ML20067C254
| ML20067C254 | |
| Person / Time | |
|---|---|
| Site: | Zimmer |
| Issue date: | 08/31/1982 |
| From: | CINCINNATI GAS & ELECTRIC CO., COLUMBUS & SOUTHERN OHIO ELECTRIC CO., DAYTON POWER & LIGHT CO. |
| To: | |
| Shared Package | |
| ML20067C244 | List: |
| References | |
| NUDOCS 8212090034 | |
| Download: ML20067C254 (125) | |
Text
{{#Wiki_filter:.__ I I DESIGN SUBMITTAL g EMERGENCY RESPONSE FACILITIES WM. H. ZIMMER NUCLEAR POWER STATION - UNIT 1 AUGUST, 1982 - REVISION 1 I I I I T8
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I I I I THE CINCINNATI GAS & ELECTRIC CON 1PANY COLUN1 BUS AND SOUTHERN OHIO ELECTRIC CONiPANY THE DAYTON POWER AND LIGHT CON 1PANY 8212090034 G2120 PDR ADOCK 0500033'9 g ros
F I l TABLE OF CONTENTS SECTION PAGE I. INTRODUCTION . . . . . . . . . . . . . . . . . . . . 1 II. TECHNICAL SUPPORT CENTER ............. 2 A. Function .................. 2
- 8. Location and Size . . . . . . . . . . . . . . 2 C. Structure and Habitability ......... 3 D. Computer Center and Power Supply ...... 5 E. Communications ............... 7
' F. Technical Data and Data Systems . . . . . . . 10 l G. Staffing and Training . . . . . . . . . . . . 19 H. Records Availability and Management . . . . . 20 III. OPERATIONAL SUPPORT CENTERS . . . . . . . . . . . . 22 A. Operations OSC ............... 22 B. Rad / Chem OSC ................ 22 C. Maintenance OSC . . . . . . . . . . . . . . . 23 IV. EMERGENCY OPERATIONS FACILITIES . . . . . . . . . . 26 A. Functions . . . . . . . . . . . . . . . . . . 26 B. Location .................. 26 C. Structure and Habitability ......... 26 D. Size and Organization . . . . . . . . . . . . 27 E. Records Availability and Management . . . . . 28 F. Technical Data, Etc. ............ 29 G. Staffing and Training . . . . . . . . . . . . 30 H. Comu n ic t i on s . . . . . . . . . . . . . . . . 31 Appendix A. List of Power Center Computer Center & TSC Equipment Appendix B. Plant Sensor Data Displayed in CG&E Emergency l .
Response Facilities Appendix C. Emergency Resporse Organization Personnel Functions and Responsibilites Appendix D. Zimmer TSC Software User's Manual Appendix E. PSDADS Mimics, Tabular and Graphic Outputs Appendix F. SPDS Displays I.
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LIST OF FIGURES r
- 1. Wm. H. Zimmer Nuclear Power Station
- 2. Power Block Area
- 3. Service Building Addition
- 4. TSC Layout
- 5. Computer Center and TSC Power Supply
- 6. 6.9 kV Power Distribution System r 7. AC & DC Power Distribution System j, 8. Alert, Site Emergency and General Emergency Communication Network
, 9. TSC Communication Equipment Layout
- 10. PSDADS and LARDEV Block Diagram i 11. Secondary Hardwired SPDS
- 12. LARDEV System Configurtion
- 13. Locaiton of Onsite Emergency Response Center
- 14. Location of Emergency Operation Facility
- 15. CG&E Batavia E0F - Main Floor
- 16. Dose Assessmentand EOF Operation Area ,
- 17. Records Storage
- 18. CG&E Batavia Office - Proposed EOF t Layout - Basement 1,
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i LIST OF TABLES
- 1. Postaccident Integrated Doses for Various
-l Postaccident Paths
- 2. Station Evacuation Criterra
- 3. TSC Primary and Alternate Comunications
- 4. EOF Primary and Alternate Comunications
- 5. List of Comunications Facilities in the E0F I
, _ . . _ , - - . _ .,. , =.____ ,_- , . , - . - - _ _ . . .
I. INTRODUCTION This document was submitted on June 12, 1981 in response to NUREG-0737, Item III.A.1.2, Upgrade Emergency Support Facilities, transmitted by NRC Generic Letter 81-10 (February 18,1981) and revised in August 1982 to address NRC Staff comments. The facilities and systems described in this design submittal are being provided by The Cincinnati Gas & Electric Company to facilitate an improved j emergency response to an accident at the Wm. H. Zimmer Nuclear Power Station - 1 Unit 1. Included are descriptions of the Technical Support Center (TSC), The Operational Support Centers (OSC's), the Emergency Operations Facility (E0F) and the Safety Parameter Display System (SPDS). In Revision 0 of this document the SPDS was described in a separate section. To improve continuity within the report, the SPDS is now addressed in Section II, TSC Data Systems and Displays. l l 3 l l l l l l l c l Page 1
II. Technical Support Center A. Function The Technical Support Center (TSC) is a f acility external to the Main I Centrol Room from which station managment and technical support of operations personnel are provided during emergency situations. The activation of the TSC is accomplished within sixty minutes of the declaration of an Alert, Site Area or General Emergency. TSC functions are as f ollows:
- 1. provides plant management and technical support to plant operation personnel during emergency conditions;
- 2. succeeds the Main Control Room as the emergency response command a
post and ~ relieves control room of coninunications and other peri-pheral duties not directly related to reactor system manipulations;
- 3. controls dispatch and direction of radiation monitoring teams;and
< 4. performs the functions of the Emergency Operations Facility (E0F) until E0F is appropriately staffed and activated.
, B. Location and Size l The TSC is located on the ground floor of a three floor addition to li the ZPS-1 Service Building (Service Building Addition) at an elevation of l 520 feet (see Figures 1 and 2). This is above the 100 year flood plain. The TSC is accessible from the Cincinnati area by way of a high level road which will permit access to the plant during the 100 ; ear flood of record. The TSC has an area of 2324 square feet, for use by approximately twenty-five people and is within two minutes comfortable walking distance from the Main Control Room (elevation 546). Two (2) security check points are involved in the walk from Main Control Room to the TSC. Page 2
t l The route between the TSC and Main Control Room is exposed to air-scattered radiation from the containment. The maximum calculated exposure a person will receive while walking from the control room to the TSC during the design basis accident (DBA) is less than 5 rem, including all other exposures, during the course of the accident. Refer to the attached Table 1, Post-accident Integrated i Doses for Various Post-accident Paths. Area radiation monitors are installed along the access route between the Main Control Room and the TSC. Also provided with the TSC (in the protected area of the Service Building Addition) are an NRC Office (area of 535 square feet), Records Storage Room, and Shift Technical Adviser living facility, and equipment rooms for both HVAC, and for electrical and' communication equipment (see Figure 3). The TSC is located within the site security boundary. The TSC Layout for the Operations Area is shown in Figure 4. l1 C. Structure and Habitability The structure which houses the TSC uses design and loading applicable l to Class II (non-seismic) structures of the remainder of the plant. It is a well-engineered structure, designed to the uniform building code Zone 2 seismic requirements, and the 100 year wind load. The TSC has a steel frame, concrete floors, and reinforced concrete masonry walls.
- The TSC is designed to be habitable to the same degree as the Main Control Room during a design basis accident except that the equipment is 1
not Seismic Category I qualified or redundant and instrtsnented in the Main Control Room or automatically activated. An analysis was perfonned which utilized radiation doses resulting from the design basis accident at Zinrner, the design of the shield wall for the Technical Support Center (TSC) is based on this analysis. The shielding installed will insure that the whole body radiation doses in the TSC, resulting from this event, are less than 5 rem. The TSC venilation system is designed to limit the introduction of potential Page 3
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N^ i REACTOR BLDG. . l AUX. BLDO. 7 DIESEL GEN. CONTROL RM.# ELDG. i COMPUTER CENTER-r,__,) f I SERVICE BLDG l TURBINE RM. ADDITION f l.p5ERVICE RLDO. i I COND. 'l POWER CENTERp " l DEMIN. HEATER BAY 1 g l l RM. TECH. SUP. CENTER NEATING INSTRUMENT RM. RADWASTE BLR. BLOG. R M. Walking route from MCR to TSC. Figure 2 POWER BLOCK AREA WM. H. ZIMMER N. P. 5.
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r FORAGE Conn l RK NVAC EOUIP* TECHNICAL SUPPOtf CENTER HVAC EQUIP. SK ,,. (f.e 2nd. Ftt.) i Y Figure 3 Ground Floor Plan % Protected Area SERVICE BUILDING ADDITION WM. H. ZIMMER N. P. 5.
i J 15 El 17 16 18 PERSONNEL G H A 1-SITE RESPONSE MANAGER 2-OPERATIONS MANAGER 3-TSC MANAGER 4-RADIATION PIOTECTION MANAGER 5-MAINTENANCE /IEC COORDINATOR 6-COMMUNICATIONS COORDINATOR 7-DATA PROCESSING ENGINEER *
- 4 5 0-STAFF SUPPORT ENGINEER K 9-STAFF SUPPORT ENGINEER E 9 7 10-RADIO OPERATOR ,5 2 11-NRC HOTLINE PHONE TALKER 20 12-PHONE TALKER TO STATES $ l gg
& COUNTIES - OHIO 13-PHONE TALKER TO STATES p #
6 COUNTIES - KElfrUCKY 14-ADMIN. - CLERICAL REPRESENTATIVE l O 15-RAD-MET COMPUTER OPERATOR Q 16-RADIATION SURVEY COORDINATOR 17-RADIO-TELEPHONE OPERATOR 10-DOSE ASSESSMENT COORDINATOR g4 gg gg gg 10-COMMUNICATIONS GROUP PERSON (LOGGER) 20-NUCLEAR REGULATORY COMMISSION RESIDENT INSPECTOR g l g 10 21-RADIOIAGICAL STATUS LOGGER I l SUPPORT EQUIPMENT A-RADIATION PROTECTION LAYDOWN TABLE , B-BOOKCASES FOR TSC DOCUMElfr STORAGE C-MICROFILM & APERTURE CARD STORAGE D-MICROFIIJ4 READER / PRINTER E-TECH STAFF DRAWING STICK FILE F-CONTROLLED DRAWING STICK FILE G-TSC COMPUTER SYSTEM PLOTTER pgg4 H-TSC COMPUTER SYSTEM PRINTER ygp l g g g *j* ' I-RIMS TERMINAL & APERTURE CARD READER s ww be ww 5 J-RADIOLOGICAL STATUS BOARD AND MAPS K-NRC MAPS
*-HAS A PSDAD/SPDS TEIMINAL I
s TABLE 1 POSTACCIDENT INTEGRATED DOSES FOR VARIOUS POSTACCIDENT PATHS (In M1111ress) PATHWAY WALKING RUNNING 1 hour 1 day I week I hour 1 day I week TSC to CR 1.3 2.6 1.24 .65 1.3 .62 RWCR to CR 1.0 .83 .41 .50 .41 .20 labs to CR .04 <.01 7.0 .02 <.01 4.3 No cart - 6.8 . .19 63. 6.8 .18 31. SR to Labs W/ cart
- 6.8 .18 244. 6.8 .18 244.
No cart
- 6.9 .32 .04 6.9 .26 .024 SR to STB W/ cart
- 6.9 .43 7.4 6.9 .38 7.4 CR to DG rooms 16 10.5 4.6 8.0 5.3 2.3 CR to SG room (el 546 ft, AB) <.01 <.01 <.01 <.01 <.01 <.01 CR to EE room (el 521 ft, AB) .27 <.01 <.01 .46 <.01 <.01 CR to CC 1.6 4.0 1.7 .82 2.0 .86 CR to PSC 2.6 6.1 2.6 1.5 3.6 1.5 KEY CR - control room; TSC - technical support center; RWCR - radwaste control room; Labs - high level laboratory and counting room; SR - postaccident sampling room; DC - diesel generator; SC - switchgear; STB - saipping truck bay (Solid Radwaste Access Building); CC - computer center; PSC - power supply center; AB - Auxiliary Building; EE - electrical equipment.
NOTES: 1. Liquid and gaseous contained sources, airborne sources in the teactor building, filter sources, and pre-existing sources
. in the radwaste building are considered. Contributions from the plume effluent, whether inside or outside the building, are not included. It is assumed that the drywell purge filter has had to be used postaccident.
- 2. Walking speeds: 300 ft/ min horizontal; 50 ft/ min up stairs;
'I 90 ft/ min down stairs; 150 ft/ min with carts-horizontal. .! 3. Running Speeds: 600 ft/ min horizontal; 80 ft/ min up stairs; 120 ft/ min down stairs; 200 ft/ min with carts-horizontal.
- 4. Elevator: 3 see to open or close; 4 see to ge: on or off (w/ cart); 1 ft/sec ascension.
- 5. Doses from samples being transported are not included.
- Elevator used, i
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radioactive contaminants into the air supply by the use of high-efficiency particulate air (HEPA) and charcoal filters . The HVAC system is controlled manually to isolate intake. An Eberline SPING-3 Continuous Air Monitor (CAM), monitors noble gas, iodine and particulates in the TSC and interfaces with the plant Fixed Airborne Activity Monitoring System (FAAM). The microprocessor-based FAAM System has redundant remote alarm and readout terminals. One terminal is located in the Main Control Room and one in the Rad / Chem Operational Support Center (OSC). In addition, the SPING-3 has local readout and alarm capability. This airborne monitor is able to detect IE-7uci/cc I-131. It is AC-operated and is equipped with backup battery power. Radiation monitoring equipment is provided to continuously monitor radiation dose rates and airborne radioactivity concentrations inside the TSC, while it is in use during an emergency. Radiation levels in the TSC are monitored with an Eberline Area Radiation Monitor (ARM). This unit is equipped with visual and audible preset local alarms. It is AC operated, and is equipped with backup battery power. Emergency equipment calibratitn is performed at intervals recommended by the supplier. The TSC contains an energency kit; included in this kit are anticontami-nation clothing, respiratory protective gear, portable radiation monitoring equipment, and potassium iodide tablets. Specific details of emergency kit ; contents are contained in energency plan implementing procedures. Adequate supplies of protective clothing, respiratory equipnent, and potassium iodide will be readily available to all TSC personnel.The inventory, type, quantities and ranges of equipnent, full f ace respirators, and consumable supplies in the TSC energency kit are based on projected needs for initial reentry, and recovery, following an event requiring evacuation of nonhabitable station areas. Page 4 l
/
/
/ . 4 The Station Evacuation Criteria in Table 2 includes criteria for Area ,
Direct Radiation, Airborne Radioiodine 131, and Habitable Area Evacuation and outlines criteria for determining radiological alarm setpoints, and associated protective actions. The Main Control Room and TSC ar'e'd'esigned i . - - to provioe a habitable enviroment for 30 days under~ design ~ basis accident
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conditions without exceeding doses of 5 rem whole body and 25 rem thyrdd. These habitable areas are not automatically evacuated as part of a station evacuation. Any decision to partially evacuate eq abandon these--facflhies t
'c will be based on existir.g plant status, projections for short red long term ,
improvements in radiological conditions, and benefits,'if any, to be' gained by maintaining a' limited compliment of personnel in either or both locslions. Considerttions include personnel exposure reduction and control by workirg shorter shif ts as well as authorizing higher emergency individual doses to limited nebers of personnel if'their presence coald contribute to reduction 7 or elimination of releases and resulting off-site consequences. D. Computer Center and Power Supplies A Computer Center has been provided adjacent to the Main Control Room , (see Figure 2) for the following dat$ acquisition systems and computers: c ., l Computer Type FunctVon Validyne Data Acquisition System for PSDADS System l Prime 750 Phnt Sensor DattI Acquisition and Display System (PSDADS) Cvhputer Dec PDP 11/44 < Lerge Area Dose Evaluat(on System (LARDEV) e# 1 Conputer
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l These computers will be install 1d on the first and second floors of a Computer Center which has been built jer this purpose 1 5 I Y l '
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. . AREA DIRECT, RADIATION s
SUSTAINED LEVEL ACTION I. > 5 but < 25 mR/hr for < 24 hours. 1. Increased radiation surveys, identify and terminate scurce.
