ML20141M325
ML20141M325 | |
Person / Time | |
---|---|
Site: | Catawba |
Issue date: | 07/27/1992 |
From: | Nicholson K DUKE POWER CO. |
To: | |
References | |
PROC-920727, NUDOCS 9208110323 | |
Download: ML20141M325 (33) | |
Text
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- n Qg DUKEPOWER July 27, 1992 Ret Catawba Nuclear Station Selected Licensee Commitments Attached are revisions to the Catawba Nuclear Station Selected Licensee Commitment (SLC) Manual. Please update your manual as follows:
Remove Insert LOEP 1,2,3 LOEP 1,2,3,4 (07/92)
Section 16.9 (all) Section 16.9 (07/92)
Any questions concerning this update may be directed to me at 803-831-3237.
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I O DUKE POWER COMPANY SELECTED LICENSEE COMMITMENTS MA.' RIAL List of Effective Pages Page Revision Date LOEP 1 07/92 LOEP 2 07/92 LOEP 3 07/92 Tab 16.0 16.0-1 12/90 Tab 16.1 16.1-1 Tab 16.2 16.2-1 11/91 16.2-2 11/91 16.2-3 11/91 Tab 16.3 16.3-1 11/91 16.3-2 11/91 Table 16.3-1 11/91 Tab 16.4 Tab 16.5 16.5-1 11/91 16.5-2 11/91 16.5-3 11/91 Tab 16.6 Page 1 07/92
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) DUKE POWER COMPANY ,
SELECTED LICENSEE COMMITMENTS MANUAL i List of Effective Pages Page Revision Date "
Tab 16.7 Tab 16.8 4
Tab 16.9 Page ? 07/92 Page 2 07/92 Page 3 07/92 Page 4 07/92 Page 5 07/92
() Page 6 Page 7 07/92 07/92 Page 8 07/92 Page 9 07/92 Page 10 07/92 Page 11 07/92 Page 12 07/92 Page 13 07/92 Page 14 07/92 Page 15 07/92 Page 16 07/92 Page 17 07/92 ;
Page-18 07/92 Page 19 07/92 Page-20 07/92 Page-2 07/92
DUKE POWER COMPANY SELECTED LICENSEE COMMITMENTS MANUAL List of Ef fective Pages Page Revision Date Page 21 07/92 Page 22 07/92 Page 23 07/92 Page 24 07/92 Page 25 07/92 Page 26 07/92 Page 27 07/92 Page 28 07/92 Tab 16.10 16.10-1 02/91 16.10-2 02/91 Tab 16.11 Tab 16.12 Tab 16.13 16.13-0 12/90 16.13-1 12/90 Tab 16.14 Tab 16.15 O.J
'Page 3 07/92
l DUKE POWER COMPANY l SELECTED LICENSEE COMMITMENTS HANUAL List of Effective Pages Appendix Directive 3.1.5 Pages 1 through 7 l
l l Directive 3.1.5 Attachment 1 Page 1 of 1 Directive 3.1.5 Attachment 2 Page 1 of 1 l
l Directive 3.1.5 Attachment 3 Fege 1 of 1 i
Directive 3.1.5 Attachment 4 Page 1 of 1 l l
Directive 3.1.5 Attachment 5 Page 1 of 1 l
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-e Page 4 07/92.,
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l I CATAWBA NUCLEAR STATION j
i FINAL SAFETY ANALYSIS REPORT SELECTED LICENSESS COMMITMENTS CHAPTER 16.9 AUXILIARY SYSTEMS Table of Contents-16.9-1 Fire Suppression Water Systems 16.9-2 Spray and/or Sprinkler Systems 16.9-3 CO, Systems 16.9-4 Fire fiose Stations 16.9-5 Fire Barrier Penetrations 16.9-6 Fire Detection Instrumentation.
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CHAPTER 16.9 Page l' 07/92
n 16.9 AUXILIARY SYSTEMS - FIRE PROTECTION SYSTEMS 16.9-1 FIRE SUPPRESSION WATER SYSTEM COMMITMENT:
l The Fire Suppression Water System shall be OPERABLE with:
l l
- a. At least two fire suppression pumps, each with a capacity of
- 2500 gpm, with their discharge aligned to the fire suppression j header, and
- b. An OPERABLE flow path capable of taking suction from Lake l Wylie and transferring the water through distribution piping i with OPERABLE sectionalizing control valves and isolation valves for each sprinkler, hose standpipe, or Spray System riser required to be OPERABLE per Commitments 16.9-2 and 16.9-l 4.
APPLICABILITY:
At all times.
REMEDIAL ACTION:
- a. With one of the above required pumps ind/or one Water Supply / Distribution System inoperable, restore the inoperable equipment to OPERABLE status within 7 days or provide an alternate backup pump or supply.
- b. With the Fire Suppression Water System otherwise inoperable establish a backup Fire Suppression Water System within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.
TESTING REQUIREMENTS:
- a. The Fire Suppression Water System shall be demonstrated OPERABLE:
- 1. At least once per 31 days on a STAGGERED TEST BASIS by starting each electric motor-driven pump and operating it for-at least 15 minutes on recirculation flow, ii..At least once per 31. days by. verifying that each valve (manual,. power-operated, or automatic) in the flow path which is accessible during plant operations is in its corract position, CHAPTER 16.9 Page 2 07/92
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- l 111. At least once per 6 mo..ths by performance of a system flush of the outside distribution loop to verify no flow blockage by fully opening the hydraulically most remote hydrant, iv. At least once per 12 months by cycling each testable valve in the flow path through at least one complete cycle of full travel,
- v. At least once per 18 months by verifying that each valve (manual, power-operated, or_ automatic) in the flow path which is inaccessible during plant operations is in its correct position, vii. 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 automatic. valve in the flow path actuates to its correct position,
- 2) Verifying that each pump develops at least 2500 gpm at a net pressure of 144 psij by testing at three points on the pump performar.:e curve, U 3) Cycling each valve in the flow path that is not testable during plant operation through at least one complete cycle of full travel, and
- 4) Verifying that each fire suppression pump starts within 10 psig of its intended starting pressure (A pump, primary switch-95 psig; D pump, primary switch-90 psig; and C pump, primary switch-85 psig).
viii. At le.ist o* er 3 years by performing a flow test of 7
the system ecordance with Chapter 8, Secti.on 16 of the Fire Pra. , tion Handbook,15th Edition, published by the National Fire Protection Association.
REFERENCES:
- 1) Catawba FSAR, Section 9.5.1
- 2) Catawba SER, Section 9.5.1
- 3) Catawba SER, Supplement 2, Section 9.5.1
- 4) Catawba SER, Supplement 3, Section 9.5.1
- 5) Catawba Fire Protection Review, as revised 4 CHAPTER 16.9 Page 3 07/92
4
- 6) Catawba Fire Protection Commitment Index
- 7) Startup and Normal Operation of Fire Protection System -
OP/1/A/6400/02A BASES:
The OPERABILITY of the Fire Suppression Systems ensures that Sdequate fire suppression capability is available to confine and extinguish fires occurring in any portion of the facility where safety-related equipment is located. The Fire Suppression System consists of the water system, spray, and/or sprinklers, CO and fire hose stations. The collective capability of the,, Fire Suppression Systems is adequate to minimize potential damage to safety-related equipment and is a major element in the facility Fire Protection Program.
