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CNS-17-049 September 28, 2017 U.S. Nuclear Regulation Commission Document Control Desk Washington, DC 20555-0001  

Duke Energy Carolina, LLC Catawba Nuclear Station, Unit 1 and Unit 2 Docket Nos. 50-413 and 50-414 UFSAR/Selected Licensee Commitment  

'changes Tom Simril Vice President Catawba Nuclear Station Duke Energy CN01VP I 4800 Concord Road York, SC 29745 o: 803. 701.3340 f: 803.701.3221 tom.simril@duke-energy.com 10 CFR 50.71(e) Pursuant to 10 CFR 50. 71 ( e ), please find attached changes to the Catawba Nuclear Station Selected Licensee Commitments Manual. This document constitutes Chapter 16 of the Updated Final Safety Analysis Report (UFSAR). Any questions regarding this information should be directed to Sherry Andrews, Regulatory Affairs, at (803) 701-3424.

I declare under penalty of perjury that the foregoing is true and correct. Executed on September 28, 2017. Sincerely, Tom Simril, Vice President, Catawba Nuclear Station Enclosure www.duke-energy.com

. \. __ ,.. U.S. Nuclear Regulatory Commission CNS-17-049 September 28, 2017 Page 2 cc: (with enclosure)

Catherine Haney Regional Administrator U.S. Nuclear Regulatory Commission  

-Region II Marquis One Tower 245 Peachtree Center Ave., NE suite 1200 Atlanta, GA 30303-1257 Michael Mahoney NRC Project Manager (CNS) U. S. Nuclear Regulatory Commission One White Flint North, Mail Stop 0-8H4A 11555 Rockville Pike Rockville, MD 20852 Joe Austin, Senior Resident Inspector Catawba Nuclear Station Remove and Insert Replace the following page(s) of Catawba Nuclear Station Selected Licensee Commitments (SLC) Manual with the attached revised page(s). The revised page(s) are identified by Section number and contains marginal lines indicating the areas of change. REMOVE THESE PAGES Pages 1 through 5 Revision 68 16.7-9 Revision 9 16.9-1 Revision 7 16.9-2 Revision 5 16.9-3 Revision 3 16.9-4 Revision 3 16.9-5 Revision 6 16.9-6 Revision 10 16.9-23 Revision 4 LIST OF EFFECTIVE SECTIONS TAB 16.7 TAB 16.9 INSERT THESE PAGES Pages 1through5 Revision 69 16.7-9 Revision 10 16.9-1 Revision 8 16.9-2 Revision 6 16.9-3 Revision 4 16.9-4 Revision 4 16.9-5 Revision 7 16.9-6 Revision 11 16.9-23 Revision 5 16.13-1 Revision 0 16.13-4 Revision 0 TAB 16.13 16.13-1 Revision 1 16.13-4 Revision 1 LIST OF EFFECTIVE SECTIONS

* SECTION REVISION NUMBER REVISION DATE 16.7-6 3 06/10/16 16.7-7 1 08/21/09 16.7-8 2 08/21/09 16.7-9 10 08/03/17 16.7-10 7 03/28/16 16.7-11 08/21/09 16.7-12 1 08/21/09 16.7-13 3 06/10/16 16.7-14 08/21/09 16.7-15 1 08/21/09 16.7-16 0 06/08/09 16.7-17 0 02/10/15

* 16.7-18 0 05/10/16 16.8-1 6 12/10/15 16.8-2 2 02/20/12 16.8-3 1 10/24/06 16.8-4 2 11/05/07 16.8-5 3 08/21/09 16.9-1 8 08/03/17 16.9-2 6 08/03/17 16.9-3 4 08/03/17 16.9-4 4 08/03/17 16.9-5 7 08/03/17 16.9-6 11 08/03/17

* Catawba Units 1 and 2 Page 2 Revision 69 LIST OF EFFECTIVE SECTIONS SECTION REVISION NUMBER REVISION DATE

* 16.9-7 4 08/21/09 16.9-8 5 08/21/09 16.9-9 3 08/21/09 16.9-10 5 08/21/09 16.9-11 3 08/21/09 16.9-12 3 02/10/15 16.9-13 4 09/27/16 16.9-14 1 09/25/06 16.9-15 2 08/21/09 16.9-16 2 08/21 /09 16.9-17 0 10/09/02 16.9-18 0 10/09/02 16.9-19 3 02/20/12

* 16.9-20 0 10/09/02 16.9-21 1 10/13/16 16.9-22 1 08/21/09 16.9-23 5 08/03/17 16.9-24 2 10/24/06 16.9-25 2 08/21/09 16.9-26 0 03/05/12 16.10-1 1 08/21/09 16.10-2 1 10/24/06 16.10-3 08/21/09 16.11-1 1 07/27/13 Catawba Units 1 and 2 Page 3 Revision 69

* LIST OF EFFECTIVE SECTIONS

* SECTION REVISION NUMBER REVISION DATE 16.11-2 4 02/10/15 16.11-3 0 10/09/02 16.11-4 1 08/21/09 16.11-5 0 10/09/02 16.11-6 3 08/03/15 16.11-7 9 02/10/15 16.11-8 0 10/09/02 16.11-9 0 10/09/02 16.11-10 08/21/09 16.11-11 03120103 16.11-12 0 10/09/02 16.11-13 07/27/13

* 16.11-14 0 10/09/02 16.11-15 0 10/09/02 16.11-16 1 10/24/11 16.11-17 0 10/09/02 16.11-18 1 08/21/09 16.11-19 0 10/09/02 16.11-20 2 03/28/16 16.11-21 0 10/09/02 16.12-1 0 10/09/02 16.13-1 1 08/03/17 16.13-2 Deleted 16.13-3 Deleted

* Catawba Units 1 and 2 Page 4 Revision 69 SECTION 16.13-4 Catawba Units 1 and 2 LIST OF EFFECTIVE SECTIONS REVISION NUMBER Page 5 REVISION DATE 08/03/17 Revision 69 * *

* 16.7 INSTRUMENTATION 16.7-9 Standby Shutdown System (SSS) COMMITMENT The SSS shall be FUNCTIONAL.

APPLICABILITY:

MODES 1, 2, and 3. REMEDIAL ACTIONS SSS 16.7-9 --------------------------------------------------------NOTE--------------------------------------------------------

CONDITION REQUIRED ACTION COMPLETION TIME A. SSS non-functional.

A.1 Restore SSS to 7 days FUNCTIONAL status. B. Total accumulative B.1 Declare the standby Immediately LEAKAGE from makeup pump non-unidentified LEAKAGE, functional and enter identified LEAKAGE, Condition A. and reactor coolant pump seal LEAKAGE > 20 gpm. c. More than one cell in a C.1 Enter Condition A. Immediately 24-Volt battery bank is< 1.36 volts on float charge with no other cells jumpered.

D. Required Action and D.1 Be in MODE 3. 6 hours associated Completion Time of Condition A not AND met. D.2 Be in MODE 4. 12 hours Catawba Units 1 and 2 16.7-9-1 Revision 10 * * *

* TESTING REQUIREMENTS TEST TR 16.7-9-1 Verify that the electrolyte level of each SSS diesel starting 24-Volt battery is,'.:'..

the low mark and :::, the high mark. TR 16.7-9-2 Verify that the overall SSS diesel starting 24-Volt battery voltage is,'.:'..

24 volts on float charge. TR 16.7-9-3 Verify that the requirements of SLC 16.9-21 are met and the boron concentration in the storage pool is .'.:'..the minimum specified in the COLR. TR 16.7-9-4 Verify the fuel level in the SSS diesel generator fuel storage tank is 67 inches. TR 16.7-9-5 Verify the SSS diesel generator starts from ambient conditions and operates for,'.:'..

30 minutes at,'.:'..

700 kW .

* TR 16.7-9-6 Verify that the electrolyte level of each SSS 250/125-Volt battery is above the plates. TR 16.7-9-7 Verify the total SSS 250/125-Volt battery terminal voltage 258/129 volts on float charge. TR 16.7-9-8 Perform CHANNEL CHECK of each SSS instrumentation device. TR 16.7-9-9 Verify the fuel oil properties of new and stored fuel oil for the SSS diesel generator are tested in accordance with, and maintained within the limits of, the Diesel Fuel Oil Testing Program. TR 16.7-9-10 Verify that the SSS diesel starting 24-Volt battery individual cell voltage 1.36 volts on float charge.

* Catawba Units 1 and 2 16.7-9-2 SSS 16.7-9 FREQUENCY 7 days 7 days 7 days 31 days 31 days 31 days 31 days 31 days In accordance with the Diesel Fuel Oil Testing Program 92 days (continued)

TEST TR 16.7-9-11 Verify that the Standby Makeup Pump's developed head at the test flow point is::'.'._

the required developed head, in accordance with the lnservice Testing Program. TR 16.7-9-12 Verify that the specific gravity of the SSS 250/125-Volt battery is appropriate for continued service of the battery. TR 16.7-9-13 Subject the SSS diesel generator to an inspection in accordance with procedures prepared in conjunction with its manufacturer's recommendations for the class of service. TR 16.7-9-14 Verify that the SSS diesel starting 24-Volt batteries, cell plates, and battery racks show no visual indication of physical damage or abnormal deterioration.

TR 16.7-9-15 Verify that the SSS diesel starting 24-Volt battery-to-battery and terminal connections are clean, tight, and free of corrosion.

TR 16.7-9-16 Verify that the SSS 250/125-Volt batteries, cell plates, and battery racks show no visual indications of physical damage or abnormal deterioration.

TR 16.7-9-17 Verify that the SSS 250/125-Volt battery-to-battery and terminal connections are clean, tight, free of corrosion, and coated with anti-corrosion material.

TR 16.7-9-18 Verify that the steam turbine driven auxiliary feedwater pump and controls from the Standby Shutdown Facility function as designed from the SSS. TR 16.7-9-19 Perform CHANNEL CALIBRATION of each SSS instrumentation device. Catawba Units 1 and 2 16.7-9-3 L SSS 16.7-9 FREQUENCY 92 days 92 days 18 months 18 months 18 months 18 months 18 months 18 months 18 months (continued)

TEST FREQUENCY TR 16. 7-9-20 Verify proper installation of pressurizer insulation.

