Revs to Catawba Nuclear Station Selected Licensee Commitments Manual

ML20063H571
Person / Time
Site:	Catawba
Issue date:	01/25/1994
From:	Dover G DUKE POWER CO.
To:
References
PROC-940125, NUDOCS 9402180253
Download: ML20063H571 (18)
v • d • e

Text

- .- . . _ _ __ _. .- _

%~ " ~

FORM 01190 (R3-92) FORM 901.1/REV

. . , 4}

- - - - - . - - - DespossTeoM OF THE ORIGINAL '

i PRIORITY- RUSH --

EEat"ssGNATu'n$ "' M g NT is oTHERwisE DUKE POWER COMPANY li'l* Q U13875.M H HAZELTINE EC13G - DATE: 02/03/94 . ' 37 -

i (2} 5302 H J BRADY. OPS : SUPPORT CN020P DOCUMENTTRANSMITTALFORM - DOCUMENT TRANSMITTAL

• 11'343 93 3759'O S NUCLEAR' REG:UASH;wDC mo

.lil0085_G A COPP EC050 gy

-(5)3538 P H ABRAHAM EC08I . ~

1 W10 T 2268 L E LOUCKS EC070 GAcoNorm=

0 ves B"o @

(7 0297 REGION ADMINISTRATIOR REG II

REFERENCE:

S t(8) 0884 R C FUTRELL CNOIRC OTHER ACKNOWLEDGEMENTREQUIRED ]YES N 413945.M.J.UEBSTER CT01A CATAWBA NUCLEAR STATION IF GA OR OTHER ACKNOWLEDGEMENT P'f)UIRED. PLEASE  : .

O0!4338 E O MCCRAW EC07A dg .pgA SELECTED LICENSEE COMMITHENTS' A %E8NHECEIPT BY RETURNING THIS FORM OR DP

'H110582 R R ST CLAIR EC08G Catawba Nuclear Staten 'j t 10211402 R L BROWN MG03C1 >.  : 4aoo Concord Road jU3}?l88_L M ROBERTS-QV_EC12A

0414406 PAMELA PALMER EC06H U

wSSo'"'Es7 Ca 5

/

kDU

(15)1648 T P HARRALL CN01SA

(1810804 J E THOMAS I&E ENG CNS CN04D a.cd ay Date 1040276 0 J PHILLIPS CT01A' .

p8)1127 M S SILLS CN05SG PAGE 1 0F 7

~'

' DOCUMENT NOL C na DI $"e y - 1 2 .3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 TOTAL

-C D SLC CHAPTER 16.9-5 NA 01/25/94 CADM-03 V1 V1 VIC V1 V1 V1 V1 V1 V1 U1 V1 V1 V1 V1 U1 V1 V1 J1 104 NA 01/25/94 CADM-03A 35 CO

'D qi CD CD w.,

- REMARKS: UP'DATE SLC ACCORDING TO COVER LETTER DATED 1/31/94.

. '_ gafo D L REliN GALITY CHECKED EB 8/ VICE PRESIGENT 1 ,

CATAUBA NUCLEAR SIlE BY G C DOVER CH01RC GCD/MPU

{

Il I Duke Ibarr Cornpany (803)331 3000 l Catawba Nuclear Station 4800 Concord Road krk, SC29745 V .

DUKEPOWER l

January 25,1994 RE: Catawba Nuclear Station Distribution Code CADM-03/03A Selected Licensee Commitments Effective January 25,1994 Attached are revisions to the Catawba Nuclear Station Selected Licensee Commitments.

Please revise your manual as follows:

Remove Insert

• LOEP [

Page 1 (12/15/93) Page 1 (01/25/94)

Page 3 (12/15/93) Page 3 (01/25/94)

Chapter 16.9 i Page 14 (07/92) Page 14 (01/25/94)

Page 15 (07/92) Page 15 (01/25/94)

Page 16 (07/92) Page 16 -(01/25/94)

Page 17 (07/92) Page 17 (01/25/94)

Page 18 (07/92) Page 18 (01/25/94)-

Page 19 (07/92) Page 19 (01/25/94)

Page 20 (07/92) Page 20 (01/25/94)

Page 21 (10/92) Page 21 -(01/25/94)

Page 22 (10/92) Page 22 (01/25/94) j Page 23 (12/93) Page 23 (01/25/94)

Page 24 (07/92) Page 24 (01/25/94)

Feg: ?.5 (12/93) Page 25 (01/25/94) ,

Page 26 (12/93) Page 26 (01/25/94) .

Pagt 27 (07/92) Page 27 (01/25/94)

Page 23 (10/92)

Any questions concerning this revision should be directed to the undersigned at 803-831-3486.

