B12931, Proposed Tech Specs Re Electrical Power Sys

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Proposed Tech Specs Re Electrical Power Sys
ML20151H741
Person / Time
Site: Millstone Dominion icon.png
Issue date: 07/21/1988
From:
NORTHEAST NUCLEAR ENERGY CO.
To:
Shared Package
ML20151H739 List:
References
B12931, NUDOCS 8808020031
Download: ML20151H741 (47)
v  d  e


Text

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t i Docket No. 50-423 B12931 Attachment I

Proposed Revision to Technical Specifications Electrical Power Systemr.

e July 1988 ssosorocal eso721 POR ADoCK O'3000403 p PDC

t . .

INDEX LIMITING CONDITIONS FOR OPERATION AND SURVEILLANCE REQUIREMENTS i  :

SECTION PAQ1 3/4.8 ELECTRICAL POWER SYSTEMS 3/4.8.1 A.C. SOURCES Operating ................................................ 2/4 8-1  :

TABLE 4.8-1 DlESEL GENERATOR TEST SCHEDULE ........................ 3/4 8 8 Shutdown ................................................. 3/4 8-9 3/4.8.2 D.C. SOURCES Operating ................................................ 3/4 8-10 TABLE 4.8-2a 8ATTERY SURVEILLANCE REQUIREMENTS .................... 3/4 8-12 TABLE 4.8-2b BATTERY CHARGER CAPACITY ............................. 3/4 8-13 Shutdown ................................................. 3/4 8-14 3/4.8.3 ONSITE POWER DISTRIBUTION -

Operating ................................................ 3/4 8-15 Shutdown ................................................. 3/4 8 17 3/a.8.4 ELECTRICAL EQUIPMENT PROTECTIVE DEVICES J Containment Penetration Conductor Overcurrent Prctective Dnices ....................................... 3/4 8-18 Motor-Operated Valves Thermal Overload Protection ........ 3/4 8-28 Motor-Operated Valves Thermal Overload Protection l '

Not Bypassed ............................................. 3/4 8-32 l

A. C. Circuits Inside Containment ........................ 3/4 8-37 f

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! 3/4.9 REFUELING OPERATIONS i

BORON CONCENTRATION ......................................

3/4.9.1 3/4 9 1 L/4.9.2 INSTRUMENTATION .......................................... 3/4 9 2 3/4.9.3 DECAY TIME ............................................... 3/4 9 3 3/4.9.4 CONTAINNENT BUILDING PENETRATIONS ........................ 3/4 9-4 3/4.9.5 COHHUNICATIONS ........................................... 3/4 9-5 j HILLSTONE UNIT 3 xi I

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  • i ELECTRICAL POWER SYSTEMS 3/4.8.4 ELECTRICAL EOUIPMENT PROTECTIVE DEVICfl CONTAINMENT PENETRATION CONDVLTOR OVERCURRENT PROTECTIVE DEVICES LIMITING CONDITION Ff)_R__0PERATION 3.8.4.1 All containment penetration conductor overcurrent protective devices shall be OPERABLE.

/JfLLCABILITY: MODES 1, 2, 3, and 4.

ACTION:

With one or more of the containment penetration conductor overcurrent protective device (s) inoperable:

a. Restore the protective device (s) to OPERABLE status or deenergize the circuit (s) by tripping the associated backup circuit breaker or racking out or removing the inoperable circuit breaker within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />, declare the affected system or component inoperable, and verify the backup circuit breaker to be tripped or the inoperable circuit breaker racked out or removed at least once per 7 days thereafter; the provisions of Specification 3.0.4 are not applicable to overcurrent devices in circuits which have their backup circuit breakers tripped, their inoperable circuit breakers racked out, or removed, or
b. Be in at least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in COLD SHUTOOWN within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

SVRVEILLANCE RE0VIREMENTS 4.8.4.1 All containment penetration conductor overcurrent prctective devices shall be demonstrated OPERABLE:

a. At least once per 18 months:
1) By verifying that the medium voltage (4 15 kV) circuit breakers are OPERABLE by selecting, on a rotating basis, at least 10% of the circuit breakers of each voltage level, and performing the following:

a) A CHA!!NEL CALIBRATION of the a:sociated protective relays, b) An integrated system functional test which includes simulated automatic actuation of the system and verifying that each relay and associated circuit breakers and control circuits function as designed, and MILLSTONE UNIT 3 3/4 8 18

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HILLSTONE - UNIT 3 3/4 8 20

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8 g i ELECTRICAL POWER SYSTEMS i i

MOTOR OPERATED VALVES THF.RMAL OVERLOAD PROTECTION LIMITING CONDITION FOR OPERATION 3.8.4.2.1 Each thermal overload protection bypassed only under accident conditions for safety related motor operated valves shall be bypassed by an '

j OPERABLE bypass device integral with the motor starter.

APPLICABILITY: Whenever the motor-operated valve is required to be I OPERABLE.

ACTION:

With the thermal overload protection for one or more of the above required valves not bypassed under conditions for which it is designed to be bypassed, restore the inopenble device or provide a means to bypass the thermal over- )

load within 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />, or declare tie affected valve (s) inoperable and apply the  ;

! appropriate ACTION Statement (s) of the affected system (s).

l j SURVEILLANCE REQUIREMENTS ,

i 4.8.4.2.1 The thermal overload protection for the above required valves shall i be verified to be bypassed by the appropriate accident signal (s) by performance of a TRIP ACTUATION DEVICE OPERATIONAL TEST of the bypass circuitry during COLD

SHUTDOWN or REFUELING at least once per 18 months.

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ELECTRICAL POWER SYSTEMS HOTOR OPERATED VALVES THERMAL OVERLOAD PROTECTION NOT BYPASSED LIMITING CONDITION FOR OPERATION 3.8.4.2.2 Each thermal overload protection not bypassed under uccident conditions for safety-related motor-operated valves shall be operable.

APPLICABILITY: Whenever the motor operated valve is required to be OPERABLE.

ACTION:

With the thermal overload protection for one or more of the above required valves inoperable, bypass the inoperab!e thermal overload within 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />; restore the inoperable thermal overload to OPERABLE status within 30 days or declare the affected valve (s) inoperable and apply the appropriate ACTION State-ment (s) for the affected system (s).

SURVEILLAffE REQUIREMENTS 4.8.4.2.2 The thermal overload protection for the above required valves shall be demonstrated OPERABLE at least once per 18 months and following maintenance on the motor starter by the performance of a CHANNEL CAllBRATION of a represen-tative sample of at least 25% of all thermal overloads for the above required valves.

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J ELECTRICAL POWER SYSTEMS BASES 3/4.8.4 ELECTRICAL EOUIPMENT PROTECTIVE DEVICES Containment electrical penetrations and penetration conductors are pro-

, tected by either deenergizing circuits not required during reactor operation or by demonstrating the OPERABILITY of primary and backup overcurrent protec-tion circuit breakers during periodic surveillance.

The Surveillance Requirements applicable to lower voltage circuit

breakers provide assurance of breaker reliability by testing at least one representative sample of each manufacturer's brand of circuit breaker. Each manufacturer's molded case and metal case circuit breakers are grouped into

] representative sampics which are then tested on a rotating basis to ensure that all breakers are tested, if a wide variety exists within any

manufacturer's brand of circuit breakers, it is necessary to divide that 1 manufacturer's breakers into groups and treat each group as a separate type of breaker for surveillance purposes.

l The' molded case circuit breakers and unitized starters will be tested in accordance with Manufacturer's Instructions.

