l Be***** M/SEC l B****** M/SEC l l PRI METR TWR 33 FT WIND DIR l Be * * * ** DEGR l B****** DEGR BKUP METR TWR 33 FT WIND DIR lB****** DEGR l B****** DEGR I l PRI METR TWR 199 FT WIND SPEED lBe***** M/SEC l B****** M/SEC l l PRI METR TWR 199 FT WIND DIR l B****** DEGR l B****** DEGR l l PRI METR TWR 33 FT SIGMA THETA l B****** DEGR l B****** DEGR BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR l B****** DEGR l l

 . PRI METR TWR 199 FT SIGMA THETA       B****** DEGR l
                                     ,                        lB****** DEGR PRI METR TWR DIF TEMP PRI              Be***** DEGC         !B****** DEGC PRI METR TWR DIF TEMP SEC          i B******        DEGC   l    B****** DEGC BKUP METR DIF TEMP                lB****** DEGC            l    B****** DEGC l                        l PRI METR 33 FT AIR TEMP lBe***** DEGC            lB****** DEGC PRI METR PRECIPITATION                 B******      INCH        Be***** INCH I                        I i                        i d

e MET-22

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT i 09:45 (IF PRIMARY TOWER RESTORED) l 1 MIN SAMPLE l 15 MIN AVG l l PRI METR TWR 33 FT WIND SPEED 4.02 WSEC l 4.01 WSEC lB****** WSEC BKUP METR TWR 33 FT WIND , SPEED B****** ! WSEC , PRI METR TWR 33 FT WIND DlR 232.00 DEGR 233.00 DEGR BKUP METR TWR 33 FT WIND DIR lBe***** i 1 DEGR i 1 B****** DEGR PRI METR TWR 199 FT WIND SPEED ! 4.03 M/SEC ! 4.02 WSEC l l PRI METR TWR 199 FT WIND DlR 231.04 DEGR 230.00 DEGR l l PRI METR TWR 33 FT SIGMA THETA ! 4.21 DEGR ! 4.20 DEGR BKUP METR TWR 33 FT SIGMA THETA l Be***** DEGR lB****** DEGR l l t PRI METR TWR 199 FT SIGMA THETA 4.38 l DEGR 4.40 DEGR l PRI METR TWR DIF TEMP PRI ! -0.81 DEGC ! -0.82 DEGC ' PRI METR TWR DIF TEMP SEC l -0.80 DEGC 1 -0.81 DEGC BKUP METR DIF TEMP l Be****

DEGC l B****** DEGC l l PRI METR 33 FT AIR TEMP 25.80 DEGC 25.82 DEGC l l PRI METR PRECIPITATION ! 0.45 INCH ! 0.45 lNCH l l l l i

I MET-23 I 1 l

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

l WATERFORD 3 ANNUAL EXERCISE ! JULY 12,1995 - l l SIMULATED METEOROLOGICAL OUTPUT 10:00 l 1 MIN SAMPLE l 15 MIN AVG l l PRl' METR TWR 33 FT WIND SPEED l Be***** WSEC l Be***** WSEC BKUP METR 1WR 33 FT WIND SPEED l B****** M/SEC l Be***** M/SEC l l PRI METR TWR 33 FT WIND DIR l Be * * * *

DEGR l B****** DEGR l BKUP METR TWR 33 FT WIND DIR lB****** DEGR l B****** DEGR )

l l PRI METR TWR 199 FT WIND SPEED lBe***** M/SEC lBe***** M/SEC l l 1 PRI METR TWR 199 FT WIND DIR lB****** DEGR lB****** DEGR l 4 l l PRI METR TWR 33 FT SIGMA THETA l Be * ** *

DEGR l B****** DEGR BKUP METR TWR 33 FT SIGMA THETA' l B****** DEGR lBe***** DEGR ;

4 PRI METR TWR 199 FT SIGMA THETA l B* * * * *

DEGR e

lB****** i DEGR i PRI METR TWR DIF TEMP PRI !B****** DEGC !B****** DEGC PRI METR TWR DIF TEMP SEC l B****** DEGC l Be***** DEGC ! 4 i BKUP METR DIF TEMP l B****** DEGC lB****** DEGC l l l PRI METR 33 FT AIR TEMP l Be***** DEGC li B* ** **

DEGC

. e PRI METR PRECIPITATION B****** INCH Be***** INCH I I i i i MET-24 i

l i WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - 4 I SIMUL.ATED METEOROLOGICAL OUTPUT 10:00 l (IF PRIMARY TOWER RESTORED) l l 1 MIN SAMPLE l 15 MIN AVG l l PRI METR TWR 33 FT WIND SPEED l 4.01 M/SEC l 4.01 WSEC !

 ! BKUP METR TWR 33 FT WIND SPEED ! Be***** M/SEC l,       B****** M/SEC                       !

i 1

 !                                                               l PRI METR TWR 33 FT WIND DIR                215.00 DEGR                      217.00 DEGR
                                                                 ;                                             l I

BKUP METR TWR 33 FT WIND DIR lB****** DEGR 1 i B****** DEGR l PRI METR TWR 199 FT WIND SPEED ! 4.02 M/SEC ! 4.02 M/SEC t

l PRI METR TWR 199 FT WIND DIR 214.00 DEGR 215.00 DEGR l l I I I i PRI METR TWR 33 FT SIGMA THETA i 4.22 DEGR i 4.20 DEGR l

BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR l Be * * * *

DEGR i l l 4.42 DEGR 4.40 DEGR PRI METR TWR 199 FT SIGMA THETA l l I l PRI METR TWR DIF TEMP PRI i -0.81 DEGC i -0.82 DEGC l

PRI METR TWR DIF TEMP SEC l -0.80 DEGC l -0.81 DEGC '. BKUP METR DIF TEMP lB****** DEGC l B* * * * *

DEGC ,

1 l l 1 PRI METR 33 FT AIR TEMP 25.84 DEGC 25.78 DEGC l l ) PRI METR PRECIPITATION ! 0.45 INCH ! 0.45 INCH l ! l

                                          '                      I l

1 l 1 1 l i i j k MET-25 ! I

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 10:15 l 1 MIN SAMPLE l 15 MIN AVG 1 1 PRI METR TWR 33 FT WIND SPEED B****** M/SEC B****** M/SEC BKUP METP.TWR 33 FT WIND SPEED l B****** M/SEC lB****** M/SEC l l PRI METR TWR 33 FT WIND DIR lB****** DEGR lB****** DEGR BKUP METR TWR 33 FT WIND DIR l Be***** DEGR lB****** DEGR l l PRI METR TWR 199 FT WIND SPEED lB****** M/SEC lBe***** M/SEC l l PRI METR TWR 199 FT WIND DlR lBe***** DEGR lB****** DEGR l ; PRI METR TWR 33 FT SIGMA THETA lBe***** DEGR I B****** DEGR BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR lB****** DEGR l l PRI METR TWR 199 FT SIGMA THETA DEGR lBe***** lB****** DEGR I I PRI METR TWR DIF TEMP PRI i B****** DEGC i B****** DEGC PRI METR TWR DIF TEMP SEC lB****** DEGC l B*****

DEGC BKUP METR DIF TEMP l Be***** DEGC l B****** DEGC l l PRI METR 33 FT AIR TEMP lB****** DEGC lB****** DEGC l

PRI METR PRECIPITATION lB****** INCH B****** INCH l i I l 1 I l MET-26 l 1

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 10:15 (IF PRIMARY TOWER RESTORED) l 1 MIN SAMPLE l 15 MIN AVG l l PRI METR TWR 33 FT WIND SPEED 4.01 M/SEC l 4.01 M/SEC BKUP METR TWR 33 FT WIND SPEED e B****** ! M/SEC lB****** e M/SEC PRI METR TWR 33 FT WIND DlR 214.00 DEGR 217.00 DEGR BKUP METR TWR 33 FT WIND DIR lB****** DEGR lB****** i DEGR PRI METR TWR 199 FT WIND SPEED 4.02 M/SEC 4.02 M/SEC l l PRI METR TWR 199 FT WIND DIR 214.00 DEGR 215.00 DEGR { l PRI METR TWR 33 FT SIGMA THETA ! 4.20 DEGR ! 4.20 DEGR BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR l Be * * * *

DEGR l l 4.42 DEGR 4.40 DEGR PRI METR TWR 199 FT SIGMA THETA l {

PRI METR TWR DIF TEMP PRI ! -0.81 DEGC ! -0.82 DEGC PRI METR TWR DIF TEMP SEC I -0.80 DEGC l -0.81 DEGC BKUP METR DIF TEMP l B* * * * *

DEGC lB****** DEGC l l PRI METR 33 FT AIR TEMP 26.04 DEGC 25.92 DEGC l {

PRI METR PRECIPITATION ! 0.45 INCH ! 0.45 INCH l l l l \ i i l MET-27

4 WATERFORD 3 ANNUAL EXERCISE JULY 12,1995

SIMULATED METEOROLOGICAL OUTPUT 4

10:30 l 1 MIN SAMPLE l 15 MIN AVG l l PRI METR TWR 33 FT WIND SPEED l 4.01 M/SEC l 4.01 M/SEC l BKUP METR TWR 33 FT WIND SPEED B****** l M/SEC l Be***** M/SEC PRI METR TWR 33 FT WIND DIR 215.00 DEGR 217.00 DEGR l BKUP METR TWR 33 FT WIND DIR i e B****** DEGR lB****** i DEGR PRI METR TWR 199 FT WIND SPEED ! 4.02 M/SEC ! 4.02 M/SEC l l PRI METR TWR 199 FT WIND DIR 214.00 DEGR 216.00 DEGR l l ^ PRI METR TWR 33 FT SIGMA THETA ! 4.19 DEGR ! 4.20 DEGR , BKUP METR TWR 33 FT SIGMA THETA l Be***** DEGR lB****** DEGR i i l PRI METR TWR 199 FT SIGMA THETA 4.43 l DEGR 4.40 DEGR l PRI METR TWR DIF TEMP PRI ! -0.81 DEGC ! -0.82 DEGC PRI METR TWR DIF TEMP SEC l -0.80 DEGC l -0.81 DEGC 1 BKUP METR DIF TEMP lB****** DEGC l Be***** DEGC l l PRI METR 33 FT AIR TEMP 26.10 DEGC 26.13 DEGC l l

PRI METR PRECIPITATION ! 0.45 INCH ! 0.45 INCH l l

'. l l i i 1 i i 4 MET-28 4

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 SIMULATED METEOROLOGICAL OUTPUT 10:45 ! 1 MIN SAMPLE 15 MIN AVG { l i i PRI METR TWR 33 FT WIND SPEED l 2.30 M/SEC l 2.24 M/SEC BKUP METR TWR 33 FT WIND SPEED M/SEC M/SEC lB****** lB****** PRI METR TWR 33 FT WIND DlR 203.00 DEGR 204.00 DEGR BKUP METR MR 33 FT WIND DIR lB****** i DEGR i lB****** e DEGR PRI METR TWR 199 FT WIND SPEED !' 2.24 M/SEC !- 2.23 M/SEC PRI METR TWR 199 FT WIND DlR 202.85 DEGR 203.00 DEGR l l PRI METR TWR 33 FT SIGMA THETA ! 4.30 DEGR ! 4.30 DEGR BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR lB****** DEGR l l PRI METR TWR 199 FT SIGMA THETA4.31 l DEGR l 4.30 DEGR 4 ' PRI METR TWR DIF TEMP PRI ! -0.50 DEGC ! -0.49 DEGC PRI METR TWR DIF TEMP SEC l -0.51 DEGC l -0.50 DEGC BKUP METR DIF TEMP lB****** DEGC lB****** DEGC l l

PRI METR 33 FT AIR TEMP 27,50 DEGC 27.48 DEGC l l PRI METR PRECIPITATION ! 0.45 INCH ! 0.45 INCH l l i i 4

s 4 i MET-29

l WATERFORD 3 ANNUAL EXERCISE l 1 1 JULY 12,1995 - l SIMULATED METEOROLOGICAL OUTPUT 11:00 I l 1 MIN SAMPLE l 16 MIN AVG l l i PRI METR TWR 33 FT WIND SPEED l 2.24 M/SEC l 2.12 WSEC BKUP METR TWR 33 FT WIND SPEED l Be***** M/SEC l B****** WSEC i l PRI METR TWR 33 FT WIND DIR 204.00 DEGR 204.05 DEGR BKUP METR TWR 33 FT WIND DIR l'Be***** i i DEGR i i i Be***** DEGR PRI METR TWR 199 FT WIND SPEED l 2.24 WSEC l 2.23 WSEC l j PRI METR TWR 199 FT WIND DlR g 202.00 DEGR 203.00 DEGR PRI METR TWR 33 FT SIGMA THETA ! 4.31 DEGR ! 4.30 DEGR BKUP METR TWR 33 FT SIGMA THETA l Be***** DEGR l B****** DEGR i i 2 PRI METR TWR 199 FT SIGMA THETA 4.30 l DEGR 4.30 DEGR l ! I I PRI METR TWR DIF TEMP PRI i -0.51 DEGC i -0.50 DEGC

' PRI METR TWR DIF TEMP SEC l -0.50 DEGC l -0.49 DEGC 2

BKUP METR DIF TEMP lB****** i DEGC l Be***** DEGC j PRI METR 33 FT AIR TEMP 27.78 DEGC 27.90 DEGC g l PRI METR PRECIPITATION 0.45 INCH 0.45 INCH l l

                                     !                   l

i i i

I i i 1 4 i i MET-30

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 11:15 l 1 MIN SAMPLE l 15 MIN AVG l l PRI METR TWR 33 FT WIND SPEED - 2.26 M/SEC l 2.25 M/SEC BKUP METR TWR 33 FT WIND ,SPEED B****** ! M/SEC l B****** M/SEC PRI METR TWR 33 FT WIND DIR 201.00 DEGR 202.00 DEGR BKUP METR TWR 33 FT WIND DlR i B****** DEGR B****** DEGR i PRI METR TWR 199 FT WIND SPEED ! 2.40 M/SEC ! 2.42 M/SEC l l PRI METR TWR 199 FT WIND DlR 202.00 DEGR 201.00 DEGR l l PRI METR TWR 33 FT SIGMA THETA ! 4.30 DEGR ! 4.30 DEGR BKUP METR TWR 33 FT SIGMA THETA l Be***** DEGR l B****** DEGR l l PRI METR TWR 199 FT SIGMA THETA 4.30 l DEGR 4.30 DEGR l PRI METR TWR DIF TEMP PRI ! -0.50 DEGC ! -0.51 DEGC PRI METR TWR DIF TEMP SEC l -0.48 DEGC l -0.50 DEGC BKUP METR DIF TEMP l Be * * * ** DEGC l Be * * * *

DEGC l l PRI METR 33 FT AIR TEMP 27.90 DEGC 27.92 DEGC l l PRI METR PRECIPITATION ! 0.45 INCH ! 0.45 INCH l l

. l l 1 1 i 4 4 I f \ MET-31 i

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 11:30 l 1 MIN SAMPLE l 15 MIN AVG l l PRI METR TWR 33 FT WIND SPEED l 2.23 M/SEC l 2.24 M/SEC BKUP METR TWR 33 FT WIND SPEED M/SEC M/SEC lB****** lB****** 1 PRI METR TWR 33 FT WIND DIR 203.00 DEGR 204.00 DEGR BKUP METR TWR 33 FT WIND DIR i I B****** DEGR lB****** DEGR i I PRI METR TWR 199 FT WIND SPEED ! 2.22 M/SEC ! 2.23 M/SEC l l PRI METR TWR 199 FT WIND DIR 202.00 DEGR 202.00 DEGR l l PRI METR TWR 33 FT SIGMA THETA ! 4.29 DEGR ! 4.30 DEGR

         ' BKUP METR TWR 33 FT SIGMA THETA l Be***** DEGR       l  B****** DEGR l                   l PRI METR TWR 199 FT SIGMA THETA          4.30 l DEGR         4.30 DEGR l

PRI METR TWR DIF TEMP PRI ! -0.48 DEGC ! -0.49 DEGC PRI METR TWR DIF TEMP SEC l -0.51 DEGC l -0.50 DEGC BKUP METR DIF TEMP lB****** DEGC lB****** DEGC PRI METR 33 FT AIR TEMP 28.03 DEGC 27.98 DEGC PRI METR PRECIPITATION ! 0.45 INCH ! 0.45 INCH l l l l L l l MET-32 l

1 , WATERFORD 3 ANNUAL EXERCISE l JULY 12,1995 - I ! I . SIMULATED METEOROLOGICAL OUTPUT J 11:45 l

1 MIN SAMPLE 15 MIN AVG l li i i PRI METR TWR 33 FT WIND SPEED l 2.24 WSEC l 2.36 WSEC BKUP METR TWR 33 FT WIND SPEED lB****** M/SEC l Be****

WSEC i l l

PRI METR TWR 33 FT WIND DIR 204.00 DEGR 203.00 DEGR BKUP METR TWR 33 FT WIND DlR lB****** DEGR I

ilB****** DEGR i PRI METR TWR 199 FT WIND SPEED ! 2.22 M/SEC ! 2.23 M/SEC

                                    $                  I

{ PRI METR TWR 199 FT WIND DIR 203.00 DEGR 202.50 DEGR l l PRI METR TWR 33 FT SIGMA THETA ! 4.30 DEGR ! 4.30 DEGR BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR lB****** DEGR ! 4.30 DEGR 4.30 DEGR ' PRI METR TWR 199 FT SIGMA THETA l l l I

PRI METR TWR DIF TEMP PRI i -0.51 DEGC i -0.50 DEGC PRI METR TWR DIF TEMP SEC l -0.52 DEGC l -0.51 DEGC BKUP METR DIF TEMP lB****** DEGC l Be ** * *

DEGC PRI METR 33 FT AIR TEMP 28.06 DEGC l 28.10 DEGC 1 l

PRI METR PRECIPITATION ! 0.45 INCH ! 0.45 INCH l 1 l l I l e MET-33

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 12:00 l 1 MIN SAMPLE l 16 MIN AVG l l PRI METR TWR 33 FT WIND SPEED l 2.24 M/SEC l 2.24 WSEC B****** l M/SEC M/SEC BKUP METR TWR 33 FT WIND SPEED lB****** I PRI METR TWR 33 FT WIND DIR 204.00 DEGR 203.00 DEGR BKUP METR TWR 33 FT WIND DlR-g i i B****** DEGR l' B *

DEGR i

i

                                                                       ****     l PRI METR TWR 199 FT WIND SPEED      !        2.24 M/SEC   !    2.23 M/SEC l                     l                    !

