Text

1987 Plume Exposure Emergency Preparedness Exercise & Addendum for New York State Ingestion Pathway Exercise.
	ML17261A670
Person / Time
Site:	Ginna
Issue date:	10/31/1987
From:	; ROCHESTER GAS & ELECTRIC CORP.
To:	;
References
	NUDOCS 8711300033
	Download: ML17261A670 (802)
	v • d • e

A NO ROCHESTER'GAS,AND ELECTRIC O 0 0

r,;

I ~ ~ 0 ~ 'I ~

ICOIO ~

1 % ~

~

'i P~

sill I D

o D 0 0 ll 87ii300033 87i03i 05000244 PDR ADOCN, F PDR

GENERAL ZNFORMATZON THE ROCHESTER GAS AND ELECTRIC CORPORATION GINNA STATION EMERGENCY PREPAREDNESS EXERCISE MANUAL 1987 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE AND ADDENDUM FOR NEW YORK STATE INGESTION PATHWAY EXERCISE OCTOBER 1987 Prepared by:

Rochester Gas and Electric Corporation CONTROLLED COPY NO.

ROCHESTER GAS AND ELECTRIC CORPORATION GINNA STATION 1987" PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE AND ADDENDUM FOR THE NEW YORK STATE INGESTION PATHWAY 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 Corporation, the State of New York, and Monroe and Wayne Counties will be evaluated. This package-is to be utilized by the Exercise controllers and observers to .initiate, control, and. evaluate the activities of the, participants in the exercise.

The Rochester Gas and Electric Corporation and the State of'New York approve this document as the standard for conduct in performance of the October 1987, unannounced, off-hours Plume Exposure Emergency Preparedness Exercise, and also the Addendum which will be used to conduct the subsequent New York State Ingestion Pathway Exercise.

THE ROCHESTER GAS AND ELECTRIC CORPORATION GINNA STATION 1987 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE AND THE NEW YORK STATE INGESTION PATHWAY EXERCISE INTRODUCTION PLUME EXPOSURE EXERCISE The Nuclear Emergency Response Plan (NERP) describes the emer-gency response capabilities for a nuclear emergency at the Ginna Station, including support from Federal, State, and local government agencies and private organizations. The Nuclear Emergency Response Plan provides for continuous emergency preparedness, including an annual exercise.

The purpose of the Plume Exposure Emergency Preparedness Exercise is to activate and evaluate major portions of the emergency response capabilities and other aspects of the Emergency Plan and associated Emergency Plan Implementing Procedures, in accordance with Nuclear Regulatory Commission (NRC) Regulation 10CFR50.47(b) and Appendix E. This Exercise will be with the participation of

( 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.

INGESTION PATHWAY EXERCISE The New York State Ingestion Pathway Emergency Response Plan describes the emergency response capabilities and responsi-bilities for a radiological. emergency affecting the State, including support from Federal, State, and local government agencies and private organizations. The State Ingestion Pathway Emergency Response Plan provides for continuous emergency preparedness, including a Federally-evaluated exercise to be conducted at' minimum 6-year frequency.

The purpose of the Exercise is to activate and evaluate major portions of the emergency response capabilities and other aspects of the New York State Ingestion Pathway Emergency Response Plan and associated Implementing Procedures, in accord-ance with Nuclear Regulatory Commission (NRC) Regulation-10CFR50.47(b) and Appendix E, NUREG-0654 and Federal Emergency Management Agency (FEMA) Draft Guidance Memorandum IN-1. This exercise will be with the participation of State of New York, selected counties within a 50-mile radius of the R.E. Ginna Nuclear Power Plant, the Department of Energy and the Rochester Gas and Electric Corporation in order to assess overall State emergency capabilities in response to a postulated event affect-ing the Ingestion Pathway.

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 R"

weather pattern 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 Addendum will contain information for the subsequent New- York State Ingestion Pathway Exercise. The Exercise Manual is subject to a limited, controlled distribution.

1987 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE AND INGESTION PATHWAY EXERCISE SCENARIO DEVELOPMENT COMMITTEE Wes Backus Dave Burke Robert Eliasz Gene Eng Richard Sullivan Richard Watts James Baranski Lawrence Czech Robert Bores

GINNA STATION 1987 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE TABLE OF CONTENTS:

FOREWORD INTRODUCTION LIST'F LATERS SCENARIO DEVELOPMENT'OMMITTEE'ABLE:

OF CONTENTS LZST. OF FIGURES PART I; GENERAL INFORMATION (WHITE TABS) 1.0 SCOPE AND OBJECTIVES 1.1 Scope 1.2 On-Site Objectives 1.3 Summary of Proposed Activities 2.0 Scope and Objectives Ingestion Pathway 3.0 Offsite Objectives and Proposed Activities 3.1 Offsite Objectives - Attachment A 3.2 Summary of Proposed Activities 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 ' TRAVEL INFORMATION 3.,1. Directions. to the Ginna Station 3.2 Directions to EOF, ESC'nd. JENC 3.3. Accomodations

4.0 REFERENCES

ABBREVIATIONS-ACRONYMS 4.1 References 4.2 Abbreviations-Acronyms 5.0 CONTROLLER AND EVALUATOR INFORMATION 5.1 Controller Instructions 5.2 Evaluation Instructions 5.3 Personnel Assignments

( 5' 5.5 Evaluation Packages Public Information and Rumor Control Questions 6.0 SCHEDULE OF EVENTS

GINNA STATION 1987 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE TABLE OF CONTENTS (Continued)

PART'Z SCENARIO INFORMATION (RED TABS) 7'.O'XERCISE SCENARIO 7.1 Initial Conditions 7.2 On-Site Sequence of Events

.7.3 Off-Site Sequence of Events 8.0 MESSAGE FORMS AND PLANT DATA SHEETS 9.0 ON-SITE RADIOLOGICAL AND CHEMISTRY DATA 9.1 Radiological Summary 9.2 In-Plant Radiation Data 9.3. Post-Accident Sampling Results-10.,0 METEOROLOGICAL AND OFF-SITE RADIOLOGICAL DATA 10.1 Meteorological Data 10.2'ield. Data and Maps 10.3 Deposition Data;

GINNA STATION 1987 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE TABLE OF CONTENTS:

(Continued)

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 Emergency Operations Center, Albany Figure 3.5 Map of State Office Building Campus, Albany Figure 3.6 Map of 50-mile Radius Around Ginna Section 5.0 Figure 5.1 Ginna: Exercise RG&E Controller Organization Section 9.0 Figure 9.1 Assumed Source Term Section 10.0 Figure. 10.1 Direction: of Plume Figure 10.2. Plume Map (0-1 mile)

Figure 10.3 Large Plume Map (0-10 mile)

Figure 10.4 Ginna Release Deposition Pattern (0-40 mile)

GINNA STATION 1987 PLUME EXPOSURE EMERGENCY PREPAREDNESS EXERCISE TABLE OF CONTENTS (Continued)

LIST'F TABLES

~ Section 1.0 Table 1.1 Proposed Onsite Activities Section 5.0 Table 5.1 RGSE Onsite Controller Organization Table 5.2 Offsite Controller Organization Section 9.0 Table; F 1 Assumed Release Quantities.

Table 9 ' Plant Vent Sample Table 9.3 Equilibrium Reactor Coolant Activity Table- 9.4 Post-Accident: Reactor Coolant Sample Table 9 ' Post-Accident'eactor Coolant Sample Table 9 ' Containment Sump Sample Table- 9 ' Containment Air Sample Table 9.8 Containment. Air Sample Table 9 ' Hydrogen Concentrations Table.. 9 '0 Boron, pH Section. 10.0 Table 10.1 Meteorological Conditions Summary Table 10.2 Forecast Information Table 10.3 Plume/Arrival Departure Times Table 10,4 Radiological Survey/Sampling Data Table 10.5 Post,-Plume Ground Survey Data (cpm)

Table 10.6 Post-Plume Micro-R/hr Data Table 10.7 Air Sample Isotopic Results

SECTION 1.0 SCOPE. AND OBJECTIVES

1.0 SCOPE AND ON-SITE OBJECTIVES PLUME EXPOSURE PATHWAY

~Sco e The 1987 Full Scale Emergency Preparedness Plume Exposure Pathway Exercise, to be conducted in October during off hours and unannounced, will simulate ~

accident events culminating in a radiological accident with resultant off-site releases from the Ginna Station (GS), located in Ontario, Wayne County, New York. The Exercise. will involve events that test the effective-ness of the Ginna Station Emergency Preparedness Program and the integrated capabilities of the emer-gency organizations of the State of New York, and the Counties of Wayne and Monroe. The Exercise will include the limited mobilization of state and local resources adequate to verify their capability to respond to an accident.

addition to evaluating on-site activities, the U.S.

Nuclear Regulatory Commission will participate in the Exercise co-locating personnel in the various licensee Emergency Response Facilities. The Federal Emergency Management Agency will evaluate off-site activities.

2'n The exercise objectives are provided as separate sections, divided into the objectives for the Plant (Section 1.2) and those of each'tate/local agency (Section 1.3). A summary of proposed activities is delineated in Section 1.4, following the attachments.

1. Prelimina On-Site Ob'ectives for the 1987 Ginna Evaluated Plume E osure Pathwa Exercise The: major objective of the exercise is to demonstrate the response capabilities of the Rochester Gas and Electric Emergency Response Organization. Within this overall objective, numerous individual. objectives are specified as follows:

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

1.2.2 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 restric-tions).

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

Demonstrate the adequacy of facilities and displays and

~

the utilization of procedures to support emergency operations.

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

Demonstrate the ability to mobilize and deploy Radi-ation Survey Teams.

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

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

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

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

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

Demonstrate- the ability to periodically update- off-site officials and agencies of. the status of the emergency based on data: available at GS.

Demonstrate the. ability to. notify emergency support pools: as appropriate (i.e., XNPO, ANX, etc.) .

Demonstrate the ability to notify on-site personnel using plant alarms and public address systems.

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

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

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

~

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

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

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

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

Demonstrate the ability. to provide advance coordination of information released to the public. II Demonstrate the ability to establish and operate rumor control in a coordinated fashion.

Demonstrate the adequacy of in<<plant post-accident sampling techniques and analysis.

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

Demonstrate the adequacy of Fire-Fighting practices and procedures.,

Demonstrate the= adequacy of corrective measures taken to .remedy the areas identified for improvement at the conclusion of previous. exercise (Inspection No.50-244/-

86-13) .

~Summa of ~Pro used Activities Table'.l provides a list of, proposed RG&E activities and simulations..

TABLE 1 1 ~

1987 GINNA STATION EMERGENCY. PREPAREDNESS EXERCISE PLUME EXPOSURE PROPOSED ONSITE ACTIVITIES RG&E Notification of Agencies Actual Call up of Personnel Actual Activate. Organization Actual Maintain Security Actual Conduct Dose Assessment Actual PAG Recommendation Actual Operate Joint News Center Actual EPZ Siren Activation N/A Route Alerting N/A EBS Message Broadcast N/A Dispatch Field Survey Teams Actual-5 Exchange of Field Data Actual Reception Center Setup N/A Congregate Care Center N/A School Bus- Run N/A General Population-N/A'/A.

Traffic Control Points; Road Impediments N/A Coast Guard (notify only) N/A Mobility Impaired N/A

TABLE 1.l Cont'd

( Simulations o Respiratory protection and protective clothing will be simulated by onsite/offsite survey teams. Znplant teams will don such protection at the Controller's discretion.

o Call out of offsite fire companies will be simulated.

o Acceleragraph film retrieve@ and development will be simulated.

Notification of offsite film processor will be made.

2.0 SCOPE AND ON-SITE OBJECTIVES INGESTION PATHWAY 2.1 Zn addition to the Plume Exposure Pathway Exercise, an Zhgestion Pathway Exercise will be conducted during normal working hours on the second day following the Plume Exposure Pathway Exercise.

New York State Radiological Emergency Preparedness Group will have the lead in coordinating the activation of local, State-, and Federal agencies as appropriate to demonstrate the effectiveness of the New York State Emergency Preparedness Program.

All such activities- will be evaluated by the Federal Emergency Management Agency.

2 ' Prelimina On-Site Ob ectives EOF 2.F 1 Demonstrate ability to deploy and coordinate environ-mental sampling teams (0-10 miles), Teams will be s imulated.

2~2~2 Demonstrate ability to evaluate laboratory data and/or field measurements and provide appropriate PAR'S and interface to. New York State.

( 2 ' ' Provide interface with Assessment and New York State Post-Accident in Public Information functions as needed.

3.0'FFSITE'BJECTIVES AND PROPOSED ACTIVITIES 3.1, The off-site agencies'bjectives and Proposed Activ-ities are found as follows:

AcCe~nc Attachment.

State of New York A Monroe. County A Wayne County A The off-site exercise objectives are written in reference to the FEMA Example Exercise Objectives.

3 ~ 2 Summa of Pro osed Activities Attachment A also lists a summary of proposed activi-ties for the 1987 Ginna Emergency Preparedness Exer-cise. The listing describes, by organization, if an activity is to actually be accomplished or is to be simulated. A blank space denotes that the activity does not. apply that particular agency.

ATTACHMENT A STATE OF NEW YORK MONROE COUNTY AND WAYNE COUNTY FINAL OBJECTIVES'CTOBER 1987

PROPOSED EXERCISE OBJECTIVES FOR THE 1987 GINNA. EXERCISE Rev. 8/26/87 New York State State Emer enc Onerations Center SEOC SEOC -1 Demonstrate the ability to communicate with all (CO -5) appropriate locations, organizations, and field support.

Guidelines: State, counties and the utility should establish appropriate communication links.

Systems include RECS line, executive hot-line and commercial lines, RACES, radios and telefax. The RECS line will, be used as the= primary system to receive information from the licensee. Also, the ability to receive and verify the initial and follow-up emergency notification from the licensee will be observed. (No simulated failures are to be= evaluated. Back-up systems. are to be used in the event of actual failure of the primary. systems.

SEOC'2 Demonstrate the ability to mobilize staff and activate (CO -1) the State EOC in a timely manner.

Guidelines: Proper use of call-up procedures, and timely arrival of staff and, setting up of EOC.

SEOC -3 Demonstrate the adequacy o f facilities and displays to (CO -4) support emergency operations.

Guidelines: Ensure measures are in place to control access to EOC areas; identif ication badges are verified; ingress and egress logs are maintained.

Messages are transmitted in an accurate and timely manner, messages are to be properly logged, status boards are accurately maintained and updated, appropriate briefings are held and incoming personnel are briefed. Sufficient equipment (e.g., furniture, space, ligh"ing, telephones and status boards) should be available.

(.

SEQC -4 Demonstrate the ability to make decisions and to (CO -3) coordinate emergency activities.

Guidelines: Individual acting in command G cont ol for decision making must be clearly in charge, tak'ng into account all critical parameter (e.g., evacuation time estimates, available resources, met data, 'etc. ) .

SEOC -5. Demonst ate the ability to fully staff facilities and (CO -2) maintain staffing around the clock.

Guidelines: An actual shift change involving all key staff must be observed. The shift change. must show 24.

hour coverage. Agencies that have demonstrated 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months .

coverage in previous exercises will-be given credit for meeting this objective.

SEOC -6 Demonstrate the ability to identify the need for, (CO -32) request and obtain Federal assistance.

Guidelines: This issue will be evaluated as a command and control function. The decision maker will be asked about the circumstance under which he would request Fede'ral assistance.

SEOC'7 Demonstrate the ability to project dosage to. the public (CO -10) via the plume exposure, based on plant and field data, and to determine appropriate protective actions based, on PAG's, available shelter-, evacuation time estimates, and all other appropriate factors.

Guidelines: Dose assessment an'd- accident evaluation personnel will provide recommendations to the decision maker. based upon utility recommendations, independent recommendations'rom accident assessment group and off-site factors. Command and control will make decision based on inputs from the various sources.

all, factors will be carefully analyzed before a decision- is made..

SEOC -8 Demonstrate the ability to provide advance (CO -25) coordination of information released.

Guidelines: Coordinate among NYS and 2 counties for the decision to simulate the activation of the sirens and the subsequent activation of the EBS.

SEOC -9 Demonstrate the ability to supply and administer KI, if (CO -22) the decision has been made to do so.

Guidelines: The decision making process for Kl will discussed after the release occurs. In the event the scenario does not yield a significant iodine release that warrants. KI usage, emergency workers should know who will direct them to take KI.

SEOC Demonstrate the ability to make decisions and to ING -1 coordinate emergency activities within the ingestion (CO -3) pathway exposure emergency planning zone.

Guidelines: Command and control decisions based on inputs 'rom- various sources. all factors will be carefully analyzed before a decision is made.

SEOC Demonstrate the ability to communicate with all ING -2 appropriate locations, organizations,and field (CO -5) personnel; special emphasis will be on communications between field monitoring and sampling teams and their control points.

Guidelines: Communications include radio, telefax and commercial lines.

Demonstrate the ability to project dosage to the SEOCNG'3 public via ingestion pathway exposure, based on, utility (CO -11) and. field data and to determine appropriate protective actions, based on the PAG's and other relevant factors Guidelines: Dose assessment and accident evaluation personnel will provide these recommendations to decision makers SEOC'NG'4 Demonstrate the ability to implement preventive and emergency protective- actions- for the ingestion (CO -12) exposure pathway hazards.

Guidelines: Command and Control will analyze situation including staff input and issue a decision to the respective agencies for implementation.

SEOC Demonstrate the ability to mobilize and deploy ING -5 collection teams in an timely fashion.

(CO- =6)

Guidelines: 5 State ingestion team members will be notified during the inhalation portion of the exerc'se and then pre-positioned at one of the appropriate SEMo district office at the beginning of the ingestion phase. Equipment checkout, team briefings and the current status and dispatching to field monitoring sample points will be conducted.

The 5 teams will actually be deployed in the 50 mile EPZ. Dose assessment will be done solely with State input. Other State agency teams may simulate activity.

Brookhaven National Laboratory/DOE will assist per the Federal Monitoring and Assessment Plan.

SEOC Demonstrate appropriate equipment and procedures for ING -6 laboratory measurement and analysis of approporiate radioisotope deposition in food and environmental samples.

Gu'idelines: Selected field samples will be delivered to the DOH labs, Albany. The lab techniques will not be evaluated. Data for the samples will be provided by

a. controller to the appropriate exercise participants.

Upon arrival at the lab, sorting, diluting and labeling of samples, procedures for preventing laboratory contamination and cross contamination and, some sample preparation will be evaluated. Laboratory analytical capabilities will be documented by the NRC and provided to FEMA.

SEOC Demonstrate the ability to estimate total population ING-7 exposure.

(CO-34}

Guidelines: The. methodology and consultative processes used to determine total population exposure will be evaluated., Actual calculations for determining population exposures will, not be evaluated.

SEOC Demonstrate the ability to formulate and distribute ING-S appropriate instructions to the public in a timely JNC-X manner.

(CO-l4,)

Guideline: The only portion of information that will be operational will be the State function responsible for the distribution of information to the public. This objective will be demonstrated out of the SEOC for the purpose of this- exercise. No rumor control, media response- nor issuance of EBS will be evaluated", however, the capability for these will be observed.

Western District Emeraenc 0 eratin Center WDEOC WDEOC-1 Demonstrate the ability to mobilize staf f and activate (Co-1) the WDEOC in a timely manner.

Guideline: Proper use of the call-up procedures and timely arrival of staff and setting-up of EOC.

WDEOC-2 Demonstrate the adequacy o f facilities and displays (CO -4) to support emergency operations.

Guidelines: Ensure measures are in place to control access- to EOC areas; identif ication badges are verified; ingress and egress logs are maintained.

Messages, are transmitted in an accurate and timely manner., messages are properly logged, status boards are accurately maintained and updated, appropriate briefings are held, and- incoming personnel are briefed.

Sufficient equipment (e.g.,furniture, space, lighting, telephones and status boards) should be available.

WDEOC-3 Demonstrate. the ability to make decisions and to (Co-3) coordinate. emergency activities.

Guideline: Individual acting in & control= for assisiting in implementing State EOC activities must be in charge.

WDEOC-4 Demonstrate the ability to communicate with all (Co-5) appropriate locations, organizations, and field personnel.

Guideline: Communications include RECS line, and commercial lines. (Note: No simulated failures are to "be evaluated.

Back-up systems are to be used in the event actual failure of the primary system) .

NDEOC-5 Demonstrate the ability to fully staff facilities (CO-2) and maintain staf fing around the clock..

Guideline: Same as SEOC-5, (C0-2).

Lake District Emer enc 0 eratin Center LDEOC LDEOC-1 Demonstrate. the ability to mobilize: staff and'ctivate (CO-1) the LDEOC in a timely manner.

I Guideline: Proper use of the call-up procedures and timely arrival of staff and'etting-up of EOC.

LDEOC-2 Demonstrate the adequacy of facilities and displays (CO-4) to support emergency operations..

Guidelines: Ensure measures are in place to control access to EOC areas; identification badges are verified; ingress and egress logs are maintained,.

Messages are transmitted in an accurate and timely manner, messages are properly logged, status boards are a c cur a t e 1 y maintained and. updated., appropriate briefings are held and incoming personnel are briefed.

Sufficient equipment (e.g. furniture space, lighting, telephones and status boards) should'. be available.

LDEOC-3 Demonstrate the ability to make decisions and to (CO-3) coordinate emergency activities.

Guideline: See NDEOC-3, (CO-4) .

LDEOC-4 Demonstrate the ability to communicate with all (CO-5) appropriate locations, organizations:, and'ield personnel..

Guideline: Communications include RECS: line, executive command line, and commercial lines. (Note:

No simulated failures are to be evaluated.

Back-up systems, are to be used in the'vent of actual failure of primary systems) . Zf appropriate, capability for receiving field measurement data from sampling teams will be evaluated.

LDEOC Demonstra" e the ability to communicate with all ENG-2 appropriate locations, organizations and field (CO-5) personnel.

Guideline: Communication with. field, sampling team will be by u e of radio.

LDEOC-5 Demonstrate the ability to mobilize and deploy sample ZNG -5 collection teams in a timely fashion.

(CO -6)

Guidelines: 5 State ingestion team members will be notified and pre-positioned at the district office.

Equipment checkout, team brie f ing and the current status and dispatching to f ield monitoring sample points will be conducted.

LDEOC-6 Demonstrate the ability to fully staff facilities ..--

(CO-2) and maintain staffing around the clock.

Guideline: Same as SEOC'5, (CO-2)

LDFA-1 Demonstrate appropriate equipment including. persarral (CO-9) dosimetry and procedures for the collection and XNG transport of samples of soils, vegetation, snow, water and milk.

Guideline: Selected samples will be delivered to DOH lab, Albany, from the area of potential impact.

protective clothing will not be worn for the duration of the ingestion pathway exercise. supplies of.

protective clothing, including hand and foot covering

( can be worn for evaluation, then removed.

Emer enc Ooeratin Facilit EOF EOF-1 Demonstrate the ability to mobilize staff and activate (CO-1) State functions at the EOF in a timely manner.

Guideline: The State representative will not ;be -pre-positioned. State representative-- will demonstrate an appropriate arrival time, at the Alert ECL. Local State ,EOF repesentative will activate in accordance with procedures.

EOF-2 Demonstrate the ability to communicate with all (CO-5) appropriate locations, organizations, and field personnel.

Guideline: Communications include RECS line, RACES, radios, telefax, and commercial lines.

(Note: No simulated failures are to-be evaluated. Back-up systems are to be used in the event of actual failure of the

, primary systems). Commercial telephone lines will be the primary system

EOF-3 Demonstrate the adequacy of facilities and displays to (CO-4-) support emergency operations Guidelines: Same as SEOC -3, (CO-4).

EOF-4 Demonstrate the ability to fully staff facilities and (CO-2) and maintain staffing around the clock.

,Guideline: 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months 'apability will be shown by ~

roster.

Monroe Count Emeraenc 0 eratin Center EOC MEOC-1 Demonstrate the ability to communicate with all (CO 5) appropriate locations, organizations, and field personnel.

Guidelines: Communications include RECS line, executive command line, Races, radios, tele fax and commercial lines. The RECS line will be used to receive in formation from the licensee. The commercial telephone will be used as a backup. The County will Ontario-Midland Railroad. (Note:

are to be evaluated).

'o also communicate with the U. S. Coast Guard and the simulated failures MEOC-2 Demonstrate the ability to mobilize staff and activate (CO-1) facilities promptly.

Guidelines: Proper use of call-up procedures, and timely arrival of staff and setting up of the EOC.

Albany based staff will arrive at the Alert ECL.

MEOC-3 Demonstrate the adequacy of facilities and displays to (CO-4), support emergency .operations Guidelines: Ensure, measures are in place to control access to EOC areas; identif ication badges are verified; ingress and egress logs are maintained.

Messages are transmitted in an accurate and timely manner, messages are properly logged, status boards are accurately maintained and updated, appropriate briefings are held and incoming personnel are briefed.

Sufficient equipment (e.g., furniture, space, lighting, telephones and status boards) should be available.

Demonstrate the ability to make decisions and to

MEOC-4 (CO-3) coordinate emergency activities.

Guidelines: Individual acting in command and.control for decision making must be clearly in charge taking into account all critical parameters (e.g., evacuation time estimates, available resources, met data, etc. ) .

MEOC-5 Demonstrate the ability to fully staff the facility-(CO-2) and maintain staffing around the clock.

Guideline: 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months capability can be shovn by roster MEOC-6 Demonstrate the ability to project radiation. dosage to (CO-10) the public via plume exposure, based o'n 'j5TKht data and and field data, and to determine appropriate- protective, measures, based on pAGs available=svbeTLevr, evacuatron time estimates,and other appropriate factors; Guideline: Dose assessment and accident evaluation personnel vill decision makers.

provide these recommendations to HEOC-7 Demonstrate the ability to alert the public- within the (CO-13) 10-mile EPZ,, and disseminate an instructional message, within 15 minutes.

Guidelines: Coordination of public alerting-.and the -...

prompt alert notification system vith Wayne- County. and .

New York State. The EBS will be activated and each County will simulate activation of"-the. sirens,.

MEOC-8 Demonstrate the organizational ability and resources (CO-15) necessary to manage an orderly evacuation of-.all or

~ =-

part of the 10 mile EPZ.

Guideline: Command and Control will analyze the situation including staff in'put and- issue a decision to the respective agencies for implementation.

MEOC-9 Demonstrate the organizational ability to- deal with (CO-16) impediments to evacuation, such as inclement weather or traffic obstruction. Resources will actually be deployed.

Guideline: Command and Control vill analyze situation including staff input and issue a decision to the respective agencies for implementation.

MEOC-10 Demonstrate the organizational ability necessary 'o (CO-17) control access to an evacuated area=.

Guideline: No resources vill be deployed.

MEOC-11 Demonstrate the ability to identify the need for, (CO-.3'2) request and obtain State assistance(if warranted).

Guideline: This ability will be demonstrated if County should determine that this ac tion is necessary.

the FIELD ACTIVITY MCFA-1 Demonstrate the ability to continuously monitor and (CO-20) control emergency worker exposure Guidelines: Emergency workers should have high range and low range dosimeters, TLD's, know reporting exposure limits to supervisors and the proper use of dosimeters. Emergency workers are knowledgeable on procedures and systems for obtaining permission to exceed limits as defined by respective county plans.

This guideline will also include State emergency workers.

MCFA-2 Demonstrate the ability to mobilize and deploy field (CO-6) monitoring teams in a timely manner.

Guideline: Proper use of the call out system, equipment checkout, team briefing on current status and dispatching to radiological field monitoring sample points.

. MCFA-3 Demonstrate appropriate equipment and procedures for (CO-7) determining ambient. radiation levels.

Guidelines: Teams members shall set-up and operate the instruments correctly including recording of data and reporting of data to the EOC.

MCFA-4 Demonstrate appropriate equipment'nd procedures for (CO-8) measurement of airborne radioiodine concentrations as low as 10-7 uCi/CC in the presence of noble gas.

Guidelines: Teams shall set-up equipment and collect

'an air sample, read the sample= and record the data, and transmit the data to the EOC.

MCFA-5 Demonstrate the ability to provide backup 'public (CO-13 ) alerting procedures, If necessary, in the event of partial siren system failure.

Guidelines: This activity is to simulated. The police will be notified but not deployed. Dioscussion will take place at the EOC MCFA-6 Demonstrate that information on emergency actions has (CO-,14) has been provided to permanent and transient population within the 10 mile EPZ.

Guidelines: Brochure distribution documentation frcm NYS to FEMA will meet this ob j ective. Additionally, the annual certification will serve to verify that information has been distributed.

MCFA-7 Demonstrate the organizational ability and resources, (CO-17) necessary to estasblish a traffic control point.

Guidelines: Traffic control point will be set up and observed.

MCFA-8 Demonstrate the ability to supply and administer KX, (CO-23.) if the decision has been made to do so.

Guidelines: The decision making process for KZ usage will be discussed after the release occurs. Emergency workers should know who will direct them to take KI.

MCFA-9 Demonstrate the organizational ability and resources (CO-15) necessary to manage an orderly evacuation of all or part: of the plume EPZ.

Guidelines: Messages will be inserted, at the County EOC to the Command and Control. Xnformation will be passed to the appropriate agency for action and dispatching of one (1) bus, run.

MCFA-10 Demonstrate a sample of resources necessary to deal (CO-3.6) with impediments to evacuation, as inclement weather or traffic obstruction.

Guidelines: Appropriate resources are dispatched to scene..

MCFA-11 Demonstrate the adequacy of procedures for registration (CO-27) and radiological monitoring of evacuees over a 24 hour period.

Guidelines: Within a twelve (12) hour period, there should be enough personnel a'nd equipment capable of monitoring all residents and transients in the plume exposure EPZ arriving at the reception center. A center not utilized in previous exercises should be used for this exercise. This will be set up out of sequence .~ith the exercise.

8'l MCFA-12 Demonstrate the adequacy of facilities for mass care of (CO;28) evacuees.

Guidelines: At least three ARC staff will a rive and function as shelter managers, registrar and staff members. Once the ARC is told how many people to expect, they should have access to personnel to cover the initial 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months operation, explain support=

agreement and have floor plans for set up of the center This will be set up out of sequence with the exercise.

MCFA-13 Demonstrate adequate procedure and equipment for disposal of contaminated waste (e.g., clothing).

MCFA-14. Demonstrate the organizational ability and resources (CO-19) necessary to effect an orderly evacuation of schoos within the plume EPZ.

Observer will go to the bus garage, contact dispatcher, ride bus (van) to the school and then to school reception center. Bus drivers knowledge of dosimetry will be observed.

Wa ne Count Emer encv 0 eratin Center EOC WEOC-1 Demonstrate the ability to communicate with all (CO-5) appropriate locations, organizations, and field personnel.

Guidelines: See MEOC-l, (CO-5)

WEOC-2 Demonstrate the ability to mobilize staff and activate (CO-1) facilities promptly.

Guidelines: See MEOC-2, (CO-1)

WEOC-3 Demonstrate the adequacy of facilities and displays to (CO-4) support emergency operations.

Guidelines: See MEOC-3, (CO-4)

WEOC-4 Demonstrate the ability to make decisions and to (CO-3) coordinate emergency activities.

Guidelines: See MEOC-4, (CO-3)

WEOC-5 Demonstrate 0he ability to fully staff the facility (CO-2) and maintain staffing around the clock.

Guideline: See MEOC-5, (CO-2)

WEOC-6 Demonstrate the abxlzty to prospect radxatzon dosage (CO-.10) to the public via the plume exposure, based on plant data and field data, and to determine appropriate protective measures, based on PAGs, available shelter, evacuation time estimates, and other appropriate factors.

See MEOC-6, (CO-10)

(CO-13'uideline:

WEOC-7 Demonstrate the ability to alert the public within the 10-mile EPZ, and disseminate an instructional message within 15 minutes.

Guideline: Coordination of the public alerting and the prompt alert notification system with Monroe County and New York State. The EBS will be activated and each County will simulate activation of the sirens.

WEOC-8 Demonstrate the organizational ability and resources (CO-15) necessary to manage an orderly evacuation of all or part of the 10-mile EPZ.

Guideline: See MEOC-S, (CO-15)

WEOC-9 Demonstrate the organizational ability to deal with (CO-16) impediments to evacuation, such as inclement weather or traffic obstruction.

Guidel'ine: This activity will be simulated.

WEOC-10 Demonstrate the organizational ability necessary to (CO-17) control access to an evacuated area.

Guideline: See WEOC-9 WEOC-11 Demonstrate the. ability to identify the need for, (CO-32) request and obtain State assistance (if warranted).

Guideline: See MEOC-12, (CO-32)

NEOC-12 Demonstrate the ability to effect an orderly evacuation (CO-23) of onsite personnel.

Guidelines: Coordination with NFO of evacuees, per the plan, is to be observed.

FIELD ACTIVITY NCFA-1 Demonstrate the ability to continuously monitor and (CO-20) control emergency worker exposure.

Guidelines: See MCFA-l, (CO-20)

WCFA-2 Demonstrate the ability to mobilize and deploy field (CO-6) monitoring teams in a timely manner.

Guidelines: See MCFA-2, (CO-6)

WCFA-3 Demonstrate appropriate equipment and procedures for (CO-7) -

determining ambient radiation levels.

Guidelines: See MCFA-3,(CO-7)

WCFA-4 Demonstrate appropriate equipment and. procedures for (CO-8) measurement of airborne radioiodine concentrations, as low as 10-7 uCi/CC in the presence, of noble gas.

Guidelines: See MCFA-4,(C0-8)

WCFA-5 Demonstrate the ability to provide backup public (CO-13) alerting procedures, if necessary, in the event of a partial siren system failure.

Guideline: The route alert drivers, members of the Ontario Fire Department, will be interviewed at their point of deployment., about route alerting procedures. Updated maps will be observed, adequacy of the number of vehicles and also knowledge of . KI procedures and exposure control will be ascertained.

WCFA-6 Demonstrate the ability to formulate and distribute (CO-14) appropriate instructions to the public in a timely fashion.

Guidelines: See MCFA-6, (CO-14)

WCFA-7 Demonstrate the organizational ability and resources (CO-17) necessary to control access to an evacuated area.

Guidelines: This is to be simulated.

WCFA-8 Demonstrate the ability to supply and administer KI, (CO-21) if the decision has been made to do so.

Guideline: See MCFA-8, (CO-21)

WCFA-9 Demonstrate the organizational ability and resources (CO-3.5) necessary to manage an orderly evacuation of all or part of the plume EPZ.

( Guideline: See MCFA-9, (CO-15)

WCFA-10 Demonstrate a sample of resources necessary to deal (CO-16) with impediments to evacuation, as inclement weather or traffic obstruction.

Guideline: This activity will be simulated.

WCFA-11 Demonstrate the adequacy of procedures for registration (CO-27) and radiological monitoring of evacuees over a 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months .

period.

Guidelines: See MCFA-11, (CO-27)

WCFA-12 Demonstrate the adequacy of facilities for mass care of (CO-28) evacuees.

Guidelines: See MCFA-12, (CO-12)

WCFA-13 Demonstrate adequate procedure and equipment for disposal of contaminated waste (e.g., clothing).

WCFA-14 Demonstrate adequate equipment and procedures for (CO-29) decontamination of emergency workers, equipment and, vehicles.

1 Guidelines: Procedures for disposal of liquid waste should be demonstrated.

WCFA-15 Demonstrate the organizational ability and resources (CO-19) necessary to effect an orderly evacuation of schools within the plume EPZ.

Guidelines: See MCFA 14 Joint News Center JNC-1 Demonstrate the ability to mobilize staff and activate (CO-1) the facility promptly.

Guidelines: The County staff will respond in accordance with their notification procedures. The State PIO will demonstrate an appropriate arrival. time, at the Alert ECL.

JNC-2 Demonstrate the ability to brief the media in a clear, (CO-24) accurate, and timely manner.

Guideline: Assure that all necessary information is presented to the media in press releases in a timely manner. All required personnel will be present at the briefings unless EBS messages or news release preparation is determined by respective PIO to take priority.

JNC-3 Demonstrate the ability to communicate wit:h all (CO-5) appropriate locations, organizations and field personnel.

Guidelines: Coordination among personnel to ensure information for release is known to all Counties, State and participating licensee procedures").

(i.e., "sign off JNC-4 Demonstrate the ability to establish and operate (CO-26) rumor. control in a coordinated fashion..

Guideline: The State, Counties, and licensee will respond accurat:ely to incoming calls based on scenario information.

JNC-5 Demonstrate the ability to fully staff facilities (CO-2) and maintain staffing around t: he clock.

Guideline: 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months staffing is to be provided via shift change. NYS will demonstrate 24 hour coverage via roster.

JNC-6 Demonstrate the adequacy of facilities and displays (CO-4) to support emergency operations.

Guideline: This activity will be part of the

.utility's evaluation and will not appear in the off site evaluation JNC-7 Demonstrate the ability to alert the public within the (CO-13) 10-mile EPZ, and disseminate an initial instructional message, within 15 minutes.

Guidelines: The initial simulated alert signal and the (test) instructional message issued via the Emergency Broadcast System must be aired within 15 minutes after the -authorized public of ficials reach a decision which requires activating the alert and notification system. Subsequent messages must be read in 15 minutes after the decision to do so has been made (i.e., this will have been met if the first two words of the message are read into the telephone at the JNC prior to the end of the 15 minutes.

(i.e. the first two words have been read into the telephone at the JNC.

Demonstrate the ability to formulate and distribute appropriate instruction to the public in a timely manner.

Guideline: Information and recommendations shall be prepared and provided to the public in a manner consistent with the. needs for public response. This may be- accomplished through EBS messages, news releases,, newspapers, telephone and/or radio and television.

TABLE 1 1

~

1987 GINNA STATION EMERGENCY PREPAREDNESS EXERCISE PROPOSED ACTIVITIES MONROE WAYNE RG&E NYS COUNTY COUNTY Notification of Agencies Actual Actual Actual Actual Call up of, Personnel Actual Actual Actual Actual Activate Organization Actual Actual Actual Actual Maintain Security Actual Actual Actual Actual Conduct Dose Assessment Actual Actual Actual Actual PAG Recommendation Actual Actual Actual Actual Operate Joint News Center Actual Actual Actual Actual EPZ Siren Activation N/A S imulate** S imulate**

Simulate**

Route- Alerting N/A N/A Actual(1)

Actual(1)

EBS Message Broadcast N/A Simulate** Simulate**

Simulate**

Dispatch Field Survey Teams Actual-S N/A Actual (2)

Actual(2)

Exchange of Field Data Actual Actual Actual Actual Reception Center Setup N/A N/A Actual (1)

Actual (1)

Congregate Care Center N/A N/A Actual (1)

Actual (1)

School Bus Run N/A N/A Simulate Simulate General Population N/A N/A Simulate(1)

Actual(l)+

Traffic Control Points N/A N/A Actual (1)

Simulate

( Road Impediments Simulate N/A N/A Actual(1)

SECTION 2.0 EXERCISE INFORMATION

2.0 EXERCISE INFORMATION The. participants in the Exercise will include the following:

2.1.1 h *h

a. Control Room b; Technical Support Center (TSC)

c. Operations Support Center (OSC) d.. -

Emergency Survey Center

e. -

Emergency Operations Facility (EOF)

f. Joint Emergency News Center (JENC)

g. Engineering Support Center (ESC) 2 ~ Emer a4 Radiation Survey Teams (RSTs)

b. First Aid Team (if necessary) c ~ Emergency OSC Teams d Security Force 0'..

Post Accident;

f. Chemistry/HealthSampling System (PASS) Team Physics Support gi Fire Brigade (if necessary) 2 ~ l. 2'ff-Site A encies Or anizations Limited participation of the following Agencies/

Organizations is expected:

Federal

a. Nuclear Regulatory Commission (NRC)

b. United States Coast Guard (USCG)

c. Federal Emergency Management Agency (FEMA) 2 ~ State

a. New York State Emergency Management Offices

b. New York State Radiological Emergency Preparedness Group 3 ~ Local

a. Wayne County

b. Monroe County 2-1

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 prepara=.- ~

tions- including the development of the- scenario and control-ler 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 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, teams.

if appropriate, its associated Controllers for teams or sub areas of a facility report to the Lead, Controller of that'acil-.

ity.

2 ~ The Controllers will deliver "Exercise Messages" to 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.

2-2

3 ~ 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 and 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 green arm 2 ' ' ~Pla ers include diana 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 off-site organizations and agencies (county, State, and private. industry) are participants in the Exercise as described in their respective Emergency Plans and, Standard Operating Procedures.

2 ' ' Observers. from The Rochester Gas and Electric Corpor-ation and other organizations may be assigned to participate in the Exercise solely for the purpose of observing/evaluating Exercise activity. They will be provided with orientation information and appropriate exercise publications.

Observers will.be identified b~ w~earin maroon arm will be identified. b~ w~earin blue K-a arm bands with white Visitors from the Rochester Gas and Electric Corpor-ation and other organizations may be assigned, on a limited basis, for the sole purpose of observing exercise activities for personal education. Visitors will be identified by wearing white arm bands with black lettering stating "Visitor". They will be provided with orientation information and appropriate exercise publications.

2-3

2 ' ' Requests to participate as a Visitor should be made in writing and contain the Visitor's full name, home address and phone number, and organizational affili-ation. Requests to participate as Visitors must be submitted to the RG&E Corporate Emergency Planner (CEP) no later than one week before the Exercise.

2..3 During the Exercise:, special facilities must be activated to manage, assess; and support emergency response.

RG&E Facilities The Rochester Gas and Electric Corporation Emergency Response Facilities are:

1. Control Room The Ginna Station 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 Control Room. is- located off the Turbine Building on the Operating floor.

Technical ~Su crt: Cenaez'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 (see Figure 2.2). The Plant Superintendent relieves the Shift Supervisor as Emergency Coordinator and directs activities from the TSC. The TSC is the location, from which technical management personnel utilize informa-tion 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 off-site agencies, and will perform other functions of the EOF until the EOF is activated.

(

2-4

(

3 ~

The OSC, located in the TSC provides a location where

~

emergency response teams can be assembled and coordi-nated 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.

4. ~a LK The EOF, located in the basement of 49 East Avenue in Rochester will be activated, for emergency conditions classified as a Site Area Emergency or General Emer-gency (optional for the Alert status). The EOF/

Recovery Manager directs the activities of the EOF/

Recovery Organization from the EOF. The Emergency Coordinator reports to the EOF/Recovery Manager. The EOF is the command post for coordination of response measures with off-site organizations, assessment of radiological and environmental conditions and deter-mination of recommended protective actions for the public. The EOF also provides direction and management of recovery operations..

~ 5..

The JENC'ocated 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 RG&E Corporation, County, State, and Federal officials and will be activated for emergency conditions classified as a Site Area Emergency or General Emergency (optional for the Alert status).

2. 4- Exercise Conduct 2.4. 1 Overview The Exercise will simulate an abnormal radiological incident at the 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 off-site emergency response organizations/ agencies. The Exercise will also simulate an off-site radiological release which will require deployment of Ginna Station, and Wayne. and Monroe County radiological survey teams for off-site monitoring.

2-5

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 the Exercise will. then be terminated.

Actions Emergency response actions during the= simulated emergency will include: recognition and classifi-cation of emergency conditions; assessment of on-site/

off-site radiological consequences; alert/notification and mobilization of emergency response organizations; implementation of in-plant corrective actions, activa-tion/operation of emergency response facilities and equipment; preparation of reports, messages, and record-keeping; and recommendation of protective actions.

Communications The Exercise will. also demonstrate the effective use-systems. An actual emergency operation of'ommunications 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.

Controllers Lead Controllers will be stationed in the Control Room, OSC, TSC, EOF, JENC, and ~count Eocs. Only Lead Controllers can modify exercise messages or initiate free play messages.

The Control Room will be the central point for organi-zation of exercise messages and is the key to ensuring that the Exercise progresses on schedule. Simulated plant parameters will be provided to the Control Room operators using plant data and status sheets. Since it is necessary that the emergency escalate to the General Emergency level., it may be necessary to postulate exercise messacees as written. eZf corrective actions 2-6

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 off-site agencies will be- made in accordance with the Emergency Plan Implementing Procedures.

The TSC will be the coordination point for on-site emergency response activities. TSC personnel will also coordinate off-site emergency response activities until activation of the EOF. TSC and EOF personnel will be aware that planned, and if if the Exercise is to proceed as the off-site organizations are to be exercised, it may be necessary to postulate non-credible situations. This is done to ensure that various aspects of the on-site and off-site emergency response organizations are tested. TSC and EOF The intended ~res ense is not to ~ex lain ~wh a situation could not occur but to react as thouchh at did occur.

If corrective actions are postulated that would terminate the emergency, they should be noted to the Lead. Controllers.

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 off-site agencies should be made in accordance with the Emergency Plan Implementing Procedures. The Scenario is designed to activate on-site and off-site emergency response capabilities.

The Lead Controllers 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 generat-ed by Players as a result of the particular emerg'ency 2-7

activity performed. Players, therefore, are respon-sible 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 of simulated activi-ties to ensure that the Playerplayis credited for his/her actions.

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 prepared-ness training program and not the probability, feasi-bility, or detailed mechanics of the simulated acci-dent. 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 I h attention durrn C[ the Exercise and submit them to the Exercise.

2.5 Precautions'nd 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'he conduct of thrs exercise an actual emer enc satuatz.on arise all actzvt.ties and communicatxons related to the Exercise P

Exercise Controller or Observer that becomes aware V'ny 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.

2-8

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 them 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.

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

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.

All repair activities associated with the scenario will.

be simulated with extreme caution emphasized around operating equipment.

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 withness an exercise participant not observing this practice, it the Controller's/Observer's responsibility to remind is the individual of the need to follow this procedure.

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

Should any on-site 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.

2-9

Exercise participants are t'o inject as much realism into the exercise as is consistent with its safe performance; however, caution must be used to prevent, over-reaction.

Care must. be taken to assure that any non-participating individuals who may observe exercise activities. or.

overhear exercise communications are not misled into believing that an actual emergency exists. Any Exercise Controller or Observer who is aware of an individual or group of individuals in the immediate vicinity who may have become alarmed or confused about the situation, should approach that individual or group and explain the nature of the exercise and its intent.

2 ~ 6 Evaluation and Criticre The Exercise will be evaluated by Controllers/Observers who have expertise in, or qualification 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 Coordi-.

nator will conduct- a post-Exercise critique=. Defic-iencies in the Emergency Plan, Implementing Procedures, the emergency preparedness training program, facili-ties, 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 anL Observer information is contained in Section 5.0.

The schedule for the critiques is shown in Section 6.0.

2-10

SECTION 3.0 TRAVEL INFORMATION

3.0 TRAVEL INFORMATION This section of the Exercise Manual provides trav'el information to those individuals from RG&E, other utilities, local/State/Federal government, and/or other organizations, who will participate/observe the exercise.

Permission for, Visitors to observe the Exercise must, be obtained from the Corporate Emergency Planner, Rochester Gas and Electric Corporation, 89 East Avenue, Rochester, New York 14649-0001.

3.1 Directions to the Ginna Nuclear- Station The Ginna Station is located on the southern shore of Lake Ontario in Nayne 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 International Airport.

3. 1.2. Car

1. Several car'ental agencies are available at the Rochester-Monroe County International Airport to provide rental vehicles for ground transportation to the Ginna Station.

2. Persons traveling from the Rochester-Monroe County International Airport via auto should take State Highway 204 East to Interstate 390 South. Interstate 390 becomes Interstate 590 as one proceeds around the outer loop. Follow I-590 to State Highway 590 to State Highway 104 East. Follow State Highway 104 to State Highway 350 (Ontario-Center Road). Turn left (North) and proceed to the Ginna Station. Total distance is approximately 40 miles.

3.2 Directions to the EOF ESC and ENJC 3.F 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.

3-1

(

3 ' ' Car From the Thruway use Exits 45 or 46 into Rochester and the Inner-loop to the East Avenue ramp as in 3.2.1.

3.2.3, To get to the Emergency Operations Facility and Engin-eering Support Center go to the intersection of East Avenue and Chestnut- Street (Black square on map). EOF and ESC're in 49- East Avenue. The EJNC is at 89 East Avenue (See Figure 3.2) .

3 ' Accommodations Hotel/motel accomodations may be obtained at, the following locations:

Depot Hotel, Pittsford 716-381-9900 Marriott Hotel, Greece 716-225-6880 Red Roof Inn, Henrietta 716-359-1100 q

3-2

GINNA STATION+ ro p LAKE ONTARIO g N

NOT TO SCALE 18 Oc1TAR10 Cf tlTE R.

.~Q 250 Rb RQ 33 O' Z 18 Q) 104 104 104 350 Qo 25 590 m

lD ROC/ESTER O

~O O

0 0

U 0

90 O 390 0

z 0

ROCHESTER- Q C

MONROE FJ V4 ~

COUNTY 0 AIRPORT Z

~ ~ I "l ~ >> ~ L v ew v-:s LLF - I o>> evrt= rw SJec ~ t ~ -.'s'o .LFH w y w I .. '<<vw 'IV ~ UI Uv" ~ eoyte>>oe LL>>to I re ve>>

~ cocr ROCHESTER AND VICINITY C>>. ~ ee Lt

'L A>>et Lhc

~ Ht 0 htanHou coach

~ for (teeued Access (httdsd Htnheteys tc Jv Hatisseo( Insensate Hioh>>oys etyeyoeu eov>>eee toeever soever Other ()ivided Hinh>>oys OI8 Ioeuvtt>>ey>> lyly

$ (ote H envoys othe(

~ serses ID" ((5. Icsh>>oys Mileoce in sed bes>>een yoi>>sett Qi covnty (tvet Hinh>>oys

) I ~

~ qvots eppresttteeuety( 5 re(ss I I I 5 ) 7 5 wtos,

~ I Sce(e 0

E ~0 cyye>>Uer cwtv>>yer 4 ca os>>st>>.ewvy IJ>>>>vote ULA 0

<< s Reproouceng or racoroeng thea map by pnotocopyeng, Oy etecuoneo 5tprags ane retleevah ot by any other tnoans es~rohebelet(.

s Wtuv ey t r>>tyoy we ey I'I

~ yoI ~

to vo

~

Crrscr>>y eeoc>> FIGURE'.2 Oh ) ~

I e too ece rv etoctt ar ~

a lyse Ao rr 0

~ v>> ey e)/

r'0 II(one)a 4(u

)Lt 5 IVVI I I Z 24

7) I

~ --- - J 70 ~ 0

~ ~ CWfyrto 4

( ~ I (coco 0 tv>> k e 5'r Cy oov>> royce Ocyn>> Uorr ovsc

!8 (Nor(Is 0) )0 d I vs ce ~ sr ovoyo

~ <<>>0>>

E ~

n ~

LAS(A I Ore%co

~ yo ey I ~ / >>tveeoe ecoctt t I LA I I 0 1

~

roh 5

wc I / >>ocr eeoc ~

/ // I yet tc>>

I Hoon FICI 0 no>>eo II I 0 I

"oer 0E I 2

('e' (>>r Ho I 5 I I

/ 7.) csutyse oe0 'oeroho IF I tvs

.I /II) >>I / IC>>IOC ~ I v ~

s

)0 VI

) 0 Starve ~

~y I tn r ( /P I i I I , ~ / I 'I ~

I

~

Oee.o l8 I ((

j vo>>to I Sloeev UI>>ee I~ y I I PVW.

ho ~e I o tI>> ('/c W ~ I Cteoeo E I ~ I ~

5 I )

5'I

~

SH I

I ~ 8 2 ~

// /&/

CI

~0

'reece I I

t oe A n( I0 Oyr Ct>> = I tee 5

II I 0

o\ ~

~ Iy ~

( /5>>eccl

/

( tsr

~

0 N QI 6 0

>>VIIII es

/,. tee>>>>o II 0. ~

I 0.5 ct 20 I rrr i'o.s vee U Sve ~ ee 0 1 too vo 'oo I

~ >>I ~ to X

aoo( tt 0 5 to>>)

vtl~ I 05 e>>so to'Is 7'2 tt,e V,O

<<o' Ill >>yoe ~

I<<0"i fj I(5 20 I II Ar>>U ~,

I I' .C>>r terry

~ I It u d L wooe IS, ~ Co tso tt ~ ~

s I I.o tvs (

( ~~'

4 ~ 0 se ~ IS ~ 0>>, ~ I( c I ~

0I

<<improve rc<< v

(.0 ~y

/

3l L

U 0 C: O'E" ~

SI.I T. E .R ) ~

~ I

)ether 7( ru res>>ceo L ~ ILIC lo est o ts>> y rt GS(- J I

~ te ee E

I eve ~0 eo 4

5 I 7 3l 5 Lr(LL

~ v I eo

~ ~

+z<c

~

'I j~;r ~

'I>>

see II J wssuet tvs ~

U

)

et>>

I ~

ao 'c~

LIW C (Itwy w P I

'I

( ~ I

~

I I '."Fntr ' ~

~ )>>>>>>'\Oo

~ ~

~ 0 k eeoc ~

-V V 0

~ I Gates ~ toeevo J ~ ~

I 5 UIIALO 'I I ~

a ~

I.

>>Ooo>> I er>>o ~ .~o ct I I eo 1

3l ~ I I ALO Io

~ i o I

' I~ I . ) t (tuo Cross tt>> ~ 5

~e

~ t avutoe )I I) Cyooyr aa ,c+" y I E

""" tt(L(" vo

) ~

tvs gjvJ ,I I

~ coors I I J. ~

~ 96

' i / >> g)

Io e>>v ~

woes Sesy S Ot )S 1 /' 5) AV I ~ III 7 7/1IOCII(5r(s IICncsct CCI I I se I CLUHOOO ( ~

I I

- '""3 I

/I BRIGHTON I I ~

As(to( ( ) I Ity ' I ~

)I v

~ / I I~

I woooloel ee

~ '

ROGHESTER'ENTR'AL BUSINESS DISTR! CT MA.

0

<<.(':::j i i i f

~

terosrer %cesar@

aevvva

/

r i

x Sir iI t t Q v ~, ~ I i

oSSrr i v- vv E

i

~ a tr

/ ~

vtci, 8

~ te.

iu

'Ufkl'overnment Offices Hotels 8 Motels Points of Interest Parks City Hall S.2 Cadillac worst D3 Amtrak Paaaengei SerVioa Ct Downtown Festlvst Sii ~ C4 city Pubhc Salt!) Building S.a Ho<<dav inn 82 Eastman School of Music 02 Genoese Crossroads Park 82 Civic Center 8.4 Eastman Theatre 02 Genesee Gateway Park CS ac 8uilding ounty Ohice S 3 Aocnesi ~ + ass 83 Goneste 8rewory 81 Liberty Pole Green C3 Suiiding,

~

eral 8.2 Traveioc- ~ CS Greyhound Sus Sl ~ lion C2 Manhallsn Square Park 03 all ot Justice 83 Kodak's Main Qlhces ,A2 Aivtrlront Park St Midtown Pleas C3 Wasninglon Square C3

~M ~Q ~roti ~

Aochester Chamoer ot Commerct C2 N uM R4'S r AIT Metro Center Aundel library Strong Museum Trailwoys Sus Station War Memorial 83 C3 04 03 83 Qccv.C ':oc Sec iu Ac ct i 'jot Xerox Square 03 VMCA D2

SECTION

4.0 REFERENCES

/ABBREVIATIONS ACRONYMS

4.1 REFERENCES

(' ~ 1~1 10CFR 50.47, 50.54, Appendix E 44CFR 350 '

4. 1.3 / 1 4.1 ~ 4 RGGE Nuclear Emergency Response Plan and Implementing Pro-cedures, Rev. 5 (5/87) 4.1 ~ 5 GS Radiation Emergency Plan Implementing Procedures (SC) 4.1.6 GS License and Technical Specifications

4. 1.7 GS Piping and Instrumentation Drawings 4.1 ~ 8 New York State Radiological Emergency Response Plan (10/84) 4 ' ' Monroe County Emergency Preparedness Plan (5/87) 4.1.10 Wayne County Radiological Response Plan (10/86)

4.2 ABBREVIATIONS ACRONYMS 4.2.1 A/E Architect Engineer 4.2.2 ALARA As Low As Reasonably Achievable 4

4

'.3

'.4 ARMS ATWS Area Radiation Monitor(s)

Anticipated Transient Without Scram 4.2.5 CD Civil Defense 4.2.6 CFR Code of Federal Regulations 4 ' ' CV Containment 4.2.8 CR Control Room 4.2.9 DOE Department. of Energy 4 '.10 DOE-IRAP DOE Interagency Radiological Assistance Plan 4 '..11 EAL{s) Emergency Action Level(s) 4-2 4 '

'2

'3 EBS EC Emergency Emergency Broadcast System Coordinator 4 ' '4 EOC Emergency Operations Center 4.2.15 EOF Emergency Operations Facilit;y 4 '.16 EPA Environmental Protection Agency 4 '.17 EPC Emergency Planning Coordinator 4 '.18 EPIP(s) Emerency Plan Implementing Procedures(s 4 '.19 EPZ Emergency Planning Zone 4 '.20 ERF (s) Emergency Response Facilit'.y(s) 4.2.21 ERPA Emergency Response Planning Area 4 '.22 ESC Emergency Survey Center 4 '.23 FEMA Federal Emergency Management Agency 4.2.24 FRERP, Federal Radiological Emergency Response Plan 4.2.25 GS Ginna Station 4

4

' '6

'..27 HP HPN Health Physicist Health Physics Network 4 '.28 HVAC Heating Ventilation Air Conditioning 4'2. 29 INPO Insititue of Nuclear Power Operations 4 '.30 ZENC Zoint Emergency News Center.

4.2,.31 KI Pot:assium Iodide 4 '.32 LCO Limit:ing Condit'ion of Operation 4 '.33 LOCA Loss of Coolant Accident 4.2.34 LWR Light Water Reactor 4.2.35 MPC Maximum Permissible Concentration 4.2.36 NRC Nuclear Regulatory Commission 4 '.37 OSC Operational Support Center 4.2.38 OOS Out of Service (on-site) 4.2.39 OOS Out of Sequence (off-site) 4.2.40 PAG (s) Protective Action Guide(s) 4 '.41 PAR(s) Prot:ective Action Recommendation (s) 4.2.42 PASS Post Accident Sampling System 4.2.43 PIO Public Information Officer 4.2.44 PWR Pressurized Water Reactor 4.2.45 RCP Reactor Coolant Pump 4 '.46 RCS Reactor Coolant System 4.2.47 RHR Residual Heat Removal 4.2.48 RG&E Rochester Gas and Electric Corporation 4.2.49 RST Radiation Survey Team

.2.50 SC Site Contigency

.2.51 SI Safety Injection

.2

'2

'3 SPING TSC High Range Effluent Monitor Technical Support Center 4-2

SECTION 5,0 CONTROLLER AND'UALUATOR INFORMATION

5~0 CONTROLLER AND EVALUATOR 1NSTRUCT1ONS 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'he evaluation checklist and record sheets.

5.1 CONTROLLER INSTRUCTXONS 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 satisfact-ory communications among Controllers- prior to Exercise. commencement.. All. watches and clocks will be synchronized with the Lead Control Room Exercise Controller as part of the communica-tions testing.

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 secpxence or other than as written unless specifically authori-zed by the Lead Controller.

5 1' 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 on-site Controller will have copies of time-related plant data sheets. Data sheets will

~

be distributed only in the Control Room. Radiolo-gical and meteorological data will also be provided at available.

locations where it is normally 5 1.7 Controllers will not provide information to the Players regarding scenario development or resolut-

~

ion 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'he sole authority to clarify any questions

, regarding scenario content.

5 ~ 1.9 , Each Controller will take detailed notes regarding

,the progress of the Exercise and the responses of the Exercise participants at their respective assigned locations. Each Controller will careful-ly note the arrival and departure time .for participants, the times at which major activities or milestones occur, and problem areas encoun-tered. 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 loca-:

tions. 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/evalua-tor 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 then expected. Any errors or problems were minor and easily correctable.

1 W P as expected. Any errors noted were not severe and could be corrected without undue labor or expense.

( Unsatisfacto - Personnel and equipment generally performed

.below expectations.and* there were several significant deficiencies noted. The area s ability to carry out its functions was diminished.

NA Not applicable to the situation or not observed.

Controller/evaluator comments should consider the demonstra-tion of the following facility and team evaluation elements:

5. 2. 1 ~Facilit 0 ,Accurate and timely determination of emergency action levels.

0 Timely activation and staffing for each emergency action level.

0 Familiarity of personnel. with appropriate emergen-cy instructions, duties and responsibilities.

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

0 Adequacy of internal information systems (i.e.,

message handling, displays, status, boards. and.

maps) .

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

o. Utilization o f correct communications procedures and- techniques.,

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

0 Consideration. of personnel safety (exposure-control).

0 Adequacy of interface between emergency response facilities.

Adequacy of equipment and supplies.

Timely initiation of on-site protective/corrective actions.

0 Development of protective action recommendations.

Radiological'surveys and assessment of plant damage and, hazardous conditions performed.

0 Timely request of emergency support services.

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

Team o Timely notification and activation.

0 Adequacy of staffing.

0 Familiarity with appropriate emergency procedures, duties'nd responsibilities.

0 Availability and utilization of. proper equipment.

0 Performance of contamination/decontamination control.

0 Proper interface with emergency support personnel.

0 Utilization of correct communications instructions and techniques.

0 Availability of reference documents to team members.

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

0 Performance of radiological surveys.

0 Timely and proper performance of damage assess-ment.

0 Properly maintained survey records- and maps.

0 Adequacy of briefing sessions prior to dispatch.

0 Direction and. control by team leaders.

0 Timely requests for off-site assistance.

0 Coordination and interface between emergency response team members.

0 Proper interface 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 ASSIGNMENTS Table 5.3. lists the Personnel assignments for. the On-Site Controller organization; Table 5.2 lists the Personnel Assignments for the Off-Site Controller. Organization..

L'I Ww r v A

- iw '\A CA tl - A JL 0 ~ 9 ALAI d% )A \ ]@64 Al' a

5. 4 EVALUATION PACKAGES The following Evaluation packages will be provided to the appropriate Controllers/ Observers at the Pre-Exercise briefing:

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

Radiation Survey Teams (ESC and EOF)

Post Accident Sampling System Fire Brigade

TABLE 5. 1 1987 GZNNA EXERCXSE Controller Organization Control Room Frank Maciuska (Lead)

Rex Smith Bob Hynes (Start)

Technical Su ort Center Dick Marchionda (Lead)

Bob.Hynes Operations Assessment Bob Eliasz Technical Assessment Bob Wood Security Al Salemi Dose Assessment (Ni Mo)

MaryAnn Chaubard Health Physics (NYPA) (O)

Art Zaremba Communications/General (NYPA) (0)

Mark Prairie General. (NYPA (O) 0 erations Su ort Center Gene Eng (Lead)

Dick Biedenbach Mechanical/Fire Gregg. Zoss Operation/Testing Mike Leach j&C Zim'ement Health Physic Techs Bob Dangler Operations Emer enc Surve Center Barb Butler (Lead)

Zim Knorr Team Kathy Hart Team Frank Pavia Team Frank Schwind. Team Bryan Team Phelan Methe'at Team (0) Indicates Observer Only

October 14; 1987 Page 2 Emer enc 0 erations"Facilit Dave Burke (Exercise Coordinator)

Res Backus (Lead Operations)

Rick Watts (Lead Dose Assessment)

Diane Dreikorn Dose Assessment (LILCO)

Rich Rossin Communications (LILCO) (O)

Steve Meister Survey Team George Lawler Survey'eam Mike Peckham General (NYPA)

Emer enc Joint News Center Dick Sullivan (Lead)

Ed Kaish (Ni Mo) (0)

Todd Forte (O)

En ineerin Su ort Center Charles Anderson (Lead)

(0) Indicates Observer Only

TABLE 5.2 l987 R.E. GINNA UNANNOUNCED/OFFHOURS EXERCISE OBSERVER/EVALUATOR ASSIGNMENTS EOC'onroe Count Roberta. Fox. Zohn Gibb Marvin Silverman Dose Assessment Robert Alibozek Barbara Ignatz Field Monitoring George Brozowski Dave Bell Bob Theesfeld Bill Wigley RC/CC High School Ken, Bergmann (6:00 Bill Campbell PM) (7:00 PM)

EW/PMC, N/A, Tom Coulthard-(interview only at facility)

School Bus Run Kevin Kraus Tom Coulthard (between 9:00 AM' (after 9:00 AM) 12:00)

General Pop. Bus Run Kevin Kraus Bill Campbell Traffic Control Point Fred Bera N/A Road Impediment Fred Bera N/A Route Alert N/A Tom Coulthard (interview only at facility).

GINNA NUCLEAR STATION l987 EVALUATED EXERCISE 5 ' PUBLIC INFORMATION AND RUMOR CONTROL QUESTIONS FOR THE EVALUATED EXERCISE A: significant aspect of emergency response is to provide.

the news- media. and general public with accurate and Nimely information- about the incident. Public perception and reaction are influenced by the information relayed to them.

To ensure that the Rochester Gas and Electric Emergency

, Response Organization is prepared to deal with the media during an incident= at the Ginna Station, the exercise provides. certain elements that test Public Information activities. During the course of this exercise, the Rochester Gas and Electric Joint Emergency News Center (JENC) will be activated and exercised.

Special 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, employe-( es, and as members of the media, posing questions to the, staffs. When acting as members of, the media, controll-ers shall make up a name and a media outlet (print or electronic) not located in the Rochester area. Each time:. a rumor control message is delivered, a different fictitious name and address will be given. The phone number- to be given will be the number from which the exercise controller is calling so as to allow the county Rumor Contxol 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 appropria-tely..

The following pages denote questions that these controllers can use. The questions are grouped by time in xelation to the events specified in the Exercise Scenario. The Controllers are allowed. to use questions previously utilized. The lead JENC Controller shall verify that the exercise is adhering to schedule, otherwise time adjusteme-nts will be necessary. Space is provided for controllers to make notes on the response. Controllers need not use the questions herein; indeed, free play is encouraged.

11 ~ g "This is an exercise."

f., If~

However, controllers must not get carried away with unusual questions.

p e you are playing a reporter at the UENC, free play Questions based on the information given during the brief ing. Additionally, ask questions about RG&E, the state or counties, background on Ginna

GXNNA NUCLEAR STATION 1987 EVALUATED EXERCISE 5.5 PUBLIC INFORMATION AND RUMOR CONTROL QUESTIONS FOR THE EVALUATED EXERCXSE 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 Emergency Response Organization is prepared to deal with the media during an incident at the Ginna Station, the exercise provides certain elements that test Public Znformation activities. During the course of this exercise, the Rochester Gas and Electric Joint Emergency News Center (JENC) will be activated and exercised.

Special 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, employe-es, and as'embers of the media, posing questions to the staffs. When acting as members of the media, controll-ers shall make up a name and. a media outlet (print. or electronic) not located in the Rochester'rea. Each time a rumor control message is delivered, a different fictitious name and address will be given. The phone number to be given will be- the number from'hich 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 appropria-tely.

The following pages denote questions that these controllers can use. The questions are grouped by time in relation to the events specified in the Exercise Scenario. The Controllers are allowed to use questions previously utilized. The lead JENC Controller shall verify that the exercise is adhering to schedule, otherwise time adjusteme-nts will be necessary. Space is provided for controllers to make notes on the response. Controllers need not use the questions herein; indeed, free play is encouraged.

~

questions.

R 1 g q "This is an exercise."

~

However, controllers must not get carried away with unusual 9

If you are playing a reporter at the JENC, free play questions based on the information given during the briefing. Additionally, ask questions about RG&E, the state or counties, background on Ginna

Station, radiation, state/county/utility interface, protective actions, etc.

Questions and relevant telephone numbers will be dis-tributed at the special Pre-Exercise Controllers Briefing.

Attachment l lists Public Information cpxestions generally for RGGE; Attachment 2 lists County Rumor Control Ques-tions.

GINNA STATION 1987 EVALUATED EXERCISE PUBLIC INFORMATION QUESTIONS TIME 0400o This is from Radio Station WSMR. We .

understand that there is an emergency at the Ginna Nuclear Plant. What is happening?

0430o My husband'- a. volunteer fire fighter. He said he's heard

~

that there'. a fire at. the nuclear plant. I'm worried.

What is-. happening there?

0500o This's from the Albany Post. I understand that you have a leak at the Ginna'Station. What's going on up there?

0 How big is the leak?

0 Where is the leak?

0 What are you doing to fix it?

0 How dangerous is the leak?

0 0

How radioactive, is it in there?

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

0 What's the status of the plant?

Any Radiation exposures?

is'rom 0

0 Whom have you. notified?

0530o This Radio Station WPZG. I hear you have a fire at the Ginna Station. Would you tell our listeners the story?

0 , Was the damage done by the fire similar to the Browns Ferry Fire?

0 Has- any radiation been release'? How do you know?

0 Why didn't you call in the Wayne County Fire Department?

0 Any injuries? Any radioactive contamination?

0 Has the Nuclear Regulatory Commission been notified?

0 Did you declare an emergency'?

0 . How serious was the fire'?

0 Was the fire near the reactor?

0 Did you evacuate the site? Why not?

0 Is the reactor shutdown? \

0 How much is, this going to cost us ratepayers?

0600o What is happening at, the plant?

Any injuries?

0 Has the NRC been notified?

0 Have State and local officials been notified?

0 How high are the radiation levels? Are they dangerous?

Has anyone been over-exposed to radiation?

0 Are any of those problems related to the accident you had in 1982?

0 What are you doing to fix the problem?

0 Are you evacuating the site?

0 Is the reactor shutdown?

0 Did you declare an emergency?

0 What is the signficance of an ALERT?

TIME 0630o I'e heard you declared that? What happened?

a Site Area Emergency. What' 0 Why don't you just shut the reactor down?

0 0

How big is the leak? Where is Where is the electricity going to?

it coming from?

0 Can.'t you just shut a valve or turn a switch or something?

0 Has anyone been killed'? Any injuries?

0 0

I work at Beebee Station. What's going on at Ginna?

How is. the- reactor being cooled' 0 Is any radiation going into the lake?

0 Nhen will the NRC be taking over the plant?

0 What.'s the plant doing now?

0 How much radiation is being released?

0 Where is the wind blowing?

0 Have State and local officials been notified?

0 How serious is the accident'?

0 What is RG&E doing?

0700o I have this true?

heard that, you declared a General Emergency. Is Why?

o Has anyone been killed?

o Has. the State of New York been informed?'

Has: the=- NRC been informed?

o How are you. going to fix the reactor?

o Can'0 you just shut a. valve or something?

o Is this accident similar to the one at Three Mile Is land?

'. o. When will the NRC take over the plant?

o 'What are electric rates going to be?

o Where are you going to get power service?

if Ginna is out of o Why won't the reactor shutdown?

o Should o How much of I sellthis my RG&E stock?

was caused by the poor management?

o In Layman's terms, what caused this disaster?

0730o What effect will this have on RG&E stock?

What do you think the Securities Exchange Commission 'will 0 I'e do?

heard that you are going to use RG&E pension funds to pay for the Ginna accident. Is this true?

0 What was your stock selling for this morning?

What is your stock selling for now?

0800o How much radiation is being released?

0 How is the radiation filtered? How dangerous is it?

0 Nho is in charge of the emergency?

0 When will the next press briefing be held?

0 When will reactor be shutdown?

o Where is the radiation heading?

0 What protective actions have been recommended?

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

~ "6U'f4<< ~,jS4( ~ A&1VA ~ ah I JArosk ~ 4Al'I IALRAI,I K~'441 TIME 0 I'm calling from the high school care center. I want you to help me find my brother; we both 'vacuated, but I don't know where he's gone.

0 I heard the accident at the Ginna Station is over. When are we gonna be allowed to go home? Why haven't you made the announcement on TV?

0 What is the Governor doing?

0 What is the status of the fire that occurred this morning?

0 I'e true?

heard. that the reactor has, a hole in it. Is this o Do you have insurance? Who will pay for this?'y owner's insurance states that I am not covered for nuclear home-accidents!

1000 Note to Controllers: The Exercise is terminated.

TIME 0730o What s this I here about. an explosion at Ginna? Is that what caused the plant to send everybody home? How many got hurt and who's gonna run the plant now?

0 Has the aftershock caused more damage?

0800o (Note: This caller is under the mistaken impression that Ginna has: been abandoned. and.. is now being operated remotely from- the, County EOC.)

o. My wife is concerned because. she doesn't think you county disaster people know what you'e doing? I'old here not to worry because the County Executive (Monroe) or the Chairman of the Board of Supervisors (Wayne) knows how to run the plant because he's practiced it. before. Just; one thing, why doesn'0 he turn it. off before we get melted down?

0 I don't trust the power plant people; they'd lie to save their own skins. Do you have anybody checking on them?

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

(The business is Bill Gray's Restaurant on Route 104.)

0830o What are we supposed to do? Where do I go?

o. IIs heard, nobody at Ginna it:. true that. Federal.

knows what the hell is going. on!

people -are coming to take over?

Are they gonna. fix't?

o I heard.

Charlie, the siren 'but nobody said which way to go-.

my neighbor, says the siren doesn't mean to go; you is supposed to hide! What is it?

0900o I hear that nursing homes will evacuate their patients. My mother is in the Hill Haven nursing home. Where will she be when it's over so I can go make sure she's okay?

0 I'm leaving now? Where can I pick my son up? He goes to Wayne Central. Middle School.

0 I'm evacuating now. Where can I pick up my son? He goes to (Later).

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

Which school can I stay at? How do I get there? Who' going to pay my expenses? Wo do I call to get a check for my expenses?

0930o Is it true my baby?

that the milk is now poison? What shall I feed a We don't have no money. Is the government going to give us some so we can get away from the radiation?

RUMOR CONTROL MESSAGES FOR WAYNE AND MONROE COUNTY TIME .

0330o I was just knocked out of bed. I called the 911 emergency number. They said we had an earthquake by the nuke plant and to call RGGE for more information. What should I do?

I didn't hear the sirens, why not? Is the plant coming apart:? What in hell is Morin/Decker doing about it?

This earthquake scared hell out of my family?'ow bad is it? I'e got' lot of broken dishes. How does it. compare to the L.A. quake? What is it on the Ricter scale? Are we going to get aftershocks? How do you know/Why don' you know? (Is there anyone there that knows anything?)

want to talk to Lou Morin/Marv Dicker. Why Not? Where is I

he hiding?

0 Is October earthquake month - First in L.A., then in Kentucky, earlier in the Adirondacks and in 1983 here.

Can't you close the plant shut -

to worry about.

it,'ll be one less thing 0400o I hear there's an earthcpxake emergency at the nuclear power plant.

How will I know when to evacuate?

0430o I'm Roberta Gibson of Radio Station WSFC. Can you tell our listeners what's happening at the Ginna Nuclear plant?

0 How much damage= did the earthcpxake do to the plant?

0500o Has any radiation been released yet?

0 How can How can you be sure?

I find out when there is a release?

0530o ~Wa ne ~Count This is a drill. My daughter goes to the Freewill Elemen-tary School. Where can I go to pick her up?

Where can I pick her up once the kids are evacuated?

Monroe ~Count This is a drill. My daughter goes to the Klem Road South Elementary School. Where can I. go to pick her up?

Where can I pick here up once the kids are evacuated?

0600o We'e lost our emergency information handbook and need one right away. Will one of the emergency people you have deliver one to us?

0630o If there's an evacuation, I'm going to need help with my father who is bedridden due to a heart attack last month.

Can you help me?

0700o I wanna talk to the (County) Commissioner. (Reason?) I wanna know if this here accident is gonna cost us taxpayers or will the Electric Company pay for it?

or I'l call the I live near the plant and don't want that tricity into my house. Change it now nuclear elec-Public Service Commission! Do you hear me?!

(

0830o Is the reactor shutdown? How did 0 Is this plant similar to Shoreham?

it happen?

0 What is the reactor building doing now? Is the hole 'fixed?

0 How much radiation was released off-site?

0 What protective actions are in effect for Wayne (Monroe)

County?

0 How many'people live in Wayne (Monroe) County?

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

0 When is the next press briefing?

0 How many media are at the News Center?

0 What agencies are at the News Center?

0 Where is the wind going?

0 Who's in charge of the emergency?

0900o I'm John Smith from Livingston County. My neighbor said they expect the radiation to blow all the way down here.

What should I do about my farm? I'm in the middle of harvesting hay. Who's going to pay me for my losses?

1000o NOTE TO CONTROLLERS: The Exercise is terminated.

(g

'SECTION 6.0 1987 GINNA. FULL SCALE PLUME. EXPOSURE PATHWAY EXERCISE AND NEW'ORK STATE INGESTION PATHWAY EXERCISE SCHEDULE OF EVENTS

SECTION 6.0 1987 GINNA FULL SCALE PLUME EXPOSURE PATHWAY EXERCISE AND NEW YORK STATE INGESTION PATHWAY EXERCISE SCHEDULE OF EVENTS 10/2 1, 0900 OEFSZTE. PLAYER BRIEFING EOF 1330: ONSITE PLAYER BRIEFING ~ - -= - <<TRAINING-'TR-10/22 0900 CONTROLLER BRIEFING TRAZNZNG CTR WEEK OF IO/25'EGINNING AT 000l. HOURS DAY 1 OFF. HOURS PLUME EXPOSURE PATHWAY EXERCISE ALL UNANNOUNCED DAY 1 AFTER EXERCISE INGESTION PATHWAY BRIEFING EOF TERMINATION (REDUCED STAFF)

AND BREAK AY 2 0900 STATE -FIELD MONITORING/SAMPLING ZPZ ACTIVITIES (NO. GINNA'PARTICIPATION)

DAY' 083 INGESTION PATHWAY UPDATE BRIEFING ALBANY/EOF 0'000 INGESTION PATHWAY TABLETOP DRILL ALBANY (START OF PLAY)

REDUCED STAFF PARTICIPATION EOF DAY 4 GZNNA CRITIQUE TRAINING CTR 0800'000 NRC CRITIQUE TRAINING CTR TBD, FEMA NEWS CONFERENCE EJNC

GINNA STATION'937" ~AGENCY PREPAREDNESS EVALUATED RCXSE NARRATIVE

SUMMARY

Initialofconditions for the scenario and the scenario are as follows:

there relevance to the

'ourse The unit has operated continuously at full power for 145 days.'his long full power run assures a large buildup of fission products for subsequent release during the scenario. ~ P 'I 2~ The turbine driven auxiliary feedwater pump is out for ";..

maintenance with all parts. available. This pump being out-of'ervice does not affect. the outcome of the scenario at" all but vill, cause some thought and .worry during the scenario. due to the possibility of a loss. of all. AC power.

3 ~ The reactor core is. in. cycle 16 with RCS boron concentration at approximately 20 ppm. The boron concentration indicates that. the. core is near end of life. THis will assure that when the steam break accident occurs, the. largest amount of: positive reactivity will be inserted in the core, (due to the moderator coefficient) during the subsequent...

cooldowno <..~i.

Containment spray pump lk is inoperable and will be incapable o f being repaired during the scenario. This coupled with the- losa of. the 1B containment spray pump ahd two of the 4 containment fan coolers,. (due to the Bus $ 16,;;.-.

outage), will. assure as high of a containment pressure as,-..

possible during: the steam break. I The. loss; of the above equipment. should lead the emergen~ .

response.. personnel to worry about containment being breached, the. lack of iodine removal from the containment...

atmosphere and if the. containment is breached. the high driving force for release of the containment atmosphere.

Safety injection pump suction valve from the boric acid storage tanks, MOV-826B has failed during a monthly test.

The failure of this valve coupled with the loss of MOV>>826D, (with-. the loss of $ 16 Bus) in the redundant path vill assure that no 124 boric acid is injected for the steam break. accident, thus alloving pover to peak higher during this accident than normal.

6 The unidentified leak rate of 1.25 gpm is a driver for the scenario unusual event.

Scenario narrative of events and their relevance to the course of the scenario are as follows:

The fizst major action milestone in the scenario occurs gust after 0130 hours0.0015 days 0.0361 hours 2.149471e-4 weeks 4.9465e-5 months when the unidentified leakrate ofThis greater than 1 gpm has been occurring for more than 4 hours. requires the Shift Supervisor to declare an Unusual Event and notify offsite agencies.

The ne~ ma) or event in the scenario is an earthquake. The earthquake requires that the control room take certain actions per SC-5 such as;

1. Checking the accelelerograph and when the red target is indicated on the action indicator, having I&C, remove. the film and send; it out 'for immediate developing. The red target, indicated on. the action indicator (earthquake registering greater than .Olg) is also a Unusual .Event action level.

2. Start. one emergency Diesel Generator.

3. Perform a rod control operability test. When they do this 2'. rods will indicate inoperable and by Technical Specifica-tions a shutdown to hot shutdown must be accomplished.

within 6 hours.

4. Tour the plant for visible damage.

A more subtle event from. the earthquake is the cracking of the

.weld. on the "A"" Steam Generator steam line with the: only indica-.

tion being the increase of dumping the containment recirculation fan cooler condensate collectors.,

A plant shutdown because. of: the 2 inoperable control rods commences about 0200 hours0.00231 days 0.0556 hours 3.306878e-4 weeks 7.61e-5 months .

At 0210 a fire is indicated. in the Auxiliary Building near $ 16 480 volt safeguards bus. -The fire brigade is activated and responds to the fire. The fire is in the 416 bus transformer.

It is believed here that thethe earthquake damaging the insulation on induced the-fire by windings. At 0225 the normal feed to $ 16 bus trips out due to the transformer grounding out and the 1B Emergency Diesel Generator starts and loads on to Bus $ 16. An Alert should be declared at this point in accordance with SC-100, "Ginna Station Event Evaluation and Classification" (i.e. fire potentially affecting safety systems as determined The primary reason for the fire on by the Shift Supervisor).

516 480 volt bus transformer is to take away one of the two feeds to the bus and then later on in the scenario remove the other feed to the bus (i.e. the 1B Emergency Diesel Generator).

Bus 516 being dead during a major part of the scenario allows a greater release from containment to take place (i.e. no containment spray) and allows an isolatable release path once power is restored to the Bus, (i.e. MOU-851B).

At approximately 0240 the fire is extinguished in "Bus $ 16 transformer.

At approximately 0310 the TSC response organization should be manned and at approximately 0345, the TSC, OCS, and the Survey Center should be nearing full operational status.

At approximately 0400 the 1B Emergency Diesel'enerator trips out on low bearing oil pressure. This completes the loss of all feeds to N16 480 volt safeguards bus as mentioned earlier.

Major equipment lost with the loss of the bus that, impacts the scenario is the 1B containment spray pump and motor control center (MCC: 1D) which supplies the AC power to the release-isolation valve. 851B.. Also lost. with MCC 1D is 826D which is mentioned in- Initial Conditions $ 5. The loss. of, this valve causes the steam break. accident to be much. more severe causing greater fuel. damage and fission product release'.

If TSC, decides to cross-tie buses 14-16 one of'he two tie.

breakers involved will. not. close due to mechanical.'problems.'t approximately 0415 a Site Emergency should be declared in accordance with SC-100, "Ginna Station Event Evaluation and fire causing loss of safety system including 'lassification",

redundant components'i.e. loss of both containment spray pumps) or events in progress or have occurred which involve actual or likely major failures of plant functions needed for protection of the public. At this time a Site Evacuation should. occur with. accountability being done.

At'0430 results are, received; from the developing of the accelero-graph film.'hese results, indicate an earthquake of .24g has.

occurred. A Site Emergency should be declared done. earlier. due to plant. not in'old shutdown and earthquake .

if not already greater, than .2g as determined by developing accelerograph film. At about this same time the TSC should be sending repair teams out to repair the 1B Emergency Diesel Generator, the 480 volt Bus 14-16 tie breaker and possibly a repair team to complete maintenance on the turbine driven feedwater pump.

At approximately 0515 the EOP, JENC, and Engineering Support Center should be nearing full operational status. At about this same time, the repair team sent- out to check out the 1B Emergency Diesel Generator should report back that the lube oil.

pump on the Diesel Engine has a cracked casing and it, will:take approximately four. hours to repair.

At approximately 0530 the "A" Steam Generator steam line severs where it exits the Steam Generator. Containment pressure and temperature. increases rapidly. SI and containment spray are actuated automatically. The two control rods that were inoperable earlier remain fully withdrawn. High head SI pumps swap immediately to the RWST instead of drawing initially from the 124 boric acid tanks due to the inoperable MOV-826B valve and the loss of the MOV-826D valve (Bus 16 outage). The

core- returns to powez.'nd a large amount of the fuels gap and fuel pellet activ3,ty is released due to cladding failure and fuel pellet overheat'ing. At this time the status sheets indicate core uncovery and fuel overheating mainly in the area of the two stuck control rods where it is envisioned that most of the core- power is being generated. The containment pressure is seen to buildup rapidly because no containment spray pumps are available due to Xnitial Condition N4 and Bus 16 outage.

A General Emergency should be declared at this time in accordance with SC-100 "Ginna Station Event, Evaluation and Classification",

inability to shutdown the reactor. which results in core damage with indications. of containment pressure increasing rapidly and reactor remains at power after reactor trip initiated, (i.e.

power range indication) or failed fuel indicated, by sampling of containment atmosphere. and containment pressure 30 psig and increasing. or Shift. Supervisor opinion containment may be breached. Immediate protective action recommendations: should be. made in accordance with SC-240 "Protective Action Recommenda-tions". Operations stabilizes the plant using Emergency Operating Procedures.

At. approximately 0630 the station experiences,a severe after shock from the earthquake severing the two control rods pressure housings that have been leaking. These are the same two control rods that were stuck out. Reactor Coolant pressure rapidly decreases followed by containment pressure and radiation levels increasing.. Safety injection will be initiated again but there. will, be. no. containment spray due to same existing pxoblem as with. the steam break. There- is,no offsite radiation release. at. this; time.

At. approximately 0645 the "B" RHR pump recirculation suction line from containment: Sump B ruptures in the sub-basement of the Auxiliary Building due to the earthquake, the- earthquake after shock and the containment pressure. Plant- vent monitors from the Auxiliary Building show rapid increases in radiation.

levels. A major release to the'nvironment begins at this The release path is. from the containment through the "B" RHR pump recirculation suction line, out through this lines rupture in the Auxiliary Building sub-basement through the Auxiliary Buildings vent system out the plant vent.

After the release .is started, efforts are initiated to track the released plume, terminate the release and implement/coor-dinate PARs. These efforts will continue until the release is terminated and the plume has disipated..

At approximately 0800 the 1B Emergency Diesel Generator is repaired and returned to service. At this time power is available to MOV-851B and 1B containment spray pump.. MOV-851B is closed terminating the release and 1B containment spray pump is placed in service to reduce containment pressure and temper-ature.

At approximately 0900 survey team samples and radiation readings indicate offsite radiation levels have significantly decreased due to plume passage. At this time short term recovery/re-entry discussions should follov actions expected in 0900 message N50.

SECTION 7.0 EXERCISE SCENARIO

GINNA STATION 1987 EMERGENCY PREPAREDNESS EVALUATED EXERCISE INITIAL CONDITIONS

1. The R.E. Ginna. Station is operating at 1004 rated thermal power and has been operating continuously for 145 days.

2. The turbine drive Auxiliary Feedwater pump is out; for replacement of the= pump thrust bearing'nd. thrust bearing cooler. All parts are available.

3; The Reactor Core is in cycle- 16 near end of life. Boron concentration in the Reactor coolant system is 20 PPM.

4 ~ Containment spray pump lA is inoperable due to seized pump bearings since noon yesterday. Replacement parts are on order and expected to arrive this morning. Bearing replace-ment should then require about 1 day of actual work.

Required surveillances are complete and satisfactory for today.

( 5.. At 3.600 hour0.00694 days 0.167 hours 9.920635e-4 weeks 2.283e-4 months s: yesterday-, 'safety in)ection pump suction valve from. the Boric Acid storage tanks, MOV 826B failed to open during performance of the quarterly safeguard valve operation periodic test: (PT-2.3). Subsequent investigation revealed a grounded motor. The grounded motor has been removed and sent to the Motor Shop for repair. The motor is'xpected to be returned to the: Station tomorrow at 0900 hours0.0104 days 0.25 hours 0.00149 weeks 3.4245e-4 months . Installation and testing is expected to be complete

by 1400 hours0.0162 days 0.389 hours 0.00231 weeks 5.327e-4 months tomorrow. All valves in the system that provide the duplicate function have been tested satisfactory for operability.

6. At 2130 hours0.0247 days 0.592 hours 0.00352 weeks 8.10465e-4 months last night, Reactor Coolant System total leak rate, increased from 0.75 GPM to 1.5 GPM. Identified leak rate is approximately 0.25'PM. Containment activity has increased significantly. The. shift is continuing to

~

investigate the cause of the leakage. A containment entry is planned as soon as the paperwork is complete.

CONTROLLERS NOTE: Operators should start performing procedures S-12.2 and AP-RCS.1 for leakage trouble shooting.

7. VCT level is decreasing approximately 14 every 8 minutes.

Containment sump "A" pump starts automatically approximately

( every 54 minutes.

GINNA STATION 1987 EMERGENCY PREPAREDNESS EVALUATED EXERCISE ON-SITE SEQUENCE OF EVENTS APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 0045 -00/15 Initial Conditions established.

0100 00/00 Commence Exercise.

0130 00/3 0 An UNUSUAL EVENT should be declared UNUSUAL EVENT in accordance with SC-100, "Ginna Station Event Evaluation and Classification," EAL: Reactor Coolant Leakage; primary system leakage greater than Technical Specification Limits (greater than 1 GPM unidentified for more than 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months ) . The 4 hour4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months time limit expired at 0130 hours0.0015 days 0.0361 hours 2.149471e-4 weeks 4.9465e-5 months .

If UNUSUAL EVENT not declared in 15 minutes, a contingency message should, be= given. out. to declare it.

APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 0145 00/45 The Station experiences a large tremor from an earthquake.

Control Room personnel. start performing the actions of SC-5 (Earthquake Emergency Plan).

Operations checks the accelerograph and a red target is indicated on the- action indicator at the bottom of the case. Update UNUSUAL EVENT notifications may be made due to earthquake at plant of greater than .Olg as indicated by red target on action indicator at bottom of accelerograph.

The "A" Emergency. Diesel Generator is started per SC-5. Operations touring plant per SC-5. When PT-1 (Rod Control System) Operability Test is simulated, 2 control rods vill not move.

XF in approximately 15 minutes, the Shift Supervisor or his designee do not notify I&C to remove. the film from the accelero-graph and send Lab, a contingency it to the Photo message should be given out to do so.

APPROPRIATE SCENARIO TINE TINE EVENT DESCRIPTION 0200 0 1/00 Containment Recirculation 'an Cooler Condensate Collectors begin requiring dumping more frequently due to the earthquake cracking a weld'n the "A"'/G Steam Line as it'xits the S/G.

Plant commences an orderly shutdown to hot shutdown within six hours per Technical Specification 3.10.4.4 (i.e. with two or more rods inoperable, be in hot shutdown within six hours).

APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 0210 01/10 Fire Zone S-03 (Auxiliary Building Intermediate Floor Center Bus 16 Area) first alarm is received in the Control Room. The Fire Brigade" is activated. and responds.

0220 01/20 The Fire Brigade arrives at the scene. Fire Brigade Captain reports. to Control Room that the Bus 516 trans former is smoking with no flaming fire.

NOTE: Off-site fire fighting assistance is not participating..

assistance If is requested, Controllers will inter-cede to pievent off-site fire department response.

APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 0225 01/25 The 480 volt Bus 516 normal feed ALERT trips out due to $ 16SS transformer fault. The 1B Emergency Diesel Generator starts anL Loads on to 480 volt Bus 516. Operations

-restores equipment lost when Bus 516 tripped out.

An ALERT should be declared in accordance with SC-100, "Ginna Station Event Evaluation and Classification," EAL: Fire; Fire potentially . affecting safety systems as determined by the Shift Supervisor.

If ALERT not declared minutes, a in - 15 contingency message should be given out to declare it.

0240 01/40 The fire in the 480 volt Bus 516 transformer is extinguished.

APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 0345 02/45 The TSC, OCS, and the Survey Center are nearing operational status.

TSC'hould send a repair team out.

to- investigate 480 volt Bus 516 transformer damage.

0400 03/00 1B- Emergency Diesel. Generator Trips out on, Low Bearing oil pressure., 480 volt Bus .516 Emergency Diesel Generator Tie breaker trips. There is no voltage on Bus f16, MCC-1D, MCC-1J, and MCC-1M. The following major equipment: is lost: 1BMDAFWP, charging pump 1B and 1C, CCN pump 1B, CV recirculation fans 1B and 1C, CV spray pump 1B, RHR pump 1B, i SI pump 1B and Standby Auxiliary Feedwater. Pump 1D.

(

APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 0415 03/15 Reactor shutdown continues.

SITE. EMERGENCY Zf the TSC decides to cross-tie, buses 14-16, one of the two tie breakers will not, close due to mechanical problems.

