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52 5.4 ' ' m ato A Health Physics procedure (HP-6.3 "Personnel Decontamina-tion~) provides guidance for graduated measures to be used for decontamination. The ob)ective of decontamina-tion is to prevent the spread of radioactive material on the individual, to the environment, or to other personnel and to reduce the resultant dose. Decontamination is essentially the removal of radioactive material and is performed starting with the highest level of contamination using the simplest procedures. Continued decontamination may show diminishing effectiveness and require a decision to stop or use more potent agents.

Decontamination kits which contain items to decontaminate the skin, for wound cleansing and nose irrigation are available. Decontamination should continue until it. is no longer effective but not so as to abrade skin. This procedure should be effective against Iodine and other contaminants.

Ii personnel cannot be decontaminated to the limits of Procedure HP-6. 3, Radiation Management Consultants may

• be contacted.

Instruments are available to determine contamination levels of personnel or equipment and the effectiveness of decontamination. Waste drums are available as containers for radioactive waste and emergency clothing is available if needed.

5 ' 4~6 Offsite authorities will provide assistance as needed to protect the public. In the event a Site Area Emergency is declared this may include activating the public notification system and providing information and periodic updates of the situation through the EBS (Emergency Broadcast System) and/or press briefings. Resources at primary response centers will be augmented by calling other emergency services to stand by status and dispatc-hing certain emergency personnel to initiate their functions, ie, monitoring and communications. Information from the licensee, monitoring teams and weather stations vill be continually evaluated with regard to changes in protective actions already initiated for the public, such as sheltering of people or milk animals. Monitor-ing results and any actions taken should be reported to the licensee and others having a need to know.

Revision 9 Noveaber 1990

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53 5.5 The General Emergency will be declared when the conditions described in Section 3.5 exists.

The purpose of the General Emergency declaration is to (1) initiate protective actions for the public as predetermined or as indicated by actual releases, (2) provide continuous assessment of information from Ginna Station and offsite measurements, (3) provide consulta-tion with offsite authorities, and (4) keep the public informed thru updates of the situation through the Joint Emergency News Center.

5 '.1 tos:

A General Emergency requires that all actions prescribed for the Site Area Emergency (See Section 5.4) be imple-mented. The NRC, State Bureau of Radiological Health, and county authorities who will already have been contacted for lower classifications, will now be updated.

The Emergency Coordinator may request the assistance of offsite groups which could include Radiation Management Consultants, plant doctors, and Department of Energy-Brookhaven Radiation Assistance Program. Technical personnel from other RGSE departments and/or consultants will be called as needed.,

The Emergency Coordinator has the responsibility to determine the magnitude and extent of the incident by evaluating information from the Control Room and the Survey Teams. This information will consist of instrum-entation readings and any survey results available. He shall update the state and local authorities with new survey data and other information and recommend protective actions. Protective action will be based on the "Manual of Protective Action Guides and Protective Action for Nuclear Incidents" EPA-520/1-75-001-A, January 1990, U.S. Environmental Protection Agency. A summary of recommended actions is presented in Table 5.1.

In making his recommendation for sheltering or evacuation, the Emergency Coordinator should evaluate the weather forecast in relation to changing winds and precipitation.

he should also evaluate the calculated evacuation times (Appendix G) in relation to predicted start, length and termination of a release. Due to the nature of our climate and corresponding construction of dwellings, the shielding effects of sheltering are greater than in many other areas. A dose reduction factor of 0.6 - 0.9 is assumed for residences in this area for whole body direct plume radiation.(1, 2)

Revision 9 November 1990

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The Director of the New York State Bureau of Radiological Haalth shall determine, by evaluating the information given by the Emergency Coordinator (or EOF/Recovery Manager as appropriate) if area evacuation is necessary, to what extent, and how to undertake protective action including evacuation. A pro)ection of population distribution in the 10 mile plume exposure zone is included in Appendix F.

All survey and sample analysis results will be retained by the Health Physics and Chemistry Manager for appropri-ate documentation. Formal reports shall be written and distributed as required by 10CFR20 and the Technical Specifications. Information concerning the offsite con-sequences of the incident and protective actions to protect the public will be handled by'ew o k State diplo ical Emer enc la and County Emergency Plans.

An RG&E Corporate Spokesperson in the JENC will release the information concerning the plant, plant safeguards and its employees,- and assistance being provided to State and Local authorities.

5.5 ' 0 s te Aut orities ct o s:

All actions of paragraph 5.4.4.6 for Site Area Emergency will be reviewed and enacted for a General Emergency. All emergency personnel will have been activated and all response centers are operating. Information ia evaluated and passed to the proper authorities and the public.

Protective actions will be instituted as needed for the public and animals.

5' o ease t If a ma)or release to the lake occurs which exceeds the Technical Specification limit or the limiting concen-trations specified in 10CFR20, Appendix B, Table II, Column 2, at the point of discharge the following actions shall be taken:

The release will be classified per EPIP 1-0, "Ginna Station Event Evaluation and Classification" and appropri-ate notifications .will be made, if necessary, per the classification and corresponding procedurea. The Ontario Water District will be notified. The waste discharge will be isolated, grab samples will be obtained, and dilution will be estimated.

Revision 9 Noveaber 1990

gl 55 The Health Physics section will be instructed to monitor the Ontario Water District Station water.

(1)

Reference:

"Public Protection Strategies for potential Nuclear Reactor Accidents" Sheltering Concepts with Existing Public and Private Structures" (SAND 77-1725),

Sandia Laboratory.

(2) Protective Action Evaluation Part II, Evacuation and Sheltering as Protective Actions Against Nuclear Accidents Involving Gaseous Releases" (EPA 520/1-78-001B). U. S.

Environmental Protection Agency.

Revision 9 Noveaber 1990

f e

TABLE 5.1 Recommended protective Actions to Reduce Vhole Body and Thyroid Dose from Exposure to ~ Gaseous PLume (EPA 520/1-75-001 ' January 1990)

Projected Dose (Rem) to the population ) Recommended Actions (a) Comments I

Vhole body <<1 No planned protective actions. (b) I Previously recommended protective I State may issue an advisory to seek shelter and auait further( actions may be reconsidered or I instructions. I terminated.

Thyroid <<5 Monitor environmental radiation Levels.

I Vhole body 1 to <<5 Seek shelter as a minimum. lf constraints exist, special I Consider evacuation. Evacuate unless constraints make it consideration should be given for I evacuation of children and environmental radiation levels and adjust area for impractical'lonitor Thyroid 6 to <<25 pregnant uomen.

I mandatory evacuation baaed on these Levels. Control access.

I

)Vhole body 5 and above) Conduct mandatory evacuation. Seeking shelter uould be an I I I Nonitor environmental radiation Levels and adjust area for ~ Lternative if evacuation were not)

)Thyroid 25 and above) mandatory evacuation based on these Levels. Control access. immediately possible. I I

LO po Projected Dose (Rem)

O. to Emergency Team Vorkers' I

Vhole body 25 Control exposure of emergency team members to these levels Although respirators should be pf

~l I except for Lifesaving missions. (Appropriate controls for used where effective to control L)

Thyroid emergency uorkers,.include time Limitations, respirators, dose to emergency team workers, 8 I and stable iodine). thyroid dose may not be a Limiting) 90' factor for lifesaving missions.

I t$ Vhole body Control exposure of emergency team members performing I Lifesaving ~ issions to this level. (Control of time of

~

~

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I exposure QLLL be most ~ ff~ ctive.)

I

(~) these sct>ons ~ re recommended for planning purposes. Protective action decisions at the time of the incident must trike existing conditions into consideration.

(b) At the time of the incident, officials may implement Lou-impact protective actions in keeping with the principle of maintaining radiation exposures as Lou as reasonable achievable.

1 I

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57 5.7 e to Public information will be released by an RG&E Information Officer operating from the Joint Emergency News Center.

Public Information personnel will be assisted by a Technical Spokesman who keeps in touch with the Emergency Coordinator and EOF operations. RG&E personnel will exchange information with government Public Information Officers on a timely basis. All news releases will be coordinated among Federal, State, County and RG&E sources.

Rochester Gas & Electric Corporation Public Relations Department will be notified of any activation of this plan as soon as practical. Generally this notice will be from the Emergency Coordinator after he has compiled his evaluation of the situation.

A Joint Emergency News Center (6.1.7) will be established which may be activated during a nuclear emergency.

can be activated for the Alert Class or a less severe It event. The Emergency Plan Implementing Procedures provide for staffing this center and outlines the duties oi various positions. Individuals who are qualified to assume those positions are designated. Space is allocated in the Joint Emergency News Center ior the use of various regulatory and government officials so as to coordinate and facilitate the flow of accurate information to the public. A Corporate Spokesperson who has access to the EOF will be available to the news media for briefing and questions.

Inf'ormation concerning the status of the plant employees and Public Safety Recommendations shall be released by the Public Inf'ormation Officers representing RG&E and local, state, and federal governments.

A public information program to acquaint the public with the proper actions to be taken in the event of a nuclear emergency at Ginna Station will be provided on an annual basis. This program will include information about radiation, protective actions which can bo taken, suggested evacuation routes, special needs of the handicapped, proper responses to warning signals, and where additional information can be obtained. The program will be coordinated with RG&E, State and County Officials.

Material for placement in parks, motels and retail establishments to which transients have access vill be provided on an annual basis.

'evision 8 October 1989

yv W

58 An annual briefing and training session will be held to acquaint the news media with our emergency plans.

Xnformation on plant operation, radiation effects and concerns, the implementation of our emergency plan/

points of contact for the release of public information at RQSE and other relevant topics will be kept current through these sessions.

Figure 5.7 is a preformatted press statement which can be used to inform the public of the situation at Ginna.

Revision 8 October 1989

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59 PRESS STATEMENT RtVZSC 7-28-89 JtOCHES TEIt G1$ 4HD ELEC rffIC

~1 te$ 1'svlsvt 4OCwlStlI V <<Jest ~ <we .! 'VO DATE'ot.R:

ROCHESTER'Y ROCHESTER GAS AND ELECTRIC CORPORATION REPORTED ANO (ALERT) (SITE EHERGENCY) (GENERAL EMERGENCY) AT ZTS SINNA NUCLEAR STATION LOCATED IN THI TOMN OF ONTARIO'AYNES COUNTYt NaW YORK'l6 MILES EAST OF ROCHESTER ON LAKI ONTARIO AT (TZNl) ON (DAT j) .