The OPERASILITY of the motor-operated valves thermal overload protection and integral bypass devices ensures that the thermal overload protection will
not prevent safety-related valves from performing their function. The

] Surveillance Requirements for demonstrating the OPERABILITY of the thermal j overload protection are in accordance with Regulatory Guide 1.106, "Thermal Overload Protection for Electric Motors on Motor Operated Valves," Revision 1, March 1977.

I FSAR Tables 8.3 7, 8.3 8 and 8.3 9 list containment penetration conductor overcurrent protective devices and thermal overload protection bypassed only under accident conditions and thermal overload protection not bypassed under 2 accident conditions. The addition or deletion of any device shall be made in accordance with Section 50.59 of 10CFR50 and approved by the Plant Operation i

Review Committee.

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MILLSTONE - UNIT 3 B 3/4 8-3

Docket No. 50 423 812931 l

Attachment 11 Proposed FSAR Tables 8.3-7. 8.3-8. 8.3-9 July 1988 A

MNPS-3 FSAR between 100-125 percent of motor nameplate full load

  1. current to ensure a minimum trip time of less than 15 seconds. However, they are either automatically bypassed

(  %** or can be manually bypassed from the conuol room during

  • e accident conditions. An overload condition in these 7)

% relays is alarmed in the control room.

Each thermal overload protection bypassed only under accident conditions for safety-related motor-operated valver is listed in Table 8.3-7. Each therreal overload protection not bypassed under accident conditions for safety-telated motor-operated valves is listed in Table 8.3-8.

8.3-26a Juns 1988

j MNPS-3 F0AR l 3

h ,%

'N A increased if abnormal drift or malfunction of trip r 41 V^ setpoints is experienced. Testa made on protective f, J V devices may be made with the devices in place. They are S4 conducted to verify that the voltage profiles at safety

'sM related buses are satisfactory for the full load and no load conditions on the system and the range of grid voltages. All test data is recorded and comparison of ,

that data with data obtained at a previous test period is '

verified for repeatability.

3. Cable - All Class IE cables are type tested in accordance with l IEEE 383 to ensure their ability to perform their intended functions under conditions of ambient temperatures during a 40-year life and of temperatures expected during a design basis accident (Section 3.11) at any time within the 40-year period.

All Class IE cables are specified to withstand the most severe temperature conditions which could erist inside the f containment. Class IE cables routed outside the containment

  • including the electrical tunnels and annulus building are I subjected to a less severe environment than that specified inside the containment even in the absence of the ventilation system for the tunnels (Soctions 9.4.1 and 9.4.12). Other l cable considerations are discussed in Section 8.3.1.2.4. ,

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4. Containment Electrical Penetrations -

The containment i electrical penetration assemblies are designed and tested in  !

accordance with the requirements for Class IE equipment as per i IEEE 317 augmented by Regulatory Guide 1.63 (Table 8.1-2).  ;

L Vhere the available fault current exceeds the current-carrying  ;

capability of the penetration conductors, secondary (i.e.

backup) penetration protection is provided in addition to the l normal circuit protection (i.e. primary penetration '

protection). NERM 71, "Electrical Penetration Protection," (

documents hov each penetration meets the requirements of Regulatory Guide 1.63. All containment penetration conductor j overcurrent devices are listed in Table 8.3-9. j

5. Fire Stops and Seals - The design criteria for the fire stop and seals include the following. l l
a. Noncombustible and heat resistant materials as per General  ;

Design Criterien 3 (Table 8.1-2).  !

b. A fire rating consistent with the fire rating requirements of the penetrated vall, floor, or ceiling. Performance l has been proven by test. I
c. Suitability to penetration geometry and arrangement.
d. Compatibility with cable and insulation materials.

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e. Derating consideration, if any, of pover cables. [

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8.3-28 June 1988 [

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NNPS-3 FSAR TABLE 8.3-7 HOTOR-OPERATED VALVES THERMAL OVERLCAD PROTECTION BYPASSED ONLY UNDER ACCIDENT CONDITIONS

  • Equipment Identification Circuit Description 3CCP*MOV45A Component Cooling Main Supply Header Valve MCC BUS 32-lR [3EHS*MCC3Al (-R3M)]

3CCP*MOV45B Component Cooling Main Supply Header Valve MCC BUS 32-IV [3EHS*MCC3B1 (-F6F)]

3CCP*MOV48A Containment Recitculation Main keturn Header Valve MCC BUS 32-2R [3EHS*MCC3A2 (-RlJ)]

3CCP*MOV48B Containment Recirculation Main Return Header Valve MCC BUS 32-2V [3EHS*MCC3B2 (-RlJ))

3CCP*MOV49A Containment Isolation Main Return Header Valve MCC BUS 32-IV [3EHS*MCC3B1 (-F6J)]

3CCP*MOV49B Containment Isolation Main Return Header Valve MCC BUS 32-lR [3EHS*MCC3Al (-RlM)]

3CCP*MOV222 Containment Recirculation Cooling coil C Supply Valve MCC BUS 32-2R [3EHS*HCC3A2 (-R2F)]

3CCP*MOV223 Containment Recirculation Cooling coil C Return Valve MCC BUS 32-2R [3tHS*MCC3A2 (-R2J)]

3CCP*MOV224 Containment Recirculation Cooling Coil C Supply Valve MCC BUS 32-2R [3EHS*MCC3A2 (-R2M))

3CCP*MOV225 Containment Recirculation Cooling Coil C Return Valve MCC BUS 32-2R [3EHS*MCC3A2 (-RIF))

3CCP*MOV226 Containment Recirculation Cooling coil B Supply Valve MCC BUS 32-2V 13EHS*MCC3B2 (-R2F)]

3CCP*MOV227 Containment Recirculation Cooling coil B Return Valve MCC BUS 32-?V [3EHS*MCC3B2 (-R2J)]

3CCP*MOV228 Containment Recirculation Cooling coil B Supply Valve MCC BUS 32-2V [3EHS*MCC3B2 (-R2M)]

  • For additional information, see Draving FF-IDB-2 l

1 of 5 July 1988

9 MNPS-3 FSAR DRAFT TABLE 8.3-7 (Cont)

Equipment Identification __

Circuit Description 3CCP*MOV229 Containment Recircula' ion Cooling coil B Return Valve MCC BUS 32-2V [3EHS*MCC3B2 (-Rir')]

3CHS*LCV112B Volume Control Tank Outlet Isolation Valve MCC BUS 32-1R [3EHS*MCC3Al (-F3J)]

3CHS*LCV112C Volume Control Tank Outlet Isolation Valve MCC BUS 32-1V [3EHS*MCC3B1 (-T3J)]

3CHS*LCV112D Refueling Vater Storage Tank Pump Valve MCC BUS 32-1R [3EHS*MCC3Al (-R4J)]

3CHS*LCV112E Refueling Vater Storage Tank Pump Valve MCC BUS 32-1V [3EHS*MCC3B1 ( R4J)]

3Cllb*MV8100 Reactor Coolant Pump Seal Vater Isolation Valve MCC BUS 32-1V [3EHS*MCC3B1 (-R3M)]

3CHS*MV8105 Charging Pump to Reactor Coolant Isolation Valve MCC BUS 32-1R [3EHS*MCC3Al (-R3J)]

3CHS*MV8106 Charging Pump to Reactor Coolant Isolation Valve MCC BUS 32-1V l3EHS*MCC3B1 (-R3J)]