A. SITE EMERGENCY should be declared in accordance with SC-100, "Ginna Station Event Evaluation and Classification," EAL: Fire; Fire causing loss. of safety system including redundant components as determined by the Shift Supervisor; (i.e. Loss of both containment spray pumps), or EAL: Events in progress or have occurred which involve actual or likely major failures of plant functions needed for protection of the- public.

0 Qs APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 0430 03/30 Results from the developing .of the SITE EMERGENCY accelerograph film indicates that an earthquake of .24g has occurred.

A SITE EMERGENCY'hould be declared if not already done in accordance

'with SC-100, "Ginna Station Event Evaluation and Classification,"

EAL: Natural Phenomenom being Experienced; Plant not in Cold Shutdown and earthquake greater than .2g as determined by develop-ing accelerograph film.

TSC sends Repair Team out to check out and repair the 1B Emergency Diesel Generator.

TSC may send Repair Team out to finish maintenance on the Turbine

( Driven Auxiliary Feedwater. Pump.

TSC working on the leakage problem in containment.

TSC may send Repair Team out'o check out and repair tie breakers between 14-16 Buses.

APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION If SITE 15 EMERGENCY minutes, not declared in a contingency message should, be given out to declare it.

0515 04/15 The= EOF, ZENC, and. Engineering-Support Center should be nearing Operational Status.

Reactor shutdown continues.

Containment "

Recirculation Fan Cooler Condensate collectors dumping frequency continues to increase indicating the >>A>> S/G weld crack is worsening.

Repair Team sent out to check the 1B Emergency Diesel Generator reports to the TSC that the lube oil. pump on the Diesel Engine has.

a cracked casing; and it approximately four hours to repair.

will take

APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 0530 04/30 The "A" S/G Steam Line severes where ment itPressure exits the S/G. Contain-and temperature increases, rapidly.. Safety injec-tion and, containment spray are actuated automatically. Two Control Rods remain fully with-drawn-. (These Control Rod pressure housings were the source of the

<<Initial Condition" unidentified RCS leak). The core returns to power and a large amount of 'the fuels, gap and fuel pellet activ-ity, is released due to cladding failure and fuel pellet overheat-ing. Containment Radiation levels start to increase rapidly.

Containment Spray does not initiate because 1B Containment Spray Pump inoperable due to Bus 416 outage, (lA spray'ump inoperable. as an initial condition).

There is no 12% Boric Acid injec-tion, to the core because MOV 826D inoperable due to Bus 416 outage, (MOV 826B inoperable as an initial condition).

APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 0535 04/35 A GENERAL EMERGENCY should be GENERAL declared in accordance with EMERGENCY SC-100, "Ginna Station Event Evaluation and Classification,<<

EAL: Loss of Engineered Safety Features; Inability to= Shutdown the reactor, which results in core damage whith indications of containment pressure increasing rapidly and reactor remains at power. after reactor trip initiated, (i.e. power range indication) or EAL: Containment systems; failed fuel indicated by sampling of containment atmosphere and contain-ment pressure 30 psig and increas-ing or shift supervisors opinion containment may be breached.

An immediate protective action recommendation will be made in accordance with SC-240, "Protective.

Action Recommendations."

Operations stabalizes the plant using Emergency Operating Proce-dures.

If GENERAL EMERGENCY not declared in - 15 minutes, a contingency message should be given out to declare it.

APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 0630 05/3 0 The Station experiences a severe aftershock -

from the earthquake severing the two, Control Rod pressure housings that have been leaking. Reactor Coolant system pressure rapidly decreases followed by Containment Pressure and radiation levels increasing.

Safety injection SHOULD BE INITI-ATED AGAIN.

There is no offsite radiation release at this time.

APPROPRIATE SCENARIO TIME TIME EVENT DESCRIPTION 0645 05/45 The B RHR pump suction line from containment sump <<B<< ruptures due to ,the earthquake, the earthquake aftershock and containment pres-sure. The Auxiliary Building sump Hi level alarm annunciates in the Control Room.

<<A<< Auxiliary Building sump pump indicates it not restart.

has tripped and will Plant vent monitors show rapid increases in radiation levels. A maj or release to the environment begins.

Release gath: Containment through

<<B<< RHR suction line out the plant vent..

(

APPROPRIATE SCENARIO TINE TXNE EVENT DESCRIPTION 0700 06/00 Efforts are underway to track the 0800 07/00 plume, implement/coordinate PAR '.

terminate the release and 0800 07/00.. The release is terminated due to the repair of the 1B Emergency Diesel Generator with restoration of power to 480 volt Bus f16 and MCC-1D and the closing of MOV-851B.

0800 07/00 Plume tracking continues.

0900 08/00 0900 08/00 Off-site radiation levels have significantly decreased due to Plume Passage. Down grade discus-sions are in progress. Recovery/-

Re-entry discussions commence.

1000 09/00 The'-- Plume, Exercise is Terminated.

Begin- Ingestion Pathway phase..

SECTION 8.0 MESSAGE FORMS AND PLANT DATA SHEETS

(

Time: 0045 Message: INC.

GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM MessacSe for: Control Room Simulated Plant Conditions: See attached sheets MessacSe: ***THZS IS AN EXERCXSE***

(

FOR CONTROLLER USE ONLY Controller Notes:

1) Review initial conditions and plant status sheets with the operating crew.

2) Review exercise precautions/limitations and exercise activities that are not normal (pre-staging, any simulated notifications, extent of participation of off-site agencies, etc.) .

3) Ensure that the operating crew understands that the exercise is not to interfere with safe plant operation.

4) Explain that the abbreviation <<OOS<< means <<out of service",

i.e. repairs must be made before the equipment can be used.

Actions EXXected:

Participants should review initial conditions and plant data sheets.

GINNA STATION 1987 EMERGENCY PREPAREDNESS EVALUATED EXERCISE INITIAL CONDITIONS The R.E. Ginna Station is operating at 1004 rated thermal power and has been operating continuously for 145 days.

2 ~ The turbine driven auxiliary feedwater pump is out for replacement of the pump thrust bearing and thrust bearing cooler. All parts are available.

3. The Reactor Core is in cycle 16 near end of life. Boron concentation in the Reactor coolant system is 20 ppm.

4. Containment spray pump 1A is inoperable due'to seized pump bearings since noon yesterday. Replacement parts are on order and expected to arrive this morning. Bearing replace-ment should then require about 1 day of actual work.

Required surveillances are complete and satisfactory for today.

5.. At 1600 hours0.0185 days 0.444 hours 0.00265 weeks 6.088e-4 months . yesterday, safety injection pump suction valve from the Boric Acid. storage tanks, MOV 826B failed to

< open during performance of the quarterly safeguard valve operation. periodic test (PT-2.3). Subsequent investigation revealed a grounded. motor. The grounded motor has been removed and sent to the Motor Shop for repair. The motor is, expected" to be returned. to the Station tomorrow. Instal-lation and testing is expected to be complete by 1400 hours0.0162 days 0.389 hours 0.00231 weeks 5.327e-4 months tomorrow. All valves in the system that provide the

-*-duplicate funtion have been tested satisfactory for oper-ability.

6. At 2130 hours0.0247 days 0.592 hours 0.00352 weeks 8.10465e-4 months last. night,. Reactor coolant system total leak rate inCreased from 0.75 GPM to 1.5 GPM. Identified leak rate is approximatley 0;25 GPM. Containment activity has increased significantly. The shift is continuing to investigate the cause of the leakage. A containment entry is planned as soon as the paperwork is complete.

7 ~ UCT level is decreasing approximately 1% every 8 minutes.

Containment sump "A" pump starts automatically approximately every 54 minutes.

1987'VALUATED EXERCISE Time: OO V4 MAJOR PARAMETERS ENGINEERED SAFEGUARDS Reactor Power Level OP MWE oMWT h Head'. I. s Reactor Shutdown Yes o

~Hi FZ-924 FZ-925

~GPM

~Pum NXS'-41~/OO, NZS N-42 j~O'>s N-43'/00 A N-44~os s lA.

1B.

InServ TB InServ OOS OOS lc-T ~78 ps'.g InServ T OOS

~

g BAST Level CHG.(FX-128)

Low Head S. Z. ~Pum s LTN.(FZ-134) FI-626 C5 GPM

~P 1A S/G Level I 1A. InServ B OOS 1B S/G Level 1B. InServ TB OOS RULZS lA, S/G'ressure- I'!I t'll RWST Level

(. 1B

CET S/G'ressure Containment FI-9 3 1A~GPM S~r~a ~Pum s:

Sump A Level feet- FI-931B~GPM Sump B Level, (3 inches 1A. ZnServ STBY OOS A RCP- unnan Stopped, 1B. InServ TB OOS B RCP unnxn Sto ed NaOH Tank Level Containment Isolation ~Yes o ecirc Fans 8'ontainment lA. Serv STBY OOS 1B ~ nSe STBY OOS ELECTRICAL POWER 1C. nServ STBY OOS 3495 KV Bus ner z.ze Deener ized 1D. Zn erv T OOS 4 KV Buses ner zze Deener zed PostAccident. DampersO en losed 480 V Buses ner ize Deener ized Service Wa er Pum s Turbine Generator ner zze Deener zed 1A. n e STBY OOS DIESEL GENE S 1B. erv STBY OOS A. RunnXn Unloaded TB OOS 1C. InSe STBY OOS In erv B B.

TSC Runnxn Unloaded Runnxn Unloaded Security Runnin Unloaded TB OOS OOS TB OOS 1D.

A&B Header Pressure ~~sig OOS ENGINEERED SAFEGU DS lA. nServ ST OOS Aux. Feedwater Pum s 1B. InServ TB OOS 1A. 1nServ TB OOS Surge Tank Level = 52 1B. InServ TB OOS ~Standb Aux. Feedwater ~Pum s Turb. Driven ZnServ STBY OOS 1C. InS cry B OOS CST Level fee 1D. InServ TB OOS

CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES AVERAGE'

AREA RADIOLOGICAL AND IIETEOROLOGI GAL DATA T I HE: 0045 POINT ID DESCR IPT I OH CURREHT VALUE aUALITY CO'DE ENGR UHI TS R01 AREA 1-CONTROL ROON 1.0E.1 GOOD HR/H R02 AREA 2-CONTAIHHENT 2.0E01 GOOD HR/H R03 AREA 3.RADIO CHEN LAB 1.9E. 1 GOOD HR/H R04 AREA 4-CHARGING PUHP ROON 1.6E+1 GOOD NR/H R05 AREA 5-SPEHT FUEL PIT 5.DE+0 GOOD HR/H R06 AREA 6-NUCLEAR SAHPLE ROON 1.DE+1 GOOD HR/H R07 AREA 7-IHCORE INSTRUHENTATIOH 2.4E+1 GOOD HR/H R08 AREA 8-DRUMHING STATION 3. 1E+0 GOOD HR/H R09 AREA 9-LETDO'WN LINE 4. 7E+1 GOOD HR/H R10A COHTAIHNENT IODINE NONI TOR R10A 8 'E+3 GOOD CPH R108 PLANT VENT IOD I HE NOH I TOR R10B 2. 1E+2 GOOD CPH R11 CONTAI HHENT AIR PART I CULATE 6.4E+5 BALM CPH R12 CONTA I HHENT GAS NOHI TOR 1.1E+5 HALH CPH R13 AUX BLDG EXHAUST AIR PARTICULATE 8.2Et1 GOOD CPH R14 AUX BLDG EXHAUS'I GAS HOHITOR 7. 1E+1 GOOD CPN R15 CONDENSER AIR EJECTOR EXHAUST 5.DE+1 GOOD CPN R16 CV COOLING HX SERVICE WATER OUT 7 'E+1 GOOD CPH R17 COMPONENT COOLING PUHP SUCT HDR 9 AL OE+2 GOOD CPN R18 LIQUID WASTE 0 I SPOSAL HOHITOR 2.8E+3 GOOD CPN R19 STEAN GEHERATOR BLOWDOWN DRAIN 2.DE+3 GOOD CPH R20 SPENT FUEL PIT HX SERV WATER OUT 4.0E+3 GOOD CPH R29 AREA 29-CONTAINHEHT HIGH RAHGE B.OE.1 GOOD R/HR R30 AREA 30-COHTAIHHEHT HIGH RANGE 9.0E-1 GOOD R/HR R33 AREA 33-HOT IHTERNEDIATE BLDG 1.0Et0 GOOD HR/H R34 AREA 34 AUX BLDG CV SPRAY PUHP 1. OE+1 GOOD HR/H R35 AREA 35-PASS SANPLE PAHEL 'I ~ OE-1 GOOD NR/H R36 CONTROL ROON HOBLE GAS HONITOR 1 ~ 7E+0 GOOD CPN R37 COHTROL ROON PARTICULATE HOHITOR 3.3E+0 GOOD CPH R38 CONTROL ROON IODINE HOHITOR 1.2E+0 GOOD CPH HVAC1 COHTROL ROON CHLORINE ANALYZER 0.0075 GOOD PPH HVAC2 CONTROL ROON AHHONIA AIIALYZER 0.7763 GOOD PPH WT250 250 FOOT LEVEL TEHPERATURE 69.0 GOOD DEGF WT033 33 FOOT LEVEL TEHPERATURE 65.0 ~ GOOD DEGF WD250 250 FOOT LEVEL WIND DIRECTIOH 331 GOOD DEG.

WD033 33 FOOT LEVEL WIND DIRECTION 335 GOOD DEG.

MS250 250 FOOT LEVEL WIND SPEED 3.0 GOOD HPH WS033 33 FOOT LEVEL WIND SPEED 3.1 GOOD HPH

SPING MONITOR SHEETS Time: 0045 (R-12A) (R-14A) (R-15A) h Current ~Readin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part - Beta uCi, STANDBY +3.84E-04 N/A Part Alpha CPM STANDBY -1.90E+01 I-131 uC1 STANDBY +5.42E-OS N/A Bkg I CPM STANDBY +3 '7E+01 N/A Noble Gas-Low. uCi/cc STANDBY -5.0E'-06 3.70E-06 Area: Monitor MR/H 1.00E-01 -3. 13E-02 1.00E-03 Noble Gas-Mid uCi/cc. STANDBY. -5'.OE-06 -1.00-06 Gamma Bkg CPM STANDBY -3.98E-02 1.00E+01 Noble Gas-High uCi/cc STANDBY -1.3E-03 -1.40E-03 Part >> Beta uCi/cc+ STANDBY +9.0E-ll I-131 uCi/cc* STANDBY +2.5E-10

SPING CONSOLE PLACED IN nINTERPRETED MODE STEAM LINE MONITORS:

(R-31): "A" Steam Line Rad Monitor +1 OOE-02

~ mR/hr (R-32): "B" Steam Line Rad Monitor +1.00E-02 mR/hr

(.

Time: 0055 Message:

GINNA STATION 1987 EVALUATED EXERCISE.

MESSAGE FORM Messacee for: Control Room Shift Supervisor Simulated Plant Conditions:

Messacae: ***THIS IS AN EXERCISE***

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

"Attention', attention all personnel. The Ginna Nuclear Station is now starting its 1987 Emergency Preparedness Evaluated.

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 EXXected:

s

(

Time: 01: 00 SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME AVGE ST. DEV MIN. MAX. I WS 33A 0031 00900 0011 0050 00

~ WS 33B 0032 00910 0012 0052 00 WS150A 0040 01000 0022 0060 00 WS150B 0042 01100 0023 0061 02 WS 250 0030 01000 0010 0055 00 NAME AUGE ST ~ DEV MIN. MAX. MNDR AVRN .CNT I WD 33A 0330 03000 0320 0340 0072 0020 0064 00 WD 33B 0330 03010 0320 0340 0071 0021 0063 00 WD150A 0331 03100 0321 0341 0045 0022 0062 00 WD150B 0352 03000 0321 0341 0035 0023 0060 02 WD 250 0333 03000 0330 0343 0055 0025 0061, 00 E AVGE I NAME AVGE'650 I NAME AVGE R33A. 0650 00 TER33B 00 TE150A I'670 TE150B, 0671 00 TE250A 0690 00 TE250B 0690 DT150A 0000 00 DT150B 0000 00 DT250A, 0040 DT250B 0040'436 00 DEW 33 TEG 33 0602. 00 RAIN 0056

(

Time I 0115 Message:

GONNA STATION 3.987 EVALUATED EXERCXSE MESSAGE FORM Messacee for: Control Room Simulated Plant Conditions: See attached sheets

, Messacae: ***THIS IS AN EXERCISE***

Indications in the Control. Room include:

, VCT: level, decreasing approximately 14- every 8 minutes.

FOR CONTROLLER USE ONLY Controller Notes:

1) The- RCS unidentified leak. rate is stable at 1.25 gpm.

Actions Exrected:

(

1987 EVALUATED EXERCISE Time: O l ~h MAJOR PARAMETERS ENGINEERED SAFEGUARDS I

Reactor Power. Level, SOP /S2.dMWT Hill Head S. I. ~Pum s FI-924. ~GPM MWE Reactor Shutdown Yes o FI-925

~

C) GP NXS N-41 00 tl N 43~-/00 s lA. InServ TBY OOS

TAg ~7 I'l N-42~op InServ NIS N-44 /000 1B. TB OOS 1C. ZnServ STB OOS CHG. (FX-128)

Pressurizer Level Low Head S. I. s LTN.(FI-134)

Cf GPM I'II FI-626 ~GPM ~Pum 1A S/G Level 1A. InServ B OOS 1B S/G Level 5I 1B. InServ TB OOS RVLIS IOO 1A S/G'ressure. 7$ e7 psig RWST L'evel 1B S/G Pressure I II Containment FX-931A

~Sr~a GPM

~Pum s

CET'ump A Level 2..2 feet. FX-931B GPM Sump A RCP B RCP B'evel Containment Isolation unnin Runnzn

~Fes C) inches.

Stopped Sto ed o

1A.

1B:

k ZnServ STBY InServ Containment Recirc Fans TB

~j OO 0 S 1A. nSe STBY OOS 1B erv STBY OOS ELECTRICAL POWER 1C. InSe STBY OOS 34.5 KV Bus ner ize Deener ized 1D. n erv TB OOS 4 KV Buses. . ner z.ze Deener zed PostAccident DampersO en lose 480 V'uses ner ize Deener ized Service Water Pum s Turbine Generator ner zze Deener zed lA. nSe STBY OOS DIESEL GEN 1B . nSe STBY OOS A. Runnan Unloaded BT F oos 1C n e STBY OOS B. Runnzn Unloaded TB OOS 1D. Zn erv OOS TSC Runnin Unloaded TB OOS A&B Header Pressure ~WZ sig Security Runnin Unloade TB OOS I ENGINEERED SAFEGUARDS 1A. Serv STBY OOS Aux. Feedwater Pum s 1B. ZnServ TB OOS 1A. XnServ TB OOS Surge Tank Level = 8 Z.

1B. ZnServ TB OOS ~Standb Aux. Feedwater ~Pum s Turb. Driven XnServ STBY OS lc. ZnServ TB OOS CST Level fee 1D. XnServ TBY OOS

CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES AVERAGE

AREA RADIOLOGICAL AND QEJEOROLOGICAL DATA .

T I HE:

'OINT ID DESCRIPTIOH- CUR)E(T VALUE QUAL I T'Y CODE ENGR UNITS 01 AREA 1-CONTROL ROOH 1.0E-1 GOOD HR/N 02 AREA 2-CONTAINHENT 2.1Et1 GOOD MR/N 03 AREA 3 RADIO CHEM LAB 1.9E ~

1 GOOD HR/N 04 AREA 4.CHARGING PUHP ROOH ).6Et1 GOOD HR/N 05 AREA 5 SPENT FUEL PIT 5.DE+0 GOOD HR/N 06 AREA 6-NUCLEAR SAMPLE ROOH 1. DE+1 GOOD HR/N 07 AREA 7- INCORE INSTRUHENTAT 10M 2.4E+1 GOOD HR/N 08 AREA 8 'RUMHING STATION 3 ~ 1E+0 GOOD. HR/H 09 AREA 9.LETDO'WN LINE 4.7Ei1 GOOD HR/N 10A CONTAINHENT IODINE HONI TOR R10A 1.2E+4 GOOD CPH 108 PLANT VENT IODINE HON I TOR R108 2. 1E+2 GOOD CPH 11 CONTAINMENT AIR PARTICULATE 6. /} E+5 NALH CPH 12 COHTAINHENT GAS HONI TOR 1.4E+5 NALH CPH 13 AUX BLDG EXHAUST AIR PARTICULATE 8.2E+1 GOOD CPH 14 AUX BLDG EXHAUST GAS HONITOR 7.1E+1 GOOD CPH 15 CONDENSER AIR EJECTOR EXHAUST 5.DE+1 GOOD CPH 16 CV COOLING HX SERVICE IIATER OUT 7.5E+1 GOOD CPH 17 COHPONENT COOLING PUHP SUCT NDR 9.DE+2 GOOD CPM 18 LIQUID WASTE DISPOSAL HOHITOR 2.BE+3 GOOD CPH 19 STEAH GENERATOR BLOWOOWH DRAIN 2.DE+3 GOOD CPM 20 SPENT FUEL PIT NX SERV WATER OUT 4 AL OE+3 GOOD CPH 29 AREA 29.CONTAINHENT HIG RAHGE 8.0E-1 GOOD R/HR 30 AREA 30 ~ CONTAINHENT HIGH RANGE 9.0E-1 GOOD R/HR 33 AREA 33-HOT INTERHEDIATE BLDG 1.DE+0 GOOD MR/N 34 AREA 34 AUX BLDG CV SPRAY PUHP 1.DE+1 GOOD HR/N 35 AREA 35-PASS SAMPLE PANEL 1.0E-1 GOOD HR/H 36 CONTROL ROOH NOBLE GAS HONITOR 1. 7E+0 GOOD CPH 37 CONTROL ROOH PARTICULATE Ho}IITOR 3 'E+0 GOOD CPM 38 CONTROL ROOM IODINE HON ITOR 1.2E+0 GOOD CPM VAC1 CONTROL ROOM CHLORINE ANALYZER 0.0075 GOOD PPH VAC2 CONTROL ROOH AHMONIA ANALY?ER 0.7763 GOOD PPH T250 250 FOOT LEVEL TEMPERATURE 69.0 GOOD DEGF T033 33 FOOT LEVEL TEHPERATURE 66.0 'OOD DEGF D250 250 FOOT LEVEL WIND DIRECTION 332 GOOD DEG. D033 33 FOOT LEVEL WIND DIRECTION 333 GOOD DEG. S250 250 FOOT LEVEL WIND SPEED 3.2 GOOD MPH S033 33 FOOT LEVEL WIND SPEED 3.3 GOOD MPH U

SPING MONITOR SHEETS'F.: Time: 0115 ( (R-12A) (R-14A) (R-15A) Current ~eadinc[ CHANNEL UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part Beta STANDBY +4.20E-04 N/A Part Alpha. CPM'Ci STANDBY -1.90E+01 N/A I-13 1 STANDBY +2'.30E-04 N/A Bkg I CPM STANDBY +3 '8E+Ol N/A 5 Noble Gas-Low uCi/cc STANDBY -5.0E-06 3.70E-06 6 Area Monitor MR/H 1.00E-Ol -3.99E-02 1.00E-03 Noble Gas-Mid uCi/cc STANDBY -5.1E-06 -1.00E-06 Gas-High'Ci Gamma Bkg CPM STANDBY +3.98E-02 1.00E+01 Noble uCi/cc STANDBY +1. 30E-03 -1.40E-03 Part. Beta uCi/cc* STANDBY +9.00E-ll I-131 uCi/cc* STANDBY +2.40E-10

SPING CONSOLE PLACED IN "INTERPRETED MODE" STEAN LINE MONITORS:

(R-31): "A" Steam Line Rad Monitor +1.00E-02 mR/hr (R-32): "B" Steam Line Rad Monitor +1.00E-02 mR/hr

( Time: 01: 15 SILENT 700'OMPUTER METEOROLOGICAL DATA AV77" NAME AVGE, ST. DEV MIN. MAX; I WS 33A 003 00900 0011 0050 00 WS 33B 1'032 00910 0012 0052 00 WS150A 0040 01000 0022" 0060 00 WS150B 0042 01100 0023 0061 02 WS 250 0030 01000 0010 0055 00 NAME AVGE ST. DEV MIN. MAX. MNDR AVRN CNT WD 33A 0331 03000 0321 0341 0020 0064 00 I'072 WD 33B 0331 03010 0320 0340 0071 0021 0063 00 WD150A 0332 03100 0320 0345 0045 0022 0062 00-WD150B 0332 03000 0315 0341 0035 0023 ~ 0060 02 WD 250 0333 03000 0321 0345 0055 0025 0061 00 NAME AVGE I NAME AVGE I NAME AVGE I R33A 0650 00 TER33B 0650 00 TE150A- 0661 150B 0661 00 TE250A. 0690. 00 TE250B 0690 T150A.. 0011 00 DT150B 0011, 00 DT250A 0040 DT2508 0040 DEW 33 0436 TEG 33 0602 00 RAIN 0056

Time: 0130 Message: GINNA STATION 1987'VALUATED EXERCISE MESSAGE, FORM Messacee for: Control Room Simulated Plant Conditions: See attached sheets Messacee: ***THIS ES AN EXERCISE*** Indications in the Control Room include: VCT'eve1 decreasing approximately 1% every (, 8 minutes. FOR CONTROLLER USE. ONLY Controller Notes:

1) The RCS unidentified leak rate is stable at 1.25 GPM.

Actions ~xrected:

1) An UNUSUAL EVENT should be declared in accordance with SC-100, "Ginna Station Event'valuation and Classification",

EAL: Reactor Coolant Leakage; Primary system leakage greather than Tech. Spec. limits (greater than 1 gpm unidentified for more than 4 hours).

2) Implement SC-201 "UNUSUAL EVENT'.

a) Make notifications. b) Assess and monitor plant conditions. Update offsite g agencies significant at least changes hourly and whenever in plant status. there are

3) Implement Procedure No. AP-RCS.1 "Reactor Coolant Leak".

1987 EVALUATED EXERCISE Time: 0 ~ MOOR PAMMETERS ENGINEERED SAFEGUARDS l Reactor Power Level 5>P MWE /52-OMWT Hicihn; Head'. Z. ~Pum s Reactor Shutdown Yes o FI-924. Z5 GPM I'" ~3 FI'-925 C) GP NIS N-41/OC7'7o N-43 /d0 742 1A. InServ NZS'-42~~00 3 N-44+@0'~o I'l 1B. InServ BY OOS STBY OOS

                                 ~f 1C.           ZnServ     STBY OOS
                                 ~3
                                 ~l 3                                  BAST     Level ~

CHG.(FI-128) R7 GPM I Zow Head s LTN.(FI-134) II FZ-626 ~GPH S Z ~ ~Pum S/G Level 5~ 1A. InServ B OOS 1B S/G Level 1B. ZnServ STBY OOS RVLZS /CO 1A S/G Pressure. 7~ psig Level = 3 1B S/G

 *CET Pressure 02.

I'3 RWST Containment ~sr~a GPM

                                                                                            ~Pum   6 Sump B A. Level.

Level le Cp C7'nches feet oF'ump; FZ-93 lA. ZB~GPH ZnServ STBY 0 A RCP B'CP-unnxn Runnxn Stopped Sto ed, 1B'. InServ TB

                                                                                            ~3'   OOS Containment        Isolation         ~Yes  /~o                Containment: Recirc Fans I                                                   lA..             Se      STBY OOS 1B.             nSe      STBY OOS ELECTRICAL POWER                              lc"             nServ ST Y OOS 34.5     KV Bus              ner xze    Deener ized           1D.           ZnServ STB OOS 4 KV     Buses               ner zze    Deener ized           PostAccident Dampe sO en                  loseu 480 V Buses                   er ize    Deener ized           Service     Wa        Pum s Turbine Generator            ner ize    Deener ized           1A.             nSe      STBY      OOS DIESEL GENERATORS
                        .,                                     1B.           Zn e       STBY      OOS A.       RunnXn Unloaded           BY  OOS                    1C.           Zn erv STBY          OOS B.       Runn n Unloaded S B                                  1D.           In erv       TB      OOS TSC      Runnin     Unloaded Security Runnin Unloa TB e

OOS OOS TB OOS A&B Com Header Pressure ~~ onent n Water

                                                                                                      ~sig
                                                                                                      ~Pum  s ENGINEERED SAFEGUARDS                          1A.            nSe      STBY OOS Aux. Feedwater     Pum s                       1B.            nServ      TB OOS lA. InServ           B    OOS                                 Surge Tank Level =                  8Z 1B.~     ZnServ STB       OOS                                 ~Standn     Aux. Feedwater ~Pum s Turb. Driven
        ~
               ~

ZnServ STBY OO 1C. InServ B OOS CST Level 1D. ZnServ S OOS

 *CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES AVERAGE

Wp:-' METED+a.>'L (: AREA RADIOLOGICAL ACRID DATA T I ME. 0130 POI NT I 0 DESCRIPTION CURRENT VALUE QUALITY CODE ENGR UN I T S R01 AREA 1-CONTROL ROOH 1.0E-1 GOOD MR/N R02 AREA 2.CONTAINHENT 2. 1E+ I GOOD HR/N R03 AREA 3.RADIO CNEH LAB 1.9E. 1 GOOD HR/M R04 AREA 4-CHARGING'UHP ROOH 1.6Ei1 BINUCLEAR GOOD HR/N R05 AREA 5 SPENT FUEL PIT 5.0E+0 GOOD MR/N R06 AREA 6 SAHPLE ROOH I.OE+f GOOD HR/N R07 AREA 7- INCORE INSTRUMENTATION 2. 5E+1 GOOD MR/N ROB AREA 8 DRUHHIKG STATION 3. 1E+0 GOOD HR/H R09 AREA 9-LETDONN LINE 4.7E+1 GOOD HR/N R10A CONTA I NHENT IOD I NE HONI TOR R10A 1.3Et4 GOOD CPH R108 PLANT VENT IODINE HONI TOR R108 2.1E+2 GOOD CPH R11 CONTAINHENT AIR PARTICULATE 6.4E+5 NALH CPH R12 CONTAINHENT GAS HONITOR 1.7E+5 NALH CPH R13 AUX BLDG EXHAUST AIR PARTICULATE 8 'E+1 GOOD CPH R14 AUX BLDG EXHAUST GAS MONITOR 7-1E+1 GOOD CPH R15 CONDENSER AIR EJECTOR EXHAUST 5.0Et1 GOOD CPH R16 CV COOLING NX SERVICE IIATER OUT 7.5E+1 GOOD CPH R17 COHPONENT COOLING PUHP SUCT NDR 9.DE+2 GOOD CPH R18 LIQUID MASTE DISPOSAL HONITOR 2.BE+3 GOOD CPH R19 STEAH GENERATOR BLONDOMN DRAIN 2.0E+3 GOOD CPH R20 SPENT FUEL PIT HX SERV MATER OUT 4 AL OE+3 GOOD CPH R29 AREA 29-CONTAINHEKT HIGH RANGE B.OE.1 GOOD R/NR R30 AREA 30-CONTAINHENT IIIGH RANGE 9.0E.1 GOOD R/NR R33 AREA 33 ~ NOT INTERHED IATE BLDG 1. DE+0 GOOD HR/N R34 AREA 34.AUX BLDG CP SPRAT PUHP 1.DE+1 GOOD HR/N R35 AREA 35-PASS SAHPLE PANEL 1-0E ~ 1 GOOD HR/N R36 CONTROL ROOH IIOBLE GAS HONITOR 1.7E+0 GOOD CPH R37 CONTROL ROOH PARTICULATE MONITOR 3.3E+0 GOOD CPH R38 CONTROL ROOH IODINE HON ITOR 1.2E+0 GOOD CPH NVAC1 CONTROL ROOH CHLORINE ANAL'YZER 0.0075 GOOD PPH NVAC2 CONTROL ROOH AHHONIA ANALYZER GOOD 0.7763'9.0 PPH IIT 250 250 FOOT LEVEL TEHPERATURE GOOD DEGF UT033 33 FOOT LEVEL TEHPERATURE 66.0 GOOD DEGF ND250 250 FOOT LEVEL 'WIND DIRECTION 330 GOOD DEG. WD033 33 FOOT LEVEL MIND DIRECTION 32( GOOD DEG. US250 250 FOOT LEVEL NIND SPEED 3 ' GOOD HPN WS033 33 FOOT LEVEL 'WIND SPEED 3.5 GOOD HPN

SPING MONITOR SHEETS Time: 0130 (R-12A) (R-14A) (R-15A) Current R~eadin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part - Beta. uCi STANDBY +4.40E-04 N/A Pari - Alpha CPM'Ci STANDBY 1. 90E+01 N/A Z-131, STANDBY +3.70E-04 N/A 4 Bkg. Z. CPM STANDBY +3 . 47E+0 1 N/A Noble Gas-Lov uCi/cc STANDBY -5.1E-06 3.70E-06 Area Monitor MR/H 1.00E-01 -3.98E-02 1.00E'-03 Noble Gas-Mict uCi/cc STANDBY +5.1E-06 -1.00E-06 Gamma Bkg CPM STANDBY +4.00E-02 1.00E+01 Noble Gas-Highs " uCi/cc STANDBY +1.30-03 -1 '0E-03 Part Beta uCi/cc+. STANDBY +9 ~ OOE-11 I-13 1 uCi/cc* STANDBY +2.50E-10

SPING CONSOLE PLACED IN "INTERPRETED MODE" STEAM LINE MONITORS" (R-31): >>A" Steam Line Rad Monitor +1.00E-02 mR/hr (R-32): "B" Steam Line Rad Monitor +1.00E-02 mR/hr

Time: 1: 30

                              'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME     AVGE                  MIN.      MAX.       I WS 33A   0031 00900            0011      0050       00 WS 33B   0032 00910            0012      0052       00 WS150A   0040 01000            0022      0060       00 WS150B   0042 01100            0023      0061       02 WS 250   0030 01000            0010      0055       00 NAME     AVGE ST  ~ DEV        MIN.      MAX.      MNDR      AVRN   CNT WD 33A   0331 03000            0321      0351      0072      0020  0064 WD 33B   0330 03010            0322      0340      0071      0021  0063 WD150A   0330 03100            0321      0345      0045      0022  0062 WD150B   0056'T'EV 0331 03000            0321      0340      0035      0023  0060 WD 250   0332 03000            0310      0350      0055      0025  0061 AME ER33A AVGE 0650 I       NAME TER33B AVGE 0650 I00 NAME TE150A.

AVGE 0660

                ,00 E150B   0660   00      TE250A      0690             00 TE250B    0690 DT150A ~

0010 00 DT150B 0010 DT250A 0040 DT250B 0040 DEW 33 0436 TEG'3 0602 00 RAIN

Time: 0145 Message: 4 X GZNNA. STATION I 198T EVALUATED EXERCXSE'ESSAGE FORM Messacee for: Control Room Shift Supervisor Simulated Plant Conditions: M~essa e: ***THIS IS AN EXERCISE*** Declare an UNUSUAL EVENT in accordance with SC-100, "Ginna Station Event Evaluation and Classification", EAL: Reactor Coolant Leakage; Primary system leakage. greater than Tech. Spec. Qi limits (greater than 1 gpm unidentified for more than 4 hours). FOR CONTROLLER USE ONLY Controller Notes'.

1) Deliver if ifUNUSUAL not deliver an EVENT.

emergency has not yet been declared. classification discussions are in

                                                                               , Do progress.

Actions Exrected:

Time: 0145 Message: GINNA STATION 1987 EVALUATED EXERCISE MESSAGE for: Control FORM'essacae Room Simulated Plant Conditions: See attached sheets Me~sacee: ***TEES XS AN EXERCISE*** The Station experiences a large tremor from an earthquake. FOR CONTROLLER USE ONLY Controller Notes:

1) When Control Room decides to check the accelerograph, question the Operator to be sent as to where he is going

( and what he is looking for. After he answers, have-finding a, red target.. him'imulate

2) When Control Room, personnel simulate PT-1 on Control Rods, inform them that Control. Rods I-7 and G-9 will not, move..

3) When Control Room checks turbine supervisory, inform them all conditions. are normal.

Actions Exsected:

1) Control Room personnel should start performing the actions of SC-5 (Earthquake, Emergency Plan) including:

a) Checking the Station accelerograph. b) After being told of the red target indicated, may update on Unusual Event notification due to earthquake at plant of greater than .Olg as indicated by red target on action indicator at bottom of accelerograph. c) Simulate starting the "A" emergency diesel generator. Notify I&C personnel to remove the film from the accelerograph and send it to the photo lab. d) e) Tour the plant for unusual conditions. f) Simulate performing PT-1 (Rod Control System) operabil-ity test.

1987 EVALUATED EXERCISE Time: 0 J V5 MAJOR PAEV&KTERS ENGINEERED SAFEGUARDS Reactor Power Level 508 MWE 152P MWT H~l h Head S. Z. ~Pum s Reactor Shutdown Yes o FI-924 5 GPM FI 925 GPM NIS'-42~0/~ NIS N-41~/00 . N-42 /00 N-44~00 Ps 1A. I'i 1C'nServ 1B.

InServ InServ S T TB OOS OOS OOS BAST Level ~ CHG.(FZ-128) GPM Pressurizer Level Low Head S. Z. s LTN.(FI-134) Containment Pressure 0 GPM psig FZ 626 ~GPH ~Pum 1A S/G Level 1A. ZnServ TB OOS 1B S/G Level 1B. InServ TB OOS RVLZS /no 1A S/G Pressure P i!I RWST Level 1B'/G Pressure C psig Containment ~sr~a ~Pum s

*CET oF FZ-931A C7 GPM Sump A- Level feet FZ-931B C9 GPM Sump B Level o inches 1A. ZnServ STBY O A RCP unnin Stopped 1B. InServ TB OOS B; RCP, Runnzn Sto ed NaOH Tank Level Containment Zsolation ~Yes o Containment Recirc Fans 1A. Se STBY OOS 1B. nServ STBY OOS ELECTRICAL 1C InSe ST Y OOS ner xze Deener ized In erv POWER'4.5 KV Bus 1D. TB OOS 4 KV* Buses Ener xze Deener ized PostAccident DampersO en Closed 480 V Buses ner ize Deener ized Service Wate Pum s Turbine Generator ner ize Deener ized 1A Se STBY OOS DIESEL GENERATO 1B. e STBY OOS A. RunnXn Unloaded TB oos 1C. nSe STBY OOS B. Runnzn Unloaded TB OOS 1D. ZnServ TB OOS TSC Runnin Unloaded TB OOS A&B Header Pressu ~55 sig Security Runnin Unloade ENGINEERED SAFEGUARDS B OOS 1A. nSe STBY OOS WL Aux. Feedwater Pum s 1B. ZnServ TB OOS InServ STB OOS Surge Tank Level 5 /

1B. ZnServ B OOS ~Standh Aux. Feed er ~Pum s Turb. Driven ZnServ STBY OS 1C. ZnServ STB OOS 0 CST Level feet 1D. ZnServ STB OOS

 *CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES AVERAGE

AREA RADIOLOGICAL AND QETEOROLOGl CAL DATA T I HE 0145 'OINT ID DESCRIPTION CURREHT VALUE QUALITY CODE ENGR UNITS P F01 AREA 'I-CONTROL ROOH 1.0E.1 GOOD HR/N l02 AREA 2.CONTAINHENT 2. 1E+1 GOOD HR/H ,'03 AREA 3 RADIO CHEH LAB 1 'E-1 GOOD HR/N ',04 AREA 4-CHARGIHG PUHP ROOH 1.6E+) GOOD HR/H ,'05 AREA 5.SPEHT FUEL PIT 5.DE+0 GOOD HR/H '.06 AREA 6-NUCLEAR SAHPLE ROOH 1.DE+1 GOOD HR/H .07 AREA 7- INCORE INSTRUHEHTAT ION 2.5Et1 GOOD MR/H .08 AREA B.DRUHHING STATION 3.1E+0 GOOD HR/H .09 AREA 9.LETDOWN LINE 4.?E+1 GOOD HR/H ,10A CONTAINHENT IODINE HONITOR R IOA 1.5E+4 GOOD CPM 108 PLANT VENT IODINE HOHI TOR R10B 2 'E+2 GOOD CPM '11 CONTAI HHENT AIR PART 1 CULATE 6.4E+5 HALH CPH 12 CONTA I HHENT GAS HONI TOR 1.9E+5 HALH CPH 13 AUX BLDG EXHAUST AIR PARTICULATE B.2Eil GOOD CPM 14 AUX BLDG EXHAUST GAS HONITOR 7.1E+1 GOOD CPM 15 CONDENSER AIR EJECTOR EXHAUST 5.0E+1 GOOD CPH 16 CV COOLIHG NX SERVICE WATER OUT 7.5E+1 GOOD CPH 1? COHPONENT COOLING PUMP SUCT HDR 9.DE+2 GOOD CPM 18 LIQUID WASTE DISPOSAL HONITOR 2.8E+3 GOOD CPM 19 STEAM GENERATOR BLOWDOWN DRAIH 2.DE+3 GOOD CPH 20 SPENT FUEL PIT HX SERV l!ATER OUT 4.0E+3 GOOD CPH 29 AREA 29-COHTAIHHENT HIGH RAHGE 8.0E-1 GOOD R/HR 30 AREA 30.CONTAINHENT HIGH RAHGE 9.0E.1 GOOD R/HR 33 AREA 33.HOT IHTERMEDIATE BLDG 1 AL OE+0 GOOD MR/H 34 AREA 34-AUX BLDG CV SPRAY PUHP 1.DE+1 GOOD HR/H 35 AREA 35 PASS SAMPLE PANEL OE-1 GOOD HR/H 36 CONTROL ROOH NOBLE GAS HON ITOR 1.7E+0 GOOD CPM 37 CONTROL ROOH PARTICULATE HON ITOR 3.3E+0 GOOD CPM 38 CONTROL ROOH IODINE HOKITOR 1.2E+0 GOOD CPH VAC1 CONTROL ROOH CHLORINE AHALYZER 0.0075 GOOD PPM VAC2 CONTROL ROOH AMHONIA ANALYZER 0 '763 GOOD PPM T250 250 FOOT LEVEL TEHPERATURE 70.0 GOOD DEGF T033 33 FOOT LEVEL TEHPERATURE 67.0 'OOD DEGF 0250 250 FOOT LEVEL WIND DIRECTION 330 GOOD DEG. D033 33 FOOT LEVEL 'WIND DIRECTION 330 GOOD DEG. S250 250 FOOT. LEVEL WIND SPEED 4.1 GOOD MPH S033 33 FOOT LEVEL WIND SPEED 4.2 GOOD HPN

SPING MONITOR SHEETS Time: 0145 (R-12A) (R-14A) (R-15A) Current Readinc[ CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part Beta uCi STANDBY +4. 60E-04 N/A Part: Alpha CPM STANDBY -1 90E+01

                                                              ~           N/A I-13 1               uCi       STANDBY         +3.70E-04      N/A Bkg  I               CPM       STANDBY         +3 . 48E+O1    N/A 5            Noble Gas-Low        uCi/cc    STANDBY         -5.20E-06      3.70E-06 Area Monitor         MR/H      1.00E-01        -3.99E-02      1.00E-03 Noble Gas-Mid        uCi/cc    STANDBY         -5.21E-06      -1.00E-06 Gamma   Bkg          CPM       STANDBY         -4.00E-02      1.00E+01 Noble Gas-High       uCi/cc    STANDBY         +1 30E-03
                                                              ~           -1. 40E-03 Part. Beta.        uCi/cc*   STANDBY STANDBY'9.00E-11 I-13 1               uCi/cc+                   +2.50E-10

SPING CONSOLE PLACED IN 'rINTERPRETED MODE STEAM LINE MONITORS:

(R-31): "A" Steam Line Rad Monitor +l. OOE-02 mR/hr (R-32): "B" Steam Line Rad Monitor +1.00E-02

Time: Ol:45

                             'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME'S 33A AVGE 0033 ST. DEV 00800 MIN.

0011 MAX. 0050 I00 WS 33B 0032 0091Q 0012 005? 00 WS150A 0042 01000 0022 0060 00 WS150B 0043 01100 0023 0061 02 WS 250 0032 01000 0010 0055 00 NAME AVGE ST. DEV MIN. MAX. MNDR AVRN CNT I WD 33A 0330 03100 0320 0350 0072 0020 0064 00 WD 33B 033Q 03020 0320 0340 0071 0021 0063 00 WD150A 0332 03100 0320 0340 0045 0022 0062 00 WD150B 0333 03000 0321 0341 0035 0023 0060 02 WD 250 0331 03000 0320 0342 0055 0025 0061 00 NAME ER33A AVGE 0670 I 00 NAME AVGE 0670 I 00 NAME TE150A AVGE 0691 I TER33B 150B 0691 00 TE250A 0700 00 TE250B 0700 T150A 0021 00 DT150B 0021 00 DT250A 0030 DT250B 0030 DEW 33 0436 TEG'3 0602 00 RAIN 0056

Time: 0200 Message: 6X GINNA STATION 1 1987'VALUATED EXERCISE MESSAGE FORM Messacae for: Control Room Simulated Plant Conditions: Messacee: ***THIS IS AN EXERCISE*** Notify I&C to remove the film from the accelerograph and send it FOR CONTROLLER USE ONLY Controller Notes:

1) Deliver remove if film.

Control Room personnel have not requested I&C to Actions Exrected:

Time: 0200 Message: GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM. MessacSe for: Control. Room Simulated Plant Conditions: See attached sheets Messacee: ***THIS IS AN EXERCISE*** Indidations in the Control Room. include: o Containment. recirculation fan cooler condensate collectors k~ begin requiring dumping, more frequently. ALARMS, Received. in the Control Room:. o, E-31 (Containment Recirc. fan condensate Hi-Hi level) FOR CONTROLLER USE ONLY Controller Notes:

1) This is the beginning of the earthquake induced crack on the "A" S/G steam line weld as it exits the. S/G.

Actions Exrected:

1) Control Room should try and determine from the primary or secondary side.

if this new leak is

2) Shift Supervisor should initiate a containment entry to check for leakage.

3) Shift Supervisor orders the plant to hot shutdown in 6 hours per Technical Specification 3.10.4.4 (i.e. with two or more full length rods inoperable, be in hot shutdown swithin 6 hours).

( 1987 EVALUATED EXERCISE Time: OZGO MAJOR PAEVQKTERS

ENGINEERED SAFEGUARDS Reactor Power Level 0 Hi/ih Head S. I.

MWE s Reactor Shutdown o

                                                /S20MWT'es FI-924 FI-925
                                                                             ~GPH            ~Pum
                                ~I C7      GPM NIS              N-41~/OO            N-43~IOO                    1A.,       ZnServ         TB OOS NIS              N-42~/O~            N-44~100              e     1B.        InServ         T Y OOS I'            "P I'P     lc.

BAST Level InServ TB OOS CHG.(FI-128)

I \ Low Head S. I. ~Pum s LTN.(FI-134) FI-626 C) GPM PP I II 1A S/G 1B S/G RVLIS Level Level 1A S/G Pressure 1B S/G, Pressure

                                ~/        75 o I
                                                             ~

psig 1A. 1B. I'!I FZ-93 RWST InServ InServ Level = Containment ~Sr~a TB TB

                                                                                                ~Pum OOS OOS s
    *CET                                                                   1A      O       GPM Sump A  Level                         Z.o                feet   FZ-931B        C)      GPM Sump  B'evel                            0              inches   1A.         ZnServ STBY             0 A RCP                         unnxn       Stopped               1B.         ZnS cry        TB      OOS B RCP                       Runnxn        Sto ed Containment    Isolation           Ye+soo                       Containmen       Recirc Fans lA.          nSe         STBY      OOS 1B.          n erv STBY            OOS ELECTRICAL POWER                                     1C           nServ      STBY OOS 34.5  KV Bus             ner zze      Deener ized               1D.         ZnServ        TB OOS 4 KV  Buses        ~

ner x,ze Deener zed PostAccident DampersO en lose 480 V Buses er xze Deener ized Service Wate s er i e Pum Turbine Generator Deener ized 1A. nSe STBY OOS DIESEL GENE 1B. In e STBY OOS A. nzn Unloaded STBY OOS 1C. n erv S Y OOS B. Runnin Unloaded TB OOS 1D. InServ TB OOS TSC Runnzn Unloaded 0 S A&B Header pressure ~S paid Security Runnxn Unloade TB OOS I. ENGINEERED SAFEGU S 1A. nSe STBY OOS Aux. Feedwater Pum s 1B. InServ TB OOS 1A. InServ TB OOS Surge Tank Level ~ 1B. InServ TB OOS ~Standh Aux. Feed ter Pum s (;.. Turb. Driven ZnServ STBY OOS 1C. InServ TB OOS CST Level l. fee 1D. ZnServ TB OOS

    *CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES AVERAGE

AREA RADIOLOGICAL AND IIETEOROLOGI GAL DATA T I ME: POINT ID DESCRIPT IOH CURRENT VALUE QUALITY CODE ENGR UNITS R01 AREA 1 COHTROL ROOM 1.0E-1 GOOD MR/H'R/H R02 AREA 2.COHTAINMENT 2.2Et1 GOOD R03 AREA 3-RADIO CHEM LAB 1.9E-1 GOOD MR/H R04 AREA 4.CHARGIHG PUMP ROOM 1.6Et1 GOOD MR/H R05 AREA 5.SPENT FUEL PIT 5.DE+0 GOOD MR/H R06 AREA 6-NUCLEAR SAMPLE ROOM 1. DE+1 GOOD MR/H ~ R07 AREA 7- INCORE INSTRUMENTATION 2.6E+1 GOOD MR/H ROB AREA 8-DRUMMING STATION 3.1E+0 GOOD MR/H R09 AREA 9.LETDONN LINE 4.7E+1 GOOD MR/H R10A CONTAINMENT IODINE MONITOR R10A ).6E+4 GOOD CPM R108 PLANT VENT IOD INE MOHI TOR R108 2. 1E+2 GOOD CPM R11 CONTAINMENT AIR PARTICULATE 6.4E+5 HALM CPM R12 COHTAIHMEHT GAS MOHI TOR 2 'E+5 HALM CPM R13 AUX BLDG EXHAUST AIR PART I CULATE 8.2E+1 GOOD CPM R14 AUX BLDG EXHAUST GAS MONITOR 7. 1E+1 GOOD CPM R15 CONDENSER AIR EJECTOR EXHAUST 5.DE+1 GOOD CPM R16 CV COOLING HX SERVICE HATER OUT 7.5E+1 GOOD CPM R1 7 COMPONENT COOLING PUMP SUCT HDR 9.DE+2 GOOD CPM R18 LIQUID llASTE DISPOSAL MONITOR 2.BE+3 GOOD CPM R19 STEAM GENERATOR BLONDONN DRAIN 2.DE+3 GOOD CPM R20 SPEHT FUEL PIT HX SERV MATER OUT 4.DE+3 GOOD CPM R29 AREA 29 COHTAIHMENT HIGH RANGE 8.0E-1 GOOD R/HR R30 AREA 30.COHTAIHMEHT HIGH RANGE 9.0E.1 GOOD R/HR R33 AREA 33 HOT INTERMEDIATE BLDG 1.DE+0 GOOD MR/H R34 AREA 34-AUX BLDG CV SPRAY PUMP 1. DE+1 GOOD MR/H R35 AREA 35.PASS SAMPLE PANEL 1.0E-1 GOOD MR/H R36 COHTROL ROOM NOBLE GAS MOHITOR 1.7E+0 GOOD CPM R37 CONTROL ROOM PARI'ICULATE MONITOR 3 'E+0 GOOD CPM R38 CONTROL ROOM IOD IHE MONITOR 1.2E+0 GOOD CPM HVAC1 CONTROL ROOM CHLORINE ANALYZER 0.0075 GOOD PPM HVAC2 CONTROL ROOM AMMONIA AHALY?ER 0.7763 GOOD, PPM WT250 250 FOOT LEVEL TEMPERATURE 70.0 GOOD DEGF NT033 33 FOOT LEVEL TEMPERATURE 67.0 GOOD DEGF WD250 250 FOOT LEVEL HIND DIRECTION 330 GOOD DEG. WD033 33 FOOT LEVEL WIND DIRECT IOH 330 GOOD DEG. NS250 250 FOOT LEVEL HIND SPEED MPH

                                                               '.5 GOOD WS033    33 FOOT LEVEL WIND SPEED                        4                 GOOD                 MPH I

I I

SPING MONITOR SHEETS'R-12A) Time: 0200 (R-14A) (R-15A) Current ~Readin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part Beta uCi STANDBY +4.80E-04 N/A 2 Part - Alpha. CPK -1.90E+01 N/A Z.-'13 1 CPM'TANDBY uCi, STANDBY +3.70E-04 N/A Bkg I STANDBY +3.49E+01 N/A Noble Gas-Low. uCi/cc STANDBY -5 '0E-06 3.70E-06 Area Monitor MR/H 1.00E-01 -4.00E-02 1.00E-03 Noble Gas-Mid uCi/cc STANDBY -5.22E-06 -1.00E-06 Gamma Bkg CPM STANDBY -4.00E-02 1.00E+01 Noble Gas-High uCi/cc +1'30E-03 -1.40E-03 '( STANDBY Part Beta: uCi/cc* STANDBY +9.90E-11 I-13 1. uCi/cc+ STANDBY +3.00E-10

SPZNG CONSOLE PLACED IN "INTERPRETED MODE" STEAM LINE MONITORS:

(R-31): "A<<'team Line Rad Monitor +1. OOE-02 mR/hr (R-32): "B" Steam Line Rad Monitor +1. OOE-02 mR/hr

( Time: 02:00

                                  'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME,  AVGE     ST. DEV            MIN. MAX'.         I, WS 33A 0042'042 00800              0011     0050          00 WS 33B          008                0012     0052          00 WS150A 0050'052 10'1000 0022     0060          00 WS150B          01100.             0023     0061          02 WS 250 0040     01000              0010     0055          00 NAME   AVGE. ST..-DEV           MIN. MAX.        MNDR     AVRN    CNT  I WD 33A 0320     03000              0310     0330        0072     0020   0064 00 WD 33B 0320     03010              0315     0335        0071     0021   0063 00 WD150A 0330     03100              0320     0340        0045     0022   0062 00 WD150B 0330     03000              0320     0340        0035      0023  0060 02 WD 250 0330     03000              0320     0345        0055      0025  0061 00 NAME ER33A AVGE 0670 I

00 NAME TER33B AVGE 0670 I00 NAME TE150A AVGE 0690 I E150B 0690 00 TE250A 0700 00 TE250B 0700 ( DT150A DT250B 0020 0030 00 00 DT150B 0020 00 DT250A 0030' DEW 33 0436 TEG 33 0602 -00 RAIN 0056

(OI Time: 0210 Message: 8 GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM Messacee for: Control Room Simulated Plant Conditions: MessacSe: ***THIS IS AN EXERCISE*** Alarms received in the Control Room: o Fire: zone S-03 (Auxiliary. Building Intermediate Floor Center

         -  Bus= 16  Area)  first alarm.

FOR CONTROLLER USE ONLY Controller Notes:

1) This is the beginning of a fire in the N16 Bus. transformer due to earthquake damage to the windings.

Actions ~xXected:

1) Control Room sounds the fire alarm and activates the Fire Brigade.

Time: 0215 Message: GINNA STATION 1987 EVALUATED EXERCISE, MESSAGE FORM Messacee for: Control Room Simulated Plant Conditions: See attached sheets MessacSe: ***THZS ZS AN EXERCISE*** Alarms received in Control Room: o E-31 (Containment Recirc. Fan Condensate Hi-Hi Level FOR CONTROLLER USE ONLY Controller Notes

1) -- -Data reflects the <<A" diesel generator running.

2) Data reflects a. controlled shutdown of'he plant.

Actions ~xXected:

1987 EVALUATED EXERCISE Time: 02./$ MAJOR'AKQKTERS

ENGINEERED SAFEGUARDS Reactor Power Level XO3 MWE )$ 59MWT ~Hi h Head S. I. ~Pum s Reactor. Shutdown. NZS'-41 7'7i Yes N-43 o fPo FI-924 FI-925 lA.

                                                                   ~GPW ZnServ GPM TB     OOS NZS;                  N-42                  N-44            1B.       InServ
                  '*V~ g                             I"'I
                                                       ~

1C; InServ S TB OOS OOS

BAST Level = S CHG.(FZ-128) GPM Pressurizer Level LTN.(FZ-134) Cf Low Head S. I. ~Pum s GPM FX-626 & GPM Containment Pressure O psig Level lA.

                              ~l            52 1A S/G                                                               ZnServ       TB     OOS 1B S/G       Level            ~8'VLIS 1B.       ZnServ       TB     OOS 1A S/G 1B S/G Pressure.

Pressure P"Ir RWST Level ~ 5 psig Containment ~st~a ~Pum s

~CET.'ump FI-93 lA C7 GPM A. Level Level FI.-931B~GPH Sump B C) inches lA'. InServ ST Y OS A RCP. unnxn Stopped 1B. ZnServ TB OOS B'CP- Runnz.n Sto ed NaOH Tank Leve1 Containment Isolation ~Yes o Containment ecirc Fans 1A. e STBY OOS 1B. Se STBY OOS ELECTRICAL POWER 1C. nSe STBY OOS 34e5 KV Bus ner xze Deener ized 1D. In erv TB OOS 4- KV Buses. . ner xze Deener zed PostAccident DampersO en Closed 480 V Buses ner ize Deener ized Service Water Pum s Turbine Generator ner zze Deener ized 1A. nSe STBY OOS DIESEL GENERATORS 1B. erv STBY OOS A. nnxn Unloaded STBY OOS lc. Se STBY OOS B. Runnin Unloaded TB OOS 1D. ZnServ TSC Runnin Unloaded Security Runnin Unloaded TB B OOS OOS A&B Header Pressure TB
~~sig OOS ENGINEERED SAFEGUARDS 1A. nSe STBY OOS Aux. Feedwater Pum s 1B. ZnServ B OOS 1A. ZnServ TB OOS Surge Tank Level ~ $ 2-1B. InServ STB OOS ~Standh Aux. Feedwatex pum s Turb. Driven ZnServ STBY OOS 1C. InServ TB OOS CST Level I W fee 1D. ZnServ T OOS

CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES AVERAGE

(' AREA RADIOLOGICAL /AD IIETEOROLOGI CAL DATA 0215 POINT ID DESCRIPTIOH CURRENT VAI.UE DUALITY CODE EHGR UNITS R01 AREA 1 CONTROL ROON 1.0E I GOOD HR/H R02 AREA 2-CONTAINHENT 2.3Et1 GOOD HR/H R03 AREA 3-RADIO CHEH LAB 1.9E-1 GOOD HR/N R04 AREA 4 CHARGING PUHP ROOH 1.6Ei1 GOOD HR/N R05 AREA 5 SPENT FUEL PIT 5.DE+0 GOOD HR/H R06 AREA 6-HUCLEAR SAHPLE ROOH 1. OEt1 GOOD HR/H R07 AREA 7. INCORE INSTRUHENTAT IOH 2.7E+1 GOOD HR/H ROB AREA 8-DRUHHING STATION 3. 1E+0 GOOD HR/H R09 AREA 9 LETDOMN LIHE 5.2E+1 GOOD HR/H R10A CONTAINHENT IODINE HONITOR R10A 1.9E+4 GOOD CPH R10B PLANT VEHT IOD I NE HONI TOR R108 2.3E+2 GOOD CPH R11 COHTAINHENT AIR PARTICULATE 6 'E+5 HALH CPH R12 COHTA I NHEHT GAS HONI TOR 2.5E+5 HALH CPH R13 AUX BLDG EXHAUST A I R PARTICULATE 8.2E+1 GOOD CPH R14 AUX BLDG EXHAUST GAS HOHITOR 1.4E+2 GOOD CPH R15 CONDEHSER AIR EJECTOR EXHAUST 5.DE+1 GOOD CPH R16 CV COOLING HX SERVICE IIATER OUT 7.5E+1 GOOD CPH R17 COHPONENT COOLING PUHP SUCT HDR 9.0Et2 GOOD CPH R18 LIQUID llASTE DISPOSAL HONITOR 2.BE+3 GOOD CPH R19. STEAH GENERATOR BLOIIDONN DRAIN 2.DE+3 GOOD CPH R20 SPENT FUEL PIT NX SERV IIATER OUT 4.0E+3 GOOD CPH R29 AREA 29 COHTAINHENT HIGH RANGE B.DE 1 GOOD R/NR R30 AREA 30 CONTAINHENT NIGH RANGE 9.0E 1 GOOD R/NR R33 AREA 33 HOT IKTERHED IATE BLDG 1.DE+0 GOOD HR/N R34 AREA 34.AUX BLDG CV SPRAY PUHP 1.DE+1 GOOD HR/N R35 AREA 35.PASS SAHPLE PAHEL 1.0E 1. GOOD HR/N R36 CONTROL ROON NOBLE GAS HONITOR 1.7E+0 GOOD CPH R37 CONTROL ROOH PARTICULATE HONITOR 3.3E+0 GOOD CPH R38 CONTROL ROOH IODINE HONITOR 1.2E+0 GOOD CPH HVAC1 CONTROL ROOH CHLORINE ANALYZER 0.0075 GOOD PPH HVAC2 CONTROL ROOH AHHONIA ANALYZER 0.7763 GOOP ( PPH NT250 250 FOOT LEVEL TEHPERAI'URE 70.1 GOOD DEGF NT033 33 FOOT LEVEL TEHPERATURE 67.0 GOOD 1 DEGF 'IID250 250 FOOT LEVEL IIIND DIRECTION 330 GOOD I DEG. ,WD033 33 FOOT LEVEL HIND DIRECTION 331 GOOD t DEG. MS250 250 FOOT LEVEL MIND SPEED $ .3 GOOD ( HPN WS033 33 FOOT LEVEL WIND SPEED f.2 GOOD 1 HPH

                                        ,SPING'ONITOR SHEETS Time:     0215 (R-12A)        (R-14A)        (R-15A)

Current R~eadin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part - Beta uCi STANDBY. +4.80E-04 N/A Part; << Alpha. -1. 90E+01 N/A CPM'Ci, STANDBY,'TANDBY I-131 +3'. 90E-04 N/A Bkg I. CPM- STANDBY +3.49E+01 N/A Noble Gas-Low uCi/cc'TANDBY -S.OOE-06 3.70E-06 Area Monitor MR/H 1.00E-01 -4.01E-02 1.00E-O'3 Noble Gas-Mid uCi/cc STANDBY -7.99E-06 -1.00E-06 Gamma Bkg CPM STANDBY -4.10E-02 1.00E+01 Noble Gas-High uCi/cc. STANDBY +1 '0E-03 -1.40E-03 Part Beta uCi/cc* STANDBY +1.50E-10 I-13 1 uCi/cc+'TANDBY" +3.00E-10

SPING CONSOLEPLACED IN "INTERPRETED MODE" STEAM LINE MONITORS:

(R-31):, "A" Steam Line Rad Monitor +1.00E-02 mR/hr (R-32): <<B" Steam Line Rad Monitor +1.00E-02 mR/hr

Time: 02: 15

                             'SILENT, 700'OMPUTER METEOROLOGICAL DATA AV77 NAME. AVGE ST.                 MIN.       MAX.        I 33A 0041                     0011       0050        00 DEV'0900 WS WS 33B 0034 00910               0012       0052        00 WS150A 0046 01000               0022       0060        00 WS150B 0045 01100               0023       0061        02 WS 250 0050 01000               0010       0055        00 NAME   AVGE ST. DEU             MIN.       MAX.'340 MNDR         AVRN   CNT  I WD 33A 0330 03000               0320                 0072         0020  0064 00 WD 33B 0331 03010               0321       0345      0071         0021  0063 00 WD150A 0330 03100               0315       0345      0045         0022  0062 00 WD150B 0331 03000               0316       0341      0035         0023  0060 02 WD 250 0332 03000               03 17      0340      0055         0025  0061 00 NAME   AVGE  I           NAME         AVGE           I. NAME       AVGE   I, ER33A 0670  00          TER33B       0670           00     TE150A     0691 E150B 0690  00          TE250A       0702           00     TE250B     0701 DT150A 0200  00          DT150B       0020           00     DT250A     0032 DT250B 0031 DEW 33 0436              TEG'3        0602               00 RAIN   0056

Time: 0220 Message: 10X GINNA STATION 1987 EVALUATED EXERCISE'ESSAGE FORM MessacSe for: Fire Brigade Captain Simulated Plant Conditions:

  ~essacee: ***THIS IS AN EXERCISE***

480 volt Bus f16 transformer is smoking, but no flames are visible. (1 FOR CONTROLLER USE, ONLY. Controller Notes:

1) If off-site lers will Fire Fighting assistance is requested, Control-intercede to prevent off-site Fire Department response.

2) See attached map for details of fire. Provide information verbally when the appropriate investigations, are made by the Fire Brigade (when it arrives)-.

Actions Expected:

1) When notified, the Shift Supervisor should direct the Fire Brigade to respond via the plant PA System.

(

Time: 0220 Message: 10X GINNA STATION 1987'VALUATED EXERCISE MESSAGE FORM'essacSe for: Fire Brigade Captain Simulated Plant Conditions: Messacee: ***THTS XS AN EXERCISE*** 480 volt Bus f16 transformer is smoking, but no flames are visible. FOR CONTROLLER USE ONLY. Controlle~ Notes:

1) If off-site. Fire Fighting assistance is lers will intercede to preve'nt off-site requested, Control-Fire Department response.

2) See attached map for details of fire. Provide information verbally when the appropriate investigations are made by the Fire Brigade (when it arrives)--.

Actions ExXected:

1) Fire Brigade Captain to direct proper fire fighting activi-ties on Bus gl6 transformer fire.

2) Fire Brigade Captain should keep Control Room advised of fire fighting progress.

11 CiT CItt I 0 IPI oRAttets ofe'00s SPENI Sttfl PII cA110N el 0 OENeRRALIIER Of ietRRALIIER A R A R AitxelASN OeIG CHARCOAL LIERS Rf SUEIRIS ttttIR We( n ~ Ieo ASa( etc ~ Nillo el 0 Of~RALQERS SMRIACE ~ X ES) ill1 CCN I PLEO Dt NUarci 0'ofe 004 flEC IACAL A ~ ~ OE eORAI HG Of IV%RALI1ERS

                                                                                                                              -eASE SlfttOtLL ION fACHANSERS NCC CAIION IOII                               ISI A

fACIIANGERS nI A h 1)ee Jet'I ~ ~~ A I e ONCf NIRAII.S HOlOoC IAtel SPENI Sufi IIIILIlLLAII REAC1OR C) SlOOR EL.ZSS'0 COKANI 0 Ifd A SRI t 4 NCC Rt 4 0 0A ~ IiOIIetf CONIROL Iltei IfffIREE O'CQ4'Ole

..26'Kf.. -2k'         LCJK off'l.

etLSIE CINRNIESSOR I

PALACES

                                                                                                                                                        ~m MO hHaC

( Time o 0225 Message: GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM Mes~acSe for: Contro1 Room Simulated Plant Conditions: MessacSe: ***THIS IS AN EXERCISE*** ALARMS received in the Control Room: o L-7 (Bus 16 under voltage safeguards) o J-29 (480V transformer breaker trip) o J-7 (480V main or tie breaker trip) Indications in the Control Room include: ( 1B Emergency volts. Di eselGenerator voltage meter indicates 1B Emergency Diesel Generator Bus 16 tie breaker closed. 1B" Emergency Diesel Generator KW meter indicates - 200 KW. 480 FOR CONTROLLER USE ONLY Controller Notes:

1) 480 volt Bus 16 tripped. out', because of a fault on the transformer due to the, earthquake and subsequent fire.

Actions Exrected:

1) After 1B Emergency Diesel Generator starts and ties onto Bus 16, Operations should restore equipment lost when Bus 16, tripped out.

2) An ALERT should be declared in accordance with SC-100, "Ginna Station Event Evaluation and Classification," EAL:

Fire; Fire potentially affecting safety systems as deter-mined by the Shift Supervisor.

3) Implement SC-202, "ALERT":

a) Make notifications. b) Assess and monitor plant conditions. Update off-site agencies at least every 30 minutes and whenever there are significant changes in plant status. c) Activate the TSC, OSC, SC.

(1 Time: 0230 Message: 12 GINNA STATION I 19'87 EVALUATED EXERCISE MESSAGE FORM Messacee for: Control Room Simulated Plant Conditions: See attached sheets Messacee: ***THIS IS AN EXERCISE*** Alarms received in Control Room: ( o E-3'. (Containment Recirc. Fan" condensate Hi-Hi. level) FOR CONTROLLER'SE'NLY-Controller Notes:

1) 'Fire Brigade fighting Bus $ 16 transformer fire.

2) Data reflects a controlled shutdown of the plant.

Actions E ected:

( 1987 EVALUATED EXERCISE Time: ~+50 MAJOR PAKQKTERS ENGINEERED SAFEGUARDS Reactor Power Level 917'WE HicCh Head S. I. ~Pum s Shutdown Yes o 8'Z.FMWT'eactor FI-924 D GPM NIS N-41 N-42 s N 43 N-44

                                                             'e          FI-925 1A.

CO ZnServ GPM TB OOS NIS e 1B. ZnServ TB OOS RCS Pressure i 1C. InServ TB OOS

                               ~l'l RCS Temperatures~~                                                     BAST    Level ~

CHG.(FZ-12&) Pressurizer. Level GPM'/ Low Head S. I. Pum s LTN.(FZ-134) GPM FI-626 0 GPM Containment Pressure

 'A 8/G Level                     5~                                     lA.         ZnServ      TB    OOS 1B 8/G Level                      sl                                    1B.         InServ      TB    OOS RVLIS 1A 8/G    Pressure lB 8/G Pressure l oa'2@

9 I'l pslg RWST Level ~ containment ~Sr~a ~Pum s: a

 *CET                               gg                       . oF      FI-931A        Q GPM Sump A    Level                                                 feet FI-9 31B~GPM Sump B. LeveL                   C7                       inches       1A.         ZnServ STBY        OS A RCP'                      unnin        Stopped.                       1B.         InServ      TB    OOS RCP~.                    unnin        Sto                    ed,     NaOH    Tank Level Containment     Isolation       Yes~o)                                                   Recirc Fans       '3'ontainment lA.          nSe       STBY OOS lB.          n erv STBY OOS ELECTRICAL POWER                                            1C.            Serv    STBY OOS 34.5  KV Bus            ner xze    Deener ized                          1D.

InServ TB OOS 4 KV Buses ner xze Deener ized PostAccident, DampersO en lose 480 V Buses ner ize Deener ized Service Water Pum s Turbine Generator ner ze Deener ized 1A. nSe STBY OOS DIESEL GENERA ORS 1B. n erv STBY OOS A. unnxn Unloaded STBY OOS 1C. nServ STBY OOS B;'nnzn Unloaded STBY OOS In erv TSC Runnxn Unloaded ST Secur ty Runnzn Unloaded TB OOS OOS 1D.

A&B Header Pressure i ~2 TB OOS psig ENGINEERED SAFEGUARDS 1A. nSe STBY OOS Aux. Feedwater Pum s 1B. InServ TB OOS 1A. InServ TB OOS Surge Tank Level = 8 Z-1B. InServ T OOS ~Standb Aux. Feed ter ~Pum s Turb. Driven InServ STBY OS 1C. InServ TB OOS CST Level ~l fee 1D. InServ TB OOS

 *CET ~ PREDETERMINED CORE'XIT THERMOCOUPLES AVERAGE

(jy AREA RADIOLOGICAL AHD IIETEOROLOGICAL DATA T I ME: 0230 POI HT ID DESCRIPTIOH CURRENT $ ALUE QUALITY CODE ENGR UNITS R01 AREA 1 CONTROL ROOM 1.0E.1 GOOD MR/H R02 AREA 2-COHTA IHHENT 2.3Ei1 GOOD MR/H R03 AREA 3-RADIO CHEM LAB 1.9E.1 GOOD MR/H R04 AREA 4.CHARGIHG PUMP ROOM 1. 7E+1 GOOD MR/H R05 AREA 5.SPENT FUEL PIT 5.DE+0 GOOD MR/H R06 AREA 6 NUCLEAR SAMPLE ROOH DE+1 GOOD 1 ~ MR/H R07 AREA 7 INCORE IHSTRUMEHTATIOH 2.8Et1 GOOD MR/H R08 AREA 8 DRUMMING STATION 3. 1E+0 GOOD MR/H R09 AREA 9.LETDOWN LINE 5.2E+1 GOOD MR/H R10A CONTAINMENT IOD INE MOHI TOR R10A 2.2E+4 GOOD CPM R10B PLANT VENT I OD I HE MON I TOR R108 3.DE+2 GOOD CPH R11 COHTA I NMENT A I R PART I CULATE 6.4E+5 HALM CPM R12 CONTAINMENT GAS MOHI TOR 2.7E+5 HALM CPH R13 AUX BLDG EXHAUST AIR PARTICULATE 3 'E+2 GOOD CPH R14 AUX BLDG EXHAUST GAS MOHI TOR 1.5E+2 GOOD CPM R15 CONDENSER AIR EJECTOR EXHAUST 5.DE+1 GOOD CPM R16 CV COOLING HX SERVICE WATER OUT 7.5E+1 GOOD CPH R17 COMPONENT COOLING PUMP SUCT HDR 9.DE+2 GOOD CPM R18 LIQUID WASTE DISPOSAL HON ITOR 2.BE+3 GOOD CPM R19 STEAM GENERATOR BLOWDOWN DRAIN 2 AL OE+3 GOOD CPM R20 SPENT FUEL PIT HX SERV WATER OUT 4.DE+3 GOOD CPM R29 AREA 29.CONTAINMENT HIGH RANGE 8 ~ OE.1 GOOD R/HR R30 AREA 30 CONTAINMENT HIGH RANGE 9 ~ DE-1 GOOD R/HR R33 AREA 33-HOT INTERMEDIATE BLDG 1.DE+0 GOOD MR/H R34 AREA 34.AUX BLDG CV SPRAY PUHP I.DE+I GOOD MR/H R35 AREA 35.PASS SAMPLE PANEL 1.0E 1 GOOD MR/H R36 CONTROL ROOM HOBLE GAS MONITOR 1. 7E+0 GOOD CPM R37 CONTROL ROOM PARTICULATE MONITOR 3.3E+0 GOOD CPM R38 CONTROL ROOM IODINE MONITOR 1.2E+0 GOOD CPH HVAC1 CONTROL ROOM CHLORiNE ANALYZER 0.0075 GOOD PPM HVAC2 CONTROL ROOM AMMONIA ANAL'YZER 0.7763 GOOD PPM WT250 250 FOOT LEVEL TEMPERATURE 71.0 GOOD DEGF WT033 33 FOOT LEVEL TEMPERATURE 67. 1 GOOD DEGF WD250 250 FOOT LEVEL WIND DIRECTIOH 331 GOOD DEG. WD033 33 FOOT LEVEL WIND DIRECTION 332 GOOD DEG. WS250 250 FOOT LEVEL WIND SPEED 2.4 GOOD MPH WS033 33 FOOl'EVEL WINO SPEED 2.1 GOOD MPH

SPING MONITOR SHEETS Time: 0230 (R-12A) (R-14A) (R-15A) Current Readince CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part Beta uCi STANDBY +5.00E-04 N/A Part - Alpha STANDBY -1 ~ 90E+01 N/A CPM'Ci I 131. STANDBY +3 '0E-04 N/A Bkg I. CPM STANDBY +3 '8E+01 N/A Noble- Gas-Low uCi/cc , STANDBY -6.00E-06 3.70E-06 Area Monitor MR/H 1.00E-Ol -4.00E-02 1.00E-03 Noble Gas-Mid uCi/cc STANDBY -8.00E-06 -1.00E-06 Gamma Bkg CPM STANDBY -4.10E-02 1.00E+01 Noble Gas-High uCi/cc STANDBY +1.30E-03 -1.40E-03 Part. - Beta uCi/cc+'TANDBY +4.00E-10 I-131 uCi/cc*'TANDBY +3.00E-10

SPING CONSOLE PLACED IN i>INTERPRETED MODE STEAM LINE MONITORS:

(R-31): "A!'team Line Rad Monitor +1. OOE-02 mR/hr (R-32): "B" Steam Line Rad Monitor +1. OOE-02 mR/hr

Time: 02:30

                            'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME'S     AVGE ST. DEV       MIN.      MAX.       I00 33A 0021 00900          0012     0040 WS     33B 0022 00910          0012     0052        00 WS150A     0030 01000          0022     0060        00 WS150B     0032 01100          0023     0061        02 WS     250 0040 01000          0010     0055        00 NAME       AVGE ST. DEV       MIN.      MAX.      MNDR      AVRN    CNT  I WD     33A 0330 03000          0325     0345      0072       0020  0064 00 WD     33B 0330 03010          0315     0340      0071       0021  0063 00 WD150A     0330 03100          0320     0341      0045       0022  0062 00 WD150B     0330 03000          0321     0338      0035       0023  0060 02 WD     250 0335 03000          0325     0340      0055       0025  0061 00 NAME       AVGE  I      NAME      AVGE            I    NAME       AVGE   I ER33A   0671  00     TER33B     0671           00   TE150A     0691 E150B   0691  00     TE250A     0710           00   TE250B     0710 DT150A-    0020  00     DT150B     0020           00   DT250A     0040 DT250B    0040 DEW 33    0436         TEG'3'602                 00 BAIN       0056

Time:- 0240 Message: 13X GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM MessacSe for: Fire Brigade Captain Simulated Plant Conditions: M~essa e: ***THIS IB AN EXERCISE*** The fire is extinguished. 1 s FOR CONTROLLER USE ONLY Controller Notes:

1) Deliver when al1 .objectives for the fire: have been demon-strated. Deliver before 0255 at the latest.

Actions ExXected:

1) Notify the Control Room/TSC.

2) Re-stow all gear.

Time: 0240 Message: 14X GINNA STATION 1987 EVALUATED EXERCISE MESSAGE'ORM ~Massa e for: Control Room Shift Supervisor Simulated Plant Conditions: Mes~acee: ***THIS IS AN EXERCISE*** Declare and ALERT in accordance with SC-100 "Ginna Station Event. Evaluation and. Classification," EAL: Fire; Fire potentially affecting safety systems as determined by the Shift Supervisor. FOR CONTROLLER USE ONLY Controller. Notes:

1) Deliver only deliver if.

if an ALERT has not: yet been declared. Emergency Classification discussions Do are not in progress.. Actions ENXected:

Time: 0245 Message: GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM MessacSe for: Control Room Simulated Plant Conditions: See attached sheets Messacee: ***THIS IS AN EXERCISE*** Alarms received in Control Room: o E-31 (Containment. Recirc. Fan Condensate:- Hi-Hi Level} FOR CONTROLLER USE ONLY Controller Notes: 1).---Data reflects, a controlled. shutdown of the plant. Actions ~Ex ected:

1987 EVALUATED EXERCISE Time: ~OZ d MAJOR PARAMETERS ENGINEERED SAFEGUARDS Reactor, Power Level High Head S. Z. ~Pum s Reactor Shutdown. Yes o FZ 924 CI GPM NIS N-41 FVP~ FI-925 0 GP N-43 Eggs 1A. ZnServ TB OOS NZS N-42~i~~ N-44

                          ~
                                              ~     1B-        ZnServ 'TB         OOS RCS   Pressure                  Z.z.45       ps g    1C.        ZnServ       B     OOS BAST   Level ~

CHG.(FZ-128)

                          ~          ~

Pressurizer Level Low Head S. I. s LTN.(FZ-134) Containment Pressure O GPM psig PI-626 ~GPM ~Pum 1A S/G Level lA. ZnServ B OOS 1B S/G RVLZS 1B

S/G Level Pressure

                          ~3     leg I'II p   tg 1B.

RWST ZnServ Level ~ Containment ~sr~a TB OOS s

CET Sump.

Sump B A'evel. Level. le 'eet inches FI-931A~GPM~Pum 1A.. FZ 93 1B O GPM InServ STBY OS A RCP unnzn Stopped. 1B. ZnServ TB OOS B RCP unna.n Sto ed Containment: Isolation. ~Yes +o Containment Recirc Fans 1A. nServ STBY OOS 1B. STBY OOS ELECTRICAL POWER 1C. Serv STBY OOS 34.5'V'us ner zze Deener ized 1D. ZnServ B OOS 4- KV Buses. . ner xze Deener zed PostAccident DampersO en lose 480 V Buses ner ize Deener ized Service Wat r Pum s Turbine Generator ner z.zed Deener ized lA. Se STBY OOS DIESEL GENE 1B. Se STBY OOS A n n Unloaded STBY OOS 1C. Serv STB OOS B. TSC nxn Runnxn Unloaded STBY OOS Unloaded T Security Runnin Unloade TB OOS OOS 1D. AGB InServ Header Pressure TB

OOS psig ENGINEERED SAFEGUARDS lA. nSe ST Y OOS Aux. Feedwater Pum s 1B. In erv TB OOS 1A. InServ B OOS Surge Tank Level 1B. InServ STB OOS ~Standh Aux. Feedwater ~Pum s Turb. Driven InServ STBY OS 1C. InServ TB OOS CST Level feet 1D. ZnServ T OOS

CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES AVERAGE

AREA RAD IOLOGI GAL RIED IIETEOROLOGI CAL DATA T I HE: 0245 POINT ID DES CR I P T I 0 II CURRENT $ ALUE aUALITY CODE ENGR UNITS R01 AREA 1 CONTROL ROON 1.0E.1 GOOD HR/H R02 AREA 2.COHTAINHEHT 2.4E+1 GOOD HR/H R03 AREA 3-RADIO CHEN LAB 1.9E-1 GOOD HR/H R04 AREA 4-CHARGING PUHP ROOH 1. 7E+1 GOOD HR/H R05 AREA 5.SPENT FUEL PIT 5.0E+0 GOOD HR/H R06 AREA 6-NUCLEAR SAHPLE ROON 1.0Etl GOOD NR/H R07 AREA 7-INCORE INSTRUHEHTATIOK 2.8Eti GOOD HR/H R08 AREA 8.DRUHHING STATION 3. 1E+0 GOOD HR/H R09 AREA 9.LETDOMN LINE 5.2Et1 GOOD HR/H R10A CONTAI NHENT IODINE NONI TOR R10A 2.5E+4 GOOD CPH R10B PLANT VEHT IOD INE NOH I TOR R10B 3.5E+2 GOOD CPH R11 CONTA I NHENT AIR PART I CULATE '6.4E+5 HALH CPH R12 CONTA I HHEHT GAS NOHI TOR 2.9E+5 HALH CPH R13 AUX BLDG EXHAUST AIR PARTICULATE 2.9E+2 GOOD CPH R14 AUX BLDG EXHAUST GAS NOH ITOR 3.DE+2 GOOD CPH R15 CONDENSER AIR EJECTOR EXHAUST 5 'E+1 GOOD CPH R16 CV COOLING HX SERVICE MATER OUT 7. 5E+1 GOOD CPN R17 COHPOHEHT COOLING PUHP SUCT HDR 9.0E+2 GOOD CPH R18 LIQUID MASTE DISPOSAL NOH ITOR 2.8Et3 GOOD CPH R19 STEAII GENERATOR BLOMDOMH DRAIN 2.DE+3 GOOD CPH R20 SPEHT FUEL PIT HX SERV MATER OUT 4.DE+3 GOOD CPH R29 AREA 29.COHTAIHHENT HIGH RANGE B.OE.1 GOOD R/HR R30 AREA 30 ~ CONTAINHEHT HIGH RANGE 9.0E.1 GOOD R/HR R33 AREA 33.HOT INTERHEDIATE BLDG 1 AL OE+0 GOOD HR/H R34 AREA 34.AUX BLDG CV SPRAY PUHP 1.DE+1 GOOD HR/H R35 AREA 35-PASS SANPLE PANEL 1.0E ~ 1 GOOD HR/H R36 CONTROL ROON NOBLE GAS KOHITOR 1.7E+0 GOOD CPH R37 CONTROL ROOM PARTICULATE NOHITOR 3.3E+0 GOOD CPH R38 CONTROL ROON IODIHE HOHITOR 1.2E+0 GOOD CPH HVAC1 CONTROL ROON CHLORINE ANALYZER 0.0075 GOOD PPH HVAC2 CONTROL ROON AHHONIA ANALYZER 0.7763 GOODl PPH JT250 250 FOOT LEVEL TEHPERATURE 70.5 GOOD( DEGF JT033 33 FOOT LEVEL TEHPERATURE 68 ' GOOD DEGF JD250 250 FOOT LEVEL MIND DIRECTIOH 332 GOOD, DEG. JD033 33 FOOT LEVEI. MI HD DIRECT ION 333 GOOD DEG. JS250 250 FOOT LEVEL MIND SPEED 3.5 GOOD HPH CS033 33 FOOT LEVEL MIND SPEED 3.6 GOOD HPH

I, JQp SPING MONITOR SHEETS Time: 0245 (R-12A) (R-14A) (R-15A) Current R~eadin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR E Part Beta uci STANDBY +5. 20E-04 N/A 2, Part.", Alpha CPM STANDBY -1.90E+01 N/A I-131 uci STANDBY +3'. 9 OE-04 N/A' Bkg I CPM STANDBY '8E+01 N/A Noble Gas-Low uCi/cc STANDBY +8'.OOE-06 3.70E Area. Monitor MR/H 1.0E-01 -4.00E-02 1.00E-03 Noble Gas-Mid uCi/cc. STANDBY -8.00E-06 -1.00E-06 Gamma Bkg CPM STANDBY -4.10E-02 1.00E+01 Noble Gas>>High uCi/cc STANDBY +1. 30E-03 -1. 40E-03 Part. Beta: uCi/cc~ STANDBY" +5.00E-10 I-13I uCi/cc+'TANDBY +3.20E-10

SPING CONSOLE PLACED IN itINTERPRETED MODE STEAM LINE MONITORS:

(R-31): "A" ,Steam Line Rad Monitor +1 OOE-02

                                                                ~             mR/hr I

(R-32): "B" Steam Line Rad Monitor +1 OOE-02

                                                                ~             mR/hr e

et

Time: 02: 45

                                     'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77'AME.

AVGE ST DEV MIN. MAX. I WS 33A 0031 00900 0011 0050 00 WS 33B 0032 00910 0012 0052 00 WS150A 00'4'0 : 01000 0022 0060 00 WS150B 0042 01100 0023 0061 02 WS 250 0030 01000 0010 0055 00 NAME AVGE ST. DEV MIN. MAX. MNDR AVRN CNT I WD 33A 0331 03000 0310 0340 0072 0020 0064 00 WD 33B 0332 03010 0320 0340 0071 0021 0063 00 WD150A 0330 03100 0320 0340 0045 0022 0062 00 WD150B 0310 03000 0300 0320 0035 0023 0060 02 D 250 0315 03000 0305 0325 0055 0025 0061 00 AME AVGE I NAME AVGE I. NAME AVGE ER33A 0680 00 TER33B 0680 00 TE150A 0700 ~"..~ TE150B 0700 00 TE250A 0705 00 TE250B 0705 DT150A 0200 00 DT150B 00 DT250A 0025 DT250B 0025 0020'602 DEW 33 0436 TEG 33 00 RAIN 0056

Time e 0300 Message: GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM Messacee for: Control Room Simulated Plant Conditions: See attached sheets Messacee: ***THIS IS AN EXERCISE*** Alarms received in Control Room: o E-31 (Containment Recirc. Fan Condensate Hi-Hi Level) FOR CONTROLLER USE ONLY Controller Notes:

1) .. Data reflects a controlled shutdown to hot shutdown.

Actions EXXected:

1987 EVALUATED EXERCISE Time: MAJOR PARtQKTERS ENGINEERED SAFEGUARDS Reactor Power. Level 9Z7'WE'2T1MWT I.

                                ~l'l Hicth Head S.                 ~Pum  s Reactor Shutdown                      Yes    o              FZ-924
                                                                   ~GP  0     GPM'I-925 NZS'-42~~

NIS N-41 J'VW N-43 F V 7o N-44.

lA. 18. 1C. InS erv InServ ZnServ ST TB TB OOS OOS OOS PPP

P CHG. (FZ-128) 2 GPM Pressurizer Level Low Head S. 1. ~Pum s LTN.(FZ-134) GPM FI-626 Cl GPM Containment Pressure C7. Psig 1A S/G Level Level l lA. ZnServ B OOS 1B S/G 1B. InServ STB OOS RVLIS eo 1A S/G. Pressure Pll RWST Level = VS 1B S/G Pressure, P ill Containment ~sr~a ~Pum s

CET FI;931A 0 GPM

     'ump Sump B.

A'. Level Level

                                         ,o      feet; FI-93 inches      1A.

IB~GPH ZnServ STBY OS A- RCP Runnin Stopped 1B. .'nServ STB OOS B RCP'. unnxn Sto ed Containment Isolation ~Yes No Containment Recirc Fans 1A. nServ STBY OOS 1B. erv STBY OOS ELECTRICAL POWER , 1C. InServ STBY OOS 3495 KV Bus ner ize Deener ized 1D. Zn erv TB OOS 4 KV Buses . ner xzeal Deener 3.zed PostAccident DampersO en Closed 480 V Buses er ize Deener ized Service Water Pum s Turbine Generator ner zze Deener ized lA nSe STBY OOS DIESEL GENE S 1B. n e STBY OOS A. u n n Unloaded STBY OOS 1C. Se ST Y OOS unnxn Unloaded ST Y B. TSC Secur Runnxn Unloaded TB ty Runnin Unloade OOS OOS B OOS 1D. A&B ZnServ Header Pressure ~~ TB OOS psig ENGINEERED SAFEGUARDS 1A. n e STBI OOS Aux. Feedwater Pum s 1B. InServ TB OOS 1A. ZnServ TB OOS Surge Tank Level 8 Z-1B. InServ TB OOS ~Standn Aux. Feedw ter ~Pum s Turb. Driven InServ STBY OS 1C. InServ OOS CST Level feet 1D. InServ TB OOS

CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES AVERAGE

AREA RADIOLOGICAL AND IIETEOROLOG1CAL DATA T I HE: 0300 POINT ID DESCRIPT ION CURRENT VALUE QUALITY CODE ENGR UNITS R01 AREA 1-CONTROL ROOII 1.0E.1 GOOD NR/H R02 AREA 2.COHTAINHENT 2.4E+1 GOOD HR/H R03 AREA 3.RADIO CHEN LAB 1.9E-1 GOOD NR/H R04 AREA 4-CHARGING PUHP ROON 1.7E+1 GOOD NR/H R05 AREA 5-SPENT FUEL PIT 5.DE+0 GOOD HR/H R06 AREA 6.NUCLEAR SANPLE ROON 1. OE+1 GOOD HR/H R07 AREA 7 IHCORE IHSTRUHEKTATION 2.BE+1 GOOD NR/H ROB AREA 8-DRUNNING STATION 3. 1E+0 GOOD HR/H R09 AREA 9-LETDOWN LIHE 5.2E+1 GOOD NR/H R10A CONTAINNENT IOD IHE HOHI TOR R10A 2.BE+) GOOD CPN R108 PLANT VENT IOD I HE HOHI TOR R108 4.DE+2 GOOD CPN R11 CONTAIHHEHT AIR PART I CULATE 6.5E+5 'ALH CPN R12 COHTA I HNENT GAS NOH I TOR 3.3E+5 HALN CPH R13 AUX BLDG EXHAUST AIR PARTICULATE 5.5E+2 GOOD CPM R14 AUX BLDG EXHAUST GAS HONITOR

                                                          $ .3E+2            GOOD                   CPN R15      CONDENSER   AIR EJECTOR EXHAUST                   5.DE+1             GOOD                   CPN R16      CV COOLIHG HX   SERVICE WATER OUT                 7.5E+1             GOOD                   CPN R17      COHPONENT COOLIHG PUNP SUCT HDR                   9.DE+2             GOOD                   CPN R18      LIOUIO WASTE DISPOSAL NOHITOR                     2.BE+3             GOOD                   CPN R19      STEAN GENERATOR SLOWDOWN DRAIN                    2.DE+3            GOOD                    CPN R20      SPENT FUEL PIT HX SERV WATER OUT                  4.DE+3            GOOD                    CPN R29      AREA 29-CONTAINNEHT HIGH RANGE                   B.OE.1             GOOD                    R/HR R30      AREA 30-COHTAIHNEHT HIGH RANGE                   9.0E 1             GOOD                    R/HR R33      AREA 33-HOT INTERHEDIATE BLDG                     1.DE+0            GOOD                    HR/H R34      AREA 34.AUX BLDG CV SPRAY PUNP                    1. DE+1           GOOD                    HR/H R35      AREA 35-PASS SAHPLE PANEL                         1.0E.1            GOOD                    HR/H R36      CONTROL ROON NOBLE GAS NOHITOR                    1.7E+0            GOOD                    CPN R37      CONTROL ROON PARTICULATE HOHITOR                 3.3E+0             GOOD                    CPN R38      CONTROL ROON IODINE HONITOR                       1.2E+0            GOOD                    CPM HVAC1    COHTROL ROON CHLORINE ANALYZER                   0.0075             GOOD                    PPH HVAC2    CONTROL ROON AHHONIA AHALYZER                    0.7763.            GOOD                    PPN WT250    250 FOOT LEVEL TEHPER'ATURE                      72.1               GOOD                    DEGF WT033    33 FOOT LEVEL TENPERATURE                        69. 1              GOOD                    DEGF WD250    250 FOOT LEVEL WIND DIRECTIOH                    335    j           GOOD                    DEG.

