Revised Chapter 16 to Selected License Commitment Manual

ML20247Q987
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Site:	Catawba
Issue date:	05/11/1998
From:	Kitlan M DUKE POWER CO.
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PROC-980511, NUDOCS 9805290051
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i Duke Power Og Catawba Nuclear Station 4800 Concord Road ADktwpCovv.

%k, SC 29745 (803) 831-3000 May 11,1998 RE:

Catawba Nuclear Station Selected License Commitment Manual 1

Please update Selected License Commitments (SLC) manual:

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LOEP Pages 1 - 10 LOEP Pages 1 - 8 l

16.0 TABLE OF CONTENTS 16.0 16.0 Page 1 of 2 Page 1 Page 2 0f 2 Page 2 Page 3 Page 4 16.3 DEFINITIONS SLC 16.3 SLC 16.3 Page 16.3-1 Page 1 Page 16.3-2 Page 16.3-3 l

16.7 INSTRUMENTATION 08/

SLC 16,7

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Table of Contents Page 1 SLC 16.7-1 SLC 16.7.1 Page 2 Page 1 Page 3 Page 2

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Page 5 Page 2 Page 6 (Table 16.7-2A) Page 1 of 1 Page 7 (Table 16.7-28) Page 1 of 1 SLC 16.7-3 SLC 16.7.3 Page 8 Page 1 Page 9 Page 10 (Table 16.7-3A) Page 1 of 1 Page 11 (Table 16.7-3B) Page 1 of 1 SLC 16.7-4 SLC 16.7.4 Page 12 Page 1 Page 13 Page 2 SLC 16.7-5 SLC 16.7.5 Page 14 Page 1 Page 15 Page 2 SLC 16.7-6 SLC 16.7.6 Page 16 Page 1 Page 17 Page 2 16.8 ELECTRICAL POWER SYSTEMS 16.8 Table of Contents SLC 16.8-1 SLC 16.8.1 Page 2 Page 1 (Table 16.8-1 A) Pages 3 - 25 (Table 16.8-1) Pages 1 - 46 (Table 16.8.18) Pages 26 - 48 16.9 AUXILIARY SYSTEMS - FIRE PROTECTION SYSTEMS 16.0 Table of Contents SLC 16.9.2 SLC 16.9.2 Page 1 of 5 Page 1 Page 2 of 5 Page 2 Page 3 of 5 Page 3 (Table) Page 4 of 5 (Table 16.9-1) Page 1 of 2 Page 5 of 5 (Table 16.9-1) Page 2 of 2

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Page 1 of 5 Page 1 Page 2 of 5 Pago 2 Page 3 of 5 Page 3 (Table) Page 4 of 5 (Table 16.9-2) Page 1 of 2 (Table) Page 5 of 5 (Table 16.9-2) Page 2 of 2 a

SLC 16.9-6 SLC 16.9.6 Page 1 Page 1 Page 2 Page 2 Page 3 Page 3 Page 4 Page 5 (Table 16.9-3) Page 4 (Table 16.9-3) Page 1 of 7 (Table 16.9-3) Page 5 (Table 16.9-3) Page 2 of 7 l

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SLC 16.9.23 Page 1 Page 2 Page 3 If you have any questions conceming contents of this package update, contact Denise Smith at 803-831-3810.

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n M.S. Killan, Jr., Manager Regulatory Compliance - CNS Attachments O

r DUKE POWER COMPANY SELECTED LICENSEE COMMITMENTS MANUAL List of Effective Pages LOEP1-8 Tab 16.0 16.0 05/04/98 Page 1 - 4 Tab 16.1 16.1.1 06/23/93 Page1 Tab 16.2 16.2-1 11/91 16.2-2 11/91-16.2-3 11<91 Iab 16.3 16.3 05/04/98 Page1 Tab 16.4 Iab 16.5 16.5.1 3/13/97 Page 1 - 3 Page 1 of 8 05/04/98 a

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DUKE POWER COMPANY SELECTED LICENSEE COMMITMENTS MANUAL List of Effective Pages 16.11-56 08/01/94 16.11 57 08/01/94 16.11-58 08/01/94 16.11-59 08/01/94 16.11-60 08/01/94 16.11-61 08/01/94 16.11-62 08/01/94 16.11 63 08/01/94 16.11-64 08/01/94 16.11-65 08/01/94 Tab 16.12 Iab 16.13 16.13 0 12/90 16.13-1 12/90 16.13-2 06/07/96 16.13-3 06/07/96 l

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DUKE POWER COMPANY SELECTED LICENSEE COMMITMENTS MANUAL j

List of Effective Pages Iab 16.15 Appendix

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Compliance Function Area Manual, Section 3.8 i

" Selected Licensee Commitments" l

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CATAWBA NUCLEAR STATION l

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FINAL SAFETY ANALYSIS REPORT SELECTED LICENSEE COMMITMENTS Table of Contents 16.0 Selected Licensee Commitments 16.1 Introduction 16.2 Applicability 16.3 Definitions

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l 16.4 Commitments Related to Reactor Components j

16.5 Commitments Related to Reactor Coolant System 16.5.1 Mid-Loop Operation with irradiated Fuel in the Core 16.6 Commitments Related to Engir,eered Safety Features (Non-ESF Systems) 16.6.1 Reserved for Containment Sump 16.6.2 Reserved for Ice Bac Temperature Monitoring System 1E.6,3 Reserved for inlet Door Position Monitoring System 16.6.4 Reserved for Chlorine Detection Systems 16.7 Comrrstments Related to instrumentation 16.7.1 ATWS M.tigction System Actuation Circuitry (AMSAC) 16.72 Seismic Instrumentation 16.7.3 MeteorologicalInstrumentation 16.7.4 Loose-Part Detection System 16.7.5 Turbine Cverspeed Protection 16.7.6 RN Discharge Instrumentation 16.7.7 Reserved for Movable locore Detectors 16.7.8 Reserved for Groundwater Level 16.7.9 Reserved for Standby Shutdown System 16.7.10 Reserved for Radiation Monitoring for Plant Operations 16.7,11 Reserved for Fosition Indication System - Shutdown (W

16.8 Commitments Re'ated to E!ectrical Power Systems Chapter 16.0 Page 'i 05/04/98 1

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CATAWBA NUCLEAR STATION

/O FINAL SAFETY ANALYSIS REPORT I

U SELECTED LICENSEE COMMITMENTS Table of Contents 16.8.1-Containment Penetration Conductor Overcorrent Protective Devices I

16.8.2 230 KV Switchyard Systems 16.8.3 230 KV Switchyard 125 VDC Power System 16.8.4 6900 V Snared Transformers 16.8.5 Reserved for Diesel Generator Supplemental Testing Requirements 16.9 Commitments Related to Auxi!iary Systems I

16.9.1 Fire Suppression Water Systems 16.9.2 Spray and/or Sprinkler Systems CO Systems f

16.9.3 2

16.9.4 Fire Hose Stations 16.9.5 Fire Barrier Penetrations 16.9.6 Fire Detection Instrumentation l

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k 16.9.7 Reserved for Boration Systems Flow Path - Shutdown 16.9.8 Reserved for Boration Systems Flow Paths - Operating 16.9.9 Reserved for Boration Systems Charging Pump - Shutdown 16.9.10 Reserved for Boration Systems Charging Pumps - Operating 16.9.11 Reserved for Boration Systems Borated Water Source - Shutdown 16.9.12 Reserved for Boration Systems Borated Water Sources - Operating 16.9.13 Reserved for Snubbers 16.9.14 Reserved for Lake Wylie Water Temperature 16.9.15 Reserved for Auxiliary Building Filtered Exhaust System Filter Cooling Bypass Valves 16.9.1G Reserved for Fuel Handling Ventilation Exhaust System Filter Cooling Bypass 3

Valves 16.9.17 Reserved for Refueling Operations - Decay Time 16.9.18 Reserved for Refueling Operations - Communications l

16.9.19 Reserved for Refueling Operations - Manipulator Crane G

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CATAWBA NUCLEAR STATION FINAL SAFETY ANALYSIS REPORT

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SELECTED LICENSEE COMMITMENTS Table of Contents 16.9.20 Reserved for Refueling Operations - Crane Travel-Spent Fuel Storage Pool Building 16.9.21 Reserved for Refueling Operations Storage Pool Water Level 16.9.22 Reserved for Controi Room Area Ventilation System - Intake Alarms 16.9.23 Fire Hydrants l

16.10 Commitments Related to Steam and Power Conversion Systems 16.10.1 Steam Vent to Atmosphere 16.10.2 Condenser Circulating Water System 16.11 Commitments Related to Radioactive Waste Management 16.11.1 Uguid Effluents 16.11.2 Radioactive Liquid Effluent Monitoring Instrumentation 16.11.3 Dose 16.11.4 Liquid Radwaste Treatment System NJ 16.11.5 Chemical Treatment Ponds 16.11.6 Gaseous Effluents 16.11.7 Radioactive Gaseous Effluent Monitoring Instrumentation 16.11.8 Dose - Noble Gases 16.11.9 Dose - lodine-131, lodine 133, Tritium, and Radioactive Materialin Particulate Form 16.11.10 Gaseous Radwaste Treatment System 16.11.11 Solid Radioactive Wastes 16.11.12 Total Dose J

16.11.13 Monitoring Program 16.11.14 Land Use Census 16.11.15 Interlaboratory Comparison Program 16.11.16 Annual Radiological Environmental Operating Report and Annual Radioactive Effluent Release Report 16.11.17 Reserved for Liquid Holdup Tanks v

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CATAWBA NUCLEAR STATION Of FINAL SAFETY ANALYSIS REPORT SELECTED LICENSEE COMMITMENTS Table of Contents 16.11.18 Reserved for Explosive Gas Mixture 16.11.19 Reserved for Gas Storage Tanks 16.11.20 Reserved for Explosive Gas Monitoring instrumentation 16.11.21 Reserved for Major Changes to Liquid, Gaseous, and Solid Radwaste Treatment Systems 16.12 Commitments Related to Radiation Protection 16.12.1 Reserved for Sealed Source Contamination 16.13 Commitments Related to Conduct cf Operations 16.13.1 Fire Brigade 16.13.2 Technical Review and Control 16.13.3 Plant Operations Review Committee i

1 Appendix Compliance Functional Area Manual, Section 3.8 1

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Chapter 16.0 Page 4 05/04/98 j

O 16.3 DEFINITIONS The defined terms of this section appear in capitalized type and are applicable throughout these Selected Licensee Commitments. The definitions in the Catawba Technical Specifications apply to defined terms used herein. The following additional defined terms appear in capitalized type and are applicable throughout this Selected Licensee Committment document:

AMSAQ 16.3.1 AMSAC (ATWS Mitigation System Activation Circuitry) The Westinghouse system for mitigating ATWS events.

ATWS 16.3.2 ATWS (Anticipated Transient Without Scram) An ATWS is an expected operational transient (such as loss of feedwater, loss of condenser C

vacuum, or loss of offsite power) which is accompanied by a failure of the

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reactor trip system to shut down the reactor.

l COMMITMENT 16.3.3 A COMMITMENT is a method of ensuring the lowest functional capab;iity or performance levels of equipment which are important to the safety i

of the facility but are not of such a level of importance that they need to be under the rigorous control provided by Technical Specifications.

REMEDIAL ACTION 16.3.4 REMEDIAL ACTION shall be that part of a Selected Licensee Commitment which prescribes remedial measures required under designated conditions.

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CHAPTER 16.3 Page 1 05/04/98 l

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n 16.7 INSTRUMENTATION 1

16.7 1 ATWS MITIGATION SYSTEM ACTUATION CIRUITRY (AMSAC) l COMMITMENT:

The AMSAC System shall be OPERABLE.

APPLICABILITY:

MODE 1, above 40% of RATED THERMAL POWER (based on Turbine impulse Pressure).

REMEDIAL ACTION:

With the AMSAC System inoperable, restore it to OPERABLE status within 7 days or submit a Special Report to the Nuclear Regulatory Commission within the following 30 days. This report shall outline the cause of the ma'iunction and the plans for restoring the system to OPERABLE status.

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TESTING REQUIREMENTS:

Perform a CHANNEL CALIBRATION on the AMSAC System instruments at least once per 18 months.

BEFERENCES; 1) 10 CFR 50.62, Requirements for Reduction of Risk From Anticipated Transients Without Scram (ATWS) Events for Light-Water Cooled Nuclear Power Plants.

2)

Generic Letter 85-06," Quality Assurance Guidance for ATWS Equipment That is Not Safety-Related."

3)

Information Notice 92-06," Reliability of ATWS Mitigation System and Other NRC Required Equipment Not Controlled by Plant Technical Specifications."

CHAPTER 16.7.1 Page 1 05/04/98 l

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g BASES:

Per 10 CFR 50.62,"Each pressurized water reactor must have equipment from sensor output to final actuation device, that is diverse from the reactor trip system, to automatically initiate the auxiliary feedwater system and initiate a turbine trip under conditions indicative of an ATWS. This equipment must be designed to perform its function in a reliable manner and be independent form the existing reactor trip system.' When this rule was issued, the NRC did not require licensees to address the OPERABILITY of this equipment in the plant Technical Specifications nor require that this equipment be designated as safety-related.

On January 15,1992, the NRC issued Information Notice 92-06 which discussed the reliability of AMSAC and other equipment not controlled by plant Technical Specifications. This notice describod two separate incidents where violations were cited because the licensees faikd to adequately maintain the reliability of their AMSAC systems. The NRC is concemed that licensees may not place an appropriate level of priority on reso'ving problems with the AMSAC System because it is not a safety-related system and because the plant's Technical Specifications do not govem its operability. The NRC considers the failure of licensees to adequately ensure the reliable operation of AMSAC equipment to be

,m a significant regulatory concern.

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This Selected Licensee Commitrnent was developed to ensure that appropriate j

attention is given to maintaining the AMSAC System in a reliable condition and that prompt action will be taken to repair and restore any AMSAC equipment that is discovered in a condition where it is incapable of perforrning its intended function.

n CHAPTER 16.7.1 Page 2 05/04/98 J

I 16.7 INSTRUMENTATION

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16.7.2 SEISMIC INSTRUMENTATION COMMITMENT:

a.

The seismic monitoring instrumentation shown in Table 16.7-2A shall be OPERABLE.

APPLICABILITY:

At all times.

REMEDIAL ACTION:

a.

With one or more of the above required seismic monitoring instruments inoperable for more than 30 days, prepare and submit a Special Report to

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the Commission pursuant to Technical Specification 6.9.2 within the next 10 days outlining the cause of the malfunction and the plans for restoring the instrument (s) to OPERABLE status.

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TESTING REQUIREMENTS:

a.

Each of the above required seismic monitoring instruments shall be demonstrated OPERABLE by the performance of the CHANNEL CHECK, CHANNEL CALIBRATION and ANALOG CHANNEL OPERATIONAL TEST operations at the frequencies shown in Table 16.7-28.

b.

Each of the above accessible seismic monitoring instruments actuated during a seismic event greater than or equal to 0.01 g shall be restored to OPERABLE status within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> following the seismic event. Data shall be retrieved from actuated instruments and analyzed to determine the magnitude of the vibratory ground motion. Data retrieved from the triaxial time-history accelerograph shall include a post event CHANNEL CALIBRATION obtained by actuation of the intemal test and calibrate function immediately prior to removing data. CHANNEL CALIBRATION shall be performed immediately after insertion of the new recording media in the triaxial time-history accelerograph recorder. A Special Report shall be prepared and submitted to the Commission pursuant to Technical Specification 6.9.2 within 10 days describing the magnitude, frequency spectrum, and resultant effect upon facility features important to safety.

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REFERENCES:

N/A 1

BASES:

16.7.2 Seismic Instrumentation The OPERABILITY of the seismic instruments. tion ensures that sufficient capability is available to promptly determine fne magnitude of a seismic event and evaluate the response of those features important to safety. This capability is required to permit comparisons of the measured response to that used in the design basis for the facility to determine if plant. shutdown is required if plant shutdown is required pursuant to Appendix A of 10 CFR Part 100. The l

instrumentation is consistent with the recommendations of Regulatory Guide 1.12, " Instrumentation for Earthquakes," April 1974.