3CHS*MV8110 Charging Pump to Minimum Flov Isolation Valve MCC BUS 32-1R [3EHS*MCC3Al (-R13))

3CHS*HV8111A Charging Pump Minimum Flov Isolation Valve MCC BUS 32-1V [3EHS*MCC3B1 (-R1J)]

3CHS*MV8111B Charging Pump Minimum Flov Isolation Valve NCC BUS 32-1V [3EHS*MCC3B1 (-R5J)]

3CHS*HV8111C Charging Pump Minimum Flov Isolation Valve MCC BUS 32-1V [3EHS*McC3B1 (-R5M)]

3CHS*MV8112 Peactor Coolant Pump Seal Vater Isolation Valve MCC BUS 32-2R [3EHS*MCC3A2 (-R5J)]

3CHS*MV8511A Charging Pump Miniflov Control Valve MCC BUS 32-2R [3FHS*MCC3A2 (-R1M)]

3CHS*MV8511B Charging Pump Miniflov Control Valve MCC BUS 32-2V (3EHS*McC3E2 (-F3M)]

2 of S July 1988

NNPS-3 FSAR TABLE 8.3-7 (Cont)

DRAFT ,

Equipment Identification Circuit Description 3 CMS *MOV24 Containment Atmosphere Monitoring Isolation Valve MCC BUS 32-2V (3EHS*MCC3B2 (-R3M)]

3IAS*MOV72 Containment Instrument Air Isolation Valve MCC BUS 32-2V [3EHS*MCC3B2 (-F4J))

30SS*MOV29A Refueling Vater Chemical Addition Tank Discharge Valve MCC BUS 32-4T [3EHS*McCIA4 (-F10H)]

30SS*MOV29B Refueling Vater Chemical Addition Tank Discharge Valve MCC BUS 32-30 13EHS*MCC1B3 (-R4H)]

3RHS*MV8701A Residual Heat System Inlet Isolation Valve MCC BUS 32-2R [3EHS*MCC3A2 (-R3F)]

3RHS*MV8701B Residual Heat System Inlet Isolation Valve MCC BUS 32-3U [3EHS*MCCIB3 (-R2K)]

3RHS*MV8702A Residual Heat Removal Pump Suction Valve MCC BUS 32-4T [3EHS*MCCIA4 (-R8E)]

3RHS*MV8702B Residual Heat Removal Pump Suction Valve  ;

MCC BUS 32-2V [3EHS*MCC3B2 (-F3J)] l 3RSS*MOV20A Containment Recirculation Vater Spray Header Isolation Valve '

MCC BUS 32-4T [3EHS*MCCIA4 (-F7E)] i 3RSS*MOV20B Containment Recirculation Vater Spray Header Isolation Valve  !

MCC BUS 32-4U [3EHS*MCCIB4 (-F1M))

3RSS*MOV20C Containment Recirculation Vater Spray Header Isolation Valve MCC BUS 32-4T (3EHS*MCCIA4 (-F3J)]

3RSS*MOV200 Containment Recirculation Vater Spray Header Isolation Valve MCC BUS 32-4U 13EHS*HCCIB4 (-F3J)]

3RS$*MOV23A Containment Recirculation Pump Suction Isolation Valse MCC BUS 32-4T (3EHS*MCCIA4 (-F8E)]

3RSS*MOV23B Containment Recirculation Pump Suetion Isolation Valve MCC BUS 32-40 (3EHS*MCCIB4 (-R3E)] t 3RSS*MOV23C Containment Pecirculatf ori Puep Suction Isolation Valve f MCC BUS 32-4T [3EHS*MCCIA4 (-F8H)]  !

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MNPS-3 FSAR TABLE 8.3-7 (Cont)

Equipment Identificatica Circuit Description _

3RSS*MOV23D Containtent hecirculation Pump Suction Isolation Valve MCC BUS 32-4U [3EHS*MCClB4 (-R3H)]

3SIH*MV8801A Charging Pump to Reactor Cold Leg Isolation Valve MCC BUS 32-1R [3EHS*McC3Al (-R3F)]

3SIH*MV8801B Charging Pump to Reactor Cold Leg Isolation Valve '

MCC BUS 32-1V [3EHS*McC3B1 (-R3F)]

3SIL*MV8608A Safety Injection Accumulator Isolatico Valve MCC BUS 32-2R [3EHS*MCC3A2 (-R5F)]

3SIL*MV880BS Safety Injection Accumulator Isolation Valve MCC BUS 32-2V [3T35*MCC3B2 (-R3J)]

3SIL*MV8808C Safety Inje: tion Accumulator Isolation Valve MCC BUS 32-2R [3EHS*MCC3A2 (-F4M)l 3SIL*MV8808D Safety Injection Accumulator isolation Valve MCC BUS 32-2V 13EHS*MCC3B2 (-F4M)]

3FVP*MOV50A Reactor Plant Component Cooling Heat Exchange Supply Valve MCC BUS 32-lR [3EHS*MCC3Al (-R4M)j 35VP*MOV50B kcactor Plant Component Cooling Heat Exchange Supply Valve MCC BUS 32-lV [3EHS*MCC3B1 (-R4M)]

3SVP*MOV54A Containment Recirculation Service Vater Cooler Supply Valve MCC BUS 32-4T [3EHS*MCCIA4 (-F5H))

35VP*MOV54B containment Recittulation Service Vater Cooler Supply Valve MCC BUS 32-4U [3EHS*MCCIB4 (-F5E)]

35VP*MOV54C Containment Racirculation Service Vater Cooler Supply W lve MCC BUS 32-4T [3EHS*MLCIA4 (-F5L)]

35V.*MOV54D Containecnt Recirculation Service Vatar Coaler Supply Valve  !

MCC BUS 32-4U [3EHS*MCClB4 (-F5H)]

3SVP*MOV71A Turbine Flant Component Cooling Scavice Vater Valve MCC BUS 32-1R 13EHS*MCC3Al (-FlJ)) ,

3 5'. P

  • MOV 71 B Turbine Plant Component Cooling fervice Vater Valve MCC BUS 32-IV [3EHS*MCC3B1 (-FlJ)]

4 of 5 July 1988

NNPS-3 FSAR TABLE 8.3-7 (Cont)

Equipment Identification ,

Circuit Description l

35VP*MOV115A Circulating Vater Pumps Lubricating Vater Valve MCC BUS 32-5T (3EHS*MCCIA5 (-511)]

35VP*MOV115B Circulating Vater Pur.ps Lubricating Vater Valve MCC DUS 32-5U [3 Ells *.MCciB5 (-511)]

3SVP*MOV130A Rod Control Area Service Vater Isolation Valve

, MCC BUS 32-lR [3EHS*MCC3Al (-R6J))

35VP*MOV130B Rod Control Area Service Vater Isolation Valve MCC BUS 32-IV [3EHS*MCC3D1 (-R6J))

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i 5m 5 July 1988 l

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MNPS-3 FSAR i TABLE 8.3-8 DRAFT  !