WD033 33 FOOT LEVEL WIND DIRECTION 335 GOOD DEG. WS250 250 FOOT I.EVEL WIND SPEED 3.7 GOOD HPH WS033 33 FOOT LEVEL WIND SPEED 3.8 GOOD NPH

SPZNG MONITOR SHEETS Time: 0300 (R-12A) (R-14A) (R-15A) Current R~eadin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR 2'art - Part Alpha Beta; uCi CPM'TANDBY CPM STANDBY

                                                         +5.40E-04
                                                         -1.90E+01 N/A N/A.

I-13'1 uci STANDBY +3'. 90E-04'/A Bkg, Z STANDBY +3.49E+01 N/A Noble Gas-Low uCi/cc STANDBY +8.00E-06 3e70E-06 Area Monitor MR/H 1.00E-01 -4.00E-02 1.00E-03 Noble Gas-Mid uCi/cc STANDBY +8.00E-06 1.50E-06 Gamma Bkg CPM STANDBY -4.10E-02 Noble. Gas-High uCi/cc.

                                                         +1.30E-03'.00E+01 a                                        STANDBY                        -1.40E-03 Part    -  Beta    uCi/cc~   STANDBY I-13 1.

STANDBY'6.00E'-10 uCi/cc+ +3.2E-10

SPZNG CONSOLE PLACED ZN,"INTERPRETED MODE" STEAM LINE MONITORS:

(R-31):: "A" Steam L'ine Rad Monitor +1.00E-02 mR/hr (R-32): "B"'team Line Rad Monitor. +1.00E-02 mR/hr

Time: 03: 00

                                               'ILENT    700 'OMPUTER METEOROLOGICAL DATA AV77 NAME        AVGE 003 ST. DEV 00700 MIN'.

0015 MAX 0058 I00 WS 33A WS 33B 8'039 00910 0012 0052 00 WS15QA 0047 01000 0022 0060 00 WS150B 0048 01100 0023 0061 02 WS 250 0056 01000 0010 0055 00 NAME 33A AVGE 0335 ST ~ DEV 06000 MIN. 0325 MAX. 0345 MNDR 0072 AVRN 0020 CNT 0064 I 00 WD WD 33B 0335 03010 0325 0345 0071 0021 0063 00 WD150A 0334 03100 0324 0344 0045 0022 0062 00 WD150B 0333 03000 0323 0343 0035 0023 0060 02 WD 250 0335 02000 0325 0345 0055 0025 0061 00 I00 I00 I

NAME AVGE NAME AVGE NAME AVGE ER33A 069 1. TER33B 0691 TE150A 0701 E150B 0701 00 TE250A 0712 00 TE250B 0712 ~)<<>j~.'T150A 0200 00 DT150B'EG 0200 00'T250A 0020 DT250B 0020 DEW 0436 33 0602 00 0056 33'AIN

( Time: 0315 Message: 17 GINNA STATION 1987'VALUATED" EXERCISE I MESSAGE FORM MessacSe for: Control Room Simulated Plant Conditions: See attached sheets Mes~acSe: ***THIS IS AN EXERCISE*** Alarms received in the Control Room: o E-31 (Containment Recirc. Fan Condensate Hi-Hi Level) FOR CONTROLLER'SE ONLY Controller Notes:.

1) ---Data reflects a, controlled shutdown to hot shutdown.

Actions Exredted:

1987 EVALUATED EXERCISE Time: ~/5 MAJOR PAKQKTERS ENGINEERED SAFEGUARDS Reactor Power Level 0 I MWE 12.peMWT. ~Hi h Head S. Z. ~Pum s Reactor Shutdown Yes o FI-924 W GPM FZ-925 C5 GPM NIS N-41~9~a N-43'~PNo lAe ZnServ TB OOS NIS,

           '"        N;42~4~         N-44.

I'l 1B. 1C. InServ ZnServ TB OOS Pressurizer Level

                               ~T                      BAST   Level =

Low Head S. Z. s OOS Containment Pressure C7. 1 psig FZ-626 ~GPM ~Pum Level lA. 1A S/G 1B S/G RVLIS Level ~d~leo I 1B. InServ ZnServ TB TB OOS OOS I"'ll ~ega 1A S/G Pressure 1B'/G Pressure.

    *CET:

Sump, A'evel.

                               ~Io       10      Psig RWST   Level =

Containment FZ-93 1A. Cl

                                                                      ~Sr~a GPM
                                                                               ~Pum   s 2  m       feet FI-931B       C)    GPM Sump B A RCP Level unnxn I    1A..       InServ    STBY 0 Stopped      1B.     -

InServ TB OOS B RCP'. Runnzn Sto ed NaOH Tank Leve3 Containment Zsolation ~Yes Containment Recirc Fans 1A. nServ STBY OOS

                                                        .B.       InServ    STBY OOS ELECTRICAL POWER                        zC.         nServ    STBY OOS 3465 KV Bus              r  ize    Deener ized     1D.        ZnServ      TB OOS 4 KV  Buses       . Ener xze      Deener ized     PostAccident    DampersO en        loseu 480 V Buses,         Ener ize      Deener ized     Service Water     Pum s Turbine Generator       er ize     Deener ized     lA.         nSe      STBY     OOS DIESEZi GENERA                          1B.         n erv STBY        OOS A.          n  Unloaded STBY     OOS               lc.          Serv    STBY OOS B.      nn n   Unloaded STBY TSC Runnin Unloaded Security Runnin Unloade B

ENGINEERED SAFEGUARDS OOS OOS B OOS 1D. ZnServ A&B Header Pressure naerv TB OOS

                                                                                      ~    psig 1A                   S   Y OOS Aux. Feedwater    Pum s                 1B.        ZnS cry     TB     OOS 1A. ZnServ   TB   OOS                            Surge Tank Level ~            8 Z.

1B. InServ TB OOS ~standh Aux. Feed er ~Pum s Turb. Driven, ZnServ STBY OS 1C. ZnServ B OOS CST. Level fee 1D. InServ STBY .OOS

    *CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES AVERAGE

AREA RADIOLOGICAL ANQ IIETEOROLOGICAL DATA T IME-POINT ID DESCRIPT ION CURRENT VALUE QUALITY CODE EHGR UNITS R01 AREA 1-CONTROL ROOM ].OE-1 GOOD MR/H R02 AREA 2 CONTAINMEHT 2.4E+1 GOOD MR/H R03 AREA 3-RADIO CHEM LAB 1.9E-1 GOOD MR/H R04 AREA 4-CHARGIHG PUMP ROOM 1. 7E+1 GOOD HR/H R05 AREA 5-SPEHT FUEL PIT 5.DE+0 GOOD MR/H R06 AREA 6-NUCLEAR SAMPLE ROOM 1. DE+1 GOOD HR/H R07 AREA 7.INCORE INSTRUMENTATION 2.8E+1 GOOD MR/H ROB AREA 8-DRUMMING STAT IOH 3.1E+0 GOOD MR/H R09 AREA 9-LETDONH LINE 5.2E+1 GOOD MR/H R10A COHTAINMENT IODINE HOKITOR R10A 3.3E+4 BALM CPM R108 PLANT VEKT IODINE MONITOR R108 4.5E+2 GOOD CPM R11 CONTAINMENT AIR PARTICULATE 6.5E+5 HALM CPM R12 COHTA I NMENT GAS MOHI TOR 3.5E+5 HALM CPM R13 AUX BLDG EXHAUST AIR PARTICULATE 6.(Et2 GOOD CPM R14 AUX BLDG EXHAUST GAS MONITOR 4.3E+2 GOOD CPM R15 CONDENSER AIR EJECTOR EXHAUST 5.2E+1 GOOD CPM R16 CV COOLING HX SERVICE HATER OUT 7.5E+1 GOOD CPM R17 COMPONENT COOLING PUMP SUCT HDR 9.DE+2 GOOD CPM R18 LIQUID HASTE 0 I SPOSAL MONITOR 2.BE+3 GOOD CPM R19 STEAM GEHERATOR BLOWDOHH DRAIN 2.0E+3 GOOD CPM R20 SPEHT FUEL PIT HX SERV IJATER OUT 4 AL OE+3 GOOD CPM R29 AREA 29-CONTAINMENT HIGH RANGE B.OE-1 GOOD R/HR R30 AREA 30 CONTAINMENT HIGH RANGE 9 'E-1 GOOD R/HR R33 AREA 33-HOT INTERMEDIATE BLDG 1.0E+0 GOOD MR/H R34 AREA 34 AUX BLDG CV SPRAY PUMP 1.0E+1 GOOD MR/H R35 AREA 35.PASS SAMPLE PAHEL 1 ~ OE-1 GOOD MR/H R36 CONTROL ROOM NOBLE GAS MONITOR 1 'E+0 GOOD CPM R37 CONTROL ROOM PARTICULATE MONITOR 3.3E+0 GOOD CPM R38 CONTROL ROOM IODINE MONITOR 1.2E+0 GOOD CPM HVAC1 COHTROL ROOM CHLORINE AKALYZER 0.0075 GOOD PPH HVAC2 CONTROL ROOM AMMONIA AKALYZER 0.7763 GOOD PPM JT250 250 FOOT LEVEL TEMPERATURE ~ 72.3 GQQD DEGF JT033 33 FOOT LEVEL TEMPERATURE'50 69 ' GOOD DEGF JD250 FOOT LEVEL HIND DIRECTION 335 GOOD DEG. JD033 33 FOOT LEVEL HIND DIRECTION 335 ~ GOOD DEG. JS250 250 FOOT LEVEL HIND SPEED 4 GOOD MPH JS033 33 FOOT LEVEL KIND SPEED .5 GOOD MPH

SPING MONITOR SHEETS Tilae: 0315 (R-12A) (R-14A) (R-15A) Current R~eadin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part Beta uCi STANDBY N/A Part Alpha CPM STANDBY -1.90E+01 N/A I-131 STANDBY'5.60E-04 uCi STANDBY +3 . 90E-04 N/A Bkg I CPM +3.49E+01 N/A Noble Gas-Lov. uCi/cc STANDBY +8. OOE-06 3. 70E-06 Area Monitor MR/H 1.00E-01 1 ~ 0OE-03 Noble Gas-Mid uCi/cc STANDBY +8.00E-06 -1.00E-06 STANDBY'4.00E-02 Gamma Bkg CPM STANDBY -4.10E-02 1.00E+01 Noble Gas-High uCi/cc +1 30E-03

                                                            ~           -1.40E-03 Part  Beta-      uCi/cc*  STANDBY STANDBY'7.00E-10
           . I-131             uCi/cc~                   +3.50E-10

SPING. CONSOLE PLACED IN'INTERPRETED MODE STEAM LINE MONITORS:

(R-31): "A" Steam Line Rad Monitor +1.00E-02 mR/hr (R-32): "B" Steam Line Rad Monitor +1. OOE-02'R/hr

Time: 03:15

                                    'SILENT 700'OMPUTER, METEOROLOGICAL DATA AV77

NAME, WS 33A AVGE 0051 ST.: DEV 00900 MIN..

0011 0050 I00 WS 33B 0052 00910 0012 0052 00 WS150A 0040 01000 0022 0060 00 WS150B 0042 01100 0023 0061 02 WS 250 0050 01000 0010 0055 00 NAME AVGE ST. DEV MIN. MAX. MNDR AVRN CNT I WD 33A 0335 03000 0325 0345 0072 0020 0064 00 WD 33B 0335 03010 0325 0344 0071 0021 0063 00 WD150A WD1508'D 250 0334 0333 0335 03100 03000 03000 33'AX 0324 0323 0325 0345 0342 0342 0045 0035 0055 0022 0023 0025 0062 0060 0061 00 02 00 AME ER33A AVGE 0700 I 00 NAME; TER33B AVGE I00 NAME TE150A AVGE 0715 I 0700'725 E150B 0715 00 TE250A 00 TE250B 0725 DT150A 0015 00 DT150B 0015 00 DT250A 0025, DT250B 0025'456 DEW 33 TEG 0602 00 RAIN 0056

                                              ~ Time:      0330 Message:      18 GONNA STATION 1987 EVALUATED EXERCXSE MESSAGE FORK Messacee  for: Control   Room Simulated Plant Conditions: See attached sheets Messacee: ***THIS IS AN EXERCISE***

Alarms received in Control Room: ( I o E-31 (Containment Recirc., Fan Condensate. Hi-Hi Level) FOR. CONTROLLER USE ONLY Controller Notes:

1) Data reflects. a controlled shutdown to hot. shutdown.

Actions EXXected:

1987 EVALUATED EXERCISE Time: ~$ 0

            'I MAJOR PARAMETERS                            ENGINEERED SAFEGUARDS Reactor Power Level Reactor Shutdown
                              'E7(p MWE '//~MWT Yes No Hicih Head S'.
                                                          -FZ-924

l. ~Pum s O GPM.

FX-925 C) GP NIS N-41 logo N-43 74 0o 1A. InServ TBY OOS NIS N-42~k~o N-4 4~le I II 1B. 1C. InServ T OOS InServ TB OOS BAST Level = CHG. (FX-128) Pressurizer Level Low Head S. X. ~Pum s LTN.(FX-134) GPM FZ-626 C) GPM Containment Pressure 0 / psig 1A S/G Level W2 1A. InServ TB OOS 1B S/G RVLIS" Level I 1B. InServ Y OOS

                                                  ~  .

1A, S/G'ressure 2.o pslg RWST Level = 1B S/G. Pressure Containment ~sr~a Pum s I'CET FI-931A O GPM Sump A Level /sb feet FI-931B Q GPM Sump B Level. C) inches 1A. ZnServ STBY OS A'CP B. RCP'-. Containment Isolation unni unnin Yes~o Stopped Sto ed 1B ZnServ Containment Recirc Fans

                                                                                   ~3 B OOS

( 1A nServ STBY OOS IB. nSe STBY OOS ELECTRICAL POWER 1C. nServ STBY OOS 34.5 KV Bus ner z.ze Deener ized 1D. InServ TB OOS 4 KV'uses ner xze Deener zed PostAccident DampersO en Closed 480 V Buses Ener ize Deener ized Service Water Pum s Turbine. Generator Ener ize Deener ized lA. A. DIESEL GEN nxn Unloaded STBY,OOS 1B'Serv 1C. e nServ STBY OOS STBY OOS STBY OOS B. unnzn Unloaded STBY OOS 1D. XnServ TB OOS TSC Runnzn Unloaded T OOS A&B Header Pressure 2 psig Security Runnin Unloaded TBY OOS ENGINEERED SAFEGUARDS 1A. nServ STBY OOS Aux. Feedwater Pum s 1B. ZnServ TB OOS 1A. XnServ TB OOS Surge ITank Level = 1B. ZnServ TB OOS ~Standh Aux. Feedwater ~Pum s Turb. Driven, InServ STBY OO 1C. ZnServ T OOS CST Level fee 1D. InServ TB OOS

CET = PREDETERMINED CORE EXIT THERMOCOUPLES AVERAGE

Fjy i AREA RADIOLOGICAL AND NETEOROLOGI CAI. DATA T IHE: 0330 POINT ID DES CR IPT I OH CURREHT $ ALUE QUALITY CODE ENGR UNI TS R01 AREA 1-CONTROL ROON 1.0E-1 GOOD NR/H R02 AREA 2.CONTAIHNEHT 2.4E+1 GOOD HR/H R03 AREA 3 ~ RADIO CHEN LAB 1.9E-1 GOOD NR/H R04 AREA 4-CHARGING PUNP ROON 1.7E+1 GOOD HR/H R05 AREA 5-SPENT FUEL PIT 5.DE+0 GOOD HR/H R06 AREA 6.HUCLEAR SANPLE ROON 1.0Ei1 GOOD NR/H R07 AREA 7-IHCORE IHSTRUHENTATION 2.9E+1 GOOD HR/H R08 AREA B.DRUHNIHG STAT IOH 3.1E+0 GOOD HR/H R09 AREA 9-LETDOMH LINE 5.2E+1 GOOD NR/H R10A CONTAIHHEHT IODINE HONI TOR R10A ).BE+4 HAL fl CPH R10B PLANT VENT IODINE NOHI TOR R108 5.DE+2 GOOD CPH R11 CONTAIHHEHT A IR PART I CULATE 6.4E+5 HALN CPH R12 COHTAIHHENT GAS HOHI TOR 3.BE+5 HALH CPH R13 AUX BLDG EXHAUST AIR PART I CULATE 7 'E+2 GOOD CPN R14 AUX BLDG EXHAUST GAS HONITOR 4.3E+2 GOOD CPH R15 CONDENSER AIR EJECTOR EXHAUST 5.2Et1 GOOD CPH R16 CV COOLIHG HX SERVICE MATER OUT 7.5Etf GOOD CPH R17 COHPOHEHT COOLING PUNP SUCT HDR 9.DE+2 GOOD CPH R18 LIQUID WASTE DISPOSAL IION I TOR 2.BE+3 GOOD CPH R19 STEAH GENERATOR BLOMDOIfH DRAIN 2.DE+3 GOOD CPH R20 SPENT FUEL PIT HX SERV MATER OUT 4.DE+3 GOOD CPH R29 AREA 29-COHTAIHHENT HIGH RANGE 8.0E.1 GOOD R/HR R30 AREA 30 COHTAINNENT HIGH RANGE 9.0E-1 GOOD R/HR R33 AREA 33 HOT INTERNED IATE BLDG 1. DE+0 GOOD HR/H R34 AREA 34-AUX BLDG CV SPRAY PUHP 1.DE+1 GOOD HR/H R35 AREA 35-PASS SAHPLE PANEL 1.0E-1 GOOD HR/H R36 CONTROL ROON NOBLE GAS HON)TOR 1.7E+0 GOOD CPH R37 CONTROL ROON PARTICULATE HOHITOR 3.3E+0 GOOD CPH R38 CONTROL ROON IODINE HOK ITOR 1.2E+0 GOOD CPH HVAC1 CONTROL ROON CHLORINE ANALYZER 0.0075 ,GOOD PPH HVAC2 CONTROL ROON AHHONIA ANALYZER 0.7763 'GOOD PPH

'MT250      250 FOOT LEVEL TEHPERATURE                         g2.5                  GOOD                   DEGF

'MT 033 33 FOOT LEVEL TEHPERATURE 69.5 GOOD DEGF MD250 250 FOOT LEVEL 'MIND DIRECTION 337 GOOD DEG.

'MD 033     33 FOOT LEVEL MIND DIRECTION                       335                   GOOD                   DEG.
'MS250      250 FOOT LEVEL MIND SPEED                          4  ~ 6                GOOD                   NPH MS033       33 FOOT LEVEL MIND SPEED                                                 GOOD                   HPH

SPING MONITOR SHEETS Time: 0330 (R-12A) (R-14A) (R-15A) Current Readinc[ CHANNEL TYPE UNITS CONTAINMENT PLANT VENT ATR EJECTOR Part Beta uCi. +5.80E-04 N/A Part Alpha CPM'TANDBYSTANDBY -1.90E+01 N/A CPM'ci I-131 STANDBY +3.90E-04 N/A Bkg I STANDBY +3 . 49E+O1 N/A. Noble Gas-Low uCi/cc STANDBY +1.00E-06 3.70E-06 Area Monitor MR/H 1.00E-01 -4.00E-02 1.00E-03 Noble Gas-Mid uCi/cc STANDBY -1.00E-06 -1.00E-06 Gamma Bkg CPM STANDBY -4.10E-02 1.00E+Ol '( Noble Gas-High uCi/cc STANDBY'1 30E-03 ~ -1 40E-03

Part. - Beta uCi/cc+'TANDBY I-131 STANDBY'9.00E-10 uCi/cc* +3.70E-10

SPING CONSOLE PLACED IN "INTERPRETED MODE STEAM LZNE MONITORS:

(R-31): "A" Steam Line Rad Monitor +1.00E-02 - mR/hr (R-32): "B"'team Line Rad Monitor +1.00E-02 mR/hr

Time: 03: 30

                                         'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME'S     AVGE         ST.                MIN.       MAX-      I 33A 004                              0015      0050      00 DEV'0900 WS     33B        6'045 00810               0016      0052,     00 WS150A     0041         01000               0022      0060      00 WS150B     0042.        01100               0023      0061      02 WS     250 0060         01000               0010      0055      00 NAME       AVGE         ST. DEV            MIN.       MAX.  ~

MNDR AVRN CNT I WD 33A 0337 02000 0327 0347 0072 0020 0064 00 WD 33B 0336 03010 0326 0346 0071 0021 0063 00 WD150A 0332 03100 0323 0343 0045 0022 0062 00 WD150B 0337 03000 0327 0347 0035 0023 0060 02 WD 250 0338 03000 0328 0348 0055 0025 0061 00 NAME AVGE 0695 I NAME AVGE, 0695 I NAME AVGE I. ER33A 00 TZR33B 00 TE150A 0715 E150B 0715 00 TE250A 0725 00 TE250B 0725 DT150A. 0200 00 DT150B 0200 00 DT250A 0030 DT250B 0030 DEW 33 0460'056 TEG'3 0602" 00 RAIN

Time: 0345 Message: 19 GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM'essacSe foz: Control Room Simulated Plant Conditions: See attached sheets MessacSe: ***THIS IS AN EXERCISE*** Alarms received in Control Room: o E.-31 (Containment Recirc. Fan Condensate- Hi-Hi L'evel) FOR CONTROLLER USE ONLY Controller" Notes:

1) -" The TSC, OSC and Emergency Survey Center should be nearing operational status.

2) Data reflects' controlled shutdown to hot shutdown.

Actions Exrected:

1) TSC, when operational should send a repair team out to investigate 480 volt Bus 416 transformer damage.

1987 EVALUATED EXERCISE Time: ~O3 MAJOR PARAMETERS ENGINEERED SAFEGUARDS IP Reactor Power Level 3SO'WE lO'gMWT Hiqh Head S. Z. s Reactor Shutdown, Yes o FZ-924 FZ-925

                                                                          ~GPM
                                                                          ~GP
                                                                                       ~Pum NZS                 N-41   6'F W      N-43       7 9a              1A.        InServ     STB      OOS NIS RCS      Pressure N-42   lo'~       N-44                  o      1B.

1C. ZnServ ZnS cry TB OOS TB OOS TemperaturelAug Level ~ ss-

                             ~P. o psig'CS 5        oF              BAST CHG.(FZ-128)

Pressurizer Level Low Head S. Z. ~Pum s LTN. (FI-134) GPM FI-626 D GPM p S/G Level II'A 1A. ZnServ TB OOS 1B S/G Level 1B. InServ B OOS RVLIS I 1A S/G Pressure 0 psig RWST Level 1B S/G'ressure P Containment S ra ~Pum s

CET'ump FI-931A GPM-A Level, .g feet FI'-931B C) GPM Sump; B Level O nches 1A., ZnServ S BY OS B RCP'nnxn A RCP unnxn Stopped Sto ed 1B. ZnServ TB OOS NaOH Tank Level --

Containment Zsoiation ~Yes o ecirc Pans 3'ontainment 1A.. nServ STBY OOS 1B.. nServ STBY OOS ELECTRICAL PO 1C'. InSe STBY OOS 34.5 KV Bus. ner ized Deener ized 1D. InServ TB OOS 4 KV'uses ner xze Deener ized PostAccident DampersO en losea 480 V Buses ner ize Deener ized Service Water Pum s Turbine Generator ner xze Deener ized 1A. e STBY OOS ZESEL GEN 1B., nSe STBY OOS A. unnin Unloaded STBY OOS 1C. e STBY OOS B. unnxn Unloaded STBY OOS 1D. InServ TB OOS TSC Runnin Unloaded T Security Runnin Unloade ooS TB OOS A&B Header Pressure ~2 psig ENGINEERED SAFEGU S 1A. nServ STBY OOS Aux. Feedwater Pum s 1B. ZnServ TB OOS 1A. ZnServ TB OOS Surge Tank Level 5"2 1B. InServ STBY OOS ~Standh Aux. Feedw er ~Pum s Turb. Driven InServ STBY OOS 1C. Znserv T OOS CST Level 1D. InServ TB OOS

CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES AVERAGE

jLREA RADIOLOGICAL AIJD IIETEOROLOG ICAL DATA T IME: POINT ID DESCRIPT IOII CURRENT VALUE QUALITY CODE ENGR UNITS Roi AREA 1-CONTROL ROOM 1.0E.1 GOOD MR/H R02 AREA 2-COHTAINMEKT 2. 4E+1 GOOD MR/H R03 AREA 3 RADIO CHEM LAB 1.9E- f GOOD MR/H R04 AREA 4.CHARGING PUMP ROOM 1. 7E+1 GOOD MR/H R05 AREA 5 SPENT FUEL PIT 5 AL OE+0 GOOD MR/H R06 AREA 6 JIUCLEAR SAMPLE ROOM 1.DE+1 GOOD MR/H R07 AREA 7 IKCORE IHSTRUMEHTATIOH 2.9Et1 GOOD MR/H ROB AREA 8-DRUMMIHG STATION 3.1EOO GOOD MR/H R09 AREA 9 LETDOHH LINE 5.2E+1 GOOD MR/H R10A CONTA INMEHT I OD I HE MONITOR R10A 4.2E+4 HALM CPM R10B PLANT VENT IOD I NE HOHI TOR R108 5.5E+2 GOOD CPM R11 COHTA I HMENT AIR PARTICULATE 6 'E+5 BALM CPM R12 CONTA I HMEHT GAS MON I TOR 4.IEt5 HALM CPM R13 AUX BLDG EXHAUST AIR PART ICULATE 8.2E+2 GOOD CPM R14 AUX BLDG EXHAUST GAS MONITOR 4.3E+2 GOOD CPM R15 CONDENSER AIR EJECTOR EXHAUST 5.2E+1 GOOD CPM R16 CV COOLING HX SERVICE MATER OUT 7. 5E+1 GOOD CPM R17 COMPONENT COOLING PUMP SUCT HDR 9.DE+2 GOOD CPM R18 L IGUID HASTE DISPOSAL" NOH ITOR 2.BE+3 GOOD CPM R19 STEAM GENERATOR BLOHDOHH DRAIN 2.DE+3 GOOD CPM R20 SPEHT FUEL PIT HX SERV HATER OUI'REA 4.0Er3 GOOD CPM R29 29.CONTAINMENT HIGH RANGE B.OE-1 GOOD R/HR R30 AREA 30.CONTAINMEHT HIGH RANGE 9.0E.1 GOOD R/HR R33 AREA 33.HOT IHTERMED IATE BLDG 1.DE+0 GOOD MR/H R34 AREA 34 AUX BLDG CV SPRAY PUMP 1.DE+1 GOOD MR/H R35 AREA 35-PASS SAMPLE PANEL 1.0E 1 GOOD MR/H R36 CONTROL ROOM NOBLE GAS MONITOR 1.7E+0 GOOD CPM R37 CONTROL ROOM PARTICULAI'E MONITOR 3.3E+0 GOOD CPM R38 CONTROL ROOM IODINE MONITOR 1.2E+0 GOOD CPM HVAC1 CONTROL ROOM CHLORINE ANALYZER 0.0075 GOOD PPM HVAC2 CONTROL ROOH AMMONIA ANALYZER 0.7763 GOOD PPM HT250 250 FOOT !.EVEL TEMPERATURE 72.6 COOO'OOD DEGF NT033 33 FOOT LEVEL TEMPERAI'URE 69.7 DEGF MD250 250 f OOT LfVEL N I ND 0 I RECT ION 339 GOOD DEG. HD033 33 FOOT LEVEL MIND D I RECT I OH GOOD DEG. 337'.) MS250 250 FOOT LEVEL HIND SPEED GOOD MPH NS033 33 FOOT LEVEL MIND SPEED 5.2 GOOD MPH

SPING MONITOR, SHEETS Time: 0345 (R-3.2A) (R-14A) (R-15A) CHANNEL I'YPE UNITS CONTAINMENT Current ~Reerain PLANT VENT AIR EJECTOR Part Beta uCi STANDBY +6.00E-04 N/A Part. Alpha: STANDBY -1.90E+01 N/A CPM'Ci I-13 1 STANDBY +3 . 90E 04 N/A Bkg I, CPM STANDBY +3.49E+Ol N/A Noble Gas-Low uCi/cc STANDBY +1.00E-06 3.70E-06 Area Monitor MR/H 1.00E-01 -4.00E-02 1.00E-03 Noble Gas-Mid uCi/cc STANDBY -1.00E-06 -1. OOE-06 Gamma Bkg CPM STANDBY -4.10E-02 1.00E+01 Noble. Gas-High uCi/cc. STANDBY +1.30E-03 -1 '0E-03 Part= Beta uCi/cc* STANDBY +1 OOE-09

I-13 1 uCi/cc~ STANDBY +3.70E-10

SPING CONSOLE PLACED IN >>INTERPRETED MODEn STEAM LINE MONITORS:

(R-31): >>A" Steam Line Rad Monitor +1. OOE-02 mR/hr (R-32):- "B" Steam Line Rad Monitor +1.00E-02 mR/hr

Time: 03:45

                            'ILENT    700 'OMPUTER METEOROLOGICAL DATA AV77 NAME    AVGE   ST.. DEV        MXN.,      MAX.

WS 33A 0031 00900 0011 0050 00 WS'3B 0032 00910 0012 0052 00 WS150A 0040 01000 0022 0060 00 WS150B 0042 01100 0023 0061 02 WS 250 0030 01000 0010 0055 00 NAME AVGE ST. DEV MXN. MAX. MNDR AVRN CNT X WD 33A 0339 03000 0329 0349 0072 0020 0064 00 WD 33B 0338 03010 0328 0348 0071 0021 0063 00 WD150A 0336 03100 0326 0346 0045 0022 0062 00 WD150B 0335 03000 0325 0345 0035 0023 0060 02 WD 250 0337 03000 0327 0347 0055 0025 0061 00 NAME AVGE I NAME AVGE I NAME'0 AVGE I, ER33A 0697 00 TER33B 0698 TE150A 0707 E150B. 0707 00 TE250A 0718 00 TE250B . 0718 DT150A. 0010 00 DT150B 0010 00 DT250A 0021 DT250B 0021 00 DEW 33 04 60. TEG'3 0602 00 RAIN 0056

Time: 0400 Message: 20 GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM Messacee for: ControL Roam Simulated Plant Conditions: See attached sheets Messacee: ***THIS IS AN EXERCISE***: ALARMS received in the Control Room: o J-9 (Saf eguard breaker *trip) o J-32 (Emergency Diesel Generator 1B panel) o L-7 (Bus 16 under voltage safeguards) Indications, in the Control Room. include: 0 1B Emergency. light.. Diesel, Generator Bus tie to 16 shows a green No voltage or KH's on 1B Emergency Diesel Generator. Equipment off of'80 volt: Bus 16 not running. FOR CONTROLLER USE. ONLY Controller. Notes:.

1) Local "B" Emergency Diesel Generator'anel indicates Diesel tripped on low bearing oil pressure.

2) Ma)or equipment lost with loss of Bus gl6 MCC-lD, MCC-1J, MCC-1M, 1BMDAFWP, 1B & 1C charging pumps, 1B CCN pump, 1B &

1C. CV recirculation fans, 1B CV spray pump, 1B RHR pump, 1B SI pump and 1D standby auxiliary feedwater pump.

3) TSC should send. repair team out to check out 1B Emergency Diesel Generator Actions Exmected:

Operators should switch over to excess letdown because of only one charging pump available.

2) TSC should send repair team out to check out 1B Emergency Diesel Generator.

( 1987 EVALUATED EXERCISE Time: ~S/Oo MAJOR PAZUB!ETERS ENGINEERED SAFEGUARDS Reactor, Power L'evel Z5 MWE 73MWT ~Hi 11 Head. S. I. ~pum s Reactor; Shutdown Yes o FZ-924 0 GPM FI-925. V GP NIS N 41 (uPgo N-43 (0 fF~ 1A. InServ STBY OOS N-42~x~

        -~-"-.ag ~L NIS                                      N-4      4~cd       1B.          Inserv        STBY 0 RCS  Pressure                                         I      1C.          ZnServ           B    OOS
                                ~
    ~

CHG.(FI-128) ~8'ow. Pressurizer Level Head S. Z. LTN.(FI-134) Containment Pressure o. / GPM psig FI-626 ~GPM s ~pum 1A S/G Level 1A. ZnServ TB OOS 1B S/G Level 1B. ZnServ STBY 0 RVLIS 1A S/G Pressure I'> uCi/cc+ STANDBY. +1 OOE-09

~
I-13 3 uCi/cc+ STANDBY +3'.80E-10
SPING CONSOLE. PLACED IN "INTERPRETED MODE" STEAM LINE MONITORS:
(R-31): "A" Steam Line Rad Monitor +1. OOE-02 mR/hr (R-32): "B" Steam Line Rad Monitor +1.00E-02 mR/hr
( Time: 04:00
'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME AVGE 0055 ST. DEV 00700 MIN'..
0015 MAX. 0050 I00 WS 33A WS 33B 0052 00910 0012 0052 QQ WS150A 0055'056 01000 0022 0060 00 WS150B 01100 0023 0061 02 WS 250 0052 01000 0010 0055 00 NAME AVGE ST. DEV MIN. MAX. MNDR AVRN CNT I WD 33A 0340 02000 0330 0350 0072 0020 0064 QQ WD 33B 0340 03010 0330 0350 0071 0021 0063 00 WD150A 0341 03100 0331 0351 0045 0022 0062 00 WD150B 0342 03000 0332 0352 0035 0023 0060 02 WD 250 0340 03000 033Q 0350 0055 0025 0061 00 NAME AVGE I NAME AVGE, I. NAME AVGE ER3 3A- 0700 00 TER33B 0700 00 TE150A I'720 Z150B 0720 00 TE250A" 0730 00. TE250B 0730 DT150A,. 0200 00 DT150B 0020 00. DT250A'0 0030 DT250B 0030 DEW 33 0470 TEG'3, 0602 RAIN 005 7
(Q Time: 0400 Message: 21X GONNA STATION 1987 EVALUATED EXERCXSE MESSAGE FORM'essacSe for: . OSC Team Investigating Loss of 516 Station Service Transformer Simulated Plant Conditions: Messacee: ***THIS IS AN EXERCISE*** The transformer has phase to phase grounds and must be replaced. FOR CONTROLLER USE ONLY. Controller Notes:
1) Deliver verbally when the team has made appropriate investi-gations.
Actions ExXected:
1) Notify Control Room/OSC and estimate repair effort.
( Time: 0405 Message: 21.5X GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM Messacee for: ZENC'anager Simulated Plant Conditions: MessacSe: **>>THIS IS AN EXERCISE*** Radio Station WZZZ called to report this news bulletin received from the Associated Press:
"The U.S. Geological Survey Office. in Golden, Colorado this morning. reported an earthquake in Upstate New York that
( occurred at approximately 1:45 a.m. ES'Z. registered 5.0 on the Richter Scale. epicenter: was. located approximately 30 miles The earthquake The earthquake's east of Rochester, New, York. Preliminary reports. from; local police and governmental agencies'ndicate- light to moderate damage to residential and. commercial structures in 0he affected area. Roadways
~ --and bridges are reported passable. No major injuries or fatalities have been. reported at this time."
FOR CONTROLLER USE ONLY Controller Notes: ACTIONS EXPECTED:
Time: 0415 Message: 22 GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM Massacee for: Control Room Simulated Plant Conditions: See attached sheets Messacee: ***THZS ZS AN EEERCZSE*** Alarms received in the Control Room: o E-31 (Containment Recirc. Fan Condensate Hi-Hi Level) FOR CONTROLLER USE ONLY Controller Notes:
1) If the. TSC'ecides that..the- breaker tie to cross-tie on, Bus 16 Buses 14<<16, inform them will. not close.
ACTIONS EXPECTED:
1) A SITE EMERGENCY should. be declared in accordance with SC-100, "Ginna Station Event Evaluation and Classification,"
EAL: Fire= causing loss of safety systems including redundant components as determined by the Shift Supervisor; (i.e.
--- Loss. of both containment spray pumps), or EAL: Events in progress or have occurred which involves actual or likely major failures of plant functions needed for protection of the public.
2) Implement SC-203, "SITE EMERGENCY":
A. 'ake notifications B. Assess and monitor plant conditions. Update of fsite agencies at least every 30 minutes and whenever there are significant changes in plant status. C. Activate the EOF, JENC, and Engineering Support Center.
3) Implement SC-212 "Site Evacuation", and SC-213 "Account-ability."

4) TSC may send a repair team out to checkout and repair the breaker between the 14 16 Buses.

5) TSC should be working on leakage problem in containment.

6) Operations takes out normal letdown and puts in excess letdown because of only one charging pump operating due to Bus 16 outage.
1987 EVALUATED EXERCISE Time: Og/5 MAJOR PAEQMETERS ENGINEERED SAFEGUARDS g Reactor Power Level 300 MWE High Head. S. I'.. ~Pum s Shutdown FI 924 8'O'MWT'eactor Yes o Q GPM NIS N-41'~ N-43'~51 FZ-925 ~GPM
'nServ TB ~'I 1A. OOS NZS 'I" N-42~~5 " Ig N-44 ~go I'l 1B.
lC. BAST InServ ZnServ Level ~ STBY OS TB OOS I Low Head S. I. s I'II FZ-626 ~GPM ~Pum
,lA S/G Level 1A. ZnServ TB OOS 1B S/G Level 1B. InServ STBY 0 RVLZS I lA S/G.
1B S/G
*CET Pressure Pressure Sump A. Level ~g* I"lg I"Ig RWST Level Containment ~sr~a ~porn s FI-931K GPM
2. 2 feet A. RCP'nnin Sump B'eve3 B RCP. Runnzn 0
Stopped. Sto ed inches FI-931B 1A. 1B. C) ZnServ GPM InServ'TBY OOS STBY 00 Containment Isolation ~Yes No Containment Recirc Fans lA. nServ STBY OOS 1B. ZnServ STBY ELECTRICAL POWER 1C.. InServ STBY 3465 KV Bus ner zze Deener ized lD. n e STBY OOS 4 KV Buses ner z.ze Deener zed PostAcciden DampersO en losed s iq~i>-,I7jlB I~ 480 V Buses. Eher ize eener ized Service Water Pum s Turbine Generato ne eener zze 1A. n e STBY OOS DIESEL GENE S 1B'. n e STBY OOS A. unn n Unloaded STBY OOS lc. nServ ST Y OOS B. Runnxn Unloaded STBY 0 1D. n erv TB OOS TSC Runnin Unloaded TB Security Runnin Unloade 00 B OOS A&B Header Pressure ~2~psig ENGINEERED SAFEGUARDS 1A. nserv STBY OOS Aux. Feedwater Pum s 1B. ZnServ STBY 00 1A. InS cry TB OOS Surge Tank Level ~ 1B. ~ InServ STBY OS ~standh Aux. Feed a er ~pum s Turb. Driven
~ InServ STBY OOS 1C. ZnServ TB OOS 2 o CST Level 1D. ZnServ S BY 00 *CRT = PREDETERMINED CORE EXIT THERMOCOUPLES)QVERAGE)
Fy AREA RADIOLOGICAL AHD IIE/EORQLOGICAL DATA TIME: 0415 POINT ID DESCRIPT)0$ CURRENT VALUE QUALITY CODE EHGR UHI TS R01 AREA 1.CONTROL ROOM 1.0E-1 GOOD MR/H R02 AREA 2-COH'IAIHMEHT 2.5Ei1 GOOD MR/H R03 AREA 3.RADIO CHEM LAB 1.9E 1 GOOD MR/H R04 AREA 4-CHARGING PUMP ROOM 1. BE+1 GOOD MR/H R05 AREA 5-SPENT FUEL PIT 5.DE+0 GOOD MR/H R06 AREA 6-NUCLEAR SAMPLE ROOM 1.0Et1 GOOD MR/H R07 AREA 7- IHCORE IHSTRUMEHTAT 10) 2 'Et1 GOOD MR/H ROB AREA B.DRUMMING STATION 3.1E+0 GOOD MR/H R09 AREA 9-LETDONH LINE 5.2E+1 GOOD MR/H R10A CONTAINMENT IOD INE MOHI TOR R IOA 5.3E+4 BALM CPM R108 PLAHT VEHT IODINE MONITOR R1QB 6.6E+2 GOOD CPM R11 CONTAINMEHT AIR PARTICULATE 6.4E+5 HALM CPM R12 COHTAINMEKT GAS MOHI TOR 4.7Et5 HALM CPM R13 AUX BLDG EXHAUST AIR PARTICULATE 9.1E+2 GOOD CPM R14 AUX BLDG EXHAUST GAS MONITOR 4.6E+2 GOOD CPH R15 CONDENSER AIR EJECTOR EXHAUST. 5.2E+1 GOOD CPM R16 CV COOI.ING HX SERVICE HATER OUT 7.5E+1 GOOD CPM R17 COMPONENT COOLING PUMP SUCT HDR 9.DE+2. GOOD CPM R18 L IOUID WASTE 0 ISPOSAI.. MON)TOR 2.8Et3 GOOD CPM R19 STEAM GENERATOR BLOIIDOHN DRAIN 2.DE+3 GOOD CPM 420 SPEHT FUEL PIT HX SERV MATER OUT 4.DE+3 GOOD CPM <29 AREA 29.CONTAIHMEHT HIGH RANGE 8.0E 1 GOOD R/HR <30 AREA 30-CONTAINMENT HIGH RANGE 9.0E. 1 GOOD R/HR <33 AREA 33.HOT IHTERMEDIATE BLDG 1.DE+0 GOOD MR/H <34 AREA 34.AUX BLDG CV SPRAY PUMP. 1. GOOD MR/H DE+1'.0E-1 <35 AREA 35-PASS SAMPLE PANEL GOOD MR/H <36 COHTROL ROOM NOBLE GAS MONITOR 1.7E+0 GOOD CPM <37 CONTROL ROOM PARTICULATE MOHITOR 3.3E+0 GOOD CPM i38 CONTROL ROOH IODINE HOHITOR 1 'E+0 GOOD CPM IVAC1 CONTROL ROOM CHLORINE ANALYZER 0.0075 GO,OD PPM IVAC2 CONTROL ROOM AMMONIA ANALLY?ER 0.7763 GOOD PPM IT250 250 FOOT LEVEL TEMPERATURE 73.0 G ODD! DEGF tT033 33 FOOT LEVEL TEMPERATURE 70.0 GOOD DEGF ID250 250 FOOT LEVEL HIND D I RECT IOH 341 GOOD DEG: ID033 33 FOOT LEVEL HI ND DIRECTION 340 GOOD DEG.
~S250 250 FOOT LEVEL MIND SPEED 5.5 GOOD MPH IS033 33 FOO'I LEVEL MIND SPEED 5.0 GOOD MPH
pgO SPING'ONITOR SHEETS Time: 0415 (R-12A) (R-14A) (R-15A) Current Readince CHANNEL I TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part Beta uCi STANDBY ~ 4 OE-04 N/A Part Alpha.. CPMi STANDBY -1 90E+01 N/A. I-131 uCi*. STANDBY +3'. 9 OE-04 N/A Bkg I CPM STANDBY +3.49E+01 N/A Noble. Gas-Low uCi/cc STANDBY +3.00E-06 3.70E-06 Area Monitor MR/H 1.00E-01 -4.00E-02 1.00E-03 Noble Gas-Mid uCi/cc STANDBY -2.00E-06 -3.00E-06 Gamma Bkg CPM STANDBY'6 STANDBY -4.10E-02 1.00E+01 Noble Gas-High uCi/cc +1.30E-03 1.45E-03 Part - Beta uCi/cc*. STANDBY +1.20E-09 I-13 1 uCi/cc+ STANDBY +3 '0E-10' SPING CONSOLE PLACED IN >>INTERPRETED MODE STEAM LINE MONITORS: (R-31): >>A>> Steam Line Rad Monitor +1'. OOE-02 mR/hr (R-32): ->>B>> Steam Line Rad Monitor +1.00E-02 mR/hr
0 Time: 04:15
'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77
NAME, WS 33A AVGE.
0051 ST". 00900 DEV MIN' 0011
~ -'AX.
0050 I00 WS 33B 0050 00910 0012 0052 00 WS150A 0055 01000 0022 0060 00 WS150B 0056 01100 0023 0061 02 WS 250 0055 01000 0010 0055, 00 NAME WD 33A AVGE 0340 ST. DEV 02100 MIN. 0330 MAX. 0350 MNDR 0072 AVRN 0020 CNT 0064 I 00 WD 33B 0341 03010 0331 0351 0071 0021 0063 00 WD150A 0340 03100 0330 0350 0045 0022 0062 00 WD150B 0341 03000 0331 0351 0035 0023 0060 02 WD 250 0342 02000 0331 0351 0055 0025 0061 NAME ER33A AVGE 0700 I NAME AVGE I NAME AVGE 00 I 00 TER33B 0700 00 TE150A. 0722 150B 0722 00 TE250A 0733 00 TE250B 0733 T150A, 0022 00 DT150B 0022 00 DT250A 0033 DT250B 0033 DEW 33 0470 TEG 33 0602 00 RAIN- 0057
/$4 Time: 0430 to 0530 Message: 23X GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM Me~sacee for: OBC Team Investigating Loss. of lB Emergency Diesel Generator Simulated Plant Conditions:
MessacSe: ***THIS IS AN EXERCISE*** The. 1B Emergency Diesel Generator Lube Oil Pump has a cracked casing. Spare is available. FOR CONTROLLER USE ONLY Controller Notes:
1) Deliver verbally when the Team has made appropriate investi-gations-.')
Repairs cannot be successful until 0800 hours. Actions EXXected:
1) Notify Control Room/OSC and continue repair efforts.
rg3 Time: 0430 Message: 24 GINNA STATION EVALUATED EXERCISE
'987 MESSAGE FORM MessacSe for: Technical Support Center Simulated Plant Conditions: See attached sheets ***THZS ZS AN EXERCZSE***"
/7'essacee: Results from earthquake of developing of the accelerograph
.24g has occurred.
film indicates an Alarms received in Control Room: o E-31 (Containment Recirc. Fan Condensate Hi-Hi Level) FOR CONTROLLER USE ONLY Controller Notes: Actions ~xXected:
1) If'ot already
=---declared declared, in accordance a SITE AREA EMERGENCY should, be with SC-100, "Ginna Station Event Evaluation and: Classification," EAL! Natural Phenomenon Being Experienced; Plant not in cold. shutdown and earthquake.
greater than .2g as determined by developing accelograph film.
2) Implement SC-203, "SITE, AREA EMERGENCY" A
A. Make notifications. B. Assess and monitor plant conditions. Update of f-site agencies at least every 30 minutes and whenever there are significant changes in plant status. C. Activate the EOF, JENC, and Engineering Support Center.
3) Implement SC-212, "Site Evacuation" and SC-213, "Account-r ability."
~ ~ ~
4) - TSC should be evaluating leakage problem in containment.
1987 EVALUATED EXERCISE Time: ~V'AO MAJOR PAIUQKTERS ENGINEERED SAFEGUARDS Reactor Power Level 27)'WE g2A) Higihh Head S. I. ~Pum s. Shutdown Yes o MWT'eactor FX-924 O GPM FI-925 O GPM NXS NXS: N-41~~ N-42~~~ N-44~ N-43 SV7i e 1A. 1B. InServ InServ TB OOS STBY 0 I' 1C. InServ OOS g 'g CHG. (FX-128) Q GPM 1 Low Head S. I. ~Pum s (FI-134)erat:eu /7DN.
~g'TN.
GPM FX-626 C) GPM Containment Pressure O.a psig lA S/G Level gg ~ 1A. ZnServ TB OOS
*CET'F 1B S/G Level g. 1B. ZnServ STBY OS RVLXS 1A S/G Pressure; I gg RWST Level ~ 9M r, 1B'/G Sump A; Pressure Level.
psig feet Containment FX-931A FI-931B~GPM S ra GPM
~Pum s Sump B Level nches 1A. ZnServ STBY 0 A. RCP unnzn Stopped 1B. InServ STBY OS B'CP" Runnzn Sto ed Containment Isolation ~Yes ~o Containment Re irc Fans 1A. nServ STBY OOS 1B. In erv STBY 0 ELECTRICAL WER 1C. InServ STBY OS 34.5 lm Bus er zze Deener ized 1D. n erv STBY OOS
4. KV'uses.
480 V Buses
/3>A /6'T/$
Engr ice Turbine Generator ner z.ze Deener ized
'td ner zze Deener x,zed ceder ize PostAcciden Service Water 1A. Se ampersO en Pum s STBY OOS lose DX SEL GENERATO 1B. Serv STBY OOS A. unnzn Unloaded STBY OOS 1C. S STBY OOS InServ B. Runnxn Unloaded STBY Os TSC Runnin Unloaded Security Runnxn Unloaded TB T OOS OOS 1D.
A&B Header Pressure Com onent
~~sig in Water ~Pum OOS s
ENGINEERED SAFEGU S lA. nServ STBY OOS Aux. Feedwater Pum s 1B. In erv STBY OS lA. InServ TB OOS Surge Tank Level = S'2 1B. InServ STBY 0 ~standh Aux. Feed er ~Pum s Turb. Driven XnServ STBY OS 1C. InServ TB OOS CST Level 1D., InServ STBY 0
*CET PREDETERMINED CORE EXIT THERMOCOUPLES3$ VERAGE)
AREA RADIOLOGICAL AHD IIETEOROLOG1CAL DATA TIME: 0430 POINT ID DESCRIPT IOH CURRENT VAI.UE QUAL)TY CODE ENGR UNITS R01 AREA 1.CONTROL ROOH 1.0E 1
~
GOOD HR/H R02 AREA 2.COHTAIHHEMT 2.5E+1 GOOD HR/N R03 AR'EA 3.RADIO CHEH LAB 1.9E.1 GOOD HR/H R04 AREA 4-CHARGIKG PUHP ROOH 1.BE+1 GOOD HR/H R05 AREA 5-SPENT FUEL PIT 5.0Eto GOOD HR/H R06 AREA 6.NUCLEAR SAHPLE ROON 1.DE+1 GOOD HR/H R07 AREA 7.IHCORE INSI'RUHEKTATION 3.DE+1 GOOD HR/H R08 AREA 8-DRUHHIHG STATION 3.1E+0 GOOD HR/H R09 AREA 9-LETDOIIH LINE 5.2E+1 GOOD HR/H R10A COKTA IHHEHT IOD I HE HOHI TOR R10A U SE+4 HALH CPH R108 PLANT VENT IOD I HE MON I TOR R108 7.4E+2 GOOD CPH R11 CONTAIMHENT AIR PART I CULATE 6.IIE+5 HALH CPH R12 CONTA I HHEHT GAS HONI TOR 5.DE+5 HALH CPH R13 AUX BLDG EXHAUST AIR PART I CULATE 1. 1E+3 GOOD CPH R14 AUX BLDG EXHAUST GAS HOHITOR 4 'E+2 GOOD CPH R15 CONOEHSER AIR EJECTOR EXHAUST 5.2E+] GOOD CPH 116 CV COOLING HX SERVICE WATER OUT 7.5E11 GOOD CPH R17 COHPOHENT COOLING PUHP SUCT HDR 9.DE+2 GOOD CPH 118 LIQUID HASTE DISPOSAL.HOMITOR 2.88+3 GOOD CPH 119 STEAM GENERATOR BLOMDOMH DRAlll 2.DE+3 GOOD CPH I20 SPEHT FUEL PIT HX SERV IIATER OUT 4.DE+3 GOOD CPH I29 AREA 29-COHTAINHEHT HIGH RANGE B.OE-1 GOOD R/HR 130 AREA 30.CONTAIMHENT HIGH RANGE 9 'E-1 GOOD R/HR 133 AREA 33.HOT IHTERHED IATE BLDG 1.OE+O GOOD HR/H <34 AREA 34-AUX BLDG CV SPRAY PUMP 1. DE+1 GOOD HR/H <35 AREA 35-PASS SAHPLE PANEL 1.0E-1 GOOD MR/H t36 CONTROL ROOH NOBLE GAS HOH ITOR 7Eto GOOD CPH <37 CONTROL ROOH PARTICULATE HONITOR 3.3E+0 GOOD CPH <38 COHTROL ROOH IOD IHE HOH ITOR 1 'E+0 GOOD CPH (VAC1 COKTROL ROOH CHLORINE ANALYZER O.O075 GOOD PPH IVAC2 COHTROL ROOH AHHOHIA ANALYZER 0.7763 GOOD ~ ~ PPH iT250 250 FOOT LEVEL TEHPERATURE 73.1 GOOD, DEGF IT033 33 FOOT LEVEL TEMPERATURE 70.1 GOOD'OOD DEGF i0250 250 FOOT LEVEL KIND DIRECT,IOH 342 c i DEG.
'D033 33 FOOT LEVEL KIND 0 IRECTIOH 340 I GOOD DEG. 'S250 250 FOOT LEVEL KIHD SPEED 5.7 GOOD HPH S033 33 FOOT LEVEL HIND SPEED 5.2 GOOD HPH
SPING MONITOR SHEETS Time: 0430 (R-12A) (R-14A) (R-15A) Current Readince CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EZECTOR Part Beta uCi STANDBY +6.60E-04 N/A Part. Alpha CPM" STANDBY -1.90E+01 N/A I-13'1. uCi STANDBY +3.90E-04 I N/A'kg:. CPM STANDBY +3.50E+Ol N/A Noble Gas-Low uCi/cc STANDBY +3.00E-06 3e70E-06 Area Monitor MR/H 1 OOE-01 -4.00E-02 1.00E-03 Noble Gas-Mid uCi/cc STANDBY +3.00E-06 -1.50E-06 Gamma Bkg CPM STANDBY -4.10E-02 1.00E+Ol Noble Gas-High uCi/cc STANDBY +1 '0E-03 -1.50E-03 Part Beta uCi/cc* STANDBY +1 20E-09
~
I-13'I uCi/cc+: STANDBY: +4'.OOE-10 SPING CONSOLE PLACED IN "INTERPRETED MODE" STEAM LINE MONITORS: (R-31): "A" Steam Line Rad'onitor +1.00E-02 mR/hr (R>>32): "B" Steam Line Rad Monitor +1.00E-02 mR/hr'
Time: 04: 30
'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77'AME AVGE ST. DEV MIN- MAX. 1 WS 33A 0051 00900 0011 QO5O. 00 WS 33B 0056 00910 0012 0052 00 WS150A 0050 01000 0022 0060 00 WS150B 0052 01100 0023 0061 02 WS 250 0060 01000 0010 0055 00 NAME AVGE ST. DEV MIN. MAX. MNDR AVRN CNT I WD 33A 0342 03000 0332 0352 0072 0020 0064 00 WD 33B 0341 03010 0331 0351 0071 0021 0063 00 WD150A 0341 03100 0331 0352 0045 0022 0062 00 WD150B 0341 03000 0331 0354 0035 0023 0060 02 WD 250 0342 03000 0332 0355 0055 0025 0061 00 NAME AVGE I NAME AVGE I NAME'0 AVGE ER33A 0701 00 TER33B 0701 TE150A I'711
DT150A, 150B DT250B'EW 0712 0011 0030 00 00 TE250A-DT15 0B" 0731 0011 00 00 TE250B DT250A 0731 003 '
33 0475 TEG'3 0602. 00 RAIN. 0058
Time: 0445 Message: 25X GINNA STATION 1987'VALUATED EXERCISE MESSAGE FORM Messacae for: Emergency Coordinator Simulated Plant Conditions: ~essacee: ***THIS IS AN EXERCISE*** Declare a SITE AREA EMERGENCY in accordance with SC-100, "Ginna Station Event. Evaluation and Classification," EAL: Natural Phenomenom being Experienced; plant not in Cold Shutdown and earthquake greater than .,2g as determined by developing accelo-graph film. FOR- CONTROLLER USE ONLY Controller Notes: Deliver'f' has not been declared. 1) not deliver ifSITE AREA emergency EMERGENCY classification discussions Do are in progress.'ctions Exrected:
Time: 0445 Message: GINNA STATION 1987 EVALUATED EXERCISE'ESSAGE FORM." MessacSe for: Control Room Simulated Plant Conditions: See attached sheets M~essa e: ***THIS XS AN EXERCISE*** Alarms received in the Control Room: o E-31 (Containment Recirc. Fan Condensate Hi-Hi Level} FOR CONTROLLER USE Notes: ONLY'ontroller
1) -.-Data reflects unit in a Controlled Shutdown.
Actfons Exrected:
1) TSC may send a Repair Team out to finish maintenance on the turbine driven auxiliary feedwater pump.
1987 EVALUATED EXERCISE Time: 0 $ 95 MAJOR PARAMETERS ENGINEERED SAFEGUARDS Reactor Power Level 2/I'WE 7%5 MWT High Head S. I. ~Pum s Reactor Shutdown Yes FI-924 O GPM FI-925 O GPM NIS N-41 4 I5 1A. InServ TB OOS
~
N-42~~ N-44~~o N-43'IS lB. ZnServ STBY CHG.
'I" (FZ-128) *1 C7 k kll 1C.
GPM ZnServ BAST'evel ~ TB OOS SS. Pressurizer Level Low Head S. I. Pum s FI-626 O GPM I"kk lA S/G Level 1B S/G Level nSm 1A. 1B. Znserv ZnServ STBY OOS 0 RVLZS lA S/G Pressure 0 psig RWST Level S .1B S/G Pressure: psig Containment. ~sr~a ~Pum s
*CET FZ-93 1A C7 GPM A RCP'nzn Sump A Sump B B: RCP'.
Level Level unn n Stopped Sto ed. feet FI-931B inches 1A" 1B. k C) InServ InServ GPM STBY
~k STBY 0
OS Containment. Isolation ~Fes o Containment Recirc Fans lA. e STBY OOS 1B. ZnServ STBY 0 POWER 'LECTRICAL 1C. ZnServ STBY 00 34 ~ 5 KV Bus ner xze Deener ized 1D. nSe STBY OOS 4 KV Buses ner xze Deener ized PostAccident DampersO en losed 480 V Buses
~>)>~jj5>ii)
Ener ice f 14 eener ize Service Water Pum' Turbine Generator ner ize Deener ized lA. nServ STBY OOS DIESEL GENERATO 1B. nServ STBY OOS A. unnzn Unloaded STBY OOS 1C. nSe STBY OOS B. Runnin Unloaded STBY 0 1D. ZnServ TB OOS TSC Runnin Unloaded Secur ty Runnin Unloaded TB OOS B OOS A6B Header Pressure ~~psig ENGINEERED SAFEGUARDS lA. nServ STBY OOS Aux. Feedwater Pum s 1B. ZnServ STBY 0 lA. InServ TB OOS Surge Tank Level = S ?- 1B. ZnServ STBY 0 ~Standn Aux. Feedwatet. ~pum s Turb. Driven ZnServ STBY Os 1C. InServ TB OOS CST, Level fee 1D. ZnServ STBY 0
CRT PREDETERMINED CORE EXIT THERMOCOUPLESg(AVERAGE)
AREA RADIOLOGICAL AND HETEOR Ill~~'ATA Cy TINE: 0445 I MT ID DESCRIPT ION CURREHT VALUE OUALITY CODE ENGR UNI TS 1 AREA 1 CONTROL ROOH 1.0E.1 GOOD HR/H 2 AREA 2-CONTAINHEMT 2.5E+1 GOOD HR/N 3 AREA 3 RADIO CIIEH LAB 1.9E.1 GOOD HR/H 4 AREA 4.CHARGING PUHP ROOII I.BE>I GOOD HR/H'R/H 5 AREA 5.SPENT FUEL PIT 5.DE+0 GOOD 6 AREA 6 NUCLEAR SAHPLE ROOM 1. DE+1 GOOD HR/H 7 AREA 7- INCORE INSTRUHENTAT )OH . 3.DE+1 GOOD HR/H 8 AREA 8-DRUHHIMG STATIOH 3.1E+0 cooo HR/N 9 AREA 9.LETDONN LINE 5.2E+1 GOOD HR/H OA CONTA I NHEHT IOD I NE HOH I TOR R10A 6.5E+4 HALH CPH QB PLANT VENT IOD INE HOK I TOR R108 8 ~ 1E+2 GOOD CPH 1 COHTA I NHEHT AIR PART I CULATE 6.4E+5 HALH CPH 2 CONTAIHHEHT GAS HOHI TOR 5.3E+5 NALH CPH 3 AUX BLDG EXHAUST AIR PARTICULATE ).4E+3 GOOD CPH 4 AUX BLDG EXHAUST GAS HONITOR 4.9E+2 GOOD CPK 5 CONDENSER AIR EJECTOR EXHAUST 5.2E+1 GOOD CPH 6 CV COOLIHG HX SERVICE MATER OUT 7.5E+1 GOOD CPH 7 COHPOHEHT COOLING PUHP SUCT HDR 9.DE+2 GOOD CPH 8 L IGUID MASTE DISPOSAL NON ITOR 2.BE+3 GOOD CPH 9 STEAH GENERATOR BLOMDONH DRAIN 2.DE+3 GOOD CPH 0 SPENT FUEL PIT NX SERV HATER OUT 4.DE+3 GOOD CPH 9 AREA 29 CONTAINHENT HIGH .RANGE 8.0E-1 GOOD R/HR 0 AREA 30.CONTAINHEHT HIGP RANGE 9.0E-1 GOOD R/HR 3 AREA 33 NOT INTERHEDIATE BLDG 1.DE+0 GOOD HR/H AREA 34.AUX BLDG CV SPRAY PUHP 1.DE+1 GOOD HR/N 5 AREA 35.PASS SAHPLE PANEL 1.0E-1 GOOD HR/H 5 CONTROL ROOH NOBLE GAS HON)TOR 1. 7Eio GOOD CPH COIITROL ROOH PARTICULATE HOMITOR 3.3E+0 GOOD CPH CONTROL ROOH IOD I IIE NON I TOR 1.2E+0 GOOD CPH LCI CONTROL ROON CHLORINE ANALYZER 0.0075 GOOD PPH ic2 CONTROL ROOH AHHOMIA ANALYZER 0.7763 GOOD PPH
?50 250 FOOT LEVEL TEHPERATURE 73 ' GOOD DEGF i33 33 FOOT LEVEL TEHPERATURE 7o.2 GOOD DEGF ?50 250 FOOT LEVEL 'WIND DIRECI'ION 345 GOOD DEG.
l33 .33 FOOT LEVEL MIND DIRECTION 345 GOOD DEG.
'50 250 FOOT LEVEL MIHD SPEED 6.1 GOOD HPN I33 33 FQQT LEVEL MIND SPEED 6.2 GOOD HPH
SPING MONITOR SHEETS'R-12A) Time: 0445 (R-14A) (R-15A) Current ~Readin CHANNEL N TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part - Beta uci STANDBY. +6e80E-04 N/A Part - Alpha. CPK STANDBY -1 90E+01
~ N/A I-13 1. uCi STANDBY +3'. 90E-04 N/A Bkg I CPM'TANDBY +3.50E+01 N/A Noble Gas-Lov- 'uCi/cc STANDBY +3.40E-06 3e70E-06 Area Monitor MR/H 1.00E-01 -5.00E-02 1.00E-03 Noble- Gas-Mid uCi/cc STANDBY +3.40E-06 -1.50E-06 Gamma Bkg CPM STANDBY -4.20E-02 1.00E+01 Noble Gas-High uCi/cc. STANDBY +1.30E-03 -1.50E-03 Part. Beta- uCi/cc+ STANDBY +2.00E-09 I-13 1 uCi/cc+'TANDBY +4.20E-10
SPING CONSOLE PLACED IN "INTERPRETED MODE""
STEAM LINE MONITORS: (R-31): "A" Steam. Line Rad: Monitor +1.00E-02 mR/hr (R-32): "B" Steam Line Rad Monitor +1.00E-02 mR/hr
Time: 04 ~ 45
'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME WS 33A AVGE 0031 ST. DEV.
00900 MIN. 0011 MAX. 0050 I00 WS'3B 0032. 00910 0012 0052'060 00 WS150A 0040. 01000 0022 00 WS150B 0042 01100 0023 0061 02 WS 0030 01000 0010 0055 00 250'AME AVGE ST. DEV MIN. MAX. MNDR AVRN I WD 33A 0345 03000 0341 0350 0072 0020 0064 00 WD 33B 0342 03010 0330 0350 0071 0021 0063 00 WD150A 0341 03100 0331 0351 0045 0022 0062 00 WD150B 0344 03000 0340 0350 0035 0023 0060 02 00'NT
~
WD 250 0346 03000 0330 0351 0055 0025 0061 00 AME AVGE I NAME AVGE I NAME AVGE I; ER33A 0.702 00 TER33B 0702 00 TE150A 0722 E150B 0722 00 TE250A. 0725 00 TE250B 0725 C~-x~J DT150A 0020 00 DTI50B 0020 00 DT250A 0023 T250B 0023 DEW 33 0475 TEG 33 0602 RAIN 0059-
q Time: 0445 Message: 27x GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM Me~~acee for: OSC Team investigating Bus 14-16 Tie Breaker on Bus 16 failure to close. Simulated Plant Conditions: Me5sac5e: ***THIS IS AN EXERCISE*** The Tie Breaker indicated physical damage and must be changed out. FOR CONTROLLER USE'NLY Controller Notes:
1) Deliver verbally when the team has made appropriate investi-gations.

2) Repairs cannot, be successful until after 1130 hours.
Actions ExXected:
1) Notify Control Room/OSC and continue repair efforts.
Time: 0445-0515 Message: 27.5x GZNNA STATION 1987 EVALUATED EXERCXSE MESSAGE FORM MessacSe f<>r: Emergency Coordinator Simulated Plant'onditions: Messacae: ***THIS IS AN EXERCISE*** FOR CONTROLLER USE ONLY When accountability of site. personnel is complete and non-essential people have been identified', the Emergency Coordinator- =-- should. call the Wayne County EOC stating that persons are: to be evacuated. from the site. He should recpxest I.nformat:ion on road- conditions or traffic impediments and the acceptable routes. If transportation is recpxired, he should, request this; time;. it at Deliver this. message verbally if the Emergency Coordinator has not made this call within approximately 30 minutes of account-ability. Controller Notes: TSC Controller should ensure that this call is completed even in the event that no personnel are to be evacuated.
Time: 0500 Message: 28X GINNA STATION I 1987 EVALUATED EXERCISE MESSAGE FORM'ess~cee for: OSC Team sent out to finish maintenance on turbine driven auxiliary feedwater pump Simulated Plant Conditions: Messacee: ***THIS IS AN EXERCISE*** The thrust bearing and thrust bearing cooler need to be installed plus'ine-up and. coupling of pump and, turbine. FOR CONTROLLER USE ONLY Controller Notes:
1) Deliver verbally when team has made appropriate investiga-tions.

2) Repairs cannot be successful until after 1600 hours.
Actions EXXected:
1) Notify Control Room/OSC is decided to do so.
and continue repair efforts if it
Time: 0500 Message: 29 GINNA STATl;ON 1987'VALUATED EXERCXSE MESSAGE FORM Mes~acee for: Control Room Simulated Plant Conditions: See attached sheets MessacSe: ***THIS IS AN EXERCISE*** Alarms received in the Control Room: 0 E-31 (Containment. Recirc. Fan Condensate Hi-Hi Level) FOR CONTROLLER USE'NLY Controller Notes: 1)'Data. sheets reflect continuing reactor shutdown. Actions ~Ex ected:
1987 EVALUATED EXERCISE Time: ~COO PARAMETERS'NGINEERED
~
MAJOR SAFEGUARDS Reactor Power Level Reactor. Shutdown 2.'Z9 MWE CCSMWT ~iqh Head S. I. ~Pum s
~
Yes o FZ-924, O O GPM GPM'Z-925 NIS, N-41 9 f5~ N-43 Q8W 1A. InS cry TB NIS N-42~i~ N-44 InServ OOS 1B. STBY 0 "" *"'"'"'g 1C. ZnServ TB OOS
~gg P 1 CHG.(FZ-128) l.
PP "" BAST Level Low Head S. I. ~Pum s S P1. FZ-626 Q GPM psig 1A S/G Level I 1A InServ TB OOS Level 1B S/G 1 1B. ZnServ STBY 0 RVLZS ~ . 1A- S/G Pressure EtL 1" gg RWSTevel = 1B'/G Pressure . I"11- containment ~st~a ~Pum s
*CET FZ-93 1A CO GPM Sump- A Level .2 feet FI-931B Cl GPM Sump B Level inches. 1A. InServ STBY 0 A RCP nnxn Stopped 1B. ZnServ STBY 0 B RCP'. Runnzn Sto ed. NaOH Tank Level.
Containment Isoiation ~Yes o Containment Recirc Fans 1A.. nServ STBY OOS 1B. InServ STBY 0 ELECTRICAL PO R 1C. InServ STBY 0 34e5 KV Bus ner ize Deener ized 1D. e STBY OOS 4 KV'uses' ner xze Deener ized PostAccident ampersO en losed
~siWiIS X7,IS 480 V Buses nor Kate eener ize Service Water Pum s Turbine Generator ner xze Deener zed 1A.. e STBY OOS DIESEL GENERATORS 1B. nSe STBY OOS A. unn n Unloaded STBY OOS lc. nSe STBY OOS B. Runn n Unloaded STBY 0 1D. InServ B OOS TSC Runnin Unloaded Security Runnxn Unloade OOS B OOS A&B Header Pressure 11 ~S'~sig ENGINEERED SAFEGUARDS 1A. nServ STBY OOS Aux. Feedwater Pum s 1B. InServ STBY 0 lA. InServ TB OOS Surge Tank Level =
1B. ZnServ S Y 00 ~standh Aux. Feedwatex ~Pum s Turb. Driven InServ STBY OS 1C. Ine erv TB OOS CST Level 1D. InServ STBY 0
GET = PREDETERHIHED CORE EXIT THERHOCOUPLESJ(AVERAGE)
' ARE4 RAPIRLR9)GAL ANP PETERR~V L DATA T I HE 0500 POINT ID DESCRIPT IOH CUR RE N T VALUE QUALITY CODE ENGR UN I TS R01 AREA 1-CONTROL ROOH 1.0E.1 GOOD HR/H R02 ~
AREA 2 COHTAINHENT 2.5Et1 GOOD HR/H R03 AREA 3 RADIO CNEH LAB 1.9E.1 GOOD HR/N R04 AREA 4 CHARGING PUHP ROOH 1.BE+1 GOOD HR/H R05 AREA 5 SPENT FUEL P/T 5.0EtO GOOD HR/N RO6 AREA 6.HUCLEAR SAHPLE ROON 1.DE+1 GOOD HR/Il R07 AREA 7- INCORE INSTRUHENTAT 10( 3.0Et1 GOOD HR/H ROB ARfA B.DRUHHIHG STATION 3.1EtO GOOD HR/H R09 AREA 9-LETDOMN LINE 5.2E+1 GOOD HR/H R10A CONTAIHHENT IODINE HONITOR R10A 7. 1E+4 HALH CPH R10$ PLANT VENT IOD I NE HONI TOR R10B 8.6E+2 GOOD CPH R11 CONTAINHENT AIR PARTI CULATE 6.4f+5 HALH CPH R12 CONTAINHEHT GAS HOHI TOR 5 'E+5 NALH CPH R13 AUX BLDG EXHAUST AIR PARTICULATE 1.9E+3 GOOD CPH R14 AUX BLDG EXHAUST GAS HONITOR 5.DE+2 GOOD CPH R15 CONDENSER AIR EJECTOR EXHAUST 5.2f g) GOOD CPH R16 CV COOLING HX SERVICE MATER OUT 7.5E+1 GOOD CPH R17 COHPOHENT COOLING PUHP SUCT HDR 9.DE+2 GOOD CPH R18 LIQUID 'MASTE DISPOSAL HONITOR 2.8Et3 GOOD CPH R19 STEAN GENERATOR BLOMDOIIN DRAIN 2.DE+3 GOOD CPH R20 SPENT FUEL PIT HX SERV IIATER OUT 4.DE+3 GOOD CPH R29 AREA 29 COHTAINHEHT HIGH RAHGE B.OE.1 GOOD R/NR R30 AREA 30.COHTAIHHENT NIGH RAHGE P.OE. 1 GOOD R/HR R33 AREA 33-HOT INTERHED IATE BLDG 1.DE+0 GOOD HR/H R34 AREA 34 AUX Bl.DG CV SPRAY PUHP 1 ~ DE+1 GOOD HR/H R35 AREA 35 PASS SAHPLE PAHEL 1-OE 1 GOOD HR/H R36 CONTROL ROOH HOBLE GAS HONITOR 1.7E+0 GOOD CPH iR37 COHTROL ROOH PARTICULATE HONITOR 3.3E+0 GOOD CPH IR38 COHI'ROL ROOM IODINE NOH ITOR 1.2E+0 GOOD CPH HVAC1 COHTROL ROOM CHLORINE ANALYZER 0.0075 GOOD PPH VAC2 CONTROL ROOH AHHONIA ANALYZER 0 '763 GOOD PPH T250 250 FOOT LEVEL TEHPERATURE 73.6 GOOD DEGF T033 33 FOOT LEVEL TEHPERATURE 70.5 GOOD DEGF D250 250 FOOT LEVEL MIHD DIRECTION 350 GOOD DEG. 0033 33 FOOT LEVEL MIND DIRECT IOH 350 GOOD DEG. S250 250 FOOT LEVEL 'MIND SPEED 6.5 GOOD HPH S033 33 FOOT LEVEL MIND SPEED 6.5 GOOD HPN
SPZNG'ONITOR SHEETS Time: 0500 (R-12A) (R-14A) (R-15A) Current R~eadin CHANNEL TYPE UNITS . CONTAINMENT PLANT VENT AIR EJECTOR Part Beta uci STANDBY -7 ~ OOE-04 N/A Part; - Alpha CPM'Ci STANDBY . -1 '0E+01 N/A I-131 STANDBY. +3 '0E-04 N/A Bkg I CPM STANDBY +3.50E+01 N/A Noble Gas-Low uCi/cc STANDBY -3.40E-06 3.70E-06 Area Monitor MR/H 1.00E-01 -5.00E-02 1.00E-03 7 Noble Gas-Mid uCi/cc STANDBY +3.40E-06 -1.50E-06 Gamma Bkg CPM STANDBY -4.20E-02 1.00E+01 Noble Gas-High uCi/cc STANDBY +1.30E-03 -1.50E-03 Part Beta- uCi/cc* STANDBY +2.00E-09 I-133 uCi/cc*'TANDBY +4.20E-10
SPING CONSOLE PLACED ZN tiZNTERPRETED MODE STEAM LINE MONITORS:
(R-31): "A" Steam Line Rad Monitor +1.00E-02 mR/hr (R-32): "B" Steam Line Rad Monitor +1.00E-02 mR/hr
Time: 05:00
'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME AVGE. ST'EV MIN. MAX .I'0 WS'3A 0061 00800 0021 0050 WS 33B 0062 00910 0022 0052 00 WS150A 0040 01000 0022 0060 00 WS150B 0042 01100 0023 0061 02 WS 250 0060 01000 0010 0075 00 NAME WD 33A AVGE 0350 ST. DEV 03000 MIN.
0340 MAX. 0359 MNDR 0072 AVRN 0020 CNT 0064 I 00 WD 33B 0351 03010 0340 0359 0071 0021 0063 00 WD150A 0352 03100 0340 0000 0045 0022 0062 00 WD150B 0352 03000 0339 0001 0035 0023 0060 02 WD 250 0353 03000 0343 0002 0055 '0025 0061 00 NAME ER33A AVGE 0705 I 00 NAME TER33B AVGE 0705 I 00 NAME TE150A AVGE: 0725 I E150B. 0725 00 TE250A- 0736 00 TE250B 0736 DT150A 0020 00 DT150B 0020 00. DT250A 0031 DT250B 0031 DEW 33 0480'059 TEG'3 0602 00 RAIN
~
w'g~ Time: 0515 Message: 30 GINNA STATION 198T EVALUATED EXERCISE MESSAGE FORM Messacee for: Control Room Simulated Plant Conditions: See attached sheets M~essa e: ***THIS IS AN EXERCISE*** Indications in the Control Room: o The Containment Recirculation Fan Cooler condensate collec-tors on fans lA and, 1D are, needing. dumping more often. Alarms, received'n the Control Room: o E.-31 (Containment Recirc. Fran Condensate- Hi-Hi Level) FOR CONTROLLER USE ONLY Controller Notes:
1) The above message indicated- that the "A" S/G weld crack is worsening.

2) The EOF, JENC, and Engineering Support: Center should be nearing operational status.

3) Data sheets reflect continuing Reactor Shutdown.
Actions Exrected:
1987 EVALUATED EXERCISE Time:. ~Z'/5 MAJOR PAEVQKTERS ENGINEERED SAFEGUARDS I Reactor Power Level. /9g MWE 5V3'MWT ~HI h Head S. I. ~Pum s Reactor. Shutdown Yes o FX 924 W GPZ FX-925 O GPM NXS N-41 '~st N-43 39' lA. ZnS cry TB OOS NXS RCS CHG Pressure (FX-128) Pressurizer Level N-42~~ 7 g ~s'F I N-44~<( 'Pe Sl I" 1B. 1C. BAST InServ InServ Level Low Head S. I. STBY
~Pum B
s OOS FI-626 C) GPM I"w lA S/G Level 1B'nServ 1A. TB OOS
CET'F 1B S/G Level ZnServ STBY 0 RVLIS 1A. S/G, Pressure ~ '~1 RWST Level ~
1E S/G'ressure /o psig Containment ~Sierra ~Pum s FI-931A~GPM Sump A., Level 2 0 feet FX-931B & GPM Sump B Level C7 inches 1A. ZnServ STBY 0 A RCP Runnxn Stopped 1B InServ STBY OOS B. RCP'. Runnxn Sto ed Containment Isolation Yes~o Containment Recirc Fans lA. nSe STBY OOS 1B. ZnServ STBY 0 ELECTRICAL POWER 1Ce InS rv STBY 0 34.5 KV Bus ner xze Deener ized 1D. n e STBY OOS 4 KV Buses ner x,ze Deener zed PostAccident, ampersO en lose
)Si)')) )Sj)Ty) 8 Ib 480' Buses Ener zze eener ized Service Water Pum s Turbine Generator e z.ze Deener xze lA. nSe STBY OOS DIESEL GE 1B. nSe STBY OOS A. Runn n Unloaded STBY OOS lc. n e STBY OOS B. Runnzn Unloaded STBY 1D. n erv TB OOS TSC Runn n Unloaded B OOS A&B Header Pressure SS psig Secur ty Runnin Unloaded TB OOS ENGINEERED SAFEGUARDS lA. nSe STBY OOS Aux. Feedwater Pum s 1B. ZnServ STBY 0 1A. InServ STB OOS Surge Tank Level =
1B. InServ STBY 0 ~standh Aux. Feedwatet ~Pum s Turb. Dr ven ZnServ STBY OOS 1C. InServ TB OOS CST Level 1D. ZnServ S BY 0
CET PREDETERMINED CORE EXIT THERHOCOUPLES)(AVERAGE)
AREA RADIOLOGICAL AND METEOR g 'ATA T I HE: 0515 11N T ID DESCR IPT ION CURRENT VALUE 4UALITY CODE EHGR UK I TS 11 AREA 1-CONTROL ROON 1.0E-1 GOOD NR/H I2 AREA 2 CONTAINHENT 2. 5E+1 GOOD HR/H I3 AREA 3-RADIO CHEN LAB ).9E ~ 1 GOOD HR/H 14 AREA 4 CHARGING PUNP ROON 1.BE+) GOOD NR/H 15 AREA 5.SPENT FUEL PIT 5.DE+0 GOOD NR/H i6 AREA 6 NUCLEAR SAHPLE ROON 1.0ft) GOOD NR/H 17 AREA 7-INCORE INSTRUNENTQTIQH 3.2E+3 GOOD HR/H IB AREA B-DRUHHING STATION 3.1E+0 GOOD HR/H l9 AREA 9 LETDONN LINE 5.2fiI GOOD HR/H OA CONTAINNENT IOD INE HONI TOR R10A 7.9f+4 HALN CPN OB PLANT VENT IODINE HONI TOR R10B 1.DE+3 GOOD CPN 1 CONTAIMHEMT AIR PARTI CULATE 6.4E+5 HALH CPH 2 CONTAI NHENT GAS HONI TOR 6.1ft5 HALH CPN 3 AUX BLDG EXHAUS1'IR PARTICULATE 2.3ft3 GOOD CPH 4 AUX BLDG EXHAUST GAS HOHITOR 5.3E+2 GOOD CPH 5 CONDENSER AIR EJECTOR EXHAUST 5.2F+1 GOOD CPH 6 CV COOLING HX SERVICE MATER OUT 7.5E+1 GOOD CPH 7 COMPONENt COOLING PUHP SUCT HDR $ .0E+2 GOOD CPH B LI4UID IIASTE DISPOSAL HONITOR 2.BE+3 GOOD CPH 9 STEAH GENERATOR BLONDOWN DRAIN 2.DE+3 GOOD CPH 0 SPENT FUEL PIT HX SERV MATER OUT ).DE+3 GOOD CPN 9 AREA 29 CONTAINHEKT HIGH )ANGE B.OE.1 GOOD R/HR 0 AREA 30-CONTAINNENT HIGH RANGE 9.0E.1 GOOD R/HR 3 AREA 33-HOT INTERNED IATE BLDG 1.DE+0 GOOD NR/H 4 AREA 34 AUX BLDG CV SPRAY PUMP 1.DE+1 GOOD HR/H 5 AREA '35.PASS SAHPLE PANEL 1.0E-1 GOOD HR/H 6 CONTROL ROON NOBLE GAS HONITOR 1. 7E+0 GOOD CPN 7 CONTROL ROOH PARTICULATE HONITOR 3.3E+0 GOOD CPH B CONTROL ROOH IODINE HOHITOR 1.2ft0 GOOD CPH AC1 CONTROL ROOH CHLORINE ANALYZER 0.0075 GOOD PPH AC2 CONTROL ROON AHHONIA ANALYZER 0.7763 GOOD PPH 250 250 FOOT LEVEL TEMPERATURE 74.7 GOOD DEGF 033 33 FOOT LEVEL TEHPERATURE 71-6 GOOD DEGF 250 250 FOOT LEVEL 'IIIND DIRECTION 15 GOQD DEG. 033 .33 FOOT LEVEL MIND DIRECTION 16 GOOD DEG. 250 250 FOOT LEVEL NIHD SPEED 6~3 GOOD HPH 033 33 FOOT LEVEL 1JIMD SPEED 5.0 GOOD HPH
SPING MONITOR SHEETS Time: 0515 (R-12A) (R-14A) (R-15A) current R~eadin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part Beta uCi 'TANDBY '0E-04 N/A Part: Alpha-CPM'Ci STANDBY -l. 90E+01 N/A I-131 +4.00E+01'/A STANDBY'-7 STANDBY Bkg I. CPM +3.60E+01 N/A Noble Gas-Low ,. uCi/cc. STANDBY -3 . 90E-06 3.70E-06 Area Monitor MR/H 1.00E-01 5.20E-02 1.00E-03 Noble Gas-Mid uCi/cc STANDBY +4.00E-06 -1.50E-06 Gamma Bkg CPM STANDBY -4 . 20E-02 1.00E+01. 9: Noble Gas-High uCi/cc STANDBY +1. 30E-03 -1.50E-03 Part:, . Beta uCi/cc* +2.50E-09 STANDBY.'Ci/cc* 3Y I-13 I STANDBY. +4'.70E-10 SPING CONSOLE PLACED'N itINTERPRETED MODE STEAK LINE MONITORS: (R-31): "A" Steam Line Rad Monitor +1.00E-02 mR/hr (R-32): "B" Steam Line Rad Monitor . +l. OOE-02 mR/hr
Time: 05: 15 SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME WS 3 0042 ST.. DEV 00900 MIN. 0011 MAX. 0050 I 3A'S 00 33B 0043 00910 0012 0052 '00 WS150A 0040 01000 0022 0060 00 WS150B 0042 01100 0023 0061 02 WS 250 0042 01000 0010 0055 00 NAME WD 33A AVGE 0350 ST. DEV 03000 MIN. 0340 MAX. 0000 MNDR 0072 AVRN 0020 CNT I 0064 00 WD 33B 0349 03010 0340 0001 0071 0021 0063 00 WD150A 0350 03100 0341 0000 0045 0022 0062 00 WD150B 0350 03000 0340 0002 0035 0023 0060 02 RAIN'VGE WD 250 0359 03000 I
~
0340 0010 0055 0025 0061 00 AME R33A AVGE 0715 00 NAME TER33B
.AVGE 0715 I NAME AVGE I 00 TE150A 0735 E150B 0735 00 TE250A 0745 00 TE250B 0745 DT150A 0200 00 DT150B 0200 00 DT250A 0030 DT250B 0030 DEW 33 0480 TEG 33 0602 00 0059
Time: 0530 Message: 31 GINNA STATION 1987 EVALUATED EXERCZSE MESSAGE FORM Messacee for: Control Room Simulated Plant Conditions: See attached sheets Messacae: ***THZS ZS AN EXERCZSE*** ALARMS received in Control Room: o D-19 (Pressurizer low pressure SI 1750 psig) o D-21 (Steam Line Loop A Lo-Lo pressure 514 psi) o D-20 (Pressurizer low pressure trip 1873 psi) o D-28 (Containment pressure 4 psi) . Indications, in the Control Room include:; o Containment Isolation is normal o 2 Control Rods indicate, full out, all other Control Rods fully inserted FOR CONTROLLER USE ONLY Controller Notes:,
1) The "A" S/G steam line severs where it exits the S/G.

2) ---Containment spray initiates but there are no pumps avail-able. (1A inoperable due to initial condition, lB inoperable due to Bus 516 outage).

3) There is no 12% Boric Acid injection (MOV-826B inoperable due to initial condition, MOV-826D inoperable due to Bus
$ 16 outage) ..
4) The core returns to power and a large amount of the fuels gap and fuel pellet activity is released.

5) The pressure housings on the Control Rods that are stuck out were the source of the initial condition unidentified RCS leak.

6) Containment Radiation levels increasing rapidly as shown by data sheets.