- 2. Continue to man all emergency response centers with manpower required to combat the casualty.
II . > 5 but < 25 mR/hr for > 24 hours. 1. Planned evacuation within 24 Source reduction not projected. hours.
- 2. Essential OSC personnel report to habitable areas as directed by EDS.
III. > 25 but < 100 mR/hr for > 1 hour. 1. Evacuate within four hours.
- 2. Essential OSC personne*1 report to habitable areas as directed by EDS.
IV. > 100 but < 1000 mR/hr. 1. Evacuate within I hour.
- 2. Essential OSC personnel report to habitable areas as directed by EDS.
V.> 1000 mR/hr f or > 1 hour. 1. Immediate evacuation as directed by EDS. Table 2 STATION EVACUATION CRITERIA
~~~~.
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AIRBORNE RADI0 IODINE 131 , RADI0 IODINE 131 EQUIVALENT I-131 EQUIVALENT I-131 ACTION CONCENTRATION uCi/cc MPC ll0URS FOR TIIYROID DOSE ACCIDENT (RAD) FOR ACCIDENT DURATION DURATION I. > 3E-09 but N/A N/A 1. Increased radiological
< 9E-09 .
surveillance
- 2. Identify and terminate source.
II. > 9E-09 but
< 1.5E-08 % 500 5 to 10 1. Use respiratory protection.
- 2. Consider recommending KI if source reduction is not projected within 24 hours.
III. > 1.5E-08 but N 500 to 10 to 30 1. Recommend KI if source
< SE-08 2000 reduction is not projected within 6 hours.
- 2. Evacuate non-essential personnel within 12 hours if unable to reduce or terminate the source within 24 hours.
- 3. Essential OSC personnel report to habitable areas as directed by EDS.
Table 2 (cont'd) s
The PSDADS and LARDEV computers will be located within the computer center. The Heating, Venilation, and Air Conditioning (HVAC) system has been sized to remove all the heat generated by all computer equipment. In addition, the HVAC will maintain humidity within acceptable limits. The power to the Computer Center comes from dual Uninterruptable Power Supplies (UPS) which have their own battery as well as a dedicated diesel to provided power should the normal station power supplies become inoperable. The Computer Center will be equipped with a "HALON" fire protection system to protect the equipment in the computer center. The remote multiplexers will be protected by any general fire protection available in the particular area in which it is installed. In addition, the entry into the computer [ center will be controlled by the plant security system to provide adequate physical security. This will protect the PSDADS and LARDEV systems from a nomal user accidently stopping the systen. The Data Processing Engineer will be capable of starting and stopping parts of the systens from an appropriately enabled terminal but to totally stop the systems requires access to the main system consolcs which are located in the new computer facility. Electrical power to the Camputer Center and the TSC is provided from the Power Center. This is shown in schematic form in figure S. Power is normally supplied from offsite transmisssion systems (345KV or 6.9KV) and from the unit through the station service transfonners (see Figure 6). If normal power is lost, a backup power sspply is available from a dedicated diesel engine generator (see Figure 7). The Power Center unit substation (B0P Sub 1G-1) 480 volt bus is supplied power fror. either normal or emergency sources, and is the source of powcr to the following: Page 6
- Lightning and HVAC for Power Center, Computer Center and TSC
- Three battery charges for the two (2) 250 volt batteries In turn, the data acquisition equipment and computers and their' auxilia-ries in the Computer Center are served by two uninterruptible power supplies
[ (UPS's). These obtain their power from the 480 volt Unit Substation 480 volt bus, or from the 250 volt batteries (see Figures 5&7). The TSC's CRT displays, printer, plotter and associated equipment are also supplied from the Power Centers UPS's. Detailed list of equipment appears in Appendix "A". E. Comunicati ons The TSC, when activated, is the primary onsite communications center during an emergency. There are several distinct comunications systems used in the TSC for communicating with various onsite and offtiite organizations and support groups. These systems include a private telephone system, comer-cial telephone system, ENS & HPN hotlines, dedicated private line phone systems, radio networks and a wired paging-intercom system (See Figure 8). The comunications equipment layout in the TSC is outlined in Figure
- 9. The primary method of comunication onsite and offsite is provided by a privately owned PABX (Pri'vate Automatic Branch Exchange). This computer based phone system is of a high reliability design which includes redundant central processing, memory, common control, and power train. The system is powered by a 48VDC battery bank with float charger. This PABX is served with Central Office trunks from downtown Cincinnati which connects the system to the PTSN, (Public Telephone Switched Network). The connection of these C.0. trunks is made via a privately owned Microwave Radio System which is designed to bypass any local telephone switching f acilities that may be Page 7
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V d COAST HOSP WATER POUCE COUNTY KY OH PUBLIC wy GUARO SCH OEPT DEPT [OC FOC EOC TELEPHONE SWITCHE D I l l l l p1 ~$ NETWORK CGSE ELCO lo} ADMIN CINTI [ OFF CO { l2 ' in 1 PAGING HILLTOP y EMERG O COama CedTR OPER I 1 i% SECURITY I f WWTpm MApsNE RAD 00 RADO ROOM P '_' w CIVit RADIO RAD u0N MaiNT RAosO
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SECURITY RADtO SEC CENT ALARM ALARM NT QTE ALTH PHYS TECH SUP NRC RES OPER SUP Q STA STA LAB CMTR NSP CENT MLLf_ HONE _ jT$JEM ._. BELL PVT PmvATE PHONE SYSTEM pAgg PABX NRC PmvAT( LINE ' NRC HPN LBNE i NUC DATA LINN METEOROLOGICAL DATA f NRC NRC MET _ PROC BETH CHI CMPTR CMPTR t t Ft1L COMMUNICATIONS teETWOft( SHOWN WLL NOT BE UTILs2ED FOR THE ALERT LEVEL EXCEPT Figure 8
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ALERTilSITE EMERGENCY AND GENERAL EMERGENCY COMMUNICATION NETWORK i i l
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PERSONNEL 1-SITE RESPONSE MANAGER 2-OPERATIONS MANAGER J 3-TSC MANAGEP 4-RADIATION PROTECTION MANAGER 15 5-MAINTENANCE /IEC COORDINATOR 6-COMMUNICATIONS COORDINATOR 7-DOTA P70 CESSING ENGINEER 5 0-STAFF SUPPORT ENGINEER
, 9-STAFF SUPPORT ENGINEER g 10-RADIO CPERATOR fl II !O IO 11-NRC HO'.*LINE PHONE TALKER
- 6 l't 5 Ed 5 55 A
12-PHONE TALKER TO STATES
& COUNTIES - OHIO -
13-PHONE TALRER TO STATES 6 COUNTIES - EENTUCKY 14-ADMIN. - CLERICAL REPRESENTATIVE _ 15-RAD-MET COMPUTER OPERATOR 16-RADI ATION SURVEY COORDINATOR 17-DADIO-TELEPHONE OPERATOR *
- 4 5 IS-DOSE ASSESSMENT COORDINATOR 355 55 K 19-COMMUNICATIONS GROUP PERSON E S 7 (LOGGER) 35
- 5552 20 20-NUCLEAR REGULATORY COMMISSION 5 5 55555 215 5 RESIDENT INSPECTOR 6 l lg g 21-RADIOLOGICAL STATUS LOGGER 5 F -
I 8 COMMUNICATIONS EQUIPMEN - D 5 1-PX EXT.3 CR, EOF HCFFLIFES 5 55 555 555 2-PX EXT.3 CR, OPS OSC HOTLINES g4 ll l2 33 3-PX EXT 4-DX EXT.: HPN, R/C OSC HOTLINES DI 5-PX EXT.3 MAINT. OSC HOTLINE " ACCESS TO ALL TELEPHONES 6-PX LET. : ALL STATE AND COUNTY HOTLINES g 10 7-PX EXT. g g AND TWO-WAY RADIOS 0-PX EXT.
- 9- PX EXT.
10-PX EXT. s ALL STATE AND COUNTY HOTLINES;
^ SUPPORT EOui** ENT ll-PX EXT.3 EjiS L 12-PX EXT.3 OHIO STATE & CLERMONT A-RADIATION PROTECTION LAYDOWN TABLE COUNTY HOTLINE B-BOONCASES FOR TSC DOCUMENT STORAGE 3- M .s kY Sti.TE & KY CO'S H/frLINE C-MICROFILM & APERTURE CARD STORAC.E D-MICROFIIR READER / PRINTER 15-PX EXT
- E-%il STAFF DRAWING STICK FILE 16-PX EXT *-CO6LLED DMIM STICE FILE 17-PX EXT $ s TWO-WAY RADIO T'J FIELD TEAMS
- 10-PX EXT.3 EOF HOTLINE H-TSC COMPUTER SYSTEM PRINTER l 19-(NONE) I-RIMS TERMINAL & APERTURE CARD READER 20-TWO (2) PX EXTS J-RADIOLOGICAL STATUS BOARD AND MAPS 21-PX EXT. E-NRC MAPS I
*-hAS A PSDAD/SPDS TERMINAL B TELEPHONE SET OFREMOTE CONTROL 1WO-WAY RADIO STATION Figure 9 TSC COMMUNICATIONS EQUIPMENT LAYOL 1
1
susceptible to loss of power or overload during and energency. The telephone sets in this system will have either buttons (on multiline sets) or a light on single line set which will illuminate when ringing. Commercial telephone lines are available for use by the TSC as a back-up in the event of primary systen failure. For communications to the NRC, extensions of the ENS and HPN hotlines are located in the TSC. The ENS hotline is located at the NRC table and the HPN hotline is located at the Radiation Protection Manager's desk. These systems are powered from the same uninterruptable power supply that feeds the TSC. These hotlines serve as each others backup. If both these lines should fail, then the telephone systems described above would be used to dial up the NRC over the PTSN. A private microwave system will provide dedicated voice circuits between the TSC and following locations: Clennont County, Ohio Sheriff Clennont County, Ohio E0C State of Ohio E0C Campbell County, Kentucky E0C Pendleton County, Kentuckty EOC Bracken County, Kentucky E0C Cincinnati Water Works 1 These circuits use selective signaling to dedicated extensions at various places in the TSC and States and Counties. These services are backed up by the telephone system described. Provisions have been made at each County and State for 24 hour coverage for initial notification of an incident at the plant. Page 8
Communications between the TSC and the Control Room, Operations OSC, Maintenance OSC, Rad / Chem OSC and E0F are provided by private dedicated e automatic ringdown circuits. These circuits provide direct communication I links between these facilities over a private cable systen. These circuits are backed up by the telephone system described above. Communications to several other critical locations and organizations are provided by privately owned two-way radio networks. Two-way radio links exist between the TSC and the following: Mobile Radiation Monitoring Teams New Richmond Police Department Cincinnati General Hospital Newport and Kenton County Water Works + U.S. Coast Guard These radio links are all backed up by direct dial through the PTSN, over the telephones provided r. ea;h location. The mobile monitoring teams are to use field available telephcnes as a back up. Communications to mobile medical support units is handled through the responding county. A facsimile machine is provided at ZPS-1 in the General C'fice area. This machine will be used in the TSC during an emergency situation. Table 3 lists the Primary and Alternate means of Communication for various job functions in the TSC. Page 9
TABLE 3 TSC PRIMARY AND ALTERNATE COPMJNICATIONS f METHODS:
#1 - Direct dial through the PTSN, Public Telephone Switched Network, using a Private PABX, Private Autmatic Branch Exchange.
#2 - Direct Dial through the PTSN using a consnercial PABX.
#3 - Private Automatic Ringdown Talk Circuit.
#4 - Through dedicated talker on ENS Hotline.
#5 - Through dedicated talkers on Private Line Systems which utilize selective signalling
#6 - Through responsible Supervisor
#7 - Through Radio Control Station in the OSC
#8 - Through Radio Control Station in the TSC
#9 - Through inplant wired paging system ,,
#10 - Through HPN Hotline on R/C Manager's Desk I
l Primary Alternate Site Response Manager to: Corporate H.Q. #1 #2 Control Room #3 #1 E0F #3 #1 OSC's #6 #1 NRC #4 #10, #1 State & Local Governments #5 #1 Vendors #1 #2 i i l
Primary Alternate Adninistrative Supervisor to: Corporate HQ #1 #2 Security Force #1 #2 EOF #1 #2 Rad / Chem Supervisory to: l Field Monitoring Teams #8 #1 Health Physics Lab #3 #1 Rad / Chem OSC #3 #1 E0F #1 #2 State & Local Governments #5 #1 HPN 10 #1 Operations Supervisor to: Corporate HQ #1 #2 Control Room #3 #1 Operations OSC #3 #1 E0F #1 #2 Vendors #1 #2 Field Teams #7 #1 (monitor in TSC) Maintenance Supervisor to: Corporate HQ #1 #2 Control Room #1 #2 Maintenance OSC #3 #1 E0F #1 #2 Vendors #1 #2 Field Teams #7 #1 l. (monitor in TSC) l
F. Technical Data & Data Systems: PSDADS. SPDS, and LARDEV The function of the data acquisition systems is to provide a data base for the Main Control Room, Technical Support Center (TSC), and Emergency Operations Facility (EOF). The dedicated systems are Plant Sensor Data Acquisition and Display System (PSDADS), Safety Parameter Display System (SPDS), and Large Arca Dose Evaluation System (LARDEV). These are shown in block form on Figure 10. The data provided to the Main Control Room (MCR), TSC and E0F by these two systems will be accurate and reliable so that determination of either plant steady state operating conditions prior to an accident, the transient conditions producing the initiating event, or plant dynamic behavior during the event can be made. All data communications support equipment (i.e. modems, line drivers, and transmission paths) for the Emergency Response Support Computers is privately owned and maintained. All circuits inside the Zimer Station are distributed over a private comunications cabling system. All off-site circuits are carried over a private microwave system. In the TSC, all CRT terminals and printers are supported by 9600 BAUD, short haul modems. A separate printer / plotter in the TSC connected to the Process Computer is supported by 9600 BAUD line driver /miltiplexers. For redundancy, spare 9600 BAUD short haul modems and spare circuits are main-tained. Terminals and printers in the E0F and various states and counties are supported by 1200 BAUD, medium haul modems. Spare modems for these applica-tions are also maintained at a central location. For the states and counties, if a data path is lost, all information will be desseminated using available voice communications paths until the data path can be restored. Included with the PSDADS are the Safety Parameter Display (SPDS) parameters and validation algorithims. The STARTREC high speed analog start up system also aquires data for PSDADS. Page 10
REACTOR AND AUI. BLDG. SEstSORS R.G.1.97 R.G. 1.97 R.G. 1.97 METEROLOGY RADICISCY EXISTIIBG NEW VALLEY RIDCE PLANT RING SENSORS SENSORS gygggggg MET MET RADS RADS I I WIRE WIRE WIRE WIRE WIRE WIRE WIRE t I l l I MUI D.A.S. D.A.S. D.A.S. D.A.S. I I 1 FIBEROPTIC PISEROPTIC PISEROPTIC MICPOWAVE MICROWAVE WIRE ROW I I I I I I TSC RAD S WIRE SPDS MET COMPUTER COMPUTER NE CENTER
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% SPDS ALSO DISPLAYED ON MAIN CONTROL DOARD Figure 10 PSDADS AND LARDEV BLOCK DIAGRAM i
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a) PSDADS Technical data will be provided to the TSC by two separate computer systems. The first, PSDADS will acquire, process, store and display plant sensor data. Appendix B shows a comparison between the Reg. Guide 1.97 parameters and the data coming into the TSC. In addition, this Appendix lists all plant sensors available on the PSDADS, and contains a listing of all sensors available on the LARDEV systen. The Validyne HD310 Data Aquisition System collects plant sensor data for the PSDADS. The sensors are isolated by dedicated class IE qualified remote multiplexers. The isolation from the remainder of the data acquisition system is by a fiber optic cable for each remote multiplexer. The remote multiplexers sample each of 32 signals (aaximurn) and convert it to digital data on a f ree running basis. This data is then passed on to a sub-multiplexer wnich multiplexes the output of up to 8 multiplexers. This multiplexed string of data is then sent to a master receiver unit af ter passing through a signal splitting unit. By passing the signals through a signal splitting unit it is possible to feed this data to more than one computer without affecting the ability of PSDADS to perfonn its function. Due to the free running nature of the system, no change in one component can greatly affect the rest of the system. The maximum speed of the Validyne HD310 system is 1,000,000 scans per second, and approximately 1000 scans per second per signal. The PSDADS will be scannir.g each point once each 5 seconds. This value may be changed as exper'ience dictates. In addition, the computerized portion of the Safety Parameter Display System (SPDS) will share the data base used by the PSDADS and in fact will be running on the same system. Page 11
~ ,f PSDADS storage and recall capability will be provided for the data set. As a minimum, data for the most recent 24 hour period wil'1 be available from rotating disk storage. The data collected by the PSDADS will be supplimented by data from the STARTREC system to provide fine resolution data on certain parameters during the transient.- ! The PSDAD computer hardware configuration consists of a Prime Model 750 " super-mini" computer. This processor roughly corresponds to an IBM 370/155 computer. The total working storage is 4 Megabytes of MOS memory with error detection and correction capability. The total on line disk i storage is three (3) 300 Megabyte disk drives on two (2) controllers. The maximum access time is 55 milliseconds with an average transfer rate of 1,200,000 bytes per second and a total of 8,000,000 bytes per second capability per controller. The tape storage system consists of one nine (9) track 800/1600 bti, 75 ips tape drive. Data comunications are mainly with 9600 baud RS232C asyschronous ports, with a 16 bit parellel link for the hard copy plotter. Please note that only the Technical Support Center ha:. hardcopy capability from the PSDADS.
