ML17309A617

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EP Exercise Manual:1997 Plume Exposure EP Exercise.
ML17309A617
Person / Time
Site: Ginna Constellation icon.png
Issue date: 06/11/1997
From: Polfleit P, Watts R
ROCHESTER GAS & ELECTRIC CORP.
To:
References
NUDOCS 9707140147
Download: ML17309A617 (449)
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THE ROCHESTER GAS AND ELECTRIC CORPORATION GINNA STATION EIIERGENCY PREPAREDNESS EXERCISE MANUAL 1997 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE JUNE 11, 1997 PREPARED BY' Peter S. Poiflelt Corporate Nuclear Emergency Plan er APPROVED BY:

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Richard J. Watts Manager, Nuclear Assessment Rochester Gas and Electric Corporation CONTROLI ED COPY NO.

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ROCHESTER GAS AND ELECTRIC CORPORATION GINNA STATION

' 1997 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE FOREWORD This Exercise package has been developed to provide the basis for the conduct of a simulated radiological accident at the Ginna Station located in Ontario, New York. Through this Exercise, the capabilities and effectiveness of the Emergency Response Plans for the Rochester Gas and Electric Corpc ation, the State of New York, and Monroe and Wayne Counties will be evaluated. This package is to be utilized by the Exercise Controllers and observers to initiate, control and evaluate the activities of the participants in the Exercise.

The Rochester Gas and Electric Corporation and the State of New York approve this document as the standard for conduct in performance of the June 11, 1997, Emergency Preparedness Exercise.

THE ROCHESTER GAS AND ELECTRIC CORPORATION, GINNA STATION 199? PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE INTRODUCTION The Nuclear Emergency Response Plan (NERP) describes the emergency response capabilities for a nuclear emergency at the'Ginna Station, including support from Federal, State, and local government agencies and private organizations. The Nuclear Emergency Response Plan provides for continuous emergency preparedness, including an annual Exercise.

The purpose of the Plume Exposure Emergency Preparedness Exercise is to activate and evaluate major portions of the emergency response capabilities and other aspects of the Emergency Plan and associated Emergency Plan Implementing Procedures, in accordance with Nuclear Regulatory Commission (NRC)

Regulation 10CFR50.47(b) and Appendix E. This Exercise will be with the participation of the State of New York, and the Counties of Wayne and Monroe in order to assess State and Local Government Agency Emergency Response. The conduct and evaluation of the Exercise provide additional training for the Plume Exposure Pathway emergency response organization personnel and a means to further enhance Rochester Gas and Electric Corporation's emergency response capability.

This Exercise Manual has been developed to provide the basis for the conduct of a simulated radiological accident at the Ginna Station facility located in Ontario, New York. This manual is to be utilized by the Exercise Controllers to initiate, control, and evaluate the activities of the participants in the Exercise.

Exercise" la ers" will not have rior knowled e of the nature of the simulated incident or an arts thereof such asradiolo ical lumereleaseinformation includin times content sizeandweather attemused This Exercise Manual is the control mechanism for the conduct of the Exercise and consists of two parts.

Part I provides a general description and overview of the emergency Exercise. Part II contains the scenario and time schedule of simulated plant conditions. The Exercise Manual is subject to a limited, controlled distribution.

1997 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE SCENARIO DEVELOPMENT COMMITTEE Jim Zulawski Peter Polfleit Rick Jenkins Frank Cordaro Ken Masker Ron Ruedin Greg Rawa

GINNA STATION 1997 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE TABLE OF CONTENTS FOREWORD INTRODUCTION LIST OF LATERS SCENARIO DEVELOPMENT COMMITTEE TABLE OF CONTENTS LIST OF FIGURES 1.0 SCOPE AND OBJECTIVES 1.1 Scope 1.2 Onsite Objectives 1.3 Summary of Proposed Activities 1.4 Offsite Objectives - Attachment A 1.5 Offsite Proposed Activities - Attachment A 2.0 EXERCISE INFORMATION 2.1 Exercise Participants 2.2 Exercise Organization 2.3 Emergency Response Facilities 2.4 Exercise Conduct 2.5 Precautions and Limitations 2.6 Evaluation and Critique Oe 3.0 TRAVEL INFORMATION 3.1 Directions to Ginna Station 3.2 Directions to EOF, ESC and JENC 3.3 Accommodations

4.0 REFERENCES

/ABBREVIATIONS-ACRONYMS 4.1 References 4.2 Abbreviations-Acronyms 5.0 CONTROLLER AND EVALUATORINFORMATION 5.1 Controller Instructions 5.2 Evaluation Instructions 5.3 Personnel Assignments 5.4 Evaluation Packages 5.5 Public Information, Rumor Control 8 Spouse Phone Questions 6.0 SCHEDULE OF EVENTS I-6

GINNA STATION 1997 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE .

TABLE OF CONTENTS (Cont'd) 7.0 EXERCISE SCENARIO 7.1 Initial Conditions 7.2 'nsite Sequence of Events 8.0 'ESSAGE FORMS AND PLANT DATA SHEETS 9.0 ONNITE RADIOLOGICALAND CHEMISTRY DATA

'.19.2 9.3 Radiological Summary In-Plant Radiation Data Post-Accident Sampling Results 10.0 METEOROLOGICAL AND OFFNITE RADIOLOGICALDATA 10.1 Meteorological Data 10.2 Field Data and Maps 10.3 Field Air Isotopic Data

GINNA STATION 1997 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE TABLE OF CONTENTS (Cont'd)

LIST OF FIGURES SECTION 3.0 Figure 3.1 Directions to Ginna Station Figure 3.2 Map of Rochester and Vicinity Figure 3.3 Map of Rochester Central Business District Figure 3.4 Directions to State and Emergency Operations Center, Albany Figure 3.5 Map of State Office Building Campus, Albany SECTION 9.0 Figure 9.1 Assumed Source Term Figure 9.2 Plant Vent Concentrations Vs Time Figure 9.3 Primary Coolant Activity Vs Time Figure 9.4 Containment Radiation Level Vs Time Figure 9.5 In-Plant Survey Maps SECTION 10.0 Figure 10.1 Direction of Plume Figure 10.2 Plume Map (0-1 Mile)

Figure 10.3 Large Plume Map (0-10 Mile)

GINNA STATION 4

1997 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE TABLE OF CONTENTS (Cont'd)

LIST OF TABLES SECTION 1.0 Table 1.1 Proposed Onsite Activities SECTION 5.0 Table 5.1 RG8 E Onsite Controller Organization SECTION 9.0 Table 9.1 Assumed Release Quantities (Plant Vent)

Table 9.2 Equilibrium Reactor Coolant Activity Table 9.3 Post-Accident Reactor Coolant Samples (Gas)

Table 9.4 Post-Accident Reactor Coolant Samples (De-Gassed)

Table 9.5 Post-Accident Containment Sump Samples Table 9.6 Post-Accident Containment Air Samples Table 9.7 Hydrogen Concentrations Table 9.8 Boron, pH Table 9.9 Continuous Air Monitor Readings (Auxiliary Building)

SECTION 10.0 Table 10.1 Forecast Informatiori Table 10.2 Plume Arrival/Departure Times Table 10.3 Radiological Survey/Sampling Data (In Plume)

Table 10.4 Post-Plume Ground Survey Data (cpm)

Table 10.5 Post-Plume Micro-R/hr Data Table 10.6 Ground Data Isotopic Activity for Soil Samples

SECTION 1.0 SCOPE AND OBJECTIVES 1-1

SCOPE AND ONSITE OBJECTIVES - PLUME EXPOSURE PATHWAY

~Scc e The 199? Emergency Preparedness Plume Exposure Pathway Exercise will simulate accident events culminating in a radiological accident resulting in the activation of on-site and offsite facilities. The Exercise will involve events that test the effectiveness of the Ginna Station Emergency Preparedness Program and the integrated capabilities of. certain elements of the State of New York, Wayne County and Monroe County emergency organizations. The Exercise will include the limited mobilization of state and local resources adequate to verify their capability to respond to an accident at the Ginna Nuclear Power Plant.

Onsite Ob ectives for the 1997 Ginna Evaluated Plume Ex osure Pathwa Exercise The major objective of the Exercise is to demonstrate the response capabilities of the Rochester Gas and Electric Corporation Emergency Organization. Within this overall objective, numerous individual objectives are specified as follows:

Demonstrate the ability to mobilize, staff and activate Emergency Response Facilities promptly.

Demonstrate the ability to fully staff facilities and to maintain staffing on an around-the-clock basis through the use of relief shift rosters (limited shift changes may occur to allow for operational restrictions}.

Demonstrate the ability to make decisions and to coordinate emergency activities.

Demonstrate the adequacy of facilities and displays and the utilization of procedures to support emergency operations.

Demonstrate the ability to communicate with all appropriate locations, organizations, and field personnel.

Demonstrate the ability to mobilize and deploy Radiation Survey Teams.

Demonstrate the appropriate equipment and procedures for determining ambient radiation levels.

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Demonstrate the availability of appropriate equipment and procedures for measurement of airborne radioiodine concentrations as low as 1.0 E-7 uCi/cc in the presence of noble gases.

Demonstrate the availability of appropriate equipment and procedures for the collection of environmental samples.

Demonstrate the ability to project dosage to the public via plume exposure, based on Plant and field data, and to determine appropriate protective measures, based on items such as: plant conditions, Protective Action Guidelines, available shelter, evacuation time estimates, expected release duration.

Demonstrate the ability to notify offsite officials and agencies within 15 minutes of declaration of an emergency.

Demonstrate the ability to periodically update offsite officials and agencies of the status of the emergency based on data available at Ginna Station.

Demonstrate the ability to notify emergency support pools as appropriate (i.e., INPO, ANI, etc.).

Demonstrate the ability to notify onsite personnel using Plant alarms and public address systems.

Demonstrate the ability to effectively assess incident conditions and to properly classify the incident.

Demonstrate the organizational ability and resources necessary to manage an accountability of personnel within the restricted area.

Demonstrate the organizational ability and resources necessary to manage an orderly evacuation of restricted area personnel.

Demonstrate the organizational ability and resources necessary to control access to the site.

Demonstrate the ability to continuously monitor and control emergency workers'xposure.

Demonstrate the adequacy of facilities and displays to support the Joint Emergency News Center operations.

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0 1.2.21 Demonstrate the ability to brief the media in a clear, accurate, and timely manner.

1.2.22 Demonstrate the ability to provide advanced coordination of information released to the public.

1.2.23 Demonstrate the ability to establish and operate rumor control in a coordinated fashion.

1.2.24 Demonstrate the adequacy of in-plant post-accident sampling techniques and analyses.

1.2.25 Demonstrate the ability to develop proposed short term and long term actions to support Plant recovery.

1.2.26 Demonstrate the ability to isotopically analyze survey team field samples.

1.2.27 Demonstrate the adequacy of measures taken to correct principal findings and observations identified during the previous exercise.

1.2.28 Demonstrate the ability to conduct a post-exercise critique which adequately characterizes licensee performance based upon controller and observer assessments.

Note: *= Items identified by RG8E at 10/96 exercise critique.

0 = Observed during remedial exercise and subsequent drills.

1.3 Summa of Pro osed Activities Table 1.1 piovides a list of proposed RGB~E activities.

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TABLE 1.1 1994 GINNA STATION EMERGENCY PREPAREDNESS EXERCISE PLUME EXPOSURE PROPOSED ONSITE ACTIVITIES RGB E Notification of Agencies Actual Call-Up of Personnel Actual Activate Organization Actual Maintain Security Actual Conduct Dose Assessment Actual Protective Action Recommendations Actual Operate Joint News Center Actual EPZ Siren Activation N/A Route Alerting N/A EAS Message Broadcast Simulated Dispatch Field Survey Teams Actual-5*

Exchange of Field Data Actual Reception Center Setup N/A Congregate Care Center N/A School Bus Run N/A General Population N/A Traffic Control Points N/A Road Impediments N/A Coast Guard (notify only) N/A Mobility Impaired N/A

'Note: Field teams will be deployed and will demonstrate communications with respective emergency response facilities.

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SIMULATIONS o Respiratory protection and protective clothing will be simulated by survey teams outside the protected area. Personnel inside the protected area will don respiratory protection and protective clothing prescribed by Radiation Protection and Chemistry personnel according to postulated scenario plant conditions.

o Controllers should demonstrate the appropriate actions expected by players (e.g. frisking, no eating 8 drinking during habitability checks).

o In general, Exercise participants should follow applicable plant procedures as closely as possible, and will be stopped by Controllers before actual equipmerit is manipulated (except PASS). Simulated repairs and other corrective actions should be described to Controller/Evaluators as fully as possible.

1.4 OFFSITE OBJECTIVES AND EXTENT OF PLAY Offsite objectives and extent of play are described in the attached document.

The offsite objectives and extent of play have been agreed upon by Rochester Gas and Electric Corporation, The Federal Emergency Management Agency, The New York State Emergency Management Office, The Wayne County Office of Disaster Preparedness and The Monroe County Office of Emergency Preparedness.

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ROBERT E. GINNA NUCLEAR POWER PLANT

'f997 FULL SCALE EXERCISE SECTION 1 OFFSITE OBJECTIVES AND EXTENT OF PLAY ROBERT E. GINNA NUCLEAR POWER PLANT 1997 FULL SCALE EXERCISE OFFSITE OBJECTIVES AND EXTENT OF PLAY OBJECTIVE 1 OBIL 2ATION OF E ERGENCY PE SONNEL. 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.

Locations: SEOC, EOF, JENC, MCEOC, WCEOC, MCFA, WCFA Extent of Play:

Emergency personnel will be mobilized and emergency facilities activated as they would be in an actual emergency with the exception of the State staff in the JENC, EOF and EOC who will arrive no sooner than 30 minutes after the Alert

. declaration is received over the RECS line. See Section 3, Response by Facility/Team, for staffing limitations for Field Monitoring Teams, Reception Center, Congregate Care Center, Personnel Monitoring Center, bus routes, and

'l Traffic Control Points.

ARCAs: None OBJEC VE E -E UP E T S L S A WO K V Demonstrate the adequacy of facilities, equipment, displays, and other materials to support emergency operations.

Locations: SEOC, EOF, JENC, MCEOC, WCEOC, MCFA, WCFA Extent of Play:

Facilities, equipment and displays will be set-up and used as they would in an actual emergency. See Section 3, Response by Facility/Team, for set-up limitations for the Reception Center, Congregate Care Center and Personnel Monitoring Center.

ARCAs: None 4/1 0/97

OBJECTIVE 3: DIRECTION AND CONTROL. Demonstrate the caPability to direct and control emergency operations.

Locations: SEOC, EOF, JENC, MCEOC, MCFA, WCEOC, WCFA Extent of Play:

Direction and control will be demonstrated as they would in an actual emergency.

ARGAs: JENC-27-95-03-A-01 OBJECTIVE 4: COMMUNICATIONS. Demonstrate the capability to communicate with all appropriate emergency personnel at facilities and in the field.

Locations: SEOC, EOF, JENC, MCEOC, MCFA, WCEOC, WCFA Extent of Play:

Communications systems will be demonstrated as they would in an actual emergency.

ARCAs: None OBJEC VE 5 E E GENG WO KE POSU E CO 0, Demonstrate the capability to continuously monitor and control radiation exposure to emergency workers.

Locations: SEOC, EOF, JENC, MCEOC, MCFA, WCEOC, WCFA Extent of Play:

A controller inject will cause the County Radiological Officer and each County Field Monitoring Team to discuss actions for exposure rate in excess of the turn-ARCAs: 'C back value. The term exposure limit is used by all other emergency workers.

(RC/CC) 27-95-05-A-03 1-2 4/10/97

OBJECTIVE 6: FIELD RADIOLOGICAL ONITORING. Demonstrate the appropriate use of equipment and procedures for determining field radiation measurements.

'Locations: MCEOC, MCFA, WCEOC, WCFA Extent of Play:

r Each County will dispatch one Field Monitoring Team. Each team will take radiation measurements, some of which may be the same locations, but at different times in the scenario. The teams will not suit up in anti-contamination clothing, however, one member will suit up at FEMA'S request at the dispatch point or PMC. RGE field monitoring will be in accordance with the plans and the protocol established in support of Wayne and Monroe Counties. Monroe may use radio controlled survey meters for exercise purposes.

ARCAs: WCFA, 27-95-06-A-02 OBJECTIVE . PLV E DOSE PROJECTIO . Demonstrate the capability to develop dose projections and protective action recommendations regarding evacuation and sheltering.

Locations: SEOC (Only if the governor declares a State of Emergency.), MCEOC, WCEOC Extent of Play:

Dose projections and protective action recommendations will be demonstrated as they would in an actual emergency.

ARCAs. None 1-3 4I10I97

,l OBJECTIVE 8: FIELD RADIOLOGICALNIONITORING - AIRBORNE RADIOIODINE AND P RTICULATE ACTIVITYII/IONITORING. Demonstrate the appropriate use of equipment and procedures for the measurement of airborne radioiodine concentrations as Iow as microcuries per cubic centimeter in the presence of noble gases and obtain10'0.0000001) samples of particulate activity in the airborne plume.

Locations: MCEOC, MCFA, WCEOC, WCFA Extent of Play:

Silver zeolite cartridges will be used. The teams wilt not suit up in anti-contamination clothing, however, one member may suit up at FEMA's request.

County EOC staff and the Field Monitoring Teams can be questioned regarding procedures and resources to transport samples to a central point for transfer to the State laboratory (Albany). There will be no transport of samples to either the transfer point or the State laboratory (Albany). RGE monitoring team will provide air sampling data in accordance with the plans and established protcol established ARCAs'one OSJ CTV 9 PL E P OTEC 0 C ION DECISIO A ING. Demonstrate the capability to make timely and appropriate protective action decisions (PAD).

Locations: SEOC (Only if the governor declares a State of Emergency.), MCEOC, WCEOC Extent of Play:

Protective act!on decision ' king will be demonstrated as it would in an actual emergency.

ARCAs: None

- 1-4 4/10/97

OB JECTIVE 10: ALERT AND NOTIFICATION. 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.

Locations: SEOC (Only if the governor declares a State of Emergency.), JENC, MCEOC, WCEOC, WHAM Extent of Play:

EAS messages will be developed and sent to WHAM. There will be no broadcast of EAS messages. In addition, siren and tone alert activations will be simulated.

Back-up route alerting of one route (selected by the FEMA evaluator) will be discussed at the County EOC.

ARCAs: Non OBJECTIVE 11 PUBLIC IN T UCTIO S ND E E GENC INFORM TION. Demonstrate the capability to coordinate the formulation and dissemination of accurate information and instructions to the public.

Locations: SEOC (Only if the governor declares a State of Emergency.), JENC, MCEOC, WCEOC Extent of Play:

EAS messages will be formulated and simulated to be disseminated as they would in an actual emergency. There will be only one (1) simulation of airing of the EAS message. This will be the first EAS message. The last time to be recorded (clock stopped) is the time at which the EAS message begins to be broadcast (first 3 words read of the t !k-up aftor "this is a drill").

ARCAs: None 1-5 4/1 0/97

OBJECTIVE 12: EMERGENCY INFORMATION - MEDIA. Demonstrate the capability to coordinate the development and dissemination of clear, accurate, and timely information to the news media.

Locations: JENC Extent of Play:

Information will be developed and disseminated to the media as it would in an actual emergency.

ARCAs: None OBJECTIVE 3: EME ENC OR ON- RU O CONTRO . Demonstrate the capability to establish and operate rumor control in a coordinated and timely manner.

Locations: JENC Extent of Play:

Rumor control will be demonstrated as it would in an actual emergency. Rumor ARCAs: None 1-6 4/10/97

OBJECTIVE 14: IMPLEMENTATIONOF PROTECTIVE ACTIONS - USE OF Kl FOR EMERGENCY WORKERS INSTITUTIONALIZEDINDIVIDUALS AND THE GENERAL PUBLIC. Demonstrate the capability and resources to implement potassium iodide (Kl) protective actions for emergency workers, institutionalized individuals, and, if the State plan specifies, the general public.

Locations: SEOC, MCEOC, MCFA, WCEOC, WCFA Extent of Play:

In accordance with the State and County plans, Kl is not provided to the general public. The State and County dose assessment groups discuss the need to authorize the administration of Kl. Emergency workers in the EPZ at risk of exposure to radioactive iodine will be issued KI along with their dosimetry prior to dispatch to the field.

ARCAs: None OBJECTIVE15:

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P E ENT TON OF protective actions for special populations.

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OTEC IVE CTONS-SPECl Locations: MCEOC, WCEOC Extent of Play:

Call lists will be available at the County EOC for special facilities and for the non-institutionalized hearing impaired and mobility impaired individuals. All calls will be simulated. One ~~ population bus route will be demonstrated. The bus driver will assemble at the normal dispatch location for briefing, assignment and dispatch. The bus, or similarly equipped vehicle, will complete the assigned routes but will not make any stops. The route will be completed after the last pickup point and a discussion of the route to be taken to the Reception Center at which time the bus and driver will be returned to service following contact with the County EOC. (See section 3 for time and dates)An interveiw of a second driver will occur at the point of dispatch.

ARCAs: None 1-7 4/10/97

OB JECTIVE 16: IIVIPLEMENTATIO OF PROTECTIVE ACTIONS - SCHOOLS. Demonstrate the capability and resources necessary to implement protective actions for school children within the plume pathway emergency planning zone (EPZ).

Locations: MCEOC, MCFA, WCEOC, WCFA Extent of Play:

Bus route)s) will be demonstrated in each county. Monroe- 1 route, Wayne-4 routes. The bus driver will assemble at the normal dispatch location for briefing, assignment and dispatch. The bus, or similarly equipped vehicle, will complete the assigned routes but will not make any stops. The routes will be completed after arrival at the school and a discussion of the route to be taken to the Student Center/School Receiving District at which time the bus and driver will be released following contact with the County EOC. School interviews will be performed prior to the exercise in coordination with Monroe and Wayne Counties.(See section 3 for time and dates)

ARCAs: None OBJECT YE ~

F C 0 CC S CO T O . Demonstrate the organizational capability and resources necessary to control evacuation traffic flow and to control access to evacuated and sheltered areas.

Locations: MCEOC, MCFA, WCEOC, WCFA Extent of Play:

At the EOC Traffic Control Points are to be free played in sequence with the exercise scenario. Free play messages are to be inserted at the County EOC to the State Controller. Information will be passed on to the County Emergency Management Director or her designee for action and dispatching of police officers.

The interviews of law enforcement will be conducted in the field in sequence with the exercise scenario.

ARCAs: None W N 0 C 0 amreanzr.

personnel for the radiological monitoring, decontamination, and registration of evacuees.

1-8 4/10/97

Locations: Monroe County: Greece Olympia Wayne County: Newark High School Extent of Play:

NOTE:SEMO, Wayne County, Monroe County and FEMA have agreed that the reception centers will be demonstrated under the following schedule:

Wayne County - 4/30'830-completion Monroe County - 7/30 1000-1300, It will be the responsibility of FEMA to have evaluators available at the times agreed upon. FEMA evaluators should advise the participants when their evaluation is complete so that participants can resume their normal duties. Vehicle monitoring and decontamination will be observed first by FEMA evaluators.

The Reception Center at Greece Olympia High School in Monroe County and the Reception Center at the Newark High School in Wayne County will be demonstrated out of sequence with the scenario. The facility is staffed with enough equipment and personnel to monitor 20 jo of the EPZ population (as defined in the plan) in 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />. Reception centers will not be setup in advance.

Please note that Federal evaluators ~m'~~i use a hidden source (such as lantern mantle) to test the skills of the monitors. The demonstration will be limited to include:

~ One vehicle monitoring station with at least 1 monitor monitoring at least 2 vehicles; One portal monitoring station monitoring at least 6 individuals; One registration station (social services) with 2 personnel registering at least 2 individuals each; One male and one female decon station with 2 monitors (one each) to simulate at least 1 personnel decon each; One vehicle decon station with at least 1 monitor to simulate at least 2 vehicle decons.

1-9 4/10/97

~ One vehicle monitoring station with at least 1 monitor monitoring at least 2 vehicles;

~Tw portal monitoring station monitoring at least 6 individuals;

~ One registration station (social services) with 2 personnel registering at least 2 individuals each;

~ One decon station (male or female) with 2 monitors will be set-up during the exercise to simulate at least 1 personnel decon each;

~ One vehicle decon station with at least 1 monitor to simulate at least 2 vehicle decons.

Other staff will be demonstrated through the use of rosters. Evacuees, some of which will be contaminated using controller inject messages, will be simulated by members of the facility staff. The facility will be set up as it would be in an actual emergency with all route markings and contamination control measures in place with the exception that Reception Center floors will not be covered with paper/plastic. Monitors will not suit up in anti-contamination clothing although one monitor may suit up at FEMA's request.

ARCAs'one 1 -10 4/10/97

OBJECTIVE 19: CONGREGATE CARE. Demonstrate the adequacy of facilities, equipment, supplies, personnel, and procedures for congregate care of evacuees.

Locations: Monroe County:Greece Olympia High School Wayne County:Kelley Middle School Extent of Play:

NOTE: SEMO, Wayne County, Monroe County and FEMA have agreed that the congregate care will be demonstrated under the following schedule:

Wayne County - 4/30 1830-completion Monroe County - 7/30 1000 -1300 It will be the responsibility of FEMA to have evaluators available at the times agreed upon. FEMA evaluators should advise the participants when their evaluation is complete so that participants can resume their normal duties.

The facility will be demonstrated out of sequence with the scenario by a walkthrough of the facility with the Shelter Manager, Registrar and one support staff. The facility will not be set up nor will equipment and supplies be brought to the center. Center personnel will make estimates of supplies required for the potential evacuees.

ARCAs: None OBJEC IV 0 ED C LSERV CES-T SPOR 0 . Demonstrate theadequacyof vehicles, equipment, procedures, and personnel for transporting contaminated, injured, or exposed individuals.

Locations: Monroe County: Monroe Community College Extent of Play:

An ambulance crew and one (1) monitor will be stationed at the Reception Center in sequence with the scenario. An individual with a simulated injury and contamination will be presented. The individual will be surveyed, administered first aid and placed in the ambulance. The drill will end when the vehicle is ready to depart with the victim. Communications will be simulated and include information relative to ETA, patient status, etc. This objective will be demonstrated out of sequence on 7/30 1400-completion.

ARCAs: None 4/10/97

OBJECTIVE 21: MEDICAL SERVICES - FACILITIES. Demonstrate the adequacy of equipment, procedures, supplies, and personnel of medical facilities responsible for treatment of contaminated, injured, or exposed individuals.

Locations:

Extent of Play:

ARCAs: None OBJ CTIVE2: EMERG NCYWO ERS E UIPME T ND VE ICLES- MONITO ING NDDECONTA INATIO . Demonstratetheadequacyof proceduresforthemonitoringand decontamination of emergency workers, equipment, and vehicles.

Locations: Monroe County: Culver Road Armory Wayne County: Wayne County Highway Department Garage in Lyons Extent of Play:

The Personnel Monitoring Centers (PMC) at the Culver Road Armory in Monroe County and at the Highway Department Facilities in Wayne County will be demonstrated h f r i . A controller will provide simulated contamination levels to drive demonstration of the various activities. The demonstration will be limited to include:

One station for vehicle monitoring with at least 1 monitor monitoring at least 2 vehicles; One personnel monitoring station to monitor at least 2 individuals; One personnel decon station with 1 monitor to simulate at least 2 personnel decons, One vehicle decon station with at least 1 monitor to simulate at

.least 1 vehicle decon.

Other staff will be demonstrated through the use of rosters. Contaminated individuals will be simulated by members of the facility staff. The facility will be set up as it would be in an actual emergency with all route markings and contamination control measures in place with the exception that PMC floors will not be covered with paper/plastic. Monitors will not suit up in anti-contamination clothing although one monitor may suit up at FEMA's request. Monroe may use radio controlled survey meters for exercise purposes only.

ARCAs: None The following objectives are not included in this revision in that they have been demonstrated previously and will not de demonstrated during this 1-12 4/10/97

exercise.

OBJECTIVE 23: SUPPLEMENTARY ASSISTANCE FEDERAL/OTHER . Demonstrate the capability to identify the need for external assistance and to request such assistance from Federal or other support organizations.

Date demonstrated ~7I1 I Next year required for demonstration ~199 OBJECTIVE 24: OS -E ERGENCY SAMPL NG. Demonstrate the use of equipment and procedures for the collection and transportation of samples from areas that received deposition from the airborne plume.

Date demonstrated ~f5/I'3 Next year required for demonstration ~1 OBJEC IVE 25 L BO A 0 0 ER IONS. Demonstrate laboratory operations and procedures for measuring and analyzing samples.

Date demonstrated ~~1/93 Next year required for demonstration ~1/9 OBJECTIV 6 ING S ONE PO U W - DO E P OJECTIO ND OTECT VE CTION DECIS 0 A I G. Demonstrate the capability to project dose to the public for the ingestion exposure pathway and to recommend protective actions.

Date demonstrated ~71~/3 Next year required for demonstration ~QQ OBJEC'DVE 27~IGES ION EXPOSURE THW - DOSE P OTEC IVE C IO P E T 0 . Demonstrate the capability to implement protective actions for the ingestion exposure pathway.

Date demonstrated ~~9/ Next year required for demonstration ~99 OBJEC V 28' OCA IO -EN ND U - DECl 0 I G.

Demonstrate the capability to develop decisions on relocation, re-entry, and return.

Date demonstrated ~~/3 Next year required for demonstration ~99 OBJ C IV 9' 0 D U Demonstrate the capability to implement relocation, re-entry, and return.

Date demonstrated ~1553 Next year required for demonstration ~99 B OU 4- 0 . Demonstrate the capability to maintain staffing on a continuous, 24-hour basis through an actual shift change.

1-13 4/10/97

Date demonstrated 11/1 7/93 Next year required for demonstration ~199 OBJECTIVE 31: OFFSITE SUPPORT FOR THE EVACUATION OF ONSITE PERSONNEL.

Demonstrate the capability to provide offsite support for the evacuation of onsite personnel.

OBJECTIVE 32 UNANNOUNCED EXERCISE OR DRIL . Demonstrate the capability to carry out emergency response functions in an unannounced exercise or drill.

Date demonstrated ~16 Next year required for demonstration ~0~1 OBJECTIVE33 0 F-HOU S E E CISE D ILL. Demonstratethecapabilitytocarryout emergency response functions during an off-hours exercise or drill.

Date demonstrated ~195 Next year required for demonstration ~g01 1 -14 4/10/97

ROBERT E. GINNANUCLEARSOWER PLANT 1997 FULLSCALE EXERCISE OFFSITE OBJECTIVES AND EXTENT OF PLAY OVERVIEW c ct Warning Point Actual Actual'ayne Actual Actual EOC Actual'OF Actual Actual'ctual'/A JENC Actual Actual Reception Center Actua Actual' Congregate Care Center N/A Actual'6 Actual'ctual Emergency Worker PMC None Actual'imulated Siren Activation N/A Simulated EAS Formulation Actual2 Actual EAS Broadcast Simulated'1 Simulated'1 Simulated'1 test only) test only) test only)

Route A>e~in

-Primary N/A N/A N/A

-Backup N/A 1-EOC 1-EOC Discussion Discussion Field Monitoring Teams N/A 1-Actual Team 1-Actual Team 1-RGE Team 1-RGE-Team

'taKng is limited as described in the objective/extent of play To be demonstrated at the SEOC should the governor declare a State of Emergency

'News releases willbe developed and simulated to be disseminated from the State EOC 4

EAS Message willbe sent to WHAMbut no test message willbe broadcast 2-1 4/10/97

t ate Wp~~e Special Population Bus Run N/A 1-Actual 1-Actual School Evacuation Bus Run N/A 1-Actual 4-Actual Notification of N/A Simulated via Simulated via Hearing Impaired EOC Discussion EOC Discussion Evacuation of-Mobility N/A Simulated via N/A Impaired EOC Discussion (None in EPZ)

-Special Population Evacuation of Mobility N/A Simulated via Simulated via Impaired EOC Discussion EOC Discussion

-Non-Institutionalized Traffic Control Points N/A 2-Actual 2-Actual Impediments to Evacuation N/A Simulated via Simulated via EOC Discussion EOC Discussion Discussion Discussion School Interviews N/A 1-Actual'ctual'iscussion 4-Actual' Medical Drill- Hospital 5/A Number of school districts in EPZ Out of sequence with the exercise 2~2 4/10/97

e SECTION 2.0 EXERCISE INFORMATION 2-1

2.0 EXERCISE INFORMATION 2.1 Exercise Partici ants The participants in the Exercise will include the following:

2.1.1 ROCHESTER GAS AND ELECTRIC CORPORATION A. Facilities Mana ement and Su ort Personnel

1. Simulator Control Room
2. Technical Support Center (TSC)
3. Operations Support Center (OSC)
4. Survey Center (SC)
5. Emergency Operations Facility (EOF)
6. Joint Emergency News Center (JENC)
7. Engineering Support Center (ESC)

B. Emer enc Res onse Teams Radiation Survey Teams (RSTs)

2. First Aid Team (if necessary)
3. Emergency OSC Teams
4. Security Force
5. Post Accident Sampling System (PASS) Team

- 6.

7.

Chemistry/Health Physics Support Fire Brigade (if necessary) 2.1.2 OFFSITE AGENCIES/ORGANIZATIONS Participation of the following agencies/organizations is expected:

A. Federal Nuclear Regulatory Commission

2. National Weather Service
3. Other Supporting Federal Agencies 2-2

B. State New York State Emergency Management Office

2. New York State Department of Health
3. New York State Police
4. Other Supporting State Agencies C. Local
1. Wayne County
2. Monroe County
3. Other Supporting County Agencies

.2.2 Exercise Or anization The organization for this Exercise will consist of the Exercise Coordinator, the Controllers, the Players and the Observers, as follows:

2.2.1 The Exercise Coordinator will coordinate Exercise preparations including the development of the scenario and controller input messages. He will control all aspects of the conduct of the Exercise, prepare a consolidated evaluation and critique report at the conclusion of the Exercise, and prepare and - follow up on an itemized list of corrective actions recommended as a result of the evaluation and critique.

2.2.2

~ ~ Controllers are qualified persdnnel selected to perform functions as follows:

A. A Lead Controller is assigned to each emergency response facility.

The Lead Controller is responsible for all Controller, Evaluator and Observer activities for that facility and, if appropriate, its associated teams. Controllers for teams or sub areas of a facility report to the Lead Controller of that facility.

2-3

B. The Controllers will deliver "Exercise'Messages" to the designated Players at various times and places during the Exercise, inject or deliver additional messages as may be required to initiate the appropriate Player response and keep the Exercise action moving according to the scenario and Exercise objectives, observe the Exercise participants at their assigned locations, and prepare evaluation forms. Controllers/Observers submit written recommendations on corrective actions to the Lead. Controller, who in turn summarizes all comments for submittal to the Exercise Coordinator prior to the scheduled critique. The Controllers will be provided with a list of instructions in the Exercise scenario.

C. Persons designated as Controllers/Observers for a given function will also be assigned as Evaluators of that function when feasible.

Evaluators will record their observations using an evaluation form and provide recommendations on corrective actions to the Lead Controller in whose facility they evaluate exercise performance on the basis of standards or requirements contained in the appropriate Emergency Plan, Implementing Procedures, and Exercise messages as described herein. They will take steps, whenever possible, to collect data on the time and motion aspects of the activity observed for post-Exercise use for implementing improvements.

Controllers wiH be identified b wearin reen bad es with white letterin statin "Controller".

~Pla ers include Ginna Station and other Rochester Gas and Electric Corporation personnel assigned to perform emergency functions, as described in the Emergency Plan and implementing Procedures. Players from offsite organizations and agencies (County and State) are participants in the Exercise as described in their respective Emergency Plans and Standard Operating Procedures.

Observers from the Rochester Gas and Electric Corporation and other organizations may be assigned on a limited basis, for the sole purpose of observing Exercise activities for personal education. They will not be provided scenario information.

Observers will be identified b wearin blue bad es.

2-4

Requests to participate as a Observer should be made in writing and contain the Visitor's full name, home addtess, phone number and organization affiliation. Requests to participate as Observers must be submitted to the RG8E Corporate Nuclear Emergency Planner (CNEP) no later than one week before the Exercise.

2.3 Emer enc Res onse Facilities During the Exercise, special facilities must be activated to manage, assess and support emergency response.

RGKE FAClLITlES The Rochester Gas and Electric Corporation Emergency Response Facilities are:

A. Similator Control Room The Ginna Simulator Control Room will be used. Control Room emergency response measures will be exercised under the direction of the Exercise Shift Supervisor, acting as the Emergency Coordinator, until relieved by the Plant Manager or alternate. The Simulator Control Room is located-in the Simulator Building next to the Ginna Training Center.

B. Technical Su ort Center TSC When emergency conditions escalate to an Alert status or higher, coordination of the emergency response will shift from the Control Room to the TSC, located off the Mezzanine Level of the Turbine Building The TSC Director relieves the Shift Supervisor as Emergency and directs activities from the TSC. The TSC is the 'oordinator location from which technical management personnel utilize information on Plant status provided in the TSC to support actions being performed in the Control Room. The TSC serves as the primary communications source to the NRC, OSC, EOF and offsite agencies, and will perform other functions of the EOF until the EOF is activated.

C. 0 erations Su ort Center The OSC, which is located in the TSC, provides a location where emergency response teams can be assembled and coordinated during an emergency. The OSC will be activated for emergency conditions classified as an Alert or higher, and may be activated for an Unusual Event at the discretion of the Emergency Coordinator.

2-6

O. Emer enc 0 erations Facili EOF The EOF, which is located in the basement of 49 East Avenue in Rochester, will be activated for emergency conditions classified as a Site Area Emergency or General Emergency (optional for the Alert status). The EOF/Recovery Manager directs the activities of the EOF/Recovery Organization from the EOF.

The TSC Emergency Coordinator reports to the EOF/Recovery Manager. The EOF is the command post for coordination of response measures with offsite organizations, assessment of radiological and environmental conditions and determination of recommended protective actions for the public. The EOF also provides direction and management of recovery operations.

E. Joint Emer enc News Center JENC The JENC, which is located at 89 East Avenue in Rochester, provides the point of contact for the coordinated release of news and information to the news media and the general public. The JENC is staffed by RG8 E Corporation, County, State and Federal officials and will be activated for emergency conditions classified as an Alert, Site Area Emergency or General Emergency.

2-7

2.4 Exercise Conduct 2,4.1 Overview The Exercise will simulate an abnormal radiological incident at Ginna Station which will start with an Unusual Event and escalate to a General Emergency.

During the course of the Exercise, in order to evaluate coordination with appropriate State and local agencies, incidents will arise which require response by offsite emergency response organizations/agencies. The Exercise will also simulate an offsite radiological release which will require deployment of Ginna Station, and Wayne County and Monroe County radiological survey teams for offsite monitoring.

The conduct of the Exercise will demonstrate the effectiveness of selected organizations, personnel, functions, and/or activities of the appropriate Emergency Plans and implementing Procedures. The simulated emergency will then de-escalate. Recovery/Re-entry discussions and planning will be initiated and the Exercise will then be terminated.

2.4.2 Actions Emergency response actions during the simulated emergency will include:

recognition and classification of emergency conditions; assessment of onsite/offsite radiological consequences; alert/notification and mobilization of emergency response organizations; implementation of in-Plant corrective actions; activation/operation of emergency response facilities and equipment; preparation of reports, messages and record-keeping; and recommendation of protective actions, 2-8

Communications The Exercise will also demonstrate the effective use of communications systems. An actual emergency operation usually requires the extensive use of both telephone and radios. The telephone is the primary means of communication and will be attempted first, with radio as a backup, unless radio is the'only means available. Separate telephone numbers will be used for Controller communications to prevent the Players from learning in advance of the situation to which they are to be subjected during the Exercise. Close cooperation and coordination among Controllers is essential due to the number of persons assigned to the Controller role.

RGB E offsite radiation survey teams are equipped with portable radios, and are provided cellular telephones for back-up communications. Survey team controllers are encouraged to use the cellular telephones if clarifications of controller instructions are required while in the field.

Controllers Lead Controllers will be stationed in the Simulator Control Room OSC FBC EOF JEMC d~CEOC . 0 Iyd dd I II dIE Exercise messages or initiate free play messages.

A. The Simulator Control Room will be the central point for organization of Exercise messages and is the key to ensuring that the Exercise progresses on schedule. Simulated Plant parameters will be provided to the Simulator Control Room operators using Ginna Simulator. Since it is necessary that the emergency escalate to the General Emergency level, it may be necessary to postulate non-credible situations. The o erators will acce t the Exercise conditions as dis la ed. If corrective actions are postulated that would terminate the emergency,'hey should be identified to the Lead Controller in the affected facility so that the scenario will progress as designed. The Exercise Players are expected to "free play" the scenario to the extent practical. Notifications of, and contact with, supervisors, Plant management and offsite agencies will be made in accordance with the Emergency Plan Implementing Procedures.

2-9

B. The TSC will be the coordination point for onsite emergency response activities. TSC personnel will also coordinate offsite emergency response activities until activation of the EOF. TSC and EOF personnel will be aware that if the Exercise is to proceed as planned, and if the offsite organizations are to be exercised, it may be necessary to postulate non-credible situations. This is done to ensure that various aspects of the onsite and offsite emergency response organizations are tested. TSC and EOF ersonnel.will acce t Exercise conditions as resented. The intended res onse is not to ex lain wh a situation could not occur but to react as thou h it did occur. If corrective actions are postulated that would terminate the emergency, they should be noted to the Lead Controller.

The Exercise Players in the TSC and EOF are expected to "free play" the scenario to the extent practical. Notifications of, and contact with, supervisors, Plant management and offsite agencies should be made in accordance with the Emergency Plant Implementing Procedures.

The scenario is designed to activate on-site and offsite emergency response capabilities.

The Lead Controller may inject other information or change a message to ensure that the Exercise progresses as planned.

~Pla ers The success of the Exercise is, largely dependent upon Player reaction, Player knowledge of their appropriate Emergency Plan and Implementing Procedures and an understanding of the purpose of the Exercise. Initial conditions which will affect Player action or reaction will be provided to the Players at the time the Exercise begins. However, most of the elements of the Exercise play will be introduced through the use of controlled Exercise message forms and messages generated by Players as a result of the particular emergency activity performed. Players, therefore, are responsible for initiating actions during the Exercise in accordance with instructions, responsibilities and tasks for their particular function. Each Player will advise his/her Controller prior to performing required emergency actions during the play of simulated activities to ensure that the Player is credited for his/her actions. ~

2-10

Players are reminded not to be excessively concerned with the mechanics or cause of the Exercise scenario. This Exercise is designed to evaluate the Emergency Plan, Implementing Procedures and emergency preparedness training program and not the probability, feasibility or detailed mechanics of the simulated accident. Additionally, the Exercise is a training vehicle for Rochester Gas and Electric Corporation personnel to practice coordinating with outside organizations in a simulated emergency environment. Pla ers should note an needed im rovements that come to their attention durin the Exercise and submit them to the a ro riate Controller at the conclusion of the Exercise.

2.5 Precautions and Limitations ~

This section provides information for all Exercise Controllers and Observers related to the rules and guidelines to be followed throughout the conduct of this Exercise. Prior to initiation of the Exercise, a pre-Exercise briefing will be held to review the entire Exercise process with all the Exercise Controllers and Observers identified in this manual.

A. Should at an time durin the course of the conduct of this Exercise an actual emer enc situation arise all activities and communications related to the Exercise will be sus ended. It will be the responsibility of any Exercise Controller or Observer that becomes aware of an actual emergency to suspend exercise response in his/her immediate area and to inform the Lead Exercise Controller of the situation. Upon notification of an actual emergency, the Lead Exercise Controller may notify all other Controllers/Observers to suspend all Exercise activities.

The Lead Exercise Controller will make a determination at that point whether to continue, place a temoorary hold nn, or terminate the Exercise.

B. Should, at any time during the course of the conduct of this Exercise, an Exercise Controller or Observer witness an Exercise participant undertake any action which would, in the opinion of the Controller/Observer, place either an individual or component in an unsafe condition, the Controller/Observer is responsible for intervening in the individual's actions and terminating the unsafe activity immediately. Upon termination of the activity, the Controller/Observer is responsible for contacting the Lead Exercise Controller and informing him of the situation. The Lead Exercise Controller will make a determination at that point whether to continue, place a temporary hold on, or terminate the Exercise.

2-11

C. No pressurization of fire hoses, discharging of fire extinguishers, or initiation of any fire suppression systems will be required for the Exercise.

D. Manipulation of any Plant operating systems (except for the PASS system), valves, breakers, or controls in response to this Exercise are only to be simulated. There is to be no alteration of any Plant operating equipment, systems or circuits during the response to this Exercise.

E. All repair activities associated with the scenario will be simulated with extreme caution emphasized around operating equipment.

F. All telephone communications, radio transmissions and public address announcements related to the exercise must begin and end with the statement, "This is an exercise". Should a Controller or Observer witness an Exercise participant not observing this practice, it is the Controller's/Observer's responsibility to remind the individual of the need to follow this procedure.

G. Any motor vehicle response to this Exercise, whether it be ambulance, fire fighting equipment, police/security vehicles or field monitoring teams, should observe all normal motor vehicle operating laws included posted speed limits, stop lights/signs, one way streets, etc.

Should any onsite security actions be required in response to this Exercise, participants are to cooperate as directed by the Security Force, and security representatives are to be prudent and tolerant in their actions.

Exercise participants are to inject as much realism into the Exercise as is consistent with its safe performance; however, caution must be used to prevent over-reaction.

Care must be taken to assure that any non-participating individuals who may observe Exercise activities or overhear Exercise communications are not misled into believing that an actual emergency exists. Any Exercise Controller or Observer who is aware of an individual or group of individuals in the immediate vicinity who may have become alarmed or confused about the situation, should approach that individual or group and explain the nature of the Exercise and its intent.

2.6 Evaluation and Criti ue The Exercise will be evaluated by Controllers/Observers who have expertise in, or qualifications to evaluate the activity in their assigned location. Controllers/Obsewers will evaluate Exercise performance on the basis of requirements contained in the Emergency Plan Implementing Procedures and Exercise messages. Controllers/Observers will prepare evaluation forms and provide recommendations on corrective actions to the Exercise Coordinator.

After the Exercise is completed, the Exercise Coordinator will conduct a post-Exercise critique. Deficiencies in the Emergency Plan, Implementing Procedures, emergency preparedness training program, facilities, equipment and/or other areas will be identified through the critique process.

The deficiencies wilt be documented by the Exercise Coordinator and corrected by the individuals who have responsibility in the area of the identified deficiency.

Controller and Observer information is contained in Section 5.0.

The schedule for the critiques is shown in Section 6.0.

2-13

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SECTION 3.0 TRAVEL INFORMATION 3-1

3.0 TRAVEL INFORMATlON This section of the Ginna Station Exercise Manual provides travel information to those individuals from RG8 E, other utilities, local/State/Federal government, and/or other organizations who will participate/observe the Drill.

Permission for Visitors to observe the Exercise must be obtained from:

Mr. Peter Polfleit Corporate Nuclear Emergency Planner Rochester Gas and Electric Corporation 49 East Avenue Rochester, NY 14649-0001.

3.1 Directions to Ginna Nuclear Station Ginna Station is located on the southern shore of Lake Ontario in Wayne County, New York, approximately 24 miles northeast of Rochester, New York (see Figure 3.1).

3.1.1 Air Several airlines provide passenger service to the Rochester-Monroe County Airport.

3.1.2

~ ~ Car A. Several car rental agencies are available at the Rochester-Monroe County Airport to provIde rental vehicles for ground transportation to Ginna Station.

B. Persons traveling from the Rochester-Monroe County Airport via auto should take Route 204 East to Route 390 South. Route 390 becomes Route 590 as one proceeds around the Outer Loop. Follow Route 590 North to Route 104 East. Follow Route 104 to Route 350 (Ontario Center Road). Turn left (North) and proceed to Ginna Station.'otal distance is approximately 40 miles.

3.2 Directions to the EOF ESC and JENC 3.2.1 Air From the Rochester-Monroe County Airport take 204 to 390 North, 490 East into the City onto the Inner Loop to the East Avenue ramp to the third signal light. Turn right.

3.2.2 Car From the Thruway, use Exits 45 or 46 into Rochester and the Inner Loop to the East Avenue ramp as in 3.2.1.

-3;2.3 To get to the Emergency Operations Facility (EOF) and Engineering Support Center (ESC), go to the intersection of East Avenue and Chestnut Street (black square on map). EOF and ESC are in 49 East Avenue. The JENC is at 89 East Avenue (see Figure 3.2).

3.3 Accommodations Hotel/motel accommodations may be obtained at the following locations:

Depot Hotel, Pittsford (716) 381-9900 Marriott Hotel, Greece (716) 225-6880 Red Roof Inn, Henrietta (716) 359-1100 Brookwood Inn, Pittsford (716) 248-9000 Woodcliff Lodge, Perinton (716) 248-4810 Holiday Inn, Henrietta (?16) 45?-1510 Hyatt, 125 E. Main St. Rochester (716) 546-1234 3-3

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SECTION

4.0 REFERENCES

/ABBREVIATIONS - ACRONYMS 4-1

4.1 References 4.1.1 10 CFR 50.47, 50.54, Appendix E 4.1.2 44 CFR 350.9 4.1.3 NUREG-0654/FEMA-REP-1, Rev. 1, Criteria for Pre aration and Evaluation of Radiolo ical Emer enc Res onse Plans and Pre aredness in Su ort of Nuclear Power Plants 4.1.4 RG&E Nuclear Emergency Response Plan (NERP) 4.1.5 Ginna Station Radiation Emergency Plan Implementing Procedures (EPIPS) 4.1.6 Ginna Station License and Technical Specifications 4.1.7 Ginna Station Piping and Instrumentation Drawings 4.1.8 New York State Radiological Emergency Response Plan 4.1.9 Monroe County Emergency Preparedness Plan 4.1.10 Wayne County Radiological Response Plan 4-2

4.2 Abbreviations - Acron ms Architect Engineer ALARA As Low As Reasonably Achievable AOV Air-Operated Valve ARMS Area Radiation Monitor(s)

ARV Atmospheric Relief Valve ATWS Anticipated Transient Without Scram BAST Boric Acid Storage Tank CD Civil Defense CFR Code of Federal Regulations CV Containment CR Control Room DOE Department of Energy DOE-IRAP DOE Interagency Radiological Assistance Plan EAL(s} Emergency Action Level(s)

EAS Emergency Alert System, EC Emergency Coordinator ECI (s) Emergency Classification Level(s)

EOC Emergency Operations Center EOF Emergency Operations Facility EPA Environmental Protection Agency EPC Emergency Planning Coordinator EPIP(s) Emergency Plan Implementation Procedure(s)

EPZ Emergency Planning Zone ERF(s) Emergency Response Facility(s)

ERDS Emergency Response Data System ERPA Emergency Response Planning Area ESC Engineering Support Center FEMA Federal Emergency Management Agency FRERP Federal Radiological Emergency Response Plan GS Ginna Station HALM High Alarm HP Health Physicist HPN Health. Physics Network HVAC Heating Ventilation Air Conditioning INHB Inhibited (Alarm Suppressed)

INPO Institute of Nuclear Power Operations JENC Joint Emergency News Center Kl Potassium Iodide LALM Low Alarm LCO Limited Condition of Operation LOCA Loss of Coolant Accident

4.2 Abbreviations - Acron ms Cont'd LWR Light Water Reactor MOV Motor-Operated Valve PIO Public Information Officer MPC Maximum Permissible Concentration NERP Nuclear Emergency Response Plan NRC Nuclear Regulatory Commission OSC Operational Support Center OOS Out of Service (on site)

OOS Out of Sequence (off site)

PAG(s) Protective Action Guide(s)

PAR(s) Protective Action Recommendation(s)

PASS Post Accident Sampling System PWR Pressurized Water Reactor RCP Reactor Coolant Pump RCS Reactor Coolant System RHR Residual Heat Removal RGB E Rochester Gas and Electric Corporation RST Radiation Survey Team SC Survey Center SI Safety Injection SPING High Range Effluent Monitor TSC Technical Support Center

SECTION 6.0 CONTROLLER AND EVALUATORINFORNIATION

5.0 CONTROLLER AND EVALUATOR INSTRUCTIONS Each Controller and Evaluator should be familiar with the following:

a. The basic objectives of the Exercise.
b. The assumptions and precautions being taken.
c. The Exercise scenario, including the initiating events and the expected course. of actions to be taken.
d. The various locations that will be involved and the specific items to be observed when at those locations.
e. The purpose and importance of the evaluation checklist and record sheets.

5.1 Controller Instructions 5.'1.1 Controllers will position themselves at their assigned locations prior to the activation of the facility for which they have responsibility (see Section 5.3).

5.1.2 Communications will be tested to ensure satisfactory communications among Controllers prior to Exercise commencement. All watches and clocks will be synchronized with the Ginna Simulator Time.

5.'f.3 All Controllers will comply with instructions from the Lead Controller.

5.1.4

~ ~ Each Controller will have copies of the messages controlling the progress of the Exercise scenario. No message shall be delivered out of sequence or other than as written unless specifically authorized by the Lead Controller.

5.1.5 Messages controlling the progress of the scenario are noted with a number. Contingency messages are noted with a number followed by the letter "X" (e.g., 10X).

5.1.6 Each Controller will have copies of time-related plant data sheets. Data sheets will be distributed only if the Simultor experiences a sustained malfunction. The decision to use these sheets will be made by the lead exercise controller. Radiological information will also be displayed on the Simulator. Radiological survey information and meteorological data will be provided by controllers at locations where it is normally available.

5-2

5.1.7 Controllers will not provide information to the Players regarding scenario development or resolution of problem areas encountered in the course of the simulated emergency. The Exercise participants are expected to obtain information through their own organizations and exercise their own judgement in determining response actions and resolving problems.

5.1.8 Some Players may insist that certain parts of the scenario are unrealistic.

The Lead Controllers have the sole authority to clarify any questions regarding scenario content.

5.1.9 Each Controller will take detailed notes regarding the progress of the Exercise and the responses of the Exercise participants at their respective assigned locations. Each Controller will carefully note the arrival and departure time for participants, the times at which major activities or milestones occur and problem areas encountered. The Controllers will retain their notes for the purposes of reconstructing the Exercise chronology and preparing a written evaluation of the Exercise.

6.1.10 Controllers should display the same behavior as the players. This includes No eating drinking or smoking and frisking upon entering the TSC or Survey Center. The controllers should let the players enter the facility first and follow their actions. Controllers are not to enter first and frisk. This is prompting.

5.2 Evaluation Instructions Each Controller/Evaluator will take detailed notes regarding the progress of the Exercise and the response of the Exercise participants at their respective assigned locations. Each Controller/Evaluator should carefully note the arrival and depaiCure times of participants, the times when major activities or milestones occur and problem areas encountered.

The standards below should be used by the Controller/Evaluator to evaluate assigned areas pertaining to the emergency response. A dual purpose will be served by this rating system. First, the capability of each facility or response area will be evaluated and second, the system will provide a vehicle for guiding and directing improvement. The rating scale is as follows:

Good Personnel and equipment generally performed better than expected. Any errors or problems were minor and easily correctable.

5-3

~sti f Personnel and equipment generally perfdrmed as expected. Any errors noted were not severe and could be corrected without undue labor or expense.

~II if Personnel and equipment generally performed below expectations and there were several significant deficiencies noted. The area's ability to carry out its functions was diminished.

NA - Not applicable to the situation or not observed.

Controller/Evaluator comments should consider the demonstration of the following facility and team evaluation elements:

Facilitate o Accurate and timely determination of emergency action and classification levels.

o Timely activation and staffing for each classification level.

o Familiarity of personnel with appropriate emergency instructions, duties and responsibilities.

o Timely notification of Rochester Gas and Electric Corporation, local, State and Federal personnel/agencies (information updates performed).

o Adequacy of internal information systems (i.e., message handling, displays, status boards and maps).

o Properly controlled documentation and accurate, timely record-keeping.

o Utilization of correct communications procedures and techniques.

o Capability of facility supervisors/directors to interface with personnel and coordinate facility activities.

o Consideration of personnel safety (exposure control).

o Adequacy of interface between emergency response facilities.

5-4

o Adequacy of equipment and supplies.'

Timely initiation of onsite protective/corrective actions.

o Development of protective action recommendations.

o Radiological surveys and assessment of plant damage and hazardous conditions performed.

o Timely request of emergency support services.

I o Coordinated, accurate and orderly dissemination of information to the news media.

o Proper assumption of command and control.

Team o Timely notification and activation.

o Adequacy of staffing.

o Familiarity with appropriate emergency procedures, duties and responsibilities.

o Availability and utilization of proper equipment.

o Performance of contamination/decontamination control.

o Proper interface with emergency support personnel.

o Utilization of correct communications instructions and techniques.

o Availability of referenced documents to team members.

o Utilization of proper radiological control practices (i.e., access control, protective clothing, shielding, stay time).

o Performance of radiological surveys.

o Timely and proper performance of damage assessment.

5-5

o Properly maintained survey records and maps.

o Adequacy of briefing sessions prior to dispatch.

o Direction and control by team leaders.

o Timely requests for offsite assistance if required.

o Coordination and interface between emergency response team members.

o Proper interfaces with plant supervisory personnel.

Controllers/Observers will record their comments for the purpose of reconstructing the Exercise chronology and preparing a written evaluation of the Exercise.

5.3 Personnel Assi nments Table 5.1 lists the personnel assignments for the on-site Controller organization.

5.a Evaluation Packa es The following evaluation packages will be provided to the appropriate Controllers/Observers at the pre- Exercise briefing:

Simulator Control Room Technical Support Center Operational Support Center Survey Center Emergency Operations Facility Joint Emergency News Center Health Physics Personnel Dose Assessment (TSC and EOF)

Radiation Survey Teams (SC and EOF)

Post-Accident Sampling System Fire Brigade Engineering Support Center 5-6

TABLE 5.1 The following'personnel have been designated to act as Controllers during the 1997 Exercise activities:

Facilitate Control Room (Simulator) Jim Zulawski (lead)

Rick Jenkins Control Room (Real) Day.Shift Supervisor in Operations Office TSC:

Lead Ken Masker Technical/Ops. Assessment Ron Ruedin/Tom Alexander Security Rod Albrecht Dose Assessment & RP/Chemistry Tony Hedges Admin/Communications Frank Cordaro OSC:

l8C Greg Rawa Mechanical John Liese Electrical

. Radiation Protection SC:

Gary Combs/Bud Meighan Lead Greg Jones "A" Team Janice Walters "B" Team Dean Ganskop "C" Team Roy Marriott "D" Team June Anderson "E" Team (Spare) Sam Poulton "F" Team (Spare) Kim Magnuson EOF:

Lead Peter Polfleit Operations/Technical John Fischer Admin/Communications/Data Flow Kathy McGinnis Dose Assessment Rick Watts County/State/NRC Operations Glenn Litzenberger Survey Team Dave Lovgren

GINNA STATION 1997 EMERGENCY EXERCISE 5.5 PUBLIC INFORMATION, RUMOR CONTROL AND SPOUSE PHONE QUESTIONS FOR THE EVALUATEDEXERCISE A significant aspect of emergency response is to provide the news media and general public with accurate and timely information about the incident. Public perception and reaction are influenced by the information relayed to them. To ensure that the Rochester Gas and Electric Corporation Emergency Organization is prepared to deal with outside'inquiries during an incident at the Ginna Station, the exercise provides certain elements that test Public Information and Rumor Control activities. During the course of the Exercise, the Joint Emergency News Center (JENC) will be activated and exercised. The RG&E "Spouse Phone" will also be staffed by the RG8 E Medical Department.