7) There is no offsite radiation release at this time.
Actions ~Ex ected:
1) Control Room operators take immediate actions in accordance with E-0 ~
1987 EVALUATED EXERCISE Time: 0%30 MAJOR PARAMETERS' ENGINEERED SAFEGUARDS
~
Reactor Power Level 0 MWE O MWT ~Hi h Head S. Z. ~pum s, NIS'-41~ Reactor Shutdown N-42 0 es No N-43 N 44 0'ZS' C7 FZ-924 FZ-925 1B CI V erv GPM GPM' STBY OOS ZnServ STBY OS Rcs pressure I'lop~ps g 1C. n e STBY OOS BAST Level ~ ws- . CHG.(FX-128) O GPM Pressurizer Level Low Head S. Z. ~pum s LTN.(FZ-134) G GPM FZ 626 -~OO GPM
~ <w 1A S/G Level o 1A. Zn e STBY OOS 1B S/G Level 1B. InServ STBY OS RVLZS /ae 1A S/G: Pressure Pressure-I"~r RWST'evel ~
1B S/G, 9 ~II Containment ~sr~a ~pum s
CET FX-93 1A C) GPM Sump A Level 3.S feet FZ-9 3 1B: O GPM Sump B Level, 1A.. ZnServ STBY O A'. RCP B RCP Containment'solation in unnin Stopped Sto ed 1B. . ZnServ STBY
~F OOS ~esto Containment Recirc Fans 1A. nSe STBY OOS 1B. ZnServ STBY 0 ELECTRXCAL'WER 1C. ZnServ STBY OS 34 ' KV Bus er zze Deener ized 1D. nSe STBY OOS 4: KV Buses Ener xze Deener zed PostAcciden amper e Closed 480 V Buses. 'er 15'fjls'Tj/P ize eener Turbine Generator Ener ized eener zze jQ ized Service: Water lA.. nServ s
STBY OOS DIESEL GENERATORS 1B ~ Serv STBY OOS A n Unloaded STBY OOS 1C. Serv STBY OOS B. Runnzn Unloaded STBY TSC Runn n Unloaded Secur ty Runnxn Unloaded OOS B OOS 1D. ASB Header n erv STBY ressure ~ OOS psig ENGINEERED SAFEGUARDS 1A. nSe STBY OOS Aux. Feedwater Pum s 1B. nServ STBY OS lA. InSe STBY OOS Surge Tank Level ~ $2 1B. Xn erv STBY 0 ~Standb Aura Feedw ter ~pum s Turb. Driven ZnServ STBY OS 1C. InServ TB OOS CST Level 1D. InServ S BY 0
CET' PREDETERMINED CORE EXXT THERMOCOUPLES, CS OR f10RE),
AREA RADIOLOGICAL ANII PETEOROLOGlCAL DATA T IME: OINT ID DESCRIPTION CURREIIT VALUE QUALITY CODE EHGR UNITS
\
01 AREA 1.CONTROL ROOH 1.0E-1 GOOD HR/K 02 AREA 2.CONTAINHEKT 8.BE+3 NALH HR/K 03 AREA 3.RADIO CHEH LAB 2 'E.1 GOOD HR/H 04 AREA 4-CHARGING PUHP ROOM 2.5E+2 HALH HR/H 05 AREA 5.SPENT FUEL PIT 9.DE+0 GOOD HR/N 06 AREA 6.NUCLEAR SAHPLE ROOH 1. DE+1 GOOD HR/K 07 AREA 7-IHCORE INSTRUHENTATION 1. 1E+4 HALH HR/H 08 AREA B.DRUHHING STATION 3. 1E+0 GOOD HR/K 09 AREA 9 LETDOWH LINE 6.DE+2 NALH MR/8 10A CONTAINHENT IOD INE HONI TOR R10A 1.DE+6 HALH CPH 108 PLANT VENT IODINE HONI TOR R)08 1.1E+3 GOOD CPH 11 COKTA I NHEHT AIR PARTICULATE 1.DE+6 HALH CPH 12 CONTAINHENT GAS HON I TOR 1.DE+6 HALH CPH 13 AUX BLDG EXHAUST AIR PARTICULATE 3.DE+3 GOOD CPH 14 AUX BLDG EXHAUST GAS HONITOR 5.5E+2 GOOD CPH 15 CONDENSER AlR EJECTOR EXHAUST 5.2E+1 GOOD CPH 16 CV COOLING NX SERVICE WATER OUT 7.5E+1 GOOD CPH 17 COMPONENT COOLING PUHP SUCT HDR 9.DE+2 GOOD CPH
18. LIQUID WASTE DISPOSAL HONITOR 2.&E+3 GOOD CPH 19 STEAH GENERATOR BLO'WDOWN DRAIH 2.DE+3 GOOD CPH 20 SPENT FUEL PIT HX SERV WATER OUT 4.DE+3 GOOD CPH 29 AREA 29.COIITAINHENT HIGH RANGE 9.DE+0 KALH R/NR 30 AREA 30-CONTAINHENT HIGH RANGE 1 ~ DE+1 HALH R/HR 33 AREA 33.NOT INTERMEDIATE BLDG 1.DE+0 GOOD HR/H 34 AREA 34.AUX BLDG CV SPRAY PUHP 1.DE+1 GOOD HR/N 35 AREA 35 PASS SAMPLE PANEL 1.5E.1 GOOD HR/N 36 COKTROL ROOM NOBLE GAS HOKITOR 1.7E+0 GOOD CPH 37 CONTROL ROON PARTICULATE HONITOR 3.3E+0 GOOD CPH 38 CONTROL ROOH IODINE HON ITOR 1.2E+0 GOOD CPH VAC1 CONTROL ROOH CKLORIHE ANALYZER 0.0075 GOOD PPH VAC2 CONTROL ROOH AMMONIA ANALYZER 0.7763 GOOD PPM T250 250 FOOT LEVEL TEHPERATURE 74.0 GOOD'GOOD DEGF T033 33 FOOT LEVEL TEHPERATURE /2. 0 DEGF D250 250 FOOT LEVEL WIND DIRECT ION 21, 'OOD DEG.
D033 33 FOOT LEVEL WIND DIRECTION 22. GOOD I DEG. ( S250 250 FOOT LEVEL WIND SPEED 7.2 GOOD MPH S033 33 FOOT LEVEL WIND SPEED 5.9 GOOD I I MPH t t
SPING'ONITOR SHEETS Time: 0530 (R-12A) (R-14A) (R-15A) Current ~Readin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part >> Beta uCi STANDBY -7.80E-04 N/A Part, - Alpha. CPM'ci STANDBY -2.00E+01 N/A I-131 STANDBY +4.00E-04 N/A Bkg CPM STANDBY +3.60E+01 N/A
-3.90E-06 I'oble Gas-Lov uCi/cc STANDBY 3.70E-06 Area Monitor MR/H 1 ~ OOE-Ol -5.20E-02 1.00E-03 Noble Gas-Mid uCi/cc STANDBY +4.20E-06 -1.60E-06 Gamma Bkg CPM STANDBY. -4.20E-02 1.00E+Ol Noble Gas-High uCi/cc. STANDBY ~ +l. 30E-03 -l. 50E-03 Part Beta uCi/cc+ STANDBY +3.50E-09 I-13 1 uCi/cc+. STANDBY +5.0E-10
SPING'ONSOLE PLACED'N "INTERPRETED MODE."
STEAM LINE MONITORS: (R-31): "A",'team Line Rad Moni.tor +1. OOE-02 mR/hr, (R-32): "B" Steam Line Rad Monitor +l. OOE-02 mR/hr
Time: 05:30
~SILENT 700 COMPUTER METEOROLOGICAL DATA AV77 NAME, WS 33A AVGE 0050 00900 DEV MIN, 0011 MAX.
0060 I00 WS 33B 0050 00910 0012 0052 00 WS150A 0040 01000 0022'023 0060 00 WS150B 0042 01100 0061, 02 WS 250 0063 01000 0010 0070 00 NAME AVGE ST. DEV MIN. MAX. MNDR AVRN CNT I WD 33A 0015 03000 0005 0025 0072 0020 0064 00 WD 33B 0016 03010 0005 0025 0071 0021 0063 00 WD150A 0017 03100 0007 0027 0045 0022 0062 00 WD150B 0018 03000 0008 0028 0035 0023 0060 02 WD 250 0016 03000 0006 0026 0055 0025 0061, 00 AME ER33A 0060'T.I00 AVGE 0716 NAME 3B AVGE'ER3 07 I 00 NAME TE150A AUGE 0736 E150B 0736 00 0747 16'E250A 00 TE250B 0747 DT150A 0020 00. DT150B 0020 00 DT250A 003 3.' , DT250B 0031 DEW 33 0436 TEG'3 0602 00 RAIN
Time: 0531 Message: 31.5 GiNNA STATiON 1987 EVALUATED EXERCiSE MESSAGE for: Control FORM'essacSe Room Simulated Plant Conditions: See attached sheets MessacSe: ***THXS XS AN EEERCXSE*** FOR CONTROLLER USE ONLY Controller Notes:
1) Data sheet indicates core uncovering and core exit thermo-couyles greater than 700 degrees, F.
Actions EXXected:
1987 EVALUATED EXERCISE Time: 05 3I MAJOR PAKQKTERS ENGINEERED SAFEGUARDS Reactor. Power Level O MWE FS MWT ~H1 h Head S:. Z. ~pum s, Reactor Shutdown.. Yes o Fl 92~ RBO GPH FX-925 lO GPM NIS' 41 SA N 43 o 1A. nSe Ct-Cd STBY OOS NZS N-42 N-44 1B. InS rv STBY OS 75o S'CS'ressure ps g 1C. nSe STBY OOS BAST Level CHG. (FI-128) Pressurizer Level Zow Head'. Z. ~Pum s LTN. (FX-134) Containment Pressure GPM psig FZ-626 ~OGPH 1A S/G Level O 1A. nServ STBY OOS 1B S/G Level 1B. ZnServ STBY OS RVLIS 1A. S/G, Pressure w~s RWST Level ~ lB* S/G Pressure OO Psig; Containment'Sr~a ~Pum s
*CET
oF FX-93 1A O GPM Level feet FI-931B A RCP'nnin Sump A Sump B, B'CP'.
Leve1 unnxn inches lA. Stopped. Sto ed 1B. NaOH N GPM. ZnServ STBY 0 ZnServ STBY 00 Tank Level ~ ~Pt. Containment Zsolation (Y¹e/N Containment Recirc Fans lA. nSe STBY OOS 1B. ZnServ STBY ELECTRICAL WER 1C. XnServ STBY 34 ' KV Bus, ner xze Deener ized 1D. n e STBY OOS 4 KV Buses ner xze Deener zed PostAccident amper e Closed, l>)lf)b li) Ipy 480 V Buses Encl kzh ener ized Service Water Pum s Turbine Generator ner ized eener ze lA. nServ STBY OOS DIESEL GENERATORS 1B. nServ STBY OOS A. unn n Unloaded STBY OOS 1C. nSe STBY OOS B. Runnxn Unloaded STBY 00 1D. nSe STBY OOS TSC Runn n Unloaded TB OOS A&B Header ressure 5 psig Security Runnin Unloaded TB OOS ENGINEERED SAFEGUARDS lA, nSe STBY OOS Aux. Feedwater Pum s 1B. ZnServ STBY 00 lA. ZnServ STBY OOS Surge Tank Level ~ S2 1B. ZnServ STBY 00 ~Standh Aux. Feedw ter ~pum s Turb. Dr ven InServ STBY OOS lc InServ TB OOS CST Level 1D. InServ OS +CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES, < OR f10RE)
Time: 0533 Message: 3l. 7 GONNA STATION 1987 EVALUATED EXERCISE MESSAGE: for: Control FORM'essacee Room Simulated Plant Conditions: See attached sheets Messacee: ***THIS IS'N EXERCISE*** FOR CONTROLLER USE ONLY Controller Notes:
1987 EVALUATED EXERCISE Time: 05'3 3 MAJOR PARAGON TERS ENGINEERED SAFEGUARDS Reactor Power Level, Hicih hHeadS. Z. ~pum s Reactor Shutdown Yes o FZ-924 ~sm~GPM FI-925
~
GPM
*'l NIS; -
N-41 S'~ N-43~SR 1A. nSe STBY OOS NZS N-42~~B N-44~&~ 1B. Zn erv STBY 0 ljl I' 1C. nSe STBY OOS
~
Pressurizer Level Los Head S. I. ~pum s LTN. (FI-134) O GPM FI-62 6:~{~GPM Level a> Runnin o e k I Containment. Isolation Ye No Containment Recirc Fans 1A n erv STBY OOS 1B.. Zn erv
'c STBY ELECTRICAL'OWER 1C. InServ STBY 34.5 KV Bus ner ze Deener ized 1D. nSe STBY OOS 4 KV Buses: .
ner xze Deener zed PostAcciden amper e Closed. I~glg]ld']7 l $ 480 V Buses- er ice Deener ized Service. Water Pum s Turbine'enerator Ener ized eener ze nSe STBY OOS DIESEL GENERATORS 1B. InServ STBY Ae n Unloaded STBY OOS 1C. ZnServ STBY 0 B. Runn n Unloaded STBY 1D. nSe STBY OOS TSC Runn n Unloaded OOS AhB Header ressure ~C psig Secur ty Runn n Unloade B OOS erv STBZ OGS
~k ENGINEERED SAFEGUARDS 1A. n Aux. Feedwater Pum s 1B. ZnServ STBY 0 1A. ZnSe STBY OOS g
k k 1B. ZnServ STBY 0 ~Standh Aux. Feedwater ~Pum s Turb. Dr ven ZnServ STBZ OS 1C. ZnServ TB OOS CST Level / ~ ZnServ S Y 0
*CET PREDETERMINED CORE EXIT THERMOCOUPLES, CS OR VORE)
C@ AREA RAD/OLOGICAL AND METEOROLOGICAL DATA T IHE: 0545 POINT ID DESCRIPTIOH CURRENT VALUE QUALITY COPE ENGR UNI TS R01 AREA 1 CONTROL ROOH 1.0E-1 GOOD HR/N R02 AREA 2-CONTAINMENT 1.1E>5 HALH HR/N R03 AREA 3.RADIO CHEN LAB 2.5E-1 GOOD HR/H R04 AREA 4 CHARGING PUHP ROOH 2.5E+2 HALH HR/N R05 AREA 5 SPENT FUEL PIT 9.DE+0 GOOD HR/H R06 AREA 6.NUCLEAR SAHPLE ROOM 1. OE+1 GOOD HR/N R07 AREA 7 INCORE INSTRUHENTATION 1.2Et5 HALH HR/N ROB AREA 8-DRUMMING STAT10N 5.DE+0 GOOD HR/N R09 AREA 9.LETDOUN LINE 6.DE+2 NALH HR/N R10A CONTAINMENT IODINE HONI TOR R10A 1.DE+6 NALH CPH R10B PLANT VENT IOD I NE HOHI TOR R108 1.2E+3 GOOD CPH R11 CONTAINMENT AIR PARTI CULATE 1.DE+6 NALH CPH R12 CONTA INHENT GAS HOHI TOR 1.DE+6 NALH CPH R13 AUX BLDG EXHAUST AIR PART I CULATE 3.2E+3 GOOD CPH R14 AUX BLDG EXHAUST GAS HONI TOR 5.6E+2 GOOD CPH R15 CONDENSER A 1R E JECTOR EXHAUST 5 'E+1 GOOD CPH R16 CV COOLING NX SERVICE IIATER OUT 7.5E+1 GOOD CPH R17 COMPOHENT COOLING PUHP SUCT HDR 9.DE+2 GOOD CPH R18 LIQUID NASTE 0 I SPOSAL HONI TOR 3.2E+3 GOOD CPH R19 STEAH GENERATOR BLOMDOWN DRAIN 2.DE+3 GOOD CPH R20 SPENT FUEL PIT NX SERV HATER OUT 4.DE+3 GOOD CPH R29 AREA 29 CONTAINMEHT HIGH RANGE 1. 1E+2 BALM R/NR R30 AREA 30.CONTA INHENT HIGH RANGE 1. 2E+2 HALM R/NR R33 AREA 33-HOT INTERNED lATE BLDG 1.DE+0 GOOD MR/H R34 AREA 34.AUX BLDG CV SPRAY PUMP 1.DE+1 GOOD HR/N R35 AREA 35-PASS SAHPLE PAHEL 1.6E-1 GOOD MR/H R36 CONTROL ROOM NOBLE GAS HONITOR 1.7E+0 GOOD CPH R37 CONTROL ROOH PARTICULATE HONITOR 3.3E+0 GOOD CPM R38 CONTROL ROOH IODINE MONITOR 1. 2E+0 GOOD CPH HVAC1 CONTROL ROOH CHLORINE ANALYZER 0.0075 GOOD PPM NVAC2 CONTROL ROOM AHHONIA ANALYZER 0.7763 GOOP PPH UT250 250 FOOT LEVEL TEHPERATURE 74.5 GOOD DEGF NT033 33 FOOT LEVEL TEHPERATURE 71. 5 G/OD DEGF ND250 250 FOOT LEVEL 'WIND DIRECT IOH I22. '2 GOOD DEG. WD033 33 FOOT LEVEL WINO DIRECTIOIt GOOD DEG. NS250 250 FOOT LEVEL MIND SPEED '.5 GOOD MPN NS033 33 FOOT LEVEL MIND SPEED 6.0 GOOD HPH 1
SPING MONITOR SHEETS Time: 0545 ( (R-12A) (R-14A) (R-15A) Current ~Readin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part - Beta uCi STANDBY -8.00E-04 N/A Part -- Alpha. CPM STANDBY -2.00E+01 N/A I-131 uCi STANDBY +4 . 50E-04 N/A Bkg I CPM STANDBY +3.60E+Ol N/A Noble Gas-Low uCi/cc STANDBY -5.00E-06 3.70E-06 Area Monitor MR/H 1.00E-01 -5.20E-02 1.00E-03 Noble Gas-Mid uCi/cc STANDBY +5.00E-06 -1.70E-06 Gamma Bkg CPM STANDBY -4.20E-02 1.00E+01 Noble Gas-High uCi/cc STANDBY +1.30E-03 -1.70E-03 Part - Beta uCi/cc*'TANDBY +3.50E-09 I-13 1 uCi/cc* STANDBY +5.10E-10
SPING CONSOLE PLACED IN "INTERPRETED MODE STEAM LINE'ONITORS:
(R-31): "A!" Steam." Line Rad Monitor. +1.00E-02 ,mR/hr (R-32): <<B" Steam Line Rad Monitor +1. OOE-02 mR/hr
Time: 05 45
'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77'AME AVGE 0071 ST. DEV 00900 MIN.
0015 MAX. 0080 I00 WS 33A WS 33B 0062 00910 0012 0072 00 WS150A 0040 01000 0022 0060 00 WS150B 0042 01100 0023 0061 02 WS 250 0070 01000 0010 0085 00 NAME AVGE. ST. DEV MIN. MAX. MNDR AVRN CNT I WD 33A 0020 03000 0010 0030 0072 0020 0064 00 WD 33B 0021 03010 0011 0031 0071 0021 0063 00 WD150A 0020 03100 0010 0030 0045 0022 0062 00 WD150B 0020 03000 0010 0030 0035 0023 0060 02 WD 250 '019 03000 0010 0032 0055 0025 0061 00 NAME AVGE I NAME AVGE I NAME AVGE ER33A 0720 00 TER33B 0720 00 TE150A 0740 150B 0741 00 TE250A 0755 00 TE250B 0750 T150A 0020 00 DT150B 0020 00 DT250A 0035 DT250B 0030, DEW 33 0485 TEG'3 0602 00 RAIN 0060
Time: 0550 Message: 34X GINNA STATION 1987 EVALUATED EXERCISE MESSAGE. FORM ~Massa e for: TSC or EOF Simulated Plant Conditions: Messacee: ***THIS IS AN EXERCISE*** A GENERAL EMERGENCY should be declared in accordance with SC-100, "Ginna Station Event Evaluation and Classification," EAL: Loss of engineered safety features; Inability to Shutdown the reactor which results in core damage with indications of containment. pressure increasing; rapidly and reactor remains at. power after reactor trip initiated, (i.e.. power range indication) or EAL: Containment Systems; failed fuel indicated sampling of containment atmosphere and containment pressure by 30 psig and increasing or Shift Supervisors, opinion containment may be breached. FOR CONTROLLER'SE: ONLY Controller Notes:
1) Deliver. if Do not deliver a GENERAL EMERGENCY has not yet been declared.
if Emergency Classifications discussions are in progress. Actions ~Ex ected:
( Time: 0600 Message: 35 GINNA STATION 1987'VALUATED EXERCISE MESSAGE FORM Nsssacee for: Control Room Simulated Plant Conditions: See attached sheets Nassacae: ***THXS XS AN EXERCISE*** FOR CONTROLLER USE ONLY Controller. Notes: 1). The Plant. is fairly stable from the steam break accident but. containment pressure remains high due to no spray pumps, operable and only two containment fan coolers operating. Actions ~xXected:
1) Operations continues to stabalize plant using Emergency Operating procedures.

2) Dose Assessment projecting doses and making recommendations as needed.
( 1987 EVALUATED EXERCISE Time: OG OO MAJOR PARAMETERS ENGINEERED SAFEGUARDS Reactor, Power Level 0 MWE MWT High Head S.
~V'PM I. ~Pum s Reactor Shutdown es No. Fl 994 GPH NXS'- ~
II FX-925 NZS N-31.~3cloc~s N- 35 I o pg 1A.. ZnServ TB OOS 32.'~z~gg N-'6 s 1B. InServ S Y 0 RCS Pressure OIIII I' 1C. - InServ TB OOS RCS Temperature Vc MO oF BAST'evel ~ WS CHG. (FZ-128) Pressurizer Level LTN.(FI 134) 1A S/G Level 1B S/G Level J2I"I 0 GPM Low Head S. FI-626 1A. C7 I. ZnServ TB
~Pum GPM s
OOS 1B. ZnServ STBY RVLZS lao 1A. S/G Pressure-, 1B S/G Pressure I'II I III RWST Level ~
~sr~a ~Pum 9'ontainment s. *CET.. FZ-93 1A Sump A-Sump- B Level.
Level. O feet nches FI-931B~ C) ZnServ GPM GPM'A. STBY OS A RCP Runn ng to e 1B. InServ STBY B RCP Runnin Sto ed I Containment Zsolation. (FeesNa Containment Recirc Fans, 1A., n e STBY OOS 1B.. ZnServ STBY 0 ELECTRICAL KV Bus. ner POWER'4.5 ze Deener ized 1C'nServ 1D. nServ STBY 0 STBY OOS 4 KV Buses Ener ze Deener ized PostAcciden amper e Closed 480 V Buses
>i've.mnj Xt Engr ize eenerIr ize Service Water Pum s Turbine Generator Ener zed eener x,ze 1A n erv STBY OOS DIESEL GENERATORS 1B In erv STBY OOS A. unn n Unloaded STBY OOS 1C. Se STBY OOS B.
Secur Runn n Unloaded STBY 0 TSC Runn n Unloaded ty Runnin Unloaded T S OOS 1D A&B Com onent nSe Header Pressure STBY OOS lin Water ~Pum psig ~ s ENGINEERED SAFEGUARDS 1A Serv STBY OOS Aux. Feedwater Pum s 1B. InServ STBY 00 1A. nSe STBY OOS . Surge Tank Level ~ S Z. 1B. ZnServ STBY 0 ~Standh Aux. Feedwater ~porn s Turb. Dr ven InServ STBY 00 1C InServ TB OOS CST Level feet 1D. InServ Y OS
*CET, ~ PREDETERMXNED CORE EXIT THERMOCOUPLES, CS OR t10RE)
AREA RADIOLOGICAL AND IIETEOROLOGI GAL DATA TIHE: POINT 10 DESCRIPT TOM CURREHT VAI.UE QUAL I T T CODE ENGR UNITS R01 AREA 1.CONTROL ROOH 1.0E.] GOOD HR/H. R02 AREA 2-CON'IAIHHENT 2.2E+5 BALM MR/H R03 AREA 3-RADIO CHEH LAB 2.5E-1 GOOD HR/H R04 AREA 4 CHARGING PUHP ROOM 2.5E+2 HALH HR/H R05 AREA 5-SPENT FUEL PIT 9.DE+0 GOOD MR/H R06 AREA 6.NUCLEAR SAHPLE ROOH ).2E+I GOOD HR/H R07 AREA 7 IMCORE INSTRUMENTATION 2.6E+5 HALH HR/H ROB AREA B-DRUHHIMG STATION 5.0E+0 GOOD HR/H R09 AREA 9.LETDOHH LIHE 6.0E02 HALH HR/H R10A COHTAIMHEHT IOD I HE HOHI TOP R10h 1.DE+6 HALH CPH R108 PLANT VENT 100 I ME HOHI TOR R108 1.3E+3 GOOD CPM R11 CONTA I NHENT AIR PART I CULATE 1.DE+6 HALH CPH R12 CONTAIHMENT GAS HOHI TOR 1 'E+6 NALH CPH R13 AUX BLDG EXHAUST AIR PARTICULATE 3.4E+3 GOOD CPH R14 AUX BLDG EXHAUST GAS HOH ITOR 5.6E+2 GOOD CPH R15 CONDENSER AIR EJECTOR EXHAUST 5.2E+1 GOOD CPH R16 CV COOLING HX SERVICE MATER OUT 7.5E+1 GOOD CPH R17 COMPONENT COOLING PUMP SUCT HDR 9.DE+2 GOOD CPH R1B L I QUID MASTE 0 I SPOSAL HOHI TOR 3.3E+3 GOOD CPH R19 STEAH GENERATOR BLOIIDONN DRAIH 2.DE+3 GOOD CPH R20 SPENT FUEL PIT HX SERV HATER OUT 4.DE+3 GOOD CPH R29 AREA 29.COHTAINHENT HI.GH RAHGE 2.2E+2 HALH R/HR R30 AREA 30-COHTAINMEHT HIGH RANGE 2.4E+2 HALH R/HR R33 AREA 33 HOT INTERHED IATE BLDG 1.2E+0 GOOD MR/H <34 AREA 34.AUX BLDG CV SPRAT PUHP 1.DE+1 GOOD HR/H <35 AREA 35.PASS SAMPLE PANEL 1.6E-1 GOOD HR/H t36 COHTROL ROOH HOBLE GAS HOHITOR 1.7E+0 GOOD CPH 137 CONTROL ROOH PARTICULATE HOH ITOR 3 ~ 3E+0 GOOD CPH (38 CONTROL ROOH IOD IHE HOH ITOR 1.2E+0 GOOD CPH (VACI CONTROL ROOM CHLORINE AHALYZER 0.0075 GOOD PPM IVAC2 CONTROL ROOH AHHONIA AHALT2ER 0.7763 GOOD PPH IT250 250 FOOT LEVEL TEHPERATURE 75 ' GOOD DEGF IT 033 33 FOOT LEVEL TEHPERATURE 72.3 'GOOD DEGF 10 250 250 FOOT I.EVEL III MD DIRECT IOH 23. I i ~ GOOD DEG. tD033 33 FOOI'EVEL III ND DIRECTION 23. GOOD DEG. IS250 250 FOOT LEVEL MIND SPEED 5 ~ 1 I GOOD I y MPH
/S033 33 FOO'I LEVEL MIND SPEED GOOD MPH I
I I
SPING MONITOR SHEETS Time: 0600 (R-12A) (R-14A) (R-15A) Current ~Readin CHANNEL 4 TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part Beta uCi STANDBY -8.20E-04 N/A Part - Alpha CPM STANDBY -2.10E+01 N/A 3 I-13 1. uCi. STANDBY +5. 50E 04 N/A. Bkg: I CPM STANDBY +3.70E+01 N/A Noble .Gas-Low, uCi/cc STANDBY -6.00E-06 3.70E-06 Area. Monitor MR/H 1.00E-01 -5.20E-02 1.00E-03 Noble Gas-Mid uCi/cc STANDBY +6.00E-06 -1.70E-06 Gamma Bkg CPM STANDBY -4.20E-02 1.00E+01 Noble Gas-High uCi/cc STANDBY +1.30E 03 -1 '5E-03 Part - Beta= uCi/cc* STANDBY +3.70E-09 I-13 1, uCi/cc* STANDBY +5.10E-10
'PING CONSOLE PLACED IN "INTERPRETED MODE STEAM LINE'ONITORS:
(R-31):. "A" Steam. Line Rad, Monitor +1.00E-02 mR/hr (R-32): "B" Steam Line Rad Monitor +1.00E-02 mR/hr
(,i Time: 06:00
'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME WS 33A AVGE 0059 ST. DEV 00700 MIN.
0011 MAX. 0070 I00 WS 33B 0060 00910 0012 0082 00 WS150A 0049 01000 0022 0060 00 WS150B 0044 01100 0023 0061 02 WS 250 0050, 01000 '0010 0055 00 NAME AVGE ST. DEV MIN. MAX. MNDR AVRN
'020 CNT, I WD 33A 0020 03000 0010 0030 0072 0064 00 WD 33B 0021 03010 0011 0031 0071 0021 0063 00 WD150A 0022 03100 0012 0032 0045 0022 0062 00 WD150B 0021 03000 0010 0012 0035 0023 0060 02 WD 250 0023 03000, 0010 0012 0055 0025 0061 00 AME ER33A AVGE 0720 I
00 NAME TER33B AVGE 0720 I00 NAME TE150A AVGE 0745 I, E150B 0745 00 TE250A 0755 00 TE250B 0755 DT150A 0025 00 DT150B 0025 00 DT250A 0035 DT250B 0035 DEW 33 0485 TEG 33'602 00 RAIN 0060
Time: 06l5 Message: GINNA STATION 1987'VALUATED EXERCISE MESSAGE FORM MessacSe for:. Control Room Simulated Plant Conditions: See attached sheets Messacee: ***THIS IS AN EXERCISE*** FOR CONTROLLER USE ONLY Controller Notes: Actions EXXeated:
1987 EVALUATED EXERCISE Time O(i I h MAJOR PAKQKTERS ENGINEERED SAFEGUARDS Reactor: Power Level. h Head S. X. s Reactor Shutdown, es No
~Hi FX 924 FX-925 ~GPH O ~pun GPH NZS N-3L~SC<o CgS N- 35 Ib~k' lA. InServ TB OOS NIS N->>~sag@ N- 36 S. 1B. InServ 0 l2 00 ps g 1C. - ZnServ T OOS 1 1 oF BAST Level ~ sm -0 CHG. (FZ-128) O GPM 1 1 Low Head S. X. ~porn s LTN. (FZ-134) '0 GPM FI 626 GPH psig 1A S/G Level 0 1A. InServ T OOS 1B S/G Level 1B. ZnServ STBY 0 RVLZS Joo 1A S/G'ressure 1B S/G Pressure:
psig. 1 psig Containment ~sr~a ~porn
~P s o oF FI-9 3 1A C) GPM Sump A. Level feet FZ-9 3 1B-- O GPM Sump B Level 0 nches lA. ZnServ STBY 0 A RCP Runn ng/ to e 1B. InServ STBY OOS B; RCP, Runnin to ed NaOH Tank. Level, ~ 3 Containment,. Isolation. ~esto Containment Recirc Fans.
lA. nServ STBY OOS 1B. In erv STBY 0 ELECTRICAL POWER 1C ZnServ STBY S 34.5; KV Bus: ner xze Deener i.zed', 1D ~ nSe STBY OOS 4 KV Buses ner z e Deener ized PostAcciden amper e Closed iS~(9'7/ 480: V Buses net i/e Turbine Generator Ener ized
/4 eener i eener xze e Service Water 1A. nSe Pum s STBY OOS DIESEL GENERATORS lB. nSe STBY OOS A. unn n Unloaded STBY OOS 1C. nSe STBY OOS B.
TSC Runnxn Unloaded STBY Runn n Unloaded Security Runnin Unloa e 0 OOS TB OOS 1D. A&B Com Header onent nSe STBY ressure lin Hater
~
OOS
~porn psig s
ENGINEERED SAFEGUARDS lA. " nServ STBY OOS Aux. Feedwater Pum s 1B. Zn erv STBY 0 1A. nSe STBY OOS Surge Tank Level ~ 1B. InServ STBY 0 ~Standh Aux. Feedwater ~porn s Turb. Dr yen ZnServ STBY S 1C. ZnServ TB OOS CST Level fee 1D. ZnServ STBY 0
CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES, CS OR NORE}
Cy AREA RJP tOLQGI CAL AND HETEOROLOGI GAL DATA T IHE: 0615 POINT ID DESCRIPTION CURRENT VALUE auhLITY coo( ENGR UNI Ts R01 AREA 1 CONTROL ROOH 1.0E-1 GOOD HR/N R02 AREA 2-CONTAINHENT 3.1E+5 HALH HR/H R03 AREA 3-RADIO CHEH LAB 2.5E-1 GOOD HR/N R04 AREA 4 CNARGIHG PUHP RODIN 2.5E+2 HALH HR/H R05 AREA 5-SPENT FUEL PIT 9.DE+0 GOOD HR/H R06 AREA 6.NUCLEAR SAHPLE ROOH 1. 3E+1 GOOD HR/N R07 AREA 7 INCORE IHSTRUHEHTATIOH 3.7E+5 NALH HR/N ROB AREA 8-DRUHHING STAI'IOH 5 'Et0 GOOD HR/N R09 AREA 9.LETDOWN LINE 6.0Et2 HALH HR/N R10A COHTA I NHENT IOD INE HONI TOR g10h I.DE~6 HALH CPH R108 PLANT VENT IODINE HONI TOR R108 1.4E+3 HALH CPH R11 CONTAINHENT AIR PARTICULATE I.DE+6 HALH CPH R12 CONTAINHENT GAS HONI TOR 1.DE+6 HALH CPH R13 AUX BLDG EXHAUST AIR PART I CULATE 3.6E+3 GOOD CPH R14 AUX BLDG EXHAUST GAS HOHITOR 5.7E+2 GOOD CPH R15 CONDENSER AIR EJECTOR EXHAUST 5.2E+1 GOOD CPH R16 CV COOLING HX SERVICE MATER OUT 7.5E+1 GOOD CPH R17 COHPONENT COOLING PUHP SUCT HDR 9.0E+2 GOOD CPH R18 Llaulo WASTE DISPOSAI. HONITOR 4.DE+3 GOOD CPH R19 STEAH GENERATOR BLOWDO'MN DRAIN 2.DE+3 GOOD CPH R20 SPENT FUEL PIT NX SERV WATER OUT 4.DE+3 GOOD CPH R29 AREA 29 CONTAINHENT HI,GH RANGE 3. 1E+2 HALH R/HR R30 AREA 30.CONTAINHENT NIGH RANGE 3.4E+2 NALH R/HR R33 AREA 33 NOT INTERHEDIATE BLDG 1.3E+0 GOOD HR/N R34 AREA 34-AUX BLDG CV SPRAY PUHP 1.DE+1 GOOD HR/8 R35 AREA 35-PASS SAHPLE PANEL 1 ~ 7E. 1 GOOD HR/H R36 CONTROL ROOH NOBLE GAS HONITOR 1. 7E+0 GOOD CPH R37 CONTROL ROOH PARTICULATE HON ITOR 3.3E+0 GOOD CPH R38 CONTROL ROOH IODINE HONITOR 1.2Eto GOOD CPH NVAC1 CONTROL ROOH CHLORINE ANALYZER 0.0075 GOOD PPH HVAC2 CONTROL ROOH AHHONIA ANALYZER 0 '763 GOOD I PPH MT250 250 FOOT LEVEL TEHPERATURE 76 ' GOOD DEGF MT033 33 FOOT LEVEL TEHPERATURE 73.0 )OOD DEGF MD250 250 FOOT LEVEI. MIND DIRECT ION ) 22. I9000 DEG. MD033 33 FOOT LEVEL MIND DIRECT IO( ,21 ~ GOOD DEG. WS250 250 FOOT LEVEL MIND SPEED 5.2- ~ GOOD HPN MS033 33 FOOT LEVEL MIND SPEED GOOD HPN
SPING MONITOR SHEETS'R-12A) Time: 0615 (R-14A) (R-15A) Current Readinc[ CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part - Beta uCi STANDBY -8.40E-04 N/A Part Alpha CPM": STANDBY -2.-10E+01 N/A I-13 1, uC1 STANDBY +5 '0E-04 N/A Bkg I CPK STANDBY +3.70E+Ol N/A-Noble Gas-Lov uCi/cc STANDBY -7'.OOE-06 3.70E-06 Area Monitor MR/H 1.00E-01 -5.20E-02 1.00E-03 7 Noble Gas-Mid uCi/cc STANDBY +7.00E-06 -1 70E-06
~
Gamma Bkg CPM STANDBY -4.20E-02 1.00E+01 Noble Gas-High uCi/cc. STANDBY +1.30E-03 -1.70E-03 Part - Beta. uCi/cc*- STANDBY +4.00E-09 I-13 1 uCi/cc~ STANDBY +5.30E-10
SPING CONSOLE PLACED IN itINTERPRETED- MODE STEAM LINE MONITORS:
(R-31): "A" Steam Line Rad Monitor +1. OOE'-02 mR/hr. (R-32): "B" Steam Line Rad Monitor +1.00E-02 mR/hr
Time: 06: 15 SILENT 700'OMPUTER METEOROLOGICAL DATA AV77'AME AVGE ST. DEV MIN. MAX- I WS 33A 0041, 00900 0011. 0050 00 WS'3B 0042 00910 0012 0052 00 WS150A -0045 01000 0022 0060 00 WS150B- 0043 01100 0023 0061 02 WS 250 0050 01000 0010 0055 00 NAME AVGE ST. DEV MIN. MAX. MNDR AVRN CNT I WD 33A 0022 03000 0012 0032 0072 0020 0064 00 WD 33B 0021 03010 0010 0031 0071 0021 0063 00 WD150A 0020 03100 0010 0030 0045 0022 0062 00 WD150B 0021 03000 0009 '031 0035 0023 0060 02 WD 250 0022 03000 0010 0032 0055 0025 0061 00 NAME ER33A AVGE 0730 I00 NAME TER33B AVGE 0730 I 00 NAME TE150A AVGE 0750 I E150B 0750 00 TE250A 0760 00 TE250B 0760 DT150A 0020 00 DT150B. 0020 00 DT250A 0030 DT250B 0030 DEW 33 0486 TEG 33'602 00 RAIN 0061.
Time: 0630 Message: 37 GINNA STATION l987 EVALUATED.EXERCISE MESSAGE FORM Mes~acee for: Control Room Simulated Plant Conditions: See attached sheets Me~sacee: ***THIS IS AN EXERCISE*** The Station experiences a severe aftershock from the earthquake. Indications in the Control Room include: o RCS pressure rapidly decreasing. o Containment vessel pressure and, radiation. levels start increasing. FOR CONTROLLER USE ONLY Controller Notes: There is no offsite radiation release at this point.
2) The. Control Rod pressure housings that. have been leaking sever causing a LOCA.
Actions EXXected: l) Safety in)ection should be initiated automatically or manually again. ( 2) Operators take actions as described in Emergency Procedures
.E-0 and E-l.
1987 EVALUATED EXERCISE Time: O(p 30 MAJOR PAKQQ TERS ENGINEERED SAFEGUARDS Reactor Power Level Reactor Shutdown-G Yes No= O H~ih Head S. FZ-924 4 4$
l. ~pum s GPM I FZ-925'.o o GPM NZS N-3L~io~r N- 35 1A. Se STBY OOS NZS N 3~ 'Bfa6CgZ N 36 S 1B'. ZnServ STBY 0 RCS'ressure. ps g 1C. nSe STBY OOS y T oF BAST'evel ~.
CHG. (FZ-128) 0 GPM i* 1 Low Head S. I. ~Pum s LTN.(FZ-134) GPM FI-626 Z o GPM psig 1A S/G Level lA. nServ STBY OOS 1B S/G Level 1B. InServ STBY 0 RVLIS 1A S/G: Pressure psig RWST'evel ~ 1B S/G Pressure; psig. Containment ~sr~a ~Pum s
CET 0 oF FI-93 1A, O GPM Sump A. Levei. I feet- FI-931B O GPM Sump B Level. ches 1A. ZnServ STBY A, RCP Running to e 1B. InServ STBY 0 B'CP'. Runnin S o e k.
Containment Isolation IgeesNo. Containment Recirc Fans 1A nServ STBY OOS ELECTRICAL POWER 1B'nServ 1C ZnServ STBY 0 STBY S 34.5 KV Bus ner ze Deener ized 1D. n e STBY 0 S 4 KV'uses' ne xze Deener zed PostAccident amper e Closed. 5>lkdsj >1i V Buses- ne> iRed I4'80 eener ized Service Water Pum s Turbine Generator ze eener xze lA. e STBY OOS ZESEL GENERATORS 1B. e STBY OOS A. unn n Unloaded STBY OOS 1C. Se STBY OOS B. Runnxn Unloaded STBY TSC Runn n Unloaded Secur ty Runnxn Unloaded TB 0 OOS B OOS 1D. A&B Header In erv ressure STBY
~
OOS psxg ENGINEERED SAFEGUARDS 1A. nServ STBY OOS Aux. Feedwater Pum s 1B In erv STBY 0 1A. nSe STBY OOS Surge Tank Level ~ 1B.~ InServ STBY 0 ~standh Aux. Feedwater ~Pum s Turb. Dr ven
~ InServ STBY 0 1C InServ TB OOS CST Level 1D. InServ STBY 0
CET PREDETERMINED CORE EXIT THERMOCOUPLES CS OR t10RE)
hPEQ RhD/OLOGIChL AND llETEOROLOGlCAL DATA T I ME: 0630 POINT ID DESCR IPT I OH CURRENT VALUE QUAL)TY CODE EHGR UHI TS R01 AREA 1 CONTROL ROOM 1.0E-1 GOOD MR/H R02 AREA 2.COHTAINMENT 4.4E06 HALM MR/H R03 AREA 3-RADIO CHEM LAB 3.0E GOOD MR/H R04 AREA 4 CHARGIHG PUMP ROOM 2.5E+2 HALM- MR/H R05 AREA 5.SPENT FUEL PIT 3.5E+1 HALM MR/H R06 AREA 6.NUCLEAR SAMPLE ROOM 5.DE+1 HALM MR/H R07 AREA 7-I.HCORE INSTRUMENTATlOH 5.3E+6 HALM MR/H ROB AREA 8-DRUMMING STATIOH 5.DE+0 GOOD HR/H R09 AREA 9-LETDOWN LINE . 6.DE+2 HALM MR/H R10A COHTAINHENT IODINE MONITOR R10A 1.DE+6 HALM CPM R108 PLANT VEHT IOD I HE NOH I TOR R108 1.7E+3 HALM CPM R11 CONTA I NMEHT A I R PART I CULATE 1.DE+6 HALM CPM R12 CONTAINMENT GAS MONITOR 1.DE+6 HALM CPM R13 AUX BLDG EXHAUST AIR PARTICULATE 4.5E+3 GOOD CPH R14 AUX BLDG EXHAUST GAS MOHITOR 7.DE+2 GOOD CPM R15 COHDENSER AIR EJECTOR EXHAUS'I 5.2E+1 GOOD CPM R16 CV COOLING HX SERVICE IIATER OUT 7.5E+1 GOOD CPM R17 COMPONEHT COOLING PUMP SUCT IIDR ).DE+2 GOOD CPH R18 LIQUID WASTE D ISPOSAI, MONITOR 4.7E+3 GOOD CPM R19 STEAM GENERATOR BLOWDOWN DRAIN 2.DE+3 GOOD CPM R20 SPENT FUEL PIT HX SERV WATER OUT 4.DE+3 GOOD CPM R29 AREA 29.COHTAIHMENT HI.GH RAHGE 4.4E+3 HALM R/HR R30 AREA 30.CONTAINMEKT HIGH RANGE 4;8E+3 HALM R/HR R33 AREA 33.HOT INTERNED IATE BLDG 5.5E+0 GOOD MR/H R34 AREA 34.AUX BLDG CV SPRAY PUMP 1.5E+1 HALM MR/H R35 AREA 35-PASS SAMPLE PANEL 3.5E+0 GOOD MR/H R36 CONTROL ROOM NOBLE GAS MOHITOR 1.7E+0 GOOD CPM R37 CONTROL ROOM PARTICULATE MONITOR 3.3E+0 GOOD CPM R38 COHTROL ROOM IOD IHE MONITOR 1.2E+0 GOOD CPH HVAC1 CONTROL ROOM CHLORINE ANALYZER 0.0075 GOOD PPM HVAC2 CONTROL ROOM AMMONIA ANALYZER D.rr63 GOOD, PPM JT250 250 FOOT LEVEL TEMPER'ATURE 75.0 GOOD DEGF JT033 33 FOOT LEVEL TEMPERATURE 73.0 GOOD DEGF JD250 250 FOOT LEVEL WIND DIRECTIOH 29. GOOD DEG. JD033 33 FOOT LEVEL WIND DIRECTION 30. GOOD DEG ~ JS250 250 FOOT LEVEL WIND SPEED 5.9 GOOD MPN JS033 33 FOOT LEVEL WIND SPEED GOOD MPH
SPING MONITOR SHEETS Time: 0630 (R-12A) (R-14A) (R-15A) Current ~Readin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part - Beta uCi STANDBY -9.20E-04 N/A Part Alpha CPK STANDBY -3.00E+01 N/A', I.-13 1 uCi, STANDBY +9.00E-04 N/A Bkg I CPM STANDBY +3 '0E+Ol N/A Noble Gas-Lov uCi/cc STANDBY -1 OOE-05 3e70E-06 k Area Monitor MR/H 1.00E-01 -5.60E-02 1.00E-03 Noble Gas-Mid uCi/cc STANDBY -1.00E-05 -1.80E-06 8 Gamma Bkg CPM STANDBY -4.90E-02 1.00E+01 Noble Gas-High uCi/cc STANDBY +1.30E-03 -1 '0E-03 Part. Beta. uCi/cc* STANDBY STANDBY'5.00E-09 E-13 1 uCi/cc~ +1.00E-09
'PING CONSOLE'LACED IN nINTERPRETED MODE STEAM LINE MONITORS:
(R-31):. "A!'team Line Rad Monitor +1.00E-02 mR/hr (R-32): "B"'team Line Rad Monitor +1.00E-02 mR/hr
Time: 06:30 SILENT 700r COMPUTER METEOROLOGICAL DATA AV77 NAME AVGE. ST.. DEV MXN. MAX. X WS- 33A 0059 00800 0031 0080 00 WS 33B 0060'050 00910 0042 0082 .00 WS150A 01000, 0022. 0060 00 WS150B 0052 01100 0023 0061 02 WS" 250 0060 01000 0010 0075 00 NAME AUGE ST- DEV MXN. MAX. MNDR AVRN 'CNT I WD 33A 0029 03000 0019 0039 0072 0020 0064 00 WD 33B 0030 03010 0020 0038 0071 0021 0063 00 WD150A 0031 03100 0021 0040 0045 0022 0062 00 WD150B 0030 03000 0020 0040 0035 0023 0060 02 WD 250 0029 03000 0019 0040 0055 0025 0061 00 NAME AVGE I NAME AVGE I NAME AVGE ER33A 0730 00 TER33B 0730 00 TE150A, 0740 150B 07'40 00 TE250A 0750 00 TE250B 0750 T150A 0010 00 DT150B 0010 00 DT250A 0020 DT250B 0022'486 DEW 33 TEG 33 0602 00 BAIN 0062.
Time: 0635 Message: 38 GINNA STATION 1987 EVALUATED EXERCISE'ESSAGE FORM: Mes~acee for: Control Room Simulated Plant Conditions: See attached sheets Mes~acee: **+THIS IS AN EXERCISE*** FOR CONTROLLER USE, ONLY Controller Notes:
1) There is no offsite radiation release at; this point.

2) Containment= pressure- and radiation levels building up.
I
1) Operations continue. with Emergency Procedures to mitigate the. LOCA.
1987 EVALUATED EXERCISE Time: ~G3d MAJOR PAKQKTERS ENGINEERED SAFEGUARDS Reactor Power. Leve1 MWE Q ~Hi h Head S. Z. ~Pum s Shutdown , es No MWT'eactor FI 924 970 GPM FI-925 0 GPM. NIS- N-3l. 3 N-33 ln Jfe $ lA. nServ NIS RCS Pressure N- 3r~dtSSZ N- 36~~adr 0 psxg 1B'nServ 1C nSe STBY OOS STBY 0 STBY OOS t * (FI-128) 0
~yig GPM 1'HG.
Pressurizer Level c Head S I s LTN. (FZ-134) 163w FI-626 ~oo ~ ~Pum GPH Level 1A S/G 1A., Se STBY OOS 1B S/G Level 1B. InServ STBY 0 RVLZS leo 1A S/G Pressure ao I'w RWST'evel ~ 8 ( 1B. S/G Pressure
*CET..
Sump A. Leve1 7 psig oF Containment. ~sr~a FZ 931A feet. FZ-9 3 1B~GPH 0 .GPM
~Pum s Sump B- Level. 0 nches IA. InServ STBY 0 A. RCP Running to e 1B.. InServ STBY 00 B RCP., Runnin to e 1 Containment'solation IgaaNo. Containment Recirc Fans lA nSe STBY OOS 1B. Zn erv STBY 0 ELECTRICAL POWER 1C ZnServ STBY 0
4. KV Buses'e 34 ' KV Bus. ner ze xze 1+QASji7j j Deener Deener I&
ized 1D. ized PostAcciden nServ STBY OOS amper 0 e Closed. 480uses Ener ize eener ized Service Water Pum s Turbine Generator Ener ized Deener xze 1A. nSe STBY OOS DIESEL GENERATORS 1B. e STBY OOS A. unn n Unloaded STBY OOS 1C. InSe STBY OOS B. Runn n Unloaded STBY 0 1D.- nSe STBY OOS TSC Runnxn Unloaded Secur ty Runnxn Unloaded TB T OOS OOS A&B Com Header onent ressure lin ~~psig Water ~Pum s ENGINEERED SAFEGUARDS 1A. nServ STBY OOS Aux. Feedwater Pum s 1B. In erv STBY 00 IA. nServ STBY OOS Surge Tank Level 1B. ZnServ STBY ~Standb Aux. Feedwater ~pum s Turb. Dr ven InServ STBY OOS 1C. ZnServ T OOS CST Level. 1D. InServ Y
*CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES, (5 OR t10RE)
Time: 0640 Message: 39 GXNNA STATION 1987 EVALUATED EXERCXSE MESSAGE FORM' Mes~acSe far: Control. Roam Simulated Plant Conditions: See attached sheets Mes~acee: ***THTS ZS AN EXERCISE*** ( FOR CONTROLLER USE ONLY Controller.'otes:
1) There- is no offsite radiation release- at this point.
Actions; Exsected:.
1) Operations'ontinue with Emerency Procedures; to midigate the LOCA.,
(Q 1987 EVALUATED EXERCISE Time: Ot'0 MAJOR PAKQKTERS ENGINEERED SAFEGUARDS Reactor Power Level Q & H~ih Head S. I. Shutdown. MWE es No MWT'eactor FZ 92-4 ~6! ~Pum GPM s NIS'-3L lO c s N-35 lO al S FZ-925 1A, nSe O GPM STBY OOS NZS' RCS= Pressure
!" i" 3-2~lo o N 36 E's -o s g
1B. 1C. n erv STBY 0 nSe STBY OOS s! BAST Level ~ S"M
~o I.
1'HG.(FZ-128)
~i Pressurizer Level Zow Head S. ~Pum s LTN.(FI-134) FZ-626 GPM Containment Pressure- 7 psig 1A S/G Level 1B S/G Level i 1A. nServ STBY InServ OOS
a. 1B. STBY 0 lop RVLZS 1A S/G'ressure:
1B S/G: Pressure I'i: ii RWST Level. ~
~sr~a ~Pum E2'ontainment s *CET. FI-93 1A C7 GPM Sump A Level feet FX-9 3 1B C) GPM Sump B'evel inches: 1A. ZnServ STBY 0 B: RCP'unnin A RCP Runn ng o to e
e 1B'. k. ZnServ STBY 00 Containment Isolation geQs 'No Containment Recirc Fans 1A. nSe STBY Zn erv STBY o OOS'B.. 34.5 KV'us ELECTRICAL POWER ner zze Deener ized 1C'nServ 1D.. n e STBY o STBY OOS
4. KV Buses - ner x e Deener ized, PostAcciden . amper e Closed:
(egypt>S'g IP 480 V Buses Ener x/e eener ize Service Water Pum s Turhine Generator Ene ized eener x.ze 1A. Se STBY OOS DIESEL GENERATORS 1B. InServ STBY OOS A'. unn n Unloaded STBY OOS 1C' erv STBY OOS B. Runnxn Unloaded STBY 0 1D. n e STBY OOS TSC Runn n Unloaded Security Runnxn Unloade TB 00S TB OOS A&B Header Pressure ii ~~psig ENGINEERED SAFEGUARDS lA. nServ STBY OOS Aux. Feedwater Pum s 1Be Zn erv STBY 0 1A. nSe STBY OOS Surge Tank Level 1B. Zn erv STBY ~Standh Aux. Feedwa er Pum s Turh. Dr ven ZnServ STBY 0 lc Znserv TB QOS CST Level 1D. InServ STBY O
*CET PREDETERMINED CORE EXIT THERMOCOUPLES, (5 OR t10Rf).
( Time e 0645 Message: GINNA STATION 1987 EVALUATED EXERCISE'ESSAGE FORM
~Mensa e foz". Control Room Simulated Plant Conditions: See attached sheets Messacee: ***THIS IS AN EXERCISE***
ALARMS received in Control Room:, o L-10 (Aux. Building sump pump auto start) o L-9 (Aux. Building sump hi level) o Z-9 (Safeguard breaker trip) Indications in Control Room include: o "A" RHR pump breaker indication shows white disagreement (n a light lite o R-13. and. R-14 on. High Alarm. FOR CONTROLLER USE ONLY Controller'otes:
1) If Operators attempt:
start. at. this time., to restart "A" RHR pump, it will not. 2.) If Operators on back. check the of board, both Auxiliary Building. sump pump switches sump pumps indicate they have trip.. If, attempts. are made. to restart them, they will. not start at this. time
3) Plant vent monitors (see attached sheet) indicate rapid increases of radiation levels.

4) A major release to the Environment begins.
Release path: Containment through "B" RHR suction line out the plant vent. Actions Exrected:
1) Efforts should be underway to track the plume, terminate the
- release, and implement/coordinate PARs.
1987 EVALUATED EXERCISE Time: O d VS MAJOR PAEVLMETERS ENGINEERED SAFEGUARDS Reactor Power Level H~ih Head S. I. ~Pum s. Reactor. Shutdown Yes No: FZ-924 FZ-925
~OO GPM:
l ~l oo GPM NZS N-3L gXloC 5 N- 35 IO 1A. nSe STBY OOS NXS N 3rMlk5jSL N 36 1B. - ZnSe STBY 0 RCS Pressure 'X ps g 1C. . nSe STBY OOS. RCS Temperature. Qc.. '3 fb' oF BAST Level WS CHG.(FZ-128) GPM Pressurizer Level
'O 0 Low Head S. I. ~Pum s LTN.(FI-134) GPM FZ-626 C) GPM psig 1A S/G Level 1A. InServ STBY 0 1B S/G Level 1B. ZnServ STBY 00 RVLZS 1A, S/G Pressure. psig RWST Level ~ / psig, Containment ~sr~a ~Pum s oF FZ-9 3 1A 0 GPM A, Level ~E'ump:,
feet; FZ-931B 0 GPM. Sump B Level ches, InServ STBY 0 A RCP Runn ng o e 1B. -- XnServ STBY OS B: RCP. Runnin Sto e NaOH Tank. Level ~ Containment: Isolation (YYe~ /No Containment Recirc Fans. 1A nServ STBY OOS'B InServ STBY ELECTRICAL' 1C. ZnServ STBY 34'.5 KV Bus. ner ze Deener ized'- 1D.. n e STBY OOS EUT Buses, ner xze Deener ized; PostAcciden amper e Closed l3jlgl5jNy j j4 480 V Buses. ner ize eener ize Service Water Pum s Turbine Generator Ener ized eener z.ze 1A. nSe STBY OOS ESEL GENERATORS 1B. nSe STBY OOS A. unn n Unloaded STBY OOS 1C. ZnSe STBY OOS B. Runnzn Unloaded STBY OOS 1D. nSe STBY OOS TSC Secur Runn n ty Unloaded TB 00 Runnin Unloade TB OOS A&B Header Pressure ~> psig ENGINEERED SAFEGUARDS 1A. nServ STBY OOS Aux. Feedwater Pum s 1B. Zn erv STBY OS 1A. nServ STBY OOS Surge Tank Level ~ 1B. ZnServ STBY 0 ~standh Aux. Peedwater ~Pum s Turb. Dr ven InServ STBY OOS 1C ZnServ TB OOS CST Level feet, 1D. ZnServ S Y 0
CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES, CS OR t10RQ
hggh RWD)OLOGlCAL AND NETEOROLOGICAL DATA T I ME: POINT ID DESCRIPT ION CURRENT VALUE QUALITY CODE ENGR UNITS R01 AREA 1-CONTROL ROON 2.0E.1 GOOD MR/N R02 AREA 2.CONTAINHENI'REA 4.4E+6 BALM HR/H R03 3-RADIO CHEM LAB 3.0E,-1 GOOD MR/H R04 AREA 4-CHARGING BINUCLEAR PUMP $ 00$ 6.DE+4 NALH HR/H R05 AREA 5-SPENT FUEL PIT 7.0E+4 HALH MR/N R06 AREA 6 SAHPLE ROOH 5.DE+1 BALM HR/H R07 AREA 7 INCORE INSTRUMEHTAT)OII 5.3E+6 BALM HR/H R08 AREA 8-DRUMMING STAT10H 3.DE+4 HALH MR/N R09 AREA 9-LETDOWN LINE 6.BE+4 BALM MR/H R10A CONTAINMENT IODINE HOH ITOR R 10A 1.0E+6 BALM CPH R108 PLANT VENT IODINE $ 0HITOR 8108 1.DE+6 HALM CPM R11 CONTAINMENT AIR PARTICULATE 1. DE+6 HALM CPM R12 COHTAINMENT GAS MONITOR 1.DE%6 HALM CPH R13 AUX BLDG EXHAUST AIR PARTICULATE 1.0E+6 BALM CPM R14 AUX BLDG EXHAUST GAS HONITOR 1.DE+6 HALM CPM R15 CONDENSER AIR EJECTOR EXHAUST 5.2E+2 GOOD CPM R16 CV COOLING HX SERVICE WATER OUT 7.5E+2 HALM CPH R17 COMPONENT COOLING PUMP SUCT NDR 1.DE+6 BALM CPH R18 LIQUID WASTE D I SPOSA1. HOHI TOR 1.DE+6 HALH CPH R19 STEAH GENERATOR BLOWDOWN DRAIH 5.DE+3 GOOD CPH R20 SPENT FUEL PIT HX SERV WATER OUT 1.DE+6 BALM CPH R29 AREA 29-CONTAINMENT NIGH RANGE 4.4E+3 HALM R/HR R30 AREA 30-COHTAIHMENT HIGH RAHGE 4.BE+3 BALM R/HR R33 AREA 33 NOT INTERMEDIATE BLDG 5.5E+0 NALH MR/N R34 AREA 34-AUX BLDG CV SPRAY PUHP 1.7E+5 HALM MR/H R35 AREA 35.PASS SAHPLE PAHEL 3.5E+0 GOOD MR/H R36 COHTROL ROOM NOBLE GAS MDHITOR 3.DE+2 GOOD CPH R37 COHTROL ROOH PARTICULATE HONITOR 1.0Et3 GOOD CPM R38 CONTROL ROOM IOD INE MONITOR 1.2E+0 GOOD CPM HVAC1 COHTROL ROOM CHLORIHE ANALYZER 0.0075 GOOD PPM NVAC2 CONTROL ROOM AMMOH IA ANALYZER 0.7763 GOOD PPM WT250 250 FOOT LEVEL TEMPERATURE 75.2 GOOD il DEGF WT033 33 FOOT LEVEL TEMPERATURE 73.2 GOOD I DEGF WD250 250 FOOT LEVEL WIND DIRECTION 29." GOOD DEG ~ WD033 33 FOOT LEVEL WIND DIRECT ION 29. GOOD DEG. WS250 250 FOOT LEVEL WIND SPEED 6.0 GOOD MPH WS033 33 FOOT I.EVEL WIND SPEED 6.2 GOOD MPH I I
SPING MONITOR SHEETS Time: 0645 (R-12A) (R-14A) (R-15A) Current ~Readin CHANNEL TYPE ,UNITS CONTAINMENT PLANT VENT AZR EJECTOR Part; Beta uCi STANDBY HIGH FAIL N/A Part Alpha CPM STANDBY HIGH FAIL N/A I-13 1 uCi= STANDBY HIGH FAIL N/A Bkg I, CPM STANDBY +3.47E+01 N/A Noble Gas-Low uCi/cc STANDBY HIGH FAIL 3.70E-06 Area Monitor MR/H +3.00E+02 +3.00E+02 8.00E-02 Noble Gas-Mid uCi/cc STANDBY +l. 10E+Ol -4.00E-06 Gamma Bkg CPM STANDBY +1.00E+03 1.00E+Ol Noble Gas-High uCi/cc STANDBY +1.11E+Ol -1.80E-03 Part. Beta uCi/cc*'TANDBY HIGH FAIL I-131 uCi/cc* STANDBY HIGH FAIL
SPZNG CONSOLE PLACED ZN itZNTERPRETED MODE STEAM LINE MONITORS:
(R-31): "A"" Steam Line Rad. Monitor.. +1.50E+00 mR/hr (R-32): "B" Steam Line Rad Monitor +8.00E-01 mR/hr
~37 Time: 06:45 'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME WS 33A AVGE:
0060 ST, . DEV MIN. 0019 MAX. 0080 I00, 00900'0910 WS 33B 0060 0012 0082 00 WS150A 0048 01000 0022'023 0060 00 WS150B 0047 01100 0061 02 WS 250 0060 01000 0010 0055 00 NAME. WD 33A AVGE 0029 ST. DEV 03000 MIN. 0019 MAX 0040 MNDR 0072 AVRN 0020 CNT 0064 I 00 WD 33B 0029 03010 0020 0040 0071 0021 0063 00 WD150A 0028 03100 0021 0039 0045 0022 0062 00 WD150B 0028 03000 0022 0041 0035 0023 0060 02 WD 250 0029 03000 0020 0042 0055 0025 0061 00 NAME AVGE I NAME AVGE I NAME AVGE. 1, ER33A- 0732'752 00 TER33B 0732 00 TE150A 0752 E150B 00 TE250A 0762 ,00 TE250B 0762 DT150A 0020 00 DT150B 0020 00 DT250A 0030 DT250B'EW 0030 0496 TEG 33 0602" 00 0063 33'AIN
Time: 0700 Message: 41 GINNA STATION 1987 EVALUATED EXERCISE MESSAGE'ORM MessacSe for: Control Room Simulated Plant Conditions: See attached sheets MessacSe: ***THIS IS AN EXERCISE*** ( FOR CONTROLLER USE ONLY Controller- Notes:
1) Release will continue until 0800 hours.
Actions ExXected:
1) Efforts are underway to. track the plume, terminate the release and. implement/coordinate PARs.

2) TSC and Control Room should decide. to close MOV-851A in an attempt to isolate. the leak from containment.
close when they attempt it. It will MOV-851B will not'close because it no electrica'1 has no electrical power (Bus 16 and MCC-1D have power) . All other lines, from containment, in the RHR sub-basement, isolated with containment isola-tion.
19&7 EVALUATED EXERCISE Time: O 7 Oo
~
MAJOR PAEVQKTERS ENGINEERED SAFEGUARDS Reactor Power Level O MWE'- MWT High Head'. I. ~pum s Reactor Shutdown, ~Yss No FI 924 ~OGPN FI-925 Boo GPM NIS N- 3L~C N- 33 ls 1A. nSe NIS. RCS Pressure RCS; Temperature N- 32.'~hL33;~
~Ro N- 36 P
S I 1B. 1C. BAST
'Se Inserv Level ~
STBY OOS STBY 0 STBY OOS CHG'. (FI-128) GPM Pressurizer Level 0 Low Head I s LTN.(FI-134) 'C) GPM v"s FI-626 ~GPH S ~ ~ ~Pum 1A S/G Level 1A. ZnServ STBY 0 1B S/G Level 1B. ZnServ STBY OOS RVLIS 1A S/G Pressure, 0 psig RWST Level ~ 1B S/G Pressure psig Containment ~Sr~a Pum s 3
*CET FI-93 lA O GPM Sump ALevel B'evel feet: PI-93 lB~GPH Sump A.
B RCP'unning RCP'unnin O o to nches e e 1Be NaOH ZnServ STBY InServ STBY 00 Tank Level ~ 0 Containment Isolation ~eNO Containment Recirc Fans 1Ae nSe STBY OOS 1B. InServ STBY 0 4'-. KV'us ELECTRICAL KV Buses- . ner ze POWER'4.5 ner xze Deener ized Deener zed lD'Se 1C.. PostAcciden ZnServ STBY 0 STBY OOS amper e Closed 480, V Buses'n'e l~Z/S//S I / Turbine Generator ner ized l eener/G ized een r e Service Water 1A n e Pum s: STBY OOS DIESEL GENERATORS 1B. Se STBY OOS A., unn n Unloaded STBY OOS 1C. nServ STBY OOS B. Runn n Unloaded STBY 1D. n e STBY OOS TSC Secur Runn n Unloaded T ty Runnin Unloaded OOS TB OOS AZB Header Com anent Pressure ~~psig lin Water ~Pum s ENGINEERED SAFEGUAR S lA. nServ STBY OOS Aux. Feedwater Pum s 1B. InServ STBY 00 1A. InSe STBY OOS Surge Tank Level 1B. In erv STBY 0 ~Standh Aux. Feed ter ~Pum s Turb. Dr ven ZnServ STBY OOS 1C. InServ STB OOS CST Level /7. W feet 1D. ZnServ ST Y 0
*CET' PREDETERMINED CORE EXIT THERMOCOUPLES, CS OR t10RE)
Cy AIIEA 84910LOGI CAL AND METEOROLOGICAL DATA T I ME: 0700 POINT ID DESCRIPT ION CURRENT VALUE QUALITY CODE ENGR UNI TS R01 AREA 1 CONTROL ROOH 2.0E-1 GOOD HR/H R02 AREA 2 CONTAINHEHT 3.BE+6 HALH HR/H R03 AREA 3 RADIO CNEH LAB 3.0' GOOD HR/H R04 AREA 4-CHARGING PUHP ROOM 6.DE+4 HALH HR/M R05 AREA 5-SPENT FUEL PIT 7.0Eif HALH MR/H R06 AREA 6.NUCLEAR SAHPLE ROOM 5.0Ei1 NALH HR/N R07 AREA 7- INCORE INSTRUMENT{TAT)0$ 4.6E+6 HALM HR/H ROB AREA 8-DRUHHING STATION 3.DE+4 NALH MR/H R09 AREA 9-LETDOWN LINE 6.8E+4 NALH HR/H R10A CONTAINHENT IODINE HOKI TOR R10A 1. OE+6 HALH CPH R108 PLANT VENT IOD INE MON I TOR $ 108 1. DE+6 HALH CPH R11 CONTAIKHENT AIR PART I CULATE 1.DE+6 HALH CPH R12 CONTAINHENT GAS HON ITOR 1.DE+6 HALH CPH R13 AUX BLDG EXHAUST AIR PARTICULATE 1.0Ei6 NALH CPH R14 AUX BLDG EXHAUST GAS HOHITOR 1.DE+6 HALH CPH R15 COHDENSER AIR EJECTOR EXHAUST 5.2E+2 GOOD CPH R16 CV COOLING HX SERVICE IIATER OUT 7.5E+2 HALM CPH R17 COHPONENT COOLING PUHP SUCT HDR 1.DE+6 NALH CPH R18 LIQUID WASTE DISPOSAL HONITOR 1.DE+6 HALH CPH R19 STEAH GEHERATOR BLOWDOWN DRAIN 5.DE+3 GOOD CPH R20 SPEHT FUEL PIT HX SERV QATER OUT 1.DE+6 HALM CPM R29 AREA 29-CONTAINHEHT HIGH RANGE 3.BE+3 BALM R/HR R30 AREA 30 CONTAINHENT HIGH RANGE 4.2Et3 HALH R/HR R33 AREA 33 HOT INTERHEDIATE BLDG 5.5E+0-. HALH HR/H R34 AREA '34.AUX BLDG CV SPRAT PUMP 1. 7E+5 HALH HR/H R35 AREA 35 PASS SAHPLE PANEL 3.5E+0 GOOD HR/H R36 CONTROL ROOH NOBLE GAS HONITOR 3.DE+2 GOOD CPM R37 CONTROL ROOH PARTICULATE HON ITOR I.DE+3 GOOD CPM R38 COHTROL ROOM IODINE HONITOR 1.2E+0 GOOD CPM HVAC1 CONTROL ROOH CHLORINE ANALYZER 0.0075 GOOD PPH NVAC2 CONTROL ROOH AHMONIA ANALYZER 0.7763 GOOD PPH WT250 250 FOOT LEVEL TEHPERATURE 76 ' GOOD I DEGF WT033 33 FOOT LEVEL TEHPERATURE 73.3 GOOD i DEGF WD250 250 FOOT LEVEL WIND DIRECT IOH '30., GOOD DEG. WD033 33 FOOT LEVEL WIND DIRECTION '30, ~ , GbOO DEG. WS250 250 FOOT LEVEL WIND SPEED 5.9 GOOD MPH WS033 33 FOOT LEVEL WIND SP ED '.1 GOOD HPH
'R-12A)
SPZNG MONITOR SHEETS Time:. 0700 (R-14A) (R-15A) Current ~Readin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part Beta uCi STANDBY HIGH FAIL N/A Part Alpha CPM'Ci STANDBY HIGH FAIL N/A I-131 STANDBY HIGH FAIL N/A Bkg I CPM STANDBY +3.48E+01 N/A Noble Gas-Low uCi/cc STANDBY HIGH FAIL 3.70E-06 Area Monitor MR/H +3.00E+02 +3.00E+2 8.00E-02 Noble Gas-Mid uCi/cc STANDBY +1.10E+Ol +7.52E-06 Gamma Bkg CPM STANDBY +1.00E+03 1.00E+01 Noble Gas-High uCi/cc STANDBY +1 11E+01
~ -1.41E-03 Part. - Beta uCi/cc* STANDBY.. HIGH FAIL Z-131, uCi/cc* STANDBY HIGH FAIL
SPING CONSOLE PLACED IN irINTERPRETED MODE STEAM LINE MONITORS:
, (R-31):; >>A"'team Line RacL Monitor +1, 50E+00 mR/hr (R-32): "B"'team Line Rad Monitor +8. OOE-Ol mR/hr
Time: 07:00
'SILENT, 700'OMPUTER METEOROLOGICAL DATA AV77'AME AVGE; ST. DEV MXN. MAX. I'0 WS 33A 0061, 00900 0011 0070 WS 33B 0062 00910 0012 0072 00 WS150A 0060 01000 0022 0060 00 WS150B 0052 01100 0023 0061 02 WS 250 0070 01000 0010 0055 00 NAME AVGE ST. DEV , MXN. MAX. MNDR AVRN CNT 1 WD 33A 0029 03000 0020 0040 0072 0020 0064 00 WD 33B 0029 03010 0020 0040 0071 0021 0063 00 WD150A 0028 03100 0021 0040 0045 0022 0062 00 WD150B 0029 03000 0022 0039 0035 0023 0060 02 WD 250 0030 03000 0020 0038 0055 0025 0061 00 NAME AVGE I NAME AVGE I NAME AVGE I ER33A 0733 00 TER33B. 0733 00 TE150A 0753 E150B 0753 00 TE250A 0764 00 TE250B 0764 T150A 0020 00 DT150B- 0020 00 DT250A. 0031 DT250B 0031 DEW.,33 0496 TEG 33 0602. 00 RAIN 0063
Time: 0715 Message: 42 GONNA STATION 1987'VALUATED EXERC1SE MESSAGE FORM Messacee for: Control Room Simulated Plant Conditions: See attached sheets Messacee: ***THIS IS AN EXERCISE*** FOR CONTROLLER USE ONLY Controller Notes:
1) Release will continue until 0800 hours.
Actions Exmected:
1) TSC and OSC should increase efforts to repair and return the "B" Emergency Diesel. Generator to operation so they can close MOV-851B" to terminate the release and start the "B" containment spray pump to reduce containment pressure.

2) Efforts are underway to track the plume, terminate the release and implement/coordinate PARs.
1987 EVALUATED EXERCISE Time: 07/5 MAJOR PARAMETERS ENGINEERED SAFEGUARDS Reactor Power- Level 0 MWE C) MWT ~Hi h Head S, Z. ~Pum s Reactor Shutdown. es No FZ 9-24 ~>O GPM NZS'-31: NXS N->>g~ro Xlo N-35 N 36 wl 0 FI-925 1A. 1B. nSe o XnServ STBY GPM STBY OOS 0 ps g 1C nSe STBY OOS p t oF p Level GPM'PM Low Head Z. s
~GPM See ~Pum 1'ressurizer LTN.(FZ-134) FZ-626 psig 1A S/G Level 1A. InServ STBY 00 1B S/G Level 1B. XnServ STBY S RVLIS 1B I
S/G: psig p gg RWST Level ~ Containment ~sr~a EW
~Pum s Pressure'CET.
oF FI-9 3 1A 6 GPM Sump A Level 7e feet FI-931B O' GPM Sump. B Level nches 1A. InServ STBY 0 A RCP Runn ng to e 1B. ZnS'erv STBY OOS B RCP. Runnin Sto e Containment. Zsolation. 'FeesNo Containmen circ Fans lA nSe STBY OOS 1B ZnServ STBY 00 ELECTRICAL POWER 1C.. InServ STBY 34.5 KV Bus. er ze Deener ized 1D. n e STBY OOS 4 KV'uses . ner ize Deener zed PostAcciden Damper e Closed. lS)l/j/5>I7p If IC 480 V Buses- ner ize Deener ized Service Water Pum s Turbine: Generator Ener ized eener xze 1A Se STBY OOS DIESEL GENERATORS lB. InSe STBY OOS A.. n n Unloaded STBY OOS 1C; , n e STBY OOS B. Runn n Unloaded STBY 1D. n e STBY OOS TSC Runn n Unloaded T OOS A&B Header Pressure WO psig Security Runnxn Unloade TB OOS ENGINEERED SAFEGUARDS lA. nSe STBY OOS Aux. Feedwater Pum s 1B. InServ STBY 1A. ZnServ TB OOS Surge Tank Level mm
$2 1B.~ InServ STBY 0 ~Standh Aux. Feedw er ~Pum s Turb. Dr ven ~ InServ STBY OS 1C ZnServ TB OOS CST Level 1D. InServ S Y 0
CET PREDETERMINED CORE EXIT THERMOCOUPLES, CS OR VORE)
Cy AREh BAD/OLOGICAL QND IIE'fEDROLOGICAL DATA TIME: 0715 POINT ID DESCR IPT IOS CURREHT VALUE QUALITY COD(" EHGR UNITS R01 AREA 1-CONTROL ROOH 2.0E 1 GOOD HR/N R02 AREA 2.CONTA INHEHT 3.3E+6 HAI.H HR/H RQ3 AREA 3 RADIO CHEH LAB 3.0E-1 -GOOD HR/N R04 AREA 4.CHARGING PUHP ROON 6.DE+4 HALH HR/H R05 AREA 5-SPENT FUEL PIT 7.DE+4 HALH HR/H R06 AREA 6-HUCLEAR SAHPLE ROOII 5.OF+1 NALH HR/H R07 AREA 7-INCORE INSTRUHENTATION 3.9E+6 NALH HR/N ROB AREA 8-DRUHHING STATIO) 3.DE+4 HALH HR/H R09 AREA 9.LETDOMN LINE 6.BE+4 HALH HR/N R10A CONTAINHEKT IODINE HOHITOR R10A 1.0E+6 HALH CPH R10B PLANT VENT IODINE HONI /OR R108 1. DE+6 NALH CPH R11 CONTAIHHENT AIR PARTI CULATE 1. DE+6 HALH CPH R12 CON TA I NHENT GAS HONI TOR 1.DE+6 HALH CPH R13 AUX BLDG EXHAUST, AIR PART I CULATE 1.DE+6 NALH CPH R14 AUX BLDG EXHAUST GAS HONITOR 1.DE+6 NALH CPH R15 CONDENSER AIR EJECTOR EXHAUST 5.2E+2 GOOD CPH R16 CV COOLING HX SERVICE MATER OUT 7.2E+2 HALH CPH R17 COHPONENT COOLING PUHP SUCT NDR ).DE+6 HALH CPH R18 LIQUID MASTE DISPOSAL HONITOR 1.DE+6 HALH CPH R19 STEAH GENERATOR BLOMDOMN DRAIN 5.DE+3 GOOD CPH R20 SPENT FUEL PII'X SERV MATER OUT 1.DE+6 HALH CPH R29 AREA 29.COHTAINHENT HIGH RANGE 3.3E+3 NALH R/HR R30 AREA 30-CONTAINHENT HIGH RANGE 3.6E+3 HALH R/HR R33 AREA 33.HOT INTERHED IATE BLDG 5.5E+0 HALH HR/N R34 AREA 34-AUX BLDG CV SPRAY PUHP 1.7E+5 NALH HR/H R35 AREA 35-PASS SAHPLE PAHEL 3. 5E+1 HALH HR/H R36 CONTROL ROOH NOBLE GAS HOH ITOR 3.DE+2 GOOD CPH R37 CONTROL ROOM PARTICULATE HONITOR 1.DE+3 GOOD CPH R38 CONTROL ROOH IODINE HON ITOR 1.2E+0 GOOD CPH HVAC1 CONTROL ROOH C}ILOR lNE ANALYZER 0.0075 GOOD PPH HVAC2 CONTROL ROON AHHOHIA ANALYZER 0.7763 GOOD PPH MT250 250 FOOT LEVEL TEHPERATURE 76 ~ 1 GOOD DEGF MT033 33 FOOT LEVEL TEHPERATURE 73 ' GOOD DEGF MD250 250 FOOT LEVEL MIND DIRECTION. 30 GOOD DEG ~ MD033 33 FOOT LEVEL MIND DIRECTION '9. GOOD DEG. MS250 250 FOOT LEVEL MIND SPEED
'.0 GOOD HPH MS033 33 FOOT LEVEL MIND SPEED 6.0 GOOD HPN
SPZNG. MONITOR SHEETS Time: 0715 ( (R-12A) (R-14A) (R-15A), Current ~Readin CHANNEL TYPE. UNITS CONTAINMENT PLANT VENT AIR EJECTOR Part Beta uCi STANDBY HIGH FAIL N/A Part,. Alpha CPK STANDBY HIGH FAIL N/A I-131 uci: HIGH FAIL N/A STANDBY'TANDBY Bkg I: CPM. +3.48E+01 N/A. Noble Gas-Low uCi/cc STANDBY HIGH FAIL 3.70E-06 Area Monitor MR/H +3.00E+02 +3.00E+02 8.00E-02 Noble Gas-Mid uCi/cc STANDBY +1.10E+01 +7.50E-06 Gamma Bkg CPM STANDBY +1.00E+03 1.00E+Ol Noble Gas-High uCi/cc STANDBY +1.11E+0'1 -1.41E-03 Part. - Beta uCi/cc*'TANDBY HIGH FAIL I-131 uCi/cc* STANDBY HIGH FAIL
SPZNG'ONSOLE'LACED IN "INTERPRETED MODE" STEAM LINE MONITORS':
(R-31):. "A<<" Steam. Line Rad. Monitor +1.50E+00 mR/hr (R-32):, "B" Steam Line Rad Monitor +8.00E-01 mR/hr
( Time: 07: 15
'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME AVGE ST. DEV MIN. MAX. I'0 WS 3 3A': 0051 00900 0011 0057 WS 33B 0052 00910 0012 0059 00 WS150A 0040 01000 0022. 0060 00 WS150B 0042, 01100 0023 0061 02 WS 250 0060 01000 0010 0055 00 NAME WD 33A AVGE 0030 ST. DEV 03000 MIN.
0020 MAX'040 MNDR 0072 AVRN 0020 CNT 0064 I 00 WD 33B 0031 03010 0021 0041 0071 0021 0063 00 WD150A 0029 03100 0022 0042 0045 0022 0062 00 WD150B 0030 03000 0021 0041 0035 0023 0060 02 WD 250 0030 03000 0020 0040 0055 0025 0061 00 NAME ER33A AVGE 0733 I 00 NAME TER33B AVGE 0733 I 00 NAME TE150A AVGE 0754 I 150B 0754 00 TE250A 0763 00 TE250B 0763 T150A 002'1 00 DT150B" 0021 00 DT250A 0033 DT250B 0033 DEW 33 0496: TEG 33 0602 ~ 00 RAIN 0064
Time e 0730 Message: 43 GINNA STATION 1987 EVALUATED EXERCISE MESSAGE'. FORK MessacSe for: Control Room Simulated Plant Conditions: See attached sheets Messacee: ***THIS IS AN EXERCISE*** FOR CONTROLLER USE'NLY Controller; Notes."
1) Release will continue, until 0800 hours.
Actions, Exmected:.
1) Repair on "B"'mergency Diesel, Generator is nearing comple-tion.

2) Plume, tracking, implementing and coordinating PARs and release termination efforts continue.
/ 'igg 1987 EVALUATED EXERCISE Time: ~730 MAJOR PAKQKTERS ENGXNEERED SAFEGUARDS Reactor Power Level. 0' MWT H~ih Head: S. I. ~Pum s Reactor, Shutdown Yes No FI-924 ~PO GPM wl FI-925: op GPM 36~ NIS NIS: RCS CHG. Pressure g i " (FI-128) N N 1'5 3LQ~~CS N 35 32gg~/c g N-i C7 ig I'l GPM 1Ae 1B. 1C. BAST Level ~ Low Head S. nSe ZnServ STBY n e I STBY OOS STBY OOS s 0 LTN. (FI-134)
~
GPN Fl-626 ~GPH ~ ~Pum
/,~g/g Containment Pressure 2W Psig lA S/G Level InServ ~gig 1A. STBY 00 1B S/G Level, 1B. ZnServ STBY OS Isa +CET.'g RVLIS / -
RWST Level. ~ Containment ~Sr~a 2
~Pum s Fl-9 3 1A~GPH Sump A L'evel, feet FX'-931B 0 -
Sump B Level. nches InServ GPM'A. STBY 0 A RCP Runn ng/ o e 1B. Inserv STBY OOS B'CP, Runnin to e NaOH Tank. Level Containment: Isolation ~es No Containment Recirc Fans lA n e STBY OOS 1B. XnServ STBY ELECTRICAZ POWER 1C ZnServ STBY 34.5 KV'us, 4 KV Buses'er ner ze Deener xze Deener
>is f a l7 lp /4 ized ized 1D.
PostAcciden n erv amper STBY OOS e Closed. 480 V'uses- nek Ze eener ize Service Water Pum s Turbine; Generator Ener ized Deener xze 1A . nServ STBY OOS DIESEL GENERATORS 1B nSe STBY OOS A. unn n Unloaded STBY OOS 1C. nSe STBY OOS B. Runnzn Unloaded STBY n erv TSC Secur Runn n Unloaded T ty Runnin Unloade 0 OOS TB OOS 1D. A&B Header ressure ii STBY
~)
OOS psig ENGINEERED SAFEGUARDS 1A. nServ STBY OOS Aux. Feedwater Pum s 1B. ZnServ STBY 0 1A. ZnServ TB OOS Surge Tank Level SX B. ZnServ S Y 00 ~Standb Aux. Feedwater ~Pum s Turb. Dr ven InServ STBY OS 1C. ZnServ OOS CST Level 1D. InServ STBY 00
*CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES, CS OR t10RE)
ARE/ RADIOLOGICAL AMD IIETEOROLOG ICAL DATA T I HE: 0730 POINT ID DESCRIPT I OH CURREHT VALUE QUALITY CODE ENGR UNI TS R01 AREA 1-CONTROL ROOH 2.0E.1 GOOD HR/N R02 AREA 2-CONTAINHEN'I 2.7E+6 HALH HR/N R03 AREA 3-RADIO CHEH LAP 3-OE 1 GOOD HR/H R04 AREA 4.CHARGING PUHP ROOH 6.DE+4 HALH HR/H R05 AREA 5-SPENT FUEL PIT 7.DE+4 NALH HR/N R06 AREA 6-NUCLEAR SAHPLE ROOH 5.DE+1 HALH HR/N R07 AREA 7.INCORE INSTRUHEMTQTlON 3.2E+6 NALH HR/H R08 AREA 8-DRUHHING STATION 3.DE+4 HALH HR/H R09 AREA 9.LETDOWN LINE 6.BE+4 HALH HR/H R10A COHTAIMHENT IODIHE HONI TOR R10A 1.DE+6 HALH CPH R108 PLANT VENT IOD IHE HOHI TOR R108 1.DE+6 HALH CPH R11 COHTA INHENT AIR PART I CULAIE 1.DE+6 HALH CPH R12 CON TA INHEHT GAS HONI TOR 1.DE+6 HALH CPH R13 AUX BLDG EXHAUST AIR PARTICULATE 1.DE+6 NALH CPH R14 AUX BLDG EXHAUST GAS HOHITOR 1.DE+6 HALH CPH R15 CONDENSER AIR EJECTOR EXHAUST 5.3E+2 GOOD CPH R16 CV COOLING HX SERVICE 'WATER OUT 7.3E+2 MALH CPH R17 COHPOHENT COOLING PUHP SUCT NDR 1.DE+6 HALH CPH R18 L I QUID WASTE D I SPOSAL HONI TOR 1.DE+6 HALH CPH R19 STEAH GENERATOR BLOWDOWH DRAIH 5.DE+3 GOOD CPH R20 SPENT FUEL PIT NX SERP WATER OUT 1.DE+6 HALH CPH R29 AREA 29.CONTAINHEMI'IGH RANGE 2.7E+3 NALH R/NR R30 AREA 30.CONTAINHEHT HIGH RANGE 3.2E+3 NALH R/NR R33 AREA 33-NOT INTERHEDIATE BLDG 5.5EtO HALH HR/N R34 AREA 34-AUX BLDG CV SPRAY PUHP 1.7E+5 HALH HR/N R35 AREA 35 PASS SAHPLE PANEL 3.5E+0 GOOD HR/N R36 CONTROL ROOH NOBLE GAS 110NITOR 3.DE+2 GOOD CPH R37 CONTROL ROOH PARTICULATE HOHITOR 1. 1E+3 GOOD CPH R38 CONTROL ROOH IODINE HOHITOR 1.2E+0 'OOD CPH NVAC1 CONTROL ROOH CHLORINE ANALYZER 0.0075 GOOD PPH HVAC2 COHTROL ROOH AHHONIA .ANALYZER 0 '763 GOOD PPH WT250 250 FOOT LEVEL TEHPERATURE 76.2 GOOD DEGF WT033 33 FOOT LEVEL TEHPERATURE 73 ..2 DEGF 4 (OOD> WD250 250 FOOT LEVEL WIND DIRECTION )9 J GOOD DEG. WD033 33 FOOT LEVEL WIND DIRECTION 29." 'GOOD DEG. WS250 250 FOOT LEVEL WIHD SPEED GOOD ~I HPN WS033 33 FOOT LEVEL WIND SPEED 6.1 GOOD ~ ~ HPH
SPING. MONITOR SHEETS Time: 0730 (R-12A) (R-14A) (R-15A) Current ~Readin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AZR EJECTOR Part Beta. uci STANDBY HIGH FAIL N/A Part. -. Alpha. STANDBY HIGH FAIL N/A. CPM'Ci I-13 1, STANDBY'PM; HIGH FAIL N/A Bkg I STANDBY +3.48E+01 N/A Noble Gas-Low uCi/cc STANDBY HIGH FAIL 3.70E-06 Area Monitor MR/H +3.00E+02 +3.00E+02 8.00E-02 Noble Gas-Mid uCi/cc STANDBY +1.10E+01 +7.50E-06 Gamma Bkg CPM STANDBY +1.00E+03 1.00E+01 Noble Gas-High uCi/cc STANDBY +1.11E+01 -1.41E-03 Part, - Beta uCi/cc* STANDBY HIGH FAIL I'-13 I. uCi/cc+ STANDBY HIGH FAIL,
'PING: CONSOLE PLACED- ZN "INTERPRETED MODE"'TEAM'INE MONITORS:
(R-31):. "A" Steam Line- RaC Monitor +1 '0E+00 mR/hr (R-32): "B". Steam Line RacL Monitor. +8.00E-01 mR/hr
Time: 07: 30
'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME WS 33A AVGE 0049 ST'. DEV 00900 MIN.
0011 MAX. 0050 I00 WS 33B 0049 00910 0012 0052 00 WS150A- 0040 01000 0022 0060 00 WS150B 0042 01100 0023 0061 02 WS 250 0050 01000 0010 0055 00 NAME WD 33A AVGE 0029 ST. DEV 03000 MIN. 0019 MAX. 0040 MNDR 0072 AVRN CNT I 0020 0064 00 WD 33B 0028 03010 0018 0040 0071 0021 0063 00 WD150A 0029 03100 0020 0039 0045 0022 0062 00 WD150B 0030 03000 0020 0040 0035 0023 0060 02 WD 250 0031 03000 0020 0040 0055 0025 0061 00 NAME ER33A AVGE I NAME AVGE I NAME AVGE I 0733 00 TER33B 0733 00 TE150A 0753 , E150B 0753 00 TE250A 0765 00 TE250B 0765 DT150A 0020 00 DT150B 0020 00 DT250A 0032. DT250B 0032 DEW 33 0506 TEG 33 0602- 00 RAIN 0064
Time: 0745 Message: 44 GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM MessacSe for: Control Room ~ Simulated Plant Conditions: See attached sheets MessacSe: ***THIS IS AN EXERCISE*** FOR CONTROL'LER USE ONLY Controller Notes:
1) =-
Release- will continue until 0800 hours. Actions ExXect:ed:
1) Repair on "B"'mergency Diesel Generator is almost complet-ed, ~

2) Plume tracking, implementing and coordinating PARs and release termination efforts continue.
1987 EVALUATED EXERCISE Time: 0 7 '/d MAJOR PARAMETERS ENGINEERED SAFEGUARDS Reactor Power Level 0 ll I.
~
MWT ~H1 Head S. ~Pum s Reactor Shutdown Yes No FI 92-4 0 GPM
~g FX-925 oo GPM -lO S I
NIS N 31'-nO 6 3 N 33 z 1A. e STBY OOS NXS N 32-~&Lg&Ss N 3-6~o~ldu 1B, ZnServ STBY 0 1 1C. n e STBY OOS BAST Level ~ $8 t 1-1 1 Los Head I s LTN. (FX-134) FI-626 ~GPM S ~ ~ ~Pum 1A S/G Level o 1A. InServ STBY 1B S/G Level 1B. ZnServ STBY OOS RVLXS 1A S/G'ressure 2.o psig RWST Level ~ 0 1B S/G Pressure ggo g gg Containment ~sr~a ~Pum s .~) *CET: FI-931A 0 GPM Sump A Level feet FX-9 3 1B C) GPM Sump B Level nches 1A. ZnServ STBY 0 A RCP Runn ng to e 1B. ZnServ STBY OOS B RCP. Runnin Sto e Containment Isolatian ~es Na Containment Recirc Fans 1A. nSe STBY OOS 1B. Zn erv STBY ELECTRZ'CAL POWER 1C ZnServ STBY 34.5 KV Bus er ze Deener ized 1D ~ n e STBY OOS 4 KV Buses . Ener x.ze Deener zed PostAcciden Damper e Closed 480 V Buses l5)HlilSj>7> I ner ice I ized eener t'S Service Water Pum s Turbine Generator Ener ized Deener xze 1A Se STBY OOS DIESEL GENERATORS 1B. Se STBY OOS A. unn n Unloaded STBY OOS 1C. nServ STBY OOS B. Runn n Unloaded STBY 1D ~ n e STBY OOS TSC Runn n Unloaded TB 00 A&B Header ressura ~$ 'O sig Security Runnin Unloaded TB OOS ENGINEERED SAFEGUARDS 1A ~ Se STBY OOS Aux. Feedwater Pum s 1B. ZnServ STBY 0 1A. InS cry TB OOS Surge Tank Level 52 1B. ZnServ STBY ~Standn Aux. Feed ter ~Pum s Turb. Dr ven ZnServ STBY OS 1'D. InServ TB OOS CST Level ZnServ S Y 0
*CET ~ PREDETERMINED CORE EXIT THERMOCOUPLESS CS OR VORE)
AREA RADIOLOGICAL AND NETEOROLOG ICAL DATA T I HE: 0/45 POINT ID DESCR I PT I OH CURREHT VALUE QUALITY CODE ENGR UNITS R01 AREA 1 CONTROL ROOM 2.0E 1 GOOD HR/N R02 AREA 2.CONTAINHENT 2.DE+6 HALH HR/H R03 AREA 3.RADIO CNEH LAB 3.0E-1 GOOD HR/H R04 AREA 4-CHARGING PUHP ROOH 6.DE+4 NALH HR/N R05 AREA 5-SPENT FUEL PIT 7.DE+4 HALH HR/H R06 AREA 6 NUCLEAR SAHPLE ROOH 5.DE+1 HALH HR/N R07 AREA 7 INCORE INSTRUHENTATION 2.8Ei6 HALH HR/N ROB AREA 8 ~ DRUHHING STATION 3.DE+4 HALH HR/N R09 AREA 9-LETDOMN LINE 6.8Et4 HALH HR/N R10A COHTAI NHENT IOD INE HOHI TOR R10A 1.DE+6 NALH CPH R10B PLANT VENT IOD I HE HONI TOR R108 1. DE+6 NALH CPH R11 CONTAINHENT AIR PARTICULATE 1. DE+6 HALH CPH R12 COHTA I HHENT GAS NON I TOR 1.DE+6 NALH CPH R13 AUX BLDG EXHAUST AIR PARTICULATE 1.DE+6 NALH CPH R14 AUX BLDG EXHAUST GAS HONITOR 1.DE+6 NALH CPH R15 CONDENSER AIR EJECTOR EXHAUST 5.2E+2 GOOD CPH R16 CV COOLING NX SERVICE MATER OUT 7.5E+2 NALH CPH R17 COHPONENT COOLING PUHP SUCT HDR 1.0E06 HALH CPH R18 LIQUID MASTE DISPOSAL HONITOR 1.DE+6 HALH CPH R19 STEAN GENERATOR BLOMDOMK DRAIN 5.DE+3 GOOD CPH R20 SPENT FUEL PIT HX SERV MATER OUT 1.DE+6 HALH CPH R29 AREA 29 CONTAINHENT NIGH RANGE 2.DE+3 NALH R/NR R30 AREA 30-CONTAINHEHT HIGH RANGE 2.BE+3 NALH R/NR R33 AREA 33 NOT IHTERHEDIATE BLDG 5.5E+0 NALH HR/H R34 AREA 34-AUX BLDG CV SPRAY PUHP 1.7E+5 NALH HR/N R35 AREA 35 PASS SAHPLE PANEL 3.5E+0 GOOD HR/N R36 CONTROL ROOH NOBLE GAS HOHITOR 3.2E+2 GOOD CPH R37 CONTROL ROOH PARTICULATE HONITOR 1.6E+3 GOOD CPH R38 CONTROL ROOH IODINE HONITOR 1 ~ 2E+0 GOOD CPH NVAC1 CONTROL ROOH CHLORINE ANALYZER 0 '075 GOOD PPH NVAC2 CONTROL ROOH AHHONIA ANALYZER 0.7763 GOOD PPH MT250 250 FOOT LEVEL TEHPERATURE 77.2 GOOD ~ DEGF MT033 33 FOOT LEVEL TEMPERATURE 74. 2 GOOD DEGF MD250 250 FOOT LEVEL MIND DIRECTION 30." GOOD DEG. MD033 33 FOOT LEVEL MIHD DIRECTION 29. l GOOD DEG. MS250 250 FOOT LEVEL MIND SPEED 6.0 GOOD HPN MS033 33 rOOT LEVEL MIND SPEED 5.9 ~ GOOD HPN
SPING MONITOR SHEETS , (R-12A) Time: (R-14A) 0745 (R-15A) Current ~Readin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AXR EJECTOR Part Beta uCi STANDBY HIGH FAIL N/A Part Alpha CPM STANDBY HIGH FAIL N/A I 131 uCi STANDBY HIGH PAIL N/A Bkg I CPM STANDBY +3.49E+01 N/A Noble Gas-Low uCi/cc STANDBY HIGH FAIL 3.70E-06 Area'onitor MR/H +3.00E+02 +3.00E+02 8.00E-02 Noble Gas-Mid uCi/cc STANDBY +1.10E+01 +7.50E-06 Gamma Bkg CPM STANDBY 1.00E+03 1.00E+01 ' Noble Gas-High uCi/cc STANDBY +1.10E+01 -1.41E-03 Part Beta uCi/cc* STANDBY HIGH PAIL I-13 1 uCi/cc* STANDBY HIGH FAIL
SPZNG CONSOLE PLACED IN "INTERPRETED MODE"'TEAM ZINE MONITORS:
(R-31): "A" Steam Line. Rad Monitor +1.50E+00 mR/hr (R-32): "B" Steam Line Rad Monitor +8. OOE-01 mR/hr
( Time: 07:45 SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME WS 33A AVGE 0059 ST'EV 00900 MIN. 0022 MAX. 0070 I00 WS 33B 0059 00910 0032 0052 00 WS150A 0056 01000 0022 0060 00 WS150B 0052 01100 0023 0061 02 WS 250 0050 01000 0010 0055 00 NAME AVGE ST. DEV MIN. MAX. MNDR AVRN 'CNT I. WD 33A 0030 03000 0021 0041 0072 0020 0064 00 WD 33B 0031 03010 0020 0041 0071 0021 0063 00 WD150A 0032 03100 0021 0040 0045 0022 0062 00 WD150B 0030 03000 0020 0041 0035 0023 0060 02 WD 250 0029 03000 0020 0040 0055 0025 0061 00 NAME AVGE I NAME AVGE I NAME AVGE I, ER33A 0742. 00 TZR33B 0742 00 TE150A 0753 E150B 0753 00 TE250A 0765 00 TE250B 0765
,;":) DT150A'T250B 0011 00 DT150B 0011 00 DT250A 0033 0033 DEW 33 0506 TEG 33 0602 00 RAIN 0065
Time: 0750 Message: 45X GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM Messacee for: OSC Team repairing 1B Emergency Diesel Generator Simulated Plant Conditions: MessacSe: ***THIS IS AN EXERCISE*~* The 1B Emergency Diesel Generator lube oil pump replacement is complete and Diesel is ready to be lined up for operation. FOR CONTROLLER USE ONLY Controller Notes:
1) Deliver. verbally to OSC team.

2) 1B Diesel Generator- to be tied to Bus 16 just., before 0800 hours.

3) When MOV-851B is closed, the release to the environment is terminated.
Actions ~xXected:
1) Operations to tie 1B Emergency Diesel Generator to 480 volt Bus gl6 energizing both Bus 16 an MCC-1D.

