Proposed Revised Tech Specs & License Conditions,Per Generic Ltr 86-10, Implementation of Fire Protection Requirements. Supporting Documentation Encl

ML20211M677
Person / Time
Site:	Wolf Creek, Callaway, 05000000
Issue date:	02/19/1987
From:	UNION ELECTRIC CO.
To:
Shared Package
ML20211M644	List: ML20211M637 ML20211M677
References
GL-86-10, ULNRC-1447, NUDOCS 8702270340
Download: ML20211M677 (81)
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Text

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x' t I REVIStoy 3 l

3

. INDEX LIMlflNG CONDITIONS FOR OPERATION AND SURVEILLANCE REQUIREMENTS

( -

I SECTION PAGE' INSTRUMENTATION (Continued) -

3/4.3.3 MONITORING INSTRtMENTATION Radiation Moni toring for Pl ant Operations. . . . . . . . . . . . . . . . . 3/4'3-38 TA8LE 3.3-6 RAOIATION MONITORING INSTRUMENTATION FOR PLANT 0PERATIONS..................................... 3/4 3-39 TA8LE 4.3-3 RADIATION MONITORING INSTRUMENTATION FOR PLANT OPERATIONS SURVEILLANCE REQUIREMENTS........... 3/4 3-41 Movable Incore Detectors.................................. 3/4 3-42 Seismic Instrumentation................................... 3/4 3-43 TA8LE 3.3-7 SEISMIC MONITORING INSTRUMENTATION.....................

• 3/4 3-44 TA8LE 4.3-4 SEISMIC MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS........'.................... 3/4 3-45 Meteorological Instrumentation....... .................... 3/4 3-46 TA8LE 3.3-8 METEOROLOGICAL MONITORING INSTRUMENTATION.............. 3/4 3-47 TA8LE.4.3-5 METEOROLOGICAL. MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS........................... 3/4 3-48 Remo te Shutdown Instrumentati on. . . . . . . . . . . . . . . . . . . . . . . . . . 3/4 3-49 TA8LE 3.3-9 REMOTE SHUTOOWN MONITORING INSTRUMENTATION............ 3/4 3-50 TABLE 4.3-6 REMOTE SHUTOOWN MONITORING INSTRUp!ENTATION SURVEILLANCE REQUIREMENTS...........'................ 3/4 3-51 Accident Monitoring Instrumentation...................... 3/4 3-52 IA8LE 3.3-10 ACCIDENT MONITORING INSTRUMENTATION................... 3/4 3-53 TA8LE 4.3-7 ACCIDENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS........................... 3/4 3-55

" e Mirt'r : :t r :.-'-r .

/' :-57 T=.: 3. 3 n T I C OC'CCTION IX;T=" MT;. . . . . . . . . . . . . . . . . . . . . . . . . . . . 3/4 3 30 Loose-Part Detection Syster.............................. 3/4 3-62 Radioactive Liquid Effluent Monitoring Instrumentation... 3/4 3-63 CALLAWAY UNIT ! VI 070227 PDR A  % h hPDR 02 P

f REVIStay 1

3, INDEX

, llMlf!NG CONDITIONS FOR OPERATION ANO SURVEILLANCE REQUIREMENTS SECTION PAGE r

PLANT SYSTEMS (Continued)

Table 3.7-2 STEAM LINE SAFETY VALVES PER L00P. . . . . . . . . . . . . . . . . . . . . 3/4 7-3 Auxiliary Feedwater System............................... 3/4 7-4 Condensate Storage Tank.................................. 3/4 7-6 Specific Activity........................................ 3/4 7-7 TA8LE 4.7-1 SECONDARY COOLANT SYSTEM SPECIFIC ACTIVITY SAMPLE AND ANALYSIS PR0 GRAM................................ 3/4 7-8

' Main Steam Line Isolation Va1ves......................... */4 7-9 3/4.7.2 STEAM GENERATOR PRESSURE / TEMPERATURE LIMITATION.......... 3/4 7-10

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3/4.7.3 COMPONENT COOLING WATER SYSTEM........................... 3/4 7-11

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3/4.7.4 ESSENTIAL SERVICE WATER SYSTEM. . . . . . . . . . . . . . . . . . . . . . . . . . . 3/4 7-12

.- 3/4.7.5 ULTIMATE HEAT SINK....................................... 3/4 7-13 I

3/4.7.6 CONTROL ROOM EMERGENCY VENTILATION SYSTEM. . . . . . . . . . . . . . . . 3/4 7-14 3/4.7.7 EMERGENCY EXHAUST SYSTEM................................. 3/4 7-17 3/4.7.8 , SNUB 8ERS................................................. 3/4 7-19 FIGURE 4.7-1 SAMPLING PLAN 2) FOR SNU88ER FUNCTIONAL TEST......... 3/4 7-24 3/4.7.9 SEALE0 SOURCE CONTAMINATION.............................. 3/4 7-25

.10 ' FIRE SUPPRESSION SYSTEMS

.F r s s i on Wa ter Sys tem.'. . . . . . . . . . . . . . . . . . . . . . . . . . . 3/

Spray and/or Spr stems..................... .. 3/4 7-30 Halon Systems...................... ............... 3I47-32 Fire Hose Stations. . . . . . ...................... ... 3/4 7-33 TABLE 3.7-3 FI TATI0NS.................................... 3

. 11 FIRE BARRIER PENETRAT. IONS................................ 3/4 7-36 3/4.7.12 AREA TEMPERATURE MONITORING.............................. 3/4 7-37 TABLE 3. 7-4 AREA TEMPERATURE MONIT0;i!NG........................... 3/4 7-38 CALLAWAY - UNIT 1 X

- ' ' ' ' _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _____________.a

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. REVIStan j N, .

INDEX BASES SECTION

?ME.

3/4.7 PLANT SYSTEMS 3/4:7.1 TUR8INE CYCLE.............'............................... 8 3/4 7-1 3/4.7.2 STEAM GENERATOR PRESSURE / TEMPERATURE LIMITATION.......... B 3/4 7-3 3/4.7.3 COMPONENT COOLING WATER SYSTEM........................... B 3/4 7-3 3/4.7.4 ESSENTIAL SERVICE WATER SYSTEM........................... 8 3/4 7-3 3/4.7.5 ULTIMAT5NEATSINK....................................... 8 3/4 7-3 3/4.7.6 CONTROL ROOM EMERGENCY VENTILATION SYSTEM................ B 3/4 7-4 3/4.7.7 EMERGENCY EXNAUST SYSTEM................................. B 3/4 7-4 3/4.7.8 SNUB 8ERS................... ............................. 8 3/4 7-5 3/4.7.-9 SEALE0 SOURCE CONTAMINATION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B 3/4 7-6

.. ,o. , ..n.................................. , . , . , . , -, .

I

, , , , , , e,.,....... .. ,.. ,,.., . ,,, ,_,

3/4.7.12 AREA TEMPERATURE MONITORING.............................. 8 3/4 7-8 L 3/4.8 ELECTRICAL POWER SYSTEMS -

1

• l 3/4.8.1, 3/4.8.2, and 3/4.8.3 A.C. SOURCES, D.C. SOURCES, and ONSITE POWER DISTRIBUTION..........'..................... 8 3/4 8-1 3/4.8.4 ELECTRICAL EQUIPMENT PROTECTIVE DEVICES.................. B 3/4 8-3 3/4.9 REFUELING OPERATIONS 3/4.9.1 BO RON CONC ENTRATION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . S 3/4 9-1 3/4.9.2 INSTRUMENTATION.......................................... 8 3/4 9-1 3/4.9.3 DECAY TIME............................................... 8 3/4 9-1 3/4.9.4 CONTAINMENT SUILDING PENETRATIONS........................ B 3/4 9-1 3/4.9.5 COMMUNICATIONS........................................... B 3/4 9-1 CALLAWAY - UNIT 1 XVI

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. REVIStan j

) INDEX BASES SECTION ,P, AG[

3/4.7 PLANT SYSTEMS -

3/4:7.1 TUR8INE CYCLE.............*............................... S 3/4 7-1 3/4.7.2 STEAM GENERATOR PRESSURE / TEMPERATURE LIMITATION.......... 8 3/4 7-3

.3/4.7.3 COMPONENT COOLING WATER SYSTEM........................... B 3/4 7-3 3/4.7.4 ESSENTIAL SERVICE WATER SYSTEM........................... 8 3/4 7-3 3/4.7.5 ULTIMAT5HEATSINK....................................... 8 3/4 7-3 3/4.7.6 CONTROL ROOM EMERGENCY VENTILATION SYSTEN. . . . . . . . . . . . . . . . 8 3/4 7-4 3/4.7.7 EMERGENCY EXHAUST SYSTEM.................................

8 3/4 7-4 \

3/4.7.8 SNuS8 ERs . . . . . . . . . . . . . . . . . . ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B 3/4 7-5 3/4.7.9 SEALED SOURCE CONTAMINATION.............................. B 3/4 7-6

)

.1, ,,.. ....,-. ....,. ................................

3/4.7.12 AREA TEMPERATURE MONITORING.............................. 8 3/4 7-8 l

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..........'..................... B 3/4 8-1 3/4.8.4 ELECTRICAL EQUIPMENT PROTECTIVE DEVICES.................. B 3/4 8-3 3/4.9 REFUELING OPERATIONS 3/4.9.1 BORON CONCENTRATION...................................... B 3/4 9-1 3/4.9.2 INSTRUMENTATION.......................................... B 3/4 9-1 3/4.9.3 DECAY TIME............................................... B 3/4 9-1 3/4.9.4 CONTAINMENT BUILDING PENETRATIONS........................ 8 3/4 9-1 3/4.9.5 C0tMJNICATIONS........................................... B 3/4 9-1 CALLAWAY - UNIT 1 XVI f . ..

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] INSTRUNENTATION FwE DETECTION INSTRUNENTATION -

LIMIT CONDITION FOR "-=4 TION '

3.3.3.7 a minimum, the fire detection instrumentation for each fi detection zone shown Table 3.3-11 shall be OPERA 8LE.

APPLICA81LITY: Whenever equipment protected by the fire detectio instrument is required to OPERA 8LE.

ACTION:

a. With any, bu not more than one-half the total n any fire zone, Function A fi detection instruments shown i Table 3.3-11 inoperable, j{ restore the i reble instrument (s) to OPE LE status within 14 days

' or within the nex 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> establish a fi atch patrol to inspect the zone (s) with inoperable instruse (s) at least once per hour, .

- unless the instrumen s) is located in de the containment, then inspect that contai t zone at less 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 t reture at ast once per hour at the locations listed in Spec ication .6.1.5.

b. With more than one-half of unction A fire detection instruments

-, in any fire zone shown in Tab 3.3-11 inoperable, or with any Func-tion 8 fire detection inst shown in Table 3.3-11 inoperable, or with any two or more a acent ire detection instruments shown in Table 3.3-11 inoperable, ithin 1 ur establish a fire watch patrol to inspect the zone (s) ith the inop able instrument (s) .at least once per hour, unles he instrument ( is located inside the contain-ment, then inspect at containment zon 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 co inment air temperatu at least once per hour at the locations isted in Specification 4. 1.5.

c. The provisio of Specifications 3.0.3 and 3. 4 are not applicable.

SURVEILLANCE REQUIR NTS ,

4.3.3.7.1 Each f the above required fire detection instrumen which are accessible dur ng plant operation shall be demonstrated OPERA 8LE t least once per 6 months y performance of a TRIP ACTUATING DEVICE OPERATIONAL TEST. Fire detectors ich are not accessible during plant operation shall be nstrated OPERA 8LE y the performance of a TRIP ACTUATING DEVICE OPERATIONAL T T during each C0 SHUTOOWN 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 months.

4.3. 7.2 The NFPA Standard 720 supervised circuits supervision associat wi the detector alares of each of the above required fire detection instr nts all be demonstrated OPERA 8LE at least once per 6 months.

CALLAWAY - UNIT 1 3/4 3-57

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-. O 1 REVIStoy J l 3 TA8LE 3.3-11 I- FIRE 'OETECTION INSTRUMENTS i TOTAL NUM8ER OF INSTRUMENTS *

\NSTRUMENTLOCATION ~

1

' ZONE NEAT F Tx7y) y y 1101- . 81dg. 1974' Gen. Fir. #1 100 0/n l 1102-C 11er & Surge Tks. Area

• 100 0/4 1102-Ch ler & Surge Tks. Ares , 101 .

2/0 1107-Cent. Charg. Pup. Rs. 8 101 2/0 1108-Safet Inj. Pap. Rs. B '

101 2/0 1109-Res. Ht Remov. Pap. Rs. 8 101 1/0 1110-Ctat. Sp y Pap. Rs. 8 101 1/0 lill-Res. Mt. v. Pop. Rs. A 101 1/0 1112-Ctat. Spray . Rs. A . 101 1/0 1113-Safety Inj. . Rs. A 101 2/0 1114-Cent. Charg. . Rs. A 101 2/0 1115-Pos. Disp. Cha Pop. Rs. . 101 2/0 1116, 1117-Boric Acid k. Ras 101 2/0

! 1116, 1117-Boric Acid Res.

• 10: 2/0 i 1120-Aux. 81dg. 1974' Ge Fir. #2 1. 4/0 1122-Aux B1dg. 1974' Gen. Fir. #3 00 0/3 1122-Aux. 81dg. 1974' Gen. Ir. #3 101 5/0 1126-Boron Inj. Tk. & Pap. 101 1/0

+- 1127-Stair A-Z '

109 1/0-l 1128- n7 2/0 i

1130-Aux. Bldg. 1974' N. Corr. 100 0/2 1206-W. Pipe Chase Below AFWP A 117 2/0

-Aux. Bldg. Elec. Chase S. 117 1/0 1301-Aux. 81dg. 2000' Corridor #1 103 0/10 l

1301-Aux. B1dg. 2000' Corri #1 117 2/0-1311-Aux. Bldg. Sampling 117 2/0 1312-8eron Meter /RC Activ y Mon. Rs. 3 0/1 l 1314-Aux. Bldg. 2000' Co idor #3 11 0/3 1314-Aux. 81dC. 2000' rridor #3 1 11 2/0 i

1315-Ctat. Spray Add. k. Area 103 0/2 1316-V1v. Re. by Se Wtr. Ht. Exch. 103 0/1 l 1320-Aux. B1dg. 20i ' Corridor #4 103 0/3 1321-Aux. Bldg. 30' S. Exit Vest. 103 0/1 1322-Pipe Pene. .8 117 5/0 1 1323-Pipe Pene Rs. A 117 6/0 1325-Aux. FW . Rs. 8 117 2/0 1326-Aux. Pop. Rs. A 117 2/0 l 1331-Aux. Pop. Rs. C 111 0 1331-Aux FW Pap. Re. C 117 1/0 1335- . Bldg. Elec. Chase N. 2000' 117 1/0 1336- x. Bldg. Elec. Chase S. 2000' 117 1/0

1401 omp. Cool. Pop. & Ht. Exch. B. 11S 5/0 140 -Aux. Bldg. 2026' Corridor #1 104 0/6(g) 3-MG Set Rs. 105 /9 03-MG Set Rs. 112 9 I1) 1405-Chemical Stg. Area 118 6

. s' CALLAWAY - UNIT 1 3/4 3-58

o

,, TA8LE 3.3-11 (Continued)

o. g FIRE DETECTION INSTRUMENTS J TOTAL NUPSER 0F INSTRUMENTS * -

D STRUMENT LOCATION M HEAT FLAME "

TiUy) Tx777 (x/ .

1406 . Cool. Pup. & Nt. Exch. A. 104 0/

1406 . Cool. Pup. & Mt. Exch. A 118 0 1408-A 81dg. 2026' Corridor #2 104 0/9 1408-Aux. Bldg. 2026' Corridor #2' 118 5/0 1409-Elec. Done. Rs. 8 106 0/4((g) 1409-Elec. no. Rs. B 113 0/4(1) 1410-Elec P . Rs. A 107 0/8(1) 1410-Elec. Pen Rs. A 114 0/8 1) 1413-Aux. Shut Pnt. Rs. 118 4/0 1501-Ctr1. Rs. & Filt. Units B. 110 10/0 1504-Ctat. Purge . & Mech. Equip. 8 108 18/0 1506-Ctat. Purge S AHU Rs. A 109 18/0 1507-Personnel Hatch a 108 3/0 1509-Main Steam Iso. V ve Rm. #2 . 115 - VO 1508-Main Steam Iso. Va e Rs. #1 . 115 1/0 -

1512-Ctr1. Rs. A/C & Filt. Units A 110 10/0 (

C Unit Rs. 10 3/0 '

1513-Ct.rl. Bldg. Vent Sup.

