Drill 99-08 Emergency Preparedness Exercise on 991013

ML20217F289
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Site:	Waterford
Issue date:	10/13/1999
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THE FOLLOWING INFORMATION IS CONFIDENTIAL. ANY USE OF THIS INFORhfATION SHALL BE LIh11TED 7D DEVELOPhiENT AND APPROVAL OF THE WATERFORD 3 EhfERGENCY EXERCISE, AND TO THE EXTENT NECESSARY, DETERhflNATION OF THE BfPACT OF THIS EXERCISE ON THE SAFE AND RELIABLE OPERATION OF THE PLANT.

DO NOT LEA VE THIS AIATERIAL UNATTENDED OR IN AN UNSECURED LOCATION AT ANY TIhfE, OR ALLOW THE CONTENTS 7D DE VIEWED BY PERSONS WHO WILL RESPOND 7D THE EXERCISE.

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WARNINGl THE FOLLOWlNG INFORMATIONIS CONFIDENTIAL. ANY USE OF THIS 1NFORMATION SHALL BE LBilTED TD DEVELOPMENT AND APPROVAL OF THE WATERFORD 3 EMERGENCY EXERCISE, AND TO THE EXTENT NECESSARY, DETERMINATION OF THE BfPACT OF THIS EAERCISE ON THE SAFE AND RELIABLE OPERATION OF THE PLANT.

DO NOT LEA VE THIS MATERIAL UNATTENDED OR IN AN UNSECURED LOCATION d ' ANY TBfE, OR ALLOW THE CONTENTS 7D BE VlEWED BY PERSONS WHO WlLL RESPOND TO THE EXERCISE.

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F WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

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- WATERFORD 3 STEAM ELECTRIC STATION DRILL #99 l , EMERGENCY PREPAREDNESS EXERCISE -

OCTOBER 13,1999 PARTICIPANTS l l- -

ENTERGY OPERATIONS, INC, 1

. ENTERGY LOUISIANA STATE OF LOUISIANA ST. CHARLES PARISH ST. JOHN THE BAPTIST PARISH i APPROVAL: '

EMERGENCY PLANNING MANAGER APPROVAL GENERAL MANAGER - PLANT OPERATIONS APPROVAL:

VICE PRESIDENT, OPERATIONS l

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4 WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 TABLE OF CONTENTS l- 1. INTRODUCTION A. Abbreviations ll. . OBJECTIVES 111. GUIDELINES A. General Guidelines B. Safety Precautions C. Simulation Guidelines IV. NARRATIVE

SUMMARY

A. Exercise Mockups V. DRILL SCENARIO SEQUENCE OF EVENTS VI. CUE CARDS Vll. CHARTS l GRAPHS AND TABLES A. Reactor Plant Data B. Inplant Health Physics Data C. . Chemistry Data D. Meteorological Data E. ' Onsite Radiological Data >

F. Offsite Radiological Data i

Vill.' DRILLTEAM ASSIGNMENTS i IX. DRILL TEAM INSTRUCTIONS -

A. Controller instructions B. Monitor Instructions C. Observer instructions X. REFERENCES i

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L WATERFORD 3 BIENNIAL EXERCISE OCTOBER 13,1999.

l. INTRODUCTION in the interest of assuring the health and safety of the general public in the area l surrounding the Waterford 3 Steam Electric Station, in the event of a radiological j emergency, Waterford 3 conducts axercises jointly with Federal, State and local l agencies on a Biennial basis.

L This manual contains the scenario of activities and supporting data describing the Waterford 31999 Biennial Emergency Preparedness Exercise.

l- The scenario was developed by postulating events that will require response by the  !

l several Waterford 3 and Entergy Louisiana emergency response organizations.

During this exercise, the licensee and support organizations will respond to the postulated events and conditions that have been selected to provide the level of activity necessary to meet the exercise objectives.

l The State of Louisiana, and support parishes, St. Charles and St. John the Baptist will participate fully in the Biennial exercise. T he level of involvement of these govemment agencies is more fully described in the separate exercise package describing the offsite scenario developed by the State of Louisiana.

Exercise participants will have no prior knowledge of the sequence of events or ,

radiological release information. The exercise itself will allow those individuals and agencies assigned to respond during a radiological emergency to demonstrate their performance according to current emergency preparedness plans and procedures. l l

The scenario itself is a mechanism by which selected drill controllers can initiate and evaluate the activities of drill participants. The drill will be initiated at the Waterford 3  !

SES at 7:55 a.m. on October 13,1999 and is expected to last approximately 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />.

l Participating organizations are shown in Section Ill, Guidelines, of this manual.

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WATERFORD 3 BIENNIAL EXERCISE OCTOBER 13,1999 A. ABBREVIATIONS ALARA -

As Low As Reasonably Achievable ANO -

Arkansas Nuclear One BKR -

Breaker CAA -

Controlled Access Area CAS -

Central Alarm Station CASCO -

Central Atarm Station Console Operator CIAS -

Contoinment Isolation Actuation Signal CNTMT -

Containment CRS -

Control Room Supervisor CS -

Containment Spray CSP -

Containment Spray Pump CVAS -

Controlled Ventilation Area System CVCS -

Chemical Volume Control System DEI - Dose Equivalent lodine DNBR -

Departure from Nucleate Boiling Ratio DPC -

Dose Projection Coordinator DPM -

Duty Plant Manager DPM' -

Disintegrations Per Minute EAB -

Exclusion Area Boundary EAL -

Emergency Action Level EC -

Emergency Coordinator ECC -

Emergency Control Center ECCS -

Emergency Coro Cooling System ED -

Electronic Dosimetry EDG - Emergency Diesel Generator EFAS -

Emergency Feedwater Actuation Signal EFAT -

Emergency First Aid Team EFWP -

Emergency Feedwater Pump l ENC -

Emergency News Center ENS -

Emergency Notification System I

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WATERFORD 3 BIENNIAL EXERCISE OCTOBER 13,1999 A. ABBREVIATIONS EOC -

Emergency Operations Center EOF. -

Emergency Operation,s Facility EPZ. -

Emergency Planning Zone ERDS -

. Emergency Response Data Sy:, tem 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 Safety injection IC- -

Initiating Condition IHL -

Industrial Hotline INST. -

Instrument LDEQ -

Louisiana Department of Environmental Quality (Formerly Louisiana Radiation Protection Division)

LLEA- -

Local Law Enforcement Agency LOCA -

Loss of Coolant Accident LOEP --

Louisiana Office of Emergency Preparedness LPSI -

Low Pressure Safety injection MARMOND -

Meteorological and Radiation Monitoring Display MCC -

Motor Control Center MSL -

Mean Sea Level MSIS -

Main Steam isolation Signal MSIV -

Main Steam isolation Valve l

MTR - Motor NAO -

Nuclear Auxiliary Operator NG -

Noble Gas -

NPO - Nuclear Plant Operator (RO)

NRC - Nuclear Regulatory Commission NWS -

National Weather Service I-3 m

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WATERFORD 3 BIENNIAL EXERCISE l OCTOBER 13,1999  !

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A. ABBREVIATIONS l OHL -

Operational Hotline OSC -

Operational Support Center PAP -

Primary Access Point PM -

Preventative Maintenance PME -

Plant Maintenance Electrical PMI -

Plant Maintenance instrumentation PMM -

Plant Maintenance Mechanical PZR -

Pressurizer RAB -

Reactor Auxiliary Building RAS. -

Recirculation Actuation Signal RCB -

Reactor Containment Building RCP -

Reactor Coolant Pump RCS -

Reactor Coolant System

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RMS -

Radiation Monitoring System {

RO -

Reactor Operator RVLM -

Reactor Vessel Level Monitor j RWP -

Radiation Work Permit RWSP -

Refueling Water Storage Pool SAS -

Secondary Alarm Station SASCO -

Secondary Alarm Station Console Operator SCBA -

Self Contained Breathing Apparatus SDC -

Shutdown Cooling SG -

Steam Generator SIAS -

Safety injection Actuation Signal SIS -

Safety injection System SPDS -

Safety Parameter Display System SRD -

Self Reading Dosimeter SRO -

Senior Reactor Operator SS - Shift Superintendent I SSS- -

Security Shift Supervisor TSC -

Technical Support Center l-4 i i I

i WATERFORD 3 BIENNIAL EXERCISE OCTOBER 13,1999 ,

• l A. ABBREVIATIONS I i

VNS -

Voice Notification System W3SES Waterford 3 Steam Electric Station XFMR- -

Transformer XFRMR -

Transformer l

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I l WATERFORD 3 BIENNIAL EXERCISE I OCTOBER 13,1999 1

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 i

Louisiana Department of Environmental Quality (LDEO), 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 1999 Emergency Preparedness i Exercine at the Waterford 3 Steam Electric Station, which is scheduled to be conducted on October 13,1999.

A. FOR THE ENTERGY OPERATIONS, INC. (LICENSEE) EMERGENCY RESPONSE ORGANIZATION:

1. Demonstrate the ability of the emergency organization to correctly assess the simulated accident conditions and declare the appropriate emergency classifications in accordance with EP-001-001, Recognition and Classification of Emergency Conditions. (B.2, D.1, D.2,1.1,1.2)

2. Demonstrate the ability to make appropriate initial protective action recommendations in accordance with EP-002-052, Protective Action Guidelines.

(B.2, 8.4, J.7, J.10m)

3. Demonstrate the ability to mobilize the Onsite (TSC and OSC) and Nearsite (EOF) emergency response personnel in accordance with the applicable classification procedures (EP-001-010, Unusual Event; EP-001-020, Alert; EP-001-030, Site Area Emergency; EP-001-040, General Emergency) and; EP-002-015, Emergency Responder Activation. (A.1e, B.1, B.5, B.7, E.2, F.1e, H.1, H.4) l 4. Demonstrate the ability to activate the Technical Support Center (TSC) in accordance with EP-002-100, Technical Support Center (TSC) Activation, Operation and Deactivation. (B.1-B.5, B.7, E.2, F.1.e, H.1, H.4, N.1.b) l S. Demonstrate the ability to activate the Operational Support Center (OSC) in j accordance with EP-002-101, Operational Support Center (OSC) Activation, Operation and Deactivation. (B.1-B.5, B.7, E '), F.1.e, H.1, H.4, N.1.b) '

6. Demonstrate the ability to coordinate repair tem activities between the TSC, the OSC and -4 Control Poira in accordance with EP-002-130, Emergency Team '

Assignments. (0.4.e)

7. Demonstrate the ability to activate the Emergency Operations Facility (EOF) in  !

, accordance with EP-002-102, Emergency Operations Facility (EOF) Activation, Operation and Deactivation. (B.1-B.5, B.7, E.2, F.1.e, H.2, H.4, N.1.b) l 8. Demonstrate the ability to fully alert, mobikze and activate the Emergency News l l

Center (ENC) emergency response personnel (including the Rumor Control Center) {

in accordance with EPP-423, Emergency News Center Activation, Operation and l Deactivation. (B.7.d, E.2, F.1.e, G.3, G.4, H.4, N.1.b)  !

9. Demonstrate the ability to notify and update federal. state and local offsite agencies using primary and alternate methods in accordance vJth EP-002-010, Notifications and Communications. (B.2, B.4, E.1-E.4, F.1, F.2, J.7, N.2.a)

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l WATERFORD 3 BIENNIAL EXERCISE p ,

OCTOBER 13,1999 I I

II. OBJECTIVES (CONTD) I l

10. _ Demonstrate the ability to assess changes in protective action recommendations and make timely notification to offsite agencies in accordance with EP-002-052, Protective Action Guidelines and with EP-002-010, Notifications and '

Communications. (Exercise Weakness 50-382/9718-03)

11. Demonstrate the ability of the senior facility managers to direct, coordinate and control the activities of their facilities throughout the exercise. (B.1-B.3, B.5)

12. Demonstrate the ability tu transfer command and control of the emergency response

, in a timely manner in accordance with EP-002-100, Technical Support Center (TSC)  ;

Activation, Operation and Deactivation, and EP-002-102, Emergency Operations j Facility (EOF) Activation, Operation and Deactivation. (A.1.d, A.2.a. A.4,8.3-5) i

13. Demonstrate the adequacy of facilities, equipment, displays and other materials to support emergency operations. (H.1, H.2, H.5, H.6, H.9) 14 Demonstrate adequate and effective use of emergency communications equipment and communications procedures and methods necessary to establish and maintain communications with:

a) All Waterford 3 emergency response facilities. (E.2, F.1.d) b) Parish, State and Federal agancies. (C.1, E.4, F.1.a, F.1.b, F.1.c, N.2.a) c) Radiological Field Monitoring 1 reams (Primary & Attemate Methods). (F.1.d, H.6, H.12) d) In-plant emergency teams. (H.9) e) The selected offsite assembly area. (J.1) f) Local and industry emergency support organizations, as required. (E.4, F.1.a F.2, H.6)

15. Demonstrate the ability to monitor and assess onsite radiological conditions and control exposure of emergency response personnelin accordance with EP-02-030, Emergency Radiation Exposure Guidelines and Controls, EP-002-031, In-Plant Radiological Controls and Surveys During Emergencies, EP-002-032, Monitoring and Contamination, and EP-002-034, Onsite Surveys During Emergencies. (K.1, K.2, K.3, K.5, K.6)

16. Demonstrate the ability of the offsite radiological monitoring field teams to collect and report radiological field data, including environmental samples and surveys in accordance with EP-002-060, Radiological Field Monitoring, and EP-002-061, l Emergency Environmental Monitoring. (H.7,1.3,1.4,1.7-l.9, N.2.d) l- 17. Demonstrate the ability to perform offsite dose projection calculations in accordance l with EP-002-050, Offsite Dose Assessment (Manual), and/or EP-002-051, Offsite Dose Assessment (Computerized). (E.3, E.4, H.12,1.3, l.4, l.6,1.8, l.9, l.10, J.7, N.2.d)

18. Demonstrate coordination of protective action decision-making activities with NRC (if participating) and LDEQ in the Emergency Operations Facility. (J.7, K.1-K.3, K.5, K.6, N.2.a N.2.d)

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WATERFORD 3 BIENNIAL EXERCISE OCTOBER 13,1999 II. OBJECTIVES (CONT'D)

19. Demonstrate the ability to accurately assess the accident conditions and implement f

effective accident mitigation decision-making activities. (l.1,1.2) i

20. Demonstrate the ability of the emergency organization to perform re-classification (downgrade) decision-making and to de-escalate emergency response activities in )

accordance with EP-001-001, Recognition and Classification of Emergency Conditions, and EP-002-170, Recovery, as necessary. (D.1, D.2, l.1,1.2)

21. Demonstrate the ability to perform a Protected Area evacuation and offsite assembly by evacuating non-essential personnelin the Protected Area to parking lots and sending a selected group of personnel to an offsite assembly area. (J.1-J.5)

22. Demonstrate the ability to perform accountability in the Protected Area by providing names of missing persons to the TSC Supervisor within 30 minutes after a site evacuation has been directed in accordance with EP-002-190, Personnel Accountability. (J.5)

23. Demonstrate the ability to perform continuous accountability activities for the onshift, onsite and nearsite emergency organizations in accordance with EP-002-190, Personnel Accountability, and EP-002-102, Emergency Operations Facility (EOF)

Activation, Operation and Deactivation. (J.5)

24. Demonstrate the ability to conduct a post-exercise critique to determine areas requiring additionalimprovements in accordance with EP-003-020, Emergency Preparedness Drills and Exercises. (N.4, N.5)

B.

LOUISIANA DEPARTMENT OF ENVIRONMENTAL QUALITY (LDEQ) 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 direct and control emergency operations. (FEMA OBJECTIVE #3)

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

5. Demonstrate the capability to continuously monitor and control radiation expowre to emergency workers. (FEMA OPJECTIVE #5)

6. Demonstrate the capability to develop dose projections and protective action recommendations regarding evacuation and sheltering. (FEMA OBJECTIVE #7)

7. 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. Note: This is a " Scenario-dependent" objective, and will be demonstrated as " Talk-through" if the scenario does not warrant it. (FEMA OBJECTIVE #14) 11 3

WATERFORD 3 BIENNIAL EXERCISE OCTOBER 13,1999

11. OBJECTIVES (CONTD)

B. LOUISIANA DEPARTMENT OF ENVIRONMENTAL QUALITY (LDEQ) (CONT'D)

8. Demonstrate the capability to maintain staffing on a continuous,24-hour basis through En actual shift change. Note: This objective will nM be demonstrated at the State Emergency Operations Center (EOC). (FEMA OBJECTIVE #30)

C. LDEO RADIOLOGICAL FIELD MONITORING TEAMS

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, diso'ays and other materials to support emergency operations. (FEMA OBJECTIVE '#2)

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

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

5. Demonstrate the appropriate use of equipment and procedures for determining field radiation measurements. (FEMA CBJECTIVE #6)

6. Demonstrate the appropriate use of equipment and procedures for the measurement of airborne radiciodine concentrations as low as 10# (0.0000001) microcuries per cubic centimeter in the presence of noble gases and obtain samples of particulate activity in the airbome plume. (FEMA OBJECTIVE #8)

7. Demonstrate the capability to maintain staffing on a continuous,24-hour basis 4 through an actual shift change. Note: Only two teams per shift will demonstrate field activities. Part of the demonstration may be talk-through. (FEMA OBJECTIVE '

1. 30)

D. LDEO RADIOLOGICAL LABORATORY

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) l

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 continuously monitor and control radiation exposure to emergency workers. (FEMA OBJECTIVE #5) i 5. Demonstrate laboratory operations and procedures for measuring and analyzing i samples. (FEMA OBJECTIVE #25)

6. Demonstrate the capability to maintain staffing on a continuous,24-hour basis through an actual shift change. Note: Part of the Laboratory demonstration will be out-of-sequence but on the same day as the exercise. (FEMA OBJECTIVE #30) l 11- 4

i l WATERFORD 3 BIENNIAL EXERCISE OCTOBER 13,1999

11. OBJECTIVES (CONT'D)

E. STATE EMERGENCY OPERATIONS CENTER (EOC)

1. Demonstrate the capability to alert and fully mobilize personnel for both emergency facilities and fir.:d operations. Demonstrate the capability to activate and staff

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emergency facilities for emergency operations. Note: Only the Department of l Environmental Quality and the Department of Health and Hospitals will report to the

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EOC during mobilization of the State EOC by the Louisiana Office of Emergency Preparedness (LOEP). (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 make timely and appropriate protective action decisions (PAD). Note: Authorization whether or not to administer Potassium lodide (Kl) to Emergency Workers (EW) and institutionalized individuals is the only

" Decision" made at the State EOC. (FEMA OBJECTIVE #9)

F. ST, CHARLES EMERGENCY OPERATIONS CENTER (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 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 continuously monitor and control radiation exposure to emergency workers. (FEMA OBJECTIVE #5)

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

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)

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WATERFORD 3 BIENNIAL EXERCISE l OCTOBER 13,1999 I

I l ll. OBJECTIVES (CONT'D) l l F. ST. CHARLES EMERGENCY OPERATIONS CENTER (EOC) (CONT'D)

9. . Demonstrate the capability and resources necessary to implement appropriate protective actions for special populations. Note: This is a " Scenario-dependent" objective, and will be demonstrated as " Talk-through"if the scenario does not warrant it. (FEMA OBJECTIVE #15)

10. Demonstrate the organizational capability and resources necessary to control evacuation traffic flow and to control access to evacuated and sheltered areas.

Note: This is a " Scenario-dependent" objective, and will be demonstrated as " Talk-through"if the scenario does not warrant it. For the purpose of the exercise, only I one team will actually deploy and demonstrate the procedures. (FEMA OBJECTIVE

1. 17)

11. Demonstrate the capability to maintain staffing on a continuous,24-hour basis through an actual shift change. Note: Shift change will also be demonstrated at the Emergency News Center. (FEMA OBJECTIVE #30)

12. Demonstrate the capability to provide offsite support for the evacuation of onsite personnel. (FEMA OBJECTIVE #31)

G. ST. JOHN THE BAPTIST PARISH EMERGENCY OPERATIONS CENTER (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 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 continuously monitor and control radiation exposure to emergency workers. (FEMA OBJECTIVE #5)

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

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 necessary to implement appropriate protective actions for special populations. Note: This is a " Scenario-dependent" l objective, and will be demonstrated as " Talk-through" if the scenario does not warrant it. (FEMA OBJECTIVE #15) 11- 6

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WATERFORD 3 BIENNIAL EXERCISE OCTOBE.R 13,1999

11. OBJECTIVES (CONT'D)

G.

ST. JOHN THE BAPTIST PARISH EMERGENCY OPERATIONS CENTER (EOC)

(CONT'D) I

10. Demonstrate the capability and resources necessary to implement protective actions for school children within the plume pathway emergency planning zone.

Note: This is a " Scenario-dependent" objective, and will be demonstrated as " Talk-through"if the scenario does not warrant it. (FEMA OBJECTIVE #16)

11. Demonstrate the organizational capability and resources necessary to control evacuation traffic flow and to control access to evacuated and sheltered areas.

Note: This is a " Scenario-dependent" objective, and will be demonstrated as " Talk-through"if the scenario does not warrant it. (FEMA OBJECTIVE #17)

12. _ Demonstrate the capability to maintain staffing on a continuous,24-hour basis f through an actual shift change. Note: Shift change will also be demonstrated at the Emergency News Center. (FEMA OBJECTIVE #30)

H. LAFOURCHE PARISH EMERGENCY OPERATIONS CENTER (EOC)

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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 materiah to support emergency operations. (FEMA OBJECTIVE #2) l

3. Demonstrate the capability to direct and control emergency operations. (FEM A )

OBJECTIVE #3) l

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

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

1. LAFOURCHE MONITORING AND DECONTAMINATION STATION

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)

4. Demonstrate the adequacy of procedures for the monitoring and decontamination of emergency workers, equipment and vehicles. (FEMA OBJECTIVE #22) ,

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

WATERFORD 3 BIENNIAL EXERCISE OCTOBER 13,1999 II. OBJECTIVES (CONTD)

J. EMERGENCY NEWS CENTER (ENC) (MEDIA CENTER)

1. Demonstrate the capability to alat and fully mobilize personnel for both emergency facilities and field operations. Demonstrate the capability to activate and staff j

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 timely information to the news media. (FEMA OBJECTIVE

1. 12)

5. Demonstrate the capability to establish and operate rumor control in a coordinated  ;

and timely manner. (FEMA OBJECTIVE #13)

K. NICHOLS STATE UNIVERSITY RECEPTION CENTER / CARE 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)

4. Demonstrate the adequacy of procedures, facilities, equipment, and personnel for the radiological monitoring, decontamination, and registration of evacuees. (FEMA OBJECTIVE #18)

5. Demonstrate the adequacy of facilities, equipment, supplies, personnel, and procedures for congregate care of evacuees. (FEMA OBJECTIVE #19)

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

L. OCHSNER FOUNDATION HOSPITAL

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)

4. Demonstrate the adequacy of the equipment, procedures, supplies, and personnel of medical facilities responsible for treatment of contaminated, injurnd, or exposed individuals. (FEMA OBJECTIVE #21)

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WATERFORD 3 BIENNIAL EXERCISE OCTOBER 13,1999

11. OBJECTIVES (CONT'Dj M. FLIGHT CARE HELICOPTER AMBULANCE SERV!CE

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)

4. Demonstrate the adequacy of vehicles, equipment, procedures, and personnel for transporting contaminated, injured, or exposed individuals. (FEMA OBJECTIVE

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 Ill. GUIDELINES ,

I To define the scope and extent of participation by organizations and " participants", the following guidelincs are established in order to meet the objectives listed in Section 11 of this manual.

A. General Guidelines 4

1. The exercise will be conducted on October 13,1999. Exercise participants will not possess prior knowledge of the exedse start time, and will follow normal routines for that day until mobilized as part of the emergency response.

2. The Control Room staff will operate from the Waterford 3 Simulator. Prior to the start of the exercise, a shift briefing will be conducted in the ,

Simulator. The briefing will include "on-shift" exercise participants from )

Operations, Maintenance, Chemistry and Radiation Protection. The i participants will be briefed on the postulated plant conditions and general guidelines for the conduct of the exercise. Following this briefing, the in-plant shift personnel will return to their normal workstations.

3. The exercise will commence with a postulated condition necessitating the l declaration of an emergency classification and escalate to require other emergency classification declarations.

4. The scenario contains simulated radiological release conditions that will require consideration of protective actions for the general public. i

5. Exercise participants will perform, as appropriate, radiological monitoring and dose assessment activities. Radiological field monitoring teams will be dispatched in order to evaluate response time, communications and monitoring procedures.  ;

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

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

7. If postulated accident conditions warrant evacuation of non-essential site personnel, a small number of pre-designated personnel will proceed to the offsite assembly area selected by the exercise participants. 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 return to their normal work stations.

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 Ill. GUIDELINES l CONT'D)

NOTE I

Care shall be taken to assure individuals who may overhear or observe {

exercise activities are not misled into believing that an actual l emergency situation exists. {

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8. All emergency communications that are part of the exercise will be clearly identified as part of the exercise. Verbal communications will be initiated and closed by the statement "This is a drill" Any use of plant alarms (Station Alarm or Fire Alarm) will be preceded by announcing "This is a drill" over the plant page system. Any exercise documentation transmitted via facsimile machine will 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:

Waterford 3 Onshift Emergency Organization (Normal Operations Shift Personnel)

Onsite Emergency Organization (TSC and OSC) j Nearsite Emergency Organization (EOF)

All Waterford 3 site personnel are potential participants, since the site personnel are expected to report abnormal conditions observed during the exercise, such as smoke, unusual noises, etc. The emergency organization may also call out additional personnel to assist in the response to the simulated emergency conditions.  !

Entergy - Louisiana Offsite Emergency Organization (ENC)

Waterford 1&2 Control Room Limited participation (Communications Only) l Entergy district offices and maintenance divisions will not participate in this exercise. Communications with these groups may be initiated but their response will be simulated.

l Ill-2

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 Ill. GUIDELINES (CONT'D)

Offsite Organizations ,

Entergy Operations, Inc. Headquarters Corporate Emergency Center (CEC)

Full participation i State of Louisiana I l

Louisiana Department of Environmental Quality (LDEO)

Full participation. LDEQ will staff positions in the Waterford 3 EOF and ENC.

Louisiana Office of Emergency Preparedness Full participation.

St. Charles Parish Department of Emergency Preparedness Full participation.

St. John the Baptist Parish i Office of Civil Defense Full participation. )

Lafourche Parish Direction of Support Parish activities.

Lafourche Monitoring / Decontamination Station Emergency Worker Decontamination Station activities.

Nichols State University Reception / Care Center Reception Cent'er activities.

Ochsner Foundation Hospital Treatment and decontamination of simulated contaminated injured person.

Flight Care Helicopter Ambulance Service Handling, treatment and transport of simulated contaminated injured person.

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 1 111. GUIDELINES (CONT'D)

B. Safety Precautions

1. Personnel will not, in response to the postulated accident conditions, take '

any action that jeopardizes plant or personnel safety.

2. Valves, breakers, and controls shall not be manipulated in response to this exercise except as necessary to meet a specific exercise objective. Actual operation of valves, breakers and controls that may be required to meet an objective will be coordinated between the drill Shift Superintendent and real Shift Superintendent and must be authorized by the real Shift Superintendent.

3. In the event an actual emergency occurs during the conduct of this exercise, the drill Emergency Coordinator shall immediately contact the real Shift Superintendent and coordinate available resources to mitigate the emergency.

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

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

The drill clock and exercise activities can be stcpped at the discretion of the drill Emergency Coordinator and the real Shift Superintendent until the actual emergency is assessed and/or under control.

Qualified drill participants and drill control team members can be directed to support the real Shift Superintendent in response to the actual emergency.

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

5. Exercise personnel will observe all radiological controls. In the event the data 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.

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

Activities associated with the performance of the exercise will not occur in areas where personnel will receive significant exposures.

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 l-

' lit.' GGIDELINES (CONT'D) -

l -

l- C. . Simulation Guidelines ,

l NOTE Simulated exercise events will be initiated as indicated in the exercise scenario l package under the direction of the Lead Controller. Since all possible participant reactions to the simulated exercise events can not be anticipated, 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 that are not provided for in the scenario package and may affect the timeline without prior approval of the Lead Controller.

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

2. Since the exercise will be performed using the Waterford 3 Control Room Simulator, exercise plant parameter data and radiological monitoring data will be obtained from the Simulator control panels and the SDS terminals, which will be configured to display Simulator data.

Radiological Monitoring System (RMS) data will be simulated through the use of posted data sheets at the -4 Control Point Count Room RMS terminal.

If a failure of the Simulator occurs, and the Simulator can not be recovered in a reasonable period of time, backup data sheets will be available and posted in appropriate locations.

l 3. No drill control team personnel are assigned to monitor the activities of the

Nuclear Auxiliary Operators (NAOs) in the plant. The NAO participants will l obtain scenario information by contacting the Simulator Instructor Booth.

l The Simulator Operator will provide scenario package information as if a i drill control member was present at the scene. Prior to the exercise, the l' Lead Controller will brief the NAO part cipants on this method of drill control. This allows Operations personnel to support the OSC operations as they would in an actual emergency.

4. Portable fire extinguisherr or other sealed canisters shall not have the seats broken or safety pins removed in response to the postulated scenario events, except when specifically required by instructions provided in the scenario package.

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r 3 WATERFORD 3 m2S BIENNIAL EXERCISE OCTOBER 13,1999 111. GUIDELINES (CONT'D) l'

5. Exercise participants will be' expected to obtain the proper tools and equipment necessary in responding to the scenario conditions in order to receive credit for their actions to mitigate the consequences of the simulated conditions.

6. The exercise package includes the use of mock-ups to simulate plant )

equipment. '.n most situations where mock-ups are available, the exercise '

participants will be expected to respond to the actual plant equipment and then the drill control team will direct them to the mock-up. Due to the location of some mock-ups, the drill control team may instruct the participants to proceed directly to the mock-up. Specific instructions are provided in the scenario package regarding the use of individual mock-ups.

7. The exercise participants in the plant will not simulate the use of protective clothing.

8. To prevent unnecessarily alarming members of the general public, who may observe their activities, the radiological field monitoring teams will simulate the use.of protective clothing and respirators.

9. SCBAs will be donned, as required by the scenario conditions, but, after initial fitting on the face, the masks may be removed.

10. The use of silver zeolite cartridges when taking air samples will be simulated. The drill control team will provide charcoal cartridges for use in the air samplers.

11. The use of potassium iodide, if required by the scenario conditions, will be simulated.

12. If a decision is made to use the Post Accident Sampling System (PASS),

sampling activities will be simulated.

13. No plant equipment will actually be tagged out in response to the scenario )

events, However, all necessary authorizations required by procedures are expected to be obtained prior to the simulation of the tag out.

)

14. Radiological postings as required by the simulated scenario radiation levels will not be simulated. The drill control team will insure that the postings are appropriately labeled to identify them a> part of the drill.

15. Actual operation of the Whole Body Counter, or the Backup Whole Body Counter, will be simulated. Due to the number of Health Physics personnel l assigned to the drill control team, sufficient personnel will not be available to support this activity.

l

16. If consideration is given to relocating the Primary Access Point (PAP) due to the simulated radiciogical conditions, this activity will be simulated.

17. Onsite response to a medical emergency is not an objective of this exercise. The scenario events for the medical emergency portion of this exercise are provided in a separate document.

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l L , WATERFORD 3 SES BIENNIAL EXERC!SE L OCTOBE.R 13,1999

_lil. GUIDELINES (CONT'D)

18. The activation of the Emergency Response Data System (ERDS) will not i be simulated. ERDS will be act}vated to transmit drill data from the l Simulator.

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19. -- The use of the Voice Notification System (VNS) will no.t be simulated. Drill scenarios are provided to be used during the response to the simulated exercise events.

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WATERFORD 3 BIENNIAL EXERCISE .

OCTOBER 13,1909 llV. 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 l

public should an actual emergency occur. In order to achieve a sequence of events that will mobilire these emergency organ;zations in fulfillment of the objectives of this exercise, the scenario must contain incredible plant situa'tions, unlikely equipment

, failures and failure sequences, and improbable operator actions, it is stressed that offsite personnel (e.g. the public) should not be misled into believing that an event causing tha radiological consequences postulated by this scenario could occur. The following is a summary of these events:

A. Initial Conditions The plant is operating at 100% power at the middle of core life.

l Charging pump "A/B". is out of service due to a cracked block problem. The mid- l shift started work on the pump.

!' Chemistry conditions indicate c small amount of fuel damage. Dose Equivalent lodine (DEI) has been trending up for the last three days. Chemistry is sampling .

the RCS for DEI every four hours. The last sample was taken on 10/13/99 at 04:00.

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

j- 8. Summary of Events l At 07:55, the exercise will commence.

, kt 08:00, Chemistry will report to the Control Room the results of the DEI sampl to be 1.05 uCi/gm.

The Shift Superintendent declares an Unusual Event based on Emergency Plan '

Implementing Procedure EP-001-001, Recognition and Classification of Emergency Conditions, B/UE/lli, RCS Dose Equivalent lodine > Tech. Spec.

3.4.7 allowable.  ;

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L WATERFORD 3 SES BIENN!AL EXERCISE OCTOBER 13,1999 IV. NARRATIVE

SUMMARY

(CONT'D) ~

At approximately 08:15, the Plant Stack monitors, PRM-IRE-0100.1S and

- PRM-IRE-0100.25, N.G. channels, go into alarm and continue to increase to approximately 1.82 E-02 uCi/cc at 0830 which indicates greater than ten times Technical Specifications. Upon investigation it is determined the rise in plant stack activity is due to a leak on the inlet flange for the relief valve (GWM-403A) on Gas vocay Tank (GDT) "A". The Shift Superintendent declares an Alert based on Emergency Plan implementing Procedure EP-001-001, Recognition-and Classification of Emergency Conditions, A/A/l, "Radiclogicas salease which is

> times Tech Spec. Limits." There are no Protective Action

,10 Recommendations (PARS) required for this declaration. The Control Room instructs Chemistry to perform a Stack Gas Sample. Mechanical Maintenance is

, dispatched to attempt to repair the leak.

The Alert declaration results in the activation of the Technical Support Center, the Operational Support Center, and the Emergency News Center. The Nearsite and Offsite Emergency Organizations are mobilized and the Emergency Operations Facility and the Corporate Emergency Center are staffed.

When the TSC Communicators attempt to use the Operational Hotline (OHL),

they will find the circuit is not operable. Due to the failure of the OHL, notifications to the OHL members will be made using alternate communications circuits. The failure of the OHL is due to a shorted power supply transformer to the TSC Communicator #1 OHL phone. The TSC will request a repair team from the OSC to investigate the problem. Replacing the shorted power supply will repair the circuit.

At 09:15, Charging Pump "A" trips on overcurrent. The pump failure is due to single phasing of the motor as a result of a contact failure in the breaker causing an overcurrent condition in the motor. Repair teams will be requested from the OSC to investigate the failure of the charging pump.

IV-2

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

)

IV. NARRATIVE

SUMMARY

(CONT'D)

At 10:15 a pipe rupture on RCS "A" Hot Leg #1 results in a LOCA. The reactor trips. Safety injection, Emergency Feedwater (EFW) and Main Steam Isolation Signal (MSIS) and Containment isolation Activation Signal (CIAS) are initiated.

Tne "B" Atmospheric Dump Valve (ADV) fails to open due to internal binding. A 4

Repair Team will be dispatched to repair the failed ADV.

The Emergency Coordinator (EC), or EOF Director if activated, declares a Site Area Emergency based on Emergency Plan implementing Procedure EP-001-001, Recognition and Classification of Emergency Conditions, B/SAE/l, "RCS leakage > available Charging Pump capacity (LOCA or Steam Generator Tube Rupture)" There are no Protective Action Recommer.dations (PARS) required for this declaration.

The Emergency Coordinator selects an offsite assembly area and announces a site evacuation. The Assembly Area Supervisoris dispatched and Security performs accountability in accordance with EP-002-190, Personnel Accountability. For the purposes of this exercise, the personnelin the P.rotected Area will evacuate to station parking lots and a small number of pre-designated personnel will evacuate to the selected offsite assembly area. (Note: For the purposes of this exercise, the Drill Control Team will ensure Monsanto Park is the selected offsite assembly area in order to meet an exercise objective for St.

Charles Parish.)

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

When the EOF Dose Assessment personnel attempt to establish radio contact with the field monitonng teams, they will find the primary radio circuit is inoperable. Communications with the field monitoring teams will have to be conducted using the alternate radio circuit.

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t WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

~

IV. . NARRATIVE

SUMMARY

(CONT'D)

'When Containment pressure reaches 17,7 psig, a containment spray actuation

. signalis received. Containment Spray Pump "A" fails to start due to a breaker failure. A Repair. Team will be dispatched to repair the failed breaker.

' The "B" Containment Spray Pump will start but, due to a leak on the containment

- spray header there will be no flow through the containment spray nozzles, which will keep Containment pressure high.

If tha decision is made to cross connect "A" LPSI with "A" Containment Spray l Header, SI-125A (SDC "A" Heat Exchanger inlet valve) will fail to open. This will limit the ability to decrease Containment pressure. A repair team will be dispatched to attempt to open SI-125A.

At 1130, a Containment penetration fails, releasing radioactivity into the annulus.

As annulus pressure increases, the Shield Building Ventilation System will cycle between recirculation and exhaust to control the annulus at a negative pressure.

This results in a release to the atmosphere via the plant stack.

. When the Containment failure is identified and dose assessment calculations performed, the EOF Directer declares a General Emergency based on i

l Emergency Plan implementing Procedure EP-001-001, Recognition and I l Classification of Emergency Conditions, A/GE/l," Dose projection or radiological i i-i monitoring team indicates TEDE dose rate at EAB > 1000 MREM /HR or CDE i thyroid dose rate at EAB? 5000 MREM /HR, or plant conditions exist which could I i result in a release of radioactivity such that these dose rates at the EAB could be reached or exceeded". The minimum Protective Action Recommenoation (PAR) at a General Emergency is for evacuating Protective Response Areas A1, B1, l

C1, D1 (2 - mile radius) and A2 and C2 (5 miles downwind) and sheltering all l 1

remaining protective response areas.

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 -

IV. NARRATIVE

SUMMARY

(CONT *D)

L  ;

At approximately 11:55, the Control Room receives indication of a ground on the 31 A bus. ' An Electrical repair team will be dispatched to attempt to locate the ground. Engineering will also be involved in resolving this problem. Investigation reveals the ground is on CEDM Fan "C" due to water in containment. The phase to phase ground causes a short in the breaker but it doesn't trip. This results in

\

the loss of the 31A bus. When the location of the ground is determined, the

- repair team can open the CEDM Fan breaker and reset and restore the 31A bus feeder breaker.

At approximately 12:45, the wind direction changes and is now coming from 198 degrees. Due to the wind shift, the PARS will change to evacuating Protective Response Areas A1, B1, C1, D1 (2 - mile radius) and A2, B2 and C2 (5 miles downwind) and sheltering all remaining protective response areas. Note: With the change in wind direction, area C2 is no longer an affected downwind area but, in accordance with EP-002-052, PARS should not be downgraded until the recovery / reentry phase of accident mitigation. Therefore, C2 should still be included in the PAR.

Termination of the exercise will be coordinated between the Lead Controller and I the LDEQ Controller to insure that the objectives associated with the release have been demonstrded. When the Exercise is terminated, area critiques will be conducted.

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I WATERFORD 3 SES BIENNIAL EkERCISE OCTOBER 13,1999 IV. NARRATIVE

SUMMARY

(CONT'D)

C. EXERCISE MOCKUPS .

1. A simulated wo* package for the "A/B" charging pump will be provided to the shift maintenance personnel and the Control Room staff at the shift brief prior to the start of the exercise.

2. A P/C card rack with a Westinghouse tracking driver card will be staged to support the atmospheric dump valve (MS MVAAA1168) failure.. This will allow repair teams to locate, and troubleshoot valve failure usingys card's test points.

3. A breaker with damaged contacts and smoked arc chutes will be provided in the plant for the "A" charging pump failuic.

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WATERFORD 3 BIENNIAL EXERCISE OCTOBER 13,1999 V. - SEQUENCE OF EVENTS -

l- flME EVENT DRILL ACTIVITY l .

07:00. Drill Controllers brief the Operations shift Following the briefing, the NAOs and other

' T= -0:55 personnelin the Simulator. Drill shift personnel take their positions in the CC-1 guidelines and initial conditions are plant.

j ' discussed with the participants.

l NOTE: The remaining Shift personnel (HP, The plant has been operating at 100% and Maintenance, Chemutry, Security) are is at the middle of core life.

briefed at 07:15.

The "A/B" Charging pump is out of service due to a cracked block.

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

Chemistry conditions indicate a small 3 amount of fuel damage. DEI has been trending up for the last 3 days. Chemistry is sampling the RCS for DEI every 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />. 1 The last sample was 10/13/99 at 04:00. J 07:55- The Control Room participants are T= +0:00 instructed to start the Drill.

JC-2 08:00 Drill continuation announcement.-

T= +0:05 CC-3 i

CC-4 The Chemistry Controller provides the The Chemistry Technician will call the Chemistry Technician with the results of Control Room and report that DEI is 1.05 the DEI Sample. pCi/gro, This sample indicates that DEI is greater than Tech. Spec. 3.4.7 allowable.

CC-5 : Declaration of Unusual Event An Unusual Event is declared based on EP-001-001, Recognition and  !

Classification of Emergency Conditions, i I

Initiating Condition (IC) B/UE/lli, "RCS Dose Equivalent lodine > Tech. Spec.

