Preliminary Version of Reactor Bldg Separation Analysis Rept.

ML19340E138
Person / Time
Site:	Shoreham File:Long Island Lighting Company icon.png
Issue date:	12/22/1980
From:	STONE & WEBSTER ENGINEERING CORP.
To:
Shared Package
ML19340E135	List: ML19340E134 ML19340E138
References
11600.02-158A, NUDOCS 8101060489
Download: ML19340E138 (75)
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116000 02-158 a 12/22/80 058 O (PRELIMINARY) 1,3 1

i REACTOR BUILDING 1.10 SEPARATION ANALYSIS REPORT 1,11 6

SHOREHAM NUCLEAR POWER STATION - UNIT 1 1.13 LONG ISLAND ulGHTING COMPANY 1 gg i

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Prepared by STONE S WEBSTER ENGINEER 1NG CORPORATION B101060h o

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TABLE OF CONTENTS 1.10 Section Title Page 1.13 1 PURPOSE. . . . . . , . . . . . . . . . . . . . . . . . . . . 1 1.15 2 GENERAL METHOD OF ANALYSIS . . . . . . . . . . . . . . . . 1 1.17 3 ASSUMPTIONS. . . . . . . . . . . . . . . . . . . . . . . . 1 1.19 4 SPECIFIC METHODS OF ANALYSIS . . . . . . . . . . . . . . . 2 1.21 4.1 AFFECTED AREAS . . . . . . . . . . . . . . . . . . . . . 2 1.23 4.1.' Primary Containment. . . . . . . . . . . . . . . . . . 2 1.25 4.1.2 Secondary Containment. . . . . . . . . . . . . . . . . 2 1.26 4.2 SHUTDOWN lciODEL . . . . . . . . . . . . . . . . . . . . . 2 1.28 4.3 SHUTDOWN EQUIPMENT . . . . . . . . . . . . . . . . . . . 3 1.30 4.4 DEVELOPMENT OF SHUTDOWN EQUIPMENT BY AREA. . . . . . . . 7 1.32 5 RESULTS AND RECOMMENDATIONS. . . . . . . . . . . . . . . . 8 1.34 6 CONCLUSIONS. . . . . . . . . . . . . . . . . . . . . . . . 9 1.36 7 UPDATE OF REPORT . . . . . . . . . . . . . . . . . . . . . 9 1.38 APPENDIX A - Separation Analysis Results - Primary 1.40 Containment 1.41 APPENDIX B - Separation Analysis Results - Secondary 1.42 Containment 1.43 a

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,s O 11600. 02 -158 c 12/04/80 162 LIST OF TABLES 1.10 Table Title 1.13 E.1.1-1 Primary Containment Areas 1.16 1 1.2-1 Secondary Containment Areas 1,17 4

1 4-1 Systems with Class IE Cables 1.18 1 4-2 Shutdown Equipment List 1.19 LIST OF FIGURES 1.22 Fieure Title 1.25 1 1.1-1 Arrangement of Primary Containment Areas 1.28 3 1.2-1 Arrangement of Secondary Containment Areas 1.29 E.2-1A Shutdown Model (SH1) 1.30 1 2-1B Shutdown Model (SH2) 1.31 1 2-1C Shutdown Model (SH3) 1.32 14-i. Development of Shutdown Equipment vs. Area Lists 1.33 t

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11600.02-158d 12/24/oO 051 1 PURPOSE 1.13 This analysis is made to demonstrate that sufficient separation 1.14 exists between redundant syste.ns and components necessary for 1.15 shutdown such that a postulated event causing the disability of all cables and raceways in an entire designated area will not 1.16 grevent a plant safe shutdown. 1.17 2 GENERAL METHOD OF ANALYSIS 1.19 The primary and secondary containments are divided into "Arfected 1.20 Ar eas . " All cables and raceways in each "Affected Area" are 1.22 assumed to be disabled such as to render them unavailable for use in shutdown. 3 determination is then made whether shutdown can 1.25 be achieved using the remaining shutdown equipment of other unaffected areas. The areas are chosen conservatively large and 1.27 the disabling event is fire. Loss of offsite power is assumed 1.28 concurrent with the postulated event.

3 ASSUMPTIONS 1.30 The following are the assumptions and design bases for the 1.31 separation analysis:

1. It is assumed that: 1.33

a. The reactor is operating at 100 percent power when 1.36 the postulated event occurs.

b. Only onsite power is available in achieving safe 1.37 shutdown.

c. The reactor is isolated from the main condenser. 1.38

d. There is an automatic scram (cn: manual at the 1.39 direction of the shif t supervisor) to bring the l plant to hot ghutdown. 1.u0 1

2. As presented in the NRC review reminder (1), it is 1.42 assumed that there is a 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> period in which to achieve cold shutdown. During this three day period, 1.44 credit may be taken for manual system operation as well as for reasonable repairs, etc.

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(1) Nuclear Regulatory Commission. " Review Reminder" from V. Benaroya to Auxilary System Branch Staff Members, August 8, 1978.

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11600.02-158d 12/24/80 051 1 SPECIFIC METHODS OF ANALYSIS 1.50 4.1 AFFECTED AREAS 1.51 In order to separate the primary and seccndary containments into 1.52 conservative af f ected areas, overlapping segments are defined as 1.54 described below.

4.1.1 Primary Containment 1.56 For the primary containment drywell areas, 60 degree segments are 1.57 chosen. There is no vertical division within th e s tructure. 2.1 Caole and raceways in each segment are disabled and a 2.2 determination made whether shutdcwn can be accomplished with the remaining equipment. Upon completion of the analysis of each 2.5 area, the procedure is repeated with new e0 degree segments wnich are rotated or indexed 30 degrees from the previously analyzed 2.6 segments. This overlap operation assures that no sensitive 2.7 interface boundaries exist.

Figure 4.1.1-1 illustrates the arrangement of the primary 2.8 containment areas, and Table 4.1.1-1 describes the area 2.10 boundaries.

4.1.2 Secondary Containment 2.12 The method used for the secondary containment is the same as for 2.15 the primary containment except that 45 degree segments are used and are indexed by 22.5 degree increments. Because there are 2.16 distinct floor J evels within the secondary containment, vertical bounoaries are established for the secondary containment areas at 2.17 each floor elevati on. .

Figure 4.1.2-1 illustrates the arrangement or the secondary 2.18 containment areas, and Table 4.1.2-1 describes the area 2.19 boundaries.

4.2 SHUTDOWN MODEL 2.21 In order to make a determination that shutdown is achievable with 2.22 the cable and raceway in a given area disabled, it is necessary 2.24 to develop a functional model for shutdown. This model is 2.25 illustrated in Figures 4.2-1A, 4.2-1B, and 4.2-1C.

Paths to successful shutdown are shown in this model. All 2.27 systems, safety and nonsafety, which can contribute to plant shutdown are identified. All auxiliary systems, such as 2.28 ventilation, cooling water, control and instrumentation, as well as electrical power sources are included. In the analysis, 2.30 however, credit is taken only for safety-related systems and equipment.

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11600.02-158d 12/24/80 051 4.3 SHUTDOWN EQUIPMENT 2.32 Based on the shutdown model and use of safety-related systems 2.33 only, the selection of shutdown components is made as follows: 2.34

1. System B21 - Nuclear Boiler 2.36 The eleven ADS and saf ety-relief valves are required to 2.38 operate only manually. Automatic initiation is not 2.40 necessary and will not normally occur since no LOCA and therefore no high drywell pressure is assumed which is 2.42 required for automatic initiation. The three head vent 2.43 valves MOV083, 084, and 085 are req uired to prevent blowdown of the reactor vessel into the primary 2.44 containment due to opening of two series valves.

The SRV 's may be utilized f or a combination hot / cold 2.45 shutdown operation. Eith the vessel at high pressure, 2.46 the valves can provide suf ficient pressure relieving capacity to enable the low head systems (LPCI and Core 2.47 Spray) to provide core inventory. Eith the vessel at 2.48 low pressure, the valves can provide extended core and/or suppression pool cooling by holding the valves 2.49 open, enabling the low head systems to provide a suppression pool / reactor vessel circulation path.

Cooling would be provided directly or indirectly via 2.50 the RHR exchanger. The above modes are designated as 2.51 the RHR/CS/SRV flow path in the separation analysis.

2. System B31 - Reactor Recirculation System 2.53 The two pressure switches, PS023A and B, for automatic 2.55 RHR system operation are needed.

3. System C41 - Standbv Licuid Control 2.58 l

l The safety-related portions of this system are required 3.3 j in the event control rod insertion is not completed.

! It is not desirable to have this system operate unless 3.5 it is actually required.

4 Svstem C61 - Reactor Plant Remote Shutdown 3.8 l

l The eight safety-related indicating transmitter 3.10 circuits for RHR main flow (FT0 01) , reactor vessel 3.11 pressure (PT00 6) , service water header pressure (PT011) , suppression pool temperature (TT022A and B) , 3.13 and level (LT026), and drywell pressure (PT012) and temperature (TT021) are required. 3.14 3

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11600.02-158d 12/24/S0 051

5. System E11 - Residual Heat Removal 3.17 All saf ety-related components, except the following ten 3.19 valves, are required: The two flow to suppression pool 3.20 valves MOV042A and B are not required since the 3.22 normally closed upstream valves are protected. The two 3.23 head spray isolation valves MOV053 and 054 are not required for shutdown since cable f ailure resulting in 3.24 both valves opening presents no problem since there is a check valve in series with these MOV's to prevent 3.25 reactor blowdown. The four heat exchanger vent valves 3.26 MOV055A and B and 056A and B are not required for 3.27 shutdown even during the steam ccndensing mode since cable failure resulting in opening of these valves will 3.28 drain a one inch line from the heat exchanger opening to the suppression pool, an acceptable event. The two 3.30 hydrogen recombiner subsystem valves MOV057A and B are not required for a non-LOCA condition and failure of 3.31 valve cabling will cause valves to open, an event which will not result in significant degrading of the RBR 3.32 cooling system.

6. System E21 - Core Soray 3.35 All saf ety-related components are required, except the 3.37 two testable check valve bypass valves MOV081A and B, 3.38 which are not required during shutdown. If these 3.40 valves were to change state, there would be no adverse ef fect on system operation. Automatic initiation which 3.41 is based on reactor water level is also required.

Initiation signals based on reactor primary containment 3.42 pressure are not required since there should be no high 3.43 pressure condition without LOCA. Also, tailure of the 3.44 high drywell pressure initiation signal will neither prevent injection nor ,cause the injection valves to 3.45 open prematurely because a reactor pressure permissive 3.46 in the control circuit of the injection valves will prevent valve opening on high reactor pressures. This 3.48 permissive is considered a required component.

7. System E41 - Hioh Pressure Coolant Iniection 3.51 All safety-related components are required, except the 3.53 five items identified below. One is the loop level 3.54 pump P-050 which if lost will not adversely affect the 3.56 system since the time prior to initiation and between operating cycles short _enough to prevent significant 3.57 draindown of the pump discharge piping. Another item 3.58 is the inboard isolation valve bypass valve MOV047 which is not required for shutdown and will not affect 4.1 system operation in either the open or closed position.

Also, the turbine exhaust vacuum breaker MOV049 is not 4.2 required and is used only after a LOCA. Lastly, the 4.3 condenser exhaust vacuum breaker PCV144 and steamline 4

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11600.02-158d 12/24/80 051 trap bypass valve LCV091 are not required for shutdown 4.4 and will, in fact, fail in the closed position on loss 4.5 of air due to loss of offsite power. Assuming 4.6 availability of air, failure of the control circuit resulting in valve opening is not detrimental to system 4.7 operation. Automatic initiation based on reactor water 4.8 level is required. Initiation due to high drywell 4.9 pressure is not required since there should be no such 4.10 condition without LOCA. Also, failure of drywell 4.11 pressure initiation signal will not prevent injection, and if premature injection occurs, it will not 4.12 adversely affect reactor operation. Instrumentation to 4.13 identify HPCI steamline break which can cause steamline isolation is required.

8. System E51 - Reactor Core Isolation Cooling 4.16 All safety-related components are requ ired , except 4.18 those five corresponding to the E41 System (P-0 51, 4.19 MOV047, MOV049, PCV144 and LCV091) and for the same reasons. Automatic initiation is also required. 4.20

9. System G33 - Reactor Water Cleanup 4.24 The containment isolation valves MOV033 and 034 are 4.26 required to be closed to isolate the reactor from the 4.27 remainder of the RWCU System. This isolation is 4.29 necessary if standby liquid control system initiation is required.

10. System G41 - Fuel Pool Cooling and Cleanuo 4.32 The two service water inlet valves, MOV032A and B, used 4.34 for ultimate cooling water connection and the 4.35 corresponding valves in the service water system, are 4.37 required to be closed to prevent pumping service water to the spent fuel storage pool, an event which in time 4.38 could cause flooding in the reactor building.

11. System M43 - Fire Protection 4.41 Only the safety-related portion of this system is 4.43 required to prevent inadvertent shutdown of the 4.44 ventilation system or nonclosure of CO: dampers so that 4.46 the CO 2 is confined to a fire area.

12. System M50 - RBSVS and Control Room A-C Chilled Water 4.49 All safety-related components are required. 4.51 5

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11600.02-158d 12/24/80 051

13. System P41 - Service Water 4.55 All safety-related components are required except the 4.57 two radiation monitoring system isolation valves 4.58 MOV102A and B which are not needed during a non-LOCA condition. In addition, a failure causing the valves 5.2 to open will not result in unacceptable conditions.

Automatic initiation is also required. 5.3

14. System P42 - Reactor Buildino Closed Loop Coolina Water 5.6 System l

I The three P-005A, B, and C RBLCLW circulating pumps and 5.8 the two heat exchange; inlet isolation valves MOV042A 5.9 l and B are required to supply cooling to RHR pump seals. 5.11 Valves separating Category I f rom Category II piping 5.12 and Division I from Division II giping are not 5.13 required. Operation of selected components will be 5.14 manual and no automtic initiation is required.

15. System P50 - Comoressed Air 5.17 The MOV's and pressure switches used to supply and/or 5.19 1solate the air to the SRV accumulators are required.

All other components are Category II. 5.21

16. Systems R22, 23, 24, 35, 42, 43 - Electrical Distri- 5.24 bution All Class 1E electrical distribution and 5.26 interconnecting cable is required.

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17. System T46 - Standby Ventilation System 5.30 Only the fourteen unit coolers in the reactor building 5.32 are required to maintain the ambient temperature around 5.33 the components needed for shutdown. Manual operation 5.35 only is required; automatic initiation is not needed.

l Ventilation equipment required for maintaining negative 5.36 pressure in the reactor building secondary containment 5.37 is not needed. The filtering equipment is not required 5.38 i

since there is no LOCA/ release of radiation.

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18. System x41 - Miscellaneous Room svAC 5.41 l

l All safety-related ventilation components are required 5.43 i in these miscellaneous areas.

19. System X60 - Diesel / Generator Ventilation 5.47 l

All safety-related ventilation components in the D/G 5.49 rooms are required.

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11600.02-158d 12/24/80 051

20. System X61 - Control Room A-C 5.53 All safety-related components are required, except the 5.55 two air-operated valves AOV37A and B which isolate the 5.56 redundant portions of ducts that will remain intact, 5.58 assuming no seismic condition. These dampers will fail 6.1 closed on loss of offsite power.

4.4 DEVELOPMENT OF SHUTDOWN EQUIPMENT BY AREA 6.4 The development of shutdown equipment by affected area is 6.5 illustrated in the schematic diagram Figure 4.4-1.

The first step consists of developing a shutdown equipment list. 6.7 This is accomplished by using the shutdown model developed, as 6.8 described in Section 4.2, and identifying all systems with 6.9 safety-related cable (Table 4.4-1) . These are then compared to 6.10 the model requirements as indicated in Section 4.3 to sort out the safety-related equipment for shutdown. The shutdown 6.13 equipment list is contained in Table 4.4-2.

The second step is to incorporate the elementary diagram (ESK) 6.14 information on the shutdown equipment list. Since a complete 6.15 equipment versus ESK list already exists within the computerized Electrical Cable Schedule Information System (ECSIS), the 6.16 shutdown equipment list is input to the computer, compared against the equipment versus ESK list, and sorted to get the 6.18 shutdown equipment versus ESK list.

The third step is to identify the cables associated with each 6.19 piece of shutdown equipment. This is accomplished by comparing 6.20 3 the shutdown equipment versus ESK list generated in the previous step with the cable versus ESK list in the ECSIS. 6.21 Having identified, at this point, all shutdown equipment and its 6.22 associated cable, it remains to identify the cable in each area 6.23 and compare to the shutdown equipment in order to identify the disabled equipment.

The fourth step is to compile lists of cable trays and conduit by 6.24 area, input to the computer, and compare against the cable versus 6.25 raceway list in the ECSIS thus creating the cable versus area lists.

The fifth step is to compare the shutdown equipment versus cable 6.26 list from step three against the cable versus area lists from 6.27 step four to identify the shutdown equipment lost for each area.

The final step is to compare the unaf fected shutdown equipment 6.28 versus area lists against the shutdown model to determine the 6.29 impact on safe shutdown capability. 6.31 7

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a 11600.02-156d 12/24/80 051 5_ RESULTS AND RECOMMENDATIONS 6.33 7.13 hppendices A and B present the results of the separation analysis 6.34 , 7.14 for the primary and secondary containment respectively. y 7.16 e 7.17 Tne results are presented for each area investigated in the 6.36 e j following format: 7.19

1. Systems Impacted (Division I and Division II) - A 6.38 , 7.20 listing of any system which computer analysis indicated d 7.21 had associated shutdown cable or cables in the area of 6.39 intele st .

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2. System Functions Disabled -

All safety systems and 6.40

components previously identified as essential and e 7.25 listed in Tables 4.4-1 anc 4.4-2 are evaluated f or 6.42 e 7.26 their importance in achieving a safe shutdown. Those 6.43 7.27 components whose failure would not necessarily cause a system function loss are reviewed and, where no impact upon safe shutdown exists, are so noted under Disabled 6.45 Function Evaluation below. As an example, in Section 6.46 008-07, Paragraphs 1 (B) and 1 (C)identif y unit cooler 6.47 1T46*UC002A as a disabled 1T46, Division I, component.

However, the loss of that cooler does not affect the 6.48 remaining Division I, cooler (1T46*UC003A) and Division I 1T46 BBSVS components which have the capability or- 6.50 providing cooling for the Division I equipment utilized for safe shutdown and identified in Paragraph 4, 6.51 Shutdown Capability.

Where an event damages extensive equipment in one train 6.53 (Division I or II) , a statement such as "No credit taken for Division I system functions" is made, and the 6.54 remaining statements generally refer to disabled functions in other Divisions. In such a case, the 6.56 l analysis has determined that no Division I system j functions are required to achieve safe shutdown.

3. Disabled Function Evaluation -

Identifies, at the 6.58 system level, the importance to safe shutdown of any function that may be lost as a result or the event. 7.1 4 Shutdown Capability -

Identifies whether redundant 7.2 means of providing necessary safe shutdown functions are available (given the Disabled Functions in 3) and 7.3 generally describer an available procedure for safe j shutdown.