Aux. B1dg. Duct 2047'6

• 2)

VO Containment ** 1 Containment ** 202 1/0((2)

- Containment ** 203 2/0(2)

V0 Containment **

204 1/0(2) ,

Containment ** 206 3/0(2)

Containment ** 215 Containment ** 216 1/0((2)

Containment ** 217 VO(2)

Containment *" 18 VO(2)

V0 2)

Containment ** 9 4/0 Containment ** 22 UO CI) -

3101-Ctr1. B1dg.1974' P e Space 300 11/0 3105-Ctr1. Bldg. Elec. se S. 1974' 300 1/0 3106-Ctri. 81dg. Elec. Chase N. 1974' 300 1/0

-Area Above Acce Control 301 12/0 3229-Ctr1. Bldg. E1 . Chase S. 1984' 300 1/0 3230-Ctr1. B1dg. ec. Chase N. 1984' 300 1/0(g) 3301-ESF Swgr. . #1 314 0/7(3) 3301-ESF Swgr. . #1 315 0/7(3) 3302-ESF Swgr Rs. #2 316 0/5(g) 3302-ESF S , Rs. #2 317 0/5 3305-Ctri. Idg. Elec. Chase S. 2000' 301 UO

. 3306-Ctr . 81dg. Elec. Chase M. 2000' 301 1/0(g) 3403-No -Vit. Swgr. & Xfer. Rs. #1 304 0/1(1) 3403- n-Vit. Swgr. & Xfar. Rs. #1 305 0/1(3) 3404 witchboard Rs. #4 321 0/2(g) 34 -Switchboard Rs. #4 322 2 3 5-Sattery Rs. #4 303 2 407-Battery Rs. #1 303 2/

CALLAWAY - UNIT 1 3/4 3-59

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e> REVisl0N I l TA8LE 3.3-11 (Continued) j FIRE DETECTION INSTRUMENTS \ ,

TOTAL NUISER j OF INSTRUMENTS * '

bSTRUMENTLOCATION g HEAT F (x/y) y y 3408- itchboard Rs. #1 325 1) 3408- tchboard Re. #1 326 0/2(1) 0/2(

3409-No it. Swgr. & Xfor. Am. #2 323 0/1 3409-Non- t. Swgr. & Xfor. Re. #2 327 0/1(g) 3410-Switc rd Rs. #2 324 3410-Switc rd Rs. #2 328 0/2(1) 0/2 3411-Battery . #2 303 2/0 3413-F,attery Rm #3 303 1/0 g 3414-Switchboard . #3 318 3414-Switchboard . #3 -

320 0/2(1) 0/2 1) 3415-Acc. Ctr1. & . Equip. A/C -

Units #1 303 4/0 3416-Acc. Ctri & Elec Equip. A/C Units #2 303 4/0 3418-Ctri. Bldg. Elec. C e N. 2016' 30 1/0 3419-Ctr1. Bldg. Elec. C N. 2016' 3 VO

. -Ctr1. Bldg. Elec. Chas N. 2016' 3 1/0

,, -Ctr1. 81dg. Elec. Chase . 2016,' 303 -

1/0 35'01-Lower Cable Spreading Rs. 306 0/13 1 3504-Ctr1. Bldg. Elec. Chase N. 03 303 1/0 .

3505-Ctri. Bldg. Elec. Chase S. ' 303 1/0

-Ctr1. 81dg. Elec. Chase N. ' 303 1/0

-Ctr1. 81dg. Elec. Chase S. 0 303 1/0 3601-Control Room 308 4/0

, 3601-Control Room 309 -0/7(1) 3601-Control Room 19 0/7(1) -

3601-Control Room 9 20/0

3602-Pantry 3 1/0 l 3603-Shift Supv. Offic 308 1/0 l 3605-Equipment Cabine Area 308 15/0 3606-Energ. Equip. S orage Rs. 308~ 1/0 3608-Janitor's Clo t 308 1/0 -

3609-SAS Rs. 308 1/0 3617-Ctr1. Bldg. Elec. Chase S. 2047'6" 308 -

1/0 2

3618-Ctri. 81d . Elec. Chase N. 2047'6" 308 1/0 j -Ctr1. 81 . Elec. Chase S. 2047'6" 308 1/0 3801-Upper ble Sprading Rs. 307 0/18 3804-Ctr1. Idg. Elec. Chase S. 2073'6" 308 1/0

-Ctr 81dg. Elec. Chase S. 2073'6" 308 1/0 5201-W. iesel Gen. Am. 501 4/

5201- Diesel Gen. Rs. 502 0/8 5203 . Diesel Gen. Am.

500 4/0 .

520 -E. Diesel Gen. Re. 503 0/8 6; 2-Fuel 81dg. Railroad Bay 600 0/8

1. ,04-Fuel Pool Cool. HX Rs. S 601 6 6105-Fuel Pool Cool. HX Rs. A 601 6/

I CALLAWAY - UNIT 1 3/4 3-60 -

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s .N -,,.._._._.O._,...__.___,._._._,.__._.,..___.....-,,_.,_._..- *

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. . .::: ; . t ggy,Stoy _z . . *

' TABLE 3.3-11 (Continued) .

• FIRE DETECTION INSTRUMENTS TOTAL NUMBER ,

OF INSTRUMENTS *  ;  ;

N < '->

htSTRUMENT LOCATION

) y

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6202-Elec. quipment Re. 601 3/0 6203-Air Han ing Equip. Re. - 601 3/0 6301-Fuel 8}dg. 047'6" Gen. F1r. 602 2/0 6303-Fuel 81dg. . Filt. Absorb. Rs. A 601 2/0 6304-Fuel 81dg. Exh. Filt. Absorb. Re. 8 601 2/0 .

-North ESW Pumpho 002 3/0

-South ESW Pumphous 001 3/0

-ESW Cooling Tower 00 1/0 -

-ESW Cooling Tower 1/0-

-ESF Transformer XN801 16 0/6

-ESF Transformer XN802 017 0/6 TA8LE NO NS

• (x/y): x is number of F tion A (early warn fire detection and notification only) inst ts.

y is number o Function 8 (actuation of fi suppression systems and -

early war ng and notification) instruments.

nt are not required

• • The fire detec on instruments located within the contai to be OPERA 8 during the performance of Type A containment eskage rate tests.

(1) Zone s associated with a Halon-protected space. Each space has wo s se rate detection circuits (zones). One zone, in its entirety, n remain OPERA 8LE.

) Line-type heat detector.

m Call.AWAY - UNIT 1 3/4 3-61

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PLANT SYSTEMS REVISION y

.- 1/4.7.10 FIRE SUPPRESSION SYSTEMS F SUPPRESSION WATER SYSTEM l

LIMITI CON 0! TION FOR OPERATION

• l 3.7.10.1 Th Fire Suppression Water System shall be OPERA 8LE with:

5

a. At les t two fire suppression pumps, each with a capacity of 00 gpe, with r discharge aligned to the fire suppression header

b. Two separa water supply tanks, each with a minimum le 1 of 31 feet (260 gallons); and

c. An OPERA 8LE f1 path capable of taking suction fr both fire water storage ta s and transferring the water ugh distribution piping with OPERA 8 sectionalizing control or olation valves to the yard hydrant cu valves, the last valve ad of the water flow alare device on each rinkler or hose s pe, and the last valve

• ahead of the deluge va on each Deluge o Spray System required to be OPERA 8LE per Specific tons 3.7.10.2, nd 3.7.10.4.

~

I APPLICA81LITY: At all times.

ACTION:

s

a. WIth one of the two required p s nd.'or one water supply inoperable, restore the inoperable equi nt to PERA8LE status within 7 days or provide an alternate backup ump or s ly. The provisions of Spect-ficatfor.s 3.0.3 and 3.0.4 re not app 1 able.

i *

b. With the Fire Suppress n Water System at rwise inoperable establish a backup Fire Suppre ion Water System with 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

SURVEILLANCE REQUIREMENTS 4.7.10.1.1 The Fir SuppreTsion Water System shall be demonstr ed OPERA 8LE:

a. At lea once per 7 days by verifying the water level in ach

fire ter storage tank exceeds 31 feet (260,000 gallons),

b. A least once per 31 days on a STAGGERED TEST BASIS by starti the lectric motor-driven pump and operating it for at least 15 min tes

on recirculation flow,

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

CALLAWAY - UNIT 1 3/4 7-27

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'v 3LANT 3 /3*E?'i SURVEILLANCE RECUIREPJr; ;33 4 .:ee; At least Orce ter 6 montns 9e One fi st year in: tnen it-: east orc per 3 years cy perf:r ance or a yarc : cop anc sycrant flusn.

e. t least once ter 12 ranths oy cycling eacn testacle talve in t .e f,^w path tnrougn at least one complete cycle of full travel,

f. At 1 st once oer 13 months by performing a system functic 1 test which 'ncludes simulated automatic actuation of the syste througnout its ope ting sequence, ano:

1) Verif;ing that each pump develoos at least 1500 pm at a system , ad of 135 psig,

2) Verifying ch pump delivers at least 2250 m at a system pressure of 'C5 psig,

3) Cycling eacn va ve in the flow path tha is not testacle during plant operation rough at least one mplete cycle of full travel, and

4) Verifying tnat each f. e suppress' n pump starts (sequentially) on decreasing pressure M the fi e suppression header at a header pressure greater than or qual o 113 psig.

g. At least once per 3 years by per, rming a flow test of the system in accordance with Chacter 5, Sect'on 11 of the Fire Protection Handbook, 14th Edition, published by th Natio al Fire Protection Association.

4.7.10.1.2 Each fire pump diesel en ne shall be demonstrated OPERABLE:

. At least once per 31 day by verifying:

1) The fuel oil day tank level contains at ast 175 gallers of fuel, and

2) The diesel . arts from amoient conditions anc operates for at least 30 . nutes on recirculation flow,

c. At least on oer 92 days by verifying that a samole o, ciesel fuel from the f 1 all day tank, obtained in accoroar.ca with TM-0270-1975, is within the acceptacle limits specified in Tacle 1 of A M-0975-1977 when ch .ked for viscosity, water, and sediment; and

c. At I st once per 18 months, during snutdown or with the other *wo fir suopression pumos coerable, by subjecting the diesel to an -

s ction in accoroacce with procedures precared in conjunction wi s manufacturer's recommencations for the class of service.

CALLAWAY - UNIT 1 3/4 7-28 Amencment tio. 11

o o .

m

! PLANT SYSTEMS M VISto N 2

/ ERVEILLANCE RLQUIRLMENIS (Continued)

\

l

.10.1.3 Each fire pump diesel starting 24-volt battery bank and charge sha demonstrated OPERA 8LE:

a. A st once per 7 days by verifying'that:

1) The trolyte level of each battery is we the plates, and

2) The overall ry voltage is g r than or equal to 24 volts,

b. At least once per 92 days b fying that the specific gravity is appropriate for contin ervice the battery; and -

c. *At least once per months by verifying t -

1) The rios, cell plates, and battery racks no visual I cation of physical damage or abnormal deterio on, and

. The battery-to-battery and terminal connections are clean, tight, free of corrosion, and coated with anticorrosion mater m

CALLAWAY - UNIT 1 3/4 7-29

l PLANT SYSTEMS .

O YlSION I--

SPRAY AN0/0R SPRINKLER SYSTEMS

\

LINMING C'ONDITION FOR OPERATION /

3.7.10. The following Spray and/or Sprinkler Sy_gges shall be OPERA 8LE- i

_ _s _,

~

a. Wet Pi Sprinkler Systems Cuf1dina Elevation Area Protected Auxiliary 2000/2026 North Electric Cable Chase Auxiliary 988/2000/2026 South Electric Cabis Chas Control 1 74 - 2073 Vertical Electrical Chas Control 19 Pipe Space and Tank R Control 199 Cable Area Above Acc s Control

b. Pre-Action Sprinkler stems Buildina Elevation Area Protected

, Auxiliary 1974 Cable Trays *

' Auxiliary 2000 Cable Trays Auxiliary 2026 Cable Tra

• l Control 2032 Lower C le Spreading Room Control 2073 Upper le Spreading Room Reactor 2026 Cable Penetration Area Reactor 2026 . Cable Penetration Area Diesel Gen. (E) 2000 E Diesel Generator Room Diesel Gen. (W) 2000 st iesel Generator Room },

c. Water Sprays Systems Buildina Elevation Area Pro d Auxiliary 2000 Auxiliary F ater Pump Turbine

. ESF Transformer Grade Transformer X la Transformer X

• ESF Transformer Grade APPLICA81LITY: Whenev equipment protected by the Spr / Sprinkler System is required to be OPE .

ACTION:

1

a. With ne or more of the above required Spray and/or inkler Systems

< in erable, 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 tch with

b kup fire suppression equipment for thost areas in wh redundant

ystems or components could be damaged; for other areas, tablish an hourly fire watch patrol.

. The provisions of Specifications 3.0.3 and 3.0.4 are not appl able.

/ Areas contain redundant systems or components which could be damaged.

CALLAWAY - UNIT 1 3/4 7-30

./

4 l

-we,e-a-e,-se-a _u,_,,,- .e,-,- - , _ _ _ , , - _ , , , _ _ . _ , _

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PLANT SYSTEMS 2

SURVf!LLANCE REQUIREMENTS 7.10.2 f.ach of the above required Spray and/or Sprinkler Systems shall j d nstt4.ted OPERA 8LE:

a. Ac. least once per 31 days by verifying that each valve ( ual, power-rated, or automatic) in the. flow path is in its cor t position; I b. At le g', once per 12 months by cyclir.g each testahl valve in the flow pa through at least one complete cycle of ull travel;

c. At least onc r 18 months: .

1) By performin system functional st which includes simulated automatic actua on of the syst , and:

a) Verifying that au tic valves in the flow path actuate to their t positions on a Simulated Fire test signal, and .

__, b) CycIlng each v ve in the low path that is not testable during plan operation thro at least one complete cycle of full t vel.

( 2) By a vis inspection of the dry pipe s ay and sprinkler headers o verify their integrity, and

3) By visual inspection of each nozzle's spray a to verify the ay pattern is not obstructed.

d. A least once per 3 years by performing an air or water flow est hrough each open head spray / sprinkler header and verifying ea open head spray / sprinkler nozzle is unobstructed.

CALLAWAY - UNIT 1 3/4 7-31

tie r e p ,

O Q Rsvision 2

.i PLANT SYSTEMS M LON SYSTEMS

( NG CONDITimi FOR OPERATION ,

3.7.10. The following Halon Systems shall bei OPERA 8LE:

fldina Elevation Area Protected Aux iary 2026 North Electrical Penetration Room Auxil ry 2026 South Electrical Penetration R Auxilia 2026 Load Center and M. G. Sets R Control 2000 ESF Switchgear Rooms" Contro) 2016 Sw'tchgear Rooms Control 7 Control Room Cable Trene s and Chases .

APPLICA81LITY: Whenever ipment protected by the Hal System is required to be OPERA 8LE. .

f.

ACTION:

a. With one or more of the we requi 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 ntinuo fire watch with backup fire suppression equipment for se as in which redundant systees or components could be damaged;. other. areas, establish an hourly fire watch patrol.

b. The provisions of Specift ions 3. 3 and 3.0.4 are not applicable. b j

SURVEILLANCE REQUIREMENTS .

4.7.10.3 Each of the we required Halon Systems shall demonstrated OPERA 8LE:

a. At less once per 6 months by verifying Halon stora tank weight (or I el) to be at least 95% of full charge weight a pressure to be least 90% of full charge pressure; and

b. least once per 18 months by verifying thei system, includ associated Ventilation System fire dampers and fire door rela e mechagises, actuates manually and automatically, upon receipt o a simulated actuation signal.

2

" Areas contain redundant systems or components which could be- damaged.

s..).

CALLAWAY - UNIT 1 3/4 7-32 ,

. _ l. . .

'*** *-* .* ..ew ,

Emmitsu mmi simi i $

o .x o

PLANT SYSTEMS E FIRE N0sE STATIONS VISION I .

LIMITING CONDITION FOR OPERATION f

/ .7.10.4 The fire hose stations given in Table 3.7-3 shall be OPERA 8LE.

' '~

AP CCA81LITY: Whenever equipment in the areas protected by the fire h se sta3 ns is required to be OPERA 8LE.

ACTION:

a. one or more of the fire hose stations given in T le 3.7-3 i rable, provide equivalent capacity bactup hose taction to the rotected area from the spare hose connectio on the adjacent OPERA 8 standpipe. If two standpipe hose connec ons are not availabl at the adjacent OPERA 8LE hose station , provide gated wye (s) to nsure continued OPERASILITY of the facted hose station.

Where it ca be demonstrated that the physica routing of the backup hose would re it in a recognizable hazard operating technicians, plant equipmen or the hose itself, or wo d require the blocking open of a fire r, the hose shall be s red at the point of origin l and properly ident fed as to its inte use. The above action shall be accomplis 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 re suppressio , othemise route the addi-tional hose within 24 h rs.

~

^

b. The provisions of Speciff tions .0.3 and 3.0.'4 are not applicable.

, SURVEILLANCE REQUIREMENTS 4.7.10.4 Each of the fire hose s ions give in Table 3.7-3 shall be demonstrated OPERA 8LE: ,

a. At least once per 31 ys, by a visual pection of the fire hose stations accessible uring plant operatio to assure all required equipment is at station;

b. At least once p 18 months, by:

1) Visual i pection of the stations not acces ible during plant operati ns to assure all required equipment ' at the station,

2) Remov ng the hose for inspection and reracking, nd

3) In ecting all gaskets and replacing any degraded skets in l t couplings.

c. At I ast once per 3 years, by: ,

1 Partially opening each hose station valve to verify valv OPERA 8ILITY and no flow blockage, and

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

CALLAWAY - UNIT 1 3/4 7-33

, J. . > .