In the event that portions of the Fire Suppression Systems are inoperable, alternate backup fire-fighting equipment is required to be made available in the affected areas until the inoperable equipment is restored to service. When the inoperable fire-fighting equipment is 'ntended for use as a backup means of fire supprecsion, a longe. m 'od nf time is all ved to provide an alternate means of flie Oghting than if the inoperable equipment is the primary means of fi,re suppression.
p.
! O In the event the Fire Suppression Water System becomes inoperable, immediate corrective measures must be taken since this system provides the major fire suppression capability of the. plant.
This Selected Licensee Commitment is part of the Catawba Fire Protection Program and therefore subject to the provisions of the Catawba Facility Operating License Conditions #6 for NFF-52 and #8 for NPF-35.
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. /^g CHAPTER 16.9 Page 4 07/92-
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16.9 AUXILIARY SYSTEMS - FIRE PROTECTION SYSTEMS 16.9-2 SPRAY AND/OR SPRINKLER' SYSTEMS-COMMITMENT:
j Spray and/or Sprinkler systems in Table 16.9-1 shall be OPERABLE:
l APPLICABILITY:
!=
Whenever equipm9nt protected by the Spray / Sprinkler- System is '
required to be OPERABLE.
l REMEDIAL ACTION:
1 With one. or more of the above required-_ Spray and/or Sprinkl'er?
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 continuous fire watch -
with backup fire _ suppression equipment for'those areas inLwhich.
redundant systems or. components could be damaged;-for other' areas,_
establish an hourly fire watch patrol.
TESTING REQUIREMENTS:
O a. Each of the above . required Spray: . and/or Sprinkler Systems shall be demonstrated-OPERABLE:
- 1. At least once per 31 days by verifying that each: valve-(manual, power-operated,.or automatic) in theEflow path which is accessible during-plant operations Lisiin .. its correct position,-
)
- 11. At least once per 12' months by . cycling each testable-- "
valve in the flow _ path through at _ l.eastione-complete cycle of full-travel,-
111. At least once. per- 18 months by verifying that, each valve -
(manual,_ power-operated,:or automatic)--in1the-flow path which is-inaccessible during piant operations-is-.inLits-correct position,_'and iv. At least once per 18' months:
1)- --By -performing a_ system functional-~ test' which'
.-includes ~ simulated- automatic l actuation- of. the system,- and cycling? each valvelin- the: flow path -
chat- is net testable _.during plant operation through at least one: complete cy le of full, travel.
CHAPTER 16.9 Fage 5 07/92-m
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! 2) By a _ visual inspection of each Sprinkler System .
i starting at the1 system isolation valve.to verify the_ system's--integrity;:and-- ,
e-l 3) By a visual-inspection _of each nozzle's spray area-to verify the-spray: pattern is not obstructed.
3
REFERENCES:
i 1) Catawba FSAR, Section 9.5.1 L 2) Catawba SER, Section 9.5.1-4
) 3) Catawba SER, Supplement 2, Section 9.5.1
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! 4) Catawba SER, Supplement'3, Section 9.5.1 4-l 5) Cacawba Fire Protection Review,.as revised i
l- 6) Catawba Fire Protecti,on Commitment Index j BASES:
s - - .
- - The OPERABILITY of
- the Fire Suppression' Systems - ensures - that l- 4 fire suppression capability is available-to= confine and ~
., 5 fires occurring in any. portion of.:the facility.where i
- san a sted equipment;is located. The~ Fire Suppression System
- cor - ! the water ' system, . spray, _ and/or ' sprinklers,- CO ,.2 and
[ stations. The collectivej capability ~ of the Fire a Systems is adequate to' minimize potential damage to -
j ated equipment and is a major elementrin the facility-j- i. action Program.
L -
l In t.ne event that portions' of .the- Fire < Suppression Systemsc are -
- inoperable, alternate backup fire ifighting equipment'is. required to- "
- be made available- in the . af fected ' areas u n t i l _-- t h e 'f i n o p e r a b l e 5 ' equipment is restored to ~ service. -When M thez sinoperable, fire-I fighting equipment-is intended.for use.as:'asbackup meansTofnfire suppression, a longer .. period of - time -is- allowed 1 to provide "an -;
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_ alternate'means of fire; fighting than;if;the inoperable: equipment- -
~
! is the primary means of-fire = suppression.-
7 This- Selected Licensee Commitnant is ~ part' of the ' Catawba : Fire
~
!- Protection Program and therefore subject to-the: provisions?of the Catawba Facility Operating-License Conditions.#6 for'NPF-52 and #8 j for NPF-35;.
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CHAPTERc16.9' -Page 6 -07/92-l 4 r
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() TABLE 16.9-1 SPRAY AND SPRINKLER SYSTEM Page 1;of_1 i
- a. Elevation 522+0 ' - Auxiliary Building Room No. Equipment 100 ND & NS Sump Pump Area 101 Corridor 104 ND Pump 1B:
105 ND. Pump 1A '
106 Corridor 109 ND Pump 2B-110 NDePump 2A' 111 Corridor '
112- Corridor
- b. -Elevation 543+0 - Auxiliary Building 230 NV Pump _1A 231 ifV Pump 1B 240 ~NV Pump 2A.
241 NV-Pump 2B _
O Unit l CA_ Pump. Room:
250 260 Unit-2 CA Pump Roomi
- c. Elevation 554+0 - Auxi'liary Building 340 Battery Room. Corridor (DD-EE);
350 -Battery Room Corridor-(DD-EE)
- d. Elevation 560+0 - Auxiliary Building 300 -KC PumpsLIA1,'1A2,,1B1 &.1B2--
- e. Elevation 574+0 - Auxiliary Building 480 Cable Room Corridor (DD-EE)u 490- Cable: Room Corridor (DD-EE);
- f. Elevation 577+0 - Auxiliary Building 400 KC_ Pumps'2A1, 2A2, 2'B1 & 2B2 .
- g. Reactor Buildings
- Annulus-
~ Pipe Corridor-CHAPTER 16.9 PageL7 07/92:
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16.9 AUXILIARY SYSTEMS ~- FIRE PROTECTION SYSTEMS
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16.9-3 CO, SYSTEMS COMMITMENT:
The following High Piessure and Low Pressure CO, Systems shall be OPERABLE:
- a. Low- Pressure CO, System - -Diesel generator rooms, and
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- b. High Pressure CO, System - Auxiliary feedwater pump . rooms..
APPLICABILITY:
Whenever equipment..prctected by the CO, Systems is required to be OPERABLE.
