Tech Spec Change Request 87 for Amend to License DPR-16, App A,Re Addl Fire Protection Sys Installed During 1980 Refueling Outage.Consists of Replacement Sections 3.12 & 4.12

ML19320D006
Person / Time
Site:	Oyster Creek
Issue date:	07/14/1980
From:	JERSEY CENTRAL POWER & LIGHT CO.
To:
Shared Package
ML19320C995	List: ML19320C994 ML19320C999 ML19320D006
References
TASK-09-06, TASK-RR NUDOCS 8007180423
Download: ML19320D006 (15)
v • d • e

Text

i JERSEY CENTRAL POWER S LIGHT COMPANY OYSTER CREEK NUCLEAR GENERATING STATION PROVISIONAL OPERATING LICENSE NO. DPR-16 DOCKET NO. 50-219 Applicant hereby requests the Commission to change Appendix A to the License as follows: ,

1. Sections to be changed:

Sections 3.12 and 4.12

2. Extent of changes:

New specifications for additional fire protection systems installed per the Oyster Creek Fire Protection Program.

3. Changes rquested:

Replace Section 3.12 and 4.12 in their entirety with the attached revised Sections 3.12 and 4.12.

4. Discussion:

The changes requested are proposed in order to incorporate Technical Specification requirements on additional fire protection systems that have been installed during the 1980 refueling outage.

The proposed specifications include revisions to the existing Tables in Section 3.12 which have been modified to include system expansions which have been implemented during the 1980 refueling outage.

600718Cb b

3.12-1 3.12 Fire Protection Applicability: Applies to the operating status of Fire Detection / Suppression systems and associated instrtanentation.

Objective: To assure tnat fire in safety related areas is detected and suppressed at an early stage so as to minmize fire damage to safety relatet.

equipnent.

Specification: A. Fire Detection Instrtanentation

1. As a minimum, the fire detection instrtanentation for each fire detection area / zone shown in Table 3.12.1 shall be operable, except as otherwise specified in this section.

2. With the ntanber of operable fire detection instruments less than required by Table 3.12.1;

a. Within one hour, establish a fire watch patrol to inspect the area (s)/ zone (s) with the incperable instrtanent(s) at least once per every 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />, and

b. Restore the inoperable instrtanent(s) to operable status within 14 days or prepare and submit a special report to the Communission within the next 30 days outlining the action taken, the cause of the inoperability and the plans / schedule for restoring the instrianent (s) to operable status.

B. Fire Suppression Water System

1. 'Ihe Fire Suppression Water System shall be operable with:

a. '1%o high pressure pumps, each with a capacity of 2000 GPM, with their discharge aligned to the fire suppression header.

b. Autanatic initiation logic for each fire plaup.

c. An operable flow path capable of taking suction from the fire pond and transferring water through distribution piping with operable sectionalizing control of isolation valves to the yard hydrant curb valves and the first valve ahead of the water flow alarm device on each sprinkler, hose standpipe or spray system riser required to be operable per specifications 3.12.C and 3.12.D.

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3.12-2

2. With less tnan the above required equignent, restore the inoperable equipnent to operable status within 7 days or prepare and submit a Special Report to the commission within the next 30 days outlining the plans and procedures to be used to provide for the loss of redundancy in this system.

3. With no Fire Suppression Water System operable.

a. Within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> establian a backup Fire Suppression Water System

b. Submit a Special Report to the Commission by

telephone within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, and in writing no later than 14 days following the event, outlining the action taken, the cause of the inoperability and the plans / schedule for restoring the system to operable status.

C. Spray and/or Sprinkler Systems

1. The spray and/or sprinkler systems listed in Table 3.12.2 shall be operable.

2. With a spray and/or sprinkler system inoperable within one hour establish a fire watch patrol to inspect the affected area / zone at least once per every 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.

3. Bostore the system to operable status within 14 days or prepare ard subnit a Special Reoort to the Ccumission within the next 30 days outlining the cause of inoperability and the plans / schedule for restoring the system to operable status.

D. Fire Hose Stations

1. '1he Fire Hose Stations listed in Table 3.12.3 shall be i

operable.

2. With a hose station listed in Table 3.12.3 inoperable, within 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> provide additional fire suppression equipnent in te affected area / zone.

E. Fire Barrier Penetration Fire Seals

1. All penetration fire barriers protecting safety related fire areas shall be intact except for periods of planned maintenance.