The software is being generated using the standard PRIMOS oparating system provided with the machine, with certain modifications. These modifications are either to enhance the security of the system or to enable the PRIMOS to comunicate with the Validyne system. Other software components of the PSDADS are the database creation and man lpulaton software currently being developed for the Wm. H. Zimer Nuclear Power Station. This software will be written in ANSI Standard Fortran 77 and Prime's Command Processing Language (CPL). The primary method of displaying data from the PSDADS is through Ramtek l model 6200A Colorgraphic Computer Terminals. They fully support operation at 9600 BAUD. Displays are selected through the use of system Page 12
" menu's" which walk the user through the selection process. All menus use the same sof tware to drive them, and therefore provide identical responses to errors. In addition, the menus have a " HELP" feature that enables the user to obtain an explanation of the choice being requested by the computer, or any individual option being requested be the computer, or any individual option being presented. Through this method, it is possible to provide the user with a system that is both flexible and easy to use. The PSDAD displays consist of various system mimics, tabular outputs, or graphs.
With the latter two types of output, the user has a considerable degree I of flexibility concerning the data being presented at the screen. In addition, any data being presented by either the tabular or graphical output method can be sent to the printer or plotter as appropriate. In addition, for any past time data available in any of the data bases which may be resident on the disk drives at the time of use may be spooled directly to the printer or plotter without the intervening step of appearing on the CRT. For more information concerning the operation of the output function of the PSDAD system, please see the draf t users manual in Appendix D. For examples of the mimics, tabular and graphical outputs please see Appendix E. b) Safety Parameter Display System The computerized portion of the SPDS is available through any of the PSDADS CRTs. The (Primary) Safety Paraneter Display System (SPDS) will be a computer driven CRT display. This will display a full set of parameters, but will not be seismically qualified. A section of the Emergency Core Cooling System (ECCS) panel (P601) in the Main Control Room will fulfill the function of the backup display. (See Figure 11) The SPDS will provide a continuous indication of plant parameters and derived variables on a dedicated display, and additional information will be available on demand using another CRT terminal. The primary display will concentrate a minimum set of plant parameters in a single display, Page 13
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i which will be kept as simple as possible to improve its effectiveness. Hisnan-f actors engineering will be included in the design, and will include pattern and coding techniques. Multiple inputs will be employed for all major parameters, and these will be validated in real time. When an unsuccessful validation occurs, the SPDS will identify the parameter and report it to the user. Operating procedures and operator training contain information and provide guidance for the resolution of unsuccessful data validation. The SPDS will be in operation during normal and abnonnal operating conditi ons. This system will be capable of displaying pertinent information during steady state and transient conditions, and as well as presenting the magnitude and trends of parameter or derived variables upon request. The Primary SPDS will have a parameter trending feature as a function of time. The acquisition of parameters from safety systems will utilize qualified isolators to preserve channel independence and safety system integrity. Selected parameters from both existing plant instrument channels and additional channels installed in response to Reg. Guide 1.97, will be used as the source of data. The computerized portion of the SPDS was based upon work done for EPRI and NSAC and the design was integrated into PSDADS. The SPDS will be located in the Main Control Room, with additional SPDS displays in the TSC and EOF. The SPDS location in the Main Control Room will be readily accessible and visible to the Shift Supervisor, Shift Technical Advisor, and the Senior Reactor Operator. The backup display on the ECCS panel is accessible and visible to all personnel, and is easily recognizab*e and readable. The SPDS will require no personnel for its operation. The SPDS will be of such size as to be compatible with the existing space in the control area. Both the Primary (computer-CRT) and the backup (Recorders on ECCS Panel) will be readable by the Senior Reactor Operator. Page 14
The display will be responsive to transient and accident sequences and will be sufficient to indicate the status of the plant. For each mode of plant operations, a single dedicated display will be provided from which plant safety status can be obtained. The Primary display will be composed of a number of parameters and derived variables which give reactor status. The basis for the selection of this minimisn set will be documented. SPDS parsneters will cover: a) Reactor Power b) Reactor Water Level c) Reator Pressure d) Reactor Coolant Inventory e) Contairunent Pressure f) Off Gas Activity These will be presented in several display formats, and selected by operating mode. Operators will be trained to cope with f ailure of the primary SPOS, and procedures will be generated to handle SPOS failure, covering recognition, criteria, operability evaluation, and changeover to use of the backup displays. These will apply to earthquakes or any other initiating event. ( The ECCS panel which serves ts secondary hardwired SPDS display meets j seismic requirements, and its power supply is of Class IE quality. This panel provides displays of selected Parameter'from Reg. Guide 1.97 (Rev.
- 2) to give overall system status and displays the most significant signals on chart recorders. This panel is operational at all times.
The design objective of the primary SPDS is to obtain unavailability goal of 0.01 as defined in NtREG-0696. The unavailability goal during cold shutdown and refueling modes for the reactor will be 0.2. Page 15
The SPDS validation algorithms use multiple comparisons, validity and reasonableness checks, etc., to provide validated paradeter values on the CRT. The SPDS primary display parameters are Reactor Power, Reactor Water Level, Reactor Pressure, Reactor Coolant Inventory, Contairnent Pressure, and Off Gas Activity. Supplimentary information concerning the primary display parameters is available on secondary displays. For examples of the primary and secondary SPDS display please see Appendix F. The format of the Primary SPDS is unique and not likely to be confused with an ordinary PSDAD display. The secondary displays will be modified to provide a heading stating that it is a secondary SPDS display In addition to the computerized portion of the SPDS, a subject of the data being presented to the validation algorithms is being displayed on seismically qualified recorders and indicators on the P601 panel in the control room. c) LARDEV The dedicated Large Area Dose Evaluation System (LARDEV) will acquire, process and display all meterological and radiological infomation necessary to support the emergency plan for radiological plant discharges to the environ-ment. A dedicated Dec. PDP 11/44 computer will be installed in the Computer Center as follows:
-512 K Main Memory l -RSX- U.M. Operating System The primary function of this system is to gather meteorological and radio-logical data and conrnunicate same to the MCR, TSC, EOF, and offsite E0Cs.
l Data will be acquired from a 200 foot Valley Meterological Tower and 150 foot Ridge Tower located near the plant. Climatronics sensors will l replace existing sensors as follows: i i l Page 16 l l
- 1) Valley Tower Elevation Wind Speed 30 f eet and 200 f eet Wind Direction 30 feet and 200 feet Delta Temperature 30 f eet and 200 f eet Temperature 200 feet Stability (Signa Theta) (computed)
- 2) Ridge Tower Wind Speed 150 f eet Wind Direction 150 f eet Access to LARDEV is available in the Main Control Roan, the Emergency Operations Facility (See Section IV), the Commonwealth of Kentucky Emergency Operations Center (E0C) (located in Frankfort, Kentucky), the State of Ohio E0C (located in Columbus, Ohio), and the Clemont County E0C (located in Batavia, Ohio) riuring emergency situations. Dose assessment teams in each of these locations will therefore have access to identical meteorology and source term data in order to asure that projections of offsite radiological consequences will be consistent at the TSC, EOF and responsible offsite emergency centers. LARDEV displays will include alphanuneric hard copy utilizing LA 120 Decwriter computer III terminals.
The data available on the LARDEV Systen will include:
- 1. Meteorological
- a. Wind direction
- b. Wind speed
- c. Differential temperature
- d. Pasquill stability class
- 2. Radiological
- a. Primary Contaiment High Range Radiation Monitor
- b. Primary Containment Post Accident Radiation Monitor
- c. Secondary Contairinent Radiation Pionitor
- d. Standby Gas Treatment System Stack Radiation Monitor
- e. Main Flant Vent Stack Radiation Monitor
- f. Service Water Discharge Radiation Monitor Page 17
I, Provision has been made to transmit meteorological, effluent, and radiological parameters to the TSC and EOF should the PDP 11/44 computer fail. This will allow for hand-calculated offsite dose projections to be accomplished independently of computer availability. The LARDEV ' system is designed to an operational unavailability goal of 0.01 when the reactor is above the cold shutdown condition.
- 3) Backup Tower to The' Valley Tower Elevation Vind Speed -
10 meters Wind Direction 10 meters Stability 10 meters The PDP 11/44 Computer will have the capability of making offsite dose assessments in near real time, when requested to do so from tenninal located in the MCR, TSC, and E0F in addition to the offsite dose assessment information, the radiological and and meterological data will be available to the user in the MCR, TSC, and E0F on demand. The ten meter backup meteorological tower (MET) will be installed 1000-1200 feet southeast of the present tower, in a location which will minimize common mode failures due to lightening. Comunications between the Valley and Ridge Towers and the plant will be by Microwave and from the Backup MET Tower, by VHF/UHF Radio. Displays in the Main Control Room, TSC and E0F will be by Dec LA type typewriters. The TSC will also have a CRT and hard-copy printer for readouts 'of the LARDEV Computer. The LARDEV system configuration is shown in Figure 12. d) CRT for Main Control, TSC. and EOF The Rattek 6200A CRT which is used in the Main Control Room,'is a raster device, with 512 X 256 pixels. A total of eight different colors may be displayed simultaneously. The actual numoer used will vary with the display, but will not exceed the maximum number for good hisnan engineering of the l Page 18
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on the CRT is 80 characters and a maximum of 25 lires per screen will be available. The screens which have also been purchised forrt}e TSC and EOF / are 13" diagonal screens. The exact size of the screens to be used in the Main Control Room will be determined as a part of the'"Long Term Control Room Review" of additional computer facildf as. It is expected that the TSC will have at least 4 CRT's from the PSDAD system, as well asaa prima'ry 1 . and. secondary SPDS CRT. The exact position of each display device in the
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TSC is not known at this time. ~However, due to the nature of the - construction of the TSC, it is easy to elocate the CRT's as the situation' ' dictates. Due to the brigntness of the CRT'Qhere will be no need,to alter the il7umination of the TSC for proper, viewing of the CRT'e. y t j The hardcopy prjnter is a Printronix 300 lines per minute printer with
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, 9 set will be available. . The plotter is a Versatek electrostatic printer / plotter ,
r , which will be used for graphic hardcopy output. _ It has a capability of
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i 12 inches of plotting per: second. As the Versatek is a Yaster devic'e, the plotting time is indent. cant of what is being plotte), and just aif unction
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of the size of the plot. - j , G. SEaffing and Training / / / 4 l . Upon declaration of an Alert or greater emergency classification, designated
. personnel report directly to the TSC to achieve full functional operatien'
, ,_l7 within 60 minutes. Activation of the TSC ensures that only Gsignated operating ' !,< personnel are in the Main Control Room during an emergency and that needed j technical support is provided without obstructing actual plant manipulations. The TSC is the location from which the Site Response Manager dir5 cts
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the Duty Shif t Supervisor in the Main Control Room. Other key personnel 3
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Page 19 r s
reporting to the TSC are the TSC Manager, Radiation Protection Manager, Operations Manager, Maintenance Manager, Core Physics Coordinator, Data Processing Coordinator, Adninistrative and Clerical Coordinator, Instrument and Controls Coordinator, Communications Coordinator, and Systems Analysis and Process Support. The level of TSC staffing does not vary with the severity of the emergency conditions more severe than Unusual Event. Consultants
, may be used to augment these resources at the discretion of the Site Response Manager consistent with the reconmendations of the Atomic Industrial Forum
/
(AIF) and the Institute for Nuclear Power Operations (INP0). Full descript' ons of the functions and responsibilities of the TSC staff are provided in Appendix E to this report. l I
, Personnel assigned to the Station emergency organization with specific r Emergency Plan duties and responsibilities receive specialized training
< for their respective assignments. This training provides instruction and review in technical and practical aspects of emergency response activities,
. as well as " cross-subject" training to ensure the necessary skills and know-ledge to effectively respond to emergency situations at the station. In addition to maintaining proficiency, the TSC staff participates in TSC activation drills that are conducted periodically in accordance with the
( ,
< Emergency Plan.
l f The Data Processing Coordinator receives training familiarizing him/her with operating procedures and the use of TSC data systems. This training contains guidance on the limitations of instrument readings including the effect of events such as earthquakes or the release of radiation. L< H. Records Availability and Management The TSC has a complete and up-to-date copy of station records and procedures available for use by TSC personnel to aid in their technical analysis and evaluation of emergency conditions. As a minimun, TSC personnel will have h-Page 20
I i 1 access to the station technical specifications, station procedures, Final Safety Analysis Report and Environmental Report, station energency plan and energency plans of the surrounding State and local governments. The TSC has hard copy, electronic, micrographic capability to provide up-to-date as built drawings, schematics and diagrams showing condi-tions of station structures and systems down to the component level and in-plant locacion of these systems. The control and distribution of station records is perfonned by the Docunent Control Center and is supported by an interactive computer aided document retrieval system. A central file concept utilizes various microforms for copies, storage and control. 'Docunent retrieval is " recall biased" (i.e., access is based on what can be recalled about the document). Since recall is critical and certain attributes may vary from docunent to docunent, as many as nineteen parameters or identifiers can be stored for each document. Any one or a series of identifiers may be searched following simple steps, in an English conversational, user oriented mode. Data entry as well as search routines are designed to minimize instruc-tion and training and are heavily prompted with help statements to assure high response to minimal key entry. The micrographics equipment utilized is supported by appropriate reader printers.