REMEDIAL ACTION:-
With one or more of the above required - cog 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 continuous fire. watch with backup. fire
-suppression equipment for those areas in'.which redundant systems or components could be damaged; for other' areas, establish an, hourly s/ fire watch patrol.
TESTING REQUIREMENTS:
e
- a. Each of the above required CO Systems.shall be demonstrated OPERABLE at least once per 31 d,ays by verifying that each valve' (manual, power operated,-or automatic). in the flow path is-in its correct position.
- b. Each of the above required Low ' Pressure : CO j Systems .-shall be 2
demonstrated OPERABLE:
- 1. At least once per' 7. days by verifying the ;C'O,::. storage. tank-level to.be greater:than 44% ofifull. capacity, and.
- 11. At least once.per.18 months by' verifying:
1)
Each system actuates' manually and-automatically,'upon
' receipt of.a simulated actuation signel,.
- 2) Damper closure devices' receive. aniactuation - signal-upon-system operation, and
- 3) By a visual inspection of dischargecnozzles'~to. assure no blockage.
n CHAPTER : 16. 9 Page 8 _.
07/92. !
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- c. Each of the above required High Pressure CO, Systems shall be demonstrated OPERABLE:
- 1. At least once per 6 months by verifying the weight of each CO storage cylinder to be at least 90% of full charge weight, and
- 11. At least once per 18. months by:
- 1) Verifying each system actuates manually and 4 automatically upon receipt of a simulated actuation
- signal, 1
- 2) Verifying that da'mper closure devices rece we an 1 actuation signal upon system operation, and
- 3) A visual inspection of t% discharge. nozzles to assure no blockage. 'l
REFERENCES:
j
- 1) Catawba FSAR, Section 9.5.1
- 2) Catawba SER, Section 9.5.1 4
O 3) Catawba SER, Supplement 3, Section 9.5.1 BASES:
The OPERABILITY - of the Fire Suppression Systems ensures that adequate fire suppression capability is available to confine and extinguish fires occurring in any portion of the facility where safety-related equipment is located. The Fire Suppression System consists of the water system, spray, and/or sprinklers, CO 2, and fire hose stations. The collective capability of the Fire Suppression-Systems is adequate to minimize potential damage to safety-related equipment and is a' major element in the facility
In the event that-portions of the Fire Suppression Systems are inoperable, alternate backup fire-fighting equipment is1 required to be made available in the affected areas until the inoperable equipment ir restored to service. When the inoperable , fire-
- fighting ', 2pment is intended for use as a backup means of fire suppression, a longer period of time is allowed to provide an alternate means of fire fighting than if'the inoperable equipment.
is the primary means of fire suppression.
This Selected Licensee Commitment is part of the Catawba Fire Protection Program and therefore subject to the provisions of the Catawba Facility Operating License Conditions #6 for NPF-52 and #8
/ $ for NPF-35.
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CHAPTER 16.9 Page 9 07/92
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() 16.9 AUXILIARY SYSTEMS - FIRE PROTECTION SYSTEMS 16.9-4 FIRE HOSE STATIONS COMMITMENT:
The fire hose stations given in Table 16.9-2 shall be OPERABLE:
APPLICABILITY:
- Whenever equipment in the areas protected by the fire hose stations is required to be-OPERABLE.
REMEDIAL ACTION:
With one or more of the fire hose stations given ir able 16.9-2 inoperable, provide gated wye (s) on the nearest .-E RABLE hose station (s). One outlet of the wye shall be cvunected 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 suf ficient to provide coverage for the area lef t unprotected by the inoperable hose station. Whero'it can be demonstrated that the physical routing of the fire hose would result in a recognizable hazard to-station personnel, plant equipment, or the hose-_itself, the fire
/]-
(_ hose shall be stored in a roll at the outlet of the OPERABLE hose station. Signs shall be mounted above_ the gated wye (s) to identify the proper hose to use. The above REMEDIAL ACTION requirement shall 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 the primary means 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 />.
TESTING REQUIREMENTS:
- a. Each of the fire hose stations given in-Table 16.9-2 shall be demonstrated OPERABLE:
- 1. At least once per 31 days, by a visual : inspection of the fire' hose stations accessible during plant operations-to assure all required equipment is at the station,-
- 11. At least once per 18 months, by:
- 1) Visual -inspection of the- stations not accessible during plant operations to assure all- required equipment is at the station,
- 2) Removing the hose forfinspection and reracking, and'
CHAPTER 16.9- Page 10 07/92
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111. At least once per 3 years, by:
Partia11y' opening- -each hose station valve to o 1) verify velve OPERABILITY and no flow blockage, and
- 2) Conducting a hose hydrostatic test at a pressure ;
of 200 psig or at least 50 psig above maximum fire d
main operating pressure, whichever is greater.
REFERENCES:
- 1) Catawba FSAR, Section 9.5.1 i .
- 2) Catawba SER, Section 9.5.1
- 3) Catawba SER, Supplement 3, Section 9.5.1
- 4) Catawba Fire Protection Review, as revised
- 5) Catawba Fire Protection Commitment Index BASES:
The OPERABILITY of the Fire Suppression Systems ensures that adequate fire suppression capability is available to confine and extinguish fires occurring in any portion of the facility where
(/)% safety-related equipment is located. The Fire Suppression System consists of the water system, spray, and/or sprinklers, CO and fire hose stations. The collective capability of the,, Fire-Suppression Systems is adequate to minimize potential damage to safety-related equipment and is a major element in the facility
In the event that portions of the Fire Suppression Systems are inoperable, alternate backup fire-fighting equipment is required to be made available in the af fected areas until the inoperable equipment is restored to service. When the inoperable fire-fighting equipment is intended for use as a backup means of fire i suppression, a longer period of time is allowed toe provide an alternate means of fire fighting than if the inoperable equipment is the primary means of fire suppression.-
This Selected Licensee Commitment is part of the Catawba ' Fire Protection Program and therefore subject to the provisions of the 1 Catawba Facility Operating License Conditions #6 for NPF-52 and=#8 for NPF-35.