I 5 0 Q REVISlay ,

TA8LE 3.7-3 .

FIRE HOSE STATIONS MUILDING ELEVATION AREA H0SERACl/

A liary 1974 1122 KC-HR- 51' Auxi fary 1974 n22 KC- 047' Auxil ry 1974 n20 KC R-031' Auxilia 1974 1120 HR-025# ' .

Auxilia 1974 n01 C-HR-0238 '

Auxiliary 1974 n01 KC-NR-040 '

Auxiliary 1974 n01 KC-HR-042' Auxiliary 1988 1201 KC-HR-024' Auxiliary 2000 1329 KC-HR-111' Auxiliary 2000 1320 KC-HR-048' Auxiliary 1320 KC-HR-046# '

Auxiliary 0 131 KC-HR-030' Auxiliary 2 1 1 KC-HR-029f' Auxiliary 2 1 KC-HR-035#'

Auxiliary 2000 1301 KC-HR-039 /

Auxiliary 2000 1301 KC-HR-041# '

Auxiliary 2026 1408 KC-HR-049 -

Auxiliary 2026 '1408 KC-HR-044' Auxiliary 2026 1408 KC-HR-032V Auxiliary 2026 .1408 KC-HR-026# ' *

. Auxiliary 2026 1401 KC-HR-034 -

Auxiliary 2026 1403 KC-HR-037V Auxiliary 2047 1506 KC-HR-050' )

Auxiliary 2047 13 KC-NR-043' '

Auxiliary 2 6 KC-HR-045' Auxiliary 2 7 KC-HR-038'

, Auxiliary 047 - 1504 KC-HR-033' Auxiliary 2047 1502 KC-HR-027' l Auxiliary 2064 1119 KC-HR-028# '

Control 1974 3101 KCHR-002f '

Control 1974 3101 KC-HR-014# '

Control 1984 3204 KC-HR-015# '

Control 1984 3221 C-HR-0019' Control 2000 3301 -HR-004#'

• cont 2000 3301 KC 'R-017f '

Cont 1 2000 3302 KC-> -016#'

Co rol 2016 3401 KC-HR 5' C trol 2016 3401 KC-HR-ontrol 2016 3401 -

KC-HR-0 CALLAWAY - UNIT 1 3/4 7-34 8

.. > '. ~

.t. .

TA8LE 3.7-3 (Continued) SION 1 FIRE H0SE STATIONS b!LDING ELEVATION AREA HOSE RACK Con 1 2032 3501 .. KC-HR-Cont 2032 3501 KC-H 0208 '

Control 2047 3604 KC -007 /

Control 2047 3616 -HR-021 '

Control 2073 3801 KC-HR-008# '

Control 2073 3801 KC-HR-022#'

Reactor 2000 2201 KC-HR-120*'

Reactor 000 2201 KC-HR-131*'

Reactor 2201 KC-HR-124*'

Reactor 20 2 KC-HA-129*'

Reactor 2026 .A. FC-HR-121*'

Reactor 2026 .A. KC-HR-132"#'

Reactor 2026 N.A. KC-HR-125*'

Reactor 2026 N.A. KC-HR-130*' .

Reactor 2047 N.A. KC-HR-128*'

Reactor 2047 N.A. KC-HR-122*'

Reactor 2047 N.A. KC-HR-1268{ ,

Reactor 2068 .A. KC-HR-123*)

Reactor 2 . KC-HR-127*

s Fuel 2 61 Fuel 6102 KC-HR-142#

KC-HR-0548 Fuel 2000 6102 KC-HR-143' Fuel 2000 6104 KC-HR-057'

! Fuel 2026 6201 KC-HR-133' i Fuel 2026 6203 KC-HR-052 '

l Fuel' ,, 2047 6301 -HR-055#'

Fuel 2047 6302 K R-056#'

Fuel 2047 6301 KC- -053#'

E 2000 N.A. KC-HR 40 ' .

W 2000 .M.A. KC-HR-1 TA8LE NOTATIONS .

l l # Secondary means of fire suppression to Water Sprays / Deluge or Halon System.

I

• Fire hose.for station to be stored external to Reactor Building.

l l

l CALLAWAY - UNI ." 1 3/4 7-35

--.._-- __..-._.-- ,- ,.-. - _ . -. _ .--_____..._ __,- __. _.-,_,....-_ _ _ _ ,-. _..-_.. ... . . .---- .. _-.-m _ - - - - - - - - _ - - - - , . . - _ .

~ O o ,- ,, Sic.V I l'L AN T SY5 t l,M.%,

1/4.1.11 FIRE BARRIER PENETRATIONS LI TING CONDITION FOR OP'ERATION

~

3.7.11 All fire barriel pene@ations (walls, floor / ceilings, cable tray.

enclosu , and other firr barriers) separating safety related fire areas r separati rtfor.s of redundant systems important to safe shutdown with a fire area a all sealing devices in fire rated assembly penetrations ire doors, fire ndows, fire daspers, cable, piping, and ventilation d penetration s is) shall be OPERA 8LE.

APPLICABILITY: A all times.

ACTION:

a. With one or re of the above required fire barrie penetrations inoperable, w in 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> establish a continuous ire watch on at least one side the affected penetration, or rify the OPERA 8ILITY of fire detectors on at leas't one side of the noperable fire barrier j and establish an h rly fire watch patrol. .

ifications 3.0.3 and .0.4 are not applicable.

j b. The provisions of 5 SURVEILLANCE REQUIREMENT.C , -

4.7.11.1 At least once per 18 month the abow required fire rated assemblies j _

and penetration sealing devices shall veri ed OPERABLE by performing a .

visual inspection of:

The exposed surfaces of each fi rated assembly. -

}

. a.

l b. Each fire window / fire damper a ociated hardware, and

c. At least 105 of each type ( ectrica and mechanical) of sealed pene-tration. If apparent cha s in appea nce or abnormal degradations are found, a visual ins fon of an a tional 105 of each type of sealed penetration sha be made. This pection process shall .

continue until a 105 le with no appare changes in appearance or abnormal degradati is found. Samples sha be selected such that each penetration s I will be inspected every years.

4.7.11.2 Each of the abo required fire doors shall be v ified OPERA 8LE by inspecting the automatic Id-open, release and closing mec isa and latches at least once per 6 mo s, and by verifying:

a. The OPERA 8 ITY of the .* ire Door Supervision System f each electri-cally s rvised fire door by performing a TRIP ACTUATI DEVICE OPERATI L TEST at least once per 31 days,

b. That h locked closed fire door without electrical superv sion is clo at least once per 7 days,

c. T t doors with automatic hold-open and release mechanisms are roe obstructions at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> and performing a func fonal test at least once per 18 months, and .

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

.CALLAWAY - UNIT 1 3/4 7-36

~ ' '

- - - _ _ . . _ . - _ . , _ -e ,$ .__ .. [2_ _ l_ . _ . '. . ~ _ _ _ . . _ . . , _ _ _ _ _ - -

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INSTRUMLNIATION REVISicy 2 y sASes

\ ..' ,

924.3.3.7 FIRE DETECTION INSTRUMENTATION

0 ILITY of the fire detection instrumentation ensures that adequa warning c flity is available for the prompt detection of fires and t

!: Fire Suppress ystems, that are actuated by fire detectors, will charge extinguishing agen in a timely manner. Prompt detection and rossion of -

j fires will reduce the ntial for damage to safety-rela utpoent and is

, an integral element in the era 11 facility Fire Protec Program.

Fire detectors that are used actuate Fi uppression Systems represent a more critically important component a lity's Fire Protection Program than detectors that are installed solel early fire warning and notification. Consequently, the mi nume of OPERA 8LE fire detectors must be greater.

The loss of detect capability for Fire Suppress ystems, actuated by fire detectors, resents a significant degradation' of protection for any area. As a sult, the estabitshment of a fire watch patro st be initiated a n earlier stage than would be warranted for the loss o etectors that pr only early fire warning. The establishment of frequent fi pat s in the affected areas is required to provide detection capability N f1 the inoperable instrumentation is restored to OPERA 8ILITY.

. 3/4.3.3.8 LOOSE-PART DETECTION SYSTEM The OPERA 81LITY of the loose part detection instrumentation ensures that sufficient capability is available to detect loose metallic parts in the Reactor Coolant System and avoid or mitigate damage to Reactor Coolant System

- components. The allowable out-of-service times and Surveillance Requirements are consistent with the recommendations of Regulatory Guide 1.133, " Loose-Part Detection Program for the Primary System of Light-Water-Cooled Reactors," May 1981. -

4 3/4.3.3.9 RA010 ACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION l The radioactive liquid effluent instrumentation is provided to monitor i ,

and contrnl, as applicable, the releases of radioactive materials in liquid l efiluents during actual or potential releases of liquid effluents. The Alarm /

l Irip Setpoints for these instruments shall be calculated and adjusted in

{ accordance with the methodology and parameters in the 00CM to ensure that the j alarm / trip will occur prior to exceeding the Ilmits of 10 CFR Part 20. The j

OPERA 6tlilY and use of this instrumentation is consistent with the requirements i ut General llesign Criteria 60, 63, and 64 of Appendix A to 10 CFR Part 50.

CALLAWAY - UNIT 1 8 3/4 3-5 4

l 4

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PJ,ANI SYSIEMS i-IIAM $ -

SEALED SOURCE CONTAMINAf!0N (Continued)

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 or boron measuring devices) are considered to be stored and need not be tested unless they are removed from the shielded mechanism.

4/4.7.10 FIRE SUPPRESSION SYSTEMS heOPERA8ILITYoftheFireSuppressionSystansensuresthatadequa[t fire s pression capability is available to confine and extinguish fire occurri in any portion of the facility where safety-related equipse is located.' e Fire Suppression System consists of the water system, pray, and/or spri lors, Halon, and fire hose stations. The collective apability of the Fire 5 rossion Systems is adequate to minimize potenti damage to i safety-related ipment and is a major element in the facili Fire Protection Program.

In the event the actions of the Fire Suppression ystems are inoperable, alternate backup fire-f ting equipment is required be made available in the affected areas until inoperable equipment i restored to service.

When the inoperable fire-fi ting equipment is in nded for use as a backup means of fire suppression, a er period of t is allowed to provide an alternate means of fire fightin than if the operable equipment is the primary means of fire suppression. .

The Surveillance Requirements pr e assurance that the minimum i OPERA 81LITY requirements of the fire ession systems are met. An allowance is made for ensuring a sufficient v use Halon in the Halon storage tanks by verifying either the weight or he level f the tanks. Level measurements are made by a U.L. , or F.M. ap ved method, o by ultrasonic measurement cor-i rected for temperature using uipment calibrat to standards traceable to N85.

The term " simulated fire" t signal is interpre to mean actuation of an automatic Fire Protectio ystem by any of the role mechanisms provided, e.g., fire detectors, d pull stations, fusible lin chanical, manual, l

j hydro / mechanical, et In the even the Fire Suppression Water System becomes noperable, immedi-

)

ale corrective asures must be taken since this system provi s the major fire suppression pability of the plant.

1/4./.11 FIRE BARRIER PENETRATIONS ,

hn f unctf unal integrity of the fire barrier penetrations ensures at li . will be conf inett or adequately retarded from spreading to adjacent j

irtion, of the facility. This design feature minimizes the possibility of i

CALLAWAY - UNIT 1 B 3/4 7*7 a

i

9 o

.. s .

o REVISION 1

PLANT SYSTEMS

~

- BASES . . J '

H.HE BARRIFR PENElWATIONS (Cnntinued)

• ingle rapidly involving several areas of the facility prior to detecti p of and the e utshing of the fire. The fire barrier penetrations a passive element facility fire protection program and are s to periodic inspections.

Fire barrier penetrations, luding cable pene ion barriers, fire doors and dampers are considered f ional who visually observed condition is the same as the as-designed conditio those fire barrier penetrations that are not in the as-designed condi , valuation shall be performed to show that the modification has egraded the rating of the fire barrier penetration.

During period time when a barrier is not functional, her: (1) a continuous fir etcli is required to be maintained in the vicinit the affected ier, or (2) the fire detectors on at least one side of th ffected barr must be verified OPERA 8LE and an hourly fire watch patrol establis I the barrier is restored to functional status.

i 3/4.7.12 AREA TEMPERATURE MONITORING l The area temperature limitations ensure that safety-related equipment will i not be subjected to temperatures in excess of their environmental qualification *

, temperatures. Exposure to excessive temperatures may degrade equipment and can ,T cause a loss of its OPERASILITY. The tempe?ature limits include *an allowance '/

for instrument error of 23*F.

) .

CALLAWAY - UN!I 1 8 3/4 7-8 1

i 9

o o

N, ,

ADMINISTRATIVE CO.NIROLS REVistmi , m

. 6.1 RESPONSIBILITY 6.1.1 The Manager, Callaway Plant, 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 ressionsible for'the control room'coemand function. A management directive to this effect, signed by the Vice President-Nuclear 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 in Figure 6.2-1. ,

UNIT STAFF 6.2.2 The Unit organization shall be as shown in Figure 6.2-2 and:

a. Each on duty shift shall be composed of at least the minimum shift crew composition shown in Table 6.2-1;

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 MODE 1, 2, 3 or 4, at least one licensed Senior Operator shall be in the control room;

c. An Individual from the Health Physics organization #, qualified in radiation protection procedures, shall be on site when fuel is in

• the, reactor;

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

• A site Fire Brigade of at least five members # shall be mai ned-ons s. The Fire Brigade shal e the Shift Supervisor, and the 45-- he minimum shift crew necessary for own of the unii. ..t =nv Dersonnel required essential functions during a fire emergench _

hMaybelessthantheminimumrequirementsforaperiodoftimenottoexceed 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.

CALLAWAY - UNIT 1 6-1

'N v -- - - -

-e-*-, ,.a.,.,,p. -

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

l REVISION 1-ADMINISTRATIVE. CONTROLS

%, l UNIT STAFF (Continued) 8 X. Administrative procedures shall be developed and implemented to limit the working hours of unit staff who perform safety-related functions; e.g., licensed Senior Operators, licensed Operators, health physics personnel, equipment operators, and key maintenance personnel.

The amount of overtime worked by Unit staff members perfoming safety-related functions shall te limited in accordance with the NRC Policy Statement on working hours (Generic Letter No. 82-12).

O D

I 2

I

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CALLAWAY - UNIT 1 6-2

. - - , ._m.-__.--,- - , - . - -- . _ _ . . .

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ADMINISTRATIVE CONTROLS RESPONSIBILITl[$ (Continued)

m. Review of Unit operations to detect potential hazards to nuclear safety;

n. Investigations or analysis of special suojects as requested by tne Chairman of the N5R8; 3rn!

o. Review of Unit lurbine Overspeed Protection Reliability Program anc revisions theretut and __

p. 4:mes c4 the 5~5 n. 9cott( tion A~asca m ma reowsons there to .)

fi . $ {. IIhe . / ORC shall;

a. Recommentf in writing to the Manager Callaway Plant approval or disapproval of items consistered under Specifications 6.5.1.64 through e., i.,J.k., 1/,vand W. above; 4, P-

h. Render tieterminations in[ writing with regard to whetner or not eacn item considered under Specifications 6.5.1.6b. through e., and m.,

aunve, constitutes an unreviewed safety question; and

c. Provide written notification within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> to the Vice President-Nuclear dnd the Nuclear Safety Review Board of disagreement between the ORC and the Manager, Callaway Plant; however, the Manager, Callaway Plant shall have responsibility for resolution of sucn disagreaments pursuant to Specification 6.1.1 above.

RECOR05 6.5.1.8 The ORC shall maintain written minutes of each ORC meeting that, at a minimum, document the results of all ORC activities performed under the responsibility provisions of these Technical Specifications. Copies shall De provided to the Vice President-Nuclear and the Nuclear Safety Review Board.

6. t . ? NHCLEAR,$Al'E1Y REVIEW BOARD (NSR8) lHNCIl0N h.$.2.1 The NSHU shall function to provide independent review and audit of sles i gn.a teti activities in the areas of:

a. Nuclear power plant operations, ti . Nuclear engineering,

c. Chemistry and radiochemistry,

d. Metallurgy,

e. Instrumentation and control,

f. Radiological safety,

y. Methanical and electrical engineering, and

h. Quality assurance Dractices.

The N',Ril shall report. I n anti ativise the Vice President-Nuclear on those ar* 3s of re..ponsih6lii> statett in doecifications 6.5.2.8 and 6 5.2.9.

C/ t.L.AWAY - IINi l ! 6-9

.. t . '

v, C,)

REVISION .t -=

..' ADMINISTRAT1VE CONTROLS

/*

e,'  !