PRELIMINARY INFORMATION INDICATE5 (GIVE NATURE OF PROILEH) ~

THE STATU5 OF THI STATZON ZS (STAILK) (IMPROVING) (DEGRADING)

(NOT KKOMN) ~

A RILIASI OF RADIOACTIVITY (IS) (I5 NOT) TAKING PLACI.

(PROVZDC SPICZFZC INFORNATZON If RELEASE Z5 TAKZNG PLACI.)

ADDITIONAL DETAILS MILL II PROVIDED AS AVAZLAILR (IF PRl5$

IRIEFZNGS HAVR IEEN SCHEDULED'ROVIDE 5CHEDULE AND LOCATION) ~

THIS. {IS) {IS NOT) A DRILl.

Figure 5.7 Ntf Revision KXNIIIT October i

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60 6~0 Emergency facilities comprise a number of categories including emergency response facilities,'ommunications systems, assessment facilities, protective facilities and first aid and medical facilities. Each is briefly described as follows:

F 1 Emer enc Res onse Facilities G&E Locations have been designated to be used for evaluation and control of an emergency situation; the Control Room, the Survey Center, the Technical Support Center, Opera-tions Support Center, Emergency Operations Facility, Engineering Support Center and the Joint Emergency News Center. Figure 6.1 shows the relationship of these Centers during an emergency.

6.1.1 o Room' The Ginna Station Control Room is designed for continuous occupancy following the most limiting accident; therefore, control of plant systems will take place from this center, and on-shift crew activities relating to mitiga-ting the consequences of the accident will be initiated and coordinated by the on-duty Shift Supervisor in the Control Room. Equipment for radiation monitoring and protective clothing and respiratory equipment is kept in an emergency cabinet.

).2 Ce te C The basement of the Ginna Training Center will be used as dispatching center for survey teams. Their equipment will be stored in lockers so that availability of equipment is assured. All field monitoring data vill be reported 'through a communicator to the TSC or EOF Dose Assessment Manager as appropriate. The Dose Assessment Manager will evaluate the data and make protective action recommendation if needed.

Revision 9 Noveaber 1990

a p ROCHESTER GAS AND ELECTRIC CORPORATION GINNA STATION EMERGENCY CENTER INTERFACES CONTROL ROOM STATE COUNTY NRC EOC EOC'S OPERATIONAL TECHNICAL SUPPORT SUPPORT .

CENTER CENTER EMERGENCY ENGINEERING SURVEY OPERATIONS SUPPORT CENTER FAOLITY CENTER

)OINT EMERGENCY NEWS CENTER n

O D'

INITIALCONTACT ONLY--

figure 6.1 t

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62 t Surve e ta ea:

An alternate Survey Team Staging Area will be designated by the Emergency Coordinator if the SC is not habitable because of high radiation levels or airborne contamination levels. Alternate Survey Team Staging Areas may include the onsite Prospects Building or other offsite RG&E facilities.

Te h ica Su ort enter TSC An area at the east end of Ginna Station Turbine Building has been constructed for use as the TSC. Zt is equipped with an intercom for direct communication with the Control Room, Survey Center, and Operational Support Center. The TSC also has direct phone lines to the NRC, New York State, Monroe and Wayne Counties as well as radios and normal phones. A terminal to the plant process computer data link is installed in the Center for obtaining plant operational data. Piping and equipment drawings are also available. A radiation monitor is mounted in the Technical Support Center. The center has filtered air supply and is shielded to meet the same habitability requirements as the Control Room. A constant air monitor is installed to indicate the activity of airborne particulate., This center meets the criteria of NUREG 0696 and is within 2 minutes walking time of the Contxol Room. Protective clothing and breathing apparatus are available if needed.

0 e tional Su ort Ce te C An area within the TSC has been designated as the OSC.

Personnel will be assigned to this area in case of an emergency who are capable of giving support to operational needs of the plant. They will be directed from the Control Room or the TSC. Phones and the plant GAI-tronics page are available.

This area was selected for its capacity to provide an adequate assembly area for operators, technicians, and repairmen. Personnel designated by implementing proced-ures will report to the OSC, either directly if already on site or through"the off-hours. The OSC Survey Center meets the criteria ifofcalled in from NUREG - 0696.

Supplies provided at'his center include respiratory protection equipment, protective clothing, portable lighting and portable radios.

Revision 9 November 1990

~,

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63 Potassium Iodide tablets and self-reading pocket dosi-meters are included in the equipment stored in the OSC.

Radiation monitoring equipment for surveys of the OSC or for use out on a )ob is available in the TSC or as dedicated equipment in the Health Physic's office.

Emergency equipment necessary to repair, control or mitigate the consequences of an accident are available in shops and the stockroom within the plant.

c 0 e to s aci t The EOF has been established offsite ad)acent to RG&E Headquarters in Rochester. This facility meets the criteria of NUREG-0696. Offices will be provided for Federal, State, and Local Officials. In addition, sufficient offices for RG&E support personnel and backup groups (such as Westinghouse, Gilbert Commonwealth, etc.) is available in the same building. A work area sized to accommodate the numbers of people anticipated and the facilities for these people will also be in-corporated into the complex. Facilities are provided for the news media and RG&E public relations personnel in the headquarters building.

Ample telephone communications will be provided, with degrees of redundancy achieved by utilizing the Rochester Telephone system in conjunction with the New York Telephone system. Also a microwave system provides communication capability between Technical Support Center and the EOF.

To aid in emergency assessment, pertinent information (such as blue prints, UFSAR, Technical Specifications, etc.) are stored at the facility and will be kept current. A data link will provide hard copy information from the plant computer to the EOF. This information is programmed into groups of various essential plant and site parameters required for emergency evaluation. As the emergency is evaluated, accurate and up-to-date information of the situation is relayed to appropriate governmental agencies and the public through this Center.

Communications equipment and radiation monitoring equipment for use by field teams from the EOF is main-tained and readily available to them.

J e en News Cente JENC A JENC has been established in con)unction with the EOF. The center will house offices for the NRC, FEMA, NYS, Wayne and Monroe County, and RG&E Public Information Officers. It will also have facilities for press briefing, small conference rooms, General Information and Rumor Control, and Security.

Revision 9 November 1990

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64 Basic information regarding the status of the Ginna Nuclear Power Plant will come from the Emergency Coordi-nator. After review by RG&E corporate personnel, n e w s releases will be issued from the Emergency News Center.

A telephone center for response to the general public will be established and the RG&E Government Relations Department will be in contact with elected officials.

See EPZP 4-4 and 4-6 for details.

6' Commu ications S stems: (Ginna Station)

A broad range of communications equipment is available at Ginna Station. Several systems are installed for communications between RG&E Emergency Centers, and for communications with outside agencies. Equipment is periodically verified operable by plant procedure. The use of particular types are specified in the appropriate implementing procedures as first choice and backup systems. All services other than radio are underground between centers. Communications'ystems are tested periodically.

6~2~1 a atio Wa in A special warbling tone on the GAZ-Tronica page system is sounded from the Control Room to warn personnel of site evacuation. Warning is immediate to all personsa on-site at the time of an accident. High noise areas have, in addition to the Public Address system, red warning lights with signs to direct personnel to evacua-te. Special .announcements on the page and special tones are used for other emergencies.

6' ' s Communications between the Control Room, Technical Support Center, Survey Center and other operations centers can be established using either telephone, 2-way intercom, radio or plant PA System. Coamnications systems are tested periodically according to the schedule in implementing procedure.

The AT&T System 75. telephone system at,Ginna affords a great deal of flexibility and capacity. Calls can be received or made to either the Rochester Telephone System or the Ontario System (New York Telephone Co.).

The AT&T system has its own power supply located on-site which could maintain house phones independent of off-site lines. There are also Rochester direct lines that are powered by Rochester Telephone and Ontario.

direct lines powered by New York Telephone. During an emergency phone usage can be controlled by an operator at the console located in the Technical Support Center.

Revision 9 November 1990

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65 In case of an emergency,- personnel not at the plant can be summoned using either the AT&T phones or direct lines to the Ontario and Rochester Systems; If necessary, Control Room personnel may use the direct lines to a Rochester located dispatcher who would then make the necessary offsite calls. A base radio transmitter in the Control Room may be used to call the Electric Line Operator who can also call personnel to the plant.

o S stems:

There are three frequencies available for use at Ginna Station. They are assigned to the Fire Brigade, Security and Radiation Survey Teams. The base stations and antennae are located for maximum transmission coverage of the areas of use. The security channel is monitored at Central Security and at the Guardhouse. The Radiation Survey Teams have operator capability at the Survey Center, Technical Support Center and at the Emergency Operations Facility. The Fire Brigade communicator will be in the Control Room. Portable radios with three channels are available for the use of survey teams in the field. t The Ginna Control Room also has a receiving and broad-casting station on a frequency which is monitored off-site by Electric Power Control and Line Maintenance. This channel is available for indirect communication to the State Police, Monroe and Wayne County Sheriffs and Wayne or Monroe County EOC's.

Portable low power hand radio sets are located in the Technical Support Center to be distributed in the event of an emergency for backup or mobile communication.

Portable hand radio sets are also located in the Survey Center for the use of survey teams. Offsite survey teams can communicate through these portable radio sets to a base station which may be set up at either the Survey Center, Technical Support Center or EOF. The base station is capable of operating with l2 volt'C power (an automobile system) as an alternate power source.

Revision 9 Noveaber 1990

4'S IQ 1 il Ci

66 6.2 ' 0 e Notification to state and county emergency response organizations is available 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> per day. The State Warning Point is staffed during normal working hours by the Office of Disaster Preparedness. Monroe County Office of Emergency Preparedness and Wayne County Office of Emergency Management answer the RECS line during the work day. During non-business hours, weekends and holidays, the same phone line is covered for the State by the State Police Warning Point and for Monroe County at the Rochester Fire and Public Safety Building. For Wayne County the Sheriffs Office covers the warning system during off hours. At Ginna Station there are always Control Room personnel to originate calls. New York State has responsibility for communications to other

'counties which may fall within the ingestion pa thway exposure zone. Any contacts with Canada or Ontario Province would also be through the state agencies.