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'u CHAPTER 16.9 Page 11 07/92 4
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'l s ,/ TABLE 16.9-2 FIRE HOSE STATIONS Page 1 of 2 LOCATION ELEVATION IDSE RACK #
- 1. Auxiliary Building 59, FF 522+0 1RF235 55, FF 522+0 1RF248 63-64, KK 543+0 1RF210 63, MM. 543+0 1RF211 60, MM 543+0 1RF213 58, PP 543+0 1RF218 i 59, GG-HH 543+0 1RF236 60-61, FF-GG 543+0 1RF237 63, CC 543+0 1RF238
- 57, JJ 543+0 1RF242 54-55, GG 543+0 1RF249 57, FF 543+0 1RF250 52-53, GG 543+0 1RF255 51, CC' 543+0 1RF256
- 50-51, JJ-KK 543+0 1RF262 53, MM 543+0 1RF268 50-51, NN 543+0 1RF271 62, MM-NN 560+0 1RF203
('
' 63, JJ-KK 560+0 1RF213 58, PP 560+0 1RF219 56, NN 560+0 1RF220 59, HH 560+0 1RF239 57, KK 560+0 1RF243 54-55, FF-GG 560+0 1RF251 51, KK 560+0 1RF263 52, MM-NN 560+0 1RF269 58, BB 554+0 1RF484 65, BB-CC 560+0 1RF485 62, AA-BB 560+0 1RF486 SG, BB 554+0 1RF487 52, AA-BB 560+0 1RF488 49, BB-CC 560+0 1RF489 68-69, BB 560+0 1RF996 45-46, BB 560+0 1RF997-63, NN 577+0 .1RF204 61, LL 577+0 1RF214-63, KK-LL 577+0 1RF215 58, PP 577+0 1RF221 59, JJ 577+0 1RF230 58, GG 577+0 1RF240 56, KK 577+0 1RF244-54, GG 577+0 1RF252
-~s 52-53, KK 577+0 1RF258 y ) 51, KK 577+0 1RF264 CHAPTER 16.9 Page 12 07/92
- . . . = . . _ _ - .- . . - . . .. - . _ . - . . . .
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TABLE 16.9-2 ._
LFIRE HOSE STATIONS 3 i Page 2.of 2-LOCATION ELEVATION- ' HOSE RACK #= a 1RF272
.i: 51-52,- NN -
577+0 i- 56, PP. -
57.7+0 1RF278 j 68-69, BB 577+0 :1RF478 1 65, BB-CC 577+0 1RF479s 59, DD 574+0' 1RF480' 60, AA 574+0- 1RF481-
[-
1 49, BB-CC .577+0 ~1RF4901 .
577+0 1RF491-
[
45, BB 55, DD 574+0 1RF492 54, AA 574+0 .1RF493 63, AA 577+0 1RF993
'51, AA- 577+0; .1RF998~
j 63,.NN 594+0! 1RF205-
- 57, MM
- 594+0 1RF222' 1RF231 63, JJ -594+0 1 57, HH 594+0 : 1RF2 4 5-:
57, EE 594+0 -1RF2535 '
- 51. , JJ 594+0- 1RF259 ~
53, NN 594+0-- 1RF275 5
f 64, BB 50, BB 594+0' 594+0 1RF984'.
-1RF985 i -
4
- 51, KK 605+10 1RF265 ,
j 63, JJ 605+10 1RF233-J 63-64, MM 631+6' 1RF483' s 50-51, MM 631+5 1RF495 l
- 2. Fuel Pools j- 65, TT-UU. 605+10- .-1RF208-
- -48,-TT+UU
- 605+10 1RF276i l 63-64, MM' -605+10- 1RF482;
- . 50-51, MM
- 605+10- 1RF822-4-
- - 3. Nuclear-Service Water Pump Structure 5
East-Section ;600+0: :1RF939' West Section 600+0 1RF940 vO CHAPTER.16.9 -Page 13 07/92 ,
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.O LJ 16.9 AUXILIARY SYSTEMS - FIRE PROTECTION SYSTEMS
. 16.9-5 FIRE-BARRIER PENETRATIONS .
COMMITMENTS:
E Ai] Fire barrier penetrations (walls, floor / ceilings, cable tray enclosures and other. fire barriers) ' separating safety-related .
fire areas or separating portions of redundant systems important to safe shutdown within a fire area and all- sealing devices ._in s fire rated assembly penetrations ( # ire . doors ,_ fire' windows, - fire dampers, cable, piping, and ventilation duct penetration seals) shall be OPERABLE.
4
- - ' Note
- A list of ccmmitted fire doors is located-in Bases Sections.
j APPLICABILITY:
At all times.
?
I REMEDIAL ACTION:
1 p With one or more of the above required fire barrier.. penetrations
! g and/or sealing devises inoperable, within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> either establish a continuous fire _ watch on at 'least one side of the affected j penetration, or ' verify the OPERABILITY of fire detectors on at
- least ' one side of the -inoperable penetration - and -establish = an hourly fire watch patrol'.
2 If a continuous fire watch is required for the fire door ( s )' _ at a
the upper or lower containment entrances (AX352D, AX353D,-AX701~
or - AX715 A) , this- fire watch- may be _ established susing; a ' closed circuit camera and-monitor; 'The camera shal] be adjusted so'that-
! the fire door can be fully viewed Jon the rmonitor. - The monitor-
'- shall_be placed in a contantlyLattended location.; If the. ability to view thel open fire 1 door with the, camera andi monitor is -lost, the continuous fire watch shall be moved from thellocation/of the; monitor and reestablished at the opened fire door.
TESTING. REQUIREMENTS:
- a. At least_once per 18. months the.above required fire barrier penetrations and sealing devices shall be-. verified. OPERABLE by performing a visual inspection of:
- 1. The' exposed surfaces of each fl're rated assembly; O . CHAPTER 16J9 Page 14 07/92
. = n r ( .~,.-4 9
At least 10% of all fire dampers. If apparent clianges Q 11.
in appearance or abnormal degradation are found, a visual inspection of an additional 10% of the dampers shall be made. This ' inspection process shall_ continue until a 10% sample with no apparent _ changes ~ in appearance or abnormal ' degradation is found. . Samples shall be selected such that each fire damper will beinspected every 15 yearr; and 111. At least 10% of each type of sealed penetration. If apparent changes in appearance or abnormal degradations are found, a visual inspection of en additional 10% of each type of sealed penetration shall be made. This inspection process shall continue until a 10% sample with no apparent changes in appearance or abnormal degradation is found. Samples shall be selected such that each penetration seal will be inspected .every 15 years,
- b. Each of the above required fire doors shall be verified OPERABLE by inspecting the closing mechanism and latches at least once per 6 months, and by verifying:
l
- 1. The pooltion of each intcrior cloced fi re door at
! least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, O
b 11. The OPERABILITY of the fire door supervision system for each electrically supervised fire door by performing a TRIP ACTUATING DEVICE OPERATIONAL TEST at least once per 31 days, and l 111. That ecch locked closed fire door is closed at least once per 7 days.
REFERENCES:
- 1) Catawba FSAR, Section 9.5.1
- 2) Catawba SER, Section 9.5.1
- 3) Catawba SER, Supplement 3, Section 9.5.1
- 4) Catawba fire Prctection Review, as revised
- 5) Catawba Fire Protection Commitment Index O
V CHAPTER 16.9 Page 15 07/92
3 BASES:
}
The functional integrity of the. fire barrier penetrations ensures that fires will be confined to adequately retarded.from spreading to adjacent portions of the facility. These design features minimize the possibility of a single- fire rapidly involving and 2
several areas of the- facility prior to detection a extinguishing of the fire. -The fire barrier penetrations are a passive element in 1.he facility fir protection program- and are subject to periodic' inspections.