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5. Further Action Recommended - Provides recommendations 7.4 l for required modifications which will further improve

existing glant shutdown capability. These 7.7

recommendations are not necessarily requisites to achieving shutdown but rather enhancements which would augment existing capabilities. 7.9 8

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11600.02-158f 12/22/80 058 I il i

! TABLE 4.1.1-1 1,8 1 PRIMARY CONTAINME.NT AREA BOUNDARIES 1.10 I Primary Segment Boundary Overlap 1.13

) Area From To Area From To 1.14 N1 00 600 01 300 900 1.16 1

N2 600 1200 02 900 1500 1.17, N3 1200 1800 03 1500 2100 1.18 '

N4 1800 2400 04 2100 2700 1.19 NS 2400 3000 05 2700 3300 1.20 N6 3000 00 06 3300 300 1.21 l

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> TABLE u.1.2-1 1.s SECONDARY CONTAINMENT AREA BOUNDARIES 1.10 Primarv Secment Boundary Overlao 1.13 Area From To Area From To 1.10 N1 00 450 01 22.50 67.50 1.16 t N2 450 900 02 67.50 112.50 1.17 N3 900 1350 03 112.50 157.50 1.1:

N4 1350 1800 04 157.50 202.50 1.19 NS 1800 2250 05 202.50 247.50 1.20 N6 2250 2700 06 247.50 292.50 1.21 N7 2700 3150 07 292.50 337.50 1.22 N8 3150 00 08 337.50 22.50 1.23 Elevation From To 1.25 008 008 040 1.27 040 040 063 1.28 063 063 078 1.29-078 078 112 1.30 112 112 150 1.31 150 150 -

1.32 Segments are Numbered Elevation - Area 1.34 Example: 1.35 063-N6; Elevation 063 to 078, Area 2250 to 2700 1.36 See Figures 4.1.1-1 and 4.1.E-1 1.37 1 of 1

, ,c 11600.02-158e 12/22/80 058 TABLE 4.4-1 1.8 ALL SYSTEMS WITH CLASS IE CABLES 1.10 SHORfHAM NUCLEAR POWER STATION 1.11 LOUG ISLAND LIGHTING COMPANY 1.12 System 1.15 No . _ Tescription 1.16 B 1.18

.B21 Nuclear Boiler 1.19

.B31 Reactor Recirculation 1.20 C 1.22 C11 Control Rod Drive Hydraulic 1.23 Control 1.24

.C41 Standby Liquid Control 1.25 C51 Neutron Monitoring 1.26

.C61 Reactor Plant Remote Shutdown 1.27 C71 Reactor Protection 1.28 D 1.30 D11 Process Radiation Monitoring 1.31 D21 Area Radiation Monitoring 1.32 E 1.44

.E11 Residual Heat Removal 1.45

.E21 Core Spray 1.46

.E41 High Pressure Coolant In jection 1.47 E32 MSIV Leakage Coni: ol System ~.48

.E51 Reactor Core Isob tion Cooling 'i.49 G 1.51 G11 Radwaste 1.52 G33 Reactor Water Cleanup 1.53 G41 Fuel Pool Cooling and Cleanup 1.54 M 1.57

• M43 (Control Building) Fire Protection 1.58

.M50 RBSVS and Control Room A-C Chilled 2.1 Water 2.2 i N 2.6 l N11 Main Steam 2.7 l

P 2.11

.P41 Service Water 2.12

.P42 Reactor Building Closed Loop 2.13 Cooling Water 2.14

.P50 Compressed Air 2.15 l, 1 of 2 1i

11600002-158e 12/22/80 058 TABLE 4.4-1 (Cont)

System No. Description R 2.19

.R22 Metal Clad Switchgear 2.20

.R23 Unit Substations 2.21

.R24 Motor Control Centers 2.22

.R35 AC Control and Instrument Power 2.24 R36 AC Uninterruptible (Vital) Power 2.25 R41 DC Instrument Power (48 V dc) 2.26

.R42 Battery Power (125 V dc) 2.27

.R43 Diesel Emergency Power 2.28 T 2.31 T23 (N2 to drywell floor Reactor Containment 2.33 seal) 2.34

.T46 Standby Ventilation System 2.35 T48 Primary Containment Atmospheric ' 36 Control System e.37 X 2.41

.X41 Miscellaneous Computer, Screen- 2.42 well, Relay and Battery Room HVAC 2.43

.X60 Diesel Generator Ventilation 2.44 System 2.45

.X61 Control Room Air-Conditioning 2.46 System 2.47 Z 2.51

.Z93 Post-Accident Monitoring 2.52 1

NOTES: 2.55 i

. Safe Shutdown Systems. 2.57

• For fire control during shutdown. 3.2 l

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• SHOREHAft PLAT 4T SHUTDOHN SAFE SHUT 00Hil C0ttP0tiET LIST RFVISICtl 8 .

(ECUIP VS CKT VS ESH) jggg IDENTITY DESCRIPTION ESH CHT tIO PNR SC PHR SC LOC EQUIP LOC (1) f AUT0ttATIC DEPRESSURIZATIOtt SYSTElf j IB21=SV092AX/Y ADS VLV 1821eRV-92A SOVA/B 1.61-236/7 1R42.PNLA2/B2 EL 40' RELAY Rtt 107-218

.1821mSV092BX/Y ADS VLV 1821*RV-92B SOVA/B 1.61-236/7 1R42.PNLA /B EL 40' RELAY Rtt 102-234 I 1821mSV092CX ADS VLV 18 1*RV-90C SOVA 1.61-038 1R40.PNLA2 EL 40' RELAY P!t 102-234

] 1821*SV0920X ADS VLV IB21.RV-9 D SOVA 1.61-238 1R42nPNLA: EL 40' RELAY Rtt 102-044 1821.SV092E X/Y ADS VLV 18:1*RV-92E SOVA/B 1.61-036/7 1R40*Pt1LA2/B2 EL 40' RELAY Rtt 102-253 .

1821mSV092FX ADS VLV 18 1*RV-9:F SOVA 1.61-238 1R42.PitLA EL 40' RELAY Pil 102-1?4 E 1821mSV092CX ADS VLV IB21*RV-92G SOVA 1.61-23P 1R4:ePNLA2 EL 40' RELAY Ril 102 '; *

? .18 1mSV092HX/Y ADS VLV 1821*RV-9 H SOVA/B 1.61-275/7 1R42*PNLA2/B2 EL 40' RELAf R1 10? f .2

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1821mSV092JX/Y ADS VLV 1B21*RV-92J SOVA/3 1.61-256/7 1R4 nPNLA2/B2 EL 40' RELAY Rtt 1E4 106 IB21*SV092KX/Y ADS VLV 1821 MRV-92H SOVA/B 1.61 *36/7 1R42.PNLA2/02 EL 40' RELAY Rif 100-90 IB21mSV09 LX/Y ADS VLV 1821.RV-90L SOVA/B 1.61-136/7 1R42ePNLA /D2 EL 40' RELAY R!t 102-270 i

{ CORE SPRAY SYSTEtt DIVILION 1 IE21aP013A CCRE SPRAY PUNP $E21An1 1E21A01 1R22 SNG 101 EttER SHGR Rtt EL 25' 8-103 1E21*P049A HEEP FILLED PUIP 6Elaul 1E21A02 1R24.flCC117 R.B. EL 40' 8-101 1E21*tt0V031A PUt!P SUCTION VV 6E3102 1E01A02 1R 4*ttCC117 R.B. EL 40'24-148 i 1E21*tt0V033A DISCHARGE VV 6E!!03 1E21A04 1R24ettCC113 R.B. EL 112* 104-115 1E01stf0V035A RECIRC VV 6E4105 1E21A06 1R24.flCC111 R.B. EL 40'53-108 1E21mit0V034A ttIN FLDH VV 6E2106 1E21A07 1R 4.!!CC117 R.B. EL 40* 14-98

IB21=PS023A PRES IllTLH B21-N021A(H2c 8004) 1.61-76 78-79 1821mPS003C PRES INTLH B21-N021C(H21.P0093 1.61-76 78-102 I

, IE21=PD5033A CS D/P ItiTLH IH21mP001) 6E2103 1E21A04 1R24.t!CC113 R.B. EL 112" 8-110 IE21*FIS000A ilIll FLOH (H21.P001) 6-110 DIVISIC'* 2 4

IE21mP013B CORE SPRAY PUttP 5E2102 1E21B01 1R22.SHG-102 EttER SHGR Rtt EL 25' 8-257 1E21mP049B HEEP FILLED PUttP 6E0101 1E21802 1R 4.tlCC1127 R.B. EL 40' 8-259  !

IE21stt0V031B PuttP SUCTION VV 6E0102 1E21B0 IR24 ttCC1127 R.B. EL 40'24-112 ,

, 1E21stt0V033B DISCHARGE VV 6E2103A 1E21B04 1R 4 ItCC1123 R.B. EL 110' 104-045 l IE21stlOV0358 RECIRC VV 6E2105 IE21806 1R24.ttCC1121 R.B. EL 40' 53-2S3 1E21*tt0V034B ttitt FLOH VV 6E2106 1E21B07 1R 4.ttCC1127 R.B. EL 40* 14-062 IB21mPS023B PRES INTLH B21-N021BtH21mP0054 [

1.61-77 78-OS7 1E21mPSO 30 PRES It4TLH B21-NO:10(H21.P010) 1.61-77 78-280 1E 1 PDS033B CS D/P INTLH IH21*P019) 6E0103 IE21A04 1R 4.tlCC1103 R.B.

112 8-048 1E21mFIS0008 ffIta FLOH (H21 P0193 8 248 i IE41*P074 VACUUlf PuttP 11E4101 1E41tt01 1R42.rtCC0B1 R.B. EL 40' 8-170 l 1E41mP075 VACUUtt TA!E Cotto PUttP 11f4101A 1E41N02 1R42*ttCCCB1 R.B. EL 40' 8-166 IE41.P107 AUX LO PUt!P 11E410: 1E41NO3 1R42.tKCOB1 R.B. EL 40' 8-160 i 1[41*tt0V031 HPCI PUttP SUCT Fil Corl ST TH VV 11E4109 IE41N09 1R40.ftCCOB1 R.B. EL 40'00-200  ;

1E41.lt0V032 HPCI PUttP SUCT Fil SUP POOL VV 11E4110 1E41N1u 1R42.itCCOB1 R.B. EL 40* 24-210 1E41mit0V034 HPCI STEAN SUP CdTERO ISO VV 11E4105 1E41B01 1R40.tCC08: R.B. EL 112'64-161 IE41*ttOV035 HPC7 PUf!P DISCHARGE VV 11E4106 IE41N06 1R42.ftCCOS2 R.B. EL 112'64-168 IE41*tlOV035 Il1N FLOH VV 11E4112 1E41t412 1R42*llCC031 R.B. EL 40'18-197

1E41stt0V037 HPCI TEST BYPASS VV TO CST VV 11E4107 IE41N07 1R4 =l

CCOB1 R.B. EL 40'18-195 j

1E41 tt0V038 ' ilPCI TEST BYPASS VV TO CST VV. 11E4108 1E41tt08 1R42.tlCC001 R.B. EL 40* 18-205 1E41.t t0V039 LUS OIL COOL VV 11E4114 IE41N13 1R42.itCCOB1 R.B. EL 40* 16-190 s 1E41.f t0V041 STEA!! SUPPLY ItiCRD ISOL VV 6E4102 1E41A01 1R42.ltCC1118 R.B. EL 112'66-188 1E41*tt0V042 HPCI STEAtt DUT BRO ISOL VV 11E4103 1E41301 1R40*ttCCOS: R.B. EL 112'66-192 1 of 13

2 -

TABLE 4.4-2 SfUTDOW E0JITPMENT LIST IE41stt0V043 HPCI STEAll TO TUBINE SUPPLY VV 11E4104 1E41tt04 1R4 sttCC001 R.B. EL 40'17-184 *

! 1E41stt0V044 HPCI TURBINE EXHAUST VV 11E4114 1E41H19 1R42 ttCCOB1 R.B. EL 40'00-187 .

1E41stt0V040 HARituP ISOL VV 11E4117 1E41N22 1R40.ltCC002 R.B. EL 112'64-189 IE41mSOV081 STil LH DRN VV (015-1901 1.61-109 15-190 I i 1E41mSOV082 STil LN DRN VV (015-190) 1.61-109 15-190 IE41.SOV083. COND DISCH VV (009-184) 1.61-109 9-184 3 1E41mSOV095 COND DISCH VV (009-184) 1.61-129 12-185

! 1E41mFS003 HPCI PP DISCH (H21mP014) 1.61-105 8-167 i t 1821.LIS027B HL TRIP B21-N004B(H leP004) 1.61-25 78-79 1821.LIS0270 HL TRIP B21-N0240(H 1 P005) 1.61-24 78-297 >

i 1E41aPS021L LO PP SUCT E41-N010(H 1 P014) 1.61-24 8-167 4

1E41=PS006A HI TURD EX E41-fl017Af H21.P014) 1.61-24 6-167 1E41*PS0268 HI TURS EX E41-fl017DIH21.P014) 1.61-24 8-167 1E41mP50:50 HI TURD EX E41-H010B(H 1*P014) 1.61-24 8-167 1E41mPS0050 .HI TURD EX E41-H01 DtH 1 P014) 1.61-24 6-167  ;

IE41*PS023B STil PRES L E41-N001B(H21=P036) 1.61-04 8-160 t f* IE41.PS0:30 STil PRES L E41-fl001D(H 1*P0 61 1.61-24 8-160

IE41*PDSO

28 HI STil D/P E41-tt005 (H21aOOJ6) 1.61-25 8-160 l 1E41eTE0548 HI AREA T E41-N601B(034-185) 1.61-88 34-185 1E41*TE055B HI AREA T E41-fl600B(034-210) 1.61-88 66-010

IE41*TE054A HI AREA T E41-N601A(034-100_ 1.61-83 34-160 4 1E41*TE055A . HI AREA T E41-N602A(034-2003 1.61-88 34-200 1E41.PDS022A HI STil D/P E41-N004 (H21*P016) 1.61-25 8-157 j 18218-H3 A B218-H30A(H11*P614) 1.61-125 CB/63-C12 i 18

18-H308 B218-H32B(H11 P614) 1.61-105 t tG/21-t412 j

1831B-H31A ' B31B-H31A(B31-PNL53A) 1.61-207 itG/21-P12 18318-H31B D318-H31 BIB 31-PNL53B) 1.61-208 8-178 1E41ePS025A HI TURB EX E41-N012A(H21oP034) 1.61-25 8-178 1E41*PS025C HI TURB EX E41-N012C(H21mP034) 1.61-05 8-157 1E41*PS023A STil PRES L E41-fl001A(H 1=P016) 1.61-25 8-157 1E41.PS023C STit PRES L E41-fl001C(H21mP016) 1.61-25 8-157 l IE41*LSO90A SUPR POOL LVL 1.61-105 27-135 i l IE41=LS09 B SUPR POOL LVL 1.61-105 07-305 IE41 LS093A COND STRG TH-30 LVL 1.61-105 YARD

, IE41mLSO938 COND STRG TH-30 LVL 1.61-125 YARD l 1E41=TE56A 66-005 1E41*TE56B 66-010 i VV TURB STOP & LVL SH 1.61-264 i- 1E41*tt0V043-LS6 1.61-264 17-184  ;

I I

1E41 !!OV032-LS2 1.61-264 04-210 VV RV LL (H21-P005) 1.61-264 78-257 VV RV LL (H21-P005) 1.61-264 78-257 L CNT RV HL & TRIP (H21mP004) 1.61-264 78-79 CHT ftAtt ISOL (H11*P601) 1.61-264 CB/63-C12 CHT TRIP SQL 1.61-200 63-208 1

l REACTOR CORE ISOLATI0tl COOLING SYSTEH-RS l DIVISION 1  ;

IE51mP074- CCt!D VCUU!! PUitP 11E5101 1E51H11 1R 4=ttCC10A2 R.B. EL 112' 8-227 l 1E51mP077 COND. CCIIDEllSATE Putt? 11E5116 IE51 tilt 1R 4*ttCC10A2 R.B. EL 112' 8-230  !

j 1E51*ttOV031 RC PUttP SUCT FR0tt C0tt TH VV 11E5108 IE51t101 1R 4 ttCC10A2 R.B. EL 112'11-217 '

, IE51mit0V032 RCIC PuttP SUCT SUP POOL VV 11E5106 1E51r102 1R24.!!CC10A2 R.B. EL 112'24-202 i i 1E51*tt0V034 RCIC PUttP DISCHARGE VV 11E5105 IL51N04 1R 4alfCC10A1 R.B. EL 40'16-200 1E51.fl0V035 Rt.t PUttP DISCHARGE VV 11E5104 1E11t405 1R24mitCC10A2 R.B. FL 112* 78-193 {

IE51mit0V036 IIIll FLOH VV 11E5109 IE'sitiO6 1R 4 ItCC10A2 R.B. EL 110' J0-234 l 1E51*tt0V037 TEST BYPASS VV 11E5107 IF 51tt07 - 1R24.ftCC10A1 R.B. EL 40'20-201 1E51mitOV038 LU3E CIL CCLL. VV 11E5110 l'.51tIOS 1R 4mitCC10A0 R.B. EL 112* 15-020 1E51st!OV041 RCIC STEAN SUP INBRD ISO VV 6ES102 1E51A01 1R 4=llCC1108 R.B. EL 112'87-180 i IE51*tt0V042 RCIC STEAft SUP TO TUR OI VV 11ES102 1E51801 1R24,ttCC10A2 R.B. EL 112'88-180

2 of 13

) .

TABLE 4.4-2 SIUTDOUN EQUIPMFMT LTST 1E51stt0V043 RCIC STEAN SUP TO TUR SUP W 11E5103 1E51H09 1R04*ttCC10A2 R.B. EL 112'11-024

• 1E51.tt0V044 RCIC TUR TRIP AND THROTTLE W 11E5111 1E51N10 1R04.t!CC10A2 R.B. EL 112'11-222 .

IE51 tnV045 RCIC TUR EXH TO SUP POOL W 11E5113 1E51N14 1R24.ttCC10A1 R.B. EL 40* 31-217 1E 51*ttOV046 VAC PP DISCHW 11E5114 1E51N15 1R04.ftCC10A1 R.B. EL 40'09-026 1E51=tt0V048 BYPASS W 11E5112 1E51002 1904.ItCC10 A0 R.B. EL 110' e6-180 1E51*A0V081 CRAIN POT DRAIN 1.61-211 09-045 1E51.A0V083 CotD E-36 DRAItt 1.61-011 09-045 1E51=LCV095 C0f0 E-38 ORAIri 1.61-211 09-245 1E51mPS023A REAC PRS L E51-H019A(H?leP035) 1.61-007 40-100 1E51*PS0038 REAC PRS L E51-N019B(H01*P038) 1.61-008 40-170 1E51.PS023C REAC PRS L E51-H019C(H21.P035) 1.61-207 40-100 1E51.PS023D REAC PRS L E51-t4019D(H21*P038) 1.61-003 40-170 1E51*PS005A HI TURB EX E51-t1012A(H21.P017) 1.61-207 8-005 1E51.PS005B HI TURS EX E51-H010B(H21.P037) 1.61-00S 8-175 1E51*PS005C HI TURB EX E51-tt010C(H01.P017 ) 1.61-007 8-205 1E51*PS005D HI TURB EX E51-H010D(H01*P0371 1.61-008 8-175 1E51ePDS002A HI Sitt D/P E51-fl017 (H21*P035) 1.61-007 40-100 1E51aPDS0208 HI STil D/P E51-N018 (H21*P038 3 1.61-008 40-170 1E51*T5053A HI AREA T E51-N601A 1.61-89 13-200 1E51=TE053B HI AREA T E51-tt601B 1.61-89 77-180 1E51*TE054A HI AREA T E51-N600A 1.61-89 87-175 1E51.TE0548 HI AREA T E51-N600B 1.61-89 71-185 1D21*LIS027A HI HTR LBL B01-N004A(H21*P004) 1.61-207 78-79 1821*LIS007C HI HTR LVL B01-H004C(H21*P005) 1.61-00A 78-257 1E51*PS0:1L LO PP SUCT E51-H006 (H21*P017) 1.61-007 8-005 IE51*PS006A HI TURB EX E51-N009A(H21*P017) 1.61-007 8-005 1E51.PS0268 HI TURB EX E51-N009B(H21*P0171 1.61-007 8-205 1E 51*t t0V043 INTLHS 1.61-007 11-204 1E51eFS003 ttIN FLOH.1E51*!!OV36 (H01*P017) 1.61-008 8-005 1E51.t t0V032 It4TLHS 1.61-208 04-002 1E51*TE55A HI AREA TEttP E51-N005A 1.61-240 17-190 1E51*TE558 HI APEA TEttP E51-N0058 1.61-040 00-200 1E51=TE55C HI AREA TEttP E51-N005C 1.61-240 31-200 1E51*TE550 HI AREA TEttP E51-t40250 1.61-040 31-200 1E51mTE56A HI AREA TE!!P E51-fl006A 1.61-040 63-180 1E51.TE56B HI AREA TE!!P E51-t1026B 1.61-040 63-200 1E51 ATE 56C HI AREA TEttP E51-fl006C 1.61-040 63-180 IE51 ATE 56D HI AREA TEttP E51-N006D 1.61-040 63-000 LS RCIC TRIP CHT,H1/H0(C61 P-RSP) 1.61-008 63-008 LS4 RCIC TRIP CNT.TURB STP WIP-RSP) 1.61-008 63-208 1E51*LS001 H1/H2 (C61.P-RSP) 1.61-006 63-008 CllT RCIC IttITIATE (H11*P602) 1.61-007 CD/63-C11 CMT RCIC TRIP 1.61-007 CNT RCIC TRIP 1.61-211 63-008 RHR SHUTDOWN C00LIttG SYSTEN DIVISI0ft 1 1E11eP014A RHR PUttP SE1101 1E11A01 1R20*SHG-101 EttER SUGR Rif EL 05' 8-95 1E11*P014C RHR PUt!P SE1103 IE11C01 1R00mSHG-103 EttER SHGR Rif EL 25' 8-00 1E11*ttOV032A RHR SHUTDOHtt COOL It4JECTION W 6E1103 1E11A04 1R04.ltCC1110 R.O. EL 110'15-083 IE11*HOV030C RHR SHUTDOlC4 CCOL INJECTION W 6E1134 1E11C04 1R04=ttCC1113 R.B. EL 112'18-064 1E11.tt0V033A RHR HX SHELL SIDE IffLET W 6E1116 IE11A16 1R04.ttCC1119 R.B. EL 40'05-105 1d11*tt0V034A RHR HX SHELL SIDE BYPASS W 6E1100 1E11A17 1R04 ftCC1112 R.B. EL 112'08-073 1E11*tt0V035A RHR HX SHELL SIDE CueLET W 6E1115 IE11A18 1R04.t!CC1117 R.B. EL 40'31-087 1E11*lt0V036 A RitR OUTBOARD W 6E1126 1E11A19 1R04.ttCC111X R.B. El 112'73-090 1E11.tt0V037A PHR IttBOARD W 6E1105 IE11A07 1R04.!!CC111X R.B. EL 110'73-083 1E11*ttCV047 RHR SHUT COOL SUCT IttS ISOS W 6E1105 1E11f 402 1R24.ftCC1118 R.B. EL 110' e4-016 DIVISION O 3 of 13

i .