3.4.7 allowable."

EP-001-010, Unusual Event is implemented. The emergency condition is announced to station personnel. State 1 and local government agencies, Waterford 1 & 2 and the NRC are notified.  ;

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..WATERFORD 3 SES BIENNIAL EXERCISE .

OCTOBER 13,1999 L ^ V.'  ; SEQUENCE OF EVENTS L

l MME EVENT DRILL ACTIVITY 08:15.

GDT "A" leak - Alarms are received in the Control Room l: T=+0:25 :

on both Plant Sta.ck PIG monitors Gas

._ . CC channels, RAB airborne HVAC monitors

! CC-7? and area monitors in the area of the Gas l CC-8 Decay Tanks. Activity increases to greater i than 10 times Tech. Spec. limits at 0830.

l HP, Operators and/or Maintenance are dispatched to investigate.and find a leak-on the inlet flange of the relief valve (GWM-403A) on the "in service" Gas l Decay Tank "A". Mechanical maintenance is requested to repair the leak. Tightening the flange bolts will repair the leak.

CC-9 - Declaration of Alert The SS/EC declares an ALERT based on J ' CC-10 : EP-001-001, Recognition and

!~ CC-11 ~ Classification of Emergency Conditions, initiating Condition (IC) A/A/l, " Radiological release which is > 10 times Tech. Spec.

Limits." There are no PARS required for j this declaration.

j EP-001020, Alert,is implemented. The emergency condition is announced to

! station personnel. The Onsite (TSC &

l OSC), Nearsite (EOF) & Offsite (ENC)

' Emergency Organizations are mobilized.

The Corporate Emergency Center (CEC) is mobilized and staffed. State and local govemment agencies, Waterford 1 & 2 and the NRC are notifiec' CC-12 When Chemistry is directed to sample the The Control Room should direct Chemistry GDT and Plant Stack to sample the GDT and the plant stack.

Chemistry will pull a stack sample and provide the resu4s of that sample to the Control Room.

l 09:00. Exercise continuation announcement.

! To+1:05 '

CC "

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WATERFORD 3 SES BIENNIAL EXERCISE i OCTOBER 13,1999 V. SEQUENCE OF EVENTS TIME EVENT DRILL ACTIVITY CC-14 TSC OHL failure due to a shorted power When the TSC Communicators attempt to l-CC-15 supp.!y. use the OHL, they will find the TSC OHL is CC-_16 inoperable. The TSC wil! request the OSC to dispatch a team to investigate the failure of the OHL Due to the failure of the OHL in the TSC, notifications to offsite agencies must be made using altemate communications methods. The repair team will find a shorted power supply for the TSC OHL. Replacing the power supply will restore the OHL to service.

09:15 Charging Pump "A" fails due to a contact The Control Room has indication that the T=+1:20 failure in the breaker "A" charging pump has tripped. The CC-17 Control Room dispatches an NAO to l investigate the pump trip. NAO will detect a hot /bumt odor at the breaker.

! CC-1B The TSC should request an electrical CC-19 ' repair team to investigate breaker and check Charging Pump "A" motor and a mechanical repair team to check the pump. Electrical will find failed contacts in the breaker and may attempt to rebuild the breaker or replace it with another breaker.

The mechanical repair team should attempt to rotate motor to gearbox coupling by hand. The pump shaft will rotate freely.

10:00 Exercise continuation announcement T=+2:05 CC-20

10

15 LOCA occurs A LOCA results due to a rupture of the T=+2:20 : RCS "A" Hot Leg #1 piping.

CC-21 The Reactor trips. Safety injection, )

Emergency Feedwater (EFW), Main l Steam isolation Signal (MSIS) and Containment Isolation Actuation Signal

! (CIAS) are initiated. Chemistry starts to ramp up. The "B" Atmospheric Dump Valve (ADV) fails to open. l l

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WATERFORD 3 SES BIENNIAL' EXERCISE OCTO3ER 13,1999 I V. SEQUENCE OF EVENTS TIME EVENT DRILL ACTIVITY CC-22 Failure of Atmospheric Dump Valve (ADV) The "B" ADV fails to open. The TSC will CC-23 (MS-1168) request the OSC to dispatch a repair team CC-24 to troubleshoot the ADV (MS-116B).

Troubleshooting efforts will determine that the valve is internally seized.

CC-25 Declaration of Site Area Emergency A Site Area Emergency is declared based CC-26 on EP-001-001, Recognition and Classification of Emergency Conditions, Initiating Condition (IC) B/SAE/1, "RCS leakage > available Charging Pump capacity (LOCA or Steam Generator Tube Rupture)". There are no PARS required for  !

this declaration. The Emergency Coordinator selects the appropriate offsite assembly area (if Monsanto Park is not chosen, the drill team will direct that Monsanto Park is used), notifies Security, dispatches the Assembly Area Supervisor to the selected assembly area and l announces the Protected Area Evacuation.

An HP technician may be dispatched to the assembly area, if required for contamination control.

NOTE: For the purposes of this exercise, only the Protected Area will be evacuated.

A small group of predesignated persons will be evacuated to the assembly area to demonstrate evacuation and assembly area activities.

State and local government agencies, Waterford 1 & 2 and the NRC are notified.

Waterford 1 & 2 is directed to evacuato non-essential personnel (for the purposes of this exercise, evacuation of Waterford 1

& 2 will not occur). If the Nearsite l Emergency Organization (EOF) is not activated, the cederation of Site Area Emergency results in the; activation of the EOF, i i

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.WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER .13,1999

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V. SEQUENCE OF EVENTS nME '- EVENT DRILL ACTIVITY EP-002-190, Personnel Accountability, and PS-016-103, Accountability of personnel within the Protected Area During Emergencies, are implemented.

CC-27 s Protected Area evacuees return to the When Security completes their plant accountability activities, a Missing Person report is sent to the TSC. When all personnel have been accounted for, personnel evacuated to station parking lots will be allowed to return to their normal work areas.

- CC-28 Assembly Area personnel return to plant After Assembly Area muster activities are performed, the evacuated personnel should be called back to the plant. This objective will have been completed and this portion of the Exercisa is also completed.

CC-29 Primary Caid team radio failure When the EOF Dose Assessment personnel attempt to establish contact with the field monitorirs teams they will find the primary radio circuit is inoperable. They will have to communicate with the 69ld teams using the back-up radio circuit.

Con- Containment Spray Pump "A" fails to start Containment pressure rises due to the toinment and Containment Spray *B" header LOCA. At ~17-.7 psig Containment

. p'ress-17.7 leakage occurs pressure, the Containment Spray pumps psig receive an automatic start signal.

Containment Spray Pump "A" will fail to CC-30 start. M NAO will be dispatched. A

. CC-31 Repair Team is dispatched to investigate CC this failure. The Repair team finds the breaker did not attempt to operate. It is determined that the breaker can be replaced.

V-5

p WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

.V. SEQUENCE OF EVENTS IlME EVENT DRILL ACTIVITY CC-33 ' dontainment Spray Pump "B" starts but, CC-34 due to a leak on the riser piping (line CC-35 2CS10-128) inside containment, there will

' CC-36 be no flow through the spray nozzles. If repair teams are sent to investigate, they will find no problems with the breaker or the pump. If the Control Room attempts to cross-connect the "A" LPSI pump to the "A" Containment Spray header, valve SI-125A will fail to open. A repair team will be dispatched to attempt to open the valve.

11:00 Exurcise continuation announcement.

T=+3:05 CC-37 11:30 Containment penetration failure A Containment penetration fails, releasing T=+3:35 radioactivity into the annulus. As annulus CC-38 . pressure increases, the Shield Building Ventilation System will cycle between recirculation and exhaust to control the annulus at a negative pressure. This results in a release to the atmosphere via the Plant Stack.

~ CC-39 . Declaration of General Emergency When Containment failure is recognized CC-40 and offsite dose calculations are performed, the EOF Director declares a General Emergency based on EP-001-001, Recognition and Classification of Emergency Conditions, Initiating Condition (IC) AiGE/l, " Dose projection or radiological monitoring team indicates i TEDE dose rate at EAB > 1000 MREM /HR or CDE thyroid dose rate at EAB,> 5000 MREM /HR, or plant conditions exist which could result in a release of radioactivity i such that these dose rates at the EAB  !

could be reached or exceeded."

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e WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 V. ' ' SEQUENCE OF EVENTS -

TIME EVENT DRILL ACTIVITY EP-001-040, General Emergency is implemented. Protective Actions for offsite personnel are required in accordance with EP-002-052, Protective Action Guidelines.

Expected protective actions are evacuation for protective response areas A1, B1, C1, D1, A2 and C2 and sheltering for all other protective response areas in the 10-mile EPZ. State and local government agencies, Waterford 1&2 and the NRC are notified. Waterford 1 & 2 is directed to evacuate non-essential and -

essential personnel (for the purposes of this exercise, evacuation of Waterford 1 &

2 will not occur).

' 11:55 ~ . Ground on CEDM Fan C/ Loss of 31A Bus - Due to water in Containment, a ground T=+4:00 occurs on NurA Fan C. NAOs and repair CC teams will 1:e dispatched to investigate the ground.

12:00 Exercise continuation announcement f=+4:05 CC-42 CC-43 The CEDM Fan breaker doesn't trip CC resulting in the loss of the 31A bus.

' Repair teams will be dispatched to investigate the loss of the bus. Opening

' the breaker for the CEDM Fan C will allow the bus to be restored.

12:45 _ Wind direction shifts The change in wind direction causes the To +4:50 emergency organization to re-evaluate the

~ CC PARS. The expected protective action recommendations are evacuation for protective response areas A1, B1, C1, D1, A2, B2 and C2 and shelter for all remaining protective response areas. The i emergency organization will notify the offsite agencies of the change in PARS.

1300- Exercise continuation announcement.

Ta+5:05 i CC-46 j l

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1 WATERFORD 3 SES BIENNIAL' EXERCISE

l. '

OCTOBER 13,1999 V. SEQUENCE OF EVENTS TIME EVENT DRILL ACTIVITY l

~13:30 - Termination of exercise ' When, in the opinion of the Lead T=+5:35 Controller, the exercise objectives have CC-47 been demonstrated and continuing the exercise will provide no additional benefit, the exercise will be terminated. The Lead Controller will coordinate the termination of the exercise with the State Controllers to ensure ample opportunity has been provided to demonstrate the offsite -

objectives. When the exercise is .

terminated, area critiques will begin.

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7, WATERFORD 3 SES BlENNUAL $XERCISE

-OCTOBER 13,1999 7 ,

W3 SES EMERGENCY PREPAREDNESS EXERCISE CUE CARD

, VI.~ CUE CARDS ' -

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. WATERFORD 3 SES BlENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO.' 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 1A

~ TO:' ' EXERCISE SHIFT PERSONNEL TIME: 07:00

. FROM: LEAD CONTROLLER / CONTROL ROOM CONTROLLER T= -0:55 l

THIS IS A DRILL

~ DO NOT initiate actions a#ecting normal plant operations I INITIAL PLANT CONDITIONS:

The plant is operating at 100% power at the middle of core life.

Dose Equivalent lodine (DEI) has been trending up for the last three days. The Control Room has maximized Letdown and Purification floN to decrease the iodine concent ation. Chemistry is sampling the RCS for DEI every four hours. The last sample was taken on 10/13/99 at 04:00.

. Charging Pump "A/B"is out of service due to a cracked block problem. The mid shift started work on the pump.

The "A/B" electrical bus is .'igned to the "B" side.

CHEMISTRY:

100/E (E-BAR) = 240.38 htivity Activity Activity  !

Isotope (uu/cc) Isotope - (uCi/cc) Isotope (uCi/cc)

Gross Activity 2.96E+01 uCi/gm del-131 9.20E-01 uCi/gm Boron 874 ppm Hydrogen 34 cc/Kg Dis. Oxygen < 0.002 ppm pH 6.3 Lithium 2.28 ppm Cr-51 3.61 E-03 Mn-54 5.93E-04

.. Fe-59 3.06E-03 Co-58 1.90E-03 Co-60 3.05E-02 l

Np-239 3.83E 03 Br-83 6.45E-03 Rb-86 1.50E-04 i Y-91 3.81 E-03 Mo-99 8.02E-01 Tc-99m 5.44E-01 )

Te-127m 5.35E-04 Te-127 1.27E-03 Te-129 2.09E-03 1-130 3.24E-03 Te-131m 4.19E-03 Te-132 ' 4.65E-02 1-131 7.61 E-01 1-132 2.01 E-01 1-133 9.29E-01 l l-134 9.14E-02 1-135 4.13E-01 Cs-134 4.47E-02 Cs-136 2.27E-02 Cs-137 3.22E-02 Ba-137m 2.02E-02 Kr-85m 1.39E-01 Kr-85 2.90E-01 Kr-87 7.58E-02 Kr-88 2.53E 01 Kr-89 6.31 E-03 Xe-131m 1.53E-01 Xe133m 2.84E-01 Xe-133 2.39E+01 Xe135m 1.64E-02 Xe-135 4.44E-01 Xe-137 1.14E-02 Xe-138 5.56E-02

. Steam Generators: Gross Activity < LLD ; Tritium < LLD 1

VI-2 u

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. ' 1999 BIENNi^L EXERCISE-DRL#99-08 ' CUE CARD NO. - 1B

, J TO: EXERCISE SHIFT PERSONNEL ~ TIME: '07:00 FROM: LEAD CONTROLLER / CONTROL ROOM CONTROLLER - .T= -0:55 THIS IS A DRILL 2 .... . .... .... . . ". .'.'f.'.t.!E'.*"!.'".""* ".*.""fE!"'. *Pwatgns. ,,

' ANTICIPATED RESPONSE Shift personnel review the information provided in the turnover package and ask questions, as necessary to clarify the initial conditions.

COMMENTS -

1. Attachment #1 to this Cue Card contains the RCS DEI trend chart.

12.1 The Lead Controller will brief the "real" Operating Shift Superintendent regarding the exercise

timeline and general conduct of the exercise. He will ensure that the SS understands that the restrictions on plant page usage are not intended tc apply to the Operating Shift. This briefing may be held on the day of the drill or the preceding day.

. 3l Shift tumover packages are provided for the HP, Chemistry and Maintenance shift personnel and will be discussed with the participants prior to the 07:15 shift briefing.

INSTRUCTIONS L 1, The Control Room Controller will discuss the shift turnover package material with the drill Control Room staff.

2. After the Control Room staff briefing, a shift briefing will be conducted by the SS/CRS for the HP, Chemistry and Maintenance shift personnel between 07:15 and 07:30. , i

3. ' After the shift briefing, The Lead Controller will review the applicable Guidelines in Section til of

.this package.

~ 4. - Dsicuss actions that will be taken in the event of an actual emergency.

~  :

- Actual response to a real fire will be controlled by the "real" Operating Shift.

e All medical emergency responsibilities will be handled by the " Drill EFAT". Control of the

medical emergency will be handled by the " Operating Shift" until the responsibility is assumed by the TSC.

e sin the event of an actual emergency, the exercise may be placed on hold at the discretion of the "real" Shift Superintendent until the situation is resolved.'

Sc Discuss methods of drill control that will be necessary due to having no NAO Monitors.

- 6. To contact Pine Bluff or Woodlands, call extension 6059.- . ,  !

7. Remind Simulator participants that "no eating, drinking, smoking" restrictions do apply to them.

8.: ~The Drill NAOs should 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.

g  ;

VI-3 o

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l 00:0 f 6 'i./C, 00:0 f?!0t/0: i

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- 00:0 66/9/01 o

00:0 66/9/0i o

n 7

o 0 00:0 66/r/01 uJ o

.g E o 3e - 00:0 66/2/0:

x o M i

• o 5 C 1 e f 00:0 66/Of/6  !

'6 o o  :

O o o 00:0 66/9?/6  !

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3 g o

- 00:0 66/92/6 o

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00:0 66/02/6 5* 8* 5 9 8 W s a E. E. 8 8 8 m6non ter-g Oga

1 WATERFORD 3 SES BIENNIAL EXERCISE OCTOBE.R 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILLTYPE/NO. 1999 BIENNIAL EXERCISE DRL#99-08 CUE CARD NO. 2A TO: SHIFT SUPERINTENDENT TIME: 07:55 l I

FROM: CONTROL ROOM CONTROLLER T= +0.00 THIS IS A DRILL -

DO NOT initiate actions affecting normal plant operations The Simulator is in "RUN". You have the shift.

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO.: 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 2B

-TO: SHIFT SUPERINTENDENT TIME: 07:55 FROM: CONTROL ROOM CONTROLLER T= +0:00 THIS IS A DRILL DO NOT initiate actions affecting normal plant operations ANTICIPATED RESPONSE The Control Room staff takes control of the Simulator to commence the exercise.

COMMENTS l

INSTRUCTIONS Provide the information on this cue card to the Control Room personnel at 07:55.

i VI-6

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I WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 l-W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD 4 DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 3A TO: CONTROL ROOM DATA CLERK TIME: 08:00 FROM: . CONTROL ROOM CONTROLLER T= +0:05 4

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

ATTENTION ALL PERSONNEL! THIS IS A DRILLI THE 1999 BIENNIAL EXERCISE IS IN PROGRESS. DO NOT USE THE PLANT PAGE FOR NON-EXERCISE RELATED ANNOUNCEMENTS.

DRILL TIME IS (Insert time from Simulator clock).

i THIS IS A DRILL! I Do not repeat this announcement.

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F WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD i

~

DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL*99-08 CUE CARD NO. 3B TO:! . CONTROL ROOM DATA CLERK TIME: 08:00 FROM: CONTROL ROOM CONTROLLER . T= +0:05 THIS IS A DRILL.

DO NOT Initiate actions affecting normal plant operations ANTICIPATED RESPONSE Plant page announcement is made.

COMMENTS The purpose of this cue card is to:

1. Remind site personnel that an exercise is in progress and to refrain from activities that could i affect the response of the exercise participants.

2. Ensure the Drill Control Team members are using the Simulator clock as a reference for exercise activities.

INSTRUCTIONS Ensure this announcement does not interfere with any announcements being made by the drill participants.

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBE.R 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 4A TO: CHEMISTRY TECHNICIAN- TIME: 08:00 FROM: - CHEMISTRY CONTROLLER T= +0:05 THIS IS A DRlLL DO NOT initiate actions affecting normal plant operations

' Provide the information on the Chemistry Data Sheets for 08:00 to the Chemistry Technician.

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

.W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 4B TO: . CHEMISTRY TECHNICIAN TIME: 08:00 y FROM: CHEMISTRY CONTROLLER T= +0:05 THIS IS A DRILL DO NOT initiate actions affectin

...g normal p%nt operation s -

' ANTICIPATED RESPONSE

1. The Chemistry Technician will call the Control Room to inform them of the results of the DEI '

sample. . .

2. The SS willimplement EP-001-001 and declare an Unusual Event based on IC B/UE/ll1.

3. The SS implements EP-001-010, Unusual Event and announces the emergency to site personnel.

4. State and local govemment agencies, Waterford 1&2 and the NRC are notified of the Unusual Event declaration.'

COMMENTS The DEI sample results indicate del of 1.05 Ci/gm which exceeds the Technical Specification 3.4.7 limits.

' Simulator Control Room phone numbers are:

SS - 4104 '

. CRS - 4100 Control Room Panels - 4101, 4102, 4103 INSTRUCTIONS

' 1. Provide the information on this Cue Card to the Chemistry Technician at 08:00.

2. Ensure the Chemistry Technician does not call the actual Control Room.

3. l_f the Control Room requests confirmatory sampling, then instruct the Chemistry Technician to tell the Control Room the sample has been analyzed and confirmed.

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VI-10

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 5A

~ TO: SS/ 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..........g affectin n o rm al pl ant o peration s CONTINGENCY CUE CARD' implementing Conditions: When it appears imminent that classification will not be in accordance with the design of this exercise package.

Contingency Action: Direct the Shift Superintendent / Emergency Coordinator to classify the I event as an Unusual Event in accordance with the design of this exercise package.

VI-11

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! WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

! W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD i l-DRILL TYPE /NO. 1999 BIENNIAL EXERCISE DRL#99-08 CUE CARD NO. SB )

TO: l SS/ EMERGENCY COORDINATOR TIME: At the  !

discretion of the Lead j Controller FROM: CONTROL ROOM CONTROLLER T= N/A THIS IS A DRILL' i DO NOT initiate actions affecting normal plant operations

........ ................ .... .... .... .... ..... ... .......... .. ...... .... ...... j ANTICIPATED RESPONSE

1. The SS/ Emergency Coordinator declares U' nusual 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 and only if it appears the participants are not working toward declaring the Unusual Event.

INSTRUCTIONS This cue card is not to be issued without authorization of the Lead Controller, i

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VI-12

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE DRL#99-08 CUE CARD NO. 6A TO: CRS/NPO ,

TIME: 08:15 FROM:- CONTROL NOOM CONTROLLER / MONITOR T= +0:20 THIS IS A DRILL DO NOT initiate actions affecting ..........pla normal nt o perati on s i Provide the following information: i Plant Stack PIG Gas channels are in Alarm and rising Plant Stack WRGM Low Range is rising .

RAB HVAC Monitors are in alarm and rising i

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VI-13

L WATERFORD 3 SES BIENNIAL EXERCISE L OCTOBER 13,1999 -

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W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 68 .I i

l TO: CRS/NPO TIME: 08:15 1

' FROM: CONTROL ROOM CONTROLLER / MONITOR T= 0:20

.............. .... .... .... .... .......... ..... ... .... .... .... .... .......... 1 THIS IS A DRILL

. DO NOT initiate actions affecting normal plant operations ANTICIPATED RESPONSE

1. The Control Room will request HP & Chemistry to investigate the radiation monitoring system alarms. ,

2. . The Control Room may request Chemistry to take a grab sample of the plant s4ck. ,

3. The Control Room may calculate offsite doses using the Control Room Dose Assessment Program.

4. At this time. the Plant Stack readings indicate a release which exceeds Technical Specification i limits but is not >10 times Technical Specification limits.

5. The Emergency Coordinator will review EP-001-001, to evaluate the need to update the ]

{

emergency classification.

ECOMMENTS The release is caused by a leak on the inlet flange of relief valve GWM-403A on the "in service" Gas Decay Tank "A". The leak occurs at approximately 08:15, but the Plant Stack Monitors do not reach the EAL limit until approximately 08:30.

INSTRUCTIONS This cue card will not need to be issued in the Control Room unless the Simulator fails, and the indications are not available on the Control Room panels, if an NAO is dispatched to observe local indications, the NAO will obtain the appropriate information by contacting the Simulator Instructor. Booth.

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WATERFORD 3 SES BIENNIAL ' EXERCISE OCTOBER 13,1999 I

W3 SES EMERGENCY PREPA' REDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 7A TO: CRS/NPO TIME: 08:30 FROM: CONTROL ROOM CONTROLLER / MONITOR T= +0:05 THIS IS A DRILL DO NOT initiate actions affectin...g normal plant operations Provide the following information:

Plant Stack PIG Gas channels are in HIGH Alarm PRM-IRE-0100.1S, Grid 4, EGS-133 _ Reading: 1.82E-02 uCi/cc PRM-IRE-0100.2S, Grid 4, EGS-143 Reading:1.82E-02 uCi/cc Plant Stack WRGM Low Range is in HIGH Alarm PRM-IRE-0110, Grid 6, EGG-514 Reading: 1.82E-02 uCi/cc RAB HVAC Monitors are in HIGH alarm ,

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VI-15

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 7B TO: CRS/NPO TIME: 08:30 FROM: CONTROL ROOM CONTROLLER / MONITOR T= 0:35 THIS IS A DRILL DO NOT initiate actions affectin norm a l plant operati on s

..................................g ANTICIPATED FGPONSE

6. The Control Rorsm will request HP to investigate the radiation monitoring system alarms.

7. The Control Room may request Chemistry to take a grab sample of the plant stack.

6. The Control Room may calculate offsite doses using the Control Room Dose Assessment Program.

9. Since the Plant Stack readings indicate a release which is >10 times Technical Specification limits, the Emergency Coordinatorimplements EP-001-001 IC A/A/l, and declares an Alert.

10. The Emergency Coordinator implements EP-001-020, Alert.

- COMMENTS The release is caused by a leak on the inlet flange of relief valve GWM-403A on the "in service" Gas Decay Tank "A" The leak occurred at approximately 08:15, but the Plant Stack Monitors exceeded 10 times the Tech. Spec. limits at 08:30.

l_NSTRUCTIONS

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

If an NAO is dispatched to observe localindicctions, then the NAO will obtain the appropriate information by contacting the Simulator Instructor Booth.

If the Control Room contacts Chemistry requesting information on whether or not the Technical Specifications have been exceeded by 10 times, then instruct the Chemistry Controller / Monitor to have Chemistry confirm that the conditions exceed 10 times Tech. Spec. limits.

VI-16

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

. W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 8A

^

TO: NAO/HP TECHNICIAN TIME: Upon arrivalin the GDT "A" Area FROM: SIMULATOR INSTRUCTOR /HP MONITOR T= N/A THIS IS A DRILL DO NOT initiate actions affectin...g normal plant operations Provide the following information:

~

As the participants enter the area, they will hear gas leaking.

When they are in the area of GDT "A" they will determine that gas is leaking from the inlet flange of relief valve GWM-403A on Gas Decay Tank "A "

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WATERFORD 3 SES BIENNIAL EXERCISE l OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL' TYPE /NO. 1999 BIENNIAL EXERC!SE DRL#99-08 CUE CARD NO. 88 TO: NAO/HP TECHNICIAN TIME: Upon arrivalin the GDT "A" Area i FROM: T= N/A SIMULATOR INSTRUCTOR /HP MONITOR )

THIS IS A DRILL DO NOT initiate actions affecting normal ....pl a nt operati o n s ANTICIPATED RESPONSE -

1. The NAO/HP technician reports the leak to the Control Room.

2. The Control Room requests mechanical maintenance to attempt to repair the leaking flange.

3. Tightening the flange bolts with a torque wrench will secure the leak.

COMMENTS lt is assumed the flanged bolts were not evenly tightened to the required torque values when the relief valve was replaced.-

INSTRUCTIONS When the NAO/HP technician approaches the Gas Decay Tanks, provide the information as indicated on Page 1 of this cue card.

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

l VI-18

.WATERFORD 3 SES BIENNIAL EXERCISE OCTO3ER 13,1999 -

' W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD

, DRILL TYPE /NO. ' 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 9A

- TO: ; EMERGENQY COORDINATOR TIME:- Upon declaration of Alert fFROMi CONTROL ROOM CONTROLLER _T= N/A s

THIS IS A DRILL DO NOT initiate actions affectin g normal plant operations Substitute for Step 5.2.1 of EP-001-020:

Announce: THIS IS A DRILL! THIS IS A DRILLI 5.' 2.1 ' 1 Sound the STATION ALARM (for at least 5 seconds) and make the following annouricement(s): .

5.2.1.1' ' ATTENTION ALL PERSONNEL! ATTENTION ALL PERSONNEL!

i e THIS IS A DRILL! THIS IS A DRILL!

' AN ALERT WAS DECI.ARED AT'( )DUETO(

). ALL

~'-

MEMBERS OF THE EMERGENCY RESPONSE ORGANIZATION FOR THIS DRILL i

REPORT _ TO YOUR STATIONS (if necessary, announce routing instructions for EOF 4

responders).'. ALL OTHER PERSONNEL CONTINUE WITH YOUR NCRMAL DUTIES.

(if the emergency is radiation oriented, add: "There will be no smoking, eating or drinking until further notice.") THE MAINTENANCE RADIO FREQUENCY IS NOW DEDICATED FOR EMERGENCY USE ONLY. l THIS IS A DRILLI - THIS IS A DRILL!

5.2.1.2 1,,f there is a localized emergency (e.g., fire, radiological hazard outside of a normally established Controlled Access Area (CAA)), then announce its type and location and instruct personnel to stand clear of this area (refer to FP-004 020 for fire).

5.2.1.3 - Sound the STATION ALARM (for at least 5 seconds) and repeat the announcement (s)_at lea' st 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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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 j W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 9B TO: EMERGENCY COORDINATOR TIME: Upon declaration of Alert FROM: CONTROL ROOM CONTROLLER T= N/A THIS IS A DRILL

.... .... .... .... .... .... .... .... .... ..... .. .affecting DO NOT initiate actions normal

.... ....pla n t ope rati o n s

' ANTICIPATED RESPONSE

1. EC substitutes the drill announcement for Step 5.2.1 of EP-001-020, Alert. I

2. The TSC, OSC and EOF personnel are mobilized via the plant page announcement and the VNS.

3. State and local government agencies, Waterford 1&2 and the NRC are notified of the Alert declaration.'

4. The Control Room will activate ERDS.

5. There are no PARS required for this declaration.' I COMMENTS l_NSTRUCTIONS:

s Give the first page of this Cue Card to the EC/ Emergency Communicator as they are preparing to make the classification announcement.

VI-20

WATERFORD 3 SES BIENNIAL EXERT.dE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD ORILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 10A

' TO: EMERGENCY COORDINATOR TIME: At the discretion of the Lead Controller

. FROM: CONTROL ROOM CONTROLLER T= N/A THIS IS A DRILL DO NOTinitiate actions affecting normal ..........pl ant operati o n s CONTINGENCY CUE CARD implementing Condition: When it appears imminent that classification will not be in accordance with the design of this exercise package.

Contingency Action: Direct the Shift Supervisor / Emergency Coordinator to classify the event as an Alert in accordance with the design of this exercise package. ,

1 VI-21

WATERFORD 3 SES BIENNIAL $XERCISE OCTOBER 13,1999 '

W3 SES EMERGENCY PREPhREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 10B 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......................pla affecting normal nt o peratio n s ANTICIPATED RESPONSE 1 Alert is declared.

2. EP-001-020, Alert is implemented.

3. The TSC, OSC and EOF are mobilized via plant page and VNS.

4. ' Notifications are made to offsite agencies.

5. - The Control Room activates ERDS.

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 Alert conditions are present and only if it appears the participants are not working toward declaring the Alert.

-INSTRUCTIONS This cue card is not o to be issued without authorization of the Lead Controller, if this cue card is issued, provide the Alert announcement from the previous cue card to the EC/ Emergency Communicator as they are preparing to announce the Alert declaration.

VI-22

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO.~ 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 11A TO: EMERGENCY COMMUNICATOR TIME: When the Emergency Communicator begins activating the VNS FROM: COMMUNICATIONS CONTROLLER T= N/A THIS IS A DRILL DO NOT initiate actions affecting ..........pl normal a nt o perati o n s When the Emergency Communicator begins to activate the Voice Notification System (VNS) to callout the Onsite Organization, ensure that the

• PASSWORD" posted on the Simulator VNS terminal (4104) is used to access the drill scenarios.

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VI-23

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 q W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. ' 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO.' 11B TO: EMERGENCY COMMUNICATOR TIME: When the 1 Emergency Communicator begins activating the - I VNS FROM: COMMUNICATIONS CONTROLLER T = ' N/A THIS IS A DRILL DO NOT initiate actions affecting normal plant operations ANTICIPATED RESPONSE The Emergency Communicator will initiate the appropriate VNS " DRILL" scenario.

l. COMMENTS

. Some of the Emergency Communicators wi!I remember the password posted on the real Control l Room VNS terminal which will activate actual emergency scenarios. We want the Comunicator to use the password posted on the Simulator VNS which will bring up a menu of " DRILL" scenarios for the communicator to select. The communicator should select the appropriate scenario for the current l emergency condition (i.e., Alert, Site Area Emergency, etc.). By initiating the DRILL scenario, the l l "THIS IS A DRILL" statement will be provided to the personnel when they call in. This will eliminate 1 any confusion as to whether or not an actual emergency has been declared when personnel are l --

contacted via the VNS.

l INSTRUCTIONS Ensure the communicator uses the password posted on the Simulator VNS terminal (4104).

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I VI-24

[.-

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP REDNESS DRILL CUE CARD DRILL TYPE /NO. ' 1999 BIENNIAL EXERCISE DRL#99-08 CUE CARD NO. ,12A TO: CHEMISTRY TECHNICIAN TIME: Upon analyzing GDT/ Plant Stack sample FROM: CHEMISTRY CONTROLt.ER/ MONITOR T= N/A THIS IS A DRILL DO NOT initiate actions a#ectin ...g norm al plant operations After Chemistry has analyzed the GDT sample and/or the grab sample from the plant stack, provide the results from the Chemistry Data Section of this package.

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VI-25 I

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[ WATERFORD 3 SES BIENNIAL EXERCISE P OCTOBER 13,1999 L

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 128

l. .

L TO: ' CHEMISTHY TECHNICIAN TIME: Upon analyzing .

I GDT/ Plant Stack sample FROM: CHEMISTRY CONTROLLER / MONITOR T= N/A THIS IS A DRILL DO NOT initiate actions affecting normal plant operations ANTICIPATED RESPONSE Chemistry will report the results to the Control Room.

COMMENTS

]

The results of the Plant Stack grab sample will confirm the release from the GDT does exceed 10 times Tech. Spec. limits.

INSTRUCTIONS After the Chemistry Technician has performed the appropriate actions to obtain the sample results, provide a copy of the chemistry data sheet for the applicable sample.

O VI-26

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD i

DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 13A j TO; CONTROL ROOM DATA CLERK TIME: 09:00 FROM: CONTROL ROOM CONTROLLER T= +1:05

. ........ .... .......... .... .... ... .... .......... .... ................ ........... l THIS IS A DRILL l DO NOT initiate actions affecting normal

.. . ......... ....pla......

nt operati ons

. ....... .... .... .... .. .. .... ... . .... .... .... .... i Make the following announcement:

)

ATTENTION ALL PERSONNEL! THIS IS A DRILL!

THE 1999 BIENNIAL EXERCISE IS IN PROGRESS. DO NOT USE THE PLANT PAGE FOR NON-EXERCISE RELATED ANNOUNCEMENTS.

. DRILL TIME IS (Insert time from Simulator clock). )

1 THIS IS A DRILL!

Do not repeat this announcement.

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VI-27 l~

L.

, WATERFORD'3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3'SES EMERGENCY PREP'AREDNESS DRILL CUE CARD g DRIL' LTYPE/NO. '1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 138-

.TO: CONTROL ROOM DATA CLERK TIME: 09:00 FROM: CONTROL ROOM COiSTROLLER T= +1:05 THIS IS A DRILL DC. NOT initiate actions affectin ...g normal plant operations ANT!CIPATED RESPONSE Plant page announcement is made.

COMMENTSi The purpose of this cue card is a:' ,

' 1. Remind site personnel that an exercise is in progress and to refrain from activities that could affect the response of the exercise participants.

2. Ensure the Drill Control Team members are using the Simulator clock as a reference for exercise activities.-

' INSTRUCTIONS Ensure this annoi:r. cement does not interfere with any announcements being made by the drill participants, 9

VI-28 c

WATERFORD 3 SES BIENNIAL hXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP REDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 14A TO: TSC COMMUNICATOR TIME: When Communicator attempts to use the OHL FROM: TSC COMMUNICATIONS MONITOR T= N/A

.THIS IS A DRILL

. .. . ... . ... . . .. .... DO

... . NOT

.. . .. initiate

. . .. . ...actions

....... . affecting

. . . . .. ..nc . mal

.. .... . . plant

.. .peora.........

t i o n s....

When the TSC communicator 1 or 2 attempts to use the Operations Hotline the phone circuit will not work.

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VI-29

WATERFORD 3 SES' BIENNIAL EXERCISE

, 1 OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD L DRILL TYPE /NO. ' 1999 BIENNIAL EXERCISE-DRLW99-08 CUE CARD NO.

148 LTO: ~ TSC COMMUNICATOR . ' TIME: When Communicator ,

attempts to use the OHL FROM: . TSC COMMUNICATIONS f MNITOR T = N/A THIS IS A DRILL

.. ... . .... ... ....DO. . NOT initiate

.... ... actions

. . ... ..... affecting normal

... ..... ... .... plant o

.perati ons ANTICIPATED RESPONSE

1. Communicator will need to use an alternate method of commun'ications to notify offsite agencies.

2. The Lead Communicator will request the TSC Supervisor to contact OSC to obtain IT and Electrical support to determine the problem with the OHL.

3. The Communicators may check with other site facilities (Control Room and/or EOF) to determine if they are affected.

4. Alternate method of communications will need to be used until the OHL power supply is unplugged and the breaker is reset, i COMMENTS

, .1. Documents Referenced

. PDMD 227

e. Emergency Plan (section 7.5.2.1) Operational Hotline

.. Emergency Plan (table 7-10) Emergency Response Facility Communications

2. This failure will be initiated by having the "real" Operations shift open breaker

! CMTEBKR014AB-26

3. The breaker is assumed to have tripped due to a shorted power supply transformer to the TSC i communicator #1 phone.

4. This breaker does not have a tripped position. The tripped breaker will be in the OFF condition.

5. The failure of the power supply only affects the TSC OHL. The OHL circuit is operable in the Simulator Control Room and the EOF.

INSTRUCTIONS

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

q

~ 2. The drill control team will ensure the breaker is opened prior to the declaration of Alert. J

3. The operation of the breaker will be coordinated with the "real" Shift Superintendent and the breaker will be operated by a shift NAO.'

. VI-30 i

E L

l WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO.

1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. _15A TO: IT REPRESENTATIVE TIME: When IT checks the OHL t

FROM: REPAIR TEAM MONITOR T= N/A THIS IS A DRILL

.. .. .... ...... . ........DO NOT initiate

. ............. actions

... . ... .. ... ..affecting

. ... ... . normal

... . . ....plant

.pe ora...

ti o............

ns j

When OSC IT Representative troubleshoots the OHL telephone circuit, provide the following information:

The TSC OHL circuit is not operable.

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l VI-31 l

p; WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

^

! W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 158 l TO: IT REPRESENTATIVE TIME: When IT checks the OHL

- FROM:_ . REPAIR TEAM MONITOR L T= N/A L

THIS IS A DRILL DO NOT initiate actions affectin ...g normal plant operations ANTICIPATED RESPONSE

1. ' The IT Representative ar.d/or the TSC Communicators may check with the other facilities to ,

- determine if the OHL is operable. The OHL is found to be operable in all facilities except the TSC.

2. No problems will be found with the telephone instruments and lines.

3. The IT Representative should request electrical maintenance to check the power supply to the

'~

TSC OHL COMMENTS -

1. 4 Docum' ents Referenced -

2. PDMD 227

3. Emergency Plan (section 7.5.2.1) Operational Hotline

4. Emergency Plan (table 7-10) Emergency Response Facility Communications

5. This failure will be initiated by having the "real" Operations shift open breaker CMTEBKR014AB-26

6. The breaker is assumed to have tripped due to a shorted power supply transformer to the TSC

. communicator #1 phone.

7. This breaker does not have a tripped position. The tripped breaker will be in the OFF

, condition.

8. The failure of the power supply only affects the TSC OHL. The OHL circuit is operable in the Simulator Control Room and the EOF.

INSTRUCTIONS

1. Provide the information on this cue card as the IT Representative checks the operation of the OHL. ~

2. If the exsreise participants decide to operate the power supply breaker, the drill control team will ensure the operation of the breaker will be coordinated with the "real" Shift Superintendent and the brtsker will be operated by a shift NAO.

VI-32 l

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 -

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD i

DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 16A -

1 TO: ELECTRIC L REPAIR TEAM TIME: When Electrician checks the OHL FROM: ELECTRICAL REPAlR TEAM MONITOR T= N/A THIS IS A DRILL DO NOT initiate actions affecting normal plant operations When OSC electrical repair team troubleshoots the OHL telephone circuit, provide the following information:

Power supply breaker CMTEBKRO14AB-26 is in the OFF condition.

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i VI-33 J

v WATERFORD 3 SES BIENNIAL EXERCISE

' OCTOBER 13,1999 W3 SES EMERGENCY PREPhREDNESS DRILL CUE CARD

, DRILL TYPE /NO. '1999 BIENNIAL EXERCISE-DRL#99-08 ' CUE CARD NO. ,168

. TO: ELECTRICAL REPAIR TEAM TIME: When Electrician checks the OHL

' FROM:

ELECTRICAL R ' EPAIR TEAM MONITOR T= N/A THIS IS A DRILL DO NOT initiate actions affecting normal plant operations ANTICIPATED RESPONSE

1. The electrical technician should check the receptacle for power.

2. The electrical technician should check the breaker CMTEBKRO14AB-26.

3. If the breaker is closed with the defective power supply still plugged in, then it will immediately trip,

4. The repair team should replace / remove the defective power supply and close the breaker.

COMMENTS

1. Documents Referenced

. PDMD 227

. Emergency Plan (section 7.5.2.1) Operational Hotline Emergency Plan (table 7-10) Emergency Response Facility Communications 2, _ This failure will be initiated by having the "real" Operations shift open breaker CMTEBKRO14AB-26

3. The breaker is assumed to have tripped due to a shorted power supply transformer to the TSC communicator #1 phone. Replacing the defective power supply and closing breaker CMTEBKRO14AB-26 will restore the circuit. Removing the defective power supply from the circuit and closing the breaker will restore the TSC Communicator #2 phone.

4. This breaker does not have a tripped position. The tripped breaker will be in the OFF condition.

5. The failure of the power supply only affects the TSC OHL. The OHL circuit is operable in the Simulator Control Room and the EOF.

