Final Rept,Response to 10CFR50 App R `Alternate Shutdown Capability.'

ML20081E517
Person / Time
Site:	Point Beach
Issue date:	10/31/1983
From:	WISCONSIN ELECTRIC POWER CO.
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NUDOCS 8311020097
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d Point Beach Nuclear Plant Units 1 & 2 FINAL REPORT RESPONSE TO 10 CFR 50 APPENDIX R

" ALTERNATE SHUTDOWN CAPABILITY" October 1983 0

WISCONSIN ELECTRIC POWER COMPANY by DR DO O 002 6 F PDR

POINT BEACH NUCLEAR PLANT UNITS 1 & 2 Table of Contents SECTION PAGE

1. INTRODUCTION 1-1 1.1 Objectives 1-1 1.2 Scope 1-1 1.3 Background 1-2 1.3.1 Results of Analysis 1-5 1.4 Governing Regulatory Guidelines 1-3 1.4.1 Criteria 1-8 1.4.2 Interpretation of Guidelines 1-9 References 1-12

2. ALTERNATE SHUTDOWN SYSTEMS AND COMPONENTS 2 -1 METHOD OF INVESTIGATION 2.1 Introduction 2-1 2.1.1 Design Basis Events 2-2 2.2 Description of Safety Functions 2-2 2.2.1 Reactivity Control 2-3 2.2.2 Reactor Coolant Makeup Control 2-3 2.2.3 Reactor Coolant Pressure Control 2-3 2.2.4 Reactor Heat Removal 2-4 2.2.5 Process Monitoring 2-4 2.2.6 Miscellaneous Supporting Functions 2-5 2.2.7 Discussion 2-5 2.3 Analysis of Safe Shutdown Systems 2-6 2.3.1 Introduction 2-6 2.3.2 Initial Assumptions 2-7 2.3.3 Definitions 2-8 2.3.4 Achievement of Safe Shutdown Functions 2-8 2.3.4.1 Reactivity Control Function 2-8 2.3.4.2 Reactor Coolant Makeup Control 2-9 2.3.4.3 Reactor Coolant Pressure Control 2-10 2.3.4.4 Reactor Heat Removal Function 2-11 2.3.4.5 Process Monitoring Function 2-12 2.3.4.6 Supporting Functions 2-15 2.4 Safe Shutdown Systems 2-15 i

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Table of Contents (continued) l SECTION PAGE 2.4.1 Chemical and Volume Control System (CVCS) 2-15 2.4.2 Reactor Coolant System 2-19

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2.4.3 Main Steam System 2-21 2.4.4 Auxiliary Feedwater System 2-24 2.4.5 Residual Heat Removal System 2-26 2.4.6 Component Cooling Water System 2-29 2.4.7 Service Water System 2-31 2.4.8 Emergency Power System 2-34 2.5 Identification of Safe Shutdown System Components 2-41

3. SAFE SHUTDOWN COMPONENT CIRCUIT ANALYSIS 3-1 3.1 Identification of Safe Shutdown Component circuit and cables 3-1 3.1.1 Appendix R Section III.G. Evaluation Diagram and Separation Analysis 3-2 3.2 Associated Circuits of Concern 3-4 3.2.1 Introduction 3-4 3.2.2 Identification of Associated Circuits by Common Power Supply and Common Enclosures 3-5 3.2.3 Circuits Causing Spurious Operation 3-7

4. PROPOSED MODIFICATIONS FOR ALTERNATE SHUTDOWN CAPABILITY 4.1 Introduction 4-1 4.2 Areas Requiring Alternative Shutdown 4-1 4.3 RCS Monitoring - Alternative Shutdown Modifications 4-4 4.3.1 Safe Shutdown Cables and Instruments 4-4 4.3.2 Proposed Modifications 4-5 4.3.3 Source Range Flux Monitoring 4-8 4.4 CVCS Charging Pumps Alternate Shutdown Modifications 4-8 4.4.1 Safe Shutdown Cables and Equipment 4-9 4.4.2 Proposed Modifications 4-10 4.5 Emergency Generator Control Alternate Shutdown Modifications 4-12 4.5.1 Safe Shutdown Cables and Equipments 4-13 4.5.2 Emergency Diesel Generator Modifications 4-14 4.6 Excess Letdown Isolation MOV Modifications 4-16 4.6.1 Safe Shutdown Cables and Equipments 4-17 4.6.2 Proposed Modifications 4-17 4.7 Response to the Generic Letter 81-12 Request for Additional Information 4-18 ii 1

Trble of Contents (continu:d) i l SECTION PAGE

5. SAFE SHUTDOWN SCENARIO AND TIMETABLE 5-1 I

5.1 Introduction 5-1 5.2 Assumptions 5-1 5.3 Definitions 5-2 5.4 Acronyms and Abbreviations 5-2 5.5 Manual Action and Repairs 5-3 5.6 Activities to be Accomplished 6-4 5.6.1 Spurious Valves and Components 5-5 5.6.2 Steam Generator Inventory Control 5-5 5.6.3 Support Systems 5-6 5.6.4 Primary System Inventory 5-7 5.6.5 Plant Monitoring System 5-7 5.7 Safe Shutdown Process, Timelines and Manpower Requirements 5~7 5.7.1 Actions Required te Achieve Hot Shutdown 5-8 5.7.2 Actions Required to Achieve Cold Shutdown 5-17 5.7.2.1 Component Cooling Water System Operation 5-21 5.7.2.2 Residual Heat Removal System Operation 5-22 5.8 Potential Cold Shutdown Repairr 5-23 5.8.1 Component Cooling Water Systems 5-23 5.8.2 Residual Heat Removal System 5-23

6. EXEMPTION REQUESTS AND ANALYSIS 6-1 6.1 Introduction 6-1 6.2 Service Water Pump Room 6-2 6.2.1 Fire Zone Description 6-2 6.2.2 Safe Shutdown Equipment 6-3 6.2.3 Fire Protection Systems 6-3 6.2.4 Fire Hazards Ar.alysis 6-4 6.2.5 Fire Protection Modifications 6-5 6.2.6 Conclusion 6-5 6.3 Residual Heat Removal Pump Zone 6-9 6.3.1 Fire Zone Description 6-9 6.3.2 Safe Shutdown Equipment 6-10 6.3.3 Fire Protection Systems 6-10 6.3.4 Fire Hazards Analysis 6-10 6.3.5 Fire Protection Modifications 6-11 6.3.6 Conclusion 6-11 6.4 Auxiliary Building Fire Area Exemption Req Request 6-15 6.4.1 Introduction 6-15 6.4.2 Area Description and Fire Protection Features 6-15 6.4.2.1 West Wing 6-15 6.4.2.2 South Wing 6-18 6.4.2.3 Safety Injection Pump Room 6-21 6.4.2.4 Component Cooling Water Pump Room 6-22 6.4.2.5 North Wing 6-24 6.4.2.6 Elevation 26 ft 6-27 iii

i Table of Contents (continurd) l FIGURES I

SECTION 2 l

l 2-1 RCS Reactivity Control 2-2 RCS Makeup Control 2-3 RCS Pressure Control l 2-4 Reactor Heat Removal 2-5 CVCS/ Charging Pumps P&ID 2-6 RCS P&ID 2-7 MRSS/ Auxiliary Feed Pump Steam Supply System P&ID 2-8 AFW-Auxiliary Feed Water System P&ID 2-9 ACS-RHR Pump & Heat Exchangers P&ID 2-9A ACS-RHR System (continued from 2-9) P&ID 2-10 ACS-Component Cooling Pump & Heat Exchangers P&ID 2-11 SWS-Service Water System P&ID 2-12 4.16kV One Line 2-13 4.16kV One Line 2-14 4.16kV One Line 2-15 4.16kV One Line 2-16 480V One Line .

2-17 480V One Line 2-18 125V dc One Line 2-19 Instrument Bus One Line '

2-20 ARED*-Physical Location of Safe Shutdown Components SECTION 3 I

l 3-1 Method of use of Appendix R Evaluation Diagram (ARED) 3-2 ARED*-Alternate Shutdown Components Ceble Routing Location Information 3-3 Safe Shutdown System Components l (electrical one line)

SECTION 4 4-1 ARED*-Safe Shutdown Instruments Cable Routing 4-2 Alternate Shutdown Instruments at 8 ft Elevation 4-3 Conceptual Schematic of Proposed Instrumentation Modifications

! 4-4 CVCS Charging Pump Cable Routing 4-5 Kirk Key Breaker Modification ,

i 4-6 ARED*-Diesel Generator Control Cable Routing 4-7 Emergency Diesel Generator Cable Block Diagram 4-8 Emergency Diesel Generator Fuel Line Modificatiod

• ARED - Appendix R Evaluation Diagram .

iV

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l Table of Contents (continutd) i l

4-9 Excess Letdown Isolation Valve Modification SECTION 5 5-1 Operator No. 1 Timeline Operator No. 2 Timeline Operator No. 3 Timeline 5-2 72-Hour Timeline 5.3-1 Breaker Lineup for Hot Shutdown Using GOl 5.3-2 Breaker Lineup for Hot Shutdown Using GOl 5.7-1 Operator Action for Hot Shutdown SECTION 6 6-2 Service Water Pump Room 6-3 Auxiliary Building - RHR Pump Pits 6.4-1 Auxiliary Building Fire Protection Diagram 6.4-2 Auxiliary Building Safe Shutdown Component Location TABLES SECTION 2 2-1.1 Hot Shutdown Components 2-1.2 Cold Shutdown Components 2-2 ,r rShut.down u Instrumentation

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SECTION 3 - : g , ,,

.>3-1 Potentisn, Spurious Components q ,- jf3-2.1

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.Alterh Me Hot,iiK6tdown Method Components 3-2.2 Alternate-Cold' Shutdown Method Components

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i SECTION 4

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,, 4-1 Safe Shutdown instruments

'- CVCS/ Charging Pumps Power and Control Cables 4-2 ,

4-3 / External Power and Control Cables to Emergency s.;

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Diesel Generator Cables +

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SECTION 5 { / ,

5-1 Operators Action Chart "' -

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Table of Contents (continued) i l

SECTION 6 6-2 Evaluation Parameters Summary-Service Water System 6-3 Evaluation Parameters Summary-Residual Heat Removal System 6-4.1 8-Ft Evaluation Auxiliary Building Summary Building Parameters vi

l SECTION ONE INTRODUCTION

1. INTRODUCTION 1.1 Objective The objective of this analysis is to demonstrate the technical feasibility and practicality of the use of alternative measures in place of a dedicated shutdown system as a means of achieving compliance with the separation requirements of 10 CFR 50 Appendix R at the Wisconsin Electric Power Company's Point Beach Nuclear Plant Units 1 and 2. The use of an alternative approach provides cost-effective regulatory compliance with a reduced set of plant modifications having the least impact on plant systems and procedures.

1.2 Scope This analysis provides the basis for alternate shutdown capability outside the Control Room. A minimum set of systems and components is used involving local and manual control to accomplish the stipulated Appendix R safe shutdown functions.

The equipment, manpower and operational time frames are presented to establish safe hot shutdown conditions, as well as the subsequent activities required to achieve cold shutdown.

Modifications required to attain safe shutdown will be recommended and necessary procedures will be identified. A ij description is also provided of the historical basis of Appendix R criteria and Nuclear Regulatory Commission (NRC) Staff interpretation of those criteria as evidenced in their evaluation of similar situations in other operating nuclear power plants.

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1.3 Background

At the time of the design and construction of the Point Beach Nuclear Plant, the fire protection features in effect at nuclear power plants were those specified by 10 CFR 50 Appendix A, General Design Criterion 3 -

" Fire Protection". In March 1975, a fire involving the cable penetration seals separating the Browns Ferry Unit 1 Reactor Building from the Unit 1 Cable Spreading Room indicated the need to review the adequacy of these criteria. The need for this review was identified by the NRC's Special Review Group's report, " Recommendations Related to Browns Ferry Fire" (NUREG-0055), issued in February 1976. This report noted that reasonable improvements in existing fire protection programs could be achieved and called for a comprehensive review of the programs at operating nuclear power plants. In recommending such improvements, the Special Review Group articulated the need for a balanced approach in achieving improvements in order to protect the integrity of nuclear power plant design bases in other areas, and to ensure that fire protection enhancements would not be achieved at the expense of other reactor safety measures. The balanced approach envisioned by the NRC for the fire protection review was programmatic, 4 involving the use of multiple layers of active and passive protective measures such as prevention, detection, suppression, fire barriers, fire retardant coatings and baffles so as to ensure that failure of any single method would be compensated for in other ways.