TABIE 4 4-2 SHilTiXiWN EQUIPtERP LIST 4

IE11aP014B RHR PUt1P SE110 IE11001 1R22*Si1G-102 EHER SHGR Rit EL 25' 8-265 1E11*P0140 RHR PUttP 5E1104 1E11001 1R22*SHG-103 EttER SHGR Rtt EL 25' 8-280 ~. i 1E11*HOV032B RHR SHUTDOHN COOL INJECTIO!4 W 6E1104 1E11804 1R24 1122 R.B. EL 112'15-277 I'

IE11.ftOV032D RHR SHUTDOHN COOL INJECTION W 6E1131 1E11004 1R24 1122 R.B. EL 112'18-296 {

IE11*tt0V033B RHR HX SHELL SIDE INLET W 6E1133 1E11B16 3R24*1129 R.B. EL 40'25-255

! 1E11*ttOV034B RHR HX SHELL SIDE BYPASS W. 6E1141 1E11B17 1P24 1122 R.B. EL 112'28-208 l j 1E11*tt0V035B RHR HX SHELL SIDE OUTLET W dE1135 1E11018 1R24 1127 R.D. EL 40'31-278 IE11.It0V036 B RHR CU1EOARD W 6E1142 1E11B19 1R24 112Y R.B. EL 112* 73-265 j 1E11*tt0V037B PHR IriBOARD W 6E1143 1E11807 1R244112Y R.3. EL 112'73-263 ,

i 1E11*ttOV048 PHR SatuT COOL SUCT 000 ISOS W 11E1101 1E11tt05 1R42.llCCOB2 R.B. EL 112'73-096 f 1 1E11ett0V050 2HR CROSS HDR SHUTOFF W 6E1124 IE11tt01 1R24 1128 R.B. EL 112'66-281 1

, REACTOR RECICULATI0ft SYS FOR RHR SHUTDOHil C00LIrlG tt00E i

DIVISI3tl 1 1831*tt0V031A RECIRC PUttP SUCT W 683102 1831A06 1R24.ftCC1112 R.B. EL 112'17-005 IB31*h0V032A RECIRC PuttP DISCH W 6B3103 1831A07 1R24.ttCC111X R.B. EL 112'14-082 DIVISIOri 2 1831*lt0V0318 RECIRC PUttP SUCT W dB3107 1B31006 1R24.ttCC1122 R.B. EL 112'24-275 1831*t10V032B RECIRC PUttP OISCH W 683103 1B31007 1R24.ttCC112Y R.B. EL 112'15-278 6

j. 1 i RHR LOH PRESSURE COOLANT It3 JECT 10ft it0DE-RB

) DIVISIO!4 1 3 1E11*P014A RHR PUttP 5E1101 1E11A01 1R22aSHG-101 ElfER SHGR Rf1 EL 25' 8-95 i f IE11*P014C RHR PUt1P 5E1103 1E11C01 1R22. SNG-103 EttER Si1GR Rtt EL 25' 8-80 1E11*tt0V031A RHR PUttP SUCTION W 6E1101 1E11A03 1R24.f tCC1113 R.B. EL 112* 24-085 IE11*tt0V031C RHR PuttT ?,0CTI0tt W . 6E1101 1E11C. IR24.HCC1113 R.B. EL 112' 2te-069 1E11*tt0V034A RHR HX SHELL BYPASS W 6E1120 1E11Att 1R24.ttCC1112 R.B. EL 112'28-073 i 1E11 t!OV036A RHR CUTBOARD W 6E1126 IE11A19 1R24.ttCC111X R.B. EL 112'73-092 2

.1E11*tt0V037A RHR ItGOARD W dE1125 1E11A07 1R24.ftCC111X R.B. EL 112'73-083 9

DIVISI0tl 2 IE11*P014B RHR PUttP SE1102 1E11B01 1R22 ASH 3-102 EttER SHCR Rtl EL 25' 8-265 IE11*P014D RHR PUttP SE1104 1E11001 1R22.SHG-103 FitER SHCR Ril EL 25' 8-280

< IE11*tt0V031B RHR PUttP SUCTION W 6E1129 1E11003 1R24*ttCC1122 R.B. EL 112' 24-23 1E11*ttOV031D RHR PUt!P SUCTION W 6E1102 1E11003 1R24*ttCC1122 R.B. EL 112'24-291 1E11*tt0V034B' RHR HX SHELL W 6E1141 1E11817 1R24.!!CC1122 R.B. EL 112* 28-288 j RHR SHUTDOHtt C00LittG tt00E [

0 DIVIS10tl 1

, IE11*P014A RHR PultP SE1101 IE11A01 1R22.SHG-101 EttER SHGR Rtt EL 25' 8-95 1E11*P014C. RHR PUttP 5E1103 1E11C01 1R22.SHG-103 EttER SHGR Rif EL 25' 8-80 a 1E11 !!OV032A RHR SHUTDOHN COOL INJECT 1Jtt W 6E1103 1E11A04 1R24.!!CC1112 R.B. EL 112'15-083 6 1E11*tt0V032C RHR SHUTDOHN COOL INJECT!0ft W 6E1134 1E11C04 1R24*t!CC1113 R.B. EL 112* 18-064 IE11*tt0V033A RHR HX SHELL SIDE IttLET W 6E1116 1E11A16 1R24*ttCC1119 R.B. EL 40'25-105 IE11*tt0V034 A RHM HX SHELL SIDE BYPASS W 6E1120 1E11A17 1R24*!!CC1112 R.B. EL 112'28-073 1E11*tt0V035A RHR HX SHELL SIDE OUTLET W 6E1115 1E11A18 1R24.ftCC1117 R.B. EL 40'31-087 IE11*tt0V036A RHR CUTBOARD W 6E1126 1E11A19 1R24*ttCC111X R.D. EL 112'73-092

1E11st10V037A PHR INBOARD W 6E1125 1E11A07 1R24=ttCC111X R.B. EL 112'73-083 1 1E11*tt0V047 RHR SHUT COOL SUCT Its ISGS W 6E1105 1E11tt02 1R24.lfCC1118 R.B. EL 112'84-016 DIVISION 2 6 1E11*P014B RHR PUt1P 5E1102 1E11B01 1R22.SHG-102 EllER SHGR Rtt EL 25' 8-265

! IE11*P0140- RHR PUttP SE1104 1E11001 1R22 SHG-103 EffER SHGR Rtt EL 25' 8-280 3

1E11*!!OV0328 RHR SHUTDOHN COOL INJECTION W 6E1104 1E11004 1R24.!!CC1122 R.B. EL 112'15-277 IE11*tiOV0320 RHR StiUTDOH!4 COOL INJECTION W 6E1131 1E11004 1R24.ftCC1122 R.B. EL 112'18-296

-1E11*HOV0333 RHR HX S! FELL SIDE It!LET W 6E1138 IE11816 1R24*t!CC1129 R.B. EL 40'25-255 4 of 13 5 ,

k T'

TABLE 4.4-2 ElRITDOWN EQUIPMENT LTST 1E11sitOV0340. RilR HX SHELL SIDE BYPASS W 6d1141 3E11817 1R04mitCC1122 R.B. EL 112'08-288 1E11mHOV0358 RHR HX SHELL SIDE OUTLET W 6E1135 IE11B18 1R04.ftCC1127 R.B. EL 40'31-078 ", ,

IE11=ltOV036B RHR CUTDOARD W 6E1140 1E11019 1R04.ttCC112Y R.B. EL 112'73-065 1E11.tt0V0370 RHR INBOARD W 6E1143 1E11007 1R 4.t!CC112Y R.B. LL 112'73-063 1E11=tt0V048 RHR SHUT COOL SUCT 000 ISOS W 11E1101 1E11t405 1R42 ttCCOB: R.B. EL 112' 73 096 1E11mit0V050 RHR CROSS HDR SHUTOFF W 6E1124 1E11tt01 1R 4*ttCC1128 R.B. EL 112'66-281

[

REACTOR RECICULATI0tt SYS FOR RHR SHUTDOHr4 COOLING tt00E I DIVISION 1 1B31=ttuV031 A RECIRC PUttP SUCT W 683102 IB31A06 1R24ettCC1112 R.B. EL 112* 17-085 1831=tt0V032A RECIRC PUttP DISCH W 6B3103 1831A07 1R24mitCC111X R.B. EL 112'14-082 DIVISIOr4 2 IB31mHOV031B RECIRC PUtp SUCT W 6B3107 1831806 1R24 ftCC1122 R.B. EL 112'24-075 1831stt0V032B RECIRC PUte DISCH W 683103 1831B07 1R 4nttCC112Y R.B. EL 112'15-078 RHR LOH PRESSURE COOLANT INJECTIOriIt0DE-RS DIVIS10tt 1 1E11mP014A RHR PUIP SE1101 1E11A01 1R22 mSilG-101 EttER SHGR Rtt EL 25' 8-95 IE11eP014C RHR PUtP SE1103 1E11C01 1R22eSUG-103 EttER SHGR Rtt El 25' 8-80 1E11=tt0V031A RHR PUIP SUCTION W 6E1101 1E11A03 1R24.ftCC1113 R.B. EL 112'24-085 IE11*tt0V031C RHR PUttP SUCTION W 6E1101 1E11C03 1R24=ttCC1113 R.B. EL 112'24-069 IE11att0V034A RHR HX SHELL BYPASS W 6E1120 1E11A17 1R24*ttCC1112 R.B. EL 112* 28-073 1E11=HOV036A RHR CUTBOARD W 6E1126 1E11A19 1R24=ttCC111X R.B. EL 112'73-092 1E11mit0V037A RHR INBOARD W 6E1125 1E11A07 1R04.ItCC111X R.B. EL 110'73-083 DIVISION 2 1E11*P014B RHR PutP SE1102 1E11Bv1 1R22.SHG-102 EHER SHOR Rtt EL 25' 8-265 1E11eP0140 RHR PUttP SE1104 1E11001 1R22.SitG-103 EttER Sli3R R!t EL 05' 8-200 1E11*lt0V0318 RHR Putt? SUCTION W 6E1129 IE11B03 1R24 ttCC1122 R.B. EL 112'24-275 1E11*t t0V031D RHR PUttP SUCTI0tt W 6E1102 IE11003 1R24=ttCC1122 R.B. EL 112'24-291 1E11*tt0V0348 RHR HX SHELL W 6E1141 1E11B17 1R04.itCC1122 R.B. EL 112'08-288 1E11=tt0V016B RHR CUTBOARD W 4E1140 1E11819 1R 4=ttCC112Y R.B. EL 11t'73-045 1E11mit0VO378 RHR INBOARD W 6E1143 1E11B07 1R24 !!CC112Y R.B. EL 112'73-063 1E11mitOV050 RHR CROSS HOR SHUT 0FF W 6E1124 1E11t401 1R24atlCC1128 R.B. EL 110'66-281 RHR CotCENSING tt0DE-RB IE41stt0V041 STEAtt SUPPLY Ita0ARD ISOL W 6E4102 1E41A01 1R24mtlCC1118 R.B. EL 112'66-188 RHR INTERLOCHS & TRIPS DIVISION 1 IB31mPS023A LP INTLH B31-tt018Atti:1*P006) 1.61-196 40-180 1821 PS023C PRES INTLH B21-t4021C(H21mP009) 1.61-76 78-100 9

1821 PS023A PRES INTLH B21-N001A(H21*P004) 1.61-76 78-79 4

IB21 LIS027A LO HTR LVL B01-H024A(H21*P004 ) 1.61-27 78-79 '

1821 LIS027C LO HTR LBL D21-H024C(H21=P005) 1.61-07 78-257 j 1821*H83 B21-H83 (H11*P6:2) 1.61-019 CB/44-C14

IB21eH6A B01-H6A (H11mP609) 1.61-196 CB/63-C13 l

. - 18 ImH6C BCl-H6C (H11mP609) 1.61-196 CD/63-C13  !

, IE11mPitS031A PitP INTLH 1.61-220 24-85 1E11*Pf(3031C PitP INTLH 1.61-020 24-69

IE11* Pits 032A Pl!P It4TLH 1.61-200 14-82 1E11mPitS032C PitP INTLH 1.61-020 18-64 IE11*PDS001A ttit{FLOH (H21=P018) 1.61-219 8-75

, 1801eLIS009A LL/HP IH21*P004) 1.61-076 78-79 t i

1E11.PS13SA LL/HP (H 1 P004) 1.61-219 78-79 5 of 13

TABLE 4.4-2 SHUTDOW EQUIPMENT LIST 1821*LIS029C LL/HP (H21mP004) 1.61-076 78-79 ,

i DIVIS10tl 2 1831mPS0238 LP INTLH B31-t40180(H21eP022) 1.61-196 40-353

, 1821.PS0230 PRES It1TLH B21-fl021D(HCleP0010) 1.61-77 78-280 1821.P5023B PRES INTLH B21-t4021B(H21mP005) 1.61-77 78-257 1821 LIS0278 LO HTR LVL B21-tiO24D(H21eP004) 1.61-29 78-79 1821*LIS027D LO HTR LVL B01-t10:40tH liF 005) 1.61-29 78-257 .

j 18 1mH04 B01-H04 (H11*P623 5 1.61-196 CB/44-C12 1821eH6B B21-H6B (H11mP611) 1.61-193 CB/63-C13 18 1*H60 B21-H6D (H11 P6111 1.61-193 CC/63-C13 1E11*PHS031B Pl!P IrlTLH 1.61-0 3 24-075 "

1E11ePNS0310 PitP INILM 1.61-203 24-291 1E11mPt45030B Pi!P liitLH 1.61-223 15-278 IE11*Pf4S0300 PhP INTLH 1.61-223 18-296  :

IE11 PDS001B ltItiFLCH EH216P0213 1.61-219 8-287 l

. CNT ttAti INTIATE 1.61-219 1E11 PS139B LL/HP (H21mP005) 1.61-219 78-257 i

STAfIDBY LIQUID COtITROL SYSTEtt I

DIVISION 1 1C41mP024A SLC LIQUID CONT PuttP 6C4101 1C41A01 1R24mitCC113 R.B. EL 112' 112-168 DIVISION 2 1C41mP024B SLC LIQUID C0 tit PUttP 6C4101A 2C41B01 1R24et!CC1123 R.B. EL 112~ 112-166 IllTER CMT C02 FIRE PROT CNT. DIESEL Rif 11tt4304 1R42*Pft-A2. C0flTROL BUILDING EL 63' B21 C1 INTER CMT CO2 FIRE PROT CMT.BTY R?! 11114303 1R42.PtiL- A2. CONTRCL BUILDItIG EL 63* -

B: A C1 INTER CHT CO2 FIRE PROT CHT.EllER SHG Rtt 111t4305 1R4:ePifL-A2. C0tiTROL BUILDING EL 63'

B & C1 INTER CMT CO2 FIRE PROT CMT. RELAY RH 11tt4306 1R40.PIL-Al EttER SHGR Rtt EL 25' C0rlTROL BUILDIt4G EL 25' SERVICE HATER SYSTEll-PH/RB DIVISION 1 1P41*P003A SERVICE H4TER PUtlP SP4101 IP41A01 1R22.SHG101 EffER SHGR Rif EL b' SCREf tn(ELL EL 20' t IP41stt0V031A SHP DISCH W 6P4101 IP41A02 1R24mt!CC1110 SCRH EL 20'-6* SCREE!C4 ELL EL 00' IP41=tt0V030A SH HEADER ISCL W 6P4103 1P41A05 1R 4.ttCC1110 SCRH EL 20 *-6' SC"EEtDIELL (L 20' i IP41mit0V033A SH CROSS TIE W 6P4108 1P41A03 1R 4.ItCC1119 R.B. EL 40' 30-30 I 1P41 110V033C SH CROSS TIE W 6P4109 IP41C03 1R24 ttCC1119 R.B. EL 40' 31-40 1P41st!OV034A RHR HX DISCH W

• 6P4110 1P41A08 1R 4*ttCC1112 R.B. EL 110' 27-91 IP41*fl0V035A TBCLCH ISOL W 6P4104 IP41A06 1RC4*ttCC1110 SCRH HL 20'-6* SCREEfC4 ELL EL 20' 1P41=tt0V036A VEtiT CHILL ISOL W 6P4105 1P41A07 1R 4 ttCC1116 DIESEL GEtt Rit EL 22' 12-46 ,

1P41mit0V037A RBCLCH HX OUTLET W 6P4107 IP41A09 1R 4.ttCC1112 R.B. EL 112'23-290 1P41*tt0V039A ULT COOLING DRH W 6P4100 1P41A04 1RC4.ttCC1119 R.B. EL 40'34-046 1 1P41mit0V042A SH TO FUEL POOL W 6P4113 IP41A12 1R 4 ttCC1119 R.B. EL 40' IS-040 1P41.A0V016A EttER DIESEL HX OUTLET W 6P4123 IP41A24 1R35=PriLR1 RELAY Rtt FL 44' CB/27-L13 DIVISION 2 1P41mPOC3B SERVICE HATER PUttP SP4102 1P41801 1R20.SUG102 EttER SitGR Ril EL OS' SCREEin(ELL EL 20' IP41*tt0V031B SHP DISCH W 6P4119 IP41802 1R04*tiCC1120 SCRH ... -,-6" SCREEIDIELL EL 20' 1P41stt0V030B SH HEADER ISDL W 6P4121 1P41805 1R24.t!CC1100 SCRH EL 20'-6" SCREEtGiELL EL 20' i