18 months TR 16.7-9-21 Verify pressurizer heaters powered from the SSS have a 18 months capacity of.'.:'..

65 kW measured at motor control center SMXG. TR 16.7-9-22 Verify flowpath from the reactor vessel head through the 18 months BASES valves powered from the SSS is unobstructed.

The SSS is designed to mitigate the consequences of certain postulated fire, security, and station blackout incidents by providing capability to maintain MODE 3 conditions and by controlling and monitoring vital systems from locations external to the main control room. This capability is consistent with the requirements of 10 CFR Part 50.48(c).

The TESTING REQUIREMENTS ensure that the SSS systems and components are capable of performing their intended functions.

The required level in the SSS diesel generator fuel storage tank ensures sufficient fuel for 72 hours uninterrupted operation.

It is assumed that, within 72 hours, either offsite power can be restored or additional fuel can be added to the storage tank. Although the standby makeup pump is not nuclear safety related and was not designed according to ASME Code requirements, it is tested quarterly to ensure its FUNCTIONALITY.

The TESTING REQUIREMENT concerning the standby makeup pump water supply ensures that an adequate water volume is available to supply the pump continuously for 72 hours. Total accumulative LEAKAGE is calculated in the NC System Leakage Calculation procedure as identified  

+ unidentified  

+ seal leakoff (References 2 and 3). The REMEDIAL ACTION limit of 20 gpm total accumulative LEAKAGE provides additional margin to allow for instrument inaccuracy, and for the predicted increase in seal leakoff rate due to heatup of the reactor coolant pump seal injection water supply temperature following the SSS event (due to spent fuel pool heatup). Following the increase in seal injection temperature, the standby makeup pump flow of 26 gpm is sufficient to provide in excess of this total accumulative LEAKAGE, thereby assuring that reactor coolant system inventory is maintained at MODE 3 conditions.

The supporting evaluation Catawba Units 1 and 2 16.7-9-4 Revision 10 BASES (continued) is provided in CNC-1223.04-00-0072 (Ref. 4). SSS 16.7-9 A visual inspection of the diesel starting 24-volt batteries, cell plates, and battery racks provides an indication of physical damage or abnormal deterioration that could potentially degrade battery performance.

Since the battery cell jars are not transparent, a direct visual inspection of the cell plates cannot be performed.

Instead, the cell plates are inspected for physical damage and abnormal deterioration by: 1) visually inspecting the jar sides of each cell for excessive bowing and/or deformation, and 2) visually inspecting the electrolyte of each cell for abnormal appearance.

* Verifying individual cell voltage while on float charge for the SSS diesel starting 24-Volt batteries ensures that each cell is capable of supporting its intended function.

Float charge is the condition in which the charger is supplying the continuous charge required to overcome the internal losses of a battery (or battery cell) and maintain the battery (or battery cell) in a fully charged state. The battery cell voltage limit of 1.36 volts is consistent with the nominal design voltage of the battery and is based on the manufacturer's recommended minimum float charge voltage for a fully charged cell with adequate capacity.

The battery is designed and sized with a capacity margin sufficient to allow up to one cell per battery bank to be fully degraded with a voltage < 1.36 volts assuming that no cells are jumpered out. The battery sizing calculations account for one degraded cell per battery bank by assuming the degraded cells undergo a worst case polarity reversal during SSS diesel starting.

* Verification of proper installation of pressurizer insulation ensures that pressurizer heat losses during an SSS event do not exceed the capacity of the pressurizer heaters powered from the SSS. Testing of the pressurizer heater capacity ensures the full capacity of the heaters is available to maintain a steam bubble in the pressurizer during an SSS event. The acceptance criterion includes an allowance for the voltage drop in the power cables between the SSS and the pressurizer.

Testing of the flowpath from the reactor vessel head to the pressurizer relief tank ensures sufficient flow capacity for reactor coolant inventory control during an SSS event. Catawba Units 1 and 2 16.7-9-5 Revision 10 * 

: 1. 2. 3. 4. 5. 6. 7. 8. 9 . 10. SSS 16.7-9 Letter from NRC to Gary R. Peterson, Duke, Issuance of Improved Technical Specifications Amendments for Catawba, September 30, 1998. PT/1 (2)/A/4150/001 D, NC System Leakage Calculation.

PT/1 (2)/A/4150/0011, Manual NC Leakage Calculation.

CNC-1223.04-00-0072, Reactor Coolant Pumps No. 1 Seal Leakoff Annunciator Alarm Setpoint for Unit 1 and Unit 2. CNS-1560.SS-00-0001, Design Basis Specification for the Standby Shutdown Facility.

Catawba Technical Specification Amendments 206/200, July 10, 2003. Catawba UFSAR, Section 18.2.4. Catawba License Renewal Commitments, CNS-127 4.00-00-0016, Section 4.5. CNC-1223.03-00-0033, Determination of Pressurizer Heater Capacity Powered from the SSF Diesel. Catawba Nuclear Station 10 CFR 50.48(c) Fire Protection Safety Evaluation (SE). 11. 10 CFR 50.48(c), Fire Protection . Catawba Units 1 and 2 16.7-9-6 Revision 10 Fire Suppression Water System 16.9-1 16.9 AUXILIARY SYSTEMS 16.9-1 Fire Suppression Water System COMMITMENT APPLICABILITY:

The Fire Suppression Water System shall be FUNCTIONAL with: a. At least two fire suppression pumps, each with a capacity of 2500 gpm, with their discharge aligned to the fire suppression header, and b. A FUNCTIONAL flow path capable of taking suction from Lake Wylie and transferring the water through distribution piping with FUNCTIONAL sectionalizing valves and isolation valves for each sprinkler system, hose standpipe, or fire hydrant required to be FUNCTIONAL per SLCs 16.9-2, 16.9-4, and 16.9-23. At all times. Catawba Units 1 and 2 16.9-1-1 Revision 8 * * *

* REMEDIAL ACTIONS CONDITION A. One required pump and/or associated water supply non-functional.

B. Automatic starting function for all required pumps non-functional.

D. Fire Suppression Water System non-functional for reasons other than Condition A. B, or C .

* Catawba Units 1 and 2 A.1 OR A.2 B.1 AND B.2 C.1 AND C.2 D.1 Fire Suppression Water System 16.9-1 REQUIRED ACTION COMPLETION TIME Restore non-functional 7 days equipment to FUNCTIONAL status. Provide alternate backup 7 days pump or supply. Place at least one pump in Immediately continuous operation.

Restore non-functional 7 days equipment to FUNCTIONAL status. Evaluate impact on 24 hours downstream fire suppression features (sprinkler system, hose standpipe, or fire hydrant) and enter SLCs 16.9-2, 16.9-4, and 16.9-23 as necessary.

Implement necessary 24 hours administrative controls to ensure a FUNCTIONAL flow path is maintained.

Establish backup Fire 24 hours Suppression Water System. 16.9-1-2 Revision 8 Fire Suppression Water System 16.9-1 TESTING REQUIREMENTS TEST FREQUENCY TR 16.9-1-1 Start each electric motor-driven pump and operate it for 20 days on a 15 minutes on recirculation flow. STAGGERED TEST BASIS TR 16.9-1-2 Verify that each manual, power operated, or automatic In accordance with valve in the flow path, which is accessible during plant performance operation, is in the correct position.

based criteria in BASES TR 16.9-1-3 Perform a system flush of the outside distribution loop 6 months and verify no flow blockage by fully opening the hydraulically most remote hydrant. TR 16.9-1-4 ---------------------------------NOTE---------------------------------

Not applicable to valves RF389B, RF447B, and RF4578. ---------------------------------------------------------------------------

Cycle each testable valve in the flow path through at 12 months least one complete cycle of full travel. TR 16.9-1-5 Verify that each manual, power operated, or automatic 18 months valve in the flow path, which is inaccessible during plant operation, is in the correct position.

TR 16.9-1-6 Perform a system functional test, including simulated 18 months automatic actuation of the system throughout its operating sequence, and: a. Verify that each fire suppression pump starts within 10 psig of its intended starting pressure (A pump, primary switch -95 psig; B pump, primary switch -90 psig; and C pump, primary switch -85 psig); and b. Verify that each pump develops :'.'._ 2500 gpm at a net pressure :'.'.. 144 psig by testing at three points on the pump performance curve. (continued)

Catawba Units 1 and 2 16.9-1-3 Revision 8 * * * 

* Fire Suppression Water System 16.9-1 TESTING REQUIREMENTS (continued)

TEST FREQUENCY TR 16.9-1-7 Cycle each valve in the flow path which is not testable 18 months during plant operation through at least one complete cycle of full travel. TR 16.9-1-8 Perform a system flow test in accordance with Chapter 8, 3 years Section 16 of the National Fire Protection Association BASES Fire Protection Handbook, 15th Edition. The FUNCTIONALITY 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 supply/distribution system, sprinkler systems, fire hose stations, fire hydrants, and C0 2 systems. 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 intent of COMMITMENT

: b. is to ensure a FUNCTIONAL flow path from the water source (in this case Lake Wylie), through FUNCTIONAL pumps as required in COMMITMENT a., and through the main header distribution piping -up to and including the branch lines for each sprinkler system, hose standpipe, or fire hydrant required to be FUNCTIONAL per SLCs 16.9-2, 16.9-4, and 16.9-23. When a sectionalizing valve or an isolation valve becomes non-functional, then the fire suppression features (sprinkler system, hose standpipe, or fire hydrant) affected must be evaluated and the applicable SLCs entered (16.9-2, 16.9-4, and 16.9-23).

The intent of TR 16.9-1-4 and TR 16.9-1-7 is to ensure the sectionalizing valve (main header valve used to isolate sections of the header) or isolation valve (branch line valve used to isolate specific fire suppression features (sprinkler system, hose standpipe, or fire hydrant))

is operating properly and can be used to achieve isolation when called upon. If a sectionalizing or isolation valve cannot be cycled but is in the correct position ensuring a FUNCTIONAL flow path (fully open) as required by COMMITMENT b., then the associated feature (sprinkler system, hose standpipe, or fire hydrant) can be considered FUNCTIONAL.