INSTRUCTIONS

1. Provide the information on this cue card as the repair team checks power to the OHL.

2/ if the exercise participants decide to operate the power supply breaker, the drill control team will ensure the operation of the breaker will be coordinated with the "real" Shift Superintendent and the breaker will be operated by a shift NAO, "

VI-34 i

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPhREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 17A TO: CRS/NPO TIME: 09:15 FROM: CONTROL ROOM CONTROLLER / MONITOR T= +1:20 THIS IS A DRILL DO NOT initiate actions affecting normal plant operations When Charging Pump "A" trips, provide the following information:

ALARMS Annunciator CP-4, Cabinet G, Window B-4, CHARGING PUMP A TRIP TROUBLE.

COMPUTER POINT D39604, CVCS CHG PMP A OVLD TRIP, " DETECTED" COMPUTER POINT D39600, CVCS CHG PMP A,"OFF" OTHER INDICATIONS Charging Pump "A" control switch indicates .0FF".

]

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VI-35  :

Q WATERFORD 3 SES BIENNIAL E' XERCISE OCTOBER 13,1999 l

W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD l- DRILL TYPE /NO. 1999 E' ylAL EXERCISE-DRL#99-08 CUE CARD NO. 17B TO: CRS/NPO TIME: 09:15' FROM: CONTROL ROOM CONTROLLER / MONITOR T= +1:20 THIS IS A DRILL -

DO NOT initiate actions affecting normal ....pla nt operati o n s ANTICIPATED RESPONSE I J

1. The Control Room will dispatch an NAO to investigate the problem with Charging Pump "A"

2. The TSC should request the OSC to dispatch a Repair Team to investigate the failure. l COMMENTS INSTRUCTIONS The information on Page 1 of 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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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO.- 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 18A TO: NAO/ ELECTRICAL REPAIR TEAM TIME: Upon arrival at charging pump "A" breaker FROM: SIMULATOR OPERATOR / REPAIR TEAM MONITOR T= N/A THIS IS A DRILL

........ .... ... .... DO ....

.... NOT initiate .............

.......... actions affecting normal

.........pl ant operatio n s When an NAO/ Electrical Repair Team arrives at 3A31 SWGR, they will find.

. Flag on CVCEREL31A-11 A (Located 3A31 Cube 11)

. 74/HR relay picked up (Located 3A31 Cube 3)

• Breaker open (Located 3A31 Cube SC)

. A hot / burnt odor is detected at the breaker 6

(

4 4

VI-37

y ,

~

WATERFORD 3'SES BIENNlAL EXERCISE OCTOBER 13,1999 ,

i W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD

' DRILL TYPE)NO.L 1999 BIENNIAL EXERCISE DRL#99-08 CUE CARD NO. 188

[TO: ' NAO/ ELECTRICAL' REPAIR TEAM TIME: Upon arrival at charging pump "A" breaker FP.OM; SIMULATOR OPERATOR / REPAIR TEAM MONITOR T= N/A

~

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

. . ... . . ... . . .... .... ..... .... .... .... .... .... .... i

. ANTICIPATED RESPONSE

1. NAO/ Repair Team should reset 74/HR relays and request the Control Room to attempt to 6 restart pump. .

2. When pump restart is attempted, current readings will show approximately 700 AMPS and the

. pump will trip.

3. Electrical repair team will coordinate with Operations to rack out the breaker to investigate the odor. .

4. If the breaker is racked out, the repair team will be' taken to the mock up. Mock-up will have burnt indication on arc chutes and a burnt odor.

5. Eisetrical repair team may attempt to rebuild the breaker or use another breaker (such as the "AF CVC pump breaker) as directed by the OSC.

6. . Wher! Repair Team takes readings on the motor, they will receive the following indications:

. a. Phase-to-Phase resistance = 0.2 OHMS

. b. - . Phase-to-Ground resistance > 1000 MEGOHMS (non-temp, corrected)

' 7. If not already requested, PMM will be dispatched.to check the pump.

COMMENTS

1. W' hen 74/HR relay is reset, Annunciator will clear on CP-4, Computer Point D39604 =

" CLEARED". Annunciator will come in when motor trips.

2. Documents Referenced -

e CWD 365 CWD 367

.- CWD E365 WA 01067190

.*- CWD XLil 3.- The Breaker will probably be racked out to take readings. If done inform simulator instructor so that control switch in simulator can be made dark.

,1NSTRUCTIONS The NAO dispatched to investigate the problem will obtain the appropriate information by conta; ting the Simulator Instructor Booth

• l IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE -

~ STATUS OF REPAIR ACTIVITIES IN THE PLANT AT ALL TIMESI I VI-38 l i

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I WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD l

L DRILL TYPE /NO. 1999 BIENNIAL EXERC!SE-DRL#99-08 CUE CARD NO. 19A TO: MECHANICAL REPAIR TEAM TIME: Upon arrival at charging pump g,,

FROM: MECHANICAL REPAIR TEAM MONITOR T= N/A i

THIS IS A DRILL DO....

.. ... ... .. .. ... ... .... NOT initiate

.. ....... . ..actions

. . .....affecting

. . . . ...normal

.. . . ....plant o ti o n s

.pera ... .... ....

When a Mechanical Repair Team arrives at Charging Pump "A", they will observe no external abnormalities with the pump.

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l VI-39 i

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13l1999-W3 SES EMERGENCY PREP"AREDNESS DRILL CUE CARD

[ DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08' CUE CARD NO. 198

' TO: MECHANICAL REPAIR TEAM TIME: Upon arrival at charging pump "A"

FROM: MECHANICAL REPAIR TEAM MONITOR T= N/A e

THIS IS A DRILL DO NOT initiate actions a#ecting normal plant operations l

- ANTICIPATED RESPONSE

{

l l

1. The Repair team will report findings.

p 2. {

. Repair team may request a tagout to rotate the pump shaft. 1 3.' - When repair team attempts to rotate the pump by hand, the pump rotates freely, j COMMENTS l

INSTRUCTIONS  !

. Provide the information on this cue card to the Mechanical Repair Team upon arrival at the "A' charging pump and as they perform actions necessary to obtain the appropriate data that the pump appears normal.

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

. STATUS OF REPAIR ACTIVITIES IN THE PLANT AT ALL TIMESI 1

l Vl-40

e WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

. W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD

' DRILL TYPE /NO. 1999 BIENNIAL EXERCISE DRL#99-08 CUE CARD NO. 20A

' TO: CONTROL ROOM DATA CLERK TIME: 10:00 FROM: CONTROL ROOM CONTROLLER T= +2:05 THIS IS A DRILL

.... .... .... .... ....DO

....NOT initiate

.......... ....a'ctions

..... ...affecting

.... ....normal plant operati

.... .... o ns......

' Make the following announcement:

ATTENTION ALL PERSONNEL! THIS IS A DRILLI l I

THik 1999 BIENNIAL EXERCISE IS IN PROGRESS. - DO NOT USE THE PLANT PAGE FOR f EXERCISE RELATED ANNQUNCEMENTS.

L DRILL TIME IS (Insert time from Simulator clock). I I

THIS IS A DRILLI l Do not repeat this announcement.

VI-41 l

L WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 l: W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO, .1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 20B TO: CONTROL ROOM DATA Cl,ERK TIME: 10:00 FROM: CONTROL ROOM CONTROLLER T= +2:05 THIS IS A DRILL DO NOT initiate actions affecting normal ....pl a nt opera ti o n s ANTICIPATED RESPONSE Plant page announcement is made.

COMMENTS

-The purpose of this cue card is to:

1. Remind site personnel that an exercise is in progress and to refrain from activities that could affect the response of the exercise participants.

2. Ensure the Drill Control Team members are using the Simulator clock as a reference for exercise activities.

• lNSTRUCTIONS Ensure this announcement does not interfere with any announcements being made by the drill participants.

I u

VI-42 l

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERG'ENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 21A TO: CRS/NPO l TIME: 10:15 j I

FROM: CONTROL ROOM CONTROLLER / MONITOR T = ~ +2:20 J THIS IS A DRILL DO NOT initiate actions affecting normal plant operations Provide the following information:

Indications will show that a RCS Loss of Coolant Accident (LOCA) has occurred which results in a Reactor trip, Safety injection, Main Steam Isolation Signal (MSIS) initiation and Containment isolation Actuation Signal (CIAS).

The available~ charging pumps can not maintain Pressurizer level.

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VI-43 1

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'A REDNESS DRILL CUE CARD

! DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 218 TO: CRS/NPO TIME: 10:15 FROM: CONTROL ROOM CONTROLLER / MONITOR T= +2:20 THIS IS A DRILL DO NOT initiate actions affectin ...g norm al pl a nt operation s ANTICIPATED RESPONSE

1. The Control Room staff enters OP-902-000, Standard Post Trip Actions Procedure and subsequently enters EOP OP-902-002, Loss of Coolant Accident Recovery Procedure.

2. The Emergency Coordinator dectues a Site Area Emergency and implements EP-001-030, Site Area Emergency.

COMMENTS The LOCA is due to a pipe rupture on RCS "A" Hot Leg #1.

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

i VI-44

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 22A

/ TO: CRS/NPO TIME: At MSIS FROM: CONTROL ROOM CONTROLLER / MONITOR T= N/A THIS IS A DRILL DO NOT initiate actions affecting normal plant operations -

Provide the following information:

Indication will show that the Atmospheric Dump Valve (ADV) #2 (MS-1168) fails to open to control l SG #2 pressure.

s VI-45 1

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CL'E CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 22B TO: CRS/NPO TIME: At MSIS FROM: CONTROL ROOM CONTROLLER / MONITOR T= N/A THIS IS A DRILL DO NOTinitiate actions affecting normal plant operations ANTICIPATED RESPONSE

1. The NPO should try to take manual control of ADV #2 by manipulating MS IPIC-0303-B-1.

2. The Control Room will dispatch an NAO to investigate the problem with ADV #2.

3. The Control Room will request the TSC dispatch an OSC repair team to troubleshoot MS-1168.

COMMENTS The operators will expect Annunciator SG2 ATMOSPHERIC DUMP VLV OPEN on CP-8, Cabinet N.

Window G-11 to be lit. In this situation, the Annunciator Light did not come on, indicating the ADV did not open.

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.

1 VI-46 l

1 WATERFORD 3.SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRIL!, TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 23A TO: NAO/l&C REPAIR TEAM TIME: When NAO or repair team checks ADV #2 status FROM: SIMULATOR OPERATOR /l&C REPAIR TEAM MONITOR T= N/A THIS IS A DRILL DO NOT initiate actions affecting normal plant operations Provide the following information:

At Control Room Panel ICECP 08,100% output indication from the man / auto station MS IPIC030B1.

At valve positioner, MS lEPO1168 (RAB +46 east side), proper gauge indications to open valve are observed.

I Vl-47 1

)

r WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP REDNESS DRILL CUE CARD l DRILL TYPE /NO. ' 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 238 TO: ,NAO/l&C REPAIR TEAM TIME: When NAO or repair team checks ADV

1. 2 status l

FROM: SIMULATOR OPERATOR /lW REPAIR TEAM MONITOR T= N/A l

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

1. ' At ICECP 45, slot 342 verify proper output by checking tracking driver card (NTD) MS IPTD0303B1 voltage test points signal common and current out (sat).

- 2. Manually attempt to stroke valve by removing MS lEP116B cover and working positioner flapper back and forth observing output pressure change.

3. Verify MS MVAAA1168 is not gagged closed. (sat).

4. Repair team should determine that valve internals are su'spect. i

5. OSC should assemble crews, parts and condu'.t briefings in order to disassemble the valve. )

i COMMENTS I&C's troubleshooting will reveal no problems with the positioner or control circuit.

i INSTRUCTIONS The NAO dispatched to investigate the problem will obtain the appropriate information by contacting the Simulator Instructor Booth.

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

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VI-48

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 GlENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 24A l TO: NAO/ MECHANICAL REPAIR TEAM TIME: Upon arrival at

{

ADV #2 FROM: MECHANICAL REPAIR TEAM MONITOR T= N/A l

)

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations Provide the following information:

MS116B will not open.

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VI-49

WATERFORD 3 SES BIENNIAL' EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 248 TO: NAO/ MECHANICAL REPAIR TEAM' TIME: Upon arrival at ADV #2 FROM: MECHANICAL REPAIR TEAM MONITOR T= N/A THIS IS A DRILL DO NOT initiate actions affecting normal ....pl ant operati o n s ANTICIPATED RESPONSE

1. - The NAO/ maintenance technician should engage the manual override mechanism and attempt to open the valve. - The valve will move slightly and then will bind. It will appear to be internally seized.

j

2. At this time a decision may be made to isolate and open the valve for repairs behind single valve protection.

3. OSC should assemble crews and parts and conduct briefings in order to disassemble the valve.

COMMENTS INSTRUCTIONS A Mechanical Repair Team Monitor should be staged at the ADV to provide this information as the NAO/ repair team arrives and performs actions necessary to earn the data on this cue card.

IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR EIOOTH INFORMED OF THE i STATUS OF REPAlR ACTIVITIES IN THE PLANT AT ALL TIMES! l l

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4 VI-50

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,-1999 i .

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 25A-TO:- EMERGENCY COORDINATOR / EOF DIRECTOR TIME:- Upon declaration of Site Area Emergency FROM: TSC/ EOF CONTROLLER T= N/A THIS IS A DRILL

... ... .. . ... . ... . ..DO

. ..NOT

. .. .initiate actions

. . ... ... . .. ...affecting

. .. .. . .normal

.. . . . plant o

... perati

.... o ns

, Substitute for Step 5.2.5 of EP-001-030:

' Announce: THIS IS A DRILL! THIS IS A DRILLI 5.2.5 - Sound the STATION ALARM (for at least 5 seconds) and make the following announcement (s):

5.2.5.1' ATTENTION ALL PERSONNELI ATTENTION ALL PERSONNEL!

THIS IS A DRILLI ' THIS IS A DRILLI A SITE AREA EMERGENCY WAS DECLARED AT ( ) DUE TO (

).ALL MEMBERS OF THE EMERGENCY ORGANIZATION FOR THIS DRILL REPORT TO YOUR STATIONS (if necessary, announce routing instructions for EOF responders). ALL OTHER PERSONNEL EXIT THE PROTECTED AREA IMMEDIATELY. DESIGNATED EVACUEES REPORT TO ( MONSANTO PARK IN LULING ) AND SIGN IN WITH

THE ASSEMBLY AREA SUPERVISOR. THERE WILL BE NO SMOKING, EATING OR

DRINKING UNTIL FURTHER NOTICE. THE MAINTENANCE RADIO FREQUENCY IS DEDICATED FOR EMERGENCY USE ONLYI THIS IS A DRILLI . THIS IS A DRILLI 5.2.5.2 If_there is a localized emergency (e.g., fire, radiological hazard outside of normally established CAAs), then announce its type and location and instruct personnel to stand clear of this area (refer to FP-004-020 for fire).

5.2.5.3 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 rerch a location where the announcement can be heard.

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VI-51 4

h WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

W3 SES EMERGENCY PREP'AREDNESS DRI'LL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 25B

TO

_ EMERGENCY COORDINATOR / EOF DIRECTOR TIME: Upon declaration of Site Area Emergency FROM: .TSC/ EOF CONTROLLER T= N/A THIS IS A DRILL DO NOT initiate actions affecting normal plant operations 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 plant page announcement.

5. Security implements accountability and supplies a Missing Person Roster to the TSC.

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

COMMENTS

1. ' Non-essential Protected Area personnel will evacuate to station parking lots.

2. A small number of personnel have been pre-designated to evacuate to the offsite assembly area.

3. - 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.

4. The announcement on this cue card specifies the designated evacuees will proceed to Monsanto Park. The Emergency Coordinator / EOF Director may select the Edgard offsite assembly area but, in order to satisfy an offsite objective for St. Charles Perish, they will be directed to announce the Monsanto Park assembly area.

INSTRUCTIONS Give Page #1 of this cue card to the Emergency Coordinator / EOF Director as he prepares to announce the Site Area Emergency declaration.

For the purposes of the exercise, the Drill Control Team will ensure Monsanto Park is announced as the offsite assembly area.

VI-52 i

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPhREDNESS DRILL CUE' CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE.DRL#99-08 CUE CARD NO. 26A TO: EMERGENCY COORDINATOR / EOF DIRECTOR TIME: At the discretion i of the Lead i Controller FROM: TSC/ EOF CONTROLLER - T= N/A THIS IS A DRILL

' DO NOT initiate actions affecting normal plant operations j l

CONTINGENCY CUE CARD Implementing Conditions: When it appears imminent that the classification will not be made in accordance with the design of % exercise package.

Contingency Action: Direct the Emergency Coordinator / EOF Director to classify the event as a Site Area Emergency, i

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VI-53

b n l WATERFORD 3 SES BIENNIAL EXERCISE

. OCTOBER 13,1999 0 ~. W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD h . DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 268

{ D- .

l TO: EMERGENCY COORDINATOR / EOF DIRECTOR TIME: At the discretion of the Lead

. Controller FROM: TS'C/ EOF CONTROLLER - T= N/A

.THIS IS A DRILL

.. ...... .... .... ....L DO

. ...NOT initiate

.... .... .... actions

.... . ..affecting normal

....... . ... ... . plant o

..perati ons ANTICIPATED RESPONSE

1. ' Site Area Emergency declared.

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

3. Site evacuation prepared for a . implemented.

4. Security performs evacuation accountability and reports results to the TSC.

5. Notifications are made to offsite agencies.

COMMENTS The purpose of this cue card is to maintain the scenario time line. This cue card will not M issued any earlier than 15 minutes after Site Area Emergency conditions are present and only if it appears the participants are not working toward declaring the Site Area Emergency.

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

If this cue card is issued, provide the Site Area Emergency announcement from the previous cue card

- to the EC/ EOF Director as they are preparing to announce the Site Area Emergency declaration.

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VI-54  !

i WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 h - W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD

, DRlLL TYPE /NO.

1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 27A TO: TSC SUPERVISOR . TIME: When accountability is completed FROM: TSC CONTROLLER" T= N/A THIS IS A DRILL DO NOT initiate actions affectin ...g normal plant operations Make the following announcement:

THIS IS A DRILL! THIS IS A DRILL!  !

ACCOUNT ABILITY ACTIVITIES HAVE'BEEN COMPLETED. 'ALL EVACUATED PERSONNEL MAY RETURN TO THEIR NORMAL WORK AREAS.

Repeat announcement once, l

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p WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENC PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO.' 1999 BIENNIAL EXERCISE-DRL#99-08 . CUE CARD NO.' 27B TO: .-TSC SUPERVISOR ' , TIME:~ When

(- accountability l is completed

' FROM: TSC CONTROLLER' T= N/A'

' THIS IS A DRILL

..... . . . . . .... ....DO...NOT

... initiate

.... ....actions affecting

..... ... normal plant

.... .......... o

.perati ons ANTICIPATED RESPONSE Plant personnel who had evacuated the Protected Area to the station parking lots return to their work areas.

COMMENTS :

Security is required to complete evacuation accountability within 30 minutes after the site evacuation is announced, in order to minimize the impact on the non-exercise participants, the Drill Control Team will ensure the evacuated personnel are not kept in the parking lots for longer than 45 minutes.

INS TRUCTIONS '

Page #1 of this cue card will be given to' the TSC Supervisor after all personnel identified on the Missing Person Rost6r have been located.

p_R If accountability activities have not been completed within 40 minutes from the announcement to

. evacuate, the TSC Controller will give Page #1 of this cue card to the TSC Supervisor to return the evacuated personnel to the Protected Area.

VI-56 L.

WATERFORD 3 SES BIENNIAL @XERCISE' OCTOBER 13,1999 W3 SES EMERGENCY PREP REDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 28A l

. TO: OSC SUPERVISOR /OSC SUPERVISOR ASSISTANT TIME: When {

Assembly Area Supervisor ,

reports to OSC FROM: OSC CONTROLLER / MONITOR T= N/A THIS IS A DRILL

.. . . .. .. .. .. ... . .. . DO

. .. .NOT

. ... . initiate

.. .. .. . actions

..... .. . .affecting

. . .. .. .. normal plant

.. . .. . .... o rati o n s

.. .pe ......... ....

I When the Assembly Area Supervisor reports the evacuees have been mustered and are standing by for further instructions at the offsite assembly area, direct the OSC Supervisor to instruct the personnel at the assembly area to return to the plant.

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VI-57.

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPhREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 288-TO: OSC SUPERVISOR /OSC SUPERVISOR ASSISTANT TIME: When Assembly Area Supervisor reports to OSC

' FROM: ' OSC CONTROLLER / MONITOR T= N/A THIS IS A DRILL

........ .......... ....DO....NOT initiate

.......... ....actions affecting

..... ... normal

.... ....pla nt operatio ns ANTICIPATED RESPONSE The OSC Supervisor will advise the Assembly Area Supervisor to secure the assembly area activities and return to the plant with the exercise participants and monitors.

COMMENTS The Assembly Area Supervisor reports to the site via the Assembly Area Supervisor radio frequency.

This radio is located at the OSC HP Liaison area in the OSC.

INSTRUCTIONS 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 required) have been completed.

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VI-58

f WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD

~

DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 29A TO: EOF FIELD TEAM COMMUNICATOR TIME: When establishing field team communications FROM: EOF DAA MONITOR T= N/A l ........ .... .... .... .... .... .... .... .......... .......... .... .......... ....

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations Provide the following information:

When the EOF Field Team Communicator attempts to establish communications with the field teams, I the primary field team radio will be inoperable.

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VI-59 i

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 298

. TO: EOF FIELD TEAM COMMUNICATOR TIME: When

- establishing field team communications FROM: EOF DAA MONITOR T= N/A THIS IS A DRILL DO NOT initiate actions affecting normal plant operations )

ANTICIPATED RESPONSE 1

. 1. . The field team communicator will establish communications using the secondary radio circuit.

2. The EOF. may determine that the radio, and not the circuit, is defective by investigating operation of the primary circuit in the TSC.

3. The EOF may request a repair team to investigate the problem with the field team radio. i I

COMMENTS '

The problem with the primary field team radio is a failed radio. There is no problem with the radio circuit.

INSTRUCTIONS The DAA Monitor will issue the information on this Cue Card as soon as the Field Team Communicator attempts to contact the field teams.

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VI-60 m i

r WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 l W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD l DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 30A TO: CRS/NPO TIME: When Containment Spray is initiated FROM: CONTROL ROOM CONTROLLER T= N/A THIS IS A DRILL DO NOT initiate actions affecting ..........pl normal a nt operati o n s When co;us.nment spray activation occurs, provide the following information:

Containment Spray Pump "A" fails to start.

ALARMS

\

CNTMT SPRAY PUMP A UNAVAILABLE on CP-8, Cabinet M. Window A-4 will come in 15 seconds after CSAS.

i Containment Spray Pump "B" starts but discharge pressure lowers and header flow indication pegs  !

high.

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I WATERFORD 3 SES BIENNIAL EXERCISE

, OCTOBER 13,1999 W3 SES EMERGENCY PREP REDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 30B TO: CRS/NPO TIME: When

• Containment Spray is initiated FROM: CONTROL ROOM CONTROLLER T= N/A THIS IS A DRILL

.. ... ... ... . . . .... .. ...... .. .. ..... ... . ... .. ...affecting DO NOT initiate actions . . . .. . normal

. . .. . ..plant o ti o n s

.. pera................

ANTICIPATED RESPONSE

1. The Control Room will attemt t to start CSP "A" using control switch - no response.

2. An NAO will be dispatched to investigate the problem with the "A" and "B" CSPs.

3. The OSC will dispatch a Repair Team to investigate the failure of the "A" CSP.

4. The OSC will dispatch repair teams to check the status of CSP "B".

COMMENTS

1. The indications for CSP "B" are a result of a rupture of the Containment Spray header inside containment. As a result, there will be no flow to the containment spray nozzles.

2. Documents Referenced

. CWD 605

. CWD 606

. CWD E605

. CWD XLil

. WA 01065405 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.

VI-62

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 31A

.TO: NAO/ELECEiCAL REPAIR TEAM TIME: Upon arrival at )

CSP "A" breaker FROM: SIMULATOR OPERATOR / ELECTRICAL MONITOR T= N/A THIS IS A DRILL DO NOT initlete actions affecting normal plant operations Provide the following information as the repair team /NAO inspects the breaker for CSP "A":

1. Breaker racked up

2. Control power knife switch closed

3. Springs indicate charged

4. No Relay flags i

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VI-63 I

J

- WATERFORD 3 SES BIENNIAL' EXERCISE.

OCTOBER 13,1999 ~

. W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD j

DRILL TYPE /NO.' '1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NOi 31B LTOi NAO/ ELECTRICAL REPAIR TEAM ' TIME: Upon arrival at CSP "A" breaker FROMi SIMULATOR OPERATOR / ELECTRICAL MONITOR T= N/A 1

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

........ .... .... '.....u.. . .. ... ........... ... .............. .... ............

ANTICIPATED RESPONSE

1. If voltage checked on points specified for proper rack-up will find no voltage 2; . Visual inspection will reveal broken switches on left side of breaker i

3. Repair team should attempt to manually close breaker "OR" use jumper around the switch "OR" TGB spare /RAB spare /another breaker as directed by the OSC.

4. . If reading taken on motor, the repair team will find

.~ Phase-to-Phase resistance 1.6 OHMS

.. Phase-to-Ground resistance 200 MEGOHMS (non-temp corrected)

COMMENTS

1. Procedures have been changed due to finding loose switchette in the past.

2. If a jumper is installed around the switch, the breaker will close since the close signal already exists.

3. A sign will be placed on the switch at the flapper so the repair team will see it when inspected.

INSTRUCTIONS ~

' Provide' the information on this cue card to the participants when they arrive at the CSP "A" breaker and perform actions necessary to earn the data on this cue card.

The NAO dispatch xl to investigate the problem will obtain the appropriate information by contacting

- the Simulator Instructor Booth.

CAUTION: If the repair team does not have the necessary safety equipment to enter the breaker, they SHALL be stopped by the drill team and directed to obtain the proper equipment. This is an auto-start plant component and personnel protection will not be compromised. This action should only be taken if the door is open and the team does not have the proper equipment.

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

vi-s4 1 m

r l WATERFORD 3 SES BIENNIAL EXERCISE l OCTOBER 13,1999 l

l W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 32A

^

l TO: NAO/ ELECTRICAL REPAIR TEAM TIME: Upon arrival at CSP "B" breaker FROM: SIMULATOR OPERATOR / ELECTRICAL MONITOR T= N/A THIS IS A DRILL DO

. .. ... .... .. .. ... . ... . .NOT initiate

. .. ........ .. actions

. .. .. ... affecting

. . . .... ..normal plant

. .. . ..... .peorati ons Provide the following information:

There are no problems identified with the breaker.

Allindications are normal.

I VI-65 )

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l- WATERFORD 3 SES BIENNIAL EXERCISE F OCTOBER 13,1999

' W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD

! - DRILL TYPE /NO.

1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. _328 TO: 'NAO/ ELECTRICAL REPAIR TEAM TIME: Upon arrival at CSP "B" breaker l FROM: SIMULATOR OPERATOR / ELECTRICAL MONITOR T= N/A THIS IS A DRILL DO NOT initiate actions affecting normal plant operations ANTICIPATED RESPONSE

1. The NAO/ repair team will report the status of the CSP "B".

2. The Control Room may ask the NAO to check the Containment Spray riser level. The NAO will find riser lev'el is low.

3. The emergency organization may identify the leak on the containment spray header and secure the "B" CSP.

COMMENTS The indications for CSP "B" are a result of a rupture of the Containment Spray header inside containment. As a result, there will be no flow to the containment spray nozzles. The pump is operating properly for the conditions.

INSTRUCTIONS

~ Provide the information on this cue card to the participants as they arrive at the CSP "B" breaker and perform actions necessary to earn the data on this cue card.

The NAO dispatched to investigate the problem will obtain the appropriate information by contacting the Simulator Instructor Booth.

IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE STATUS OF REPAIR ACTIVITIES IN THE PLANT AT ALL TIMESI VI-66

p WATERFORD 3 SES BIENNIAL EXERCISE 7 OCTOBER 13,1999

[ W3 SES EMERGENCY PRElsAREDNESS DRILL CUE CARD DRILL TYPE /NO; 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 33A I

TO; NAO/ MECHANICAL REPAIR TEAM TIME: Upon arrival at CSP "B" FROM: SIMULATOR OPERATOR / MECHANICAL MONITOR T= N/A THIS IS A DRILL DO NOT initiate actions affecting normal plant operations

. Provide the following information:

No problems are identified with the CSP "B",

The pump is operating properly for.the conditions.

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l VI-67

WATERFORD 3 SES BIENNIAL EXERCISE l OCTOBER 13,1999 l I

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 338 i

TO: NAO/ MECHANICAL REPAlR TEAM TIME: .Upon arrival at CSP "B" FROM: SIMULATOR OPERATOR / MECHANICAL MONITOR T = N/A THIS IS A DRILL DO NOT initiate actions affecting normal

..........pl a nt opera ti o n s ANTICIPATED RESPONSE

1. The NAO/ repair team will report the status of the CSP "B". i

2. The emergency organization may identify the leak on the containment spray header and secure the "B" CSP. )

COMMENTS The indications for CSP "B" are a result of a rupture of the Containment Spray header inside containment. As a result, there will be no flow to the containment spray nozzles. The pump is operating properly for the conditions.

'- i

.lNSTRUCTICliS i Provido the information on this cue card to the participants as they arrive at the CSP "B" and perform actions necessary to earn the data on this cue card.

The NAO dispatched to investigate the problem will obtain the appropriate information by contacting l' the Simulator Instructor Booth.

IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE STATUS OF REPAlR ACTIVITIES IN THE PLANT AT ALL TIMES! ,

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i VI-68

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPhREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 34A TO: CRS/NPO TIME: If an attemptis made to x-conn LPSI "A" to CS "A"

FROM: CONTROL ROOM CONTROLLER / MONITOR T= N/A THIS IS A DRILL

. . . . . . . . .. .... .... ..DO

.. ..NOT

.. ... initiate

. . ..... .actions

. .. . . . affecting

.. ....... .. ..normal

.. . . . .plant

...peora.........

t i o n s....

CONTINGENCY CUE CARD IMPLEMENTING CONDITIONS: If the Control Room attempts to cross-connect the "A" LPSI pump to the "A" Containment Spray Header.

CONTINGENCY ACTION: When the Control Room attempts to open valve SI-125A, provide the following information:

The valve position indication on the control panel will indicate SHUT for approximately 30 seconds, and then indication will be lost (both the SHUT and OPEN indicator lights will be OFF).

VI-69

u; WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPhREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BlENNIAL EXERCISE-DRL#99-08 CUE CARD NO, 34B TO: CRS/NPO TIME: If an attempt is made to x conn LPSI "A" to CS

.A" FROM: CONTROL ROOM CONTROLLER / MONITOR T= N/A' THIS IS A DRILL DO NOT initiate actions affectin ...g n orm a l plant operatio ns ANTICIPATED RESPONSE

1. The Control Room should dispatch an NAO to verify the valve position.

L 2. The Control Room may request the TSC to dispatch a Mechanical and/or Electrical Repair Team to investigate the loss of valve indication.

COMMENTS

1. _ Valve SI-125A will not open due to a bent stem.

' 2. The purpose of the failure of SI-125A is to ensure that the exercise participants will not be able to control containment pressure and prevent'ne release from occurring due to the penetration failure. This will also help to maintain the exe cise Ome line in order to accomplish exercise objectives.

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 NAO dispatched to investigate the problem will obtain the appropriate information by contacting the Simulator instructor Booth.

VI-70

l- WATERFORD 3 SES BIENNIAL $XERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO.- 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 35A TO: - NAO/ ELECTRICAL REPAIR TEAM TIME: Upon arrival at j

SI-125A breaker l FROM: SIMULATOR OPERATOR / ELECTRICAL MONITOR T= N/A THIS IS A DRILL DO NOT initiate actions affecting normal plant operations CONTINGENCY CUE CARD 4 I

IMPLEMENTING CONDITIONS: If the Control Room attempts to cross-mnnect the "A" LPSI j pump to the "A" Containment Spray Header. l l

CONTINGENCY ACTION: When the NAO/ Electrical Repair Team arrives at breaker 1 SI-EBKR313A-2H, provide the following information: I 74 relay is tripped i

The 49 relays (overloads) are tripped i

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VI-71

i WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE DRL#99-08 CUE CARD NO. 358 TO: NAO/a.E.CTRICAL REPAIR TEAM TIME: Upon arrival at SI-125A breaker FROM: SIMULATOR OPERATOR / ELECTRICAL MONITOR T= N/A THIS IS A DRILL DO NOT

... .......... ....... .......... .... initiate actions

.... ........... affecting.pl

.............. normal a nt ..........................

o pera ti o n s ANTICIPATED RESPONSE

1. The NAO/ Electrical Team should be directed to reset the relays.

2. When the relays are reset, valve indication becomes available in the Control Room and shows 4 SHUT indicatiori.

3. When the Control Room attempts to open the valve, the SHUT indication will remain for approximately 30 seconds and then indication will again be lost (74 & 49 relays trip).

4. If the Electrical Team takes readings on the valve motor they will receive the following indications:

. 11.9 OHMS phase-to-phase

. 1000 MEGOHMS phase-to-ground

5. The Control Room should direct the NAO to attempt to open SI-125A manually.

COMMENTS Valve St 125A will not open due a bent stem.

The purpose of the failure off SI-125A is to ensure that the exercise participants will not be able to control containment pressure and prevent the release from occurring due to the penetration failure.

This will also help to maintain the exercise time line in order to accomplish exercise objectives.

INSTRUCTIONS Provide the information on this cue card to the >articipants as they arrive at the SI-125A breaker and perform actions necessary to earn the data on this cue card.

The FAO dispatched to investigate the problem will obtain the appropriate information by contacting the Siinulator Instructor Booth.

IT IS IMPORTANT TO KEEP THE SIMU' JJOR INSTRUCTOR BOOTH INFORMED OF THE STATOS OF REPAIR ACTIVITIES IN THE FIELD AT ALL TIMES!!.

THE SIMULATOR INSTRUCTOR BOOTH MUST BE INFORMED WHEN THE RELAYS HAVE BEEN RESET TO ENSURE THAT THE SIMULATOR VALVE INDICATION WILL SHOW THE PROPER RESPONSE.

VI-72

l WATERFORD 3 SES BIENNIAL EXERCISE t

OCTOBER 13,1999 l W3 SES EMERGENCY PREPhREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO, 36A i TO: NNO/ MECHANICAL REPAIR TEAM TIME: Upon arrival at SI-125A

' FROM: SIMULATOR OPERATOR / MECHANICAL MONITOR T= N/A THIS IS A DRlLL DO NOT initiate actions affecting normal plant operations

........ ................ .... .... .... ........... ......... .............................. J CONTINGENCY CUE CARD IMPLEMENTING CONDITIONS: If the Control Room attempts to cross-connect the "A" LPSI l pump to the "A" Containment Spray Header.

CONTINGENCY ACTION: When the NAO/ Mechanical Repair Team arrives at Si-125A, provide the following information:

Sl-125A is SHUT per local valve position indication.

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l VI-73

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL T(PE/NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 368 TO: NAO/ MECHANICAL REPAlR TEAM TIME: Upon arrival at SI-125A FROM: SIMULATOR OPERATOR / MECHANICAL MONITOR T= N/A THIS IS A DRILL DO NOTinitiate actions affecting norma plant operations ANTICIPATED RESPONSE

1. The NAO should engage the clutch lever on the manual handwheel and attempt to open the valve.

2. When the valve will not open manually, the valve should be tagged out in preparation for disassembly.

3. The limitorque actuator will be determinated and removed.

4. The Mechanical Repair Team will disassemble the valve.

5. When the bent stem is identified, the OSC will obtain a new valve stem from the warehouse.

6. When the bent stem has been replaced, the Mechanical Repair Team will reassemble the valve.

7. The Electrical Repair Team will reinstall the limitorque operator, reterminate the electrical leads and adjust the limitorque. (See Comments)

8. When the tags have been cleared, the valve can be opened.

COMMENTS

1. Valve SI-125A will not open due to a bent stem.

2. After replacing the bent stem and installing the limitorque operator, the electrical leads do not have to be terminated to operate the valve manually. The participants would probably just open the valve manually without terminating the leads.

3. When the NAO attempts to normally operate the valve, the clutch lever must be engaged before the Drill Monitor gives the indication that the valve is mechanically bound. If the clutch lever is not engaged, the valve handwheel will " freewheel"

4. The purpose of the failure of SI-125A is to ensure that the exercise participants will not be able to control containment pressure and prevent the release from occurring due to the penetration failure. This will also help to maintain the exercise time line in order to accomplish exercise

- objectives.

INSTRUCTIONS

1. Provide the information on this cue card to the participants as they arrive at SI-125A and perform actions necessary to earn the data on this cue card.

2. The NAO dispatched to investigate the problem will obtain the appropriate information by contacting the Simulator Instructor Booth.

IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE STATUS OF REPAlR ACTIVITIES IN THE FIELD AT ALL TIMES!!.

i VI-74

rc WATERFORD 3 SES BIENNIAL EXERCISE

. OCTOBER 13,1999 L W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 37A TOi CONTROL ROOM DATA CLERK TIME: 11:00 FROM: CONTROL ROOM CONTROLLER T= +3:05

........ .... .......... .... .... .... .... ..... ... ................ .... ............ I THIS IS A DRILL

, DO NOT initiate actions affecting normal ....pl a nt o pera ti o n s Make the following announcement:

ATTENTION ALL PERSONNEL! THIS IS A DRILL!

THE 1999 BIENNIAL 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 DRILL!

L Do not repeat this announcement.

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i VI-75 E-

WATERFORD 3 SES BIENNIAL EXERCISE J OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO.' 1999 BIENNIAL EXERCISE DRL#99-08 CUE CARD NO. 379 TO: CONTROL ROOM DATA CLERK TIME: 11:00 FROM: CONTROL ROOM CONTROLLER T= +3:05 THIS IS A DRILL

.... .... .... .... ... .DO

. . NOT

.. .. ..initiate

.. . . actions

.... .... .affecting normal

... .... .... ... . plant

.pe rao ti o n s

'l ANTICIPATED RESPONSE Plant page announcement is made.

COMMENTS The purpose of this cue card is to:

1. Remind site personnel that an exercise is in progress and to refrain from activities that could I affect the response of the exercise participants.

2. Ensure the Drill Control Team members are using the Simulator clock as c reference for exercise activities. i INSTRUCTIONS Ensure this announcement does not interfere with any announcements being made by the drill participants.

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VI-76

r WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 38A TO: CRS/NPO TIME: 11:30 FROM: CONTROL ROOM CONTROLLER / MONITOR T= +3:35 THIS IS A DRILL DO NOT initiate

........ .... ..... . ................ .... .... actions affecting normal

.. ....................pla nt o......

pe ra....

ti o..........

ns Provide the following information:

Annulus pressure on CP-18 indicates pressure is cycling between -1 "H2O and -8 "H2O approximately every 60 seconds.

Shield Building Ventilation Trains A & B exhaust valves to the plant stack (SBV 114A & B) and recirculation to annulus valves (SBV 113A & B) are cycling with the indicated annulus pressure:

At -1 "H2O the exhaust to plant stack valves open and the recirc to annulus valves are closed.

At -8 "H2O the exhaust to plant stack valves close and the recirc to annulus valves open.

The Plant Stack Radiation Monitor goes into alarm status.

VI-77

WATERFORD 3 SES BIENNIAL ' EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BlENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 38B TO: CRS/NPO TIME: 11:30 FROM: CONTROL ROOM CONTROLLER / MONITOR T= +3:35 THIS IS A DRILL DO NOT initiate actions affecting normal plant operations ANTICIPATED RESPONSE

1. . NAOs will be dispatched to determine the potential source of the leakage into the annulus.

2. .. Dose Assessment personnel will perform dose projections based on plant monitoring data.

3. Field Teams will be dispatched to provide Field Team data for analysis.

4. Based on dose p,rojections, the EC/ EOF Director will enter EP-001-040, General Emergency.

COMMENTS

' 1. Due to the cycling of the Shield Building Ventilation System, the plant stack flow will also cycle (between 5516 scfm and 13629 scfm) approximately every 60 minutes. To ensure compatibility of our offsite data with dose projections based on plant data, the dose assessment personnel will be directed to use 5516 scfm for their dose projection calculations.

2. Radiation levels at the RAB +46 Shield Building Ventilation Train A & B filtration units will increase due to the penetration leakage from containment.

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.

VI-78

r WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 39A _.

TO: EMERGENCY COORDINATOR / EOF DIRECTOFk TIME: At General Emergency declaration FROM: TSC/ EOF CONTROLLER T= N/A i

THIS IS A DRILL DO NOT initiate actions affecting normal plant operations Substitute for Step 5.2.2 of EP-001-040:

Announce: THIS IS A DRILLI THIS IS A DRILLI 5.2.2 Sound the STATION ALARM (for at least 5 seconds) and make the following announcement (s):

5.2.2.1 ATTENTION ALL PERSONNEL! ATTENTION ALL PERSONNEL!

THIS IS A DRILL! THIS IS A DRILLI i A GENERAL EMERGENCY WAS DECLARED AT ( )DUETO

(

). THERE WILL BE NO SMOKING, EATING OR DRINKING UNTIL FURTHER NOTICE. THE MAINTENANCE RADIO FREQUENCY IS NOW DEDICATED FOR EMERGENCY USE ONLY, 5.2.2.2 l_f there is a localized emergency (e.g., fire, radiological hazard outside of normally established CAAs), then announce its type and location and instruct personnel to stand clear of this area (refer to FP-001-020 for fire).