IP41.tt0V03IB SH CROSS TIE W 6P4108 IF41003 1R 4*ttCC1129 R.B. EL 40'30-030 I

'IP41.HOV033D SH CROSS TIE W 6P4109 1P41C03 1R 4.flCC1129 R.B. EL 40'31-040 1P41mitOV0348 RHR HX DISCH W 6P4118 TP41B08 1924 !!CC1108 R.B. EL 112'27-268 IP41mitOV03ED TECLCH ISCL W 6P4120 1P41806 1R 4.ttCC1120 SORH EL 20'-6" SCREEriWELL EL 20' IP41stt0V0368 VENT CHILL ISOL W 6P4105 1P41LO7 1R 4ettCC1126 DIESEL GEtt Rif EL 22'12-046 1P41stt0V0378 RECLCH HX OUTLET W 6P41:2 1P41009 1R24.!!CC1128 R.B. EL 112* 23-294 6 of 13 J

TABLE 4.4-2 SHUTDOWN EQTIIPMENT LIST 1P41stt0V0398 ULT C00LitiG DRit W 6P4102 1P41804 1R24sitCC1129 R.B. EL 40'34-046 IP41ml10V042B SH TO FUEL POOL W 6P4113 IP41012 1R24.!1CC1129 R.B. EL 40'15-040

• 1P41att0V043 FUEL POOL DRia W 6P4114 IP41tiO1 1R24.ItCC1127 R.B. EL 40'12-046 IP41*A0V016B EttER DIESEL HX OUTLET W 6P4123 IP41B24 1R35.FILB1 REL AY Rtt EL 44' CB/,??-C13 DIVISI0t1 3

'IP41eP003C SERVICE HATER PUt:P 5P4103 IP41C01 IR22.SHG103 Et!ER SurR Pit EL 25' SCREEFG4 ELL EL 20' IP41=P003D SERVICE HATER PUtlP SP4104 IP41001 1R22.SWG103 EttER SWGR Rtt EL 25' SCREEttiiELL EL 20' 1P41*tt0V03 c Slip DISCH W 6P4101 IP41CO2 1R24.!!CC1133 EttER SMGR Rit EL 25' SCREEraiELL EL 20' IP41stt0V0313 SHP DISCH W 6P4117 IP41002 1R24.f tCC1133 EttER SUGR Pit EL 25' SCREEtulELL EL 20' IP41*tt0V034 C VEtiT CHILL ISOL W 6F4106 IP41C07 1R24 ttCC1134 DIESEL GEf4 Rf t EL 22'12-046 IP41.A0V014C EttER 'JIESEL HX OUTLET W 6P4124 IP41C24 1R35 PtL01 RELAY Rtt EL 25' CB/27-C13 E!! ERG SH TO FUEL POOL DIVISI0t1 1 1G33ett0V033 RV DISCH 6G3308 IG13ril: 1R24.itCC1113 EttER SliGR Rtt EL 25' 121-190 DIVISIO!4 2 1G33 *ttOV034 RV DISCH W 11G3301 1G33t413 1R24=ttCC082 R.B. EL 112' 121-190 REACTOR HATER CLEAT 4-UP SYSTEtt DIVISI0rt 1 1G41stt0V032A SERVICE HTR ItLET W 6G4103 1G41A04 1R24*ltCC1114 Et1ER SHGR RH EL 25' 162-147 DIVISIO!4 2 1G41stt0V0328 SERVICE HTR ItLET W 4G4103 1G41SO4 1R24.ttCC1124 R.B. EL 150' 162-149 RBCLCH SYSTEtt-RB DIVISI0f4 1 1P42nP005A RECLCH COOLING HATER PUttP 6P4201 IP42A01 1R24 ttCC1112 R.B. EL 112* 150-rih IP42*ftOV042A RBCLCH HX ItLET W 6P4214 1P42A10 IR24.ftCC1112 R.B. EL 112'30-349 DIVISI0ft 2 IP42 P005B RBCLCH C00LIriG HATER PUtP 6P4202 IP42001 1R04*lfCC1122 R.B. EL 112'30-352 IP42 110V0428 RECLCH HX ItLET W 6P4218 IP42B10 1R24.flCC1128 R.B. EL 112' 150-tul DIVISI0f4 3 1P42aP005C RBCLCH COOLItiG HATER PUttP 6P4203 IP42C01 1R24.ftCC1131 R.B. EL 63' 150 -f tE E!!ERGEtiCY GENERATOR-EGR DIVISI0f4 1 1R43*G-101 EDG G101 PROT-GEN DIFF CHT 8R4301 1R43A03 DG Rit/22-L15 1R43.G-101 VR CT G-101 PROT SR4301 1R43A24 DG Pit /22-L15 1R43.G-101 EffER DG 51/40/32 PROT 8R4301 1R43A05 DG Pat /22-L15 1R43.G-101 Et!ER DG 50tl Gt0 PROT OR4301 1R43A28 DG Rt1/22-L15 1R43hG-101 CURREtiT TEST BCH Arid RESIS BOX ER4301 1R43A27 DG Rtt/02-L15 1R43*G-101 GOVEt;0R HYCRAULIC ACTUATCR 11R4302 1R43A23 1R42.Pft-Al EttER SHGR Rtt EL 25' DG Rit/22-L15 1R434G-101 EG-A CoriT BOX Arc tt0T CP POT 8R4301 1R43A06 Ett!R SUGR Ret EL 25' DG Rit/22-L15 1R43*G-101 VR CT G-101 PROT 8R4301 1R43A25 EttER SUGP Rtt E!. S' DG Rit/22-L15 1R43.G-101 VOLT REGULATCR BR4305 1R43A26 Et1CR SWCR Rtt Et . DG R!t/22-L15 1R43.G-101 START CIRCUIT 11R4301 1R43A12 1R42* Pit-Al EttER SHOR Rif EL c5' DG Fit /20L-15 1R43*G-101 START CIRCUIT 11R4301 1R43A22 1R 42.PtiL- Al E!!ER SMCR Rif EL 25' DG Rit/22-L15 1R43.G-101 START CIRCUIT 11R4302 1R43A23 1R42* Pit-Al EttER SMGR Rtt EL 25' DG Rit/22-L15 DIVISICil 2 1243.G-102 EDG GIO: FROT-GEtt DIFF CNT 894302 1R43803 EttER SHGR Rtt EL 25' DG R!t/22-C15 7 of 13

i ,

T ,

TABLE 4.4-2 SIUTDOWN EQUIPMFRT LIST ,

1R43mG-102 EttER DG 51/40/32 PROT BR4302 1R43B05 EttER SHGR Rtt EL 25' DG Pit /22-C15 1R43.G-102 EttER DG 50tl Gto PROT eR4302 1R438 8 EttER SKR Rif EL 05' DG Rit/22-C15

• t 1R43mG-100 CURRENT TEST BCH A!O RESIS BOX ER'4302 1R43027 EttER SHGR Rtt EL 25' DG RIV22-C15 1R43 G-100 GOVEf40R HYCRAULIC ACTUATCR 11R4304 1R43D 3 1R42.Prt-B1 EHER SHGR R!I EL 25' DG Ril/22-C15 i 1R43mG-102 EG-A CCitT BOX At(D fl0T OP POT 8R4300 1R43B06 EttER S:4GR Rtt EL 25' DG Rit/20 C15 1R43 G-102 VR CT G-102 PROT BR4302 1R43D 5 EttER SUGR Rtt EL 25' DG RIV 2-C15 j 1R43.G-102 VOLT REGULATOR BR4306 1R43D06 EttER SitGR Ril EL 25' DG Rtt/22-C15 l 1R43 G-102 VR CT G-102 PROT OR4302 1R43324 EllER SHGR Pit EL 05' DG Rit/02-C15 ,

1

- 1943eG-102 START CIRCUIT 11R4303 1R43B12 1942.PtL-B1 Et1ER SHGR Rtt EL 25' OG Rit/22-C15

, IR43.G-102 START CIRCUIT 11R4303 1R43B 1R42.PHL-B1 EttER SKR Ril EL 25' DG Rit/20-C15

, IR43eG-102 START CIRCUIT 11R4304 1R43023 1R40.PFL-B1 EttER SHGR R!l EL 25' DG Rit/22-C15 DIVISI0ti 3 1R43mG-103 EDG G103 PROT-GEtt 01FF CHT 8R4303 1R43C03 DG RtV22-L15 *

• 1R43mG-103 EftER DG 51/40/32 PROT 6R4303 1R43C05 DG Rit/22-L15 A

,IR43*G-103 EttER CG 50tl GTO PROT 8R4303 1R43C28 DG Rtt/22-L15 [

, i1R43*G-103 CURRENT TEST BCH Atc RESIS BOX GR4%03 1R43C27 DG PH/22-L15

• IR43nG-103 GOVEllCR HYCRAULIC ACTUATOR 11R4306 1R43C23 1R42.PriL-C1 EttER SHGR R!t EL 25' DG Rit/02-L15

] 1R43 G-103 EG-A C0 tit BOX Atc tt0T OP POT 8R4303 1R43C06 EttER SER Rtt EL 25* DG Rit/22-L15 1R43aG-103 VR CT G-103 PROT eR4303 1R43C25 EttER SliGR Ril EL 25' DG Rtt/02-L15

! 1R43.G-103 VOLT REGULATOR BR4307 1R43C26 CIIER SilGR RH EL 25' DG Rit/22-L15 1R43.G-103 VR CT G-103 FROT BR4303 1R43C24 EtIER SHGR Rtt EL 25' DG Rtt/22-L15 *

, IR43.G-103 START CIRCUIT 11R4305 1R43CI: 1R42.PHL-C1 EttER SHGR Rtt EL 25' DG RtV 2-L15 ,

1R43.G-103 START CIRCUIT 11R4305 1R43CO2 1R4 ePHL-C1 EttER SHGR Rtt EL 25* DG Rtt/20-L15 1R43eG-103 START CIRCUIT 11R4306 1R43C04 1R42ePIL-C1 EttER SHGR Rtl EL 25' DG Rf t/22-L15

, DIESEL FUEL TRAt1SFER SYS-EGB i

i DIVISICil 1 1R43nP-201A EG FUEL DIL TRANSFER PUIP 6R4304 DIESEL GEtt Rif EL 22' 1R43A09 1R 4mitCC1116 YARD .

IR43*P-202A EG FUEL OIL TRAtiSFER PUtP 6R4304 1R43A10 1R24.!!CC1116 DIESEL GEtt R!t EL 02' YARD >

1 DIVISION 2 1R43.P-201B EG FUEL OIL TRAriSFER PUtP 6R4305 1R43809 1R24.t!CC1126 DIESEL GEtt Rft EL 22' YARD 1R43.P-2008 EG FUEL OIL TRAtiSFER PUltP 6R4305 1R43010 1R 4*tlCC1126 DIESEL GEtt Rtt EL 20' YARD DIVISION 3 1R43*P-201C EG FUEL OIL TRANSFER PUttP 6R4306 1R43C09 1R24.ttCC1134 DIESEL GEtt Rit EL 22' YARD j 1R43*P-200C EG FUEL OIL TRAriSFER PUt!P 6R4306 1R43C10 1R24etICC1134 DIESEL GEN Rtt EL

• YARD HVAC SYSTEttS r

CRAC/RBSVS CHILL HATER SYSTEll-CB DIVISI0ti 1 ,

Itt50=P137A CHILLED HATER PUttP 6tI5001 Itt50A08 1R 4elfCC1116 DIESEL GEtt Rtt EL 22' CB/63-L12 i a

IttS0 *P139 A COtID HATER PUttP 6115003 IIIS0A10 1R24=t!CC1116 DIESEL CEtt Rtt EL 22' CB/63-L12 i ItG0mP231A LUBE OIL PUttP 6ft5011 Itt50A14 1R 4*ttCC1116 DIESEL GEH Rlt EL ' CB/63-C16

ItGO.HC003A HATER CHILLER 5tt5001 Ilt50A01 1R20.SHG101 EttER SHGR RH EL 25' CB/63-L12 Itt50*HC003A CHILLER COflTROLS 5tt5001A III50A03 1R35.Ptt-R1 PELAY Rlt EL 44' CB/63-L1 ItG0aff0V031A RETURil W 6tt5005 litSOA04 1R24mitCC1116 DIESEL GEtt Ril EL 22' CB/71-L13 I lt150 fl0V032A SUPPLY W 6ttS006 ltt50A05 1R24attCC1116 DIESEL GEH R!t EL 22- CB/75-L13  ;

l

• Itt50 att0V033 A RET X0VER W 6115007 lits 0A04 1R24*ttCC1116 DIESEL GEN Rif EL 22' CD/75-L13 lits 0*t!OV034A ' SUP X-DVER W 6f tS00S IttSOA07 1R24*ttCC1116 DIESEL GEN Rif EL 22' CB/75-L13 lits 0*ADV066A ISOL BYPASS W 6f t5009 Itt50A12 1R35.PtL-R1 RELAY Rif EL 44' CS/71-L12 >

lttsonA0V069A ISOL BYPASS W 6tt5010 lit 50A13 1R35.PflL-R1 RELAY Rtl EL 44' CB/75-L1 DIVISION 2 1 lit 50=P1378 CHILLED HATER PUtlP 6f t5001 IttSOB08 1R 4.tlCC1126 DIESEL CEtt Rif EL 22* CB/63-L13 I lits 0eP1390 Cot;0 HATER PUttP 6t!5003 IttSCB10 1R 4atlCC1126 DIESEL GEtt Rft EL 22' CB/63-L13 j ,

8 of 13

I

, i

i. TABLE 4.4-2 SlHTDOWN EGIIPMENT LIST -

j lit 50nP2318 LUBE OIL PUltP 6tl5011 IttSOB14 1R 4ettCC1126 DIESEL CEtt Rfl EL 22' CB/63-L13

• 1 Itt50nHC003B HATER CtlILLER 5115002 Itt50B01 1R22=SHG102 EllER SHGR Rtt EL 25' CD/63-L13 .

i III50eHC003B 5tt5000A CHILLER CONTROLS Irl5CB03 1R35.FliL-B1 EttER SHGR Rtt EL 05' CD/63-L13 Itt50 1 TOV 031B RETURie W 6ttS005 lit 5CSO4 1R 4.ftCC1126 DIESEL GEH Rtt EL 00' CD/71-L13 It!50.ttOV0328 SUPPLY W 6ft5006 lit 50B05 1R 4.ttCCil:6 DIESEL GEtt Rtt EL 22' CB/75-L13

, 1ttS0mit0V033B RET X-DVER W 6ttS007 Itt50306 1R24.ttCC1126 DIESEL GEtt Ett El 22' CB/ 75-L13 18150.tt0V034B SUP X-0VER VV- 6t tS003 It:50307 1R24.ftCC1126 DIESEL GEtt Pit EL 22' CD/71-L13 i l IttSO.ACV066B ISOL BYPASS VV 6ft5009 IttSOB12 1R35.PfiL-B1 RELAY Rtt EL 44' CB/71-L13 lits 0 nA0V069B ISOL BYPASS W 6tt5010 Itt50B13 1R35.PtIL-B1 RELAY Rtl EL 44' Cb/75-L13 DIVISION 3 Itt50mP140A COfiD HATER PuttP 4H5004 Itt50A11 1R 4.ftCC1134 DIESEL GEtt Rtt EL 22' CB/63-L12 j lit 50.P140B CO!!D 84ATER PUttP 6115012 Itt50C14 1R:4.ltCC1134 DIESEL GEtt Rtt EL 22' CB/63-L13 Itt50*P233A LUBE OIL PUttP 6t15012 IttSOC14 1R 4.flCC1134 DIESEL GEtt Ris EL 02* CB/63-L15 Itt50mP233B LUBE OIL PUt:P 6ttS012 11 50014 1R 4=t!CC1134 DIESEL GEH Pit EL 22' CD/63-L12  !

Itt50.HC004A HATER CHILLER 5!!5003 Itt30C01 1R02.SMGIC3 EttER SHOR Rif EL 25' CB-43-L12 lit 50. llc 004B HATER CHILLER Sil5004 Itt50001 1R 2*SHG103 EttER SHOR Rtt EL 25' CB/63-L13 lits 0.HC004A CHILLER CONTROLS 5ftS003A lif50C03 1R 35+PflL-01 RELAY R!t EL 44' CB/63-L12 ,

Itt50.HC004B CHILLER CONTROLS- 5t:5004A It!50003 1R35.PHL-01 RELAY Rtt EL 44' CB/63-L13 *

, RBSVS SYSTEtt-RS I

1 DIVISIO!4 1 r IT46mUC002A UNIT COOLER 6T4619 1T46A13 1R24et!CC1118 R.B. EL 112' 8-332

! IT46 UC003A UNIT COOLER 6T4600 1T46A14 1R 4.!!CC1118 R.B. EL 112' 8-81 ,

IT46*UC004A REFUEL LVL UC 4T4621 IT46A15 1R24.ItCC1112 R.B. EL 112' 218-60 g-IT46.UC005A REFUEL LVL UC 6T4622 IT46A16 1R:4.ttCC1112 R.B. EL 112* 218-3:3 ,

1T46=UCO 0A RB ttCC Rtt UC 6T4625 IT46A23 1R24.ttCC1118 R.D. EL 112' 112-60 l IT46nUC021A ttG Rtt 111 112 UC 6T4606 1T46A33 1R24.t!CC1114 R.B. EL 150' 150-22 [

CHT RBSVS/CRAC ACC SIGtIAL 11T4601 IT46A19 CB/48-C14 r CHT RBSVS It41TIAT SIGilAL 11T%t2 CB/4S-C14  ;

y DIVISI0t4 2  !

IT46=UC0028 UNIT COOLER 6T4619 IT16B13 1R:4*ttCC1128 R.B. EL 112'40-275 1T46.UC0038 Uti1T COOLER 674620 1T46B14 1R24*ttCC1108 R.B. EL 110' 40-65 [

1T46mOC004B REFUEL LVL UC- 6T4621 IT46815 1R 4.ttCC112 R.B. EL 112' 218-143 -

1T46mUC005S REFUEL LVL UC 6T46l*2 IT46B16 1R24.itCC1122 R.B. EL 112' 218-240 c IT46*UCO20B Rtt itCC RN UC 6T4625 1146B03 1R 4.!!CC1108 R.B. EL 11

• 112-227

{ 1T46 UC021B ttG RH 111 112 UC 6T4626 IT46833 1R24.ttCC1127 R.B. EL 40' 150-340 4

CMT RBSVS/CRAC ACC SIGNAL 11T4601 IT46B19 CB/40-C14  !

CHT RBSVS INITIAT SIGNAL 11T4603 CB/48-C14

?

DIVISION 3 1T46.UC022B ttG Rtt 113 UC 6T4627 1T46B34 1924 ftCC1131 R.B. EL 63' 161-340 1T46muc022A ItG Rtt 113 UC ST4627 IT46A34 1R 4=ttCC1131 R.B. EL 63' 161-02 f J CMT RSSVS INITIAT SIGNAL 11T4604 ESHG R00ft/25-H13 "

s RELAY /SHOR ROCH VENT SYSTEH-CB

?

DIVISIOtt 1 1X41mACUO14A CitILL HT COOL 6X4125 IX41A01 1R24.ftCC1116 DIESEL GEN Rtt EL 22' HVAC/44-C14 '

i IX41ett00035A CHILL HT COOL 6X4125 1X41A01 1R24ettCC1116 DIESEL GEN R!t EL 22' HVAC/53-C12 IX41mFN029A RELAY Ril EXHAUST FAN 6X4101 IX41A02 1R24*ttCC1116 DIESEL GEtt Rtt EL 02' HVAC/44-C13 6 DIVISION 2 1X41mACUO14B CHILL HT COOL 6X41:5 IX41801 1RZ4.ttCC1126 DIESEL GEN Rtt EL 22' HVAC/44-C13 1X41.tt00035B CitILL MT COOL 6X41:S 1X41B01 1R 4=ttCw1126 DIESEL GEtt Ril EL 22' HVAC/SS-C12

] IX41mFliO 93 RELAY Rtt EXHAUST FAN 6X4121 1X41800 1R 4*ttCL1106 DIESEL GEN Rit EL 2

• HVAC/44-C13 I

3 CHILLER EQUIP Rtt VEf4T SYSTEtt-CB  ;

c) of 13

i f TABLE 4./.-2 SHUTDOWN EQUIPMENT LIST I

DIVISION 1 .