- All records are available to the TSC in current form. These ' records l
! will be updated as necessary to ensure accuracy and completeness. The method of storage and presentation of the TSC records will ensure ease of access under emergency conditions. i l< . Page 21 i
III. OPERATIONAL SUPPORT CENTERS Three operational support centers (OSC's) have been established where support personnel will report in the event of an emergency at ZPS-1. These locations have been designated as the Operations OSC, the Rad / Chem OSC, and the Maintenance OSC and are shown on Figure 13. OSC's provide locations for all personnel not assigned to the technical support center or control room. Support personnel can then be dispatched from there centers, as needed, in response to a particular emergency situation. OSC's also facilitate the limitation of non-essential personnel in the main control room. A. Operations OSC The Operations OSC is the staging area for additional Operations personnel whose services may be required during emergency situations. It also serves as a center where a personnel accountability check of all on-duty and relief Operations personnel is performed. The Operations OSC is activated in response to emergencies which are more severe than the Unusual Event classification. When activated, the Operations OSC is supervised by the Operations OSC Coordinator who is under the direction of the Duty Shif t Supervisor. The Operations OSC is located adjacent to the Main Control Room on the 546-foot elevation of the Auxiliary Building, as shown in Figure 13. B. Rad / Chem OSC The Rad / Chem OSC is the staging for all Rad / Chem personnel, with the exception of the on duty Rad / Chem Technicians, who report tc the Operations OSC. It also serves as the center where a personnel accountability check of all Rad / Chem personnel is performed. Emergency 1 monitoring teams are organized at the Rad / Chem OSC and other radiological, chemical, or radwaste operation assigrynents are made here at the direction i Page 22 l
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. ~ ~ - - - - .----
of the Radiation Protection Manager. The Rad / Chem OSC is activated in response to emergencies which are more severe than the Unusual Event class. When activated, the Rad / Chem OSC is supervised by the Rad / Chem 05.,C Coordinator who is under the direction of the TSC Radiation Protection Manager. The Rad / Chem OSC is located in the existing Service Building at Elevation 546'-0", as shown in Figure 13. C. Maintenance OSC , The Maintenance OSC serves the following purposes during emergency situations:
- a. Staging area for all Maintenance and Instrument and Control technicians from which these personnel are dispatched to emergency assignments.
- b. An assembly area in which all non-essential CG&E employees, visitors, and contractor personnel are organized and accounted for and from which these personnel are evacuated from the site.
- c. A personnel monitoring and decontamination facility.
The Maintenance OSC is activated in response to emergencies which are more severe than the Unusual Event class. When activated, the Maintenance OSC is supervised by the Maintenance OSC Coordinator who is under the direction of the Maintenance Manager. The Maintenance OSC is located in the Station Machine Shop as shown in Figure 13. The OSC's will have direct communications with the Main Control Room and with the TSC so that the personnel reporting to the OSC's can be assigned to duties in support of emergency operations. Consnunications at each of the three OSC's will consist of one dedicated private phone line to the l TSC and one dial phone capable of reaching onsite and offsite locations. l Page 23
i l The Operations OSC will have an additional dedicated private telephone line to the Main Control Room. An alternate health physics control point is located in the Service Building on the 521' ground floor elevation, adjacent to the TSC, for use following an event requiring evacuation of non-habitable station areas. Support personnel can access supply storage facilities, and travel from the OSC's to the health physics control point (both primary and alternate) and receive less than 5 rem (when combined with other exposures) during the course of an accident. The Operations OSC is located adjacent to the Main Control Room, and is included in the Main Control Room Post Accident Habitability System. The Rad-Chem OSC, and Maintenance OSC are located in the Service Building, and are not habitable to the same degree as the Control Room. The shielding and ventilation for the Rad-Chem OSC, and Maintenance OSC are not comparable to the same degree as the Main Control Room and TSC. Should it become necessary to evacuate non-habitable areas, essential OSC personnel would be assigned to the Operations OSC and TSC Habitable centers, as directed by the Emrgency Duty Supervisor. The remaining non-essential personnel would be evacuated from the station to a predesignated evacuation point offsite, whert additional personnel monitoring and decontamination, if required, could be accomplished. Bef are being sent home, the non-essential personnel would be requested to remain available for recall, and necessary I relief work at the site. All OSC's are provided with radiation ironitoring equipment. The Maintenance, and Operations OSC have fixed area radiation monitors. Portable radiation monitoring equipment is provided in the respective energency kits. The Rad-Chem OSC, being located in the Health Physics Office and counting ared, has nunerous radiation monitoring instrunents, and counting equipment. Page 24
Criteria for evacuation of the OSC's is provided in Table 2. Upon activation of the Rad-Chem OSC, and at regular intervals thereaf ter, an inventory of usable protective equipment and supplies is conducted. These inventory results are reported to the Radiation Protection Manager at the TSC. The inventory results include working stocks available in the Rad-Chem OSC, and storage stocks located in the Station Storeroom. Storeroom personnel would normally issue the stored protective equipment supplies, through sign out procedures. In the event of an evacuation of non-essentail personnel, the stored protective equipnent and supplies would be taken as needed. All support personnel are assigned to one of the three OSC's and are available upon request to provide assistance in the areas of damage control, fire fighting, first aid, radiation control, decontamination, radiological or environmental surveys, maintenance / repairs and operators. OSC's are large enough to accomodate assigned personnel. l l t Page 25
IV. Emergency Operations Facility A. Function The Emergency Operations Facility (E0F) is the emergency response facility in which the following functions are performed:
- a. Overall management of CG&E emergency response and recovery rescurces.
- b. Determination of recommended public protective actions to be transmitted to State & Local agencies.
- c. Evaluation, coordination, and comunication of CG&E emergency response activities with local, State, and Federal emergency response organizations.
I .: d. Verification of the magnitude and effects of actual or potential radioactive releases from the Zimer Nuclear Power Station, as initially calculated in the TSC. B. Locati on The E0F is located in the CG&E Eastern District Office in Batavia, Ohio approximately 16 miles from the Zimer Nuclear Power Station, and with'n one half mile of the Clemont County E0C, optimizing the coordination of CG&E and local Emergency response. The selection of this location was coordinated with State and local officials. It's location off State Route 32, approximately ten miles east of Interstate 275, makes it accessible to Federal and State response personnel (see Figure 14). The News Media Center (NPC) from which all CG&E press releases will occur, is located in the Batavia Middle School Auditorium which is within walking distance of the E0F. C. Structure and Habitability The Structure which houses the E0F is well engineered and would not be adversely affected by 100 year floods or high winds, and is in compliance Page 26
cincinnati 3-71 I ( -( 11 Littl* H38*t Siver Emergency Operations l [{ - tr#'32 \ # Facility . l l l. & 9, E 40 N R Rentucky Chio OATAVJA chio River I-i41
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Figure 14 0,,,' LOCATION OF EMERGENCY OPERATIONS FACILITY (EOF) Kentucky chio >g 3 5'Mul. C w L AU R,EL-k MOSCotJ RI'. e Zimme r S t a t iairi Figure 7 j r, no,co,
\
l 1 with the E0F Habitability Criteria, as defined in NUREG-0696 for locations within ten to twer,ty miles of the plant. In that the E0F is located 16 miles from Zinmer, Radiological Monitoring Equipment is not required. D. Size and Organization l Approximately 3100 square feet of the Batavia office would be dedicated as the E0F working area. The dedicated area would include a 360 sq. f t. NRC office area,140 sq. ft. CG&E office, a 300 sq. f t. Conference Room i (see Figure 15) a 1700 sq. ft. Dose Assessment and E0F Operations Area (see Figure 16), a 270 sq. f t. Record Storage Room (see Figure 17) and a 364 sq. ft. room for E0F Support Personnel and Equipment (see Figure 18). The l total EOF dedicated working area would provide a minimum working space of approximately 75 sq. ft. for 41 persons, including 9 persons from the NRC, 1 person from FEMA, a maximum of 26 persons from the Licensee's Emergency Response Roster, and 5 persons from State and Local Agencies. Sufficient work space and equipment are provided to carry out assigned functions with storage facilities, desk space and telephone with a minimtsn working area of 20 sq. f t. for each work station. The E0F facility has sufficient space at each work station to perform any repair, maintenance, or service of equipment, displays and instrtmentation. Adaquate space exists to repair back panels without interruption of E0F operations. There is also sufficient space for unhindered access to connuni-cations equipment for all E0F personnel requiring the use of these facilities ,l ' to perform their functions. Spare modules are available for every unique l module of communications equipment. The arrangement of work stations in the E0F facilitates operations and exchange of infomation among response groups. Personnel are grouped l according to functior, and groups having frequent interaction or performing similar functions are located adjacently. Facilities and equipment are i located to facilitate interpersonal interaction and machine utilization. Page 27
- - - . ~ NRC OFFICE B [ jeosp.g CONF STOR.(,- ,$0MM.EQ.
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The arrangement of work stations, and equipment and facilities in this manner controls the level of noise and traffic in the E0F. The Emergency Director obtains information concerning plant status and protective action recomendations from the Communications and Dose Assesssment
, Work Stations. The Emergency Director dissiminates appropriate information 1 to the work stations located in the EOF Operations Area. Information is also transmitted to the EOF Staff through the use of status boards (shown in Figure 16) which are'pericdically updated by E0F staff members dedicated to this function. Periodically, the Emergency Director, other appropriate CG&E personnel, and the NRC will convene in the Conference Room indicated in Figure 15. This system of information handlin; reduces the possibility of unintended dissimination of confidential information.
E. Records Availability and Management The EOF will have ready access to up-to-date records which are needed to exercise overall management of licensee emergency response resources. Stored at the EOF in hard copy and located in the E0F Record Storage Area (see Figure 17) will be up-to-date copies of the following: Plant Technical Specifications Final Safety Analysis Report Copies of State and Local emergency response plans Offsite population distribution data l Evacuation Plans l Environs Radiological Monitoring Records l Licensee Employee Radiation Exposure Histories Drawings, Schematics and Diagrams of checklists, guides, worksheets, and other job performance aids. l i l Page 28 l l
The Station Document Control Center will transmit to the E0F such addi-tional records, procedures, drawings, schematics and diagrams, as may be required in hard copy, electronic or micrographic form. Hard copy indices will be generated on a regular basis to backup the electronic search system in order to assure retrieval of records from storage address. The control and distribution of station records is performed by th! Document Control Center and is supported by an interactive computer aided document retrieval system. This central file concept utilizes various micro-forms for copies, storage and control. Document retrieval is " recall biased" (i.e., document access is based on what can be recalled about the document). Since recall is critical and certain attributes may vary from document to document, as many as nineteen parameters or identifiers can be searched for each document following a series of simple steps in an English conversational, user oriented mode. Data antry as well as search routines are designed to minimize instruction and training and are heavily prompted with help statements to assure high response to minimal key entry. The micrographics equipment utilized is supported by appropriate reader printers. The method of storage and transmittal of W,cuments to the E0F shall ensure ease of access under emergency conditions. The records available to the EOF will be completely updated as necessary to ensure accuracy and completeness. F. Technical Data, Etc._ PSDADS and LARDEV system displays will be provided at the EOF. These system displays provide plant conditions and meterological data, respectively. Page 29
See Section -II.E for a description of the PSDADS and LARDEV system capabilities. Computerized positions of the SPDS will also be displayed in the E0F. The displays will be mounted on tables with wheels to permit optimizing the location of the displays for readability and repair. The SPDS is also described in Section II.E of this report. Power is nonnally supplied from the CG&E transmission and distribution system through station service transformers. A dedicated Uninterruptible Power Supply System (UPS) and (4) hour battery will supply power to the PSDADS, LARDEV and SPDS displays and other E0F support equipment including lighting and small power. The UPS will also be 1 sed to supply communications equipment utilized at the E0F to assure continuity of comunication with responsible state and local government agencies. Backup power will be provided by a standby emergency diesel generator. G. Staffing and Training Upon declaration of a Site Area or General emergency, the Radiological Assessment Coordinator, the Site Recovery and Support Manager, the Adminis-trative and Logistics Manager, the Design, Construction, and Planning Manager, the Engineering Support Supervisor, the Station Technical Representative and the Public Information Manager will report to the E0F as members of the corporate energency response team. Additonal staff at the E0F will include dose assessment and communications personnel. CG&E Emergency Plan Procedure 20.2 provides for the notification of the E0F staff. Notification and response times for the corporate responso team allow for the EOF to become functional within one hour after declaration of a Site or General Emergency. Approximately 25 personnel have assigned functions at the EOF. However, staffing will vary depending on the circumstances during the emergency with an adequate number of personnel available to carry out the necessary functions at the E0F. Page 30
Provisions have also been made for representatives of State and local emergency response agencies, the NRC, FEMA and FRMAP to operate from the E0F during an emergency. The CG&E Emergency Organization is described in Appendix C to this report. Personne; assigned to the EOF emergency organization with specific Emergency Plan duties and responsibilities will receive specialized training for their respective assignments. This training will provide instruction and review in technical and practical aspects of emergency response activi-ties, to ensure the necessary skills and knowledge to effectively respond to an emergency. In addition, to maintain proficiency, the E0F staff will participate in E0F activation drills, which will be conducted periodically in accordance with the Emergency Plan. Staff members will be evaluated on their capability to perform their assigned tasks during these exercises. H. Comunications The EOF is the primary offsite comunications center during an emergency. The voice communication systems employed in the EOF are; a private PABX ) (tele-phone system), spare comercial telephones, ENS & H'PN Hotlines, and dedicated private line systems all operating over a private microwave system plus two-way radio networks. (See Figure 8) Communications to Zimer Station onsite and offsite is provided by l OPX's (off-premise extension) from the privately owned PABX described in Section II.D. All local power for telephone communications equipment is supplied by either the EOF 4 Hr. Uninterruptable Power Supply or an 8 Hr.,
- 24 VDC communication's battery bank with float charger. The OPXs serving
+ l the E0F are connected to the PABX at Zimer via a privately owned microwave radio system. This r.iic.rowave radio system is also employed to provide highly reliable trunk circuits for the PABX over a 24 mile path to Cincinnati where they interconnect wi'.h the PTSN (Public Telephone Switched Network). Page 31
This system bypasses local telephone switcMng facilities susceptible to loss of power or overload during an emergency. The microwave system is a fully redundant hot stand-by system operated from independent battery banks which are backed up by stand-by generators. The telephone sets in this system have either lighted buttons (on multi-line sets) or a signal lamp (on single line sets) which will illuminate and flash during ringing. Also, conmercial telephone lines are available for use by E0F personnel as a back-up during an emergency. Communications to the NRC is provided by extensions of the ENS and HPN Hotlines which appear in the EC Office Space as well as at the EC table in the E0F Operations Room. Power for these hotlines is supplied by the 4 hr. UPS which supplies most of the EOF. These hotlines serve as a backup to each other. If both these lines should f ail, then the private telephone system in the EOF would be used to direct dial the EC offices over the PTSN. A private microwave system will provide dedicated voice circuits between the EOF and following locations: State of Ohio E0C Campbell County, Kentucky E0C Pendleton County, Kentucky E0C Bracken County, Kentucky E0C Cincinnati Water Works A private cable system will provide dedicated voice circuits between the E0F and the following locations: Clennont County, Ohio Sheriff Clermont County, Ohio E0C These circuits utilize selective signaling from several extensions in the EOF to various extensions at specific Counties and States. These circuits are backed up by the private telephone systen. Page 32 2
Also, there are several private automatic ringdown circuits on dedicated telephones for connunication to the TSC and Control Room from the EOF. These circuits are also backed up by the private telephone system. Communications to several other critical offsite locations and organiza-tions are provided by privately owned two-way radio networks. Two-way radio links exist between the E0F and the following: Mobile Radiation Monitoring Teams New Richmond Police Cincinnati General Hospital Newport and Kenton County Water Works U.S. Coast Guard These radio links are all backed up by direct dial through the PTSN over the private telephone system in the E0F. The mobile monitoring teams are to use the public telephone system as a back up method for supplying infonnation to the E0F. A facsimile machine is available at the EOF that is compatible for transmission to the TSC and NRC. Table 4 lists the primary and alternate means of communication for various job functions in the EOF. Table 5 lists the assignment of communications facilities for each work station in the E0F. l l . 1 Page 33
TABLE 4 E0F Primary and Alternate Communications Methods:
#1 - Direct dial through the PTSN (Public Telephone Switched Network) using OPXs (off-premise extensions), from the Private PABX (Private Autanatic Branch Exchange) at the Zimmer Station.