Exercise Controllers have been selected to test the Rumor Control and News Media Contact Staffs, as well as the JENC. Controllers will act as concerned citizens, employees, employee relatives and as members of the media, posing questions to the staffs. When acting as members of the media, controllers shall make up a name and a media outlet (print or electronic) located ouisich of the Rochester area. Each time a rumor control message is delivered, a different fictitious name and address will be given. The phone number to be given will be the number from which the exercise controller is calling so as to allow the county Rumor Control person(s) to return calls with appropriate information, if necessary. The exercise controllers should maintain the theme of each rumor control message and answer inquiries of the counties'umor Control persons appropriately.

The following pages denote questions that these controllers can use. The questions are grouped by time in relation to the events specified in the Exercise Scenario. The Controllers are allowed to use questions previously utilized. The lead JENC Controller shall verify that the exercise is adhering to schedule, otherwise time adjustments will be necessary. Forms are provided for controllers to make notes on the response. Cont.oiler nocd not use the questions herein; free play is encouraged. However, controllers must not get carried away with unusual or pointless questions.

Wh Ill gi q are playing a reporter t,g at gwp ~a t ~MllSlRAtlBXBBClBE'.Ify the JENC, free play questions based on the information given during the briefing. Additionally, ask questions about RG8 E, the State or counties, Ginna Station, radiation, state/county/utility interface, protective actions, etc. Questions and relevant telephone numbers will be distributed at the special Pre-Exercise Controllers Briefing.

lists Public Information questions generally for RG8 E; lists County Rumor Control Questions; lists questions for simulated press corps individuals.

lists questions for testing the "Spouse Phone" in the RG8 E Medical Department.

JENC:

Lead Frank Onenter NATIONALWEATHER SERViCE:

Lead S. Levine (NWSINOAA) 5-8

GINNA STATION 1997 EMERGENCY EXERCISE ATTACHMENT 1 PUBLIC )NFORMATION QUESTIONS TIME QUESTION 09:45 This is from Radio Station WHCU. We'e heard that there is an incident at the Ginna Nuclear Plant. Can you tell us what is happening?

My husband's a Wayne County Sherifl's Deputy. He said he's heard that there's a problem at the nuclear plant. I'm worried that they'e going to send him out there.

What is happening there?

This is from the Associated Press. I understand that you have an incident at the Ginna Nuclear Plant. What's going on up there?

How extensive is the problem?

Where did the trouble start in the plant?

Is it under control?

What's the status of the plant?

Any radiation exposures to the workers?

Is the safety of the public threatened?

When will you have a press conference?

We'd like to send someone to the plant..Where do they go?

09:50 This is from Radio Station WJRR. We have a report you have a problem at the Ginna Station. Would you tell our listeners the story?

Could the problerri become as serious as Chemobyl?

Is the plant experiencing a meltdown? How do you know?

Any injuries? Any radioactive contamination released?

Who is in charge of the emergency?

Did you declare an emergency?

Was the reactor damaged?

Did you evacuate the site? Why not?

Are you going to evacuate the, public living by the plant?

Is the reactor under control?

Do you have a press conference scheduled?

10:15 What is happening at Ginna?

Any deaths or serious injuries?

Have the federal authorities been notified?

Have State and local officials been notified? Which agencies are involved?

What is going on at Ginna?

What are you doing to fix the problem?

5-9

Are you evacuating the site?

Are you going to tell the pregnant women and children to evacuate the area around the plant like the Governor of Pennsylvania did at TMI?

Has Governor Pataki been notified?

Are the sirens going to all go off?

10:30 I'e heard you declared an "ALERT". What's that'? What happened?

How did the problems start?

Has anyone been killed? Any injuries?

The situation seems to be getting worse...is this true?

I work at Nine Mile Point Unit 11.

I'm confused about what's going on at Ginna...is the leak into Containment or to the outside atmosphere?

Are the plant safety systems working'?

How much radiation is being released?

Do you need any help from us?

10:45 What is the significance of an "Al ERT"?

How bad is that?

Have government officials been called' What will the Governor do'?

What is RG8E doing?

Didn't Ginna have a problem several years ago?

Who do I talk to for getting more information about radiation being released from the plant?

I'e got a large farm in Ontario and I need to know what should I do?

Where would I get more stored feed for my cattle if my pasture gets contaminated?

I think I heard the sirens...do I need to evacuate?

11:00 I have heard that you declared a "Nuclear Alert". Is this true?

How much of the plant has been damaged?

ls there is a release' Has anyone been killed around the plant?

Have the authorities been informed?

Can't you just shut a valve or something?

11:30 What does a General Emergency mean? Doesn't that mean a meltdown is happening?

Is this accident similar to the one you had in 1982?

5-10

Why didn't we have more warning about this problem before now?

When will the NRC take over the plant?

Will you evacuate people around the plant?

In simple terms, what are they doing to control this accident?

Is this as bad as Chemobyl?

Will there be a big release, or has one started?

11:40 Are farm animals safe?

What about the crops and orchards around the plant?

Are you releasing radiation?

What are the levels?

ow are you checking radiation around the plant?

Should we get out if we live in the 10-mile zone?

My father is in the Maplewood Nursing Home in Webster.

What will happen to him?

How long will this emergency last?

If we evacuate, how long do we have to stay away?

Is this like the movie "China Syndrome" come true?

12:00 How much radiation is being released?

Is the radiation like bomb fallout? How dangerous is it?

Who is in charge oi the emergency?

When will the next press briefing be held?

Where is the radiation heading?

What protective actions have been recommended?

Whom should I call for further information concerning Wayne (Monroe) County?

If we'e evacuated, will my house ever be safe to return to?

Who gets the bill for all of this?

Who's liable?

How did the problem start?

'If I have to evacuate, can I return whenever I want to?

What protective actions are in effect for Wayne (Monroe) County?

Is this plant similar to Chemobyl or TMI?

How much radiation is being released off site?

5-11

My dog is at a vets office in Penfield on Atlantic Avenue. What's being done to protect him from radiation?

I'm Jim Johnson from Ontario County. My neighbor said they expect the contamination to blow all the way down here.

What should I do about my turf farm?

If I can't sell the turf from my farm, who's going to pay me for my losses?

Is the release over?

How bad was it' How large an area is contaminated... for how long?

Is the area around Ginna uninhabitable now?

Is the government going to have to relocate everyone permanently?

Where do I go to have my family and cars tested for radiation?

What are electric rates going to be because of this?

Where are you going to get power if Ginna is out of service?

Are the shareholders going to have to pay for this?

Should I sell my RGB E stock?

What effect will this have on RGB E stock?

What was your stock selling for this morning?

What is your stock selling for now?

5-12

GIN NA STATION 1997 EMERGENCY EXERCISE ATTACHMENT 2 RUMOR CONTROL MESSAGES FOR MONROE COUNTY QUESTION I hear there's an emergency at the nuclear power plant.

How will I know if we have to leave?

I'm of Radio Station WWLE. You'e on our "LIVE LINE" and could you tell our listeners what's happening at the Ginna Nuclear plant?

What does the County Executive intend to recommend to the public?

How much damage did the problem do to the plant?

Has anyradiation been leaked yet?

How can you be sure?

Are you checking it?

How can I find out when there is a release?

My daughter is at the Webster Library. How will she know about this'?

Can I drive over there to look for her?

We'e lost our emergency information handbook and need one right away.

Will one of the emergency people you have deliver one to us?

If there's an evacuation, I'm going to need help with my two infant twins. Can you help me?

I need to talk to the County Executive.

What's his number?

I need to know what to do.

Is RG&E telling us the truth?

I live near the plant and heard there is "NUCLAR ALERT".

Are you checking the radiation levels outside?

Did the New York Militia people do this?

What's this I hear about a radiation leak at Ginna?

Was that because of a big explosion or something?

How many got hurt and who's running the plant now?

Somebody told me the Ginna workers bail out from the plant when there's a leak, it that true?

My wife is concerned because she doesn't think you county disaster people are being told everything by RGB E. I can't even get a straight answer on my monthly lectric bill What's really going on?

5-13

Where is the County getting its information from?

Can you tell RG&E to shut down the plant' Are you going to demand a "Nuclear Free Zone" from now on?

I don't trust the power plant people; they'd lie to save their own skins.

. Do you have anybody checking on them?

Is the County Legislature going to look into this accident and stop Ginna from starting up again?

Where is all the radioactive waste going to go now from this accident?

Should I close my restaurant due to the accident at Ginna Station? I'm over by the Bay.

What are we supposed to do?

Who do I call to find out if we'e going to have to leave?

Who will pay for the lost income?

12:00 I heard nobody at Ginna can fix this plant accident!

Is it true that the Feds are coming to take over?

Are they gonna stop the release?

What's happening to all the school kids in Webster School District?

I heard the siren but nobody said which way to go. My neighbor says the siren means to leave your house immediately. Is he right?

What do I do? I live on Schlegel Road near the Elementary School.

I hear that the Maplewood Nursing Home will evacuate its patients. My father is in there. Where will he be when it's over so I can go make sure he's okay?

12:30 I'mleaving now. Where do I go fortemporary housing? I live on Jackson Road near Ridge Road.

I'm evacuating now. Which way is safe to travel?

I am supposed to leave but don't have a place to stay.

Which school can I stay at?

I live on Lake Road near Basket Road.

How do I get there?

Who's going to pay my expenses?

Who do I call to get a check for my expenses?

We live near Salt Road and Atlantic Avenue. We need temporary housing. I'e got 5 kids with me.

13:00 Is it true that the milk is now poisoned? Where are we supposed to get our milk 1:00PM now?

We don't have any money or a car. How do we get away from the radiation?

Where do we live and eat?

5-14

I live up on Five Mile Line Road by the R.L. Thomas School.

I heard the accident at the Ginna Station is getting worse.

Are we gonna be moved out of our homes after this?

Why haven't you made the announcement on TV?

What is the Governor doing?

Who's in charge of handling this accident anyway?

What is the status of the problem that occurred this morning?

What caused the problem?

I'e heard that the reactor is destroyed. Is this'true?

My homeowner's insurance states that I am not covered for nuclear accidents!

Does the county have insurance?

Who will pay for this?

I'm calling from Penn Yan ...I just heard about the Ginna problem and we'e coming home from vacation - We live near Hegedom's on Shoecraft Road in Webster. Can we go home or should we stay over another night?

I'm low on cash...is there some way I can get some expense money from RG8 E's insurance company?

5-15

GINNA STATION 1997 EMERGENCY EXERCISE RUMOR CONTROI MESSAGES FOR WAYNE COUNTY TIME ,QUESTION 09:30 I hear there's an emergency at the nuclear power plant.

How will I know if my family and I need to do something?

I'm Jane Thomas of Radio Station WZZZ.

Can you tell our listeners what's happening at the Ginna Nuclear plant?

You'e live on our "MORNING SOUND-OFF SHOW". Go ahead..

How much damage did the explosion do to the plant' What does Wayne County intend to recommend to the public?

Will you have a press conference?

09:40 Has any radiation been released yet?

How can you be sure?

How can I find out when there is a release of dangerous radiation?

09:45 My daughter and a friend are out shopping at Ames Plaza in Ontario. They'e probably near the plant.

How are they going to be warned about the plant problem?

Can I go there to warn them?

My mother works in the office at the Freewill Elementary School.

How do they know there's problem?

Are they safe?

If they evacuate the students, will they also evacuate the staff?

Where will they take them?

10:15 We'e lost our emergency information handbook and need one right away. Will one of the emergency people you have deliver one to us?

We live near Kenyon Road and Ontario Center Road are we going to have to evacuate? We'e very close to Ginna! Where are we supposed to go if we'e told to leave?

11:00 If there's an evacuation, I'm going to need help with my father who is bedridden due to a heart attack last month. Can you help me?

We live in a one-story woodframe house. The calendar we received from RG&E talks about "sheltering". Isn't that supposed to apply only to brick buildings with thick walls? We don't even have a basement!

I wanna talk to Marvin Decker or someone in charge! I need to know what's going on and what to do.

I live near the plant and don't want that nuclear stuff falling on my house.

Can we go eutside? Are we in danger?

5-16

Are you people checking the radiation'?

What's this I hear about a release at Ginna? Is that what caused the plant to send everybody home?

How many got hurt and who's gonna run the plant now?

(Note: This caller is under the mistaken impression that Ginna has been abandoned and is now out of control.)

11:30 My wife is concerned because she doesn't think you county disaster people know what you'e doing! I told her not to worry because the County Chairman knows how to run the plant because he's practiced it before. Just one thing, why doesn't he turn it off before we get melted down?

Is Wayne County going to be declared a disaster area?

Is this accident as bad as Chernobyl or TMI?

Where do the school kids go?

Should I close my business due to the accident? Who will pay for the lost income?

(The business is Route 104 near Knickerbocker Road).

12:00 What are we supposed to do - leave or stay put?

We live in Marion - is there radiation heading this way?

What can I tell my neighbor to calm her down'?

Should I cover my vegetable garden to protect it from radiation'?

I heard nobody at Ginna knows what the hell is going on! Is it true that State people are corning to take over?

We heard the Governor is coming to take charge of Ginna.

Are the crops going to be condemned because of the contamination?

12:30 I heard the siren but nobody said which way to go. My neighbor, says the siren doesn't mean to go; you'e supposed to hide in your basement! Which is it? We don't have a basementl I live in Walworth...we just had a problem a few weeks ago with the drinking water.

Are we going to have to boil our drinking water again because of the plant's radiation?

My car's in the shop for repair...could I get transportation'?

I'm leaving now. Can I pick my daughter up'? She's got a job at the Ontario Manor Motel in Ontario.

How am I going to feed my family for the next several days'?

13:00 I think I am supposed to leave but don't have a place to stay. I live in Wayne ERPA

'1:00 Number 2 near the plant.

PM Which county shelter can I stay at'? How do I get there?

Who's going to pay my expenses?

5-17

Who do I call to get a check for my expenses>

Can I get my family and car checked for radiation?

I heard the accident at the Ginna Station hasn't been stopped.

When are we gonna be allowed to go home?

Why haven't you made the announcement on TV?

What is the County Chairman doing about,Ginna?

Has he taken charge of this thing yet?

Will the County shut Ginna down for good?

13:30 What is the Ginna problem that occurred this morning?

1:30 t PM I'e heard that the reactor has a hole in it. Is this true?

Were we supposed to hear the sirens?

Is there a place where we can buy "anti-radiation" pills to protect against the fallout?

Do they make you immune against radiation?

My neighbor says we should take potassium or eat shellfish or something. What are you keeping from us?

Does the County have insurance for such a disaster?

My homeowners insurance states I'm not covered for nuclear accidents! What do I do now?

I'm calling from Syracuse...l got my family out of our house in Pultneyville this morning. when will it be safe to go home again?

Can we be checked out for nuclear radiation somewhere?

5-18

GINNA STATION 1997 EMERGENCY EXERCISE ATTACHMENT3 PRESS CORPS QUESTIONS What back-up safety systems are available and working at Ginna?

How bad a leak occurred? Where did it go?

Is the reactor stable and under control?

Is this plant similar to TMI?

Were any workers contaminated?

How much radiation was released around the plant?

What protective actions are in effect for Wayne (Monroe) County?

How many people live in Wayne (Monroe) County?

What are you going to do to fix the situation?

When is the next press briefing?

How many media are at the News Center?

What agencies are at the News Center?

Where is the wind going?

Who's in charge of the emergency?

For any news organization wishing to take footage of Ginna, who do we see at the plant gate?

~

How will home-bound, mobility impaired or nursing home patients be protected?

What exactly does "sheltering" involve..does this apply to any type of home?

Does RG&E have enough power without Ginna to supply its customers?

How is the plant getting power now to run its safety systems?

Will the shareholders or ratepayers absorb the cost of this mishap?

ls this the same type of problem that Ginna experienced in 1982?

Who will pay for all the 4amage to personal property from this accident?

After cleaning up the radioactive vvaste from this accident, where does it all get sent?

Has RG8 E significantly added to the State's low-level waste crisis?

Why doesn't RG8 E distribute potassium iodide to the public?...do RG&E people get it?

How close have you come to a meltdown?

How do you know the extent of damage to the Ginna reactor?

This is from WKBZ TV in Buffalo.

How many people live in the 10-mile zone?

What are you going to do to fix the situation'?

When is the next press briefing'?

How many media are at the News Center?

What agencies are at the News Center?

Where is the wind going?

Who's in charge of the emergency?

Can the press go to the Ginna plant?

Don't you think that'all your downsizing has contributed to this situation?

What does this accident do to RG8E's plans to deregulate and place Ginna into a state-wide holding company configuration? Will the other nuclear plants share the expense of this accident? How this accident factor into your sunk nuclear costs that you expect electric customers to pick up?

5-19

G INNA STATION 1997 EMERGENCY EXERCISE RUMOR CONTROL MESSAGES ATTACHMENT4 "SPOUSE PHONE "QUESTIONS TIME QUESTION 09:15 My husband is a mechanic at Ginna Station, and I'e heard they'e had an emergency. How serious is it?

How long is this accident expected to go on?

Do you know if workers have evacuated the plant?

Are the workers all okay?

09:45 This is JANE CORDARO. My husband, Frank is at Ginna Station or East Avenue. I need to get a message to him. We live 2 miles from the plant and may need to evacuate. Do you know for sure if we will have to evacuate? If we evacuate, tell Frank that the kids and I will go to my parents house in Maine.

10:15 My husband works in the Ginna Training Department. I can't reach him at Ginna.

His name is Sam Poulton.

My neighbor told me there was a problem with possible injuries.

ls that true?

Has everyone evacuated the plant?

Were any of the employees hurt?

How can I reach my husband? i just need to know he's okay.

10:45 My son is an operator at Ginna. What's happening at the plant? How bad is it? Are the workers in danger?

Are they keeping the workers at Ginna?

How much of a dose are workers receiving and how does that number compare to their annual allowed dose?

11:15 My husband works at Ginna in Health Physics. Where are the plant workers now...

have they left the plant?

How can I reach my husband if he doesn't call soon? I'm worried about him since he had a medical problem just two years ago. This stress could be very bad for him.

11:30 My husband called me this morning and said there was a problem at the plant, and said he'd keep me posted, I haven't heard anything from him for 3 hours3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br />. He's on one of the survey teams...are they safe? Will the workers be relieved and allowed to come home today?

S-20

My husband works at Ginna, and is there now. I'e been listening to the news....is it as bad as it sounds?

What's really going on? Do they have the accident under control yet? How badly have the workers been exposed to radiation? Do they expect the plant will ever start up again? Can I drive to the plant and drop off a change of clothes for my husband if he's got to stay overnight?

With all the equipment failures, don't you think that all the efforts RGB E made to reduce the workforce resulted in these failures. Don't you think this accident is due the too few and poorly trained workers?

Both my son and his wife work at the plant, do you know when they will be released or should I pick up their kids from the reception center? How will the people at the reception center know that it's ok for me to pick up my grand kids? How do I get in touch with my son or his wife to find out what to do?

5-21

SECTION 6.0 SCHEDULE OF EVENTS 6-1

SECTION 6.0 1997 GINNA PLUME EXPOSURE PATHWAY EXERCISE SCHEDULE OF EVENTS DATE TIME GROUPS ACTIVITY 6/9 9-10 ALL (TSC) PLAYER BRIEFING 2-3 ALL (JENC/EOF) PLAYER BRIEFING 6/1 0 8-11 AS ASSIGNED CONTROLLER BRIEFING 1-3 NRC EVALUATORS SCENARIO BRIEFING 6/11  ??-?? ALL 1997 EXERCISE 6/12 8-10 CONTROLLERS PRE-CR)TIQUE MEETING 10-11 ALL RG8 E CORPORATE CRITIQUE 11-12 ALL NRC CRITIQUE 6/13 9-11 FEMA, RG8E, FEMA CRITIQUE New York State, Wayne County, Monroe County 1-3 Public, Media NRC 8 FEMA PRESS CONFERENCE 6-2

EXERCISE SCENARIO 7-1

GINNA STATION 1997 EMERGENCY PREPAREDNESS EXERCISE INITIALCONDITIONS

1. The R.E. Ginna Nuclear Power Plant is operating at approximately 100% rated thermal power. The Plant has been on line for the past 14 months.
2. Equilibrium Primary Coolant Isotopic activity as of 0300 hours0.00347 days <br />0.0833 hours <br />4.960317e-4 weeks <br />1.1415e-4 months <br /> (6/11/97) is provided in Table 9.2 of scenario section 9.3. Total activity is 1.87 pCi/gm. Chemistry log sheet will be available from the controller.
3. General Weather conditions are partly cloudy with no current precipitation. For purposes of the exercise, additional meteorological information in the simulator control room should be obtained from the plant process computer. system (PPCS).
4. The reactor core has a bum up of 15,900 MWD/MTU and RCS boron concentration is

<1ppm. Boric Acid Storage Tanks boron concentration are 11,000ppm.

5. Entered procedure AP-TURB.3 for turbine vibrations on bearing ¹9 due to change in take water temperature. Operators were able to adjust seal oil temperatures and reduce turbine vibrations into the normal range.

7-2

GINNA STATION 1997 EMERGENCY PREPAREDNESS EXERCISE ONSITE SEQUENCE OF EVENTS APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 06:45 -00:15 Initial conditions established.

07:00 00:00 Announcement to commence annual exercise.

07:14 +00:14 Annunciator panel "A" fails.

07:15 +00:15 The operating Component Cooling Water (CCW) pump trips.

The standby pump automatically starts.

Antici ated results Operators should enter procedure AP-CCW.2 "Loss of CCW at Power".

07:20 +00:20 Operators should determine that annunciator panel "A" does UNUSUAL not function.

EVENT An unusual event should be declared in accordance with EPIP 1-0 "Ginna Station Event Evaluation and Classification" EAL number:. 7.3.1 "Unplanned loss of annunciators or indications on any of the Control Room Panels for greater than 15 minutes".

If an unusual event is not declared in approximately 15 minutes, a contingency message should be given out to declare it.

Antici ated results Operators should implement EPIP 1-1 "Unusual Event"

APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 08:20 +01:20 Turbine vibrations start to increase due.to a change in lake water temperature.

08:25 +01:25 The turbine trips on High Thrust Bearing Trip. The reactor DOES NOT automatically trip on a reactor trip signal as expected. The reactor remains at power. The plant enters an-Anticipated Transient Without SCRAM (ATWS) event.

Antici ated results Operators should manually trip the reactor. The manual irip of the reactor DOES NOT function to trip the reactor. The reactor remains at power. Operators should trip electrical busses 13 and 15. This will trip the motor-generator sets. This will cause a trip of the reactor. A plant shutdown wiil occur.

08:30 +01:30 An ALERT should be declared in accordance with EPIP 1-0 ALERT "Ginna Station Event Evaluation and Classification". EAL number 1.1.1 "Any failure of an automatic reactor trip to reduce power <5% and manual trip is successful".

Antici ated results Operators should implement procedure EPIP 1-2 "Alert".

08:35 +01:35 Antici ated results Operators should enter procedure E-0 "Reactor Trip or Safety Injection" and transition to procedure ES-0.1 for post trip recovery.

08:.45 01:45 When letdown flow is re-established, the letdown line radiation monitor (R-9) starts to slowly increase.

09:00 +02:00 Letdown pressure control valve (PCV-135) fails closed.

Antici ated results Operators should isolate letdown by closing air operate valves AOV-427, AOV-202, AOV-200A and AOV-200B. The TSC should be staffing up and checking operational readiness.

APPROPRIATE SCENARIO TIME EVENT DESCRIPTION 09:45 +02:45 The following alarms are received in the control room and on the plant computer:

- Pressurizer low pressure

- Pressurizer Iow pressure trip

- Pressurizer low pressure Sl All safeguards equipment starts except the "A" and "C" safety injection pumps. However they will start manually. A loss of coolant has occurred. The leak is approximately a 60,000gpm leak from a severed "8" RCP discharge pipe where it connects to the pump.

Antici ated results Control room operators should take immediate actions in accordance with E-0 "Reactor trip or safety injection" and E-1 "Loss of reactor or secondary coolant". Operators should inform the TSC of the loss of coolant accident.

The TSC should have all of the minimum functions staffed and should be making preparations to assume command and control from the Control Room.

The EOF should be nearing operational readiness.

09:46 +02:46 The core uncovers during the blowdown phase of the large break LOCA. A large amount of the fuel gap activity is released due to fuel rod bursting because of core uncovery during the initial reactor coolant system blowdown.

Containment radiation levels are increasing.

09:47 +02:47 The loss of cooiant accident continues.

Antici ated results Operators should realize that RCP trip criteria is met when at least two safety injection pumps are operating.

7-5

APPROPRIATE SCENARIO EVENT DESCRIPTION 10:00 +03:00 A site area emergency should be declared in accordance with SITE AREA EPIP 1-0 "Ginna Station Event Evaluation and Classification" EMERGENCY EAI number. 2.3.2 "Containment radiation monitor R-29/30 reading >100 R/hr".

If a site area emergency is not declared in approximately 15 minutes, a contingency message should be given out to declare it.

Antici ated results The TSC should implement EPIP 1-3 "Site Area Emergency" The EOF should commence being manned if not already activated.

10:15 +03:15 Due to flow anomalies, some of the fuel rods are experiencing overheating due to low flow. Containment radiation levels continue to increase.

-10:30 +03:30 A general emergency should be declared in accordance with GENERAL EPIP 1-0 "Ginna Station Event Evaluation and Classification" EMERGENCY EAL number: 2.3.3 "Containment radiation monitor R-29/30 reading >1000 R/hr".

If a general emergency is not declared in approximately 15 minutes, a contingency message should be given out to deciare it Antici ated results The TSC should implement EPIP 1-4 "General Emergency .

Protective action recommendations should be made in accordance with EPIP 2-1.

10:45 +03:45 The EOF should be nearing operational readiness.

-1 1:00 +04:00 The injection phase of the accident is done or almost done.

'I Antici ated results Operations personnel should be aligning systems for the recirculation phase. The TSC should be discussing concerns of operation with only one CCW pump for long-term heat removal.

APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 11:16 +04:16 The following alarms are received in the control room and on the plant computer:

- Auxiliary building sump pump auto start

- Auxiliary building sump high level The 1A RHR pump shaft seal has failed creating approximately a 50gpm leak into the auxiliary building sub-basement. Plant vent monitors show a rapid increase in radiation levels. A major release to the environment begins.

(Release path: from containment through 1A RHR pump failed seal, out the plant vent).

Antici ated results TSC and control room operators should try to locate the source of the leak in the auxiliary building. The TSC should be informing the EOF of plant status, actions being taken and any required needs. The TSC should be evaluating the increase of radiation in the auxiliary building as to its source and its effect offsite. The TSC and EOF should identify that the plant has exceeded the release rate limits.

11:18 +04 I8 The following alarm is received in the control room and on the plant computer.

- Safeguards breaker trip The 1A RHR pump trips out on overcurrent due to the failed seal.

Motor operated valve MOV-850A will not close from the Control Room.

Antici ated results Efforts should be underway to track the plume, terminate the release and implement/coordinate PARs.

11:30 +04:30 Antici ated results The TSC should be working on isolating the 1A RHR pump to terminate the offsite release.

12:00 +05:00 Antici ated results A maintenance repair team should be assembled and briefed.

The team should enter the auxiliary building to isolate the leak.

7-7

APPROPRIATE SCENARIO EVENT DESCRIPTION 12:15 +05:15 Ant'ic a ted results The repair teams should have entered the auxiliary building to isolate the leak. The team can isolate the leak by either:

(a) re-energizing MOV-851A from Motor Control Center "C" (b) locally closing MOV-850A 12:45 +05:30 The radiation levels in the auxiliary building have decreased significantly. The offsite release is terminated.

13:15 +06:15 Recovery/Reentry discussions should commence. This should include preliminary discussions about short term and intermediate term concerns, including preliminary designation of the recovery organization. State and counties may also conduct parallel discussions. Recovery/Re-entry interface between TSC/EOF and offsite agencies should be demonstrated as time allows.

14:00 +07:00 After all exercise objectives have been demonstrated, the lead controller will terminate the exercise.

7-8

ill TIITle: 06:45 Message: 1 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

FOR CONTROLLER USE ONLY Controller Notes:

1. Review initial conditions and plant status with the exercise operating crew.
2. Review exercise precautions/limitations and any exercise activities that are not normal (i.e. extent of offsite participation, simulations, abnormal conditions to conduct exercise)
3. Ensure that the operating crew understands that the exercise is not to interfere with safe plant operation.

Actions Expected:

1. Participants should review initial conditions, turnover sheets, applicable procedures.

8-1

Time: 07:00 Message: 2 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Shift Supervisor Message: +++THIS IS A EXERCISE+++

Make the following PA announcement after sounding the "Attention" signal:

"Attention, Attention all personnel. The Ginna Nuclear Station is now starting its 1997 Emergency Preparedness Exercise. All Exercise messages must be started and ended with

'This is an Exercise"." (Announce twice)

FOR CONTROLLER USE ONLY Controller Notes:

Ensure that the PA announcement is made.

Actions Expected:

8-2

JN fti 1997 07! 01 R. E. GINA Sf%ATM PAGE 1 TREND GRBP ASS IBCGG'PIRY 6QP: EVENT1 PR(GMK'PIP 1-5 PLANT STATUS POINT ID KSCRIPTItà VALlK DUAL E. U.

1 AT)IS ANTICIPATED 1RANSIENT M/0 SCRAIl N0 ATMS 6XO 2 RXT RBCTN TRIP HKAKER STATUS )K)T TRIP 6XO 3 N31 SRKE RA%E IKTIZHR H-31 I.OXO(HOO I)4(9 PS 4 N32 SRRCE RANGE KfECHR H-32 1.OXOOKO 1%9 CPS 5 N35 INlER)KDIATE RA%E IKTECHR H-35 8.0537~ 1)4$ AIP 6 N36 INTER)KDIATE RA%E KKCT9< H-36 7.046%+8 IQS QP 7 8' AVERA(K MXXEN RM3 . 99.51 6XO X PRCS REACT(R CmuNT SYSTE)t AVG PRESS 2240. 6009 PS16 LPIR PRESSNIIER AVERAGE LEVEL 50.0 6009 7.

10 FR(1A REACHR CmuNT LSP A AVG FUN 100.1 6009 X 11 FRQII RECHR Cmut(T LMF 8 AVG FUN 100.1 6009 12 RXT16 RCPA BREAKER CA(SE RX TRIP )KIT TRIP 6009 13 RXT17 RCPB SKAKER CA(SE RX TRIP IK)T TRIP 6009 14 TS(STC I)KXSE TC SUOCO(u3) IIARGIH 43.8 600~ KIF 15 LS6A ST)t 6EH A NARROM RA%E AVG LEVEL 52.1 6009 lb LS68 ST)l GEN 8 HARHN RAh6E AVG LEVEL 52.1 6XO 2 17 PSGA SIll GEH A AVERAGE PRESSURE 72?o 6X9 PSIG 18 PS68 Sl)t 6EN 8 AVERA6E P(KSRRE ?27. Gm PSI6 19 GEMKRI GE)KRAHH 0N LIIK BREAKER 161372 NT TRIP 6009 20 GE)(OKR2 GE)KRATN 15 LINE NBNER 9X1372 Mff TRIP 6XO 21 RS11A BUS ilA SPPLY BREAKER )K)T TRIP 6009 22 RS119 RS 11B S(PPLY NEAKER %T TRIP 6XO 23 RS12A )K)T TER)IIIIATED 0H PPCS (7/19/91) )K)T TRIP IKL 24 RS 128 )K)T TERNINATEO  % PPCS (7/19/91) %T TRIP IKL 25 811A12A RS 11A TO 12A TIE NEAKER TRIPPED 6X9 26 Bl)B)29 RS 11B TO 128 TIE NSNER TRIPPED 6009 27 PCV 28 LS(PPA CMAIQKNT AVERAGE PRESS'36 CNTAIQEKT S(JP A AVERAGE LEVEL GXO 1.4 6009 29 LO942E SOP 8 LEVEL 8 IIGKS (TRAIN A) LONER 6009 30 LO943E RlP 8 LEVB. 8 l)GKS (TRAIN B) LSFR 6ml 31 LO942D SJP B LEVEL 78 IIGKS (TRAIN A) LSKR 6009 32 LO9439 SOP 8 LEVEL 78 I)GKS tTRAIH 8) LSKR 600D 33 LO942C SIMP 8 LEVEL 113 I)GKS(TRAIN A) LOIKR 6009 34 LO943C BlP B LEVEL 113 IIGKS(TRAIH 8) LSKR 6009 35 LO9428 SOP 8 LEVEL 180 l)DKS(TRAIN A) tQKR 6009 36 LO943B BlP B LEVEL 180 INKS(TRAIN 8) L(M3( GXO 37 LO942A RlP 8 LEVEL 214 I)GKS(TRAIN A) L(NER 6XO 38 LO943A SOP B LBEL 214 IIQKS(TRAIN 8) LSKR GMl 39 TO409A HXA )K)T LEG TE)PERATlK 588.7 6009 TO41OA RCLB )K)T LE6 TE)PERATlfK 588.7 6009 41 TO409B RCLA C(LD LEG TE)PERAT(SE R2,9 GXD 42 TO41OB RCLB CM LEG TE)PERATlRE 532.9 GXO 43 TAVGAM(D RCu) TAVG (T)K)T/TC(u HIDE R%) 560.8 6009 44 TAVGBMID RCLB TAVG (T)K)T/TC(u MIDE R%) 560.8 Sm9 45 UIV REACT% VESSEL AVERA6E 1&%L 100.2 6XO 46 TCCSIE Ei. 1 I)GÃE TC AVERAGE TE)P 595.1 GXi 47 FAUXFMA S/6 A TUTAL AUX FEES(ATER FL9( O. GXO 48 FAUXFMO S/6 8 H)TIL AUX FEHNATER FUN 0. 6XO 49 BKRO81 HTR AUXILIARYFEOWATER P(OP A aV GXm 50 BKRO82 I(IR AUXILIARYFEEDMATER POP 9 g7 Gm 51 V3505 AUX FM PIJP STEAN S(FPLY VALVE A CLOSED 6XO 52 V3594 AUX FM POP STEAN S(PPLY VALVE 8 CLOSED Gm

19l 11) 1997 07:Ol R. E. 61%A SlliUtTX PASE 2 TRE% SQP ASSIQtBlT SLlNRY 1RRP: EVENTI PRXEBRE: EPIP 1-5 PLNT STATiS PONT ID DESCRIPTI% VALIK QUAL E. U.

53 FSIA ~i IMXCTIIllUXP A AVS FLSI 0. 6XD PN 54 FSIB SAFETY IHXCTIW UKP B AV6 FUN O. 6XD 6PH 55 P2160 SGPICE NTV PNPS A fr B IEABER 83. 6000 PSI6 56 P2161 SERVICE NTER PCS C h D KAXR 75. 6m PSI6 57 NR041 SERVICE NTER PllP A 6XO NR042 SERVICE NTER PllP B 6000 59 NR043 SERVICE NTER Ply C 6009 60 INR044 SERVICE NTER PQP D 6XD

3LS llew 1997 07:02 L E. SIC SINLATX PAGE TREND 8QP ASSIBtENT BARRY GRRPl EVENT2 PRXED(RE: EPIP 1-5 PLANT STATiS POINT ID KSCRIPTION E. U.

1 F0619 C(XL1% UXP TOTAL FUI 1422. UUt GPtt 2 LR)(ST REFILING )(ATER ST)RAGE TNN LVL 94.5 GM 3 )tSOXQIS 33 FT'LEVEL HIND SPEED: IStt NG 7.4 6XD tPH 4 N$33QIS 33FT LVL )(IM) DIRECTI(5 15t( AVG 222>> 600D K6.

5 W033015 33 FXT LEVEL TBP. (15)t AVG) 50.2 GM K6F 6 MT250QIS 250 FXT LEVEL TBP. (25t( AVG), 48.6 6XD KGF 7 MDT2015 250-33 FT LVL KLTA TBP 15)t AVG -1.6 6%9 KGF 8 R01 'BPEKHT AREA HXt(TRR. R(O( 9.44062M 6009 tS/N 9 R02 AREA ~AIRMAN 3.98107+00 6M N/N 10 R05 AREA 5-SPENT RKL PIT 4. 92bCr01 GM %/N 11 12 13 RN R34 R35 AREA AREA AREA

~'.TIr)N LM NNIT(R 34 - ADr BLDG cv @AT ZrPASS SAtfLE PA%L

~ l>>93%xMI GM 8.26989<1 6009 1.09b&00 GM )SIN

%IN tRIN 14 R10A C(NTAI)ST IODIIK tQ(IT(R R10A 3. 172&02 6009 CPH 15 Rll CONTAI t&T AIR PARTIC(LATE 1.22850K@ 6XD 16 R12 CMAIltBlT6AS )O(IT(R 1.65481402 6XD CP)t 17 R109 PLANT VENT 1091NE NRITIR R108 9>>45420KN 6009 CPt(

18 R13 A0r BLDG ErHAUST AIR PARTICRAIE 3.92983+01 6M CPtt 19 R14 A(tr asG ErHA(tsT GAs to(IT(R 3.1398&1 6009 CPt(

20 R18 LI(r)ID )(ASTE DISPOSAL KNITIR 1. 68122403 6009 CPtl 21'19 ~

STEAtt GE%RAT(R DLQOXW DRAIN 4.37144K@ 6XD Cptl 22 R29 AREA 2HRMAIltEMT HIGH RA%E 8.99627<1 6009 R/N 23 R30 AREA ZHXNTAMKNTHI% RA%iE 8. 9962?> 19546K@

7.5000~

1.9999~

GM Wll GXD (EIICC 6XD tRIN 27 R12A7 CV VENT CHAN ?+ID RA%K 6AS 9.99984M GM (EI/CC 28 RI2A9 29 30 R14AS R14A7 PLANT VENT CHAH PINT VENT CHAH

~

CV VENT CHAN MIGH RA%E 6AS N%E

?%ID RA%E 85 85 9.9998?M 6M (El/CC 1.50001M 6XD (EI/CC 9.99984M GM (El/CC 31 R14A9 PLANT VENT CHAN MIGH RA%E 6AS 3.999?IM 6M (EI/CC 32 R1SA5 AIR EJECT(R CHAN MN RANGE 6AS 7.799KH)b 6009 (EI/CC 33 R1SA7 AIR EJECT(R CHAH  ?+ID RANGE 6AS 9.99984M 600D (El/CC 34 RISA9 AIR EJECT(R QNN MI RA%K 88 9.9998?M 6XO (El/CC 35 V3411C STEAt( LI% ARV A CU)SED 6XD 36 Vt(SSVA %NEER 0F S/6 A t(SSV SB( 0. 6XO .0 (PEN 37 R31 AREA 31 SIEAt( LIK A (SPI%) 2.0512r02 6M t8/N 38 R31RR(l S6A NKE 6AS RELEAK RATE:15)(AV >>00000400 GM CIISEC V3410C STEAt( LINE ARV B CLOSED GM V)SSVB IQ%KR 0F S/6 B t(SSV (S 0. SRO 0 (PEN 41 R32 AREA 32 STEAt( LOa B (SPIHG) 2.0513r02 GM %/N 42 R32RRQ SGB NBLE GAS REIEASE RATE:15)NV .0000(H00 GM CI/SEC 43 CVH CV HYDROGEN COKE)(TRATIN .0 6XO X 44 TCV03 CV BASE%MT LULL 6FT TBP 03 71.3 6XD K6F 45 TCV0? CV IHTKRKOIATE LVL 6FT TBP ll 83>>2 6009 KGF 46 TCV08 CV INTER)GIIATE LVL 6FT TBP N K1.2 6XD KGF 47 TCV09 CV INTER%DIATE LVL 6FT TBP N 83.2 6009 KGF 48 TCVIO CV INER%DIATE LVL 6FT TBP li0 83.2 GM K6F 49 TCV1? CV (PERATIHG LEVL 6FT TEtP N? 95.1 6XO KGF

Time: 07:10 Message: 3 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: 4++THIS IS A EXERCISE+++

FOR CONTROLLER USE ONLY Controller Notes: ~

1. Fail the "A" annunciator panel at this time.

Actions Expected:

8-3

Time: 07:14 Message:

GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

The annunciator alarms in the control room. No light is displayed on the control room alarm panels.

FOR CONTROLLER USE ONLY Controller Notes:

1. The operating Component Cooling Water (CCW) pump trips and the standby pump starts.
2. Use mini-scenarios to control auxiliary operators and repair teams investigating CCW pump failure and annunciator failure.

Actions Expected:

The control room should investigate why the CCW pump tripped.

2. Operators should determine that the operating CCW pump has tripped. Operators should enter procedure AP-CCW.2 "Loss of CCW at Power"

Time: OT:14 Message: 5 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Personnel investigating CCW pump trip and failure of the "A" annunciator panel Message: +++THIS IS A EXERCISE+++

FOR CONTROLLER USE ONLY Controller Notes:

1. Provide information verbally when the appropriate investigations are made by the auxiliary operator or repair team.

Actions Expected:

The auxiliary operator and repair team should inspect the CCW pump and "A" annunciator panel and make an assessment of the problem and any necessary repairs.

8-5

GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE Mini-Scenario Activity: CCW pump trip The CCW pump tripped.

Controller Notes:

When the auxiliary operator investigates the CCW pump, he reports a burnt insulation smell from the motor. The cause of the pump tripping is a direct short in the motor windings. There is a direct short that electricians will find when they troubleshoot the pump.

Actions Expected:

1. The electricians should troubleshoot the pump and find that there is a direct short.
2. Electricians should determine that the pump motor needs to be repairedlreplaced.
3. The plant should determine if they have a spare motor in stock to replace the damaged motor. I
4. Maintenance planners should prepare a work package for the motor repairlreplacement.
5. Work should commence (simulated) on the component.

6INNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE 1Ninicenario Activity: Failure of the "A" Annunciator Panel The "A" annunciator panel has failed.

Controller Notes:

When the auxiliary operator investigates the "A" annunciator panel, he reports that panel has no power The cause of the failure is a failed power supply. There is no power to the annunciator panel when tested by the l8C technicians Actions Expected:

1. The IBC technicians should troubleshoot the failure of the annunciator panel and find that there is a problem with the power supply.
2. IBC technicians should determine that the power supply needs to be repaired/replaced.
3. The plant should determine if they have a spare power supply in stock to replace the damaged power supply.
4. Maintenance planners should prepare a work package for the power supply repair/replacement.
5. Work should commence (simulated) on the component.

8-7

JLS ) li 1997 07:15 R. E. GINA SItllATN TREM) RRP AKIIRKKTSQtQRY GR(u" EVENTI PR(GMK: EPIP )< PlMT STA1l5 POINT 19 KKRIPTI9l E. U.

I ATNS ANTICIPATED TRQ61ENT tf/0 SOIL M) ATl6 6XO 2 RXT REICT(S RIP BREN ER STATUS t6T RIP KR 3 N3) S(u(CE RAN6c" IKTECT9< H-31 1.0000085 I%9 4 N32 SMCE RAHU KIECTN H-32 1.0000080 IQ(9 5 )GS WEMEOIATE RA%E IETHZR N-35 8.0537~ 1%(O A5'tf' 6 H36 IÃlEBEDIATE RA%E KKCHR H-36 7.046%HA 1%9 7 )P AVERAGE MKLEAR P0)KR 99.50 6XO 8 PRCS RSCHR Cmut(T SYSTBI AVG PRESS 2240. Gm PSIG 9 IPIR PRESSLRIIER AVERAGE LBEL 49.9 6009 10 FRQA REACTN GKNT LRP A AVG FUN 100.1 6XO X 11 FRLB RBCIR ORNT L(XP B AVG FUN 100.1 Sm X 12 RXT)6 RCPA 8KNER CAUSE RK TRIP le TRIP 6XO 13 RXT17 RCPB BRENER CNSE RX TRIP NT TRIP 6XO 14 TSUOTC INURE TC SUK00LED )MARGIN 42.4 600e K6F 15 LSGA ST)t KH A NAfmS( RA%iE AVG LEVEL 52+1 6m) X 16 LSGB ST)f 6EN B HARRS( RA%E AVG IBH. 52.1 6009 X D PS6A ST)t 6EN A AVERA6E PRESRRE 726 60R PS16 18 PS69 ST)f GEN 8 AVERAGE P(KSS(SE 726. 6009 PSIG 19 GENIWRI SERRATE( l5 LINE BS(ER 161372 NT TRIP 6009 20 6ENOI(R2 GBamnm 0N LIZ BREA)(ER "

9XI372 NT TRIP GXD 21 BUSIIA BUS 11A RFPLY NEAI(ER NT TRIP 600D 22 BUSIIB BUS 11B BPPLY BREAKER NT TRIP 6009 23 S)612A M)T TERt(I HATED S( PPCS (7/19/91) /AT TRIP DEL i 24 25 26 27 BUS)28 B11A12A BI 1B12B PCV Nf TERtlINATED là PPCS BUS 11A TD 12A TIE S(EA'(ER BUS 11B TD 128 TIE NEAI(ER CNTAMEN'VERAGE PRESSNE (7/19/91) WT TRIP TRIPPED TRIPPED K.

6009 6009 6XO PSI6 28 LS(1' CNTAIQKNT S9%' AKRNK LEVEL 1.5 6XO FEET 29 L094X Rlt B LEVEL 8 IC%3 (TRAIN R) UN3( 6009 30 L0943E RRP B IX' I%83 (TRAIN 9) LNER 6XO 31 L0942D BPP B LEVEL 78 ItGK5 (lRAIH A) UKR 6009 32 L0943D RlP B LEVEL 78 ItCfKS (TRAIN B) LSKR 6009 33 L0942C SOP 8 LEVEL 113 MKS(TRAIN A) USER 6009 34 L0943C BN' LEVEL 113 TIES(TRAIN B) LSD 6XO 35 L09428 RlP 8 LEVEL 180 ICOS(TRAIN A) UKR 6X9 36 L09439 S(kP B LEVEL 180 MKS(lElIH B) LSKR 6009 37 L0942A SOP B LEVEL 214 ICKS(TRAIN A) U%R 6009 38 L0943A SQF 8 LBEL 214 MKS(TRAIN 8) LSER 6009 39 T0409A RCLA NIT LEG lBFERAHRE 5%.7 6XO 40 T0410A RCLB 1ST LEG TBfERAT(SE 588.7 6009 41 T04098 RCLA CKD LEG TBFERATulE 532.9 6XD 42 T04108 RCLB C(LD LEG TKIR3NME 532 9 Gm 43 TAVGA)(ID RQA TAV6 (MT/TC(u HIDE R%) 560.8 61 44 TAVGB)(ID RCU) TAVG (MT/TC(u t(IDE R%) 560.8 600D 45 lRV RBCTN VESSEL NERNK LEVEL 100.1 60R 46 TGXRE EI.I ICNE TC NB%K KN'/6 595.5 8&

47 FANF)(A A TOTE. AN FEED)(ATKR FLS( 0. 6XD 48 FAKFMO S/6 B TGTN- NN FEED)(ATER FLSI 0. 600D 49 BKR081 tf)R ANILIARYFEED)(ATER PQF A tfF 6009 50 NR082 ~

t(IR ANILIARYFEES(ATER Ply 9 97 6XO 51 V3505 AN F)t PQP STEA)1 BPR.V VALVE A CLOSED 61 52 V3504 AN FN PllP STEA)( S(PPLY VALVE B CLOSED 6009

Jl5 Ile 1997 07,'15 R. E. 6INA SINLATN PAac 2 TRBQ 6RGP ASSIBCKKT BltVRY BROLPl EVENTI PRXEME; EPIP 1-5 PLANT STATUS POlNT ID DESCRIPT I % VALlK Q/AL E. U.

53 FSIA SAFEPf INXCTICH LXP A AVS FUN 0. 6KD Ptl 54 FSIB SAFiiY INXCTION LGP 8 AVS FUN 0. 6XD 6PN 55 P2160 SERVICE MAT% POPS A h 8 WAAR 83. 6009 PS16 56 P2 161 SERVICE MAT% RES C 4 D KA!ER 75 0 600 D PS16 57 BKR041 SERVICE MATER PSF A 6009 58 BXR042 ~ICE MATER PLOP B 6XD 59 WR043 SERVICE MAT% RPP C 6XD 60 SKR044 SERVICE MATER PltP 9 8MD

'N Ils 1997 07:15 R. E. GINA SlltlATOR PAcr.

TRBS Sm'SSIBtBfT SENARY Sm: EVEHT2 PRQCEaSE: EPIP 1-5 PUVIT STAT+

POINT ID KSCRIPTION E. U.

1 F0619 CQPSeIT CKLI% LSP TUTAL FLM 1427. LAUI IP)I 2 uiMST RERKL1% lNTER SHRNK TAN LVL 94.5 GXO 3 HS033015 33 FT LBIEL IIIN9 SPEED: 15)l AVG 3.0 GXO 5%

4 NM3QI5 ZFT LVL HIND DIRECTION 15)I AVG 231. GX9 KG.

5 MT033015 33 FOOT LEVEL TEIL. II5tl AVG) 52.1 6009 KGF 6 HT250015 250 RX)T LEVEL TE)P. II5)I AV6) 50.2 6XO KGF 7 NDT2915 250-33 FT LVL KLTA TEIL 15tI AVG "1.9 GXO KGF 8

9 10 11 12 R01 R02 R05 R09 R34 AREA AREA AREA AREA

~

HXlIIIIII.RIOI 2~AIltHll FlKL PIT

'REEM LINE NNITN NEA 34 " AUÃ IuG CV SPRAY PS&

8.759~

3.91292M

5. 15822<1 1,938&5IOI GXO 600D 60QO 6009

%/)S

%/N NM4I tfRR 7.98914<1 GQQO %/)4I 13 R35 AREA ZrPASS SORY PA%L 1.09&SKO 6XO tS/)4I 14 RIOA CMAIQBlT IQDllf IQIITN R10A 3. 1759586 GR9 CP)I 15 R11 CWIM%M AIR PART ICKATE 1. 16647+02 6XO 16 R12 CNTAI)ST 6AS NNITOR 1.6125QKQ 6XO CPII 17 R10B PUWT VENT IODINE NWITN R109 9.45420'XO CPII 18 R13 AN BLJS EIHAUST AIR PARTICIIATE 3o 8792bK)l 60QO CP)I 19 R14 Wr BLDG EIHAUST GAS mlTIS 3. 139SMI 6009 CPII 20 R18 LIQUID NSIE DISPOSAL IOIITIS 1.64531+03 Gm CPII 21 R19 STEAII GE%RATIR BLOIQM DRAIN 4.37144M 6XO CPII 22 R29 AREA PHXNTAIttBlTHIEH RANEE 8.99627<1 6XO R/HR 23 R30 AREA 3HXNTAIMKXTHI% RA%iE 8.99627<1 6XO R/%

24 26 R15 R12A5 R12A&

CV VENT CHAH CV VENT CHAN

~

~

CMBISER AIR EJECTN EXHAUST RA%K GAS GANA 5.1954bKQ 7.58%r07 1.9999 &C 6009 6009 CPII XI/CC Gm lS/%

27 R12A7 CV VENT CHAN 7-IIIO RA)4- GAS 9.99984M 6009 XI/CC 28

~9 30 R12A9 R14A5 R14A7 CV VENT CHAN PUNT VENT CHAH PLAHT VENT CHAH

~

MIBI RA%E RA%E GAS

$5 7&ID RAH6E GAS 9.99987M I 5XOH)7 e

9.99984M 6XO IEI/CC 6009 GOM XI/CC IEI/CC 31 32 33 R14A9 R15A5 R15A7 PLANT VEHT CHAN AIR EZCHR MH AIR EJECT% CHAN

~

MIGH RA%E GAS 7+ID RANK GAS RANGE 6AS 3.99971M 7.799KHS 9.99984M Gm XI/CC 6009 6009 XI/CC Xl/CC R15A9 AIR EZCTIR CSVI MI RA%E $ 8 9.99987M 6XO IEI/CC 35 V3411C STEAtl LINE ARV A CLOSED 6XO 36 VIISSVA MlKR OF S/6 A HSSV IPEH Oo 6009 0 IPEH 37 R31 AREA 31 STEAII LIIK A ISPI%) 2.0513r02 6009 IS/N 38 R31RRO SGA ABLE 6AS RE1EASE RATEl15IIAV .0000080 61 CI/SEC 39 V3410C STEAII LINE ARV 8 Cu)SED 6009 40 VHSSVB MN8ER IF S/6 B NSSV IPEH 0. 6009 0 IPEH 41 R32 AREA 32 STEAII LIIE 8 ISPI%) 2.0512&02 6009 IS/HR 42 M2%Q SGB MOLE 6AS RELEASE RATE:15NAV .0000080 6XO Ci/SEC 43 CVII CV IIYDRKEH COKENTRATIN .0 GXO 44 TCV03 CV BASE)SIT LEVEL 6FT TBP 03 73.5 6XO KGF 45 TCV07 CV INIER%DIATE LVL 6FT TE)P 47 84.7 6009 KGF 46 TCV08 CV IMlKRH)IATELVL 6FT TE)P N 84.7 6XO KGF 47 TCV09 CV INTER%DIATE LVL 6FT TBP 49 84.7 6XO KGF 48 TCV10 CV WamnATE LVL 6FT me elo 84.7 GXO KGF 49 TCVI/ CV IPERATI% LEVL FT TE5'17 96.0 6009 K6F

Time: 07:20 Message: 6 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room-Message: +++THIS IS A EXERCISE+++

FOR CONTROLLER USE ONLY C ontroller Notes:

1. If an Unusual Event is not declared in approximately 15 minutes, a contingency message should be given out to declare it..

Actions Expected:

1. Operators should determine that the "A" annunciator panel does not function.
2. An Unusual Event should be declared in accordance with EPIP 1-0, EALL 7.3.1.
3. Operators should implement EPIP 1-1 "Unusual Event".

8-8

Time: 07:30 Message: 7 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

FOR CONTROLLER USE ONLY Controller Notes:

Actions Expected:

1. Operators should be in the process of performing notifications in EPIP 1-5, "Notifications" for an Unusual'Event.

8-9

JN 11~ 1997 07'.30 R. E. GIQ(A SI)ILAT(S TREM) 6RKP ASS IEREKT SENARY 6RKP! EVENT1 PRXEMtE! EPIP 1-5 PLANT STATUS POINT ID KSCRIPTIlà VALZ m. E. U.

l AT% At(TICIPATED TRANSIEt(T ft/0 SCRI( Q) ATl6 6XD 2 RXT REACTN TRIP ISKER STATUS Q)T TRIP 6XD 3 IOI Sm(CE RA%K KTECT(R H-31 1.00000Kl0 IQI CPS 4 )02 S(XRCE RANGE KIECT(R H-32 1.00000K'QI CPS 5 N35 INTEBG)TATE RA%E DETECT(I H-35 8.0537~ IQ(D fYP 6 836 INTEBKOIATE RANDE DETECTOR H-36 7.046%HI IQ(ft AtP 7 )P AVERAGE QXLEAR PQKR 99.51 6009 X 8 PRCS REACT(R C(XuHT SYSTEN AVG PRESS 2240. 6X9 PS I6 9 LPIR PRESSNIIER AVERAGE LEVEL 49.9 6XD X 10 FR(XA RHCM BURNT LKP A AVG FUN 100.2 6009 'X 11 FR(LB RECUR CO(ut(T LXP B AVG FL(N 100.1 6009 X 12 RXT16 RCPA BREAKER CAUSE RX TRIP NT TRIP GXD 13 RXTI7 RCPB BREAKER CAUSE Rx TRIP Q)T TRIP 6(Xm 14 TSUBTC I)GSE TC SUBCIH) tfARGIN 43.8 600~ tE(-

15 LSGA STN GEN A NARR(N RANGE AVG LEVEL 52.1 6009 X 16 LS69 SIN GEN B NARR(N RANGE AVG !ZKL 52.1 ROD X 17 PS6A ST)l 6EN A AVERAK PRESSNE 726. GXD PSIG 18 PSGB ST)( KN 8 AVERAGE PRESRIE 726. 6XD PSIG 19 6EHBKR( GEQ3(AHR S( LI% BREAKER 161372 NT TRIP 6009 20 GENBKR2 saewOR S( Lna a(EAKER 9ra72 )KIT TRIP Gm 21 $ )SIIA BUS 11A RPPLY BREAKER NT TRIP 6009 22 'R$ 11B BUS 11B RFPLY BREAKER l6T TRIP 60M 23 BUS12A WT TERt(It(ATED 0H PPCS (7/19/91) tK)T TRIP KL f 24 BUS12B 25 811A12A 26 B11B129 27 PCV NOT TERt(INATED 0N PPCS BUS 11A TO 12A BUS 11B TO 128 TIE NEAKER TIE BREIER GMAIItBiT AVERAGE PRESS(SE (7/19/91) NT TRIP TRIPPED TRIPPED o41 KL 6009 6009 6009 PSIG 28 LRIPA GNTAI)ST RJP A AVERASE lPJEL 1.5 60M FEET 29 L0942E RN' (EEL 8 INKS (TRAIN R) L(NER 60M 30 L0943E RtP 9 LEVEL 8 ICfKS (mAIH 9) LSKR 6009 31 L09429 SUtP 8 LEVEL 78 MhES (TRAIN A) LOS 600D 32 L0943D SNP B LEVEL 78 MfKS (TRAIN 8) UKR 6009 33 L0942C SBP B LEVEL 113 ltG(ES(TRAIN Al LS)ER 6X9 L0943C SOP B LEVEL 113 ItGKS(TRAIN 8) UKR 6I 35 L0942B SIP B LEVEL 180 ItGKS(TRAIN A) L(NER 60M 36 L09439 SNP B LEVEL 180 ICKS(TRAIN B) LSER '009 37 L0942A SOP B LBi6. 214 I/GKS(TRAIN A) LSKR 6XD 38 L0943A SOP B LEVEL 214 ICOS(TRAIN 8) LSKR 6m 39 T0409A RCLA )IT LEG TE)PERAT1$ E 5$ .7 6009 K6F 40 T0410A RCLB )IT LEG %%8NTufE 85.7 6XD K6F 41 T0409B RCLA C(u LE6 TE)PERATISE Q2.8 6XO K6F 42 T04109 RCLB C(LD LEG TE)PERATu(E 532.8 6009 KGF 43 TAVGAf(ID RCLA TAVG (THlT/TC(LD HIDE 8%) 560e7 GOM K6F 44 TAVGINID RCLB TAVG (THIT/TC(LD N!K 8%) 94.7 60M KH-45 LRV REACHR VESSEL AVERAGE LEVEL 100.3 GX9 X 46 Tm(E E1.1 I)ORE TC AVERA6E TE)P 595.8 GX~ KGF 47 FAUXF)(A 6/6 A Tma. Aur FEE(NATER FLS( 0. GXD GPt(

48 FA(89 6/6 8 TOTN. NN FEE(NATER FUI 0. 6009 IPtf 49 BKR081 NR AUXILIARYFEHNATER P(kP A 97 6009 50 BKR082 t(TR AUXILIARYFEHNATERPeP S (FF GOM 51 V3505 AUX FNP(lP STEAt( REPLY VALVE A CLOSED GOM 52 V3504 AUX F)f PuP STEAff REPLY VALVE 8 CLOSED GXD

JN 1 ii 1997 07.'30 R. E. GINA SitllATN P~ 2 TRE7m 8QP k%IBtEKT BltQRY GRI" EVENTI PROCIMK: EPIP 1-5 PlNT STATUS POIMT ID KSCRIPTIIl VAUK RNL E. U.