To contact appropriate offsite agencies the telephones would normally be used as above (6.2.2), with direct lines or the dimension system. If necessary the Power Control Dispatcher or Electric Line Operator may be contacted as described above and instructed to notify the state police or sheriff and relay message through their radio systems.

Communications with federal emergency response organi>>

zations consists of telephone contact to the Department of Energy Brookhaven Radiological Assistance Program.

This call would be made by the Emergency Coordinator per our letter of agreement with Brookhaven. Their assistance may also be requested by the State or counties.

NRC Emergency Notification System (ENS) "red phones" are installed in the Control Room, the EOF and the Technical Support Center. NRC Health Physics Network phones are also available in the Technical Support Center and EOF.

6 ' c i Facilities are provided for the assessment of post accident radiological conditions in order to determine the appropriate emergency measures. They consist of onsite monitoring systems, laboratory facilities and environmental radiological monitoring and sampling equipment.

Revision 9 Noveabor 1990

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67 cess Radiatio tor S st m:

The process radiation monitoring system provides indi-cations and alarms which permit assessment of in-plant conditions, as well as providing certain automatic actuations. The general functions of these systems are as follows:

a) To indicate primary system leakage and fuel rod failures.

b) To indicate radioactivity levels in selected process systems.

c) To indicate radioactivity released through vents or drains.

d) To provide visible and audible alarms in the Control Room when a significant increase in radiation occurs in systems or areas.

e) 'ofailure.

alarm in the Control Room on monitoring equipment f) To shut down a purge or a release if radioactivity reaches the alarm setpoints and thereby avoid exceeding the discharge limits.

uent Monitors:

Effluent monitors available at Ginna are listed in Tables 6.3A and 6.3B. Of these monitors, particular importance is placed upon the plant vent monitors and liquid release monitor; the former because, as described in Section 3.0, Emergency Conditions, in combination with other monitors, it indicates the need for site evacuation and protective actions for the public; the latter measures because it indicates the need for protective with regard to the use of lake water.

Alarm setpoints are based upon the maximum allowable environmental radioactivity concentration and dose which might result from a release and set at a fraction of those values. Monitor calibration factors, correlating monitor readings and vent concentrations can be used to estimate the release rate. Prom vent concentrations, the offsite dose or concentration levels can be calcu-lated. Table 6.3A summarizes these monitors and alarm functions..

Several approaches are available to supplement effluent monitor readings for the assessment of release rates and pro)ected doses. Estimates of radioactive materials released and pro)ected doses are provided for various accident categories and modes of safeguard equipment operation in an implementing procedure for the Emergency Coordinator's use.

Revision 9 November 1990

1  !

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68 High range monitors have been established for the estimation of noble gas release from the plant ventilation exhaust point in the event that normal range effluent monitors are off scale or inoperable. Periodic grab samples of effluent release paths would also be used to quantify and further refine estimated releases from the plant. Table 6.3B summarizes the SPING 4 high range monitoring system.

Zf no release data are available, a method for assessment of release rates is used in con)unction with the X/Q map overlays and offsite concentrations. The release rate of radio active material from the plant can be calculated from the measured airborne concentration at a given downwind sample location and the X/Q value for that location read from the map overlay. The airborne concen-tration is divided by the X/Q value and multiplied by the wind speed to obtain an estimated release rate from the plant.

Appendix C, Table C-1 of this plan contains a table of resultant doses and quantities released from selected potential accidents. These doses and releases are based upon 104 of the values used as part of the plant safety evaluation.

"Manual of Protection Actions Guides and Protective Actions for Nuclear Incidents" (EPA 520/1-75-001), NUREG 133 (Nov. 78) and Regulatory Guide 1.109 Rev. 1 (Oct. 77) provide the methodology for relating radiological measurements in various environmental media or effluent monitor readings to offsite dose or dose rates. Meteoro-logical conditions can be factored into these calcula-tions.

A procedure for manually estimating offsite doses for areas around the plant is available at the TSC and EOF.

Based upon these results, protective actions can be recommended. A computer program operating on a micro-computer is also available in the TSC and EOF. This system mimics the overlay method of calculating downwind dose rates and airborne contamination levels. A more sophisticated computer program which uses the methods used for environmental dose calculations required by Federal regulations is also available to assess doses during and after an emergency. Additional information on the radiological consequences of a variety of accidents can be found in Chapter 15 of the Ginna Updated Final Safety Analysis Report..

Revision 9 November 1990

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RAD I AT I ON. DETECTOR NETER 0 U OS R 10A Top F loor Cold Scintillation control Rooa 10 -10 cpa Indicates the concentration of Iodine Containaent Side Interaed. Detector C Plant Coaput -131 in the Containaent Building or n a Qen V t R-10$ 10 .107 cpa Indicates concentration of Iodine- 131 Plant Vent in the Plant Vent air RE ll 10 .107 cpa Normally aeasures short-lived partic-Containment ulate daughters of noble gases in the Particulate Containment Vent or Containaent Atmos her

- R.12 10 10 cpm Heasures the noble gas concentration Containment in uhich Zenon, 133 is the major I Gas isotope present in the Containment Ven r Con a nm m s h R-13 10 .10 cpa Plant Vent particulate aonitor a Plant Vent noraally measures short-lived par- hp cula d u r R 14 10 10 cpa Plant Vent noble gas aonitor noraally Plant Vent aeasures Lou concentrations of Xe- 133 from Reactor Coolant Leak in the Aux. 3l Ld 0 R. 15 N.E. Corner Top 10 - 10 cpa Measures condenser off gas and is r.

Air Ejector F loor Turb. Bldg. usually the first sensor of priaary 0 r

R-16 Basement Floor Cold 10 - 10 cpa Honitors the service uater froa the Containaent Fan Side tnteraediate Containaent Fan Coolers d b RE 17 Intermediate Floor 10 - 10 cpa Used to detect leakage of primary Coaponent Aux. ~ Ldg. NUT Area coolant into the Coaponent Cooling R Lg Ava. ALE . Nest Scintill ~ tion Control Rooa C 10 F 10 cpa Nonitors liquid released for unexpect-Liqu>4 us ~ t ~ IA4 Imp Floor 0~ t ~ ctor Plant Computer ed activity levels . an alara uILL I Let r e e 0 O

TA RAD I AT ION DETECTOR HETER R-19. Intermediate floor 10 -10 cpm Honi tora Steam Generator bloMdoun Water S/G BLo>>doun Hot aide Intermed.

~

1 for primary to secondary Leakage High c

R.20A West end 10 -10 cpm Honitors for Leakage from the Spent Spent Fuel Pool Intermediate Floor fuel Pool into the service mater due Neat Exchg. 1A Auxiliary Bldg. to heat tube Leaks R.20$ Aux. B ldg. 101-10 cpm Honitors for leakage from the Spent Spent fuel Pool ~

Top floor fuel Pool into the service uatir due Heat Exchg. 1B to heat exchanger tube Leaks 0 Ws r R Basement Serv. Scintillation Local ly Alarm 10 -10 cpm Honitors Retention Tank ueter uhich Retention Tonk Bldg. Recircu- Detector in CR is collected from normally clean lation Line areas of the plant . and vill isolate normal rcless eth uh n on slera RE 22 AVT Room Scintilla tion AVT Control 10 -10 cpm Honitors Condensate Polisher regenere.

High Conduct- Detector Panel tion waste voter activity and Mill is-s TSAL olet h normal d cher e u o eler 0 R

0 8 rrr 0

Le re r.

0 0

9 0

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I TABLE 6 3B SPTNG 4 RA01AT10N HON1TORTNG SYS TEN Unit ¹01 Containment Vent Sampler, Unit ¹02 Plant Vent Sampler

¹01 Beta Particulate Scintit lation 1.0x10 to 1x10o uCi/on the f liter

¹02 Alpha Particulate Open Face Diode Radon/thoron detector to correct beta particulate levels.

¹03 iodine Scintillation, 2x2 to 10 uCi on the filter Nsl single Channel Analyzer

¹04 iodine Adjacent Nindog -Scintillation Note this channel only compensates channeL 3

¹05 Noble Gss Loi Range Scintill ~ tion 1.0x10 to 1x10 uCi/cc Eq Xe

¹06 Area Honitor G H Tube 0.001 to 1000 mR/hr. Honitors Radiation Levels at Unit

¹07 Noble Gss Hid. Range G-H Tube 1.0x10 to lx10 uCi/cc Eq Xe

¹OB Gamma Background G.H Tube Note this channel is used onty for Gamma compensation on channel 05 snd 07.

(09 133 spots CD s Nigh Range G AH Tube 1.0x10 to 1.0x10 uCi/cc Eq Xe Note. Uits 1 snd 2 csn be read on the PPCS or locally on the 296 ~ level of the clean side of the intermediate Building. Read out of SPING 4 data is svsi table in the TSC.

TABLE 6.3B (CONTTNUED)

SPiNG 4 RADIATTON HONiTORiNG SYSTEH Unit ¹03 Ajr ejector aonitor. Note: Channel 1 ' exist in the unit but are not used. Unit 3 can be read the TSC or the turbine f loor of the Turbine Building ANorth Vail).

¹05 Noble Gas Lou Range Scintillation 1.0 10 to 1 10 uCi/ Eq X

¹06 Area Nonitor 0-H Tube 0.001 to 1000 aR/hr

¹07 Noble G ~s Ned. Range G-N Tube 1 'x10 to 1x10 uCi/cc Eq Xe

¹08 Gaaaa Background G-H Tube Channel 8 only compensates channel 05 and 07.

¹09 Noble Gas High Range G-N Tube 1.0x10 to 1.0x105 uCi/cc i Eq Xe 133 Unit ¹04 Steaaline Nonitors. ~: Unit 04 can be read on the PPCS, on a control rooa recorder, in the TSC, or at the 296'evel of the clean aide of the tnteraediate Building.

