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Re Ginna Emergency Preparedness Exercise Manual:1995 Plume Exposure Emergency Preparedness Exercise.
	ML17309A597
Person / Time
Site:	Ginna
Issue date:	12/06/1995
From:	Polfleit P, Zulawski J; ROCHESTER GAS & ELECTRIC CORP.
To:	;
References
	NUDOCS 9601160085
	Download: ML17309A597 (447)
	v • d • e

ROCHESTER GAS AND ELECTRIC CORPORATION Robert E. Ginna Nuclear Station Plume Exposure Exercise December 6, 1995 Ilail)y

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PART I GENERAL INFORMATION 1:-1

THE ROCHESTER GAS AND ELECTRIC CORPORATION GINNA STATION EMERGENCY PREPAREDNESS EXERCISE MANUAL 1995 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE DECEMBER 6, 1995 PREPARED BY:

Peter S. Polfleit James M. Zulawski Onsite Emergency Planner Licensed Operator Instructor APPROVED BY:

Peter S. Polfleit Corporate Nuclear Emergency Planner Rochester Gas and Electric Corporation CONTROLLED COPY NO.

I-2

ROCHESTER GAS AND ELECTRIC CORPORATION GINNA STATION 1995 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 Cy'rporation, the State of New York, and Monroe and Wayne Counties will be evaluated. This package is td 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 December 1995, Emergency Preparedness Exercise.

THE ROCHESTER GAS AND ELECTRIC CORPORATION, GINNA STATION 1995 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.

I 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 artsthereofsuch as radiolo ical lume release information includin times content size and weather .

~auem used.

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.

1995 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE SCENARIO DEVELOPMENT COMMITTEE Jim Zulawski Peter Polfleit Jim Reagan Bill Everett Frank Cordaro Tom Alexander

GINNA STATION 1995 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 OB JECTIVES 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 3.0 TRAVEL INFORMATION 3.1 Directions to Ginna Station 3.2 Directions to EOF, ESC and JENG 3.3 Accommodations 4.0- REFERENCES/ABBREVIATIONS-ACRONYMS 4.1 References 4.2 Abbreviatio'ns-Acronyms 5.0 CONTROLLER AND EVALUATOR INFORMATION 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 1995 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE TABLE OF CONTENTS (Cont'd) 1 7.0 EXERCISE SCENARIO 7.1 'nitial Conditions 7.2 Onsite Sequence of Events 8.0 MESSAGE FORMS AND PLANT DATA SHEETS 9.0 ON&ITE RADIOLOGICALAND CHEMISTRY DATA 9.1 Radiological Summary 9.2 In-Plant Radiation Data 9.3 Post-Accident Sampling Results 10.0 METEOROLOGICAL AND QFFNITE RADIOLOGICALDATA 10.1 Meteorological Data 10.2 Field Data and Maps 10.3 Field Air Isotopic Data

GINNA STATION 1995 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 Mite)

Figure 10.3 Large Plume Map (0-10 Mile)

GINNA STATION 1995 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 RGB 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 Information 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

SECTlON 1.0 SCOPE AND OBJECTIVES 1-1

SCOPE AND ONSITE OBJECTIVES - PLUME EXPOSURE PATHWAY

~Sco e The 1995 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.

1 Onsite Ob ectives for the 1995 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 per'sonnel.

Demonstrate the ability to mobilize and deploy Radiation Survey Teams.

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

1.2.8 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.

I 1.2.9 Demonstrate the availability of appropriate equipment and procedures for the collection of environmental samples.

<1.2.10 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 plant conditions, Protective Action Guidelines, available shelter, evacuation time estimates, expected release duration, and other appropriate factors.

+1.2.11 Demonstrate the ability to notify offsite officials and agencies within 15 minutes of declaration of an emergency.

+1.2.12 Demonstrate the ability to periodically update offsite officials and agencies of the status of the emergency based on data available at Ginna Station.

1.2.13 Demonstrate the ability to notify emergency support pools as appropriate (i.e., 1NPO, ANl, etc.).

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

1.2.'l5 Demonstrate the ability to effectively as'sess incident conditions and to properly classify the incident.

1.2.16 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.

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

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

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

1-3

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 analysis:

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

1.2.26 . Demonstrate the adequacy of alternative actions taken in the event of a power failure in a principal emergency response facility.

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: < = Open items from NRC inspection number 50-244/93-18

+ = Items identified by RG8 E at 11/94 exercise critique.

1.3 Summa of Pro osed Activities Table 1.1 provides a list of proposed RG8 E activities.

1-4

TABLE 1.1 1994 GINNA STATION EMERGENCY PREPAREDNESS EXERCISE PLUME EXPOSURE PROPOSED ONSITE ACTIYITIES RG&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 EBS Message Broadcast'ispatch N/A 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.

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 Health Physics and Chemistry personnel according to postulated scenario plant conditions.

o ln general, Exercise participants should follow applicable plant procedures as closely as possible, and will stopped by Controllers:before actual equipment is manipulated (except PASS).'Simu)ated Tepairs 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 ONce of Emergency Preparedness.

1-6

ROBERT EN GI5!NANUCLEARPOWERPLANT 1995 FULLSCALEl EXEZKISE SECHON1 OPPNll" 0 lEO11VAEANDEEEENYOPPDAY ROBERT EE GINNANUCLEARPOWERE'LANT 1995 FULLSGALE KKRCISE DPHE Dl ON INN HVEE AND 1HH N Y DP PI AY

. Demonstrate the capability to alert and fullymobilize personnel for both emergency facilities and Geld 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 willbe mobilized and emergency facilities activated as they would be in an actual emergency with the exception of the State stafFin the JENC, EOF and EOC who willarrive no sooner than 30 minutes aker the Alert declaration is received over the REGS line. See Section 3, Response by Facilityff earn, for staKng limitations for Field Monitoring Teams, Reception Center, Congregate Care Center, Personnel Monitoring Center, bus routes, and TraKc Control Points.

ARCAs: None 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 willbe 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: JENC-1 Sept 1,1195

. Demonstrate the capability to direct and control emergency operations.

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

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

ARCAs: None

.'emonstrate the capability to communicate with all appropriate emergency personnel at facilities and in the field.

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

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

ARCAs: None

. 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 willcause the County Radiological OKcer and each County Field Monitoring Team to discuss actions for exposure rate in excess of the turn-back value. The term exposure limit is used by all other emergency workers.

ARCAs: None Sept 1,1195 1-2

~

. Demonstrate the appropriate use of equipment and procedures for determining field radiation measurements.'ocations:

MCEOC, MCFA, WCEOC, WCFA Extent of Play:

'ach County willdispatch one Field Monitoring Team. Each team willtake

~

radiation measurements, some of which may be the same locations, but at

,di6erent times in the scenario; The teams willnot suit.up in anti~ntamination clothing, however, one member willsuit up at FEMA'S request at the dispatch point or PMC.

V ARCAs: MCFA-1

. Demonstrate the capability to develop dose projections and protective action recommendations regarding evacuation and sheltering.

Locati'ons: SEOC (Only ifthe governor declares a State of Emergency.), MCEOC,

'WCEOC Extent ofPlay:

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

ARCAs: WCEOC-1, WCEOC-2, WCEOC-3 Sept 1,1195 1-3

. Deznonstrate the appropriate use of equipment and procedures for the measurement of airborne radioiodine concentrations as low as microcuries per cubic centimeter in the presence of noble gases and obtain 10'0.0000001) samples of particulate activity in the airborne plume.

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

Silver zeolite cartridges willbe used. The teams willnot 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 laboratozy (Albany). There willbe no transport of samples to either the transfer point or the State laboratory (Albany).

ARCAs: None

. Demonstrate the capability to make timely and appropriate protective action decisions (PAD).

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

Protective action decision making willbe demonstrated as it would in an actual emergency.

ARCAs: None S

Sept 1,1195 1-4

. 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 oKcials.

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

EBS messages vrillbe developed and sent to WHAM. There willbe no broadcast of EBS messages. In addition, siren and tone "alert activations willbe simulated.

Back-up route alerting of one route (selected by the FEMA evaluator) willbe discussed atone County EOC.

ARCAs: JENC-2

. Demonstrate the capability to coordinate the formulation and dissemination of accurate information and instructions to the public.

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

EBS messages wiQ be formulated and simulated to be disseminated as they would in an actual emergency. There willbe only one (1) simul'ation of airing of the EBS message. This willbe the first EBS message. The last time to be recorded (clock stopped) is the time at which the EBS message begins to be broadcast (first 3 words read of the talk-up after "this is a drill").

ARCAs: None .

~

Sept 1,1195 1-5

. Demonstrate the capability to coordinate the development and dissemination of dear, accurate, and timely information to the news media.

Locations: JENC Extent ofPlay:

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

ARCAs: None

. Demonstrate the capability to establish and operate rumor control in a coordinated and timely manner.

Locations: JENC Extent of Play:

Rumor control willbe demonstrated as it would in an actual emergency. Rumor control stafFwill be limited to four individuals.

None 'RCAs:

'ept 1,1195 1-6

PQQQQ. Demonstrate the capability and resources to implement potassium iodide gQ) protective actions for emergency workers, institutionalized individuals, and, ifthe State plan specifies, the general public.

Locations: SEOC, MCEOC, MCFA, WCEOC, WCFA Extent ofPlay:

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

~. ARCAs:

D None th protective actions for special populations.

Locations: MCEOC, WCEOC lQit Extent of Play:

Call lists willbe available at the County EOC for special facilities and for the non-institutionalized hearing impaired and mobility impaired individuals. Allcalls will be simulated. One general population bus route willbe demonstrated. The bus driver willassemble at the normal dispatch location for briefing, assignment and dispatch. The bus, or similarly equipped vehicle, willcomplete the assigned routes but willnot make any stops. The route willbe 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. willbe returned to service following contact with the ~

County EOC.,

ARCAs: None Sept 1',1195 1-7

. 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:

One bus route will be demonstrated in each county. The bus driver will assemble at the normal dispatch location for briefing, assignment and dispatch. The bus, or equipped vehicle, willcomplete the assigned routep but willnot make 'imilarly any stops'. The routes vali be completed after arrival at the school and a discussion of the route to be taken to the Reception Center at which time the bus and driver willbe released following contact with the County EOC. School interviews willbe performed prior to the exercise in coordination with Monroe and Wayne Counties.

ARCAs: None

. 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:

This demonstration willbe comprised of two parts:1) Decision making at the EOC,2)Interview of law enforcement oKcials at the location desiginated by each county.

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

The interviews of law enforcement willbe conducted out of sequenc with the exercise scenario.

ARCAs: None

. Demonstrate the adequacy of procedures, facilities, equipment, and Sept 1,1195 1-8

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

Locations: Monroe County: Pittsford-Mendon High School Wayne County: Palmyra-Macedon High School Extent of Play:

NCYZHSEMO, Wayne County, Monroe County and FEMA have agreed that the reception centers willbe demonstrated under the following, schedule:

Wayne County - 12/6/95 between 1830 and 2030)

Monroe County 11/08/95 between 1400 and 1630 It willbe 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 willbe observed first by FEMA evaluators.

"The Reception Center at Pittsford-Mendon High School in Monroe County and the Reception Center at the Palmyra-Macedon High School in W'ayne County will.

be demonstrated out of sequence with the scenario. The facility is staffed with enough equipment and personnel to monitor 20% of the EPZ population (as defined in the plan) in 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months . Reception centers willnot be setup in advance.

Please note that Federal evaluators gg~f, use a hidden source (such as lantern mantle) to test the skills of the monitors. The demonstration willbe 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.

Sept 1,1195 1-9

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 decon station (male or female) with 2 monitors willbe 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 weal be demonstrated through the use of rosters. Evacuees, some of which willbe contaminated using controller inject messages, willbe simulated by members ofthe facilitystaK The facilitywillbe 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 Qoors willnot be covered with paper/plastic. Monitors willnot suit ap in anti~ntamination clothing although one monitor may suit up at FEMA's request.

None Sept 1,1195 1- 10

. Demonstrate the adequacy of facilities, equipment, supplies, personnel, and procedures for congregate care of evacuees.

Locations: Monroe County: Pittsford-Mendon High School Wayne County: Palmyra-Macedon Middle School Extent of Play:

NCYIK SEMO, Wayne County, Monroe County and FEMA have agreed

~

that thecongregate care willbe demonstrated under the following schedule:

Wayne County - 12/6/95 between 1830 and 2030 Monroe County - 11/08/95 between 1400 and 1630 It willbe the responsibility ofFEMA 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 facilitywillbe demonstrated out of sequence with the scenario by a walkthrough of the facilitywith the Shelter Manager, Registrar and one support staK The facilitywillnot be set up nor willequipment and supplies be'brought to the center; Center personnel willmake estimates of supplies required for the potential evacuees.

'RCAs: None

. Demonstrate the adequacy of 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 willbe stationed at the Reception Center in sequence with the scenario. An individual with a simulated injury and contamination willbe presented. The individual willbe surveyed, administered first aid and placed in the ambulance. The drillwillend when the vehicle is ready to depart with the victim. Communications willbe simulated and include information relative to ETA, patient status, etc. This objective wase demonstrated out of sequence on June 7, 1995.

None

~

Sept 1,1195 1- 11

. Demonstrate the adequacy of equipment, procedures, supplies, and personnel of medical facilities responsible for treatment of contaminated, injured, or exposed individuals.

Locations: Monroe County: Rochester General Hospital Extent ofPlay:

This drill was demonstrated out of sequence &om the exercise on June 7, 1995 at Rochester General Hospital.

ARCAs: None

. Demonstrate the adequacy of procedures for the monitoring and decontamination of emergency workers, equipment, and vehicles.

Locations: Monroe County: Culver RoacTAxmory 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 willbe demonstrated out of sequence with the scenario. A controller willprovide simulated contamination levels to drive demonstration of the various activities.

The demonstration willbe 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 willbe simulated by members of the facilitystaK The facilitywillbe 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 Qoors will "

not be covered with paper/plastic. Monitors willnot suit up in anti-contamination clothing although one monitor may suit up at FEMA's request.

ARCAs: None The followingobjectives are not included in this revision in that they have Sept 1,1195 1-12

been demonstrated previously and wiH not be demonsItrated during this exercise.

. Demonstrate the capability to identify the need for external assistance and to request such assistance Rom Federal or other support organizations.

Date demonstrated 'l+jQQ Nextyearrequiredfordemonstration~99 Demonstrate the use of equipment and procedures for the collection and transportation of samples Rom areas that received deposition

&om the airborne plume.

.Date demonstrated 7Q5l93 Nextyearrequiredfordemonstration~99

. Demonstrate laboratory operations and procedures for measuring and analyzing samples.

Date demonstrated ~1293, Next year required for demonstration ~QQ

. Demonstrate the capability to project dose to the public for the ingestion exposure pathway and to recommend protective actions.

Date demonstrated '~53 Next year required for demonstration ~99

~.D ingestion exposure pathway.

8 taty 1 f

Date demonstrated ~15/')~ . Next year required for demonstration ~Q Demonstrate the capability to develop decisions on relocation, reentry, and return.

'I Date demonstrated '~93 Nextyearrequiredfordemonstration~99,'~

Demonstrate the capability to implement relocation, reentry, and return.

Date demonstrated 'Q1293 Nextyearrequiredfordemonstration~5 Sept 1,1195 1-13

. Demonstrate the capability to maintain staKng on a continuous, 24-hour basis through an actual shift change.

Date demonstrated Next year required for demonstration ~QQ Demonstrate the capability to provide ofBite support for the evacuation of onsite personnel.

Date demonstrated Next year required for demonstration ~99

. Demonstrate the capability to carry out emergency response functions in an unannounced, exercise or drill.

Date demonstrated ~Q359 Next year required for demonstration ~QQ W

. Demonstrate the capability to carry out emergency response functions during an ofF-hours exercise or drill.

Date demonstrated ~l129~ Next year required for demonstration ~QQ

.Sept 1,1195 1- 14

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 Nlana ement and Su ort Personnel Simulator Control Room

2. Technical Support Center (TSC)

3. Operatiohs Support Cente/ (OSC)'.

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

1. 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. Chemistry/Health Physics Suppo'rt

7. Fire Brigade (if necessary) 2.1.2 OFFSITE AGENCIES/ORGANIZATIONS Participation of the following agencies/organizations is expected:

A. Federal

1. 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 Wayne County

2. Monroe County

3. Other Supporting County Agencies 2.2 Or anization ~,'xercise

. 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 personnel 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 will be identified b wearin reen bad es with white letterin statin "Controller".

~Pta 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, State and private industry) 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.

Requests to participate as a Observer should be made in writing and contain the Visitor's full name, home address, phone number and organization affiliation. Requests to participate as Observers must be submitted to the RGKE 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.

2-5

RGB E FAClL)TIES The Rochester Gas and Electric Corporation Emergency Response Facilities are:

A. Similator Control Room

'he 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 Superintendent or alternate. The Simulator Control Room is located in the Simulator Building next to the Ginna Training Center.

'. 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 Coordinator and directs activities from the TSC. The TSC is the 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

D. 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 classiTied 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.

I 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 RGB E Corporation, County, State and Federal officials and will be activated for emergency conditions classified as an Alert, Site Area Emergency or General Emergency.

,l 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. The Recovery Phase will be initiated and

'he Exercise will then be terminated.

2A.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.

RGRE offsite radiation survey teams are equipped with portable radios, and are provided cellular telephones for back-u'p 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 TEC ECF'ENC d~dt ECC . 0 IT I dC t II dlE 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, they 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 postulate'd 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.

Piecautions 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 temporary hold on, 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.

C 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.

H. 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.

I. 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.

J. 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.

2-12

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/Observers 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 'raining program, facilities, equipment and/or other areas will be identified through the critique process. The deficiencies will 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

SECTION 3.0 TRAVEL INFORMATION 3-1

t 3.0 TRAVEL INFORNlATlON This section of the Ginna Station Exercise Manual provides travel information to those individuals from RGRE, 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. Total distance is approximately 40 miles.

3-2

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 I oop 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).