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Table 16.7-2A SEISMIC MONITORING INSTRUMENTATION MINIMUM INSTRUMENTS AND SENSOR MEASUREMENT INSTRUMENTS LOCATIONS RANGE OPERABLE

1. TriaxialTime-History Accerlerographs a.1MIMT 5070 (Remote Sensor A)

-1 g to + 1 g 1

Containment Base Slab b.1MIMT 5080 (Remote Sensor B)

-1 g to + 1 g 1

Containment Vessel Elev 619'5" c.1MIMT 5090 (Starter Unit) 0.005 g to 0.05 g 1

Containment Base Slab

2. Triaxial Peak Accerlerographs a.1MIMT 5010 - Containment Bldg.

O g to + 2 g 1

Elev 588' + 61/8"

b. 1 MIMT 5020 - Containment Bldg.

O g to + 2 g 1

O Elev 567' 2 %"

c.1MIMT 5030 - Auxiliary Bldg.

O g to + 2 g 1

Elev 543'

3. Triaxial Seismic Switch 1MIMT 5000 - Containment 0.025 g to 0.25 g 1*

Base Slab

4. Triaxial Reponse-Spectrum Recorder a.1MIMT 5040 - Containment 0 to 34 g at 1*

Base Slab 2 to 25 Hz b.1MIMT 5050 - Containment Bldg.

O to 34 g at 1

Elev 579' 3 %"

2 to 25 Hz c.1MIMT 5060 - Auxiliary Bldg.

O to 34 g at 1

Elev 577' 2 to 25 Hz

• With reactor control room indication.

CHAPTER 16.7.2 03/18/97 Table 16.7-2A Page 1 of 1 l

Table 16.7-2B SEISMIC MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS ANALOG CHANNEL INSTRUMENTS AND SENSOR CHANNEL CHANNEL OPERATIONAL LOCATIONS CHECK CALIBRATION TEST

1. Triaxial Time-History accerlerographs a.1MIMT 5070 (Remote Sensor A)

M*

R SA Containment Base Slab b.1MIMT 5080 (Remote Sensor B)

M*

R SA Containment Vessel Elev 619'5" c.1MIMT 5090 (Starter Unit)

N.A.

R SA Containment Base Stab

2. Triaxial Peak Accerlerographs a.1MIMT 5010 - Containment Bldg.

N.A.

R N.A.

Elev 588' + 61/8" b.1MIMT 5020 - Containment Bldg.

N.A.

R N.A.

Elev 567' 2 %"

c.1MIMT 5030 - Auxiliary Bldg.

N.A.

R N.A.

Elev 543'

3. Triaxial Seismic Switch 1MIMT 5000 - Containment M

R SA Base Slab"

4. Triaxial Reponse-Spectrum Recorder a.1MIMT 5040 - Containment M

R SA Base Slab" b.1MIMT 5050 - Containment Bldg.

N.A.

R N.A.

Elev 579' 3 %"

l c.1MIMT 5060 - Auxiliary Bldg.

N.A.

R N.A.

Elev 577' i

• Except seismic trigger.

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" With reactor control room indication.

CHAPTER 16.7.2 03/18/97 l

Table 16.7-2B Page 1 of1 4

l 16.7 INSTRUMENTATION.

l 16.7.3 METEOROLOGICAL INSTRUMENTATION COMMITMENT; a.

The meteorological monitoring instrumentation channels shown in Table 16.7-3A shall be OPERABLE.

APPLICABILITY:

At all times.

REMEDIAL ACTION:

a.

With one or more required meteorological monitoring channels inoperable for more than 7 days, prepare and submit a Special Report to the Commission pursuant to Technical Specification 6.9.2 within the next 10 days outlining the cause of the malfunction and the plans for restoring the channel (s) to OPERABLE status.

TESTING REQUIREMENTS:

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a.

Each of the above meteorological monitoring instrumentation channels shall be demonstrated shall be demonstrated OPERABLE by the performance of the CHANNEL CHECK and CHANNEL CALIBRATION operations at the frequencies shown in Table 16.7-3B.

REFERENCES:

N/A BASES:

16.7-3 METEOROLOGICAL INSTRUMENTATION The OPERABILITY of the meteorological instrumentation ensures that sufficient meteorological data are available for estimating potential radiation doses to the public as a result of routine or accidental release of radioactive materials to the atmosphere. This capability is required to evaluate the need for initiating protective measures to protect the health and safety of the public and is consistent with the recommendations of Regulatory Guide 1.23, "Onsite Meteorological Programs," February 1972.

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TABLE 16.7-3A METEOROLOGICAL MONITORING INSTRUMENTATION MINIMUM INSTRUMENT LOCATION OPERABLE

1. Wind Speed

a. MeteorologicalTower Nominal Elev. 663.5 ft.

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b. MeteorologicalTower Nominal Elev. 830.5 ft.

1

2. Wind Direction

a. MeteorologicalTower Nominal Elev. 663.5 ft.

1

b. MeteorologicalTower Nominal Elev. 830.5 ft.

1

3. Air Temperature - AT Meteorological Tower Nominal Elev. 827.25 - 660.25 ft.

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Note: Elevations are feet above Mean Sea Level.

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CHAPTER 16.7.3 05/04/98 Table 16.7-3A Page 1 of 1 i

i TABLE 16.7-3B METEOROLOGICAL MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS l

MINIMUM INSTRUMENT LOCATION OPERABLE

1. Wind Speed

a. Nominal Elev. 663.5 ft.

D SA

b. Nominal Elev. 830.5 ft.

D SA

2. Wind Direction

a. Nominal Elev. 663.5 ft.

D SA j

b. Nominal Elev. 830.5 ft.

D SA

3. Air Temperature - AT Nominal Elev. 827.25 - 660.25 ft.

D SA Note: Elevations are feet above Mean Sea Level CHAPTER 16.7.3 05/04/98 Table 16.7-3B Page 1 of 1 b

16.7 INSTRUMENTATION 16.7.4 LOOSE PART DETECTION SYSTEM COMMITMENT:

The Loose Part Detection System shall be OPERABLE.

APPLICABILITY:

MODES 1 and 2.

REMEDIAL ACTION:

a.

With all channels of one or more Loose Part Collection Region (s)

INOPERABLE for more than 30 days.

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1. Restore at least one channel per Loose Part Collection Region to OPERABLE status within 30 days, or J

2. Prepare and submit a Special Report to the Commission pursuant to Technical Specification 6.9.2 within the next 10 days outlining the cause of the malfunction and the plans for restoring the channels to OPERABLE status.

TESTING REQUIREMENTS:

a.

Each channel of the Loose Part Detection System shall be demonstrated OPERABLE by performance of:

1. A CHANNEL CHECK at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, l

2. A Channel Functional Test at least once per 31 days as follows:

1. Verify each analog channel by listening to the audio signal, ii. Verify each digital channel by confirming stored data is within expected limits, and l

iii, inject a simulated signal into one or more channels and verify the alarm function.

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3. A CHANNEL CALIBRATION at least once per 18 months.

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REFERENCES:

N/A l

BASES.

The OPERABILITY of the loose part detection instrurnentation ensures that sufficient capability is available to detect loose metallic parts in the Reactor System and avoid or mitigate damage to Reactor Systents components. The allowable out-of-service times and surveillance requirements are consistent with the recommendations of Regulatory Guide 1.133," Loose-Part Detection i

Program for the Primary System of Light-Water-Oooled Reactors," May 1981.

l A Loose Part Collection Region is an area within the Reactor Coolant System wherc loose parts can possibly collect and which is monitored by the Loose Part Detection System. Collection Regions are:

1) Upper Reactor Vessel

2) Lower Reactor Vessel

3) Primary side of Steam Generator A

4) Primary side of Steam Generator B

5) Primary side of Steam Generator C O

6) Primary side of Steam Generator D i

i CHAPTER 16.7.4 Page 2 05/04/98

16.7 INSTRUMENTATION 16.7.5 TURBINE OVERSPEED PROTECTION COMMITMENT:

a.

At least one Turbine Overspeed Protection System shall be OPERABLE.

APPLICABILITY:

MODES 1, 2 and 3.

REMEDIAL ACTION:

a.

With one stop valve or one control valve per high pressure turbine system inoperable and/or with one intermediate stop valve or one intercept valve per low pressure turbine steam line inoperable, restore the inoperable valve (s) to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />, or close at least one valve in the affected steam line(s) or isolate the turbine from the steam supply within then next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />, b.

With the above required Turbine Overspeed Protection System otherwise inoperable, within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> isolate the turbine from the steam supply.

TESTING REQUIREMENTS:

a.

The above required Turbine Overspeed Protection System shall be demonstrated OPERABLE:

1.

At least once per 31 days while in MODE 1 and while in MODE 2 with the turbine operating, by cycling each of the t

fol lowing valves through at least one complete cycle from l

the running position:

l a)

Four high pressuie turbine stop valves, b)

Six low pressure turbine intermediate stop valves, and c)

Six low pressure turbine intercept valves.

2.

At least once per 92 days while in MODE 1 and while in MODE 2 with the turbine operating, by direct observation of l

the movement of each of the above valves and the four high l

pressure turbine control valves, through one complete cycle

\\

from the running position.

CHAPTER 16.7.5. Page 1 05/04/98 L

O 3.

At least once per 18 months by performance of a CHANNEL CALIBRATION on the Turbine Overspeed Protection Systems, and 4.

At least once per 40 month by disassembling at least one of each of the above valves (including the four high pressure turbine control valves) and performing a visual and surface inspection of valve seats, disks and stems and verifying no unacceptable flaws or corrosion.

REFERENCES:

N/A BASES:

This commitment is provided to ensere that the turbine overspeed protection instrumentation and the turbine speed control valves are OPERABLE and will protect the turbine from excessive overspeed. Protection from turbine excessive overspeed is required since excessive overspeed of the turbine could generate potentially damaging missiles which could impact and damage safety-related O

components, equipment, or structures.

O CHAPTER 16.7.5 Page 2 05/04/98

O 16.7 INSTRUMENTATION 16.7.6 RN DISCHARGE INSTRUMENTATION COMMITMENT:

The following shall be OPERABLE:

Instrument Components:

Loops:

1RNFE7520 RN Pump A Discharge Flow Annubar 1RNLP7520 1RNFT7520 RN Pump A Discharge Flow 1RNP7520 RN Pump A Discharge Flow (Control Room Indication) 1RNFE7510 RN Pump B Discharge Flow Annubar 1RNLP7510 1RNFT7510 RN Pump B Discharge Flow 1RNP7510 RN Pump B Discharge Flow (Control Room Indication)

A 2RNFE7520 RN Pump A Discharge Flow Annubar V

2RNLP7520 2RNFT7520 RN Pump A Discharge Flow 2RNP7520 RN Pump A Discharge Flow (Control Room Indication) 2RNFE7510 RN Pump B Discharge Flow Annubar 2RNLP7510 2RNFT7510 RN Pump B Discharge Flow 2RNP7510 RN Pump B Discharge Flow (Control Room Indication)

Annunciators:

1 AD12-N1 RN Pump A Flow Hi/ Low 1 AD12-N4 RN Pump B Flow Hi/ Low 2AD12-N1 RN Pump A Flow Hi/ Low 2AD12-N4 RN Pump B Flow Hi/ Low APPLICABILITY:

Any time the associated pump is required to be OPERABLE.

REMEDIAL ACTION:

a.

With any component on both trains of the above listed instrument loops associated with the same unit inoperable OR both annunicators associated with the same unit inoperable OR any component of one CHAPTER 16.7.6 Page 1 05/04/98

O instrument loop and one annunicator from different trains associated with the same unit inoperable:

For example:

1RNFT7520 and 1RNFT7510 OR 1 AD12-A/1 and 1 AD12-A/4 OR 1RNFT7520 and 1 AD12-A/4 l

Open 1RN-58B (RN Hdr B Rtn to SNSWP) and 1RN-63A (13N Hdr A Rtn to SNSWP), OR enter a 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement per Technical Specification 3.7.4 on RN for the affected unit.

b.

With the conditions specified in remedial action a. met on both units:

1 Open 1RN-58B (RN Hdr B Rtn to SNSWP) and 1RN-63A (RN Hdr A Rtn to SNSWP), OR enter Technical Specifications 3.0.3 for both units.

TESTING REQUIREMENTS Perform channel calibrations per IP/1(2)/B/3112/04 as required.

REFERENCES:

bq 1)

NRC Inspection Report,50.413,414/94-17, September 9,1994 2)

Catawba Nuclear Station PIP 0-C941555 BASES:

The bases for this Selected License Commitment is stated in reference 1, page 11,"Part of the licensing bases of the RN system included the ability for operators to manually chango the discharge path for the RN system from the non-safety related Lake Wylie to the safety related SNSWP."

This Selected License Comrnitment was developed to address the NRC concems about actions to be taken in the event instrumentation / alarms were out of sentice which would impair the ability of Operations to recognize loss of the non-safety discharge. Thi.s SLC shall ensure the proper actions are taken based I

on plant equipment conditions.

l i

CHAPTER 16.7.6 Page 2 05/04/98 l

I I

I O

16.8 ELECTRICAL POWER SYSTEMS 16.8.1 CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT P.ROTECTIVE DEVICES l

COMMITMENT:

The containment penetration conductor over nrent protective devices shown in Tables 16.8-1 A and 16.8-1B shall be maintained in compliance with the requirements of Catawba Technical Specification 3/4.8.4, Electrical Equipment Protective Devices.

APPLICABILITY":

1 MODES 1,2,3, and 4 i

REFERENCES:

1)

Catawba Tech Spec 3/4.8.4 BASES:

The tables listed in this commitment were relocated from the Catawba Technical Specification with the approval of the U.S. Nuclear Regulatory Commission. Any additions, deletions, or revisions to the table are considered a change in a commitment and shall be performed pursuant to the Compliance Control of Selected Licensee Commitments Section Manual Procedure. Being a i

commitment, these tables can only be changed using the 10 CFR 50.59 l

evaluation process as described in the previously mentioned procedure.

)

l LO l

CHAPTER 16.8.1' Page 1 05/04/98 4

TABLE 16.8-1 A UNIT _2_ CONTAINMENT PENETRA MQ l

DEVICE NUMBER & LOCATION SYSTEM POWERED l

1.

6900 VAC Swgr Primary Bkr RCP1 A Reactor Coolant Pump 1 A Backup Bkr 1TA-3 Primary Bkr RCP1B Reactor Coolt.nt Pump 18 l

Backup Bkr 1TB 3 Primary BKR RCP1C Reactor Coolant Pump 1C Backup Bkr 1TC-3 Primary BKR RCPID Reactor Coolant Pump 1D Backup Bkr 1TD-3 2.

600 VAC MCC

)

1EMXC-F018 l

Primary Bkr Accumulator 1C Discharge Backup Fuse isol Viv 1NI76A 4

1EMXC-F01C Primary Bkr Check Valve Test Header Backup Fuse Cont isol Viv 1NI95A 1EMXC-F02A Primary Bkr Train A Alternate Power Backup Fuse To ND LTDN Viv 1ND1B 1EMXC-F02B Primary Bkr Hot Leg inj. Check Viv Backup Fuse Test isol Viv 1N1153A 1EMXC F02C Primary Bkr Cont isol at 134 Deg Backup Fuse Annulus Area Viv 1V1312A 1EMXC-F03A Primary Bkr NC Pump 1C Thermal Barrier Outlet Backup Fuse Isol Viv 1KC345A 1EMXC-FO3B Primary Bkr N2 to Prt Cont isol Inside l

Backup Fuse Viv 1NC54A 1EMXC-F03C Primary Bkr Pressurizer Power-Operated Backup Fuse Relief isol Viv 1NC33A V

l CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 1 of 46

TABLE 16.8-1 A UNIT _2_CS!UAINijENT PENETRAllON CONDU6EMBBENT_EllOIECIJYEDEVICES DEVICE NUMBER & LOCATION SYSTEM POWERED 2.