U' U Gale C. Dover Regulatory Compliance Attachments

ste.tm i

a-w m mve,m,

1 1

DUKE POWER COMPANY.

O SELECTED LICENSEE COMMITMENTS MANUAL l List of Effective Pages j Page Revision Date Y l

LOEP 1 01/25/94 LOEP 2 12/29/92  ;

LOEP 3 01/25/94 {

LOEP 4 01/01/93 LOEP 5 07/21/93 LOEP 6 01/01/93 .

t LOEP 7 06/23/93 Tab 16.0 .

16.0-1 06/23/93-O Tab 16.1 16.1-1 06/23/93 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 l 11/91 1

Table 16.3-1 Ig.b 16.4 O Page 1 01/25/93

DUKE POWER COMPANY O SELECTED LICENBEE COMMITMENTS MANUAL i List of Effective Pages- l Egga Revision Date Page 11 12/29/92 Page 12 07/92 Page 13 07/92-Page 14 01/25/94 Page 15 01/25/94 Page 16 01/25/94 Page 17 01/25/94 Page 18 01/25/94 Page 19 01/25/94 Page 20 01/25/94

-Of. "Page 21 01/25/94 Page 22 01/25/94 Page 23 01/25/94 Page 24 01/25/94 Page 25 01/25/94 Page 26 01/25/94 Page 27 01/25/94 Tab 16.10 16.10-1 02/91 16.10-2 02/91 O Page 3 01/25/93

\

i i

p 16',9 AUXILIARY SYSTEMS - FIRE PROTECTION SYSTEMS G/

16.9-5 FIRE BARRIER PENETRATIONS COMMITMENTS:

All fire barriers (walls, floor / ceilings, cable tray enclosures and other fire barriers) and all sealing devices in fire barier penetrations (fire doors, fire dampers, cable, pipe and ventilation duct penetration seals) separating;

• Safety from non-safety related areas or,

• Redundant analyzed Post Fire Safe Shutdown Equipment or,

• Control Complex (Control Room, Cable Rooms and Battery Rooms) from the remainder of the plant or,

• Containment from non-containment areas, shall be OPERABLE.

, Note: (1) Fire Barriers are identified on drawing series CN-1105 ...

(2) A list of committed fire doors is loacted in the

Bases Section. j i

c  !

( APPLICABILITY:

L.

At all times. .

REMEDIAL ACTION:

With one or more of the above required fire barrier penetrations 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 penetration, or verify the OPERABILITY of fire detectors on at least one side of the inoperable penetration and establish an hourly fire watch patrol.

If a continuous fire watch is required for the fire door (s) at the upper or lower containment entrances (AX352D, AX353D, AX701 or AX715A), this fire watch may be established using a closed circuit camera and monitor. The camera shall be adjusted so that the fire door can be fully viewed on the monitor. The monitor i shall be placed in a contantly attended location. If the ability l to view the open fire door with the camera and monitor is lost, the continuous fire watch shall be moved from the location of the monitor and reestablished at the opened fire door.

TESTING REOUIREMENTS:

N, a. At least once per 18 months the above required fire barrier

("J CHAPTER 16.9 Page 14 01/25/94

i ,

i G - .

L , 1

! penetrations and sealing devices - shall be verified OPERABLE -

-i i by performing a visual inspection of:

i

i. The exposed surfaces of each fire rated-assembly;. -

! 11. At least 10% of all fire dampers.._ If abnormal changes? 1

! in appearance or abnormal degradation, are found,- a-j visual inspection of an' additional E 10% .~ of L the dampers- ,

This inspection . process ; shall continue i shall be made.

i until a 10% sample .with no abnormal changes in.  ;

i appearance or degradation is found. Samples shall1be j selected auch that each - fire damper ' will be inspected' every 15 years; and  ;

iii. At least 10% of each type . of sealed -penetration'. . . If;

abnormal changes in appearance.or. abnormal degradations-  :!

are found, a visual' inspection - of ; an additional 10% of-j each ' type of sealed penetration shall- be made. - ~.This

inspection process shall- continue until a; .10% _. ' sample ~ .i i with . no abnormal' changes in appearance : or abnormal; I degradation is found. ' Samples shall' be. selected such j that each penetration seal will be inspected every 15 l years. l i b. Each of the above required - fire- doors. shall. .be verified-f OPERABLE by inspecting the closing mechanismfand" latches at ,

least once per 6 months, and by verifying:

l

! i. The position ~ of each interior . closed E fire door. 'at .i

! least once per 24-hours,-

i 11.

j The OPERABILITY of the' fire. door. supervision systemE each electrically. supervised i for fire 'doori by-performing a TRIP ACTUATING DEVICE' OPERATIONAL TEST j at least once per 31 days, and'  :'

i

! iii. That each locked closed fire door is closed at lea'st i once per 7 days. j

.l j

REFERENCES:

]

i .

