Proposed Tech Spec Changes,Removing Fire Protection Elements from Tech Specs & Incorporating Elements Into FSAR

ML20203N211
Person / Time
Site:	River Bend
Issue date:	09/12/1986
From:	GULF STATES UTILITIES CO.
To:
Shared Package
ML20203N199	List: ML20203N211 RBG-24383, Application for Amend to License NPF-47,removing Fire Protection Elements from Tech Specs & Incorporating Elements Into Fsar,Per CRGR Recommendations as Expressed in Generic Ltr 86-10.Fee Paid
References
NUDOCS 8609230213
Download: ML20203N211 (55)
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Text

INDEX LIMITING CONDITIONS FOR OPERATION AND SURVEILLANCE REQUIREMENTS SECTION PAGE 3/4.3 INSTRUMENTATION 3/4.3.1 REACTOR PROTECTION SYSTEM INSTRUMENTATION............... 3/4 3-1 3/4.3.2 ISOLATION ACTUATION INSTRUMENTATION..................... 3/4 3-10 3/4.3.3 EMERGENCY CORF COOLING SYSTEM ACTUATION .

INSTRUMENTATION......................................... 3/4 3-30 3/4.3.4 RECIRCULATION PUMP TRIP ACTUATION INSTRUMENTATION ATWS Recirculation Pump Trip System Instrumentation..... 3/4 3-44 End-of-Cycle Recirculation Pump Trip System Instrumentation......................................... 3/4 3-48 l

3/4.3.5 REACTOR CORE ISOLATION COOLING SYSTEM ACTUATION INSTRUMENTATION......................................... 3/4 3-54 3/4.3.6 CONTROL ROD BLOCK INSTRUMENTATION. . . . . . . . . . . . . . . . . . . . . . . 3/4 3-59 3/4.3.7 MONITORING INSTRUMENTATION Radiation Monitoring Instrumentation.................... 3/4 3-65 Seismic Monitoring Instrumentation...................... 3/4 3-70 Meteorological Monitoring Instrumentation. . . . . . . . . . . . . . . 3/4 3-73 Remote Shutdown Monitoring Instrumentation and Controls................................................ 3/4 3-76 Accident Monitoring Instrumentation..................... 3/4 3-81 i Source Range Monitors................................... 3/4 3-85 Traversing In-Core Probe System......................... 3/4 3-86 Qg nien 3/4 3 07 E8' 00 DELETE Ilie Cetection !a;tre;;nt;tien..........................

an Loose-Part Detection System............................. 3/4 8-93 Quo ms Radioactive Liquid Effluent Monitoring l gg 3/4 3-94 oo Instrumentation.........................................

l ni i

Radioactive Gaseous Effluent Monitoring l gg 3/4 3-99 i ao Instrumentation.........................................

0)0.0. 3/4 3-106 3/4.3.8 TURBINE OVERSPEED PROTECTION SYSTEM......................

RIVER BEND - UNIT 1 v

_ -_ . . _ _ _ _ _ . - _ _ _ _ ~ _ . _ . _ _ . _ . - _ _ . _ _ _

i INDEX LIMITING CONDITIONS FOR OPERATION AND SURVEILLANCE REQUIREMENTS SECTION PAGE PLANT SYSTEMS (Continued)

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, , .nu on.uo nosunou ,,-.us..- .... ............................... o , ,. , so 3/4.7.8 AREA TEMPERATURE M0NITORING.............................. 3/4 7-32 3.4.7.9 MAIN TURBINE BYPASS SYSTEM............................... 3/4 7-34 3.4.7.10 STRUCTURAL SETTLEMENT.................................... 3/4 7-35 3/4.8 ELECTRICAL POWER SYSTEMS 3/4.8.1 A.C. SOURCES A.C. Sources-Operating.................................. 3/4 8-1 A.C. Sources-Shutdown................................... 3/4 8-12 3/4.8.2 D.C. SOURCES D.C. Sources - Operating................................ 3/4 8-14 D.C. Sources - Shutdown................................. 3/4 8-18 3/4.8.3 ONSITE POWER DISTRIBUTION SYSTEMS Distribution - Operating................................ 3/4 8-19 Distribution - Shutdown................................. 3/4 8-22 3/4.8.4 ELECTRICAL EQUIPMENT PROTECTIVE DEVICES Primary Containment Penetration Conductor Overcurrent Protective Devices.................................... 3/4 8-25 Other Overcurrent Protective Devices.................... 3/4 8-33 RIVER BEND - UNIT 1 ix

INDEX

-BASES SECTION PAGE INSTRUMENTATION (Continued) 3/4.3.7 MONITORING INSTRUMENTATION Radiation Monitoring Instrumentation................ B 3/4 3-4 Seismic Monitoring Instrumentation.................. B 3/4 3-4 Meteorological Monitoring Instrumentation........... B 3/4 3-5 Remote Shutdown Monitoring Instrumentation.......... B 3/4 3-5 Accident Monitoring Instrumentation................. B 3/4 3-5 Source Range Monitors............................... B 3/4 3-5 Traversing In-Core Probe System..................... B 3/4 3-5 (ihagtvi) rir: e::::ti:: :::tr- :,t:ti: ......................  : :/: : :

L l

Loose-Part Detection System......................... B 3/4 3-6 Radioactive Liquid Effluent Monitoring Instrumentation................................... B 3/4 3-6 Radioactive Gaseous Effluent Monitoring Instrumentation................................... B 3/4 3-7 3/4.3.8 TURBINE OVERSPEED PROTECTION SYSTEM................. B 3/4 3-7 3/4.3.9 PLANT SYSTEMS ACTUATION INSTRUMENTATION............. B 3/4 3-7 3/4.4 REACTOR COOLANT SYSTEM 3/4.4.1 RECIRCULATION SYSTEM................................ B 3/4 4-1 3/4.4.2 SAFETY / RELIEF VALVES. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B 3/4 4-2 3/4.4.3 REACTOR COOLANT SYSTEM LEAKAGE Leakage Detection Systems........................... B 3/4 4-3 Operational Leakage................................. B 3/4 4-3 3/4.4.4 CHEMISTRY........................................... B 3/4 4-4 3/4.4.5 SPECIFIC ACTIVITY................................... B 3/4 4-4 RIVER BENO - UNIT 1 xiii

INDEX BASES SECTION PAGE CONTAINMENT SYSTEMS (Continued) 3/4.6.3 DEPRESSURIZATION SYSTEMS........................... B 3/4 6-5 3/4.6.4 PRIMARY CONTAINMENT AND DRYWELL' ISOLATION VALVES... B 3/4 6-6 3/4.6.5 SECONDARY CONTAINMENT.............................. .

B 3/4 6-6 3/4.6.6 ATMOSPHERE CONTR0L................................. B 3/4 6-7 3/4.7 PLANT SYSTEMS 3/4.7.1 STANDBY SERVICE WATER SYSTEM....................... B 3/4 7-1 3/4.7.2 MAIN CONTROL ROOM AIR CONDITIONING SYSTEM.......... B 3/4 7-1 3/4.7.3 REACTOR CORE ISOLATION COOLING SYSTEM.............. B 3/4 7-1 3/4.7.4 SNUBBERS........................................... B 3/4 7-2 3/4.7.5 SEALED SOURCE CONTAMINATION........................ B 3/4 7-3

=- =  ;/4.7.0 i :: Outra:00:0N SY; TEM;...........................  ; 0/4 7 0 0/?.7.7 T: t' AT 0 A00:McL:55.............................. 2-3/' ? '

3/4.7.8 AREA TEMPERATURE MONITORING........................ B 3/4 7-4

3/4.7.9 MAIN TURBINE BYPASS SYSTEM......................... B 3/4 7-4 i

l 3/4.7.10 STRUCTURAL SETTLEMENT.............................. B 3/4 7-4

. 3/4.8 ELECTRICAL POWER SYSTEMS 3/4.8.1, 3/4.8.2, and 3/4.8.3 A.C. SOURCES, D.C. SOURCES and ONSITE POWER DISTRIBUTION SYSTEMS.............. B 3/4 8-1

! 3/4.8.4 ELECTRICAL EQUIPMENT PROTECTIVE DEVICES............ 8 3/4 8-3 i

RIVER BEND - UNIT 1 xv l

_. _ _ . . _ . . _ _ . _ . _ _ _ . _ . - . . _ _ _ . . _ . _ _ . . . . ~ . - - _ - . . . . . _ - _ _ . . . . . - , _ . , _ _ _ _ _ . _ _ . - _ . - -

INDEX LIST OF TABLES (Continued)

TABLE TITLE PAGE 3.3.7.4-1 Remote Shutdown Monitoring Instrumentation.......... 3/4 3-77 3.3.7.4-2 Remote Shutdown System Controls..................... 3/4 3-78 4.3.7.4-1 Remote Shutdown Monitoring Instrumentation

. Surveillance Requirements........................... 3/4 3-80

) 3.3.7.5-1 Accident Monitoring Instrumentation....'............. 3/4 3-82 4.3.7.5-1 Accident Monitoring Instrumentation Surveillance

, Requirements........................................ 3/4 3-84 IE[ETE. 3.3.7.01 . ire Cetection Inst. w atetien..... ................ 3/4 3 00 3.3.7.10-1 Radioactive Liquid Effluent Monitoring

. Instrumentation..................................... 3/4 3-95 4.3.7.10-1 Radioactive Liquid Effluent Monitoring Instrumentation Surveillance Requirements........... 3/4 3-97 3.3.7.11-1 Radioactive Gaseous Effluent Monitoring Instrumentation..................................... 3/4 3-100 l

4.3.7.11-1 Radioactive Gaseous Effluent Monitoring l

Instrumentation Surveillance Requirements........... 3/4 3-103 3.3.9-1 Plant Systems Actuation Instrumentation............. 3/4 3-108 3 3.9-2 Plant Systems Actuation Instrumentation Setpoints... 3/4 3-110 4.3.9.1-1 Plant Systems Actuation Instrumentation Surveillance Requirements........................... 3/4 3-111 3.4.3.2-1 Reactor Coolant System Pressure Isolation Valves.... 3/4 4-13 3.4.3.2-2 Reactor Coolant System Interface Valves Leakage .