PRI METR TWR 199 FT WIND DIR 203.00 DEGR 203.00 DEGR l l PRI METR TWR 33 FT SIGMA THETA ! 4.30 DEGR ! 4.30 DEGR BKUP METR TWR 33 FT SIGMA THETA B******l DEGR lB****** DEGR PRI METR TWR 199 FT SIGMA THETA 4.30 DEGR 4.30 DEGR PRI METR 1WR DIF TEMP PRI ! -0.50 DEGC ! -0.49 DEGC PRI METR TWR DIF TEMP SEC l -0.51 DEGC l -0.50 DEGC BKUP METR DIF TEMP lB****** DEGC lB****** DEGC PRI METR 33 FT AIR TEMP g 28.52 DEGC 28.36 DEGC PRI METR PRECIPITATION . ! 0.45 INCH ! 0.45 INCH l l l l f 4 l 6 i 4

MET-34

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 12:15 i 4 l 1 MIN SAMPLE l 15 MIN AVG i i i PRI METR TWR 33 FT WIND SPEED l 2.24 M/SEC l 2.24 M/SEC BKUP METR TWR 33 FT WIND SPEED l B****** M/SEC lB****** M/SEC l PRI METR TWR 33 FT WIND DlR 201.00 DEGR 203.00 DEGR I BKUP METR TWR 33 FT WIND DlR i i B****** DEGR i lB****** DEGR i l I PRI METR TWR 199 FT WIND SPEED i 2.22 M/SEC i 2.23 M/SEC i l PRI METR TWR 199 FT WIND DIR 204.00 DEGR 203.00 DEGR l

 !   PRI METR TWR 33 FT SIGMA THETA      !      4.31 DEGR        !      4.30 DEGR i

BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR lB****** DEGR

 \                                       l                       l j                                              4.33 PRI METR TWR 199 FT SIGMA THETA               l DEGR        l      4.30 DEGR l                        I l     PRI METR TWR DIF TEMP PRI          i      -0.50 DEGC        i     -0.49 DEGC i   PRI METR TWR DlF TEMP SEC          l      -0.51 DEGC        l     -0.50 DEGC BKUP METR DIF TEMP                 lB****** DEGC           l   B****** DEGC
 !                                      l                       l l     PRI METR 33 FT AIR TEMP                  28.95 DEGC               28.90 DEGC l                       l i

PRI METR PRECIPITATION ! 0.45 INCH ! 0.45 INCH

 !                                      l l

i l l ! l a l l l 1 MET-35

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 12:30 I 1 MIN SAMPLE l 15 MIN AVG

                                        ,                       i PRI METR TWR 33 FT WIND SPEED     l     2.23 WSEC         l    2.15 WSEC BKUP METR TWR 33 FT WIND SPEED ,l   Bo***       WSEC lBonu WSEC PRI METR TWR 33 FT WIND DIR          204.01 DEGR             203.00 DEGR BKUP METR TWR 33 FT WIND DIR      iBono DEGR i

l BonoDEGR i i PRI METR TWR 199 FT WIND SPEED ! 2.23 WSEC ! 2.23 WSEC l l PRI METR TWR 199 FT WIND DIR 204.00 DEGR 203.00 DEGR l l j PRI METR TWR 33 FT SIGMA THETA ! 4.30 DEGR ! 4.30 DEGR 4 BKUP METR TWR 33 FT SIGMA THETA l Benen DEGR l' Bono DEGR s' s PRI METR TWR 199 FT SIGMA THETA 4.30 l DEGR 4.30 DEGR l I l PRI METR TWR DIF TEMP PRI i -0.51 DEGC i -0.50 DEGC PRI METR TWR DIF TEMP SEC l -0.51 DEGC l -0.50 DEGC BKUP METR DIF TEMP l Bona DEGC l Buon DEGC l l PRI METR 33 FT AIR TEMP 28.95 DEGC 28.98 DEGC I l l PRI METR PRECIPITATION ! 0.45 INCH ! 0.45 INCH l l l l \ l

1 l

l 4 MET-36

WATERFORD 3 ANNUAL EXERCISE

;                                      JULY 12,1995                                   -

4 1 SIMULATED METEOROLOGICAL OUTPUT , 12:45 l 1 MIN SAMPLE l 15 MIN AVG

                                           !                       I i      PRI METR TWR 33 FT WIND SPEED        l       2.25 M/SEC      l     2.24 WSEC B****** l BKUP METR TWR 33 FT WIND SPEED                      M/SEC lB****** WSEC PRI METR TWR 33 FT WIND DIR             202.00 DEGR              203.00 DEGR lBe*****

, BKUP METR TWR 33 FT WIND DIR i DEGR i B****** DEGR , i l PRI METR TWR 199 FT WIND SPEED ! 2.34 M/SEC ! 2.23 M/SEC PRI METR TWR 199 FT WIND DIR 203.00 DEGR 204.00 DEGR l l I l PRI METR TWR 33 FT SIGMA THETA 4.30 DEGR 4.30 DEGR i BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR ! B****** DEGR 1 l l 4.28 DEGR 4.30 DEGR

PRI METR TWR 199 FT SIGMA THETA l l

! I I PRI METR TWR DIF TEMP PRI -0.48 DEGC i -0.49 DEGC i PRI METR TWR DIF TEMP SEC l -0.50 DEGC l -0.50 DEGC . BKUP METR DIF TEMP l B* * * * *

DEGC l Be***** DEGC l 1 l l \

j PRI METR 33 FT AIR TEMP 29.04 DEGC 29.12 DEGC l l PRI METR PRECIPITATION l 0.45 INCH 0.45 INCH l I l l l l 1 r 4 l 1 MET-37 l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 13:00 l 1 MIN SAMPLE l 15 MIN AVG

                                                   !                  l PRI METR TWR 33 FT WIND SPEED       l     2.24 M/SEC   l    2.05 WSEC BKUP METR TWR 33 FT WIND SPEED lB****** WSEC     lB******    WSEC PRI METR TWR 33 FT WIND DIR            202.00 DEGR        203.00 DEGR BKUP METR TWR 33 FT WIND DIR       lB******

i i DEGR i i B****** DEGR PRI METR TWR 199 FT WIND SPEED ! 2.23 M/SEC ! 2.24 WSEC l l PRI METR TWR 199 FT WIND DIR 203.00 DEGR 204.00 DEGR l l PRI METR TWR 33 FT SIGMA THETA ! 4.29 DEGR ! 4.30 DEGR BKUP METR TWR 33 FT SIGMA THETA B******l DEGR lB****** DEGR PRI METR TWR 199 FT SIGMA THETA 4.27 DEGR 4.30 DEGR PRI METR TWR DIF TEMP PRI ! -0.50 DEGC ! -0.49 DEGC PRI METR TWR DIF TEMP SEC l -0.51 DEGC l -0.50 DEGC BKUP METR DIF TEMP l B****** DEGC lB****** DEGC l ! PRI METR 33 FT AIR TEMP 29.45 DEGC 29.36 DEGC l l PRI METR PRECIPITATION ! 0.45 INCH ! 0.45 INCH l l l l MET-38

WATERFORD 3 ANNUAL EXERCISE i JULY 12,1995 - SlMULATED METEOROLOGICAL OUTPUT 13:15 i

l 1 MIN SAMPLE l 15 MIN AVG l l PRI METR TWR 33 FT WIND SPEED l 2.24 M/SEC l 2.24 M/SEC

BKUP METR TWR 33 FT WIND SPEED M/SEC M/SEC 4

lB****** i lB****** l PRI METR TWR 33 FT WIND DIR 203.56 DEGR ; 203.00 DEGR 1 BKUP METR TWR 33 FT WIND DIR l i e B* * * *DEGR** i a B****** DEGR l 1 ! PRI METR TWR 199 FT WIND SPEED 2.23 M/SEC 2.23 M/SEC l j PRI METR TWR 199 FT WIND DIR 203.00 DEGR 203.00 DEGR PRI METR TWR 33 FT SIGMA THETA ! 4.30 DEGR ! 4.30 DEGR BKUP METR TWR 33 FT SIGMA THETA I B****** DEGR lB****** DEGR l l l 4.30 DEGR 4.30 DEGR PRI METR TWR 199 FT SIGMA THETA l l PRI METR TWR DIF TEMP PRI ! -0.49 DEGC ! -0.49 CEGC PRI METR TWR DIF TEMP SEC l -0.50 DEGC l -0.50 DEGC i; BKUP METR DIF TEMP DEGC lB****** lB****** DEGC I PRI METR 33 FT AIR TEMP 30.42 DEGC 30.48 DEGC PRI METR PRECIPITATION ! 0.45 INCH ! 0.45 INCH i l, l, f 1 s MET-39 4

J WATERFORD 3 ANNUAL EXERCISE i JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 13:30

!                                                   l  1 MIN SAMPLE       l   15 MIN AVG V                                                  l                     l t

PRI METR TWR 33 FT WIND SPEED l 2.24 M/SEC l 2.30 WSEC B****** l M/SEC M/SEC BKUP METR TWR 33 FT WIND SPEED lB****** I PRI METR TWR 33 FT WIND DIR 203.00 DEGR 203.00 DEGR BKUP METR TWR 33 FT WIND DlR lB****** i I DEGR lB****** DEGR I I PRI METR TWR 199 FT WIND SPEED ! 2.24 M/SEC ! 2.24 M/SEC l l

PRI METR TWR 199 FT WIND DIR 203.04 DEGR 202.95 DEGR l l PRI METR TWR 33 FT SIGMA THETA ! 4.30 DEGR ! 4.30 DEGR j

BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR lB****** DEGR l l j 4.30 PRI METR TWR 199 FT SIGMA THETA l DEGR l 4.30 DEGR I l 4 PRI METR TWR DIF TEMP PRI i -0.52 DEGC -0.49 DEGC PRI METR TWR DIF TEMP SEC l -0.51 DEGC l -0.50 DEGC 1 BKUP METR DIF TEMP lB****** DEGC l' Be * ** *

DEGC PRI METR 33 FT AIR TEMP l

g 30.85 DEGC 30.98 DEGC PRI METR PRECIPITATION. f 0.45 INCH 0.45 INCH l . , l J f MET-40

WATERFORD 3 ANNUAL EXERCISE ): JULY 12,1995 - SIMULATED METEOROLOGICAL OUTPUT 4 13:45 i l 1 MIN SAMPLE l 15 MIN AVG l l 3 PRI METR TWR 33 FT WIND SPEED l 2.23 M/SEC ' l 2.12 WSEC B****** WSEC lB****** M/SEC BKUP METR TWR 33 FT WIND SPEED l l PRI METR TWR 33 FT WIND DlR 202.00 DEGR 203.00 DEGR BKUP METR TWR 33 FT WIND DIR B****** DEGR l i B****** DEGR l i PRI METR TWR 199 FT WIND SPEED ! 2.23 M/SEC ! 2.23 M/SEC

l l PRI METR TWR 199 FT WIND DIR 203.40 DEGR 203.00 DEGR l l PRI METR TWR 33 FT SIGMA THETA ! 4.30 DEGR ! 4.30 DEGR i

BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR lB****** DEGR PRI METR TWR 199 FT SIGMA THETA 4.30 l DEGR 4.30 DEGR l PRI METR TWR DIF TEMP PRI ! -0.49 DEGC ! -0.50 DEGC PRI METR TWR DIF TEMP SEC l -0.49 DEGC l -0.51 DEGC BKUP METR DIF TEMP lB****** DEGC lB****** DEGC l l l l 1 i PRI METR 33 FT AIR TEMP 31.62 DEGC 31.88 DEGC l l l PRI METR PRECIPITATION !' 0.45 INCH ! 0.45 INCH i l l i i i 1 l l i 6 + MET-41

A WATERFORD 3 ANNUAL EXERCISE 3 JULY 12,1995 - f- SIMULATED METEOROLOGICAL OUTPUT 14:00 - END j i l 1 MIN SAMPLE l 15 MIN AVG l l PRI METR TWR 33 FT WIND SPEED l 2.24 M/SEC l 2.24 M/SEC BKUP METR TWR 33 FT WIND SPEED l B****** M/SEC l B****** M/SEC l l PRI METR TWR 33 FT WIND DIR 204.00 DEGR 203.00 DEGR l BKUP METR TWR 33 FT WIND DIR lB****** DEGR i i lB****** DEGR i i PRI METR TWR 199 FT WIND SPEED l 2.22 M/SEC 2.23 M/SEC l l PRI METR TWR 199 FT WIND DIR 203.21 DEGR 203.01 DEGR l

!     PRI METR TWR 33 FT SIGMA THETA       !      4.30 DEGR      !       4.30 DEGR

! BKUP METR TWR 33 FT SIGMA THETA l B****** DEGR l B****** DEGR I I 4.30 DEGR 4.30 DEGR I PRI METR TWR 199 FT SIGMA THETA l l

I I PRI METR TWR DIF TEMP PRI: -0.50 DEGC -0.49 DEGC I

PRI METR TWR DIF TEMP SEC l -0.51 DEGC i -0.50 DEGC BKUP METR DIF TEMP lB****** DEGC DEGC 4 ' lBe***** l PRI METR 33 FT AIR TEMP 33.84 DEGC 34.01 DEGC g PRI METR PRECIPITATION 0.45 INCH 0.45 INCH l l , I i j ' i , j 1 i i l MET-42 i c vv-

WATERFORD 3 ANNUAL EXERCISE i JULY 12,1995 - l BASIS FOR THE RADIOLOGICAL PORTION OF THE EXERCISE The following assumptions have been made for the calculation of the onsite and offsite data i for the 1995 Waterford 3 Annual Exercise. The data has been prepared to meet the overall i objectives of the exercise. 1 The wind' direction is initially assumed to be blowing from approximately 250 degrees at 10

;            miles per hour.

4 At 08:00 am, the weather is very unstable with wind speed of 30 MPH at the site boundary. A j tornado touches down in the owner controlled area and damages both meteorological towers. ! After approximately 30 minutes, the wind speed decreases to 10 MPH. There is no release of radioactive materials during this period of weather disturbance. 4 At approximately 8:30 am, conditions change from atmospheric stability class B to stability . class C and then settle at stability class D at 10:45. The weather conditions will remain at ! i stability class D with winds out of the south southwest (from 203 degrees) at a speed of 5 l ) miles per hour for the remainder of the exercise. , After the shaft seizure event, the RCS activity is assumed to remain constant for the remainder of the exercise. At 10:30 am, the primary leakage into containment, during the first 30 1 minutes, is assumed to be at a rate of 500 gallons per minute (gpm), then changes to 1000 j gpm for the remainder of the exercise. We assumed a TEDE dose factor of 9.68E+05 and a j !' CDE dose factor of 2.96E+08 with an iodine to noble gas ratio equal to 3.89E-02 ( these l , values are obtained from EP-002-050 for a LOCA with cladding barrier failure and with containment. spray available). When the radioactive release begins, the plant stack radiation i i monitor goes into high alarm. At 12:00, a release rate of 58.80 Cl/sec was calculated and the j

dose assessment, based on plant stack monitor readings or field sample data, will result in a 3,357 mrom/hr TEDE dose rate and 39932 mrem /hr CDE dose rate at the EAB. Also, the CDE i thyroid dose rate was calculated to be 601 mrem /hr at 10 miles. This exceeds the values for a l General Emergency emergency classification (EP-001-001, Initiating Condition A/GE/l). !

! The onsite data is provided at distances from 100 to 1000 feet from the source of the release t ' with an elevated beta / gamma dose rate due to shine from the plume passing overhead. The data was developed with the use of a computerized model and is consistent with other data in j the scenario for various sample point locations within the 10 mile emergency planning zone. The plume will pass over the Administration Building, but does not touch down untilit reaches the river levee (800 feet), dose rates will be elevated in the Administration Building and are i provided in the package. d i ONSITE-1 i

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WATERFORD 3 ANNUAL EXERCISE r JULY 12,1995 - ONSITE RADIOLOGICAL DATA 10:45 TO 15:00 4 l 4 i l l i L

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k I m rgency Preoaredness Dritt

NRC EXERCISE FOR 1995

   . j                             .1ULY 12 1995
                        *rill Constants

, Air Samote Duration-8 Minutes a Air Samote Flow Rate

2 CFM Air Sancto Voltme - 16 ft'3 Instrument 0/C - 17 Dose Equivalent lodine Factor - 1.4 CDE Thyrted Conversion factor 0.0207 Meteorology Chosen Wina $tability Cat g ry D.

dinosoew - 2.235 meters per secona Wind from - 203 Distances in'- 8eet 4 Dose Factors a: Lease Rate in Curles per second - .0000001 iEDE Dose Factor - 960000 CDE Dose factor - 2.96E+08 lodine to Noble Gas Ratio - .0389

                        $lte of Reteese and Duration

^ $lte of Retesse PLANT STACK flee at Which Release Occurs 12:00 Mt 4 5 s 4 I t

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4 6 - JJ Emergency Prepareaness Dritt NRC EXERCISE FOR 1995

                                                      ;ULY 12 1995 Onsite and Nearst'te Radiological Data 10:45 12:00 PM Closea Window Meter Reading in W/hr Downwind Distances in Feet.

Distance off Center 100 200 300 400 500 600 700 B00 900 1000 100 - 0 0 0 0 0 0 0 0 0 0 90 - 0 0 0 0 0 0 0 0 0 0 G0 - 0 0 0 0 0 0 0 0 0 0 70 - 0 0 0 0 0 0 0 0 0 0 60 - 0 0 0 0 0 0 0 0 0 0 50 - 0 0 0 0 0 0 0 0 0 0 60 - 0 0 0 0 0 0 0 0 0 0 30 - 0 0 0 0 0 0 0 0 0 0 20 - 0 0 0 0 0 0 0 0 0 0 10 - 0 0 0 0 0 0 0 0 0 0 Center - 0 0 0 0 0 0 0 0 0 0 10 - 0 0 0 0 0 0 0 0 0 0 20 - 0 0 0 0 0 0 0 0 0 0 30 - 0 0 0 0 0 0 0 0 0 0 60 - 0 0 0 0 0 0 0 0 0 0 50 - 0 0 0 0 0 0 0 0 0 0 60 - 0 0 0 0 0 0 0 0 0 0 M - 0 0 0 0 0 0 0 0 0 0 80 - 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1@D 0 0 0 0 0 0 0 0 0 0 IF ANY VALUE ABOVE GREATER THAN MAXMy READING, REPORT OFFSCALE READING INSTRUMENT MAXIM READING = 50,000 mR/hr (i.e. 50 R/hr) IF ANY VALUE A80VE LESS THAN MINittal READING, REPORT BACKGROUND READING INSTRtaqENT MINIIR34 READING = 0.2 sa/hr i

Emergency Preparooness Drill NRC EXERCISE FOR 1995

                                                         .iutY 12 1995 Onsite and hearsite Radiological Data 10:45 - 12:00 at Open Window Meter Reading in mit/hr Downwind Distances in Feet.

Olstance off Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 0 0 0 0 0 0 0 0 90 - 0 0 0 0 0 0 0 0 0 0 80 - 0 0 0 0 0 0 0 0 0 0 70 - 0 0 0 0 0 0 0 0 0 0 60 -

0. 0 0 0 0 0 0 0 0 0 50 -

0 0 0 0 0 0 C 0 0 0 40 - 0 0 0 0 0 0 0 0 0 0 30 - 0 0 0 0 0 0 0 0 0 0 20 - 0 0 0 0 0 0 0 0 0 0 10 - 0 0 0 0 0 0 0 0 0 0 Center - 0 0 0 0 0 0 0 0 0 0 10 - 0 0 0 0 0 0 0 0 0 0 20 - 0 0 0 0 0 0 0 0 0 0 30 - 0 0 0 0 0 0 0 0 0 0 40 - 0 0 0 0 0 0 0 0 0 0 50 - 0 0 0 0 0 0 0 0 0 0 60 - 0 0 0 0 0 0 0 0 0 0 M - 0 0 0 0 0 0 0 0 0 0 l 80 - 0 0 0 0 0 0 0 0 0 0 W . 0 0 0 0 0 0 0 0 0 0 l l 1 00 . 0 0 0 0 0 l 0 0 0 0 0 IF ANY VALUE A80VE GREATER TNAN MAXIIRJN READlWG, REPORT OFFSCALE READING INSTRUNENT MAXIIRSI READIN = 50,000 mR/hr (i.e. 50 R/hr) IF ANY VALUE AaovE LESS THAN MINiltal RE40!M, REPORT BACKGROUND READING INSTRUMENT MINIIRM READING = 0.2 mR/hr l

I 1 i Emergency Preparedness Drill NRC EXERCISE for 1995 July 121995 l l Onsite and Nearsite Radiological Data 10:45 - 12:00 PM Results Reported in Gross CPM for lodine Samples 4 ' Olstance Downwind Distances in Feet. off Center 100 200 300 400 500 600 700 800 900 1000

100- 100 100 100 100 100 100 100 100 100 100
90 - 100 100 100 100 100 100 100 100 100 100 80 - 100 100 100 100 100 100 100 100 100 100 70 - 100 100 100 100 100 100 100 100 100 100 60 - 100 100 100 100 100 100 100 100 100 100 4

50 - 100 100 100 100 100 100 100 100 100 100 l 40- 100 100 100 100 100 100 100 100 100 100 30 - 100 100 100 100 100 100 100 100 100 100 20- 100 100 100 100 100 100 100 100 100 100 { 10- 100 100 100 100 100 100 100 100 100 100 l Center - 100 100 100 100 100 100 100 100 100 100 10- 100 100 100 100 100 100 100 100 100 100 l 20- 100 100 100 100 100 109 100 100 100 100 30 - 100 100 100 100 100 100 100 100 100 100 40 - 100 100 100 100 100 100 100 100 100 100 I 50 - 100 100 100 100 100 100 100 100 100 100 60 - 100 100 100 100 100 100 100 100

,                                                                                                                      100   100 70 -   100      100       100     100             100    100  100       100 t                                                                                                                       100   100 80 -   100      100       100     100            100     100  100       100  100   100 00 -   100      100       100     100            100     100  100       100  100   100

, 100 - 100 100 100 100 100 100 100 100 100 100 i Background Samples Count Rates are: 100 - 300 cpm (Gross). LM-12 Maximum Reeding is 500,000 cpm (Gross). 4

a.