If a sectionalizing or isolation valve cannot be cycled and is in the incorrect Catawba Units 1 and 2 16.9-1-4 Revision 8 BASES (continued)

Fire Suppression Water System 16.9-1 position, or its position cannot be determined, thereby not ensuring a FUNCTIONAL flow path (not fully open) as required by COMMITMENT b., then the affected fire suppression feature (sprinkler system, hose standpipe, or fire hydrant) must be evaluated and the applicable SLCs entered (16.9-2, 16.9-4, and 16.9-23).

If a sectionalizing valve in a loop header (i.e., flow path from two directions) cannot be cycled and it cannot be verified as fully open, then administrative controls may need to be implemented to ensure the available flow path is not isolated.

The ability to demonstrate that the valves in the RF/RY flow path can be cycled is critical to maintaining the system properly.

The containment isolation valves (RF389B and RF447B) and the annulus sprinkler system isolation valve (RF457B) are required to be cycled or stroked in accordance with the Catawba lnservice Testing Program. Therefore, credit can be taken for cycling these valves under the IWV program, and they do not need to be cycled annually to meet the SLC criteria.

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.

Initially the frequency shall 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 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 Catawba Units 1 and 2 16.9-1-5 Revision 8 * ** * 

* Fire Suppression Water System 16.9-1 applicable.

The valve position verification need not be conducted more often than monthly. BASES (continued)

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

In the event the Fire Suppression Water System becomes non-functional, immediate corrective measures must be taken since this system provides the major fire suppression capability of the plant. Since the requirement for fire suppression pump automatic starting functions is intended to provide a high level of system standby readiness, loss of a primary pressure switch renders its associated main fire pump non-functional.

If the primary pressure switch for one of the two required pumps is non-functional, its associated pump is non-functional if not placed in continuous operation and Condition A applies. If both primary pressure switches for the required pumps are non-functional, it is acceptable to place at least one of the two required pumps in continuous operation and restore FUNCTIONALITY within 7 days, which is essentially meeting the requirements of Condition A (one of the two required pumps non-functional).

This SLC is part of the Catawba Fire Protection Program and therefore subject to the provisions of the Catawba Renewed Facility Operating License Conditions 2.C.(5). 1. Catawba UFSAR, Section 9.5.1. 2. Catawba Nuclear Station 10 CFR 50.48(c) Fire Protection Safety Evaluation (SE). 3. Catawba Plant Design Basis Specification for Fire Protection, CNS-1465.00-00-0006, as revised. 4. Catawba UFSAR, Section 18.2.8. 5. Catawba License Renewal Commitments, CNS-1274.00 0016, Section 4.12.1. 6. Catawba Renewed Facility Operating License Conditions 2.C.(5) . Catawba Units 1 and 2 16.9-1-6 Revision 8 16.9 AUXILIARY SYSTEMS 16.9-2 Sprinkler and Spray Systems Sprinkler and Spray Systems 16.9-2 COMMITMENT Sprinkler and Spray Systems in Table 16.9-2-1 shall be FUNCTIONAL.

APPLICABILITY:

At all times, unless equipment protected by the spray or sprinkler system is out of service .. REMEDIAL ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One or more HSS* A.1.1 Verify backup fire 1 hour required Sprinkler or suppression equipment is Spray Systems non-available functional.

AND A.1.2 Establish a continuous fire 1 hour watch. OR A.2.1 Verify backup fire 1 hour suppression equipment is available.

AND A.2.2 Verify affected area has 1 hour FUNCTIONAL fire detection instrumentation.

AND A.2.3 Establish hourly fire watch. 1 hour OR A.3 Complete an evaluation as Prior to terminating permitted by NRC RIS Required Action A.1 2005-07 to implement or A.2. Required Action(s). (continued)

Catawba Units 1 and 2 16.9-2-1 Revision 6 * * * 

* Sprinkler and Spray Systems 16.9-2 REMEDIAL ACTIONS (continued)

B. CONDITION One or more LSS** required Sprinkler or Spray Systems non-function a I. Catawba Units 1 and 2 REQUIRED ACTION 8.1.1 Verify backup fire suppression equipment is available.

8.1.2 Establish hourly fire watch. COMPLETION TIME I 1 hour 1 hour 8.2.1 Verify backup fire 1 hour suppression equipment is available.

Al-JD 8.2.2 Verify affected area has 1 hour FUNCTIONAL fire detection instrumentation . AND 8.2.3 Establish a once per 1 hour shift fire watch. OR 8.3 Complete an evaluation Prior to terminating as permitted by NRC Required Action B.1 RIS 2005-07 to or 8.2. implement Required Action(s). (continued)

I 16.9-2-2 Revision 6 l REMEDIAL ACTIONS (continued)

Sprinkler and Spray Systems 16.9-2 I CONDITION REQUIRED ACTION COMPLETION

: c. One or more DID*** required Sprinkler or Spray Systems non-functional.

C.1.1 Verify backup fire suppression equipment is available.

C.1.2 Establish a once per shift fire watch. OR C.2 Complete an evaluation as permitted by NRC RIS 2005-07 to implement Required Action(s).

Table 16.9-2-1 denotes the Risk Criteria (HSS/LSS/DID) 1 hour 1 hour Prior to terminating Required Action C.1 *High Safety Significant (HSS) is defined by the Catawba NFPA 805 Monitoring Program. **Low Safety Significant (LSS) is defined as those sprinkler or spray systems required by Risk as part of the Catawba NFPA 805 fire protection program. ***Defense-in-Depth (DID) is defined as those sprinkler or spray systems required by engineering evaluation or previous licensing approval as part of the Catawba NFPA 805 fire protection program; or systems protecting equipment important to safety added to the fire protection program as 'best practice'.

Catawba Units 1 and 2 16.9-2-3 Revision 6 * * * 

* TESTING REQUIREMENTS TEST Sprinkler and Spray Systems 16.9-2 FREQUENCY TR 16.9-2-1 Verify that each manual, power operated, or automatic In accordance valve in the flow path, which is accessible during plant performance operation, is in the correct position.

based criteria in BASES TR 16.9-2-2 -----------

------------------

----N 0 TE---------------------------------

Not applicable to valves RF389B, RF447B, and RF457B. ---------------------------------------------------------------------------

Cycle each testable valve in the flow path through at 12 months least one complete cycle of full travel. TR 16.9-2-3 Verify that each manual, power operated, or automatic 18 months I valve in the flow path, which is inaccessible during plant operation, is in the correct position.

TR 16.9-2-4 For Sprinkler Systems, perform a system functional test 18 months I by performing an inspector's test connection flow test. TR 16.9-2-5 Cycle each valve in the flow path which is not testable 18 months during plant operation through at least one complete cycle of full travel. TR 16.9-2-6 Visually inspect each Sprinkler and Spray System 18 months I starting at the system isolation valve to verify the system's integrity.

TR 16.9-2-7 Visually inspect each nozzle's spray area to verify the 18 months spray pattern is not obstructed.

TR 16.9-2-8 For Spray Systems, perform a visual inspection and 18 months functional test of at least two detectors on each circuit, selecting different detectors each time so that all detectors are inspected/tested within 5 years. (continued)

Catawba Units 1 and 2 16.9-2-4 Revision 6 I Sprinkler and Spray Systems 16.9-2 TESTING REQUIREMENTS (continued)

TEST TR 16.9-2-9 For Spray Systems, perform a system functional test by verifying automatic valves in the flow path actuate to their correct position on a simulated actuation signal. Catawba Units 1 and 2 16.9-2-5 FREQUENCY 18 months Revision 6 * *

* Sprinkler and Spray Systems 16.9-2

* Table 16.9-2-1 (page 1 of 2) Sprinkler/Spray Systems ELEVATION/ROOM BUILDING/EQUIPMENT SAFETY SIGNIFICANCE NUMBER a. Elevation 522+0 Auxiliary Building 100 I 101 , 106 o 111 , ND & NS connecting corridor DID 112 Serinkler Sl'.stem 104 ND pump 1 B Sprinkler DID S stem 105 ND pump 1A Sprinkler DID S stem 109 ND pump 2B Sprinkler DID S stem 110 ND pump 2A Sprinkler DID S stem I b. Elevation 543+0 Building 230 NV pump 1A Sprinkler DID S stem

* 231 NV pump 1B Sprinkler DID S stem 240 NV pump 2A Sprinkler DID S stem 241 NV pump 2B Sprinkler DID S stem 250 Unit 1 CA pump room DID Serinkler S:tstem 260 Unit 2 CA pump room DID Serinkler S:z'.slem

: c. Elevation 554+0 Building 340 Unit 2 battery room corridor DID Sprinkler System DD-EE 350 Unit 1 battery room corridor DID Sprinkler System (DD-EE) (continued)

* Catawba Units 1 and 2 16.9-2-6 Revision 6 Sprinkler and Spray Systems 16.9-2 Table 16.9-2.1 (page 2 of 2)

* Sprinkler/Spray Systems ELEVATION/ROOM BUILDING/EQUIPMENT SAFETY SIGNIFICANCE NUMBER d. Elevation 560+0 Auxiliarl'.

Building 300 KC pumps 1A1, 1A2 LSS Serinkler S:tstem 300 KC pumps 181, 1 B2 LSS S12rinkler S:tstem e. Elevation 57 4+0 Auxilia!)'.

* BASES Sprinkler and Spray Systems 16.9-2 The FUNCTIONALITY 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 supply/distribution system, sprinkler and spray systems, fire hose stations, fire hydrants, and C0 2 systems. 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 ability to demonstrate that the valves in the RF/RY flow path can be cycled is critical to maintaining the system properly.

The containment isolation valves (RF389B and RF4478) and the annulus sprinkler system isolation valve (RF4578) are required to be cycled or stroked in accordance with the Catawba lnservice Testing Program. Therefore, credit can be taken for cycling these valves under the IWV program, and they do not need to be cycled annually to meet the SLC criteria.

The intent of TR 16.9-2-2 and TR 16.9-2-5 is to ensure the sectionalizing valve (main header valve used to isolate sections of the header) or isolation valve (branch line valve used to isolate specific fire suppression features (sprinkler or spray system, hose standpipe, or fire hydrant))

is operating properly and can be used to achieve isolation when called upon. If a sectionalizing or isolation valve cannot be cycled but is in the correct position ensuring a FUNCTIONAL flow path (fully open) as required by COMMITMENT 16.9-1b., then the associated feature (sprinkler or spray system, hose standpipe, or fire hydrant) can be considered FUNCTIONAL.