¹01 "A" Steaaline Nonitor G-N Tube 10 to 10+ aR/hr 0 ¹02 age Steaaline Honitor G-N Tube 10 2 to 10 eR/hr 0

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~ABL 6 3C RADIATION DETECTOR HETER POSSIBLE HEANINGS OF ALARH OR T N U N N R-1 . ~ Control Room Ionization Control Room 10 -10 mR/hr Rising Radiation Level in the Control Room Chamber 't Plant Compt. Control Room Possible Control Room c i i lit R 2 By Personnel Natch Rising Radiation Levels In Containment Containment R.7 Intermedi ~ t ~ Floors Indicates Flux Happing in Progress Incore Detector Containment or possible rising radiation l

mentt i con m R ~

9 NaON Tank Room Increasing Radiation Levels in the Letdown Line Basement Floor Reactor Coolant System mentt I I Auxi ar .

d R.29 Containment NM Ionization 1 R/hr ~

10 R/hr Primary Coolant Leak in Contain-Nigh Range Con- Operating Floor Chamber 8

Q R.30 Containment NE Ionization 1 R/hr-10 R/hr Primary Coolant Leak in Contain- x0 Nigh Range Con- Operating Floor Chamber po 8

J 74 External dose or dose rates from surface contamination or airborne radioactivity are determined by direct field xeawurements (TLD or survey meter.) Xnternal dose commitments from key isotopes via water or airborne pathways would be evaluated using the uptake rates, dose conversion factors, and other pathway parameters given in EPA 520, NUREG 133 and Regulatory Guide 1.109.

Computer software is available through consultants using these dose calculational models so as to determine the radiological dose assessment. Zn this manner, rapid determination of dose estimates from multiple pathways may be made for comparison with protective action guides.

adiatio o to s ~

The plant area radiation monitoring system provides indications and alarms which assist in assessment of plant conditions. Its general functions are as follows:

a) To indicate the general radiation level in specified areas of the plant.

b) To provide visible and audible alarms at both the Control Room and the remote meter location when a significant increase in radiation level occurs.

c) To provide a visible alarm in Control Rooa on meter or detector failure.

As described in Section 3.0, Emergency Conditions, this system is used to initiate local radiation eaergency protective action, and in combination with other systems to indicate the need for a site evacuation and possible ofi-site protective measures. TABLE 6.3C lists the location of area monitors of ma)or interest. Alarm setpoints can be found in Procedure P-9.

High Range Radiation Monitors are installed within containment with digital readout in the Control Room. A procedure is available by which readings can bo converted to an interpretation of the extent of fuel daaage and/or radioactivity released to the containment atmosphere.

0 an e Nuclear nst entatio The two source range channels are used at shutdown to provide an audible count rate signal and audible alarms both in the Control Room and Containment to call attention to unexpected increase in neutron flux. A high source range alarm in containment .is the signal to evacuate the area.

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75 t ous A o s:

Several mobile radiation monitors are available within the controlled areas particularly for use during work where local detection of excessive airborne contamination is advisable. Various combinations of noble gases, iodine and particulate analyzers are available. These are equipped with meter and chart readouts, as well as audible and visible alarms.

Portab e Monitors Sam lin E i ment and Other S ecial SDLig Portable monitors, sampling equipment and other special equipment for assessing the extent of the consequences of a radiation emergency are located in the Control Room, the Health Physics Office, the Auxiliary Building and the Survey Center, including individual survey equipment boxes for each survey team. A summary of this equipment is given in Appendix D. Additional sampling and monitoring equipment is also available in the TSC and the EOF.

Process and Containment Monitors:

Numerous process variables are indicated and recorded in the Control Room to ensure safe and orderly operation of all systems and processes over the full operating range of the plant, as well as for detection of off-normal or emergency conditions. Of these monitors, particular importance is placed upon those which provide for detection of a loss of coolant accident and the immediate automatic actuation of equipment to mitigate its con-sequences. These include 4 channels 'for Pressurizer pressure, 3 channels for Pressurizer level, 4 channels for Steam Generator level, 4 channels for Reactor Coolant average temperature, 2 channels for steam flow and feed-water flow for each Steam Generator. Along with these are indications of Containment conditions which include 6 channels for Containment pressure, sump level and pump actuation, safety in)ection recirculation sump level indicator, 4 channels for fan cooler condensate level, and 6 channels for dew point temperature. Greater detail for. the process and containment monitors is given in the UFSAR, Chapter 7 and in our letter dated January 31, 1984 from John E. Maier, RG&E to Dennis Crutchfield, NRC.

Seismic and hydrologic emergencies are treated by procedure SC-5 and SC-4 respectively. A seismic monitor (Accelograph) is located in the intermediate building sub-basement and a lake level indication is available from the plant computers.

Information concerning seismic or hydrologic events can be obtained from offsite agencigs such as the NYS geologist at the State Education Dept.'or at Cornell University Geology Dept.

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76 t Labo ato e The laboratory area of the plant is maintained for the purpose of monitoring the condition of a variety of fluid streams and stored fluids, including the activity and isotopic content; for assessing the degree of conta-mination of plant areas, movable items and personnel; and for storing, calibrating and maintaining portable and laboratory radiation measuring instruments. Separate laboratory facilities are provided for assessing the effect of the plant operation on the environs.

By the use of a Post Accident Sampling System located in the controlled area of the Intermediate Building, samples can be drawn from reactor coolant, containment atmosphere, and containment sump. These samples are processed from a remote control board to open valves collect the sample and read out results of analysis.

The sample can be remotely analyzed for dissolved hydrogen, dissolved oxygen, boron and pH. Analysis for chlorides and radioactive isotopes can be completed on diluted, shielded grab samples in a laboratory facility within the times required by NRC NUREG-0737. Samples can be taken and analyzed without exceeding personnel doses of 5 Rem. This system will also be used for normal operational samples.

In addition to laboratory facilities within the plant, some laboratory capability is provided at the Survey Center for use in assessing the offsite effects of an incident. An Environmental Laboratory, located on the site property, but outside the main plant building/

contains all the equipment necessary for isotopic analy-sis. The resources of the Environmental Laboratory operated by the New York Power Authority at Fulton, New York are also available as noted in a letter of agreement.

Meteo olo ica o tor n Data on meteorological conditions are available to the Control Room for use in assessing the consequences of an airborne release of radioactive matter. All meteorolog-ical measuring devices, with the exception of the precipitation measuring system, are mounted on a 250 foot weather tower located at the Ginna Plant site.

Windspeed, wind direction and temperature are measured at the 33, 150, and 250 foot levels. The 33 ft. wind, speed and direction sensor readings are recorded on the Radiation Monitoring System Panel in the Ginna Control Room. Temperatures at three tower levels are also indicated in the Control Room by digital display. This information will be relayed tc the NRC Operations Center, the New York State and County EOCa. Meteoro-logical data is available continuously and is also programmed for print out at 15 minute averages, accessible from the TSC and EOF.

Revision 9 November 1990

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77 Rainfall is measured by a tipping bucket rain gauge located at the base of the Ginna weather tower. Wind direction, windspeed, and temperature indications from the three tower elevations are also registered on the Ginna Plant Process. Computer System. Instrumentation and calibration procedures associated with the Ginna meteor-ological program are in conformance with Regulatory Guide 1.23.

The weather tower is equipped with redundant sensing devices for use as backup indicators of windspeed, direction, temperature and temperature difference. All meteorological data will be collected and computer-processed to provide estimates of radioactive materials transport and diffusion under routine and accidental conditions. Power for the meteorological measurements system and associated equipment is supplied by an electrical feed separate from the plant. Means for remote interrogation of the meteorological system by telephone link, is available to the Technical Support Center and EOF via computer terminals at each location.

Rochester Monroe County Airport (US Weather Service) .has meteorological instrumentation readings which can be accessed by private phone number on a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> basis. A backup weather tower is located on Rt. 104, approximately 3.5 miles south of the plant and has wind and temperature recorders. Means for remote interrogation of the back-up meteorological system is available at the TSC and EOF via computer terminal.

An implementing procedure describes the method by which onsite meteorological information is used for the estimation of offsite radiation doses. Based upon wind conditions and determined atmospheric stability, estimates of downwind radioactivity concentrations and doses can be made by the Health Physicist in the Dose Assessment Areas using pre-printed overlays placed on a regional map.

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78 Environs Radiolo ical Monitorin Sampling systems are established for normal environmental sampling in the immediate area surrounding the plant and also in locations whose distance from the plant roughly corresponds to 1/100th of the onsite radioactivity concentrations estimated from annual average atmospheric dispersion. These stations contain provisions for air sampling and for radiation dose measurement. Certain stations include precipitation collectors. They provide information about the extent of a general emergency and its effect on the environment, in accordance with appropriate implementing procedure.

In addition, an array of thermoluminescent dosimeters (TLD's) is in place at the site boundary, at approximately 5 miles from the site, at the offsite sampling stations (approximately 10 miles) and at the onsite sampling stations. The survey teams will place up to 25 additional TLD's at specified locations during their tours after an incident, which will add to the evaluation of doses throughout the emergency planning zone. The placement of these TLD's around Ginna Station for routine or post accident radiation assessment is given in an imple-menting procedure. Maps are included in that procedure so as to locate the TLD's for best coverage (Figure 6.3). The radiological program provided meets the minimum requirements of the NRC Radiological Assessment Branch Technical Position for Environmental Radiological Monitoring.

Monitoring teams are quickly dispatched to follow designated routes for the field monitoring within the plume exposure zone. A Ginna Station procedure details the method used for the rapid field determination of airborne particulate and radioiodine concentrations following an accident in addition to radiation levels.

The procedure consists of operating a portable air sampler which contains a silver zeolite cartridge and particulate filter, followed by direct filter measurement with a count rate meter probe. The minimum sensitivity for iodine by this method, based upon a 6 minute sampling time is approximately 2.3 E-8 uCi/cc.

It is recognized that under certain post-accident condi-tions, some unavoidable interference from noble gas or high background levels may affect the initial filter readings being taken in the field. The absorption of noble gases in the charcoal cartridge would lead to an over estimate of airborne radioiodine concentrations.