2. With a penetration fire barrier nonfunctional, within one hour establish a fire watch patrol to inspect both sides of the affected penetration at least once per every 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.

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l 3.12-3 F. Halon Systems

1. The Halon Systems listed in Table 3.12-4 snall be operable with the storage tanks having at least 95% of full charge weight and 90% of full charge pressure. _.

2. With a Halon system inoperable within one hour establish a fire watch patrol to inspect the affected area at least once per every 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.

3. Restore the system to operable status within 14 days or prepare and submit a Special Rerm to the Coninission within the next 30 days outlining the action taxen, the cause of inoperability and the plans / schedule for restoring the system to operable status.

G. Carbon Dioxide (CO2) System

1. The 4160 Volt Switchgear CO2 system snall te operable with a minimun level greater than or equal to 1/2 full and a minimun pressure of 275 psig in the associated storage tank.

2. Witi the CO2 system inoperable, within one hour establish a fire watch patrol to inspect the area at least once per every 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.

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3. Restore the system to operable status within 14 days or )

prepare and subnit a Special Report to the Commission within the next 30 days outlining the cause of inoperability and the plans / schedule for restoring the system to operable status.

Basis:

l Fire Protection systems and instrumentation provide for early detection and rapid extinguishment of fires in safety related areas thus minimizing fire damage. These specifications will assure that in the event of inoperabic fire protection equipnent, corrective action will be initiated in order to maintain fire protection capabilities during all modes of reactor operation.

The pnps in the fire water suppression system have a capacity of 2000 GPM each assuring an adequate supply of water to fire suppression systems. Fire suppression water system operability as defined in 3.12.B.1 applies only as pertains to specification 3.12 and is not applicable to other specifications.

Hose stations are provided for manual fire suppression. In the event that a hose station becomes inoperable, additional' fire suppression equignent will be provided such as portable extinguishers or other means of fire suppression.

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3.12-4 TABLE 3.12.1 FIRE DEFECTION INSTRUMENTATION ,

Required Fire Area / Zone Location Detector Zone # of Detectors 1 Rx. Bld3 119' elev. Sprinkler Sys.#10 1(WFS) 1

" 95' " NA 24*

1

" 75' " NA 22*

1

" 75' " Sprinkler Sys.811 1(WFS)

" 51' " 2 1 RK01/RK02

" 51' " 1 - North 6

" 51' " 2 - North 7

" 51' " 1 - South 6

" 51' " 2 - South 6 38'/51' " Shutdown pump Rs. 7

" 23' " 1 - North 6 1

" 23 " 2 - North 5

" 22' " 1 - South 6

" l-

" 2 - South 6 1

" -19" " NA 4(1 per Corner Im.

3 4160 SG. Rs. Vault 2 (1 in "C" and 1 in "D")

1 4160 SG. Rm. Gen. Area 5 4166 SG. Rm. Battery Rm. 1 4 Cable Spread Rm. 4A-Zone 1 3

" 4A-Zone 2 3

" 4B-Zone 3 4

" 4B-Zone 4 5

l 3.12-S TABLE 3.12.1 FIRE DETECTION I??STRUMENTATION Required Fire Area / Zone Location Detector Zone # of Detectors S Control Room Gen. Area 5

" A-Zone 1 3

" A-Zone 2 3

" B-Zone 1 7*

" B-Zone 2 7*

" C-Zone 1 1

" C-Zone 2 1

" Duct 1 6 480 V. SG Rm. Zone 1 9

" Zone 2 8

" Corridor 1 7 "A" 6 "B" Battery Rm, Zone 1 4

" Zone 2 4 Zone 4 (Duct) 1 8 MG Set Rm. NA 1 (WFS) 10 Monitor & Change Rm. Below Ceiling 2

" Above Ceiling 10*

Sprinkler Sys.#12 1(WFS) 10/1 Laundry Room Sprinkler Sys.813 1(WFS) 11/3 Condenser Bay Sprinkler Sys. #2 1 (P.S.)

11/1 Tur. Lube Oil Deluge Sys.#3 1 (P.S.)

11/2 Tur. B:sement Scuth Sprinkler sys. 9 1 (WFS) 12 Transformers Deluge Sys. #1 1 (P.S..)

" Delugo Sys. #2 1 (P.S.)