33 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) 359-1 100 Brookwood Inn, Pittsford (716) 248-9000 Woodcliff Lodge, Perinton (7'I 6) 248-4810 Holiday Inn, Henrietta (716) 457-1 510 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, 56.54, 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 RG8E Nuclear Emergency Response Plan (NERP}
4;1.5 Ginna Station Radiation Emergency Plan Implementing I rocedures (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
Abbrevlations - Acron ms A/E 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 Code of Federal Regulations
'VCFR Containment CR Control Room DOE Department of Energy DOE-IRAP DOE Interagency'adiological Assistance Plan EAL(s) Emergency Action. Level(s)
EBS Emergency Broadcast System EC Emergency Coordinator ECL(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 Emergency Survey 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 KI Potassium Iodide LALIVI Low Alarm LCO Limited Condition of Operation LOCA Loss of Coolant Accident LWR Light Water Reactor
4.2 Abbreviations - Acron ms Cont'd 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)-
PARts) 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 RGBE Rochester Gas and Electric Corporation RST Radiation Survey Team SC Site Contingency Sl Safety Injection SPING High Range Effluent Monitor TSC Technical Support Center 4-4
SECTION 5.0 CONTROLLER AND EVALVATORINFORMATION
5.0 CONTROLLER AND EVALUATORINSTRUCTIONS 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. Allwatches and clocks will be synchronized with the Ginna Simulator Time.
5.1.3 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
~Uti f Personnel and equipment generally performed below expectations and there were several signiTicant 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:
5.2.1 'Facili 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 (informatiori 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.
o Adequacy of equipment and supplies.
o Timely initiation of onsite protective/corrective actions.
o Development of protective action recommendations.
5-4
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 Controlfer 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.
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 departure 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.
~Sf Personnel and equipment generally performed as expected. Any errors noted were not severe and could be corrected without undue labor or expense.
o Radiological surveys and assessment of plant damage and hazardous conditions performed.
o Timely request of emergency support services.
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.
o Properly maintained survey records and maps.
o Adequacy of briefing sessions prior to dispatch.
o Direction and control by team leaders.
C o Timely requests for offsite assistance if required.
5-5
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 Tab>e 5.1 lists the personnel assignments for the on-site Controller organization.
5.4 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
XhEJ~
The following personnel have been designated to act as Controllers during the 1995 Exercise activities:
~Ftggy. Co Control Room (Simulator) B. Everett (lead)
J. Reagan J. Zulawski R. Jenkins M; Ruby Control Room (Real) Day Shift Supervisor in Operations Office
~e Lead T. Alexander Technical/Ops. Assessment R. Ruedin Security D. Kuhn Dose Assessment T. Hedges HP/Chemistry K. Lang Communications/Data Flow F. Cordaro General C. Kulwicki Lead E. McGratten Fire D. Biedenbach/ M. Cavanaugh l8C T. Joachimczyk/E. McGrattan Mechanical S. Meister Mechanical J. Liese Electrical R. Yates/ R. Marriott GG:
Lead W. Schneider Onsite East A. Patrazellak Onsite West G. Bussard Offsite East J. Mazzeo Offsite West J. Edler Spare C. Cook Spare D. Garofoli 5-7
EOF:
Lead P. Polfleit Operations/Technical J. Neis Admin/Communications/Data Flow B. Stanfield Dose Assessment N. Kiedrowski County/State/NRC Operations M. Lilley General H. Aurand Survey Team TBD JENC:
'Lead F. Orienter General TBD (Outside UtilityPersonnel)
En ineerin Su ort Center:
Lead L. Sucheski SPOUSE PHONE: TBD NATIONALWEATHER SERVICE:
Lead S. Levine (NWS/NOAA) 5-8
GINNA STATION 1995 EMERGENCY EXERCISE 5.5 PUBLIC INFORMATION RUMOR CONTROL AND SPOUSE PHONE UESTIONS 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 RGRE "Spouse Phone" will also be manned by the RGRE 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 'outside 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 w'ill 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 Contro]ler shall verify that the exercise is adhering to schedule, otherwise time adjustments will be necessary. Space is provided for
'controllers to make notes on the response. Controllers need not use the questions herein; free play is encouraged. However, controllers must not get carried away with unusual or pointless questions.
5-9
When calling iri questions, ~atwa s precede guestions with "THlS tS AN EXERCISE". If you are playing a reporter at the JENC, free play questions based on the information given during the briefing. Additionally, ask questions about RG8E, 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 RGRE Medical Department.
5-10
GINNA STATION 4995 EMERGENCY DRILL ATTACHMENT0 PUBLIC INFORMATION QUESTIONS TIME 0930 ~, 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 Sheriff'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?
1 0945 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 problem become as serious as Chernobyl?
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?
0950. 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?
Is there any danger to the public?
What is going on at Ginna?
What are you doing to fix the problem' 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 Pitaki been notified?
Are the sirens going to all go off?
1000 I'e heard you declared an "ALERT". What's that? What happened?
~
How did the problems start? ~
anyone been killed? Any injuries?
'as The situation seems to be getting worse.. is this true?
~
I work at Nine Mile Point Unit II.
~ 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?
1015 What is the significance of an "ALERT"?
How bad is that?
Have government officials been called?
What will the Governor do?
What is RGB E doing?
Didn't Ginna have a problem several years ago?
Who do I talk to for getting more information about what's happening?
I'e got a large farm in Ontario and I need to know what to do with my livestock and crops.
Where will I get more stored feed for my cattle if my supply runs out?
I think I heard the sirens...do I need to evacuate?
1030 have heard that you declared a "Nuclear Alert".
~ Is this true?
~ How much of the plant has been damaged? .
~, Is there a release in progress?
Has anyone been killed around the plant?
Have the authorities been informed?
Can't you just shut.a valve or something?
1100 What does a General Emergency mean?
Doesn't that mean a "meltdown" is in progress'?
ls this accident similar to the one you had in 1982?
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 disaster?
Will there be a big release of radiation or is one underway?
Is this accident as bad as Chernobyl?
1130 Are farm animals safe?
What about the crops and orchards around the plant?
Are you releasing radiation?
What are the levels?
How are you checking radiation around the plant?
Should w'e get out if we live in the.10-mile. zone?
My father is in the Maplewood Nursing Home in Webster, how will he be protected? Should I go get him?
How long will this emergency last' If we evacuate, how long will we have to stay away?
Is this like the movie "China Syndrome" come true?
1200 How much radiation is being released?
Is the radiation like bomb fallout?
How dangerous is it?
Who is in charge of 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?
Is this plant similar to Chernobyl or TMI?
How much radiation is being released off site?
What protective actions are in effect for Wayne (IVlonroe) County?
If I have to evacuate can I return whenever I want to?
This is from WKBZ TV in Buffalo.
How many people live in a 10-mile radius of the plant?
What are you doing to fix the situation?
When is the next press briefing?
How many media representatives are at the News Center' What government agency representatives 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?
My dog is at a vets office in Penfield on Atlantic Avenue. What's being done to safeguard him?
1230 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?
1245 From the looks of things, Ginna won't be running for a long time, what are you going to do with the steam generators now?
~ Who will "eat" the $ 115 million the share holders or the rate payers?
1250 Can RG8 E get replacement power from Kamine-Besicorp?
1300 Can't the failure of so many components and the melt-down of the core be tied directly to the use of non-union trades? Seems to me that if RG8 E were not so anti-union, we wouldn't be in this mess nowl 1330 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?
1400 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 RG8 E stock?
What effect will this have on RG8 E stock'?
What was your stock selling for this morning?
What is your stock selling for now?
ATTACHMENT2 RUMOR CONTROL MESSAGES FOR MONROE COUNTY TIME 0930 ~ I hear there's an emergency at the nuclear power plant.
~ How will I know if we have to leave'
~ I'm- from Radio Station WWLE. You'e on our "LIVE LINE" Please tell our listeners what's happening at the Ginna Nuclear plant?
~ How much damage did the problem do to the plant?
~ What does the County Executive intend to recommend to the public?
0940 ~ Has any radiation been released to the atmosphere yet?
~ How can you be sure? Are you checking it?
~ How can I find out when there is a release?
'1 000 My daughter is at the Webster library.
~ How will she be notified of the disaster?
~ 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?
1100 ~ 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 RGB E telling us the truth?
1115 I live near the plant and heard there is "NUCLEAR Al ERT" in progress.
Are you checking the radiation levels outside?
Did Iranian fundamentalists do this?
What's this I.hear about a radiation leak at Ginna?
Was that because of a big explosion or something'?
~ How did this come about?
My neighbor told me that Ginna workers bail out from the plant as soon as there is the hint of a problem'? How can you control the plant if no one is there?
1130 ~ My wife is concerned because she doesn't think you county disaster people are being told everything by RG8E. I can't even get a straight answer on my monthly gas bill. What's really going on?
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 or to make a profit, how do you know they aren't lying to you too?
~ Do you have anybody checking on them?
0
~ ls the County Legislature going to look into this?
Where is all the radioactive waste that results from this accident going to go?
Should I close my restaurant due to the accident at Ginna Station? I'm over by the Irondequoit Bay.
What are we supposed to do?
Who do I call to find out if we'e going to have to get rid of all the food in the restaurant?
Who will pay for the lost income'?
1200 ~ I heard nobody at Ginna can fix this plant accidentl
~,
~
~
Is it true that the Feds are coming to take over?
Are they gonna be able stop the release?
Whats 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?
1230 ~ I'm leaving now. Where do I go for temporary housing? I live on Jackson Road near Ridge Road.
I'm evacuating now. Which way is safe to travel? We live near Salt Road and Atlantic Avenue. We need temporary housing. I'e got 5 kids with me.
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?
.I'm the general manager at Wegmans at Eastway Plaza, what do I do, I'e got 300 employees, 250 customers and trucks off-loading fresh produce as we speak I'm concerned about the people, my store and the food.
I'm at Wal-Mart in Baytowne Plaza what do I do?
1300 ~ Is it true that the milk is now poisoned? Where are we supposed to get our milk now?
We don't have any money or a car. How do we get away from the radiation?
Where do we live and eat?
~ I live up on Five Mile Line Road by the R.L. Thomas what do I do?
I heard the accident at the Ginna Station is getting worse.
Are we gonna be moved out of our homes after this?
Why haven'.you made the announcement on TV?
1330 ~ 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?
1400 ~ Does the County, State or Federal government have insurance?
Who will pay for this'?
My homeowner's insurance states that I am not covered for nuclear accidents!
I'm calling from Penn Yan we'e on our way home from vacation in Florida ...I just heard about the Ginna accident our house is near Hegedorn's on Shoecraft Road in Webster what should we'do?
~ 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 RG&E's insurance company to hold me until I can get home?
After all you took such care of the people in Farmington after one of your people blew up their houses!
RUMOR CONTROL MESSAGES FOR WAYNE COUNTY TIME 10:00 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' happening at the Ginna Nuclear plant? You'e Iiye on our "MORNING SOUND-OFF SHOW". Go ahead..
~ .
How much damage did the loss of coolant accident do to the plant?
~ What does Wayne County intend to recommend to the public'
~ Will you have a press conference'?
~ Where will it be and at what time?
1030 ~ Has any radiation been released yet?
~ How can you be sure?
~ How can I find out when there is a release?
1045 ~ 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?
1050 ~ 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?
1100 ~ lf 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 RG8 E talks about "sheltering". Isn't that supposed to apply only to brick buildings with thick walls? We don't even have a basementl What should we do?
I wanna talk to Marvin Decker or someone in charge! I need to know what' going on and what to do, I know that those morons at RG&E couldn't tell the time of day if their lives depended on it!
I live near the plant and don't want that nuclear stuff falling on my house. Can I go out with a hose, like they do in California during brush fires, and hose the radiation off the roof?
~ Can we go outside? How much danger is there to me if I do go outside? Will the radiation kill me right away or give me radiation sickness? Are we in danger?'re 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 workers 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.)
1130 ~
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?
ls Wayne County going to be declared a disaster area?
Is this accident as bad as Chernobyl or TMI? Or worse?
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).
1200 ~ 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? She's 86 years old and doesn' want to leave her cats.
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 coming 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?
1230 ~ 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 basement!
~ How am I going to feed my family for the next several days?
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.
I live in Walwoith...we just had a problem a few weeks ago with the drinking water.
~ Are we going to have to boil our drinking water again 1300 ~ I think I am supposed to leave but don't have a place to stay. I live in Wayne ERPA Number 2 near the plant..
~ Which county shelter can I stay at? How do I get there?
~ 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'?
1310 ~ 'I hear the Chmung County Militia planted a bomb that looks like a toner cartridge in the plant, and that's what caused the pipe to blow apart, their next step is to send a squad in to take over the plant and use their control of the plant to force FEMA and all those federal bullies out of our lives once and for alii 1330 ~ What is the Ginna problem that occurred this morning?
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?
1345 ~ Does the County have insurance for such a disaster?
My homeowners insurance states I'm not covered for nuclear accidentsl 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 monitored for nuclear radiation somewhere?
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?
Is this accident just another example of RG&E's poor management?
I'm sure the rate-payers will be saddled with the cost of this accident, even though it clearly is RG8 E's fault, would you comment on who will pay for this accident and why the cost. belongs there?
How long before RG&E has Ginna back on line making electricity?
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 representatives are at the News Center?
What government agencies are represented 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?
Is this the same type of problem that Ginna experienced in 1982?
Who will pay for all the damage to personal property from this accident?
After cleaning up the radioactive waste from this accident, where does it all get sent?
Has RG&E significantly added to the State's low-level waste crisis?
Why doesn't RG&E distribute potassium iodide to the public?
How close have you come to a meltdown?
How do you know the extent of damage to the Ginna reactor?
QUESTIONS FOR THE NRC Why is the NRC here'?
~ is it because RG8 E has done such a poor job that federal oversight is needed?
~ lf it proves out to be a faulty weld or metal fatigue that caused the failure, why didn't the NRC resident inspector catch the problem before it caused an accident'?
Does this accident mean that all "old" plants of this type will need to be shut down before we have another accident?
Gould. congressional budget cuts have been a contributing factor in this accident, by reducing the resources available to NRC?
Could RGRE's downsizing be a factor in this accident?
ATTACHMENT4 "SPOUSE PHONE " QUESTIONS Time 0915 ~ 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?
When will my wife be home?
0945 ~ This is LOIS WATTS. My husband, Rick 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 Rick that the kids and I will go to his parents house.
II 1015 ~
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. Is that true?
~ Has everyone been evacuated from the plant?
~ Were any of the employees hurt?
~ How can I reach my husband? I just need to know he's okay.
1045 ~
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 people at Ginna?
1115 r My wife works at Ginna in Health Physics.
~ Where are the plant workers now... have they left the plant?
~ How can I reach my wife if she doesn't call soon?
~ I'm worried about her since he had a medical problem just two years ago. This stress could be very bad for her.
1130 ~ 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 8.333333e-4 hours 4.960317e-6 weeks 1.1415e-6 months .
~ He's on one of the survey teams...are they, safe?
~ Will the workers be relieved and allowed to come home today?
1200 ~ 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?
My husband was going to retire this afternoon on TREP III, we'e all packed and ready to move to South Carolina, the moving van is here, he was just going to say goodbye to a few friends and now I can't reach him, what do I do? The movers need to be paid, everything we own in the moving van and he has the checkbook.
ATTACHMENT5 "MEDIAMONITOR" QUESTIONS These calls are to simulate live TV and Radio broadcasts to test the media monitor function. Let the people in Media Monitoring know that you are simulating either a TV or Radio reporter and proceed with your "story". I don' expect them to respond to you.
RADIO We'e just picked up information that a fire is burning out of control at RGLE's nuclear power plant..stay tuned for more information as it becomes aVailable.
RADIO This is Geraldo reporting live from RG&E's Ginna facility, where we think something is going on. We can see a radioactive plume rising from the facility and heading down wind, I hope someone at RGB E is on the ball and will let everyone know downwind that they are about to be contaminatedl TV This Sam Dullmouth from WWCC TV in Rochester, we interrupt the normally scheduled programming for this special announcement.;.we have just heard from our on-site camera crew near the R.E. Ginna Nuclear Power Plant that a nuclear meltdown is underway.. our reporter can see steam spewing from the
.top of the plant. Several minutes ago sirens could be heard warning everyone to get out of the area...stay tuned for more on this major story.
TV County Officials say there is no cause for alarm,'ven though there are serious problems at the Ginna Nuclear Power Plant, and people are being evacuated officials confidently state that everything is under control.
Radiation levels outside the plant are barely detectable and pose no threat to human health and safety. People are urged to tune into their EBS station for further information.
SECTION 6.0 SCHEDULE OF EVENTS 6-1
4 SECTION 6.0 1995 GINNA PLUME EXPOSURE PATHWAY EXERCISE SCHEDULE OF EVENTS DATE TIME GROUPS ACTIVITY 12/4 9-10 ALL (EOF) PLAYER BRIEFING 2-3 ALL PLAYER BRIEFING (GTC AUDITORIUM) 12/5 8-11 AS ASSIGNED CONTROLLER BRIEFING 1-3 NRC EVALUATORS SCENRIO BRIEFING 12/6 ??-?? ALL 1995 EXERCISE 12l7 8-10 CONTROLLERS PRE-CRITIQUE MEETING 10-11 ALL RG8 E CORPORATE CRITIQUE 11-12 ALL NRC CRITIQUE 6-2
SECTION 7.0 EXERCISE SCENARIO 7-1
GINNA STATION 1995 EMERGENCY PREPAREDNESS EXERCISE INITIALCONDITIONS The R.E. Ginna Nuclear Power Plant is operating at approximately 97% rated thermal power.. The Plant has been operating at this power level continuously for approximately 150 days.
2. Equilibrium'Primary Coolant Isotopic activity as of 0300 hours0.00347 days 0.0833 hours 4.960317e-4 weeks 1.1415e-4 months (12/6/95) 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).
I
4. The reactor core has a burn up of 5800 MWD/MTU and RCS boron concentration is 562ppm. Boric Acid Storage Tanks boron concentration are 14,000ppm.
5. The "B" residual heat removal pump has been out for seal maintenance. The seal has been replaced and the pump was declared operable. However, the pump has higher than normal vibrations.
6. The "B" accumulator drain valve (AOV-844B) has been leaking by. The accumulator has been being filled using procedure S-16.13 when level decreases to 60%.
7. The "C" safety injection pump is out of service for seal replacement per procedure S-16.16C. The seal maintenance work was started yesterday (12/5/95) at 14:00 hours.
Expected time to complete seal maintenance is another 24-30 hours. An A-52.4 has been submitted.
P
8. The "B" train of the core exit thermocouples (CET) are out for maintenance. The plant is awaiting parts to complete the repairs. The parts are expected to arrive by 2:00pm. An A-52.4 has been submitted.
7-2
GINNA STATION 1995 EINERGENCY PREPAREDNESS EXERCISE ONSITE SEQUENCE OF EVENTS APPROPRIATE XlhK 'lhK SCENARIO 06:45 . -00:15 Initial conditions established.
07:00 00:00 Announcement to commeIice annual exercise.
07:10 +00:10 Control room indications for "B" accumulator level reaches 60%. While filling the accumulator the "B" safety injection pump trips.
The control room should fill the accumulator.per S-16.13.
When the "B" safety injection pump trips the operators should investigate why the pump tripped. The plant now has two safety injection pumps out of service. Plant technical specifications requires a shutdown when two safety injection pumps are out of service. The plant should commence a normal reactor shutdown per procedure 0-2.1.
07:25, +00:25 A leak starts from the reactor coolant system. The leak is inside containment.
07:30 +00:30 The reactor coolant system leak has increased to >10gpm.
The operators should investigate the source of the leakage.
The operators should implement AP-RCS.1 or AP-CVCS.1.
07:35 +00:45 An unusual event should be declared in accordance with UNUSUAI EPIP 1-0 "Ginna Station Event Evaluation and Classification" EVENT EAL number: 3.1.1 "Unidentified or pressure boundary leakage greater than 10gpm QB Identified leakage greater than 25gpm".
If an unusual event is not declared in approximately 15 minutes, a contingency message should be given out to declare it.
Operators should implement EPIP 1-1 "Unusual Event" 7-3
APPROPRIATE SCENARIO XlhK XlhK 08:10 +01:10 The reactor coolant system leak continues to increase.
08:25 +01:25 'he reactor coolant system leak has increased to approximately 50 gpm.
The'operators should refer'to AP-RCS.1. Operators may consider entering AP-TURB.5 for a rapid load reduction.
08:30 +01:30 A alert should be declared in accordance with ALERT EPIP 1-0 "Ginna Station Event Evaluation and Classification" EAL number: 3.1.2 "Primary system leakage )46gpm".
If a alert is- not declared in approximately 15 minutes, a contingency message should be given out to declare it.
Operators should implement EPIP 1-2 "Alert". The Plant should be shutting down per 0-2.1. The Plant should realize that the accumulators can no longer be filled:
09:00 +02:00 Plant shutdown continues. However, the rate of shutdown should have increased due to the increased reactor coolant system leakage.
09:15 +02:15 All core exit thermocouples (CET's} on train "A" fail. This renders all in-core temperatures unavailable.
Operators should request l&C to investigate the loss of the CET's. Plant shutdown continues. The Plant may consider borating via MOV-350 per procedure ER-CVCS.1. The TSC should be near operational readiness.
09:30 +02:30 Plant continues to cooldown and depressurize per 0-2.2.
CET indication should be available by l&C obtaining readings at the terminal board using hand-held instrumentation.
llhK'lhK APPROPRIATE SCENARIO 09:45 +02:45 The following alarms are received in the control room and on the plant computer:
- Pressurizer Iow pressure
- Pressurizer low pressure trip
- Pressurizer low pressure SJ All safeguards equipment starts except the two safety injection pumps. They are OOC because. of pervious problems. A loss of coolant has occurred. The leak is approximately a 455,000gpm leak from a severed "B" RCP discharge pipe where it connects to the pump.
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.
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 coolant accident continues.
Operators should realize that RCP trip criteria is not met.
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 EAL 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..
-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 low flow. Containment radiation levels continue to increase.
7-5
APPROPRIATE SCENARIO IlhK XlhK 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 declare it
'he 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.
11:00 +04:00 The injection phase of the accident is done or almost done.
Operations personnel should be aligning systems for the recirculation phase.
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 1B 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 1B RHR pump failed seal, out the plant vent).
TSC and control room operators should try to locate the source of the leak in the auxiliary building. Th'e 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.
7-6
APPROPRIATE SCENARIO XlhK X@K 11:18 +04 I8 The following alarm is received in the control room and on the plant computer:
- Safeguards breaker trip The 1B RHR pump trips out on overcurrent due to the failed seal. Bus 16 trips. The "B" diesel auto-starts then trips:
The control room operators try to re-energize bus 16 but it will not re-energize from the normal power supply. Efforts should be underway to track the plume, terminate the release and implement/coordinate PARs.
11:30 +04:30 The TSC should be working on isolating the 1B RHR pump to terminate the offsite release. The TSC should be working an repair of the "B" D/G or repair of bus 16 normal supply.
11:45 +04:45 Repair teams should find that the "B" D/G tripped due to a ruptured lube oil sensing line.
12:00 +05:00 The repair teams should have all of the materials assembled to repair the oil sensing line.
12:15 +05:15 The repair teams should have the oil sensing line repaired.
The control room will start the "B" D/G to energize bus 16.
When bus 16 is energized MOV-704A and MOV-850B can be closed to terminate the release.
12:45 +05:30 The radiation levels in the auxiliary building have decreased significantly. The offsite release is terminated.
13:15 +06:15 Recovery/Re-entry 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 'SC/EOF and offsite agencies should be demonstrated as time allows.
14:00 +07:00 After all exercise objectives have been demonstrated, the exercise terminated.
7-7
Tii Message:
GINNA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM
'Message for: Control Room Message: +++THIS IS A EXERCISE++ +
Illuminated alarms in the Control Room include Alarm'J-25 (Safeguards Equipment Locked Off)
FOR CONTROLLER USE ONLY Controller Notes:
1. Review initial conditions and plant status with the drill 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
>-5 > LA.JT a.AT>>
FOINT I:. ka iIP>Z'ALUE DUAL E. U.
Alia "'T!::FATED TRAtiSIB(T <</0 SCRy, 13 AT(IS 6009 R'(I :~. TRIP >4 BRErJ'ER STATLS NOT TRIP GMD V3
~
Ã = r/>//~ K'->C>> r-! 1. OOOOOrOO IQ(B PS
~ << I.OXOOKO I(4(B CFS
~
5 )QS :.97993M IWB JVP a 1136 "JT -" IA Nt(G= .-'- .R 'J- o 7.97'?93M It>1(B AJP NP 'V -s'v"- Ã CLEAR .'C)'E>( 98.32 GOOD X 8 FRCa FEA:TOR CX4VJT F/Sidt AVG PRESS ~a 600D PSIG LPII( rFKM~.IiER >'1'vSAr 'B, 48,7 600D X 10 ;SA".;DR COOLANT> 'CP 4 AV6 FLON 98.0 600D X Il FREE =EAST=R Cnu(T m 8 AVG FLDtt 97.4 6009 X RXTIB EPA SFE/>XER CA>>>SE RX TRIP NOT TRIP 6009
!3 RXT17 CCFB BREAXER CAM~ RX TRIP NOT TRIP GOM
!4 TSUBTC !!s~ TC Rl~ar lÃiGIN 44' 6004 KGF
!5 L.S) ST)( GB( A QRiPl Wa AV6 L&L 52.! 600D 'X 16 LSGB ,
~R ~t 8 t(AEQUI'A nAJ>r. RVG LE'vcL P,I 600D X
!7 PPB STN ra=( A AVEPAK PREM 697. 6009 PS!6 18 PS69 STN SB( 8 AVERAGE PFESSURE 696. 6009 PSI6 GB(BXR: "<<TCR Rl - ')IE F~ER lal 7" t(OT TRIP 600D 20 EB(BJ(F ==>~=.4'N ..Jr. ~mER 9XI37". TRIP 6009 BUSIIA ="= 'lA SUPPLY "REAr'=a t(OT TRIP M!IS "~a "a 'LrPLY BREAKUP NOT TRIP 23 PJSI24 NOT T=-l(I)@TED ON FPCS (7/19/91) NOT TRIP 24 BUSISS '.i YBJ" INATED N FF"S (7/19/9!) t(OT TRIP Bl IA12A BUS ::A TO '24 TIE BRrr(ER TRIPPED Qi~ ~<<< 1'> TO 128 v>E M/J(E>> TRIP PB) Gm
7 P/ 0">JTAI ts~&T A~a'F -9$ E ~ 06 600D PSIG LS(XtPA ~i>>AINENT P~P A A'iERM LDLL 1.8 6009 FKf
-:',r . 'a>EL: i!iCI--S lTRAft'.-') LO)IB 6009
.-3 LO943.: =.6 . LE'vB. S fhMS ITRAftt 8) L(DIE>t 60(m i n9' .<< = !!G-':5 FAIN A) 32 LO9439 I RIEL 76!M:-= (WAIN 8) L(7<<ER LO94"C :- '=VB. :!3 lttcrr=S(TRAIJJ 4) ~
C)IER 34 L0943r ." LE>s~ 1<<<< ~ tll 1 1>>AI(1 8)
.5 LO9428 IZIB !80 It>MS(TRAIN A) '(7> ER LO9438 :EO It>C-':-S(TRAIt( 8) L(v>IER L0942A 2!4 It(CI-'35(TRAIN A) LOIIER
a 1.09434 'viI
- ~aFJ. <<<<>ALra (Pl\All'I 8>
39 T0409A 4 ~3T LEG Etr B>/>The 601.3 40 .04!OA .P AT>pz 601.3 4f T04098 23.9 '=a ~>:EWLr>E. 544.5 6009 KGF 42 T04108 >>> >> 1 aG ~+ A@PE 544N7 6009 K6F 43 TA>JGA)(ID AVG;TP'/IIELD JJIK RNG) 572.9 6009 K6F TAVGB(tf9 ~ 'VG (W'7'I'~' NIK PQ) 573.0 6009 KF 45 HV ~EA .<<iE -. A(sr& <<>JEL 99.2 6009 X Tu~a 242.8 6009 K6F FAUXr >JA 3. 6009 GPJ(
Ja FNJXF)tb 0, 600!I PN BXROB! .rF 6009
<<0 FKROB'. ' -"(ILIARY -" m =.. FU)IP 8 -rF
'J3M5 -'UX al P(W Si.A)(
='l FL><<a S.a'/I Si>FP'
~.>> VALVE A CLKED V 04 AUX VALVE 8 CLOSB
R, "". GINNA SILL'ATOR PA%
TREND GROUP RSSIB~NT RNSRY SRCPr'=!ENT! PRESSURE: EPIP !-5 PLOW STATUS POINT ID KcZR IPTICN IJRL
E. U.
iSIA SAF:i: !NiECTION LOOP R AVG FLOVi 0. 600D fPN 54 FSIB SAFi~ i INJECTION LOOP B AVG FLOP 0.
P2160 SERVICE NTER PUMPS A 5 B lKABER 82. GOM PSIG 56 P216! SERVICE NTER PNFS C 5 D HEADER 73. 600D PSIG 57 BKR04! SERVICE'NTER P!IP A 600D 58 BKR042 "~m!iC" NTER PUtP 8 600D Si BKf943 "-+RICE RATER PNP C 60 BKR044 6&!ICE MATER PL%'
f <<ooc ~ C
~ o.'Z~ o!. t~i .
'I
'Fo'i5 S.=C'o -ESIGW&T E'4AY
=.-.OCE =.=: Ffi 1-5 FLOE STATUS POINT i
~ i ~!> 'i'ALIK
~
DUAL, E. U.
F0619 1448. LAL?f 94.5 C4IR X 3 ttS03o ;. -M: 'Ei/.. !t!ttD of~ 3.0 GOM 4 tt9033 33 FOOT '!~ HftlD Dlr CTi!CH ZO. Gm DE6.
5 MT033 33=MT W~ mmarm 37.6 GXD OEGF o "'". oui hvo E. oATIR: 35.1 6XD OE6F 7 WOT2 250;0 33 FXT LPFd. ~DELTA TBP -2.5 60R OE6F 8 ROI AREA 1-JAIL ROOtt 9.06777M 6009 !8/t8 o op MA MKAlt4SG 3.84591+00 Gm %/HR
!0 Po5 o~
5.~1 6009 t8/HR 11 R09 AREA HICtt LINE ".Oltf'!!R 1.97242+01 6009 %/%
12 R34 AREA 34 AUI -'93 CV FRAY PlFP 7.85236<1 Gm t8/%
'3 R35 AREA %+ASS SNtPLo PAtEL 1.09648+00 60M %/%
14 R10" ".Qrihi'.. BIT IODllK .,oHITOR R10A 3.04176KQ 6009
!5 Rli Wr!Alt. ENT AIR PARTICIE 1.20226402 6009 fo R!2 CrrA ItC.B i M PCVt!-:r f.564 0!02 60M 17 RIOB oLA'i '/BlT IXI'"ftlf TOR R109 8.93819%0 6009 18 R13 I9 "6 E/RUST -Ii PAETRMTE 3.86~%+01 600D 19 R14 Aur 3 OG EIHA?rI GAS tatITOR 3.3496&01 GOOD CPH
0 RIB ,I'll!r uASTE.DISPOS" HXlfTOR 1,57126!02 600D CPtl 21 AI9 o(E~". o'Ml?ATCR <<L~AXW VAIN 4,6H79!02 6009 CPH f69 'REA 29~CITAltl"BIT HI&I RAt& 8.99627<1 6009 R/HR R30 AREA 30~Alt "tEtfT HI% RANGE 8.99627<I 6XD Rlt8
'i4 .iif EBm AIR 6:ECTCR aHAI?ST 5.61532!02 6009 CPH "5 R1295 "( 'Bff CHAt( &Q4l RANr 6AS 7.50006<7 6009 UCI/CC
i. ~ +
':.'iT 9'A't oAGi GA A ~ 1.~2 6309 t8/%
27 R12A7 'ENT .i~'t 7-tt!9 A~l~ GAS 9.99984M 600D Kl/CC 28 RIEA9 O.9!987& MOD Kf/CC RI4A5 -'lT &4 -'A?tEE S '. ~ SOOOI <7 600D Kl/CC 30 R14A7 '" !EHT CPPt ~'19 oAHGE GAS =..99984m Gm UCI/CC I R14A9 .oint!;=IT;g.. '~'.~o- PAttSE GAS :.,9997K>3 60M Kl/CC R1545 AIR E.=CTOR C<V S-L A RA!46E C43 7. 79963M 600D K 1/CC o}gA fr! - " GP
-"" -" 9 oP?M GAS o.9'.984M GOR KI/CC 5
RISA9 V34'ilC AIR
!E.is uF i' i!R M4 o~l RAttGE GAS CLMBt 6009 6009 K 1/CC
.'o lJttSoO?A HLw ER OF o/6 A io '~ 0. 6009 0 OPEN 37 o31 NEr'e 31 ST~I LftE ~ !SPINGt o.0100&02 6009 18/%
38 R3fm .MOO!00 GOOD CI/SEC
'9 V3410C Ci.OSEO 60R STE-'/P=~
40 VtSSVB = o/6 8!'o=V GoE!3 0. 60M P32 LitZ = i=r8tGt o.01006M 6009 t8/HR 42 o 2RRQ 383:"L= EAS o~.=: FATE:.'MA i OOXGKS 6009 CI/SEC
'3 O'H r .0 6XD
i/03 90.0 GOR OEGF
.. i'0" '-T IC!iii 45
>6 47
~Pv'M
. ri/09-L'o! :.r; o.-
$7 ioHP 48
..BIP 49
!00.7 100ee 100'7 GOOD 6009 6009 CEGF REF OE6F 48 V/10 ;/ r!i'153IIATE Pi TENP IIO IOO.B GOM OEGF TCVI7 111.5 61 OE6F
7 Message:
GIN NA STATION I
DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORIN INessage for: Control Room Shift Supervisor Message: +++THIS IS A EXERCISE+++
Make the following PA announcement after sounding the "Attention" signal:
"Attention, Attention all personnel. The Ginna Nuclear Station is now starting its 1995 Emergency Preparedness Exercise. All Exercise messages must be started and ended with .
'This is an Exercise"." (Announce twice)
FOR CONTROLLER USE ONLY Controller Notes:
Ensure that the PA announcement is made.
Actions Expected:
8-2
XC c !"c5
'ftfhJ
~clQ c -'SSiBOÃ RW"'AK 6!tttA SI)XgATOR GROLI'(:.'vB)Tl PROCc<7:": EcIP 1-5 PLANT STATUS PO)t<T iD XMIFTIG)t VALUE OUAL E. U.
1 ATNS cNT!CiPATED TRANSIEt<T H/0 SCRAH ')0 A98 6000 RXT REACTOR TRIP SREAXcER STAT<5 NT TRIP 6000 3 H31 SO<RCE RAN6E KTECTCR H-3! I.OOOOO!OO INNS CPS I H32 S<lBCE RAhK KIKTCR H-Z I.OOOO'(X) IN<8 VS 5 N35 INIBO(EDIATE RAhGE KfETOR N-35 7.97993M IQ<S A)P 6 N36 1$ 2%91AIE RA))GE KIET(ft H-36 7.97993M IQ(S AFP 7 HP AVERAK HUC(fAR POhER 98.32 6009 X 8 PRCS REAn(R C<Xut<T SYSIB) AVG PRESS 2250. 6%9 PSIG 9 LPLR PREF8tIIER AVERAK LEVEL . 48.7 Gm X IO FRCLA REACTOR CC(uHT LO<F A AVG FLOtt 98.0 6000 X 11 FRCLB REACTOR C/RNP LOOP 8 AU6 FLO( 97.4 60M X 12 RXT)6 RCPA SREAXB(!MK RX TRIP NT TRIP 61 13 RX f17 RCPB BnEAXER CAUSE RX TRIP NT TRIP (m 14 TSUBTC INDE TC SUKOCLED t(ARGIH 44of 6<X)l K6F 15 LSGA STN GEH A NARRO(t RANK AV6 LEVEL 52.1 GMl X 16 17 18 19 20 LSGB PSGA Pcs GEHBXRI GENS)(R2 STH STH 6B( 8 AVERAK ~
M 8 HARRO)f RANK AVG IE,93.
5TH GB( A AVERAGE PPfSKRE
'TCR Ctt LINE SFBkER 161372 KtKRATOR OH Llhc B(EAXB( 9X(372 52.1 697, 696.
t)OT TRIP t(OT TRIP Gm 6000 669 60M 60M X
PSIG PSI6 21 SUSI)A R)S I'A SUPPLY SREAXER HOT TRIP 22 SUSIIS BUS 118 SLPPLY SREAXER NT TRIP BUS12A NT 'ciRHIHATEO OH FFCS (7/19/9)) NT TRIP 24 BUS 128 NT ~c. IhATED OH FPCS (7/19/91) )X)T TRIP 25 BIIA12A PX IIA TO 12A TIE 8df(ER TRIPPED 26 BIIB)28 SLG 118 TO IB TIE EREAXER TRIPPED 6009 27 PCU "M'Alt tEhT AVERAGE FPBSURE -.09 6000 PSI6 28 ).S(X)PA XNTAI)4(EHI RNP A AVERAGE LEVEL 1.7 60M FEET 29 LO942E SLtP 8 LB'EL 8 I)X3KS KQIH A) LO))% GOM 30 LO943E EL9P 8 LEVcL 8 IhQf6 ('fRAIN 8) LOLER 6OM 31 LO942D "-N' LEUcL 78 I)G.cS <TRAIN A) LO)IER 32 LO943D SU)P 8 Lr~ 78 iNChcS (TRAIN 8) LO)(ER LOVI2C SUtP 8 LEVEL 113 IN'<TRAIN A) LO)(ER 34 LO943C 9%' LFiSL 113 It)C)=S(TRAIN 8) LD)tER 35 LO9429 M9' LVEL !SO IHC)'fS(TRAIN A) LO)FR 36 LO9438 P 8 LEIS. )BO r)C.+S(TRAIN 8) LS)ER 60M 37 LO942A PN' LEVEL 214 1)X3&(TRAIN A) LO)(ER GMB 38 LO943A SLtf' LEVB. 14 l~~(TRAIN 8) LO)tER 6000 39 TO409A RCLA HOT LE6 TE)(FERATaK 60)o3 6000 K6F 40 TO41OA RCLS HOT LEG TBfERATURE 601.3 6MS KGF ll TO4098 FCLA ~~ IfG FJFF/iflHE Q4.5 6000 OE6F 42 TOIIOB RCLS CXD LE6 ! cFPEi'M" T<RE Q4 7 6009 K6F 43 TAVGAMID BC<A TAV6 (T}GT/TC<XJI HIDE RNG) 572.9 GOM DE6F 44 TAS(ID M"- AVG (T)f)T/TULi UIK RNG) 573.0 60M KGF 45 LRV'6 RW,TÃ VERB. AVcRA"= LEVEL 99.0 TCCORE 61.: XCPf TC AVERAK TB(P 242.8 47 FAUXF'ill 6/6 X TvsFL AUX WHAT FLOH ~ O.
4S FAUXF)(S 6/6 8 TOTAL AUX FEECI(ATBt FL(X( O.
49 B(ROSI ".TR AUXILW'!=.!tNATB( PU)e A OFF 50 St(RO82 HIR AUXILIARY FEED)tATER PU)P 8 DFF 51 V3505 AUX Pit PEP STEAN REPLY VALUE A CLKB) 52 V3504 4UX cg Pavo STEA)! Avot Y VALUc Q CLOcc!!
PAG" TREND cr'VJR '.SSIGNtBlT PPi'CRY GROUP: EtFVI'! "RKc I t ": EPIr'-5 P ANT STATUS POINT I;i DES%1-TIGN VALLtE QUAL E. U, PSIA SAr= i INJE TICN '.'r A AVC rLJN , 0. GOOD PN 54 FSIB S~i IN<<'ECTION LOOP B AVG rLON 0. 600D PN U P 2160 SEVI"E NATER PUtFS ! B HEADE 82. 600D PSIG 56 P2 161 NATER PU?PS C ~ D %ADER
-'ERVICE
. 73. GOOD PSI6 57 BIl R041 SERVICE NATER PU!P A ON 600D
'.8 M042 "ttV t!ATER IPP ~ ON ~
GOOD 59 BXR043 SMV.tCE 'a'ATE RNP C GOOD 60 BXR044 :-~PICE NATE ."ID!P D GOOD
eQ TFK =.CU? -ESiiAdG RR'8N 6ROLC'.4T2 PROC~~PE: EPIP 1-5 PLANT STATUS polta;9 KS ".!iTION E. U.
~RZXC~
2 F0619 LR)6i r~~&T ~INS nEFi. 'NG HATBOX
'. TOTAL FLQ SiPAi= TQII LVL 1448.
94.5 6Ptt 3 MS033 33 FS)T LEVB. HIND S.-KO 3.1 IPH 4 89033 33 FCOT LEVP MIND DIFECTION 230. KG.
5 HT033 33 FOOT LEVEL TiATIRE . 37.6 K6F
[BE ~z'iiE t~
"50 FOOT 35.1 6009 K6F 250 TO 33 FOOT LEVEL DELTA TBP -2.5 6009. DEGF AREA ROON 8.75~ Gm %/%
10 11 12 AREA AREA AREA AREA 34
~
2~AIQPP rrL PIT
~TOO)BI L!NE tl)NITOR AUX BLDG CV SPRAY MP 3.9%2280 GOM NIHI 4.92605-01 I.93865IOI 8,41394<1 l8/%
%/%
%/HR 13 AREA 35-PASS SAMPLE POB. 1.0964&00 %/tlt 14 RIOA COtaAIMIBa IODlhE 1)CIIITOR RIOA 3, I7595t02 15 Rll CONIAIQBiT AIR PARTICILATE 1.26619M le R12 CQaAIhtKhT GAS lSXIITIXI 1.56450)02 17 RIOB PLAINT VEta IODItiE PQIITOR RIOB 8. 938 1 18 R13 O)X 1LuG EXHAUST AIR PARTICULATE 9'.8Pf&OI 19 Rll AUX W~ EXHAUST M lSITOR 3. 34965i01 20 R18 Lift)ID HASTE 9!SF ON. IX)NITDR 1.5917&02 21 R19 SKr'I 6BFRATOR BLO'Ale IPI) IN 4.72469+02 22 R29 AREA "9 JBTAlt~Ba HI84 RA%E 8.99627<1 23 R30 AREA 3lHXMTAIIOENT HI&I RANGE 8,99627<1 24 R15'I2A5 CQCBGBI AIR EÃi.iiR EXHAUST 5,54306KB GKD CPN CV VENT DIAM MO)I ROM 6AS 7.50006<7 6009 Kl/CC 26 R12A6 iV VBa ""AM 6-rc".EA 64'I) 1 ~ 999~ Gm )8/HR 27 R12A7 VEH'I GJN 7 NID FAN% 6AS 9.99984M GOOD Kl/CC z R1269 / r'I> iiiAN 9-ill re% Qo 9.99987M Kl/CC 29 RI4AS Fi "a vBa CS;N ~ CH ROIGE GAS 1.50001<7 KI/CC 30 R14A7 P Oa i%MT CHAN 7-II!9 FAIIGE 6AS 9.99984M KI/CC 31 R14A9 rL/il~ ')ENT QIAI ~%!BI ROSE 6'S 3.99971M Kl/CC 32 RIM5 AIR EIECTOR Cli& 5~ ON RANEE EAS 7.79983M KI/CC 33 'R1547 AIR =~CTCR GIN 7-519 ROIK EAS 9.99984M Kl/CC 34 RISA9 AIR E.=CTOR CHAN ii+i RAN6E 6AS 9. 99987M KI/CC 35 V3411C STEAN LINE ARV 4 CLOSB) 36 V)ISSVA %'FB CF S/6 A tPV OPEN 0. 0 DPBI 37 R31 AREA 31 STEAN LIhr. A IPING) 6.01006M %/Ht 38 R31RRO "-EA i'AS ~~'~ RATE'ISIIRA ~ 00000t00 CIISEC 39 V3410C VttSSVB Ill STEAN LINE ARV 8 OF S/6 8 IISSV OFBI CLOSED
0. 0 IR)I 41 STEAN LIQ w (g ING) 6.010&02 )8/% .
42 SSB IX)R GAS RELEASE RATE'ISIIRA .00000iIN CI/SEC 43 i,'IYDROGEN i paRATION .0 44 VP BAREST I- iB. 6FT 'icCP 43 77.1 0EF 45 TCV07 P/ INTERNEDIATE '9 crT TBP l7 9fo3 46 TCV08 :0 iMi BtDIATE vL erT TBP 48 91.3 47 TCV09 CV IlaBGIATi; L'/'rT TBP l9 91.3 48 TCVIO CV !lCiPIE3)IATiE i.'i1. HT TBP 410 91.3 49 TCV17 CV CPERATING LiVL oFT TBP 417 105.6
Tii Message:
GINNA STATION DECEMBER 6, 1995 PLUNIE EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Nlessage: +++THIS IS A EXERCISE+++
Control room indication for the "B" accumulator level reaches 60%.
FOR CONTROLLER USE ONLY Controller Notes:
Actions Expected:
'1. Operators should fill the "B" accumulator per procedure S-16.13 8-3
Tii Message:
GINNA STATION DECEIIBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Personnel investigating "B" Sl pump 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:
1. The auxiliary operator and repair team should inspect the "B" Sl pump and make an assessment of the problem and any necessary repairs.
8-5
GINNA STATION DECEINBER 6, 1995 PLUINE EXPOSURE EXERCISE INini-Scenario Activity: "B" Sl pump trip The "B" Sl pump tripped while filling the "B" accumulator. The following conditions occurred in the control room: Accunciator L-8 (480 volt ground) followed by the "B" Sl pump tripping, green and white light indications. 1 Controller Notes:
When the auxiliary operator investigates the "B" Sl pump, he reports that there is a burnt smell from the "B" Sl pump motor. The cause of the pump tripping is a direct short. There is an
.instantaneous trip indication on the "B" Sl pump ampdetector.
Actions Expected:
1. The players may consider replacing the "B" Sl pump motor with the motor from the "C" Sl pump.
2. The players could also consider bringing in a new Sl pump motor.
3. The players should investigate the ampdetector on bus 16 for the Sl pump.
8-6
Ti Message:
GINNA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for. Control Room Message: +++THIS IS A EXERCISE++ +
FOR CONTROLLER USE ONLY
~
Controller Notes:
1. It does not matter how fast the operators reduce power.
Actions Expected:
, 1. The operators should recognize that the plant should be shut down due to having two Sl pumps inoperable.
2. Operators should commence an orderly plant shutdown, per procedure 0-2.1, once technical specifications have been consulted.
3. Operators should notify the plant manager; operations manager and STA of the plant shutdown.
4. Operators should notify the NRC of the plant shutdown per procedure 0-9.3 I
8-7
-i)OEU=: EPIP 1-5 FLiV(T STAIN POINT '.3 KPBIFTIO!l E. U.
I AT% A)ale PATED TRAHSleV 8/O SCRAN NO AT% Gm M)T TRIP GOE 2 RXT 3 N31 ~~
ROTOR TRIP BREAKER STATUS RA%K OETECTi( N-31 l. 0(000i(O I)89 4 N32 K4PH RAiGE KKCTfh H-32 1,00000HO 1M{8 5 KK It PtGHATE RA))K "iiiTOR H-35 7.97993M IM(B 6 H36 )Hler(EDIATE RA%8 R:ECTOR H-36 7.97993M At(P 7 NP AVERAK t KLEAR FSIER 98,32 X 8 PRCS REACTOR ~~ SYSTE)I AVG PRESS 22500 PSIG 9 LPLR PRESRIIER AVEPA6E LEVEL 48.9 X 10 FRCLA REA.iOR COOLANT LO(P A AVG FLN 98.0 X 11 FRM REACKR CO(ut(T L(KP 8 AVG FLN 97.4 12 RXT16 RCPA BREAKER CAUSE RX TRIP NOT TRIP 13 RXT17 RCPB BREAKER CAUSE RX TRIP M)T TRIP 14 TSUBTC MRE TC SUBQX)LED NARGIN 44.1 15 LS6A STH GEN A NARROW RANK AV6 LEVEL '2.2 16 LSaB STH BB 8 NARROW RANK AVG LEVEL 52.1 X 17 PS(r) ST)t Ktl A AVERAK FPE%ÃK 697. PSIG 18 PSGB STN GE)( 8 AVERAK PREEBRE 69&. PSIG 19 KNBKRI KM3U)TCR N' BFEAKER 161372 NOT TRIP 20 GENBKR2 WGQTOR ON LINE SREAKEP. 911372 NOT TRIP 21 BUSIIA IUS IIA RPPLY BREAKER NOT TRIP BUSIIB BUS 118 S(PPLY BREAKER NOT TRIP BUS12A ,'IOT TERt(INATED ON PFCS (7/19/91) M)T 'IP.IP 24 SUSIE NOT (ci(INATED N PFCS (7/19/91) HOT TRIP 25 811A124 BS llA TO 12A TIE BREF((ER TRIPPED 2& BI)BI& M 118 TO 128 TIE BREFKER TRIPFED 27 PCV QX(TAI)KSO(T AVERA6E rRBS(RE -.21 PS16 28 LB@PA "Q(TAIN)8(T RNP 4 NSAK LEVEL 1.8 FKT 29 L0942E ~iP 8 LEVEL 8 MtKS (TRAIN 4) iJJR 30 L0943E M' LEVEL 8 INQKS (TRAIN 8) LONER 31 L09428 H)P 8 LEE'S. 78 INQM (TRAIN 4) LNER 32 L0943D :(KP 8 LEGAL 78 MRS (TRAIN 8) LO)IER.
33 L09425 ELtP S LEVEL 113 ItKMS(TRAIN A) LNER 34 L09436 :-"'P 8 LRiG. 113 I)KPD(TRAIN 8) LNER L09428 M' LEi/EL )80 ItCKS(TRAIN 4) LO)IER 36 L09438 :(l)P 8 LEVEL 180 1)GiS(TRAIN 8) LNB 37 L0942A :"2P 8 LEVEL "14 INDUS(TRAIN A) LONER 38 L0943A - % 8 KiG. 'l4 INCKS(TRAIN 8) LO)!ER 39 T04094 ~<<> NOT LEG TE)PERAT1$ E 601.6 40 T0410 -.= RT LG 'si%MK &01.6 41 T0409B '~:XD LEG; et&ERAT(BE 544.5 42 704(08 ' " -QS LEG 'E)PEFAT(K!E 544.7 43 TAVSWal AVG iT)LT/TC(LD WIDE RM)) 573.0 44 TAVGBW:: AVG (TM)T/ICED WIDE RMI) 573.1 45 LPV . I "ESK. AVEFlK LEVEL 99.0 46 TCGRE i %6 . AVE"...~ TiF 242.8 47 FAUXr~ :- - .gA. AU/ roc '~(m FLN 0.
48 FAUIF)T I 3 .= OTAL 4J( ~~rB FLN 0.
49 B(IN'. OFF 50 BKR08 ~K ~(ILIARY ~r" '"'9 P(KP 8 51 V3M "t ~4 Pi% STEAI) S(=PLY VALVE A 52 V3504 4 F(lP v cr'" B.PFLY VALVE 8
OEC i .'995 07:.'5 R.:. GINA SIMATN PAGE 2 TREND QIJP ~SSIG@Qg QJNQQY NLi" ~JENTI PROCEDbnKl EPIP 1-5 PLANT STATUS PO!NT 1D EEKRIPTION VALLE NJAL, E. U.
FSIA SAFETY INZCTIN LOP A AVG FLQ'A -1. 6009 PN 54 FSIB SAFETY INJECTION LOOP B AVG FLN 0. Gm 6PN 55 P2160 SERVICE NTER PNPS A h B fGEER 82. 600D PSIG 5b P2}b1 'ERVICE NTER PNPS C 5 D HEADER 73. 6003 PSIG 57 i%R041 SERVICE NTER PNlP A ON 600O 58 BllR042 KRVJCE NTER PN!P B ON 6003 59 i%R043 SERVlCE NTER PNP C ON GOR 60 BKR044 SERVICE NIER PIIP O OFF '00D
~ ~
. 'IiA SIMATP PAR t(9 REF <<SSIQgGP ~~Y GROLP: <<)DT2 PROCW~: EPIP 1-5 PLAhi STATUS POlta 19 KKRIPs(9( VALUE ((UAL E. U.
! F0619 'v..ST K(X.INS LCC('OTAL FLN , (448. LAU( (Pt(
2 u(NST. REF(F ING NATBI STOP/iGE TAt4( LVL 94.5 6009 X 3 NS 033 33 FOOT L98. i(IND SPED 3.1 6009 tfH 4 NDO33 33 FOOT IEVB. Nlt(9 DllKCTIN 230. 6009 KS.
5 NTO33 33 FOOT LEVB. TBP RATURE 37.6 60M KGF I~
6 NT250 250 FOOT LEVEL TBPERAT(SE 35.1 60M KEF 7
8 9
NDT2 ROl RO2 250 AREA AREA TO 33 FOOT LEVEL DELTA (SX(
"-C(X(TAINt i(T TBP 8.~ -2.5 3.95822+00 6009 KGF GM NIIS 6MD NIN
'rrL N/8(
10 ll 12 RO5 RO9 IQl AREA AREA AREA 9~(
5-SPB(T 34 -
PIT LINE (TWIT(TI AUX BLDG CV SPRAY POP 1.92bÃrOI 6009 1.93865(OI 7.76246<(
6M N/Ht 6M9 N/8(
13'35 AREA ~ASS StÃtf PA%L I.09648(OO 6M N/tS 14 R1OA CONTAINST IODIIK t(ONIT(R RlOA 3. (786K@
15 Rll C(X(TAINt(EtiT 4IR PARTIC(lATE 1.26619KQ 16 R12 CCtaAIQ&T 6AS t(0t(ITOR 1.5577&02 17 RIOB PIPiT VENT IODINE t(ONITOR RIOB 9.0547(M 18 R13 AUX tu6 EXHNST AIR PNTIC(uTE 3.8293&0(
19 R14 AUX BLDS EXHAUST 6AS NNITOR 3.1(260iOI 6009 CPt(
"0 R18 Ll(X(IO NAS(E DISPOSAL tQ(ITOR 1.67639M (m CPt(
21 R19 TEA'( GB(B(ATOR H.MEW D(AIN 4.72469t02 6009 CPN IQ9 AREA 29~4(t'Eta Hl&l RANGE 8.99627<( 60M R/(S 23 (QO AREA 3DCNTAINSa Hl &( RAN6E 8. 99627<( 60M R/NR 24 R(5 CQ(OB(SER AIR EXCTOR EXHAUST 5,54306(02 60EI CPH 26 27 RIM RVM R12A7
<</
CV
<</
VENT CHAN VEta VB(T CHAN CHAN MON FANGE 6M'4(9(A 7&F0 FAN%
6AS 6AS l.~
7.50006<7 9.99964M 6M KI/K GM N/(S 6009 Xl/K "8 RI2A9 "".iBii BAN vWiiH 8$ JK C EAS 9.99967M 6009 KI/K 29 R14A5 FA'Ci VENT CIVW 5-LON RANGE 6AS I ~ SOOOIM 6009 UCI/CC 30 R(447 ENT '-. 9 RANGE GAS 9.99984M 6009 KI/CC 31 R14A'I ~(I;a vBa c(w m(8( RANK m 3,9997(M 6009 UCI/CC 32 RI~M <<IR EZCT(S 0%( M.(X( RANGE 6AS 7.799K&5 6000 UCI/CC 33 R(547 AIR EIECT(S Ct(AN 7-li(D RANGE GAS GM XI/K 34 R(5A9 AIR ESECTOR Ct(AN 9+I RANK 6AS 9.99987M 6009 XI/K 35 V3411C sTEA," INE AR( 4
~
CLOSED 6M 36 Vt(SSVA 'V .B OF S/6 4 tSSV OFEt( O. 6009 9 (PB(
37 IQI /4B 31 STEAt( Llt(-" 4 (8'INGt 6.0100(r02 GM lS/Ht 38 R3(RRO M4 ttDHE GAS RELEASE RATE'SNA .OOOOOtOO 6009 CI/SEC 39 V34(OC :-iit LINE ARV 8 CLOSED 6MD 40 Vt(SSVB '~Z OF S/6 B t(SSV (PEN O. GM 9 CPB(
41 R32 /4'2 STEA(( LILE 8 (PING( 6.OI~ 6009 N/HR 42 R32(%9 -Sc '(09LE 6AS RMAF RATE'(5(SA .OOOOOiOO 6MD CI/SEC 13 CVH Cv '-'MS ~ATION .0 GM X 14 TCVO3 i&~c ori TBP 13 67.7 6009 K6F 4'VOv <<iiDIATE LVL ."'.-"T TBP 47 84.5 60M KEF 46 TCVM .v .NicCDIATE LVL 6 T TBP 48 84o5 6M9 K6F 47 TCVO9 <</ WERt(EOIATE LVL oFT TBP 49 84.5 6009 KGF 48 TCVIO <<l INTER((EDIATE LVL 6FT TBP 410 84.5 6009 K6F 49 TCV17 C/ iVGMTI(6 LBL 6FT TBP 417 IOI>3 6009 KGF
T Message:
GIN NA STATION DECEMBER 6, 4996 PLUNlE EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++
The following alarms are received in the control room L-18 (Sump A actuation)
=OR CONTROLLER USE ONLY c lier Notes:
1. A leak of approximately 16 gpm has started.
actions Expected:
Operators. should note the time of the sump pump actuation. The operators should investigate sump pump actuation time for any abnormal trends.
8-8
i )995 R. =.:- .((4 SIN(LAT"6 PA6E TRBQ m(hP -'%IGNNEI(T ~~
GRK=.: =VB(TI FROKD.=.E; EPIP 1-5 FLAIIT STATUS POIHT 19 KSCRIP TICN E. U.
I ATls ANTIC)FATED TRANSIENT M/0 SCRAt( HO AIMS 6009 2 RXT REACT3R TRIP BREAKER STATUS HOT TRIP . 6%9 3 H31 S(KRCE RANGE BEiiCTOR!I-31 ~ I 00XOKO
~ 1)K(9 CPS ..
4 t(32 SmJKK RANK ~~aiTOR &32 1+00000)(O J%(9. CPS 5 .H35 I)IIERIIB)IATERA%K ~~i H-35 7.76244M 1%(9 "AIP 6 N36 INTER)90)IATE RA%c ETECT(KI H-36 7.72679M 4)P 7 NP AVBIAGE NUCLEAR 95.55 X 8 PRCS CmK4t(T SYSTBI AVG PRESS PS'E4".T(KI 2257 0 PSLG 9 LPIR PRERRIIER AVERAK LBH. 43.2 X 10 FRCLA RBViiR (KLAHT UK)P 4 AVG FL(K( 98.2 X ll FRCLB REA.TOR CmU((T UKP 8 AVG FLOM 97.5 X 12 RXT16 RCPA BREAKER CAUSE RK TRIP )K)T TRIP .
13 RXT)7 RCPB BREAKER CNKE RX TRIP )K)T TRIP (4 TSUBTC INCORE TC MCORED )IARGIN 47i5 l6iF 15 LSGA STN GBI 4 lAIROM RME AVG LEVEL 52.1 X 16 LSGB ~ STN 69( 8 HARROM RAt(GE AVG LEVEL 52.2 6XO X 17 PSGA STN GEN 4 AVERA6E PFZSSRE 697i 6009 PSI6 18 PSGB STN EH 8 AVERAGE PRE%UK 696. 6009 PSIG 19 GEHSKRI GBGQTDR ON LINE SFZQER 161372 NOT TRIP 6XB 20 GENSKR2 6c)ORATOR OH LINE BREAKER 911372 HOT TRIP 6X9
'1 SUSIIA SLS IIA QPPLY HSRBI )K)T TRIP SUS118 SUS 11S QPPLY BREAKER )K)T TRIP 23 BUS( 2A NOT TiNINATED ON PPCS (7/19/91) NOT TRIP 24 BUS128 tK)T TBSP)((HATED ON PPCS (7/(9/91) NOT TRIP 811A12A SUS I)A TO 12A TIE BREA((ER TRIPPEO 8118129 BUS 1!B TO 128 TIE BREAKER TRIPPED 27 PCV QNTAIOENT AVERAGE FRESQRE -,06 PS16 28 LQIPA 95TAIII)IENT QJP 4 4VER46E LEVEL I.V FEET 29 L0942E QKP 8 LEVEL 8 Il(CHES (TRAIN A) LONER 30 L0943E QlP 8 LEVEL 8 INCHES (TRAIN 8) LOMB(
31 L'094K PAP 8 LEVEL 78 ItKKac (TRAIH A) LONER 32 L09439 SUIP 8 LEVB. 78 IHChcS (TRAIN 8) LOMB(
33 L0942C QlP 8'LEVEL 113 INCHES(TRAIN A) LONER 34 L0943C QlP 8 LE%1 113 INMS(TRAIN Bl LOMB(
35 L09428 SU)P 8 LEVEL 180 I)KKS(TRAIN 4) UKIER 36 L09438 Qt)P 8 LE!EL 180 It MS(TRAIN 8) LOVER 37 L0942A ~~ 8 LEVEL 214 INKS(TRAIN A) LONER 38 L0943A QPP 8 LEVEL 214 ()GAL(TRAIN 8) LQKR 39 T0409A RCU) HOT LEG TBPERATSK 599.2 40 T0410A PCLB HOT LE6 TENPGIATIPE 599.2 41 T04098 R(XA COLD LEG TBPBIATIRE 543.6 42 T04108 RCLB C(KD LEG TENPEPSiTlRE 543.6 43 TAVGAMID RCLA TAV6 (T)K)T/TC(KD HIDE R)K)) 571.4 44 TAVGSMID RCLS T4VG (T)6T/TCOLD MIDE R)KI) 571.4 45 LRV RE/i.TOR %SSL AVERAGE LEVEL 99.2 46 TCCCRE E(.1 !MXRE TC AVERAGE TENP 241.7 47 FAUXFMA 6!G A TOTAL AUK Fc -4'l% 0.
48 FANFMS 6/6 8 TOTAL AUX FEEBLER FLOM 0.
49 SKR08( AUXILIARY ~am P(KP 4 OFF 50 BKR082 NTR AUXILIARY'FRETTER P(KP 8 OFF = 6X9 51 V3505 AN FMP(KP STEAN SLPPLY VALVE A CLOSED 61 52 V3504 AN FM PIKP STEAN QPPLY VALVE 8 CLOSED " 6ml
DEC "'i 1995 07' R. E. GIN'0 SIMULATOR PAGE 2 TREND 6ROUP ASSIBSENT BNNRY GRtal"l =VENT1 PROCEDURE: EPIP 1-5 PLANT STATUS POINT ID DESCRIPTION VALUE NAL E. U.
53 FSIA ~i ILECTION LXP A AVG FLN 0. GOOD GPN 54 FSIB '~i INECTION LOOP B AVG FLN 0. GOOD 6PN 55 P 2160 SERVICE MATER PINPS A 5 B HEADER 82. GOOD PSIG 56 P2161 SERVICE MATER PUtPS C 0 D HEADER 73. GOOD PSI6 57.'KR041 SERVICE NTER PNP A ON 6009 58 BKR042 ~ICE MATER PlNP B ON . 600D 59 BKR043 SERVICE MATER P1NP C 60 BKR044 KRVICE MATER PNP D
SEL') )995 ) ~
R. =..:Nt)A SINLAT)>R IF)END SOUP 'BIQIISOIT ~~i SRQP: EVB)IT2 FMCEWE: EPIP 1-5 FUIIT STATUS POINT ID KSCRIPTIQI VALUE QUAL E. U.
I F0619 ZtfOISP m.INS LCP TOTAL FLM 1438. IALII 6PN 2 LRMST REFUELINS MATER STORAOE TAN LVL 94.5 6009 X 3 MS033 33 FOOT LEVEL 'MIND SPEED 3.1 SM IfH 4 MD033 33 FOOT LEVEL MIIO) DIRECTION 241.'M KS.
5 MT033 33 FOOT LEVB. TENPEP/)llSE- 37.9 6009 K6F 6 QTZO ZO FOOT LEVEL TB)PERAIUK 35.5 SM KQ:
ZO KLTA TEMP -2.4 6M KSF 7
8 MDT2 ROI 9 R02 AREA AREA TD 33 FOOT LEVEL I XNTHL ROON 2~4IQIENT 9>~
4>07381400 6009 NIIS 6M NIIS 10 R05 AREA 5-SPENT IODIZES FKL PIT 5>15822<1 'M IS/%
ll R09 AREA ~XN -
LI'NE t&ITW I ~ 80925i01 6009 N/IS 12 R34 AREA 34 AU% DLD6 CV 9%AY PN'.8522rOI 6009 Nl)S 13 R35 AREA ~ASS SA)IFLE P4'EL 1.09648t00 6009 IS/IS 14 RIOA CONTA INNBIT NtllTQI RIOA 8.42603+02 15 Rll CNTAINNENT AIR PARTI CUATE I. 27717+02 16 R12 CONTAIIST 6AS NOIIITOR 3>0549MB 17 RIOB FUIIT VENT 1091NE NONITW RIOO 8.8231880 18 R13 AUX DLD6 EXHAUST AIR PARTICULATE 3.63600)01 19 R14 AUI mS EIWeST S)S mITDR 3.1260&01 6M CPN 20 RID LIOUID MASTE DISPOSAL IOIITOR 1.5917&02 6M CPN 21 R19 STEAI SENBIATDR SLS)N)N WAIN 4.40933t02 6009 CPN 22 R29 AREA 29~ITAINKNT HISH RANSE 8.99627<1 SM R/IS 23 R30 AREA 3lHXMMI)4)BITNISH RAN6E 8.99627<1 6M R/IS 24 P15 QK)ENSER AIR EIECTO)) DHAUST 5.54306K@ 6M CPII c&5 V Vgfl CSW MOM RMK 6AS 7,'0006M 6009 1/CC 6~
X
\
]+i Vl IBII CHAN SANA I.99~ 6M N/IS 27 812A7 "V '4~c. i CS)N 7+ID P4t4K 6AS 9.99984M 6M XI/CC 2& 8124 9 :V "B)T CSW 9%168 F~4IE SAS 9.99987M 6M XI/CC 29 R1445 PLFIIT ')ENT OW 5<0)) F)AIISE 64S I.&XOH>7 600D XI/CC 30 81447 PLAIT VENT CHAI 7&ID Q4K 6AS 9.99984M 6009 Xl/CC 31 R1449 cLA)IT IBIT C16VI 9+IQI RAIISE 6AS 3.99971M SM Xl/CC 32 R15AS AIR EIECTOR CHAN MDM RANEE 6AS 7.79983M SM XI/CC 33 R1547 AIR E:ECTOR CHAti 7+ID RANEE EAS '9. 99984M 6M Xl/CC 34 R1549 AIR c JECHR CHAN 9+I RANSE 6AS 9.99987M SM XI/CC 35 9341 IC STD'>iNE ARV 4 CUK) 6M VIVA '4)t5Ec OF S/6 4 NSSV CcEN 0. 6009 8 OPEN 37 R31 3) STEAN LINE A (SPINS) 6>OI~ 6M N/IS 38 431RRO '~ >iOB
~
6AS RELEASE NTEIISNA .00l00800 6M CI/SEC 39 V3410C '.tE 4V 6 CNB 6009 40 >
tt%VB '4F6EcR X 8/6 8 %SU OFEN 0, SM 9 FBI 41 R32 STEAtt LK 8 )SPII16) 6.01~ SM IS/%
42 R3>RRO SH '4)OLE 6AS PB.EAScERATE:)5%4 .00000t00 6M Cl/SEC 43 ~>H .: "'MKI~~i~iATIO) .0 6M X
~ 44 943 ..:-AEE)tc)II L.:):-; cF ~
TENP i3 >10.9 600D DGF 45,LV07 :..AIA)c .". ccT c)IP l7 105,4 QmO K6F 46 T)./06 ~, >)w>GIIA> ' I. ci'i )cCP I8 105.5 SM KSF 47 TCV09 MEDIATE ">1. cFT TBS 49 105.4 6M K6F 48 TCVIO ."/:>PERKS)IAT'V'T B)P 410 105.5 6M K6F 49 >>)I7 AT1% ~EM. c= ~ TBF l17 99.8 SM KQ
Message:
GINNA STATION DECEMBER 6, 1S95 PLUME EXPOSURE EXERCISE MESSAGE FORM Ie for: Control Room Ie: +++THIS IS A EXERCISE+++
iwing alarms are received in the control room:
-18 (Sump A actuation) iNTROLLER USE ONLY et.. tes:
T level is decreasing at a rate of >1'/0 per minute Expected:
unusual event should be declared in accordance with EPIP 1-0, EAL ¹ 3.1.1
.rators should implement EPIP 1-1 "unusual event" for a 8-10
o GRRP: =VB(T! APOCOPE:-: EPIP, 1-5 VÃi STATiS POINT ID DESCRIPT'Gt Eo U.
61 1
2 3
AIMS.
RXT N31
~i At(TICIPATED TRA%IEhi M/0 KRAtt tRIP BRENEFi STATLS SQRCE R4%E DETECTCR tl-31 HO NT AT)i5 TRIP 1.00000i(O GOOD IHHB 4 t(32 SO(RCE RA)lK KKCTCR 1.00000i00 I%8 5 H35 RANK HTOR tt-32'N'(B)IATE H-35 7.~M WB 6 H36 INIERHB)IAIE RANK EilETOR H-36 7.58577M At&
7 NP AVERAGE H(XLEAR FQER 93.53 X 8 PRCS REACiOR COOLANT SYSTEN AV6 PRESS 2259. PSIG 9 LPIR ~IIER AVERAK LEIS. 46.9 X 10 FRCLA REACTOR COOUV(T LOQ' AV6.FLSI 98.2 X 11 FRCLB RECTOR C(XU((T MOP 8 AV6 FLS( 97o5 X 12 RXT)6 -
RCPA BmeER Wm Rr TRIP NT TRIP 13 RXT17 RCPB BRENER CAUK RZ IRIP HOT TRIP 14 TBSTC 1)GRE TC SUKOKR tQKIN 48.8 OEGF 15 'LSGA STN 6B) A NARRSI RANK AVG LEVEL 52' X 16 LSGB ST)t 6BI 8 HAREM RANK AVG LEVEL 52.2 X 17 PS64 ST)t 6EH A AVERAGE PRESRRE 702. PS16 18 PSGB STll KH B 4VERAGE PRESSURE 701. PSI6 19 68$ (R! cBGQTOR Q( LINE KrAER 16(372 t(OT TRIP 20 GENBI(C K)ERATOR ON LINE EFEAXER 9XI372 NT'RIP 21 BUS!14 M>> IIA SUPPLY BREAI(ER NT TRIP 22 BUSIIB BUS I!8 SLPPLY BPM~R HOT TRIP 23 BUS:24 NT TEFJ()HATED ON PPCS (7/19/91) NT TRIP 24 BUS(28 t(OT TBt(IHATED ON PKS (7/19/91) NOT TRIP 25 8114 12A BUS 114 TO 12A TIE SPEA'(ER TRIPPED 26 8118128 .US 118 TO 128 TIE BREA(ER TRIPPED 27 PCV COt(TAINHB(T AVERACE FF SS(FiE .11 PSI6
'8 LSD A CQ(!4)HHB(T SUt(P 4 4)rgAGE LEVEL 1.7 FEET 29 30 L0942E L0943E >>L.P B ~
ESP 8 LEVB. 8 I)OKS (TRAIN A) 8 )CHES !TRAIN 8)
LSD LS>>R 31 L0942D =aP 8 LEVEL 78 ItiCP=S (TRAIN A) LOM 32 L0943D B~ 8 LE(EL 8 /tC.>>S (TRAIN 8) lSlER 33 L0942C B P 8 LEVEL !13 ItlC)t-"S(TRAIN A) LQ(ER 34 L0943C N' LSB. 113 aNFS(TRAIN 8) LSD 35 l09428 BPP 8 LEVEL 180 It(C):S(TRAIN A) LS(ER L09438 =L(P 8 LB'80 ItCiFS(TRAIN 8) LSlER 37 L0942A 215 . LEIrcL 214 itChP(TRAIN 4) LONER 38 39 L0943A TO(094 -C( 'T QPP 8 LEVEL 214 It(ChcS(TRAIN 8)
LE6 TBfEPATLK LSD 597e8 T0410A RCLB NT LEG 'iiiPEP>T(RE 597.8 41 42 T0409B T04108
~
RCLB GLD LEG KLD LEG TEHPEFST(RE TEPPERAT(RE 543' 543o4 43 TAVGAMID R).4 4V6 (T)GT/IID HIDE RN) 570.6 44 TAVGBMID i~>> TAVG (M)T/TZLD HIDE RNS) 570.6 45 46 U(V TCCORE E:.::)GFZ i/ESSB 4 /B(AG TC AVESTA==,~P I~ 99.3 241.3 47 FAUIFMA :--8 4 TOTAL AUX FwMAIiR FLQ( 0.
48 FAUXFMB :/6 8 OTAL AUÃ FKWiR FUN 0.