Pressure Monitors................................... 3/4 4-13 3.4.4-1 Reactor Coolant System Chemistry Limits............. 3/4 4-17 4.4.5-1 Primary Coolant Specific Activity Sample and Analysis Program.................................... 3/4 4-20 l

l 4.4.6.1.3-1 Reactor Vessel Material Surveillance Program-Withdrawal Schedu1e................................. 3/4 4-24 l RIVER BEND - UNIT 1 xxv l

-_. _ _ _ _ . . . . _ _ _ _ _ _ . . _ _ . _ _ _ . _ . _ . . _ _ _ _ . _ . _ ..~ _. _._

INDEX.

LIST OF TABLES (Continued)

TABLE TITLE 'PAGE 3.6.1.3-1 Annulus Bypass Leakage Paths....................... 3/4 6-7 3.6.4-1 Containment and Drywell Isolation Valves. . . . . . . . . . . 3/4 6-32 3.6.5.3-1 Secondary Containment VeAtilation System Automatic Isolation Dampers.................................. 3/4 6-53 -

-3. 7. 0. " 1 Tire "e:e 0tetie;;..................................

' 3/472{

eE1ETE)L

- -:.7.:.: 1 yg7g_rir; ny ;;t ;; :::;;i;t xyer;;t n;;;

3.7.8-1 Area Temperature Monitoring......................... 3/4 7-33 i 3.7.10-1 Total Predicted Settlements......................... 3/4 7-36 3.7.10-2 Allowable Differential Settlements of Major

Structural Interface Points...................-..... 3/4 7-37 4.8.1.1.2-1 Diesel Generator Test Schedule...................... 3/4 8-11 4.8.2.1-1 Battery Surveillance Requirements................... 3/4 8-17 3.8.4.1-1 Primary Containment Penetration Conductor Overcurrent Protection Devices...................... 3/4 8-28 l 3

-78.4.2-1 Other Overcurrent Protective Devices................ 3/4 8-34 4.11.1.1.1-1 Radioactive Liquid Waste Sampling and Analysis Program............................................. 3/4 11-2 4.11.2.1.2-1 Radioactive Gaseous Waste Sampling and Analysis Program............................................. 3/4 11-8 3.12.1-1 Radiological Environmental Monitoring Program....... 3/4 12-3 3.12.1-2 Reporting Levels for Radioactivity Concentrations in Environmental Samples............................ 3/4 12-9 l

l 4.12.1-1 Detection Capabilities for Environmental Sample

! Analysis................. .......................... 3/4 12-10

! B 3.2.1-1 Significant Input Parameters to the Loss-of-Coolant Accident Analysis................................... B 3/4 2-3 RIVER BEND - UNIT 1 xxvi

~,

.A MSTRUMENTATION FIh DETECTION INSTRUMENTATION LIMI G CONDITION FOR OPERATION i x

3.3.7.8 A a minimum, the fire detection instrumentation for each fir detection ~

zone shown Table 3.3.7.8-1 shall be OPERABLE.

APPLICABILITY: Whenever equipment protected by the fire detection nstrument is required to OPERABLE.

ACTION:

a. With any, b no more than one-half the total in ny fire zone, Func-tion A fire tection instruments shown in Tabl 3.3.7.8-1 inoperable, restore the in erable Function A instrument ( to OPERABLE status within 14 days o within the next hour, est lish a fire watch patrol to inspect the zo (s) with the inoperable nstrument(s) at least once per hour. If e instrument (s) is 1 cated inside the contain-ment, inspect that c tainment zone at ast once per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> or monitor the containmen air temperatur at least once per hour at the locations listed in pecificatio 4.6.1.8 and 4.6.2.6.

b. With more than one-half of he Fu tion A fire detection instruments in any fire zone shown in Ta le .3.7.8-1 inoperable, or with any Function B fire detection ins ments shown in Table 3.3.7.8-1 inoperable, or with any two re adjacent instruments shown in Table 3.3.7.8-1 inoperable ithi 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> establish a fire watch patrol to inspect the zon s) with he inoperable instrument (s) at least once per hour. If the instru nt(s) is located inside the con-tainment, inspect that ontainment zo at least once per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> or monitor the containm t air temperature at least once per hour at the locations listed in pecification 4.6.1. and 4.6.2.6.

c. The provisions Specifications 3.0.3 and 0.4 are not applicable.

f

( SURVEILLANCE REQUIREME ,

S 4.3.7.8.1 Each of the above required fire detection instrume ts which are accessible durin unit operation shall be demonstrated OPERABL at least once per 6 months b performance of a CHANNEL FUNCTIONAL TEST. Fire etectors which are not acces ible during unit operation shall be demonstrated OP ABLE by the performance f a CHANNEL FUNCTIONAL TEST during each COLD SHUTOOWN ceeding 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> ess performed in the previous 6 months.

l 4.3.7. 2 The NFPA Standard 720 supervised circuits supervision associ ed with e detector alarms of each of the above required fire detection ins ru-men shall be demonstrated OPERABLE at least once per 6 months.

RIVER BEND - UNIT 1 3/4 3-87 l - _ _ _ - . _.

TABLE 3.3.7.8-1 FIRE DETECTION INSTRUMENTATION INSTRUME T LOCATION TOTAL INSTRUMENTS OPER LE*

HEAT FLAME SM0KE (x/y) (x/y) (x/y)

I. CONTROL BUI ING ZONE SD-1 HVAC R M, EL 115'0" & 116'0" 6/0 SD-2 HPCS SW , EL 115'0" & 116'0" 3/0 SD-3 BATTERY R MS (3) & DC EQUIP RMS, EL 115 ' 0' & 116 ' 0" 8/0 SD-4 HVAC ROOM, E 98'0" 6/0 SD-5 STBY SWGR R00 , EL 98'0" 3/0 SD-6 STBY SWGR ROOM EL 98'0" 3/0 SD-15 HVAC ROOM 1A, EL '0" 2/0 SD-16 HVAC ROOM 18, EL 7 '0" 2/0 SD-17 CABLE VAULT, EL 70'0 0/3 SD-18 CABLE VAULT, EL 70'0" 0/4 SD-19 CABLE VAULT, EL 70'0" 0/9 SD-20 CAaLE CHASES, EL 70'0" 17/0 SD-50 CABLE CHASES, EL 98'0" 9/0 50-54 CABLE CHASES, EL 116'0" 10/0 SD-60 125 VDC SWGR & BATT CHGR, EL 115'0" & 116'0" 10/0 SD-61 GENERAL AREA, EL 98'0" 8/0 SD-125 PGCC PANEL MODULE, EL 1 '0" 0/8 10/0 SD-126 PGCC PANEL MODULE, EL 36'0" 0/8 13/0 S0-127 PGCC PANEL MODULE, E 136'0" /8 11/0 SD-128 PGCC PANEL MODULE, L 136'0" 8 9/0 i SD-129 PGCC PANEL MODULE EL 136'0" 0/ 12/0 SD-130 PGCC PANEL MODUL , EL 136'0" 0/8 11/0 l SD-131 PGCC PANEL MOD E, EL 136'0" 0/9 17/0 S0-132 PGCC PANEL M0 LE, EL 136'0" 0/8 17/0 S0-133 PGCC PANEL ULE, EL 136'0" 0/8 13/0 SD-134 PGCC PANEL DULE, EL 136'0" 0/8 12/0 SD-135 PGCC PANE MODULE, EL 136'0" 0/8 9/0 SD-136 PGCC PA L MODULE, EL 136'0" 0/9 9/0 SD-137 PGCC P EL MODULE, EL 136'0" 0/8 8/0 SD-138 PGCC ANEL MODULE, EL 136'0" 0/8 10/0 5D-139 PGC PANEL MODULE, EL 136'0" 0/12 12/0 l SD-140 P PANEL MODULE, EL 136'0" 0/8 14/0 l SD-141 P CC PANEL MODULE, EL 136'0" 0/8 13/0 S0-142 GCC PANEL MODULE, EL 136'0" 0/9 /0

• (x/y): is number of Function A (early warning fire detection and notifi-ation only) instruments.

y is number of Function B (actuation of fire suppression systems and early warning fire detection).