'I

} 1) Catawba FSAR, Section 9.5.1 3

j 2) Catawba SER, Section 9.5.1 l 3) Catawba SER, Supplement 3,'Section 9.5.1

4) Catawba Fire Protection Review, as revised )

j 5) Catawba Fire Protection Commitment Index )

i i

~

CHAPTER 16.9 Page 15 01/25/94

\

i i

BASES:

The functional integrity of the fire barrier and associated penetration seals ensures that fires will be confined or adequately retarded so that the following criteria is achieved:

• Fire will not spread from non-safety related areas to safety related areas,

• Fire will not damage redundant analyzed post Fire Safe Shutdown equipment,

• Fire will not spread from the balance of plant to the control complex,

• Fire will not spread from non-containment areas to containment areas.

The fire barriers and associated penetration seals are a passive element in the facility fire protection program and are subject to periodic inspections.

Fire barrier penetration seals, including cable / pipe penetration seals, fire doors, and fire dampers, are considered functional when the visually observed condition indicates no abnormal change in appearance or abnormal degradation. An evaluation is performed to determine the cause of any identified fire barrier penetration seal abnormal change in appearance or abnormal degradation and the affect of this change on the ability of the fire barrier penetration seal to perform its function.

During periods of time when a barrier is not functional, either:

(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 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 subject to the provision of the Catawba Facility Operating License Conditiona #8 for NPF-35 and NPF-35 #6 for NPF-52.

t G

CHAPTER 16.9 Page 16 01/25/94

^

ll

• i

'q COMMITTED FIRE DOORS '

3

\ss/ Page 1 of 3 s

l Elevation 543+0 ,

AX217D .52-53, BB  ;

} AX217F .51,'AA-BB  ;

j AX217G 52-53, BB .

l AX228A 56-57, EE-1 AX228B _57-58, EE' l AX248 57-58,-QQ.

j AX260B 61-62,_BB-CC

AX260F- 62, AA-BBl '

i AX260G 62, BB-CC'

'AX260H 61-62,1BB-CC '

7;

T527#1 52-43, BB-CC-I j Elevation 554+0 -

AX354A 55,-DD-EE. '

AX354B H59 , DD-EE  :

AX418 57,_BB-

AX419 57,-DD-EE -

AX420A 59, DD-EE AX421A

()

55,-DD-EE -

S102A 53-54', AA ,

Elevation 560+0

• AX352B 53,.CC-DD ,

AX352C 53,-CC-DD _ 1 AX352D 46-47, BB-CC-AX353 45-46, BB AX353B " 4 $ , , AA-BB . ,

AX353C 45,.AA-BB-AX393B 61, CC-DD AX393C 61, CC-DD.

AX393D 67-68, BB-CC _[

AX394 69,'BB _

AX394B 69, AA-BB-

, AX394C 69, AA-BB AX395 ~61, AA-BB AX396 53, AA-BB.

AX415 45-46, CC-DD AX416 68-69, CC-DD AX417- 57,-QQ -

V CHAPTER 16.9 'Page 17 '

~

i 01/25/941 g l

a,

COMMITTED PIRE DOORS O Page 2 of 3 Elevation 574+0 AX515 54, BB AX516 56-57, DD AX516A 57-58, DD-AX516K 57, AA-BB AX517A 53-54, DD-EE-AX517B 60-61, DD-EE AX517C 57, DD-EE AX517D 57, DD-EE AX517E 56-57, DD-EE AX518 60, BB S303A 54, AA S304A 60, JUL Elevation 577+0 AX513B 53,.CC-DD AX514 45-46, BB AX514B 45-46, AA-BB AX517 57, EE AX525 55-56,- QQ AX525B 56, QQ AX526D 58, QQ A314#3 61, CC-DD.

AX533C 61, CC-DD AX534 69, BB AX534B 68-69, AA-BB AX535 61, AA-BB' AX536 53, AA-BB-AX656 53, CC-DDj O CHAPTER 16.9 Page 18 .01/25/94-

I i l a l

9

("'s COMMITTED FIRE DOORS l ( ,) Page 3 of 3 Elevation 594+0 l

AX602 52, UU-VV AX627E 62, UU-VV AX630 58, QQ AX632 57, QQ AX635 60-61, QQ l AX635E 53-54, QQ l AX635F 53-54, QQ l AX655 62-63, DD AX656C 61, CC-DD AX657 60-61, CC S418 DOC. CONTROL S419 DOC. CONTROL AX657B 52-53, CC-DD AX657F 60 'nD-EE AX657G 5 *. - j 8 , 2-EE AX657H 54, DD+YE AX657J 53, oL-CC AX658B 51-52, DD S400 55-56, AA S406 58-59, AA l Elevation 605+0 AX700B 50-51, JJ-KK ,

AX701 50-51, JJ-KK j AX714B 63-64, JJ-KK  ;

AX720 50-51, HH-JJ i AX721 63-64, HH-JJ j.