Therefore, silver zeolite is used. If background levels are too high to determine a proper filter reading, an alternate location out of the radiation plume will be used to obtain filter measurements.

Revision. 9 November 1990

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80 Air samples collected by survey teams from portable sampling devices and from fixed air monitoring systems may be evaluated using higher sensitivity methods with onsite or near-site analytical equipment (e.g., environ-mental laboratory trailer).

Emer enc Instruments and E i ment:

Emergency equipment for the various centers is described in Appendix D. This equipment is checked monthly to be certain that it is available, in place and operable.

Any instrument or equipment found to be in need of repair or calibration is immediately replaced from the Health Physics reserve supplies. Instruments are calibrated along with plant instruments by the Health Physics Section according to HP Procedures which meet the manufacturers recommendations. Sufficient reserves of instruments and equipment to replace those that are removed from service for maintenance and/or calibration are available.

Pub ic Alertin S ste An alerting system to make the public aware of an incident at Ginna Station which may require protective action on their part has been developed and installed. The Ginna prompt public notification system consists of 96 sirens supplemented by more than 40 tone alert radios at schools, nursing homes and industrial establishments.

The special needs of transient populations at locations, such as motels, parks and work camps will be addressed by utilizing mobile loud speakers and direct facility notification. Instructions for transient populations have been distributed to such locations.

The design obgective for this system is to complete the initia'1 alerting of the affected population within the Plume Exposure Pathway within 15 minutes after the notification of local and state government by the Nuclear Facility Operator. The system was designed to assure coverage of essentially. 1004 of the population within the 10 mile Emergency Planning Zone.

Revision 9 Noveaber 1990

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81 The control of the system rests with the County officials within their respective borders. Zn Monroe County the County Executive has this authority and in Nayne County, it is the Chairman of the Board of Supervisors. RG&E and the NYS Health Department will make recommendations to activate the system if necessary.

Sirens and tone alerts are activated by a radio signal and a digital encoding system is employed to insure a secure, reliable control.

A backup transmitter is available in each county for activating the alert system should the primary transmitter fail. The siren portion of the alert system is designed to produce a minimum 10dB(c) above ambient sound levels in all portions of the Emergency Planning Zone or a minimum of 70dB at. 100 ft. from the siren base.

The ob)ectives of the Ginna prompt public notification system are two fold: to notify the general public both indoors and out of the existence 'of an emergency situat>>

ion, and to provide for the communication of preliminary emergency information.

Zn conjunction with the alert system, the public will be if kept informed of the procedures they should follow the system is activated, .through activation of the Emergency Broadcast System.

Sample message to. be given over the EBS radio are part of the county procedures. A brochure to be distributed annually provides information regarding the system and appropriate actions to be taken.

Siren reliability will be tested .periodically at 3 levels of operation.

1. Bi-weekly silent tests to verify system electronic components are functioning.

2. Quarterly manually activated growl testa.

3. Annual full duration audible tests of the entire system.

Periodic surveys will be taken by the Federal Emergency Management Agency to determine any difficulties which may recpxire corrective measures.

Revision 9 Noveaber 1990

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82 Alert system operational reliability is expected to be greater than 954. Sirens are powered off the RG&E distribution system which has better than 99% avail-ability. It is fed from the New York State Power Pool grid, therefore, it is not dependent on the operation of Ginna. Rochester Gas and Electric Corporation has the responsibility for maintaining the alert system opera-tive. The location of sirens and tone alert radios is given in Appendix I.

6' '3 Fire Protection Facilities:

The fire protection facilities comprise a number of automatic and non-automatic protection systems as well as assessment and alerting equipment.

Fire protection facilities have been installed in accor-dance with the Ginna Station Technical Specifications and NRC Fire Protection Safety Evaluations. Detection is provided in all areas of the plant that contain vital equipment. The system initiates suppression systems and alarms in the Control Room.

6.4 Protective Facilities:

Aspects of the plant which are provided to serve a protective function to personnel onsite in the event of an emergency are described in this section. They include accident shielding, protective ventilation, emergency condition signaling equipment, reassembly locations, containment control provisions, and other protective equipment and supplies. First aid and medical facilities are treated separately in Section 6.5.

6~4~1 Acie S e The containment vessel consists of the 3 ft. - 6 in. thick reinforced concrete cylinder capped by a hemispherical reinforced concrete dome of' 2 ft. 6 in. thickness.

The shielding includes supplemental shields in front of the containment personnel hatch and 20 inch walls, east and south sides and the roof of the Control Rooa. The equipment access hatch is shielded by a 3-foot thick concrete shadow shield and a 1-foot concrete roof to reduce scattered dose levels. Concrete walls and ceiling of the Technical Support Center provide shielding.

Revision 9 Noveaber 1990

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83 tective Ventilat o During normal operation fresh makeup air is admitted to the Control Room ventilation system through an intake louvre located in the Turbine Building outside wall; the amount of makeup air varies between, 15 and 100 percent of the unit flow rate, depending on outside air tempera-ture. Pneumatically operated dampers can be positioned from the Control Room to isolate the fresh air intake and to place a separate charcoal filter unit in recircu-lation service.

The charcoal filter unit includes both high efficiency particulate air (HEPA) and charcoal filters for removing radioactive particulate and gaseous iodine from the Control Room atmosphere. Its capacity is approximately 25 percent of the system flow rate, and the unit is installed in a normally isolated bypass circuit. In the event of high radiation levels in the Control Room, the Control Room radiation monitor will automatically close the redundant dampers in the fresh air intake duct and the dampers in the return air duct to the Turbine Building, and will open the damper in the charcoal filter unit inlet duct. This signal will also start a separate fan to provide flow through the charcoal filter unit.

Until radioactivity in the Control Room atmosphere is reduced to a safe level, system flow will be in a closed cycle from the Control Room, with approximately 25 percent bypass flow through the charcoal filter unit, through the air conditioning unit and back to the Control Room.,

The dampers can also be positioned to permit fresh air makeup to the system through the charcoal Since all Control Room penetrations including filter doors unit.

are designed to high standards of leak tightness and the Control Room is .maintained at essentially atmospheric pressure, the'nfiltration of contaminated air into the Control Room is limited to a very low rate. Nith the charcoal filter unit, in service, airborne particulate activity can be cleaned up at an effective rate of approximately 5 air changes per hour. In addition, Control Room personnel have access to portable respiratory equipment.

The Control Room contains sufficient air to permit safe occupancy by the operating staff for as long as necessary before outside air makeup is required for breathing.

Bottled air is available.

The Technical Support Center has filtered fresh air makeup, with charcoal filtration, to meet habitability requirements for unlimited occupancy.

Revision 9 November 1990

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84 e in E me t:

Plant personnel are signaled to evacuate at once by a special tone, activated manually in the Control Room.

In areas where audible signals may not be heard special flashing lights have been installed. For fire and Medical emergencies, an explicit announcement is made over the PA system.

eassembl Locat o s:

Several reassembly locations have been established, the selection of which will depend on the conditions of the emergency. Non-operating personnel affected by a local radiation emergency are to report to the Decontamination Area or the Service Building Lunch Room, depending on the presence of personal contamination.

In the event of a site evacuation, all Control Room operators are to report to the Control Room, the protec-tive features of which are described above. Non-operating personnel are to reassemble at the Ginna Training Center, except for those having a role in the Technical Support Center, Operational Support Center or the Survey Center described in Section 6.1. The Training Center Audit-orium, roughly 600 feet from the Reactor, seats 150 people; there is additional room in the classrooms and offices. A local radiation monitor is installed on the Training Center which houses the Survey Center to aid in the evaluation of the necessity for emergency organization personnel to relocate.

Contamination Contro Provisio s:

The plant site is divided into two categories, the Clean Area and the Radiation Control Area. Entry to and exit from the Radiation Control Area is normally through the designated Access Control Point. Any area in which radioactive materials and radiation are present shall be surveyed, classified, roped and conspicuously posted with the appropriate radiation caution sign. These then become Radiation Control Areas and proper access is provided and controlled. Plant procedures provide the radiation or contamination levels at which an area is declared, a Radiation Control Area or reaaved from radiation control status.

Revision 9 November 1990

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85 The general arrangement of the service facilities is designed to provide adequate personnel decontamination and change areas. The clean locker room is used to store items of personal clothing not required or allowed in the Radiation Control Area.

The Access Control Point is employed as a protective clothing change area. A supply of clean protective clothing for personnel is maintained in this area, and there is provision for collection of used protective clothing.

All personnel will survey themselves on leaving the Radiation Control Area using equipment provided at the Access Control Point. A decontamination shower and washroom are located adjacent to the Access Control Point.

Personnel decontamination kits with instructions posted for their use are available in the dispensary described in Section 6.5, First Aid and Medical Facilities. The dispensary also contains an emergency treatment and decontamination table for handling contaminated personnel who are seriously injured.

In the event of a site evacuation, provisions for decon-tamination are available at the Survey Center.

A 1000-gallon holding tank is available to contain decontamination water from a sink and shower located in the Survey Center. Decontamination water will be sampled prior to transfer, treatment or disposal.

Protective E me t and Su 1 s:

All personnel entering the Radiation Control Area are required to wear protective clothing. The nature of the work to be done governs the selection of protective clothing to be worn by individuals. The protective apparel available are shoe covers, head covers, gloves and coveralls. Additional items of specialized apparel such as plastic suits, face shields, and respirators are available for operations involving high level cont-amination. In all cases, Health Physics personnel shall evaluate the radiological conditions and specify the required items of protective clothing to be worn.

Respiratory protective devices are required wherever an airborne radiation area exists or is expected. In such cases, health physics personnel monitor the airborne concentrations and specify the necessary protective devices according to concentration and type of airborne contaminants present.

Revision 9 Noveaber 1990

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86 Available respiratory devices include full or half face air purifying respirators (filter type both negative and pressured powered air purifying units). Air line supplied respirators of pressure demand type are used as well as constant flow hoods. Self-Contained Breathing Apparatus using full face masks and pressure demand regulators are also available.

For use in an emergency, equipment and supplies are located in the Control Room, Technical Support Center, Respiratory Protection Facility and the Survey Center.

Equipment categories are given in Appendix D.