- SAFETY LIMIT VIOLATION (Continued)

c. The Safety Lielt Violation Report shall be, submitted to the Commission, the NSRS and the Vice President-Mucipar within 14 days of the violation; and

d. Critical operation of the unit shall not be resumed until authorized by the Cometssion.

p.8 PROCEDURES ANO PROGRAMS 6.0.1 Written procedures shall be established, implemented, and maintained covering the activities referenced below:

a. The applicab1'e procedures recommended in Appendix A,-of Regulatory Guide 1.33. Revision 2, February 1978;

b. The emergency operating procedures required to implement the requirements of NUREG 0737 and Supplement 1 to NUREG-0737 as stated in Section 7.1 of Generic Letter No. 82-33;

c. Plant Security Plan implementation;

d. Radiological Emergency Response Plan implementation;

e. , PROCESS CONTROL PROGRAM implementation.

. f. OFFSITE OC,*: CALCULATION MANUAL 1.nplementation.

4 . g. Quality Assurance Program implementation for effluent and environmental monitoring, and h h-b ! e nue- & pentaction Ralfab(11tv Proaram.

f*se Rret.cr.te*u froya m i m plc.m e nt,a M o n.

("i . c.acn pr5ceaure ano aaminis6rar.ive poiisy of 5w wii)ication 6.8.1 above, 6.8.4 and changes thereto, including temoorary changes shall be reviewed prior to implementation as set forth in Specification 6.5 aeove. .

6.8.3 The plant Administrative Procedures and changes thereto shall be reviewed in accordance with Specification 6.5.1.6 and approved in accordance with Specification 6.b.3.1. The associated implementing procedures and changes theritto shall be reviewed and approved in accordance with Specification 3.5.3.1. ,

b.B.4 The following programs shall be established, implemented, and maintained:

a. Reactor Coolant Sources Outside Containment A program to reduce leakage from those portions of syJtems cutside containment that could contain highly radioactive fluids during 4 serious transient or accident to as low as practical levels. The systems include the recirculation portion of the Containment Spray System, Safety Injection System Chemical and Volume Control System, and RHR System. The program shall include the following:

l 1) Preventive maintenance and periodic visual inspection requirements, and cal.LAWAY - UNIT 1 6-15 l

l l

i

.. a..

.t <

0 U V (4) Surveillance of Hafnium Control Rods (Section 4.2.3.1(10), SER and 55ER ezJ UE shall perform a visual inspection of a sample of hafnium con-trol rods during one of the first five refueling outages. A summary of the results of these inspections shall be submitted to the NRC.

(5) Fire Protection (Section 9.5.1.7, SER and Section 9.5.1.8, 55ER #3)

(a) Within 60 days of acquisition of the 100% power data for '

, thermal and dynamic testing, UE shall have operable the -

Halon systems in the north electrical penetration room (fire area A-18).

(b) Prior tc restart following the first, extended outage of known duration greater than two weeks occurring after

. February 15, 1985 or prior to restart following the first refueling outage which ever occurs first, UE shall have completed the installation of the five new isolation switches and modification to the four existing isolation switches identified in the August 23, 1984 SNUPPS letter.

imekment and (c) The licensee shallAmaintain in effect all provisions of the '

approved fire protection program as described in the SliUPPS Final Safety Analysis Report for the facility through Revisien 15, the Callaway site addendum through Revision 8, and as ap roved in the SER through Supplement 4, subject to provision d 1ks below.

(d) icensee may make no change to the approved fire p tection p ich would decrease th re pro-tection in the plant w proval of the Commis-sion. To ma ange the icen c - e submit an Y@#g on for license amendment pursuant to -

Duf licensee may make changes to features of the approve k fire +ection program which do not decrease the of fire prote withcut prior Comr.iission a after such features have bee talled as appro , provided such changes do not otherwis lv c ange in a license con-dition-;r t:d- k:1 :p:" . .. . . -- r result in an unreviewed safety question (s CFR 50.59). . er, the licensee shall maint ,

n an auditable fcrm, a cur '

ecord of all s - ances including an analysis of the ef e , f

~

M change on the fire protection program and shall make

p)

(

,m

.t 5

records available to NRC inspectors upon reques changes ved program made w -

r Commis-sion approval shall be r $ e Director of the Office of ne ctor Regulation, sup-g analyses, on an annual basis.

(6) Oualification of Personnel (Section 13.1.2, SSER #3 Section 18, 55ER #1)

(a) UE shall have on each shift operators who meet the requirements described in Attachment 2.

(b) UE shall have a senior individual with previous operating '

, experience on a commerical PWR assigned to a:sist the Plant -

Manager as an advisor during the startup test program and

, for one year following full power operation.

(7) NUREG-0737 Conditions (Section 22, SER)

UE shall complete the following conditions to the satisfaction of the NRC. These conditions reference the appropriate items in

Section 22.2, "TMI Action Plan Requirements for Applicants for Operating Licenses," in the Safety Evaluation Report and Supple- -

ments 1, 2, 3 and 4 NUREG-0830.

(a) Detailed Control Room Design Review (I.D.1, SSER #4)

Prior to May 1,1985, UE shall submit for review and approv-al by the NRC staff, the results of the function and task analysis. For those Human Engineering Discrepancies (HEDs) identified by this analysis that require correction, the submittal shall include the proposed correction and imple-mentation schedule; and for those HEDs for which no planned correction is proposed, a basis for that determination shall be documented.

(b) Emergency Response Capabilities (Generic Letter 82-33, Supplement I to NUREG-0737)

Prior to restart following' the first refueling outage, UE shall have a fully functional Technical Support Center and Emergency Operations Facility and a fully operable Emer-

. gency Response Facilities Information System (ERFIS).

-o -

4 Insert A The licensee may make changes to the approved fire protection -

program without prior approval of the Comission only if those changes would not adversely affect the ability to achieve and maintain safe shutdown in the event of a fire.

g_ _ . _ _ _ _ _

s 8 . . . , -

a f ATTACHMENT 3 ULNRC-1447 WOLF CREEK REVISED TECHNICAL SPECIFICATIONS AND LICENSE CONDITI0h5

, i

.t LIMITING CONDITIONS FOR OPERATION AND SURVEILLANCE REQUIREMENTS SECTION PAGE INSTRUMENTATION (Continued) 3/4.3.3 MONITORING INSTRUMENTATION Radiation Monitoring for Plant Operations................ 3/4 3-39 TABLE 3.3-6 RADIATION MONITORING INSTRUMENTATION FOR PLANT OPERATIONS................................ 3/4 3-40 TABLE 4.3-3 RADIATION MONITORING INSTRUMENTATION FOR PLANT OPERATIONS SURVEILLANCE REQUIREMENTS........................................ 3/4 3-42 Movable Incore Detectors................................. 3/4 3-43 Seismic Instrumentation.................................. 3/4 3-44 TABLE 3.3-7 SEISMIC MONITORING INSTRUMENTATION.................... 3/4 3-45 TABLE 4.3-4 SEISMIC MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS........................... 3/4 3-46 Meteorological Instrumentation........................... 3/4 3-47 TABLE 3.3-8 METEOROLOGICAL MONITORING INSTRUMENTATION............. 3/4 3-48 ,

TABLE 4.3-5 METEOROLOGICAL MONITORING INSTRUMENTATION

• SURVEILLANCE REQUIREMENTS........................... 3/4 3-49 Remote Shutdown Instrumentation.......................... 3/4 3-50 TABLE 3.3-9 REMOTE SHUTDOWN MONITORING INSTRUMENTATION............ 3/4 3-51 TABLE 4.3-6 REMOTE SHUTDOWN MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS........................... 3/4 3-52 Accident Monitoring Instrumentation...................... 3/4 3-53 TABLE 3.3-10 ACCIDENT MONITORING INSTRUMENTATION.................. 3/4 3-54 TABLE 4.3-7 ACCIDENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS........................... 3/4 3-55 Chlorine Detection Systems............................... 3/4 3-56

,,__ m_x__ ,__ ,__ _.___ _ 2__ ,/4-3-57--

-TAOLC 3.0 11 IIRC OCTCCTION INSTRU"CMT0........................... 3/4 3-50 Loose-Part Detection System.............................. 3/4 3-62 Radioactive Liquid Effluent Monitoring Instrumentation... 3/4 3-63 TABLE 3.3-12 RADI0 ACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION.................................... 3/4 3-64 a WOLF CREEK - UNIT 1 VI L

. o

.t LIMITING CONDITIONS FOR OPERATION AND SURVEILLANCE REQUIREMENTS SECTION PAGE PLANT SYSTEMS (Continued)

.10 FIRE SUPPRESSION SYSTEMS ression Water System............................ 3/

Spray and/or r Systems.................. . .$ . . 3/4 7-30 Halon Systems................. .................... 3/4 7-32 Fire Hose Station ...................... .......... 3/4 7-33 TABLE 3.7-3 . E STATIONS................................... 3/4 7-34

. 11 FIRE BARRIER PENETRATIONS................................ 3/4 3/4.7.12 AREA TEMPERATURE MONITORING.............................. 3/4 7-37 TABLE 3.7-4 AREA TEMPERATURE MONITORING........................... 3/4 7-38 3/4.8 ELECTRICAL POWER SYSTEMS 3/4.8.1 A.C. SOURCES 0perating................................................ 3/4 8-1 TABLE 4.8-1 DIESEL GENERATOR TEST SCHEDULE........................ 3/4 8-7 Shutdown................................................. 3/4 8-8 3/4.8.2 0.C. SOURCES 0perating................................................ 3/4 8-9 TABLE 4.8-2 BATTERY SURVEILLANCE REQUIREMENTS..................... 3/4 8-11 Shutdown................................................. 3/4 8-12 3/4.8.3 ONSITE POWER DISTRIBUTION 0perating..................................'.............. 3/4 8-13 Shutdown................................................. 3/4 8-15 3/4.8.4 ELECTRICAL EQUIPMENT PROTECTIVE DEVICES Containment Penetration Conductor Overcurrent Protective Devices..................................... 3/4 8-16 TABLE 3.2 1 CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT PROTECTIVE DEVICES...................... 3/4 8-18 WOLF CREEK - UNIT 1 XI

. o BASES SECTION PAGE 3/4.7 PLANT SYSTEMS 3/4.7.1, TURBINE CYCLE............................................. B 3/4 7-1 3/4.7.2 STEAM GENERATOR, PRESSURE / TEMPERATURE LIMITATION.......'.w.. B 3/4 7-3 3/4.7.3 COMPONENT COOLING WATER SYSTEM............................ B 3/4 7-3 3/4.7.4 ESSENTIAL SERVICE WATER SYSTEM............................ B 3/4 7-3 3/4.7.5 ULTIMATE HEAT SINK........................................ B 3/4 7-3 3/4.7.6 CONTROL ROOM EMERGENCY VENTILATION SYSTEM. . . . . . . . . . . . . . . . . B 3/4 7-4

. 3/4.7.7 EMERGENCY EXHAUST SYSTEM.................................. B 3/4 7-4 3/4.7.8 SNUBBERS.................................................. B 3/4 7-5 3/4.7.9 SEALED SOURCE CONTAMINATION............................... B 3/4 7-6 3/4.7.10 fin: Curr:::::0x SYSTEM;............................... ..  : :/ 7-7 O/0.7.11 i::: CAtr, :: r:NCTRAT:0% .................................  : 0/0 7 7 3/4.7.12 AREA TEMPERATURE MONITORING............................... B 3/4 7-8 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 DNSITE POWER DISTRIBUTION................,............... B 3/4 8-1 3/4.8.4 ELECTRICAL EQUIPMENT PROTECTION DEVICES................... B 3/4 8-3 3/4.9 REFUELING OPERATIONS 3)4.9.1 BORON CONCENTRATION....................................... B 3/4 9-1 3/4.9.2 INSTRUMCNTATION........................................... G 3/4 9-1 3/4.9.3 DECAY TIME,............................................... B 3/4 9-1 3/4.9.4 CONTAINMENT BUILDING PENETRATIONS......................... B 3/4 9-1 3/4.9.5 COMMUNICATIONS............................................ B 3/4 9-1 WOLF CREEK - UNIT 1 XVII

- - . . . - . - - . ~ - .

c _ ?:

• r.r i

! INSTRUMENTATION 1- .

o V IRE DETECTION INSTRUMENTATION.

L TING' CON 3ITION FOR OPERATION

. 3.3.3. As a minimum, the fire detection instrumentation for each fire dete ion ,

zone sho 'in Table 3.3-11 shall be OPERA 8LE. -

r

~E '

APPLICA8ILI 9: Whenever equipment protected by the fire detection ins unent is required ". be OPERA 8LE.

I- -

ACTION:

a. With any, but not more than one-half the total in an fire zone, <

Function A tre detection instruments shown in Tab 3.3-11 inoperable, f restore the noperable instrument (s) to OPERABLE atus within la  !

i days or withi the next I hour establish a fir etch patrol to inspect .

the zone (s) wit the inoperable instrument (s) t least once per i j hour, unless the nstrument(s) is located i ide the containment, .

i. then inspect that ntainment zone at lea once per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> or I i monitor the contai t air temperature t least once per hour at the locations listed Specification .6.1.5. ,

i b. With more than one-half f the Fun on A fire detection instrLeonts

{

in any fire zone shown in able -11 inoperable or with any  !

j Function 8 fire detection i tr nts shown in Table 3.3-11, .,

inoperable, or with any two more adjacent fire detection instruments 1

! shown in Table 3.3-11 inope , within I hour establish a fire .'

watch patrol to inspect t zone ) with the inoperable instrument (s)

at.least once per hour, niess th instrument (s) is located inside i the containment, then spect that ntainment zone at least once '

j per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> or moni the containmen air temperature at least j once per' hour at t locations listed Specification 4.6.1.5.

I -

c. The provisions Specifications 3.0.3 an 3.0.4 are not applicable.

SURVEILLANCE REQUIREM S I.

$ 4.3.3.8.1 Each o the above required fire detection instr nts which are L accessible duri . plant operation shall be demonstrated OPE LE at least once j

j per 6 months performance of a TRIP ACTUATING DEVICE OPERAT NAL TEST. Fire i detectors w ch are'not accessible during plant operation shall e demonstrated l OPERA 8LE the performance of a TRIP ACTUATING DEVICE OPERATION TEST during j each C0 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 prev us 6 months.

4.3. 8.2 The NFPA Standard 720 supervised circuits supervision asso ated l wi the detector alarms of each of the above required fire detection struments shall be demonstrated OPERA 8LE at least once per 6 months.  !

i h.

i 1

1 4 .

I WOLF CREEK - UNIT 1 3/4 3-57 l-I A _ . _ .__ _ . . _

ee

..t TA8LE 3.3-11 FIRE DETECTION INSTRUMENTS TOTAL NUMBER OF INSTRUMENTS

• STRUMENT LOCATION ZONE HEAT F SMO M) y 1101 ux. Bldg. 1974' Gen. Fir. #1 100 /11 1102- iller & Surge Tks. Area 100 0/4 1102-Ch ler & Surge Tks. Area 101 2/0 1107-Cent Charg. Pop. Rs. 8 101 2/0 1108-Safet Inj. Pop. Rs. 8 101 2/0 1109-Res. Ht Remov. Pop. Rs. 8 101 1/0 1110-Ctat. Sp y Pop. Rs. 8 101 1/0 1111-Res. Ht. v. Pop. Rs. A 101 1/0 1112-Ctat. Spray . Rs. A 101 1/0 1113-Safety Inj. . Rs. A 101 2/0 1114-Cent. Charg. P . Rs. A 101 -

2/0 1115-Pos. Disp Char Pop. Rs. 101 2/0 1116, 1117-8cric Acid . Res. 101 2/0 1116, 1117-Boric Acid T Res. 101 2/0 1120-Aux B1dg. 1974' Gen. Fir. #2 101 4/0 1122-Aux. Bldg. 1974' Gen. Ir. #3 1 0/3 1122-Aux. 81dg. 1974' Gen. . #3 1 5/0 1126-Boron Inj. Tk. & Pap. Rs. 101 1/0 1127-Stair A-Z 109 1/0 1128-Aux. Feedwater Pump Rs. Bas n 117 2/0 1130-Aux. Bldg. 1974' N. Corr. 100 0/2 1206-W. Pipe Chase Below AFWP Are 117 2/0 1203-Aux. 81dg. Elec. Chase S. 1 '

117 1/0 1301-Aux. 81dg. 2000' Corridor 103 0/10 1301-Aux. Bldg. 2000' Corrido #1 117 2/0

• 1311-Aux. 81dg. Sampling Rs. 7 2/0 1312-Boron Meter /RC Activie Mon. Rs. 1 0/1 1314-Aux. 81dg. 2000' Cor dor #3 103 0/3 1314-Aux. 81dg. 2000' C ridor #3 117 2/0 1315-Ctat. Spray Add . Area 103 0/2 1316-Viv.Rs.bySeaA.r. 1 Ht. Exch. 103 0/1 1320-Aux. 81dg. 2007 Corridor #4 103 0/3 1321-Aux. Bldg. 2 3' S. Exit Vest. 103 0/1 1322-Pipe Pene. .8 117 5/0 1323-Pipe Pene. .A 117 6/0 1325-Aux FW p. Rm. 8 117 2/0 1326-Aux. FW ap. Rs. A 117 2/0 1331-Aux. F Pop. Re. C 'y 111 2 1331-Aux, W Pop. Rs. C 117 1/0 1335-Au 81dg. Elec. Chase N. 2000' 117 1/0 1336-A . 81dg. Elec. Chase S. 2000' 117 1/0 1401- omp. Cool. Pop. & Ht. Exch. 8 118 /0 140 Aux. Bldg. 2026' Corridor #1 104 0 1 3-MG Set Rs. 105 0/ (3))

03-MG Set Rm. 112 0/9 WOLF CREEK - UNIT 1 3/4 3-58

. i

.t TABLE 3.3-11 (Continued)

FIRE DETECTION INSTRUMENTS TOTAL NUMBER OF INSTRUMENTS

• D STRdMENT LOCATION ZONE HEAT FLAME SMOK (x/y) (x/y) (x/ )

1405 homical Stg. Area 118 /0 1406- mp. Cool. Pmp. & Ht. Exch. A 104 0/1 1406-Co . Cool. Pmp. & Ht. Exch. A 118 2/0 1408-Aux. Bldg. 2026' Corridor #2 104 0/9 1408-Aux, dg. 2026' Corridor #2 118 5/0 1409-Elec. ne. Rm. B 106 0/4 II) 1409-Elec. Pe . Rm. 8 113 0/4 III .