2) Operations to attempt to close MOV-851B. When attempt is made, MOV-851B will go closed.
Time: 0800 Message: 46 GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM Messacee for: Control Room Simulated Plant Conditions: See attached sheets Messacee: *+*THIS IS AN EXERCISE*** FOR CONTROLLER USE ONLY Controller Notes:
1) . TSC and Control Room should talk about starting or not starting the. 1B RHR pump due to the environmental problem in the RHR sub-basement area.
Actions EXXecte6:
1) Operations should start needed equipment when Bus 516 returned to service (i.e. 1B containment spray pump, 1B, 1C containment fan feedwater pump coolers, if needed, 1B SI pump etc.).
if needed, 1B auxiliary
2) Plume tracking, implementing and coordinating PARs contin-ues.
1987 EVALUATED EXERCISE Time: 6 JPOO MAJOR PARluiETERS ENGINEERED SAFEGUARDS Reactor. Power Level. 0 0 MWT ~H1 h. Head S. Z. ~Pum s Reactor Shutdown Yes No FZ-924 ~OO
~P GPM al FZ-925 8oo GPM NZS N-3L+o~ogS'-
6 35 to ~ S lA. nServ STBY OOS N- 32~@~ N- 36 1B., InServ
~l::
NZS S,, TB OOS RCS Pressure II 1C. nSe STBY OOS I"* Level ~
~V BAST SS CHG. (FZ-128) i* I ~w Head S. Z. s LTN.(FI-134) 'I FZ-626 ~GPM ~Pum 1A S/G Level 1A. InServ ST Y 0 1B S/G Level 1B. InServ TB OOS RVLZS lop 1A S/G Pressure P <r RWST Level. ~ 77 1B'/G Pressure. ~S Containment ~sr~a ~Pum s
-;<~,.) *CET' T FZ 93 1A 0 GPM Sump. A'evel feet FZ-931B~GPM -
Sump B Level nches. 1A'. InServ STBY 0 A RCP Running/ o e 1B. InServ T OOS B RCP'. Runnin Sto ed Containment Isolation. es No Containment Recirc Fans 1A Se STBY OOS 1B. InServ OOS ELECTRICAL OWE 1C. InServ TB OOS 34.5 KV'us ner ze Deener ized 1D n e STBY OOS 4 KV Busea: ner ize Deener ized PostAcciden amper e Closed, 480 V Buses'ner Turbine Generator Ene ize Deener ized, Service Water ized eener ze 1A . Se Pum STBY s OOS SEL GENERATORS 1B nSe STBY OOS A. n n Unloaded STBY OOS 1C n erv STBY OOS B. Unloaded STBY OOS 1D.. n e STBY OOS TSC Runnin Unloaded B 00 A&B Header ressure ~SZ> siG Security Runnxn Unloaded TB OOS Com anent Coolin Water ~Pum s ENGINEERED SAFEGUARDS lA. nServ STBY OOS Aux. Feedwater Pum s 1B. InServ TB OOS 1A. InServ T OOS Surge Tank Level 1B.~ InServ T OOS ~Standh Aux. Feedwater ~Pum s Turb. Dr ven
~ InServ STBY OS 1C ZnServ T OOS CST Level fee 1D. InServ STB OOS *CET ~ PREDETERMINED CORE EXIT THERMOCOUPLES, (5 OR f10RE)
Cy
/RED RADfOLOGlCAL AHD IIETEOROLOGICAL DATA T IHE: 0800 POINT ID DESCRIPTION CURRENT VALUE QUALITY CODE ENGR UNITS R01 AREA 1-COHTROL ROOH 2 OE GOOD 1 HR/H R02 AREA 2-COHTAINHEHT 1.5E+6 HALH HR/H R03 AREA 3-RADIO CHEH LAB 3.0E 1 GOOD HR/H R04 AREA 4-CHARGING PUHP ROOH 6.DE+4 HALH HR/H R05 AREA 5.SPENT FUEL PIT 7.DE+4 HALH HR/H R06 AREA 6-HUCLEAR SAHPLE POOH 5.0Et1 HALH HR/H 407 AREA 7-IHCORE INSTRUHEHTATIOll 2.3E+6 HALH HR/H IOB AREA 8-DRUHHIHG STATION 3.DE+4 HALH HR/H
<09 AREA 9 LETDOWN LIHE 6 'E+4 HALH HR/H I IOA COHTAINHENT IODINE HOH ITOR R10A 1.0E+6 HALH CPH IIOB PLANT VENT IODINE HOH ITOR R108 1.DE+6 HALH CPH III COHTAIHHENT AIR PARTICULATE 1.DE+6 HALH CPH 112 CONTAIHHENT GAS HOHITOR 1.DE+6 HALM CPH 113 AUX BLDG EXHAUST AIR PARTICULATE 1.DE+6 HALH CPH <14 AUX BLDG EXHAUST GAS HOHITOR 1.0Et6 HALH CPH f15 CONDENSER AIR EJECTOR EXHAUST 5.2E+2 GOOD CPH i16 CV COOLING HX SERVICE WATER OUT 7.5E+2 HALH CPH i17 COHPOHENT COOLING PUHP SUCT HDR 1.DE+6 HALH CPH <18 LIQUID WASTE DISPOSAL MONITOR 1 AL OE+6 HALH CPH <19 STEAH GENERATOR SLOWDOWN DRAIN 5.DE+3 GOOD CPH f20 SPEHT FUEL PIT HX SERV WATER OUT I.OEi6 HALH CPH t29 AREA 29.COHTAINHENT HIGH RAHGE 1.5E+3 HALH R/HR <30 AREA 30.CONTAINHENT HIGH RAHGE 2.3E+3 HALM R/HR 133 AREA 33-HOT IHTERHEDIATE BLDG 5.5E+0 HALM HR/H 134 AREA 34 AUX BLDG CV SPRAY PUHP 1.7E+5 HALH HR/H <35 AREA 35-PASS SAHPLE PAHEL 3.5E+0 GOOD HR/H <36 CONTROL ROOH NOBLE GAS HOHITOR 3.2E+2 GOOD CPM <37 CONTROL ROOH PARTICULATE HOHITOR 1.6E+3 GOOD CPH [38 CONTROL ROOH IODINE HON ITOR 1.2E+0 GOOD CPH IVAC1 COHTROL ROOH CHLORINE ANALYZER 0.0075 GOOD PPH IVAC2 COHTROL ROON AHHONIA AIIALYZER 0.7763 GOOD PPH IT 250 250 FOOT LEVEL TEHPERATURE 77.3 GOOD DEGF IT033 33 FOOT LEVEL TEHPERATURE 74.3 GOOD DEGF ID250 250 FOOT LEVEL WIND DIRECTION 30.l GOOD DEG. D033 33 FOOT LEVEL WIND DIREC1'IOH 29. I GOOD DEG. is250 250 FOOT LEVEL WIND SPEED 6.1 'GOOD HPH S033 33 FOOT LEVEL WIND SPEED 6.2 GOOD HPN
SPZNG'ONITOR SHEETS
, (R-12A)
Time: (R-14A) 0800 (R-15A) current ~Reauin CHANNEL I TYPE UNITS CONTAINMENT PLANT VENT AZR EJECTOR Part - Beta uCi STANDBY HIGH FAIL N/A Part - Alpha CPM STANDBY HIGH FAIL N/A I-13 1 uCi STANDBY HIGH FAIL N/A Bkg I CPM STANDBY +3 '9E+01 N/A Noble Gas-Low uCi/cc STANDBY HIGH FAIL 3.70E-06 Area Monitor MR/H +3.00E+02 +3.00E+02 8.00E-02 Noble Gas-Mid uCi/cc STANDBY +1.10E+Ol +7.50E-06 Gamma Bkg CPM STANDBY +1.00E+03 1.00E+01 Noble Gas-High uCi/cc STANDBY +1. 10E+0 1 -1 ~ 4 lE-03 Part - Beta, uCi/cc*'TANDBY HIGH FAIL I-13 1 uCi/cc* STANDBY HIGH FAIL SPING CONSOLE PLACED ZN "XNTERPRETED MODE" STEAM LINE MONITORS: (R-3'1): "A" Steam Line* Rad Monitor. +1.50E+00 mR/hr (R-32): "B" Steam Line Rad. Monitor +8. OOE-01 mR/hr
Time: 08:00
'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME WS 33A-AVGE'060 ST. DEV'0900 MIN. MAX.
0080 I00 0011'012 WS 3 3B 0042 00910 0082 00 WS150A 0040 01000 0022 0060 00 WS150B 0042 01100 0023 0061 02 WS 250 0030 01000 0010 0055 00 NAME AVGE ST. DEV MIN. MAX. MNDR AVRN CNT I WD 33A 0029 03000 0020 0039 0072 0020 0064 00 WD 33B 0030 03010 0020 0040 0071 0021 0063 00 WD150A 0031 03100 0020 0040 0045 0022 0062 00 WD150B 0029 03000 0021 0041 0035 0023 0060 02 WD 250 0029 03000 0022 0040 0055 0025 0061 00 NAME ER33A AVGE 0743 00 NAME TER33B AVGE 0743. I00 NAME TE150A AVGE 0753 I y E150B 0753 00 TE250A 0773 00 TE250B. 0773" DT150A'T250B 0010 00. DT150B 0010 00 DT250A 0030 0030 DEW 33 0436 TEG 33. 0602 00 RAIN 0066
Time: 0815 Message: GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM MessacSe for: Control Room Simulated Plant Conditions: See attached sheets Messacee: ***THIS IS AN EXERCISE*** FOR CONTROLLER USE ONLY Controller Notes:
1) - The, release is terminated.
Actions EXXeoted: 1). Plume. tracking, implementing and coordinating PARs contin-ues.
2) Plant continues to recover from the loss of coolant acci-dent.
1987 EVALUATED EXERCISE Time: ~O/8 MAJOR PARAMETERS'NGINEERED SAFEGUARDS 0
~80oI.
Reactor Power Level MWE O MWT ~Hi h Head S. ~pum s Reactor Shutdown Yes No Fl-924 GPH
/I FZ-925 GPM NZS N-3LgY/o ~CS N- 35 0 Ass 1A. nse STBY OOS NXS N-32~i~F N- 36 S 1B. In erv TB OOS RCS Pressure ps g 1C. nSe STBY OOS p f, 7 oF BAST Level ~ 5"S CHG. (FI-128) GPM Pressurizer Level o Low Head S. I. ~Pum s LTN.(FZ-134) '0 GPM FZ-626 Cl GPM Containment Pressure psig lA S/G Level 1A. ZnServ STBY 0 1B S/G Level RVLZS /
lal 1B. ZnServ TB OOS 1A S/G Pressure I psig RWST'evel ~ 7h 1B S/G'ressure: o psig containment ~sr~a ~porn s
*CET' oF FZ-93 1A C) GPM Sump A Level feet FX-931B =
C) GPM Sump B Level 7 nches 1A. ZnServ STBY A RCP Runn zng/ toppe 1B. - nSe STBY OOS B RCP Runn in o ed k Containment: Isolation ~es No Containment Recirc Fans 1A.. Serv STBY OOS lB. nS STBY OOS ELECTRICAL OWER lc erv STBY OOS 34.5 KV Bus- er ze Deener ized 1D. n e STBY OOS 4 KV Buses-. Ener zze Deener zed PostAccident Damper e Closed, 480 V Buses ner ize Deen ed Service Water Pum s Turbine Generator Ener ized eener ize 1A. nServ STBY OOS DIESEL,GENERATORS 1B. nSe STBY OOS A. unn n Unloaded STBY OOS 1C. nSe STBY OOS B. unna Unloaded STBY OOS 1D. n erv STBY OOS TSC Runnzn Unloaded Security Runnin Unloaded OO A&B Header ressure ~ZO psig TB OOS Com onent n Water ~Pum s ENGINEERED SAFEGUARDS lA. nServ S Y OOS Aux. Feedwater Pum s lB. ZnServ TB OOS IA. ZnServ TB OOS Surge Tank Level ~ 1B. InServ TB Aux. Feedw er ~i Turb. Dr ven CST Level OOS InServ STBY fee 0
~Standh 1C.
1D. InServ InServ TBY OOS
~porn OOS s *CET PREDETERMINED CORE EXIT THERMOCOUPLES, (S OR t10Rlg
ARE/ RAD IOI.OGI CAI. AJD IIETEOROLOG ICAL DATA T I ME: 0815 POINT ID DESCRIPTION CURREH7 VALUE QUALITY CODE ENGR UNITS IOI AREA 1.CONTROL ROON 2.0E.1 GOOD HR/H 402 AREA 2-CONTAINHENT 1.5Et6 HALH HR/H <03 AREA 3-RADIO CHEM LAB 3.0E.1 GOOD HR/H <04 AREA 4 CHARGING PUHP ROOM 3.0Et3 NALH MR/N <05 AREA 5-SPENT FUEL PIT 3.5E+3 NALM HR/H <06 AREA 6-NUCLEAR SAMPLE ROOH 5.DE+1 HALH HR/H <07 AREA 7 'NCORE INSTRUMEPTATIOH 2.3E+6 HALH HR/H <08 AREA 8-DRUHHING STATl0$ 2.0Ei3 NALH HR/H (09 AREA 9.LETDOWH LINE 3.8E+3 HALH MR/H I10A CONTAINHENT IOD INE HONI TOR R10A 1.DE+6 NALH CPH IIOB PLANT VENT IOD I HE MONITOR R10B 1.DE+6 HALH CPH I II CONTAINHEHT AIR PARTI CULATE 1.0E+6 NALM CPH (12 CONTA I HHENT GAS HONI TOR 1.DE+6 HALH CPH (13 AUX BLDG EXHAUST AIR PART!CULATE 1.0E+6 HALH CPH t14 AUX BLDG EXHAUST GAS HOHITOR 3.0E+3 NALH CPH II5 COHDENSER AIR EJECTOR EXHAUST 5.2EI2 GOOD CPH ~16 CV COOLING NX SERVICE WATER OUT 2.DE+2 GOOD CPH F17 COHPONENT COOLING PUHP SUCT HDR 1.DE+6 NALH CPH F18 L IGUID WASTE DISPOSAL HON ITOR 1.DE+6 HALH CPH l19 STEAH GENERATOR BLOWDOIIN DRAIN 5.DE+3 GOOD CPH ,'20 SPENT FUEL PIT HX SERV WATER OUT 1.DE+6 NALH CPH I29 AREA 29-CONTAINHENT HIGH RANGE 1.5E+3 HALM R/NR [30 AREA 30-CONTAINMENT HIGH RANGE 2.3E+3 HALM R/NR AREA 33 'OT INTERHEDIATE BLDG 5.5E+0 BALM MR/H ~34 AREA 34-AUX BLDG CV SPRAY PUHP 1.DE+4 BALM MR/H 35 AREA 35.PASS SAHPLE PANEL 3.4E+0 GOOD HR/H 36 CONTROL ROOM NOBLE GAS MONITOR 3.2E+2 GOOD CPH 37 CONTROL ROOH PARTICULATE MONITOR 1.6E+3 GOOD CPH 38 CONTROL ROOH IODINE MONITOR 1.2E+0 GOOD CPH VAC1 CONTROL ROOH CHLORIHE ANALYZER 0.0075 GOOD PPH VAC2 CONTROL ROOM AMMONIA ANALYZER 0.7763 GOOD PPH T250 250 FOOT LEVEL TEHPERATURE 77.4 GOOD DEGF T033 33 F001'EVEL TEHPERATURE 73 ' 'OOD DEGF D250 250 FOOT LEVEL WIND DIRECTION < 30. '- GOOD DEG. 0033 33 FOOT LEVEL WIND DIRECTION I 30., GOOD DEG. S250 250 FOOT LEVEL 'WIND SPEED 6.3- GOOD MPN S033 33 FOOT LEVEL WIND SPEED 6.0 GOOD MPH
~c 7',.
SPING MONITOR SHEETS (R-12A) Time: (R-14A) 0815 (R'-15A) Current ~Readin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EZECTOR Part - Beta uCi STANDBY HIGH FAIL N/A Part. Alpha. STANDBY HIGH FAIL N/A CPM'Ci. I-131 STANDBY HIGH FAIL N/A Bkg I CPM STANDBY +3.48E+01 N/A Noble Gas-Low uCi/cc STANDBY +5.50E-05 3.70E-06 Area Monitor MR/H +5.00E+01 +6.00E+01 1.00E-03 Noble Gas-Mid uCi/cc STANDBY +5.50E-05 +5.0E-06 Gamma Bkg CPM STANDBY +1.00E+02 1.00E+01 Noble Gas-High uCi/cc STANDBY +2.00E-03 -1 '0E-03
,Part - Beta uCi/cc* STANDBY HIGH FAIL I-13 l. uCi/cc+ STANDBY HIGH FAZZ,
SPZNG CONSOLE PLACED IN >>INTERPRETED MODE>>
STEAM'INE MONITORS: (R-31):. >>A>>'team L'ine Rad Monitor: +1. 00E-02 mR/hr. (R-32): >>B>> Steam L'ine Rad Monitor +1.00E-02 mR/hr
Time: 08:15 SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME WS 33A AVGE'051 ST. DEV 00900 MIN. 0011 MAX. 0059 I 00 WS 33B- 0042 00910 0012 0052 00 WS150A 0040 01000 0022 0060 00 WS150B 0042 01100 0023 0061 02 WS 250 0050 01000 0010 0055 00 NAME WD 33A AVGE 0030 ST. DEV 03000 MIN. 0020 MAX. 0041 MNDR 0072 AVRN 0020 CNT 0064 I 00 WD 33B 0030 03010 0021 0042 0071 0021 0063 00 WD150A 0030 03100 0022 0043 0045 0022 0062 00 WD150B 0029 03000 0020 0041 0035 0023 0060 02 WD 250 0028 03000 0021 0040 0055 0025 0061 00 NAME ER33A AVGE 0736 I NAME AVGE I NAME AVGE I 00 TER33B 0736 00 TE150A 0756 E150B 0756 00 TE250A 0774 00 TE250B 0774 .~@@)'T150A 0020 00 DT150B 0020 00 DT250A 0038 DT250B 0038 DEW 33 0506'066 TEG 33 0602 00 RAIN
Time e 0830 Message: 48 GINNA STATION 1987 EVALUATED EXERCISE MESSAGE FORM-:"," MessacSe for: Control Room Simulated Plant Conditions: See attached sheets M~essa e: ***THIS IS AN EXERCISE*** FOR CONTROLLER USE ONLY Controller Notes: 1),---The release, is terminated. Actions Exrected:
1) Plume tracking, implementing and coordinating- PARs contin-.
ues.
2) Plant continues to recover from the loss of coolant acci-dent.
1987 EVALUATED EXERCISE Time: ~OQ O MAZOR PARAMETERS ENGINEERED SAFEGUARDS Reactor Power Level 0 MWE n MWT High Head. S. I. s Reactor. Shutdown es No P1 924 FX.-925
~fGPH o ~Pum GPM N- 31'(/o~S NIS'-32gg~~
NXS RCS Pressure N- 35 N- 36 S's 1A. 1B ~ 1C. Se nSe nSe STBY OOS STBY OOS STBY OOS t Level ~ g'F
'2 p BAST $$
CHG. (FZ-128) O Pressurizer Level O GPM'PM Low Head S. I. s LTN.(FI-134) Containment Pressure 52psig
/0 FZ-626 O ~Pum GPM 1A S/G Level 1A InServ ST Y RVLIS / I 1 1B. InServ TB OOS 1A. S/G Pressure. iW RWST Level ~
1B S/G. Pressure. 0 psi,g. ps>~ra ~pum s k: C7'ontainment
CET oF FI-9 3 lA G GPM Sump A'. Level. feet:
RCP'unn FX-931B O
'K I GPM Sump B Level / nches 1A. 'ZnServ STBY A. ng to e 1B. nSe STBY OOS B, RCP'. Runnin to e Containment Isolation (YYes No Recirc Fans ~l'ontainment lA. Se STBY OOS 1B'. Se STBY OOS 34.5 KV'Bus:
4 KV* Buses: 'er ELECTRICAL POWER ner xze xze Deener ized Deener zed 1C 1D, nSe nSe PostAccident Damper STBY STBY OOS OOS e Closed 480 V'uses'er Turbine Generator Ener ize Deener ized eener ze Service Water Pum s 1A. nSe STBY OOS DIESEL GENERATORS 1B. e STBY OOS A.. unn n Unloaded STBY 1C. e STBY OOS
~sig OOS'.
n n Unloaded STBY OOS 1D. nSe STBY OOS TSC Runn n Unloaded T OOS AAB Header Pressure Secur ty Runnxn Unloaded OOS ENGINEERED SAFEGUARDS 1A.. nServ S Y OOS Aux. Feedwater Pum s 1B. InServ TB OOS 1A. XnServ TB OOS Surge Tank Level ~ 5 2-1B. ZnServ TB OOS ~Standh Aux. Peedwater ~Pum s Turb. Dr ven ZnServ STBY OOS 1C. ZnServ TB OOS CST Level 1D, ZnServ OOS
CET ~ PREDETERMINED CORE EXIT THEEKOCOUPLES, CS OR t1ORE)
F AREA RADIOLOGICAL AND IIETEOROLOGI GAL DATA T I ME: 0830 POINT ID DESCRIPTION CURRENT VALUE QUALITY CODE ENGR UNITS RO'I AREA 1 CONTROL ROOM 2.0E.1 GOOD MR/N ,R02 AREA 2-CONTAINMENT 1.5E+6 HALH HR/H R03 AREA 3-RADIO CHEM LAB 3.0' GOOD HR/H R04 AREA 4.CHARGING PUHP ROOlj P.OE+'I GOOD MR/N R05 AREA 5-SPENT FUEL PIT 7. 5E+1 HALH HR/N R06 AREA 6-HUCLEAR SAMPLE ROOH 5.0Ei1 HALH HR/N R07 AREA 7-IHCORE INSTRUMEHThT)0$ 2.3E+6 BALM MR/N ROB AREA 8 DRUHHING STAI'IOH 4.5Ei.1 HALH MR/H R09 AREA 9.LETDOWN LINE 1 AL OE+2 GOOD HR/H R10A CONTAI NHENT IODINE MOHI TOR R10A 1.0Et6 HALH CPH R108 PLANT VENT I OD I NE HOHI TOR R108 1.0Et6 HALH CPH R11 COHTAIHHENT AI R PARTICULATE 1.DE+6 NALH CPM R12 COHTAINHENT GAS HOHI TOR 1.DE+6 BALM CPH R13 AUX BLDG EXHAUST AIR PART I CULATE 1.DE+6 .HALH CPH R14 AUX BLDG EXHAUST GAS HOHITOR 2.6E+3 HALH CPM R15 COHDEHSER AIR EJECTOR EXHAUST 5.2Et2 GOOD CPM R16 CV COOLING HX SERVICE IIATER OUT 2.DE+2 GOOD CPH R17 COMPOHEHT COOLING PUHP SUCT HDR 1.DE+6 BALM CPM R18 LIQUID IIASTE DISPOSAL MONITOR 5.DE+5 HALH CPM R19 STEAM GENERATOR BLOWDOIIH DRAIN 5.DE+3 GOOD CPH R20 SPEHT FUEL PIT NX SERV WATER OUT 1.DE+6 HALH CPM R29 AREA 29-CONTAINMEHT HIGH RAHGE 1.5E+3 BALM R/NR R30 AREA 30-CONTAIHMEHT HIGH RANGE 2.2E+3 HALM R/NR R33 AREA 33 NOT INTERHEDIATE BLDG 4.DE+1 GOOD MR/N R34 AREA 34.AUX BLDG CV SPRAY PUHP 2.5E+2 BALM DEGAS MR/N R35 AREA 35-PASS SAMPLE PANEL 3.DE+0 GOOD HR/N R36 CONTROL ROOM NOBLE GAS MONITOR 3.2E+2 GOOD CPM R37 CONTROL ROOH PARTICULATE MONITOR 1.6E43 GOOD CPM R38 CONTROL ROOH IODINE HOHITOR 1.2E+0 GOOD CPM HVAC1 CONTROL ROOH CHLORIHE AKALYZER 0.0075 GOOD PPM HVAC2 CONTROL ROOH AMHONIA ANALYZER 0.7763 GOOD PPM WT250 250 FOOT LEVEL TEMPERATURE 77.8 GOOD DEGF WT033 33 FOOT LEVEL TEHPERATURE 74.9 GOOD DEGF WD250 250 FOOT LEVEL WIND DIRECTIOH 32. GOOD WD033 33 FOOT LEVEL WIND DIRECTION 31.. GOOD DEG. WS250 250 FOOT LEVEL WIHD SPEED 6~2 GOOD MPN WS033 33 FOOT LEVEL WIND SPEED 6.1 GOOD MPH
A7A SPING MONITOR SHEETS Time: 0830 (R-12A) (R-14A) (R-15A) Current ~Readin CHANNEL TYPE UNITS CONTAINMENT PLANT VENT AIR EZECTOR Part Beta uCi STANDBY HIGH FAIL N/A Part Alpha. CPM STANDBY HIGH FAIL N/A I-131 uCi STANDBY'PM HIGH FAIL'/A Bkg I STANDBY +3 ~ 48E+01 N/A, Noble Gas-Low uCi/cc STANDBY +5.10E-05 3.70E-06 6 Area Monitor MR/H +4.00E+Ol +5.00E+01 1.00E-03 Noble Gas-Mid uCi/cc STANDBY +5.10E-05 -7.52E-06 Gamma Bkg CPM STANDBY +1.00E+02 1.00E+01 Noble Gas-High uCi/cc STANDBY +2. OOE-03 -l. 41E-03 Part Beta: uCi/cc* STANDBY HIGH FAIT I'-13 1 uCi/cc*'TANDBY HIGH FAIL
SPING'ONSOLE PLACED IN "INTERPRETED MODEn'TEAM LINE MONITORS (R<<31): "A"'team Line. Rad Monitor +1.00E'-02 mR/hr.
(R-32) "B" Steam Line Rad Monitor +1.00E-02 mR/hr
Time: 08: 30
'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME'S AVGE ST. DEV MIN. MAX. .I 33A 0051 00900 0011 0059, 00 WS 33B 0052, 00910 0012 0059 00 WS150A, 0040 01000 0022 0060 00 WS150B 0042 01100 0023 0061 02 WS 250 0060 01000 0010 0067 00 NAME AVGE ST ~ DEV MIN. MAX. MNDR AVRN I WD 33A 0031 03000 0020 0040 0072 0020 0064 00 ND 0032 03010 0020 0040 0071 0021 0063 00 33B'D150A 0031 03100 0020 0040 0045 0022 0062 00 WD150B 0031 03000 0020 0040 0035 0023 0060 02 WD NAME 250 ER33A E150B 0031 AVGE 0749.
0769 03000 I 00 00'0 NAME TER33B TE250A 0020 AVGE 0749 0779 0041 00'NT 0055 I 00 00 NAME 0025 TE150A TE250B, 0061 AVGE 0769 0779 00 I DT150A. 0020 DT150B 0020 00 DT250A 0030 DT250B 0030 DEW 33 0506~ TEG'3 0602 RAIN 0067
Time: 0845 Message: 49 GINNA STATION 1987 EVALUATED EXERCISE MESSAGE PORN MessacSe for: Control Room Simulated Plant Conditions: See attached sheets MessacSe: ***TRIS IS AN EXERCISEe** FOR CONTROLLER USE'NLY Controller Notes:
1) TSC and'SC should. evaluate an attempt to start "A" RHR pump again. as it. is. the only pump available for. the recirculation mode .

2) If and when the TSC decides
.pump- starts ancL runs ok..
to try the "A." RHR pump, the Actions ~xXected:
1) TSC have Control Room attempt. to start "A" RHR pump.

2) Plume tracking, implementing and coordinating PARs contin-ues.

3) Plant continues to recover from loss of coolant accident.
"I 4 1987 EVALUATED EXERCISE Time: ~~cg~ MAJOR PARING'TERS ENGINEERED SAFEGUARDS Reactor. Power Level. O D Hicih Head S'. I. s Reactor Shutdown MWE es No MWT FI-924 FZ-925
~~'PM70 ~Pum ~
NXS' 3l,~o~os N- 33 s. nServ GPM'A. STBY OOS NZS N-3r~r~o'ees N-36 - <<p3 1B. e STBY OOS RCS Pressure I I I" I 1C. nServ STBY QOS 1 1 BAST Level ~. (FZ-128) I'HG. I tR 1 ~w Head S. I. ~Pum s LTN.(FX-134) FZ-626 1A S/G Level o I'1 lA. C) ZnServ STBY GPM 0 1B S/G Level 1B. InServ TB OOS RVLXS /ao 1A S/G Pressure psig RWST Level ~ Co 1B S/G Pressure 3o psig Containment S ra ~Pum s
*CET oF FI-931A GPM

<

I or 1A. - nSe STBY OOS NZS N 32g+~c N- 36 1B. nServ STBY OOS-RCS Pressure 1C InSe STBY OOS CHG p (FZ-128 t BAST'evel- SS ) 1 ~ LTN. (FI-134) G GPM w's 1A S/G Level o 1A. ZnServ TB OOS 1B S/G Level 1B. ZnServ B OOS. RVLZS leo 1A, S/G Pressure 1B'/G Pressure, psig, RWST'evel Containment $ 2. P ~sr~a ~Pum s (b~ *OET FI-9 3 1A & GPM Sump A, Leve3 feet PX-931B' GPM. Sump B. Level A'CP B'CP.'. Runn ng Runnin I nches toppe o 1B'Se 1A NaOH ZnServ Tank'eve STBY' STBY QOS '7~ Containment Isolation Yes No Containment Recirc Pans-1A. nServ STBY OOS'B. Se STBY OOS ELECTRICAL POWER 1C nServ STBY OOS= 34.5'V Bus. ner x.ze Deener ized'. 1D. n e STBY QOS 4 KV Buses'. . ner xze Deener zed. PostAccid amper e Closed. 480 V Buses.- Turbine. Generator Ener ized A. unn n er ize ZESEL GENERATORS Unloaded STBY OOS Deener eener ed ze 1A'e Service: Water 1C'Se 1B. Serv Pum s STBY STBY STBY OOS OOS OOS B~ n Unloaded STBY OOS 1De nServ STBY OOS ~~W~psig TSC Runnxn Unloaded Security Runnin Unloaded TB OOS OOS A&B 'cru Header essure 11 ~a ENGINEERED SAFEGUARDS 1A. STBY OOS Aux. Feedwater Pum s 1B. InServ TB OOS 1A. ZnServ TB OOS g k 1 1B. ZnServ TB OOS ~Standh Aux. Feed ter ~Pum s Turb. Dr ven InServ STBY OOS 1C InServ QOS CST Level ~/ fee 1D. ZnServ STB QOS *CET PREDETERMINED CORE EXIT THERMOCOUPLES (5 OR t10RE) AREA RADIOLOGICAL AFD HETEO -";>' DATA ~j T I HE: 0900- 1000 POI HT ID DESCRIPT IOH CURRENT, VALUE QUALITY CODE ENGR UNITS R01 AREA 1 CONTROL ROON 2.0E. 1 GOOD HR/H R02 AREA 2.CONTAINHENT 1.4E+6 HALH HR/H R03 AREA 3-RADIO CNEH LAB 3.0E.1 GOOD HR/H R04 AREA 4.CHARGING PUMP ROOH 7.DE+1 GOOD HR/H R05 AREA 5.SPENT FUEL PIT 2. DE+1 GOOD HR/H R06 AREA 6-NUCLEAR SAHPLE ROOH 5.DE+1 HALH HR/H R07 AREA 7.INCORE INSTRUHEHTATION 2.DE+6 HALH HR/H R08 AREA 8 ~ DRUHHING STATIOH 1. DE+1 GOOD HR/H R09 AREA 9.LETDOMH LINE 8.5E+1 GOOD HR/H R10A COHTAI NHENT IODINE HOHI TOR R10A 1.DE+6 HALH CPH R108 PLANT VENT I OD I NE HONI TOR R108 1.DE+6 HALH CPH R11 CONTAIHHENT AIR PART ICULATE 1.DE+6 HALH CPH R12 COKTAIHHENT GAS HONI TOR 1.DE+6 HALH CPH R13 AUX BLDG EXHAUST AIR PARTICULATE 1.DE+6 HALH CPH R14 AUX BLDG EXHAUST GAS HONITOR 2 AL OE+3 GOOD CPH R15 COHDENSER AIR EJECTOR EXHAUST 5.2E+2 GOOD CPH R16 CV COOLIHG HX SERVICE MATER OUT 2.DE+2 GOOD CPH R17 COHPONENT COOLING PUHP SUCT HDR 1.DE+6 HALH CPH R18 LIQUID MASTE 0 I SPOSAL HOHI TOR 2.DE+5 HALH CPH R19 STEAH GENERATOR BLOMDOMK DRAIN 5.DE+3 GOOD CPH R20 SPENT FUEL PIT HX SERV MATER OUT 1.DE+6 HALH CPH R29 AREA 29.COHTAINHENT HIGH RAHGE 1.5E+3 HALH R/HR R30 AREA 30 CONTAINHEHT HIGH RANGE 2.DE+3 HALH R/NR R33 AREA 33.HOT INTERHEDIATE BLDG 4.DE+0 GOOD HR/H R34 AREA 34.AUX BLDG CV SPRAY PUHP 1.5E+2 HALH HR/H R35 AREA 35.PASS SAHPLE PANEL 3.DE+1 GOOD HR/H R36 CONTROL ROOH NOBLE GAS HOH ITOR 3.2E+2 GOOD CPH R 3'7 CONTROL ROOM PARTICULATE HON ITOR 1.6E+3 GOOD CPH R38 CONTROL ROOH IODINE HOHITOR 1.2E+0 GOOD CPH NVAC1 CONTROL ROON CHLORIHE ANALYZER 0.0075 GOOD PPH HVAC2 CONTROL ROOH AHHONIA ANALYZER 0.7763 GOOD PPH 'MT 250 250 FOOT LEVEL TEHPERATURE 76.0 GOOD DEGF MT033 33 FOOT LEVEL TEHPERATURE 75.5 GOOD DEGF MD250 250 FOOT LEVEL MIND DIRECTIOH 29 GOOD DEG. MD033 33 FOOT LEVEL MIND DIRECT ION '8. GOOD DEG. MS250 250 FOOT LEVEL MIND SPEED 6.0 GOOD HPH MS033 33 FOOT LEVEL MIND SPEED 5.9 GOOD HPH Time: 09:00 - ll:00 'SILENT 700'OMPUTER METEOROLOGICAL DATA AV77 NAME AVGE ST. DEV MIN. MAX. I00 WS 33A 0071 00900 0011'012 0090 WS 33B 0062 00910 0082 00 WS150A 0050 01000 0022 0060 00 WS150B 0062 01100 0023 0071 02 WS 250 0060 01000 ooao 0075 00 NAME AVGE ST. DEV MIN ~ MAX. MNDR AVRN CNT 3 WD 33A 0029 03000 0019 0040 0072 0020 0064 00 WD 33B 0029 03010 0019 0040 0071 0021 0063 00 WD150A 0028 03100 0018 0041 0045 0022 0062 00 WD150B 0028 03000 0019 0042 0035 0023 0060 02 WD 250 0028 03000 0020 QQ43 0055 Q025 0061 00, NAME AVGE 0750 I00 NAME AVGE I NAME AVGE I TER33A TER33B 0750 00 TE150A 0750 150B 0750 00 TE250A 0760 00 TE250B 0760 T150A 0000 00 DT150B 0000 00 DT250A 0010 DT250B 0010 DEW 33 050 TEG 33'602 00 RAIN 0069 ( Time: 0915 Message: 51 GINNA STATION 1987 EVALUATED EXERCISE I MESSAGE FORM MessacSe for: Control Room Simulated Plant Conditions: See attached sheets MessacSe:. ***THIS IS AN EXERCISE*** FOR CONTROLLER USE ONLY Controller Notes:
1) Recovery/re-entry discussions continue.

Actions Exmected:

1) 'he EOF and TSC should be discussing actions to cooldown and depressurize the Reactor coolant system. This could include the following:

use of the RHR system ( A) B) continue with the injection mode an@ then switch over to recirculation mode when required. These discussions could conclude that a large amount. of radioactive water will be brought into the Auxiliary Building using either of the above methods. These discussions could also conclude that to go on RHR as there are two RHR pumps available it may be better when on RHR but only one RHR pump available for the recirculation mode because of the break in the "B" RHR pump suction line from containment.

2) The EOF and TSC'hould be discussing bringing .in and hooking up a spare. transformer to place 480 volt. Bus 416 back on offsite power to allow shuting down the "B" Emer-gency Diesel Generator;

3) The EOF'nd TSC'hould be discussing what inspections should be performed because of the earthquake, to ensure long term cooling of the core.

4) The Engineering Support Center should be calculating an estimate of the core damage involved.

5) As plant conditions improve the EOF and TSC should evaluate the possibility of reducing the classification per SC-110 (Ginna Station Event Evaluation for reducing the classifica-

~ tion) .

6) The EOF and TSC should be looking ahead to the long term recovery phase per step 3.16 of the" Corporate Recovery Managers. checklist.

1987 EVALUATED EXERCXSE GPM FX-925 N- 32+~~&~ N- 35. I N- 36 -' 1A. 1B. nServ STBY OOS STBY OOS RCS 'k k CHG. (FX-128) LTN. (FZ-134) Containment Pressure 1 k GPM psig FZ-626 ~GPM s (;=','.,q. F 1B S/G RVLZS / 1B S/G Level Pressure, RWST Containment FZ-93 Sump A Level Containment Isolation PostAcciden nServ STBY OOS erv Closed 480 V Buses *CET 1987 EVALUATED EXERCISE Reactor. Paver ZFaveX.'. ReaCtor Shutdown." ...'...-';-: NIS, "';,-':.'. N'-31= K(Z-)~HI NIS' l2- Time: ~'/5 MAZOR PA1UQ&ETERS ENGINEERED SAFEGUARDS Reactor Power Level. H~lh Head S. Z. ~Pum s Reactor Shutdown, es No FX-92a '4~~D 37> GPM NXS NXS N-3L~~ Pressure 0 Ps g 1C. nServ STBY OOS BAST L'evel ~ O GPM Low Head S. Z. kk o ~Pum 1A S/G Level k k lA InServ TB OOS ~kkk kkk 1B. 1A InServ Level ~ ~S>~ra 0 GPM S ~Pum OOS s 3 feet FX-93lB~GPM Sump B. Level. nches 1A. ZnServ STBY 0 A RCP Runn ng/ opp 1B. n e STBY OOS B RCP. Runnin to e k 1. ~esto Containment Recirc Fans lA nServ STBY OOS 1B. Serv STBY OOS 34.5 ELECTRICAL OWER KV Bus 4 KV Buses ner ze ner x.ze Deener ized Deener zed 1D'n 1C . STBY amp er e S ize Deener ized Service Wa r Pum s Turhine Generator Ener ized eener ze 1A. nServ STBY OOS DIESEL GENERATORS 1B. erv STBY OOS A. n Unloaded STBY OOS 1C. nSe STBY OOS B~ n Unloaded STBY OOS 1D' e STBY OOS TSC Runn n Unloaded Secur ty Runn n Unloaded TB T OoS OOS A&B Header ressure ~Q siG ENGINEERED SAFEGUARDS 1A. nServ S Y OOS Aux. Feedwater Pum s 1B. Zn erv TB OOS 1A. ZnServ T OOS Surge Tank Level 5W 1B. XnServ B OOS ~Standh Aux. Feedwater ~Pum s Turb. Dr ven InServ STBY OS 1C. ZnServ T OOS CST Level l fee 1D. ZnServ TB OOS PREDETERMINED CORE EXIT THERMOCOUPLES, (5 OR t10RE) Time: ~OBo RAZOR PAEVQKTERS ENGINEERED SAFEGUARDS y ~ O'WE W NWT HicinnHead S. I'pum s~ 'f o es No N-3S 'ie FI'25'0 FI 924 C~O Se GPM GPH'A STBY OOS: - N" 3>QPJ~~ N- 36 1B n erv STBY OOS RCS. Pressure. I' 1C nServ STBY OOS. Level

'2 BAST i* 1 ~ Low Head S. Z. Pum s LTN.(FZ-134) FI-626 C) GPN Containment Pressure. I psig lA. S/G 'eve3..

1B'/G Level, t ZnServ TB OOS wo InServ TB OOS RVLIS'A CRV S/C Pressure; / Sump; A; EaveX: -:.:~wf '.:::-."~ psig RWST'evel'. ~ P <r: eel Containment ~sr~a FI-. 9 3 1A~G399 FI-931B~GP3F 37 ~Pum a Sump 8,= Lave3- ....';, ., (f nches: 1A ZnServ STBY 0 A; RCP Running e 1B nSe STBY OOS. B'CP; ',-;.'.~-,;..;,, ,--,,~" Runnin Sto e NaOK Tank evel. ~ Containment Isolation 34.5: ~ , = ELECTRICAL POWER Bua;., -- K ner ze tfeeNa Deene ized 1B'e Containment Recirc Fans lA 1C. nServ STBY OOS InSe STBY OOS STBY OOS 1D. n e STBY OOS 4 KV Buses=,=:;,.'-;,'. ne xze Deener ized PostAcciden amper e Closed IV k" V 480 V Busee,'.--'."-'- . er ze Deener ized Service Water Pum s Turbine Generator'Ener xze eener ze IA erv STBY OOS DIESEIi GENERATORS 1B Se STBY OOS 3, ~ Unloaded STBY OOS 1C. nSe STBY OOS Be unn n Unloaded STBY OOS 1D. nSe STBY OOS TSC Runn n Unloaded Secur ty Runn n Unloaded TB TB OOS OOS A&B Header ressure ~W~psig ENGINEERED SAFEGUARDS lA. nServ STBY OOS Aux. Feedwater Pum s 1B. In erv T OOS 1A. ZnServ TB OOS Surge Tank Level 52 1B ZnS cry OOS, ~Standh Aux. Feed er" ~Pum e Turb. Dr ven ZnServ STBY 0 1C. ZnS cry B OOS CST Level I fee 1D. InServ TB OOS

CET. ~ PREDETERMINED CORE EXIT THERMOCOUPLES,, (5 OR t10Rf),

Time: 0945 Message: 53 GONNA STATlON 1987 EVALUATED EXERCXSE MESSAGE FORM Messacee. for: Control Room Simulated Plant Conditions: See attached sheets Massacae: ***THES ZS AN EXERCXSE*** FOR CONTROLLER USE ONLY Controller Notes:

1) Recovery/re-entry discussions continue.

Actions ~Ex ected:

1) The EOF and TSC should be discussing actions to cooldown and depressurize the Reactor coolant system. This could include the following:

A) use of the. RHR system B) continue with the injection mode. and then switch over to recirculation made when required. These. discussions, could conclude: that a large amount of radioactive; water will be brought into the Auxiliary Building using either of the above methods. These discussions could. also conclude that. it may be better to go on RHR as there are two RHR pumps available when on RHR but only one RHR pump available for the recirculation-mode because of the break in the "B" RHR pump suction line. from containment.

2) The EOF and TSC should be discussing bringing in and hooking up a spare transformer to place 480 volt Bus gl6 back on offsite power to allow shuting down the "B" Emer-gency Diesel Generator.

3) The EOF and TSC should be discussing what inspections should be performed because of the earthquake, to ensure long term cooling of the core.

4) The Engineering Support Center should, be calculating an estimate of the core damage involved.

5) As plant conditions improve the EOF and TSC should evaluate the possibility of reducing the classification per SC-110 I, (Ginna Station Event Evaluation for reducing the classifica-.

tion).

6) The EOF and TSC should be looking ahead to the long term recovery phase per step 3.16 of the Corporate Recovery Managers checklist.

1987 EVALUATED EXERCISE MAJOR', PARAMETERS ENGINEERED SAFEGUARDS Reactor Power" Level 0 MWE ~: MWT. n Head S. Z~ s Reactor, Shutdown es No H~i FZ 924 ~W ~Pum GPM NXS'-3L32~~i~ FX 925 GPM eel I WC to C s N-35 S 1A. nSe STBY OOS NZS N- N- 36 o f 1B. erv STBY OOS Pressure ~ RCS 1C. - nServ STBY OOS P BAST Leve CHG. (FZ-128) C) GPM Pressurizer- Level LTN. (FZ-134) 5/ Low Head S. Z. ~Pum s FI-626 1A S/G Level o I'll GPM 1A. C3 InServ GPM TB OOS 1B S/G Level 1B. InServ OOS RVLIS ~ 1A S/G Pressure C7 psig RWST Level. 0 1B S/G: Pressure. ~ <r Containment S ra ~pum s *CET FZ-93 1A G PM A Level. feet. FZ 931-B~SPM oF,'ump Sump B A RCP Level. Running toppe inches. lA I STBY 1B. nSe STBY O S B RCP.: Runnin Sto e NaOH Tank Leve Containment Isolation ~e~~No Containment Recirc Fans 1A. e STBY OOS 1B. nServ STBY OOS ELECTRICAL POWER 1C. n erv STBY OOS 34.5 KV Bus . r ze Deener ized 1D. n erv STBY OOS 4 KV Buses Ener xze Deener zed PostAcciden amper e Closed 480 V Buses r ize Deener ized Service Water Pum s Turbine- Generator Ener ized eener ze 1A e STBY OOS DXESEL GENERATORS 1B. erv STBY OOS A. n Unloaded STBY OOS 1C. nServ STBY OOS B. n Unloaded STBY OOS 1D. n e STBY OOS TSC Secur Runn n Unloaded ty Runn n Unloaded 0 TB S OOS A&B Header Pressure ~~psig ENGINEERED SAFEGUARDS 1A. nServ STBY OOS Aux. Feedwater Pum s 1B, nSe STBY OOS lA. InServ TB OOS Surge Tank Level ~ 1B. XnServ TB OOS ~Standb Aux. Feedw ter ~pum s 9 Turb.~ Dr ven InServ STBY OS lc. ZnServ T OOS CST Level 1D. InServ OOS *CRT PREDETERMZNED CORE EZZT THERMOCOUPLES, (5 OR l10RE) Approximately Time: 1000 Message: 54X GINNA STATION 1987'VALUATED EXERCISE o MESSAGE FORM Massacae for: . Emergency Coordinator and Recovery Manager Simulated Plant Conditions: See attached sheets MessacSe: ***THIS IS AN EXERCISE*** The- Exercise- is Terminated. FOR CONTROLLER USE ONLY Controller Notes:.

1) Deliver when all exercise objectives have been demonstrated.

Actions Exrected:

1) Close. out by making an announcement that the Plume Exposure Exercise is terminated.

2) Also'announce that those participants who will be playing the Ingestion Pathway Exercise should remain.

SECTION 9.0 ONSITE RADIOLOGICAL AND CHEMISTRY DATA SECTZON 9.1 RADZOLOGZCAL

SUMMARY
9.1 'Radiolo ical Summa A. Source Term The radiologica1 source term assumed. for this scenario. was selected to include. sufficient radioiodine .to, achieve offsite deposition levels. which exceed deriv'ed FDA Preventive and Emergency Protective Action Guides (PAG's) for soil, pasture grass and cow's milk. The
. Emergency PAG's for the milk pathway are exceeded out to approximately 12 miles downwind from the Ginna Plant. The Preventive PAG's for the milk pathway are exceeded out to approximately 30 miles downwind.
Deposition radioactivity diminishes to background levels at or beyond 50 miles from the plant. Xn addition, the postulated reactor accident is. assumed to result in the release of particulates which also will ultimately enter various. food and water pathways. Immediate protective action recommendations (e.g., sheltering, evacuation) may not be necessarily based upon projected child thyroid dose, due to the pre-dominence of release noble gas quantities. (SEE FIGURE: 9.1). The noble- gas-to-radioiodine ratioassumed in this scenario is approximately 3300:1. An isotopic breakdown of assumed noble gas, radioiodine and particulate release quantities is provided in Table 9 ~ 1, B., Znte rated Offsite Doses Due to Plume Ex osure The downwind integrated doses from the 1.25-hour scenario release are as follows: Whole Bod Dose at 5 miles = 1.28 REM Child Th roid Dose at 5 miles = 0.48 REM
TABLE 9. 1 The. assumed . release quantities for the Ginna Exercise Scenario are summarized as follows: NUCLIDE CURIE TOTAL CURIES RELEASED SEC'.26 Kr-85'r-85m E-01 1.02 E+03 2.40 E+01 1.08 E+05 Kr'-87 4.00 E+01 1.80 E+05 Kr-88 6.00 E+01 2.70 E+05 Xe-131m 6.55 E-01 2.95 E+03 Xe-133 2.04 E+02 9.18 E+05 Xe-133m 3.20 E+01 1.44 E+05 Xe-135 4.00 E+01 1.80 E+05 Total Noble Gas 4.0 E+0? 1.8- E+06 I-13 1 1.80 E-02 8"'.10 E+Ol I-13 2- 2.59 E-02 1.17 E+02 I-133'-134 3.60 E-02. 1.62 E+02 8'.10 E-03 3'.65 E+01 I-135 3 '6 E-02 1.47 E+02 Total'odines 1.2 E-01 5.4 E+02 Rb-88 6.00 E+01. 2.70 E+05 Cs-134 4.32 E-05 1 ~ 94 E-01 Cs-137 Sr-89 1.98 E-05 4 68 E-08 ~ 8 '1
2. 11 E-02 E-04 Sr-90 4.32 E-08 1. 94 E-04 Ba-140 1.01 E-06 4.54 E-03 La-140 1.01 E-06 4.54 E-03 Total Long-Lived Particulates . 6.5 E-05 2.9 E-01
NOBLE GAS
~ ~
100-::......... 10. 1 I o.<: BADIO'l 0 0 lN K PARTI CUL.AV E! 1.2 6 h r
.00001 . -'-===release =-=
I I duration .',:
OB45 a.m. I0800 a.m.
~ ~OOOQ 1'- I 05IOO 05k'45 07/00
( TABLE 9.2 PLANT VENT SAMPLE ANALYSIS ( T, = 0645 0800 } NUCLIDE. *+ CONCENTRATION ** UCI CC KR-85 6.22 E-03 KR-85M'R-87 6 20 E-01 1.14 E+00 KR-88 1.66 E+00 XE'-13 1M 1 ~ 80 E-02 XE-133 5.68 E+00 XE-133M XE-135 8 '9 E-01 1.09 E+00 XE-135M F 00 E-04 TOTAL NOBLE GAS 1.10 E+01 ( I-13 1 I-132. 5.03 E-04 7.23 E-04. I-133 F 01 E-03 I-134 I-135 . 2 9
'6 '1 E-04 E-04 TOTAL RADIOIODINE 3 '7'-03 RB-88 1.66 E+00 CS-134 1.21 E-06 CS-137" 5.53 E-07 Ba-140 2.82 E-08 La-140 F 80 E-08 TOTAL LONG LIVED PARTICULATE; 1.82 E-06 ** Data to be provided to HP/Chemistry and Dose Assessment personnel in accordance with Exercise ground rules.'.
i SECTION 9.2 IN-PLANT RADIOLOGICAL DATA MAPS
o aooe <9', R10A KZB ILTER A y I I ( y ~ TOP FLOOR FILTER GINNA STATION INTERMEDIATE BUILDING SURVEY MAP OPERATING FLOOR aooQ Q < < Qoao 0 0 Sping Uhit 01-02
= 0.OZ eafHP.
A LLD= SHEARS DPM/l.00 Cm
%so DATE: PAY 1 TIME: 6100-053O Sa.
BY: INSTRUMENT: INBo 44'E cc SERIAL 0: 0 re.: E-/0 wiQ ALL READINGS IN MR/HR UNLESS VCHERWXSE NOTED D REMARKS:
0 oooo 10 Q), z.))>>. KGB. ILTZR , A Y A = o.3 ~ai)4< TOP FLOOR
)., ~~i>>~
FILTER
/x RME.
GINNA STATION
'NTERHEDIATE BUILDING SURVEY'AP'PERATING FLOOR' pop Q Q < t t Qopo p p
Sping Chit LLD= SHEARS DPH/l00 Cm LL 8-c F-+s DATE: DA Y t TXHE: OG'31- 0 6 9 5 BY: INSTRUMENT
/ 0 LM5 9 SERIAL 4
o Qlhf: 7: E-)0 SERIAL ¹ ALL READINGS IN MR/HR UNLESS OISERNISE M7IKD REKQuCS: o
0 OOOO ILTER ( A C FILTER
/'OP FLOOR RQi E GINNA STATION ~-,= ZSoO ~~lew INTEQfEDIATE BUILDING'URVEYMAP-OPER'ATING FLQQR $ biol: Pt Acr vEhlr emoi~Qb,.
to ooo w w] H.a e-i ar OO D 0 < < PL, O C SD111g D B-. I SMEARS DPM/LOQ- m AREAS C 4P d b
'Soo A4E'4$ A as d 5 'ATE: 06/4- yggg-TIME:
DAY / BY: INSTRUMENT: I 0 4t I CC, SERIAL 4' Zo8 Ibr SKV1EY METER p r: ALL READINGS IN MR/HR UNLESS OZHEHWlSE NOHZ) Rl2!WUCS: 0
oo.o oo. o oooo. C R10A. KQB Q TLTER , A x A = 5 rr rt/// rr. 8 = /5 rtr e//f n. TOP FLOOR F!LTER
/ x GINNA STATION gO u~//<~
INTERMEDIATE'UILDING SURVEY'AP'j OPERATING FLOOR ooo Q Q ~ Q ooo
*0 SMEARS DPM/100 Cm DATE: +~8 TIME: OS'0 l i OOO /OOO -g.Q BY:
INSTRUMENT: 0 &at SERIAL 4 oar@ 8: .S'E- SKVlEZ METER SERIAL 5 Z 8-ALL READINGS IN MR/HR UNLESS OTHERWISE NOrI'ED REMKUCS:
6~A. STATION XVMQKOZA.~i S~ZHt ~ BAtl2E' MK'VRVP. B A Sceeen'4~ DPSIIQd aa g t Q0-Q5'80 HP ISSUKHZÃf 4 ~go SURVEYS IVER SERIAt'~> R~INGS IN HR/HR UNLESS IR80 H'F 0 > cc RNISE HAZED l~: ~ /
'0 2~0 0
SUR~ t~i
@BORNE CCCi'c A~L K~ZNGS ZN MR/HR UNLESS BISE NEED a bl brE: 6 l0
8GRVE. Z SclNCS' B PEA C
@49 00 ~ 4$
Ob /0 0 STHWSY t~i. I CA l( r cg AL>~ K~INGS IN MR/HR UNLESS 00lh/: E- Q RNISE NOTED
H OCR A B Suaaes'c9 aagg- D+Y I
~g- 080l -looO gG~ C:
y A
+~mm SKVIKY )~i. I ooo - 2ooo SE~T~
B Ar r R~XNGS ZN MR/HR UNLESS 44 t~ ~ G CPiMRWZSE NClZED I
~$
EG6g.
<INNA STATION INTENT)IATE'UZLDVfG BASr~T FLOOR - Ht Smear DPÃ/100 aa o(bg OS30 HR BY k" ~gg AREAS ZNSTMDG57: 4 250 SEAM k.
SURVEY 'METER SERIAL 5 ALI READINGS IN iW/HR UNLESS OTHERWISE NOTED
'~A STATION QFMQ6Z) XAT BUILDXHG BASVQWV FLOOR SURVEY KG'/~
p~SS Oeza.a~a< ~ (, 5. H ~'ls ~ 00, A
~
Smears-DPÃ/10Q aa g~: DAY- J BY j, s INSTRUMENT V: SEAM 0: x g.zO SURVEY 'METER SERIAL 0 t CI ALL READINGS IN MR/HR UNLESS )R bRNE 0 i CC oI OZHEFNISE NOTED o~~
GQfNA STATION'iTZRKDIATE BUILDING 3AS~c~~ FLOOR SURVEY <~ A e
= <<///<< $ 0 hl<<///A. .q0 ~<</4u 0 w B
Sc4TI 100 aa
'PÃl 0 00 BY 8 QTSTRUHEHT:
C: A SERI'-I SiK'AK' SURVEY METER
+
1<6o E'ice . ALL READINGS IN iM/UR UNLESS OZHERAISE NOTED A.S.S. PP2GZ.
i GZNNA STATION IHT>BKZlIATZ BUILDING BAS~a."tT . FLOOR SURVEY Ku'. +w DgRirvt'AzZ.o PE(ZATlQA ++ B h
'L ~
S<HZAI SURVEY 'METER O ( SERZAJ'LE READZNGS ZN i4IR/HR UNZESS a OZHEMZSE NOTED C
R.G.& Eo CORPORATION GINNA STATION AUXILIARY BUILDING OPER+ FLOOR SURVEY MAP All readings in otherwise noted. MR/HR.'nless D,: DAY' (O>O0-05'3O ~) Instrument: Survey done by: QO 's are SMEAR locations. I DPM/100 cm2I
/OO 0 0 0 inlE:
b oo ooo
R.G.& Eo CORPORATION GINNA, STATION AUXILIARY BUILDING OPERo FLOOR SURVEY MAP All readings in otherwise noted. MR/HR.'nless naca: Dh'Y t (OS 31 OL I Power:
/5)'ime:
Instrument: Survey done by: Qd 's are SMEAR locations. A= /ma/44 P ~m /'iV-~ I I I 0 f DPHl100 cm21 0 0 Q jg.doc.a,.'E...:, (u c//cd) gp4)//vE 2.E -/o
~
I PP+7: Q $ /0 . REMARKS: oo ooo
Cl R.G.& E. CORPORATION GINNA STATION AUXILIARY BUILDING OPER<< FLOOR SURVEY MAP All readings in MR/HR. unless othervise noted. aac: D4V I (06 i6-os'oa) Time: Po Ve I". Instrument: Survey done by: Q0 's are SMEAR locations. A = 70 000 majHm I I DPM/100 cm>l 00 oo A S E ci/ )-
~a Ql A/6 i /F- 2-'.
5- E+o REMARKS: oo ooo 0
P 2 R.G.& E CORPORATION GINNA STATION AUXILIARY BUILDING OPERi FLOOR SURVEY MAP All readings in MR/HR; unless otherwise noted.
. 0 6 Y i (cb 0 ( -/ ooo e-~ )
TPIIa: T POPeT: ZIISPT222eIIT: 22 Survey done by: QP 's are SiiR locations. I A. = 7~""" I I t DPM/100 cmPI 0 0 P r46>ME: ("s c//cc) . ggDINE. ' E-7 PI I I E -2 REMARKS OO 0OO 0 I OO
A1L -. ad'-..gs 'a K2.':-:R ~ un'ess ocheevtse noted.
.Oar i (oooo-os'zo a-a)
Tfae: Paving: Inierumenc: IP 5" ~~!>~ SMEARS'FM/100" aa: Ioo 0 RIES: o - CVcc)
~ -I O 'P'/A'o0 7
0<0 UPPER CATTLE AREA BE Q 0 0
S All gage I wgs lq ~ 7 unless otherwise noted. Tel ~: D4 Y i (oh-2z-OC4Z+~~ Z Pollct: Instzumenc: A = ~m<///~
, 0 <B Q = /g ~ a/e m DPf/100 aa oa
~ ~ ~
Ql1 gg ' <<gs lq VT7i "s un].ess ocher'~ise notecf.
. Q+ Y'i /06/6-@goo~~)
Tloa: Z Povar: Enstruaeae: I 0 I DPf/100 en.
- /0 0-RE~iCS:
c Cy~ 0 g r/VQ. oGO P 7 P 0 Q aerER mmax GAEA at Q 0 0
~ ~ ~ ~ ~ ~ ~ ~ ~
Li ~ sea ~ ... qi,.e
) h ,I sA ~
A~X 'ARY 3t: D .7 3ASF~""Pi FLOOR SURVEY NIP o Q All readings in unlese otherwise noced. HJHR. gAY-A Da re: Tfme: (Ol 0 0 05 2D &4 I Paver: tnsl:ruasnr.: x I DPN/lOCr < o o
~ac)
A 0 0 0 iLENhRXS ' 0 A/ IQ r: E')0 INDZCATF.S GA<
8V
~ ~ ~ . ~ pi ~ ~
('(" A ~ ~ I
~ ~ Qs I ~ ~
[i]
~ ~ ~II/
lll~ll
8
~ ~
k k
~ .'EJ )~ I j I~ '8 ~0 C, ~ 0 ~
I: I ~ ~
~ Oi 0%
[~j I
-I ~la ~ ~
F 0 lit ~tl: =:
~ ~ ~~a+
~l AE A E AE kk k 1
8
~ ~
js
~ Pl ~ ~ ~ ' ~
I
~ g ~ Qe ~ ~
P k C pK>% 8
~n.lyn RG&E A ~ OY.
GINNA STATION TURBINE BUILDING OPERATING FLOOR SURVEY MAP P4'f /
'IME'o(a ozoo-c DATE:
NORTH POWER: BY: INSTRUMENT: SERIAL 0: A I 1 l t-I I l
)
DPiaf/100 Cm I I t z Z.SO @ i I I I I I I== I I I
.J B I I
B ~
~%WM ~o REMAR1CS:
RG&E GINNA STATION g ~ ~BOIH.~ TURBINE BUILDING OPERATING FLOOR SURVEY MAP o6+4-OBYZ:'IAYI YYHR: IOBO NORTH POWER: BY: INSTRUMENT: SERIAL B' I l SMEARS j I l I DPiaf/100 Cm I l ZSlD -]00Q I I I
RG6 E'INNA STATION TURBINE BUILDING MEZZANINE FLOOR NORTH BONER: BY: INSTRUMENT: SERIAL 8'en m a~ J DPM/100 Cm J; <<P 'M R R A RIPARIOUS li I I tt It II Ii
RG&E GINNA STATION TURBINE BUILDING BASEMENT FLOOR A = 0, I M P /lk n. SURVEY MAP = /0 ~</ill NORTH BHKHE a:ada: 0 0'0'0 I I ob V4-I DATE: TIME: TIME 0 0 POWER: BY: iO B
~o INSTRUMENT: ~~ ~y t ~ ooI ~ I ~~ ~ ~ ~~
Iy L~~
~ y. 1+ ~ 0 ~ +
SERIAL. f: B'PHIL ll Qw QgP 0CZ + //g+GYLA/+ PwC 1/cc.): REMhRKS: 1
RGGE GINNA STATION ( TURBINE BUILDING BASEMENT FLOOR SURVEY MAP 0.o 2. ~os/t NORTH HIE. a a;-~'a'O OO I I I D/~o-I DATE: >+" ~ TIME: 9 0 ,o ?OVER: BY: iO
~~ ~ ~ ~o ~ ~ ~ Ip I INSTRUMENT: ~~ o~ ~ o, oo~
oo oo oo ~o
~~ ~o L -
SERIAL A D?M/IOO Cm eO REMARKS:
RGhE GINNA, STATION TURBINE BUILDING MEZZANINE FLOOR 0'b K@- SURVEY MAP DATE: D~Y / TIME: /ovO NORTH Q,Q And/Q~ POWER: BY.: INSTRUMENT: SERIAL ll lt II il ll A B DFi4/1.00 Cm v4'y
~ ~ ~
il Q lone lc Super. Supp
)I prceuct lon S Serulces ~ r Planning ltelnt fng.
Reception
~, Conference iJ Da/ l I 0 joo 069% a~ ltelnt Oper.fng. Spec Pro) ~ ~. g5 ma/PIG Oen,'Otto
y. / o. ~a/J s
CopV Teens Engr'I Tech Llb Hucleer
~E~ Assess M gs-G alpu //0 oem.
g Corridor
~ i n.80 aalu'E (uc/u ): @oped s Qe D IAJG Chmga Real Naa' Champs A B Msa's Eats Ates
I S per, Glnne ~t Super. Supp. production Services l
/ I~~I Molnt Eng.
I
~
A'lanning Reception Conference IJ IEngr'
~t Ilelnt Oper e Spec I Pro). '<<'t I 'Gen. O<<<<.
S TecII Lib iSC Nuclear Records, Corridor j~. Nn's Scorn tea'3~ Lte ~f Csea loca A 44t U
SECTION 9.3 IN-PLANT AND POST-ACCIDENT SAMPLING RESULTS
TABLE 9.3 EQUILIBRIUM PRIMARY COOLANT ACTIVITY ( As of, 0045 hr, DAY 1 ) NUCLIDE CONCENTRATION'Ci KR-85 6..22".E-03', KR-85M 3 '4 6.20 E-02 E-02. KR-87'R-88 7.47 E-02 XE-131M 1 ~ 80 E-02 XE-133 7.46 E-01 XE-133M 8.29 E-03 XE-135 2.39 E-01 XE-135M 8.43 E-02 XE-138 AR-41 2 '9 8.43 E-01 E-02. TOTAL NOBLE GAS 1.62 E+00 I-13 1. 5.76 I'-13 2. E'-02.16 I.-133 E-01 E-02'.15 I-134 1.25 E'-01 I'-13 5, 1.01 E-01 TOTAL RADIOIODINE'-131 4.80 E-01 DOSE EQUIVALENT 8.33 E-02 CR-51 5.80'E-06 MN-54 7.00 E-06 CO-58 1.26 E-05 CO-60 8.00 E-07 CS-134 CS-137 6 '1 1 ~ 27 E-04 E-03 BA-140 1.66 E-05 TOTAL PARTICULATES 2.00 E-03
8 TABLE 9.4-A PRIMARY COOLANT SYSTEM SAMPLE ACTIVITY GAS COLLECTION BOMB ( Collection Between 0531, - 0630 hr, DAY 1 ) NUCLIDE CONCENTRATION*'CI GM KR-85 1;11. E+01 KR-85M 1.12 E+03 KR-87 1.99 E+03 KR-88 2.93 E+03 XZ-131M XZ-133 3 '9 1 ~ 02 E+01 E+04 XE-133M 1~46 E+03 XZ-135 1-91 E+03 XZ-135M 1.91 E+Ol XZ-138 1 ~ 15 E+Ol ~j<~. TOTAL NOBLE GAB 2.0 E+04 UNDILUTED SAMPLE.'OSE RATE, 9 1 METER = 140 MR/HR UNDILUTED SAMPL'E DOSE RATE 9 CONTACT' 160 R/HR DILUTED SAMPLE DOSE RATE 9 1 METER = LESS THAN 1 MR/HR DILUTED SAMPLE DOSE RATE 6 CONTACT = 170 MR/HR Concentrations corrected to time of reactor shutdown ( 0535 hr }.
** Data to be provided to HP/Chemistry personnel in accordance with Exercise ground rules.
TABLE 9.4-B PRIMARY COOLANT SYSTEM SAMPLE ACTIVITY GAS COLLECTION BOMB ( Collection Between 0631 0800 hr; DAY l. ) NUCLIDE CONCENTRATION* UCI GM KR-85 1.22 E+01 KR-85M 1 ~ 23 E+03 KR-87 KR-88 2 '7 E+03 3.35 E+03 XE-131M 3.55 E+01 XE-133 1. 12 E+04 XE-133M 1 ~ 64 E+03 XE-135 2. 17 E+03 XE-135M XE-138 5 'l
2. 17 E+01 E+01" TOTAL NOBLE'AS',. 2 E+04 UNDILUTED SAMPLE DOSE RATE 0 1 METER = 160 MR/HR UNDILUTED SAMPLE DOSE RATE O'ONTACT = 175 R/HR DILUTED SAMPLE DOSE RATE ~ 1 METER = LESS'HAN 1 MR/HR DILUTED SAMPLE DOSE RATE 9 CONTACT = 190 MR/HR Concentrations corrected to time of reactor shutdown
( 0535 hr ). Data to be provided to HP/Chemistry personnel in acc'ordance with Exercise ground rules.
TABLE 9.4-C PRIMARY COOLANT SYSTEM SAMPLE ACTIVITY GAS COLLECTION BOMB ( Collection Between 0801 1000 hr; DAY l. ) NUCLIDE CONCENTRATION*"- -UCI'M KR-85 1.09- E+01 KR-85M 1.09 E+03 KR-87 2.09 E+03 KR-88 3.00 E+03, XE-131M 3.27 E+01 XE-133 1.00 E+04 XE-133M 1 ~ 55 E+03 XE-135 2.00 E+03 XE-135M 2.00 E+01 XE-138 2.35 E+00
,~c. . TOTAL NOBLE'AS 2:.0 E+04.
<Pw'h~ UNDILUTED SAMPLE'OSE'ATE 0 1 METER = 140 MR/HR UNDILUTED SAMPLE'OSE RATE 9 CONTACT' 160 R/HR DILUTED. SAMPLE DOSE RATE. 9 1 METER = LESS THAN 1 MR/HR DILUTED SAMPLE DOSE RATE. 9 CONTACT = 180 MR/HR
Concentrations'corrected to time of reactor shutdown (0535 hr.)
** Data to be provided to HP/Chemistry personnel in acordance with Exercise ground rules.
TABLE 9 '-A PRIMARY COOLANT SYSTEM SAMPLE ACTIVITY DEGASSED ACTIVITY ( Collection Between 0531 0630 hr, DAY 1 ) NUCLIDE CONCENTRATION* ~UCI GN I-13 1. 7.89 E+03 I-132 1 ~ 13 E+04 I-133 1.58 E+04 I-134 1.37 E+03 I-135 1.44 E+04 CS-134 3.39 E+03 CS-137 1.06 E+03 BA-140 3.20 E+01 LA-140. 3.00 E+01 TOTAL RADIOIODINE 4.8 E+04 ( I-.131 DOSE EQUIVALENT'OTAL 1.1. E+04 DEGASSED ACTIVITY 5.5 E+04 UNDILUTED SAMPLE DOSE RATE 9 1 METER = 400 MR/HR UNDILUTED SAMPLE DOSE RATE 6 CONTACT = 440 R/HR DILUTED SAMPLE DOSE RATE 9 1 METER = LESS THAN 1 MR/HR DILUTED SAMPLE DOSE RATE 6' CONTACT = 490 MR/HR
Concentrations corrected to time of reactor shutdown
( 0535 hr ).
** Data to be provided to HP/Chemistry personnel in accordance with Exercise ground rules.
Cll TABLE 9.5-B PRIMARY COOLANT SYSTEM SAMPLE ACTIVITY DEGASSED ACTIVITY ( Collection Between: 0631. - 0800 hr; DAY 1. ) NUCLIDE CONCENTRATION* UCI GM I-13 1 5.62 E+03 I-132 8 ~ 18 E+03 I-133 1 ~ 18 E+04 I-134 3.94 E+02 I-135 9.86 E+03 CS-134 CS-137 6 '6 E+03 2.96 E+03 BA-140 9.47 E+01 LA-140 9.00 E+01 ( TOTAL. RADIOIODINE I.-131 DOSE. EQUIVALENT 3.6 E+04 8.2; E+02 TOTAL DEGASSED ACT1VITY 4' E+04 UNDILUTED SAMPLE DOSE RATE' 1 METER = 360 MR/HR UNDILUTED SAMPLE DOSE RATE 9 CONTACT = 400 R/HR DILUTED SAMPLE DOSE RATE 9 1 METER = LESS THAN 1 MR/HR DILUTED SAMPLE DOSE RATE 9 1 CONTACT = 450 MR/HR Concentrations corrected to time of reactor shutdown ( 0535 hr ). Data to .be provided to HP/Chemistry personnel in accordance with Exercise ground rules.
TABLE 9.5-C PRIMARY COOLANT SYSTEM SAMPLE ACTIVITY DEGASSED ACTIVITY ( Collection Between 0801 1000 hr, DAY 1 ) NUCLIDE ~UCI GM I-131 5.04 E+03 I-132 7.79 E+03 I-133 1..05 E+04 I-134 1.83 E+03 I-135 9.62 E+03 CS-134 1.51 E+03 CS-137 6.88 E+02 BA-140 DEGASSED'CTIVITY'ONCENTRATION* 2.21 E+01 LA-140 2.00 E+01 TOTAL RADIOIODINE 3".,3 E+04. Z-'31 DOSE 7'. 8'+03 EQUIVALENT'OTAL, 3 .7'+04 UNDILUTED SAMPLE'OSE RATE 9 1 METER = 270 MR/HR UNDILUTED SAMPLE. DOSE RATE 6 CONTACT = 300 R/HR DILUTED SAMPLE DOSE RATE 6 1 METER = LESS THAN 1 MR/HR DILUTED SAMPLE DOSE'ATE 9 3. CONTACT = 330 MR/HR
Concentrations corrected-to time of reactor shutdown
( 0535 hr )..
Data to be provided to HP/Chemistry personnel in accordance with Exercise ground rules.
TABLE 9 '-A CONTAINMENT SUMP SAMPLE DEGASSED ACTIVITY ( Collection Between'531 0630 hr, DAY 1. ) NUCLIDE ~UCX GM I-131 5.99 E+03 I-132 I-133 9 '5 E+03 1.25 E+04 I-134 2 '7 E+03 I-135 1.14 E+04 ACTIVITY'ONCENTRATION* CS-134 1.79 E+03 CS-137 BA-140 8 '7 E+02 2.63 E+01 LA-140 2.50 E+01 TOTAL 3.9= E+04 RADIOIODINE'-131, DOSE EQUIVALENT 9'3. E+03'.4 TOTAL DEGASSED E+04 UNDILUTED SAMPLE. DOSE RATE 9 1 METER = 320 MR/HR UNDILUTED SAMPLE DOSE RATE 9 CONTACT = 350 R/HR DILUTED SAMPLE DOSE RATE 9 1 METER = LESS THAN 1 MR/HR DILUTED SAMPLE DOSE RATE 9 1 CONTACT = 390 MR/HR
Concentrations corrected. to time of reactor shutdown
( 0535 hr ).
~ Data to be provided to HP/Chemistry personnel in accordance with Exercise ground rules.
TABLE 9.6-B CONTAINMENT SUMP SAMPLE DEGASSED ACTIVITY ( Collection Between 0631 0800 hr, DAY 1 ) NUCLIDE. CONCENTRATION*'UCI GM I-131 2.64 E+03 I-132 4.08 E+03 I-133 5.52 E+03 I-134 9.58 E+02 I-135 5.03 E+03 CS-134 7.90 E+02 CS-137 3.61 E+02 BA-140 LA-140 1 '6 1.00 E+01 E+01 TOTAL'ADIOIODINE 1.7 E+04 I-13L DOSE EQUIVALENT 4.1 E+03 TOTAj. DEGASSED ACTIVITY 2.0 E+04 UNDILUTED SAMPLE DOSE RATE' 1. METER = 140 MR/HR UNDILUTED SAMPLE DOSE RATE' CONTACT = 160 R/HR DILUTED SAMPLE DOSE RATE 9 1 METER = LESS THAN 1 MR/HR DILUTED SAMPLE'OSE. RATE 9 L CONTACT = 170 MR/HR
Concentrations corrected to time of reactor shutdown
( 0535 hr ).
Data to be provided to HP/Chemistry personnel in accordance with Exercise ground rules.
TABLE 9.6-C CONTAINMENT SUMP SAMPLE DEGASSED ACTIVITY ( Collection Between 0801 1000 hr, DAY 1 ) NUCLIDE CONCENTRATION* ~UCI GN I-131 1.90 E+03. I-132 2.93 E+03 I-133 3.96 E+03 I-134 6.88 E+02 I-135 3.61 E+03 CS-134 5.67 E+02 CS-137 BA-140 2 '9 8.33 E+02 E+00 LA-140 8.30 E+00 TOTAL RADIOIODINE 1.2 E+04 I-13 1. DOSE. EQUIVALENT.'OTAL 2.9 E+03 DEGASSED ACTIVITY. 1.3'+04 UNDILUTED SAMPLE DOSE RATE 6 1 METER = 100 MR/HR UNDILUTED SAMPLE DOSE RATE 9 CONTACT = 100 R/HR DILUTED SAMPLE DOSE RATE 6 1 METER = LESS THAN 1 MR/HR DILUTED SAMPLE DOSE RATE' I CONTACT = 120 MR/HR Concentrations corrected to time of reactor shutdown ( 0535 hr ). Data to be provided to HP/Chemistry personnel in accordance with Exercise ground rules.
( TABLE 9.7-A CONTAINMENT AIR SAMPLE ACTIVITY ( Collection Between 0531 - 0630 hr, DAY 1 ) NUCLIDE CONCENTRATION UCI CC KR-85'R-85M 5.,26 E-02 5'. 26= E+00 KR-87 9.20 E+00 KR-88 1.36 E+01 XE-13 1M 1.49 E-01 XE-133 4.82 E+01 XE'-133M 6.57 E+00 XE-135 9.16 E+00 XE-135M 8.76 E-02 XE-138 1.10 E+00 TOTAL NOBLE GAS 9.2 E+01 I-13 1. 4.,72 E-02 I.-13 2'-133 6 '5 E-02 9" 80 E-02 I-134 1.,11. E-03. I.-135'OTAL 8.73 E-02 RADIOIODINE 3.0 E-01 CS-134 2.07 E-04 CS-.137 9.44 E-05 BA-140 3.00 E-06 LA-140 2..90 E-06
Concentrations corrected to time of reactor shutdown
( 0535 hr. ) .
** Data to be provided to HP/Chemistry personnel in accordance with Exercise ground rules.
TABLE 9.7-B CONTAINMENT AIR SAMPLE ACTIVITY ( Collection Between 0631 - 0645 hr, DAY, 1 ) NUCLIDE CONCENTRATION UCI CC.. KR-85; 5 "73 E-02, KR-85M 5.76 E+00 KR-87 1.04 E+01 KR-88 1.51 E+01 XE-131M 1.65 E-01 XE-133 5.10 E+01 XE-133M 7.65 E+00 XE-135 1.00 E+01 XE-135M XE-138 1 '7 5.08 E-01 E-01 TOTAL NOBLE GAS 1.0 E+02 I-131 5.15 E-02 I-13 2.. 7'. 54-I-13 3. E'-02'.07 E-01 I.-134-I.-135 4 '1 9.47 E-03 E-02 TOTAL RADIOIODINE'S-134 3'. 3 E-01 2.25 E-04 CS-137 1.03 E-04 BA-140 3.32 E-06 L'A-140 3.00 E-06
Concentrations: corrected to time of reactor shutdown
( 0535. hr. ).
Data to be provided to HP/Chemistry personnel in accordance with Exercise ground rules.
TABLE 9.7-C CONTAINMENT AIR SAMPLE ACTIVITY ( Collection Between 0646 - 0800 hours } NUCLIDE CONCENTRATION UCI CC .- KR-85 4 ~ .32 E-02 KR-85-M 4.,32 E+00 KR-87 8" 16 E+00 KR-88 1.12 E+01 XE-131M 1.26 E-01 XE-133 XE-. 133M 3 '4 5.72 E+01 E+00 XE-135 7.42 E+00 XE-135M 7.64 E-02 XE-138 1.92 E+00 TOTAL NOBLE GAS 7.42 E+01 I-131 3. 34. E-02. I-132. 4.. 84 E-02 I'-133 6.70 E-02 Z-134. 1. 5'4 E-03. I-135 6.06 E-02 TOTAL RADIOIODINE 2 '0 E-01 CS-134 2 '6 E-04 CS-.137 1.08 E-04 BA-140 3.48 E-06 LA-140 3.00 E-06 Concentrations corrected to time of. reactor shutdown ( 0535 hr. ). Data to be provided to HP/Chemistry personnel in accordance with Exercise ground rules.
TABLE 9.7-D CONTAINMENT AIR SAMPLE ACTIVITY ( Collection Between 0831- 1000 hr, DAY 1 ) NUCLIDE CONCENTRATION UCI CC KR-85 2'0 E-02'.00 KR-85M'R-87 E+00 4.00 E+00 KR-88 5.06. E+00 XE-131M'E-133 6.16 E-02 1.85 E+01 XE-133M 2.86 E+00 XE-135 3.70 E+00 XE-135M 3.80 E-02 XE-138 9.60 E-01 TOTAL NOBLE, GAS 3.7 E+01 I'-13 1 l..62 E-02. I-132, 2'0 E-02. I-133 3. 30 E-02 I-134 7.70 I-135, E-02 E-03'.00 TOTAL RADIOIODINE 1~0 E-OI CS-134 l..10 E-04 CS-137 BA-140 5 '0 1.70 E-05 E-06 LA-140 1.50 E-06 Concentrations corrected'o time of reactor shutdown ( 0535 hr.:, ).. Data to he. provided to HP/Chemistry personnel in accordance with Exercise ground rules.
TABLE 9.8 EXPOSURE RATES. AT'ARIOUS'ISTANCES-FROM-PLANT VENTILATION DUCTWORK HILLIREN PER HR TXME 0.5 FT 1 FT 3 FT 5 FT 10 FT 15 FT 01: 00 0. 1 0~1 0~1 0.1 0.1 0~1 06 44 06 45 10F 000 7F 900 2,000 750 380 12:.00',500 08:00 08::.03 5 0. 8! 0.5 0.1 0~1
TABLE 9.9 HYDROGEN CONCENTRATION IN CONTAINMENT Time Concentration (vol 0) 0000-0530 0 ~ 01 0531-0630 0.,5 0631-0645 1.0 0646.-0800 0.40 0801-1100 0.08 All value@ are belov the combustible level of 44
( TABLE 9.10 PRIMARY SYSTEM BORON DATA
~sam le Time:. m Boron RCS 0100.-0430 65 7~3 Sump 7. 4-40'20 RCS 0433.-0530 7' Sump 80 7'3 RCS 053 1-0630 200 6.9 Sump 140 7.1 NOTE: SI starts at 0530 Steam Break and a ain at 0630 LOCA RCS'ump 0631-0800'801-1000'700 1400 6. 1.
2300 5' RCS'ump: 2100' 5. 5.
SECTXON 10.0 METEOROLOGICAL AND OFFSITE RADIOLOGICAL DATA
SECTION 10.1 METEOROLOGICAL CONDITIONS AND FORECASTS
I VN rjjlf CjeIih j V>>eae jlh Qlslh FIGURE 1 0.) D!REC OF p lU jlre Iajvaj r eAIJeya Ljesv js I Jas jriy rheVII~ AISA/I jar j 0 jIAIIPAAI I
~, $ j qqr ! ~ Aee I/eaeheK<<e/l.
CJ 1 leis/ Wl IWK<<er Wl ls <<f. esehees<<w w 'I IeK vera>> rw iI j eh Cr I r C 1 I lilll v aAI years<<I
'a ~ 1 v a) jres I E vj
'IS;Ia sas, I rh Ilier E IAsr IArear Ashy Vln PI ~1 f I Nil.<<N~ ~
', VAIAIIKI yefars sill 0.Are jrsheh yyJ <<i. ~ ~ .yl<<4<<a ~e<< ~ ia sv ar ~ Bbsr /~ sr 1
Nl
<<1 Wali isr j 'i I ~ ~ 1 ii ,~ 1 Ns Js ~ ~
g
. 8 H ~1 lllIPI '1 N~
La I i I 4
~ "L~'kiss I J' '( vkj hk ~
I' yy.seealejjl ~
\ I as Cj Il as as 1 II ~ j)as II~ !
ta INp I' I L h gI>> ~ a~~ I>>plier 1 a
<<J I I 1<<
I Mil jr>> I I'lie'Isf<< II, ~ (W L s/AIVSIA I
~ Va ~
savile M ~ ehj l ~ S I ~, 1 le'
~e I I/esp I 1 <<eyes I II!NN II.~ 'sill.I ~ ~~i jiy WIl Vl~ I lahl ~ 1 e ea ~ ~ sr <<w1I /W I L j'e<<j As>>
rje>>N 11 j 11 I
..=-' ~ ' , L,. >)(~,E--- 1 I ~ 1J I ~ E. ~e 44. Nil I ~ a 1 Lay'/E )
rTs
'1 Es.l NE,E Q" Q
T Pi l~g~r~ I .~ ~ r P LS I 1<<. C e>> 1 g
~ eV>>ev lish 'a<<Y Nh j' I " Ni ~ 'Irhar 4 -TI 1,/ ~ I II <<1 I jryeIIAaj j
i Seae\ eePIA/
/I/Ieael SSN jleel 1 K/r-Vaj 'e JII rilll ~ ' ~
ei
~
a N 41 hei
~ ~ I I II Mh<<IN< ~ Ne ,is
[ps .Ils <<eal<<all ve ~ rAti jilii ill ll L I I I
/ 'a 7 W,l a:lk>> I N'll aa <<ih .~ I Pal<<
s ~ I
~
i>>ii ~v i>> rw Q<<pve<>a ~ av harv 4 ~ 4 v<<<< ~ eli v ~ v<<1 1<< 1 he 1 ~ 'll~ ii ehvea 1 4\ i<< silas ~ N<<avv av 1 <<ave ~ ~ / 4 Vs 41 14 >>11 ~ 4 1 aw 1 s v<<aha ~ ~ ea vsv vha ~ svvea<<ae44 SCALE 1:250.000 Es I~ j" 0 Ea MILES NORTH
TABLE 10.1
SUMMARY
OF GINNA SITE METEOROLOGICAL CONDITIONS . HOURLY AVERAGES CLOCK TIME WS-33FT
~HPH WD-33 FT DEG. FROM TEMP 33 FT'AS QUILL STABILITY GENERAL WEATHER DAY 1.
0000-0100 3 ~ 2. 330 65 OVERCAST 0100-0200 3.2 330 65 F' DRIZZLE 0200-0300 3.4 328 67 DRIZZLE 0300-0400 4.2 337 69 F DRIZZLE 0400-0500 4 ' 342 70 F DRIZZLE 0500-0600 5.6 003 71 F DRIZZLE 0600-0700 5.5 025 73 F DRIZZLE 0700-0800 5.5 030 74 F DRIZZLE 0800-0900 5.3 030 75 F DRIZZLE 0900-1000 7.1 029 75 F DRIZZLE 1000-1100 7.1 029 75 F. DRIZZLE 1100-1200 7.5 030 76 F DRIZZLE 1200-1300 7.0 030 75 F PT'.CLOUDY 1300-1400 7.0 030 74- F PT'.CLOUDY '1400-2400 8'. 0 030 65' D PT'.CLOUDY DAY 2 0000-2400 USE ACTUAL METEOROLOGY DAY" 3 0000-2400 USE ACTUAL METEOROLOGY
TABLE 10.2 FORECAST INFORMATION Weather Forecast* October 1987 0200 am STATION'AME'MP WIND'ST VIS WEATHER ONT 63 4 15 light rain PS'ingston, G Rochester, NY 67 3 15 light rain F Syracuse, NY 65 5 15 light rain Buffalo, NY 64 5 15 light rain F Zone Forecasts Western Lake Ontario Counties: with lighC'rizzle throughout the day. Winds 0'arm; o Today changing to north-northeasterly this morning. at 4 to 6 mph., Scattered showers expected, in the Finger Lakes area.. Partly cloudy this evening with less than 10% chance of precipitation.. Highs in the mid 70 s. Tonight - Cooler temperatures. Northeasterly winds at 5 to 10 mph Temperature in the low 40's. Less than 104 chance of precipitation. Eastern Lake Ontario Counties: 0" Today Humid with overcast skies and light rain throughout most. of the day. Light winds from the north-northeast at 5 mph. Highs: in the mid 70's. 0 Tonight Cooler temperatures.. Northeasterly winds at 6 to 9 mph. Temperature in the low 40's. Less than 104 chance of precipitation. Lake Ontario (South Shore Marine Forecast): 0 Winds remaining north-northeasterly throughout the day. Winds less than 8 mph. Wave height less than 1 foot.
To be provided to the Dose Assessment Manager or designee
( TABLE 10.2 (cont'd) FORECAST INFORMATION Weather Forecast* October , 1987 0400 am STATION NAME, TMP WIND: GST. VIS WEATHER PS Kingston, ONT. 67 4. 15 light rain F Rochester, NY 69 5 15 light rain F Syracuse, Buffalo, NY 68 4 15 light rain E NY 66 4 15 light rain F Zone Forecasts Western Lake Ontario Counties: o Today - Warm, with light drizzle throughout the day. Winds changing to north-northeasterly this morning at 4 to 6: mph. Scattered showers expected in the Finger Lakes area. and'outhern Tier.. Partly cloudy this evening with less: than 10%'hance of precipitation. Highs in the mid. 70's. o Tonight Cooler Temperatures.. Northeasterly winds at 6 to 9 mph. Temperature in the low 40's. Less than 10% chance of precipitation. Eastern Lake Ontario Counties: o 'oday Humid with overcast skies and light rain throughout most of the day. Light winds from the north-northeast at less, than, 5 mph. Highs in the. mid 70's. 0 Tonight Cooler temperatures. Northeasterly winds at 6 to 9 mph. Temperature in the low 40's. Less than 10% chance of precipitation. Lake Ontario (South Shore Marine Forecast): Winds remaining north-northeasterly throughout the day. Winds less than 8 mph. Wave height less than 1 foot.
* , To be provided to the Dose Assessment Manager or designee.
TABLE 10.2 (cont'd) FORECAST INFORMATION Weather Forecast* October , 1987 0600 am STAT1ON NAME'MP WIND GST VIS WEATHER PS Kingston, ONT 70 4 15 light rain F Rochester, NY 72 4 15 light rain F Syracuse, NY 71 5 15 light rain E Buffalo, NY 70 4 15 light rain E. Zone Forecasts Western Lake Ontario Counties: 0 Today Warm, with light drizzle throughout the day. Winds from the north-northeast at 4 to 6 mph.. Scattered ( showers expected in the Finger Lakes area and the Southern. Tier. Partly cloudy this evening with less. than 10% chance of precipitation. High in the mid 70's. 0 Tonight Coolew temperatures. Northeasterly winds at 6 to 9 mph.. Temperature in the low 40's. Less than 104. chance of precipitation. Eastern Lake Ontario Counties: 0 Today ~ Humid with overcast skies and light rain throughout most of the day. Light winds from the north-northeast at less than,5 mph. Highs in .the mid 70's.. 0 Tonight - Cooler Temperatures. Northeasterly winds at 6 to 9 mph. Temperature in the low 40's. Less than 104 chance of precipitation. Lake Ontario (South Shore Marine Forecast): 0 Winds remaining north-northeasterly throughout the day. Winds less than 8 mph. Wave height less than foot. ( 1
To be provided to the Dose Assessment Manager or designee.
TABLE 10.2 (cont d) FORECAST INFORMATION Weather Forecast* October , 1987 0800 am STATION'AME TMP WIND GST VIS WEATHER 'PS Kingston, ONT 75 5 15 light rain F Rochester, NY 77 6 15 light rain F Syracuse, NY 76' 15 light rain E Buffalo, NY 75 5 15 light rain E Zone Forecasts Western Lake Ontario Counties: o Today Warm, with light drizzle throughout the day. Winds from. the- north-northeast: at 4 to 6 mph. Scattered showers. expected in the Finger Lakes area and. the Southern Tier. Partly cloudy this evening with less-than 104. chance of'recipitation. Highs in the mid 70's. o Tonight. - Cooler temperatures. Northeasterly winds at 6 to 9 mph Temperature in the low 40's. Less than 104 chance of precipitation. Eastern Lake Ontario Counties: 0 Today Humid with overcast skies. and light rain throughout most of the day. Light winds from the north-northeast, at less .than 5 mph. Highs in the mid 70's. Tonight >> Cooler temperatures. Northeasterly winds at 6 to 9 mph. Temperature in the'ow 40's. Less than 104 chance of precipitation. Lake Ontario (South Shore Marine Forecast): o Winds remaining north-northeasterly throughout the day. Winds less than 8 mph. Wave height less than 1 foot.
To be provided to the Dose Assessment Manager or designee.
SECTION 10.2 ONSITE AND OFFSITE RADIOLOGICAL READINGS
PLUME MAP (0-'I MILE) FIGURE 10.2 s.'f.ClWNA flAltf sgfs ccUssss t~s
\I ~
f LAKE ROAO USTA 0 0.6 hhlLE
)OA Cl 4
I LI 4 4 C I I C 4 f.o MILE sgs
FIGURE 10.3 (REFER TO LARGE SIZE 0' 10'ILE ZONE'AP)
i ( TABLE 10.3 PLUME ARRIVAL DEPARTURE TIMES TIME OF *: TIME OF ** DISTANCE (MILES ) PLUME. ARRIVAL. PLUME, DEPARTURE 0.5- 06'.,'50 08'. 05
1. 0. 06'. 55 08 10 2 ' 07: 05 08: 20.
3 ~ 0'.0 07'. 15: 08:30 07': 25 08:40 5.0 07: 35 08:50 6 ' 07:45 09:00 7.0 07'. 55 09:10 8.0 08:05 09:20 9.0 08:15 09:30 10 ' 08:25 09:40 11 ' 08:35 09:50 12.0 08:45 10 00 NOTES:. indicated- arrival time, refer to offsite radiological
**'fter data.: shown on'able 10.4 for.. zone of interest.
After indicated'eparture time, refer to. post-plume offsite radiological data shown on, Tables 10.5 and 10.6.
"TABLE 10. 4 RADIOLOGICAL SURVEY/SAMPLING DATA CLOSE WINDOW'PEN WINDOW- DOSIMETRY (mR/hr) (Mr/hr) -.-
INCREMENT IODINE'ARTICULATE'. EXPOSURE CARTRIDGE FILTER ZONE 3'EET CONTACT' FEET CONTACT (mREM) (CPM) (CPM) A 8,800 8,800 12,000 12,000 14,000 16,000 B 4,800 4,800 6,400 6,400 1,200 6,700 7,800 C 2,400 2,400 3,200 3,200 600 3,200 3,800 D 1,100 1,100 1,400 1,400 270 1,400 1,600 E F 670 470 670 900 240',200 900 170 850 990 470 620 620 120 560 650 310 310 410 410 80 270 310 H 210 ,'210 280 280 50 70 80 180 180 240 45 50 55 NOTES
1. Dose. rate readings apply to AutoDigimaster, R0-2, and CDV-715 instrument or equivalent. Ensure that readings provided do not exceed range of survey instrument being used. Provide only those readings being requested, or. in accordance with Controller instructions.