IX41 FH039A RBSV CHILL EQUIP RH FAN 6X4126 IX'41A19 1R 4*f tCC1116 DIESEL GEtt Ril EL 22' HVAC/63-C39 1X41=lt0D031A RBSV It4 TAME DAtlPER 6X4126 1X41A19 1R 4.t CC1116 DIESEL GEtt Ril EL 22' HVAC/63-L16 1X41.It00030A RBSV EXHAUST DAttPER 6X4126 IX41A19 1R 4mtlCC1116 DIESEL GEtt Rtt EL 22' ttVAC/63-L16 I <

DIVISICtl 2 '

1X'41*FH0398 RBSV CHILL EQUIP Rif FAN 6X'4127 IX41819 1R 4.ttCC1126 DIESEL GEtt Rif EL 22' HVAC/63-C15 ,

1X41mit00031B RBSV IllTAKE DAt!PER 6X4127 IX41B19 1R 4 ftCC1126 DIESEL GEH Ri1 EL 22' HVAC/63-L16 I 1X41mit000328 RBSV EXHAUST DAltPER 6X4127 IX'41B19 1R 4ettCC1126 DIESEL GEft Ril EL 22' HVAC/63-L16 [

I l BATTERY RCut VENT SYSTEll-LB i DIVISIDH I

+ 1X41 FH072A BTY Ri1 vet 4T FAN 6X4128 IX'41 A03 1R 4*ttCC1115 EttER SilGR Rif EL 25' CB/30-H16

' 1X41*ttCD039A BTY Rtl DISCHARGE DAttPER 6X4128 1R 4.ItCC1115 1X41A03 EttER SilGR RH EL 25' CB/27-H16 1X41mitOD040A BTY Rlt EXHAUST DAttPER 6X4128 1X41A03 1R24*tlCC1115 EttER SHGR Ril EL 25' CB/30-H16 1X41sttCOG41A BTY Ri1 EXHAUST DAtlPER 6X'4128 IX'41A03 1R24.ttCC1115 EftER SHGR Ril EL 25' CB/26-H16 i DIVISION 2 f 2 1X'41mFH0708 BTY Rif vet 4T FAN 6X'4129 IX'41803 1924,ttCC1105 EttER SHGR Rif EL 25' CB/30-C16  !

1 IX'41stt00039B t>?Y Ril DISCHARGE DAt!PER 6X'4129 1X41003 1R24ettCC1125 EttER SitGR Rtt EL 25' CB/29-C16 j IX'41 tt00040B BTY MI EXHAUST DAtlPER 6X4129 1X'41B03 1R 4.tCC1125 EttER SHGR RifEL 25' CB/30-C16 L 1 1X41=tt00041B BTY Rtl s.WAUST DA!1PER 6X4129 1X41503 1R24 ttCC1125 EttER SHGR Rtt EL 25' CD/06-C16

]'

DIVIS10rt 3 IX41mFN07 C BTY Rt1 VENT FAff 6X4130 IX'41C03 1R 4=ttCC1133 EttER SMGR Ril EL 25' CB/39-H16 I j IX'41stt0D 039C BTY R!! DISCHARGE DA!!PER 6X4130 1X41C03 1R24 1tCC1133 EttER SMGR Rtf El 25' CB/37-H16 l 1X41=tt00040C BTY Rtl EXHAUST DAttPER 4X'4130 1X41C03 1R:4.tfCC1133 EttER SHGR Rif EL 25' ED/41-C16 .

1X41mit00041C BTY Rif EXHAUST DAtlPER 6Xf4130 1X'11LO3 1R24.ItCC1133 EttER Sl4GR Ril EL 25' CD/35-H16 l EttERGEt4CY GEtt R20!! VENT SYSTEll-EGB I i

DIVISICH I 1X61mFH005A FILTER BOAST FAft 6X6102 IX61AO: 1R24 ftCC1116 DIESEL GEtt Rtt EL 22' EGB/63-C12

, 1X60*Ft4028A EttER VENT FAN 6X6002 IX60A02 1R2'4.ttCC1116 DIESEL GEN Rif EL 22' EGB/22-L15 i IX60*tt0031A DAt!PER 6X6002 IX60A02 1R 4.tfCC1116 DIESEL GEtt Ril EL 22' EGB/38-L16 1 1X60mitCD32A DAttPER 6X6002 1X60A02 1R 4.tlCC1116 DIESEL GEttRil Et, 22' ECS/34-L12 F

DIVISI0tl 2 IX61mFN025B FILTER BOAST FAN 6X6102 1X61802 IR2'4*ttCC1126 DIESEL GEH ptt EL 22' EGB/63-C12 IX60=FH0088 EttER VENT FAN < 6X6003 IX40B02 1R 4*tfCC1126 DIESEL GEN Rtt EL 20' EGS/22-L15 1X60,tt0031B DAt!PER 6X6003 1X60602 1R:4.ItCC1126 DIESEL GEtt Elf EL 22' EDG/38-L16 1X60*ttCD32B D AttP ER 6X6003 1X40002 1924.ttCC1126 DIESEL GEtt Ril EL 22' EDG/CA12 ,

l I

DIVISION 3 IX60*FH028C Et1ER VENT FAf4 6X600's IX60CO2 1R 4.ftCC1134 DIESEL GEH Ril EL 22' EDG/22-L15 1X60ntt0031C DAttPER 6X6304 1X60C02 1RO'4*t!CC1134 DIESEL GEH RH EL 22' EDG/38-CA14 IX60ettOD3 0 DAttPER 4X6004 IX60CO2 1R 4.ttCC113'4 01ESEL GEN Rif EL 22' EDG/3'4-CA12 [

j SCREEtt HELL PUtE8 HOUSE VENT DIVISI0tl 1  ;

IX41mFN068A PP HS FAN 6X4118 IX'41 A15 1R:4 ttCC1110 SCREENHELL EL 20' I

i DIVISION 2 l 1X41mFit068B PP HS FAtt 6X4119 IX41B15 1R 4 ftCC1120 SCREEtalELL EL 20' Cot 4 TROL R00tl AIR CONDITIONING SYSTEff-CB

. L 10 of 13 I l- a  !

TABLE 4.4-2 SWTDOWN E0liTPMP.NT LTST DIVISI0ti 1 IX61=tt0V031A CRAC ISOL VV 6X6104 IX61A05 1R 4=ltCC1115 fttER SUGR Rtt EL 25' CB/78-C12 .

1X61 ft0V3 A CRAC ISOL VV 6X6110 1X61A09 1R 4.IICC1115 EttER SHGR Rtt EL 25' CB/67-C16 1X61.A0V36A CRAC NORtt AIR IHTAME VV 6X6106 IX61A06 1R35.PitL-R1 REL AY RC31 EL 44' CB/66-016 IX61mA0V30A CRAC ISOS VV 6X6108 IX61A03 1935.PNL-R1 RELAY ROO!I EL 44' CB/73-C16 IX61=ACU70A CRAC UNIT 6X6101 IX61A01 1R 4.tfCC1116 DIESEL CEN Rtt El 22' CB/71-C13 IX61.tt0034 A CRAC UNIT DAl!PER 6X6101 1X61A01 1R 4.f!CC1116 DIESEL GEtt Rtt EL 22' CB/ 7 7-C16 IX61.TCV021A CRAC-COOLIriG COIL VV 13X6101 IX61A10 CD/71-C13 CMT CRAC E!!ER IttIT SIGN IPNL VX11 11X6101 IX61A07 1R40 PNL-A2 CB/44-C12 IX61= TIC 021A CRAC ACUO7A C00 lit 43 C0f(TROL 13X6101 IX61A10 CB/63-H12 IX61*TE021A CRAC TEttP ELEttEtiT 13X6101 IX61A10 CB/67-12H IX61.A0V039A ISOL DA!!PERS 6X6109 IX61A04 1R35.PNL-R1 RELAY Rit EL 44' CB/77-C16 IX61.Ftt0 5A FILTER BOASTER FAtt 6X6102 1X61A02 1R04 !!CC1116 DIESEL GEN Ret EL 22' CB/63-C12 1X61= HOD 033A FILTER BOASTER F Att DAt!PER 6X6102 IX61A02 1R 4 ItCC1116 DIESEL GEtt Rif EL 22' CB/77-C12 DIVISI0tt 2 IX61 tt0Vu313 CRAC ISOL VV 6X6105 IX61B05 1R24.ttCC1105 EllER SRGR Rtt EL 25' CD/78-C12 IX61.tt0C032B CRAC ISOL VV 6X6111 1X61B09 1R24.ItCC1125 EtIER SHGR Rtt EL 25* CB/70-C16 1X61.A0V36B CRAC NORif AIR INTAHE VV 6X6106 IX61006 1R35.PNL-B1 RELAY Rtt EL 44' CD/70-C16 1X61 A0V3SB CRAC ISOL VV 6X6108 IX61803 1R35.PriL-B1 PELAY Rif EL 44' CD/73-C16 1X61*AUC70B CRAC Ut4IT 6X6101 1X61801 1R 4.ftCC1126 DIESEL GEtt Pit EL 22' CD/71-C13 1X61*tt00343 CRAC Ut41T DAt!PER 6X6101 1X61801 1R 4.itCC1106 DIESEL CEN Rtt EL 22' CB/77-C16 IX61.TCV0218 CRAC-COOLING COIL VV 13X6102 IX61B10 CB/71-C13 CHT CRAC Et! ERG It4IT SIGN IPNL VX11 11X6102 IX61807 1R42.Pt4L-B2 CD/44-C12 IX61mTIC021B CRAC ACU70B CCOLING Cot 4 TROL 13X6102 IX61010 CB/63-H10 1X61*TE0018 CRAC TEltP ELEttENT 13X6101 IX61010 CB/67-H12 IX61*APV0398 ISOL DA!!PERS 6X6109 1X61804 1935.PNL-B1 RELAY Rtt EL 44' IX61*FN005S FILTER E01 STER FAN 4X6102 IX61B02 1R 4.!!CC1126 DIESEL GEft Pit EL 22' CS/63-C12 IX61.tt030338 FILTER BOASTER FAtt DA!!PER 6X6102 IX61002 1R 4.ttCC1126 DIESEL GEN Rlt EL 22' CB/74-C12 C0t! PRESSED AIR SYSTEtt DIVISION 1 IP50.lt0V104 INSIR AIR TO SUPPR CHA!!BER VV 6P5012 1P50t405 1R24.ltCC1112 R.B. EL 78'30-250 IP50*tt0V103A Cot! PRESS AIR SRV OUTERD ISOL VV 6P5014 IP50A12 1R 4.ItCC1112 R.B. EL 112'90-250 1P50mit0V105A C0!! PRESS AIR SRV ITERO ISOL VV 6P5016 IP50A13 1R04.ffCC1113 R.B. EL 110'75-200 1P50.tt0V113A C0!! PRESS AIR SRV NORitAL SUP VV 6P5018 IP50A14 1R 4.ftCC1112 R.B. EL 112'90-250 1P50mtlOV114A C0ttPRESS AIR SRV E!! ERG SUP VV 6P5020 1P50A15 1R24*tlCC1118 R.B. EL 112'90-250 IP50mPS113A SERVICE AIR HEADER I;0RitAL SUP 1.61-273 151-170 1P50.PS105A SERVICE AIR HEADER PRESSURE 1.61-272 151-155 DIVISION 2 1P50.tt0V105 INSTR AIR TO SUPPR CHAttBER VV 6P5013 1P50N07 1R24.t!CC1129 R.B. EL 40'30-250 IP50*tt0V103B COltPRESS AIR SRV OUTBRD ISOL VV 6P5015 IP50B12 1R24.t!CC1102 R.B. EL 40'90-070 IP50*tt0V105B C0ttPRESS AIR SRV IriBRD ISOL VV 6P5017 IP50313 1924.t!CC1122 R.B. EL 112'69-255 1P50=tt0V1138 C0!!FRESS AIR SRV NORt!AL SUP VV 6P5019 1P50514 1R24.tKC1123 R.B. EL 110' 151-200 1P50*tt0V1148 C0hPRESS AIR SRV EttERG SUP VV 6P5015 1P50015 1R24*ttCC1123 R.B. EL 112'89-070 1P50.PS1138 SERVICE AIR HEADER FORifAL SUP 1.61-273 151-220 1P50.PS105B SERVICE AIR HEACER PRESSURE 1.61-272 151-200 SHGR ltCC PNLS-CR/RB/PH DIVISI0tl 1 1R22 SHG101 4160V-HVN RHR SH CS SHG111 FE-1B EL 25' ACB 101-1 EffERG BUS HOR!I SUPPLY 5R2009 1R20A01 1R22eSHG101 EttER SRGR Pit EL 25' EL-05' ACB 101-2 ElfER BUS RES SUPPLY SR2210 1R22A02 1R 2.SHG101 Ell!R SHCR Rit EL 25' EL-25' CUS 101 SEQ PROGWAtt CHf SH PHR CS HVN 5R2217 1R22A03 EllCR SHGR Rtt EL 25' EL-25' CUS 4160 REL & HET CHT OR1205 1R22A04 1R22.SHG101 EttER SHGR Rit EL 25' EL-25' DIVISIDil 2 11 of 13

TABLE 4.4-2 SHLfTDOWN E0ITTPMENT LTST 1R20eSHG102 4160V-HVit RiiR SH CS SliG112 Et!ER SHGR Rtt EL 25' EL-25' .

ACB 102-1 EttERG BUS F40Rtt SUPPLY SR2211 1R2 001 1R22 SlIG102 EttER SHOR Rtt EL 25' ACB 102-2 EffERG BUS RES SUPPLY 5R2 12 1R 2002 1R22*SitG102 EttER SliGR Ril Ei. 25'

?L-25' EL-25' ". l BUS 102 SEQ PROGRAtt CHT SH RHR CS 5R2218 1R20003 EttER SUGR Rif EL 25' EL-25' BUS 4160 REL & ttET CHT 8R 206 1RO B04 1R22.Si4G102 Et!ER SUGR Rft EL 05' EL-25' DIVIS10tl 3 ,

IR22eSHG103 4160V-HVH RHR SH SilG113 FE-1AV 1R4 =Pfil-C1 EttER SliGR Rtt EL 25' EL-25' ACD 103-1 EttERG BUS NORit SUPPLY 5R 213 3R2 C01 1R 2 SilG103 EttFR StGR Rtt EL 25' EL-25' ACB 103-2 EttERG BUS RES SUPPLY SR 214 1ROOC02 1R22 SitG103 EttER Sl4GR Rtt EL 25' EL-05' BUS 103 SEQ PROGRAlt CHT SH HVH 5R2219 1RO C03 EttER SLtGR Rfl EL 25' EL-25' BUS 4160 REL 7 ttET CMT 8R2207 1R C04 1R22.StG103 EllER 554GR Rtt EL 25' EL-25' DIVISI0ft 1 ACB 101-4 FEEDER TO Et! ERG BUSS 111 SR2303 1R 3A01 1R22.SHG101 EttER 514GR Rtt EL 25' EL-DS*

'1R23mT-101 TRAf4SFOR!!ER FE-1B 1R ceSitG101 EttER SIGR Rtt EL 25' EL-25' 1R23mSHG111 480V -1R24ettCC1110-91PtLR1 EttER SIGR Ril EL 25' EL-25' IJBe701 1R24*ttCC1111/9 FE-1E 1R 3nSHG-111 EttER SliGR Rtt EL 25' EL-25' IJBe703 1R24e!!CC1117/4/Y/Z/A/C FE-1E 1R23.SHG-111 EllER SlIGR Rit EL 25' EL-25' IJBm300 IJB4701/3 FE-1E 1R23mSMG-111 EffER SCR Rtt EL 25' EL-25' IJBe702 1R24.ttCC1113/8 FE-1E 1R23.SliG-111 EttER SHGR R!t El 25' EL-25*

DIVISION 2 ACD 102-4 FEEDER TO EttERG BUS 112 5R2304 1R 3001 1R22nSHG102 EttER SIGR Rtt EL 25' EL-25*

1R23nT-102 TRAtiSFCRitER FE-1B IR22.$liG102 EttER SHGR Rtt EL 25' EL-25' 1R23mSHG112 480V -1R24=ttCC1100-91PtLB1 EttER SHGR Rtt EL 25' EL-25' IJBe706 1R 4*ttCC1127/4/X/A'C FE-1E 1R23.SHG-112 EttER SIGR Rtt EL 25' EL-25' IJBn704 1R 4.ItCC11 1/9 FE-1E 1R23.SHG-112 EttER SIGR Rtt EL 05' EL-25' IJBe301 IJBe704/6 FE-1E 1R 3 SHG-112 EttER SitGR Rtl EL 25' EL-25*

1JBe705 1R 4=ttCC1123/8 FE-1E 1R 3.SIG-112 E!!ER SHCR Rtt EL 25' EL-25' DIVISIC?e 3 ACB 103-5 FEEDER TO EttERG BUS 113 SR2305 1R23C01 1R20.SHG133 EttER S14GR Rtt EL 25' EL-25' 1R23*SHG113 480V -1R24*ttCC1131-41PtL01 EttER SIGR R!t EL 25' EL-05' 1R23=T-103 TRANSFORl!ER FE-1B 1R22.SHG103 EttER SHGR Rit EL 25' EL-25' DIVISICtl 1 1R35 apt 4LR1 120V -HVN SH 1R35A02 1R24*ttCC1115 EttER SUGR Rtt EL 25' EL-25*

1R24mitCC1110 480V -E41.P41 EttER SHGR R!t EL 25' EL-25' 1R 4*ttCC1111 480V -E11.E21 EltER SHGR RIt EL 25' EL-25' 1R 4=ltCC1112 480V -B31.P42.T46.E11 FE-1E 1R23.SHG-111 EttER S!!GR Rit EL 25' EL-25' 1R24*ttCC1113 480V -E21.G33.C41,E11 EttER SIGR Rtt EL 25' EL-25' 1R 4atlCC1114 480V -G41 FE-1H 1R24 SHG111 EtER SUGR Ril EL 25' EL-25' 1R 4=tlCC1115 480V -R40.R35.X41.X61. FE-1E 1R23eSHG-111 EttER SIGR Rlt EL 25' EL-05' 1R:4=ttCC1116 480V -tt50.P41.R43.X41.X60 X61 FE-1E 1R23=SUG-111 EttER SHCR Rif EL 25' EL-25' 1R:4*ttCC1117 480V -E11.E21 EttER SHGR Ril EL 25' EL-25' 1R t4*ttCC1118 480V -E41.E11.T46 FE-1H/H 1R23.SHG111 EttER Sl:GR Rtt EL 25' EL-25' 1R 4=ttCC1119 430V -E11.P41 FE-1H 1R23*SMG111 E!!ER SGR Rif EL 25' R.B. EL 40' 1R:4.ttCC111X 480V -E11.B31 FE-1H 1R 4*TRS111X R.B. EL 112' R.B. EL 112*-6' 1R 4mitCC111Z FE-1H 1R 4mitCC111Y R.B. EL 78' R.B. EL 112*-6' 1R 4*TRS111Y TRAMSFER S14 ITCH FE-1E R.B. EL 112*-6' 1R 4eTRS111X TRAtiSFER SHITCH FE-1E 1R24 mitG113 A/111 R.B. EL 150*

1R24mitG-111 It0 TOR CENERATOR FE-1E 1R23.SHG-111 EttER SHGR Rtt EL 25' R.B. EL 150' IJBe703 1R24*ttCC111Y/7/4/Z FE-1H 1R 4mSitG111 EttER SHGR Rtt EL 25' EL 8' DIVISICH 2 1R24mt!CC1120 480V -P41.X41 EttER SitGR Rtl EL 25' SCREEtiHELL 1R24 t1CC1121 480V -Ell EttER SHGR Rtt EL 25' R.B. EL 40' 1R 4*ttCC1122 480V -E11.B31.P42.146 FE-1E 1R23eSHG-112 EltER SHGR Ril EL 25' R.B. EL 112' 1R24.ttCC1123 480V -E21.C41 EttER SHGR R1t EL 25* R.B. EL 112' 12 of 13

TABLE /../.-2 SHUTDOWri EQUIPMENT LIST 1R24*ttCC1124 480V -G41 EttER SHGR Rtt EL 25* R.B. EL 150'

• 1R 4=ttCC1125 480V -R42.R35 X41.X61 FE-1E 1R23aSHG-112 EttER SHGR Rtt EL 25' EHER StiGR R00tt ..i 1R24mitCC1126 480V -itSO.P41.R43.X41.X60.X61 FE-1E 1R 3mSHG-112 EttER Sl!GR Pfl EL 25' DIESEL GEf4 R00ft I 1R24ettCC1127 480V -E11.E21.P41 EttER SHGR Rtt EL 25' R.B. EL 40' .