MOTOR-OPERATED VALVES THERMAL OVERLOAD PROTECTION NOT BYPASSED

  • t Equipment t

Identification Circuit Description 3CHS*MV8104 Boric Acid Filter to Charging Pnp Valve MCC BUS 32-1V {3EHS*MCC3B1 (-R1M)]

3CHS*MV8109A Reactor Coolant Pump Seal Vater Isolation Valve {

NCC BUS 32-2R [3EHS*MCC3A2 (-F4F)] l 3CHS*MV8109B Reactor Coolant Famp Seal Vater Isolation Valve MCC BUS 32-2V [3EHS*MCC3B2 (-F4F)]

3CHS*MV8109C Reactor Coolant Pump Seal Vater Isolatten Valve

[

l MCC BUS 32-2R 13EHS*MCC3A2 (-F4J)]

3CHS*MV8109D Reactor Coolant Pump Seal Vater Isolation Valve i i

MCC BUS 32-2V [3EHS*MCC3B2 (-R3F)]

l 3CHS*MV8116 Charging System Header Isolation Valve l MCC BUS 32-1R [3EHS*MCC3Al (-R5M)] l J

3CHS*MV8438A Charging System Header Isolation Valve MCC BUS 32-1R [3EHS*MCC3Al (-R5F)]

3CHS*MV8438B Charging System Header Isolation Valve l MCC BUS 32-1V [3EHS*MCC351 (-R5F)] [

1 l 3CHS*MV8438C Charging System Header Isolation Valve j MCC tus 32-1R 13EHS*MCC3Al (-R5J)]

3CHS*MV8468A Lov-Pressure Safety Injection Charging Pump Valve l l MCC BUS 32-1R [3EHS*MCc3Al (-R4F)]

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! 3CHS*MV8468B Lov-Pressure Safety Injection Charging Pump Valve 1 MCC BUS 32-1V [3EHS*McC3B1 (-R4F)] ,

3CHS*MV8507A Charging System Boric Acid Gravity Feed Valve i i MCC BUS 32-1R 13EHS*MCC3Al (-F1M)]

I l 3CHS*MV85078 Charging System Boric Acid Cravity Feed Valve

MCC BUS 32-1V [3EHS*MCC3B1 (-l'1M)]
  • For additional information, see Draving FE-1DB-2.

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1 of 6 July 1988

NNPS-3 FSAR DRAFT TABLE 8.3-8 (Cont) . . .

Equipment Identification Circuit Description 3CHS*MV8512A Charging Pump Control Valve MCC BUS 32-2R [3EHS*HCC3A2 (-R3H))

3CHS*MV8512B Charging Pump Control Valve MCC BUS 32-2V [3EHS*MCC3B2 (-R5F)]

3FVA*MOV35A Steam Generator Auxiliary Feedvater Isolation Valve MCC BUS 32-4U [3EHS*MCC1B4 (-F3M)]

3FVA*MOV35B Steam Ceaerator Auxiliary Feedvater Isolation Valve MCC BUS 32-4T l3EHS*MCCIA4 (-R5H)]

3FVA*MOV35C Steam Generator Auxiliary Feedvater Isolation Valve MCC BUS 32-4T [3EHS*MCCIA4 (-R5L))

3FVA*MOV35D Steam Generator Auxiliary Feedvater Isolation Valve MCC BUS 32-4U [3EHS*MCCIB4 (-F4E))

3LMS*MOV40A Containment Open Pressure Tap Isolation Valve MCC EUS 32-lR [3EHS*MCC3Al (-F3M))

3LMS*MOV40B Containment Open Pressure Tap Isolation Valve MCC BUS 32-IV 13EHS*MCC3B1 (-F3M)]

3 LM S* MOV40C Containment Open Pressure Tap Isolation Valve MCC BUS 32-lR [3EHS*MCC3Al (-F3F)]

3LMS*MOV40D Containment open Pressute Tap Isolation Valve MCC BUS 32-IV [3ERS*MCC3B1 (-F3F))

3 MSS *NOV17A Auxiliary Feedvater Turbine Steam Supply Nonreturn Valve MCC BUS 32-4U [3EHS*MCClB4 (-R5H)]

3 MSS *MOV175 Auxiliary Feedvater Turbine Steam Supply Nonreturn Valve MCC BUS 32-4T [3EHS*MCCIA4 (-R6E))

3 MSS *MOV17D Auxiliary Feedvater Turbine Steam Supply Nonreturn Valve MCC BUS 32-4T [3EHS*MCCIA4 (.R6H))

3 MSS *MOV18A Main Steam Pressure Relief Isolation Valve MCC BUS 32-2R [3EHS*HCC3A2 (-F5J)]

3 MSS *MOV1Bb Main Steam Pressute kellef Isolation Valve MCC bOS 32-2V [3EHS*MCC3B2 (-F4J)]

2 of 6 July 1988

NNPS-3 FSAR DRAFT TABLE 8.3-8 (Cont)

Equipment Identification Circuit Description 3 MSS *MOV18C Main Steam Pressure Relief Isolation Valve MCC BUS 32-2R [3EHS*MCC3A2 (-F5M)]

3 MSS *MOV18D Main Steam Pressure Relief Isolation Valve MCC BUS 32-2V [3EHS*HCC3B2 (-R4M))

3HSS*MOV74A Main Steam Pressure Relief Control Bypass Valve MCC BUS 32-2V [3EHS*MCC3B2 (-F5M)l 3 MSS *MOV74B Main Steam Pressure Relief Control Bypass Valve MCC BUS 32-2R [3EHS*MCC3A2 (-F5F)]

3 MSS *MOV74C Main Steam Pressure Relief Control Bypass Valve MCC BUS 32-2V (3EHS*MCC3B2 (-R5M)]

3 MSS *MOV74D Nain Steam Pressure Relief Control Bypass Valve MCC BUS 32-2R [3EHS*MCC3A2 (-R5M)]

30SS*MOV34A Quench Spray Header Isolation Valve MCC BUS 32-4T [3EHS*MCCIA4 (-F5E)]

30S$*MOV34B Quench Spray Header Isolation Valve MCC BUS 32-30 [3EHS*MCCIB3 (-R$L)]

3RCS*MV8000A Pressurizer Relief Isolation Valve MCC BUS 32-2R [3 EMS *MCC3A2 (-R4F))

3RCS*MV8000B Pressurize Relief Isolation Valve MCC BUS 32-2V [3EHS*MCC3B2 (-R4F))

3RCS*MV8098 Reactor Vessel Excess Pressure Letdovn Valve MCC BUS 32-2R [iEHS*McC3A2 (-R4J)]

3RHS*TCV610 Pesidual Heat Reeoval Recirculation Valve MCC BUS 32 4T [3EHS*MCCIA4 (-R8H))

3RHS*TCV611 Residual Heat Removal Recirculation Valve MCC BUS 32-30 [3EHS*MCCIB3 (-F2J)]

3RHS*MVB701C Residual Heat Removal Inlet Isolation Valve MCC BUS 32-2R [3EHS*McC3A2 (-R3J)]

l 3RMS*MV8702C Residual Heat Removal Pump Suction Valve l MCC BUS 32-2V [3EHS*MCC3B2 (-F3F)]

l l

l l 3 of 6 July 1938

L MNPS-3 FSAR DRAFT TABLE 8.3-8 (Cont)

Equipment Identification Circuit Description , __

3RHS*MV8716A Residual Heat Removal Cross-Conncction Isolation Valve MCC BUS 32-4T [3EHS*MCC1A4 (-R3M))

i 3PHS*MV8716B Residual Heat Removal Cross-Connection Isolation Valve MCC BUS 32-3U [3EHS*MCC1B3 (-F3M))

3RSS*MOV38A Containment Recirculation Pump Minimum Flov Valve MCC BUS 32-4T [3EHS*MCCIA4 (-F8L)]

3RSS*MOV38B Cantainment Recirculation Pump Minimum Flov Valve BUS 32-4U 13EHS*HCClB4 (-R5L)]