600 VAC MCC (Continued) 1EMXC-FO5A Primary Bkr NCDT Vent inside Cont isol Backup Fuse Viv 1WL450A 1EMXC-F05B Primary Bkr Cont Sump Pumps Discharge Inside Backup Fuse Cont isol Viv 1WL825A 1EMXC-F05C Primary Bkr Vent Unit Cond Drn Tank Backup Fuse Outside Cont isol Viv 1WL867A 1EMXC-F06A Primary Bkr NCDT Pumps Disch inside Cont isol Backup Fuse Viv 1WL805A 1EMXC-F078 Primary Bkr Cont H2 Purge Outlet Cont isol Dackup Fuse Viv 1VY17A 1EMXD-F01 A O

Primary Bkr ND Pump 1 A Suction From NC Backup Fuse Loop B Viv 1ND1B IEMXD-F018 Primary Skr Accumulator 1B Discharge Backup Fusa isol Viv 1NI65B 1EMXD-F01C Primary Bkr Ni Pump A to Hot Leg Check Backup Fuse Viv Test isol Viv 1N1122B j

1EMXD-F02A Primary Bkr ND Pump 1B Suction from NC Backup Fuse Loop C Viv 1ND36B 1EMXD-F028 Primary Ukr ND to Hot Legs Chk 1N1125,1N1129 Backup Fuse Test isol Viv 1N11548 O

CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 2 of 46

TABLE 16.8-1 A UNITICONIAINMEEIf4NEDMIJQXGOERL.jCIDILO.YKBQyEBgt02HQIgcTlYE.DEY. ICES DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Continued) 1EMXD-F02C Primary Bkr Pressurizer Power Operated Relief Backup Fuse isol Viv 1NC31B IEMXD-FOSA Primary Bkr Pressurizer Power-Operated Relief Backup Fuse Isol Viv 1NC35B 1EMXD-F05B Primary Bkr Rx Bldg Drain Hdrinside Cont Backup Fuse isol Viv 1KC4290 1EMXD-F05C Primary Bkr NCDT Hx Cing Water Return inside Backup Fuse isol Viv 1KC332B 1EMXD-F06A Primary Bkr NC Pump 1B Thermal Barrier Outlet Backup Fuse Isol Viv 1KC3648 1EMXD-F06B

\\

Primary Bkr NC Pumps Rtn Hdr inside Cont (Q/

Backup Fuse isol Viv 1KC424B 1EMXK-F01 A Primary Bkr UHI Check Viv Test Line inside Note 1 Backup Fuse Cont isol Viv 1N126GA f

1EMXK-F01C Primary Bkr Backup N2 to PORV 1NC34A From Backup Fuse Accum Tnk 1 A Viv 1NI438A 1EMXK-F02A Primary Bkr NC Pump 1 A Thermal Barrier Backup Fuse Outlet isol Viv 1KC394A 1EMXK-F02B Primary Bkr Lower Cont Vent Units Return Backup Fuse Cont isol Viv 1RN484A Note 1:

Upon removal of cable from power source associated with the deletion of UHI, this specification is no longer applicable.

l l

1 l

CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 3 of 46

l I

TABLE 16.81 A l!NII2_ CONT >Lil)RERTZENEIBAJLQtiSitNDUCIO.fLQERCDBB7.gfgOTECTIVE DgyJCES DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC(Continued) l

]

1EMXK-F02C Primary Bkr NV Supply to Pressurizer Viv I

Ra loJp Fuse 1NV037A 1EMXKf03A Primary Skr S/G C Bsowdown Line Sample q

Backup Fu e inside Cont isol Viv 1NM210A i

i

)

1EMXLF04A Primary Skr S/G A Upper Shell Lample inside l

' Backup Fuse Cont isol Viv 1NM187A 1EMXK-F048 Primary Bkr S/G A Blowdown Line Sarapie Backup Fuse inside Cont Isol Viv INM190A 1EMXK-F04C 1

Primary Bkr S/G C Upper Shell Sample Backup Fuse inside Cont iso! Viv 1NM207A 1EMXK-F06A l

Primary Bkr Hydrogen Skimmer Fan 1 A Backup Fuse Inlet Viv IVX1 A i

1EMXK-F07C

]

Primary Bkr Electric Hydrogen Recombiner j

Backup Fuse Power Supply Panel 1 A 1EMXK F09A Primary Bkr Accumulator 1 A Discharge isol Backup Fuse Viv 1N154A l

1EMXK-F098 I

Primary Bkr UHI Ck Viv Test Line inside Note 1 Backup Fuse Cont 14ol Viv 1N!267A j

l IEMXK-F09C l

Primary Bkr NC Pump Oil Fill Header Backup Fuse Cont isol Viv 1NC196A Note 1:

Upon removal of cable from power source associated with the deletion of UHi, this specification is no longer applicable.

l l

,]

i CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 4 of 46

E TABLE 16.6-1 A MMIAGEMI88 met!LP4NEIRAIlO CONQyGJSRhyXB.GUR8EEfSOJECTIVEER/_LC_E3 QGLCf NffMSFR MOCATION SYSTEM FOWERED

2. f;00 VAG MCC (Continued) 1EMXK-F10A Ptirr.ary Bkr Containment Air Retum Camper Backup Fuse 1 ARF-D-2 1EMXK-F10B Primary Skr VQ Fans Suction From Containment Backup Fase isol Viv 1VQ2A 1EMYK-F100 PHmary Skr Cont Air Addition Containment Backup Fuse isol Viv 1VQ16A 1EMXK-F114 Pitmary Bkr Containment Air Return Fan Osckup Fuse Motor 1 A J

1EMXK-F118 Primary Gkr Hydrogen Skimmer Fan Motor 1 A I

Backup Fuse 1EMXL-F018 Primary Bkr Tm B Altemate Power to ND Backup Fuse Leidn Viv 1ND37A i

1EMXL-F01C Primary Bkr Ni Accum D Sample Line losicie Backup Fuse Cont isol Viv 1NM818 1EMXL-F02A i

Primary Bkr NC Pump 1D Thermal Barrier I

Backup Fuse Outict isol Viv 1KC4138 I

1EMXL-F02B Primary Bkr Air Handling units Glycol Return Backup Fuse Cont isol Viv INF2338 l

l 1EMXL-F02C l

Primary Bkr N1 Accum C Sampic Line inside Backup Fuse Cont isol Viv 1NM788 1EMXL-F03A Primary Bkr S/G D Blowdown Sample Line l

Backup Fus.:

Inside Cont Iso! Viv 1NM2208 O

CHAPTER 13.8.1 05/04/98 Table 16.8-1 Page 5of 46

TABLE 16.8-1 A JWII.2 COtIIAINhtENT PENF111#2QfLCONE_CIQfLQ1(gBC11BRE_fgMQTACTIVE DE'MCES m

DEVICE PfUMBER & LOCATION SYS, TEM POWERF.O 2 600 VAC MCC (Continued) l 1EMXL-F038 Primary Bkr Ni Accum A Sample Line inside Backup Fuse Cont isol Viv 1NM726 1EMXL-F03C Primary Bkr Ni Accum B Samp!s Line inside Backup Fuse Cent fsci Viv 1NM758 i

1EMXL F04A l

Primary Dkr S/G B Upper Shelf Sample inside Backup F use Cont isol Viv 1NM1978 1EMRL-F04B Primary Bkr S/G B Blowdown Sample L!ne Inside Backup Fuse Cont isol Viv 1NM2006 1

1EMWL-F04C Primary Bkr S/G D Uppe/ Shell Sample insioe Backup Fusc Cont Isol Viv 1NM2178 1EMXL-F06A l

(

Primary Bkr Hydrogen Skimmer Fan 1B backup Fuse inlet Viv IVX2B 1EMXI.-F06B Primary 8kr Backup N2 te PORV IllC32B 4

Backup Fuse from Accum Tnk 1B Viv 1N14398 l

1EMXL-F07C j

Primasy Ekr Electric Hydrogen Recombiner i

Backup Fuse Power Supply Panel 18 IEMXL-F09A I

Primary Bkr Accumulator 1D Discharge Backup Fuse Isol Viv 1N1808 1EMXL-F10A i

Primary Bkr Containment Air Return Damper I

Bcckup Fuse 1 ARF D-4

)

CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 6 of 46

l TABLE 16.8-1 A M&T.2,.CQRIAINMENIffUliEISATJOR.CDNDUCIQB.DXEBCUBBEtiI.PAQIECIIME.QEVICES DEVICE NI)MBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Continued) i 1EMXL-F10B Primary Bkr Reactor Vessel Head Vent Backup Fuse Viv 1NC251B l

1EMXL-F10C Primary Skr Rea: tor Vesse' Head Vent Viv Backup Fuse 1NC2S2D 1EMXL-F11 A Primary Bkr Containment Air Return Backup Fuse Fan Motor 1B 1EMXL-F11B j

Primary Skr Hydrogen Skimtner Fan Motor 1B l

Backup Fuse j

1EMXS-F01B Primary Bkr NC Pumps Seal Rtn j

. Backup Fuse inside Cont isol Viv 1NV89A 1EMXS-F02A l

Primary Dkr ND Pump in Suction from NC l

Backup Fuse Loop C Viv 1ND37A

)

1EMXS-F02B Primary Bkr Reactor Vessel Head Vent Viv

)

Backup Fuse INC250A 1EMXS-F03D Primary Bkr ND Pump 1 A Suction from NC Backup Fuse Loop B Viv 1HD2A 1EMXS-F03E Primary Bkr Reactor Veswi Head Vent Viv Backup Fuse 1NC253A 1EMXS-F04B Primary Bkr S/G 1D Blowdown insidt Cont Backup Fuse isol Viv 1BB8A 1EMXS-F04C Primary Bkr S/G 1B Blowdown inside Cent Backup Fuse isol Viv 18819A CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 7 of 46

3 l

l l

l TABLE 16.8-1 A ALNEJ.CQMTAlblMfdISANETEATJ9ES_0Npygpf1DVEBCUBREyT PROTECT 1YEEEVICES l

y pEVICE_JJulMGER & LOCATION SYSTEM POWERED l

l

2. 600 VAC UCC (Continued) 1E7AXS-F05A Primary Bkr S/G 1 A Bicwdown inside Cont l

BaciaJp Fuse Isol Vfv 1BB56A 1EMXS-F058 Primary Ukr S/G 1C Blowdown inside Cont i

Badup Fuse isci Viv 1BB60A i EMXS-FOSC Primary Skr Pu Liquid Sample Line Insida Backup Fuse cont isol Viv 1NM3A l

15MXS-F00A j

l Primary Bkr Per Steam Sample Line inside Backup Fuse Cont isol Viv 1NM6A 1EMXDF068 Primary Skr NC Hot Leg A Sample Line Backup Fuce inside Cont Isol Viv 1NM22A 1EMXS-F06C Primary Bkr NC Hot Leg C Smaple Line

/

Dackup Fuse incide Cont isol Viv 1NM25A 1MXW. F01 A Primary Skr Reactor Coolant Pump Motor Backup Fuse Drain Tank Pump Motor 1MXM F02A o imary Okr NC Pump 1B Oil Lift r

BecLM-use Pump Motor 1 1MX4.-F028 Primary Bkr NC Pump 1C Oil Lift Backup Fuse Putrp Motor 1 1MXM-F03A Primary Bkr Ice Condsnser Power Backup Fuse Transformer 1CT1 A j

1MKM F038 Primary Bkr leo Concenser Air Handling Unit Backup Fuse 186 Fat Motor A & B O

i CHAPTER 16.8,1 03/c4/9s r

Table 16.8-1 Page 8 of 46

1 TABLE 16 81 A UNIT 2 CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT PROTECTIVE DEVICES DEVICE NUMBER & LOCATION SYSTEM POWERED 2.

600 VAC MCC (Continued) l 1MXM-F03C Primary Bkr Ice Condenser Equipment Access Backup Fuse Door Holst Motor 1 A 1MXM-F04D Primary Bkr Lighting Transformer 1LR10 Backup Fuse 1MXM F04E Primary Bkr Lighting Transformer 1LR13 Backup Fuse 1MXM-F05A Primary Bkr -

175 Ton Polar Crane and 25 Backup Fuse Ton Aux Crane No. R013 and R015 1MXM-F05C Primary skr Upper Containment Welding Feeder Backup Fuse 1MXM-F06A Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 1 A7 Fan Motor A & B 1MXM-F068 Primary Bkr Ice Condenser Air Handling Dackup Fuse Unit 188 Fan Motor A & B 1MXM-F06C Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 1 A9 Fan Mctor A & B IMXM-F06D Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 1810 Fan Motor A & B 1MXM-F07B Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 1 A13 Fan Metor A & B IMXM-F07C Primary Bkr Ice Condenser Air Hanc81ing Backup Fuse Unit 1814 Fan Motor A & B j

i O

CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 9 of 46

TABLE 16.8-1 A MELT 19_QNIAIHMENT PENETRATIORCONDUCTOR OVEBCURRENT PROTECTIVEDEVJCES DEVICE NUMBER & LOCATION SYSTEM POWERED 1

2. 600 VAC MCC (Continued) 1MXM-F08D l

Primary Bkr Ice Condenser Refrigeration Backup Fuse Floor Cool Defrost Heater 1 A 1MXM-F09A Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 1 A1 Fan Motor A & B 1MXM-F09B Primary Bkr Ice Condenser Air Handling j

Backup Fuse Unit 1B2 Fan Motor A & B 1MXM-F09C Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 1 A3 Fan Motor A & B 1 MXM-F09D Primary Skr Ice Condenser Air Handling Backup Fuse Unit 184 Fan Motor A & B 1MXM-F10A O

Primary Skr Containment Floor and Equipment V

Backup Fuse Sump Pump Motor 1 A1 1MXM F10B Primary Bkr Containment Floor and Equipment Backup Fuse Sump Pump Motor 181 1MXN-F01F Primary Bkr Stud Tensioner i

Backup Fuse Hoist 1B j

l 1MXN-F02A i

Primary Gkr NC Purop 1B Oil Lift Pump Motor 2 l

Backup F9se

{

1MXN-F028 Pdmary Bkr NC Pump 1C Oil Lift Pump Motor 2 Sackup Fuse 1MXN-F02E P-imary Bkr Stud Tensioner Holst 1C Backup Fuse CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 10 of 46

TABLE 16.8-1 A

!!Blu_CONIA!!1 MENT _PENETEAROfLCONDUC1010_YgBCUBRENI_PROJECIIVEDEVICES DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Continued) 1MXN-F03A Prirrary Bkr Ice Condenser Power Transformer Backup Fuse ICT1B 1MXN-F03B Primary Bkr Ice Condenser Bridge Crane 1 Backup Fuse Crane No. R011 1MXN-F03E Primary Skr Stud Tensioner Holst 1 A l

Backup Fuse 1 MXN-F04D Primary Bkr Lignting Transformer 1LR5 Backup Fuse 1MXN-F04E Primary Bkr Lighting Transformer ILR6 Backup Fuse 1MXN-F05A O

Primary Bkr Ice Condenser Refrigeration l

l Backup Fuse Floor Cool Defrost Heater 1B 1MXN-F058 Primary Bkr Ice Condenser Refrigeration Floor Backup Fuse Cool Pump Motor 10 1MXN-F05C Primary Bkr Ice Condenser Equipment Access Backup Fuse Door Holst Motor 1B 1MXN-F06A Primary Bkr Ice Corsdenser Air Handling Backup Fuse Unit 181 Fan Motor A & B l

1MXN-F06B i

Primary Skr fee Condense Air H.sndling l

Backup Fuse Unit I A2 Fan Motor A & B l

1MXN-FDGC Primary Bkr ice Condenser Air Handling Backup Fuse Unit 183 Fan Motor A & B l

l CHAPTER 16.2.1 05/04/98 Table 16.8-1 Page 11 of 46

TABLE 16.8-1 A UNII.LCONIAINMENT.FENEIBATION CONDUCIORDVERCUBBENT PROTECTIVE DEX1CES_

DEVICE NUMBER & LOCATION SYSTEM POWERED 2, 600 VAC MCC (Continued) 1MXN-F06D

)

i Primary Bkr Ice Condenser Air Handling Baci.up Fuse Unit 1A4 Fan Motor A & B 1MXN-F07B Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 105 Fan Motor A & B 1MXN-F07C Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 1 A6 Fan Motor A & B 1MXN-F08A Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 187 Fan Motor A & B IMXN-F088 Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 1 A8 Fan Motor A & B 1MXN-F08C Primary Bkr Ice Condenser Air Handling g

Backup Fuse Unit 189 Fan Motor A & B 1MXN-F080 Primary Bkr ice Condenser Air Handling Backup Fuse Unit 1.A10 Fan Motor A & B 1MXN-F09A Primary Bkr Ice Condenter Air Handling Backup Fuse Unit 1811 Fan Motor A & B 1MXN-F098 Primary Bkr Ice Condenser Air Handling l

Backup Fuse Unit 1 A12 Fan Motor A & B l

1MXN-F09C 1

Primary Skr ice Condenser Air Handling l

Backup Fuge Unit 1813 Fan Motor A & B L

1MXN F09D

(

Primary Bkr Ice Condenser Air Hand'ing Backup Fuss Unit 1 A14 Fan Motor A 1.c B U)

CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 12 of 46 L.