If a sectionalizing or isolation valve cannot be cycled and is in the incorrect position, or its position cannot be determined, thereby not ensuring a FUNCTIONAL flow path (not fully open) as required by COMMITMENT 16.9-1 b., then the affected fire suppression feature (sprinkler or spray system, hose standpipe, or fire hydrant) must be evaluated and the applicable SLCs entered (16.9-2, 16.9-4, and 16.9-23).

If a sectionalizing valve in a loop header (i.e., flow path from two directions) cannot be cycled and it cannot be verified as fully open, then administrative controls may need to be implemented to ensure the available flow path is not isolated.

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.

Catawba Units 1 and 2 16.9-2-8 Revision 6 BASES (continued)

Sprinkler and Spray Systems 16.9-2 Initially the frequency shall 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 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 than monthly.

* In the event that portions of the Fire Suppression Systems are functional, alternate backup fire fighting equipmer:it is required to be made available in the affected areas until the non-functional equipment is restored to service. When the non-functional fire fighting equipment is intended for use as a backup means of fire suppression, a longer period

When a required Sprinkler or spray System is non-functional, the REMEDIAL ACTION is to establish an appropriate fire watch, and verify or establish backup fire suppression in the affected area. The REMEDIAL ACTION allows for the use of either a nearby fire hose station or a fire extinguisher as an acceptable means of backup fire suppression.

Typically, the preferred choice is to credit a nearby fire hose station as the backup means of suppression.

In most cases, nearby fire hose stations exist in the areas affected by a non-functional Sprinkler or spray System. However, in some instances there are areas that do not contain any fire hose stations, such as the Annulus. In the case of the Annulus Sprinkler System, credit is taken for the portable fire extinguishers near the upper and lower Annulus access doors as the backup means of suppression.

This SLC is part of the Catawba Fire Protection Program and therefore subject to the provisions of Section 2.C. of the Catawba Renewed Facility Operation License Condition 2.C.(5). Catawba Units 1 and 2 16.9-2-9 Revision 6  

* Catawba Units 1 and 2 1. Catawba UFSAR, Section 9.5.1. Sprinkler and Spray Systems 16.9-2 2. Catawba Nuclear Station 10 CFR 50.48(c) Fire Protection Safety Evaluation (SE). 3. Catawba Plant Design Basis Specification for Fire Protection, CNS-1465.00-00-0006, as revised. 4. Catawba UFSAR, Section 18.2.8. 5. Catawba License Renewal Commitments, CNS-127 4.00-00-0016, Section 4.12.1. 6. Catawba Renewed Facility Operating License Conditions 2.C.(5). 7. RIS 2005-07, Compensatory Measures to Satisfy the Fire Protection Program Requirements . 16.9-2-10 Revision 6 C02 Systems 16.9-3 16.9 AUXILIARY SYSTEMS 16.9-3 C0 2 Systems COMMITMENT APPLICABILITY:

The following High Pressure and Low Pressure C0 2 Systems shall be FUNCTIONAL:

: a. Low Pressure C0 2 System -b. Diesel Generator Building 1A Diesel Generator Building 1 B Diesel Generator Building 2A Diesel Generator Building 2B High Pressure C0 2 System -Description U1 Turbine Driven CA Pump Pit 1A Motor Driven CA Pump Pit 1 B Motor Driven CA Pump Pit U2 Turbine Driven CA Pump Pit 2A Motor Driven CA Pump Pit 2B Motor Driven CA Pump Pit Associated Fire Detection Instrument (EFA) Zone 9 9 9 19 19 19 Whenever equipment protected by the systems is required to be OPERABLE.  

--------------------------------------------------------NOTE--------------------------------------------------------

Non-functional or breached fire barrier features (walls, floors, ceilings, doors, dampers, and penetration seals) affect C0 2 System FUNCTIONALITY, since openings affect the ability to achieve and maintain C0 2 concentrations within the room. Catawba Units 1 and 2 16.9-3-1 Revision 4 * * *

* REMEDIAL ACTIONS CONDITION A. One or more Low Pressure C0 2 Systems non-functional.

* B. One or more High Pressure C0 2 Systems non-functional.

* Catawba Units 1 and 2 REQUIRED ACTION A.1.1 Verify backup fire suppression equipment is available.

AND A.1.2 Establish continuous fire watch. OR A.2.1 Verify backup fire suppression equipment is available.

AND A.2.2 Verify fire barrier between Train A and Train B diesel generator rooms is FUNCTIONAL.

AND A.2.3 Establish hourly fire watch. OR A.3 Complete an evaluation as permitted by NRC RIS 2005-07 to implement Required Action(s)

B.1.1 Verify backup fire suppression equipment is available.

AND B.1.2 Establish a continuous fire watch. OR 16.9-3-2 C0 2 Systems 16.9-3 COMPLETION TIME 1 hour 1 hour 1 hour 1 hour 1 hour Prior to terminating Required Action A.1 or A.2 1 hour 1 hour (continued)

Revision 4 C0 2 Systems 16.9-3

* REMEDIAL ACTIONS (continued CONDITION REQUIRED ACTION COMPLETION TIME B. (continued)

B.2.1 Verify backup fire 1 hour suppression equipment is available.

AND B.2.2 Verify affected area has 1 hour FUNCTIONAL fire detection instrumentation.

AND B.2.3 Establish hourly fire watch. 1 hour OR B.3 Complete an evaluation as Prior to terminating permitted by NRC RIS Required Action B.1 2005-07 to implement or B.2

Catawba Units 1 and 2 16.9-3-3 Revision 4 * 

* Testing Requirements TEST TR 16.9-3-1 Verify that each manual, power operated, or automatic valve in the flow path is in the correct position.

TR 16.9-3-2 Verify that the Low Pressure C0 2 System storage tank level is> 44% of full capacity.

TR 16.9-3-3 Verify that the weight of each High Pressure C0 2 System storage cylinder is 2: 90% full charge weight. TR 16.9-3-4 Perform a visual inspection of all spot type heat detectors in each initiating device circuit. TR 16 .9-3-5 ---------------------------------NOTE---------------------------------

A different detector shall be selected for each test. Simulate system actuation by applying a heat source to one restorable spot type heat detector in each initiating device circuit. C0 2 Systems 16.9-3 FREQUENCY In accordance with performance based criteria in BASES 31 days 6 months 6 months 6 months TR 16.9-3-6 Verify that the supervisory function of the alarm circuits 6 months operates properly and provides correct alarm response for each initiating device circuit. TR 16.9-3-7 Verify each Low Pressure C0 2 System actuates 18 months manually and automatically, upon receipt of a simulated actuation signal. TR 16.9-3-8 Verify that the Low Pressure C0 2 System normal and 18 months emergency ventilation system fans receive an "off' signal upon system operation. (continued)

Catawba Units 1 and 2 16.9-3-4 Revision 4 C0 2 Systems 16.9-3 TESTING REQUIREMENTS (continued)

TEST FREQUENCY TR 16.9-3-9 Perform a visual inspection of the Low Pressure C0 2 System discharge nozzles to assure no blockage.

18 months TR 16.9-3-10 Verify each High Pressure C0 2 System actuates manually and automatically, upon receipt of a simulated actuation signal. 18 months TR 16.9-3-11 Verify that damper closure devices receive an actuation signal upon High Pressure C0 2 System operation.

18 months TR 16.9-3-12 Perform a visual inspection of the High Pressure C0 2 System discharge nozzles to assure no blockage.

18 months TR 16.9-3-13 Deleted. BASES The FUNCTIONALITY 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 supply/distribution system, sprinkler systems, fire hose stations, fire hydrants, and C0 2 systems. 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 C0 2 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 C0 2 Systems valve positions, the frequency of verification shall be increased.

Similarly, if the C0 2 Systems valve position trends are positive, the frequency of verification could be decreased.

Through programmed trending of C02 Systems as found valve positions, the C0 2 fire protection systems will be maintained at predetermined reliability standards.

The Fire Protection Engineer is responsible for trending and determining verification frequencies based on the following:

Catawba Units 1 and 2 16.9-3-5 Revision 4 * * * 

Initially the frequency shall be monthly. C0 2 Systems 16.9-3 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 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 than monthly. The main bank (9 cylinders) or the reserve bank (9 cylinders) provides a sufficient quantity of C0 2 to totally flood any of the three auxiliary feedwater pump pits with the required design concentration.

Therefore, the High Pressure C0 2 System is FUNCTIONAL with the system aligned to either the main or the reserve bank of cylinders.

The system is aligned to the main or reserve bank of cylinders by means of a local manual toggle switch. In the event that portions of the Fire Suppression Systems are functional, alternate backup fire fighting equipment is required to be made available in the affected areas until the non-functional equipment is restored to service. When the non-functional fire fighting equipment is intended for use as a backup means of fire suppression, a longer period of time is allowed to provide an alternate means of fire fighting than if the non-functional equipment is the primary means of fire suppression.

When a required C02 System is non-functional, the REMEDIAL ACTION is to establish an appropriate fire watch, and verify or establish backup fire suppression in the affected area. The REMEDIAL ACTION allows for the use of either a nearby fire hose station or fire extinguishers as an acceptable means of backup fire suppression.

Typically, the preferred choice is to credit a nearby fire hose station as the backup means of suppression.

In most cases, nearby fire hose stations exist in the areas affected by a non-functional C02 System. The Associated Fire Detection Instrument (EFA) Zone is for area detection associated with Required Actions for Condition B, the high pressure C02 systems. The diesel generator rooms which are protected by low Catawba Units 1 and 2 16.9-3-6 Revision 4 REFERENCES C0 2 Systems 16.9-3 pressure C02 systems do not have area detection or a Required Action dependent on EFA detection.

This SLC is part of the Catawba Fire Protection Program and therefore subject to the provisions of the Catawba Renewed Facility Operating License Conditions 2.C.(5). 1. Catawba UFSAR, Section 9.5.1. 2. Catawba Nuclear Station 1 OCFR50.48(c)

Fire Protection Safety Evaluation (SE). 3. Catawba Plant Design Basis Specification for Fire Protection, CNS-1465.00-00-0006, as revised. 4. Catawba Renewed Facility Operating License Condition 2.C.(5). 5. RIS 2005-07, Compensatory Measures to Satisfy the Fire Protection Program Requirements.