2. Dosimeter incremental exposure assumes a 15-minute stay-time in the particular zone of interest. Incremental values may be scaled up or down as appropriate. Provide cumulative DRD reading only when requested.

3. Air samples assume use of RADECO H-809C air sampler or equiva-lent. Volume assumed is approximately 300 liters (10 ft3), and field reading is with HP-190 (background = 20 cpm), or HP-210/260 pancake probe (background = 30 cpm).
(
SECTION 10.3 DEPOSITION DATA AT TERMINATION OP RELEASE
NYS. IP,'XERCISE >>
~ effff ee eff ~e>>
RELEASE
~ ~ ~
DEPOSITION RN
~ ~ ~ ~ffre I
Jelyl D Greece Ileeeffe e ROCHESTER
~ ee V ir ', 3 I
I' One-
'3 I
rree I I 5
~
r i ~ r> I rZ I ~ 3 e ~ Mt5
~ ~ /r 5 I r e~~' I , Ceeeee. >>>> 5 I ' I- )e ~ ~
I e r 'l er 3
>>e ~ 3 ~ ff 5 ~ 'I ~. r I . /ff)) I 3
I
~ ( / wfeeffu 5
e tlS ~
>>e ~ ~ I~ 'j >> ~ '>> ~ ~ $r ~ /. '
T
..- ~ .
lleeelellee Ce -. ~ 4 ~ ~
/ . I 'I) 3, I\eff >>5 ueeel>>u \u I /~~ ~ ~
I
//
3 I 3 I ~
/
J I
~ / ~~ eel>>lee ~ ~ ~
3 ~ ~ ~ ~ ~ ~ ~ ff ~ ff ff I ~ ff ff ' AlI ~ I ~ ~ ff>>e ff I
~ ~
I ~ ff
DAY 1 GROUND SURVEYS {t-PM) AFTER PLUME PASSAGE POST-PLUME RADIOLOGICAL SURVEY/SANPLING DATA ( FOR END QINDOW AND PANCAKE PROBES) POST-PLU)if DEC// TIQE 0.0 llQURS END WINDOW PANCAKE TOTAL PROBE (CPU) PROBE (CPN) ZONE GROUND ACTIVITY UCI/N2 1 HETER 1 Cg 1 NETER 1 CM A 2. 19E+02 7. 1E+03 5. Of+04 1. 2E+04 5.OE+04 B 1 19E+02 3.9E+03 4.BE+04 6. 3E+03 S.OE+04 C 5.95E+01 1.9E+03 2.4E+04 3. 26+03 5.0E+04 D E 2.64E+Oi 1.67E+Oi 8.7E+02 5.6E+02
l. If+0) 1.4E+03 2.6E+04

6. 7E+03 9. 1E+02 1.7E+04 F 1. 17E+01 4.0E+02 4.76+03 b. 5E+02 1.2E+04 7.64E+00 2.7E+02 3. 1E+03 4.3E+02 7.6E+03 H 5.20E+00 1.9E+02 2. 1E+03 3.0E+02 5.2ft03 I 4.50E+00 1.6E+02 1.8E+03 2.7E+02 4.5E+03 J 1.22E+00 5 9E+01 4.9E+02 9.4E+0) 1.2E+03 K 2. 61E-Ol 5. 4E+0 1 1.0E+02 8.5E+01 2 bf t(I2
~
L 2 19E-01 4. BE+01 8 'E+Ol 7. 6E+01 2. 2>f t>>.2 L. T LLD 2. Of+01 . Of t01 3. OE+01 3 OE t01
~
NOTEs ASSUNED BACKGROUND READING 20 CPH (END WINDOW) 30 CP)1 (PANCAKE)
TABLE 10.6 .MICRO-R/HR DAY X GAHHA NlCRO"R/HR READlNGS DUE TO GROUND DEPOS1TlON POST-PLUHE DECAY TlgE 0.0 HOURS 81 HETFR 6~1 CP TOTAL ZONE GROUND ACTlVlTY UC 1 /H2 HlCRO-R/HOUR HICRO-R/HOUR A 2.19Ei02 3.2E+03 5. 5E+ <<'.3 B l. 19E+u2 1.7Et03 3.0E+03 C 5. 95E+01 8.7Et02 1.5E+u3 D 2. b4E+01 3.9E+02 b.bE+02 E 1. b7E+01 2.4E+02 4.2E+02 F 1.17E+01 1.7E+02 2.9E<02 G 7 '4E+00 1. 1E+02 1. 9E+i<2 H 5.20E+00 7. bE+01 1 ~ 3E+02 l 4.50E+00 b. bE<01 1. 1E+u2 J 1.22E+00 1. BE+01 3. i<E+01 K 2.blE-01 1.5E+01 .. bE+i<1 L 2. 19E-01 1.3E+ul 2. 2E t<)1 H L. T. LLD 1.0E4<<l 1. OF+i< V NOTE: ASSUHED BACKGROUND READ 1NG: 10 HTCRO-R/HR
Alg SA&lPLE >P+'OPIC RESULTS TABLE 10.7--A AIR PARTICULATE FILTER
.. jsoTor.fc 'AcTlvlTY (COLLECTION DURING RELEASE)
TOTAL FIELD I f31 CS-134 CS-L3T BA-140 LA-140 ZONE ACTIVITY READING UCI/CC (CPA) UCI/CC Ucl/CC UCI/CC Ucl/CC Ucl/CC , UC'I/CC A 1.27E-ob 16,068 1.09C-O7 3.78E-07 1.8LE-09 B. 31E-10 4. 23E-1 1 4. 23E-11 8 6. 16E-07 7>822 9. LBE-08 L.84E-07 a. BLE- lo 4.04E-lo 2.06E-11 2.06E-L 1 C 2.97E"07 $ .42E-OQ 8.84E-OB 4. 24E- 01 1. 95E-10 9. 9uE-12 9. 9OE-12 D 1.25E-07 1,606 1 . 87E-.>>.a 3.73E-OB 1.79E-10 B. 21E-11 4. 18E-12 4. LBE-12 E 7.63F."oa 986 l. 14E-08 2 '7E-08 1 . u9E-10 5. OOE-11 2 55E-12 2. 55E-12 F 4 '7E-Oa 649 7.4OE-09 1.4GE-oa 7~ 11E-11 3. 26E-1 1 1. 66E-12 1.66E-12 G 2.32E-i>a 314 3.46E-i>9 6.92E-i>9 3. 32E-11 1.5 E-I 1 P. 75E-13 7.75E-13 H 4.74E-09 80 7.i>6E-Li> 1.41E-O9 b. 7BF."12 3- 1 LE-12 1 ~ 58E-13 1. 58E-13 I 2.73E-O9 55 4. 07E-10 8. 14E-10 3. 91E-12 1. 79E-12 P. 12E-14 9. 12E-14
1. 13E-09 34 1. 68E-lu 3. 35E- lu 1. 61E-12 7. 38E-13 3. 75E-14 3.75E-14 (i 3. 85E-10 w5 5. 73E-1 1 1. 15E-10 5.50E-13 2.52E-13 1. 2BE-14 1.28E-14 L B. vbF-11 21 1.20E-11 2.JOE-LL 1. 15E-13 5.28E-14 2. 69E-15 2.69E-15 tl 1.. T. LLD 20 L.T. LLD L. T. LLD L. T. LLD L.T. LLD L. T. LLD L.T. LLD TABLE 10.7-B SILVER ZEOLITE CARTRIDGE RADLOIAL)IN(. ISOTOL'Ic ACTIVITY TOTAL F IELD J-L3L f-132 I-133 I-P 34 I-135 ZONE ACTIVITY READING UCI/CC (CF'l1) UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC A 3.8OE-06 13,672 5.66E-07 a. 16E-o7 1. 13E-Ob 2.55E-07 $ .03E-06 8 1 85E-06 6>657 2.75E-07 3.97E-07 5.51E-07 1.24E-07 4.9BE-07 C 8.89E-07 3,217 1.33E-07 I.VLE-07 2.65E-07 5.97E-OB 2.40E-07 D 3.75E-07 1,369 5.60E-OB 8.06E-OB 1.12E-07 2.52E-OB 1 ~ OLE-07 E 2.28E-07 842 3. 41E-08 4.91E-ua 6.82E"08 1.53E-OB 6. 17E-ua F 1.49E-07 555 2.22E-OB 3.20E-OB 4.44E-OB 9.99E-09 4. u2E-08 G 6.96E-OB 270 1.04E-OB L.5OE-OB 2.08E-OB 4.67E-09 L.BBE-OB H 1.42E-OB 71 2.12C-09 3.05E-09 4.24E-O9 9. 54E-10 3.84E-09 I O. 19E-09 49 L.22E-09 I.76E-09 2.44E-u9 5. 50E-10 2. 21E-09 3.37E-09 32 5. 03E-10 7. 24E-10 1.01E-u9 2. 26E- I 0 Q.LOE-LO g 1 15E-09 24 1 ~ 728-Io 2. >tBE-10 3. 44E-10 7. 74E-I 1 3.11E-Li>
L 2-4LE-10 21 3 60E-) 1
~ g. LBE-ll 7. 2uE- 1 1 ).52E-L 1 L. T. LLD 20 L. T. LLD LLD L. T. LLD L.T. LI D >.. T. LLD
PART X GENERAL XNFORMATION
ADDENDUM STATE OF'EW~ YORK AND ROCHESTER GAS- AND. ELECTRIC CORPORATION EMERGENCY, PREPAREDNESS EXERCISE MANUAL 1987 INGESTION PATHWAY EMERGENCY EXERCISE, OCTOBER, 1987 Prepared by: ROCHESTER GAS & ELECTRIC CORPORATION CONTROLLED COPY NO.
1987 INGESTION PATHWAY EMERGENCY EXERCISE FOREWORD This- exercise package has been developed- to provide the; basis. for the conduct. of, a-. simulated; major radiological accident at the. Ginna Station located in Ontario, New York. The simulated accident wi11. be. assumed'o be of, sufficient. magnitude to result in. significant'. offsite. deposition affecting various environmental media, of concern within" the 50-mile- Ingestion- Pathway Emergency Planning Zone., Through. this exercise, the capabilities and effectiveness, of the Emergency Response Plan for the State of New York will be demonstrated and evaluated., Utility, local govern-ment. and federal agency support capabilities. will also be demonstrated. as supplementary assistance to the New York State Response. This. package is to be utilized by the Exercise controllers and observers to initiate, control and evaluate the activities of the participants in the Ingestion Pathway Emergency Exercise. The State of'ew- York and'. Rochester Gas. and Electric- Corporation approve this.- document. as the standard for: conduct in performance. of the-', October;, 1987',, Ingestion". Pathway Emergency Exercise. 1-1
STATE OF NEW YORK AND ROCHESTER GAS AND ELECTRIC CORPORATION 1987 INGESTION PATHWAY EMERGENCY EXERCISE'NTRODUCTION The. New York State: Ingestion Pathway Emergency;Response Plan describes, the emergency response capabilities and responsi-- bilities. for, a radiological emergency affecting. the State, including support from Federal, State, and local government agencies and private organizations. The State Ingestion Pathway Emergency Response Plan provides for continuous emergency preparedness, including a Federally-evaluated exercise to be conducted at a minimum 6-year frequency. The purpose of the Exercise is to activate and evaluate major portions. of the emergency response capabilities and other aspects of the, New York State Ingestion Pathway Emergency Response Plan and associated Implementing Procedures, in accordance with Nuclear. Regulatory Commission (NRC) Regulation 10CFR50.47'(b) and Appendix E, and. Federal Emergency Management Agency (FEMA) Draft Guidance Memorandum IN-1. This Exercise will. be with the; participation'f; State. of. New York, selected'ounties within a 50-mile. radius of the R.E. Ginna- Nuclear Power Plant, the Department of Energy and Rochester Gas and Electric Corpoqation in order to assess overall State emergency capabil-ities in response to a. postulated event affecting the Ingestion Pathway. 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. 1 " h P ~k ~the s mulated nc dent or ~an arts thereof such as radicle ical weather pattern 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 IZ contains the scenario and time schedule of simulated plant conditions. The Exercise Manual is subject to a limited, controlled distribution. NOTE: As exercise efforts progress, minor changes may be required to this scenario package. Any changes will. be identified during pre-exercise meetings. 1-2
ADDENDUM STATE OF NEW YORK 1987 INGESTION PATHWAY EXERCISE TABLE OF CONTENTS: FOREWORD PART.' GENERAL INFORMATION 1.0'COPE, AND OBJECTIVES 1.1, Scope 1.2 On<<Site Objectives 1.3 Off-Site Objectives 1.4 Summary of Proposed Activities 2~0 EXERCISE INFORMATION 2;.1 Exercise. Participants Exercise Organization ( 2,.2:. 2..3, 2:.5: Emergency Response: Exercise Conduct Precautions and Limitations Facilities.4: 2.6: Evaluation and: Critique 3'.Q: TRAVEL., INFORMATION'.1 Directions to Ginna Station 3.2 Directions to-EOF, ESC, JENC 3.3 Accommodations. 3.4 Directions to State Facilities 4 EFERENCES ABBREVIATIONS-ACRONYMS 4.3. References~ 4.2. Abbreviations-Acronyms 5.0 CONTROLLER AND EVALUATOR INFORMATION 5~1 Controller Instructions 5.2 Evaluation Xnstructions 5' Personnel Assignments 5' Evaluation Packages 6.0 SCHEDULE OF EVENTS g
STATE OF NEW YORK AND ROCHESTER GAS AND ELECTRIC CORPORATION 1987 INGESTION PATHWAY EXERCISE TABLE OF CONTENTS: cont'd PART XX SCENARIO INFORMATION 7' EXERCISE SCENARIO 7'.1 Initial Conditions 7.2'arrative Summary 7.3 Scenario Timeline 8.0 MESSAGE FORMS AND PLANT DATA SHEETS 9.0 ON SITE RADIOLOGICAL. DATA 9.1 Radiological Summary 9.2 Post-Accident, Sampling Results 10.0 METEOROLOGICAL AND OFF-SITE RADIOLOGICAL DATA 10.1 Meteorological Data ( 10.2'aps* 10'.3, Deposition Data
11.0 DESCRIPTION
OF SCENARIO ASSUMPTIONS LIST OF FIGURES Section 3.0 Figure 3.1 Directi'ons to Ginna Station= Figure 3.2 Directions to SEMO Lake District Office Figure 3.3 Directions to RG&E EOF/JENC Figure 3,.4 Directions to State Emergency Operations Center, Albany Figure 3.5 Map of State Office Building Campus, Albany Figure 3.6 Map of 50-mile Radius Around Ginna Section 9.0 Figure 9.1 Scenario Source Term 1-4
LIST OF FIGURES CONTINUED Section 10.0 Figure 10.1 Direction of Plume. Figure 10.2 ~ Plume Map (0-1 mile) Figure 10.3 . Large Plume Map (0-10 mile) Figure 10.4 Ginna Releases Deposition Pattern (0-40 miles) Figure 10.5 Preliminary Results from DOE ARMS (Day 2) Figure.. 10.6 Late- Results'rom DOE ARMS (Day 2) V LIST'F'ABLES'ECTION 1.0 Table 1.1 Ingestion Pathway Exercise- Proposed Activities SECTION 5-0 Table 5.1 Controller Organization SECTION 7.0 Table 7'.l. Meteorological Conditions Summary ( SECTXON'. 0. Table 9'.1, Assumed- Release* Quantities Table'; 2, Plant Vent; Sample Analysis SECTION: 10'. 10.0 0'able Sample Count/Dose Rates Table 10.1 Post-Plume Ground Survey Count Rates Table 10.2 Post-Plume Ground Survey Micro-R/HR Readings Table- 10'. 3 Soil Deposition Activity Table 10.4 Airborne Particulate and Radioiodine Isotopic Analysis Results from Offsite Samples. Collected During Release Table 10.5-a Pasture Grass, Silage, Late Harvest Hay Table 10.6-a: Cow's Milk Activity
.Table 10.6-b Goat's Milk Activity Table 10.7-a Fresh Produce Activity (Large Leafy Vegetables, Large Surface/Mass)
Table 10.7-b Fresh Produce Activity (Large Mass/Surface) Table 10.7-c Fresh Produce Activity (Root Vegetables) Table 10.8-a Surface water (Small Lakes, Ponds, Reservoirs, Creeks) Table 10.8-b Surface water (Large Lakes, Rivers) Table- 10.9 Personnel and Equipment Contamination g 1-5
SECTXON'.0', SCOPE AND OBJECTIVES
1987 INGESTION'ATHWAY EXERCISE SECTION 1.0 SCOPE AND OBJECTIVES
l. 0 SCOPE AND OBJECTIVES 1.1 ~Sco e The 1987 Ingestion Pathway Emergency Preparedness Exercise,'o be conducted in October, 1987, will simulate- post-accident condi,--
tions resulting from a major radiological accident releases from- the R.E., Ginna Nuclear Power Plant,, located in Ontario, Wayne County, New: York.. The* Ingestion Pathway Exercise will involve events. that test. the effectiveness of the New York State-Radiofogical Emergency Preparedness Plan (REP), the State Radiological. Ingestion Exposure. Procedure, the. integrated capabilities of the emergency organizations of the State of New York, the counties within a 50>>mile radius of the Ginna Nuclear Power Plant, the Department of Energy and Rochester Gas.and Electric Corporation. The Exercise will, include the limited. mobilization of state, local and utility resources adequate to verify their capability to respond t to an accident. The exercise- objectives are provided as separate sections, divided into the objectives for the Plant (Section 1.2) and those of, each state/local agency (Section 1.3). A summary of proposed activities. is, delineated. in section 1.4,, following, the attach-( ments. 1..2'n-Si,te Ob ectives'OF The major.. objective. of'he exercise is, to demonstrate the response capabilities of the Ginna. Station Emergency Response. Organi.'zation. Within this'verall objective, numerous individual objectives are specified as follows: 1.2 1
~
Demonstrate ability to deploy and coordinate environmental sampling teams (0-10 miles). Teams will be- simulated.
1. 2.
2'emonstrate. ability to evaluate laboratory data and/or field measurements and provide appropriate PAR's and interface to New York State. 1.2.3 Provide interface with New York State Post-Accident Assessment and in Public Information functions as needed. (
i 1987 INGESTION PATHWAY EXERCISE, cont'd SECTION iso ls3 Off-site Ob'ectives The: off-site.. agencies'bjectives are found as follows: ('SEE ATTACHED'ROPOSED OFF, SITE OBJECTIVES g ATTA'CHMENT. A) Z.4: ~Summs of ~Pro ossd. Activity.es Table 1-I. lists' summary of proposed activities for the 1987 Ingestion Pathway Emergency Preparedness Exercise.. The listing describes, by organization, if an activity is to actually be, accomplished or is to be simulated. A blank space devotes that the activity does not apply to that particular agency.
PROPOSED EXERCZSE OBJECTZVES FOR THE 19&7 GZNNA EXERCZSE
'Rev. 8/26/87 ew o State SEOC'1 -5)
Demonstrate the ability to communicate with all (CO appropriate locations:, organizations, and field support+ h establish appropriate communication links. !.1hould Systems include RECS line, executive hot-line and commercial lines, RACES, radios 'and telefax. The RECS line; will be used. as- the primary system to receive information from the licensee. Also, the- ability to ( receive;. and verify. the initial and. follow-up emergency notification from the: licensee will be- observed. (No simulated! failures are to be evaluated. Back-up systems're to be used in the event of actual failure of, the. primary systems., SEOC Demonstrate the ability to mobilize staff and activate-
-1) .the State EOC in a timely manner -2'CO 9 p timely arrival of staff and setting up of EOC.
SEOC. -3. Demonstrate=the adequacy. of facilities and displays to (CO -4) support emergency operations.. access to EOC areas; ident;if ication badges are verified; ingress and egress logs are maintained. Messages are transmitted in an accurate and timely manner, messages are to be properly logged, status boards are accurately maintained and updated, appropriate briefings are held and incoming personnel are briefed. Sufficient equipment (e.g., furniture, space, lig."."'.".g, telephones and status boards) should be availabl,e. (
h SEOC'4 ~ Demonstrate the ability to make decisions and (CO -3) coordinate emergency activities. d' I g for decision making must be clearly in charge, taking into account all critical parameter (e.g., evacuation time estimates, available resources, met data, etc. ) . SEOC'5 (CO -2) Demonstrate the maintain staffing g around the clock. h' '. 'l ability to fully staff facilities staff must be. observed. The shift change must show 24. hour coverage. Agencies. that have demonstrated 24 hour and 11 k g coverage in previous exercises will be given credit for meeting this objective. SEOC -6 Demonstrat'e the ability to identify the need for, (CO -32) request and obtain Federal assistance. I I command and control function. The decision maker vill be asked about the circumstance under which he vould request Federal assistance. SEOC'7 (CO'10)'emonstrate the ability to project dosage to the public via. the; plume exposure, based on. plant'nd. field data, and'a determine appropriate protective actions based on PAG.'s:, available shelter, evacuation time estimates, and all other appropriate factors. Sll&ll personnel will provide recommendations to the decision maker based; upon utility recommendations,independent recommendations from accident. assessment group and off-site= factors. Command and control will make decision based on inputs from the various sources. all factors. will be carefully analyzed before a decision is made. SEOC -8 Demonstrate the ability to. provide. advance (CO 25) coordination o f in formation released. Guidelines: Coordinate among NYS and 2 counties for the decision to simulate the activation of the sirens and the s"bsequent activation of the EBS.
SEQC'9 (CO -22) Demonstrate the ability to the decision has been made supply and adminj.ster KI to do so. jf
' 1' ~ ~
discussed after the release occurs. In the event the scenario does not yield a significant iodine release that warrants KI usage, emergency workers should know who will direct them to take KI. SEQC'NG'1. Demonstrate the ability to make decisions and to coordinate emergency activities within the ingestion (CO -3), pathway exposure emergency planning. zone. 1 d inputs 'rom various sources. all. factors wj.ll be carefully analyzed before- a decision is made. -. SEQC Demonstrate the ability to communicate with all ING -2 appropriate locations, organizations,and field (CO -5) personnel; special emphasis will be on communications between field monitoring and sampling teams and their control points. and commercial lines. 1d' SEOC Demonstrate the ability to project dosage to the I'NG'3'CO public via ingestion pathway exposure, based'n utility
-11) and field. data and to determine appropriate. protective:
actions, based on the PAG's, and other relevant factors personnel will provide these recommendatj.ons. to decision makers SEOC Demonstrate the ability to implement preventive and ING emergency protective actions for the ingestion (CO -12) exposure pathway hazards. I. situation including. staff input and issue a decision to the respective agencies for implementation.
SEOC'NG (CO
-5 -6)
Demonstrate. the collection teams ability to mobilize in an
'g ',,d timely fashion.
and deploy'ample notified during the .inhalation Portion of the, exercise and then pre-positioned at one of the appropriate SEMO district. office at the. beginning. of the ingestion phase. current Equipment checkout, team briefings and the status and disPatching to field monitoring sample points. vill he-. conducted. The 5 teams; will actually be.he. deployed'n. the 50 mile-EPZ'.. Dose assessment will done solely wi.th State. input., Other State- agency teams. may simulate activity. Brookhaven National, Laboratory/DOE will. assist per 0he Federal Monitoring and Assessment Plan., SEOC Demonstrate appropriate equipment and procedures .for ING -6 laboratory measurement and analysis of approporiate-radioisotope deposition in food and environmental samples. RLgill: to the DOH. be evaluated. labs, 1 'l gl Albany. The lab techniques 11 1 vill Data for the, samples- will be provided, by not a, controller; to--the appropriate exercise participants.. Upon:. arrival a< the- lab, sorting, diluting: and. labeling of.'amples:, procedures for preventing.. laboratory contamination and cross contamination and some- sample. preparation will he evaluated. Laboratory analytical. capabilities; will, be: documented by the NRC'nd. provided to FEMA'. SEOC Demonstrate the ability to estimate, total population INQ-7'CO exposure. 34) d 1 gy d 1 processes used to determine total population exposure will he evaluated. Actual calculations for determining population exposures will not he evaluated.
Demonstrate the ability to formulate and distribute SEOC'NG-8 appropriate instructions to the public in a time]y JNC-1 manner.. (CO-14)
"ll P will be operational will be the State function responsible for the distribution of information to the public. This objective will be demonstrated out of the SEOC for the purpose of this exercise. No rumor control, media response nor issuance of EBS will be evaluated, however, the capability for these will be observed.
ct'r
'PPP Weste n Dist enc 0 e at n Ce te WDEOC WDEOC-1 Demonstrate the ability to mobilize staff and activate (CO-1) the WDEOC in a timely manner.
Ll timely arrival of staff and setting-up of EOC. WDEOC-2 Demonstrate the adequacy of facilities and displays (CO -4) to support emergency operations. Pl l. access. to EOC areas; identification badges- are verified; ingress- and. egress logs are- maintained. Messages. are transmitted in an accurate- and timely manner., messages are properly logged, status boards are accurately maintained and updated, appropriate briefings. are held and. incoming personnel are briefed. Sufficient equipment (e.g.,furniture, space, lighting, telephones and status hoards) should be available. WDEOC-3 Demonstrate the ability to make decisions and to (CO-3) Guide ': coordinate emergency activities. Individual acting in &. control for assisiting in implementing State. EOC activities must be in charge. WDEOC-4 Demonstrate the ability to communicate with all (CO-5) appropriate locations, organizations, and field personnel. Guideline: Communications include RECS line, and commercial lines. (Note: No simulated failures are to be evaluated. Back-up systems are to be used in the event actual failure of the primary system). (
WDEQC-5 Demonstrate the ability to fully staff facilities (CQ-2) and maintain staffing around the clock. a e Distr ct Emer enc 0 eratin Ce ter LDEOC LDEOC-1 Demonstrate the ability to mobilize staff and activate (CO-1) the. LDEOC in a timely manner. th'l-pP timely arrival, of staff and d setting-up of EOC LDEOC-2. Demonstrate the adequacy of facilities and displays (CO-4) to support emergency operations. I access to EOC areas; identification badges are verified; ingress and egress logs are maintained. Messages are transmitted in an accurate and timely manner, messages are properly logged, status boards are accurately maintained and updated, appropriate briefings. are held and incoming personnel are briefed., Sufficient. equipment. (e.g , furniture,. space, lighting; telephones and, status boards) should'e available. Demonstrate the ability to make: decisions: and to, coordinate emergency activities. LDEOC-3'CQ-3) G 'del 'ne: 4 See WDEQC-3, (CQ-4) . LDEQC-4 Demonstrate the ability to communicate with all (CQ-.5) appropriate locatiens, organizations, and field personnel. Gu'deli e: Communications include RECS line, executive command line, and commercial lines. (Note: No simulated failures are to be. evaluated. Back-up systems are- to be used. in the event. of actual failure. of primary systems) . If appropriate, capability for receiving field measurement data from sampling teams wi'll be evaluated. LDEOC Demonstra" e the ability to communicate with all ING-2 appropriate 'ocations, organizations and field (CO-5) personnel. will be =e o f ( by radio.
LDEOC 5 Demonstrate the ability to mobilize and deploy ~ample ZNG -5 collects.on teams in a timely fashion. (CO -6) notified and pre-positioned at the district office. Equipment checkout, team briefing and the current status and dispatching to field monitoring 'sample points will be conducted. TDEOC-6. Demonstrate the ability to fully staff facilities. (CO-2) and. maintain staffing. around the: clock. LDFA-1 Demonstrate appropriate equipment including personal. (CO-9) dosimetry and procedures for the collection and ZNG transport. of samples of soils, vegetation, snow, water and milk. DOH lab, Albany, from the area of potential impact. protective clothing will not be worn for the duration of'he ingestion pathway exercise. supplies of protective clothing, including hand and foot covering can be worn for evaluation, then removed.
~ 'e enc 0 e atin Facilit EO EOF-1 Demonstrate the ability to mobilize staff and: activate.
(CO-l) State- functions at the EOF in a timely manner..
"*'J.
Stat'e representative will
"'ositioned.
demonstrate an appropriate arrival time, at the Alert ECL.'ocal repesentative will activate in accordance State EOF with. procedures. Demonstrate the ability to communicate with all EOF-2'CO-5) appropriate locations, organizations, and field personnel. Guideline: C".",....unications include RECS line, RACES,
".a5ios, telefax, and commercial lines. '::~"e: No simulated failures are to be ated. Back-up systems are to be used =he event of actual failure of the - ..-.a y systems) . Commercial telepho"..e s will be the primary system
EOF-3 Demonstrate the adequacy of facilities and disp'lays (CO-4) support emergency operations EliCQla' ': EOF-4 Demonstrate the ability to fully staff facilities. and (CO-2) and maintain staffing around the clock.
*yy'l.'y 'lly: y y roster.
Monroe Count Eme enc 0 e atin Center EOC MEOC-1 Demonstrate the ability to communicate- with all (CO 5) appropriate locations, organizations, and field personnel. 1 executive command line, Races, radios,telefax and commercial lines. The RECS line will be used to. receive information from the licensee. The commercial telephone will be used. as. a; backup. The County will also- communicate" with. the: U. S. Coast: Guard, and. the. J yy Ontario-Midland Railroad. (Note'. no simulated; failures are- to. be: evaluated) . Demonstrate the ability to; mobilize staff; and. activate MEQC.-'2'CO~1).. facilities promptly. P timely arrival of staff and setting up of the EOC. Albany based. staff will arrive at the Alert ECL. MEOC-'3 Demonstrate the adequacy of facilities and displays to (CO-4) support emergency operations Pl access to areas; identif ication badges are verified; ingress and egress logs 're maintained. EOC Messages are transmitted in an accurate and timely manner, messages are properly logged, status boards are accurately maintained and updated, appropriate briefings are held and incoming personnel are briefed. Sufficient equipment (e.g., furniture, space, lighting, telephones and status boards) should be available. MEOC-4 Demonstrate the ability to make decisions and to (CO-3) coordinate emergency activities.
( for decision d'd making must I be d I clearly in charge taking into account all critical parameters (e.g,, evacuation time estimates, available resources, met data, MEOC-5 Demonstrate the ability to fully staff the faci].ity (CO-2) and maintain staffing around the clock. 1 roster.*
*gg'I'* 1 1 ly.
MEOC-6d Demonstrate the ability to project radiation dosage to
. (CO-10) the public via plume exgosure, based on plant data and and,; field. data, and to determine appropriate protective measures, based on PAGs= available shelter,, evacuation.,
time. estimates,and other appropriate factors. d personnel will provide these recommendations to decision makers. MEOC-7 Demonstrate the ability to alert the public within the (CO-13 ) 10-mile EPZ, and disseminate an instructional message, within 15 minutes; I 'g notification g prompt: alert= system with- Wayne County and New York. State. The. EBS will be activated and each County will simulate activation of the sirens MEOC-8; Demonstrate the organizational ability and resources (CO-15) necessary to manage; an, orderly evacuation of all or part of the 10 mile EPK. I 'll situation including staff input and issue a decision y* to the respective agencies for implementation. MEOC-9 Demonstrate the organizational ability to deal with (CO-16) impediments to evacuation, such as inclement weather. or traffic obstruction. Resources will actually be deployed. Guideline: Command and Control will analyze situation including s"aff input and issue a decision to the respective agencies for implementation. MEOC-10 Demonstrate the organizational ability necessary to (CO-17) control access to an evacuated area. Guideline: .':o resources will be deployed.
MEOC 11 Demonstrate the ability to identify the need for, (Co-32) request and obtain State assistance(if warranted). Guideline: This ability will be demonstrated County should determine that this ac tion is necessary. if the FIELD ACTIVITY MCFA-1 Demonstrate the ability to continuously monitor and (CO-20) control emergency worker exposure Y t 1 t h' g and. low range dosimeters, TLD's, know reporting exposure limits to supervisors and the proper use of dosimeters. Emergency workers. are. knowledgeable on procedures and systems for obtaining permission to exceed limits as de fined by respective county plans. This guideline will also include State emergency workers. MCFA-2 Demonstrate the ability to mobilize and deploy field (CO-6) monitoring teams in a timely manner. checkout, team briefing on current status and dispatching to radiological field monitoring sample points. Demonstrate appropriate equipment and. procedures for MCFA-3'CO-7) determining ambient radiation levels. the instruments correctly including recording of data and reporting of data to the EOC.. MCFA-4 Demonstrate appropriate equipment and procedures for (CO-8) measurement of airborne radioiodine concentrations as low as 10-7 uCi/CC'n the presence of noble gas. an air sample, read the sample and record the dat'a, and transmit he data to the EOC. 1 MCFA-5 Demonstrate the ability to provide backup public (CO-13) alerting procedures, If necessary, in the event of partial siren system failure. Guidelines: This activity is to simulated. The police wi11 be notified but not deployed. Dioscussion will take p'ace at the EOC
MCFA>>6 Demonstrate that information on emergency actions has (CO-14) has been provided to permanent and, transient population vithin the 10 mile EPZ.
'l to FEMA will meet this ob j ective. Additionally, d'YS the annual certification will serve to verify that information has been distributed.
MCFA-7 Demonstrate the organizational ability and resources necessary to estasblish a; traffic. controL point. (CO 17) observed. l.p 'll:1 - p-MCFA-8 Demonstrate the ability to supply and administer KI, (CO-21) if the decision has been. made to do so. llJ:discussed* will be after 0he release occurs. Emergency workers should know who will direct them to take KI. MCFA-9 Demonstrate the organizational ability and resources (CO-15) necessary to manage an orderly evacuation of all or part. of the plume EPZ.. Gu'delines; Messages will be inserted't the. County EOC; to the Command and Control. Xn formation will be. passed. to the appropriate agency for action and dispatching of one.(1) bus run. MCtA-10 Demonstrate a sample; of'esources necessary to deal (CO-16) with, impediments. to evacuation, as inclement weather or traffic obstruction.
"I'KP " < 9 scene.
MCFA-11 Demonstrate the adequacy of procedures for registration (CO-27) and radiological monitoring. of evacuees over a 24 hour period. g' ~ should be enough personnel a'nd equipment capable of monitoring all residents and transients in the plume exposure EP~ arriving at the reception center. A center no" utilized in previous exercises should be used for th'.s exercise. This will be. set up out of sequence '.~;"h the exercise-.
( MCPA-12 (CO-28) Demonstrate the adequacy of evacuees. facilities for mass care of 11 function as shelter managers, registrar and staff members. Once the ARC is told how many people to expect, they should have access to personnel to cover the initial 24 hour operation, explain support agreement and: have floor plans for set .up of the center. This- will. be set. up. out of sequence with the exercise.. MCFA'-13 Demonstrate adequate procedure and- equipment for of contaminated waste (e.g., clothing) . 'isposal MCPA-. 14 Demonstrate= the organizational ability and resources (CQ-19) necessary to effect an orderly evacuation of schoos within the plume EPZ. Observer will go to the bus garage, contact dispatcher, ride bus (van) to the school and then to school reception center. Bus drivers knowledge of dosimetry will be observed. Wa e Count E e enc 0 eratin Cente EQC WEQC-.3 Demonstrate. the'bility to communicate with. all (CQ-5) appropriate locations,, organizations, and field personnel. WEQC-2 (CO-1)'emonstrate the ability to mobilize staff and activate. facilities promptly. WEOC-3 Demonstrate the adequacy of'acilities and displays to (CO-4) support emergency operations. WEOC-4 Demonstra e the ability to make decisions and to (CO 3) coordinate e."..ergency activities. Guidelines: , See MEOC-4, (CO-3) WEQC-5 Demonstra e -..".e ability to fully staff the facility (CO-2) and maint.~;". "=offing around the clock. ( Guideline: "e "..EOC-5, (CO-2)
( WEOC-6 (CQ-10) Demonstrate the ability to. project radiation to the public via the plume exposure, based ondosage plant data and field data, and to determine appropriate protective measures, based on PAGs, availabl,e shelter, evacuation time estimates, and other appropriate factors. Guideline: See MEOC-6, (CO-10) Demonstrate the ability to alert the public* within the; WEQC-7'CQ-13 10-mile. EPZ, and'isseminate'n instructiona3., message within 15 minutes. p 1' ig prompt alert notification system with Monroe- County and. New York State.. The EBS will be activated and each County will simulate activation of the sirens. WEOC-8 Demonstrate the organizational ability and resources (CO-15) necessary to manage an orderly evacuation of all or part of the 10-mile EPZ. WEOC-9i Demonstrate. the. organizational ability. to deaL with, (CO-16), impediments to. evacuation,. such as inclement weather or, traf fic: obstruction.
'y. '
x a.. WEOC-3 Demonstrate the. organizational ability necessary to 0'CO-17). control access- to an. evacuated. area. WEQC-11 Demonstrate. the ability to identify the need for, (CO-32) request and obtain:. State assistance (if warranted). I WEOC-'12 Demonstrate the ability to effect an 1 orderly evacuation (CO-23) of onsite personnel. Guidelines: Coordination with NFO of evacuees, pe". the plan, is to be observed. I D ACTIVITY WCFA-1 Demonstrate the ability to continuously monitor and (CO"20) control emergency worker exposure. Guidelines: See'CFA-l, (CO-20)
WCFA-2 Demonstrate the ability to mobilize and deploy field (CO-6) monitoring teams in a timely manner., WCFA-3 Demonstrate- appropriate equipment and procedures for (CO-7) determining ambient radiation levels. WCFA-4: Demonstrate appropriate. equipment and" procedures for (CO-8) measurement o f airborne radioiodine- concentrations's, low. as. 10-7 uCi/CC. in the. presence of noble gas. WCFA-5 Demonstrate the ability to provide backup public (CO-13) alerting procedures, if necessary, in the event of a partial siren system failure. Gu'deline: The route alert drivers, members of the Ontario Fire Department, will be interviewed. at their point of deployment, about route alerting procedures. Updated. maps will be observed, adequacy of the number of vehicles; and- also knowledge. of KZ procedures and. exposure control will. be. ascertained. WC'-6 Demonstrate the. ability to formulate. and distribute (CO-1'4) appropriate instructions to the- public in. a. timely fashion. RlilMi" WCFA-7 Demonstrate the organizational ability and resources (CO-17) necessary to control, access to an evacuated, area. WCFA-8 Demonstrate the ability to supply and administer KZ, (CO-21) if. the decision has been made to do so. Guideline: See MCFA-8, (CO-21) WCFA-9 Demonstrate the organizational ability and resources (CO-15) necessary "o .-.,anage an .orderly evacuation of all or part of the plume EPZ. Guideline: See MCFA-9, (CO-15) HCFA-10 Demonstrate a samPle of resources necessary to deal (CO-16) with impediments to evacuation, as inclement weather or traffic obstruction. Guideline: This activity. will be simulated. WCFA-11 Demonstrate the adequacy of procedures for registration (CO-27) and radiological monitoring of evacuees over a 24 hour period. Gu'delines: S'ee MCFA-11, (CO-27). WCFA-12. Demonstrate the- adequacy of facilities for mass, care (CO-28) of'vacuees.. WCFA-13 Demonstrate adequate procedure and equipment . for disposal of contaminated waste (e.g., clothing). WCFA-14 Demonstrate adequate equipment and procedures for (CQ-29) decontamination of emergency workers, equipment and vehicles. Guidelines: procedures for disposal of liquid waste should. be demonstrated. WCFA-15 Demonstrate. the organizational. ability and resources (CO-19) necessary to effect an orderly evacuation. of schools within, the plume EPZ.. Gu'delines: See MCFA 14. Zo' News Center JNC-1 Demonstrate the ability to mobilize staff and activate. (CO-1) the facility promptly.. 1. accordance with their notification procedures. The State PXO will demonstrate an appropriate arrival time, at= the. Alert ECL. JNC-2 . Demonstrate the ability to brief the media in a clear, (CO-24) accurate, and timely manner. Guideline: Assure that all necessary information is presented to the media in press releases in a timely manner. Ala required personnel will be present at the briefings unless EBS messages or news release preparation is determined by respective PXQ to take priority. ( -as-
JNC-3 Demonstrate the ability to communicate with all (CO-5) aPProPriate locations, organizations. and field pexsonnel. es: Coordination among personnel to ensure information for release is known to all Counties State and participating licensee (i.e=.< "sign off procedures"). JNC-4p Demonstrate the ability to establish and opexate. (CO-26) rumor- control. in a coordinated fashion.. respond. accurately- to incoming; calls Zd based on scenario
'll information.
JNC-5 Demonstrate: the- ability to fully staff facilities (CO-2,) and', maintain staffing around the clock. p d d shift change. NYS will demonstrate 24 hour coverage via roster. JNC-6 Demonstrate the adequacy of facilities and displays (CO-4) to. suppoxt emergency operations. y d dd utility'sd evaluation and will the. off site evaluationnot'ppear.'n: JRC-7" Demonstrate the'bility to alert the public. within. the (Cd-W) 10-mile; EPZ,. and. disseminate an initial instrpuctional, message,, within. 15 minutes.
*'p the'test) instructional message d issued1 via the d Emergency Broadcast System must be ~a'~e within 15 minutes after the authorized public officials reach a 'ecision which requires activating the alert and notification syst: em. Subsequent messages must be read in" 15'inutes after the decision to do so has been made (i,.e., this will have been met if of the message are read into the telephone the first. two'ords at the JNC prior to the end of the 15 minutes.
(i.e. the first two words have been read into the d telephone at the JNC.
Demonstrate the ability to formulate and appropriate instruction to the public in distribute a timely manner.- prepared and provided to the public consistent with the needs for public response. This may be accomplished through EBS messages, news releases, newspapers, telephone and/or radio and television.
TABLE'-l STATE OF NEW YORK AND ROCHESTER GAS AND ELECTRIC CORPORATION'987 INGESTION PATHWAY EXERCISE PROPOSED ACTIVITIES AFFECTED RG&E NYS'OUNTXES'OE Classification of'mergency Actual* Actual+ Notification of Offsite Agencies Actual* Actual*. Call up of Personnel. Actual** Actual** Actual** Actual** Activate Organization Actual** Actual** Actual** Actual** Maintain Security RCS Post Accident Sample Simulate* RCS Post Accident Sample Analysis Simulate* Use of Protective Equipt. Simulate***Simulate*** Carry Out Dose Assessment Actual** Actual** Actual** PAG. Recommendation Actual Actual Operate J'oint News Center BS Message Simulate. ispatch. Field Survey Teams, Simulate; Actual-5 .-";-,;i} Exchange of- Field'ata- Actual, Actual Actual Field Team. Communication Simulate. Actual Actual Personnel'Monitoring, Simulate: Actual
To be provided by Ingestion Pathway Exercise Controllers as part of .Initial Exercise Briefing.
** Selective personnel and facility activation to be conducted, in accordance with Ingestion Pathway Exercise ground" rules. ***Protective Clothing in general will be. simulated. FEMA. and NRC observers: may request that some. teams actually don or describe use of equipment. These requests. shall be directed to the controller for the team.
SECTION 2.0 EXERCISE INFORMATION
2e0 EXERCISE INFORMATION 4 The participants in the Exercise will include the following: 2 ~ l. 1. Off-Site A encies Or anizations Participation of the following Agencies/Organi zations is- expected: State
a. New York:State Department of'ealth

b. New York. State. Department of Agriculture and Markets.

c. New York State Department of Environmental Conservation

d. New York State Department of Transportation

e. New York State Emergency Management Office Lake District and, Central District Offices f'ew'ork State Radiological Emergency Prepared-ness. Group.
2'ederal CL e" Department of'nergy. Radiological Assistance Program (RAP) Team Representatives. from the
't Brookhaven Area Office r
3 ~ Local at Wayne County.
b. Monroe County C~ Other ,selected counties within the 50-mile radius EPZ surrounding Ginna Station, which are affected. by the scenario release plume.
2.1 ~ 2 1* Plant Radxochemist and/or alternate to coordinate environmental sampling process-ing=as appropriate;
b. Emer enc 0 erations Facilit EOF EOF/Recovery Manager, selected EOF managers, EOF Dose Assessment staff and radiological environmental monitoring t'.earns dispatched from the EOF;

c. Joint Emer enc News Center JENC OPT10NAL :
Corporate Spokesperson, News Center Manager and. selected'ews Center staff; The- organization for this Exercise will consist: of the Exercise Coordinator, the- Controllers, the Players, and the-Observers, as follows: 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 Exercis-e, 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. Controllers are qualified personnel selected to perform funct:ions. as follows:. A'ead'ontroller is assigned'o 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
'or teams or subareas of a facilit:y report to the Lead Controller. of that facility.
The Controllers will deliver "Exercise designated players at various times and. places Messages"':o 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 at their assigned locations, and prepare evaluation forms. Controllers/observers submit written recommendati-ons on correct:ive actions to the Lead Controller, who in turn summarizes all comments for submittal to the Exercise Coordinator prior to the schedul'ed critique. The Controllers will be provided with a list of instructions in the Exercise Scenario.
3. 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 Procedur-es, and Exercise messages and 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
~f. ~b ~earince cg.-een. arm
~Pla ers include Sinna 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 off-site organizations and agencies (county, State, and private industry) are participants in the Exercise as described in their respective Emergency Plans and Standard Operating Procedures. K Observers from The Rochester Gas and Electric Corpor-d h g f.* t participate. in the Exercise solely yfor the purpose of b elm d observing/evaluating, Exercise activity. They will;be-- provided with orientation information and, appropriate exercise publications. Observers
!. ~ \.1 a~
will be; identified ~b ~wearin h~ maroon arm Visitors from the Rochester Gaa and Electric Corporati-on- and other organizations may be assigned, on a limited. basis, for the sole purpose of observing exercise activities for personal education. Visitors will be identified by wearing white arm bands with black lettering stating "Visitor". They will. be provided with orientation information and appropriate exercise publications. Requests to participate as a Visitor should be made in writing and contain the Visitor s full name, home address and phone number, and organizational affili-ation. Requests to participate as Visitors must be submitted to the RG&E Corporate Emergency Planner (CEP) no later than one week before the Exercise.
During- the Exercise, special facilities must be activated to manage, assess, and support emergency response. New York State Facilities C The New York State Emergency Response Facilities are: State Emer enc 0 erations Center Xn: the'vent of'* nuclear power plant incident, command and control operations are managed from the State EOC in Albany The Chairman of, the Disaster Commission as, the Governor's designee--and
'reparedness other State Officials direct the emergency management response and recovery operations. The. Command Room is augmented by State and District EOC operations, radiological assessment and evaluation, communications.
and public- information. 2 ~ State Emer enc Mana ement Office Lake District Office The SEMO Lake District Office, located in Newark, NY, will be the staging area location for State radio-logical survey/sampling teams performing Ingestion Pathway monitoring activities. Coordination of'uch monitoring missions with respect to operations,. communications, and sample delivery to the State.:. Laboratory for. analysis wil1 be directed from the SEMO Lake District. Office. by the appropriate agency repre-sentative., State Emer enc Mana ament Office Central and Western Distract Office The SEMO Central and Western District Offices will receive radiological emergency information from State Headquarters on a periodic basis. Command Room decisions and operational requirements will also be provided to SEMO District Office personnel for appro-priate action. SEMO District Offices will be the focal point for coordination. with County Emergency Management Officials. 4 ~ State Laborato The State Laboratory in Albany will be the Central facility for field, sample receipt, preparation and analysis.
Rochester Gas and Electric Co oration Facilities The Rochester Gas and Electric facilities are: Technical ~Su crt 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 on the mezzanine level of'he Turbine Building .. The TSC is the location from which technical personnel utilize information on plant status management. 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- off-site agencies, and will perform other functions of the* EOF until the EOF is activated. During Recovery, the TSC may remain partial-ly activated to support various post-accident maintenance, clean-up, assessment and survey/sampling operations. 2 ~ The EOF, located in the basement of 49 East Avenue in Rochester will be. activated. for. emergency conditions. classified. as- a Site- Area: Emergency or General Emergen-cy'optional'or. the Alert status) . The EOF/Recovery Manager directs, the activities of the EOF/Recovery Organization from the- EOF. The TSC Emergency Coordina-tor. reports to the. EOF/Recovery Manager. The. EOF is. the command post for coordination of response measures with off-site 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 and would be the main coordinating facility for utility Ingestion Pathway monitoring and assessment activities., 3 ~ The JENC 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 RG&E Corporation, county, State, and Federal officials and will be activated for emergency conditions classified as a Site Area Emergency or General Emergency (optional for the Alert status).
2.4 Exercise Conduct ( 2 ' ' Overview The Ingestion Pathway Exercise will simulate a major radiological incident at the Ginna Nuclear Power Plant which will start with a postulated release that has terminated, but has resulted in significant levels of deposited off-site radioactivty. During the. course of the Exercise; in order- to evaluate coordination with appropriate. State and local agencies; environmental conditions will be presented to participants which require, assessment and. decsionmaking by on-site and off-site emergen-cy response organizations/ agencies. The Exercise will also require deployment of State and utility radiological, survey teams for off-site monitoring. The conduct of the Exercise will demonstrate the effectiveness of selected organizations, personne-1, functions, and/or activities of the appropriate Emergency Plans and Implementing Procedures. (- 2 ~ 4'2 Actions Emergency emergency response-will include: actions during the simulated assessment of off-site: radiological consequences; deployment. of radiolog-ical environmental monitoring teams; recommendati-on of. appropriate ingestion pathway protective actions; ancL preparation of public health infor-mation to be disseminated. to the media. 2.4.3 Communications The Exercise will also demonstrate the effective use of communications systems. An actual emergen-cy operation usually requires the extensive use of both telephone. and radios. The telephone is the primary means of communication between emergency response organizations. Radio communic-ations are also an important link in conducting radiological monitoring efforts throughout the affected'downwind area. 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 asssigned to the Controller role..
Controllers Lead controllers will be stationed in the State EOC, the SEMO Lake District Office and, EOF. Only Lead Controllers can mod fy exercise messages or initiate free play messages. ~Pla ers The success of the Exercise is largely dependent upon player. reaction, player knowledge of- their appropriate Emergency Plan and Xmplementing Procedures, and an understanding of the purpose. of the. Exercise.. Initial conditions: which vill 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, respons-ibilities, and tasks for their particular func-tion. Earth Player will advise his/her Controller prior- to performing recpxired. emergency actions-during, the.- play. of'imulated activities. to ensure. that the Player is. credited for his/her actions:.. Players. are reminded not to be excessively concerned. with the mechanics'r cause of the exercise scenario. This. Exercise is. designed to evaluate the Emergency Plan, Zmplementing Procedu-res, and emergency preparedness training program and-; not the probability, feasibility, or detailed mechanics of the simulated accident. Additionally, the Exercise is a training vehicle fox Nev: York. State, County and Rochester Gas and. Electric 'orporation personnel to practice coordinating with outside organizations in a simulated emergency environment. ~Pla ers should attention ~dour n the Exercise and submit them to UPR the Exercise.
2.5 Precautions and Limitations. This section provides information for all Exercise Controllers and Observers related to the rules and guidelines to be followed throughout the conduct of this Exercise. Prior to initiation of the Exercise, a pre-exercise briefing will be held to review the entire Exercise process with all'he Exercise Controllers and Observers identified in this manual. A'. Should. at an time durin the course of of this. exerc se an actual emer enc the'onduct
~sa.tuat cn are.se all act vittles and ccmmunacaticns related tc tha Exercise will 11 b 0 tsuY 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 exercise activities.
to suspend all The Lead Exercise: Controller will make a determination at that'. point whether to continue, place- a tempora-ry 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 them of the situation. The Lead Exercise Control-ler will make a determination at that point whether to continue, place a temporary hold on, or terminate the exercise.
All. telephone communications, radio transmis-sions, and public address announcements related to the exercise must begin and end with the statement, "This is an exercise." Should a Controller or Ohserver 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. Any motor vehicle: response. to this: exercise, whether it be-'ommunication vehicles police/security vehicles. or field monitoring- . teams, should observe vehicle operating all normal moto@- laws including posted-speed limits, stop lights/signs, one way-streets, etc. Should any on-site security actions be required in response to this exercise participants are to cooperate as directed by the Security Force, and security representat-ives are to be prudent and tolerant in their actions. Exercise participants, are to inject as. much. realism into the exercise as is consist-ent. with- its'afe performance; however,. caution must. be used to prevent over-reaction. Care: must be taken to assure that any non-participating individuals who may. observe exercise activities or overhear exercise communications are not misled into believing that an actual emergency exists. Any Exercise Controller or Observer who is aware of an individual or group of individuals in the immediate vicinity who may have become alarmed- or confused about the situation, should approach that individual or explain the .nature of the exercise and group'nd 'its intent.
2. 6 Evaluatian and Critique The Exercise will be evaluated by Controllers/Observers who have expertise in, or qualification 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, the. emergency preparedness. training program, facilities, equipment and/or other areas will be identified through the critique process. The deficiencies, will be documented by the Exercise Coordin-ator and corrected, by the individuals who have responsibili-ty 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.
SECTION 3.0 TRAVEL INFORMATION
( 3 ~ 0 TRAVEL INFORMATION This, section of the Drill Manual provides travel, infor-mation to those individuals from RG&E, other utilities, local/State/Federal government, and/or other organizations whoiwill participate/observe the drill.: Permission for Visitors to observe the Drill must be: obtained from: the. Corporate Emergency Planner, Rochester and Electric Corporation, 89 East. Avenue, Rochester, Gas. New York 14649-0001 3.1 Directions to the Ginna Nuclear Station-The Ginna- Station is located on the southern shore of Lake Ontario in Hayne 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 International Airport.. 3'1 2'ar.' Several. car rental. agencies. are: available: at- the. Rochester-Monroe. County International Airport to provide rental. vehicles for- ground'. transportation to the Ginna Station., 2 ~ ~ Persons: traveling from the Rochester-Monroe County International Airport via auto should take State Highway 204 East to Interstate 390 South. Inter-state 390 becomes. Interstate 590. as one proceeds around the outer loop. Follow I-590 to State Highway 590 to State Highway 104 East. Follow State Highway 104 to State Highway 350 (Ontario-Center. Road). Turn left (North) and proceed to the Ginna Station. Total distance is approximately 40 miles. 3 ' Directions to the EOF ESC and ENZC 3 '.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. 3-1
i 3~2~2 From the Thruway use Exits 45 or 46 into Rochester and the Inner-loop to the East Avenue ramp as in 3 ' 1. 3 ~ 2 ~ '3" To get to the Emergency Operations Facility and Engin.- eering, Support: Center. go to the intersection of East Avenue and Chestnut Street (Black scgxare on map) . EOF and ESC are- in 49 East. Avenue. The Emergency Zoint;" --. News- Center is, at 89 East, Avenue (See Figures 3.2:.and 3 .3) 3 ' Accommodations Hotel/motel accomodations may be obtained at the following locations: Depot Hotel, Pittsford 716-381-9900 Marriott Hotel, Greece 716-225-6880 Red Roof Inn, Henrietta 716-359 1100 3: 4'irections to State Facilities 3 4'1 New York State- Emergency Operations Center State Office.- Building Campus, Public Security Building 22. Albany; NY (518) Figures 3.4- and 3.5) 457'-8909'See: 3.4 2 Lake District Office State
\
Emergency Management, Office Route 31, East of Newark,. NY (315)" 331-4880 (See Figure. 3.6) 3 '.3 Western District Office Emergency Management. Office State-Routes 5 or 33 to 221 State Street Batavia, NY (716) 343-1465 (See Figure 3.6) 3-2
(-g GINNA STATION+ n g ~ ~ LAKE ON/AGIO z 0) NOT $ 0 SCALP 18 014TAL10 v. 0 CE1ITCa R11AQ XZ 8 z 18 101 104 104 350 Qo 0 250 3%0 ROCHESTER Do 0 0 0 O 3SO 0 Z ROCHESTER-0 MONROE pit: Qo COUNTY 0 AIRPORT z
a ~ e~r U 151
~ 4N r'c l
l w ' Q J l ll SEW' x6ci< '.J lr Qg@X~(
~e'er ~~++(. A I
g-E.
/ ~ ~ ~ t E,W
. ROCHESTER CENTRAL BUSINESS DISTRICT MA 'IC 5 I I ' ~
I gy x~g~
. I tv2tS3~
!4 '. QO U5h' ~~35I l r~ I+a gPI
~kti'.ttIlv v IA I ~ 5 i ~v ~ I ~~I SSvi t- I~U I', l~ ~~ ' ~ I ti u Ii Q.
vto s. ~ JI511 v 8.
-'( ~
Iy. I n'-vv '~'" I
~
I I." I:w tuo t
~ U Irs A C 0 Government Offices Hotels 8 Motels Points of Interest Parks City Hall 8-2 Cadiiiac ~ '-' 03 Amttsa oassenge1 So~ice C ~ Downtown Festive.'>> ~ C4 city Pubbc Site!) Buiiding 8.4 ~ 'OiIOa 82 Eastman School ol Music 02 Genesee Crossroads Paiv 82 Civic Canto~ 8 4 Eastman Theatre 02 Genosoo Gateway Para CS Counly Otttce Building 8.3 RocrI ~ v ~ ~ ~. ~ 83 Genoese Brewog Bt t.ibany Pol ~ Groan C3 Federal Su>>ding 6-2 TravoIoc . ~ CS Greyhound Sus St ~ <<on C2 Manhattan Square Para 03 Kodati s Mein Otticos A2 R I v art r t P ant 8 5 Hall ot Justice 8-3 on Wasnington Squar Cl MIdlOvtn Pl ~ ta C3 ~
Rocliosler Chamoor ot Comn ores C2 Rl Metro Center 83 0 PM< G4 ~S' Rundel t,rbrary Strong Museum Trailweys Bus Station War Memo<<el C3 04 03 83 Xeroa Square 03 YMCA 02
Fi ure 3.4: PART'l. - SEC. I - Proc. 0 ATTACHMENT i STATE EQC-ASG r
/r r Chit f4+
r //"
/
lg
'7 em~~tner ~
4 litt14'8 / I
~O)4 4 I'~ /r,y ~rP +P
~ ~ ' lr ~.J/g r 4 },P p
/ '5'I / ~
1 Megawnvillt4~~~ .'Lute6a'vnn4ity nl 4)~ >k'nrt/,Pr tt P (,s.....g~~" SYA;fp goy ~ ~ ij BUILoINQ cAgpUs ..~
~ 44~gQCi~t hl'AT/4
C2 -I QUILOIITG IffOEX QM LJ. Nallf I 6 0 l Ot ~,. AGRICULTURE AND 4ARKETS..... 2, lA. O,OA m ll'fs EOC-ASG OIISStiiLTER........ ~.....IS Bldg. 22 CAfffcRIA Sub level CAPITAL POLICE CIVILSERVICE ~
..... ~ ~ ~ ~ .~ . ~; ~ ~ ~ Il .I CORRLCTIONALSERVICf5 IIEAflN.~ PLANT LASOR . ... ~ ~... ~ If . ~ 42 LOT O I 4ILITARYANO NAVALAf AIRS . f ~qi~j [~ior ~ ~am@I ~ ~ ~ ~ ~ ~ ~ 4. 22 401 N IIECOROCENTER .. ........... ~ ......24 40r 4
f SERVICE OIIILOINQ ................... IS SOC:AL SERVICES Lof Sl*f f SOLICE S I AT f POLICf ACADEUY................. 24 pt TARAT>ON AtlD flNANCf.......... TRANSPORTATION....., ... O. 4, 5. EA. 9 l, TA LOP O 40l' EO m
~iit QP Ewloiaf ocfoP 409T OIPI. OI TttaS.
Ch A Ol SC'V.t,l mfD O Ot n Lor p ~ t Lor N Lor v n ct I O
+P ~Q~ .fl, cll ~m O
O T2 t-l To fwlllwar Self 25 NORTNVari AE Or
~ ID 5 R tlat +---Oolfnto94n ALBANY m ~ ct lot l~~
Lsatalo ttt
/i 9 IL Eoir 4C444 w 4444 rlT XI TO l~ AIP STATE OFFICE BUI t.DING CAMPUS 1220 WASH)NGTON AVENUE ALBANY. NEW YORK all acthcIItln4 Cstcoot iiitl acttt tait ltoattt~ ~
lllittLla 4 tao t&ta44 ill in aao Cs'ttC 44 atNl ill ttt 4 ~ FROM THE SOUTH or WEST take the N.Y.S. FROH THE NORTH take the Adirondack Northway (l-87) South to Thruway ( 1-87 Northbound/1-90 Eastboun Exit lE. Proceed East on 1-90 to Exit 3. to Exit 24. After the toll booth ~ FROl) 00WNTOWN ALBANY take l-9Q ttIestbound to Exit 3. proceed straight on 1-90 to Exit 3. R I:RO($ OQWNTOWN ALBANY take Aastljflgton Avenue to Western pyellue (Rte 20) to the State Office Building Campus.
r ~ v e>>a ai I l wSe eeete I h
'a e Ia ~ cv ass lose eeet e~ ~ I eaeee SI ~ tai is ~ evils ~ ~
ve av t ss
~~
NV ii seve ~ ~ ie I ail
~ ~onaael a ~ san ~ a I IIIVI OVe I n l>>E lie SaoVJS SaVva ia II vere ~ ~ won ~
il s I Pww 4 ee
~ ~ Hi les VtoJe ~ ii nwrt la lee ~ ai ~ass ~ pa ever ~ ~ vve il n ael 4~
vvv s vpv I n alah ~ Vera V Iev I n lesvvvsl ~ apet Vvv ~ n
.~ ~ Ia loea lte lr OMWI is tii eever eel at vv I ~ VrVI ~ Vea aa leatt al ~o neer a Sl ~
lni nota e ~ 1 lel
~ ravill Os tee IVVy eeet ~ Cat ~ 4 COCO eral' r ~ aa ~~ ~ I '===( ~' .,;,, ~
IP Pvv I ~ VW>>
~ II ~ ~~ ~ ~ ~~ OI so ~ ) ~a Ca I~ ~
e II
~ ~ ew ~ t oNv~>~0 ~ ~ ~V ~1~ ~ I~ I o>> ~ w ~
v Vt
~
I gg ~~ VW 4 g Jolt
)i s'p' ~ 4 14 ~ ~1 P
(ser I' gV eo~ I aviv' s ~ 14 ~ II CM
~ O ~ I a~ an Cia aoi ~ ~
aa ~ aver I+ cp
~
tate
)C 4 ae ~
Cv Ill
'y C ~s l aa ~C I'sv I ~ ~ ) II I I la ~ ~ SOO $ 4 Ie e ~
I I I ~ 4 IO ao f .
)"J~ -) l~ e I ~ aeaa lt e ~
aa s' ~~
~o Ml Its I as ~ ",i ~ s ~~ la') ~ 41 I ci I oa gl e ~ c1 s Is se ~ p ~ Jyesv I r eew ~ ~
I 'e
~ a evl ~e P Je vv t .c I ~ ~ eei I av ~a ~ I I atp sv) 4 I
1 4 ~ I II I I ~ ~ I ~ J I~ I P ras I 4 N e I vs M V ~ 1st c I( ~ ~ e P I ~4
~ ~ I I s Cir e ~ w..g OSC .Va Via rat s) ~ I~
p ~a Ca I t t~
'L ~ ~
a
~
al il i ~ ~ a
...;~ l e ~ eo s ~e 4 I Jt ~ a)is ea ~ L. <vs i' 1 s..$
e t I~ ~I re o
) ~ )e ~ I all ~ I~ 4 I ~ CI ~ ~
I sa
~ p ail I I ~ Ca 111 a ~ r pe I ~ el ~ vt I~ I II ~ I asy) a I ~ ~
year V (I~ slews II I
' .F.- Cas I ~ to aa ~ 'I vs) ae oa I ~ II ~~
o t~ eM ~
'Iv Ciu tna I~4 11 ~ I~ 'I I ~ all ~ e ~
I I asvas
~ ~ ~ ~ I I ncaa ve ~ Ra ~ eeeev t i ia ~ a Covet ~ II~ -r t 9.-...,JII s 'CNNOno ~
I ~, et C
~
r)eggs C
~ I I ~ a ep ~ e ~
e ee ~ sw 0
~ ~ ~ . ~ i ~ ~ slav 11 ICO I>> ~,
ai ~P
~ va (sv )h J ~ ~ ~I Cave I~ VP a c't I 'e ~ ~ ~ IC 4 4 a <<Iias alga rea tet "I I )
Cal I I I ~ ~
~ SV ~a ~
Ir ~ e ~
~ ~
et
~~ ~ ~ ~
e'Js ts ~ - %k
~ aa .11 r ~
I /e' 'ps
~ 44 ~ ~e f
I IV I rA ~ v ro'e) 1 0 Pi ..Z )tea v ') ~ I~ w i .~ e a I Csv aa 'a )M) I P g lovel'1 e..;c ~ 11 ~ 1 . a ~
~ 4 ~ ~ OC va v ~ ~
I' I lool ~ I
~ ~ ~4 II ~ OIL I ~ 4 V
6 AA ge
~ 11 ~
t I ~4 I( I I
'v ~ t ~ an io ~ vere I ~ 'I ~ c- ~ I sC s>> f"V I
ett I
-I oaasc r'<ws ~e elva l 4 ~ ~ \ ~ei I ~ I~ ~ I 1 l<< ~ ~ I j ~
Cg,i(W. I nl I ~ I <<ill oer
~
s t 4 f a '
<<)
4~
~4 ~ 1 ~
I~ e W a et I Cre 4 eave ~ ~a ~ I Sot e. (w I ~ ~ ~ atl I Cj OC ON I~ I (M e Y
~ gM -e Ice I Ct I ~ 404)C ~ OC ~ w.
a set et I nca 4/4 I I ~ Je J (Iaa ate cl 4
~
ap C(
~ I 1 ' ~ se I te IO ~ I ~ '1 ~I Cer I .era.
Oal ~
+ 'l ~ ~
s ta 1411 I se ~ 44111 ~ 4 ~ OI 1 I~ I - ~ pew
~ ~ I~ a I 'j ~ IIs~ i~ a ' ~ ~ ~ Il ~ N I ~ 1114 I t ~ eea v ~ ~e ~ ~I Vvtr Cvlalil aiaa CC 11 ~
I 1~ I I l s I I
~ ~ ~, ~ IC ~ ~ ~ ~ ~
1141111 ~ ~4 I~ I a
,L ~ ICCCO ca ac 4 / ~ ~
Oal I O. ~ ~
' I~ I w Ic s ~ ~4 ~
Csr>> 11 ~ laa e I re
~ ~ ~ I I~I ~ Ja a P Fi ure 3 6
SECTXON
4.0 REFERENCES
/ABBREVXATXONS' ACRONYKS-
REFERENCES 4 ~ 1.1 10CFR 50 ~ 47, 50 ~ 54 I Appendix E 4'1'. 2. 44CFR 350.9 4 ~ .Z. 3 NUREG-0654/PEMA-REP-l,: Rev., 1, Criteria -l.'or d 1 t . f ~d1 1 l. I,
~su orr of Nuclear power plants 4 '.4 RG&E Nuclear Emergency Response Plan and Zmple-menting Procedures, Rev. 5 (5/87) 4~ 1.5 GS. Radiation Emergency Plan. Xmplementing Proce-dures (SC) 4" ~ .I.'. 6: GS'icense-. and; Technical, Specil.'ications.
4 1.7 GS Piping and. Instrumentation Drawings. 4~1e 8' New York State: Radiological Emergency Response Plan (10/84)
~ l. 9. Monroe County Emergency Preparedness Plan (5/87) 4'..1..10'. Wayne County Radiological Response Plan (10/86)
( -
4. 2 ABBKDTIATZONS ACRONYMS 4~2~1 A/E Engineer 4.2 '
CD-'rchitect ALARA As. Low As Reasonably Achievable 4'2'. 3 Area. Radiation Monitor(s) ARMS'TWS I 4'. 2. 4'. Anticipated'ransient Nithout. Scram 4.2' . Civil. Defense-4 ~ 2'1 Code. of Federal Regulations
4. 2' Containment 7'.2
' Control Room 4.2 ' DOE Department of Energy 4~ 2'0 DOE-ZRAP, DOE Interagency Radiological Assistance 4';.,1X. EAL(s)" Emergency'ction: Level(s) 4 2' 12.'.
EBS Emergency Broadcast. System 2'. 13", , Emergency- Coordinator 4 ~ 2. 14 EPC'lan. EC'OC'OF. Emergency. Operations Center 4 ~ 2l5-. Emergency Operations Facility
~
4. 2 16
~ EPA, Environmental Prot:ection Agency 4.2.1T Emergency Planning Coordinator 4'. 2 18. EPIP(s) Emerency Plan Xmplementing Procedures(s).
4.2 '9 EPZ Emergency Planning Zone 4.2.20 ERF (s) Emergency Response Facility(s) 4.2 '1 ERPA E ergency Response Planning Area 4.2 '2 ESC E.=ergency Survey Center 4.2.23 Federal Emergency Management Agency 4.2..24 FRERP federal, Radiological Emerg. Response Plan
25 GS Station 4.2.26 HP Health Physicist-4.2.27 HVAC.'inna HPN Health Physics Network 4.2 '8 Heating Ventilation Air Conditioning 4 ' '9 JENC'.2 XNPO Xnsititue of Nuclear Power Operations I 4'. 2. 30 Zoint Emergency News Center 4 2..31. Potassium; Xodide 4 ~ 2'. LCO Limiting Condition of'peration . 32'.2.33 Loss of Coolant. Accident 4 ' '4 LWR Light Water Reactor 4 ' '5 MPC Maximum Permissible Concentration 4.2 '6 Nuclear Regulatory Commission 4,.2 37 OSC Operational Support. Center ( 4..2 38 OOS. Out, of Service. (on-site)
4. 2.,39 OOS" Out. of Sequence.-(off-site)

4. Z;40 PAG'(s) Protective Action- Guide(s) 4 ~ 2: 4X PAR (s) Protective Action Recommendation(s) 4.2 '2 PASS Post Accident Sampling System 4.2'.43 PXO Public Information Officer 4.2.44 Pressurized Water Reactor 4.2'.45 RCP Reactor- Coolant Pump 4.2 '6 Reactor Coolant. System.
4 '.47 Residual Heat Removal 4 '.48 RG&E Rochester Gas and Electric Corporation 4 '.49 RST Radiation Survey Team 4 ~ 2 ~ 50 SC Site Contigency 4.2.51 SX Safety Injection
i 4.2.52 SPXNG High Range Effluent Monitor 4.2.53 TSC Technical Support Center
SECTION 5.0 CONTROLLER AND EVALUATOR INFORMATION
5o 0 CONTROLLER'ND EVALUATOR INSTRUCTIONS Each controller and evaluator should be familiar. with the following:
a. The basic- objectives of the Drill.

b. The assumptions and precautions being taken.

c. The. drill 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'NSTRUCTIONS 5 1'1 Contxollers. 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. Communications will be tested to ensure satis-factory communications Controllers prior to Drill commencement. Allamong watches and clocks will 2'13 be synchronized with the Lead Contx'ol Room Drill Controller as part of the communications testing. 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 drill, scenario. No message shall. be delivered. out of'equence. or other: than as. written unless. specifically author-ized". 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, on-site Controller will have copies .of time-related plant data sheets. Data sheets, will be distributed only in the Control Room. Radio-logy.cal and meteorological data will also be provided at locations where it is normally available. 5'1. 7 Controllers will not provide information to the Players regarding scenario development or reso-lution of problem areas encountex'ed in the course of the simulated emergency. The Dxill partici-pants 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 ~ li9 Each Controller will take detailed notes regarding the progress of the Drill and the responses of the Drill. participants at their. respective assigned. locations. Each Controller. will carefully note-the arrival and departure: time for participants, the, times at which, major activities or milestones, occur, and problem. areas encountered'he.. Controllers will retain their notes. for the purposes of reconstructing the Drill chronology and preparing a written evaluation of the Drill. 5 '. EVALUATION INSTRUCTIONS Each Controller/Evaluator will take detailed notes regarding the progress of the Drill and the response of the Drill 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 encoun-tered. 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. and directing improvement.
'The rating scale isfor.as guiding follows:
Good Personnel and equipment generally performed'etter then expected. Any errors or problems were minor and easily-correctable..
~ttf as expected.
1 I Wtl g 11FI Any errors noted were not severe and could be corrected without. undue labor or expense. Unsatisfacto Personnel and equipment generally performed below expectations and there were several significant deficiencies noted. The area's ability to carry out its functions was diminished. (:
NA Not applicable to the situation or not observed. controller/evaluator comments should consider the demon-stration of the following facility and team evaluation e3.emepts: 5.2.1 ~Facilit Accurate and. timely determination of emergency action levels. 0 Timely activation and staffh.ng for each emergency action level. Familiarity of personnel with appropriate emer-gency instructions; duties and responsibilities. Timely- notification- of'ochester. Gas- and Electric Corporation, local, State and Federal personnel/ agencies- (information updates performed). Adequacy of internal information systems (i.e., message handling, displays, status boards and maps). Properly controlled documentation and accurate, timely record-keeping. O. Utilization of correct communicath.ons procedures; and techniques. Capability of'acility- supervisor/directors to interface with personnel. and, coordinate: facility'cthvities.. Consideration of; personnel safety (exposure~ control) .. Adequacy of interface between emergency response facilh.th.es. Adequacy, of equipment and supplies.
,o Timely initiation of on-sh.te protective/corrective acth.ons.
Development of. protective action recommendations. Radiological surveys and assessment of plant damage and hazardous condh.tions performed. o Timely request of emergency support services. 0 Coordinated, accurate and orderly dissemination of information to the news media.
5~2~ 2's!OIL Timely notification and activation.. Adequacy of staffing. Familiarity with appropriate emergency procedures, duties and responsibilities. 0 Availability and utilization of, proper equipment. Performance of contamination/decontamination control. o'i Proper interface; with. emergency support personnel.- Utilization of correct: communications instructions and techniques.- o Availability of reference, documents to team. members. Utilization of proper radiological control practices (i.e., access control, protective clothing, shielding, stay time). o Performance of'radiological surveys. Timely- and. proper performance of; damage= assess-ment.. Properly maintaineL survey records and; maps. 0% Adequacy of'riefing sessions prioz: to; dispatch. Direction. and. control- by team- leaders; o Timely requests for off-site assistance. Coordination and interface between emergency response team- members. 0 Proper interface with plant supervisory personnel.. Controllers/observers. will record'heir comments for the purpose of reconstructing the Drill chronology and preparing a written evaluation of the Drill. 5~3 PERSONNEL ASSIGNMENTS Figure 5.1 shows the Drill Controller Organization with the Lead Controller for each of the major Emergency Response Facilities. g
,o
5. 0 CONTROLLER ORGANIZATION EMERGENCY OPERATIONS FACILITY Dave Burke (Exercise Coordinator)
Wes Backus (Lead) Diane; Dreikorn (Dose: Assessment) LZLCO New York State -'Players &. Controllers State EQC Jim Pap]le - Player Bruce. McQueen - Player. Larry Czech - Controller gob: Borres - Controll'er (day 3) State Health Dept. Lab Bob Borres - Controller (day 2)
'State Field Monitor~in (day 2)
Ken Bergmann George Brozowski Bob Theesfeld Oave Bell Bill Migley
5. 0 CONTROLLER ORGANIZATION EMERGENCY OPERATIONS FACILITY Dave Burke (Exercise Coordinator)
Wes~ Backus (Lead) Diane: Dreikorn (Dose: Assessment) LXLCO State Controllers/Observers- (Later)
SECTXON 6.0 1987 GXNNA FULL SCALE PLUME EXPOSURE PATHWAY EZERCXSE NEW'ORK STATE XNGESTXON PATHWAY EXERCXSE'
SECTION 6 ~ 0 1987 GINNA PULL SCALE PLUME EXPOSURE PATHWAY EXERCISE AND MEN YORK" STATE INGESTION PATHWAY EXERCISE SCHEDULE'P EVENTS. ~ 10/21 0900 OFFSZTE PLAYER BRIEFING EOF'SC 1330 ONSXTE: PLAYER BRIEFING 10/22 0900 CONTROLLER BRZEFING- EOF WEEK: OP 10/25 BEGINNING'- AT'001. HOURS DAY 1 OFF HOURS PLUME EXPOSURE PATHWAY EXERCXSE-
. UNANNOUNCED DAY 1 AFTER EXERCISE INGESTION PATHWAY BRXEFXNG EOF TERMINATION (REDUCED STAFF)
AND BREAK DAY 2'900:- STATE'IELD IPZ. PARTICIPATION) MONITORING/SAMPLING'CTIVITIES'NO: GXNNA; DAY. 3' 0/30. UPDATE'RIEFING 1000'NGESTION PATHWAY. ALBANY/EOF'NGESTION PATHWAY, TABLETOP DRILL'. ALBANY (START'F'LAY) REDUCED STAFF PARTICIPATION EOF DAY 4 GZNNA CRITIQUE TRAINING CTR 0800'900 NRC CRITIQUE TRAINING CTR TBD FEMA NEWS CONFERENCE EJNC
~PART Z SCENARIO INFORMATION
SECTION 7.0 INGESTION PATHWAY EMERGENCY EXERCISE SCENARIO
7' EXERCISE SCENARIO Contents of this Section Section 7.1 Initial. Conditions for the Ingestion Pathway Scenario - (Background History Leading Up To Major Ingestion Pathway Release) Section 7.2 Narrative Summary of Ingestion Pathway Exercise Scenario Section 7.3 Scenario Timeline 7-1
STATE OF NEW YORK INGESTION PATHWAY EMERGENCY PREPAREDNESS EXERCISE 7.1 INITIAL CONDITIONS (SAMPLE. FORMAT FOR INITIALBRIEFZNG TO PARTICIPANTS):, BACKGROUND HISTORY LEADING UP TO THE'AZOR INGESTION PATHWAY RELEASE FROM THE R.E GZNNA NUCLEAR POWER PLANT The following briefing information is intended for all Ingestion Pathway Exercise participants to detail the events which have occurred prior to the start of the Xngestion Pathway Exercise. In addition, preliminary field measurement data and in-plant sample data will be provided to the extent that such information would be available within the timeframe, involved since the event*occurred. t is important for players to carefully review the briefing informati-on provided, and. seek clarification if necessary from the appropriate lead. controller at each Emergency Response Facility. The postulated event assumed for this Ingestion Pathway Exercise is based upon the accident scenario used for the 1987 Ginna Plume Exposure Pathway Exercise which has. gust been completed this week. However, in order to satisfy additional Exercise objectives required to demonstrate Ingestion Pathway response capabilities, the scenario timeline has been extended to allow other post-plume actions and decision-making to take place. A more detailed summary of the above will now be provided. 7 ~ 1 ~ 1. DAY 1 -
SUMMARY
OF KEY EVENTS: The Plume Exposure Pathway Exercise commenced at hrs, DAY 1, with the following initial conditions and equipment out of service:
l. The plant was operating at 1004 rated power (1520 Mwt) and had been operating at this level continuously for 145 days.
The plant is currently in cold shutdown. Plant and equipment . status are detailed on the attached Plant Status Sheet. 7-2
STATE OF NEW YORK 1987 INGESTION PATHWAY EMERGENCY PREPAREDNESS EXERCISE 2 ~ The reactor. core is in cycle 16, near the end of life with a reactor-coolant system (RCS) boron concentration of 20 ppm. The present boron concentration is now ppm. 3 0" Reactor coolant system unidentified leak rate had been 1. 25 gpm since 2130 the. previous day.
4. The Turbine Driven Auxiliary Feedwater Pump was inoperable due to ongoing maintenance. It is now repaired and operable.
5~ Containment Spray Pump 1A was inoperable due to seized pump bearings and has not yet been repaired. An UNUSUAL EVENT was declared at ( ) on October, 1987 due to RCS leakage greater than Technical Specifica~t on limits (i.e., greater than l. gpm unidentified leakage for more than 4 hours) . At. approximately hours, Ginna Station experienced a large earthquake tremor which triggered the plant accelerograph. Plant operators. started both diesel generators and dispatched the accelerograph film for photographic processing. Following this, there was indication of a secondary leak inside of Containment-. The leak was on the "A" S/G steam line exitting the S/G. Approximately 25 minutes after the earthquake, a fire was detected. in the Ginna. Auxiliary Building in a safeguards bus
~
transformer. The normal feed to the safeguards bus tripped, and the 1B emergency diesel generator tied into Bus No. 16. The plant fire brigade was activated and responded to the fire. An ALERT was declared at hrs due to the fire (i.e., fire potentially affecting safety systems as determined by the Shift Supervisor). The fire was declared out at hrs. At hrs that morning the 1B emergency diesel generator tripped due to low bearing oil pressure, leaving safeguards Bus No. 16 and motor control center (MCC) 1D without a power source. Ma)or safety-releated equipment then became inoperable, including the following:
1) 1B Motor-driven Auxiliary Feedwater Pump

2) 1B and 1C Containment Recirculation Fans

3) 1B Containment Spray Pumps

4) 1B RHR Pump
'1 "3
STATE OF NEW YORK INGESTION PATHWAY EMERGENCY PREPAREDNESS EXERCISE
5) 1B Safety Infection Pump

6) 1D Stand-by Auxiliary Feedwater Pump started without'll 480duevoltto safeguards:
A. reactor. shutdown was .Technical Specifications requiring shutdown buses. energiz-ede A SITE ARIA EMERGENCY was declared at hrs due to the causing. a lass od safety systems including redundant components, fire (i.e., ) ~ At hrs, accelerograph film processing results indicate that an earthquake of 0.24g had occurred earlier. NOTE: Additional information should be rovided here as to the the offs te effects of the earth ake e. . Richter Scale est mates a roximate locat on of e icenter dama e to offsite structures and roadwa s. The- "A" S/6'team line. severed inside Containment at approximatl-ey- hrs. Two control rods. remained fully withdrawn., The core: returned. to power and a. large amount of'adioactivity from ~e* fuel was released into the reactor coolant and into Contain-ment . Containment spray did not initiate because both spray pumps were unavailable. Also, there was no 12% boric acid injection to the. core because motor-operated valve MOV 826C was inoperable due to -the safeguards Bus No. 16 outage. A GENERAL 'EMERGENCY was declared at, hrs due to the loss of safety features, (i..e., inability to shut down the reactor which results in core damage and containment pressure increasing rapidly) . r Immediate protective actions were recommended by the licensee. The following immediate protective actions were implemented by Wayne and Monroe Counties, and by New York State: 7-4
STATE OF NEW YORK 1987 ZNGESTZON PATHWAY 'EMERGENCY PREPAREDNESS EXERCZSE Actions Taken WAYNE COUNTY' MONROE COUNTY NEW YORK STATE ( May also include recommendation to shelter milk animals at SZTE AREA ) Between and hours, Ginna operators were able to stabilize tne plant using emezgency operating procedures. However, because of the unavailability of containment spray and only 2 of the 4 containment fan coolers, running, Containment pressure remained, very high ( psig) . At: hrs. that morning, a severe earthquake aftershock caused the reactor control rod pressure. housing that had. been leaking to sever. Containment pressure and radiation levels began to increase again. At hrs, a release from the plant to the environment began when the "B"'esidual Heat Removal Pump suction line '.from Containment Sump "B" ruptured, presumably due the initial earthquake, the earthquake aftershock, and high Containm-ent .pressure. The release pathway was believed to be from the Containment, through the Sump "B" suction line to the "B" RHR Pump, into the Auxiliary Building Basement and out the Plant Vent. The following protective actions were ultimately implemented by offsite governmental agencies: 1 Final Actions Taken WAYNE COUNTY ERPA's Sheltered: ERPA's Evacuated: 7-5
( STATE OF NEW YORK 1987 INGESTION PATHWAY EMERGENCY PREPAREDNESS EXERCISE MONROE'OUNTY ERPA's Sheltered: ERPA.'s Evacuated: NEW YORK'TATE Offsite monitoring and in-plant sampling results indicated that the initial release was composed of noble gases, radioiodines and particulates. Ground deposition was detectable as indicated by radiological survey team readings. The release was terminated at approximately hrs due to repair of the 1B emergency diesel generator and restoration of power to the 480 volt Bus No. 16 and motor control center MCC-lD. This 'enabled the closing of MOV-851B, the isolation valve for the Sump "B"'uction line to the "B" RHR Pump. As of hrs on DAT 1, the Glans Plant was in the Recovery
.Phase of tha steam line break (with core failure and terminated noble gas, radioiodine and particulate release to the environment).
Table, provides a summary of radiological data representa-tive of tha offsite survey instrument readings, which would have been taken in various locations in the downwind area immediately following passage of the initial release plume on DAY 1. Table provides initial isotopic analysis results of soil, pasture grass and airborne radioiodine and particulate samples
, taken by offsite survey teams on DAY 1 and DAY 2.
7-6
STATE OF'EW YORK INGESTION PATHWAY EMERGENCY PREPAREDNESS EXERCISE T.2'ARRATIVEtJMK&YOF'NGESTION PATHWAY'XERCISE SCENARIO BEGINNING OF'NGESTION PATHWAY'XERCISE: NOTE: (This information to also be included in Ynitial Pla er Eriefin ) It is now (actual clock time, approximately 0900 hours), and we are assuming we are in DAY 3. That means, that the radiological release from Ginna would have occurred the da before esterda Additional data are now available from NYS offsite monitoring teams which conducted environmental surveY measurements on DAY 2. g 7-7
STATE OF NEW YORK 1987 XNGESTXON PATHWAY EMERGENCY PREPAREDNESS EXERCXSE All Exercise. participants will now be- allowed to review the information provided'uring the briefing and discuss among themselves the. implications for further response- actions. Any- --. questions and; clarifications should be directed to the lead. Exercise controllers at each Emergency .Response Facility. Xt is expected, that Exercise play will, begin- at--approximately 1000. hours. At approximately 1300 hours (actual clock time) on DAY 3, the Exercise scenario will time ahead 3 days, thus. placing all participants in DAY 6. Additional data will be provided at this time, to reflect the collection and analysis of the following media: TYPE::.- LOCATXON: Open/Closed GM Readings Selected Sample Points (3ft/Contact) ( 0 - 50, miles ) Micro-R Meter. Readings Selected Sample Points ( 0 - 50 miles. ) Soil Samples Selected Sample Points ( 0 50 miles ) Pasture Grass. Selected Sample Points ( 0 50 miles ) Milk Selected Sample Points ( 0 50 miles ) Fresh Produce Selected Sample Points ( 0 50 miles ) TLD Selected Fixed Locations ( 0 20 miles ) Following any questions or clarifications, play will resume and further response actions will be discussed and acted upon with free play.
STATE OP NEW YORK 1987 INGESTION PATHWAY EMERGENCY'PREPAREDNESS EXERCISE At approximately 1500 hours (actual clock time), or at the. discretion of the Lead Exercise Controller, exercise participants.- wi11 .be- directed to conduct a cpxalitative-. discussion which addresses the types of. data, general methodologies and, for the estimation of TOTAL POPULATION DOSE'. Play will resources'vailable resume, until approximately 1530 hours, or unt 1 the Lead Exercise Controller has determined that all Exercise objectives have been demonstrated. The Ingestion Pathway Exercise will then be terminated. 7-9
STATE OF NEW YORK INGESTION PATHWAY EMERGENCY PREPAREDNESS EXERCISE
7. 3 INGESTION PATHWAY EXERCISE TIMELINE Appropriate Scenario Time Time DAY 3.
11/00 The Ginna. Plant: is in the Recovery Phase of the steam line break (with core failure and terminated noble gas release to the environment). Reactor coolant system is being cooled down by steam venting from the "B" S/G and the severed control rod drive housing. Begin Player. Briefing for Ingestion Pathway Exercise. Provide initial briefing and ground rules- to players. Allow Exercise play to continue to allow initial decisions on offsite Ingestion Pathway survey team deployment to be made. DAY 2 0900 Begin conduct of evaluated NYS offsite survey team sampling field, activities. 1500 Approximate time offsite sampling activities will terminate. One NYS Department of Transport-ation vehicle will transport environmental sampling to State Laboratory in Albany. DAY 3 0830 Begin Ingestion Pathway Player briefing. 1000 Begin Ingestion Pathway Exercise play. 1200 Break t 7-10
( STATE OF NEW YORK INGESTION PATHWAY EMERGENCY PREPAREDNESS EXERCISE Appropriate Time Scenario Time t ~!. ti DAY: Exercise play. Time warp to 6. 3'300: Resume DAY DAY 6 Issue detailed Ingestion Pathway sampling and analysis data. 1500 Begin discussion on Total Population Dose. I 1530 Terminate Ingestion- Pathway Exercise. 7-11
TABLE 7.1
SUMMARY
OF GINNA SXTE METEOROLOGICAL CONDITIONS . HOURLY AVERAGES CLOCK TIME WS-33FT
~HPH WD-33 FT'EMP 33 YT PAS QUILL, STABILITY GENERAL, WEATHER.
DAY 1 0000-0100 3 ' 330 65 F OVERCAST 0100 0200 3 ' 330 65 F DRIZZLE'RIZZLE 0200 0300 3.4: 328 67 " 0300-0400 4 2 337 69 DRIZZLE 0400-0500 4' 342 70 F DRIZZLE., 0500-0600 5.6 003'25 71 F DRIZZLE. 0600 0700 5.5 73 F DRIZZLE 0700-0800 5.5 030 74 F DRIZZLE 0800-0900 5.3 030 75 F DRIZZLE 0900-1000 7~1 029 75 F DRIZZLE 1000-1100 7.1 029 75 F DRIZZLE
7. 5-
- 1100-1200 1200-1300 7'. 030 030 76 75 F F DRIZZLE PT.CLOUDY 1300.-1400'- 0'.0 030, 74, PT'CLOUDY 1400-2400 8. 0. 030 65, PT CLOUDY DAY 2'000-2400 USE ACTUAL. METEOROLOGY DAY"3 0000-2400 USE ACTUAL METEOROLOGY
SECTION 8.0 MESSAGE FORMS. AND PLANT DATA'HEETS
Time: 1030 Message: GINNA STATION 1987 PRACTICE'RILL MESSAGE for:: TSC'ose Assessment FORM'essacae Survey Center Manager. Plant Radiochemist-EOF Dose Assessment EOF Recovery Manager Nuclear Operations Manager Offsite Agency Liaison Corporate Spokesperson Dose Assessment Liaison NYS EOC Staff S' ted Plant.". Conditions: Per; Controller
;-"Q; sacCa'*+THIS IS. A DRILL***
The Ingestion Pathway. Drill (DAY') will now begin. FOR'ONTROLLER USE ONLY. Controller Notes:
1. Review emergency status up to present time. Summarize PAR's imple-mented.
2 ~ Review upcoming schedule of events for DAY 2 and DAY 3. 3 ~ Have players now discuss post-plume monitoring and assessment actions they would undertake for remainder of DAY 1 and DAY 2. Actions Exrected: Ingestion Pathway survey/sampling team missions need to be clearly defined to provide sufficient directions to monitoring personnel (. for carrying out actions on DAY 2.
Time: 1300 Message: 56 GINNA STATION 1987 PRACTICE DRILL MESSAGE FORM Messacea for: TSC Dose Assessment Survey Center Manager Plant Radiochemist EOF Dose. Assessment EOF Recovery Manager Nucleax Operations Manager Offsite Agency Liaison Corporate Spokesperson Dose Assessment Liaison NYS EOC Staff
S ated Plant Conditions: Per Controller
,j 4'%aces=-'eeeiEELS XS A;. DRXLL**+. 'I The Ingestioq Pathway Drill. (DAY: 1) will now terminate and resume tommorrow.
at 0900 hr; FOR CONTROLLER USE ONLY Controller Notes:
1. Ensure players. haved, discussed post-plume monitoring and assessment actions they would undertake for remainder of DAY 1 and DAY 2.
Actions Exrect:ed:
l. Ingestion Pathway survey/sampling team missions have been clearly defined to provide sufficient directions to monitoring personnel for carrying out actions on DAY 2.
(
Time: 0900 Message: 57 GINNA STATION 1987 PRACTICE DRILL MESSAGE FORM Messacae for: NYS Ingestion Pathway Sampling Team. Per'sonnel NYS Laboratory Personnel
.NYS EOC Personnel Simulated Plant Conditions: Per Controller Messacee: a**THIS IS A DRILL***
The= Ingestion Pathway Drill (DAY 2) will now begin. NTROZZZR USE'NLY Controller Notes: Actions E ected:
1. Ingestion Pathway will now carry out missions l.survey/sampling teams, designated'n DAY
Time: 1600 Message: 58 GINNA STATION 1987 PRACTICE DRILL MESSAGE FORM Messacse for: NYS Ingestion Pathway Sampling Team Personnel NYS Laboratory Personnel NYS EOC Personnel Simulated Plant Conditions: Per Controller Messacee: **+THIS IS A DRILL*** The. Ingestion Pathway Drill (DAY 2) will now terminate and resume tommorrow a 00 hrs. FOR CONTROLLER USE'. ONLY Control:ler- Notes: Actions Exmect:ed:
1. Ingestion Pathway survey/sampling teams have completed miss ions and State Laboratory activities have been demonstrated
'ime:Message:
0830 59 GINNA STATION 1987 PRACTICE DRILL MESSAGE far: FORM'assacea NYS; Emergency Operations Center District Offices Staff'EMO Ginna. Radiochemist EOF'ose Assessment EOF Recovery Manager, Nuclear Operations Manager Offsite Agency Liaison Corporate Spokesperson Dose Assessment Liaison S ae I ted Plant Conditions:- Per Controller.
"-' e."--*~THIS'S-A DRILL***
The Ingestioq Pathway Drill (DAY 3) will now begin. FOR CONTROLLER USE ONLY Controller Notes:,
1. Review emergency status-. up to present time. Summarize PAR's imple-mented.
Provide laboratory analysis results and other field readings 1 2. as a result of survey/sampling activities on DAY 1 and DAY 2.
3. Have players now review post-plume monitoring data and clarify information as appropriate.
Actions Exaected: (
Time: 1000 Message: 60 GINNA STATION 1987 PRACTICE DRILL, MESSAGE for: FORM'essacee NYS Emergency Operations; Center..Staff, SEMO District, Offices Ginna Radiochemist EOF Dose Assessment EOF Recovery Manager Nuclear. Operations Manager Offsite Agency Liaison Corporate Spokesperson Dose Assessment Liaison ted Plant. Conditions: Per Controller. (c . I~%acCe: ***TMZS ZS'. DRZLLe*e t The: Ingestiog Pathway Drill (DAY. 3) will now begin play if'here- are, no further questions. FOR CONTROLLER USE ONLY Controller Notes: Actions ExXected:
1. Discussion of sampling/survey data results, recommended protective actions, respective agency roles for implementation, interface with licensee and Federal response organizations.
Time: 1300 Message: 61 GONNA STATION 1987 PRACTXCE DRILL MESSAGE FORM M~essa e far: NYS Emergency Operations CenterStaff-.- SEMO District Offices Ginna Radiochemist EOF Dose Assessment EOF Recovery Manager Nuclear Operations Manager Offsite Agency Liaison Corporate Spokesperson Dose Assessment Liaison '. 'd Plant Conditions: Per Controller l~sa e: **+THIS. IS: A. DRILL**+ The Xngestion: Pathway- Drill will now. time warp to (DAY').
.FOR CONTROLLER USE ONLY.'ontroller Notes:
1. Review emergency status up to present time. Summarize PAR's imple-mented.,

2. 'rovide laboratory analysis results and other field readings as a result of survey/sampling activities up to present time.