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By December 1977, Wisconsin Electric Power Company (WE) and other licensees had completed their analyses, based on a defense-in-depth approach to fire protection. The analyses also contained proposed modifications in accordance with the criteria of Branch Technical Position (BTP) 9.5-1 Appendix A. In most cases, the modifications proposed by licensees as a result of these plant-specific analyses were deemed acceptable by the Staff and documented in fire protection safety evaluation reports (FPSER) on each docket. In some situations, technical disagreements between the licensees and the Staff ensued, reflecting differences in professional opinion. By early 1980, three years after the WE submittal, the NRC decided to resolve those areas of disagreement through rulemaking. It should be noted that between 1977 and 1980, WE had begun implementing those modifications which the Staff had agreed were appropriate.

The Commission embarked on rulemaking activities for the purpose of resolving all of the FPSER open items on the operating plant dockets with a single regulatory action. Ultimately, these rulemaking proceedings displaced the reviews of open item submittals in terms of Staff priorities. The resulting Commission actions led to the issuance of a proposed fire 4 protection rule in May 1980 which addressed the protection of the safe shutdown capability genericully through a plant-specific analysis of the effects of fire in accordance with the BTP 9.5-1 Appendix A philosophy.(1)

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r l While consistent with the treatment provided by WE in earlier submittals, the proposed analytical approach was subsequently abandoned by the Commission in the final rule on the grounds that it is not possible to analyze the course of fire initiation or propagation. Rather, the final rule established

" design basis protective features" as the criteria for the protection of the safe shutdown capability and offered the following compliance alternatives to operating plant licensees:

(1) Separation of redundant safe shutdown systems by either three-hour-rated barriers, one-hour-rated barriers plus automatic suppression and detection, or 20 feet of horizontal separation free of intervening combustibles or hazards plus automatic suppression and detection (Section III.G.2, 10 CFR 50 Appendix R);

(2) An alternate shutdown system and automatic suppression (Section III.G.3, 10 CFR 50 Appendix R);

(3) A dedicated shutdown system and automatic suppression (Section III.L, 10 CFR 50 Appendix R); or (4) A combination of measures which are shown by analysis to provide an equivalent level of protection (10 CFR 50.48

[c][6]).

A fire hazards analysis was performed on specific plant areas of the Point Beach Nuclear Plant where redundant safe shutdown Appendix R systems existed. That analysis was the foundation for exemptions requested based on equivalent fire protection and was submitted in June 1982.(2) The NRC Staff responded to the June 1982 submittal with a draft SER which 9 denied all exemptions requested except for the Control Room and the hydrogen hazard fire protection analysis. For the exemptions denied, the Staff recommended alternate shutdown capability be provided for the affected areas.(3)

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I-An appeal meeting with NRC management was held March 22, 1983 to discuss the denied exemptions. As a result of the appeal meeting, WE submitted a document on April 28, 1983 revising the exemption requests and proposed modifications and withdrawing i

exemption requests which were not required.(4) The April 28, 1983 submittal also provided conceptual designs for alternate shutdown capability in some of the affected plant areas.

The report contained herein provides the detailed analysis of alternate shutdown capability for the Control Room and addresses the appropriate sections of Generic Letter 81-12. This report also provides alternative shutdown modifications required for three other plant areas.

1.3.1 Results of Analysis The results of the analysis provide a method to safely shut down Point Beach Units 1 and 2 using alternative methods outside the Control Room. The areas for which alternative methods are required are as follows:

(1) Control Room -

Alternative methods required for all safe shutdown functions.

(2) Cable Spreading Room - Alternative methods required in both units for reactor coolant inventory control (CVCS charging pumps).

y (3) Containment Spray Additive and Monitor Tank Area -

Alternative methods to provide indication for safe shutdown instrumentation.

(4) Emergency Diesel Generator Rooms -

Modifications to control circuits to provide local manual operation.

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i The Point Beach Nuclear Plant has inherent fire protection features in several plant areas which ensure post-fire I survivability of safe shutdown equipment such that both units can be simultaneously brought to cold shutdown within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />.

These unique features involve Halon suppression systems installed in three specific plant areas: 4kV Switchgear Room, Cable Spreading Room, and Auxiliary Feed Pump Room. All three areas presently have active, single failure-proof Halon suppression systems with a commitment to make initiating detection systems diverse and redundant.

The Appendix R Safe Shutdown Analysis provided in June 1982 established the basis for Section III.G.2 exemptions predicated on the capabilities of the installed Halon suppression systems.

The configurations of these three areas do not lend themselves to the provision of Section III.G.2 separation criteria and after a presentation to the NRC Staff management during an appeal meeting held on March 22, 1983, WE agreed to upgrade the Halon systems as noted previously. Thus, in the as-modified condition as detailed in the April 28, 1983 submittal, these three areas will have inherent fire protection features which will ensure post-fire safe shutdown capability. For the 4kV Switchgear Room, the Cable y Spreading Room and the Auxiliary Feed Pump Room, WE demonstrated to the NRC Staff management that the Halon suppression systems f compensate for the Section III.G.2 separation criteria deficiencies. As a result of these discussions, the NRC Staff Page 1-6

requested that consideration be given to limited fire damage in each of the three areas as follows:

(1) Cable Spreading Room - Fire damage is assumed limited to Unit 1 or Unit 2 480V load centers; (2) 4kV Switchgear Room - Fire damage is assumed limited to one section of switchgear including the relays on the face of the cabinets. The internal bus bars and mechanical components of breakers would not be damaged sufficiently to prevent local manual control; (3) Auxiliary Feed Pump Area -

Fire damage is assumed limited to two of four auxiliary feed pumps. One redundant safe shutdown division of components and cables will be free of fire damage as a result of existing or modified separation.

An evaluation of the three areas was made as a result of the NRC Staff's request for consideration of limited fire damage. The analysis indicated that the Cable Spreading Room requires modifications which are considered to be alternative shutdown modifications. Thus, with the exception of the Cable Spreading Room, the other two areas afford safe shutdown capability that ensures both units can achieve safe cold shutdown without the need for alternative shutdown modifications.

All plant areas containing required safe shutdown components and/or circuits meet one of the following Appendix R compliance criteria:

( (1) One train of safe shutdown equipment is free of fire damage as a result of meeting one of the three criteria in Section III.G.2.

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(2) The area meets (1) above and has in it repairable cold shutdown equipment.

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(3) The area will sustain limited fire damage such that safe shutdown capability is not affected.

(4) An exemption has been requested from specific requirements of Section III.G.

1.4 Governing Regulatory Guidelines 1.4.1 Criteria The criteria used in this analysis are derived from five regulatory documents which form the basis for the conclusions and recommendations:

(1) " Fire Protection Program for Operating Nuclear Power Plants" 10 CFR 50 Appendix R, Section III.G (45 FR 76611, November 19, 1980 and 46 FR 44735, September 8, h* 1981);

(2) Letter to All Power Reactor Licensees with Plants Licensed Prior to January 1, 1979, from Mr. D.G.

Eisenhut (NRR/DL),

SUBJECT:

" Fire Protection Rule 45 FR 76602, November 19, 1980 - Generic Letter 81-12", dated February 20, 1981; (3) Memorandum to Mr. D.G. Eisenhut (NRR/DL) from Dr. R.J.

Mattson (NRR/DSI),

SUBJECT:

" Fire Protection Rule -

Appendix R", dated March 22, 1982 (Clarification of Generic Letter 81-12);

(4) Memorandum to Mr. R.H. Vollmer (NRR/DE) from Dr. R.J.

Mattson (NRR/DSI),

SUBJECT:

" Position Paper on Allowable Repairs for Alternative Shutdown and the Appendix R Requirement for Time Required to Achieve Cold Shutdown",

date July 2, 1982; and (5) Memorandum to Dr. R.J. Mattson (NRR/DSI) from Mr. L.S.

Rubenstein (DSI/AD),

SUBJECT:

" Statement of Staff Position Regarding Source Range Flux, Reactor Coolant Temperature and Steam Generator Pressure Indication to

( Meet Appendix R, Alternate Shutdown Capability", dated January 7, 1983.

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l.4.2 Interpretation of Guidelines The goal of Appendix R Section III.G is the fire protection of structures, systems, and components important to safe shutdown. For the purposes of fire protection, Appendix R defines safe shutdown as both hot and cold shutdown.

This goal is reached by providing reasonable assurance that at least one train of systems necessary to achieve and maintain hot shutdown remains free of fire damage in the unlikely event of fire in any plant area. Systems necessary to achieve and maintain cold shutdown conditions may likewise be protected or repaired to the extent that cold shutdown can be achieved within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />.

The second document listed above, Generic Letter 81-12, was issued subsequent to the promulgation of Appendix R for the purpose of identifying and clarifying the information required for Staff review of licensing submittals describing safe shutdown functions, systems, components and their associated circuits. To this end, Generic Letter 81-12 supplements the final rule and provides additional criteria which must be considered. Generic Letter 81-12 itself was clarified further by a " Clarification Letter" which was transmitted to power reactor licensees between i

March and May 1982.

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l The Mattson to Vollmer memorandum addresses two issues I concerning cold shutdown:

(1) Allowable repairs to achieve cold shutdown; and (2) Allowable time to achieve cold shutdown.

Both issues grew out of a lack of definition for the term

" repairs" and apparent inconsistencies in requirements for repair and shutdown activities relative to the 72-hour limit. The principal aspects of these issues are resolved in this memorandum as follows:

Repair (1) Repair activities may not be credited in assuming hot shutdown system availability; (2) Manual operation of valves, switches, and circuit I breakern in net censidered to be a repair activity and, hence, is allowable for hot shutdown systems; (3) Fuse removal under most circumstances is considered to be a repair activity and is not allowed for maintaining hot shutdown system availability for mitigating the consequences of potential spurious operation candidates; and (4) Modifications, e.g., wiring changes, are allowed to cold shutdown systems and/or components which are not used for hot shutdown or are not used to mitigate the consequences of fire or fire suppressant-induced maloperations that directly affect hot shutdown systems. These repairs must be achievable prior to the maloperations causing an unrecoverable plant condition.

Time (1) The sum of repair time and shutdown time must be less than or equal to 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />; and (2) Off-site power is assumed to be restored after 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />.

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The Staff documented the process-monitoring criteria for s

Appendix R compliance in the Rubenstein to Mattson memorandum.

This document identified the following instrument requirements:

( (1) Scurce range flux monitoring - reactivity (transition to and maintenance of cold shutdown only);

(2) Th, Tc - decay heat removal; (3) Steam generator level and pressure (wide-range) - decay heat removal; (4) Reactor Coolant System pressure and level - reactor coolant inventory and pressure control.

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REFERENCES

< SECTION 1 r

L (1) " Fire Protection Program for Operating Nuclear Power Plants", Proposed Rule, US Nuclear Regulatory Commission, 45 FR 36082, dated May 29, 1980.

(2) Response to 10 CFR 50 Appendix R " Fire Protection Safe Shutdown capability", Wisconsin Electric Power Company, dated June 30, 1982.

(3) " Draft Safety Evaluation on Appendix R Exemption Request", from Robert A. Clark, Chief Operating f Reactors Branch #3 Division of Licensing, dated January 14, 1983.

(4) Submittal to H.R. Denton, Director, Office of Nuclear

{ Reactor Regulation,

SUBJECT:

" Appendix R Exemption Requests, Point Beach Nuclear Plant, Units 1 and 2",

dated April 28, 1983.

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SECTION TWO ALTERNATE SHUTDOWN SYSTEMS AND COM PON ENTS G

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2. ALTERNATE SHUTDOWN SYSTEMS AND COMPONENTS o

METHOD OF INVESTIGATION 2.1 Introduction Paragraph 50.48(b) of 10 CFR 50, which became effective on February 17, 1981, requires all nuclear plants licensed to operate prior to January 1, 1979 to comply with specific portions of Section III of Appendix R to 10 CFR 50 regardless of the stat-us of previous fire protection SERs. One of the applicable sections,Section III.G, requires that fire protection features be provided for those systems, structures and components important to safe shutdown. These features must be capable of limiting fire damage so that:

(1) One train of systems necessary to achieve and maintain hot shutdown conditions from either the Control Room or the Emergency Control Station (s) is free of fire damage, and (2) Systems necessary to achieve and maintain cold shutdown from either the Control Room or the Emergency Control Station (s) can be repaired within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />.

Section III.L of Appendix R and Generic Letter 81-12 (February 20, 1981) Enclosure 1 " Staff Position", provide additional guidance on the NRC Staff's requirements for demonstration of safe shutdown capability.

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2.1.1 Design Basis Events This report documents the additional review of safe shut-down capability performed for Point Beach Nuclear Plant. As a part of this review process a spectrum of possible exposure fires in plant areas containing safe shutdown circuits, involving either in-situ combustibles or transient combustibles, was postulated. The effects of these assumed fires were evaluated for adverse impacts on systems, structures or components essential to safe plant shutdown. The most limiting assumption with respect to the availability of off-site power was assumed.