Catawba Units 1 and 2 16.9-3-7 Revision 4 * *

* 16.9 AUXILIARY SYSTEMS 16.9-4 Fire Hose Stations Fire Hose Stations 16.9-4 COMMITMENT The Fire Hose Stations shown in Table 16.9-4-1 shall be FUNCTIONAL.

APPLICABILITY:

At all times. REMEDIAL ACTIONS -------------------------------------------------------NOTES-------------------------------------------------------

: 1. To prevent a hazard to station personnel, plant equipment.

or the hose itself, the fire hose can be stored in a roll at the outlet of the FUNCTIONAL Fire Hose Station or Fire Hydrant. 2. Credit can be taken for additional hose in yard hose equipment houses for providing equivalent capacity hose length to reach unprotected area when crediting a Fire Hydrant. A. CONDITION One or more Fire Hose Stations non-functional due to system alignments associated with lnservice Valve Testing for RF389B. Catawba Units 1 and 2 REQUIRED ACTION -------------------NOTE------------------

Signage shall be placed at the non-functional Fire Hose Station to identify the proper FUNCTIONAL Fire Hose Station or Fire Hydrant to use. A.1 Stage personnel at the appropriate locations to establish a Fire Hose Station flow path in the event of a Fire Brigade response.

16.9-4-1 COMPLETION TIME 1 hour (continued)

Revision 4 * * *

B. One or more Fire Hose Stations non-functional

* for reasons other than Condition A

* Catawba Units 1 and 2 REQUIRED ACTION A.2 Provide additional equivalent capacity fire hose of length to reach unprotected area at nearest FUNCTIONAL Fire Hose Station(s) or Fire Hydrant(s).  

---------------N 0 TE----------------------

Signage shall be placed at the non-functional Fire Hose Station to identify the proper FUNCTIONAL Fire Hose Station or Fire Hydrant to use. ---------------------------------------------

8.1 Provide additional equivalent capacity fire hose of length to reach unprotected area at nearest FUNCTIONAL Fire Hose Station(s) or Fire Hydrant(s).

OR B.2 Complete an evaluation as permitted by NRC RIS 2005-07 and implement alternative compensatory measures as required 16.9-4-2 Fire Hose Stations 16.9-4 COMPLETION TIME 1 hour 1 hour Prior to terminating Required Action B.1 Revision 4 TESTING REQUIREMENTS TEST TR 16. 9-4-1 Perform a visual inspection of the Fire Hose Stations accessible during plant operation to assure all required equipment is at the station and the fire hose shows no physical damage. TR 16.9-4-2 Perform a visual inspection of the Fire Hose Stations not accessible during plant operation to assure all required equipment is at the station and the fire hose shows no physical damage. TR 16.9-4-3 Inspect all fire hose gaskets and replace any degraded gaskets in the couplings.

TR 16.9-4-4 Partially open each Fire Hose Station valve to verify valve FUNCTIONALITY and no flow blockage.

TR 16.9-4-5 Perform a hose hydrostatic test at a pressure of psig 50 psig above maximum fire main operating pressure, whichever is greater. TR 16.9-4-6 Remove each hose from the Fire Hose Station for inspection and reracking.

Catawba Units 1 and 2 16.9-4-3 Fire Hose Stations 16.9-4 FREQUENCY In accordance with performance based criteria in BASES 18 months 18 months 3 years 3 years 3 years Revision 4  

* Fire Hose Stations 16.9-4

* Table 16.9-4-1 (page 1 of 7) Fire Hose Stations LOCATION ELEVATION HOSE RACK NUMBER 1. Auxiliary Building 59, FF 522+0 1RF235 55, FF 522+0 1RF248 63-64, KK 543+0 1 RF210 63, MM 543+0 1 RF211 60, MM 543+0 1RF212 58, pp 543+0 1RF218 59, GG-HH 543+0 1RF236 60-61, FF-GG 543+0 1RF237 61-62, CC-DD 543+0 2RFA64 57, JJ 543+0 1RF242 54-55, GG 543+0 1RF249 57, FF 543+0 1RF250 52-53, GG 543+0 1RF255 52-53, CC-DD 543+0 1RFA64 50-51, JJ-KK 543+0 1RF262 53, MM 543+0 1RF268 ** 50-51, NN 543+0 1RF271 62, MM-NN 560+0 1RF203 63, JJ-KK 560+0 1 RF213 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 1 RF251 51, KK 560+0 1RF263 52, MM-NN 560+0 1RF269 58, BB 554+0 1RF484 65, BB-CC 560+0 1 RF485 62, AA-BB 560+0 1RF486 56, BB 554+0 1RF487 52, AA-BB 560+0 1 RF488 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 1 RF214 63, KK-LL 577+0 1RF215 58, pp 577+0 1 RF221 59, JJ 577+0 1RF230 (continued)

* Catawba Units 1 and 2 16.9-4-4 Revision 4 Fire Hose Stations 16.9-4 Table 16.9-4-1 (page 2 of 7)

* Fire Hose Stations LOCATION ELEVATION HOSE RACK NUMBER 58, GG 577+0 1RF240 56, KK 577+0 1RF244 54, GG 577+0 1 RF252 52-53, KK 577+0 1RF258 51, KK 577+0 1RF264 51-52, NN 577+0 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 51, AA 577+0 1RF998 62, NN 594+0 1RF205

* 57, MM 594+0 1RF222 63, JJ 594+0 1RF231 57, HH 594+0 1RF245 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 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 (continued)

Catawba Units 1 and 2 16.9-4-5 Revision 4

* Fire Hose Stations 16.9-4

* Table 16.9-4-1 (page 3 of 7) Fire Hose Stations LOCATION ELEVATION HOSE RACK NUMBER 3. Low Pressure Service Water (LPSW) Intake Structure 5,A 583+0 1 RY178 2, E 583+0 1RY4 4. Service Building 31,S 568+0 1 RF163 26,S 568+0 1RF165 23,S 568+0 1RF166 20, R 568+0 1RF168 29,S 568+0 1 RF175 20, u 568+0 1RF424 17,S 568+0 1RF425 35, p 574+0 1RF162

* 35, U-V 574+0 1RF310 27, R 594+0 1RF167 20, R 594+0 1RF169 18, T 594+0 1RF173 16,S 594+0 1RF174 30,S 594+0 1RF176 32,S 594+0 1 RF311 35, Q 594+0 1 RF312 35, u 594+0 1 RF313 27, u 594+0 1RF314 22, R 594+0 1RF315 20, p 594+0 1RF316 22, T 594+0 1RF426 18, v 594+0 1 RF430 33, Q 608+0 1RF419 33, u 608+0 1RF420 28, v 608+0 1 RF971 28, S-T 608+0 1RF972 16, R 610+0 1RF432 37, R 611+0 1RF308 55, cc 611+0 1RF309 37, T 611+0 1RF475 33-34, Q 619+6 1RF422 (continued)

* Catawba Units 1 and 2 16.9-4-6 Revision 4 Fire Hose Stations 16.9-4 Table 16.9-4-1 (page 4 of 7)

* Fire Hose Stations LOCATION ELEVATION HOSE RACK NUMBER 33-34, u 619+6 1RF423 22, 1N 619+6 1RF853 22, 2N 619+6 2RF853 5. Standby Shutdown Facilitl'. (SSF} 7, B 594+0 1RF934 7, B 594+0 1RF935 5, c 594+0 1RF936 4,8 594+0 1RF937 6, c 611+0 1RF933 6. Unit 1 Reactor Buildin

* 126&deg; in Pi12e Chase 552+0 1RF396 6&deg; in Pi12e Chase 552+0 1RF397

* 287&deg; in Pi12e Chase 552+0 1RF398 10&deg; in Lower Containment 552+0 1RF399 202&deg; in Lower Containment 552+0 1RF400 211&deg; in Pi12e Chase 552+0 1RF401 68&deg; in Pi12e Chase 565+0 1RF458 10&deg; in Ueeer Containment 605+0 1RF152 170&deg; in U12eer Containment 605+0 1RF153 7. Unit 1 Turbine Building 34, 1H 568+0 1RF28 29, 1L 568+0 1RF45 26, 1L 568+0 1RF48 23, 1M 568+0 1RF50 20, 1N 568+0 1RF53 17, 1L 568+0 1RF56 18, 1H 568+0 1RF59 17, 1 E 568+0 1RF62 19, 1E 568+0 1RF63 22, 1E 568+0 1RF67 26, 1E 568+0 1RF70 29, 1E 568+0 1RF73 32, 1E 568+0 1RF74 30, 1H 568+0 1RF77 (continued)

* Catawba Units 1 and 2 16.9-4-7 Revision 4 Fire Hose Stations 16.9-4

* Table 16.9-4-1 (page 5 of 7) Fire Hose Stations LOCATION ELEVATION HOSE RACK NUMBER 31, 1L 568+0 1RF78 30, 1H 594+0 1RF22 34, 1H 594+0 1RF30 29, 1L 594+0 1RF44 26, 1L 594+0 1RF47 23, 1M 594+0 1RF49 20, 1L 594+0 1RF52 16, 1J 594+0 1RF55 18, 1H/1J 594+0 1RF58 16, 1F 594+0 1RF61 19, 1E 594+0 1RF64 22, 1E 594+0 1RF66 26, 1E 594+0 1RF69 29, 1E 594+0 1RF72 32, 1E 594+0 1RF75 31, 1L 594+0 1RF79 15, 1H 619+6 1RF24

* 22, 1E 619+6 1RF26 34, 1H 619+6 1RF32 29, 1L 619+6 1RF43 32, 1L 619+6 1RF46 17, 1L 619+6 1RF54 20, 1L 619+6 1RF57 16, 1E 619+6 1RF60 19, 1 E 619+6 1RF65 26, 1E 619+6 1RF68 29, 1E 619+6 1RF71 32, 1E 619+6 1RF76 31, 1L 619+6 1RF80 8. Unit 2 Reactor Buildin

* 126&deg; in Piee Chase 552+0 2RF396 287&deg; in Piee Chase 552+0 2RF398 10&deg; in Lower Containment 552+0 2RF399 202&deg; in Lower Containment 552+0 2RF400 211&deg; in Piee Chase 552+0 2RF401 6&deg; in Piee Chase 552+0 2RF397 68&deg; in Pi12e Chase 565+0 2RF458 10&deg; in Ueeer Containment 605+0 2RF152 * (continued)