#2 - Direct dial through the PTSN using commercial telephone lines
#3 - Private Automatic Ringdown Talk Circuit
#4 - over ENS Hotline
#5 - over HPN Hotline I
( #6 - Through dedicated talkers on Private Line systems which utilize selective signaling
#7 - Tnrcugh Radio Control Station in the E0F
#8 - Direct f ace to face conversation (all in same room)
Emergency Director or Primary Alternate i , Site Recovery and Support Manager to: Corporcte HQ #1 #2 Control Room #3 #1 EOF #3 #1 NRC #4 #5, #1 State & Local Govermnents #6 #1 E0F Supervisors #1 #8 Administrative Supervisor to: Corporate HQ #1 #2 TSC Security #1 #2 E0F Security #7 #1 EOF Personnel #1 #8 1 Facsimile #1 #2 Dose Assessment Supervisor to: TSC Dose Assessment #3 #1 EOF Manager #1 #8 Field Teams #7 #1 Outside Line #1 #2 Engineering Supervisor to: 1 TSC Staff #1 #2 Ccrporate Staff #1 #2 Outside Line #1 #2 Vendors #1 #2 Control Room #1 #2
Primary Alternate Public Infomation Manager to: ~ Corporate HQ #1 #2 NRC #4 #5, #1 State & Local Governments #6 #1 Media Monitors (TV & Radio) Yes Outside Line #1 #2 e 4 ,,- , , ,n-- , ., -, - ,- ,- - ,- -- -- r- - - e- n --e- --- -- - - - - - - - - - - - - - - - - - - -
TABLE 5 Location of Communications Facilities in the E0F Work Station Communications Facilities Communications Coordinator All telephone and two way radio control stations Radiological Assessment Team Two-way radio OPX TSC hotline Emergency Director OPX Control Room Hotline TSC hotline Station Technical Representative OPX TSC hotline Site Recovery and Support Manager Kentucky State and County hotlines 3 OPXs Ohio State and County hotlines Control Room hotline TSC hotline Design Construction Planning Manager 2 OPXs Engineering Support Supervisor 2 OPXs Adninistrative and Logistics Manager 2 OPXs NRC and FEMA 2 OPXs ENS hotline HPN hotline Kentucky OPX State and County hotlines Ohio OPX State and County hotlines Public Infonnations Manager 2 OPXs NRC Office Speaker phone OPX ~ NRC Office OPX ENS hotline HPN hotline CG&E Office OPX Speaker phone
Appendix A List of Power Center, Computer Center & TSC Equipment C-1 Two (2) 250 volt,1500 Ampere-hour batteries Manufacturer: Gould-Brown Boveri Construction: Lead Calciurn No. of cells: 120 tstalog No.: NCX-1500 C-2 One (1) 6.9 KV Switchgear Assembly Manufacturer: Gould-Brown Boveri Ampere rating: 1200A Matches existing lineup C-3 One (1) Unit Substation, 750/1000KVA, 31 Transfomer Section - Manufacturer: Sorgel Specifications: 750/1000KVA, 3g, 60HZ, dry type transf omer, 220 C Insulation, 80 C temperature rise, 6.9KV primary, , 3W, 45KV BIL, secondary is 480Y/277VY,4W, 10KV BIL, 4-21s % taps in primary (2 above and 2 below rated primary voltage) Low Voltage Switchgear Section is Square D drawout construction. C-4 Three (3) 250V, 200A Battery Chargers Manufacturer: La Marche Manuf acturing Company Nm. DC Voltage: 260V Input Voltage: 480V, 30, 60HZ DC Regulation: 1% C-5 One (1) 800KW,1000 RPM Diesel Engine Generator Set Type D-349TA, Caterpillar Assembled at the Highway Equipment Company 10% Overload Capabi .ity
s C-6 600 volt Feeder Busway System Manufacturer: Square D ~ Indoor Busway: 184' of 1350A, indoor copper busway, 30, 4W, 277/480V, 100% neutral, 100,000A RMS bracing Outdoor Busway: 54' of 1350A, weatherproof copper basway, 30, 4W, 277/480V, 100% neutral, 100,000A RMS bracing. . C-7 Three (3) 600V Motor Control Centers ' Manufacturer: Furnas Electric Company Batavia, Ohio C-8 N Two (2) 75KVA Uninterruptable Power Supplies , Manufacturer: Cyberex Model 240/75IH3 . AC Input: 480V, 30,60HZ ' DC-Bus. Input: 210-280V N Bypass Input: 120/208V, 30, 60HZ System Output: 120/208V, 30, 60HZ ' Rating: 75KVA 9 0.8pf C-9 Two (2) 250 Volt DC Distribution Cabinets Manufarturer: Simplex System Controls Ratings: CB's have an interrupting rating of 20,000A. Buses h.e/e a ' , 1000A capacity and are braced to withstand 2000A minicium. Breakers are General Electric C-10 Two (2) 120V AC Distribution Cabinets Manufacturer: Squa're D Type: QMB Double Section Panelboard C-16 Two (2) 75KVA Voltage Regulating Transformers - Manufacturer: Cyberex Model 480-120/75W3 Input: 480V, + 10%, - 20%, 30, 60HZ, 3W Output: 120/208V, + Ik%, 30, 60HZ, 4W t g, I i
\ ,'
\
t C-6 600 volt Feeder Busway System Manufacturer: Square D Indoor Busway: 184 ' of 1350A, indoor copper busway, 30, 4W, 277/480V, 100% neutral, 100,000A RMS bracing Outdoor Busway: 54' of 1350A, weatherproof copper busway, 30, 4W, 277/480V, 100% neutral, 100,000A RMS bracing. C-7 Three (3) 500V Motor Control Centers Manufacturer: Furnas Electric Company Batavia, Ohio C-8 Two (2) 75KVA Uninterruptable Power Supplies Manufacturer: Cyberex Model 240/75IH3 AC Input: 480V, 30,60HZ DC Bus. Input: 210-280V i Bypass Input: 120/208V, 30, 60HZ System Output: 120/208V, 30, 60HZ Rating: 75KVA 0 0.8pf C-9 Two (2) 250 Volt DC Distribution Cabinets Manufacturer: Simplex System Controls Ratings: ' nave an interrupting rating of 20,000A. Buses have a capacity and are braced to withstand 2000A minimum.
..-eakers are General Electric C-10 Two (2) 120V AC Distribution Cabinets M)nufacturer: "hquareD Type: QMB Double Section Panelboard ,
C-16 Two (2) 75KVA Voltage Regulating Transfonners Manufacturer: Cyberex Model 480-120/75W3 Input: 480V, + 10%, - 20%, 30, 60HZ, 3W Output: 120/20SV, + 1 %, 30, 60HZ, 4W
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- 0) l APPENDIX B PLANT SENSOR DATA DISPLAYED IN CG&E EMERGENCY RESPONSE FACILITIES
$, Key - The following abbreviations indicate which computer system
- e ]j; dispisys the data. -
PSDADS - Plant Sensor Data Acquistion and Display System l h, l' LARDEV - Large Area Dose Evaluation System SPDS - Safety Parameter Display System I. Variable Required by Reg. Guide 1.97 Revision 2 .
,' Variable Range Comment Type A Not yet finalized but will be a subset of those below Type B ;
- 1. Neutron Flux 6
SRM channels A-D .1-10 cps PSDADS - SPDS ' APRM channels A-F 0-125% power
- 2. Control Rod Position Displayed only in control room. Display in TSC not, feasible.
- 3. RCS Soluble Boron Recorded on data sheet Concentration (sample)
- 4. BWR Core Thermocouples See Note 1 ~['
- 5. Coolant Level in Reactor Wide Range A, B, C -150-60 IN PSDADS - SPDS 1, i
Narrow Range , 3 A,B,C 0-60 IN' iSDADS - SPDS 5 Fuel Zone A, B -310-(-110) PSDADS - SPDS Upset 0-180 IN PSDADS - SPDS
- 6. RCS Pressure Narrow Range 850-1050 psig PSDADS - SPDS
( Wide Range A, B 0-1500 psig PSDADS - SPDS ( Wide Range 0-1200 psig PSDADS - SPDS l, l
(' $ l i Variable Range Comment t
, l 7. Drywell Pressure
, Wide Range 140 psig PSDADS - SPDS Intermediate Range 0-60 psig PSDADS - SPDS Narrow Range (-)1-2.5 psig PSDADS - SPDS
- , , 8. Drywell Sump Level l~ Floor Drain 0-100% PSDADS - SPDS Equipment Drain 0-100% PSDADS - SPDS
.{j' /
i< 9. Primary Contairment closed - not closed PSDADS
'f Isolation Valve Position Type C 6
- 10. Radiation Level in Primary Coolant ,
Not Feasible
- 11. Analysis of Coolant Manual Sampling s' 12. RCS Pressure See item 6
- 13. Primary Containment Radiation A, B 1R /hr to 107 R/h r LARDEV
- 14. Drywell Drain Sumps See It;m 8
- 15. Suppression Pool Nater Level il Wide Range A, B -15.4 to +5 ft. PSDADS - SPDS Narrow Range (-1) to 1 ft. PSDADS - SPDS
- 16. Drywell Pressurt See Item 7
- 17. Containment Hydrogen '
Concentration 0-30% PSDADS - SPDS
- 18. Containment Oxygen Concentration 0-10% PSDADS - SPDS
[ l f 19. Containment Effluent from identified release points SGTS vents 10hyCi/ccto
~
5 10.4ci/ cc ' LARDEV l Main Vent Same LARDEV
- 20. Radiation Exposure Rates 0
Reactor Building '102 -10 er/hr PSDADS Other Areas (11) 10~1-10 3mr/hr PSDADS
Range Comment Variable > Type D
- 21. Main Feedwater Flow.
6 Total Flow (A, B) 0-12X10 lbs/hr PSDADS 0 Loop Flow A, B 0-6X10 lbs/hr PSDADS g
- 22. Condensate Storage Tank Level A, B 0-22 ft. PSDADS
- 23. Suppression Chamber 0-6000gpm PSDADS - Indicated Spray Flow A, B by RHR Flow and Valve Position
- 24. Drywell Pressure See Item 1 25, Suppression Pool Not applicable to Level - Vent to weir wall Mark II containments
- 26. Suppression Pool Water Temperature Bulk A, B 30-230*F PSDADS - SPDS 30-230*F PSDADS - SPDS Local (18)
- 27. Drywell Air Temperature 40-440*F PSDADS (average)
PSDADS - Indicated by RHR Drywell Spray Flow 0-6000 gpm Flow and Valve Position
.28. Main Steam line Isolation Valve Leakage Control 0-100 psig PSDADS System
[ b Pressure (-14.7)-10 psig PSDADS
- 29. Safety Relief Valve PSDADS - SPDS Position closed-not closed
- 30. Isolation condenser not applicable system water level f
i
- 31. Isolation Condenser not applicable Valve Position l
0-700 gpm PSDADS
- 32. RCIC Flow not appifcable
- 33. HPCI Flow
- 34. Core Spray Flow 0-6000 gpm PSDADS - SPDS lf l
HPCS 0-7000 gpm PSDADS - SPDS LPCS 1
li Variable Range Comment
- 35. LPCI System Flow 0-6000 gpm PSDADS - SPDS same as RHR Flow
- 36. SLCS Flow not available
- 37. SLCS Storage Tank Level 0-5000 gal PSDADS
- 38. RHR System Flow A,B,C 0-6000 gpm PSDADS
- 39. RHR Heat Exchanger l Outlet Temp 0-600'F PSDADS
- 40. Cooling Wat?r Temp to ESF components 0-130*F PSDADS
- 41. CoolinF Water Flow 0-5000 gpm PSDADS (RHR Service Water to ESF components Flow)
- 42. High Radioactivity 0-100% PSDADS Liquid Tank Level
- 43. Emergency Ventilation Damper Position (40) open-closed PSDADS
- 44. Status of Power Supplies Instrument Air Pressure 0-120 psig PSDADS 4.16KV Breaker Position open-closed
- 45. Primary Containment Area See Item 13 Radiation - High Range
- 46. Radiation Exposure Rate See Item 20
- 47. Noble Cases and Vent Flow Rate not applicable Drywell Furge, SGTS Common Plant Vent Secondary Containment Not Applicable common plant vent
. Auxiliary Building not applicable common plant vent f
i
Variable Range Comment
~
47.(cont.) Common Plant Vent 10hWCi/ccto Sampling 10hMCi/cc Other Identified Not applicable - common Release Points plant vent
~3 Particulates and 10 A4C1/cc to Sampling Halogens 1034Ci/cc Airborne Radiohalogens and Particulates sample with lab Fixed location - data analysis recorded Plant and Environs upner range Portable - recorded on Radiation 103 R/hr data sheet Plant and Environs 4096 channel gamma Lab device Radioactivity ray spectrometer
- 48. Meteorology LARDEV j' Wind Direction 0-360* (25* accuracy
( starting speed 0.75 mph Wind Speed 0-100 mph LARDEV ( accuracy 0-25 mph i l .75 mph threshold of 0.75 mph Atmospheric -5*C to +5*C LARDEV Stability 1.l*C accuracy per LARDEV 170 foot interval
- 49. Accident Sampling Grab Sample Recorded on data sheet Capability per NUREG 0737
- 11. Additional Plant Sensor Data not required by Regulatory Guide
,, 1.97 which is displayed on the Plant Sensor Data Acquisition and display system (PSDADS).,
Variable ' Range
- 1. Main Steam Line
. Radiation A, B, 6
C, D l-10 mr/hr
- 2. Drywell Flood 1
- Level 0-100% -
- 3. SLCS pump pressure 0-1800 psig
- 4. WS Pumps Hdr Temp (IA,1B, IC/lD 0-100*F
- 5. CRD System Flow 0-100 gpm
- 6. LPRM Hectron Flux 0-125%
(8 channels)
i Variable Range
- 7. Main cond vacumn 0-30 in Hg
- 8. Vessel Bottom Head 0-700*F Drain Temp.