1R24ettCC1128 430V -E11.E51.P41.P42.T45 FE-1J 1923eSi4G112 EttER SHGR Rtt EL 25' R.B. EL 112' 1R 4ettCC1129 480V -E11.P41 FE-Itt IR23*SHG112 EttER SHGR Rtt EL 25' R.B. EL 40' '

19:4=TRS11 Y TRANSFER SHITCit FE-1E 1R 4.f1G1138/112 R.B. EL 150' 1R 4-itCC112A FE-1J 1R24*ttCC112X R.B. EL 78' R.B. EL 78 .

IR24-ItCC11:C FE-Itt 1R24 itCC11 X R.B. EL 78' R.B. EL 78 1R24*tlCC112X F E-Ill 1R23.GUG112 EttER SHGR Rtt EL 25' R.B. EL 78*

1R24*ttCC11:Y 480V -B31 FE-1H 1R 4.TRS112Y P.B. EL 112' R.B. EL 112' 1R24*ttG112 It0 TOR GENERATOR FE-1E 1R23*SitG-112 EttER S ER Rtt EL 25' R.B. EL 150' 1R24*PtL-01 F E-9t4Y 1R23.ltCC11Y R.B. EL 112' R.B. EL 110' DIVISI0t1 3 1R 4*ttCC1131 480V -P42.T46 FE-1E 1R23.SHG-113 E!!ER SHGR Rtt EL 25' R B. EL 63*

1R24*ttCC1134 480V -t!50,P41.R43.X60. FE-1E 1R23*Sl4G-113 E!!ER SMGR Rif EL 25' ;1ESEL GEr4 R00tt IR24*ttG113A tt0 TOR GEtiERATCR FE-1E 1924.SHG113 Et1ER SCR Ril EL 25' R.B. EL 150' 1R24*ttG1138 ftOTOR GENERA 0TR FE-1E 1R 4*SHG113 EttER SHGR Rtt EL 25* R.D. EL 150' DIVISIO!4 1  ;

1R35 P!LR1 120V -il50.R43 1R35A02 1R 4.ttCC1115 Et!ER SHGR Rtt EL 25' EttER SHGR R00ft EL 25 1R35eTR1 480V/120V XFl!R PtLR1 FE-1H 1R24*ttCC1115 EttER SUCR Rtt EL 25' EttER S M R R00ft EL 25 1R35mT-R2 TRAt4SFORttER FE-1H 1R24.ftCC1112 R.B. EL 110' R.B. EL 112 1R35eT-R3 TRANSFORitER FE-1X 1R24.ttCC116 DIESEL GEf4 Rtt EL 22' DIESEL GEf4 R00H EL 20 DIVISICtt 2 1R35=Pf1LB1 120V -It50.R43 1R35002 1R24.ttCC1105 EttER SHGR Rtt EL 25' R.B. EL 44*

1R35mTB1 400V/120V XFitR PtLB1 1R24*ttCC11 5 EttER SHGR Ril EL 25' Et!ER SHGR R00ft EL 25 1R35*T-B2 ' TR At4SFORitER FE-1J 1R 4.ItCC1122 R.B. EL 112' R.B. EL 112' 1R35eT-B3 TRANSFORitER FE-1X 1R24.ttCC1126 DIESEL GEtt Rtt EL 25' DIESEL GEtt RO0tt DIVISI0t1 3 1R35mT01 480V/120V XFHR PtL01 FE-1H 1R 4.ttCC1133 EttER SHGR Rit EL 25' EttER 514GR Roof t EL 25 IR35+ Fit-01 FE-1H 1R35.T-01 EtfER SHGR Rtt EL 25' R.B. EL 25' 1R35=T-02 TRAf4SFORf1ER FE-1X 1R24.ttCC1134 DIESEL GEN Rif EL 22' DIESEL GEH R00ft DIVISIOtt 1 1R42eDCA1 125DC- IR42*SHGA1 BAT CH FE-1H 1R:4.ttCC1115 E!!ER SMR Rtt EL 25' EttER SER '400tt IR42nPft Al 125UC- SW1011111 DG FE-1AT 1R42.SHC101 EttER SHGR Rtt EL 25' EttER SER Rooll 1R42eBAA1 125DC- IR42mSHGA1 BAT EATT ROU4 1R42*SHGA1 :5DC- PtLA11A2 EttER SWR ROO!I 1R42mPfLA2 1250C- ADS SGE LOGIC E!!ER S;iGR ROO!!

IH11*PFL-VC1 125 VDC PtL FEED 11R4 02 1R42 PFL A RELAY Rtl EL 44' Cot 4 TROL R0cti EL-63 1H11*Pti-VC2 125 VDC Pit FEED 11R4001 1R42.Ptt-A2 RELAY Rtt EL 44* CotilROL POOtt EL-63 (1) THE EQUIPHENT IN THE REACTOR BUILDIt4G IS LOCATED BY ELEVATI0tH FT. ) AF40 AZit!UTH(DECREESI: EXAltPLE- 112-230 I.E. REACTOR BUILDING ELEVATI0t4 112FT.AT1D 230 DEGREES. THE EQUIPitEt4T OUTSIDE THE REACTCR CUILDIriG IS LOCATED BY AREA ELEVATIOti. LINE AtiD COLUt1N: EXAttPLE- CB/63-C13 I.E. CONTROL BUILDIt4G. ELEVATICil 63FT.. LINE C Ato COLuttri 13.

13 of 13

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SHUTDOWN MODEL PROTECTION SEQUENCE FOR SHUTDOWN SHOREH AM NUCLEAR POWER STATION-UNIT 1 SEPARATION ANALYSIS REPORT

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>J SHUTDOWN SYSTEMS (IE) g >

Sil0REH AM NUCLEAR POWER STATIC *J-UNIT 1 SEPARATION ANALYSIS REPORT FM EEE2 -

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>M FIG. 4.2-1C SHUTDOWN MODEL q 9 SHUTDOWN SYSTEMS (NNS) g SHOREHAM NUCLEAR POWER STATION-UNIT 1 SEPARATION ANALYSIS REPORT 6J M

b

R ACEWAY HACEWAY VS SHUTDOWN ESK VS VS CADLE LIST EOulPMENT VS CABLE LIST AREA LIST (EC-l/G) ESK LIST (EC-35)

C O M PA R E CO M PA R E (M A N U AL) (M ANU AL)

CADLE VS SHUTDOWN EQUIPMENT AREA LlST COMPARE (COMPUTER)

SifuTDOWN EQUIPMENT VS AREA LIST ANALYSIS FIGURE 4.4-1 DEVELOPMENT OF SHUTDOWN EQUIPMENT BY AREA SHOREHAM NUCLEAR POWER STATION-UNIT I SEPARATION AN ALYSIS REPORT

9 e 11600.02-158h 12/22/90 058 APPENDIX A 1.7 SEPARATION ANALYSIS RESULTS 1.9 PRIMARY CONTAINMENT 1.11

11600.02-158v 12/24/80 056 SEGMENT }{1 1.8 CABLE SEPARATION ANALYSIS 1.10 PRIMARY CONTAINMENT 1.11

1. SYSTEMS IMPACTED: 1.14 JA) Division I Systems: B21, B31, C61, Ell, G33 1.16 JB) Division II Systems: B21, E41 (Division I) 1.18 JC) Division III Systems: None 1.20

2. SYSTEMS' FUNCTIONS DISABLED: 1.22 JA) No credit taken for Division I systems' tunctions, other 1.24 than the RHR (Ell) and RCIC (E51) systems.

JB) Division I RHR (Ell) system shutdown cooling inboard 1.25 isolation valve 1E11*MOV047. 1.26 JC) No credit taken for Division II ADS (B21) system. 1.27 JD) No credit taken for Division II HPCI (Eul) system. 1.28

3. DISABLED FUNCTIONS EVALUATION: 1.31 JA) Division II and III systems, and Division I RCIC system 1.33 are available for shutdown.

JB) Division I RHR system valve 1E11*MOV047 may be manually 1.35 operated.

JC) Division II ADS system is not needed since the 1 36 Divisien I RCIC system is available.

JD) Division II HPCI system is not needed since the 1.37 Division I RCIC system is available.

4. SHUTDOWN CAPABILITY: 1.40 l

l Hot and cold shutdown are achievable using Division II and 1.42 l III systems and the Division I RHR system with manual 1.43 l

operation of valve 1E11*MOV047 or the Division II RER/CS/SRV flow path and the RCIC system.

5. FURTHER ACTION RECOMMENDED: 1.47 None 1.49

11000002-150w 12/z4/00 05)

SEGMENT N2 1.6 CABLE SEPARATION AhALYSIS 1.8 PRIMARY CONTAINtmNT 1.9

1. SYSTEMS IMPACTED: 1.12 (A) Division I Systems: b21, S31, Cul, E11 1.14 (B) Division II Systems: B21, E41 (Div. I) 1.15 (C) Division III systems: None 1.16

2. SYSTEMS: FUNCTIONS DISABLED: 1.19 JA) No credit taken Ior Division I systems 8 runctions, other 1.21 than _the RHR (Ell) system snutdown cooling inboard 1.2A 1 solation valve 1E11*MOV047 and the RCIC (E51) system. 1.23 JB) No credit taxen for Division II ADS (b21) system. 1.24 JC) Division II HPCI (E41) system supply inocard 1 solation 1.25 valve 1E41*MOV041 (Division I component) 1.46

3. DISABLt.D FUNCTION EVALUATION: 1.29 JA) Division II and III systems, Division I RHR system valve 1.31 1511*MOV047 and RCIC systems are available lor snutdown. 1.32 JB) Division II AD6 system is not needed since Division I 1.34 RCIC system is available.

JC) Division II hPCI system valve 1E41*MOV041 may be 1.35 manually operated.

l

't . SHUTDOhN CAPhbILITY: 1.38 Hot and cold shutdown are achievable using Division II and 1.40 III systems, Division I RHR system valve 12.11*MOV047 and tne 1.41 RCIC system, or Division II dPCI system, it manual operation 1.42 or valve 1841*MOV041 is possible.

5. FURTHER ACTION RECOMMENDrJJ: 1.45 pione 1.47 l

11600.02-158x 12/24/80 056 SEGMENT N3 1.7 CABLE SEPARATION ANALYSIS 1.9 PRIMARY CONTAINMENT 1.10

1. SYSTEMS IMPACTED: -

1.13 (A) Division I Systems: B21, 831, C61 1.15 (B) Division II Systems: B21, E41 (Div . I) 1.17 (C) Division III Systems: None 1.19

2. SYSTEMS' FUNCTIONS DISABLED: 1.21 JA) No credit taken f or Division I systems, other than RHR 1.25 (Ell) , RCIC (E51) , and remaining ADS (B21) systems.

JB) Division II ADS (B21) system valves SOVO92J and H. 1.28 JC) Division II HPCI (E41) system s team supply inboard 1.31 isolation valve IE41*MOV041 (Division I component) . 1.32

3. DISABLED FUNCTION EVALUATION: 1.35 JA) Division II and III systems, Division I RBR, RCIC, and 1.38 remaining ADS systems are available f or shutdown.

JB) Division II remaining ADS system valves are available 1.41 for shutdown. 1.42 1C) Division II HPCI system valve IE41*MOV041 may be 1.45 manually operated.

4 SHUTDOWN CAPABILITY: 1.47 I

Hot shutdown is achievable using Division I RCIC System. 1.49 Cold shutdown is possible using the Division I or II RRR 1.50 systems. The Division II HPCI system could also me used for 1.52 hot shutdown, if manual operation of valve IE41*MOV041 is 1.54 possible.

l l S. FURTHER ACTION RECOMMENDFQ: 1.56 None 1.58 i

i T

l

11600.02-158y 12/24/80 059 SEGMENT N4 1.7 CABLE SEPARATION ANALYSIS 1.9 PRIMARY CONTAINMENT 1.10

1. SYSTEMS IMPACTED: 1.13 JA) Division I Systems: B21, C61, Ell, E51 (D iv. II) 1.16 JB) Division II Systems : 321, E41 (Division I) 1.18 JC) Division III Systems: None 1.20

2. SYSTEMS' FUNCTIONS DISABLED: 1.22 JA) No credit taken for Division I systems' functions, other 1.24 than remaining ADS (B21) system. 1.26 JB) Division I ADS (B 21) system valves 1B21*SOV092AX, BX, 1.27 CX.

JC) Division II ADS (B21) system valves 1B21*SOV092AY, BY, 1.29 EY, LY. 1.30 1D) Division II HPCI (E41) system steam supply inboard 1.31 isolation valve 1E41*MOV041. 1.32

3. DISABLED FUNCTION EVALUATION: 1.34 JA) Remaining Division I and II systems and Division III 1.36 systems are available f or shutdown. 1.38 JB) Division I ADS valves 1B21*SOV092AX, BX, CX are not 1.39 needed since the remaining ADS valves are adequate for 1.41 depressurization.

JC) Division II ADS valves 'B21*SOV092AY, BY, EY, LY are not 1.42 needed since the remaini.Tg ADS valves are adequate for 1.44 depressurization.

j JD) Division II HPCI system valve 'E41*MOV041 may be 1.45 l inaccessible with relief valve operation. 1.47 4 SHUTDOWN CAPABILITY: 1.50 Hot shutdown is achievable using the Division II RHR/CS/SRV 1.52 flow path, or the HPCI system, if manual operation of HPCI 1.54 steam valve 1E41*MOV041 is possible. Cold shutdown is 1.55 achievable using remaining Division II and Division III 1.56 systems.

11600.02-158y 12/24/80 059

5. FURTHER ACTION RECOMMENDED: 2.2 None 2.4

11600.02-159 z 12/23/80 058 l SEGMEffr N5, 5 1.7 CABLE SEPARATION ANALYSIS 1.9 PRIMARY CONTAINMENT 1.10

1. SYSTEMS IMPACTED: 1.13 (A) Division I Systems: B21, C61, G33, E11, E51 (Div. II) 1.15

( (B) Division II Systems: B21, C61 1.17 l (C) Division III Systems: None 1.19

2. SYSTEMS

• FUNCTIONS DISABLED: 1.22

( JA). No credit taken for Division I systems' functions, 1.24 l gxcept for the RER (E11) shutdown cooling valve 1.25 l 1E11*MOV047.

JB) Division I RHR (Ell) system bypass valve 1E11*MOV081B. 1.26 JC) No credit taken for Division II ADS (B21) system. 1.27 JD) Division II remote shutdown temperature element 1.28 1C61*TE022B. 1.29

3. DISABLED FUNCTION EVALUATION: 1.31 JA) Division II and III systems are available for shutdown. 1.33 JB) Division I RHR bypass valve 1E11*MOV081B is not required 1.34 for shutdown. 1.35 l JC) Division II ADS system is not needed since Division II 1.36 l HPCI (E41) system is available. 1.37 l JD) Use of remote shutdown panel is not required for this 1.38 l

event.

4. SHUTDOWN CAPABILITY: 1.41 Hot and cold shutdown are achievable using Division II and 1.43 III gystems, and the Division I RHR system shutdown cooling 1.45 valve 1E11*MOV047. 1.46

5. FURTHER ACTION RECOMMENDED

1.50 None 1.52 l

1 1

l J

11600.02-158aa 12/23/80 058 SEGMENT N66 1.7 CABLE SEPARATION ANALYSIS 1.9 PRIMARY CONTAINMENT 1.10

1. SYSTEMS IMPACTED: 1.13 JA) Division I Systems: B21, C61, G33, E11, ES1 (Div. II) 1.1b J3) Division II Systems: B21, B31 1.18 JC) Division III Systems: tio n e 1.20

2. SYSTEMS

• FUNCTIONS DISABLED: 1.22 JA) No credit taken for Division 1 systems, except RHR (Ell) 1.24 gnd Reactor Recirculation (B31) system, and ADS (B21) 1.25 system valves SOV092H, J, and K. 1.26 JB) No credit taken for Division II ADS (B21) system, except 1.27 valves SOVO92C and D. 1.28 JC) Division II Reactor Recirculation (B31) system valve 1.30 1B31*MOV031B.

JD) Division I RHR (Ell) system bypass valve 1E11*MOV081B. 1.31

3. DISABLED FUNCTION EVALUATION: 1.33 JA) Division II and III systems and remaining Division I 1.35 systems are available for shutdown. 1.37 JB) Division II ADS system valves SOV092C and D gre 1.39 available.

( JC) Division II Reactor Recirculation system valve 1.40

! 1B31*MOV031B is not required for shutdown. 1.42 JD) Division I RBR bypass valve 1E11*MOV081B is not required 1.43 for snutdown. 1.44 t

i

~4 SHUTDOWN CAPABILITY: 1.47 l

Hot shutdown is achievatie using Division II HPCI system and 1.49 cold shutdown is achim;able using Division II RHR System. - 1.50 5_ . FURTHER ACTIONS RECOMMENDED: 1.53 l j tone 1.55 l

l l

l

11600.02-158ab 12/24/80 055 SEGMENT 01 1.7 CABLE SEPARATION ANALYSIS 1.9 PRIMARY CONTAINMENT 1.10

1. SYSTEMS IMPACTED : 1.13 (A) Division I Systems: B21, B31, E11, C61 1.15 (JB) Division II Systems: B21, E41 (Div. I) 1.17 (C) Division III Systems: None 1.19

2. SYSTEMS

• FUNCTIONS DISABLED: 1.22 JA) No credit teken f or Division I systems' functions, other 1.25 than the RHR (E ll) and the RCIC (ESI) systems.

JB) Division I RHR (E11) system shutdown cooling inboard 1.26 isolation valve JE11*MOV047, and bypass valves 1.28 1E11*MOV081A and B.

JC) No credit taken for Division II ADS (321) system. 1.29 JD) Division II HPCI (E41) system steam supply inboard 1.30 isolation valve JE41*MOV041 (Division I component) . 1.32

3. DISABLED FUNCTION EVALUATION: 1.34 JA) Remaining Division I and II systems and Division III 1.36 systems are available for shutdown. 1.37

18) Division I RHR system ;alve 1E11*MOV047 may be manually 1.38 operated, and valves 1Eli*MOV081A and B are not required 1.39 for shutdown. 1.40 JC) Division II ADS system is not needed since Division I 1.41 RCIC and Division II HPCI systems are available. 1.43 JD) Division II HPCI system- valve 1E41*MOV041 may be 1.44 manually operated. 1.45 4 SHUTDOWN CAPABILITY: 1.47 Hot and cold shutdown are achievable using Division II and 1.49 III systems, Division I RHR with manual operation of valve 1.51 1E11*MOV047 and the RCIC system, or Division II HPCI system, 1.52 if manual operation cf valve 1E41*MOV041 is achievable. Cold 1.54 shutdown is also achievable using the Division II RHR/CS/SRV 1.55 flow path.

11600.02-158ab 12/24/80 055

5. ,FURTHER ACTION RECOMMENDED: 1.58 None 2.2 i

l l

i

11600.02-158ac 12/24/80 055 2

SEGMENT O_2, 1.7 CABLE SEPARATION ANALYSIS 1.9 P_RIMARY CONTAINMENT 1.10

1. SYSTEMS IMPACTED: 1.13 JA) Division I Systems: B21, B31, C61 1.16 JB) Division II Systems: B21, E41 (Div. I) 1.18 JC) Division III Systems: None 1.20

2. SYSTEMS' FUNCTIONS DISABLED: 1.22 JA) No credit taken for Division I systems' functions, other 1.24 than the RHR (Ell) _and the RCIC (E51) systems. 1.27 JB) No credit taken for Division II ADS (B21) system. 1.28 JC) Division II HPCI (E41) system steam supply inboard 1.29

_i_ solation valve JE41*MOV041 (Division I component) . 1.31 3_ . DISABLED FUNCTION EVALUATION: 1.34 JA) Remaining Division I and II systems and Division III 1.36 systems are available for shutdown. 1.37 JB) Division II ADS system is not required since Division I 1.39 RCIC a_nd Division II HPCI systems are available. 1.41 JC) Division II HPCI system valve 1E41*MOV041 may be 1.42 manually p_perated. 1.43 4_ . SHUTDOWN CAPABILITY: 1.46 H_o t and cold shutdown are achievable using Division II and 1.48 III s_ystems, Division I RHR and RCIC systems, or Division II 1.50 HPCI system, if manual ooeration of valve 1E41*MOV041 is 1.52 possible.