1 TABLE 16.81 A UNIT 2 CONTAINMENT PENETRAI{QJAOND.U@R OVERCURRENT PROTECTIVE DEYM DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Continued) i 1MXN-F10A Primary Bkr Containment Floor and Equipment Backup Fuse Sump Pump Motor 1 A2 1MXN-F108 Primary Bkr Containment Floor and Equipment Backup Fuse Sump Pump Motor 182 1MXN-F10C Primary Bkr incore Instrumentation Backup Fuse Sump Pump Motor 1 1MXN-F100 Primary Bkr

!ce Condenser Air Handling Backup Fuse Unu 1815 Fan Motor A & B 1MXO-F01 A Primary Bkr Upper Containment Air Return Backup Fuse Fan Motor 1C 1MXO-F01B Primary Bkr incore histrument Tunnel Booster

(

Backup Fuse Fan Motor 1 A 1MXO-F32B Primary Bkr Control Rod Drive Vent Fan Backup Fuse Motor 1 A 1MXO-F03A Primary Bkr Lower Containment Ventilation Backup Fuse Unit IC Fan Motor 1MXO-F04C Primary Bkr Upper Containment Ventilation Backup Fuse Unit 1C Fan Motor 1MXO-FOSC Primary Bkr Containment Pipe Turmel Backup Fuse Booster Fan Motor 1 A 1MXP-F01A Primary Bkr Upper Containment Return Backup Fuse Air Fan 1B v

CHAPTER 16,8.1 05/04/98 Table 16.81 Page 13 of 46

1 TABLE 16.8-1 A 11H[IlEQHIAINIAENIffMEIBiTION CONDUCTOR OVERCURRENT PROTECTIVE DEVICES DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Continued) 1MXP-F01B Primary Bkr incore Instrument Tunnel Backup Fuse Booster Fan Motor 1B 1MXP-F028 Primary Bkr Control Rod Drive Vent Backup Fuse Fan Motor 1B 1MXP-F03A Primary Bkr Lower Containment Ventilation Backup Fuse Unit IB Fan Motor 1MXP-F04D Primary Bkr Upper Containment Ventilation Backup Fuse Unit 1B Fan Motor 1MXP-F05C Primary Bkr Containment Pipe Tunnel Backup Fuse Booster Fan Motor 1B 1MXQ-F01 A Primary Bkr Upper Containment Return Backup Fuse Air Fan Motor 1 A 1MXQ F01B Primary Bkr incore Instrument Room Ventilation Unit 1 A Fan Motor Unit 1 A Fan Motor 1MXQ-F02B Primary Bkr Control Rod Drive Vent Fan Backup Fuse Motor 1C 1MXQ-F03A Primary Bkr Lower Containment Ventilation Backup Fuse Unit 1 A Fan Motor 1MXQ-F04C Primary Bkr Upper Containment Ventilation Backup Fuse Unit 1 A Fan Motor 1MXR-F01 A Primary Bkr Upper Containment Return Air Backup Fuse Fan Motor ID l

CHAPTER 16.8.1 05/04/98 Table 10.8-1 Page 14 of 46

~

l TABLE 16.8-1 A UNIT _2_CQNIAIMMENT. PENETRATION. CONDUCTOR OVERCURRENIRBDIECIIVE DEylCES DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Continued) 1MXR-F01B Primary Bkr incore Instrument Room Ventila Backup Fuse tion Unit 18 Fan Motor 1MXR-F02B Primary Bkr Control Rod Drive Vent Backup Fuse Fan Motor 1D 1

1MXR-F03A Primary Bkr Lower Containment Ventilation Backup Fuse Unit 1D Fan Motor 1 MXR-F04C Primary Bkr Upper Containment Ventilation Backup Fuse Unit 1D Fan Motor 1MXY-F02A Primary Bkr NC Pump 1 A Oil Lift Pump Motor 1 i

Backup Fuse

)

1MXY-F02B Primary Bkr NC Pump 1D Oil Lift Pump Motor 1 Backup Fuse 1MXY-F02C Primary Bkr Reactor Building Lower Containment Backup Fuse Welding Machine Receptacle 1RCI'LO185 1

l 1MXY-F02D Primary Bkr Upper Containment Reactor Building Backup Fuse Welding Receptacle 1RCPLO193 1MXY F03A Primary Bkr Reactor Coolant Drain Tank Pump Backup Fuse Motor 1 A 1MXY F03D l

Primary Bkr Ice Condenser Refrigeration Backup Fuse Floor Cool Pump Motor 1 A 1MXY F05A i

Primary Bkr Lighting Transformer l

Backup Fuse 1LR8 j

1MXY-F058

)

Primmy Skr Lighting Transformer l

Backup Fuse 1LR11 i

V CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 15 of 46

TABLE 16.81 A UNIT 2 CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT.PROTEC*1VE DEVICES DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Continued) 1MXY-FOSC Primary Bkr Lighting Transformer Backup Fuse 1LR14 1MXY F06A Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 1 A5 Fan Motor A & B 1MXY-F06B Primary Bkr ice Condenser Air Hr.ndling Backup Fuse Unit 1 A11 Fan Motor A & B 1MXY F06C Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 1B12 Fan Motor A & B 1MXY-F06D Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 1 A15 Fan Motor A & B 1MXY-F08A O

Primary Bkr incore Drive Assembly Backup Fuse Motor 1 A 1MXY-F088 Primary Bkr incore Drive Assembly Backup Fuse Motor 1C 1MXY-F08C Primary Bkr incore Drive Assembly Backup Fuse Motor 1E 1MXY F08D Primary Bkr Lower Containment Auxiliary Backup Fuse Charcoal Filter Unit Fan Motor 1 A 1MXZ-F02A Primary Bkr NC Pump 1 A Oil Lift Pump Backup Fuse Motor 2 1MXZ-F02B Primary Bkr NC Pump 1D Oil Lift Pump Backup Fuse Motor 2 O

CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 16 of 46 i-

r TABLE 16.8-1 A UNIT 2 CONTAINMENT PENETygTION CONDUCTOR OVERCURRENT PROTECTIVE DEVICES DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Continued) 1MXZ-F03A Primary Bkr Reactor Coolant Drain Tank Backup Fuse Pump Motor 1B 1MXZ-F048 Primary Bkr Lighting Transformer ILR1 Backup Fuse l

1MXZ-F04C Primary Bkr Lighting Transformer 1LR2 Backup Fuse 1MXZ-F04D Primary Bkr Lighting Transformer 1LR3 l

Backup Fuse 1MXZ-FOSA Primary Bkr Reactor Coolant Pump Jib Backup Fuse Holst No. R019 TH R022 1MXZ-FOSC Primary Bkr Lower Containment Auxiliary

\\'

Backup Fuse Charcoal Filter Unit Fan Motor 1B IMXZ-F06A Primary Bkr incore Drive Assembly Motor 1B Backup Fuse 1MXZ-F06B Primary Bkr incore Drive Assembly Motor 1D Backup Fuse 1MXZ-F06C Primary Bkr incore Drive Assembly Motor IF Backup Fuse 1MXZ-F06D Primary Skr Lower Containment Reactor Building Backup Fuse Welding Receptacle 1RCPLO194 1MXZ-F07B Primary Bkr Lighting Transformer ILR4 Backup Fuse 1MXZ-F07C Primary Bkr S Ton Jib Crane in Containment Backup Fuse Crane No. ROOS O

CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 17 of 46

TABLE 16.8-1 A UNIT 2 CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT PROTECTIVE DEYlCES DEVICE NUMBER & t.OCATION SYSTEM POWERED 2.

600 VAC MCC (Continued)

IMXZ-F07D Primary Bkr Reactor Cavity Manipulator Backup Fuse Crane No. R007 & R027 1MXZ-F08A Primary Bkr Steam Generator Drain Pump Backup Fuse Motor 1 1MXZ F08C Primary Bkr 15 Ton Equipment Access Hatch Backup Fuse Holst Crane No. R009 1MXZ F08D Primary Bkr Control Rod Drive 2 Ton Jib Backup Fuse Holst Crane No. R017 1MXZ F08E Primary Bkr Reactor Side Fuel Handling Backup Fuse Control Console SMXG-F01C Primary Bkr Standby Makeup Pump Drain isol Backup Fuse Viv 1NV876 SMXG-F05C Primary Bkr Pressurizer Heaters 28,55 & 56 Backup Fuse SMXG-F06A Primary Bkr Standby Makeup Pump to Seal Backup Fuse Water Line isol Viv INV877 3.

600 VAC Pressurizer Heater Power Panels PHP1 A-F01 A Primary Bkr Pressurizer Heaters Backup Fuse 1,2, & 22 PHP1 A F01B Primary Bkr Pressurizer Heaters Backup Fuse 5,6, & 27 CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 18 of 46 1

I 1

TABLE 16.8-1 A UNIT 2 CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT PROTECTIVE DEVICES DEVICE NUMBER & LOCATION SYSTEM POWERED 3.

600 VAC Pressurizer Heater Power Panels (Continued)

PHP1 A F01C Primary Bkr Pressurizer Heaters Backup Fuse 9,10 & 32 l

I PHP1 A-F02C Primary Bkr Pressurizer Heaters Backup Fuse 11,12 & 35 l

PHP1A-F02D l

Primary Bkr

' Pressurizer Heaters Backup Fuse 13,14 & 37 i

PHP1 A-F02E Primary Bkr Pressurizer Heaters Backup Fuse 17,18 & 42 PHP1B-F01 A Primary Bkr Pressurizer Heaters Backup Fuse 21,47 & 48 PHP1B-F01B O*

Primary Bkr Pressurizer Heaters Backup Fuse 26,53 & 54 PHP18-F01C Primary Bkr Pressurizer Heaters Backup Fuse 31,59 & 60 PHP18-F02C Primary Bkr Pressurizer Heaters Backup Fuse 36,65 & 66 l

PHP18-F02D Primary Bkr Pressurizer Heaters Backup Fuse 41,71 & 72 PHP18-F02E Primary Bkr Pressurizer Heaters Backup Fuse 46,77 & 78 PHP10-F01 A Primary Bkr Pressurizer Heaters Backup Fuse 7,8 & 30 CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 19 of 46

I TABLE 16.8-1 A j#El,Q2)(TAINMENT_PIfETBAllORCONDUCTOR Q)(EBfdjBBE2{TERDIELIIVEREYlCES DEVICE NUMBER & LOCATION SYSTEM POWERED 3.

600 VAC Pressurizer Heater Power Panels (Continued)

PHPIC-F01B Primary Bkr Pressurizer Heaters Backup Fuse 19,20 & 45 PHP1C-F01C Primary Bkr Pressurizer Heaters l

Backup Fuse 24,51 & 52 PHP1C-F010 Primary Bkr Pressurizer Heaters Backup Fuse 29,57 & 58 PHP1C-F02C Primary Bkr Pressurizer Heaters Backup Fuse 34,63 & 64 PHP1C-F02D Primary Bkr Pressurizer Heaters Backup Fuse 39,69 & 70 PHP1C-F02E O

Primary Bkr Pressurizer Heaters Backup Fuse 44,75 & 76 PHP1D-F01 A Primary Bkr Pressurizer Heaters Backup Fuse 3,4 & 25 PHP1D-F01B Primary Bkr Pressurizer Heaters Backup Fuse 15,16 & 40 PHP1D-F01C Primary Bkr Pressurizer Heaters Backup Fuse 23,49 & 50 PHP1D-F02C Primary Bkr Pressurizer Heaters j

Backup Fuse 33,61 & 62 PHP1D-F02D Primary Bkr Pressurizer Heaters Backup Fuse 38,67 & 68 O

CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 20 of 46

f TABLE 16.8-1 A

(

UN[I,1CONTAINA8ENIfENETRATION.CONQUCTOR OVERCURRENT PROTECTIVE BEY 1CES DEVICE NUMBER & LOCATION SYSTEM POWERED 3.

600 VAC Pressurizer Heater Power Panels (Continued)

PHP1D-F02E Primary Bkr Pressurizer Heaters Backup Fuse 43,73 & 74 4.

250 VDC Reactor Building Deadlight Panelboard 1 DLD-2 Primary Bkr Lighting Panelboard No.1LR1, Backup Fuse ILR2,ILR3,1LR4 1DLD 3 Primary Bkr Lighting Panelboard No.1LR13, Backup Fuse 1LR14 1 DLD-4 Primary Bkr Lighting Panelboard No.1LR5, Backup Fuse 1LR6 1 DLD-5 Primary Bkr Lighting Panelboard No.1LR10, Backup Fuse 1LR11 1DLD-10 Primary Bkr Lighting Panelboard No.1LR8 Backup Fuse 5.

120 VAC Panelboards l

1ELB1-5 Primary Bkr Emergency A.C. Lighting l

Backup Fuse j

l 1ELB17 Primary Bkr Emergency A.C. Lighting Backup Fuse 1ELB113 Primary Bkr Emergency A.C. Lighting Backup Fuse 1ELB1-15 Primary Bkr Emergency A.C. Lighting Backup Fuse iV CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 21 of 46

TABLE 16.8-1 A UNIT 2 CONTAINMENT PENETRATION CONDUCTOR OVERCpRRENT PROTECTIVE DEV CES DEVICE NUMBER & LOCATION SYSTEM POWERED 5.

120 VAC Panelboards (Continued) 1ELB117 Primary Bkr Emergency A.C. Lighting Backup Fuse 1 KPM-1 Primary Bkr NC Pump Motor 1 A Space Heater Backup Fuse 1 KPM-2 Primary Bkr NC Pump Motor 1C Space Heater Backup Fuse 1 KPM-7-1 Primary Bkr Lower Containraent Vent Unit Backup Fuse 1 A Fan Motor Space Heater 1KPM-81 Primary Bkr Lower Containment Vent Unit Backup Fuse 1C Fan Motor Space Heater 1 KPM-24-1

'O Primary Bkr Control Rod Drive Vent Fan Backup Fuse Motor 1 A Space Heater 1KPM-24-2 Primary Bkr Control Rod Drive Vent Fan Backup Fuse Motor 1B Space Heater 1 KPM-24-3 Primary Bkr Control Rod Drive Vent Fan Backup Fuse Motor 1C Space Heater l

1 KPM-24-4 Primary Bkr Control Rod Drive Vent Fan Backup Fuse Motor 1D Space Heater 1 KPM 4, 5, 6, 7 l

Primary Bkr Safety injection System Backup Fuse Temperature Transmitters 1KPN 1 Primary Bkr NC Pump Motor 1B Space Heater Backup Fuse l

CH APTER 16.8.1 05/04/98 Table 16.8-1 Page 22 of 46

I TABLE 16.8-1 A MfE1QQHIAINRENNND11CTOR OVERCUfUENT.RROIECTIVEDEY1CES DEVICE NUMBER & LOCATION SYSTEM POWERED 5.