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3.12-6 i

TABLE 3.12.1 FIRE DETECTION INSTRUMENTATION Required #

Location Detection Zone _ of Detector Fire Area /Zene 15 Emer. Diesel #1 Thermal 5

" Ionization 1 16 Fuel Storage Area NA 1 17 Emer. Diesel #2 Thermal 5 Ionization 1 18 Fire Water Pump House NA 4 i

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• No two adjacent detectors may be inoperable.

WFS - Water Flow Switch  :

P.S.- Pressure Switch I

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. 3.12-7 TABLE 3.12.2 SPRAY / SPRINKLER SYSTEMS Fire Area Location System 1 Rx. Bldg. 110' Sprinkler Sys. #10 1 Rx. Bldg. 7S' Sprinkler Sy:. #11 1 Rx. Bldg. 51'-!! Deluge Sys. #$

1

" -S Deluge Sys. #6 1 Rx Bldg. 23' -N Deluge Sys. #7

" -S Deluge Sys. #8 4 Cable Spread Room Deluge Sys. #4A

" Deluge Sys.#4B 8 MG Set Room Sprink1cr Sys. #4 10 Monitor & Change Rm. Sprinkler Sys. #12 10 Laundry Room Sprinkler Sys. #13 11 Condenser Bay Sprinkler Sys #2 11 Tur. Lube Oil Bay Deluge Sys. #3 11 Tur. Basement South Sprinkler Sys. #9 12 Transformers Deluge Sys. #1 Deluge Sys. #2 18 Fire Water Pump House Deluge Sys #9

3.12-8 TABLE 3.12.3 HOSE STATIONS CIRE AREA ZONE HOSE STATION NO. LOCATIONS 11 2 3 Tur. Basement-S 11 2 4 Tur. Basement-S 11 1 8 Tur. Basement-N 11 1 9 Tur. Basement-N 11 3 10 Condenser Bay 11 3 11 Condenser Bay 11 3 12 Condenser Bay 11 3 13 Condenser Bay 1 - 29 Rx Bldg. 23' 1 - 30 Rx Bldg. 23' 1 - 31 Rx Bldg. 23' 1 - 32 Rx Bldg. 23' 1 - 33 Rx Bldg. 23' 1 - 34 Rx Bldg.-19' 1 - 35 Rx Bldg.-19' 1 - 36 Rx Bldg.-19' 1 - 37 Rx Bldg.-19' 1 - 38 Rx Bldg. 51' 1 - 39 Rx Bldg. 51' 1 - 40 Rx Bldg. 51' 1 - 41 Rx Bldg. 51' 1 - 42 Rx Bldg. 75' 1 - 43 Rx Bldg. 75' 1 - 44 Rx Bldg. 75' 1 - 45 Rx Bldg. 75' h

'. 3.12-9 TABLE 3.12.3 HOSE STATIONS FIRE AREA ZONE HOSE STATION NO. IDCATIONS 1

- - 46 Rx Bldg. 95' 1 - 47 Rx Bldg. 95' 1 - 48 Rx Bldg. 95'

! - 49 Rx Bldg. 95' i - 50 Rx Bldg. 119' 1 - 51 Rx Bldg. 119' 4 - 52 . Cable Roon 5 - 53 Control Rm.

10 1 54 Chem. Lab 11 2 55 Tur. 51sement S 12,15,16,17 - Hydrant #3 and Hose House #5 Diesel Gen. 4 Transformer Area 14 - Hydrant #2 and Hose House #2 Intake Structure i

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3012-10 TABLE 3.12.4 HALON SYSTEMS Halon1301 Sys. Fire Area Location

1. Battery Room A 4 B 7 Battery Room (office Building)

Cable Tray Room Instrument Shop (Office Building) !

2. 480 Volt Switchgear 6 23' Elev. Between Rx Building 4 l Turbine Building

3. Control Room Panels 5 Control Room

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4.12-1 4.12 Fire Protection Applicability: Applies to tr.e surveillance requirements of tne Fire Protection Systems in safety related areas / zones.

Objective: To specify the minims frequency and type of surveillance to be applied to f. ire protection equipnent and instrtanentation.

Soecifications: A. Fire Detection Instrumentation

1. Each of the instruments in Table 3.12.1 shall be demonstrated operable by a channel function test at least once per 6 montns.

2. The NFPA Code 72D(1977) Class A supervised circuits supervision associated with the detector alarms of each of the above required fire detection instruments snall be demonstrated operable at least once per 6 months.