No concurrent or sequential design basis accidents or transients were assumed, except those which could be postulated to occur as a direct result of the exposure fire. In addition, no random single failures other than those which could be caused by fire were assumed.

2.2 Description of Safety Functions The specific safe shutdown functions necessary to satisfy Appendix R acceptance criteria are as follows:

(1) Reactor Reactivity Control Function (2) Reactor Coolant Make-up Control Function (3) Reactor Coolant Pressure Control Function (4) Reactor Heat Removal Function (5) Process Monitoring Function (6) Miscellaneous Supporting Functions Page 2-2

2.2.1 Reactivity Control After a reactor trip, the reactivity control function must be capable of achieving and maintaining at least a 1% reactivity shutdown margin from zero power hot shutdown to cold shutdown conditions. The function must be capable of compensating for any positive reactivity changes as a result of xenon decay and reactor coolant temperature decreases occurring during cooldown.

A safety sequence diagram, Figure 2-1, represents safe shutdown functions for reactivity control.

2.2.2 Reactor Coolant Make-up Control The reactor coolant make-up control function must be capable of assuring that sufficient make-up inventory is provided to

, compensate for reactor coolant system fluid losses due to leakage from the system and shrinkage during cooldown. Adequate i

performance of this function is achieved by maintaining pres-surizer level within acceptable limits. A safety sequence diagram, Figure 2-2, represents safe shutdown functions for reac-tor coolant makeup control.

2.2.3 Reactor Coolant Pressure Control Reactor coolant pressure control is required to assure that the reactor coolant system is operated:

9 (1) Within the technical specifications for reactor coolant system pressure-temperature requirements; (2) To prevent peak reactor coolant system pressure from exceeding 2735 PSIG (110% of system design pressure);

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(3) With a sufficient subcooling margin to minimize void formation within the reactor vessel during natural circulation decay heat removal conditions.

A safety sequence diagram, Figure 2-3, represents safe shutdown a

functions for reactor coolant pressure control.

2.2.4 Reactor Heat Removal The reactor heat removal function must be capable of remov-ing both decay and latent energy from the reactor core and primary systems at a rate such that overall system temperatures can be maintained within acceptable limits. This function shall also be capable of achieving cold shutdown conditions within a 72-hour period and maintain cold shutdown thereafter. A safety sequence diagram, Figure 2-4 represents safe shutdown functions a

for reactor heat removal.

) 2.2.5 Process Monitoring When information on process variables is required by operators in order to either modify system alignments or control safe shutdown equipment, such monitoring information must be available. The preferred mode of process monitoring function is by direct indication of those plant process variables necessary for plant operators to perform and/or control the previously identified functions.

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2.2.6 Miscellaneous Supporting Functions The systems and equipment used to perform the previous func-

, tions may require miscellaneous supporting functions such as process cooling, lubrication and ac/dc power. These supporting functions shall be available and capable of providing the support necessary to assure acceptable performance of the previously identified safe shutdown functions.

2.2.7 Discussion The selection of safety functions is principally based on those identified in BTP CEB 9.5-1 Section C.S.c. Other functions may exist under each of these broad headings. Examples of such functions are steam generator level control and steam generator

, pressure control which exist as a part of reactor heat removal.

Steam generator level and pressure control are required during

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initial hot shutdown conditions. However, during certain portions of cooldown and all of cold shutdown, the Residual Heat Removal System is operable and these functions are not required.

Other functions such as emergency power, process cooling, etc.,

are included in the miscellaneous supporting function definition.

In addition to the functions identified in BTP CEB 9.5-1, a Reactor Coolant Pressure Control Function has been included.

h Although this function could be placed within the Reactor Coolant Make-up Function and Reactor Heat Removal Function, the specific o

goals achieved by the performance of this function are unique enough to warrant a separate function classification.

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t The safety functions identified adequately assure that the reactor coolant pressure boundary will not be breached. Uncon-trolled mass and energy releases to the containment from the primary systems are prevented by the achievement of these safety functions.

2.3 Analysis of Safe Shutdown Systems 2.3.1 Introduction Various analytical approaches can be taken to assure that sufficient plant systems are available to perform the previously identified plant safety functions. Numerous plant systems are normally available, alone and in combination with other systems, to provide these required functions. However, the exact location I and specific effects of exposure fires cannot be precisely determined. In general, recognizing the confined nature of fires in nuclear plant environments and the inherent operational flexibility and physical diversity of systems available to achieve safe shutdown, appropriate plant fire protection features limit the potential for fire damage to the extent that unaffected plant systems will be available to attain safe shutdown. An extensive effort would be required to identify the effects of postulated fires in all potential plant locations and on all the plant systems which are available to support safe shutdown. As a conservative alternative to such an approach, a minimum set of

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plant systens (Safe Shutdown Systems) and components is identified in response to the requirements of Appendix R. This Page 2-6

minimum set of components can achieve and maintain safe shutdown regardless of the location of the fire while assuming concurrent loss of off-site power. Demonstration of adequate protection of this minimum system set from the effects of postulated fires

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constitutes an adequate and conservative demonstration of the ability to achieve and maintain safe shutdown for the purposes of fire protection. Spurious operation of components within the systems, and interlocking systems, necessary to perform previously identified plant safety functions have been identified and addressed within this report. (Reference Section 3.2.3 and Table 3-1.)

The safe shutdown systems selected for Point Beach Nuclear Plant are capable of achieving and maintaining subcritical conditions in the reactor, maintaining reactor coolant inventory, achieving and maintaining hot conditions for an extended period i of time, achieving cold shutdown conditions within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />, and maintaining cold shutdown conditions thereafter.

2.3.2 Initial Assumptions (1) The unit is operating at 100% power upon the occurrence of a fire.

(2) The reactor is tripped either manually or automati-4 cally.

(3) There is a loss of off-site power.

(4) No additional single failures are considered other than

( the loss of off-site power, those failurts directly at-tributable to the fire, and spurious operations which can be postulated to occur as a result of the fire.

. Page 2-7

(5) No piece of equipment required for safe shutdown is i assumed to be out-of-service. l 2.3.3 Definitions Hot Shutdown - Reactor at zero power Keff less than 0.99 and RCS temperature >540 F.

Cooldown - Reactor at zero power, Keff less than 0.99 and RCS temperature between 540 F and 200 F.

Cold Shutdown- Reactor at zero power, Keff less than 0.93 and RCS temperature below or equal to 200 F.

2.3.4 Achievement of Safe Shutdown Functions 2.3.4.1 Reactivity Control F inction Initial reactivity control results from an automatic Reactor Protection System (RPS) trip or from operator initiation of a manual trip. The effects of fires on the RPS do not preclude the initiation of an automatic trip or control rod insertion because the system is designed to fail in the safe (scram) condition.

Following control rod insertion, hot subcritical conditions can be maintained for at least 24 hours with no addition of boron, assuming all rods are inserted into the core and the reac-tor- trip occurs at worst case conditions (end of life and at 100% power), with xenon at steady-state level. As xenon decays, however, positive reactivity is added, requiring the addition of borated water from the Refueling Water Storage Tank (RWST) to

maintain the required margin of shutdown reactivity. The cool-down transition from hot shutdown, and ultimately to cold shutdown, requires additional boration to compensate for the Page 2-8

negative moderator temperature coefficient. The total quantity of borated water from the RGST (a minimum Technical Specification concentration of 2000 ppm) which must be injected into the Reactor Coolant System (RCS) to achieve the required cold shutdown margin is less than the quantity of borated water from the same source required to maintain pressurizer level within the operating band during cooldown (Reactor Coolant System volume shrinkage compensation). The Chemical and Volume Control System (CVCS) is capable of injecting this quantity of borated water into the Reactor Coolant System and maintaining the required shutdown reactivity margin throughout safe shutdown.

2.3.4.2 Reactor Coolant Make-up Control For the assumed fire scenario, reactor coolant make-up con-trol can be achieved by isolation of the normal and excess let-I down CVCS paths and operation of the charging portion of the CVCS through the RCP seal injection path and auxiliary charging path.

Successful maintenance of RCS integrity is also necessary to achieve adequate inventory and pressure control. Spurious open-ing of primary boundary isolation valves such as pressurizer and reactor vessel vent valves, pressurizer power-operated relief I valves (PORVs), and RHR isolation valves will be precluded or mitigated, and adequate maintenance of reactor coolant pump seal i

integrity achieved.

1 4

Page 2-9

Control of pressurizer water level is achieved manually by controlling CVCS charging flow using local or remote pressurizer level indication.

2.3.4.3 Reactor Coolant Pressure Control Overpressure protection of the RCS prior to a controlled cooldown and depressurization is provided by the pressurizer l safety valves. After alignment of the Residual Heat Removal System (RHR), at approximately 350 F and 425 psig, overpressure protection is provided by the RHR safety valves. The pressurizer safety valves and RHR safety valves, in conjunction with a con-trolled cooldown and a timely transfer to shutdown cooling at or

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around a Reactor Coolant System temperature of 350 F, will ensure that the RCS pressure-temperature limits are not exceeded. For ,

adequate pressure control, isolation of the pressurizer auxiliary spray and normal letdown will occur as the result of operator action. Safety injection tank accumulators will also be manually isolated by operator action.

The establishment and maintenance of sufficient sub-cooling margin within the Reactor Coolant System is essential when con-ducting a natural circulation cooldown. Pressurizer heaters may not be available but maintaining a constant charging pump flow rate while decreasing cooldown rate will raise system pressure.

In the event that depressurization is required during cooldown, the preferred method will be to maintain pressurizer level Page 2-10

l constant and reduce pressure via ambient losses. If a more rapid means of depressurization is required, the auxiliary spray can be manually cycled at a pressure low enough to minimize thermal stresses.

2.3.4.4 Reactor Heat Removal Function Following a reactor trip with an assumed loss of off-site power, decay heat is initially removed by natural circulation within the Reactor Coolant System, heat transfer to the Main Steam System via the steam generators, and operation of the air-operated atmospheric steam dump valves or the Main Steam System code safety valves. With the main steam safety valves alone, the RCS maintains itself close to the nominal no-load condition.

For decay heat removal via natural circulation a minimum of I

one steam generator is assumed to be available. This decay heat removal requires the ability to supply sufficient feedwater to a steam generator to make up for the inventory discharged as steam by the safety or relief valves. For maintenance of initial hot shutdown conditions, the secondary make-up flow required to a steam generator is less than 200 gpm and is supplied by the Auxiliary Feedwater System (AFW). The preferred feedwater source is the condensate storage tanks, with the Service Water System available as a backup. Feedwater may be supplied by the motor-driven auxiliary feed pumps or by the turbine-driven auxiliary teed pump.

Page 2-11

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Transition from stable hot shutdown conditions to. cooldown is achieved by manual control of steam generator pressure. The removal of decay and latent energy is achieved by the controlled operation of the steam generator atmospheric steam dump valve and continued operation of the Auxiliary Feedwater System.

During this cooldown phase, an auxiliary feedhater flow of up to 200 gpm is required which can be supplied with the turbine-driven or motor-driven auxiliary feed pump.

As described above, the transition from stable hot shutdown to cooldown is achieved via operation of the Auxiliary FeedwatEr

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System and the atmospheric steam dump valves. After reduction of reactor coolant system temperature below 350 F, the Residual Heat Removal System is used to establish long-term core" cooling through the removal of decay heat from the Reactor Coolant System to the environment via the Residual Heat Removal System, Component Cooling Water System, and the Service Water System. ,

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2.3.4.5 Process Monitoring Function f The operator requires knowledge of various plant parameters s

to perform required system transitions and essential operator

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actions. A discussion of the necessary instrumentation by safe shutdown function is provided below. -

For the fire scenarios assumed in this analysis, inventory make-up to the Reactor Coolant System will be from the Refueling

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Page 2-12 -

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m* n , J * f ft 'w tion lines and aupiliary charging line. As previously discussed, sufficient. negative reacti~vity exists in the' Reactor Coolant S'ystem (after rod _iM ertion)- for 24 hours withoutithe need for

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[ bythecontrolrops,g'ydthe' RWST , water injecte'd7by,the CVCS (to i .

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compensate for.the ,P.lCS ,volu,me decrease) ,w.i'll, maintain the core subcritical while coo'lfing down from hot full power to a cold

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shutdown condition, asiuming no _ letdown,is~Luailable. Technical

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Specificatio;ns for Point Beach ensure that sufficient borated

- i vater is available to achieve the necessary ' cold shutdown reactivity margin.

With boron addition under pr,ocedural control, a ,,  !

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no operator ,i actions' a r.e expected or ant icipat.ed based on l di're'cr-reading neutron monitoring to e'n s u r e ! an' adequate safe

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j i shutdown' negative reactivity, margin. However/ core ~ source range t ^ *.

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i added at d' remote locationr to provide this information for areas

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r I,., req.iiring alternative shutdown.

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pressure control'and decay heat .