Fire barrier penetrations, including cable penetration barriers, fire doors, fire dampers, and other fire barriers are considered functional when the visually observed condition is the same as the as-designed condition. For those fire barrier penetrations that are not in the as-designed conditions, an evaluation shall be performed to show that the modification has not degraded the fire rating of the fire barrier penetration.
During periods of time when a barrier is not functional, either:
j (1) a continuous fire watch-is required to be maintained in the vicinity of the affected barrier, or (2) the fire detectors on at least one side of the affected barrier must be ' verified . OPERABLE and an hourly fire g
watch patrol established until the barrier is restored
( to functional status.
This Selected Licensee Commitment is part of the Catawba Fire Protection Program and therefore scbject to the provision of the Catawba Facility Operating License Conditions #8 for NPF-35.
I q
O CHAPTER 16.9 Page 16 07/92
. -. ~~. . . - - . . . . - . . . ..= - - ,,.
M +--
l.- -
7 l .
1
() COMMITTED FIRE DOORS Page 1 of 4- ,"
l Elevation 522+0
', AX500F 56,-FF Elevation 543+0
-AX202 50-51,-NN
. 'AX214A _54-55, FF-GG AX214B 58-59, FF-GG AX217D -
52-53, BB.
AX217F -51, AA-BB' 4
AX217G- 52-53, Bb- ,
i AX227D 54-55,~ MM-NN -
- AX227E 60,_-MM-NN, -
' .59,'FF-GGi AX227F t-AX228A 56-57,JEE,
.- AX228B- 57-58, EE-
- AX248- '57-58,'QQ
! AX253A 63-64, NN_
- AX260B 6 1~- 6 2 ,-_ B B - C C -
AX260E 52,;CC
.. , AX260F- 62, AA-BB
! '* AX260G 61-62,.BB-CC 61-62,-BB-CC-2 AX260H
- AX516M 62, CC _ .
T527#1 52-43, BB-CC 1 . -
t i j Elevation 554+0 '
[- AX354A 55,.DD-EE -
i AX354B__ .59, DD-EE-e AX418 / 57.,E BB =
1 _AX419 57,-DD-EE:
" AX420A 59, DD-EE!
AX421A 55, DD-EE~
-S102A 53-54, AA l
I Elevation 556+01 5
- .- - AX302 41,iCC-DD
- -AX304 41,-AA-BB'
- j. 'AX306 - 73, DD-EEL i AX308 173, BB-CC
, I
!~O 07/92 CHAPTER'16.9 Page 17 1 l
4 f.
)
. . . ~ . . ,, -- -- . . . . - . . - _ . . . . . _ . . , . . , ,
, . . . . . . . - . _ , - . ~ . .- , , , . - - .
COMMITTED FIRE DOORS O' Page 2 of 4 Elevation 560+0 AX312 50-51, MM AX313D 50-51, NN i
AX347 57, GG i' AX348 59, FF-GG AX348B 54-55, MM-NN AX348C 53-54, HH AX348D 59-60, MM-NN i
AX348E 60-61, HH i AX349 55, GG 2
AX352B 53, CC-DD 3
AX352C 53, CC-DD
- AX332D 46-47, BB-CC 4 AX353 45-46, BB AX353B 45, AA-BB AX353C 45, AA-BB AX358 59, GG AX391 63-64, MM
- AX393B 61, CC-DD AX393C 61, CC-DD AX393D 67-68, BB-CC
- \
('N AX394 AX394B 69, BB 69, AA-BB
. AX394C 69, AA-BB AX395 61, AA-BB AC388B 63-64, NN SC396 53, AA-BB AX415 45-56, CC-DD AX416 68-69, CC-DD AX417 57,-QQ J Elevation 568+0 AX355A 53-54, FF AX355C 54-55, FF AX355D 60, FF AX355C 59-60, FF 4
(m/ 07/92 CHAPTER 16.9 Page 18
I\
\~
COMMITTED FIRE DOORS Page 3 of 4 Elevation 574+0 AX515 54, BB AX516 56-57, DD s AX516A 57-58, DD AX516K 57, AA-BB AX517A 53-54, DD-EE AX517B 60-61, DD-EE AX517C 57, DD-EE 4
AX517D 57, DD-EE AX517E 56-57, DD-EE AX518 60, BB S303A 54, AA S304A 60, AA l
Elevation'577+0 AX500H 54-55, MM-NN AX500K 53-54, GG-HH AX500L 59-60, MM-NN AX500N 60-61, GG-HH AX500P 50-51, NN
) AX500S 63-64, NN
(/
s_ AX513B AX514 53, CC-DD 45-46, SB AX514B 45-46, AA-BB-AX517 57, EE AX525 55-56,-QQ AX525B 56, QQ AX526B 58, ?P ,
AX526D 58,-QQ A314#3 61, CC-DD AX5; 3 : 61, CC-DD AX534 69, BB AX534B 68-69, AA-BB j AX535 61, AA-BB AX536 53, AA-BB AX338A- 60, FF-GG AX'~ 53, CC-DD CHAPTER 16.9 Page 19 07/92
l II
\/
COMMITTED FIRE DOORS Page 4 of 4 Elevation 594+0 AX602 52, UU-VV AX627E 62, UU-VV AX630 58, QQ AX632 57, QQ AX635 60-61, 00 AX635E 53-54, QQ
. AX635F 53-54, QQ AX635G 50-51, NN AX635H 63-64, NN.
AX654D 61, CC-DD AX655 62-63, DD i AX656C 61, CC-DD AX657 60-61, CC S418 DOC. CONTROL S419 DOC. CONTROL i AX657A 53-54, BB AX657B 52-53, CC-DD
, AX657F 60, DD-EE AX657G 57-58, DD-EE pg gj AX657H AX657J 54, DD-EE 53, BB-CC AX658B 51-52, DD i AX657E 53-54, BB AX665B 53-54, CC-DD S400 55-56, AA S406 58-59, AA-4 T413A3 60, FF l Elevation 605+0 i
AX700B 50-51, JJ-KK AX700D 63-64, KK-AX701 50-51, JJ-KK AX714B 63-64, JJ-KK AX714C 50-51,-JJ-KK AX720 50-51, HH-JJ AX721 63-64, HH-JJ AX715A 63-64, JJ-KK Elevation 609+0 S1114 QA Vault-Nuclear Service Water Pump Structure-AX662A C'HAPTER 16.9 Page 20 07/92
4 AUXILIARY SYSTEMS- FIRE PROTECTION SYSTEMS L.) 16.9 16.9-6 FIRE DETECTION INSTRUMENTATION 4
COMMITMENT:
As a minimum, the fire detection instrumentation for each fire detection zone shown in Table 16.9-3 shall be OPERABLE:
APPLICABILITY:
Whenever equipment protected by_the fire detection instrument.is required to bo OPERABLE.