B. Fire Suppression Water System

1. The Fire Suppression Water System shall be demonstrated operable:

a. At least once per month on a staggered test basis by starting each pump and operating it for at least (15) minutes on recirculation flow.

b. At least once per 12 months by perfornance of a system flush.

c. At least once per 12 months by cycling each testable valve in the flow path through at least one complete cycle of full travel.

d. At least once per 18 months by performing a system functional test which includes simulated automatic actuation of the system throughout its operating sequence, and:

1. Verifying that each pump develops at least 2000 gpn at a system head of 360 feet.

2. Verifying that the ptmp operates for greater than or equal to 60 minutes.

3. Verifying that eacn hign pressure ptmp starts sequentially to maintain the fire suppression water system pressure at 125 psig or greater.

4.12-2

e. At least once per 3 years by performing a flow test of the system in accordance with Chapter 5, Section 11 of the Fire Protection Handbook,14th Edition published by the National Fire Protection Association.

2. The Fire Pump Diesel Engine chall be demonstrated operable:

a. At least once per month by verifying the fuel storage tanx contains at least 275 gallons of fuel.

b. At least once per every 3 months by verifying that a fuel sample, obtained in accordance with ASTM-0270-65, from each tank is within the acceptable limits specified in Table 1 of ASTM L 975-1974 when checked for viscosity, water & sediment.

3. The Fire Ptap Diesel 24 volt battery bank ard associated charger shall be demonstrated operable:

a. At least once per week by verifyirg that:

1. Se electrolyte level of each pilot cell is abcve the plates,

2. The pilot cell voltage is greater than or equal to 2.0 volts,

3. The pilot cell specific gravity, corrected to 77

• F, will be recorded for surveillance review.

4. S e overall battery voltage is greater than or equal to 24 volts.

b. At least once per 3 months by verifying that:

1. The voltage of each connected cell is greater than or equal to 2.0 volts,

2. The specific gravity, corrected to 77

• F, of each cell will be recorded for surveillance review.

3. The electrolyte level of each cell is above the plates.

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4.12-3 l C. Spray and/or Sprinkler Syste:ns

1. The spray and/or sprinkler systems listed in Tablo 3.12.2 shall be demonstrated operable at least once per 18 months:

a. By performing a system functional test which includes simulated automatic actuation of the system and verifying that the automatic valves in tne flow

, path acutate to their correct positions.

b. By inspection of the water headers to verify their integrity.

c. By inspection of eacn open spray nozzle to verify no blockage.

D. liose Stations

1. Each of the hose stations listed in Table 3.12.3 snall be verified operable:

a. At least once per month by visual inspection of the station to assure all equipnent is available.

b. At least once per 18 months by removing the hose for inspection and reracking and replacing all gaskets in the couplirgs that are degraded.

c. At least once per 3 years by:

1. Partially openirs each hose station valve to verify valve operability and no flow blockage.

2. Conducting a hose hydrostatic test at a pressure at least 50 psig greater than the maximum pressure available at that hose station.

E. Penetration Fire Barrier

1. Each penetration fire barrier in fire area boundries shall be verified to be functional by a visual inspection:

a. At least once per 18 months, and w- =

4 4.12-4

b. Prior to declaring a penetration fire barrier functional following repairs or maintenance.

F. Iow Pressure Carbon Dioxide (CO2) System

1. The CO2 system for the 4160 volt emergency switchaear vault shall be demonstrated operable:

a. At least once per week by verifying that the storage tank level is greater than or equal to 1/2 full and the pressure is at least 275 psig.

b. At least once per month by verifying that each manual valve in the flow path is in its correct position.

c. At least once per 18 months by verifying that:

1. The system valves and associated ventilation dampers actuate automatically upon receipt of a simulated actuation signal, and

2. Flow is observed from each nozzle during a

" puff test".

G. Halon Systems

1. Each of the Halon Systems listed in Table 3-12.4 shall be demonstrated operable:

a. At least once per 6 months by verifying Halon storage tank weight or level and pressure.

b. At least once per 18 months by:

1. Verifying the system, including associated ventilation dampers, actuates manually and automatically, upon receipt of a simulated test signal.

2. Performance of a flow test through neaders and nozzles to assure no blockage.

Basis:

Fire Protection systems are normally inactive and require periodic examination and testing to assure their readiness to respond to a fire situation. These specifications detail inspections and tests wnich will demonstrate that this equipnent is capable of performirg its intended function.

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