6
- 9. Main Steamline Flow 0-3X10 1b/hr A,B,C,D
- 10. APRM Rod Block 1-5 volts channel A, B 6
- 11. Jet Pump Flow 0-60X10 1b/hr Loop A&B
- 12. Total Core Flow 0-1001
- 13. Recirculation Flow 0-4X10'gpm Loop A, B
- 14. Rx Recirculation 0-2000 rpm Pump Speed 1A, IB
- 15. Core Plate Dif- 0-1.6 psid ferential pressure
- 16. Recirculation Loop 420-570*F Temp A, B
- 17. Recirculation Pump 0-500 psid Differential Pressure
- 18. Flow Controller (-)2.4-2.4V A, B
- 19. Flow Contro?. Valve 0-100%
Position Demand A, B
- 20. Flow Control valve 0-100%
Position
- 21. Total Main Steam 11ne 6 Flow 0-12X10 lb/hr
- 22. Feedwater Tssperature Loop A, B 300-450*F
'23. Rx Feed Pump Speed 0-6500 mpm
- 24. Feedwater Flow 0-100%
Control Valve I Position ,
- 25. Feedwater Pump 0-2000 psig 1A, 1B Discharge Pressure -
- 26. Feedwater Pump 1A, 0-7X10 lbs/hr 1B Discharge Flow *
- 27. Reactor Steam / 0-100%
Feedwater Flow I Mismatch (
Variable Range 6
- 28. Main Turbine Steam Flow 0-12X10 1bs/hr
)
- 29. Main Generator Cross Power 0-1000 MW.
a
! 30. Bypass Valvn 1, 2, 3 Position 0-100%
- 31. Covernor Valve Position (4) 0-100%
- 32. Throttle Valve Position (4) 0-100%
- 33. Total Bypass Valve Position 0-100%
- 34. Main Turbine Speed 0-2500 rpm
- 35. DEH Load Reference 0-10V
- 36. DEH Load Limit 0-10V
- 37. Safety Relief Valve 0-600*F Discharge Temperature (13)
- 38. HPCS pump discharge Fressure 0-1500 psig 0
- 39. Offgas Pretreatment Radiation 1-10 er/hr i Monitor A, B
- 40. Suppression Chamber Pressure 0-60 psig
- 41. LPCS Pump Discharge Pressure 0-600 psig
- 42. LPCI Initiation on-off
- 43. LPCS Initiation on-off
- 44. 120 VAC Instrument Bus PWR Failed-Not Failed
- 45. DC system breakers open-closed
- 46. DC system voltage low-not Icw
- 47. Fire Pumps on-off 48, Auto Scram yes-no
- 49. Manual Scram yes-no
- 50. Main Steamline Isolation yes-no
- 51. Individual MSIV position (8) closed-open
- 52. Main Turbine Trip yes-no
- 53. Main Generator Trip yes-no
- 54. RCIC initiation yes-no
- 55. HPCS initiation yes-no l' 56. ESF Ventilation Fan Status (8) on-off
(,
- 57. Half Scram A, B yes-no
' 58. Primary Containment Isolation yes-no Signal (48)
, 59. SRM A, B, C, D out of Core out-not out
- 60. Reactor Mode Switch Position Refuel-Startup & Hot Standby Shutdown l . _- ,
I i NOTE: The requirement for BWR's to install Incore thermocouples has been lifted by the NRC as a result of a study by the BWR owners group. The owners group has agreed to submit a study and recommendations on the issue of inadequate core cooling in NUREG 0737 item II.F.2. i . l
I i APPENDIX C 1.13 EMERGENCY RESPONSE ORGANIZATION PERSONNEL-FUNCTIONS 1.15 AND RESPONSIBILITIES 1.16 Page 1.20 I. Emergency Director A-2 1.22 II. Site Recovery & Support Manager A-2 1.23 III. Public Information Manager A-3 1.24 IV. Administrative & Logistics Manager A-3 1.25 V. Design, Construction & Planning Manager A-4 1.26 VI. Engineering Support Supervisor A-5 1.27 VII. Radiological Assessment Coordinator A-5 1.28 VIII. Radiological Assessment Team A-6 1.29 IX. Station Technical Representative A- 5 1.30 X. EOF Communications Coordinator A-6 1.31 XI. CG&E Representatives at County EOCs A-6 1.32 XII. Site Response Manager A-7 1.33 XIII. TSC Manager A-7 1.34 XIV. Operations Manager A-8 1.35 XV. Maintenance, Manager A-8 1.36 XVI. Radiation Protection Manager (RPM) A-9 1.37 XVII. Dose Assessment Coordinator A-10 1.38
. XVIII. Radiation Survey Coordinator / Health 1.39 Physics Supervisor A-10 1.40 XIX. Rad / Met CPU Operator A-11 1.41 XX. Survey Team Coordinator A-11 1.42 XXI. Radiation Data Coodinator A-12 1.43 XXII. Rad / Chem OSC Coordinator A-12 1.44 l XXIII. Decontamination Supervisor A-13 1.45 XXIV. Radwaste Coordinator A-13 1.46 XXV. Rad / Chem OSC Support Personnel A-13 1.47 l, XXVI. Core Physics Coordinator A-15 1.43 XXVII. Data Processing Coordinator A-15 1.49 i XXVIII. Administrative Section Supervisor A-15 1.50 XXIX. TSC Communications Coordinator A-16 1.51 XXX. Duty Shift Supervisor A-16 1.52 XXXI. Central Alarm Station (CAS) Operator A-16 1.53 XXXII. Control Room Communicator (CFC) A-17 1.54 XXXIII. Shift Rad / Chem Technicians A-17 1.55
- XXXIV. Shift Technical Advisor A-17 1.56 l XXXV. Security Supervisor A-18 1.57 XXXVI. Operations OSC Coordir.ator A-18 1.58 XXXVII. Operations OSC Support Personnel A-19 1.59 XXXVIII. Maintenance OSC Coordinator A-19 2.1 XXXIX. Maintenance OSC Support Personnel A-20 2.2
. . A-1 ny-1357002-27 07/19/81 136 i
t
I t . 2.7
~
I. EMERGENCY DIRECTOR 2.10 A. LOCATION: EOF 2.12 B. FUNCTIONS & RESPONSIBILITIES: 2.13
- 1. Responsible for the overall management and 2.15 technical support of CG&E emergency response and recovery operations upon assuming the EDS 2.16 function during SITE EMERGEh0Y or GENERAL EMERGENCY responses.
- 2. Assumes the EDS functions and responsibilities 2.17 upon activation of the EOF (as discussed in Section F.S.0).
- 3. The Emergency Director may NOT delegate: 2.18
- a. the decision to notify offsite 2.20 authorites;
- b. recommendations of protective actions to 2.21 offsite authorities;
- c. the decision to reclassify and event. 2.22 II. SITE REC /NERY & SUPPORT MANAGER 2.24 A. LOCATION: EOF 2.26 B. FUNCTIONS & RESPONSIBILITIES: 2.27
- 1. Coordinates activities of the CG&E staff in 2.29 the EOF with those of the onsite emergency response organization. 2.30
- 2. Establishes communication with the TSC staff 2.31 and obtains information on the diagnosis and prognosis of the accident condition. 2.32
- 3. Responsible for notification and for 2.33 coordinating the flow of information between 2.34 the station and the EOF.
- 4. Maintains communication with the offsite 2.35 authorities designated in the Plan and 2.36 A-2 ny-1357002-27 07/19/81 140
i provides official notifications at the direction of the EDS.
- 5. Arranges for and dispatches any special 2.37 assistance or service required. 2.38
- 6. Maintains, control over personnel assembled in 2.39 the EOF and assesses and provides for any 2.40 considerations neceesary for their safety. 2.41
- 7. Receives any representatives from offsite 2.42 emergency agencies and assists in their 2.43 information and communication needs. 2.44 III. PUBLIC INFORMATION MANAGER 2.47 A. LOCATION: EOF (News Media Center) 2.49 B. FUNCTIONS & RESPONSIBILITIES: 2.50
- 1. Responsible for all CG&E news releases and 2.53 statements.
- 2. Coordinates information at the News Media 2.54 Center with local, State, and Federal 2.55 counterparts and with representatives from 2.56 other companies involved with the emergency, and provides a means for meeting the media's 2.57
. needs 2.58
- 3. Serves as the official CG&E interface with the 2.59 news media for the emergency, with the 3.1 responsibility for arranging interviews, statements quoted in press releases or other 3.2 announcements, and for presiding at formal 3.3 press conferences.
IV. ADMINISTRATIVE & LOGISTICS MANAGER 3.6 A. LOCATION: EOF 3.8 B. FUNCTIONS & RESPONSIBILITIES 3.9
- 1. Functions as the emergency and recovery 3.12 organization purchasing agent.
- 2. Provides the general office support functions. 3.13 A-3 ny-1357002-27 07/19/81 140
- 3. Administers the petty cash fund and expense 3.14 accounts. Provides for handling of payroll 3.15 matters.
- 4. Meets the manpower request needs of the 3.16 emergency and recovery organir.ation both in 3.17.
the technical and craft disciplines. Ensures 3.19 that cle'rical support is available and provides labor relations assistance as 3.20 required.
- 5. Staffs the motor pool facility and provides 3.21 vehicles for the emergency and recovery 3.22 organization. Maintains shuttle services 3.24 between surrounding motels and ai rpo rts .
Supplies special transportation (helicopters, 3.25 buses), as required.
- 6. Plans adarrangesforthesecurityoftheEOF 3.26 both during and between periods of activation. 3.27
- 7. Coordinetes operation and maintenance of the 3.28 EOF facility.
- 8. Provides food services for the EOF and the TSC 3.29 as required during activation of the EOF. 3.30 V. DESIGN, CONSTRUCTION & PLANNING MANAGER 3.33 A. LOCATION: EOF 3.35 B. FUNCTIONS & RESPONSIBILITES: 3.36
- 1. Provides the direct contact between CG.&E and 3.39 the A/E, NSSS Supplier, and Constructor.
- 2. Determines the need for and provides 3.40 engineering and technical specialists to the TSC Manager, Operations Manager, Radiation 3.41 Protection Manager, and, if required, the Site Recovery & Support Manager.
- 3. Ensures that any design and construction 3.42 activities are adquately staffed and equipped to provide timely support.
- 4. Directs, coordinates, and approves other 3.43 engineering, design, and construction activities onsite.
A-4 .g ' i ny-1357002-27 07/19/81 140
, =
I F
- 5. Establishes which engineering, design, and 3.44 construction activities, if any, shall conform to CG&E specifications or be documented by 3.45 CG&E quality assurance procedures.
. 6. Assists in the planning, scheduling, and 3.4C expediting of recovery operations.
VI. ENGINEERING LUPPORT SUPERVISOR 3.49 A. LOCATION: EOF 3.51 B. FUNCTIONS & RESPONSIBILITIES: 3.52 Provides direct support to the Design, 3.54 Construction & Planning Manager during emergency response and recovery operations. 3.55 VII. RADIOLOGICAL ASSESSMENT COORDINATOR 3.59 A. LOCATION: EOF 4.2 B. FUNCTIONS & RESPONSIBILITIES _: , 4.3
- 1. Provides information to responding 4.6 representatives from .ofioite emergency response agencies regarding possible offsite 4.7 radiological consequences.
- 2. Works with the Radiation Protection Manager in 4.8 the TSC to interpret the offsite radiological data obtained and updates offsite authorities with the results.
- 3. Works with NRC representatives to resolve 4.10 questions concerning FSAR and Technical 4.11 Specification commitments in view of existing 4.12 plant conditions.
- 4. Works with NRC representatives to resolve 4.13 license requirements associated with proposed abnormal operating modes or plant 4.14 modifications.
- 5. Maintains a continuing dialogue (via 4.15 communications link) with the Radiation 4.16 Protection Manager, located in the TSC. 4.17 A-5
~
ny-1357002-27 07/19/81 140
- 6. Provides the Emergency Director with 4.18 recommended protective actions for offsite agencies. .
VIII. RADIOLOGICAL ASSESSMENT TEAM 4.20 A. LOCATION: EOF 4.22 B. FUNCTIONS & RESPONSIBILITIES: 4.23
- 1. Interprets offsite radiological data obtained. 4.25
- 2. Maintains and updates the Radiological Status 4.26 Board.
IX. STATION TFCHNICAL REPRESENTATIVE 4.29 A. LOCATION: EOF 4.31 B. FUNCTIONS & RESPONSIBILITIES: 4.32
- 1. Acts as the Site Response Manager's 4.34 representative at the EOF.
- 2. Keeps the Site Response Manager informed 4.35 regarding activities at the EOF and conditions 4.37
. offsite.
- 3. Receives technical information from the Site 4.38 Response Manager regarding plant conditions and interprets this information for the Site 4.39 Recovery & Support Manager.
- 4. Maintains and updates Plant Status Board. 4.40 X. EOF COMMUNICATIONS COORDINATOR 4.42 A. LOCATION: EOF 4.44 B. FUNCTIONS & RESPONSIBILITIES: 4.45 Meets overall EOF communications needs. 4.47 XI. CG&E REPRESENTATIVES AT COUNTY EOCs 4.49 A. LOCATION: Clermont County, Ohio EOC 4.51 Campbell County, Kentucky EOC 4.52 B. FUNCTIONS & RESPONSIBILITIES' 4.54 A-6 140
~
ny-1357002-27 07/19/81
- 1. Liaison between CC&E and the County EOCs. 4.57
- 2. Provides direction to the Counties regarding 4.58 assistance which CG&E can provide.
XII. SITE RESPONSE MANAGER 5.2 A. LOCATION: TSC' 5.4 B. FUNCTIONS & RESPONSIBILITIES: 5.5
- 1. Functions as the EDS until the EOF is 5.8 activated and the Emergency Director relieves him of these functions and responsibilites. 5.9
- 2. Responsible for overall management of all in- 5.10 plant operations and procedures in support of the objectives of the emergency response and 5.11 recovery operations.
- 3. Approves changes in the emergency 5.12 classification assessments based upon plant conditions, meteorology, and radiological 5.13 data.
- 4. Approves the analysis and the development of 5.14
. plans and procedures which are conducted in direct support of operations personnel. 5.15
- 5. Reviews and approves plans and procedures to 5.16 process and control liquid, gaseous, and solid wastes in a manner consistent with overall 5.17 emergency response and recovery operations.
XIII. TSC MANAGER 5.20 i A. LOCATION: TSC 5.22 l l B. FUNCTIONS & RESPONSIBILITIES: 5.23 l l
- 1. Responsible for the operation of the TSC. 5.25
- 2. Performs TSC personnel accountability. 5.26
- 3. Ass res TSC readiness. 5.27
- 4. Provides technical advice to other TSC group 5.29 managers with the objective of placing the 5.30 plant in a safe shutdown condition in a manner A-7 ny-1357002-27 '
07/19/81 140 l
i .s which minimizes any adverse health and safety 5.31 effects on the public.
- 5. Analyzes system operational problems and 5.32 conditions to provide guidance, determine 5.33 alternatives, and recommend modifications in systems operation to the Site Response 5.34 Manager.
- 6. Responsible for the staff support group. 5.35 XIV. OPERATIONS MANAGER 5.38 A. LOCATION: TSC 5.40 B. FUNCTIONS & RESPONSIBILITIES: 5.41
- 1. Responsible for the implementation of all 5.44 station operating and emergency plan procedures in support of the objectives of the 5.45 emergency response.
- 2. Responsible for operation and manning of the 5.46 Operations OSC.
- 3. Directs the activities of the Main Control 5.47 Room and Operations OSC.
XV. MAINTENANCE MANAGER 5.50 A. LOCATION: TSC 5.52 B. FUNCTIONS & RESPONSIBILITIES: 5.53
- 1. Responsible for all plant maintenance in 5.56 support of emergency response and recovery 5.57 operations.
- 2. Responsible for the operation and manning of 5.58 the Maintenance OSC.
- 3. Analyzes instrument and control problems and 5.59 develops plans for how plant operations 6.1 personnel can continue to monitor and control plant parameters. 6.2
- 4. Designs and coordinates the installation of 6.3 modifications required to allow continued 6.4 monitoring and control of plant parameters.
A-8 ny-135k002-27 07/19/81 140
D
- 5. Directs instrument and control personnel in 6.5
, the repair of defective equipment and/or the 6.6 installation of modifications to existing equipment in support of the emergency response 6.7 and recovery operations.
XVI. RADIATION PROTECTION MANAGER (RPM) 6.10 A. LOCATION: TSC 6.12 B. FUNCTIONS & RESPONSIBILITIES: 6.13
- 1. Responsible for the operation and manning of 6.16 the Rad / Chem OSC.
- 2. Responsible for directing the Rad / Chem staff 6.17 1
in accumulating radiation, chemistry, 6.18 radiochemistry and dose assessment data and 6.19 for implementing radiation protection and waste management programs in support of the 6.20 emergency response and recovery operations.
- 3. Prcvides ALARA review of proposed emergency 6.21 response organization activities. 6.22
- 4. Responsible for. Dose Assessment Group G.23 Functions.
- 5. Recommends protective actions to the Site 6.24 Response Manager.
- 6. Maintains the radiological status boards. 6.25
- 7. Dispatches and coordinates site boundary and 6.26 l offsite field monitoring teams. 6.27
- 8. Compares claculated versus measured offsite 6.28 doses.
- 9. Once the EOF is activated, works with the 6.29 Radiological Assessment Coordinator to 6.30 interpret the offsite radiological data obtained.
- 10. Assures that adequate supplies of radiation 6.31 protective clothing and equipment are 6.32 available or procured.
- 11. Recommends the need for offsite HP assistance. 6.33 A-9 ny-135h002-27 07/19/81 140
- 12. In coordination with other response managers, 6.34 identifies steps that can be taken to mitigate 6.35 event consequences.
- 13. Monitors the radiation exposure ~of all TSC 6.36 support personnel and forwards this 6.37 information to the Rad / Chem OSC when requested'.