5. FURTHER ACTION RECOMMENDED: 1.55 N_one 1.57

11600.02-158ad 12/22/80 054 SEGMENT M 1.7 CABLE SEPARATION ANALYSIS 1.9 PRIMARY CONTAINMENT 1.10

1. SYSTEMS IMPACTED: 1.13 JA) Division I Systems: B31, C61, E11, E51 (Div. II) 1.16 JB) Division Il Systems: E41 (Div. I) 1.18 JC) Division III Systems: None 1.20

2. SYSTEMS

• FUNCTIONS DISABLED: 1.22 JA) No credit taken f or Division I systems' f unctions, other 1.24 than the ADS (B21) system. 1.25 JB) Division II HPCI (E41) system steam supply inboard 1.26 isolation valve 1E41*MOV041. 1.27

3. DISABLED FUNCTION CVALUATION: 1.29 JA) Division II and III systems and Division I ADS systen 1.31 are available for shutdown. 1.32 1B) Division II BPCI valve 1E41*MOV041 may be manually 1.33 operated , but, it may be inaccessible with HPCI steam 1.34 valve operation. Bowever, Division II RHR/CS/SRV tlow 1.35 path is available.

4 SHUTDOWN CAPABILITY: 1.38 Hot shutdown is achievable using the Division II RHR/CS/SRV 1.40 flow path, cold shutdown is achievable using remaining Division II and Division III systems. 1.41

5. FURTHER ACTION RECOMMENDFD: 1.40 None 1.46 I

11600.02-158ae 12/24/80 055 SEGMENT 04 1.7 CABLE SEPARATION ANALYSIS 1.9 PRIMARY CONTAINMENT 1.10

1. SYSTEMS IMPACTED: 1.13 (A) Division I Systems: B21, C61, G33, E11, 1.15 (Division II) E51 1.16 (B) Division II Systems: B21, C61 1.18 (C) Division III Systems: None 1.20

2. SYSTEMS' FUNCTIONS DISABLED: 1.22 JA) No credit taken for Division I systems' functions, 1.25 except for the RER (E 11) shutdown cooling valve 1.26 1E11*MOV047.

JB) Division I RHR (Ell) system bypass valve 1E11*MOV0818. 1.29 JC) No credit taken for Division II ADS (B21) system. 1.31 JD) Division II remote shutdown temperature element 1.33 IC61*TEO22B. -

1.34

3. DISABLED FUNCTIONS EVALUATION: 1.37 JA) Remaining Division II and III systems are available for 1.39 shutdown. 1.40 JB) Division I RHR bypass valve 1E11*MOV081B is not required 1.44 for shutdown.

JC) Division II ADS system is not required since the 1.46 Division II HPCI system is available. 1.47 1C) Use of remote shutdown panel is not required for this 1.49 event. 1.50 4 SHUTDOWN CAPABILITY: 1.52 Hot shutdown is achievable using Division II HPCI system. 1.55 Cold shutdown is achievanle using remaining Division II and 1.56 Division III systems, and the Division I RHR system shutdown 1.57 cooling valve 1E11*MOV047.

5. FURTHER ACTION RECOMMENDED: 2.2 None 2.4 I

11600.02-158af 12/24/80 055 SEGMENT 05 1.7 CABLE SEPARATION ANALYSIS 1.9 PRIMARY CONTAINMENT 1.10

1. SYSTEMS IMPACTED: 1.13 (A) Division I Systems: B21, C61, E11, G33, E51 (Div, II) 1.15 (B) Division II Systems : B21, B31, C61 1.17 (C) Division III Systems: None 1.19

2. SYSTEMS

• FUNCTIONS DISABLED: 1.22 JA) No credit taken for Division I systems other than 1.24 Reactor Recirculation (B31) and RHR (Ell) systems, and ADS JB21) system valves SOv092C and D. 1.25 IB) No credit taken for Division II ADS (B21) system other 1.26 than valves SOV092H, J, and K.

IC) Division II Reactor Recirculation (B31) system valve 1.27 1B31*MOV031B.

JD) Division II Remote Shutdown (C61) system temperature 1.28 element 1C61*TE022B.

(E) Division I RHR (E11) system bypass valve 1E11*MOV081B. 1.29

3. DISABLED FUNCTIONS EVALUATION: 1.32 1A) Division II and III systems and remaining Division I 1.34 systems are available for shutdown.

JB) Division II ADS system valves SOV092H, J, and K are 1.35 available.

JC) Division II Reactor Recirculation system valve 1.37 1B31*MOV031B is not required for shutdown.

JD) Use of remote shutdown panel is not required for this s.38 event.

JE) Division I RHR bypass valve 1E11*MOV081B is not needed. 1.39 4 SHUTDOWN CAPABILITY: 1.42 Hot shutdown is achievable using Division II HPCI system, and 1.44 cold shutdown is achievable using Division I and Division II 1.45 RHR/CS/SRV flow paths.

h

11600.02-158af 12/24/80 055 5_ . FURTHER ACTION RECOMMENDED: 1.48 None 1.50 r

1 I

I i

11600002-158ag 12/23/80 051 SEGMENT 06 1.7 CABLE SEPARATION ANALYSIS 1.9 PRIMARY CONTAINMENT 1.10

1. SYSTEMS IMPACTED: 1.13 (A) Division I Systems: B21, C61, Ell, G33 . 1.15 (B) Division II Systems: B21, B31 1.17 (C) Division III Systems: None 1.19

2. SYSTEMS

• FUNCTIONS DISABLED: 1.22 JA) No credit taken for Division I systems' functions except 1.24 t

Reactor Recirculation (B31) , RER (Ell) and RCIC (E51) 1.25 systems.

JB) No credit taken for Division II ADS (B21) system. 1.26 JC) Division II Reactor Recirculation (B31) system valve 1.27 1B31*MOV031B.

JD) Division I RHR (Ell) system valves 1E11*MOV047 and 1.28 1E11*MOV081B.

3. DISABLED FUNCTION EVALUATION: 1.30 l

JA) Remaining Division I and II systems and Division III 1.32

! systems are available for shutdown. 1.33 JB) Division II ADS system is not required since Division II 1.34 HPCI and Division I RCIC systems are available for hot 1.35 l shutdown, and Division I ADS is available for the Division II RHR/CS/SRV flow path.

( JC) Division II Reactor Recircula tion system valve is not 1.36 required.

JD) Division I RHR shutdown cooling valve 1E11*MOV047 may be 1.37 manually operated, and bypass valve 1E11*MOV001B is not 1.38 required for shutdown.

4 SHUTDOWN CAPABILITY: 1.41 Hot shutdown is achievable using Division I RCIC or Division 1.43 II HPCI system. Cold shutdown is achievable using Division I 1.44 ADS valves and Division II RHR/CS/SRV flow path. 1.45 l

5. FURTHER ACTION RECOMMENDED: 1.48 l None 1.50 l

l l

9 8 D 11600.02-158u 12/24/80 051 APPENDIX B 1.5 SEPARATION ANALYSIS RESULTS 1.7 SECONDARY CONTAINMENT 1.9

(

l l

i l

t l

l i

11600.02-158o 12/24/80 059 SEGMENT 008-N1 1.b SEPARATION ANALYSIS 1.7 SECONDARY CONTAINMENT 1.b

1. SYSTEMS IMPACTED: 1.11 (A) Division 1 System: Ell, P41, P42, T46 1.13 (B) Division II Systems: P41 1.15 (C) Division III Systems: None 1.17 2 ~. SYSTEMS' FUNCTIONS DISABLED: 1.19 JA) No credit taken for Division I systems' functions, 1.22 o_ther than the RHR (Ell) system shutdown cooling 1.23 inboard isolation valve 1E11*MOV047. 1.24 JB) Division II SW (P41) system fuel pool drain valve 1.27 1P41*MOV043.

JC) Division I and II SW (P41) system drain valves 1.29 1P41*MOV039A,B. 1.30 JD) Division I and II SW (P41) systems ultimate cooling 1.33 valves 1P41*MOV033A,B, C, D.

3. DISABLED FUNCTION EVALUATIONS: 1.35 JA) Division II and III systems are available. 1.37 IB) Fuel pool cooling can be effected by intermittent use 1.40 of Division II RHR system.

IC) Division I and II SW systems drain valves are not 1.42 r_equired since Division II RHR system is available. 1.44 JD) Division I and II SW system ultimate cooling valves 1.47 are not necessary since Division II RHR s_ystem is 1.48 available.

4_ . SHUTDOWN CAPABILITY: 1.50 Hot and cold shutdown are achievable using Division II and 1.53 I III systems.

l

5. FURTHER ACTION RECOMMENDED: 1.55 None 1.57 l

l i

t

11600.02-158o 12/24/80 059 SEGMENT 008-N2 2.2 SEPARATION ANALYSIS 2.3 UECONDARY CONTAINMENT 2.4

1. SYSTEMS IMPACTED: 2.7 (A) Division I Systems  : Ell, E21, P41, P42, T46 2.9 (B) Division II Systems : None 2.11 (C) Division III Systems: E11 (C) 2.13

2. SYSTEMS' FUNCTIONS DISABLED: 2.16 No credit taken for Division I and III (C) systems' 2.18 functions, other than the RHR (Ell) system shutdown cooling 2.19 inboard isolation valve 1E11*MOV047.

3. DISABLED FUNCTION EVALUATION: 2.21 Division II and III (D) systems are available. 2.23 4 SHUTDOWN CAPABILITY: 2.25 Hot and cold shutdown are achievable using Division II and 2.27 III (D) systems. 2.28

p. FURTHER ACTION RECOMMENDED: 2.31 N_one 2.33 l

t i

t e

c - , ,w--.w- , , , - -, ,, ,, -

l I

11600.02-158o 12/24/80 059 l l

SEGMENT _008-N3 2.37 SEPARATION ANALYSIS 2.38 l SECONDARY CONTAINMENT 2.39 ,

1. SYSTEMS IMPACTED: 2.42 (A) Division I Systems: B21, B31, C41, E11, E21, E51, 2.44 G33, Gul, P41, P42, T46, Z93 2.45 (B) Division II Systems: E41 (Div. I components only) 2.47 (C) Division III Systems: None 2.49

2. SYSTEMS ' FUNCTIONS DISABLED: 2.51 JA) No credit taken f or Division I systems' f unctions. 2.54 JB) Division II HPCI (E41) system will not tolerate 2.56 spurious. action of its Division I components. These 2.58 include pressure switches which are connected locally either in parallel or in series and run back to the H11-P617 panel as a single wire pair (1E41*PS025ASC, 3.1 1E41*PS023ASC, and 1E41*PDS022A) .

JC) RHR (Ell) system shutdown cooling inboard isolation 3:3 valve 1E11*MOV047 3.4

3. DISABLED FUNCTION EVALUATION: 3.6 1A) Division II and III systems are available. 3.8 JB) Division II RHR/CS/SRV flow path is available. 3.10 IC) RHR system valve 1E11*MOV047 can be manually operated. 3.12 4 SHUTDOWN CAPABILITY: 3.14 Hot shutdown is achievable using Division II RHR/CS/SRV flow 3.16 gath. 3.17 Cold shutdown is achievable using Division II RHR with 3.19 manual operation of valve 1E11*MOV047, or Division II 3.20 RHR/CS/SRV circulation / suppression pool cooling mode.

In some instances the HPCI System could be used for hot 3.22

, shutdown if the following cables are protected: 3.23 i

1E41 ARC 404 3.26 1E41 ARC 405 3.27 1E41 ARC 408 3.28 t

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

11600.02-158o 12/24/80 059 S_ . FURTHER ACTION RECOMMENDED: 3.32 Separate the " red" cables associated with tne HPCI pressure 3.34

,s_w itches 1E41*PS022ASC, 1E41*P5023A and 1E41*PDS025A6C, from 3.35 the RCIC " red" cables so that HPCI may be available for hot 3.36 q shutdown.

. A_lternatively, protect the affected r_aceways using thermal 3.40 barriers such as Kaowool blankets.

I

6. ACTION TO BE TAKEN 3.42 Affected conduits will be protected by thermal barriers 3.44 JKaowool blankets). 3.45 j

l l

i 6

f

11600.02-158o 12/24/80 059 SEGMENT 008-N4 3.48 SEPARATION ANALYSIS 3.49 SECONDARY CONTAINMENT 3.50

1. SYSTEMS IMPACTED: 3.53 (A) Division I Systems: 321, C61, Ell, E21, E51, Z93 3.55 (B) Division II Systems: E41 (including Div. I 3.57 components) 3.58 (C) Division III Systems: E 11 (C) , P4 2 (C) , T46 4.2

2. SYSTEMS' FUNCTIONS DISABLED: 4.4 JA) No credit taken for Division I or III systems' 4.7 functions, other than the RHR (E11) system shutdown 4.9 cooling inboard isolation valve 1E11*MOV047. 4.10 JB) No credit taken for Division II HPCI (E41) systems' 4.12 functions. 4.13

3. DISABLED FUNCTION EVALUATION: 4.15 Division II RHR/CS/PRV flow path is availanle. 4.17 4 SHUTDOWN CAPABILITY: 4.20 Hot shutdown is achievable using Division I and II 4.23 RHR/CS/SRV flow path. 4.24 In some instances the HPCI system could be used for hot 4.27 shutdown if the f ollowing cables are protected. 4.28 1E41ARX449 4.31 1E41ARX450 4.32 1E41ARX451 4.33 1E41ARX452 4.34 l

Cold shutdown is achievable using Division II normal RHR. 4.36

5. FURTHER ACTION RECOMMENDED: 4.39 Separate the " red" cables associated with the HPCI 4.41 temperature elements 1E41*TE054 and 1E41*TE055 from the RCIC 4.42 l " red" cables so that HPCI may be available for hot shutdown. 4.u3 Alternatively, protect the affected raceways using thermal 4.45 barriers such as Kaowool blankets. 4.46 l Also the reduction of fire hazard in the vicinity of the 4.48

( HPCI and RCIC pumps and surrounding raceways may make 4.49-l available the RCIC or HPCI systems as alternative to using i

the RHR/CS/SRV flow path. 4.50 i t

+

11600.02-158o 12/24/80 059 6, . ACTION TO BE TAKEN 4.52 Affected conduits will be protected by tnermal barriers 4.54 JKaowool blankets). 4.55 To reduce the fire hazard in the HPCI/RCIC area, the 4.57 following will be provided: 4.58 JA) Additional water spray, cable tray bottoms on selected 5.2 horizon';al " Red" trays, and thermal barrier (Kaowool 5.3 blanket.s) on selected " Red" conduits.

JB) Curbe around the HPCI and RCIC turbines. 5.5 JC) Additional local smoke detection. 5.7 JD) A partial fire barrier between vertical cable trays 5.9 and the adjacent RCIC turbine. 5.10 I

a i

1

...___-..--',L .,_,I y.7 , -. . , , . , - - , . , . . . . . . , _ , . . - , - . -.w... - - - . . - - , . - .- -- ,-

11000.02- 158o 12/24/80 059 SEGMENT 008-N5 5.13 SEPARATION ANALYSIS 5.14 SECONDARY CONTAINMENT 5.15

1. SYS".' EMS IMPACTED: 5.18 (A) Division I Systems: B21, E51 (including Div. II 5.20 components) 5.21 (B) Division II Systems: 321, B31, C41, C61, E11, E21, 5.23 E41 (including Division I 5.24 components) , G33, G41, P41, 5.25 P42, T46, Z93 5.26 (C) Division III Systems: C61, P41, P42, T46 5.28

2. SYSTEMS

• FUNCTIONS DISABLED: 5.30 JA) No credit taken for Division II and III systems' 5.33 functions, other than the RHR (E 11) system shutdown 5.34 cooling outboard isolation valve 1E11*MOV048.

JB) Reactor low water level switch 1B21*L1SO27C only 5.36 impacts Division I RCIC (E51) and RHR (E11) systems. 5.37 JC) No credit taken for Division I RCIC (E51) system. 5.39

3. DISABLED FUNCTION EVALUATION: 5.41 JA) Division I RHR/CS/SRV flow path is available. 5.43 JB) Reactor low water level switch 1B21*L1SO27C is one out 5.45 of two Division I sensors, and the redundant unit 5.46 1B21*L1SO27A remains functional. 5.47 4 SHUTDOWN CAPABILITY: 5.49 Hot shutdown is achievable using Division I RHR/CS/SRV flow 5.51 path with a manual pressure reduction and Division I CS 5.52 system (E21) providing makeup.

In some instances the HPCI or RCIC systems could be used for 5.54 hot shutdown if the f ollowing cables are protected: 5.55 (a) 1E41 ARC 405 (b) 1E51BBC310 5.58 1E41ARX449 1E51BBX431 6.1 i

1E41ARX450 1E51BBX432 6.2 1E41ARX451 1E51BBX433 6.3 1E41ARX452 1E51BBX434 6.4 Cold shutdown is achievable using Division I RHR system. 6.6 i

11600.02-158o 12/24/80 059

5. FURTHER ACTION RECOMMENDED: 6.10 leparate the " red" cables under 4 (a) above associated with 6.12 the HPCI pressure switches 1E41*PS025A and C and temperature 6.13 elements 1E41*TE054A and 1E41*TE055A from the RCIC " red" 6.14 cables so that HPCI may be available for hot shutdown.

Also, separate the " blue" cables under item 4 (b) above 6.18 associated with the RCIC pressure switches 1E51*PS025B and D and temperature elements 1E51*TE053B and 1E51*TE054B from 6.19 the HPIC " blue" cables so that RCIC may be available for hot shutdown.

In addition the reduction of fire hazard in the vicinity of 6.21 the HPCI and RCIC pumps and surrounding raceways may make 6.22 availabl'e the RCIC or HPCI systems as alternative to using the RHR/CS/SRV flow path. 6.23 Alternatively, protect the effected raceways using thermal 6.26 barriers such as Kaowool blankets.

i

o. ACTION TO BE TAKEN 6.28 Artected conduits will be protected by thermal barriers o.30 JKaowool blankets). 6.31 To reduce the fire hazard in the HPCI/RCIC area, the 6.33 following will be provided: 6.34 JA) Additional water spray, cable tray bottoms on selected 6.36 horizontal " Red" trays, and thermal barrier (Kaowool 6.37 blankets) on selected " Red" conduits.

IB) Curbs around the HPCI and RCIC turbines. 6.39 JC) Additional local smoke detection. 6.41 JD) A partial fire barrier between vertical cable trays 6.43 and the adjacent RCIC turbine. 6.44 i

11600.02-158o 12/24/80 059 SEGMENT 008-N6 6.47 SEPARATION ANALYSIS 6.48 SECONDARY CONTAINMENT 6.49

1. SYSTEMS I"PACTED: 6.52 (A) Division I Systems: E51 (including Div. II 6.54 components) 6.55 i (B) Division II Systens: B21, B31, C41, C61, E11, It21, 6 57 E41, G33, G41, P41, P42, T46, 6.58 Z93 7.1 (C) Division III Systems: E11 (D) 7.3

2. SYSTEMS' FUNCTIONS DISABLED: 7.5 JA) No credit taken for Division I RCIC (E51) systems' 7.8 functions. 7.9 JB) No credit taken for Division II systems' functions. 7.11 JC) No credit taxen for Division III RHR (E11) (D) system 7.13 functions. 7.14 JD) RHR (Ell) system shutdown cooling outboard isolation 7.16 valve 1E11*MOV048. 7.17 l

3. DlJABLED FUNCTION EVALUATION: 7.20

[ JA) RHR system valve 1E11*MOV047 can by manually operated. 7.22 JB) Division I RHR/CS/SRV flow path is available. 7.25 4 SHUTDOWN CAPABILITY: 7.27 H )t shutdown is achievable using Division I RHR/CS/SRV flow 7.29 path with a manual pressure reduction and Division I CS 7.30 system (E21) providing makeup.