AX715A 63-64, JJ-KK '

Elevation 609+0 ,

S1114 QA Vault Nuclear Service Water Pumo Structure AX662A N.s CKAPTER 16.9 Page 19 01/25/94'

i j . ,

! l l- 16.9 AUZILIARY SYSTEMS - PIRE PROTECTION SYSTEMS F  !

FIRE DETECTION INSTRUMENTATION 16.9-6 i l i

l COMMITMENT:  ;

i  :

l *s a a minimum, the fire detection instrumentation for each: fire I

detection zone shown in Table 16.9-3 shall be OPERABLE. -

I APPLICABILITY: .

I Whenever equipment protected by the fire detection instrument-is i required to be OPERABLE. -i j REMEDIAL ACTION: ,

! a. With any, but not more than ' one-half the total -in . any fire

zone, Function A fire detection ' instruments shown rin - Table ,

16.9-3 inoperable, restore the~ inoperable instrument (s) to i OPERABLE status within 14 days or within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> _. establish a i 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 Lat 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. i

] hour at the locations listed in Specification'4.6.1.5.-  ;

4  :

b. With more than one-half of the . Function A J fire' detection l instruments in any fire' zone _ shown.:in Table. 16.9-3 I inoperable, or with any Function B fire. detection-instruments shown in Table 16.9-3 inoperable, . or. with any -

g two or more adjacent fire detection = instruments shown :in  ;

i Table 16.9-3 inoperable',' kithin hour _ establish = a fire -

i 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 j inspect that containment zone at least once per 8. hours or ,

j monitor the containment air temperature at least _ once . per .;

hour at the locations listed in-Specification.4.6.1.5.

i '

TESTING REOUIREMENTS

a. Each of the above required flame detection' instruments shall i be demonstrated OPERABLE at least once per 6.: months by. j 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 i OPERABLE at least once per 6 months by_the performance of~a'.  !

, VISUAL INSPECTION and at least once per year by performance-j CHAPTER 16.9 Page 20 01/25/94

__m ee E... ...-w w , -+ 4 _.f g ew,+

i I - .

l i l' c -

3 i of a TRIP ACTUATING DEVICE OF" RATIONAL" TEST. Det'ectors which  !

j are not accessible during plant operation shall 'be  !

j- demonstrated operable-byJthe' performance ofLaETRIP ACTUATING.  ;

DEVICE OPERATIONAL TEST duriwg each refueling outage.- t I

! All spot type - heat detectors which tare. accessible. during plant operation shall bu VISUALLY INSPECTED at - least once  ;

per 6 months. -

Each of the above ' required heat detection -instruments 1 shall i be demonstrated OPERABLE as follows:  ;

i. For nonrestorable' spot-type . detectors, at least two.  ;

detectors out. of. every hundred, or fraction .thereof,-  !

shall be removed every 5'. years and' functionally-tested.  ;

For 'each failure -. that- occurs on the L detectors removed, two additional detectors. shall be removed and ' tested; >

and, ii. For restorable. spot-type'. heat detectors which'.- are.  ;

accessible during plant operation, at least.one detector  !

on each signal initiating circuit shall be demonstrated- 1 OPERABLE at least once per 6 months by performance;of-a' i TRIP ACTUATING' DEVICE OPERATIONAL-' TEST.- Different- :i detectors shall be selected- for~ each test. ' Fire detectors which are not accessible :during'. plant '!

operation shall be demonstrated OPERABLE by- the j performance of a TRIP ACTUATING ' DEVICE OPERATIONAL ' TEST  ;

during each refueling outage. t

b. The NFPA StandardL 72D supervised ~ circuits ' supervision associated with the detector -alarms of each of - the . above [

required fire detection. instruments shall be demonstrated ,  ;

OPERABLE at least once per 6 months.  !

i

REFERENCES:

i

1) Catawba FSAR, Section 9.5.1 ,

2) Catawba SER, Section 9.5.1 i

3) Catawba.SER, Supplement 2, Section 9.5.1 'l

4) Catawba SER, Supplement.3, Section 9.5.1  !