120 VAC Panelboards (Continued) 1 KPN-2 Primary Bkr NC Pump Motor 1D Space Heater Backup Fuse 1KPN 7-1 Primary Skr Lower Containment Vent Unit Backup Fuse IB Fan Motor Space Heater 1 KPN-8-1 Primary Bkr Lower Containment Vent Unit Backup Fuse 1D Fan Mo!ct Space Heater 1 KPN-8-2,3,4,5 NC Pump Seal Stand Pipe Vent and Drain Valves l

IKPN-11 Primary Bkr Misc Control Power Backup Fuse for 1 ATC 24 6.

DC Welding Circuits O

1EOCB0001 Primary Bkr AA Lower Containment DC Backup Bkr AB Welding Circuit 1EQCB0002 Primary Bkr-AA Upper Containment DC Backup Bkr-AB Welding Circuit p

CHAPTER 16.8.1 05,04/98 Table 16.8-1 Page 23 of 46

TABLE 16.8-1B

{

UNfT 2 CONTAINME.7 PENETRATION CONDUCTOR OVERCURRENT PROTECT lVE DEVICES DEVICE NUMBER & LOCA flON SYSTEM POWERED 1.

6900 VAC Swgr Primary Bkr RCP2A Re= tor Coolant Pump 2A Backup Bkr 2TA-3 Primary Bkr RCP2B Reactor Coolant Pump 2B Rackup Bkr 2TB 3 Primary BKR RCP2C Reactor Coolant Pump 2C Backup Bkr 2TC-3 Primary BKR RCP2D Reactor Coolant Pump 2D Backup Bkr 2TD-3 2.

600 VAC MCC 2EMXC-F01B Primary Bkr Accumulator 2C Discharge Backup Fuse isol Viv 2N!76A 2EMXC-F01C Primary Bkr Check Valve Test Header Backup Fuse Cont isol Viv 2NI95A 2EMXC-F02A Primary Bkr Train A Alternate Power Backup Fuse To ND LTDN Viv 2ND1B 2EMXC-F02B Primary Bkr Hot Leg inj. Check Viv Backup Fuse Test isol Viv 2N1153A 2EMXC-F02C Primary Bkr Cont isol at 134 Deg Backt.p Fuse Annulus Area Viv 2Vl312A 2EMXC-F03A Primary Bkr NC Pump 2C Thermal Barrier Outlet Backup Fuse isol Viv 2KC345A 2EMXC-F03B Primary Bkr N2 to Prt Cont isolinside Backup Fuse Viv 2NC54A 2EMXC-F03C

)

Primary Bkr Pressurizer Power-Operated Backup Fuse Relief isol Viv 2NC33A CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 24 of 46

TABLE 16.8-1 B UNIT 2 CONTAlNMENT PENETRATION CONDUCTOR OVERCpRRENT PROTECTIVE DEVICES DEVICE NUMBER & LOCATION SYSTEM POWERED 2.

600 VAC MCC (Continued) 2EMXC FOSA Primary Bkr NCDT Vent inside Cont isol Backup Fuse Viv 2WL450A 2EMXC-F05B Primary Bkr Cont Sump Pumps Dischargo inside Backup Fuse Cont Isoi Viv 2WL825A 2EMXC-F05C Primary Bkr Vent Unit Cond Drn Tank Backup Fuse Outside Cont isol Viv 2WL867A 2EMXC-F06A Primary Bkr NCOT Pumps Disch inside Cont isol 1

Backup Fuse Viv 2WL805A 2EMXC-F07B Primary Bkr Cont H2 Purge Outlet Cont Isol Backup Fuse Viv 2VY17A 2EMXD-F01 A O

Primary Bkr ND Pump 2A Suction From NC Backup Fuse Loop B Viv 2ND1B 2EMXD-F01B Primary Skr Accu nulator 2B Discharge Backup Fuse Isol Viv 2N165B 2EMXD-F01C Primary Bkr Ni Pump A to Hot Leg Check l

Backup Fuse Viv Test isol Vl/ 2N1122B 2EMXD-F02A Primary Bkr ND Pump 2B Suction from NC Backup Fuse Loop C Viv 2ND36B 2EMXD-F02B i

Primary Bkr ND to Hot Legs Chk 2N1125,2N1129 l

Backup Fuse Test isol Viv 2N1154B i

O CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 25 of 46

1 TABLE 16.8-1B

]INE2fs911TAl!GLIEELPJHEIRAHQ!LGONDilCIOR.OYERCURRENT PROIECIlVEJEVICES DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Continued) 2EMXD-F02C I

Primary Bkr Pressurinr Power-Operated Relief Backup Fuse Isol Viv 2NC31B 2EMXil-F05A Primary Bkr P essurizer Power-Operated Relief Backup Fuse isol Viv 2NC35B 2EMXD-F05B Primary Bkr Rx Bldg Drain Hdr Inside Cont Backup Fuse Isol Viv 2KC429B 2EMXD-F05C Primary Bkr NCDT Hx Cing Water Return inside Backup Fuse Isol Viv 2KC332B 2EMXD-F06A Primary Bkr NC Pump 2B Thermal Barrier Outlet Backup Fuse isol Viv 2KC364B 2EMXD-F06B O

Primary Bkr NC Pumps Rtn Hdr inside Cont Backup Fuse Isol Viv 2KC424B 2EMXK-F01 A Primary Bkr UHI Check Viv Test Line inside ' Note 1 Backup Fuse Cont isol Viv 2N1266A 2EMXK-F01C Primary Bkr Backup N2 to PORV 2NC34A From Backup Fuse Accum Tnk 2A Viv 2N1438A 2EMXK-F02A Primary Bkr NC Pump 2A Thermal Barrier Backup Fuse Outlet isol Viv 2KC394A l

l 2EMXK F02B I

Primary Bkr Lower Cont Vent Units Return l

Backup Fuse Cont isol Viv 2RN484A Note 1:

Upon removal of cable from power source associated with the deletion of UHI, this specification is no longer applic. 5le.

l P

l CHAPTER 16.8.1 05/04/98 Table 16.8-1

(

Page 26 of 46 l.

TABLE 16.8-1B UNIT 2 CONTgf 6_

DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Cont!nued) 2EMXK-F02C Primary Bkr NV Supply to Pressurizer Viv Backup Fuse 2NV037A 2EMXK-F03A Primary Bkr S/G C Blowdown Line Sample Backup Fuse inside Cont isol Viv 2NM210A 2EMXK-F04A Primary Bkr S/G A Upper Shell Sample Inside Bacnup Fuse Cent isol Viv 2NM187A 2EMXK-F04B Primas / Bkr S/G A Blowdown Line Sample Backup Fuse loside Cont isol Viv 2NM190A l

2EMXK-F04C Primary Bkr S/G C Upper Shell Sample Backup Fuse inside Cont isol Viv 2NM207A 2EMXK-F06A Primary Bkr Hydrogen Skimmer Fan 2A Backup Fuse inlet Viv 2VX1 A 2EMXK-F07C Primary Bkr Electric Hydrogen Recombiner Backup Fuse Power Supply Panel 2A 2EMXK-F09A Primary Bkr Accumulator 2A Discharge isol Backup Fuse Viv 2N154A 2EMXK-F09B Primary Bkr UHI Check Viv Test Line inside ' Note 1 Backup Fuse Cont isol Viv 2N1267A 2EMXK-F09C Primary Bkr NC Pump Oil Fill Header Backup Fuse Cont isol Viv 2NC196A Note 1:

Upon removal of cable from power source associated with the deletion of UHl, this specification 83 no longer applicable.

CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 27 of 46

TABLE 16.8-1B UNIT 2 CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT PROTECTIVE DEVICES DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Continued) 2EMXK-F10A Primary Bkr Containment Air Return Damper Backup Fuse 2 ARF-D-2 2EMXK-F10B Primary Bkr VQ Fans Suction From Containment Backup Fuse isol Viv 2VQ2A 2EMXK-F10C Primary Skr Cont Air Addit lon Containment Backup Fuse isol Viv 2VQ16A 2EMXK-F11 A Primary Bkr Containment Air Retum Fan Backup Fuse Motor 2A 2EMXK-F11B Primary Bkr Hydrogen Skimmer Fan Motor 2A Backup Fuse 2EMXL-F01B O

Primary Bkr Trn B Altemate Power to ND Backup Fuse Letdn Viv 2ND37A 2EMXL-F01C Primary Bkr NI Accum D Sample Line inside Backup Fuse Cont isol Viv 2NM81B 2EMXL-F02A Primary Bkr NC Pump 2D Thermal Ba.rier Backup Fuse Outlet Isol Viv 2KC4138 2EMXL-F02B Primary Bkr Air Handling units Glycol Return Backup Fuse Cont isol Viv 2NF233B 2EMXL-F02C Primary Bkr Ni Accum C Sample Line inside Backup Fuse Cont isol Viv 2NM78B 2EMXL-F03A Primary Skr S/G D Blowdown Sample Line inside Backup Fuse Cont isol Viv 2NM2208 O

CHAPTER 16.*t.1 05/04/98 Table 16.8-1 Page 28 of 46

TABLE 16.8-1B 1,[AllT.240RIAHiMEt!T PINEIRAllQlLc_o_tip_EIDIL9ElLC#BBENIPEDRQI1Y19%YlGES p_EVICE NUMBER & LOCATION SYSTEM POWERgD

2. 600 VAC MCC (Continued)

I 2EMXL-F038 l

Primary Bkr NI Ar. cum A Sample Line inside Backup Fuse Cont isol Viv 2NM72B 2EMXL-F03C Primary Bkr NI Accum B Sample Line inside Backup Fuse Cont isol Viv 2NM75B 2EMXL-F04A Primary Bkr S/G B Upper Shell Sample inside Backup Fuse Cont Isol Viv 2NM1978 2EMXL-F04B Primary Skr S/G B Blowdown Sample Line inside Backup Fuse Cont isol Viv 2NM2008 l

2EMXL F04C Primary Bkr S/G D Upper Shell Sample inside Backup Fuse Cont isol Viv 2NM217E 2EMXL F06A O

Primary Bkr Hydrogen Skimmer Fan 2B Backup Fuse inlet Viv 2VX2B 2EMXL F068 Primary B6.r Backup N2 to PORV 2NC328 Backup Fuse from Accum Tnk 2B Viv 2N1439B 2EMXL F07C Primary Skr Electric Hydrogen Recombiner Backup Fuse Power Supply Parmi 2B 2EMXL F09A I

Primary Bkr Accumulator 2D Discharge Backup Fuse Iso! Viv 2N188B 2EMXL F10A Primary Bkr Containment Air Return Damper i

Backup Fuse 2 ARF-D-4 O

I i

CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 29 of 46

TABLE 16.8-1 B LitHT,2. CONTAINMENT _EENEIRAIlON_CONDUCIOR OVERCURRENT PROTECTIVEEEYJCES DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Continued) 2EMXL F100 Primary Bkr Reactor Vessel Head Vent Backup Fuse Viv 2NC251B 2EMXL-F10C Primary Bkr Reactor Vessel Head Vent Viv Backup Fuse 2NC252B 2EMXL-F11 A Primary Bkr Containment Air Return Backup Fuse Fan Motor 2B 2EMXL-F118 Primary Bkr Hydrogen Skimmer Fan Motor 2B j

Backup Fuse 2EMXS-F01B Primary Bkr NC Pumps Seal Rtn Backup Fuse inside Cont Isol Viv 2NV89A 2EMXS-F02A O

Primary Bkr ND Pump 2B Suction from NC V

Backup Fuse Loop C Viv 2ND37A 2EMXS-F028 Primary Bkr Reactor Vessel Head Vent Viv Backup Fuse 2NC250A j

2EMXS-F03D Primary Bkr ND Pump 2A Suction from NC Backup Fuse Loop B Viv 2ND2A 2EMXS-F03E Primary Bkr Reactor Vessel Head Vent Viv Backup Fuse 2NC253A 2EMXS-F048 i

Primary Skr S/G 2D Blowdown loside Cont Backup Fuse Isol Viv 2BB8A 2EMXS-F04C Primary Bkr S/G 2B Blowdown inside Cont Backup Fuse isol Viv 2BB19A CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 30 of 46

TABLE 16.8-18 NENT_EENETBATION.CONDUCIOR OVERCUBBENIEBOTECTIVE DEVICES DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Continued) 2EMXS-F05A Primary Ckr S/G 2A Plowdown inside Cont Backup Fuse isol Viv 2BB56A 2EMXS-F05B Primary Bkr S/G 2C Blowdown inside Cont Backup Fuse isol Viv 2BB60A 2EMXS-F05C Primary Bkr Pzr Liquid Sample Line Inside Backup Fuse Cont isol Viv 2NM3A 2EMXS-F06A Primary Bkr Pzr Steam Sample Line Inside Backup Fuse Cont isol Viv 2NM6A 2EMXS-F06B Primary Bkr NC Hot Leg A Sample Line Backup Fuse inside Cont isol Viv 2NM22A 2EMXS-F06C O,

Primary Bkr NC Hot Leg C Sample Line Backup Fuse Inside Cont isol Viv 2NM25A 2MXM-F01A Primary Bkr Reactor Coolant Pump Motor Backup Fuse Drain Tank Pump Motor 2MXM-F02A Primary Bkr NC Pump 2B Oil Lift Backup Fuse Pump Motor 1 2MXM-F02B Primary Bkr NC Pump 2C Oil Lift Backup Fuse Pump Motor 1 2MXM-F03A Primary Bkr Ice Condenser Power Backup Fuse Transformer ICT2A 2MXM-F03B Primary Bkr Ice Condenser Air Handling Unit Backup Fuse 286 Fan Motor A & B l

O CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 31 of 46

TABLE 16.8-1 B UNII_2.DQNIAINMFNT PENETRATjoRCONDUCToa OVERCUREftlTRROTFCTIVE DEVlQES DEVICE NUMBER & LOCATION SYSTEM POWERED 2.