53 FSIA SAFETY INXCTIQl UXP A AVG FUN 0; 6XO PN 54 FSIB SAFETY IKXCTIQl LGF B AVG FUN 0. GXO EFN 55 P21b0 SERVICE MATER PBBS A 0 B fEAIKR 83. 6XO PSI6 5b P21b1 SERVICE MATER PQFS C h D kEAOER 75 GXO PSIG 57 8(R041 SERVICE MATER PLN' GXO 58 NR042 SERVICE MATER PtlF B 6XO 59 NR043 SERVICE MATER H!P C 600O b0 NR044 SERVICE MATER Ply D 600O

J9t I!i 1997 07:30 R. E. Gll5A SINLATIS TREtm Bfm'SSIQtGG'tlfQRY BRRP: EVE)IT2 PRXEKRE: EPIP I< PLANT STATUS POINT ID KSCRIPTIN VALIK t)UAL E. U.

F0619 - COtRRKHT Cta.1% UXP TOTAL Fuf 1422 ULN GPtl 2 LSST REFlKLIHB NTER ST9%K TAN LVL 94.5 6XO 3 ltSOXRl5 33 FT IBIEL IIIHO SPEEDl 15tf AVG 3.3 6009 tfH 4 IIO033QI5 33FT LVL HIHO DIRECTION 15tf AVB 240. BOR KB.

5 HTOXRI5 33 FOOT LEVEL TBP. (15tf AVG) 52.9 6XO 6 NT250015 250 FMT'EVEL TEN'. t15tl AVB) 51.1 6MO KcV 7 N)T2Q15 250-33 FT LVL KLTA TBP 15tf AVG -1.8 GXO KGF 8

9 10 ll 12 R01 R02 R05 R09 R34 AREA AREA AREA AREA AREA 34

~

HXltTRIL fml

~Alt@EN FlKL PIT HEEM LPE IOIITN

- AU! BLOB CV SPRAY PS&

9.3325~

3.98107+00 5.0408H)I 6XO 1.938&01 6XO 18/N 7.8072&01 GXO 6XO GXO

%/N IS/N IS/N

%/%

13 R35 AREA ZrPASS Q&lf PA%L 1.0964BI00 6XO N/N 14 RIOA CMAIQEHT IODIK IOIITN RIOA 3. 17595K@ 6X9 CPtl 15 Rl1 CMAIHt%)IT AIR PARTIQLATE 1.2391582 GXO CPtl 16 R12 CMAIN%3lT 6AS lQlITN 1.6264880 Bm CPtl 17 R109 PUNT VENT IODIZE@ NMTN RI0f) 9.4545@00 6XO CPtl 18 R13 AN BUS EIHAUST AIR PARTICtuTE 3.87926401 6009 CPII 19 R14 AUI IuB EXHAUST 6AS NNITN 3.19429401 6009 CPII 20 R18 Lit)UID HASTE DISPOSAL IOIITN 6XO PN 1.6453M'.37144+02 21 R19 STEAII GE%RATN SUM3N 'NAIII 6009 22 'R29 AREA 2HXHTAIQBlT H1% RA%K 8.99627<1 'BXO R/N 23 R30 AREA RHODE'AIN'T HH8 RA%iE 8.99627<1 6XO R/}8

' 24 2S 26 R15 R12A5 R12Ab 27 R12A7 CMKHSEI< AIR EJECTN DHAUST CV VENT CHAN CV VENT CHAN CV VENT CHAH

&UN RA%K 6AS

&4%A GAtfQ 7+ID RA%E 6AS S.1954&02 BXO 7.5000M7 1.9999~

9+99984M 6009 CPtl XI/CC 6XO %IN 6XO XI/CC 28 R12A9 CV VENT CHAN MIGH RANGE BAS 9.99987M 6XO Xl/CC 29 RI4A5 PuttT VE)tT CHAN 5ADl RA%E BS 1.5000M7 6009 XI/CC 30 R14A7 PUST VcN7 CHAN 7+ID RARE 6AS 9.99984M Gm XI/CC 31 R14A9 PUNT VENT CHAN MIGH RA%E GAS 3.9997HQ BXO XI/CC 32 R15A5 AIR EJECTN CHAN MN RA%iE GAS 7.799~ 6009 XI/CC 33 R15A7 AIR EJECTOR CHAN 7+ID RA%E GAS 9.99964M 6009 Xl/CC 34 R15A9 AIR EJECTN DIAN MI RA%K GAS 9.99987M 6XO XI/CC 35 V3411C STEAII LINE ARV A CLOSED 61 36 VHSSVA NlSER tF S/6 A HSSV tFEH 0. 6XO 0 tFEH 37 R31 AREA 31 STEAti LllE A tSPING) 2.05I2HQ 6XO 18/N 38 R3IRRt) S6A N)OLE 6AS RERAN RATE: 15IIAV e00000400 Gm CI/SEC 39 V3410C STEAtt LI% ARV 8 CLOSED BXO 40 VIISSVB MNSER tF S/6 8 ISSV IFEH 0. Gm e tPEH 41 R32 AREA 32 STEAII Lilac B (PI%) 2.0513r02 GXO IS/N 42 R32Rfm SBO %)OLE 6AS RELEAK RATE:15IIAV .00000t00 Gm CI/SEC 43 CVH CV HYNIS CQCENHIATIN .0 6XO X TCW3 CV DASH%K LEVEL 6FT TBP 03 74.9 6XO K6F 45 TCV07 CV !HTB%DIATE LVL 6FT TBP $ 7 85.8 GXO K6F 46 TCV08 CV INKRKDIATELVL 6FT TBF N 85.8 6XO KGF 47 TCV09 CV IHTER%DIATE LVL 6FT IBP 49 85.8 6XO KGF 48 TCV10 CV INERKDIATE LVL 6FT TBF 410 85.8 6XO KGF 49 TCVI7 CV tFERATll6 LEVL 6FT TBP eI7 96.7 6009 MF

Time: 07:35 Message: 8X GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

Declare an UNUSUAL EVENT in accordance with EPIP 1-0 "Ginna Station Event Evaluation and Classification" EAL number: 7.3.1 "Unplanned loss of annunciators or indications on any of the Control Room panels for greater than 16 minutes".

FOR CONTROLLER USE ONLY Controller Notes:

1. Deliver this message only if an unusual event has not yet been declared.
2. No not deliver this message if emergency classifications are in progress.

Actions Expected:

8-10

Time: 07:45 Message: 9 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

FOR CONTROLLER USE ONLY Controller Notes:

Actions Expected:

Appropriate plant staff should be responding for an Unusual Event.

8-11

8k lie 1997 07:48 R. E. GINA SI5LATGR PAGE f TREND GR(XP ASSIfREN BARRY 9QP: EVENTf PRQCEMK: EPIP 1-5 PLNT STATlS POINT.ID KSCRIPTISI E. U.

1 AIMS ANTICIPATED TRANSIENT M/0 SCRAN )K) AT)S 6XD 2 RXT REACT(R TRIP EREAKER STATUS M)T TRIP 6009 3 N31 SIRCE'RANGE KTECT(R H-31 f. 00XOK)0 1%3 CPS 4 N32 S(KRCE RA%E KIECTIR N-32 1. 0000(800 WH CPS 5 K5 IHTERKDIATE RA%E KTECTIR H-35 8. 0537&44 1%8 NP 6 )06 INTERtEOIATE.RA%E KTECTN H-36 7.0469&% 1%3 A5'XO 7 )P AVERAGE NQFN 99;48 X CXLANT SYSTB( AV6 PRESS 2241. 6XO PS'EACTN 8 PRCS PS 16 9 (PIR PRESSNIIER AVERAGE LElEL 49.9 6XO X 10 FRCLA RSCTN GRNT UXP A AVG FUN 100.2 600D X 11 FH1B RGCTN URNT UXP 8 AVG FUN 100.1 6MO X 12 RZT16 RCPA BREAKER CAUSE Rl TRIP )K)T TRIP GXO 13 RXTI7 RCPB BREAKER CADIZ RX TRIP )K)T TRIP 6XO fh TSUOTC I)KXRE TC SUBCORED )(ARGIH 42.4 GMi KGF 15 LS6A ST)f GB( A HARR(N RANGE AVG LBEL 52.1 6XO X 16 LSGB STll 6EH B NARR(N RANGE AVG LEVEL 52.1 600D X 17 PS6A STH GEN A AVERAGE PRESRIE 7250 6000 PSIG 18 PSGB STH 6EH B AVERAGE l%RkIE 725e 6XO PSIG 19 6BSKRl GBGNTIR ON LItE BREAKER 161372 M3T TRIP 6XD 20 GENBKR2 6BGNTN OH Lilac BREAK% 9XI372 )K)T TRIP 6000 21 BUSflA BUS 11A RPPLY BREAKER )K)T TRIP GOR 22 R)SIIB R)S 11B RPPLY BREAKER 'T

)K)T TRIP 6000 23 R)S12A TERNINATED ON PPCS (7/19l91) )K)T TRIP

' 24 25 26 27 BUSf20 811A12A Bff8120 PCV

)K)T TERNINATED ON PPCS R)S 11A TQ 12A TIE SKAKER BUS 11B TO 128 TIE SKAKER CS(TAIQGP AVERAGE PRESS(IE (7/19/91) )KIT TRIP TRIPPED TRIPPED

.41 KL 6XO GMO GM9

'EET PSIG 28 LS8%'A CNTAI)tH(T RfP A AVERAGE LBEL 1.5 60m 29 L0942E RlP B fBEL 8 IC%S (TRAIN A) LSD 6000 L0943E RK' LBEL 8 llQKS (TRAIN 0) U%R 6MO 31 L09429 SQP B RIEL 78 ICOS (TRAIN A) U%R 32 L0943D RlF B ABEL 78 INKS (TRAIN B) LSD 6000 33 L0942C QlP B LBEL f13 MRS(TRAIN A) LQKR 6000 34 L0943C RlP 8 LBEL 113 IRKS(TRAIN 8) UKR GXS 35 L09420 RIP B LEVEL 180 IIGKS(7RAIN A) LSD 61 36 L09430 RlP 8 LBEL 180 I%AS(TRAIN 8) LSER 6m 37 L0942A QlP B LBEL 214 IlCKS(TRAIN A) LSER 6X0 38 L0943A SOP 8 LBEL 214 ICKB(TRAIN 8) UKR 6mm 39 T0409A HlA %T 18i TBPERATUK 588.4 GXO K6F 40 T0410A RCLB )K)T LEG TBPERAT(IE 588.4 GMO KGF 41 T04090 RCLA m9 LE6 TBPERATIIE 532.7 6I K6F 42 T04100 RCU) CKD LEG TBPERATIRE 532.7 6MO KGF 43 TAVGAMID RCLA TAVG (MT/TCRD MIK R%) 560.5 GXD IEF 44 TAVGWD RCLB TAVG (T)IT/TCRD MIDE R%) 560.5 6MO KSF 45 UN RBCHR VESSEL AVERAGE LBEL 100.3 600D X 46 TCC(RE El.l ICQK TC AVERA6E TBP 595.2 9& KGF 47 FAUIFMA S/6 A TOTAL AUX FEHNATER FLSI 0. 6XD (Rl 48 FAUIFMO S/6 8 TOTN. NN FEHNATER FUN 0. 6I IPN 49 BKR081 NR AUXILIARYFEHNATER P(lP A GMD 50 BKR082 NR AUXILIARYFEHNATER RFP 0

'009 AUX FM PUP STEAN S(PPLY VALVE A 6000 NJÃ FM POP STEAN S(FPLY VALVE 8 6009

0 JQI Ili 19%7 07!48 R. E. 61%A SI5lATN PW 2 TRM 6RI'SSIQCGlT $ 9fVRY Sm'VEHTI PRXEM: EPIP 1-5 PLANT STATUS POINT ID KSCRIPT ION NLlK QUAL E. U, 53 FSIA SAFETY IHXCTIQI LQP A AVS F191 0. 60on pal 54 FSTB SAFETY IHXCTIN Lmi' AVS FlN 0. SXS 9%

55 P2160 SERVICE HATER PQFS A 4 B IKAIER 83, 6X9 PS 16 56 P2161 SERVICE HATER PQPi C h D lKNER 75. sm PS16 57 NR041 SERVICE HATER RlP A 600n 58 NR042 SERVICE HATER PIP B 600n 59 NR043 SERVICE HATER POP C saon b0 NR044 SERVICE HATER Pily D 60M

JLN lii 1997 07:48 R. F GIMIA SWLATIR TREM) BRQP ASSI6QBA'BfQf5 6RM" EVENT2 PSG3XRE: EPIP I< PLANT STARS POST 19 VALIE QUAL E. U.

1 F0619 CQV'IXetT CIXLI% LIXX'OTALFUI 1422 LAUI Ptl 2 LR)GT RERKLI% HATER STIRABE TAN LVL 94.5 6XO X 3 NS033015 33 FT LEVEL IIIHO SPEED: 15tl AVG 3.7 6XO tfH 4 N633QI5 XFT l.Vl. HIND DIRECTIIS i'll AVB 254. 6009 KB.

NT033Q15 33 FXT LEVEL TBP. t15tt AVG) 54.0 6XD KGF 6 MT250Q)5 250 FXT LEVEL TEN'. t15tl AVB) 52.4 GOR KBF 7 MOI2Q15 250-33 FT LVL KLTA TE)P 15tt AVB -1.6 6009 K6F 8

9 10 11 12 R01 R02 R05 R09 R34 AREA AREA AREA AREA AREA

~

1<BIIRIL tmi

~AIMED REL PIT 9-lZIIOS LI% NNITtR 34 - AUX BUG CV SPRAY RlF 8.8104HZ 6XD %IN 4.12097+00 5.24807<1 1.87283K)I 7.8KRrOI GXO 6XO 6XO GXD N/N

%IN

)RIN NIN 13 R35 AREA ZH'ASS SPILE PAtB. 1.09648+00 6009 %IN 14 R10A CMAIQBfT IODIIE tOIITIR RIOA 3. 10812t02 6XO CPtt 15 Rl 1 CNTAIQ%NT AIR PARTI CILATE 1.21794M BM9 CPti 16 R12 CMAINKtlT6AS IOIITIR 1.59175t02 GXE CPII 17 R109 PLAHT VEHT I001% l%XtITIR R109 8.86135t00 6XO (AN 18 R13 AN BUS EXHAUST AIR PARTICtlATE 3.7475ht01 6XO CPtt 19 R14 AN KIS EXHAUST 6AS NNITtR 3.27812%1 659 CPII 20 R18 LIQIID itASTE DISPOSAL tOIITIR I. 68122KQ 6XO CPII 21 R19 STEAtt GE%RATIR RDKQN IRAIN 4.29659%2 6XO CPtl 22'29 AREA 2HXNTAIltGITHI6H RA%E 8.99&27<1 600D'/N 23 R30 AREA 3DCMAIM%HT HI6H RA%E 8.99627<1 6XO R/N t 24 R15 25 R12A5 26 R12A&

CV VENT CHAN CV VENT CHAN

~

~

COMHISER AIR EJECIIR EXHAUST RA%K 6AS GAtfS 5.61532t02 7.5000'009 1.9999M2 GOR 6XO tRIN IPtl XI/CC 27 R12A7 CV VENT CHAN 7+ID RASE 6AS 9.99984M 6XO IEI/CC 28 R12A9 29 RI4A5 30 R14A7 CV VENT CHAH FUST VENT CHAN ~

MIGH RA%E $6 PUNT VENT CHAN 7+19 R%% 95 RA%E 6AS 9.99987M 1.50001M 6XD IEI/CC 6XO IX:I/CC

'%99984 A Kwl IX:I/K 31 R14A9 PUNT VENT CHAN MIGH RAH6E 6AS 3.99971M 6009 ILIICC, 32 R15A5 AIR EJECTIR CHAH SUM RA%E 6AS 7.799K&5 61 XI/CC 33 R15A7 AIR EJECTIR DIAN 7+ID RA%E 6AS 9.99984M 6009 IX:I/CC R15A9 AIR EJECTIR CHAN 'VII RAMiE 6AS 9.99987M GOM IX:I/CC 35 V3411C SIGN LINE ARV A CLOSED Qm 36 UNRVA MlIOER IF S/6 A tsSV 5%M 0o 6XO e 8%H 37 R31 AREA 31 SIEAtl Lily A tSPI%) 2 0512r02 6XO t8/N 38 R31RRQ SGA MKfGAS RELEASE RATEI 15HAV i00000t00 6XO CI/SEC 39 V3410C STEAtt LINE ARV B CLOSED 6XO 40 VIISSVO MlIKR tF S/6 8 ttSSV tFEN 0. 600D 4 tFEN 41 R32 AREA 32 SIEAtt Lily 8 (SPI%) 2.0515r02 6XO 42 R32RRQ SGS M)IXX GAS RELEASE RATE:15tIAV .00000m GXD Cl/SEC 43 CVH CV HYIRSiEH GKXNHIATIIXI .0 61 X 44 TCV03 CV SASOetr LEVEL &FT TEM'3 76.2 6XD KGF TCV07 CV IHTER%DIATE LVL 6FT TENP 47 86,7 6XO KGF 46 TCV08 CV INmmaTE LVL &FT me 48 86.7 tm KGF 47 TCV09 CV INTER')IATE LVL 6FT TEN'9 86.7 GXO 48 TCV10 CV INTERMEDIATE LVL 6FT TBf'10 86.7 6XD KGF 49 TCVI7 CV tFERATI% LEVL &FT TBF 017 97.2 QXm . K6F

Time: 08:00 Message: 10 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

FOR CONTROLLER USE ONLY Controller Notes:

Actions Expected:

8-12

3(Ã Ii) 1997 08.'00 R. E. GINA SINLATB( PAGc, TRE% GRRP ASSIQtEIIT RlttARY 9QP: EVENT) PRXEME:.EPIP I< PLANT STATUS POINT 19 KSCRIPTION VAL(E t)UAL E. U.

' AI)6 ANTICIPATED TRANSIENT K/0 SCSN H0 ATKS 6XO 2 RZT RGCTIS TRIP BREAKER STATUS IK)T TRIP GXO 3 N31 SQSCE RA%E DETECT% H-31 1,00000+00 IM(9 CPS 4 I(32 S(u(CE RAN6E KIECTUI H-32 1.0000080 IM(9 (PS 5 NI5 INTERIEOIATE RA%K KTECT(lt H-35 8.0537~ 1%(9 AtP 6 N36 INTERIEOIATE RA%K DETECTIR H-36 7.0469fHH MO AtP 7 IP AVH%K MXLEAR PSER 99,46 6MO Z 8 PRCS RGCITXI C(KuNT SYSTBI AV6 PRESS 2241. 6MO PSI6 9 LPIR PRESRSIIER AVERAGE LBB. 49.9 6009 X 10 FR(2A RGCTXI CmuNT UXP A AVG FLW 100.2 6XO X 11 FRCLB RGCT(X( Cmut(T UXP B AVG FLS( 100.2 6009 12 RXT)6 RCPA NEAKER CAUSE RX TRIP, IK)T TRIP 6XO 13 RXT17 RCPB BREAKER CAUSE RX TRIP M3T TRIP 6XO 14 TRSTC IIKXSE TC SUKHXED ttARGIH 42.1 GM~ KGF 15 LSGA ST)t 6EH A HNRN RANGE AVG LEVEL 52.1 GMO 16 LSGB STH KH B HARROK RANGE AVG LEVEL 52.1 6XO 17 PSGA ST)I GEH A AVERAGE PRESS(l(E 725. Gm PS16 18 PSGB Sl)l GEH B AVERAGE PRESRl(E 725. 6%9 PSIG 19 GEHOKRI GEIERATN 0NLIIE HKAKER 161372 IK)T TRIP 6009 20 GEH8KR2 GE)ERAT% 0HLIIENEAKER 9X1372 IK)T TRIP 6XO

.21 . R)S11A RS 11A RPPLY NEAKER NT TRIP 6009.

22 BUS11B RS 11B RPPLY RIEAKER Nf TRIP 6(KS 23 R)812A %T TERIIIIIATED SI PPCS t7/19/91) IK)T TRIP KL 24 BUS)28 )6T TERIIINATH) Oi PPCS (7/19/91) IK)T TRIP EEL 25 Bllh(2A RS 11A TD 12A TIE NEAKER TRIPPED 6M9 26 8118129 RS 11B TQ 128 T'tE SIEAKER TRIPPED GMO 27 PCV CmrAreENT AVERAGE PRESS(ltE .43 6009 PSI6 28 LRlPA CSITAIQB(T SOP A AVERA6E LEVEL 1.5 GMS FEET 29 L0942E RlP B LEVEL 8 IIGES (TRAIN A) LSER 6009 30 L0943E RlP 8 LEVEL 8 1)GES (TRAIN 9) LSER GXS 31 L0942D RlP 8 LEVEL 78 IIGES (TRAIN A) LSER Gm 32 L0943D RlP 8 LBiH 78 IIGiES (TRAIN 8) LSER 6009 33 L0942C RlP 8 LEVEL 113 IIGES(TRAIN A) LSER 6009 34 L0943C SlP 8 LEAL 113 IIGES(TRAIN 8) LSER 6009 35 L0942B SQP 8 LEVEL 180 IIGES(TRAIN A) LSER 6XO 36 L09438 RlP 8 LEVEL 180 IIGES(TRAIN 8) LSER GXS

~ 37 L0942A RlP 8 LEVEL 214 IIGES(TRAIN A) LSER 6XO 38 L0943A RlP 8 L&EL 214 IIGES(TRAIN 8) LSER GXS 39 T0409A RCLA IK)T LEG TBPERAME 588 A 6MO K6F 40 T0410A RCLB IK)T LEG TBPERATllf 588 4 6XO KGF 41 T0409B RCLA CRJI LEG TBPERATlRE 532.7 6XO K6F 42 'T0410B RCLB CIA LEG TBPERATISE 532.7 6009 K6F 43 TAVGAKID RCLA TAVG (T)6TNXLD IIIDE RH8) 560.5 6XO K6F 44 TAVGBKID RCLB TAVG (TIK)TflCILDKIK RNi) 560a5 6MO K6F 45 LRV RGCT(R VESSEL AVERA6E lEVEL 100.3 60R X 46 TCCHIE E1.1 ICSIE TC AVERAGE TE?P 594.8 GMe KGF 47 FAUXFKA S/6 A TOTAL NJX FEEOKATER FLS( 0. 6MO IPII 48 FAUXF)6 S/6 8 TOTO. AN FEEDKATER FLSI 0. 6XD 6PN 49 B)(R081 IITR AUXILIARYFEHNATER PtlP A IPF 61 50 BKR082 IAR AUXILIARYFEEDKATER PLlP 9 IPF 61 51 V3505 AUX FK PtlP STEAN RPPLY VALVE A CUBED GXO 52 V3504 AUX FK PtlP STEAN RPPLY VALVE 8 CLOSED 60K

3t5 lli 1997 06:00 R. E. 6IQQ SINlATR PAcc 2 TEND am'SSI6QGlT SORRY 6rQP: EVEHT1 PEKOE: EPIP I< PLANT STARS POINT ID IKKRIPTI(N VILLE QUAL E. U.

53 FSIA SAFETY ItuECTISl UK& A AVS FUN 0. 6GOD 6PII 54 FSIB SAFiiY INXCTIN UXP B AVS FUN Oo 6m 6PII 55 F2160 SERVICE MATER RJfS A 0 B ONER 83. 60OD PS16 Sb P2161 SGÃICE MAT% PQFS C 0 D KAXR 75. 6OOD PS 16 B(RQ41 SERVICE. INTER PllF A 6m 58 %R042 SERVICE INTER PIG'S B SXD 59 INR043 SERVICE MATER PllP C Sm 60 BKR044 SERVICE MATER PQP D 6XE

JLN lie 1997 08:00 R. E. GINA SINIATN PAK TREND am'SSI6MKNT RN58Y ER(U" EVENT2 PROCEDlRE: EPlP 1-5 PLANT STAtiS POINT 1D KKRIPTIN E. U.

1 F0619 CBfBEHT COCL1% LKP TOTAL FLM 1422. LRJ( PN 2 U56T REF(KL1% NTER ST9%K TAN l.VL 94.5 GXD X 3 I60330(5 33 FT LEVB. MIHO SPEED: 15H AVG 3.9 6X9 5H 4 NN33)(5 33FT LVL HIND DIRECTION 15H AVG 264. 6XO KG.

5 W033()15 33 FXT LEVEL TBF. (15)l AV6) 54.8 6XO KEF 6 NT2500(5 250 FXT lEVEL TBP. (15H AV6) 53.3 6009 K6F 7 MDT2Q)5 250-33 FT LVL KLTA TBP ]5)l AVG -1.5 600D KEF 10 11 12 8

9 R01 R02 R05 R09 R34 AREA AREA AREA AREA

~

AREA 1~(TR(L R(O(

~TAIMENT

~M FKL PIT LI% )O(ITN 34 AUI BLDG CV 9%AY POP 8.?599~

3.91292+00

.5. 1~1 1.80925i01

8. 17524<1 6009 6009 6009

)S/)S K09 (S/)S 6XO )S/)S IS/%

)S/)S 13 R35 AREA ZrPASS SA)&LE PA)EL 1.0964880 6X9 )S/)S 14 R10A COHTAI)ST 1091K (O(ITN RIOA 2.97&8)H2 6009 CP)1 15 Rll CNTANHfT AIR PARTIC(LATE 1. 1664?KQ 6XO lPN 16 R12 COHTAIQBiT 6AS )O(ITN 1.61250i02 6009 CPH 17 R 109 PLNT VENT IODINE NNITN R109 9.13323i00 6009 18 R13 AN BLDG EIHAUST AIR PARTIQ1NE 3.8792bi01 Gm CP)l 19 R)4 AUl BLDG EIHAUST GAS )O(ITN 3. 13MH01 GXO CPH 20 R18 LIOUID HASTE DISPOSAL NNITN 1.6453%9 6009 CBl 21, R19 STEA)l EEM3(ATN SLS(OOW NAIH 4.2780'009 CP)l 22 R29 AREA PHIMAIttBITHIEH RA%E 8.99&27<1 6X9 R/)S 23 R30 AREA ZHBPAIQ&T HIGH RANGE 8.99627%1 GXO R/)S 24 25 26 R15 R12A5 R12A6 CV VEHT CNH ~

QNEHEER AIR EJECTN EXHAUST RANEE 6AS CV VENT CHAN &AREA GA)f(A 5.37804M 6X9 CRl 7.5000~ 6XO XI/CC 1.999~ 6XO )S/)S 27 R12A7 CV VENT CHAH 7+ID RANEE GAS 9.99984M 6009 XI/CC 28 29 30 R12A9 R14A5 R1487 CV VENT PLANT VEHl PLAHT MH ~

CNH 'HGEH RA%E 6AS VM CHAN ?&ID RA%E RANEE GAS GAS 9.99967M 600D XI/CC 1.50001M 6(mO XI/CC 9o 999()4~ 6009 XI/CC 31 32 33 R14A9 RISA5 R15A7 PLNT VEHI AIR EJECTCR AIR EJECTOR CHAN CHAH CHAN

~

MIEH RA%E 6AS RANEE 6AS 7+ID RA%E 6AS 3o 99971M 6009 Xl/CC

?o?99K'X9 XI/CC 9.99984M 6009 Xl/CC 34 R15A9 AIR EJECTCR CHAH MI RA%E GAS 9. PAPE 6009 Xl/CC 35 V3411C STEAH LI% ARV A CLOSED Gm 36 VlfSVA NUNER OF S/6 A )SSV %EH 0. 600D 4 (FEH 37 R31 AREA 31 STEA)l LIE A (EPI%) 2.0515HZ 6XO )S/)S 38 R31RM S6A MKE GAS RELEASE RATE: IBNV .00000i00 6XO CI/SEC 39 V3410C STEA)l LINE ARV 8 CLOSED 6009 40 V%SVB RNBER OF S/6 B )S 5%H 0. 600D 0 5%N 41 R32 AREA 32 SIEAH LINE B (PI%) 2.0512KB 6XO )S/)S 42 R32RRO SGB %RE 6AS RELEASE RATE; IQNV .00000KO 6X9 CI/SEC 43 CVH CV HYQQiEH CNCB(IRATIOH o0 6XO 7 44 TCV03 CV BASEST LEVEL 6FT K5'3 77.1 GXO K6F 45 TCV07 CV ING%9IATE LVL 6FT TBP 47 87.3 SRO KGF 46 TCV08 CV INTERMEDIATE LVL &FT TBP 48 87.3 61 K6F 47 TP99 CV IMrEBEOIATE LVL &FT TEN'g 87.3 6XO K6F 48 TCV10 CV INER%DIATE LVl. &FT TBt OI0 8?o3 Gm K6F 49 TCV17 CV 5%RATING LEVL 6FT TB%'17 97.5 6mm K6F

Time: 08:15 Message: 11 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORII Message for: Control Room Message: +++THIS IS A EXERCISE+++

FOR CONTROLLER USE ONLY Controller Notes:

Actions Expected:

8-1 3

J9t fis 1997 08: 18 R. E. GIWA SINLATtR TREND GRRP ASSIBtGlT BPfVRY 9QP: EVENT) PRXE(rRE: EPIP 1-5 PLANT STATUS POW'O DESCRIPTI% VALIK QUAL E. U.

1 A)l{S AMTICIPATEO TRANSIENT H/0 SCRN NO AT)(S 6009 2 RrT RSCHR TRIP SKNER STATUS, MH'RIP 6009 3 N31 SISCE'RAKE K(IXTUI H-31 I.OXOOKO IN{9 VS 4 N32 SISCE RAN6E K(ECTN H-32 1.0000(H00 I%{9 CPS 5 N35 INTER)KOIATE RA%E KIECTOR H-35 8.0537~ 1)1{8 At&

6 )G6 IHIERtEDIATE RA%E KlKTOR H-36 7.046%@}4 I)4{8 A(P 7 IP AVERA(K MXLM PSER 99. 47 6009 r 8 PRCS REACTOR COKNT SYSTEN AVG PRESS 2241. 6009 PSIG 9 LPIR PRESQRIIER AVERA(K LEVEL 49.9 6X9 X 10 FKLA (KACTlR C(ruNT UKP A AVG FLS( 100.2 6009 1 11 FRED RE(ACTOR C(XuHT LIP 8 AVG FLS( 100.2 Gm 12 RrT16 RCPA BRENER CAUSE Rr TRI Wr TRIP GXm 13 RrT)7 RCPB BREN% CAUSE Rr TRIP Nf TRIP 6009 TSUBTC IMXNE TC SUBCGXEi) t(ARSIN 43.5 600~ KSF 15 LS6A STN GEN A NARRS) RANGE AVG LEVEL 52.1 6009 X 16 LSGB ST)( 6EN 8 HARRS( RANGE AVG LEVEL 52.1 GX9 17 PSGA STN 6EH A AVERA6E P(KSSLRE 725. 6XD PSIG 18 PSGB STN 6EH 8 AVERAGE P(KSSNK 725'X9 PSIG 19 6EMNRI GE)ERATOR OM LI)E BRENER 161372 %T TRIP 6009 20 GEM)riQ GE)ERATS{ OM LltE B(KNER 9r1372 HOT TRIP 6009 21 BUS11A BUS 11A SLPPLY BRENER NOT TRIP 6009 22 BUS118 BUS 118 QPPLY BRENER M)T TRIP 6XD 23 $ )S)2A NT TER)) lt(ATED S( PPCS t?/19/91) MlT TRIP KL 24 BUS128 NOT TERt(INTED S( PPCS (7/19/91) HOT TRIP DEL 25 811A12A BUS fiA TO 12A TIE BRENER TRIPPED 6XD 26 8) IB129 BUS 118 TO 128 TIE BRENER TRIPPED 6XD 27 PCV CS(TAI QKHT AVERAGE PRESSNE .45 60m PSI6 28 LSQtA CS(TAIN%NT SOP A AVERAGE LEVEL 1.5 6009 FKI 29 L0942E StlP 8 LEVEL 8 INC)ES (TRAIN A) UNER 6009 30 L0943E 9PP B LEVEL 8 I)OES (TRAIN 8) LO))ER 6009 31 L0942D QPP 8 LEVEL 78 INCHES (TRAIN A) UNER 6009 32 L0943D SOP B LEVEL 78 1%%S (TRAIN 8) LONER 6009 33 L0942C SU)P 8 LEVEL 113 INC)ES(TRAIN A) LS)ER 6009 34 L0943C SQP 8 LEVEL 113 I)CES(TRAIN 8) LSER GOR 35 L09428 QJP 8 L8iEL 180 I)GES(TRAIN A) LSER 6009 36 L09438 SQP 8 LEVEL 180 MKS(TRAIN 8) LSER 6009 37 L0942A SOP 8 LEVEL 214 1)GKS(NAIN A) LSER GM9 38 L0943A SOP 8 LEVEL 214 I)CKS(TRAIN 8) LS)ER 6m 39 T0409A RCLA NT LEG TEN%RATIIE 588.4 6009 40 T0410A R(u HOT LEG TE)PERATNE 588 4 8X)9 41 T04098 RCLA CM) LEG TE)PERATUK Q2.7 6009 42 T0410B RCLB C(u LEG TE)PERATNE 532.7 6009 43 TAVSA)(ID RCu) TAVG (TH)T/TC(LD )(IDE RNG) 560e5 6009 TAVSB)(IO RCLB TAVG (llOT/TC(u )(IDE R%) 560,5 HID 45 LRV REACHR VESSEL AVERA(K LEVEL 100.3 GXD 46 TCCSK Ei.i M9K TC AK%iE TE)F 595.7 GXi 47 FAUIFN S/6 A TOTAL AUr FEES(AT% FLS( 0. 6XO 48 FAUIFN S/6 8 TOTN. AUr FEES(ATER FLS( 0. 6XD 49 BrR081 t(TR A()r ILIARY FEES(ATER P(BP A OFF Gm, 50 Bt(R082 ttm AUIILIARYFEES)ATER PQP 8 OFF GXD 51 V3505 AUr Rl PQ9'TEAt( SLPPLY VALVE A CLQSH} 6009 52 V3504 AUr FN PLY STEA)( SLPPLY VALVE 8 CLOSED GOR

JlN 1li 1997 CB.'B R. E. GINA SltLLAiW Pkx. 2 TREND ERAL AS-lacer< SnSRV 6QPl ~iTI PROCGVK: EPIP 1-5 PLANT STATJS POINT ID KSCRIPTI(N VALlE DUAL E. U.

53 FSIA SAFETY INXCTIR LMF A AV6 FL% 0. 6CGD PN 54 FSIB IHXCTIR LOOP B AVS FL% 0. GXID ERI 55 P2lbO SERVICE NTER BPPS A h B lKAIER 63. 600D PS 16 5b P216l KRVICE %TER PBBS C h D KAOER VS. 6m PSIe 57 NFAl ScRVICE NTER PQP A 600D 58 SKR042 %RVICE NTD Plat B ~ N 600D NR043 SERVICE WATER Pllt C N 6009 60 NR044 SERVICE NTER PllP D 97 600D

JN 11~ 1997 08:18 R. E. GINA SINLATCR PAcc TREND fRRP ASSIBtBfT BJIQRY SQF: EVENT2 PtKCHVK: EPIP 1-5 PLANT STATUS POINT ID KSCRIPTIfN E. U.

1 F0&1'9 CCtFOiKHT Cml 1% UO'OTAL FLK 1422. LAL)l fPtl 2 LRKST" REFlH.1% KATER STlRAGE TAN LVL 94.5 6000 X ~

3 KS033QI5 33 FT IEVEL KIN9 SPEED: 15tf AVG 4.5 600D tFH 4 KD033Q15 33FT LVL KIND DIRECTIN 15tl AVG 2?8. GXD KB.

5 KTO33QI5 33 FXT LEVEL TBF. (15tt AVG) 57.1 K09 K6F 6 KT25OQ15 250 FXT LEVEL TE)F. 115tt AVG) 55.8 6000 KK 7 KDT2Q15 250-33 FT LVL DELTA TBP 15tf AVG "1.3 6XD K6F 8 ROl 9 R02 10 RO5 11 12 RO9 834 AREA AREA AREA AREA

~

AREA I~fTRQ. 80Ol

~AINKKT RKL PIT

'FREON Lily NNITN 34 - AUI BLDG CV SPRAY POP

9. 44062M 3.98107+00 4.92bCrOI 1.%86&01

?.9hZ&01 6000 GXD 6009 6X9 %IN 6009 N/fR N/N

%IN NI)41 13 R35 AREA ZrPASS SAtFLE P%8. 1.0964BKS 6009  %/%

14 RIOA CMAINBG'OD1% NNITIS 810A 3. 17595KI2 6009 CPtt 15 Rii GNTAlltENT AIR PART IClLATE 1.22850K'009 CPtl 16 812 CNTAIQENT 6AS tOtlTN 1. 65481+02 6000 CPti 17 R109 PLANT VENT IODOK NNITIR RIOB 9.4543)tOO 6000 18 R13 AUI BLDG EIHAUST AIR PARTIQlNE 3.929K&01 Gm CP)t 19 814 AUI BLD6 DHAUST 6AS NNITN 3.139&OIOI 6XD CPtt 20 R18 LIQJID KAW DISPOSAL NNITOR 1.56%MO 6XD CPtf 21 = R19 STEAtf Seamna Summe DRArtf 4.3?144+02 Gm CPtf 22 R29 AREA 2iHXNN!8%NT Hlftf RA%6 8.99627<1 6000 8/N 23 R30 AREA SHXNTAIN%W HI% RA%E 8.99627<1 GXD RIN

- 24 25 26 815 R12A5 R12A&

CV VENT CHAN CV VENT CHAN ~

CfNXttSER AIR EJECT% ESAUST

&UN RA%E 6AS GAtffA

5. I954&KQ GXD CPtt 7.~7 6000 Gm N/N XI/CC 27 R12A7 CV VEHT CHAN  ?&ID RA%E GAS 9.9998~ 60M XI/CC 28 29 30 812A9 814A5 R14A7 CV VENT CHAN PLANT VENT CNH PLAT VENT CHAN

~

MIGH RA%E GAS 7%19 RAMiE 6AS RAN6E GAS 9.9998?M 1.50001M 9.99984M GXD UCI/CC 6000 Xl/CC 6XD Xl/CC 31 R14A9 PLANT VENT CHAN H{IGH RA%E 6AS 3.999? IM GOOD XI/CC 32 R15A5 AIR EJECTOR DfAN MN RA%E 6AS 7.?99K&6 6009 XI/CC 33 815A7 AIR EJECTOR CHAN ?+ID RA%E 6AS 9.99964M 6000 Xl/CC 34 815A9 AIR EJECTCR 04AN Ml RA%E GAS 9.9998?M 6000 Xl/CC

~ 35 V3411C STEAtl LI% ARV A CLOSED 60K 3& VttSSVA NNKR OF S/6 A tSSV fFEH 0. 6000 IFEN 37 831 AREA 31 STEAtt Lily A lSPI%) 2.0512~ 6000 %IN 38 831RRQ S6A NBLE 6AS RELEAK RATE115t)AV .00000te) Gm CI/SEC 39 V3410C STEAtt LID ARV 8 CLOSED 6mm 40 VISSVB HISSER OF S/6 B ISSV IFEN 0. 6XD 4 OPEN 41 832 AREA Z STEAtl,LIIK B (SPI%) 2.0512~ 60R tS/HR 42 832RRQ SGB NOBLE 6AS REIEASE RATE:15NAV ~ 0000080 GXD Cl/SEC 43 44 45 CVH 7CV03 TCVO?

CV NYDR06EN CV BASEtfE)fT GKXHSTIN l RIEL 6FT CV IHTERtfEDIATE LVL 6FT

~ 43 TE)F 47

>0

?8.9 88.6 6000 X Gm! K6F 6000 K6F 46 TCVOB CV IHIHM)IATELVL &FT TE)F 48 88.6 61 KGF 47 TCVO9 CV IMIERtH)TATE LVL &FT TE)F 49 88.6 6000 IK6F 48 TCV10 CV INTERMEDIATE LVL 6FT TE)F 410 88.6 60M K6F 49 TCVI7 CV PERATI% LEVL 6FT TBP CI? 98.3 61 DE6F

Time: 08:20 Message: 12 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

The turbine vibration alarm is received in the control room on bearing number 1.

FOR CONTROLLER USE ONLY Controller Notes:

1. Over the past 3 minutes, Turbine vibrations started to slowly increase due to a mechanical malfunction.

Actions Expected:

1. Operators attempt to reduce turbine vibrations by reducing turbine load.

8-14

Time: 08:25 Message: 13 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

The following alarms are received in the control room:

High Thrust Bearing Trip FOR CONTROLLER USE ONLY Controller Notes:

1. The turbine trips on High Thrust Bearing Trip. The reactor DOES NOT automatically trip on a reactor trip signal as expected. The reactor remains at power. The plant enters an Anticipated Transient Vvlthout SCRAM (ATWS) event.

Actions Expected:

1. The operators should manually trip the reactor. The manual trip of the reactor DOES NOT function to trip the reactor. The reactor remains at power. Operators should trip the electrical busses 13 and 15. This will trip the motor-generator sets. This will cause a trip of the reactor. A plant shutdown will occur.
2. Operators should enter procedure E-0 "Reactor trip of safety injection"
3. Operators should be consulting EP)P 1-0 to increase event classification 8-15

o ~ ~

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St H

Roc ster j Curt'w Ccerrloon rrc EOF ESC JENC

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P I,Ca Coaberce O

sc Cbrrc Cab' J

)p c Iconean St Ccranoan Aw f,~

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Aw

Time: 08:30 Message: 14 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

FOR, CONTROLLER USE ONLY Controller Notes:

Actions Expected:

1. Response to a reactor trip continues.
2. An ALERT should be declared in accordance with EPIP 1-0, EAL¹ 1.1.1. "Any failure of an automatic reactor trip to reduce power (5% and manual trip is successful".
3. Operators should implement procedure EPIP 1-2 "Alert".

8-16

0 3(N lio 1997 08:30 R. E, 61%A SIIRLAT(R C

TREND GRmP ASSI68%NT RkSARY 6RmF: EVENT1 PROCE(NE: EPIP 1-5 PU)HT STATUS POINT IO DESCRIPT I(l( VALUE aNL E. U.

1 ATMS AHTICIPATEO TRlWSIENT M/0 S(fW ATMS AUO(

2 RXT RBCTlR TRIP BREAKER STATUS RX TRIPPED ALRN 3 H31 SMCE 'RA%E DETECT(R H-31 1.0000080 IN(O 4 N32 SRRCE RAH6E KTECT(R H-32 1.0000080 IQ(8 CPS 5 N35 INIER%9IATE RANK IHECTOR H-35 1.05682-07 At&

6 H36 INTER')IATE RANGE KiECTOR H-36 9.90834M Bm 7 IF AVERA6E MÃXEAR PNER .02 6XO X 8 PRCS R9CI(m URNT SYSTEI( AVB PRESS 1903. 6009 PSIB 9 LPIR PRESRRIIER AVERA(K LEVEL 37.8 GXO X 10 FRCLA REACT(m NANT LmP A AVB FLOM 97.9 6009 X 11 FR(UI REACT(R GANT LmP B AVB FUN 97N9 6XO X 12 RXT16 RCPA BREAkER CA(SE RK TRIP HOT TRIP Gm 13 RXT17 RCPB BREAKER CA(SE RX TRIP NOT TRIP 6009 14 TSUOTC NXHE TC SUIGKlEO IQRBIH 68.3 GX> KBF 15 LSBA ST)I 6EN A HARB(N RANGE AV6 LEVEL 61.2 6XO X 16 LSBB ST)I 6EN 8 HARR(N RANGE AVB LEVEL 60.6 6009 X 17 PS6A STN GEN A AVERA(K PRESSNE 994. GOM PSI6 18 PSBB STN 6EN 8 AlJERA(K PRESRlK 994. 6m PSIB 19 GEHBXRI BE%RAT% ON LINE BREAKER 161372 TRIPPED AU(t(

20 (KN8)(R2 GE%RATOR ON LI% BREAKER 9XI372 TRIPPED AU(t(

21 mlA BUS 11A RFPLY BREAKER TRIPPED ALRI(

22 BUS118 8(S 118 RFPLY BRENER TRIPPED AU(t(

23 BUS 12A %T TER)(II(ATED N PPCS (7/19/91) NT TRIP XL 24 BUS128 NOT THNINATED N PPCS (7/19/91) HOT TRIP 9EL 25 811A12A 8(S 11A TO 12A TIE BREAKER NT TRIP ALRI(

26 8118128 BUS 118 TO 128 TIE SANER HOT TRIP ALIO(

27 PCV Cl((AIQKhT AVERAGE PRESSSK .47 6009 PSI6 28 LRN'A CMAIN&TRlP A AVERAGE LEVEL 1.5 Gm FEET 29 L0942E RlF 8 i&EL 8 INC%6 (TRAIN AI LOMER 6009 30 L0943E RlF B LEVEL 8 IIGKS (TRAIN 9) UNER 6009 31 L0942D RlF 8 lBH. 78 INC)KB (TRAIN A) LQIER 6009 32 L0943D RkP B LEVEL 78 IIKHES (TRAIN 8) UNER 6009 33 L09420 RlP B LEVEL 113 INQKS(TRAIN A) LMR 6XO 34 L0943C SOP 8 LEVEL 113 IICES(TRAIN 8) UNER 6009 35 L094~&, Qlf LEVEL 180 IIGKS(TRAIN A) LONER 8 6XO 36 L09438 SOP B LEVEL 180 1%AS(TRAIN 8) UNER GXO 37 L0942A SOP B LEVEL 214 INCUS(TRAIN A) LNER GXO 38 L0943A RlP B LEVEL 214 INKS(TRAIN 8) LNER 6009 39 T0409A RCLA HOT LEB TENPERAlllK 548.8 6009 40 T0410A RCLB NT IEB TE)1PERAT)lK 548.8 6009 41 T04098 RC(A OLD LEG %5'ERASE 546N9 6009 42 T04108 RClB CMl LEB TEIPERATIRE 546.9 6009 43 TAVBAMIO RuA TAVB (THlTttaLD MIDE RN 547.9 6009 44 TAVaBMID RCQ TAVB (TH)T/TCRO MIOE RNB) 547.9 Bm 45 LRV REACT% VESSEL AVERA6E LEVEL 100.0 6009 46 TCC(mE Ei.i IICNE TC AVERA6E TEIF 553.3 GX<

47 FANFMA 6/6 A TOTIL AN FEEDMATER FLQ( '50'009 48 FAUXFMO S/6 8 mTAL AN FEEDMATER FUN 450, GOR 49 Bt(f981 t(TR ANILIARYFEEDMATER P(lP R ON GXO NIR ANILIARYFEE(NATER PllP 8 ON Gm AN FM P(lP SIEAI( RPPLY VALVE A (PEN ALRII AUX FM POP SIEAtl RPPLY VALVE 8 (FEN ALRI

AN lls 1997 08o30 R. E. GINA SINuTGR PAG-2 ERE Sm'SSI6QGfT SBfSRY fm'! EVENTI PRXEXfK: EPIP 1-5 POIKT ID KKRIPTII5 VAUE QUAL E. U, 53 FSIA SAFETY IKXCTI0K UXP A AVG FUN 0. GXE 5%

54 FSIB SAUCY IKXCTIN UXP B AV6 FUN 0. GfXfD GPff 55 P21b0 SERVICE NTER PllPS A h B fGUKR 83. 600D PS16 56 P2161 SERVICE NTER PNPS C L 9 fGUKR 75. 600D PSIG 57 BKN41 ScNICE NTD POP A GXE 58 NR042 SERVICE NTER RlP B 600D 5V Nfm43 SERVICE NTER POP C HXm b0 NR044 SERVICE NTER PuP 0 600D

JLN 11~ 1997 08:30 Re E. GINA SllllATOR PAF TREND 6RRP ASSIBtBfT RlfNRY 6RRP: EVENT2 PRXERRE.'PIP I< PLANT STATUS POINT lD KSCRIPTION E. U.

I F0619 CBPQEHT Cmi 1% LSP TOTAL FLM 1422 LALH GRl 2 LRMST RERKLINB HATER ST(SAGE TA)4( LVL 94e5 Bm X 3 I6033QI5 33 FT'LEVEL MIHO SPEEDl ISH AVG 4.9 6009 lfH ND033QI5 33FT LVL HIND DIRECTION ISN AVB 288. 6XO KB.

5 NT033QI5 33 RST LEVEL TBf. (15H AVG) 58.8 6009 KGF 6 MT250QI5 250 FXT LEVEL %5'e (15H AVB) 57.6 BXO K6F 7 lST2QI5 250-33 FT LVL KLTA TBP 15H AVB -1.2 GK9 K6F 8 ROI 9 R02 10 il 12 R05 R09 R34 AREA AREA AREA AREA AREA

~

I~(TR(I R0N

~AI)4(EHT RKL PIT

'PHEON LIK NNITN 34 - AN BLD6 CV SPRAY 8.81t@HQ Gm N/N 4.70L%KO 6XO )S/N 5.24807<1

3. 19888+01 PS& 7.85ZRrOI 6XO 6009 N/N

)8/HR 6XO %/N 13 R35 AREA ZrPASS SAtFLE PA%L 1+09&SKO 6XO N/N 14 RIOA CMAIN%NT IODIIE NNITOR RIOA 2.4974&04 HALN CRl 15 RII CNTAIltBiT AIR PARTICIPATE 2.7901~ 6009 CPM ib RI2 CMAIQBlT 6AS )0(ITOR 2.0683580 6XO PN 17 RIOB PLANT VENT IODINE %NITOR R109 9.70Z&00 6009 CPH 18 R13 AN SLOG BHAUST AIR PARTIQLNE 3.7964241 6009 CRl 19 Rlh AN SUE DHAUST 6AS lCNITN 3.36414%1 N09 CPN 20 RIB LIRIID HASTE DISPOSAL l%5ITN 1.68122+03 6009 CPH 21 R19 STEAN GE%RATtR OLStDOI5 ISAIH he27808KQ 6009 CPH 22 R29 AREA ~AI)%NT HlGH RAN6E 8.99627<1 6009 R/N 23 R30 AREA 3tHIMAINKHTHHR RA%E 8.99627%1 GXO R/)8 24 RI5 CNKHSER AIR EJECTOR BHAUST 5.37804+02 6009 CPH 25 R12A5 CV VENT CHAN &UN RA%K 6AS 7.5000&47 6009 XI/CC 26 R12A6 CV VENT CHAN kr4REA SANA 1.9999~ Gm N/HR 27 R12A7 CV VENT CHAH 7+ID RA%iE 6AS 9.99984M GXO Xl/CC 28 R12A9 CV VENT CHAN MIBH RA%K 6AS 9.99987M GOM XI/CC 29 RI45 PLANT VENT CHAN &UN RA%K GAS 1.5t)00H)7 6009 XI/CC 30 RI4A7 PLA'O'ct(T CM 7+ID RANGE 6AS 9.99984M 61 XI/CC 31 32 33 RI4A9 RI5A5 RI517 PLNT VEHT CHAN AIR EJECTN CHAN ~

MIS( RANGE 6AS RA%K GAS AIR EJECTOR CHAN 7<ID RA%iE 6AS 3.99971M 6XO Xl/CC l.79983M GOM XI/CC 9.99984M 6009 Xl/CC 34 RIM AIR EJECTOR (J(AH MI RAN6E 6AS 9.99987M 6009 XI/CC 35 V3411C STEN LINE ARV A CLOSED 6X9 36 VHSSVA MNER OF S/6 A %SV %EN 0. Gm 4 OPEN 37 R31 AREA 31 STEAN LINE A (SPI%) 2.0512~ 6009 N/HR 38 R3IRRQ S6A MOLE 6AS RELEASE RATE;IBNV 4.45514M 6XO CI/SEC V3410C STEAN Lit@ ARV 8 CLOSED 6009 40 V)SSVB MME OF S/6 8 )SSV %% 0. 6009 0 OPEN 41 R32 AREA 32 STEAN LIIK 8 (8'IHG) 2.05(Br% 6XO N/HR 42 R325Q SGB NOLE 6AS REIEAK RATE.'15)NV 4.45514M GNO CI/SiC 43 CVH 44 M 45 TCV07 CV I YNOGEN COMXNRATIN CV SASBHiT LEVEL 6FT KN'3 CV INEB%DIATE LVL 6FT TBF f7

.0 80.2 89.5 6009 X GXO DEGF 6009 KBF 46 TCV08 CV INERfH)IATE LVL 6FT TBt N 89.5 6009 KGF 47 TCV09 CV IHTER%DIATE LVL 6FT TBF 49 89.5 6009 K6F 48 TCV10 CV INTER%DIATE LVL 6FT TBF 410 89.5 GXO K6F 49 TCVil CV {PERATING LEVL 6FT KlP 417 98.8 Gm KGF

Time: 08:35 Message: 15 G IN NA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

FOR CONTROLl ER USE ONLY Controller Notes:

Actions Expected:

1. Operators should transition from procedure E-0 to procedure ES-0.1 for post trip recovery.

8-17

Time: 08:45 Message: 16 G IN NA STATION JUNE 11', 1997 PLUIIE EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

FOR CONTROLLER USE ONLY Controller Notes:

~

1. When letdown flow is re-established, the letdown line radiation monitor (R-9) starts to slowly increase.

Actions Expected:

The Technical Support Center, Operations Support Center and Survey Center should be activating.

8-18

Jl5 lie 1997 08'5 R. E, GINA SIMLATOR PA6c 1 TREND fm'KIG)ST BltNRY Gfm'o EVEHT1 PRXHXSE: EPIP .1-5 PLANT STATUS POINT ID DESCRIPTIOH QUAL E. U.

1 AT)tS ANTICIPATED TRANSIENT M/0 SCSN NO AT)(S 6009 2 RIT REACTOR TRIP IRiNER STATUS RK TRIPPED ALRN 3 H31 SMICE RAHGE DETECTOR H-31 3.06901+02 6X9 CPS 4 N32 SMCE RAHGE DETECTOR H-32 3.03738t02 6009 CPS 5 H35 INTER)KDIATE RAHGE KfECTOR N-35 1.31826-11 Gm 6 IHTBNEDIATE RA%E BETE(:f(S H-36 1.29420-11 6009 At&

7 AVERAGE RXLEAR .00 6009 7 8 PRCS .

PS'EACTOR COOLANT SYSTE)f AVG PRESS 2132. 60M PSIG 9 LPLR PRESSNILER O'%%K LEVEL 38.6 6009 7 10 FEUl REACTOR COfuNT LRF A AVG FLSt 98' 60M X 11 FRCLB REACT(XI CO(ut(T LXP B AVG FLS( 98.0 GXE X 12 RXT16 RCPA BREAKER CNIE RK RIP NOT TRIP 6009 13 RGI7 RCPS BREAKER CAUSE RK RIP HOT TRIP 6009 14 TSUBTC INCORE TC SUKOOLED HARBIN 85.6 GXe KGF 15 LS6A STN 6EN A NARRW RAHGE AVG LEVEL 82o2 %RN X 16 I.SGB STN 6EN 8 NARRN RAH6E AVG LEVEL 81.1 WRN X 17 PS6A STN 6EH A AVERAGE PIIESSURE 995, 60M PSIG 18 PS69 Sill GEH 8 AVERAGE PRESSUIIE 995. 6009 PSIG 19 6EHBKRI GENERATOR ON LINE BREAKER 161372 TRIPP% ALRN 20 (KHBKR2 GE)GNTDR OH LINE BREAKER 911372 TRIPPEO ALRN 21 BUS11A BUS 11A SUPPLY BREAKER TRIPPED ALRN 22 'BUS 11B BUS IIB SlFPLY NEAKER TRIPPED ALRN 23 SUS12A NOT TERNIHA78) OH PPCS (7/19/91) NOT TRIP DEL 24 BUS128 NOT TERNIt(ATED OH PPCS (7/19/91) NOT TRIP DEL 25 811A12A BUS 11A TO 12A TIE BS(ER NOT TRIP ALRN 26 B)18129 SUS 11B TO 128 TIE SRENER NOT TRIP ALRN 27 PCV COHTAI)ST AVERAGE PRESSUiK e45 6009 PS16 28 LS(NPA CONTAINBIT SUNP A AVERAGE LEVEL 1.5 6009 FKT 29 L0942E SUtP B LEVEL 8 ICfKS (TRAIN A) LO)IER 60M 30 L0943E SNP B LEVEL 8 INC)KS (RAIN 9) LGhcR GXD 31 L0942D SXP 8 LEAL 78 IHC)KS (TRAIN A) LKR 60M 32 L09439 SJ5' LEVEL 78 IHC)KS (TRAIN B) LO)IER 6009 33 L0942C Rlt 8 LEVEL 113 IKfKS(TRAINA) LO)IER GOM 34 L0943C SUtf 8 LEVEL 113 MHES(TRAIN 8) LO)KR 6009 35 L09429 SUIP 8 LEVEL 180 ItQKS(RAIN A) LO)KR 6009 36 L0943B'0942A QlP 8 LEVEL 180 l)K3KS(TRAIN 8) LSJER Gm 37 S(lP B LEVEL 214 IHC)KS(RAIN A) LO)IER 6XD 38 L0943A RtP 8 LEVEL 214 IhOKS(RAIN 8) LOIIER 60M 39 T0409A NXA HOT LEG TENPERATNE 548.2 6009 40 T0410A RCLB %T LEG TENPERATISE 548.2 60M 41 T0409B RCLA CKD LEG TBFERATISE 547.0 GOM 42 T0410B Rfu COLD LE6 TBFERATISE 547.0 6009 43 TAVGA)IID RCLA TAVG (T)K)T/TC(u i(IDE R%) 547 6 Gm 44 TAVGBMID R(LB TAVG (TNT/TC(LD )(IDE RNG) 547.6 6009 45 UIV RFA".TIXI VESSG. ANNiE LEVEL 99' 6009 46 TCGRE E1.1 I)KXRE TC AVERAGE TBF R3.2 600~

47 FAUIFMA S/6 A TOTAL ALN FEEDHATER FUN 0. 6009 48 FAUIF)IB S/6 8 TOTAL NFl FEHNATER FUN 0.. 6009 49 SKR081 50 BKR082 t(R AUIILIARYFEEDHATER see A t(R AUIILIARYFEaafATER AUK F)t PQF STEAN REPLY VALVE A

~ 9 OH ON CLOSED SXS 6009 6009 A'u< F)f m STEAN SUPPLY VALVE 8 CLOSED 6009

JQI Ils 1997 08:45 R. E. GINA SINLATOR TREND 6RRP A%IDENT RNSRY NQF: EVEHTI PROCEDlRE: EPIP 1-5 PLAKT STAPJS POINT ID mZIPTIOK VALIE QUAL E. U.