1410-Elec. Pene Rs. A 107 0/8 II) 1410-Elec. Pene. m. A 114 0/8 III 1413-Aux. Shutdown Pnl. Rm. 118 4/0 1501-Ctr1. Rm. A/C Filt. Units B 110 10/0 1504-Ctat. Purge Exh. & Mech. Equip. B 108 18/0 1506-Cat. Purge Sup. A Rm. A 109 18/0 1507-Personnel Hatch Are 108 3/0 1508-Main Steam Iso. Valv Rm #1 115 1/0 1509-Main Steam Iso. Valve #2 11 1/0 1512-Ctr1. Rm. A/C & Ftit. O ts A 0 10/0 -

1513-Ctr1. Bldg. Vent Sup. A/ Unit Rm. 09 3/0 1513-Aux. Bldg. Duct 2047'6" 119 1/0 /

N.A.-Containment ** 201 1/0(2)

N.A.- Containment ** 202 N.A.-Containment ** 203 2/0(I2)

N.A.-Containment ** 204 1/0(2)

N.A.-Containment ** 206 1/0(2) 2)

N.A.-Containment ** 15 3/0(2).

1/0 N.A.-Containment ** 6 I2)

N.A.-Containment ** 21 - 1/0(2)

N.A.-Containment ** 218 1/0(2) 1/0 N.A.-Containment ** 219 4/0 N.A.-Containment ** 220 1/0 2) 3101-Ctrl. Bldg. 1974 Pipe Space 300 11/0 3105-Ctr1. Bldg. E1 . Chase S. 1974' 300 1/0 3106-Ctr1. Bldg. E ec. Chase N. 1974' 300 1/0 N.A.-Area Above cess Control 301 . 12/0 3229-Ctr1. Bld Elec. Chase S. 1984' 300 1/0 3230-Ctr1 B1 . Elec. Chase N. 1984' 300 1/0 3301-ESF Swg . Rm. #1 314 0/7 3301-ESF S r. Rm #1 315 0/7 3302-ESF gr. Rm. #2 # 316 0/5 3302-ESF Swgr. Rm. #2 317 0/5 3305-C 1. Bldg. Elec. Chase S. 2000' 301 /0 3306- tr1. Bldg. Elec. Chase N. 2000' 301 O gg) 340 Non-Vit. Swgr. & Xfmr. Rm. #1 304 0 g) 3 3-Non-Vit. Swgr. & Xfmr. Rm #1 305 0/1 04-Switchboard Rm. #4 321 0/2 I WOLF CREEK - UNIT 1 3/4 3-59

. 4 s!

TABLE 3.3-11 (Continued)

FIRE DETECTION INSTRUMENTS TOTAL NUMBER OF INSTRUMENTS

• TNSTRUMENTLOCATION ZONE HEAT FLAME SM0K (x/y) (x/y) x 3404 witchboard Rm. #4 322 /2 II) 3405- ttery Rs. #4 303 2/0 -

3407-Ba tery Rm. #1 303 2/0

• 3408-Swi hboard Rm. #1 325 0/2(1) 3408-Switc oard Rm. #1 326 0/2(1) 3409-Non-Vi Swgr. & Xfer. Rm. #2 323 0/1 II) 3409-Non-Vit, wgr. & Xfar. Rm. #2 327 0/1 III 3410-Switchboa Rm. #2 324 0/2 I1) 3410-Switchboar m. #2 328 0/2 I1) 3411-Battery Rm. 303 2/0 3413-Battery Rm. #3

• 303 1/0 g) 3414-Switchboard Rm. 3 318 3414-Switchboard Rm. 320 0/2(I1) 0/2 3415-Acc. Ctr1. & Elec. quip. A/C 303 4/0 Units #1 3416-Acc. Ctr1. & Elec. Eq p. A/C 3 4/0 Units #2 3418-Ctr1. Bldg. Elec. Chase 2016' 303 1/0 3419-Ctr1. Bldg. Elec. Chase N. 016' 303 1/0 3414-Ctr1. Bldg. Elec. Chase N. 16' 303 1/0 3410-Ctr1. Bldg. Elec. Chase S. 20 303 1/0 3501-Lower Cable Spreading Rm. 306 . 0/13 3504-Ctr1. Bldg. Elec. Chase N. 32' 303 1/0 3505-Ctri. Bldg. Elec. Chase S. 032' 303 1/0 3501-Ctr1. B1dg. Elec. Chase . 2032' 03 .

1/0 3501-Ctr1. Bldg. Elec. Chase . 2032' 3 1/0 3601-Control Room 3 3601-Control Room 309 4/0(1) 0/7 3601-Control Room 319 0/7 III 3601-Control Room 329 20/0 3602-Pantry 308 1/0 3603-Shift Supv. Of ce 308 1/0 3605-Equipment Ca net Area 308 15/0 3606-Emerg. Equi . Storage Rm. 308 1/0 3608-Janitor's loset 308 1/0 3609-SAS Rm. 308 1/0 3617-Ctr1. dg. Elec. Chase S. 2047'6" 308 1/0 3618-Ctr1. Idg. Elec. Chasr N. 2047'6" 308 1/0 3605-Ctrl Bldg. Elec. Chase S. 2047'6" 308 1/0 3801-Up r Cable Spreading Rm. 307 0/18 3804-C rl. Bldg. Elec. Chase S. 2073'6" 308 1/0 3801 tr1. Bldg. Elec.. Chase S. 2073'6" 308 0 520 -W. Diesel Gen. Rm. 501 4/0 5 1-W. Diesel Gen. Rm. 502 0/8 203-E. Diesel Gen. Rm. 500 4/0 WOLF CREEK - UNIT 1 3/4 3-60

.s-

.e <

TABLE 3.3-11 (Continued)

FIRE DETECTION INSTRUMENTS TOTAL NUMBER OF INSTRUMENTS

• j S

SNSTRUMENT LOCATION ZONE HEAT FLAME SMO (x/y) (x/y) (

5203-E. tesel Gen. Rm. 503 0/8 6102-Fue ldg. Railroad Bay 600 0/8 6104-Fuel 1 Cool. HX Rm. 8 601 6/0

- 6105-Fuel Poo Cool. HX Rm. A 601 6/0 6202-Elec. Equi ont Rm. 601 3/0 6203-Air Handling uip. Rm. 601 3/0

• 6301-Fuel Bldg. 204 " Gen. Fir. 602 .2/0 6303-Fuel Bldg. Exh. t. Absorb. 601 2/0 Rs. A 6304-Fuel 81dg. Exh. Filt, sorb. 601 2/0 Rm. 8 N.A.-ESW Pumphouse Train 8 02 3/0 ,

N.A.-ESW Pumphouse Train A 001 3/0 N.A.-ESF Transformer XN801 016 0/6 N.A.-ESF Transformer XN802 017 0/6

• T E NOTAT!0 x is number of F ction A (early war g fire detection and

• (x/y):

notification y) instruments.

y is number Function 8 (actuation of a suppression sys- ,

tems and rly warning and notification) in ruments.

• • The fire detec on instruments located within the cont nt are not required to OPERABLE during the performance of Type A ntainment leakage ra tests. ,

(1) Zon is associated with a Halon protected space. Each space s two s arate detection circuits (zones). One zone, in its entiret needs o remain OPERA 8LE.  !

4

) Line-type heat detector.

O

?

WOLF CREEK - UNIT 1 3/4 3-61

er PLANT SYSTEM'>

Y4.7.10 FIRE SUPPRESSION SYSTEMS FI SUPPRESSION WATER SYSTEM LIMITING ONDITION FOR OPERATION 3.7.10.1 The ire Suppression Water System shall be OPERABLE with:

a.

At leas two fire suppression pumps, each with a capac y of >3300 gpm, with the discharge aligned to the fire suppression eader, and ,

b. An OPERABLE ow path capable of taking suction f m the Wolf Creek Generating Sta ion cooling lake and transferrin the water through distribution pi ng with OPERABLE sectionalizi g control or isolation valves to the yar hydrant curb valves, the st valve ahead of the water flow alarm de ice on each sprinkler hose standpipe, and the last valve ahead of e deluge valve on e ch Deluge or Spray System required to be OPERABL per Specificati s 3.7.10.2 and 3.7.10.4.

APPLICABILITY: At all times.

ACTION:

a. With one pump inoperable, res r the inoperable equipment to OPERABLE

status within 7 days. The ovisi s of Specifications 3.0.3 and 3.0.4 are not applicable,

b. With the Fire Suppress n Water System therwise inoperable establish a backup Fire Suppre ion Water System w hin 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

SURVEILLANCE REQUIREMENTS 4

4.7.10.1.1 The Fir Suppression Water System shall be demons ated OPERABLE:

a. At lea once per 7 days by verifying that lake level e ceeds 1075 feet,

b. At east once per 31 days on a STAGGERED TEST BASIS by sta ing the e ctric motor-driven pump and operating it for at least 15 inutes n 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 position, WOLF CREEK - UNIT 1 3/4 7-27 -

• d ot PLANT SYSTEMS SURVEILLANCE REQUIREMENTS (Continued)

. At least once per 6 months by performance of a yard loop and fire hydrant flush,

e. t least once per 12 months by cycling each testable valve i the f w path through at least one complete cycle of full trave ,

f. At le st once per 18 months by performing a system func onal test which cludes simulated automatic actuation of the sy em throughout its oper ing sequence, and:

1) Verify g that each pump develops at least 3 0 gpm at a system pressure f 80 psig,

2) Cycling eac valve in the flow path tha is not testable duping plant operati through at least one c plete cycle of full travel, and

3) Verifying that the lectric drive fire pump starts on a start signal initiated on creasing ader pressure of 75 psig and the diesel driven fir ump st rts on a start signal on decreasing header press eo 70 psig after 10 second time delay -

to avoid simultaneous sta of both pumps. .

g. At least once per 3 years by erf ming a flow test of the system in accordance with Chapter 5, ection of the Fire Protection Handbook, 14th Edition, published b the Nation 1 Fire Protection Association.

4.7.10.1.2 Each fire pump diese engine shall be monstrated OPERABLE:

a. At least once per days by verifying:

1) The fuel s rage tank contains at least 2 gallons of fuel, and

2) The die 1 starts from ambient conditions and perates for at least 0 minutes on recirculation floe.

b. At leas once per 92 days by verifying that a sample of tesel fuel from t e fuel storage tank, obtained in accordance with TM-0270-1975, is w hin the acceptable limits specified in Table 1 of AS D975-1977 wh checked for viscosity, water, and sediment; and

c. t 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 o service.

WOLF CREEK - UNIT 1 3/4 7-28 .

4

• t st PLANT SYSTEMS SURVEILLANCE REQUIREMENTS (Continued)

.10.1.3 Each fire pump diesel starting 24-volt battery bank and char sha e demonstrated OPERABLE:

a. A ast once per 7 days by verifying that:

1) The e trolyte level of each battery is ove the plates, and

2) The overall b ery voltage is gr er than or equal to 24 volts,

b. At least once per 92 days b fying that the specific gl.- y , is appropriate for continu ervice the battery, and

c. At least once per months, by verifying  :

1) The eries, cell plates, and battery racks w no visual i cation of physi:al damage or abnormal deterio ion, and The battery-to-battery and terminal connections are clean, tight, free of corrosion, and coated with anticorrosion mater r

WOLF CREEK - UNIT 1 3/4 7-29

<t er PLANT SYSTEMS

$ PRAY AND/0R SPRINKLER SYSTEMS L ING CONDITION FOR OPERATION 3.7.1 The following Spray and/or Sprinkler Systems shall be OPERABLE: -

e Sprinkler Systems

a. Wet.

Building Elevation Area Protected Auxiliary 2000/2026 North Electric Cable Chase Auxiliary 1988/2000/2026 South Electric Cable Chase Control 1974 - 2073 Vertical Electrical Chases Control 974 Pipe Space and Tank Room Control 1 2 Cable Area Above Access Co rol

b. Pre-Action Sprink r Systems Building Elevahon Area Protected Auxiliary 1974 Cable Trays

• Auxiliary 2000 Cable Trays

• Auxiliary 2026 Cable Trays

• Control 2032 Lower Cable Spr ading Room

~ Control 2073 Upper Cable S eading Room Reactor 2026 orth Cable enetration Area Reactor 2026 S th Cabl Penetration Area Diesel Gen. (E) 2000 Eas Die 1 Generator Room

• Diesel Gen. (W) 2000 West i sel Generator Room  ;

c. Water Sprays Systems Building Elevation Ar a Prot cted Auxiliary 2000 uxiliary F dwater Pump Turbine ESF Transformer Grade Transformer 801*

ESF Transformer Grade Transformer XN 2*

APPLICABILITY: Whenever e ipment protected by the pray / Sprinkler System is required to be OPERABLE.

ACTION: -

a. With one or more of the above required Spray an or Sprinkler Systsms inoperabl , 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 ire watch with backup re suppression equipment for those areas which redundant syste or components could be damaged; for other a as, establish an h rly fire watch patrol,

b. T provisions of Specifications 3.0.3 and 3.0.4 are no applicable.

SURVEILL, CE REQUIREMENTS 4.7.1 .2 Each of the above required Spray and/or Sprinkler Systems sha be demo strated OPERABLE:

• Areas contain redundant systems or components which could be damaged.

WOLF CREEK - UNIT 1 3/4 7-30

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

e t t

.e!

PLANT SYSTEMS SURVEILLANCE REQUIREMENTS (Continued)

At least once per 31 days, by verifying that each valvt (manual, pow -

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

b. At ast once per 12 months, by cycling each testable valve the flow th through at least one complete cycle of full tra ,

c. At least o e per 18 months:

1) By perform a system functional test whi includes simulated automatic act tion of the system, and:

a) Verifying tha the automatic v ves in the flow path actuate to their orrect po ' ions on a Simulated Fire test signal, and b) Cycling each valve i th flow path that is not testable during plant oper ton thr h at least one complete cycle of full travel.

2) By a visual in etion of the dry pipe ray and sprinkler headers to v ify their integrity, and

3) By a vi al inspection of each nozzle's spray a a to verify the spra attern is not obstructed,

d. At I st once per 3 years by performing an air or water flow est t ugh each open head spray / sprinkler header and verifying ea pen head spray / sprinkler nozzle is unobstructed.

'i WOLF CREEK - UNIT 1 3/4 7-31 l

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

.4

.t l PLANT _ SYSTEMS HALON SYSTEMS LIMITING CONDITION FOR OPERATION 7.10:3 The following Halon Systems shall be OPERABLE:

uilding Elevation Area Protected Au liary 2026 North Electrical Penetration Room Auxi ary 2026 South Electrical Penetration Room Auxili y 2026 Load Center and M. G. Sets Room

• Control 2000 ESF Switchgear Rooms

• Control 2016 Switchgear Rooms Control 047 Control Room Cable Trenches an hases APPLICABILITY: Whe ver equipment protected by the Hal System is requireo to be OPERABLE.

ACTION:

a. With one or more o the above requir d 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 /> establ h a continu s fire watch with backup fire suppression equipment- r thosa reas in which redundant systems or components could be dama ed; f other areas, establish an hourly fire watch patrol. 3 I

j

b. The provisions of Specif* ati s 3.0.3 and 3.0.4 are not applicable.

SURVEILLANCE REQUIREMENTS s 4.7.10.3 Each of the a e required Halon System shall be demonstrated OPERABLE:

a. ~

At least nce per 6 months by verifying Halo storage tank weight (or le 1) to be at least 95% of full charge w 'oht and pressure to be a least 90% of full charge pressure, and

b. least once per 18 months by verifying the system, including associated Ventilation System fire dampers and fire d r release mechanisms, actuates manually and automatically, upon r eipt of a simulated actuation signal.