                                                                                                          - 1 Emergency Prepareoness Dritt NRC EXERCISE FOR 1995 WLY 12 1995 l

Onsite and Nearsite RadiologlCat Data 12:00 NOON Closed Window Meter Reading in ad/hr Downwind Distances in Feet.

off Center 100 200 300 400 500 600 700 800 900 1000 j 100 - 0 0 14 587 3129 7800 17133 19358 15233 12288 90 - 0 3 63 1958 5632 15600 19036 19358 15233 12288 1 80 - 0 14 104 3525 11264 17334 19036 19358 15233 12288 + l 70 - 1 23 348 7050 12515 17334 19036 19358 15233 12288 60 5 78 626 7833 12515 17334 19036 19358 15233 12288 2 50 - 9 140 1251 7833 12515 17334 19036 19358 15233 12288 40 - 30 279 1391 7833 12515 17334 19036 19358 15233 12288 30 - 54 310 1391 7833 12515 17334 19036 19358 15233 12288 i 20 - 108 310 1391 7833 12515 17334 19036 19358 15233 12288 ! l 10 - 120 310 1391 7833 12515 17334 19036 19358 15233 12288 l l Center - 120 310 1391 7833 12515 17334 19036 19358 15233 12288 10 - 120 310 1391 7833 12515 17334 19036 19358 15233 12288 20 - 108 310 1391 7833 12515 17334 19036 19358 15233 12288 30 - 54 310 1391 7833 12515 17334 19036 19358 15233 12288 . 40 - 30 279 1391 7833 12515 17334 19036 19358 15233 12288 50 - 9 140 1251 7833 12515 17334 19036 19358 15233 12288 60 - 5 78 626 7833 12515 17334 19036 19358 15233 12288 70 - 1 23 348 7050 12515 17334 19036 19358 15233 12288 80 - 0 14 104 3525 11264 17334 19036 t 19358 15233 12288 93 - 0 3 63 1958 5632 15600 19036 19358 15233 12288 T 100 - 0 0 14 587 3129 7800 19036 19358 15233 12288 IF ANY VALUE A80VE GREATER THAN MAXIMUM READl H REPORT OFFSCALE READI M

,      INSTRUMENT MAXIMUM READING = 50,000 aft /hr (i.e. 50 R/hr)

IF ANY VALUE A80VE LESS THAN MINIORat READI M , REPORT SACKGt0UND READI N INSTRUMENT MINIMUM READIK3 = 0.2 set /hr i

l l l Emergency Distance off Center 0 0 0 3 0 14 104 1 23 348 5 78 626 9 140 30 279 54 310 108 310 1391 120 310 1391 Center - 120 310 1391 108 310 1391 54 310 1391 30 279 1391 9 140 60 - 5 78 626 23 348 1 7050 12515 0 14 0 3 0 0 IF ANY VALUE l l Preparedness Drill NRC EXERCISE FOR 1995 JULY 12 1995 Onsite and Nearsite Radiological Data 12:00 NOON Open Window Meter Reading in nd/hr Downwind Distances in Feet. 100 200 300 400 500 600 700 800 900 1000 100 - 14 587 3129 7800 17133 25165 19803 15974 90 - 63 1958 5632 15600 19036 25165 19803 15974 SO - 3525 11264 17334 19036 25165 19803 15974 70 - 7050 12515 17334 19036 25165 19803 15974 60 - 7833 12515 17334 19036 25165 19803 15974 50 - 7833 12515 1251 17334 19036 25165 19803 15974 40 - 1391 7833 12515 17334 19036 25165 19803 15974 30 - 1391 7833 12515 17334 19036 25165 19803 15974 20 - 7833 12515 17334 19036 25165 19803 15974 10 - 7833 12515 17334 19036 25165 19803 15974 l 120 310 1391 7833 12515 17334 19036 25165 19803 15974 i 10 - 7833 12515 17334 19036 25165 19803 15974 20 - 7833 12515 17334 19036 25165 19803 15974 30 - 7833 12515 17334 19036 25165 19803 15974 40 - 7833 12515 17334 19036 251A5 19803 15974 i 50 - l 1251 7833 12515 17334 19036 25165 19803 15974 l l 7833 12515 17334 19036 25165 19803 15974 70 - 17334 19036 25165 19803 15974 80 - 104 3525 11264 17334 19n36 25165 19803 15974 90 - 63 1958 5632 15600 19036 25165 19803 15974 100 - 14 587 3129 7800 19036 25165 19803 15974 IF ANY VALUE A80VE GREATER THAN MAXIMLM READING, REPORT OFFSCALE READING INSTRLMENT MAXIMUM READING . 50,000 ast/hr (i.e. 50 R/hr) ABOWE LESS TNAN MINIMJM READING, REPORT BACKGROUND READING INSTRtMENT MINIMLM READING e 0.2 set /hr i t

Emergency Preparedness Drill NRC EXERCISE for 1995 July 121996 OnSite and NearSite Radiological Data 12:00 PM Results Reported in Gross CPM for lodine Samples 04 stance Downwind Distances in Feet.

  ,0ff Center    100  200     300     400      500    600     700        800           900         '1000 100 - 100    100     100     100      100    100     100 OnScale High OffScale High OffScale High 90 - 100    100     100     100     100     100     100 OnScale High OffScale High OffScale High 80 - 100    100    100      100     100     100     100 OffScale High ONScale High OffScale High 70 -  100   100    100     100      100     100     100 OffScale High OffScale High OffScale High 60 -  100   100    100     100      100     100     100 OMScale High OffScale High OffSceae High 50 -  100   100    100     100      100     100     100 ONScale High OffScale High OffScale High 40 -  100   100    100     100      100     100     100 OffScale High ONScale High OffScale H6gh 30 -  100   100    100     100      100     100     100 ONScale High OMScale High ONScale High 20 -  100   100    100     100      100    100     100 OffScale High OffScale High OffScale High 10-   100   100    100     100      100    100      100 OffScale High ONScale High OffScale High

. Center - 100 100 100 100 100 100 100 OffSces. High OnScale High OffScale High 10- 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 20 - 100 100 100 100 100 100 100 OffScale High Offreale High OffScala High 30 - 100 100 100 100 100 100 100 OnScale Higt O.fScale High OffScale High I 40 - 100 100 100 100 100 100 100 OffScale High CNScale High OffScale High 50 - 100 100 100 100 100 l 100 100 OnScale High OMScene High OffScale High to - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High l 70 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 40 - 100 100 100 100 100 100 100 OffScale High OnScale High OffScale High

90 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 100 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High Background Samples Count Rates are: 100- 300 cpm (Gross).

l LM-12 Maximum Reading is 500,000 cpm (Gross).

Emergency Precareoness Dritt NRC EXERCISE FOR 1995

                                                       .ULY 12 1995 Onsite and Nearsite Radiological Data 12:15 PM Closed Window Meter Reading in N /hr Downwind Distances in Feet.

Distance off Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 13 567 3017 7522 16522 18668 14690 11850 90 - 0 3 60 1888 5431 15045 18358 18668 14690 11850 80 - 0 13 101 3399 10862 16716 18358 18668 14690 11850 70 - 1 22 335 6798 12069 16716 18*58 '8668 14690 11850 60 - 5 75 603 7554 12069 16716 18358 18668 14690 11850 50 - 9 135 1207 7554 12069 16716 18358 18668 14690 11850 40 - 29 269 1341 7554 12069 16716 18358 18668 14690 11850 30 - 52 299 1341 7554 12069 16716 18358 18668 14690 11850 20 - 104 299 1341 7554 12069 16716 18358 18666 14690 11850 to - 116 299 1341 7554 12069 16716 18358 18668 14690 11850 Center - 116 299 1341 7554 12069 16716 18358 18668 14690 11850 10 - 116 299 1341 7554 12069 16716 18358 18668 14490 11850 20 - 104 299 1341 7554 12069 16716 18358 18668 14690 11850 30 - 52 299 1341 7554 12069 16716 18358 18668 146M 11850 40 - 29 269 1341 7554 12069 16716 18358 18668 14690 11850 50 - 9 135 1207 7554 12069 16716 18358 18668 14690 11850 60 - 5 75 603 7554 12069 16716 18358 18666 14690 11850 70 - 1 22 335 6798 12069 16716 18358 18668 14690 11850 80 - 0 13 101 3399 10862 16716 18358 18666 14690 11850 90 - 0 3 60 1888 5431 15045 18358 18668 14690 11850 100 - 0 0 13 567 3017 7522 18358 18668 14690 11850 t IF ANT VALUE A80VE GREATER THAN MAXIMUM READING, REPORT OFFSCALE READING tWSTRuqENT max! MUM READlWG = 50,000 sa/hr (f.e. 50 R/hr) IF ANY VALUE A80VE LESS . NAN MINilRJM READING, REPORT 8ACKGROUND READING INSTRWIENT MIN! MUM READING = 0.2 sR/hr t

i l 1 Emergency Preparedness Ortl1 s NRC EXERCISE FOR 1995 Jut.Y 12 1995 I t onsite ano nearsite Radiological Data 12:15 PM Open Window Neter Reading in Mt/hr l' Downwind Distances in Feet. Ofstance off Center 100 200 300 400 500 600 700 800 900 1000

   ........................................................................................................       1 100     -

0 0 13 567 3017 7522 16522 19097 24268 15405 1

90 - 0 3 60 1888 5431 15045 18358 24268 19097 15405 80 -

0 13 101 3399 10862 16716 18358 24268 19097 15405 70 - 1 22 335 6798 12069 16716 18358 24268 19097 15405 60 - 5 75 603 7554 12069 16716 18358 24268 19097 15405 50 - 9 135 1207 7554 12069 16716 18358 19097 24268 15405 40 - 29 269 1341 7554 12069 16716 18354 24268 19097 15405 30 - 52 299 1341 7554 12069 16716 18358 24268 19097 15405 20 - 104 299 1341 7554 12069 16716 18358 24268 19097 15405 10 - 116 299 1341 7554 12069 16716 18358 19097 24268 15405

Center - 116 .299 1341 7554 12069 16716 18358 24268 19097 15405 10 -

116 299 1 1341 7554 12069 16716 18358 24268 19097 15405 1 20 - 104 299 1341 7554 12069 16716 18358 24268 19097 15405 30 - 52 299 1341 7554 12069 16716 18358 24268 19097 15405 40 - 29 269 7554 12069 1341 16716 18358 24268 19097 15405 i 50 - 9 135 1207 7554 12069 16716 18358 24268 19097 15405 ! 60 - 5 75 603 7554 12069 16716 18:58 24268 19097 15405

I 70 -

22 1 335 6796 12069 16716 18354 24268 19097 15405 l 80 - 0 13 101 3399 10862 16716 18358 24268 19097 15405 90 - 0 3 60 1888 5431 15045 18358 24268 19097 15405 100 - 0 0 567 13 3017 7522 18354 24268 19097 15405 IF ANY VALUE ABOIE GREATER TNAN MAXIltal REA0lM, REPORT OFFSCALE READING INSTat#ENT MAX 18481 READlIIe a 50,000 mm/hr (f.e. 50 t/hr) IF ANY VALUE A80WE LESS TNAN filNINLSI READING, REPORT SACK 000lAs READIl1G 3 Ill8TRLMENT NINiltal READING e 0.2 sa/hr j

i 4 i 4 Emergency Preparedness Drill

!                                                 NRC EXERCISE for 1998 i                                                              July 121996 j

i

,                                           Onsite and Nearsite Radiological Data 12:15 PM

[ Results Reported in Gross CPM for lodine Samples i Distance Downwind Distances in Feet. Off Center 100 200 300 400 500 600 700 800 900 1000 i 1 100 - 100 100 100 100 100 100 100 OMScale High OMScale High ONScais H6gh i 90 - 100 100 100 100 100 100 100 OnScene High ONScale High ONScale High l 80 - 100 100 100 100 100 100 100 ONScale High OMScale High OMScale High j 70 - 100 100 100 100 100 100 100 OnScale High OnScale High ONScale High i j 80 - 100 100 100 100 100 100 100 OnScale High OnSale High O# Scene High i 50 - 100 100 100 100 100 100 100 OnScale High OnScale High OMScale High I j 40 - 100 100 100 100 100 100 100 OnScale High OnScale High ONScais High

. 30 - 100 100 100 100 100 100 100 ONScale High OnScale H6gh ONScale High !
20 - 100 100 100 100 100 100 100 ONScale High ONScale High OMScale High l

10- 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High

Center - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale H@
10- 100 100 100 100 100 100 100 ONScale High ONScaio High ONScale High 20 - 100 100 100 100 100 100 100 OnScene High OnSeele High OnScene High a

30 - 100 100 100 100 100 } 100 100 ONScale High ONScale High OnScale High 40 - 100 100 100 100 100 100 100 OnScale High onScene High OnScene High 50 - 100 100 100 100 100 100 100 ONSceio High ONScale High OnScale High i 60 - 100 100 100 100 100 100 100 OnSeele High onSces.High OnScene High i 70 - 100 100 100 100 100 100 100 onScale High ONScale High ORScale High i j 80 - 100 100 100 100 100 100 100 ONScale High OMScale High OMScale High j 90 - 100 100 100 100 100 100 100 OnScene High OnScene High OnScale High 100 - 100 100 100 100 100 100 100 OnScene High OffScene High OnScene High 4 , Background Samples Count Rates are: 100 - 300 cpm (Gross). LM 12 Maximum Reading is 500,000 cpm (Gross). i I I

l t

Emergency Preoareoness Dritt NRC EXERCISE FOR 1995 JULY 12 1995 Onsite and Nearsite Radiological Data 12:30 PM Closed Window Meter Reading in at/hr Downwind Distances in Feet. Distance l off Center 4 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 13 561 2990 7454 16373 18500 14558 11743 90 - 0 60 3 1871 5382 14909 18192 18500 14558 11743 80 - 0 13 100 3369 10764 16565 18192 18500 14558 11743 70 - 1 22 332 6737 11960 16565 181W 18500 14558 11743 60 - 5 74 598 7486 11960 16565 18192 18500 14558 11743 50 - 9 133 1196 7486 11960 16565 18192 18500 14558 11743 40 - 29 267 1329 7486 11960 16565 18192 18500 14558 11743 30 -

                       $2      297    1329     7486 11960 16565         18192   18500   14558    11743 20     -

104 297 1329 7486 11960 16565 18192 18500 14558 11743 i 10 - 115 297 1329 7486 11960 16565 18192 18500 14558 11743 l Center - 115 297 1329 7486 11960 16565 18192 18500 14558 11743 10 - 115. 297 1329 7486 11960 16565 18192 18500 14558 11743 20 - 104 297 1329 7486 11960 16565 18192 18500 14558 11743 30 - 52 297 1329 7486 11960 16565 18192 18500 14558 11743 40 - 29 267 1329 7486 11960 16565 18192 18500 14558 11743 50 - 9 133 1196 7486 11960 16565 18192 18500 14558 11743 . 60 - 5 74 $98 7486 11960 16565 18192 18500 14558 11743 70 - 1 22 332 6737 11960 l 16565 18192 18500 14558 11743 80 - 0 13 100 3369 10764 16565 18192 18500 14558 11743 90 - 0 3 60 1871 5382 14909 18192 18500 14558 11743 100 - 0 0 13 561 2990 7454 18192 18500 14558 11743 IF ANT VALUE A80VE GREATER THAN MAXI M READIM , REPORT OFFSCALE READI M INSTRUMENT MAxlMLat READIM = 50,000 aft /hr (i.e. 50 R/hr) IF ANY VALUE ABOWE LESS THAN MINIM REA0!M, REPORT BACKGROUM READIM INSTRUMENT MINIMUM READI M a 0.2 sit /hr

Emergency Preparooness Dritt NRC EXERCISE FOR 1995 JULY 12 1995 Onsite and Nearsite Radiological Data 12:30 PM Open Window Meter Reading in nWt/hr Downw;nd Distances in Feet. Olstance off Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 13 561 2990 7454 16373 24050 18925 15266 90 - 0 3 60 1871 5382 14909 18192 24050 18925 15266 80 - 0 13 100 3369 10764 16565 18192 24050 18925 15266 70 - 1 22 332 6737 11960 16565 18192 24050 18925 15266 60 - 5 74 598 7486 11960 16565 18192 24050 18925 15266 50 - 9 133 1196 7486 11960 16565 18192 24050 18925 15266 40 - 29 267 1329 7486 11960 16565 18192 24050 18925 15266 30 - 52 297 1329 7486 11960 16565 18192 24050 18925 15266 20 - 104 297 1329 7486 11960 16545 18192 24050 18925 152M to - 115 297 1329 7486 11960 16565 18192 24050 18925 15266 1 center - 115 .297 1329 7486 11960 16565 18192 24050 18925 15266 ! 10 - 115 297 1329 7486 11960 16565 18192 24050 18925 15266 20 - 104 297 1329 7486 11960 16565 18192 24050 18925 15266 30 - 52 297 1329 7486 11960 16565 18192 24050 18925 15266 40 - 29 267 1329 7486 11960 16565 1 18192 24050 18925 15266 50 - 9 133 1196 7486 11960 16545 18192 24050 18925 15266 60 - 5 74 598 7486 11960 16565 18192 24050 18925 15266 70 - 1 22 332 6737 11960 16565 18192 24050 18925 15266 80 - 0 13 100 3369 10764 16565 18192 24050 18925 15266 90 - 0 3 60 1871 5382 14909 18192 24050 18925 15266 100 - 0 0 13 561 2990 7454 18192 24050 18925 15266 IF ANY VALUE A80VE GREATER THAN MAXIMUM READING, REPORT OFFSCALE READING INSTRLMENT MAXINLM READING = 50,000 sit /hr (f.e. 50 R/hr) l IF ANY VALUE A80VE LESS TNAN MIN 18tm READING, REPORT SAC % GROUND READING INSTRUMENT MINIMLM READING e 0.2 aft /hr l l

_ - _ . . - .- - - . . .. . . . . . ~ l - i l Emergency Preparedness Drill NRC EXERCISE for 1996 July 121996 1 i )i Onsite and Nearsite Radiological Data

;                                                                                                            12:30 PM Results Reported in Gross CPM for lodine Samples i

01 stance Downwind Distances in Feet. Off Center 100 200 300 400 500 600 700 800 900 1000 i

100 - 100 100 100 100 100 100 100 O# Scan. High O# Scene High OnScei. H.gh 90 - 100 100 100 100 100 100 100 ONScene High O# Scale Hegh Or* Scale High 80 - 100 100 100 100 100 100 100 ONScale Hagh O# Scale High O ScaleHigh
70- 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High i

. 40 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 60 - 100 100 100 100 100 100 100 ONScale High OMScale High ONScene High . 40 - 100 100 100 100 100 100 100 ONSceie High OMScale High ONScale High 30 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 4 20 - 100 100 100 100 100 100 100 O# Scene High ONScale High ONScale High 10 - 100 100 100 100 100 100 100 OMScale High ONScais High ONScale High Center - 100 100 100 100 100 100 100 ONScale High ON$cale High OMScale High 10- 100 100 100 100 100 100 100 O# Scale High ONScale High ONScale High 20 - 100 100 100 100 100 100 100 O# Scale High ONScale H@ ONScale High 30 - 100 100 100 100 100 100 100 ONScene High CNScale High C# Scale High 40 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale Hign 60 - 100 100 100 100 100 100 100 ONScale High ONScale High O# Scale High 40 - 100 100 100 100 100 100 100 O# Scale High ONScale High O# Scale High 70- 100 100 100 100 100 100 100 ONScale High C# Scale High ONScene High 40 - 100 100 100 100 100 100 100 ONSeele High OMSces. High ONScase High 90 - 100. 100 100 100 100 100 100 ONScale High ONScale High O# Scale High 100 - 100 100 100 100 100 100 100 ONScale High ONScale High OfSeele High Background Samples Count Rates are: 100 - 300 cpm (Gross). ! LM-12 Maximum Readin0 is 500,000 cpm (Gross).

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

i Emergency Preparedness ort ll M C EXERCISE FOR 1995 JULY 12 1995 Onsite and Nearsite Radiological Data , 12:45 Closed Window Meter Reading in sWtAr Downwind Distances in feet.

+       Oistance off Center        100     200      300       400      500         600     700    800         900    1000 100     -

0 0 15 642 3421 8528 .18730 21163 16654 13434 i 90 - 0 3 68 2141 6157 17055 20812 21163 16654 13434 80 - 0 15 114 3854 12314 18951 20812 21163 16654 13434 i 70

1 25 380 7707 13682 18951 20812 21163 16654 13434 60 -

6 85 684 8563 13682 18951 20812 21163 16654 13434 ?