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

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VI-79

f:

l WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,:1999 L

W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD

! DRILL TYPE /NO.- 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO, 39B i

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

. ANTICIPATED RESPONSE

1. The drill announcement will be substituted for the announcement in EP-001-040, General Emergency.

2. EP-002-052 is implemented and PARS are evaluated.

3. Notifications are made to offsite agencies and minimum PARS for General Emergency are provided.

COMMENTS The minimum Protective Action Recommendation (PAR) at a General Emergency is for evacuation for Protective Response Areas A1, B1, C1 and D1 (2 - mile radius) A2 and C2 (5 miles downwind) and sheltering for all remaining Protective Response Areas.

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-80 l

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPhREDNESS DRILL CUE CARD

. DRILL TYPE /NO.

1999 BIE*.'N!AL EXERCISE-DRL#99-08 CUE CARD NO. _40A TO: EMERGENCY COORDINATOR / EOF DIRECYOR TIME: At the discretion l 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 implementing Conditions: When it appears imminent that the classification will not be made in accordance with the design of this exercise package.

Contingency Action: Direct the Emergency Coordinator / EOF Director to classify the event as )

a General Emergency.

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l VI-81 1

I WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,'1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD

' DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 408 i:

' TO: EMERGENCY COORDINATOR / EOF DIRECTOR TIME: At the discretion of the Lead Controller FROM: . TSC/ EOF CONTROLLER' -T= N/A THIS IS A DRILL 3 DO NOT initiate actions affecting normal plant operations - i ANTICIPATED RESPONSE 1.' General Emergency declared.

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

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

4. Notifications made to offsite agencies.

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 General Emergency conditions are present and only if it appears the participants are not working toward declaring the General Emergency.

INSTRUCTIONS This cue card is n_ot o to be issued without authorization of the Lead Controller.

If this cue card is issued, provide the General Emergency announcement from the previous cue card to the EC/ EOF Director as they are preparing to announce the General Emergency declaration.

l VI-82

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP REDNESS DRILLCUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 41A TO: CRS/NPO TIME: 11:55 FROM: CONTROL ROOM CONTROLLER / MONITOR T= +4:00 THIS IS A DRILL DO NOT initiate actions affectin ...g norm al plant operations Provide the following information:

ALARM:'

SS XFMR 3A31 S GROUND / TEMP Hi, on CP-1, Cabinet D. Window R-4 I

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l VI-83 L

WATERFORD 3 SES BIENNIAL EXERCISE j OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. - 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 41B TO: CRS/NPO TIME: 11:55 FROM: CONTROL ROOM CONTROLLER / MONITOR T= +4:00 THIS IS A DRILL DO NOT initiate actions affecting normal plant operations ANTICIPATED RESPONSE i

1. The Control Room will dispatch an NAO to investigate the ground on switchgear 31 A. i

2. The NAO will find the following indications at the switchgear: l a The 59 relay SSDEREL31A-3B will be picked up.  !

b Voltmeter SSDEM31 A-4 will have the following indications: I

. A phase to ground 0VAC

. B phase to ground 480VAC

. C phase to ground 480 VAC c Inspection of the 31A switchgear will find NO white lights on the breakers.

3. The Control Room will request the TSC to dispatch an electrical repair team.

4. The TSC and EOF Engineers will evaluate the conditions to attempt to locate the ground.

COMMENTS

1. The ground is on the CEDM Fan "C" due to water in Containment.

2. Reference Documents:

a CWD 1142,1143 b CWD 2339,2340 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 NAO dispatched to investigate the problem will obtain the appropriate information by contacting the Simulator Instructor Booth.

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! Vl-84 I.

1 WATERFORD 3 SES BIENNIAL' EXERCISE l OCTOBER 13,1999 '

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 42A TO: CONTROL ROOM DATA CLERK TIME: 12:00 FROM: CONTROL ROOM CONTROLLER T= +4:05 THIS IS A DRILL DO NOT initiate actions affecting normal ....p l a nt o perat i o n s Make the following announcement:

ATTENTION ALL PERSONNELI THIS IS A DRILL!

THE 1999 BIENNIAL EXERCISE IS IN PROGRESS. DO NOT USE THE PLANT PAGE FOR NON-EXERCISE RELATED ANNOUNCEMENTS.

l DRILL TIME IS (Insert time from Simulator clock). i THIS IS A DRILLI Do not repeat this announcement.

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.WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 428

' TO:.' CONTROL ROOM DATA CLERK TIME: 12:00 FROM: CONTROL ROOM CONTROLLER T= +4:05 THIS IS A DRILL DO NOT initiate actions affecting normal plant operations ANTICIPATED RESPONSE _

Plant page announcement is made.

l COMMENTS I The purpose of this cue card is to:

1. Remind site personn'el that an exercise is in progress and to refrain from activities that could affect the response of the exercise participants.

2.- Ensure the Drill Control Team members are using the Simulator clock as a reference for j exercise activities. 1 l

lNSTRUCTIONS

{

Ensure this announcement does not interfere with any announcements being made by the drill participants.

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VI-86

% 4"

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPhREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 43A TO: CRS/NPO TIME: 12:00 f

FROM: CONTROL ROOM CONTROLLER / MONITOR T= +4:05 THIS IS A DRILL DO NOT initiate actions affecting normal plant operations Provide the following information:

ALARMS: t CEDM FAN C TRIP / TROUBLE, on CP-33, Cabinet 8, Window H-1 1 second later i 4KV BUS SA BKR TRIP / TROUBLE, on CP-1, Cabinet D, Window T-1 Computer Point D36517 Computer Point D59631 VI-87

]

- WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPhREDNESS DRILL CUE CARD i DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 43B TO: CRS/NPO TIME: 12:00 FROM: CONTROL ROOM CONTROLLER / MONITOR T= +4:05

.................... .... .... .... ................. ...... ................................. 4 THIS IS A DRILL DO NOT initiate actions affecting normal plant operations ANTICIPATED RESPONSE Control takes actions for loss of 31 A bus.

Control Room requests status from NAO/ electrical repair team. 1 i

COMMENTS 6 The 31A bus feeder breaker tripped due to the phase to phase problem on the CEDM Fan C Breaker  !

going from ground to short circuit. The' breaker failure to trip relay CDCEREL1140-3 picked up when I the breaker didn't trip on overcurrent conditions resulting in the loss of the 31A bus.

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.

VI-88

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 l= W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-06 CUE CARD NO. 44A TO: ELECTRICAL REPAIR TEAM TIME: 12:00 FROM: ELECTRICAL REPAIR TEAM MONITOR T= +4:05 THIS IS A DRILL DO NOT initiate actions affecting normal plant operations Provide the following indications at the 31 A switchgear:

Overcurrent flags on the following relays:

CDCEREL31A-11F CDCEREL31 A-11G CDCEREL31 A-11H CDCEREL31 A-11W 74/hr relay CDCEREL31A-3 is picked up.

74/hr relay SSDEREL3A-15G is picked up.

62-2 relay SSDEREL3A-15F is picked up.

31 A Feeder Breaker SSDEBKR3A-15 is tripped. .

CEDM Fan C breaker CDCEBKR31A-3B did not trip.

VI-89

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WATERFORD 3 SES BlENNIAL EXERCISE OCTOBER 13,1999

~

W3'SES EMERGENCY PREPAREDNESS DRILL CUE CARD

, DRILL TYPE /NO.'. = 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 44B t

' TO: , ELECTRICAL REPAIR TEA'M TIME: 12:00 FROM: ELECTRICAL REPAIR TEAM MONITOR T= +4:05 THIS IS A DRILL DO NOT initiate actions affecting normal plant operations ANTICIPATED RESPONSE-

, 1. The NAO/ repair team should open breaker CDCEBKR31A 98.

o ' 2. The NAO/ repair team should reset the 74/hr on 3A3 SSDEREL3A-15G

' 3. The NAO/ repair team should close breaker SSDEBKR3A-15

4. The Control Room should take actions to restore loads on 3A31

~ COMMENTS'

1. Upon arrival at the breaker, the repair team should check by fell or voltage drop readings the 50N1 and 50N2 relays to see if one is close to pickup. They will find that relays

' CDCEREL31 A-111 and 11J are close to being picked up; Based on the time we are going to have the ground in for the exercise until the phase to phase fault trips the switchgear it is not  ;

expected that the repair team will be able to take these readings. This data is provided for -

information only.

2. When the fault on the motor goes from ground to short circuit relays CDCEREL31A-11F and j 11G and 11H and 11W will all get overcurrent flags, This is not normal, the usual action is that j one relay will pick up and trip the breaker, once the breaker trips the current will go away and -l the additional relays will not pickup. After 1 second with the breaker failure to trip, relay {

CDCEREL1140-3 (2 relay) will pick up this will cause the switchgear feeder breaker to trip.  !

INSTRLICTIONS Provide the information on this cue card as the NAO/ repair team investigates the loss of the 31 A bus.

4 The NAO dispatched to investigate the problem will obtain the appropriate information by contacting the Simulator instructor Booth.  !

IT IS IMPORTANT TO KEEP THE SIMULATOR INSTRUCTOR BOOTH INFORMED OF THE STATUS OF REPA4R ACTIVITIES IN THE FIELD AT ALL TIMESil. i i

VI-90

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-0C CUE CARD NO. 45A TO: VARIOUS TIME: 12:45 FROM: DRILL CONTROL TEAM T= +4:50 THIS IS A DRILL

... . ... . . . .. . .. . ....DO

. . NOT initiate

. . .. .... . . .. actions

.. .. . . . affecting

. ... . .. .. normal

.. ... . ..plant

.. peora ti o....

.... n s......

This Cue Card is for the information of the Drill Control Team only.

At 12:45 a wind shift occurs. The new wind direction is from 198 degrees.

This will cause a change in PARS to evacuate A1,81, C1, D1, A2, B2 and C2 and shelter the remaining protective response areas.

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t VI91

)

WATERFORD 3 SES BIENNIAL' EXERCISE l OCTOBER 13,1999

~

W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 45B TO': .VARIOUS - TIME: 12:45 l

FROM: DRILL CONTROL TEAM T= +4:50 3

i THIS IS A DRILL DO NOT initiate actions affecting normal {j

...... .. .......... .... .... .... .... .... ..... ... .. .. ....pl a nt o perati o n s 1

ANTICIPATED RESPONSE i The Emergency Organization will re-evaluate PARS and provide updated recommendations to the I offsite agencies.

COMMENTS I The wind shift informatior: will be provided to the participants via SPDS.

INSTRUCTIONS 1

- The information on this cue card will not need to be issued unless the simulator fails and the indications are not available on the SPDS terminals.-

If the Simulator fails and this information is not available on the SPDS terminals, the meteorological data trom this package will be provided. The information regarding the change in PARS will not be provided to the participants.

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VI-92 l

. WATERFORD 3 SES BIENNIAL EXERCISE . I OCTOBER 13,1999 W3 SES EMERGENCY PREP'AREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 46A TO: CONTROL ROOM DATA CLERK TIME: 13:00 ,

1 FROM: CONTROL ROOM CONTROLLER T= +5:05 THIS IS A DRILL DO NOT initiate actions affecting normal plant operations 4 Make the following announcement:

ATTENTION ALL PERSONNEL! THIS IS A DRILLI THE 1999 B!ENNIAL EXERCISE IS IN PROGRESS. DO NOT USE THE PLANT PAGE FOR NON-EXERCISE RELATED ANNOUNCEMENTS.

DRILL TIME IS (Insert time from Simulator clock).

TH!S IS A DRILLI i Do not repeat this announcement.

l Vl-93

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 468 TO: CONTROL ROOM DATA CLERK TIME: 13:00 FROM: CONTROL ROOM CONTROLLER T= +5:05 THIS IS A DRILL DO NOT initiate actions affecting ..........pl normal a nt o pe rati o n s ANTICIPATED RESPONSE Plant page announcement is made.

COMMENTS The purpose of this cue card is to:

3. Remind site personnel that an exercise is in progress and to refrain from activities that could affect the response of the exercise participants.

4. Ensure the Drill Control Team members are using the Simulator clock as a reference for exercise activities.

INSTRUCTIONS Ensure this announcement does not interfere with any announcements being made by the drill participants.-

l VI-94

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 i

W3 SES EMERGENCY PREPkREDNESS DRILL CUE CARD DRILL TYPE /NO._ 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 47A TO: LEAD CONTROLLER TIME: At the discretion of the Lead -

Controller FROM: . EOF DIRECTOR T= N/A THIS IS A DRILL i DO NOT initiate actions affecting normal nt operatio n s

...............pla l j

Make the following announcement'  !

ATTENTION ALL PERSONNEL! ATTENTION ALL PERSONNEL!

THE WATERFORD 31999 BIENNIAL EXERCISE HAS BEEN COMPLETED.  !

RESTORE THE EMERGENCY FACILITIES TO NORMAL CONDITIONS AND THEN COMMENCE

' AREA CRITIQUES.

Repeat announcement once.

VI-95

p WATERFORD 3 SES BIENNIAL $XERCISE )

l OCTOBER 13,1999 I W3 SES EMERGENCY PREPAREDNESS DRILL CUE CARD DRILL TYPE /NO. 1999 BIENNIAL EXERCISE-DRL#99-08 CUE CARD NO. 478 l .

TO: LEAD CONTROLLER TIME: At the l discretion of l the Lead l

Controller i 1 FROM: EOF DIRECTOR T= N/A l

l THIS IS A DRILL

DO NOT initiate actions affecting normal plant operations  ;

j .............. .... .... .... ........... ... ..... ............... .......... .... ....

ANTICIPATED 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.

l 4. Area Critiques will be conducted with the participants in each area. 1

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

1. When, in the opinion of the Lead Controller, the exercise objectives have been sufficiently demonstrated and continuing the exercise will provide no additional benefit, the exercise will be terminated

!. 2. The Lead Controller will coordinate the termination of the exercise with the State Controllers to i ensure ample opportunity has been provided to demonstrate the offsite objectives.

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 Vll. CHARTS, GRAPHS AND TABLES 1

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~ WATERFORD 3 SES BIENNIAL EXERCISE l OCTOBER 13,1999

' PLANT DATA L SECTION Vil TIME: 0755 4

REACTOR POWER'(%) 99.8 ' SG 2 STEAM FLOW (MBM/HR) 7.3 PZR LEVEL (%) 55.5 SG 2 FEED FLOW (MBM/HR) 7.4 PZR PRESSURE (PSIA) 2248 EFW FLOW TO SG 2 (GPM) O PZR TEMPERATURE (F) 652 SG2 BLOWDOWN FLOW (GPM) 150

' CET TEMPERATURE (F) 610 ' LPSI A FLOW (GPM) 0 SUBCOOLED MARGIN (F) 42.2 LPSI B FLOW (GPM) 0

- LOOP 1 TAVE (F) 581.9 HPSI A FLOW (GPM) 0 LOOP 1 TH (F) 610.1 HPSI B FLOW (GPM) O LOOP 1 A TC (F) -

553.3 CS FLOW (1) (GPM) O LOOP 1B TC (F) 553.3 CS FLOW (2) (GPM) O LOOP 2 TAVE (F) 581.9 SIT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) 610 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 553.3 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) 553.3 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620

. CHARGING FLOW (GPM) 88- SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) 83 SIT TANK 28 PRESS (PSIA) 620 SG'1 LEVEL NR (%) 69 CONTAINMENT PRESS (PSIA) 14.7 SG 1 LEVEL WR (%) 87 CONTAINMENT TEMP (F) 113 SG 1 PRESSURE (PSIA).

. 905- SI SUMP LVL (FT) 0 ;

SG 1 STEAM FLOW (MBM/HR) 7.3 CONTAINMENT SUMP -(FT) 2  ;

SG 1 FEED FLOW (MBM/HR). 7.4 RWSP LEVEL (%) 94.3 EFW FLOW TO SG 1 (GPM) O CSP LEVEL (%) 92.5 SG1 BLOWDOWN FLOW (GPM) 152- PLNT STACK FLO RT (CFM) 90340 SG 2 LEVEL NR (%) 69 ANNULUS PRESSURE ("H2O GAGE) -8 SG 2 LEVEL WR (%) 87 TURBINE POWER (MW) 1147.8 SG 2 PRESSURE (PSIA) 905 i

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y-WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 l

PLANT DATA SECTION Vil TIME: 0800 REACTOR POWER (%) 99.8 SG 2 STEAM FLOW (MBM/HR) 7.3 PZR LEVEL (%) 55.5 SG 2 FEED FLOW (MBM/HR) 7.4 PZR PRESSURE (PSIA) 2248 EFW FLOW TO SG 2 (GPM) 0 PZR TEMPERATURE (F) 652 SG2 BLOWDOWN FLOW (GPM) 150 CET TEMPERATURE (F)' 610 LPSI A FLOW (GPM) 0 SUBCOOLED MARGIN (F) 42.2 LPSI B FLOW (GPM) 0 )

LOOP 1 TAVE (F) 581.9 HPSI A FLOW (GPM) 0 j LOOP 1 TH (F) . 610.1 HPSI B FLOW (GPM) 0 '

- LOOP 1 A TC (F) 553.3 CS FLOW (1).(GPM) 0 l,

LOOP 1B TC (F) 553.3 CS FLOW (2) (GPM) 0 LOOP 2 TAVE (F) 581.9 SIT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) - 610 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 553.3 SIT TANK 2A LEVEL (%) 82

. LOOP 28 TC (F) 553.3 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM) 88 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) 83 SIT TANK 28 PRESS (PSIA) 620 l

' SG 1 LEVEL NR (%) 69 CONTAINMENT PRESS (PSIA) 14.7 SG 1 LEVEL WR (%) 87 CONTAINMENT TEMP (F) ,

113 SG 1 PRESSURE (PSIA) 905 St SUMP LVL (FT) 0 )

SG 1 STEAM FLOW (MBM/HR) 7.3 CONTAINMENT SUMP (FT) 2 i

' SG 1 FEED FLOW (MBM/HR) 7.4 RWSP LEVEL (%) _ 94.3 EFW FLOWTO SG 1 (GPM) O CSP LEVEL (%) 92.5 SG1 BLOWDOWN FLOW (GPM) 152 PLNT STACK FLO RT (CFM) . 90340 SG 2 LEVEL NR (%) '69 ANNULUS PRESSURE ("H2O GAGE) -8 SG 2 LEVEL WR (%) 87 TURBINE POWER (MW) 1147.8 SG 2 PRESSURE (PSIA) 905 PLANT DATA-2

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 PLANT DATA SECTION Vil TIME: 0815 REACTOR POWER (%) 99.8 SG 2 STEAM FLOW (MBM/HR) 7.3  !

PZR LEVEL (%) 55.5 SG 2 FEED FLOW (MBM/HR) 7.4 l PZR PRESSURE (PSIA) 2248 EFW FLOW TO SG 2 (GPM) 0 PZR TEMPERATURE (F) 652 SG2 BLOWDOWN FLOW (GPM) 150 CET TEMPERATURE (F) ~

610 LPSI A FLOW (GPM) 0 '

SUBCOOLED MARGIN (F) 42.2 LPSI B FLOW (GPM) 0 ,

LOOP 1 TAVE (F) 581.9 HPSI A FLOW (GPM) 0 I LOOP 1 TH (F) 610.1 HPSI B FLOW (GPM) 0 LOOP 1A TC (F) 553.3 CS FLOW (1) (GPM) O LOOP 1B TC (F) 553.3 CS FLOW (2) (GPM) 0 LOOP 2 TAVE (F) 581.9 SIT TANK 1A LEVEL (%) 82 .

LOOP 2 TH (F) 610 SIT TANK 1B LEVEL (%) 82  !

LOOP 2A TC (F) 553.3 SIT TANK 2A LEVEL (%) 82  !

LOOP 28 TC (F) 553.3 SIT TANK 2B LEVEL (%) 82 l RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620 l CHARGING FLOW (GPM) 88 SIT TANK 2A PRESS (PSIA) 620

{

LETDOWN FLOW (GPM) 83 SIT TANK 2B PRESS (PSIA) 620 i SG 1 LEVEL NR (%) 69 CONTAINMENT PRESS (PSIA) 14.7 l SG 1 LEVEL WR (%) 87~ CONTAINMENT TEMP (F) 113 l SG 1 PRESSURE (PSIA) 905 SI SUMP LVL (FT) O_

SG 1 STEAM FLOW (MBM/HR) 7.3 CONTAINMENT SUMP (FT) 2 SG 1 FEED FLOW (MBM/HR) 7.4 RWSP LEVEL (%) 94.3 i EFW FLOW TO SG 1 (GPM) O CSP LEVEL (%) 92.5 f

SG1 BLOWDOWN FLOW (GPM) 152 90340 PLNT STACK FLO RT (CFM)  :

SG 2 LEVEL NR (%) 69 ANNULUS PRESSURE ("H 2O GAGE) -8 l SG 2 LEVEL WR (%) 87 TURBINE POWER (MW) 1147.8 ,

SG 2 PRESSURE (PSIA) 905 i l

l PLANT DATA-3

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 PLANT DATA SECTION Vil TIME: 0830 REACTOR POWER (%) 99.8 SG 2 STEAM FLOW (MBM/HR) 7 3_

PZR LEVEL (%)- 55.5 SG 2 FEED FLOW (MBM/HR) 7.d PZR PRESSURE (PSIA) 2248 EFW FLOW TO SG 2 (GPM) O PZR TEMPERATURE (F) 652 SG2 BLOWDOWN FLOW (GPM) 150 CET TEMPERATURE (F) 610 LPSI A FLOW (GPM) 0 SUBCOOLED MARGIN (F) 42.2 LPS: B FLOW (GPM) O LOOP 1 TAVE (F) 581.9 HPSI A FLOW (GPM) O LOOP 1 TH (F) 610.1 HPSI B FLOW (GPM) O LOOP 1 A TC (F) 553.3 CS FLOW (1) (GPM) 0 LOOP 1B TC (F) 553.3 CS FLOW (2) (GPM) O LOOP 2 TAVE (F) 581.9 SIT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) 610 SlT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 553.3 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) 553.3 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM) 88 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) 83 SIT TANK 28 PRESS (PSIA) 620 SG 1 LEVEL NR (%) 69 CONTAINMENT PRESS (PSIA) 14.7 SG 1 LEVEL WR (%) 87 CONTAINMENT TEMP (F) 113 SG 1 PRESSURE (PSIA) 905 Si SUMP LVL (FT) O SG 1 STEAM FLOW (MBM/HR) 7.3 CONTAINMENT SUMP (FT) 2 SG 1 FEED FLOW (MBM/HR) 7.4 RWSP LEVEL (%) 94.3 EFW FLOW TO SG 1 (GPM) O CSP LEVEL (%) 92.5 SG1 BLOWDOWN FLOW (GPM) 152 PLNT STACK FLO RT (CFM) 90340 SG 2 LEVEL NR (%) 69 ANNULUS PRESSURE ("H2O GAGE) -8 SG 2 LEVEL WR (%) 87 TURBINE POWER (MW) 1147.8 SG 2 PRESSURE (PSIA) 905 PLANT DATA-4

WATERFORD 3 SES BIENNIAL $XERCISE OCTOBER 13,1999 PLANT DATA SECTION Vll TIME: 0845_ ,

1 REACTOR POWER (%) 99.8 SG 2 STEAM FLOW (MBM/HR) 7.3 l PZR LEVEL (%) 55.5 SG 2 FEED FLOW (MBM/HR) 7.4 PZR PRESSURE (PSIA) 2248 EFW FLOW TO SG 2 (GPM) 0 ,

PZR TEMPERATURE (F) 652 SG2 BLOWDOWN FLOW (GPM) 150 l CET TEMPERATURE (F) 610 LPSI A FLOW (GPM) 0 SUBCOOLED MARGIN (F) 42.2 LPSI B FLOW (GPM) 0 ,

LOOP 1 TAVE (F) 581.9 HPSI A FLOW (GPM) O LOOP 1 TH (F) 610.1 HPSI B FLOW (GPM) O LOOP 1 A TC (F) 553.3 CS FLOW (1) (GPM) 0 LOOP 1B TC (F) 553.3 CS FLOW (2) (GPM) O LOOP 2 TAVE (F) 581.9 SIT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) 610 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 553.3 SIT TANK 2A !.EVEL (%) 82 LOOP 2B TC (F) 553.3 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 {

RV PLENUM LVL (%) 100 SlT TANK 1B PRESS (PSIA) 620 CHARGIM3 FLOW (GPM) 88 SIT TANK 2A PRESS (PSIA) 620 i LETDOWN FLOW (GPM) 83 SIT TANK 2B PRESS (PSIA) 620 SG 1 LEVEL NR (%) 69 CONTAINMENT PRESS (PSIA.) 14.7 SG 1 LEVEL WR (%) 87 CONTAINMENT TEMP (F) 113 SG 1 PRESSURE (PSIA) 905 SI SUMP LVL (FT) 0 i SG 1 STEAM FLOW (MBM/HR) 7.3 CONTAINMENT SUMP (FT) 2 l SG 1 FEED FLOW (MBM/HR) 7.4 RWSP LEVEL (%) 94.3 EFW FLOW TO SG 1 (GPM) O CSP LEVEL (%) 92.5 SG1 BLOWDOWN FLOW (GPM) 152_ PLNT STACK FLO RT (CFM) 90340 SG 2 LEVEL NR (%) 69 ANNULUS PRESSURE ("H 2O GAGE) -8 SG 2 LEVEL WR (%) 87 TURBINE POWER (MW)' 1147.8 SG 2 PRESSURE (PSIA) 905 '

PLANT DATA-5

[.

l WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 l PLANT DATA SECTION Vil TIME: 0900 REACTOR POWER (%) 99.8 SG 2 STEAM FLOW (MBM/HR) 7.3 PZR LEVEL (%) 55.5 SG 2 FEED FLOW (MBM/HR) 7.4 PZR PRESSURE (PSIA) 2248 EFW FLOW TO SG 2 (GPM) O PZR TEMPERATURE (F) 652 SG2 BLOWDOWN FLOW (GPM) 150 CET TEMPERATURE (F) 610 LPSI A FLOW (GPM) O SUBCOOLED MARGIN (F) 42.2 LPSI B FLOW (GPM) 0 LOOP 1 TAVE (F) 581.9 HPSI A FLOW (GPM) O LOOP 1 TH (F) 610.1 HPSI B FLOW (GPM) 0 l

LOOP _1 A TC (F) 553.3 CS FLOW (1) (GPM) 0 LOOP 1B TC (F) 553.3 CS FLOW (2) (GPM) 0 l LOOP 2 TAVE (F) 581.9 SIT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) 610 SlT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 553.3 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) 553.3 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM) 88 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) 83 SIT TANK 2B PRESS (PSIA) 620 SG 1 LEVEL NR (%) 69 CONTAINMENT PRESS (PSIA) 14.7 SG 1 LEVEL WR (%) 87 CONTAINMENT TEMP (F) 113 SG 1 PRESSURE (PSIA) 905 SI SUMP LVL (FT) O SG 1 STEAM FLOW (MBM/HR) 7.3 CONTAINMENT SUMP (FT) 2 SG 1 FEED FLOW (MBM/HR) 7.4 RWSP LEVEL (%) 94.3 EFW FLOWTO SG 1 (GPM) O CSP LEVEL (%) 92.5 SG1 BLOWDOWN FLOW (GPM) 152 PLNT STACK FLO RT (CFM) 90340 SG 2 LEVEL NR (%) 69 ANNULUS PRESSURE ("H2O GAGE) -8 SG 2 LEVEL WR (%) 87 TURBINE POWER (MW) 1147.8 SG 2 PRESSURE (PSIA) 905 l

l l

l t

PLANT DATA-6

. WATERFORD 3 SES BIENNIAL EXERCISE j OCTOBER 13,1999 PLANT DATA ~ SECTION Vil TIME: 0915' REACTOR POWER (%) 99.9- hiG 2 STEAM FLOW (MBM/HR) 7.2 PZR LEVEL (%) 46 SG 2 FEED FLOW (MBM/HR) 7.4

. PZR PRESSURE (PSIA) 2150 EFW FLOW TO SG 2 (GPM). O PZR TEMPERATURE (F) 647- -SG2 BLOWDOWN FLOW (GPM) 150 CET TEMPERATURE (F) 609.9 .LPSI A FLOW (GPM) 0 SUBCOOLED MARGIN (F) 36 LPSI B FLOW (GPM) O LOOP 1 TAVE (F) ._ 581.9 HPSI A FLOW (GPM) 0 LOOP 1 TH (F) 610.1 ~ HPSI B FLOW (GPM) O LOOP 1A TC (F) 553.6 ' CS FLOW (1) (GPM) 0 LOOP 1B TC (F) 553.6 CS FLOW (2) (GPM) 0 LOOP 2 TAVE (F) 581.9 SIT TANK 1A LEVEL (%) 82

- LOOP 2 TH (F) 609.9 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 553.9 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) . 553.9 SIT TANK 2B LEVEL (%) 82-RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620

. CHARGING FLOW (GPM) 46 SIT TANK 2A PRESS (PSIA) . 620 LETDOWN FLOW (GPM) 41 SIT TANK 2B PRESS (PSIA) 620, SG 1 LEVEL NR (%)- 68.9 CONTAINMENT PRESS (PSIA) 14.7 SG 1 LEVEL WR (%) 82 CONTAINMENT TEMP (F) 114 SG 1 PRESSURE (PSIA) 910 SI SUMP LVL (FT)' 0

. SG 1 STEAM FLOW (MBM/HR) 7.2 CONTAINMENT SUMP (FT) 2 SG 1 FEED FLOW (MBM/HR)_ 7.4 RWSP LEVEL (%) 94.3 EFW FLOW TO SG 1 (GPM) O CSP LEVEL (%) 92.5 SG1 BLOWDOWN FLOW (GPM) 150 PLNT STACK FLO RT (CFM) 90340 SG 2 LEVEL NR (%)- 68.9 ANNULUS PRESSURE ("H2O GAGE) -8

- SG 2 LEVEL WR (%)~ 82 TURBINE POWER (MW) 1120 SG 2 PRESSURE (PSIA) 910 l

i t

PLANT DATA-7

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p.

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 l

PLANT DATA SECTION Vil TIME: 0930 REACTOR POWER (%) 99.9 SG 2 STEAM FLOW (MBM/HR) 7.2 PZR LEVEL (%) 46 SG 2 FEED FLOW (MBM/HR) 7.4 PZR PRESSURE (PSIA) 2150 EFW FLOW TO SG 2 (GPM) 0 PZR TEMPERATURE (F) 647 SG2 BLOWDOWN FLOW (GPM) 150 CET TEMPERATURE (F) 609.9 LPSI A FLOW (GPM) O SUUCOOLED MARGIN (F) 36 LPSI B FLOW (GPM) O LOOP 1 TAVE (F) 581.9 HPSI A FLOW (GPM) O LOOP 1 TH (F) -610.1 HPSI B FLOW (GPM) O LOOP 1 A TC (F) 553.6 CS FLOW (1) (GPM) 0 LOOP 1B TC (F) 553.6 CS FLOW (2) (GPM) O LOOP 2 TAVE (F) 581.9 SIT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) 609.9 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 553.9 S:" TANK 2A LEVEL (%) 82 LOOP 2B TC (F) 553.9 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620, RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM) 46 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) 41 SIT TANK 2B PRESS (PSIA) 620 SG 1 LEVEL NR (%) 68.9 CONTAINMENT PRESS (PSIA) 14.7 )

SG 1 LEVEL WR (%) 82 CONTAINMENT TEMP (F) 114 l SG 1 PRESSURE (PSIA) 910 .Sl SUMP LVL (FT) 0 SG 1 STEAM FLOW (MBM/HR) 7.2 CONTAINMENT SUMP (FT) 2 SG 1 FEED FLOW (MBM/HR) 7.4 RWSP LEVEL (%) 94.3 EFW FLOW TO SG 1 (GPM) O CSP LEVEL (%) _ 92.5 SG1 BLOWDOWN FLOW (GPM) 150 PLNT STACK FLO RT (CFM) _ 30340 SG 2 LEVEL NR (%) 68.9 ANNULUS PRESSURE ("H2O GAGE) -8 82 l SG 2 LEVEL WR (%) TURBINE POWER (MW) 1120 j SG 2 PRESSURE (PSIA) 910 l

i I

4 PLANT DATA-8

r 1

i WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 PLANT DATA SECTION Vil' TIME: 0945 REACTOR POWER (%) 99.8 SG 2 STEAM FLOW (MBM/HR) 7.3 PZR LEVEL (%) 55.5 SG 2 FEED FLOW (MBM/HR) 7.4 PZR PRESSURE (PSIA) 2248 EFW FLOW TO SG 2 (GPM) O PZR TEMPERATURE (F) 652 SG2 BLOWDOWN FLOW (GPM) 150 CET TEMPERATURE (F) 610 LPSI A FLOW (GPM) 0 SUBCOOLED MARGIN (F) 42.2 LPSI B FLOW (GPM) 0 LOOP 1 TAVE (F) 581.9 HPSI A FLOW (GPM) O LOOP 1 TH (F) 610.1 HPSI B FLOW (GPM) O LOOP 1 A TC (F) 553.3 CS FLOW (1) (GPM) O LOOP 1B TC (F) 553.3 CS FLOW (2).(GPM) 0 l LOOP 2 TAVE (F) 581.9 SIT TANK 1 A LEVEL (%) 82 LOOP 2 TH (F) 610 SIT TANK 1B LEVEL (%) 82 i LOOP 2A TC (F) 553.3 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) 553.3 SIT TANK 2B LEVEL (%) 82 l RV HEAD LVL (%) 100 SIT TANK 1 A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SlT TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM) 44 SIT TANK 2A PRESS (PSIA) 620 i LETDOWN FLOW (GPM) 41 SIT TANK 2B PRESS (PSIA) 620  ;

SG 1 LEVEL NR (%) 69 CONTAINMENT PRESS (PSIA) 14.7 SG 1 LEVEL WR (%) 87 CONTAINMENT TEMP (F) 113 SG 1 PRESSURE (PSIA) _

905 SI SUMP LVL (FT) 0 ,

SG 1 STEAM FLOW (MBM/HR) 7.3 CONTAINMENT SUMP (FT) 2 1 SG 1 FEED FLOW (MBM/HR) 7.4 RWSP LEVEL (%) 94.3 EFW FLOW TO SG 1 (GPM) O CSP LEVEL (%) 92.5 152 SG1 BLOWDOVM FLOW (GPM) PLNT STACK FLO RT (CFM) 90340 SG 2 LEVEL NR (%) 69 ANNULUS PRESSURE ("H2O GAGE) -8 SG 2 LEVEL WR (%) 87 TURBINE POWER (MW) 1147.8 SG 2 PRESSURE (PSIA) 905 4

1 PLANT DATA-9

l WATERFORD 3 SES BIENNIAL EXERCISE l OCTOBER 13,1999 PLANT DATA SECTION Vil TIME: 1000 l .

REACTOR POWER (%) 99.8 SG 2 STEAM FLOW (MBM/HR) 7.3 PZR LEVEL (%) 55.5 SG 2 FEED FLOW (MBM/HR) 7.4 PZR PRESSURE (PSIA) 2248 EFW FLOW TO SG 2 (GPM) O PZR TEMPERATURE (F) 652 SG2 BLOWDOWN FLOW (GPM) 150  ;

CET TEMPERATURE (F) 610 LPSI A FLOW (GPM) 0 j

. SUBCOOLED MARGIN (F) 42.2 LPSI B FLOW (GPM) 0 j

. LOOP 1 TAVE (F) 581.9 HPSI A FLOW (GPM) 0 i LOOP 1 TH (F) 610.1 I L HPSI B FLOW (GPM) 0 LOOP 1 A TC (F) 553.3 CS FLOW (1) (GPM) 0 LOOP 1B TC (F) 553.3 CS FLOW (2) (GPM) O LOOP 2 TAVE (F) 581.9 SIT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) 610 SIT TANK 18 LEVEL (%) 82 LOOP 2A TC (F) 553.3 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) 553.3 S!T TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM) 44 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) 41 SIT TANK 2B PRESS (PSIA) 620 i SG 1 LEVEL NR (%) 69 CONTAINMENT PRESS (PSIA) 14.7  !'

SG 1 LEVEL WR (%) 87 CONTAINMENT TEMP (F) 113 SG 1 PRESSURE (PSIA) 905 SI SUMP LVL (FT) O SG 1 STEAM FLOW (MBM/HR) 7.3 CONTAINMENT SUMP (FT) 2 i SG 1 FEED FLOW (MBM/HR) 7.4 RWSP LEVEL (%) 94.3

/

EFW FLOW TO SG 1 (GPM) O CSP LEVEL (%) 92.5 SG1 BLOWDOWN FLOW (GPM) 152 PLNT STACK FLO RT (CFM) 90340 SG 2 LEVE:. NR (%) 69 ' ANNULUS PRESSURE ("H2O GAGE) -8 J SG 21.EVEL WR (%) 87 TURBINE POWER (MW) 1147.8 l SG 2 PRESSURE (PSIA) 905 i

PLANT DATA-10

p-l l WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 l

L PLANT DATA SECTION Vil TIME: 1015 REACTOR POWER (%) 0.1 SG 2 STEAM FLOW (MBM/HR) .57 PZR LEVEL (%) O SG 2 FEED FLOW (MBM/HR) .58

' PZR PRESSURE (PSIA) 1516 EFW FLOW TO SG 2 (GPM) O PZR TEMPERATURE (F) 599 SG2 BLOWDOWN FLOW (GPM) 0

- CET TEMPERATURE (F) 549 LPSI A FLOW (GPM) 0

' SUBCOOLED MARGIN (F) : 48.6 LPSI B FLOW (GPM) 0

- LOOP 1 TAVE (F) 547 HPSI A FLOW (GPM) 150 LOOi- 1 TH (F) 549 HPSI B FLOW (GPM) 150 LOOP 1 A TC (F) 544.7 CS FLOW (1) (GPU) O LOOP 1B TC (F) _ 545 CS FLOW (2) (GPM) O LOOP 2 TAVE (F) 547 SIT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) 549 SIT TANK 1B LEVEL (%) 62 LOOP 2A TC (F) 544.7 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) 545 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM) 44 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) O SIT TANK 2B PRESS (PSIA) 620 SG 1 LEVEL NR (%) 58 CONTAINMENT PRESS (PSIA) 15.8 SG 1 LEVEL WR (%) 72 CONTAINMENT TEMP (F) 123

- SG 1 PRESSURE (PSIA) 993 St SUMP LVL (FT) 0

~ SG 1 STEAM FLOW (MBM/HR) .57 CONTAINMENT SUMP (FT) 2.2 SG 1 FEED FLOW (MBM/HR) .58 RWSP LEVEL (%) 94.3 EFW FLOW TO SG 1 (GPM) O CSP LEVEL (%) 92.5 SG1 BLOWDOWN FLOW (GPM) O PLNT STACK FLO RT (CFM) 5516 j SG 2 LEVEL NR (%) 58 ANNULUS PRESSURE ("H2O GAGE) -8 SG 2 LEVEL WR (%) 72 TURBINE POWER (MW) -4.6 i SG 2 PRESSURE (PSIA) 1055 1

\

r PLANT DATA-11

WATERFORD 3 SES BIENNIAL $XERCISE OCTOBER 13,1999 i PLANT DATA SECTION Vil TIME: 1030 REACTOR POWER (%) 1.19E-2 NG 2 STEAM FLOW (MBM/HR) .07 PZR LEVEL (%) 0 SG 2 FEED FLOW.(MBM/HR) .22 PZR PRESSURE (PSIA) ~ 1240 EFW FLOW TO SG 2 (GPM) O PZR TEMPERATURE (F) 571 SG2 BLOWDOWN FLOW (GPM) O CETTEMPERATURE (F) 557 ~ LPSI A FLOW (GPM) O SUBCOOLED MARGIN (F) 16 LPSI B FLOW (GPM) O LOOP 1 TAVE (F) 535.6 HPSI A FLOW (GPM) 225 LOOP 1 TH (F) 555.4 HPSI B FLOW (GPM) 225

' LOOP 1 A TC (F) 494.8 CS FLOW (1) (GPM) 0 LOOP 1B TC (F) 536.3 CS FLOW (2) (GPM) O LOOP 2 TAVE (F) 535.6 SlT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) 5557 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 489.6 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) 536.1 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM) 44 SIT TANK 2A PRESS (PSIA) 620_

LETDOWN FLOW (GPM) 0 SIT TANK 28 PRESS (PSIA) 620 SG 1 LEVEL NR (%) 27.3 CONTAINMENT PRESS (PSIA) 17.1 SG 1 LEVEL WR (%) 50 CONTAINMENT TEMP (F) 135 SG 1 PRESSURE (PSIA) 966- SI SUMP LVL (FT) 0.1 SG 1 STEAM FLOW (MBM/HR) .068 CONTAINMENT SUMP (FT) 2.5 SG 1 FEED FLOW (MBM/HR) .22 RWSP LEVEL (%) 94.1 EFW FLOW TO SG 1 (GPM) O CSP LEVEL (%) 92.5  !