RIVER BEND - UNIT 1 3/4 3-88

L s

TABLE'3.3.7.8-1 (Continued)

FIRE DETECTION INSTRUMENTATION INSTRUMEN LOCATION TOTAL INSTRUMENTS PERABLE*

HEAT FL SM0KE (x/y) y (x/y)

I. CONTROL BU DING  :

ZONE (Conti ed)

SD-143 PGC PANEL. MODULE, EL 136'0" 0/9 17/0 SD-144 ,PGCC ANEL MODULE, EL 136'0" 0/9 17/0 SD-145 PGCC P EL MODULE, EL 136'0" 0/8 8/0 SD-146 PGCC PA L MODULE, EL 136'0" 0/8 8/0 5D-147 PGCC PAN MODULE, EL 136'0" 0/ 2 14/0 SD-148 PGCC PANEL DULE, EL 136'0" /12 18/0 50-149 PGCC PANEL DULE, EL 136'0" 0/10 14/0 50-150 PGCC PANEL M0 JLE, EL 136'0" 0/9 15/0 SD-151 PGCC PANEL MOD' E, EL 136'0" 0/10 10/0 SD-158 PGCC PANEL MODUL , EL 136'0" 0/8 8/0 SD-152 NON PANEL MODULE EA NORTH, E 135'0" 10/0 SD-153 NON PANEL AREA SOU , EL 135' "

x 10/0 50-154 GENERAL AREA, EL 13 0'" 84/0 SD-162 REMOTE SHUTDOWN PANEL IV ,

EL 98'0" , , 1/0 SD-163 REMOTE SHUTDOWN PANEL D II, EL 98'0" 1/0 FD-26 CHARC0AL FILTER 1HVC LT38, EL.115'0" 1/0 FD-27 CHARC0AL FILTER 1 C*FLT3A, -

EL 115'0" 1/0 II. REACTOR BUILDING ZONE i

l SD-57 #CONTAIN NT AREA, EL 114'0" 13/0 SD-104 '#CONTA' ENT AREA, EL 186'3" 17/0 l 50-117 # CONT NMENT AREA, EL 162'3" 7/0 l S0-119 #CO AINMENT AREA, EL 141'0" 13/0 j FD-13 #R IRC PUMPS - DRYWELL, EL 70'0"

! & 98'0" 2/0

• (x/y)- x is number of Function A (early warning fire detection a notifi-cation only) instruments.

y is number of Function B (actuation of fire suppression sys ms and early warning fire detection).

l # e fire detection instruments located within the Containment are not re ufred to be OPERABLE during the performance of Type A Containment Leakage Rate sts.

l l

t RIVER BEND - UNIT 1 3/4 3-89 l

t ,____- - - . . - ,__-__

y-

-- ^^

TABLE 3.3.7.8-1 (Continued)

FIRE DETECTION INSTRUMENTATION INSTRUMEN LOCATION TOTAL INSTRUMENTS 0 RABLE*

HEAT FLAM SMOKE (x/y)- x Wyl ,

III. AUXILIARY BU DING ZONE SD-28 HPCS P 'P ROOM EL 70'0" . , 1/0 S0-29 RHR PUMP 00M B, EL 70'0" 2/0 S0-30 RHR PUMP RAOM C, EL 70'0" 2/0 SD-31 RHR PU;4P R . A, EL 70'0" 2/0 ,

50-32 LPCS PUMP , EL 70'0" 1/0 SD-43 GENERAL AREA T, EL 95'0" 2/0 SD-49 GENERAL AREA, E 141'0" 9/0 SD-52 GENERAL AREA EAS EL 114'0" 5/0 SD-53 GENERAL AREA WEST, L 114'0" 5/0 l

S0-55 PASS ROOM, EL 114'0' 1/0 i 50-96 RCIC PUMP ROOM, EL 70 0/2 SD-97 GENERAL AREA, EL 70'0" 4/0 SD-98 GENERAL AREA EAST, EL 95 2/0 50-99 GENERAL AREA WEST, EL 95' 2/0 50-100 GENERAL AREA WEST, EL 95' " 2/0 S0-101 STANDBY GAS TREATMENT R M" , 4/0 EL 141'0" SD-103 STANDBY GAS TREATMEN ROOM "A",

EL 141'0" 4/0 50-106 ANNULUS MIXING FA AREA, EL 171'0" 3/0 FD-33 STANDBY GAS TREA ENT FILTER "B",

EL 141'0" /0 .

"A",

FD-34 STANDBY GAS T ATMENT FILTER EL 141'0" 1/

SD-164 WATER CURT N, EL 70'0" 0/2 SD-165 WATER CU AIN, EL 141'0" 0/4 IV. FUEL BUILDING i

ZONE SD-33 F L POOL COOLING PUMP AREAS, ,

EL 70'0" 2/0 S0-44 1 ENS *SWG 3A & 4A AREA, EL 95'0" 7/0 S0-59 GENERAL AREA, EL 113'0" 13/0 SD-91 GENERAL AREA, EL 70'0" 7/0 SD-9 NEW FUEL RECEIVING AREA, EL 95'0" 2/0

~

i * (x/ : x is number of Function A (early warning fire detection and notifi-cation only) instruments. i y is number of Function B (actuation of fire suppression systems and

. early warning fire detection).

RIVER BEND - UNIT 1 3/4 3-90

TABLE 3.3.7.8-1 (Continued) bELETE w-FIRE DETECTION INSTRUMENTATION INSTRU T LOCATION TOTAL INSTRUMENTS OPE LE*

- HEAT FLAME SM0KE IV. FUEL B LDING ZONE (Co inued)

S0-110 F L POOL PURIFICATION & BACKWASH 3/0 P AREAS, EL 70'0" SD-111 FUEL 00L COOLER (A & B) AREAS, EL '0" 2/0 50-121 CHARCO FILTER "A" ROOM, EL 148'0" 2/0 50-123 CHARC0AL ILTER "B" ROOM, EL 148'0" 2/0 SD-124 1RMS* CAB 1 AREA, EL 148'0" 4/0 SD-155 GENERAL ARE EL 113'0" 4/0

, FD-35 CHARCOAL FIL R "A" ROOM, El 148'0" /0 FD-36 CHARC0AL FILTE "B" ROOM, EL 148'0" 1/0 V. ELECTRICAL TUNNELS ZONE SD-79 GENERAL AREA, EL 67'6 0/6 SD-80 GENERAL AREA, EL 67'6" 0/6 50-81 GENERAL AREA, EL 67'6" 0/11 SD-82 GENERAL AREA, EL 67'6" 0/12 S0-83 GENERAL AREA, EL 70'0" 0/12 VI. PIPE TUNNEL 76NE SD-86 GENERAL AREA, E 70'0" 0/18 50-87 GENERAL AREA, L 67'6" 0/7 50-88 GENERAL AREA EL 67'6" 0/10

, EL 67'6" 0/17 l 50-89 GENERAL AR VII. DIESEL GENERATOR ILDING ZONE 50-105 GE AL AREA, EL 98'0" 3/0 l

l FD-16 D SEL ROOM DIV. II, EL 98'0" 0/4 IESEL ROOM DIV III, EL 98'0" 0/4

( FD-17 FD-18 DIESEL ROOM DIV I, EL 98'O 0/4

[F

/

l

• (x/ ): x is number of Function A (early warning fire detection and not i-cation only) instruments.

y is number of Function B (actuation of fire suppression systems a early warning fire detection).

i RIVER BEND - UNIT 1 3/4 3-91

_,[ . _ _ . _ _ _ . , .

TABLE 3.3.7.8-1 (Continued) .

FIRE DETECTION INSTRUMENTATION INSTRUMENT CATION TOTAL INSTRUMENTS OPE LE*

HEAT FLAME SMOKE VIII. STANDBY SE ICE WATER PUMP HOUSE ZONE S0-72 STANDB SERVICE WATER PUMP AREA 4/0 SD-73 STANDBY ERVICE WATER PUMP AREA 4/0 I

i i

l i

l n (x/ : x is number of Function A (early warning fire detection and notifi- .'

cation only) instruments.

y is number of Function B (actuation of fire suppression systems and early warning fire detection).

RIVER BEND - UNIT 1 3/4 3-92

PLANT SYSTEMS 3 7.6 FIRE SUPPRESSION SYSTEMS _ _

FIRE PPRESSION WATER SYSTEM l-LIMITING ONDITION 1 FOR OPERATION 3.7.6.1 The f a suppression water system shall be OPERABLE with:

a. Three f e suppression pumps, each with a capacity of 500 gps, with their dis arges aligned to the fire suppression he er,

b. Two separate tre water tanks, each with a minim contained volume

, of 253,000 gal ns, and

c. An OPERABLE flow th capable of taking suct n from both water storage tanks and t ansferring the water th ough distribution piping with OPERABLE sectio lizing control or i lation valves to the yard i

hydrant curb valves, t last valve ahea of the water flow alarm device on each sprinkle or hose standp e, and the last valve ahead of the deluge valve on ea deluge or pray system, required to be OPERABLE per Specifications 3.7.6.5, .7.6.4, and 3.7.6.2.

APPLICABILITY: At all times.

ACTION:

a. With one pump and/or one wa r suppl inoperable, restore the inoperable equipment to OP ABLE statu within 7 days or provide an alternate backu? pump or upply. The p visions of Specifications 3.0.3

and 3.0.4 are not appli ble.

b. With the fire suppres ion water system othe se inoperable, establish a backup fire suppt sion water system within hours.

SURVEILLANCE REQUIREMENT s 4.7.6.1.1 The fire ppression water system shall be demonstrated PERA8LE:

a. At less once per 7 days by verifying the minimum contained ater shoply volume,

b. At east once per 31 days by starting the electric motor driven re s pression pump and operating it for at least 15 minutes on recir -

tion flow.

c. At least once per 31 days by verifying that each valve (manual, power operated or automatic) in the flow path is in its correct position.

RIVER BEND - UNIT 1 3/4 7-18

\_ -. - . - _ , - - - - - - - - - - - - - - - - - - - - - - - - ~ ~ ~ ~ ~ ~ ~ ~ - ~ ~

NLANTSYSTEMS DELETE ShVEILLANCEREQUIREMENTS(Continued)

\ /

d. At least once per 12 months by cycling each testable valve i the flow path through at least one complete cycle of full trav .

e. A least once per 18 months by performing a system func onal test wh h includes simulated automatic actuation of the sy tem throughout its erating sequence, and:

1. Ve ifying that each fire suppression pump de lops at least 225 gpm at a system head of 248 feet,

2. Cyclin each valve in the flow path, thM is not testable during plant op ration, through at least one mplete cycle of full travel, a

3. Verifying th each fire suppress n pump starts sequentially to maintain th fire suppression ater system pressure greater than or equal t 70 psig.

f. At least once per 3 yea by per rming a flow test of the system in accordance with Chapter Sec on 11 of the Fire Protection Handbook, 14th Edition, published by th National Fire Protection Association.