3RSS*MV8837A circulation Spray to Residual Heat Removal Cross-Connection Valve l

MCC BUS 32-4T [3EHS*MCCIA4 (-F9E)]

3RSS*MVS837B Recirculation Spray to Residual Heat Removal Cross- ,

Connection Valve MCC BUS 32-40 [3EHS*MCC1B4 (-R3L))

3RSS*MV8838A Recirculation Spray to Residual Heat Removal Cross-Connection Valve i MCC BUS 32-4T [3EHS*MCCIA4 (-F9H)]

3RSS*MV8838B Recirculation Spray to Residual Heat Removal Cross-Connection Valve

! MCC BUS 32-4U [3EHS*HCC1B4 (-R2E)]

i UI.H*MV8802A Safety Injection Pump to Hot Leg Control Valve MCC BUS 32-4T [3EHS*MCCIA4 (-R2G)]

3SIH*MV8802B Safety Inject.on i Pump to Hot Leg Control Valve

MCC BUS 32-3U [3EHS*HCC1B3 (-R1K))

1 3SIH*MV8806 Fefueling Vater Storag- TarA to Saf ety Injection Pump Valve l MCC BUS 32-30 [3EHS*MCC1B3 (-F3E))

3SIH*MV8807A Safety Injection Suction Header Cross-Connection Valve M,0 BUS 32-47 [3EHS*MCCIA4 (-F7d))

3SlH*HV8807B Safety Injection Suction Header Cross-Connection Valve MCC BUS 32-3U [3EHS*HCC1B3 (-R5H)]

2 3SIHaMV8813 Safety Injection Pump to ..ccirculation Line Isolation Valve MCC BUS 32-3U [3EHS*MCC1B3 (-F5C,i I

4 of 6 July 1988 I

NNPS-3 FSAR 1ABLE 8.3-8 (Cont) l p(

Equipment Identification Circuit Description 3SIH*HV8814 Safety . . .. Pump Minimum Flov Isolation Valve MCC EUS 32-*T [3EHS*MCC1A4 (-F3M)]

3SIH*MV8821A Safety Injection Pump to Cold Leg Cross-Connect *on Valve MCC BUS 32-4T [3EHS*MCC1A4 (-R2M)]

3SIH*HV8821B S.'fety Injection Pump to Cold Leg Cross-Connection Valve MCC BUS 32-3U [3 EMS *MLC1B3 (-R1G)]

3SIli*MV8835 Safety Injection Pump to Cold Leg Connection Valva MCC BUS 32-4T [3EHS*MCC1A4 (-R3G)]

3SIH*HV8920 Safety Injection Pump Minimum Flov Isolation Valve MCC BUS 32-4T [3EHS*MCC1A4 (-R9H)]

3SIH*HV8923A Safety Injection Pump Suction Isolation Valve HCC BUS 32-4T [3EHS*MCCit.4 (-F4E)]

3 Sill *MV8923B Safety Injection Pump Suction Isolation Valve MCC BUS 32-3U [3EHS*MCCIB3 (-R4E)]

3SIH*MV8924 Cl.arging Pump Suction Injection Cross-Connection Valve MCC BUS 32-4T [3EHS*MCC1A4 (-R9E)]

3SI',*MV88044 Residual Heat Re:noval Pump to Charging Pump Valve MCC BUS 32-4T [3EHS*MCC1A4 (-R1H)]

3StL*MV8804B Residual Heat Removal Pump to Charging Pump Valve MCC BUS 32-3U [3EHS*MCC1B3 (-R3E)]

3SIL*HV8809A Residual Heat Removal to Cold Leg Isola *. ion Valve MCC BUS 32-4T [3EHS*MCC1A4 (-R7H)]

3SIL*HV8809B Residual Heat Removal to Cold Leg Isolation Valve MCC BUS 32-3U [3CHS*MCC1B3 (-R2G)]

3SIL*MV8812A Refueling Vater to Residual Heat Removal Pump Isolation Valve MCC BUS 32-4T [3EHS*MCCIA4 (-RIE)]

3SIL*MV8812B Refueling Vater to Residual Heat Removal Pump Isolation Valve MCC BUS 32-3U l3EHS*HCC1B3 (-R3ti)]

3SIL*MVP840 Residual lleat Removal Pump Hot Leg Valve MCC BUS 32-3U l3EHS*MCC1B3 (-FSM))

5 of 6 July 1988

MNPS-3 PSAR TABLE 8.3-8 (Cont)

Equipment Identification Circuit Description 35VP*MOV24A Service Vater Pump Backvash Valve MCC BUS 32-5T [3EHS*MCC1A5 (-3E)]

3SVP*MOV24B Service Vater Pump Backvash Valve MCC BUS 32-5U [3EHS*MCC1B5 (-3E)]

35VP*M0V24C Service Vater Pump Backvash Valve MCC BUS 32-5T [3EHS*MCCIAS (-4E)]

35VP*MOV24D Service Vater Pump Backvash Valve MCC BUS 32-50 [3EHS*MCC1B5 (-4E)]

3SVP*MOV57A Containment Recirculation Service Vater Cooler Outlet Valve MCC BUS 32-4T [3EHS*MCCIA4 (-F6E)]

3SVP*MOV57B Containment Recitculation Service Vater Cooler Outlet Valve '

MCC BUS 32-4U [3EHS*MCC1B4 (-R4E)] i 36VP*MOV57C Co7tainment Recirculation Service Vater Cooler Outlet Valve MCC BUS 32-4T [3EHS*MCC1A4 (-F6H)]

3SVP*MOV5/D Containment Recirculation Service Vater Cooler Outlet 1.'alve MCC BUS 32-4U [3EHS*MCC1B4 (-R4H)] ,

3SVP*MOV102A Service Vater Pump Discharge Valve MCC BUS 32-5T [3EHS*MCC1A5 (-3H)]

3SVP*MOV102B Service Vater Pump Discharge Valve i MCC BUS 32-5U l3EHS*MCC185 (-3H)]  ;

3SVP*H0V102C Service Vater Pump Discharge Valve  !

MCC BUS 32-5T [3EHS*HCC1A5 (-4H)]

3SVP*M0V102D Service Vater Pump Discharge Valve i i

MCC BUS 32-5U [3EHS*MCC185 (-4H)]

i f

6 of 6 July 1988

MNPS-3 FSAR TABLE P.3-9 CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT PROTECTIVE 9EVICES*

Equipment Identification Circuit Description 3CCP*MOV48A Containment Recirculation Main Return Header Valve Motor Power Feeder 3CCP*MOV48B Containment Recirculation Main Return Header Valve Motor Pover Feeder 3CCP*H0V222 Containment Recirculation Cooling Coil C Supply 7alve Motor Povcr Feeder 3CCP*HOV223 Containment Pec!rculation Cooling coil C Return Valve Motor Pover Feeder 3CCP*MOV224 Containment Recirculaticn Cooling Coil C Supply Valve Motor Pover Feeder 3CCP4MOV225 Containment Recirculation Cooling 0011 C Return Valve Motor Power Feeder 3CCP*MOV226 Containment Recirculation Cooling Coil B Supply Valve Motor Power Feeder 3CCP*MOV227 Containment Recirculation Cooling Coil B Return Valve Motor Pover Feeder 3CCPaMOV228 Containment Recirculation Cooling Coil B Supply Valve Motor Pover Feeder 3CCP*H0V229 Contsinment Rteirculation Cooling coil B Return Valve Motor Power Feeder 3CHS*MV8112 Reactor Cooling '. ump Seal Vater Isolation Valve Motor Pover Feeder 3 CMS *MOV24 Containment Buildi,g Atmosphere Monitoring Isolation Val *,e Motor Power Feeder 3 COP-AMP 200 containment commun.ation Paging Ar..plifier Power Feeder (REF 3 COP-TB240) l