53 FSIA SAFETY IKXCTIOKLQP A AV6 FLN 0. 600D 6Ptl 54 FSIB SAFETY IKXCTIN LnjP B AVG FUN 0. Gm GPH 55 P21b0 SERVICE'NTER PCS A 0 B HEADER 83. 600D PSIG 5b P2Ibl NTER PllfS C 0 D fMKR 'ERVICE

75. 600D PS16 57 NR041 SERVICE NTER PNP A 600D 58 SKR042 SERVICE NTER PNP B 600D 59 NRN3 SERVICE NTER PNP C GXD b0 NR044 SERVICE NTER PNF D 600D

JQl 1li 1997 08l46 R. E. GittQ SINKATOR TREND GREP ASSIMENT QNQRY SQF EVEHT2 PROCEDtSEl EPIP 1-S PLNT STATUS DESCRIPT ION E. U.

I F0619 CON'StNT CXLIHG LMF TOTAL FLK 1427. LAUl PN REFiKLIHG KATER ST9%iE TAN LVL 94.5 GX9 X 3 KS033015 33 FT LEVEL KIH9 SPEED: IS)) AVG 4.9 GXO lfH 4 KD033015 ZFT LVL KINO DIRECTION 15ti AVG 301<<GOR KG.

5 KT033015 33 FtX)T LEVEL TBF<< t15t) AVG) 59.0 6m) K6F 6 KT250015 250 FOOT LEVEL TEN'. (15tt AVG) 57.8 6009 KSF 7 KDT2015 250-33 FT LVL DELTA TE)P 15tt AVG -1.2 Gm KGF ll 12 8

9

'10 R01 R02 R05 R09 R34 AREA AREA AREA AREA 34

~

AREA 1MHTRCL R08)

~AIttBlT 9~M-FUEL PIT LM NNTOR 8.75992M I~I 7.202?BKS S.

7.49893%1 AUr BLDG CV 9%AY PUFF B. 17524<1 6009 GR9 GOM 6%9 6009 N/f8

%IN

%IN NJN N/)S 13 R35 AREA ZrPASS SAtFLE PA%L 1.09&AN 6009 %IN 14 R10A CONTAIQEKT IODI/K NNITOR RIOA 1.04?13t05 HAS CPN 15 Rll CtSIHNEHT AIR PARTIC)uTE 7.30?lBKQ GOM CPN 16 R12 CONTAIHtKNT 6AS ttONITOR 7.9891~ 6009 CPM 17 R108 PVHT VENT IODINE NNITN R109 1.11879%1 6009 CPtt 18 R13 AUr BLD6 EXHAUST AIR PARTICQATE 4.06794+01 Gm Ml 19 R14 AUr BLDG E1HAUST GAS manta 3,467&01 6009 CPtt

'20 R18 LIQJID KASTE DISPOSAL tGHITN 1.63117+03 6009 CPtl 21 W9 STEAN 6E%RATN BLQ)DON NAI)t 4.2965989 6009 CP))

22 R29 AREA 2HXNTAIQKHT HIGH RAH6E 8<<99627<1 6009 R/N 23 R30 AREA 3HXNTAIQBA'IGHRAHGE 8.99627<1 GOR R/N 25 26 R12A5 R12A6 CV VENT CHAN CV VENT CHAN

~

~

cOHDE)GER AIR EJEcTDR EXHNGT RANE 6A!CQ GAS 5.61K&02 7.5000~

1.999~

6009 GOR GOM CP!1 XI/CC

%/HR 27 R12A7 CV VENT CS)H  ?+ID RAHGE 6AS 9.99984M 6009 Xl/CC 28 29 30 R12A9 P)4 R14A7 CV VENT CHAH PLANT VENT Ctu PLANT VENT CHAN

~

MIGH SNX GAS

?+ID RANE GAS RANGE GAS 9.9998?M 6009 1.50001<7 GOM XI/CC 9.99984M Gm XI/CC Xl/CC 31 R14A9 PLNT VENT CHAN 9+IGH RANGE 6AS 3.999? IM 6009 XI/CC R15A5 AIR EJECTOR QQH MOK RANGE 6AS 7.79983M 6009 XI/CC 33 R15A7 AIR EJECTOR OQH ?+ID RANGE 6AS 9. 99984M 60R XI/CC 34 R15A9 AIR EJECTtR CHAN 9+iI RA%E 6AS 9.9998?W 6009 XI/CC 35 V3411C. STEAt) LINE ARV A CLOSED 6009 36 ~A  %)SER OF S/6 A %SV 5%8 0. GND 9 OPEN 37 R31 AREA 31 STSN LINE A tSPING) 2.0512~ GOM %IN 38 R31RM SGA MOLE 6AS RELEASE RATE<<15t)AV 5.4072~ GtX)9 CI/SEC 39 V3410C STEAN LI% ARV 8 CLOSED 6009 40 Vt)SSVB MNBER OF S/6 8 %SV OPEN 0. 6009 4 5%N 41 R32 AREA 32 SIEAt) LINE 8 (8'ING) 2.0512~ 6009 %IN 42 R32RRQ SGB NKE 6AS RELEASE RATE<<15)NV 5.321ZH5 GXS CI/SEC 43 CVH CV HYDRtS CISCENTRATIOH .0 GXS X 44 TCV03 CV BASB%hT l RIB. 6FT TEt)P 43 81.0 GOR IHiF 45 TCV07 CV INTERtKOIATE LVL 6FT TBP 47 89.7 6009 K6F 46 TCV08 CV INTERHEDIATE LVL hFT TBP 48 89.7 GX9 K6F 47 TCV09 CV INER%9IATE LVL 6FT TBF I9 89.7 6009 K6F 48 49 TCV10 TCVI?

CV CV ISEHEiIATE LVL hFT PERATIt)6 lZA. 6FT ~ TE)tP 010 017 89<<7 98.S GOR K6F 6009 18iF

Time: 08:45 Message: 17X GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

Declare an Alert in accordance with EPIP 1-0

¹ EAL 1.1.1 "Any failure of an automatic reactor trip to reduce power (5% and manual trip is successful."

FOR CONTROLLER USE ONLY Controller Notes:

1. Deliver only if an Alert has not yet been declared. Do not deliver if emergency classifications are in progress.

Actions Expected:

8-19

Time: 09:00 Message: 18 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

FOR. CONTROLLER USE ONLY Controller Notes:

1. Letdown pressure control valve (PVC-135) fails closed. Operators may not notice this alarm due to the failure of the "A" annunciator panel. This control valve failure should

, result in an alarm on annunciator panel "A". This results in letdown going to the PRT through relief valve RV-203.

2. Refer to attached mini-scenario for PVC-135 failure.

Actions Expected:

1. Operators should observe rising PRT level. The operators should find PCV-135 closed.
2. Operators should isolate letdown by closing air operated valves AOV-427, AOV-202, AOV-200A and AOV-200B.
3. The TSC, OSC and Survey Center should be staffing up and checking operational readiness.

8-20

GlNNA STATlON JUNE 11, 1997 PLUME EXPOSURE EXERCISE Minicenario Activity: Failure of PCV-136 PCV-135 has failed Controller Notes:

When the I&C technicians investigate PCV-135 they report that the circuit has a ground.

Actions Expected:

1. The I&C technicians should troubleshoot the failure of PCV-135 panel and find that there is a problem gound.
2. IBC technicians should determine that the curcuit needs to be repaired/replaced.
3. The plant should determine if they have a spare curcuit in stock to replace the damaged component.
4. Maintenance planners should prepare a work package for the component repair/replacement.
5. Work should commence (simulated) on the component.

8-21

JIPi ff~ 199? 09:00 R. E. GINA Sf%LATM TREND 6RRP ASSIS%M S(ft(ARY IRXP: EVENTi PROCEMIE: EPIP 1-5 PLANT STATUS POINT 19 DEKRIPTIN E. U.

1 AIMS ANTICIPATED TRANSIENT M/0 SCM NO ATMS BUM 2 R(T REACTOR TRIP BREAKER STATUS ID TRIPPED ALRtl 3 H3f SOu?CE RANGE DETECT(X? H-31 2.35233KQ 6009 CPS H32 Smf?CE SNK DETECT(R H-32 2.49459K@ Bm CPS 5 ta5 ItAERKDIATE RA%E KIECTS? H-35 1.25314-11 6009 Att 6 H36 INIEMKDIATERANGE KIECTR H-36 1.23595-11 6009 AtP 7 AVERAGE HXLEN RKR .00 6009 X 8 PRCS REACTOR CO(ut(T SYSTEt( AVG PRESS 2248. '00D PSIB 9 LPIR PRESSURIIER AVERAGE LEVEL 35.7 Bm 10 FRCLA REACTOR C(XuNT UXP A AVB FLS( 98.2 6009 x ii FRM REA".T(R COKNT UXP 8 AVG FLOM 98.2 6009 12 RKT16 RCPA BREAKER CAUSE RK TRIP )K)T TRIP BXD 13 RITf? RCPB BREAKER CAUSE RK TRIP HOT TRIP 6009 14 TSUSTC INC(X?E TC SUXOOLED t(ARGIN 93,2 600'1o3 K6F 15 LSQ ST)I GEH A NARROM RANGE AVB LEVEL 6009 X 16 LSBB STl( 6EN 8 NARROM RAhK AVB LEVEL 50.0 6009 17 PSGA STN 6EN A AUG%K R?ESSNE 994. 6XD PSIG 18 PS68 STtl GEN B AVERAGE PPESStSE 994'00D PSI6 19 BMKR1 GEM3?ATDR ON LINE BREAKER 161372 TRIPPED kR)(

20 BEHSKR2 GEt43?AITS ON LINE SF~FR 9K 13?2 TRIPPED AU?N 21 'USiiA BUS iiA QPPLY BREAKER TRIPPED ALRN BUS118 BUS 118 QPPLY BREAKER TRIPPED ALRII 23 BUS12A NOT TERt(IHATED Ot( PPCS (7/19/91) NOT TRIP KL 24 SUS128 IK)T TERt(INATED N PPCS (7/19/91) NOT TRIP DEL Qo 25 BIIA12A S($ lfA TO 12A TIE BREAKER tK)T TRIP ALRN 26 SIISI29 S(5 1 f8 TO 12S TIE BREAKER HOT TRIP ALRI(

27 PCV COHTAIllKHT AVERAGE PRESE?E o4? 6009 28 LBPPA QWTAINI(EIIT SUtP A AVERA6E IZKL 1.5 6009 29 L0942E SUtP B lPKL 8 IJQKS (TRAIN A) LO)KR 6009 U

30 L0943E S(lt 8 i&EL 8 IC%8 (TRAIN 9) LONER GOM 31 L0942D SUtP B LEVB. 78 ICKS (TRAIN A) LNER 60K 32 L09439 SOP 8 i&EL 78 IIGIES (TRAIN B) LNER 6009 33 L0942C SUI4' LEVEL 113 I)CHES(TRAIN A) LOMER 6009 34 L0943C S(RP 8 LEVEL 113 ICONS(TRAIN 8) LOMER 6009 35 L09428 SUIP 8 LEVEL 180 ItGKS(TRAIN Al LSFR 36 3?

L0943B L0942A SIMP 8 le 180 MHES(TRAIN 8) LNER S(lP 8 LEVEL 214 l!CKB(TRAINA) LONER 6009 6009 BXE 38 L0943A SQf' LEAL 214 ItGKS(TRAIN 8) LOMER 6009 39 T0409A RCLA IK)T LEB TEIPERA1UK 54?e7 GOOD 40 T0410A R(u IK)T LE6 TE)FERAIUK 547.7 6009 41 T0409B RCui CRII LEB TE)PERATIRE 546.8 6XD 42 T0410B RCLS C(u) LEB TE)PERATISE 546.8 6009

~

43 TAVoAMID RCui TAVG (T)K)T/TC(u MISE RHB) 547.3 6009 44 TAVSSMID R(u TAVG (T)K)T/TCOLD MIDE 8%) 547.3 6009 45 LRV RGCHN AVERAGE LEVEL 100.3 60K 4& TCCORE Ei.i IKCOE TC AVERAGE TEI(P %1.9 BXe 47 FANFMA S/6 A TOTAL NH FEEMTER FUN 0. 6XD 48 FAUIFMS S/6 8 TOTO. AUK FEEDMATP FLOM 0. 6009 49 SKR081 NTR AUIILIARYFEEDMATER PUtF A ON 6009 50 SKR082 NTR AUIILIARYFIBSTER PUtP S ON Bm 51 V3505 AN FM PlÃ'M SUPPLY VALVE A CLKiEB 6009 52 V3504 AUK FM P(Ã'TEAt( RPPLY VALVE 8 CLOSED 6009

XN lie 1997 %100 R. E. GBt@ SINLAiuR 1898 GRSF ASS IQKÃT RPSARY HM'! EVEHT1 PRDCGKiRE! EPIP 1-5 PLAhT STAT'JS POIHT ID DEKP.IPTIDH UALLE GOAL E. U.

53 FSIA SAFETY IHXCTIDH URP A AVG FLN 0. 600D 54 FSIB SAFETY IHXCTIDH UXP B AV6 FLSt 0. 600D Ptt P2}E4 SERVICE HATER PHFS A h B fKNKR 83. Gm PS 16 56 P2151 SERVICE NTER PNPS C 0 D IKAIiER 75. GXE PS I 6 57 BKf541 SBNICE NTER PNP A 600D 58 BKR042 %RVICE HAT% RlP 6 60K 59 NR043 SERVICE HATER PNP C 6009 b0 NRW ~ICE NTER PQP D 6XO

0 Jl5 IIs 1997 09:01 Ro E. GINA SMLATN TREND GRM'SSIBttKNT BONY 6Am'VENT2 PROCEM)E'PIP 1-5 PLANT STATUS POINT ID KSCRIPTION E. U.

F0619 CBR)%NT CtXLI% LOOP TOTAL Fut 1405. LALN GPN

~

2 LSGT RERKLINB HATER STNABE TAtK LVL 94.5 6000 X 3 ltS033015 33 FT LEVEL NIHD SPEED'5N AVB 4.9 Bm 5%

4 CNXMI5 ZFT LVL HIND DIRECTION 15N AVB 313. Gm K6.

5 )ITOXNI5 33 FDOT LEVEL TBP. {15tl AVB) 59.1 6000 K6F 6 NT25O)15 250 FXT LEVP TBtP. (I5)l AVG) 57.9 6000 K6F 7 ltDT2QI5 250-33 FT LVL DELTA TE)P 15tf AVB -1.2 6000 KGF 8

9 10 12 ROI R02 R05 R09 R34 AREA AREA AREA AREA AREA

~

IDENT)Q.

2~AIN)KNT 34 ROOt FlKL PIT 9~5N LI)K tOIITGR

" AU> BLOB CV.mW PIMP 9.44062M 6000 9.6050&00 6X0 lS/N 4.928&01 GX0 l8/N Io2232M2 WR)t %IN 7.62957<1 BXS N/N

%/N 13 R35 AREA ZrPASS SNPLE PA)6. 1.09648M 6000 NIN 14 RIOA CNTAIQKNT IODINE NONITGR R10A 1.8434266 HAUl CPN 15 RII GNMIQGIT AIR PARTIC)UlTE I e 23737403 GX0 CPN 16 RI2 CM'AIQKNT 6AS NWITGR 1 40&&04 60M CPN 17 "RIOB tuHT VENT 1001% NNITIm R109 1.3645tBOI 6009 CPN 18 R13 AUÃ BLD6 EXHAUST AIR PARTICtuTE 4.2474MB GXS CPN 19 R14 AUX BLDG EIHAUST GAS tOIITlm 3.69934%1 6XD CPN 20 R18 LIIlID)tASTE DISPOSAL NNITDR 1.68122+03 6000 CPN 21 R19 STEAN BEt6NTN BLIMOW MAIN 4.3714042 GX0 CPN 22 R29 AREA 2HXWAIQKHT Hlal RANGE 8. 99627<1 6000 RIN 23 R30 AREA 3HXNTAIQKNHI6H RANGE 8.99627<1 6000 R/N 24 R15 CNDENSER AIR EJECTOR EIHAt)ST 5.1 54&KQ 6000 CPN 25 R12A5 CV VENT CHAN &UN RA%K 6AS 7.500%r07 GR9 Xl/CC 26 R12A6 CV VENT CHAN &4KA SANA 1.999~ GXS t8/N 27 R12A7 CV VEHT CHAN 7+ID RA%K GAS 9.99984M GX0 XI/CC 28 R12A9 CV VENT CHAN'MIBH RAMK GAS 9.99987M 6009 XI/CC 29 RI4A5 PLNT VENT MIVt ~ "H PAHEE GC)S ie50001<7 GXD XI/CC 30 R14A7 PLANT M30 CHAN 7&19 RANGE BAS 9m 99984M 60M XI/CC 31 RI4A9 PLANT VENT CHAN MIBH RANGE 6AS 3.99971M 6009 XI/CC 32 R15A5 AIR EJECTN CHAH MON RAHGE 6AS 7.799&46 6009 XI/CC 33 R15A7 AIR EJECTlR ONN 7+ID RANGE BAS 9.99984M 6000 XI/CC 34 R15A9 AIR EJECTOR CHAN Ml RAN6E GAS 9.99987M 6X9 Xl/CC 35 V34IIC STEAN LI% ARV A CLOSED 6m 36 VNRVA tQSER OF S/6 A ttSSV OPEN 0. 6009 0 IPEN 37 R31 AREA 31 STEAtt LINE A (SPINB) 2.0512r02 6XD %IN 38 R3IRRQ S6A MKE 6AS RELEASE RATE:IS%V .00000t00 6X0 CI/SEC V3410C STEAtl LINE ARV B CLOSED Gm 40 VNSSVB ROBER GF 6/6 B NSSV DPEN 0. 6000 4 5%N 41 R32 AREA 32 STEAN L1% B lSPINB) 2.0513r02 Gm fRIN 42 R32RRO S6B NKE GAS RELEASE RATEll5)SV .00000I00 60M CI/SEC 43 CVH CV HYDROGEN GNCBITRATION .0 60M Z 44 TCV03 CV BASE)KtlT LEVEL 6FT Ktt 03 81.3 6000 K6F 45 TCV07 CV INTERtKOIATE LVL 6F i IBP 47 89.9 6000 K6F 46 TCV08 CV INTERIKDIATE LVL 6FT TBP 48 89.9 GX0 KBF 47 ICVO9 CV INTER)KDIATE LVL 6FT 1BP 49 89.9 NOD K6F 48 TCVIO CV IHTERNEDIATE LVl. 6FT KN'10 89.9 GOM K6F 49 TCVI7 CV OPERATING LEVL 6FT TBF eI7 98.6 6009 KBF

Time 09:15 Message: 19 6 INNA STATION JUNE 11, 1997 PLUIIE EXPOSURE EXERCISE IIESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

FOR CONTROLLER USE ONLY Controller Notes:

Actions Expected:

Operators continue to stabilize the plant.

8-22

Iffy JW 1997 09: 15 Ro E GINA SIRLAT(a PAGE 1 TREND )RRP ALIMENT SBSARY GRQF! EVENT) PROCES(RE: EPIP 1"5 PLANT STATUS I

POINI 1D DESCRIPTII5 VAUK QUAL E. U,

'1 A7l6 ANTICIPATED IRANSIENI M/0 SCRAt) HO AIMS 6009 2 RrT REACIIR TRIP BREAKER STATUS RX TRIPPED ALR)1 3 N31 SEKE RNK KIECI()R H-31 2o 42660K@ 6XD CPS 4 IQ2 SMICE RANGE KlECTDR N-32 2.30409K'%9 CPS a' g5 IKFR%9IAIE RA%E DETECTOR N-35 1.24738-11 GXD "ceo RANGE KECTOR N-36 1.M-1I 6009 At%

A)9'NTER)GIAIE P?te AVERAGE )K- LEAR PtNER .00 6009 X 8 PRCS RFA".TN COOLANT SYSIE)l AVB PRESS 22?Bi 6009 PS IG 9 LPIR PRESSN fIER AVERAGE LEVEL 42.7 6009 X 10 FRCLA REACT(S CG(uHT LG(P A AVB FLSt 98.2 GOM X 11 FRY REACT(R CDfuNT UXP 8 AVB FLOM 98.2 GXD X 12 RKT16 RCPA BREAKER CAUSE Rr TRIP HOT TRIP BGOD 13 RKT17 RCPB BREAKER CAUSE Rr TRIP NOT TRIP GXD 58BIH:

14 15 16 TSUBTC LSGA LSBB IHCNE TC SUSCG(LEO STtl 6EH A NARROM RA%E AVB SIN 6EH 8 HARR(N RA%E AVB LEVEL IX'3.6 95.4 hfe6 600~

LNN X LMRN X KGF 17 PS6A STt( GEN A AVERAGE PREBRÃK 994. 6X9 PSIG 18 PSGS SIll 6EH B AVERAGE PRESS(SE 994. 6009 PSIB 19 KNBKR( GE%RATOR ON Llew@ SPEAKER f61372 TRIPPEO ALRtf 20 EEM)KR2 BEM3QTOR ON L1% Ss(ER 9r1372 TRIPPED ALR)l 21 .BUS11A BUS 11A RiPPLY BREAKER TRIPPED ALN 22 BUS11B SUS 118 SLPPLY BREAKER TRIPPED 'UP 23 BUS12A )K)T TERt(B(AIED N PPCS (7/19/91) NOT TRIP DEL 24 BUS128 HOT TERt(INAIED GN PPCS (1/19/91) %T TRIP DEL 25 BflA12A BUS lfA TG 12A TIE BREAKER NGT TRIP ALR)(

26 B119129 SUS 119 TG 128 TIE BREAKER HOT TRIP ALRt(

27 PCV COHTAIQKHT AVERAGE PRESSURE .49 6009 PSI6 28 LRNPA CNTAIQKHT SU)P A AVERAGE LEVEL 1.5 Gm FEET

'9 L094X SQP 8 l8KL 8 ICOS (IRAIN A) LO))ER 6009 30 L0943E SOP B LEVEL 8 INQKS (TRAIN 9) LO)KR 6009 31 L0942D QPP 8 LEVEL?8 IKKS (TRAIN A) LNER 6009 32 L0943D SU)P 8 LPFL 78 MIDAS (TRAIN 8) LOLP 6009 33 L0942C SU)A' LEVEL 113 ltGKS(TRAIN A) Lf&iR 6009 34 L0943C SOP B LEVEL f13 ICfKS(TRAIN 8) LNER 6009 35 L0942B, SU)P B LEVEL 180 INCHES(TRAIN A) LNER 6009 36 L09439 BPP B LEVEL 180 l)C(ES(TRAIN 8) LO))ER %09 37 L0942A SQP 8 l&cL 214 I%KB(TRAIN A) LO))ER GXD 38 L0943A Rkf 8 fZKL 214 I)CHES(TRAIN 8) LO)KR 6009 39 T0409A RCu) HOT LEG TBFNAIU)E 541.7 6009 KBF 40 T0410A RCLB HOT LEG IBPERATllK 54?o? GOR 41 T0409B C(u LE6 TE))PERAT(RE 546,8 fm Ka'CU)

KGF 42 T0410B RCLB OLD LE6 TBPERAIu)E 546.8 GOM K6F 43 TAVBAMID RCLA TAV6 (IHOT/TCKD ifIK fM) 547.3 6009 KGF 44 TAVSSMID RCLB TAVG (MT/TOLD MIK RtPi) 54?e3 GOM KGF 45 'RV REACTOR VEKEL AVERA6E LEUB. 100.3 GOM X 46 ICCGRE El. 1 INDE TC AVERAGE IEt)P %3.1 600~ KGF

47. FAUIFMA S/6 A TOTAL AN FEEDMAIER FLO)( ~

103. 6009 IPt(

48 FAUrFMS S/6 8 TOTAL AUr FEEDMATR FLOK 103. Gm 6PN 49 SKR08f tflR AUrlLIARYFEEDMAIER rue a OH GXD BKM2 tfIR AUrILIARYFEEDMAIER'PU)P 9 ON 6009 51 V3A5 AUX FM P(lP STEAN RFPLY VALVE A CLOSED 6XD AUr FM POP STEAtl RFPLY VALVE B CLOD 600D

Uh llew 1977 09115 Ro Eo Gite% SIICUlTOR PAR 2

'fREND GRRP ASSI69&ff SONNY 6RM'! EVENT1 PROCERHEl EPIP 1-5 PUNT STAT1$

PONT 1D , DESCRIPT I W VAL1K QUAL E. U.

53 FSIA SAFETY IffXCTINLXP A AV6 FLN 0. 600D GPff 54 FSIB SAFETY IffZCTINLQF.B AVG FUN 0. 600D GPff 55 P2160 SERVICE MATER PQPS A h B fKADER 83. GXD PS 16 56 P2161 SERVICE MATER REPS C 4 D HEADER 75. 6XD PSIG 57 BKR041 SERVICE MATER PUffP A 600D 58 NfO42 SERVICE MATER PNP B 600D 59 NR043 SERVICE MATER PUfIP C 600D 60 DffR044 SERVICE MATER PUfP D 600D

Sly lie )997 05:'5 R. E. GINA SltQATN TRE)1 GRM'SSIBNENT Rk5NY GRM" EVENT2 PROCEMtE'PIP 1< PLANT STARS POINT ID DESCRIPTION E. U.

1 F0619 CQtfQGiT CXLM LQF TOTAL FLM 1338. LAU) 6Ptl 2 LR)tST REFlKLING )tATER STORAGE TAN LVL 94.5 6009 X 3 ltS03391 5 33 FT LPrcl HIH0 SPEEDI 15tl AVG 5.6 6000 NH 4 it00339)5 33FT LVL ttIND DIRECTIIN 15H AVG 317. 6009 KG.

5 ttT03391 5 33 FOOT LEVEL Klt. (15tl AVG) 61.9 GXO KGF 6 ttT2509)5 250 FOOT lEVEL TBP. <15)l AVG) 61.D GX9 DEGF 7 itDT2915 250-33 FT LVL DELTA TE)t 15H AVG -.9 606 KGF 8 ROI AREA I~TRCL RIN 8.75992M 6009 NIHi 9 R02 AREA ~AIQEKT 1.188RHQI 60M tftIN 10 R05 AREA 5-SPENT m. PIT 5. 1~1 Gm N/N ll R09 AREA ~:TDQW LINE NNITQR 1.14156KQ H)tRN N/%

12 R34 AREA 34 " NR M6 CV SPRAY PIP 8. 17524<1 GXD l8/%

13 R35 AREA ZrPASS SA))PLE PAWL 1.09648%0 6009 %le RIOA CONTAINENT 109ltK t)QNITOR RIOA 2o 4511M5 HAUl CPtl 15 Rll CONTAINtENT AIR PARTIQJATE 1.61017+03 60M CPti 16 R12 GNTAMKKT 6AS NNNR 1,92252K% WRh CPtl 17 R 100 PLNT VENT IOOIHE tSHITQR R109 1.48765t01 GOM CP)1 18 R13 AUX BLDG EXHAUST AIR PARTIQKATE 4.3214MI 6000 CPtt 19 Rih AUX BLDG EreUST GAS rurTQR 3.92%&01 GQM Q9) 20 R18 LI9UID HASTE DISPOSAL HONITQR 1.645314% 6000 CPtl 21 R19 STEAtl GE%RATN BLN9$k< DRAIN 4.27808%2 6000 CPH 22 R29 AREA 2iHXNAIHHEHT HI% RAHGE 8.99627<1 6000 R/HR 23 R30 NEA ZHZNTAIQ1ENT HI% RANGE, 8.99627<1 GQM R/N

~

24 R15 CPIENSER AIR EJECTOR EXHAUST 5.T/804+02 GX0 CPH 25 R12A5 CV VENT CHAN &UN RAN6E 6AS 7.500%~ 6009 XI/CC 26 R12Ah CV VENT GiAN 6AttQ 1.9999~ 6000 t8/%

27 R12A7 CV VENT CHAN 7+ID RANK GAS 9.99984M GX9 XI/CC 28 R12A9 29 R14A5 30 RlhA7 CV VENT PLANT VENT CHAN PLANT VENT CHAH

~

CHAN HIGH RA%E GAS RANK 6AS 7&ID RAttK GAS 9.99987M 1.50001M 9.99984M 6000 6009 6000 XI/CC XI/CC Xl/CC 31 R14A9 PLANT VENT CHAN H{IGH RANiE 6AS 3.99971M 60M XI/CC 32 33 34 R1545 R15A7 R1549 AIR EJECTOR CHAN AIR EJECTOR CHAN AIR EJECTOR Q)AN 7+ID ~

MQH RANGE

'Hil RAN6E $ !S 6AS GAS 7.79983M 9.99984M 9.99987M 6000 Xl/CC Gm XI/CC 6000 Xl/CC 35 V3411C STGN LINE ARV A CLOUD 60M 36 NRN '7 MlSER QF S/6 A tSSV %BI 0. GX0 4 OPEN R31 AREA 31 STEAtl LINE A (SPIHG) 2.0512~ GQQD )8/)8 38 R31RR9 S6A NKE GAS RELEAK RATE'15)WV .00000HO 6000 CI/SEC 39 '3410C STEIl LI% NV B CLOSED 6000 40 Vl1RVB RNBER OF S/6 B tSSV ITEN 0. 61 0 OPEN 41 R32 AREA 32 SIGN LI)K B {SPING) 2.0515&2 6009 N/HR 42 R32RR9 SGB MRE 6AS RELEASE RATE'15tlAV o0000(MO 6X0 CI/SEC 43 44 CVH TCV03 45 TCV07 CV HYDROGEN CQNCE)iIRATION CV BASBKtiT L~c CV INTHNEDIATE ).VL 6FT 6FT ~ 43 TPP I7

.0 83.1 91.2 GOM 6000 X

GMi IFGF DEGF 46 TCVDB CV INTERHEDIATE LVL 6FT TEI'8 91.2 6m KSF 47 TCV09 CV INTERMEDIATE LVL 6FT TEHP 49 91.2 GX9 16?F 48 TCVID CV INKR%DIATE LVL 6FT KN'10 91,2 6000 KGF 49 TCVO CV 58%TING LEVL 6FT TEHP 017 99.4 60M DEGF

Time: 09:30 Message: 20 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

FOR. CONTROLLER USE ONLY Controller Notes:

Actions Expected:

1. Plant shutdown continues
2. The TSC, OSC and Survey Center should be nearing operational readiness.

8-23

Jilt lli )997 09l30 R. E. GINA SltlIATOR PAGE 1 TREND GRRF ASS16CBfT SPINY SRSP: EVEHT1 PRXEZHK: EPIP 1-5 PLANT STAllS POINT ID .KSCRIPTIOH E. U.

1 AT)6 ANTICIPATED TRANSIENT H/0 KSN HO ATNS 6009 2 RKT REACTOR TRIP S(EAKER STATUS RK TRIPPED ALR)t 3 H3t SRRCE RANGE DETECTOR H-31 2.3200SKQ Gm CPS 4 H32 SSSCE RA%E OETECTgt H-32 2,3040BH)2 6009 CPS 5 )G5 IHIEBKDIATE RANGE DETECTOR H-35 1.241 &4-1 1 60M Atf't(P 6 H3& IHIERHEDIATE RA%K KTKTOR H-36 1.224&2-11 600D 7 8' AVBA6E )KXLEAR PSKR .e) tm X PRCS REACTOR COOLNT SYSTEM AVB PRE% 2277. 6009 PSIB 9 LPIR PRESQSI IER AVERAGE fEVEL 50.1 6009 X 10 FR(1A REACTOR CELAHT L(O' AVB FLSl 98.2 6XO X f1 FRY 89CAR CG3U5T L00P 8 AVB FL(OI 98.2:Gm X 12 RKT16 RCPA BREAKER CAUSE RK TRIP NOT TRIP 600D 13 RKT17 RCPB SKNER CAUSE RK TRIP tK)T TRIP 6009 14 TSUBTC INC(SE TC SUOCOOLGl NRCIH 96.5 GX~ EEGF 15 LSBA ST)( 6EH A HARRS( RANGE AVB tZKL 48.2 6009 X 1& LSGB STN 6EH 8 HNRN RANGE AVB LEVEL 45.5 GX9 X 17 PS6A STtt 6EH A AVERAGE PRESSURE 994. 6000 PSIG f8 PSGB ST)t 6EH 8 AVERA6E PRESQ)RE 994. 60M PSIG t9 GEM)KRt BE%RATS( N LINE BPEAKER 161372 TRIPPED ALR)t 20 6ENOKR2 GE)a(AT(S ON LINE BS(a 9K'US TRIPPED ALR)t 21 .BUStfA 11A QiPPLY BREAKER TRIPPED ALRtt 22 BUS118 BUS 118 Q PLY BREAKER TRIPPED ALR)t

'OT 23 BUS 12A TERt(IHATED OH PPCS (7/19/91) tK)l TRIP OEL 24 BUS128 NOT TER)(It(ATED N PPCS (7/19/91) tKIT TRIP DEL 25 811812A BUS iiA TO 12A TIE SQUEAKER NOT TRIP ALR)t 2& 8118128 BUS 118 TO, 128 TIE BREAKER NOT TRIP ALR)t 27 PCV CONTAIQKHT AVERAGE PRE%8(E e49 6000 28 LQIPA CMAIQKNT QN' AYENK LEVEL 1.5 GN9 29 LN42E SOP 8 l&B. 8 INCIKS (TRAIN A) L&rR GXO 30 LN43E QKP 8 LEVEL 8 ICHOR (TRAIN 8) LSIER 6XO 31 LN429, S(KP 8 LEVEL 76 INQKB (TRAIH A) URER 6009 32 L09439 QkP 8 LEVEL?8 MKS (TRAIN 8) LOWER GOM 33 LN42C SOP 8 LEVEL 113 I%KB(TRAIN A) LSD 6XO 34 L0943C SUtP 8 LEVEL f13 ICHES(TRAIN 8) LS)ER 60M 35 L09428, QlP 8 LEVEL 180 IN2KS(TRAIN A) LNcR 6XO 3& LN438 SQP 8 LEVEL fm) IIGKS(TRAIN 8) LS)ER 6000 37 LN42A StlP 8 LEVEL 214 I%KB(TRAINA) LSD 6009 38 L0943A StkP 8 LEVEL 214 ItGKS(TRAIN 8) LSIER 6m 39 T0409A RCLA )K)T LEG TE)PERATUK 547.5 GXO 40 T0410A RCLB 1K)T LE6 TEtPERATUK 547.5 6XO 41 T04N8 RCtA COLO LEG TE)PEPATtltE 54&o? Gotm 42 T04108 RCLB COLD LEG TE)PERATlRE 546.7 Gm 43 TAVGAHID RCLA TAVB (MT/TC(10 HIDE 8%) 547.1 6009 44 TAVBBHID RCLB TAVG (TM)T/TCGLD HIDE RNB) 547.1 60M 4$ LRV REACT(m VESSEL AVERAGE LEVEL 100.1 6009 46 TCCORE E1.1 IIGRE TC AH3%K TE)P 552.1 GXi 47 FAUKFHA S/6 A TOTO. AUK FEEDHAIER FLS( 103 6000 48 FAUXFMO S/6 8 TOTAL AUÃ FEED@TER FLS( 99. 60M 49 BKR081 t(TR AUKILIARYFEEDHATER P(KP A ON 60M tlTR AUKILIARYFEEDHATER RkP 8 6009 AUK F)t P(KP STEAtt SLPPLY VN.VE A CLOSED 6009 AUK FH P(KP STEA)I SUPPLY VALVE 8 CLOSED 6009

'lPl 111 1%7 Ã:30 Ro E 6INA SINIATGR PA6c 2 TROD 6RRP ASS IMEKT BlfQRY 6RXP: EVEHT1 PROCES: EPIP 1-5 PUNT STATUS POIHT ID KKRIPTIOH VALUE QUAL E. U.

53 FSIA SAFETY IH~IOH LIP A AV6 FLN 0. 6009 EPH 54 FSIB SAFETY IHXCTIOH LXP B AV6 FLN 0. 600 D 6Pll 55 P2160 SERVICE NTER PtIPS A 4 B HEADER 83. 6009 PSI6 5b P2161 SERVICE NTER PllfS C 4 0 fEAKR 75. 6RHi PSI6 57 INR041 SERVICE NTER POD A 600D 58 IWR042 SERVICE NTER PINP B 6009 59 NR043 SERVICE NTER PSP C 60M h0 BKR044 SERVICE NTER RkP 9 6009

JtN lls 1997 09l30 R. E. GINA SINAT{S REND GR(u'SSIG)ST RÃNARY Gfm'l EVENI2 PROCEDURE: EPIP 1-5 PLA)(T STATUS POINT ID KSCRIP TIN E. U.

1 F0619 COtPQB(T CXL1% L(XP TOTAL Fuf 1338. UUI GPt(

'X 2 U56T RERKLI% HATER ST%AGE TAN LVL 94.5 GX9 3 itS033Q)5 33 FT'LEVEL NIH9 SPEED: 15)l AVG 5.6 Gm tfH fe033Q15 33FT LVL I(IND DIRECTI% 15t( AVG 317. 60M KG, 5 HT033Q15 33 FOOT LEVEL TBP. (15N AVG) 62.0 6m K6F 6 HT250015 250 FOOT LEVEL TB%'. (15)l AVG) 61+ 1 6009 K6F 7 l(DT2QI5 250-33 FT LVL KLTA TBP 15)1 AVG 60M KGF 10 11 12 8 R01 9 R02 R05 R09 R34 AREA AREA AREA AREA AREA

~

I~(TfB. ROOtf

~AIttKNT

~M 34 - AUX RKL PIT LM Bum NNITOR CV me ate 9.3325!@02 GXO 1.5IZb)01 GXD %IN 5.0408Hll GXS %IN

1. 18168f02 fNN tS/fR 7.8072fH)1 6009

%/N

%IN 13 R35 AREA ZrRSS SAt)PLE PAt43. 1.0964&00 6009 l8/N 14 R10A CNTAINENT IMIIKNNITN R10A 3.3017885 HAL)l CPt!

15 Rli CNTAItNB(T AIR PARTIC(uTE 2. 18776+03 60M CPtl 16 R12 CONTAIN%MT GAS NNITOR 2.519I2+04 HAUl CPtl 17 R109 PLANT VENT IODM KMITDR R109 1.6V33hK)i 6009 CPtl 18 R13 AUX BLDG EXHAUST AIR PARTIC(uTE 4.45399%1 GXS 19 Rib AUX BLDG EXHAUST 6AS NNITDR 4.24741+Oi 60M CPtl

20. R18 LIQUID NKTE DISPOSAL tO(ITOR 1.63117+03 6009 (Pt(

21 R19 STEAN 6ENERATN BLS(DM NAI)( 4.5250bKQ . CPtl

' 22 R29 AREA PHZHTA18%NT HIGH RA%E R/N GXS'.99627<1 6(X)9 R30 AREA 3DGNTAIQBP HIGH RANGE 8.99627<1 6009 RIN R15 R12A5 R12Ab CV VENT CHAN ~

CNKNSER AIR EJECT(R EXHAUST RA%E GAS CV VENT CHAH &AREA GANQ 5.59112K@

7.50006M 1.9999~

6009 6009 600D CP)l (f:I/CC NlfR 27 R12A7 CV VENT CHAN  ?+ID RA%K GAS 9.99984M 6009 IEI/CC 30 R12A9 RihA5 R14A?

CV VENT PLAt(T VENT CHAN PLANT VENT

~

MH HIGH RNK 6AS CM ?+ID RANK fNH6E GAS QS 9.9998?M GX9 (X:I/CC 1.50001M 6OM XI/CC 9.99984M Gm (I:I/CC 31 R14A9 PLANT ViNT CHAN MIGH RA)KK 6AS 3.999?IM 6009 1CI/CC 32 R15A5 AIR EJECTOR CHAN MN RANK 6AS 7.79983M 6009 Xl/CC R15A? AIR EJECTOR CHAN  ?+ID RAH6E 6AS 9o 99984M 6009 (X:I/CC 34 RI5A9 AIR EJECTOR D(AH 9+I RA%E 6AS 9.9998?M 6009 (EI/CC 35 V3411C. STEAN LI% ARV A CLOSED Gm V)SSVA RNBER OF S/6 A tSSV %EN 0. 6009 0 %EH 37 R31 AREA 31 STEAtl LIIE A (SPI%) 2.0512~ 6009 N/%

38 R31RRQ S6A NBLE 6AS RELEAK RME:155N ~ 000 NH00 6(m9 Cl/SEC 39 V3410C STEAt( LINE Afg 8 CLOSED 6m 40 V)SSVB RNER OF 6/6 B tSSV (F3 0. Gm 0 5TH R32 AREA 32 STEAt( LBK 8 (SPIHG) 2.0512&02 Gm N/N R32NQ SGB NOBLE 6AS BREAK RATE:IBNV .0000(800 6009 CI/SEC 42'5 CVH CV HYDROGEN GKKNTFATION '0 6009 7 TCV03 CV BASBKhT LiVEL 6FT TB(P e3 83.7 6009 KGF TCV07 CV INKR%0IATE LVL 6FT TE)P 47 9lo7 60M K6F 46 TCV08 CV IH1KR%9IATE LVL 6FT TOP N 91 7 6009 KGF 47 TCV09 CV IHIERKDIATE LVL 6FT TBP 49 91.? 60M K6F 48 TCV10 CV INTERtKDIATE LVL 6FT TBP 410 91'? GOM KGF 49 TCV17 CV fPERATI% l&l. 6FT TB%'i? 99.? 6009 K6F

Time: 09'45 Message: 21 GIN NA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

The following alarms are received in the control room:

F-10 (Pressurizer low pressure trip 2185 psi)

D-20 (Pressurizer low pressure trip 1873 psi)

D-1 9 (Pressurizer low pressure SI 1750 psig)

FOR CONTROLI ER USE ONLY Controller Notes: ~

The loss of coolant is an initial 60,000 gpm leak from a severed "B" RCP discharge pipe where it connects to the pump.

2. The A&C Sl pumps do not automatically start.

Actions Expected:

1. Operators take immediate actions in accordance with procedure E-0 "Reactor trip or safety injection"
2. Operators take actions to manually start the ABC Sl pumps. The pumps start manually.

8-24

3'is 1997 O9:45 Ro E. GlltQ SllQATfR PAP 1 TREM) 6Rm'SSIGNttENT RN(ARY 6)m" EVEHT1 PR(KHNE: EPIP 1-5 PLANT STATUS POINT 19 DESCRIPTIN E. U.

1 All6 ANTICIPATED TRANSIENT M/0 SCSN HG ATMS Bm 2 RXT RBCHE TRIP BREAKER STATUS RX TRIPPED ALR)t 3 H31 S(u?CE RAh% KTECTOR H-31 2.28034@2 6000 CPS 4 N32 SRRCE RANGE DETECTOR H-32 2.27247+02 6000 CPS 5 N35 ItAPNEDIATE RANEE DETIZKR N-35 1.~~11 6009 At%

6 H36 IHIENKDIATE RANEE KTECTOR H-36 1.22462-11 Gm NF 7 tP AVERAGE M)CLEAR RKR .OO 6000 X 8 PRCS REACHR CG(V!t(T SYSTE)( AVB PRESS 2276. Bm PSIG 9 LPIR PRESSNIIER AVERAGE LEVEL 57.1 6XO X 10 FKLA REACTOR CG(ut(T LRF A AVG FLGM 98.2 6000 X 11 FRCLB REACT(m CmuHT LO(P B AVB FLmt 98.2 6XD X 12 RKT16 RCPA BREAKER CAUSE RK TRIP )K)T TRIP 6000 13 RXT17 RCPS BREAKER CAUSE N TRIP NGT TRIP 6000 14 TSUBTC INXRE TC SUBCGGLED t(ARBIH 96.4 GXe K6F 15 LSEA ST)( GEN A HNRN RAN6E AVG LEVEL 54.5 6009 X 16 LSGB ST)( BEN 8 NARROM RAN6E AVB LEVEL 51.3 6009 X 17 PSGA STN 6EN A AVERAGE PRESSURE 994. 6X9 PSIG 18 PSGB ST)( GEH 8 AVERA6E PRESSURE 994. 6X0 PSIB 19 GE)(0t(RI BBERATOR GH L1% BREAKER 161372 TRIPPED ALRtl 20 GEHBKR2 EE)G?ATM GN LINE BPEAKER 9X 1372 TRIPPED ALN 21 BUS11A BUS 11A SUPPLY BREAKER TRIPPED ALR)(

22 BUSIIB BUS 118 QPPLY BREAKER TRIPPED ALR)(

23 8)S12A )K)T TERt(ltQTED OH PPCS (?l19/91) NGT TRIP KL 24 BUS128 )K)T TERt(lt(ATED N PPCS (7/19/91) HGT TRIP DEL 25 B11A12A BUS 11A TG 12A TIE BREAKER NGT TRIP AU?t(

26 811BI20 BUS 118 TO 128 TIE BREAKER tK)i TRIP ALRt(

27 PCV CGH(AI85W AVERAGE Pt?ESSURE .49 6000 28 LSQPA CMAIQ&TSOtF A AVERAGE LEVEL 1.5 6XO 29 LO942E SUtP 8 LEV 8 I DES (RAIN A) UNcR N00 30 LO943E RlF 8 LEM 8 ICHES (TRAIN 8) LG)tER 6000 31 LO942D SQP B LEVEL 78 IIGKS (TRAIN A) LONER 6X0 32 LO9439 SN' LEVEL 78 INCHES (TRAIN 8) LG))ER Gm 33 LO942C SQF 8 LEVEL 113 INQKS(TRAIN A) LG))ER 6009 34 LO943C SBP 8 L&L 113 MRS(TRAIN 8) UNER 6000 35 LO9420 RkP 8 LEVEL 180 I)KKS(TRAIN A) UNER 6000 36 L09439 RIP 8 l8iB 180 IIGKS(TRAIN 8) LG)tcR 6000 37 L0942A QPP B LEVEL 214 IN(ES(TRAIN A) L(NER 6000 38 LO943A SOP 8 ILL 214 ItQKS(TRAIN 8) LNER 6009 39 70409A RQA HGT LE6 TE)FERAIUK 547.5 6009 KBF 40 TO4IOA RCLB HGT LEE TBPGNUK 547.5 6000 KGF 41 7(j4(j99 RCLA C(u LEG TE)tPERAT(FZ 54bo7 6000 K6F 42 '7041OB RCLB COLD LE6 TEt)FERATlBE 54bo7 6000 KGF 43 TAFaAMID RC(/) TAVE (TNT/TC(u MIK RN".) 547.1 GOR KEF 44 TAVBB)tiD RCLB TAVG (7)67/TCGLD MIK RNE) 547.1 6000 KEF 45 LRV REACTOR VES~cL AVERAGE 1&K 100.1 6009 X 46 TCCZRE Ei. 1 IHCGRE TC AVERAGE TE)(P 552.2 600e K6F 47 FANFMA S/6 A TOTAL AN FEEOMATER FUN 102 GX0 GR1 48 FANFMB S/6 B TOTAL AN FEEDMATER FLN 100. Gm GPt(

49 B((RO81 mR AUIILWYFEEDMATER PUtr A GN 6000 50 BKROB2 t(TR AUXILIARYFEEDMATER PUte 9 GH 6000 51 V3505 AN FM FQF ~~ REPLY VALVE A CLOSED GOM 52 V3504 AUX FM PQF STEAt( SUPPLY VALVE 8 CLOSED 6000

3N Ill 1'R7 09:45 Re E. BI%A SINlATDR FAaE 2 TREND 6Rm'SSI6QKNT RNSRY 6RRP: EVENTI PRO(ZMK: EPIP 1% PINT STAIljS POINT ID DESCRIPTI% VAUK QJAL E. U.

53 FSIA SAFE IHXCTHN LQF A AVB FUN 0. 600O Ptl 54 FSIB SAFETY IMXCTIR UXP B AVB FUN 0. Bm BPt1 55 P2160 SERVICE MATER POPS A '0 B IEGER 63. BXO PSIB S P21el SERVICE MATER PBBS C 4 D IEGER 75.'RO PSIB 57 SKR041 SERVICE MATER PNF A BOX 58 SKRD42 SERVICE MATER PllP O 6009 59 NR043 SERVICE MATER Ply C BOM 60 NR044 SERVICE MATER ace O 6000

iUtt lie 1997 09lhb Ro E. GltttA Sll14LATR TREND GRM'SSIGNEE)tT RNlARY 6RQP! EVENT2 PRXHNE: EPIP 1-5 PLANT STATUS PONT ID DESCRIPT IR E. U.

1 F0619 CNPQKNT COCLI% LXP TOTAL FLM 1338. LALtl EPtl 2 LRMST RERKLI% MATER STtRAK TAN LVL 94.5 6009 3 MS033015 33 FT LEVEL MIHO SPEED: 15tl AVG 5.6 6009 lRl MD033015 33FT LVL MIND DIRECTII5 15tl AV6 317. 6009 KG.

5 MT033Q15 33 FXT LEVEL TBF. (15tl AVG) 62.0 6009 KGF 6 MT250Q)5 250 FXT LEVEL TE)P. 115tt AVG) 61.1 6m K6F 7 MDT2Q15 250-33 FT LVL DELTA TBP 15)i AVG -.9 GXO DEGF 8 R01 9 802 10 805 11 809 12 834 AREA AREA ~IMMI.

AREA 2~AIQH1T Rml RKL PIT AREA 'REEOMN LitK NNITN AREA 34 - AUI BLDG CV SPRAY PS&

8.75992M 1.63117+03 5.85464<1

1. 141RrKQ
9. 01571<1 GNO 6009 HN)t 6009 N/N HAUl NIHR N/N N/N N/N 13 835 AREA ZrPASS SAttPLE PN8. 1.0964&00 6009 tHIN 14 R10A CNTAINttENT IODINE NNITN R10A 3.87368+05 HAL)t CP)l 15 811 CONTAINEh7 AIR PARTIQLATE 2.4902Bt03 6XO CPtl 16 R12 CNMI)S7 GAS NNITOR ,3.04614+04 HAUl 0%

17 8109 PLANT VENT 1091% NNITIR R10$ 1.82K&01 6009 Pll 18 813 AN tu6 EXHAUST AIR PA)ITIC)LATE 4. 59065t01 6XO CPtt 19 Rlh AUÃ BLDG DHAUST 6AS 55ITN 4. 41570t01 6009 CPtl 20 Ris LIRJID MAM DISPOSAL NNIT)N 1.63117+03 6XO CPtl 21 819 STEAtt 6ENERATOR BLNDM DRAltt 4.27808t02 6XO CPtl 22 R29 AttEA 29~AINtiEHT HI% RA%E 2.6170680 6009 RIN R30 AREA 3HXNTAINttENT HI% RAN6E 2.60390t00 6XO R/N

'-'7 R15 812A5 R12A6 CV VENT CHAN ~

CONOBtSER AIR EJECTOR EIHAUST CV VENT'HAN &AREA SANA RA%E 6AS 5.37804t02 7.5000&07 3.32441M 6009 6009 6009 CP)f Xl/CC

%IN R12A7 CV VENT CHAN 7+ID RANK 6AS 9.99964M 6009 Xl/CC R12A9 29 814A5 30 814A7 CV VENT CS)N PLANT VENT CHAN PlNT VENT CHAN

~

BLIGH RAt6E 6AS RA%E GAS 9e 99987M 1.50001<7 7+ID RAHGE GAS 9.99984M 6009 6009 XI/CC Gm XI/C" XI/CC 31 R14A9 PLAttT VENT CHAN MIGH RANK 6AS 3.99971M GXO XI/CC 32 815A5 AIR EJECTOR CHAN MW RAN6E GAS 7.79983M 6009 XI/CC 33 R15A7 AIR EJECTOR CHAN 7<ID RANGE GAS 9.99984M 6009 XI/CC 34 R15A9 AIR EJECTOR CHAN 9+I RANK GAS 9.99987M 6XO XI/CC X

36 37 V3411C .

Vt)SSVA 831 STEAtl LItK ARV MN9N OF S/6 AREA 31 STEAtt A

A ttSSV Lily A

~(SPINS)

CLOSED 2.0512r02 0.

6XO Gm GMl 0 PEN

%IN R31RRQ SGA %RE 6AS RELEASE RATE:15tlAV .00000t00 Gm CI/SEC 39 V3410C STEA)l LI% ARV 8 CLOSED 6009 V%SVB MNHER OF S/6 B ttSSV OPEN 0. 6009 0 %BI 41 832 AREA 32 STEAtl Lilac 8 (SPI%) 2.05I2~ 6009 N/N 42 RZiBRQ SGB NORE 6AS RELEASE RATEl15)iAV . 00000t00 6009 CI/SEC 43 CVH CV HYDROGEN CNCENTRATIN .0 600D X TCV03 CV BA5E%h7 LEVEL 6FT TB)P N3 84.0 6009 K6F 45 TCV07 CV INTER%DIATE LVL 6FT TB)P 0 91.9 6009 K6F 46 TCV08 CV IHlER%DIATE LVL 6FT TBF CB 91a9 6009 K6F 47 TCW9 CV INTERttEDIATE LVL 6FT TBP 49 'le9 6009 K6F 48 TCV10 CV IHTER%91ATE LVL 6FT TEtP 410 91o9 6009 lHiF 49 TCV17 CV IPERATI% LEVL 6FT TBtP 417 99.7 GOM K6F

Time: 09:46 Message: 22 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

FOR CONTROLLER USE ONLY Controller Notes:

1. The core uncovers during the blowdown phase'of the large break LOCA.
2. A large amount of the fuel gap activity is released due to fuel rod bursting because of core uncovery during the initial reactor coolant system blowdown. Containment radiation levels are increasing.

Actions Expected:

1. Operators are taking immediate actions in accordance with procedure E-O.

8-25

Time: 09:47 Message: 23 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++

FOR CONTROLLER USE ONLY Controller Notes:

1. The vessel is being refilled. Fuel rods continue to burst due to the uncovery.
2. RCP trip criteria IS NOT met, if the A8C Sl pumps have not been manually started.

Actions Expected:

1. Operators should be taking action in accordance with E-0 and E-1 "Loss of reactor or secondary coolant".

8-26

JN Ils 1997 09 50 R. E. GINA SINlATOR PAGE 1 TREND GR(u'SSI6N%NT SUNQRY GRXPl EVENT1 PROCEfmRE: EPIP 1-5 PLANT STAllS KSCRIPTISI E. U.

ANTICIPATED TRANSIENT )f/0 SCRffff Ho AT)S 6009 REACT(S TRIP S(EAf(ER STATUS RK TRIPPED ALRff 3 N31 SRKE RAffGE KfECTN H-31 4.93741+01 6009 9%

N32 SmSCE RA%E DEIECTOR H-32 5.1641&01 6009 CPS 5 H35 INIENKOIATE RANGE EETECTOR H-35 1.05195-11 60M At&

6 N36 IHTERffEDIATE RANGE DETECTOR N-36 1.04713-11 6009 AP 7 fP AVH%K M)CLEAR PSER ;00 GOM X 8 PRCS REACT(S CotuHT SYSTEff AVG PRESS 31. Uk)i PSIG 9 LPIR PRESRRILER AVERAGE LEVEL .0 LEHG X 10 FRCLA REACTOR CmuHT LOOP A AVG FLO)( ~0 IQS X 11 RKLB REACTOR Co(uHT LSF 8 AVG FL(N .0 1%B X 12 RKT16 RCPA BREAKER CAUSE RK TRIP TRIPPED fuff 13 RXTI7 RCPB BPZNER CAUSE RK TRIP TRIPPED ALRff 14 TSUBTC INCORE TC SUBCOOLED f(ARSIN 100.8 Goo< EEGF 15 LSGA ST)l GE)f A NARROff RAffGE AV6 LEVEL 57.1 6009 X 16 LSGB SIN GEH B BARMN RANGE AVG LEVEL 53.3 6009 X 17 PS6A STfl 6EN A AVERAGE PPESRSE 792 6009 PSI6 18 PSGB STN GEN B AVERAGE PRESRSE 795. 6009 PSIG 19 GENBf(Rl GE%RATN OH LI/K BREAf(ER 161372 TRIPPED ALRff 20 GEN9)(R2 GE)6NTOR QH LI% BREAKER 9$ 1372 TRIPPED ALR)f 21 BUSlLA BUS 11A SUPPLY BREA)(ER TRIPPED ALRff 22 BUS11B BUS 118 REPLY BREAKER TRIPPED ALR)f 23 BUS 12A NOT TER)(If(ATED N PPCS (7/19/91) NOT TRIP DEL 24 BUS129 HOT TERffif(ATED N PPCS (7/19/91) NT TRIP DEL 25 811A12A BUS 11A TO 12A TIE BREAKER NOT TRIP ALRft 26 B119129 BUS ilB TO 128 TIE BREAKER NOT TRIP fuff 27 PCV CNTAINENT AVERAGE PREiSNf 29.79 HALff 28 L STUPA COHTAINB(T BlF A AVERA6E LEVEL 31.2 HENS 29 L0942E SOP B LB~' IIQKS (TRAIN A) HIGHER ALRfl 30 L094X SOP B LEVEL 8 INCfKS (TRAIH 9) H16HER ALRff 31 L0942D SOP B LEVEL 78 INCHES tTRAIN A) uam SOOn 32 L09439 QPP B LEVEL 78 INCHES tTRAIH B) Lof)ER 6009 33 L0942C SNP B LBS. 113 INCHEStTRAIH A) LO)fER GOM 34 L0943C SUfP 8 LEAL 113 ICHES(TRAIN 8) Lof)ER 6009 35 L09428 SUfP B LEVEL 180 INCHES(TRAIN A) UM3( GOM 36 L09439 Rl%' LE4a 180 ICHES(TRAIN 8) LS)ER 60M 37 L0942A SNP 8 LEVEL 214 IlGKS(TRAIN A) Lof)ER 61 38 L0943A SUfF B LEVEL 214 IlGKS(TRAIN 8) LS(ER 6009 39 T0409A RCu) NT LEG TBfSNTUK 372.5 600D 40 T0410A RCLB fST LEG TEltERA1NK 19S.B 6009 41 T04099 RCLA OLD LE6 TEffPERATlRE 480.S 6009 42 T04109 RCLB C(LD LE6 TEffPERATlSE 455.8 6009

~ (MT/TCfu ffIDE RH8) 43 TAVGAHID RXA TAV6 426.5 6009 44 TAVSB)(ID RCU) TAVG (TNT/TC(u HIDE RHG) 325.8 6009 45 LRV REACTlR AYERS LEVEL 65.5 u)L)f 46 TCCORE E1.1 INCORE TC AYERA6E MF 173.9 600~

47 FANF)(A S/6 A TOTAL NN FEED)(ATER FLO)t 142 Gotm 48 FAUKF)(9 S/6 8 TOTAL AUX FEED)(ATBt FLOf( 125, 60M 49 Bf(R081 f(TR AUIILIARYFEED)(ATER P(NP A N 6009 50 Bf(RÃ2 NR AUXILIARYFEED)(ATER PU)P 9 OH 60M At)X F)f PllF STEAff RFPLY VALVE A CLOSED 60M AUX F)f PNF STEAff RiPPLY VALVE 8 CLOSED 6009

9Ã Ili 1997. 09:50 R. E. GINA Sll1LATN Pic 2 TRBS 6PRF ASSIQRENT QNSRY 6m" EVEMTI NXEINE: EPIP 1-5 PUNT STAVJS POINT ID XKRIPTION IjAL E. u.