49 Bt(ROG! "(R QJIILIARY Fcc )PTER PQVi 4 CFF 50 Bt(RON t(TR 4UIILIARY FEEI/itATER Pll9' OFF V3505 Rf FM PUtiP STEA)) 9PFLY VALVE A CLOSED 52 V3504 AUI FM P(lF STEAt) SLFPLY V4LVE 8 O'SED
DEC a~ 695 07:45 R. E. GI'S SIMULATOR PA6E TREND 6ROUP AKIGtNENT.BNNRY GRCd': PJENT1 PROCEDLRE: EPIP 1-5 PLANT STATUS POINT ID DEKRIPT IC4 VALLEY QUAL E. U.
FSIA SAFcCY INJECTION LOOP A AVG FLN 0. 600D GPN 54 FSIB SAr~c ItfJECTIONLX+ B AVG FLOM P. 600D GPN 55 P2160 SERVICE MATER PNPS A h B HEADER 82. 600D PSI6 5b P2161 SERVICE MATER PNPS C 5 D HEADER 73. 600D PSIG NRP41 SERVICE MATER RNP A 6009 58 NRP42 SERVICE MATER PUtP 8 6000 ~
59 NRP43 SERVICE MATER PUtfP C
$P NRP44 cJ//ICE MATER PUg 0
CEC a> 1995 >>
~
~ ] ".. =. 6!itt4 SltILATCR TREND 6RCUF ASSIQCSP RFe"CRY 6ROtP: UENT2 PROCEDLF.E: EPIP 1-5 FUN ST4IUS POINT iD DESCRIPTION E. U.
I FOb19 GXLINS LOCH TOTAL FLN 1427. LALN IPII 2 L$6T REFUELING HATER FiiF/>K TAt41 LVL 94.5 ~
6000 X 3 NT033'OtPI5EHT 16033 33 F00T LEVEL RIND SFEED 3.2 6000 tPH 4 ND033 33 FOOT LEVEL MEND DIRECTION 257. 60M K6, 5 33 FOOT LEVEL TEIPERATIRE 38.3 6000 16F T>AIISE I~
b NT250 250 FOOT LEVEL 3b.l 6XO EESF 7 NDT2 M TO 33 FOOT LEUl1 DELTA TBP -2.2 6XO OESF 8 R01 AREA R0N - 8.75992M 6000 IS/t41 10 ll 12 R02 R05 R09 R34 4REA AREA AREA AREA 34
~
2~4IIST 9~1 FlKL PIT LINE tO/ITOI
- AUX BLDO CV SPRAY POP 3.95822KO 4.92bCrOI 1.938h5i01 8.41394<1 6XO IS/%
6M tS/%
6XD t9t/%
6M N/%
13 R35 AREA ZrPASS ~c PAtG. 1.09b48iOI 6000 t9t/%
14 RIOA COHTAINNEHT IQDIIK NNITN RlOA 5.24805i04 HAut 15 Rll CNTAINNENT AIR FARTIQLATE 4.42843+02 SXD lb R12 CGNTAINttEHT EAS NDNITOR 3>83485i03 6000 17 RIOB PLANT VENT IODINE NONI 7tH RIOB 8.93819~ aXm 18 R13 AUX BLDS EXHAtST AIR P/RTICLLATE 3.82iUSK)I 60M 19 R14 AUZ BLDG EIHAUST 6AS 55ITOR 3.349bSiOI 6XD 20 RIB LIOUID HASTE DISPOSAL NNITOR I ~ 59175i02 6000 21 R19 STEAN 6EHERATCR BLOtliOII DRAIN 4.724b9+02 6000 22 R29 AREA ZHBITAINNBITNISI RAHK 8.99b27IT Nial RAN6E 8.99b27<I 6000 24 R15 CMBISER AIR EXCTCR ESAUST 5.5430b+02 6M CPN R12AS CV VENT CHAN 5~ P/U& 6AS 7. SXCr% 6000 XI/CC 2b R12Ab CV VENT CI9VI AREA 6ANA , 1.99%&02 60M IS/IS 27 R12A7 iV VENT CHAN 7+10 FAN 6AS 9.99984M 6M XI/CC 28 R12A9 CV VEHT CHAN 9+IGH RAt66 64S 9.99987M 6000 XI/CC 29 R1445 PLANT VENT CHAH ~C4t RAN6E 646 1. c0001<7 6000 UCI/CC 30 R14A7 PLANT VEHT CHAN 7+10 RANK 6AS 9.99984M 6000 XI/CC 31 R14A9 PLANT VENT CNH 9+laH RANK 6AS 3.99971<3 60M XI/CC 32 R15A5 AIR E.'ECTOR CHAN 5<CN RAN6E 6AS 7.799&Oh 60M'l/CC 33 R15A7 41R EIECTOR CSN 7+ID RANSE 6AS 9.99984M 6000 XI/CC 34 R15A9 AIR E.cCTOR CHAtl 9+I l'A%E 64S 9.99987M 600D XI/CC 35 V3411C STEAN LINE NV A CLOSB, 6M 3b VNSSVA NQSBt OF S/6 4 NSSU CFEN 0, 600D 8 IPEN 37 R31 AREA 31 STEAtl Lit>E A {PIt6) b>010&02 6M %/lR 38 R3IRRO S6A NOBLE 6AS RELET RATE:15%4 .00000i00 6000 CIISEC 39 V3410C STEAN LI%'ARV 8 CLDKD 6000 40 UttSSUB tlUtSBI OF 6/6 8 Nc~ CFEN 0. 6000 8 $ %H 41 R32 AREA 32 STEAN LIK 8 (SPINS) b>DI~ 60M tSIIR 42 R32RRQ aiiB NOBLE 6AS RELEA~c RATE: ISNRA .00000i00 6M CI/SEC 43 CVH CV HYDROSEN CI5CBITRATION .0 6000 2 44 TCV03 CU BASENENT L=UEL bFi TBP 43 128.2 6008 CESF 45 TCV07 V/ itlTERNEDIATE LVL cFT ictP 47:13.b 6000
~
4b TCV08 CV IIITEFNEDIATE LVL cW.'>>P 48,113.b 6M 47 TCV09 CV IHTERttEOIATE LUL a".I TBP 49 1'13,b 6XO 48 TCU10 CV INTERNEOIATE LUL bFT TBP 410 '13.b 6000 49 TCV17 CV IPERATING LEUL bF i '>iP 417 99.1 6000 OE6F
GINNA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE Mini-Scenario Activity: "B" Accumulator Leak Controller Notes:
1'. Accumulator leakage is past valve AOV-844B
2. Allow operators and RP department to make preparations for a containment entry.
3. Do not allow RP technicians to actually manipulate valves to obtain containment atmosphere samples.
4. Allow the plant to make all preparations to make a containment entry. When the entry team is at the containment personnel hatch have the auxiliary operator identify that V-892B is required to be shut to stop the leakage.
5. If a repair team makes it to the personnel hatch, give them credit for closing valve V-892B.
Call the simulator booth operator (X6641) and inform him that the repair team has simulated entering containment and that the accumulator leakage has been stopped by closing V-892B.
After the simulator booth operator has been informed, allow the entr'y team to inform other players that valve V-892B is closed.
Actions Expected:
1. The plant should make preparations for a containment entry to close valve V-892B in'order to isolate the accumulator leakage.
'8-12
T Message:
GINNA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Message. for: Control Room Message: +++THIS IS A EXERCISE+++
Declare an unusual event per EPIP 1-0,
¹ EAL 3.1.1 "unidentified leakage greater. than 10 gprn" FOR CONTROLLER USE ONLY Controller Notes:
1. Deliver only if an unusual event has not yet been declared.
2. Do not deliver if emergency classifications are in progress.
Actions Expected:
8-13
T Message:
GIN NA STATION DECEMBER 6, 1995 PLUNIE'EXPOSURE EXERCISE MESSAGE FORNI Nlessage for: Control Room Message: +++THIS IS A EXERCISE+++
The following alarms are received in the control room:
L-18 (Sump A actuation)
FOR CONTROLLER USE ONLY Controller. Notes:
Actions Expected:
The plant should be shutting down per AP-TURB.5 or 0-2.1
2. The plant should be investigating on the tripped "B" Sl pump.
F
3. The "C" SI pump seal repair status should be investigated.
4. The plant should recognize that accumulators can no longer be filled.
8-14
PAG.
TRE)4) c ELF '~[80SHT ~ JAPi,v GRRP::-;=(II ARK=."=: EP!P 1-5 FL/'ii STATUS POINT ID EESQ( fPT IQl VALK OJAL E. U.
4TMS At(TICIFAlit TRAi)SIENJ M/0 SCRAN tiO AIMS 6009 2 RXT' REACiOR TRIP SS(ER STATUS NOT TRIP 6009 '.
H31 SO(KK RANGE KTECTOR H-31 (0000100 !NHS CPS 4 N32 hum- RANGE DETECTOR N-3 1 ~ 00000i00 1%9 CPS 5 H35 INTER')IATE RAha-=KIECTOR H-X 6.76082M IHHB AtP 6 t(36 IHTEPtG) IATE RANK KTKTQI H-36 6.698aM INS AtP 7 HP AVERAGE NXLEAR POLER 83.33 6009 X 8 PRCS REA".TER CKLANT SYSTEN AV6 PRESS 2250. 6M9 PSIG 9 LPIR PREQBIIER AVERAGE LEVEL 46.2 6XD X 10 FR(lA REACTOR CKLANT LKP A AVG FLOM 98.0 6009 X ll FR(LB REJCTOR CXLAHT LOOP S AV6 FLEM 97.4 Gm X 12 RITIb RCPA SRE41ER CAUSE Rr TRIP Wf TRIP 6XD 13 RXT17 RCPB SRGCER CAUSE Rr TRIP HOT TRIP Gm 14 TSUBTC ItCGRE TC SUKO(LED HARBIN 53.4 600< K6F 15 LS6A STN Ee( 4 HAFROM RANGE AVG LBEL 52.2 Gm X 16 LSGB STN 6EN 8 NARRS( RANK AVG LBEL 52.2 6000 X 17 PS6A ST)l 6cN A AVERA6E PRESRRE 734. Gm PS16 18 PS68 STN 6EN 8 AVERAGE PP&SURE 734, 61 PSIG 19 GENNRJ c3KRATOR ON LINE BREAXER IG1372 HOT TRIP 6009 20 GENS)(JL'1 KtERATOR ON LINE SREALER 91137" t)OT TRIP 6009 BUSIIA RK I IA RPPLY SFENER HOT TP.IP SUS! 18 BUS 118 RPPLY BP~cER NOT TRIP 23 SUS12A )JOT T99(IHATED ON PPCS l7/19/91) t(OT TRIP 24 BUS128 NT TETdlIHATED ON PPZ (7/19/91) t(OT TRIP 25 Bl IA124 BUS IJA TO 12A TIE ERENER TRIPPED 26 9118129 PJS 118 TO 128 TIE SS(ER lRIPPED 6009 27 PCV COHTAIHNEHT AVERAGE PRESSURE .19 6009 PSI6 28 LRNP4 Ãt(TAIN)elf SU)P A AVERAGE LBEL 1,7 6X9 FEET 29 L0942E BJtP 8 LEVEL 8 TIGRS fIRACH A) LO)JER 60X 30 L0943E RIP 8 LBEL 8 IhQKS iTRAIN 9) LONER 6009 31 L0942D ciJ)P 9 KVE1 78 !NCHES (TRAIN A) LQGi',
32 L0943D RJ)P 9 LBEL 78 I~~-" (TRAIH 8) LO()ER 33 L0942C RrP 9 LBEL 113 INCUS(TRAIN A) LOVER 34 L0943C R9P 8 LBEL 113 IhCh 5(TRAIN 8) LOMB 35 L09428 SU)P 8 LEVEL 180 INURES(TRAIN A) LO)IER 36 L09438 RlP 8 LBEL 180 IHQ(cS(TRAltt 8) NFR 6MO 37 L0942A et P S LBS. 214 INCHES(TRAIH A) LOL& 8Ãn 38 L0943A QfP 8 LEVEL 214 IHCHcSlTRAIN 8) LOLER 6XD 39 T0409A RC(A H)T LE6 TiATURE 594.1 6MO EE6F 40 T0410A e o HD'E6 TE)PERATLFE ~ 594.1 6009 EE6F 41 T04098 ill QXD LEG TE)FERATLRE Q4.7 6M9
~
EE8'44.9 42 T04108 RLB C(LD LE6 TE)PERAT(RE 6009 K6F 43 T4VGAMID AVG (TKTflC(LD MIDE RNG) 5 9.4 61 K6F 44 TAVGBMID o = "AVG (Tt()fflCOLD MIDE RHG) 569.5 Gm KGF 4S 46 LRV TGXfE PDVTOA VEcSSEL
"-:.::t(QJRE TC N~"-
AWA:c TEJP i~ 99.i 239.4 47 FAUrF)M :.3 'OTAL PJr fZi 'AliR FLEM 0.
48 FAUXFMB =/6 = TOTAL AUX FRATER FL(ti( 0.
49 BXR081 ~in AUIILMYrcEMAim PU)P 4 OFF 50 BrR082 NTR AUIILIARYFBDNTER FQP 9 OFF 51 V3505 AU( FM PU)P STEAJ( RPPi Y VALVE 4 CLOSED 52 V3504 QA FM POP Piil RlcFLY VALVE S CLOSED
DEC 6i 1995 08:00 R. E. GINA SIlSLATOR PAGE 2 TREND GROUP ASS IMENT SLY'WRY SR': EVENT1 PRXKt&: EPIP 1-5 PLANT STATUS POINT 19 DESCRIPTION QUAL E. U.
53 FSIA SALTY INJECTION LOCE A AV6 FLN 0. 6009 PN 54 FSIB SAFE INJECTION LOOP B AV6 FLOM 0. 6009 PN
'5 P2160 SERVICE MATER P1IPS A 5 B HEADER 82. 6009 PSIG 56 P2151 SERVICE MATER PlIPS C 5 D HEADER 73. 6009 PSIG 57 BKR041 SERVICE MATER RNP A ~ ON 6009 58 BKR042 SERVICE MATER Ply B . ON 6009 ~
59 BKR043 ERVICE MATER POP C 60 BKR044 SBSICE MATER PUtP'
6ROLF: oENT2 ~;:: EP IP 1-5 FLr)IT STATUS POliiT 13 KKRIFTICN VAUK OUAL =. U.
! F0619 ENT DXLlha LMP TOTAL FL)t 1438. CAu) 6PH 2 LRHST REEF INS HATHI STGRASE TAI<<t LVL 94.5 6XS 3 HS033 33 rTX)T LEVS. BIND SPEED 3.3. 60M tfH 4-. N9033 .3 rr)T LEVB. 'Al)9) DIRECTION 273. SX)9 OE6.
5 HT033 33 FOOT LEVE.. TEMPERATURE 38.8 6009 K6F 6m I~
& HT250 250 FOOT LEVEL TEHPEFATURE 36.7 KEF 7 HDT2 ZO TO 33 FOOl'EL DELT4 TEHP -2.0 6009 OE6F 8 R01 AREA RtÃN 9.06777M 6009 )8/)8 9 R02 10 11 12 R05 R09 R34 AREA AREA ~
HZNTAI(%MT AREA 9-LETOOHH AREA 34 "
FUEL PIT LINE NNITN AN BL96 CV 9%AY PU)8 3.84591+00 5.~1
).97242')
6009 6009 60M
)8/)8
)8/)8
)8/)8 8.3!764<) 6009 t8/)8 13 R35 NEA ~ASS SAN)LE PA)EL ).09648M 6m )8/)8 14 RIOA CGNTAIhHEHT IODINE PQIITGR R10A 9.')4Zb<h 15 Rl1 CO)ITAINHEHT AIR PARTIGIATE 7.27569+02 lb R12 CONTA INHEHT 646 Pg)III TOR 7.68464403 17 R 109 Pu<<)T VEHT IODINE KHITGR R109 9.0547)+00 18 R13 AUX ment EXHAUST AIR PARTIC!XATE 3.8625M) 19 R14 RIX ELO6 EXHAboi M 5NITOR 3.32085)0) Sm CPH R18 LIQIID HASTE DISFOQL XHIHR 1.67639i02 6009 CPH 21 R19 STEAt) SENSIATGR B.CNXN DRAIN 4 MS&02 Sm CPtl 22 R29 AREA "9~4!l<<IDIT HISI RA)4K 8i 99627<! 6009 R/)8 23 R30 AREA ~AI)<<IEIITHIOH RANSE 8.99627<) 6009 R/HR 24 R15 CONGE)GER AIR EJECTCR EXHAUST 5,37804i02 6009 CPH 25 R)245 CV VENi CHAN M OH FAt)K 6AS 7.50006M SXEI IXll/CC 26 R!246 CV VENT CS<<t ~EA 64)<<)4 I i9VNr02 6M9 l8/)8 27 R12A7 V VENT CHAN 7&ID PAIW 6AS 9.99984M 6009 IX:I/CC 28 R!2A9 CV '93)T CHAN 94!EH, 4%E 645 9.99987M 6009 UCI/CC 29 R!4A5 oLA'P VEHT 04W ~C'46E 6AS ).5000K)7 6m IXI/CC 30 R1 447 FLA/1 18'I<<VI 7 .IID PANSE 64S 9.99964M 6009 IX:I/K 31 R14A9 :N'6 VENT Cu HJIEH RAHK C4S 3.9997)W 6009 U.l/CC 32 RIM AIR EZCTCR C)i/Vt &~
W RAHSE 6AS 7.79983M 600D IEI/CC 33 R15A7 4IR EJKKR NAM 7~iiID RAN6E 6AS 9.99984M 6009 LI/CC 34 R15A9 AIR 6JEITOR GIAN 9+I RAI)SE 645 9.99987M 60M IX:I/CC 35 V341!C STEAN LINE ARV 4 CLOSED 60m 36 )TISSVA .'"w --. GF S/6 A I',SSV OF& 0. 6009 <<OPE)t 37 R31 AREA 31 STEAN LINE A (SPIHS) 6i 010%r02 6009 )8/)8 R3!RRO SÃ ')OSLE 6AS RELEASE RATE'15)84 .00000KO 6009 CI/SEC V3410C "=TEAN Ll)K ARV B CLKED Sm 40 NKUB M8ER OF S/6 8 lSSV OFT 0, SXX) 9 5%)t 41 R32 AREA 2 STEAtl LINE 9 <SPINS) 6.0)006M 6090 )8/)8 42 R3%!0 669 NOBLE 6AS RELEASE RATE:15)84 .00000i00 6009 CI/SEC 43 CVH V/ HYOR06EH W~c)ITFATION .0 600D X 44 TCV03 / BASE%HI L+ioL oR' <<3 137.3 SX)9 KEF 45 TCV07 ."/ HWcCDIATE ';v1 . T TEHP 47 119.2 6m OE6F 46 TCVN8 .i'NTBDIEDIATE LVL 6=.i TEHP <<8 119.3 SMl 47 TCV09 TCV10 i
V:MTSUIEDIATE LVL brT TEHP <<9 IATE LVL orT ~ <<10 119.2 119.3 6009 6m K6F OES'01.2 49 TCV17 CV OPGIATII<<I LEVL Mi ~i <<17 6m OESF.
Ti Message:
GINNA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Ilessage for: Control Room Message: ++ +THIS IS A EXERCISE+++
The following alarms are received in the control room:
L-18 (Sump A actuation)
~
FOR CONTROLLER USE ONLY Controller Notes:
Actions Expected:
1. The plant should be continuing an orderly plant shutdown.
2. The plant should be continuing an evaluation of plant leakage 8-15
.=C ASSIQtSP 'V(AR'i (B(OK 98(TI FMZ-:-: EPIP 1-5 PLANT STAIi6 FOIHT !9 DESCRIPT!)ON E. U.
~RZ RRCSM~
I ATNS AtarCIFATED TRAVSIBV <</0 SCRAH NO 4TI(S 6m 2 RKT REFCT)OR TRIP BRKNER STATUS NOT TRIP GOR
. 3 N31 SOL>CE RAhGE DE icCT() . N-31 1.0000)800 1%(B CPS 4 )G2 SO(P.:= RIAL KTE), Ca N-32 I.O(e0>00 IQ(B CFS 5 H35 INIEFJEDIATE RAI)))" i<~a. OR H-35 5.592AM I)6(B At(P 6 IN7PtKUIATE RAhK EGECTOR H.36 5.4701~ At(P 7 AVERA6E )KXLM POWER 68.90 X 8 REACTOR CXLANT SYSTEH AVG PRERi 22574 PSIG FREQRI!ER A')43(AGE LPEL 40.7 X 10 REA".TOR CmJ)NT L(KP A AVG FLOW 98.0 X 11 FRED REA.T)R COOU)t(T LO(P 8 AVG FLOW 97.4. GOM I') RKT16 RCPA BREAKER CAUSE Rr e!F NT TRIP 6009 13 RKT17 RCPB BREAKER CUE RK TRIP HOT TRIP 6009 lh TSUBTC Its% TC SUXOOLED t'ARGIN 63,0 600e K6F 15 LSGA ST)( 6EN A HARRO(( RANCE AVG LE>IEL 52.2 Gm X 16 EN 6(9( 8 NK% RAI)Z AVG LEVEL 52)3 X 17 STN 6EH 4 4VERA6E FFZSRRE 774. PSIG 18 STN GEV 8 AVER@K FRED 774. PS!6 19 HEST(K( ON LItK EKQB 16!372 NIT TRIP 20 ;E)EM!OR ON LINE SPEAKER 911372 NOT TRIP 21 BUS!14 BUS IIA SUPPLY BREAKE>) HOT TP.IP 22 B()SIIB R)S 118 SLFFLY BREAKER NT TRIP 23 BUS 12A 'IOT <adflNATED Ott FFCS (7/19/91) NOT TRIP 24 BUS128 RIOT TEF)((HATED N FFCS (7/I'9/91) NT TRIP BI!A)24 ~
PJS IIA TO 12A TIE BREAKER TRIPPED 8118128 PJS!18 TO 128 TIE BF~ER TRIPPED
~7 PCV KY('AIN'TAVERACE FPEQSE .15 PS!6 28 LS(X(PA 'HA!ttt(EHT SU)9' AVERAGE LEVEL 2.2 FKT 29 L09426 =UP 8 LEVEL 8 ItGH (TRAIN 4) LOVER 30 L0943c =.>8' LM. 8 I06 (TRAIN B) LSZR 31 L0942D UIP 8, LEVEL 78 It~:" (TRAIN 4) LO))EI(
32 L0943D PM 8 LEVEL 78 !6QKS (TRAIN 8) L04P 33 L0942C EUIP 8 LEVEL 113 I~S(TRAIN 4) LOVER 3l L0943C 9'P 8 ( VEL 113 ItK3~5(TRAIN 8) 35 L09428 BLP 8 LEVEL 180 ltK3=S(TRAIN 4) LOAF L09438 :- ~ ~ ~:80 .m~s(TRAIN 8)
I~~"
LOVER L0942A 8 LEVEL 214 (TRAIN 4) LOVER L0943A : Jf ". LEVEL 214 1)ChES(TRAIN 8) LOWER T04094 ."..-'T LEG T)F!3!ATL% 585.8 T04)()4 .:= '"OT lES )MBATlK 585)8 41 T04098 U ' - ."-<4!)E 544.5 42 TOl 108 ':- i~) LEG ~PE>'JT(HE 544.5 43 TAVGAWI" = ~ "VG (TH)T/ 2~0 WIDE RN) 565.1 44 TAVGBW!2 -'VG (Tt(31/'~~C WIDE RN) M.l 45 !RV 99.2 Gm 46 TCC ORE M9.7 600e 47 FAUXF6c 0. 6(>m 48 FAUKA)B OTA. 4a F=-'~A))R FLO( 6009 49 BKR08l '.= ~t'LINY '==~~TER FOP A CFF 6009 50 BK408'1
" r ~XILIARY F~;4)Ai9 FU(9) 8 V3505 mx =w FV. STEAI'.!K.FFLY VALVE 4 52 V3504 w". =)i f& S<M M>(.Y VALVE 8
DEC ";i 1995 08:1='. E. GINNA SINLLATOR PA6E 2 TREND GROUP ASS IGNNEKT MIRY SKUP'. =VENT1 PROCEDURE: EPIP 1"5 PLANT STATUS DESCRIPTION POINT ID VALLEY QNL E. U.
53 FSIA SAFETY INJECTION LOOP A AVG FLOW O. GaOn GPN 54 FSIIW SArxB INJECTION LOOP B AVG FLOW 0.
P2160 SERVICE WATER PtIPS A 5 B HEADER 82. 6000 PSIG 56 P2161 SERVICE WATER PNPS C h D ASSER 74. 6000 PSI6 57 IIR041 SERVICE WATER PNP A ON 58 lIR042 SERVICE WATER PUN' ON 6000 59 ImR043 KRVICE WATER PNP C 60 IIR044 cJ3NICE WATER PQP D
KC oi 19. ~ 'i i .=.. =-
cl:W SIHLL TCR IG)4)ENT >9~iARY QIOL-,;,-.,WT2 cR~e'":l EPIP 1-5 PUTT STAllS POINT ID OEKRIPTION VALlK OUAL c. U.
1 F0619 :MiCteIT CQLING LOP TOTAL FLN 1438. LALII Gc)4 2 LR))ST Ec~i~ ING HATER ETC'A)K LVl. , 94.5 6OM 2 3 ltS033 ~
33 FXT LEVEL itIND cPEED 3.5 60M tRI 4 ie033 33 FOOT LEVEL NIND DIRECTION 290. 6000 KG.
5 )IT033 33 FOOT LEVEL TEHPERATISE 39.2 GM K6F I~
6 250 FXT LETUP TEHPERATIRE 37.4 60M K6F TE)f'1.8 7 NDT2 8 R01 9 R02 250 TO 33 FOOT LEVH. DELTA AREA AREA 2~AI))RENT RON 8.~
3.9582280 6M KGF 6XO NIN 6000 %/%
10 ll 12 R05 R09 R34 AREA 34 9~
AREA 5-SPENT
'REA FIKL PIT LINE tE)NITOR
- AUI BLDG CV SPRAT 4.92&4Er01 1.938&5401 GM %/)S 6000 Pl!P 8.41394<1 6000 %/fR N/%
13 R35 AREA 35-PASS SA)FLE PANEL 1.09648M 60M NIN 14 RIOA CONTAIN)BIT IODINE NNITQI RIOA I. 59175t05 15 Rl 1 CONTAIN))ENT AIR PARTICILATE 1. 11077403 16 R12 CONTAINHENT GAS HQllTOR 1.11397K%
17 RI08 Puttl VENT IMINE MONITOR R108 8.93819+00 18 R13 All BLDG EIHAUST AIR PARTIGuTE 3.82935c01 19 R14 N)I SLOG E'lHAUST GAS 5ttlTIF! 3.34965rOI GM CP)t 20 RIB LIQllD )IASTE DlJeeL NNITIR 1.5712&+02 60M CPN 21 R19 SK'4 BBGQTOR R.QiTSN DRAIN .4.72469t02 60M CPtt 22 R29 NB 9~ITAI)"!BITHlfÃ RA))GE 8. 99627<1 6000 R/%
23 R30 AREA 3HXNTAIt0etT HIGH RANGE 8.99627<1 GM R/%
24 R15 25 R12AS 26 RI2A&
V VENT CHAN
.'86
~
CO)ANGER AIR EJECTOR EXHAUST CHAN 6-AREA PSNK 6AS GAPA 5,54306M l.~
7.50006<7 60M 6000 6000 CP)I Xl/CC
%/%
27 R12A7 C'i'ENi CHAN 7+ID FA%E 6AS 9.99984M 6000 KI/CC 28 R12A9 <<'ENT CHW 9+IGH RA)EE GAS 9.99987M GXD XI/CC 29 RI4A5 =MT VcJIT CHAN & Gi RAKE 6AS 1.5000K)7 6M Kl/CC 30 R14A7 FLANT VENT CHAN 7-HID RANGE 6AS O.99984M 60M KI/CC 31 R14A9 RJAs VENT CHAN 9+ISH RAhGE 6AS 3.99971<3 6000 Kl/CC 32 RISA5 AIR EJECTOR CHAN SM4) RAN6E GAS 7.79983M 60M Xl/CC 33 RISA7 AIR EJECTOR CHAN 7-vlD RAt)GE 6AS 9.99984M 6000 Kl/CC 34 R15A9 AIR 6:ECTOR CHAN 9+1 RANGE GAS 9.99987M 6XO XI/CC 35 V3411C SliA't LINE ARV A CULcED GM 36 Vt!SSVA VAINER OF S/6 A PSSV OPEN 0. GM 9 SEN R31 CREA 3ii STEAN LIP A !SPIH6) 6.01 CO@02 GM %/%
38 R31RRO MA NOBLE 6AS rELEAcE RATE:15%A .00000&0 6XO CI/SEC 39 V34IOC TEA)t LINE ARV B CLOSED 6M 40 V%SVB '02f~c~ OF S/6 8 %SV %EH 0. GM 4 (PEN hl R32 APEr 32 STEAN L:hc 8 !PING) 6.01006M 6000 %/HR 42 R32RRO MP iOBLZ 6AS RELEASE RATE)IS%A .00XOH)0 6M CI/SEC 43 CVH ./ - .RMEN CONKiTRATION >0 GXD 2 44 TCV03 :I cQOSiT LE'vcL &F7 TOP 43 142.1 GM K6F 45 TCV07 .I:NTERHEDIATcE L'IL &cT TE)9'7 123i I 60M K6F 46 TWv8 .i"ii)TATELVa..-'r I TE)P 48 123il GM I:NTERt6)IATE LVL &FT TEN'9 GM K6FKS'23.1 47 TCV09 48 TCV10 27 !NIEP/)EDIATE LVL H7 TE)t 410 123.1 6XD KGF 49 TCV17 i7/ 3%%TINS LcVL 6FT TOP 117 104,1 6XD K6F
Message:
GINNA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++
I The following alarms are received in the control room:
L-18 (Sump A actuation)
The sump pump is running continuously.
FOR CONTROLLER USE ONLY
.'ontroller Notes:
The RCS leakage has increased to approximately 50 gpm.
Actions Expected:
~
1. Operators will refer to AP-RCS.1
2. Operators will consider entering AP-TURB.5 "Rapid Load Reduction".
3. Operators should be consulting EPIP 1-0 to increase event classification 8-16
Tii Message:
GINNA STATION.
DECEIIBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++
FOR CONTROLLER USE ONLY Controller Notes:
1.'CS leak rate is approximately 50 gpm.
Actions Expected:
1. An alert should be declared in accordance with EPIP 1-0, EAL 0 3.1.2 "unidentified leakage greater than 46 gpm.
2. Operatois should implement EPIP 1-2.
8-17
<~RP.': ='tll FMBl=.,=: EPIP !-5 FLAKT STATUS POINT '.3 K%RIFT?2( VQ.K DUAL Eo U.
I ATHS ANT!C!PATED TRANS!Dr H/0 KRAII lK) ATlS 6009 2 RXT REAC.OP. TRIP l%EAKER STATUS NOT TRIP 6009 3 t(II 9XR = PAR KTECTCi H-31 I)4(9 CPS 4 H32 MKCE RNKK KTECTS H-32 1.00XOKS INNB PS-5 I~IATE RANK C~iTOR H-35 4.52896M 1%9 AIP 6 H36 I~!ATE RANK KIETOR H-36 4,36514M 1%(9 QP 7 HP AVERAGE IK)CLEAR FOHER 55.91 GOM X 8 PRCS REACTOR COOLANT SYSTBI AVG PRESS 2238, GX9 PSTG 9 IPIR PREBRIIER AVERAK L~ 27.3 (OKI X 10 FRCLA REACTOR CO(ut(T LOOP 4 AVG.FUN 600D X 11 FRY PSC'OR CKNT I.OOP 8 AVG FLO)t 97.8 Gm X 12 RKT16 RCPA BREAKER CAVD RX TRIP NT TRIP GOM 13 RXT)7 RCPB BREAKER CAKE R)t 1RIP NT TRIP 6009 14 TSUBTC IN%PE TC SUKOOM "ARGIH 72,7 6004 KSF 15 LSSA ST)I GBI 4 NARRO)t RAhm AVG LEVEL. 52.3 6009 X 16 LSGB Srtl 6EN 8 HARRDH RAVE AVG LEVEL 52.3 Gm)9 X 17 PSGA STN GEN 4 AVERAK l%Ee ?95. (m PSIG 18 PSGB STN GEN 8 AVERA6E PRE RRE ?95. 6009 PS16 19 GEHBKRI -"~A?OR ON LINE RAIDER 161372 lK)T TRIP 6009 20 GENBKR2 ON LrHE ~zeER 9K!372 NT TR!P 6009 'ERATOR 21 BUS!(A BUS ! 1A SLPPLY BREAKER NT TRIP 22 BUS!)B SLS 118 SLPPLY BREAKER NOT TF.IP BUS!2A hOT TERtllNATED ON PFCS (7/19/91) NT TRIP 24 BUS!28 IIOT TERIIINATE9 ON PPCS (7/19/91) hOT TRIP 811AI2A BUS 11A TO 12A TK BRD((ER TRIFPED 25 B!18128 SUS 118 TO 128 TIE BREAKER TRIPPED 6009 27 PCV &(TAI WT AVERAK F RESSNE .30 600D PS16 28 LS(eW ".8(TAIHNEHT S(K%' AVERAGE LEVEL 1.6 Mm FKf 29 L0942E :.QP 8 L&EL 8 I&IS GRAIN 41 LOVER 6009 30 L0943E PAP 8 LEVi1 8 INCHES (TRAIN 9) '4lER 600D 31 L0942D .LIP 8 LEVEL 78 IIQva (TRAIN A) LOhER 32 L09439 8."P 8 LEAL 78 !NCNES (TRAIN B) LOVER 33 L0942C SW' I %EL ! '!3 INC)KS(TRAIN A) LOLER 34 L0943C :MP 8 LEVEL 113 INDUS(TRAIN 8) LOUR 35 L09428 SL9P 8 LEVEL '180 INCUS(TRAIN Al LOLS 36 L09438 PZF 8 LEVEL 180 I%RES(TRAIN 8) LOh'B 6009 37 L0942A :I.".P 9 LEVB. 214 INQ(ES(TRAIN A) LO)IER 6009 38 L0943A ".(PP 8 I VEL 214 INQKS(TRAIN 8) LONER 6009 39 T04094 MA NT LEG IB)PBIATlK 576.2 6009 KGF 40 T0410A r~ HOT LEG TBIPERATlK 576.2 MOD KSF 41 T04098 RC(A KU) LE6 TBPBQT(RE 542.1 GOR KGF 42 T04108 RQ ~ GX3 LEG TEIPERATIBE 542.1 6009 KGF 43 TAVGAMID ~~~4 TAVG (TNT/TQKD )IIK RN) 559.1 6009 K6F
<<TAVGBNID 9~=- TAVG (THOTn>m HIDE RIIS) 559.I 6009 DE6F 45 UIV REACTOR VESM AVERAGE LEVEL 99.4 46 TCCOR- ='.: ?NCORE TC AiERAK TBP 579.3 47 FAUKFiQ =-/6 4 TOTAL VK ~~: W FLOH 0.
48 FAU(FHB :":- =- TOTAL AUK FE-'AIER FL(K( 0.
BKR081 "TR AUK!L'!ARYFmmATe P(KP A OFF 50 BKR082 ".TR AUXILIARY rr4TER PUIP 8 OFF 51 V3505 AUK FH P(KP STEAII SUPPLY VALVE A CUS3) 52 V3504 AUK F)t PUIP STEAII SLP PLY VALVE 8 CLOSED
I ~
P Li "') 1995 vB: -. R.:-. 6:MQ SINLATGR PAGE 2 TRBG GROUP. AKIGNtGfT S)PA%i GROUP: EVE)1T1 PROCEDU))E'PIP 1-5 r) "'IT STATUS POINT ID OEKRIPT ION VALLEY GuAL E. U.
53 FSIA S~i INJECTION LOP A AVG FLOW . 0. MOD P5 54 FSIB SAFETY INJECTION 'LOOP B AVG FLOW 0. GOOD GPN 55 P2 160 SERVICE MATER PNtPS A )~ B HEADER 82. 600D PSIG 5b P21b1 SERVICE MATER PlDjPS C h D HEADER 74. GOOD PS16 57 NR041 SERVICE MATER PNP A ON 600D SERVICE MATER RNP B
'm 58 B)(R042 ON GOOD 59 BNROQ SERVICE MATER PlD)P C ON 60 BXR044 SER'v'ICE MATER ~). 0 97 600D
>ccc PABc
. rK=U>>c> EPIP 1-5 FLr'J>T =TATUS POINT >5 XVI VALLE QUAL E. U.
F0619 .~r"F:F'.>7 KC.lti6: ..=. TOTAL FLU 1344. LALH Bett UMT =m = l'tG ttAT=i .TOFr' TAC I.VL 94.5 '6000 X NS ca rOOT E(L N'tt5 ccrc) 3.7 6XD HPH 4 16033 :.~ FCOT LEVc lttJD OicECTION 304. Gm Oco.
NTO33 oo FOOT LiVF ~i 39.b 6XO OEEF 6
7 NIL NOT2 50 FXT EBP DSO TO
>ct>'8>O 33 FOOT LEVEL DELTA TEttP 60M OESF
-1.6 6005 DESF 8 ROI AltEA 1~IX. Rtrlt 8.96397M 60M tR/HR 2-XN7AINt>>ttT . 4.813?4'XO t8/Ht
~
9 RO2 A>>EA IO RO5 AREA 5-cSPENT r>>EL .-"IT 5. 24807<1 600D tally ll RO9 ARB L';b>> . NITOR I.87283@1 Bm %/HR 12 R34 AREc> 34 - AUX SLOB C" SPRAY PIXY 8.41394<1 6m t8/HR 13 R35 MA 35 PASS SANPLE .>>o%L 1.0964880 60M %/Ht 14 P.IOA CNTAINr~ IMILE !2!1 ITOR RIOA ". 009&r05 HALH 15 Ril CQITAIMEt>l AIR PART IVLATE 1.366%86 6000 CPN lb R12 TAINHENT Qs r~tllv I.40039M 6000 CPH 17 R 108 PUttT >>ENT IMIttE <di?TOR RIOD 9..5231 KO 6000 CPH 18 R13 WAX Pm6 EXHAUST AIR FARTIClLATE 3.S 93901 6000 CPH 19 R14 AUX cLDB EXHAUoc' CCITOR 3.19429K)I 6000 a>n 20 RIB t. N! '5 HASTE 019'cSAL >XJNITtrt 1.59175m are CPH 21 R19 STc45 =RViQTK H.O'>rett RAIN 4~ 4092M 600D CPti 2" V.'3 ARE'. 29~ITAIt .VJT HI% RAti% 8.99627<1 600D R/HR R3O AH=A S~IIAIN;tE>>7 HI% RAtl% 8.99627%1 6005 R/HR 24 RIc "aE>>ER AIR EZCTCR EXHAUST 5.54306%2 6MD cpn R1285 aI '<-i% QAN <Ot PAID>c 6AS 7.5COOb<7 6005 Kl/CC "6 ot246 .I iPPI 39M b~'cA 6~ l.99%&02 600D IS/HR
'7 Rl"A7 .: 'i>>7 WAX 7-".ID c't~ 6AS 9.99984M 6008 KI/CC 8 61289 'cNTi CHA!l 9~!% cd'AS 9.9c? M 600D Kl/CC
"? ",14A5 Fg';T 9T EH',-L:N ."r4>SE BAiS :.50001<7 6005 KI/CC
~O RI4A7 'stt cHAN .-rlD At>SE ws 9.99984M 6005 KI/CC 31 R14A9 => >'.EHT aW c ':I:. RA/ttlE EAS 3.9997Hl3 60M UCI/CC R15A5 '>R E.=CTCR CM H.J RANSE 6AS 7.79983M 6XO Kl/CC RISA7 AIR 5:c TOR O'AN 7-"ID ttA%% EAS 9. 99984M 60M Kl/CC 34 RISA9 AIR =.crTOR Q>At<< ..I PME oAS !.c9987M 60M KIICC 35 V3411C STEP'4 'NE ARV A CLUED 6000 3o V>>VA 'U.ER OF S/6 A r&cV:-.c> O. 600D I OPEN 37 R31 Ac& I STEAN L:.LE A 'SPIHSJ , o>OIOObM 6000 tR/tR 38 R31RRQ SaA >ISLE 6AS EEi>>E cATE'.15t9IA .OOIOH00 - 6XO CIISEC 39 V341OC STE>VJ 'ttE NV 8 CUFED 6m 40 '>%SVD t Xa OF 8/6 8 r-c~( -.rm O. 6XD 41 632 AREA 32 STEAN L:.t>>, 8 lSPIN6) 6.01006-02 6005 HR/HR 42 R33%0 ;>08. >>AS F,-.. ='-= cATE;ICOSA .OtXCHOO 600D CI/SEC 43 .0 600D Z
~ iVO3 CV:ASBQi7 - =. '.-; >
-.9 43 176.3 60M KF 45 TCVO7 V:mmiATc
'o1 "~
.L c=> I>>'7 143.1 60M OEOF
~ ~ ~ <<'>>> := H. 48 '42.'? 60M KF I>>'9
~
47
'.'I TCV09 !NTERHEDIATE LVL crFT 143>1 6008 OE6F 48 i.>'10 :V:.'~c/JEDIATE:.;; c>>T Tee 4IO '142.9 600D OEBF 49 TCV17 CV CFc>>ATIt>6 LEVL =: ~i 417 1 rI?.9 6XD DESF
Tii Message:
GIN NA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: + ++THIS IS A EXERCISE+++
FOR CONTROLLER USE ONLY Controller Notes:
Actions Expected:
1. The rate of plant shutdown should have increased due to increased RCS leakage.
7
2. The Technical Support Center, Operations Support Center and Survey Center should be activating.
8-18
1995 PAK P.==: =ic'ITI .'R(k=.'=..=; ="IP !-5 Fair STATUS POINT !9 DEKR
~
..;..'A'E 1 ts E. U.
1 AT)IS :0:PAjED TRAIISI i. l/0 SCRtt( h0 AThS (O)9 RE'";>>it TPIP 3
RXT N31 J)LF. = RANGE KTECTT.=,
BREN==. STATUS i'. hOT riIP 1.00XOKO 1%8 6009
~ Q'>
QXF~Cc RANK KfETiCA Ii-3" 1.00000i00 WS 5 tt35 IIITc.-.~cIATE WHSE I-":;cCTi)R H-35 I ~ 46554-04 I)99) 6 '!36 !HT= %9IATE RAttSE C~iGR H.36 I. IBFr7M At&
7 NP AVEW NLEAR POh8 18.14 X 8 PRCS S.;DR OX6 F/STE.'( AVG PRESS Z57e PS!6 9 LPIR PRE:QBIIER !Y/ERAK i:-IJEL 39.3 X 10 FRCLA x anwr Lm' Av"'FLst 97.6 X II FPCL9 RE/I:T~N MVtPi LOOP = AVG FLC(t 97.0 12 RXT16 RCPA BRcC(ER CaSE RY TRIP HOT TRIP
!3 RXT17 RCPB Ss(ER CAm RX rR!P NOT TRIP
!4 TQSTC ahC.'>>c TC SURZRED YAr81K 92.4 15 LS6A STH ~~I A HAISN RANGE AVGi L&EL 49.4 16 LSOB STII MI 8 HARROH RAhiZ AVG (&G. 49.4 600D X 17 P%A STH GEN A AVERAK>>>>RESQIRE 944. are PS!6
!8 8 A'IrERASE:KSQSE 944. 6009 PSIG
'i9 ~RRI .~~TOR Gt( Llhc:RE%(ER 161372 HOT TRIP 6009 20 %8(f2 :irATiR CN LINE FEAXER 9X!372 hUT TRIP 6009 21 BUSI IA EUS '.IA QPPLY SEA!(=>> HOT TRiP B(SIIB B)S IIB 9FPLY MAY.c". 'NOT TRIP 23 BUS12A !81 TP'IINATE) Oh P>>CS l7/19/91) HOT TRIP 24 BUS 128 X)T ~ic. IIHATK CN PFCS (7/19/91) Nr TRIP BIIAIXA US 'lA TO 12A r'= cREA(ER TRIPPED 26 811812P B!S:IB TO!B 7!E B.=~ER TR!Pro . 6009 7 PCV i5'ITAI Wr AvERAK =RE>>"S%E .45 6009 PSI6 28 LQNPA AINt)EHT S>P 4 AVERAGE LEVEL 2.1 6009 FEET 29 LO942E :LP 8 LE(EL S IhQ = (TRAltt A) L(XKR 6009 30 LO943E LBP 8 .)Fc"6 rTRAIH 9) 'trEI) 6009.
31 LO942D I OP 8 linc 76!t~:"=. (TRAIN A) LS'R 32 L0943D M 5 LDLL .8 i'.c=>> (TRAIII 8) I "))ER LO942C Jt~l 8 LBG. 1!C~>>S(TRAIN A) LONER 34 L0943C 'I YCL 113 M~S(TRAIII 8) LCL,cR 35 L09428 :" L=rcL 180 I'~;=-S(TRAIN A) LGhER 3& i 09438 IL~ = ZiK!80!Z:S(TRAIN8) 'ZR 37 LO942A P~P 8 LEVEL 2!4 II@~5(TRAIN A) L04%
='
L0943A 8 LEiEL 214 NICrKS(TRAIN 8) LSIER 39 T0409A ~'r 'OT M icC<TlR~ M0.7 40 T04!OA RCLB IIOT LEG ~ici!Are& %0.7 41 TO4098 RCLA Mi LEG WcFc "~iiE 547.5 42 T04108 RCL>> OLD LEG TPPP~TiE S47.3 43 TAVGA)!ID RCLA .AVG (TH)T/ICED HIDE IS 554.1 TAVGSHID AVG (T)6r~ii!X.D NICE RNS) %4.0 45 LRV 99.3 X 561 S K6F
<7 =QNF)IA :-,'=: - .GT WX:=-~xi O. Pll 48 . AUXFi6 =./3 6 TOTAL'AUX FR<TER FLOH 0, 6Ptl 49 BLMI "rc -'UXI'ARY ~rtATP PUIP A CFF .
50 14(R082 !iTR AUX!LIARY ~~":B F(lP 8 GFF ., 6009 SI V3AS AUX F)t P(19 STEAN Q.'>>FLY VALVE A CLO'.ED 600D
'/3A4 AUX =4 P(XD'TEAI':OF~ Y VALVE 8 CL>>~.>>9 GOOD
!995 '~8: -'-'.NA 15'LATt... PAGE TRBG SACER. ~SSIGNttElPi S"."-'CHARY GRCLP: "='l-""Vi'! PLOCE "..-."=: "PIP 1"5 PLAtIT STATUS PQItIT ID OESCRIF P'ALL% QUAL E. U.
53 ",SIA SW= T IS'EC";Ctl '."".-. " WG PLOW 0. 600D 6"."N 54 P GIB SAF":~ Itt'ECTION LZP B AYG FLOW O. GOOD m 5 P21b0 SER'~I~ WATER PUt1PS A 5 B hBBF3 82. 6000 PSIG 5b P21bl 'SWJICE NTER PUttPS " 4~ 9 HEADER 74. GOOD PSI6 57 BKRO41 S~PICE WATER PUtP A ~
6XD BKRÃ SER'/iCE NTER PRE B GOOD 59 BKR043 SBSICE NTER PUttP C c0 BXRO44 %NICE NTER PU,"iP L'
Tii Message:
GINNA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for'ontrol Room Message: +++THIS IS A EXERCISE+++
'Declare an Alert in accordance with EPIP 1-0
¹ EAL 3.1.2 "unidentified leakage greater than 46 gpm" 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
Tii Message:
GINNA STATION DECEMBER 6, 1995 PL'UME EXPOSURE EXERCISE MESSAGE FORM INessage for: Control Room INessage: +++THIS IS A EXERCISE+++
FOR CONTROLLER USE ONLY Controller Notes:
Actions Expected:
1. Operators should be stabilizing the plant using abnormal procedures AP-RCS.1 and AP-TURB.G or 0-2.2.
2. Operators should continue to evaluate the RCS leakage.
3. The TSC, OSC and SC sho'uld be staffing up.
8-20
~ C h'< ~
h<'n~
FRCC . < EP<F 1 . c<h<T SliATIS KMF '"
POINT 19 t~~~C~~~ CC
</A<dUE CCttt DUAL E. U.
AT'<6 ANTI 'i. ATB) YNAt<SIB i 9/0 K%'< GOM RX RcAC < CR TRIP BREAXERE :Tn r US NOT >RIP 6009
. N3< 0</i = @tlat i CT .'1 !.CCOCGc<Q I)4<9 SCLFiCCE AGE Bc~cCTCci W f. C<olOiCO Il4<9 5 MK IHic..MIATE RANGc, ici- TCR H-35 o.39731 M -
6009 6 )G6 IHT="l~vlATE RANGE CiiVOR ti-36 t ~ 17603M 6009 At<P 7 HP AVB:AH NLGEAR I<7M ..02 6009 X 8 PRQ REACTCR GZU5T SYSTB! AVG PRESS 2245 60M PSI6 9 I DIR "REhcEURIIB< AVERAGE LVEL 47.2 Gm X 10 A. OR C<X)LANT '5P 'VG~LOH 97.4 6009 X FRKB REA <CR CMLAtiT LOOP A'<'6 FLOH 96.8 . 6009
!2 RXT!6 RCFA ~@E'ER mm Rr TRIP tc)T TRIP 6009 13 RX'<17 RCFB Bt<ENER CA<l Fr TRIP M)T TRIP GOM 14 TBSTC Itw RE TC BlHZ<XED 54%IN 103.1 6Mh 15 LSGA ST<< ~M A NARRC<< RA)XZ AVG } VEL 41.1 6009 16 LSGB ST)) KN 8 NARRC'A RA'iP AVG L&EL 41<1 6009
!7 PS6A St< M A AVERAGE FcEKRE 1012. GOM PS16
!8 PSGB ST)< ":Bl 8 AVEhAK PRESSURE 1012. 6009 PSI6 19 GM!<R! cBE."-'TCR 6't 'HE BFZAXB! 161372 TRiFPED ALRtl XF~ =- E-./<TtR M LM BFEnrB< 9XITP TRIFr"ED ALRt<
21 HSI 14 cLS 'A SUPPLY WN.R TRIFPED ALRP<
BUS118 :-Li '.!8 RPPLY B<EAXER TRIPPED AU<)<
23 BUS!2A !BT TVit<INATED CN c CS <7/19/91) NOT TRIP DEL 24 BUS128 ttOT ~c. INATE9 CN CPCS <7/19/91) t)OT TRIP DEL 25 8! IA12A M <IA TO 124 TIE B<E/c<ER HOT TRIP ALRt<
8118123 8<US !13 TO 129 "-IE MMER NT TRIP AU!H
~<.AJ'<Y'ENT 4'v~c./r.=" Fccc~ .39 60M PSIG cBNP" M<TAIttt<EHT PPP 4 4%~c. LBEL 1<9 60M 29 LO9426 -:P' GrG. 8 ltiCPEE 'TRAIH 4) LO)FR 6009 SC L"9436 ;"..9 . LcQEL I!<iES <TRAIN 8) LMR GOOD
'9429 6 INCWS <TRAIN 4) LIEF. Gm 32 LO9439 ='W 5 WiEL 78 ltQ-':6 <TRAIN 8) '< GOM LO942C SLVP 3 L=VEL I'!3'NC)=6<TRAIN 4) LC< ER 60M 34 CC <
LG943C i O9428 cit< 3 LSEL 113 INCr=S<TRAItt Bl PB' LBZ. 180 ltZc ==<TRAItt'4) 'n LO'c cia 6009 6009 6 '09438 < ~ 8 LE'lEL IGO:C==S<TRAlt< 8) 'KER 6OM 37 LO942A SU/P 3 LEVEL "14 INCRES<iiAIH A) Li.cER 6009 38 LO943A Sill 3 LEVEl 14 It<C)<CS<TRAIH 8) LO<)ER 60M 39 T0409A itOT LEG T=. Q9<9 6MO Tihi~~
~hnlii'OT
041OA -"Ci c LE6 549,9 '6009 4"
43 TiAO98 (O4!OB TAVGAW ID CC~
Rw a ~
RD LEG LEG
>EN~hi!FiC
<<FB'AME
-.CLA TAVG <TH3T/T<XLD i<ICE RNG) 549,1 M8 549<5 60M K6F 6009 K6F 6MD KGF TAt<GBHID RCi t TAVG <T)GT/TOLD AIK FHG) c549<4 6009 KGF 45 Lg FZA.TCR 'vEStt. AVc~ LEi/EL o9.3 Gm
46. TREE 6!.: IbCC<!E T" NVv'.=6;- Si 40.3 600t
'7 FAUXciti =.'": 'OTAL /iUX F=--~<cR rcO)< O. GOM
'8 FnU!FiCh : "= - . TnL AUX F"- A=R .LC4< O. GOOD 49 BKROBI "'R cUXILIARY -" ~A ~ FUt
~ Vy Vv rue Rt ~ PAGE TREN" GROLF -.="-IG!~Pi'~tlARY PROCE."i fi"-: "PIP 1-5 ANT =TATUS POINT !9 DEKRI;T!".' VALL'-'UAL E. U.
FSIA SAFE: IN'ECTION L"CP -'VG FLOW 0. 600D PH 54 FSID S~i IN.'ECTION 'OP 8 AVG FLOW 0. 600D PN P21b0 =.ERV ICE MATER PNiS A ~ 3 HEAK"; 82. 600D PSI6 Sb P2161 SEfi')IC= MATER PPF " a 0 HEADER 74. 600D PSI6 57 iNR041 SEFi4ICE'MATER ~'"~ -'= 0N 600D
=.8 di(R042 MA~ FUP 0N ~ 600D
'KR04" Sifi')ICE WATER PNP C SKR044 S~~ICE MATER PPZ 0
~ fC e
Ike .'eet<<ICh< <<e <<1<
I 'I i -iv-".. E: EPIP 1-5 PLAte< aiATUS
<<0<87 KS."RIFTI=.I VALlE NJAL ED U.
F<)6!9 "r<<.. I.EHT COOL!tee<
"= P TOTAL FLH !344. LALII 6PH .
LP()ST -.=:=.-:I?6 HATE:Tw = TA)4? LVL "94.5 60M X 3
4
)IS033 WSK 5 )a033 33 FMT LEVEL )IIND FMT ~
33 FcOT LEVB. Tc&.-ATU<<E E~
RIND DI C~ICH 3.9 60M IPH Z6. 6000 KG.
40.5 60M K6F 6 VTZO Q COT LEVB..."=4(<TORE 39,2 6000 CE6F 7
8 HDT2 R)1 602
0 . 33 FOOT LE?K .ELTA TBP ee" 4 '<<COHIRR. <?CCII
~AMSD<T 8.~
8.70964<00
-1.3 60M 6000 6M IS/%
OE6F N/%
LO 605 A1rA 5-PEHT FLEL Pl. 4.926?&OI QXS N/%
I I R09 AREA 9i =INN LINE HOt)ITM I.97242401 6000 N/HR 12 R34 AREr< 34 - AUX HJ3 ~/ CPRAY PIMP 8. 41394<1 6000 N/0?
13 R35 AREA BRASS SA5"m PQG. 1.09648<6) GM N/N 14 RIOA CCtaA !ID)EHT 101}INc E<<:t) ITOR R!CA . r 6396<05 HALI! CPII 15 Rll CGCAIHttBIT AIR PARTI <LATE 2.!)4173<03 6MD CPII 16 R12 CCIHAIt4!B<T 5-"- "e<<e CR 2. IP(96+04 H)IR)I CPH 17 RI?)8 WT IODII)E <<Dlli<R R108 1.193h&OI 6MD CP)l ee6 R!3 "x ELDG EWST Ali .t4?TIOVTE 4.1032!+01 GM CPH el/ WX ." DG DHAUST GAS lQlITN? 3.879266! QXX) !El/CC CPtl I~
ne<< L!MID HASTE CI~ %)IITOR 1.59!75<02 6008 CPII STEA."I KIERATR EL~~KAI ORAIH 4 '2379+02 60M Pt!
22 Dg AR-4 ~~ITAIMEHT ~! QI RANGE 8.99627<! 6000 R/HR R30 AREA 3DC6HTAlhl!Ba 116H RA%6 8.99627<1 6008 R/)I?
24 n!5 CCI< c)GER AIR EX". ~ CR EXHAUST 6M CPH
<?!245 "v 'e CPAH A '<SE GAS 7.5meh<7 QXS RIM) ."/ 'Ba QWI h~.=~:.M<4 1.99KHW 6M N/fR 81287 '=.':I F<<<H ?~ID @<K 6AS 9.99984M 6000 UCI/CC
<<I<<
~
~ I i VH <<1<'Jl I<<K GAS 9.999'?W GOM IX'.I/CC
~)4A5 = ence '(EHT CNH I.EK<)!-07 600D UCI/CC
"'<A7 Pe ?9964M GM UCI/CC 81449 PLA)a< '&7 CHAN .:I~i'd% GAS 3.999? HQ GOOD 0" '/CC 32 R!585 AIR E~I. Q? Ce?A'I A RANGE 6AS 7.79983M GM IVI" 33 R1587 AIF. E.""TOR C~t -H:0 RAHSE GAS , 99984 !C!/CC 34 R15A9 AIR E;cCTCR CHAN c-I lw<GE GAS 6000 U"I/CC 35 '/34!IC Sec~"I 'NE ARV /I ice GOOD Vt)SSVA 0. 6008 8 OPBI 37 R31 AP-'.'TE(V) L<NE A (SPIHG) 6.010%r02 6008 N/IS 38 R3IFRO '~ ta',DK 6AS RELE('F FATE! ISNA .OOO<00 QXS CI/SEC (34!DC = =-".! LIHE ARV 8 CLCFO 60M I~;SSVB IIUI ER OF S/6 8 t!SSV 58I 0. 60M 4 IPBI R3" KA 32 STEAII r
'~ "-IQ<1%) heDIOC6W 6000 N/HR 42 R3ZiRQ 668 NnR GAS Eg.E PATE.ISNA . &5<00. 6000 CI/c xi 43 V!H C'/ HvPXGBI C Zc~t<.-ATIOH .0 KCD X
-'4 TCV03 ..".EAm~BlT 166. hr ~
IBP y3 :o5.4 GOOD'6F 45 TCVC? ':V ee<T<EDIAI-: . 154.8 6RD K6F 46 TCV08 VUFBIA- ek)P 48 !54e8 GM KSF
(<1 TCV09 " " -RJ'=DIATE "L =FT TBP 49 154.8 6000 K6F
~
8 TP</In ~
'e~ t)IATE L'I" -".T sdP 410 !54.8 6000 KQ'i.V17
FETING L VL hri iBP 917 124.1 60M KGF
T Message:
GINNA STATION DECEIIBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++
Alarms indicate a loss of all core exit thermocouples (CET) on train "A" FOR CONTROLLER USE ONLY
~
Controller Notes:
1.'ll "A" train CET's (including PPCS) fail.
2. When l8C reports to the actual control room dire'ct them to the simulator control room to perform troubleshooting.
'I Actions Expected:
Operators should request I&C to investigate the loss of CET's.
2. I8C should go to the simulator control room and attempt to read CET indications using test equipment.
8-21
I 1
h
GINNA STATION DECEINBER 6, 1995 PLUME EXPOSURE EXERCISE INini-Scenario Activity: Loss of All CET indications Controller Notes:
I
1. When I&C shows up to the real control room, inform the'm to r'eport to the simulator:control room.
2. When l8C arrives at the simulator control room with their test equipment, substitute the controller's test equipment to obtain temperatures. Dial in the following temperatures on the test equipment at the appropriate time. 1 0915-0945 550-570 0945-1005 Temperatures slowly increase from 550 to 670 1005-1105 Temperatures between 670 to 1500. CET temperatures increase from 670 on the out side of the core to 1500 in the middle of the core. (See attached map)'105;end Temperatures decrease from 1500 down into the 400 range on all CET's Actions Expected:
1. I8C technicians should obtain core exit thermocouple temperatures by attaching test equipment to terminal connections prior to the terminal board.
8-22
l'essage:
GINNA STATION DECEMBER 6, 1995 PLUNIE EXPOSURE EXERCISE MESSAGE FORM Nlessage for: Control Room Nlessage: +++THIS IS A EXERCISE+++
FOR CONTROLLER USE ONLY Controller Notes:
1. RCS leakage is approximately 50gpm
2. All CET indications are unavailable using PPCS and megatherm indications.
~
3. Both "B" and "C" Sl pumps are still out of service.
Actions Expected:
1. Plant should be in hot shutdown and making preparations to cooldown and depressurize per procedure 0-2.2.
2. -
The plant may consider borating via MOV-350 per procedure ER-CVCS.1.
3. The TSC should be nearing operational readiness.
8-23
OEC FA~
~ ~ 1 OINT !9 w~n<r ~';: r V E. U.
zen~ &~4 Ic~
A7AS @J':::cAW <rPJS'c'i. '-'/0 ='V4 NO AT'~<~ XR
"'KT . ccC P:RIP.SREJ<<Er STAT()5 RK TRIP. EB ALRJ) 3 :r) SMCE RA<(6E Kl C.'=.; 'J-S) ".. 0)372+02 6000 CPS
.'G" Pv.' FA<<6E D~j~TF %32 1.9c 8M+02 600D CPS JG"- 1%:--.~AVIATE 74K i:" TOR N-35 l. 2472-I) 600D
'(P
!Gc IlA:-..".ED!ATE RANci i=; ZTGR N-36 1.20227-11 A)K' NP A'=' V~cEAR FM-". .00 8 . R% RE/v =. KOLA'6 SYST='I AVB PRESS Z58. PS!6 9 re="c;IB A<<S4K 44.9 X 10 CGGLAJJT LMP > AVS FLO)f 97.7 X
] r~c'P ~JT l.iCP =. AVS rUff 97.1 P4'KTI-'KT17 RCF'hwcii CAUS-" ir RIP NOT TRIP 13 RCri:cEAKER QlSE . h TR:P )K)T TRIP 14 3B C :lr'.'"- "C MC(XX'~IN 654.2
<C
~V UQ ST." cc'< A NARJQ UV'="- AV6 LEVEL 32.2 Ib I c68 M At AVE LEVEL 32 8 X 17 pc~ Bi'. =.i r< A<<P4K FR=ccURE 993. PSI6 18 PSSS if( 8 AVBQ6i cFcii<JRE 993. PS!6
<9 r- LKRI cZ<".K-TCR Cti L!%:-."cAXER 161372 TR<c" g)
EBiBKR+ ON LINE SFE-'KER 9K137" TRIPFEB 2! BUS! 1A cLS: - PSF< Y c%4(i., TR!FF9 h3 S(JS! Ic i'::3 g.fF' BREWER BUS12A JJDT =KNIJAPc3 ON FFCE (7/19/91) NOT TRIP 24 ~Qh IhC tJGT .:;",Itih!<9 (N PPCi (7/)9/91) NOT TRIF 51 18)EA c .c .'.4 .0!2A TIE EFiAKER NOT TRIP
\ tQ< hh P~"::3 0 l~ TIE ""FEAKER NOT TRIP cv =J'- '."-)<T AVcnFc -cES L%E ~ 39 PSI6 "8 GB&A 1.7 FKT 9 '<<09rii ~;: ':c~< '<c'<
8 l)K3)ii (TRAIN A) LO)JEP.
)94.c 6:'"5: 8 IKT3c'6:TRAIN 8) LINER
< ~:<"'~i< ~ I n L09439 RK .8~
I.'G,:6 (TPAIN 8) LNP.
dJ L094ZC :" LDLL::3 It@:-i(TPAIN A) LO(<ER 4 0943: c'vd. '3'!Nr"cc (ThRAI)J 8) LO)fcn cv L09425 ! c</cL !80 I<JC"=6(TPAIN A) LO)<ER io :-'. "Z:=ci(<rAIl(8) LOM 37 L0942A 'lEL 14 !tC"ii(TPAI)t A) LO)JER 38 L0943'9 /iL ')4 IK."Ei(T<AIN8) LO)'E!(
T0409A PJf&ATuFE 547.7 40 704)0A c, MEAT cc ~,7 41 T04098 IXI h . LD LEE TBFMaME 546.9 4h ;04)08 nl ~ .:LD LE6 T<<n'T<E Q6.7 43 AVOA)JID -'ig (T))3T/(COLD )<I OE RN3) 547.3 44 TAISBIIO -'Vic 'TPT/ICC< NIOi RN6) 547.2 45 LRV ---c ne'er I - ic</EL 99.4 4(< .0 47 Af/trnA AUK ic=r -'(cR radii 45.
48 FAU!F)(I< :-,3:!:CT~ AUK F=-=<'Am FL(K( 4<<,
EK 608! ~ ~ ~ nN "TP ~KILIARY r&4i=-. PU)f 50 51 BKR082 P'05 AUK ='~ SIEAlt .rcLY VALVE A 8 ON C&EiD 52 '/3504 4JK ci FUJI STEAft BPFLY VALVE 8 CLOSED
R. ":. 6.!~~A BISECTOR TREND GROUP '.HIGNNENT SUAN'AGE GRGL~: -"'c"='lTI PROt.=<",E: EPIP 1-5 FLANT Ski S POINT ID DEKRIPT I CA VALL~ QNL E. U.
5"'FSIA BkE: IN:ECTION LOCP > AVG FLOW 0. GOOD PN 54 FBID BAF""P'NACTION LOOP 9 AVG FLN 0. 600D GN 55 PBIKO SEii"!"E QA P .P~JBB -' D REACB 82. GOOD PSIG 56 P2161 SEW)I "6 i@TER PJ'S .":. 9 HEADER 74. GOOD PSI6 57 DKR04} SGN .. NAACP. PUK A ON GOOD 93 :KR042 SH'i'ICE "ATER FBf E ON GOOD 5P BKR04 KfN.iE RATER RPJ' b0 SKF044 ~d CE NATER PN'P 0
I ~
>> I cO!ttj 19 VAL = GOAL E, <J.
! F0619 <~4 '.<N>>b i Wl!% ! 'VIA< C<.4 !~44. LALN IPN LR!!ST '4.5 6009 X 3 !<SO%' 3.9 6009 tPH MD% .=". ~ L~F'!M =I~:TIN 354. 8XS K6.
5 t!TCZ 41,0 6009 K6F E
0 NW<av 250 'Oj< ~%EL > EP/<j<>>2 40.0 6009 KIF 7 <Sj" 250 " 33 FOOT LBG..:ELTA TBR -1.1 GOGO KGF 8 R01 ARF/: .OhTFOL R0Xt B.mm-m 60!S IR/IR R02 FK- - ~ITAIMST 1>14815<OI 6009 IR/IR IO RC5 AREn - cBt'. 4.9265M! 6009 tR/HR ll R09 ARE-'-=TECW '!6E CHITM l>>93$ &QI 6009 IR/IR 12 <!34 ARE! 3> - AUX SLIG CV FRAY Pll>09648cOO 600D tRIHR 14 RIOR COtPA! .Bij IODI!Z ~lITOR RICA 3,6780985 HALN CPN
!5 hli CC!I;AI~T AIR PART:.u TE 2. 4057449 Gm CPN 16 RI" COrA::.~<V aS mt!m 2.530026K HAUI CPN 17 RIOD PLA'ij>>BII !ODIHE %!IT<8 R109 I.4064M! 6009 CPN 18 R13 er:-:.=. EXHA!r< AIR =WTIauTE 4c24741<I SMD CPN 19 R!4 -LX:-:.6 XHSUST GAS et!m 4 I SSSPKlt gXS 20 R!8 LIOU!9 'CHASTE DISPOS/< 1!It<ITOR 1.57!26402 Gm CPN 21 R19 STRv. &GATOR B.ScuC4 iSIH 4,72469+02 600D CPt!
AREA 945!TAItttkttl HI% P/'X!E 8.99627<1 6009 R/IR R30 AREA S~c!TAIHNE!IT HIGI1 RAH6E 8. 99627<1 6009 R/IR 24 R15 CSQB~=P. AIR E!ECTCR EXHAUST 5.54306t02 MD CPN RI@5 CV "- >'B!T CHAN 7+19 RN4K GAS 9.99984M 6009 Kl/CC 28 R!~9 9.Pc%7M 6009, Xl/CC 29 RI4A5 Ict<<<.h 'i - v'AI4iE GAS I 5000!<7 6009 KI/CC
~
30 R!4A7 P~'7 VB!T CHA!t 7-NIO RANGE 6AS 9.99984M GIS XI/CC 31 R14A9 PL@>>T VB!T CIA<6 9%1~ RATE GAS 3.999? IM 6009 Xl/CC 3" R!55 Alfi = -. IR ny>>H 5~ ~ MANSE 6AS 7.?9983M 6MD K 1/CC 33 hl567 QQI 5! 'A!<K 9.c9984M 6009 Xl/CC 34 RISA9 AIR .: CTvR uiAH 9-iii FA%E 6AS 9.9996?M SXS Kl/CC 35 '34l!C ST 4" . CLOSED GOOD t IFOl 36 38 39 VIVA R31 R31RRO V34!OC ARF:
%c '- ~ ~a:
t4JtC=h CF S~i;!K ARV 8 8/6 A tESV
.'ly@ L:RE A Cfgt iPIH61 nAT"-'I %A 6/91006M
.00000<OO CLOSED O. GIS 6009 600D 6009 IR/IR CI/SEC 40 /LK-., GF S/6 8 t<N CrBt 0. 6009 9 OPEH 41 R72 AR= 3: c EAN LINE 6 !SPItet 6.0ICO6Wr G009 tR/!R 4" R32RRQ SGD .'ZSL= SAS RELEASE PA?E: I BRA .<!OOOO<M. 600D Cl/SEC 43 CVH C'/ n"<g~".SBct W~!CB!TROT:Ct< .0 600D X T"VO3 . iV 6-'..vc'<T icVc'< PP k3 187.0 6009 KID'57 45 TC<l07 A!ATE L'A. ~ ~i 47 6 GXS K6F TPA'S '!"'<<PBIAlc L<<L ."Fj< T>L 6FT .ENP IIO 157.7 6009 OE6F 49 <</I? CV CPE?ATI% LE</L 6FT (dP 417 128.2 Gm EE6F
T'ai Message:
GINNA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room
!message: +++THIS IS A EXERCISE+++
FOR CONTROLLER USE ONLY
~
Controller Notes:
1.'ET indications are available by I&C obtaining readings at the terminal board.
Actions Expected:
1.. The plant'continues to cooldown and depressurize per 0-2.2.
2. I&C should be obtaining CET readings.
8-24
C CEC PA6E P.'w. (
%!)iT I" VPU= XN. :. U.
'I Ar~ A.i:.": '<<Ti) TRANS!cEH ": R.RA}( NO ATE 6009 a!T 9!P Rcrv Rr TRIFFED ALR)(
'l31 .'.94%5r02. S009
)G2 !.9C c H35 'tt!cc"='I!ATE rlthl<<= =.- ia H-35 ~C%-ff 5 )(36 I'0"-c"cc'ATE h/%= =-- rÃ H-A .'.!9124-fl t(P F 00 8 PRE RE-T=-. Cm97 c!ST~-. ';-. FmS 2256.
LPTR 44.9 fp FR%A Fg".:8 MX:gF96 FLQ( 10!.e
.""~I."" "~47 LC(..-:- O'6 FLQ( !!.7 IH}(8
!2 RrT!6 FrFA !REcrER CAIJCE =,< lr.lP tr)T:IHIP 6009 13 ar!!7 RCr: AE/IrER CAL~E r,r TRIP TR!FFED ALRH 14 TS(!BTC I6" EE;C
"-'i "
9K'~"A)P=."~It} 654.0 6004 rd ! c<<A 1C ST)( ')ARR(?rt 4VS LE}IEL 24.5 L}(RH lb LSSB SB "='i 8 ttARCA RA/ c= AVS LPig. 25.6 X
!7 PcSA 5!H -~l A AVE}SE . cE:RRE 993, PS!6 18 HN =-'l 8 AVERASE FFESME 979. PS!6 19 lC . Ii.ii Ct( '!ttE BRE-'EER!6!T/2 TR! PPED DH LI!IE:"FE-'hER 911372 TRIPPED
<<I l ~ BÃl!A I
'I i v Ilh TR!FRED RRI1 805! IB "LI"- '6 -M" TRIF FED ALR)(
23 806'8 HOT c'.(It(A!ED OH +~ l?/I9/91) tlT TRIP DEL
<<i} PJSI"8 INDT . h!(IHATcJ CH 'FCS (7/19/91) HOT TRIP OEL Bl fA12A B()S I!A TO 124 T!E c~EFi'Eiai tr)1 TP.IP ALRtl "6 BI!BIBB NOT TRIP
\7 PCV ~~(i-'i)(tEHT >JEPAK ccccc:M
.8 LS(4(PA ~trA!4~El(T ~~ 4 AVChASE LEICEL Br 2 29 L0942E 60$ ZJB. 8 4}PRE hTPc'Ift( A) LQ}ER
'ZP L0943E HPF 6 imVEL 8 !)ICV=S (TRAIN 8) LQ)ER 31 '9429 BG. 78 I "r~: (TPAIH A) h II9 h
L0943D Cli,hC -
LM 78 il'ri'cE (TRAIN 8) LQB 33 L0942C L9. = I ~K.."!3 !l.=E(TRAI)}A) LQ)ER
'944 I't : ZVEL ff3 I)K~36(TRAI)t 8)
<< cC}6 35 L09428 IJ)IP ." BUEL !80 IHC:.::(TRAltlA) L(7<<ER 36 L0944D
'i7 L0942A M - I=6.!80!HMS(TPAItl
= 8) LQ}ER EL".P Lc 8 "4"'FI=E(TI<<IAItt A) LQKR 38 LO'943A 9PP 8 iJJL 214 ITS(TPJ}IN 8) LSD 39 T0409A <T ILES TE}(PERAT(JrE 548.4 40 T04!OA RC' -.c! LES TE?FciIATLFE 544:9 41 T04098 546 9 42 04108 545.3 '009 6009 43 TAVSA}(ID RICU -"'": WIT'TCO: llCE FN) 547.6 6009 44 TA'vail D hrl Q lh }(0+ t~ tlr Q) ) 54S 6009
$5 LRV 99.2 Sii09 46 TCCORE "COr= TC Auric.-. r~~ .0 600c 47 of9 ~ BXD FANe'40!F}(9 48 A(tr .=.-"INTA FLO'l 223. KOD 49 c}(ROS! CH 6009 50 BR ROE! tlra <1!L!ARY FccL4}ATB FQ(/I 8 OH 51 '/ÃAS AOi J =L8'aicAt( SLF.cLY VALVE A CLUB V344 AO! =~ c'A'iEAtl RPcLY VALVE 8 CLO
DEC t 19.5 091 Sg'AfK KH~ GRAT. -==::"=NHB{T BNNR'(
GRm~'- rROC""'-r'-~ PLANT -TA1IIS POIHT IQ CHALK NNL E. U.
FSIA Mr""". INZiCTIC'.4 LOOF -'.
AVG FLSl 0. 6009 GPtl 54 FSIB Sa" 'N1ECTIOu WF B O. 6009 m 5 F2150 SiR'J';CE RATH? PINPS A '~ 82. 6009 PSIG 55 F2151 SER'v'iCE NAT1R FLOPS C u r4. G009 PSIG 57 ECR041 SEP'I:"- MATrER FUNP A ON ,
6009 SS A~'R042 SERVi' NAi& PNP:" ON 6009 I
59 SKR043 <ER'~I' vlATER PJ ON 50 9'i(R044 SEr.('.CE PATER PINF " OFF
.nK 55t7J. AH!c(J5OIT SLeAia RXELCc 'PTP i 5 PLANT c(ATUS POINi !0
~5~5~~ KKRIPT 5
VALL>E N)AL E. U.
F0619 C~<.Ct<BIT'QKING LCCF TGT('<L FLN 1344. LAUt GP)t UINST (<EFiiELINS NATER STOA@"=" TAe LVL 94.5 600D r 3 NS033 33 FOOT LEVB. )IIND c 4.1 6MO tPH 4 ND033 33 FMT U((R HIND D!RECTION 359. 6000 K6.
5 NT033 33 FMT '%3. TBPERATIKE 41.4 6MO OEGF 6 NT"0 '50 t Ci =.Fi'>~A(()RS 40.5 Gm 7 M 33 FGGT LD(S. B.TA TBP -.9 Gm 8
NO!2 ROI >I!B 'cQ.
<G ROOI'REA 9.22572M 6m R02 -~iTAINI<BIT 1.37246iOI 6MD 10 R05 ARE 5-stENT FLB. PIT 5 15822<1 6000 11 R09 AREA 9-( cTOC)rt L!NE ("<.NITOR I ~ 809 &OI GOM 12 R34 ARE( 34 - AN SLOG CV %MY PQP 8.31764<1 GOOD 13 R35 AREA ~ASS SIMP( PML 1.09648KS 6000 14 RIOA CONTAIN'ENT IODINE NCNITOR RIOA 3,85698t05 HAU!
15 Rli MÃi('<Jt~"=hT AIR P>" RTIUNE 2.7266)M Gm 16 R12 Kt)TA!X~IT GAS Lft)I..". 2.83057+04 HAU!
>7 R108 PLA'< 'F!IT IMINE tC<4FiE DISPOSAL .'CIITGR 1.64768M 600D 21 R19 STE("') GS~BIATOR ILt)>t(((.4 DRAIN 4 '8%&02 6000 f69 AREA Sm9)TAINNENT HI<5I R!VN<< 8.99627-01 600D 23 R30 AREA 30<Ct)TAlt<t)ENT "'181 44<<< 8.99627<! GOOD 24 Rl CKP:cER A!R E:ECTOR Dii-'K 5.37804t02 6000 CPN CV VB<i r4N &LN 5 ' cAS 7.AG36<7 6000 Xl/CC 26 RIM. CV '(B<T CHc/t 6-AFG Ri<A 1.9999~ 60M )9t/l%
7 81287 CV SEN(T CW') 7-'I!O g'JW t~ 9199984M 600D XIICC CS RIÃ9 I t<>J>> ti (<>< J~ <>> A 1 I <'0001<7 6000 XI/CC 30 R1447 PLAI'ii;E>IT QVN 7->>! 0 ~e GAS GMO XI/CC 31 814A9 PU'<' CHICHI 5+lb: "%E QS 3.99971+3 60M UCI/CC 32 R 1585 AIR 6;ECTOR OAN ~ C~ <<(X.GAS 7.799QM 600D UCIICC R1 5587 AIR EIECTGR CHAN 7;"IO 94)<SE GAS 9.9990M 6000 XI/CC 34 RI5A9 9.999L(7M GOM XI/CC 35 V3411C STE~"< LINE ARV A CLOcED 6MO VNSSVA OF S/6 A NSSV GPcEN 0, 6000 i IPEN T/ R31 ARE>> 3.'TEAN LI)g A ig>IIIG) 6.ONE 6000 tR/HR 38 R31RRO SGA::CE(LE CAS REIEAcc sAT:.'155RA .57948M GOEI CI/SEC 39 V3410C STE'" 't<E A)tV 8 CLKEO GOM 40 VtLKVB NLI =.-. OF 5/6 8 rmi:~ 0. 6MD 41 R32 ARES 52 STAc LI IE 8 ii>I))5) 6.01006M 6000 tit/%
42 R32PRO *8 ': -'- cAS WA - 4T-" '9)A 5.631)~ GMO CI/SEC 43 >.<'H ~ 0 GOOD X 4' <C'<'Oc !a7<2 900 OE6F 45 CJ 0'< 'I 0 S~HIA :;i (EP 47 i 8 8 GCM OE6F 46 8 c)P 48 IN.S GMD K6F 47 7"V09 <~I !iii=."M)IATELVL =,= .=.(P 49 1558 S 650 DE6F 48 <.VIO CV )..(<!)H)IAiiLF(. .=.1 Tc~ 410 <.M.8 Gm OEEF 49 TC'i'l7 +I ('cccp 'J'4 I cVL sFT .c~s 130.3 600D KGF
Ti Message:
GIN NA STATION DECEMBER 6, 1995 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'ressure trip 1873 psi)
D-19 (Pressurizer low pressure Sl 1750 psig)
FOR CONTROLLER USE ONLY Controller Notes:
1. All safeguard equipment starts except the two Sl pumps. They are OOC due.to previous problems.
2. The loss of coolant is an initial 455,000 gpm leak from a severed "B" RCP discharge pipe where it connects to the pump.
Actions Expected:
1. Operators take immediate actions in accordance with procedure E-0 "Reactor trip or safety injection" 8-25
~ ~ ~ -. '.: '- i ..LATCR
%'t:
. OINT !D <<rEKRIPT! C:; 9/4.LZ v()AL E. U.
ZC S A@i 5 X)9 RXT EACT .=. tRIP SRBA<w =r-"I'.5 RX P.! PFED AUD(
r43! ).X'I'5~02 SNS 4 tl'2 9.45145+01 6009 5 H35 INciMIATERAW. "=TECTCR t).35 i.04787-!0 6009 6
7 t!36 HP 162."BIATE AVERAS= NUCLEAR FC'<<ER re KMH-2 2. 48585-10
.00 8)09 6009 At(P X
8 FKS REiCT"8 COOVHT SYBIL AVB F~~ 51. LAUI PS16 9 O'IR PRE=r7(laB AVERASE r=~r . .0 LAU! X roe FTA REr'r..OR MVKT LC(P <<AVB FL(N .0 LEMI X ll PCJi ZTrh ~(T LP<<r = AVB FLO)t ~ 0 1%8 RXTlb RCPA ~lER CN 8 Rr RIP HOT TRIP 6009 13 RXTI7 RCF3 Si(EA)(ER CAPE PX TRIP TRIFPED ALRtt
!4 TE(E)TC !.'<EE TC BMQ.~~ >ARSItt 298.8 6004
!5 LSQ ST)t =4 4 tom)t <0=.: A'r'6 LEVEL 38.5 6009 I6 L.68 STt( E~t 8 HARLEM RAHU'== AVS LE(6. 49.1 6COO X STH '-"r( A AVER%K PFEESLr.:- 6009 PS 16
'48.
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' LPPLv P~ TRIFPE9 ALR)t BUS!18 Br~ ! IB SLYLY BREAXB 'TRIP!'ED RN 23 BUS12A t(OT Patt(ATG) 04 F~rS '/!9/91) HOT i~if EEL 24 W!28 HOT t:-.%INTR Oh rf:.= r7/19/9)) tlOT YR! P EEL 81!A!2A 8(/5 .A TO ID IE BR="/rXE.". HOT TRIP ALFrt BI!8128 HOT TP!P ALRH 27 KV '.4, '!9 )(Au( PS!6
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~
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r E!r;
'.rrEL 214 IHC.ES(TRAIN A) LOLA LCLU( (I 6009 38 L0943A SL5'. LAB. "I~ INCHES(TRAIN 8) LO)tER 6009 T0409A RCLA OT 6 I Lr/BATLtC M4,5 6M9 40 T04!0A RES 3T ~~~ %8.7 60K 41 704098 '. D.P aa ~ rcrjrTK Mr9 6009 EE6F 42 TC4 108 403,8 6009 EE6F 43 TABID RJ.-'VS (T)tOT/t&.9 <<IEE PH6) 3!3.7 60R EE6F 44 TAV68)(ID RC' -"'v'6 (TH9T/TCC.C 'IEE RHO) 351.3. 6009 0E6F 45 LRV .0 LEHO
<(r > M- r-4r .0 600i
-AUXFHA 5/6 -';OTrL TWX -.=Lr:r=- =LC( XQ 48 rAUXF<<r) l4". %09 49 .=XR)4)I ON . Sm
'0 Bt(8082 MR>> XIL!ARV FKQ;2 FL9(P 8 Ctt 6009 5! r/3N Wr -<<Ut STEAtt <L ='" VALVE A CLO 9 N)09 52 V3504 AUX ." R.K STEAtt SL<P'". "<VE 8 CL".SED 6009
DEC R. =.:.I-'flA SINlLA"R PASE RBS BRGL'F .-;BIG!Kii SulP~RY 6RGL'oeNTi .RGf~':.":.: =.IP 1-5 .BiT =TA'P2 PGI "8' DEKRIP '-"N YALUE QNL E. U.
53 eSIA SAF=:" INJECTION LOOF -," RVS FLOM 0. 6009 PN 54 FSiB SAFe.: i INACTION LGCP B AV6 FLOW 434. 600D 6PN 55 P2160 mr.'CE MATER PLUS A >
B rKADER 85. MOD PSI6 5o P2161 SEPJICE MATER PUN'S C b D MEAGER 85. 600D PSI6 57 BkR041 SEfN.ICE MATER PLOP A 6m 58 BKR042 KVi:CE MATER PU!fP 8 ~
6009
&KR043 SV>I~o MATER Pl> C 600D o0 Fi(R044 SW;ICE MATER Pur~ 9 60GD
GRI)P: EVEN PROK')L;=: EPIP 1-5 PLAttl STA))S POIttT ID CESCRIP I"' VALLEY DUAL E. U.
2
.C61 COtF@ar m IhG L==;P TOiAL F> 692e UV'PH 2 LS)ST REPT!.'PG 14'TOPS TA)4! LVL 92.7 6000 X 3 QSC3: 33 FOOT ~VEL 'rtlND 5>>-"3 4.1 6m tfH 4 tff03i 33 FZT )~r ttlND DIKCTICH 359. 60M BEG.
a)033 33 FiCT LFrF TPPEr ATL))E 41.9 60M OE6F 6 ttf A <<0 FOOT LPrK TENPERAFmE 41.1 8XS KGF 7 teT2 ~A TG:3 FOOT LEVEL M.TA TEI!P -.7 Gm K6F 8 Rp! AREA: =CttTR!r. ROGtt 9.06777M 6m 18/HR 9 RP2 AREA -:.hTA&i)T 1.65'~ HAut 18/18 10 11
!2 RC5 RC9 R34 AREA AREA 34
.-')I EPBP FILL PIT
>>'REA:
LINE ~~<ITOR AUr BLDG CV 9'RAY PLtt 1 CI I~ 4CI 1.87%3)CI
l. 42890401 GOM Gmm t%Rtt t8/HR t8/IS t8/IS 13 R35 AREA <<+A)S SAt)PLE PA!EL 1 a 09648+00 6000 t8/%
14 RICA COtt'AI'~~%'ODM NCHITR RICA 3,80736+05 15 Rll CC/TAINtRff AIR PART:CULATE 2.395.8%3 i6 Rl KvC'"KtffaAS "ul 2.64164+04 17 R!CB PVNT 'vcHT IODINE Hf)!<ITVR RIQI) 1.63587401 18 R13 f AU1 LC6 EYHAUST AIR ~QTICLuTE 4.DI Svpt 19 R!4 Aur . DS EIHAUST W~ mt!TM 4.59065+01 GOOD CPtt 20 R!B LIOU!0 )tAH c DISPOSAL Xt)ITOR 1. 59125K@ GXS CPtl 21 R!9 STE<>> -~FiVTOR c'~MPI DTAIN 4.40933t02 6MD CPI!
22 R29 AREr'v 9-CGlffAIht)EN H!GH ri/4)SE 1.3316f&I SSN R/!8 830 A!t)tetf HIGH RANGE 8.996il>'v ~ I.999~ 6MD t8/IS "7 )?12A7 CV )r='iT Ct)A)t 7WID )ii~ e'8 9.99984~% 60M UCI/CC 6/ '>>'7 Qt ))Al>>GP ):g)'>> 9.99987M 8RO Xl/CC
'9 R!445 PJV'I ":-'ti L"r)/I 5-r RvVv.: GAS I.SCCOI>>07 6000 Xl/CC 30 R14A7 Fu'v)T 'Bil Mtt 7 t!10 .N~ Gi'iS 9.99984-'8 600D Xl/CC 31 R!4A9 "ENT Cto,>>H!SH S+SS GAS 3,99971M 6008 XI/CC 32 8195 AIR E.=C.' QQM 5~ i'i RA, m 6AS 7.7998)3M 6MD Xl/CC 33 R1587 AIR EDEC:M CHAN 7+ID RA)GE GAS 9.99984M 60M Xl/CC 34 R!589 9.999)6)7W 6MD Xl/CC 35 V341!C STEP% LIIZ ARV A CUFED 6000 36 '9~~4A Ir!t -6 OF /6 A t)ssv OF=tt P. 6000 I OPEH 37 R31 AREA 3! "-TEAtt Lftg ~ tSPING) 6. 010%r02 6MD t8/!S 38 R3!RRO SGA t'.8= 'TAS ~~~); RATE!! SA .CC)XOI00 6m CI/SEC 39 V341CC STE)'" i!NE ARV 8 CLUB GX9 40 'tU?E)-- /" B "~~1 DPEt) GOOD 9 OPEH
>>>y>>P .Crr'CCrwCP 6000 CI/SEC 43 V/H C'/ )') DRCGEN g5Zft)TF>>T ION ~ 0 6000 X TV'03 Q~>>Zff i~VP 6) . ~))P 43 <<0.5 60M DE6F 45 TVl07 CV !NTRGHATE LVL FT TBP 47 A7\
~ 7>> ~
46 KF 48 ..3Z' 4 47 TCVC9 CV IhTB%91ATE I.VL
!A>E LVL cF
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Tii Message:
GINNA STATION DECEMBER 6, 1995 PL'UME EXPOSURE EXERCISE MESSAGE FORM INessage for'. Control Room INessage: +++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.
8-26
Tii Message:
GINNA STATION DECEMBER 6, 1996 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++
FOR CONTROLLER USE ONLY Controller Notes:
1. The core remains uncovered. Fuel rods continue to burst due to the uncovery,
2. RCP trip criteria IS NOT met.
Actions Expected:
I 1; Operators should be taking action in accordance with E-0 and E-1 "Loss of reactor or secondary coolant".
8-27
Tii Message:
GINNA STATION DECEIIBER 6, 1995 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 stabilizing the plant using emergency operating procedures.
2. A Site Area Emergency should be declared in accordance with EPIP 1-0,
¹ EAL 2.3.2 "Containment radiation levels )100R/hr on R-29/30
3. The plant should implement EPIP 1-3 "Site Area Emergency" 8-28
aC-h.r:a 1 ' ~1 rl ) .)F'4 loI CCC~ AC~ ~ Co
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<<r 1)<<o I .= 'CUc .6;;.).c. FAIti A) HIS">>c INHB
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'18 L0943A 70409A
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PAGE F.EM! "RGUP -H 6!!."~c'iT %&uAV!
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5 P> >>46 1>;=')T:N( EA<A 9.99aOS~M $ 89 t8/HR
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."6 RID 9.99967-04 Jm KI/CC I9 nl4A5 :( "'P>>> M4>>c-i.C4 Al& aAS I.RXO)r07 ND KI/CC 30 R)4A7 h>~ I '.EMT Cia I-H:u W:6 GAS 9.99984-36 Gm Kl/CC J>999> I >JOO3 Kl/CC J al'"5 Ain =.= ."R CHAM M.>" RAle E DAS 7. 79983-06 GOE. KI/CC 33 n>cA7 a.99964M 6009 Kl/CC 34 RIC49 AIR =:EST .a ">(At( 9rH! RAHEE GAS 9.99987M 600D Kl/CC Jc V34IIC Sic.-'."..'l:6 N/ A CLOD 659 36 ViVA 4" ~DF:F 8/6 A ))SSV W4 O. 9 OPEH J7 R31 ARU. 'I alit LINE A (aSPI)al) 6.0)OOo-v2 %/)8 38 R31RRO EW;;: = as V<<E.=AT=-:.W .XS&00 Cl/SEC 39 V34100
'r
>>>>>>a ~
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>> ." =
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'h Tii Message:
GINNA STATION DECEMBER 6, 1995 PL'UME EXPOSURE EXERCISE NIESSAGE FORNI Nlessage for: Control Room Message: +++THIS IS A EXERCISE+++
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.
2. Controllers should continue to provide l8C with CET readings.
Actions Expected:
I.
1. Operators are stabilizing the plant using procedure E-1 "Loss of reactor or secondary coolant" 8-29
1 C
OINT ID
>>r cJ4r.r', =
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CJ: 4 ecM>>r3} Sm ttt t
<<C:C>>r<ir
~
4.62"-7c401 6GGD
'>> tK ><IT<<4c>><ATc RAN=" .c~r. <( V-35 '568}-'} SGOD t(36 }.047}J-}I AP I AK-'A<'.r V(GZRR FEAR .00 X 8 FRCJ REAC>GR CCGLAVT:YSTcs AVc FRESS 00. PS}6
< Cfg FF<<c"PITH AVERAGE 'EL ~ 0 X 10 FR%A >>EAC Co Ca}LANr:.CGP R AVS FLG}<t ~ 0 X
}I F.E~.H LXLklr 'CGP 8 AV6 FLSl ,0 It(HE
}2 RXT}e QR:BKER KE RX iRIP TRIFFED ALR}l
}3 RXT}7 <<CFE:-.=~C" ER CAncE RK .RIP TRIPPED ALRN 14 .S<<BTC 'K - 4 9KKB "~}N 210.3 SM>
~
5 LSGA STN:->> A NAK) RM:- AVS LEVEL 40,9 60GD
<C Lcc8 ST)} I-:V 8 SR~G}t RAt>r nV6 LE<EL 50.7 X
<7 cTnr 'IR AVERAGE rFE~ 897. PS}6
}8 Pc68 STin =V 8 AVE)(AGE PF<ESSURE 896. PS16
}c Kh~KR} =(Ec-'<c? a( L}t<c iE /n(ER }6}37 TRIFFEO
'0 6BiB(R" GN Llt<E:FE-'Kc<} or}372 TR}FPcED
\I
~ ~ BUS11A n S}PPLY .REAKEc TR}PPED 8()S}18 E<JS::? .LPFLY BREN'cn TRIF FED
\3 KS}2A "}HATED ~rV cc"c (7/}4/9}) tr)T TRIP 4
C M2 o'~
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"'G }2R TIE (7/19/91) t>Gr TcIP 8<}A}2A 8<<Eh'(EP. NOT TPIP C I <8128o "3 TO }D TI" aMEP tr)T TRIP ALRN
>>r crV . '>,-'}~.~~6 A~!c<<}IE -.8} 60R PS}6 8 LS(NP$ WCiA.! r ENT SM' AMBLE LE<iEL 31.2 FKT
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'943E <EL " >)IMS ITPA!tl E) HI(E<w INHE
< PC>r><< rt>>>> '~- <Tc IN A) H}6)rrV }t>HE
'9430 ~iEL 78 itQ = (T<tAIN 8) H}6)cr. INHB L09420 .= L=vEL l}3 It>MS(TRAIN A) NIBS ALRtt 34 }.0943C .. '=ICL 113 1)C=S("<<<IN 8) H}6rcV AUI
,C <<IA>>
I GcJCE r ~ :E) !l.";==6(TRAIN A) LrJVER 6008 IC V.+J"~
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TRNA >'.4 4 r lv ~
c6 I crt'cr<AT 23t7 40 T04}OA ICC }54.0 41 <04098 R4L>>>>>>D LEIJ M.ATSE 466.2 Cr t 42 T04}08 C 0 < CS TC>rccr<ATUtC 210.4 43 TAVSMID 406 (T)K)T/ . CD GIBE FNS) 395.0 44 TAVSBNIO -'96 (T)K)T/TCGL<> "IOE RN6) 182.2 hc I
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'BiV!"E D HEAKR . 85. 600 D PSIG 57 8ÃR041 ~d'"- MAT% PNP ON 600n dh f'iO~s MATR PP'i CN 6009 5~ EKR043 SERv"."E MATER PUt'9 ON eO BJlRO44 ".c<V.CE N'iiR FNP D C~il
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. 42.7 6000 KGF 0 IIT250 42.4 GZD OEGF I NDT2 3 FMT '}cc DELTA TEIIP -.3 6m OEGF 8 ROI }V'Z .-Cv~iTRI7 nOOII 8.95397M 6MD %/II?
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14 RlOA COI>>TAI!>>l}EHT IKINE RC!I ITOR R10A 3.31607+05 HAU! CPII 15 Rl1 II} R12
-7 R108 COG "CI>>
Alt;IIE!IT AIR PART: Aik >I S}}S %l!I""R FLA; '>>EI'. IODIIK I '(!OR R108 MTE 2,~ 2,08P5KG f,le@}f MOD CPII INUI CPII 60M CPtl f8 Rf3 AOX:-'6 EXI}A'5T 41R PARTICULATE 4.49262+01 RSD CPtf R14 AUX ~".6 Erma GAS mIITOR 4 ~ 39667<1 6008 CPtf "0 818 NSTE DIPOSAL XHITB? ~ I, d476BM GOOD CPII hf R19 SK-h ~}CRATOR L~wU4l ORAIII 4.40933rtQ 6MD CPII cl?Ec 39-COlITAlt ENT hl6H RAIIGE 4.7591M HAUl R/N hg .W&ITAltOEIITHi&l RAtIGE R30 APEh 4.73492HZ HAUI R/HR R15 Kt>>."c>>:..=. AIR cSECTu EXHAUST 5,54306KB 6000 CPtl C 4>> h~>>C 7.50001}+7 MM UCI/CC
'=' ~~
RIE46 }4'AEA ~./ f.46704KB 6000 t8/% 27 81247 9.99984M GOOD ILI/CC "8 81249 c ~ 99987 ~i4 6008 KI/CC c R14A5 I 5~"Xf '7 GKD XI/CC 30 R14A>> 4;lT iT CWI X,IO -A!r~ m 9.9998>>-'}I} MOD Ir.l/CC R1449 P} 4>>~ '=!!t CIN 9-ale: R4>>>>ice GAS 3,99971~3 6MD Ll/CC RID 7>>79963M 6000 Ir:I/CC Gm UCI/CC 4 Rfc99 9.99987M GMD UCI/CC V3411C ~ i =h.C " >>I>> tW'/ A CLUED MOD cS /A 0>> 6000 4 OPDI 37 831 AKA:.! STF A!I LIIZ A:9'Itrlt 6.01006M 6000 NIIR R3IRIN .QOXi00 6008 Cl/SEC 39 V3410C STE4. M ARV 8 CLK }} 600D 40 CSSVD ILK.4 }.7 8/G 8 RESV CPBI O. 600D N OPEII
>I R32 AREA ": S}cAII ~ !IE:" .Plt>>GI 6 OIO}.'6M' GMD %/0?
R32KQ ::.= -':-:= SAS R='EAi.E PA.E ..9?A 00000-'!0 GOOD C1/SEC 4 V/H .0 ECOD 2
-'4 TCV03 }C GCOD OEGF ~ ~
ic>>c >>h
}h>>18 7 ~ >>>>>>ch>> ~ ~ 'i>>IC '>>
C>> ==: .CCP 47 '07 9 GMD DEGF k,ar
/IO