4.7.6.1.2 Each diesel driven fire s p ssion pump shall be demonstrated OPERABLE:

a. At least once per 31 da by;

1. Verifying the f el day tank co tains at least 300 gallons of fuel.

2. Starting t pump from ambient con tions and operating it for greater an or equal to 30 minutes n recirculation flow.

b. At least o e per 92 days by verifying that sample of diesel fuel from the el storage tank, obtained in accor nce with ASTM D270-75, is with the acceptable limits specified in Ta le 1 of ASTM 0975-77 when c ecked for viscosity, water, and sediment.

c. At east once per 18 months, during shutdown, by su ecting the diesel t an inspection in accordance with procedures prepa d in conjunction ith its manufacturer's recommendations for the class f service.

RIVER BEND - UNIT 1 3/4 7-19 i

P SYSTEMS SURVE CE REQUIREMENTS (Continued)

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4.7.6.1.3 Ea diesel driven fire pump starting 24-volt battery bank a charger shall b demonstrated OPERABLE:

a. At least once per 7 days by verifying that:

1. The el ctrolyte level of each cell is above the p ates, and

2. The overa 1 battery bank voltage is greater .th ,or equal to 24 volts.

b. At least once per days by verifying that the specific gravity is appropriate for cont ued service of the batt y. The specific gravity, corrected to 77"F and ull electrolyte level shall bc greater than or equal to 1.200.

c. At least once per 18 month by verifyin that:

1. The battery cases and ba ery ra s show no visual indication of physical damage or abno al eterioration, and

2. Battery-to-battery and termi connections are clean, tight, free of corrosion and coat w h anti-corrosion material.

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RIVER BEND - UNIT 1 3/4 7-20 1

MNTSYSTEMS SP AND/0R SPRINKLER SYSTEMS LIMIT CONDITION FOR OPERATION

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3.7.6.2 Th following spray and sprinkler systems shall be OPERA E:

SYST LOCAT ELEVATION IDE ITY

a. Control Bldg. able Chases 116'0" AS-6A 98'0" AS-6B 70'0" AS-6C WS-6A, WS-6B, WS-6C 115'0" WS-7 , WC-7B

b. Cable Tunnels 67'6"/70'0" W -80, WS-8E, 95-8F, 67'6"/70'0" S-BG, WS-8H, WS-BX, 67'6"/70'0" WS-8L, WS-8M, WS-8N

c. Auxiliary Bldg., RCIC 70'0" PS-1, WS-19 Pump Room 141'0" WS-4A, WS-48, WS-20, AS-12

d. Diesel Generator Bldg. '0" PS-2A, PS-28, PS-2C

e. Fuel Bldg. 9 AS-5 1 '0" WS-5A, WS-5B APPLICABILITY: Whenever equipmen protected y the spray or sprinkler systems is required to be OPERA E.

ACTION:

a. With one or mor of the above required sp or sprinkler systems inoperable, wi in one hour establish a con nuous fire watch with backup fire ppression equipment for those a eas in which redundant systems or omponents could be damaged; for ot r areas, establish an hourly ire watch patrol.

b. The pr isions of Specification 3.0.3 and 3.0.4 ar not applicable.

s RIVER BEND - UNIT 1 3/4 7-21

T' SYSTEMS SUR LLANCE REQUIREMENTS 4.7.6.2 ch of the above required spray and sprinkler systems shall e demonstrate OPERA 8LE:

a. At 1 st once per 31 days by verifying that each valve nual, power erated or automatic) in the flow path is in it correct positio

b. At least o e per 12 months by cycling each testa e valve in the flow path t ough at least one complete cycle of ull travel.

c. At least once r 18 months:

1. By performin a system functional tes which includes simulated automatic act tion of the automatic ystems, and:

a) Verifying t t the automatic alves in the flow path actuate to their corr t positions n a simulated actuation test signal, and b) Cycling each valv in_ e flow path, that is not testable during plant operat , through at least one complete cycle t

of full travel.

2. By a visual inspectio of th dry pipe spray and sprinkler

headers to verify th r integr ty.

3. By a visual inspe ion of each de uge nozzle's spray area

• to verify that the ray pattern is n obstructed.

d. At least once per years by performing an ir or water flow test I

through each ope head spray and sprinkler h ader system

• and verifying that ch open head spray nozzle an sprinkler header system is unobstructe .

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l "The harcoal filter systs.m spray nozzles need only be visually inspected an y fled to be unobstructed each time the charcoal is changed.

RIVER BEND - UNIT 1 3/4 7-22 l

1 - - .

P NT SYSTEMS HALO SYSTEMS x

LIMITINACONDITION FOR OPERATION 1 ,

6eh^-

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I 3.7.6.3 The o11owing main control room Power Generation Control C lex (PGCC)

Halon systems all be OPERABLE with the storage tanks having at 1 st 95% of full charge weight a 90% of full charge pressure:

PGCC Pan ' Module U701 PGCC Panel Module 730 PGCC Panel dule U702 PGCC Panel Modu U731 PGCC Panel dule U703 PGCC Panel Mod e U732 PGCC Panel Mo ule U704 PGCC Panel M ule U740 PGCC Panel Mod e U710 PGCC Panel odule U741 PGCC Panel Modu U711 PGCC Pane Module U742 PGCC Panel Module 712 PGCC Pan Module U743 PGCC Panel Module 13 PGCC P el Module U744 PGCC Panel Module U '4 PGCC anel Module U745 PGCC Panel Module U71 PGC Panel Module U746 PGCC Panel Module U717 PG Panel Module U747 PGCC Panel Module U720 P CC Panel Module U748 PGCC Panel Module U721 GCC Panel Module U799 PGCC Panel Module U723 PGCC Panel Module U750 APPLICABILITY: Whenever equipment prot ed by the Halon systems is required to be OPERABLE.

ACTION:

a. With one or rare of th above require Halon systems inoperable, within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> establish a c tinuous fire wate with backup fire suppression equipment for those areas in which redun nt systems or components could be damaged; or other areas establis an hourly fire watch patrol.

b. The provisions f Specifications 3.0.3 and 3. .4 are not applicable.

SURVEILLANCE REQUIR NTS 4.7.6.3 The a ve required Halon system shall be demonstrated 0 RABLE:

a. A least once per 31 days by verifying that each Halon sy tem storage ank is pressurized to at least 280 psig.

b. At least once per 6 months by verifying Halon storage tank we ht and pressure.

RIVER BEND - UNIT 1 3/4 7-23

J PLANT SYSTEMS bELETE SU EILLANCE x REQUIREMENTS (Continued)

c. At least once per 18 months by:

, Verifying the system actuates, manually and autom ically, upon t receipt of a simulated actuation signal (actual lon releas'e, alon bottle initiator valve actuation, and ele ro-thermal link rning may be excluded from the test), and

2. Per neance of a flow test through headers nd nozzles to assure no bl kage. -

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l RIVER BEND - UNIT 1 3/4 7-24

LANT SYSTEMS F HOSE STATIONS LIMI CONDITION FOR OPERATION

~ 1 3.7.6.4 he fire hose stations shown in Table 3.7.6.4-1 shall be OPE E.

APPLICABILI : Whenever equipment in the areas protected by the fir hose

-stations is r utred to be OPERABLE.

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ACTION:

a. With one r more of the fire hose stations shown i Table 3.7.6.4-1 inoperable, provide gated wye (s) on the nearest 0 IRABLE hose station (s). One outlet of the wye shall be con cted to the standard long of hose provided for the hose tation. The second

-outlet of the e shall be connected to a le th of hose sufficient to provide cover e for the area left unpro acted by the inoperable hose station. Wh e it can be demonstrat that the physical routing of the fire hose wo ld result in a reco izable hazard to operating technicians, plant e ipment, or the h e itself, the fire hose shall be stored in a roll at the outlet of e OPERABLE hose station. Signs shall be mounted above e gated wy s) to identify the proper hose to use. The above ACTIO hall be accomplished within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> if the inoperable fire hose is th pria y means of fire suppression; other-wise route the additional ho ithin 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

b. The provisions of Specificat on 3.0.3 and 3.0.4 are not applicable.

l SURVEILLANCE REQUIREMENTS 4.7.6.4 Each of the fire ho stations shown in T le 3.7.6.4-1 shall be demonstrated OPERABLE:

a. At least once er 31 days by a visual inspect on of the fire hose stations acc sible during plant operation to sure all required equipment i at the station.

b. At leas once per 18 months by:

1. isual inspection of the fire hose stations not cessible during plant operation to assure all required equipment i at the station, j . Removing the hose for inspection and re-racking, and

3. Inspecting all gaskets and replacing any degraded gasket in the couplings.

i RIVER BEND - UNIT 1 3/4 7-25

SYSTEMS 65D x

SURVERLANCE REQUIREMENTS (Continued) x ,

c. least once per 3 years by:

1. Partially opening each hose station valve to verify val e ERABILITY and no' flow blockage.

2. Con cting a hose hydrostatic test at a pressure o 150 psig or at 1 st 50 psig above the maximum fire mair. oper ting pressure, whiche r is greater.