- REMEDIAL ACTION
- a. With any, but not more than one-half the total in any fire zone, Function A fire . detection instruments shown in Table 16.9-3 inoperable, restore the inoperable instrument (s) to OPERABLE status within 14 days or within 1: hour establish a fire watch patrol to inspect the zone (s) with the inoperable instrument (s) at least once per hour, unless_ the instrument (s) is located inside the containment, then-
[] inspect that containment zone 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 containment air temperature at least once per (f hour at the locations listed in Specification 4.6.1.5.
- b. With more than one-half of the Function A- fire detection instruments in any fire zone shown in Table _16.9-3 inoperable, or with any Function B .-fire- detection instruments shown in Table 16.9-3 inoperable, c- with any two or more adjacent fire detection instruments . shown in
. Table 16.9-3 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 fire watch patrol to - inspect the zone (s) with- the inoperable instrument (s)- at least once per hour, unless the instrument (s) is located inside- the containment, then inspect that containment zone at 1mt 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 containment air temperature at - least _ once - per hour at the locations listed in Specification 4.6.1.5.
TESTING REQUIREMENTS:
- a. Each of the above required flame detection instruments shall-be demonstrated OPERABLE at least once per 6- months by performance of a TRIP ACTUATING DEVICE OPERATIONAL TEST.
Each of the above required smoke detection instruments which are accessible during plant operation shall be demonstrated OPERABLE at least once per 6-months by the performance of a
[,} TRIP ACTUATING DEVICE OPERATIONAL TEST. Detectors which are Q)
CHAPTER 16.9 Page 21 07/92 )
t not accessible .during plant operation shall be demonstrated
. operable by the performance of a TRIP ACTUATING DEVICE _
OPERATIONAL TEST during each refueling outage. ]
All spot type heat detectors which- are accessible during i plant operation- shall be VISUALLY INSPECTED at least once per 6 months.
3
. Each of the above required heat detection instruments shall 1
be demonstrated OPERABLE as follows:
- i. For nonrestorable spot-type detectors, at -least two 1 detectors out of every hundred, or fraction thereof,
' shall be removed every 5_ years and functionally. tested.
For each failure that occurs: on the detec*. ors removed, two additional detectors shall be removed and ' tested; 5 and, 1
- 11. For restorable spot-type heat detectors which are j accessible during plant operation, at least-one detector on each signal initiating cd rcuit shall be demonstrated
< OPERABLE at least once per 6 months by: performance.of a TRIP ACTUATING DEVICE OPERATIONAL TEST. Different detectors shall- be selected for each t e s t'. Fire detectors which are _not accessible during plant
/~ operation shall be- demonstrated OPERABLE by "the
(}/ performance.of a TRIP ACTUATING DEVICE OPERATIONAL TEST during each refueling outage,
- b. The NFPA Standard 72D supervised -circuits supervision associated with the detector ' alarms of each of the above required fire detection instruments _ shall be demonstrated OPERABLE e.t least once per 6 months.
REFERENCES:
- 1) Catawba FSAR, Section-9.5.1
- 2) Catawba SER, Section 9.5.1
- 3) Catawba SER, Supplement 2, Section 9.5.1
$ 4) Catawba SER, Supplement 3, Section 9.5.1-
- 5) Catawba Fire Protection Review, as' Revised l
- 6) Catawba Fire-Protection Commitment Index
- O CHAPTER 16.9 Page 22 07/92
[ ) BASES:
%J
, OPERABILITY of the detection instrumentation ensures that both adequate _ warning capability is available for prompt detection of fires and that Fire Suppression Systems, that are actuated by fire letectors, will discharge l extinguishing agents in a timely m a n n ". r . Prompt ~stection and suppression.of fires will reduce t h e. potential for damage to safety-related equipment and is an lategral element in the overall facility Fire Protection Program.-
Fire detectors that are used to.actuata Fire Suppression Systems represent c .aore critically important component of a plant's Fire
. Protection Program than detectors that are installed solely for early fire warning and notification. Consequently, the minimum number of OPERABLE fire detectors must be greater.
The loss of detection . capability for Fire Suppression Systems, actuated by fire detectors, represents a significant degradation
- of fire protection for any area. As a result, the establishment of a fire watch patrol must be initiated at an-earlier-stage than would be warranted for the loss of detectors that provide only early fire warning. The establishment _ of frequent fire patrols in the affected areas is required to provide detection capability-until the ineperable instrumentation is restored to - OPERABILITY.
s V
CHAPTER 16.9 Page 23 07/92
/^ /] % ..
L)i Q '
TABLE 16.9-3 .
FIRE DETECTION INSTRUMENTS Page 1 of 5 E FIRE MINIMUM INSTRUMENTS OPERABLE *
'o Z O N E DESCRIPTION LOCATION SMOKE FLAME HEAT FUNCTION **
2 D 1 ND Pump 1B GG-53 El.522 + 0 1 0 0 A w 2 ND Pump 1A FF-53 El.522 + 0 1 0 0 A
- GG-54 El.522 + 0 3 0 0 A
~
3 NS Pump 1B 4 NS Pump 1A GG-55 E1.522 + 0 2 0- 0 A 5 ND Pump 2B GG-61 El.522 + 0 1 0 0 A 6 ND Pump-2A FF-61 El.522 + 0 1 0 0 A 7 NS Pump 2B -GG-60 El.522 + 0 3 0 0 A 8 NS Pump.2A' GG-59 El.522 + 0 2 0 0 A 9 CA Pumps (Unit 1) BB El.543 + 0 14 0 0(6) A(B) 10 Mech-Pen Room JJ-52 E1.543 + 0 3 0 0 A 11 Corridor / Cables NN-51 El.543 + G 6 J 0 A 12 NV Pump #1 (Unit 1) JJ-53 E1.543 + 0 1 0 0 A 13 NI Pump 1B HH-53 El.543 + 0 1 0 0 A 14 NI Pump 1A- GG-53 El.543 + 0 1 0 0 A 15 tW Pump 1B JJ-54 El.543 + 0 2 0 0 A 16 NV Pump-1A -JJ-55, E1.543.+ 0 2 0 0 A
' 17 Aisles / Cables KK-56. El.543 + 0 18 0 0 A 18 ' Aisles / Cables EE-55 El.543 + 0 6 0 0 A-19 CA Pumps (Unit 2) BB-63 El.543 + 0 14 0 0(6) A(B) '
s 20 -Mech Pen Room JJ-62 El.543 + 0 3 0 0 A 21 Aisles / Cables. NN-61 El.543 + 0 6 0 0 A 22 NV Pump'#2-(Unit 2) .JJ-60 E1.543 + 0 1 0 0 A 23 NI Pump 2B HH-60 E1.543 + 0- 1 0 0 A 24 'NI Pump'2A; GG-60 El.543 + 0 1 0 0 A 25 NV Pump 2B .JJ El.543 + 0 2 0 0 A
'26 :NV Pump 2A . JJ-58 .El.543 +'O 2 0 0 A 27 Aisles / Cables .KK-59 El.043 + 0 20- 0 0 A 28 Aisles / Cables EE-58 El.543 + 0 6 0 0 A 29 'Swgr Equip Room AA-50 El.550'+.0 0 0 A 30 Elect Pen Room CC-50-. El.560 + 0 8 0 0 A 31 Corridor / Cables EE-53' E1.560 + 0 5 0 0 A'
'32 Corridor / Cables KK-52 Fl.560 + 0 8' O 0 A o 33 . Corridor / Cables NN-54 El.550 + 0 10 0 0 A 3 34 Aisles / Cables- _
JJ-56 E1.500 + 0 14 0- 0 A
- N 35 Motor Control Centers GG-56 El.560 + 0 2 0 0 A
O ^fi .