cl:
-'= R'IO jf cc i >>>>cP 48 49 ,>>07>>8 MOD
07.9 600D DE6F
!07.8 6000. 6EF TCVI7 V/ C-=GATI!>>G LEVL "F; cCP %17 100.3 K09 OE6F
Tii Message: GINNA STATION DECEMBER 6, 4995 PLUIIE EXPOSURE EXERCISE MESSAGE FORM INessage for: Emergency Coordinator INessage: +++THIS IS A EXERCISE+++ Declare a Site Area Emergency using EPIP 1-0 EAL 0 2.3.2 "Containment radiation levels )100R/hr on R-29/30 FOR CONTROLLER USE ONLY Controller Notes: 1.'eliver 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 melting.
Actions Expected: 8-30
Tii Message: GINNA STATION DECEMBER 6, 1996 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for:. Control Room Nlessage: +++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY ~
'ontroller 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 considered.

4. A General Emergency should be declared per EPIP 1-0, EAL 0 2.3.3

5. Immediate protective actions should be made using procedure EPIP 2-1
'8-31
0
~ )ae c'.: ~ .'" .- ""LATCF lao ~
1I)P ) ' cALL= 44. E ~ U, c c c~Mc ~;. I ~ ~ 1 S
) i(S ~(T'A ce TRAt(BIEN '.) (3ÃN "3 'T(iS 6009 .""EA-;:F .IP EFERKE: -TAT"3 RX TRIFPa~ AIR)(
N31 SC(FCE .ME KK;DF. ')- 1 4.<5f4)<f GOOD CPS 4 H3" M= RANK DETECTGc )r32 4.;"0&2<) GOE CPS 5 t(35 ItO:.-."EDIATE RANK i~TOR N-35:.05&Sf-f I 6009 At& t(36 .'le='.-." );I~)E RA?ice = i~.))( h=<< :."4713-)f 60M. A?(P
7. NP AVER>> c NUC(EAR PKi"-. .OO 600D X 8 PRCS REACTDR (X)OLA%'YS~)c.. AVS BESS OO. La(6 PSIG LPIR FK=':cRI ER AVERAK '(EL .0 LALN X 10 )'RCLA REAC)B CCOLAVT LOCF A A()6 FLON .0 IWft X ll FR(U) REF)".TCR CO(LNiT LOOP 3 AVG FLON .0 1%3 X 12 RITI6 RCPA 3"cAKER CA(KE Fr RIP TRIPPED ALR)f 13 RIT)7 RCPB BREAKER CAUSE RI TRIP TRIFPED AU(tf f4 TSUBTC INDE TC SUBCOOLED t)GGIN 210.3 600c DEGF 15 L%A STN GcH A HA/85'ANK AVG LEVEL 40.3 GOOD X 16 LSSB STN KH 8 NARRO(( RAh"= AVG LEVEL 50.2 6009 X 17 PKA STN ":"-9 A AVERAK FccSSURE 874. 6009 PSI6 18 PSGB ST)l KH 8 AVERAGE PRESSURE 868. 6009 PSIG 19 698(RI ATOR N LIHE T)FZ/4B 161372 TRIFPED ALIDI 20 KNBXR2 6EK~.cTOR ON I.INE BRENER 911372 TRIPPED ALRN 21 BUS I ) A BUS cLPFL( TRIFPED I)USIIB BUS i!3 SUPPLY MAkE. TRIFPED 23 80512A t(OT c.")(IHATB DN FFCS (7/19/91) NDT TRIP 24 BUS128 NOT icwNI!4TED ON FFCS (7/19/91) NDT TRIP 25 elf A12A RS 1:A TO 12A TIE E."E4ER NDT TRIP 2& Bile)23 BL)S I 13 TO 128 TIE EREA(ER HOT TRIP ALRN
-ES~ -.66 K09 27 28 L (I(PA CO)C)A It)'(ENT AVERAG COWAI))t)ENT PPP A AVER I!XP'3 iTRAIN A) )~ 31.2 HEND PSIG FEET
".9 L09426 S(PP 3 LP(EL 8 HIGHEF. WB 30 L0943E SU)f' StEL 8 ILC))ES (TRAIN 9) HI(9(ER IQ(3 31 32 34 LO9429 LO943D
'942C LO9430 LO9423 S'A'= .Utf SlRF ."
3
~c/)EL 78 HCcc=E (T)MN A)
BBP 3 Lkc3. 78 INC)ES (TFAIH 8) SU)F .. 'ic) "3 I)F'" c'+aft( A)
'6. I)3 1)P.=
m'vs
.,AIN 8) 180 INC) ES('.~It) A)
HIG)=R HIG)& 816)):-w Hfe (f) I)4(B ALRN ALN K09 36 37 LO9438 LO942A an SUtf 3
=-
w feo it)L==E(pwfH e)
'kEL 214 It(Cr'(TFAI)( A)
LG))9 L(742 38 LO943A sUrp 3 LEvEL 214 itic)~M(TRAIN 8) LQ)ER 39 TO409A RCLA HOT LEG TBtERA 'K 341.9 40 TO41OA RCLB ))OT LEG TE)(FERAFZE 181.1 41 TO4093 RCLA XD LEG TB' )RE 418,5 Gm KF 42 TO41OB FCLB .'LD LEG TE))Fc) "))FE 373.0 6009 IEGF 43 TAVGANID RE& TAVG (TH3T/TCOLD "IX RNG) 30i2 6009 9EGF 44 TAVGBWID RCLB TAVG (T)GT/TGLG HIDE R%) 277.0 6009 iar 45 LRV f(EA.)cR )~ccEL AVcRAGE LE()G &2.1 46 TCCORE Efif M"c)E TC AVEf)J.:: cM .0 47 48 FAUIF)/3
=-.6 - TOTAL AUX S/6 .= ~ 'c 1074L AUr cEE'.('A: ~m R FLO((
0, O. 49 3((ROB I <<TR ~ I'LIARY .=-crlVTcF cL99'
~
OH <<0 BKROB). CN VZ05 A'I = F))rP S)EAi cUcc"( V4.()$ A tY <<cc9 '2 V%04 AUI =- c~~ SHAN S:.-:" Y /ALVE 8 Q ~ED
tits Da
~0 iIQQCv ~ e the .>
1 0e y'q< R. "". 6!.'WA SII>>MTOR PAGE TRBE GROS <IGlCBlT Pike 6RGL'P: EVENT'. >RKHK"..='PiP 1-5 PLANT STATUS POINT ID DESCRIPTiON VALL+ GUAL E. U. SAt ". i INACTION LOOP ~ AVG FLOW 54. GOOD GPN 54 F BIB SAr=i'i INJECTION LOOP B AVG FLOW 422. Gza Ge
~160 SERVICE MATER Ply'S A ~ B HEADER 85. 600 D PSIG 5b P21b! 'PLICE WATER PL%'6 C l>> D HEADER 85. GOOD PSIG 57'kR041 SERVICE WATER PL%' Gm 58 BNR042 SP'JICE WATEP, PNF 8 600D 59 BhR043 SERVICE WATER PNP C '0 BNR044 "=ERV:".= WATER PUt'iP D
c) <<? ."rl ~ ', off ca <<aaa/aCa PASc cRIK ~=c: cc'c '-5 FLaAa'I = 'TUS POIt<T ccucc
!9 z I %scan KSrRIPTIOtl cue ~ 2%~ VALK OU/C, E. U.
r 0819 Xtfrt<E?Pi COOt'.It<6 LO~ TOI'AL FLtt 6501. 60X "6Ptl 2 LNST REr.'=!t4 1<ATES Siva<A:" TM LVL 13,0 0<RN X 3 I/ O33 33 cOOT LcVF 'attt9? . '4.6 600D tfH crED'EVEL 4 NDO33 t<IND DIRECTION 37. 6009 K6. 5 NTO33 33 F<OOT 'LEVc TEtaPERA <<9." 43.2 6009 K6F 6 MTZO "50 FVOT LEVB.:EtfERA7<E 43.0 60M K6F 7 NDT2 250 TO 33 FOOT HVEL .'ELTA TENP -.2 6009 K6F 8 ROI AREA HXhlINX. Rlt 8.7599~ 6009 tS/IS 9 RO2 AREA 2~AINHENT 9.88552I05 HAUI IS/Ht 10 ia1 12 RO5 RO9 R34 AREA AREA AREA 34 9~ 5-PENT FUEL AUX BLIO CV PIT LINE IXDiITOR
~T PIXY 2.95120<01 1.97242%1 ..54882et HAUl 6009 WRN tS/Ht tS/HR tS/Ht 13 R35 AREai 35+ASS SAt<PL PAtEL I 09648<OO 6009 tS/IS 14 RIOA COt <TA INENT IODINE NNITOR RIOA 3,002&0<05 15 RI I Qt<TAI?O<ENT AIR PARTICLLATE l. 89725<03 lb R12 COt<TA'MOMENT 6AS ttt9IITOR I.95265<04 17 RIOB FVa<T VENT IODINE ttCttIT<R RIOB 1.78340<OI 18 R13 AUX:"LX EXHAUST AIR P//tTICULATE 4.53158+01 I'? R14 AUX 2 r6 EXHAUST GAS I I!TOR 4 7" Il<<OI 6009 CPN 2O R18 LlthiD BASTE DI POSAL iMITOR 1.67639+02 6009 CPN 21 Rlo STE>9 m?GATOR BLSiDOA DRAIN 4,62379<02 6009 CPN ARE. 2? CCttTAINNEttT HIGH RANSc 1.01815<03 HAUl R/HR R30 x~9<TAINB<T HIGH RAt<GE '1,01815<03 HAU\ R/HR 24 R15 CC<C":NEER AIR EZCTCR EXHAUST 5.61532+02 6MD Ptl "5 Rl 45 WN H.Cat ra~4IE GAS 7.MOChr07 Gxn XI/K "6 RI"4&
27 R1297 =an SAS 4.914<&00 9.99984M 6009 GOX tS/IS LCI/CC ra QI lag 9.99987M GCOD UCI/K a~
. aa 445 CLA"* g- aa iH<a9 ~-aOM RAt<- GAS 'OOtw7 6009 Kl/CC " 'Gc Q I ~A<< FL/a;7 .B<T g<Att -W 0 6/aS ?,00984 Ob GMD KI/K 31 'T CM 9+ISi R~<SE GAS ;.Xc??!M 6009 XI/CC 32 R15A5 AIR 5:8"TOR Q<AaV 5m'aaVa~a. GAS i.icc83-06 6009 XI/K Xi, RISA7 'IR =.."CTm CH'W, -NID RAt<GE GAS 9. 94?24M 6009 Xl/CC 44 P'4<< 9.<<ATM 6609 XI/CC 35 V341 aC Sic'" 'NE ARV A CLOSED 600D 36 QSSVA '4.~c.c OF 5/6 A <<SSV OPEN O. Gm 4 OPEN 37 R31 AF. ~;: cTEAtl LlhE A <SPI',<Gt &.OIOO&-02 6009 IS/%
38 831RPO ~ <XOO<OO 6009 CI/SEC 39 V34IOC "ac Waa 8 CLOSED 6009 40 ~'E ~ >>=- = 5/6 9 ".m~/ CP'i O. 6009 t (PEN 41 42 R32 R3XRi"
..: EA<a .<E . SPNjt &.OIOO&M 6009 .OOXOKO 60M Cl/SEC.
tS/IS 43 CVH ~ >> 0 ~
\ .0 6009 X -Cay' ' '? I ~ I ECOD KtcCVOT a-~ 47 96.6 "0 >IVOc aa J: f8 <<6.5 47 TCki? : bulb.c ~ ct<P h9 9<<a 6 ~ a 48 TCVIO aa cuabic :-aP 410 '? &.5 49 TCVI <a<a - X " .-'f 41 102.0 6009 DE6F
Ti Message: GINNA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: + ++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY I'ontroller Notes:are still stabilizing the plant per emergency operating procedures.
1. Operators Actions Expected:

1. The TSC and the control room operators should be assessing sump "B" recirculation availability.

2. The EOF should be staffing up.
8-32
PAGE
Ã.(rN ', I rv' 0 ~.v ;CIHT (9 C 1$ I '.e~'.xfi'Tli'..
SRKZOSXM H~ SK~~ ZCX>>(~ DUAL = ~ U. AWi ANTIC:FAR~ (RWKI h -"/0 ~MA". VO A><<= %09 2 RXT REACT"R >RIP SREAXE"; STATUS Rr ixIFPED ALRI( H31 MC- RAh()E KF"'C-.. 'r.f 4.67)95(O) 6009 CPS tQ2 SnKCE RAh& EEIECTCP (-32. 4 ~ 36nl +Ol 6099 5 H35 litic:.".EDIATE RA'0-" =(ECTOR N-35 :.45195-! I .6CGD At9' 6 N36 lt :.042~-fl 69m At(P 7 NP AVEFA~r. hLCLEAR FC>> . ~ OO 6009. X 8 PRCS ~ REACT>>R CKLANT SYSiw". AV6 PRESS o. LE)ri ps16 9 <<O'TR PREM17E(t A4ERAK '- 8. ~ 0 LAUI X
'.0 If f2 13 FRCLA FRCLS RXT16 RXT17 REACTOR ~
REACTOR COOLANT LOOP A AVG RCPA SREAXER CAUSE RCFB ~ER LGGF CAUSE Rr iRIP rr Win FLgl 8 A46 FLGH TRIPPED TRIPPED
.0 ,0 1%8 M(8 ALR))
ALRtl X X 14 T SIC INC"> TC RJRXK~ I'M~IN 213.5 600< EESF
'5 ST)( EB( A t(ARREH RM= AVG LEVEL 39.6 6009 X 16 LSGB STt( "-"'I 8 i%890<<( RAh-= AVG LEVEL 49.7 6009 17 PSGA , STI( (='.V A AVEFASE PSESS)RE 850, (OM PS16 18 PSGS STH r=-V 8 A4E((AIE Fi::--.R)RE 841. 6009 PSIG oe0)XRI K%RATER EH LIIK SP&rER IGIT/2 .RIFFS) ALRH "0 flr7SP<< ORATOR Gli LINE Sl:E(4'ER 9r1372 T(RIPPED ALRI(
S(t"-11A EUS::A ~~Y PT"=~C.-. re,(FFED BUSIIB BUS 118 aw.Y Bt(EAr=.. TRIPPc;9 23 BUS12A NT ~INATED GH FPCS (7/19/91) ,((OT TRIP 24 SUS128 N)T TMII@TB GH FFCS 0/19/91) HO( TRIP 25 SIIA12A SUS:IA TG 12A TK R~=.rWER NOT TF.IP 26 8118128 RIS 118 TG 128 TK EFE(((ER NGT TRIP ALRII CONTAIN)59(T A'((ERASE FAi%%E .15 GOOD PSI6
".8 LR@% COHTAlt(HENT RNP A A4URZ LE4EL 31.2 tE)IG FKT 29 LO942E Rrf' L 4EL 8 1)F3 S (TRAIN A) HIShB M(B 30 LO943E SUIF' LWK 8 INCHES (TRAIN 8) HI6HER INHS 31 LO942D Utf 8 L=4EL 78 It(ChES (TRAIN A) NIBS IQS L09439 SLT. 8 'EL 78 it(CI-'8 (TRAIN 8) Hlonu: IM(S 33 '094cC R% 8 LM 113 IN..:-S(TRAIN A) Lprl (; 'LRH '943C SUIF 6 L~>>'13 IHiFES!(FAlh 8) HIS~2 5 LO9428 Rll' Lv& 'SO ah~HE(in>lti A) LGNER '":4K 36 '09438 '942A RIP RXP 8 .= '~ ISO INCHES(TRAItl 8) "14 IN..ES!TFAIH A)
L(D(>>R LC4>>R 38 LO943A RttP 8 I VEL 214 ItG:-:(~AIN 8) URR 39 TO409A RQ -'OT LEG TE)9>>RA(wE 343.0 40 T041OA RCLS m Le W~ERAr2 155.5 41 TO409B i'EG TBFEnRA(M 430.9 6009 EE6F 704108 FRS CXC LEG TBFE)IA7d!E 319.2 61 EEGF 43 TAVSAMID nRC(LA TAVG (THOT/!COLD lIDE M) 387.0 6(r)D EEGF 44 TAVMID RCL& AVG (THOT/TQ7 'IEE R%) 272.3 6009 DEGF 45 LRV REA ~ 0K ~ BA LEVL 63.S LALH X 46 HARE .0 600'ESF 47 FAUX ((A 6009 GPt( 48 FAUX'9 S/G r TOTAL AUr FEr <<" i'LO( ~ ~ 6009 GP)( SXROBI (VTR AUX.'LIARY FEEDHA(B .".O' GH GOGO
~7H P2P
,50 51 SiROG"
'/ 04 HTR AUr =H AUr .=~
mrl'AVY
~
Pm S~(" STEAI(
~.Y '/AL4>>
S(-F.Y i/AL/E 8 8 A N LIED i'."-:9 600D 6009 6009
DcC ~i '""""5 10'4= R. E.:-~!'A SI",i.ATOR PAGE 2 P GAROU, AH.::-q'ZHT SUNNRY 6ROL~'2 '"RO"""'=='r>>>= <<LANT STATUS POINT ID DES"RIP TIC4 YALUE NNL E. U. FSIA SAFc' It(JECT.'OR LCC-," A AYG FLC'A 122. 6000 GPtf 54 F GIB SAFETY'INJECTION LOOP ."". AVG FLOW 458. 600 9 GPtl P21EO SERVICE WATER PUtPS A 5 8 HEAKR 85. 600D PSIG 5E 82161 SEiNIC=. WATER PL%PS C ~~ D READER 85. 600D PSIG 57 BkR041 vMVICE WATER PNP A Ott "'000
=8 BNR042 SEA'iCE WA'i'lPi 8 ON 6009, 5'? B(R043 SERV'CE WATS PUtP .:
60 BRR044 SER'F.CE WATER PUNP 'D
"Z]<{'H]<(teE{TS<<<a~(
SnR.'(( ~~ << I <. F~~=: EPIF !-5 Fluff STATUS PO]NT 19 f(ERR(PTI N VALL(E COAL -. U. FO&]9 &502. 3MD EPt]
2. <J96T 12.2 Lll!N X 3 tts033 33 FMT LEVE!. RIND co%9 4.8 6MD tfH 4 ))0033 33 FMT LEltEL tt]ttD DIFECTION 45. Gm KG.
5 ]tf033 33 ":4]T LEVB. TEt!P WTURE 43.& 6009 KEF 6 <AT250 2 0 FMT LEVEL TB9'EPATURE 43.& 6009 OE6F 7 teT2 250 TO 33 FOO'f LEVEL (<ELTA TBIP ~0 6MD KJF 8 R01 AREA ]~a. IIOOt] 9.~M72M ]m N/% NIN 9 R02 AREA "-CONTAINt]ENT ].3K&0& HALN
!0 R05 AREA -SPBIT F]KL PIT 3.09029%] ~
HALN N/HR 11 R09 ARE>> -~( <E "Bt]T(R ).HE&0] 6MD NIN R34 AREA 34 - AUI 8'S I FRAY F]9P ] 5752040] HNR]t N/N 13 R35 ARE(( .~-PAcs MME FAl8. ].09&48m 6009 N/Ht
!4 RICA COt!TA]t~i IODINE PZtt]TOR RICA -2.87573+05 !5 Rl! CC/TA:t<t&T AIR PARTIC]LATE ].71051+03 16 R]2 CCtCiA]l~M GAS MN!~~ 1.&8&0&M !7 R]09 ~'7 "et<7 ICDI<c ~aft] ((R R109 ].8]44&K)]
18 R13 AUI ~ 38 E!HAL~( AIR PARTIC]LATE 4,3C277t01 R!4 mr:=:> EXP'>> GAS mlTOR 4 ~ 37773~0] GOM CPtl RIG LIM]9 ]tASTE D]SFOSh. tCi]IOR ].57]2&F02 GOM CPtl 2] A(9 'vi R2Q ST='S:.&PAT% IL]7'MIN 4.724&9102 6009 CPtt AFcA '9~>ITAltCZf'. Hl!3! RANGE 1<303]&M HAUt R/N R30 APE/( 30M]TAlhtEttf HI% RAttGE 1.30316<03 HAU! R/N 24 P15 Q]NIc~B AIR EJECTOR EXHAUST 5.5430&+02 GOM CPN R ] ~A CV VB!T Q(Att ~LCN PA'K GAS 7.5000&<7 6009 I/CC
&~
K R12A& CV "ENT ~('Atl 7.00000(00 H]tRN N/lR 27 RI297 CV< Btf Q(AR 7+ID Rs& GAS 9.99924M 60M KI/CC ."8 R!289 o.99927-04 6C09 Kl/CC P14A5 c(wN< '/Et/f Qgt AC!t RA<(-. GAS '000'<7 6009 Kl/CC R!4"7 PL/t< '('B]T QWt 7-'t]D PP!W 6AS 9.99924M 6009 Kl/CC R]449 'J!T . ~N c~]6".'AN>% GAS 3.9997]~)3 MM Kl/CC 3" R]M AIR =.= TCR QIA(t Q PANGE 6AS 7.79963M 60M KI/CC
3 R!547 AIR::=";DR Ct&"9 7<I," RA]PK GAS 9.99984-0& 6m Kl/CC 34 R]5A9 AIR =.=CTOR Q!AN 9+1 (<At!~ GAS 9.997~7M 6009 Kl/CC 35 V3411C NOT C.XEO GOM 3& ~A <4~em. ((F S/6 A tlSSV CPBt 0. K09 9 ltd 37 R3] AREA 3] STEAtt LINE A (SP]t4] 6< 0]00fr02 6009 NIIR R3]RRO MA '4Kc GAS ndZ4c (<AT " SA . 00000(C0 GOOD Cl/SEC 39 40 v34]tr.
VNSSVD STEW " It!E ARV 3 t49!s-:R Ã 5/6 8 pMi ~ NOT CLLcED 0. 60M 60M 4 %EN 41 R32 32 Mu"t L]NE 3 !SPIN6) &.0]006M 6009 NIN 42 R3280 =8;,.;SLE GAS RELEASE FATE']RA ~ CC000(00 GMD CI/SEC 43 O'H 2/ '"DPC<<=<i (9FBITFATIOtt .0 600D X TCV03
~1 A <<c((l LE<cJ ~ c(<P 43 8&.1 61 K6F 45 TC<<<07 B]ATE '." -'= '(B!P 47 ! 00.4 6009 K6F 4& ;-.rZ TVP]7'REA ".9 =<<HIA((: '<'.=( T(P 48 I¹4 GOOD Ke 47 ~,CW9 2/:tffERNEDIATE LVL cFT TB!P 49 100.4 60M K6F 4P CV'0 ":,'. K~lA((: L":"T BF 410 100.4 6009 KGF 49 CV ..-ERAT]t<3 '" &( ( TEPP 9]7 1]4.7 GOOD OEGF
Tii Message: GINNA STATION DECEMBER 6, 1995 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: 8-33
T'ai Message: GINNA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE NIESSAGE FORNI Message for: Control Room Message: +++THIS IS A EXERCISE+++ FOR CONTROI LER USE ONLY Controller Notes:
1. 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.
8-34
c' 'vcg cisatc FOIt(T !9 &P'P VALUE NC. = ~ U. AT))S NO AT)IS Gm 2 RKT' PEA". CR TRIP SREAKE"; STATUS RK TRIPPED ALRI( t(31 S(KPCE c>M ~:u.TCP 'r3) 1257(HOI 6009 CPS 4 r432 cc MiGK ZIKCTCR 'c3c 3.9656541 6009 CPS 5 H35 .tli=-2%9IATE RAtiE '=:KTOR tt-Z GOR At)P '.05195-11 6 !(36 Ir~mIATE RAMS= '~OR H-36 1.04K-II 6009 At& 7 HF AVE i'cc "X~c FNIER oOO 600D X 8 was REAC> .R COOLA4T cYSTE4 AVG PRESS 00. LENS PSI6 9 LPIR PFc"-=.URIIER A'vPAGE L~FL .0 LAL)( X 10 FRIT REA.TP. CXLA41 JXP A AV6 FLON ~ 0 I)4(S X ll FRCU) .Z CÃXA4T LCCP 8 AVG FLO(t .0 1)6(9 X (2 RKT16 RCFA BREAKER CAUSE RK:RIP TRIPPED ALR)( 13 RKT17 RCFS SPEAKER CAUSE RK TRIP TRIPPE9 ALRN 14 TSUBTC I!~c TC BrK0KB P~IH 210.3 6(mc KF i5 LSGA HH 6=4 A r4ARRCN RAhE AVG LZEL 30.2 LMRN X lb LS68 STN EcN 8 HIRED RAtiKE AV6 LEVEL 31.8 6009 X 17 PSGA ST)( GE)( A, AVERAGE PFESB)RE O. uL)( PSIG 18 PS68 STN GKH 8 AVERAGE FfGBJRE O. LALN PSIG 19 GENSKRI 6. EPHOR Otl Ll)E: SPEAR 16137" TRIPFED ALRN 20 GENSKR2 CB&ATOR ON LINE EREr')(ER 9K!372 TRIPPED ALRN 21 SUSIIA c(E:!A BFPLY EREAKEc. TRIPPED 22 PJSIIB BUS 118 QFFLY BREAKER TRIPPEO 23 BUS12A NOT ~c, 4INATED OH PPCS 0/19/91) . NOT TRIP 24 BUS)29 )GT TERHINATED ON PF"c (7/19/91) NOT TRIP "5 BI IA12A HS 11A TO 12A TIE KEQER NOT TRIP 26 8118129 SUS!18 TO 128 .!E iREr((ER t(OT TRIP AU!t( .7 FCV ~~i A(r<,ENT AVEPiGE rr EScr'RE -.94 GOO9 PSIG 2S LBK)PA i~(t"ah~ 4T 949' Asg~".~ LEVEL 31.2 %)K) FKT
'9 L5942E cL'YP ": 'K%K 8 IhQES STRAIN A) HISPID INHB 30 LO943E BPP ." i Rrc 8 INCF=S 'TRA(t( 9) HI6hKr, I)4(S I L09429 R."F 6 'rc. '78 ii~5 (TRAItt A) HIG)W INHS 32 LO9439 Bi)F' LB~c 78 Il)C'r:-6 ( RAIN B) HIG)13:. IM6
3 LO942C ,
BKF -Lc~~ 113 It~r S(TRAIN Al HI 4+5 ALR)l 4 L5943C SLliP 8 EL 113 ItKic'S!TRAlti 8) HIG)'=R ALRtl 35 LO9428 P~F 3 LPrc 180 1hZ.:-S(TRAIN A) LO)IER 6009 36 L0943S KL"F 8 LEAL 180 ItiQ.:-":(TnAIH 8) LSlER 37 LO942A :-'"P 8 Z/3. 14 IN=6(TRAIN A) LO)IER LO943A cNF = a&EL "14 It(C) S(TRAIN 8) LONER 39 TO409A RCL" NOT LEG TEHFG%Tii 152.0 40 T041OA RCLS::3T LE6 TBPEPATM ~ 149o2 41 T0409B R(XA C.LO LEG TEcFERAT(F= 209.8 Gm OEGF 42 T04108 rM C(u LES TEi!Pc~AiSE 212.6 GG09 !EGF 43 TABID RC(r .AV6 (T)K)T/TC(LD i(IDE FNG) 180.9 GM9 IEGF 44 TAKSNID RC' TAVc (TRIT/TCCLD HIDE FNc) ISO.9 6009 KGF 45 LRV " VKSS~ AV-"RicK '-vcr. 66.3 LAU( X 46 TREE eO 6001 EE6F 47 FAUXc4'6 czG -'DTr" kP( c==~icTEF: Fr 'K( , 206. r FANF)rtS 6/6 8 TOT/4. AUK -~~~>>. =.m O. 6009 6Ptl 49 r )irrS) ".TR cuX:LINY ~rTcER rL'NF A ON 6009 4 55 SKR582 NTR AL'XI'LIARYFEED)!AD FL9P B ON 51 V3505 ArJI F'A FLrt!P HM SUPPLY VALVE A Q.%ED 52 V3554 AUX F)t FL(Fr Fii*t %%FLY VALVE 8 CURB
OFC o, 1995 11.K Re ~o SItJfA SItevLA IGR PASE 2 TREND 6nGUF ~oSISHNBIT SNtSRY 6RCLrP: ':-V'EtcTi . ROiKLP.E> EPIP 1-5 PLANT STATUS PGI%'O DESCRIPT IGt) E. U. Mo=i'i It(rECTIGN l GCP A N6 FLN 1Z, 6309 6Ptl 54 FSIB SAc=rY Itt:ECTIGtt LXP B AVG FLPA 458. 600D 6Ptl 55 P2150 SONIC NTER PUtlPS A f>> 8 HEADER 85. 600D PSI6 55, 2151 KRrtICE NTER PUtlPS C I>> 0 flEADER 85. 600D PSI6 57'ltR041 ICE NTER PNP A ~ 600D 58 BhR042 ~%ICE NTER PNP B ~ 600D 59 BKR043 <<Itv'iiE NTER PUtlP C 600D 50 BtlR044 aaP.CE 'AATER PNP 0 '00D
c ~>> PAK
~ ? v ~ ~ iIv>>>> wPvivh c"!6 SC-'.c -'=='"-'.?."c'a c'~>>A7f v<<l 'l = '2 c=: =-!P '-5 ~~ii "-TATLre POlt'I !D WPT ' VALK 00AL {I S . 0619 650.",. i~ GP?t LP@T 12.l.'Q?{ ~ 3 !?SOXI 33 ~@Pi 'EVEL.vtl'I cfEED 4.7 6009 ?Rl 4 'ADO33 33 FDDT LP/c'll8 DlfiECTIC?t 45. 6009 DES>>
5 i{TOSS D4 <<'"JT LEVii '{rFiAlllc 44.0 K09 K6F 6 ta250 250 'ÃT LEVEL .ct{FEcATLSE 44,3 K09 K6F 7 ?OT2 . O TO 33 FMi LP/E'.TA TEMP ~ 2 6009 K6F 8 ROI AREA ?~6RQ. ROO?t 9>>2257~ 6009 l8/?8 RO2 ARg, "=Ot?TA li'cta I.3XE2+O& HAU{ ?8/HR 10 ROS AREA 5-SPE?TT FK PIT 3. 09029+01 HAU{ ?8/!8 11 R09 APNEA o-'FV{ 'lK ",."?{ITOR I>>87283K! Gm t8/HR 12 R34 ARE" 34 - AN PM CV SPRY PO??P 1.<<~~~I HMR?t t8/HR 13 R35 APL~ Xi+ASS MP ~ cÃ43. 1.09648+M 6009 t8/HR
!4 R!OA K/PA!?v".E?iT ?ODIlK i".NITCR RIC4 2. 4!962@5 HAU? CP?t ii5 Rl1 i~Sic!?vt?M i:iR rART;CILA)E 1.4706186 GOOD CP?l 16 R12 1.3 285>04 ?Q?tt CP?t 17 RIOB 'r'a IP"~ Wl!DR R!OS 1. ~%K)l Gm C?H 18 R13 AN "6 E!H//JS AIP. PART!QUATE 4.30277%1 Mrm CP?{ !9 R!4 Aur 5 23 51H?/JS-. GAS mlTDR 4.37P3<l 6009 CP?{
20 Rle 6009 CP?l 21 R19 STE-'..": SE'i RATS ILOAXO CRAIR 4.409 <02 MOD CP?I FB R30 ~ AFcA 29-~'i'TA!t~?a!{IS{RA?vGE Sr~aAIaara.~1{9{ ~~~
!.30316M 1.303!6~03 HALt! R/HR HAU? R/HR 24 R!5 MZBi:-"=-". AIR E:EC;cR ErHNJST 5.54306+02 Gm CP?{
RIM 7.5OOO&+7 Gm Kl/CC 7.00XOHS HP{?t ?8/t8 27 R12A7 CV ivctvi CHAlt 7 viD F~~ SS 9.99984~6 6009 KI/CC
.8 RI289 9.99=,S7-04 Gxm Kl/CC 2? '!4>>5 PL",'I .~ti rl{A?v S-=i..t PA'i".". Q i.5NII <<07 6009 Kl/CC 30 RW7 c.99984M Fu09 KI/CC 31 R!4A9 3.99971-03 C~ KI/CC 32 RIM AIR =.= TOR CHAI 5~ '<< f i ~ I ~ RAMgc C45 7. 79983M 6009 KI/CC 33 R1547 h C>> I IM cv{v<<>> 9.99964-06 ROD KI/K 34 R15A9 AIR =" cCTC4? C?4"t 9~1 rA6GE GAS 9.99987M Gm KI/CC 35 V341!C 'sicko 5 "'"~ r'RV A !{OT CLOSED 6009 3& Vt&7ifA ??LWER OF S/6 A KSV CfBi O. 6009 4 5%H 37 R31 AREr* 31 SicA?t lit~ A iSPIHG) &>>OIOO&M GMQ ?8/HR R3!PM HA t.r< 6.01006M 6009 t8/l8 42 559::>>SLE rAS RcMcASE FATE? !MA :...07a-02 Ixm 'IISEC
'43 'vH v',-.<.ii~i{ F~..B{irAT!Olt .0 ROD X TCVO3 I c'cECiT L=v=ri c?Si 43 83>>9 6009 K6F 45 TE?vP 47 69.8 Gmm KGF bri TE?S'8 89.8 601m KSF 47 &@9 brFT TMr i?9 .S9.8 600D DE6F 48 TrV>>O CV !SiiBIATc "" 410 89.8 600D KGF 49 TCV:7 '- "4T" - v=v"<<&Fi Tii <<17 95.7 Gmm K6F
T Message: G IN NA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS lS 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.
8-35
Tii Message: GINNA STATION DECEMBER 6, 1996 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY Controller Notes: The "B" 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 "B" RHR pump failed seal out the plant vent.
I Actions Expected:
1. TSC and control room operators should try to locate the leak in the auxiliary building.
8-36
~ ~ =. U.
FOI
~4 cx Rc?4o c VALUE cd@ Q DUAL I 4 8 ATM 6000 2 RXT >>RIP REA)t'ER STATUS RX TRIPP% ALR)t o N31 4.!VPS401 6MD CPS 4 h32 3.7454&01 SCOD CPS LWC 1.04713-11 6000 AF 6 N3o Itfi2."ZIAT= RANGE ZTETOR N-36 I.~~-II At)F 7 fF AVE 0:- !iuQDk .I tn'oR .00 X 8 PRC= noh"." c MXWT oYS " AV PRESS 00. PS!6 -- -I -G 9 !47R ~6AVF& .0 ~
EP X 10 r&V.
' VG dB) .0 X II rod RE'"TCR cXLA' LCCP 8 AVG FLO)t .0 IM 12 RXTis RCFA:RBKER CNKE RY;RIP TRIPPED ALRti 13 RXT!7 RCFB FEAKER CAUSE RX TRIP TRIPPED AUDI '10.3 14 TSSTC
!5 LS64 STN:='t A t~ RAt<~ AVG LEVEL 3o 9 GM4 GOM 16 LSGE oB'-"'1 < t)ARROt FA)c"= AV" LZK. 31.8 X 17 PSSA STN CD A AVSGE PREESUFe 0. PS!6 ie PSGB SIll <<8 3 A'PAGE FFEESURE 0. PSIG 19 Kg(R! ~ec T"8 Ot LItZH =~ER!61372 TRIFFED 20 SE.'IEXI?." RF"I' ilt Llt EREA& 9X!372 TRIPPED 21 H~" >>f+P Q R<N"=" TRIPPED BUS::.3 ::4 =~V 9 o EAX TRIF FED 23 PK: ~ + :--.",!'4TED 04 >PCS )7/19IFI) NOT TRIP 24 BUS:2o8
~ 6 -==.:,;NAr> Pt FF".3 (7/!9f91) NOT TRIP ~ ~ 0 II 25 81 IA .Ln . ~
IJ~ NOT TRIP l ~ EF NOT TRIP ALRt A7 FCV tt "..vENT A'>>ERASE ."~~"-iAE -I o 22 6000 PSIG 28 P\ :2e -'I'."ZiT SIX> A AVEM 3!.2 HENS F& 29 L094"E :8F 3 .voL 8 I4'~"=3 TFAI)t A) HIER it)HE 30 L09446 LEEi=: 8:NME TF-'Itt E) HIER ! )6?3 31 7" ."f~:-3 tT"A'tt ') H!GHER INHB 32 ~ j'9 ~
>> 73 a'ii.=: 'AIN 8) HIGHEF 1%3 33 E <: RAIN A) HIGHER ALR)t 34 LCO4'0>>4~>>" .':3:;~n==:!TRAIN 8) HM ALRII 35 L09428 !M ! th)=; (TFAIN A) LO)IB 600D 36 Lno4>> !80 if~3!PAIN 8) L04ER 600D 37 L094LA ".-'l>>.';"-3? TFn.A IN A) LO)63? 6000 38 L094: "!4:NC)==!TRAIN 8) LONER 600D 39 T04)>>4 Mnl'EFA ~ 'CE !30e2 GOOD 40 I63.2 Gm 41 <04'9 208.'I GOM 42 T04!DE 212.4 60M 43 TAVo II RNG) 169.5 GOOD TAISoi:: I" t)S) 187.8 GOOD 45 i .V 40.0 LALti X >>I 4o ~ \ ~ .0 GM4 DEGF 47 ~l I pg+ 0. GMD 48 ~) Ca. 0 Gott 49 RffDE: " -'- ~ --. ON GOOD 60CD c0 51 g~f C
jiEC "i '1995 R. 'E. 6! iNA. SINKATOR PAGE 2 TREND GjiQF AKIGIiILcCIT MEDIARY
. ROCEDITiE: EPIP !-5 PLANT STATUS POINT ID DESCRIPTI CW QUAL E. U. .3 FSIA SAFE.' IN.'EiTION LOOP A AVG FLOtl 50. 6009 54 F GIB SAF:( INACTION LOOP B AVG FLOM 449. 6009 55 P2150 S~aLCE MATER PNPS A h 9 fKMER 85. 6009 55 P 2151 Sr%) CE MATER PlNPS C h D HEADER K. Gm 57 BIIR041 SECVICE MATER PNIP A ON 6009 58 EIIR042 SERVICE iMATER PUP 9 ON 6009 5c EIIR043 SEr.)ICE MATER PNP C 50 %6044 S~-.~".~E MATER PIDIP 9
f' fglr> ~ cc~=."-::-=:.= !=- FLAt > STA7d3 efta ID FMRIPTI'rf vALK DUAL E. u. F0619 CO&Pe>> COOL!'lS ' TOTAL FUI 4600. 6RD 6PN B5T PEP ='.NS NATBI ST'c>~ Tae LVL 12v I LNRN X 3 >>SO33 33 F>vGT LE>vF KfhT> SfccD . 5.0 6m m 4 NM. r & I
+EL Itivll\ C 'frit 45. GOOD KS 5 HTOj3 44.5 6003 KSF 6 QP~% <) =MT mvE. c.'$ Ni -= 44.9 600D GE6F 7 NDT2 50 .3 ~ FGGT ~v. NTA'ENP ~ 4 6000 KSF 8 ROI AREA '! ~GIITRG>. sOGt> 8.7599~ 6RD I8/IS 9 RO2 AREA -ZNTAI'4& !.25!69%6 HALtl 18/fR IQ RO5 AREA ~BIT FlKL P IT !.97242M HAUI IS/IS ll RO9 AREA " a>>f Lft>E Ql!le>I 2.07730>03 HAUI t8/IS IS/f8 12 R34 AREA 34 AUX BLM CV SPRAY PftP 2vO6538tg HAUl
'13 R35 AREA 2+ASS WE P/4G. I.09648>OO 6003 t8/HR 14 R!OA CCtlfaltiWIT IMItZ ."QIITCR RIOA ".3679685 HALN CPtl
15. R'll CG>ITAIIST AIR PARTIQLAic !.45169+03 60R CPH 16 R12 GITA!!mn GAS Print.ha I.37049M HNN CPH 17 RIOB PLAh> VENT IGDINc EtIGNITOR RIOB 1.78340>OI 60R CPH 18 R13 Aur R.Ãi EXHAIST 4IR PARTIQAATE 6.83%885 HALN CPH 19 R14 Aur Bw ErHAUST 663,"/7f! GR 7.04894K% HAUI CPH 20 R18 L!0>315 NASIE DISCS'. i">vlfITM 9.4!343K@ HAUI CPtl 2.'19 SEi". cMQTGR BURR/> K4IN 4.62379t02 60M CPH R2>> AR 4 29<MAItO'BIT HIS 3~BE I.303!6W HAUI R/IS 23 R3O AREA 3 -MTAlt.&T HIBI RW&c 1.30316>03 HAUI R/HR 24 RI5 CChi tSc>I AIR cCTGR EXHAUST 5.61532rtQ 600D CPII 25 R1245 CV VBIT CHAR &KG>i >>AM>>AS 7.50006M 60R UCI/CC 26 R12Ab 2/ "BIT CP/>N>>-AFEA 3A'tIA 7.OOOOO>GO %RN t8/HR 27 R1247 CV VBIT CI>u 7+ID .c&fX SAS 9.99984M 6GM XI/CC "S R1249 C/ >,Rv CI>AN 9~168."AW rAS 9.99987M 61 KI/CC 29 RI445 PI/Vv, =>IT QQM 5~~ RA!~ 6AS 1.. 7052M fb>RN XI/CC 30 R14!7 2.2676~ fbltN XI/CC 3! RI449 2.5~47M 6000 KI/CC FL//'IR RIES "3 >I!547
- -~ QI>VI -
re.- 6AS 7.79983M SOM KI/CC 41R E.='.X >>4>/I .-",.13 R>">>6 SAS 9.99984M 60R KI/CC 34 '15A9 AIR = ='TVvt CIIAN c-"'AVcc SAS 9.99987M 6000 Kl/CC 35 V3411C STS" 't>c 4RV 4 NOT CLOSED 600D 36 WFiVA tr.e~. GF 3/6 a rS-kc~c:.. STEAI c.t>c 4 >SPINSI m O. 600D 6 OPBI 37 R31 6.0!GOD 6000 18/HR 38 R31RRG MA %Rc 6AS RELEASE RAic'! I SA 1.39583M 6000 CI/SEC 39 V341OC STEAlt: INE ARV 8 NGT CLOSED 60M 40 VISSVB NutCZ Gf S/6 3 NSSv'BI Oo 6MD 41 42 R32 HZ'3 CVH AREA SSB CV
'-32 STEAtf L!tv= 3 !SPIIISt 645 RELEA- RATE'BSA ~f.,CKN MCr'(RATION 6.OIO06M 6000 t8/HR 1.39583M 600D CI/SEC .0 6000 X TCVO3 cacEI NT:cVB. br> TED 43 84.7 60R K6F '5 TL"/O7 -.T N 47 87.7 RR DMc 4o; P"8 './:!v:=-~c>>IA>c > 'J' '.: >M 48 87.7 6000 Ifc>>r 47 TC'v09 '/:'it%)IATELVL cFT TEN 49 87.7 6GGD OE6F 48 /vO / :5 cPHEDIA>c LVL P -BV'10 87.7 Sm KSF 49 T>V17 C'/ .=:"/Tftvu LcVL 6ri ~i 417 --90.8 6RD KSF
Ti Message: GINNA STAT(ON OECEMBER 6, 1996 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Roorq Message: +++THIS IS A EXERCISE+++ The following alarms are received in the control room: J-S (Safeguard breaker trip) L-10 Indications in the control room include: Bus 16 tripped "B", D/G starts then trips FOR CONTROLLER USE ONLY Controller Notes:
1. The "B" RHR pump trips out on overcurrent due to the failed seals.

2. If the control room operators try to re-energize bus 16, it will not re-energize from the normal supply.
Actions Expected:
1. Control room operators may try to re-energize bus 16.

2. TSC should be working on the leak in the auxiliary building.

3. Efforts should be underway to track the plume, terminate the release and imp tementlcoordinate PARs.
8-37
Message: GINNA STATION DECEMBER 6, 1995 PL'UME 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:
1. The TSC should be concluding that the "B" RHR pump seal has failed.

2. The release will continue until 1245 hours.

3. The "B" D/G tripped on low lube oil pressure, lube oil sensing line leaks Actions Expected:

1. The TSC and control room should be working on isolating the "B" RHR pump to terminate the offsite release.

2. Efforts should be under way to track the plume and implement/coordinate PARs.

3. The TSC should be working on repair of the "B" D/G or bus 16 normal supply.
8-38
680{&: 5':: cRCC=Lcc'c'F '-SLAttT STA((()5
E=.RIr"T:6 zc ~~~ ~
VALUE QJAL w( E. U,
~c ATl(S kiT:CIFA(B (!AYcIct( N/O SCRAtt NO AT)S Gm RXT , REAC .= TRIP BREA)(ER STATlS RX TRIPPED ALR)(
3 N31 3.8N&0) 6009 CPS SCLc:3 cAt~~c 9:"(ECT'.R N-32 3 86367101 .M09 PS, 5 ti35 It(T"ct Dl(((c @Ic= c(Mcus H-35 1.04713-LI Gm At(P e N36 It(T=-="EDIATE RA?6c Ocic TOR N-36 I 037%-lt
~ 6009 (L{( AV.:".<<= hLCZk 19(cc .00 Gm X 8 PRCS REF . R CO(LANT SYSi& AVG PRESS 00. LE% PSIG LPER PPES"=BITER A'vs%
cVEL .0 LAUt 'X 10 FRCLA REA".TuR CQXA'(T (LOOP A AV6 LCH .0 1)4(t) X 'I FRCLB REA .uR CCRC LOOF 3 AV6 FU?tt .0 1%8 X 12 RXT16 RCPA H{EAXER CAUSE RX TRIP TRIPPED AUtt( 13 RXT17 aCeS amER WZ FX TR!P TRIPPED ~ ALRtl !4 TSUBTC It CQK ii SUKXLED ."ARSIH 210.3 6(X)~ OEGF !5 LS6A STH SEctt A NAR!t(X( RANEE AVG LE({EL 32.7 6009 X . 16 LSGB STN =(t 8 t(ARRBI RNGE AVG LEVEL 31.8 6009 X 17 PM STN GEN A AVB(AG= "PI{Etc 0. LAL)( PS 16 18 PS68 STN SBi 8 AVERAGE PREMRi 0. LAU! PS 16 !9 GB6kR! ~/Tnt CN LM ERE-'t(Bt 161372 TRIPPB) ALRN "0 rE)&(RD =='K..ATCR CN LM =RcEA)(ER 9X!37 TRIPPB) ALRN RSIIA RP "'FLY BFEAXcR TRIPPB) AU!tl BUS!IS B()S i!3 SLPPLY 'cEAXER TRIPPED AUtN 23 BUS!2A AT .MlhATED OH ?PCS (7/!9/91) NOT TRIP OEL 3(SIÃ !3'2T ~i"t!)LATB)ON PCS (7/!9/91) NOT:RIP OEL Bl!A12A SUS:14 TO 12A TIE PEA(ER NOT TRIP ALR)t 26 31!3!23 8{("- "9 Tu 129 TIE u;BilER NOT TRIP ALRN "7 PCV LS&'A COl(TAI.'V='iT AM ccrcS()FE CONT'i'4(E'Pi RtP A A({EitAcE LBiEL
-1.31 GOM PS!6 28 31.2 IKtXI FEET 29 L09428 K"f - '((P I!K 8 !TRAIN A) H!6)ER IHH9
.0 L/9{( E SU)f =. {=Vc' !HC) 5 !TRA)tt 3) H!GHER 1)6(9 t - ( PA(" A) Hla~c.. !NHB t 094cu 73 !!~:-5 (TRA(tl 8) 1(ISKR IWB
~ i '9420 SL"f (c%l :13 IhC'"ES(TRAltl A) HI6HEP ALR)(
9
'B3C "3 'llew"=c(TnAIH 8) HIS&~ AUdf 35 L0942B 9P{P 3 LEAL 160 IhC~S(TRAIN A) LOLLER 6009 w6'v~433 vc'c0",~:5(TRAI)! 8) !.O)FR 6009 37 L0942A Rtf 3 LEVEL 214 It(C):5(TRAIN A) LO()ER 6009 L0943A cL(r 3 'd. 21< It&%(TRAIN8) LOLER 6009 39 T04ÃA ((M mT M T(Pc<<LFE 138.5 600D OEGF 40 T0410A RCcB -"(T LES TEtfcMT(fc 206.3 6009 CEGF 4: T04093 R".' ."."B Z TBfE".'Z ."08.7 6009 KIF 42 T0410& t(CLc ."~ LEa TBrP{:i(T'(E 212.2 6009 !EGF 43 TALSVilD RC(J VG (TAT/TQX )(ICE R)4!) 03t6 6009 !EGF 44 TAVGBf!9 cC'= ~VG (T(3T/TCOLD HIDE M) 209.2 6QOD EEGF
<5 ccFCTOR VESScc PicAArGE LEVEL 40.0 u{UI X T~9E ."t{.ORE T" '({'E?AcEE TB(P .0 600'EGF 47 "..AUXFHA 3/6 -';OM. AJX:==M;cR red 0. 6009 EPI( s8, cW%cil c =./3 3 'OTAL AUX FEZtN(cR FL(X( 0. 61 6PN ~ ~8 ti ltuc ":-.; -'(!L:MtY==.i'AA~B M' ON 6009 c0 rt(R36 '(TR <<Xat (NY =-"+TER PLY 8 OFF ~ (/ '05 4!X ia F(X4'lcm B.'?PLY VALVE A C.KB 51 VX{)4 4JX ='. P STE.-'" BHLY W.'/6 8 CLOcc9
C" ggqe ~ ~ ~ hew ~ PAGE TRPB~ EROLP ~==ISRKhT 9J;".",AF( GROUP.'='r='GATI FRO."EDv'."~: EPIP i-5 PLANT STATUS FOIE ID NLLiE KAL Pe aeA vv . Din SAf'".: liWJ "s Ctl i 0 '." ., Ap~ p Og 60. 600 D GPN 54 F SIP SAF .,v IH'ECTION LQCP B AVG FLOW 449. GOOD 6PN 55 F2160 -"IVIES NATB FOt:S A 'r. B HEAScR S5. GOOD PSIG 56 P2161 SacV:"E %TER FiK~S
" ~ 0 HEADER 85. GOOD PSIG ~i BKR04] KR~::CF 'rtATE PUt'>>~ A GOOD 5S BKR042 ~ a vi riiiTER UPi GQQD 59 BXR043 SH'r I"E 'rtATER FLUMP 0 Ott GOOD 60 BKR044 "col:" E NA7% FPP 0 W GOOD
~ i ~ C t< ~ A4cr c
==-tr.';OCF 6=-:-:.~V =...,4;-t SRCLP: ."'='tc FRKcECL=.=; =CCP 1-5 PU4IT ":TARS PONT IC tEKRIPTiOrt VALLEY ONL E. rJ. ~CSEX F0519 Qtc EVi KG.!tS LX. TOiAL FLH 4597. 6009 6Ptl 'i Qg 12.1 Lhfttl Z 3 liSO33 5,1 8$ 9 NH 4 MDO33. 33 FOOT LETUP HftS DIPECTfOtl 45 6009 OEG, r
5 IITO33 33 i:OT VEL;EIIF =Ar~"- 44.9 6009 CEGF 5 7 HTZO HDTE 50 250 c'JT TO
'~ IZF'~
33 FOOT
~i TA TEIL 45.4 i5 GOM GRS DEGF OE6F 8 ROI AREA I ASTROL ROCH 8.96397M 60EI N/HR RO2 A%A 2-KITAtt BIT 1.31825Kb HAUI N/HI 3.672Qr04 N/IN 10 11 12 RO5 RO9, R34 AREA AREA "~rt AREA 5-SFEHT FLEL 34 -
PIT LftK ."AIHR AN ELDG C'PRAT PINP 3. 42767M 3,80188+04 HAUI HAUl N/HR HAUI N/N f3 R35 AREA Z PASS SAHPI < PAIEL I.O964eiOO 6009 N/HR 14 'R1OA CorAthfea 109thE rmTOR RIOA 2. 3274 I@5 15 Rf 1 COIIIAIIQ&TAIR PARTIIZLATE 1.4206~ 15 R12 a~At!u&T GAS ICIITCR 1.43714M 17 RIOB PLAtr;EIIT IISIIIE HOIIITOR RIOB 9. 57744406 18 Ri3 /4IZ ~ DG EfecOS AIR WmCLLATE 9.99992+06
!9 RI4 AN ~c'IS/JST GAS "DIIHR 9.78647406 20 R18 LIKID IiASTE OIFCSAL !ZIHI TOR I, O3068K)7 21 R19 STc='5 RFJQTOR R.QTQ'I DRAIN 4. 417F13t02 Aicc= ITAIh~Ul Hlrl RAhf: ~
1.3031& r03 23 R3O AFEc. ~VITAIIOchc Ht'oI RAlscc l. 303 Ibr03 24 R15 (Mc'~P AIR EIEC.P EIHAIIST 5.54306t02 Gm CPH "e R12AS C'/ vP. i QNI ~ OM P4M GAS 7.50006<7 6009 Kl/CC 25 RICA5 CV cr=hT K%I ZEA S4tfg f.99994M HAIJI N/N 27 RI2A7 CV iE:IT GRI 7-IIID R>w GAS 9.99984M 6009 KI/CC 28 R12R9 CV "='T .~'I 9+iYn =~fr= GAS 9.99987-04 SXD Kl/CC 29 RI4AS Pm'l 'iK cP "( '0>> ENSE GAS 9.98974M HAUI KI/CC 30 RI447 PLit';, .~BIT CHAM c-.".ID FA/toE GAS 3.3999OrOO HAUI KI/CC 3f RI4A9 cLitll 'c .IT QQH o,.r='". Rr'h% GAS 3.3999OrOO HHRII KI/CC 32 RIM Alr - - CR SA RAI'6K oAS 7.79983M 6009 Kl/CC RIM AIR E.=~CR SN .'?6 8~% GAS 9,99984M 6009 Kl/CC 34 R1549 AIR =rc.".TCR &74 o-Ht ci/ioE GAS 9. 99987M GOIS Kl/CC 35 V3411C STEA'.I LthE ARV A HOT CLOSED 6009 36 VILSVA IJL~~R GF S/6 A IISS'Vr CPEII O. 6009 emu 37 R31 ARE: 31 BcAII LlhE A !SPttlSI 6.OIM&02 6009 N/HR 38 R3IRRO :~H." GAS FELL% FATE:ISIRA 1444543M 6009 CIISEC 39 V34IOC HB". 'LthE r:RV 9 ' IST CLOSED GOIS VP~c 5:-.. OF S/6 8 t&V FC'I Q. Gm 4 IPEII 41 FLo AREA 4 STEAI LIIK 0 rSPIIIG) 6.0100&42 8XS N/HR 42 R32RRQ SEB trOBLE GAS FELEAcc. RATE: f'MA l. 44543M 6009 Cf/SEC ~ 43 Cv4I CV ""~AGJI RiZKiAT[cgl .0 Gm X TC/03 C/!~-:BN LPrcr br+ rrrc 43 80.7 6009 OE6F tticOt gC
<7 rVY8 7CVO9 ."KMIATE"..X C/:;PERI'EDIATE L'/L ciT .=: ~ >rP 49 84.8 84 8 84.8 68S 6009 6009 OE6F IEGF 9EGF 48 TCVIO Cd IIP."~ZIr'rTE LVL cFTi H9'10 . 84.8 61XS DEGF 49 TCV17 CV CFEPATtlf. LEVL 'FT '.K 417
Ti Message: GINNA STATION DECEMBER 6, 1S95 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: The release will continue until 1245 hours.
2. High level alarm received in the survey center waste tank (see mini-scenario) 3.. See bus 16 mini-scenarios for re-energizing bus 16. Either. repair "B" D/G or rack bus 16 normal supply breaker out then back in.
Actions Expected:
1. The TSC and control room should be working on isolating the "B" RHR pump to terminate the off-site release.