XVII. DOSE ASSESSMENT COORDINATOR 6.39 A. LOCATION: TSC 6.41 B. FUNCTIONS & RESPONSIBILITIES: 6.42
- 1. Advises the RPM when the Dose Assessment Group 6.44 is fully manned (activated). 6.45
- 2. Monitors and assists in the activities of all 6.46 Dose Assessment Group Members to ensure that 6.47 all required activites are completed correctly and in a timely manner. 6.48
- 3. Reviews data sheets and other written 6.49 communications directed to the RPM. Ensures 6.51 procedures are followed completely.
- 4. Completes the radiological portion of the 6.52
, Follow-Up Information Form for review by 6.53 response managers prior to entering on CPU.
XVIII. RADIATION SURVEY COORDINATOR / HEALTH PHYSICS SUPERVISOR 6.56 A. LOCATION: TSC 6.58 B. FUNCTIONS & RESPONSIBILITIES: 6.59
~
- 1. Assists in dose assessments. Sends data to 7.4 the Dose Assessment Coordinator.
- 2. Assures that the Rad / Chem OSC provides support 7.5 to the Mair.tenance and Operations OSCs, as 7.6 requested.
- 3. Ensures that onsite and offsite surveys are 7.7 implemented at the proper times. Completes 7.9 initial briefing forms for survey teams.
- 4. Keeps updated on the status of the 7.10 Radiological Survey Teams through A-10 ny-1357002-27 07/19/81 140 ,
I communications with the Survey Team 7.11 Coordinator.
- 5. Reviews survey reports and forwards them to 7.12 the RPM and the Radiation Data Coordinator. 7.13 Keeps advised of emergency personnel exposure.
- 6. 7.14
- l' 7. Assists the Survey Team Coordinator in .7.15 performing thyroid dose calculations. 7.16
- 8. Keeps the RPM advised of events as they occur 7.17 and are judged to be useful to the response 7.18 managers.
- 9. In coordination with the RPM, provides ALARA 7.19 review of proposed emergency response 7.20 activities.
XIX. RAD / MET CPU OPERATOR 7.22 - A. LOCATION: TSC 7.24 B. FUNCTIONS & RESPONSIBILITIES: 7.25
- 1. Operates Rad / Met CPU for data aquisition and 7.27 data transmission.
- 2. Assists in dose assessments. Sends data to 7.29 the Dose Assessment Coordinator.
- 3. Communicates with the Radiological Assessment 7.30 Coordinator in the EOF, as required.
- 4. Keeps the Dose Assessment Coordinator and the 7.31 Radiological Data Coordinator informed ed changes as they occur.
XX. SURVEY TEAM COORDINATOR 7.33 A. LOCATION: TSC 7.35 B. FUNCTIONS & RESPONSIBILITIES: 7.36
- 1. Assists in done assessments. Sends data to 7.39 the Dose Assessment Coordinator.
- 2. Communicates with the off-cite survey teams, 7.40 once dispatched.
A-11 140 ny-1357002-27 07/10/81
- 3. Keeps track of Rad / Chem OSC manpower, 7.41 equipment and supply needs
- 4. Calculates thyroid dose per EPPs. 7.42 XXI. RADIATION DATA COORDINATOR 7.44 A. LOCATION: TSC 7.46 B. FUNCTIONS & RESPONSIBILITIES: 7.47
- 1. Maintains the Dose Assessment Status Board 7.49 using information from the Rad / Met CPU, Operations OSC and Rad / Chem OSC.
- 2. Maintains maps, using information from the 7.50
. Dose Assessment Group and Survey Team Communicator.
- 3. Advises the Dose Assessment Coordinator 7.51 immediately if a radiological EAL is reached.
- 4. Ensures that follow-up information reports are 7.s2 initiated and completed.
XXII. RAD / CHEM OSC COORDINATOR 7.54
'A. LOCATION: Rad / Chem OSC 7.56 B' . FUNCTIONS & RESPONSIBILITIES: 7.57
- 1. Establishes communication with the Radiation 7.59 Protection Manager in tne TSC.
I
- 2. Determines the need for additional Rad / Chem 8.1 support personnel and initiates notification, if necessary.
- 3. Directs the Decontamination Coordinator to 8.2 perform personnel accountability. Ensures 8.3 l accountability is performed, and reports results to the CAS Operator.
- 4. Initiates and maintains the Rad / Chem OSC 8.4 Coordinator's Log.
- 5. Establishes, maintains and updates the 8.5 Rad / Chem OSC Status Board.
A-12
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ny-1357002-27 07/19/81 140
~
- 6. Provides coordination to all emergency 8.6 response activities in the Rad / Chem OSC.
- 7. Provides Rad / Chem OSC support as requested by 8.7 the EDS, RPM, Maintenance OSC or Operations OSC Coordinators. Provides direction to all 8.8 Rad / Chem , technician emergency response activities.
- 8. Determines the radiological status of 8.9 emergency personnel at regular intervals using the Emergency Personnel Dosimetry Logs.
- 9. Keeps the RPM advised of equipment and supply 8.10 status and needs.
XXIII. DECONTAMINATION SUPERVISOR 8.13 A. LOCATION: Rad / Chem OSC 8.15 , B. FUNCTIONS & RESPONSIBILITIES: 8.16
- 1. Completes personnel accountability for 8.18 Rad / Chem OSC personnel.
- 2. Provides decontamination support as required 8.19 by the Rad / Chem OSC Coordinator. 8.20 XXIV. RADWASTE COORDINATOR 8.23 A. LOCATION: RAD / CHEM OSC 8.25 B. FUNCTIONS & RESPONSIBILITIES: 8.26
- 1. Maintains an updated status of the liquid 8.29 storage tank and solid waste system inventories.
- 2. Develops plans and procedures to process solid 8.30 and liquid wastes.
- 3. Assists in development of decontamination 8.31 plans for affected plant areas.
- 4. Develops plans to reduce all liquid, gaseous 8.32 and solid waste levels to a normal inventory.
XXV. RAD / CHEM OSC SUPPORT PERSONNEL 8.34 A. LOCATION: RAD / CHEM OSC 8.36 A-13
~
ny-1357002-27 07/19/81 140
l ,( B. FUNCTIONS & RESPONSIBILITIES: 8.37
- 1. Maintains initial inventories of urable 8.39 protective equipment and supplies. Reports 8.41 the results to the Rad / Chem OSC Coordinator.
- 2. Establishes and maintains the emergency 8.42 Personnel' Dosimetry Log. Keeps the RPM 8.43 advised of emergency personnel exposure.
Notifies the RPM immediately of personnel 8.44 exposures exceeding 10 CFR 20 limits.
- 3. Issue dosimetry, protective clothing and 8.45 equipment, as needed. ,
- 4. Prepares access control points, as necessary. 8.46
- 5. Ensures removal of temporary access control 8.47 points, contaminated clothing, respiratory equipment, trash and monitoring equipment.
Conducts final contamination survey of access 8.48 control areas.
- 6. Maintains a working inventory of protective 8.49 g clothing and respiratory equipment.
- 7. Monitors personnel for contamination. If 8.51 necessary supervises the decontamination of personnel.
- 8. Assists in the treatment, monitoring and 8.52 decontamination of injured personnel. Travels .8.53 with the patient to the hospital, if necessary.
- 9. Performs in-plant, offsite and/or site 8.54 boundary surveys.
- 10. Performs emergency radionuclide sampling and 8.55 analysis.
l A-14 ny-1357002-27 07/19/81 140
CORE PHYSICS COORDINATOR 8.58 XXVI. A. LOCATION: TSC 9.1 . B. FUNCTIONS & RESPONSIBILITIES: 9.2
~
- 1. Analyzes , core parameters to determine current 9.1 conditions of the core, i 2. Reviews proposed plant operations with respect 9.5 to the effect on core conditions. .
- 3. Develops recommendations for plant operations 9.6 that would effect safer core conditions.
9.9 XXVII. DATA PROCESSING COORDINATOR A. LOCATION: TSC 9.11 B. FUNCTIONS & RESPONSIBILITIES: 9.12
- 1. Provides for the accumulation, retention, and 9.15 retrieval of plant information and local environmental parameters.
! 2. Transmits information needed by the emergency 9.16 response organization.
. 3. Provides a single location for the acquisition 9.17 of data, resulting in minimum interference with plant operations.
9.20 XXVIII. ADMINISTRATIVE SECTION SUPERVISOR LOCATION: TSC 9.22 A. FUNCTIONS & RESPONSIBILITIES: 9.23 B.
- 1. Provides typing, filing, document retrieval, 9.26 l equipment operation to all and office personnel within the TSC.
With the Administrative and Logistics Manager, 9.27 ! 2. l coordinates the TSC needs for additional 9.28 communications equipment, office supplies, 9.29 l office equipment, etc. l A-15 07/19/81 140 ny-1357002-27
l . 9.32 XXIX. TSC COMMUNICATIONS COORDINATOR 9.34 A. LOCATION: TSC 9.35
~
B. FUNCTIONS & RESPONSIBILITIES: 9.37 Responsible for facilitating communications between EOF, 9.38 the onsite emergency response centers and the and offsite response agencies. 9.41 XXX. DUTY SHIFT SUPERVISOR 9.43 A. LOCATION: Main Control Room i 9.44 B. FUNCTIONS & RESPONSIBILITIES:_ 9.47
- 1. Functions as the EDS until relieved.
activities of the normal plant 9.48 Directs the emergency 2. personnel and the 9.49 operationsresponse organization shift support personnel. of the plant in 9.50 the operation 9.51
- 3. Directs plant procedures, and 9.52 compliance with all normalspecifications, technical
~ l' directives, 9.53 emergency procedures.
9.54 recommendations on 9.55
- 4. Provides information and accident response to the Operations Manager.
plant parameters 9.56
- 5. Responsible for monitoring and plant conditions.
valve alignments and 9.57
- 6. Responsible for system equipment operation.
9.58
- 7. Responsible for interfacing with the emergencyemergency 9.59 response organization in support of 10.1 response operations.
i 10.3 l OPERATOR XXXI. CENTRAL ALARM STATION (CAS) 10.5 A. LOCATION: Central Alarm Station 10.6 B. FUNCTIONS & RESPONSIBILITIES: 10.8 I
- 1. Prepares recording for the automatic answering
,. services.
10.9
- 2. Pages key site response personnel.
A-16 140 07/19/81 ny-1357002-27 l l
-, _._s_ _ . - . . ._
I l 1 .
- 3. Implements the appropriate notification list 10.10 of offsite agencies. Continues with 10.11 notifications until relieved by the TSC Communicators.
. 4. Receives results of all accountability checks, 10.12 and relays the information to the EDS. 10.13
- 5. Receives information regarding 10.14 fire / explosions, and personnel injuries, and 10.15 dispatches Emergency Response Teams to respond.
- 6. Requests offsite medical or firefighting 10.16 .
assistance, as requested by the EDS. XXXII. CONTROL ROOM COMMUNICATOR (CRC) 10.18 A. LOCATION: Main Control Room 10.20 B. FUNCTIONS AND RESPONSIBILITIES: 10.21
- 1. Contacts the Power Supervisor of current 10.23 emergency classification, reason for that classification and time declared. .
- 2. Updates the Rad / Met computer. 10.24
- 3. Notifies the NRC using the Emergency 10.25 Notification System (ENS).
XXXIII. SHIFT RAD / CHEM TECHNICIANS (2) 10.27 A. LOCATION: Main Control Room 10.29 B. FUNCTIONS & RESPONSIBILITIES: 10.30 l
- 1. Secures non-essential rad waste operations. 10.32
- 2. Performs emergency radiation monitoring, 10.33 surveillance, sampling, water chemistry or counting, as needed.
XXXIV. SHIFT TECHNICAL ADVISOR 10.36 A. LOCATION: Main Control Room 10.38 B. FUNCTIONS & RESPONSIBILITIES: 10.39 A-17 ny-1357002-27 07/19/81 140
10.42 Assists the Duty Shift Supervisor in his evaluation and assessment functions during an emergency. 10.45 XXXV. SECURITY SUPERVISOR 10.47 A. LOCATION: TSC , 10.48 B. FUNCTIONS & RESPONSIBILITIES: the normal station security personnel 10.50 i in 10.51
- 1. Directs l in maintaining the station security system response and recovery 10.53 support of emergency operations.
Responsible for coordinating onsite personnel 10.54 2. accountability. coordinating personnel 10.55
- 3. Responsible for secured l to evacuation and restricting access 10.56 !
areas. 10.59 XXXVI., OPERATIONS OSC COORDINATOR 11.2 A. LOCATION: Operations OSC 11.3 B. FUNCTIONS & RESPONSIBILITIES: 11.6
- 1. Establishes communications with the Operations 11.7 Manager at the TSC and Main Control Room.
11.G 2. Determines the need for additionalnotification, Operational 11.9 Support personnel and initiates if necessary. to 11.10
- 3. Assigns an Operations Support Member Ensures 11.12 perform personnelis accountability.
performed, and reports , accountability 11.13 results to the CAS Operator. the Operations OSC 11.14
- 4. Initiates and maintains Coordinator's Log.
and updates the Shift 11.15
- 5. Establishes, maintains Support Status Board.
support as requested by 11.16
- 6. Provides operational Operation's Manager. 11.17 the EDS and/or the response 11.18 Coordinates operations emergency activites.
A-18 140 07/19/81 ny-1357002-27
s.
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i N' x
- 7. Records the dosage recei,ed v by the Operations 11.19 Support Team Members on the Emergency 11.20 Personnei Dosimetry Log. Ensures personnel'ydo -
11.21 not exceed their exposure limits unless authorization is obtained from the RPM or the 11.22 EDS. Forwards the Emergency Personnel 11.23 Dosimetry Log to the Rad / Chem OSC when requested by the Rad / Chem OSC Coordinatcr. 11.24
- 8. Completes the Support Task Record Forms e.nd 11.25 forwards to the TSC.
OPERATIONS OSC SUPPORT PERSONNEL 11.27 XXXVII. LOCATION: Operations OSC 11.29 A. FUNCTICNS & RESPONSIBILITIES: 11.30 B.
\
Farform operations " support tasks" as$ directed by 11.32 the EDS and/or Operations Manager. i 11.34 XXXVIII. MAINTENANCE OSC COORDINATOR LOCATION: Maintenance OSC 11.36 A. , 11.37 B. tUNCTIONS & RESPONSIBILITIES:
\ \
communications with' the 11.39
- 1. Establishes Maintenance Manager in the TSC.
11.40
- 2. Determines the need for add [tionalnotification, maintenance 11.41 support personnel and initinted if necessary.
- 3. Assigns a Maintenance Support Member to 11.42 11.44 perform personnel accountability.and Ensures accountability is performed, reports 11.45 results to the CAS Operator. .
and maintains the Maintenance OSC 11.46
- 4. Initiates, Coordinator's Log.
- 5. Establishes, maintains and updates the 11.47 Maintenance OSC Status Board.
Provides Maintenance OSC support as requested 11.48
- 6. 11.49 by the EDS and/or Maintenance Manager. 11.50
- Coordinates all maintenance emergency response activities. .
i f' A-19 i ( - . 07/19/81 140 l, ny-1357002-27 , N I
e s . B
- 7. '
Records the dosage received by the Maintenance 11.51 Support Team Members on the Emergency 11.52
' Personnel Dosimetry Log. Ensures personnel do 11.53
_ -_ not exceed their exposure limits unless authorization is obtained from the RPM or EDS. 11.54
<l Foywards the Emergency Personnel Dosimetry Log 11.55 Rad / Chem OSC when' requested by the 11.56
?sto RadCthe/ Chem OSC Coordinator.
- 8. Completes the Support Task Record Forms and 11.57 forwards to the TSC.
I XXXIX. MAINTENANCE OSC SUPPORT Pd S,0NNEI. 12.1 I A. LOCATION: Maintenance 02C ' 12.3 l 4 B. FUNCTIONS & RESPONSIBILITIES: 12.4 Perform maintenance " support tasks" as directed by 12.6
, the EDS and/or Maintenance Manager.
i e s t' e 1.