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For the as-sumed ifire', scenario, maintenance, of hot' shutdown requires that

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Reactor Coolant System temperature is controlled during hot shut-down and cooldown by energy removal via steam generator and self-actuation of the main steam code safety valves or manual operation of the atmospheric steam dump valves. In the natural t circulation mode of operation, the difference between the hot leg and cold leg wide range temperatures (Th -Tc) and steam generator pressure provide a direct indication of the existence of adequate natural circulation flow.

Operating personnel, monitoring RCS pressure and hot leg temperature (Th) instrumentation, will control RCS pressure in such a manner that appropriate sub-cooling is maintained.

Pressurizer level control is achieved by monitoring pressurizer level instrumentation and manual control of CVCS charging flow.

Maintenance of hot standby also requires the control of the secondary system to compensate for variations in the primary sysgem performance. Steam generator level and pressure instru-ments are available to assure adequate and controlled decay heat removal. Steam generator level control is achieved by manual manipulation of AFW system flow, using local or remote steam generator level indication. Control of secondary system pressure will be monitored by steam generator pressure indication.

The transition from hot shutdown to cooldown will utilize the instrumentation discussed above for monitoring of natural s

Page 2-14

circulation conditions, subcooling margin, heat removal and com-pliance with the plant's pressure / temperature limits as it per-tains to the low temperature overpressure protection of the Reac-tor Coolant System (cold leg temperature in conjunction with RCS pressure).

The safe shutdown systems needed to achieve cold shutdown are the following:

(1) Chemical and Volume Control System (2) Reactor Coolant System Instrumentation (3) Main Steam System (4) Auxiliary Feedwater System (5) Residital Heat Removal System i

2.3.4.6 Supporting Functions Various systems are required to provide support to safe shutdown equipment or systems. These support systems are:

,(1) Component Cooling Water System (2) Service Water System (3) Emergency Power System The following sections discuss each of the required safe shutdown systems and the support systems.

2.4 Safe Shutdown Systems 2.4.1 Chemical and Volume Control System (CVCS)

The charging portion of the Chemical Volume and Control System (CVCS) accomplishes the following safety functions: l I

i l

Page 2-15

(1) Reactivity Control by injection of a soluble chemical neutron absorber (boron) into the RCS; and (2) Reactor Coolant Makeup Control by maintaining water inventory.

f Normal reactivity shutdown capability is provided by control rods, with boric acid addition used to compensate for the xenon decay and plant cooldown. The control and shutdown rod groups ensure the reactor is at least 1% subcritical (Keff = 0.99) fol-lowing trip from any allowed operational condition, assuming the most reactive rod remains in the fully withdrawn position. For the assumed fire scenario, it is not necessary to assume a stuck-rod condition.

When the unit is at power, the quantity of boric acid retained in its Refueling Water Storage Tank and ready for injec-tion to the RCS always exceeds that quantity required to com-pensate for normal cold shutdown. This quantity also exceeds the quantity of boric acid required to bring the reactor to hot shut-down and to compensate for subsequent xenon decay. The availability of sufficient boron is required by plant Technical Specifications.

For the assumed post-fire scenario, make-up water to the Reactor Coolant System will be provided by the Chemical and Volume Control System from the Refueling Water Storage Tank (borated at a minimum of 2000 ppm).

Page 2-16

Numerous CVCS flow paths are normally available for charging to the RCS (see Figure 2-5). For the assumed event, two separate and independent flow paths will provide redundancy for reactor coolant makeup and boration:

(1) The charging line to the reactor coolant pumps' seals, and (2) The auxiliary charging line to the loop B cold leg.

For the assumed event, charging and boration will be ac-complished by operating a minimum of one charging pump taking suction from the Refueling Water Storage Tank and injecting borated water through to the loop B cold leg and the RCP seal injection lines to the RCS. Suction to the charging pump can be delivered from the RWST by manually opening one normally closed motor-operated valve.

Controlled leakage (letdown) from the Reactor Coolant System normally occurs via the seal leak-off return path and the normal and excess letdown paths. For the post-fire operational se-quence, the normal and excess letdown paths will be isolated as a result of operator action to assure adequate inventory control.

Seal leak-off flow need not be available to achieve safe shutdown. The reactor coolant pump No. 1 seal leak-off motor-operated valves fail as-is. In that condition, seal return flow will be to the volume control tank (through the seal water heat exchanger). It may be locally or remotely isolated by a Page 2-17

motor-operated valve or by the seal water return filter manual isolation valves.

The injection path from the charging pumps to the Reactor Coolant Pump seals contains only manually operated, normally open valves. The auxiliary charging line contains one air-operated valve which is a special valve functioning as both an isolation valve and a relief valve (opens to provide flow to kCS cold leg with a 200 psid). The operation of one charging pump will ensure a minimum RCS charging flow of approximately 20 gpm (minimum flow for each charging pump).

Isolation of the volume control tank outlet (by closure of one motor-operated valve) during emergency makeup from the RWST and isolation of the seal return line to the seal water heat exchanger may be performed by local manual operation.

Pressurizer water level is maintained by operation of one positive displacement charging pump using pressurizer level in-strumentation information.

Charging Pumps Three charging pumps per unit inject coolant into the reac-tor coolant system. The pumps are the variable speed, positive displacement type. At full capacity, each pump is capable of delivering 60 gpm to the Reactor Coolant System. To ensure that the charging pump flow is always sufficient to meet both the seal water and minimum charging flow requirements, the pump has a variable control stop which does not permit pump flow lower than Page 2-18

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the specified minimum. This control stop is adjustable to permit higher minimum flow Jimits to be set if mechanical seal leakage increases during operation. At minimum flow, each charging pump delivers approximately 20 gpm. The charging pumps require no external cooling water or lubricating oil supply.

Refueling Water Storage Tank In addition to its normal duty to supply borated water to the refueling cavity for refueling operations, the RWST provides borated water to all of the ECCS pumps.

The capacity of the refueling water storage tank is based on j

the requirement for filling the refueling cavity. This quantity is in excess of that required for safe shutdown. Technical Specification minimum volume of the RWST is 275,000 gallons of borated water at a minimum of 2000 ppm boron.

2.4.2 Reactor Coolant System The Reactor Coolant System (RCS) consists of two similar heat transfer loops connected in parallel to the reactor vessel (see Figure 2-6). Each loop contains a reactor coolant pump and a steam generator. In addition, the system includes a pressurizer with associated code safety and relief valves (PORVs). Reactor Coolant System instrumentation includes cold and hot leg temperatures (wide-range), pressure (vide-range) and pressurizer water level.

Page 2-19

-The natural circulation capability of the plant provides a means of decay heat removal when the reactor coolant pumps are unavailable. Natural circulation flow rates are governed by the amount of decay heat, component elevations, primary to secondary heat transfer, loop flow resistance and voiding. The conditions during natural circulation are related to maintaining adequate primary to secondary heat transfer, subcooling and inventory.

For this analysis of safe shutdown capability, one of the two RCS loops will be monitored to ensure that natural circula-tion is established and maintained.

While in natural circulation, adequate heat transfer and coolant flow are dependent on adequate inventory in both the primary and secondary systems. Maintaining water level within the operating band on the secondary side of the "U" tube steam generators and adequate level vithin the pressurizer are require- ,

ments for natural circulation. Confirmation of flow while in natural circulation is accomplished through the use of tem-perature indications. Those indications are cold leg temperature (Tc), and hot leg temperature (Th). Tc should attain a value which is a few degrees higher than the saturation temperature of the secondary inventory. Th should attain a value which is less than at full power. When Tc and Th attain the values described i

above, flow and heat transfer have been achieved in the as-sociated RCS loops. The amount of subcooling within the RCS is maintained by monitoring RCS pressure and loop hot leg 4

Page 2-20

temperature (Th)-

Reactor Coolant System inventory control is based on the operation of the CVCS charging paths. High pressure seal water from the CVCS system is injected into the pumps through the lower radial bearing chamber to prevent leakage of high temperature reactor coolant along the pump shaft. The injection flow splits in the bearing chamber with a portion flowing up through the radial bearing and into the shaft seal chamber. The remaining portion flows down the shaft, through the RCP thermal barrier and

. into the Reacto" Coolant System. An alternate unimpeded charging flow path exists through the auxiliary charging line to the cold leg B loop.

Pressurizer Safety Valves Overpressurization protection of the RCS is assured by two pressurizer code safety valves. The two pre'ssurizer safety valves are spring-loaded, self-activated and have a set pressure of 2485 psig. The combined capacity of the valves is equal to or greater than the maximum pressure surge resulting from a complete loss of load without reactor trip.

2.4.3 Main Steam System For the post-fire scenario, maintenance of the main steam inventory and control of steam generator pressure are required for both hot shutdown and subsequent primary and secondary system cooldown to support the decay and sensible heat removal function within the applicable operational limits.

Page 2-21

The Main Steam (MS) System consists of two parallel flow paths, one from each steam generator to the main turbine of the unit. The secondary system will be isolated either by operation of the turbine stop valves or by the main steam isolation valves.

In accordance with supporting FSAR analysis, control of one steam generator is sufficient to provide the reactor heat removal function during natural circulation conditions.

Maintenance of water level in the steam generator during the period of auxiliary feedwater operation (hot shutdown) involves remote or local manual positioning of the auxiliary feedwater flow control valves and operation of the turbine-driven auxiliary feed pump based on. steam generator level information. Steam generator water level and pressure indication are available in the Control Room and on panels located in the turbine-driven AFW pump cubicles.

The MS system is also designed to deliver motive steam to the turbine driver of the turbine-driven auxiliary feed pumps (see Figure 2-7). Steam to these turbines is supplied by branch connections upstream of the main steam isolation valves on both steam lines in each unit. Either line can supply sufficient steam to the auxiliary feed pump turbine, but two are provided for redundancy. These lines are connected with a normally closed motor-operated stop check valve in each line before the tie.

Page 2-22

m Safety Valves A bank of four code safety valves are installed on each steam line outside containment and upstream of main steam isolation valves. The four safety valves (one set at 1085 psig, one at 1100 psig, two at 1125 psig) on each line are installed to protect the MS system against overpressure and to provide a combined relieving capacity greater than the maximum steam flow rate. During initial hot shutdown conditions the code safeties will provide adequate decay heat removal.

Air-Operated Atmospheric Steam Dump Valves An atmospheric steam dump valve is provided on each steam line which is capable of releasing the sensible and decay heat to the atmosphere. The steam dump valves are used for plant cooldown by steam discharge to the atmosphere. The two steam dump valves have a total combined capacity of approximately 10%

of the maximum calculated steam flow. For the assumed fire scenario, one steam dump valve will be used to provide the Reactor Coolant System controlled cooldown.

Controls for the steam generator atmospheric steam dump valves are provided in the Control Room and can be manually (handwheel) operated at the valve. During the hot shutdown transition to cold shutdown, the one steam dump valve per unit will be manually operated to remove decay heat from the RCS.

Thus, the RCS temperature is controlled by maintaining the steam Page 2-23

generator secondary water inventory at the temperature that corresponds to the saturation pressure.

2.4.4 Auxiliary Feedwater System The Auxiliary Feedvater (AFW) System is required during hot shutdown to support RCS decay heat removal. For hot shutdown, secondary system (steam generator) inventory control is provided by the AFW system (see Figure 2-8). The AFW system consists of two turbine-driven and two motor-driven pumps. Each turbine-driven pump is dedicated to one unit, and valved to feed one or both steam generators in that unit. The motor-driven pumps are common to both units. One pump is valved to feed the A loop steam generator of one or both units. The other pump supplies feedwater to the B loop steam generators of one or both units. Cross-connect capability exists through normally locked closed valves such that either pump could supply feedwater to any l of the four steam generators.

l The AFW system is designed to deliver enough water to main-i tain sufficient heat transfer in the steam generators in order to prevent loss of primary water through the RCS pressurizer safety or relief valves.

I

~

Turbine-Driven Auxiliary Feed Pumps The turbine-driven auxiliary feed pump (TDFP) is designed to deliver a sufficient flow to both steam generators of the unit with which it is associated and maintain steam aenerator water levels above the lower limit of the wide range level indicator.

l Page 2-24 l

T i

Each is a horizontal, six-stage, centrifugal pump driven by a single-stage atmospheric exhaust turbine. Upon opening the steam i

inlet valve, the turbine will function as a single speed machine.

i Each auxiliary feed pump turbine has its own self-contained lube oil system utilizing ring lubricated, water jacketed ball bearings. Cooling water is supplied by the service water system.

Service water flow is provided by the service water pumps or

! alternately by the diesel-driven fire pump which is a proposed i

system modification. This proposed modification (not a result of i

Appendix R modifications) will allow fire main water to be I

supplied to the lube oil coolers. Manual operation of a block valve will be required. This proposed modification is expected en be completed during the fall 1983 and 1984 outages.

i Both steam generators provide motive steam to the turbine driver for the auxiliary feed pump. The TDFP is capable of t

operating down to a steam pressure which corresponds to RCS

pressure and temperature at which the Residual Heat Removal System may be placed in service.