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RIVER BEND - UNIT 1 3/4 7-26 I

TABLE 3.7.6.4-1 bELETE FIRE HOSE STATIONS H0SE LOCATI ELEVATION INDENTIF TION i

a. React Building 114'0" HR - : 22  :

141'0" HR u7, 23 162'3" HR 18, 19, 24, 25 186'3" H - 20, 21, 26

b. Auxiliary Bu ding 70'0" (Stairwell) HR - 84 95'9" HR - 6, 7, 8, 9 114'0" HR - 10,11 141'0" -

HR - 12, 13,~14, 15 170'0" HR - 80

c. Control Building 70'0" HR - 85, 86, 87 98'0" HR - 88, 89, 90 115'0" and 1 '0" HR - 91, 92, 93, 94 135'0" (St rwell) HR - 96

d. Fuei Building 70'0" HR - 1, 2, 82 5'0" HR - 3, 4 1- 'O HR - 81 14 HR - 5

e. Pipe Tunnel 7 ' 6' HR - 83

f. Turbine Building 95'0" HR - 50, 51 123'6" HR - 53 l

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l RIVER BEND - UNIT 1 3/4 7-27

LANT SYSTEMS

\ ELE.TE .

YAM FIRE HYDRANTS AND HYDRANT HOSE HOUSES LIMITIWGCONDITIONFOROPERATION s ,

3.7.6.5 T yard fire hydrants and associated hydrant hose hous shown-in Table 3.7.6. -1 shall be OPERABLE.

APPLICABILITY: Whenever equipment in the areas protected by he yard fire hydrants is requ ed to be OPERABLE.

ACTION:

a. With one or associated hydrant hose houses s renofinthe yard Table fire hydrants 3.7.6.5-1 inopero,ble, within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> have sufficient add ional lengths of 2 1/2 in diameter hose located in an adjacent 0 RABLE hydrant hose ho e to provide service to the unprotected a a(s) if the inopera e fire hydrant or associated hydrant hose house the primary mea of fire suppression; otherwise provide th additional hos within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />,

b. The provisions of Speci cations .0.3 and 3.0.4 are not applicable.

SURVEILLANCE REQUIREMENTS n

4.7.6.5 Each of the yard fire hyd nts an associated hydrant hose houses shown in Table 3.7.6.5-1 shall be demonstrat OPERABLE:

l

a. At least once per 31 ays by visual i pection of the hydrant hose i house to assure all required equipment s at the hose house,

b. At least once pe 6 months, by visually i pecting each yard fire hydrant gn verifying that the hydrant arrel is dry and that the hydr ~ t is not damaged.

c. At least o e per 12 months by:

1. Con cting a hose hydrostatic test at a press re of 150 psig or at least 50 psig above the maximum fire mai operating essure, whichever is greater.

2. Replacement of all degraded gaskets in couplings.

. Performing a flow check of each hydrant.

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RIVER BEND - UNIT 1 3/4 7-28

. TABLE _3.7.6.5-1 YARD FIRE HYDRANTS AND ASSOCIATED HYDRANT HOSE HOUSES LOCATION HYDRANT NUMBER

a. Northeast of Fuel Bldg FHY 11

b. East of Control Bldg FHY 13

c. West of Standby Cooling Tower FHY 98

d. North of Fuel Bldg FHY 1 l

l l *No associated hose house.

l RIVER BEND - UNIT 1 3/4 7-29 l

P NT SYSTEMS 3/4 7 FIRE-RATED ASSEMBLIES LIMITI CONDITION FOR OPERATION

/

3.7.7 All f e barrier assemblies shall be OPERABLE. Fire barrier as emblies include:

a. Walls, loors/ ceilings, cable tray enclosures, and other fire barriers that sep rate safety-related fire areas or that separa portions of redundant ystems, important to safe shutdown, withi a fire area, and

b. All sealing vices in fire-rated assembly penetr fons, including fire doors an fire dampers and cable, piping an v'entilation duct penetration sea , and ventilation seals.

APPLICABILITY: At all times.

ACTION:

a. With one or more of the ove required fre rated assemblies or sealing devices inoperabl. within 1 our establish a continuous fire watch on at least one ide of e affected assembly and/or sealing device or verify the PER LITY of fire detectors on at least one side of the inoperab e ssembly or. sealing device, and i establish an hourly fire watch trol.

l b. The provisions of Specificat'ons 3. 3 and 3.0.4 are not applicable.

SURVEILLANCE REQUIREMENTS

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4.7.7.1 Each of the above r uired fire-rated assemb 'es and penetration sealing devices shall be ve fied OPERABLE at least onc per 18 months by performing a visual inspe ion of:

I a. The exposed s rfaces of each fire-rated assembly.

b. Each fire amper and associated hardware.

c. At leas 10 percent of each type of sealed penetration. If changes ,

in ap arance or abnormal degradations are found, a visua inspection i of a additional 10 percent of each type of sealed penetra on shall be ade. This inspection process shall continue until a 10 ercent s ple is found with no apparent changes in appearance or abn mal egradation. Samples shall be selected such that each penetra 'on seal will be inspected at least once per 15 years.

RIVER BEND - UNIT 1 3/4 7-30

T SYSTEMS SUR ILLANCE REQUIREMENTS (Continued)

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4.7.7.2 ch of the above required fire doors shall be verified OPE LE by inspecting he automatic hold-open, release and closing mechanism an latches at least onc per 6 months, and by verifying:

a. At le st once per 31 days, the OPERABILITY of the fir door super-vision ystem for each electrically supervised fire or by performing a CHANN FUNCTIONAL TEST.

b. At least on e per 7 days, that each locked-close fire door is closed.

c. At least once er 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, that doors with a omatic hold-open and release mechani s are free of obstructions nd, at least once per 18 months, by pe orming a functional test f these mechanisms.

d. At least once per 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />, that each u ocked fire door without electrical supervisio is closed.

RIVER BEND - UNIT 1 3/4 7-31

INSTRUMENTATION i BASES MONITORING INSTRUMENTATION (Continued) 0/4. 2. 7. 0 f!"E SETECT!0M IMST"""fMnTIOu

!/ OPERABILITY of the fire detection instrumentation ensures both that ade-qua arning capability is available for prompt detection of fires and tha fire sup ssion systems, that are actuated by fire detectors, will dis rge extinguishin ent in a timely manner. Prompt detection.and,suppr on of fires will reduc he potential for damage to safety-related a nt and are integral elements in e overall facility fire ~ protection ram.

Fire detectors that are d to actuate fire ression systems represent a more critically important comp t of a pla s fire protection program than detectors that are installed solely ea fire warning and notification.

Consequently, the minimum number of OP fire detectors for fire suppression must be greater than the minimum er of de tors for fire warning.

i I The loss of detectio pability for fire suppre n systems, actuated

!' by fire detectors, re ents a significant degradation o re protection for any area. As a r t, the establishment of a fire watch pat must be ini-tiated at an ier stage than would be warranted for the loss o tectors that prov )

only early fire warning. The establishment of frequent patrols i

in t facted areas is required to provide detection capability until t erable instrumentation is restored to OPERABILITY.

3/4.3.7.9 - LOOSE-PART DETECTION SYSTEM The OPERA 8ILITY of the loose part detection system ensures that sufficient cap' ability is available to detect loose metallic ' parts in the primary system and avoid or lessen damage to primary system components. The allowable out-of-service times and surveillance requirements are consistent with the recommend-ations _of Regulatory Guide 1.133, " Loose-Part Detection Program for the Pritsary System of Light-Water-Cooled Reactors," May 1981.

3/4.3.7.10 RADI0 ACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION The radioactive liquid effluent monitoring instrumentation is provided to i monitor and control, as applicable, the releases of radioactive materials in liquid effluents during actual or potential releases of liquid effluents. The alare/ trip setpoints for these instruments shall be calculated and adjusted in accordance with the methodology and parameters in the ODCM to ensure that the alarm / trip will occur prior to exceeding the limits of 10 CFR Part 20. The OPERABILITY and use of this instrumentation is consistent with the requirements of General Design Criteria 60, 63 and 64 of Appendix A to 10 CFR Part 50.

RIVER BEND - UNIT 1 8 3/4 3-6

1 PLANT SYSTEMS BASES p SNUBBERS (Continued) that the snubbers periodically undergo a performance evaluttion in view of

their age and operating conditions. These records will provide statistical bases for future consideration of snubber service life. The requirements for the maintenance of records and of the snubber service life review are not intended to affect plant operation.

3/4.7.5 SEALED SOURCE CONTAMINATION The limitations on removable contamination for sources requiring leak testing, including alpha emitters, is based on 10 CFR 70.39(c) limits for plutonium. This limitation will ensure that leakage from byproduct, source, and special nuclear material sources will not exceed allowable intake values.

Sealed sources are classified into three groups according to their use, with surveillance requirements commensurate with the probability of damage to a source in that group. Those sources which are frequently handled are required

to be tested more often than those which are not. Sealed sources which are continuously enclosed within a shielded mechanism, i.e., sealed sources within radiation monitoring devices, are considered to be stored and need not be tested unless they are removed from the shielded mechanism.

l 0/47.0 TIRC 0"77 C0S!0N SY0TCE The OPERABILITY of the fire suppression systems ensures that adequate i fir uppression capability is available to confine and extinguish fires i occurr in any portion of the facility where safety related equipment i located. fire suppression systems consist of the water system, s y t and/or sprin systems, Halon system and fire hose stations. T collective capability of th ire suppression systems is adequate to mini e potential damage to safety re ed equipment and is a major element i he facility fire j protection program.

In the event that portio of the fire suppr ion systens are inoperable, alternate backup fire fighting e ment is re red to be made available in the affected areas until the inopera eq nt is restored to service. When the inoperable fire fighting equipment ntended for use as a backup means of fire suppression, a longer period ti is allowed to provide an alternate means of fire fighting than if th noperable utpment is the primary means of fire suppression.