3. Have players now review post-plume monitoring data and clarify information as appropriate.
Act'cns Exrected: Players will evaluate and discuss results of updated field informa tion and recommend modifications to protective actions.
( Time: 1430 Message: 62 GINNA STATION 1987 PRACTICE DRILL MESSAGE FORM Messacee for: NYS Emergency Operations Center Staff SEMO District Offices Ginna Radiochemist: EOF Dose Assessment EOF Recovery Manager Nuclear Operations Manager Offsite Agency Liaison Corporate Spokesperson Dose Assessment Liaison S ted Plant Conditions Per Controllers .~sacee:, a**THIS: IS A DRILL**~
"-A'iscussion of Total Population Dose assessment will now begin.,
FOR CONTROLLER USE ONLY Controller Notes:. Actions ExXected: E
1. Players should discuss sources of data, assessment methods and other resources- available for calculation of Total Population Dose.
Time: 1530 Message: 63 GZNNA STATION 1987 PRACTICE DRILL MESSAGE FORM Messacee. far: NYS Emergency Operations Center Staff .. SEMO District Offices Ginna Radiochemist EOF Dose, Assessment EOF Recovery Manager Nuclear Operations Manager Offsite Agency Liaison Corporate Spokesperson Dose Assessment Liaison S ted Plant.'Conditions: Per Controller a e: ***THIS ZS A DRILL*** t The Ingestion Pathway Drill is now. terminated and a brief'ritique will now follow.. FOR CONTROLLER USE ONLY Controller Notes: Actions Exrected:
SECTION 9.0 I IN PLANT AND'OST-ACCIDENT SAMPLE RADIOACTIVITY CONCENTRATIONS
SECTION 9.1 RADIOLOGICAL
SUMMARY
9.1 Radiolo ical Summa A.. Source Term The radiological source term assumed for this scenario was, selected. to include sufficient, radioiodine to achieve offsite deposition levels which exceed derived FDA, Preventive and Emergency Protective Action Guides (PAG's) for soil, pasture grass and cow's milk. The Emergency PAG's for the milk pathway are exceeded out to: approximately 12 miles downwind- from the Ginna Plant. The Preventive PAG's for the milk pathway are exceeded out to approximately 30 miles downwind. Deposition radioactivity diminishes to levels at or beyond 50 miles from the plant. background In addition, the postulated reactor accident is assumed to result in the release of particulates which also will, ultimately enter various- food and water pathways. Immediate protective action recommendations sheltering; evacuation) may not, be- necessarily (e.g based upon projected child thyroid, dose, due to the pre-dominance of release noble gas quantities. (SEE, FIGURE 9.1).. The noble- gas-to-radioiodine in this. scenario is approximately ratioassumed 3300:l. An isotopic breakdown of assumed noble gas, radioiodine and particulate release quantities is provided in Table 9 ~ 1,. B. Inte rated Offsite Doses Due to Plume E osure The downwind integrated doses from the 1.25'-hour ', scenario release are as follows: Whole Bod Dose at 5 miles = 1.28 REM Child Th roid Dose at 5 miles = 0.48 REM
TABLE 9.X The assumed release= quantities for the Ginna Exercise Scenario are summarized as follows: NUCLIDE CURIE SEC TOTAL CURIES RELEASED Kr-85 Kr-85m 2.26 2.40 E-01 E+01 l. 1.08 02 E+03 E+05 Kr-87 4.00 E+Ol. 1.80 E+05 Kr-88 6.00 E+Ol 2.70 E+05 Xe-131m 6.55 E-Ol 2.95 E+03 Xe-133 2.04 E+02 9.18 E+05 Xe-133m 3 ~ 20 E+01 1.44 E+05 Xe-135 .4.00 E+Ol 1.80 E+05 Total. Noble Gas, 4.0 E+02 1.8 E+06 I-13 1. I-13 2. 1.80 E-02 2'9 E'-02, 8 '0 E+01. 1 17 E+02 I-133 3.60 E-02 1.62 E+02 I-13 4. 8.10 E 03 3.65 E+01 I-135 3 26 E 0? l..47 E+02 Total Iodines. 1~2 E-01 5.4 E+02 Cs~l34 4 32 E-05 1.94 E-01 Cs-137'r-89 1.98 4.68 E-05 E-08 8 2
'1 E-02 '1 E-04 Sr-90 4.32 E-08 1.94 E-04 Ba-140 La-140 1.01 1.01 E-06 E-06 4
4
'4 '4 E-03 E-03 Total Particulates 6.5 E-05 2 ' E-Ol
FIGURE 9;1'o ( CENAR SpuRCe TE~~
-NOBLE GAS ~ I 100-':
I-I I ~ ~ I
't'.0': . . I I
I 0."5 .
'RADIOIODINE a l l I ' ~ ~ ~ I PARTICULATE< .00001'.. 25 0645 a.m. - =releas,e --:duration '.:
I l I '" iosoo a.m. ~~00001'" I 05/00 05/45 07/00 SCENARl l
TABLE 9.2 PLANT VENT SAMPLE ANALYSIS ( T = 0645 - 0800 ) NUCLIDE ** CONCENTRATION ** UCI CC KR-85", 6 ~ 22-'.20 E-03 KR'-85M E-01 KR-87 1.,14'. E+00-KR 88 66 E+00 XE-131M " 1 ~ 80 E-02 XE-133 XE-133M ~ 5 8
'8 '9 E+00 E-01 XE-135 1 09 ~ E+00 XE-135M 5.00 E-04 TOTAL NOBLE GAS 1.10 E+01 I-135.03.
I-13 1. I.-132' 133 I-134 7 1.01
'3 2.26 E-04 9'.ll E-04 E-04, E-04.
E-03', 'TOTAL RADIOIODINE 3 '7 E-03 RB-88 1.66 E+00 CS-134 1 21 E-06 CS-137 Ba-140 5 '3 2.82 E-08 E-07 La-140 2.80 E-08 TOTAL LONG LIVED PARTICULATE 1.82. E-06
** Data to be provided to HP/Chemistry and Dose Assessment personnel in accordance with Exercise ground rules.
SECTION 10.0 METEOROLOGICAL AND OFFSITE RADIOLOGICAL DATA
~W tt~>> OFp ISNSIKKSWSKSIJSJ v Jess>>i tee Jo l twtnls I Vnw thigh Pecsec v 0>>sile P>>I
,r FlGURIE I 1 0 DlREC l'-'-"
UME Istvsi I sell>>rts tt>>>>le Iis Ieielweleeeu<<h pcs I I<< f P,ke>>VIS
~ ~
eNN
~
Sesetest Pe>>sst t~ Stilt /JII
es
;4 j. , f ~ ~ Neu>>N se pirl eeehw teu s ~
ts I nie >>ttv seep/I SWII S>>>>J I lulStill Isws PI Isot IL'(KP. eel >>>>I ~ I otsselt O.JN I ~I IVJJJSIKV Ikt Ctnltl IVJ<<>>ee e Je WA>>er I rh sit
.n .4 V'l etC stOt esj Ia4 esl Weir ~ I eel ~ \Ji ~ ~ I ) .CJ, .s, le I>>gl ~ 5 H +tt ~ . 1 ~ >> es I
IS ~ p
~ ~ S'ISIPt ~ >>e r ' fs.
et
,t t ~ I I ~ V~ >>IJII ~
I ~ e e Se>>elle Jill
~
I
~ er I e>>I>> el IJ 0 IP l C e ~ IIJrl ~
lull ~ I ',I II ltuI VISI CP'\e
~ s ~ ~ 'hs I$, ~ I I P I I.( ~>> ~ ~ ~ rirt I M.~ re I ~
e he
~ ~
e
~
l e.e ~
/W I ' Vial ns rl g" ;-- 1..-,'.(Iielssw(',"):,.
I s I sle.s l e
<<vs tl esa Jtsn ~ I 'e I 'I jt I)NIA r.
it>>
~ I I ql rhea ,,P..V, tt'. I.
l I I
~
le e L.I NI,I Q"I I Vs 4 I
.I S /lttuet gee<<>>s>>IA ~ ")
I
..; ~ ~ I Ll>> I Se 'J t ~I srPJ uos IIs'vl JI VVIIIll~ IVI wJ '( I ~ e sr >> Jl ,~ ere I h I' ~ tlirt ~ ~ I I Iet VI ~
I~ s l ' ll I lill Sl SV I
~. I I wL . ~I I I ~ I ersttvtet e ~
I IV<<I
>41 ~ I Jel pf e ~
en'e Je'tl lei Neienl LJ VIILIVIII:I ~ SS e
~ I,,' I (
I ee WJ VIII Ieee S.. .er>>INJI Jibe s sj I <J tsr ii
~
Ne ISN S hil till VIV Sl etS'llttl skit lilt t
//
I Slllt N 'I h 'js JJJS
~
I ~ h
~ ~ tssl ll / s Iee 'h J p
IO ~ ~ 'I ~ 12 If' I
~
N ee<< e ~ ~ ~ v
~
N>>~ ~ h
~ ~ ~
h ~
~ e>>
eH h v>>
'h h e/ <<e ~ ~
e eer>>r e>>'se
~ se>>e>> <<1>>e>>e ~
N ee ee SCALS 1I250,000 0 5 SIIILS NORf8 I
SECTXON 10.2 MAPS 6'4 .?c V
FIGURE 10.2 0 C QilaQ t~ NNZ
~ tO ~
0 I'll tact
~ i L
LAKS OA ni 51' l U+TA 0 O.S MILE BOA O 0 Ll I IJ O O K C O
'!.O MlLE
FIGURE 10.3 (REFER TO LARGE SIZE. "0 10 MILE. ZONE'AP)
SECTION 10.3 DEPOSITION DATA
NYS IP EXERCISE aaaa
'RELEASE DEPOSITIO R
~ ',. ll
~
C. I i I
r. rr aa
~ ~
4 ! ~ 4 ~ r!I aa rI ~
~ o ' Qa, ~
irr
-i -,l ROCHESTER < aa , 'T'I. I Otal F tl ae ~.
Ia I I
~ aa 4 ~ ,~ ~ aa )4 4 r,I I'I ~~
ai ~
." ~-I ~~ ~ r I ~ ~ M ~ ~ ~ I K.
j
~
P a
= ~ ~ ~ ~ i I ~ ~ ~ ~ ~ ~ ~ ~ a a ~ ~ ~ a I ~ ~ I
lr so' ~ ~ I I( .TS IGURE (
.'nips'.M I IMINAR RE$ UI T$ FROID JOE ARSIHQ FLY-. VQR" .PAY,':..' %I+, lACE Svnlf Qlvsvts SflfENCECCCEISIVASEIIEVEVA)tA r ~~ East Bay OIT<<NrNu Pul UR/ Sodua Point , cvrjcvjyatvtfs Pa SfAfftAVE' Etutnoa I <<r I
ioOAIIC O f 'I'(Ottvt>>OA( IN a (Alt uAAIOC SAAR Err(raNIAtAIAI
'5 ') e g ~
I:wrrr V SDDVS
'I 1(N Ir wcj ES a(r lI Ht IN I I
I(AI Era itl rcr n arm On a(N5 Eall IJ I
$1 t ~x A
oleo Ce)I I Wlharnson Willa n WAT JIINtn I 'rat NCII~ 1 Sl) r I r QIIO C(T r I I I IIOI) QE 4 'd.= ~ I u rvrAE NI 1 ! l~ I (
)D I A, ~
vlnfnv
/
I I, I, )r< Mu ron W(1 TT CTENE I will! ~ Wal h I (I:S I II) ~
" South ul e Ats 'll )o I4 MEQ I C (u
If I I II ord I <>I tl CV IAAR f IND lf lt .
CA (It)) lOCA at(i!nn I I, cv ACAAA Atfa ~ gl I I Iytr) I SII 4 Ilail I IIJ I )I
)l '<) E,r
ONT rIISC Newahi 6 Lyons ss
"/)
(I) e 'I I S(lt
, ~ I, <<g, ~ ) . ~, WA NE( I ~1 ~ I V<<'Iru EE r ~
Isg Manchaslcl I
'R jJNAt A R
NT VS
~
(-
~
MI(tM'r
~r(N INT <>I)
CA I CA t ( iyrtn' Stst 1 c f (1 ~ ;~vvsj(rji)~ . I I fl)1
)
Ska)asol
'i I
alr II HAAIAIrllA gshssV)IAIAI js-' uld
~ (s 0.'" +>>' ~
I jI A
~
ss I I s. I'S)'U
~ P sf. Id I
I s
'ss L TER RE ULTS FRO I'
I sill(>>sf I sv f ll l(9 h I
~
fss Hsn t th) NT I I j, I m sjs (' I s S
~ ~ O)1 liltIis r
n alsu Cofijrt
~
IAAISIOAf I IAAH .
'~
(fsi)
...J.,I ]
I I tshis sssts M.ss.edoi F On AIIO
\ ~
Wj>> h
~
l
'h 'I IOA h
5 v., s I trt lt VRK 1O.O:: DOE ARI1]I FI.Y-OVgR
,p ok I
I jcos P. nfy( a"'f. I I p I Pu jneyvsff wit hs W )4alnson I Ehst
~
I I I Wsffhs nSI
~
OM'uR~H M SDH SODOS odus
~
v~
~~
( ssi h hjq l~ s' I >>.I Ncwck. 8 all VCS(ff
~ 'sV '-" 'r-I ssss s
I s r... l ~s I ~, l hh Irl
)Il difa g
E SV I lrl hit
)L Lyons 'll( ~
Aas
~. ""."PAY 2": ',Ats S)ollofro(DIIs Pa Sodua Point
( (lss,'ssa
'IAIIOAAS fish) hs if(Ihi s( ~ ljl s
ns>> SVsssss Clshsss IA I I sss ~
~s I)ISA fat)AA /
I f ttjf If Alla
---"';-'j~'.5 East Bay jastj ~
lf
'lS)>>
( IO(AO s (
~s As AIS ASH(
(sv~ Oil f I h,ststj I sit I (jss) h 1,
/'i EC r
ofcol
~ ~
Cis I I%A )I st IAAISHOAI AIAASHIS
..'IAffaj(falfIs(SAI'sQCNTAJQ' I~kh "s s H)IIIOO l
South i oso O Ish ulf aston Is RadC Cp>>
~ 0 ~
O))a s
~ I Is H
o-C
~ s . Q(SI s 'Is Isss \
SVAs
)I 'A c ~ I ~ J A,sjsC)sn ll.l aIOO l)O Al II I A s
DD J
~s ~, 1 ~ I '(>' 'i"'-'j--:-j-- Ihss( s)a)
Shiit Cl . lul( [s J
~ ~ I I I'> lish s
s
~ tn u fA I I WF( O' I ,~ ~. V4 I'IIA Dl IAAAjjOAII'O S.~) ] }j, s'll's, }!8'; I u )
( h
~ Hlshrhl)f(+ .
TABLE 't0.0 ( INGESTION PATHWAY SAMPLE COUNT/DOSE RATES 9 1CM ***
~CPM * ~CPM *+
CONTAINER END WINDOW PANCAKE PROBE GM PROBE C WATER 1 LITER 1.0 E. + 5 1.0 E+2 2~2 E'+5 3.6 E.+ 5 (PER 2'. LITERS: 1.5 E + 5 1.5;E'+ 2; 3 ' E + 5 5.4 E,4-K uCi/cc) 4 LITERS, Z.O E + 5 2~0 E;+2 2.0 E + 5 7.2 E; + 5-. MILK. 1TZTER 1.0 E + 2 1.0E-1 2'.2' + .3;6 ER-2: (PER -- '2: LITERS- 1;5 E + 2 3 3 E+2 2'5'E-1 5.4 E + Z E - 1
~
uCi/1) 4 LITERS 2 ~ 0 E + 2 2' 4.4 E + 2 7.2 E + 2 VEGETA- 1 LITER 0 E+ 2 1 0 E 1 2 ' E + 2 E + 2 TATION 2 LITERS 1' E + 2 1.5E-1
~ - 3.3 E + 2 5.4 E + 2 (PER uCi/kg)
SOIL 4 1, LITERS LITER 2.0 2 ' E E + 2
+ 2 2 2 ' E OE'-1 1 4' -4.4 E +
E + 2 2'.6 2. 7.2 E + 2 7 ~ 2, E +- Z. 0 E'-1
~
PER 2 LITERS'. 3 ~ 0 3 ~ 6;6 E'+ 1.0 E+ 3 Ci/kg) LITERS' E,+2',.5,E+ 2, 3'5 E.' 1, E-'+ 2'.'.0 1.3 E' 3'P' Notes: 190 end-window probe w/ RM-14, or equivalent
*+ HP 210 or 260 pancake probe w/ RM-14, or equivalent: =
A+* To compute sample count/dose rates, do the following:
1. Determine appropriate zone depending upon downwind location;
)
2., Determine total activity concent:ration (uCi/cc, uCi/liter or uCi/Kg) of environmental media of interest. Note that soil needs to be converted. from uCi/m2 to uCi/Kg depending on sampling depth, using factors listed at: bottom of Table 10.3;
.3. Multiply concentration by appropriate conversion factor above.
for the applicable container size.
I r DAY 1 GROUND SURVEYS (CPM) ! AFTER PLUME PASSAGE TABLE 10. 1 POST-PLUNE RADIOLOGICAL SURVEY/SANPLING DATA ( FOR END PINDOW AND PANCAKE PROBES) POST-PLUME DECAY TIHE = 0.0 HOURS END WINDOW PANCAKE TOTAL PROBE (CP)1) PROBE (CPH) ZONE GROUND ACTIVITY UCI/N2 1 HETER 1 CN 1 HETER 1 CN A 2. 19E+02 7. 1E+03 5. OE+04 . 1.2E+04 5.0E+04 B 1.19E+02 3 '9E+03 g. 8E+04 6.3E+03 5.0E+04 C 5.95E+Ol 1.9E+03 2.4E+04 3.2E+03 5.0E+04 D 2.64E+Oi 8.7E+02 1. 1E+04 1.4E+03 2.6E+04 E 1.67E+Oi 5.6E+02 h. 7E+03 9. 1E+02 1.7E+04 F 1.17E+01 4.0E+02 4. 7E+03 6.5E+02 1.2E+04 6 7.64E+00 2.7E+02 3. 1E+03 3E+02 7.6E+03 H 5.20E+00 1.9E+02 2. 1E+03 3.0E+02 5.2E+03 I 4.50E+00 1.6E+02 1. BE+03 2.7E+02 4.5E+03 J 1 22E+00 5. 9E+01 4.9E+02 9.4E+Oi 1.2E+03 K 2. 61E-Oi 5.4E+Oi 1.0E+02 8.5E+Oi 2. 6E ie2 L 2. 19E-01 4.BE+01 8.7E+01 c'.6E+01 2 2Fye )
~
H L T. LLD 2. OE+01 2. OE+01 3.0Etel 3. OE tel NOTEs ASSUNED BACKGROUND READING 20 CPM (END WINDOW) 30 CPH (PANCAKE)
DAY 2 GROUND SURVEYS {CPM) TABLE 10.1 {0500-1100 HR) POST-PLUME RADIOLOGICAL SURVEY/SAMPLING DATA ( FOR PND WINDOW AND PANCAKE PROBES) POST-PLUME DECAY TIMF 24. 0 HOURS END WINDOW PANCAKE CC) I nl r.ROBE (Cr-M) PROBE (CPM) I I ICiC c.c ccciNI> n( I Ivl IY CCC I (M" I METER 1 METER 1 CM n *.87Ecvl 1. I Et 03 2.7E+04 1 ~ BE+03 5.0Et04 B 3.73Et01 6.0E+02 1.5E+04 9.8E+02 3.7E+04 C I . 86E+01 3. 1Et02 7.5E+03 5.0E+02 1.9Et04 D 8.27E+00 1. 5E+02 3.3E+03 2.4E+02 8.3E+03 E 5.24E+00 1.0E+02 2. 1E+03 1.6E+02 5.2E+03 F 3.66Etil0 7.7E+01 1.5E+03 1.2E+02 3.7E+03 G 2.39E+00 5.7E+01 9.6E+02 9 ~ 1E+01 2 'E+03 H 1. 6'3E+00 4. 5E+01 6.5E+02 7. 1E+01 1.6E+03 I 1. 41Et00 2. OE+01 5.6E+02 3. OE+01 1.4E+03
3. 82E-01 2.0E+01 1.5E+02 3. OE+01 3 'E+02 K 8. 17E-02 2. OE+01 3.3E+Ol 3. OE+01 8."E+Ol L 6. 84E-'02 2.0E+Ol 2.7E+01 3. OE +01 6. OEt 01 L. T. LLD 2.OE+01 2. OE+01 3. OE+01 3. OE+01 NOTEs ASSUMED BACKGROUND READING 20 CPM (END WINDOW) 30 CPM (PANCAKE)
DAY 2
~gyaj-1700 HR)
GROUND'URVEYS (CPM) TABlE 10. 1 POST-PLUME RADIOLOGICAL SURVEY/SAMPLING DATA FOR END QINDQW AND PANCA) E PROBES) POST-PLUME DECAY TIME 30.0 HOURS END WINDOW PANCAKE TOTAL PROBE (CPM) PROBE (CPM) ZONE GROUND ACTIVITY UCI/M2 1 METER 1 CM 1 METER 1 CM 4 5.99E+01 9. OE+02 2.4E+04 1.5E+03 5. OE+04 B 3.26E+Oi 5.0E+02 1.3E+04 B. 1E+02 3.3E+04 C 1.63E+Oi 2. 6E+02 6.5E+03 4 'f+02 1.6E+04 D 7. 21E+00 1.3E+02 2.9E+03 2.0E+02 7.2E+03 E 4.57E+00 B. 7E+0 1 1.BE+03 1.4E+02 4.6E+03 F 3. 19E+00 6. 7E+01 1 'E+03 1.1E+02 3.2E+03 G 2.09E+00 5. 1E+01 8.3E+02 B.OE+01 2. 1E+03 H 1.42E+00 2.0E+01 5.7E+02 3.0E+01 1.4E+03 I 1.23E+00 ~.OE+Oi 4.9E+02 3.0E+01 1.2E+03 J 3.34E-01 2. OE+Oi 1.3E+02 3.OE+01 3.3E+02 K 7. 13E-02 2 OE+01 2. 9E+01 3.OE+01 7. 1E+01 L 5.97E-O2 2.0E+01 2. 4E+01 3. OE+01 6. OE+01 M L T LLD 2. OE+O1 2. OE+0 1 3. OE+01 3. OE+O1 NOTE: ASSUMED BACKGROUND READING 20 CPM (END WINDOW) 30 CPM (PANCAKE)
I DAY 3 G'ROUND'URVEYS (CPM) TABLE 10. 1 POST-PLUME RADlOLOGlCAL SURVEY/SAMPLZNG DATA ( FOP END WlNDQW AND PANCAKE PROBES) POST-PLUME DECAY TlME 48.0 HOURS END WlNDOW PANCAKE I'OTAL PROBE (CPM) PROBE (CPM) ZONE (AGROUND ACT IV1T'f UC1/M2 1 METER 1 CM 1 METER A 4. 4 1E+01 6.0E+02 1.BE+04 9.7E+02 4. 4E+04 B 2. 40E+01 3.3E+02 9.6E+03 5.4E+02 2. 4E+04 C 1. 20E+01 1.BE+02 4.8E+O3 2.9E+02 1.2E+04 D 5. 31E+00 8 9E+01 2.)Et03 1.4E+02 5.3E+03 E 3.36E+00 6. 4E+01 1.3E+03 1.0E+02 3.4E+03 F 2.35E+00 5. 1Eto 1 9.$ E+02 B.OE+01 2.3E+03 G 1.54E+00 2. OE+01 6. 1E+02 3.0E+01 1.5E+03 H 1.04E+00 2. OE+01 4.2E+02 3. Of+01 1.0E+03 l 9.03E-01 2. OE+01 3.6E+02 3. OE+01 9.OE+02 J 2.45E-O1 2.0E+vl 9.8E+Ol 3.0E+01 2.5E+02
~ K 5.24E-02 2. OE+01 2. 1E+01 3.0E+01 5 2E+0 1 L 4.39E-02 2.0E+01 1.BE+01 3.0E+01 4.4E+Ol L. T. LLD 2. OE+O1 .DE+01 3.0E+01 3.OE+01 NOTE: ASSUMED BACKGROUND READ lNG 20 CPM (END WINDOW) 30 CPM (PANCAKE)
GROUND SURVEYS (CPM) DAY 6 TABLE 10. 1 POST-PLUME RADIOLOGICAL SURVEY/SAMPLING DATA ( FOR END WINDOW AND PANCAKE PROBES) POST PLUME DECAY TIME 120.0 HOURS END WINDOW PANCAKE TOTAL PROSE (Cf M) PROBE (CPM) ZONE GROUND ACTIVITY UCI/M2 1 METER 1 CM 1 METER 1 CM A 2. 44E+01 3.0E+02 9. BE+03 4.9E+02 2. 4E+04 S 1. 33E+01 1.7E+02 5.3E+03 2.BE+02 1. 3E+04 C 6.62Et00 9.7E+01 2.*E+03 1.6E+02 6.6E+03 D 2.94E+00 5.4E+01 1.2E+03 8.6E+01 2.9E+03 E 1.86E+00 2. OE+01 7.4E+02 3.0E+01 1.9E+03 F 1. 30E~OO 2. OE+01 5.2f+02 3. OE+01 1.3E+03 G 8.50E-01 2. OE+01 3.4Et02 3.0E+01 8.5E+02 H 5-78E-01 2. OE+0 1 2.3E+02 3.0E+Ol 5.BE+02 I 5.00E-01 2. OE+01 2.0E+02 3. OE+01 5. OE ~02 J 1.36E-01 2.0E+01 5. 4E+01 3. OE+01 1.4E+02 K 2.90E-02 2. OE+01 1.2EtOi 3 OE+01 2. 9Et 01 L 2.43E-02 2. OE+01 9.7E+00 3. OE+01 2. 4E +01 M L.T. LLD 2. OE+01 2.0E+01 3.0E+01 3. OE+01 NOTE; ASSUMED BACKGROUND READING 20 CPM (END WINDOW) 30 CPM (PANCAKE)
DAY 21 QUND SURvEYS {OPN} PasT-PLUME RADIaLoslcAL sURvEY/SAMPLING DATQ FOR END QINDOW AND PANCAKE PROBES) POST-PLUME DECAY TIME 4SO.O HOURS END WINDOW PANCAKE TOTAL PROBE (CPM) PROBE (CPM) ZONE . GROUND ACTIViTY UCI/M2 1 METER CM 1 METER 1 CM A 6.40E+00 1. 1E+02 2.6E+03 1.7E+02 6.4E+03 B 3.48E+00 b. 8E+01 1.4E+03 1.1E+02 3.5E+03 C 1.74E+00 4.4E+01 7.0Et02 6 9E+01 1.7E+03 D 7. 71E-01 2.0E+01 3. 1E+02 3. OE+01 7.7E+02 E 4.88E-01 2. OE+01 2.0E+02 3-OE+01 4.9E+02 F 3. 41E-01 2. OE+01 1.4E+02 3. OE+01 3.4E+02 8 2.23E-01 2. OE+01 8.9E+01 3. OE+01 2. 2&.02 H 1.52E-01 . 2.0E+01 6.1E+01 3. OE+01 1. 5E+02 I 1 . 31E-01 2. OE+01 5.2E+01 3. OE+01 1.3E+02 J 3.57E-02 2 OE+01 1 ~ 4E+01 3. OE+Oi 3.6E+Oi K 7.62E-03 2 OE+01 3 OE+00 3. OE+01 7.6E+00 L 6.38E-03 2. OE+01 2.6E+00 3. OE+01 6.4E+00 M L.T. LLD 2. OE+01 2. OE+01 3. OE+01 3.OE+01 NOTE f ASSUMED BACKGROUND READING .)r ~ 20 CPM (END WINDOW) 30 CPM (PANCAKE)
.MICRO-R/HR TABLE 10- 2 GAMMA MICRO-R/HR READINGS DUE TO GROUND DEPOSITION POST-PLUME DECAY TIME = 0.0 COUPS f~ >> ~> Ci1 METER C41 CM C >>>>l >.>>>>>r>l>>>l Ilail IY
;>> I >M.' M I CRO-R/HOUR MICRO-R/HOU g ~ 19f'>(>2 3. 2E+03 5. 5E+03 B I 19Et02 ~ 1.7E+03 3 0Et03 C S. 95Et 01 8.7E+02 1.5E+03 D 2. 64E+01 3.9E+02 6.6E+02 E 1. 67E+01 2.4E+02 4.2E+02 F 1.17E+01 1 7E+02 2.9E+02 G 7.64E+00 1.1E+02 1.9E+02 H 5.20E+00 7.6E+01 1.3E+02 I 4 '0E+00 6.6E+01 1. I E+02 J 1.22E+00 1.BE+01 3. 0Et01 Vi 2. 61E-i> I 1.5E+01 2. 6E+01 L 2. 19E-01 1.3Et01 2.2f>01 M L. T. LLD 1. 0E1 01 1.DE+01 NOTE, ASSUMED BACliGROUQD READING: 10 MICRO-R/HR
DAY 2 MICRO-R/HR (0500=1100 HR) TABLE 10. 2 GANHA MICRO-R/HR READINGS DUE TO GROUND DEPOSITION POST-PLUl'IE DECA'f TINE 24. 0 HOURS TOTAL ei HETER 81 CH ZONE GROUND ACTIVITY UCI/H2 N I CRO-R/HOUR $ 1CRO-R/HOU g A 6.87E+01 4. 9Et02 8. 2E+02 8 3. 73E+01 2. 6E+02 4.5E+02 C 1.86E+01 1.3Et02 2.2E+02 D 8.27E+00 5. BEt01 9.PE+01 E 5;24E+00 3. 7E+01 6.3E+01 F 3.66E+00 2.6E+01 4 4E+01 8 2.39E+00 1.7E+Ol 2. 9Et01 H 1.63E+00 1. 1E+01 2 OE+01 I 1. 41Et 00 1. OE+01 1 ~ OE+01 J 3.82E-01 1. OE+0 1 1. OE+01 K 8. 17E-02 1. OEt01 1. OE+01 L 6.84E-02 1. OE+01 1.0E+Oi H L.T. LLD 1.0E+01 1.0E+01 NOTEg 4SSUNED SACKGROUND READING 10 NICRO-R/HR
DAY 2 .MICRO-R/HR (1101-1V00 HR} TAB/E 10.2 GAMMA MICRO-R/HR READINGS DUE TO GROUND DEPOSITION POST-PLUME DECAY TIME = 30.0 HOURS
>'l l /<L 81 METER C~1 CQ ION!' I l<IIUNI) ACT I VI TY < ~L I /M2 MICRO-R/HOUR MICRO-R/HOU R A 5.99E+01 n.oEt02 6. 8E+02
3. 26E+ 01 2.2E+02 3.7E+02 C 1. 63E+01 1. 1E+u2 1.8E+02 D 7. 21E+00 g. BE+01 8. 1E+01 E n.57E~00 3.0E+01 5. 2E+01 F 3. 19E+00 2. 1E+01 3. 6f+0)
G 2.09E+00 1.nE+01- 2 nE+01 H I.n E+oo 1.0E+01 1.0Eyol I 1 ~ 23E+00 1.0E+01 1.0E+01 J 3.3nE~01 1.0E+01 1.0E+01 K 7. 13E-02 1.0E+01 1.0E+01 L 5.97E-02 1.0E+01 1.0E+ui M L.T. LLD 1.uE+01 1.0E+01 NOTE: ASSUMED BACKGROUND READINGS 10 MICRO-R/HR
2 I MlCRO-R/HR DAY 3 TABLE 10. 2 GAMMA MICRO-R/HR READINGS DUE TO GROUND DEPOSITION POST-PLUME DECAY 'flME ~ 4a.o HOURS TOTAL 81 METER 81 CM ZONE GROUND ACTIVITY UCI/M2 MICRO-R/HOUR MICRO-R/HOU R A 4. 41E+01 2. 6E+02 4.5E+02 B 2.40E+01 1.4E+02 2.4Et02 C 1 20E+01 7. 1E+01 1 2E+02 D 5. 31E+00 3. 2E+01 5.4E+01 E 3.36E+00 2. OE+01 3.4E+01 F 2.35E+00 1. lE+01 2. 4E+01 1.54E+00 1. OE+01 1. OE+01 H 1.04E+00 1.0E+Ol 1. OE+01 I 9.03E-01 1 AL OE+01 1. OE+O1 J 2. 45E-01 1.OE+01 1 . OE+01 K 5.24E-02 1.0E+01 1. OE+01 L 4.39E-02 I.OE+Ol I.OE+01 M L. T. LLD 1.0E+01 1. OE+01 NOTES ASSUMED BACKGROUND READINGS 10 MICRO-R/HR
TABLE 10.'Z GAMMA MICRO-R/HR READINGS DUE TO GROUND DEPOSITION POST-PLUME DECAY TIME 120.0 HOURS TOTAL Ci
) METER C~l CM lONE GROUND ACTIVITY UCI /M2 MICRO-R/HOUR MICRO-R/HOUR A 2. 44E+01 ).3E+02 2.2Et02 B 1.33E+OI 7. OE+01 1,2E+02 C 6.62E+00 3. 5E+01 5.9E+01 D 2 94E+00 ). 5E+01 2.6E+01 E 1.86E+00 1. OE+01 1.0E+01 F 1.30E+00 1 . OE+01 1.0E+Oi 8 8.50E-01 1.0E+01 I . OE.I 01 H 5. 78E-01 ).OE+01 1 . OE+01 I 5. OOE-01 1.0E+01 1. OE+01 J 1 36E-01 1.0E+Ol 1. OE+Ol K 2.90E-02 I . OEwOI 1 ~ OE+01 L 2.43E-02 l. OE+01 1. OF+01 M L.T. LLD I.OE~01, i. OE+OI NOTEc ASSUMED BACKGROUND READING: 10 MICRO-R/HR
'ICRO-R/HR DAY 21 TABLE 10.2 GANNA NICRO-R/HR READINGS DUE Ta GROUND DEraSITION POST-RLIINE DECAY TINE 480.0 HOURS I ~ >> ~ >I 81 NETER et CN
~ ><<t>I> i>> I IVI IY >>> I iN.'>
N I CRO- R/HOUR Nl CRO-R/HOU 8 A ~ 4>>l >(n.> 4. OE~01 b. BE+ul f> 3. 4QE+>jO 2. 2F+v 1 3.7E+01 C I . 74E+>jO 1. IE~OI 1.9E~OI D 7-71E-01 1. OE+01 1.0E+01 E 4.BBE-01 1. OE+01 1.0E+01 F 3.41E-01 1. OF+01 1 ~ OE+0 1 G 2.23E-i>1 1 ~ OE+01 1. OE+01 H 1-52E-01 1 AL OE+01 1.0E+01 I 1 31 I=-01 1.OE+01 1. uE+01 J 3.57E-O~ l.uE+01 1. OE+01 I/ /. E>2E-03 1'. OE+i>1 1. OE+01 L 6.38E-03 1.0E+Ol 1. OE+0 1 N L-T. t LD 1. OE+i>t 1. OE+01 NOTEs ASSUNED BACKGROUND READINGs 10 NICRO-R/HR
(Py@ SOIL DAY 1 TABLE 10. 3 GROUND DEPOSITION ISOTOPIC ACTIVITY POST-PLUME DECAY TIME = 0.0 HOURS TOTAL I-13) I-133 CS-134 CS-137 BA-140 LA-140 SR-89 SR-90 ZONE GROUND ACTIVITY UC I /N2 UCI/N2 UCI /M2 UCI/N2 UCI/N2 UCI /N2 UCI /N2 UCI /N2 UCI/N2 A 2.20F+02- 3. 57E+01 7. 00E+01 8.59E-03 3. 94E-03 2. 00E-04 1.98E-04 9.30E-nb B. 59E-06 8 1.20E+02 1 ~ 94E+01 3. 81E+01 4.67E-03 2. 14E-03 1.09E-04 1.0BE-04 5.05E-ob 4.67E-O6 C 6. 03E+01 9.68E+00 1.90E+01 2.33E-03 1.07E-03 S.43E-0S 5.38E-05 2.52E-06 2.33E-nb D 2. 72F+01 4.30E+00 8.43E+00 1.03E-03 4.74E-04 2. 41E-05 2.39E-05 1. 12E-06 1.03E-06 E 1.75E+n1 2.72E+00 5.34E+on 6.54E-04 3.00E-04 1.52E-05 1. 51E-05 7.09E-07 6.54E-07 F 1.24E+01 1.90E+00 3.73E+00 4.57E-04 2.09E-04 1.06E-OS 1.05E-OS 4.95E-07 4.57E-07 8 8.39E+00 1.24E+00 2 44E+00 2.99E-04 1.37E-04 6.97E-06 6.90E-ob 3.24E-07 2.99E-07 H 5.95E+00 8. 46E-01 1.66E+00 2.03E-04 9.33E-05 4.74E-06 4.70E-06 2.20E-07 2.03E-07 I 5. 25E< 00 7. 31E-01 1.44E+00 1.76E-04 8.06E-05 4. 10E-06 4.06E-06 1.91E-07 1.76E-07 J 1.97E+00 1 99E-ni
~ 3.90E-O1 4.78E-05 2. 19E-05 1 ~ 1 1E-06 1 10E-06 5. 18E-08 4.7BE-08 K 1 '1E+00 4.25E-02 8.33E-02 1.02E-05 4.68E-nb 2.38E-07 2.36E-07 1. 11E-08 1.02E-OB L 9.69E-n1 3.56E-02 6 98E-02 8.55E-06 3.92E-06 1 '9E-07 1.97E-07 9. 26E-09 8.55E-09 N 7. 50E-01 L. T. LLD L. T. LLD L. T. LLD L. T. LLD L.T LLD L.T. LLD L T. LLD L. T. LLD NOTE:
1. TO CONVERT TO UCI/KG, USE THE fOLLOWING FACTORS SOIL SANPLE DEPTH CONVERS IOQ 1 CN UCI/N2 /20 2.5 CN UCI/N2 /50 S CN Ucl/N2 /100

2. SOIL BACKGROUND ACTIVITY ~ 7 5E-ni UCI/N2 DUE TO K-40 (80%) ~ RB-87 (10%), TH-232 (5%) AND U-238 (S%).-
DAY 2 TABLE 30. 3 (0500-1100 HR) GROUND DEPOSITION ISOTOPIC ACTIVITY POST-PLUME DECAY TIME 24,0 HOURS TOTAL l-131 I-'133 CS-134 CS-137 BA-140 LA-140 SR-89 SR-90 ZONE GROUND ACTIVITY UC I /M2 UCI /M2 UCI/M2 UCI/M2 UCI/M2 . UCI/M2 UCI/M UCI/M2 UCI/M2 A b. 95Ew i>1 3. 2BE ini 3.09E+01 B. 58E-i>3 3. 93E-03 1.90E-04 1.938-04 9. 17E-06 8.59E-nb e . 9)E+>.'>I 1. 78E+01 1.68Etnl 4.66E-03 2. 14E-03 1.03E-u4 1.05E-04 4.98E-06 4.67E-nb C 1.94C>01 B. 89E+00 8.38E+00 2. 33E-03 1.07E-03 5. 14E-05 5 25E-05 2.49E-06 2.33E-nb D 9.0 E+00 3.94E+00 3.72E+00 1. 03E-03 4.74E-04 2. 28E-05 2.33E-05 1. 10E-06 1.03E-06 6.54E-04 3 '0E-04 1 44E-05 1.47E-05 6.99E-07 6.54E-07 E 5. 99E+00 2.50E+un 2.35E+00 f G 4 ~ 4 1E+00
3. 14E+ni>
1.74E+00 14E+00 1.64E+00 1.0BE+00 4.56E-04 2.99E-04 2.u9E-04
1. 37E-04 1 01E-05
~
6.60E-06 1.03E-n5 6.74E-06 4.8BE-07
3. 19E-07

4. 57F=07 2.99E-07 1 ~
H 2.38E+00 7. 76E-01 7.32E-01 2.03E-04 9.33E-05 4.49E-nb 4.58E-06 2. 17E-07 2.03E-07 I 2. 16E<00 6. 71E-01 6.33E-01 1 76E-04 8.06E-05 3.88E-06 3.96E-06 1. BBE-07 1.76E-07
1. 13E+00 1 82E-01 1 72E-01 4.77E-05 2. 19E-05 1.05E-06 1.08E-06 5. 11E-08 4.78E-OB K B. 32E-01 3. 90E-02 3. 67E-02 ).02E-05 4 '8E-06 2.25E-07 2.30E-07 1. 09E-08 1.02E-08 L 8.188-01 3. 26E-02 3.0BE-02 8.55E-06 3.92E-nb 1.89E-07 1.93E-07 9. 14E-09 8.55E-09 M 7. 0E-ni L. T. LLD L AT. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L. T. LLD L. T. LLD NOTF:

1. TO CONVERT TO UCI/KG,.USE THE FOLLOWING FACTORS:
SOIL SAMPLE DEPTH CONVERSION 1 CM UCI/M2 /20 2.5 CM UCI/M2 /50 5 CM UCI/M2. /100
2. SOIL BACKGROUND ACTIVITY = 7.5E-01 UCI/M2 DUE TO K-40 (80/), RB-87 (10%) TH-232 (5%) AND U-238 (5/).
DAY 2 SOIL TABLE 10.3 (lloi.-aioo HR) GROUND DEPOSITION ISOTOPIC ACTIVITY POST-PLUHE DECAY TINE 30.0 HOURS TOTAL f-131 CS-139
/
CS-137 BA-140 'A-140 SR-89 SR-90 ZONE GROUND ACTIVITY UCI/H2 UC I /H2 UC1 /H2 UCI/H2 UCI /H2 UC I /H2 UC l /H2 UCI /H2 UCI /H2 A h. 07E+01 3.21E+01 2. 52E+01 8.58E-03 3.93E-03 1. 87E-04 1 91E-04 9. 14E-Ob 8.59E-Ob 8 3. 33E+0 1 1.74E+01 1.37E+01 4.66E-03 2. 14E-03 1.02E-04 1 04E-04 4 '7E-06 4.67E-06 C 1. 70E+01 8.70E+00 6.82E+00 2.33E-03 l. 07E-03 5.07E-05 5. 18E-05 2.48E-Ob 2.33E-06 D 7. 96E+00 3.86E+00 3.03E+00 1.03E-03 4.74E-04 2.25E-05 2.30E-OS 1. 10E-06 1.03E-06 E 5. 32E+00 2.44E+00 1.92E+00 6.54E-04 3.00E-04 1.43E-05 1.46E-05 6.97E-07 6.54E-07 F 3.94E+00 1.71E+00 1.34E+00 4.56E-04 2.09E-04 9.95E-06 1.02E-05 4 86E-07 4.57E-07 8 2.84E+00 1. 12E+00 8.76E-01 2.99E-04 1.37E-04 b. 51E-Ob 6.65E-06 3. 18E-07 2.99E-07 H 2. 17E+00 7 60E-Oi 5. 96E-01 2.03E-04 9.33E-05 4,43E-06 4 '3E-Ob 2. 17E-07 2.03E-07 I 1 98E+00 h. 57E-01 5. 15E-01 1.76E-04 8.06E-05 3.83E-06 3. 91E-06 1 87E-07 1.76E-07 J 1 ~ OBE+00 1. 78E-01 1. 40E-Ol 4 '7E-05 2. 19E-05 1.04E-Ob 1 06E-06 5.09E-OB 4 78E-08 K 8. 21E-Oi 3. 81E-02 2.99E-02 1.02E-OS 4.68E-06 2.22E-07 2.27E-07 1.09E-OB 1.02E-OB L 8 10E-Ol 3. 19E-02 2. 51E-02 8.54E-06 3.92E-Ob 1.86E-07 1 90E-07 9. 11E-09 8.55E-09 H 7 50E-Oi L. T. LLD L. T. LLD L.T LLD L. T. LLD L.T. LLD L.T. LLD L. T. LLD L.T. LLD NOTEs
1. TO CONVERT TO UCI/KG USE THE FOLLOWIQG FACTORSs SOIL SAHPLE DEPTH CONVERSION 1 CH UCI/H2 /20 2.5 CH UCI/H2 /50 S CH 'UCI/H2 /100 2- SOIL BACKGROUND ACTIVITY M 7.5E-01 UCI/H2 DUE TO K-40 (80%), RB-87 (10%) ~ TH-232 (S%) AND U-238 (5%).
TABLE 10-3 I?AY 3 SOIL GROUND DEPOSITION ISOTOPIC ACTIVITY POST-.PLUME DECAY TIME = 48.0 HOURS TOTAL l-131 CS-134 CS-137 BA- 1 40 LA-140 SR-89 SR-90 ZONE GROUND ACTIVITY UCI/M2 UCI /M2 UCI /M2 UC I /M2 UCI /M2 UC I /M2 UCI /M2 UCI /M2 UCI/M2 A 4.4QEt01 3.01E+01 1.36E+01 8.57E-03 3.93E-03 1. BOE-04 1.82E-04 9. 05E-06 8. 58E-06 9 2.47E+01 1.63E+01 7.39E+v0 4.66E-03 2. 14E-03 9.75E-05 9.87E-05 4. 92E-06 4. 66E-06 C 1.27E+01 8. 15E+00 3.*9E+00 2.33E-03 1.07E-03 4.87E-05 4.93E-05 2. 45E-06 2. 33E-06 D 6.06E+00, 3.62E+00 1 64E+00 1'.03E-03 4.74E-04 2. 16E-05 2 19E-05 1.09E-06 1.03E-06 E 4. 11E+00 2.29f+00 1.04E+00 6.53E-04 3.00E-04 1.37E-05 1.38E-05 6.90E-07 6.54E-07 F 3.10E+00 1.60E+00 7.24E-01 4.56E-04 2.09E-04 9.55E-06 9.67E-06 4 '1E-07 4.57E-07 G 2.29E+00 1.05E+00 4.74E-01 2.98E-04 1.37E-04 6.25E-06 6.33E-06 3. 15E-07 2. 99E-07 H 1-79E+00 7.12E-01 3.22E-01 2.03E-04 9.32E-05 4.25E-06 4. 31E-06 2. 14E-0/ 2.03E-07 I 1.65E+00 6. 16E-01 2.79E-01 1.76E-04 8.06E-05 3.68E-06 3.72E-06 1.85E-07 1.76E-07 J 9.95E-01 1. 67E-01 7.57E-02 4 77E-05 2. 19E-05 9.99E-07 1.01E-06 5.04E-08 4.78E-OB K 8.02E-01 3.57E-02 1 62E-02 1.02E-05 4.6BE-06 2. 13E-07 2. 16E-07 1.0BE-08 1.02E-OB L 7.94E-01 2.99E-02 1.36E-02 8.54E-06 3.92E-06 1 79E-07 1. 81E-07 9.01E-09 8.55E-09 M 7.50E-01 L. T. LLD L. T. LLD L T. ILD ~ L.T. LLD L. T. LLD L. T. (.LD L.T. LLD L.T. LLD NOTE:
1. TO CONVERT TO UCI/KG, USE THE FOLLOWING FACTORS'OlL SAMPLE DEPTH CONVERSION 1 CM UCI/M2 /20 2.5 CM UCI/M2 /50 5 CM UCI/M2 /100

2. SOIL BACKGROUND ACTIVITY ~ 7 5E-01 UCI/M2 DUE TO t -40 (80%), RB-87 ( 10/) TH-232 (5%) QND U-238 (5%).
SOIL DAY 6 TABLE 10-3 GROUND DEPOSITION ISOTOPIC ACTIVITY POST-PLUME DECAY TINE = 120.0 HOURS TOTAl 1-131 1-133 CS-134 CS-137 BA-140 LA-140 SR-89 SR-90 ZONF. GROUND ACTIVITY
<<<( 1 >'M ' UC I /M2 UC1/N2 UCI/N2 UCI/M2 UCI /N2 UCI /N2 UCI /N2 UCI /N2 " 3"Eiul l. 16F <<<<<.< 0. 5!ia-03 3.93E-03 1. 53E-04 1. 37E-i<4 0.68E-Ob 0.50E-Ob
~~ 1 ~
<<. '<< ~ ><< ~ ~ <l 1. 26f tO<< 6.33E-Ol 4.64E-v3 ". <<4E- 03 8.29E-05 7.43E-05 4.72E-06 4.66E-06 C '. 7 f. ~ <<i< 6.30E<<OO 3. 16E-01 2.32E-v3 1.07E-v3 4. 14E-05 3. 71E-05 2.36E-ob 2.33E-06 l) '. 6<><<<. <OO 2.00E+00 1.40E-01 l.v3E-u3 4.74E-O4 1.04E-05 1.65E-OS 1.04E-06 1 03E-06 '.6<<E.<00 1.77E+00 B.BBE-02 6. S1E-04 3.00E-04 1. 16E-05 1.04E-O5 6.62E-07 6.54E-07 F 2.i<5E+00 1.24E+00 6. 2uE-02 4.55E-O4 2.09E-04 0. 12E-06 7.28E-06 4.62E-07 4.57E-07 G 1.6OE+Oo B. 09E-01 4.06E-02 2.90E-04 1.37E-O4 5. 31E-06 4.76E-ob 3.02E-07 2.99E-07
<<I 1.33E+00 5. 50E-01 2.76E-02 2. 03E-,04 9.32E-05 3.62E-ob 3.24E-Ob 2.06E-07 2.03E-07 I 1.25E+00 4. 76E-01 2.39E-02 1 ~ 75E-04 .8.06E-OS 3. 13E-06 2.80E-06 1.78E-07 1.76E-07 J 8. 86F-Ol 1.29E-01 6.4aE-03 4.76E-05 2. 19E-05 8. 49E-07 7. 61E-07 4.03E-OB 4.78E-OB <<r /.79E-01 2. 76E- 02 1.39E-03 1.02E-05 4.68E-ob 1. 81$ -07 1 ~ 63E-07 1.03E-OB 1.02E-OB L 7. 74E-Ol 2. 31E-02 1 ~ 16E-03 . a. slE-ob 3.92E-ob 1.52E-07 1.36E-07 8.65E-09 B.SSE-09 N 7.5OE-01 L. T.'LD L. T. LLD L.T. LLD L.T. LLD L.T. LLD L. T. LLD L T. LLD
~ L. T. LLD NOTE:
1. TO CONVERT TO UCI/<<G, USE THE FOLLOWING FACTORS:
SOIL SAMPLE DEPTH CONVERSION 1 CN UCI/N2 /20 2.5 CN UCI/N2 /50 5 CN UCI/N2 /100
2. SOIL BAC<<(GROUND ACTIVITY 7.5E-01 UCI/N2 DUE TO
<<'-40 (00/), RB-07 ( 10%), TH-232 (5%) AND U-230 (5%).
SO1L TABLE 10. 3 DAY 2l GROUND DEPOSITION ISOTOPIC ACTIVITY POST-PLUME DECAY T1NE 480.0 HOURS TOTAL I-131 I-133 CS-13$ CS-137 BA-140 LA-140 SR-89 'R-90 ZONE GROUND ACTIVITY 1 UCI/N2 UCI /H2 UCI/H2 UC//N2 UCI/H2 UCI/N2 UCl/N2 UCI/N2 UCI/N2 A 7. 15E+00 6.39E+00 5.36E-06 8.43E-03 3.93E-03 6. 77E-05 2.64E-05 7.06E-06 8.57E-06 8 4.23E+00 3.47E+00 2. 91E-Ob 4.5BE-03 2. 14E-03 3. 6BE-05 1.43E-05 3.84E-06 4.66E-06 C 2.49E+00 1.73E+00 1 '5E-Ob 2.29E-03 1.07E-03 1.84E-05 7. 16E-Ob 1.92E-Ob 2.33E-Ob D 1.52E+00 7.69E-01 6.45E-07 1 ~ 01E-03 4.73E-04 8- 15E-Ob 3. 1BE-06 8.50E-07 1.03E-06 E 1.24Er00 4.87E-01 4.08E-07 6.43E-04 3.00E-04 5. 16E-Ob 2. 01E-06 5.38E-07 6.54E-07 F 1.09E+00 3.4OE-01 2.85E-07 $ .49E-04 2.09E-04 3.60E-06 1.40E-06 3.76E-07 4.56E-07 G 9.73E-01 2.23E-Ol 1.87E-07 2.94E-04 1.37E-04 2.36E-06 9. 19E-07 2.46E-07 2.99E-07 H 9.02E-01 1. 51E-01 1.27E-07 2.00E-04 9. 31E-05 1.60E-06 6.25E-07 1.67E-07 2.03E-07 I 8.81E-01 1 31E-01 1. 10E-07 1.73E-04 8.05E-05 1.39E-06 5. 41E-07 1.45E-07 1.76E-07 7.86E-01 3.56E-02 2. 98E-08 4.69E-05 2 19E-05 3.77E-07 1.47E-07 3.93E-OB 4.77E-OB K 7. 5BE-01 7. 60E-03 b. 37E-09 1.00E-05 4.67E-Ob B. 05E-08 3. 14E-OB 8.40E-09 1.02E-OB L 7. 56E-01 *.37E-03 5.34E-09 B.JOE-06 3.92E-06 6.74E-OB 2.63E-OB 7.04E-09 8.54E-09 H 7.50E-01 L.T. LLD L. T. LLD L.T. LLD L. T. LLD L T LLD L.T. LLD L.T. LLD L.T. LLD NQTE:
1. TO CONVERT TO UCI/KG) USE THE FOLLOWING FACTORS:
SOlL SAMPLE DEPTH CONVERSION 1 CN UCI/H2 /20 2.5 CH UCI/H2 /50 5 C(( UCI/H2 /100 2- SOIL BACKGROUND ACTIVITY ~ 7 5E-01 UCI/N2 DUE TO K 40 (80/) r RB 87 (10%) r TH 232 (5%) AND U-238 (5/).
AIR SAMPLE )"'-'" OPIC RESUL'fS r TABLE 10.4-a f AIR,PARTICULATE FILTER H ISOTOPIC ACTIVITY (COLLECTtON')URING RELEASE) TOTAL FIELD I-131 I-133 CS-134 CS-137 BA-140 LA-140 ZONE ACTIVITY READING UCI/CC (CPM), UCI/CC UCI/CC UCI /CC UCI/CC UCI/CC - UCI/CC A 1.27E-ob 16)068 1.89E-07 3.78E-07 1. 81E-09 8 31E-10 4. 23E-1 1 4. 23E-1 1 B 6. 16E-07 7)822 9. 18E-08 1.84E-07 B.alE-lo 4. 04E-10 2.06E-11 2. 06E-11 C ~ 97E-v7 3,778 4. 42E-'08 8.84E-OB 4.24E-10 1. 95E-10 9.90E-12 9. 90E-12 fl l... E "07
l. 63E-OB 1,606 1.87E-OB 3.73E-OB 1.79E-lo 8. 21E-11 $ .18E-12 2.55E-12

4. 18E-12

2. 55E-12 E 986 1 ~ 14E-08 2.27E-OB 1. 09E-10 5 ).)OE-11
~ ~
l. 9/E-Oa 649 7. 4OE-09 1.40E-OB 7. 11E-11 3. 26E-11 1.*6E-12 1. 66E-12 G 3 E-)JB 314 3.46E-09 6.92E-09 3.32E-11 1. 52E-11 7 '5E-13 7. 75E-13 II 4.74E-09 80 7.06E-lo 1. 41E-09 6.78E-12 3.11E-12 1.58E-13 1.58E-13 I 2.73F-09 55 4.07E-10 8. 14E-10 3. 91E-12 1. 79E-12 9.12E-14 9. 12E-14 J 1. 13E-09 34 1.68E-lo 3. 35E- 1 0 1. 61E-12 7. 38E-13 3. 75E-14 3. 75E-14

3. 85E-10 r) 5 5.73E-11 1. 15E-10 5.50E-13 2. 52E-13 1. 28E-14 1 ~ 28E-14 L 8. 06E-11 21 1:20E-11 2.40E-11 1. 15E-13 5.28E-14 2. 69E-15 2. 69E-15 L. T. LLD 20 L. T. LLD L.T. LLD L. T. LLD L.T LLD L. T. LLD L. T. LLD TABLE 10.4-b SILVER ZEOLITE CARTRIDGE RADIOIODINE ISOTOPIC ACTLVITY TOTAL I-131 l-132 I-133 I-134 1-135 ZONE UCI/CC'IELD ACTIVITY READING (CPU) UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC A 3.8OE-ob 13,672 5.66E-07 8. 16E-07 1. 13E-06 2 55E-07 1.03E-06 B 1.85E-O6 6,657 2.75E-07 3.97E-07 5. 51E-07 1. 24E-07 4.98E-07 C 8.89E-07 3) 217 1.33E-07 1. 91E-07 2.65E-07 5.97E-OB 2.40E-07 D 3.75E-07 1,369 5.60E-OB 8. 06E-08 1.12E-07 2.52E-OB 1 01E-07 E 2.28E-07 842 3. 41E-08 4. 91E-08 6.82E-OB 1.53E-OB 6. 17E-08 F 1.49E-07 555 2.22E-OB 3.20E-OB 4.44E-OB 9.99E-09 4 02E-08 G 6.96E-OB 270 1.04E-QB 1.5QE-OB 2 OBE-08 4.67E-09 1.88E-OB H 1.42E-OB 71 2. 12E-09 3.05E-09 4.24E-09 9. 54E-10 3.84E-09 I 0. 19E-()9 49 1.22E-09 1.76E-09 2.44E-09 5. 50E- 1 0 2. 21E-09 J 3.37E-09 32 5 03E-10 7.24E-10 1.01E-o9 2. 26E-I.O 9r 10E 10 Ir 1. 15E-09 24 J. 72E-10 2.48E-10 3.44E-10 7.74E-)i 3. 11E-10 L 2 41E-10 21 3. 60E-1 $ BE 11 7.20E-ii 1.. 62F=1 I 6.52E-11 LoT. I LD 20 I-- T. LLD LLD L.T. LLD L. T LLD L.T. LLD
TA."4 5 PASTURE GRASS,. GE, LATE HARVEST HAY DA PASTURE POST"PLUHE DECAY TIME = 0.0 HOURS TOTAL I-131 'j I"163 CS-134 CS" 137 BA-140 f A"140 SR-89 SR-90 ZONE ACTIVITY UCI/KG(WET) UCI/KQ(WET) UCI/gQ(~T) UC$ /KQ(WET) UCI/KG(WET)UCI/KQ(WET)-UCI/KG(WETUCI/KG(WET) UCI/KQ(WET) h 4.07Etol l. 37E+Ol 2.69E+01 3.43E"03 1.71E-03 7.69E-05 4.18E-05 '4.18E-05 3.44E-06 1.878-06 3.07E-OB 1.67E-06 B 2.21E+01 7.46E+00 1.46E+Ol 1.87E-03 9.30E-04 C 1.10E+01 3 '2E+00 7.31E+oo 9.32E-04 4.64E-04 2.09E-05 2.09E"05 9. 34E-07 8.32E-07 D 4.90E+00 1.65K+00 3.24E+00 4. 13E-04 2.06E-04 9.26E-OB 9.26E-06 '.15E-07 3.69E-07 E 3.10E+00 1.05E400 2.05E+00 2.62E-04 1.30E-04 5.87E-OB 5.87E-06 LLD'.69E-05 2.63E-07 2.34E"07 F 2.16E+00 7.30E-oi 1.43E+00 1.83E-04 9.10E-05 4.09E"06 4.09E-06 1.83E-07 1.63E-07 G 1.42E+00 4.78E-01 9. 38E-01 1.20E-04 5.96E-05 2.68E-OB 2.68E-06 1.20E-07 1.07E-07 H 9.64E-ol 3.25E-01 6.38E-01 8.14E-05 4.05E-OS 1.82E-06 1.82E-06 8. 16E-08 7.27E-OB I 8.33E-01 2.81E-01'.64E-02 5.52E-01 7.04E-05 3.51E"05 1.58E-06 1.58E-06 7.06E-OB 6.28E-OB J 2.26E-01 1.50E-01 '.91E-05 9.52E"06 4.28E"07 4.28E-07 1.92E-OB 1.71E-OB K 4.84E-02 1.63E-02 3.20E-02 4.08E-06 2.03E-06 9.15E-OB 9.15E-OB 4.10E-09 3.65E"09 L 4.05E-02 1.3?E"02 2.68E-02 1.57E-06 1.70E-06 7.67E-OB 7.67E-OB 3.43E-09 3.05E-09 H l. T. Lf9 L.T. fLD f.T. fLD f.T. fLD l.T. LLD L. T. L.T. LLD L.T. LLD f.T. LLD TABLE 10.6-A CON'S MILK COW'S MILK POST"PLUME DECAY TIHE = f 0. 0 HOURS TOTAL -131 -
>-i33 CS-134 CS-137 BA-14O I.A-14O ". f< 1!I SR-90 . ZONE MILK ACTIVITY UCI/LITER UCI/LITER UCI/fITER UCI/fITER UCI/LITER UCI/f ITER 'CI/LITER UCI/LITER UCI/LITER A 1 ~ 20E-03 L. T. I LD f. T. LLD L.T. LfD l.T. LLD L.T. LLD L. T. LLD f. T. LLD L. T. LLD B 1.20E-03 L.T. LLD L.T. LLD L.T. LLD L.T. LLD L AT. LLD L.T. LLD L.T. LLD L.T. LLD C 1.20E-03 L. T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD D 1.20E-03 L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD E 1.20E-03 L.T. fLD f.T. LLD L.T. LI D L. T. LLD L.T. LLD L.T. ELD L.T. LLD f T. ~ LLD F 1.20E-03 L.T. LLD L.T. LLD L.T. LLD L. T. LLD L.T. LLD L. T. LLD L.T. LLD L T. LLD G 1.20E-03 L. T. LLD I.T. LLD L.T. LLD L. T. LLD L. T. LfD L. T. llD L. T. Lf D L.T. LLD H
I 1.20E-03 1.20E-03
l. T. LLD L.T. LLD L. T. LLD L.T. LLD L.T. LLD L.T. LLD I.T. LLD L. T. LLD L. T.
L. T. LLD L.T. QD L.T: LLD L. T. ILD L.T. LLD L. T. LfD L. T. LLD LLD . J 1.20E-03 L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD f. T. LLD L.T. LLD K 1.20E-03 L. T. LlD L.T. LLD L.T. LID L.T. LLD L. T. LLD L.T. LLD L. T. LLD L.T. LLD L 1.20E-03 L.T. LLD L.T. LLD I .T. LLD L.T. LLD L.T. LLD L. T. LLD L.T. LLD L.T. LLD H 1.20E-03 L. T. LLD L.T. LLD f T. LLD L.T. LLD L. T. LLD L.T. LLD f.T. LLD L.T. LLD NOTE: IF MILK AT A PROCESSING OR CHOOSE ZONE HOST PLANT IS ShYiPLED, USE 1 I OF ABOVE MILK CONCENTRATIONS CfOSELY APFROXIHATI(q SOURCE OF MILK IF KNOWN.
TURE (~(((.z '6 DAY R) 2':-'0500-1100 PASTURE GRASS, SILAGE. LATE HARVEST HhY POST"PLUME DECAY TIME .= 24.0 HOURS TOTAL I-191 ( I-133 CS-]3) CS-137 BA-140 LA-140 SR-89 SR"90 ZONE ACTIVITY UCI/KG(WET) UCI/KQ(WET) UCI/KQ(~T)'UC1/KG(WET) UCI/KG(WET)UCI/KQ(WET) UCI/KG(WET UCI/KG(WET) UCI/KG(WET) A 2.33E+01 1.20E+01 1.13K~01 3.26E-03 1.63E-03 6.93E-05'6.78E-05 3.23E-OB 2.92E-06 B 1.26E+Oi 6.51E+OO 6.13Etoo 1.77E-03 8.84E-04 3.77E-05 9.69K-05 1.76E-OB 1.58E-06 C 6.31Etoo S.25E+00, S.06E+00 8.85E-04 4.41E-04 1.88E-05 1.84E-05 8.76E-07 7.91E-07 D 2.80K%00 1.44K+00 1.36E+00 3.83E-04 1.96E-04 8.34E-OB 8.16E-06 3.89E"07 3.51E-07 E 1.77E+00 9. 13E-Oi 8.61E-01 2.49E-04 1.24E-04 5.28E-OB 5.17E-06 2.46E-07 2.22E-.07 F 1.24E+00 6.37K-01 6.01E-01 1.74E-04 8.66E-05 3.69E-06 9.61E-06 1.72E-07 1.55E-07 G 8.11E-01 4-17E"01 9.93E"01 1.14E-04 5.67E-05 2.41E-OB 2.36E-06 1.12E-07 1.02E-07 H 5.52E-01 2.84E-01 2.68E-01 7.73E-05 3.86E-05 1.64E-OB 1.61E-06 7.65E"08 6.91E-OB I 4.77E-01 2.45E-01 2.91E-01 6.69E-OS 3.33E-05 1.42E-06 1.39E-06 6.62E"08 5.97E-OB J 1.30E-01 6.67E-02 6.28E-02 1.82E-05 9.06E-06 3.86E-07 S.78E-07 1.80E-OB 1.62E-OB K 2.77E-02 1 ~ 42E-02 1.34E-02 3.88E-OB 1.93E-OB '8.24E-OB 8. 07E-08 3.84E-09 3.47E-09 L 2.32E"02 1.18E"02 1.12E-02 1.49E-06 1.62E-06 6.90E-.OB 6.76E-OB 3.22E-09 2.90E-09 M L.T. LLD L. T. I,LD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD TABLE 10.8-A COW'.S MILK COW'S MILK POST-PlUME DECAY TIME = 24.0 HOURS TOTAL I-131 I-133 CS"134 CS-137 BA-140 LA-140 SR-89 SR-90 ZONE MILK ACTIVITY UCI/LITER UCI/LITER UCI/LITER UCI/LITER UCI/LITER UCI/f ITER UCI/LITER UCI/f I TER UCI/f ITER A 5.60E+00 2.18E+00 S.42E+00 2.46E-04 1.21E-04 5.20E-07 5.09E-07 4.53E-OB 4.37E-OB B 3.04E+00 1.18E+00 1.86K+00 1.94E-04 6.55E-05 2.82E-07 2.76E-07 2.46E-OB 2.98K"08 C 1.52E+00 5.91E-O1 9.28E"01 8.68E-05 3.27E-05 1.41E-07 1.38E-07 1.23E-OB 1.19E-OB D 6.74E-01 2. 82E-01 '4.12E-01 2.96E-05 1.45E-05 6.28E-OB 6.12E-OB 5.45E-09 5.26K-09 E 4.27E-01 1.66E-01 2. 81E-01 1.88E-05 9.19E-OB 3.96E-OB S.BBE-OB 9.45E-09 3.SSE-09 F 2.98E-01 1.16E-01 1.82E-01 1.91E-05 6. 41E-08 2.77E"08 2. 71E-OB 2.41E-09 2.SSE-O9 G 1.95E-01 7.59E-02 1. 19E-01 8.58E-06 4.20E"06 1.81E-OB 1.77E-OB 1.58E-09 1. 52E-09 (g ( H 1.33E"01 5.16E-02 8.11E-02 5.84E-OB 2.86E-06 1.29E-OB 1.21K"08 1.07E-09 1.04E-09 I 1.15E-01 4.46E-02 7.01E-02 5.05E-OB 2.47E-06 1.07E-OB 2.89E-09 1.04E-OB 2.83E-09 9.28E-10 2.52E-10 8.96E-10 2.49E-10 J 3.12E-02 1.21E-02 1.80E-02 1.37E-06 6.71E-07 K 6.66E-03 2.59E-03 4.07E-03 2.93E-07 1.4SE-07 6.18E-10 8.05E-10 5.98E-11 ~ 5. 20E-ll L 5.58E-03 2.17E-OS 3. 41E-OS 1.19E-07 1.20E-07 5.18E-10 5.07E-10 4.51E"11 4.36E-il M 1.20E-03 L.T. LLD L.T. LLD L.T. LLD L.T. LLD f.T. LLD L.T. LLD L.T. LLD L.T. LLD NOTE: IF MILK AT A PROCESSING PLANT IS SAMPLED, USE 1 $ OF ABOVE MILK CONCENTRATIONS OR CHOOSE ZONE MOST CLOSELY APPROXIMATINQ SOURCE Of /ILK IF KNOWN.
k;r TABa'!:. 5 DAY ~ PASTURE GRASS, S AGE, LATE HARVEST HAY PASTURE (I 1'01-1700 HR) POST"PLUME DEChf QIME = 90.0 HOURS TOTAL I-191 ; I-13$ CS-1S4 CS-137 BA"140 LA-140 SR"89 SR-90 ZONE ACTIVITY UCI/KG(WET) UCI/KG(WET) UCI/KQ(WET) UCI/KG(WET) UCI/KG(WET)UCI/KG(WET) UCI/KG(WET UCI/KG(WET) UCI/KG(WET) h 2.07E+01 1.16E+01 9.08E+00 3.22E-03 1.61E-03 6.75E-05 6. 57E-05 3. 18E" 08 2.88E-06 B 1.12E+01 6;29Etoo 4.94K+00 1.75E-OS 8.73E-O4 9.67E-05 3. 57E-O5 1. 7SE-08 1.56E-OB C 5.61E+00 3..14E<00 2.46E+00 8.74E-04 4.S6E-04 1.83E-05 1.78E-05 8.62E-07 7.81E-07 D 2.49E+00 1.99E+00 1.09E+00 S.BBE-04 1.93E-04 8.19E"06 '7.91E-06 9.83E-07 3.47E-07 E 1.58E+00 6.82E-Oi 6.92E-01 2.46E-04 1.22E-04 5. 15E-06 5.01E"06 2.42E-07 2.19E-07 F 1.10E+00 6.16E-oi 4.83E-01 1.71E-04 8.55E-05 3.59E-OB S.50E-06 1.69E-07 1.53E-07 G 7.20E-01 4.03E-01 9.16E-01 1.12E-04 5.60E"05 2.35E"06 2.29E-06 1.11E-07 1.00E"07 H 4.90E-01 2.74E-ol 2.15E-01 7.63E-05 3.81E-05 1.60E-06 1.56E"06 7.53E-OB 6.82E-OB I 4.23E-01 2.37E-01 1.86E-01 6.60E-05 3.29E"05 1.38E-oe 1.35E-06 6. 51E-08 5.90E-OB J 1 ISE 01 6.44E-02 5.06E-02 1.79E"05 8.94E-06 9.76E-07 3.66E-07 1 77E-08
~ 1.60E-OB K 2 46E-02 1.38E-02 1.0BE-02 3.83E-06 1 ~ 91E-06 8.03E-OS 7 '2E-08 3.78E-09 3.42E-09 L 2.06E-02 1.15E-02 9.05E-03 1.47E-06 1.60E-06 6.73E"08 6.55E-OS 3.17E-09 2.87E-09 H L. T. I LD L.T. LLD L T. LLD f.T. LLD L. T. LLD L.T. LLD L. T- I LD L. T. LLD I.T. LLD TABLE 10.6-A COW'S MILK COW'S HIM POST"PLUME DECA/ TIME = 30.0 HOURS TOTAL I-131 I-133 CS-134 CS-137 BA"140 LA-140 SR-89 SR"90 ZONE MILK ACTIVITY UCI/I ITER UCI/LITER UCI/I ITER UCI/LITER UCI/I ITER UCI/LITER UCI/I ITER UCI/f ITER UCI/f ITER A 6.26E+00 3.51E+00 2.75E+00 3.04E-04 1.49E-04 1.69E-06 1.64E-OB 5.94E-OB 5.76E-OB B 3.40E+00 1.91E+00 1.50Etoo 1.65E-04 B.OBE"05 9.17E-07 8.83E-O7 3. 23E-08 9. 13E-OB C 1.70E+00 9.52E-ol 7.47E"Ol 8.24E-05 4.04E-05 4.58E"07 4.46E-07 1.61E-OB 1.56E-OS D 7.54E-01 4.22E-01 3.31E"01 $ .66E-05 1.78E-05 2.03E-07 1.98E-07 7.15E-09 6.83E-09 E 4;77E-01 2.67E-01 2.10E-Ol 2.32E-05 1.13E-05 1.28E"07 1.25E-07 .4.53E-09 4.99E-09 F 3.33E-01 1.87E"01 PIANOS 1.46E-ol 1.62E-OS 7.91E-OB s.seE-OB 8.74E-OB 3.16E-o8 S.OBE-09 G 2.1SE-01 1.22E-01 9.59E-02 1.06E-05 5.18E-06 5.88E-OB 5.72E-OS 2.07E-09 2.01E-OP, H 1.4BE-Oi 8.31E-02 6.52E-02 7.20E-06 3.52E-06 4.00E"08 3.89E"08 1.41E-09 1.S6E-08
.I 1.2SE-01 7.19E-02 5.64E"02 . 6.23E-06 3.05E-06 3.46E-OB 3.37E-OB. 1. 22E-09 1. 18E-09 J 3.49E-02 1.95E-02 1.53E-02 1.69E-06 8.28E-07 9.40E-09 9.15E"09 3.31E-10 3.21E-10 K 7.45E-03 4.17E-03 3.27E-03 3.61E-07 1.77E-07, 2.01E-09 1.95E-09 7.07E-11 6.85E-11 I 6.24E-03 3.49E-03 2.74E-03 1.39E-07 1.48E-07 1.68E-09 1.64E-09 5.92E"ll 5.74E"11 H 1.20E-03 L.T. LLD L.T. f LD L. T. LLD L.T. LfD L.T. LLD L.T. LLD L.T. LLD L.T. LLD NOTE: IF MILK AT A PROCESSING IS SAHPLED, USE 1 q OF ABOVE MILK CONCENT~TIO~tS OR CHOOSE ZONE MOST CfOSELY APPROXIHATI/G SOURCE PF MILK IF KNOWN.
F" P'AS RE PASTURE GRASS J I S LAGE ) LATE HARVEST HAY DAY 9 ' POST-PLUME DECAY TI+ = 48.0 HOURS TOTAL I-131 I-193 CS-134 CS-137 Bh-140 Lh-140 SR-88 SR-90 ZONE ACTIVITY UCI/KG(WET) UCI/KG(WET) UCI/KQ(WET) UCI/KG(WET) UCI/KG(WET)UCI/KG(WET) UCI/KG(WET UCI/KG(WET) UCI/KG(WET) h 1.52Etol 1.05EW01 4.73E+00 3.10E-03 1.55E-03 6.24E-05 6.98E"06 3.03E-OB 2.77E-06 B 8.25E+00 6.68E+00 2.6?E~OO 1.68E-03 8.40E-04 3.99E-05 9.25E"05 1.65E-OB 1.51E"06 C 4.12Ei00 2.84E+00 1.28E+00 8.41E-04 4.20E-04 1.69E-05 1.62E-05 8.22E-07 7.52E-07 D 1.83E+00 1.26E~OO 5.70E-01 9.73E-04 1.86E-04 7.51E-OB 7.20E-06 3.65E"07 3.34E-07 E =1.16E+00 7.97E-01 9.61E-01 2.36E-04 1.18E-04 4.76E-OB 4.56E-06 2.31E-07 2.11E-O? F B.OBE-01 6.56E"01 2.52E-01 1.65E-04 8.23E-05 3.32E-OB 3.18E-06 1.61E-07 1.47E-07 G 5.29E-01 3.64E-01 1.65E-01 1.08E-04 5.39E-05 2.17E-06 2.08E-06 1.06E"07 8.66E-OB H 3.60E-01 2.48E-01 1.12E-01 7.94E-05 3.67E"05 1.48E-OB 1.42E-06 7.18E-OB 6.57E-OB I 3.11E-01 2.14E-01 9.69E"02 6.95E-05 3.17E-05 1.28E-OB 1.22E-06 6. 21E-08 5.68E"08 J 8.45E-02 5.82E-02 2.63E-02 1.73E-OS 8.61E-06 3.47E"07 3.93E-07 1.69E"08 1.54E-OB K 1.81E"02 1.24E-02 5.63E-03 3.69E-06 1.84E-06 7.42E-OB 7. 11E-OB 9.60E"09 9.30E"09 L 1.51E-02 1.04E"02 4.71E-03 1.42E-06 1.54E-06 6.22E-OB 5. 96E-08 3.02E-09 2.76E-09 M L.T. LLD L. T. LLD L.T. LLD L.T. f ID L.T. ILD I.T. LLD L. T. LLD L.T. LLD L.T. LLD TABLE 10.6"$ COW'S MIL'K COW'S MlfK POST"PIUME DECAY TiME 48.0 HOURS TOTAL I-131 I-133 CS-134 CS-197 BA-140 LA-140 SR-89 SR-90 ZONE MILK ACTIVITY UCI/LITER UCI/LITER UCI/LITER UCI/I ITER UCI/LITER UCI/I ITER UCI/I ITER UCI/LITER UCI/I ITER h 4.60E+00 9.17E+00 1.43K+00 5.85E-04 2.86E-04 1 ~ 56E-06 1.49E-06 1.42E"07 1.39E-07 B 2.50E+00 1.72E+00 7. 79E-01 3. 18E-04 1.56E-04 8.48E"07 8.12E-07 7.69E-OB 7.53E"08 C 1.25E+00 8.59E-01 3.89E-01 1.59E"04 7.77E"05 4.23E-07 4.06E-07 3.84E-OB 3.?6E-08 D 5.54E-01 9.81E-01 1.73E-01 7.04E-06 - 3.45E-05 1.88E-07 1.80E-07 1.70E-OB 1.67E-,OB E 3.51E-01 2.41E-01 1.09E-01 4.46E-05 2.18E-05 1.19E-07 1.14E-07 1.08E-OB 1.06E-OB F 2.45E"01 1.68E-ol 7.83E-02 3. 11E-06 1.52E-05 8.30E"08 7.'a5E-os 7.53E-08 7.97E-09 G 1.60E-01 1. 10E-01 4.98E-02 2.04E-05 9.98E-OB 5.44E-OB 6. 21E-08 4.93E-09 4.83E-oa H 1.09E-01 7.51E-02 3.40E-02 1.99E-05 6.79E"06 3.70E-OB 9.54E-OB 3.35E-09 3.28E-09 9.43E-02 ~ 6.49E-02 2.94E-02 1.20E-05 5.87E-06 3.20E-OB 3.06E-OB '.90E-09 2.84E-09 J 2.56E-02 1.76E-02 7.98E-03 3.26E-06 1..59E-06 8.69E-09 8.92E"09 7.88E-10 7. 72E-10 K 5.47E-03 3.77E-03 1.71E-03 6.95E-07 3.41E-07 1'.86E-09 1.78E-09 1. 68E-10 1.66E-10 L 4 58K-03 3.16E-03 1.43E-03 2.67E-07 2.85E-07 1.65E-09 1.49E-09 1.41E-10 1.38E"10 M 1.20E-03 I.T. LLD L.T. fLD LLD L. T. LLD L.T. LLD L.T. LID L. T. LID f.T. LLD NOTE: IF MILK AT A PROCESSING PLANT IS SAMPLED, USE 1 5 OP'BO/E MILK CONCENTRATIOVjS OR CHOOSE ZONE MOST CLOSEfY APPROXIMATING SOURCE OF /ILK IF KNOWN.
TABLE PA RE GRASS ~ I 10.'ASTURE S LAGE ) LATE HARVEST HAY DAY6 POST-PLUME DECA/ TIME = 120.0 HOURS Tt
~ ~ TOTAL I-131 I-133 CS-134 CS-137 Bh"140 LA-140 SR-89 SR-90 ZONE ACTIVITY UCI/KG(MET) UCI/KG(MET) UCI/KG(WET) UCI/Kg(WET) UCI/KG(WET)UCI/KG(WET) UCI/KG(WET UCI/KG(MET) UCI/KG(WET)
A 7.29Eioo 6.94E+00 S.48E-ol 2.66E-03 1.33E-03 4.56E-05 4.09E-OS 2.50E"06 2.38E-06 B 3.96E+00 9.77E+00 1.89E-ol 1.44E-03 7 '2E-04 2.48E-05 2.22E-05 1.36E-OB 1.29E-06 C 1.98Et00 1.88E+00 9.45E"02 7.21E-04 3.61E-04 1.24E-05 1.11E-05 6.78E-07 6.46E-07 D 8.78E-01 8.36E-01 4.19E-02 3.20E"04 1.60E-04 5.49E-OB 4.93E-OB 3.01E-07 2.87E-07 E 5.56E-01 5.29E"01 '.65E-02 2.03E-04 1.01E-04 3.48E-06 3.12E-06 1.90E-07 1.82E-07 F 3.88E-01 3.69E-01 1.85E-02 1. 41E-04 7. 07E-05 2.43E-06 2.18E-06 1.33E-"07 1.27E-07 G 2.54E-01 2.42E-01 1.21E-02 9.25E-05 4.63E-05 1.59E-06 1.43E-06 8.70E-OB 8.30E-OS H 1.73E-01 1.64E-Ol 8.25E-03 6.30E-05 3.15E-05 1.08E-06 9.70E"07 5.92E"08 5.65E"08 I 1.49E-01 1.42E-01 7.14E-03 5.44E-05 2.72E-05 9.35E-07 8.39E-07 5.12E-OB 4.88E-OB J 4.06E-02 3.86E-02 1.94E-03 1.48E-05 7.40E-06 2.54E-07 2.28E-07 1.39E-OB 1.33E-OB K 8.67E-03 8.26E-03 4.14E-04 3.16E-06 1.58E-06 5.42E-OB 448?E-08 2.97E-09 2.83E-09 L 7.26E-03 6.92E-03 3.47E-04 1.22E-OS 1.32E-06 4.54E-OB 4.08E-OB 2.49E-09 2.37E-09 M L. T. LLD L.T. LLD f.T. LLD f.T; ffD f.T. LLD L.T. LLD L.T. LLD L.T. f LD L.T. LLD TABLE 10.6-A Cow'S MlLK COM'S HlfK POST-PLUME DECAY TIME = 120.0 HOURS TOTAL I-131 I-'133 CS-134 CS-137 BA-140 f A-140 SR-89 SR-90 ZONE Hlf K ACTIVITY UCI/LITER UCI/LITER UCI/LITER UCI/f ITER UCI/LITER UCI/LITER UCI/LITER Uci/LITER UCI/f ITER h 2.21E+00 2.10E+00 1.06E-01 5.01E"04 2.46E-04 l. 14E-06 1.02E-06 1.17E-07 1.19E-07 B 1.20E+00 1.14E+00 5.73E-02 2.72E-04 1.34E-04 6.20E-07 5.56E-07 6.35E"08 6.47E-OS C 6.00E-01 5.71E-01 2.86E-02 1.36E-04 6.68E-05 3.09E-07 2.78E-07 3.17E-OB 3.23E-OB D 2.66E"01 2.53E-01 1.27E-02 6.03E"05 2. 96E-05 1.37E-O? 1.23E-07 1.41E-OB 1.49E-OB E 1.68E-01 1.60E"01 8.04E-OS 3.82E-05 1.88E-05 8.69E-OB 7.80E-OB 8.90E-09 9.08E-OP F 1.18E-01 1.12E-01 5.61E-03 2.67E-05 1.31E-05 6.07E-OB 5.45E"08 6.21E-O9 6.34E-09 G 7.70E-02 7.93E-02 3.68E-03 1.75E-05 8.57E-06 3.97E"08 3.57E-OB 4.07E"09 4.15E"09 H 5.24E-02 4.98E-02 2.50E-03 1.19E-05 5.83E-06 2.70E-OS 2.43E-OB 2.77E-09 2.82E-09 I 4.53E-02 4.31E-02 2.16E-03 1.03E-05 5.04E-06 2.34E-OB 2. 10E-08 2.39E-09 2.44E-09 J 1.23E-02 '.17E-02 5.87E-04 2.79E-06 1.37E-06 6.35E-09 5.70E-09 6.50E-10 6.63E-10 K 2.63E-03 2.50E-03 1.25E-04 5.96E-07 2.93E-07 1.36E-09 1.22E-09 1.39E-lo 1.42E-10 L 2.20E-03 2.10E-OS '1.05E-04 2.30E-07 2.45E-07 1.14E-09 1.02E-09 1.16E-10 1.19E"10 H 1.20E-03 L.T. LLD L.T. LLD L.T. LLD L.T. f LD f.T. LLD L.T. LLD L.T. LLD L.T. LLD NOTE: IF MILK AT A PROCESSiNG PLANT IS SAMPLED, USE 1 5 OF ABOVE MILK CONCENTRATIONS OR CHOOSE ZONE MOST CfOSELY APPROXIMATING SOURCE OF /ILK 1F KNOWN.
a4t", TABLE I A fURE PASTURE GRASS) SILAG ) LATE HARVEST HAY DAY 2a POST-PLUME DECAY TIME 480.0 HOURS TOTAL I-131 I"193 CS-194 CS-197 BA-140,. Ih-140 SR-89 SR-90 ZONE ACTIVITY UCI/KG(WET) UCI/KG(WET) UCI/KG(WET) UCI/KQ(WET) UCI/KG(WET)UCI/KG(WET) UCI/KQ(WET UCI/KG(WET) UCI/KG(WET) h 8.99E-01 8. 97E-01 7-52E-07 1.2SE-03 6 '4E-04 9 '0E-08 ;6.17E-06 9.55E-07 1.12E-06 B 4.89E-O1 4.88E"01 4.09E-07 6.69E-04 3.99E-04 5 '6E"08 3.95E-06 6.19E-07 8:07E-07 C 2.44E-Oi 2.43E-Oi 2.04E"07 3 S4E-04
~ 1 ~ 69E-04 2 '8E-06 1.67E-06 2 '9E-07 9.03E-07 D 1 ~ OBE-01 1.08E-01 9.05E-OS 1.48E-04 7.51E-05 1.14E-OS 7.49E-07 1.15E-07 1.35E-07 E 8.85E-02 6.84E-02 6.73E-OB 9.38E-05 4.75E-05 7 '4E-07 4.70E-07 7 '8K-OB 8.52E"08 F 4 '8E-02 4 '7K-02 4 ~ OOE-08 6.55E-05 3.32E"05 5.06E-07 3.28E-07 5 OBE-OS ~ 5.95E-OB Q 9 13E"02 ~ 9 13E-02 ~ 2.82E-OB 4.29E-05 2.17E-05 3.31E-07 2 '5E-07 3 '3E-08 9.89E-OB .H 2 '3E-02 2 '3E-02 1.78E-OB 2 '2E-05 1.48E-05 2 '5E-07 1 ~ 46K-07 2.26E-OB 2 '5E"08 I 1.84E-02 1 ~ 1.54E-OB 2.52E-05 1.28E-05 1.95E-07 1 ~ 26E"07 1.96E-OB 2 '9E-08 3.49E"08 5 '1E-09 6 '2K-09 84E-02'.'99E-OS J 5 ~ OOE-03 4.19E-09 6.85E-06 3.47E-06 5.29E"08 K 1.07E-03 1.07E-03 8.94E"10 1.46E-06 7 '2E-07 1 ~ 13E-08 7.34E-09 1 ~ 14E-09 1.39E-09 L 8 ~ 95E-04 8 94E-04 ~ 7 '9E-10 5 '2E-07 6 '1E-07 9 '7E-09 B. 16E"09 9 '1E-10 1 ~ 11E-09 M L AT ~ LLD L AT. LLD f T LLD ~ ~ L.T. LLD L.T LLD ~ I.T. LLD f.T. fLD L AT. LLD I.T. LLD COW':S MILK'ABLE 10 ~ 6-A COW'S MILK POST-Pf UME DECAY TIME = 480 ' HOURS TOTAL l-131 I-133 CS-134 CS-197 Bh-140 Lh-140 SR-89 SR-90 ZONE MILK ACTIVITY UCI/LITER UCI/LITER UCI/LITER UCI/I ITER UCI/I ITER UCI/LITER UCI/LITER UCI/LITER UCI/LITER h 2 '2E-01 2.72E-01 2.28E-07 2.32E"04 1.15E-04 2 '8E-07 1 ~ 54E-07 4 '6E-08 5.59E-OS B 1 ~ 48E-01 1 ~ 48E-01 1.24E-07 1.26E-04 6 '8E-05 1.29E-07 8 ~ 38E-OB 2 '2E-08 3.04E-OS C 7 '9E-02 7.38E-02 6 '8K-08 6.30E-05 3 '3E"05 6 '4E-08 4. 1SE-08 1 ~ 21E"08 1.52E-OS D 3 '8E-02 9 27E-02 ~ 2.74E"08 2.79E-05 1.39E-05 2.86E-OS 1.86E-OB 5.97E-09 8.79E-09 E 2.08E-02 2.07E-02 1 ~ 74K-OB 1.77E-05 B.BOE-OS '1 81E-08 ~ 1 18E-08 ~ 3.40E-09 4 '6K-09 F 1 ~ 45E-02 1.45E-02 1 ~ 21E"08 1 ~ 24E"05 6 '4K-06 1.26E-OB 8.21E-09 2.37E-09 2.97E-09 G 9.48E 9.47E-03 7 '4E"09 8 09E"06 ~ 4.02E-OS 8.27E-09 5.37E-09 1.55E-09 1.95E-09 H 6 ~ 45E-03 6 ~ 44E-03 5 '0E-09 6.50E-OB 2.74E-06 5 '3K-09 ST 65E"09 1 ~ 06E"09 1.92E"09 .I 5 '8E-03 .5 '7E"03 4.67E"09 4.76E-06 2.37E-06 4 '7E-09 3.16E-09 ~ 9 '4E-10 1.15E-09 J 1 52E-03 1.51E-OS 1 27E-09 1 29E-08 6 '3E-07 1 32E-09 8 ~ 58E-10 2 '8E-10 9 11K-10 '1E-ll ~ ~ ~ ~ ~
K 3.24E-04 3 '3E-04 2 '1E-10 2.76E-07 1.37E-07 2. 82E-10 1 ~ 83E-10 5 6.85E-11 L 2 '1E-04 2 '1K-04 2.27E-la 1.08E-07 1.15E-07 2.37E"10 1.54E-10 4.44E-11 5. 57E-ll M 1.20E-03 L AT. LLD L AT. LLD f .T. LLD f.. T. LLD
~ I.T ~ LLD I.T. LLD L.T. LLD L.T. LLD NOTE: lF MILK AT A'ROCESSINQ PlANT IS SAMPI.ED, USE 1 $ OF ABOVE MILK CONCENTRATIONS OR CHOOSE ZONE MOST CfOSEfY APPROXlMATING SOURCE OF Miff IF KNOWN-
QOgT'S MILK BAY 1 TABLE 10.6-B GOAT'S MILK POST"PLUME DECAY TIME = 0.0 /OURS TOTAL I"131 I"133 CS"134 CS-137 BA-140 LA-140 SR-89 SR-90 ZONE MILK ACTIVITY UCI/f ITER UCI/LITER UCI/LITER UCI/f ITER UCI/LITER UCI/I ITER UCI/f ITER UCI/LITER UCI/f ITER A 1.20E-03 L. T. LLD L. T. LLD L. T. LLD L.T. LLD L.T. ILD L.T. fLD L. T. LLD L. T. LLD B 1.20E-03 L.T. LLD L.T. I LD L.T. LLD L.T. LLD L. T. LLD L. T. LLD L.T. LLD L. T. LLD C 1.20E-03 f.T. LLD L.T. f LD L.T. ffD L.T. LfD L. T. LLD L.T. LLD L.T. LLD L. T. LLD D 1.20E-03 L.T. LLD L.T. LLD L. T. LLD L. T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD E 1.20E-03 f.T. LLD L.T. LLD f.T. ILD L.T. fLD L. T. LLD L.T. fLD L.T. LLD f. T. fLD F 1.20E-03 L.T. LLD L.T. LLD . L.T. LLD L.T. LLD I.T. LLD L.T. LLD L.T. LLD L.T. LLD G 1.20E"03 L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. t.LD L.T. LLD H 1.20E-03 L AT. LLD L.T. ILD L.T. LLD f.T. LLD L.T. LID L. T. LLD L.T. LLD L.T. LLD I 1.20E-03 f.T..LLD f.T. LLD L.T. LLD L.T. LLD L. T. LLD L.T. LLD L.T. LLD L.T. LLD J 1.20E-03 L.T. LLD L.T. LLD L.T. LLD L.T. LLD L. T. LLD L.T. LLD L.T. LLD L.T. ILD K 1.20E-03 L.T. LLD L.T. LLD L.T. LLD f.T. LLD L. T. LLD L. T. LLD f.T. ILD L.T. ffD L 1.20E-03 L.T, LLD L.T. LLD L.T. I LD L.T. LLD L. T. LLD L.T. LLD I.T. ILD L. T. LLD M 1.20E-03 L. T. LID L.T. LLD L.T. LLD f:T. LLD L. T. LLD f.T. fLD L.T. fLD L.T. LLD NOTE: TOTAL MILK BACKGROUND ACTIVITY = 1.2 E-3 UCI/LITER DUE TO K-40
GOAT'S 'MILK J ~
DAiY 2 TABLE 10 6 B (0500-Z100 HR) GOAQ'S HILK POST"PLUHE DECAY glHE 24.0 HOURS TOThf I-131 I -133 CS-134 CS-137 BA-140 Ih-140 SR-89 SR-90 ZONE HII.K ACTIVITY UCI/LITER UCI/LITER UCI/I ITER UCI/LITER UCI/LITER UCI/I ITER UCI/LITER UCI/LITER UCI/I ITER h 6 72EIOO 2. 61Ei00 4.11Ei00 7.39E-04 3.62E-04 1.09E-06 1.07E-OB 9. 51E-08 9 '8E"08 B 3.65E>00 1.42Et00 2.23Eioo 4.01E-0$ 1.96E-04 5.93E-07 5.80E-07 5. 17E-08 4.99E-OB C 1.82E+00 7.09E-01 1.11Ei00 2.00E"04 9.81E-05 2.96E-07 2.90E-07 2.58E-OB 2.49E-OB .D 8.09E-01 3.15E-01 4.94E-01 8.89E-05 4.35E-05 1.31E-07 1.29E-07 1.14E"08 1.11E-OB E 5.12E-01 1.99E"01 9.13E-01 5.63E"05 2.76E-05 8.32E-OB 8.14E"08 7.25E-09 7.00E"09 F 3.58E"01 1.99E-Oi 2.18E-01 3.93E-.05 1.92E-05 5. 81E-08 5.68E-OB 5.06E-09 4.89E-09 G 2.34E-01 9.10E-02 1.43E-01 2.57E"05 1.26E-05 S.BOE-OB 9.72E-OB 3.31E-09 3 '0E-09 H 1.59E-01 6.19E-02 9.73E-02 1.75E"65 8.57E-06 2.59E-OB 2.53E-OB 2.25E-09 2.18E-09 I 1.3BE-01 5.36E-02 8.41E-02 1.51E-05 7.41E-06 2.24E-OB '2. 19E-08 1.95E-09 1.88E-09 J 3.74E-02 1.45E-02 2.29E"02 4.11E-06 2.01E-06 6.08E-09 5. 95E-09 5.29E-10 5.11E-10 K 7.99E-03 3.11E-03 4.88E-03 8.78E-07 4.90E-07 1.30E-09 1.27E-09 1.13E-10 1.09E-10 L 6.69E-03 2.60E-03 4.09E-03 3.38E-07 3.60E-07 1.09E-09 1.06E-09 9.47E-11 9.15E-11
'H 1.20E-03 f.T. fLD L.T. LLD f.T. ILD L.T. LLD f.T. LLD L.T. Lf D L. T. LID L.T. LLD NOTE: TOTAL HILK BACKGROUND ACTIVITY = 1.2 E-3 UCI/LITER DUE TO K-40
PAY 2 GOA T'S MILK ThBLE 10. 6- P (1101-1ZOOI HR) GOAT'S MILK POST-PLUME DECAY TIME = 30.0 HOURS TOTAL I"131 , I"133 CS-134 CS-137 BA-140 . LA-140 SR-89 SR-90 ZONE MILK ACTIVITY UCI/IITER UCI/LITER UCI/LITER UCI/LITER UCI/LITER UCI/LITER UCI/LITER UCI/LITER UCI/LITER h 7. 51Et00 4.21Etoo 3.30E+00 9.12E-04 4.46E-04 3.54E-06 3.45E-06 1.25E-07 1.21E-07 B 4.08E+00 2.29E+00 1.79K+00 4.95E"04 2.42E-04 1.93E-06 1.87E-OB 6.78E-OB 6.57E-OB C 2.04E+00 1.14Et00 8-SBE-Ql 2.47E-"04 1.21E-04 9.62E-07 9.36E-07 3.39E-OB 3.28E-OB D 9.05E-01 5.07E-01 3. SBE"Ol 1.10E-04 5.37E-05 4.27E-07 4.15E"07 1.50E-OB 1.46E-OB E 5.73E-01 3.21E-01 2.52E-01 6.95E-05 3.40E"05 . 2.70E-07 2.63E-07 9.51E-09 9.22E-09 F 4.00E-Ol 2.24E"01 1.76E-01 4.85E-oe 2.37E-05 1.89E-07 1.84E-07 6.64E-OS 6.43E-OS G 2.62E-01 1.47E-01 1.15E-01 3.18E-05 1.55E-05 1.23E-07 1 ~ 20E-07 4.35E-OS 4.21E-09 H 1.78E-01 9'.SSE-O2 7.83E-02 2.16E-05 1.06E-05 8.40E-OB 8.18E"08 2.96E-OS 2.87E-OS I J' 1.54E"01 8.63E-02 6.77E-02 1.87E-05 9. 14E-06 7. 26E-08 7.07E-OB 2.56E"09 2.48E-09 4.18E"02 2.34E-02 1.84E-02 5.07E"06 2.48E-06 1.97E-OB 1.92E-OB 6.94E-10 6.73E-10 8.94E-03 5.01E-03 3.93E-03 1.08E"06 5.31E"07 4.22E-09 4.10E-09 1.48E-10 1.44E"10 L 7.49E-03 4.19E-03 3.29E-03 4.17E"07 4.45E-07 3.53E-09 3.44E-OS 1.24E-10 1.20E"10 M 1.20E-03 L.T. LLD L.T. LLD I.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD NOTE- TOTAL MILK BACKGROUND ACTIVITY = 1.2 E-3 UCI/LITER DUE TO K"40
GOAT"S MIL'K TABLE 10. 6-B GOAT'S HILK POST-PLUHE DECA/ TIHE = 48.0 HOURS TOTAL I-131 I 1S3 CS 13$ CS 137 BA 140 fh 140 SR 89 SR-90 ZONE MILK ACTIVITY UCI/LITER UCI/LITER UCI/LITER UCI/LITER UCI/f ITER UCI/LITER UCI/f ITER UCI/LITER UCI/LITER A 5.52Et00 S.BOE400 1.72E+00 1.75E"03 8.59E-04 3.28E-06 3.14E-06 2.97E-07 B 3.00E+00 2.07E+00 9. 35E-01 9.53E"04 4.67E-04 1.78E-OB 1.71E"06 1.62E-07 1.58E-07 C 1.50E+00 1.03E+00 4.67E-Ol 4.76E-04 2.33E-04 8.89E-07 8.52E-07 8.07E-OB 7.90E-OB 6.65E-01 4.57E"Ol 2.07E-01 2.11E-04 1.03E-04 3.84E-07 3.78E-07 3.58E"08 3.50E-OB D 4.21E-01 2.90E-01 1.31E-01 1..34E-04 6.55E"05 2.50E"07 2.39E-07 2.27E-OB 2.22E-OB E 1.58E-OB 1.55E-OB F 2.94E-01 2.02E-01 9.15E-02 9.3SE-05 4.57E-05 1.74E"07 1.67E"07 . f.l.l'.91E-07 G 1.92E-01 1.32E-01 '.99E"02 6.11E-05 2.99E-OS 1.14E-07 1.09E-07 1.04E"08 1. 01E-08 H I J 1.31E-01 1.13E-01 3.07E-02 8.01E-02 79E-02 2.12E-02 4.08E-02 3.53E"02 9.58E-03 4.16E-05 3.59E-05 9.77E-OB
.2.04E-OS 1.76E-05 4.78E-06 7.77E-OB 6.72E-OB 1.82E-OB 7.44E-OB 6.43E-OB 1.75E-OB 7.04E-09 6.09E-09 1.65E-O9 6.90E-09 5.96E-09 1.62E-09 6.57E-03 4.52E-03 2.05E-03 2.09E-06 1.02E-06 3.90E-09 3.73E-09 3. 54F.- 10 3.46E-IO K
5.50E-03 3.79E-03 1.71E-03 8.02E-07 8.56E-07 3.26E-09 3.13E-09 2 8f F. 10 2 90F.-10 L f. T. LLD H 1.20E-03 f.T. LLD f.T. fLD I.T. LLD L.T. f LD L. T. LLD I . T. Ll.D T NOTE: TOTAL HILK BACKGROUND.ACTIVITIES = 1.2 E-3 UCI/I ITER DUE TO K-40
~ v < ~
GQAT'S MILK TABLE 10.6"B DAY 6 GOAT'S MILK POST-PLUME DECAY TIME .= 120.0 HOURS TOTAI I-131 I-133 . CS-134 CS-137 BA"140 LA-140 SR-89 SR-90 ZONE MILK ACTIVITY UCI/LITER UCI/f ITER UCI/LITE/ UCI/f ITER UCI/LITER UCI/LITER UCI/LITER UCI/f ITER UCI/f ITER h 2.65E+00 2.52E+00 1.27E-01 1.50E"03 7.39E-04 2.39E-OB 2.15E-06 2.45E-07 2.50E-07 B 1.44Ei00 1.97Et00 B.BBE-02 8. 17E-04 4.01E-04 1.30E-06 1.17E-06 1.33E-07 1.36E-07 C 7.20E-Oi 6.85E-01 3.44E-02 4.08E-04 2.00E-04 6.50E-07 5.83E-07 6.65E-OB 6.79E-OB D 3.19E-01 3.04E-01 ~ 1.52E-02 1.81E 04 8.89E-05 2.86E-07 2.59E-07 2. 95E-08 3. 01E-OB E 2.02E-01 1.92E-01 9.65E"03 1.16E-04 5.63E-05 1.83E-07 1.84E-07 1.87E"08 1.91E-OB F 1.41E-Oi 1.34E-01 6.74E-03 B.OOE-05 3.93E-05 1.27E-07 1.14E-07 1.30E-OB 1.33E-OB G 9.24E"02 8..79E-02 4.41E-03 5.24E-05 2.57E-05 8.94E-OB 7.49E-OB 8.54E-09 8.71E-09 H 6.29E-02 5.98E-02 3.00E-03 3.56E-05 1.75E-05 6.67E-OB 5.09E-OB 5.81E-09 5.93E-09 I 5.44E-02 5.17E-02 2.59E-03 3.08E-05 1.51E-05 4.91E-OB 4.40E-OB 5.02E-09 .5.19E-09 J 1.48E-02 1.41E-02 7.05E-04 8.37E"06 4.11E-06 1.33E-OB 1.20E-OB 1.36E-09 1.39E-09 K 3.16E-03 3.00E-03 1.51E-04 1.79E-06 8.78E-07 2.85E-09 2.56E-09 2.92E"10 2.98E"10 L 2.64E-03 . 2.51E-03 1.26E-04 6.90E"07 7.96E-07 2.39E-09 2.14E-09 2.44E-10 2.49E-10 M 1.20E-03 L.T. LLD L.T. LLD L.T. LLD I.T. LLD f.T. LLD L.T. LLD L.T. LLD I .T; ff D NOTE: TOTAL MILK BACKGROUND ACTIVITY = 1.2 E"3 UCI/LITER DUE TO K"40
C TABLE &-B " f'S'MILK DAY 21 GOAT'S /ILK POST"PL%+ DECAY TIME = 480.0 HOURS TOTAL I-131 I-133 . CS-134 CS-137 BA-140 I h-140 SR-89 SR-90 ZONE MILK ACTIVITY UCI/LITER UCI/LITER UCI/LITER UCI/LITER UCI/LITER UCI/LITER UCI/flTER UCI/LITER UCI/LITER h 3.27E-01 3.26E-01 2.73E-07 6.97E-04 3.46E-04 4.99E-07 3.24E-07 9.37E-OB 1.17E-07 B 1.78E-01 1.77E-01 1.49E-07 3.78E-04 1.88E-04 2.71E"07 1..76E-07 5.09E-OB 6.38E-OB C B.BBE"02, 8.85E-02 . 7.42E"08 1.89E-04 9.40E-05 1.35E-OV 8.79E-OB 2.54E"08 3. 18E-08 D 3.94E-02 S.9SE"02 3.29E-OB 8.38E-05 4.17E-05 6.00E-OB 3.90E"08 1.13E-OB 1.41E-OB E 2.49E-02 2.49E-02 2.08E-OB 5.31E"05 2.64E-05 S.BOE-OB 2.47E-OB 7.14E"09 8.95E-09 1.74E-02 1.74E-.02 1.45E-OB 3.71E"05 1.84E-05 2.65E"08 1.72E-OB 4.98E-09 6.24E-09 G 1.14E-02 1.14E-02 9.52E-09 2.43E-05 1.21E-05 1.74E-OB 1.13E-OB 3.26E"09 4.09E-09 H 7.76E-03 7.73E-03 6.48E-09 1.65E-05 8.21E-06 1.18E-OB 7.67E-09 2.22E-09 2.78E-09 l 6.71E-03 6.69E-03 5.60E-09 1.43E-05 7.10E-06 1.02E-OB 6.64E-09 1.92E-09 2.40E-09 J 1.82E-03 1.82E-03 1.52E-09 3.88E-OB 1.93E-06 2.78E"09 1.80E-09 5.22E-10 6.53E-10 K 3.89E-04 3.88E-04 3.25E-10 8.28E-07 4.12E-07 5.93E-10 3.85E-10 1.11E-10 1. 40E" 10 L 3.26E-04 3.25E"04 2.72E-10 3.24E-07 3.45E-07 4.97E"10 3.23E"10 9.33E"11 1.17E-10 M 1.20E-03 L. T. LLD L.T. Lf D L.T. LfD f.T. fLD L.T. LLD- L.T. f LD L.T. LLD L.T. LLD NOTE: TOTAL MILK BACKGROUND ACTIVITY = 1.2 E-3 UCI/LITER DUE TO K-40
ODUCE
.E 'i'~'( 10. 7-A f)~i.
FRESH PRO PITH LARGE SURFACE AREA/HASS DAY (E-G., FRESH LEAFY VEGETABLES, BROCCOLI< GRAPES) POST-PLUME DECAY TINE 0,0 HOURS r TOTAL 1-131 l-}33 CS-}3/ CS-137 BA-140 LA-140 SR-89 SR-90
//
ZONE ACTIVITY ~ UCI /KG (WET) UCI /KG (WET) UCI /KG (WET) UCI /KG (WET) UCI /KG (WET) UCI /KG (WET) UC I /KG (WET UC I /KG (WET) UC I /KG (WET) A 5. 29E+01 1.79E+01 3. 50E+01 8.59E-04 3.94E-04 2.00E-05 2.00E-05 9. 30E-07 8.59E-07 8 2.87E+01 9 70E+00 1 90E>0} 4.67E-04 2. 14E-04 1 09E-05 1.09E-05 5.06E-07 4.67E-07 C 1.43E+01 4.84E+00 9.50E+00 2.33E-04 1.07E-04 5.43E-Ob 5 43E-06 2.52E-07 2.33E-07 D 6.37Et00 2.15E+00 4 22E+00 1.03E-04 4.74E-05 2.4}E-06 2+4}E-06 1 12E-07
~ 1.03E-07 E 4.03E+00 1.36E+00 2.67E+00 6.55E-05 3.00E-05 1.53E-06 1.53E-Ob 7- 0'9E-08 6.55E-OB F 2 81E+00 9 50E-01 1 86E+00 4.57E-05 2.09E-05 1.06E-06 1 '6E-Ob 4.95E-OB 4.57E-OB G }.84E+00 b. 22E-01 1.22E+00 2.99E-05 1.37E-05 6.97E-07 6.97E-07 3.24E-OB 2.99E-OB I( ifo<<<< 4.23E-O} 8 30E-01 2.04E-05 9.33E-06 4.74E-07 4.74E-07 2.2}E-OB 2.04E-OB ) }. < r P f: i <'i<< 3. 66E-01 7. 1BE-01 1.76E-OS 8.07E-06 4. }OE-07 4 'OE-07 1. 91E-08 1.76E-OB I). 9. (: 3. 0}E-01 S. 9}E-01 1.45E-05 6.64E-v6 3.38E-07 3.3SE-07 1. 57E-08 1 45E-08
t. g,2E-i<1 2-57E-01 5. 05E-01 ).24E-05 5.68E-Ob 2.88E-07 2.8BE-07 1.34E-OB 1.24E-OB
} 6. $ 9E-01 2. 16E "01 4. 23E-01 1.04E-05 4 '5E-06 2.42E-07 2.42E-07 1. 12E-08 1.04E-OB H }. i<vE-v3 L. T. LLD L. T. LLD L.T. LLD L.T. LLD L.T. LLD L.T. LLD L. T. LLD L.T. LLD TABLE 10. 7-B FRESH PRODUCE WITH'LARGE HASS/SURFACE AREA APPLES< CAULIFLOWER ) POST-PLUME DECAY TI)(E ~ 0' HOURS g< rnrrr r ~ spy TOTAL l-}31 l-}33 CS-}34 CS-137 BA- } 40 LA-140 SR-89 SR-90 ZONE ACTIVITY UCI /KG (WET) UCI /KG (WET) UCI/KG (WET) UCI/KG (WET) UCI /KG (WET) UCI /KG (WET) UCI /KG (WET UCI /KG (WET) UCI /KG (WET) A 2.64E+00 B. 93E-01 1.75E+00 4.29E-05 1. 97E-05 1. OOE-06 . 1.00E-06 4.65E-OB 4.30E-OB 8 1.44E+00 4.85E-O}. 9. 52E-01 2.33E-05 1.07E-05 5.44E-07 5 44E-07 2.53E-OB 2.33E-OB C 7. 17E-01 2.42E-01 4 75E-01 1. 17E-05 5.34E-06 2. 7}E-07 2. 7}E-07 1.26E-OB 1 ~ 17E-08 D 3.}BE-01 1 07E-01 2.11E-01 5. 17E-06 2.37E-06 1.20E-O7 1. 20E-07 5.60E-09 5. 17E-09 E 2.02E-O} 6.80E-02 ' '4E-01 3.27E-06 1.50E-06 7.63E-OB 7.63E-OB 3.55E-09 3.27E-09 F 1 41E-01 4.75E-02 9.32E-02 2.29E-06 1.05E-06 5.32E-OB 5.32E-OB 2.48E-09 2.29E-09
9. 21E-02 3. 1}E-02 6. 10E-02 1.50E-06 6.86E-07 3.48E-OB 3.48E-OB 1; 62E-09 1.50E-09 H 6.27E-02 2 12E-02 4. 15E-02 1.02E-06 4 66E-07 2.37E-OB 2 37E-08 1. }OE-09 1.02E-09 I 5.42E-02 1.83E-02 3.59E-02 B.BOE-07 4 03E-07 2.05E-OB 2 05E-08 9. 53E-10 B.BOE-}0<(<
J 4.46E-02 1 5}E-02 2-95E-02 7.24E-07 3.32E-07 1.69E-OB 1 69E-08 7. BSE-10 7. 25E-10 K. 3. 8}E-02 1. 29E-02 2.52E b. 19E-07 2.84E-07 1.44E-OB 1 ~ 44E-08 6. 71E-10 6. 19E-10 L 3. 19E-02 1 OBE-02 2o 1}E-02 5. 19E-07 2.38E-07 1 2}E-08 1. 2}E-08 5. 62E-10 5. 19E-10 H 1.00E-03 L. T. LLD L T LLD L. T. LLD L.T. LLD L. T. LLD L T. LLD L. T. LLD L. T. LLD NOTES< 1. BACKGROUND VEGETATION ACTIVITY ~ 1.00 E-03 UCI/KG(WET) DUE TO K-40
2. FOR FOOD PREPARATION, ASSUAGE }0% OF ABOVE FOR WASHING, 1/ OF ABOVE P'QR PEELING ASSUHES AGRICULTURAL PRQDUCTIVI'fY OF 2,00 KG/H2
DAY 2'," ODUCE FRESH PRODU ITH LARGE SURFACE AREA/MASS (E G. v FRESH LEAFY VEGETABLES, BROCCOLI, GRAPES) POST-PLUME DECAY TIME ~ 24.0 HOURS i SR-90 TOTAL J-131 1-133/, CS-134 CS-137 BA 140 LA 140 SR 89 ZONE ACTIVITY UCI /KG (WET) UCI/KG(WET) UCI/KG(WET) UCI/KG(WET) UCI/KG(NET) UCI/KG(WET) UCI/KG(WET UCI/KG(WET) UCI/KG(WET) A 3. 03E+01 1.56E+01 1.47Etoi 8. 16E-04 3.74E-04 1.80E-OS I BOE-05
~ 8.73E-07 8; 17E-07 B 1 64E+01 8 4QE+00 7.98E+00 4. 43E-04 2.03E-04 9.79E-06 9,79E-06 4.74E-07 4.44E-07 C 8. 21E+00 4-23E+00- 3.98E+00 2. 21E-04 1 02E-04 4.89E-ob 4.89E-ob 2.37E-07 2.22E-O?
D 3.64E+00 1 87E+00 1.77E+00 9.82E-05 4. 51E-05 2. 17E-06 2. 17E-06 1.05E-07 9.83E-OB E 2. 31E+Oo 1 ~ 19E+00 1 12Ewoo 6.22E-05 2. 85E-05 1. 37E-Ob 1.37E-06 6.65E-OB 6.23E-OB F 1. 61E+00 8. 29E-01 7. 81E-01 4.34E-05 1-99E-05 9.59E-07 9.59E-07 4.64E-OB 4.35E-OB G 1. 05E~OO 5.42E-01 5. 11E-01 2.84E-05 1.3OE-OS 6.28E-07 6.28E-07 3.04E-OB 2.85E-OB H 7. 17E-01 3.69E-01 3. 48E-01 1.93E-OS 8.87E-ob 4.27E-07 4,27E-07 2.07E-OB 1.94E-OB I 6. 2vE-vl 3. 19F-Oi 3. 01E-ir 1 1. *7E-r)5 7.67E-06 3.69E-07 3.69E-07 1.79E-OB, 1-67E-OB J 5. 1OE-Oi 2. 63E-01 2. 48E-01 1.38E-05 6. 31E-06 3.04E-07 3.04E-07 1.47E-OB 1.38E-OB K 4. 36E-01 2. 25E-01 2 12E-01 1. 18E-05 S.40E-ob 2. 60E-07 2.6OE-07 1.26E-OB 1. 1BE-08 L 3. 65E-01 1.88E-O1 1. 77E-01 9.85E-06 4.52E-06 2. 18E-07 2. 18E-07 1.05E-OB 9.87E-09 M 1.0OE-03 L.T. LLD L T. LLD L.T. LLD L.T. LLD L. T. LLD L. T. LLD L.T. LLD L.T LLD TABLE 10. 7-B FRESH PRODUCE WITH LARGE MASS/SURFACE AREA ( E.G.~ APPLES, CAULIFLOWER ) POST-PLUME DECAY TIME = 24 0 HOURS TOTAL I-131 I-133 CS-134 CS-137 BA-140 LA-140 SR-89 SR-90 ZONE ACTIVITY UCI/KG(WET) UCI /KG (NET) UCI /KG (WET) UC I /KG (WET) UCI /KG (WET) UCI /KG (NET) UCI /KG (WET UCI /KG (WET) UC I /KG (WET) A 1 ~ 51E+00 7.79E-01 7 34E-01 Q.OBE-OS 1.87E-05 9. 01E-07 9. 01E-07 4.36E-OB 4.08E-OB B 8 22E-01 23E-01 3 99E-01 2.22E-OS 1.02E-OS 4.90E-07 4~90E-07 2.37E-OB 2.22E-OB C 4 1OE-01 2 11E-01 1. 99f-01 f. 11E-05 5.08E-ob 2 44E-07 2 44E-07 1.18E-OB 1. 11E-08 D 1 82E-01 9 37E-02 8.83E-02 4. 91E-06 2.25E-Ob 1.08E-07 1.08E-07 5 25E-O9 4.92E-09 E 1 ~ 15E-01 5.94E-02 5.59E-02 3- 11E-06 1.43E-06 6.87E-OB 6.87E-OB 3.33E-09 3.11E-09 F 8-OSE-02 4. 14E-02 3 90E-02 2. 17E-06 9.96E-07 4.79E-OB 4.79E-OB 2.32E-09 2. 17E-09 G 5.27E-02 2- 71E-02 2-56E-02 1 42E-06 6.52E-07 3. 14E-08 3. 14E-08 1.52E-09 1.42E-09 H 3-58E-02 1. 85E-02 1.74E-02 9.67E-07 4.44E-07 2. 14E-08 2. 14E-08 1.03E-09 9. 68E-10 I 3. 10E-02 1. 60E-02 1 5OE-02 8 36E-07 3.84E-07 1.85E-OB 1 BSE-08 B. 94E-10 8 37E-io'(i 2.55E-02 1. 31E-02 1.24E-02 6.88E-07 3. 16E-07 1.52E-OB 1. 52E-08 7.36E-10 h. 89E-10
c. 18E-02 1. 12E-02 1.06E-02 5.88E-07 2. 70E-07 1.30E-OB 1 o 30E-08 6. 29E-10 5. 89E-10 1 I. 8 >E-02 9.40E-03 8.86E-u3 4 93E-07 '2.26E-07 1.09E-OB 1.09E-OB S. 27E-10 4. 93E-10 L. T. LLD L. T. LLD L.T. LLD L. T. LLD L.T. LLD L T LLD L. T. LLD L. T. LLD Nr)rFSc l. 1Acl GROUND VEGETATION ACTlVITY 1.00 E-03 UCI/KG(WET) DUE TO K-40