  • For additional information, see Draving EE-IDA-3.

l t

l 1 of 12 July 1988 i

l l

l HNPS-3 FSAR f

DRAFT TABLE 8.3-9 (Cont) l Equipment Identification Circuit Description 3 COP-AMP 201 Containment Communication Paging Amplifier Pover Feeder (REF 300P-TB240) 3CCP-AMP 202 Containment Communication Paging Amplifier Pover Feeder (REF 3 COP-TB240) 3 COP-AMP 203 Con:ainment Communication Paging Amplifier Power Feeder (REF ICOP-TB240) 3 COP-AMP 220 Containment Communication Paging Amplifier Power Feeder n (REF 3 COP-TB240) 3 COP-AMP 221 Containment Communication Paging Amplifier Power Feeder (REF 3 COP-TB240) 3 COP-AMP 240 Containment Communication Paging Amplifier Power Feeder (REF 3 COP-TB240) 3 COP-AMP 241 Containment Communicatinn Paging Amplifier Power Feeder (REF 3 COP-TB240) 3 COP-AMP 260 Containinent Communication Paging Amplifier Pover Feeder (REF 3 COP-TB240) 3 COP-AMP 2bi Containment Communication Paging Amplifier Power Feeder (REF 3 COP-TB240) 3 COP-AMP 262 Containment Communicatior. Paging Amplifier Pover Feeder (RG 3 COP-TB240) 3CVS*H0V25 Containment Building Vacuum System Leakage Monitoring Valve Motor Power Feeder 3CVS*H0V25 Containment Building Vacuum System Leakage Monitoring Valve Motor Heater Feeder 3DAS-LIS20 Containment Building Sump Level Svitch 20 Pcver Feeder (REF 3DAS-JB01) 3DAS-LIS22 Containment Building Sump Level Svitch 22 Power Feeder (REF 3DAS-JB0t) 3DAS-LIE 39 Containment Building Sump Level Switch 39 Power Feeder (REF 3 PAS-JB01) 2 of 12 July 1968

MNPS-3 FSAR

,- s saar.9l jea 2 TABLE 8.3-9 (Cont)

Equipment Identification Circuit Description 3DAS-LIS42 Containment Building Sump Level Svitch 42 Pover Feeder (REF 3DAS-JB01) 3DAS-P1 Containment Incore Instrument Room Sump Pump Motor Power Feeder 3DAS-P2A Containment Building Sump Pump 2A Motor Pover Feeder 3DAS-P2B Containment Building Sump Pump 2B Motor Power Feeder 3DAS-P10 Containment Building Leak Sump ' ump Motor Power Feeder 3DGS-P1A Containment Building Drain Transfer Pump 1A Motor Povet Feeder 3DGS-PIB Containment Building Drain Transfer Pump 1B Motor Pover Feeder 3DGS-P3A Pressurizer Relief Tank Drains Transfer Pump 3A Motor Pover Feeder 3DGS-P3B Pressurizer Relief Tank Drains Transfet Pump 3B Motor Power Feeder 3ECS-TT71 Containment Building Temperature Transmitter Power Feeder 3ERS-NBY23 Containment Building Seismic Sensor Power Feeder 3FNT-CONTP Nuclear Fuel Transfer Panel (Fuel Building) Control Pover Feeder 3FNT-CONTR Nuclear Fuel Transfer Control Panel (Containment Building)

Control and Motor Power Feeder 3FNT-CONTR Nuclear Fuel Transfer Control Panel (Containment Building)

Panel Heater Feeder 3HVU-FLT1A Containment Building Air Filtration Filter 1A Power Feeder 3HVU-FLT1B Containment Building Air Filtration Filter 1B Power Feeder 3HVU-FNlA Containment Building Reci::ulation Fan 1 A Motor Pover Feeder

)

3HVU-FNIA Containment Building Recirculation Fan 1A Motor Heater Feeder 3 of 12 July 1988

MNPS-3 FSAR

{

TABLE 8.3-9 (Cont)

Equipment  !

Identification Circuit Def.cription i 3HVU-FNIB Containment Building Recirculation Fan IB Hotor Power Feeder 3HVU-FN1B Containment dullding Recirculation Fan IB Hotor Heater Feeder 3HVU-FNIC Containment Building Recirculation Fan 1C Motor Pover Feeder 3HVU-FNIC Containment Building Recirculation Fan 1C Hotor Heater Feeder i i

3HVU-FN2A Control Rod Drive Shroud Cooling Fan 2A Hotor Pover Feeder l 3HVU-FN2A Control Rod Drive Shroud Cooling Fan 2A Motor Heater Feeder 3HVU-FN2B Control Rod Drive Shroud Cooling Fan 2B Hotor Power Feeder

(- 3HVU-FN2B Control Rod Drive Shroud cooling Fan 2B Hotor Heater Feeder f l 1 l 3HVU-FN2C Control Rod Drive Shroud > ling Fan 2C Hotor Power Feeder 3HVU-FN2C Control Rod Drive ShtG .:ooling Fan 2C Hotor Heater Feeder j 3HVU-FN3A Containment Building Air Filtration Fan 3A Motor Power Feeder l

l 3HVU-FN3B Containment Building Air Filtration Fan 3B Hotor Power  :

Feeder ,

3HVU-FS34A Containment Air Recirculation Cooler Outlet Flov Svitch 34A i Power Feeder 3HVU-FS34B Containment Air Recirculation Cooler Outlet Flov Svitch 34B Pover Feeder l l 3HVU-FS34C Containment Air Recirculation Cooler Outlet Flov Svitch 24C l Pover Feeder l l

3HVU-FS36A Control Rod Drive Shroud Recirculation Flov Svitch 35A Power Feeder (REF 3JB-0004) r 3HVU-7S36B Control Rod Drive Shroud Recirculation Flov Svitch 36B Power  :

Feeder (REF 3)B-0004) ,

3HVU-FS36C Control Rod Drive Shroud Recirculation Flov Svitch 36C Power  ;

Feeder (REF 3JB-0004) j 4 of 12 July 1988 i

i

MNPS-3 FSAR TABLE 8.3-9 (Cont) 1 Equipment Identification Circuit Description 3HVU-FS36D Control Rod Drive Shroud Recirculation Flov Switch 36D Power Feeder (Ref 3JB-0004) 3HVU-PD1S20A Containment Building Filter [3HVU-FLT1A] Fressure Differential Svitch 20A Power Feeder 3HVU-PDIS20B Containment Building Filter [3HVU-FLT1B] Pressure Differential Svitch 20B Power Feeder 3HVU-PDIS21A Containment Building Filter [3HVU-FLT1A] Pressure Differential Switch 21A Power Feeder 3HVU-PDIS21B Containmerit Building Filter [3H7U-FLT1B] Pressure Differential Svitch 21B Power Feeder 3HVU-PDIS22A Containment Building Filter [3HVU-FLT1A] Pressure Differential Switch 22A Power Feeder 3HVU-PDIS22B Containment Building Filter [3HVU-FLT1B] Pressure Differential Svitch 22B Power Feeder