The surveillance r irements provide assurance th the minimum OPERABILITY require s of the fire suppression systems ar t. An l

allowance is made or ensuring a sufficient volume of Halon in e Halon l storage tanks verifying the weight and pressure of the tanks.

In e event the fire suppression water system becomes inoperable.

l imme ate corrective measures must be taken since this system provides the y or fire suppression capability of the plant.

! RIVER BEND - UNIT 1 B 3/4 7-3

PLANT SYSTEMS BASES MM APPr 9FP

,n ,i,n .,., .V .tnun om r nA9.Fn

m. me ,m.u.n t. .m The 0"E"f.SILITY Of the 'fr: b:r-ter: :nd bar-fer penetr:tien: n tre th:t

-fir; d;;;;; will be li=fted. Th :: de:fgn fe:ture: =in!=i:0 the per:ibi'ity

-e # : !!ngle '4re i~fe!"i g n mere ther en: ' ire :re: prier t: detectien and-

-entin;ui:5 ent. The # ire ber-fers, #4re bar-fer penetratient fer cenduitsy-

-::ble tr:y: nd piping, " re d p:r , :nd fire d::r: cre p riedically in:pected-

-t: ;;ri fy th:f r 0."E"^"!LI".

3/4.7.8 AREA TEMPERATURE MONITORING The area temperature limitations ensure that safety-related equipment will not be subjected to temperatures in excess of their environmental qualification temperatures. Exposure to excessive temperatures may degrade equipment and can cause loss of its 0FERABILITY.

3/4.7.9 MAIN TURBINE BYPASS SYSTEM The main turbine bypass system is required to be OPERABLE consistent with the assumptions of the feedwater controller failure analysis in FSAR Chapter 15.

i 3/4 7.10 STRUCTURAL SETTLEMENT  ;

Structural settlement limitations are imposed and required to be verified so as to preserve the assumptions made in the static design of the major safety 1

related structures.

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RIVER BEND - UNIT 1 8 3/4 7-4

i 6.0 ADMINISTRATIVE CONTROLS 6.1 RESPONSIBILITY 6.1.1 The Plant Manager shall be responsible for overall unit operation and shall delegate in writing the succession to this responsibility during his absence.

6.1.2 The Shift Supervisor (or during his absence from the control room, a designated individual) shall be responsible for the control room command function.

A management directive to this effect, signed by the Senior Vice President -

River Bend Nuclear Group, shall be reissued to all station personnel on an annual basis. .

6.2 ORGANIZATION OFFSITE 6.2.1 The offsite organization for unit management and technical support shall be as shown on Figure 6.2.1-1.

UNIT STAFF 6.2.2 The unit organization shall be as shown on Figure 6.2.2-1 and:

a. Each on-duty shift shall bc composed of at least the minimum shift crew composition shown in Table 6.2.2-1;

b. At least one licensed Operator shall be in the control room when fuel is in the reactor. In addition, while the unit is in OPERATIONAL CONDITION 1, 2 or 3, at least one licensed Senior Operator shall be in the control room;

c. A Radiation Protection Technician

• shall be on site when fuel is in the reactor;

d. All CORE ALTERATIONS shall be observed and directly supervised by either a licensed Senior Operator or licensed Senior Operator Limited to Fuel Handling who has no other concurrent responsibilities during this operation; and. l

. ^ :ite fir: brigade of et leert 'ive n:15ere the!' be maintained er zit: :t :11 times *. The 'i re brigade shel' net i nclude the Shift-Su; rv :er, the Shift Tech-10:1 ^.dv rer, the Centre! Oper: ting Fer n:n, i i BELETE o;r th; t= Oth:r ;=i07: Of the in'?2e :Hft err nece::ery for-safe-

hatdc.;n of the unit =d =y ;;;r

=n;1 r;;uired for other essential-

'enetient durin g a 'ir e :::rgency; and "The Radiation Protection Technician =d fir: brig:d: c c,,s itia may be less than l the minimum requirements for a period of time not to exceed 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />, in order to accommodate unexpected absence, provided immediate action is taken to fill the required positions.

RIVER BEND - UNIT 1 6-1

ENCLOSURE 2 I

RBS FSAR suppression systems are included in Appendix 9A. l11 Inspection and Testing Requirements

.1.4 hunt A inspections, and cervicing riodic operational checks, required to maintain fire protection systems, including the alarm detection system, follow the guidance provided in the l15 PA standards.

34Ed Personnel Qualificat' ion and Training

. .1.5 the Qualifications of the personnel responsible fordesign preparation of the Fire Hazards Analysis and for the and selection of equipment are provided in the Fire Protection Program Evaluation Report (Appendix 9A),

Section 9A.1.2. Personnel responsible for the development l11 of the RBS fire protection program; maintenance, inspection, I

, and testing of fire protection equipment; and training of firefighting personnel are discussed in Section 9A.3.2.1. A discussion of all aspects of fire protection training for i 18 RBS is provided in Section 13.2.1.1.11. 1 Secti.1n 9A.3.2 (Administrative Procedures, Controls and Fire Brigade) conforms with BTP APCSB 9.5-1 and Section 9B.4.8, 9B.4.9, and 9B.4.11 (Fire Brigade, Fire Brigade Training, ar.d Administrative Controls) conforms with Items III.H., 11 III.I, and III.K, respectively, of Appendix R to 10CFR50.

ATJSB 9.5-1 and Appendix R sections listed abov3 have the same intent as BTP CMEB 9.5-1 Sections C.2 and C.3.

Procedures are provided (shown in Section 13.5) to maintain the performance of the fire protection systems and to set forth the responsibilities, duties, and controls for the j fire protection program in the following general arpas:

1. Administrative Procedures

a. Responsibilities and authorities 1

b. Organizational relationships l

2. Fire Protection Procedures

a. Control of ignition sources l

b. Control of transient combustibles i

i c. Duties of a fire watch

d. Fire report Amendment 16 9.5-9 February 1985

INSERT A to 9.5.1.4 Page 9.5-9 Administrative controls are provided .through existing station operating and quality assurance procedures, to ensure that the Fire Protection Program and equipment is. properly maintained. This includes OA audits of the program implementation, conduct of periodic tests, inspections, and remedial actions for systems and barriers out of service. This program emphasizes those elements of fire protection that are associated with safe shutdown as described in Appendix 9A and their significance when evaluati.ng program and equipment deficiencies.

INSERT B to 9.5.1.4 Page 9.5-9 Equipment out of service including fire suppression, detection, and barriers will_ be controlled through an administrative prograr. The program requires all impairments to fire protection system to be identified and appropriate notification given to the Shift Supervisor.

The Shift Supervisor will ensure operability of fire protection systems ir; accordance with operability requirements discussed herein.

Where such operability requirements are not met, the Shift Supervisor will ensure that the appropriate remedial actions are taken. As conditions warrant remedial actions would include compensatory measures to ensure equivalent level of fire protection in addition to timely efforts to effect repairs and restore equipment to service.

+

INSERT B to 9.5.1.4 (Continued) 9.5.1.4.1 Fire Detection Instrumentation 9.5.1.4.1.1 Operability

1. As a minimum, the fire detection instrumentation for each fire detection zone shown in Fig. 9A.2-10 shall be operable whenever equipment protected by the fire detection instrument is required to be operable.

2. With any, but no more than one-half the total in any fire zone, Function A (early warning fire detection and notification only instruments) fire detection instruments shown in Fig. 9A.2-10 inoperable, the inoperable Function A instrument (s) will be restored to operable status within 14 days or, within the next hour, a fire watch patrol will be established to inspect the zone (s) with the inoperable instrument (s) at least once per hour. If the instrument (s) is located inside the containment, the containment zone will be inspected at least once per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> or the containment air temperature will be monitored at least once per hour at the locations listed in Technical Specification 4.6.1.8 and 4.6.2.6.

3. With more than one-half of the Function A fire detection instruments in any fire zone shown in Fig. 9A.2-10 inoperable, or with any Function B (actuation of fire suppression systems and early warning fire detection) fire detection instruments shown in Fig. 9A.2-10 inoperable, or with any two or more adjacent instruments shown in Fig.

9A.2-10 inoperable a fire watch patrol will be established within 1 haur to inspect the zone (s) with the inoperable instrument (s) at least once per hour. If the instrument (s) is located inside the 2

m containment, that containment zone will' be_ inspected at least once per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> or the~ containment air temperature will be monitored at least once per hour. .at1 the-locations listed in Technical

' Specification.4.6.1.8 and'4.6.2.6.

9.5.1.'4.1.2 Surveillance

1. Each of the ' required. fire ~ detection.

instruments shown in Fig. 9A.2-10 which are accessible during . unit foperation:

shall be demonstrated operable at:least once.per 6 months l by ' performance:.of. a channel functional test. . Fire detectors

.which are' 'not accessible during- unit operation shall be demonstrated operable.

by, .the performance' of a channel functionalLtest during each-cold shutdown exceeding 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. unless performed in the previous 6 months.

. 2. The NFPA Standard 72D supervised circuits supervision associated with the. ~ detector alarms of each of the required fire detection instruments shown in Fig.

9A.2-10 shall be demonstrated' operable at least once per 6 months.

9.5.1l4.2 Fire Suppression Water Systeg 9.5.1.4.2.1 Operability

.1. The fire suppression water system shall be operable with:

a. Three fire suppression pumps, each:

with.a capacity of 1500 gpm, with their discharges _ aligned to the fire

. suppression hecdcr.

b. Two separate. fire water tanks, each with a minimum contained volume of 253,000 gallons, and

c. An operable flow path capable of taking suction from both water storage tanks and transferring the water through distribution piping with operable sectionalizing' control 3

\ . . _ . . . _ . - . _ _ , . _ - _ _ _ _ . _ . _ _ . . _ . _ . _ _ - . _ .

r-or isolation valves to the yard hydrant curb valves, the last valve ahead of the water flow alarm device on each sprinkler or hose standpipe, and the last valve ahead of the deluge valve on each deluge or spray system, required to be operable per Sections 9.5.1.4.3, 9.5.1.4.5 and 9.5.~1.4.6.