2. Efforts should be underway to track the plume and implement/coordinate PARs.

3. 'fforts should be concentrated on restoring bus 16 (see mini-scenarios)

4. The RP section should be informed of the survey center decon tank alarm. The RP section should sample the decon tank; Sample results will allow the tank to be released.
8-39
c
~ ~
cr(F.=;-.=: ==IF 1-5 FLINT STAT(JS ( 5 EM(FT(C" VALL= E. U. xz ~x ax I ANT:.::F"'D TS'O'(SI. i. N/0 ~8( ti0 A(< 6009 Rr TRIFPH) ALR( SC(c = -/.((K CE.EC:.'c' 3F 3.'70950+01 559 CPS
~ 0 3.89044<( GM CPS 5 t('5 l. 04713-11 GM At(P 6 tQb INT=="=DIAT R('(-c:.-"TUTOR N-36 '.03? -11 GM AtF 7 )P AVERA((E NUCLcCP, FSER ~ 00 600D X 8 pRrc REACT(3? CO(uNT SYSTE)( AV6 PRESS -l. PSI6 9 LPB Pf&51 IER A<(9AK LP/Q. ~ 0 LALI( X 10 FRCLA REACTOR CO(ut(T 'LOOP A AV6 FLIKI .0 MB X
!1 FRM REr(".TOR CELA% l.OCP 9 AVS FLO)t .0 18(B X 12 RKT16 RCPA BEAKER CAUSE RK TRIP TRIPPED ALR)I 13 RKT17 RCFB 5(?EAKER CNKE RK TRIP TRIPPED ALR)( 14 TQITC fhQFc TC SUKGCLGl Pr'.cGIN 208.6 600~ DEGF 15 LS/S ST(( GEti A NARRON RANK AVG LEVEL 32.7 6000 X fb LSGB STt( GE)( 9 t(ARRO(( R(V<K AVG LEVEL 31.8 600D X 17 PSGA STN 6EN A AVE((~ PccMRE 0. LAU( PSIIG 18 PSGB STt( =(( 8 AVERArcE PFE55(K?E 0. LAU(. PS16 f 9 e~c'KRI <<K.TOR ON LI(Z cRccKER (Gf 72 infPFB A(JI( 20 GE((SKI?" GE)G(ATCR ON LI)G; SPEAKER 9K1372 TRIFK) AUI 21 BUcffA EUS I IA SLP. LY 5((EAKc~ TRIPPED PLKIIB 115 5<'PPLY KEu(Ec TRIPPED 23 BUS12A NOT TERNINAicD ON PPCS (7/19/91) tiOT TRIP 24 BUS 128 NOT T((INATEO (9( PFCS l7/19/91) NO< TRIP BIIAIA EUS 1lA TO 12A TfE EREAKER )K)T TRIP c ~( Ig( c B.S IIB TO 129 TIE EREAKER NOT TRIP ALI?t( ((r(j '~"-".'Et(1 AVERAK PcSQRE -1.41 6M PS16 28 LQK'PA CONTA:4~&7 M'i9 A Ai&AKLEVEL 31.2 )EM( FEET L09425 9 (=c~ 8 l)GiS (TRAIN A) HIG)iER INHB 30 Lv943E SLW 9 'c'( 9 fhr)c:: 'TRAIN 9) Hf99 1%9 31 L094Z WW =:~,a. ?c;a = (TRAI((A) HIGt(cR 32 L0943D 50)P 5 ~c~ 78 IlK= <(RAIN 9) H16KR L0942C 588 9 LEVEL I(3 INQ c5<TPAIN A) NIGER 34 L0943C RtP 9 LEVEL 113 It(CI.H(TRAIN 8) HIG)(ER '.5 L09429 SU)P 9 L=(cL 180 flZ~S(TRAI)l A) LONER
"~435 SL~ 9 'v~c 190 Il(rHES(TP/(lh( 9) ~ I Qlc((
37 L0942A QKP 9 LE<iEL 214 It(CHES(TRAIN 4) LONER 38 L0943A SCP 9 LEVEL 214 IN>ZS<TPAIN 8) LO((KR 39 70409A RQA ((OT LE6 TE)(PERATLcE 135.8 40 T0410A R(u HOT LEG TE((FERAT(dK 162.5 41 T0409B R(u COLD LEG TPFEFAT(E 208.2 6000 42 T04108 R".LB CLu LEG TEPicEPATLRE 6M 089'12.0 43 %VGA((ID nCLA YAVG <T)K)T/?COLD 'AIDE R)KI) 172,0 6M OEGF 44 TAVE(()(fD FC((( TAVG (IHOT/TC(LD RIDE RNG) 187.2 GM DE6F 45 LRV, VE55c AVG?AC= LEVB. 40.0 LAU< X 46 ZME 5!.! !.'FZ T AVEPAK TB." .0 600( OE6F 47 A((IF% 5)6 A;sTAL AUK ..~ii'A((? ..LN 0. GM GPI( 48 FAUKFNB 5/G ." cOTAL AUK 'c- <i-'Tcw FL(K( 0. 6000 GPN 49 BKKBl NTR AUX(L(ARY ~~AT(( RK(P A ON GM 50 BKROS NTR AUKILIARYFKI4lA7H PU)(P 9 %F 51 VZ/J5 AUK .-~ P(K9 Sr~ r.Y.LY VALVE A CLM9 52 PM4 AUK r(( PPP WEAN Q;rPLY VALVE 9 Q.%ED
~
(<<OC
~ '\a ~
F
~
8
>J ry>no !-5 gee PRF.=.-"~."": EP!P PLANT "TAIUS PO!WT !D 'NLUE ONL ~ U.
F<<i'AF<<TT IWJECT:OH 'Or ~ AVG FLOW 60. aGOD GPN 54 FS!a SAr='f INJECT:ON <Zr 3. AVG r~OW 449. GMD Ptl 55 P2!e0 SERVICE WATER PU!'.<<S .-'. 'x B HEAI& 85. GOOD PSIG 56 P 161 SEfNICE WATER PUK<<S: i D OKER 85. GOOD PS!6 57 BRR04! SHPIiE NATE PVllP A GOOD
~ GOOD ~
Bhh04J SERVICE WATER PUt>P i N 60 BKR044 Si> ICE WATe m -;. ON
0
~ 'r ~ ~ I>>> sl >>a? PA>>c ~ ~
ocu??r GIN>> c 4 tV \
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c
=0619 ~VI~?1 C32.:!)S L~. TGTA' LM 4S97. GMD GPtt 2 LAST REL'F'tiG LATH STETJi. TA'4 VL 12.0 LleRN X 3 33 FGGT LE4c Nftl EFH 4.'t GGGD tfH 4 )tTO~A 33 FGGT LEVEL 'ItQ u!FEC.!Qt 45. 6009 KG.
c I~TO? 33 FOOT '4u..%HA!uF=c 4S.O,GGGD KQ: I o ltTZO 250.00T Lc~ .J4a4'?iE 45.5 6009 KGF 7 )672 XO:3 33 FOOT:=:= .:c? TA TE)IP .5 GX9 KGF 8 RO) AREA I-CQITPj7 RO~ 8.96397M GMD !8/)8 9 AREA -CQffAIt>> ?)1 1. 3%52406 Ht)UI )8/HR 10 RO5 AREA -aW Ra P! Ti 3.67282+04 HAUI t8/HR RO9 AREA ri - TOO))N Litt NNITOR 3.93549M HAUI 18/HR
!2 R34 AREA 34 AUX BLDG CV SPRAT PQP 3e42767+04 HAUI )8/)8 13 R35 AREA -.>>>>PASS St?)VLE PAtG. ).09648?IN 600D t8/HR 14 R!OA CONTAIN'BiT IGDIRE )Ct ITOR RIOA ".. 4196285 15 R!1 CONTAIN&I AIR PARTICILATE 1.42069M 16 Rl" CQPAI,">> )?T GAS "C)ITÃ 1,437)4~04 !7 R108 PLAIT '?EHT IODINE IQ)ITGR 8108 9.57744!06 18 R13 AUr:-LDG EIHAUST AIR PARTICULATE 9.99992t06 19 R14 AUr 8 x ErHAUST m . )ITGR 9.78647+06 HAUI CP)I R!8 LIO?ID 'AASTE DISPGSA'..Q)ITCR 1.04864i07 %NO CP))
R19 STEA,"I RcRATCG H.m~t ÃAltt 4.40933102 GCE Q91 AREA '9-.Q)TAI!C hT NIet RA'& ! ~ 30316@6 HALN R/)8 R30 AREA; ~QITA1.'>> D)T H!SI RA%:- 1. 30316103 HAUl R/)8 24 R15 CQ~~EttcER AIR EJECTCR E! gK 5.54306N)2 Gm CP)I 25 RIM CV 4ENT CHAN 5~ OM RANK GAS 7, SOOO6 01 Gm Kl/CC 26 R!2A6 CV 4B?T? QNI o-ATIEA GNVA 1.9999409 HAUI )8/)8 27 R!2A7 CV VEhT CHAN 7-)IID RiM GAS 9.99984M SOGD Kl/CC
."8 R1289 CV Vc?!T CHAN o+IGH AAtt- GS 9.99987-04 GXe Kl/CC 29 RI4AS PLA'."'cNI 9JM ' A "-Atc?E GAS 9.98974M HAUl KI/CC 30 R!4A1 PLf6T VE)tT DON 7%10 RANGE GAS 3.39990?1O HALN KI/CC R14A9 PLA Z% CM -a?e'? RA !6E AS 3.39990?OO H)tR)f Kl/CC R15A5 AIR E>>~CD, G!AN S~ZA R)VJG= GAS ;79983M 6009 Kl/CC 33 RISA7 AIR 6;cCTGR C)IAI) .-."I!DI Rc.')K GAS 9.PM4M GOR KI/CC 34 R1589 AIR 6:ECTGR C)IAIDO 9wI TIIt?GE G)S 9.99987M 6009 Kl/CC 35 V34!IC STEA>> NOT CLOScD 6009 36 Vt)SSVA ,')?PK< GF S/6 A NSSV rEtt O. 600D 4 OPot 37 R31 AREA 31 STEAtl LlhE A (SPING) 6.OI~ 600D )8/HR 38 R31?M?. ~A 'I:-' GAS ~c=- ATE:IBSA :..OSHQ 6OOD Cl/SEC 9 V341OC STEA)I LlhE ARV 8 t)GT CLOSED GMI WSVB NQ "ER GF S/6 8 t)SSV OPEN 0., GfmD 9 OPEN 42 43 44 RXRRO CVH TCVO3 AREA SGD CV ~ 32 STEAtl LILZ 8 tPING) hOR'= GAS RELEASE PATE:I 48A CUNKffFATIGtt CV!?AGENT)T I cVEL 6FT .TE)P 43 6.0)006M 'OOBTM 600D 6009 .0 600D 79.5 6009 t8/18 CI/SEC X
KGF 45 TCVO1 CV 'Vi'+PBIAT LVL ='FT TEt)P 41 83.4 6009 IGF 46 !C?) ?
!.i. 'r> 'E~ 4o 83.4 6009 Ke 47 TCVO9 CV !tt!="GIA!cc'A, ='.=T TBf 49 83.4 BND K6F 48 Ill 0 =;i KF 4IO 83.4 Gl)OD KGF 49 ~I!7 CV CcEAAT,:t/I LoVL '=;cd 4!7 87.3 6009 K6F
GINNA STATION DECEMBER 6, 1996 PLUME EXPOSURE EXERCISE Mini-Scenario I Activity: Survey Center, Decontamination Tank High Level Alarm Controller Notesi '. Initiate a high level alarm.
2. Provide indications that the tank level is high.
Actions Expected:
1. A sample of the tank contents should be obtained and analyzed.

2. The tank is released when sample results are obtained.
8-40
DECEMBER 6, 1996 PLUME EXPOSURE EXERCISE I Mini-Scenario Activity: "B" D/G Lube Oil Sensing Line Repair Controller Notes:
1. See attached drawing

2. "B" D/G sensing line cap blows off on tee to PS-2888. This caused all three "B" D/G pressure transmitters to sense low pressure and trip the "B" D/G.
3; Allow maintenance personnel to obtain the required piping. DO NOT actually replace piping gE allow the materials to be removed from the stockroom. DO make the stockroom personnel bring the material to the counter. Actions Expected:
1. The repair team will be dispatched an will replace the piping with a new tee connection and cap. When the tee and cap has been properly installed and all isolation valves are opened, the "B" D/G will operate

2. Estimated time to accomplish activity less than 1.hour.
Pressure switches are located on the "B" D/G gaugeboard. Repair will be considered complete when a new tee and cap is obtained and then installed QB pressure switch PS-2888 tee connection is removed and capped. 8-42
DECEMBER 6, 1996 PLUME EXPOSURE EXERClSE Nlini-Scenario Activity: Bus 16 High Side Trips Controller Notes: I 1: Bus 16 high side tripped due to a faulty red light socket which caused a short across it, I ~ which in turn, energized the trip coil. I
2. 4160 breaker is undamaged and bus 16 normal supply is undamaged.

3. The team needs to replace the socket on the main control board to repair the problem.

4. If fuses are simulated being pulled call the simulator booth (X6641)to inform the booth operator.
Actions Expected:
1. The repair team should investigate the 4160 breaker for bus 16.
'2. The team should begin trouble shooting to repair the problem. 8-43
Tii Message: GINNA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for. Control Room Message: +++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONLY ~
'ontroller Notes:
1. Provide information to the players as they repair and trouble shoot the following problems:
(use appropriate mini-scenarios)
-, Survey center decon tank high level - "B" D/G lube oil sensing line - Bus 16 high side trip - Isolation of the "8" RHR pump
2. Isolation of the "B" RHR pump can occur when bus 16 is energized.
Actions Expected:
1. The TSC should be working on the isolation of the "B" RHR pump to terminate the release.
'8-44
PcGE
~ ~ ~ ~ <a 7 a w ~ r, c l'i<I t4 ~ ~c TALK RA'. U.
Arm At(T:riPhcD TRANSIE)aT 8/0 SCRA)( HO AT)IS GOM

" RXT RE/a.;:. TRIP DRWE'TATUS RX TRIPPED A(RN 3 .')31 ~iE RA)<K miaTOR H-31 3.37678%1 60M 3.3767')1 GOM 5'35 It)T==.."~"!ATE AA)IE Tcac'OR H-35 '.04232-) I GOM 6 F6 It<I=.=~ED!ATE RANcE KKTOR tl 36 1.0379-11 t!009 At

> 'K AVG FRESS .0 LEHG LAL)( PSIG 10 RGA RE/a"..W CC<LL/<I LOOP A AV6 FLOM .0 196 11 REAC CR GKAha LOOF 8 AV6 FLOM .0 NQ 12 RXT)6 RCP BREAXER CAlKE RX TRIP TRIPPED ALRI( 13 RXT17 R(A'8 BREAXER M'SE RX TRIP TRIPP EO ALRN 14 TSr~TC it~~RE TC EUIG:CLD HrAISIN 208.6 GOOi T ST)< =% A tAMM PAt~c AVG LEVEL ~ 32.6 GCM '6 Lcc. STH "-i 8 MAR<(CM RANE AVG LEVEL 31.7 6009 7, ST)( .='a A A'KPAcE FFESSUahE 0. LAL)l PSIS )8 PS"- STN .='l 8 AVERA;- cREMRE 0. LALH PSI6 .>>a<ca(R( :pa=..F-'TDR ON L!HE BFE~XER 161372 TRIPPED ALRI( n .~acBgRc ~c Tor N a aE REah<<c+ 9X1372 TRI FRED ALFtt< BL~:1-' TRIPPED Atfd! << C<hr< ~a TRIPFED ha hh rhJ)aha< )<ST E-".".ItaATED al PrCS <7/(9/91) NOT TP,IP DEL h< ~ <Ch 'h <J<< =:-'.<It(ATED 2< PPCS <7/19/91) ~ vr hah a< '< ~ " 'O I",!c SFER t@T TR!P HOT TR!P DEL ALAN 0 '."~ !E ER=/<aB NOT TRIP ALTC< -1.46 GCOD v '<<<<<<<<<<<a.<<ahh'EL 31<2 PE)ae .TcAi'l 4) 8! c)-:"". Itb(B a~, (ti& 4 ~ '.943 a ~ N)a<< 'W "<< I <<J 34 LC943C c4EL 1<a7."cc(rPAIN 8) a H!5-e ALP<M RPJ L09428 = 'c4Ea ISa) OQacS(TFtAIN A) <<<<LA'$4 a Jc :- c4= .80:tr~a<T<IH 8) LC~U. 6009 37 L0942A vrx. ~14 It(C)acS(TRAIN A) LONER GXD M (.09438 "a4 IHCRE (TRAIN 8) LCMER Gm T0409A RCLA RT LEG TENFER "FW 133.9 MOD 40 T0410A .'OT 'G aaPERATUrE 170.0 ROD 41 T04099 FCLh CAD LEG TEa)PEiQTLPZ 208.0 GOM OE6F 42 T04108 iW:c 4OLD LEG TEI<PEPATLRE 211.7 QSD K6F 43 TAVGA'AID RRA TAVG <T)<)T/TC<LD MIK BIO) 171.0 GOOD DE6F TAVE'A'" RCL<<TAVG <T)OT/TCOLD 'AIDE RNG) 190.9 GOM OES'S LRV f(EAST'ccSEL AYGQuc LEVEL 40.0 LAU( X 46 T ~RE ':4COR aC AVEa<AcGE TE)IP .0 Gooa K6F 47 FaVJXF)h'i. S;3 - ZTA'. AUX ..MiP re 0. 60M GPH 48 FAUXF)aTa 6"..- rara. AUX FmeTER FLO)t 0. 600D 6Pt< BÃRCSI % "<<<!LIARY FEET4(ATEa( F(9 . ~A Ql5 SAP ~ v '-~tJc0. i' COc 'P, s I-'< eO. m9 eq f3 LB <<c '4 P2leO >21&1 SAF=: INJECTION L: SER'VICE NATER PLASS A 'ER"ILE NTER PlPPS '.a~ 2 AVG R.O'A x 9 HEA9ER 449. 85. 85. 6009 6009 6009 PN PSI6 PSIG 57 BNR041 S+VIOE VATER Pe~ A 6009 56 S~R042 Sz~gI.E NATER Pyy 6009 -"~~'".:E %TER PINF ON "8RN SER'v"."E NATER PUtP 9 ON ASE oO i!. i tio~ ' v> ~ ~ '/ALOE OUA'. =. >J. FOh X/f~'l>BIT ~~i>% LK TOTAL FLH 4597. 6000 6Ptl >ZQT RErU= f% <<AT&, STCPA"-" TA)IX LVL 12.0 L)IR)I. 3 )ISOZ 33 FoOT > VEL HIND SFM 4,9 6MD tRl 'AgQ 'o 'GT Live 4!>S '"ir~TIOtt . 45. 6008 OES QTO~ 33 FMT L >F .."-oMR '5.0 60M DEEF )C>' 5O ."".'I I VEL ~~:EFATUPS 45.5 6008 OEEF 'kDT 250 6 33 FOOT LE>>K OB.TA TBP .5 6006 KSF 8 RO! ARE/> I-CMRII. 600tl 8>75992~ 600D )8/HR 9 RO2 AREA 2~Alt>P 'IT 1.31825>O6 HAUI IS/% 10 RO5 AREA 5-SPBIT FUEL PIT 3,4474688 HAUI HR/HR ll RO9 AREA o~ &M LiNE HONITO)? 3,80188t04 HAUI tI?/0? R34 AREA;4 - AUX SLOE CV mT m 3.38844K@ HALil tl?/8? >?35 AREA ~ASS SAHPLE PAWL 1,09648400 60M !8/HR !4 RIOA &ISA!h'.Elf IODI)" NNITOR RIOR "..3274185 !5 Rl.'6 Ntt Alt~OP AIR FARTIQLATE 1.42069+03 Rl" m>.AI,a@IT 6AS KIIITOR 1.43714+04 17 RIOB P AIC> '/ENT IODINE tCIITQR RIOR 9.78647+06 18 R13 AUX i'>6 EXHAUSi AIR P/RTICULATE 9.99992M AUX 6'a oXHAU -, 3AS >"XNITOR 9.78647+06 HALH CP!l 20 RIS lr> 3 )>ASTE 0!'"=rCQL tCNITOR '0 068t07 HBIS 21 R19 6TE~". %NARRATOR hLIX>K)4I ORAIH 4.58405t02 600D CPH w R29 AREA SimONTAIM'Bff Hiitt RANSE :.30316+03 HAUI R/HR R3O Alttt>BIT H1% RAICeE 1.30316+03 HALH R/HR o>c K'C,o.I.=ER AIR i'".OR EXHA>/ST ~ 24 5.378CAHQ 6000 CPH ".5 RI2A5 ~/ > BP CHAN &LIT>I FAtiK 6AS 7.50006<7 60M Kl/CC 26 !?1286 l vBC>>MH EAtÃ4 I 9999486 ~ HAU! II?/% P,I AT ,'BIT CRT 7&iD P.4'K 6AS 9.99984M 6000 Kl/CC RIQ9 :/ VBC WW =.. !6H R~m 6AS 9.99967M 6000 Kl/CC R!M5 oO'C> '/oNT C)NI '< CU i4tIC= 6AS 9.96974<3 HAUI Kl/CC 30 RI4>> PLA>>T ">E>IT QQN .HID RAt)6E SAS 3.39990>OO HAU! Kl/CC !? l~ /BCi Mh o~IEH RAIP- EAS . ~ .9990tOO g!RII K /CC i AIR oCTO!? CHAtl H.~A PANSE 6AS 7.79983M SOM KI/CC 33 AIR 6:ECTCR PrQN?-.".ID RA)ICE GAS 9.<o964M 6008 KI/CC 34 R15Ao AIR i.=CTCR CHAII 9-HI PA)IC~ GAS '?. 99987M 6000 KllCC 35 V3411C STE-.". LI'NE ARV A NOT CLOSED QXS 36 MNVA '>L~=. 0 5/6 A ~SV NH O. 600D t 9%H 831 6.OIOO6<2 6m tS/HR 38 R31!>R0 SV >6L= 94 RE>SAR RATE; ISSUE 1,56242M 6008 CI/SEC 39 V34IK -'" '>IE ARV 8 NOT LOSE 6000 40 '>~& '4X=B> OF 5/6 8 loSV CFEN O. SOM I OPEN ~I R32 r/E-' STEAtl L!)IE 8 !SPIH6) t>.01006-02 6000 t8/tFI 42 RZRRO >"oLo 6AS RELEASE RATE:!5HRA 1.56242M 6XS Cl/SEC 43 C'>>H >'. ~~. &~i/TRAT:0)I .0 6000 X, TC'/03 ~/ I'o~o'>T LvB. 6Fi Td. 43 79.1 60M OESF r >>VO "=o~31ATE i.'L -'rr TEHP 47 82.6 6000 K6F 46 .V:08 >BIP 18 82.6 6000 K!F >V>'09 :.:C~rar= n. -.> TB%'9 82.6 61 OESF 8 -L/;r> :=,OPIATE iV. o=T i=>IP 410 82.6 60M OESF 49 I"V!7 .l:-:--~T!NS 'VL 6FT TBP el7 86.2 6000 DESF DECEMBER 6, 1996 PLUME EXPOSURE EXERCISE Mini-Scenario Activity: Isolation of the "B" RHR Pump Controller Notes:
1. The shaft seal has failed, on the "B" RHR p'ump 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-850B and MOV-704B as the discharge check valve 710B will hold.

Actions Expected:

1. The TSC will request the following valves be closed to isolate the "B" RHR pump:

- MOV-?04B or MOV-704A (should be open at this time) - MOV-8508 (should be open at this time)

2. If the TSC decides to close MOV-850B and MOV-704B locally, the controllers may allow the valves to be closed to isolate the leak.

I I 8-45' h Tii Message: GINNA STATION DECEMBER 6, 1996 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 C Controller Notes:

1. 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 "B" RHR pump to terminate the offsite release.

2. Efforts should be underway to track the plume and implement/coordinate PARs.

3. The plant should continue their efforts to re-energize bus 16.

8-46 ~ ~ v ~ ~ ~ Itr t<< ~ vl A I <<1 tl iA, ~ At r'rv cc 1:r '.-5 FLA)rr =fATN PO]iHT z c ~

=Pi?:;?IE.t c

V~:.c Bt)AL AAS A'(TIC:FA~r tc4hSIBiT /0 SCRAN AT)1$ 6009 RXT EAC ~:. TRI. SFfpVER ETATLS RX TRIPPED ALII 3 N31 SO(FvCE RAtiGE ZTECACR 'r 31 3.3I893k)l 6009 PS 4 S(XFCE RAtrSc ~:cCTC(? N.32 3.719MB! 6CM CPS v AQc :ttrc.;~~ IATE RAMOSE:ii -. TOR H-2 A.04H2-11 GMD - A' r? 'A36 INTc~"=OIATc ErrA4= f=ic TCR H-36 I.Ovc276-tt 8XI ANP 7 AVE<<AS:- AV<<CLEAR PCraER .00 GOM X 8 PAAS Eri,CR ~<<rt<<Ary gYHc<<AVG PRESS -1. LE)tl PSI6 9 LP?R M~c:-'<<rrIEcER Ar)ccrc .0 LALN X !0 "Me "T 4? rMWT LCCP A AVG FLII .0 I)6(B v FRCLA !I FR~~ A rfCR ~<<A)(T LCGP S AVLFLO)ILB'O .0 IQ(B r2 RXvl .%CPA BrEAKER CA()SE RX TRIP TRIPPED AII?N 13 I?Xvr17 FcAKER CA(tSE RX TR!P TRIPPED ALRN 14 'AMTC !)ZOFE r<<H)ILK&"~IH 208.6 600? 1 SCI GEN A t(ARR5( IQtiSE AVG 32.6 60M 16 L,R STN L=vt 9 NARR(at FA'rG:- AVG 1 c)EL 31.7 GOM X 17> PSGA STH GEH A AVERAGE FFEMK 0. IALN PSIG 18 PSGB STtt GcH 8 AVE)?Ar= PRES8FrE 0. LALN PS IG 19 GMKRI cE)&iTOR 9( LINE BREA<<ER t61372 TRIPPED NJN 20 GE)vKR2 :ATOR Ctt .! Iv ~EWER 9K!372 TRIFPED ALRtt 21 Bt)SI i A :6 !:> SLFFLY 2FEAKEP. TR!FPED ALRN rtr IC ~~ ~1 0 P<< 202:.'8 PIMPLY SPEAKER TRIPPED ALRtt 23 RS!2A HOT TE.)IINATED CN FFCS (7/19/91) )tOT TRIP OEL 24 RSI'?c HOT ~tt(rrTED C)t FFCS (7/t9/9!) NOT TRIP OEL 25 Brt(A)art t<<Are ~ A 'fC ~ aA <<Ag ~<<ER NO TRIP ALRN 26 B 1!S!28 2L?S !:2 TO 128 !E cEAKER NOT TRIP ALRN 27 ~AAI'c<<c??T AVc&~ ccrc -1.50 6009 PSI6 L~~A . CNTAINt EHT Std& A AVEM" ='ANAL 31.2 HENS FKf . tP = 'v~c 6 I?PZ (TFAHI A) H19& 30 L094:E BXP .= 'K 8 IANC) 6 iTRA!ti 2) HIS)rcR IQ(S I)4(2 31 L09429 ~EL 78 l)Q S (TRAltt A) HIM% IQ(2 rt'v4vir :- L=vc'S tt~~=S !TRAIN B) HIQK 1)39 LO942" .= SrcL:13 lt)C:-ES(TRAIN A) HI6&-. ALP)t 34 I 59',0 !!3 I',iC)-'cS(TPA]H B) H186 ALRt 35 LO942B 2 "~vcr 180 ! hOSSiTRAltt A) LC)E'ER 60M 36 c09438 ""~ 6 ZZ..'BO Ie:=(TFW!)t 8) LQFR 8IO L0942A 28F 8 rmQG. 214 INKS(TRAIN A) LO)IER 60M 38 LO943A 8 r ~~ "!4 INC)=-S(TRAIN B) LO)ER 6009 39 T0409A .-.a; .='T '=-=;ENFERArm 132.6 GCM OEGF 40 T04!OA M9 HOT 'cc ?KERNiRE 160.1 Gm DEGF 41 T04098 9~4 ""LD Lc6 'iiFBAAM 208.0 6009 OEEF 42 T04IOB A.CLB Z2 LES TPJ'ERiVitFr= 211.5 6009 CEGF 43 TAVGA))I 9 RCLA Tr'r'vv (TlQT/TCCLD 'AIDE RNO) 170A3 6009 DEGF TAVGS)t!9 cCw AVG (BQT/TCOLD )(ICE RHS) 185.8 6G09 K6F 45 LRV Er'r TCR VESSE'ZvGc LEVEL 40.0 LAUI 46 ?CCCRE .0 600? 47 Fr'rOXFHA <<iAL /Q:cEORATcr FL5 0. 60M OTAL AOX r~f'a'Afg rLQ( <6 3(?ROB! =?i 2 "~ """ ARY -~= c'PP < Ctl

0. 6009 6009 0 BKROe .'(TR WX trARY FEED)(ATEcR Fr<<'tK' OFF GXS 51 APTS -'UX FH F(r"tP SEAN 9.'PPLY VALVE A " CLOSED 6009

<<c V3504 WX FA PL",P STEAN SLFFLY '/ALVE B CLOSED IO 0 DEC a) !995:"::.4 R, =, 6! ttjtA SItP.)LATER PA% 2 TREttD 6Rgy ASS I6NttE!fT Hi>WRY GRC'~: EVENT! PRKEVW":: EPIP !-5 FLN1T STA7dS POINT ID DEKRIPT ION YAUX NIAL E. U. FSIA SAt.=: 8 INACTION LOCE A AVG FLOW 59. 600D 6Ptl 54 iSIS S~z) 'NJECTION LOOP B AVG FLOM 449. 600D SPY 55 ~160 SEP)ICE MATER PUttPS A 5 B HEADER 85. 6003 PSIG 56 P2151 SERVICE MATER PUtPS C )~ D HEADER 85. 600D PS 16 57'KR041 SERVICE MATER PUtP A 6XD 56 BKR042 SERV!CE MATER PUttP B 600D 59 BKR043 Si~~/ICE MATER PUt)P C 60 BKR044 SONICS MATER RNP D c I C sz s &c ~I 'cd" . I .~ >>&~ ~?chic ~ VALK QIAL czcccccc F061. ~~. Pch %,M L < TOTAL R.H 6502. 6XD 6PH 2 LR)IST REP c:I~S>>A<ca STORAGE TANK LVL 12.0 LtiHtf X 3 QS033 2 cOOT 'Z/B. 'Af)9) 9'~D 5.0 60M tfH 4 ROD 33 F.3. '%+c 'AlttD DIRECTION 45. 6XD K6. )tTO:3 45.0.6009 K6F 6 HT :6T LcVB. TK RATLGz 45,5 Gm KGF 7 HDT2 250 .0 33 FOOT Mrc'LTA TEHP .5 Gm KGF 8 ROI AREA 1~9ROL ROOtf 8.75992M 6XD %/% '? R02 AAQ;""ONTAIN,"Z4 1.26825t06 HAUI %/HR 10 11 t2 R05 R09 R34 AREA ARE< AREA 34 ~a'Btt -~ ~iFaaz'tZ - Aftr PtT rf)NITOR CV SW

3. 44746M 4.07380t04 PfffP 3,56B6WA HAUf )8/HR HAUI %/)It HAUf %/HR 13 R35 AREA ~

+ASS &A%1 P&. 1.0964880 60X tR/N 14 R10A CO)ffA!)DAVIT IODllK NNITOR R10A 2.47243405 HALll CPtf 15 RII COtiTAIMNT 41R PARTICIIATE 1.45169+03 GXD Ceff Ib RI2 KttTAll~hl'AS tSDI ITCH 1.370499M SIRN PN 17 R109 PLNT VBIT IODINE HCft ITOR R109 I.00432c07 )EHS CPtf 18 R13 Aftt are EIHAf)ST AIR PARTICILATE I.f)0867+07 %HG CPH 19 R14 Aftr >m EIHAIIST GAS rat I TOR 1.04864%7 teIG CPtl 20 Rle LIXID)IASTE DISPOM. tfDttTOR l. 03068%7 )%Ha CPtt 21 Rl'? 'r. $B~P~c ci~4gg ORAttf 4,72469t02 6009 CPH M9 9-NITAINENT HIIDI RANGE 1.3031&03 HAUI R/HR 23 R30 AREA .'~CNTA Ihfc)IT HIGH RANSc 1.3031&03 HAL)f R/HR "4 R15 G?E='6B AIR EZCTCR EIHALST 5.54306+02 6009 CPtf 25 CJ Vc.iT 06VI &LOt RA)K 6AS 7,50006<7 GXD XI/CC 6~ Rl""'6 Rl"4 CV NBA G'cJI GA'T!4 1,99994M HAUf )8/HR 27 RICA't CV VBiT CHAN 7&ID RAIIGE GAS 9.99984M Gm XI/K cS Rfi49 J 'cPiT BVhI o>>HIBf P/tl'M 6AS 9 99987M 6X9 Xl/CC 1<144 Ai i'BIT C)QN l% RANGE GAS 9.98974M HAUI XI/K 30 RI4'1 ?Va'P 'rENT CHAN ?+ID SWEE GAS 3,39990@8 HAUl Xt/CC PI<4 PLANT /Bit DA< >-N'cN RANK GAS 3.39990t00 )QRtf Xl/K ~ 'i R f CAr AIR 6:6:..R C6% 5- Pit RANGE uAS 7. 799%-06 GXD Xl /CC R1547 AIR ="~cC.X CHAtt T~i.'0 RAttSE RS 9.99984M KOD XI/K 34 Rl AIR 6:ELTCR GVW 9>>HI P4HSE GAS 9.99987M 6009 Xl/CC 35 h&f:" Si&". It% ARV A HOT CLOSED 6009 V%V -4 OF 5/6 4 r<<V OFBt 0. GOOD 4 OPBI 37 R31 AFiEA ~} STEA)f LlhE A (SPIHG) 6.01~ GOOD %/HR 38>>314ch =.:-'.2'= 64 . RB~<<ARTERY WA 1.6183(HQ GXD Ct/SE 39 "3~1'.6 :- ='" ~ttZ ARV B HOT CLOSED 6XD 40;WFo'vy 'r.:=- GF S/6 9 )ISSV %EH 0. 600D 41 ETEAtt c cthE 8 fSPING) 6.0I~ fm tet/)It ~2 R3 itPQ ~ I FELc~ 1.61KRHQ 6XD CI/SEC 43 CVH PIJ>> '"< <<N "3/'tTF'ON GAS RATE 15)IRA .0 600D 2 44 TEMP 43 79.2 6009 K6F 45 TCV07 cP TB9'7 82.7 GXD K9: >>>> vc t~ :BIP 48 82.6 Gm Kc-" 47 Tgyw cd'>>) ~

FT TBP 49 82.7 6009 DE6F 48 '~' cFT TBIP 410 82.6 6COD OEGF 49 E5'17 86.0 6009 DE6F

Tii Message: GINNA STATION DECEMBER 6, 1995 PLUIIE EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room n Message: +++TH)S 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 I Controller Notes:

1. The release above technical specifications will continue until 1245.

Actions Expected:

1. The TSC and the control room should be working on isolating the "8" RHR pump to terminate the offsite release.

2. Efforts should be underway to track the plume and implementlcoordinate PARs.

3. MOV-704A or MOV-7048 and MOV-8508 should be closed at this time.

8-47 FASE ="v -CL ~.=Y&T Q">"wi QN. =. U. o) z~ <<TLS .,=";nd~)IB <<4/0 CARPI( 40 AT% Gm RXT F&CT..-", TRIF i$ E4XEE STATUS RX TRIFFB) kN 3 f0l 3.34)95iOL K09 CPS SOME RA%"- OEI riP, +32 3.365LLKL K09 PS 5 R?L'>7!":) !<3 !HT:.;~wlAT= RAt K KKTOR H-35 L>O~i-Ll 6009 Atf 6 t<15 j'O"-) 4 kF ~A'F- '~TOR N-35 L.Ooo75-LL K09 AP . 7 HP ' AVE SE NUCLEAR ?Dec~ .OO KOO X 8 ms TÃ CHANT SY~) AVG FRESS -1. LE)4) PSIG LPIR PFE=)UR!IER AVER~ BG. .0 LAUf X IO Kn..Cv( '.OLA>IT LCO? 4 AVG FL5l .0 IQ<f) X ll FRCLS RE~ > R CCRA'<T LOOF 9 AV6 FLOH ,0 IN)<9 X 12 RXTLS Tr'n EEM QU'.E RX TRIP TRIPPEO AUIN 13 RXT17 RCPB BREAXER CAUSE RX TRIP TRIPPED 4LJJI L4 TMTC . INZFE TC SUBCCOLED t>GROIN 208 6 KO'i OESF 15 LS6A STN GB< A NARRON RAZZ AVG LEVEL 32>6 6009 X 15 STN 6BI B HANOA RAM AVG LPiEL 31.7 6009 X 17 PSGA STIL roB< 4 AVERA(rF?E))IP 0. LALN PS!6 ,18 .FS69 STN SBJ B AUERAK PF~ 0, LAUI PS 16 19 GENSXRI ~RIOR ON LINE KFA(P. 161372 TRIPPB) ALRN 20 I~62 EBEviATOR ON L!% BREAXER 9X1372 TRIPPED AU(N 21 K%)LA BUS !LA RfP Y BPEAXER TRIPPED ALRN o>lo> S(P) 'lo BRL'REPXE>> TRIPFEO ALRII "3 Bf'o!2 IOT -."J(INATED ON Fo."6 (7/19/91) HOT TRIP OEL 24 BLAIR lfOT Ti(INATEO ON PFCS (7/19/91) NOT TRIP OEL S BLLA124 Bio "'O !24 TIE ERM~" ER HOT TRIP PRN 25 BLLB)29 Bi):LB TO 129 TIE OPENER )X)T TRIP ALR!f 27 PCV COIITP INt&T 4'v~M": F~~o(Ã(E -1.50 K09 PSIG 28 LMA CWAlh~BP SU5' 4'JBAEE LEVEL 31>2 %HS FEET ~9 LO942E HfF 3 LEVEL 8 ItQKS (TR4ltt 4) HIGHER I)9<f) 30 '9436 S(9P - L=>G. 8 IhQK (TRA]H 9) HI999f IHHB 31 L99429 Ir 8 I r(H. TS IHC):6 <TRAIN 4) HIG)KR INH9 >>32 <<094 J Lt B~ 9 '=V)L 78 ltQ-= (TRAIN B) HI6P ". IN)3 ItZl.:S(TRAIN B) HIER AU(tf LO9429 )i >>) 9 '%L 180 It)C.":-S(TRAIN A) LO)ZR 6009 09436 P~>. 8 '=vEL '80 KrES(TRAIII B) LO)ZR 6009 37 LO942A SLYP 9 LEVEL 214 It<ChES(TRAIN 4) LOUR 6009 38 LN?43A 39 TCJ(994 9' LEVEL 214 I)43.:-S(TRAIN B) RCL')T f )6 EFERAT iX ~ LONER 131.9 6009 6m OE6F lO TO4LOA RCLB f<OT LEG TEIIFERATiiE 207.8 6009 OE6F ll TO409B RQA r~ LES TPiPJ'i'LS 207>8 6009 OE6F 42 >041OB XS LEG TBFEPATiJK 211.1 6009 OE(9'59>9 43 TAVGAMIO RCLA TAVG (T)Cff/TC(XD HIDE RNGI 6009 DE6F 44 TAVMIO RCLB, n'> o (T)EIT/TCKD'NIOE R%) 209>5 6009 OE6F 45 (RV REJC.CR VESSB. AVEiUioE LEVEL 40.0 LAUI I 45 >>>E E.'.I !MXFZ T" AVcRPGo TB!P .0 600>> 47 FAmrAA /6 4 TQTr" AOX r~~ "TB( FLN 0. 6009 Plf 48 F>4)XF'>)9 S/o E TO>PL AUX FKQi4TER FLD)f Or ~ 6m 6PN 4o BXRCS'. vR 'I; ~ APY FEEWcATER FOP A OH K09 I 5O BXROS. ",H AUX!>LIPRY ~(<ATm PNP 9 (FF 6009 5! V3M 'UX =9 Pv9'Tif Bf~ Y VALVE A CLFB 6m ".XO4 LUX =0 FL"P STEAN %%FLY VALVE 9 CLO EO Gm 0 ~ % l '~ nE bl )bb ~ g 2 ~ om R.:-. cIl4A BII":J.ATOR PA6E 2 TREND SROL' 466I GW'BT SL'i"'tARY "" '..-: =VBFi! PROC&.'8"=.'PIP 1-5 P~JT "-TAIlS POINT in nEECRiiTiON VALUE QNL "". U. GPSS vaH 8-.;=..'N.'ECTION LQCP A AVG FLOW 54 Fsia "=iFE ~ INACTION LOGP 8 RV6 FLOE 449. 600n c :-~v'ICE F2160 WATER PUttF~ A h 8 NEADER 85. 600n PSI6 5h P2lhl ": ~V i".:-. WATER PNPS i 5 0 HEABER 85. 600 D PSI6 ~l bNR041 5"nVICE WATER POP A : soon =r."".'"E WATER PUtP "" 58 R(RO4" 6009, 59 ii(804" =:--:;-ICE WATS Per. C 600D b~N44 ==-.'ICE WATER PNP:0 600D Pk= 0> ~ c. U. woz x o zz F051o 6502. GOOD GPtf LSST c~:-';i: RATH STCRA-6 TAN LVL 12.0 LHRII X 3 HSO33 5.0 6009 IPH 4 'A9033 33 =:;. 'V:- 4!.'ID 5!.-cCTISI 45. 600D KG. 5 >IT033 45.0 6009 Ko> 6 WT 45.5 600D OEP 7 fIDTC o'0 .= '~ cV oi TA TF'P .5 M09 KGF 8 RO> <'>r>> >>>>>> O>>>>>>r 9.22572M K09 t8/IS 9 R02 AR."='."-;ITAIMEI3> 1. 15478>06 HAUl 18/HR 10 R05 4B 5 %Pe Pl 3. 3304 1404 HAUl IS/HR 11 R09 AREA c-':->>I i.fhc KlITOR 3. 9%21+04 HAUI t8/IS 12 R34 ARg 34 - AUX E>>3 rV %LY PUP 3.67282M HAUI t8/HR 13 R35 AREA 35-ASS SAPPLc PAIEL 1.09648M 6009 18/I8 14 RIOR CCITA I!~eh% IMLZ,"QIITOR R10A 2.47243%5 HAUI CPN 15 Rl I CCIITAIM!cCT AIR PARTICILATE f.\706M3 GOM CPtt 16 R12 CC!I"".~r>I GAS "~VIITCR I 35285>04 ~ tf>SII CPtf 17 R108 PL4!lT 'JM IGOIH XtIITOR R109 1.00432M %14l CPtf 18 R13 AUX PM EINUS> AIP. P/RTICII/ITE 9.57744>06 HAUl CPII 19 R14 AUN ELDG EII>AUS GAS IQIITOR 9.74430>06 HAUI CPtl 20 R18 LIMID BASTE DISPOBIftIITOR 9.82867K@ kQLN CPtf "1 R19 STE'",:BrtATCR SL~A~&l ORAIR 4.7246942 6009 CPN 22 R29 AIIB o .CIITAItd&T HI BI RAIISE l. f72%KG HAUl R/HR R30 AREA:;-.WTAfh~'IT Hfuf PuVIGE 1. }7M>>03 HAUt R/IS '>4 >tfc GM CC'>>rs>'"4:-. AIR EI CTCR EXHAUST 5.54306~02 CPtl 5 Alive '='iT CIIAII <<LO>I eSW SAS 7.5000M7 6M XI/CC "6 RI286 ./ >mr VW 6-AREA e>>>>A 1.99994I03 HAU> t8/iS CV Vsc,'iT H"'I 7&ID RAIISE 6AS 9.99984M 6009 XI/CC Rl"'8 R1289 >> ~ \ > ru>>a>> ~i~ y>> ~> > >>>> 9.99987M 6M XI/CC 9 814(5 =L46 =h~> %: '.-A PAIR~ 6AS 9. 98974M H">L", XI/CC 30 R14A7 >W> CNI "-'tfD RAtPo GAS 3.39990>OO HAUl XI/CC 31 RI4A9 =>iT Cte >ISH PZ GAS 3.39990+00 IAAi XI/CC R15AS AIR =.4C;P M'I 5-. A RAIIGE GAS 7.79963M 60M XI/CC 33 RI547 9.99984M GCOD XI/CC 34 RISAo Al.-".:-:=;~X a'.wl =. ".'aw GAS 9.'9967M 6009 XI/CC 35 V3411C Si~" 'k~ ARV 6 r HOi CLOSED GM So N:"SVA F e/6 A ..., ..Pc>I 0. 6009 4 CPEII 37 R31 Sf STEAII Lf>Z A !SPihG) 6.01006M 60M t8/IS 38 R3lRRO 1.68OMM K00 CI/SEC 39 V341OC NT CLOSED 6009 Vttsc'4 0. 600D I IPEII 4f R32 TEAtf L'hc " ISPIHG) 6.01Xfr02 GM IS/% 42 83 PRO " 'l"~c GAS cELEA = cATE'ISISA 1.6802r02 8ID Cl/SE 43 CVH >>I.oA I>>>I .0 60M X TCV03 '-v 64:99T i% oFT TBP t3 79.3 600D DE6F 45 Tl Yv7 -n'- :;; TEIP 47 82,6 6M K6F 4a TCVOG r: TEIP 48 82.6 6009 K6F 47 TCVO. =.F."=31Ai c : ~>>II 6-> 1>P 49 82.6 GOOD K6F 48 TCVIO > >>> ='.-; TEIP 410 82.6 GM KGF 49 CV'7 1 Message: GINNA STATION DECEIIBER 6, 1996 PL'UME EXPOSURE EXERCISE MESSAGE FORM Message for: Repair team working on "B" RHR pump leak isolation Message: +++THIS IS A EXERCISE+++ The "B" RHR pump is isolated with the closing of MOV-850B and either MOV-704A or MOV-7048. This leak into the auxiliary building is isolated. FOR CONTROLLER USE ONLY Controller Notes: Actions Expected:

~~1. The TSC should inform the other emergency centers that the leak is isolated.~~

8-48 c ' RASE tt 'l ~ i ~ C ZS C t tt t t~ VRr aC Arav 3Ã)9-RX; RX TRIPPY ALRH 3 H31 3. 2734()rGI 6009 CPS N32 SC(KE O'M;sic".Tic h- v.44746K)I 6009 CPS 5 KK :. )~rw-II 6%9 Nt IhlP"."~i/t!JE tH'c= vL:~TJI H-36 1.03c76-) I 6009 HP O'Zv'sc "ttZW cC(sc .00 600D X 8 REACrCR CZLr'i% SYST=.". AV6 PRESS -l. LENS PS16 LP7R PF<<c=:'I:B AvERrrr=, '4 .0 U)LI( X 10 RERr.TCR ra~ ANT irCr 4 A46 FLEA .0 IHHE X iil K:- 8'..:? ~GAP LP>> 8 AVS rdXI ~ 0 I)IHE X 12 RXTI(r RCPA BFS((ER CAUK RX TRIP TRIPPED ALIIH 13 RXT17 RCPB SREAXER CAUSE RX TRIP. TRIPPED ALRH 14 TM)TC Iha3 TC QK00LED "MIH 208.6 600r K6F ST)l EEV A HRRIDH RAhr=- AVS LEVEL 32.5 S009 X 16 LSSB ST)) M 8 HAL!IDH RR)66 AVS LEVEL 31.7 Q)09 X., 17 PSSA STI( 6E'I A AVER/c3E FF SRIRE 0. LAL)I PS16 le em STH --4 8 AVE)(AEE FPZ~ 0. LALH PS 16 IEDSRi 6=r~~TCR (DI LlhE crEA(ER 161372 TRIPPED ALR)( "0 6c!%kc EVE'~TCR QI LItK KEAXER 911372 TRIPPED ALRH 21 BUS! IA ~'S " 'A S!~PL')BXR TRIPPED ALRH P~::9 ~ FLY FRERJ==. TRIPPED ALRH 23 EL'Sl A VDT r=.cVItNTED DH PALS (7/19/91) tiDT TRIP DEL "4 BUS'> 501 ls Hl;@TED ")I FFCS (7/19/91) N! 'RIF OEL Bii(AlCR BUS I:R T0 12A TIE ERENER HDT TRIP ALRH "E 8'IS)- EUS::8 0 128 T!" =EREAXE!( HDT TRIP ALR)( ".7 PCV CKA:'./~!r'T AVERAEE PcME -1.52 Sm PSI6 28 LS(ttA (X"rrR:VBT Prtl A r'r4M LEVEL 31/2 KHS FEET /rr) r c=LCF .= r R(K 8 I)IC)sS !TRAlrV R) H16HEF. IH)6 30 LG943E ctDF 8 LEAL 8 IHC)sS <TRAIN 8) HIM? INIE 31 'G9429 QP. 8 ~=-e ra:IC'=8 (TRAIII A) H16)P WE 32 'c439 Kit 8 L=.~ . 8 lt.:::6 (rRAlit 8) H16he.R I)4(E r 33 09420 H!QW ALRH 3< L09>30 SBS = =vsL :.'3 !)Z!. S(TRAIH 8) HIQrEF. ALR)I 35 LG9> 8 .=: EVP.:80 ! Ci ES(TRAItt A) L0) EFi 6009 LG9438 'lcL c') I)C.-ESrr'r It( 8) 'tt'9 6009 37 LGc42R cL)P '}< I)IMS(TRAIN A) L0)P Q739 38' 0943A clap 2(< IIIC."ES(THAI)J 8) LDhER 6009 39 0" cR 'r!r I 'a.err ZRTVPE 131.2 6009 DE6F 40 T04)DR r ~ c ZKXA.', 178.1 6009 K6F 41 TC4v98 ' TI/ PE,'rA i LF 207.8 Sm =K6F 04'8 43 TAVE)t'. ~ -V6 'r))C --",rc 'T)a;/ "~ X'.O'IK XITF RHS) 210.9 6009 )69.5 'm)9 K6F OE6F 44 TA4SIrt;: R)4') (94.5 6009 K6F 45 40.0 LID X 4(r TCKf= .0 600t DESF 47 Fgj)ca>> 0. 6XQ EPt( 48 rrrJX <<c 0. 600D 6?t( BLWE' 0'I 6009 50 BKR(S OFF 6m ,,C. C 51 CLOD 6009 V3~.'4 t -'. = - A i?.LY VALVE 8 CLCSED 6009 DE . 95 R. ". 6:!l4 SIMLLATGR PAGE TRBB BC

> -"EW'"E MATER PUl'J' 60 SKR044 SPLICE MATER PNP 0 C' ir ' rLiitil clHI4 FGltiT !9 g Z VALUE DUAL ~cE, U. I F0619 ~crciT KQ.Iti6 ~r TOTAL rLII 6502. 600D 6PN id' FZ- '= !NG '%TER Slag;" TAttt LVL 11.9 LNII X itSO33 33:EGT Zr< HIIID Ere 5.0 60R tfH 'AD033 45. 6009 KG.. iT033 ~c =."3i LEVY..=".:-9/TUF . '45.0 6MD K6F IIT. 0 <<0 = " ~wVB. "~cAAWi 45.5 6009 KEF o <<A =.:.3 FOOT N(K cELTA 7 8 IIDT? R01 RO? AREA: =OUTSET ~ TENP .5 6009 KGF 8.7599?M 600D t8/Ht 8.6596165 HAUl 18/I8 10 R05 AREA -MT FUEL PIT 2.06K&04 HAUI t8/i8 ll R09 AREA 9~:-TXO Litic ..~GTI8 2.45470t04 HALN 18/HR 12 R34 AREA 34 - AN ELK ~V SPRAT PITIP 3,38844+04 HALN IS/8 13 R35 AREA 3 -PASS SANPL< FAIEL I.0964880 Gm I8/I8 14 RICA COtiT~I'%hT IRIhc',",NITOR RICA 2.3274IM HALN CPN 15 Rl I CI?iTA!MBP AIR FARTICILATE 1.4516980 60R CPN le R12 0"IT)at4IEHT GAS PQIITGR 1,37049t04 $ 8N CPN 17 RID8 PLAt< VENT IRIIIE IOIITOR RIOB 9.?864?M HAUl M 18 R13 en 8'6 ErHALS ATR FARTICtuTE I ~ 00867+07 %% CPII 19 R14 AUT:.= EEW~ 3AS!QIITOR 7.265?1+06 HAUl CPtt Rla LION!? ~ASTc EDIPGN..'CIITGR 1.03068+07 %% CPN 21 R19 STE'" ZGATVt:"LKudtDRAIN 4.58405t02 6009 CPtt R29 AR"-4; MAIIPi.P. HIGH INH 8.5790?KQ HAUI R/HR R30 AREA -MCMTAII4'EIIT Htrctl RANGE 8.57902+02 HAUI R/t8 24 R15 CG'CEiiEcER AIR E:E:iF ETHAUST 5.37804+2 6009 CPN CV VE.'iiT CHAtt 5-1. R R/V cE 6AS 7. ~AA07 6009 XI/CC ce RI?A6 CV 'ZiT CViAti e~cA WwTA 1.36712403 HALN t8/t8 27 R12A? CV "BPi DRN ?<ID RAt~ GAS 9.99984M 60R Xl/CC .2T;M c~tB -A'+ GAS ."9 RICA9 R14AS R14A? CV PLui PLA'i? /E'0 uIAtl >> R/V% ': "ll CHAN I-NtD cPttGc GAS GAS 9.99987~ 9.98974M 9.99984~ GXm HALN Xr/CC Xl/CC GM9 XI/CC c RI4M9 ;. <<99? IM 6%9- XI/K Rt&5 AIR =:= TGR CViAtl -cd Rr/PjE 6AS 7. 79983M 600D UCI /CC Rl~? 9.99984M 6009 XI/X PISA9 AIR:-.ci?GR CH/'I c-IT PAtF~ 6AS 9.9996?W 6009 Xl/CC V3411C STc'-" IllE Alti A HGT CLOScD GGGD 36 ~VA ibTNzc~ DF 5/6 A IIS= / rett 0. 600D f OPEN 37 R31 PEA;: STEAN i Itc -.'SPINB) 6.0IOC~M GXHI 18/HR 38 R31iRO SGA tZBLE GAS RcMc= QTEc".QIA 1.7447~ CI/SEC 'GR 39 V3410C STEA" 'h ARV 9 NIT CLOUD Gm Vttcc>vB ttL~i=Z GF S/6 8 LK'r9 0. 6009 0 %EN R" ArKA "" "TEAtt LM c 'cPM) 6.01006M 6009 t8/HR 42 R3XRQ SSB X~ = GAS ~~" cEc RATE:1St%A 1.744?>02 6009 Cl/SEC 43 VH d "'rPGGR CCtiKITRATICtt ,0 60R Ti".V03 V/ c-9:-~ST LcVEL 6FT cNP 43 79.7 60R KGF 45 ii&7 BFT IBP 47 82.7 60R KGF 46 TCVOB 48 82.7 GRD KEF <7 7V/09 i./ ..:"%DIA>c "r1. FT ~~. 49 82.7 600D K6F 48 TCVIC ..cPSDIA?cE L'h. 6'10 82.7 GMD KGF 49 TCV17 ::. =RATIIIS HVL 6FT TiP 417 -85.7 GOOD KGF Message: GINNA STATION DECEMBER 6, 1995 PLUME 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 "B" 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 imple'ment/coordinate PARs.