600 VAC MCC (Continued)

I 2MXM-F03C Primary Bkr Ice Condenser Equipment Access Backup Fuse Door Holst Motor 2A 2MXM-F04D Primary Bkr Lighting Transformer 2LR10 Backup Fuse 2MXM-F04E Primary Bkr Lighting Transformer 2LR13 Backup Fuse 2MXM-F05A Primary Bkr 175 Ton Polar Crane and 25 Backup Fuse Ton Aux Crane No. R014 and R016 q

j 2MXM-F05C i

Primary Bkr Upper Containment Welding Feeder l

Backup Fuse 2MXM-F06A Primary Bkr Ice Condenser Air Handling (g

Backup Fuse Unit 2A7 Fan Motor A & B 2MXM-F06B Primary Bkr Ice Condenser Air Handling

)

Backup Fuse Unit 2B8 Fan Motor A & B 2MXM-F06C Primary Bkr ice Condenser Air Handling Backup Fuse Unit 2A9 Fan Motor A & B 2MXM-F06D Primary Bkr ice Condenser Air Handling Backup Fuse Unit 2B10 Fan Motor A & B 2MXM-F07B Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 2A13 Fan Motor A & B 2MXM-F07C i

l Primary Skr Ice Condenser Air Handling l

Backup Fuse Unit 2B14 Fan Motor A & B l

l O CHAPTER 16.8.1 05/04/98 Table 16.8-1 L__________________________--

TABLE 16.8-1B UNII.2.CONIAINMENI.PENET_R_ATION CONDUCJOR OVERcDBBENT_EBOIECTIVE DEVJCES DEVICE NUMBER & LOCATION SYSTEM POWERED 1

2. 600 VAC MCC (Continued) 2MXM-F08D Primary Ukr Ice Condenser Refrigeration Backup Fuso Floor Cool Defrost Heater 2A 2MXM-F09A Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 2A1 Fan Motor A & B 2MXM-F098 Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 2B2 Fan Motor A & B 2MXM-F09C Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 2A3 Fan Motor A & B 2MXM-F09D Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 2B4 Fan Motor A & B j

2MXM-F10A T

Primary Bkr Containment Floor and Equipment

/

Backup Fuse Sump Pump Motor 2A1 i

2MXM-F108 l

Primary Bkr Containment Floor and Equipment Backup Fuse Sump Pump Motor 281 2MXN-F01F Primary Bkr Stud Tensioner Backup Fuse Holst 2B i

2MXN-F02/1 Primary Bkr NC Pump 28 Oil Lift Pump Motor 2 j

Backup Fuse j

i 2MXN-F02B

]

Primary Bkr NC Pump 2C Oil Lift Pump Motor 2 Backup Fure j

2MXN-F02E Prfmary Bkr Stud Tensioner Holst 2C Backup Fitse l

I l

i O

l l

CHAPTER 16.3.1 05/04/98 Table 16.81 Page 33 of 46

TABLE 16.8-1 B UNIT _2 CONTAINMENT _PINEIBAT10fLCONDUCIDfLOYERCMilBEJiI.EBDIACTIVEDEYJCES DEVICE NUMBER & LCCATION SYSTEM POWERED

2. 600 h., MCC (Continued) 2MXN-F03A Primary Bkr Ice Conder.ser Power Transformer Backup Fuse ICT2B 2MXN-F03B Primary Bkr ice Condenser Bridge Crane 2 Backup Fuse Crane No. R012 2MXN-F03E Frimary Bkr Stud Tensioner Holst 2A Backup Fuse 2MXN-F04D Primary Bkr Lighting Transformer 2LR5 Backup Fuse 2MXN-F04E Primary Skr Lighting Transformer 2LR6 Backup Fuse 2MXN-F05A O

Primary Bkr Ice Condenser Refrigeration Backup Fuse Floor Cool Defrost Heater 28 2MXN-F05B Primary Skr Ice C7ndenser Refrigeration Flour Sackup Fuse

.7ool Pump Motcr 26 2MXN-F05C Primary Skr fee Coridenser Eqt.spment Access Backup Fuse Door Holst Motot 2B 2MXH-F06A Primary Ukr be Londenser Air Handlir,g Backup Fus.e Unit 281 Fan Motor A & B 2MXN F06B Primary Bkr Ice Condenser Air Handling Bactrup Fuse Unit 2A2 Fan Motor A & B l

2MXN.FOSC Primary Skr Ice Condenow Air Hano.ing Backup Fuse Ur912B3 Fan Motor A & B CHAPTEll16.8.1 ~

Oij/0468 Table 16.8-1 Page 34 of 46 L __

I TABLE 16.B 13 MMLI.2fcQNIAINMENT_EENEIRAIlOMADHDUmfB.Qygag_QBBf1T_fR_OJ1CIjyE DiiiVICM DEVICE NUMBER & LOCATION SYSTEM POWEFIED I

i j

1. 600 VAC MCC (Continued)

]

l

\\

2MXN-F06D j

Primary Bkr

$ce Corv.ienser Air Handling I

Backup Fuse Unit 2Af. Fan Motor A & G l

l 2MXN-F07B Primary Bkr Ice Coredenser Air Handling Backup Fuse Unit 285 Fan Motor A & B l

2MXN-F07C Primary Bkr Ice Condenser Air Handling Backup Fusa Unit 2A6 Fan Motor A & B 2MXN-F08A Primary Bkr lee Condenser Air Handling Backup Fuse Unit 2B7 Fan Motor A & B

{

2MXN-F08B l

Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 2A8 Fan Motor A & B l

l 2MXN-F08C Primary Bkr Ice Condenser Air Handling Q

Backup Fuse Unit 209 Fan Motor A & B j

2MXN-F08D Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 2A10 Fan Motor A & B 2MXN-F09A Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 2B11 Fan Motor A & B 2MXSF098 I

Pritnary Skr Ice Condenser Air Handling Backup Fese Unit 2A12 Fan Motor A & B 2MXN-F09C Primary Skr Ice Condenser Air Handling Backup Fuse Unit 2813 Fan Motos A & B i

2MXN-F090 Primary Bkr Ice Condenser Air Handling j

Backup Fuse Unit 2A14 Fan footor A & B l

1 (3

m CHAPTER 16.8.1 05/0463 l

Table 16.8-1 Page 35 of 46 4

-A

l TABLE 16.8-1B l

lit (E2.. cot (BINMME.PJti_qIEJ6.TLOll&O'dDUCTOR oyERgyBBENIERQRf;Iggp_gXiGER DEVICE NUMBER & t.OCATIOis SYSTEM POWERED i

2. 600 VAC MCC(Continued) 2MXN-F30A Primary Blur Containment Floor and Equipment Bacicup Fuse Sump Pump Motor 2A2 2MXN-F108 Primary Okr Containment Floor anct Equipment Backup Fuse Sump Pump Motor 282 2MXN-F100 Primary Bkr incore inatsumentation l

Backup Fuse Sump Pump Motor 2 l

l 2MXN F10D Primary Skr Ice Condenser Air Handling Backup Fuse Unit 2815 Fan Motor A & B 2MXO-F01A Primary Bkr Upper Containment Air Return Dackup Fuse Fan Mot,7 2C 2HXO-F028 Primary Bkr Control Rod Drive Vent Fan gj Banup Fuse Motor 2A 2MXO-F03A Primary Okr Lower Containrnent Ventilation Backup Fuse Unit 2C Fan Motor IMXO-F04C Primary Ukr Upoer Containment Ventilation

{

Backup Fuss Unit 2C Fan Motor 2MXO-F05C Prima y Ekr Containment Pipe Tunnel Backup Fuso Booster Fan Motcr 2A 2MXP-F01A Primary Ekr Upper Containment Return Backup Fuse Alf Fan 2B bd CHAPTER 16.8.1 05/04/98 Table 16.81 Pege 36 of 46

c --

TABLE 16.81B MfgIlfd> MENT PENETRATION CONDUCTQfLOVERC11RBEtE.E8DIECIJME.DEYlCES pFMCJ NUMBER & LOCATION SYSTEM POWERED F

2. 6'JO VAC MCC (Continued) 2MXP F02B Primary Bkr Control Rod Drive Vent Backup Fuse Fan Motor 2B 2MXP F03A Primary Bkr Lower Containment Ventilation Backup Fuse Unit 2B Fan Motor 2MXP-F040 Primary Bkr Upper Containment Ventilation Backup Fuse Un't 28 Fan Motor 2MXP F05C Primary Okr Containment Pipe Tunnel Backup Fuse Booster Fan Motor 28 2MX0-F01 A.

Primary Bkr Upper Containment Return Backup Fuse Air Fan Motor 2A 2MXQ-F018

*g Prirnary Skr incore instrument Room Venti-

)

Backup Fuse lation Unit 2A Fan Motor 1

2MXQF02B 4

Primary Bkr Control Rod Drive Vent Fan Backup Fuse Motor 2C 2MXQ-F03A Primary Skr L.ower Containment Ventilation Backup Fuse Unit 2A Fan Motor 2MXQ-F04C Primary Bkr Upper Containment Ventilation Backup Fuse Unit 2A Fan Motor 2MXR-F01A i

Primary Bkr Upper Containment Retum Air Backup Fuse Fan Motor 2D

)

CHAPTER 16.8.1 05/04/98 Table 16.81 Page 37 of 46

TABLE 16.81B UNIL2J1QNIAINAMENT45NETRAllON.CONDU.CIQftQVERCURRENigg}'pfggggg G-Q DEVICE NilMBER & L.Q9ATION SYSTEM POWERED

2. 600 VAC !ACC (Continued) 2MXR F01B Primary Bkr incore Instrument Room Ventila.

Backup Fuse tion Unit 28 Fan Motor 2MXSF028 Prinary Bkr Control Rod Drive Vent Backup Fuse Fan Motor 2D 2MXR-F03A Primary Skr Lower Containment Ventilation Backup Fuse Unit 2D Fan Motor 2MXR-F04C Primary Bkr Upper Containment Ventilation Backup Fuse Unit 2D Fan Motor 2MXY-F02A Primary Bkr NC Pumo 7A Oil L)ft Pump Motor 1 Backup Fuse 2MXY-F028 Primary akr NC Pump 20 Oi! l.ift Pump Motor 1 Backup Fuse 2MXY-F02C Primary Bkr Reactor Building Lower Contaimwent Backup Fuse Welding Machine Receptacle 2RCPLO185 2MXY F02D Upper Containment Reactor Building Primary Bkr Walding Receptacle 2RCPLO193 Backup Fuse 2MXY F03A Primary Skr ideactor Coolant Drain Tank Pump Backup Fuse Motor 2A 2MXY F030 Primary Bkr Ice Condenser Refrigeration Backup Fuse Floor Cool Pump Motor 2A 2MXY F05A Primary Bhr Lighting Transformer Backup Fuse 2LRS CMXY F058 Primary Bkr Lighting Transformer Backup Fuse 2LR11 CHAFTER 16 8.1 05/04 S 8 Table 16.81 Page 38 of 46

T.

~

TABLE 16.8-1B LINil2,GQEMXI2AtEL3AIlOHf4WRLLCIQR OVERCURRggLggQlggIgg,pgy1CES R

EgylGE NUMBJfR,& LOCATION SYSTEM POW 1, ED

2. 600 VAC MCC (Continued)

. 2MXY-F05C Primary Skr Lighting Trans'ormer Backup Fuse 2LR14 2MXY-F06A Primary Bkr ice Condenser Air Handling Backup Fuoe Unit 2AS Fan Motor A & D 2MXY F068 Primary Bkr Ice Condenser Air Handling Backup Fuse Unit 2A11 Fan M? tor A & B

?

2MXY F060 l-Primary Skr Ice Condenser Air Handling Backup Fuse Unit 2012 Fan Motor A & B 1

2MXY-F06D i

Pmnary Bkr ice Condenser Air Handling Backup Fuse Unit 2A15 Fan Mover A & B 2MXY-F07C n

Primary Skr EXH Reactor Building Equipment v

Backup Fuse Hatch Jib Cranea R035 & R036 2MXY F08A Primary Bkr Incore Drive Assembly Backup Fuse Motor 2A 2MXY-F088 Primaiy Bkr incore Drive Assembly Backup Fuse Motor 2C 2MXY-F080 Primary Bkr Incore Drive Assembly Backup Fuse Motor 2E l

2MXY F00D Prirnary Bkr Lower Containment Auxiliary Backup Fuse Charcoaf Fifter Unit Fan Motor:2A j

2MXZ F02A Primary Bkr NC Pump 2A Oil Lih Purnp Backup Fuse Motor 2 CHAPTM116.8.1 05/04/98 Table 16.8-1 Page 39 of 46 1

TASt.E 16.81 B WHIACOlffAMMElg2E1[Ufl6TjoJLCONDijCTOILQVETL UBHENTEROlgCJJ2ERF, VICES

(

)

DEVICE NUMBER & LOCATION SYSTEM POWERED

2. 600 VAC MCC (Continued) 2MXZ-F02B Primary Bkr NC Pump 2D Oil Lift Purnp Backup Fuse Motor 2

)

1 2MXZ F03A Primary Bkr Reactor Coolant Drain Tani, Backup Fose Pump Motor 28 2MXZ-F048 Primary Bkr Lightirig Transformer 2LR1

. Backup Fuse

{

i 2MXZ-F04C i

Primary Bkr Lighting Transformer 2LR2 Backup Fuse 2MXZ-F04D Primary Bkr Lighting Tsansforrner 2LR3 Backup Fuse 2MXZ-F05A

[]

Primary Okr Reactor Coolant Pump Jib y/

Backup Fose Holst No. R023 TH R026 2MXZ-F05C Priman Bkr Lower Containment Auxihary j

3ackup Fuse Charcoal Filter Unit Fan Motor 28 i

2MXZ-F06A i

Primary Bkr incore Drive Assembly F#otor 2B Backup Fuse 2MXZ-F068 l

Primary Bkr incote Drive Assembly lAotor 2D Backup Fuse 2MXZ F03C Primary Bkr lacore Drive Assembly Motor 2F Backup Fuse s

2MXI-F06D Lower Containment Reactor Buit: Jing Frimary Bkr Weldirg Receptacle 2RCPLO194 Backup Fuse 2MXZ-F07B Prirnaq Bkr Lighting Transformer 2LR4 Backup Fuse

,, 3 i

i N,)

.e CHAPTER 16.8.1 05/04'98 Table 16.8-1 Page 40 of 46

TABLE 16.8-1B UNIT 2 CONTAHDAEEPENETRATION CMgRRIIRRENT PROIECTf/E DEVICE DEVICE NUMBER & LOCATION GYSTEM POWERED 2.

600 VAC MCC (Continued)

I 2MXZ-F07C Primary Bkr 5 Ton Jit, Crane in Containment Backup Fuse Crane No. R006 2MXZ-F070 Primary Skr Reactor Cavity Manipulator j

Backup Fuse Crane No. R008 & R024 j

2MXZ-F08A Primary Bkr Steam Gennator Drain Pump Backup Fuse Motor 2 2MXZ-F08C Fr! mary Bkr 15 Ton Equipment Access Hatch Backup Fuse Holst Crane No. R010 2MXZ-F08S Primary Bkr Contro! Rod Drive 2 Ton Jib Backup Fuse Holst Crane No. R018 2MXZ-F08E Primary Skr Reactor Side Fuel Handling

(

Backup Fuso Control Console SMXG-FOCB Primary Bkr Standby M,skeup Pump Drain Iso!

Dackup Fuse Viv 2HV87E SMXG-R058 i

Primary Ekr Pnesse.pr Heaters 28,55 & SG Backup Fuse SMXG F06C Primary Skr Standby Makeup Pump to Geal Backup Fuse Water Line isol Viv 2NV877 3.

600 VAC Pressurizer Heater Power Panels PHP2A-F01A Primary Bkr Pressurizer Heaters Backup Fuse 1,2, & 22 PHP2A-F01B Primary Bkr Pressurizer Heaters Backup Furse 5,6, & 27

)

CH APTER 'i6.8.1 0G/04/98

}

Table 16.8-1 Page 41 of 46

TABLE 16.8-1B UfdE2.f&RIAthlAAERLPENElBATjQttCO.NDUCTOR OVEBCUBBENT PROTECTIVE DEVICES DEVICE NUMBER & LOCATION SYSTEM POWERED 3.

600 VAC Pressurizer Heater Power Panels (Continued)

PitP2A-F01C Primary Bkr Pressurizer Heaters Backup Fuse 9,10 & 32 PHP2A F02C i

Primary Bkr Pressurizer Heaters Backup Fuse 11,12 & 35 PHP2A-F02D Primary Bkr Pressurizer Heaters Backup Fuse 13,14 & 37 PHP2A-F02E Primary Bkr Pressurizer Heaters Backup Fuse 17,18 & 42 PHP2B-F01D Primary Bkr Pressurizer Heaters Backup Fuse 26,53 & 54

)

PHP2B-F01C O

Primary Bkr Pressurizer Heaters Backup Fuse 31,59 & 60 1

PHP2B-F02C Primary Bkr Pressurizer Heaters Backup Fuse 36,65 & 66 PHP28 F02D Primary Skr Pressurizer Heaters Backup Fuse 41, 71 & 21 PHP28-F02E Primary Bkr Pressurizer Heaters Backup Fuse 46,77 & 78 PHP2C-F01 A Primary 6ftr Pressurizer Heaters Backup Fuse 7,8 & 30 m

CHAPTER 16.8.1 05/04/98 Table 16.81

.Page 42 of 46

i TABLE 16.8-1B UNLT.2.CQtu &lNMENLEEMEIBAEDtOEHIDU.CIDROYEBCVBBENIEROIECIIVEDEY1CES DEVICE NUMBEF' & LOCATION SYSTEM POWERED I

3.