Motor-Driven Auxiliary Feed Pumps

~The two motor-driven auxiliary feed pumps (MDFP) are shared l

by both units. One MDFP supplies the A steam generators of both f

units, while the other supplies the B steam generators of both units.

l l

J Page 2-25 l

l w.- -.. - - _ _ - - - - _ _ - - _ - _ - _ _ _ - - _ - - - _ - - - - - .-

( Each pump is a horizontcl, eight-stage centrifugal pump.

L Cooling water is supplied by the service water pumps. The pumps require no other support services othcr than ac power.

Condensate Storage Normal volume in each condensate storage tank is ap-proximately 45,000 gallons. Should the CST supply become ex-hausted, the service water system may be used as an alternate water source. The service water isolation valves are located in the AFW pump area. Ample time is available post-fire for a local manual re-alignment of the normally closed valves that isolate service water from the suction of the auxiliary feed pumps.

2.4.5 Residual Heat Removal System The Residual Heat Removal (RHR) System is designed to remove decay and sensible heat from the core and reduce the temperature of the RCS during the cold shutdown phase.

The RHR system consists of two RHR heat exchangers, two RHR pumps and the associated piping, valving and instrumentation necessary for operational control of each unit (see Figure 2-9).

The design residual heat load is based on the residual heat fraction of the full core MW (thermal) power level that exists 20 1, hours following reactor shutdown from an extended power run near full power.

During cold shutdown operations, reactor coolant flows from the RCS to the RHR pumps through the tube side of the RHR heat exchangers and back to the RCS. The heat load is transferred by Page 2-26

the RHR heat exchangers to the Component Cooling Water System

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which is circulating on the shell side of the heat exchangers.

f The inlet line to the RHR system is located in the hot leg of reactor coolant loop A while the return line is connected to the cold leg of reactor coolant loop B.

Two motor-operated valves in series isolate the inlet line to the Residual Heat Removal System from the Reactor Coolant f System. The return lines are isolated by check valves and motor-operated valves in each line. To avoid potential RCS boundary leakage at this high/ low pressure interface, one of the motor-operated valves in the RHR suction line will be kept closed (pre-fire condition) with the corresponding motor control center breaker in the open position.

An orificed minimum flow recirculation line from the downstream side of each residual heat exchanger to the corresponding pump's suction line is provided to assure that the RHR pumps do not overheat under lov flow conditions.

The cooldown rate of the reactor coolant is controlled by regulating the flow through the tube side of the RHR heat exchan-gers. A bypass line, which serves both residual heat exchangers, is used to regulate and maintain a constant flow through the RHR system.

Page 2-27

f t

t The RHR system can be placed in operation when the pressure

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and temperature of the RCS are less than 425 psig and 350 0F, f respectively. If one of the pumps and/or one of the heat ex-changers is inoperative, safe cooldown of the plant is not af-fected; however, the time for cooldown is extended.

Residual Heat Removal Pumps Two identical pumps per unit are installed in the Residual l Heat Removal System. Each pump is sized to deliver sufficient reactor coolant flow through the residual heat exchangers to meet

( the plant cooldown requirements.

RHR Safety Valves The RHR system safety valves provide RCS cold overpressure protection whenever the RHR system is in operation. The valves are located inside containment on the common RHR inlet pipe, the B train low head safety injection flow path, and the letdown line which provides relief capability for the A train low head safety injection flow path and the common RHR return pipe.

Accumulators The manual isolation of the accumulators is assumed as a post-fire activity. The isolation valve at each accumulator is

' t. closed only when the RCS is intentionally depressurized below 3000 psig. If these valves' associated cables were damaged by fires, the isolation is assumed to be performed locally, governed by adequate plant procedures (post-fire).

Page 2-28

- _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ )

h I 2.4.6 Component Cooling Water System L

The component cooling loop is designed to remove decay and k sensible heat from the reactor coolant system, via the residual heat removal loop, during plant shutdown; to cool the letdown flow to the chemical volume and control system during power operation; and to provide cooling to dissipate waste heat from

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various primary plant components.

( Normally the component cooling loops of each of the two units operate independently such that two component cooling pumps and one component cooling heat exchanger are used with each unit; a third heat exchanger serves as a shared standby. The capability exists for employing any of the four component cooling f pumps with either of the two units (see Figure 2-10).

During normal full power operation, one component cooling pump and one component cooling heat exchanger accommodate the heat removal loads. The standby pump and the shared heat ex-changer provide 100% backup during normal operation. Two pumps and two heat exchangers are utilized to remove the decay and sensible heat during cold shutdown. If one of the pumps or one of the heat exchangers is not operative, safe shutdown of the y plant is not affected; however, the time for cooldown is ex-tended.

The two component cooling loops associated with one unit are interconnected downstream from the heat exchangers to effectively form an open loop supply header for both essential and Page 2-29

[ nonessential loads. For the present analysis of safe shutdown, L

no isolation of nonessential loads is assumed to be required.

( However, in anticipation of a potentially large cooling demand, the operator can shift to the other unit's component cooling system by repositioning manually operated valves.

The essential loads, other than the residual heat exchan-gers, are normally valved open to the supply header and discharge

[ to the suction of the component cooling pump with which these are

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normally associated, s. that component cooling water is circulated continuously through the essential loads during normal operation.

Each of the component cooling outlet lines from the residual f heat exchangers has a normally closed motor-operated valve which must be manually opened during RHR cooldown.

A surge tank is connected to the suction side of the pumps, and makeup to the system is supplied to the surge tank from either the demineralized water system or the reactor makeup water system.

Component Cooling Pumps The four component cooling pumps, which circulate component

cooling water through the component cooling loop, are horizontal, l

centrifugal units. Normally two pumps are used with each unit during a plant cooldown, but any of the four pumps can be used with either unit. During the recirculation phase following a loss-of-coolant accident, one of the two component cooling water j

Page 2-30

t pumps associated with each unit delivers flow to the shell side of the residual heat exchangers.

Component Cooling Heat Exchangers

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Three component heat exchangers are of the shell and straight tube (fixed tubesheet) type. Service water circulates through .the tubes while component cooling water circulates through the shell side. Normally one heat exchanger is used with each unit with the third serving as a standby.

l 2.4.7 Service Water System The Service Water (SW) System provides cooling for the fol-lowing safe shutdown equipment:

(a) Component cooling heat exchangers; (b) Emergency diesel generator heat exchangers; (c) Auxiliary feed pump bearing oil coolers.

The system also provides a back-up supply of water to the AFW system in the event that the condensate storage tanks are depleted.

The Service Water System has also been designed to provide redundant cooling water supplies with isolation valves to the containment coolers, air compressors, spent fuel pool cooling system, and to the containment air recirculating cooling system.

Page 2-31

f L

This system also supplies water for the Emergency Diesel Room fire protection systems and containment hose reels. The

( design includes provisions for automatic isolation of nonessential components following any accident. Lake Michigan is the source of service water.

This system which is shared by both units (see Figure 2-11) consists of six motor-driven service water pumps and two main headers, with a discharge strainer in each header. Each redundant header is served by three pumps and the system is normally operated with the headers cross-connected. A loop header system is provided by which each header supplies cooling water to nonessential services in one unit. Supply of service water for essential services is redundant and can be maintained in case of failure of one loop section header. These components, together with the associated heat exchangers, valving, piping and local instrumentation, complete the Service Water System.

The system is sized to ensure adequate heat removal based on highest expected temperatures of cooling water, maximum loadings and leakage allowances. The system is monitored and operated from the Control Room. Isolation valves are incorporated in all service water lines penetrating the containment.

Service Water Pumps Six motor-driven centrifugal service water pumps are provided. During normal operation, each service water pump has a capacity of 6800 gpm while during an accident each has a capacity Page 2-32

- _ - _ _ _ _ _ _ _ _ _ =

of 5500 gpm. Two service water pumps are connected to separated 480V buses, one per bus. The four remaining pumps are connected, two per bus, to two separate 480V buses. Two of the six pumps

{

are capable of carrying the required normal cooling load for the f two units.

The service water pumps are connected to the 480V buses that can be supplied by the emergency diesels in the event of loss of all outside power. For this condition, the service water system is designed to supply cooling water to only the required emergency systems. The pumps, which are located in the circulating water pumphouse, take suction directly from the lake and discharge to two below-ground pipelines leading to the ring header in the Class I section of the Control and Auxiliary Buildings. Supply lines are run to the containment from the Auxiliary Building from each side of the ring header. The return lines are manifolded by areas and are discharged to the condenser circulating water discharge pipe in either Unit 1 or Unit 2.

To preclude the possibility of an inadvertent blockage of cooling water flow, there are no automatically-operated valves in the service water system between the lake and the components which require cooling following the fire. Automatically-operated t

valves are provided to isolate sections of the service water system not required to be in operation.

Page 2-33

t.

In the event of a loss of normal safeguards electrical power, each of the two emergency diesel generator units is sized to supply three service water pumps addition to the other

(- in vital engineered safeguard loads in the unit in which the accident occurred and the loads required by the other unit to maintain a hot shutdown condition.

The service water lines to the Auxiliary Building primarily supply cooling water to the three component cooling heat exchangers and the spent fuel pool heat exchangers. These heat exchangers are utilized to remove residual heat from the primary coolant system and from the spent fuel pool through the intermediate component cooling water loop. The Residual Heat Removal System is employed during normal shutdown operations. It also is placed in service following a loss-of-coolant accident for cooling of the recirculated flow from the reactor containment sump. The spent fuel pool cooling system is not considered an essential load and the service water cooling for this system is interrupted during an accident condition if less than four of the six service water pumps are operating. ,

2.4.8 Emergency Power System The Emergency Power System (EPS) includes an on-site emer-gency source which supplies power to essential safe shutdown equipment if the normal or the off-site power sources are not available.

Page 2-34

i The emergency power facilities consist of two General Motors Corporation, Electro-Motive Division, Model 999-20 diesel

( engine-generator units, each rated at 2,850 kW continuous, 0.8 power factor, 900 rpm, 4,160 volts, 3-phase, 60 cycle. The units have an emergency capability of 3,050 kW for a 30-minute period.

Off-site power is not locked out upon emergency generator operation. Bus supply breakers from off-site power are tripped on loss of bus voltage, and they must be manually reclosed upon l

restoration of off-site power.

Each emergency diesel generator is capable of sequentially starting and supplying the power requirement of one complete train of safeguards equipment for one reactor unit and providing sufficient power to allow the second reactor unit to be placed in a safe shutdown condition. The units are located in separate rooms in a Class I portion of the Control Building.

Each emergency diesel is automatically started by either one of two pairs of air motors. Each unit has its own independent starting system, including two banks of three air storage tanks and two compressor systems powered from the 480V emergency bus.

By manually changing the pulley belt, one air compressor in each unit may be powered by its own independent auxiliary diesel engine. Each bank of air receivers has sufficient storage to crank the engine five times for the normal cranking duration.

Page 2-35 3

The emergency unit is capable of being started and ready to l

accept load in ten seconds. The starting system is completely redundant for each diesel generator.

(

Starting air is admitted from the storage tanks at a working pressure of 200 psi to the starting system through a two-way solenoid valve. A selector switch determines which solenoid valve and, in turn, which bank of starting motors will be activated. When the signal to start the diesel is initiated, a dc motor-driven fuel pump and booster pump will start, and the preselected solenoid valve will be energized to open. When the starter motor pinions are engaged, the starter motors will crank the engine.

The units use No. 2 fuel oil. A 550-gallon storage tank is located in the base of each of the units. An additional 550-gallon " day tank" is located adjacent to each unit. The day tanks can be manually cross-connected allowing either tank to supply either unit. An underground emergency fuel oil storage tank on-site has a capacity of 12,000 gallons. This capacity provides sufficient fuel to allow one diesel to operate continuously at full load for an additional 48 hours. An y additional supply of fuel oil is maintained on the site in two above-ground 60,000 gallon storage tanks to supply the gas turbine and heating boilers. This oil is transferred by a gravity feed to the 12,000 gallon underground emergency storage tank.

l Page 2-36

i Gas Turbine L

In addition to the two rapid starting emergency generators,

( there is a gas turbine generator installed at the site. This unit is rated approximately 23.1 MVA and is normally used for allowing high line and equipment maintenance outage, spinning reserve, black plant startup, and for peaking purposes. This gas turbine unit is connected to the auxiliary electrical system such that it can be paralleled with or serve in lieu of the normal source of plant startup and safeguards power, thereby accomplishing its principal function of making it possible to restart the Point Beach Nuclear Plant in case of an area

" blackout" in which off-site ac voltage is unavailable. The unit is capable of being started and ready to accept partial load in approximately three minutes and full load in approximately five minutes. The gas turbine can be used as a power source for safeguard buses during loss of off-site ac.