. 3HVU-PDIS23A Containment Building Filter [3HVU-FLT1A] Pressure Differential Svitch 23A Power Feeder 3HVU-PDIS23B Containment Building Filter [3HVU-FLT1B] Pressure Differential Svitch 23B Power Feeder 3HVU-PNL-01A Containment Building Charcoal Filter Temperature Detector Panel Pover Feeder 3HVU-PNL-Olb Containment Building Charcoal Filter Temperature Detector Panel Power Feeder 3IAC-CIA Containment Building Instrument Air Compressor Motor Pover Feeder 3IAC-CIB Containment Building Instrument Air Compressor Motor Pover Feeder

3IAC-DRY 1 Containment Building Instrument Air Dryer Control Panel Power Feeder 3IAS*H0V72 Containment Instrument Air Isolation Valve Motor Pover Feeder 3JRB-EL Containment Building Elevator Motor Pover Feeder 5 of 12 July 1988

MNPS-3 FSAR DRAFT TABLE 8.3-9 (Cont)

Equipment Identification Circuit Description 3LAR-PNL3RC10 Containment Building Lighting Distribution Panel Power Feeder 3LAR-PNL3RC2P Containment Building Lighting Distribution Panel Power

'~

F4eder 3LAR-XLR1 Containment Bujading Lighting for Panel Transformer Power Feeder 3LAR-XLR2 Containment Building Lighting for Panel Transformer Power Feeder 3LAR-XLR3 Containment Building Lighting for Panel Transformer Pover 4 Feeder 3LAR-XLR4 Containment Building Lighting for Panel Transformer Power Feeder 3MHR-CRN1 Reactor Containment Building Polar Crane Pover Feeder 3MHR-CRN2 Sigma Refueling Machine--Reactor Building Crane Pover Feeder i

3MHR-CRN2 Sigma Refueling Machine--Reactor Building Crane Motor Heater j Feeder 3HHR-CRN3A Containment Building Equipment Jib Crane 3A Pover Feeder i

a 3HHR-CRN3B Containment Building Equipment Jib Crane 3B Povet Feeder I

3MHR-CRN3C Containment Building Equipment Jib Crane 3C Power Feeder I

3MHR-CRN3D Containment Building Equipment Jib Crane 3D Power Feeder 3MHR-CRN4 Containment Building Crane Power Feeder l

3MHR-CRN5 Containment Building Crane Power Feeder l

3NMT-TB1 Neutron Monitoring Incore Flux Mapping Controller Power Feeder [3NMT-CONTIA7]

3NMT-TB2 Neutron Monitoring Incore Flux Mapping Controller Power Feeder [3NMT-CONT 3A7) j 3 POP-JB1R1 Containment Building Velding Receptacle CRT 1 [3 POP-RCPT 1R]

Power Feeder 4

1 i- 6 of 12 July 1988

-ee..._,n__ -

HNPS-3 FSAR TABLE 8.3-9 (Cont)

Equipment Identification Circuit Description 3 POP-JB2R1 Containment Building Velding Receptacle CKT 2 [3 POP-RCPT 2R]

Power Feeder 3 POP-JB3R1 Containment Building Velding Receptacle CET 3 [3 POP-RCPT 3R]

Povet Feeder 3RCS-HTR-23 Pressurizer Heater Group A (REF 3JB*0023) Power Feeder 49, 50 [3RCS*H1A] US BUS 32-5 3RCS-HTR-28, Pressurizer Heater Group A (REF 3JB*0023) Power Feeder 55, 56 [3RCS*H1A] US BUS 32-S 3RCS-HTR-33, Pressurizer Heater Group A (REF 3JB*0023) Pover Feeder 61, 62 [3RCS*HIA] US BUS 32-S JRCS-HTR-38, Pressurizer Heater Group A (REF 3JB*0023) Power Feeder 67, 68 [3RCS*HIA] US BUS 32-S 3RCS-HTR-43, Pressurizer Heater Group A (REF 3JB*0023) Power Feeder 73, 74 [3RCS*H1A] US BUS 32-S 3RCS-HTR-24, Pressurizer Heater Group B (REF 3JB*0024) Power Feeder

$1, 52 [3RCS*H1B] US BUS 32-V 3RCS-HTR-29, Pressurizer Heater Group B (REF 3JB*0024) Pover Feeder 57, 58 [3RCS*H1B] US BUS 32-V 3RCS-HTR-34, Pressurizer Heater Group B (REF 3JB*0024) Power Feeder 63, 64 [3RCS*H1B] US BUS 32-V 3RCS-HTR-39, Pressurizer Heater Group B (REF 3JB*0024) Power Feeder 69, 70 [3RCS*H1B] US BUS 32-V 3RCS-IITR-44, Pressurizer Heater Group B (REF 3JB+0024) Power Feeder 75, 76 l3RCS*H1B] US BUS 32-V 3RCS-HTR-21, Pressurizer Heater Group C (REF 3JB*0025) Pover Feeder t 47, 48 [3RCS* HIC) US BUS 32-C 3RCS-HTR-26, Pressurizer Heater Group C (REF 3JB*0025) Power Feeder 53, 54 [3RCS*lllC) US BUS 32-C 3RCS-HTR-31, Pressurizer !! eater Group C (REF 3)B*0025) Pover Feeder 59, 60 l3RCS* HIC] US BUS 32-C 7 of 12 July 1988

MNPS-3 FSAR DRAFT TABLE 8.3-9 (Cont)

Equipment Identification Circuit Description ,

3RCS-HTR 36, Pressurizer Heater Group C (REF 3JB*0026) Pover Feeder 65, 66 [3RCS*H1C] US BUS 32-C 3RCS-HTR-41, Pressurizer Heater Group C (REF 3JB*0026) Power Feeder 71, 72 [3RCS* HIC] US BUS 32-C 3RCS-HTR-46, Pressurizer Heater Group C (REF 3JB*0026) Power Feeder 77, 78 [3RCS* HIC) US BUS 32-C

! 3RCS-HTR-13, Pressurizer Heater Group D (REF 3JB*0025) Power Feeder 14, 37 [3RCS*H1D).US BUS 32-B 1

3 3RCS-HTR-17 Pressurizer Heater Group D (REF 3JB*0025) Pover Feeder j 18, 42 [3RCS*H1DJ US BUS 32-B 3RCS-HTR-9, Pressurizer Heater Group D (REF 3JB*0026) Power Feeder j 10, 32 [3RCS*H1DJ US BUS 32-B I 3RCS-HTR-1, Pressurizer Heater Group D (REF 3JB*0026) Power Feeder 2, 22 [3RCS*H1D] US BUS 32-B 3RCS-HTR-5, Pressurizer Heater Group D (REF 3JB*0026) Pover Feeder 6, 27 [3RCS*illD] US BUS 32-B 3RCS-HTR-7, Pressurizer Heater Group E (REF 3JB*0026) Pover Feeder j 8, 30 [3RCS*H1E] US BUS 32-N i

{

3RCS-HTR-11, Pressurizer Heater Group E (REF 3JB*0025) Power Feeder 12, 35 [3RCS* HIE) US BUS 32-N 3RCS-HTR-15, Pressurizer Heater Group E (REF 3JB*0025) Power Feeder l 16, 40 [3RCS* HIE] US BUS 32-N 3RCS-HTR-19, Pressurizer Heater Group E (REF 3JB*0025) Power Feeder

20, 45 [3RCS* HIE) US BUS 32-N 3RCS-HTR-3, Pressurizer Heater Group E (REP 3JB*0026) Power Feeder 4, 25 [3RCS* HIE] US BUS 32-N 3RCS*MV8000A Pressurizer Relief Isolation Valve A Hotor Power Feeder 3RCS*MV8000B PresSJrizer Relief Isolation Valve B Hotor Pover Feeder 3RCS*MV8001A Reactor Coolant Hot Leg Stop Valve A Hotor Pover Feeder 3RCS*MV8001A Reactor Coolant Hot Leg Stop Valve A Motor Heater Feeder 8 of 12 July 1988

s .