'* Areas contain redundant systems or components which could be damaged .

WOLF CREEK'- UNIT 1 3/4 7-32 .

a

• I

.t PLANT SYSTEMS RIRE HOSE STATIONS LkiTINGCONDITIONFOROPERATION 3.7.10. The fire hose stations given in Table 3.7-3 shall be OPERABLE.

APPLICABIL Y: Whenever equipment in the areas protected by the fire ose stations is equired to be OPERf.BLE.

ACTION:

a. With cn or more of the fire hose stations shown in able 3.7-3 inoperabl provide equivalent capacity backup hos protection to the unprot ted area from the spare hose connecti n on the adjacent OPERABLE sta pipe. If two standpipe hose conn tions are not available at e adjacent OPERABLE hose stati (s), provide gated wye (s) to ensur continued OPERABILITY of th affected hose station.

Where it can be monstrated that the physi al routing of the backup hose would result ' a recognizable hazar to operating technicians, plant equipment, or he hose itself, or could require the blocking open of a fire door, e hose shall be stored at the point of origin and properly identifie as to its in nded use. The above action shall be accomplished wi hin 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 uppres on; 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 />.

b. The provisions of Specificati s 3.0.3 and 3.0.4 are not applicable.

SURVEILLANCE REQUIREMENTS

/ \

4.7.10.4 Each of the fire hose ations given in Table 3.7-3 shall be demonstrated OPERABLE:

a. At least once per days, by a visual i pection of the fire hose stations accessi e during plant operation to assure all required equipment is a the station,

b. At least onc per 18 months, by: -

1) Visua inspection of the stations not acce ible during plant ope tions to assure all required equipment at the station,

2) R oving the hose for inspection and reracking, and

3) nspecting all gaskets and replacing any degrade gaskets in the couplings.

c. least once per 3 years, by:

1) Partially opening each hose station valve to verify va e OPERABILITY and no flow blockage, and

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

WOLF CREEK - UNIT 1 3/4 7-33 A

• I

.r TABLE 3.7-3 FIRE HOSE STATIONS

'RUILDING ELEVATION AREA HOSE RACE / -

Au 'liary 1974 1122 KC-HR 51 Auxi iary 1974 1122 KC- -047 Auxili ry 1974 1120 KC R-031 Auxilia 1974 1120 -

HR-025#

Auxiliar 1974 1101 C-HR-023#

Auxiliary 1974 1101 KC-HR-040 Auxiliary 1974 1101 KC-HR-042 Auxiliary 1988 1201 KC-HR-024 Auxiliary 2000 1329 KC-HR-111 Auxiliary 2000 1320 KC-HR-048 Auxiliary 000 1320 KC-HR-046#

Auxiliary 2 0 131 KC-HR-030 Auxiliary 20 1 1 KC-HR-029#

Auxiliary 2000 01 KC-HR-035#

Auxiliary 2000 1301 KC-HR-039 Auxiliary 2000 1301 KC-HR-041#

Auxiliary 2026 1408 KC-HR-049 Auxiliary 2026 1408 KC-HR-044 Auxiliary 2026 1408 KC-HR-032#

Auxiliary 2026 1408 KC-HR-026# +

Auxiliary 2026 1401 KC-HR-034 '

Auxiliary 2026 1403 KC-HR-037# '

Auxiliary 2047 1506 KC-HR-050 Auxiliary 2047 13 KC-HR-043 Auxiliary 20 1 6 KC-HR-045 Auxiliary 2 7 150 KC-HR-038 Auxiliary 947 1504 KC-HR-033 Auxiliary 2047 1502 KC-HR-027 Auxiliary 2064 1119 KC-HR-028#

Control 1974 3101 KC-HR-002#

Control 1974 3101 KC-HR-014#

Control 1984 3204 KC-HR-015#

Control 1984 3221 C-HR-001#

Control 2000 3301 -HR-004#

1 Contr 2000 3201 KC R-017#

l Cont 1 2000 3302 KC- -016#

! Co rol 2016 3401 KC-HR 05 l C trol 2016 3401 KC-HR- 9 ontrol 2016 3401 KC-HR-01 i

l WOLF CREEK - UNIT ~ 1 3/4 7-34

• _ _ , , - - _ _ _ . -_--_._.,y

.r

.t TABLE 3.7-3 (Continued)

FIRE HOSE STATIONS

'RUILDING ELEVATION AREA HOSE RACR' Cont 1 2032 3501 KC- -006#

Contro 2032 3501 HR-020#

Control 2047 3604 C-HR-007 Control 2047 3616 KC-HR-021 Control 2073 3801 KC-HR-008#

Control 2073 3801 KC-HR-022#

Reactor 2000 2201 KC-HR-120*

Reactor 2000 2201 KC-HR-131*

Reactor 2000 2201 KC-HR-124*

Reactor 00 220 KC-HR-129" Reactor 20 . KC-HR-121*

Reactor 2026 N.A. KC-HR-132*#

Reactor 2026 N.A. KC-HR-125*

Reactor 2026 N.A. KC-HR-130*

Reactor 2047 N.A. KC-HR-128*

Reactor 2047 N.A. KC-HR-122*

Reactor 2047 N.A. KC-HR-126*

Reactor 2068 .A. KC-HR-123*

Reactor 20 N. KC-HR-127*

Fuel 00 610 KC-HR-142#

Fuel 2000 6102 'KC-HR-054#

Fuel 2000 6102 KC-HR-143 Fuel 2000 6104 KC-HR-057 Fuel 2026 6201 KC-HR-133 Fuel 2026 6203 KC-HR-052 Fuel 2047 6301 KC-HR-055#

Fuel 2047 6302 -HR-056#

Fuel 2047 6301 , KC -053#

ESW 2000 N.A. KC-H 40 E 2000 N.A. KC-HR-1 TABLE NOTATIONS

1. Secondary means of fire suppression to Water Sprays / Deluge or Halon Systems.

• Fire hose for station to be stored external to Reactor Building.

WOLF CREEK - UNIT 1 3/4 7-35 -

i_ . _ _

e 4

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PLANT SYSTEMS 1/4.7.11 FIRE BARRIER PENETRATIONS LIk%TINGCONDITIONFOROPERATION s e 3.7.11 All fire barrier penetrations (walls, floor / ceilings, cable tray enclos0 s, and other fire barriers) separating safety-related fire areas r separatin portions of redundant systems important to safe shutdown wit n a fire are and all sealing devices in fire-rated assembly penetration (fire doors, fire indows, fire dampers, cable, piping, and ventilation du penetra-tion seals) s 11 be OPERABLE.

APPLICABILITY: t all times.

ACTION:

a. With one o more of the above required fire barrier penetrations inoperable, ithin 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> establish a continuous ire watch on at least one side of the affected penetration, or rify the OPERABILITY of fire detecto on at least one side of the operable fire barrier and establish an ourly fire watch patrol.

b. The provisions of S cifications 3.0.3 and .0.4 are not applicable.

SURVEILLANCE REQUIREMENTS X /

4.7.11.~1 At least once per 18 mon s the above equired fire rated assemblies and penetration sealing devices shal be verif ed OPERABLE by performing a ,

visual inspection of: j

a. The exposed surfaces of each 'r rated assembly, '

b. Each fire window / fire damper d ssociated hardware, and

c. At least 10% of each type ( ectri 1 and mechanical) of sealed penetration. If apparent anges in ppearance or abnormal degrada-tions are found, a visua inspection an additional 10% of each type of sealed penetrat'on shall be mad This inspection process shall continue until 10% sample with n apparent changes in appear-ance or abnormal de adation is found. Sa les shall be selected such that each pen ration seal will be insp cted every 15 years.

4.7.11.2 Each of the abo required fire doors shall be erified OPERABLE by inspecting the automatic cid-open, release and closing me anism and latches at least once per 6 mo hs, and by verifying:

a. The OPERA LITY of the Fire Door Supervision System r each electric ly supervised fire door by performing a TRIP CTUATING DEVICE JPERAT.IONAL TEST at least once per 31 days,

b. Tha each locked closed fire door without electrical superv ion is ci sed at least once per 7 days,

c. hat doors with automatic hold-open and release mechanisms are ee of obstructions at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> and performing a funct nal test at least or.ce per 18 months, and

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

WOLF CREEK - UNIT 1 3/4 7-36

i t

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'l INSTRUMENTATION

.8ASES

$dL4. 3. 3. 8 FIRE DETECTION INSTRUMENTATION O BILITY of the fire detection instrumentation ensures that both a quate warni capability is available for the prompt detection of fire nd that Fire Suppressio stems, that are actuated by fire . detectors, wil scharge extinguishing agen n a timely manner. Prompt detection an ppression of fires will reduce the p ntial for damage to safety-rela equipment and is an ir:tegral element in the rail facility fire prot on program.

Fire detectcrs that are used to ac te fire ression systems represent a more critically important component o nt's fire protection program than '

detectors that are installed solely f ea fire warning and notification.

Consequently, the minimum number operable detectors must be greater.

The loss of detection ca ity for Fire Suppression tems, actuated by fire detectors repre s a significant degradation of fi rotection for any area. As a resu , the establishment of a fire watch patrol t be initiated at an earlie age than would be warranted for the loss of detec s that provide y early fire warning. The establishment of frequent fire rois in affected areas is required to provide detection capability until perable instrumentation is restored to OPERABILITY.

3/4.3.3.9 LOOSE-PART DETECTION INSTRUMENTATION

, The OPERABILITY of the loose part detection instrumentation ensures that j' sufficient capability is available to detect loose metallic parts in the Reactor Coolant System and avoid or mitigate damage to Reactor Coolant System components. The allowable out-of-service times and Surveillance Requirements

! are consistent with the recommendations of Regulatory Guide 1.133, " Loose-Part Detection Program for the Primary System of Light-Water-Cooled Reactors," May 1981.

3/4.3.3.10 RADI'0 ACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION The radioactive liquid effluent instrumentation is provided to monitor and control, as applicable, the releases of radioactive materials in liquid effluents during actual or potential releases of liquid effluents. The Alarm /

l Trip Setpoints for these instruments shall be calculated and adusted in accordance with the methodology and parameters in the 00CM to ensure that the e alarm / trip will occur prior to exceeding'the limits of 10 CFR Part 20. Ttle .'

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.

WOLF CREEK - UNIT 1 8 3/4 3-5 l

- 2 - _. m

.c

• t PLANT SYSTEMS BASES SEALED SOURCE CONTAMINATION (Continued)

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 or boron measuring devices) are considered to be stored and need not be tested unless they are removed from the shielded mechanism.

W4.7.10 FIRE SUPPRESSION SYSTEMS The OPERABILITY of the Fire Suppression Systems ensures that adequat fire ppression capability is available to confine and extinguish fires occurri in any portion of the facility where safety-related equipmen is located. The Fire Suppression System consists of the water system, ray, and/or spri lers, Halon, and fire hose stations. The collective pability of the Fire pression Systems is adequate to minimize potentia damage to

-safety related uipment and is a major element in the facilit Fire Protection Program.

In the event th t portions of the Fire Suppression 5 tems are inoperable, alternate backup fire- ighting equipment is required to e made available in the affected areas unti the inoperable equipment is r stored to service.

When the inoperable fire ' hting equipment is inte ed for use as a backup means of fire suppression, a longer period of tim is allowed to provide an alternate means of fire fight 1 than if the ino erable equipment is the primary means of fire suppressio The Surveillance Requirements rovide surance that the minimum OPERABILITY requirements of the Fire Suppression st s are met. An allowance is made for ensuring a sufficient volume of Ha in the Halon storage tanks by verifying

either the weight or the level of the an s. Level measurements are made by l either a U.L., or F.M. approved met d, or ultrasonic measurement corrected for temperature using equipment c ibrated to standards traceable to NBS. The term, " simulated fire" test sig 1, is interpre ed to mean actuation of an auto-matic Fire Protection System any of the relea mechanisms provided, e.g.,

fire detectors, hand pull s tions, fusible line/m hanical, manual, hydro /

nischanical, etc.

! In the event the F re Suppression Water System bec es inoperable, immediate l , corrective measures st be taken since this system provi s the major fire 3 suppression capabil'ty of the plant.

I 3/4.7.11 FIRE RRIER PENETRATIONS l The fu ional integrity of the fire barrier penetrations ens es that fires will e confined or adequately retarded from spreading to adja ~ nt portions f the . facility. This design feature minimizes the possibili of a single ire rapidly involving several areas of the facility prior to det tion of a the extinguishing of the fire. The fire barrier penetrations are a pa ive element in the facility fire protection program and are subject to riodic inspections.

WOLF CREEK - UNIT'1 B 3/4 7-7 i

• t PLANT SYSTEMS BASES

-F1&E BARRIER PENETRATIONS (Continued)

Fire r penetrations, including cable penetration barriers, fi doors and dampers considered functional when the visually obs is the same as the as-

• condition ed condition. For those fire er penetrations that are not in the as-designe ndition, an evalua shall be performed to show that the modification has not ed t re rating of the fire barrier penetration.

During periods of ti en a barrier is not func 1, either: (1) a continuous fire wat required to be maintained in the vic

• of the affected bar , or (2) the fire detectors on at least one side o affected barri st be verified OPERABLE and an hourly fire watch patrol establis the barrier is restored to functional status.

3/4.7.12 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 aegrade equipment and can cause a loss of its OPERABILITY. The temperature limits 1 include an allowance for instrument error of 13 F.

e WOLF CREEK - UNIT-1 B 3/4 7-8 4

t 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 Supervising Operator, under the Shift Supervisor, shall be responsible for the control room command function. A management directive to this effect, signed by the Vice President-Nuclear 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 in Figure 6.2-1.

UNIT STAFF 6.2.2 The Unit organization shall be as shown in Figure 6.2-2 and:

a. Each on duty shift shall be composed of at least the minimum shift crew composition shown in Table 6.2-1;

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 MODE 1, 2, 3 or 4, at least one licensed Senior Operator shall be in the control room;

c. An individual from the Health Physics Group *, qualified in radiation protection procedures, shall be on site when fuel is in the reactor;

d. A'.L 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;

-e. A site Fire Brigade of at least 5 members

• shall be maintaine at all YTme . Thi re Brigade shall not inc i t Supervisor,

- - ' - . shift crew necessary for safe and the two other members o - -

shutdown of t any personnel requireu ivi c'har_es_sential s uring a fire emergency; and -

• May be less than 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.

WOLF CREEK - UNIT 1 6-1 T y- -

, - y __ ,. , _ p

• a

.?

ADMINISTRATIVE CONTROLS UNIT STAFF (Continued)

e. )( Administrative procedures shall be developed and implemented to limit the working hours of Unit Staff who perform safety-related functions; e.g., Senior Operators, Operators, Health Physicists, Auxiliary operators, and key maintenance personnel.

The amount of overtime worked by Unit Staff members performing safety-related functions shall be limited in accordance with the NRC Policy Statement on working hours (Generic Letter No. 82-12).

e 9

e I

WOLF CREEK - UNIT 1 6-2 1

i

• ---------4, -

'** - - - - +

t ADMINISTRATIVE CONTROLS RESPONSIBILITIES (Continued)

k. Review of changes to the PROCESS CONTROL PROGRAM, the OFFSITE DOSE CALCULATION MANUAL and the Radwaste Treatment Systems, .ami

1. Review of any accidental, unplanned, or uncontrolled radioactive release including the preparation of reports covering evaluation, recommendations, and disposition of the corrective action to prevent recurrence and the forwarding of these reports to the Plant Manager and to the Nuclear Safety Review Committee, and 7 beu of twe_ Wec., Prat ecuen Proq <.m ed rem ssoas theceto,)

6.5.1.7 The PSRC shall:

a. Recommend in writing to the Plant Manager approval or disapproval of items considered under Specification 6.5.1.6a. through ,

b. Render determinations in writing with regard to whether or not each item considered under cpecification 6.5.1.6a. through e. above constitutes an unreviewed safety question, and

c. Provide written notification within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> to the Director Nuclear Operations and the Nuclear Safety Review Committee of disagreement between the PSRC and the Plant Manager; however, the Plant Manager shall have responsibility for resolution of such disagreements pursuant to Specification 6.1.1 above.

RECORDS 6.5.1.8 The PSRC shall maintain written minutes of each PSRC' meeting that, at a minimum, document the results of all PSRC activities performed under the responsibility provisions of these Technical Specifications. Copies shall be provided to the Director Nuclear _ Operations and the Nuclear Safety Review Committee.

6.5.2 NUCLEAR SAFETY REVIEW COMMITTEE (NSRC)

~

FUNCTION 6.5.2.1 The NSRC shall function to provide independent review and audit of designated activities in the areas of: ,

a. Nuclear' power plant operations,

b. Nuclear engineering,

c. Chemistry and radiochemistry,

d. Metallurgy,

e. Instrumentation and c.ontrol,

f. Radiological safety, WOLF CREEK - UNIT 1 6-9

.c ADMINISTRATIVE CONTROLS PROCEDURES AND PROGRAMS (Continued)

e. Process Contro! Program implementation;

f. ODCM implementation; and

g. Quality Assurance Program implementation for effluent and environ-nental monitorina.

f'O e, Protee.tdo Proq m

h. im olemetta.tlen .)