6' ' er enc Vehicles:

In the event it becomes necessary to make use of automo-tive equipment, a number of vehicles will be available.

These include company-owned vehicles and personal vehicles. A small delivery truck and a small work truck are assigned to the Station. The ground maintenance garage, nearby, is assigned a 4-wheel drive truck. Use oi personal vehicles is allowed by the Company policy regarding paid mileage for company use. Lastly, a large and diverse fleet of vehicles is available from the Rochester Gas and Electric Transportation Department.

6' st A d and ed c ac es:

First Aid and medical provisions include both onsite and offsite facilities. The latter are described in Section 4.3, Augmentation of the Emergency Organization. A dispensary on site contains sinks, a toilet, an emergency treatment and decontamination table, personnel decontami-nation and bioassay collection kits,. a bed, a stretcher and miscellaneous first aid equipment and supplies.

Additional decontamination kits can be obtained from the main H.P. Frisking Station area.

Operations personnel, shop foremen, Health Physics Technicians and Plant Staff are trained in first aid procedures using Red Cross Multi-Media or an equivalent program. An administrative procedure establishes a First Aid Team and the actions to be followed in the event of illness or in)ury at Ginna Station Revision 9 Noveaber 1990

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87 7 ' NTAINING NUCLE EMEROENC REPARED 8 Formalized training program(s) have been established to ensure that all personnel who actively participate in the Nuclear Emergency Response Plan (NERP) maintain their familiarity with the plan and their recpxired response.

A radiation emergency exercise shall be conducted at least annually, with emphasis placed upon orderly imple-mentation of the emergency plan.

Personnel trained for onsite response to a radiation emergency are part of the regular plant staff and are trained to specific responsibilities within the Emergency Organization. Training is documented by the Department Manager, Production Division Training and Corporate Nuclear Emergency Planner. Any Emergency Plan work by consultants will be under the control of, and reviewed by, the Corporate Nuclear Emergency Planner.

Drills shall be evaluated by the Corporate Nuclear Emergency Planner and reviewed by the Plant Operations Review Committee, thus assuring the effectiveness of the plan throughout the lifetime oi the R.E. Ginna facility.

7' aini nd Training classes on the emergency plan shall be conducted annually for all RG&E personnel who may actively partici-pate in the radiation emergency plan. Details of the training programs are established in EPZP 5-4. Training will include a demonstration of their ability to perform the functions to which they may be assigned. During drills on the spot corrections'f erroneous performance will be made, followed by a demonstration of proper performance.

Specialized Training will be provided for:

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Technical Support Center assignees Operatio'n Support Center assignees 3 ~ First Aid Teams 4 ~ Survey Teams 5 ~ Emergency Operations Facility personnel 6 ~ Security personnel 7 ~ Local Emergency Support Services personnel 8~ Fire Brigade personnel Revision 9 Noveaber 1990

I 88 7.1.2 c Coor a o Training of Emergency Coordinators will be given annually to the Plant Manager, plant superintendents, shift supervisors, and engineering staff who may be assisting the Emergency Coordinator during a Site Radiation Emergency. This training will cover responsibilities, communications, Emergency Action Levels, protective Action Recommendations, and review of all procedures pertinent to the Nuclear Emergency Response Plan. The Training Manager shall prepare necessary lesson plans and document this training. The individuals to be trained and material to be covered are delineated in EPXP 5-4.

F 1 3 Su e earns Survey Team training will be given to selected personnel.

Training material will cover health physics practices and techniques utilized during radiation monitoring, Survey Center equipment and its use, radio communications techniques, monitoring and sampling procedures, survey routes and sample points, contamination and decontamin-ation considerations, and review of implementing proce-dures used by survey teams. Field training will be given as needed.

7 ' ~ 4 eci rai in or artici atin A e c es:

Training shall be provided for the following groups:

a) Ontario Volunteer Fire Company b) Ontario Volunteer Emergency Squad c) Rochester General Hospital d) Newark-Wayne Community Hospital, Inc.

Training for these groups consist of lectures concerning their required involvement during radiation emergencies, procedures for notification and basic radiation protec-tion.

Revision 9 Noveaber 1990

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89 D 1 s and Exe cise An administrative procedure establishes the training program which develops and maintains the proficiency of emergency response personnel. This program meets the requirements of 10CFR50 Appendix E Section IV F regarding coping with emergencies. Through the training program personnel will be familiarized with the intent of the plan and the content of implementing procedures. Key personnel will be trained in the specific duties to which they may be assigned. Lectures and field training will be used, as appropriate, to familiarize personnel in their duties.

Communications equipment and processes are checked periodically as established by an implementing 'procedure.

The New York State-County Hot Line and the NRC Hotline are tested monthly. Fire drills are conducted in accordance with plant Technical Specifications and implementing procedures. A medical emergency drill which involves a simulated contaminated/in)ured individual and partici-pation by the local support services will be conducted annually. A plant environs radiological monitoring drill (onsite and ofisite) will be conducted annually in con)unction with training for and during the annual exer-cise. This shall include collection and review oi analysis procedures for environmental samples. Health Physics drills, which include sampling and analysis of simulated high activity post accident samples using the post accident sampling system, will be conducted semi-annually.

Preparation of the scenarios for use in exercises and drills will be coordinated by the Corporate Nuclear Emergency Planner (CNEP). The scenario package shall include the scope, goals and objectives oi the exercise, a time-line of real and simulated events, a narrative summary, participating organizations, appropriate Rsssages and data sheets, evaluation criteria, and information for official observers. The CNEP with the assistance of the Department Manager, Production Division Training, will arrange for qualified observers/controllers and coordinate activities of participating organizations. The scenario should be varied from year to year to teat all ma)or elements of the plan within a 5 year period. The exercise shall simulate an emergency that results in offsite radiological releases which require response by offsite authorities.

Revision 9 Neveaber 1990

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90 Annually, a radiation emergency exercise will be held.

This exercise will be coordinated with participating offsite agencies, testing at a minimum the communications links and one other element. Drills will be started at various times of the day and under various weather conditions. Some exercises will be unannounced.

Scenarios will be developed which allow for free play in decision making by those individuals in responsible positions. Structured responses will be used only to the extent necessary to keep the exercise moving so as to meet the ob)ectives of the exercise.

Written evaluation of the Radiation Emergency Exercise shall be submitted by the CNEP to the Plant Operations Review Committee emphasizing areas of strength and weakness and outlining plans for remedial action, as necessary.

A critique at which controllers, observers or partici-pants may make comments will be held as soon as practical after the exercise to evaluate the actions and inter-actions of response organizations. Training Evaluation Action Reports (TEARS) may develop from the critique comments. TEARS are reviewed by the Plant Operations Review Committee, Plant Manager and the CNEP to assure that necessary corrections to the Plan are implemented.

Co orate Nuclea Emer enc Pla ner P a Onsite Emer enc Planner 0 P :

The Corporate Nuclear Emergency Planner (CNEP) is responsible ior coordinating the NERP with other response organizations. He will review the Plan and agreements to certify that they are current. The update will take into account changes identified by drills and exercises.

The CNEP reports to the Director, Corporate Radiation Protection within the Electric Production Department.

An Onsite Emergency Planner (OEP) provides assistapce on Emergency Planning issues in the plant and will be designated duties and responsibilities similar to those of the CNEP. See Figure 7.1.

The CNEP/OEP will maintain his awareness of emergency response activities, facilities and procedures by participating in related committees and reviewing completed documentation. The CNEP is a member of the Emergency Plan Implementing Procedures Committee (EPIPC) which reviews all changes to EPIP's and eaergency facilities.

The CNEP/OEP conduct surveillance of the Emergency Response Facilities through scheduled inspections and tests to ensure their readiness.

Revision 9 Noveaber 1990

ff'g 91 The CNEP/OEP meet routinely with Ginna Management and supervisors to discuss emergency concerns, training and changes relative to emergency planning. These meetings include: Milestone Committee, PORC, EPIPC, MOPAR, and Special Task Forces.

The CNEP/OEP will attend appropriate training, seminars, workshops, and conferences sponsored by RG&E, the Nuclear Industry, Federal, State and Local Governments to keep current on Emergency Planning techniques and concepts.

Revision 9 November 1990

NUCLEAR EMERGENCY PLANNING ORGANIZATION

'ICE PRESIDENT GINNA NUCLEAR PRODUCTION DIRECTOR CORPORATE RADIATION PROTECTION CORPORATE CORPORATE NUCLEAR ON SITE HEALTH EMERGENCEY PHYSICIST EMERGENCY PLANNER PLANNER Figure 7.1

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93 7 ' v e an Revision o t e a n P o edures:

Review and revision of the Nuclear Emergency Response Plan and the Emergency Plan Implementing Procedures (EPIP) may be the result of drills, exercises or routine surveillances. Revisions to the plan are subject to approval by PORC and the Nuclear Safety and Audit Review Board (NSARB).

Plant and corporate implementing procedures are reviewed by EPIPC and approved by PORC.

An Administrative procedure provides for the distribution of revised procedures and a PORC review of each 1/2 years.

procedure'very 2

Emergency procedure changes are controlled so that only current copies are available for use. Revised procedures are distributed to a list of controlled copy holders with receipt verification. Shift Operators and Licensed Staff are made aware of revisions by initialing an Operator Acknowledge Sheet for relevant procedure changes. Emergency telephone numbers are kept up to date through quarterly review and distribution of revisions.

7 ' e e c E i me t a d S es:

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The operational readiness of all items of emergency equipment and supplies will be assured through monthly

. inspections of emergency equipment. The implementing procedure includes inspecting and testing of equipment stored in the Control Room, Survey Center, Technical Support Center, Health Physics office and EOF/Recovery Center. Also included is the procedure for testing the operability of the equipment.

Necessary transportation for offsite surveys will be a personal car supplied by one member of the team.

Company policy provides for mileage reimbursement; therefore, no lack of vehicles is anticipated, due to the remoteness of the facility, employees commute by private car.