           $0     -

10 153 1368 8563 13682 18951 20812 21163 16654 13434 40 - 33 305 1520 8563 13682 18951 20812 21163 16654 13434 30 - 59 339 1520 8563 13682 18951 20812 21163 16654 13434 20 - 118 339 1520 8563 13682 18951 20812 21163 16654 13434 10 - 132 339 1520 8563 13682 18951 20812 21163 16654 13434 Center - 132 339 1520 8563 13682 18951 20812 21163 16654 13434 i 10 - 132- 339 1520 8563 13682 18951 20812 21163 16654 13434 20 - 118 339 1520 8563 13682 18951 20812 21163 16654 13434 30 - 59 339 1520 8563 13682 18951 20812 { 21163 16654 13434 40 - 33 305 1520 8563 13682 18951 20812 21163 16654 13434 50 - 10 153 1368 8563 13482 18951 20812 21163 16654 13434 60 - 6 85 684 8563 13682 18951 20812 21163 16654 13434 70 - 25 380 1 7707 13682 18951 20812 21163 16654 13434 l 80 - 0 15 114 3854 12314 18951 20812 21163 16654 13434 90 - 0 3 68 2141 6157 17055 20812 21163 16654 13434 100 - 0 0 15 642 3421 8528 20812 21163 16654 13434 ' IF ANY VALUE A80VE GREATER THAN MAXiltm READIM, REPORT OFFSCALE READIM INsimseNT MAXIMUM READING = 50,000 mR/hr (i.e.-50 R/hr) IF ANY VALUE A80WE LESS TMAN MINiitst READIM, REPORT 8ACKGROUND READIM INSTRLMENT MININUM READIN = 0.2 ma/hr 1

i l - l Emergency Preparedness Orill ' l NRC EXERCISE FOR 1995 ' JULY 12 1995 Onsite ard Nearsite Radiological Data 12:45 Open Window Meter Reading in nWt/hr Downwind Distances in Feet. Oistance off Center 100 200 300 400 500 600 700 800 900 1000 i 100 - 0 0 15 642 3421 8528 18730 27512 21650 17464 90 - 0 3 68 2141 6157 17055 20812 27512 21650 174M 80 - 0 15 114 3854 12314 18951 20812 27512 21650 17464 70 - 1 25 380 7707 13682 18951 20812 21650 17464 27512

60 -

6 85 684 8563 13682 18951 20812 27512 21650 17464 50 - 10 153 1368 8563 13682 18951 20812 27512 17464 21650 40 - 33 305 1520 8563 13682 18951 20812 27512 21650 17464

30 -

59 339 1520 8563 13682 18951 20812 27512 21650 17464 20 - 118 339 1520 8563 13682 18951 20812 27512 21650 17464 to - 132 339 1520 8563 13682 18951 20812 27512 21650 17464 center - 132 339 1520 8563 13682 18951 20812 27512 21650 17464 10 - 132- 339 1520 8563 13682 18951 20812 27512 21650 17464 20 - 118 339 1520 8563 13682 18951 20812 27512 21650 17464 30 - 59 339 1520 8563 13682 18951 20812 27512 21650 17464 40 - 33 305 1 1520 8563 13682 18951 20812 27512 21650 17464 50 - 10 153 1368 8563 13682 18951 20812 27512 21650 17464 60 - 6 85 684 8563 13682 18951 20812 27512 21650 17464 70 - 25 380 1 7707 13682 18951 20812 27512 21650 17464 80 -

                           -0       15    114     3854 12314        18951 20812    27512  21650   17464 90    -

0 3 68 2141 6157 17055 20812 27512 21650 17464 100 + 0 0 15 642 3421 8528 20812 27512 21650 17464 IF ANY VALUE A80VE GREATER TNAN M4xlMUM READING, REPORT OFFSCALE REA0!NG INSTRUMENT MAxtitM READIN = 50,000 aft /hr (f.e. 50 R/hr) IF ANY VALUE A80WE LESS TMAN MINil4JM READIN, REPORT BACKGROUW READIM INSTRUMENT MINIMUM READI N a 0.2 sdt/hr 1

4 .d 4 4 1 . e 9 , Emergency Preparedness Drill NRC EXERCISE for 1996 4 July 121995 i OnSite and NearSite Radiological Data J 12:45 PM Results Reported in Gross CPM for lodine Samples Distance Downwind Distances in Feet. I off Center 100 200 300 400 500 600 700 800 900 1000 l l l l 100 - 100 100 100 100 100 100 100 OMScale High OffScale High OffScale High l 90 - 100 100 100 100 100 100 100 ONScale Hsgh OMScale High OffScale High 80 - 100 100 100 100 100 100 100 OnScene High OffScale High OffScale High 70- 100 100 100 100 100 100 100 OnScale High OnScene High ONScale High { 60 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 50 - 100 100 100 100 100 100 100 OfrSeele High OMScale High ONScale High l 40 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High j 30 - 100 100 100 100 100 100 100 OwScene High OnScale High ONScale High

20 - 100 100 100 100 100 100 100 ONScale High OffScale High ONScale High l

10- 100 100 100 100 100 100 100 onScene High OffScale Hsgh OffScale High Center - 100 100 100 100 100 100 100 OnSesie High OffScale High OffScale High { t 10- 100 100 100 100 100 100 100 OffScene High ONScale High OffScale High 20 - 100 100 100 100 100 100 100 OMScale High OtiScene High OffScale High 30 - 100 100 100 100 100 100 100 ONScale High OMScale High OffScale High 40 - 100 100 100 100 100 100 100 offSeeie High OffScene High OffScale High 50 - 100 100 100 100 100 100 100 OffScale High offScale High OW3cale High ! 60 - 100 100 100 100 100 100 100 off$cene High OMScale High OffScale High . 70 - 100 100 100 100 100 100 100 ONScale High ONScale High OffScale High 80 - 100 100 100 100 100 100 100 onscene High OnSces. High OnScene High j 90 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 100 - 100 100 100 100 100 100 100 OfrScale High OffScale High OffScale High Background Samples Count Rates are: 100 - 300 cpm (gross). LM-12 Maximum Reading iS 500,000 cpm (gross). 4

Emergency Prepareaness oriti NRC EXERCI5E FOR 1995

,                                                     JJLY 121995 Onsite and Nearsite Radiological Data
                                                  *3:00 PM Closed Window Meter Reading in ed/hr Downutnd Distances in Feet.

Olstance s off Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 17 727 3873 9656 21208 23 % 2 18856 15210 90 - 0 4 77 2424 6971 19311 23564 23962 18856 15210 80 - 0 17 129 4363 13943 21457 23564 23962 18856 15210 70 - 1 29 430 8726 15492 21457 23564 18856 23962 15210 60 - 7 96 775 96 % 15492 21457 23 W 23962 18856 15210 50 - 11 1 73 1549 9696 15492 21457 23 W 23962 18856 15210 40 - 37 346 1721 9696 15492 21457 23564 18856 23962 15210 30 - 67 384 1721 9696 15492 21457 23 W 23962 18856 15210 20 - 134 384 1721 9696 15492 21457 23 W 23962 18854 15210 to - 149 384 1721 9696 15492 21457 23544 23962 18856 15210 Center . 149 384 1721 9696 15492 21457 23564 23962 18856 15210 to - 149 . 384 1721 9696 15492 21457 23 W 23962 18854 15210 20 - 134 384 1721 9696 15492 21457 23564 23962 18856 15210 30 - 67 384 1721 96 % 15492 21457 23564 23962 18856 15210 i 40 - 37 346 1721 9696 15492 21457 23564 23962 18856 15210 50 - 11 173 1549 % 96 15492 21457 23564 23962 18856 15210 60 - 7 96 775 96 % 15492 21457 23 W 23962 18856 15210 70 - 29 430 + 1 8726 15492 21457 23 W 23962 18856 15210 80 - 0 17 129 4363 13943 21457 23 W 23962 18856 15210 90 - 0 4 77 2424 6971 19311 23 W 23962 18856 15210 100 - 0 0 17 727 i 3873 9656 23544 23962 18856 15210 IF ANY VALUE A80VE GREATER THAN MAXIMUM READIM, REPORT OFFSCALE REA0!M INSTRtMENT MAXIItst READIM e 50,000 mR/hr (f.e. 50 R/hr) IF ANY VALUE A80VE LESS TNAN MIN!Itst REA0!M, REPORT 8ACKGROUND READIM INSTRUMENT MINIMUM READIM = 0.2 sA/hr

Emergency Prepareaness Dritt NRC EXERCISE FOR 1995 NLY 12 1995 Onsite and Nearsite Radiological Data 13:00 PM Open Window Meter Reading in mR/hr Downwind Olstances in Feet. Distance off Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 17 727 3873 9656 21208 31151 24513 19773 90 - 0 4 77 2424 6971 19311 23564 31151 24513 19773 80 - 0 17 129 4363 13943 21457 23564 31151 24513 19773 70 - 1 29 430 8726 15492 21457 23564 31151 24513 19773 60 - 7 96 775 96 % 15492 21457 23564 31151 24513 19773 50 - 11 1 73 1549 96 % 15492 21457 23564 31151 24513 19773 40 - 37 346 1721 9696 15492 21457 235M 31151 24513 19773 + 30 - 67 344 1721 9696 15492 21457 23564 31151 24513 19773 20 - 134 384 1721 9696 15492 21457 23564 31151 24513 19773 10 - 149 384 1721 9696 15492 21457 235M 31151 24513 19773 Center - 149 384 1721 9696 15492 '21457 235M 31151 24513 19773 10 - 149 384 1721 9696 15492 21457 23544 31151 24513 19773 20 - 134 384 1721 9696 15492 21457 23564 31151 24513 19773 30 - 67 384 1721 9696 15492 21457 23564 31151 24513 19773 40 - 37 346 1721 9696 15492 21457 23564 31151 24513 19773 50 - 11 173 1549 9696 15492 21457 23564 31151 24513 19773 60 - 7 % 775 9696 15492 21457 23564 31151 24513 19773 70 - 1 29 430 8726 15492 21457 23564 31151 24513 19773 i 80 - 0 17 129 4363 13943 21457 23564 31151 24513 19773 90 - 0 4 77 2424 6971 19311 23564 31151 24513 19773 100 - 0 0 17 727 3873 % 56 23564 31151 24513 19773 IF ANY VALUE A80VE GREATER THAN MAX!MLM READING, REPORT OFFSCALE READING

         !NSTRLMENT MAX 18RM READING = 50,000 ma/hr d .e. 50 R/hr)

IF ANY VALUE A80VE LESS THAN MININUM READING, REPORT SACKGROUND READ:NG INSTRLMENT MINIMJM READING = 0.2 mR/hr

4 Emergency Preparedness Drill NRC EXERCISE for 1995 July 121995 Onsite and Nearsite Radiological Data 13:00 PM Results Reported in Gross CPM for lodine Samples olstance Downwind Distances in Feet. Off Center 100 200 300 400 500 600 700 800 900 1000 100 - 100 100 100 100 100 100 100 OffScale High OffScale Hgh OffScale High 90 - 100 100 100 100 100 100 100 OffScale High OffScale Hgh OffScale High 80 - 100 100 100 100 100 100 100 OnSces. High OffScale High OffScale High 70 - 100 100 100 100 100 100 100 OnScale High OffScale High OffScale High 60 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 50- 100 100 100 100 100 100 100 OnScale High OffScale High OffScale High 40 - 100 100 100 100 100 100 100 OffScale High ONScale High OffScale High 30 - 100 100 100 100 100 100 100 OnScale High OffScale High OffScale High 20- 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High l I 10- 100 100 100 100 100 100 100 OffScale High OffScrh High OffScale High Center - 100 100 100 100 100 100 100 OnScale High OffScale High OMScale High 10- 100 100 100 100 100 100 100 OnScale High OffScale High OMScale High 20- 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High j 30 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 40 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High a 50 - 100 100 100 100 100 100 100 OnScale High OffScale High OffScale High 60 - 100 100 100 100 100 100 100 OffScale High OnScale High OffScale High 70- 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 80 - 100 100 100 100 100 100 100 OnScale High OffScale High OffScale High 90 - 100 100 100 100 100 100 100 OMScale High OffScale High OffScale High 100 - 100 100 100 100 100 100 _ 100 OffScale High OffScale High OffScale High l Background Samples Count Rates are: 100 - 300 cpm (Gross). i LM-12 Maximum Reading is 500,000 cpm (Gross). 4

b i Emergency Precareoness Orlll NRC EXERCISE FOR 1995

                                                           .uLY 12 1995 Onsite and Nearsite Radiological Data 13:15 PM Closed Window Meter Reading in niR/hr Downwind Distances in Feet.

Distance off Center 100 200 300 400 500 600 700 800 900 1000

,          100     -

0 0 18 753 4012 10001 21967 24820 19532 15735 90 - 0 4 80 2511 7221 20003 24408 24820 19532 15755 80 - 0 18 134 4519 14442 22225 24408 24820 19532 15755 70

2 30 446 9039 16047 22225 24408 24820 19532 15755

            $0     -

7 99 802 10043 16047 22225 24408 24820 19532 15735 50 - 12 179 1605 10043 16047 22225 24408 24820 19532 15755 40 - 39 358 1783 10043 16047 22225 24408 24820 19532 15755 30 - 69 398 1783 10043 16047 22225 24408 24820 19532 15755 20 - 139 396 1783 10043 16047 22225 24408 24820 19532 15755 to - 154 396 1783 10043 16047 22225 24403 24820 19532 15755 1783 10043 16047 22225 24408 4 center - 154 398 24820 19532 15755 10 - 154 396 1783 10043 16047 22225 24408 24820 19532 15755 20 - 139 398 1783 10043 16047 22225 24408 24820 19532 15755 30 - 69 398 1783 10043 16047 22225 24408 24820 19532 15755 40 - 39 358 1783 10043 16047 22225 24408 24820 19532 15755 50 - 12 179 1605 10043 16047 22225 24408 24820 19532 15755 60 - 7 99 802 10043 16047 22225 24408 24820 19532 15755 70 - 2 30 446 9039 16047 22225 24408 24820 19532 15755 80 - 0 18 134 4519 14442 22225 24408 24820 19532 15755

         . 90    -

0 4 80 2511 7221 20003 24408 24820 19532 15755 100 - 0 0 18 753 4012 10001 24408 24820 19532 15755 IF ANY VALUE A80VE GREATER THAN MAXIMUM READING, REPORT OFFSCALE READING j INSTRUMENT MAxlIRJM READING = 50,000 eft /hr (i.e.~ 50 R/hr) IF ANY VALUE ABOVE LESS THAN MINilRAI READING, REPORT SACKGROUND READING l INSTRUMENT MINIMUM REA0!NG = 0.2 sit /hr i l 1 e

Emergency Propereaness Drill NRC EXERCISE FOR 1995 JULY 12 1995 Onsite and Nearsite Radiologicat Data 13:15 PM Open Window Meter Reading in ed/hr Downwind Distances in Feet. Ofstance off Center 100 200 300 400 500 600 700 800 900 1000

100 - 0 0 18 753 4012 10001 21967 32266 25391 20482 90 .

0 4 80 2511 7221 20003 24408 32266 25391 20482 , 50 - ' O 18 134 4519 14442 22225 24408 32266 25391 20482 70 - 2 30 446 9039 16047 22225 24408 32266 25391 20482 60 . 7 99 802 10043 16047 22225 24408 32266 25391 20482 50 . 12 179 1605 10043 16047 22225 24408 32266 25391 20482 40 - 39 358 1783 10043 16047 22225 24408 322M 25391 20482 , 30- - 69 398 1783 10043 16047 22225 24408 322M 25391 20482 4 20 . 139 398 1783 10043 16047 22225 24408 322M 25391 20482 10 . 154 398 1783 10043 16047 22225 24408 322M 25391 20482 center . 154 398 1783 10043 16047 22225 24408 322M 25391 20482 10 - 154. 398 1783 10043 16047 22225 24408 322M 25391 20482 20 - 139 398 1783 10043 16047 22225 24408 322M l 25391 20482 30 . 69 398 1783 10043 16047 22225 24408 32266 25391 20482 40 - 39 358 1783 10043 16047 22225 24408 322M 25391 20482 50 - 12 179 1605 10043 16047 22225 24408 322M 25391 20482 60 . 7 99 802 10043 16047 22225 24408 322M 25391 20482 70 . 2 30 446 9039 16047 22225 24408 322M 25391 20482 80 . 0 18 134 4519 14442 22225 24408 322M 25391 20442 90 . 0 4 80 2511 7221 20003 24408 322M 25391 20482 l 1 100 . 0 0 18 753 4012 10001 24408 32266 25391 20482 IF ANY VALUE A80VE GREATER THAN MAXIMLN REA0!NO, REPORT OFFSCALE REA0 LNG f INSTRtmENT MAXIMUM REA0l M = 50,000 a8/hr (i.e. 50 R/hr) IF ANY VALUE A80VE LESS THAN MININLM REA0!M, REPORT macreanne agActu INSTRUMENT MINilRM REA0!M e 0.2 sA/hr f

l l 4 Emergency Preparedness Drill ! NRC EXERCISE for 1995 I

 ;                                           July 121998 i

1 i OnSite and NearSite Radiological Data I 13:15 PM 4 Results Reported in Gross CPM for lodine Samples oletance Downwind Distances in Feet. I

;     Off Center   100  200      300     400      500    600     700        800          900         1000            l 100 -  100  100      100     100      100     100     100 OnScale High ONScale High ONScale High 90 -  100  100      100     100      100    100      100 OnScale High ONScale High ONScale High 4

j 80 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 70 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 60 - 100 100 100 100 100 100 100 O#seale High ONScale High ONScale High a 50 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High l 40 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High i 30 - 100 100 100 100 100 100 100 ONScale High OhScale High ONScale High 4 20 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 10- 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High Center - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 10 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High ) 20 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 30- 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 40 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 50 - 100 103 100 100 100 100 100 ONScale High ONScale High ONScale High 60 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 70 - 100 100 100 100 100 100 100 ONSce:e High ONSmie High ONScale High 1 80 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 90 - 100 100 100 100 100 100 100 ONScale High ON$cale High ONScale High 100 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High Background Samples Count Rates are: 100 - 300 cptn (gross). LM-12 Maximum Reading is 500,000 cpm (Gross).

Emergency Precarem ess Drill 4 NRC EXERCISE

                                                         ..LY 12 1995 Onsite and Nearsite Radiological Data 13:30 PM Closed Window Meter Reading in mR/hr Dowwind Olstances in Feet.

Distanca off Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 18 779 4150 10347 22727 25678 20207 16300 90 - 0 4 83 2598 7471 20694 25252 25678 20207 16300 80 - 0 19 138 I

 ;                                                 4676      f4941  22994 25252      25678    20207     16300 70    -

2 31 461 9351 16601 22994 25252 25678 20207 16300 60 - 7 103 830 10390 16601 22994 25252 25678 20207 16300 l 50 - 12 185 1660 10390 16601 22994 25252 25678 20207 16300 40 - 40 370 1845 10390 16601 22994 25252 25678 2'0207 16300 30 - 72 412 1845 10390 16601 22994 25252 25678 20207 16300 20 - 144 412 1845 10390 16601 22994 25252 25678 20207 16300 to - 160 412 1845 10390 16601 22994 25252 25678 20207 16300 Center - 160 412 1845 10390 16601 22994 25252 2567G 20207 16300 to - 160 412 1845 10390 16601 22994 25252 25478 20207 16300 20 - 144 412 1845 10390 16601 22994 25252 25678 20207 16300 30 - 72 412 1845 10390 16601 22994 25252 25678 20207 16300 40 - 40 370 1845 10390 16601 22994 25252 25678 20207 16300 50 - 12 185 1660 10390 16601 22994 25252 25678 20207 16300 60 - 7 103 830 10390 16601 22994 25252 25678 20207 16300 70 - 2 31 461 9351 16601 22994 25252 25678 20207 16300 80 - 0 19 138 4676 14941 22994 25252 25678 20207 16300 90 - 0 4 83 , 2598 7471 20694 25252 25678 20207 16300 100 - 0 0 18 779 4150 10347 25252 25678 20207 16300 IF ANY VALUE A80VE GREATER TMAN MAXIMUM READIN1, REPORT OFFSCALE READING i INSTRUMENT MAXIIeJM READING a 50,000 eft /hr (1.e. 50 R/hr) IF ANT VALUE A40VE LESS THAN MIMllem READING, REPORT BACKGROUND READING INSTRUMENT MINIltm READING = 0.2 sdt/hr

Emergency Preparooness Orill NRC EXERCist

                                                       .ULY 12 1995 Onsite and Nearsite Radiological Data 13:30 PM Open Window Meter Reading in mR/hr Downwind Olstances in Feet.