2. FOR FOOD PREPARATION, ASSUME fo/ OP'BOVE FOR WASHING, 1/ OF APOVE FO< PEELING ASSUMES AGRICULTURAL PRODUCTIVITY OF 2.00 KG/M2

10. 7-A RODUCE FQESH PRODUCE PITH LAROF. SURFACE ARE'n/NESS DAY 2 (E.G.s
\
FRESH LEAFY VEGETABLES) &ROCCOLfe GRAPES) (1101-1700 HR) PO)T-PLUNF .DECAY TINE 30+0 HOURS TOTAL I-131 I-133 CS-134 CS-137 BA-140 LQ-I40 SR-89 SR-90 ZONE ACTIVITY UC I /KG (WET) UCI/KG (WET) UCI/KG (WET) UCI/KG (WET) UCI /KG (WET) UCI/KG (WET) /KG (WET UCI /KG (WET) UCI /KG (WET) UC$ A 2.69E+01 1. 51E+01 1. 18E+01 8.06E-OQ 3.70E-04 1. 76E-05 1. 76E-05 8.59E-07 8.07E-07 B 1.46E+01 8. 18E+00 6.42E+00 4 3BE-04 2. 01E-04 9.54E-06 9o54E-06 4.67E-07 4 38E-07 C 7.29E+00 4.0BE+00 3.20E+00 2. 19E-04 1.00E-OQ 4.76E-06 4.76E-ob 2.33E-07 2. 19E-07 D 3 23E+00 1 ~ 8 1E+00 1.42E+00 9.70E-O5 4.45E-05 2 11E-06 2. 11E-06 1.03E-07 ' 71E-08 E 2.05E+00 1 . 15E+00 9.00E-01 6. 14E-05 2.82E-05 1.34E-06 1 ~ 34E-Ob 6 '5E-08 6 15E-08 F 1.43E+00 8. 01E-01 6.2BE-ol 4.29E-05 1.97E-05 9.34E-07 9 ~ 34E-07 4.57E-OB 4 29E-08 G 9. 36E-01 5. 24E-01 4. 11E-01 2. 81E-05 1.29E-05 6.12E-07 6. 12E-07 2.99E-OB 2 81E-08 H 6. 37E-01 3 57E-01 2.80E-of 1 ~ 91E-05 8.76E-ob 4 16E-07 4.16E-07 2.04E-OB 1.91E-OB 1 5. 50E-01 3.08E-of 2.42E-of 1.65E-05 7.57E-06 3.60E-07 3.60E-07 1.76E-OB 1.65E-OB J Q. 53E-01 2. 54E-01 1.99E-01 1.36E-OS 6.23E-06 2.96E-07 2. 96E-07 1.45E-oa 1.36E-OB K 3.87E-Of 2. 17E-01 1.7OE-01 1. 16E-05 5.33E-06 2.53E-07 2. 53E-07. 1.24E-OB 1. 16E-08 L 3.24E-01 1. 82E-01 1.43E-01 9. 73E-06 4.46E-06 - 2. 12E-07 2o 12E-07 1.04E-OB 9.74E-09 N 1.00E-03 L. T. LLD L.T. LLD L.T. ILD L. T. LLD L T. LLD L. T. LLD L. T. LLD L. T. LLD TABLE 10. 7-8 FRESH PRODUCE WITH LARGE NASS/SURFACE AREA ( ED G ~ APPLES< CAULIFLOWER ) POST-PLUNE DECAY TINE ~ 30.0 HOURS TOTAL I-131 I-133 Cs-134 CS-137 BA-140 LA-140 SR-89 SR-90 ZONE ACTIVITY UC I /KG (WET) UC I /KG (WET) UCI /KG (WET) UCI /KG (WET) UCI /KG (WET) UCI /KG (WET) UCI /KG (WET UC I /KG (WET) UCI /KG (WET) A 1.34E+00 7. 53E-01 5.90E-01 4.03E-05 1. 85E-05 8.78E-07 4.29E-OB 03E-08 8.78E-07'.77E-07 8 7. 30E-01 4 09E-01 3 21E-01 2. 19E-05 1.00E-05 4~77E-07 2.33E-OB 2. 19E-08 C 3. 64E-01 2. 04E-01 1 '0E-01 .1 09E-05 5.01E-06 2.38E-07 2o38E-07 1. 17E-08 1 09E-08 D 1. 62E-01 9.06E-02 7. 11E-02 $ .85E-06 2.22E-06 1.06E-07 1 '6E-07 5. 17E-09 4.86E-O'9 E 1. 02E-01 5o74E-02 4 SOE-02 3 07E-06 1 41E-06
~ 6+69E-08 6.69E-OB 3.27E-09 3.07E-09 F 7. 15E-02 4 OOE-02 3. 14E-02 2. 14E-06 9.83E-07 4.67E-OB 4-67E-08 2.28E-09 2 15E-09 8 4.6BE-02 2.62E-02 2.06E-02 1.40E-ob 6.44E-07 3 06E-08 3 06E-08 1.50E-09 1.4OE-O9 H 3. 18E-02 1.78E-02 1.40E-02 9.55E-07 4.3BE-07 2.08E-OB 2 OBE-08 1.02E-09 9. 56E-10 I 2.75E-02 1.54E-02 1.21E-02 8.25E-07 3.79E-07 1.80E-OB f.aoE-oa B.BOE-10 8. 27E-10 J 2. 27E-02 1 27E-02 9.96E-03 . 6 79E-07 3. 12E-07 1.4aE-oa 1 '8E-08 7.24E-10 6 BOE-10 K 1. 94E-02 1.08E-02 8. 51E-03 5.81E 07 2.66E-07 1 27E-08 1 27E-08 6. 19E-10 5. 81E-10 L 1. 62E-02 9.09E-03 7. 13E-03 4 86E-07 2.23E-07 1.06E-OB 1 '6E-08 5.19E-10 4. 87E N 1.00E-03 L. T. LLD L. T. LLD L.T. LLD L. T. LLD L. T. LLD L~T. LLD L T. LLD L. T. LLD NOTES'. BACKGROUND VEGETATION ACTIVITY ~ 1.00 P-03 UC I /KG (WET) DUE TO g-40
2. FOR FOOD PREPARATION, ASSuqE fO/ CF AaPVE FOR WASHIVG, 1/ OF ABAVE FOR f EELING

3. ASSUNFR AGRICULTURAL PRAAIII TfLETTY A~ > AA v~~~~
>rL fmSP; ~~', C.
10. 7-A DUCE FPESH PRODUC WITH LARGE SURFACE AREA/MASS DAY 3 (E 8') FRESH LEAFY QEGETABLESs BROCCOLI, GRAPES)
POST-PLUME DECAY TIME = 48.0 HOURS TOTAL 1-131 I-13$ . CS-134 CS-137 BA-140 'LA-140 SR-89 SR-90 ZONF ACTIVITY UCI /KG (WET) UCI /KG (WET) UCI/KG (WET) UCI /KG (WET) UC I /KG (WET) UCI/KG (WET) UCI/KG (WET UCI /KG (WET) UCI /KG (WET) A 1.97E+Oi 1 36E+01 h. 15E+00 7. 75E-04 3.56E-04 1.62E-05 '1. 62E-05 8. 18E-07 7'7E-07 B 1.07E+01 7 3BE+00 3.34E+00 21E-04 1.93E-04 8.82E-06 8.82E-Ob 4.45E-07 4.22E-07 C 5.36E+00 3.69E+00 1.67&00 2. 10E-04 9.66E-05 4.40E-06' 4.40E-Ob 2.22E-07 2. 11E-07 D 2 38E+00 1. 64E+00 7. 40E-01 9. 33E-05 4.28E-05 95E-06 1,95E-06 9.85E-OB 9 3SE-08 E 1.50E+00 1. 04E+00 4. 69E-01 5. 91E-05 2. 71E-05 1 24E-Ob 1 24E-06 6.24E-OB 5,92E-OB F 1.0SE+00 7. 23E-01 3. 27E-01 4. 12E-05 1.89E-05 8.64E-07 8.64E-07 4.35E-OB 4. 13E-08 G 6. BBE-01 4.73E-01 2. 14E-01 2.70E-05 1.24E-05 5.65E-07 5.65E-07 2.85E-OB 2. 71E-08 H 4.6BE-01 3.22E-01 1.46E-01 1.84E-05 8.43E-06 3.85E-07 3.8SE-07 1.94E-OB 1.84E-OB I 4.04E-01 2.78E-01 1 26E-01 1.59E-05 7.29E-06 3 33E-07 3.33E=07 1.68E-OB 1.59E-OB J 3.33E-Ol 2.29E-01 1.04E-01 1. 31E-OS 6.00E-06 2.74E-07 2+74E-07 1.38E-OB 1 31E-08 )/ 2.85E-01 1.96E-01 8.87E-02 1. 12E-05 5. 13E-Ob 2.34E-07 2.34E-07 l. 18E-08 1. 12E-08 L 2.38E-01 1.*4E-01 7.43E-02 9.36E-06 4.30E-Ob 1.96E-07 1 96E-07 9. BBE-09 9.38E-09 M 1.00E-03 L.T. LLD L. T. LLD L T. LLD L.T. LLD L. T. LLD L.T. LLD L. T. LLD L.T. LLD TABLE 10,7-B FRESH PRODUCE WITH LARGE MASS/SURFACE AREA ( F ~ G s APPLESs CAULIFLOWER ) POST-PLUME DECAY TIME w 48.0 HOURS TOTAL 1-131 1-133 CS-134 CS-137 BA-140 LA-140 SR-89 SR-90 ZONE ACTIVITY UC I /KG (WET) UCI /KG (WET) UCI/KG(WET)'CI/KG(WET) UCI/KG(WET)UCI/KG(WET) UCI/KG(WET UCI/t G(WET) UCI/KG(WET) A 9. 87E-Oi b. 79E-0) 3. OBE-01 3.88E-OS 1.78E-05 8.12E-07 8, 12E-07 4.09E-OB 3.BBE-OB B 5. 36E-0 1 3. 69E-01 1.67E-01 2. 11E-05 9.67E-06 4. 41E-07 4. 41E-07 2.22E-OB 2 11E-08 C 2. 68E-01 1.84E-01 8.34E-02 1.05E-05 4.83E-06 2. 20E-07 2.20E-07 1. 11E-08 1.05E=OB D 1. 19E-01 8.18E-02 J3.70E-02 4.67E-Ob 2. 14E-06 9.77E-OB 9+77E-08 4.93E-09 4.68E-09 E 7.52E-02 5. 18E-02 2.34E-02 2.9SE-06 1. 36E-06 6. 19E-08 6 19E-08 3.12E-09 2.96E-09 F 5.25E-02 3.62E-02 1.64E-02 2.06E-06 9.47E-07 32E-08 4.32E-OB 2. 18E-09 2.07E-09 8 3.44E-02 2.37E-02 1. 07E-02 1 35E-06 6.20E-07 2.83E-OB 2.83E-OB 1 ~ 43E-09 1.35E-09 4 '2E-07
~
H 2.34E-02 1. 61E-02 7. 29E-03 9. 19E-07 1 92E-08 1 ~ 92E-08 9.70E-10 9 20E-10 I 2.02E-02 1.39E-02 h. 30E-03 7.94E-07 3.65E-07 1.66E-OB 1.66E-OB 8.39E-10 7. 96E-10 ~ J 1.66E-02 1 15E-02 5. 19E-03 6.54E-07 3.00E-07 1 37E-08 37E-08 6.90E-10 b. 55E-10 K 1.42E-02 9.79E-03 4.43E-03 5.59E-07 2.57E-07 1. 17E-08 1 ~ 17E-08 5.90E-10 5.60E-10 L 1.19E-02 8.20E-03 3. 71E-03 4.68E-07 2. 15E-07 9.80E-09 9.80E-09 4.94E-10 4. 69E-10 M 1.00E-03 L. T. LLD L. T. LLD L.T. LLD L. T. LLD L.T LLD L. T. LLD L. T. LLD L- T. LLD NOTES: 1. BACKGROUND VEGETATION ACTIVITY ~ 1 ~ 00 E-03 UCI/KG(WET) DUE TO K-40
+. FOR FOOD PREPARATION, ASSUW 10/ OF APOVE FOR WASHING, i/ a. ABOVE FOR PEELING ASSUMES AGRiCULTURAL PRODUCTIV/TY OF 2.00 KG/M2
10. 7-A RODUCE FRESH P'RODUCE WITH LARGE SURFACE AREA/NABS DAY (E.G.< FRESH LEAFY VEGETABLES, BROCCOLI'RAPES)
POST-PLUt% DECAY TINE ~ 120.0 HOURS I TOTAL I-131 I-133 CS-134 CS-137 BA-140 LA-140 SR-89 SR-90 ZONE ACTIVITY UCI /KG (WET) UCI /KG (WET) UCI /KG (WET) Uc I /KG (WET) Uc I /KG (WET) uc I /KG (WET) ucl /rG (wET ucl /KG (wET) uc1 /rG (wET) A 9.48E+00 9. 03E+00 4 ~ 53E-01 6.65E-04 3.06E-04 1 ~ 19E-05 1 ~ 19E-05 b. 75E-07 6. 6BE-07 8 5. 15E+00 4.90E+00 2. 46E-01 3. 61E-04 1 ~ 66E-04 6 ~ 4SE-Ob 6.45E-06 3. 67E-07 3.63E-07 C 2. 57E+00 2.45E+00 1 23E-01
~ OBOE-04 8.30E-05 3.22E-Ob 3.22E-06 1.83E-07 1 81E-07 ~
D 1 ~ 14E+00 1 ~ 09E+00 5.45E-02 B.OOE-05 3.68E-05 1 ~ 43E-Ob 1 43E-06 8. 13E-08 8.04E-OB E 7 '3E-01 ABBE-01 3.45E-02 5.07E-05 2.33E-05 9.04E-07 9.04E-07 5. 15E-08 5. 09f-08 F 5. 04E-01 4 ~ BOE-01 2. 41E-02 3.54E-05 .1 ~ 63E-05 6. 31E-07 6 31E-07 3.59E-OB 3.55E-OB G 3.3OE-ui 3. 14E-01 1 ~ 58E-02 2. 31E-05 1 '7E-05 4 ~ 13E-07 4~ 13E-v7 2. 35E-08 2 33E-08 .H 2 '5E-01 2. 14E-01 1 07E-02
~ 1 ~ 58E-05 7 '5E-06 2.81E-07 2. 81E-07 1.6OE-OB 1 ~ 58E-08 I 1 '4E-01 1 ~ 85E-01 9.28E-03 1.36E-05 6.27E-Ob 2.43E-07 2.43E-07 1.30E-OB 1 ~ 37E-08 J 1.60E-Ol 1 ~ 52E-01 7 '4F-03 1 12E-05 5. 16E-06 2.00E-07 2.0OE-07 1 ~ 14E-08 1 ~ 13E-08 K 1 '7E-01 1 ~ 30E-01 6.53E-03 9 '8E-06 4 ~ 41E-06 1.71E-07 1 ~ 71E-07 9 '3E-09 9 '3E-09 L 1.14E-01 1. 09E-01 5-$ 7E-03 8.03E-06 3 69E-06 1 ~ 43E-07 1 43E-07 8 ~ 15E-09 8.06E-09 M 1 ~ QOE-03 L ~ T ~ LLD L. T. LLD 1 AT LLD L T ~ LLD L.T ~ LI D L T LLD L. T ~ LLD L. T. LLD TABLE 10. 7-8 FRESH QRODUCE WlTH LARGE HASS/SURFACF. AREA.
( E.G., APPLES, CAUL IFLQWER ) POST-PLUNF. DCCAY TINE ii~ <.e ) l()lJ(<S< TOTAL 1-131 l-133 CS-134 CS-137 BA-140 LA-140 SR-89
)
SR-90 ZONE ACTIVITY Ucl/KG (WET) Uc I /KG (WET) UCI /)(G (WET) Ucl /KG (WET) UCI/KG(WET)UCI/KG(WET) UCI/KG(WET UCI/KG(WET) UCI/KG(WET) A 4 74E-01 4 ~ 51E-01 2.26E-02 32E-05 1 ~ 53E-05 5.93E-07 5 93E-07 3.38E-OB 3.34E-OB B 2 58E-01 2 4SE-01 ~ 1 ~ 23E-02 1~ 81E-05 8. 31E-06 3.22E-07 3.22E-07 1 ~ 83E-08 1.81E-OB C 1 ~ 29E-01 1 22E-01 6. 14E-03 9. 02E-Ob 4 ~ 15E-Ob 1 61E-07 1. 61E-07 9. 16E-09 9;06E-09 D 5. 71E-02 5 43E-02 2.72E-03 4 'OE-06 1 ~ 84E-06 7. 14E-08 7. 14E-08 4 06E-09
~ 4 02E-09 E 3. 61E-02 3 44E-02 1 ~ 73E-03 2o53E-Ob 1 ~ 17E-06 4 52E-08 4 '2E-08 2.57E-09 2 54E-09 F 2.52E-02 2.40E-02 1 ~ 20E-03 1 ~ 77E-06 8. 14E-07 16E-08 3, 16E-08 1 ~ BOE-09 1- 78E-09'l '
G, 1.65E-02 1 ~ 57E-02 7.88E-04 1 ~ 16E"06 5.33E-07 2 07E-08 2.07E-OB 1 ~ 18E-09 ~ 16E-09 H, 1 12E-02 1 07E-02 5.36E-04 -7.88E-07 3.63E-07 1 ~ 41E-08 1 ~ 41E-08 B.OOE-10 7 91E-10 I 9 71E-03 9.25E-03 4.64E-04 6. 81E-07 3. 13E-07 1 ~ 22E-08 1 ~ 22E-08 6. 92E-10 6. 84E-10 J 7.99E-03 7. 61E-03 3.82E-04 5. 61E-07 2.58E-07 1.0OE-OB 1 OOE-08 5. 70E-10 5. 63E-10 K 6.83E-03 6. 50E-03 3.26E-04 4 '9E-07 2.21E-07 8.55E-09 8.55E-09 4 87E-10
~ 4. 81E-10 L 5.72E-03 5. 4SE-03 2.73E-04 4. 01E-07 1.85E-07 7<<16E-09 7 16E-09 4 ~ OBE-10 $ . 03E-10 1 ~ OOE-03 L. T. LLD L-To LLD L. T LLD L.T LLD L- T LLD L.T. L> D L. T. LLD L. T. LLD NDTES= i. BACKGROUND YE<~TATION ACT)VITQ $ ~ 00 g-03 UCI /KG (WET) DUE TQ K-40 FAR FAAA PREPARATION. aaa<<"<c (nv nc nanuc cna <<~awvwr. <v n- nanuF Fna ace< v~a
TABLE 10. 7-A PRODUCE FRESH PRODUCE WITH LARGE SURFACE AREA/MASS DAY 21: (E.G.q FRESH LEAFY VEGETABLES, BROCCOLI'RAPES) POST-PLUME DECAY 'flHE ~ 48o.o HDURB TOTAL 1-131 f-133 CS-134 CS-137 BA-140 LA-140 SR-89 SP 90 ACTIVITY i ZONE UCI /KG (WET) UCI/KG (WET) UCI/KG (JET) UCI/KG (WET) UCI/KG (WET) UCI/KG (WET) UCI/KG (WET UCI/KB(WET) UCI/KB(WET) A ~ 1 17E+00 1. 17E+00 9.78E-07 3, OBE-04 1.44E-04 2.47E-06 2.47E-Ob 2,58E-07 3 14E-07 8 6. 34E-01 6. 34E-01 5. 31E-07 1.67E-04 7.80E-05 34E-06 1.34E-Ob 1 ~ 40E-O/ 1.70E-O7 C 3. 17E-01 3. 16E-01 2.65E-07 8.36E-05 3.90E-05 6,70E-07 6.70E-07 7 OOE-08 8 51E-08 D 1. 40E-01 1.40E-01 1 ~ 18E-07 3. 71E-05 1.73E-05 2.97E-07 2.97E-07 3, 11E-08 3.77E-OB fF 8. 90E-02 8.89E-02 7.45E-OB 2.35E-05 1.09E-OS 7.64E-06 1.88E-07 1.31E-07 1 BBE-0/
1. 31E-07 1.97E-OB 1.37E-OB 2.39E-OB 1 67E-08

6. Lf-02 6. 21E-02 5.20E-OB 1.64E-OS 0 4.ut f-i>2 4 '6E-02 3.40E-OB 1 ~ 07f" 05 S.OOE-06 8. 61E-08 8.61E-OB 8.99E-09 1.09E-OB

2. 7IE .>)2 2.76E-02 ~2f-08 7. 30f -06 3.40E"06 5.86E-08 S 86E-08 6. 12E-09 7 43E-09 1 .39E 02 2. 39E-02 2.00E-OB b. 31f -i>b 2.94E-06 5.06E-OB 5.06E-OB 5.29E-09 6 42E-09 J 1.97k. 0 1.97E"02 1. 6SE -!)8 S. 19E-06 2.42E-06 4 17E-08 4. 17E-08 '.35E-09 5,29E-09 I. 68f-02 1.68f-02 1. 41E-vB 4.44E-06 2. 07f -06 3.56E-OB 3.56E-OB 3.72E-09 4.52E-09 L 1. 41E-02 1 41E-02 1. 18E-08 3.72E"06 1.73E-06 2.98E-OB 2.98E-OB 3 12E-09 3.79E-09 1.00E-03 L. T. LLD L. T LLD L.T. LLD L. T. LLD L.T; LLD L T. LLD L. T. LLD L T LLD TABLE 10.7-8 FRESH PRODUCE WITH LARGE HASS/SURFACE AREA
( E ~ G s API LESs CAULIFLOWER ) POST-P'LU)LE DECAY TIHf ~ 480.0 HOURS TOTAL 1-131 1-133 CS-134 CS-137 BA-140 LA-140 SR-89 SR-90 ZONE ACTIVITY UCI /KG (WET) UCI/KG(WET) UCI/KG(WET) UCI/KG(WET) UCI/KG(WET)UCI/KG(WET) UCI/KG(WET UCI/KG(WET) UCI/KB(WET) A 5. 83E-02 5. 83E-02 4.89E-OB 1 ~ 54E-05 7 18E-06 1 24E-07 1.24E-07 1.29E-OB 1.57E-OB B 3. 17E-02 3. 17E-02 2.66E-OB 8.37E-06 3 90E-06 h. 71E-08 6 71E-08 7. 01E-09 Bi52E-09 C 58E-02 1.5BE-02 1 33E-08 4o 18E-06 1.95E-06 3.35E-OB 3.35E-OB 3.50E-09 4.25E-O9 D 7.02E-03 7.02E-03 5.88E-09 1 85E-06 8.64E-07 1 49E-OB 1.49E-OB 1.5SE-09 1.89E-09 E 4.45E-03 4 45E-03 3 73E-09 1. 17E-06 5.47E-07 9 42E-09 9.42E-09 9.84E-10 1 ~ 19E-09 F 3. 10E-03 3. 10E-03 2.60E-09 8. 19E-07 3.82E-07 6.57E-09 6 57E-09 6.87E-10 8 34E-10 G 2.03E-03 2.03E-03 70E-09 5 36E-07 2.50E-07 4 30E-09 4.30E-09 4.50E-10 5 46E-10 H 1.38E-03 1. 38f-03 1 16E-09 3.65E-07 1 70E-07 2 93E-09 2.93E-09 3.06E-10 3 72E-10 I 1.20E-03, 1. 20f-03 1 OOE-09 3. 16E-07 1.47E-07 2.53E-09 2.53E-09 2.64E-10 3 21E-10 J 9.84E-04 9. 84f -04 8.24E-10 2.60E-07 1 21E-07 2 OBE-09 2.08E-09 2. 18E-10 2~ 64E-10 I 0. 41E-i>4 B. 41f-04 7.05E-10 2-22E-07 1.03E-Q7 1.78E-09 1.78E-09 1. 86E-10 2 26E-10 L 7. i>5f -04 7. >)4f -04 5.90E-10 1.86E-07 8.67E-OB 1.49E-09 1 49E-09 1. 56E-10 1 ~ 89E-10 tl 1. T. LLD L l. LLP L. T LLD L.T. LLD L T ~ LLD L.T. LLD L. T. LLD L. Te LLD NOTE 6 > 1 I>AC)'ROUND VfGf TAT ICE ACT (V I TY ss I ~ 00 E 03 UC I /KG (WET) DUE TO P-40
?. FAR FOOD P'REPARATION, QSSL@E 10/ OF ABOVE FOR WASHI,'(8 ~ (/ OF APOQF- FOR PEELING
DAY 2 ROOT VEG. / TABLE 10. 7-C (0500-1100 HW {1i01-1700 HR) ROOT VEGETABLES POTATOES, ONIONS POST-PL/HE DECAY 'flNE ~ 24.0 HOURS TOTAL I-131 I-133 CS-134 CS-137 BA-140 LA-140 SR-89 SR-90 ZONE ACTIVITY UCI /KG (WET) UCI/KG(WET) UCI/KG (WET) UCI/KG (WET) UCI /KG (WET) UCI/KG (WET) UCI/KG (WET UCI/KG (WET) UCI/KG (WET) A 1.00E-03 L. T LLD L. T. LLD L. T. LLD 50E-Ob "L.T LLD L T* LLD L. T. LLD 2.50E-06 B 1 OOE-03 L. T-. LLD L. T. LLD L. f. LLD 3.50E-06 L.. T. LLD L T. LLD L. T. LLD 2.50E-06 C 1.00E-03 L.T. LLD L. T LLD L. T LLD 3.50E-Ob L. T. LLD L. T. LLD L. T. LLD 2.50E-Ob D 1.00E-03 L T. LLD L. T LLD L.T. LLD 3.50E-06 L T. LLD L; T~ LLD L.T. LLD 2.50E-Ob E 1.00E-03 L. T. LLD L. T. LLD L. T. LLD 3.50E-06 L. T. LLD L T, LLD L. T. LLD 2.50E-06 F 1.00E-03 L. T. LLD L. T. LLD Lo T. LLD 3.50E-06 L T. LLD L T~ LLD L. T. LLD 2.50E-O* 8 1.00E-03 L. T. LLD L. T. LLD L. T. LLD 3.50E-Ob L. T. LLD L. T. LLD L. T. LLD 2.50E-06 H 1.00E-03 L. T. LLD L. T. LLD L. T. LLD 3.50E-06 L. T. LLD L. T. LLD L. T. LLD 2.50E-06 I 1 ~ OOE-03 L. T. LLD L. T. LLD L. T. LLD 3.50E-06 L.T. LLD L. T. LLD L. T. LLD 2.50E-06 J 1.00E-03 L. T LLD L. T. LLD L. T. LLD 3.50E-Ob L.T LLD L T. LLD L. T. LLD 2.50E-Ob K 1.00E-03 L. T. LLD L. T. LLD L. T. LLD 3.50E-O* L. T LLD L. T. LLD L. T. LLD 2.50E-Ob L 1.00E-03 L. T. LLD L. T. LLD I .T. LLD 3.50E-06 L. T LLD L. T. LLD L. T. LLD 2.50E-Ob N 1.00E-03 L. T. LLD L. T. LLD L. T. LLD 3.50E-06 L T. LLD L. T. LLD L. T. LLD 2.50E-06 NQTE: 1. BACKGROUND ACTIVITY IN ROOFS VEGETABLES = 1.00 E-3 UCI/KG(WET) DUE TO K-40 AND SR-90 AND CS-137 FRON WEAPONS FALLOUT
SPR ACE WATER TABLE 10.8-h DAY 1 SURFACE MATER ISOTOPIC 'ACTIVITY (SMALL LAKES~ PONDS, CREEKS, RESERVOIRS) POST-PLUME DECAY TIME 0.0 HOURS TOTAI I-191 I-1$ S CS-134 CS-137 Bh-140 Lh-140 SR-89 SR"90 ZONK SAMPLE UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC h 2.19E-02 S.'67E-0$ 7.00E-OS 8.68E-07 $ .84E-07 2.00E"08 1.98E-OB 9.30E-10 8.69E-10 B 1.19E-02 1.84E-OS 9.81E-OS 4.67E-07'.33E-07 2.14E-OV 1.09E"08 1.08E"08 6.05E-10 4.67E-10 C 5.95E-03 9.68E-04 1.80E-03 1.07E-07 5.43E-09 5.98E-09 2.52E"10 2.33E-10 D 2.64E-03 4.30E"04 8.4$ E-04 1.03E-QV 4.74E-OB 2.41E-09 2.SBE"09 1.12E"10 1.09K-10 E 1.67E-03 2.72E-04 5.34E-04 6.54E-OB S.OOE-OB 1.52E-09 1.51E-09 7.09E-11 B. 54E-11 ,F 1.17E-03 1.90E-04 9.73E-04 4.57E-OB 2.09E-OB 1.06E"09 1.05E"09 4.95E-ll 4.57E-il 0 ?.64K-04 1.24E-04 2.44E-04 2.99E-OB 1.3?E-08 6.97E-10 6.90E-10 3.24E-11 2.99E-11 H 5.20K-04 8.46E"05 1.66E-04 2.03E-OB 9.S3E-09 4.74E-10 4.70E-10 2.20E-11 2.0SE-ll I 4.50E-04 7.31E-05 1.44E-04 1.76E-OB 8.06E-09 4.10E-10 4. OBE-10 1.91E-ii 1.76E"11 J 1.22E-04 6.02E"05 1.18E-04 1.45E-OB 8.64E-09 3.37E-10 3.S4E-10 1.57E"11 1 45E-11
~
K 2.61E-05 5.15E-OS 1.01E-04 1.24E-OB 5.87E-09 2.88E"10 2.8BE"10 1.34E-li 1.24E-11 L 2.19E-05 4.91E-05 8.46E-05 1.04E-OB 4.75E-08 2.42E-10 2. 39K-10 1.12E-11 1.04E-11 M 1.00E"08 L.T. LLD L.T. LLD L.T. LLD f.T. LLD L.T. LLD I.T. LfD L.T. LLD L.T. LLD TABLE 10.8-B SURFACE MATER ISOTOPIC ACTIVITY (LARGE LAKES, RI+RS) POST-PLUME DECAY TIME =, 0.0 HOURS. TOTAL I"1$1 I-1$ 3 CS-194 CS-197 BA-140 Lh-140 ~ SR-89 SR-90 ZONE SAMPLE UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC h 2.19E-04 9.57E-06 7.00E-05 8.59E-09 9.94E-09 2.00E-10 1.88E-10 9.30E-12 8.59E-12 B 1.18K-04 1.94E-05 S.81E-06 4.67E-09 2.14E-09 1.09E-10 1.08E-10 6.05E-12 4.67E-12 C 5.95E-05 9.68E-OB 1.90E-OS 2.33E-08 1.0?E-09 5.43E-11 5.$ 8E-ii 2.52E-12 2.3$ E-12 D 2.64E-05 4.30E-OB 8.43K-OB 1.03E-09 4.74E-10 2.41E"ii 2.98E-ii 1.12E-12 1.03E-12 E 1.87E-05 2.72E-OB 5.94E-OB 6.64E-10 S.OOE-10 1.52E-ii 1. 61E-11 7.09E-13 6.54E-13 1.17E-05 1.90E-OB 3.73E-OB 4.6VE-10 2.09E-10 1 ~ 06E-11 1.05E-11 4.86E-13 4.57E-19 G 7.64E-OB 1.24E-OB 2.44E"08 2.98E-10 1.3VE-10 6.97E-12 8.90E-12 9.24E-13 2.99E-13 8 5.20E-OB 8.46E-07 1.66E-OB 2.03E"10 8.33K-11 4.74E-12 4.70E-12 2.20E-1$ 2.03E-19 I 4.50E-06 7. $ 1E-07 1.44E-OB 1. ?BE&0 B.OBE-11 4.10E-12 4.06E-12 1.91E-19 1.7BE-1$ J 1.22E-OB 6.02E-07 1.18E"08 1.45E-10 '8.84E-11 . 9.37E-12 9.34K-12 1 ~ 67K"19 1.45E-iS K 2. 81E-07 6.15E-07 1. 01E-08 1.24E-10 5.8?E"ll 2.88E-12 2.86E-12 1.S4E-13 1.24E"1$ L 2.19E-07 4.91E-07 8.46E-07 1.04E"10 4.75E-ll 2.42E-12 2.99E-12 1.12E-13 1.04K-iS H 1.00E-OB L.T. LLD L.T. LLD L.T. LLD f.T. LLD I.T. LLD f.T. LLD 'L.T. LLD L.T. LLD NOTES: 1. BACKGROUND ACTIVITY = 1K-08 UCI/CC
2. FOR SMALL PUDDLES AND FALLOUT COLLECTORS, ASSUME 100 TIMES TABLE 10.8-A CONCENTRATIONS
SURF E QUATER TABLE 10.8-A DAY 2 ' (OSOO'-1100 HR) SURFACE WATER ISOTOPIC ACTIVITY (SMALL LAKES, PONDS, CREEKS, RESERVOIRS)
+ST-PLUME DECAY TIME = 24.0 HOURS TOTAL I-191 I-1$ $ CS"134 CS-1S7 BA-140 Lh-140 'SR-88 SR-90 ZONE SAMPLE UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC h
B 8.87E-03 3.7$ E-OS 9.28E-OS 1.78E-OS 3.09E"03 1.68E-OS 8.58E"07 4.66K-07 9.93E-07 2.14E-07 1.90E"08 1.03E-OB
'. 93E-OB 1.05E-OB 9.17E-10 4.88E-10 8.59E-10 4.87E-10 C 1.86E-03 8.89E-04 B.SBE-04 2-33E-07 1-07E-07 5.14E-09 5.25E-.09 2.49E-10 2. 33E-10 D 8.27E-04 3.94E-04 9.72E"04 1.0SE-07 4.74E-OB 2.28E-09 2.93K"09 1.10E-10 1.03E-10 E 5.24E-04 2.50E-04 2.35E-04 8.54E-OB '.OOE-OB 1.44E-09 1.47E-09 6.99E-11 6.54E-11 F S.66E-04 1.74E-04 1.64E"04 4.56E-OB 2.09E"08 1.01E-09 1.03K-09 4.88E-11 4.57E"li 0 2.39E-04 1.14E-04 1.08E-04 2.99E"08 1.37E-OB 6.60E-10 6.74E-10 3.19E-11 2.99E-11 H 1.63E-04 7.76E-05 7.32E-OS 2.09E-OB 9.93E-09 4.49E-10 4. 68E-10 2.17E-11 2.03E-11 I 1.41E-04 6.71E-05 8.33E-05 1.76E"08 B.OBE"09 3.88E-10 9.98E-10 1.88E-11 1.76E-11 J 3.82E-OS 5.62K-05 5.21E-05 1.45E-OB 6.64E-09 $ .20E-10 9.26K-10 1.55E-11 1.45E-11 K 8.17E-OB 4.72E-05 4.45E"05 1.24E"08 6.87E-09 2.73E-10 2.79E-10 1.32E-11 1.24E-ll L 6.84E-OB 3.96E-05 3.73E"05 1.04E-OB 4.76E"09 2.29E-10 2.34E"10 1.11E-11 1.04E-11 M 1.00E-OB L.T. LfD L.T. LLD f .T.'f D L.T. LLD L.T. LLD L.T. LLD f.T. LLD L.T. LLD TABLE 10.8-B SURFACE WATER ISOTOPIC ACTIVITY (LARGE LAKES, RIVERS)
POST-PLUME DECAY TIME = 24.0 HOURS TOTAL I-131 I"133 CS-194 CS-137 BA-140 LA-140 SR-89 SR-90 ZONE SAMPLE UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC h 6. 87E-05 3.28E-06 9.09E-06 8.58E-09 3.83E-09 1.90E-10 1.83E-10 9.17E"12 8.59E-12 B 9.73E-05 1.78E"05 1.68E-06 4.66E-09 2.14E"09 1 ~ 03E"10 1.06E-10 4.98E-12 4.67E-12 C 1.86E"05 8.89E-OB 8.38E-OB 2.33E-09 1.07E"09 5.14E-11 6. 26E-11 2.49E-12 2.33E-12 D 8.27E-OB 3.94E-OB 3.72E-OB 1.03E-08 4.74E-10 2.28E-ll 2.33E-11 1.10E-12 1.03E-12 E 5.24E-OB 2.50E-OB 2.$ 5E-OB B. 64E-10 ~ 3.00E-10 1.44E-11 1.47E-11 6.99E-13 6.54E"13 F $ .86E-OB 1.74K-OB 1.64E"06 4.56E-10 2.09E-10 1.01E-11 1.03E-11 4.88E-13 4.57E-19 G 2.39E-OB 1.14E-OB 1.08E"08 2.99E-10 1.$ 7E-10 8.60E-12 6.74E-12 9.19E-13 2.99E-1$ H 1.63E-OB 7.76E-07 7.92E-07 2.03E-10 9.93E"11 4.49E-12 4.68E-12 2. 17E".13 2.03E"19 I 1.41E-OB 6.71E-07 6.93E-07 1.76E-10 8. OBE" 11 3.88E-12 3.96E-12 1.88E-13 1.76E-13 J 3.82E"07 6.52E-07 5.21E-07 1.45E-10 6.64E-11 9. 20E-1P, 3.26E-12 1.55E-13 1.45E"1S R 8.17E-OB 4.72E-07 4.45E-07 1.24E-10 6.67E-11 2.73E-12 2.79E-12 1.92E-13 1.24E-iS L 8.84E-OB S.96E-07 9.73E-07 1.04E-10 4.75K-11 2.29E-12 2.S4E-12 1.11E-1S 1.04E-1S ~ M 1.00E-OB L.T. LLD L.T. LLD L.T. LLD f.T. LLD L.T. LLD L.T. f LD 'L.T. LLD L.T. LLD NOTES: 1. BACKGROUND ACTIVITY = iE-OB UCI/CC
2. FOR SMhf L PUDDfES AND FALLOUT COLLECTORS, ASSUME 100 lIMES TABfE 10.8-h CONCKN'aiATIOPiS
gr'C-SURF CE WATER DAY 2
/ABLE 10.8-$
SURFACE WATER ISOTOPIC ACTIVITY (1,)01-.170'0 HR) (SMALL LAKES, PONDS, CREEKS, RESERVOIRS)
~ r POST-PLUME DECAY TIME = 30.0 HOURS TOTAL I-191 I"199 .CS-ls) CS-197 BA-140 fh-140 SR"89 SR-90 ZONE SAMPLE UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC h 6.99E-OS 9.21E-OS 2.52E-OS 8.68E"07 3.93E-07 1.87E-OB 1.91E-OB 9.14E"10 8.59E-10 B 3.26E-OS 1.74E-OS 1.97E-03 4.68E-07 2:14E-07 1.02E-OB 1.04E-OB 4.97E-10 4.67E-10 C 1.63E-03 8.70E-04 6.82E-04 2.33E-07 1.0?E"07 5.07E-OS 5.18E-OS 2.48E-10 2.33E-10 D 7.21E-04 3.86K-04 9.03E-04 1.03E"07 4.74E-OB 2.25E"09 2.90E-09 1.10E-10 1.03E-10 E 4.5?E"04 2.44E-04 1.82E-04 8.54E"08 3.00E-OB 1.43E-09 1.48E"09 6.97E-11 B. 54E-11 F 3.19E-04 1.71E-04 1.94E-04 4.56E"08 2.09E-OB 9.95E-10 1.02E-OS 4.86E-11 4.57E-11 G 2.09E-04 1.12E-04 8.76E"05 2.99E-OB 1.37E-OB 8.51E-10 8.65E-10 3.18E-11 2. 99E-11 8 1.42E-04 7.60E-05 5.96E-05 2.03E"08 9.93K-09 4.43E-10 4.63E-10 2.17E-ll 2.03E-11 I 1.23E-04 6.57E-05 5.15E-05 1.76E-OB B.OBE-09 3.83E-10 3.91E"10 1.87E-11 1.76E-11 J 3.34E"05 5.41E-05 4.24E-05 1.45E-OB 8.64E-09 3.15E-10 3.22E-10 1.54E-il 1.45E-li K 7.13E-06 4.62E-06 3.63E-05 1.24E-OB 5.87E"09 2.69E"10 2.75E-10 1.32E"11 1.24E-ii L 5.97E"06 3.87E-05 9.04E-05 1.04E-OB 4.75E-OS 2.26K-10 2.91K-10 1.10E-11 1.04E-11 M 1.00E-OB L.T. LLD L.T. LLD f.T. LfD L.T. LLD L.T. LLD f.T. LLD f.T. LLD L.T. LLD TABLE 10.8-B SURFACE WATER ISOTOPIC ACTIVITY (LARGE fhKES, RIVERS)
POST-PLUME DECAY TIME = 30.0 HOURS TOTAL I-131 I-133 CS-134 CS-137 BA-140 LA-140 SR-89 SR-90 ZONK SAMPLE UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC h 5.99E-05 9.21E-05 2.62E-05 8.58E-OS 9.83E-09 1.87E-10 1.81B-10 9.14E"12 8.59E-12
' B . 9.26E-05 1.83E"05 1.74E-06 8.70E-OB 1.97E-05 8.82K-OB 4.88E-09 2.93E-OS 2 '4K-09 1.07E-09 1.02E-10 6.07E-ii 1.04K-10
6. 18B-11

i. 97E-12 2.48K-12 4.87E-12 2.3SE-12 D 7.21E-OB S.BBB-OB S.OSE-OB 1.0M-09 4.74E-10 2.25E-li 2.90E-ii 1.10E-12 1.09K-12
" .B 4.67E-OB 2;44E-08 1.92E-OB 8.64E-10 S.OOE-10 1. 49E-11 1.46E-li 6.9?E-19 8.54E-iS S. 19E-OB 1. 71B-08 1.94E-OB 4.68E"10 2.08E-10 9.86E-12 1.02E-11 4.88E-19 4.57E-19 0 2.09E-OB 1.12E-OB 8.76E-07 2.99E-10 1.97E-10 6.61E-12 6.86E-12 9.18E-19 2.99E-19 8 1.42E"06 ?.BOE"0? 5.96E-07 2.09E-10 9.99B-11 4. 4M-12 4.5M"12 2.1?E-19 2.09K-13 I 1.23E-OB 8.57E-07 5.16E-07 1.78K-10 8.06E-11 3.89E-12 S.91E-12 1.87E-19 1.76E-iS ~ J 9.34E-07 5.41E-07 4.24E-07 1.45K-10 8.64E-11 S.leK.-12 9.22B-12 1.54E-13 1.46E-13 K 7. 13E-08 4.62E-07 S.BSE"07 1.24E-10 6.87E-ii 2.69E-12 2. 75E-12 1.92E-19 1.24E-19 L 6.97E-OB 3.87B-07 S.04E-07 1.04E-10 4.75E-11 2.28E-12 2.S}E-12 1.10E"19 1.04E-1S
-'." M 1.00E-OB L.T. f LD L.T. LLD L.T. LLD f..T. f LD L'.T. Lf D L.T. LLD f. T. LLD L.T. LLD ~
.Qtf.
4'MTKS: l. BACKGROUND ACTIVITY = lE-OB UCI/CC
2. FOR SMALL PUDDLES .AND FALLOUT COfLECTORS, ASSUME 100 TIMES TABLE 10.8-h CONCENTRATIONS
-jf/ "ow SUR CE WATER TABLE 10.g-h DAY 3 SURFACE WATER ISOTOPIC ACTIVITY (SMALf LAKES PONDS, CREEKS, RESERVOIRS)
POST-PLUME DECA'f. TIME 48.O HOURS . TOTAL I-191 I-139 CS-194 CS-197 Bh-140 Lh-140 SR-89 SR-90 ZONE SAHPLE UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC h 4. 41E-OS 3. 01E-OS 1.38E-03 8.57E-07 9.93E-07 1.80E"08 1.82E-OB 9.05E-10 8.68E-10 B 2.40E-OS 1.83E-OS 7.99E-04 $ .66E-OV 2.14E-07 8.75E-09 8.'87E-OS 4.92E-10 4.86E-10 C 1.20E-03 8 15K-04
~ 9.69E-04 2.33E-07 1.07E-07 4.87E-OS 4.99E-OS 2.45E-10 2.39E-10 D 6.31E-04 9.62E-04 1.84E-04 1.03E-07 4.74E-OB 2.16E-09 2.18K-,OS 1.09E-io 1.09E-10 E 3.36E-04 2.28E-04 1.04E-04 8.6SE-OB S.OOE-OB 1.97E-09 1.38E-OS 6.90E-11 8.64E-11 F 2.35E-04 1.60E-04 7.24E-05 4.56E-OB 2.09E-OB 9.55E-10 9.67E-10 4.81K-11 4.57E-il 1 54K-Oi 1.05E-04 4.74E-05 2.98E-OB 1.37E-OB 6.25E-10 B. SSE-10 9.15E-11 2.99E-ii H 04K 04 7.12E-05 3.22E-05 2.03E-OB 9.32E-09 4.25E-10 4. 31E-10 2.14E-ll 2.03E-11 I 9 OSI-05 6.16E-05 2.79E-05 1.76E-OB 8.06E-09 3.68E-10 3.72E-10 1.85E"11 1.76E-11 J 2.45K-OS 5.0VE-05 2.30E-05 1.45E-OB 6.64E-09 3.03E-10 3.06E-10 1.53E-il 1.45E-il K 5.24E-06 4.33E-05 1.96E-05 1.24E-OB 5.67E-09 2.59E-10 2.62E-10 1.30E-ii 1.24E-li L 4.39E"06 3.63E-05 1.64E-05 1.03E"08 .4.75E-09 2.17E-10 2. 19E" 10 1.09E-11 1.04E"li M 1.00E"08 f.T. LfD L.T. LLD L.T. f LD L.T. LLD L.T. LLD L.T. f LD L. T. LLD L.T. LLD TABLE 10.8-B SURFACE WATER ISOTOPIC ACTIVITY (LARGE LAKES, RIVERS)
POST-PfUHE DECAY TIHE = 48.0 HOURS TOTAL I-131 I-133 CS-194 CS"137 BA-140 LA-,140. SR-89 SR-90 ZONE SAHPLK UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC h 4.41E"05 3.01E-06 1.36E-05 8.67E-OS 3.93E-09 1.80E"10 1.82E-10 8.05E-12 8.58E-12 B 2.40E-05 1.63E-06 7.99E-06 4.66E-OS 2.14E-09 9.76E-11 '.87E-11 4.92E-12 4.66E-12 C 1.20E-05 8.15E-OB 9.69E-06 2.93E-09 1.07E-OS 4.87E-11 4.93E-11 2.45E-12 2.33E-12 D 6.31E-OB 3.62E-06 1.64E-OB 1.03E-OS 4.74E-10 2.16E"11 2.19E-ii 1.09E-12 1.03K-12 E S.36E-OB 2.28E-OB 1.04E-06 B.SSE-10 S.OOE-io 1.97E-11 1.98E-ii 8.90E-13 8.54E-13 F 2.95E-OB 1.60E-OB 7.24E-07 4.56E-10 2.09E"10 9.55E-12 9. 6?E-12 4.81E-19 4.67E-13 1.54E-OB 1.06E-OB 4.74E-07 2.98E"10 1.97E-10 8.25E-12 8.93E-12 9.15E"19 2.99E-19 H 1.04E-OB 7. 12E-07 S.'22E-07 2.03E-10 8.32E-ii 4.26E-12 4.S1E-12 2.14E-lS 2.0M"13 I 9.03E-07 6.16E-07 2.79E-07 1.76E-$ 0 B. OBE-11 3.68E-12 3.72E-12 1.85E-13 1.76E-iS J 2.45E-07 6.07E-07 2.30K-07 1.46E-10 6.84E-11 3.03E-12 S.OBE-12 1.63E-13 1.45E-1S K 5.24E-OB 4.33E-07 1.86E-07 1.24E-10 6.87E"ii 2.59E"12 2.62E-12 1.30E-13 1. 24E-13 L 4.39E-OB 9.83E-07 1.84E-07 1.03E"10 4.75E-ll 2.17E-12 2.19E-12 1.09E"13 1.04E-19 M 1.00E-OB L.T. LLD L.T. f LD f.T. LLD L.T. LLD L..T. LLD L.T. LLD AT. LLD f.T. LLD NOTES: 1. BACKGROUND ACTIVITY = JE-08 UCE/CC
2. FOR SHALL PUDDfES AND Fhf LOUT COLLECTORS, QSUHE 100 ~ylHES TABLE O.B-A CONCENTRATIONS
pp SURF RATER TABLE 10.8-A DAY 6 SURFACE WATER ISOTOPIC ACTIVITY (SMALL LAKES, PONDS, CREEKS RESERVOIRS) POST-PLllNE DECAY TINE 120 0 HOURS
'I TOTAL 1-131 1-133 CS 134 CS-137 BA-140 LA-140, SR-89 SR-90 ZONE SAMPLE UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC A 2.44E-03 2 32E-03 i+ 16E-04 8.55E-07 3.93E-07 1.53E-OB 1.37E-OB B. 68E-10 8.5BE-IO B 1.33E-03 1 ~ 26E-03 '.33E-05 64E-07 2. 14E-07 8 29E-09 7 43E-09 4.72E-10 4.66E-10 C 6 62E-04 6. 3OE-04 3. 16E-05 2.32E-07 1.07E-07 4 ~ 14E-09 3 71E-09 ' 2.36E-10 2. 33E-10 D 2 94E-04 2.80E-04 1 ~ 40E-05 1.03E-07 4.74E-OB 1-84E-09 65E-09 1.04E-10 1.03E-10 E 1.86E-04 1.77E-04 B.BBE-06 6. 51E-08 3.0OE-OB 1 16E-09 1.04E-09 6. 62E-11 6.54E-il F 1.30E-04 1 24E-04 6 20E-Ob 55E-08 2.09E-OB 8. 12E-10 7 28E-10 4. 62E-1 1 4. 57E-11 8 8.50E-05 8.09E-05 4 06E-Ob 2.98E-OB 1.37E-OB 5. 31E-10 4- 76E-10 3. 02E-1 1 2. 99E-1 1 H 5.7BE-OS 5 SOE-05 ~ 2.76E-Ob 2.03E-OB 9.32E-09 3. 62E-10 3. 24E-10 2. 06E-11 2. 03E-11 I 5. OOE-05 4.76E-05 2.39E-06 1.75E-OB 8.06E-O9 3. 13E-10 2. BOE-10 1 - 78E-11 1. 76E-11 J 1.36E-05 3.92E-05 1.96E-06 1.44E-OB 6.64E-O9 2 57E-10 ~ 2 31E-10 1. 46E-11 1.45E-11 K 2.9OE-Ob 3.35E-OS 1.68E-06 1.23E-OB 5.67E-09 2. 20E-10 1- 97E-10 1-25E-11 1 ~ 24E-1 1 L 2.4 E-06 2.80E-05 1 ~ 41E-06 1.03E-OB .4.75E-09 l. 84E-10 1. 65E-10 1 OSE-ii 1.04E-ii 1.00E-OB L- T. LLD L- T. LLD L-T. LLD L. T. LLD L ~ T. LLD L T. LLD L.T. LLD L.T. LLD TABLE 10 8-B SURFACE WATER ISOTOPIC ACT1YITY (LARGE LAKES, RIVERS)
POST-PLUNE DECAY TINE 120.0 HOURS ZONE TOTAL SANPLE 1-131 1-133 CS-134 CS-137 BA-140 LA-fgo 'R-89 SR-9O UCI/CC UCI/CC . UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC A 2.44E-05 2.32E-OS 1. 16E-06 8.55E-09 3.93E-09 1. 53E-10 1. 37E-10 B. 6BE-12 B. 58E-12 B 1.33E-05 1.26E-05 6.33E-07 4.64E-09 2 14E-09 8. 29E-1 1 7.43E-11 4.72E-12 4 ~ 66E-12 6.62E-ob 6.30E-06 3.16E-07 2.32E-09 1.07E-09 4. 14E-11 3.71E-11 2. 36E-12 2. 33E-12 C D 2.94E-06 2.80E-06 fo40E-P7 1 03E-09 4. 74E-10 1 84E-11 I 65E-1 1 "'. 04E-12 1. 03E-12 E 1.86E-06 1.77E-06 B.BBE-OB 6. 51E-10 3.00E-10 1. 16E-11 1.04E-11 6.62E-13 b. 54E-13 F 1 30E-06 1.24E-06 6.20E-OB 4. 55E- 1 0 2. 09E-10 8.12E-12 7. 2BE-12 4 62E-13 4. 57E-13 8 B. 50E-07 8.09E-07 4.06E-OB 2. 9BE-10 1. 37E-10 5. 31E-12 4. 76E-12 3. 02E-13 2. 99E-13 H 5.78E-07 5.5OE-07 2.76E-OB 2 03E-10 9. 32E-1 1 3. 62E-12 3. 24E-12 2. 06E-13 2. 03E-13 I 5.0OE-07 4.76E-07 2.39E-OB 1. 75E-10 8. 06E-11 3. 13E-12 2.80E-12 1. 78E-13 1.76E-13 J 1.36E-07 3.92E~07 1.96E-OB 1. 44E-10 6, 64E-11 2. 57E-12 2. 31E-12 1. 46E.13 1.45E-13 K 2.90E-OB 3.35E-07 1.6BE-OB 1. 23E-io S.67E-11 2. 20E-12 1 97E-12 1. 25E-13 1.24E-13 L 2. 43E-<>8 2.80E-07 1. 41E-08 1. 03E-10 4 '5E-11 1.84E-12 1. 65E-12 1.05E-13 1.04E-13 1 . ski>f Og L T. LLD L T. LLD L. T. LLD L.T. LLD L.T. LLD L. T. LLD L T. LLD L. T. LLD NOTESa i. DACV.GRUUNTj ACTIVITY lE-08 UCI /CC
0 C, SUR ACE WA'fER TABLE IO.B-A DA'!l'1 SURFACE WATER ISOTOPIC ACTIVITY (SMALL LAKES PONDS, CREEKS) RESERVOIRS> PaST-PLuME DECAY TIME 48O.O HDURS I-131 I-133 CS-$ 34 CS-137 BA-140 LA-140 SR-89 SR-90 l j TOTAL SAMPLE ZONE UCI/CC' I' UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC 6.4OE-04 6.39E-04 5 36E-10 8.43E-07 3. 93E-07 6.77E-09 2.64E-09 7. 06E-10 8.57E-10 B 3.4BE-04 3.47E-04 2 91E-10 q.SBE-07 2. 14E-07 3.68E-09 Ia43E-09 3.84E-10 4. 66E-10 C 1.74E-04 1.73E-04 1 45E-10 2.29E-07 1.07E-07 1.84E-09 7 16E-10 1:92E-10 2. 38E-10 D 7.71E-05 7.69E-05 6 45E-11 1. 01E-07 4.73E-OB B. 15E-10 3. 18E-10 8.50E-ii 1. 03E-10 E 4.8BE",05 4.87E-05 4 OBE-11 6.43E-OB 3 ~ OOE-08 5. 16E-10 2. 01E-10 5.38E-11 6.54E-11 F 3.41E-05 3.4OE-05 2 85E-11 4.49E-OB 2.09E-OB 3. 60E-10 1. 40E-10 3.76E-ii 4.56E-11 0 2: 23f-05 2.23E-05 1- 87E-11 2.94E-OB 1. 37f-08 2. 36E-10 9. 19E-11 2.46E-11 2.99E-11 1 52E-05 1. 51E-05 1. 27E-11 2.0OE-OB 9. 31E-09 1. 60E-10 6. 25E-11 1.67E-11 2 03E-11 I 1. 31E-05 1. 31E-05 1. 1OE-11 ).73E-08 8.05E-09 1.39E-10 5. 41E-11 1.45E-11 1. 76E-11 J 3.57E-06 1.08E-05 9. 04E-12 1.42E-OB 6.63E-09 1. 14E-10 4.45E-11 1. 19E-11 1. 45E-11 K 7.62E-07 9. 21E-Ob 7. 72E-12 1 22E-OB, 5.67E-09 9. 76E-11 3.8OE-11 1. 02E-1 1 1. 24E-1 1 L 6.38E-07 7.72E-06 6- 47E-12 1. 02E-08 4.75E-09 8.17E-11 19E-11 B. 53E-12 1. 04E-1 1 M 1.0OE-OB L.T. LLD L- T. LLD L- T. LLD 1.T. LLD L. T. LLD L. T. LLD L. T. LLD L. T. LLD TABLE 10. 8-B SURFACE WATER ISOTOPIC ACTIVITY (LARGE LAKES, RIVERS) POST-PLUME DECAY TIME ~ 480.0 HOURS TOTAL I-131 I-133 CS-134 Cs-137 BA-140 LA-140 SR-89 SR-90 ZONE SAMPLE UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC UCI/CC A 6. 4OE-06 6. 39E-Ob 5. 36E-12 8.43E-09 3.93E-09 6. 77E-11 2. 64E-11 7. 06E-12 8.57E-12 B 3.48E-06 3. 47E-06 2 91E-12 4 5BE-09 2o 14E-09 3. 68E-1 1 1 43E-11 3.84E-12 4.66E-12 C D E 1 74E-06
7. 71E-07

4. BBE-07 1.73E-06 7.69E-07 4 87E-07 45E-12 6.45E-13

4. OBE-13
'.h.2.29E-09 01E-09 43E-10
1. 07E-09 4 73E-10 3.0OE-10 1.84E-ii

8. 15E-12

5. 16E-12

7. 16E-12 3 18E-12

2. 01E-12 1.92E-12 8.50E-13

5. 38E-13 2.33E-12 1 '3E-12 6.54E-13 F 3. 41E-07 3.4OE-07 2.85E-13 4.49E-10 2. 09E-10 3. 60E-12 1 ~ 40E-12 3. 76E-13 4.56E-13 8 2.23E-07 2.23E-07 1.87E-13 2.94E-10 1. 37E-10 2. 36E-12 9. 19E-13 2. 46E-13 2.99E-13 H 1.52E-07 1. 51E-07 1 ~ 27E-13 2.00E-10 9 31E-11 1. 60E-12 6. 25E-13 1. 67E-13 2.03E-13 I 1. 31E-07 1. 31E-07 1. 10E-13 1;73E-10 . 8.05E-11 1. 39E-12 5. 41E-13 1. 45E-13 1. 76E-13 J 3.57E-OB 1.08E-07 9. 04E-14 1. 42E-10 6.63E-11 1.14E-12 4. 45E-13 1. 19E-13 1. 45E-13 K 7.62E-O'9 9. 21E-08 7. 72E-14 1. 22E-10 5.67E-11 9.76E-13 3. BOE-13 1. 02E-13 1.24E-13 L 6.38E-09 7.72E-OB 6. 47E-14 1. 02E-10 75E-11 . 17E-13 3. 19E-13 B. 53E-14 1.04E-13 M 1.00E-OB L. T. LLD L. T. LLD L. T. LLD L ~ T. LLD L. T. LLD L T.'LD L. T LLD L. T. LLD NOTES'. BACKGROUND ACTIVITY 1E-08 UPI/CC
C@ SQ1IPES, PERSONNEL 8i I?AY 2 (0500-1'100 HR) EQUIPMENT CONTAMINA"fION (1101-1700 HR) fABLE 10.9 POST-PLUME RADIOLOGICAL SURVEY/SAMPLING DATA FOR EHD WINDOW AND PANCAKE PROBES) CONTAHINATION POST"PLUME DECAY TIME = 24.0 HOURS OH SWIPES, OR TRANSFERRED TO END WINDOW PANCAKE PERSONNEL OR PROBE (CPH) PROBE (CPH) ZONE EQUIPMEHT (DPH/100 CH2) 81 CM 8 1CM A 7.63Et04 3.05Et03 7.6E+03'.1E+03 B 4.14E+04 1.66E+03 C 2.07E+04 8.28E+02 2.1E+03 D 9.18E+03 3.67E+02 9.2E+02 E 5.81E+03 2.33Et02 5.8E+02 F 4.06E+03 1.62E+02 4.1Et02 2.66E+03 1.06E+02 2.7E+02 H 1.81E+03 7.23E+01 1.8Et02 I 1.56E+03 6.25Et01 1.6Et02 1.3E+02 J 1.29E+03 5.15E+Ol K 1.10E+03 4.40E+Ol 1.1Et02 L 9.21E+02 3.68E+Ol 9.2E+01 H L.T. LLD 2.00Et01 3.0E+01 NOTE: THE ABOVE SURVEY INSTRUMENT COUNT RATES REFLECT READINGS TAKEN ON SWIPES, OR ON PERSONHEI CLOTHING, SKIN SURFACES OR EQUIPHEHT THhT HAS BECOME CONTAMINATED WHILE PERFORMING FIELD ACTIVITIES.
SECTION 11. 0 DESCRIPTION OF SCENARIO ASSUMPTIONS
11.0 Descri tion of Scenario Assum tions
1. Offsite Radiolo ical Surve and Environmental Sam lan Data A. Source Term The= radiological source term assumed for this scenario was selected to include sufficient radioiodine to achieve offsite deposition levels which exceed derived FDA Preventive and Emergency Protective Action Guides (PAG's) for soil, pasture grass and cow's milk. The Emergency PAG's for the milk pathway are exceeded out to approximately 12 miles downwind from the Ginna Plant. The Preventive PAG's for the milk pathway are exceeded out to approximately 30 miles downwind.
Deposition radioactivity diminishes to background levels at or beyond 50 miles from the plant. In addition, the postulated reactor accident is assumed to result in the release of particulates which also will. ultimately enter. various- food and water pathways., Immediate protective action recommendations (e.g., sheltering, evacuation) may not be necessarily based upon projected child thyroid dose, due to the predomin-ence. of- release noble gas quantities. (SEE FIGURE 9.1). The noble gas-to-radioiodine ratio assumed in this scenario is approximately 3300:1.. The downwind integrated doses from the 1.25-hour scenario release are as follows: Whole Bod Dose at 5 miles 1.28 REM Child Th roid Dose at 5 miles = 0.48 REM B. Ground De osition Downwind ground depostion (soil) levels were computed assuming a- deposition velocity of 0.01 (m/sec) for radioiodines and 0.001 (m/sec) for particulates.
Ground deposition areal concentrations (uCi/m2) were determined as follows: Cg = I.'(Q)(Xu/Q)(Vd)(1/lambda)(1-exP(-lambda*t)(1E+6)] Where: Cg ~ Iodine or. particulate radionuclide. ground deposition at . a given location, in- (uCi/m2), Zodine or particulate radionuclide release rate, in Ci/sec, Xu/Q Atmospheric dispersion coefficient for the downwind location of interest, in sec*mph/m3, u = Average wind speed, in mph, Vd ~ Deposition velocity, in m/sec, Lambda = Radiological- decay constant for radionuclide of interest, in hours-l, Duration of release, in hours. Conversion factors were developed to determine soil radionuclide concentrations (uCi/kilogram) based upon soil density and depth of sampling. A density of 2160 Kg/m3 (=carbon) was assumed for soil, and conversion factors were computed for sampling depths of 1 cm, 2.5 cm and 5 cm. The conversions are as follows: 1 cm sampling depth: (uCi/Kg) = (uCi/m2) / 20 2.5 cm sampling depth: (uCi/Kg) (uCi/m2) / 50 5.0 cm sampling depth: (uCi/Kg) = (uCi/m2) / 100
Surve Instrument Readin s from Ground De osition Micro-R Hr Instruments: Micro-R/hr meter readings were developed for ground deposition surveys conducted at 1 cm and lm from the ground surface. Dose factors calculated by Kocher (1983) for ground deposition of radionuclides were used. in computing the gamma dose- rates at 1 meter above the ground; The PC'hielding program MXCROSHXELD was utilized for calculating the gamma dose rates at 1 cm above an infinite plane. The ratio of'he 1-cm to 1-meter gamma dose rates was'etermined- to be approxi-mately 1.7. Count Rate Instruments: End window and Pancake probe count rate readings were developed for surveys taken at 1 cm and 1 m from the ground surface. Gamma contributions to 1-m count rates were determined by converting the above gamma dose rates to count rates using appropriate instrument gamma sensitivities, i.e., 2200 cpm/mr/hr (HP-190 probe) and .3600 cpm/mr/hr (HP-210/260 pancake probe). Count rates determined. for 1 m above the ground were assumed. to have negligible beta contribution. Ground survey count." rates measured at. 1 cm were based upon factors: presented in IAEA Report 152 and NZNCO-1012. (1984) for GM survey instrument response to fresh radioiodine and other fission product deposition (i.e., 0.3 uCi/m2 per 100 cpm). Since this value is based upon a 30 mg/cm2 probe window thickness, adjusted factors were assumed for the 2-mg/cm2 window thickness of both the HP-190 end window and HP-210/260 pancake probes. The ad)usted factors assumed are: HP-190: .25 uCi/m2 per 100 cpm, (400 cpm/uCi/m2) HP-210/260: .10 uCi/m2 per 100 cpm, (1000 cpm/uCi/m2) Animal Fora e and Milk Forage and peak milk activities were determined based upon soil/pasture/milk concentration ratios found in FDA derived response level tables. Decay of radionuclide concentrations in pasture grass, hay and silage included an assumed 14-day weathering half-life in addition to the radiological half-life.
'}}

ML17261A670

Text

4.0 REFERENCES

4.0 REFERENCES

4.1 REFERENCES

SUMMARY

SUMMARY

SUMMARY

11.0 DESCRIPTION

4.0 REFERENCES

SUMMARY

SUMMARY

SUMMARY

Navigation menu

Search