Q FSIA MArY IN ETIAM UXP A AVG FLSt 421'86.

6X9 GPfl 54 FSIB SAFETY IlQECTION UXP B AVG FUN GEO GPtl 55 P2160 SERVICE lfATP PllFS A fc B fKA9ER 87. 6009 PSIG 56 P2161 57 IR041 58 NR042 59 NR043 60 BKR044 SHNICE NicR PllPS SERVICE lfATER PufP A SERVICE NTER SERVICE lfATER SERVICE %TER PlIP Pili' Ply E

9 C

'N h 9 P~

~

ON ON ON

86. Gm Gm GOZ 6009 6009 PSIG

Jlh ll~ 1992 09:50 R. E. GINA SIN}UlT(R TREND 6R(XP ASSIMB(T SNOWY 6RRP: EUEHT2 PROCEMEl EPIP 1"5 PLNT STAFJS POIHT ID . KSCRIPTHN VALUE QUAL Eo U.

1 F0619 CSP~(T CKLI% LXP TOTAL Ful 884. LALN (PN 2 1$ 6T REFlKLIHG }(ATER SHRAGE TA)4( LUL 86.3 6000 X 3 HS033015 33 FT lBKL KIND SPEEDl 15N AVG 5.8 6009 }P}(

4 }(9033Q 15 33FT LVL }(IHD DIRECTION 15N AUG 321. NR K6.

5 I(T033015 33 FXT LEVEL TBP. (15}( RUG) 62.4 6000 K6F 6 }(I250Ql5 250 FXT LEVEL TBP. (15}( AV6) 61.5 6000 K6F 7 }612015 250-33 FT LUL DELTA TBP 15N AVG -.9 6009 KGF 8 Rol 9

10 11 12 R02 R05 RO9 R34 AREA AREA AREA

~

AREA HXHTRfL ROON

~AINtGG'REA

~N 34 RKL PIT LINE SUITOR

" AUX BLDG CV SPRAY Pu)P 9.44062M 6000 NIN 3.672f&04 1.24451+02

3. 10814+00 HALN 2.053!i2}00 6009 NRN 6009 N/N N/N N/N N/}8 13 R35 AREA ZrPASS SAtPLE PALL 1.09bQHN 6009 N/%

14 R10A C9(TAIQBiT IRIIK NNITOR R10A 3,941 j&H5ALN CPN 15 Rll C9(TAIN&7 AIR PARTIQkATE 2.6222(803 NOD CPN jh R12 CONTAIN)(B(T 6AS t(OHITN 3. 12602<04 HALN CPN 17 R108 PLANT VENT IODINE NNITN Rjo}} 1.86209401 60R CPN 18 R13 AUX BLDG GHAUST AIR PARTIQLATE 4.65C&01 Gm CPN 19 R14 AUX BLD6 BHAUST 6AS NNITOR 4.41520>01 Gm CPN 20 R18 LIQUID }(ASTE DISPOSAL tO(ITOR 1.569&03 600D CPt( 21 'R19 STEAt} 6EKRATN BLO}(DSN DRAIN 4.5250682 6000'Pt( 22 R29 AREA PHXHTAINKMTHIBi RA%i'REA 3.?7234@1 }9(RN R/% 23 R30 ZHXHTAlllGITHI% RAKE 3.?7234@1 HHR)( R/fS 24 R15 25 R12A5 26 R12A6 CONDENSER CV VENT CHAN CV UENT CHAN 

                                           ~

AIR EJECTOR QHAUST RANK GAS 

                                           &4%A GAtt}A 5.591 12}02 7.500%r02 600D RNS 5.081~1 Gm N/}8 CPN Kl/CC 27 R12A7          CV UENT CHAN             ?+ID RANK GAS               9.99984M 6000 Kl/CC 28 R12A9 29 R }IA5 30 R14A7 CV VENT PLANT VENT CHAN             ~

CHAN MIGH RA%K GAS PLANT VEHT CHAN ?+ID RAMiE GAS RANGE 6AS 9.9998?M 6009 Kl/CC 1.50001M 6009 KI/CC 9.99984M Gxm Kl/cc 31 R14A9 PINT UEHT CHAN MIGH RANK GAS 3.9992)M 6XD Kl/CC 32 R j&5 AIR EJECTR CHAN MD}( RANK GAS ?.79983M 60R Kl/CC 33 R15A7 AIR'EJECTCR CHAM ?+ID RANK 8}S 9.99984M 6000 Kl/CC 34 R15A9 AIR EJECTN C}}AH 9+I RA%E GAS 9.9998?M 6000 Kl/CC X V3411C STEAt( LINE ARV A CLOSED Gm 36 YMCA HU)}DER OF S/6 A NSSV $ 6/ 0. 6XD 0 9TH 37 R31 AREA 31 STEAN Lily A (SPING) 2e 0513r02 6000 N/HR 38 R3}RRQ S6A NOBLE 6AS RELEASE RATE: 15NAU .00000KS Gxm cr/GEc 39 U34joc SIGN LINE ARV B CLDSE0 60R 40 VlMIB NUNBER OF S/6 B t(SSV %EN 0. GM9 e (pg( 41 R32 AREA 32 STEAt} LINE B (SPIHG) 2.0512r02 6000 NIHR 42 R32RRQ SGB NOBLE 6AS RELEASE RATE) 15t(AV .000(&00 6009 CI/SEC 43 CVH CV }(YDROGEH COCO(IT(ATI9( .0 6009 X 44 TCV03 CV SASPEhT LR8. 6FT TBP 43 236.1 GOR K6F 45 TCV07 CV IHTERt(EDIATE LVL 6FT TBP 47 34.9 6009 KGF 46 TCVOB CU INTERNEDIATE LVL 6FT TBP 48 235.2 6XD K6F 47 TCV09 CV INTERt}EDIATE LVL 6FT TBP 49 . 234.9 GGR K6F IB TCVIO CV INIERNEDIATE LVL 6FT TBP ljo 235.2 60R KGF 49 TCUI? CV GYRATING LEUL hFT TBP 417 234.4 Gm KGF

0 Time: 10:00 Message: 24 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORNI ir Control Room 

+++THIS IS A EXERCISE+++

ROLLER USE ONLY p ected: tors should be stabilizing the plant using emergency operating procedures. Area Emergency should be declared in accordance with EPIP 1-0, 2.3.2 "Containment radiation levels )100R/hr on R-29/30 ant should implement EPIP 1-3 "Site Area Emergency" 8-27

3N Ils 1997 10:00 ~ lie t 1 iFKEIUlEl EPIP 1% PJVii STAT>5 TQM tB L~IPTIt5 aa~s 

        ~A    ~         vat~weas      s  ay s oq n w         24. M   FH et)         ~=TY   Mr     TRH LK? BScRR                           PH
    ="N          -~1K@>cd        >~a A 5 B IVER               8'RE     PSIG
    ~g/                                     I 0 IDOL          R. 6m    PSI6
                =-VI= NTH PM              A            QN          RMO l

gg lVl h KL~~I u~~a. Icy@ 0 Ql 60m

id:w ~ ~ I ~ a 

                                                                          ~
                                                                                  ~

Wtitt f I I4 I* ~ Via~I ~ 

                                                                                                                                                                 ~
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                                                                                                                                                                        ~

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  .Ii                                                                                                                      333 v, r,  ~ I 4                                                     U '  I~ ~

AR h'ti 

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II ll ~ h ~~ 12 C ~,- .~i',r: /ilh 13 KA PP ~ 

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PO ~ 14 R!OA CONTAINKhi I"':i!.= .".Dll!TQ. R!04 -'..6'33i. 05 15 Rli CNAIOBiT Ai.-'i7l"ATE 2.544'3~03 64K i~7i l It 16 R12 CONTAMhi SL= t..'l..i".-  ;..'0 94+04 KU 

                                                                                                                                           ~  ~

17 R!08 PLNT VBI'T I~:!t"= IC'..Dit R108  :,"c307~0! C<<IC 18 RI3 uT. =-~ E~-::.-::== -:...=..=,;;Ic: ATE 'i lid '7'f0! 

                                                                                                          ~                               6<<'"v.

19 R14 AU) S <<6 fg>"S gq I ~+jjTCrf 4o3214%1 Pt'; 20 21 R1S R19 LIKE 4.-'."=:= "!=""~'Dl<ITOR '.5690086 'O" 6"~9 C'4'Jii CPt! 

                                                                                                                                                    ~ir. iI 22  R29 23  R30            ARE'. 4'I     4'or,    itfi o.l     If'i 'Vi /'P:,tX
                                                                        ~                            l   ~   l9ad/+I/                               Ri&i
                                                                                                            <<h                   PP 24  R15                                                                                       IV -.7 7I+
                                                                                                                   ~

tV CV'J R!2A5 '/'5".&: Pry ~ 26 27 R12A6 R12A7 D 'l - ~; .';:.'... 6.'. 

                                                                                                    ;,GAL=12+.Ir
                                                                                                            %84                                                                                                                                                      ,I Il 4 o/r ll
                                                                                                                                                                 ~

R12A9 6Z" iJ hf I 'h R14A5 PUb iI 'i ' K' 6"Z K '"4<< R!4A7 04hO ' I ~ 0' QI U.:.~ 

                                                                              )Ill          Po              7<<h<<
                                                                                                               't                         P Ol <<h        I R15A5                                                                                ~   ~   I        C$ 4~4                              ol'<<

I/'l R15A7 AIR Ei."":.i'~ -'l. RCF:- ~'- R15A9 l IP V341IC STFN '!- -'.-". r'4 V<<<<V I 36 V%SVA Qt& ~ l I Fia 37 R31 AREA  ! ST"--". 38 R31RRO SSA NOR i P:".==:='.:E =:..=; =.i.-'. ~ ~ 39 V3410C STEN L% AR" . P 40 tQCW '=/= - '"=-" ' 

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vo

Time: 10:15 Message: 25 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE NIESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERC)SE+++ FOR CONTROLLER USE ONLY Controller Notes: Containment radiation levels continue to increase due to hot channels caused by flow anomalies that occurred due to the thermohydraulic effects of RCS blowdown. Actions Expected: Operators are stabilizing the plant using procedure E-1 "Loss of reactor or secondary coolant" 8-28

AS 1)i )997 loe19 Re E. GINA SIMULATOR PAK 1 TREND GRO(I'SSI6WENT SUt(t(ARY 6RRP; EVENTl PRXEDURE; EPIP 1 5 PLAhT STATiJS POINT ID Dc~IPTIOH E. U. 1 ATl6 AHTICIPATED TRANSIENT H/0 SCRAt( HO AIMS 2 RIT REACTOR TRIP BREA)CER STATUS RI TRIPPED RRN 3 t(31 SINCE RANK D"TECTDR H-31 3. 86367+01 6000 PS 4 tZ SONCE RANK DETECTOR H-32 3. 9856&01 6009 0% 5 N35 IHIERt(EDIATE RANK KIKTOR H-35 1.03753-11 6000 At(P 6 N3o ItPEHGIATE RANGE DETECTOR N-3b l. 03753-11 6009 ANP 7 NP AVERAK H(i LEAR PO(cn .Oi3 8HD 8 FR~ REACTOR COOLANT SYSTEt) AVG RESS 4e Vlf FS)6 LFB F RcSS(IIIER AVERAGE LFFL ~ 0 &Pa ee 10 FRCcA REA".TN CKLN(T LOOP A AVG GLOM e5 INK 

  .11       FT)M            REICTOR CKLQ(T LOOP             8 AVG FLG(                       .0   INHB      X
   ~

eL i RYTe'6 XPR BREA)(:)I CNEW'I TRIP TRIPPED ALN e~ geT)') BF):@i=.'~." 

  ~   J                     RCFB                         RS   TRIP             TR?PPED           N35 l4 15 lb TSUL TC LSG" L 68 MORE     TC STt( 6EH 4   t~
                                         =iiK%9LB t(RY:IN STtl 6EN 8 NhROM PAt(K RVG RANK AV6 ~~',8.
                                                                       )MEL 1'8.6 57.3 600j 6008 e)00li
                                                                                                             ~a 17                       ST)l 6EH A AVE?NSE PRESS91E                                          'N4         rS16 18        PSGB            ST)l 6EN 8 AVERAGE PREBJRE                                  580. LMRti       FSIG 19        GENS)tR)       %ABATOR       ON   LINE BREAI(ER 161372             TF.IPPED          AU5 10         KNBI(82        6BGQTOR       N    LINE BFEA)(P 9X1372              TRe)PPED BUS11A         BUS 11A SLPP Y BFSCER                               Tn?PPED           ALRtl BUS118         PJS 118 QPR.Y                                       TRIPPED           ALR)(

BR'OT 2)3 BUS124 TERNINATED ON PPCS (7/19/91) NOT TRIP KL 

 ')4       BUS128          HOT TERt(INRTED ON PPCS               (7/19/91)           TRIP HOT               DEL
 ~ ae.'

v 811A124 BUS 114 TO 12A Tlf BRENER NOT TRIP ALRN 26 8118128 B(B 118 TO 128 TIE BRENER HOT TRIP ALRt( 27 COHTAIHI&T AVERAGE PRESSURE 2.01 PSI6 e8 9 PCV LEPRA L0942E M%'AltST RNP m BLEV~ 8 I~S A A~ (TPR?HA) 

                                                                      'RP HKH 3le2 HE%

HMR)( I)%9 30 L0943c6 SN' LPe 8 I)ZicS (TRAIN 8) HIGHER IHHS ~t ~ )~ (.0942D SOP 8 LE))~ 78 ItG.ES (TRAIN A) HIGHER INH?I 

')'a L09<30          SU)P 8 LP~ 78 INCHES (TRAIN 8)                      HIGHER            INHS L09420          BNP 8 Lac). 113 IHQKS(TRAIN A)                      H16)CR            ALR)I      FKI'-P' L0943C          Bite 8 LPiEL 1L3 INCHES(TRAIN Bl                    HI6HER            ALR)l
                           ~~     8 LE'G. 180 INCHES(TRAIN A)                  CLO=a'009 LOMER             600?)

L09438 8 LEE"'60 evhMS(TRAIN 8) LNER Gm L0942A L& 8 LE'.~ 214 It~(TRAIN A) LSFR Gm 36 L09434 SUPP 8 LEAL 214 IN"~%~IN 8! LOSER Gm T04094 F)QA HOT L=G TEt(PERAT()n= 41.0 Hi": 

 ~   i, TX)04              RQJ         (=;. l))MTLF HOT                                                 e58e0 "1 e "ic8     ~~~    CKJr  '=" TPPERATIFZ                                  91.3     "OaO"          GF
 ~ a TO4108          ~1.a9 COLD   I=G TH&BAT(SE                                 218.8      SHE pae easel'.   ".. 4 TAVG    ':W/TCP "           '4fcE    ~."!            ~

bb ~ 2 KP 

                                                                                      ~e a             I'28 Haec
 ~   C
    'V     LRV             c~TOte vc      c~    Avc!it.        1  cf                                4~
 ~   '

TL~s j ~ gt 

           ;-4!iIFMa       S/6   A TOTAL    N RZQTB Pd4                                             aXa5    Qv I

FAUX% 6/6 8 TOTAL 4'MN~a F!Zl I v~ ~ v Bv~MI Wn AUIILI~)"> rcE44'cR FÃ' ON S~Jai e Aaa v RAUIILIAC') yacc)ijfii~rR 

                           ,".Tn                                  PLY=. 8     ohl               XQD ta          a~~05           <Ã    F)t FQh':-s)t          ~Q Vg.'v= 4            ~t'iC             P~~F)

VJ a)4 RUN FH PQ',P ":TEA)( SUPPLY VALVE 8 .-008

15 11 1.97 10: 8 R. E. 61NA SINLATOR PLx: 2 TRB8 6PSP ASSI6MBfT SUEY 6ROL~: EVENI PRGCEME: EPIP 1-5 PUN'TATUS POINT .IO ScaRIFTIQl VALI= QNL E. V.

S3 54 55 FSIA FS1B P2150 MHY TH~ION 

                  .~iICE +TER +VS r
                                   ~

IHXCTIOH LRP A AVS FLOK B AV6 FLDH a 8 P~ 425. 

                                                        %4.

87. 6009 6X9 6009 6PN 6PN PS16 9 P2161 ~4ICE NiH PHPS C h 8 %AM 86. 6009 PS16 57 BKR041 ICE NTB PUlf' K09 58 BKR042 SGiVICE NiiR PNP B MG9 S BKR043 SERVICE NiiR PNP C 6X9 60 BKR944 SERVICE NTP RK 9 6009

.Qi )i~ 1997 10:17 R. E. GINA SIMATGR TREND Btm'SSIMBIT RlNARY Sm" EVENT2 PROZV)E: EPIP 1-5 PLANT STAT~JS POINT ID DESCRIPTIDH VALUE DUAL E. U. 1 F0619 CQPQBtT Cm.INB Lm)P TOTAL FLit 884 o uu GPtl 2 U5tST RERKLING ttATER ST(RAGE TAN LVL 29' LNH X 3 itS0330)5 33 FT LEVEL ttIND SPEED! 15tl AVG 6e& 6009 tRl 4 C033Q)5 33FT LVL )tIND DIRECTIR 15N AVG 34&. 6009 DEB. 5 NI033915 33 FOOT LEVEL TOP. (15ti AVB) 64.0 BMD K6F 6 NT250Q)5 250 FOOT LEVEL TBf'. (15tl AVB) 63.4 60M KBF 7 )(DT2015 250-33 FT LVL DELTA TEtP IR AVG -.6 6003 DEBF 8 9 10 ii 12 R01 R02 R05 R09 R34 AREA A%A ~ AREA 1<OHTRQ. RGGti 

                       ~TAIttGIT FlKL PIT ARB HSI9$ 8 LINE 5NITGR AREA  34  - AUI SLOG  CV SPRY   PUt9'REA 8.8104&42 3.349&4+05 1.34+m 1.181&GKP
i. KPKMI 6009 HAUl GGM H)tRt(

NNWi t8/IR NIN N/% N/)8 NI)8 13 K)5 X@PASS SANPLE PNB. 1.09648M 6009 t8/N 14 R)OA CGHTAIeE)(T 10DI)K NNITOR R10A 4.0271&K6 HAU( CPtl 15 R11 CONTAME)iT AIR PARTICRATE 2. &001586 6009 CPtl 16 R12 CONTAINEtlT 6AS tgHITOR 3.00694+04 HAUl CPtl 17 R)09 Put(T VENT IODINE NNITOR R109 2. &8766%1 600D CPtl 18 R13 AUI tuG EXHAUST AIR PARTIC(uTE 4.4348801 6009 CPtl 19 R)4 AUX DLDB ENAUST BAS H(NITDR 4.&1051+1 Bm CPH 20 R18 LI(UID MASTE DISPOSAL NNITiR '.56900t03 6009 CPtl 21 R)9 STEAtl BE%RAT(M SLNDM DRAIti 4.2965&02 6009 CPN 22 R29 AREA PHR(TAIQHiT HISH RANGE 3.26164+(t'ALtl R/N 23 R30 AREA 3tHXKfAMENTHI% RANGE 3.26164KP HAU) R/N 24 R15 CG)QB6% AIR EJECTOR EXHAUST 3.31607+02 6009 PN 25 R12A5 CV VENT CHAN RUM RANGE 6AS 7.500%r07 6009 XI/CC 26 R12A& CV VENT CHAN &AfKAGAtt)A 3.27368i00 6009 N/)8 27 R12A7 CV VENT CHAN 7+ID RAN6E BAS 9.99984M 60GD XI/CC 28 29 30 R12A'? R14A5 R14A7 CV VENT CHAN ILC(T VENT CHAN PLANT VENT 

                                   ~

9-HIGH mZ BAS RANGE ONl 7+ID RAN6E SS S'S 9.99967M 1.50001<7 9.99984M 6009 6609 6009 XI/CC Kl/CC XI/CC 31 R)4A9 PLANT VENT CHAN 9+IGH RANE $ 8 3.9997&)3 60M XI/CC 32 33 34 R15A5 R15A7 RISA9 AIR EJECTOR CHAH 7&ID AIR EJECTOR Mlt Ml ~ 

                                           ~

AIR EJECTCR CHAN MG)t RANGE 6AS GiiS BAS 9.00007<7 60M UCIICC 9.99984M 6009 Xl/CC 9.99987M 6003 Xl/CC X V3411C . STEQ( LINE ARV A CLPK) 6009 36 VkSSVA HU)SER OF S/6 A tSSV SBl Oo GGM 9 IFEN 37 R31 AREA 31 STEN Lily A (PINS) 2.0512~ GGM IS/18 38 R31RRQ SBA H09LE BAS RELEASE RATE',15%V .0000080 '009 CI/SEC 39 V3410C STEAN LINE ARV B CLOSE9 Gm 40 NRVB t USER OF 6/6 B t)SSV %EN 0. GXD 9 OFEH 41 R32 A%A 32 SEAtl LIRE B (SPINB) 2.051~662 6009 N/% 42 832RRQ SBB HGELE 6AS RELEASE RATE" 5t)AV .OOOO')0 6009 CI/SEC 43 CVH CV HYDROGEN C(@CENTI)ATION .0 BGGD X 44 TCVO3 CV SASEtBfT LEVEL 6FT TBlP e3 209' 6003 K6F 45 TCV07 CV IN)ERlKDIATE LVL PT TBF <7 157.5 Gm KGF 46 TCVOG CV INTER%i)IATE LVL 6FT TEHP N 157.5 60M KBF 47 TCVO9 CV It TER!KDIATE LVL 6FT TPP 49 . 157.5 GXD K6F 48 K%10 CV IN)ER)KDIATE LVL 6FT TB)P l10 157.5 6009 K6F 49 TCV17 CV fPERATIHG LEVL 6FT TEHP 017 105' 6009 IKBF

Time: 10:15 Message: 26X 6 IN NA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE IIESSAGE FORM Message for: Emergency Coordinator Message: +++THIS IS A EXERCISE+++ Declare a Site Area Emergency using EPIP 1-0 

   ¹ EAL 2.3.2 "Containment radiation levels >100R/hr on R-29/30 FOR CONTROLLER USE ONLY Controller Notes:
1. Deliver only if a Site Area Emergency has not been declared. Do not deliver if emergency classifications are in progress.
2. Containment radiation levels continue to increase due to localized fuel overheating.

Actions Expected: 8-29

Time: 10:30 Message: 27 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY Controller Notes:

1. Containment radiation levels continue to increase.

Actions Expected:

1. Operators still stabilizing the plant using emergency operating procedures.
2. The Emergency Operations Facility should be staffing up.
3. A Site Evacuation should be implemented.
4. A General Emergency should be declared per EPIP 1-0, EAL 2.3.3 ¹
5. Immediate protective actions should be made using procedure EPIP 2-1 8-30

UH )l, )997 10:30 R. E. GMIA SINLAT(R TREHD 68m'SSIBtKNT RtfQRY GRM" EVEHT1 PROCEMIE: EPIP 1-5 PLANT STATUS POIHT ID KSCRIPTIOH VAL(K QNL E. U. AHTICIPATEO TRANSIENT N/0 SCRAN NO ATNS Gm REACT(m TRIP BREAKER STATUS RX TRIPPED ALRN 3 H31 SMCE RANGE DETECTOR H-31 So34562Kll 6009 0% 4 N32 SRKE RAN6E KfECTN N-32 4.76979>>01 GXO CPS 5 H35 It(TER%0 IATE RANGE DETECTOR H-35 1.05195-11 6000 QP 6 H36 It(TERtH)IATE RAHGE DElECTOR H-36 1.04713"11 60M 7 t4' AVERAGE MKLEAR PSKR ;00 6000 X PRCS REACTOR CO(jLAHT SYSTEN AVG PRESS 3. LAL)l PSIG LPIR PRESSNIIER AVERAGE LEVEL .0 LEHG X 10 FRCLA REACT% Cmut(T UNP A AVG FLON ~ 0 W8 X 11 FRQB REACTN CO(uHT LO(P 8 AVG FLON .0 N(0 X 12 RXT16 RCPA aKAKER CAUSE RX TRIP TRIPPED ALRN 13 RXTD RCPB BREAKER CAUSE RX RIP TRIPPED ALRN 14 TSUOTC IMXSE TC SUKOOLED NARSIN 105,4 GX>> KGF 15 LSGA STN (KH A NARRfN RANGE AVG LEVEL 68.5 M5 X 16 LSGO ST)( GEN 8 NARR(N RANGE AVG i&EL 57.1 6000 X 0 PSGA Sill GEN A AVERAGE RK%9K 560. LNN PSIG 18 PSGB STN 6EH 8 AVERAGE RKSS(RE 566. LNRN PSI6 19 GEHOKR) GE)GQTOR OH LINE BREAKER 161372 TRIPPED ALRN 20 GEHEKR2 GE%RAT(m ON LINE l%EAKER 9XI372 TRIPPED ALP

21. BUS))A BUS 11A SPPLY BREAKER TRIPPED ALRN 22 IKJSII B BUS 11B SUPPLY BREAKER TRIPPED ALRN 23 BUS12A NOT TERNINA78) N PPCS (7/}9/91) WT TRIP IKL 24 BUS129 NOT TERNI)IATED N PPCS (7/19/91) NT TRIP Ie.

25 B11A12A BUS 11A TO 12A TlE BREAKER NOT TRIP ALRN 26 B11B120 BUS 11B TO 128 TIE BREAKER NOT TRIP ALRN 27 PCV CNNIN%N AVERAGE RKSSURE 2o32 )%RH LRNPA CMAIQfEhi SUNP A ASPERA% LEVEL 31.2 %% 29 L0942E 91P 8 LBFL 8 IIQKS (TRAIN A) HIGHER IR 30 L0943E SUIP 8 t&B. 8 IIGKS (TRAIN 0) HIQKii 1%8 31 L0942D SU)P 8 tZJEL 78 INCHES (TRAIN A) HIG)KR I%9 32 (.09439 SOIL 8 LEVEL 78 I)GKS (TRAIN 8) HIER 1%0 L0942C SOP 8 LEVEL 113 INKS(TRAIN A) HIGHER ALRN 34 L0943C SOP B LEVEL 113 l)GKS(TRAIN 8) HIG)KR ALRt( 35 L09428 RlP 8 LEVEL 180 INC)KS(TRAIN A) UNER 6009 36 L0943B SU)P B LEVEL 180 IC%S(TRAIN B) LSKR 6000 37 L0942A SQP B LEVEL 214 INKS(TRAIN A) LNER 6XO 38 L0943A SUtP 8 LEVEL 214 INC)KS(TRAIN 8) LSKR 6000 39 T0409A RQA HOT LEG KtFERATHK 341.5 6XO 40 T0410A RCU) NT LE6 TBfERATUK 166.7 6000 41 T04098 RCLA COLD LEG TDFERAT(RE 368.3 SNO 42 '0410B RCLB C(u LEG 79fERATQK 219.6 GXO 43 TABID RGB TAVG (TM)T/TC(LD HIDE M) X4.9 GNO 44 TAVGBNID R(u TAVG (MT/TC(LD NIDE R%) 193.2 GOR 45 LRV RECTOR VESSEL AVERA6E UJL 64.0 LALN 46 TCCiHE E1.1 ICHOR TC AVERAGE TENP 114.4 600>> 47 FAUXFNA S/6 A TOTAL AUX FEEONA1% FLON 19. GXO 48 FAUXFNO S/G 8 TQTN NIX FEEDHAIER FLSt 0, 6000 49 BKR081 HrR AUIILIARYFEEDNATER PU)P A OH Gm" 50 BKR082 t(TR AUXILIARYFEHNATER PQ(P 9 OH 6000 5f V3$ 5 AUX RI RR'TEAN SUPPLY VALVE A CLOSED 6009 AUX FM BH'lEAN SUPPLY VALVE B CLOSED 600D

Jth Ili 1%1 10l30 Rs E. GINA SlfLLAM FA"= 2 TM6 6RRF ASSIBtGfT MAY 69P: iiB171 PROCEDlRE: EPIP 1-5 POINT ID KKRIPTIN VALlK NAL E. U. 53 FSIA SAFETY IffZCTII9fLXP A AVG FUN 424. 6009 SPll 54 FSI8 SAFETY INZCTIN LOOP 8 AVG FLGM 424. 6009 GPli P21b0 KR)ICE NicR PIMPS A h 8 IRAN 87. Gm PSIG 56 P21bl SiFiICE iNTR 1M' 0 D fKASER 8b. 6009 PSIG 57 NR041 ALICE MATER POP A 6009 58 8KR042 ScRVICE MAT% PQF 8 K69 59 NR043 SERVICE NTER PllF C Gm b0 SKR044 SERVICE NTER PNP 9 6009

J!h ii )997 10:30 R. E, GINA SIlRLATOR PAGE TRB(9 6R(u'SSIMBlT PJNNY 6ROLPl VEHT2 PROCEDL4(E: EPIP 1-5 PLANT STATJS P01HT ID DERIPT IOM VALUE QUAL E. U. I F0619 Coff0%NT C(XLI% LOOP TOTAL PLH 3616. 6009 Ptl 2 LRMST RERKLI% NTER STNAGE TAN LVI. 21.5 u(Rt( X 3 )(S033Q(5 33 FT "(EVEL t(IHD SPEED: 15tl AVG 7.0 6009 le 4 t(9033QI5 33FT LVL MIN) DIRECTION 15)( AVG 358, Gm KG. 5 ((T033Q(5 33 FOOT LEVEL TEtt, (15)( AVG) 64.7 GXE KGF 6 HTZOQ!5 cA FOOT LPM TB(P. (15H AV6) 64.2 6009 DEGF 7 MDT2015 250-33 FT LVL DELTA TB9'5t( AVG -.5 6009 KGF 8 9 10 11 12 RO1 R02 RO5 R09 R34 AREA APSl AREA AREA 

                          ~

1~(IRQ. 2~TAI)ST 

                          ~St(

AREA 34 - ROB'i FIKL PIT LINE tO(ITOR AUX aLDG CV SPRAV 8.81048-0 8.56051+05 2.88402+01 1.24451+02 Per 1.47062m! eRt( 6OOD HALH HAUI NRt( N/N N/IS NIN N/N N/HR 13 R35 AREA X@PASS SAt(PX PA(G. 1.09&&m 6009 N/N 14 R10A CONTAIQBlT IODIIK KH!TOR R!OA 3.94116M HAU. CPti 15 Rll CONTAIN)(EHT AIR PART IC(LATE 2. 600ISHO 6009 Cpt( 16 R!2 COMTAIHt(Et(T 6AS ttoNITOR 3.!2607@8 HAU( Cptt (7 R!09 PUHT VENT IODItK tKNITOR R109 3.35%&02 6009 Cpt( 18 R13 AUX BLDG EXHAUST AIR PARTICULATE 4.65050401 6009 CPt( 19 R!4 AUX BLD6 EXHAUST 6AS t((5ITOR 4.4157(&! GXS CPtl . 20 R!8 LI(uID NABE DISPOSAL NNITOR 1.56900t03 6009 Cpt(

21. R19 STEAtt 6E%RATOR SLOt(DON DRAltl 4.5250ht02 6009 CPt(

22 R29 AREA 29~AINEHT Hla( RAN6E (,I 3589@6 HALt( RIN R30 AREA 3DCONTAItlKMT HIGH RANK (AZW(8 HAU( R/N 24 R!5 Cot((e(SER AIR EJECT(R EXHAUST 3.31607%2 Gm CP)l 25 R!2A5 CV VENT CHAN &ON RANK 6AS 7 50006M 659 (X:I/CC 26 27 28 R!2A6 R!2A7 R12A9 CV VENT CHAN frAKA SANA CV VENT CHAN CV VENT CHAN 7&ID ~ 9+16H RA%E 6AS GAS 5.28662+00 eR)( NIN 9.99984-06 9.99987-04 6009 GOOD (X:I/CC KI/CC "9 R!4A5 PLANT VENT CHAN &V% RANK GAS I o50001<7 6009 (I:I/CC R!4A7 PLANT VENT CNN 7+ID RANGE 95 9.99984M Gm UCIICC 31 R!449 PLANT VENT QQN MIGH RANK GAS 3.99971%3 SXm UCI/CC 32 R)M AIR EJECTCR MN Mo)t RANK 6AS 9.00007M 6009 (I:I/CC 33 R!5A7 AIR EJECTOR CHAN 7+ID RAHSE 6AS 9.99984M 6009 (X:I/CC 34 R!5A9 AIR EJECTOR CHAN MI RAHGE 6AS 9.99987~ 6Q) (EI/CC 35 V341!C SIEAt( LI% ARV A CLOSE) 6009 36 VIVA HUt(DER OF S/6 A lSSV OFB) 0. 600D 0 %9I 37 R31 AREA 31 STEAtt LINE A (SPI%) 2. 0513r02 6009 NIN 38 R31RRQ SaA NODLE 6AS RELEAK RATE: 19%V .0000(BOO 600D CIISEC 39 V3410C STEAtl LINE ARV B CLOSED 6009 40 V)SB M)t(DER OF S/6 D lSSV OPB( 0, GOOD 4 5%M 41 RX? ARiA 32 SKN LIT 8 (SPI%) 2.0512HP 6009 N/)S 42 R32%0 SGB NELE 6AS RELEAK RATE'15)NV .00000100 6009 CI/SEC 43 44 45 CVH 

      ~a.

TCVO7 3 CV HYDROGEN CONCENTRATION CV CV BASH&IT lRKL bFT INER%NAIE LVL 6FT TBF 

                                             ~    03 07 o0 191.7 150.1 cXS 61 6009 X

EEGF KGF 46 'ICVO8 CV IthiBIATE LVI. 6FT le& N 150.1 6009 IEGF 47 TCV09 CV INERtKOIATE LVL 6FT TB)P 49 150.1 600D K6F 48 TCV!0 CV IHTERt(EDIATE LVL 6FT TPP IIO 150.1 600D KBF 49 TCV17 CV (FG(ATINi KlJL 6FT TBP 917 108.5 6009 KGF

Time: 10:45 Message: 28 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Nlessage for: Control Room Message: +++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY Controller Notes:

1. Operators are still stabilizing the plant per emergency operating procedures.

Actions Expected: The TSC and the control room operators should be assessing sump "B" recirculation ., availability.

2. The EOF should be staffing up.

8-31

0 Jla )>. )997 10:45 R. E. GINA SIMON PA% 1 TREND Gfm'SSI%%NT SQSARY BROLP: EVEHT1 PRXEONE) EPIP 1-5 POINT ID SEKRIPTION E. U. 1 ATi8 ANTICIPATED TRANSIENT W/0 SCRIN HO AIMS 6009 2 RXT RBCHR TRIP BREAKER STATUS RK TRIPPED ALRt( 3 N31 SONCE $ AHBE KTECTN H-31 H-32 5.~1 6009 CPS H32 SMICE RAIIGE DETECTOR 5.23599&1 BOM CPS 5 N35 INTER)(EDIATE RANGE DETECTOR H-35 1.05195-11 6009 QP 6 N36 INTER)KDIATE RANK DETECTOR N-36 1.05195-11 6009 AtP 7 tP AVERAGE MQEAR HKR .00 6009 7. 8 PRCS REACTN CO(uNT SYSTEN AVG PRESS 3. LAL)( PSI6 9 lPIR PRESRRIIER AVERAIK LEVEL .O'E% X 10 FH1A REACTN CORM'SP A AVB FUN .0 WS x 11 FR1B REACTN CmuHT L(O' AVG FUN .0 1%8 12 RKT16 RCPA BREAKER CAUSE Rr TRIP TRIPPED ALR)I 13 RXTI7 RCPB BREAKER CAUSE Ri TRIP TRIPPED ALR)( 14 TSUBTC INCORE TC SUBCOXED tNBIN 110' 600 KGF 15 LSBA STN GEN A HARMN RANGE AVB LEVEL 21.2 865 16 LSGB ST)I 6EH B NARRN RAIIBE AVB LEVEL 56' 6009 17 PSGA STN GEH A AVERA6E PRESRRE'T)I 539. LHR)I PSI6 18 PSBB GEN B AVERAGE PFESSIE 552. LHRI( PSIG 19 GENBKR) (K)GIATN ON LINE MEAL 161372 TRIPPED ALRII 20 GENBKR2 GE)GNTN ON LIIK BREAKER 9K(372 TRIPPED ALRN 21 BUS) IA BUS 11A SUPPLY BREAKER TRIPPEO ALRN 22 BUSIIB IK)S 11B SUPPLY BREAKER TRIPPED ALRII 23 BUS12A HOT TERNINATED OH PPCS (7/}9/91) )K)T TRIP IKL 24 BUS 128 NOT TERNltiATED N PPCS (7/19/91) NOT TRIP IKL 25 Bl IA12A BUS 11A TO 12A TIE PRFNER HOT TRIP ALR)( 26 BIIBI29 BUS llB TQ IZ TIE BREAKER HOT TRIP ALRI( 27 PCV CNTAINENT AVERAGE PRESSURE 2.25 $ 8)( 28 LSQPA COIITAINKhT RNP A AVERNUS l8iEL 31.2 HEHB 29 L0942E SOP B LEVB 8 INC%8 (TRAIN A) HISKR IHH8 30 L0943E SNP B ~~ 8 MIKE (TRAIN 9) HI6nER '%8 31 L09429 SUP B LEVEL 78 MHES (TRAIN A) HI6HER I%8 32 L09439 SUtF' iZiEL 78 INCHES (TRAIN 8) Hie@ IHHS 33 L0942C SW B LEVEL 113 ItQKS(TRAIN A) HIGH% ALR)I 34 L0943C WP 8 LEVEL 113 INCHES(TRAIN B) HIGHER ALR)( 35 L0942B ~MP B LEVEL 180 ItCKS(TRA!N A) LM3) %09 36 L09438 SNP B LBP 180 INCHES(TRAIH B) UNER 6009 37 L0942A SNP B LEVEL 214 IKHES(TRAIN A) UNER Gm 38 L0943A SNP B LEVEL 214 Ita(ES(TRAIN B) UNER 6009 39 '0 T0409A RCLA HOT LEG TE%ERAllK 341.2 BOX T0410A RCLB HOT LEG TBFERA~ 164.3 6009 41 T0409B RCLA COLD LEB TENPERATutE 349.7 Bm 42 T0410B RCLB C(U) LEB 7PPERATNE 219.4 6009 p TAVAMID RED TAVB (TEIT/ICED )IIDE Rte 345.5 Gm 44 TAVS%ID fCS TAVB (MT/TGXD HIDE RHG) 191.8 KP>> 45 UIV REA".TOR VERB. AVERAac LEVEL 64.4 LAUI 46 TCCORE El.l INXRK TC AKNiE TBP 109.8 6¹ 47 FAJÃrrA S/6 A TOT@. AUI FEB%TER FLN 19. 6009 48 FANF)IB S/6 8 TOTAL AUX FEEuNTER FLO)I 0. 6009 BKR981 NTR ANILIARYFEHNATER PQF A OH Bm 50 BKR082 AUr F)t ~ tiTR AUXILIARYFEE4I7ER PUtiP 9 STEA)I ~LY AUK F)I PN9'TEA)I SilFPLY VALVE B CLOSED ON VALVE A CLOSED 6009 6009 KQQ

Jls 1]r 1997 10'45 R. E. Slt5A SINLATIR PAaE 2 TEND 6REP ASS ISNBtT RNSRY C 6RQP! EVEHTI PROCENRE: EPIP 1-5 PLANT STATUS POIHT ID KKRIPTIOH VALLs qUAL E. 0 53 FSIA SAFETY IHXCTIOH LOOP A AV6 FUN 423. EOOD 6Ptl 54 FSIB SAFiiY INXCTIOH LSP B AVS FLSI 423. 600D 6PN 55 P2160 SERVICE MATER PIMPS A 0 B KNKR 87. 600D PSI6 56 P2161 SERVICE MATER PNFS C h D HEADER 86. 600D PSI6 57 NR041 SERVICE MATER PNF A 600D 58 N f042 SERVICE MATER PUtP B 60M NR043 SERVICE MATER PNP C 60M 60 NR044 SERVICE MATER PSP D 60M

JUYi 11i 1997 10:45 R. E. GINA SINLATGR TREND Gtm'SSIMBfT StNSRY 6RQF: EVB(T2'ROCEDGRE: EPIP 1-5 PLANT STATUS POINT ID DESCRIPTION VAUK QuAL E. L F0619 CBfONB(T CKLING LOOP TOTAL Fu( 3614. 6000 GPt( 2 IJ0(ST REFILING NM STUDS TAN LVL 17.3 Lt(RK X 3 ltSO33Q15 33 FT tEVEL IIIND SPEED'5tl AVG 7.0 600D !Rl N$33Q!5 33FT LVL HIND DIRECTIW }Bi NG 2 6000 KG. 5 KT033Q}5 33 RET LEVEL TOFT (}5tl RVG) 64.8 6009 KGF 6 MT25OQ15 250 RNT LEVEL TBP. (}5)i AVG) 64.3 GX9 KGF 7 K012Q}5 250-33 FT LVL KLTA TEtP }5)f AVG -.5 600D KGF 8 RO1 AREA }CTRL RGOtt 9.440&2M 600D NIHR 10 11 9 

      ~

R02 R05 FO9 AREA AREA AREA 

                          ~i 2~iAINENT FuEL PIT
                          'Hf!TDON LIK tO(ITOR
                                                            }.3}0&9+0& HAU( N/HR 3.9354M}

1.2445}+02 HAUI 

                                                                          $ )Rt(

N/N t8/HR 12 R34 AREA 34 - AN BLDG CV SPRA)'(!P }.53}08+0} )N)( N/HR 13 R35 AREA ZrPASS SANPLE PA%1. 1.09M&00 6000 N/HR 14 R}OA CGNTAINBiT IGDIIE )O(IT% R10A 3.94}1&05 HAUl CPN 

. 15    R11        CONTAINMENT AIR PARTIC(IATE              2.622?OKQ      6000  CPtl 16    R}2        CONTAI)0(B(T GAS tO(ITOR                 3.?2607+M     HALN   PN 17    R}00       PLANT VEHT IODINE N(NITGR R}09           3.73}QK)}      600D  CPN 18    R}3        AUX BL96 BHAUST AIR PARTIC}uTE           4.6505OS} 6009       PN 19    R14        m    au@ EXHAuST GAS t(GNITGR            4.4}5?(HO} GOE       CPtl 20    R18        LIQUID NAPE D'ISPGSAL %NIT%               1.5690Oi03 Gm       CPtl 21    R}9        STEAtl GBG(AT% Bu)l(DGN DRAIK            4,52506K)2 6000      CPt(

22 'R29 AREA ~AINtKHT HI6H RANGE 1.30974+03 HALN R/HR R30 AREA 3tH'(TAINttB(T HIGH RA)IGE }.30974+03 HAUI R/HR 24 R15 KKDB(SER AIR EJECTOR BHAUST 3.3}607M 6009 CPtl R12A5 CV VENi CHAN H.N FPK 6AS 7.50006M 6009 XI/CC 26 27 P.}2A& R}207 CV VENT CHAN CV VENT b~ MN ON/ 7+ID FAW GAS 7.0000(H00 9.99984M NRt( !8/HR 6COD Kl/CC 28 29 R}2N R14A5 30 R14A7 CV VENT CHAN PLANT VENT QQN PUNT VENT CHAN 

                                       ~

9+IGH RA%K GAS RANGE GAS 9.99987M 1.5000K)7 7+ID RANGE 6AS 9.99984M 6009 6000 6000 Kl/CC Nit/CC ILI/CC 31 R}449 PLANT VENT CHAN MIGH RANE GAS 3.9997}<3 6000 lj:I/CC 32 R}M Aih EJECTOR CHAN &LG)t RAHU GAS 9. (eOOZ<7 6000 KI/CC 

 '13    R15A?      AIR EJECTOR    CHAN  ZWID RAN6E    GAS   9.99984M      6000   XI/CC 34                AIP. EJECTOR CHAN    9+I  RANGE GAS      9.9998?M      6009   KI/CC V341'C     STJV!   LM ARV A                         CLOSE0        6000 36     VttKVA     MlSER    OF S/6  A %SV GFB(                        0. 6009   0 OPEN MJ8                            2,05}2r02 Gm t8/N
               '31 37                AREA 31          LINE A (PINS) 38     R3}M       SGA NOBLE GAS    REGLE RATE:}5KAV          .OOOO'OOD          CI/SEC 39     V34}OC     FiiN LINE ARV B                          CLOSED        GOM 40     ~VB        L"0)ER OF S/6 B %SV GR3                            Oi  6009   0 OPEN 41     R3"        AREA 32 Bc&i LINE B (SPING)              2.05}2&02 BX9 %IN 42     R3280      SGB M)BLE GAS RELEASE RATE)}5NAV           .0000060 6000 CI/SEC 43 44 45 CV)l TCVO3 TCVOZ CV CV R)%06EN CGt~TIGN BABB(BT ~VEL SR      ~

CV IHTER%DIATE LVL &FT TENP %7 43 

                                                                      .0 6009 X 173.5   6009
                                                                  }39.9 GM9 KGF DE6F 46     TCV(4)     CV INTERMEDIATE LVL &FT     me     48          139.9   6009   KGF 4?     TCVO9      CV  IHIERH)}ATE LVL 6FT     TE)ii'9            139.9   6000   KGF 48     TCV10      CV INTERMEDIATE    LVL 6FT  TBP 410            139.')  6000   KGF 49    TCV17      CV GPERATING LEVL 6FT     .B(P 0}7             10&.2   6000   DEGF

Time: 10:45 Message: 29X GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Emergency Coordinator Message: +++THIS IS A EXERCISE+++ Declare a General Emergency using EPIP 1-0 

   ¹ EAL 2.3.3 "Containment radiation levels >1000R/hr on R-29/30 FOR CONTROLLER USE ONLY Controller Notes:
1. Deliver only if a General Emergency has not yet been declared. Do not deliver if emergency classifications are in progress.

Actions Expected: 8-32

Time: 11:00 Message: 30 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Nlessage for: Control Room Nlessage: +++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY Controller Notes: ~ Containment radiation levels have stabilized.

2. The injection phase of the accident is done or almost done.

Actions Expected:

1. Operations personnel should be aligning systems for the recirculation phase.
2. The TSC should be discussing concerns of operation with only one CCW pump for long-term heat removal.

8-33

.N )is )997 ii:00 R. E. GINA SINLATOR PAGE I TREM) Gtm'SSI QtBfT SUtt(ARY (SUP: EVEHT1 PRXED(RE: EPIP 1-5 FUST STATUS POINT ID %SCRIPTION VALtK QUAL E. U. 1 AIMS ANTICIPATED mANSIEHT M/0 SCStl NO AIMS Gm 2 RXT RGCllR TRIP BREAKER STATI$ RK TRIPPED AU(t( 3 lQI S(uKE'RANK EETECT(R H-31 5.04080ei Gm CPS 4 N32 S(u(CE RA%K KKCAR H-32 5.(8202m( 61 CPS 5 N35 IKlERtKDIATERA%K KIKTN H-35 1.05195-11 Gm M'tP 6 N36 IN7ERG)IATE RAN6E DEIKTN N-3& 1.04713-11 6009 7 8' AVERASE M)CLEAR POMER ~ 

                                                                        >>00  GX9 X PRCS           REACTOR COOut(T SYSTEH AVG PRESS                  3. LALI( PSIG LPIR           PRESSURIIER     NERAK LE'M                        .0 LE%    X 10      FRCLA         RSICTN CmuNT LOOP A AVG FLOM                      .0 IM     X 11     FRLS           89CRR COOLANT LOOP 8 AVG FUN                      .0 1%(9   X 12     RXT16          RCPA BREAKER CA($E Rl lRIP            lRIPPED         ALR)I 13      RG17          RCPB BREAKER CAUSE RX      TRIP       lRIPPED        ALRII ih     TSUBTC          ItGNE    TC SUBCO(u3) t(ARGIH               112.3   600<   DEGF 15      LSSA          ST)I GEH A NARROM RAKE AVG LEVEL              74.1   HMRt(

16 LS68 STN GEH 8 NAmt RANGE AVS LEVEL 56.5 6009 X 17 PS6A ST)I 6EH A AVERAGE PRESSURE 519. UNl PSIG 18 PS68 ST)I 6EH B AVERAGE PRESSURE 541. LMR)( PSIG 19 GENBKRI GE%RATOR ON LINE BREAKER 161372 TRIPPED ALRH 20 GENBKIQ 6E%HATDR ON Lit@ BREAKER 9K1372 lRIPPED ALRII 21 BUSIIA BUS ilA SUPPLY BREAKER. TRIPPED RRN 22 IK$118 8($ 118 SUPPLY BRENER TRIPPED ALRII 23 BUS 12A M)T TER)(II(ATED ON PPCS (7/19/91) NOT TRIP DEL 24 8($ 128 NOT TERt(lt(ATED OH PPCS (7/19/91) NOT TRIP IKL 81IA12A BUS 11A TO 12A TIE BREAKER NOT TRIP AU(I( 26 8118128 BUS 118 TO 128 TIE BREAKER NOT TRIP ALRI( 27 PCV CNTAINI(EHT AVERAGE PRESSURE 2.91 SN 28 LS(JFA GNMINE)(T PM A AVERAGE LBJEL 31.2 lKN6 

~9   L0942E            SQP 8 i&EL 8 It(CHES (TRAIN A)        HI6%F.         It4(8 30   L0943E            BtP 8    '~K. 8 I GKB (TRAIN 8)     Hl~            INHB 31   L0942D            SU?I'    LBiB 78 INCHES (TRAIH A) HIQKR              N(8 32   L09439            SU)A B LEAL 78 I GKS (TRAIH 8) HIGHER                1%9 33   L0942C            RRP    8 LEVEL 113 I QKS(TRAIN A) HIER               ALR)f 34   L094X            SQP     8 LB'/='13 ItQKS(TRAIN 8) HIGHER              ALRH 35 L09428 36   L09438'7 L0942A RRP SQP SSP 8 LE%i 180 ItKKS(TRAIN A) LONER 8 l&K    180 ItQES(TRAIN 8)    UN'm 8 LEFT. 214 INCHES(TRAIN A) LSKR 850 6009 38   L0943A           SUP     8 LB'. 214 llGKS(TRAIN 8)      Lm             6009 39   T0409A           RCu) HOT LEG TEtfERATQK                      340.6    GSD 40   T0410A           RlB )K)T LEG TBf6NTllK                       ibho7    6009 41   T 04%8           RCLA CKD LEG TBFERATu?E                      322.5    (m 42 'T04108            R(LB C(u LEG TBPEFATuIE                      221.2    6009 43   TNMID            RQA TAVG (THOT/TC(u HIDE RNG)                Blob     6009 44   TAVGBMID         RCLB TAVG (~i/TC(u HIDE 8%)                  192'     6%9 45   uIV              REACH'L AVERAGE LEVEL                         64.3    LAu(

46 47 TCCORE El.i IN'C AVERAGE TBP 108.8 8& FANFMA S/6 A TOTAL AN FEEDMATER FUN 20. 6%9 

~S   FAUIFMB          S/6 8 TOTAL AN FEEDMATER FUN                      0.'0M 49   BKR081           t(TR ANILIARYFEEDMATER PNP A           ON             a000 50   8((R082          t(TR AUIILIARYFEEDMATER.PQt 8          ON             6009 AN FM PPP "=TEA)( SLPPLY      VN.VE A CLOSED          61 AN FM PM'TEAI( SUPPLY          VALVE 8 CLOSED         6009

JLS llew 1%7 ll:00 R. E. GINA SINLATQR PAGE 2 TRBQ 6RRF ASSI69%NT RkfQRY GRmm" PFMTI PROMLK: EPIP IH PLNT STAVJS 

                            ~RIPTIDE P0I.i  IO                                   VALUE     QJAL   E. U, 53    FSIA       SAFETY IHXCTIQi LHF A AV6 FLN        131. 6009 GPN 54    FSIB       SAFETY IN3ECTIN LMP B AVG FLN        IP7. GXO  SPY 55    P2160      SERVICE NTER POPS 4 h 8 fENKR         87. Gm   PSIG 56    P2161     SERVICE  NicR RIES C 0 D KAXR          86. 6XO PSI6 57    FNR041    SERVICE  NTER PllF A                        6XO 58    NR042     SERVICE  N7R PIlP  9                        6009 BKR043    SERVICE NTER PQP C                          SX9 60    NR044     SERVICE  NKR RlF   9                        6XO

JlN 11~ 1997 11100 R. E. GINA SIMULATOR PAa= THEM 6RRP ASSIS)ST BNQRY 6RS'VENT2 Pt(OCE(NREM EPIP 1-5 PuV(T STATUS PDIHT ID D~IPTIOH E. U. F0619 CBPNENT CMLINS LCP TOTAL FL)t 3612. Gm 6Pt( 2 u()(ST REFlKLING 1(ATER STORAGE TAN LVL 14.7 LN5 7. 3 NS033QIS 33 FT LEV '(IN9 SPEED: 15t( AVG  ?.0 60M 5% 4 t(9033QIS ZFT LVL NlhD DIRECTION 15tt AV6 5. 6009 KG, 5 NT033Q15 33 FOOT LEV2 TE)P. (15)( AV6) 64.8 6009 K6F 6 t(T250Q(5 250 FOOT LEVEL TEt(P. (ISt( AVG) 64.3 6009 K6F 7 t(DT2015 250-33 FT LV D(3.TA TE)P 1St( uJG ".5 Gm K6F 8 R01 10 11 12 R02 R05 R09 R34 AREA AREA AREA AREA AREA 

                          ~

l~itQ. RIXN 

                          ~iAIN)KKT 9~0)4 34 FUEL PIT Lite t(ONITOR
                             - AUX BLDG CV SPRAY        RNP 9.3322@02 1.50487+06 4.0W2%1 I 24451+02 o

1.57580K)1 6009 HAU( HAL)( WR)( HNRN N/N t8/N N/% 

                                                                                       %/HR
                                                                                       %/%

13 R35 AREA ~ASS SA)PZ PA)8. 1.09648%3 6009 tS/N 14 R10A CMAIt5E)(T IODINE t(OHITOR RIOA 3.94116+05 HALt( CPt( 15 R11 CONTAItNEh7 AIR PARTICULATE 2.64544>03 6009 CPt( 16 R12 CNTAI)?&T GAS t)ONITN 3. 07Z5KN HAL)( CPN 17 R10B PU)NT VENT IODBK ttONITOR R109 3o73143+0l 6009 Cpt( 18 R13 AUX BLDG EQNBT AIR PARTIC)LATE 4.590!&01 6009 CPtt 19 R14 AUX BLDG EXHAUST 6AS tQIITN 4.49262+01 61 CPtt 20 R18 LIRJID NABE DISPOSAL NNITOR 1.64531+03 600D IPt( 21 R1.9 SIEAt( GENERATE BL019)M DRAIt( 4.52506KQ 6009 CPtt 22 R29 AREA 29~iAIH)(ENT HIBl RANGE 1.5081286 HALt) R/N fGO AREA 3DCGhcAIN)(ENT HI% RANK 1.5081280 HAUf R/N 24 R15 COt(OE)(SER Aln EZCTOR E(HAUST 3.31607M 6OOD O'll R12A5 CV VENT OW MS( MK GAS 7.5000fr07 GM9 XI/CC 26 R12A6 CV VENT CNN 6-AREA GAIN 7,0(e)OKS NRt( tS/tR 27 R12A7 CV VENT ON( 7&ID SSE GAS 9.99984M 6009 XI/CC 28 R12A9 CJ VENT CHAN 9+IGH MK $ 8 9.99987M Gm XI/CC 29 R14A5 PLANT VENT CHAN MO)f RANGE 85 I.S(e)1%7 6009 XI/CC 30 R14A7 FUST VENT CHAN 7&ID RANGE 9. 99984M 6009 Xl/CC 3.9997&0 6009 XI/CC S)S'LANT 31 R14A9 VENT CHS 9+IGH RANGE GAS 32 RM AIR EJECTOR CHAH MO)t RANGE GAS 9. (e007<7 6009 XI/CC R15A7 AIR E3ECTCR O(AN 7+ID RAN6E 6AS 9.99984M 6009 Xl/CC 34 RlSA9 AIR E3ECTOR G(AN MI RANGE 6AS 9.99987M GX9 Xl/CC 35 V3411C . STEA)( LINE hN A CLOSED 6009 36 Vt(SSVA HlN8ER OF S/6 A tSSV tP3 0. KM 4 fPEH 37 R31 AREA 31 STEAt( LINE A (8'It(6) 2.05I2 r02 6009 N/N 38 R3IRRQ S6A NOBLE GAS RELET RATE! IS)(AV .0000M0 6009 CI/SEC 39 41 

     '0 V3410C V)SB R32 STEAt( LINE ARV B NUtSER OF AREA 6/6 8 32 STEAtt LINE
                                        ~     GPR B (SPING)

CLOSED 2o 0512~ 0. 6009 Gm 6009 4 tFEN 

                                                                                       %IN 42      R33SQ      SGB NOBLE GAS RELEASE RATE.'$5t(AV                o(e000K)0   6009  CI/SEC 43      QlH        CV HYDROGEN    HKEHTRATIOH                                 ~0 6009  X 44 45 4&