In some instances the RCIC system could be used for hot 7.33 shutdown if the following cables are protected:

1E51BBC2'.0 -

7.36 1E51BBC320 7.37 1E51BBC322 7.38 Cold shutdown is achievable using Division I RHR system 1 7.41 l with manual operation of valve 1E11*MOV048, or Division I 7.42 l

RHR/CS/SEV circulatory / suppression pool cooling modes.

1 i

k i

11600.02-158o 12/24/80 059

5. FURTHER ACTION RECOMMENDED: 7.45 geparate the ablue" cables associated with the RCIC pressure 7.48 switches 1E51*PS022B, 1E51*PS023B and D, and 1E51*P5025B and D from the ablue" HPCI cables, so that RCIC may be available 7.49 for hot shutdown.

Alternatively, protect the a_ffected raceways using thermal 7.53 barriers such as Kaowool blankets.

i

6. ACTION TO BE TAKEN 7.55 Affected conduits will be protected by thermal barriers 7.57 JKaowool blankets). 7.58 4

l i

n- - -- ,,,.,.--w- . . , . . ,,. , - - , - . , ,- -

a 4

11600.02-158o 12/24/80 059 SEGMENT 008-N7 8.3 SEPARIsTION ANALYSIS 8.4 SECONDARY CONTAINMENT 8.5

1. SYSTEMS IMPACTED: 8.8 (A) Division I Systems: None 8.10 (B) Division II Systems: B21, C61, Ell, E21, P41, P42, 8.12 i Z93 8.13 (C) Division III Systems: E11 (D) 8.15

2. SYSTEMS ' FUNCTIONS DISABLED : 8.17 JA) No credit taken for Division II systems' functions, 8.20

o_ther than the RHR (Ell) system shutdown cooling 8.21 l outboard isolation valve 1E11*MOV048.

JB) No credit taken for Division III (D) systems' 8.23 f_ unctions. 8.24

3. DISABLED FUNCTION EVALUATION: 8 26 Division I and III(C) systems are available. 8.28 4 SHUTDOWN CAPABILITY: 8.31 Hot and cold shutdown are achievable using Division I and 8.33 III (C) systems. 8.34

{ 5. FURTHER ACTION RECOMMENDED: 8.37 None 8.39 l

l l

t f

= . - - . _ _ _ - _ . _ _ _ -

11600.02-158o 12/24/80 059 i

SEGMENT 008-N8 8.42 SEPARATION ANALYSIS 8.43 SECONDARY CONTAINMENT 8.44

1. SYSTEMS IMPACTED: 8.47 (A) Division I Systems: P41, P42, T4 6 8.49 (B) Division II Systens: B21, C61, Ell, E41, P41, P42, 8.51 Z93 8.52 (C) Division III Systems: None 8.54

2. SYSTEMS

• FUNCTIONS DISABLED: 8.56 JA) No credit taken for Division II systems' functions, 9.1 other than RHR (Ell) system shutdown cooling outboard 9.2 isolation valve 1E11*MOV048.

JB) Division I SW (P41) and RBCLCW (P4 2) system affected 9.4 components gesult in the loss of Division I RBCLCW 9.5 system.

JC) Division I RBSVS (T46) system unit cooler 1T46*UC002A. 9.8

3. DISABLED FUNCTION EVALUATION: 9.11 1A) Division I and III systems are available. 9.13 JB) Division I RHR system shutdown cooling mode using the 9.16 Division II RBCLCW system is unavailable; however, the 9.17 Division I RHR/CS/SRV flow path is available.

JC) Division I RBSVS unit cooler 1T46*UC002A impacts 9.19

, Division II equipment. 9.20 4 SHUTDOWN CAPABILITY: 9.22 Hot shutdown is achievable using Division I RCIC system. 9.24 Cold shutdown is achievable using Division I RHR/CS/SRV flow 9.26 gath. 9.27 l -S. FURTHEh ACTION RECOMMENDED: 9.29 I

! jtone 9.31 l

I l

11600.02-1581 12/24/80 051 SEGMENT 008-01 1.5 SEPARATION ANALYSIS 1.6 SECONDARY CONTAINMENT 1.7

1. SYSTEMS IMPACTED: 1.10 (A) Division I Systems: E11, P41, P42, T46 1.12 (B) Division II System: P41 1.14 (C) Division III Systems: None 1.16

2. SYSTEMS

• FUNCTIONS DISABLED: 1.19 JA) No credit taken for Division I system f unctions, other 1.22 than the RHR (Ell) system shutdown cooling inboard isolation valve 1E11*MOV047.

JB) Division II SW (P41) system fuel pool drain valve 1.25 1P41*MOV043.

JC) Divisions I and II SW (P41) system drain valves 1.28 1P41*MOV03A and B.

JD) Divisions I and II SW (P41) systems ultimate cooling 1.30 valves 1P41*MOV033A, B, C, and D. 1.31

3. DISABLED FUNCTION EVALUATION: 1.34 JA) Division II and III systems are available. 1.3b JB) Fuel pocl cooling can be effected by intermittent use 1.39 of Division II RHR (Ell) system, instead ot the SW 1.40 t

system.

JC) Divisions I and II SW system drain valves not 1.43 necessary since Division II RHR system is available. 1.44 JD) Divisions I and II SW system supply valves are not 1.46 necessary since Division II RHR system is available. 1.48 4 SHUTDOWN CAPABILITY: 1.50 Hot and cold shutdown are achievable using Division II 1.52 and III systems. 1.53 I

I 5. FURTHER ACTION RECOMMENDED: 1.55 l

j t one 1.57 t

l l

l I

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

11600.02-158i 12/24/80 051 SEGMENT 008-02 2.2

SEPARATION ANAI.YSIS 2.3 SECONDARY CONTAINMENT 2.4

1. SYSTEMS IMPACTED: 2.7 (A) Division I Systems: E11, E21, P41, P42, T46 2.9 (B) Division II Systems: None 2.11 (C) Division III System: E 11 (C) 2.13 l

2. SYSTEMS' FUNCTIONS DISABLED: 2.16 No credit taken for Division I and III(C) systems functions, 2.19 other than RHR (Ell) system shutdown cooling inboard

isolation valve 1E11*MOV047.

l 3_ . DISABLED FUNCTION EVALUATION: 2.21 Division II and III (D) systems are available. 2.23 4 SHUTDOWN (/ !\BILITY: 2.25 Hot and c, .d shutdown are achievable using Division II and 2.28 l III (D) systais.

5. FURTHER ACTION RECOMMENDED: 2.31

None 2.33 l

l l

l l

l l

l

11600.07-158i 12/24/80 051 SEGMENT 008-03 2.37 SEPARATION ANALYSIS 2.38 SECONDARY CONTAINMENT 2.39

1. SYSTEMS IMPACTED: 2.42 (A) Division I Systems: B21, B31, C41, E11, E21, E51, 2.44 G33, G41, P41, P42, T46, Z93 2.45 (B) Division II Systems: E41 (Div. I components only) 2.47 (C) Division III System: E11 (C) 2.49

2. SYSTEMS' FUNCTIONS DISABLED: 2.51 JA) No credit taken for Division I and III (C) systLms' 2.54 functions. 2.55 JB) Division II HPCI (E41) system will not tolerate 2.57 spurious actions of its Division I components. These 2.58 include valve 1E41*MOV041 and pressure and level switches. These switches are either in parallel or 3.1 series connected locally and run back to the H11-Pb17 3.2 panel as a single wire pair. 3.3 JC) RHR (E ll) system shutdown cooling inboard isolation 3.5 valve 1E1'l*MOV047. 3.6

3. DISABLED FUNCTION EVALUATION: 3.8 1A) Division II systems are available. 3.10 t

JB) HPCI system valve 1E41*MOV041 wi21 have to De manually 3.12 operated. Field inspection indicated that it is not 3.13 possible to relocate the valve cable 1E41NRC14b away l from this segment so as to maintain remote valve 3.14

operation. Division II is available. 3.15 IC) RHR system valve 1E11*MOV047 can be manually operated. 3.17 4 SHUTDOWN CAPABILITY: 3.19 Hot shutdown is achievable using Division II and III JD) 3.22 RHR/CS/SRV flow path.

l l

1 l

l l t

(

11600.02-158i 12/24/80 051 In some instances the HPCI system could be used for hot 3.26 snutdown, it the following cables are protected:

1E41 ARC 404 3.29 1E41 ARC 405 3.30 1E41 ARC 408 3.31 Cold shutdown is achievable using Division II RRR with 3.34 I

manual operation of valve 1E11*MOV048, or Division II and 3.35 III JD) RHR/CS/SRV circulatotfs'2ppression pool cooling flow 3.37 path.

j 5. FURTHER ACTION RECOMMENDED: 3.39 Separate the " red" cables associated with the HPCI pressure 3.41 switches 1E41*PS023A and C, 1E41*PS025A and C, and 1E41*PDS022A from the " red" RCIC cables, so that HPCI may be 3.43 available for hot shutdown. Alternatively, protect the 3.44 affected raceways using thermal barriers such as Kaowool 3.45 blankets.

6. ACTION TO BE TAKEN 3.47 Aftected conduits will be protected by thermal barriers 3.49 i

JKaowool Blankets). 3.50 I

i

e e

• e 11600.02-1581 12/24/80 051 SEGMENT 008-04 3.53 SEPARATION ANALYSIS 3.54 SECONDARY CONTAINMENT 3.55

1. SYSTEMS D4PACTED : 3.58 (A) Division I System: E51 4.2 (B) Division II System: E41 (including Div. I 4.4 components) 4.5 (C) Division III Systems: None 4.7

2. SYSTEMS' FUNCTIONS DISABLED: 4,10 JA) No credit taken for Division I RCIC (E51) system 4.12 functions. 4.13 IB) No credit taken for Division II HPCI (E41) system 4.15 functions. 4.16

3. DISABLED FUNCTION EVALUATION: 4.18 Divisions I and II RHR/CS/SRV flow paths are available. 4.21 4 SHUTDOWN CAPABILITY: 4.24 Hot shutdown is achievable using the Divisions I and II 4.26 EHR/CS/SRV flow path with a manual pressure reduc tion and 4.28 Division I or II CS systems (E21) providing makeup.

In some instances the HPCI system could be used for hot 4.32 shutdown if the following cables are protected:

1E41 ARC 405 4.35 1E41ARX450 4.36 1R41ARX451 4.37 1E41ARX452 4.38 Cold shutdown is achievable using Division I or II EHR 4.42 system.

5. FURTHER ACTION RECOMMENDED: 4.44 Separate the " red" cables associated with the HPCI pressure 4.47 switches 1E41*PS025A and C and temperature elements 1E41-TE054A and 1E41-TE055A from the " red" RCIC cables, so that 4.48 HPCI may be available for hot shutdown.

Alternatively, protect the affected raceways using thermal 4.51 bariers such as Kaowool blankets.

In addition, the reduction of fire hazard in the vicinity of 4.53 the HPCI and RCIC pumps and surrounding raceways may make 4.55

e

• l 11600.02-1581 12/24/80 051 available the RCIC or HPCI system as alternative to using 4.57 the RHR/CS/SRV flow path.

t

6. ACTION 'IO BE TAKEN 5.2 Affected conduits will be protected by thermal barriers 5.4 JKaowool Blankets). 5.5 i j To reduce the fire hazard in the HPCI/RCIC area, the 5.8 following will be provided: 5.9 s

l JA) Additional water spray, cable tray bottoms on selected 5.11 i horizontal " Red" trays, and thermal barrier (Kaowool 5.12 Blankets) o,n selected " Red" conduits. 5.13 JB) Curbs around the HPCI and RCIC turbines. 5.15 JC) Additional local smoke detection 5.18 JD) A partial fire barrier between vertical cable trays 5.20 and the adjacent RCIC turbine. 5.22 4

d 4

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

11600.02-1581 12/24/80 051 SEGMENT 008-05 5.25 SEPARATION ANALYSIS 5.26 SECONDARY CONTAINMENT 5.27

1. SYSTEMS IMPACTED: 5.30 (A) Division I System: E51 (including Div. II 5.32 components) 5 33 (B) Division II Systems: B21, B31, C41, C61, E11, E21, 5.35 E41 (including Division I 5.36 components) , G33, G41, P41, P42, 5.37 T46, Z93 5.38 (C) Division III Systems: E11 (D) , C61 (D) , P41 (D) , P42 (C) , 5.40 T46 5.41

2. SYSTEMS

• FUNCTIONS DISABLED: 5.44 JA) No credit taken for Division I RCIC (E51) system 5.46 functions. 5.47 JB) No credit taken for Division II system functions. 5.49 JC) No credit taken for Division III system functions. 5.51 JD) RHR (E11) system shutdown cooling outboard isolation 5.53 valve 1E11*MOV048. 5.54 3_ . DISABLED FUNCTION EVALUATION: 5.56 i

JA) RHR system valve 1E11*MOV047 can be manually operated. 5.58 JB) Division I RHR/CS/SRV flow path is available. 6.2 l _4_ . SHUTDOWN CAPABILITY: 6.4 i

Hot shutdown is achievable using the Division I RHR/CS/SRV 6.6 flow path with a manual pressure reduction and Division I CS 6.8 system (E21) providing makeup.

I_n some instances the HPCI or RCIC systems could be used for 6.10 h_ot shutdown if the following cables are protected: 6.11 l (a) 1E41ARX449 (b) 1E51BBC310 6.14 1E41ARX450 1E51BBC320 6.15 1E41ARX451 1E51BBC422 6.16

(

1E41ARX452 1E51BBX431 6.17 1E51BBX432 6.18 1E51BBX433 6.19 1E51BBX434 6.20 l

l l

t I

(

,o y, ~

11600.02-1581 12/24/80 051 Cold shutdown is achievable using the normal RHR system with 6.24 4

manual operation of valve 1E11*MOV048, or Division I 6.25 RHR/CS/SRV circulation / suppression pool cooling flow path. 6.26

5. FURTHER ACTION RECOMMENDED: 6.28 Separate the " red" HPCI cables under Item 4 (a) above 6.30 associated with temperature elements 1E41*TE054A and 6.31 1E41

• TE055A from the RCIC ared" cables so that HPCI may be available for hot shutdown. 6.32 Also, separate the " blue" RCIC cables under Item 4 (b) above 6.35 associated with pressure switches 1E51*PS022B, 1Eu1*PS023B and D and 1E51*PS025B and D, and temperature elements 6.36 1E51*TE0533 and 1E51*TE054B from the HPCI " blue" cables so that RCIC may be available for hot shutdown. 6.37 Alternatively, protect the affected raceways using thermal 6.40 barriers such as Kaowool blankets.

6. ACTION TO BE TAKEN 6.43 Affected conduits will be protected by thermal barriers 6.45 JKaowool Blankets). 6.46 i

j . g .. e

! II [

11600.02-1581 12/24/80 051 SEGl1ENT 008-06 6.51 SEPARATION ANALYSIS 6.52 SECONDARY CONTAINMENT 6.53

1. SYSTEMS IMPACTED: 6.56 (A) Division I System: None 6.58 (B) Division II Systems: B21, C41, C61, Ell, E21, E41, 7.2 Gul, P41, P42, T46, 293 7.3 (C) Division III System: E11 (D) 7.5

2. SYSTEMS 8 FUNCTIONS DISABLED: 7.8 JA) No credit taken for Division II system functions, 7.10 other than RHR (Ell) system shutdown cooling outboard 7.11 isolation valve 1E11*MOV048.

1B) No credit taken for Division III(D) system functions. 7.14

3. DISABLED FUNCTION EVALUATION: 7.16 Divisions I and III(C) systems are available. 7.18 4 SHUTDOWN CAPABILITY: 7.21 Hot and cold shutdown are achievable using Divisions I and 7.23 III JC) systems. 7.25

5. FURTHER ACTION RECOMMENDED: 7.28 None 7.30

• 5.* l 11600.02-1581 12/24/80 051 SEGMENT 006-07 7.33 SLPARATION ANALYSIS 7.34 SECONDARY CONTAINMENT 7.35

1. SYSTEMS IMPACTED: 7.38 (A) Division I Systems: P41, T46 7.40 (B) Division II Systems: Ell, E41, P41, P42, T46, Z93 7.42 (C) Division III Systems: None 7.44

,2, . SYSTEMS

• FUNCTIONS DISABLED: 7.47 JA) No credit taken for Division II system functions, 7.49 other than RHR (E11) system shutdown cooling outboard 7.50 isolation valve 1E11*MOV048.

fB) Division I SW (P41) system affected components result 7.52 in the loss of D_ivision I RBCLCW (P42) system. 7.53 JC) Division I RBSVS (T46) system unit cooler 1T46*UC002A. 7.55 3_ . DISABLED FUNCTION EVALUATION: 7.58 JA) Division I and III systems are available. 8.3 JB) Division I RHR (Ell) system shutdown cooling mode 8.6 using the D_ivision II R_BCLCW system is unavailable; 8.8 however, the RHR/CS/SRV flow path is availaole. 8.9 JC) Division I RBSVS system unit cooler 1T46*UC002A 8.11 impacts p_ivision II equipment. 8.12 l 4_ . SHUTDOWN CAPABILITY: 8.14 Hot shutdown is achievable using Division I RCI'C system. 8.16 p_old shutdown is achievable using Division I RHR/CS/SRV flow 8.18 p_ath. 8.19 5_ . FURTHER ACTION RECOMMENDED: 8.21 N_one 8.23

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11600.02-158i 12/24/80 051 SEGMENT 008-08 8.26 .24 SEPARATION ANALYSIS 8.27 SECONDARY CONTAINMENT 8.28 .27

1. SYSTEMS IMPACTTD: 8.31

.29 (A) Division I Systems

E ll, P41, P42, T4 6 8.33 .30

.32 (B) Division II Systems: Ell, P41, P42 8.35 (C) Division III Systems: None 8.37 .36

2. SYSTEMS

• FUNCTIONS DISABLED: 8.40 .39 JA) Divisions I and II RHR (E11) system heat exchanger 8.42 inlet valves 1E11*MOV033A and B. 8.43 JB) Direct cooling of fuel pool by both Division I and II 8.45 of SW (P41) systems. 8.46 1C) RHR (E11) system emergency cooling backup from SW 8.48 (P41) system for both Divisions I and II. 8.49 JD) Ultimate cooling supply valves 1P41*MOV033A,B,C, and 8.51 D) of Divisions I and II SW (P41) systems. 8.52 JE) SW (P41) and RBCLCW (P4 2) systems ' sides of the RBCLCW d.54 system heat gxchangers for both Divisions I and II. 8.55 JF) Division I RBSVS (r46) system unit cooler 1T46*UC002A. 8.58

3. DISABLED FUNCTION EVALUATION: 9.3 JA) Divisions I and II RHR system heat exchanger inlet 9.5 valves 1E11*MOV033A and B are physically located 9.6 outside this segment and could be manually operated in order to use the RHR system heat exchangers.

JB) Fuel pool cooling can be effected by intermittent use 9.8 of Division I Rhh system. 9.9 JC) SW ultimate cooling not required for shutdown 9.11 JD) Cross-conne ction of Divisions I and II of SW systems 9.13 is not necessary since both the SW divisions are 9.14 s.eparately available.

JE) Division I RHR shutdown cooling modes are unavailable; 9.16 however, Division I and II RHR/CS/SkV flow paths are 9.17 available. 9.18 JF) Division I RBSVS system unit cooler 1T46*VC002A 9.20 impacts Division II equipment. 9.21

11200.02-1581 12/20/80 051 j g..- -

4 $WOTtXJ'N CAPABILITY; S; M '

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,iict adautdown iu achievable using the givision I IfPCI or g,*,J.7 D".'icien II P.CIC cyt t=.. -

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Cold shu t.6rm is achievable u.sina Divisionu I and II & Pi

[*S/CS/DN fIcn pa t.hc trith the Pfm synteu uacd in' h M mgpre.731on naol _ cooling, and n:mtal cperation of valvea '#, . 3 2 1311cFaV33A and B. u,,

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