5) Catawba Fire Protection Review, as Revised- 'i i

6) Catawba Fire Protection' Commitment Index l i

O CHAPTER 16.9 Page 21- .01/25/94; l

-i

.I 2 '. m. . J

i l

l BASES 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 detectors, will discharge extinguishing agents in a cimely manner. Prompt detection and suppression of fires will reduce the potential for damage to safety-related equipment and is an integral element in the overall facility Fire Protection Program.

Fire detectors that are used to actuate Fire Suppression Systems represent a more 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 inoperable instrumentation is restored to OPERABILITY.

4 EFA Zone 65 consists of 18 smoke detectors. Table 16.9-3 lists O

V the Minimum Instruments Operable for EFA Zone 65 as 15. The basis for this difference is as follows:

• Two smoke detectors are located in the Auxiliary Service Building. These smoke detectors are not included in the Table 16.9-3 EFA Zone 65 Minimum Instruments Operable because they are located in a nonsafety-related area.

• The smoke detector located in the Spent Resin Batching Tant Room is not included in the Table 16.9-3 EFA Zone 65 Minimum Instruments Operable because the Spent Resin Batching Tank Room is a High Rad Area with minimal combustible loading. Entering this room twice a year to perform smoke detector testing is not justified. The Spent Resin Batching Tank Room is enclosed by four foot thick reinforced concrete walls. The only access to this room is through a reinforced concrete hatch in the 594+0 Elevation floor slab. In the unlikely event that a significant fire should occur in the Spent Resin Batching Tank Room, the smoke detectors adjacent to (Elevation 577 -

EFA Zone 65) or above (Elevation 594 - EFA Zone 84) the Spent Resin Batching Tank Room would provide an alarm to the Control Room. The areas adjacent to the Spent Resin Batching Tank Room rely on the same assured train of Post Fire Safe Shutdown; therefore, a fire in this room would have no adverse impact on Post Fire Safe Shutdown even in the unlikely event of fire extension into the adjacent

,q areas.

V CHAPTER 16.9 Page 22 01/25/94

._ _ _ _ _ . . _ _ -- _ _ _ . . _ . _ - . . - . _ _ . _ . . . _ _ . . . . _ . _ . _ _ _ . . _ _ . . . . .m . . . _ _ _ . ._..__.m.__._...__m . _ _ _ . _ . . _ . _ . _ .

O O O .-

TABLE 16.9-3 .

FIRE DETECTION INSTRUMENTS ,

Page 1 of 5 ,

B MINIMUM INSTRUMENTS OPERABLE

• l FIRE DESCRIPTION LOCATION SMOKE FLAME HEAT FUNCTION **

p ZONE 1 ND Pump 1B GG-53 El.522 + 0 1 0 0 A .

l 'e 2 ND Pump-1A FF-53 El.522 + 0 1 0 0- A El.522 + 0 3 0 0 A

. Mo 3 4

NS Pump 1B NS Pump 1A GG-54 GG-55 El.522 + 0 2 0 0 A .

N 5 ND Pump 2B GG-61 E1.522 + 0 1 0 0 A

" ND Pump 2A FF-61 El.522 +-0 1 0 0 A I 6

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-51 El.543 + 0 14 0 O(6) A(B) '

10 Mech Pen Room JJ-52 El.543 + 0 3- 0 0 A 11 Corridor / Cables t NN-51. El.543 + 0 6 0 0 A 12 NV Pump #1 (Unit 1) JJ-53 El.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 NV Pump.1B JJ-54 El.543 + 0 2 0 0 A 16 NV Pump 1A~ JJ El.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) '

20 Mech Pen Room JJ-62 El.543:+'O 3 0 0- A 21 Aisles / Cables. NN-61 El.543 + 0 -

6 0 0 A 22 NV Pump #2-_(Unit 2) 'JJ-60 El.543'+ 0 -1 0 0 A-~

23 NI-Pump 2B. HH-60 El.543 + 0 1 0 ~0: A

'24 NI. Pump 2A' GG-60 El.543 + 0 1 0 0 -A-25 NV Pump-2B JJ-59 El.543 + 0 .

-2 0' 0' A 26 NV. Pump 2A JJ-58 lEl.543 + 0' -2 -0: 0 A =

$ 27 Aisles / Cables; KK--59 El.543 + '

0 20 0' O A' El.543 + 0- O- 0 A QW 29. 28 Aisles / Cables:

Swgr Equip Room EE-58 AA-50 E1.560 + 0 6'

7 0 0 A-Q 30 Elect Pen Room 'CC-50 El.560 +

El.560 +

0 0

8 5

.0 0

0 0

A-A

"' - 31 ~ Corridor / Cables. EE-53 ~

32- Corridor / Cables- KK-52 El.560-+ '.0~ .8 0 0 A

33. Corridor / Cables': NN-54~ El.560 + 0- -10 0 0~ - A'

'34~ Aisles / Cables- JJ-56 El.560-+ 0 .14 0' -0. A- '