Diesel Generator Loading Description Each diesel unit is started on the occurrence of either of the following incidents:

(1) Initiation of safety injection operation either unit; or I

(2) Undervoltage on either of the two 4,160V buses (1-A05 or 2-A05 for G01 and 1-A06 or 2-A06 for G02) to which the emergency generator is associated.

With the occurrence of undervoltage on 4,160V bus 1-A05, the automatic sequence is as follows:

(

Page 2-37

l (1) Trip bus 1-A05 supply and tie breakers lA52-57 and 1A52-61 to isolate bus 1-A05 from buses 1-A03 and

( l-A06.

(2) All feeder breakers on 480V bus 1-B03, except for the component cooling pump motor, auxiliary feed pump motor

{ and the safeguards motor control center 1-B32, are tripped. The tie breakers to buses 1-B01 and 1-B04 are tripped.

(3) Start the emergency diesel generator G01.

(4) After the unit comes up to speed and voltage, close the emergency generator breaker lA52/60.

l (5) If the motor-driven auxiliary feed pump had been I operating prior to the loss of voltage, it would be automatically restarted upon return of bus voltage. If it had not been running, it would be subject to the automatic starting logic.

(6) If the component cooling water pumps had been operating prior to a loss of voltage, these would automatically l

be restarted upon return of bus voltage. However, if the loss of voltage is coincident with a safety

}

injection signal, the component cooling water pumps must be restarted manually.

The operator would any auxiliary (7) manually start equipment as required for safe plant operation. If there is a requirement for engineered safety features operation coincident with undervoltage, this equipment will restart sequentially upon return of bus voltage.

However, if the loss of voltage is coincident with a safety injection signal, a sequential start of engineered safety feature equipment will occur following Step 4 above.

/

The automatic sequences for bus 2-A05 and for buses 1-A06 and 2-A06, associated with emergency generator G02, are similar to those described for bus 1-A05.

Page 2-38

i Two 60-cell, lead acid, station-type batteries are provided for power supply for control, emergency lighting and to the in-f verters for critical 60 cycle instrument power. Control power for each diesel generacor can be supplied from either battery.

4160 Volt System The 4160V system (Figures 2-12 through 2-15) is divided into six buses per unit. Two buses for Unit 1, numbers 1-A03 and 1-A04, are connected to the 13,800V system via bus main breakers and the low voltage station auxiliary transformer number 1-X04.

Buses 1-A05 and 1-A06 are connected to buses 1-A03 and 1-A04 using manually closed tie breakers. Buses 1-A01 and 1-A02 are connected to the Unit 1 generator leads via bus main breakers and the Unit Auxiliary Transformer, number 1-X02. Buses 1-A01 and 1-A03 or buses 1-Au2 and 1-A04 can be tied together via bus tie breakers. All normal operating 4160V auxiliaries are split between buses 1-A01 and 1-A02. In addition, buses 1-A01 and 1-A02 each serve one 4160-480V station service transfocmer.

Buses 1-A03 and 1-A04 serve buses 1-A05 and 1-A06 respectively, as well as buses 1-A01 and 1-A02 during startup, shutdown and after reactor trip.

Buses 1-A05 and 1-A06 each serve one of the two 4160-480V station services transformers for the unit's 480V safeguards equipment and one of the two safety injection pumps. Thus, no transfer is required for the safeguards equipment in the event of a turbine generator trip. In addition to being served by buses Page 2-39

1-A03 and 1-A04, buses 1-A05 and 1-A06 are directly served by emergency diesel generators G01 and G02 respectively. Each emer-gency diesel generator will be automatically started and placed on-line upon undervoltage on either 4160V bus to which it is associated.

The six 4160V buses for Unit 2 have the same arrangement as described for Unit 1, 480 Volt System The 480V system (Figure 2-16 and 2-17) is divided into four buses pei unit. The buses for Unit 1 are supplied from the 4,160V buses though individual step down transformers as follows: 1-B01 from 1-A01, 1-B02 from 1-A02, 1-B03 from 1-A05 and 1-804 from 1-A06. Tie breakers are provided between 480V buses 1-B01 and 1-B03, buses 1-B02 and 1-B04 and buses 1-B03 and 1-B04. The four 480V buses for Unit 2 have the same arrangement as described for Unit 1.

! 125 Volt dc System The 125V dc system (Figure 2-18) is divided into two buses with one battery and battery charger (supplied from the 480V system) serving each bus. The battery chargers supply the normal

> dc loads, as well as maintaining proper charges on the batteries.

A third battery charger is supplied to allow either of the above battery chargers to be removed for maintenance. The two 125V dc buses can be tied together in the event that one battery is removed from service.

I Page 2-40

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, fl ;; ,7 .') ,

ic ,, ,,

[ ,

j ,

/ I,

^' '

?- fi

! h '

I

,/ p

-instrument Bus ,

/ a 7

The 120V ac instrument. supply (Figure 2-19) is split into i

f four buses per unit. Two of the buses ar,e fed by inverters i which i are in turn supplied from separate 125V dc buses. The other two buses are supplied by' motor-generator sets connec0ed to separate

< 480V buses. In thslevent an inverter is taken out'of service, a < ~

['

backup supply-from -a spare inverter is avaiIabletofeedthe f associated bus. The backup supply ' for' a motor-generator set is from a lighting panel. ,

I o

2.S IdentificaIionaof Safe Shutdown System Components; j

-, j -

Subsection 2.'4 described the. sp'ecific systems which will be '

s I

used to achieve safe shutdo'w,n using the alternate shutdown capability. This subsection discusses the method of selection i

of safe shutdown components at Point Beach Nuclear Plant.

For each, system, plant,' flow: diagrams, system descriptions,

' / ,

U t used. to identify the precise primary and one line diagrams were

/ flow paths and operational characteristics that must be estab-

> lished,to' accomplish the desired safe shutdown function. From s

ie this information, a list was compiled of the components which I

participate in the system's performance of its safe shutdown t function. These components are:

'/

,', Active component 3 that need to change position to

!( ) achieve syste's function.

> 3 (2) Passive components'which are in the proper position;

' power loss will not . result in a change.of position but components may change position due to ' fire damage.

,! /, 1 s

r 4

, t Page >;2E41 f

e 9 i

/

/ #/

i L

(3) Power-operated components which need to change position to establish system function, whose loss of motive power results in the component adopting the desired position but which may be affected by fire damage.

(4) Major mechanical components which support safe shutdown (heat exchangers and storage tanks).

From the analysis of the safe shutdown system flow paths, those components whose spurious operation would threaten safe I shutdown system operability were also identified. This iden-tification included those branch flow paths that must be isolated and remain isolated to assure that flow wi.11 not be substantially diverted from the primary flow path. See subsection 3.2.3 for the detailed discussion of spurious operations.

A minimum equipment list was generated for safe shutdown devices including device identification, normal operating status, operating requirements for hot shutdown and cold shutdown, re-quired supporting services and plant location.

The final safe shutdown component list developed for Point Beach Units 1 and 2 includes the components required to protect the safe shutdown capability from any credible fire in the Switchgear Room, Cable Spreading Room, or Control Room. These lists are provided in Table 2-1. Figure 2-20 shows the physical i

location of the safe shutdown components.

I Page 2-42

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

TOBL2 2-1.1: POINT BEACH NUCLEAR PLANT HOT SHUTDOWN COMPONENTS ELECTRICAL SOURCES NORMAL #LTERNATE COMPONENT SYSTEM DESCRIPTION CONTROL POWER CONTROL POWER 1A52-58 AC/DC. STA. SERVICE TRANS. [1-X13] BREAKER 011 1A05 D13 1A52-60 AC/DC EMERGENCY GENERATOR BREAKER 011 G01 D13 1A52-61 AC/DC BUS TIE BREAKER D11 1A05 to 1AC6 013 1A52-64 AC/DC STA. SERVICE TRANS. [1-X14] BREAKER D13 1A06 Dit l 1A52-66 AC/DC EMERGENCY GENERATOR BREAKER D13 G02 011 1-X13 AC/DC STATION SERVICE TRANSFORMER 1A05 1-X14 AC/DC STATION SERVICE TRANSFORMER IA06 ,

1 1852-16B AC/DC STA. SERVICE TRANS. [1-X13] BREAKER D11 1A05 013 1 1852-16C AC/DC BUS TIE BREAKER D11 1803 to 1804 D13 l

1852-17B AC/DC STA. SERVICE TRANS. [1-X14] BREAKER D13 1A06 D11 2A52-67 AC/DC EMERGENCY GENERATOR BREAKER D13 G02 D11 l 2A52-69 AC/DC STA. SERVICE TRANS. [2-X14] BREAKER D13 2A06 D11 2A52-72 AC/DC BUS TIE BREAKER D11 2A05 to 2A06 D13 2A52-73 AC/DC EMERGENCY GENERATOR BREAKER D11 G01 D13 2A52-75 AC/DC STA. SERVICE TRANS. [2-X13] BREAKER D11 2A05 D13 2-X13 AC/DC STATION SERVICE TRANSFORMER 2A05 2-X14 AC/DC STATION SERVICE TRANSFORMER 2A06 2852-25B AC/DC STA. SERVICE TRANS. [2-X14] BREAKER D13 2A06 D11 2852-408 AC/DC STA. SERVICE TRANS. [2-X13] BREAKER D11 2A05 D13 285?-40C AC/DC BUS TIE BREAKER D11 2003 to 2B04 D13 001 AC/DC MAIN 125VDC DISTRIBUTION BUS DOS D02 AC/DC MAIN 125VDC DISTRIBUTION BUS D06 005 AC/DC STATION BATTERY NO. 1 D06 AC/DC STATION BATTERY NO. 2 D11 AC/DC 125VOC DISTRIBUTION PANEL 001 Page 1 of 5

--- ~ .. - - - -

TABLE 2-1.1 (continued)

NOT SHUTDOWN COMPONENTS ELECTRICAL SOURCES  !

NORMAL ALTERNATE COMPONENT SYSTEM DESCRIDTION CONTROL POWER CONTROL POWER D12 AC/DC 125VDC DISTRIBUTION PANEL 001 013 AC/DC 125VDC DISTRIBUTION PANEL 002 014 AC/DC 17%VDC DISTRIBUTION PANEL D02 016 AC/DC 125/DC DISTRIBUTION PANEL D11 D17 AC/DC 125VDC DISTRIBUTION PANEL D11 D18 AC/DC 125VDC DISTRIBUTION PANEL D13 D19 AC/DC 125VDC DISTRIBUTION PANEL D13 D21 AC/DC 125VDC DISTRIBUTION P Af4E L D13 022 AC/DC 125VDC DISTRIBUTION PANEL D11 0105 AC/DC STATION BATTERY D106 AC/DC STATION BATTERY GO) AC/DC DIESEL GENERATOR D11,012,D18 G02 AC/DC DIESEL GENERATOR D13,D14,D16 1-MOV4000 AFWS AFW ISOLATION MOV 1-P29] D14 1-MOV4001 AFWS AFW ISOLATION MOV [1-F29] D12 1-MOV4002 AFWS AFW RECIRCULATION AOV 1-MOV4006 AFWS SWS BACKUP FEEDWATER SUPPLY TO 1-P29 1842 1842 1-929 AFWS AUX. FEED PUMP (TURBINE DRIVEN) PNEUMATIC 2-M0v4000 AFWS AFW ISOLATION MOV [2-P29] D14 2-MOv4001 AFWS AFW ISOLATION MOV [2-P29] D12 2-MOV002 AFWS AFW RECIRCULATION AOV 2-MOV4006 AFWS SWS BACKUP FEEDWATER SUPPLY TO 2-P29 2842 2842 2-P29 AFWS AUX. FEED PUMP (TURBINE DRIVEN) PNEUMATIC MOV4007 AFWS AFW RECIRCULATION AOV M0v4009 AFWS SWS BACKUP FEEDWATER SUPPLY TO P38A 1832 1832 MOV4314 AFWS AFW RECIRCULATION AOV Page 2 of 5

.a .