TCN3 TCV07 TCV08 CV BASE)(E)ii mVEL &=T TBF CV !NTER%9IATE LVL 6FT ~ CV INTERt(EDIATE LVL 6FT TEt)P 48 t3 

                                                              $7 159.0 137.5 137.S 6009 6009 K6F 8)M KGF KGF 47      TCV09      CV INTERMEDIATE LVL      &.T TEMP 49                 ~ 137o5  6009  K6F 48      TCV10      CV  INIER%DIATE LVL bFT TBF 410                        137.5  6009  K6F 49      TCV17      CV PSQTING (i."JL aFT ~i~        417                   116.1  KM    K6F

Time: 11:15 Message: 31 GINNA STATION JUNE 11, 199? PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY Controller Notes:

1. The plant safety systems are re-aligned and operating in the recirculation mode.

Actions Expected:

1. Operations personnel are continuing the emergency procedures.

8-34

J(tf lli 1997 ll:15 R. E. GINA Sl?LLATQR PAIR 1 TRM 6RXP ASSIERBfT SU?(t(ARY 6RRP: EVENT1 WKGEiKl EPIP 1-5 PLANT STATUS POINT ID K="XIPTION VALlK E. U. At(TICIPA7Ei TRANSIE?(T tt/0 SCRAN N AT)(S 6009 REACTOR TRIP BREAKER STATUS Rr TRIPPED fut( 3 H31 SQRCE RA?(' DETECTOR H-31 5.36412+01 6009 CPS 4 H32 SRRCE NKZ lKTKTOR H-32 5.419&01 6009 CPS 5 N35 INIER?(EDIATE RASE KfECTOR H-35 1.05195-11 6009 M'tF 6 ta6 INIER?(EDIATE RANGE DETECTOR H-36 1.04713-11 6009 7 HP A ERNK HXLM PSFR .(X) 6009 X 8 PRCS REACTOR COOLANT SYSTE?( AVG PRESS 4. LAL)( PSIG 9, LPlR PRESRRIIER AVERAGE LEVEL .0 LE% X 10 FR(1A REACTOR CKUNT LOOP A AVG FLN .0 I%8 X ll FR(LB REACTOR COOLAt(T LOOP B AVG FL(M .0 MS X 12 RXT)6 RCPA BREAKER CAUSE Rr TRIP TRIPPED NJ?l 13 RrT17 RCPB BREAKER CAUSE Rr TRIP TRIPPED AU(tf lh TSUBTC INDE TC RKGOLED tNRBIN 116.7 8& DE6F 15 LSGA SIl1 GE?t A NNRN RA%K AVG LBB. 76.6 NR?f X 16 LSGB ST?( EH B HNiSN RAhac. AVG LPFL 56.3 6009 X 17 PSSA ST)f GEN A AV2%iE Pf(ESSNE 500. LAUI PSI6 18 PSGB STN GEN B AVERAGE PliESRJRE 532 LNN PSI6 19 GENBKR( GE%RATOR ON LM'REAKER 161372 TRIPPED ALRI( 20 GENBKR2 6E%RATOR OH LI% BRMR 9r1372 TRIPPY) ALR?f 21 BUS11A BUS 11A RiPPLY BREAKER TRIPPED AIR)f 22 BUS11B BUS 11B SL<P Y BREAKER TRIPPG) ALRtl (7/19/91) KL 

                                                   'OT 23 BUS12A             TERNIHATED ON PPCS                       NOT TRIP 24   BUS128      NOT TER <IhATED      ON PPZ (7/19/91)         NOT TRIP         KL 25    Bl lA12A    BUS  llA TC )X       TIE BRENER               NOT   TRIP       ALRI(

26 B11B 128 BUS 119 TO IZ TIE BRMR HOT TRIP ALR?( 27 PCV COHTAINEhs AVERAGE PRESRRE 3.41 HHRI( PSIG 28 LSNPA CONTAINEh7 ~~ A AKIN% LPcL 31.2  %% i 29 L0942E BPP B LFF' IIGKS (TRA!N A) HIGHER IHH9 30 L0943E RRF B Lou 8 IhQKS (TRAIN 9) HI6H2i IHHS 31 L09429 SUtP B LPiP 78 MP3 GRAIN A) HIER IHHP 32 L09439 QPP B LB'. 78 Ita(ES (TRAIN B) HIS?KF. IN(9 33 L0942C R.'P B LB% 113 IHDES(TRAIN A) HIGLER ALR)f 34 L0943C SU?P B L&= 113 ItG(ES(TRAIN B) HI&KB ALR)( 35 L0945 RIP B LEV= 180 ITS(TRAIN A) LSFR %00 36 L09439 SUIP B L&~ 180 ICHOR(TRAIN B) L04% '009 7 L0942A BPP B LBt 214 INES (TRAIN A) LNER Gm L0943A " RlP B LB= 214 MHES(TRAIN 8) LO(IER 6009 39 70409A RCLA HOT LEG TFJfHNTUfK X39o7 6009 KGF 40 T0410A RCLB HOT LEG TBFG4TURE 164.7 6009 KE 41 T0409B RCLA COLD 'c. TE?IPERATIBE 311.1 6009 KGF 42 T0410B RCLB CKB ". TEt(PERATNE 223' Gm DEGF 43 TAVBAMID RM TAVG:TKT/KOLD(tIDE RHG! Z5.4 Gm DE6F 44 TAVSB)(AD R(XJ TAVG f&KPii0t(IDE Mf 193' 6009 KGF REACTOR VE ~ AVERAK SLL ~I 45 LPd 64.3 LAL)f il.l INCOP;: 600* K6F 46 47 48 TCCORE FAU1FI(A FAD1FI(9 S/6 S/G B A TOTr TKf AUr AUX 

                                           ~m TC AVERAGE TEt(P FGWATP FLu FLO((

107.6 0. Qe 6009 6009 6P?f 6Ptf 49 BKMBI NTR AUIILIAPYFEBiNTH PU?)P A OH 6909 50 Q(h482 )Cia AUXILI<<.PY FEAAi~ PUhP 8 ON RX ma: KM a~ AUr Pil FQP STEAN ~=PLY VALVE A AUr FM POP S;dN BURLY VALVE B MS'LOD 6009

J!$ llew 1%7 11:15 R. E. 6IRQ 61~t':LR PAP 2 TRBS SRM'%I~V R~~Y 6R0: ~iI PR0ZSm: EP:.P 1-5 ~ STAra POINT Hi KMIPTION VALL~ SNL E. U. 53 FSIA SAFE IHMTMHL00P A AVS FUN 131. 6009 SPtl 54 FSIS cJJrY IN%V.I0N L00P 9 AVS FLN 159'009 F5 P2160 ScRVICE NTH PIPES A h 6 fHEB 87. 6009 PS16 P2161 ~)ICE NTui /MA C 4 SERVICE NAIA Pllo A Dl~ 86. 6009 Smi9 PSIG 57 QR041 58 NR042 SERVICE 1fATD PNP 9 SMi R 8(R043 SERVICE RATER PNP C 6009 60 8(R044 SERVICE NTER PllP 9 6009

JUt'le 1997 li:16 R. E. Glt5A SI QATAR TRM 6RRP ASSIMBfT SU))t(ARY GRQ)P: EVENT2 PROCEDNE! EPIP 1-5 PUST STATUS POINT ID DEmPTION QUAL E. U. I F0619 NlR5ENT CO(UNG UO'OTAL FL)t 3612 6009 Ptl 2 LSGT RERKLING NTR STORAGE TANK LVL 14.5 LNR)( 2 3 MS033Q15 33 FT IBAD. MIND SPEED: 1R AVG 7.0 61 l%% 4 ND033015 33FT LVL RIND DIRECTIW 15)( AVG 5. 600D K6. 5 MT033QIS 33 RST LEVEL TE)P. (15'VG) 64.8 Gm DE6F 6 l(T250Q15 250 RNT LEVEL 19P. (15H AV6) 64.3 6009 Km" 7 IST2Q15 250-33 FT LVL DELTA TBf 155 AVG -5 6009 EEGF 10 li 12 8 9 R01 R02 R05 NH R34 AREA AREA AREA AREA AREA 

                             ~I~TRG
                             ~AI RSN t1ENT RKL PIT 9-LET()Oe LINE t(ONITOR 34 - AUX BLDG CV SPRAY          PS&

8.81048M 1.141~ loKP&01 GOOD 1.6595()i06 HAU)

4. }9275KN HM HNR)(

H)S)( 

                                                                                       )S/N tS/N
                                                                                       )S/N tS/N
                                                                                       )S/N 13   R35              AREA  35~      SAt(PLE PA%K                1o09648+00    6009   )S/N 14   R10A             CMAINEN ImK NNITOR RIQA                    3.87368+05    HNJ    CP)(

15 Rll CONTAINE)(T AlR PARTIC(LATE 2.6001&03 GOOD CPt( 16 R12 CMAI)ST GAS NNITOR 3.00694M HAL)i CPt) 17 R108 )M(T VENT IODINE 5M'IOB 3.6517&OI GXD CPt( 18 R13 AUX BLDG EXHCST AIR PARTIQLATE 4.434M>01 6009 CP)( 19 R14 AUr BLDG EXHAUST GAS maITOR 4.61051+01 GXD .. CPtl 20 R18 LIRJID NSTE DISPOSAL lRHITN 1.68122+03 6009 CPt( 21'2 R19 STEAt( GE%RATOR BLO)i%W DRAIN 4.29659K@ 6009 CPt( R29 AREA PHXNTAINt)ENT HI6H RAHU 1.70191+03 HAL)( R/N 23 R30 AREA 3(HXMTAIST HI% RARE 1.70191+03 HAU( RIHR 24 R15 R12A5 R12Ab CV VENT CHAN CV VENT CSW 

                                      ~

CNOENKR AIR EJECTOR BHAUST, 6~ PJSK EN'V GAS 3.31607+02 7.$ iN&r07 Gm 6009

7. 0000(HN HNt( )S/N CPtl XI/CC R12A7 VENT CHAN 7+ID RANGE 6AS 9.99984M XIICC '009 R12A9 CV VEM')i'+!GHRAQK GAS 9.99987M 6009 XI/C" R14A5 PLANT VENT OSN FUR RANGE GAS le50001M 60(5 Xl/CC R14A7 PLANT VENT CNN 7&ID RANGE GAS 9.99984M 6009 Xl/CC R14A9 PLANT VENT QQN 9+IGH RANGE GAS 3.99971M 6009 Xl/CC R15A5 AIR EJECTOR CHAN M% RANGE 6AS 9,00007<7 6009 Xl/CC R15A7 AIR EJECTCR CHAN 7+ilD RANGE GAS 9.99984M GOM Xl/CC
                       ~

R15A9 AIR EJECTCR CHAN 9+I RANGE SS 9.99987M 6009 XI/CC V3411C STEAt( LINE ARV A CLOSED 6009 Vt)SSVA'31 OF 6/6 A t)SSV 0. 6009 0 OPEN AREA 31 STM LIK A (SPING) 2.051~ 6009 tS/N R31RRQ SGA NOBLE GAS RELME RATE:15))AV F 0000(H00 6009 Cl/SEC 39 V3410C STEA)( LINE ARV B CLOSED 6009 40 V)SB Nl(BER OF S/6 B tSSV I%EN 0. GM9 0 OPEN 41 R32 AREA 32 ST:At) UNE B (SPING) 2. 0512r02 6009 tSIN 42 R32RRQ SGB NOBLE E% RELE4E RATE) 15%V .00000%7 GOOD CI/SEC 43 CVH CV HYDROGEN mCENTRATm .0 GOOD X 44 TV@3 CV BASB&~ '~~ bFT TH'3 146.5 6009 DEGF 45 TCV07 CV INKRtKDIATE LVL 6FT.TEMP 47 134.5 6009 K6F 46 TCV08 CV INTER)(EDIAK 1.VL 6FT TE)(P 48 134.6 6009 K6F 47 TCV09 CV INTER))EDIATE LVL 6FT TE))P H 134.5 600D DEGF 48 TCV10 CV INER%DIATE LVL Kf TBF 010 134.6 6009 18K 49 TCV17 CV OPERATING LEVL 6FT TBF 017 IZ.b Gm DE6F

Time: 11:16 Message. 32 G IN NA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY Controller Notes: The "A" RHR pump shaft seal has failed creating approximately a 50 gpm leak into the auxiliary building sub-basement.

2. Plant vent monitors show rapid increases in radiation levels. A major release to the environment begins.
3. Release path: from containment through the "A" RHR pump failed seal out the plant vent.

Actions Expected: TSC and control room operators should try to locate the leak in the auxiliary building. 8-35

Time: 11:18 Message: 33 GINNA STATION JUNE 11, 1997 PLUIIE EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++ The "A" RHR pump trips. FOR CONTROLLER USE ONLY Controller Notes:

1. The "A" RHR pump trips out on overcurrent due to the failed seals.

Actions Expected:

1. TSC should be working on the leak in the auxiliary building.
2. Efforts should be underway to track the plume, terminate the release and implement/coordinate PARs.

8-36

'N }ls }997 }}:m R. E. GI'S SltLUTB PAa" } TRM GR(XP ASSIS)ST SUttt(ARY BRRF: EVENT} PROCEDURES EPIP }"5 PLANT STAT'JS POINT ID ~IPTION E. U. 1 All6 ANTICIPATED TRANSIENT tt/0 SCRAtt NO A%8 S009 2 RXT REACTOR TRIP BREAKER STATUS RX TRIPPED ALRtt 3 H31 SMCE RAh~ DETECTOR N-31 4.6%85+0} 6069 PS 4 H32 SM(CE RAh~ DETECTOR N-32 4.9034}+0} 6009 CPS 5 H35 INIER%DIATE RANK DETECTOR H-X 1.04713-1} 6009 A)P 6 H36 IMAM)IATE RANE KTETOR H-36 }.04713-1} GXS A)P 7 )P AVERAGE NUCLEAR R%R .Kr 6009 X 8 PRCS REACTOR CF~ SYSFN AVB PRESS 4. LAP. PSIB 9 LPIR PRESS}SI EER AVERAGE LEVEL .0 LENS X 10 FRCLA RECTOR CCOLNT LOOP A AVB FLR .0 Ihr6 11 FRCLB le.TOR ~~ LOOP B AVG FLSI .0 IN)0) X 12 RXT}6 RCPA BREAKER CAUSE RX TRIP TRIPPED ALRtt 13 RKT}7 RCPB BREAKER CAUSE RK TRIP TRiiPB ALRN 

 }4   TSUBTC      It(CORE TC KiCQOLED     NRBIN                  116.4     %04    DE%'

15 LS6A ST)( GEN A NARROtt RANK AVG LEVEL 76.~ 16 LSGB STt( KN B NK%)t RANGE AVG LEVEL 56.3 6009 17 PSGA STN 6EH A AVERA6E P(KSBJRE 490. LAL)I PSIB 18 PSBB STtt GEH B AVERAGE PPZ5SURE LMRN PSIG 

 }9   GENBKR}    GE)G(ATOR ON LINE BREAKER 161372         TRIPPED          ALRtI 20    GEHBKi2    GE)G(ATOR ON LINE      SKNK 9X}372       TRIPPEO          438 21    BUS11A     BUS   1}A SUPPLY BREAKER                 TRIPPED          ALRI(

22 BUS}}B BUS 1}B SL4'PLY BEAKER TRIPPED 'ALRt( BUS12A HOT TERt(IN'R ON PFCS (7/19/91) NOT TRIP DEL 24 B($ }29 NOT TER)(lhATK OH PPCS (7/19/91) HOT TRIP DEL 25 B1}A12A BUS 1}A TC 12A TIE BS(ER NOT TRIP ALRN 26 B}}B}28 BUS 11B TO 128 TIE BREAKER HOT TRIP ALRI( 27 PCV CONTAItÃE¹ AVERABc PRESS}FE 3.45 HHRt( PS16 28 LS(S CONTAlt(t(Eh'NP A AVERAE l8rB 31.2 HENS FKT 29 LN42E SU)P 8 LB~ 8 INDUS (TRAIN A) HI6HBt INHB 30 LN4X m B m=- 8 INCHES (TWIN 9) HIS&i INHS 3} L09429 RgP B LB~~ 78 IHCHES (TRAIN A) H16HER M{9 32 L0943D SUIP B LBr" 78 }NOES (TRAIN 9) HIER IHH9 33 L0942C SUtP B LEV" 113 INQES(TRAIN A) HIG)B3) ALRK 34 t.09430 SU)P 8 IZF 113 INDKi(TRAIN8) HIS)KR ALN 35 L0942B SUIP 8 LEV 180 INCHES(TRAIN A) LOUR 6009 36 L09438 RPP B LBr" 180 MHES(TRAIN B! UN& 6009 37 LN42A SQP B LPF'}4 MKS(TRAIN A) LSD %09 38 LN43A SUtP B LB'14 ICHES(TRAIN B) LSKR 6009 39 T0409A RCLA HOT LES TE)(PERAlUK 339. } 6009 lPF 40 T04}0A RC}3 Ni t=". TE)PERATURE 164.7 6009 EEL 41 T 04098 RCt/) COLD LES lBFBATlSK 3)4.7 6009 DEBF 42 T0410B RCLB COLD LB TE)PERATutE .1 6009 DEB 43 TAVBA)tID RCu) TAVB (TM/TCM t(IDE RNB) 32}.9 6009 KBF 44 TAVGBMID RCLB TAVG (MT/TC(u ttIDE RNB) 193.9 6009 OEGF 45 UtV 46 TCCORE 47 FAUXRIA REACTOR E}.l S/6 A I~ VEsML AVERAGE LEVEL TC Al'A%6K TOP TOTA'UX FEE)MATER FL(N 64.5 107.3 LALN X 600'. 6009 SEE Ptt 48 FAUXR(B S/6 B TOT@. AUX FEED)(ATER FLR 0. 8N9 GPN 49 BfR081 50 BKR082 5} V3505 t}TR AUI ILIA FEED)tATER mfi AUXILIARY FEED)(ATER N1. Rt PL&~ 'siN SUPP Y 

                                               ~

PUIP R B VALVE A ON ON CLO B a009 6009 QE V3504 AUX Rt PUt. STEAN StiPPLY VALVE B CUM) 6009

uh ll~ 1997 11:K R. E. GINA SINJLATR PA66 2 

                          >REND 6m ASSI>can'eeY 6RXPl EVENT1  'RXHNE: EPIP      1-5 PLANT STATUS POIHT ID              KSCRIPTISl               VAUK      KAL    E. U.

53 FSIA SAFETY INXCTIN LMP A AV6 FUN 95. 6009 6PN 54 FSIB SAUCY IN~IN L00P 8 AV6 FLN 115. 6X9 ERI 55 P2160 SERVICE NTER PNPS A 0 8 IKAKR 87. 6XD PS16 56 P2161 SERVICE MAT2'< POPS C 0 8 fKAKR ~ 86. 6009 PSI6 57 NR041 SERVICE NTER PIIP A 6X9 58 INR042 SERVICE MATER PNF 9 6009 59 INR043 SERVICE NTER RlP C 60M 60 NR044 SERVICE NATER PNP 9 6009

<wi i' ii)i illi4 R. E. BINiA 615iATOR TREND GRNP ASSIBN%NT BNQRY SR(hP: iCBi72 PR(KEDURE: EPIP 1-5 PLANT STARS POINT ID DESCRIPT I(N VAUK,QUAL E. 0, 1 FObl9 CQf NEHT CNI.IHB LON'OTAL FLN 3b12. Gm foal 2 LRMST RERKLIHB NATER STORAGE TAN LVL 14.4 LNRN x 3 l$033Q 15 33 FT.LEVEL N!ND SPEED: 1'VB 7.0 GOOD 1Rl 4 N9033Q 15 XFT LVL HIND DIRECTIN IR AVG 5. 600D KGo 5 M!0330 15 33 FMT LEVEL TBF. (15)I AV6) b4.8 6009 KBF b NT25OQ 15 250 FOOT LEVEL TBP. (1% AVG) b4+3 Gm 7 NDT201 5 250-33 FT LVL DELTA TBP 15)( AVB ~ 5 (m K9'BF, 8 R01 AREA f%MR(L RR5 9i33ZRr02 6009 IB/HR 2~APPKNT 1.70804+2 HAL)I 9 fO R05 11 R02 R09 AREA RKA ~7 PM PIT 3 AI2}O'-. tKtf N/tFi 

                                                                         ~fM?}04 ¹M IFJH!

f2 R34 f&~,3/ - P/X z JG CV 5=-">Y ili4b73/iO=. +-'J. L i/rFi 13 r35 1.09~ E29 ~/~~ 14 Pi(OA Za941 IHN I~Jt >>; II 

   ~ r      aoi t' ~

lb Pi12 '.07MQ$ I~3! (. ii 17 R)M 1.@5fQN 1=% PA i '7 IiO::I~WOi I~K V. II 

                                                                              ~U ~iAI      }lAQI Fi's R18               LIKED @5:= uiSPOm lD-.'Ii~w a>>>>kq ~%A Plh P i>>%hg TAA'iN i.O.":.4<7        IM    Mi
 ".:.. R19                                                           ".o 37 i44i0". ROD   C.-ii 22 R"9                      k"Z>> 2:   C:i""&T6:% V-                   i. i01 91+03 I Rl!      R/ià P1~                                                                70191+M            R/HR 24         Ri5                                                           3 MSIWL: H09 fllJ I+i>> QAl   C>>>>>>ii I At e  t 4A        7. N+F: Pg           XI/CC 2b         Ris.~~                                                        I  ~ 99994+03     I ~i  IPi/HR 27        R12A7                                                          9.99984M          KOG   XI/CC Zf Rii.ia                   CV '=l::I"."~I% i%8== GAS                    9.9998&V K~9 XI/C'"
~ IQ i'i as 4      AC                     ~q>>~ R~               Pjg     9.9897~ lAP. lEI/CC
                            "-'"= '=='i: QCH /HID R~WE &6 8.5998M) ted& KI/CC Ii rQ
%0       ~       4 RIB       ~2K 6- 8            w                  XI/CC
                            =::. E:-CTR CNM MGN PN& QS gi 0ÃQTMi GAD KI/CC 8:8 E3ETOR     i~    7+ID ".-JtF M 9.9?ic-'.M MD ~I%i/                      %P AiR EXCTR O(AH M'44K GAS
              ~  i' 9.99Fa7M 6009 giI/CC
           ~
            &4'>>i~ ~ 'r>>
                     ~      STM      LINE ARV A                         CLDSQ              KSQ I RGK     OF S/6 A lSSV    OPEN                           Oi   6009  9  O'B(

AKA 31 STEAN Llhc A (PING) 2.051526 60(m k8/}S 

                            ~

SGA MKE NS RELET RATE(15PAV .0005803 6009 CI/SE" 

~ '0     ~   >> ~~I STEW LINE NÃ B                              CLOSED             K09 OF S/6 B PSSV OPEN                             Oi    6009  9 fFEH AKA 32     HdN LINE B      (SPINB)          2.0512~            6XD t8/HR SBB H09LE GAS RELEAK         RiTEl 15m}V      .000004N         6009  CI/SEi" CV    HYXOBB( KCB(TRATI(="(                               .0 GOE
 ~  ~

i GV BASB&T LB'FT TBF 93 f41 o3 6009 KG'GF

5 ~yV".i7 CV INTER(EDIATE LVL bFT TPi 97 132.2 6009 TCVM CV IHTER%DIATE LVL bFT TBa'8 ggg
                            .-. It amIATE LVL bFT TBe W 47 48 TCVCR T4V10              "V IHTEBKMATE LVL        ~     TE)P 410 132.2 6009 K9'EF 132.2 KQ".

ICV17 CV OPERATING LEVL bFT 185'17 123i0 6009 Ece'

Time: 11:30 Message: 34 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++ The following alarms are received in the control room: L-9 (Auxiliary building sump high level} clearing and coming back intermittently FOR CONTROLLER USE ONLY Controller Notes: ~ y 1. The TSC should be concluding that the "A" RHR pump seal has failed.

2. The release will continue until 1245 hours.

Actions Expected:

1. The TSC and control room should be working on isolating the "A" RHR pump to terminate the offsite release.
2. Efforts should be under way to track the plume and implement/coordinate PARs.

8-37

ill i!i liil 11:31 R. Eo 61%A SINLAlrOR TREND GR(u'%16Nt(E)(T S)t(tfARY GROUP! EVENT1'R(KEM(E'PIP 1-5 PUNT STARS POIHT ID DESCRIPTIN VALlE (mAL E. U. 

   >ms               At(TICIPATED TRANSIENT      )t/0  SCRAt(  NO  ATi6         6009 2    RXT          REACTOR   TRIP BREAXER STATUS             RX TRIPPED       ALRN 3 N3l             SMKE RAhK      DETECTOR     H-3)          4.63979>>01        6009 4    N32          SSSCE RAte" KTECTOR N-32                  4.76979>>OI        Gm 5 H35             INTER)(EDIATE RANGE KTKTOR H-35           1.04713-11        60M 6    N36          !tll&KOIRT RA%iE KTKTOR H-36              1.04713-11        6009 7    NP           AVERAK ~~~           PSFR                             .00    6009 8    PRCS         fKACTOR    CCKNT     SYSTE)( AVG REALS                  4s   LAU!

9 LPIR PPESSURILER AVERRGE LB9. .0 LB% 10 FKLA REACTOR COO~ LSP A AVG FLOH ~ 0 INHD ll FRM RBCHR COOLANT Lm)P 8 AVG FUN .0 INHS 12 RXT16 RCPA BS(ER re% RX TRIP TP,IPPED ALR)( 13 RXT17 RCPB BS(ER CUE RX TRIP TRIPPED ALA 14 TSUBTC INCORE TC %KOOLED t(ARGIN 106.0 600>> KGF 15 LSGA STN GB( A NARRON %her AVG LPFL 76.2 Ht(R)( L 

 !6    LSGB         STN GEN   8 )LrrRRN RAh& AVG        LB%            56." Gm         X 17    PSGA         STt( 6EN A AVERAGE PRESS(SE                        482. LAL)) PSIG 18    PSGB         STN 6EN B AVERAGE      REST                        525. L)tRt( PSIG 19    GEt(Dr(R(    GEtERATOR Ok (.IHE BREA)(ER 161372         TRIPPED          ALN}

20 GEHBt(fQ GENERATOR OH LINE BREAKER 9X1372 TRIPPED ALRN

21. BUSllA BUS 11A SLP~i.Y BRENER TRIPPED ALR(

22 'BUS1!B BUS 119 SLPPLY BRENER TRIPPED ALRtl 23 BUS12A NOT TERt(INATB) ON PPCS (7/19/91) NOT TRIP DEL 24 BUS12& NOT TER)) lNATR OH PPCS 0/19/91) HOT TRIP DEL B!1A!2A BUS llA TG 12A TIE BRERr'(ER NOT TRIP ALRt( 26 B! 1B12B BUS 11B TO 129 TIE BRENER HOT TRIP - ALRN 27 PCV CONTAltl&T A ERA% PRESSURE 3.37 WR)( 28 LSD A CONTAI)t&T SNP A AVERAGE LEVEL 31.2 IKH6 29 L0942E RRP 8 L&M 8 ICHES (TRAIN A/ HIRER INHS 30 L0943E SSP B LSP 8 Ih [AS (TRAIN 9) HIGHER IQ(D 31 L09429 SUtP 8 LP/Ei. 78 INr~~ (TPAIN A) HI6HER INHD 32 L09439 SQP 8 LEFT 78 INCH% (TRAIN 8) HIGtKR INHD 33 L0942C Sr B L&EL 113 INDUS(TRAIN A) HIGHER ALRN 34 L0943C S(itP 8 LGr'EL 113 INCHES(TRAIN 8) HIER ALRN 35 L0942B SLOP 8 LEVEL 180 ItGKS(TRAIN A) LO))ER 6009 36 L09439 '7 SUtP 8 LPrP 180 INB(ES(TRAIN 8) LO)(ER - 6009 L0942A MP 8 L&Er 214 INES(TRAIN A) LO)(ER Gm 38 L0943A SUtP 8 LPiEL 214 ICOS(TRAIN 8) LO)(ER 6009 39 '0409A RCLA HOT LE6 TEt(PERAIUK 338.2 6009 40 T04!OA )KLB HOT LEG TENPERAII)RE 170.0 6009 41 T0409B RCLA Ou LEa TEH'ERAIU(E 295' 6009 42 TO4 109 RCLB COLD LG %5%NIUK 222.9 6009 43 TAVGA((fD RQA TAVS (TNT/TC(u )(IDE RNG) 316.7 GOM 44 TAVGBHID RCLB TAVG (TNT/TCQLD HIDE RNS) 1'96' 6009 45 LRV RMTOR VcSSK AURAL'EVEL 64.4 LALl( 46 TWICE El.l INCOFc TC AVERAGE TEt(P 117.8 600>> 47 FAUXF)(A S/6 A TDiAL AUX FROLICS FLO)( 0. 600D 48 FAUXF)8 S/6 8 TOTAL AUX FEEDi(ArcR FLD(( 0> 6009 49 S(ROBI t(TR AUXILIARY rrNTD PLD(P A ON Grr09 50 Bt(R082 t(TR AU1ILIARY FLOATER PUtF 8 ON F~39 AUX F)t PtNP STEAtt SUPPLY VALVE A CLOSED 600D AUX FM PQF STEAtt S( . LY VALVE 8 CLOSED GOOD

Jlh Ili 1997 11l31 R. E. GINA Slf%LATOR TRB5 6RRP @LIMEN RUSHY 6RmjP! EVEKTI PHOCHNRE: EPIP 1-5 PLAKT STATUS POIKT ID KSCRIPTIOK VAUK OLID E. U. 53 FSIA SAFETY IKXCTIOK UXP A AVG FLN 81. 6XD PN 54 FSIB SAFETY IKZCTIN LOOP 8 AV6 FLN 69K 6P11 55 P2160 SERVICE KAIER PRIES A 5 8 HEADER 87. 60M PSI6 56 P2161 SERVICE NTER REPS C 4 0 HEADER 86. 600D PSI6 57 NR041 SERVICE ltATER PQP A 600D 58 NR042 ScRVICE WATER POP B 600D 59 NR043 SGiVICE NTER PNP C 600D 60 NR044 SERVICE NIER PBP D 6m

JUN lie 1997 Ii".31 R. E. GIB(A SINILATOR TREND 6)m'KI6QBIT QNtQRY GROL4" EVENT2 PROCEMKl EPIP I< PLANT STATUS POINT ID KSCRIPTION E. U. F0619 CO)PONENT CKLIH6 LOOP TOTAL FU( 3610. GXO GPtt 2 LRIGT REFlKLING INTER STNAK TAN LVL 14.2 LNN X 3 MS033)15 33 FT LEVEL I)INO SPEED: 15)l AV6 7.0 6009 tRl 4 l(90330) 5 33FT LVL l)INO DIRECTIW 15)t AVG 5. GO% KG. 5 HT(Q3015 33 FOOT LEVEL TBF. (15)I AVG) 64o8 6009 KGF 6 HT250015 250 FOOT LEVEL TE)P. (15H AV6) 64.3 6009 KGF 7 ifOT2015 250-R FT LVL M.TA 7'5)1 AVG -.5 6009 DEGF 8 ROI PEA I~TROL RKN 9.44062M KOD t8/% 9 R02 AREA 2-CDtiTAMEN 1.69824+06 HM )8/HR 10 R05 AREA 5-SPE.Pi REL PIT 3.4474&+04 HAL)( )8/% ll R09 NEA 9~XN LINE t)MTOR 4,07380t04 HAL)f t8/% 12 R34 AREA 34 - AUr BLDG CV SPRA) m 3.56861M HM t8/% 13 R35- AREA X@PASS SA)IPLE PQG. 1.09648I00 6009 )8/% 14 R)OA CONTAIOZÃT IOOIK MITO)( RIOA 4. 11504M HALI. PN 15 Rl1 CONTAIH%hT AIR PARTIQI.ATE 2.62270KQ 6009 16 R12 COHTAIH53tT GAS t)ONITOR 3. 1260788 17 R10B PLANT VENT IODINE t)ONITOR RIOS 1.04864+07 HENS CP)I 18 R13 mr BLDG Drmr AIR PARTICuu)TE 1.(QSI4%7 HENS CPt( 19 R14 NN BLDG BHAUST 6AS N5ITN 9.78&47+06 HAL)l CPtf 20 R18 LIRJID HASE DISPOSAL lSNITOR 1.04864%7 HENS CP)I 21 R19 STEA)I GE%RAI% BLOI(90)t( DRAI)l 4.3714489 GXO CPN 22 R29 AREA 29~AIN))ENT HI6H RANGE io70I9IKQ HALN R/HR 23 R30 AREA 3lHZNTAIN)IEHT HIGH RANE 1.70191+03 HAL)I R/)8 24 26 R15 R12A5 R12A& CV VENT CHAN CV VENT CHAN 

                                    ~

CONDE)(SER AIR EJECT(R EXHAUST 6~ RANE 6AS GAt5A 3.06813M 7.~7 1.99994+(Q 6009 6009 CP)I XI/CC HAU( )8/HR 27 R12A7 CV VENT CHAH 7&ID RA%K GAS 9.99984M 6009 Xl/CC 28 R1249 CV VENT CPAH 9+IGH l%%E GAS 9o 99987M 6009 XI/CC 29 R14A5 PLANT UBil DNN LCii RANE GAS 9o 98974M HAL)I XI/CC 30 R)4A7 PLANT VENT CHAN 7+ID RA%iE GAS 8.5998MO HALN Xl/CC 31 R)4A9 PLANT VEHT CSN MIGH RANGE GAS 8.59985KO HN)( Xl/CC 32 R15A5 AIR EJECTOR DQH ~0M RANK GAS 9.(e007M 6009 XI/CC 33 R15A7 AIR EJECTOR CHAN 7<19 RANGE GAS 9.99984M 6m} X!/CC 34 R15A9 AIR EJECTCR CHAN MI RANGE GAS 9.99987M 6009 Xl/CC 35 V3411C STEAtl LINE ARV A CLOSED 6009 36 Vt)SSVA HU)(HER OF S/6 A t)SSV OPJt 0. 6009 4 OPEN 37 R31 AREA 31 STEA)I LINE A (SPING) 2.051~ 6009 t8/% 38 R31RRQ SGA NOBLE GAS REIStK RATE.'155IV .0000(H00 6009 CI/SEC 39 40 41 V3410C VBKVB R32 STEA)I LINE ARV B t NHER OF HOSEA S/6 8 t)SSV ~ 32 STc~ Lilac 8 (SPIHG) CLOSED 2.0518r02 0. 6009 GOM GOE 9 OPEH 

                                                                            )8/%

42 R32RRO NOBLE 6AS REIEASE, RATE) 155)V .00000)00 Gm CI/SK 43 CVH C/ HYD)tOKN CONCENTRATION .0 6009 X 44 TCV03 CV BASBBiT LEVEL'&FT TBP N3 136.6 6009 K6F 45 TCV07 CV INTEPt)EDIATE LVL M~ TBP 47 129.3 6009 KGF 46 TCeA) CV INIERt)EDIATE LVL &"T TPa N 129.3 6009 KGF 47 TCV09 CV INTERNEDIATE LVL &FT TBP 49 129.3 K09 K6F 48 TCVIO CV INTERtKO!ATE LVL &~i TBSP 410 129.3 6009 K6F 49 TCV}7 CV OPERATING LEVL &=T TE)tP 417 121.9 6009 OEGF

Time: 11:45 Message: 35 GINNA STATION JUNE 11, 1997 PLUIIE EXPOSURE EXERCISE MESSAGE FORII Ilessage for: Control Room Imessage: +++THIS IS A EXERCISE+++ The following alarms are received in the control room: L-9 (auxiliary building sump high level) clearing and coming back intermittently. FOR CONTROLLER USE ONLY Controller Notes:

1. The release will continue until 1245 hours.

Actions Expected:

1. The TSC and control room should be working on isolating the "A" RHR pump to terminate the off-site release.
2. Efforts should be underway to track the plume and implement/coordinate PARs.

8-38

JUN al~ 1997 11:45 R. E. GINA SI)%LATR PAGE 1 TPEHD 6RIP ASSIGN)(ENT tUt(A)8?Y GRIP: EVEHT1 PROCE(L4?E: EPIP 1-5 PLANT STATUS POIHT ID DEMIPTIOH VALIK I)AL E. U. 1 A96 AHTICIPATED TRANSIENT )t/0 SCRI) HO AT)(S 6009 2 RXT RBCTOR TRIP BREAXER STATUS RX TRIPPED ALR)( 3 H31 S(u?CE RA%iE DETECTOR H-31 4o 62379+DI 6009 CPS 4 H32 S(u?CE RANGE KKCTOR H-32 4.8361&01 6009 5 H35 INEHKOIATE RAN6E DETECTOR N-35 1.04713-11 6009 6 N36 INIERttEDIATE RAN6E DETECT% H-36 1.04232-11 6009 7 AK%iE HXX88 PO)(ER ;00 6009 X 8 PRCS REACTOR COOLANT SYSTEM AVG PRESS 4. LALN PSIG' 9 LPIR PRESSURIIER NH%K LEVEL .0 LE% 10 REACT(S C(XuNT LO(P A AVG FLW .0 1%9 X 11 FRCLB REACTOR CO(uNT LOOP B AVG-FLN .0 I%8 X 12 RXT16 RCPA BRENER CAUSE RX TRIP TRIPPED ALRN 13 RXT17 RCPB BRENER CAUSE RX TRIP TRIPPED ALRN TSUSTC IHCORE TC SUKOOLED MARGIN 106,7 600e KBF 15 LS6A STM GB( A NARRO)( RN6i AVG LEVEL ?5.9 H)tR)( X 16 LS68 STM GB( 8 NARRN RAhaE AVG i&EL 56.1 6009 X 17 PS6A STM 6EH A AVERAGE PRESS'?E 469. LALtt PSIG 18 PSGB STM GEH B AVERAGE PRESSURE 519'NRN PSIG 19 GENBKR( GENERATOR ON LINE BREAXB? 161372 TRIPPED ALRtt 20 GEMIR2 GBG?ATOR ON LINE BREAXER 9X1372 TRIPPED ALRt( 21 BUS114 BUS 11A S(PPLY BREA)(ER TRIPPED ALRtt 22 B?JS118 BUS 118 SUPPLY B)?EAt(ER TRIPPED ALRtl 23 BUS12A NJT TERttltlATED OH PPCS (7/19/91) HOT TRIP DEL 24 BUS128 HOT TERt(INATED OH PPCS (7/19/91) HOT TRIP lK 25 811A12A BUS liA TO 12A TIE BREAt(ER NT TRIP ALtw 26 Bi )8128 BUS 118 TO 128 TIE BREAKER NOT TRIP ALRN 27 PCV CONTAI))t(E)(T AVERAGE PRE=SUfK 3.21 %Rt( 28 LRIPA CONTAINBPi RN' AVERAGE LEVEL 31.2 HB(6 L09426 SLY 8 LEVEL 8 It(CHES (TRAIN A) HI6HER 'g9) 30 L0943E SU)P 8 LEVEL 8 IIGK5 (TRAIN 8) HI6HER INH9 1 L0942D SU?P B i&EL 78 INC)?ES (TRAIN A) HI6HER INHS 32 L0943D SU)P 8 LPFL 78 MHK (TRAIN 8) HIGHER IHH8 33 L0942C SU)P 8 LPFL 113 INCHES(TRAIN A) HIER ALRt} 34 L0943r HAPP 8 LEVB. 113 INCHES(TRAIH 8) HI6HEP. ALRt( 35 L09428 SQP 8 LB%, 180 IRONS(TRAIN A) LOWER 6009 36 L09438 SOP S LEVEL 180 IHC)?ES(TRAIN 8) LSER 6009 37 L0942A SU)P 8 LEVH. 214 INCHES(TRAIN A) L%ER 6009 38 L0943A SUtP 8 LEVP 214 ItGES(TRAIN 8) lSKR 6009 39 T0409A RQA HOT LEG TEMPERATURE Z6.7 6009 40 T0410A FQ9 HOT LPi TBPBIRfK 168.7 GUM 41 T04098 RKA COLD LB TE)PERATu?E 286.0 6009 42 T04108 RCLB COLD LEG TBPEFSillSE 222e4 6009 43 TAVGNIO NXA TAVG (THOT/TC(u HIDE t?NG) 311e3 6009 44 TAVGB)(ID RCLB TAVG lT?Tfii9 1(IDE RHS) 195.5 GOE 4c LRV PEA".TOR 'li&~ AVERA(= LEVEL 64.6 LAL)t 46 TCCORE Ei.l INCOFt'C ANTE TBP 115.5 600~ 47 S/6 A TOTR. AN FEEC4(ATB? FLN 0. (D09 FAUX'AUX 48 F)(9 S/6 8 TOTAL NR FERMATA? FLOt( 0. 6009 49 BKMI tm? AUXILIARYFEED)(ATB? PNP A DN 6009 50 BKR,' t(TR AUXILIARY FEEDKATER P(IP 8 ON Gm 51 V3505 AUX Rt PNP STEA)t SUPPLY VALVE A CLOSED Gm 52 V3504 AUX Rt PQP STEAt( SUPPLY VALVE 8 CLOSED 6009

Jl8 11. 1997 ll:45 R. E. GINA SI~TOR TREND GRM'%IGNBT RN58Y GRm 'PPf PRO&ORE'Pi 1- LAHT STAT'OIHT ID OEKR IPTIOH VALlK QUAL E. U. 53 FSIA SAFETY IHXCTIOH LSP A AV6 FLOW 80. 600S GPH 54 FSIB SAFETY IH3ECTIOH LOOP B AVG FLOW V7o 6000 GPtI 55 P2160 SBNICE MAicn PNPS A h B kGKR 87. 600D PSI6 56 P2161 SERVICE MATER PINPS C h D HEAI& 86. 6005 PSIG 57 NR041 SERVICE MATER PQIP A GOOD 58 BKR042 SERVICE MATH Pl&' 600O 59 NR043 SERVICE MATER PUIC' 600S 60 NR044 SERVICE MATER PNC' 6009

JN Il~ 1997 Il:46 R. E. SIC SIMATOR PAa" TREt(D GRM'SSIMcNT RkfQRY 9SP: EVEHT2 P)QZD(RE: EPIP 1-5 PUNT STATUS POINT IO KSCRIPT1% VALlK QNL E. U. 1 FOb19 CNPOIKHT CKLIIIUXP TOTN. FUI 35I2 6tNE Pll 2 LRMST REFILING )(ATER ST(SAGE TAN LVL 14.0 L)(RN 3 )tS033015 4 I(DOXM)5 33 FT LBH. ilIND SPiEB! 15t( /(VG 33FT LVL HIND DIRECTIQI 15N AVG '. 7.0 6009 64.8 Gm KG. tfH K6F 5 MT0339(5 33 FOOT LEVEL TBF. (15t( AV6) 6009 6 NT250QI5 250 FOOT LEVB. TE)P. (15tl AVG) 64.3 Gm K6F 7 MDT2015 ~33 FT LVL DELTA TEtP 15(( AVG -.5 GOOD KGF 8 R01 9 10 11 12 R02 R05 R09 R34 AREA ~ AREA HARKT)G. ROOt) AREA 2-CNTAIQ(ENT FUEL PIT AREA 9~DON Llt(E NNITOR AREA 34 - Ge 75992M 1.69824K@ 3. 4,07380I04 AU)t BLDG CV SPRAY P)NP 3.3m)8+04 6000 HAL)f 

                                                                &89'AL)( N/N HAL)(

HAL)( t8/N N/fR N/N t)RIN 13 R35 AREA ZrPASS SA)(PLE PA)KL 1.09648M Gm N/HR 14 RI0A CONTAIN'8(T IODINE t)QNITOR R10A '.11504M HALt( CP)) 15 R11 CO)(TRleE)(T AIR PARTICL1ATTE 2.49028+03 6009 CPt( 16 R12 CONTAINEHT 6AS t)ONITOR 3.04614+04 HALt( CPt) 17 R10B PLANT VENT IODINE tRNITOR RIOS lo0486IKP HB(6 Email 18 R13 AN BLDG EMUST AIR PARTIC(uTE le 02182M HENS Ptl 19 R14 AUI BLDG EXHAUST GAS NNIT(S 9.7BH7KS SUI PN 20 R18 LIRIID WASTE DlSPOSAL tGNITOR 1.02624Kl7 HENS CPtt 21 'R19 STEAt( GENERATN BLMON DRAI(( 4.37144+02 GOR CPt( 22 M NEA 29~AINt(ENT HI6H RAh6E 1.70191403 HALt( R/N 23 R30 AREA 3~AINEHT HIGH MEE 1.70191+03 HAUf R/HR 3.0M &K 

                                   ~

CONK)iSER AIR EJECTOR DHAUST 24 R15 GOOB CPt( R12A5 CV VENT CHAN &ON FALAK GAS 7.58%r07 6008 u:I/CC 2b R12Ah CV VENT CHAN GANA 1.99994rtL~ HALH )S/HR 27 R1287 CV VENT CHAN 7+ID RANK GAS 9.99984M GOOD KI/CC 28 29 30 R12A9 R14A5 R14A7 CV VENT PJNT VENT CHAN PLA(T VENT 

                                        ~ R~

CHAN MIGH IRK GAS MN 7+ID RANGE $ 5 S)S 9.99987M Gm UCI/CC 9.98974M HALH KI/CC 8.59985t00 HAL)( u:I/CC 31 R14A9 PLANT VENT OQN MIGH RANK 6AS 8.599(&N HMRh u:I/CC 32 R)5A5 'IR EJECTOR CHAN MO)t RA)iaE 6AS 9.00007M 6008 KI/CC 33 R15A7 AIR EJECT% CtQH 7+~ID RA%2 GAS 9.99984M GOOD KI/CC 34 R15A9 AIR EJECTOR ONN Ml RANGE GAS 9.99987M 60(m (X:I/CC V3411C . STEAN LINE ARV A CLOSED Gm 36 Vt)SSVA NU)SER OF S/6 A tSSV OPEN 0. 6000 4 OPEN 37 R31 AREA 31 STEW( LINE A (PING) 2.0512&42 Gm N/HR 38 R31RRO 56A NOBLE 6AS RELEASE RATE: 15)%V .0000(HN GO(m Cl/SEC V3410C STEAN LI% ARV 8 CLOSED 6009 40 41 42 44 VtSB IQ? R3280 CVH TCV03 NUtSER OF AREA SGB S/6 8 gRLE 6AS ~ t(SSV OP% 32 STEAt( LINE 8 (SPIN6) CV HYDROGEN CONCENTRATION CVSASaez)~ mrna@ RATE:15)SV 2.0513r02 Oo 

                                                              .0000(800 1288 GQM GOOD (m

Gm 4 OPEN 

                                                                               %/N Cl/SEC KGF 45   TCN7          CV  INl&t(EDIATELVL 6FT TE)(P 47                124.2 GOOD  KaF
+    TCV08         CV INTER))EDIATE LVL      m rm >8               124.2 GOOD  KGF CV INTERtK9IATE     ).VL'rT TBP    49          .124o2 Gm K6F TCVI0         CV INTERMEDIATE LVL bFT TE))P 410               124.2 GOOD  DEGF 49   TCVI7         CV  OPERATIC    Lm m        m   F17             119.5 mD    KGF

Time: 12:00 Message: 36 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY Controller Notes: Actions Expected:

1. The TSC should be working on the isolation of the "A" RHR pump to terminate the release.

8-39

JUNE 11, 1997 PLUME EXPOSURE EXERCISE Mini-Scenario Activity: isolation of the "A" RHR Pump 

    ~  ~        ~

Controller Notes:

1. The shaft seal has failed on the "A" RHR pump creating an approximately 50 gpm leak to the auxiliary building sump. The sump pumps are working normally.
2. The leak can be stopped by closing valves MOV-850A and MOV-704A as the discharge check valve 710A will hold. MOV-850A will not close therefore, MOV-851A will have to be closed.

Actions Expected:

1. The TSC will request the following valves be closed to isolate the "A" RHR pump:
         ~ MOV-704A (will close from the main control board)

MOV-851A (to close MOV-851A, an entry into the auxiliary will be required to perform either of the following: 

               ~ Close the breaker on MCC-C for MOV-851A, then electrically close MOV-851A from the main control board.
               ~ Send a team into the auxiliary building sub-basement to close MOV-850A.
2. If the TSC decides to'close MOV-850A and MOV-704A locally, the controllers may allow the valves to be closed to isolate the leak.

8-40

TREND GR(KP ASS I6NBA'(Nt!ARY HQP: EVEHTI P)GZDlK: EPIP I"5'PLA)(T STATUS POINT ID EESCRIPTI % E. U. 1 AlMS ANTICIPATED TRANSIENT K/0 SCSN HO AI)(S ROD 2 RKT REACTOR TRIP BREAKER STATUS RK TRIPPED ALR)! 3 H31 SMCE RlV6c DETECTOR H-31 4.36013+01 GOM CPS 4 H32 RMZ'RAhK DETECTOR H-32 4,85287+01 60M CPS 5 N35 MEBG)IATE RAN6E DETECTOR H-35 1.04713-11 6009 AIP 6 -N36 INIERtKOIATE RANK FRKIQR H-36 1.04232-11 GXD AtP 7 HP AVERAEE %LEAR PNER .00 600D X 8 PRCS REKTN COOLANT SYSIEN AVB PRESS 3. LAL)( PSIG 9 LPIR PRESSURIIER NERAK LEVEL .0 LENS X 10 FRCLA REACTOR CO(uNT Lmf A AVB FL(N .0 INHD X FRY REACTOR COOLANT LOOP B AV6 FLOK .0 IHHD X 12 RKTI6 RCPA BREAKER CAUSE Rr WP TRIPPED ALRH 13 RXT17 RCPB BREAKER CAUSE RK TRIP TRIPPEO ALfdl 14 TSUBTC INC0RE TC SUKOO(ED SRiltt 107.1 600e DE6F 15 LSBA ST)f GEH A NARROK PARK AVB LBB. 75.7 HKRN X 16 LSGB SI)! GB) B NNSN RQa~ AVB LEVEL 56.0 GOZ X 11 PSST ST)! GEH A AVERAGE PRHBSE 458. LAL".. PSIB 18 PSGB Slt( GEN 8 AVERAGE PFESRRE 514. lu PSIG 

}9   GEHSKR(     GBGNTN      ON  LIP PKAKER      161372   TRIPPED       AU8 20    GEM)KR2     GBKRATM ON LINE RKAKP 9K1372             TRIPPED       ALRt(

21 BUS11A BUS liA SLATY BREAKS TRIPPED ALR)( n BUS11B BUS 11B S(PPLY BREWER TRIPPED ALRtf 23 BUS 12A HOT T25INATED OH PPC-" (7/19/91) NOT TRIP M. 24 BUS129 NOT TER)!it(ATED N PPCS (7/19/91) NOT TRIP DEL 25 Bilhi2A ~ BUS 11A TO 12A TIE BREAKER NOT TRIP ALR)! 26 BIIBI28 BUS 119 TO 1% TLE BREAKER NOT RIP AL)5 27 PCV CONTAINtBiT AVERAGE PRiBRRE 3.07 SSH PSI6 28 LSNPA CONTAINEhT SUtP A AVERAiiE LB% 31.2 hE% FKT 29 L0942E BJtP B LBE. 8 IRCfES (TRAIN A) H16HER INHft L09'.' 9'P t&P I Q~~ AiQIt( 9) NS 30 31 L09429 9 SU)P B LEV '8 8 I!LOTS (TRAIN A) H16HER HIER I%9 32 L09439 PJP B LRK 78 MES (mAIN B) HISGI 'NHD 33 L0942C SU)P B LB'L 113 INCHES(TRAIN A) HIGHER AL)D! 34 L0943C SU)P 8 LBrK 113 INKS(mAIN 9) His'n 35 L09429 SU)P B LPF~ 180 IKHEi(TRAINA) LOKER 60M 36'7 L0943B. SU)P B L&cL 180 ItQKS(TRAIN B) LOKER %09 LB'K 214 INF~(TRAIN A) LQFR 38 L0942A L0943A S(lP SUtP B B LPiP 214 INPB(TRAIN B) LOKER 'OE 6009 39 T0409A RCLA HOT LEB TE)PERATLK 335.3 6009 KP 40 T0410A RCLB tK)T LG TE)PERAPZK 167.8 Gm Ka= 41 T04099 RCLA CM LEG TE)PERA1lRi 276.9 6009 KGF 42 T0410B RCLB C(u LEG TE)!PEPWRE 221.9 6009 KGF 43 TAVSAKID RCLA TAVE (T)K)T/TCOLD KIBE RNE) 306' 600D DE6F 44 TAVGMD RCLS TAVE (TNT/TED HIDE R%) 194.9 6009 Ka. 45 LRV REACTOR VEHiL AVERAGE LEVEL 64.4 uu X 46 TETE Ei.l ltd% TC AFcRAK TE)P 114.3 600~ IEiF 47 FAUXFKA S/6 A TOTAL AUX FKuNIER FLN 0. EOOD 48 FAUXFKD S/6 B Tma. mK FEEDKAIER FLD)( 0. 6009 GPt( 49 BKR081 t(TR AUXILIARYFEEDKATER PBP A ON BOM 50 RRÃl2 AUX FM PU)P mW ~'t tnR AUXILIARYFEEOKAre PU)P 9 VALVE A ON CLOSED 6009 GOM AUX FK PNP SlEAtt S(iPPLY VALVE B CLOSED 600 D

ROr~: EVENT1 PROCEOUPE: EPIP 1-5 PLNT STATLiS PQIHT 19 fcSCRIFTION VAUE OVAL E. U. 53 FSIA SAFETY INECTIN L09' AV6 FLOM 80. 6009 (PAL 54 FSIB SAFETY INK%IN LOOP B AV6 FLON 97. 6009 6Ptl 55 P2160 SERVICE MATER RKS A fr B IGfiER 87; 6009 PSI6 56 P2161 SERVICE MATER PNPS C h D HEAOER 86. 6009 PSIG 57 RR041 SERVICE MATER PNP A 60M 58 INR042 SERVICE MATER PUFP B 6009 59 BKROQ SERVICE MATER PQP C 6009 60 BKR044 SERVICE MATiR PNF 9 6009

TREND 6RQF ASSIQtKNT 8PNARY Gtm'l POINT ID EVENT2 PRIKHX)RE: EPIP 1-5 PLA)IT STATUS ISAL 

                                                                            ~o
                                                                                  '. U.

1 F0&19 CQPQGtT CSX.ING LOOP TOTAL FL)t 3610. 6009 GP)I 2 LR)tST REFlKLI% NATBI STOQkK TAN LVL 13.8 L)IWi X 3 ttS033015 33 FT LEVEL RIND SPEED: 15tf NB 7.0 6009 IRi tt90XR!5 33FT LVL ttINO DIRECTION 15tt ura 5. GOOD KG. 5 NTOXMl5 33 Fm)T LEVEL TBfo (15)t AVB) 64.8 6009 EEP 6 KP50Q!5 250 FOOT LEVE) TBF. 115)I AVB) 64.3 6009 Ka= 7 taT2I)!5 250-33 FT LVL DELTA TE5'5N AVG -.5 GOR KGF 8 R01 AREA 1~784 ROOtl 9.33~ 6009 N/fiTi 9 R02 AREA 2-COhTAINtIBIT 1.70804%6  %/% 10 R05 AREA 5-9'ENT FiLL PIT 3.54812+M HALtl N/HR 11 R09 AREA 'HZLDON LINE NNITOR 4. 16869K@ HAL)l NI)% 12 R34 AREA 34 - AUX )LD- CV SPRAT Pe@ 3. 65173KN HAU! N/hn 13 R35 AREA ZrPASS SA)IFLE PAL 1.09648M 6009 N/HR 14 R10A CONTAltMiT IODIHc t&ITR R10A 3. 9411&H5 HALtl CPtt 15 Rll CINTAIM'8F AIR PA)iTIQLATE 2.64~A4KG 6009 CP)l 16 R12 CONTAIN&: RS t)ONITOR 3.07~ VAUI CP)I 17 R109 PLANT VENT IK)1% tetITO)i R109 1.035!4+07 HBS CP)I 18 R13 AUX ILK EXHAUST AIR PARTI&ATE 1.02182+07 tKN6 CPtl 1'9 R14 AUX DLDB EXHAUST 6AS NNITiR 9.99992+06 HAUl CPN 20 R!8 LIQ)ID ttASic DISFiSN. tGlITR 1.02&24+07 HENii CPN 21 R!9 STEAtt GEN2!ATOR t)L9$0)"t DRAl)i 4.52506+02 6009 CPN 22'29 AREA 2HJRTAIN)KNT HIS)i RANGE 1.70191+03 HAiit R/Kit 23 R30 AREA 3DCBITAIQBtT HIGH RANGE ie7019WQ HAUI R/HR 

                                  ~

24 R15 CONOBKER AIR E3EiiK 3.31607+02 6009 CPA Kl/K OH'5 R!2A5 CV VENi CHAN MO)t RAM 6AS 7.5N@r07 K09 2& R!2A& CV VBPi CHAN 6AtfQ 1.99994403 HALN tB/HR 27 R12A7 CV VBPi CNtt 7%.'9 RAtiaE BAS 9.99984M KR KI/CC "8 R12A9 CV VBi7 CHAN ~HIGH RA'W 64S 9.9%a/M XI/CC 29 R!4A5 FLNT VENT OQtt 5 Z4 RA)i% BAS 9. 98974<3 HO~it Xl/CC 30 R!4A7 PuNT VB)T i'u 7 .t;9 %%i GAS 8.599/&% HviPi Kl/CC 31 R)4A9 tuNT VBI) DW 9+IGH RANGE EAS 8.5998&IO H)IRN XI/C" 32 Rl ~5 AIR EFZTR M% ~~JN RA)W GA"" 9.00007<7 6009 Xl!C" 33 R!5A7 AIR EJECTOR CHAN 7+ID PuK GAS Gm XI/DC 34 R1599 AIR EJKTR QQN MI PARE GAS 9o 99987M 6009 KI/i.C 35 V341!C STEAtt LM ARV A CLOSED Gm 36 Vl6SVA NllSER OF S/6 A tt"" V FB) 0. EOG 0 (Ml 37 R31 AREA 3! STEAtt LIK A (SPING) 2.0512r02 6009 N/HP. 38 R3lRR0 SBA NODLE 6AS RELEASE RATE;i5FAY .00MOI00 6009 CI/SEC

39. V3410C STEA)l LltiE AN D CLOSED GOR 40 Vt~ 8%KB OF S/6 B )SSV OFB) 0. 6009 I OPEN 41 R32 NEA 32 67M LlhE 9 ESP!NB) 2.0512~ Gm tSI}R 42 R3MO SGB tZKE GAS ~~~ RATEliPAV .000NHN BOIS CII6 i.