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The Nuclear Emergency Response "Plan, its implementing,.

procedures, equipment, training and interface with state and county authorities is audited at the frequency required by Ginna Technical Specifications and is reviewed by the NSARB. Any audit findings are documented and reviewed with the Vice President, Ginna Nuclear Production. An Audit Finding Corrective Action Report (AFCAR) is used to document the corrective action. The audit results are also reviewed by NSARB. Audit documents are retained for S years.

Revision 9 November l990

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94 8.0 HE UARTERS OFFSITE RESPONSE PLAN:

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This Section provides guidance for the RG&E Headquarters response to, and recovery from, an emergency condition at the Ginna Nuclear Power Plant. In the event of an emergency condition at Ginna, the normal company headquarters and the plant organizational structures will be transformed into an Emergency Response Organi-zation or Emergency Support Organization.

The Company's Emergency Support Organization is charged with the responsibility of bringing together a cohesive Company management and technical team. This organization will be calling upon the maximum resources available within the Company and the entire nuclear industry for the goals of (1) assuring the safe shutdown and recovery of Ginna Station following an accident condition and, (2) minimizing the impact of the situation on the health and safety of the public.

The Company's Emergency Support Organization is establish-ed 'under the leadership of a single individual called the EOF/Recovery Manager. The EOF/Recovery Manager is supported by various technical and advisory disciplines including Engineering, Facilities and Personnel, Nuclear Operations, Public Affairs and System Operations.

This Emergency Support Organization will be available to the Ginna Station Plant Manager for implementation of long-term recovery operations. The Ginna Station short-term responding organization is made-up of site personnel, those on-shift and those immediately available from the plant staff complement.

The Nuclear Emergency Response Plan is compatible with the New York .State and local (Wayne and Monroe Counties) emergency plans. Total emergency response, ia therefore, a combined and coordinated effort involving plant, company, private, local, and State resources.

This portion of the plan provides a mechaniaa by which the functions of the station and corporate staffs are immediately directed to accident termination or mitiga-tion, the determination of offsite"conditions and station recovery operations. The plan also provides for obtaining additional support if the emergency is of such a magnitude that Company resources are overextended. Such support may be additiona'1 manpower'o augment the station's operating staff, manpower in specialized disciplines, or specialized emergency response equipment and services.

Revision 9 Noveaber 1990

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95 Ginna Station procedures provide that the Senior Vice President, Production and Engineering is notified and provided with details concerning the emergency, the emergency classification, station status, and immediate Corporate assistance, if any, which may be required.

The EOF/Recovery Manager has the authority to activate the Emergency Support Organization. The Emergency Support Organization Figure 8.1 will be activated under the Site Area and General Emer encies although it may be either partially or fully activated under other categories.

The EOF/Recovery Manager will be responsible for the offsite radiological consequence assessment and intera-ction with the remainder of emergency and recovery plan arrangements. Emergency Support Organization participants under the EOF/Recovery Manager possess the necessary experience and expertise in radiological assessment to effectively evaluate possible accident consequences.

The EOF/Recovery Manager will be responsible for communi-cations with offsite authority designated in the Emergency Plan and for providing the accident diagnosis and prognosis information for the offsite authorities to assist in their emergency response. He will arrange through the other Emergency Support Organization members for the dispatch of any special assistance or service requested by the station and serve as the primary coordinator between the station and Emergency Support Organization.

Reporting to the EOF/Recovery Manager will be the Emergency Support Organization. Members of the Emergency Support Organization are company officials experienced in their area of responsibility. Each official will manage an adequately staffed group in the following areas:

Technical support with the nuclear experience and technical expertise in support of station operations and recovery.

2 ~ Offsite Dose Assessment, radiological control and waste management with the nuclear experience and technical expertise to manage the Offsite Dose Assessment, radioactive waste and radiological control aspects of the response and recovery opera-tions.

3 ~ Design and construction support with the responsi-bility of coordinating the activities of the Company, A/E, NSSS supplier and construction forces on proposed station- modifications or other design and construction support required for response and recovery.

Revision 9 November 1990

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96 4 ~ Advisory support function with advisory support consisting of senior representatives of the NSSS supplier and special consultants as necessary.

5. Public affairs staff with the responsi.bility of providing administration, logistics, communications, and personnel support for response and recovery operations.

6. Administration and logistics with the responsibility of providing administration. logistics, communica-tions, and personnel support for response and recovery operations.

An. organization chart for the Emergency Support Organiza-tion is provi.ded in Secti.on 8.2.

The EOF/Recovery Manager may call on other people within the company to support the emergency response effort and may request assistance from other utilities, ZNPO, consultants, vendors or any other sources capable of providing support.

Upon activation of the Emergency Support Organization, the EOF/Recovery Center is established in the leased office building basement, ad)acent to corporate head-quarters.

A Joint Emergency News Center will also be activated upon activation of the Emergency Support Organization or in other situations as may be required. The Center will be used to coordinate all news releases and press con-ferences with the appropriate Federal, State, and local authorities.

Personnel who have responsibilities in the EOF/Recovery<

Center will be notified of an inci.dent and the need for them to report to the EOF/Recovery Center according to an approved procedure. Each individual assigned to the Center will have a designated alternate who will be.

notified as necessary. The EOF/Recovery Center will ha activated and manned by RG&E personnel within about one hour of declaration of a Site Area Emergency and above.

Other personnel from RG&E, consultants, and contract personnel will be called to the EOF/Recovery Center to assist as needed.

8 ' Or ani atio The EOF/Recovery Center will be organized as shown on the attached Emergency Support Organization Chart figure 8.1. The positions will filled be by trained individuals as listed in Section 8.3.

Revision 9 November 1990

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PRESIDENT AND CHIEF OPERATING OFFICER EOF I RECOVERY MANAGER OFFSITE ADVISORY NUCLEAR ENGINEERING FACIUTIES AND OFFSITE CORPORATE DOSE SUPPORT OPERATIONS SUPPORT PERSONNEL AGENCY SPOKESPERSON ASSESSMENT MANAGER MANAGER MANAGER MANAGER LIAISON RESPONSE CONSTRUCTION UCENSING 5 NEWS CENTER ENGINEERING MANAGER ASSESSMENT MANAGER MANAGER MANAGER CORPORATE NUCLEAR EMERGENCY PLANNER MEDIA COORDINATION EMERGENCY PROCUREMENT FACIUTIES PERSONNEL SECURITY COORDINATOR DOSE. SECURITY ASSESSMENT PLANT ADMINISTRATION RG8cE NUCLEAR EIVIERGENCY SUPPORT ORGANIZATION ASSESSMENT COMMUNICATIONS

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1 97 8 ' es o s bilit es The following positions are the principal managers and coordinators which make up the team in the EOF/Recovery Center and Joint Emergency News Center in response to a nuclear emergency at Ginna Station. The responsibilities for each position are given in EPZP 5-7.

8~3~1 EOF/Recovery Manager 8.3.2 Advisory Support Manager 8 ' ' Nuclear Operations Manager 8.3.4 Engineering Support Manager 8.3.5 Facilities and Personnel Manager 8 ' ' News Center Manager (at EJNC via Corporate Spokesperson) 8.F 7 Corporate Spokesperson

~ 3 ~ 8 Offsite Agency Liaison 8 ' ' EOF Dose Assessment Manager 8.3.10 Corporate Nuclear Emergency Planner Revision 9 November 1990

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98 8 ' Facilities 8 '.1 A. Joint Eme e c News Cente JENC The Joint Emergency News Center for the Ginna Nuclear Power Plant is located in the Rochester Gas and Electric Corporation office building. The building is a twelve story structural steel, reinforced concrete floor, structural tile wall structure with brick facing. The structure was built in accordance with the City of Rochester building code.

B. En ineerin Su ort Center ESC The engineering organization works out of their nor-mal office area and is managed from the Engineering Support Center where the engineering support managers can coordinate their activities. This is located on the fourth floor of the leased office building at 49 East Avenue. As structural records are incomplete, it is assumed to be a structural steel reinforced concrete floor structure, built in accordance with the City of Rochester building codes.

C. Emer enc 0 erations Facilit EOF The Emergency Operations Facility (EOF) for the Ginna Nuclear Power Plant is located in the basement of the Rochester Gas and Electric Corporation leased office building at 49 East Avenue, next to the main corporate office building. An area of the basement is designated and kept, in readiness to operate as an EOF. The building is assumed to be a structural steel reinforced concrete floor structure, built in accordance with the City of Rochester building codes.

The leased office building and the corporate office building are located approximately 18 miles WSW of the Ginna plant in the center of the City of Roches-ter.

Revision 9 Noveaber 1990

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99 During emergency operation, the basement and the Fourth Floor of the leased office building and the basement of the corporate office building will be secured from the remainder of the buildings for exclusive use by emergency personnel. The basement level of the corporate office building will be utili-zed by Rochester Gas and Electric Public Affairs personnel and the news media. A portion of the Fourth Floor of the leased office building will'be occupied by engineering support personnel and a portion of the basement floor by Rochester Gas and Electric Management personnel assigned to direct overall Company operation during a Ginna plant acci-dent. Also, responsible emergency personnel from Local, State and Federal agencies will be located in the basements and furnished with the appropriate accommodations.

Size and Staffing A. Jo nt Emer e c News Ce te During a Ginna plant emergency, ma)or corridors, the auditorium and other facilities in the basement of 89 East Avenue will be made exclusively available to Rochester Gas and Electric, Federal, State and Local agencies public .relations personnel. The major corridors (approximately 700 sq. ft.) will be used for phone communications by the news media.

Participating emergency agencies will occupy approximately 2500 sq. feet for private use and the remaining offices on the floor are for RG&E Public Relations personnel use. A media work area has been designated which will be. equipped with type-writers, tables, chairs and office supplies in support of the news media objective. The auditorium has a 250 seat capacity, with a 300 sq. ft. raised stage at the north end. The auditorium will be used for press conferences during the emergency, and when not used for press conferences, it will .be partitioned into a work area and conference room.

Figure 8-2 is a layout of the basement as it will be used for a Joint Emergency News Center.

B. En ineerin Su ort Center ESC The Fourth Floor at, 49 East, Avenue is normally occupied by the RG&E Engineering Department. All facilities required for the engineering functions that are necessary to support the Gipna plant, i.e.

reproduction, word processing, drafting, records, drawings, equipment manuals, plant. technical specifications, FSAR, Ginna procedures, computer terminals, data displays, communications, etc. are either located on this floor or in the building.