35- Motor Control Centers -GG 56 El.560 + 0 2. O ~0 A

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

O O O 2 TABLE 16.9-3 .-

FIRE DETECTION INSTRUMENTS ,

Page 2 of 5 .  ;

O N -

MINIMUM INSTRUMENTS OPERABLE

• g FIRE "

ZONE DESCRIPTION LOCATION SMOKE FLAME- HEAT FUNCTION **

36 Cable Tray Access FF-56 El.568 + 0 2 0 0- A 37 Equip Batteries DD-55 El.554 + 0 5 0 0 .A D 38 Equip Batteries CC-55 El.554 + 0 5 0 0 -A CC-56 El.554 + 0 17 'O O A

$ 39 Battery Roon 7 0 0 A n 41- Swgr Equip Room AA-64' El.560 + 0 i* 42 Elect Pen Room CC-65 El.560 + 0 8 0 0 4 43 Corridor / Cables FF El.560 + 0 5 0 0 A 44 Aisles / Cables KK-63 El.560 + 0 8 0 0 A 45 Aisles / Cables- NN-60 El.560 + 0 13 0 0 A 46 Aisles / Cables HH-59 'El.~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 El.560 + 0 2 0 0 A 49 Equip Batteries DD-60' El.560-+ 0. 5 0- 0 A 50 Equip Batteries. CC-60 El.560 + 0 5 O. -0 A 51 Battery Room. CC-59: -El.560 +-O' .

~17' O 0. A'

53. Swgr Equip Room AA El.577'+ 0 7' O 0 A 54 Aisles / Cables -CC-50 El.577 + 0 10 0- 0 A

-55 Aisles / Cables. NN-52 :El.577-+ 0 9.- 0 0, iA 56 Aisles / Cables PP-55 -El'.577 + 0- 13 0 0- A 57- Aisles / Cables LL-55 El.577 + O!

- 11. 0 0 A 58 Aisles / Cables HH-55 El.577 + O .21 0. 0 -A 59 Motor' Control-Center EE-54 El.577 +-0 2 0 .0 'A~~

60- Cable Room-- CC-56 El.574c+.0- '18 - 0- '0

~

A:

0

~

62 Swgr Equip; Room! 'AA-64L- El.577 + 0 '7 0 -A:

63 Elect Pen Room CC-64 El.577 +'Oi 10 0 0. A .

64 Aisles / Cables. 'PP. _El.577~~+ -

O 9- 0 'O A .

o 65J Aisles / Cables PP-59 El.577 +.0

~

15 0 0 A (See-Bases)

U 66 Aisles / Cables, LL-59 .El.577 +.0 ~ 11 . 0- 0- A

.$;.67.. 'HH-59. El.577'+-0 21 ~0- 0 A Aisles / Cables- _

.0 A-N. 68~ Motor Control 1 Center FF-60 El.577 + O .

2' O

I 69 Cable Room- CC-59 .El.577 + 0 18 0 0 A l .71E Elect Pen Roon . CC El.594 + 0- 10 -0 'O A l 72 Control-Room CC-56 El.594 + 0 23 '6 A-73 -Vent Equip Room. FF-56 El.594 + 0 9 0- ~0 A-LL-56 El.594~+ 0 25 0 A-74 -Aisles /Cablesi _

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

TABLE 16.9-3 .

FIRE DETECTION INSTRUMENTS Page 3 of 5 .

>3 M "

08 ' FIRE MINIMUM INSTRUMENTS OPERABLE *'

DESCRIPTION LOCATION SMOKE FLAME HEAT FUNCTION **

_ ZONE e

PP-54 'El.594 + 0 15 0 0 A

, ~76 Aisles / Cables 11 0 0 A

..p 79 Elect Pen Room BB-63 El.594 + 0 I BB-59 El.594 + 0 22 0 6 A

$ 80 Control-Room

-Vent Equip Room FF-58 El.594-+ 0 12 0 0 A -

_,l 81 A

m 82 Aisles / Cables KK-58 El.594 + 0 27' O O NN-58 El.594 + 0 17- 0 0 A 84 Aisles / Cables- 19 7 0 A 89 Fuel Pool Area (Unit 1) PP-50 El.605 +-10 19 7 0 A 90 Fuel-Pool Area (Unit 2) PP-64 E1.605 + 10 El.631 + 6 6 0 0 A i

129 Fuel Pool Purge Room (Unit 1). NN-50 131 Reactor. Bldg 0*-45' Bel. El.565 + 3- 4 0 0 A 132 Reactor Bldg 45*-90' Bel. El.565 + 3 3. 0- 0- A-0 A