SG1 BLOWDOWN FLOW (GPM)' O PLNT STACK FLO RT (CFM) 5516 SG 2 LEVEL NR (%) 27.8 ANNULUS PRESSURE ("H 2O GAGE) -8 SG 2 LEVEL WR (%) 50 TURBINE POWER (MW) ' -3.9

- SG 2 PRESSURE (PSIA) 1045 i

PLANT DATA-12

c

(' 1  ? .WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 1 PLANT DATA' SECTION Vil TIME: 1045 REACTOR POWER (%) 2.5E-4 SG 2 STEAM FLOW (MBM/HR) 1E3

PZR LEVEL (%) 0 SG 2 FEED FLOW (MBM/HR) O PZR PRESSURE (PSIA) 1027 EFW FLOWTO SG 2 (GPM) O PZR TEMPERATURE (F) 545 SG2 BLOWDOWN FLOW (GPM). O CET TEMPERATURE (F)- 521 LPSI A FLOW (GPM) O SUBCOOLED MARGIN (F) 5 LPSI B FLOW (GPM) O LOOP 1 TAVE (F) 515.6 HPSI A FLOW (GPM) 2TO-i, ' LOOP 1 TH (F) 522.6 HPSI B FLOW (GPM) 250 L LOOP 1 A TC (F) 474.2- CS FLOW (1) (GPM) 0

' LOOP,1B TC (F) - 474.2 . CS FLOW (2) (GPM) 2800-LOOP 2 TAVE (F) ' -515.6 SIT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) 522.6 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 542.8 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) :542.8- SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%)' 100 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620-CHARGING FLOW (GPM) . 44 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) - 0 SIT TANK 2B PRESS (PSIA) 620 SG 1 LEVEL NR (%)- 7.3 CONTAINMENT PRESS (PSIA) 22.2 a

SG 1 LEVEL WR (%) . 30 CONTAINMENT TEMP (F) 169.9 470- 5.1 f

SG 1 PRESSURE (PSIA) SI SUMP LVL (FT) . j SG 1 STEAM FLOW (MBM/HR) 2.4E4 CONTAINMENT SUMP (FT) 14.3 J

'SG 1 FEED FLOW (MBM/HR) 0 RWSP LEVEL (%) 90.1  !

EFW FLOW TO SG 1 (GPM) 1700 CSP LEVEL (%) 91.5 i ' SG1 BLOWDOWN FLOW (GPM) O PLNT STACK FLO RT (CFM) 5516 l

SG 2 LEVEL NR (%)~ 30.7 ANNULUS PRESSURE ("H2O GAGE) -8 SG 2 LEVEL WR (%) 51 ' TURBINE POWER (MW) -2.9

, SG 2 PRESSURE (PSIA) 1010 1  :

I J

l PLANT DATA ! i L

g L

WATERFORD 3 SES BIENNIAL EXERCISE e OCTOBER 13,1999 PLANT DATA SECTION Vil TIME: 1100 REACTOR POWER (%) 1 E-4 SG 2 STEAM FLOW (MBM/HR) O PZR LEVEL (%) 21.5 SG 2 FEED FLOW (MBM/HR) O PZR PRESSURE (PSIA) 1047 EFW FLOW TO SG 2 (GPM) O PZR TEMPERATURE (F) 505.7 SG2 BLOWDOWN FLOW (GPM) 0 CET TEMPERATURE (F) 454.8 LPSI A FLOW (GPM) O SUBCOOLED. MARGIN (F) 43.2 LPSI B FLOW (GPM) 0

, LCOP 1 TAVE (F) 452.6 HPSI A FLOW (GPM) 255 LOOP 1 TH (F) ~ 455.9 HPSI B FLOW (GPM) 255 LOOP 1A TC (F) 391.2 . CS FLOW (1)(GPM) O LOOP 1B TC (F) 391.2 CS FLOW (2) (GFM) 2780 LOOP 2 TAVE (F) 452.6 SIT TANK 1 A LEVEL (%) 82 LOOP 2 TH (F) 456 SIT TANK 18 LEVEL (%) 82 LOOP 2A TC (F) 507 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) 506.9 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 66 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT. TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM) 44 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) O SIT TANK 2B PRESS (PSIA) 620

' SG 1 LEVEL NR (%) 18.4 CONTAINMENT PRESS (PSIA) 23.7 SG 1 LEVEL WR (%) 40 CONTAINMENT TEMP (F) 176.5 SG 1 PRESSURE (PSIA) 203.7 SI SUMP LVL (FT) 5.3 SG 1 STEAM FLOW (MBM/HR) 2E4 CONTAINMENT SUMP (FT) 14.8

- SG 1 FEED FLOW (MBM/HR) 2.5E4 RWSP LEVEL (%) 84.4 EFW FLOW TO SG 1 (GPM) 680 CSP LEVEL (%) 90 SG1 BLOWDOWN FLOW (GPM) O PLNT STACK FLO RT (CFM) 5516 SG 2 LEVEL NR (%) 27.8 ANNULUS PRESSURE ("H2O GAGE) -8

.SG 2 LEVEL WR (%)- 50 TURBINE POWER (MW) -2.2 SG 2 PRESSURE (PSIA) 727.3 9

PLANT DATA-14

'~

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 PLANT DATA SECTION Vil TIME: 1115 REACTOR POWER (%) : 9E-7 SG 2 STEAM FLOW (MBM/HR) O PZR LEVEL (%) 32.4 SG 2 FEED FLOW (MBM/HR) O PZR PRESSURE (PSIA) 855 EFW FLOW TO SG 2 (GPM) O PZR TEMPERATURE (F) 497 SG2 BLOWDOWN FLOW (GPM) O CET TEMPERATURE (F) 406.4 LPSI A FLOW (GPM) 0 SUBCOOLED MARGIN (F) 80 LPSI B FLOW (GPM) O LOOP 1 TAVE (F) 402.1 HPSI A FLOW (GPM) 400 LOOP 1 TH (F) 407.1 . HPSI B FLOW (GPM) 400 LOOP 1 A TC (F) 346.5 CS FLOW (1) (GPM) 0 LOOP 1B TC (F) 346.5 CS FLOW (2) (GPM) 2780 LOOP 2 TAVE (F) 402.1 SIT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) 407.1 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 447.8 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F)- 447.7 SIT TANK 28 LEVEL (%) 82 RV HEAD LVL (%) 66 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620 CHARGING Fl OW (GPM) 44 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) 0 SIT TANK 2B PRESS (PSIA) 620 SG 1 LEVEL NR (%) 27.7 CON'/AINMENT PRESS (PSIA) 23.9 SG 1 LEVEL WR (%) 57 CONTAINMENT TEMP (F) 177

. SG 1 PRESSURE (PSIA) 127.4- SI SUMP LVL (FT) 5.7 SG 1 STEAM FLOW (MBM/HR) 7.5E4 CONTAINMENT SUMP (FT) 15 SG 1 FEED FLOW (MBM/HR) 0 RWSP LEVEL (%) 77 EFW FLOW TO SG 1 (GPM) 331 CSP LEVEL (%) 88 SG1 BLOWDOWN FLOW (GPM) O PLNT STACK FLO RT (CFM) 5516 SG 2 LEVEL NR (%) 22.3 ANNULUS PRESSURE ("H2O GAGE) -8 SG 2 LEVEL WR (%) 53 TURBINE POWER (MW) -9.8 SG 2 PRESSURE (PSIA) 425.2 PLANT DATA-15 l 1

l

l WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 I

. PLANT DATA SECTION Vil TIME: 1130 REACTOR POWER (%) 2.1 E-7 SG 2 STEAM FLOW (MBM/HR) O PZR LEVEL (%) 40 SG 2 FEED FLOW (MBM/HR) 0 PZR PRESSURE (PSIA) 600 EFW FLOW TO SG 2 (GPM) O PZR TEMPERATURE (F) 518 SG2 BLOWDOWN FLOW (GPM) O CET TEMPERATURE (F) 341 LPSI A FLOW (GPM) 0 SUBCOOLED MARGIN (F) 156 LPSI B FLOW (GPM) 0 LOOP 1 TAVE (F) 335 HPSI A FLOW (GPM) 360 LOOP 1 TH (F) 339 HPSI B FLOW (GPM) 360 LOOP 1 A TC (F) 304 CS FLOW (1) (GPM) 3200 LOOP 18 TC (F) 304 CS FLOW (2) (GPM) 0 LOOP 2 TAVE (F) 335 SIT TANK 1A LEVEL (%) 82 )

. LOOP 2 TH (F) 339 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 356 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) 356 SlT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1 A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620 ;

CHARGING FLOW (GPM) 44 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) 0 SIT TANK 2B PRESS (PSIA) 620 SG 1 LEVEL NR (%) 21 CONTAINMENT PRESS (PSIA) 24.2 SG 1 LEVEL WR (%) 48 CONTAINMENT TEMP (F) 176 SG 1 PRESSURE (PSIA) 73 SI SUMP LVL (FT) 7 SG 1 STEAM FLOW (MBM/HR) .7E4 CONTAINMENT SUMP (FT) 16.2 SG 1 FEED FLOW (MBM/HR)- 0 RWSP LEVEL (%) 55 i EFW FLOW TO SG 1 (GPM) 290_ CSP LEVEL (%) 82 SG1 BLOWDOWN FLOW (GPM) O PLNT STACK FLO RT (CFM) 5516 SG 2 LEVEL NR (%) 17 ANNULUS PRESSURE ("H2O GAGE)

SG 2 LEVEL WR (%) 38 TURBINE POWER (MW) -9.8 SG 2 PRESSURE (PSIA) 160 Shield Building Ventilation alternates between Recire and Exhaust approximately every 60 seconds setpoint -1 to -8 "H2O PLANT DATA-16

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 l

l PLANT DATA SECTION Vil TIME: 1145 REACTOR POWER (%' ) 2E-7 SG 2 STEAM FLOW (MBM/HR) 0 l

PZR LEVEL (%) 40 SG 2 FEED FLOW (MBM/HR) 0 {

PZR PRESSURE (PSIA) 450 EFW FLOW TO SG 2 (GPM) 0 PZR TEMPERATURE (F) 515 SG2 BLOWDOWN FLOW (GPM) O CET TEMPERATURE (F) 341 LPSI A FLOW (GPM) O SUBCOOLED MARGIN (F) 156 LPSI B FLOW (GPM) O LOOP 1 TAVE (F) 335 HPSI A FLOW (GPM) 350 LOOP 1 TH (F) 339 HPSI B FLOW (GPM) 350

. LOOP 1 A TC (F) 304 CS FLOW (1) (GPM) 3200 LOOP 1B TC (F) 304 CS FLOW (2) (GPM) 0 LOOP 2 TAVE (F) 335 SIT TANK 1 A LEVEL (%) 82 LOOP 2 TH (F) 339 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 356 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) 356 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM) 44 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) 0 SIT TANK 2B PRESS (PSIA) 620 SG 1 LEVEL NR (%) 21 CONTAINMENT PRESS (PSIA) 24.0 SG 1 LEVEL WR (%) 48 CONTAINMENT TEMP (F) 176

)

SG 1 PRESSURE (PSIA) 73 St SUMP LVL (FT) 7.1 1 SG 1 STEAM FLOW (MBM/HR) .7E4 CONTAINMENT SUMP (FT) 16.3 SG 1 FEED FLOW (MBM/HR) 0 RWSP LEVEL (%) 54.5 EFW FLOW TO SG 1 (GPM) 280 CSP LEVEL (%) 81 SG1 BLOWDOWN FLOW (GPM) 0 PLNT STACK FLO RT (CFM) 5516 SG 2 LEVEL NR (%) 17 ANNULUS PRESSURE ("H2O GAGE)

SG 2 LEVEL WR (%) 40 TURBINE POWER (MW) -9.8 SG 2 PRESSURE (PSIA) 160 Shield Building Ventilation alternates between Recire and Exhaust approximately every 60 seconds setpoint -1 to -8 "H2 O PLANT DATA-17

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 PLANT DATA SECTION Vil TIME: 1200 REACTOR POWER (%) 1.9E-7 SG 2 STEAM FLOW (MBM/HR) O PZR LEVEL (%) 40 SG 2 FEED FLOW (MBM/HR) O PZR PRESSURE (PSIA) 380 EFW FLOW TO SG 2 (GPM) 100 PZR TEMPERATURE (F) 505 SG2 BLOWDOWN FLOW (GPM) O CET TEMPERATURE (F) 61 SDC A FLOW (GPM) 4000 SUBCOOLED MARGIN (F) 341 SDC B FLOW (GPM) 0 LOOP 1 TAVE (F) 335 HPSI A FLOW (GPM) O LOOP 1 TH (F) 339 HPSI B FLOW (GPM) O LOOP 1 A TC (F) 304 CS FLOW (1) (GPM) 3200-LOOP 1B TC (F) 304 CS FLOW (2) (GPM) 0 LOOP 2 TAVE (F) 335 SIT TANK 1 A LEVEL (%) 82 LOOP 2 TH (F) 339 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 356 SIT TANK 2A LEVEL (%) 82 LOOP 28 TC (F) 356 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1 A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 18 PRESS (PSIA) 620 CHARGING FLOW (GPM) 44 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) 0 SlT TANK 2B PRESS (PSIA) 620 SG 1 LEVEL NR (%) _

28 CONTAINMENT PRESS (PSIA) 24.0 SG 1 LEVEL WR (%) 51 CONTAINMENT TEMP (F) 175 SG 1 PRESSURE (PSIA) 120 St SUMP LVL (FT) 7.3 SG 1 STEAM FLOW (MBM/HR) O CONTAINMENT SUMP (FT) _

16.5 SG 1 FEED FLOW (MBM/HR) 0 RWSP LEVEL (%) 53 EFW FLOW TO SG 1 (GPM) 200 CSP LEVEL (%) 80.5 SG1 BLOWDOWN FLOW (GPM) 0 PLNT STACK FLO RT (CFM) 5516 SG 2 LEVEL NR (%) 21 ANNULUS PRESSURE ("H2O GAGE)

SG 2 LEVEL WR (%) 41 TURBINE POWER (MW) -9. 8 SG 2 PRESSURE (PSIA) 165 Shield Building Ventilation alternates between Recirc and Exhaust approximately every 60 seconds setpoint -1 to -8 "H2 O PLANT DATA-18 i

L. _

l

f l

' WATERFORD 3 SES BIENNIAL $XERCISE OCTOBER 13,-1999 L' PLANT DATA SECTION Vil TIME: 1230:

g ~ REACTOR POWER (%).

1.9E-7 ' SG 2 STEAM FLOW (MBM/HR) 0

. PZR LEVEL (%) . .

40 . SG 2 FEED FLOW (MBM/HR) 0

' PZR PRESSURE (PSIA) 380 EFW FLOW TO SG 2 (GPM) 100 l

- PZR TEMPERATURE (F) 505 SG2 BLOWDOWN FLOW (GPM) 0.

CET TEMPERATURE (F) 61 SDC A FLOW (GPM) 4000 SUBCOOLED MARGIN (F) 341- SDC B FLOW (GPM) 0 LOOP 1 TAVE (F) - 335 HPSI A FLOW (GPM) 0 LOOP 1 TH (F) . 339 - HPSI B FLOW (GPM) 0

. LOOP 1 A TC (F) - 304 CS FLOW (1)(GPM) 3200 LOOP 1B TC (F): s 304 CS FLOW (2)(GPM) 0 LOOP 2.TAVE (F) 1 335 SIT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) -339 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 356 SIT TANK 2A LEVEL (%) 82 LOOP 28 TC (F) 356 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620

- RV PLENUM LVL (%) .

100 SIT TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM)- 44 SIT TANK 2A PRESS (PSIA) 620

- LETDOWN FLOW (GPM) O SIT TANK 2B PRESS (PSIA) 620 SG 1 LEVEL NR (%)- 28 CONTAINMENT PRESS (PSIA) 24.0 SG 1 LEVEL WR (%) - 51 CONTAINMENT TEMP (F) 175 SG 1 PRESSURE (PSIA) '

120- Si SUMP LVL (FT) 7.3 SG 1 STEAM FLOW (MBM/HR) O- CONTAINMENT SUMP (FT) 16 5 SG 1 FEED FLOW (MBM/HR) 0 RWSP LEVEL (%) 53 EFW FLOW TO SG 1_(GPM) - 200 CSP LEVEL (%) 80.5 SG1 BLOWDOWN FLOW (GPM) O PLNT STACK FLO RT (CFM) 5516 SG 2 LEVEL NR (%); 21 ANNULUS PRESSURE ("H2O GAGE)

SG 2 LEVEL WR (%)- 41 TURBINE POWER (MW) ' -9.8 SG 2 PRESSURE (PSIA) 165 Shield Building Ventilation alternates between Recirc and Exhaust approximately every 60

, seconds setpoint -1 to.-8 "H2O i

i- .. i

\

PLANT DATA-19

((

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

= PLANT DATA SECTION Vll TIME: 1300 REACTOR POWER (%) 1.9E-7 ~ SG 2 STEAM FLOW (MBM/HR) 0

'PZR LEVEL (%)

40 SG 2 FEED FLOW (MBM/HR) 0 PZR PRESSURE (PSIA) 380 EFW FLOW TO SG 2 (GPM) 100

- PZR TEMPERATURE (F) 505 SG2 BLOWDOWN FLOW (GPM) 0 ,

i CET TEMPERATURE (F)' 61 SDC A FLOW (GPM) 4000 SUBCOOLED MARGIN (F) 341 SDC B FLOW (GPM) 0 i

l LOOP 1 TAVE (F) - 335 HPSI A FLOW (GPM) 0 LOOP 1 TH (F) 339 HPSI B FLOW (GPM) O LOOP 1 A TC (F) - 304 CS FLOW (1) (GPM) 3200 1

' LOOP 18 TC (F) , 304 CS FLOW (2) (GPM)- 0-

~ LOOP 2 TAVE (F) 335 SIT TANK 1A LEVEL (%) 82

. LOOP 2 TH (F) _'

339- SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 356 _ SIT TANK 2A LEVEL (%)' 82 LOOP 28 TC (F) 356 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM) 44 SIT TANK 2A PRESS (PSIA) 620

~ LETDOWN FLOW (GPM) O SIT TANK 2B PRESS (PSIA) 620 SG 1 LEVEL NR (%) 28 CONTAINMENT PRESS (PSIA) 24.0 SG 1 LEVEL WR (%) 51- CONTAINMENT TEMP (F) 175 SG 1 PRESSURE (PSIA) . 120 SI SUMP LVL (FT) 7.3 .

SG 1 STEAM FLOW (MBM/HR) O CONTAINMENT SUMP (FT) 16.5

- SG 1 FEED FLOW (MBM/HR) 0 RWSP LEVEL (%) 53

' EFW FLOW TO SG 1 (GPM) - 200 CSP LEVEL (%) 80.5 SG1 BLOWDOWN FLOW (GPM) O PLNT STACK FLO RT (CFM) 5516 SG 2 LEVEL NR (%) 21 ANNULUS PRESSURE ("H2O GAGE)

' SG 2 LEVEL.WR (%) 41 TURBINE POWER (MW) -9.8 SG 2 PRESSURE (PSIA) 165 l

. Shield Building Ventilation alternates between Recire and Exhaust approximately every 60 i seconds setpoint -1 to -8 "H2O J i

l I

(

PLANT DATA-20

p WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 '

PLANT DATA SECTION Vil TIME: 1330 REACTOR POWER (%) 1.9E-7 SG 2 STEAM FLOW (MBM/HR) O PZR LEVEL (%) 40 SG 2 FEED FLOW (MBM/HR) O PZR PRESSURE (PSIA) 380 EFW FLOW TO SG 2 (GPM) 100 PZR TEMPERATURE (F) 505 SG2 BLOWDOWN FLOW (GPM) O CET TEMPERATURE (F) 61 SDC A FLOW (GPM) 4000 SUBCOOLED MARGIN (F) 341 SDC B FLOW (GPM) O LOOP 1 TAVE (F) 335 HPSI A FLOW (GPM) O LOOP 1 TH (F) 339 HPSI B FLOW (GPM) O LOOP 1 A TC (F) 304 CS FLOW (1) (GPM) 3200 LOOP 1B TC (F) 304 CS FLOW (2) (GPM) 'O LOOP 2 TAVE (F) 335 SIT TANK 1 A LEVEL (%) 82 LOOP 2 TH (F) 339 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 356 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) 356 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 l RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM) 44 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) O SIT TANK 28 PRESS (PSIA) 620 SG 1 LEVEL NR (%) 28 CONTAINMENT PRESS (PSIA) 24.0 SG 1 LEVEL WR (%) 51 CONTAINMENT TEMP (F) 175 SG 1 PRESSURE (PSIA) 120 SI SUMP LVL (FT) 7.3 SG 1 STEAM FLOW (MBM/HR) O CONTAINMENT SUMP (FT) 16.5 SG 1 FEED FLOW (MBM/HR) 0 RWSP LEVEL (%) 53 EFW FLOW TO SG 1 (GPM) 200 CSP LEVEL (%) 80.5 SG1 BLOWDOWN FLOW (GPM) O PLNT STACK FLO RT (CFM) 5516 SG 2 LEVEL NR (%) 21 ANNULUS PRESSURE ("H 2O GAGE)

SG 2 LEVEL WR (%) 41 TURBINE POWER (MW) -9.8 SG 2 PRESSURE (PSIA) 165 I

Shield Building Ventilation altemates between Recire and Exhaust approximately every 60 l seconds setpoint -1 to -8 "H2 O I

l C

PLANT DATA-21 i

+ WATERFORD 3 SES BIENNIAL EXERCISE

. OCTOBER 13,1999

\

PLANT DATA ' SECTION Vil TIME: 1400 REACTOR POWER (%) . 1.9E-7 SG 2 STEAM FLOW (MBM/HR) 0

' PZR LEVEL (%): 40 SG 2 FEED FLOW (MBM/HR) 0 PZR PRESSURE (PSIA) - 380 EFW FLOW TO SG 2 (GPM) 100 505 u PZR TEMPERATURE (F) SG2 BLOWDOWN FLOW (GPM) O L . CET TEMPERATURE (F) 61 SDC A FLOW (GPM) 4000 GUBCOOLED MARGIN (F) 341 SDC B FLOW (GPM) 0 LOOP 1 TAVE (F) 335 HPSI A FLOW (GPM) 0 LOOF 1 TH (F) '

339' HPSI B FLOW (GPM) ~ LOOP 1 A TC (F) 304 CS FLOW (1) (GPM) 3200

LOOP 1B TC (F) 304 CS FLOW (2) (GPM) 0 LOOP 2 TAVE (F) . 335 SIT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) 339 SIT TANK 1B LEVEL (%) . 62 LOOP 2A TC (F) 356 SIT TANK 2A LEVEL (%) 82 LOOP 2B TC (F) 356 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) . 620 RV PLENUM LVL (%) 100 SIT TANK 1B PRESS (PSIA) 620

- CHARGING FLOW (GPM) 44 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) O SIT TANK 2B PRESS (PSIA) 620 SG 1 LEVEL NR (%) 28 CONTAINMENT PRESS (PSIA) 24.0 SG 1 LEVEL WR (%) 51 CONTAINMENT TEMP (F) 175 SG 1 PRESSURE (PSIA) 120 St SUMP LVL (FT) 7.3 SG 1 STEAM FLOW (MBM/HR) O CONTAINMENT SUMP (FT) 16.5 SG 1 FEED FLOW (MBM/HR) 0 RWSP LEVEL (%) 53

. EFW FLOW TO SG 1 (GPM) 200 CSP LEVEL (%) 80.5 SG1 BLOWDOWN FLOW (GPM) O PLNT STACK FLO RT (CFM) 5516 SG 2 LEVEL NR (%) 21 ANNULUS PRESSURE ("H 2O GAGE)

'SG 2 LEVEL WR (%) 41 TURBINE POWER (MW) -9.8 j

'SG 2 PRESSURE (PSIA) 165 Shield Building Ventilation alternates between Recire and Exhaust approximately every 60 seconds setpoint -1 to -8 "H2O l l

1 4

PLANT DATA-22 i

-g.

r WATERFORD 3 SES BIENNIAL EfXERCISE OCTOBER 13,1999 PLANT DATA SECTION Vil TIME: 1430

' REACTOR POWER (%) 1.9E-7 SG 2 STEAM FLOW (MBM/HR) O PZR LEVEL (%) 40 SG 2 FEED FLOW (MBM/HR) 0

_ 380 PZR PRESSURE (PSIA) EFW FLOW TO SG 2 (GPM) 100 PZR TEMPERATURE (F) 505 SG2 BLOWDCWN FLOW (GPM) O CET TEMPERATURE (F) 61 SDC A FLOW (GPM) 4000

-SUBCOOLED MARGIN (F) 341 SDC B FLOW (GPM) 0 LOOP 1 TAVE (F) 335 HPSI A FLOW (GPM) 0 i LOOP 1 TH (F) 339 HPSI B FLOW (GPM) O LOOP 1 A TC (F) 304 CS FLOW (1) (GPM) 3200 LOOP 1B TC (F) 304 CS FLOW (2)(GPM) 0 LOOP 2 TAVE (F) 335 SIT TANK 1A LEVEL (%) 82 LOOP 2 TH (F) 339 SIT TANK 1B LEVEL (%) 82 LOOP 2A TC (F) 356 SIT TANK 2A LEVEL (%) 82 LOOP 28 TC (F) 356 SIT TANK 2B LEVEL (%) 82 RV HEAD LVL (%) 100 SIT TANK 1A PRESS (PSIA) 620 RV PLENUM LVL (%) - 100 SIT TANK 1B PRESS (PSIA) 620 CHARGING FLOW (GPM) 44 SIT TANK 2A PRESS (PSIA) 620 LETDOWN FLOW (GPM) O SIT TANK 2B PRESS (PSIA) 620 SG 1 LEVEL NR (%) 28 CONTAINMENT PRESS (PSIA) 24.0 SG 1 LEVEL WR (%) 51 CONTAINMENT TEMP (F) 175 SG 1 PRESSURE (PSIA) 120 SI SUMP LVL (FT) 7.3 SG 1 STEAM FLOW (MBM/HR) O CONTAINMENT SUMP (FT) 16.5 SG 1 FEED FLOW (MBM/HR) 0 RWSP LEVEL (%) 53 EFW FLOWTO SG 1 (GPM) 200 CSP LEVEL (%) 80.5 SG1 BLOWDOWN FLOW (GPM) O PLNT STACK FLO RT (CFM) 5516 SG 2 LEVEL NR (%) 21 ANNULUS PRESSURE ("H2O GAGE) ,

- SG 2 LEVEL WR (%) 41 TURBINE PCWER (MW)' -9.8 l SG 2 PRESSURE (PSIA) 165 )

i Shield Building Ventilation alternates between Recire and Exhaust approxirnately every 60 "

seconds setpoint -1 to -8 "H2O i

PLANT DATA-23

x I. :

t.

l:

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,'1999 t

i.

RADIATION MONITORING SYSTEM DATA SHEETS

{

4 0

f

i MV13MdOMG C S3S 813NNIVl" 3X3BOIS3 001083B LC' L666 MYOlY1lON WONllOMS -

I 03SOMldllON 1Y O fO #/0 M10 1G #

, 0 817l" #: 66-09 dOSA 7OOY 8 3YS1MINO YMW-IM3-9029S

+t9 WSIA YM3V OMIC L OY13: L0/L E/66 YYS-OEL 7OOY1loN: +t9 MYS SYSI WSIA YM3V WON 11OM M3Y7 OMl71' M3YGINO WIS0371YN3OnS 1Ad3 Od WON 11OB:

liW3 liWB )WM/4J( N013S 04:99 . + 0:00 S'CE3+00 NOHWY7 YM3V @

i t t t . dMOOSSS O t t t- t 3dd1n3NI O t t- t- t YODIO3NI O t t t t t t t t YlYMW S31doiNIS:

t- t t t Y7381: E'003+OL t t" t t HlCH: L'003+02 t t t t t t t t WONllOM MYNO3:

t_ t t- t O'L 10 L0'000 WB/yJ

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t. t t t ENO Myeu tye wouyoJ!s o;J soeta ql64 oJ lom'1ys i l

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l. MY13MdOMO C SBS 813NNIVl 3XSMOISS 001083M LC' L666

MYGlY1lON WONlloBS 03SOMldllON 1Y O 10 #/0 M10 iG #

0 8177 # 66-09 DOS 11 OOY Y M391MINO YMW-IMS-SOEL S

+t9 WSIA YM3Y . OMlO L GY13: L0/L E/66 YYS-OZE.

7OOY1lON: +99 MYS M3SI WslA YM3V WONlloM M3Vl- GM11T M3YOINO WIS031TYN3OnS 1Ad3 od WON 110Ml liWS liW3 )WM/yJ( NOlaS 04:99 + 0:00 4'003-OL NOMWY1 YM3V @

t t t t dMOD3SS O' t t t- t 3ddI03NI O t' t t t YODIGENI O t' t t t t t t t Yl YMW S31dOIN1S:

t t t t Yl 381: E'003+OL t t t t HlCH: I'003+02 t t t t t t t t WON 1108 MYNO3:

t t t t O'L no LO'000 wM/yJ t t .t t t t.' t t t i i t t t f. t myau )ye wou! lops 0#

.f f f t soele y!0 y opom'1ya 3NG Jaep!uS mlll Jawe!u el

)ya nddeJ opomaJ laAal 01)ya !uslJnwaul Jeu 68-l.

INdlyN1-E I

l l

WATERFORD 3 SES BIENNIAL EiXERCISE OCTOBER 13,1999 RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

DRILL #: 99-08 RAB +46 HVAC ROOM ARM-IRE-5002 GRID 1 DATE: 10/13/99 AAA-029 LOCATION: HVAC AREA +46 RAB MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME (mR/hr) NOTES 07:55 + 0:00 4.16E-02 NORMAL AREA @

4 4 4 4 PROCESS O 4 4 4 4 EFFLUENT C 4 4 4 4 ACCIDENT O 4 4 4 4 4 4 4 4 ALARM SETPOINTS:

11:30 +3:35 8.00E-01## ALERT ALARM ALERT: 5.00E-01 11:45 +3:50 7.00E+00## HIGH ALARM HIGH: 5.00E+00 12:00 +4:05 1.00E+02## 4 4 4 4 4 MONITOR RANGE:

4 4 4 4 0.01 to 1000 mR/hr 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 When the monitoris off 4 4 4 4 scale high or low, the END reading will remain at the upper orlower level of the instrument range.

1. 1. due to Shield Building Ventilation Filters.  !

i INPLANT-3

z -

V WATERFORD 3 SES BIENNIAL EXERCISE t OCTOBER 13,"1999 7

RADIATION MONITORS DESCRIPTION . TAG ID #/ GRID ID #

DRILL #: 99-08 PURGE ISOLATION B AREA' ARM-IRE-5014S

+46 CONTAINMENT. GRID 2 DATE: 10/13/99 AAS-018 LOCATIONi l

MONITOR I REAL. DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME - - TIME (mR/hr) NOTES l t

07:55 ~ + 0:00 2.00E+02 NORMAL' AREA 2 '

4 4 4 4 PROCESS O 4 4- 4 4 EFFLUENT O 4 4 4 4 ACCIDENT C

4. 4 4 4

'4 4. 1 '4 ALARM SETPolNTS:

10:15

+2:20 : 2.50E+02 INCREASING ALERT: 3.00E+02 10:30 +2:35 5:00E+03 HIGH ALARM HIGH: 3.60E+02 10:45 +2:50 ' 5.00E+05. OFF SCALE HIGH s

4 4 l' 4 MONITOR RANGE:

4 4. 4 4 2.0E+01 to 5.0E+5 mR/hr 4- 4~- 4 4  ;

4~ .4' 4 4  !

41 4 .- 4 4 )

~4 4 4 4

• When the monitoris off o END- scale high or low, the reading will remain at -

the upper orlowerlevel l of the instrument range.

i INPl. ANT-4 u._

L

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

- RADIATION MONITORS

DESCRIPTION TAG ID #/ GRID ID #

DRILL #: 99-08 PURGE ISOLATION A AREA ARM-IRE 5025S

+46 CONTAIMNET GRID 2 DATE: 10/13/99 AAS-020 i

l LOCATION: J l

MONITOR REAL. DRILL . READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME (mR/hr) NOTES 07:55 + 0:00 1.00E+02 NORMAL AREA @

4 4 4 4 PROCESS O 4 4 4 4 EFFLUENT O 4 4 4 4 ACCIDENT C 4 4 4 4 4 4 4 4 ALARM SETPOINTS:

4 4 4 4 ALERT: 1.50E+02 10:15 +2:20 2.50E+02 HIGH ALARM HIGH: 1.80E+02 10:30 +2:35 5.00E+03 HIGH ALARM 10:45 +2:50 5.00E+05 OFF SCALE HIGH MONITOR RANGE:  ;

4 4 4 4 2.0E+01 to 5.0E+05 mR/hr 4 4 4 4 4 4 4 4 4 4 4 1 END~ When the monitoris off scale high or low, the reading will remain at the upper or lower level of the instrument range.

INPLANT-5

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 j 1 RADIATION MOI;lTORS DESCRIPTION -TAG ID #/ GRID ID #

DRILL #: 99-08 PURGE ISOLATION B ARM-IRE-5027S l

+21 CONTAINMENT GRID 2 DATE: 10/13/99 l AAS-023 LOCATION: +21 CONTAINMENT NORTH EAST MONITOR REAL- DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME - (mR/hr) NOTES 07:55 + 0:00 3.50E+00 NORMAL AREA @

4 4 4 4 PROCESS O 4 4 4 4 EFFLUENT O

'4- 4 4 4 ACCIDENT O 4 4 4 4 4 4 4- 4 ALARM SETPOINTS: l 4 4 4 4 ALERT: 3.00E+01 10:15 +2:20 2.50E+02 HIGH ALARM HIGH: 4.00E+01 10:30 +2:35 . 5.00E+03 HIGH ALARM 10:45 +2:50 5.00E+05 OFF SCALE HIGH MONITOR RANGE: l 4 4 4 4 2.0E+01 to 5.0E+05 mR/hr I 4 4 4 4 4 4 4' 4 END When the monitor is off scale high or low, the reading will remain at the upper or lower level I

of the instrument range. i i

l, INPLANT 6 a

i WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

DRILL #: 99-08 PURGE ISOLATION A ARM-IRE-5026S GRID 2 DATE: 10/13/99 AAS-024 LOCATION +21 CONTAINMENT SOUTH WEST BY PZR CUBICLE MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR: l TIME TIME (mR/hr) NOTES 07:55 + 0:00 3.00E+00 NORMAL AREA @

4 4 4 4 PROCESS O 4 4 'A 4 EFFLUENT O ,

4 4 4 I 4 ACCIDENT O 4 4 4 4 4 1 4 4 ALARM SETPOINTS:

4 4 4 4 ALERT: 3.00E+01 1 10:15 +2:20 2.50E+02 HIGH ALARM HIGH: 4.00E+01 10:30 +2:35 5.00E+03 HIGH ALARM

0:45 +2:50 5.00E+05 OFF SCALE HIGH MONITOR RANGE:

4 4 4 4 2.0E+01 to 5.0E+05 mR/hr 1 4 4 4 1

4 4 4 4 END

• W'in the monitor is off scale high or low, the reading will remain at the upper or lower level of the instrument range. l e

i INPLANT-7 l

x_

MY138dOBO E SBS 813NNIY7 3X3MOIS3 001083B LE' L666 MYGIV1lON WONllOMS G3SOWldllON 1YO IG #/081G lG #

0 8117 #: 66-09 DOS 11OOY Y d3NI YMW-IM3-9000S

+ZL 3VSi OMIG 2 GV13: L0/LE/66 YVS-021

,.,..m ,.

7OOV1lON: +EL NY8 SMlloH03YM MOOW 8 WONllOM 83Y1 0810' 83YGINO WIS031TYN3OnS 1Ad3 Od WONllOM:

liW3 liWE )WB/yO N013S 01:99 + 0:00 E'003-OL NOHWVl YM3V @

t t t t dMOO3SS O i i t t 3ddin3NI O

.i t t t YDOIGENI O t t- t t t t- t t YlVMW S31dOINIS:

t t t t Y73M1: E'003+OL i t t t HlCH: L'003+02 t t t t t t t t WONllOM MYNO3:

t t t t 0'l no L0'000 WM/yJ

t. t t i i t ^ t 3NG

. myau )qa mouyops 03 soela y!64 opom'lya Jaep!uS m!ll Jawe!u el 1ya nddeJ opomopanal oilga lustJnwaui Jeu 6a'

_ y INd1YN1-9

[

MV138dOMG E SSS 813NNIV7 SX3MOISS 001083B LE' L666 l BYGIV1lON WON!iOMS 03SOMldilON 1VD 10 #/0810 IG #

9 GMl77 #: 66-09 dOSI 7OCV 8 M391 VMlni-IMB 9026S

+EL MY8 MINO 0810 E OV13: L0/L C/66 YYS-029 7OOV1lON: ~

+4"L BVE MINO YM3V MESI GA G3OON MOOW l

WONlloM ,

M3V7 08177 83YOINO WIS0377YN3OnS 1Ad3 Od WONllOM:

liWB liWB )WM/yJ( N013S 04:99 + 0:00 E'003-OL NOMWV7 YM3V @

t t t t dMOC3SS O i i t t 3dd703NI O i i t t YOOl03NI O t' t t t f i t t Yl'YBW S31dOINIS:

t t t t Y7381: E'003+OL  !

i t t t HlCH: L'003+02 f i t t t t t t WONllOM MVND3: l t t t i O'L lo L0'000 WM/yJ t t t t t t t t t t t t ENO .

M4au lga mougoJ!s on soeta yt64 oJ tom'lga Jaep!uS m!ll Jawe!u el 1ya nddaJ oJlomaJ 1a481 oj tya lus))nwaut jeu 6a' l

INd1VN1-6

i WATERFORD 3 SES BIENNIAL XERCISE l OCTOBER 13,1999 RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID # l i

DRILL #: 99-08 f RADIOCHEMISTRY LAB ARM-IRE 5020 1 RAB -4 GRID 3 DATE: 10/13/99 AAA-034 LOCATION: RAB -4 RADIOCHEM LAB MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME (mR/hr) NOTES 07:55 + 0:00 1.20E+01 HIGH ALARM AREA @

4 1 1 1 PROCESS O 4 4 4 1 EFFLUENT C 4 4 4 1 ACCIDENT C 4 4 4 4 4 4 4 1 ALARM SETPOINTS:

1 1 1 1 ALERT: 3.00E+00 1 4 4 1 HIGH: 5.00E+00 END MONITOR RANGE:

1.00E-01 to 1.00E+04 mR/hr i

When the monitor is off scale high or low, the reading will remain at the upper or low,r level of the instrument range.

INPLANT-10

1 MV138d08G E SBS 813NNIVl 3X3801SS 0010838 .lC' .1666 I MYOIV1lON WON 11 OMS 1

03SOMldlloN 1Y O IG #/O BIG fO #

08iiT #: 66-09 d7YNI S1YOi> V dlO d8W-IM3-OL 00'L S OMIG t GY13: L0/L E/66 dYBllO01Y13 OHYNN3l" 3dS-LEL ~

I"OOV1lON: +t9 ug 0aunaJ MiuS yJae WONllOM M3V7 GMllI" M3YOINO WIS031TYN3OnS 1AdE od WONllOB:

1lna itn3 )nol/03( N013S 01:99 + 0:00 L '003-L L NOHWVl' V83V O i t t t d8OO3SS O t t t t 3ddln3NI @

t t t t YOOIGENI O t i t i t t t t Yl"Y H W S 31 d OIN I S:

t t t t Y1381: 8'6E3-09 t- t t t HlCH: 8'6E3-09 l t t t t t t t t WON 1108 UYND3:

1 L L:CO +E:ES .l'003-09 odd SOVI 3 HlOH L'003.lL no L'003-09 nol/00 t t t t t t t t i i t i t t t t .

Myeu lys woulloJis og 3NG soeta y!64 oJ loM'1ya Jaep!u6 m!ll Jawe!u e1 l 1ya nddeJ oJlomaJ lana l oj1ya luS1Jnwaul Jeu 6a' t

l l  !

1 I

INdlYNI-L L l

t

[.

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID # ,

1 DRILL #: 99-08 PLANT STACK A PIG PRM-IRE-0100.1S GRID 4 DATE: 10/13/99 IODINE CHANNEL EIS-132 LOCATION: +46 RAB CENTER WING AREA i 4

MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR: I TIME - TIME (uCi/cc) NOTES 07:55 + 0:00 1.00E-09 NORMAL AREA C 4- 4 4 d PROCESS O l 08:15 +0:20 8.00E-09 ALERT ALARM EFFLUENT @ ]

08:20 +0:25 8.00E-08 4 ACCIDENT O 08:30' +0:35 8.00E-07 HIGH ALARM 08:35 +0:40 2.83E-06 4 ALARM SETPOINTS:

)

4 'l 4 4 ALERT: 1.90E-09

"+0:05 8.00E-07 HIGH ALARM HIGH: 1.97E-07 '

"+0:10 8.00E-08 ALERT ALARM

"+0:15 8.00E-09 4 MONITOR RANGE:  !

"+0:20 1.00E-09 NORMAL 1.00E 09 to 1.00E-03 uCl/cc 4 4 4 4 11:30 +3:35 1.00E-03 HIGH ALARM 4 4 4 OVERRANGED 4 4 4 4

• When the monitoris off END scale high or low, the reading will remain at the upper or lower level of the instrument range.

" Afterisolating GDT A Leak INPLANT-12

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 1

RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

DRILL #: 99-08 PLANT STACK A PIG PRM-IRE-0100.1S GAS CHANNEL GRID 4 DATE: 10/13/99 EGS-133 l

LOCATION: +46 RAB CENTER WING AREA MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME (uci/cc) NOTES 07:55 + 0:00 5.00E-06 NORMAL AREA O 4 4 4 4 PROCESS O 08:15 + 0:20 5.00E-05 ALERT ALARM EFFLUENT @

08:20 +0:25 5.00E-04 increasing ACCIDENT O 08:30 +0:35 5.00E-03 HIGH ALARM 08:35 +0:40 - 1.82E-02 >EAL for ALERT ALARM SETPOINTS:

4 4 4 4 ALERT: 2.60E 05

"+0:05 5.00E-03 HIGH ALARM HIGH: 1.30E-03

"+0:10 5.00E-04 ALERT ALARM

"+0:15 5.00E-05 Decreasing MONITOR RANGE:

"+0:20 4 5.00E 06 NORMAL 1.00E-7 to 1.00E-1 uCl/cc 4 4 4 4 11:30 +3:35 1.00E-01 HIGH ALARM " Readings after GDT A leak is OVERRANGED isolated.