600 VAC Pressurizer Heater Power Panels (Continued)

I PHP2Cr F01B Primary Bkr Pressurizer Heaters Backup Fuse 19,20 & 45 PHP2C-F01C Primary Bkr Pressurizer Heaters Backup Fue 24,51 & 52 PHP2C-F01D Primary Bkr Pressurizer Heaters Backup Fuse 29,57 & 58 PHP2C-F02C Primary Bkr Pressurizer Heaters l

Backup Fuse 34,63 & 64 i

PHP2C-F02D Primary Bkr Pressurizer Heaters Backup Fuse 39,69 & 70 PHP2C-F02E Q

Primary Bkr Pressurizer Heaters I

Q Backup Fuse 44,75 & 76 PHP2D-F01 A Primary Bkr Pressurizer Heaters Bacivp Fuse 3,4 & 25 PHP2D-F01B Primary Bkr Pressurizer Heaters Backup Fuse 15,16 & 40 PHP2D-F01C Primary Bkr Pressurizer Heaters Backup Fuse 23,49 & 50 PHP2D-F02C Primary Bkr Pressurizer Heaters Backup Fuse 33,61 & 62 PHP2D-F02D Primary Bkr Pressurizer Heaters Backup Fuse 38,67 & 68 CHAPTER 16.8.1 05/04/98 Table 15.8-1 Page 43 of 46

\\

TABLE 16.8-1 B MHAIlQlLCOND.UCIOR.OYERCMBBFNT,ERQ,TEGIDGUNDUCES OQ DEVICE NUMBER & LOCATION SYSTEM POWERED 3.

600 VAC Pressurizer Heater Power Panels (Continued)

PHP2D-F02E Primary Skr Pressurizer Heaters Backup Fuse 43,73 & 74 4.

250 VDC Reactor Building Deadlight Panelboard 2DLD-2 Primary Bkr Lighting Panelboard No.2LR1, Backup Fuse 2LR2,2LR3,2LR4 2DLD-3 Primary Bkr Lighting Panelboard No. 2LR13, Backup Fuse 2LR14 2DLD-4 i

Primary Bkr Lighting Panelboard No. 2LRS, Backup Fuse 2LR6 2DLD-5 Primary Bkr Lighting Panelboard No. 2LR10, Backup Fuse 2LR11 2DLD-10 Primary Bkr Lighting Panelboard No. 2LR8 Backup Fuse 5.

120 VAC Panelboards 2ELB15 k

Primary Bkr Emergency A.C. Lighting Backup Fuse l

2ELB1-7 Primary Bkr Emergency A.C. Lightmg Backup Fuse l

2ELB1-13 l

Primary Bkr Emergency A.C. L8ghting Backup Fuse l

j 2ELB1-15 Psimary Bkr Emergency A.C. Lighting l

Backup Fuse O

l 1

l CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 44 of 46

TABLE 16.81B UNIT 2 CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT PROTECT!VE DEVICES

(

pgVICE NUMBER & LOCATION SYSTEM POWERED 5.

120 VAC Panelboards (Continued) 2ELB117 Primary Bkr Emergency A.C. Lighthg Backup Fuse 2KPM 1 Primary Bkr NC Pump Motor 2A Space Heater Backup Fuse 2KPM-2 l

Primary Bkr NC Pump Motor 2C Space Heater Backup Fuse 2KPM-7-1 Frimary Bkr Lower Containment Vent Unit Backup Fuse 2A Fan Motor Space Heater 1

2KPM-8-1 Primary Bkr Lower Containment Vent Unit Backup Fuse 2C Fan Motor Space Heater 2KPM-24-1 Primary Bkr Control Rod Drive Vent Fan Backup Fuse Motor 2A Space Heater 2KPM-24-2 i

Primary Bkr Control Rod Drive Vent Fan Backup Fuse Motor 2B Space Heater 2KPM-24-3 Primary Bkr Control Rod Drive Vent Fan Backup Fuse Motor 2C Space Heater 2Kf'M-24-4 l

Primary Skr Control Rod Drive Vent Fan Backup Fuse Motor 2D Space Heater g

2KPM 33-6,7,8,9 4

l Primary Bkr Safety injection System l

Backup Fuse Temperature Transmitters l

l 2KPN-1 l

Primary Bkr NC Pump Motor 28 Space Heater j

Backup Fuse O

CHAPTER 16.8.1 05*34/98 Table 16.8-1 Page 45 of 46

TABLE 16.81B URELGQM19B&QU91LGI.QB,QXFJtGMBBKNT.EBQ.TAGILYK.QE3E&&

DEVICE NUMBER & LOCATION SYSTEM POWERED 5.

120 VAC Panelboards (Continued) 2KPN-2 Primary Bkr NC Pump Motor 2D Space Heater l

Backup Fuse l

l 2KPN-71 Primary Skr Lower Containment Vent Unit Backup Fuse 28 Fan Motor Space Heater 2KPN-8-1 Primary Bkr Lower Containment Vent Unit Backup Fuse 2D Fan Motor Space Heater 2KPN-8-2,3,4,5 NC Pump Seal Stand Pipe Vent and Drain Valves 2KPN-11 Primary Bkr Misc Control Power Backup Fuse for 2ATC 24 6.

DC Welding Circuits 1

l

'O 2EOCB0001 Primary Bkr-AA Lower Containment Backup Skr AB DC Welding Circuit 2EOCB0002 Primary Bkr AA Upper Containment Backup Bkr - AB DC Welding Circuit i

I CHAPTER 16.8.1 05/04/98 Table 16.8-1 Page 46 of 46

16.9 AUXILIARY SYSTEMS - F_lBE PHOTECTION SYSTEMS _

16.9.2-SPRAY AND/OR SPRINKLER SYSTEMS COMMITMENT:

Spray and/or Sprinkler systems in Table 16.9-1 chall be OPERABLE:

APPLICABILITY:

Whenever equipment protected by the Spray / Sprinkler System is required to be OPERABLE.

REMEDIAL ACTION:

a.

With one or more of the above required Spray and/or Sprinkler Systems inoperable, within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />, in accordance witi; the " Fire Watch Code" given in Table 16.9-1, established a continuous fire watch or an hourly fire watch.

b.

Verify backup fire suppression (fire extinguisher, nearby fire hose station) is available, and if not, establish backup fire suppression equipment for the affected area. This must be accomplished within the 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> given above.

TESTING REQUIREMENTS:

a.

Each of the above required Spray and/or Sprinkler Systems shall be demonstrated OPERABLE:

1.

By verifying that each valve (manual, power-operated, or automatic) in the flow path, which is accessible during plant operations, is in the correct position. The frequency of the verification shall be determined by the performance based criteria stated in the Bases Section.

ii.

At least once per 12 months by cycling each testable valve in the flow path through at least one complete cycle of full travel, iii.

At least once per 18 months by verifying that each valve (manual, power-operated, or automatic) in the flow path which is inaccessible during plant operations is in its correct position, and

,m iv.

At least once per 18 months:

b l

Chapter 16.9.2 Page 1 05/04/98

1) By performing a system functional test which includes simulated automatic actuation of the system, and cycling each valve in the flow path that is not testable during plant operation through at least one complete cycle of full travel.

2) By a visualinspection of each Sprinkler System starting at the system isolation valve to verify the system's integrity; and

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

REFERENCES:

1)

Catawba FSAR, Section 9.5.1 2)

Catawba SER, Section 9.5.1 3)

Catawba SER, Supplement 2, Section 9.5.1 4)

Catawba SER, Supplement 3, Section 9.5.1 5)

Catawba Fire Projection Review, as revised 6)

Catawba Fire Protection Commitment Index 2

BASES; The OPERABILITY of the Fire Suppression Systems ensures that adequate fire suppression capability is available to confine and extinguish fires occurring in any portion of the facility where safety-related equipment is located. The Fire Suppression System consists of the water system, spray, and/or sprinklers, CO2, and fire hose stations. The collective capability of the Fire Suppression Systems is adequate to minimize potential damage to safety -related equipment and is a major element in the facility Fire Protection Program.

The proper positioning of RF/RY valves is critical to delivering fire suppression water at the fire source as quickly as possible. The option of increasing or decreasing the frequency of valve position verification allows the ability to optimize plant operational resources. Should an adverse trend develop with RF/RY valve positions, the frequency of verification shall be increased. Similarly if the RF/RY valve position trends are positive, the frequency of verification could be decreased. Through programmed trending of RF/RY as found valve positions, the RF/RY System will be maintained at predetermined reliability standards. The RF/RY System Engineer is responsible for trending and determining verification frequencies based on the following:

Initially the frequency will be monthly.

Annually review the results of the completed va!ve position verification j

procedures.

Chapter 16.9.2 Page 2 05/04/98

If the results demonstrate that the valves are found in the correct position at e

least 99% of the time, the frequency of conducting the valve position verification may be decreased from - monthly to quarterly or - quarterly to semiannually or - semiannually to annually - as applicable. The frequency shall not be extended beyond annually (plus grace period).

If the results demonstrate that the valves are not found in the correct position at least 99% of the time, the frequency of conducting the valve position verification shall be increased from - annually to semiannually or -

semiannually to quarterly or - quarterly to monthly - as applicable. The valve

. position verification need not be conducted more often that monthly.

In the event that portions of the Fire Suppression Systems are inoperable, attemate backup fire-fighting equipment is required to be made available in the affected areas until the inoperable equipment is restored to service. When the inoperable fire-fighting equipment is intended for use as a backup means of fire suppression, a longer period of time is allowed to provide an attemate means of fire fighting than if the inoperable equipment is the primary means of fire suppression.

This Selected Licensee Commitment is part of the Catawba Fire Protection Program and therefore subject to the provisions of Section 2.C. the Catawba Facility Operating Licenses.

O Chapter 16.9.2 Page 3 05/04/98 i

TABLE 16.9-1 SPRAY AND SPRINKLER SYSTEM a.

Elevation 522+0 - Auxiliary Building Room No.

Eauipment Fire Watch Code 100,101,106 ND & NS Connecting (2) 111,112 Corridor 104 ND Pump 1B (3) 105 ND Pump 1 A (3) 109 ND Pump 2B (3) 110 ND Pump 2A (3) b.

Elevation 543+0 - Auxiliary Building 230 NV Pump 1 A (3) 231 NV Pump 1B (3) 240 NV Pump 2A (3) 241 NV Pump 2B (3) 250 Unit 1 CA Punip Room (1) 260 Unit 2 CA Pump Room (1) c.

Elevation 554+0 - Auxiliary Building 340 U2 Battery Room Corridor (DD-EE)

(2) 350 U1 Battery Room Corridor (DD-EE)

(2) d.

Elevation 560+0 - Auxiliary Building 300 KC Pumps 1 A1,1 A2, (3) 300 KC Pumps 1B1,1B2 (3) e.

Elevation 574+0 - Auxiliary Building 480 U2 Cable Room Corridor (DD-EE)

(2) 490 U1 Cable Room Corridor (DD-EE)

(2) f.

Elevation 577+0 - Auxiliary Building 400 KC Pumps 2A1,2A2, (3) 400 KC Pumps 281,2B2 (3) g.

Reactor Buildings O)

Annulus (1)

Chapter 16.9.2 05/04/98 Table 16.9-1 Page 1 of 2

O Fire Watch Codes for Table 16.9-1 (Spray and Sprinkler Systems):

(1)

Continuous.

(2)

Hourly unicss Standby Shutdown System (SSS) is inoperable. If SSS is inoperable - continuous watch is required.

(3)

Hourly unless opposite train component is inoperable, OR sprinkler system for opposite train component is inoperable, OR Standby Shutdown System (SSS) is inoperable. If opposi'e train compe:ient, or sprinkler for

~

opposite train componer;t, or SSS is inoperable - continuous watch is required.

O oa Chapter 16.9.2 05/04/98 Table 16.9-1 Page 2 of 2

l l

l l

O 16.9 AUXILIARY SYSTEMS - FIRE PROTECTION SYSTEMS 16.9.4 FIRE HOSE STATIONS COMMITMENT:

The fire hose stations given in Table 16.9-2 shall be OPERABLE:

APPLICABILITY:

Whenever equipment in the areas protected by the fire hose stations is required l

to be OPERABLE.

l REMEDIAL ACTION:

With one or more of the fire hose stations given in Table 16.9-2 inoperable, provide gated wye (s) on the nearest OPERABLE hose station (s). One outlet of

(

the wye shall be connected to the standard length of hose provided for the hose station (s). The second outlet of the wye shall be connected to a length of hose sufficient to provide coverage to the unprotected area resulting from the inoperable hose station.

To prevent a hazard to station personnel, plant O-equipment, or the hose itself, the fire hose shall be stored in a roll at the outlet of the OPERABLE hose station. Signs shall be mounted above the gated wye (s) to identify the proper hose to use. The above REMEDIAL ACTION requirement shall be accomplished within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> if the inoperable fire hose is the primary means of fire suppression; otherwise route the additional hose within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

TESTING REQUIREMENTS:

a.

Each of the fire hose stations given in Table 16.9-2 shall be demonstrated OPERABLE:

l 1.

By a visual inspection of the fire hose stations, accessible during l

plant operations, to assure all required equipment is at the station I

and the fire hose shows no physical damage. The frequency of the inspection shall be determined by the performance based criteria stated in the Bases Section.

ii.

At least once per 18 months, by:

1) Visualinspection of the stations not accessible during plant

["

operations to assure all required equipment is at the station,

~\\

and the fire hose shows no physical damage.

CHAPTER 16.9.4 Page 1 05/04/98

n

2) Inspecting all gaskets and replacing any degraded gaskets in the couplings.

iii.

At least once per 3 years, by:

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

2) Conducting a hose hydrostatic test at a pressure of 200 psig or at least 50 psig above maximum fire main operating pressure, whichever is greater, and

3) Removing the hose from fire hose stations for inspection and reracking.

REFERENCES:

1)

Catawba FSAR, Section 9.5.1

-I) 2)

Catawba SER, Section 9.5.1 3)

Catawba SER, Supplement 3, Section 9.5.1 4)

Catawba Fire Protection Review, as revised 5)

Catawba Fire Protection Commitment Index i

BASES:

The OPERABILITY of the Fire Suppression Systems ensures that adequate fire suppression capability is available to confine and extinguish fires occurring in any portion of the facility where safety-related equipment is located.

The Fire Suppression System consists of the water system, spray, and/or sprinklers, CO,

2 and fire hose stations. The collective capability of the Fire Suppression Systems is adequate to minimize potential damage to safety-related equipment and is a major element in the facility Fire Protection Program.

The location of the required equipment at the fire hose station and the physical condition of fire hose is critical to fire brigade operations.

The option of

{

increasing or decreasing the frequency of the fire hose inspections allows the ability to optimize plant operational resources. Should an adverse trend develop with fire hose station equipment or fire hose condition, the freqncocy of the inspection shall be increased. Similarly if the fire hose station equipment or fire 7m hose condition trends are positive, the frequency of verification could be l

j decreased. Through programmed trending of fire hose station inspections, fire i

CHAPTER 16.9.4 Page 2 05/04/98

Ov hoce stations will be maintained at predetermined reliability standards. The RF/RY System Engineer is responsible for trending and determining inspection frequencies based on the following:

Initially the frequency will be monthly.

Annually review the results of the completed fire hose station inspection procedure.

If the results demonstrate that the fire hose stations are found acceptable at

-least 99% of the time, the frequency of conducting the fire hose station inspection may be decreased from - monthly to quartedy or - quarterly to semiannually or - semiannually to annually - as applicable. The frequency shall not be extended beyond annually (plus grace period).