Catawba Units 1 and 2 16.9-4-8 Revision 4 Table 16.9-4-1 (page 6 of 7) Fire Hose Stations LOCATION ELEVATION 170&deg; in Containment 605+0 9. Unit 2 Turbine Building 34, 2H 568+0 29,2L 568+0 26,2L 568+0 23, 2M 568+0 20,2N 568+0 17, 2L/2K 568+0 18, 2H/2J 568+0 17,2E 568+0 19, 2E 568+0 22,2E 568+0 26,2E 568+0 29,2E 568+0 32,2E 568+0 30,2H 568+0 31, 2L 568+0 30,2H 594+0 34, 2H 594+0 29, 2L 594+0 26, 2L 594+0 23, 2M 594+0 20, 2L 594+0 16, 2J 594+0 18,2H 594+0 16,2F 594+0 19,2E 594+0 22, 2E 594+0 26,2E 594+0 29,2E 594+0 32,2E 594+0 31, 2L 594+0 15, 2H 619+6 22,2E 619+6 34, 2H 619+6 29,2L 619+6 26,2L 619+6 17,2L 619+6 20,2L 619+6 Catawba Units 1 and 2 16.9-4-9 Fire Hose Stations 16.9-4 HOSE RACK NUMBER 2RF153 2RF28 2RF45 2RF48 2RF50 2RF53 2RF56 2RF59 2RF62 2RF63 2RF67 2RF70 2RF73 2RF74 2RF77 2RF78 2RF22 2RF30 2RF44 2RF47 2RF49 2RF52 2RF55 2RF58 2RF61 2RF64 2RF66 2RF69 2RF72 2RF75 2RF79 2RF24 2RF26 2RF32 2RF43 2RF46 2RF54 2RF57 (continued)

Revision 4 * * * 

* *

* Table 16.9-4-1 (page 7 of 7) Fire Hose Stations LOCATION ELEVATION 16, 2E 619+6 19, 2E 619+6 26, 2E 619+6 29,2E 619+6 32,2E 619+6 31,2L 619+6 Fire Hose Stations 16.9-4 HOSE RACK NUMBER 2RF60 2RF65 2RF68 2RF71 2RF76 2RF80 *The containment Fire Hose Station headers are normally isolated for flood protection reasons and are exempt from Testing Requirement 16.9-4-4 . Catawba Units 1 and 2 16.9-4-10 Revision 4 BASES Fire Hose Stations 16.9-4 The FUNCTIONALITY 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 supply/distribution system, sprinkler systems, fire hose stations, fire hydrants, and C0 2 systems. 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 alignment of the Fire Suppression System during lnservice Valve Testing (Containment Valve Injection Water System and stroke time testing) for RF389B results in the isolation of some of the required hose stations listed in Table 16.9-4-1.

The flow path to the isolated hose stations can be restored using a few simple operator actions. The lnservice Valve Test alignments, the staging of personnel, and associated operator actions to reestablish a flow path are controlled by station procedures.

Should an adverse trend develop with Fire Hose Station equipment or fire

* hose condition, the frequency of the inspection shall be increased.

* Similarly, if the Fire Hose Station equipment or fire hose condition trends are positive, the frequency of verification could be decreased.

Through programmed trending of Fire Hose Station inspections, Fire Hose Stations will be maintained at predetermined reliability standards.

The Fire Protection Engineer is responsible for trending and determining inspection frequencies based on the following:

Initially the frequency shall 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 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 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 semiannually or semiannually to quarterly or quarterly to monthly as Catawba Units 1 and 2 16.9-4-11 Revision 4 * 

* Fire Hose Stations 16.9-4 BASES (continued)

REFERENCES applicable.

The verification need not be conducted more often than monthly. The SSF, LPSW Intake, Reactor Buildings, Turbine Buildings and Service Building fire hose stations were added as result of transition to the NFPA 805 fire protection licensing basis. NFPA 805 Chapter 3, Section 3.6.1 states that all power block buildings shall have a standpipe and hose system installed.

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

This SLC is part of ihe Catawba Fire Protection Program and therefore subject to the provisions of the Catawba Renewed Facility Operating License Conditions 2.C.(5). 1 . 2. Catawba UFSAR, Section 9.5.1. Catawba Nuclear Station 1 O CFR 50.48(c) Fire Protection Safety Evaluation (SE). 3. Catawba Plant Design Basis Specification for Fire Protection, CNS-1465.00-00-0006, as revised. 4. Catawba UFSAR, Section 18.2.8. 5. Catawba License Renewal Commitments, CNS-127 4.00-00-0016, Section 4.12.1. 6. RIS 2005-07, Compensatory Measures to Satisfy the Fire Protection Program Requirements.

: 7. Catawba Renewed Facility Operating License Conditions 2.C.(5) . Catawba Units 1 and 2 16.9-4-12 Revision 4 Fire Rated Assemblies 16.9-5 16.9 AUXILIARY SYSTEMS 16.9-5 Fire Rated Assemblies COMMITMENT APPLICABILITY:

All required Fire Rated Assemblies (walls, floors/ceilings, cable enclosures and other fire barriers) and all sealing devices in fire rated assembly penetrations (fire doors, fire dampers, and penetration seals) shall be FUNCTIONAL.

At all times. -------------------

-----------------------------------N 0 TE--------------------------------------------------------

N on-fun cti o na l or breached fire barrier features (walls, floors, ceilings, doors, dampers, and penetration seals) in the diesel generator rooms and the auxiliary feedwater pump rooms may affect C0 2 System FUNCTIONALITY.

See SLC 16.9-3, "C02 Systems".

REMEDIAL ACTIONS IF the required Fire Rated Assembly sealing device is a Fire Door, see Table 16.9-5-1 IF the required Fire Rated Assembly sealing device is a Fire Damper see Table 16.9-5-2

* IF required Fire Rated Assembly is a Fire Barrier or Penetration Seal:

* 1. Identify the location of the impaired fire protection feature by elevation, column, and building 2. Refer to CN-1209-10 series drawings to identify the Fire Area on both sides of the impaired feature 3. IF either of the Fire Areas is identified as High Safety Significant (HSS) (see Table 16.9-5-3) then implement the REQUIRED ACTION CONDITION A 4. IF the Fire Areas are not HSS, then identify the associated shutdown trains/methods of the Fire Areas on each side of the barrier using Table 16.9-5-4 and implement the REQUIRED ACTION as identified in the following Chart: Shutdown Train A B SSS A orB A and B (Side 1 & Side 2) CONDITION CONDITION CONDITION CONDITION CONDITION A c B B c B CONDITION CONDITION CONDITION CONDITION CONDITION B B c B c B CONDITION CONDITION CONDITION CONDITION CONDITION SSS B B c B B CONDITION CONDITION CONDITION CONDITION CONDITION A orB c c B c B CONDITION CONDITION CONDITION CONDITION CONDITION A and B B B B B c Catawba Units 1 and 2 16.9-5-1 Revision 7 * 

Catawba Units 1 and 2 Fire Rated Assemblies 16.9-5 REQUIRED ACTION COMPLETION TIME A.1 Establish a continuous fire 1 hour watch on at least one side of the assembly.

A.2.1 Verify at least one side of the assembly has FUNCTIONAL fire detection instrumentation.

A.2.2 Establish an hourly fire watch patrol on at least one side of the assembly.

A.3 Complete an evaluation as permitted by NRC RIS 2005-07 to institute required action(s).

16.9-5-2 1 hour 1 hour Prior to terminating Required Action A.1 or A.2 (continued)

I Revision 7 REMEDIAL ACTIONS (continued)

CONDITION B. One or more LSS** required Fire Rated Assemblies is non-functional.

Catawba Units 1 and 2 B.1 OR B.2.1 B.2.2 OR B.3 REQUIRED ACTION Establish an hourly fire watch on at least one side of the assembly.

Verify at least one side of the assembly has FUNCTIONAL fire detection instrumentation.

AND Establish a once per shift Fire Rated Assemblies 16.9-5 COMPLETION TIME 1 hour 1 hour 1 hour fire watch patrol on at least one side of the assembly.

Complete an evaluation as Prior to terminating permitted by NRC RIS Required Action B.1 2005-07 to institute or B.2 required action(s). (continued) 16.9-5-3 Revision 7 * * * 

2VA-FD063 2VA-FD064 2VA-FD065

2VA-FD069 2VA-FD070 2VA-FD071 2VA-FD072 2VA-FD073 2VA-FD074 BLDG AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX Table 16.9-5-2 Fire Rated Assemblies 16.9-5 REQUIRED FIRE DAMPERS LOCATION ELEVATION FIRE AREA RISK REMEDIA INTERFACE CRITERIA ACTION CONDITION 60-61/GG-HH 522+0 1/4 DID c 59-60/GG-HH 522+0 1/4 DID c 59-60/GG-HH 522+0 1/4 DID c 58-59/GG-HH 522+0 1/4 DID c 58-59/GG-HH 522+0 1/4 DID c 57-58/GG-HH 522+0 1/4 DID c 57-58/FF 522+0 1/4 DID c 59-60/MM-N N 543+0 4/22 DID c 59/MM 543+0 4/22 DID c 59/MM 543+0 4/22 DID c 59-60/MM-NN 543+0 4/22 DID c 63/NN 534+0 4/STAIR DID c 59/JJ-KK 543+0 4/4 (NV DID c PUMPS) 61-62/DD 560+0 2/5 LSS B 61-62/CC-DD 577+0 5/12 HSS A 61-62/CC-DD 577+0 5/12 HSS A 62-63/AA-BB 543+0 2/39 LSS B 62-63/AA-BB 543+0 2/39 LSS B 62/AA-BB 543+0 2/31 LSS B 61-62/BB 543+0 2/31 LSS B 61/CC 543+0 2/STAIR DID c 61/CC-DD 543+0 2/STAIR DID c 61-62/BB 543+0 2/33 LSS B 61-62/BB 543+0 2/33 LSS B 61-62/BB 543+0 2/31 LSS B 61-62/BB 543+0 2/31 LSS B 60/MM 560+0 11/22 DID c 59/MM-NN 560+0 11/22 DID c 60/MM-NN 560+0 11/22 DID c 59-60/MM 560+0 11/22 DID c 59-60/MM 560+0 4/22 DID c 60-61/HH 560+0 4/11 DID c 61/HH-JJ 560+0 4/11 DID c 60-61/GG-HH 560+0 4/11 DID c 61/GG-HH 560+0 . 4/11 DID c 61/GG-HH 560+0 4/11 DID c 60-61/GG-HH 560+0 4/11 DID c 61/HH 560+0 4/11 DID c 58-59/QQ 577+0 18/ASB LSS B 59-60/QQ 577+0 18/ASB LSS B 59-60/MM-NN 577+0 18/22 DID c 59-60/MM 577+0 18/22 DID c 60/MM 577+0 18/22 DID c 60/MM 577+0 18/22 DID c (continued Catawba Units 1 and 2 16.9-5-13 Revision 7 * * * 