8<9 rJAL V i ii A,r~. %09 RXT r2J!-,CP. TRIP bcAX"t:T>>TL6 RX TR!FPED ALR( iI, I<< i( C M~:Cc CC .J<<1 '" RAI(66 CE!:C.CR .'(- ! !V. ~ I.tic-.=-.I;TE R~;=-c -;6-.=;Ct( 2,95120(01 3.!; .2!c01 N-Z 1.03a3-11 KOD. CPS 6009 PS 6009 At(P 6 IWi-4"c 'Aic RAttcE = ="T>>R N-36 :.02801-!I KOD I NP A( A !PVCLBP r .00 6009 X 8 FRCS re"..Ã ~Q(T( STEMS BPiKSS AVa "1. LENO PSI6 o 'i t 1r .0 LANI

~~10 Fr2~ RE--.W mu ri L~~ - AV6 FrLC)t ,0 INHB X~~
~~I ."'XA. i.(i XLJ(lT R";P 8 nVaSFLC(t .0 I)4(9~~

~ h RXTLE O'A tFZAXcER ieE CX TRIP TR!PPED ALII 13 RXT!? RCFR BREAKER CAOtc RX TRIP TRIPPED ALR)( 14 It~r TC BKV~ED "~it) "06(8 600%

~~5 SiN 6='4 A t)ARRI) Rt'r=" AVS LE'FL 32.5 KOD~~

!6 ! c>>cB SF(I H8 ttAPCC)t RC/rI-r AVa SLE(ai 31.6 KOD X ~ 7 STH =rtt A AVGAS CEEESLRE 0. LAU( PS!6 18 PSSR STH =-V 8 AVEPAK ~~c3)FS 0. LAL)t PS!6 .m,tgr RK.>> " "9 ')Z CFE')!Cr 16!.72 .P !PtED Ki:XR2 ~K AT!OR Ctl L!t'E "F:"XCER 9X!372 TRlrPED A(N BLS!!A :06 :!A SLPP Y rcrEAXrt TRIPrcD ALRt( !/I/S! J=. !'!8 SLCFLY CPS:1 R TRIFPB ALR)( h3 'r '\>> 'LI>>f t(OT =<<HINATED Pl F. iS (7/19/91) NOT 'TP.IP KL HAREM 24 :>>(T ,=w'(Iii)TR vN FPCS (7/19/91) NOT TRIP KL trxiii ~ P.'6 lln TG 12A TIE cREF>>R CT TRIP ALRN Ricing! h >> ,0 129 .!6:-,".AXER NOT TRIP ALRN -1.2 KOD 31.2 )e(0 ca ~ p CL'-'.P "- 'ZiL !Ni --- (TRAIN A) HIS)=R INHB 30 TPA'lH 9) HIS'! ct. I)0(9 V~ h 1 'i i (!CD. Ci iv irr 'C9. (S IZ:-'=8 (RAItt A) ri'S~t M I = ;8 .;;9=6 (TFAItl B) ! NHR Lira "i3 DMS(TRAIIV A) FC/ttt 34 '9430 vv>>a 8 ~RiEL :!3 it)C'vtS(TRA!tt 8) ci HISC=R AU()i '!5 0>> = L~vEL :80 ItQ cS(TRAIN Al L(?.m KOD 3c r( '!iaXSR V !80 ")C:-c(TPAIN 8) 14:t~'."EE(TRAItt A) %09 L&rR 6009 38 >>0v9. r04ccg 'SA 9,".P 8 LEVEL 14 It)iccS(T(AIN B) t(ccc)TtE LSER 6I 9 vOT LE6 i 13!.5 6009 40 <<pg ~ >>r ~ i ~uT ir6 160(l 6XS 41 I 04'J! 8 .'Iva "X3 LEG ~i= CCRA'(SE 207.8 6009 K6F 42 T0410R RCLR i~ " 'G TEt!Fw~vT(F=" 210.4 6009 K6F 43 TA( iJV) ID ri r >>VO (TKIT '~DNIKE RNS) 169.6 Sm K6F T/((ac((ID 4VG (T)t3T/!~~a<<9 'Al CE Rt)S) 185.3 6009 K6F (c 'RV ttr( I>>h i CC rt&" ! 40.0 LAL)t X 46 ~ I Ckc T" A'(EVE ~(. CC..." .0 6COe DEGF 4<< 0. ~ ivvA. ((V J',- KOD 6Ptl FAJr:Z 0. KOD 6P)t $ (f =.: "-" (IL!ARY ==- "" =- (PP A 6009 c0 <RGC ~ <<91!LIARY =c=r"-;T:--. R~J 9 vier Ci Vi i OB AIJX .4" P .irAN t:..CCLY '%A(c 9 vi <<Cr'( gt ~ ~ ~~ 4~ N ~ ~ tl~ l u iKILATLe~ PAGE TRBF>>..=.G"",.-'=:-"-k~NT BVNR'!'u -~ -'-~IT ~ROSE:-'.:". =. '.P:-5 FLAttl STATUS POIttT iD VALUE GUAL E. U. DEKRIPTii:.:-.'~ ~ iv ."+inIL It)."CTI".H L;".-';;=VG;LOP 59. GOOD GPtt SAFETV IH3ECTIOH LOOP B AVG R.OW 449. 6OOD GPt2 P)130 ~~n71CE iAATP rlPPS A',, B HEADER 85. GOOD PSI6 6 ~HI S R]IC" aATER PUlP" ' HEADER 85. GOOD PSIG Si BKR04'8 SERVICE 'AATR PUtP A 600D BKR042 SERVICE WATER ."LK ~ GOOD BKn04a Scn')Ii= NTEi? rUPS' 60 BKR044 ~P" iCE 'Aha PU".. ccCC '==' '-5 c~ T cTATLiS QOil I g Al '< ~ E. U. c I lc CC.'$.'cNT CIXL?I'6 .":P TOTAL FLM 6502. GPII NitST REr=Itic MATp~ cTC~~ TANK LVL II.9 J MS033 33 FOOT LEVE. MIND EPEi 5.0 IRI MN33 33;cOT I VE'II.J 3!Pc TIOII 45. KG. c 033 33 FHT LlY ice= EnATlSE 45.0 IEGF MT~0 50 CCOT LcVc ~i- . GATURE 45,5 DEGF I MDT" 250 TO 33 FOOT w%c'ELTA TEMP .5 OEGF 8 RO! AfKA:-CO?ITS!X. RS'I 9.2Z72M NIIS 9 R02 AREA -COtnAItaiIT 5.01167405 N/HR 10 R05 AREA -PENT FIEL Pl: 9.49511+03 HALI! !S/N II R09 AREA 9-':"TEOO LiNE ."itlTOR l. 28085i04 kgUI NIIS 12 R34 AREA 34 - AUX 8IJG O'I SPRAY P% 3.42767404 HAUI N/IS IJ R35 AREA 35-PASS SAtfI=" c/'8. lo09648+?N GOOD !S/HR !4 RIOA COIITAMRR IODINE I'QIITOR RIOA 2.3679685 .'5 Rl 1 CO!I"19'&7 AIR PcRTICJ ATE 1.47061M 16 R12 CCITA In&IT GAS ~v.vll iCR !.35285404 'v ~ ~ I BIOS cL~ a+6 ~ 109186 Kt!IF& n108 9.91393K% i8 R13 hUX ILvG EXHAUST AIR PII?TIMJiTE c,57744m \ 19 R!4 AUX:-> iJSEXHALiST Nc ."ZtIITR 3.4722K@ HAUI CPH 20 R!8 LIGJ'9 MASTE DICPO AL ~CNITOR '!.82867+06 HAJI CPtl R19 SK~ ~C~KRAT n B.O"'re& D?AIN 4. 62379+02 6009 CPH w"=-c-CBITAINHctifNISI RAt!GE 5.28976+02 HAUl '/HR n sJ R30 $ AFg 30 CtITAII 6 Hlel RAIIJc 5.387690 HALII RIHR C!"K'ccR AIR EJEC 28 EXHAIIST 5.6IM402 GOOD CPH Rl>'1296 I "E?IT ~r'O'I ~ CM cPfw GAS 7,50006<7 600D Kl/CC CIA 0& 6.9J;!240'.99984M HALII IS/HR, RIBT 7? cNT 9W 7 IID Fg~m 64S 6009 Kl/K \~ A 9.99937% 6009 KI/CC WI4h FL~'T .E!IT'CHAtt 5=(M FP>iZ GAS 9.98974M HALII UCI/K R!449 PLCti '/Elff CH4N 9 C/N aAa 9,0998406 600D K 1/CC R14.'c .i~f 'c.i~i OWI c~l":il P/JIGE ~M .9c97HQ cOR Kl/K I'IF R;M E.CCTCR CHA'I 5-LCM RANGE CQS 7.79983M 6009 Kl/CC 33 Rlg I Aifi cici.-ifi Ch/ht i-"'3 I?A'IC~ GA~ 9 99984-06 6009 Kl/K 4'i5 RISA9 AIF. = c"TCR W4 9~: %AGE SS 9.99987M 6009 Kl/CC cc 034.:: i ihV !IOT i'SED 6009 36 ~VA azo " vent 0. Gm 8 OPIII I fi3; lt=; ia ING! b. 010%r02 Gm N/HR R3!hhil I.BI!48M 6009 Cl/SEC 39 V3410C itJE NV 8 NOT CLOSED 6009 40 c Cc S/6 ~ 'FEtt 0. 6009 8 CPEN 41 R32 :<: <SPING) 6.01006M N/N ~ P 8> cPO = 3AS cc'=':6 cATE:IS%A I 81148~ ~ Cl/SEC 4 :I'. ~ 0 X CV03 80.2 EEGF c ii, ~ ' ~ 4 I 83.1 Vh ~ ~ 43i2 47 .C'IOc . 83.1 46 BP 410 83,2 86.2 Message: GINNA STATION DECEMBER 6, 1995 PLUME'EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room Message: +++THIS IS A EXERCISE+++ FOR CONTROLLER USE ONI Y 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 8-50 r ~ ~ ~ rr ~ Xirr ~ rgI f ~ ) C ZZ CC CC C~ C C Res~ ir Rs~ c ;ra AIP--:c>TED TP/itLc!="4 -'/C KPNI ')9 Ar Gm 'X )T TRiFFED r'LRII N31 3.06549K)) 6009 CPS . )r.'5 3.v~M>01 KOD CPS IN..~."EDIATE RiV'E:6;- TOR N=~c l.v3276-11 GOOD NP !.ZSDI-II 6009 NP .00 6OOD X 8 PRCS REA .i". CXLNT SYS~ic,. 4VG FRESS -I LENS PSIG 9 FP:-=L?12ER A)PX= 'W .0 ~ LAU( X 13 0 t RCLA R(7!7 RBVTOR ROTOR ~ QZLNT LOOF RCF; ?FENCER CAD.E ""X TR!P RCPB 34EAXER CALcE RX TRIP LOOF A AVG FLON AVG FLON 7R!F FED TR! PPED .0 .0 INHB INHB ALII ALRII X X TSOBTC It/ c TC SUKXL~D l'M~IN 206 8 6004 EEGF 15 .LS64 STI( "=II A t(ARcC(t R+: AV6 IZrK 32.4 6009 X STt) c='I 8 IIARRCN m nVG LBEL 31.6 6009 X STi"i -4 A 0. LALI( PS!6 CCQ S(i( =-":.( 3 A'FA- ccEEMZ 0. LAUI PSIG Cw P

c:-eF'SF2 I ~ TRIFFED AUI HFF-7CR ON LINE BFE~,~ 9(!372 TR!F;:.D ALR)l 2! BLSI!A C ..':< SL=FLY TRiFFED

'()SIIB chal 'O~ ~MOB NOT =CV PPFA L0942r. W-Cl(r 31.2 54 6009 IIIB PSIG ',0c429 ~ 3 r 09426 S(P.r :-: B L !80 ;"c433 i'Lr LEG TBfcEEA:-E >3 TAISANID C' ~ RE+.79? VEScEL AVCRA ~li <<r 0 'I gQQc 4>>r ~ ~ ~ SAr=: Y IN:ECTION I ~ ~ >>)>>+4 ~ S&J:""E WATER FUtP > a e>> M. i ~ e ~ zs 'a<< ) ",+ST '3 '>>CJJ 'em 6OOD K6F G I,ll 'e 33 FIX). w"= >>a Pi'Al'LK>T ~ ? gp4 ~ a 'e ::3 9FFLY a&'-"R . TRIFMc " hA cD QI PFCS (7/(9/cl) AT TRIP T==l!I!@TED nCN .FFCE 0/19/91) h~j TRIP 31!A ISA BK::A TO 12A 716 EnMER NOT Tr.IP 31!8123 9!-"::3 TO 128 TIE EFcrWER NO; TRIP ALRI! '7 W rP~i'~E47 AVERA'=c .-FESSURE << '- 0< L:K I=VEL 8 I)PFEE -'TFA!N A) HIE'r: -I ~ = im"13) INHB = '(EL 8 Iii "cc (TRAIN A) W3 909439 3 ~0P 78 c.'~-= (TRAHI 8) HIE~- !h)9 : LrQEL I:3 itJCI=S(TRAIN A) HIE~-"8 ALRN L0'?43C WF 3 LJP 11 INC'rcS(TFAIN 8) Hler=". ftKf-:38(TRAIN A) LOhEtt C4ID !80 It)C:"EE(TFA!tt 3) inm Ci',v4 ." cE'K "14 ITS(TRAIN A) L9cR L0943A :- '=VB. 214 IthcES(TRAIN 8) L~c., 131.0 40 T04!CA RQ- CT I "6 ~i. ERATvK "03.7 4: T04"93 R~~ D LEG ~i "P/M~ ~ 0 T04108 RCLc C~B LEG TEFFFAQH 2i0.2 "'<'6 (7)67/'~'~ NIX W>> 169i4 44 TAVSBNID Rc~ 4VG (7)E)T/TW" )IICE RtG) ".06.9 4C frV I ~/EL 40.0 LAL)I X rw Cg ~ 0 %01 OEGF r"p'J~p~ 0. GOOD PP 0. Gm 6P)l ".r, - '(tLinRY r~~TH P'4P A 6009 5c B(R0M ~iiR r'L<ILIARYrcET/AA(ER FOP 3 SFC AOX F~ PI))5'TEAII SLFF' VALVE A CLr~c2 V3504 AUX cN RN'TEA)t K%PLY '/4."E 8 CLncED rte ~ '"'I>> r IKDTle ~ PAEE 2 TREND c~u"r>>"-"-'.Etc~&A'JNARY SROU>NT.'K"=".=='"='~ '--5 LA!iT . TA7JS POINT ID DESCR IP;!CN VA'E QtAL E. U. LOOP A AV6 FLOW 59. 600D PN "SiB INJECTIQt LOOP B AVG PLOW 449. 600D 6Ptt Ct SEn!LE WATER FUtd'S A 4 B HEiK6 85. 600 D PSI6 SER'v I""- AATER FUttPS 0 ' HEADER S5. 6m PSI6 BKRO4"'AF=> .'tt C ON . 6XD CB Sm,i:."E WATER PUtp B CN 600D 59 BttRD43 "-Wr'iL= Nor. PPf' GOOD R(%44 S=-.V! "6 WATER PL%~ ON 600D 'as4~ ~ ) ~ sa<< 'ax ~sx<<44 cgzcc4 Ice cjRQ44)a Ca)9 C~r 'Be. M.it)5;.=. TOTAL FLO 925 6PN 11.9 LMRN 7. :.J .<<.OT KF'II,'TD SPEHI 5.0 GOOD IPH :" <<.CT:~VEL III)D DIBE".I!OM 45" GOM K6, 5 Wi033 - =."".T KVB. TEPJ EGAD)PE ' 45.0 GOM KGF -.4T )w~(c 45.5 ~ ~~ TA ')iP .5 GOM OEBF l')C i 8.75992M BOM t8/HR 1.94984M HALN t8/HR IC RC Af EA -KIT F) P'T ',.18168102 HAUt t8/HR 11 RC9 AREA 4-LETDNIV LltK "uITOR 6 130~4'0 I 6000 !8/I8 Ng 34 - AID! BLN ~( SPRA7 PYIP 3. 3304 M4 HAUl 18/I8 13 R35 ASS BALE PAIEL 1.09648M Gm I8/I8 14 R1CA COte e:It 8)T IODINE t4aMITOR RlCA 2.47243tCS HALN CPN Rl 1 COte AIWBIT AIR aAR 'Ctu)TE 1.451 69t03 61 CPN lc n.' gytlr'!.'~))g GAS rCIITOR 1,37049+04 MLS CPN ra=" )EMT IODINE NCI!IT)R RlCB I.00432?07 IBIS CPN 13 AOT BL"6 EIH').'ST AIR PARTI CILATE I.0086707 IEMG CPN 19 R14 ADI Ba 36 EIHAIBT GAB ."~%"!TOR 1.92475tCS HALN CPN 20 R18 Llr".: HASTE DISIC<<a. IctriOR :.C3068%7 IBIS 414 5)E'-" "."<<~A)).R BLOI)KAI XAIÃ 4. 7246n02 EOD CPN K9 e- 9-mAI.~r ~re RAI,~ 2. 02!?7+02 HALN IL)u4 23 R30 ARE?'tHXHTAltZEIIT t)IBH RAIZE 2. 031 48)02 HAUl R/I8 24 R15 ~~.; )I<<ER AIR E.c TB EXHAUST 5,54306+02 6000 CPN A&5 CV idT) ONI ~rl RA.'eK 6AS 7.5C00&D7 6MD Xl/CC na Q)a >>) a "V iPi) 9/Vt re'I h~ ?)I9)4 7-'.IID R/?)JE 6AS 4~ IXQHII 9.99984M IDIRII t8/HR 6m Xl/CC 4 ~ pa i '.V '=e'i Cb<<V) -"'!P PAI4:- SAS 9.999BTM 6000 KI/CC 61485 4,58974M HAUl Xl/CC

I T,W" OCtt 't+:0 RAIIGE $6 "-. 44984M 60M XI/CC 31 R14'4 '~IT OQM -MIEN RIVlF4 r<<AS 3.9.97I-C3 .OOD XI/CC "1 45 ;=CTCR R"I -A RAH)<<4 SAS 7.79983-GS GOOD K /~

4e pip -",!0 R/JW JJ Alr", =. CTOR OQM GAS 9.99984M 6000 KI/CC 3> RIÃ4 A!IF ii=STGR CHAM 9>l RAIISE GAS 9.99987M KM XI/CC '/3411C Sic~ 'ME ARV A MOT CLOSED 600D J4 +e>> '>~=. P'/G A NS=)'".FEH 0. Gm 4 OPEN 831 ee ' STEAtl LI!'4 A '.SPIMGI 6.CICCAM GOOD !8/I8 ~ ~ >rr ?ATE'9%A :.BS.CW 6000 CI/SEC 5;='- at)i )Lr)V B MOT Cl.OSEO 6000 40 VaaB IC - - ~ l 5/6 '4 ""-FV) W C. Gm I (PEN R32 ARB 32 "=TEAN LI!)E B SPIIGI 6.0!0).N)-a2 r: XHI I8/I8 <2 R33%0 SSB,'PM GAS RELEAS4 RATE) ISISA 1.88! &02 600D C:!SrC O'H )".a'.GOGEM KttCEIITR?Ta)OII .0 6000 4> TCVC3 CV H==SP) LiVP Br'BP 43 80.6 600D DE6F ~ C >>j ").~IA(g )e? 6F)T 83.4 GXE OE6F .e, ~,. 83.4 GCm KGF I ./C9 v ." <<+EDIAT4 L)/L FT TEMP 49 83.4 6008 DE6F e 'e 83,4 4OM K6F 49 .<<.<<ATII)6 hVL =r ~ . ~ ~!7 86.2 60M KGF ~ i ~ ~ ~ 'e~ ~ vaaVLttaLN 16)~ =:~0 Y POIHT '9 MIF~ ~t VALL OIL ~XCM~MSCCECRR CZECH~ ZLZZ~ iCSX CZSSCSCJCS At'I:.:=>=.9 TR~(Sic'/0 VA V~ iw AT@a 6009 'iA Oh Rr TRIPPED iut( 2.80K~I GOM CPS 3.013()(it0! (w69 PS 1.03278-11 KG3 At(P HSE IHTE-:."='TATE RIFE I~~(QR t(.3& 1.028()I-II 6009 AtP 7 4K=ASS tlLVW fCi5 .00 60(m 8 PRCS REic. vR CXUt(i-"AVG PRESS -! ~ LEh6 PSIG IJ}gh .0 IAUt 2 eg PEA .:; C(XLAWt ',~ 4 ti'c9 FLOW .0 IN X .=R~U ",. Zui.At(T 'OOP 8 AVG iLOH ~ 0 IM(8 AY ACPA BaaKB CA Rr TRIP TRiPPED ALR)( RXT!7 RcFi vzQER cA(!EE pr !Rip TRIPPED ALR)( )4 TQSTC !tP RE TC S(KGK ii."~It( 206.8 600'2.4 15 LSGA Sii", ". H A HA)5> RAti-" AVG ~%EL 6009 lb LSB ST)( '~t 8 )4)RRGW RN~ AVG LEiiEL 3!.6 KiS 2 17 PSGA Sii. 3='( A AVEi?4' RESENE 0, (AU( PSIG )8 MS AVER> .".czaifc 0. LAU( PSI6 ~MIJN 'Ri i;: LlH'. Km~'3j (61372 TRIPP% AUI jV wh 4. cu L!t~:-FE r)3( 9r!372 TRIFPED ALR)( Ml)4 TR !Fry) ALR)( BUS!!B &F 1!3 SLFPLY 8)~TER TR!FPED ALRH 23 BOS)24 i,.3T .-~1ltlATEDCq PPCS (7/) 9/91) NT TRIP DEL 24 H828 WOT, =.')lIMTED,OH ~S (7/19/91) HOT TRIP DE'~T 5 31)412A :-'.=. '!!> TO 124 I!E BREAi(ER TRIP AUI 3!)8128 taT Tl? IP AU(H +I I -1.54 6009 PSI6 ~aaPA ."~.".~ST <<9(> - <'r>7e M. 31.2 %% FcCT "0942E 'i. Iii.;.8 (TRAIt( 4) HIS& IN 30 t.0943E, '.:: LE'R 8 !)'0=": !TRAIH 8) HIER IN

~~- '%1 TS '.:.:-':-:- (TRAiH 4) ".I<) IN 32 .<~9439 8 'i;i. = I!..rEE (TRAltt 8) HI~~ IM(B~~

~~'9420 ." LEVEL !13 i'9-'S(TRAI)t 4) ALR)(~~

LPP !13 It(C'-EEl.nnIH 8) HIGHET: ALRH i )bf 4+1 : L'B~::( !lQES(TRAIN 4) LPi ER 6009 0"438 8 fZvL !80:7'==S(TRAIH 8) LO) ER 6009

~ +424 8 LLK. 2!4 !)Q="S(TPAIH 4) l.NB 6009 38 '9434 8 ~% .'-'t~.ES(TRAlt( 8) LOWER 6009 39 T04094 43T LEG TiiPE.-'/iTL".E 130o2 6009 40 Tv4104 207e8 6009 !Fe. 41 T04098 C(.- M LEG TKERATÃE 207.8 6009 DEGF 42 43 704108 CR.D L% TE)i. sTNT TrCLD WIDE EAAT$ i 210.2 6009 EGF TAVSAWI9 VG RHG) 169.0 600D OEGF -;4 TAPX -:= TAVG (MT/TW 'AITE RHG) 209.0 GOS KGF 45 LRV 40.0 (AU( 46 TCCORE !'(COP I A)~t. TBP ~ 0 600'. 47 FAQ(F)t'8 =/6 4 TOTAL AQr FR~TER FL(T4 GGR FAUYFWB :-/6 8 TOTAL AQr imz>TER FL(r( 0. 600D 9'RDSI ". i ~(ILIARY =="AB PD 4 6009 50 'BKR062 ~ V V%04 f lg ",TR 4's -'OIILIARY FEEDWA =i( PQP 8 491 =i) .='PE =w SicAf.'wFLY '/ALVE A J.MD F(riP STEAtt Rf&Y VALVE 8 OFF CUKED (I 6009 6009 L'Cl PNw CDT 5 P~T TATJS Shiit ~ 0+!\ I ll VALVE MAL FSIA ~ ~~."- 'tLKCT!"'l'""~ 0 AVS FLG~ 59. 600D Ptl 54 FSIB SAF" ii INECTION LGGP 3 AV6 FLG'A 449. 600D 6PH 55 P"I60 SP')ICE WATER P~~".~S ~;g 3 HBZER 85. 600D P I6 RAT 0 HiAExa 85. 600D PSI6 ~~i B(bi41 tv'R%ICE MATER PtNP A 'GN 600D 58 SKR042 SiMnLCE NATER PGtP E GN 6009 59 SNR045 SE V:CE era PUts C ON 60 BLR044 SBPICE WTR PiNP D Gtt pp o il I tv ih Z ~' Z Z SZZ ZSZZ ZS ZZ wooer.r ZZ S ~ZZ . U. v ~ p ~ vt ~ s ~ &502. Iz'N . w /tro zo"-t =AT=" C=-=-- 4(4 LVL 'l. 9 GOOD LNRN X 3 l4v33 cs FDQT LEVL s!!0 ZZEEO 5.1 600D 194! kX 45. 6008 K6 5 'ATO33 45.0 6008 DEGF & MTZO PXT LEVE. =z zoATORE 45.5 IX3F I NDrh - " '0 37 OOT r.=r:ELTA .5 OE6F 8 801 M,". TP.'~:~iR~ P.Obir7M IS/}8 9 RO I z"e'ti I.348?6W %/HR " *h c-PFNT '10 c 1. 21618402 IR/HR RO'O9 ~ ~ i STD( II(c vhr(ITOF 6.13056%1 IR/HR R34 /rFS'Fcri 4 - A!IX = ~o .'RAY POP 3.40799M N/HR 13 o,c BRASS ..k~sLE o-".KL 1.09648cOO NR/HR 14 oft t C"t 6 w,S'iT ICOflE,". l(ITOR RIOR .. 47243>05 HALN 15 R'I zr74!!48IT AfR RAFT!M.AT I ~ 47061+03 600D i& ht h rt"4'i~c'iT 6 S I .IirrR I.%3&04 168N t7 SZVT IC t. "Ol! OR RIOB 3.62034<1 600D 18 Rt. o.57744+06 HALN lp w..- C3 6/nA 6:-4$ ..SITCFl ! . 46007M CPN Rfo @ATE 3! a 6:t'h..'C(!TOP o. 82867>06 cfc ; =-'" IP(=ZATC=..: Ch.iih MAIN ~ 2469+fL CFI! Z Fh? :.42vO&9+02 R/HR h3> --o=.;;~O:rA:;."-..-. -::e WV(- :.42786+02 R/HR 24 Pic !.54ZG&t02 CPN RI.F5 .'CGO&v07 Kl/K i.v '. !GOO!HO! 'l7 RID .'ll QW "AS vtv

o. Z9984M IS/HR Kl/K 6 I"" o.oo?67M 6000 KI/CC 29 RlAAS (Jli QiQ( z .tt'QPx AS S.OOOC4v07 600D Kl/CC h tt .E//I CH"t .-"..'. N"vi SAS ?.o?984M 600D KI/CC 31 R14'? Wl" 'r'IT CHQ ", '!.:. FJNc=- ".'S :.99?71-03 Gm Kl/Ci R fc&' -IR 6:ECTCR CHW Em- 4 RANGE stS 79983M Kl/K i

~ C ~ v ~ ~ v v httv rt\t I' r ~ @le o,o 964~ K'./K pic o '-. TCA o. o??87M Kf/Ci NDT CLISED I 7t 36 EN 0. ~ OFBI 37 87'3: .'- ..:tc-'< M A !SPIH6) 6.01006M NR/HR 38 : .'. 8953(HQ Cf/SEC 30 V -'IO: HOT CLIKEO 40 0. 4I Ah RB ~c ~, ~ -'v 4 '>it ) o. G !GO&A GOOD NR/% ~ : c95;&02 GOOD CI/SEC ~ 43 .0 6000 X 44 t 80.6 600D OESF r! c 't zj 83.3 4& t J Zo ow.3 47 v ~ ~o~ .ZNF 49 83.3 48 ~ t ~ t t cfr 4IO 83.3 I ~ 86.1 ~ sy h >> ~ >>~ ~ .~ I ~ ~ c'w c ~ t ~ ~ ~ >> ~ >>>>S '(Si='0 K&( 4~j A9$ KM 2 FX, 8(, r.IFFED 4( r4( 3 2.98)94<) GMD CFS 3.07606+0! 6009 CFS 5 W~ It>>l << .~"14TE tu<<SM ';c iuR tl 35 :.03276-)I GCOB 6 lQS ~ 'N -- " AT- ~"4- ="i'-36 '.<<:SGI-II 6009 .CQ 6009 9 FR{:- ThEA" 5 Age>> 'c) cc" AVG PRESS -1. LENS PSIG .0 LAL)t X 10 KA F!Ji.T<<R CRT ".- A AV6 FLON >>0 INHB X II FRY .""~c" '.R CKNi L~~ 9 AV6 FLO'l .0 I%9 12 RXT 6 RO'4:SEA){ER DVXE 84 TPIF. TRIFPH) ALRll >>'3 RKT17 RCF BREAKER CCK"- RX TRIP TRIPPED ALR)( 14 T=uBTC IMK TC BJK-"""L~~ v4KIN 206,S 600c OEGF 15 LSG'6 ST.".:EN A NARRPP .<<PE~ A>>/6 ~cVEL 32.4 GOM X LSGB ST)t M9 t(ARROtt 44M AVG LRiEL 31.6 X 17 PSSA ~ ST)( hcC( A AV6%3E i Q. PSIG 18 P%9 ST)t R8 AVERAcr . FESSuP 0. PSI6 19 GENS){RI GEKF/TOR ON LINE B~~ 161372 :RIFPED GE)S(R2 EBE'.4TOR ON LINE EFEA)(ER 911372 TRIPPED 21 9(tS I)A 9'JS:IA S'JFFt Y cR"=AX F, TRIFFS BUS( IB BL'9>>!8 SLPr"LY HEcA"kEc TRIPPED BLSIXA iaT Rtt)RATED u.{ FFCS (7/19/911 l{OT TRIP 24 M29 NOT T.W)t@TED CH PPCS (7/19/911 ltOT TRIP 25 91)A 12A EOS '11A TO'I"4 iE %GOER ~ NOT TRIP 26 9119129 906c:!9 TO 129 <<' Pr.c/A'P. t4)T TRIP ALR)( 27 PCV KiÃiAI>>CBiT 4'JBuF- FRE (F-" -1.54 PS16 Z8 PA 31.2 FEET 9 / Gc4>> PgF 9 LED. 9 ltC)r.- (T)tA(lt 4) HIS) c IN(9 30 '0943E 9:t>>u)FS {>Nlk 9) HIGHER 1%9 '0 = '=.>>=i = i'Q=S (TRAItl A) HIG). 8 iNHB )9430 -'%- -: '=(cc Tc it.Cr:-E (TFAIN B) HIGuR It{HB L0942C =:".=' '/E'::3 Rig= (TRAIN A) HI~ ALA)t 09430 .2>>r . '<<" i ."!3 .(~.==S'.>>>>)41tt 91 HIQ:.c 'lc L{P4'<<C ". '~i ." 'P '>>t<<FES(TEA N R) LO)t. R ALRt( 6( 9 '.439 9'.TF P

~~c. (EL .'SO:!'(rES(TRA'tt 9) ~Z)>>ER 37 LC942A~~

~ c(Cl Ht A) LC(ER 38 L0943A cL".P 9 LEVEL 'l4 .')PJ-:"S(TRAIN 8) L~~ T040c{( rL>> ~==>'LK 129.7 40 T0410A ~rl c HIT LEG TB"P~TM 166 5 41 T04099 207.8 42 T0410B RCLB iM LEG c~r="pi>>>>FZ 210.0 43 TAVGA)t(D R~ rAVG (THOT/TCOLD tt)DE Rt(G) )68.8 44>>A<<GMO FC' >>VG (T)OT/T ~D t(IDE St(S) 188.2 45 U8 REAC>>iR '>>ESSEL )'EFh:-c LFJK 40.0 LALN X' 46 TCCORE ~ 0 600 t DEGF r A()Xrw'4 0. SX8 GF)( 48 F~ZF){9 i 'T4L PI( <<Aicc, '>>t 0. 6Ftl 49 B{R08) 'i r ~l!LN"c-- <<'4,.n ~i' CV Dc C ~ ~){ c" pp 9,c'll. 'Fc v ./4L>>'c A KCcEcEO c'> A@74 AJI r4 F(lP STEAtt S~r~ Y VALVc E9 ~ v ~ 'yl ~lagWC.J ~ ~~ ~ ~ ~ "" =.:.:.'WA SittNATOR TRFti ~ ..=. -'." -'."-Si6%~ SL9'NeB'A6e VV PGil ID h 6RO".=': ="='lTi Lce r,t. 'UE =K.."E ".==: Sr;=-;. Itt:EC-::C j Z.=.'." WC "Pi. l-5 PLANT STATUS 59. QUAL 6009 PN PLC'i..=:i . Ate I el !tLECTICll LR~ 9 AV6 rLN 449. 6M9 6Ptt '160 )rre gAT~ ~g.vi g ez 8 HMWz 85. 6009 PSI6 cg Q 1 pi 6-":~VI.:E NATer. -.'J,"PS 0 ~ 9 HEA9P B5. 6009 PS I 6 9k'>1 E~i;EE SATB .<<L't!F 4 GN 6009 5S Sk.-'042 SER'J I ~E RATr."..e".".. OH - 6009 5r Shh043 GM eQ 3'h~O<4 Scw".' NAT2! P","~ "~ 0>>, - ~1 ~ P' I A!Fr ~' =e Lt. NP XOD Wt~) a !1.9'OVi T, ~ !) )) 4 rw) )Zc ill))) =FQ 4.9 6009 tl)H IIX.3 ~~ =.uT L~(S. )lit?) Dlii, ",:Ctl 45. 6009 K9, 5 MTO. ~ 33 ..'3T LM e 45.0 6009 OE6F 6 )4T250 50 FCOT LEVEL I))'iEnAILRF 45.5 GOOD OEP IIDTZ 250 C 33 FOO) 'rK(. M.TR TEI9) .5 6009 OE6F 8 Rol AREA I~JNRL ntL~ 9.2 72M Gm t8/HR 9 RO2 ARE> =-umaltr=-VT ~ '..OO577KH HAUL t8/HR )O AnEA =SPK FL~" Pii l. ~~K@ HAUL l8/HR WEA '" RUM LM ".OHITOR 5.72136401 6009 IS/HR I') '=-- ".4 - AJX ~ V, =;RAT PLXG 3.67m~o4 HAUL IS/HR ~~ASS SAI'/) ~ ))AtEL I, 09648M l8/HR 'EA 13 6009 14 RICA CCIITAII BIT 1091k-.."QIITOR RICA 2.3274!K5 HAUL CPIL 15 Rl'l COIITAIt/chi AIR PART) CLLATE 1.47061+03 61 16 1.3.. 584 LT@tL Cl)IL ~ I Pih9 KIT ODI Z ..CREATOR RLOD 3.52776)OL 6009 N'.

~~8 r ~ ~ O'JL -'6 EXI)A' AIR ~ARTICLVTE~~

)9 F.)4 ~'A =:3 L)I? =. EA)S 'QIIT)ri) 1.46CO7<02 6009 CPII Ã n!8 LIM )A?S) NE~.SA) CttlTOR 9.82867+Ob HALII CPI'. "I )LL9 KKPÃ)C=.. '- +.AI OFAltt 4.%495)02 M09 CPH ))+r I.m4O Ol R/HR r)30 APER ~ITAIt~~l 4:Sl RAt)K '..6958OrO! WRtl R/hR 'l ,C j >!35 "LcAA

~~r;-: -i~~

~ ~~ 4;;ADAGE m ~ 37604+02 7.5OCob<7 ~ !R?%101 KOD CR1 GOS Kl/CC IS))5 18/HR 8!'47 9.99964M 6X6 Kl/CC 9.49',67M 6099 Kl/CC ~ 'i +C .N)~<7 6009 ÃI 'CC )4A 9.99"84M 5009 Kl/C" Aisle C P . ="=7'-"3 6""9 OCI/O" RIM . ~ 3?33M 6009 Kl/CC 4 KI/CC RI gA Air. E.=.W 5&I .i r7VISS M 9. 9 987M GOOD OCi/CC '/3<ilC .I~T iiOSEO 60QD 'i ESVA O. 6009 9 CPB/ a Oa("6M 6009 18/HR .8 R3l%0 1,9241~ 6009 CI/KC 39 )/34IOC tl}T r.'.OM Gm 4 } VILSSVD 5/6 A r-"-,; OPS@I O. GOM AFE I )-" '6 " 'P"iGI 6.O.'Ootr(/2 Gm IS/HR 4A ))3ZN :53 ')2" 6 -.AS;.:. EASE .A-E O'SA i. 92415M GIXID Ci /SEi J ,0 GCOD ~ ~ 43 43 SO.8 6009 It.~ gC CVO7 hh ~ ~ 'ran~~=i ap:~-) . ~ i7 83.3 600D DE) -'6 r~ 't

~~=. ~ =~i 48 -3.3 KQ~~

~~, CVO)t :ri TEILP CO ., 83.3 6009 IET)F 46 )~ 0 fl ~ ~ I ~~~

~~. i i- P 410 83.3 6009 KP 49 .<</!7 .': '.FERATIN~a 'VL SFT ~i 417 86.0 'Gu09 OEar~~

DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE Mini-Scenario Activity: Recovery/Re-entry Controller Notes: 1: Recovery/Re-entry discussions should commence per the guidance inZPIP 3-4 "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:

a. Repair and return to service of the "B" 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 "B" and "C" safety injection pumps

e. Highly radioactive waste water in the Waste Holdup Tank from the "8" RHR pump seal failure.

f. Surveys of plume areas for contamination

a. Containment vessel inspection and clean up plans.

b. More extensive clean up effort in the auxiliary building.

c. Re-entry of evacuated population Preliminary designation of the recovery organization should commence.

~~8-51 Message: GIN NA STATION DECEMBER 6, 1995 PLUME EXPOSURE EXERCISE MESSAGE FORM Message for: Control Room t 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 8-52'~~

Ti Message: G IN NA STATION DECEINBER 6, 1995 PLUNIE'EXPOSURE EXERCISE MESSAGE FORIN INessage for: Control Room Message: +++THIS IS A EXERCISE++ + FOR CONTROLLER USE ONLY Controller Notes: 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 8-53~~

Message: GINNA STATION DECEINBER 6, 1996 PLUME EXPOSURE EXERCISE MESSAGE FORIN Message for: Emergency Coordinator and Recovery Manager INessage: +++THIS IS A EXERCISE+++ The Exercise is Terminated. FOR CONTROLLER USE ONLY Controller Notes:

~~1. Deliver when all exercise objectives have been demonstrated.~~

~~Actions Expected:~~

~~1. Close out by making an announcement to all facilities (including REGS) that the exercise is terminated.~~