TABLE 2-1,1 (continued)

HOT SHUTDOWN COMPONENTS ELECTRICAL SOURCES NORMAL ALTERNATE COMPONENT SYSTEM DESCRIPTION CONTROL POWER CONTROL POWER MOV4016 AFWS SWS BACK FEEDWATER SUPPLY TO P38B 2842 2B42 MOV4020 AFWS .AFW ISOLATION MOV [P38A] 2D42 2842 MOV4021 AFWS AFW ISOLATION MOV [P38B] 1842 1842 MOV4022 AFWS AFW ISOLATION MOV [P38A] 2832 2832 MOV4023 AFWS AFW ISOLATION MOV [P38B] 1832 1832 P38A AFWS AUX. FEED PUMP (MOTOR DRIVEN) 011 1803 D13 P38B AFWS AUX. FEED PUMP (MOTOR DRIVEN) D13 2004 D11 1-LCV112B CVCS RWST CHARGING WATER SUPPLY ISOLATION MOV 1832 1832 1-LCV112C CVCS VCT CHARGING WATER SUPPLY ISOLATION MOV 1832 1832 1-P2A CVCS CHARGING PUMP Ott '1803 013 1-P2B CVCS CHARGING PUMP D11 1803 D13 1-P2C CVCS CHARGING PUMP D13 1804 011 1-V200A CVCS NORMAL LETDOWN ORIF. ISOLATION VALVE D17 1-V2008 CVCS NORMAL LETDOWN ORIF. ISOLATION VALVE D17 1-V2 OOC CVCS NORMAL LETDOWN ORIF. ISOLATION VALVE D17 2-LCV1128 CVCS RWST CHARGING WATER SUPPLY ISOLATION MOV 2832 2832 2-LCV112C CVCS VCT CHARGING WATER SUPPLY ISOLATION MOV 2832 2B32 2-P2A CVCS CHARGING PUMP D11 2003 D13 2-P2B CVCS CHARGING PUMP D11 2003 D13 (

2-P2C CVCS CHARGING PUMP D13 2004 D11 2-V200A CVCS NORMAL LETDOWN ORIF. ISOLATION VALVE D17 l 2-V2008 CVCS NORMAL LE1DOWN ORIF. ISOLATION VALVE D17 2-V200C CVCS NORMAL LETDOWN ORIF. ISOLATION VALVE D17 1T13 CVCS REFUELING WATER STORAGE TANK 2T13 CVCS REFUELING WATER STORAGE TANK i

Page 3 of 5

4 s.

TABLE 2-1.1 (continued).

, HOT SHUTDOWN COMPONENTS ELECTRICAL SOURCES' NORMAL ALTERNATE COMPONENT SYSTEM ~ DESCRIPTION POWER CONTROL QNTROL POWER 1-CV2015 .MRSS SG ATM DUMP VALVE [1-HX1B] IVO2 4 1-CV2016 MRSS' SG ATM DUMP VALVE [1-HX1A] tv03 1 1-MOV2019 MRSS AFW PUMP [1-P29} STEAM SUPPLY MOV D12 1-MOV2020 MRSS AFW PUMP [1-P29] STEAM SUPPLY MOV D14 1-CV2017 -MRSS MAIN STEAM ISOLATICN VALVES D17.021

1-CV2018 MRSS MAIN STEAM ISOLATION VALVES D17,D21 1

2-Cv2015 MRSS SG ATM DUMP VALVE [2-HX1B] 2YO2

2-CV2016 MRSS SG ATM DUMP VALVE [2-HX1A1 2VO3 2-MOV2019 MRSS AFW PUMP [2-P29] STEAM SUPPLY MOV D12 2-MOV2020 MRSS AFW. PUMP [2-P29] STEAM SUPPLY MOV D14

2-Cv2017 MRSS MAIN STEAM ISOLATION VALVE D19.022 i

2-Cv2018 .MRSS MAIN STEAM ISOLATION VALVE D19,022 j T24A MRSS CONDENSATE STORAGE TANK j

j T248 MRSS CONDENSATE STORAGE, TANK

! 1-PCV430 RCS PRESSURIZER PRESSURE RELIEF AOV D19 1 1-PCV431C RCS PRESSURIZER PRESSURE RELIEF AOV D17 ,

2-PCV430 RCS PRESSURIZER PRESSURE RELIEF AOV D19 2-PCV431C RCS PRESSURIZER PRESSURE RELIEF AOV D17 l

1-TE451B PMS REACTOR COOLANT HOT LEG TEMP. ELEM., LOOP 'B' 1Y101 1-TE451C PMS REACTOR COOLANT COLD LEG TEMP. ELEM., LOOP *B' 1Y101 1-PT483 PMS 'B' STEAM GENERATOR PRESSURE TRANSMITTER (W.R.) 1YO1 1

1-LT470A PMS *B* STEAM GENERATOR LEVEL TRAN5MITTER (W.R.) IV101

{ 1-PT420 PMS RCS PRESSURE TRANSMITTER (W.R) 1Y101 i

1-LT426 PMS PRESSURIZER LEVEL TRANSMITTER IVO1 2-TE451B PMS REACTOR COOLANT HOT LEG TEMP. ELEM., LOOP 'B' 2Y103 i

Page 4 of 5 4

0 i

TABLE 2-1.1 (continued)

NOT SHUTDOWN COMPONENTS ELECTRICAL SOURCES NORMAL ALTERNATE COMPONENT SYSTEM DESCRIPTION CONTRA POWER CONTROL POWER 2-TE451C PMS REACTOR COOLANT COLD LEG TEMP. ELEM.. f.30 P 'B' 2V103 2-PT483 PMS *B' STEAM GENERATOR PRESSURE TRANSMITTER (W.R.) 2v01 2-LT470A PMS 'B' STEAM GENERATOR LEVEL TRANSMITTER (W.R.) 2v101 2-PT420 PMS RCS PRESSURE TRANSMITTER (W.R.) 24101 2-LT426 PMS PRESSURIZER LEVEL TRANSMITTER 2Y01 1-TE4500 PMS REACTOR COOLANT HOT LEG TEMP. ELEM., LOOP 'A' 1Y103 1-TE450A PMS REACTOR COOLANT COLD LEG TEMP. ELEM., LOOP "A" 1Y103 1-PT469 PMS 'A' STEAM GENERATOR PRESSURE TRANSMITTER (W.R.) 1YO3 1-LT4608 PMS 'A' STEAM GENERATOR LEVEL TRANSMITTER (W.R.) 1Y103 1-PT420A PMS RCS PRESSURE TRANSMITTER (W.R.) 1Y103 1-LT427 PMS PRESSURIZER LEVEL TRANSMITTER 1YO3 2-TE450D PMS REACTOR COOLANT HOT LEG TEMP. ELEM., LOOP 'A' 2Y103 2-TE450A PMS REACTOR COOLANT COLD LEG TEMP. ELEM., LOOP *A' 2V103 2-PT469 PMS 'A* STEAM GENERATOR PRESSURE TRANSMITTER (W.R.) 2YO3 2-LT4600 PMS 'A' STEAM GENERATOR LEVEL TRANSMITTER (W.R.) 2Y103 2-PT420A PMS RCS PRESSURE TRANSMITTER (W.R.) 2V103 2-LT427 PMS PRESSURIZER LEVEL TRANSMITTER 2V03 P32A SWS SW PUMP D11 1803 013 P32B SWS SW PUMP D11 1803 D13 P32C SWS SW PUMP D13 1804 011 P32D SWS SW PUMP D13 2004 D11 P32E SWS SW PUMP D13 2004 D11 P32F SWS SW PUMP D11 2B03 D13 CV2838 SWS CONTROL VALVE G01 COOLING 2VOS Cv2839 SWS CONTROL VALVE G02 COOLING 1YO5 Page 5 of 5

TABLE 2-1.2: POINT BEACH NUCLEAR PLANT COLD SHUTDOWN COMPONENTS FLECTRICAL SOURCES NORMAL ALTERNATE COMPONENT SYSTEM DESCRIPTION, CONTROL POwfR CONTROL POWER 1A52-58 AC/DC STA. SERVICE TRANS. [1-X13] BREAKER D1' 1A05 D13 1A52-60 AC/DC EMERGENCY GENERATOR BREAKER D11 G01 013 1A52-61 AC/DC BUS TIE BREAKER D11 1A05 to IA06 013 1A52-64 AC/DC STA. SERVICE TRANS. [1-X14] BREAKER D13 1A06 011- l 1A52-66 AC/DC EMERGENCY GENERATOR OREAKER D13 G02 Dil 1-X13 AC/DC STATION SERVICE TRANSFORMER 1A05 1-X14 AC/DC STATION SERVICE TRANSFORMER 1A06 l

1852-148 AC/DC SAFEGUARD MCC-1832 BREAKER D11 1803 D13 1852-16B AC/DC STA. SERVICE TRANS. [1-X13] BREAKER D11 1A05 D13 i

1852-16C AC/DC BUS TIE BREAKER D11 1803 to 1804 D13 1852-178 AC/DC STA. SERVICE TRANS, [1-X14] BREAKER D13 1A06 D11  !

I 1852-23C AC/DC SAFEGUARD MCC-1842 BREAKER D13 1804 D11 2A52-67 AC/DC EMERGENCY GENERATOR BREAKER D13 G02 D11 2A52-69 AC/DC STA. SERVICE TRANS. [2-X14] BREAKER D13 2A06 011 2A52-72 AC/DC BUS TIE BREAKER D11 2A05 to 2A06 D13 '

2A52-73 AC/DC EMERGENCY GENERATOR BREAKER D11 G01 D13 2A52-75 AC/DC STA. SERVICE TRANS, [2-X13] BREAKER D11 2A05 D13 2-X13 AC/DC STATION SERVICE TRANSFORMER 2A05 2-X14 AC/DC STATION SERVICE TRANSFORMER 2A06 2852-258 AC/DC STA. SERVICE TRANS. [2-X14] BREAKER D13 2A06 D11 l l

2B52-32C AC/DC SAFEGUARD MCC-2842 BREAKER D13 2004 D11 l 2B52-38B AC/DC SAFEGUARD MCC-2832 BREAKER D11 2003 D13 l

2852-408 AC/DC STA. SERVICE TRANS. [2-X13] BREAKER D11 2A05 D13 1

2852-40C AC/DC BUS TIE BREAKER D11 2803 to 2004 D13 Page 1 of 5

- m - _

TABLE 2-1.2 (continued ,

COLD SHUTDOWN COMPONENTS ELECTRICAL SOURCES NORMAL ALTERNATE COMPONENT SYSTEM DESCRIPTION CONTROL POWER CONTROL POWER 001 AC/DC MAIN 125VDC DISTRIBUTION BUS DOS D02 AC/DC MAIN 125VDC DISTRIBUTION BUS D06 DOS AC/DC STATION BATTERY NO. 1 D06 AC/DC STATION BATTERY NO. 2 D11 AC/0C 125vDC DISTRIBUTION PANEL 001 D12 AC/DC 125VDC DISTRIBUTION PANEL 001 D13 AC/DC 125vDC DISTRIBUTION PANEL D02 D14 AC/DC 125VDC DISTRIBUTION PANEL 002 D16 AC/DC 125VOC DISTRIBUTION PANEL D11 D17 AC/DC 125VDC DISTRIBUTION PANEL D11 DIB AC/DC 125VDC DISTRIBUTION PANEL D13 D19 AC/DC 125VDC DISTRIBUTION PANEL D13 D21 AC/DC 125VDC DISTRIBUTION PANEL D13 D22 AC/DC 125VDC DISTRIBUTION PANEL D11 G01 AC/DC DIESEL GENERATOR D11,012.D18 G02 AC/DC DIESEL GENERATOR D13,D14.016 D105 AC/DC STATION BATTERY D106 AC/DC STATION BATTERY 1-MOV738A CCWS CCWS TO RHR HX ISOLATION MOV 1832 1832 1-MOV738B CCWS CCWS TO RHR HX ISOLATION MOV 1842 1842 1-P11A CCWS CCWS PUMP D11 1803 D13 1-P118 CCWS CCWS PUMP D13 1804 D11 2-MOV738A CCWS CCWS TO RHR HX ISOLATION MOV 2832 2832 2-MOv7388 CCWS CCWS TO RHR HX ISOLATION MOV 2842 2842 2-P11A CCWS CCWS PUMP D11 2B03 D13 Page 2 of 5

TABLE 2-1.2 (continued)