If the results demonstrates that the fire hose stations are not found acceptable at least 99% of the time, the frequency of conducting the fire hose station inspections shall be increased from - annually to sem? annually or -

semiannually to quarterly or - quarterly to monthly - as applicable. The verification need not be conducted more often than monthly.

in the event that portionc of the Fire Suppression Systems are inoperable, pd altemate backup fire-fighting equipment is required to be made available in the affected areas until the inoperable equipment is rectored to service. When the inoperable fire-fighting equipment is intended for use as a backup means of fire suppression, a longer period of time is allowed to provide an attemate means of fire fighting then if the inoperable equipment is the primary means of fire suppression.

This Selected Licensee Commitment is part of the Catawba Fire Protection Program and therefore subject to the provisions of Section 2.C. the Catawba Facility Operating Licenses.

CHAPTER 16.9.4 Page 3 05/04/98 l

L

O TABLE 16.9-2 FIRE HOSE STATIONS LOCATION ELEVATION HOSE RACK #

1 AUXILIARY BUILDING

59. FF 522+0 1RF235 55, FF 522+0 1RF248 63-64, KK 543E0 1RF210 63, MM 543+0 1RF211 60, MM 543+0 1RF212 58, PP 543+0 1RF218 59, GG-HH 543+0 1RF236 60-61, FF-GG 543+0 1RF237 63, CC 543+0 1RF238 57, JJ 543+0 1RF242 54-55, GG 543+0 1RF249 57, FF 543+0 1RF250 52-53, GG 543+0 1RF255 51, CC 543+0 1RF256 50-51, JJ-KK 543+0 1RF262 6

53, MM 543+0 1RF268 50-51, NN 543+0 1RF271 62, MM-NN 560+0 1RF203 63, JJ-KK 560+0 1RF213 58, PP 560+0 1RF219 56, NN 560+0 1RF220 59, HH 560+0 1RF239 57, KK 560+0 1RF243 54-55, FF-GG 560+0 1RF251 51, KK 560+0 1RF263 52, MM-NN 560+0 1RF269 58, BB 554+0 1RF484 65, BB-CC 560+0 1RF485 62, AA-BB 560+0 1RF486 56, BB 554+0 1RF487 52, AA-BB 560+0 1RF488 49, BB-CC 560+0 1RF489 68-69, BB 560+0 1RF996 45 46, BB 560+0 1RF997 63, NN 577+0 1RF204 61, LL 577+0 1RF214 63, KK-LL 577+0 1RF215 58, PP 577+0 1RF221 0

59, JJ 577+0 1RF230 CHAPTER 16.9.4 05/04/98 Table 16.9-2 Page 1 of 2 I

l l

TABLE 16.9-2 FIRE HOSE STATIONS LOCATION ELEVATION HOSE RACK #

58 GG 577+0 1RF240 56, KK 577+0 1RF244 54, GG 577+0 1RF252 52-53, KK 577+0 1RF258 l

51, KK 577+0 1RF264 51-52, NN 57740 1RF272 56, PP 577+0 1RF278 68-69, BB 577+0 1RF478 65, BB-CC 577+0 1RF479 59, DD 574+0 1RF480 60, AA 574+0 1RF481 49, BB-CC 577+0 1RF490 45, BB 577+0 1RF491 55, DD 574+0 1RF492 54, AA 574+0 1RF493 63, AA 577+0 1RF993 n

51, AA 577+0 1RF998 62, NN 594+0 1RF205 57, MM 594+0 1RF222 63, JJ 594+0 1RF231 l

57, HH 594+0 1RF245 l

57, EE 594+0 1RF253 51, JJ 594+0 1RF259 53, NN 594+0 1RF275 64, BB 594+0 1RF984 50, BB 594+0 1RF985 51, KK 605+10 1RF265 63, JJ 605+10 1RF233 63-64, MM 631+6 1RF483 l

50-51, MM 631+6 1RF495 2.

FUEL POOLS 65 TT-UU 605+10 1RF208 48, TT-UU 605+10 1RF276 63-64, MM 605+10 1RF482 50-51, MM 605+10 1RF822 CHAPTER 16.9.4 05/04/98 Table 16.9-2 Page 2 of 2

O 16.9 AUXILIARY SYSTEMS - FIRE PROTECTION SYSTEMS 16.9.6 FIRE DETECTION INSTRUMENTATION l

COMMITMENT:

l As a minimum, the fire detection instrumentation for each fire detection zone l

shown in Table 16.9-3 shall be OPERABLE.

APPLICABILITY:

Whenever equipment protected by the fire detection instrument is required to be l

l OPERABLE.

l REMEDIAL ACTION:

a.

With any, but not more than one-half the totalin any fire zone, Function A fire detection instruments shown in Table 16.9-3 inoperable, restore the inoperable instrument (s) to OPERABLE status witnin 14 days or within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> establish a fire watch patrol to inspect the zone (s) with the i

inoperable instrument (s) at least once per hour, unless the instrument (s)

O is located inside the containment, then inspect that containment zone at least once per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> or monitor the containment air terrsperature at least once per hour at the locations listed in Technical Specification Surveillance 4.6.1.5.1 b.

With more than one-half of the Function A fire detection instruments in any fire zone shown in Table 16.9-3 inoperable, or with any Function B fire detection iristruments shown in Table 16.9-3 inoperable, or with any two or more adjacent fire detection instruments shown in Table 16.9-3 inoperable, within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> establish a fire watch patrol to inspect the zone (s) with the inoperable instrument (s) at least once per hour, unless the instrur ant (s) is located inside the containment, then inspect that containment zone at least once per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> or monitor the containment air temperature at least once per hour at the locations listed in Technical Specification Surveillance 4.6.1.5.1.

TESTING REQUIREMENTS a.

Each of the above required flame detection instruments shall be demonstrated operable at least once per 6 months by the performance of

)

a VISUAL INSPECTION and at lest once per year by performance of a

- TRIP ACTUATING DEVICE OPERATIONAL TEST.

l l

Chapter 16.9.6 Page 1 05/04/98 I

l l

q TESTING REQUIREMENTS (CON'T) l l

Each of the above required smoke detection instruments which are l

accessible during plant operation shall be demonstrated OPERABLE at least once per 6 months by the performance of a VISUAL INSPECTION and at least once per year by performance of a TRIP DEVICE OPERATIONAL TEST. Detectors which are not accessible during plant operation shall be demonstrated operable by the performance of a TRIP ACTUATING DEVICE OPERATIONAL TEST. during each refueling outage.

l All spot type heat detectors which are accessible during plant operation shall be VISUALLY INSPECTED at least once per 6 months.

l 1.

For non-restorable spot-type detectors, at least two detectors out of every hundred, or fraction thereof, shall be removed every 5 years and functionally tested. For each failure that occurs on the detectors removed, two additional detectors shall be removed and tested; and, i

ii.

Restorable spot-type heat detectors which are accessible during plant operation, at least one detector on each signal initiating circuit shall be demonstrated OPERABLE at least once per 12 months by performance of a TRIP ACTUATING DEVICE OPERATIONAL TEST. Different detectors shall be selected for each test.

Fire detectors which are not accessible during plant operation shall be demonstrated OPERABLE by the performance of a TRIP ACTUATING DEVICE OPERATIONAL TEST during each refueling outage.

b.

The NFPA Standard 72D supervised circuits supervision associated with the detector alarms of each of the above required fire detection instruments shall be demonstrated OPERABLE at least once per 6 months.

REFERENCES 1)

Catawba FSAR, Section 9.5.1 2)

Catawba SER, Section 9.5.1 3)

Catawba SER, Supplement 2, Section 9.5.1 4)

Catawba SER, Supplement 3, Section 9.5.1 5)

Catawba Fire Protection Review, as Revised 6)

Catawba Fire Protection Commitment index 0G Chapter 16.9.6. Page 2 05/04/98

1

[

l V

BASES:

l OPERABILITY of the detection instrumentation ensures that both adequate warning capability is available for prompt detection of fires and that Fire l

Suppression Systems, that are actuated by fire detectors, will discharge extinguishing agents in a timely manner. Prompt detection and suppression of j

fires will reduce the potential for darnage to safety-related equipment and is an l

integral element in the overall facility Fire Prctection Program.

Fire detectors that are used to actuate Fire Suppression Systems represent a more critically important component of a plant's Fire Protection Program than I

detectors that are installed solely for early fire waming and notification.

)

Consequently, the minimum number of OPERABLE fire detectors must be j

greater.

The loss of detection capability for Fire Suppression Systems, actuated by fire detectors, represents a significant degradation of fire protection for any area. As j

a result, the establishment of a fire watch patrol must be initiated at an earlier i

stage than would be warranted for the loss of detectors that provide only early

]

fire waming. The establishment of frequent fire patrols in the affected areas is j

required to provide detection capability until the inoperable instrumentation is restored to OPERABILITY.

-~

V)

EFA Zone 65 consists of 18 smoke detectors. Table 16.9-3 lists the Minimum Instruments Operable for EFA Zone 65 as 15. The basis for this difference is as

{

follows:

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

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

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

adverse impact on Post Fire Safe Shutdown even in the unlikely event of fire (v) extension into the adjacent areas.

Chapter 16.9.6 Page 3 05/04/98

l O

EFA Zones 58 and 67: Each consist of 21 smoke detectors. Table 16.9-3 lists the Minimum Instruments Operable for EFA Zones 58 and 67 as 19. The basis.

for this difference is as follows:

The smoke detectors located in the Unit.1 (Zone 58, rooms 476 and 477) and Unit 2 (Zone 67, rooms 467 and 468) Letdown Heat -

Exchanger and Moderating Heat Exchanger Rooms are not included in the Table 16.9-3 Minimum Instruments Operable because these rooms are High Rad Areas with minimal combustible loading. Entering these rooms twice a year to perform smoke detector testing is not justified. These rooms primarily consist of piping and a heat exchanger which are not significantly prone to fire damage. The Moderating Heat Exchanger Rooms are in a saf:ty related area, but contain components which do not perform a stJaty related function nor a safe shutdown function. The Letdown Heat Exchanger Rooms contain safety related components, however, they do not perform a safe shutdown function. These rooms are enclosed by two to three foot thick concrete walls with a common labyrinth entrance. The outer, common entrance has a wire mesh door, in the unlikely event that a significant fire should occur in one of these heat exchanger rooms, the smoke detectors adjacent to these rooms would provide aa alarm to the Control Room. The areas adjacent to these rooms rely on the O

same assured train of Post Fire Safe Shutdown; therefore, a fire in either of these rooms would have no adverse irnpact on Post Fire Safe Shutdown even in the unlikely event of fire extension into the adjacent areas.

EFA Zones 55 and 64: Each consist of 9 smoke detectors. Table 16.9-3 lists the Minimum Instruments Operable for EFA Zones 55 and 64 as 8. The basis for this difference is as follows:

The smoke detectors located in the Unit 1 (Zone 55, room 417) and Unit 2 (Zone 64, room 408) Fuel Pool Cooling (KF) Demineralized Rooms are not included in the Table 16.9-3 Minimum instruments Operable bemuse the KF Demineralized Rooms are High Rad Areas with minimal combustible loading.

Entering these rooms twice a year to perform smoke detector testing is not justified. These rooms primarily consist of piping and a demineralized which are not significantly prone to fire damage. These rooms are in a safety related area, but contain components which do ptt perform a safety related function ng.r a safe shutdown function. These rooms are enclosed by two and three foot thick concrete walls with a labyrinth entrance. The entrance has two doors. The outer door has a wire mesh above it and the inner door has an open grill. In the unlikely event that a significant fire should occur in one of the KF Demineralized Rooms, the smoke detectors adjacent to these rooms would provide an alarm to the Control Room. The areas adjacent to O.

the KF Demineralized Rooms rely on the same assured train of Post Fire Safe Shutdown; therefore, a fire in either of these rooms would have no adverse Chapter 16.9.6 Page 4 05/04/98 L

= -_____ _

1 l

i

- t impact 'on Post Fire Safe Shutdown even in tho unlikely event of fire extension into the r 3acent areas.

{

l This Selected Licensee Commitment is part of the Catawba Fire Protection 1

Program and therefore subject to the' provisions of Section 2.C. of the Catawba Facility Operating Licenses.

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16.9-

, AUXILIARY SYSTEMS - FIRE PROTECTION SYSTElWE 192 23 FIRE HYDRANTS 9

.C_QMMIT_M. ENT:

Fire Hydrants located at the RN Pu.np Structure (FH61 and FH62) shall be OPERABLE:

APPLICAB5LITY:

Whenever equipment in the RN Pump Structure is required to be OPERABLE.

REMEDIAL ACTION 1 With one of the subject fire hydrants inoperable, the other fire hydrant shall be verified as OPERABLE. The inoperable fire hydrant shall be tagged as such and restored to OPERABLE status in a timely manner. With both of the subject fire hydrants inoperable, within one shift establish a once per shift fire watch patrol for the RN Pump Structure.

(Of TESTING REQUIREMENTS Each of the above subject fire hydrants shall be demonstrated i

OPERABLE:

i a.

By verifying that each valve in the flow path is in the correct position. The frequency of the verification shall be determined by the performance based criteria stated in the Bases Section.

b.

At least once per 12 months by cycling each testable valve in the flow path through at least one complete cycle of full travel.

c.

At least once per 6 months by a visual inspection of the hydrants to assure the hydrants show no signs of physical damage.

d.

At least once per 6 months by performing a system flush of the RN Pump Structure fire protection hydrent piping to verify no flow blockage by ful!y opening the hydraulically most remote RN Pump Structure Hydrant.

References:

g

.1)

Catawba FSAR, Section 9.5.1 V

2)

Catawba SER, Section 9,5.1 3)

Catawba Fire Protection Review, as revised Chapter 16.9.23. Page 1 05/04/98 Li

U 4)

Catawba Fire Protection Commitment index 6)

NFPA 25 and 291 i

DASES:

The OPERABILITY of the Fire Suppression Systems ensures that adequate fire suppression capability is available to confine and extinguish fires occurring in any i

portion of the facility where safety related equipment is located.

The Fire Suppression System consists of the water system, spray and/or spriniders, CO2, and fire hose stations. The coIIective capability of the Fire Suppression Systems is adequate to minimize potential damage to safety related equipment and is a major element in the facility Fire Protection Program.

(

)

J The proper positioning of RF/RY valves is critical to delivering fire suppression j

water at the cource of the fire as quickly as possible. The option of increasing or j

decreasing the frequency of valve pasition verification allows the ability to optirnize plant operational resources. Should an adverse trend develop with l

RF/RY valve positions the frequency of verification shall be increased. Similarly, j

if the RF/RY valve position trends are positive, the frequency could be decmased. Through programmed trending of RF/RY as found valve positions, the RF/RY System will be maintained at predetermined reliability standards. The i

RF/RY System Engineer is responsible for trending and determining verification frequencies based on the following:

f initially the frequency will be monthly.

Annually review the results of the completed valve position verification procedures.

If the results demonstrate that the valves are found in the correct position at least 99% of the time, the frequency of conducting the valve position verification may be decreased from monthly to quarterly or - quarterly to semiannually or - semiannually to annually - as applicable. The frequency shall not be extended beyond annually (plus grace period).

If the results demonstrate that the valves are net found in the correct position at least 99% of the time, the frequency of conducting the valve position verification shall be increased from - annually to semiannually or -

semiannually to quarterfy or - quarterly to monthly - es applicable. The valve position verification need not be conducted more often than monthly, in the event that portions of the Fire Suppression Systems are inoperable, altemate backup fire-fighting equipment is required to be made available in the affected areas until the inoperable equipment is restores to service. When the (q

inoperable fire-fighting equipment is intended for use as a backup means of fire j

Chapter 16.9.23 Page 2 05/04/98 L

O suppression, a longer period of time is allowed to provido an attemate means for fire suppression.

l This Selected Licensee Commitment is part of the Catawba Fire Protection l

Program and therefore subject to the provisions of Section 2.C. of the Catawba Facility Operating Licenses.

9 v

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l Chapter 16.9.23 Page 3 05/04/98

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