Distance off Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 18 779 4150 10347 22727 33382 26269 21190 10 - 3 4 83 2598 7471 20694 25252 33382 26269 21190 20 - 0 19 138 4676 14941 22994 25252 33382 26269 21190 70 - 31 461 9351 2 16601 22994 25252 33382 26269 21190 60 - 7 103 830 10390 16601 22994 25252 33382 26269 21190

         '!0     -

12 185 1660 10390 16601 22994 25252 33382 26269 21190 40 - 40 370 1845 10390 16601 22994 25252 33382 26269 21190 30 - 72 412 1845 10390 16601 229% 25252 33382 26269 21190 20 - 144 412 1845 10390 16601 229M 25252 33382 26269 21190 10 - 160 412 1845 10390 16601 22994 25252 33382 26269 21190 center - 160 412 1845 10390 16601 22994 25252 33382 26269 21190 10 - 160 412 1845 10390 16601 229% 25252 33382 26269 21190 20 - 144 412 1845 10390 16401 22994 25252 33382 26269 21190 30 - 72 412 1845 10390 16601 22994 25252 33382 26269 21' 40 - 40 370 1845 10390 16601 22994 25252 33382 26269 2119u 50 - 12 185 1660 10390 16601 22994 25252 33382 26269 21190 60 - 7 103 830 10390 16601 22994 25252 33382 26269 21190 70 - 2 31 461 9351 16601 22994 25252 33382 26269 21190 80 - 0 19 138 4676 14941 22994 25252 33382 26269 21190 90 - 0 4 83 2596 7471 20694 25252 33382 26269 21190 100 - 0 0 18 779 4150 10347 25252 33382 26269 21190 IF ANY VALUE A80VE GREATER THAN MAXI M READING, REPORT OFFECALE READING INSTRUMENT MAXIM REAclM = 50,000 mR/hr (i.e. 50 R/hr) 1F ANY VALUE A80WE LESS THAN MINIM READING, REPORT 8ACKGROUW READING INST M ENT NINI M READING = 0.2 mR/hr

f l l 1 Emer0ency Preparedness Drill NRC EXERCISE for 1995 July 121995 l I OnSite and NearSite Radiological Data 1 13:30 PM

Results Reported in Gross CPM for lodine Samples Distance Downwind Distances in Feat. Off Center 100 200 300 400 500 600 700 800 900 1000 100 - 100 100 100 100 100 100 100 OffScale High ONScale High ONScale High 90 - 100 100 100 100 100 100 100 ONScale High OffScale High OffScale High 80 - 100 100 100 100 100 100 100 OMScale High ONScale High OMScale High 70- 100 100 100 100 100 100 100 OMscale High ONScais High OffScene High 60 - 100 100 100 100 100 100 100 OffScek High OffScale High OMScale High 50 - 100 100 100 100 100 100 100 ONScais High OMScale High OffScale High 1 40 - 100 100 100 100 100 100 100 ONScale High OffScale High OffScale High l 30 - 100 100 100 100 100 100 100 OMScale High ONScale High OffScale High 20 - 100 100 100 100 100 100 100 ONScale High OffScale High ONScene High 10- 100 100 100 100 100 100 100 OMScale High OMScale High ON$ceh High l Center - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 10- 100 100 100 100 100 100 100 OffScale High OffScale High OffSceit High 20 - 100 100 100 100 100 100 100 ONScene High OffScale High OffScale High 30 - 100 100 100 100 100 100 100 ONScale High ONScale High ONSceh High 40 - 100 100 100 100 100 100 100 ONScan High oMScale High OMScale High 50 - 100 100 100 100 100 100 100 OMScale High OffScale High ONScale High 60 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 70 - 100 100 100 100 100 100 100 OMScale High OffScais High OffScale High 40 - 100 100 100 100 100 100 100 ONScale High ONScale High OffScale High 90 - 100 100 100 100 100 100 100 Off$ cele High OffScale High ONSceneHign l 100 - 100 100 100 100 100 100 100 Off$cene High OffSeele High OffScale High Background Samples Count Rates are: 100 - 300 cpm (Gross). LM 12 Maximum Reading is 500,000 cpm (Gross).

t l . (mergency Preparemess Ortll NRC EXERCISE FOR 1995

                                                                                                                                                                                       ;ULY 12 1995 Onstte and Nearsite Radiological Data 13:45 PM Closed Window Meter Reading in mR/hr Downwind Distances in Feet.

Distance off Center 100 200 300 400 500 600 700 800 90 1000 100 - 0 0 ................ 0 20 842 4486 11185 24567 2m8 21843 17620 90 - 0 4 90 2808 8076 22370 27297 2m8 21843 17620 80 - 0 20 150 5054 16151 24856 27297 2m8 21843 17620 70 - 2 33 498 10109 17946 24856 27297 27758 21843 17620 60 - 8 111 897 11232 17946 24856 27297 2m8 21843 17620 50 - 13 200 1795 11232 17946 24856 27297 2m8 21843 17620 40 - 43 400 1994 11232 17946 24856 27297 2m8 21843 17620 30 - 78 445 1994 11232 179 4 24456 27297 27758 21843 17620 l i 20 - 155 445 i 1994 11232 17946 24454 27297 2m8 21843 17620 1 10 - 1 73 445 1994 11232 17946 24856 27297 2m8 21843 17620 Center - 1 73 ,445 1994 11232 179 4 24856 27297 2T758 21843 17620 10 - 1 73 445 1994 11232 179 4 24856 27297 27758 21843 17620 20 - 155 445 1994 11232 17946 24856 27297 27758 21843 17620 i 30 - 78 445 1994 11232 17946 24856 27297 2m8 21843 17620 40 - 43 400 1994 11232 17946 24856 27297 27758 21843 17620 50 - 13 200 1795 11232 154 24856 27297 2T758 21843 17620 60 - 8 lii 897 11232 1 %i 24856 27297 27758 21843 17620 70 - 2 33 498 10109 1M4 24856 27297 27758 21843 17620 80 - 0 20 150 5054 16151 24854 27297 27158 21843 17620 90 - 0 4 90 2808 8076 22370 27297 2T758 21843 17620 100 - 0 0 20 842 4486 11185 27297 27758 21843 17620 lf ANY val,UE ABOVE GREATER THAN MAXIM READING, REPORT OFFSCALE READING INSTRlmENT MAXIMlm READING = 50,000 mR/hr (f.e. 50 R/hr) IF ANY VALUE ABOVE LESS TMAN MINilem READING, REPORT BACKGROUND READING INSTRUMENT MINIMUM READING = 0.2 udt/hr l 1 l i l l

1 r l L l Emergency Preparedness Drill l l NRC EXERCISE FOR 1995 ' JULY 12 1995 Onsite and Nearsite Radiologital Data 13:45 PM Coen Window Meter ReedlM, 14 mR/hr Downwind Distances in feet. Olstance off Center 100 200 300 400 500 600 700 a00 900 1000 100 - 0 0 20 842 4486 11185 24567 36085 283 % 22906 ; 90 - I 0 4 90 2808 8076 22370 27297 36085 28396 22906 1 80 - 0 20 150 5054 16151 24856 27297 36085 28396 22906 70 - 2 33 498 10109 17946 24856 27297 36085 28396 22906 60 - 8 111 597 11232 17946 24856 27297 36085 28396 22906 50 - 13 200 1795 11232 17946 24856 27297 28396 36085 22906 40 - 43 400 1904 11232 17946 24856 27297 36085 283 % 22906 30 - 78 445 1994 11232 179 4 24854 27297 36085 28396 22906 20 - 155 445 1994 11232 17946 24856 27297 36085 28396 22906 10 - 445 1 73 1994 11232 1794 24856 27297 36085 28396 22906 center - 1 73 445 1994 11232 179 4 '4856 27297 2 36085 28396 22906 10 - 445 1 73 - 1994 11232 1794 24456 27297 36085 283 % 22906 20 - 445 155 1994 11232 179 4 24856 27297 36085 28396 22906 30 - 78 445 1994 11232 17946 24856 27297 36085 283 % 22906 40 43 400 1994 11232 1794 24856 27297 36085 283 % 22906

50 - 13 200 1795 11232 179 4 24856 27297 36085 28396 22906 60 - 8 111 897 11232 17946 24856 27297 36085 28396 22906 70 - 33 2 498 10109 17946 24856 27297 36085 28396 22906 80 - 0 20 150 5054 16151 24856 27297 36085 28396 22906 90 - 0 4 90 2808 8076 22370 27297 34085 28396 22906 100 - 0 0 20 842 4486 11185 27297 36085 28396 22906

                                                                    !F ANY VALUE A80VE GREATER THAN MAXI M READING, REPORT OFFSCALE READING INSTRtMENT MAXIM READING = 50,000 se/hr (i.e. 50 R/hr)

IF ANY VALUE ABOVE LESS THAN MINIM READING, REPORT ammen READING INSTRUMENT MINIM READING = 0.2 mR/hr I l l l l I

i Emergency Preparedness Drill l NRC EXERCISE for 1995 l July 121995 OnSite and NearSite Radiological Data 13:45 PM Results Reported in Gross CPM for lodine Samples Distance Downwind Distances in Feet. Off Center 100 200 300 400 505 600 700 800 900 1000 100 - 100 100 100 100 100 100 100 OffScale High OffScale High ONScale High l 90 - 100 100 100 100 100 100 100 OffScale Hgh OffScale High OffScale High I l 1 80 - 100 100 100 100 100 100 100 OnScale High OnScale Hgh Offscale High 70 - 100 100 100 100 100 100 100 OffScess High OffScale High OnScale High 60- 100 100 100 100 100 100 100 OnScale High OnScale High ONScale High I 50- 100 100 100 100 100 100 100 OnScale High OffScale High OffScale High , 40 - 100 100 100 100 100 100 100 OnScale High OffScaie High OnScale High 30- 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 20 - 100 100 100 100 100 100 100 OnScale High OnScale High OffScale High 10- 100 100 100 100 100 100 100 OnScale High OffScale High OnScale High 5 Center - 100 100 100 100 100 100 100 OffScale High OffScale Hgh ONScale High 10- 100 100 100 100 100 100 100 OffScale High OffScale High OffScale Hgh

70 - 100 100 100 100 100 100 100 OnScale High OffScale High OffScale High 30 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 40 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 50 - 100 100 100 100 100 100 100 OfrScale High OffScale High OffScale High 60 - 100 100 100 100 100 100 100 OnScale High OffScale High ONScale High 70 - 100 100 100 100 100 100 100 anScale High OffScale High OffScale High 80 - 100 100 100 100 100 100 100 OnScale High OffScale High Offscale Hegh
90 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 100 - 100 100 100 100 100 100 100 Off$cale High OffScale High OffScale High Background Samples Count Rates are: 100 - 300 cpm (Gross).
LM-12 Maximum Reading iS 500,000 cpm (gross).

4 ) ] Emergency Prepareoness Drill NRC EXERCISE Foa 1995

                                                        .ULY 12 1995 Onsite and Nearsite Radiologicat Data 14:00 PM

, Closed Window Meter Reading in mR/hr 1 Downwind Distances in Feet. Distance off Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 21 905 4823 12023 26407 29837 23479 18940 90 - 0 5 96 3018 8681 24046 29341 29837 23479 18940 SO 0 22 ;9837 161 5433 17361 26718 29341 23479 18940 "O - 2 36 536 10866 19290 26718 29341 ??837 23479 18940 60 - S 120 964 12073 19290 26718 29341 29837 23479 18940 10 - 14 215 1929 12073 19290 26718 29341 '837 23479 18940 l 40 - 46 430 2143 12073 19290 26718 29341 29837 23479 18940 t 1 30 - 83 478 2143 12073 19290 26718 29341 29837 23479 18940 l I 30 - 167 478 2143 12073 19290 26718 29341 29837 23479 6 940 10 - 186 478 2143 12073 19290 26718 29341 29837 23479 18940 Center - 186 478 2143 12073 19290 26718 29341 29837 23479 18940 10 -

186 478 2143 12073 19290 26718 29341 29837 23479 1894J 20 -

167 478 2143 12073 19290 26718 29341 29837 23479 189d l 30 - 83 478 2143 12073 19290 26718 29341 29837 23479 18940 40 - 46 430 2143 12073 19290 26718 29341 29837 23479 18940 50

14 215 1929 120?'. >9290 26718 29341 29837 23479 18940 1

60 - 8 120 964 12073 19290 26718 29341 29837 23479 18940 l 70 - 2 36 c 536 10866 19290 26718 29341 29837 23479 18940 ! 80 - 0 22 161 5433 17361 26718 29341 29837 23479 18940

90 - 0 5 % 3018 8681 24046 29341 29837 23479 18940 J 100 - 0 0 21 905 4823 12023 29341 29837 23479 18940 17 ANY VALUE A80VE GREATER THAN MAXINel READING, REPCMT OFFSCALE READING INSTRUNifMT MAXIMUM READING = 5C,000 aft /hr (f.e. 50 R/hr) IF ANY VALUE A80WE LESS THAN MINIIRat READING, REPORT SACKGROUIS READING INSTRUMENT MINIIRat READING = 0.2 mR/hr k

Emergency Propersoness Drill NRC EXERCl5E foR 1995

                                                                      .ULY 12 1995 Onsite and Nearsite Radiological Data 14:00 PM Open Window Meter Reading in mR/hr Downwind Distences in feet.

Olstance orf Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 21 905 4823 12023 26407 30523 38788 24622 90 - 0 5 96 3018 24046 29341 8681 38M8 30523 24622 80 - 0 22 161 5433 17361 26718 29341 38788 30523 24622 70 - 2 36 536 10E46 19290 26718 29341 38788 30523 24622 60 - 8 120 964 12073 19290 26718 29341 38788 30523 24622 50 - 14 215 1929 12073 19290 26718 29341 38788 30523 24622 40 - 46 430 2143 12073 19290 26718 29341 38788 30523 24622 30 - 83 478 2143 12073 19290 26718 29341 38788 30523 24622 20 - 167 478 2143 12073 19290 26718 29341 38738 30523 24422 10 - 186 478 2143 12073 192$0 26718 29341 38738 30523 24622 Center - 186 478 2143 12073 19290 26718 29341 38788 30523 24622 10 - 186 478 2143 12073 19290 26718 29341 38788 30523 24622 20 - 167 478 2143 12073 19290 26718 29341 38788 30523 24622 30 - 83 478 2143 12073 19290 26718 29341 38788 30523 24622 40 . 46 430 2143 12073 19290 26718 29341 38788 30523 24622 50 - 14 215 1929 12073 19290 26718 29341 . 38788 30523 24622 j 60 - 8 120 964 12073 19290 26718 29341 38788 30523 24622 70 - 34 1 2 536 10866 19290 26718 29341 38788 30523 24622 l 80 - 0 22 161 5433 17361 26718 29341 38788 30523 24622 90 - 0 5 96 3018 8681 24046 29341 38785 30'23 24422 { 100 . 0 0 21 905 4823 12023 29341 38788 30523 24622 IF ANY VALUE A80WE GREATER THAN MAXIMUM READlH, AEPORT OFFSCALE READING INSTRUMENT MAX 11881 READit!G = 50,000 sit /hr (f.e. 50 R/hr) IF ANY VALUE A80WE LESS TNAN MININLSI REA0lHG, REPORT narrannam RgADiese INSTRLMENT MIN!lekt READING = 0.2 set /hr 1

Emergency Preparedness Drill NRC EXERCISE for 1995 July 121995 OnSite and Nearsite Radiological Data 14:00 PM Results Reported in Gross CPM for lodine Samples Distance Downwind Distances in Feet.

. Off Center    100  200     300     400       500    600     700        800           900           1000 4

l 100 - 100 100 100 100 100 100 100 OnScale Hgh OnScale Hgh OffScale High 90 - 100 100 100 100 100 100 100 OnScale High OnScale High OffScale H:gh i 80 - 100 100 100 100 100 100 100 OnScale High OnScale High OffScale High 70 - 100 100 100 100 100 100 100 ONScale High OffScale High OffScale High j 60 - 100 100 100 100 100 100 100 OWScale High ONScale High ONScale High 3 50 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High j 40 - 100 100 100 100 100 100 100 OffScale High ONScale High OffScale High 30 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 20 - 100 100 100 100 100 100 100 ONScale High OnScale Hgh OffScale High 10- 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High l Center - 100 100 100 100 100 100 100 OnScale High OffScale Hgh OffScale High l 10- 100 100 100 100 100 100 100 OnScale High OffScale High OffScale Hgh 20 - 100 100 100 100 100 100 100 OMScale High OffScale High OffScale High 30 - 100 100 100 100 100 100 100 OnScale Hlgh OffScale High OffScale High

40 - 100 100 100 100 100 100 100 OnScale High OffScale High OffScale High 50 - 100 100 100 100 100 100 100 Onscale Hign OnScale High OffScale High 60 - 100 100 100 100 100 100 100 OnScale High OnScale High OffScale High 70 - 100 100 100 100 100 100 100 OffScale High OffSemie High OffScale High 80 - 100 100 100 100 100 100 100 OnScale High OnScale High ONScale High 90 - 100 100 100 100 100 100 100 OffScale High OffScale High ONScale High 100 - 100- 100 100 100 100 100 100 OffScale High OffScale Hig.i OffScale High

' Background Samples Count Rates are: 100 - 300 cpm (Gross). LM-12 Maximuin Reading is 500,000 cpm (Gross). I

i Emergency Prepareo.wss orill NRC EXERCISE FOR 1995

JULY 12 1995 Onsite and Nearsite Radiological Data 14: 15 Closed Window Meter Reading in mR/hr Downwind Distances in Feet.

Distance off Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 22 924 4921 12269 26948 30448 23960 19327 90 - 0 5 98 3080 2858 24538 29942 30448 23960 19327 r 30 - 0 22 164 5544 17716 27264 29942 30448 23960 19327 70 - 2 37 547 11088 19685 27264 29942 30448 23960 19327 60 - 9 122 984 it320 19685 27264 29942 30448 23960 19327 50 -

                         *4     220    1968 12320 19685 27264 29942             30448   23960    19327 40    -

47 439 2187 12320 19685 27264 29942 30448 23960 19327 30 - 85 488 2187 12320 19685 27264 29942 30448 23960 19327 20 - 170 488 2187 12320 19685 27264 29942 30448 23960 19327 to - 189 488 2187 12320 19685 27264 29942 30448 23960 19327 Center - 189 488 2187 12320 19685 27264 29942 30448 23960 19327 ; 10 - 189. 488 2187 12320 19685 27264 29942 30448 23960 19327 1 l 20 - 170 488 2187 12320 19685 27264 29942 30448 23960 19327 30 - 85 488 2187 12320 19685 27264 29942 30448 23960 19327

       - 40    -

47 439 2187 12320 l 19685 27264 29942 30448 23960 19327 50 - 14 220 1968 12320 19685 27264 29942 3044C 23960 19327 60 - 9 122 984 12320 19685 27264 29942 30448 23960 19327 70 - 2 37 1 547 11088 19685 27264 2994' 30448 23960 19327 ' i 60 - 0 22 164 5544 17716 27264 2994L 30448 23960 19327 90 - 0 5 98 3080 8858 24538 29942 30448 23960 19327 100 - 0 0 22 924 4921 12269 29942 30448 23960 19327 IF ANY VALUE A80VE GREATER THAN MAXIMUM READING, REPORT OFFSCALE READING INSTRialENT MAXIMUM READING = 50,000 mR/hr (i.e. 50 R/hr) IF ANY VALUE A80VE LESS THAN MINIMLSI READING, REPORT RACKGRouis READING INSTRUMENT MIN!IGAt READING = 0.2 ed/hr

1 l i Emergency Preparooness Drill 4 NRC EXERCISE FOR 1995 l

                                                                      .iULY 12 1995 Onsite and Nearsite Radiologicai Data 14:15 Open Window Meter Reading in ad/hr Downwind Distances in Feet.

Distance off Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 22 924 4921 12269 26948 39582 31148 25125 90 - 0 98 5 3080 8858 24538 29942 39582 31148 25125

,                                S0 -        0   22       164    5544    17716 27264 29942      39582  31148     25125 1

70 - 2 37 547 11088 19685 27264 29942 39582 31148 25125 60 - 9 984 122 12320 19685 27264 29942 39582 31148 25125 50 - 14 220 1968 12320 19685 272M 29942 39582 31148 25125 40 - 47 439 2187 12320 19685 27264 29942 39582 31148 25125

;                               30    -

85 488 2187 12320 19685 27264 29942 39582 31148 25125 20 - 170 488 2187 12320 19685 27264 29942 39582 31148 25125

10 -

189 488 2187 12320 19605 27264 29942 39582 31148 25125 center - 189 488 2187 12320 19685 27264 29942 39582 31148 25125 10 - 189 - 484 2187 12320 19685 27264 29942 39582 31148 25125 I 20 - 170 488 2187 12320 19685 27264 29942 39582 31148 25125 30 - 85 488 2187 12320 19685 27264 29942 39582 31148 25125 40 - 47 439 2187 12320 19685 27264 29942 39582 31148 25125 50

14 220 1968 12320 19685 27264 29942 39582 31148 25125 60 -

9 122 984 12320 19685 27264 29942 39582 31148 25125 70 - 2 37 547 11088 19685 27264 29942 39582 31148 25125 80 - 0 22 164 5544 17716 27264 29942 39582 31148 25125 90 - 0 5 98 3080 8858 24538 29942 39582 31148 25125 100 - 0 0 22 924 4921 12269 29942 39582 31148 25125 IF ANY VALUE A80WE GREATER THAN MAXIMUM READING, REPORT OFFSCALE READING INSTRLSIENT MAXiltal READING = 50,000 mR/hr (f.e. 50 R/hr) IF ANY VALUE ABOWE LESS THAN MINiltat READING, REPORT BACKGROUIS READING INSTRUMENT MIN! Ital READING = 0.2 mR/hr I e 4

I Emergency Preparedness Drill NRC EXERCISE for 1995 July 121996 i Onsite and Nearsite Radiological Data 14:15 PM Results Reported in Grcss CPM for lodine Samples Distance Downwind Distances in Feet. Off Center 100 200 300 400 500 600 700 800 900 1000 100 - 100 100 100 100 100 100 100 OnScale High OffScale High OffScene Hegh 90 - 100 100 100 100 100 100 100 OffScene High OnScale High OffScale High 80 - 100 100- 100 100 100 100 100 OnScale High OffScale High OffScale High 70 - 100 100 100 100 100 100 100 OWScale High OnScale High OffScale High 60 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 50 - 100 100 100 '100 100 100 100 OffScale High OffScale High OffScale High 40 - 100 100 100 100 100 100 100 offScale High OffScale High OffScale High 30 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 20 - 100 100 100 100 100 100 100 Off$celo Heph OffScale High OffScale High 10- 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High Center - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 10- 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High l 20 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScene High 30 - 100 100 100 100 100 100 100 OffSceae High OffScale High OffScene Heh . 40 - 100 100 100 100 100 100 100 OffScene High OffScale High OffScale High 50 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High , 60 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 70 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 80 - 100 100 100 100 100 100 100 OffScene High OffScale High OffScale High

90 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 100 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High I

Background Samples Count Rates are: 100 - 300 cpm (gross). LM-12 Maximum Reading is 500,000 cpm (gross).