43 CVH CV NDRi~ COMENT)47 ION .0 Gm Z 44 TCN3 CV BASE)'BIT lg/EL &FT TBP 4 122o2 Kuu Ic.'Gt: 45 TCV07 CV IN'."ED!ATE LVL 6FT TBP f7 119.9 6X2 DEGF 46 TCI'08 CV INTER')IATE LVL &FT TBP 48 119.9 6009 DEB): 47 TCV09 CV INTERt)EDIATE LVL HAFT TB)P H 119e9 6009 KBF 48 TCV!0 CV ItAERtKOIATE LVL 6FT TBIP l10 119.9 Gm KGF TCV!7 CV OPERATINB i~ &FT TBlP 40 117o7 KOO KGF

Time: 12:15 Message: 37 GIN NA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++ The following alarms are received in the control room: L-9 (auxiliary building sump high level) clearing and coming back in intermittently FOR CONTROLLER USE ONLY ontroller Notes:

1. The isolation can take place anytime after 12:15. The release above technical specifications will continue until 12:45.

Actions Expected:

1. The TSC and the control room should be working on isolating the "A" RHR pump to terminate the offsite release.
2. Efforts should be underway to track the plume and implement/coordinate PARs.

TtcND GRmP ASSIMBIT SNQRY GRXP: EiGITI MnZXrK! EPIP 1-5 PLAIIT STATUS POIHT ID DESCRIPTION QUAL E. U. 1 ATNS AMTICIPATED TRAt6IEHT N/0 SCIMII NO AIMS 6009 2 RXT RFACTN TRIF BREAI(ER STATUS RX TRIPPED ALi5 3 N31 SMICE RANac KIECTOR N-31 4.37521%1 K09 CPS 4 N32 SRKE RIVIG= KIKTOR N-32 4.330!I+01 6009 PS 5 N35 INTERtIEDIATE RA)& OETECTOP. N-X 1.0422-11 6009 kF 6 H36 IHIP')IATE RPNK DEeD~i N-36 1.0422-11 6009 AtP 7 tP AVERAK MLS?( PAP. .(0 6009 X 8 PRCS REACTOR COOLNT SYSTP. AVC PRE% 3t LALII PSIG LPIR PRESSUR IIV AVES% ,0 LM X RPM COP W'lP.' ,0 IISB LPF'EACTOP. 10 AVG FLON X 11 FREB REACTOR COOLPt(T LK~ 8 AV6 FLQ .0 1%8 X 12 RXT16 RCPA B~~'ER CQJK RI TRIP TRIPPED ALRL 13 RXT17 RCPS Saaee CAUSE RX TRIP TRIPPED AL&i 14 TRSTC INCORE TC SLKOOLB IIAR"=IN 108.5 KO< Ka." 15 LS6A ST)I GEN A tQi80'A RA%K AVG LEvEL 75i4 Se5 X 16 LSGB STN GEN 8 NARRPA RAtrE AVG LEVB. 55.8 6000 X 17 

!8 19 PS6A PSES KIRI ST)I GEM A Al%RAGE FESSURE STtl GEH B AVERAGE PF GEKRATOR ON LINE SPEAKER 161372
                                                 ~                 TRIPPED 448.

508. LALII PSIG LPJI PSIG ALRtl 20 GBIBI(R2 EBGQTOR ON LINE EWART 9X1372 TRIPPED ALRtl 21 BUS11A BUS 11A SUPPLY BPEA)IER TRIPPED ALRII 22 BUS119 BUS 119 SLaPLY BRENER TRIPPED ALRII BUS 12A NOT TEBIIIIAYHlON FFCS <7/19/91) NOi TIIIP KL 24 BUS 128 NOT TEPuGIIATB (Pi PM (7/19/91) hOT TRIP 911A12A BUS 11A TC I"." TIE PZ4(ER IIOT TRIP P?9)I 26 811B129 BUS 119 TO IB TIE P~ER tIO'PIP 27 PCV COMTAItF&i A'iSRK PRE SUPa 2.95 HNII PSI6 LRPPA CONTAI.'iiIT FJP A AVENGE LEVEL 31.2 )&6 FEET 29 LA942E 8& B LB'. 8 INCHES (TRAIN A) HIEHER I)(LIB 30 L0943E SSt 8 LPP 8 INCHES (TRA)H Il) HIGHER IN% 31 L0942D QlP B LBB. 78 IhCI~ (TRAIH A) HIGHER IHHB 2 L0943D SN 8 Lskvm 78 itVKS (TRAIN B) HIGHER INHB 33 L09426 SUtf 8 LEV 1.'3 IhQP(TRAIN A) HI6HER ALRII 34 L09436 Sly 9 LEv"'!3 'NCI:S(TRAIN B) HI6HER CRll

5 L0o429 R?(P 8 LPF'BO Ih~S(TPAIN A) LSD 0~0 L09439 MP B LPP 180 IRONS(TRAIN B) LRER 6%9 L&42A BPP B LEVR. 214 INCHES(TRAIN A) LNER GOOD L0943A SUtF 8 LBiEL 214 INCHES(TRAIN B) LSKR GOOD 39 T0409A RCUI HOT LEG TEIIPERA1UK H4.2 889 K6F 40 T0410A RCLB fiOT LEa iBFiRAllSE 166.9 6009 K6F 41 T04099 FBI OLD 'a YPFERAIlRE 267.5 GOOD DEGF 42 T0410B RCLB CM) LE6 TBRMTlRE 221.6 GOM K6F 43 'TAIGAMID RCLA TAVG (Ti4FifiiD HIDE %u) 300.9 6009 K6F 44 TAVGPAID RCLB TAVG (TNT/TSD NIK RNE) 194.2 %09 KGF

$5 LRV RECTOR VE~ A'~t.= Lp/EL 64.b LM X tb TQXK E1.1 INCORE TC AYERAK lENP 112.8 600~ K6F'ml '7 FAL%N S/6 A TOTPL AUr FEECNATER FLm Oi Pll FNJXFNB S/6 B TOTAL AN FEB@7r3 FL(N 0. 6009 S'il NR081 tITR AUIILIARYFEEDHA'iiR PNP A GOOD 50 BXR082 tITR AUXILIARYFEEDNATD PHF 9 6009 V3505 AUX FN PUtF HGN SUPPLY VALVE A 6609 AN Rt PINP SIEAtl RFPlY VALK B 6009

TREND GRIP AKI6M%ÃT RltNRY GROUP: EVEHTI PRXEMtE: EPIP 1-5 PLANT STATUS POINT ID DSCRIPTIOH QNL E. U. 53 FSIA SAFETY IH.:"TIDE LOOP A AVG FLOH 80. Gm Ptf 54 FSIB BAFFY IHXCTIOH LOOP B AV6 FLOH 97. 6009 6PH 55 P2160 SmICE SV TER PUMPS A a 8 HEADER 87. Sm PSIG 56 P2161 ICE HRtm PIPPS C 6 D IKAEER 86. 6008 PSIG 57 INR041 SERVICE HAT& PIIP A Sm 58 NR042 SEINICE iNTP Pl. B 6m 59 BY.R043 SERVICE HATER PILAF C Gm 60 BKR044 ~ICE VATP PNP D 600D

GROL+l ERP2 PRO"EP%: EPIP ]-5 KAkT STAT! 6 POINT ID DEKRIPTIOlt E. U. l F0519 COtR5EhT CM'NG LRP TOTA'!.M 3612, 6"0D GPN 2 LR}61 REFUEL}NG N/icR STORAGE TA4 LVL 13,5 LNdt X 3 NS033)}5 33 FT LBcL liIND SrM.' ( AVG 7.0 GXD O'H NDS330} XFT LVL l(IQ DIRECTIN 19l AVS 50 SO(}D KEG. 5 MTRM)l5 33 FKT LVa. TE)F. (15tl AVG) 64i8 GOOD K~ 6 lid%!5 250 FOOT L}i&TB.. (}5tl AVG) 64.3 GOOD 7 NDCQ}5 250-Zi F i L'F DELTA TBP }Ã AVG -5 GOP}ii +i~ 8 RO} AREA }~tTRCL'DOt( 9.332~2 ciir!D t8/HR 9 RO2 AREA 2-CONTA}O&T 1.70804+0o CQ tR/HR 

}O   RS5         AREA   5-KB'UEL FI                          3. 548}2KR l(AfJI t8/HR 11   R07         AREA   9-~~i 'K            K!l.'Pm          4. }6869M HALll t8(HR 12   R34         NEA 34      "CP. BLDG  CV PRAY PS& 3.46737+04          NLtt t8!HR 13   RX          AREA     . PPSS   N~'e    P                1.09648+00    KOD tR!HP a4   R}OA        COt(TA}~: }OBIS t(ONITOR           R10A     3.94}}6+05 15   R}1         CONTAI:!E)T AIR PARTIC(J ATiE             2.64544M      GO(}D            PN 15   R}2         CONTAIN(&!       GAS  t(NITS                3. 072558M    iVCP.            CPtl 17   R'0"             T  '~i,i:Z.)Z t-.';.'!-;W R}OS         1.03514+07    HE)~~            Bl
}8 R}3           AUI 8 IH"'ST AIR l"SHTICK.ATE             1.02}82+07                     R
~

9 R14 AU> Bi V- E."~. GAS mITOR 9.99992+05 20 P.}8 LIQJID NA=:E DISCS'. tG(ITOR }.02624%7 CPtt 2}. R}9 STEA(( Ktc+TOR ELOaMQ( DRAIN 4.37%%32 Gm Pll /2 R29 AREA 29-RNiAIt(t}ENT HI% RANGE }e 70}9}+03 . R/HR 

 )3  R30         AREA 3v-QÃTAINENT HIGH RAhac
                                                                           )(ALt('.70}9}+03 HAU1             R/HR A4

+C Ab J R}5 R}34~ R}BA6 CV }icNT CHA)i CV VENT 

                                    ~

CMee=ER AIR EJECTOR DNlST GN 6-AU GNA RAtiGE 6AS

3. 068}3K)2 7.500OM7 1.99994+03 GOOD HAL)t Pf t8/N s.i

".8 R}2A7 CV ~ lw'll. RNK GAS 

                                                             ""..99>QW FAD KI/CC R12A9       CV VBPi C}(A)i 9+168                                      iXD KI/CC 29    R}4A5       PLANT i/EMI     Cf& 5 N RANK GAS            9.98974M                       }t I/CC 30   R}4A7       PLANT VENT      MM 7+ID NNK GAS             8.5998580                      U:I/CC 31    R14A9       P~      'r'Et(1 CS}N  Mal RANK        GAS   8.5998&00                      XI/K R}5A5       AIR EJccT!< MW MSt RANK 6AS                 9.00007<7                      )JIIK R}SA7       AIR EFCTOR i.i(AN 7+ID RAt(GE GAS           9.99964M                       KI/CC g'1~49      AIR EZcTi? OW 9~ RA)(GE 6 S                 9.99987M                       KI/O" V341}C      SIGN LitK ARV A                            CLOSED VstA'31 NUt(DER DF S/6 A tKV OPJl                            0.                    4 OPEN 37                AREA 31 STEA)( LILZ A (SPING)              2. 05}2&02                      t8/%

38 R3}RRQ S6A NOBLE 6AS RELY RATE:}MV . 0000(H00 CIISEC 39 V34}OC STEAtt LINE ARV B CLOSED 40 VNKR NY~ GF S/6 B ts OPEN Lit!" B (SPING)

0. 0 OPEN 41 R32 AREA 32 ST AN 2.05}2lr02 t8/HR 42 R3'+SN SGB NOBLE 6AS RELET RATE'}5)SV .00000t00 Cl/SEC 43 CVH CV HYDROGEN COtiCENTRATION .0 X 44 TC'i}~i3 CV BASMhT t VEL 5FT PJP 43 }}5e5 DEGF 45 TCPv7 CV IVt~IATELV'P. TEt(P 47 }}5e8 KF 46 TCVO8 CV IHlPPBI."TEc LV'FT;-P H 115.9 REEF 47 TCVO9 CV INTERt(EDIATE LVL 6FT TBF 49 115.8 KGF 48 TCV}O CV INTERMEDIATE LVL Wi TBE C}G 115.9 I}EGF 49 TCV17 CV (Rl ATItPa LEVL br'cCP 4}7 }}bo2 DEGF

TllTle: 12:30 Message: 38 GINNA STATION JUNE 11, 1997 PLUIIE EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++ The following alarms are received in the control room: L-9 (auxiliary building sump high level) clearing and coming back in intermittently The "A" RHR pump is isolated with the closing of MOV-704A and either MOV-850A or MOV-851A. This leak into the auxiliary building is isolated. FOR CONTROLLER USE ONLY Controller Notes: The release above technical specifications will continue until 12:45.

2. For scenario purposes, the leak will be considered isolated at this time if not previously isolated.
3. The leak in the auxilia buildin must be considered isolated at 1230 hours whether accom lished b la ers or not. The remainder of the scenario assumes isolation at 1230.

Actions Expected: The TSC and the control room should be working on isolating the "A" RHR pump to terminate the offsite release.

2. Efforts should be underway to track the plume and implement/coordinate PARs.
3. MOV-850A or MOV-851 A and MOV-704A should be closed at this time.

8-42

TREND Gfm'KI68&T BPSNY 6!QP: EVENT1 PRXQV?E! EFiP 1-5 F BAT STAT)S FOINT ID DEKPIPTION c, U, I ATLS ANTIC!PA'))D TRANSIENT H/0 SC!?)))I NQ'TI6 6998 2 RXT REACTOR TRIP BREAJ(ER STATUS RX TRIPPED ALcv) 3 N31 SM?CE RANK DETECTCR N-31 4.2707(H01 GOOE CFS 4 N32 SNRK RANK KfECTCR 4.241'! 6998 5 N35 RANK KTZTQR H-K 1.0422-11 H-3'NERtG)IATE 6009 Att." 6 N36 INTcCL'G)IRTc f?ANK MOTOR H-36 1.03P3-1} NZ Sir 7 NP AVERAGE NL~LEAR R%ER ~ OM GOOD 8 PRCi RGCTOR CXLANT SYSTctt AVG PRESS 3. PSIG LPIR PRE- HIER A/cC?AK LcV>>< ~ <J I NS X 10 FRCLA REACTOR CCOLNIT LOP A AVG FLC~ ~ 0 X li FRCcB REACTOP< CCOLNT LO<)F 8 AVG FLQ( .0 IQB 12 RXT16 RCPA BREA)(ER CA)JSE RX TRiP TP,!PPED 13 RXT17 RCPB BREAXcR GRK RX TRIP TRIPPED ALR)', P4 14 TBSTC INCORE TC RKOOL)'(ARBIi4 108.8 cOO4 15 LSGA ST)I BI A NA)?RCI( ROAN AVG Zv~ 75< 3 HI)r)< X ib LSaB STtt GEN B SR~a)t RANK AVS LE(K 55.8 GOOD 17 PS% ST)t E< A 45%'2 Pr;cSSZ 44". I PS!6 18 PS% STN & B AVE K%4?E LAL)t FS:.6 A'< 19 SE)NRl GEtERA'K CN LINE &FMlER !6!372 TR!PPED 20 SENB)(82 GENITOR )ON Lit(E BF~ER 9X} TR! PEED ALB! A~' r'US 21 BUSIIA 1!A SLR Y BFcA)(ER TRIPPED 

  .22  BUS!!B            f)US 118 SLPPLY Bf)EAXER                                   TR!PPED              'n)  PP.

23 BUS12A t)T)T TERIIhATK Ot! rFCS (7/!9/9!) NOT TRIP DEL 24 BUS!28 tiOT TBBIt<iAFO ON P. ~s (7/19/91! t(OT TRIP <:>> 25 Bl !A'12A BUS 1!A TO!2A TiE BREiVcER t(OT TRIP 26 EI!B!28 &US 1!B TO 128 TIE ONER TRIP 

                                                                                                    '(QT Qs  27  PVV               Cat(TAI)m)T e'cRA."= PPW~                                       . 2.91           $ <i       PSi6 28  MRNA              CG!iTAIkiF'<'< =) ~<<P A    AV~                  LE'F~                31.2        I)  V.
   "9 L09428            SUtF 8 Lc"v~ 6 I)Fr:-6 (TRA!t"8)                            HISHEPi               it<))=

30 L0o438 SL& 8 LE<~ S IhCI 6 (TRA!N 8) HI~ ~ <pJ Q 31 L09428 RtP 8 LR) 78 Mk c tTRAIN A) HIGIKR 14<<) 32 L0943D S<9P B iZ<~i 78 INCP<~ (TRAIN 8) HI()HER It(h:" 

       ~4
         <<Q ~ <<
              '<sv      9& F <~~v=         1'.3 ILQKSi enA'N A)                     HI~     ~             )<'<<i 34  L0943"           SU<< 8 LEV        '13     Itr~~iTRAIN B)                     NIBS                  n'cl 35  L094      )'6 SU)F 8 Lc'r 180 ItGB(TRAI<4 4)                             LO)(ER                 6908 L09:;8           RRF'       LP-     180 IhK(TRAIN B.:                       LOP?                      i c<Mi J)'38 37 L094>             HK B LEE 214 It(CHES(TRAItt A)                             LSD 38  L09<3"           R& B       'B~     214 IHDES(TRAIN 8)                      LOI)ER                 SOOE 39  T04094           RM HOT Lc6 E)(PE).?AWE                                            333.6           GOOD       KSF 40  T04!OA           RCLB HOT LcG TBFERAT).~                                           166.5           GOOD       Kar 41  T(M09P           V~A CRI)      LEG    TBPEATL%                                     263.3           GOOD       K%'S 42  T04!OB           RCL)) CP2     LES    TBPPS=c                                           1.4                8 43  TAVZ4ID )?C'A             TAVG  (T%T/TCCA        WIDE             RM)              BBi             6998       DcM 44  TArm!D           RCL~ TAVG      emnCmr           HIDE             m                193.9           GOOD       DEGF 45  LP.'.<           %%.:OR<     lH =: A)<~9~ Hr'E)                                       64.7         LAL)I      7.

46 T~ =1.1 I)CSE TC AVc)!<'<cc )ENP 1!2<1 M~ OEGF 47 FPJÃF)IA S/6 A TOTS. AUX FE~<"7B FLOI( 0. KH a.N 48 Fs'.UXFh5 S/6 B TOTC. AJX F~lB F'ZA 0. c 'EB PFl 49 yaw ) .".TR 4UÃILIA)?Y FEW:-. PH,- A OM K3 50 P);Rye~ ti>n AUXILIARYFEEDVQT<r". PLt<<': ,r4 vi )mr<< 

       << dgJ           QX     ~'~~~ BG8          ~c<VFLY              VA'E A      CASED AUX    Fw'<Jt     S)cA)I  S'=~'.-'.LVc 8                       'KO

T&3 6ROUP AKI6Q&7 BINARY SRQUP: E~e...1 PrJKHMR l r~IP .'-5 FLANT STATOS POINT IO C~~I PTIQN VALLEY 05'> E. U. FSIA ~i'N.=STION LOOP A AVS FLfh 80. 6088 54 FSIB SAFc( Y INACTION LGQP B AVG FLC4i 97'GOB P~i 55 V~150 SERVICE NTER PtÃA A 0 B MEAEiZ 87. PXB PS16 55 P21bI SERVIC: NATER PtPPB C h O FZAKR 86 K~B P IS 57 BKRQ41 SERVICE HATER ~i A GN 6.."-OB P~l'. 58 BKRA2 SamICE em~ rue S DN 59 NRQ43 SERVICE NTER PlI C N GQQB 60 BKN44 SERVICE 1tATER PPF O ON NO

TPBS GPQ(e ASSIS<<tB(T 62MRY 

                %M'. EVE<<ii2         PMkcakc'PIP            1-5 PLA<<(T           STA7%

POINT ID DcKRIPTION QJR. E. U. 1 F0619 CSFGNE<<(T CQK.ING LOOP TOTAL Fi.M 3612. GXD ER'> 2 U?1ST REP~~c It(G +AD? STORAcc TAN LV 13.3 LMRN 3 l60339>i5 33 r i LBrc'IND Sic')l 15<<I AVG 7,0 GOOD !PH 4 llf)033015 ZF. LVL MIND D!PE.ilà ISA AVS 5. GOOD D S. 5 f(T0330(5 33 FOOT LEVB. TE<<I?. (I I AVG) 64.8 GOOD KF 6 MT~~)5 250 FOOT LRT-'BIP> (!R RVG) 64.3 cOOD DEGF 7 MDT2015 250-33 FT LV DELTA TBP 1'VG ~ C V GOOD DEGF R01 NQ i~TRO Rf)O<<I 8.81048M MOD N/h" 9 R02 AREA 2~TAI<<t>>t<<T 1.",5792+06 HAUt N/HR 10 RO5 AREA 5-SFB(T FUEL PIT 3.6732+04 HAU! N/fB 11 RO9 AREA 9MTDM 'NE <<<<it "TOP. 3.93549+04 HAL<<t 5?/HR 12 R34 AREA 34 - AUX fu6 CV ~> Pew 3.42767+04 HAL)> 5bhR 13 R35 AREA ZEBRASS SAtt?LE PAtP 1.09648M Gm 5?/HR 14 R10A CONTAIQKNT IODI)IE N3NITDR R10A 4. 02716+05 HALt> C?N 15 Rll CO<<tTAMRiT AIR PART IC(LATE 2.6001&% 6003 C?tf lb R12 CONTA!eB{T GAS tG<<(ITOR 3.00694+04 HAJ> PN 17 R!GB FLA<<lT VB(T IODBE t&ITOR RlOP 9.87136+0'.871 HAUI CP<c, 3b<<06 HAUf CPN 19 R14 AiJX BU)S EXIPJST GAS NNITDR l. 02182+07 lBF. CPt) 20 R16 LICUID AAS i>>>> DISPEL. %NITOR HIP> PN 9.78647+0'.29659+02 21 P.)9 FiM 63eRATOR R.OCO' DALAI<<( KOD CPt)

22. U. ~D 2~ONTAMKNT HI% RAKE 1.70191+03 NLN R/HR 23 RX McA 3r~iAINB~i HIGH RAN6E 1.70191+03 HAii) R/HR 24 R15. CO<<fPSH AIR EFZTR EXHAUST 3.31607+02 cr>> PN 25 R>2A5 CV VENT CI(4" MOM P~NK GAS 7 50006-0 Mc'D Xl/CC 26 R'Vlb CV ~ZtP:,D4V 6-Ar& SANA 1. %994Ki3 tH/<<iR
 ".7  R 1287       CV VE<<?T CVk! 7%<<D Rri<<K GAS                      9.99984M                 GOOD     UC'f /I 28   R!249        CV  'er       O:.O,) "-Hi+ Wr~          GAS       9..?987M                 Ge33     L>03              H" LN    Kl/ C PLN'>>c<<<<T CHA<<t?~ID RM>E 6AS                                                        Ki/C" 30 31 32 R14A7 R14A9 RIRc PLA(T VSP>

4IR EJECT% MA' 90 9>>HIS! PA'F>> GAS N REVS 6Ac 8.5998&00 8.5 9.00007-07 M Sit~a 6OOD Kl/C" KI/CC 3 Pi ~7 AIR E icC u 'Mtt 7~ I 9 R~ cAc '9.99984M GOOD UCI/CC 34 R15A9 4IR E'ECTO'HAN 9>>HI RA<<?GE 6!6 9.99987-e GXD KI/CC 35 V34f lC STER LINE ARV A CLOSED GODi 36 Jl 0."=-VA <<a~~. Cc'/6 A mV m 

                                "-s"R L!h= A (S?ltiG)
0. P>>OD 4 CWBi'8/bR AREA 31 2.05126M ROD RSf>?RO NOf": cAc cELc.cc PATE 19AV .OOOOOHB 0003 Cf/SEC 39 V34!106 STEA<<I LINE Ar.~' CLO~D KCJ
 <G   'PK)VS       M.%Bi O.=:/6          P  <<UV a~r.>>                                   0. GOO>D'  4 0?cN 41   ?32                                                                                         r'>

2.05126M tc /."7? 42 R3 ~n:- .OOOO~ RIVI: Ci/ cC 

 <3                CV  it'Q-.~         ~~<CB>~~4'IBi                                     ~

r c ="~~i '(

TC>P>> CV>>ac>>c)P i cia cri >r<

>>> ~ Fr'53 45 T:.07 'lt>T ~i.fc>>. La>> ccT>> i!P 47 113>c '~>>c DEc iV lliTci>ts "I/TE ~v>> br t ic 8 P~ 113."-. 9fc K2 47 ,49 Tw:0 49 I ul09 TCV;7 CV NiimV-'F LVL cc; i=8 f'9 CV!<<rem!Ar; .: CV O?ERATINE =. ~ RR'L cFT ic<<IP I)17 410 II3.c ~ i3 115.4

b1ii cuOD rri KGc

~i6" Time: 12:45 Message: 39 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY Controller Notes: ~ Actions Expected:

1. The TSC should inform the other emergency centers that the leak is isolated.

8<3 TREND GRIP ASSI GNt!ENT PJtt(ARY GROLF: EVEhi 1 PROOF=o EF!P '-5 PLANT STATUS POIHi ID KKRIFTION VALrrE E. L'. 1 ATMS ANTICIPATE TRANS!ENT M/0 SCRltt( ttO AT)tS 6009 2 RXT REACTOR TRIP SPEAKER STATtH Rr TRIPPED ALRt! 3 N3! SO(I?CE PAr(='e. TECTGR H-3! 4. 16869M 6009 CPS 4 H32 SIRCE RANK DETECTS ti-32 4.40'RK( 6009 v o 5 tG5 IHTERtKDIATE RANK KTETOR h-35 1 o 04232-11 6%9 Ar(F 6 H36 INTERt(EDIATc FÃ< KTECTGR H 36 1. 0Tii3-I! GM9 ~ 7 tP AVERAK ioI~Q.EAi? FSKR .00 6009 8 f8CTOR Vi'M SYSrdl AVG Pr& '3. LAD FSI6 9 LFIR FP~.'IEP. AVERAK '-~a~ .0 10 FRCLA REACTOR MLN~ LCD A AVG FL% .0 Ii%6 11 FRY REACTOR CCVJL%'LOO? 8 AVc GR.'Zrt .0 196! 12 RXT'6 RCPA BREAK"r. CAccE FY ~n;P TRIPPY) ALR"i 13 RKT(7 RCPB BREAK% CAUSE PK TRIP TP.IPFED AL5 14 TSUGTC IHCORE TC SUMZLR tro".GIN 110.0 ~e !5 LSGA STt( 6<<t A NFL RAtoK AVG Lair 75.1 h4R~! / 16 LSGB STt( GEt 8 ttK~OM RAtr~ ~Va LErr= 55.7 @GD X 17 PS% STt( Grit A AVrc~ PRreScGr~< 435. LALt( FS!6 oo 18 FSGB Sit( GEti 8 AKiAGE PF~~ 501. FS !9 GENBK Pl GBG?ATCR ON 'NE iRrAKK:GI"72 TRiPFED ALE! 20 GENBKF2 GBGQTGR CO LINE PFIZER 9X!372 TRiPPED ALR", 2! BUS)! A PUS l!A cLVR;V PFSNER TRIPPED ALP'! r"..Bu.)) B 23 24 BUS!2A BUcl28 BUS 118 BR" Y BRBKEFr NDT TEF.'.il'HA.K ON tQT TERl(INT-* GN FF"S ~ ~ (7/!9/91) (7/19'9i) TRIPPED NOT NO:. TRIP TP.IP A'W Dr KL 25 B! LA!2A BUS 114 Tn .2c T'E PrOF HOT TRIP 26 B(IBIB BLrS ilP TG 128 TIE KN=<<. lt" TRIP O'."i 27 PCV ~oIAItt."Z(T O'MkZ Fire="(rrr 2.85 hw ~oo FSIG 26 LBP~A CNl'AIti.~rr K"(c A A'rEP>GE LEm~ 31.2 NG

2. L094Z a~ P i=:,e: 8 I~S !TRAIN A) HIGHER It&2 30 L09438 m% 8 LEr'~ 8:KfK" (TtuViH 9) HI6rKR !tent("

3l L09429 R."P B LE(rEL 78. Il&ZS (TRAIN A) HIRER IH)t. 32 L0943D PM 8 LE'.r o 78 It(MS (TRAIN 8) HIGHER ItiHS 33 LÃ420 P~P B 'R~'!3 IlPtr S(TroAIN A) HIPPER ArLRt! 34 L0943C RtP B LPFL 113 INC~(TRAIN 8) HIGHEP. ALRtl 35 L094B SLY 8 LB'ri 180 It)CitES!TRAIN A) LMR 6009 36 L09438. 5("P 8 LE'rrL 180 INQKS(TRAIN 8) L58! em 37 L0942A cr'tl 8 LErc-: 214 IHC<c(TRAIN A) LG)FR 6009 38 L0943A RAP 8 LE'v=: ".14 INC~6(TRAIN 8) Leis 6009 T0409A RCU) HOT Lree TBPERATL Z2.7 em KcF 40 T04!0A ~B H"ii 'rc TEt(FBATr~ 166o0 GOr)9 KcF 41 T0409P RCLA CP ~ 're ~ATlF: %8.1 6009 Kcr 42 T04l09 RCLB.M3 Lr.c TErF FA~oiH 221.2 em Ka 43 TAVE.D M4 TA"8 '.T~T/ P'r MIK M'r 295o 4 KC 44 TA'ry)t;8 RL9 'A'e l::QT/'."roric) HIDE irNG) 193.6 6009 KGF 45 LRV'6 c~c'"TCR o/cc-. A"EF<X 'r'or<< 64.8 LP~i! X TCKj"5 E.'.1 Itr'FE TC AYK<K TEtrF lllo3 G.i'i%9 Kcr FAUIr>>A 0. P2! -48 FLIP>>'c 6/6 8 TGTN AU)! ~4:sw F 0(( 0. KH 49 VR'.8! t(TR AUIILIARYFEECitAKi F"2P A c~cri9 50 BKR082 iiiR AUIILIK. F~~,+P~~ L GoLoi5 Pu AUÃ FM PPw c cN SF<<Y Vf" VE A 6009 6"";9 CQ Pghg AUX FM FrJ)P Si&": S'iFPi Y VALVE 8 TROD HKUF ASSIST S. PALY MP: BS(71 REAL%: EPiP  !-5 rd4T STATUS P)i~a t8 KKP.IPTIN VN.iK g.4' ~ Le FSIA MFETY IHFMIB]LK-. A AVS PzVi 80. K6L'8 Cg Ct aav tteFiTIN LP 8 97. ey'g n ~ ~~ ICE hM FL~ 8 I=A<%? 8l. FK cc 1 8 1f ' L Jhfl  %%ICE ~TV FQ. o C ~ u In Hp~ri 8& IG gl EhlVAI PRICE ¹R RV A Gtt K" R iRRA2 Wv'iCE Acne re% 8 N 59 BLM'3 &VICE NTER PK C DH K3"'22, 68 P(~~ 8-"RVICE VATEI? PL. 8 Gt( FP4F'VEHT2 PRO4EDbnE: Epit 1-5 tLANT STATUS POIH>> ID ESP RIFT I OH Ce IJ. F0619 CQfC4iEHT CGR.IHS'LiW TOT< FLM 3610. GCOB a' LRiaT REFIJELIN~S i>iAiea STGR45E TAlv( LY'3 12.9 LiRH X 3 NSO330>>5 FT LEIS. lilHD SPED: 15'> VV' 7.0 & =.DI tf'iJ 4 ISA'5 LVL M>>l>>D Dl~~il(W 15N VVa 5. B'U U Ge 5 liTvi%15 33 FOOT LE'vT'r.KF. 115".>>>>'J5i 64.8 5 Nep i~41" 6 MT>r"15 250 FKT LEG TL'lp>> < ~ . P'P>>! 64.3 ll 7 NUTXt15 250-33 FT Li'L f+<<LTA TBf'5". /re O'AULD LIECt 8 ROI Anch I-CvHT>>IG. RPPJN 8>OPO  %> RAI 10 11 802 PC5 PO9 APc4 4PZA 5<<cPc'< ~ ""ti'~tCii WHT 9'. ET i'? f'IRE ~Ji','.$ l.."1618+K IQI 5.F 41%: P>Vlh 1F.'/N iiPI V Va I>>Ca/M tp/irp ~ ') 834 4RE4 gc prUt 'P> i>>P i 'cc}>aav &I>>>>P 8. 6OO91KQ Pihh ~I. /HR R3c Care ~ '., 09648+0r Prahh 4 13 re/>$ ?ODI< f. 'l? i P R'tA Iv ~ 14 Rl".A Cpt>>TAIt" i 3.94!16M >>r >lP, \Q 15 P.l >> COHTAI'IVC p PIF pi'>J>> ?Ht >l>>T>>E ".64544%3 R?2 CHAI!~It SAS ~H>> "P Z.O> y4 17 P.lOS CaLAHT l >Ca>>$ >>ehi >> f Ie>p)tv>>>C ale re p l ~ 035JI4%7 4~I >C C: a. 18 R?3 AJr Sm c"CH"Sr AIF PA-T.CLt"=,- 1.021%+07 L>>C>>P.' rtiaiI 19 P14 AJK PLCE c~yc"ST ".48 l>>lf>>'. CR 0 ii>II >>i r~ R'3 LINID>>i4:-;= Dl~p' P~p ..09917%3 K~ Pl9 STE~l K'.PAT ? F Ni'n';I ".PA?8 ~ e>> ~ cher>> LaIA <<<<aV~ter>> mnn ..-.1 r2 AREA 29-RHTAIN&T HI% RAHSE 1.70191M R/HR 23 R30 AREA 30-COHTAIHtKHi iiIPd RAhac 1.70191+% R/N ee ~ eaa>> C tvMERSER I".R EJECTi~i E<rVQT  : 31607+02 ~ a '4i rlh g~t pat >p>l i'>>C IJ 0006<7 f eJvp ~ >> >>>r<< I ~ ee h>> sri6 i ~ VEHi I ilhh 6 Ari& 44a '.6K&03 ~ K l>> y;"./i 3 R1247 -! VBPi'4J'I 7-I"ID RhtiZ BS ~ 9>>99984M Oel LI t/t >l 28 RI249 ig>> VEHT Fatik 9 ii?EH R>> HE SS "". 99987-04 34UtU XI/LL rer~ z F.1445 =". 99982<<03 }iALH UCI/CC el ~ v'eab 4>a4 MlT VC>iT std>> i llIU ivvtcc. Mild X a/LC R14A9 FLAHT VERT ".'r"'C 9~ <W -.".A!<: cVS 3.99971~ aGZ Kl/CC ~ 32 HLR EJCir>>4h LIIAII 5 LL'>>>>I RAIIQ 9.00iN7<7 ~ Ir'vari > 4 er F.IV > o. 99P84M e V s>4l a Fec AIR E ":" Lh L<~>> 9~i F<'6'c cAS 9.9tW 04 ' ' C Y3c::C CLOSED )'v h<<h ~ I>>p 'i ~ I 4 Itvp>>'v 0. i 44U 4 CPE" t>'hh R31 AREA 3>> TED( LINK A {SP1%> s,05',26 0 l8/iiR .OO>>X&0) P..>>tt I @i=i c 848 RELQmc. PATc ~ >>PAY 33 Sgi CI/8SEC 1'7 '/34108 .'v iiSED EOO" 40 l>>Lp>>'C r 0. P Oi>J>>i r hPh rr.!RF I OcEH 4>> ~ << t >>>> ', v5126%2 <

>0 KCO C ~ TM3 106.4 E4Ci 45 iI~ i<< ' 'r 110.2 QWei I>O3 CV IHTE",.SDI Li!'. i .EHF'8 110>>2 ~ C I Ia>>09 ~l IHTcc~! 110.2 <<ai e<<>>eg P ~ 110. T.'s.'> OFC-<T'45: E'/L p -I -V '13.1 Time: 13:00 Message: 40 GINNA STATION JUNE 11, 1997 PLUINE EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY Controller Notes:
1. The release into the auxiliary building is isolated due to the isolation of the "A" RHR pump.
Releases of noble gas, radioiodine and particulates through the plant vent will now be significantly lower. Actions Expected:
1. Efforts should be underway to track the plume and implement/coordinate PARs.
2. Plant staff should make preparations to change out Particulate & I, filters. Until this is performed, the release will not be considered terminated.
0 TRPB 6RI'a !MS'< RiW'(ARY SRm': VENT! Pt(XEOJRE: eiP .'" r At(T STAru POINT IO BEMIPTIOtt E. U. AT)(S ANTICIPATEI< TRAttSIE)(T )t/0 SCRQi NO ATMS 2 RXT REA".T{8 TRIP BRaa(ER STATJS RX iniPPED '4 3 tG! ~~ RAt(C=" OETECTOR N-3! 4.349i8+0! Q" SMCE'~ OETECTOR N-32 4.%034+01 6000 5 t<c IIPiiPi(ABATE RANE= KTECTOR N-a~  !.042 2-1'.0~m-II KH 6 Q INTa-.rWIATE RANE; CETE;TOR N-36 GGOi" 7 AVERSE NL~ .N 6000 8 Ph CK~ SYST PS'fACTOR . A@i Fac JVi pc t>> LaaR FF=-"-O'RIIEn <<'vcRkn": ~M~ ~ V LB(j 10 FRnM F~>>TOR CKLANT LOOP A APc ~ Dvi ~ 0 INHP 1! FR~M REACTOR CHUK LOOP B t'<YSa P ~w .0 lt(t(B 12 RXT!6 R"PA BRENER CA<<"= RX inIP TRIPPY ALH'e 13 RXT!7 RP& BRENER CAVD RX TRIP TP.IF FEB ALRtl 14 TS< aTC INURE TC BJKOOLED )<A('tS it( 110.5 600t 15 Lc"" A t(AF<t% PP<- AVS 'Ã< 75.0 $ Rr( et ~ \ 16 (c - i.l EFN B NA>cG(t nt<tr- AV 55e 0 600D 17 F5@ ST<( GBi A tt'vane% FF<EFUc 430. e~<< P:<; 18 F='8 iT:" 6% B &Ma. ASE PFEBBHE 4i7. <.4L" r"ii6 1') C=i~~.'R! 6cJERATOR Ol'!tK BREA)(Ert !S.'i ". TR!C>>r f) AlPt 20 Ma<'R". K<nAT<R 'l 'NE SAP. ~Ã'.~( TR!FPR ALPt', EO-!<A BUS 1!A SiFa' BRMER , <<! p4ar) ALN i'JSIIB PJS !IB SL+P<<Y BREA)(ER TRIPFEO Alit 23 EL'=.<2A NOT TBNIkh~<= OH FFCS (?/I /9!) NOT TRIP IE. 24 Iiic! .S tPT TERt(lk4<- e GN PPCS (7/:a/9'l r<GT T<<IP "5 i1!Alai BL TiE iRENE Ni TRIP 27 PCv'8 L-WA cUS 118 TO Cm<ia>>mx A~ CulPAINE'<T SUttP A A<vrEKK FR=m=- ~' ee,e 3!.2 R t'<LB( StRti h=t(6 <<v L 1A cQ," 8 L <:=' ItQP (TRAiN A) Ni<<~% IN!(a jne i e~kjD SQP 8 La.v'= 8 ILES (TRAit'.i NIBS ¹2 31 SW B LEVa 76 It<C)'H (inhiN A) HIER IQ(B .N' LB~ 78 IKr<'"-S (TRAltr') HKM It(l(D 3'5 rgr ~ kR', Mc' LB'= 113 ITS(TRAIN 6! HI~ ALE( I e'a<lhE 8 8 LB'80 ING(ES(TRAIN Al LMR 6000 'r6 i eeqeha K~ LE'v>>'80!Ncaa(T)LAI < 36 h ~ L t43A 4,<<e<<Jh SOt. 8 B 8 i'14 LK. 214 M" ICOS(ee~'N Bi (TRA'N A) E) L(NER <<<<aiba'00D LO<H 600D 6MD 6009 ih Tee)0a'r Fish )(I)T L== rr<FERATi<nE 332e 1 6XD r<<<< .  % ~ ~ he .a .=." HT LEE  %%SOIL~ <JcI ~ I ~ 6008 IN 41 T;.ai 6ZD Ka-h .",:S CnLn LH TV'<'t<$ ~ 4 ~e eV KOD BEP 43; <"v"."A<<!0 RQJ TA<'6 (.i9:/:<.+M~ 4IK <<!Qr 2He2 600D Ir-F 44 Ta;eacvr r, a a <<6 <.rGT/TCGL<O liii: Rt<=.t  ! tje3 6609 BE 45 64.? LALl( ie eh<<h e lel <<Jlee I ~ ~ e ~ Alkyd e i re river<a :10r 6 y 4 ~ <<<<'Jar<re< vIG A TOT<'-<. NX Fccuk<an <~i 0. OL eeeei 6P v ~ .h re, crag S/6 ." TOTR. RIX FRY:"". Fr Oei< 0. 6000 Pi". e ~e,n ibVILIARYrE@r<<n FL~> " Cti XvU inurn /"XILIVYFaa "43 F;,c. " re <:.L'<( =.it P(P.:"FAtl SCALY Vii'e'E a C<Z~~ SO< ='<<Ft94 re <<nr. iiaA)l 'R=.a' ".<<" v'E B ee P L ~ s I ~> r.v~.tl L , ' ~ I Qlel/Q~ gr. sw J ~~:~~ I  ;:-~:IF'TICE FERIA SHAY IHZCTIN LMF' g.~ gi ~~a S4 raIB St~ I Y IhZCTIN LPw B A:i= ra9l F'2ta0 ~)I~M LTD F'vYFS A h f~n' ~ ~M"ICE Q~-R Pq~a C R 0 lych'T.i< BF,~41 KP)IK VNP FÃ '>>Ie N & I+L~WC CBVw N!~u( P~ B C~LX 59 E~Rv~i ZDle l> Kc. a cp P4 p C b0 FaR ~ ~=~VICE l4i=.; FK~ B r. Vi~ ~ F96 Bntp ABIB .ccC',DRY c OJrl EVE)tT2 . PROZRFE: EP!p 1-5 pLA)(T STATUS POItf> ID irBrRIFT I 0)t C ~ iva ~ I F0619 CQf'CAEH CM.ING LiQP T074L . L(at 3610. GC~[a 2 LRVi>T REFdEL !hi )f'AT% STOR/AGE TAlf>( LV. 12.9 a.aIfffl 'l, 3 l)SOZH>5 33 FT LBB. IflQ SPEEIf; 15t! ~f/G 7.0 K=[> h )( 4 l(D0M'5 3%i'VL Ma'iD DI~~>IPt 15t( rf/cf 5> cvav"Jf> KG. 5 NTvZQ(5 33 FOOT LE~i ictus. (15".i f <Gi 64.8 8 [<i=". 6 1(725'(5 250 FGO L&" TclfP. (I "/VG: 64.3 irCr 7 - ftuTXI5 250-R FT LVi K.TA TEtf'5>( rvG L~ Ct'r)/)cv 8 ROI AREA I-COtalfaCL ROOt( GO>)O 9 P02 >fcc4 "-~>(ctfI'P&T .'. 4881M laa a> 4'/ f>C'Of 10 II 12 R05 P09 R34 ORB cfKR 3< 9-'( 4%4 5-EcE'P, - -'!J". FUEL PIT LItt PJ'S CV 'IT 8 1.21618+K 5.9 41%! rrtta J
8. 6%PI+K tgca Y,
>a tP.I)F tF/HR ~/)fP 13 R35 4REA ~Wc~ ctflP c c "tc. '.. 09648+00 r>a>aaa ~a, )>P vr fODIN"- 'a!; 14 RIÃ COtlTAIh. I, 8 R:rA 3. 94116+05 I ~AcF ~ 15 P.Ia AIP. Ppw I".>J ". 6454463 a Ri i GAS Kl(ia'JJ( '"t(TAI!~IT 3> 'l >t>4 Yr " 17 P.I('8 cLAMT f age ac c>a>ai gf'aC(tlefic C ilff ~
>0 J14% tÃ>C i~r.
IB R13 A~ll Pdc cv)f4'IF PN. c~e -" '.021%%7 K,'P ~>a 19 PI4 Aur HZG E,"S W V< m: .".=. P '2490+~ ifat> af f vaa >tat ttf 8 LafHJID le-.= DI QSC. t II "~ 5.09917+03 PZ 21 P I9 "cTB5 ~'ccPATiR 8'I(Dpi ~AI)( 4. 5 .0&2 Crnfa rg s2 R29 AREA 29-KWihltOBP HI% RA))GE 1.70191+03 R/HR 23 R30 AREA 3v-CO)(TAlttt(ENi HIGH RAtccc 1.7019!@6 HAUI R/% 24 R15 CM9~2 4:R EJECTA DH."~. 3>31607+02 rr>>r %i'da. 'J fa ~ at a g R>J:>J CV VB' 'ab'O'O)I rc"'. 7 r00%r07 rt >at\ 2& R:a& C".VENT isa 6- '. &8825+03 t;,/i'R 27 R1247 4 VEt(T "."A'-t(IDRNaz: SAS 9.99984M ar >>t>a IV"vf ' / aa 28 RI2/a9 iV ftEtci CIA( 'f f(~ l H >f>at%i >9987-04 Xl/CC F.1465 .99982<3 HAL)I UCI/CC J'fALII ta p1 MT V.'a N4l 7CID ww ~S 9, >9984~ %w'a> Ir... Xa/CC RI4A9 iiAt)T VE(cT ~~ HiIGH RA>t" EAS 3.9997HG ffOa " KI/' R:M A:R EJiCTie Otic WCv RAla&c WfS 9. 00f)07<7 Qt>a ~ i af a>v ~ i i il ~ F.IV ff;n cJc fZ. ~M r .".!D;".i>ace eS 9.99984M ci'J' a LA a> ~ ftla 'J ca a aa: J9 AIR Ei~ii& it>)a 9~1 P<'4'". BS 9. 99-.f17% >XJ ~ >C>C ~ ~ >f a ~ ~,' ~ ~ TEA" .- V A rf GSED 'l'a ~t "~uER CF 8:G A ICIV ~~t 0. Ci aaii 0 CPE:a ~ PAIL HE4 31 STE4'( LlhE A (SPf'r=':.4 .05125<2 l8/HR a% ~ t5cf c GAS RELET PA~'~AV .f)000~) Cl/SEC 39 'l3410C STEAI L:'.s=. ~l 8 "SED OQta rv
4) 4'=vVB aa ~tati vr 2> G 8 PmvCV %~2) 0. a'.a>a>al 0 i~J. tat 32 c;c'" LINE c iS . ~5126+ "JOi v /rv SSS tQE' GAS PR-"USE .cl'5".>V ril> vCaa
'a .OOCM00 Qf>J 43 CVH CV HYC+9M K4CBiTrLTiR( .0 EGO 45 T¹ TC'07 DASE,"Z!(I LE;~ &-.-f r="- 43 106.4 110.2 '91>a> J )Ga CV INTER>(EDI>'fTE LVL crT TPP f)8 110.2 rr a f'vaa CV It)TsC~~'4>c LVL &rf .:-~ i9 110.2 v'af 4 INfcffttcilfT""LV ~T )f. 110. TiVa > CV OFEttraTflttG LE'cfL w~ <~"P 4!". 9 '13 1 a> Time: 13:15 Message: 41 GINNA STATION JUNE 11, 1997 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +'++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY Controller Notes:
1. Plume tracking continues. Off-site radiation levels near the Ginna plant have dropped substantially due to the departure of the plume.
Actions Expected: See recovery mini-scenario 8%5 JUNE 11, 1997 PLUME EXPOSURE EXERCISE Minicenario Activity: Recovery/Reentry Controller Notes:
1. Recovery/Re-entry discussions should commence per the guidance in EPIP 3P "Emergency termination and recovery".
2. Preliminary discussions should take place between the EOF and TSC.
3. State and counties may also conduct parallel recovery/re-entry discussions.
4. Recovery/Re-entry interface between the EOF and off-site agencies should be demonstrated as time allows.
Actions Expected:
1. Discussions may include:
Short term concerns
a. Repair and return to service of the "A" RHR pump for redundancy in the core cooling recirculation mode.
b. Possible makeup of borated water to the RWST for safety injection or containment spray operation if needed.
c, Initial clean up of the auxiliary building basement.
d. Repair and return to service of the CCW pump
e. Highly radioactive waste water in the Waste Holdup Tank from the "A" RHR pump seal failure.
f. Surveys of plume areas for contamination
g. Failure of the automatic and manual reactor trip,(AVOWS event).
h. Failure of PCV-135 Lon term concerns
a. Containment vessel inspection and clean up plans.
b. More extensive clean up effort in the auxiliary building.
c. Re-entry of evacuated population
2. Preliminary designation of the recovery organization should commence.
3. End point is use EPIP 3P for Recovery. Identify current status and items needed to transition from a GE classification to Recovery.
846 TREND GR(u'KiIM&TR'SARY PEP: EVENT.'. FR(K&SF: EPiP 1-5 FLOE STATUS PONT ID DEER! PTIOts VALUE QuiL E..'. 1 ATliS ANTICIPAFw TPISIENT k/0 RM", NO A?IS EK 2 RKT REACTOF, TRIP Bnc/sKEc STAT% R>> TRIPPED ALRt! 3 ts31 SO(J(CE Risc= KFCTCR N-31 3. 903%801 GMD H32 SMCE RA/s " i~icCTCR H-32 3.69401+01 %OS 5 N35 It~Is's?E RAttc=" K".K?OR N-Z 1.03753-11 6080 6 N36 It~c.. IATiERA>tcE C=TKTOP N-36 l. 03753-11 N"'%8 rss 7 tP AVERA'c AR PO<s c .00 A 8 PRCS REACTOR CCG&.i SYSTE!l AVG PK 3. Ltu FSsc' 9 LPIR PRESSURIZGi AVcrAK LB% .0 LEts= 10 FRLA RECTOR CvVT LOOP A AVG FLD(t ~0 lt(t2 11 FRCLB REAi".TOR COOLQsi 'F 8 AVG rm~ o0 IQG 0 12 RTT16 FQ% BF~Ai(ER CAUSE RE TRIP TRIPPG) 13 RE?17 RCPB KAJ(E."- CAUSE R,( sniP TRiPPED O'l 14 '5 Lb TSlSTC LSEA LSGB ltsQRE TC STN SCalcu Nsk~iN Kti A NAFBQA RAN=- STt< ECCi AVG 8 hAFROtt RAtsP N'S s=I= ~ 111.1 74.9 690~ s2+ PP". r=-EF SI 55.'26. 17 PSGA STN KH A Av~uiK FF~~~n Ls~s PS!A 18 PSGB STN ~~ B g'GE PiscCP 494. LN.lf FSIG 19 KtC~.Rl HVATOR GN Lit>> BREikEP. 161~i IRsl'PED A'~ 20 GEN!iKR2 GEt43Q?sOR GN ' sc ~~'P. cps 9". TRIPPED ALPS. 21 BUSl 1A BL(S 1 lA SUPPLY BlsEiecER ED QN 22 ~ BsJSI IB BUS 11& SLsFPLY EE¹~n TR!PPEO ALRts 23 BUS 12A HOT TERt(It(ATE Ot( PcCS (7/19/91) t(OT TRIP 24 BUS(Z HOT TEisssItQ?ED Ot( PPCS (7/19/9li NT TRIP QC'=.-J< 25 BllssaLs M 11A 12A T!c F~c" EP TO tsOT TRIP BIIB's28 8(B il" TO!28 TIE BisEWER HOT TRIP 27 FQl CNTA!8BiT A~T3<AGE PRESSUPc -2s7b lhi<N PS!6 LS(J(~A QMAIQKt: BJtF A A'M~ LM~ 31.2 i>>HG ~s L0942E RlP 8 LE(,=' Its.tscS (TRAIN A! HIGHER IN' i 094 ~ BOP 8 L&M 8 !PCS <ir.A!N c> HIS& s~l'%$ 31 L09428s SUtP 8 I "F~ 78 MP <TRAiN A! r<iGHER L09438s SSLLtP 8 LR c'$ !ts"~S <Ti>>s!NBi NIe(ER Ik"c cD >>~ L'>>L 'I >>t f Q ~ S>>tP 6 LEs,='13 Ih7i~<imiN s: Hr~ s>>.RPs ~ R!tF 8 L"-'s~~ 113 It@=6(sr.AIN Bi HI~~ AL"P. LO -'2"- -"iltP 8 L-vc 160 IN~(~aAIN Ai L.C Elf Q<Tji css L0944h SUtP B i:F~ 180 INQ~<TFAIN B) LOts% 66'OOD L094A S:s!P 8 LEV=. 214 atGH(snA:H Al LO(E'ER L'J94A "-'"P 8 iZvu. "14 It~%i(TiAIN8! LKR GOOD 39 TYV~TA RLA HCT Lcs". KWPA?sV"- Zl.b EOZ ¹=. ss T04s0 165.2 EOD bl ~, ~ ~ >>ir cps q s s rs LEI msiym>>?s c>> ZO.B >>ssnls j<~ 42 Ts.'s41(B n~ .;a==. T E-...T:.=E 2204 6 6 JvsD K+ '3 AV'"I'D F~ TAVS i?i~T/I'"~" HIDE Ps/i: "91. Gpss IEcc 44 >>s>> ."93.0 GODS s>> ~ J ' ~ ~ 65.0 ~ >>s si H ~o 'vJn 47 >8 . W!1F'w'A FA">>F47 S/6 a Tzr ""r S/6 8 TOT~ W> ~ F~ ~ ".-=-. -. ~~ -" ~ .= ~ 110.0 0. 0. EZ~ vj c GOCrs EZD fisc>>ss t(TR AUr." IARY F"" a%?P P'"9 A si>>A>> 4ss ~ /Is h..'v'f s>> vv ~.w~ tHR A">> t'ARY ~"'icr. 8 res sgI' 'I ~ts5 FM " ~ ~pcs.q c mr v VP sic A OSED ea va AUK Ftt FP= STBi's >>P' VA'E B C! ncED 6P~~: EVBiT'POCEBRK: PiP 1-5 PLY~ ST4TA FuIt c IB KBXIPTIBi EAL E. U. g PBIB ~~h Ig+ Tl~ Jll 4 4'~$ FLIC 80. e'er 54 ~'8 84'6r C4 97. B7- VC I~ 55 P".IP~ 87. GKB PBIc C'5 ~ I: =--,'ICE %:.w r'~ " R. PS NRc4l ~i'ICE ~~:.W PPia"- 4 Cll( KCB 58 BERNE maC V4T=r: r'm B CKB 59 BKR043 SGNICE NTER Pl!K~ 0'/ r gag C 60 BKRA4 %ROICE MATER PNF 8 ON KP: P KO POUP A~IE.'Ei(. RtaARY FRi.l EVENT2 PROCEWc,.'EPIP i-5 R.A!(I STATUS Ct t~t ~ POltai ID ASCRIPTION F06f9 COtf'ONEt(i CM Ita8 LOOF IOTA. PJ( 3610. SCi)D ci t! 2 LRi6T REFUELIh3 liAi~R STORAGE TAN LV 12a9 La'nti 3 t(S033Q!5 33 FT LE!G, tiINO SPEED'. 15tl a'VG 7.0 K-"8 4 t(DO~t 33FT LVL M:taD Df~~<<Talent 15t( PPa 5. Ll t) ~ 5 i(TG3301 5 33 FOOT LE~i acttr. (15."a A<a! 64.8 a 8 6 1(T2Ml5 250 FGO: LEv=c Ice. (1 ". 4(; 64.3 cC"8 I ii!DID I5 250-Z F7 Li" K.TA TOP 15", O'8 8/JGD L<<C 8 'R01 4RcA I-CutaaRG. ROGtt atOaiU fbi /it R02 4' ~~a Cia>>AItl. hT  !.2881+% axial V ~ c'/ac'P/tF 10 RC5 aaa ne. Pf- 1.21618+K HAI + 11 F09 AREA 9-'" 4 L'tF a. tt;TtV 5.9Z41+0: ttttta Ia tlat/H." R3< p o~ Caa cclitip 8.6MI+0" !8!H? 13 R~ ~~0 c +4+ <<D '.,09648KFi <<<<tl ta 14 RIOA COtaTAIt, ( ?OOI!C t,'('.; 8 R'.~A 3.94}f&I% 15 P.l 1 CONTAI'a.".E!P. AIP. F4'"aJ'- ".54544%3 fa C~NAI!.~Sr S""- <a(i "P 3a07~ p tat 17 R!2 RlCB ctL4t(T p't lr r attl a a+ tata((17glg ct ~ tlii '.. 03514+07 I~a>>'al ~ C:., ~~ IB R13 AUN BJP cMST AIF. PAR r~'="- '..02182+07 ~aa f9 P.!4 4U1 are ErH4m EAS m;: "8 8.259AM F~ 20 Rf8 LINID a!4=.= DI "OS~ t (ITaO~R 5.09917M P.!9 "cTB1 PF~>T'+ B'K@';a FAlt( 4,5 OH2 -.1 C2 R29 AREA 29-RNaAItNBP H1% RANE 1.70191M ta3 R30 AREA 30-CONTAINEHT Ried SWac 1.70191403 t(ALtt E'(~. t >><<\ 24 R15 COt(OEtLcc<<a':R EXc<~i~  :.31607M ad:aia. <<a tt t LQi RaAiam "'."" <<<<<<tata F.12A5 CV VBai JNa 7.50006< aC'a~a, ~ at a<< 'l ~\ 26 Ra"-'6 CV VcNT ~r<a 6-ARM N~Q '..6BK&03 jul t~t/P% 27 R1247 r/ VEtr ".~~; 7-r,fD Ra~ ~S . 9.99984M <<cOOD I~ ~ ~ t<<<< 28 R12A9 itt VEtat CltAtl r f(icH .tatty . >>9987"04 Sitar D UCI/aCC PPI sr F.!4N5 8. 99982<<03 NLtf UCI/CC R'a4A7 4aM Fctaa aM 7 t(ID wire &S 9.',9984M RM UCa/CC 31 R14A9 Fc4t(T !>>c'.>>T ~"A( Hifc& RA!aw EAS 3.99971M cGa<<t UCI/CC v2 R'm AaR E7cCavR O'Ca Nu RAta8c OAS 9. 00007<7 GT ati t<< till t 81587 9t 99984M ca sn V ataL
9. 99987M  ::?/CC
J R!549 I Q.GSED 7' t<< 'c a'at~'i ~ l"E'ER OF =.:ac A tK>> GFB 0. citatii a 3'a tt<<ata R31 NEO 3! STEA'( LI!'$ A (SPIir='SA .05125<2 'ca f8/N 38 R3 %8' aA"- RELEA E PATcE'.?~AV .GOOGOL Q, .tan Cf i=cC '/34108 STEAlf '~ ~~4 B iNaa <

>T!BPi Q. aWii (t OFB( ctt t ". >>5126< <<0 't a ~ 4<< RZZRQ 538 tQcLEc 98 'wBK-" -" '!AV . OOCNKS aiat" ~ <<t tc 4'T CV HYDPi ~i( ~~"aCD(TFATaC:< CVH .0 KCO TCK3  :" BASE".E!iT ic.~c 6=.i Tc v c3 '106.4 EXD L<<E 15 Tt'a aOa7 110.2 4A  :"'v>)9 IhTc-.%cia'-rc LVL ci=T TE<<P 48 <<r<< $ t a ViO9 CV <<V INT' ">> L" 110.2 110.2 C T>>t0 4 IhiciJGIATc L'r>> ~T i"tiP >!0 110. << <CA Tat>>1 t CV OFEi!<T?NS a.E/L w, '13.9 c Time: 13:30 Message: 42 GINNA STATION JUNE 11, 1997 PLUIIE EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE++ + FOR CONTROLLER USE ONLY Controller Notes:

1. Plume tracking continues. Off-site radiation levels near the Ginna plant have dropped substantially due to the departure of the plume.
Actions Expected:
1. See recovery mini-scenario 8Q7
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}V 1}7 ~ M 'I I CV It(TccADIATc LV c 'l/ &."} TEc T <<43 .BP 48 106.4 110.2 110i2 KCc Q}ruu PS 110.2 >>>>4I} T:/lO:4 Ihiu~ &Ic LP ~T }} 110. P } >" 'TCV17 CV DFEr}/TM 'E/L wi '13.9 Time: '3..45 Message: 43 GINNA STATION JUNE 41, 1997 PLUME EXPOSURE EXERCISE IIESSAGE FORM Message for: Control Room Ilessage: +++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY Controller Notes:
1. Plume tracking continues. Off-site radiation levels near the Ginna plant have dropped substantially due to the departure of the plume.
Actions Expected:
1. See recovery mini-scenario 8-48
Time: 14:00 Message: 44 GINNA STATlON JUNE 11, 1997 PLUME EXPOSURE EXERClSE MESSAGE FORM Message for: Emergency Coordinator and Recovery Manager Ilessage: +++THIS lS A EXERCISE+ ++ The Exercise is Terminated. FOR CONTROLLER USE ONLY Controller Notes: ~ ~
1. Deliver when all exercise objectives have been demonstrated.
Actions Expected: ~ 1
1. Close out by making an announcement to all facilities (including RECS) that the exercise is terminated.
849 SECTION 9.0 ONSITE RADIOLOGICALAND CHEMISTRY DATA SECTlON 9.1 RADlOLOGlCAL

SUMMARY

9-2

9.1 Radiolo ical Summa A. Source Term The radiological source term assumed for this scenario was selected to include appropriate quantities of noble gas and radioiodine resulting from the postulated accident scenario. Immediate protective action recommendations (e.g., sheltering, evacuation) will be required based upon the anticipated declaration of a General Emergency and plant conditions. As a results of accident release rates, the projected whole body (TEDE) and thyroid (CDE) doses will exceed the EPA Protective Action Guide beyond the site boundary. The assumed noble gas, radioiodine and particulate release quantities are shown in Figure 9.1 as a function of time. The scenario involves 1 release point which is from the Plant Vent. This occurs as follows: Time Release Point Release Rate Ci/sec 1116- Plant Vent 3.11 E+2 (Noble Gas) 1246 6.24 E-2 (Radioiodine) The noble gas-to-radioiodine ratio assumed in this scenario is 5,000:1, during the period of release. Isotopic breakdowns of assumed noble gas, radioiodine and particulate release quantities are provided in Table 9.1. 