2. With one pump and/or one water supply inoperable, the inoperable equipment will be restored to operable status within 7 days or an alternate backup pump or supply will be provided.

3. With the fire suppression water system otherwise inoperable, a backup- fire suppression water system will be established within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

9.5.1.4.2.2 Surveillance

1. The fire suppression water system shall be demonstrated operable:

a. At least once per 7 days by verifying .the minimum contained-water supply volume.

b. At least once per 31 days by starting the electric motor driven fire suppression pump and operating it for at least 15 minutes on recirculation flow.

c. At least once per 31 days by verifying that each valve (manual, power operated or automatic) in the flow path is in its correct i position.

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

! e. At least one per 18 months by performing a system functional test which includes simulated automatic l

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actuation of the system throughout its operating sequence, and:

1) Verifying that each fire suppression pump- develops at least 2250 gpm at a system head of 248 feet, ,

2) Cycling each valve in the flow path, that is not testable during plant operation, through at least one complete cycle of full travel, and

3) Verifying that each- fire suppression pump starts sequentially to maintain the fire suppression water system pressure greater than or equal to 70 psig,

f. 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. Each diesel driven fire suppression pump shall be demonstrated operable:

a. At least once per 31 days by;

1) Verifying the fuel day tank contains at least 300 gallons of fuel.

2) Starting the pump from ambient conditions and operating it for greater than or equal to 30 minutes on recirculation flow,

b. At least once per 92 days by verifying that a sample of diesel fuel from the fuel storage tank, obtained in accordance with ASTM D270-75, is within the acceptable limits specified in Table 1 of ASTM D975-77 when checked for viscosity, water, and sediment.

5

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c. At least once per 18 months, during shutdown, by subjecting the diesel to an inspection in accordance with-procedures prepared in conjunction with its- manufacturer's recommendations for the class of service.

3. Each diesel driven fire pump starting 24-volt battery bank and charger shall be demonstrated operable:

a. At least once per 7 days by verifying that:.

1) The electrolyte level of each.

cell is above the plates, and *

2) The. overall battery bank voltage is greater than or-

, equal to 24 volts.

j' b. At least once per 92 days. by.

verifying that the specific gravity

< is appropriate for continued service of the battery. The specific 4 gravity, corrected to 77 F and full electrolyte level, shall be greater than or equal to 1.200.

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

1) The battery cases and battery

. racks show no visual indication

! of physical damage or abnormal deterioration, and

2) Battery-to-battery and terminal connections are clean, tight, free of corrosion and coated with anti-corrosion material.

9.5.1.4.3 Spray and Sprinkler Systems 9.5.1.4.3.1 Operability f 1. The spray and sprinkler systems listed in Fig. 9A.2-9 shall be operable whenever i

6 1

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equipment protected by the spray or sprinkler systems is required to be operable.

2. With one or more of the required spray or sprinkler systems inoperable, within one hour a continuous fire watch with backup fire suppression equipment for those areas in which redundant systems or components could be damaged will be established. For other areas, an hourly-fire watch patrol will be established.

9.5.1.4.3.2 Surveillance

1. Each of the spray and sprinkler systems listed in Fig. 9A.2-9 shall be demonstrated operable:

a. At least once per 31 days by verifying that each valve (manua),

power operated or automatic) in the flow path is in its correct position,

b. At least one per 12 months by cycling each testable valve in the flow path through at ~1 east one complete cycle of full travel.

c. At least.once per 18 months:

1) By performing a system functional test which includes simulated automatic actuation of the automatic systems, and:

a) Verifying that the automatic valves in the flow path actuate to their correct positions on a simu?.ated actuation test signal, and b) Cycling each valve in the flow path, that is not testable during plant operation, through at

least one complete cycle of full travel.

7

2) By a visual inspection of the dry pipe spray and sprinkler headers to verify their integrity.

3) By a visual inspection of each deluge nozzle's spray area

• to verify that the spray pattern is not obstructed.

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d. At least once per 3 years by performing an air or water flow test through each open head spray and sprinkler header system

• and verifying that each open head spray nozzle and sprinkler header system is unobstructed.

9.5.1.4.4 Halon Systems 9.5.1.4.4.1 Operability

1. The Main Control Room Power Generation Control Complex (PGCC) Halon systems listed in Table 9.5-7 shall be operable with the storage tanks having at least 95% of full charge weight and 90% of full charge pressure whenever equipment protected by the Halon systems is required to be operable.

2. With one or more of the required Halon systems listed in Table 9.5-7 inoperable, within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> a continuous fire watch with backup fire suppression equipment for those areas in which redundant systems or components could be damaged:

will be established. For other areas an hourly fire watch patrol will be established.

9.5.1.4.4.2 Surveillance

1. The Halon systems listed in Table 9.5-7 shall be demonstrated operable:

a. At least once per 31 days by verifying that each Halon system storage tank is pressurized to at least 280 psig.

! *The charcoal filter system spray nozzles need only be visually inspected and verified to the unobstructed each time the charcoal is changed.

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b.. At least once per '6 months by verifying Halon storage tank weight and pressure.

j c. At least once per 18 months. by 4

verifying the systen- -actuates, manually and automatically, upon receipt of a simulated actuation signal (actual Halon release,- Halon bottle- initiator. valve actuation, and electro-thermal link burning may be excluded from the test).

d. Performance of a flow test through headers and nozzles to assure no blockage.

9.5.1.4.5 Fire Hose Stations 9.5.1.4.5.1 Operability 4

1. The fire hose stations listed in Table 9.5-8 shall be operable whenever equipment in .the areas protected by the fire hose stations is required to be operable.

2. With one or more of the fire- hose n stations shown in Table 9.5-8 inoperable, provide gated wye (s) on the nearest operable hose station (s) . One outlet of 1 the wye shall be connected to the '

standard length of hose provided for the hose station. The second outlet of the wye shall be connected to a length of hose sufficient to provide coverage for i the area left unprotected by the inoperable hose station. Where it can be demonstrated that the physical routing of the fire hose would result in a

. recognizable hazard to operating

! technicians, plant equipment, or the hose itself, the fire hose shall be stored in i a roll at the outlet of the operable hose station. Signs shall be mounted above the gated wye (s) to identify the proper i hose to use. The above action shall be accomplished within 1 hour if the inoperable fire hose is the primary means p of fire suppression; otherwise route the

additional hose within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

i 10

. . . . . . ,, . _ _ _ _ _ . - _ _ . _ _ - _ . . - . - _ . -- _. .-._ _ _ ---_ _ _ , ~ .~. --__ _ _ _ ._

9.5.1.4.5.2 Surveillance

1. Each of the fire hose stations listed in Table -9.5-8 shall be demonstrated operable:

a. At least once per 31 days by a visual inspection of the fire hose stations accessible during plant operation to assure all required equipment is at'the station,

b. At least once per 18 months by:

1) Visual inspection of the fire hose stations not accessible during plant operation to assure all required equipment' is at the station.

2) Removing the hose for inspection and re-racking, and

3) Inspecting' all gaskets and replacing any degraded gaskets in the couplings.

c. At least once per 3 years by:

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

2) Conducting a hose hydrostatic test at a pressure of 150 psig or at least 50 psig above- the maximum fire main operating pressure, whichever is greater.

9.5.1.4.6 Yard Fire Hydrants and Hydrant Hose Houses 9.5.1.4.6.1 Operability

1. The yard fire hydrants and associated hydrant hose houses listed in Table 9.5-9 shall be operable whenever equipment in the areas protected by the yard fire hydrants is required to be operable.

I 11

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4 i

2. With one or more of the yard fire hydrants or. associated hose houses listed -

in Table-9.5-9 inoperable, within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> have sufficient- additional lengths of 2 '

1/2 inch diameter hose located in- an adjacent operable hydrant hose house to provide service ~

to the - unprotected-area (s) if the inoperable fire hydrant or associated hydrant hose house- is the primary means of fire' suppression; otherwise provide the additional hose' 1 within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

9.5.1.4.6.2 Surveillance

- 1.- - Each of .the yard fire hydrants and' associated hydrant hose houses listed in Table 9.5-9 shall be demonstrated

, operable:

a. At least once per 31 days by-. visual inspection of the hydrant hose house

to assure all required equipment is at the' hose house.

b. At ,least once per 6 ' months, by visually inspecting each' yard fire hydrant- and verifying that the hydrant barrel is dry and that, the hydrant is not damaged.

c. At least once per 12 months by:

i

1) Conducting a hose hydrostatic test at a. pressure of 150 psig or at least 50 psig above the maximum ~ fire main operating pressure, whichever is greater.

! 2) Replacement of all degraded gaskets in couplings.

. 3) Performing a flow check of each hydrant.

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9.5.1.4.7 Fire Rated Assemblies 9.5.1.4.7.1 Operability

1. All fire barrier assemblies

• shall be operable at all times. Fire barrier assemblies include:

a. Walls, floors / ceilings, cable tray enclosures, and other fire barriers.

that separate safety-related fire areas or that separate portions of redundant systems, important to safe shutdown, within a fire area, and

b. All sealing devices in fire-rated assembly penetrations, including fire doors -and fire dampers and cable, piping and ventilation duct penetration seals, and ventilation seals.