COLD SHUTDOWN COMPONENTS ELECTRICAL SOURCES NORMAL ALTERNATE COMPONENT SYSTEM DESCRIPTION CONTROL POWER CONTROL POWER 2-P118 CCWS CCWS PUMP D13 2004 D11 HX12A CCWS CCWS HEAT EXCHANGER HX12B CCws CCwS HEAT EXCHANGER HX12C CCwS CCws HEAT EXCHANGER 1-CV2015 MRSS SG ATM DUMP VALVE [1-HX1B] 1YO2 1-CV2016 MRSS SG ATM DUMP VALVE [1-HX1A] 1YO3 1-CV2017 MRSS MAIN STEAM ISOLATION VALVES D17.021 1-Cv2018 MRSS MAIN STEAM ISOLATION VALVES D17.021 2-CV2015 MRSS SG ATM DUMP VALVE [2-HX1B] 2VO2 2-CV2016 MRSS SG ATM DUMP VALVE [2-HX1A] 2VO3 2-CV2017 MRSS MAIN STEAM ISOLATION VALVE D19,D22 2-CV2018 MRSS MAIN STEAM ISOLATION VALVE D19 D22 l

l 1-PCV430 RCS PRESSURIZER PRESSURE RELIEF AOV D19 1-PCV431C RCS PRESSURIZER PRESSURE RELIEF AOV D17 2-PCV430 RCS PRESSURIZER PRESSURE RELIEF AOV D19 l 2-PCV431C RCS PRESSURIZER PRESSURE RELIEF AOV D17 1-MOV852A RHR RHR INJECTION ISOLATION MOV 1832 1832 1-MOV8528 RHR RNR INJECTION ISOLATION MOV 1842 1842 1-FCV626 RHR RHR HXS BVPASS ISOLATION AOV IVO2 1-HCV624 RHR RHR HX FLOW CONTROL AOV 1-HCV625 RHR RHR HX FLOW CONTROL AOV 1YO2 1-HX11A RNR RHR HEAT EXCHANGER 1-HX118 RHR RHR HEAT EXCHANGER 1-MOV700 RHR RHR/RCS BOUNDARY ISOLATION MOV 1832 1832 1-MOV701 RHR RHR/RCS BOUNDARY ISOLATION MOV 1842 1842 Page 3 of 5 l

)

- . _ ~ - - - . -

TABLE 2-1.2 (continued)

COLD SHUTDOWN COMPONENTS ELECTRICAL SOURCES NORMAL ALTERNATE DESCRIPTION CONTROL POWER CONTROL POWER COMPONENT SYSTEM' kHR RHR PUMP D11 1803 D13 1-P10A RHR PUMP D13 1804 D11 1-P108 RHR RHR RHR INJECTION ISOLATION MOV 2B32 2B32 2-MOv852A 2-MOV8528 RHR RHR INJECTION ISOLATION MOV 2B42 2842 2-FCV626 RHR RHR HXS BYPASS ISOLATION AOV 2YO2 2-HCV624 RHR RHR HX FLOW CONTROL AOV RHR HX FLOW CONTROL AOV 2YO2 l 2-HCV625 RHR 2-HX11A RHR RHR HEAT EXCHANGER

2-HX118 RHR RHR HEAT EXCHANGER l

RHR RHR/RCS BOUNDARY ISOLATION MOV 2832 2832 l

2-MOV700 2-MOV701 RHR RHR/RCS BOUNDARY ISOLATION MOV 2842 2842 1

RHR PUMP D11 2803 D13 2-P10A RHR 2-P10B RHR RHR PUMP D13 2BO4 D11 (

1-TE451B PMS REACTOR COOLANT HOT LEG TEMP. ELEM., LOOP 'B' 1Y101 1-TE451C PMS REACTOR COOLANT COLD LEG TEMP. ELEM., LOOP 'B' 1Y101 1-PT483 PMS *B' STEAM GENERATOR PRESSURE TRANSMITTER (W.R.) IVO1 l

1-LT470A PMS 'B' STEAM GENERATOR LEVEL TRANSMITTER (W.R.) 1Y101 1-PT420 PMS RCS PRESSURE TRANSMITTER (W.R.) 1Y101 PMS PRESSURIZER LEVEL TRANSMITTER 1YU1 1-LT426 2-TE451B PMS REACTOR COOLANT HOT LEG TEMP. ELEM., LOOP 'B' 2Y103 2-TE451C PMS REACTOR COOLANT COLD LEG TEMP. ELEM., LOOP 'B' 2V103 2-PT483 PMS 'B' STEAM GENERATOR PRESSURE TRANSMITTER (W.R.) 2VOI STEAM GENERATOR LEVEL TRANSMITTER (W.R.) 2Y101 2-LT470A PMS 'B' PMS RCS PRESSURE TRANSMITTER (W.R.) 2Y101 2-PT420 PMS PRES $URIZER LEVEL TRANSMITTER 2VO1 2-LT426 Page 4 of 5

TABLE 2-1.2 (continued)

COLD SHUTDOWN COMPONENTS ELECTRICAL SOURCES NORMAL ALTERNATE DESCRIPTION CONTROL POWER CONTROL POWER COMPONENT SYSTEM 1-TE4500 PMS REACTOR COOLANT HOT LEG TEMP. ELEM., LOOP 'A' IV103 1-TEfSOA PMS REACTOR COOLANT COLD LEG TEMP. ELEM., LOOP 'A' 1V103 1-PT469 PMS *A' STEAM GENERATOR PRESSURE TRANSMITTER (W.R.) 1403 1-LT4608 PMS *A' STEAM GENERATOR LEVEL TRANSMITTER (W.R.) 1V103 1-PT420A PMS RCS PRESSURE TRANSMITTER (W.R.) IV103 1-LT427 PMS PRESSURIZER LEVEL TRANSMITTER IV03 2-TE4500 PMS REACTOR COOLANT NOT LEG TEMP. ELEM., LOOP 'A' 2V103 2-TE450A PMS REACTOR COOLANT COLD LEG TEMP. ELEM., LOOP *A* 2V103 2-PT469 PMS *A' STEAM GENERATOR PRESSURE TRANSMITTER (W.R.) 2V03 i I

2-LT4608 PMS 'A' STEAM GENERATOR LEVEL TRANSMITTER (W.R.) 2V103 2-PT420A PMS RCS PRESSURE TRANSMITTER (W.R.) 2V103 2-LT427 PMS PRESSURIZER LEVEL TRANSMITTER 2V03 l SW PUMP D11 1803 D13 P32A SWS P328 SWS SW PUMP D11 1803 D13 P32C SWS SW PUMP D13 1804 D11 P32D SWS SW PUMP D13 2004 011 SW PUMP D13 2004 D11 P32E SWS P32F SWS SW PUMP D11 2003 Ots CV2838 SWS CONTROL VALVE G01 COOLING 2V05 CV2839 SWS CONTROL VALVE G02 COOLING IVOS Page 5 of 5

TABLE 2_-2 : SHUTDOWN INSTRUMENTATION NUMBERING AND CODING

! l Ii l l l RCS LOOP "A" ll RCS LOOP "B" l l FUNCTION 1 l ll l l l l INSTRUMENTS l COLOR ll INSTRUMENTS l COLOR l l l l l1

' I i l I i l!  ! 1 l T 1 [2] TEli50 B 1

HOT YELLOW l1 1 [2] TEli51 B l RED I 11 I I I i 1 [2] TEll50 D i WilITE II 1 [2] TE451 D l YELLOW l I I I II I I i l l II I i i T 1 [2] TE450 A COLD WHITE 1 1 [2] TEli51 A YELLOW I

l i 1 [2] TE450 C l YELLOW ll 1 [2] TEll51 C l RED l >

I I I II I I I I I II I i 1 STEAM GENERATOR l 1 [2] PT468 l RED ll 1 [2] PT483 l RED l 1 PRESSURE 1 I ll l l 1 (WIDE-RANGE) I 1 [2] PT469 1 WHITE 1l 1 [2] PT478 I BLUE l 1 1 I II l I l 1 1 [2] PTil82 l BLUE i1 1 [2] PT479 I YELLOW l 4

1 1 I II I I I I I II I I l STEAM GENERATOR l 1 [2] LT460 A l RED ll 1 [2] LT470 A l RED l i LEVEL l l ll l l I (WIDE-RANGE) I 1 [2] LT460 B l WHITE li 1 [2] LT470 B l YELLOW l 1 I I il I i 4

I I I I I I I 1 FUNCTION l RED l BLUE I WifITE l YELLOW l NEUTRAL l 1 I l l l I I I i l l I l l l RCS PRESSURE l1 [2] PT420 1 I 1 [2] PT420A  !

1 [2] PT420B I I J (WIDE-RANGE) l i l  !  ! l 1 1 I I I I l

, IPRESSURIZER LEVEI] 1 [2] LT426 1 1 [2] LT428 1 1 [2] LT427 i l 1 [2] LT433 I I l I l l I l

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SAFE SHUTDOWN FIRE PLUS O FUNCTIONS OF OFF-SITE POWER REACTOR PRO-TECTION AND CONTROL ROD REACTOR TRIP INSERTION SWITCHGEAR 1

INITIAL REACTIVITY HOT SHUTDOWN CONTROL B RATED WATE1 RwST SOURCE I

POSITIVE DISPLACEMENT CHARGING PUMPING pyyp CAPACITY (1 OF 3) l RC PUMP NJECTION PATH OR AUXILIARY CH ARGING LINE SOURCE RANGE INSTRUMENTATION MONITORING l

LONG-TERM COLD SHUTDOWN REACTIVITY CONTROL FIGURE 2-1 RCS REACTIVITY CONTROL l

l

l i

SAFE SHUTDOWN FUNCTIONS STATION FIRE PLUS LOSS l

OF OFF-SITE POWER ATER RWST SOURCE l

POSITIVE DISPLACEMENT PUMPING CHARGING PUMP CAPACITY (10F 3) i RC PUMP SEAL OR INJECTION AUXILIARY PATH CH ARGING LINE

[ ROL

' RCSINVENTORY LOSS CONTROL EAM PRESSURIZER LEVEL INSTRUMENTATION MONITORING REACTOR COOLANT HOT / COLD SHUTDOWN MAKEUP

, CONTROL FIGURE 2-2 RCS MAKEUP CONTROL i

e

-r ,

--m -

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STATION SAFE SHUTDOWN FIRE PLUS LOSS I FUNCTIONS OF OFF SITE k POWER PRESSURIZER OVERPRESSURE S AFETY-RELIEF PROTECTION '

VALVES Hi-LO PRESSURE DEPRESSURIZATION INTERFACE l ISOLATION PROTECTION AUXILIARY SPRAY LINE ISOLATION SUBCOOLING MARGIN STEAM

>CO NTROL G EN ER ATOR PRESS.

MONITORING RCS PRESSURE MONITORING INSTRUMENTATION RCS T MONITORING INITIAL RCS HOT SHUTDOWN PRESSURE CONTROL RHR OVERPRESSURE SAFET PROTECTION LONG-TERM COLD SHUTDOWN PRESSURE CONTROL FIGURE 2-3 RCS PRESSURE CONTROL

I L

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(

A RS HEAT TRANSFER PUM ING EE TER STEAM DRIVEN M AIN STE AM STEAM SAFETY VALVE HEAT RELEASE GENERATOR INJECTION AND ATMOSPHERIC PATH INLET PATH DUMP VALVE MOVs INITIAL NATURAL REACTOR HOT SHUTDOWN T AND T MONITOR NG

' "^

REMOVAL STEAM GENERATOR RHR PUMP AND PRESSURE AND STEAM GENERATOR HEAT EXCHANGER LEVEL INSTRUMENTATION COOLDOWN MONITORING (1 OF 2)

CONDENSATE LONG-SECONDARY TERM COLD SHUTDOWN WITH SERV CE WATER B ACKUP REMOVAL FIGURE 2-4 REACTOR HEAT REMOVAL

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                                          ,  breakersy fuses or;similar devices (Type 1),               or (b)    will allow propagation of the fire into the common enclosure (Type 2) i 3.2.2          Identification,oj_AssociatedCircuitsbyCommonPower Supply and Common = Enclosures The electrical distribution                       system  was     reviewed to assure that acceptable coordination                         and- selective tripping is provided for all circuits on the                    ac       and     dc Emergency Power System.        The review was limited to the                     Emergency         Power System since there is no equipment powered from the                         balance of plant distribution sys-tems which is required for, or whose loss of power could prevent, safe shutdown.'
                   \   The Emergency Power System consists of:
                      \d (1)           4160V ac switchgear and emergency diesel generators (2) ,480V ac load centers and motor control centers (3)           12dv ac distribution buses
                                       \                             s (4)           '25 p     de distribution buses and emergency batteries.

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 ,    3,                  (reconnected-to red     channel           cables    with new transfer switch) o     Pressurizer level (existing) i 4.3.3      Source Range Flux Monitoring Post-fire source range flux monitoring                is to'be provided to meet the requirements of Section III.L.2                  of' Appendix R. A spare portable instrument or       suitably      installed spare instrument rack will      be   maintained    by   plant         instrumentation        surveillance procedures. If installed, the new instrument rack will be outside all fire zones of concern.           In    the event of damage to existing

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                                               ~

 , flow. The self-contained                    diesel units, as previously described, have been provided with                     operating    capability independent of the Control Room.

       .cause the valve to be opened.                                                      The other control cable is routed to the Control Room.            A hot           short                                                              or a control signal short                                                                                        on this cable could energize the                                           opening                                                                  coil causing the valve to be spuriously opened.

;                isolation and control switches are added to a shutdown system,                           the               existing technical specification                           surveillance                                     requirements should           be                     supplemented                                     to                     verify system / equipment functions from the alternate shutdown          station                    at              testing                                 intervals consistent with the                          guidelines                             of          Regulatory Guide 1.22 and IEEE 338. Credit may be taken for other existing tests using group overlap test concepts.

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