                        ~

B.~ Inte rated Offsite Doses Due to Plume Ex osure The downwind integrated doses from the 1.5-hour scenario release are as follows: Whole Body (TEDE) Dose (at Site Boundary) = 4.62 Rem Child Thyroid (CDE) Dose (at Site Boundary) = 2.81 Rem C. Princi al Plant Radiolo ical Indications Figures 9.1 through 9.3 provide trends plots for key plant radiological indications, including the plant vent concentration, letdown monitor level, containment radiation level and reactor coolant concentration. 9-3

TABLE 9.1 The assumed release quantities for the Ginna Exercise Scenario are summarized as follows: Time: 1115-1 245 hr Nuclide Curie/Sec Total Curies Released Kr-85 2.7 E+01 1.1 E+05 Kr-85m 1.6 E-01 6.6 E+02 Kr-87 6.8 E+00 2.8 E+04 Kr-88 2.9 E+01 1.2 E+05 Xe-131m 3.7 E+00 1.5 E+04 Xe-133 2.1 E+02 S.S E+05 Xe-133m 2.9 E-05 1.2 E-01 Xe-135 3.5 E+01 1.5 E+05 Xe-135m 2.6 E-03 1.0 E+01 Total Noble Gas 3.1E+02 1.3 E+06 I-131 1.3 E-02 5.6 E+01 I-132 6.8 E-03 2.8 E+01 I-133 2.4 E-02 1.0 E+02 I-134 1.1 E-03 4.7 E+00 I-135 1.7 E-02 7.0 E+01 Total Radioiodine 6.2 E42 2.6 E+02 Rb-87 4.3 E-16 2.3 E-12 Rb-88 1.1 E-01 6.2 E+02 Y-90 1.7 E-11 9.4 E-08 Cs-134 4.7 E-07 2.5 E-03 Cs-135 1.7 E-11 9.4 E-08 Cs-137 2.2 E-07 1'.2 E-03 Ba-137m 2.0 E-07 1.1 E-03 Ba-140 1.1 E-08 6.0 E-05 La-140 1,1 E-08 6.1 E-05 Total Particulate 1.1 E-01 6.2 E+02 9-4

vc I ver J. 06/04/97 Downwind Dose Calculation (DownCalc) ession Number: 97002 Calculation Number: 1. 01 Shutdown Date: 06/21/97 Calculation Date: 06/21/97 ztdown Time: 0830 Calculation Time: 1115 e logical Data: Temp 250: 65. 000 Stabili ty -' Temp 33: 65. 000 Windspeed: 7. 000 Delta Temp: 0. 000 idio?odine Release Data: R-10A: NA uci/cc R-10B: NA'A uci/cc Other Iodine: Ci/sec t.'otal RadioIodine Release Rate: 0. 03123 Ci/sec >ble Gas Release Data: R-12: NA uCi/cc R-14: 8. 600 uCi/cc R-15: NA uci/cc R-31: NA mRem/hr R-32: NA mRem/hr Other Noble Gas: NA Ci/sec Total Noble Gas Release Rate: 321. 306 Ci/sec me Data: Data Date: 06/22/97 Time since Shutdown: 2. 750 Data Time: 1225 Exposure Duration: 4. 000 ternal 6 Internal Effective Dose Equi. valent in REMS 'X'iles: 1. 200 Site Boundary 2 miles 5 miles 10 miles 1.200 miles (T ): 14. 136 1. 766 0. 6465 0. 3023 3. 092

3. 492 . 0. 4362 0. 1597 0. 07468 0. 7637 1.200 Miles: WHOLE BODY (TEDE) PAR: Zvacaate THYROID (CDE) PAR- Admj z s j t er K1'

06/04/97 Downwind Dose Calculation (DownCalc) Session Number: 97002 Calculation Number: 1. 01 Shutdown Date: 06/11/97 Calculation, Date: 06/11/97 shutdown Time: 0830 Calculation Time: 2300 ological Data: Temp 250: 65. 000 Stabili ty: Z Temp 33m 65. 000 Hindspeed: 7. 000 Delta Temp: 0. 000 MdioIodine Release Data: R-10A: NA uCi/cc R-10B NA uCi/cc Other Iodine: 0. 06240 Ci/sec Total RadioIodine Release Rate: 0. 06240 Ci/sec noble Gas Release Data: R-12 NA uCi/cc R-14: 8. 600 uCi/cc R-15: NA uCi/cc R-31: NA mRem/hr R-32: NA mRem/hr Other Noble Gas: NA Ci/sec Total Noble Gas Release Rate: 322. 306 Ci/sec ime Data: Data Date: 06/22/97 Time since Shutdown: 3. 500 Data Time: 2200 Exposure Duration: 2. 500 eternal G.Internal Effective Dose Equivalent in REMS 'X'iles: 2.200 Site Boundary 2 miles 5 miles 10 miles 1.200 miles 3 (TEDE): 4. 620 0. 5772 0. 2223 0. 09881 2. 020 

        ) -        2. 822         0.3523           0.2286         0. 06025          0. 6250 1.200 'Miles:     WHOLE BODY (TEDE)       PAR: Evacuate THYROID (CDE) PAR: No Acti on I

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10:00 10:15 10:30 10:45 11:00 11:15 11:30 11:45 12:00 12:15 12:30 12:45 13;00 13:15 Page 1

SECTION 9.2 IN-PLANT RADIOLOGICALDATA MAPS 9-5

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                                     /                                    Serial No.:                   /                            Frequency: D/W/M/SA/A/JS Ma                                      /                                 Cal Due:                      /                            Rx Power:

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   )2 I RO2A I ASPl /ASPlnrd I J2000                                  RM14/RM14s /Tenn / BC4/ MS3                                  TIIne:

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                                                                                                     /
                                                                                                      /                          Frequency:

Rx Power: Instruments Source Checked Y / N Instruments Source Checked Y / N svcbas.pcx / REV 1 

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SECTION 9.3 IN-PLANTAND POST-ACCIDENT SAMPLING RESULTS 9-7

TABLE 9.2 REACTOR COOLANT SYSTEM SAMPLE ACTIVITY EQUILIBRIUMACTIVITY (AS OF 0500 HR, 6/1 1/97) Nuclide Corrected Concentration UCI/GM I-131 4.70E-03 I-132 8.09E-03 1-133 3.29E-03 I-134 5.05E-03 I-135 1.87E-03 Total Iodine 1.57E42 I-131 Dose Equivalent 5.56E-D3 Kr-85 1.16E-03 Kr-85m 1.16E-01 Kr-87 2.02E-02 Kr-88 1.47E-01 Xe-1 31m 3.34E-03 Xe-133 1.06E+00 Xe-133M 1.57E-O'I Xe-135 1.87E-01 Xe-135m 1.87E-01 Total Gas 1.87E+00 9-8

TABLE 9.3A REACTOR COOLANT SYSTEM SAMPLE: GAS COLLECTION BOMB (Collection Between 0825-1 000) Concentration (pCI/gm) Nuclide Corrected to Time of Shutdown Kr-85 1.8 E+0'I Kr-85m 1.7 E+03 Kr-87 2.9 E+03 Kr-88 4.4 E+03 Xe-131m 2.3 E+02 Xe-133 1.5 E+04 Xe-133m 2.3 E+03 Xe-135 2.9 E+03 Xe-135m 2.9 E+02 Total Gas 2.9 E+04 Undiluted Sample Dose Rate at 1 Meter = 170 MR/HR Undiluted Sample Dose Rate at Contact = 1700 R/HR Diluted Sample Dose Rated'at 1 Meter = 0.03 MR/HR Diluted Sample Dose Rate at Contact = 300 MR/HR NOTE: Dose rates based u on assumed use of 12 cc sam le. 9-9

TABLE 9.3B REACTOR COOLANT SYSTEM SAMPLE: GAS COLLECTION BOMB (Collection After 1000) Concentration (pCi/gm) Nuclide Corrected to Time of Shutdown Kr-85 7.6 E+00 Kr-85m 7.4 E+02 Kr-87 1.2 E+03 Kr-88 1.8 E+03 Xe-131m 9.8 E+01 Xe-133 6.3 E+03 Xe-133m 9.8 E+02 Xe-135 1.2 E+03 Xe-135m 1.2 E+02 Total Gas 1.2 E+04 Undiluted Sample Dose Rate at 1 Meter = 70 MR/HR Undiluted. Sample Dose Rate at Contact = 700 R/HR Diluted Sample Dose Rated at 1 Meter = 0.01 MR/HR Diluted Sample Dose Rate at Contact = 130 MR/HR

  • NOTE: Dose rates based u on assumed use of 12 cc sam le.

9-10

TABI E 9.4A PRIMARY COOLANT SAhhPLE: DEGASSED ACTIVITY (Collection Between 0825-1000) Concentration (UCI/GM) Nuclide Corrected to Time of Shutdown I-131 7.6 E+03 I-132 1.1 E+04 I-133 1.5 E+04 I-134 4.7 E+02 l-135 1.4 E+04 Cs-134 8.0 E+03 Cs-137 4.5 E+03 Ba-140 1.1 E+02 La-140 9.8 E+01 Total Iodine 4.7 E+04 I-131 Dose Equivalent 1.0 E+04 Total Degassed Activity 6.1 E+04 Undiluted Sample Dose Rate at 1 Meter = 280 MR/HR Undiluted Sample Dose Rate at Contact = 2800 R/HR Diluted Sample Dose Rated at 1 Meter = 0.05 MR/HR Diluted Sample Dose Rate at Contact = 500 MR/HR

  • NOTE: Dose rates based u on assumed use of 12 cc sam le.

9-11

TABLE 9.4B PRIMARY COOLANT SAMPLE: DEGASSED ACTIVITY (Collection After 1000) Concentration (UCI/GM} Nuclide Corrected to Time of Shutdown I-131 5.1 E+03 l-132 7.3 E+03 I-133 1.0 E+04 I-134 3.2 E+02 1-135 9.2 E+03 Cs-134 8.0 E+03 Cs-137 4.5 E+03 Ba-140 1.1 E+02 La-140 9.8 E+01 Total Iodine 3.2 E+04 I-131 Dose Equivalent 7.0 E+03 Total Degassed Activity 4.6 E+04 Undiluted Sample Dose Rate at 1 Meter = 190 MR/HR Undiluted Sample Dose Rate at Contact = 1900 R/HR Diluted Sample Dose Rated at 1 Meter = 0.03 MR/HR Diluted Sample Dose Rate at Contact = 340 MR/HR

  • NOTE: Dose rates based u on assumed use of 12 cc sam le.

9-12

TABLE 9.5A CONTAlNMENTSUMP SAMPLE: DEGASSED ACTIVlTY (Collection Between 1000 - 1115) Concentration (pCi/gm) Nuclide Corrected to Time of Shutdown I-131 3.6 E+02 I-132 5.2 E+02 I-133 7.3 E+02 l-134 2.2 E+01 l-135 6.6 E+02 Cs-134 2.2 E+02 Cs-137 1.2 E+02 Ba-140. 3.1 E+00 La-'l40 2.8 E+00 Total iodine 2.2 E+03 W31 Dose Equivalent 5.0 E+02 Total Degassed Activity 2.7 E+03 Undiluted Sample Dose Rate at 1 Meter = 13 MR/HR Undiluted Sample Dose Rate at Contact = 135 R/HR Diluted Sample Dose Rated at 1 Meter = 0.01 MR/HR Diluted Sample Dose Rate at Contact = 25 MR/HR

  • NOTE: Dose rates based u on assumed use of12 cc sam le.

9-13

TABLE 9.5A CONTAINMENTSUMP SAMPLE: DEGASSED ACTIVITY (Collection After 1115) Concentration (pCi/gm) Nuclide Corrected to Time of Shutdown l-131 6.7 E+02 l-132 9.9 E+02 I-133 1.4 E+03 l-134 4.2 E+01 I-135 1.2 E+03 Cs-134 8.4 E+02 Cs-137 4.8 E+02 Ba-140 1.2 E+01 La-140 1.0 E+01 Total Iodine 4.2 E+03 I-131 Dose Equivalent 9.5 E+02 Total Degassed Activity 5.7 E+03 Undiluted Sample Dose Rate at 1 Meter = 26 MR/HR Undiluted Sample Dose Rate at Contact = 260 R/HR Diluted Sample Dose Rated at 1 Meter = 0.01 MR/MR Diluted Sample Dose Rate at Contact = 46 MR/HR

  • NOTE: Dose rates based u on assumed use of12 cc sam le.

9-14

TABLE 9.6A CONTAINMENTAIR (Collection Between 1000-1115) SAMPLE'uclide Concentration (pCI/cc) Corrected to Time of Shutdown Kr-85 3.4 E-02 Kr-85m 3.2 E+00 Kr-87 5.4 E+00 Kr-88 8.1 E+00 Xe-131m 4.3 E-01 Xe-133 2.8 E+01 Xe-133m 4.3 E+00 Xe-135 5.4 E+00 Xe-135m 5.4 E-01 Total Gas 5.4 E+01 I-131 1.4 E+00 I-132 2.0 E+00 I-133 2.8 E+00 I-134 8.9 E-02 I-135 2.6 E+00 Total Iodine 8.9 E+00 Cs-134 2.5 E-06 Cs-137 1.0 E-04 Ba-140 3.1 E-06 La-140 3.0 E-06 Undiluted Sample Dose Rate at 1 Meter = 0.3 MR/HR Undiluted Sample Dose Rate at Contact = 3.0 R/HR Diluted Sample Dose Rated at 1 Meter = 0.01 MR/HR Diluted Sample Dose Rate at Contact = 0.5 MR/HR

  • NOTE: Dose rates based u on assumed use of 10 cc sam le.

9-15

TABLE 9.6B CONTAINMENTAIR SAMPLE: (Collection After 1115) Concentration (pCI/cc) Nuclide Corrected to Time of Shutdown Kr-85 1.9 E-02 Kr-85m 1.8 E+00 Kr-87 3.0 E+00 Kr-88 4.6 E+00 Xe-131m 2.4 E-01 Xe-1 33 1.6 E+01 Xe-133m 2.4 E+00 Xe-135 3.0 E+00 Xe-135m 3.0 E-01 Total Gas 3.0 E+01 I-131 6.0 E-01 I-132 8.6 E-01 I-133 1.2 E+00 I-134 3.8 E-02 I-135 1.1 E+00 Total iodine 3.8 E+00 Cs-134 1.0 E-06 Cs-1 37 6.0 E-05 Ba-140 2.1 E-06 La-140 2.1 E-06 Undiluted Sample Dose Rate at 1 Meter = 0.2 MR/HR Undiluted Sample Dose Rate at Contact = 1.6 R/HR Diluted Sample Dose Rated at 1 Meter = 0.01 MR/HR Diluted Sample Dose Rate at Contact = 0.3 MR/HR

  • NOTE: Dose rates based u on assumed use of 10 cc sam te.

9-16.

TABLE 9.7 CONTAINMENT HYDROGEN CONCENTRATION VIA PASS TIME HYDROGEN VOL.% 0700-0945 0.00 0946-1145 0.02-1146-1330 0.01 After 1330 0.00 9-16

TABLE 9.8 RCS AND SUMP BORONI H DATA ~Sam le Time m Boron pH RCS 0700-0945 <10 6.3 Sump <10 7.5 NOTE: Safet In'ection starts at 0945 hr LOCA RCS 0946-1115 1400 Sump 1100 RGS'ump After 1116 2300 5.2 2100 5.3 9-17

TABLE 9.9 CONTINUOUS AIR MONITOR READINGS IN AUXILIARYBUILDING (READINGS IN COUNTS PER MINUTE) 0700-0945 hrs: GAS IODINE PARTICULATE TOP FLOOR 60 200 100 INTERMEDIATEFLOOR 50 200 'IOO BASEMENT FLOOR 100 300 200 0946-1 115 hrs: TOP FLOOR 160 300 200 INTERMEDIATEFLOOR 160 300 200 BASEMENT FLOOR 200 400 300 1116-1 300 hrs: ALLCAMS ALARMING.ALL READINGS OFFSCALE HIGH. After 1300 hrs: TOP FLOOR 100 600,000

  • 600,000
  • INTERMEDIATEFLOOR 100 600,000 700,000
  • BASEMENT FLOOR 200 700,000 800,000 NOTE: * = CAM ALARMING 9-19

SECTION 10.0 METEOROLOGICAL AND OFFSITE RAl3IOLOGICALDATA 10-1

SECTION 10.1 METEOROLOGICAL D'ATA PLUME DIRECTION WEATHER FORECASTS AND TOWER DATA 10-2

Meteorolo ical Conditions A. Basis The meteorological conditions for this scenario were based upon historical meteorological data recorded by the Ginna primary weather d td 9 tt I IN tt 9 I ~97 1993. Ilt dtl ~ was performed on the data to provide the wind direction and atmospheric stability conditions required by the scenario during the period of release. National Weather Service and New York State Exercise controllers will provide Exercise participants weather forecast summaries based on the meteorological data and other supporting information available from the historical record. The goal of this approach is to provide participants with more realistic forecast information. Scenario Assum tions The scenario will begin with light, southwesterly winds which will shift and become northerly by mid-morning. During the period of release (1115-1245 hr), the average meteorological conditions are as follows: Wind Speed = 7 mph (at 33 ft) Wind Direction = 5 degrees (at 33 ft; wind from) Pasquill Stability = E 10-3

TABLE 10.1 4 WEATHER FORECAST INFORMATION JUNE 11, 1997 7:00 AM - 14:30 PM LAKE ONTARIO FORECAST: TODAY: A stationary high off of the Atlantic coast will dominate our weather during the early morning hours and provide tight southwesterly winds. A'eak high pressure system located in Canada will dip south during mid-day. As the front passes through our area, the winds will shift to be from the north. In the vicinity where the two high pressure systems meet, winds will be variable. The front will become stationary over the southern tier by rnid-afternoon. Temp'eratures will reach the mid-60's by mid-morning and remain there throughout the daytime hours as the cool Canadian high moves into our area. Winds will be between 5-10 mph. Probability of precipitation is 10% for today. For tonight, temperatures will retreat into the low 50's. 10-4

PRINTOUTS FROM GINNA PRIMARY MET. TOWER 

     =

(15-MINUTE AVERAGES) 10-5

06/11/97 07: 00 RECORD NUMBER 1316 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 3. 0 MPH 1.7 2.7 6.1 SPD 33B 3. 1 MPH 1.8 2.2 6.2 SPD150A 3. 2 MPH 0 2.1 2.5 6.1 SPD150B 2. 9 MPH 0 2.2 2.3 6.1 SPD250 2. 9 MPH 2.2 2.7 6.2 DIR 33A 230 DE 6 1.7 191 277 DIR 33B 231 DEG 1.8 192 271 DIR150A 239 DEG 2.1 197 277 DIR150B 238 DEG 1.7 191 275 DIR250 235 DEG 2 1 195 272 TER 33A 52.0 F TER 33B 52.2 F TER150A 51.0 F TER150B 51.2 F TER250A 50.0 F TER250B 50.1 F DT150-33A -1.0 F/ DT150-33B -1.0 F/ DT250-33A -2. 0 F/ DT250-33B -2.1 F/ DERPOINT 58.7 F 0.00 INCH 0 1.02 1.02 0.00

06/11/97 07:15 RECORD NUMBER 1317 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 3. 3 MPH 2.7 8.1 SPD 33B 3. 4 MPH 1.8 2.2 9.2 SPD150A 3. 5 MPH 2.1 2.5 9.1 SPD150B 3. 2 MPH 2.2 2.3 8.1 SPD250 3. 3 MPH 2.2 2.7 9.2 DIR 33A 241 DEG 1.7 191 277 DIR 33B 242 DEG 1.8 192 271 DIR150A 249 DEG 2.1 197 277 DIR150B 248 DEG 191 275 DIR250 245 DEG 2.1 195 272 TER 33A 53.1 F TER 33B 53.3 F TER150A 52.2 F 0 TER150B 52.4 F TER250A 51.3 F TER250B 51.4 F DT150-33A -0.9 F/ 0 DT150-33B -0.9 F/ DT250-33A -1.8 F/ DT250-33B -1.9 F/ DEHPOINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

1 06/11/97 07:30 RECORD NUMBER 1318 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 3. 7 MPH 1.7 2.7 6.1 SPD 33B 3. 7 MPH 1.8 2.2 6.2 SPD150A 3. 9 MPH 2.1 2.5 6.1 SPD150B 3. 6 MPH 2.2 2.3 6.1 SPD250 3. 6 MPH 2.2 . 2.7 6.2 DIR 33A 252 DEG 1.7 231 317 DIR 33B 252 DEG 1.8 232 311 DIR150A 259 DEG 2.1 237 317 DIR150B 258 DEG 1.7 231 315 DIR250 256 DEG 2.1 235 312 TER 33A 54.1 F TER 33B 54.3 F TER150A 53.3 F TER150B 53.5 F TER250A 52.5 F TER250B 52.6 F DT150-33A -0.8 F/ DT150-33B F 

                -0.8 F/

DT250-33A -1 ' F/ DT250-33B -1.7 F/ DE%POINT 58.7 F RAIN 0.00 INCH 1.02 1.02 0.00

06/11/97 07:45 RECORD NUMBER 1319 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 4. 0 MPH 1.7 1.7 6.1 SPD 33B 4. 0 MPH 1.8 1.2 6.2 SPD150A 4.2 MPH 0 2.1 1.5 6.1 SPD150B 3. 9 MPH 0 2.2 1.3 6.1 SPD250 4.0 MPH 2.2 1.7 6.2 DIR 33A 262 DEG 1.7 221 317 DIR 33B 263 DEG 1.8 222 311 DIR150A 269 DEG 2.1 227 317 DIR150B 268 DEG 1.7 221 315 DIR250 266 DEG 2.1 225 312 TER 33A 55.2 F TER 33B 55.4 F TER150A 54.5 F 0 TER150B 54.7 F TER250A 53.8 F TER250B 53.9 F DT150-33A -0.7 F/ DT150-33B -0.7 F/ DT250-33A -1.4 F/ DT250-33B -1.5 F/ DEWPOINT 58.7 F 0.00 INCH 1.02 1.02 0.00

06/11/97 08:00 RECORD NUMBER 1320 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 4.3 MPH 1.7 2.7 6.1 SPD 33B 4.4 MPH 1.8 2.2 6.2 SPD150A 4. 5 MPH 2.1 2.5 6.1 SPD150B 4.3 MPH 2.2 2.3 6.1 SPD250 4.4 MPH 2.2 2.7 6.2 DIR 33A 273 DEG 1.7 231 DIR 33B 274 DEG 1.8 232 311 DIR150A 272 DEG 2.1 237 317 DIR150B 278 DEG 1.7 231 315 DIR250 276 DEG 2.1 235 312 TER 33A 56.3 F TER 33B 56.5 F TER150A 55.6 F TER150B 55.8 F TER250A 55.0 F TER250B 55.1 F DT150-33A -0.7 F/ DT150-33B -0.7 F/ DT250-33A -1.3 F/ DT250-33B -1.4 F/ DE%POINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

06/11/97 08: 15 RECORD NUMBER 1321 G1NNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN SPD 33A 4. 7 MPH 1-7 2 7, 6.1 SPD 33B 4. 6 MPH 1.8 2.2 6.2 SPD150A 4. 9 MPH 2.1 2.5 6.1 SPD150B 4. 6 MPH 2.2 2.3 6.1 SPD250 4. 7 MPH 2.2 2.7 6.2 DIR 33A 284 DEG 1.7 231 317 DIR 33B 284 DEG 1.8 232 311 DIR150A 289 DEG 237 317 2.1'.7 DIR150B 288 DEG 231 315 DIR250 287 DEG 2.1 235 312 TER 33A 57.3 F TER 33B 57.5 F TER150A 56.8 F TER150B 57.0 F TER250A 56.3 F TER250B 56.4 F DT150-33A -0. 6 F/ DT150-33B -0.6 F/ DT250-33A 1 F/ DT250-33B -1 ' F/ DERPOINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

06/11/97 08: 30 RECORD NUMBER 1322 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 5. 0 MPH 1.7 , 2' 6.1 SPD 33B 5. 0 MPH 1.8 2.2 6.2 SPD150A 5. 2 MPH 2.1 2.5 6.1 SPD150B 5. 0 MPH 2.2 2.3 6.1 SPD250 5. 1 MPH 2.2 2.7 6.2 DIR 33A 295 DEG 1.7 241 317 DIR 33B 295 DEG 1.8 242 311 DIR150A 299 DEG 2.1 247 317 DIR150B C 298 DEG 1.7 241 315 DIR250 297 DEG 2.1 245 312 TER 33A 58.4 F TER 33B 58.6 F TER150A 57.9 F TER150B 58.1 F TER250A 57.5 F TER250B 57.6 F DT150-33A -0.5 F/ DT150-33B -0.5 F/ DT250-33A -0.9 F/ DT250-33B -1.0 F/ DERPOINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

06/11/97 08:45 RECORD NUMBER 1323 GINNA PLANT ORIGINAL SENSOR 'AME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 5. 3 MPH 1.7 2' 6.1 SPD 33B 5. 3 MPH 1.8 2.2 6.2 SPD150A 5.5 2.1 2.5 6.1 SPD150B 5.3 MPH 2.2 2-3 ~ 6.1 SPD250 5.5 MPH 2.2 2.7 6.2 DIR 33A 305 DEG 1.7 . 241 337 DIR 33B 306 DEG 1.8 242 331 DIR150A 308 DEG 2.1 247 337 DZR150B 307 DEG 1.7 241 335 DIR250 307 DEG 2.1 245 332 TER 33A 59.5 F TER 33B 59.7 F TER150A 59.1 F 0 TER150B 59.3 F TER250A 58.8 .F .0 TER250B 58.9 F DT150-33A -0.4 F/ DT150-339 -0.4 F/ D T250-33A -0.7 F/ DT250-33B -0.8 F/ DEHPOINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

06/11/97 09: 00 RECORD NUMBER 1324 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN SPD 33A 5. 7 MPH 1.7 1.7'. 1 SPD 33B 5. 6 MPH 1.8 1.2 4.2 SPD150A 5. 9 MPH 2.1 1.5 4.1 SPD150B 5. 6 MPH 2.2 4.1 SPD250 5. 8 MPH 2.2 1.7 4.2 DIR 33A 316 DEG 1.7 241 347 DIR 33B 316 DEG 1.8 242 341 DIR150A 318 DEG 2.1 247 347 DIR150B 317 DEG 'l. 7 241 355 DIR250 318 DEG 2.1 245 352 TER 33A 60.5 F TER 33B 60.7 F TER150A 60.2 F TER150B 60.4 F TER250A 60.0 F TER250B 60.1 F DT150-33A -0.3 F/ DT150-33B -0.3 F/ DT250-33A -0.5 F/ DT250-33B -0.6 F/ DE%POINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

06/11/97 09:15 RECORD NUMBER 1325 GINNA PLANT ORIG1NAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN SPD 33A 6. 0 MPH 1.7 2. 7'.1 SPD 33B 5. 9 MPH 1.8 2.2 6.2 SPD150A 6. 2 MPH 2.1 2.5 6.1 SPD150B 6. 0 MPH 2.2 2.3 6.1 SPD250 6. 2 MPH 2.2 2.7 6.2 DIR 33A 327 DEG 1.7 291 397 DIR 33B 327 DEG 1.8 292 391 DIR150A 328 DEG 2.1 287 397'91 DIR150B 327 DEG 1.7 395 DIR250 328 DEG 2.1 295 392 TER 33A 61.6 F TER 33B 61.8 F TER150A 61.4 F TER150B 61.6 F TER250A 61.3 F TER250B 61.4 F DT150-33A -0.2 F/ DT150-33B -0.2 F/ DT250-33A -0.3 F/ DT250-33B -0.4 F/ DEWPOINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

06/11/97 09:30 RECORD NUMBER 1326 GINNA PLANT ORIGINAL SENSOR NARK AVERAGE UNIT CODE STDDEV, MIN MAX SPD 33A 6. 3 MPH 1.7 2.7 8.1

6. 2 1.8 2.2 8.2 SPD 33B SPD150A 6. 5 MPH MPH 2.1 2.5 '.1 SPD150B 6. 3 MPH 0 2.2 2.3 8.1 SPD250 6. 6 MPH 2.2 2.7 8.2 DIR 33A 338, DEG 301 377 DIR 33B 338 DEG 1.8 302 371 DIR150A 338 DEG 2.1 307 377 DIR150B 337 DEG 1.7 301 375 DIR250 338 DEG 2.1 305 372 TER 33A 62.7 F TER 33B 62.9 F TER150A 62.5 F TER150B 62.7 F TER250A 62.5 F TER250B 62.6 F DT150-33A -0.2 F/

DT150-33B -0.2 F/ DT250-33A -0.2 F/ DT250-33B -0.3 F/ DERPOINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

06/ll/97 09: 45 RECORD NUMBER 1327 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 6. 7 MPH 1.7 9.1 

                                                 '.2 4.7'.8 SPD 33B            6. 5  MPH                                    9.2 SPD150A             6. 9  MPH               2.1                  9.1 SPD150B             6. 7                    2.2     4.3          9.1 SPD250              6. 9 MPH MPH               2.2 '.7              9.2 DIR 33A             348   DEG               1.7    291            17 DIR 33B             348   DEG               1.8    322 DIR150A           , 348   DEG               2.1    327 DIR150B             347   DEG               1.7    321 DIR250              349   DEG               2.1    325           .12 TER 33A           63.7 F TER 33B           63.9 F TER150A           63.7 F TER150B           63.9    F TER250A           63.8 F TER250B           63.9 F DT150-33A         -O.l F/

DT150-33B -0.1 'F/ DT250-33A 0.0 F/ DT250-33B -0.1 F/ DE%POINT 58.7 F RAIN 0.00 INCH 1.02 1.02 0.00

06/11/97 10- 00 RECORD NUMBER 1328 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE I UN T CODE STDDEV MIN MAX SPD 33A 7. 0 MPH 1.7 3. 7'.1 SPD 33B 6. 8 MPH 1.8 4.2 9.2 SPD150A 7. 2 MPH 2.1 ,3.5 9.1 SPD150B 7. 0 MPH 2.2 9.1 SPD250 7. 3 MPH 0 2.2 3.7 9.2 DIR 33A 359 DEG 1.7 311 17 DIR 33B 359 DEG 1.8 312 DIR150A 358 DEG 2.1 317 17 DIR150B 357 DEG 1.7 311 15 DIR250 359 DEG 2.1 315 12 TER 33A 64.8 F 0 TER 33B 65.0 F TER150A 64.8 F TER150B 65.0 F TER250A 65.0 F TER250B 65.1 F DT150-33A 0-0 F/ DT150-33B 0.0 F/ DT250-33A 0.2 F/ DT250-33B 0.1 F/ DE%POINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

06/11/97 10: 15 RECORD NUMBER 1329 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 7. 0 MPH 1.7 4.7 9.1 SPD 33B 6. 9 MPH 1.8 4.2 9.2 . SPD150A 7. 1 MPH 2.1 4.5 9.1 SPD150B 7. 1 MPH 2.2 9.1 SPD250 7. 3 MPH 2.2 4.7 9.2 DIR 33A 1 DEG 1. 7 341 DIR 33B 3 DEG 1.8 342 31 DIR150A 3 DEG 2.1 347 37 DIR150B 2 DEG 1.7 341 35 DIR250 1 DEG 2.1 345 32 TER 33A 64.9 F TER 33B 65.0 F TER150A 64.9 F TER150B 65.0 F TER250A 65.0 F TER250B '65. 1 F DT150-33A 0.0 F/ DT 150-33B 0.0 F/ 0 DT250-33A 0.2 F/ DT250-33B 0.1 F/ DEWPOINT 58.7 F RAIN 0.00 INCH 1.02 1.02 0.00

06/11/97 10:30 RECORD NUMBER 1330 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 7. 0 MPH 1.7 4.7'.1 SPD 33B 7. 0 MPH, 1.8 4.2 9.2 SPD150A 7. 0 MPH 2.1 9.1 SPD150B 7. 2 MPH 2.2 4.3 9.1 SPD250 7. 3 MPH 2.2 4.7 9.2 DIR 33A 0 DEG 1.7 321 17 DIR 33B 2 DEG 1.8 332 21 DIR150A 4 DEG 2.1 347 DIR150B 1 DEG 1.7 341 35 DIR250 6 DEG 2.1 345 32 TER 33A 64.9 F TER 33B 65.0 F TER150A 65.0 F TER150B 64.9 F TER250A 65.0 F TER250B 65.0 F DT150-33A 0.0 F/ DT150-33B -0.1 F/ DT250-33A 0.1 F/ DT250-33B 0.0 F/ DE%POINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

06/11/97 10:45 RECORD NUMBER 1331 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 7. 0 MPH 1.7 3.T 9.1 SPD 33B 7. 0 MPH 1.8 4.2 9.2 SPD150A 6. 9 MPH 2.1 3.5 9.1 SPD150B 7. 2 MPH 2.2 4.3 9.1 SPD250 7. 3 MPH 2.2 3.7 9.2 DIR 33A 2 DEG 1.7 DIR 33B 4 DEG 1.8 342 DIR150A 2 DEG 2.1 347 DIR150B 5 DEG 1.7 341 65 DIR250 3 DEG 2.1 62 TER 33A 65.0 F TER 33B 64.9 F TER150A 65.0 F TER150B 64.9 F TER250A 65.0 F TER250B 65.0 F DT150-33A 0.1 F/ DT150-33B -0.1 F/ DT250-33A 0.1 F/ DT250-33B 0.0 F/ DERPOINT 58.7 F 0.00 INCH 0 1.02 1.02 0.00

06/11/97 11: 00 RECORD NUMBER 1332 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 7. 0 MPH 1.7 3. 7'.1 SPD 33B 7. 1 MPH 1.8 4.2 9.2 SPD150A 6. 8 MPH 2.1 3.5 9.1 SPD150B 7. 3 MPH 2.2 4.3 9.1 SPD250 7. 3 MPH 2.2 3.7 9.2 DIR 33A 0 DEG 1.7 341 67 DIR 33B 2 DEG 1.8 342 61 DIR150A 3 DEG 2. 1 347 67 DIR150B 1 DEG 1.7 341 65 DIR250 2 DEG 2.1 345 62 TER 33A 65.0 F TER 33B 64.9 F TER15QA 65.1 F TER150B 64.8 F TER250A 65.0 F TER250B 64.9 F DT150-33A 0.1 F/ DT150-33B -O.1 F/ DT250-33A O.O F/ DT250-33B 0.0 F/ DEWPOINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

06/11/97 11: 15 RECORD NUMBER 1333 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 7. 1 MPH 1.7 3. 9.1 7'.2 SPD 33B 7.2 MPH 1.8 9.2 SPD150A 6. 8 MPH 2.1 3.5 9.1 SPD150B 7.2 MPH 2.2 4.3 9.1 SPD250 7. 2 MPH 2.2 3.7 9.2 DIR 33A 1 DEG 1. 7 341 67 DIR 33B 2 DEG 1.8 342 61 DIR150A 4 DEG 2.1 347 67 DIR150B 2 DEG 1.7 341 65 DIR250 2 DEG 2.1 345 62 TER 33A 65.0 F TER 33B 65.0 F TER150A 1 6M ~ w ~ TER150B 64.9 F TER250A 65.1 F TER250B 65.0 F DT150-33A 0.0 F/ DT150-33B -0.1 F/ DT250-33A 0.1 F/ DT250-33B 0.0 F/ DEWPOINT 58.7 F RAIN 0.00 INCH 1.02 1.02 0.00

06/11/97 11:30 RECORD NUMBER 1334 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 7,. 1 MPH 1.7 3.7 9.1 SPD 33B 7. 2 MPH 1.8 4.2 9.2 SPD150A 6. 9 MPH 2.1 3.5 9.1 SPD150B 7.2 MPH 2.2 4.3 SPD250 7. 1 MPH 2.2 3.7 9.2 DIR 33A 1 DEG 341 DIR 33B 3 DEG 1.8 342 61 DIR150A 4 DEG 2.1 DIR150B 4 DEG 1. 7 341 65 DIR250 2 DEG 2.1 345 62 TER 33A 65.1 F TER 33B 65.0 F TER150A 65.0 F 0 TER150B 65.0 F TER250A 65.2 F TER250B 65.0 F DT150-33A 0.0 F/ DT150-33B 0.0 DT250-33A 0.1 F/ DT250-33B 0.0 F/ DE%POINT 58.7 F 0 RAIN 0.00 INCH 0 1.02 1.02 0.00

06/11/97 11: 45 RECORD NUMBER 1335 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 7. 2 MPH 1.7 3.7'.2 9 ' SPD 33B 7. 3 MPH 1.8 9.2 SPD150A 6. 9 MPH 2.1 9.1 SPD150B 7. 1 MPH 2.2 4.3 9.1 SPD250 6. 9 MPH 2.2 3.7 9.2 DIR 33A 2 DEG 1.7 341 DIR 33B 3 DEG 1.8 342 61 DIR150A 5 DEG 2.1 347 67 DIR150B 5 DEG 1.7 341 65 DIR250 2 DEG 2.1 62 TER 33A 65.1 F TER 33B 65.1 F TER150A 65.0 F TER150B 65.1 F TER250A 65.2 F TER250B 65.1 F DT150-33A -0.1 F/ DT150-33B 0.1 F/ DT250-33A 0.2 F/ DT250-33B 0.0 F/ DEWPOINT 58.7 F 0.00 INCH 0 1.02 1.02 0.00

06/11/97 12: 00 RECORD NUMBER 1336 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 7.2 MPH 1.7 9.1 SPD 33B 7. 3 MPH 1.8 4.2 9.2 SPD150A 6. 9 MPH 2.1 3.5 9.1 SPD150B 7. 0 MPH 2.2 4.3 9.1 SPD250 6. 8 MPH 2.2 9.2 DIR 33A 2 DEG 1. 7 341 67 DIR 33B 3 DEG 1.8 342 61 DIR150A 5 DEG 0 2.1 347 DIR150B 6 DEG 1.7 341 DIR250 2 DEG 2.1 345 62 TER 33A 65.1 F TER 33B 65.1 F TER150A 64.9 F TER150B 65.2 F TER250A 65.3 F TER250B 65.1 F 0 DT150-33A -0.2 F/ DT150-33B 0.1 F/ DT250-33A 0.2 F/ DT250-33B 0.0 F/ DERPOINT 58.7 F FAIN 0.00 INCH 0 1.02 1.02 0.00

06/11/97 12'15 RECORD NUMBER 1337 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 7.2 MPH 1.7 9.1 SPD 33B 7. 3 MPH 1.8 4.2 9.2 SPD150A 7. 1 MPH 2.1 3.5 9.1 SPD150B 7. 1 MPH 2.2 9.1 SPD250 6. 9 MPH 2.2 3.7 9.2 DIR 33A 3 DEG 1.7 341 67 DIR 33B 3 DEG 1.8 342 61 DIR150A 5 DEG 2.1 67 DXR150B 5 DEG 1.7 341 65 DIR250 3 DEG 2.1 345 62 TER 33A 65.0 F TER 33B 65.2 F TER150A 65.0 F TER150B 65.2 F TER250A 65.2 F TER250B 65.1 F DT150-33A 0.0 F/ DT150-33B 0.1 F/ DT250-33A 0.2 F/ DT250-33B -0.1 F/ DERPOINT 58.7 F RAIN 0.00 INCH 1.02 1.02 0.00

06/11/97 12: 30 RECORD NUMBER 1338 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 7. 1 MPH 1.7 3.7'.2 9.1 SPD 33B 7. 2 MPH 1.8 9.2 SPD150A 7.2 MPH 2.1 9.1 SPD150B 7. 2 MPH 2.2 4.3 9.1 SPD250 7'. 0 MPH 2.2 3.7 9.2 DIR 33A 4 DEG 1.7 341 67 DIR 33B 4 DEG 1.8 342 61 DIR150A 4 DEG 2. 1 347 DIR150B 4 DEG 1. 7 341 65 DIR250 3 DEG 2. 1 345 62 TER 33A 65.0 F ~ TER 33B 65.2 F TER150A TER150B 65.2 F TER250A 65.1 F TER250B 65.1 F DT150-33A 0.2 F/ DT150-33B O.O F/ DT250-33A 0.1 F/ DT250-33B -0.1 F/ DEWPOINT 58.7 F 0.00 INCH 0 1.02 1.02 0.00

06/11/97 12: 45 RECORD NUMBER 1339 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN SPD 33A 7. 1 MPH 1.7 3.7 9.1 SPD 33B 7.2 MPH 1.8 3.2 9.2 SPD150A 7. 4 MPH 2.1 3.5 9.1 SPD150B 7. 3 MPH 2.2 3.3 9.1 SPD250 7. 1 MPH 2.2 3.7 9.2 DIR 33A 3 DEG 1.7 341 67 DIR 33B 4 DEG 1.8 342 61 DIR150A 4 DEG 2.1 347 67 DIR150B 3 DEG 1.7 341 65 DIR250 4 DEG 2.1 345 62 TER 33A 64.9 F TER 33B 65.3 F TER150A 65.2 F TER150B 65.2 F TER250A 64.9 F TER250B 65.0 F DT150-33A 0.3 F/ DT150-33B 0.0 F/ DT250-33A 0.1 F/ DT250-33B -0.2 F/ DEWPOINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

06/11/97 13: 00 RECORD NUMBER 1340 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 7. 0 MPH 1.7 4.7 9.1 SPD 33B 7. 1 MPH 1.8 4.2 9.2 SPD150A 7. 5 MPH 2.1 4.5 9.1 SPD150B 7. 4 MPH 2.2 4.3 9.1 SPD250 7. 2 MPH 2.2 4.7 9.2 DIR 33A 5 DEG 1.7 DIR 33B 4 DEG 1.8 342 61 DIR150A 3 DEG 2.1 347 67 DIR150B 2 DEG 1.7 341 65 DIR250 4 DEG 2.1 345 62 TER 33A 64.8 F TER 33B 65.3 F TER150A, 65.3 F TER150B 65.2 F TER250A 64.8 F TER250B 65.0 F DT150-33A 0.5 F/ DT150-33B -0.1 F/ DT250-33A 0.0 F/ DT250-33B -0.3 F/ DERPOINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

06/ll/97 13:15 " RECORD NUMBER 1341 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 7. 0 MPH 1.7 3.7 9.1 SPD 33B 7. 1 MPH 1.8 4.2 9.2 SPD150A 7. 4 MPH 2.1 9.1 SPD150B 7. 3 MPH 2.2 9.1 SPD250 7. 1 MPH 2.2 3.7 9.2 DIR 33A 5 DEG 1. 7 341 67 DIR 33B 4 DEG 1.8 342 61 DIR150A 3 DEG 2.1 347 67 DIR150B 2 DEG 1.7 341 DIR250 4 DEG 2.1 345 62 TER 33A 64.9 F 0 TER 33B 65.3 F TER150A 65.3 F 0 TER150B 65.2 F TER250A 64.8 F TER250B 65.1 F DT150-33A 0.4 F/ DT150-33B 0.0 F/ DT250-33A 0.0 F/ DT250-33B -0.2 F/ DE%POINT 58.7 F RAIN 0.00 INCH 1.02 1.02 0.00

06/11/97 13: 30 RECORD NUMBER 1342 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 6. 9 MPH 1.7 3.7 9.1 SPD 33B 7. 0 MPH 1.8 4.2 9.2 SPD150A 7. 3 MPH 2.1 3.5 9.1 SPD150B 7;3 MPH 2.2 ~ 3.3 9.1 SPD250 7.1 MPH 2.2 3.7 9.2 DIR 33A 5 DEG 1.7 341 67 DZR 33B 5 DEG 1.8 DIR150A 2 DEG 2.1 67 DZR150B 3 DEG 1.7 341 65 DZR250 3 DEG 2.1 62 TER 33A 65.0 F TER 33B 65.3 F TER15CA 65.2 F TER150B 65.3 F TER250A 64.9 F TER250B 65.1 F DT150-33A 0.3 F/ DT150-33B 0.0 F/ DT250-33A -0.1 F/ DT250-33B -0.1 F/ DE%POINT 58.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00

06/11/97 13: 45 RECORD NUMBER 1343 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 6. 9 MPH 1.7 3.7 9.1 SPD 33B 7. 0 MPH 1.8 3.2 9.2 SPD150A 7. 1 MPH 2.1 3.5 9.1 SPD150B 7.2 MPH 2.2 3.3 9.1 SPD250 7. 0 MPH 2.2 3.7 9.2 DIR 33A 4 DEG 1.7 67 DIR 33B 5 DEG 1.8 342 61 DIR150A 2 DEG 2.1 347 67'5 DIR150B 3 DEG 1.7 341 DIR250 3 DEG 2.1 345 62 TER 33A 65.0 F 0 TER 33B 65.2 F TER150A 65.2 F TER150B 65.3 F TER250A '64. 9 F TER250B 65.2 F DT150-33A 0.1 F/ DT150-33B 0.0 F/ DT250-33A -0.1 F/ DT250-33B -0.1 F/ DE%POINT 58.7 F RAIN 0.00 INCH " 1.02 1.02 0.00

06/11/97 14:00 RECORD NUMBER 1344 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 6. 8 MPH 1.7 4.7 9.1 SPD 33B 6. 9 MPH 1.8 4.2 9.2 SPD150A 7. 0 MPH 2.1 4.5 9.1 SPD150B 7. 1 MPH 2.2 4.3 9.1 SPD250 6. 9 MPH 2.2 9.2 DZR 33A 4 DEG 1.7 67 DZR 33B 5 DEG 1.8 DZR150A 1 DEG 2.1 347 67 DZR150B 3 DEG 1.7 341 65 DIR250 2 DEG 2.1 62 TER 33A 65.1 F 0 TER 33B 65.2 F TER15QA 65.1 F TER150B 65.3 F TER250A 64.9 F TER250B 65.2 F DT150-33A 0.0 F/ DT150-33B 0.1 F/ 

         'T250-33A
                      -0.2 F/

DT250-33B 0.0 F/ DEWPOZNT 58.7 F RAIN 0.00 1NCH 1.02 1.02 0.00

SECTION 10.2 FIELD DATA AND MAPS 10-6

TABLE 10.2 PLUME ARRIVAL/DEPARTURETIMES ARRIVAL 'EPARTURE *'*N I.E 11:19 12:49 1.0 11:23 12:53 2.0 11:32 13:02 3.0 11:40 13:10 4.0 11:49 13:19 5.0 11:57 13:27 6.0 12:06 13:36 12:15 13:45 8.0 12:23 13:53 9.0'2:40 '4:02 10.0 12:49 14:10 11.0 12:57 14:19 12.0 13:06 14:27 13.0 13:15 14:36 14.0 13:23 14:45 15.0 13:40 14:53 NOTES:

  • After indicated arrival time, refer to offsite radiological data shown on Table 10.3 the zone of interest.
. After indicated departure time, all dose rates (mr/hr) wilt be background. For ground deposition readings, refer to post-plume radiological data shown on Tables 10.4 and 10.5.

10-7

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F 97Er2.xls TABLE 10.3B RADIOLOGICALSURVEY DATA (COUNTY SURVEY TEAMS) CLOSED CLOSED OPEN OPEN DOSIMETRY WINDOW AT WINDOW ON WINDOWAT WINDOW ON INCREMENT IODINE PARTICULATE 3 FEET CONTACT 3 FEET CONTACT EXPOSURE CARTRIDGE FILTER ZONE (mR/hr) (mR/hr) (mR/hr) (mR/hr) (mREM) (CPM) (CPM) 1547 2509 2509 300 3500 12,300 724 724 1174 1174 125 1700 5000 323 323 524 524 50 800 2000 

'D           151            151             245             245                             400           900 93             93             150             150              12             250           530 30             30              50              50               7             180           340 G            18             18              29              29                             140           220 12             12              19              19                             110           160 15              15                             100           130 NOTES:
1) Dose rate readings apply to Victoreen 450 dose rate instrument or equivalent.
2) Dosimeter incremental exposure assumes a 15-minute stay-time in the particular zone of interest.
3) Air samples assume use of RADECO H-809C air sampler or equivalent. Volume assumed is approximately 250 liters (25 Ipm for 10 mimutes), and field reading is with E-140 and a HP-210 probe.

Page 2

1 FIE r2.xls 7 TABLE 10.3A RADIOLOGICALSURVEY DATA (RG&E SURVEY TEAMS) CLOSED CLOSED OPEN OPEN DOSIMETRY WINDOWAT WINDOW ON WINDOW AT WINDOW ON INCREMENT IODINE PARTICULATE 3 FEET CONTACT 3 FEET CONTACT EXPOSURE CARTRIDGE FILTER ZONE (mR/hr) (mR/hr) (mR/hr) (mR/hr) (mREM) (CPM) (CPM) 1547 1547 2509 2509 300 2100 9700 724 724 1174 1174 125 1010 4300 323 323 524 524 50 490 2000 151 151 245 245 22 250 950 93 93 150 150 12 170 600 30 30 50 50 130 220 G 18 18 29 29 100 150 12 12 19 19 80 110 15 15 70 90 NOTES:

1) Dose rate readings apply to Victoreen 450 dose rate instrument or equivalent.
2) Dosimeter incremental exposure assumes a 15-minute stay-time in the particular zone of interest.
3) Air samples assume use of RADECO H-809C air sampler or equivalent. Volume assumed is approximately 150 liters (25 Ipm for 6 minutes), and field reading is with HP-260.

Page 1

TABLE 10.4 4 POST-PLUME SURVEY DATA (FOR PANCAKE PROBES IN CPM) ZONE 1 METER 1CM A 2700 50,000 B 1300 27,000 C 570 12,000 D 270 5700 E 160 3500 F 110'9 2300 G 1500 H 49 1100 I BKG 830 POST-PLUME SURVEY DATA (FOR END WINDOW PROBES IN CPM) ZONE 1 METER 1CM 

               ,. A              1700                23,000 B               ?80                11,000 C               350                 4900 D               160                 2300 E               100                 1400 F                66                  920 G              BKG                   590 H              BKG                  420 I              BKG                   330 NOTE: BKG = Use actual back round readin    of surve instrument bein used.

10-8

TABLE 10.6 POST-PLUME SURVEY DATA (FOR pR METERS IN pR/HR) ZONE 1 METER 1CM A 760 1300 B 350 600 G 160 270 D 74 130 E 46 77 F BKG BKG G BKG BKG H BKG BKG I BKG BKG NOTE: BKG = Use actuaI back round readin of surve instrument bein used. 10-9

SECTION 10.3 FIELD AIR SAMPLE ISOTOPIC DATA 10-10

TABLE 10.6 GROUND DEPOSITION ISOTOPIC ACTIVITYFOR SOIL SAMPLES TOTAL GROUND I-131 I-133 CS-134 CS-137 BA-140 LA-140 SR-89 pCI/M2 SR-90 pCI/M2 ZONE ACTIV)TY pCI/M2 pCI/M2 pCI/M2 pCI/M2 pCI/M2 pCI/M2 pCI/M2 5.84E+01 1.11E+01 2.14E+01 1.29E-02 5.94E-03 3.10E-04 3.07E-04 1.41E-05 1.29E-05 2.73E+01 5.20E+00 9.99E+00 6.02E-03 2.7&E-03 1.45E-04 1 44E-04 6.61E-06 6.02E-06 1.22E+01 2.32E+00 4.47E+00 2.69E-03 1.24E-03 6.49E-05 6.43E-05 2.96E-06 2.69E-06 5.70E+00 1.09E+00 2.09E+00 1.26E-03 5.81E-04 3.03E-05 3.00E-05 1.38E-06 1.26E-Q6 3.51E+00 6.67E-O'I 1.28E+00 7.73E-04 3.57E-04 1.86E-05 1.85E-1I5. 8.49E-07 7.73E-07 2.30E+00 4.38E-01 8.43E-01 5.0&E-04 2.35E-04 1.22E-05 1.21E-05 5.5&E-07 5.0&E-07 G 1.47E+00 2.80E-01 5.38E-01 3.24E-04 1.50E-04 7.81E-06 7.74E-06 3.56E-07 3.24E-07 1.06E+00 2.01E-01 3.86E-01 2.33E-04 1,0&E-04 5.61E-06 5.56E-06 2.56E-07 2.33E-07 8.33E-01 1.59E-01 3.05E-01 1.84E-04 8.4&E-05 4.43E-06 4.39E-06 2.02E-07 1.84E-07 NOTE: To convert to uCi/Kg, use the following factors: Soil Sam le De th Conversion 1 cm uCi/M2 /20 2.5 cm uCi/M2 /50 5cm uCi/M2 /100 10-11

TABLE 10.7A AIR FILTER ISOTOPIC ACTIVITY TOTAL PARTICULATE I-131 I-1 p2 I-133 I-134 I-135 Rb-88 Cs-134 Cs-137 ZONE FILTER pCI/cc pCI/cc pCi/cc pCI/cc pCI/cc pCi/cc pCI/cc pCI/cc ACTIVITY pCllcc 9.06E-05 1.44E-08 3.81E-09 4.88E-Q& 1.15E-10 2.33E-08 5.85E-05 2.39E-10 1.10E-10 3.86E-05 6.15E-09 1.62E-09 2.08E-08 4.90E-11 9.92E-09 2.49E-05 1.02E-10 4.70E-11 1.56E-05 2.4&E-09 6.56E-10 8.40E-09 1.9&E-11 4.00E-QS 1.01E-05 4.11E-11 1.90E-11 D 6.62E-06 1.06E-09 2.7SE-10 3.57E-09 8.41E-12 1.70E-09 4.28E-06 1.74E-11 8.07E-12 3.82E-06 6.10E-10 1.61E-10 2.06E-09 4.85E-12 9.83E-10 2.47E-06 1.01E-11 4.66E-12 2.34E-06 3.73E-10 9.83E-11 1.26E-09 2.97E-12 6.01E-10 1.51E-06 6.16E-12 2.85E-12 1.38E-06 2.20E-10 5.79E-11 7.43E-10 1.75E-12 3.54E-10 8.90E-07 3.63E-12 1.68E-12 9.24E-07 1.47E-10 3.89E-11 4.9&E-10 1.17E-12 2.38E-10 5.97E-07 2.43E-12 1.13E-12 6.98E-07 1.11E-10 2.93E-11 3.76E-10 8.85E-13 1.79E-10 4.51E-07 1.84E-12 8.50E-13 10-12

TABLE 10.7B IODINE CARTRIDGE ISOTOPiC ACTIVITY TOTAL IODINE 1-131 I-132 I-133 1-134 I-135 ZONE CARTRIDGE pCI/cc pCI/cc pCI/cc pCI/cc pCllcc ACTIVITY pCI/cc 3.21E-05 6.88E-06 3.47E-06 1.25E-05 5.75E-07 8.62E>>06 B g 1.37E-05 2.93E-06 1 48E-06 5.34E-06 2.45E-07 3.67E-06 C  ! 5.52E-06 1.18E-06 5.96E-07 2.15E-06 9.89E-OB 1.48E-06 D 2.34E-06 5.03E-07 2.53E-07 9.16E-O? 4.20E-OB 6.30E-O? 

     . 1.35E-06  2.9QE-O? 1.46E-O? 5.29E-07 2.43E-OB 3.64E-O?
       '8.27E-07 1.7?E-O? 8.94E-QB 3.23E-07 1.48F-OB 2.22E-07 4.87E-07 1.05E-07 5.27E-QB 1.90E-07 8.74E-09 1.31E-O?

3.27E-07 7.02E-OB 3.53E-OB 1.28E-07 5.86E-09 B.BOE-OB 2.47E-07 5.30E-OB 2.67E-OB 9.64E-OB 4.43E-09 6.64E-OB 10-13

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