\
Y e 9 I I N I 3 A-20 I'
~
ny-1357002-27 07/19/81 140 l
r i ZIMMER TSC SOFTWARE USER'S MANUAL for Cincinnati Gas & Electric Company
~
i l l - GP-R-34021 CGE-17 (4)-R-2 Revision 1 March 24, 1982 DRAFT 1 1 General Physics Corporation 1000 Century Plaza Columbia, Maryland
., ,e.-.m------
O I TABLE OF CONTENTS
.P,agpe, SECTION 1. Purpose.......................................... 1 SECTION 2. Capabilities..................................... 2 2.1 Output Types................................ 2 2.2 Time........................................ 3 2.3 Output Device............................... 4 2.4 Da ta Ba s e . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 2.5 Plant Parameters............................ 4 2.6 Samples Displayed........................... 5 2.7 Tra ining And Te s t Mode s . . . . . . . . . . . . . . . . . . . . . 5 SECTION 3. Operation........................................ 6 3.1 Terminal 0n................................. 6 3.2 Login....................................... 6 3.3 Me nu selec t i on . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 3.4 Time Entry.................................. 7 3.5 Date Entry.................................. 7 3.6 He1p........................................ 7 j 3.7 Interrupts.................................. 7 i 3.8 Use r Shor tcu ts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 3.9 Cursor...................................... 8 Appendix A Examples of Output Types Figures
?
i l l
t GP-R-34021 j CGE-17(4)-R-2 GENERAL PHYSICS CORPORATION I 1.0 PURPOSE
. The TSC Data Display System allows the system user access to either current or past time data from any combination of 750 analog and digital signals from the Zimmer Plant.
The TSC displays provide CRT terminal and hard copy outputs of current or past plant parameter data. The outputs have been specifically designed to assist TSC users in performing the _ following functions: e Determine current plant status, e Review pre-accident / event conditions. . e Review the response of important plant parameters during the accident / event. e Determine the effect of any automatic or manual mitigating action. e Evaluate plant damage. e Determine the status of plant recovery operations. The primary database consists of all plant data acquired through the Validyne Data Acquisition System, which collects all plant parameters continuously. The Prime 750 computer then reads, converts, and stores these parameters every five seconds. The latest 48 hours of data are always stored on disk and are immediately available to the user. Data older than 48 hours is stored on tape and can be displayed after it is first read from the tape onto disk. In addition, secondary databases, containing data from other sources, such as the "GETARS" installation, may be created and made available for display in the form of past time plots and tables. 1 m _ - - _.--___--
GP-R-34021 CGE-17 (4 ) -R-2 GENEPAL PHYSICS CORPORATION 2.0 CAPABILITIES 2.1 Output Types The table below summarizes the available outputs. Output Output Data Plant Time Periods Type Time Device Base Parameters Displayed Mimic Current CRT Primary , 10 28 1 Table Current CRT Primary 1-6 15 Table Past CRT Primary 1-6 - 15 Table Past Printer Primary 1-6 Unlimited i Table Past Printer Secondary 1-6 Unlimited Superimposed Past CRT Primary 1-3 300 Plot (25 minutes) Superimposed Past Plotter Primary 1-3 300 Plot Superimposed Past Ple' - Primary 1-3 Unlimited l Plot Separate Current CRt + ry 1-2 360 Plot (30 minutes) Separate Past CRT Primary 1-2 360 { Plot Separate Past Plotter Primary 1-2 Unlimited Plot There are four basic types of outputs: system mimics,. safety parameter displays, tables, superimposed plots and separate plots. Examples of each type are included in Appendix A. e System mimic - A graphical representation on the CRT of a specific portion of the plant, on which is indicated the values of preselected plant parameters. Analog values indicate water 13vels, pressures, and flow rates. Color-coding indicates the status of safety systems, valves and circuit breakers. Raj indicates the active state - a 2
GP-R-34021 , CGE-17(4)-R-2 GENERAL PHYSICS CORPORATION t i safety system is activated, a valve is fully open, or a circuit breaker is closed. Green indicates the passive state - a safety system is not activated, a valve is fully closed, or a circuit breaker is open. Yellow indicates the intermediate state - a valve is neither fully open nor fully closed. The following mimics are currently available: Reector Water Level (1 mimic) Auxiliary Power Distribution (1 mimic) Containment Isolation (4 mimics) Residual Heat Removal (2 mimics) e Safety Parameter Displays - One primary and four secondary displays of safety related parameters composed algorithmically from pre-determined plant signals. Formats include bar graphs, plots, arrows, words, and numbers with color coding as used in the system mimics. e Table - A tabular output of no more than 6 analog and/or digital plant parameters over time. The alarm status of each analog parameter is also shown. e Superimposed plot - A plot of no more than 3 analog plant parameters overtime, shown on the same plot grid.
- Separate plots - A plot of the time dependence of no more than 2 analog plant parameters over time, shown individually on separate plot grids.
2.2 Time In a current time output, the CRT display is updated every time new plant data becomes available usually every five seconds. This updating continues until frozen or terminated by a user keyboard entry. j A past time output shows data from some user-specified past 3 time period. Any start time and length of period can be specified. If the requested data is on disk, it will be displayed immediately; if it is only available on tape, a request will be made to have that tape reread onto disk. The TSC system administrator controls the tape library and the reading of tapes into the computer. There is a limit on the amount of tape data that can reside in the computer at the same time. 3 m c- - -,-
+.
GP-R-34021
%E-17 (4 ) -R-2 GENERAL PHYSICS CORPORATION 2.3 Output Device System mimics can be output only on the CRT, a table or. the CRT or printer, and a plot on the CRT or plotter. A hard copy of any table or plot displayed on the CRT can be obtained easily by .
following the prompts displayed at the bottom of the CRT screen. 2.4 Data Base Primary databases contain only plant data acquired through the validyne Data Acquisition System. Secondary databases include files containing GETARS data, manual inouts, or data from another computer systems. Secondary data can o iy be output as a past time table or plot. 2.5 Plant Parameters Each TSC system mimic displays a preselected set of from 10 to 28 plant paramecers. The user cannot select the parameters to be displayed on a particular simic. A table can output from 1 to 6 parameters and a plot from 1 to 3 plant parameters, each user-selectable. One of four procedures can be used to select plant parameters e Specify display ids - The display ID corresponding to each desired plant parameter can be manually entered. TSC software verifies each display ID entered and does not I permit the entry of more ids than allowed by the selected output format. For a valve that has both an open and a closed signal, entry of the display ID corresponding to either of these signals is sufficient. e Select plant parameters - Parameters can be selected from computer generated lists of available display ID's. These lists are organized by plant system. The parameters selected do not have to be from the same system.
., e Select a User-Defined Parameter Collection (UPC) - Each time a new set of display ids is specified or a new set of l parameters is selected from the lists, the user may enter a unique name for the parameter collection. This named collection is stored in a temporary user file, which is only deleted when the user logs out. UPCs enable a user to request different outputs for the same set of plant parmameters without having to respecify or reselect each parameter every time. The user is only offered a choice from among those collections appropriate to the type of display he has selected.
4
-u .
l GP-R-34021 CGE-17(4)-h-2 GENERAL PHYSICS CORPORATION e Select a Predefined Parameter Collection (PPC) - The most commonly used sets of plant parameters have been named and stored in a permanent file, available to all users. The user is only offered a choice among those collections appropriate to the type of display he has selected. The TSC System Administrator controls these files. 2.6 Samples Displayed A mimic only displays data from the latest sampling interval. A table on the CRT displays 15 sampling intervals. For a current time table, these are the latest 15 sampling intervals. For a past time table, these are 15 camples that are equally spaced in time and span the entire time period specified. A table on the printer can contain any number of plant samples because any time period and any interval between samples (update rate) can be specified. For all table outputs, the most recent data is always at the bottom of the table. Superimposed plots on the CRT can display 300 sampling intervals, separate plots 360 plant samples. For a current time plot (superimposed or separate), plant data for approximately the latest 20 minutes is first output before the plot is updated with each new plant sample as it becomes available. A plot on the plotter can contain any number of plant samples because any time period and any update rate can be specified that is a multiple of the sampling rate. The most recent data is always at the right of 4 a plot on the CRT and at the bottom of a plot on the plotter. ) i 2.7 Training And Test Modes At the option of the System Administrator, the TSC Data Display System can be run in a training and/or test mode. These are additional modes of operation which do not interfere with the routine operations of recording and displaying actual plant data. These modes allow users to display synthetic data in simulated real time for familiarization, emergency orills, or system testing. 5
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I GP-R-34021 l CGE-17(4)-R-2 GENERAL PHYSICS CORPORATION
- 'I 3.0 OPERATION 3.1 Terminal On If the terminal is off (no fan noise), turn it on. The ON-OFF switch is on the right side of the terminal case. Ensure that the five toggle switches on the right side of the keyboard are set as follows:
DUPLEX - FULL PARITY - EVEN RATE - SEL l CAPS.IDCK - ON 'l MODE - REM 3.2 Main Type LOGIN TSC, then press RETURN. The current TSC Master Menu will be displayed (an example is given below): TSC DA"A DISPIAY SYSTEM MASTER MENU
- 1. Reactor Water Level Mimic
- 2. Auxiliary Power Distribution Mimic
- 3. Containment Isolation Mimic (1 of 4) - Groups 1,7,8,9,11,14
- 4. Containment Isolation Mimic (2 of 4) - Groups 3,4,6,13,FN
- 5. Containment Isolation Mimic (3 of 4) - Groups 2,5,10
- 6. Containment Isolation Mimic (4 of 4) - Group 5
- 7. Residual Heat Removal Mimic (1 of 2) - Pump A
- 8. Residual Heat Removal Mimic (2 of 2) - Pumps B,C 9 Table
- 10. Plot
- 11. General Information
- 12. Logout I 3.3 Menu selection Most of the required inputs are selections from menus -
numbered lists of options displayed on the CRT. When a menu selection is required, type in the number of the desired selection, then press RF'NJRN. The next menu displayed depends on the user's selection frout the previous menu. The user is offered menus, from which to select, only until the system understands which display is desired. Then the user-selected display is shown on the CRT (or a hardcopy is produced). 6 m
GP-R-34P?1 CGE-17(4,-R-2 GENERAL PHYSICS CORPORATION 3.4 Time Entry When a start time, display time, or update time is requested, type in the desired time in the for,nat specified in the request (either HH MM SS or HH:MM), then press RETURN. Acceptable inputs are HH = hours (00-24) MM = minutes (00-59) SS = seconds (00-59)
~
3.5 Date Entry When a start date is requested for some output and the current date is desired, press RETURN. Otherwise type in the desired date in the format MMDDYY, then press RETURN. Acceptable inputs are: MM = month (01-12) DD = day (01-31) YY = year (00-99) 3.6 Help Selnction of " General Information" from the TSC Main Menu providea some general information about using the TSC Data Display System. If a menu is presented and one of the options is unclear, an explanation of the option can be obtained by typing in the number of the option, then a question mark, then pressing RETURN. If more comprehensive help is required, type in a double question mark, then press RETURN. 3.7 Interrupts When a mimic, table or plot is being displayed on the CRT, the message at the bottom of the display indicates the available user actions. For example, a typical message will be "P= PAUSE, C= CONTINUE, H=HARDCOPY, T= MASTER MENU". To implement an action indicated in any such message, type in the indicated letter (for example, "P" for pause or "T" for main menu). There could be a one sampling interval delay between the request and its I implementation. 7
I I 1 , GP-R-34021 g CGE-17(4)-R-2 GENERAL PHYSICS CORPORATION i An alternate means of interrupting any processing is to enter a CONTROL-P (hold down CTRL, then P). This inurediately halts any
, processing in progress. The CRT is cleared and a menu of possible actions is displayed.
The meaning of the various interrupt messages and options is as follows: PAUSE. . . . . . . . . . . . . . . . Stop processing any more data and f reeze the display.
~
CONTINUE............. Resume processing, but with the latest data in memory. Ignore any data acquired since the PAUSE interrupt was executed. HARDOOPY............. Pr,oduce a hard copy of whatever is currently on the display. MASTER MENU.......... Terminate any current processing and return to the NSC Main Menu. 3.8 User Shortcuts The output type, time (current or past), output device, database, and plant parameter specification procedure are normally selected by making choices from one to five separate menus displayed on the CRT. The experienced user may " answer" ahead by entering rapidly all the selections needed to produce a particular _ display without waiting to be prompted by the menus, themselves. 3.9 Cursor The cursor on the CRT can be used to help read numerical values on plots. The cursor can be placed over any point on a plot and then moved right (horizontal to the plot Y-axis). The cursor controls are located in a 3x4 keypad on the right side of the terminal keyboard. There are two types of cursors available - a graph cursor, which is a white cross, and an alpha (text mode) cursor, which is a white underline. Either or both can be used, but the graph cursor is preferable because it can be moved around the screen in smaller increments. First select the desired cursor by pressing either GRAPH or ALPHA. Then turn the cursor on by pressing CUR ON. The four keys with arrows are used to move the cursor. A l^ repeat function is built into each key, so that holding the key l down for approximately one second causes the cursor to move continuously. If the CTRL key is held down, the curser movement keys cause the cursor to move at a faster rate. Pressing the CUR BLINK key causes the cursor to blink. The ROME key sends the 8
,, .-.-n ._m, , - - - . , - - - , . , , , , . - - , , - - - - - - - e . - _ _ - _ - - - -
GP-R-34021 CGE-17(4)-P-2 GENERAL PHYSICS CORPORATION graph cursor to the lower left corner of the screen, the alpha cursor to the upper right corner. The CUR OFF key turns off the cursor. The TPACK and ENTER keys have no use in this application. Pressing them will have no effect. I i p .
*ei e-1 9
d l GP-R-34021 l' CGE-17(4)-R-2 GENERAL PHYSICS CORPORATION i Appendix A - Examples of Output Types 01A2OO3 05A2OO2 04A2088 RCS DRYWELL MN COND DATE TIME PRESSURE PRESSURE VACUUM (WR) (WR) PSIG PSIG INHGA
========================================================
01/01/82 08:00:00 996.0 15.5 -27.5 01/01/82 08:01:00 896.0 15.5 -28.5 01/01/82 08:02:00 820.0 15.5 -28.3 01/01/82 08:03:00 738.0 15.5 -28.3 01/01/82 08:04:00 662.0 15.4 -28.0 01/01/82 08:05:00 592.0 15.4 -27.7 01/01/82 08:06:00 530.0 15.4 -27.5 01/01/82 08:07:00 530.0 15.3 -27.3 01/01/82 08:08:00 498.0 15.3 -25.3 01/01/82 08:09:00 466.0 15.3 -19.3 01/01/82 08:10:00 404.0 23.1 -13.4 01/01/82 08:11:00 15.9 30.0 -7.5 01/01/82 08:12:00 .O 20.6 -1.5 01/01/82 08:13:00 7. 5 22.3 .O 01/01/82 08:14:00 7. 5 22.3 .O _, 01/01/82 08:15:00 7. 5 22.3 .O 11A2181 11A4037 11A4038 OG RAD SYS RAD SYS RAD DATE TIME PRETREAT CAS IODINE MON A MRPH CPS CPS
======================c=================================
01/01/82 08:00:00 14 44 784 01/01/82 08:01:00 6 41 784 01/01/82 08:02:00 6 13 784 01/01/82 08:03:00 6 13 784
}
i 01/01/82 08:04:00 6 13 784
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01/01/82 08:05:00 6 13 784 01/01/82 08:06:00 6 13 784 01/01/82 08:07:00 6 13 784 01/01/82 08:08:00 6 13 784 01/01/82 08:09:00 6 13 784 01/01/82 08:10:00 6 13 784
~
01/01/82 08:11:00 6 13 784 01/01/82 08:12:00 6 13 784
~
01/01/82 08:13:00 6 13 784 01/01/82 08:14:00 6 13 784
" 01/01/82 08:15:00 6 13 784 10 6
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