Emergency Preparooness Dritt NRC EXERCISE FOR 1995

                                                       .,ULY 12 1995 Onsite and Nearsite Radiological Data 14:30 PM Closed Window Meter Reading in mR/hr Downwind Ofstances in feet.

Distance off Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 23 983 5233 13047 28656 32379 25479 20553 90 - 0 5 105 3275 9420 26094 31841 32379 25479 20553 80 - 0 23 174 5896 18840 28993 31841 32379 25479 20553 70 - 2 39 581 11791 20933 28993 31841 32379 25479 20553 60 - 9 130 3 1047. 13102 20933 28993 31841 32379 25479 20553 1 50 - 15 234 2093 13102 20933 28993 31841 32379 25479 20553 40 - 50 467 2326 13102 20933 28993 31841 32379 25479 20553 30 - 91 519 2326 13102 20933 20993 31841 32379 25479 20553 20 - 181 $19 2326 13102 20933 28993 31841 32379 25479 20553 10 - 201 519 2326 13102 20933 28993 31841 32379 25479 20553 conter - 201 $19 2326 13102 20933 28993 31841 i 32379 -25479 20553 10 - 201 519 4 2326 13102 20933 28993 31841 32379 2547s 20553

20 -

181 519 2326 13102 20933 28993 31841 32379 25479 20553 30 - 91 519 2326 13102 20933 28993 31841 32379 25479 20553 40 - 50 467 3 2326 13102 20933 23993 31841 32379 25479 20553 50 - 15 234 2093 . 13102 20933 28993 31841 32379 25479 20553 60 - 9 130 1047 13102 20933 28993 31841 32379 25479 20553 .

         . 70   -

2 39 581 11791 20933 28993 31841 32379 25479 20553

80 -

0 23 174 5896 18840 28993 31841 32370 25479 20553

90 -

0 5 105 3275 9420 26094 31841 32379 25479 20553 100 - 0 0 23 983 5233 13047 31841 32379 25479 20553 t 4 IF ANY VALUE A80VE GREATER THAN MAXIIRAI READIM, REPORT OFFSCALE READIN INSTRUMENT MAX 1sR21 READIM = 50,000 sa/hr (f.e. 50 R/hr) IF ANY VALUE ABOWE LESS TNAN MINilast READIM, REPORT SACKGRCLT@ READIM INSTRtBENT MIN!Itst READilIG = 0.2 mR/hr i l

Emergency Preparedness Drill NRC EXERc!SE FOR 1995 JULY 12 1995 Onsite and Nearsite Radictogical Data 14:30 PM Open Window Meter Reading in mR/hr Downwind Olstances in Feet. Distance off center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 23 983 5233 13047 28656 42092 33123 26719 90 - 0 5 105 3275 9420 26094 31841 42092 33123 26719 80 - 0 23 174 5896 18840 28993 31841 42092 33123 26719 70 - 2 39 581 11791 20933 28993 31841 42092 33123 26719 60 - 9 130 1047 13102 20933 28993 31841 42092 33123 26719 50 - 15 234 2093 13102 20933 28993 31841 42092 33123 26719 40 - 50 467 2326 13102 20933 28993 31841 42092 33123 26719 30 . 91 519 2326 13102 20933 28993 31841 42092 33123 26719 20 - 181 519 2326 13102 20933 28993 31841 42092 33123 26719 to . 201 519 2326 13102 20933 28993 31841 42092 33123 26719 center - 201 519 2326 13102 20933 28993 31841 42092 33123 26719 10 - 201 519 2326 13102 20933 28993 31841 42092 33123 26719 20 - 181 519 2326 13102 20933 28993 31841 42092 33123 26719 30 - 91 519 2326 13102 20933 28993 31841 42092 33123 26719 I 40 - 50 467 i 2326 13102 20933 28993 31841 42092 33123 26719 50 - 234 15 2093 13102 20933 28993 31841 42092 33123 26719 l 60 - 9 130 1047 13102 20933 28993 11841 42092 33123 26719 70 . 2 39 581 11791 20933 28993 31841 42092 33123 26719 80 - 0 23 174 5896 18840 28993 31841 42092 33123 26719 90 - 0 5 105 3275 9420 26094 31841 42092 33123 26719 , 100 - 0 0 23 983 5233 13047 31841 42092 33123 26719 1 IF ANY VALUE ABOVE GREATER THAN MAXIMUM READING, REPORT OFFSCALE READING INSTRtmENT MAXIIRm RE3DlH = 50,000 aft /hr (f.e. 50 R/hr) IF ANY VALUE A80VE LESS TNAN MINIIRm READING, REPORT BACKGROUND READING INSTRtmENT MINIMUM READING = 0.2 aft /hr l

l i Emergency Preparedness Drill !

                                             - NRC EXERCISE for 1995 July 121995 Onsite and NearSite Radiological Data 14:30 PM Results Reported in Gross CPM for lodine Samples oletance                 Downwind Distances in Feet.

Off Center 100 200 300 400 500 600 700 800 900 1000 100 - 100 100 100 100 100 100 100 ONScale High ONScene High ONScale High 90 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 80 - 100 100 100 100 100 100 100 ONSces. High ONScene High ONSces. High 70- 100 100 100 100 100 100 100 ONSce. High ONSemie High ONScene High 60 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 50 - 100 100 100 100 100 100 100 ONSeele High ONScain High ONScene High I 40 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 30 - 100 100 100 100 100 100 100 ONSeele High ONSeese High ONScene High 20 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 10- 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High j Center - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High

10- 100 100 100 100 100 100 100 ONScale High ONScale Hsgh ONScale High j 20 - 100 100 100 100 100 100 100 ONScene High ONScale High ONScale High 30 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High l 40 - 100 100 100 100 100 100 100 ONScale High ONSces High ONScale High l 50 - 100 100 100 100 100 100 100 ONScale High ONScale High ONScale High 60 - 100- 100 100 100 100 100 100 ONScale High ONScale High ONScale High 70 - 100 100 100 100 100 100 100 ONScale High ONSceis High ONScale High 80 - 100 100 100 100 100 100 100 ONSeele High ONScale High ONScale High 90 - 100 100 100 100 100 100 100 oNScene High ONScale High ONScale High 100 - 100 100 100 100 100 100 100 ONScale High ONScale High ONSceis High Background Samples Count Rates are: 100 - 300 cpm (Gross).

LM-12 Maximum Reading is 500,000 cpm (gross). 4 ~_ _ _ _ _ _ ._

Emergency Preparedness Dritt NRC EXERCISE

                                                      .'JLY 12 1995 Onsite and Nearsite Radiological Data

, 14:45 PM Closed Window Meter Reading in mR/hr i Downwind Distances in Feet. Olstence off Center 100 200 300 400 500 600 700 800 900 1000 100 . 0 0 13 557 2964 7391 16233 18341 14433 11642 90 - 0 3 59 1855 5336 14781 18036 18341 14433 11642 1 80 - 0 13 99 3340 10672 16424 18036 18341 14433 11642 70 - 1 22 329 6679 11858 16424 18036 18341 14433 11642 60 - 5 74 593 7422 11858 16424 18036 18341 14433 11642 50 . 9 132 1186 7422 11858 16424 18036 14433 18341 11642 40 - 29 265 1318 7422 11858 16424 18036 18341 14433 11642 5 30 - 51 294 1318 7422 11858 14.424 18036 18341 14433 11642 20 - 103 294 1318 7422 11858 1MM 18036 18341 14433 11642 i 10 - 114 294 1318 7422 11858 16424 18036 18341 14433 11642 Center . 114 294 1318 7422 11858 '16424 18036 18341 14433 11642 10 - 114 294 1318 7422 11858 16424 18036 18341 14433 11642 20 - 103 294 1318 7422 11858 16424 18036 18341 14433 11642 30 - 51 294 1318 7422 11858 16424 18036 18341 14433 11642 40 - 29 265 1318 7422 11858 16424 18036 18341 14433 11642 50 . 9 132 1186 7422 11858 16424 18036 18341 14433 11642 60 - 5 74 593 7422 11858 16424 18036 18341 14433 11642 70 - 22 329 1 6679 11858 16424 18036 18341 14433 11642 80 . 0 13 99 3340 10672 16424 18036 18341 14433 11642 90 - 0 3 59 1855 5336 14781 18036 18341 14433 11642 100 . 0 0 13 557 2964 7391 18036 18341 14433 11642 IF ANY VALUE ABOWE GREATER THAN MAX 18RJM READING, REPORT OFFSCALE READIM INSTRIAIENT MAXIIEM READIM e 50,000 se/hr (f.o. 50 R/hr) IF ANY VALUE ABOWE LESS THAN MINil4NI READIM, REPORT 8ACKGROUW READIM INSTRtaENT MINIIRm READIllG e 0.2 se/hr i

Emergency Preparedness Dritt NRC EXERCISE JULY 12 1995 j Onsite and Nearsite Radiological Data 14:45 PM 1 4 5 Open Window Meter Reading in Wt/hr Downwind Olstances in Feet. Dit!ance off Center 100 200 300 400 500 600 700 800 900 1000 4 ........................................................................................................ 100 - 0 0 13 557 2964 7391 16233 23844 18763 15135

90 -

0 3 59 1855 5336 14781 18036 23844 l 18763 15135 . 80 - 0 13 99 3340 10672 16424 19036 23844 18763 15135

;             70 -          1       22      329    6679 11858       15424  18036  23844     18763  15135 t

60 - 5 74 593 7422 11858 16424 18036 23844 18763 15135 50 - 9 132 1186 7422 11858 16424 18036 23844 18763 15135 l 40 - 29 265 1318 7422 11858 16424 18036 23844 18763 15135 ' 30 - 51 294 1318 7422 11858 16424 18036 23844 18763 15135 20 - 103 294 1318 7422 11858 16424 18036 21844 18763 15135 10 - 114 294 1318 7422 11858 16424 18036 23844 18763 15135 Center - 114 294 1318 7422 11858 '16424 18036 23844 18763 15135 10 - 114 , 294 1318 7422 11858 16424 18036 23844 18763 15135 20 - 103 294 1318 7422 11858 16424 18036 23844 18763 15135 30 - 51 294 1318 7422 11858 16424 18036 23844 18763 15135 40 - 29 265 1318 7422 11858 16424 18036 23844 18763 15135 50 - 9 132 1186 7422 11858 16424 18036 23844 18763 15135 s 60 - 74 5 593 7422 11858 16424 18036 23844 18763 15135 70 - 22 329 6679 11858 1 16424 180M 23844 18763 15135 80 - 0 4 13 99 3340 10672 16424 1036 23844 18763 15135 90 - 0 3 59 1855 5336 14781 18036 23844 18763 15135 100 . 0 0 13 557 2964 7391 18036 23844 18763 15135 1 IF ANY VALUE ABOVE GREATER THAN MAX 1001 READING, REPORT OFFSCALE READING ' INSTRtatENT MAXIlpt READING = 50,000 sR/hr (i.e. 50 R/hr) IF ANY VALUE A80VE LESS THAN MINIMUM READING, REPORT 8ACKGROUND READING l INSTRtMENT MINilR,iN READING = 0.2 sR/hr l

                                                                                                            .e I

l

_ - . .. . .. ... .- - ._. -- ~ Emergency Preparedness Drill NRC EXERCISE for 1996 l July 121996 j Onsite and NearSite Radiological Data . 14:45 PM i Results Reported in Gross CPM for lodine Samples j Dietence Downwind Distances in Feet. Off Center 100 200 300 400 500 600 700 800 900 1000 { 1 J

100 - 100 100 100 100 100 100 100 ONScale High OffScale High OffScale High 90 - 100 100 100 100 100 100 100 OffScale High OnScale High OffScale High 4

80 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScelo High 70 - 100 100 100 100 100 100 100 OnScale High OffScale High OffScale High 60 - 100 100 100 100 100 100 100 OffScale High OffSmie High OffScale High 50 - 100 100 100 100 100 100 100 OffScais High OffSeele High OffScale High 40 - 100 100 100 100 100 100 100 ONScale High OffScale High OffScale High 30- 100 100 100 100 100 100 100 ONScale High ONScale High OffScale High j 20 - 100 100 100 100 100 100 100 Offscene High OffScene High OffScale High 10- 100 100 100 100 100 100 100 OKScale High OffScale High OffScale High ;

Center - 100 100 100 100 100 100 100 ONScene High OffScene High OffScale High 10- 100 100 100 100 100 100 100 OnScale High OffScale High OffScale High

{ 20 - 100 100 100 100 100 100 100 OffScale High OffScale High ONScale High 1 30 - 100 100 100 100 100 100 100 OffScene High OffScene High OffScene High 40 - 100 100 100 100 100 100 100 ONScale High OffScale High OffScale High 50 - 100 100 100 100 100 100 100 OffScole High OffScale High OffScale High 60 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 70 - 100 100 100 100 100 100 100 OffScale High OffScale High OffSale High 80 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High , 90 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High 100 - 100 100 100 100 100 100 100 OffScale High OffScale High OffScale High J Background Samples Count Rates are: 100 - 300 cpm (Gross). LM-12 Maximum Reading IS 500,000 cpm (Gross). i 1

Emergency Preparedness Ortll NRC EXERCISE FOR NRC WLY 12 1995 Cnsite and Nearsite Radiclogical Data 15:00 PM Closed Window Meter Reading in mA/hr Downwind Olstances in Feet. Distance off Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 1 22 119 297 651 736 579 467 90 - 0 0 2 74 214 593 724 736 579 467 80 - 0 1 4 134 428 659 724 73 6 579 467 70 - 0 1 13 268 476 659 724 73 6 579 467 60 - 0 3 24 298 476 659 724 736 579 467 50 - 0 5 48 298 476 659 724 736 579 467 40 - 1 11 53 298 476 659 724 736 579 447 30 - 2 12 53 298 476 659 724 736 579 467 20 - 4 12 53 298 476 659 724 736 579 467 10 - 5 12 53 298 476 659 724 736 579 467 Center - 5 12 53 298 476 659 724 736 579 467 10 - 5 12 53 298 476 659 724 736 579 467 20 - 4 12 53 298 476 659 724 736 579 467 30 - 2 12 53 298 476 659 724 736 579 467 40 - 1 11 53 298 476 659 724 73 6 579 467 50 - 0 5 48 298 476 659 724 736 579 467 , 60 - 0 3 24 298 476 659 724 736 579 467 1 70 - 0 1 13 268 476 659 724 736 579 467 80 - 0 1 4 134 428 659 724 736 579 467 90 - 0 0 2 74 214 593 724 736 579 467 4 100 - 0 0 1 22 119 297 724 736 579 467 IF ANY VALUE A80VE GREATER THAN MAXIMUM READING, REPORT OFFSCALE READIM INSTRUIENT MAXIMLN READIM = 50,000 aft /hr (i.e. 50 R/hr) IF ANY VALUE A80WE LESS THAN MINI 8tm READIM, REPORT BACEGRous READIM INSTRUMENT MINIMLN READIN = 0.2 aft /hr

Emergency Preparooness Dritt NRC EXERCISE FOR NRC JULY 12 1995 Onsite and Nearsite Radiologicat Data 15:00 PM Open Window Meter Reading in udt/hr Downwind Distances in Feet. Ofstence off Center 100 200 300 400 500 600 700 800 900 1000 100 - 0 0 1 22 119 297 651 957 753 607 90 - 0 0 2 74 214 593 724 957 753 607 80 - 0 1 4 134 428 659 724 957 753 607 70 - 0 13 268 1 476 659 724 957 753 607 60 - 0 3 24 298 476 659 724 957 753 607 50 - 0 5 48 298 476 659 724 957 753 607 40 - 1 11 53 298 476 659 724 957 753 607 30 - 2 12 53 298 476 659 724 957 753 607 20 - 4 12 53 298 476 659 724 957 753 607 10 - 5 12 53 298 476 659 724 957 753 607 Center - 5 12 53 298 476 659 724 957 753 607 10 - 5 12 53 298 476 659 724 957 753 607 20 - 4 12 53 298 476 659 724 957 753 607 30 - 2 12 53 298 476 659 724 95 7 753 607 40 - 1 11 53 298 4 76 659 724 957 753 607 50 - 0 5 48 298 476 659 724 95 7 753 607 60 - 0 3 24 298 4 76 659 724 95 7 753 607 l 70 - 0 13 268 1 476 659 724 957 753 607 80 - 0 1 4 134 428 659 724 957 753 607 90 - 0 0 2 74 214 593 724 957 753 607 100 - 0 0 22 1 119 297 724 957 753 607 IF ANY VALUE ABOVE GREATER THAN MAXINUM READING, REPORT OFFSCALE READING INSTRUNENT maximum READI N = 50,000 mR/hr (f.e. 50 R/hr) IF ANY VALUE ABOWE LESS THAN MININUM READING, REPORT BAmanten READING INSTRUMENT N!N! mal READING e 0.2 mR/hr I i l

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

Emergency Preparedness Drill NRC EXERCISE for 1995 July 121995 Onsite and Nearsite Radiological Data 15:00 PM Results Reponed in Gross CPM for lodine Samples Distano. Downwind Distances in Feet. Off Center 100 200 300 400 500 600 700 800 900 1000 100 - 100 100 100 100 100 100 100 219,035 210,998 203,267 90 - 100 100 100 100 100 100 100 219,035 210,998 203,267 80 - 100 100 100 100 100 100 100 219,035 210,998 203,267 70 - 100 100 100 100 100 100 100 219,035 210,998 203,267 40 - 100 100 100 100 100 100 100 219,035 210,998 203,267 50 - 100 100 100 100 100 100 100 219,035 210,998 203,267 40 - 100 100 100 100 100 100 100 219,035 210,998 203,267 30 - 100 100 100 100 100 100 100 219,035 210,998 203,267 20 - 100 100 100 100 100 100 100 219,035 210,998 203,267 10- 100 100 100 100 100 100 100 219,035 210,998 203,267 I Center - 100 100 100 100 100 100 100 219,035 210,998 203,267 10- 100 100 100 100 100 100 100 219,035 210,998 203,267 l 20 - 100 100 100 100 100 100 100 219,035 210,998 203,267 j 30 - 100 100 100 100 100 100 100 219,035 210,998 203,267 ) 40 - 100 100 100 100 100 100 100 219,035 210,998 203,267

.                 50 -  100    100    100      100         100  100    100              219,035  210,998   203,267 60 -  100    100    100      100         100  100    100              219,035  210,998   203,267 70 -  100    100    100      100         100  100    100              219,035  210,998   203,267 40 -  100    100    100      100         100  100    100              219,035  210,998   203,267

, 90 - 100 100 100 100 100 100 100 219,035 210,998 203,267 100 - 100 100 100 100 100 100 100 219,035 210,998 203,267 Background Samples Count Rates are: 100 - 300 cpm (Gross). LM-12 Maximum Reading is 500,000 cpm (Gross).

     .WATERFORD 3 ANNUAL EXERCISE

JULY 12,1995 .