-133 Reactor Bldg 90*-135' Bel. El.565 + 3 4 0 134 Reactor Bldg. 135'-180' Bel. El.565 + 3 5 0 0 A 135 ' Reactor-Bldg 180*-225*' Bel..El.565.+ 3 4 0 0- A 136 Reactor _ Bldg 270*-315* Bel. El.565 +-3 3 ~0 0 A '

[ 0 0 A 137 Reactor Bldg 315*-0* ' Bel. El.565 + 3 8

138 Reactor Bldg 0*-45'- Bel. El.586~+

3 6 0 A 139 Reactor Bldg -

45'-90*~ Bel. El.586 +-3: 4 0 0 A .i 140 ' Reactor. Bldg 90*-135' Bel.:El.565.+ 3 3- 0 0 A i; 141' -Reactor' Bldg '135'-180*- Bel..El.586;+ 3 8 0: O A 142 Reactor Bldg 180*-225' Bel. El.586'+ 3 5 0 0 'A 143 . Reactor; Bldg., .315'-0*- Bel. El.586 + 3; 5 0 0. A 144 Reactor Bldg 0*-45 Bel. El.593 + 2 -14 0 0 A 145 Reactor Bldg- 45'-90'- Bel. El.593 + 2 16 'O 0; A A

jo ' '146. Reactor Bldg 90*-135* - Bel..El.593'+ 2 ' 11' 'O 0 .

'o -147 -Reactor Bldg 135*-180'  : Bel. El.593f+ 2 0. 0 A

_ Reactor-Bldg. 180*-225' Bel.-El.593 + 2 .. 2 0- 0 A U: 148_' 0 ~0 A

,' 7 149_ Reactor. Bldg.~ _ _

315'-0* Bel. El.593 + 2 - 7 .-

0*-45* Bel. El. 565 : + 3 ' 4 0 0' A

- N 150 Reactor Bldg _-(Unit 2) _

Bel; El.565 + 3 3 0 0~ A I: 151'- Reactor' Bldg:(Unit 2) 45'-90' ~ .

Bel. El.565'+ 3 4- 0 0- A-l, 152l ' Reactor Bldg (UnitL2) 90*-135*'

Reactor Bldg-(Unit 2) 135*-180* Bel..El.565-'+ 3' 5' O O A

_ .153 -

0 0 A-154. ReactorfBldg (Unit 2)- 180*-225' . Bel. El.565 + 3 3~-

L I

1 .

_- -. ..- -. x.___- . . . - . _.-_. .

O

~

O O .-

TABLE-16.9-3 .

FIRE DETECTION INSTRUMENTS ,

Page 4 of 5 ,

n 5 -

3 MINIMUM INSTRUMENTS OPERABLE

• g FIRE DESCRIPTION LOCATION SMOKE FLAME HEAT FUNCTION **'

ZONE

• 270*-315' Bel. El.565 + 3- 4 0 0 A 155 Reactor Bldg (Unit 2) 156 Reactor Bldg (Unit 2) 315*-0* Bel. El.565 + 3 6 0 0- A 25el. El.586 + 6 6- 0 0 A -

g 157 Reactor Bldg (Unit 2) 0*-45*

45*-90* Bel. El.586 + 6 4 0 0 A u- 158 Reactor Bldg (Unit 2) 159 Reactor Bldg (Unit 2) 90*-135' Bel. El.586 + 6 3 0 0 A-w

• 160 Reactor ~ Bldg (Unit 2) 135*-180* Bel..E1.586 + 6 8 0 0 A 161 Reactor Bldg (Unit-2) 180*-225' Bel. El.586 + 6_ 5- 0 0 A 162 Reactor.-Bldg-.(Unit 2) 315*-0* Bel. El.586 + 6~ 5 0 0 A

'163 Reactor: Bldg-(Unit 2) 0*-45' Bel. El.593 + 2\ 13 0 0 A 164 Reactor Bldg'(Unit 2) 45*-90* Bel. El.593 + 2 17 0 0 A 165 Reactor Bldg-(Unit 2) 90*-135' , Bel. El.593 V2 13 0' O A 166 Reactor--Bldg (Unit 2) 135*-180* Bel. El.593 +'2\ 10 0 0 A 167 Reactor Bldg (Unit 2) 180*-225' Bel. El.593 +'2 2 0 0 A- '

168 Reactor Bldg (Unit 2) 315*-0* Bel. El.593 + 2 '7' 0 0 A-169 NC Pump'1A Reactor Bldg El.593 + 2 - ~0 - 0' 1- A-170- NC Pump 1B . Reactor Bldg iEl.593-+ 2 0 0 1 A-171- NC PumpL1C: Reactor Bldg El.593.+ 2 ' O 0- 1 A 172 NC Pump 1D -Reactor Bldg' El.593 + 2%. .