Majo(rProcedures,supportedbyappropriateMinorProcedures(suchascheckoff lists, operating instructions, data sheets, alarm responses, etc.), shall be provided for the above activities.* A Major Procedure is a procedure which con-trols safety-related activities, and establishes one or more basic controls, overall responsibilities, authority assignments or administrative and opera-tional ground rules at the Wolf Creek plant. Major Procedures are written to meet the requirements of ANSI N18.7-1976/ANS 3.2 and generally are supported by Minor Procedures which provide deliieation of details such as for valve lineups, calibration procedures, operating instructions, data sheets, alarm responses, and other procedures identified as " supporting." Major Procedures require sig-nature approval in all cases by the Plant Manager or a Call Superintendent in his absence. A Minor Procedure is a procedure which controls safety-related activities in support of a Major Procedure. It addresses a specific topic or ,

sub-topic established by its ' parent' Maior Procedure, expanding on it by pro-viding working level instructions. Minor Procedures are not permitted to con- .

tradict requirements contained in their governing Major Procedure. Minor Procedures require signature approval by the Plant Manager, or a Call Super-intendent in his absence, only at Revision '0.'

.6.8.2 Approval of Procedures i a. All Major Procedures of the categories listed in Specification 6.8.1 and modifications to the intent thereof shall be reviewed by the PSRC and approved by the Plant Manager prior to implementation and reviewed periodically as set forth in Administrative Procedures.

b. Minor Procedures (checkoff lists, operating instructions, data sheets, alarm responses, chemistry and analytical procedures, technical instructions, special and routine maintenance procedures, laboratory manuals, etc.) shall, prior to initial use, be approved by the PSRC or a Subcommittee thereof.

c. Corporate Emergency Plan implementing procedures shall be reviewed by appropriate corporate and plant personnel and approved by the Vice President-Nuclear as set forth in General Procedures.

• With the' exception of Corporate Emergency Plan implementirq procedures.

- Corporate Eme,rgency Plan implementing procedures shall be provided but shall not be designated as major or minor procedures.

WOLF CREEK - UNIT 1 6-14 -

r i

.t (3) Antitrust Conditions

, Kansas Gas & Electric Company and Kansas City Power & Light Company shall comply with the antitrust conditions delineated in Appendix C to this license.

(4) Environmental Qualification (Section 3.11, SSER #4, Section 3.11, SSER #5)*

All electrical equipment within the scope of 10 CFR 50.49 shall be qualified by November 30, 1985.

(5) Fire protection (Section 9.5.1, SER, Section 9.5.1.8, SSER #5)

Weltmcwt., and (a) KG8E shallAmaintain in effect all provisions of the approved fire protection program as described in the SNUPPS Final Safety Analysis Report for the facility through Revision 17, the Wolf Creek site addendum through Revision 15, and as approved in the SER through Supplement 5, subject to provision) b'D< below.

(b) &E may make no change to the approved fire protection e g pro m which significantly would decrease the leve fire f., protec in the plant without prior approval he Comis-

1. sion. To such a change the licensee mu submit an Y application fo icense amendment pursua to 10 CFR 50.90.

pd KG&E may make changes feature the approved fire pro-tection program which do n nificantly decrease the level of fire protection withou r Comission approval, provided:

(1) such changes not otherwise in e a change in a lic e condition or technical cification or re t in an unreviewed safety quest 10 CFR 50.59).

f) such changes do not result in failure to complete the fire protection program approved by the Commission prior to license issuance.

• The parenthetical notation following the title of many license conditions denotes the section of the Safety Evaluation Report and/or its supplements wherein the license condition is discussed.

b

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. r.

~

I shall maintain, in an auditable fonn, a current re of a hanges including an analysis of t s of

- the change on protection pr shall make such records available ectors upon request. All changes to the a rogram s e reported to the Director ffice of Nuclear Reactor tion, along e FSAR revisions required by 10 CFR 50.71 e . .

(6) Qualification of Personnel (Section 13.1.2, SSER #5, Section 18, 55ER #1)

KG&E shall have on each shift operators who meet the requirements described in Attachment 2.

(7) NUREG-0737 Supplement 1 Conditions (Section 22. SER)

KG8E shall complete the requirements described in Attachment 3 to the satisfaction of the NRC. These conditions reference the appropriate items in Section 22 "TMI Action Plan Requirements for Applicants for Operating Licenses," in the Safety Evaluation Report and Supplements 1, 2, 3, 4, and 5 of NUREG-0881.

(8) Post-Fuel-Loading Initial Test Program (Section 14, SER Section 14, SSER #5)

Any changes in the Initial Test Program described in Section 14 of the FSAR made in accordance with the provisions of 10 CFR 50.59 shall be reoorted in accordance with 50.59(b) within one month of such change.

(9) Inservice Inspection Program (Sections 5.2.4 and 6.6, SER)

By December 11. 1985, KG8E sh'all submit for staff review and

! approval, the inservice inspection program which conforms to the ASME Code in effect on March 11, 1984.

i' (10) Emergency Planning In the ever.t that the NRC finds that the lack of progress in completion of the procedures in the Federal Emergency Management Agency's final rule, 44 CFR Part 350, is an indication that a major substantive problem exists in achieving preparedness or maintainingthe provisionsanofadequate 10 CFR Section state of emergency (2) 50.54(s)

will apply.

l

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Insert A The licensee may make changes to the approved fire protection program without prior approval of the Commission only if those i

changes would not adversely affect the ability to achieve and maintain safe shutdown in the event of a fire.

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, t ATTACHMENT 4 ULNRC-1447 CALLAWAY PROPOSED FSAR CHANGES (For Information Only) 5

/

.r , '.

, CALLAWAY - SP 9.5.1.4 Tests and Inspection Preoperational testing is described in Chapter 14.0. The <

performance and structural and leaktight integrity of the FPS is routinely demonstrated during plant operation.

9.5.1.5 Instrumentation Applications Section 9.5.1.2 provides a description of the instruments used to monitor and actuate the various functions of the FPS.

9.5.1.6 Personnel Qualification and Traininq Section 9.5.1 of the Site Addendum describes the personnel

, qualifications and training for the station personnel respon-sible for firefighting, including those responsible for main-taining and inspecting the FPS equipment.

9.5'.l.'7 Insect A i

l l

Rev. 0L-0 9.5.1-27 6/86

.? . .

INSERT A FSAR STANDARD PLANT 9.5.1.7 Operability Requirements, Required Actions, and Testing / Inspection Requirements Table 9.5.1-2 lists the operability requirements for the Fire Protection System, the required actions to be taken when equipment is inoperable, and testing / inspection requirements. These requirements were previously included in the Callaway Plant Technical Specifications (Appendix A to License No. NPF-30) but were removed in accordance with Generic Letter 86-10, Implementation of Fire Protection Requirements (refer to Amendment No. , MM/DD/YY to License No. NPF-30). The bases for the requirements listed in Table 9.5.1-2 are described in sections 9.5.1.7.1 through 9.5.1.7.3, 9.5.1.7.1 Fire Detection Instrumentation Operability of the fire detection instrumentation ensures that adequate warning capability is available for the prompt detection of fires and that Fire Suppression Systems, that are actuated by fire detectors, will discharge extinguishing agents in a timely 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 facility'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 fnitiated 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 la restored to operability.

9.5.1.7.2 Fire Suppression Systems (Water, Spray and/or Sprinklers, Halon and Fire Hose Stations)

The operability of the Fire Suppression Systems ensures that adequate fire suppression capability is available to confir.e and extinguish fires occurring in any portion of 1

't the facility where safety-related equipment is located.

The Fire Suppression System consists of the water system, spray and/or sprinklers, Halon, and fire hose stations.

The collective capability of the Fire Suppression jy stems 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 fira-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 intended for.use as a backup means of fire suppressicn, 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.

The Testing / Inspection Requirements provide assurance that the minimum operability requirements of the fire suppression systems are met. An allow nce is made for ensuring a sufficient volume of Halon tu the Halon storage tanks by verifying either the weight or the level of the tanks. Level measurements are made by a U.L., or F.M.

approved method, or by ultrasonic measurement corrected for temperature using equipment calibrated to standards traceable to NBS. The term " simulated fire" test signal is interpreted to mean actuation of an automatic Fire Protection System by any of the release mechanisms provided, e.g., fire detectors, hand pull stations, fusible link / mechanical, manual, hydro / mechanical, etc.

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.

9.5.1.7.3 Fire Barrier Penetrations The functional integrity of the fire barrier penetrations

! ensures that fires will be confined or adequately retarded from spreading to adjacent portions of the facility. This design feature minimizes the possibility of a single fire rapidly involving several areas of the facility prior to detection of and the extinguishing of the fire. The fire barrier penetrations are a passive element in the facility fire protection program and are subject to periodic inspections.

Fire barrier penetrations, including cable penetration barriers, fire doors and dampers are considered functional when the visually observed condition is the same as the as-designed condition. For those fire barrier penetrations 2

• 4

-. p *. *

^

that are not in the as-designed condition, 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: (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.

i

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. CALLANAY-SA

e. Compressed gas storage Outdoors, located to prevent accident effects on safety-related facilities.

SAFETY' EVALUATION TWO - Two separate 300,000 gallon capacity fire-water storage tanks are provided. The tanks are interconnected so the pumps can take suction from either/or both of the tanks. Check valves are provided so that a leak in one tank or its supply piping will not allow both tanks to drain.

Three 50% capacity fire pumps are provided, (one driven electrically and two diesel-driven). Failure of one pump to operate does not prevent the system from supplying 100%

design flow. Connection te the yard fire main loop is through two supply lines from opposite sides of the fire pump house.

SAFETY EVALUATION THREE - The site FPS consists of proven components selected to minimize risks of failure or inadvertent operation. Extinguishing materials used are

- compatible with the equipment in the areas served.

9.5.1.4 Tests and Inspections The fire protection systems are installed by a contractor qualified and experienced in the work. Tests and inspection of this installation are performed in accordance with the requirements of the agencies listed in Section 9.5.1.1.3 (except the frequency of periodic fire pump testing will be as required by N Sh Aa Plot

";::i44eeMone-in lieu of NFPA Codes) and with Preoperational TestNble Procedures. To insure system integrity and completeness refer to 95. I-A .

! Site Addendum Appendix 9.5A for further discussion.

9.5.1.5 Personnel _ Qualification _and Training l

The Site Architect / Engineers' Supervisor of fire protection design assisted in the development, design and equipment specification for j the Fire Protection System. He is a member of the Society of Fire Protection Engineers and is a Registered Professional Engineer.

The Callaway Plant Safety Group assists in inspection and testing of the Fi e Protection System and is responsible for the development of the Fire-Fighting Training Program for the plant. The staff of the Safety Group includes degreed engineers, including a Registered Professional Fire Protection Engineer, degreed safety Frofessionals, a member of the Society of Fire Protection Engineers, members of the National Fire Protection Association, members of the American Society of Safety Engineers, and personnel with training and experience in fire-fighting.

9.5-5 Rev. OL-0 6/86

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CALLAWAY-SA TNwgT

-s r Members of each shift crew receive fire brigade training and arey'~~ A-4-- O I

therefore qualified members of the Callaway Plant fire brigade.

Qualified personnel are

?ir: T::r 1: : 'ety :t 211 tin::.

assigned in accordance with established procedures to the fire brigade by the Operating Supervisor at the beginning of each shift.

The Fire Brigade Leader and at 1. east two brigade members per shif t chall have sufficient training in, or knowledge of plant safety-

! related systems to understand the effect of fire and fire suppressants on safe shutdown capacity.

The minimum equipment provided for the Callaway Plant Fire Brigade I

consists of personal protective equipment such as turnout coats, i boots, gloves, helmets, emergency communications equipment, portable lights, portable ventilation equipment and portable extinguishers.

Self-contained breathing apparatus approved by NIOSH (National l Institute of Occupational Safety and Health) are provided for l selected Fire Brigade, emergency repair team and control room -

j Rated operating life for self-contained units is one-half I

personnel.At hour.

least 10 masks are available for Fire Brigade personnel.

Two extra air bottles are provided for each self-contained breathing unit to be used by Fire Brigade, Emergency Repair Team, or Control Room Personnel. An additional on-site 6-hour supply of reserve air is provided to permit quick and complete replenishment of exhausted supply air bottles.

The on-duty Operating Supervisor is designated " Fire Brigade Leader".

The Shif t Supervisor has overall responsibility in the following i

j actions based upon assessment of the magnitude of the fire emergency:

1. Recommendations for safe shutdown of the plant i f required.

2. Recommendations for implementation of the Emergency Plan.

3. Notification of the Emergency Duty Of ficer.

Requesting assistance f rom of f-duty personnel,if necessary.

4.

If a decision is made to implement the Radiological Emergency Response Plan, the Shif t Supervisor is designated the Onsite Emergency Coordinator until relieved by the Emergency Duty Officer or a designated alternate.

l i

I 9.5-8 Rev. OL-0 ,

6/06 l

_ _ _ _ _ _ _ _ _ . _ _ _ _ _ . _ _ _ _ , _ _ _ _ . , _ _ _ _ . _ _ . _ _ . _ _ _ . _ _ . _ . , _ _ _ _ _ _ . , . . - _ _ _ _ _ . , . _ _ _ . _ _ . , __y_______-_,m..._,.._____.__,__

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CALLANAY-SA

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12. Define the strategies established for fighting fires in safety-related areas and areas presenting a hazard to safety-related equipment including the designation of ther A. Fire hazards in each plant zone covered by a fire fighting procedure.

B. Fire extinguishers best suited for controlling fires with the combustible loadings of the zone and the nearest location of these extinguishers.

C. Most each favorable area in view direction from whichdirection, of the ventilation to attack access a fire in hallways, stairs, and doorr that are most likely to be free of fire, and the best station or elevation for All access and egress routes that fighting the fire. involve locked doors will be specifically identified in the procedure with the appropriate precautions and methods for access specified.

D. Plant systems that should be managed to reduce the damage potential during a local fire and the location (e.g.,

of local and remote controls for such management l any hydraulic or electrical system in the zone covered by the specific fire fighting procedure that could increase the hazards in the area because of overpressurization or electrical hazards).

E. Vital heat-sensitive system components that need to be Particularly kept cool while fighting a local fire.

hazardous combustibles that need cooling will be designated.

i r

F.

Potential radiological and toxic hazards in fire zones.

G. Ventilation system operation that ensures desired plant air distribution when the ventilation flow is modified for fire containment or smoke clearing operations.

H. Operations requiring control room and operating supervisor coordination or authorization.

I.

Instructions for plant operators and general plant personnel during fire.

13. Organize fire fighting brigades and assign special duties according to job title so that all fire fighting functions are covered by any complete shif t personnel complement.

These duties include command control of the brigade, transporting fire suppression and support equipment to the fire scenes, applying the extinguishant and to the fire, with coordination communication with the control room, outside fire departments.

sq. Iussar C-9.5-14 Rev. OL-0 6/86

.c .

" CALLAWAY-SA from.exp cted performance.of plant equipment and of unanticipated deficiencies in the design or operation of structures, systems, or components that af fect nuclear safety.

8. Review of all reportable events.

9. Review of the plant Security Plan and shall submit recommended changes to the NSRB.

10. Review of the Radiological Emergency Response Plan and shall submit recommended changes to the NSRB.

11. Investigations or analysis of special subjects as requested

• 1 by the chairman of the Nuclear Safety Review Board.

12. Review of changes to the PROCESS CONTROL PROGRAM, the OFFSITE DOSE CALCULATION MANUAL, and Radioactive Waste Treatment Systems.

13. Review of any accidental, unplanned or uncontrolled radioactive release including the preparation of reports covering evaluation, recommednations, and disposition of the corrective action to prevent recurrence and the forwarding ,

of these reports to the Manager, Callaway Plant and to the NSRB.

14. Review of Unit operations to detect potential hazards to nuclear safety.

I

15. Review of Unit Turbine Overspeed Protection Reliability

_ Proer d revisions thereto.

' Lu sa R.T 13 . 4.6t, rii.7 . Authority of tha ORC I

The Onsite Review Committee shall: 1 I

a. Recommend in writing to the Manager, Callaway Plant approv or disapproval of items considered under Section_13.4.1.1 tb '

(1) through (5) , (9), (10), (12) , (13) , gydF (15)j3above 3 l - J 002

b. Render determination in writing with regard to whetner or l l

not each item considered from (2) through (5) and (14)

' above, constitutes an unreviewed safety question.

c. Provide written notification within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> to the Vice-President, Nuclear and the Nuclear Safety Review Board of i disagreement between the ORC and the Manager callaway Plant; l however, the Manager, Callaway Plant shall have -

)

responsibility for resolution of such disagreements. l I

1 13.4.1.1.8 Records i  !