It 4 v <1 3 4 4 4 OFFSITE RADIOLOGICAL DATA 11:30 TO 15:00 J t i 4 s

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( - , _. .. - .s__- - 2 .-. . - ; - _ _ . WATERFORD 3 ANNUAL EXERCISE

                       - JULY 12,1995                                                                       ,

DOSECODE CALCULATIONS START OF RELEASE USING PLANT STACK WIDE RANGE GAS MONITOR MID RANGE l l I I 5 2

l l

l e d e

WATERFORD 3 STEAM ELECTRIC STATION LOCA (Plant Stack) Cladding Barrier Failure - Containment Spray Available PRM-IRE-0110 (MID) DATE: 07-12 95 TIME: 12:00 AUTHOR: 1905 Annual Exercise MONITOR NOBLE CAS RELEASE RATE (Ci/Sec) PRM-IRE-0110 (MID) 5.83E+01 IODINE RELEASE RATE (Ci / Sec) 2.27E+00 PROMPTLY PROVIDE THIS INFORMATION TO LRPD 2 i i i , 1 i , l l 4 0 i

WATERFORD 3 STEAM ELECTRIC STATION LOCA (Plant Stack) Cladding Barrier Failure . Containment Spray Available PRM-IRE.0110 (MID) DATE: 07 12-95 TIME: 12:00 AUTHOR: 1995 Annual Exercise INPUT ECHO INFUT ITEH INPUT VALUE UNITS AUTBOR 1995 Annual Exercise DATE 07-12-95 TIME 12:00 WXND 8 PEED 2.24 Meters /s WIND DIRECTIO 203 Degrees TOtP. DIFF. ,49 C DURATION 2 Brs 4 l ..................................................................................... ........ l ACCIDENT LOCA (Plant (taek) Cladding Barrier Failure - Contalmeent Spray Available g ............. ! FAILURE Cladding Barrier Failure ! PONITOR PRM-IRE-0110 (MID) 4 ' MON. READING 34 1 uC1/cc 1 ............................................................... ........_........... ........ FLOW RATE $000 CFM 6 k. I l ) I d r [ 1

WATERFORD 3 STEAM ELECTRIC STATION LOCA (Plant SCack) Cledding Barrier Failura - Containmsnt Spray Available PRM. IRE 0110 (MID) , DATE: 07-12 95 TIME: 12:00 AUTHOR: 1995 Annual Exercise i l R leets Date A B C D E F G H I J Noble Gas TEDE TEDE IODINE CDE CDE Monitor Conversion Flow Release Dose Dose Rate Iodine / Release Dose Dose Rate Monitre Readins Factor Rate (CFM) Rate C1/sec Factor Factor Noble Gao Rat C1/sec Factor Factor uCA/cc A*8+C D*E Ratio D*G 8+I PRM-IRE-0110 (LO) l l l l l

  ...........................................................................l..........l...........l...........l...........l.......-.

PRM-IRE-0110(HID)l 34.00l3.43E-04l5.00E+03l5.83100E+01 9.68E+05 5.64E+07 3.89E-02 2.268E+00 2.96E+08 6.71E+08

  ..................................................................l...........l..........l...........l...........l...........l..........

PRM-IRE-0110 (BI) l l l l l l l l l l PRM-IRE-0100,13 l l l l l

  .............................................................................l..........l.....==---l                                            l                 l PRM-IRE-0100.23        l                  l              l             l                l         l
  .......................................................................................l...........l...........l...........l.......

Pc; TABLE sua m I

 ...................HEl.............l...........I..........I........................I ................................I I          I                                    I                    i 1              2               3                4                5                6 Dose Rate                    Wind Speed        Dose Rate          Erposure        Projected Location              Factor        Xu/Q            siph          mrem /hr          Datation       Dose (area)

EAB-TEDE 5.44E+07 2.95E-04 5.02 3.316 2.00 6,632

EAB-CDE 6.71E+08 2.95E-04 5.02 39,444 2.00 78,887
2HI-TEDE 5.64E+07 4.73E 05 5.02 532 2.00 1,064
2HI-CDE 6.71E+08 4.73E-05 5.02 6,328 2.00 12,657
TEDE 5.64E+07 1.22E-05 5.02 137 2.00 275 5HI-CDE 6. 718t+08 1.222-05 5.02 1,635 2.00 3,269 10HI-TEDE 5.64E+07 4.43E-06 5.02 50 2.00 100 10HI-CDE 6.71E+08 4.43E-06 5.02 593 2.00 1,186
This dose may indicate evacuation as a recoseended protective action.

Contult EP-2-052.

WATERFORD 3 STEAM ELECTRIC STATION LOCA (Plant Stack) Cladding Barrier Failure - Containment Spray Available

PRM-IRE-0110 (MID) I DATE: 07-12-95 TIME: 12:00 l AUTHOR: 1995 Annual Exercise AFFECTED SECTORS / PROTECTIVE RESPONSE AREAS l WIND DIRECTION FROM 203 deg. I AFFECTED PROTECTIVE RESPONSE ARFAS SECTORS 0-2 MILES 2-5 MILES 5-10 MILES A,B,C A1,81,C1,D1 A2,B2 A3,B4 STABILITY index: D, NEUTRAL

WATERFORD 3 STEAM ELECTRIC STATION LOCA (Plant Stack) Cladding Barrier Failure - Containment Spray Available PRM-IRE-0110 (MID) DATE: 07-12-95 TIME: 12:00 AUTHOR: 1995 Annual Exercise DOSE PROJECTIONS LOCATION: DOSE RATE PROJECTED DOSE (MREM /HR) (MREM) EAB TEDE 3 316 6 632

EAB-CDE $9,444 78,887
2MI-TEDE 532 1 064
2MI-CDE 6,328 15,657
SMI-TEDE 137 275 SMI-CDE 1,635 3,269 10MI-TEDE 50 100 10MI-CDE 593 1,186 0 This dose may indicate evacuation as a recommended protective action.

Consult EP-2-052. AFFECTED SECTORS / PROTECTIVE RESPONSE AREAS WIND DIRECTION FROM 203 deg. AFFECTED PROTECTIVE RESPONSE AREAS SECTORS 0-2 MILES 2-5 MILES S-10 MILES A,B,C Al,B1,Cl,D1 A2,B2 A3,B4 STABILITY index: D, NEUTRAL l l l l

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 .

A 4 4 4 4 DOSECODE CALCULATIONS 4 j AT MAXIMUM RELEASE CONDITIONS j USING PLANT STACK WIDE RANGE GAS MONITOR l MID RANGE ,

 ?                                                                              :

o t t I i 1 i l 1 I l l

WATERFORD 3 STEAM ELECTR"$C STATION , LOCA (Plant Stack) Cladding Darrier Failure - Containmen'c Spray Available PRM-IRE 0110'(MID) DATE: TIME:)7-12-95 15:00 AUTHOR:-1995 Annual Exercise MONITOR NOBLE CAS RELEASE RATE (Ci/Sec) PRM-IRE-0110 (MID) 9.60E+01 IODINE RELEASE RATE (Ci / Sec) 3.74E+00 PROMPTLY PROVIDE THIS INFORMATION TO LRPD

d d WATERFORD 3 STEAM ELECTRIC STATION LOCA (Plant Stack) Cladding Barrier Failure - Containment Spray Available PRM. IRE.0110 (MID) DATE: )7-12-95 TIME: 15:00

;                                             AUTHOR: 1995 Annual Exercise
 /.

4 INPur Ecno 4 ............. INPUT ITEM INPUT VALUE UNITS

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

1 AUT80R 1995 Annual Exercise s DATE )7-12-95 TIME 15:00 WIND SPEED 2.24 Meters /s , WIND DIRECTIO 203 Degrees 4 ............. ...............................................................- - ......... ........ TDtP. DIFF. .49 C a I ............................................____=-- - ==.......- _............... ........ DURATION 2 Ers

ACCIDENT LOCA (Plant Stack) Cladding Barrier Failure - Containment Spray Available o ......................................................................-- _.... ........

FA8 LURE Cladding Barrier Failure MONITOR PRpt IRE-0110 (MID) DON. READING 56

    .............                                                                                                               uC1/cc FLOW RATE        5000                                                                                                       CPM 4

9 4 1 4 i i 1 1

UATERFORD 3 STEAM ELECTRIC STATION LOCA (Plant Secck) Cladding Barrier Failure . Containmant Spray Available PRM-IRE-0110 (MID)

DATE: )7 12 95 TIME: 15:00 AUTHOR: 1995 Annual Exercise Rslocas Data A B C D E F G H I J noni. Ga. TEDE TEDE IoDrnE CDE CDE Monitor Conversion Flow Release Dose Dose Rate Zodine/ Release Dose Dose Rate Moniter Readins Factor Rate (CFM) Rate C1/see Facter Factor noble Gas Rat C1/sec Factor Factor uCi/cc A*B*C D*E Ratio D*G B*I PRM-IRK-0110 (LO) l l l l l l l l l l PRM-IRE-0110(MID)l 56,00l3.43E-04l5,00E+03l9,60400E+01l9.68E+05l9.30E+07l3.89E-02l3,736E+00l2.96E+08l1.11E+09 PRM-IRE-0110 (HI) l l l l l l l l l l

..........................................__ _. = ....- -- ..._ _ - _ PRM-IRE-0100.15 l l l l l l l l l l ....................................................................... _................._-- - ...= PRM IRE 0100,25 l l l l l l l l l l reamt.E stavET MEl l l l l l l l l l .................................- -=..............................................................................= -__ 1 2 3 4 5 6 Dose Rate Wind Speed Dose Rate Exposure Projected Lccation Factor Xu/Q sph mrem /hr Duration Dose (ares) EAB TEDE 9.30E+07 2.95E-04 5,02 5,462 2.00 10,923

EAB-CDE 1.11E+09 2.95E-04 5.02 64,966 2.00 129,932
2MI TEDE 9.30E+07 4.73E-05 5.02 876 2,00 1,753
2MI-CDE 1,11E+09 4.73E-05 5.02 10,423 2,00 20,846
TEDE 9.30E+07 1,22E-05 5,02 226 2,00 453 l SMI-CDE 1.11E+09 1,22E-05 5.02 2,692 2,00 5,385
10MI-TEDE 9.30E+07 4,43E-06 5.02 82 2,00 164

............... .......... .......... .......... ...- =_ _ .. ............ 10MI-CDE 1.11E+09 4.43E-06 5,02 977 2.00 1,954

This s'ese may indicate evacuation as e recommended protective action.

Consult EP-2-052, l l i

i Y WATERFORD 3 STEAM ELECTRIC STATION LOCA (Plent Stack) Cladding Barrier Failure - Containment Spray Available

PRM-IRE-0110 (MID)

DATE: 7-12-95 TIME: )15:00 AUTEOR: 1995 Annual Exercise AFFECTED SECTORS / PROTECTIVE RESPONSE AREAS WIND DIRECTION FROM 203 deg. AFFECTED PROTECTIVE RESPONSE AREAS SECTORS 0-2 MILES 2-5 MILES 5-10 MILES A,B,C Al,B1,Cl,D1 A2,32 A3,B4 STABILITY index: D, NEUTRAL i

1 WATERFORD 3 STEAM ELECTRIC STATION LOCA (Plant Stack) Cladding Barrier Failure - Containment Spray Available PRM-IRE-0110 (MID) - DATE: )7-12-95 TIME: 15:00

AUTHOR: 1995 Annual Exercise DOSE PROJECTIONS LOCATION: DOSE RATE PROJECTED DOSE (MREM /HR)_ (MREM)

EAB-TEDE 5 462 10 923

EAB-CDE $4,966 128,932
2MI-TEDE 876 1 753
2MI-CDE 10,423 20,846
SMI-TEDE 226 453 5MI-CDE 2,692 5,385
10MI-TEDE 82 164 10MI-CDE 977 1,954 C This dose may indicate evacuation as a recommended protective action.

Consult EP-2-052. l AFFECTED SECTORS / PROTECTIVE RESPONSE AREAS WIND DIRECTION FROM 203 deg. AFFECTED PROTECTIVE RESPONSE AREAS SECTORS 0-2 MILES 2-5 MILES 5-10 MILES

A,B,C Al,Bl,Cl,D1 A2,B2 A3,B4 STABILITY index: D, NEUTRAL T

4 4 i 4 a l

14ERGENCY PRE?AREONE55 EXERCISE NRC EXERCISE FOR 1995 - i JULY 12 1995 CFFSITE RADIOLOGICAL DATA i i CDE CLOSED OPEN AIR SAMPLE BKGNO DEPOSITION THYR 010 WINDOW WINDOW GROS $ COUNT COUNT RATE CPN/ 00$E RATE e/0 j t.0CAf!DN f!ME OR sWt/hr DR set /hr RATE (CPM) 100 cm'2 (nWt/hr) (CPM) (Sec/M*3)- 8 1E(NNE) 1147 0.0 0.0 300 300 0 0 2.36E-04 1202 13,402 22,081 5,753,218 400 5,022 159.423 1217 12,925 21,294 5,548,215 400 9,865 153,742 1232 12,808 21,102 5,498,191 400 14,664 152,355 1247 14,652 24,140 6,289,755 400 20.154 174,291 1302 16,590 27,332 7,121,535 400 26,370 197,342 1317 17,184 28,311 7,376,561 400 32,809 204,409 1332 17,779 29,290 7,631,589 400 39,471 211,476 1347 19,218 31,662 8,249,538 400 46,672 228,601 1402 20,658 34,034 8,867,488 400 54,412 245,726 1417 21,081 34,730 9,048,949 400 62,311 250,755 1432 22,417 36,933 9,622,759 400 70,710 266,656 1447 12,699 20,921 5,451,109 400 75,469 151,051 1502 510 840 219,035 300 75,659 6,062 B 1(NNE) 1155 0.0 0.0 300 300 0 0 2.50E 05 1210 1,420 2,339 609,447 100 532 16,886

.               1225        1,369         2,255         587,733           10C      1,045               16,285 1                1240        1,357         2,235         582,434           100      1,553               16,138 1255        1,552         2,557         666,277           100      2,135               18,461 1310        1,75 7        2,895         754,381           100      2,793               20,903 1325         1,820         2,999         781,394          100       3,475               21,651 1340         1,883         3,102         808,406          100       4,181              22,400 1355         2,036         3,354         873,860          100       4,944              24,214 4

1410 2,188 3,605 939,315 100 5,763 26,028 1425 2,233 '3,679 958,535 100 6,600 26,560 1440 2,374 3,912 1,019,314 100 7,490 28,245 1455 1,345 2,216 577,447 . 100 7,994 16,000 1510 54 89 23,469 300 8,014 642 0 2(NNE) 1200 0.0 0.0 300 300 0 0 4.07E 07 1215 23 38 10,222 300 9 275 1230 22 37 9,869 300 17 265 1245 22 36 9,783 300 25 263 1300 25 42 11,148 300 35 301 1315 29 47 12,583 300 45 340 1330 30 49 13,022 300 57 353 1345 31 51 13,462 300 68 365 1400 33 55 14,528 300 80 394 1415 36 59 15,594 300 94 424 1630 36 60 15,907 300 107 433 1445 39 64 16,897 300 122 460 1500 22 36 9,701 300 130 261 1515 0.9 1,4 677 300 65 10 IF CLOSE OR OPEN WINDOW READING IS OREATER THAN 00,000 mMw (80 Rtht), REPORT OPPSCALE P8anma IF CLOSE OR OPEN WINDOW READING 18 LESS THAN 0.2 mR/hr, REPORT SACMOROUNO READING ' IP AIR SAMPLE GROSS COUNT RATE IS OREATER THAN 000,000 CPM, REPORT OPPSCALE READING DEPOSmON CPM PROviOEO, ARE Cru OvER sACxoROvnD POR OTHER ESTASLISHED SAMPLE POINTS, REPORT AS POLLOWING

                              = POR CLOSEO AND OPEN WINDOW READING, REPORT IT 'AS POUND' READING
                              . POR AIR SAMPLE IDDINE COUNT RATE, REPORT IT 'sACMOROUNO COUNT RATE'.

l

t EMERGENCY PREPAREDNESS EXERCISE NRC EXERCISE FOR 1995 . i JULY 12 1995 i 0FFSITE RADIOLOGICAL DATA CDE CLOSED OPEN AIR SAMPLE BEGNO DEPostfl0N THYR 0!D WINDOW WINDOW GROSS COUNT COUNT RATE CPM / OOSE RATE 4/Q

         'CCATION
         .         f!ME       OR ndt/hr OR aft /hr RATE (CPM)                (CPM)    100 cm'2          (est/hr)        (Sec/M*3)

S 3(NNE) 1215 0.0 0.0 300 300 0 0 3.93E-06

1230 223 .368 96,049 300 84 2,653 1245 215 354 92,637 300 164 2,559 1260 213 351 91,805 300 244 2,536: 1315 244 t.02 M4,980 300 335 2,901 1330 2 76 55 118,824 300 439 3,285 1345 286 471 123,068 300 546 3,402 1360 2% 488 127,313 300 657 3,520 1415 320 527 137,598 300 777 3,805 1430 344 566 147,883 300 906 4,090 1445 351 578 150,903 300 1,037 4,174 1460 3 73 615 160,454 300 1,177 4,438 1515 211 348 91,021 300 1,256 2,514 1530 8.5 14.0 3,941 300 630 101 3 4(NNE) 1229 0.0 0.0 300 300 0 0 6.08E-07 1244 35 57 15,123 300 13 411 1259 33 55 14,595 300 25 396 1314 33 54 14,466 300 38 393 1329 38 62 16,505 300 52 449 1344 43 70 18,648 300 68 508 1359 44 73 19,306 300 85 527 1414 46 75 19,963 300 102 545 1429 50 82 21,555 300 120 589 1644 53 88 23,147 300 140 633 l 1459 54 89 23,615 300 161 646 1514 58 95 25,093 300 182 687

;                 .1529            33             54       14,344      .          300      194                   389 1544           1.3           2.2           864                 300       97                     16 8 7(NNE) 1306            0.0           0.0           300                 300         0                     0      1.96E 07 1321             11            18        5,069                 300         4                  132

1336 11 18 4,899 300 8 127 d

1351 11 17 4,858 300 12 126 4 1406 12 20 5,514 300 17 144 s 1421 14 23 6,204 300 22 164 1 1436 14 23 6,415 300 27 169 1 1451 15 24 6,626 300 33 175 1506 16 26 7,139 300 39 190 1521 17 28 7,651 300 45 204 1536 17 29 7,802 300 52 208 I 4 1551 19 31 8,277 300 59 221 l 1606 11 17 4,819 300 63 125

1621 0.4 0.7 481 300 31 5 3

I 1 1 IP CLOSE OR OPEN WW4DOW READNeo le GREATER THAN 00,000 nehr (80 RAwk REPORT OFFSCALE REAENNO I IP CLOst OR OPEN WesDOW READwoo is LESS THAN 0.2 n@hr, REPORT SACMOROUNO READ #80 2 IF AIR SAMPLE GROSS COUNT RATE IS OREATER THAN 000,000 CPhl, REPORT OPPSCALE READING DEPOSITION CPM PROVIDED, ARE CPM OVER SACMOROUND 1 POR OTHER ESTASUSHED SAMPLE POINTS, REPORT AS POLLOWW40 1

                                = POR CLOSED AND OPEN WINDOW READDIG, REPORT IT 'AS POUND' READING-POR AIR SAMPLE 10 DINE COUNT RATE, REPORT IT 'SACMOROUND COUNT RATE'.

i i

j ~ EMERGENCY PREPAREDNESS EXERCISE NRC EXERCISE FOR 1996 JULY 12,1996 i

                                        ' OFFSITE RADIOLOGICAL DATA AIR SAMPLE                                       CDE CLOSED        OPEN         GROSS          BKOND        DEPOSITION       THYROID l
 ^

WINDOW WINDOW COUNT COUNT RATE CPW DOSE RATE X/Q LOCATION TIME DR mRihr DR mr/hr RATE (CPM) (CPM) 108 cm1 kiR/hr) (SecM3) C-1E(NE) 1155 0.0 0.0 300 300 0 0 2.80E47 1210 0.1 0.2 345 300 0 1 1225 0.1 0.2 343 300 0 1 i 1240 0.1 0.2 343 300 0 1 l 1255 0.1 0.2 349 300 0 1 l 1310 0.1 0.2 356 300 0 2 1325 0.1 0.2 358 300 0 2 1340 0.1 0.2 360 300 0 2 i 1355 0.2 0.3 365 300 0 2 1410 0.2 0.3 369 300 0 2 1425 0.2 0.3 371 300 0 2 1440 0.2 0.3 375 300 1 2 1455 0.1 0.2 343 300 1 1 1510 0.0 0.0 302 300 0 0 C-3(NE) 1212 0.0 0.0 300 300 0 0 7.37E 09 , 1227 0.4 0.7 480 300 0 5 1242 0.4 0.7 473 300 0 5 1257 0.4 0.7 472 300 0 5 i 1312 0.5 0.8 496 300 0 5 1327 0.5 0.9 522 300 0 6

1342 0.5 0.9 530 300 1 6 1357 0.6 0.9 538 300 1 7 1412 0.6 1.0 558 300 1 7 1427 0.6 1.1 577 300 1 8 1442 0.7 1.1 583 300 1 8 1457- 0.7 1.2 600 300 1 8 1512 0.4 0.7 470 300 1 5 1527 0.0 0.0 307 300 1 0 C-4(NE) 1228 0.0 0.0 300 300 0 0 1.96E49 1243 0.1 0.2 348 300 0 1

! 1258 0.1 0.2 346 300 0 1 1313 0.1 0.2 346 300 0 1 } 1328 0.1 0.2 353 300 0 1 4 1343 0.1 0.2 360 300 0 2 1358 0.1 0.2 362 300 0 2 , 1413 0.1 02 364 300 0 2 1428 0.2 0.3 369 300 0 2 3 1443 0.2 0.3 374 300 0 2 ! 1458 0.2 0.3 376 300 0 2 1 1513 0.2 0.3 381 300 0 2 1528 0.1 0.2 346 300 0 1 1543 0.0 0.0 302 300 0 0 IP CLOSE OR OPEN WINDOW READING IS GREATER THAN 50,000 mR/hr (50 R/hr), REPORT OPPSCALE READING IP CLOSE OR OPEN WINDOW READING la LESS THAN 0.2 mR/hr. REPORT BACMGROUND READING IP AIR SAMPLE GROSS COUNT RATE IS GREATER THAN 500,000 CPM, REPORT OPPSCALE READING DEPOSITION CPM PROVIDED, ARE CPM OVER BACKGROUND POR OTHER ESTABUSHED SAMPLE POINTS, REPORT AS POLLOWING

                         . POR CLOSED AND OPEN WINDOW READING, REPORT IT 'AS POUND' READING
                         - POR AIR SAMPLE lOOINE COUNT RATE, REPORT IT 'BACMOROUND COUNT RATE'.

i 4 1~ Closed Open Air Sample BKGRND Sample Window Window Count Rate Count Rate

!     Location           mR/hr      mR/hr     CPM         CPM 2                                                                                                    l A3                 As Found   As Found  As Found   As Found                                    -

1 1 A4 As Found As Found As Found As Found l A5 As Found As Found As Found As Found

, l i 4 s 1 I ! i n l e I 4 l 1

WATERFORD 3 ANNUAL EXERCISE r- JULY 12,1995. ) Vill.- - DRILL TEAM ASSIGNMENTS - g e I l

r 4 i Y t s j Vlli-1

WATERFORD 3 ANNUAL EXERCISE

                                               -JULY 12,1995                                            .