Revision 9 . November 1990

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100 During an emergency, engineering support personnel for the plant will locate here, since such personnel are in fact Engineering Department personnel. They will be supplemented by outside consultants and accommodations will be made available for these groups C. Emer enc 0 e ations Facil t EOF The basement of 49 East Avenue, a large area (approximately 3200 sq. ft.) set aside for the Emergency Operations Facility (EOF) and dedicated for use by emergency personnel. Federal, State and Local agencies involved and RGSE Management assigned to the Ginna plant emergency operations locate here. Figure 8.3 is a layout drawing of the EOF and adjacent floorspace for use by NRC.

During an emergency, the entire basement level will be secured for exclusive use by emergency personnel. Although the entire area may not be required to cope with the emergency, if unforeseen circumstances arise.

it is available Habitab it These facilities are located in the opposite direction of the prevailing winds, and is such distance from the Ginna plant, that radiation protection equipment is not a consideration. Building heat is supplied by the downtown Rochester District Heating Cooperative. Electric requirements are provided by the RG&E llKV underground downtown electric network systems two circuits to 89 East Avenue and one circuit to 49 East Avenue. Lavatory facilities are available on each floor and can accommodate the normal work force of the buildings and any additional emergency personnel anticipated. First Aid facilities are available on the first floor of 89 East Avenue and are manned during normal working hours. They can be available at anytime as determined by the Facilities and Personnel Manager.

Revision 9 November 1990

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102 8 ' cations 8.F 1 e ho e and Extensive phone communications capability exists at the RG&E Corporate main office and the 49 East Avenue building. There are presently 600 telephone lines from the Corporate main office to the Corporate telephone exchanges at Front and Andrews Streets (a mile distance).

Each one of these lines can have several handsets at different locations sharing a common circuit. The RG&E Corporate System is powered by two redundant AC power supplies which are backed up with a motor generator and battery uninterruptible power supply. The Corporate phone system can communicate with the Ginna plant system over 15 two-way tie lines 9 in the RG&E wholly owned 2 GHZ Microwave System 6 in New York Telephone and Rochester Telephone facilities. Additional circuits to the Ginna plant are provided by five outgoing, and five incoming lines provided by the New York Telephone System.

A 98 line Centrex System from RTC Central Office to the EOF and Joint News Center is totally separate from the RG&E corporate system.A direct line is connected between EOF dose assessment and TSC dose assessment. Also, a Ginna Station telephone system line has several drops in the EOF/Recovery Center.

A radio communications system provides the backup to the with Power Control by radio on a frequency of Hertz. Three other frequencies are available in the

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Ginna phone system. The Control Room has direct contact 53 K Control Room and Technical Support Center for the use of Fire Brigades, Radiation Survey Teams, and Plant Security. The use of these channels are explained in Section 6.2.3, Page 66.

The EOF/Recovery Center has access to all channels except security and provides monitoring of the Radiation Survey Teams during an incident.

Direct contact between the EOF and the TSC or Control Room is possible on the 153.53 K Hertz channel in case of phone failure.

The New York State Radiological Emergency Communications System (RECS) has drops at 14 locations across the state connecting Ginna Plant, TSC, EOF, 2 Counties and New York State Emergency Preparedness centers and State Police.

There is also a network of facsimile machines connecting key areas as well as telephone paging units for key staff position persons.

Revision S Nay 1987

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103 8 ' ' Safety Assessment System and Plant Process Computer System (SAS/PPCS)

The SAS/PPCS computer system at Ginna Station provides historical and real time plant information via displays and hard copy devices that are located in the Ginna Control Room, the Technical Support Center, the Emergency Operations Facility and the Engineering Support Center.

The SAS and PPCS are two independent computer systems.

SAS display information is accessed solely via push button requests. SAS provides the Safety Parameter Display System capability. SAS also provides CRT trends of critical plant parameters.

PPCS display and report information is accessed via an alpha-numeric keyboard that supports both menu driven functions and push button requests. PPCS provides the logging and archival capability.

Both computer systems are designed to assist control room operators and emergency response personnel in the decision making process during normal and abnormal plant conditions.

8 ' ' Records Management and Availability As previously described, all the required records and information necessary to support the recovery of the Ginna plant in an emergency is available and up-to-date at the EOF. Specifically, this information is located at 49 East Avenue in the Engineering Records Room and the Technical Information Center (Technical Library). On a daily basis several people maintain these two sources of information in a current status since these centers of information are primary sources of information to both the Engineering Department and the Ginna plant. During an emergency, the responsible managers of these informa-tional sources are assigned to the Technical Support staff to insure immediate availability of information.

8 ' and Procedure Ma tena ce Individuals responsible for various aspects of these plans and procedures will receive initial training and will be retrained annually through formal sessions and drills. The drills will check communication systems, response time, performance of participants, and interre-lations of. the various, emergency centers. Training

'rills may'e held prior to any exercises. Exercises will be held in conjunction with Ginna Station, New York State and local governments as required by regulations and Technical Specifications. ~

Revision 9 Noveaber 1990

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104 All aspects of an exercise will be monitored by trained observers and a report made to the Nuclear Safety Audit and Review Board. Any comments will be evaluated and actions taken if appropriate.

Managers of EOF functions will evaluate their procedures, notification lists, and equipment needs annually to ensure that they can meet their assigned functions.

Revision 9 November 1990

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105

~COVE RY After the initial emergency response actions are concluded (i.e., the plant is in cold shutdown and under control),

a decision to begin the recovery phase will be initiated.

A number of considerations will enter into this decision to begin the recovery phase and dismantle the Emergency Response Organization. The decision to enter the recovery phase will be made by the EOF/Recovery Manager in consultation with his Support Managers, NSARB and onsite personnel.

The decision to enter the recovery phase should be based upon a comprehensive review of station parameters and conditions. These should include, but are 'not limited to the following:

1. Station parameters of operation no long indicate a potential or actual emergency exists.

2. The reactor shutdown conditions are stable.

3. The reactor containment building integrity is sufficient to meet shutdown conditions.

4. The release of radioactivity from the station is controllable and no longer exceeds permissible levels, and no danger to the general public from the above source(s) is credible.

5. Plant radioactive waste systems and decontamination facilities are operable to the extent needed;

6. A reactor heat sink is available and operating.

7 ~ Power supplies and electrical equipment needed for the station to be capable of sustaining itself in a long-term shutdown condition are available.

8 ~ The operability and integrity of instrumentation, including radiation monitor equipment needed to maintain shutdown has been demonstrated.

9. Trained personnel and support services are available for station 'entry and cleanup, without workers receiving an excess of their permissible exposures.

Federal, State and Local authorities shall be advised of any decisions and resulting changes pertaining to the Emergency Response Organization 'status.

Revision 9 November 1990

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106 Recove Actions Re-entry of the plant, decontamination, repair, and return to operation will be controlled by a general implementing procedure which provides for development of a flexible plan of actions and specifies particular evaluation and planning activities. A recovery organiza-tion to provide long term augmentation of the emergency organization has been established. Figure 8.1 shows this organization by function of those involved. A procedure to alert these people and put the EOF/Recovery Center into operation is part of our implementing proce-dures.

RG&E personnel are assigned to the Recovery Organization to fill the following positions:

EOF/Recovery Manager Nuclear Operations Manager Engineering Support. Manager Advisory Support Manager Facilities and Personnel Manager News Center Manager EOF Dose Assessment Manager Offsite Agency Liaison Corporate Spokesperson Corporate Nuclear Emergency Planner Each of the aforementioned will have a designated alternate and a staff assigned to assist in the event of an accident. The EOF/Recovery Center will be activated and manned by RG&E personnel within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> after the decision to establish an off-site recovery organization has been made for Site and General Emergencies. This Organization would be available to assist the Plant and the Emergency Coordinator in the event of an extended emergency situation. The members of the Recovery Organ-ization will be given appropriate training annually.

In order for the recovery phase to commence, the condi-tions which caused the incident must no longer exist.

(See Section 3.0, Emergency Conditions). If the Emergency Coordinator, on evaluating survey data, finds no readings significantly above background, and on consultation with the Operating Shift Supervisor, determines that the emergen'cy is or was local, personnel. may return to the plant.

Revision 9 November 1990

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107 If off-site consequences that off-site support assistance of the occurrence were such was required, the RG&E Nuclear Safety Audit and Review Board and the Plant Operations Review Committee must agree that the site is safe and the plant can be returned to normal operation.

The EOF/Recovery Manager will notify all response organizations that recovery operations are underway.

In the recovery phase, all actions will be carefully planned by station supervisory personnel in conjunction with the Recovery Team, the Technical Support Center personnel and the Plant Operations Review Committee.

Planning for recovery will include evaluation'f survey data, review of exposures incurred, projection of manpower and equipment needs, and re-entry survey team activities.

Actions prescribed upon re-entry include a comprehensive survey of the plant to define radiological problem areas. Based on survey results, high radiation areas and areas of contamination will be isolated and posted, and, if possible, portable shielding will be used, as appropriate.

Upon evaluation of plant conditions, further activities for making necessary repairs, decontamination and resto<<

ration to normal operations will be outlined by the Plant Operations Review Committee in accordance with standard Health Physics practices. Personnel radiation exposure during the recovery stage of the incident shall be closely controlled and documented. Individual exposures shall be in accordance with 10CFR20 limits.

Corporate management and technical support personnel will augment the Plant Staff in long tera recovery operations.

a) The Employee Relations Department has investi-gated the availability and made preliminary plans for providing logistics support.

b) Technical Support will be provided by the Nuclear Engineering Services Department and consultants under the direction. of the Department Manager, Nuclear Engineering Services.

c) The Sr. Vice President, Production and Engineering, will provide management 'evel interface with government authorities. He will be assisted by the Governmental Affairs Group.

Revision 9 November 1990

108 d) Communicating with the President of the Un].ted States and the Governor of New York State, is the responsibility of RG&E senior management.

e) The Public Affairs Department, through a series of EPZPs, will coordinate general news releases with the government authorities.

Revision 9 November 1990

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