When the monitoris off scale high or low, the reading will remain at the upper or lower level of the instrument range.

1 (NPLANT-13

g I

i WATERFORD 3 SES BIENNIAL EXERCISE

! OCTOBER 13,1999 l RADIATION MONITORS

DESCRIPTION TAG ID #/ GRID ID #

DRILL #: 99-08 PLANT STACK B PlG PRM-IRE-0100.2S PARTICULATE CHANNEL GRID 4 DATE: 10/13/99 EPS-141

/

LOCATION: +46 RAB CENTER WING AREA MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME (uCl/cc) NOTES 07:55 + 0:00 1.00E-11 NORMAL AREA O 4 4' 4 4 PROCESS O 4 4 'l 4 EFFLUENT @

4 4 4 4 ACCIDENT C 11:30 +3:35 - 1.00E-05 OFF SCAL.E HIGH 4 4 4 4 ALARM SETPOINTS:

4 4 4 4 ALERT: 9.93E-08 4 4-  ? 4 HIGH: 9.93E-06 END MONITOR RANGE:

1.00E-11 to 1.00E 5 uCUcc When the monitor is off scale high or low, the reading will remain at the upper orlower level of the instrument range.

INPLANT-14

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 RADIATION MONITORS 1

l DESCRIPTION TAG ID #! GRID ID #

l DRILL #: 99-08 PLANT STACK B PIG PRM-IRE-0100.2S LODINE CHANNEL GRID 4 DATE: 10/13/99 EIS-142 l

l LOCATION: +46 RAB CENTER WING AREA MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME (uCl/cc) NOTES 07:55 + 0:00 1.00E-09 NORMAL AREA O 4 4 -4 4 PROCESS O 08:15 +0:20 8.00E 09 ALERT ALARM EFFLUENT @

l 08:20 +0:25 8.00E-08 4 ACCIDENT O 08:30 +0:35 8.00E-07 HIGH ALARM 08:35 +0:40 2.33E-06 HIGH ALARM ALARM SETPOINTS:

1 4 4 4 ALERT: 1.90E-09 1 4 4 HIGH: 1.97E-07

"+0:05 4 8.00E-07 HIGH ALARM

"+0:10 4 8.00E-08 ALERT ALARM MONITOR RANGE:

"+0:15 4 8.00E 09 4 1.00E-9 to 1.00E-3 uCi/cc

"+0:20 4 1.00E-09 NORMAL

" After GDT A leak isolated 11:30 +3:35 1.00E-03 HIGH ALARM OVERRANGED When the monitor is off scale high or low, the reading will remain at the upper orlower level

, of the instrument range.

INPLANT-15

n

, WATERFORD 3 SES BIENNIAL EXERCISE

' OCTOBER 13,1999 RADIATION MONITORS

.- DESCRIPTION TAG ID #/ GRID ID #

DRILL #: 99-08 PLANT STACK B PIG ' PRM-IRE-0100.2S GAS CHANNEL ... GRID 4 DATE: 10/13/99 EGS-143 LOCATION: ~+ 46 RAB CENTER WING AREA MONITOR REAL' - ' DRILL ' READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME - (uCi/cc) ' NOTES' 07:55- + 0:00 - 5.00E-06 NORMAL AREA 0 4' 4 4 4 PROCESS - 0 08:15 +0:20 5.00E-05 ' ALERT ALARM EFFLUENT @

08:20 +0:25 5.00E-04 .4-- ACCIDENT O 08:30' +0:35 5.00E HIGH ALARM 08:35 - +0:40 1.82E-02 >EAL for ALERT - ALARM SETPOINTS:

4~ '4 .4- 4 ALERT: 2.60E-05

"+0:05 - "'

5.00E-03 HIGH ALARM HIGH: 1.30E-03

="

"+0:10 5.00E ALERT ALARM

"+0:15 5.00E-05 4 MONITOR RANGE:

"+0:20 . 5.00E-06 NORMAL 1.00E-7 to 1.00E-1 uCi/cc 4 - 4. 1. 4

-11:30 . +3:35 1.00E-01 HICH ALARM OVERRANGED When the monitoris off scale high or low, the

>- reading will remain at

+

the upper orlowerlevel of the instrument range.

f INPLANT 16 f

MY13MdOBO C SBS 813NNIY13X3BOIS3 001083B LC' L666 HYGlY1lON WONlloBS 03SOBldiloN' 1YO IG #/OWlO 10 #

olWO MY13W GISOHV803 dWW-183-L 600 GMliT #: 66-09 O WlG t 31T-E0E GY13: L0/L E/66 l OOY1lONl -ES NY8 3YS1MINO YM3Y .

WON 11OW M3Vl" GMliT - 83YGINO WIS03llYN3OnS 1Ad3 03 WON 11OB:

liW3 liW3 ) nolloc ( N013S 04:99 . + 0:00 E'003-OL N O M W Vl- Ya3V O t t t t dwOO3SS O i f f f 3dd103N1 @

i. t i t YODIGENI 0 l t i t t [

MYS @ L '003-0E OA3MMYNOEG@ YlYWW S31dOINIS:

t t t t Yl'3M1: S'003-OL t t t t HloH: L '003-09 t t t t t t t t WONlloH BYNO3l 3NG t t t L'003-9 lo L'003-g nO!/oc Mqau tye moulloJ!s o;J soele y!64 oJ tom')ye Jaep!u6 m!ll Jawe!u et

)ya nddaJ oJ lomaJ laAel oj)ye lus)Jnmeul Jeu 6e-

@ oAaJJeu8ep pna }o y!oy Jep!e)!ou laAels ou l Oou}e!uWGul SdJeX d!d!uS eUGJ 89a!Jonie)!ou ycine1!ou s!6 uel)BYS('

INdlYN1 bi l

i

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

CONTAINMENT ATMOSPHERE PRM-lRE-0100Y DRILL #: 99-08 PARTICULATE CHANNEL GRID 5 PPS-311 DATE: 10/13/99 LOCATION: -4 RAB WING AREA WEST MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME ( uCi/cc ) NOTES 07:55 + 0:00 5.00E-11 NORMAL AREA O 4 4 4 1 PROCESS @

4 4 4 4~ EFFLUENT C 1 4 4 1 ACCIDENT O 4 4 4 4

_4 4 4 1 ALARM SETPOINTS:

4 4 4 4 ALERT: 9.25E-09 4 4 4 4 HIGH: 9.25E-08 10:15 +2:20 5.00E-10 LOSS OF FLOW 4 4 4 -

4 MONITOR RANGE:

1 4 4 1 1.00E-11 TO 1.30E-5 uCi/cc 4 4 4 4 4 4 4 4 END 4 4 4

• When the monitoris off scale high or low, the reading will remain at the upper orlower level of the instrument range.

INPLANT 18

a 1

l- ~ MY138dOHG E S3S 8lBNNIVl" 3X3MOISB i 001083B LE' L666 j.

MYOIV1lON WON 11 OHS G3SOBldllON 1YO 10 #/OWlG 10 #

OON1YINW3NIY1WOSdH383 dWW-lH3-OL 00A' O B11T #: 66-09 loOIN3 OHYNN31" O dlO 9 dis-ELE OV13: 10/L E/66 7OOY1lON -t WYS MINO YM3V M391 WONlloB 83Y7 0811T 83YCINO WIS031TYN3OnS 1Ad3 03 WONlloB:

- 1[na 1lW3 ) nOl/30 ( M013S 04:99 + 0:00 E'9t3 NOWWVl" V83V O t t t t dWOCESS 35[

.t t 3dd703NI t t O t t t t YOGIGENI O '

,10:L 9 +2:E0 L '003-06 1"OSS od dI"OM t t t t YlYMW S31dOINIS:

t t t t Y7381: PV ES-OL t t t- t HlCH: t'LE3-09 t t t t t t t t WONllOW BVNO3:

t t t t L'003-610 L'003-E nol/30 t t t t 3NG t t t

, Myau lya moulloJ 1s og soele yt6y oJ lom'1ya Jaep!uS m!ll Jawe!u el 14a nddaJ oJ lomaJ laAal 011ya tus1Jnwaul Jeu 6a*

l l

l l

l  !

l I

INdI"YNI-L 6 1

I

q 1,

MY13MdOMG C SBS 813NNIVl 3X3HOISS 001083M ,lE' .1666 BV01V1loN NION11OWS G3SOWldllON 1YO 10 #/081010 #

OON1VINW3NIV1NIOSdH383 dWltiB3-OL00A 0 811l' #: 66-09 \ t OdiG 9 OYS OHYNN31 DOS-CLE OY13: L0/L E/66 =

1 7OOV1lONl -t WYS MINO V83V M391 WONlloM M3Vl- 0 8171" M3YGINO WIS031TYN3OOS 1Ad3 Od NION1108:

ling ilna ) nO!/30 ( N013S 04:99 + 0:00 L '003-09 NOMWV7 V83V O t t t i dBOO3SS @

t t 3ddI03NI t t 0

L 0:L 9 +E:E0 t'003-OC 7OSS 03 dlOM VOOIGENI O t t t t t t t t YlYHW S31dOIN1S:

.t t t t

~

Y7381: I'CE3-OC t t t t HlCH: L'CC3-02 t t t t t t t t WONllON MYNO3:

t t. t t I'003-110 L'003 L nO?/00  !

i t t t t t t t 3NO t t t

. M4au )ya juou!)oJ !s og soele y!6 y oJlom';ya Jaep!uS m!ll Jajue!u el lya nddeJ oJlomaJ tanal 0114a lus)Jnauaul Jeu 6a' INdlYN1-ZO

o ,

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 ,

, RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

HVAC A PIG PRM-lRE-6710 DRILL #: 99-08 GRID 5 PARTICULATE CHANNEL PPP-321 DATE: 10/13/99 ~

l LOCATION: -4 RAB Hallway west side MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR; TIME TIME ( uCl/cc ) NOTES 07:55 + 0:00 6.00E-15 NORMAL AREA O 4 4' di 4 PROCESS @

08:15 +0:20 1.00E-05 HIGH ALARM EFFLUENT O 4 4 4 OVERRANGED ACCIDENT O 4 4 4 4

"+0:05 -

4.00E-06 DECREASING ALARM SETPOINTS:

"+0:10 4.00E-08 ALERT ALARM ALERT: 1.50E-08

"+0:15 4.00E-10 NORMAL HIGH: 6.00E-08

"+0:20 4.00E-14 4 4 4 4 4 MONITOR RANGE:

4 4 4 4 1.00E-11 TO 1.00E-5 uCi/cc l 4 4 4 4 4 4 4 1 END 4 4' 4 When the monitoris off scale high or low, the reading will remain at the upper or lower level of the Instrument range.

" After GDT A leak isolated INPLANT-21 L

WATERFORD 3 SES BIENNIAL EXERCISE l OCTOBER 13,1999 l

RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

HVAC A PlG PRM-IRE-6710A DRILL #: 99-08 GRID 5

{

l LODINE CHANNEL Pil322 DATE: 10/13/99 I LOCATION: -4 RAB Hallway west side

)

MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME ( uCi/cc ) NOTES 07:55 + 0:00 1.00E-09 NORMAL AREA O 1 4 4 1 PROCESS @

08:15- +0:20 2.00E-04 HIGH ALARM EFFLUENT O 4 4 1 1 ACCIDENT O 4 4 4 4

"+0:05 2.00E-05 Decreasing ALARM SETPOINTS:

"+0:10 2.00E-07 4 ALERT: 5.00E-09

"+0:15 1.00E-08 ALERT ALARM HIGH: 2.00E-08  !

"+0:20 1.00E-09 NORMAL 1

4 4 4 4 MONITOR RANGE:

4 4 4 4 1.00E-9 TO 1.00E 3 uCi/cc i END 4 4 1

" AAer GDT A leak isolated When the monitor is off scale high or low, the reading will remain at the upper orlower level of the instrument range.

o l

INPLANT-22

r:

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID # j l HVAC A PlG PRM-IRE-6710A DRILL #: 99-08 ,

GRID 5 GAS CHANNEL PGG-323 DATE: 10/13/99

)

LOCATION: +21 RAB WING AREA WEST 1

l MONITOR '

REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME ( uCi/cc ) NOTES 07:55 + 0:00 1.00E-06 NORMAL AREA O 1 1 1 1 PROCESS @

08:15 +0:20 1.00E-01 HIGH ALARM EFFLUENT O 4 1 1 OVERRANGED ACCIDENT O 1 1 4 4 4 1 1 4 ALARM SETPOINTS:

"+0:05 1.00E-02 Decreasing ALERT: 2.50E 05 l

"+0:10 1.00E-04 4 HIGH: 1.00E-04

"+0:15 8.00E-06 / ? c.RT ALARM "0:20 "

1.00E-06 NORMAL MONITOR RANGE:

1 1 4 1 1.00E 07 TO 1.00E-01 uCi/cc 1 1 4 1 END 1 4 1 When the monitor is off scale high or low, the reading will remain at the upper or lower level of the instrument range.

" After GDT A leak isolated INPLANT-23 j

[7 _

L. ,

. WATERFORD 3 SES BIENNIAL EXERCISE r

OCTOBER 13l1999

\, y ,

I

' RADIATION MONITORS DESCRIPTION TAG 10 #/ GRID ID #

HVAC D PlG / PRM-IRE-6710b . DRILL #: 99-08

'^, . .

. GRID 5 PARTICULATE CHANNEL ,

PPP-351 DATE: 10/13/99 LOCATION: ' +46 RAB HVAC ROOM

' MONITOR REAL f DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME. TIME ( uCi/cc ) NOTES 07:55 + 0:00 4.00E-14 NCRMAL AREA O l 'A~ 4 I PROCESS @

08:15 ' +0:20 ' 6.00E-09 HIGH ALARM EFFLUENT C 08:20 +0:25 '4

~ 6.00E-08 ACCIDENT O-D 08:25 +0:30 6.00E-07 -4 1 4 4 4 ALARM SETPOINTS:

"+0:05 6.00E-08 HIGH ALARM ALERT: 2.50E-09

"+0:10 6.00E-09 1 HIGH: 5.00E-09

"+0:15 6.00E-11 NORMAL

"+0:20 6.00E-14 4' MONITOR RANGE: l

'4 4- 4' 1- 1.00E-11 TO 1.00E-5 uCl/cc 11:30: +3:35 - 5.00E-10 INCREASINGN l 11:45 +3:50 1.00E-08

• HIGH ALARMN " After GDT A leak isolated 12:00- +4:05 1.00E ' OFF SCALE HIGHN When the monitoris off s

scale high or low, the i reading will remain at  !

the upper orlowerlevel of the instrument range.

M increasing background dose rates from Shield Buiiding

\;

Ventilation Filters. l l.

l I

i

( 1 INPLANT-24

WATERFORD 3 SES BIENNIAL EXERCISE

, OCTOBER 13,1999 RADIATION MONITORS DESCF.lPTION - TAG ID #/ GRID ID #

HVAC D PlG , PRM-IRE-6710b DRILL #: 99-08 GRID 5 IODINE CHANNEL Pil-352 DATE: 10/13/99 LOCATION: +46 RAB HVAC ROOM MONITOR REAL DRILL ' READING - MISCELLANEOUS TYPE OF MONITOR:

- TIME - TIME ( uCl/cc )- NOTES 07:55 + 0:00 1;tg. 09 NORMAL AREA O 4 4 4 4 PROCESS @

08:15 +0:20 8.00E-08 HIGH ALARM EFFLUENT C 08:20 +0:25 8.00E-07 4 ACCIDENT O 08:25 +0:30 8.00E-06 ~4 08:30 +0:35 2.83E-05 4 ALARM SETPolNTS:

4 4 4 4 ALERT: 5.00E-09

"+0:05 8.00E-06 Decreasing HIGH: 1.00E-08

"+0:10 8.00E-07 4 "0:15 - 8.00E-08 'A MONITOR RANGE:

"0:20 "

1.00E-09 NORMAL 1.00E-09 TO 1.00E-03 uCi/cc

. 4 4 4'. 4 11:30 +3:35 1.00E-07 HIGH ALARM ## " After GDT A leak isolated '

11:45 +3:50 1.00E-05 12:00 +4:05 1.00E-03 OVERRANGEDM

• When the monitoris off i

scale high or low, the reading will remain at the upper or lower level of the instrument range.

N Increasing background dose rates from Shield Building Ventilation Filters.

INPLANT-25

-y WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 RADIATION MONITORS DESCRIPTION ~ TAG ID #/ GRID ID #

HVAC D PlG PRM-IRE-6710 D DRILL #: 99-08 GRID 5 GAS CHANNEL PGG-353 DATE: 10/13/99 LOCATION: +46 RAD HVAC ROOM i

MONITOR

{

REAL- DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME ( uCl/cc ) NOTES 07:55 + 0:00 5.00E-06 NORMAL AREA O i 4- 4 4 4 PROCESS @

08:15 +0:20 5.00E-05 ALERT ALARM EFFLUENT C 08:20 +0:25 5.00E-04 HIGH ALARM ACCIDENT C 08:25 +0:30 5.00E-03 HIGH ALARM 08:30 +0:35 1.82E-02 HIGH ALARM ALARM SETPOINTS:

1 4 4 4 ALERT: 2.60E-05

"+0:05 5.00E-03 HIGH ALARM HIGH: 1.00E-04

"+0:10 5.00E-04 Decreasing

"+0:15 5.00E-05 ALERT ALARM MONITOR RANGE:

"+0:20 5.00E-06 NORMAL 1.00E-07 TO 1.00E-01 uCi/cc 4 4 4 4 1

11:30 +3:35 2.00E-04 HIGH ALARM ## " After GDT A leak isolated 11:45 +3:50 - 1.00E-02 12:00 +4:05 1.00E-01 OVERRANGED##

• When the monitor is off scale high or low, the reading will remain at the upper or lower level of the instrument range.

1. 1. Increasing background dose rates from Shield Building Ventilation Filters.

INPLANT-26

MY13WdOWO E SES 813NNIY1 3X3WOISS 001083W LC'. L666 WYGlY1lON WON 11OWS 03SOWldllON 1Y D fO #/0 W10 10 #

W3Y01OW 901101NO SOWd' d W % lH 3-91LL OWlll#: 66-09

' " O WlO 9 dll-toL GY13: L0/LE/66

' 7OOY1lON: ' -t WYS MINO YW3V 3YSI-WONllOW W3Y7 OWllT- W3YQIND . WIS031TYN3OnS .' 1Ad3 0d WON 11OW:

lim 3 lim 3 - ) nol/30 .(' N013S 04:99 - + 0:00 L ~003-0E 7OSS od dlOM YW3V O

.t .t t t.' dWOO3SS @

t t. t .i 3dd103N1 O t t- t s t- YOOlO3NI O L0:LS + E:ED L '003-0E 7OSS 03 dlOM t t~ t t YlYWW S31dOINIS:

-t i t t Y7381: E'L 03-OE

t-.. t. t t . HlCH: t*E03-03

.t t .t . t

.t t. t t WONllOW WYND3:

.t t :t t L'003-0910 L'003-02 nol/30 ENO- t t t

. mysu lys wou!loJ is og SOejG y!0 4 oJ lom' nya Jeep!uS m!llJa m elu el 149 nddGJ oJlomaJ teAel o}1ys lus1Jnweul;euos-INd1VN1-EL 1 ,

a MY138dOMO C SBS 813NNIY13X3MOISB 001083M LC'.1666' BYGlY1!ON WONllOHS 03SOWldiloN- 1Y O 1G #/O WlO IG #

S13YW 03N3MY10M dMitiMB-OLOOX 0 817l' #: 66-09 8lOMdoMN 08109

-t MLNO YM3V ' diT-t04 GY13 L0/LE/66 1OOY1lON: -t MYS MINO YM3Y 03N13M WONllOM ,

M3Vl~. 0 8111 M3VQINO WIS03ll'YN3OnS 1Ad3 Od WON 110Bl ignE 1lnE - ) nol/30 -( N013S I

04:99 . ..+ 0:00 NOWWY7 t~L L 3 YM3V O

t. t t t .dMOO3SS- 0 l

?. -t 3ddln3NI t t O l

t t t t YOOlO3NI 0 l

.t - f i f t- t t t YlYMW S31dOINIS:

i f

t t t t Y73M1l L '003-09 l

t t t t HlCH: S'003-09 t t t- t t t t t WONlloM MYND3l 'j.

t t t t l 003-0910 L 003-OL nol/03

~

3NG t t t Myau tye woulloJis og soele yl0y oJ loM' }ya l Jaep!uO Mlll Jawe!u el

)yO nddGJ OJ loMGJ l GAG l O} }49 luS)Jnwaul Jeu 6a-INdlYN1-Z9

i, I. WATERFORD 3 SES BIENNIAL EXERCISE l OCTOBER 13,1999 L

i. RADIATION MONITORS l

l DESCRIPTION . + TAG ID #/ GRID ID #

4- ,

PLANT STACK WRGM PRM-IRE-0110 DRILL #; 99-08

t. GRID 6 LOW RANGE . EGG-514 DATE: 10/13/99 LOCATION: + 46 CENTER WING AREA i ,

+

c- , MONITOR .

I; REAL' DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME : TIME ~ ( - uCi/cc) NOTES 07:55 - + 0:00 5.00E-06 ' NORMAL AREA O 14: -4 4- 4- PROCESS O 08:15 +0:20 5.00E-05 4 EFFLUENT O 08:20 +0:25 5.00E-04 ALERT ALARM ACCIDENT .@

08:30 +0:35 ' ' 5.00E-03 HIGH ALARM 08:35 +0:40 1.82E-02 . 4 ALARM SETPOINTS:

l'

~

4-' 4 4 ALERT: 1.00E-04

"+0:05 5.00E ' HIGH ALARM HIGH: 1.00E-03 j 1

"+0:10 5.00E-04 ALERT ALARM

"+0:15. 5.00E NORMAL MONITOR RANGE:

"+0:20 5.00E-06 4 1.00E-07 TO 1.00E 01 uCi/cc  !

4 4- 4 4 1

11:30 +3:35 1.00E-01 HIGH ALARM " After GDT A leak isolated 11:35 +3:40 1.00E-01 LOSS OF FLOW

' 4' - '4. '4 4 *

~When the rnonitoris off V'Y ENDf -

scale high or low, the reading will remain at i the upper orlower level of the instrument range. l i

INPLANT-29

7

' WATERFORD 3 SES BIENNIAL EXERCISE i OCTOBER 13,1999 RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

l- PLANT STACK WGRM PRM-IRE-0110 DRILL #: 99-08 l . GRID 6 l MID RANGE. EGG-515 DATE: 10/13/99 1

l I

. LOCATION: + 46 CENTER WING AREA MONITOR REAL DRILL READING MISCELLANEOUS ' TYPE OF MONITOR:

TIME TIME ( uCl/cc ) NOTES 07:55 + 0:00 1.00E-04 OFF SCALE LOW AREA O I- 4 4 4 PROCESS O 08:30 +0:35 1.82E-02 NORMAL EFFLUENT O 4 4 4 4 ACCIDENT @

"+0:05 5.00E-03 LOSS OF FLOW 4 4 4 4 ALARM SETPOINTS:

11:30 +3:35 1.00E+02 HIGH ALARM ALERT: 1.00E+00 11:30 +3:35 1.00E+02 OVERRANGED HIGH: 1.00E+01 4 4 4 4 4 4 4 4 MON; TOR RANGE:

4 4 4 4 1.00E-4 TO 1.00E+2 uCi/cc

.END 4 4 4

• • After GDT A leak isolated l

• When the monitoris off scale high or low, the reading will remain at i j the upper or lower level ]

of the instrument range.

I 1

INPLANT-30

L i

MY13BdOMO C SBS 813NNIVl' 3X38OISS t

001083W LC' L666 MYOlY1lON WON 1108S

~ G3SOWldllON 1Y O 10 #/O MIG fO #

d1'VNI SIVOM MMOW dMW-183-OL L 0 0 817l' #: 66-09 08109 f HlCH WYNOB 300 9L9 OV13: L0/L E/66 1 OOY1lON:

WON 110M 83V7 GH171 M3VOINO WIS0371YN3OnS 1Ad3 Od WONllOM:

ilng 1lng )nO!/03( N013S 04:99 + 0:00 L '003-OL 033 SoV73 7OM V83V- 0 t t t t d8Oc3SS O t t t i 3ddln3NI O t, t- t t YODIG3NI @

.I L :SO +E:CS 9793+OL NOWWV7 t =t t t WYHW S31dOIN1S:

t t. t t W 381: L*003+02 t t t t HloH: L '003+0E t t t. t

t. t t t WON 110B WYND3:

3NO L'003-OL 10 L'003+09 nolloc

. Myau tye wouyoJ1s og soeta y!64 oj iom* 1ye Jaep!uS m!li jawe!u el 1ya nddeJ oJlomaJ lana l 0114a !usturwaul Jeu 6a*

INdlYN1-EL i

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

^

DRILL #: 99-08 PLANT STACK WRGM PRM-lRE 0110 GRID 6 DATE: 10/13/99 EFFLUENT LOCATION: +46 CENTER WING AREA MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME ' TIME (uCi/sec) NOTES -

07:55 - + 0:00 2.05E+02 NORMAL AREA O 4 4- 4 4 PROCESS O 08:15 +0:20 2.19E+03 4 EFFLUENT O

-08:20- +0:25 2.19E+04 4 ACCIDENT @

08:25 +0:30 2.19E+05 4 08:30 +0:35 8.00E+05 ALERT ALARM ALARM SETPOINTS:

4' 'l 4 4 ALERT: 4.00E+05

"+0:05 2.19E+05 NORMAL HIGH: 1.82E+06

"+0:10 2.19E+04 4

"+0:15 '

2.19E+03 4 MONITOR RANGE:

"+0:20 2.19E+02 1.23E+0 to 1.23E+12 uCi/sec

.' 4 4 4 4 11:30 +3:35 2.48E+06 HIGH ALARM " After GDT A leak isolated 4 4 4 4 END

• When the monitor is off scale high or low, the reading will remain at the upper or lower level of the instrument range.

I INPLANT-32

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

DRILL #: 99-08 l HVAC CENTER WING +46 ARM-IRE-5200 GRID 6 DATE: 10/13/99 ,

AAA-548 l

1 l

LOCATION: +46 IRAB CENTER WING AREA MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME (mR/hr) NOTES 07:55 + 0:00 8.47E+00 NORMAL AREA O 4 4 4 4 PROCESS O 4 4 4 '4 EFFLUENT C 4 4 4 4 ACCIDENT C )

11:30 + 3:35 1.50E+01 INCREASING 11:35 + 3:40 1.00E+02 STABILIZES ALARM SETPOINTS:

1 4 4 1 ALERT: 2.00E+02 l 4 4 4 4 HIGH: 1.00E+03 l 4 4 4 4 END MONITOR RANGE:

10 to 1.00E+07 mR/hr j When the monitor is off scale high or low, the reading will remain at the upper or lower level of the instrument range.

INPLANT-33

F WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

DRILL #: 99-08 PASS CONTROL PANEL AREA ARM-IRE 5204 GRID 6 DATE: 10/13/99 ,

+21 RAB AAA 549 l l

l LOCATION: +21 RAB "B" SWITCHGEAR ROOM MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME (mR/hr) NOTES 07:55 + 0:00 8.19E+00 NORMAL AREA O

'4 4 4 4 PROCESS O 4 4 4 4 EFFLUENT O 4 4 4 4 ACCIDENT @

4- 4 4 4 4 4 4 4 ALARM SETPOINTS:

4 4 4 4 ALERT: 2.00E+02 4 4 4 4 HIGH: 1.00E+03 END MONITOR RANGE:

10 to 1.00E+07 mR/hr ,

i l

When the monitor is off scale high or low, the reading will remain at the upper or lower level of the instrument range.

INPLANT-34

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

DRILL #: 99-08 SIS SUMP ARM-IRE-5202

-35 WING AREA GRID 6 DATE: 10/13/99 AAA 553 LOCATION: -35 RAB CENTER WING AREA MONITOR REAL DRILL READifJG MISCELLANEOUS TYPE OF MONITOR:  !

TIME TIME (mR/hr) NOTES I 07:55 + 0:00 8.13E+00 NORMAL AREA O 4 4. 4 4 PROCESS O 4 4 4 4 EFFLUENT O 4 4 4 4 ACCIDENT @

4 4 4 4 RAS @ 1.00E+05 HIGH ALARM ALARM SETPOINTS:

4 4 4 4 ALERT: 2.00E+02 4 4 4 4 HIGH: 1.00E+03 4 4 4 4 END MONITOR RANGE:

10 to 1.00E+07 mR/hr When the monitor is off scale high or low, the reading will remain at the upper or lower level of the instrument range.

@ Reading upon intiation of RAS, approximately 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> aRer SIAS l

t INPLANT-3f,

o l MV138dOBO E SBS 813NNIVl 3X3MOIS3 0010838 LE' L666 j

W01V1lON WON 1108S G3SOWldllON 1YO 10 #/0810 fO #

0 8117 #: 66-09 d3WSONN31VlB 700f> VMW-IM3-92OL

-t WS 08109 OY13: L0/L C/66 VVV-994 7OOY1lON: -F WO MINO V83V OniSIG3 OONIVINW3NI WONllOW 83V7 G8171 M3YOINO WIS031TYN3OnS 1Ad3 Od WON 1108:

liW3 liW3 )ww/yJ( N013S '

04:99 + 0:00 8'L63+00 N O B W Vl- YM3V O t t t t duOO3SS O i t t t 3ddin3NI O t i t t YOOIG3N1 @

i i i t t t t t YlYHW S31dOINIS: l t t t t Y1381: z'003+02 t t t t HloH: L003+0E i t t- i WS @ 9'003+09 HlOH YlYWW WON 110B WND3:

l

.t t t i LO fo t'003+01 wB/yJ ENO Mysu )ya wou!loJ!s og soele yt6y oJ lom* iga Jaep!uS m!ll Jamelu el lys nddaJ oJ tomaJ lanot ojlys lus1Jnwaul Jeu 6a*

@ uaep!uS ndou !u1!e)!ou 01WS' eddJoxrwelaiX g yonJs eyaJ SlYS INdlYN1-E9

I WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

DRILL #: 99-08 MAIN STEAM LINE A PRM-lRE 5500A

+46 WEST WING GRID 6 DATE: 10/13/99 MSA-559 LOCATION: +46 RAB WEST MSIV ON STEAM LINE MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME (mR/hr) NOTES 07:55 + 0:00 3.90E-01 NORMAL AREA O 4 4 4 4 PROCESS @

4 4 4 4 EFFLUENT O 4 4 4 4 ACCIDENT @

4 4 4 4 l

4 4 4 4 ALARM SETPOINTS:

4 4 1 4 ALERT: 1.50E+00 l 4 4 4 4 HIGH: 2.00E+00 END MONITOR RANGE:

1.00E-01 to 1.00E+04 When the monitor is off scale high or low, the reading will remain at the upper or lower level of the instrument range.

INPLANT-37

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 I

RADIATION MONITORS DESCRIPTION TAG ID #/ GRID ID #

DRILL #: 99-08 MAIN STEAM LINE E PRM-IRE-5500B

+46 EAST WING GRID 6 DATE: 10/13/99 MSA 560 LOCATION: +46 RAB EAST WING ON STEAM LINE MONITOR REAL DRILL READING MISCELLANEOUS TYPE OF MONITOR:

TIME TIME ' (mR/hr) NOTES 07:55 + 0:00 3.90E-01 NORMAL AREA O )

4 4 4 4 PROCESS @

4 4 4 4 EFFLUENT O

'l 1 4 4 ACCIDENT @

4 4 4 4 4 4 4 4 ALARM SETPOINTS:

4 4 4 4 ALERT: 1.50E+00 4 4 4 4 HIGH: 2.00E+00 END MONITOR RANGE:

1.00E-01 10 1.00E+04 When the monitoris off.

scale high or low, the reading will remain at the upper or lower level of the instrument range.

I INPLANT-38 I

L

j l

l MY138dOBO E SBS 813NNIV7 SX3HCIS3 i

001083M LC' L666 1

l MYGIV1lON WONllOMS '

G3 SOW!dllON 1VO IG #/981G lG #

l 0 8117 #: 66-09 808 HlOH MYNOB V V8ltiM3-9t0OYS

+66 OONIVINW3N1 ' OMIG 9 GV13: L0/L C/66 OVS-99L 7OOY1lON: +66 OON1YINW3NI WON 1108 83Y1 GB11T 83YGINO WIS03ll'VN3OnS 1Ad3 03 WONllOM:

liWE liW3 )B/4J.( N013S 04:99 + 0:00 9 903 OL NOHWVl V83V O t

t t t dWOD3SS O t t t t 3ddI n3NI O t t t t YODIGENI @

i t t t t t t t Y1YMW S31dOIN1S:

t t t t V73M1: 9'003+02 t t t t HlCH: S'003+0C L2:00 + t:09 L '903+09 HlOH YlYHW t -t t t WONllOH MYNO3:

f f .t t L'010 L'003+09 W/4J t t t t 3NG

. yyyonoy ;sep!uO !s 8/HB' lup!oelap ou MW-t L ;;( nups oj ulB/yJ I

INd7VN1-06

J_-

MV138d080 C SBS 813NNIVl 3X3WOISB 001083M LC' L666 MYGlY1loN WON 1108S G3SOWldllON 1YO IG #/0810 IG #

0 8171 #: 66-09 809 HlOH WYND3 9 VMW-IM3 99009S

+66 OON1YINW3NI OMIO 9 OY13: 10/L E/66 OYS-99E l

7OOY1lON: +66 OONIVINWEN1 WON 1108 M3Y1 0 8171" 83YGINO WIS0371YN3OnS 1Ad3 Od WONllOH:

liW3 liW3 )8/4J.( N013S 04:99 + 0:00 L'Et3+00 NOHWY7 V83V O t t t t dwOO3SS O t t t t 3ddlO3NI O t t t t YOOIGENI @

t t t t f f i t YlVMW S31dOiNIS:

LE:00 +t:09 L703+09 HlOH Yl"YWW V73W1: 9'003+03 t t t t

~

HlOH: 9'003+0E t t t t t t t t WON 11OW MYNO3:

ENG t'O lo I'003+09 M/yJ

, yyyon64 faep!uB !s M/HB'

!up!oelep ou lys MW-L L lu nuus oj wM/yJ l

iNdiVN1 rtO

l' 1

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBEF, .13,' .1999 l

PLANT SURVEY DATA SHEETS i

.I i

l l

l l

1

. INPLANT 41

RAB ROOF EL. 69 HP-SM-02 WATERFORD 3 SITE DRILL #

SITE DRILL 99-08 RAB ROOF EL. 69 -./- -/ __!

~ g FEEDWATER x

l l,

l%s MAIN SHAM REACTOR BUILDING PLANT ST K h N I C MAIN STEAM 1

D DWATER

%- i -i TIME POINT 1 POINT 2 POINT 3 ' POINT 4 POINT 5 COMMENTS 1130 4 5 R/hr 2.0 R/hr .200 mR/hr Point 1 is on contact with Plant Stack.

Point 2 is at 3 feet from Stack.

Point 3 is 10 feet from Stack.

INPLANT-42

l HP M1-0J RADIA TION / CONTAMINA TION SURVEY RECORD l HPsn y %lllllllllllli RAB +46 EL.

h h HEATING & VENTILATION ROOM  !

CAA ssvs ;r_

RM UNIT -B' CVAS SYSTEM O

r i

\/

11

-h@

i d

FILTER RAB MAIN EXHAUST SYSTEM D & Rs CTMT PURGE

)

D -

O ,

I'l ll WATER WATER Cg [gl.ER Cg g4ER

{

GIL' gGIL l El

.I.

di GI. O t sys C UNIT *A' [7m i

- Og WATER

..~nn.. CAA RM

{

2:5 -

g" y .3 sav Rn sUPLY 4 sYsTE.

i TIME POINT 1 POINT 2 POINT 3 POINT 4 POINT 5 COMMENTS 1130 2.0 R/hr 5IWr 2 mR/hr 2.0 R/hr 5 R/hr Points 1 and 4 are ~1 Ft from SBVS Units.

1145 10 R/hr 20 R/hr 10 mR/hr 10 R/hr 20 R/hr Po nts 2 and 5 are on contact with SBVS. I i

1200 20 R/hr 50 R/hr 200 mR/hr 20 R/hr 50 R/hr INPLANT 43 1

l IIP.Gi M RADIA TION / CONTAMINA TION SURVEY RECORD l HPs#

RAB +46 "

CENTER WING '

~

] I

=0 Oi F-u )

ll h PLANT STAC MONITOR

• 1 O

i O

]

1 TIME POINT 1 POINT 2 POINT 3 POINT 4 POINT 5 COMMENTS 1130 5 60 200 Point 2 is the Plant Stack sample point.

I145 10 120 350 Point 3 is below the Plant Stack piping.

1F 1F 1F 1F 1

INPLANT-44

1 1

I

+ 21 RAB COMPONENT COOLING WATER HEAT EXCHANGERS HP-SM-20 WATERFORD 3 SITE DRILL # l l l DRILL 99-08

)

b 8

@ S l

e e

• _ O " ^ *  !

{

q

+ 21 RAB -

B COMPONENT ._

COOLING -

WATER HEAT '

EXCHANGERS l

e e o .

Q U B t t

-J (-

TNE POINT 1 POINT 2 POINT 3 POINT 4 POINT 5 COMMENTS Stan <2 <2 0845 - Gas Surge Tank Relieflifts 0845 10 75/30 I

INPLANT-45 l

I

r.-

l

(

RAB + 21 HOLD UP TANK ROOMS HP-SM-24 WATERFORD 3 SITE DRILL #

DRILL 99-08 l

RAB +21 HOLD UP TANK ROOMS A

y u

X '

!u "

, .i_

,,_., J bren via ann [ft G G HOLD Up HOLD U TANK"C' I  ! TANK"D" RA ' RL

[ [ j y { l[ [ -

g I I E QI HOLD Uf HOLD UP TANK"A' TANK"B" Q

A=:7 A;;=;;r i

_ _ _ _ l TIME POINT 1 POINT 2 POINT 3 POINT 4 POINT 5 COMMENTS l Start 10 10 10 10 25/10 Point 5 is the HUT Vent to Stack piping.

0845 50 50 50 50 M5 1(HW 15 15 15 15 35/15 l INPLANT-46

i H P-S M-79 RADIATION / CONTAMINATION SURVEY RECORD l HPsn A,  !

/ r f -

lN. 1 Dn no .

~

n- .:.

I i

! I m

- ] '

E-RAB +21 EAST WING g g b I l' b- @o b I aG O

_f h~

TIME POINT 1 POINT 2 POINT 3 POINT 4 POINT 5 COMMENTS 0800 y gg 2N 80 85 1030 <2 5/2 <2/<2 6/2 6/2 End <2 2/<2 <2/<2 4/<2 4/<2 Z

INPLANT-47

I H P-9 M.17 RADIA TION / CONTAMINA TION SURVEY RECORD l HPs#

I .,_

RAB -4 RADIOCHEMISTRY LAB l -:-

GAS FUME .

' ANALYZER HOOD ROOM

/ \ i P

y 4 _l I I -l l Z

g

_-0 _

O nausua g ._

n ><t I at ,

W HRA, TSMR l

,/

A5 l N g 4 K

L TIME POINT 1. POINT 2 POINT 3 POINT 4 POINT 5 COMMENTS 0800 2' 5 15 400/140 50W150 Point 4 is contact with sink.

Point 5 is sink drain line.

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 METHODOLOGY ND ASSUMPT!ONS USED FOR CHEMISTRY DATA CALCULATIONS

1. The plant is operating at 100% power at the middle of core life.

2. DEI has been trending up for the last three days. Chemistry has been sampling the RCS for DEI every 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />. The last sample analyzed was taken at 04:00 on 10/13/99 and indicated a DEI of 9.2E-01 pCi/gm.

3. Boron concentrrJion is assumed to be 874 ppm. Boron concentration will depend on reactor power and opermRT actions. Actual Boron concentrations will be obtained from the Simulator.

4.: The Steam Generators will have no activity throughout the Exercise.

5. At 08:00, sample results are reported to the Control Room indicating DEI has exceeded Technical Specification 3.4.7 limits. The 0800 - 1030 chemistry isotopic data is based upon FSAR Table 11.1-3 " Average Reactor Coolant Radioisotopic Concentration". This data is for approximately 0.1% failed fuel. The iodine concentrations are adjusted to achieve a j Dose Equivalent lodine concentration of 1.05 uCilgm in order to reach the Unusual Event i threshoic.

6. At 08:15, a Gas Decay Tank leak occurs resulting in a release to the atmosphere. The Gas Decay Tank data was manipulated to add an iodine concentration to the tank that will approximately match the gas decay tank components to the plant stack data during the release.

7. At 10:15, a LOCA occurs. The 1030 data is based upon the initial data and was manipulated to increase the del to 1.34 uCi/gm and also to increase the Gross Activity total to > 50 uCi/cc in order to provide the necessary source term for containment following the e LO,CA. Tha subsequent RCS data was based upon a 5%/ hour increase over time.

8 The following data is included in this package:

. Reactor Coolant System Isotopic Chemistry Data.

. Gas Decay Tank "A" gamma spectroscopy sample results taken after the leak occurs.

. Plant Stack grab sample results taken during the Gas Decay Tank Release.