J v v TAPLE 16.9-3 .
FIRE DETECTION INSTRUMENTS Page 2 of 5 E-5 FIRE MINIMUM INSTRUMENTS OPERABLE
- bZONE DESCRIPTION LOCATION SMOKE FLAME HEAT FUNCTION **
r7
$ 36 Cable-Tray Access FF-56 El.568 4 0 2 0 0 A w 37 Equip Batteries DD-55 El.554 +0 5 0 0 A
- 38 Equip Satteries CC-55 El.554 +0 5 0 0 A 39 Battery Room CC-56 El.554 + 0 17 0 0 A 41 Swgr Equip -Room AA-64 El.560 '+0 7 0 0 A 42 . Elect Pen Room ICC-65 El.560 + 0 8 0 0 A 43 Corridor / Cables FF-61 El.560 + 0 5 0 0 A
-44 Aisles / Cables KK-63 E1.560 + 0 8 0 0 A 45 Aisles / Cables NN-60 El.560 + 0 13 0 0 A 46 Aisles / Cables .HH-59 E1.560 + 0 13 0 0 A 47 Motor Control Center .GG-58 El.560 + 0 2 0 0 A 48 Cable Tray Access FF-58 E1.560 + 0 2 0 0 A
'49 Equip. Batteries DD-60 E1.560 +:0 5 0 0 A 50 Equip Batteries CC-60 'El.560 +'O' 5 0 0 A 51 Battery Room CC-59 El.560 + 0 17 0 0 A 53 Swgr Equip' Room .AA-49 E1.577 + 0 7 0 0 A 54 Aisles / Cables CC-50 El.577 + 0 10 0 0 A 55 1 Aisles / Cables .NN-52 El.577 + 0 9 0 0 A 56 Aisles / Cables PP-55 El.577 + 0 13 0 0 A 57 Aisles / Cables LL-55 El.577 + 0 11 0 0 A 58 Aisles / Cables HH-55 El.577 + 0 21 0 0 A 59 Motor Control Center EE-54. El.577 + 0 2 0 0 A 60 Cablo Room CC-56 El.574 + 0 18 0 0 A 62 Swgr' Equip Room AA-64 El.577 + 0 7 0 0 A 63 Elect Pen Room CC-64 El.577 + 0 10 0 0 A 64 Aisles / Cables .PP-62 El.577
+ 0 9 0 0 A.
65 Aisles / Cables PP-59 El.577 + 0. 16 0 0 A
-66 Aisles / Cables LL-59 El.577 + 0 11- 0 0 A 67 Aisi.es/ Cables HH-59 E1.577 + 0 21 0 0 A 68 Motor Control Center 'FF-60 E1.577 + 0 2 0 0 A 69 Cable Room CC-39 El.577 + 0 18 0 0 A 71 Elect Pen' Room CC-Si El.594 + '
0- 10 0 0 A.
g72 Control Room CC-56 El.594 + O 23 0 6 A R 73 Vent Equip Room FF-56 'El-594 + 0 9 0 0 A 1
3 74- Aisles / Cables LL-56 El.594 + 0 25 0 0 A.
O O O ~
TABLE 16.9-3 "
FIRE DETECTION INSTRUMENTS
- Pige.3 of 5
- Q _
$ FIRE MINIMUM INSTRUMENTS OPERABLE
- bZONE DESCRIPTION LOCATION SMOKE FLAME HEAT FUNCTION ** !
2 5 76 ' Aisles / Cables PP-54 E1.594 + 0 15 3 0 A I
. w 79. Elect Pen Room BB-63 'El.594 + 0 11 0 0 A
'* 80' Control Room BB-59 E1.594 + 0 22 0 6 A 81 . Vent Equip. Room FF-58 El.594 +0 12 0 0 A 02 Aisles / Cables KK-58 El.594 + 0 27- 0 0 'A
~84 " Aisles / Cables NN-58. El.594 + 0 17 0 0 A t
- 89. Fuel: Pool Area.(Unit 1) PP-50 E1.605.+ 10 19 7 0 A 90 FuelLPool Area (Unit 2) PP-64 El.605.+ 10 19 7 0 A 128 UHI Bldg (Uniti1)L .
.HH-44 E1.550 + 0- 2 3 0. A 129 FuelLPoolJPurge Room (Unit 1) NN-50 El.631 + 6 ~6 0 0 A 130 . UH I s Bldg-(Unit 2). HH-71 E1.594 + 0 2 '3 0 A 131 Reactor-Bldg 0*-45* Be1. E1.565 + 3 4 0 0 A
'132- TReactor Bldg. .45*-90*- Bel. El.565 + 3 3- 0 0 A 133 Reactor Bldg- 90*-135* Be1. El.565 +L3 4 .0 0. A .-
134 Reactor' Bldg 135*-180* Be1. El.565 + 3 5. 0 0 A !
-135 Reactor Bldg- :180*-225 Bel. E1.565 + 3 4 0 0 A 3 i
125 Reactor. Bldg. '270*-315* ' Bel. El.565'+ 3 3 0 0 A '
137 Reactor Bldg. 315 -0* Bel. E1.565 + 3 8' O O A '
138 . Reactor Bldg. '0*-45* Bel. El.586 + 3 6 0 0 A 139 Reactor Bldg. 45*-90*: Bel. El.586 + 3 4 0 0 A 140 ReactorfBldg '
90*-135* : Bel. El.565 + 3- 3 0- 0 A 141~ Reactor Bldg.
135*-180* Bel. El.586-'+ 3 8 0 0 A.
'142- Reactor Bldg- 180*-225* B( 1L . E1.586 + 3. -5 0 0 A i
'143 Reactor. Bldg 315*-0* - Be. . .El.586 +'3. -
5 0 0 A 144- Reactor Bldg 0*-45* Bel El.593 + 21 14 0 0 A 145' Reactor. Bldg 90*' Bel. El.593 + 21-17 0 0 A 146 Reactor B1c'g .90*-135* ' Bel El.5931+ 21"11 0 0- A 147 Reactor' Bldg =135*-180* Bell El.'593 + 2ii10 0 .O A
.148. Reactor. Bldg 180*-225*- Bel. El'.593.+ 21 2-0 'O A
.149 . Reactor' Bldg 315 -0* ; Bel.'El.5931+ 21 7 0 0 A
~150 ' Reactor Bldg-(Unitj2) 0"-45*' Bel. El.565'+~3 4 0 0 A 151'- ' Reactor
- Bldg (Unit 2) 45*-90* Bel. El.565 +L3 3 0 0 A 8152 Reactor. Bldg-(Unit-2) 90*-135* Bel. El.565 +'3 4- 0' 0 'A-13153 Reactor' Bldg-(Uniti2) 135*-180* 'Be1. El.565~+ 3 5 0 0 A "154-Reactor l Bldg j-. ( Unit' . 2 ) . 180*-225 Be1..El.565 + 3 .3f 0 0 A ,
- - - _ . :_-2 _ . -_- -_-- - -- - .