DRILL TEAM ASSIGNMENTS CONTROLLERS . , HQ, . DRILL TEAM POSITION FACILITY NAME ). 1. Lead Controller ALL S. Lubinski

 !    2.        Control Room Controller                     SIMULATOR     W. Smith '
)      3.       TSC Controller                              TSC          A. Cilluffa p      4.        OSC Controller                              OSC          T. Moore
    . 5.        EOF Controller -                            EOF           B. Thigpen 7

6. Lead Controller Assistant / CR/TSC/ EOF . G. Perque Communications Controller 7,; Health Physics Controller -4 B. Goldman 4; 8. Dose Assessment Controller CR/TSC/ EOF S. Ramzy 1 9. Chemistry Controller CHEM M. Layton
- 10. Security Controller SECURITY J. Gremillion

! 11. Medical Controller HOSPITAL B. Crawley j 12.- ENC Controller ENC D. Koehler . MONITORS

fiQ. - DRILL TEAM POSITION _F_ACILITY N6ME,: 1. Simulator Operator SIMULATOR B. Hardin

! 2. Control Room Monitor SIMULATOR C. Rogers

3. Admin. NPO TSC TBD

4. NAO Monitor IN-PLANT TBD

5. NAO Monitor IN-PLANT TBD

6. NAO Monitor IN-PLANT TBD

7. Control Room Communications SIMULATOR G. Miller L

Monitor > ! 8. .TSC Communications Monitor TSC ' J. Kieff l 9. EOF Communications Monitor EOF G. Pohlmann i 10. TSC Dose Assessment Area Monitor TSC K Boudreaux ! 11. Health Physics Coordinator Monitor TSC D. Stevens

12. EOF Dose Assessment Monitor EOF D. Rieder: 13. Radiological Assessment Coord. EOF D.Boan '; Monitor i 14. TSC Technical Assessment Monitor TSC B. Porter; 15. EOF Technical Assessment Monitor EOF J. Holman; 16. Licensing Coordinator Monitor - EOF R. Prados; 17. Offsite Technical Advisor Monitor EOF C. Taylor; 18. . Chemistry Monitor CHEM D. Marse >

1 9 h Vill-2

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 . DRILL TEAM ASSIGNMENTS (CONTD)- 4 MONITORS (CONT'D)

  ' M      DRILL TEAM POSITION                   FACILITY                             fieME f    19. Onsite Medical Monitor                W3/ ;

K Fedrick HOSPITAL

20. Offsite Medical Monitor HOSPITAL B. Gilboy

~

21. Security Monitor .

SECURITY E. Burgett j 22. Entergy System Liaison Monitor EOF L. Groseclose

23. Health Physics Monitor IN-PLANT M. Moe

24. Health Physics Monitor IN-PLANT D. Newman

. 25. Health Physics Monitor IN-PLANT T. McLain j 26.- _ Health Physics Monitor IN-PLANT M. VanDerHorst l 27. OSC Health Physics Monitor OSC P. Kelly , i- _ 28.' Field Monitoring Team "A" Monitor -4 F. Davis j 29. Field Monitoring Team "B" Monitor -4 R. McLendon i 30. Field Monitoring Team "C" Monitor -4 J. Hand

31. ; Assembly Area Supervisor Monitor OSC M. Wilson: 32. OSC Monitor OSC B. Peters

{ 33. Mechanical Repair Team Monitor OSC H. Willie

34. Mechanical Repair Team Monitor OSC B. Petit

35. Mechanical Repair Team Monitor OSC L. Chenier

.i 36. Electrical Repair Team Monitor OSC A.Haas l 37. Electrical Repair Team Monitor OSC R. Thorne

38. I&C Repair Team Monitor OSC G. Ray

39. l&C Repair Team Monitor OSC S. Brown

' l I l, i 4 9 s l Vill-3

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          . I                                                                                                                                         4

{ - WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 . l IX. - . DRILL TEAM INSTRUCTIONS - , i 1-i 2 i 1 l-i' j

i' t.

1 I i s.. t t. 4 4 1 4: i f i' i 4 l 4 IX-1

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 . , IX.' ~ DRILL TEAM INSTRUCTIONS CONTROL i FR INSTRUCTIONS i' Controllers are accountable to the Lead Controller. At least one Controller is assigned to each key area of emergency response. The Controllers are responsible for i controlling the continuity of the scenario in their assigned area by introducing messages or data at appropriate times. The Controllers guard against actions that would adversely affect actual plant operations or that would significantly affect the scenario timeline. Controllers are responsible for the conduct of the Monitors in their assigned ' i area.

1. All Controllers will have completed Drill Team Training at least once within the i

12 month period preceding the exercise. Drill Team Training, for personnel who { haven't completed this requirement, is scheduled for Tuesday, June 27,1995 at l 10:00 AM in the Administration Building Assembly Room. j 2.. Each Controller shall attend the applicable package walkdown meeting for their area. ! 3. Each Controller shall attend the Pre-Exercise Briefing in the Visitor Center l Auditorium at 1:00 PM on July 11,1995. i

4. Each Controller shall attend the NRC Exercise Briefing at 3:00 PM in the Riverland Credit Union Building Emergency Planning Conference Room on

July 11,1995.

L 5.' Controllers will be on station at least 15 minutes prior to the start of the exercise j activities in their assigned areas on July 12,1995.

6. Each Controller will have, as part of their package, cue cards and copies of time related data parameters. This information is to be issued, as appropriate, to the Exercise participants only after the. participant has performed all of the activities prerequisite to the point where the data would become available under actual conditions. The actual giving of the cue card to the participant should be limited i to those instances which are specifically called for by the cue card or when announcements or procedure substitutions are required by the exercise package, l
l
7. Radiological data is normally provided only for areas affected by the postulated i

i scenario conditions, if radiological data is not provided for an area, it may be i assumed that the area is not affected by scenario conditions and the { . participants should use actual radiological measurements. I 4 3 IX-2.

i WATERFORD 3 ANNUAL EXERCISE i JULY 12,1995 . l IX. DRILL TEAM INSTRUCTIONS (CONT'D) - 8 4 CONTROLLER INSTRUCTIONS (CONT'D) l ~

8. Controllers will not provide information to the exercise participants regarding scenario development or the expected resolution of the problem. Exercise participants shall obtain information through the emergency organization exercising their own judgment in problem solving.

l

9. Controllers should identify the Federal Evaluators (s) in their area. Make sure that they are reasonably aware of all your actions and those of the participants.

Answer any questions the Evaluators may have regarding the scenario F activities.

10. Some of the exercise participants may insist that certain parts of the scenario are unrealistic. The Controllers have the authority to clarify these areas in a manner such that the participant is able to continue without divulging the i scenario content.

i j 11. Each Controller shall take detailed notes, using the Drill / Exercise Critique Sheet,

regarding the progress of the exercise and the response of the exercise participants in their assigned area. Each Controller should note the arrival and departure times of exercise participants, the times of major activities or milestones, the results of significant decision making discussions and problem areas encountered. Controller comments should address the response of the exercise participants necessary to meet specific exercise objectives, probable
causes for problem areas encountered and the evaluation elements listed in the Drill / Exercise Evaluation Checklists.

$ 12. Safety takes precedence over all other exercise requirements. Drill Control : Team members should ensure that the exercise participants follow all safety l

rules, take rio u.1necessary risks, use all safeguards and protective equipment
provided ano make safety a part of their responsibilities. {

4 4

13. Controllers do not have to follow the radiation exposure control practices implemented for the simulated exercise radiological conditions specified in the

scenario. However, the participants must follow all radiological protection rules. l Controllers and participants entering normal plant radiation controlled areas 1 must observe all normal radiolooical control practices. ~

14. The exercise is expected to be completed at about 1:00 PM, July 12,1995. At 4

this time, Controllers will meet in their respective areas with the Monitors and participants for the post exercise area critiques. Controllers will pass out the Drill / Exercise Participant Comment Sheets for feedback from the participants. The Controllers and Monitors will also discuss the participants' response in their areas. j i , IX-3

WATERFORD 3 ANNUAL EXERCISE

JULY 12,1995 .

, IX. DRILL TEAM INSTRUCTIONS (CONT'D) CONTROLLER INSTRUCTIONS (CONT'D)

              ' 15.'  Controllers will meet with the Monitors assigned to their area on July 13,1995 at 7:00 AM in the Administration Building Assembly Room for the purpose of preparing their exercise evaluation. Each Controllerwill fully debrief each of the Monitors and/or observers assigned to their area and complete the Drill / Exercise Evaluation Report Sheets and the Drill / Exercise Controller Comments Sheets.

i 16. Controllers will attend the Controller Debriefing on July 13,1995 at 4 approximately 8:30 AM in the Administration Building Assembly Room. Each Controller will debrief Emergency Planning on the activities in their assigned area. Controllers may choose to invite Monitors to attend this debriefing to

assist in their presentation.

l 17. Controllers may be asked to attend the Participants Critique at 2:00 PM on July 14,1995 in the Administration Building Assembly Room. During this i critique, Controllers may assist Emergency Planning management in briefing the exercise participants on the evaluation of the exercise. '

18. Drill Control Team Documentation - Exercise Controllers will use the following '

l documents to generate their evaluation of the participants and equipment l performance observed: i F a. Drill / Exercise Critique Sheet - This form is used by the Drill Control Team to maintain a comprehensive chronological description of the response, events I and activities observed in their assigned area. j

b. Drill / Exercise Evaluation Checklist - These checklists provide specific j

evaluation criteria for each area of response and should be used as a guide ! in the evaluation of the exercise. ' c. Drill / Exercise Evaluation Report Sheet - This form will be completed by the Controllers based on personal observations and the observations made by I the Monitors in your assigned area during the exercise. The Controllers will list areas of emergency response requiring improvement and any equipment j deficiencies noted during the exercise. 3 i

d. Drill / Exercise Controller Comment Sheet - This form is completed by the Controllers based on personal observations and the observations made by the Monitors in your assigned area during the exercise. The Controllers will
document exceptional performance and any minor problem areas which are not programmatic in nature.

l l l l

IX-4 I

                                - WATERFORD 3 ANNUAL EXERCISE JULY 12,1995                                            .

IX. DRILL TEAM INSTRUCTIONS (CONT'D)

       ' MONITOR INSTRUCTIONS Monitors are accountable to the Controller for their assigned area. Generally, at least one Monitor is assigned for each event or sequence of events for which the exercise participants need information or data, or to each location where an action critical to the    -l scenano is expected to occur. The Monitors are responsible for introducing messages or data at appropriate times as speafied in the scenario package. The Monitors guard against actions which would adversely affect actual plant operations or that would

significantly affect the scenario timeline. Monitors are not authorized to deviate from the activities as specified in the scenario package without the approval of the Controller for their area. If the actions of the participants would adversely c%d the continuity of the scenario or actual plant operations, the Monitors shall notify their Controller immediately. <

1. All Monitors will have completed Drill Team Training at least once within the 12 month period preceding the exercise. Drill Team Training, for personnel who haven't completed this requirement, is scheduled for Tuesday, June 27,1995 at 10:00 AM in the Administration Building Assembly Room.

2. Each Monitor shall attend the applicable package walkdown meeting for their area. I l

3. Each Monitor shall attend the Pre-Exercise Briefing in the Visitor Center Auditorium at 1:00 PM on July 11,1995. {

i a

4. Monitors will be on station at least 15 minutes prior to the start of the exercise activities in their assigned areas on July 12,1995.

! 5. Each Monitor will have, as part of their package, cue cards and copies of time related data parameters. This information is to be issued, as appropriate, to the l Exercise participants oniv after the participant has performed all of the activities j prerequisite to the point where the data would becoms available under actual i i conditions. The actual giving of the cue card to the participant should be limited l to those instances which are specifically called for by the cue card or when

j announcements or procedure substitutions are required by the exercise package.
6. Radiological data is normally provided only for areas affected by the postulated scenario conditions, if radiological data is not provided for an area, lt may be l assumed that the area is not affected by scenario conditions and the
participants should use actual radiological measurements. {

' i 1 IX-5 L

4 WATERFORD 3 ANNUAL EXERCISE

                                               . JULY 12,1995                                                .

4

IX. DRILL TEAM INSTRUCTIONS (CONT'D)

MONITOR INSTRUCTIONS (CONT'D) t i 7. Monitors will not provide information to the exercise participants regarding i scenario development or the expected resolution of the problem. Exercise i participants shall obtain information through the emergency organization

exercising their own judgment in problem solving.: 8. Monitors should identify the Federal Evaluators (s) in their area. Make sure that j they are reasonably aware of all your actions and those of the participants.; Answer any questions the Evaluators may have regarding the scenario j activities.; 9. Some of the exercise participants may insist that certain parts of the scenario j are unrealistic. Any questions pertaining to portions of the scenario which may be considered unrealistic by the participants will be resolved by the Controller for that area, except in cases specifically addressed in the scenario package.

! 10. Each Monitor shall take detailed notes, using the Drill / Exercise Critique Sheet, regarding the progress of the exercise and the response of the exercise L participants in their assigned area. Each Monitor should note the arrival and

departure times of exercise participants, the times of major activities or 4

milestones, the results of significant decision making discussions and problem ' areas encountered. Monitor comments should address the response of the exercise participants necessary to meet specific exercise objectives, probable

                  'causes for problem areas encountered and the evaluation elements listed in the Drill / Exercise Evaluation Checklists.

! 11. Safety takes precedence over all other exercise requirements. Drill Control Team members should ensure that the exercise participants follow all safety

rules, take no unnecessary risks, use all safeguards and protective equipment
provided and make safety a part of their responsibilities.
12. Monitors do not have to follow the radiation exposure control practices j implemented for the simulated exercise radiological conditions specified in the scenario. However, the participants mys.t follow all radiological protection rules.

i Monitors and participants entering normal plant radiation controlled areas must observe all normal radioloolcal control oracNees. i

13. The exercise is expected to be completed at about 1:00 PM, July 12,1995. At i this time, Monitors will meet in their respective areas with the Controllers and participants for the post exercise area critiques. Field Team Monitors will meet at the EOF, with the field teams.

IX-6 a w--a- w

WATERFORD 3 ANNUAL EXERCISE JULY 12,1995 . . l

;       .IX.   . DRILL TEAM INSTRUCTIONS (CONT'D) l .

MONITOR INSTRUCTIONS (CONT'D)

14. Immediately upon termination of the exercise, the Monitors will assist the Controllers in collecting all documentation generated by the participants during the exercise. This documentation should include all records, logs, forms,

j. memos and samples collected by the field monitoring teams. j

15. The Monitors will meet with the Controllers on July 13,1995 at 7:30 AM in the !

Administration Building Assembly Room for the purpose of providing their j exercise evaluation comments to the Controllers. Each Monitor will be fully j debriefed by the Controllers to complete the evaluation for each area. t j 16. Monitors, at the request of the Controller, may attend the Controller Debriefing 4 on July 13,1995 at approximately 8:30 AM in the Administration Building Assembly Room.

17. Drill Control Team Documentation - Exercise Monitors will use the following j documents to generate their evaluation of the participants and equipment performance observed:

a. Drill / Exercise Critique Sheet - This form is used by the Drill Control Team j'

to maintain a comprehensive chronological description of the response, events and activities observed in their assigned area. I

b. Drill / Exercise Evaluation Checklist - These checklists provide specific evaluation criteria for each area of response and should be used as a guide in the evaluation of the exercise.

4 i IX-7

WATERFORD 3 ANNUAL EXERCISE o JULY 12,1995 . IX. DRILL TEAM INSTRUCTIONS (CONT'D) OBSERVER INSTRUCTIONS Observers are personnel who serve no evaluation, drill control or participatory function l l in the exercise. Observers will report to the Controller for the area being observed and l

will not interfere with the exercise activities. I l: 1. The exercise event times and scenario are con 5dential and should be kept ;

I confidential throughout the exercise. Observers shall not discuss them with the ;

j. exercise participants.

                 ' 2.         Arm bands are wom during the exercise to identify the function of personnel as follows:

RED Arm Band ' - Controllers GREEN Arm Band - Monitors : YELLOW Arm Band - Participants BLUE Arm Band - Evaluator . WHITE Arm Band - - Observers Otiservers shall obtain a white arm band from the Controller in the area being

                          ' observed and wear it throughout the exercise.

3. Observers shall not participate in the exercise nor interfere with the actions taken by the participants, Controllers, Monitors or evaluators.

F 4. Within emergency response facilities, Observers shall position themselves such 1 1 ' that status boards, charts, access to equipment, etc. are not blocked. if '

congestion becomes a problem, Observers may be asked to leave temporarily by a Controller, Monitor or participant.

5. During the exercise, Observers shall direct all questions to a Controller or Monitor. Only after the exercise has been terminated may the Observers direct 3 questions to the participants.

i a i i 4 IX-8

              ,=                    .-

4 WATERFORD 3 ANNUA 1. EXERCISE JULY 12,1995 . IX. DRILL TEAM INSTRUCTIONS (CONT'D) 1 OBSERVER INSTRUCTIONS (CONT'D) J

6. Safety takes precedence over all other exercise requirements. Observers

[ should heed the following safety guidelines:

a. In cases of accidents / injury, report to a Controller or Monitor and assist 4 as required.

b. Report any hazardous condition to a Controller or Monitor.

c. Follow general safety practices. Make safety a part of your responsibilities.

d. In the case of a fire, or other actual emergency, follow the instructions of the Controller or Monitor in the area being observed.

i e. Do not touch, or attempt to operate, any equipment in the emergency j facilities. If time permits, the Controller or Monitor may demonstrate the l use of emergency equipment for you. i a I l IX-9

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

l

                                        .WATERFORD 3 ANNUAL EXERCISE ~

JULY 12,1995 - , , X.. REFERENCES [ A. Manuals < [ , ..: W3 SES Emergency Plan :

                 ..       W3 SES Final Safety Analysis Report

} j- B. Procedures W3 SES Emergency Plan implementing and Supporting' Procedures Plant Operating Manuals

           . C.'    Guidance Documents                            a 1'                                                        .

NUREG-0654/ FEMA-REP-1, Rev.1, Criteria for Preparation and Evaluation of L . Radiological Emergency Response Plans and Preparedness in Support

! of Nuclear Power Plants 4

           . D. Task Cards i

Periodic Drill Requirements Monthly

                         . 10 mile EPZ Communication Drill (Repetitive Task # 000060) i Quarterly
                         . . 50 mile EPZ Communication Drill (Repetitive Task # 000062)

Semi-Annual

                         . Health Physics Drill Sample Analysis - Rad. Measurement

_ (Repetitive Task # 000065) l i.

j Annual

                         . Plant Environmental Radiation Monitoring Drill l                              (Repetitive Task # 000063)

Plant liquid PASS sample analysis (Repetitive Task #000066) i i i

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