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, FSAR13.04ROLO 13.4-3 Rev. OL-0

6/86

.7

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INSERT B FSAR SITE ADDENDUM SECTION 9.5.1'.8 ,

A site Fire Brigade of at least five members shall be maintained onsite at all times. There may be less than five members 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 acconunodate unexpected absence provided immediate action is taken to fill the required positions. The Fire Brigade shall not include the Shift Supervisor and 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.

c INSERT C-FSAR SITE ADDENDUM SECTION 9.5.1.12

- 14. Govern the Operability Requirements,' Required Actions, and Testing / Inspection Requirements specified in Section 9.5.1.7 of the -i

- Standard Plant FSAR. i

. INSERT D

! FSAR SITE ADDENDUM SECTION 13.4.1.1.6

?

j. 16. Review of the Fire Protection Program and revisions thereto.

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TABLE 9.5.1-2 ' .>

Fire Protection System Requirements i APPL 1 CAB 12 SYSTEM REG'TRFENT NnDr$ CO N TTinN REGtTRED ACTION TIE REG 71REENT TTSTINC/fMSPECTION RFG!!PFElff

1. Fire Detection instrumentatica for each Whenever the equipment a. Any, but not more a.1. Outside containment a.1 Each of the fire detection Instrumentation fire sone protecting that is being protected than half, of the a) restore to oper- a) Within 14 days. Instruments which are

] safety-related equipment is required to be early warning and able status accessible during plant I shall be opera %1e. operable, notification type g operation shall be instruments in b) establish an b) Within next I hour, demonstratro operable at any fire zone hourly fire watch least once per 6 months.

inoperable, patrol in the '

j affected area, a.2. Fire detectors which are not accessible during plant a.2. Inside containment operation shall be demon-i a) restere to oper- a) Within 14 days, strated operable during y able status each Cold Shutdown eaceed-l OR ing 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> unless per-b) inspect affected b) Within next I hour. . formed in previous 6 months.

j contatrument zone every 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> b. The NFPA Standard 72D -

@ supervised circuits super-

c) monitor contain- c) Within next I hour. vision associated with the ment air tem- detector alarms of each of perature every the fire detection instru-hour. ments shall be demonstrated operable at least once per

b. More than half of b.1. Outside contairunent 6 months.

the early warning a) establish an a) Within I hour, and nottffcation hourly fire, f type instruments watch patrol in 4

in any fire zone the affected inoperable area.

E any fire suppression b.2. Inside containment instrument in the a) inspect affected a) Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

9 zone inoperable containment zone g every 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> any two or more adja- 'g cent detection instru- b) monitor contain- b) Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

( ments inoperable. ment air ten-perature every hour.

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r Page 2 of 7 TABLE 9.5.1-2 Fire Protection System Requiremen.a APPLICAB12 SYSTEM REQPTRE9EOfT MnDFS CO WTTTON REQITIRED ACTION TTME REQUIRE 9ENT TESTTur:/TNSPECT1088 RFS?TRE9ENT

2. Fire Suppression a. Two operable fire At all times. a.1. One pump inoper- a.1. Restore to og4 table . a.1. Within 7 days. a.1. Weekly versitcation of the Water System suppression pumps able status water level in each fire aligned to the fire OR water storafte tank.

suppression header, provide an alternate pump. a.2. Monthly (stassered test basis) startirs of the a.2. Two pumps inoper- a.2. Provide a backup a.2. Within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, electric motor-driven pumps, able, fire suppression water system. a.3. Monthly verification that each valve in the flow path

b. Two separate water At all times. b.1. One tank inoper- b.1. Restore to operable b.1 Within 7 days. is in its correct position.

supply tanks. able, status O_R a.4. Performance of a yard loop provide an alternate and hydrant flush at least water supply. ence per 3 years.

b.2. Two ranks inoper- b.2. Provide a backup b.2. Within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. a.5. Annual cycling of each able, fire suppression testable valve in the water system. flow path,

c. Operable flow path. At all times. c. Flow path inoper- c. Provide a backup c. Within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. a.6. Performance of a system able. fire suppression functional test which system. includes simulated automatic actuation of the system throughout its operating sequence at least once per 18 months.

a.7. Performance of a flow test of

. the system at least once per 3 years.

b.1. Monthly verification of the fuel oil day tank level and starting of the fire pump diesel engine.

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TABIE t.5.1-2 D '

FireProtectionSystemRequirementsN )V:r.

.. ) , ' -

% -. e w p' 1 APPLYCAB1.E .*

SYSTEM RESTTREwprr MnDFS CONDITIN ' REQIr1 RED ACTTN - TIE RFGTIREENT"' TESTINC/lNSPECTION REGITRI9Elff .

?-

- 2. Fire Suppression .

'> )' b.2. Quarterly verification that .

Water System <), .

a sample of diesel fuel from -

(continued) . the fuel oil day tanit is

\ 'within acceptable Ilmits.

3 ,,

N 'i b.3. Inspection 'of the fire pump

? g

.3 diesel engine at least once per 18 months during shut-down or with the other two 3

Y ,

s', 4 fire suppression pumps

~

t , operable.

c.1, Weekly verification of the

• 3 electrolyte level of e'ach ,

battery and the overall .

2 ,

• . battery voltage for each

,, , y g' 4 . fire pump diesel starting 24-volt battery bank.

[{

).

• c.2. Quarterly verification that

' the specific gravity la '

appropriate for continued i service of the battery, c.3. Inspection of the batteries.

- = cell plates, battery racks,

{ 4 s and battery-to-battery and

= terminal eennections at least 5 once per 18 months.

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TABLE 9.5.1-2 Fire Protection System Requirements APPLICABLE SYrf7M REgTTRDENT ' MDDES CONDITION reg 7TRFD ACTION TIM RFgt1RFMNT 1TSTINC/ INSPECT 10N REgf1RFMNT :

. 3. Spray and70'r Spray and/or sprinkler Whenever the equipment - .a. One or.more spray . a. Establish a continu- Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />. s. Montb' verification that Sprinkler Systems systems protectirg being protected is re- . and/or sprinkler cus fire watch with ,each valve in the flow path '

safety-related areas quired to be operable. systems inoperable backup fire suppres- . is in its correct position, shall be operable. In areas containing sten capability in

. redundant systems or the af fected area, b. Annual cycling of each test-'

components. able valve in the flow path.

b. Any other spray b. Establish an hourly Witnin 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />. c.1. Performance of a system

/ - ' ang/or sprinkler- fire watch patrol in functional test which in-systems inoperable. the affected area. cludes simulated automatic .

actuation of the system at L. _ least once per 18 months.

c.2. Inspection of the dry pipe spray and sprinkler headers -

at least once per 18 months.

c.3. Inspection of each nozzle's -

spray area to verify the -

spray pattern is not obstruc-ted least once per 18 months,

d. Perfomance of an air or water flow test through each open head spray / sprinkler -

header at least once per 3 years. 6

4. Halon Systems Halon systems protecting Whenever the equipment a. One or more Halon a. Establish a continu- a. Within I hour. a. Semi-annual verification of-safety-related areas being protected is re- ' systems inoperable ous fire watch with Halon storage tank weight shall be operable, quired to be operable. In areas containing backup fire suppres- * (or level) and pressure, redundant systems sinn capability in or components, the affected area. b. Verification that the system actuates manually and auto-

b. Any other Halon b. Establish an hourly b. Within I hour. matica11y upon receipt of a '

systems inoperable, fire watch patrol in. simulated actuation stanal the affected area, at least once per 18 months.

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.Page 5 of 7

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, _ TABLE 9.5.1-2 Fire Protection System Requirements APPLICABI2 STSTEM RETTREW7Fr MDDES CONDITTON ~ - REG!1 RED ACTim TTE REG'IRDENT TESTINC/ INSPECTION RgG11RDFNT -

5. Fire Hose Stations ' Fire hose stations pro- Whenever the equipment One or more fire hose Provide equivalent Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />'if the ' a. Mnnthly inspection of the tecting safety-related in the areas protected. stations inoperable. . capacity backup hose inoperable station is ' ' fire hose stations access-areas shall be operable. by the stations is protection to the the primary means of ible during plant opera-required to be oper- unprotected area. fire protection in the tions.

able. affected area 3 other-wise, within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. b.1. Inspection of the fire hose stations not accessible during plant operations at least once per 18 months.

b.2. Removal of the hose for inspection and rerecking at-least once per 18 months.

b.3. Inspection of all gaskets and

.; replacing any degraded gaskets in the couplings at .

least once per 18 months.

c.1. Partial opening of each hose station valve to verify valve operability and no flow blockage at least once per, 3 years.

c.2. Performance of a hose hydro-

, . static test at least once per 3 years.

_ - - . - . . . -- , , _ ___ ..y . _ . . ,m.m . . . ._4 . , . _ ._i . . 5 ,

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' P pe 6 of 7 BLE 9.5.1-2

. Fire Protection System Requirements APPLICABLE STSTEM _- RE W1RE E NT MIMS UNsDTTTON RE@ IRED ACTION TI E REW 1REE NT TESTINC/ INSPECTION REW1REENT

6. Fire Barrier All fire barriers and At all times. One or more inoperable, a. Estabitsh a continu- a. Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />. a.1. Inspection of the exposed Penetrations their penetrations sepa- ous fire watch on one surfaces of each fire rated

< rating safety-related side of the affected assembly at least once per 4

areas or separating barrier 18 months.

portions of redundant OR

systems important to b. . Verify the operabil- b. Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />. a.2. Inspection of each fire safe shutdown shall be try of fire detectors window / fire damper and asso-l operchie. on at least one side clated hardware at least of the inoperable once per 18 months.

barrier AND ' a.3. Inspection of at least 10b of estabitsh an hourly each type (electrical and fire watch patrol. mechanical) of scaled pene-tration at least once per 1 18 months, if apparent a changes in appearance or j abnormal de8tadations are found, a visual inspection l

1 of an additional 10% of each j type of sealed penetration i shall be made. This inspec-tion process shall continue '

I untti a 10% sample with no

apparent changes in appear-ance or abnormal degra-

. dation is found. Samples j shall be selected such that

each penetration seal will

! be inspected every 15 years.

b.1. Semi-annual inspection of the automatic hold-open, release and closing mechanism and latches of the required fire i

doors.

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.a0 TABT.E 9.5.1-2' Fire Protection System Requirements -

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- APPt.1CABI.E STs7EN REqtTTRFM7tf NnDES CONDTTION REQt?1RFD ACTinN TIM RE@?!RDENT TESTINC/ INSPECTION REQ'IRDOff

6. Fire Barrier . b.2. Monthly testing of the Fire i Penetrations Door Supervision System for -

(continued) each electrically aupervised :

fire door, b.3.' Weekly verification'that'esch locked closed fire door without electrical super-

'e vision is closed.

b.4. Daily vartfication that doors -

with automatic hold-open and release mechanisms are free

n. ast*vetions.

m b.5. Performance of a functional =

test for doors with automatic hold-open and release mechs- '

nisms at least once per 18 months.

b.6. Daily verification that each unlocked fire door without electrical supervision is closed.

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t ATTACHMENT 5 ULNRC-1447 WOLF CREEK PROPOSED FSAR CHANGES (For Information Only)

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FSAR ADDITION 9.5.1.7 BQUIPPG!NF OPERABILITY The operability requirements and required actions of the FPS is described in Table 9.5.1-2. The Fire Protection Manual (FPM) further describes the operability requirements and actions required, if not operable, of the FPS. A list of all the surveillance procedures required to prove operability of all FPS equipment is maintained in the FPM. Wis list also describes the operability requirement that each procedure covers.

The bases for FPS equipment operability and the actions required if not operable, are as follows:

FIRE DETECTION INSTRIMENTATION OPERABILITY of the fire detection instrumentation ensures that both adequate warning capability is available for the prenpt detection of fires and that Fire Suppression Systems, that are actuated by fire detectors, will discharge extinguishing agents in a timely manner. Pronpt 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 inportant conponent of a plant's fire protection program that detectors that are installed soley for early fire warning and notification.

Consequently, the mininum 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 that 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.

FIRE SUPPRESION SYSTEMS i

The OPERABILITY of the Fire Suppression Systems ensures that adequate fire i 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, Halon, and fire hose stations. We collective capability of the Fire

Suppressicn 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 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.

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The Surveillance Requirements provide asssurance that the mininum OPERABILITY requirements of the Fire Suppression Systems are met. An allowance is made for ensuring a sufficient volume of Halon in the Halon storage tanks.by verifying either the weight or the level of the tanks. Ievel measurements are made by either a U.L., or F.M. approved method, or by ultrasonic measurement corrected for tenperature using equipment calibrated to standards traceable to NBS. The term, " simulated fire" test signal, is interpreted to mean actuation of an automatic Fire Protection System by any of the release mechanisms provided, e.g., fire detectors, hand pull stations, fusible line/ mechanical, manual, hydro / mechanical, etc.

In the event the Fire Suppression Water System becomes inoperable, inmediate corrective measures must be taken since this system provides the major fire suppression capability of the plant.

FIRE BARRIER PENETRATIONS Fire barrier penetrations, including cable penetration barriers, fire doors and danpers 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 condition, 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: (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.

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1 Site Addendum 9.5.1.5 Fire Protection Manual  !

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l The WCGS fire protection manual explains the requirements for -

the entire fire protection plan.

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

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TABLE 9.5.1-2 Fire Protection System Requirements APPLICABLt . SURVEILLANCE SYSTEM REQUIREMENT MODES CONDITION REQUIRED ACTION TIME REQUIREMENT REQUIREENTS

1. Fire Detection Instrumentation for each Whenever the equipment a. Any. but less than a.l. Outside containment Fire Protection lastrumentation fire zone protecting that is being protected half of the early a) restore to oper- a) Within 14 days. Manual (FPM) safety-related equipment is required to be warning and notifica- able status Section 7.4 shall be operable, operable. tion type instrunwnts OR in any fire zone b) estaliTish an b) Within next I hour.

inoperable. hourly fire watch patrol in the affected area.

, a.2. Inside containment a a) restore to oper- a) Within 14 days, able status

, OR b) inspTe t af fected b) Within next I hour, containment zone every 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> OR c) monit6r contain- c) Within next I hour.

ment air tem-perature every hour.

b. Mere than half of the b.l. Outside containment early warning and a) establish an a) Within I hour.

notification type in- hourly fire struments in any fire watch patrol in zone inoperable the affected 1 OR area, any fire Eppression instrument in the b.2. Inside containment zone inoperable a) inspect affected a) Within I hour.

OR containment zone with any Go or more every 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> adjacent detection OR j instruments inoper- b) monit6r contain- b) Within I hour, able. ment air tem-perature every hour.

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ApPLICA8tE SURVEILLAN&

SYSTEM REQUIREMENT MODES CONDITION REQUIRED ACTION T E REQUIREENT REQUIREENTS

2. Fir 2 Suppression a. Two operable fire At all times, a.l. One pump inoperable, a.1. Restore to operable a.l. Within i days. FPM Section 7.1 Watsr System suppression pumps status aligned to the fire OR suppression header. provid _e an alternate pump.

a.2 Two pumps inoper- a.2. Provide a backup a.2. Within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

able, fire suppression water system.

b. Operable flow path. At all times. b. Flow path inoperable, b. Provide a backup fire b. Within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. FPM Section 7.2 suppression water system.

3. Spray and/or Selected portions shall Whenever the equipment a. One or more of the a. Estabitsh a continu- a. Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />. FPM Section 7.3 Sprinkler System be operable, being protected is re- selected portions . ous fire watch in the quired to be operable. Inoperable in areas affected area with containing redundant backup fire suppres-systems or components. sion capability.

b. Any other of the b. Estabitsh an hourly- b. Within I hour.

selected portions fire watch patrol in inoperable. the affected area.

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V- 1 APPLICA8LE SURVE!Lt.ANCE ' ~

SYSTEM RFileIREMENT N00ES CONDITION REQUIRED ACTION TIE REQUIREENT REQUIREENTS

4. H31on Systems Systems protecting Whenever the equipment a. One or more of the a. Establish a continu- a. Wi*,hin I hour. FPM Section 7.5 selected areas shall being protected is re- Selected systems ous fire watch in the be operable, quired to be operable, inoperable in areas affected area with containing redundant backup fire suppres-systems or components. sion capability,

b. Any other of the b. Establish an hourly b. Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />, selected portions fire watch patrol in inoperable. the affected area.

S. Fire Hose Stations Selected stations shall Whenever the equipment One or more selected Provide equivalent Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> if the FPM Section 7.6 be operable, in the areas protected stations inoperable. capacity backup hose inoperable station is by the selected stations protection to the the primary means of is required to be oper- unprotected area. fire protection in the able. affected area; other-wise, within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

6. Fire Barrier All fire barriers and At all times. One or more inoperable, a. Estabitw. a continu- a. Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />. FPM Section 7.7' P2netrations their penetrations sepa- ous fire watch on one rating safety-related side of the affected areas from non-safety- barrier related or separating OR portions of redundant b. Verify IEe operabil- b. Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

Systems important to ity of fire detectors safe shutdown shall be on at least one side operable, of the inoperable barrier ANO establiWan hourly fire watch patrol.

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