/S n
.f" C
s U
TABLE 16.9-3 ,
FIRE DETECTION INSTRUMENTS Page 4 of 5 E
EFIRE MINIMUM INSTRUMENTS OPERABLE *
- ZONE DESCRIPTION LOCATION SMOKE FLAME HEAT FUNCTION **
e
? 0
$155 Reactor Bldg.(Unit 2) 270*-315 Bel. El.565 + 3 4 0 A w156 Reactor Bldg (Unit 2) 315*-0 Bel. El.565 + 3 6 0 0 A "157 Reactor Eldg (Unit 2) 0*-45* Bel. E1.586 +~6 6 0 0 A 158 Reactor Bldg (Unit 2) 45 -90* Bel. El.586 + 6 4 0 0 A 159 Reactor Bldg (Unit 2) 90 -135* Bel. E1.586 + 6 3 0 0 A 160 Reactor Bldg (Unit 2) 135 -180* . Bel. El.586 + 6 _
8 0 0 A 161 -Reactor Bldg (Unit 2) 180*-225 Bel. E1.586 + 6 5 0 0 A 162 Reactor Bldg (Unit 2) 315*-0* Bel. E1.586 + 6 5 0- 0 A 163 Reactor Bldg-(Unit 2) 0 -45* Bel. El.593 + 21 13 0 0 A 164 Reactor. Bldg-(Unit 2) 45 -90* -Be1. E1.593 + 21 17 0 0 A 165 Reactor Bldg (Unit 2) 90 -135* Bel. El.593 + 21 13 0 0 A 166 Reactor Bldg (Unit 2) 135*-180* Be3 - E1.593 + 21 10 0 0 A 167 Reactor Bldg (Unit 2). -180*-225 Bel. E1.593 + 21 2 0 0 A 168 Reactor Bldg (Unit 2) 315*-0* Bel 21.593 +.21 7 0 0 A 169 NC Pump 1A Reactor Bldg El.y93 +~21 0 0 1 A 170 NC Pump IB Reactor Bldg El.3 + 21 0 0 1 A 171 NC Pump 1C Reactor Bldg El.533 + 21 0 0 1 A 172 NC-Pump ID Reactor Bldg El.593 + 21 .
0 0 1 A 173 NC Pump'2A' 45* Be1. El.593 + 21 0 0 1 A 174 NC Pump 2B 135* Be1. El.593 + 21 0 0 1 A 175 NC Pump 2C. 225* Bel. E1.593 + 2i 0 0 1 A
~176 NC Pump 2D '15 Bel. El.593 + 21 0 0 1 A 177 Filter Bed Unit 18 Re' .or Bldg Bel. El.565 + 3 2 0 2 A 178 Filter Bed Unit 1A Re. :or Bldg Bel. E1.565 + 3 2 0 2 A 179 Filter Bed-Unit 2A Re' . tor Bldg El.565 4 3 2 0 2 A 180' Filter Bed Unit 2B Reactor Bldg El.565 + 3 .
2 0 2 A
.181a Annulus E1.561 + 0 0 0 1 A 181b Annulus El.583 +.0 0 0 1 A 181c Annulus El.604 +0 0 0 1 A 181d Annulus El.629 + 5. 0 0 1 A 181e Annulus El.649 + 5 0 0 1 A 181f Annulus El.664 + 0 0 0 1 A E182a Annulus El.561 + 0 0 0 1 A D182b Annulus E1.583 + 0 0 0 1 A
" 182c Annulus- El.604 +0 0 0 1 A
O O O -
TABLE 16.9-3 '
FIRE DETECTION INSTRUMENTS Page 5 of 5 b
EFIRE MINIMUM INSTRUMENTS OPERABLE * '
- ZONE e DESCRIPTION LOCATION SMOKE FLAME HEAT FUNCTION **
5
%182d ' Annulus El.629 + 5 0 0 1 A wl82e Annulus E1.649 + 5 0 0 1 A "182f Annulus. El.664 + 0 0 0 1 A 183 Fuel Pool Purge Room (Unit 2) NN-64 E1.631 + 6 6 0 0 A 212 Aisles / Cables GG-57 E1.522 + 0 2 0 0 A 213 Aux Battery Room AA-55 E1.544 + 0 4 0 0 A 214 Aux Control Power Batteries AA-59 E1.560 + 0 4 0 0 A 215 D/G Corridor BB-45 El.556 + 0 3 0 0 A 216 D/G Corridor AA-45 El.556 + 0 2 0 0 A' 217 D/G Corridor CC-71 E1.560 + 0 3 0 0 A 218 D/G Corridor BB-71 E1.560 + 0 2 0. 6 A' 219 Mech Pen Room HH-52 El.577 +0 6 0 0 A 220 Mech' Pen' Room JJ-62 El.577 + 0 6 0 0 A 222 Airlock Access (Unit 1) 'JJ-51 E1.605 + 10 1 0 0 A 224 Airlock Access (Unit 2) JJ-63 El.605 + 10 l' O O A 225 RN Pump Structure West'Section- El.600.+ 0 8 0 8 A 226 RN Pump Structure East'Section- E1.600 + 0 8 0 8 A 231 Reactor Bldg (Unit 1) 260*-303* Bel. El.668 +10 10 0- 0 A 232 Reactor Bldg (Unit 2). 260*-303* Bel. El.668 +10 10 0 0 A 184 HVAC Duct for Rooms 331 and 332 FF-53 E1.543 + 0 1(Duct) 0 0 A'
'185 HVAC Duct for Rooms 203, 205 MM-60 El.543 + 0 1(Duct) 0 0 A 205A, 206A, 206B, 207 and 209A 186' HVAC Duct for Rooms 301, NN-60 El.560 + 0 1(Duct) 0 0 A 302, 305, and 307 RFIA Diesel' Generator lA EE-41 El.556 + 0 0 0 .C(10) AiB)
RFlB Diesel Generator 1B AA-41 El.556 + 0 0 0 O(10) A(B)
RF2A Diesel' Generator 2A EE-72 El.556 + 0 0 0 0(10). A(D)
RF2B Diesel Generator 2B AA-72 E1.556 + 0 0 0 0(10) A(B; c,
- The fire detection instruments' located within the containment are not required to be OPERABLE
.R during the performance-of Type A Containment Leakage Rate tests.
E** Function A:' Early warning fire detection'and notification only.
Function B: Actuation of fire suppression system and early warning and notification.