HNPS-3 FSAR TABLE 8.3-9 (Cont)

Equipment Identification Circuit Description 3RCS*MV8001B Reactor Coolant Hot Leg Stop Valve B Motor Power Feeder 3RCS*MV8001B Reactor Coolant Hot Leg Stop Valve B Hotor Heater Feeder 3RCS*HV8001C Reactor Coolant Hot Leg Stop Valve C Motor Power Feeder 3RCS*HV8001C Reactor Coolant Hot Leg Stop Valve C Motor Heater Feeder 3RCS*MV8001D Reactor Coolant Hot Leg Stop Valve D Motor Power Feeder 3RCS*HV8001D Reactor Coolant Hot Leg Stop Valve D Motor Heater Feeder 3RCS*HV8002A Reactor Coolant Cold Leg Stop Valve A Motor Pcver Feeder 3RCS*MV8002A Reactor Coolant Cold Leg Stop Valv' A Motor Heater Feeder 3RCS*MV8002B Reactor Coolant Cold Leg Stop Valve B Motor Power Feeder 3RCS*MV8002B Reactor Coolant Cold Leg Stop Valve B Motor Heater Feeder 3RCS*HV8002C Reactor Loolant Cold Leg Stop Valve C Motor Power Feeder 3RCS*MV8002C Reactor Coolant Cold Leg Stop Valve C Motor Heater Feeder 3RCS*MV8002D Reactor Coolant Cold Leg Stop Valve D Motor Power Feeder 3RCS*MV8002D Reactor Coolant Cold Leg Stop Valve D Motor Heater Feeder 2RCS*MV8003A Reactor Coolant Loop Bypass Valve A Motor Power Feeder 3RCS*HV8003A Reactor Coolant Loop Bypass Valve A Motor Heater Feeder 3RCS*MV8003B Reactor Coolant Loop Bypass Valve B Motor Pover Feeder 3RCS*MV8003B Reactor Coolant Loop Bypass Valve B Motor Heater Feeder 3RCS*MV8003C Reactor Coolant Loop Bypass Valve C Motor Pover Feeder 3RCS*MV8003C Reactor Coolant Loop Bypass Valve C Motor Heater Feeder 3RCS*MV8003D Reactor Coolant Loop Bypass Valve D Motor Power Feeder 3RCS*MV80030 Reactor Loolant loop Bypass Valve D Motor Heater Feeder 3RCS*MV8098 Reactor Vessel Excess Letdown Valve Motor Pover Feeder 9 of 12 July 1988

c. .

MNPS-3 FSAR TABLE C.3-9 (Cont) DRAFT ,

Equipment Identification Circuit Description 3RCS-PIA Reactor Coolant Pump A Motor Power Feeder 3RCS-P1B Reactor Coolant Pump B Hotor Power Feeder  !

3RCS-PIC Reactor Coolant Pump C Motor Power Feeder j 3RCS-P1D Reactor Coolant Pump D Motor Pover Feeder  !

3RCS-P1A1 Reactor Coolant Pump [3RCS*P1A] Bearing Oil Lift Pump Motor [

Power Feeder 3RCS-PIB1 Reactor Coolant Pump [3RCS*PIB) Bearing 011 Lift Pump Motor ,

Pover Feeder 3RCS-PICl Reactor Coolant Pump [3RCS*PIC] Bearing 011 Lift Pump Motor 1 Power Feeder 3RCS-P1D1 Reactor Coolant Pump [3RCS*PID] Bearing 011 Lift Pump Motor Pover Feeder 3RCS-TBP1A-2 Reactor Coolar,t Pump [3RCS* PIA) Motor Heater Feeder 3RCS-TBP1B-2 Reactor Coolant Pump [3RCS*PIBl Motor Heater Feeder 3RCS-TBP1C-2 Reactor Coolant Pump [3RCS*PIC) Motor Heater Feeder 3RCS-TBP1D-2 Reactor Coolant Pump [3RCS*P1D] Hotor Heater Feeder 3RDI-CABA Reactor Rod Drive Position Indication Transformer Power (3RDI-XFMR-1) Feeder [REF 3RDI-JB01]

3RDI-CABB Reactor Rod Drive Position Indication Transformer Pover (3RDI-XFMR-2) Feeder lREF 3RDI-JB01]

3RHS*MV8701A Residual Heat Removal System Inlet Isolation Valve Motor Pover Feeder 3RHS*MV8701C Residual ileat Removal System Inlet Isolation Valve Motor Power Feeder 3RHS*MV8702B Residual Heat Removal System Inlet Isolation Valve Motor Power Feeder 3RbS*MV8702C Residual Heat Removal System Inlet Isolation Valve Motor Pover Feeder 10 of 12 July 1988

o HNPS-3 FSAR I

TABLE 8.3-9 (Cont)

Equipmant Identification Circuit Descrip,lon 3RMS-RH01 Radiation Monitoring Containment Building Rate Meter Pover Feeder--Col 6.8, 56 ft 3RMS-RM02 Radiation Monitoring Containment Building Rate Meter Power Feeder--Col 6.0, 8 ft 3RMS-RM03 Radiation Monitoring Containment Building Rate Meter Power Feeder--Col 7.0, 41 ft 3RMS-RM31 Radiation Monitoring Containment Building Rate Meter Pover Feeder--Col 6.0, 29 ft 3RMS-RM32 Radiation Monitoring Containment Building Rate Meter Power Feeder--Col 1.2, 20 ft 3RMS-RH35 Radiation Monitoring Containment building Rate Meter Power Feeder--Col 7.0, 7 ft 3RMS*RM41 Radiation Monitoring Containment Building Rate Meter Pover Ferder--Col 12.0, 71 ft 3RMS*RM42 Radiation Monitoring Containment Building Rate Meter Power Feeder--Col 18.0, 71 ft 3RSS-LIT 49 Containment Building Sump Level Transmitter 49 Pover Feeder (REF 3DAS-JB01) 3SES-TL17A Nuclear Servicing Stud Tension Holst A Motor Power Feeder 3SES-TL17B Nuclear Servicing Stud Tension Moist B Motor Pover Feeder 3SES-TL17C Nuclear Servicing Stud Tension Holst C Motor Pover Feeder 3SIL*MV8308A Safety Injection Accumulator Isolation Valve A Motor Power Feeder 3SIL*MV8808A Safety Injection Accumulator Isolation Valve A Position Indication Power Feedei 3SIL*MV8808B Safety Injection Accumulator Isolation Valve B Motor Power Feeder 3SIL*MV8808B Safety Injection Accumulator Isolation Valve B Position Indication Power Feeder 11 of 12 July 1988

$ e MNPS-3 FSAR DRAFT TABLE 8.3-9 (Cont)

Equipment Identification Circuit Description 3SIL*MV8808C Safety Injection Accumulator Isolation Valve C Motor Power Feeder 3SIL*MV8808C Safety Injection Accumt:lator Isolation Valve C Position Indication Power Feeder 3SIL*MV8808D Safety Injection Accumulator Isolation Valve D Motor Power Feeder 3SIL*MV8808D Safety Injection Accumulator Isolation Valve D Position Indication Power Feeder 12 of 12 July 1988

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