I i

i l

CHEM-1 l i

i

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 CHEMISTRY CUE CARD

. TO; CHEMISTRY PARTICIPANTS CUE CARD NO. ONE FROM: CHEMISTRY CONTROLLER TIME: 0800-1030 Initial: SAMPLING TIME:

SAMPLE ID: Reactor Coolant System Gross Activity X Sample size X 7.8 E-3 = Dose Rate @ 1" GAMMA SAMPLE DOSE RATE: pCi/gm(ce) X gm(cc) X 7.8 E-3 = (mr/hr)

BETA SAMPLE DOSE RATE: gamma X 1.5 = (mr/hr)

BORON (ppm) 874 H2 (cc/Kg) 34 Dis 02 (ppm) < 0.002 pH 6.3 Li (ppm) _ 2.28 Other SPECIFIC ACTIVITY: pCl/gm(cc)

Gross Activity 2.96E+01 Te-127 1.27E-03 Kr-85m 1.39E-01 i del-131 1.05E+00 Te-129 2.09E-03 Kr-85 2.90E-01 Cr 51 3.61 E-03 1-130 3.24E-03 Kr 87 7.58E-02 j Mn-54 5.93E-04 Te-131m 4.19E-03 Kr-88 2.53E-01 l Fe-59 3.06E-03 Te-132 4.65E-02 Kr-89 6.31E-03 Co-58 1.90E-03 1-131 7.61E-01 Xe-131m 1.53E-01 Co-60 3.05E-02 1-132 2.01 E-01 Xe-133m 2.84E-01 l Np-239 3.83E-03 1-133 9.29E-01 Xe-133 2.39E+01 Br-83 6.45E-03 1-134 9.14E-02 Xe-135m 1.64E-02 Rb-86 1.50E-04 l-135 4.13E-01 Xe-135 4.44E-01 Y-91 3.81E-03 Cs-134 4.47E-02 Xe-137 1.14E-02 Mo-99 8.02E-01 Cs-136 2.27E-02 Xe-138 5.56E-02 Tc-99m 5.44E-01 Cs-137 ' 3.22E-02 Te-127m - 5.35E-04 Ba-137m 2.02E-02 COMMENTS:  ;

CHEM-2

E WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 t'

CHEMISTR'Y CUE CARD TO: CHEMISTRY PARTICIPANTS CUE CARD NO. TWO FROM: CHEMISTRY CONTROLLER TIME: 1030-1100 initial: SAMPLING TIME:

SAMPLE ID: Reactor Coolant System Gross Activity X Sample Size X 7.8 E 3 = Dose Rate @ 1" 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)

BORON (ppm) 874 H2 (cc/Kg) 34 Dis 02 (ppm) < 0.002 pH 6.3 Li(ppm) 2.28 Other SPECIFIC ACTIVITY: pCi/gm(cc)

Gross Activity . - 5.48E+01 Te-127 2.41 E-03 Kr-85m 2.64E-01 del-131 1.34E+00 Te-129 3.97E-03 Kr-85 5.50E-01 Cr-51 6.86E-03 1-130 6.16E-03 Kr-87 1.44E-01 Mn-54 1.13E-03 Te-131m 7.96E-03 Kr-88 4.81 E-01 Fe 59 5.81E 03 Te-132 8.84E-02 Kr-89 1.20E-02 Co-58 3.61 E-03 1-131 9.63E-01 Xe-131m 2.91 E-01 Co-60 5.80E-02 1-132 2.55E-01 Xe-133m 5.40E-01 l Np-239 7.28E-03 1-133 1.18E+00 Xe-133 4.54E+01 Br-83 1.23E-02 1-134 1.16E-01 Xe-135m 3.12E-02 Rb-86 2.85E l-135 5.23E-01 Xe-135 8.43E-01 Y-91 7.24E-03 Cs-134 8.49E-02 Xe-137 2.16E-02 l Mo-99 1.52E+00 Cs-136 4.31E-02 Xe-138 1.06E-01 '

. Tc-99m 1.03E+00 Cs-137 6.12E-02 ,

Te-127m 1.02E-03 Ba-137m 3.84E-02 i

COMMENTS' l l

t ]

CHEM-3 m

p i

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 CHEMISTRY CUE CARD

, TO: CHEMISTRY PARTICIPANTS CUE CARD NO. THREE FROM: CHEMISTRY CONTROLLER TIME: 1100-1200

. Initial: SAMPLING TIME:

SAMPLE ID: Reactor Coolant System Gross Activity X Sample Size x 7.8 E-3 = Dose Rate @ 1" GAMMA SAMPLE DOSE RATE: pCi/gm(cc) X gm(ce)'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: pCi/gm(cc)

Gross Activity 5.75E+01 Te-127 2.53E-03 Kr-85m 2.785-01 del-131 1.41 E+00 Te 129 4.17E-03 Kr-85 2.78E-01 Cr-51 7.20E-03 1-130 6.46E-03 Kr-87 1.51 E-01

' M n-54 1.18E-03 Te-131m 8.36E-03 Kr-88 5.05E-01

.Fe 59 6.10E-03 Te-132 9.28E-02 Kr-89 1.26E-02 Co-58 3.79E-03 1-131 1.01 E+00 Xe-131m 3.06E-01 Co-60 6.08E-02 1-132 2.67E-01 Xe-133m 5.67E-01 Np-239 7.64E-03 1-133 1.23E+00 Xe-133 4.77E+01 Br-83 1.29E-02 1-134 1.21E-01 Xe-135m 3.28E-02 Rb-86 2.99E-04 - l-135 5.49E-01 Xe-135 8.86E-01 Y-91 7.60E-03 Cs-134 8.92E-02 Xe-137 2.27E-02 Mo-99 1.60E+00 .Cs-136 4.53E-02 Xe-138 1.11 E-01 Tc-99m 1.09E+00 Cs-137 6.42E-02 Te-127m 1.07E-03 Ba-137m 4.03E-02 COMMENTS:

CHEM-4

WATERFORD 3 SES BIENNIAL hXERCISE OCTOBER 13,1999 CHEMISTRY CUE CARD TO: CHEMISTRY PARTICIPANTS CUE CARD NO. FOUR FROM: CHEMISTRY CONTROLLER TIME: 1200-1300 initial: SAMPLING TIME:

SAMPLE ID: Reactor Coolant System Gross Actmty X Sample Size X 7.8 E-3 = Dose Rate @ 1" GAMMA SAMPLE DOSE RATE: pCi/gm(cc) X gm(cc) X ," F 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: Cl/gm(cc)

Gross Activity 6.04E+01 Te-127 2.66E-03 Kr-85m 2.92E-01 del-131 1.48E+00 Te-129 4.38E-03 Kr-85 6.07E-01 Cr-51 7.56E-03 1-130 6.79E-03 Kr-87 1.59E-01 Mn-54 ~ 1.24E-03 Te-131m 8.78E-03 Kr-88 5.30E-01 Fe-59 6.41 E-03 Te-132 9.74E-02 Kr-89 1.32E-02 Co-58 3.98E-03 1-131 1.06E+00 Xe-131m 3.21 E-01 Co-60 6.39E-02 1-132 2.81E-01 Xe-133m 5.96E-01 Np-239 8.02E-03 1-133 1.30E+00 Xe 133 5.01E+01 Br 1.35E-02 1-134 1.28E-01 Xe-135m 3.44E-02 Rb-86 3.14E-04 l-135 ' 5.TdE-L1 Xe-135 9.30E-01 Y-91 7.98E Cs-134 9.36E-02 Xe-137 2.38E-02 Mo 1.68E+00 Cs-136 4.76E-02 Xe-138 1.16E-01 Tc-99m 1.14E+00 Cs-137 6.75E-02 Te-127m 1.12E-03 Ba-137m 4.23E-02 COMMENTS:

CHEM-5

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 CHEMISTR'Y CUE CARD TO: CHEMISTRY PARTICIPANTS CUE CARD NO. FIVE FROM: CHEMISTRY CONTROLLER TIME: 1300-1400 Initial: SAMPLING TIME:

SAMPLE ID: Reactor Coolant System Gross Activity X Sample Size X 7.8 E-3 = Dose Rate @ 1" 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)

BORON (ppm) H2 (cc/Kg) Dis 02 (ppm) "

pH "

Li (ppm) Other i SPECIFIC ACTIVITY: Ci/gm(cc)

Gross Activity 6.34E+01 Te-127 2.79E-03 Kr-85m 3.06E-01 l

del-131 1.55E+00 Te-129 4.60E-03 Kr-85 6.37E-01 Cr 51 7.94E-03 1-130 7.13E-03 Kr-87 1.67E-01 Mn-E4 1.30E-03 Te-131m 9.22E-03 Kr-88 5.56E-01 Fe-59 6.73E-03 Te-132 1.02E 01 Kr-89 1.39E-02 Co-58 4.18E-03 1-131 1.12E+00 Xe-131m 3.37E-01 Co-60 6.71 E-02 1-132 2.95E-01 Xe-133m 6.26E-01 Np-239 8.42E-03 1-133 1.36E+00 Xe-133 5.26E+01 Br-83 1.42E-02 .

1-134 1.34E-01 Xe-135m 3.61 E-02 Rb-86 3.30E-04 l-135 ,6.05E-01 Xe-135 9.76E-01 Y-91 8.38E-03 Cs-134 9.83E-02 Xe-137 2.50E-02 Mo-99 1.76E+00 Cs-136 4.99E-02 Xe-138 1.22E-01 Tc-99m 1.20E+00 Cs-137 7.08E-02 Te-127m 1.18E-03 Ba-137m 4.44E-02 COMMENTS:

)

CHEM-6

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 CHEMISTR'Y CUE CARD TO: CHF.MISTRY PARTICIPANTS CUE CARD NO. SIX FROM: CHEMISTRY CONTROLLER TIME: 1400-1500 Initial: SAMPLING TIME:

SAMPLE ID: Reactor Coolant System '

Gross Activity X Sample Size X 7.8 E-3 = Dose Rate @ 1" 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)

BORON (ppm) . H2 (cc/Kg) -

Dis 02 (ppm) "

pH **

l 1

Li (ppm) Other SPECIFIC ACTIVITY: pCi/gm(cc)

Gross Activity 6.66E+01 Te-127 2.93E-03 Kr-85m 3.21 E-01 del-131 1.63E+00 _

Te-129 4.83E-03 Kr-85 6.69E-01

. Cr-51 8.34E-03 1-130 7.48E-03 Kr-87 1.75E-01 l

Mn-54 1.37E-03 Te-131m 9.68E-03 Kr-88 5.84E-01 i Fe-59. 7.07E-03 Te-132 1.07E-01 Kr-89 1.46E-02 Co-58 4.39E-03 1-131 1.17E+00 Xe-131m 3.54 E-01 Co-60 7.04E-02 1-132 Xe-133m 6.57E-01

_3.09E-01 Np-239 8.85E-03 ' l-133 1.43E+00 Xe-134 5.52E+01 Br-83 1.49E-02 1-134 1.41 E-01 Xe-135m 3.79E-02 Rb-86 3.46E-04 l-135 6.35E-01 Xe-135 1.03E+00 _

Y-91 8.80E-03 Cs-134 ,1.03E-01 ' Xe-137 2.63E-02 Mo-99 1.85E+00 Cs-136 5.24E-02 Xe-138 1.28E-01

, Tc-99m 1.26E+00 Cs-137 7.44E-02 Te-127m 1.24E-03 Ba 137m 4.67E-02

~ COMMENTS:

CHEM .

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 CHEMISTRI CUE CARD TO:' CHEMISTRY PARTICIPANTS CUE CARD NO. SEVEN FROM: CHEMISTRY CONTROLLER TIME: 1500-END Initia!: SAMPLING TIME:

SAMPLE ID: Reactor Coolant System 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: pCi/gm(cc)

Gross Activity 6.99E+01 Te-127 3.08E-03 Kr-85m 3.38E-01 del-131 1.71 E+00 Te-129 5.07E-03 Kr-85 7.02E-01 Cr-51 8.75E-03 1-130 Kr-87 1.84E-01

_7.86E-03 M>54 1.44E-03 Te-131m 1.02E-02 Kr 88 6.13E-01 Fe-59 7.42E-03 Te-132 1.13E-01 Kr-89 1.53E-02 Co-58 4.61E-03 1-131 1.23E+00 Xe-131m 3.72E-01 Co-60 7.40E-02 1-132 3.25E-01 Xe-133m 6.90E-01 Np-239 9.29E-03 1-133 1.50E+00 Xe-133 5.80E+01 Br-83 1.56E-02 1-134 1.48E-01 Xe-135m 3.98E-02 Rb-86 3.64E-04 l-135 6.67E-01 Xe-135 1.08E+00 Y 9.24E-03 Cs-134 1.08E-01 .Xe-137 2.76E-02 Mo 99 1.94E+00 Cs-136 5.50E-02 Xe-138 1.35E-01 Tc-99m 1.32E+00 Cs-137 7.81 E-02 Te-127m - 1.30E-03 Ba-137m 4.90E-02 COMMENTS:

CHEM-8

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 l.

s -

i l

l GAS DECAY TANK "A" GAMMA SPECROSCOPY SAMPLE RESULTS i;. ,

CHEM-9 l

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RTYPE K 2.22 GAS DECAY TANK "A" e eeeeee...eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeees

• . WATERFORD !!!

EFFLUENT

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Reviewed by:_ Joe Chemist

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• Remarks Drill Sample *

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Spectrum And Results Stored Under: XXXX l

' I MCA Start Date: 10/13/99 02:30 FINAL ACTIVITY REPORT Nuclide Conc. DAC/MPC FRAC 1 Xe-133 - 2.54E+01 Kr-85m 2.59E-01 Xc-131m 2.63E-01 Xe-133m <2,70E-08 Xe-135' l.02E+00

~ Ar-41 <2.70E-08 Kr-88 4.49E-01 Xc-138 6.14E-02 Kr-87 1.39E-01

- Kr-85 5.64E-01 Xe-135m 1.21E-01 1-131 1.58E 03 1-133- 1.93E-03 1-135 9.01E-04 Total: 2.83E+01 CHEM-10

5 WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 l

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PLANT STACK -

GAMMA SPECTROSCOPY GRAB SAMPLE RESULTS i

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PLANT STACK DURING HIGH ALARM

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WATERFORD 111

• EFFLUENT

• GAMMA SPECTROSCOPY RESULTS Reviewed by: ___ Joe Chemist

• < Remarks: Drill Sample

• Spectrum And Results Stored Under: XXXX

'MCA Stan Date: 10/13/99 FINAL ACTIVITY REPORT Nuclide Conc. DAC/MPC FRAC Xc-133 1.64E-02 Kr-85m 1.67E-04 Xe-131m 1.70E-04 )

Xe-133m -

<2.70E-08 I Xe-135 6.58E-04 Ar-41 <2.70E-08 Kr-88 2.90E-04 Xe-138 3.%E 05 ,

Kr-87 8.97E-05 i Kr-85 3.64E-04 Xe-135m 7.81E-05 1-131 9.84E 07 l133 1.24E-06  !

l-135 5.80E-07 Total: 1.83E-02 3 CHEM-12

=

p 1

WATERFORD 3 SES BIENNIAL $XERCISE OCTOBER 13,1999 METEORLOGICAL SCEN'ARIO OUTLINE AND DATA The meteorological scenario selected for the Waterford 3 SES 1999 Biennial Exercise has been prepared to meet the overall objectives of the exercise.

I The meteorological scenario assumes winds from the south (176 degrees) at 7.5 miles per hour and slightly unstable meteorological conditions (Stability Class C) until 11:30 am.

At 11:30 am, the wind shifts toward the west (from 190 degrees) and the wind speed increases to 8 miles per hour. The Stability Class changes to category F.

At 12:45, the wind shifts again toward the west (from 198 degrees). The wind speed and Stability Class remain at 8 miles per hour and category F. These conditions remain stable throughout the remainder of the exercise.

The choice of this meteorology provides for the desirable measurable lovels of radiation downwind to meet offsite objectives.

The meteorological data presented in this section includes:

i

1. Simulated general forecasts from the National Weather Service i

2. Simulated computer printouts from the plant's meteorological system. j MET-1 l

1

1 f

-WATERFORD'3 SES BIENNIAL EXERCISE OCTOBEf313,1999 ya O

SIMULATED WEATHER FORECASTS PROVIDED BY THE NATIONAL WEATHER SERVICE e

i 0

9 9

. MET-2 i I

I-

- WATERFORD 3 SES BIENNIAL EXERCISE

' OCTOBER 13,1999'

^

i Simulated Forecast Provided By The NJonal Weather Service for Wednesday, October 13,1999 TIME: 07:30 - 11:30

- The extended forecast for the New Orleans area and southeast Louisiana is as follows:

For Wednesday, October 13,1999, morning lows are in the middle to upper 50's; afternoon highs will be in the mid to upper 70's. Chances for rain are less than 10%, increasing to 20% in the afternoon. Skies are clear, with winds up to 10 miles per nour from the south. Conditions are slightly unstable. A change in winds to a more westerly flow is likely later today or

- tomorrow.

i M ET l 3

mA

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

• Simulated Forecast Provided By The National Weather Service for Wednesday, October 13,1999 TIME: 11:30 - 12:45 1

The extended forecast for the New Orleans area and southeast Louisiana is as follows-1 For Wednesday, October 13,1999, morning lows are in the middle to upper 50's; afternoon l highs will be in the mid to upper 70's. Chances for rain are less than 10%, increasing to 20% in i the afternoon. ' Skies are clear, with winds up to 10 miles per hour from the south. Conditions are stable. A change in winds to a more westerly flow is likely later today or tomorrow.

i I

l MET-4 U

WATERFORD 3 SES BIENNIAL EXERCISE l OCTOBER 13,1999 L

Simulated Forecast l Provided By The

! National Weather Service for Wednesday, October 13,1999 TIME: 12:45 - END The extended forecast for the New Orleans area and southeast Louisiana is as follows:

For Wednesdsy, October 13,1999, afternoon highs expected to be in the mid to upper 70's.

Chances for rain are 20% this afternoon increasing to 30% this evening. Skies are clear with winds up to 10 miles per hour from the south-southwest. Conditions are stable. Winds still continue to become more westerly in the next 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br />.

l MET-5

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 07:30 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC j l

PRI TWR 33 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR j BKUP TWR 33 FT WIND DIR (FROM) 176.3 DEGR 176.1 DEGR

- PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRI TWR 199 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR  ;

PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP TWR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR PRI TWR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR PRI TWR DIF TEMP "A" -0.80 DEGC -0.80 DEGC PRI TWR DIF TEMP *B" -0.81 DEGC -0.81 DEGC BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN o l STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE Y- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLE 270 90 N- F MODERATELY STABLE N- G EXTREMELY STABLE l 1

l MET-6

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC).

TIME: 07:45 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC PRI TWR 33 FT WIND DIR (FROM) . _ 176.0 DEGR 176.0 DEGR BKUP TWR 33 FT WIND DlR (FROM) ' 176.3 DEGR 176.1 DEGR PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRI TWR 199 FT WIND DlR (FROM) 176.0. DEGR 176.0 DEGR PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP TWR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR PRl1WR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR PRI TWR DIF TEMP "A" -0.80 DEGC -0.80 DEGC PRI TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN 0

STABILITY. CLASS '

N- A EXTREMELY UNSTABLE

- N- - B MODERATELY UNSTABLE Y .C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLE -f 270 90 N- - F MODERATELY STABLE

. N- '.G EXTREMELY STABLE MET-7.

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 08:00

)

l lNSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC PRI TWR 33 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 176.3 DEGR 176.1 DEGR PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC 4 PRI TWR 199 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP 1WR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR PRI TWR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR PRI TWR DIF TEMP "A" -0.80 DEGC -0.80 DEGC PRI TWR DIF TEMP *B" -0.81 DEGC -0.81 DEGC i BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC i PRI PRECIPITATION 0.00 N/A 'O.00 INCH /15 MIN l

STABILITY CLASS I

N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE Y- C SLIGHTLY UNSTABLE  ;

N- D NEUTRAL f N- E SLIGHTLY STABLE 270 90 l

N- F MODERATELY STABLE N- G EXTREMELY STABLE I

180 180 MET-8

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METNOROLOGICAL DATA (MARMOND1 MIM'C)

TIME: 08:15 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC PRI TWR 33 FT WIND DlR (FROM) 176.0 DEGR 176.0 DEGR BKUP TWR 33 FT WIND DlR (FROM) 176.3 DEGR 176.1 DEGR PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRI TWR 199 FT WIND DIR (FROM) - 176.0 DEGR 176.0 DEGR PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP TWR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR PRI TWR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR PRI TWR DIF TEMP "A" -0.80 DEGC -0.80 DEGC PRI TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC PRI PRECIPITATION ,

0.00 N/A 0.00 INCH /15 MIN O

STABILITY CLASS l N- A EXTREMELY UNSTABLE l N- B MODERATELY UNSTABLE j Y- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLE 270 90 N- F MODERATELY STABLE N- G EXTREMELY STABLE 180 MET-9

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC) 1 TIME: 08:30 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC - 3.40 M/SEC PRI TWR 33 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 176.3 DEGR 176.1 DEGR i

PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRIlWR 199 FT WIND DlR (FROM) 176.0 DEGR 176.0 DEGR PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP TWR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR PRI TWR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR PRI TWR DIF TEMP."A" -0.80 DEGC -0.80 DEGC PRI TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN o

STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE Y- C SLIGHTLY UNSTABLE N- D NEUTRAL i N- E SLIGHTLY STABLE 270 90 I N- F MODERATELY STABLE N- G EXTREMELY STABLE 180 i

l MET-10 i

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999

~

SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 08:45 INSTANTANEOUS 15 MIN. AVG.

PRl1WR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC

- PRI TWR 33 FT WIND DlR (FROM) 176.0 DEGR 176.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 176.3 DEGR 176.1 DEGR PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRI TWR 199 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP TWR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR PRI TWR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR PRI TWR DIF TEMP "A" -0.80 DEGC -0.80 DEGC PRl.TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN o

STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE Y- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLE 270 90 N- F MODERATELY STABLE N- G EXTREMELY STABLE.

180 MET-11

r WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 09:00 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC ,

. PRI TWR 33 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 176.3 DEGR 176.1 DEGR 1

PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRI TWR 199 FT WIND DlR (FROM) 176.0 DEGR 176.0 DEGR PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR .

BKUP TWR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR PRI TWR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR PRI TWR DIF TEMP "A" -0.80 DEGC -0.80 DEGC PRI TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN 0 l STABILITY CLASS  !

N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE ,

Y- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLE 270 90  ;

N- F MODERATELY STABLE

{

N- G EXTREMELY STABLE '

180 ,

1 l

MET-12

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 09:15 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC PRI TWR 33 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR _

BKUP TWR 33 FT WIND DIR (FROM) 176.3 DEGR 176.1 DEGR PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRI TWR 199 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR

.- PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP TWR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR PRI1WR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR

' PRI TWR DIF TEMP "A" -0.80 DEGC -0.80 DEGC PRI TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC

.PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN o

STABILITY CLASS N- A EXTREMELY. UNSTABLE N- B MODERATELY UNSTABLE Y- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLE 270 90 N- F MODERATELY STABLE N- G EXTREMELY STABLE 180 MET-13

WATERFORD'3'SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC) .

TIME: 09:30 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SE..

PRI TWR 33 FT WIND DlR (FROM) 176.0 DEGR 176.0 DEGR BKUP TWR 33 FT WIND DlR (FROM) 176.3 DEGR 176.1 DEGR PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRI DVR 199 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP TWR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR

. PRI TWR 199 FT SIGMA THETA 13.4 DEGR 13.2 - DEGR PRI TWR DIF TEMP ?A" -0.80 DEGC -0.80 DEGC PRI TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC -

PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN 0

. STABILITY. CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE Y- C SLIGHTLY UNSTABLE-N- D NEUTRAL 1 N ' E SLIGHTLY STABLE 270 90 N- F MODERATELY STABLE N- G EXTREMELY STABLE 180 MET-14

WATERFORD 3 SES ANNUAL $XERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 09:45 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC PRI TWR 33 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 176.3 DEGR 176.1 DEGR PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRI TWR 199 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP TWR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR PRI TWR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR ,

i PRI TWR DIF TEMP "A" -0.80 DEGC -0.80 DEGC PRI TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC PRI PRECIPITATION 0.00 N/A 'O.00 INCH /15 MIN 0

STABILITY CLASS.

N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE Y- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLlGHTLY STABLE . 270 90 N-- F MODERATELY STABLE i N- G EXTREMELY STABLE 180  ;

MET-15

I WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 10:00 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC PRI TNR 33 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 176.3 DEGR 176.1 DEGR PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRI TWR 199 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP TWR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR PRl1WR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR PRI TWR DIF TEMP "A" -0.80 DEGC -0.80 DEGC  ;

PRI TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC I BKUP 1WR DIF TEMP -0.82 DEGC -0.82 DEGC l PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN O

STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE  ;

-Y- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLE 270 90 N- F MODERATELY STABLE N- G EXTREMELY STABLE 180

(

Q MET-16

WATERFORD 3 SES ANNUAL EXERCISE

, OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 10:15 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.4G M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC PRI TWR 33 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 176.3 DEGR 176.1 DEGR PRI TVvR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRI TWR 199 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP TWR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR PRI TWR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR PRI TWR DIF TEMP "A" - -0.80 DEGC -0.80 DEGC ,

PRI TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC l BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC  ;

PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN o

STABILITY CLASS N- A EXTREMELY UNSTABLE i N- B MODERATELY UNSTABLE Y- C SLIGHTLY UNSTABLE N- D NEUTRAL 1 N- E SLIGHTLY STABLE 270 90 N . F MODERATELY STABLE N- G EXTREMELY STABLE I

180 l

MET-17 j

L WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 l

SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 10:30

, INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC l l PRI TWR 33 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 176.3 DEGR 176.1 DEGR PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC  !

PRI TWR 199 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR 1

PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP TWR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR 1 I

PRI TWR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR I l

PRI TWR DIF TEMP "A" -0.80 DEGC

-0.80 DEGC PRI TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN o

STABILITY CLASS l N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE l Y- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLE 270 90 i N- F MODERATELY STABLE N- G EXTREMELY STABLE l

180 l

MET-18

i WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 10:45 j

l INSTANTANEOUS 15 MIN. AVG.  !

i PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC l BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC PRI TWR 33 FT WIND DlR (FROM) 176.0 DE.GR 176.0 DEGR ,

BKUP TWR 33 FT WIND DlR (FROM) 176.3 DEGR 176.1 DEGR l PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRI TWR 199 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR .l BKUP TWR 33 FT SIGMA THETA- 14,1 DEGR 14.1 DEGR '

PRI TWR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR i

PRI TWR DIF TEMP "A" -0.80 DEGC -0.80 DEGC I PRI TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC ,

l PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN  ;

i 0 l STABILITY CLASS

! - N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE '

- Y- C SLIGHTLY UNSTABLE  ;

N- D NEUTRAL N- E SLIGHTLY STABLE 270 90

N- F MODERATELY STABLE

l. N- G EXTREMELY STABLE  !

l 180 MET-19 I

t

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 I' SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC) l TIME: 11:00

\

INSTANTANEOUS 15 MIN. AVG.

I l

PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC I BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC PRI TWR 33 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 176.3 DEGR 176.1 DEGR PRI EVR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRI TWR 199 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR PRI TWR 33 FT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP TWR 33 FT SIGMA THETA 14.1. DEGR 14.1 DEGR I PRI TWR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR PRI TWR DIF TEMP "A" -0.80 DEGC -0.80 DEGC '

PRI TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN j 0

STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE <

Y- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLE 270 90 N- F MODERATELY STABLE N- G EXTREMELY STABLE I

i- 180 L

MET-20

li f.

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMCND1 MIMIC) l TIME: 11:15 INSTANTANEOUS - 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.40 M/SEC 3.40 M/SEC BKUP TWR 33 FT WIND SPEED 3.39 M/SEC 3.40 M/SEC PRI TWR 33 FT WIND DIR (FROM)' 176.0 DEGR 176.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 176.3 DEGR 176.1 DEGR PRI TWR 199 FT WIND SPEED 3.41 M/SEC 3.41 M/SEC PRI TWR 199 FT WIND DIR (FROM) 176.0 DEGR 176.0 DEGR PRI TWR 33 CT SIGMA THETA 13.3 DEGR 13.2 DEGR BKUP 1WR 33 FT SIGMA THETA 14.1 DEGR 14.1 DEGR

~

PRI TWR 199 FT SIGMA THETA 13.4 DEGR 13.2 DEGR PRI TWR DIF TEMP "A" -0.80 DEGC -0.80 DEGC PRI TWR DIF TEMP "B" -0.81 DEGC -0.81 DEGC BKUP TWR DIF TEMP -0.82 DEGC -0.82 DEGC i i

PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN o

STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE Y- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLE 270 90 N- F MODERATELY STABLE N- G EXTREMELY STABLE 180 MET-21 l

WATERFORD 3 SES ANNUAL $XERCISE L OCTOBER 23,1999 l -

l SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC) l TIME: 11:30 INSTANTANEOUS 15 MIN. AVG.

! PRI TWR 33 FT WIND SPEED. 3.60 M/SEC 3.60 M/SEC BKUP TWR 33 FT WIND SPEED 3.61 M/SEC -3.61 M/SEC PRI TWR 33 FT WIND DlR (FROM) _190.0 DEGR 190.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 190.1 DEGR 190.2 DEGR l PRI TWR 199 FT WIND SPEED 3.62 M/SEC 3.61 M/SEC PRI TWR 199 FT WIND DIR (FROM) 190.1 DEGR 190.4 DEGR PRI TWR 33 FT SIGMA THETA 1.92 DEGR 1.92 DEGR BKUP TWR 33 FT SIGMA THETA 1.89 DEGR 1.89 DEGR PRI TWR 199 FT SIGMA THETA 1.92 DEGR 1.92 DEGR PRI TWR DIF TEMP "A" 1.00 DEGC 1.00 DEGC PRI TWR DIF TEMP "B" 1.01 DEGC 1.01 DEGC BKUP TWR DIF TEMP 1.00 DEGC 1.00 DEGC  !

l PRI PRECIPITATION 0.00 N/A 'O.00 INCH /15 MIN i

=

0 STABILITY CLASS N- A EXTREMELY UNSTABLE  ;

i N- B MODERATELY UNSTABLE N- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLE 270 90 Y- F MODERATELY STABLE N. G EXTREMELY STABLE

] 180 MET-22 l l 4

l

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 11:45 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.60 M/SEC 3.60 M/SEC BKUP TWR 33 FT WIND SPEED 3.61 M/SEC 3.61 M/SEC PRI TWR 33 FT WIND DIR (FROM) 190.0 DEGR 190,0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 190.1 DEGR 190.2 DEGR PRI TWR 199 FT WIND SPEED 3.62 M/SEC 3.61 M/SEC PRI TWR 199 FT WIND DIR (FROM) 190.1 DEGR 190.4 DEGR PRI TWR 33 FT SIGMA THETA 1.92 DEGR 1.92 DEGR BKUP TWR 33 FT SIGMA THETA 1.89 DEGR 1.89 DEGR PRI1WR 199 FT SIGMA THETA 1.92 DEGR 1.92 DEGR PRI TWR DIF TEMP "A" 1.00 DEGC 1.00 DEGC PRI TWR DIF TEMP "B" 1.01 DEGC 1 01 DEGC BKUP TWR DIF TEMP 1.00 DEGC 1.00 DEGC PRI PRECIPITATION 0.00 N/A 0 00 INCH /15 MIN O

STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE N- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLE 270 90 Y- F MODERATELY STABLE N- G EXTREMELY STABLE 180 I

MET-23

r:-

j[

w i

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METdOROLOGICAL DATA (MARMOND1 MIMIC) l '

TIME: 12:00 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.60 M/SEC 3.60 M/SEC BKUP TWR 33 FT WIND SPEED 3.61 M/SEC 3.61 M/SEC PRI TWR 33 FT WIND DIR (FROM) 190.0 DEGR 190.0 DEGR BKUP TWR 33 FT WIND DlR (FROM) 190.1 DEGR 190.2 DEGR PRI TWR 199 FT WIND SPEED 3.62 M/SEC 3.61 M/SEC PRI TWR 199 FT WIND DIR (FROM) 190.1 DEGR 190.4 DEGR PRI TWR 33 FT SIGMA THETA 1.92 DEGR 1.92 DEGR

. BKUP TWR 33 FT SIGMA THETA 1.89 DEGR 1.89 DEGR PRI TWR 199 FT SIGMA THETA 1.92 DEGR 1.92 DEGR PRI TWR DIF TEMP "A" 1.00 DEGC 1.00 DEGC PRI TWR DIF TEMP "B" 1.01 DEGC 1.01 DEGC BKUP 'iWR DIF TEMP 1.00 DEGC 1.00 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN 0

STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE N- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLt: 270 90 Y- F MODERATELY STABLE N- G EXTREMELY STABLE 180 MET-24

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METNOROLOGICAL DATA i

.(MARMOND1 MIMIC) I I

TIME: 12:15 INSTANTANEOUS 15 MIN. AVG. l l

. PRI TWR 33 FT WIND SPEED 3.60 M/SEC 3.60 M/SEC BKUP TWR 33 FT WIND SPEED 3.61 M/SEC 3.61 M/SEC 4 PRI TWR 33 FT WIND DIR (FROM) 190.0 DEGR 190.0 DEGR j

' BKUP TWR 33 FT WIND DIR (FROM) 190.1 DEGR 190.2 DEGR

. PRI TWR 199 FT WIND SPEED 3.62 M/SEC 3.61 M/SEC PRI TWR 199 FT WIND DIR (FROM) 190.1 DEGR 190.4 DEGR 1 PRI TWR 33 FT SIGMA THETA 1.92 DEGR 1.92 DEGR BKUP TWR 33 FT SIGMA THETA 1.89 DEGR 1.89 DEGR '

PRI TWR 199 FT SIGMA THETA 1.92 DEGR 1.92 DEGR PRI TWR DIF TEMP "A" 1.00 DEGC 1.00 DEGC PRI TWR DIF TEMP "B" 1.01 DEGC 1.01 DEGC BKUP TWR DIF TEMP 1.00 DEGC 1.00 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN 0

STABILITY CLASS ,

N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE N- C SLIGHTLY UNSTABLE

-N- D NEUTRAL -

N- E SLIGHTLY STABLE 270 90 Y . F MODERATELY STABLE N- G EXTREMELY STABLE 180 MET-25

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 12:30 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.60 M/SEC 3.60 M/SEC BKUP TWR 33 FT WIND SPEED 3.61 M/SEC 3.61 M/SEC PRI TWR 33 FT WIND DIR (FROM) 190.0 DEGR 190.0 DEGR BKUP TWR 33 FT WIND DlR (FROM) 190.1 DEGR 190.2 DEGR PRI TWR 199 FT WIND SPEED 3.62 M/SEC 3.61 M/SEC PRI TWR 199 FT WIND DlR (FROM) 190.1 DEGR 190.4 DEGR j PRI TWR 33 FT SIGMA THETA 1.92 DEGR 1.92 DEGR BKUP TWR 33 FT SIGMA THETA 1.89 DEGR 1.89 DEGR PRI TWR 199 FT SIGMA THETA 1.92 DEGR 1.92 DEGR l PRI TWR DIF TEMP "A" 1.00 DEGC 1.00 DEGC PRI TWR DIF TEMP "B" 1.01 DEGC 1.01 DEGC BKUP ?NR DIF TEMP 1.00 DEGC 1.00 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN o

STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE ,

N- C SLIGHTLY UNSTABLE N-- D NEUTRAL N- E SLIGHTLY STABLE 270 90 Y- F MODERATELY STABLE N- G EXTREMELY STABLE 180 l

MET-26

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 12:45 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.60 M/SEC 3.60 M/SEC BKUP TWR 33 FT WIND SPEED 3.61 M/SEC 3.61 M/SEC PRI TWR 33 FT WIND DIR (FROM) 198.0 DEGR 198.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 198.1 PEGR 198.2 DEGR PRI TWR 199 FT WIND SPEED 3.62 M/SEC 3.61 M/SEC PRI TWR 199 FT WIND DlR (FROM) 198.1 DEGR 198.4 DEGR PRI TWR 33 FT SIGMA THETA 1.92 DEGR 1.92 DEGR BKUP LWR 33 FT SIGMA THETA 1.89 DEGR 1.89 DEGR PRI TWR 199 FT SIGMA THET 1.92 DEGR 1.92 DEGR PRI TWR DIF TEMP "A" 1.00 DEGC 1.00 DEGC PRI TWR DIF TEMP "B" 1.01 DEGC 1.01 DEGC BKUP TWR DIF TEMP 1.00 DEGC 1.00 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN 0

STABILITY CLASS N- A EXTREMELY UNSTABLE N- 8 MODERATELY UNSTABLE N- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHF STABLE 270 90 Y- F MODErd. 'ELY STABLE N- G EXTREMELY STABLE 180 MET-27

WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA

- (MARMOND1 MIMIC)

TIME: 13:00 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.60 M/SEC 3.60 M/SEC BKUP ' LWR 33 FT WIND SPEED 3.61 M/SEC 3.61 M/SEC 1 I

PRI TWR 33 FT WIND DIR (FROM) 198.0 DEGR 198.0 DEGR 8KUP TWR 33 FT WIND DIR (FROM) 198.1 DEGR 198.2 DEGR PRI TWR 199 FT WIND SPEED 3.62 M/SEC 3.61 M/SEC PRI TWR 199 FT WIND DIR (FROM) 198.1 DEGR 15f,4 DEGR PRI TWR 33 FT SIGMA THETA ~ 1.92 DEGR 1.92 DEGR I BKUP TWR 33 FT SIGMA THETA 1.89 DEGR 1.89 DEGR PRI TWR 199 FT SIGMA THETA 1.92 DEGR 1.92 DEGR PRI TWR DIF TEMP "A" 1.00 DEGC 1.00 DEGC PRI TWR DIF TEMP "B" 1.01 DEGC 1.01 DEGC BKUP TWR DIF TEMP 1.00 DEGC 1.00 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN O

STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE N- ' C SLIGHTLY UNSTABLE N- D NEUTRAL

.N- E SLIGHTLY STABLE 270 90

'Y- F MODERATELY STABLE N- G EXTREMELY STABLE 180 i

MET-28

WATERFORD 3 SES ANNUAL SXERCISE OCTOBER 23,1999

. SIMULATED METNOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 13:15 INSTANTANEOUS 15 MIN. AVG.

PRIlWR 33 FT WIND SPEED 3.60 M/SEC 3.60 M/SEC BKUP TWR 33 FT WIND SPEED 3.61 M/SEC 3.61 M/SEC PRI TWR 33 FT WIND DIR (FROM) 198.0 DEGR 198.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 198.1 DEGR 198.2 DEGR PRI TWR 199 FT WIND SPEED 3.62 M/SEC 3.61 M/SEC PRI TWR 199 FT WIND DIR (FROM) 198.1 DEGR 198.4 DEGR ,

1 PRI TWR 33 FT SIGMA THETA 1.92 DEGR 1.92 DEGR I BKUP TWR 33 FT SIGMA THETA 1.89 DEGR 1.89 DEGR PRI TWR 199 FT SIGMA THETA 1.92 DEGR 1.92 DEGR 1 PRI TWR DIF TEMP "A" 1.00 DEGC 1.00 DEGC PRI TWR DIF TEMP "B" 1.01 DEGC 1.01 DEGC BKUP TWR DIF TEMP 1.00 DEGC 1.00 DEGC PRI PRECIPITATION 0.00 N/A '0.00 INCH /15 MIN O

STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE N- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STABLE 270 90 Y- F MODERATELY STABLE

-N- G EXTREMELY STABLE l 180 1

I MET-29 z.

i WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METNOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 13:30 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.60 M/SEC 3.60 M/SEC BKUP TWR 33 FT WIND SPEED 3.61 M/SEC 3.61 M/SEC PRI TWR 33 FT WIND DIR (FROM) 198.0 DEGR 198.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 198.1 DEGR 198.2 DEGR PRI TWR 199 FT WIND SPEED 3.62 M/SEC 3.61 M/SEC PRI TWR 199 FT WIND DIR (FROM) 198.1 DEGR 198.4 DEGR PRI TWR 33 FT SIGMA THETA 1.92 DEGR 1.92 DEGR BKUP TWR 33 FT SIGMA THETA -1.89 DEGR 1.89 DEGR PRI TWR 199 FT SIGMA THETA 1.92 DEGR 1.92 DEGR PRI TWR DIF TEMP "A" 1.00 DEGC 1.00 bEGC PRI TWR DIF TEMP "B" 1.01 DEGC 1.01 DEGC BKUP TWR DIF TEMP - 1.00 DEGC 1.00 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN o

STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE N- C SLIGHTLY UNSTABLE N- D NEUTRAL N- E SLIGHTLY STAEiLE 270 90 Y- F MODERATELY STABLE N- G EXTREMELY STABLE 180 MET-30

P WATERFORD 3 SES ANNUAL EXERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL' DATA (MARMOND1 MIMIC) .