2. With one or more of the required fire-rated assemblies or sealing devices inoperable, within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> a continuous fire watch will be established on at least one side of the affected assembly and/or sealing or the operability of fire detectors on a least one side of the inoperable assembly or sealing device will be verified, and an hourly fire watch patrol will be established.

9.5.1.4.7.2 Surveillance

1. Each of the required fire-rated assemblies and penetration sealing devices shall be verified operable at least once per 18 months by performing a visual inspection of:

a. The exposed surfaces of each fire-rated assembly,

b. Each fire damper and associated hardware.

• The requirements delineated in this section are applicable to only those fire barrier assemblies necessary for safe shutdown.

13

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. c. At least 10 percent of each type of sealed penetration. If changes in appearance or abnormal degradations are found, a visual inspection of an additional 10 percent of each type of sealed penetration shall be made.

This inspection process shall continue until a 10 percent sample is found with no apparent changes in appearance or abnormal degradation.

Samples shall be selected such that each penetration seal will be inspected at least once per 15-years.

2. Each of the required fire doors shall be verified operable by inspecting the automatic hold-open, release and closing mechanism and latches at least once per 6 months, and by verifying:

a. At least once per 31 days,- the operability of the fire door supervision system for each electrically supervised fire door by performing a channel functional test.

b. At least once per 7 days, that each locked-closed fire door is closed.

c. At least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, that doors with automatic hold-open and release mechanisms are free of obstructions and, at least once per 18 months, by performing a functional test of these mechanisms.

d. At least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, that each unlocked fire door without electrical supervision is closed.

14 l

RBS FSAR 9

taken to locate the compressor in areas free of dust and contaminants.

RIVER BEND STATION POSITION hSEECT The site fire brigade is trained and e ipped to ensure an adequate manual fire fighting capability or protection of safety-related structures, systems, a d components. Five members of each shiftr have fire briga e duties and are 33 required to pass an annual physi.ca examination. These shift members normally include a Nuclea Control Operator, two Nuclear' Equipment Operators, oe Test Technician -

Nuclear, and one Chemistry Tech cian l' or Radiation Protection Technician, but not both. If sufficient numbers of trained personnel are not available from the above, other individuals who are qualified as fire brigade members will be assigned to that shift to complete the five-man fire brigade.- The Nuclear Control Operator acts as fire brigade g3 leader and informs the Shift Supervisor from the scene of the fire. The fire brigade leader understands the effects of fire and fire suppressants on safe shutdown capability two additional brigade members possess similar knowledge).

Turnout coats, boots, gloves, hard hats, portable hand lights and extinguishers are provided for fire brigade members. Page party /public address (PP/PA) equipment is available for emergency communications. In the main control room 10 full-face, positive pressure, self-contained breathing apparatuses (SCBA), and 3 spare air bottles per SCBA are provided for fire brigade use. Each SCBA supplies one individual for 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> during moderate exertion. Routine replenishment is available through a casade system located onsite with offsite replenishment available through compressed gas suppliers in the Baton Rouge area.

l 9B.4.9 Fire Brigade Training (Item III.I of Appendix R)

The fire brigade training program shall ensure that the capability to fight potential fires is established and maintained. The program shall consist of an initial classroom instruction program followed by periodic classroom instruction, fire fighting practice, and fire drills.

1. Instruction

a. The initial classroom instruction shall include:

Amendment 17 9B.4-7 March 1985 t

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-. _ , . _, ..__. - _ . . , - . - . . . ~ _ , _ . _ - , _ . - - - - . _ - . . _ . _ . _ . . . _ . . _ _ _ _ - _ . . . . ~ . _ - . . _ _ - _ - . . . . _ ,

INSERT A to 9B.5.9 Page 9B.4-7 The fire brigade shall not include the Shift Supervisor, the Shift-Technical Advisor, the . Control Operating Foreman, nor the two other members of the minimum shift crew necessary for safe shutdown of the unit and any personnel required for other essential functions during a fire emergency.

INSERT B to 9B.5.9 Page 9B.4-7 The fire brigade composition may be less than the minimum requirements for a period of time not to exceed two hours, in order to accommodate unexpected absence, provided that immediate action is taken to fill the required positions.

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, l . . . . . . . . . . . . . . . . . . i r I C 3

. FS AR Fisuae. 9 A. 2 - IO DJMET A HEAT fm0KE (A/63 (A/6) 12r SD-125 PGCC PANEL MODULE, EL 136'0" ~

126 SD-126 0/8 10/0 PGCC PANEL MODULE, EL 136'0" 0/8 12.7 SD-127 PGCC PANEL MODULE, EL 136'0" 13/0 128 SD-128 0/8 11/0 PGCC PANEL MODULE, EL 136'0" 0/8 11 9 SD-129 PGCC PANEL MODULE, EL 136'0" 9/0 130 SD-130 0/9 12/0 PGCC PANEL MODULE, EL 136'0" 0/8 i 131 SD-131 PGCC PANEL MODULE, EL 136'0" 11/0 132 SD-132 0/9 17/0 PGCC PANEL MODULE, EL 136'0" 0/8 133 SD-133 PGCC PANEL MODULE, EL 136'0" 17/0 134 SD-134 0/8 13/0 PGCC PANEL MODULE, EL 136'0" 0/8 135' SD-135 PGCC PANEL MODULE, EL 136'0" 12/0 13 6 SD-136 0/8 9/0 PGCC PANEL MODULE, EL 136'0" 0/9 i (31 SD-137 PGCC PAN 2L MODULE, EL 136'0" 9/0 J33 SD-138 0/8 8/0 PGCC PANEL MODULE, EL 136'0" 0/8 131 SD-139 PGCC PANEL MODULE, EL 136'0" 10/0 140- SD-140 0/12 12/0 PGCC PANEL MODULE, EL 136'0" 0/8 141 SD-141 PGCC PANEL MODULE, EL 136'0" 14/0 141 SD-142 0/8 13/0 PGCC PANEL MODULE, EL 136'0" 143 SD-143 0/9 16/0 PGCC PANEL MODULE, EL 136'0" N4 SD-144 0/9 17/0 PGCC PANEL MODULE, EL 136'0" 145 SD-145 0/9 17/0 PGCC PANEL MODULE, EL 136'0" 146 SD-146 0/8 8/0 PGCC PANEL MODULE, EL 136'0" 141 SD-147 0/8 8/0 PGCC PANEL MODULE, EL 136'0" 14 6 SD-148 0/12 14/0 PGCC PANEL MODULE, EL 136'0" 141 SD-149 0/12 18/0 PGCC PANEL MODULE, EL 136'0" 15 0 SD-150 0/10 14/0 PGCC PANEL MODULE, EL 136'0" 151 SD-151 0/9 15/0 PGCC PANEL MODULE, EL 136'0" l 0/10 10/0 IkisrRT n SMcEE (A/8) 152. SD-152 NON PANEL MODULE AREA NORTH, EL 135'0" i 153 SD-153 10/0 NON PANEL AREA S0tTI'H, EL 135'0" 10/0 Tusmer C t$

FD-13A RECIRC PUMP 2 - DRWELL, EL 70'0"

& 98'0" 1/0 FD-138 RECIRC PUMP 1 - DRWELL, EL 70'0"

& 98'0" 1/0

RBS-FSAR.

TABLE 9.5-7 HALON SYSTEMS PGCC Panel Module U701 PGCC Panel Module U730' PGCC Panel Module U702 PGCC Panel Module U731-PGCC Panel Module U703- PGCC Panel Module U732

- PGCC Panel Module U704 PGCC Panel Module U740 PGCC Panel Module U710 PGCC Panel Module U741 PGCC Panel Module U711 PGCC Panel Module U742 PGCC Panel Module U712 PGCC Panel Module U743 PGCC Panel Module U713 PGCC Panel Module U744 PGCC Panel Module-U714 PGCC Panel Module U745 PGCC Panel Module U746

~

PGCC Panel Module U715 PGCC Panel Module U717 PGCC Panel Module U747 PGCC Panel Module U720 PGCC Panel Module U748 PGCC Panel Module U721 PGCC Panel Module U799 PGCC Panel Module U723 PGCC Panel Module U750 I

RBS FSAR TABLE 9.5-8 FIRE HOSE STATIONS HOSE RACK LOCATION ELEVATION IDENTIFICATION Reactor Building 114'0" HR - 16, ,.

141'0" HR - 17, 2 162'3" HR - 18, 18, 24, 25 186'3" HR - 20, 21, 26 Auxiliary Building 70'0" (Stairwell) HR - 84 95'9" HR - 6, 7, 8, 9 114'0" HR - 10, 11 141'0" HR - 12,-13, 14, 15 170'0" HR - 80 Control Building 70'0" HR - 85, 86, 87 98'0" HR - 88, 89, 90 115'0" and 116'0" HR - 91, 92, 93, 94 135'0" (Stairwell) HR - 96 Fuel Building 70'0" HR - 1, 2, 82 95'0" HR - 3, 4 113'0" HR - 81 148'0" HR - 5 Pipe Tunnel 67'6" HR - 83 Turbine Building 95'0" HR - 50, 51 123'6" HR - 53 1

1 of 1

RBS FSAR

. TABLE 9.5-9 YARD FIRE HYDRANTS AND ASSOCIATED HYDRANT HOSE HOUSES LOCATION HYDRANT NUMBER Northeast of Fuel Bldg FHY 11 East of Control Bldg FHY 13 West of Standby Cooling Tower FHY 9*

. North of Fuel Bldg FHY 10 i

1 t

f

• No associated hose house 1 of 1

. . - . . . . . . . , . . . . . . . _ , . .. , , . . . - . . - , . - . - . - . -