* DAMPER NUMBER 2VA-FD075 2VA-FD076 2VA-FD077 2VA-FD078 2VA-FD079 2VA-FD080 2VA-FD081 2VA-FD083 2VA-FD086 2VA-FD087 2VA-FD088 2VA-FD093 2VA-FD097 2VA-FD108A 2VA-FD108B 2VA-FD114 2VA-FD115 2VA-FD137 2VA-FD138 2VA-FD139 2VA-FD141 2VA-FD142 2VA-FD143 2VA-FD144 2VA-FD145 2VA-FD146 2VA-FD147 2VA-FD151 2VA-FD152 2VA-FD153 2VA-FD154 2VA-FD157 2VA-FD158 2VA-FD160 2VA-FD161 OBRS-FD001 OBRS-FD010 OBRS-FD019 OBRX-FD001A OBRX-FD0018 OBRX-FD001C OBRX-FD001D BLDG AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX Table 16.9-5-2 Fire Rated Assemblies 16.9-5 REQUIRED FIRE DAMPERS LOCATION ELEVATION FIRE AREA RISK INTERFACE CRITERIA ACTION CONDITION 60/HH 577+0 4/22 DID c 60/HH 577+0 4/22 DID c 60-61/HH 577+0 4/22 DID c 60-61/HH 577+0 4/22 DID c 61/HH 577+0 4/22 DID c 61/GG-HH 577+0 4/22 DID c 61/HH 577+0 4/22 DID c 63/NN 594+0 22/STAIR DID c 60/FF 594+0 22/STAIR DID c 59-60/QQ 594+0 22/ASB LSS B 60-61/QQ 594+0 22/ASB LSS B 58-59/QQ 594+0 22/ASB LSS B 61/CC-DD 594+0 22/STAIR DID c 57-59/QQ 611+0 22/ASB LSS B 57-59/QQ 611+0 22/ASB LSS B 59-60/KK-LL 594+0 18/22 DID c 59-60/KK-LL 594+0 18/22 DID c 60-61/FF-GG 560+0 4/18 DID c 60-61/FF-GG 560+0 4/18 DID c 61/GG 560+0 4/11 DID c 62-63/DD 543+0 214 DID c 60-61/KK 560+0 4/11 DID c 62-63/KK 560+0 4/18 DID c 63/KK 560+0 4/18 DID c 61-62/M M-N N 560+0 4/11 DID c 61-62/DD 560+0 2/5 LSS B 61-62/DD 560+0 2/5 LSS B 61-62/BB-CC 543+0 2/36 LSS B 61-62/CC 543+0 2/36 LSS 8 60-61/GG-HH 594+0 4/22 DID c 60-61/GG-HH 594+0 4/22 DID c 63-64/AA-BB 543+0 C02 HSS A 64-65/AA-BB 543+0 C02 HSS A 57-58/QQ 543+0 4/ASB LSS B 57-58/QQ 543+0 4/ASB LSS B 54-55/DD-EE 554+0 10/22 DID c 57/DD-EE 554+0 9/10 DID c 59/DD-EE 554+0 9/22 DID c 54-55/DD-EE 554+0 10/22 DID c 54-55/DD-EE 554+0 10/22 DID c 54-55/DD-EE 554+0 10/22 DID c 54-55/DD-EE 554+0 10/22 DID c (continued Catawba Units 1 and 2 16.9-5-14 Revision 7 DAMPER NUMBER FD001E FD001F FD001G FD001H OBRX-FD002 OBRX-FD009 OBRX-FD010 OBRX-FD011 OBRX-FD012 OBRX-FD013

OBRX-FD014 OBRX-FD021 FD022A FD022B FD022C FD022D FD022E FD022F FD022G FD022H OBRX-FD023 FD005A FD005B 1CRA-FD008 1CRA-FD009 1CRA-FD010 1CRA-FD011 1CRA-FD012 1CRA-FD013 1CRA-FD016 1CRA-FD017 1CRA-FD018 BLDG AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX Fire Rate d Assemblies 16.9-5 Table 16.9-5-2 REQUIRED FIRE DAMPERS LOCATION ELEVATION FIRE AREA RISK RE INTERFACE CRITER IA ACTION CONDITION 54-55/DD-EE 554+0 10/22 DID c 54-55/DD-EE 554+0 10/22 DID c 54-55/DD-EE 554+0 10/22 DID c 54-55/DD-EE 554+0 10/22 DID c 54-55/D D-E E 554+0 10/22 DID c 57/AA-BB 554+0 9/10 DID c 57/AA-BB 554+0 9/10 DID c 57/BB-CC 554+0 9/10 DID c 57/CC-DD 554+0 9/10 DID c 57/CC-DD 554+0 9/10 DID c 57/DD-EE 554+0 9/10 DID c 60/DD-EE 554+0 9/22 DID c 60/DD-EE 554+0 9/22 DID c 60/DD-EE 554+0 9/22 DID c 60/DD-EE 554+0 9/22 DID c 60/DD-EE 554+0 9/22 DID c 60/DD-EE 554+0 9/22 DID c 60/DD-EE 554+0 9/22 DID c 60/DD-EE 554+0 9/22 DID c 60/DD-EE 554+0 9/22 DID c 57/BB-CC 554+0 9/10 DID c 54-55/DD-EE 594+0 21/22 HSS A 54-55/DD-EE 594+0 21/22 HSS A 54/AA 594+0 21/35 HSS A 53-54/CC-DD 594+0 22/STAIR DID c 53-54/CC 594+0 21/STAIR HSS A 53/AA-BB 594+0 20/35 DID c 53/BB-CC 594+0 20/21 HSS A 52/CC-DD 594+0 20/22 LSS B 54-55/DD-EE 574+0 22/45 LSS B 54-55/DD 574+0 17/45 HSS A 54-55/DD 574+0 17/45 HSS A (continued)

* DAMPER NUMBER 1CRA-FD019 1CRA-FD020 1CRA-FD021 1CRA-FD022 1CRA-FD023 1CRA-FD024A 1CRA-FD024B 1CRA-FD025A 1CRA-FD025B 1CRA-FD026 1CRA-FD028 1CRA-FD029 1CRA-FD030 1CRA-FD039 1CR-FD001 1CR-FD002 1CR-FD003 1CR-FD004 1CR-FD005 1CR-FD007 2CRA-FD005A 2CRA-FD005B 2CRA-FD008 2CRA-FD009 2CRA-FD012 2CRA-FD015 2CRA-FD016 2CRA-FD017 2CRA-FD018 2CRA-FD019 2CRA-FD020 2CRA-FD021 2CRA-FD022A 2CRA-FD022B 2CRA-FD023 2CRA-FD025 2CRA-FD026 BLDG AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX AUX Table 16.9-5-2 Fire Rated Assemblies 16.9-5 REQUIRED FIRE DAMPERS LOCATION ELEVATION FIRE AREA RISK REMEDIAL INTERFACE CRITERIA ACTION CONDITION 54/AA-BB 574+0 17/45 HSS A 57/CC-DD 574+0 16/17 HSS A 53-54/DD-EE 574+0 22/45 LSS B 55-56/DD 574+0 17/45 HSS A 56-57/DD 574+0 17/45 HSS A 57/DD-EE 574+0 45/46 DID c 57/DD-EE 574+0 45/46 DID c 54-55/DD-EE 574+0 22/45 LSS B 54-55/DD-EE 574+0 22/45 LSS B 54-55/EE 577+0 18/22 DID c 53-54/EE 577+0 18/22 DID c 54-55/EE 568+0 11/22 DID c 54-55/EE 568+0 11/22 DID c 57/EE-FF 577+0 18/18 (KC DID c PUMPS) 55-56/DD-EE 594+0 21/22 HSS A 55-56/DD-EE 594+0 21/22 HSS A 54/AA-BB 594+0 21/35 HSS A 53-54/BB 594+0 21/35 HSS A 53-54/BB 594+0 21/35 HSS A 51/CC-DD 594+0 13/20 HSS A 59-60/DD-EE 594+0 21/22 HSS A 59-60/DD-EE 594+0 21/22 HSS A 60/AA-BB 594+0 19/21 HSS A 60-61/CC 594+0 19/22 LSS B 61/CC-DD 594+0 19/22 LSS B 59-60/DD-EE 574+0 22/46 LSS B 59-60/DD 574+0 16/46 HSS A 59-60/DD 574+0 16/46 HSS A 60/AA-BB 574+0 16/46 HSS A 58-59/DD 574+0 16/46 HSS A 57-58/DD 574+0 16/46 HSS A 60-61/DD-EE 574+0 22146 LSS B 59-60/DD-EE 574+0 22/46 LSS B 59-60/DD-EE 574+0 22/46 LSS B 59-60/EE 577+0 18/22 DID c 60-61/EE 577+0 18/22 DID c 59-60/EE 568+0 11/22 DID c Catawba Units 1 and 2 16.9-5-16 (continued)