0: 0 1 A 173 NC-Pump 2A 45' . Bel. El.593'+ 2 0 0 '1- 'A 174 NC Pump 12B '135* . Bel. El.593 + 2 -

.0. 0' 1 A

-175 NC Pump 2C- 225*- . Bel ~. El.593 + 2 0 0 1- 'A-176 NC Pump 2D 315'  ; Bel. El.593'+~2 ' O 0- 1: A.

177 Filter Bed Unit 1B ReactoriBldg Bel'. El.565 +-3 2 '- 0- 2 -A 178 Filter Bed Unit-1A Reactor 1 Bldg Bel. El.~565 + 3- 2 0 ~2- A 179 Filter Bed. Unit 2A LReactor Bldg. 'El.565.'+ 3 2 0 2 :A A

~

Filter, Bed Unit 2B Reactor Bldg- El.565 + 3 O 2-- .s

-180 .

-2' 181a Annulus El.561 + 0 0 0 1 A

-s 181b -. Annulus' El.583 + 0 0 -0 1 A' f$ ~181cl Annulus. 'El.604'+ 0' 0 0 1 A' El.629 + 5 0 1 .A-1 A 181e 181d Annulus Annulus. _

!El.649 +'5 01 0 1- A-

181f. Annulus -E1.664 + 0 .

0: -O 1 A

~

-182 a . Annulus Ei.561 + 0 -0 0 1 A 182b- Annulus El.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 f '

5 FIRE MINIMUM INSTRUMENTS OPERABLE *

$ LOCATION SMOKE FLAME ~ HEAT FUNCTION **

ZONE DESCRIPTION-182d Annulus El.629 + 5 0 0 1 A '

w 182e . Annulus El.649 + 5 0 0 1 A 182f Annulus El.664 + 0 0 0 1 A

M NN-64 El.631 + 6 6 0 0 A LO. 183- Fuel Pool Purge Room (Unit 2) w 212 ' Aisles / Cables GG-57 El.522 + 0 2 0 0 A

• • ' 213 _ Aux: Battery Room 'AA-55 El.544 + 0 4 0 0 A 214  : Aux Control Power Batteries AA-59 . El . 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 El.560 + 0 3 0 0 A.

218 D/G Corridor.- BB-71 El.560 + 0 2- 0- 0 .- A 219 Mech Pen.Roon HH-52 El.577 + 0. '6' O- 0 A

-220- Mech Pert Room JJ-62 El.577 + 0 6 0: D A 222 Airlock _Accessj(Unit 1) JJ-51 El.605 + 10: 1- 0' 0 A 224- Airlock Access (Unit.2) JJ-63 El.605 + .

10 1' O O A: -;

225' RN Pump l Structure 1 West.Section' El.600 + 0 8 0' 0- A 226 -RN Pump' Structure.  : East Section El.600 + 0- 8 'O O A

.0 0 A-231- . Reactor. Bldg,(Unit 1) L260*-303*- Bel. El.668.+10' 10_ .;

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 El.543 +-0, l1(Duct) 0 :0 - A' f 1(Duct)- 'O 0. A-185' HVAC Duct for Rooms 203, 205_ MM-60 El.543'+-0 205A, 206A, 206B, 207.and

--2 0 9 A '

186 HVAC~ Duct for Rooms'301,. NN-60 El.560 + 0 1(Duct). ,0 .0 A

. 302,1305, and-307

.-RF1A' Diesel' Generator'.1A EE-41 El.556 + 0 0 0 O(10) A(B) st 0(10) 'A(B).

~

' 7 'RF1B- Diesel. Generator 1BL 'AA-41-El.556 + O' 8$

O.

,) RF2A' Diesel Generator 2A- EE--7 2 El . 556 + 0 0 0 -0(10) :A(B)'

! W 'RF2B. Diesel Generator.2B AA-72'El.556 + 0 .0. 0(10) A(B)

.)' * * -The fire detection instruments located-within the containment:are not-required to-be OPERABLE-during thel performance of Type.A Containment Leakage-Rate tests.

- !.**i Function A:- Early warning fire-detection and notificationionly.

l Function B:- Actuation of fire suppression system and'early. warning and notification..

m-_.m--__-__________.__.___.__.__-_____m_ ______.______-__-_______u___.__et-_ i'*_ _ . _ t-1e &1 wm _imem em La~Wi _ m A- L__ __ u___._ .-__r:___

-___ _ _ _ _ _ _ _ . _ _ .____________________mu___._u-__w._i._e-____J4__-___ et- PM