TIME: 13:45 INSTANTANEOUS 15 MIN. AVG.

i PRI TWR 33 FT WIND SPEED 3.60 M/SEC 3.60 M '3EC BKUP TWR 33 FT WIND SPEED 3.61 M/SEC 3.61 NI/JE C l

l PRI TWR 33 FT WIND DIR (FROM) 198.0 DEGR 198.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 198.1 DEGR 198.2 DEGR PRI TWR 199 FT WIND SPEED 3.62 M/SEC 3.61 M/SEC

_ PRI TWR 199 FT WIND DIR (FROM) 198.1 DEGR 198.4 DEGR PRI TWR 33 FT SIGMA THETA 1.92 DEGR 1.92 DEGR BKUP TWR 33 FT SIGMA THETA 1.89 DEGR 1.89 DEGR PRI TWR 199 FT SIGMA THETA 1.92 DEGR 1.92 DEGR PRI TWR DIF TEMP "A" 1.00 DEGC 1.00 DEGC PRI TWR DIF TEMP "B" 1.01 DEGC 1.01 DEGC l BKUP TWR DIF TEMP-' 1.00 DEGC 1.00 DEGC

- PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN o

STABILITY CLASS I l N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE N- C SLIGHTLY UNSTABLE N- D NEUTRAL -

N- E SLIGHTLY STABLE 270 90 Y- F MODERATELY STABLE L '

N- G EXTREMELY STABLE 180 MET-31

WATERFORD 3 SES ANNUAL EXERCISE

- OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

TIME: 14:00 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED .

'3.60 M/SEC 3.60 M/SEC BKUP TWR 33 FT WIND SPEED 3.61 M/SEC 3.61 M/SEC PRI'nNR 33 FT WIND DIR (FROM) 198.0 DEGR 198.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 198.1 DEGR 198.2 DEGR PRI TWR 199 FT WIND SPEED 3.62 ?A/SEC 3.61 M/SEC PRI TWR 199 FT WIND DIR (FROM) 190.1 DEGR 190.4 DEGR t PRI TWR 33 FT SIGMA THETA 1.92 DEGR 1.92 DEGR BKUP TWR 33 FT SIGMA THETA 1.89 DEGR 1.89 DEGR PRI TWR 199 FT SIGMA THETA 1.92 DEGR 1.92 DEGR PRI TWR DIF TEMP "A" 1.00 DEGC 1.00 DEGC PRI TWR DIF TEMP "B" 1.01' DEGC 1.01 DEGC BKUP TWR DIF TEMP 1.00 DEGC 1.00 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN O

STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE N- C SLIGHTLY UNSTABLE-

.N- D NEUTRAL N E SLIGHTLY STABLE 270 90

-Y- F MODERATELY STABLE N- - G EXTREMELY STABLE '

l 180 1

MET-32 i

I WATERFORD 3 SES ANNUAL E' XERCISE OCTOBER 23,1999 SIMULATED METEOROLOGICAL DATA (MARMOND1 MIMIC)

' TIME

14:15+

1 INSTANTANEOUS 15 MIN. AVG.

PRI TWR 33 FT WIND SPEED 3.60 M/SEC 3.60 M/SEC BKUP TWR 33 FT WIND SPEED 3.61 M/SEC 3.61 M/SEC PRI TWR 33 FT WIND DlR (FROM) 198.0 DEGR 198.0 DEGR BKUP TWR 33 FT WIND DIR (FROM) 198.1 DEGR 198.2 DEGR PRI TWR 199 FT WIND SPEED 3.62 M/SEC 3.61 M/SEC PRI TWR 199 FT WIND DIR (FROM) 190.1 DEGR 190.4 DEGR PRI TWR 33 FT SIGMA THETA 1.92 DEGR 1.92 DEGR BKUP TWR 33 FT SIGMA THETA 1.89 DEGR 1.89 DEGR PRI TWR 199 FT SIGMA THETA 1.92 DEGR 1.92 DEGR PRI TWR DIF TEMP "A" 1.00 DEGC 1.00 DEGC PRI TWR D!F TEMP "B" 1.01 DEGC 1.01 DEGC BKUP TWR DIF TEMP 1.00 DEGC 1.00 DEGC PRI PRECIPITATION 0.00 N/A 0.00 INCH /15 MIN O

STABILITY CLASS N- A EXTREMELY UNSTABLE N- B MODERATELY UNSTABLE N- C SLIGHTLY UNSTABLE N. D NEUTRAL N- E SLIGHTLY STABLE 270 90 Y- F MODERATELY STABLE N- . G EXTREMELY STABLE 180 MET-33

p q L

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 METHODOLOGY AND ASSUMPTIONS USED FOR THE DEVELOPMENT OF THE DOSE ASSESSMENT MODEL The following assumptions have been used for the calculation of the Onsite, Nearsite, and Offsite data provided in this package:

initially, the wind is assumed to be blowing from 176 degrees at 7.5 miles per hour. The l atmospheric stability class initially is category C. At 11

30 am, the wind direction changes and is blowing from 190 degrees. The stability class changes to category F and will remain at L category F the remainder of the day. At 12:45spm, the wind direction changes and is blowing i

from 198 degrees and will maintain this condition for the remainder of the day.

At approximately 08:15 am, the in-service Gas Decay Tank ("A") will develop a leak on the inlet flange to the relief valve causing the Plant Stack radiation monitors to go into high alarm. The monitor readings indicate that ten times Technical Specification limits are exceeded at 08:30 am, thereby warranting the ALERT declaration. Dose assessment performed by Control J

Room personnel will verify that activity is not sufficient to meet the criteria to declare a SITE AREA EMERGENCY.and no Protective Action Recommendations are required. Assuming that the plume touches down 800 feet downwind, onsite and nearsite dose rate data will confirm there is no significant offsite release. Plant stack flow rate of 90,340 scfm is assumed for this portion of the exercise. Chemistry should sample the stack and confirm the stack monitor readings.

At 10:15, a pipe rupture on RCS "A" Hot Leg #1 produces a LOCA. The reactor trips, Safety injection, Emergency Feedwater, Main Steam isolation and Containment Isolation signals are initiated. The plant stack flow rate decreases to 5516 scfm. The Emergency Coordinator declares a Site Area Emergency based on Emergency Plan implementing Procedure EP-001-001, Recognition and Classification of Emergency Conditions, B/SAE/l, "RCS leakage >

available charging pump capacity (LOCA or Steam Generator Tube Rupture)".' Pressure slowly rises in Containment due to the LOCA.

When Containment pressure reaches 17.7 psia, a Containment Spray Actuation Signal is initiated.. Containment Spray Pump "A" fails to start due to a breaker problem. Containment Spray "B" will start but, due to a leak on the containment spray header there will be no flow to the spray nozzles. This results in containment pressure continuing to rise.

- At 11:30, a containment penetration fails, releasing radioactivity into the annulus. As annulus

' pressure increases, the Shield Building Ventilation System will cycle between recirculation and exhaust to control the annulus at a negative pressure. This results in a release to the atmosphere via the Plant Stack. During this time plant stack flow will cycle between 5516 and 13629 scfm. For the purposes of the exercise, a plant stack flow rate of 5516 scfm was used for the dose assessment data calculations. The dose assessment personnel will be directed to use this flow rate for their calculations to ensure consistency of data. This flow rate was also chosen to ensure the dose at the site boundary does not exceed 15 Rem, which would require the parish to consider the issuance of Kl to the parish emergency workers. The issuance of Kl is not a parish objective for this exercise.

l l

ONSITE - 1 l

T; .

L WATERFORD 3 SES BIENNIAL EXERCISE -

OCTOBER 13,1999 j h .

j Fuel failure of 0.11% is an initial condition of the exercise with Dose Equivalent lodine higher than Technical Specification limits (1.05 uCi/g).- In determining the RCS Chemistry, an average 9572 cfm containment to annulus leak rate was assumed, as were the following iodine reduction factorst 50% release from the RCS to Containment,50% lodine removal from plateout, 90%

t lodine removal by charcoal filters in Plant Stack and 90% lodine removal by containment spray.

This resulted in an iodine to noble gas ratio of 1.04E 04, a TEDE dose factor of 4.34E+04 and I CDEdose factor 4.98E+08.' These values were used throughout the exercise to evaluate the )

containment release.

When the containment release begins, a Plant Stack high alarm will come in with a reading of  !

l 5.00E+01 uCi/cc. Dose Assessment based on this plant monitoring data will result in 601 mR/hr .!

TEDE and 7127 mR/hr CDE dose rates at the EAB. The Emergency Coordinator wil.1 declare a General Emergency based on Emergency Plan implementing Procedure, EP-001-001,

- Recognition and Classification of Emergency Conditions, A/GE/l," Dose projection or ii radiological monitoring team indicates TEDE dose rate at EABy 1000 MREM /HR or CDE thyroid dose rate at EAB > 5000 MREM /HR, or plant conditions exist which could result in a release of radioactivity such that these dose rates at the EAB could be reached or exceeded".

The plume will travelin a northerly direction over the west comer of the Administration Building and the MSB parking lot, continuing over River Road. Because of building wake effects, the

plume will not touchdown until it has traveled approximately 800 feet downwind (plant perimeter

. fence on River Road). Onsite and nearsite data is provided for dose rates and air samples for

~ distances from 100 to 1000 feet. Elevated beta / gamma dose rates before 800 feet are the result of shine from the plume passing overhead.

. . At 12:45, a change in wind direction occurs. The wind will be blowing from 198 degrees. The change in wind direction has been included to provide conditions where a change in Protective Action Recommendations (PARS) would be required. The timely notification of offsite agencies

! of a change in PARS is an exercise objective.

The release will maintain the same dose rates for 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />. At approximately 13:00, the release

- rate from Containment will begin to decrease and the release will terminate at 13:30.

' Downwind dose rate data has been developed to assess the edges and center lines of the -

plumes from the Gas Decay Tank release and the Containment release. This data was developed with the use of the computerized Dose Code and is consistent with other data in the scenano, for the established Sample Points.

l I

l l.

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l1 ONSITE - 2 I i

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\

i Onsite Plums Location for use with Tables

1. -onsite plant data is available for the area bounded by 100 feet off plume center line )

\' . 2. Data is generatid for 0 to 1000 feet dotmwind. )

1000 feet, use offsite data Past

3. Plume divisions represent 100 feet increments Scale

" = 100 ft Legend

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      ,d                     0 0 0 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0                                                            .

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I l EMERGENCY PREPAREDNESS NRC EXERCISE l October 13,1999 OFFSITE RADIOLOGICAL DATA Exercise Data l Air Sample Duration 8 minutes Air Sample Flow Rate 1.5 cfm instrument D/C 30 Dose Equivalent lodine Factor 1.34 Thyroid Dose Conversion Factor 0.0207 lodine Cartridge Eff. 0.9 For the Waste Gas Release: TEDE Doe Factor 2.03E+04 CDE Dose Factor 6.46E+08 lodine / Noble Gas Ratio 6.06E-07 For the LOCA Release: TEDE Dose Factor 4.34E+04 CDE Dose Factor 4.98E+08 lodine / Noble Gas Ratio 1.04E-04 1 l l l l l l l 1 i i OFFSITE-5 i

i 1 EMERGENCY PREPAREDNdSS NRC EXERCISE October 13,1999 OFFSITE RADIOLOGICAL DATA 4r LOCATCN3  ;- TIME CLOSED OPEN AIR Sample BKGD pqA-1E(N)[, WINDOW WINDOW GROSS Count A gito $80 Dose Rate Dose Rate Count Rate hO $$" J' Rate Rd' O.14 enNei'4 (mR/hr) (mR/hr) (CPM) (CPM)~ Gas Decay Tank Release 8:00 <0.2 <0.2 100 100 11:27 <0.2 <0.2 100 100 LOCA Release (11:30) 11:33 0.2 0.3 160 100 11:57 0.2 0.3 160 100 12:12 0.2 0.3 160 100 12:27 0.2 0.3 160 100 12:42 0.2 0.3 160 100 Wind Shift to 198* (12:45) 12:52 <0.2 <0.2 100 100 13:12 <0.2 <0.2 100 100 13:27 40.2 <0.2 100 100 Release Terminated (13:30) 13:42 <0.2 <0.2 100 100 13:57 <0.2 <0.2 100 100 14:12 <0.2 <0.2 100 100 14:27 <0.2 <0.2 100 100 jLOCATION _ TIME CLOSED OPEN AIR Sample BKGD I TB-1E(NNE)]c t % W'NDOW WINDOW GROSS Count '0Jnh$D 21' pN J Dose Rate Dose Rete Count Rate Rate

    %8.14snNe b ' '                       (mR/hr)     (mR/hr)      (CPM)       (CPM)

Gas Decay Tank Release 8:00 <0.2 <0.2 100 100 11:27 <0.2 <0.2 100 100 LOCA Release (11:30) 11:38 0.2 0.3 200 100 11:57 0.2 0.3 200 100 12:12 0.2 0.3 200 100 12:27 0.2 0.3 200 100 12:42 0.2 0.3 200 100 Wind Shift to 198* (12:45) 12:52 2,200 3,520 Offscale 100 ' 13:12 2,200 3,520 Offscale 100 ___ 13:27 2,200 3,520 Offscale 100 Release Terminated (13:30) 13:42 1,400 2,240 400,000 100 13:57 25 40 10,000 100 14:12 <0.2 <0.2 800 100 14:27 <0.2 <0.2 100 100 Note: Assumed wind shift from 190 degree to 198 degree at 12:45 PM. Assumed the release was terminated after 2 hours at 13:30 PM. The detected radioactivity will be reduced at the specific location to 0.016% after 30 minutes from the passing radioactive cloud. OFFSITE-6

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j l EMERGENCY PREPAREDNESS NRC EXERCISE  ! October 13,1999 OFFSITE RADIOLOGICAL DATA I i n LOCATION t en TIME CLOSED OPEN AIR Sample BKGD c i

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WINDOW WINDOW GROSS Count

    #q . . ol" )40100 W:hy      4 Dose Rate   Dose Rate  Count Rate      Rate 10,18 mue L       F                     (mR/hr)     (mR/hr)     (CPM)       (CPM)

Gas Decay Tank Release 8:00 <0.2 <0.2 100 100 11:27 <0.2 <0.2 100 100 LOCA Release (11:30) 11:38 6,000 9,600 Offscale 100 11:57 6,000 9,600 Offscale 100 12:12 6,000 9,600 Offscale 100 12:27 6,000 9,600 Offscale 100 12:42 6,000 9,600 Offscale 100 Wind Shift to 198* (12:45) 12:52 20 35 10,000 100 13:12 20 35 10,000 100 I 13:27 20 35 10,000 100 Release Terminated (13:30) 13:42 <0.2 <0.2 900 100 13:57 <0.2 <0.2 160 100 14:12 <0.2 <0.2 100 100 14:27 <0.2 <0.2 100 100 I 1 J LOCATION : w* TIME CLOSED OPEN AIR Sansple BKGD TA1E4EMEfMA WINDOW WINDOW GROSS Count

    ,    [th k*I ,        )                    Dose Rate   Dose Rate  Count Rate     Rate

n J0.15 masN M j; ' (mR/hr) (mR/hr) (CPM) (CPM)  ;

Gas Decay Tank Release 8:00 <0.2 <0.2 100 100 11:27 <0.2 <0.2 100 100 LOCA Release (11:30) 11:38 20 35 10,000 100 11:57 20 35 10,000 100 12:12 20 35 10,000 100 12:27 20 35 10,000 100 12:42 20 35 10,000 100 Wind Shift to 198* (12:45) 12:52 6,000 9,600 Offscale 100 13:12 6,0GO 9,600 Offscale 100 13:27 6,000 9,600 Offscale 100 Helease Terminated (13:30) 13:42 3,900 6,240 450,000 100 13:57 100 160 10,000 100 14:12 <0.2 <0.2 800 100 14:27 <0.2 <0.2 100 100 Note: Assumed wind shift from 190 degree to 198 degree at 12:45 PM. Assumed the release was terminated after 2 hours at 13:30 PM. The detected radioactivity will be reduced at the specific location to 0.016% after 30 minutes from the passing radioactive cloud, OFFSITE-7

EMERGENCY PREPAREDNESS NRC EXERCISE October 13,1999 OFFSITE RADIOLOGICAL DATA LOCATIONj , 3 TIME CLOSED OPEN AIR Sample BKGD s ,e (NNEpm 7 WINDOW WINDOW GROSS Count

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Gas Decay Tank Release 8:00 <0.2 <0.2 100 100 11:27 <0.2 <0.2 100 100 LOCA Release (11:30) 11:42 <0.2 <0.2 100 100 11:57 <0.2 <0.2 100 100 12:12 <0.2 <0.2 100 100 12:27 <0.2 <0.2 100 100 12:42 <0.2 <0.2 100 100 Wind Shift to 198'(12:45) 12:55 200 320 169,000 100 13:12 200 320 169,000 100 13:27 200 320 169,000 100 Release Terminated (13:30) 13:47 130 206 90,000 100 14:12 2 3 1,700 100 l 14:27 < 0.2 < 0.2 100 100 _ 14:42 < 0.2 < 0.2 100 100 g LOCATION r ./ -w TIME CLOSED OPEN AIR Sample BKGD Ju "pq[BMNNE M N WINDOW WINDOW GROSS count i to. .j f*%

                   *y 3:n)l g[,           Dose Rate    Dose Rate  Count Rate      Rate l

E1.29muel"gp[' (mR/hr) l (mR/hr) (CPM) (CPM) l Gas Decay Tank Release 8:00 <0.2 <0.2 100 100 . 11:35 <0.2 <0.2 100 100 I LOCA Release (11:30) 11:47 125 200 105,000 100 l 12:05 125 200 ~105,000 100 12:20 125 200 105,000 100 12:35 125 200 105,000 100 l 13:00 80 128 70,000 100 Wind Shift to 198'(12:45) 13:10 2 3 1,790 100 13:20 2 3 1,790 100 13:35 2 3 1,790 100 Release Terminated (13:30) 13:50 <0.2 <0.2 900 100 14:05 <0.2 <0.2 130 100 14:20 <0.2 <0.2 100 100 14:50 <0.2 <0.2 100 100 Note: Assumed wind shift from 190 degree to 108 degree at 12:45 PM. Assumed the release was terminated after 2 hours at 13:30 PM. The detected radioactivity will be reduced at the specific location t'o 0.016% after 30 minutes from the passing radioactive cloud. OFFSITE-8

i

                                                       -                                 k EMERGENCY PREPAREDNESS NRC EXERCISE October 13,1999 i

OFFSITE RADIOLOGICAL DATA  !

 '74 L,0CATiONf        ;        TIME         CLOSED        OPEN    AIR Sample    BKGD U;+ j.0192h My[g                            WINDOW       WINDOW      GROSS       Count
,    Jki$kE[ hf[ y                         Dose Rate     Dose Rate Count Rate     Rate    ,

M1,80mitsWa#f# (mR/hr) (mR/hr) (CPM) (CPM) { Gas Decay Tank Release 8:00 <0.2 <0.2 100 100 l 11:32 <0.2 <0.2 100 100 LOCA Release (11:30) 11:44 17 27 11,000 100 12:02 17 27 11,000 100 12:17 17 27 11,000 100 12:32 17 27 11,000 100 12:47 17 27 11,000 50 Wind Shift to 198* (12:45) 12:58 170 272 80,000 100 13:17 170 272 80,000 100 13:32 170 272 80,000 100 ) Release Terminated (13:30) 13:47 100 160 40,000 100 14:02 3 6 860 100 14:17 < 0.2 < 0.2 100 100 14:32 < 0.2 < 0.2 100 100 LOCATKINfg gg TIME CLOSED OPEN AIR Sample BKGD ms ;A wS2A3

                  % -llP
                       ,p     E $g'        WINDOV' , WINDOW          GROSS       Count kkh       4.[4          Wp                  Cose Rata ' "ose Rate   Count Rate    Rate M12mhiW \ W m                                (mR/hr)      (mR/hr)     (CPM)      (CPM)

Gas Decay Tank Release 8:00 <0.2 <0.2 100 100 l 11:40 <0.2 <0.2 100 100 LOCA Release (11:30) 11:52 100 160 6,700 100 12:10 100 160 6,700 100 12:26 100 160 6,700 100 12:40 100 160 6,700 100 12:56 100 160 6,700 100 Wind Shift to 198* (12:45) 13:06 <0.2 <0.2 3,200 100 13:26 <0.2 <0.2 200 100 13:40 <0.2 <0.2 100 100 Release Terminated (13:30) 13:56 <0.2 <0.2 100 100 14:10 <0.2 <0.2 100 100 14:26 <0.2 <0.2 100 100 14:40 <0.2 <0.2 100 100 Note: Assumed wind shift from 190 degree to 198 degrfa at 12:45 PM. Assumed the release was terminated after 2 hours at 13:30 FM. The detected radioactivity will be reduced at the specific location to 0.016% after 30 minutes from the passing radioactive cloud. OFFSITE-9

EMERGENCY PREPAREDNESS NRC EXERCIS2 October 13,1999 OFFSITE RADIOLOGICAL DATA Sc LOCAiWeb

   $, Mh.ggy                        TIME       CLOSED WINDOW OPEN WINDOW AIR Sample    BKGD h h$hS.( j dEj         E                  Dose Rate    Dose Rate GROSS Count Rate Count Rate
     "? SAS enNsGhidM                         (mR/hr)      (mR/hr)     (CPM)      (CPM)

Gas Decay Tank Releas[ ~ 'd:00 <0.2 <0.2 100 100 11:44 <0.2 <0.2 100 100 LOCA Release (11:30) 11:59 3 5- 2,000 100 12:14 3 5 2,000 12:29 3 5 2,000 100[  ! 100 - 12:44 3 5 2,000 100 12:59 3 5 2,000 100 Wind Shift to 198* (12:45) 13:11 <0.2 <0.2 800 100 13:29 <0.2 <0.2 100 100 13:44 <0.2 <0.2 100 100 Rele.no Terminated (13:30) 13:59 <0.2 <0.2 100 100 14:14 <0.2 <0.2 100 100 14:29 <0.2 <0.2 100 100 14:44 <0.2 <0.2 100 100 g jy TIME CLOSED OPEN AIR Sample BKGD gm.y Ya 4.OCATMiqijg@g.;p. niN WINDOW WINDOW GROSS Count

  $5[:bg%

GtD N[ 9 4,N M j 'i'M M 4 Dose Rate (mR/hr) Dose Rate (mR/hr) Count Rate Rate (CPM) (CPM) Gas Decay Tank Release 8:00 <0.2 <0.2 100- 100 11:55 <0.2 <0.2 100 100 LOCA Release (11:30) 12:18 l 0.2 0.3 140 100 12:25 0.2 0.3 140 100 12:40 0.2 0.3 140 100 12:55 0.2 0.3 140 100 13:10 0.2 0.3 140 100 . . Wind Shift to 198' (12:45) . 13:25 17 27 11,800 100 13:40 17 27 11,800 100 1 13:55 17 27 11,800 100 l Release Terminated (13:30) 14:20 2 3 7,500 100 14:40 <0.2 <0.2 240 100 14:55 <0.2 4t 100 100 15:10 <0.2 <0.2 100 100 Note: Assumed wind shift from 190 degree to 198 degree at 12:45 PM. Assumed the release was terminated after 2 hours at 13:30 PM. The detected radioactivity will be reduced at the specific location to 0.016% after 30 minutes from the passing radioactive cloud. OFFSITE-10 , 4

Close or Open Window Readinos: ' INSTRUMENT MAXIMUM READING: 50.000 mR/hr fl.e. 50 R/hr) I l IF ANY VALUE ABOVE GREATER THAN MAXIMUM READING (> 50 R/ hr), REPORT OFFSCALE READING. l INSTRUMENT MINIMUM READING = 0.2 mR/hr IF ANY VALUE ABOVE LESS THAN MINIMUM READING (< 0.2 mR/hr), REPORT BACKGROUND READING. Air Sample lodine Count Rates: Background samples Count Rates are : 100 - 300 com (Gross). LM-12 Maximum Reading is 500.000 com (Gross). For other esjablished sample points Closed and Open Window Readings, report "AS FOUND". Air lodine Sample count rate, report "Backaround ". 1 OFFSITE-11

yy r F ,\ '

WATERFORD 3 SES BIENNIAL EXERCISE

. OCTOBER 13,1999-

                            , Vill.: - DRILLTEAM ASSIGNMENTS -

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WATERFORD 3 SES BIENNIAL F'XERCISE OCTOBER 13,1999 DRILL TEAM' SSIGNMENTS DRILL TEAM POSITION NAME Lead Controller . S. Lubinski Control Room Controller G. Wemett TSC Controller J. Ledet OSC Teams Controller T. Moore  ! EOF Controller J. Lewis j Communications Controller M. Mills Dose Assessment Controller S. Ramzy f

 - Chemistry Controlier -                          G. Dolese     i Security Controller                             G. Zetsch Medical Controller                              J.Baham OSC Lead Controller.                            M. Huskey

- Health Physics Controller P. Kelly ENC Controller A. Prendergast Simulator Operator S.Hymel Control Room Monitor B. Fletcher TSC Communications Monitor J. Pointer EOF Communications Monitor G. Robin TSC Do' s Assessment Monitor K. Boudreaux EOF D- Assessment Monitor D. Newman TSC Ti. .nical Assessment Monitor H. LeBlanc - EOF Technical Assessment Monitor P. Stanton  ! Chemistry Monitor R, Stanley Health Physics Monitor B. Goldman Health Physics Monitor C. Miller. Health Physics Monitor F. Davis Health Physics Monitor M. Moe OSC Health Physics Monitor S. Wilson ' Field Monitoring Team "A" Monitor C. Karling

Field Monitoring Team "B" Monitor- M. Bratton -

Field Monitoring Team "C" Monitor K. Rockwood ' Medical Monitor.(Onsite)

                                                 . K. Fedrick -

Medical Monitor (Hospital) J. Noehl Security Monitor - - J. Maikell ,

 ' Assembly Area Supervisor Monitor-              R. Zimmer      :

OSC Monitor K. Rauch , - Mechanical Repair Team Monitor D. Walls Mechanical Repair Team Monitor R. Luter . , Electrical Repair Team Monitor A. Cruise Electrical Repair Team Monitor A. Gordon l&C Repair Team Monitor T. Murray l&C Repair Team Monitor: H. Matthews 4 Vill-2

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                                   . WATERFORD 3 SES BIENNIAL ' EXERCISE
                                            - OCTOBER 13,1999
               ' IX . DRlLL TEAM INSTRUCTIONS
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I L .. j -; IX-1 i f- d LL m

WATERFORD 3 SES BIENNIAL EXERCISE

                                             ' OCTOBER 13,1999
 . IX. .    - DRILL TEAM INSTRUCTIONS -

CONTRO'LLER INSTRUCTIONS 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 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 area. i

           ' PREPARATION 1

1.. Controllers must have completed Drill Team Training within the 12 month period J preceding the exercise.

           ' 2.      Controllers are required to attend the Scenario Package Walkdown Meeting in the Administration Building Assembly Room at 2:00 PM on October 4,1999.

3.' Controllers must be familiar with the overall scenario package and procedures applicable to their area of responsibility. They must also be familiar with individual cue cards and data which they,'or their Monitors, are responsible for controlling..

         ~

4. Each Controller is responsible for scheduling a walkdown of their area with their assigned monitors prior to the exercise. The Lead Controller will be notified of the schedule for these walkdowns to allow a member of the Emergency Planning Staff to attend.

5. - . Controllers are required to attend the Pre-Drill Briefing in the Administration Building Assembly Room at 2:00 PM on October 12,1999.

6. Controllers must be on station at least 15 minutes prior to the start of the exercise activities in their assigned areas on October 13,1999.

I I s IX-2

WATERFORD 3 SES BIENNIAL EXERCISE

                                   ' OCTOBER 13,1999 IX. DRILL TEAM ' INSTRUCTIONS (CONhD)

CONTROLLER INSTRUCTIONS (CONT'D)  ! CONTROL 1.- 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.

2. The actual giving of the cue card to the participant shall be limited to those instances which are specifically called for by the cue card or.

when PA announcements or procedure substitutions are required by J the exercise package.

3. Controllers will not allow a participant to read an exercise data sheet or infonnation directly from the exercise package binder with the following exceptions:

          'a.       Cue cards containing exercise classification announcements will be given to the participants to substitute for the announcements in the classification procedures, b,      Chemistry sample data cue cards will be provided to the Chemistry personnel.

4. Radiological data is normally provided only for areas affected by the postulated scenario conditions. If radiological data is not provided for an area, it may be assumed that the area is not affected by scenario conditions and the participants should use actual radiological measurements.

5. Controllers will not provide information to the exercise participants regarding scenario development or the expected resolution of the problem. Exercise participants must obtain information through the emergency organization and use their own judgment in problem solving. '

6. Controllers should identify the Evaluator (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 activities.

7. 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 scenario content.

IX-3 u

I f WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 IX. DRILL TEAM INSTRUCTIONS ' (CONT'D) CONTROLLER INSTRUCTIONS (CONT'D)

8. Each Controller should take detailed notes, using the Drill / Exercise Critique Sheet, regarding the progress of the exercise and the response of the drill

participants in their assigned area. Each Controller should note the arrival and departure times of drill 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.

9. Safety takes precedence over all other exercise requirements. Drill Control Team members must ensure that the exercise participants, Monitors, Observers, and Evaluators, follow all safety rules, take no unnecessary risks, use all safeguards and protective equipment provided and make safety a part of their responsibilities.

10.~ Controllers will ensure that scenario events that are conducted in the plant do not interfere with normal plant activities. If safety-related equipment is being operated during the exercise, scenario activities will be conducted outside of these areas.

11. Controllers must abide by the restrictions imposed on exercise participants regarding the suspension of Smoking, Drinking and Eating when those rules apply.

        - 12.   ' 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 plant radiation controlled areas must           !

observe all applicable radiological control practices.

13. . The Lead Controller may terminate the exercise activities at such point when all  !

major objectives have been adequately addressed or continuation of the exercise will not provide significant additional training for the participants. The decision to terminate should be coordinated with input from other key members of the Drill j Control Team.

14. - The exercise is expected to be completed at about 1:30 PM, October 13,1999.  ;

The Drill Control Team will collect all logs, completed records and forms,  ;

               . procedures, and any other written documentation generated by the participants.         {

Emergency facilities and equipment must be restored to pre- exercise conditions l prior to dismissing Drill Control Team members or participants. 4 1 IX-4 i

WATERFORD 3 SES BIENNIAL $XERCISE OCTOBER 13,1999 IX. DRILL TEAM INSTRUCTIONS (CONT'C) - CONTROLLER INSTRUCTIONS '(CONT'D)

      - EVALUATION

1. Immediately following the termination of the drill, Controllers will meet in their respective areas with the Monitors and participants for the post drill area critiques. The Controllers and Monitors will discuss their observations with the participants and solicit comments and observations from the participants. At this time, the Controllers will pass out the Drill / Exercise Participant Comment Sheets for additional feedback from the participants.

2. ' Controllers will meet with the Monitors assigned to their area on October 14,1999 at 7:00 AM in the Administration Building Assembly Room for the purpose of preparing their exercise evaluation. Each Controller will 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.

3.  : Controllers will attend the Controller Debriefing on October 14,1999 at 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. { 4.- Controllers may be asked to attend the Participant Critique at 1500 on October 18,1999 I in the Administration Building Assembly Room. During this critique, Controllers may assist Emergency Planning in debriefing the exercise participants on the evaluation of the exercise.

5. Drill Control Team Documentation - Drill Controllers will use the following documents to generate their evaluation of the exercise response and equipment operation observed:

a. Drill / Exercise Critique Sheet - This form is used by the Drill Control Team to maintain a comprehensive chronological description of the response, events and activities observed in their assigned area. These sheets are completed during the conduct of the exercise.

b. Drill / Exercise Evaluation Checklist - These checklists provide specific evaluation criteria for each area of response and should be'used as a guide in your evaluation of the exercise. Thest checklists are normally completed after the exercise using the notes recorded on the Drill / Exercise Critique Sheets.

c. Drill / Exercise Evaluation Report Sheet - This form will be 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 list  ;

areas of emergency response requiring improvement and any equipment deficiencies noted during the exercise. These shM1 are normally completed i during the Controller / Monitor Debriefino l

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. These sheets are normally completed during the Controller / Monitor Debriefing.

IX-5

WATERFORD 3 SES BIENNIAL E? .iRCISE OCTOBER 13,1999 IX.- DRILL TEAM INSTRUCTIONS (CONND) MONITOR INSTRUCTIONS

         . Monitors are responsible 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 scenario is expected to occur. The Monitors are responsible for introducing messages
         . or data at appropriate times as specified in the scenario package. The Monitors guard against actions that 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 affect the continuity of the scenario or actual plant operations, the Monitors must notify their Coiaroller immediately.

Monitor activities fallin three categories; Preparation, Control, and Evaluation. PREPARATION

1. Monitors must have completed Drill Team Training v 2hin the 12 month period preceding the exercise.

2. Monitors are required to attend the Scenario Package Walkdown Meeting in the Administration Building Assembly Room at 2:00 PM on October 4,1999.

3. Monitors must be familiar with the overail scenario package and procedures applicable to their area of responsibility. They must also be familiar with l individual cue cards and data which they Monitors, are responsible for issuing.

4. Each Monitor is responsible for scheduling a walkdown of their area with their assigned Controller prior to the exercise. The Lead Controller will be notified of the schedule for these walkdowns to allow a member of the Emergency Planning Staff to attend.

5. Monitors must attend the Pre-Exercise Briefing in the Administration Building Assembly Room at 2:00 PM on October 12,1999.

6. Monitors must be on station at least 15 minutes prior to the start of the exercise activities in their assigned areas on October 13,1999.

CONTROL

1. 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 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.

2. The actual giving of the cue card to the participant should be limited to those instances which are specifically called for by the cue card or when

                                                                                                           )

1 announcements or procedure substitutions are required by the exercise package. 1 IX-6 i

g WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999

 ~

IX. - DRILL TEAM INSTRUCTIONS (CON [D) I i MONITOR l'NSTRUCTIONS (CONT'D)

3. _ ' Monitors will,not allow a participant to read an exercise data sheet or information a directly from the exercise packege binder with the following exceptions:

a. Cue cards containing exercise classification announcements will be given to the participants to substitute for the announcements in the classification procedures.

               . b.       Chemistry sample data cue cards will be provided to the Chemistry l

personnel. 4.' Radiological data is normally provided only for areas affected by the postulated scenario conditions. If radiological data is not provided for an area, it may be c assumed that the area is not affected by scenario conditions and the participants L should use actual radiological measurements.

5. Monitors will not provide information to the exercise participants regarding scenario development or the expected rerolution of the problem. Exercise 1 l participants shall obtain information through the emergency organization using l their own judgment in problem solving.

6. Monitors should identify the Evaluator (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 activities.

7. Some of the exercise participants may insist that certain parts of the scenario are .

unrealistic. Any questions pertaining to portions of the scenario'which may be i

considered unrealistic by the participants will be resolved by the Controller for that area, except in cases specifically addressed in the scenario package.

8. Each Monitor should take rtetailed notes, using the Drill / Exercise Critique Sheet, ;

regarding the progress c' he exercise and the response of the exercise participants in their assigned area. Each Monitor 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. 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.

9. Monitors must abide by the restrictions imposed on exercise participants l

regarding the suspension of Smoking, Drinking and Eating when those rules applyi l L 10. Safety takes precedence over all other exercise requirements. Drill Control l Team members must ensure that the exercise participants, including Monitors, Observers, and Evaluators, follow all safety rules, take no unnecessary risks, use all safeguards and protective equipment provided and,make safety a part of their responsibilities. IX-7 L u

1 WATERFORD 3 SES BIENNIAL EXERCISE l OCTOBER 13,' 1999 s IX. DRILLTEAM INSTRUCTIONS (CONT'D) MONITOR INSTRUCTIONS (CONT'D) 10 Monitors 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. 1

            - Monitors and participants entering plant radiation controlled areas must observe        !

all applicable radiological control practicos. f EVALUATION

1. The exercise is expected to be completed at about 1:30 PM, October 13,1999.

            ' At this tirr,e, 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. At this time, the Monitors will discuss their observations with the participants.

2. 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, memos t.ad samples collected by the 5 eld monitoring teams.

3. The Monitors will meet with the Controllers on October 14,1999 at 07:00 AM in the Administration Building Assembly Room for the

            . purpose of providing their exercise evaluation comments to the Controllers. Each Monitor will be fully debriefed by the Controllers to complete the evaluation for each area.

4. Monitors, at the request of the Controller, may attend the Corttroller Debriefing on October 14,1999 at approximately 08:30 AM in the Administration Building Assembly Room.

                                                                                   ~

5. . Drill Control Team Documentation - Exercise Monitors will use the following 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 to maintain a comprehensive chronological description of the response, events and activities observed in their assigned area. These sheets are l completed during the conduct of the exercise.  !

b. - Drill / Exercise Evaluation Checklist - These checklists provide specific evaluation criteria for each area of response and should be used as a guide in your evaluation of the exercise. These checklists are normally completed after the exercise using the notes recorded on the Drill / Exercise Critique Sheets.

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i IX-8 k l

WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 IX. DRILL TEAM INSTRUCTIONS (CONT'D) OBSERVER INSTRUCTIONS Observers are personnel who serve no evaluation, drill control or participatory function in the exercise. Observers will report to the Controller for the area being observed and will not interfere with the exercise activities.

1. The exercise event times and scenario are confidential and should be kept confidential tnroughout the exercise. Observers shall not discust them with the exercise participants.

2. Observers shall obtain a white arm band from the Controller in the area being observed and wear it throughout the exercise.

3. Arm bands are worn during the exercise to identify the function of personnel as follows:

RED Arm Band Controllers GREEN Arm Band Monitors YELLOW Arm Band Participants WHITE Arm Band Observers /W3 Evaluators /QA BLUE Arm Band NRC Evaluetors

4. Observers shall not participate in the exercise nor interfere with the actions taken by the parti ipants, Controllers, Monitors or evaluators.

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 questions to the participants.

6. Within emergency response facilities, Observers shall position themselves such that status boards, charts, acc.ss to equipment, etc.

are not blocked. If congestion becomes a problem, Observers may be asked to leave temporarily by a Controller, Monitor or participant.

7. Observers must abide by the restrictions imposed on exercise participants regarding the suspension of Smoking, Drinking and Eating when those rules apply.

8. 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 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 emergen:y, follow the instructions of the Controller or Monitor in the area being observed.

   .         e.       Do not touch, or attempt to operate, any equipment in the emergency facilities.

IX-9 j

i WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 IX. DRILL TEAM INSTRUCTIONS (CONTb) i EVALUATOR INSTRUCTIONS - Evaluators are Waterford 3 management personnel who have no scenario development, 3

         - drill control or participatory function in the exercise. The purpose of the Evaluator position is to perform an independent review of the exercise activities. Evaluators are assigned to conduct an overall evaluation of major areas of emergency response,
         ' including participant response, drill control team performance and the critique process.

1.- Evaluators are invited, but not required, to attend the Scenario Package

                    .Walkdown Meeting in the Administration Building Assembly Room at 2:00 PM on           4 October 4,1999.
         - 2.        Evaluators must attend the Pre-Drill Briefing in the Administration Building Assembly Room at 2:00 PM on October 12,1999. At this time, the Evaluators will receive a copy of the scenario package and an Evaluator arm band.

3. The exercise event times and scenario are confidential and should be kept confidential throughout the exercise. Evaluators shall not discuss them with the exercise participants.

4. ' . Evaluators must be on station at least 15 minutes prior to the start of the exercise activities in their assigned areas on October 13,1999.

5. Evaluators shall not participate in the exercise nor interfere with the actions taken by the participants, Controllers, or Monitors. Within emergency response facilities, Evaluators shall position themselves such that status boards, charts, access to equipment, etc. are not blocked.

6. In order to avoid distractior.s to the participants during the exercise, Evaluators shall direct all questions to a Controller or Monitor. Only after the exercise has been terminated may the Evaluators direct questions to the participants.

7. Evaluators must abide by the restrictions imposed on exercise participants

                   . regarding the suspension of Smoking, Drinking and Eating when those rules apply.

8. The exercise is expected to be comp?cted at about 1:30 PM, October 13,1999.

At this time, the post exercise area critiques wili be conducted. Evaluators should observe and evaluate the post exercise critique process. l l 9.- Each Evaluator should take detailed notes, using the Drill / Exercise Critique ' Sheet, regarding the progress of the exercise, effectiveness of drill control and the response of the exercise participants in their assigned area. Controller _ comments should addrass the evaluation elements listed in the Drill / Exercise Evaluation Checklists.

10. The Evaluators are required to attend the Management Review Meeting on October 14,1999 at 1.00 PM in the GSB Conference Room 301 to discuss their exercise evaluation comments with W3 management.

11. Evaluators are invited, but not required, to attend the Participant Critique on October 18,1999 at 3:00 PM in the Administration Building Assembly Room. if attending this meeting, Evaluators should observe and evaluate the critique process and provide comments to the Lead Controller following the meeting.

IX-10

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WATERFORD 3 SES BIENNIAL EXERCISE OCTOBER 13,1999 X. REFERENCES A. Manuals .

               . . W3 SES Emergency Plan
               . W3 SES Final Safety Analysis Report B.  - Procedures W3 SEC Emergency Plan implementing and Supporting Procedures A

Plant Operating Manual C. Guidance Documents NUREG-0654/ FEMA-REP-1, Rev.1, Criteria for Preparation and Evaluatior of Radiological Emergency Response Plans and Preparedness in Support of Nuclear Power Plants D. Task Cards Periodic Drill Requirements Monthly - e 10 mile EPZ Communication Drill (Repetitive Task # 00060) Quarterly

                   . 50 mile EPZ Communication Drill (Repetitive Task # 00062)

Semi-Annual e Health Physics Drill Sample Analysis - Rad. Measurement (Repetitive Task # 00065) Annual

                   . Environmental Radiological Monitoring Drill (Pepetitive Task #00063) e  Communicatons Drill Between W3, EOC and Field Teams (Rep 2titive Task #00070) j     X-1               ,

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