~~8-54 SECTION 9.0 ONSITE RADIOLOGICALAND CHElNISTRY DATA SECTION 9.1 RADIOLOGICAL~~

~~SUMMARY~~
9-2
9.1 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) wilt 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: 1115- Plant Vent 2.46 E+2 (Noble Gas) 1245 4.92 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. ed es The downwind integrated doses from the 1.5-hour scenario release are as follows Whole Body (TEDE) Dose (at Site Boundary) = 7.99 Rem Child Thyroid (CDE) Dose (at Site Boundary) = 2.44 Rem C. a o c 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
The assumed release quantities for the Ginna Exercise Scenario are summarized as follows: I': MSB2gl Nuclide ~chLSm C Kr-85 1.5 E-01 8.1 E+02 Kr-85m 1.5 E+01 . 8.1 E+04 Kr-87 2.5 E+01 1.4 E+05 Kr-88 3.7 E+01 2.0 E+05 Xe-131m 2.0 E+00 1.1 E+04 Xe-133 1.2 E+02 6.5 E+05 Xe-133m 2.0 E+01 1.1 E+05 Xe-135 2.5 E+01 1.4 E+05 Xe-135m 2.5 E-01 1.4 E+03 Total Noble Gas 2.4E+02 1.3 E+06 l-131 7.9 E-03 4.3 E+01 I-132 1.1 E-02 5.9 E+01 I-133 1.6 E-02 8.6 E+01 I-135 1.4 E-02 7.6 E+01 Total Radioiodine 4.9 E-02 1.1E+02 Cs-134 9.1E-05 4.9E-01 Cs-137 4.2E-05 2.3E-01 Sr-89 1.0E-07 5.4E-04 Sr-90 9.1E-08 4.9E-04 Ba-140 2.2E-06 1.2E-02 La-140 2.2E-06 1.2E-02 Total Particulate 1.4E-04 7.5E-01 9-4
FIGURE 9.1 ASSUIVIED SOURCE TERMS CI/SEC 1.0E+ 03 1.0E+ 02 I! 11! ! I I I I I 'I I I I !!1!!11 If I! I! I I I ! I I! I!! I! I!!I!! I ! 1.0E+ 01 I!I!!I! I!! t! I I I I ! I I t't!! I I t I I f t I III! ! I I ! I }! 'I I I! I I 'I l! I.OE+ 00 I I I I I I I I ! I I I ! I t I I I I I I!! I I t ! I!! I! I I! I! I! I I I 1.0E-01 I I I I I !'I I I I I !I ll I! !11 I! 11 I! I!! I!! I! I! I-
! ! I I 1.0E-02 I I I I I I I t III } I I I I I I I I! I I I I I I I I I I I! I! I I I I I I I I I I! I 1.0E-03 I I.I I I I I I I I I I I I I t I I 11!! I! I I I I I I I I I I I I I-} I I I I I I I I I 1.0E-04 I I I I! I I I I I } I I I I I I I I! I I I I I I I I I I I I I I I I I II 'l I I I I I }I I I I I 1.0E-05 ! If! I I I ! I ! I I!! I I ! I I I I!! I I I !!! !! I!! ! I! I I I I f I I I !
1.0E-06 I I! I! I } } ! I I I I! ! I I!! I! I! I!! I I! I I I I I I I I I! I! I!! I!! I I I I I I I 1.0E-07 !, I I I I' I I I I I I ! Il I! II }I
~~} I I I I }!, I I I 1.0E-08 ! I I I!! I I I I I I I I I I I I !!! I! I!! I !Il I!~~
I ! I I I I I I I I I I I } }! I I! f. I 1.0E-09 I I } II}}l}! I I I I I I I I I I I I I } I I I I I I I I I I I I I I I! I'l f f }! I! f I I 1.0E-10 I I I I I I I I I I I! I I ! I ! ! I ! I !'! I I I! I I I I I I I ! I ! t I t ! ! 1.0E-110 n 0$ P)QO~N 4O~N4O00$ 0 tA 0 u) 0 U) R O U)OU)OQO Q~.F) 40 0 0
~~~ ~~~
~~Q Q~~
~~~ ~~~
rC
~~~ ~~~
C
~~~ ~~~
T
~~~ ~~~
~~PJ P4 cV Al F) Nrf NQQLO CLOCK TIME~~
~~~ NOBLE GAS CllSEC ~ RADIOIODINE Cl/SEC~~
FIGURE 9.2 Plant Vent Concentrations uCi/cc 1.0E+01 1.0E+ 00:. I I I I I I I! I I! I 1.0E-01 ! I! I! I I I I I I! I } I I I I I I!! I!! I! I I }! t I t I I I I I I 1.0E-02: ! I! ! I I I I!! IIIII II! !! ! I I I I I!! I } I I I!! I! I I I I I I I I! I! 1.0E-03: I I I!! !! I! I! I I I I I ! } I I I I I I I I I I I I I I! 1.0E-04: ! I I II I I I I I '} I I I ! 1111 }.I I '} I I I 111! I I I I I I I I I I I I I I I I I I 1.0E-.05: ! I I! f I! I I I I I I I I I I I I ! I! II I I I I !! I! f I I I I I I f I I I I! I I I 1.QE-Q6: I I I! I.I I I ! I I I I! I! I ! I I I! I!! I I } I I I I 111111 1.0E-07: I I I! I I I I I I I } I I I I! I! I! I I I I I I I ! I I I! I I I I I I I I I I I!1! I! I I.OE-08 I I }! !! }}!.l}i! I I I! I I I I I I I I }! I I l}t! I I I I f I !! I I } I I 1.0E-09 . II) !Ill I! I! I I I !II!} I I I I I I I I I I! I ! I I!! I I I I I.I I I !~ I I! I 1.0E-10, I I I I I I I I! I I I I! I I! !! I! !! I I I I I I I I I I! I! I I I I I I 1.0E-11 !}I}lll I! I} f II I I I I !! I I!! I I I I ! IIIII II fit
~~! } I I I I! I 1.0E-12, I I I!!! I! I!!I I I I I I ~ ~~~
~~1 OE-13o 8)~~
'O ~P) U)rt'0 C) NOR.Oeo ~F)QtD~F) U) OU) O LAO LAO rf 0 0) 4O~F) U) 4 O 0 OOO ~ 0 ~ 0 ~ 0 0 0 ~ ~ ~
~~Q LA T CLOCK TIME. NOBLE GAS ~ RADIOIODINE~~
~~. FIGURE 9.3 LETDOWN MONITOR (R-9) READING VS TIME MR/HR 1.0E+05 1.0E+ 04 1.0E+ 03 1.0E+ 02 1.0E+ 01 1.0E+ 000 0 tO 0 0~540 LO 0 LA 0.~~
~~O~P)rt LO 0 LO 0 U)OROLAO~~
~~0) rf b~~
~~~ ~ ~ ~~~
~~0 0 T V % V Y~~
~~6) rf CLOCK TIME MONITOR R-9 REAOING~~
~~FIGURE 9.4 CONTAINMENT RADIATION DOSE RATE VS TIME R/HR 1.0E+ 04 1.0E+ 03 1.0E+ 02 1.0E-+ 01 1.0E+ 00 1.0E-01 1.0E-02 1.0E-03o Q-O-8) O O~~
~~8) Q 8) O O~~
LA
~~~ O 0) lO 4 Q O~~
~~SOSOOQ~~
~~+ =Q~~
~~0) 8 O b~~
~~~ ~~~
~~Q O S ~ r~~
~~~ ~ ~ ~~~
~~v- r~~
~~~ ~~~
C
~~~ ~ ~ ~~~
~~P4 A N N CLOCK TI.ME~~
~~~ R-29,30 READING~~
SECTION 9.2 IN-PLANT RADIOLOGICALDATA MAPS 9-5
FIQQ+F 9.g R.C.& Ke CORPOGAYZON CINNA STATION AUXILIARY SUILDZNC OPER, FLOOR SURVEYS ~ All readings in Nm/HR. unleaa othenrfae noted. Date: Tlas:~TOd- Oal$ 5 Inatrment: Survey done by: Qi 'a are SMEAR locations. J I I 0 l DFM/100 <<a>l 0 0
~~~cr,Q oo ooo~~
~~/ / Ro C.& K ~ CORPORATION CIHNA STATION AUXILIARY BUILDIMC OPER.~~
I I FLOOR SURVEY ~ hll readings in N/HR. l unlace othe~ac Data: nba: Pg~igg, Ine truant: Survey done by: Q4 'e are SMEhR locations . Q - 20 ~+eC. a a/wa i! Weioo ~>( J AIRS I J I I. 0 0 Ilail I '~('i I OQ 0OO -i5' V
RaG.6 E. CORPORATION CIA STATION AUZILIART BUILDING OPER. PLOOR SURVEt MAP All reutiaee ia HR/HR. unleee othenCee aoted. Dete! 1ospttwEILC: I 0'y e ete SMEAR locetioae R/+e
~
~~I DFM/ 100 aa2i 0 0 RnQRXS pg e .OO OOO 0~~
~~) OG~~
~~li CORPORATION GINNA STATION AUXZLZART SUILDZNC OPER FLOOR SURVET MAP All readings in MR/HR. unlace othenrlae nota4. Date: Tiae: lascI~aac: l 0a are SMEAR l'ocations.~~
~~=tgo ~c/p<~~
DPM/100 cabal 0 0 REMARXS: A]AAÃe OO OOO IH
0 unlcse ornervtae naca@.
~~, 0700- ~4<~~
Tive: Instrument: SURVEY METER A = o.Z a+Ave A I DPR/100 e ma' I ooO -iO Go 0 n n
f 1'
B 4hLl$ 5 OChggvf,5+ M4&-l>is QQggg, T!IE: IE ~ ETEEEEE: 0 A I - /0g.f'welsh ae C/OC y 8 I GISM/100 e I I I F09
B
~~'B ~g glhr 8 =~~a/hr n~ioo ~~~
0 REHQC5! O~SN 7loe+ ag b GOO ~ t OO0
l ~ ~ ~ ~ ALL ".eiC'-..gs ~q ~. -~..
~~~ ~ ~ /ah'w Tlute lZ~ 'URVEY HEIFER OW M~MM~ - WNlhr 8 = xR/gr I DPM/100 e 'QQRX5$~~
Vt oGG 0~ 0
Q~blA AtXLIARY St:ILDtYC agFmv: the SVRVEy ~ c7cQ-~~ 1ascnmeaa: SURVEY MAR O I, g 0. 8'~+. N4.
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~~At X iARY Bl:L Oi!>Q IASFitEyi FLOOR SURVET tiaP 0 I . T~: P4V- <its Inseament: 0 SURVEY MPKR 4~~
~~~ " >fir ~~~
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~~~ac]~~
a 0 0 0 acCi /gal)
Qi Q '8'NA STAY ~ Q,a AUX I.sARY Bt:TLQ[V LgE~y All readfnga Q Nl~ unleaa ochery ae not~, ((L,5- l~l~ Inaanaeat: 4 = soRAr 8 = /egg AJAR/ DSf/100 a 0 WW & &W CJ o o gQo
~~~ec5 lo tIj o~~
~~0 0 0 Ci/cc )~~
~f
0
~~~ i ~ 4 ~, ~~~
~~uaSSA S iA. OS~~
~~~ ~ '~~
~~A~X LiARY BLta DlhG 8ASc'iEV FLOOR SURVEYS MAP B All ceilings & HR/HR. unleae ocbenrtae aoced. Tlse: taaermaac: A - SCe Ma/hr 5 = ]o.. aihr o o 0 0 0 r RmtiRE5c~~
~~~ /cc)~~
~~OOO OO loof, g ga RUB 0 OOOO ILTER 4 y maa$ I~~
~~~ ~~~
4 r TOP FLOOR FILTER RG6 E GINNA STATION INTERMEDIATE BUILDING SURVEY MAP I l 4 OPERATING FLOOR OOOO O 0 < < 0 UnitGOO'ping 0 01-02 4 =o.oi pea/rye DPM/100 Cm Oqno -oR~5 DATE: TIME: BY: INSTRUMENT SERIAL 0: SURVEY METER ALL READINGS IN MR/HR UNLESS l OTHERWISE M7L'ED REHhfuCS: EN'7'> C ~i ~) ODI
ooo oo ILTER
~ o oooo TOP FLOOR FILTER / RG6 E GINNA STATION INTERMEDIATE BUILDING SURVEY MAP OPERATING FLOOR ooo0 p < < Qooo 0 Sping Qd.t ~~2~ ~ ~ 4 a g g NA/N4.
g ~gg~~jea. SMEARS DPM/100 Cm gR<a- luS DATE: TIME: BY: I INSTRUMENT: gB SERIAL 0 SURVEY METER SERIAL I ALL READINGS IN MR/HR UNLESS OIHERNISE Ã7IKD REMaRCS:
~~~i R8oaaE Vt c C./~)~~
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/ RG4E GINNA STATION INTHQKDIATE BUILDINC SURVEY MAP ~goTC: P~tvfur Achoiui OPERATINC FLOOR =>O,OOO~A/O4 ir i Poor l 'I o QpQ < < Qooq I
~~ping 01-02 t Q C I g DPH/100 'Cm 4S OATE: TIME: BY: INSTRUMENT: SERIAL 0: SURNH'ETER 15 ALL READINGS IN MR/HR UNLESS~~
~~\ OZHERWISE MZKD a ) REKuUCS:~~
i ACrVE hC77VSPt Fo<i/C'C I O C
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OOO 0
~~~Q ~. ~s O OOOO ILTER 4 ) )~~
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~~~ SUEDE'Y METER ALL READINGS IN MR/HR UNLESS CmaaxrSS mrED >JLe4+K WV) f44Ci/~)~~
a REllhMCS: a
CMfh S,AT ON H.4tR ST ~ ~ smLXAL A SURVEY H ~iR SEBXÃi 0 A~~ W~IPGS ZN MR/HR UNITS Vii%ffSE %7IKD
SURVEY le-R SERIAL 4 A~ ~ $ P~INGS N MH/HR UNBIAS ODKSGSE N7IKD
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SUEY hK~sR SERIA<~ 0 Ar r W~INGS ZN MR/HR UNLESS
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~
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~~~ mm-BYe IBSGQBQRC': L9 4 SERIAL 0 SURVEY .METER ~~~
~~hi oc~~~
~
~~SERIAL 0 Qgyy~ Cc J ~ ALL READINGS IN MR/BR UNUHS ZcPP Ia: C / -// O OI HELOISE NOI'ED~~
~~,Ax~~
. PANEL
C~ STATION INTHM DZATE BUZLDQiC BhSE~p
~~~00R 4 No P+ss ~PE'~Area< y B~~
CRxz ~ LCE D 100 ca EYE LL NEAX. C Z 0 SEUM 4e SURVEY METER SERIAL 0 oa F ALL READINGS IN iW/iQ UNLESS C77veW cc I c'c. OZHEMZSE NOI'ED PI@; I E'-IO C c~:->0
GINNED STATION XBTE9KDIATE BUILDQtG BASEHZyr FLOOR yg ~gg.)<a Phrs% 4 a5'c)~ CA.mo aI 4+
~~'PF =~~
~~0 hA~~ m4 B = H Jt//4 30+ ~ tC/~ D = 3R/oa~~
~~- ET OO ~~~
Smears. DPK/100 aa Dhgg B mat BT: ZHSTRahZZT: SELL@. f. 0 4 SURVEY MrrZR SERIAL ¹ 00 ( ALL READINGS IN iM/HR UNLESS QI'HELOISE 'NOTED 77 t D] ~ ET
b I I
'1
~~RCSsE CINE ZrA'rZPN ZNT~ZlZATE BUZLDDfG BM~~ FLppR SURVEY Mhp~~
~~~ go pAsS o pzaAm4% + 4 = led/~~~
~~>.s ~~a~>>~~
~~C =2s'o a c.(~ A~<<hi~~
~~- ER B~~
~~DBf/100 ca DhXZ~~
~~~ ~ me SYe ZHStaa>err:~~
~~SAX. f~ SURVEY METER SERIAL 0 'OO OOO ALL READINGS IN iM/HR UNLESS a 0 CHEMISE NO1ED V'I 4t i Cc. 0 A~~
~~~4 PA.S.S.~~
P~
~
B Reaarks
4 =C) olw+ RChE CINNA STATION TURBINE BUILDINC OPERATINC FLOOR SURVEY MAP DATE: TINE: NORTH POWER: BY: INSTRUMENT s SERIAL 4: I f I I '~ I l l DPM/100 Cm I
~~~ww J I~~
I I I C g u C77VI 0 ic Dt C I I L~ pa m ~a I I I REMAEUCS!
D l RG&E CINNA STATION TURBINE BUILDING OPERATING FLOOR SURVEY NAP g~~ lh< NORTH DATEt BONER: INSTRUMENT g
~~'Y:~~
~~SERIAL 0: B B S bPM/100 Cm REHhRCS~~
~~= o.og mw/4c RG&E GINNA STATION TURBINE BUILDING MEZZANINE FLOOR = g. y a, > i/fee.~~
SURVEY HAP 0700- AiS DATE: NORTH POWER: INSTRlJMENT: SERIAL 0: I I I wee e mega tf ft )I SMEARS DPM/100 Cei
RC&E CINNA STATION TURBINE BUILDINC MEZZANINE FLOOR TYRE: POWER: BY: INPHIMEHT: SERIAL 0! I I eoe e eeeP SMEARS DPM/100 Cm
RCKE CINNA STATION TURBINE BUILDINC BASEMENT FLOOR A = 0 ozark/~ NORTH oaaa a'o oo 00 I I TTHR t POWER! RYc ~ 1+ gl 0~ ~~ 0~ ~~ i~~0 ~ ~ 0+
~
~~INSTfNMENT~~~
~~~ y OS qt ~~~~
~~SERIAL f':~~
~
~~OPEC/tCO C 0 I A/ C 71Vi 0 I 0~~
~.
~~patton alone, f Super. Supp. Servtces Plennlna Wint Enp. tl~~
~~+ Accept ion C ~ A Wint Oper. Eno, Spec pfoj.~~
~~A C)~~
~~= g,OX~A'He Tech, Snye Q - g./ mc/h4c. Tech Llb Wcleer Assess Corrleor~~
~~+C.c. kLEAs~~
~~<250 4ft j~oe~~
~~l'~~~
~~~ i Super Ol : Super. Supp.~~
~~iI I Services a'I prooucg'Lon~~
~~~ ~ ~~~
~~0 I Plenn lpga Wint Eny. Aecept lon Cofl terence~~
~~~+ ~~~
Jl I OpecoEnog Wine Spec Pro) o Oen Otto T~. a~. Tech Llb Q = d %+a/yg Nucleer Oorrldor +rtldouNspaCi/c ): tata'e Cora Soca Qcp 9(Nc: .' Neo'e Chats p+er: s E-1 Sam B
SECTION 9.3 IN-PLANTAND POST-ACCIDENT SAMPLING RESULTS 9-6
TABLE 9.2 REACTOR COOLANT SYSTEM SAMPLE ACTIVITY EQUILIBRIUMACTIVITY (AS OF 0500 HR, 12/06/95) Nuclide Corrected Concentration UCI/GM I-1 31 4.70E-03 I-132 8.09E-03 I-133 3.29E-03 I-1 34 5.05E-03 I-135 1.87E-03 Total Iodine '1.57E-02 I-131 Dose Equivalent 5.56E-03 Kr-85 1.16E-03 Kr-85m 1.16E-01 Kr-87 2.02E-02 Kr-88 1.47E-01 Xe-1 31m '.34E-03 Xe-133 1.06E+00 Xe-133M 1.57E-01 Xe-1 35 1.87E-01 Xe-135m 1.87E-01 Total Gas 1.87E+00 9-7
0 TABLE 9.3A REACTOR COOLANT SYSTEM SAMPLE: GAS COLLECTION BOMB (Collection Between 0945-1115) Concentration (pCi/gm), Nuclide Corrected to Time of Shutdown Kr-85 1.8 E+01 Kr-85m 1'.7 E+03 Kr-87 2.9 E+03 Kr-88 4A 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. 9-8
TABLE 9.3B REACTOR COOLANT SYSTEM SAMPLE'AS COLLECTlON BOMB (Collection After 1115) 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-1 33 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. 9-9
TABLE 9.4A PRIMARY COOl ANT SAMPLE: DEGASSED ACTIVITY (Collection Between 0945-1115) Concentration (UCI/GM) Nuclide 'orrected 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 I-135 1.4 E+04 Cs-134 8.0 E+03 's-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/MR 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.~~
9-10
TABLE 9.4B PRIMARY COOI ANT SAMPLE: DEGASSED ACTIVITY (Collection After 1115) Concentration lUCI/GM) Nuclide Corrected to Time of Shutdown l-.131 5.1 E+03 l-132 7.3 E+03 I-'133 1.0 E+04 I-134 3.2 E+02 I-135 9.2 E+03 Cs-134 8.0 E+03 Cs-1 37 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 ?.0 E+03 Total Degassed Activity 4.5 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.~~
9-11
TABLE 9.5A CONTAINMENTSUMP SAMPLE: DEGASSED ACTIVITY (Collection Between 0945 - 1115) Concentration (p Ci/gm) Nuclide Corrected to Time of Shutdown I-1 31 3.6 E+02 I-132 5.2 E+02 I-133 7.3 E+02 , I-134 2.2 E+01 1-135 6.6 E+02 Cs-134 2.2 E+02 Cs-137 1.2 E+02 Ba-140 3.1 E+00 La-140 2.8 E+00 Total Iodine 2.2 E+03 I-131 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 of 12 cc sam le.~~
9-12
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 I-132 9.9 E+02 I-133 1.4 E+03 I-134 4.2 E+01 l-1 35 1.2 E+03 .'s-134 8.4 E+02 Cs-1 37 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 = 26 R/HR Diluted Sample Dose Rated at 1 Meter = 0.01 MR/HR Diluted Sample Dose Rate at Contact = 46 MR/HR
~~NOTE: Dose rates based u on assumed use of 12 cc sam le.~~
9-13
TABLE 9.6A CONTAINMENTAIR SAMPLE: (Collection Between 0945-1115) Concentration (pCI/cc) Nuclide ,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-1 31m 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 l-132 2.0 E+00 l-133 2.8 E+00 I-1 34 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.~~
9-14
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-133 1.6 E+01 Xe-133m 2.4 E+00 Xe-135 3.0 E+00 Xe-1 35m 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-137 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 le.~~
9-15
TABLE 9.7 CONTAINMENTHYDROGEN CONCENTRATION TIME HYDROGEN VOL % 0700-0945 ,0.00 0946-1 145 0.02 1146-1 330 0.01 After 1330 0.00 9-16
TABLE 9.8 RCS AND SUMP BORON/ H DATA ~Sam le Time m Boron gH RCS 0?00-0945 562 Sump <10 ?.5 NOTE: Safet In'ection starts at 0945 hr LOCA RCS 0946-1115 1400 '.8 Sump 1100 6.1 RCS After 1116 2300 5.2 Sump 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 50: 200 100 INTERMEDIATE FLOOR 50 200 100 BASEMENT FLOOR 100 300 200 0946-1115 hrs: TOP FLOOR 150 300 200 INTERMEDIATE FLOOR 150 300 200 BASEMENT FLOOR 200 400 300 1116-1300 hrs: ALL CAMS ALARMING.ALL READINGS OFFSCALE HIGH. Affer 1300 hrs: TOP FLOOR 100 500,000
600,000

INTERMEDIATE FLOOR 100 600,000

700,000

BASEMENT FLOOR 200 700,000

800,000

NOTE: * = CAM ALARMING 9-18
~~SECTION 10.0 METEOROLOGICAL AND OFFSITE RADIOLOGICALDATA~~
~
~ 10-1
SECTION 1O.1 METEOROLOGICAL DATA PLUME DIRECTION WEATHER FORECASTS AND TOWER DATA 10-2
.A. Bags The meteorological conditions for this scenario were based upon historical
~~~ li IW th 8 i ~.Mi meteorological data recorded by the Ginna primary weather tower and the dittig pd on the data to provide the wind direction and atmospheric stability d~~
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. The scenario will begin with light, southwesterly winds which will shift and become northeasterly by mid-morning. During the period of release (1115-1245 hr), the average meteorological conditions are, as follows: Wind Speed = 5 mph (at 33 ft) Wind Direction = 45 degrees (at 33 ft; wind from) Pasquill Stability = E 10-3
DECEMBER 6;.1995 ':00 AM - 14:30 PM TODAY: SOUTHWESTERLY WINDS WILL BE SHIFTING NORTHEASTERLY BY MID- MORNING. TEMPERATURES EXPECTED IN THE LOW- TO MID 40'S. WINDS WILL REMAIN FROM THE NORTHEAST AT 5 MPH THROUGHOUT THE REMAINDER OF THE AFTERNOON. WINDS SHIFTING NORTHERLY BY EARLY EVENING AND THEN BECOMING WESTERLY LATER TONIGHT,. 10-4
PRINTOUTS FROM GINNA PRIMARY MET. TOWER (15-MINUTE AVERAGES} 10-5
12/06/95 07:00 RECORD NUMBER 1316 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 3. 1 MPH 0 1.7 2.7 6.1 SPD 33B 3.1 MPH 1.8 2.2 6.2 SPD150A 3.7 MPH 0 2.1 2.5 6.1 SPD150B 4. 1 MPH 2.2 2.3 6.1 SPD250 3.7 MPH 0 2.2 2.7 6.2 DIR 33A 230 DEG 0 1.7 191 277 DIR 33B 230 DEG 1.8 192 271'77 DIR150A 227 DEG 2.1 197 DIR150B 230 DEG 191 275 DIR250 226 DEG 0 2.1 195 272 TER 33A 37.6 F TER 33B 37.1 F 0 TER150A 36.5 F 0 ~ TER150B 36.4 F TER250A 35.1 F TER250B 35.3 DT150-33A -1. 6 F/ DT150-33B F/ 0 DT250-33A -2. 8 F/ DT250-33B -2. 8 F/ DENPOINT 28.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00
12/06/95 07'l5 RECORD NUMBER 1317 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 2.9 MPH 1.7 2.7 8.1 SPD 33B 2.9 MPH 1.8 2.2 9.2
'PD150A 3.5 MPH 2.1 2.5 9.1 SPD150B 2.9 MPH 2.2 2.3 8.1 SPD250 3.5 MPH 2.2 2.7 9.2 DIR 33A 234 DEG 0 1.7 191 277 DIR 33B 237 DEG 1.8 192 271 DIR150A 231 DEG 2.1 197 277, DIR150B 233 DEG 1.7 191 275 DIR250 239 DEG 0 2.1 '95 272 TER 33A 37.6 F TER 33B 37.5 F TER150A 36.6 F TER150B 36.5 F TER250A 35.4 F TER250B 35.3 F DT150-33A -1.6 F/
DT150-33B -1.7 F/ DT250-33A -2.8 DT250-33B -2.9 F/ DENPOINT 28.7 RAIN 0.00 INCH 0 1.02 1.02 0.00
12/06/95 07:30 RECORD NUMBER 1318 - GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 2.9 MPH 1 ~ 7', 2.7 6.1 SPD 33B 2.8 MBH 1.8 2..2 6.2 SPD150A 3.3 MPH 0 '2.1 2.5 6.1 SPD150B 3.6 MPH 2.2 2.3 6*. 1 SPD250 3.3 MPH 2.2 2.7 6.2 DIR 33A 242 DEG 0 1.7 231 317 DIR 33B 245 DEG 1.8 232 311 DIR150A 245 DEG 2.1 237 317 DIR150B 247 DEG 1.7 231 315 DIR250 242 DEG, - 2.1 235 312 TER 33A 37.7 F TER 33B 37.9 F TER150A 36.7 F TER150B 36.5 F
~~'ER250A 35.5 F TER250B 35.3 F DT150-33A -1.5 F/~~
DT150-33B -1. 7 F/ DT250-33A F/ DT250-33B -2.9 F/ DEWPOINT 28.7 F 0' RAIN 0.00'NCH 1.02 1.02 0.00
12/06/95 07:45 RECORD NUMBER 1319 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEU MIN MAX SPD 33A 2. 8 MPH 1.7 1.7 6.1 SPD 33B 2. 8 MPH 1..2 6.2 SPD150A 3. 0 MPH 2.1 1.5 6.1 SPD150B 3. 4 MPH 2.2 1.3 6.1 SPD250 3. 0 MPH 2.2 1.7 6.2 DIR 33A 250 DEG 1.7 221 317 DIR 33B 252 DEG 1.8 222 311 DIR150A 258 DEG 2.1 227 317 . DIR150B 250 DEG 1.7 221 315 DIR250 255 DEG 0 2.1 225 312 TER 33A 38.2 F TER 33B 38.3 F TER150A 37.7 F TER150B 37.6 F TER250A 36.5 F TER250B 36.3 F 0 DT150-33A -1.5 F/ DT150-33B F/ DT250-33A -2.7 F/ DT250-33B -2.0 F/. DEWPOINT 28.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00
12/06/95 08:00 RECORD NUMBER 1320 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 3.8 MPH 1.7 2.7 SPD 33B 3.7 MPH 0 1.8 2 ' 6.2 SPD150A 3.8 MPH 2.1 2.5 6.1 SPD150B 4.1 MPH 2.2 2.3 6.1 SPD250 3.8 MPH 2.2 2.7 6.2 DIR 33A 278 DEG '0 1.7 231 317 DIR 33B 279 DEG 1.8 232 311 DIR150A 272 DEG 2.1 '237 DIR150B 273 DEG 1.7 231 315 DIR250 278 DEG 2.1 235 312 TER 33A 38.8 F TER 33B 38.8 F TER150A 37.8 F TER150B 37.6 TER250A 36.6 F TER250B 36.3 F 0 DT150-33A -1. 4 F/ 0 DT150-33B -1. 7 F/ DT250-33A -2. 0 F/ DT250-33B Ft DENPOINT 28. RAIN 0.0"; 'NCH 0 1.02 1.02 0.00
12/06/95 08: 15 RECORD NUMBER 1321 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 3. 4 MPH 1.7 2.7 6.1 SPD 33B 3. 4 MPH 1.8 2.2 6.2 SPD150A 3. 5 MPH 2.1 2.5 6.1 SPD150B 3. 8 MPH 2.2 2.3 6.1 SPD250 3.5 MPH 2.2 2.7 6.2 DIR 33A, 293 DEG, '0 1.7 231 317 DIR 33B 306 DEG 0 1.'8 232 311 DIR150A- 290 DEG 0 2.1 237 317 DIR150B 282 DEG 0 1.7 231 315 DIR250 281 DEG ' 0 2.1 235 312 TER 33A 39.4 F TER 33B 39.5 F TER150A 38.0 F TER150B 38.8 F TER250A 37.8 F TER250B 37.5 F 0 DT150-33A F/ DT150-33B -1. 0 F/ DT250-33A -1. 6 F/ 0 DT250-33B F/ DEWPOINT 28.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00
12/06/95 08:30 RECORD NUMBER 1322 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN SPD 33A 3. 5 MPH 1.7 2.7 6.1 SPD 33B 3.5 MPH 1.8 2.2 6.2 SPD150A 3.2 MPH '0 2.1 2.5 6.1 SPD150B 3. 4 MPH 2.2 2.3 6.1 SPD250 3.7 MPH 2.2 2.7 6.2 DIR 33A 298 DEG 1.7 241 317 DIR 33B 293 DEG 1.8 242 , 311 DIR150A 298 DEG F 1 247 317 DIR150B 281 DEG 1.7 241 . 315 DIR250 284 DEG 2.1 245 312 TER 33A 39.2 F 'TER 33B 39.2 F TER150A, 38.2 F .TER150B 38.0 F TER250A 37.5 F TER250B 37.7 F DT150-33A -O.5 F/ 0 DT150-33B -O.7 F/ DT250-33A -1.7 F/ DT250-33B -1.8 F/ 0 DENPOINT 28.7 F RAIN 0.00 iNCH 1.02 1.02 0.00
12/06/95 08:45 RECORD NUMBER 1323 . GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 3. 7 MPH 1.7 2.7 6.1 SPD 33B '.8 MPH 1.8 2.2 6.2 SPD150A 3. 8 MPH 2.1 2.5 6.1 SPD150B 4.1 MPH 2.2 2.3 6.1 SPD250 3.9 MPH 2.2 2.7 6.2 DIR 33A 313 DEG '0 1.7 241 DIR 33B 320 DEG 1.8 242 331 DIR150A 315 DEG 2.1 247 337 DIR150B 300 DEG 1.7 241 335 DIR250 316 DEG 2.1 245 332 TER 33A 40.9 F TER 33B 40.9 F TER150A 40.4 F TER150B 40.2 F TER250A 39.2 F TER250B 39.9 F DT150-33A -0.5 F/ DT150-33B -0.7 F/ DT250-33A F/ DT250-33B -1. 3 F/ DENPOINT 28.7 0.00 INCH 0 1.02 1.02 0.00
12/06/95 09: 00 RECORD NUMBER 1324 . GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 3. 3 MPH 1.7; 1.7 4.1 SPD 33B 3. 5 MPH 1.8 4.2 SPD150A 3. 5 MPH .0 '2. 1 1.5 4.1 SPD150B 3. 7 MPH 2.2 4.1 SPD250 3. 6 MPH 2.2 1.7 4.2 DIR 33A 338 DEG 1.7 241 347 DIR 33B 337 DEG 1.8 242 341 DIR150A 333 DEG 2.1 347 DIR150B 339 DEG 1.7 241 355 DIR250 339 DEG . 2.1 245 352 TER 33A 40.6 F TER 33B 40.6 F TER150A 40.1 F 'TER150B. 40.2 F TER250A 39.4 F TER250B 39.1 F DT150-33A -0.. 5 F/ DT150-33B -0. 7 F/ DT250-33A -1.2 F/ DT250-33B -1.2 F/ DEWPOINT 28.7 F 0 RAIN 0.00 INCH 0 1.02 1.02 0.00
il 12/06/95 09:15 RECORD NUMBER 1325 . 'GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 4.0 MPH 1.7 2.7 6.1
SPD 33B 4.2 MPH 1.8 2 ' 6.2 SPD150A 4.6 MPH ,0 2.1'.2 2.5 6.1 SPD150B 4.0 MPH 2.3 6.1 SPD250 3.9 MPH 2.2 2.7 6.2 DIR 33A 356 DEG 1.7 291 DIR 33B 353 DEG 1.8 292 391 DIR150A 358 DEG 2.1 287 397 DIR150B 352 DEG 1.7 291 395 DIR250 350 DEG 0 2.1 '95 392 TER 33A 40.8 F TER 33B 40.9 F TER150A 40.3 F TERlSOB 40.1 F TER250A 39.8 F TER250B 39.8 F 0 DT150-33A -0.5 F/
DT150-33B -0.8 F/ DT250-33A -1.3 F/ DT250-33B F/ DENPOINT 28.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00
12/06/95 09:30 RECORD NUMBER 1326 . GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 4. 1 MPH 0 1.7 2.7 6.1 I SPD 33B 4.2 MPH 0 1.8 2.2 6.2 SPD150A 3. 8 MPH 2.1 2.5 6.1 SPD150B 4. 4 MPH 2.2 2.3 6.1 SPD250 4. 2 MPH 2.2 2.7 6.2 DIR 33A 354 DEG 0 1.7 311 397 DIR 33B 360 DEG 1.8 312 391 DIR150A 353 DEG 2.1 317 397 DIR150B 356 .DEG 311 395 DIR250 362 DEG 2.1 315 392 TER 33A 41.6 F 0 TER 33B 41.6 F TER150A 41.1 F 0 TER150B 41;2 F TER250A 40.7 F ,TER250B 40.4 DT150-33A -0.5 F/ DT150-33B -0.4 F/ DT250-33A -0.9 DT250-33B 0 t DEWPOINT 28., RAIN 0. PC :NCH 1.02 1.02 0.00
u 12/06/95 09:45 RECORD NUMBER 1327 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 4. 3 MPH 1.7 3.7 7.1 SPD 33B 4. 5 MPH 1.8 3.2 7.2 P SPD150A 4. 9 MPH 2.1 3.5 7.1 SPD150B 4.7 MPH 2.2 3.3 7.1 SPD250 5.4 MPH 2.2 3.7 7.2 DER 33A, 352 DEG 1.7 291 17 DER 33B 356 DEG 1.8 322 DER150A 357 DEG 2.1 327 DER1SOB 359 DEG 1.7 321 DIR250 353 DEG -0 2.1 325 TER 33A 41.8 F TER 33B 41.9 F TER150A 41.4 F TER150B 41.5 F TER2SOA 41..4 F TER2SOB 41.1 F DT150-33A -0.3 DT150-33B -0.3 F/ DT250-33A -0.8 F/ DT250-33B -0.8 F/ DENPOINT 28.7 F RAIN 0.00 'NCH 0 1.02 1.02 0.00
12/06/95 10:00 RECORD NUMBER 1328 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 4.4 MPH 1.7 3.7 8.1 SPD 33B 4.5 MPH 1.8 3.2 9.2 SPD150A 4.5 MPH 0 2.1 3.5 9.1 SPD150B 4.5 MPH 2.2 3.3 8.1 SPD250 4.7 MPH 2.2 3.7 9.2 DIR 33A 360 DEG 0 1.7 311 17 DIR 33B 2 DEG 1.8 312 DIR150A 2 DEG F 1 317 17 DIR150B 3 DEG 1.7 311 15 DIR250 3 DEG 2.1 315 12 TER 33A 42.3 F
~~'TER 33B 42.3 F TER150A 41.9 F .TER150B 41.9 F 0 TER250A 41'. 9 F~~
'ER250B 41.7 F 0 DT150-33A -0.2 F/ 0 DT150-33B -0.2 F/ 0 DT250-33A -0.6 F/ DT250-33B -0.6 F/ DEWPOINT 28.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00
i 'i 2 t
12/06/95 10:15 RECORD NUMBER 1329 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV SPD 33A 4. 6 MPH 1.7 2.7 7.1 SPD 4.5 MPH 1.8 2.2 7.2 33B'PD150A 4.6 MPH '2. 1 2.5 7.1 SPD150B 4.8 MPH 2.2 2.3 8.1 SPD250 4.6 MPH 2.2 2.7 7.2 DIR 33A 19 DEG 1.7 391 37 D1R 33B 21 DEG 1.8 392 31 DIR150A 22 DEG 2.1 397 37 . DIR150B 23 DEG 1.7 391 DIR250 23 DEG 0 2.1 395 32 TER 33A 42.7 F TER 33B 42.8 F TER150A 42.5 F TER150B 42.6 F TER250A 42.4 F TER250B 42.4 F DT150-33A -0 ~ 1 F/ DT150-33B -0. 0 F/ DT250-33A -0.3 DT250-33B -0. 3 F/ DENPOINT 28.7 RAIN 0.00 INCH 1.02 1.02 0.00
I 12/06/95 10:30 RECORD NUMBER 1330 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 4. 6 MPH 1.7'. 2.7 7.1 SPD 33B 4.6 MPH 1.8 2..2 7.2 SPD150A 4.9 MPH 0 '2.1 2.5 7.1 SPD150B 4.7 MPH 2.2 2.3 7'. 1 SPD250 4.5 MPH 2.2 2.7 7.2 DIR 33A 38 DEG '0 1.7 321 17 DIR 33B 40 DEG 0 1.8 12 61 DIR150A 42 DEG 2.1 67 DIR150B 37 DEG 1.7 65 DIR250 39 DEG 2.1 TER 33A 43.2 F TER 33B 43.4 F TER150A 43.1 F 'TER150B 43.2 F
~~'ER250A 43.0 F 0 TER250B 43.0 F 0 DT150-33A -0. 0 F/ , 0 DT150-33B -0. 1 F/~~
DT250-33A -0. 2 F/ DT250-33B -0. 3 F/ DEWPOINT 28.7 F RAIN 0.00 INCH 1.02 1.02 0.00
12/06/95 10:45 RECORD NUMBER 1331 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 4.8 MPH 1.7 3.7 8.1 SPD 33B 4.8 MPH 1.8 3.2 9 .'2 SPD150A 5. 8 MPH 0 2. 3.5 9.1 1'.2 SPD150B 5. 5 MPH 3.3 8.1 SPD250 5. 4 MPH 2.2 3.7 9.2 DIR 33A 47 DEG 1.7 21 67 DIR 33B 49 DEG 1.8 22 61 DIR150A 47 DEG 2.1 67 DIR150B 46 DEG 1.7 21 DIR250 50 DEG 2.1 25 62 TER 33A 43.5 F TER 33B 43.6 F TER150A 43.5 F TER150B 43.4 F TER250A 43.1 F TER250B 43.2 F DT150-33A 0.0 F/ DT150-33B -0.1 F/ DT250-33A 0.0 F/ DT250-33B 0.0 F/ DENPOINT 28.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00
12/06/95 11:00 RECORD NUMBER 1332 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEU MIN MAX SPD 33A 4.7 MPH 1.7 3.7 8.1 SPD 33B 4.7 MPH 1.8 3..2 9.2 SPD150A 4.7 MPH 0 2.1 3.5 9.1 SPD150B 5.3 MPH 2.2 8.1 SPD250 5.3 MPH 2.2 3.7 9.2 DIR 33A 46 DEG 0 1.7 67 DIR 33B 48 DEG 0 1.8 61 DIR150A 47 DEG 2.1 17 67
, DIR150B 45 DEG 1.7 65 DIR250 49 DEG 2.1 62 TER 33A 44.0 F TER 33/ 44 ' F TER150A 44.1 F 0 TER150B 44:0 F TER250A 44.2 F 0 TER2 508 44.4 F DT150-33A 0.0 F/ 0 DT150-33B 0.0 F/
DT250-33A 0.". 0 DT250-33B 0. DENPOINT RAIN 0. 0. :- NCi-: 0 1.02 1.02 0.00 P
D' 12/06/95 11: 15 RECORD NUMBER 1333 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 5. 0 MPH 1.7 3.7 8.1 SPD 33B 5. 0 MPH 1.8 3.2 9.2 SPD150A 5. 1 MPH 0 2.1 3.5 9.1 SPD150B 5.2 MPH 2.2 3.3 8.1 SPD250 5.2 MPH 2.2 3.7 9.2 DIR 33A. 45 DEG '0 1.7 21 DIR 33B 47 DEG 1.8 22 61 DIR150A 42 DEG 2.1 27 67 DIR150B 44 DEG 1.7 21 65 DIR250 50 DEG 0 2.1 25 62 TER 33A 44.5 F TER 33B 44.5 F TER150A 44.5 F TER150B 44.4 F TER250A 44.9 F TER250B 44.8 F DT150-33A 0.0 F/ DT150-33B 0.1 F/ DT250-33A 0.5 F/ DT250-33B 0.5 F/ DEWPOINT 28.7 F RAIN 0.00 INCH 1.02 1.02 0.00
12/06/95 11:30 RECORD NUMBER 1334 - GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 5.0 MPH 1.7 '.7 8.1 SPD 33B 5.1 MPH 1.8 3.2 8.2 I, SPD150A 5.0 MPH 0 2.1 3.5 8.1 SPD150B 5. 1 MPH 2.2 3.3 8.1 SPD250 5. 1 MPH 2.2 3.7 8.2 DIR 33A 44 DEG 1.7 21 67 DIR 33B 46 DEG 1.8 22 61 DIR150A 43 DEG 2.1 27 DIR150B 44 DEG 1.7 21 DIR250 51 DEG 2.1 25 62 TER 33A 44.9 F 0 TER 33B 44.9 F TER150A. 45.1 F ~ TER150B 45.1 F TER250A 45'. 4 F TER250B 45.4 F DT150-33A 0.0 F/ DT150-33B 0.1 F/ P" DT250-33A 0.5 F/ DT250-33B 0.4 F/ ~ P DENPOINT 28.7 F RAIN 0.00 INCH 1.02 1.02 0.00
12/06/95 11:45 'ECORD NUMBER 1335 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 4.9 MPH 1.7 3.7 8.1 SPD 33B 4.9 MPH 1.8 3.2 8.2
'PD150A 5.1 MPH 2.1'.5 8.1 SPD150B 5.1 MPH 2.2 3.3 8.1 SPD250 4.9 MPH 2.2 3.7 8.2 DIR 33A 42 DEG 21 DIR 33B 45 DEG 1.8 22 61
.DIR150A 43 DEG 2.1 27 67 DIR150B 44 DEG 1.7 21 DIR250 42 DEG 2.1 25 62 TER 33A 45 ' F TER 33B 45.0 F TER150A 45.2 F TER150B 45.2 F TER250A 45.5 F TER250B 45.4 F DT150-33A 0.0 F/ DT150-33B 0.1 F/ DT250-33A 0.5 F/ DT250-33B 0.4 F/ DENPOINT 28.7 0.00 INCH 0 1.02 1.02 0.00
12/06/95 12:00 RECORD NUMBER 1336 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 5. 0 MPH 1.7 3.7 8.1 SPD 33B 5. 1 MPH 1.8 '3. 2 8.2 SPD150A 5.3 MPH 0 2. 3.5 8.1 1'.2 SPD150B 5. 0 MPH 3.3 8.1 SPD250 4. 8 MPH 2.2 3.7 8.2 DIR 33A 51 DEG 0 1.7 21 DIR 33B 44 DEG 1.8 22 6'1 DIR150A 48 DEG 2.1 27 67 DIR150B 44 DEG 1.7 21 65 DIR250 43 DEG- 2.1 25 62 TER 33A 45.0 F TER 33B 45.0 F TER150A 45.3 F 'TER150B 45.2 F TER250A 45.5 F 0 TER250B , 45.6 F DT150-33A 0.1 F/ DT150-33B 0.2 F/ DT250-33A 0.6 F/ DT250-33B 0.5 F/ DEWPOINT 28.7 F RAIN 0.00 INCH 1.02 1.02 0.00
12/06/95 12:15 RECORD NUMBER 1337 GINNA PLANT ORIGINAL SENSOR NAME AUERAGE UNIT CODE STDDEV MIN MAX SPD 33A 5.0 MPH 1.7 3.7 8.1 ." SPD 33B 5.1 MPH 1.8 3.2 9. 2. SPD150A 5.0 MPH .0 2.1 9.1 SPD150B 4.9 MPH 2.2 3.3 8.1 SPD250 5.0 MPH 2.2 3.7 9.2 DIR 33A 48 DEG 1.7 21 DIR 33B 50 DEG 1.8 22 61 DIR150A 49 DEG 2.1 27 '67 DIR150B 49 DEG 1.7 21 65 DIR250 48 DEG '0 2.1 25 '62 TER 33A 45.0 F TER 33B 45.0 F TER150A 45.2 F TER150B 45.3 F TER250A 45.5 F TER250B 45.6 F 0 DT150-33A O.1 F/ DT150-33B O.1 F/ DT250-33A 0.5 F/ DT250-33B 0.6 F/ DENPOINT 28.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00
12/06/95 12:30 RECORD NUMBER 1338 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 4.7 MPH 1.7 3.7 8.1 SPD 33B 4.7 MPH 1.8 3-.2 8.2 SPD150A 4.9 MPH 2.1 3.5 8.1 SPD150B 5.1 MPH 2.2 3;3 8.1 SPD250 5.3 MPH 2.2 3.7 8.2 DIR 33A 45 DEG '0 1.7 21 '67 DIR 33B 47 DEG 22 61 1.8'.1 DIR150A 45 DEG 27 DIR150B 45 DEG 1.7 21 DIR250 44 DEG 2.1 25 62 TER 33A 45.0 F TER 33/ 45.0 F TER150A 45.3 F 'TER150B 45;3 F 0 TER250A 45 5
~~~ F TER250B 45.6 F 0 DT150-33A. 0.1 F/~~
DT150-33B 0.1 F/ DT250-33A 0.6 F/ 0 DT250-33B 0 DEWPOINT 28. " RAIN 0. OC :NCH 1.02 1.02 0.00
12/06/95 12: 45 RECORD NUMBER 1339 GINNA PLANT ORIGINAL SENSOR NAME AUERAGE UNIT CODE STDDEV MIN MAX SPD 33A 4. 8 MPH 1.7 3.7 8.1 SPD 33B 4.9 MPH 1.8 3.2 8.2 SPD150A 5.2 MPH 0 2.1 3.5 8.1 SPD150B 4.8 MPH 2.2 3.3 8.1
'.2 SPD250 4. 5 MPH 2.2 3.7 DIR 33A 52 DEG 0 1.7 341 DIR 33B 43 DEG 1.8 22 61 DIR150A 50 DEG 2.1 DIR150B 49 DEG 1.7 21 65 DIR250 50 DEG 0 2.1 25 TER 33A 44.9 F TER 33B 44.9 F TER150A 45.2 F TER150B 45.2 F TER250A 45.5 F TER250B 45.5 F 0 DT150-33A 0.2 F/
DT150-33B 0.0 F/ DT250-33A 0.5 F/ DT250-33B 0.4 F/ DEWPOINT 28.7 F RAIN 0.00 INCH 0 1.02 1.02 0.00
12/06/95 13:00 RECORD NUMBER 1340 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 5. 0 MPH 1.7 4.7 9.1 SPD 33B 5. 1 MPH 1.8 4.2 9.2 SPD150A 5.0 MPH 0 2.1 4.5 9.1 SPD150B 5.1 MPH 2.2 4.3 9.1 SPD250 4.7 MPH 2.2 4.7 9.2 DIR 33A 49 DEG 0 1.7 21 DIR 33B 49 DEG 1.8 22 DIR150A 46 DEG 2.1 27 67 DIR150B 45 DEG 1.7 21 65 DIR250 44 DEG 2.1 25 62 TER 33A 44.9 F TER 33B 44.9 F TER150A 45.3 F ~ TER150B 45.3 F TER250A 45.5 F TER250B 45.6 F DT150-33A DT150-33B O.2 F/ 0' DT250-33A 0.5 F/ DT250-33B 0.6 F/ DEWPOINT 28.7 F RAIN 0.00 INCH 1.02 1.02 0.00
12/06/95 13:15 RECORD NUMBER 1341 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 4. 7 MPH 1.7 3.7 8.1 'PD 33B" 4. 8 MPH 1.8 3;2 8.2 SPD150A 5. 0 MPH 2. 3.5 8.1 1'.2 SPD150B 5. 5 MPH 3.3 8.1 SPD250 5. 2 MPH 2.2 3.7 8.2 DIR 33A 49 DEG 1.7 21 DIR 33B 47 DEG 1.8 22 61 DIR150A 49 DEG 2.1 DIR150B 48 DEG 1.7 21 65 DIR250 49 DEG 2.1 62 TER 33A 44.9 F TER 33B 44.9 F TER150A 45.3 F TER150B 45.3 F TER250A 45.5 F TER250B 45.5 F DT150-33A 0.1 F/ DT150-33B 0.2 DT250-33A 0.5 F/ DT250-33B 0.6 F/ 0 DEWPOINT 28 ' RAIN 0.00 INCH 0 1.02 1.02 0.00
12/06/95 13:30 RECORD NUMBER 1342 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 5.1 MPH 1.7: 3.7 8.1 SPD 33B 4.9 MPH 1.8 3..2 8.2 SPD150A 5.1 MPH 2.1 3.5 8.1 SPD150B 5.0 MPH 2.2 3.3 8.1 SPD250 5.2 MPH 2.2 3.7 8.2 DIR 33A 49 DEG 0 1.7 21 67 DIR 33B 46 DEG 1.8 22 6'1 DIR150A 42 DEG 2.1 DIR150B 41 DEG 1.7 21 D1R250 43 DEG ~ 2.1 25 62 TER 33A 44.9 F TER 33B 45.0 F TER1 50A 45.2 F TER150B 45.2 F
~~'ER250A 45.5 F TER250B 45.4 F 0 DT150-33A 0.1 F/ .0 DT150-33B 0.0 F/~~
DT250-33A 0.5 F/ h DT250-33B 0.5 F/ 0 DEWPOINT 28.7 F RAIN 0.00 INCH 1.02 1.02 0.00
If 12/06/95 13: 45 RECORD NUMBER 1343 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNIT CODE STDDEV MIN MAX SPD 33A 5.2 MPH 1.7 3.7 8.1 SPD 33B 5.2 MPH 1.8 3.2 8.2 SPD150A 5. 0 MPH ,0 2.1 3.5 8.1 SPD150B 5.4 MPH 2.2 3.3 8.1 SPD250 5.1 MPH 2.2 3.7 8.2 DIR 33A 48 DEG 0 1.7 21 67 DIR 33B 44 DEG 1.8 22 61 DIR150A 44 DEG 2.1 DIR150B 44 DEG 1.7 21 65 DIR250 48 DEG 2.1 62 TER 33A 44.9 F TER 33B 45.0 F TER150A 45.2 F TER150B 45.3 F TER250Q 45.5 F TER250B 45.4 F DT150-33A 0.1 F/ DT150-33B 0.0 F/ DT250-33A 0.5 F/ DT250-33B 0.5 F/ DEWPOINT 28.7 F 0.00 INCH 0 1.02 1.02 0.00
12/06/95 14:00 RECORD NUMBER 1344 GINNA PLANT ORIGINAL SENSOR NAME AVERAGE UNlT CODE STDDEV MIN MAX SPD 33A 4.9 MPH 1.7 2.7 7.1 SPD 33B 4.9 MPH 1.8 2..2 I 7.2 SPD150A, 5.5 MPH 0 2.1 2.5 7.1 SPD150B 4.8 MPH 2.2 2.3 7.1 SPD250 5.5 MPH 2.2 2.7 7.2 DIR 33A 48 DEG 1.7 21 67 DIR 33B 42 DEG 1.8 22 2.1 DIR150A DIR150B 47 47 DEG DEG '0 1.7 '1 27 67 65 DIR250 42 DEG 2.1 25 62 TER 33A 44.9 F TER 339 45.0 F TER150A 45.3 F 'ER150B 45;2 F. TER250A 45.5 F TER250B 45.5 F 0 DT150-33A 01 F/ 0 DT150-33B O.2 F/ DT250-33A o. DT250-33B 0.:" ."/ DEWPOINT 28. RAIN 0.0( :NCH 0 1.02 1.02 0.00
SECTION 10.2 FIELD DATA AND MAPS 10-6
TABLE 10.2 PLUME ARRIVAL/DEPARTURETIMES ARRIVAL" DEPARTURE
~DISTANCE EI TABLE ID.A 0.5 11:21 12:51 1.0 11:27 12:57 2.0 11D9 13:09 3.0 11:51 4.0 12:03 13:33 5.0 11:15 13:45 6.0 12:27 13:5?
7.0 12:39 14:09 8.0 12:51, 14:21 9.0 13:03 14:33 10.0 13:15 14:45 11.0 13:27 14:57 12.0 13:39 15:09 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) will be background. For readings, refer to post-plume radiological data shown on Tables 10.4 and ground'eposition 10.5. 10-7
e or<eye Ole<h I Figure 10.3 Hr 15 IVII N Aryeey I dier<< Plume Map 0-10 Mile <rrr
~~~alert Ih t I eL r rI Q .(-" -n).i eewM newt C/~~
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FIEL 5A.XLS TABLE 10.3A RADIOLOGICALSURVEY DATA (RG&E SURVEY TEAMS) CLOSED. DOSIMETRY CLOSED 'INDOWON OPEN OPEN WINDOW INCREMENT IODINE WINDOWAT CONTACT WINDOWAT ON CONTACT EXPOSURE CARTRIDGE PARTICULATE ZONE 3 FEET (mR/hr} (mR/hr} 3 FEET (mR/hr) (mR/hr) (mREM) (CPM) FILTER (CPM) 2.8E+03 2.8E+03 3.9E+03 3.9E+03 7.0E+02 3.1E+03 5.0E+02 1.3E+03 1.3E+03 1.8E+03 1;8E+03 3.3E+02 1.3E+03 2.4E+02 5.9E+02 5.9E+02 8.1E+02 8.1E+02 1.5E+02 6.1E+02 1.2E+02 D 2.8E+02 2.8E+02 3.8E+02 3.8E+02 6.9E+01 3.0E+02 7.3E+01 1.7E+02 1.7E+02 2.3E+02 2.3E+02 4.2E+01 1.9E+02 5.3E+01 1.1E+02 1.1E+02 1.5E+02 1.5E+02 2.8E+01 1.4E+02 4.4E+01 G 7.1E+01 7.1E+01 9.8E+01 9.8E+01 1.8E+01 9.9E+01 3.8E+01 H 5.1E+01 5.1E+01 7.0E+01 7.0E+01 1.3E+01 7.9E+01 3.4E+01 BKG BKG 5.5E+01 5.5E+01 1.0E+01 6.6E+01 3.3E+01 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
FIE 5A.XLS TABLE 10.3B RADIOLOGICALSURVEY DATA (COUNTY SURVEY TEAMS) CLOSED DOSIMETRY CLOSED WINDOW ON OPEN OPEN WINDOW INCREMENT . IODINE WINDOWAT CONTACT WINDOW AT ON CONTACT EXPOSURE CARTRIDGE PARTICULATE ZONE 3 FEET (mR/hr) (mR/hr) 3 FEET (mR/hr) (mR/hr) (mREM) (CPM) FILTER (CPM) 2.8E+03 2.8E+03 3.9E+03 3.9E+03 7.0E+02 5.1.E+03 7.9E+02 1.3E+03 1.3E+03 1.8E+03 1.8E+03 3.3E+02 2.2E+03 3.8E+02 5.9E+02 5.9E+02 8.1E+02 8.1E+02 1.5E+02 9.9E+02 1.8E+02 D 2.8E+02 2.8E+02 3.8E+02 3.8E+02 6.9E+01 4.8E+02 '9.9E+01 1.7E+02 1.7E+02 2.3E+02 2.3E+02 4.2E+01 3.0E+02 7.3E+01 1.1E+02 1.1E+02 1.5E+02 1.5E+02 2.8E+01 2.1E+02 5.5E+01 7.1E+01 7.1E+01 9.8E+01 9.8E+01 1.8E+01 1.5E+02 4.5E+01 H 5.1E+01 5.1E+01 7.0E+01 7.0E+01 1.3E+01 1.1E+02 4.0E+01 BKG BKG 5.5E+01 5.5E+01 1.0E+01 9.2E+01 3.7E+01 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 lpm for 10 mimutes), and field reading is with CDV-700.
Page 2
TABLE 10.4 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 3509 F 110 2300 G 69 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 780 11,000 C 350 4900 D 'I 60 2300 E 100 1400 F 66 920 G BKG 590 H BKG 420 I BKG 330 NOTE: BKG = Use actuai*back round readin of surve instrument bein used. 10-8
TABLE 10.5 POST-PLUME SURVEY DATA (FOR pR METERS IN pRIHR) ZONE 1 METER 1 CM A B C 350'00 760 160 1300 270 0 ?4 130
~~. E 46 77 F~~
~~G. H I~~
~
~~BKG BKG BKG BKG~~
~~'KG 'KG . 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-1 37 BA-140 LA-140 SR-89 pCI/M2 SR-90 pCI/M2 ZONE ACTIVITY pCI/M2 pCI/M2 pCI/M2 pCI/M2 pCI/M2 pCI/M2 CI/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 B 2.73E+01 5.20E+00 9.99E+00 6.02E-03 2.78E-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 D 5.70E+QQ 1.Q9E+00 2.09E+00 1.26E-03 5.81E-04 3.03E-05 3.00E-05 1.38E-06 1.26E-06 3.51E+00 6.67E-01 1.28E+00 7.73E-04 3.57E-04 1.86E-05 1.85E-05 8.49E-07 7.73E-07 2.30E+00 4.38E-01 8.43E-01 5.08E-04 2.35E-04 1.22E-05 1.21E-05 5.58E-07 5.08E-07 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 1.08E-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 8.48E-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
~~+4 a~~
~~H I 1 + 9Z:0'l GL 330 K I HOI93H-0'3Al333H V~~
~~'LC}}~~

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