Revision 7 Table 16.9-5-2 REQUIRED FIRE DAMPERS DAMPER BLDG LOCATION ELEVATION FIRE AREA NUMBER INTERFACE 2CRA-FD027 AUX 59-60/EE 568+0 11/22 2CR-FD001 AUX 58-59/DD-EE 594+0 21/22 2CR-FD002 AUX 58-59/DD 594+0 21/22 2CR-FD003 AUX 63-64/CC 594+0 12/19 1VF-FD001A AUX 51, NN-PP 605+10 22/24 1VF-FD001B AUX 51, NN-PP 605+10 22/24 1VF-FD002A AUX 50-51/NN-PP 631+6 24/38 1VF-FD002B AUX 50-51/NN-PP 631+6 24/38 1VF-FD004 AUX 49/PP-QQ 631+6 24/38 1VF-FD005 AUX 49-50/PP-QQ 631+6 24/38 1VF-FD006 AUX 50-51 631+6 24/38 1VF-FD007 AUX 50-51/KK-LL 605+10 22/24 1VF-FD010 AUX 50-51/KK 605+10 22/24 1VF-FD011 AUX 50-51/JJ-KK 631+6 22/38 1VF-FD013 AUX 50-51/JJ-KK 616+10 22/24 1VF-FD014 AUX 50-51/JJ-KK 616+10 22/24 2VF-FD001A AUX 63, NN-PP 605+10 22/23 2VF-FD001B AUX 63, NN-PP 605+10 22/23 2VF-FD002A AUX 63-64/NN-PP 631+6 23/47 2VF-FD002B AUX 63-64/NN-PP 631+6 23/47 2VF-FD004 AUX 65/PP-QQ 631+6 23/47 2VF-FD005 AUX 64-65/PP-QQ 631+6 23/47 2VF-FD006 AUX 63-64/PP-QQ 631+6 23/47 2VF-FD007 AUX 63-64/KK-LL 605+10 22/23 2VF-FD010 AUX 63-64/KK 605+10 22/23 2VF-FD011 AUX 64-64/JJ-KK 631+6 22/47 2VF-FD013 AUX 63-64/JJ-KK 616+10 22/23 2VF-FD014 AUX 63-64/JJ-KK 616+10 22/23 1TB-FD001 TB1 18-19N 594+0 TB1/SRV 1TB-FD002 TB1 18-19N 594+0 TB1/SRV 1TB-FD003 TB1 18-19N 594+0 TB1/SRV 1TB-FD004 TB1 18-19N 594+0 TB1/SRV 1TB-FD005 TB1 18-19N 594+0 TB1/SRV 1TB-FD006 TB1 18-19N 594+0 TB1/SRV 1TB-FD007 TB1 21-22N 594+0 TB1/SRV 1TB-FD008 TB1 21-22N 594+0 TB1/SRV 1TB-FD009 TB1 21-22N 594+0 TB1/SRV 1TB-FD010 TB1 21-22N 594+0 TB1/SRV 1TB-FD011 TB1 21-22N 594+0 TB1/SRV 1TB-FD012 TB1 21-22N 594+0 TB1/SRV 1TB-FD032 TB1 18-19N 594+0 TB1/SRV 1TB-FD038 TB1 16-17N 594+0 TB1/SRV 1TB-FD039 TB1 16-17N 594+0 TB1/SRV 1TB-FD040 TB1 16N 594+0 TB1/SRV 1TB-FD043 TB1 30-31/1 J-1 K 568+0 TB1/0TI 1TB-FD044 TB1 32/1 J-1 K 594+0 TB1/MTOT Catawba Units 1 and 2 16.9-5-17 Fire Rated Assemblies 16.9-5 RISK REMEDIAL CRITERIA ACTION DID HSS HSS HSS LSS LSS DID DID DID DID DID LSS LSS LSS LSS LSS LSS LSS DID DID . DID DID DID LSS LSS LSS LSS LSS DID DID DID DID DID DID DID DID DID DID DID DID DID DID DID DID DID DID CONDlTIO\I c A A A B B c c c c c B B B B B B B c c c c c B B B B B c c c c c c c c c c c c c c c c c c (continued)

Revision 7 * * * 

2TB-FD041 SB-FD158 BLDG TB1 TB1 TB2 TB2 TB2 TB2 TB2 TB2 TB2 TB2 TB2 TB2 TB2 TB2 TB2 TB2 TB2 TB2 TB2 TB2 TB2 SRV FIRE AREA 6 12 13 14 15 16 17 21 Table 16.9-5-2 Fire Rated Assemblies 16.9-5 REQUIRED FIRE DAMPERS LOCATION ELEVATION FIRE AREA RISK REMEDIAL INTERFACE CRITERIA ACTION CONDITION 30/1J-1K 594+0 TB1/MTOT DID c 32/1 K-1L 568+0 TB1/0TI DID c 21-22/P 594+0 TB2/SRV DID c 21-22/P 594+0 TB2/SRV DID c 21-22/P 594+0 TB2/SRV DID c 21-22/P 594+0 TB2/SRV DID c 21-22/P 594+0 TB2/SRV DID c 21-22/P 594+0 TB2/SRV DID c 18-19/P 594+0 TB2/SRV DID c 18-19/P 594+0 TB2/SRV DID c 18-19/P 594+0 TB2/SRV DID c 18-19/P 594+0 TB2/SRV DID c 18-19/P 594+0 TB2/SRV DID c 18-19/P 594+0 TB2/SRV DID c 32/2K-2L 568+0 TB2/0TI DID c 18/P 594+0 TB2/SRV DID c 16-17/P 594+0 TB2/SRV DID c 17-18/P 594+0 TB2/SRV DID c 32/2J-2K 594+0 TB2/MTOT DID c 30/2J-2K 594+0 TB2/MTOT DID c 30-31 /2J/2K 568+0 TB2/0TI DID c 18-19N 594+0 TB1/SRV DID c Table 16.9-5-3 HIGH SAFETY SIGNIFICANT (HSS) FIRE AREAS* BLDG ELEVATION DESCRIPTION AUX 560+0 Unit 1 Electrical Pen Room El 560 AUX 577+0 Unit 2 Electrical Pen Room El 577 AUX 577+0 Unit 1 Electrical Pen Room El 577 AUX 577+0 Unit 2 4160V Essential Swqr Room (2ETA) AUX 577+0 Unit 1 4160V Essential Swqr Room (1ETA) AUX 574+0 Unit 2 Cable Room El 574 AUX 574+0 Unit 1 Cable Room El 574 AUX 594+0 Main Control Room El 594 *High Safety Significant (HSS) Fire Areas are defined as the areas with HSS fire barrier features in accordance with the Catawba NFPA 805 Monitoring Program . Catawba Units 1 and 2 16.9-5-18 Revision 7 FIRE AREA 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 25A 26 268 27 27A 28 288 29 30 31 32 33 34 35 36 37 38 Fire Rated Assemblies 16.9-5 Table 16.9-5-4 FIRE AREAS AND SHUTDOWN TRAIN I METHOD ASSURED SHUTDOWN FIRE AREA DESCRIPTIONS TRAIN I METHOD ND & NS Pumg Room El 522 (Common) SSS Unit 2 CA Pum12 Room El 543 SSS Unit 1 CA Pum12 Room El 543 SSS Aux Bldg. Gen Area & NV Pum12 Room El 543 (Common) SSS Unit 2 Electrical Pen Room El 560 A Unit 1 Electrical Pen Room El 560 A Unit 2 4160V Essential SWGR Room El 560 A Unit 1 4160V Essential SWGR Room El 560 A Unit 2 Battery Room El 554 SSS Unit 1 Room El 554 SSS Aux Bldg. Gen Area & U1 KC Pum12 Room El 560 (Common) SSS Unit 2 Electrical Pen Room El 577 B Unit 1 Electrical Pen Room El 577 B Unit 2 4160V Essential SWGR Room El 577 B Unit 1 4160V Essential SWGR Room El 577 B Unit 2 Cable Room El 574 SSS Unit 1 Cable Room El 574 SSS Aux Bldg. Gen Area & U2 KC Pum12 Room El 577 (Common) SSS Unit 2 Electrical Pen Room El 594 A Unit 1 Electrical Pen Room El 594 A Control Room El 594 (Common} SSS Aux Bldg. Gen Area El 594 (Common) SSS Unit 2 Fuel Storage Area El 605 A Unit 1 Fuel Storage Area El 605 A Diesel Generator Bldg. 1A El 556 B Diesel Generator Bldg. 1A Stairwell B Diesel Generator Bldg. 1 B El 556 A Diesel Generator Bldg. 1 B Stairwell A Diesel Generator Bldg. 2A El 556 8 Diesel Generator Bldg. 2A Stairwell 8 Diesel Generator Bldg. 28 El 556 A Diesel Generator Bldg. 28 Stairwell A Train A RN Pumg Structure El 600 (Common} B Train B RN Pumg Structure El 600 (Common} A Unit 2 Train A Aux Shutdown Panel El 543 B Unit 1 Train A Aux Shutdown Panel El 543 B Unit 2 Train B Aux Shutdown Panel El 543 A Unit 1 Train B Aux Shutdown Panel El 543 A Control Room Tagout Area El 594 A or B Unit 2 Turbine Driven CA Pumg Control Panel Room El 543 B Unit 1 Turbine Driven CA Pum12 Control Panel Room El 543 B Unit 1 Fuel Storage Area HVAC Room El 631 AorB (continued)

Catawba Units 1 and 2 16.9-5-19 Revision 7 * * * 

* Table 16.9-5-4 Fire Rated Assemblies 16.9-5 FIRE AREAS AND SHUTDOWN TRAIN I METHOD FIRE AREA FIRE AREA DESCRIPTIONS 39 Unit 2 Turbine Driven CA PumQ Pit El 543 40 Unit 1 Turbine Driven CA PumQ Pit El 543 41 DG1A SeguencerTunnel El 556 42 DG1 B Seguencer Tunnel El 556 43 DG2A Seguencer Tunnel El 556 44 DG2B Seguencer Tunnel El 556 45 Unit 1 Cable Room Corridor El 57 4 46 Unit 2 Cable Room Corridor El 57 4 47 Unit 2 Fuel Storage Area HVAC Room El 631 48 Unit 2 Interior Doghouse 49 Unit 1 Interior Doghouse 50 Unit 2 Exterior Doghouse 51 Unit 1 Exterior Doghouse ASS Auxiliary Service Building RB1 Unit 1 Reactor Building RB2 Unit 2 Reactor Building SRV Service Building SSF Standby Shutdown Facility STAIR* Stairway TB1 Unit 1 Turbine Building TB2 Unit 2 Turbine Building YRD** Yard Area ASSURED SHUTDOWN TRAIN I METHOD B B B A B A B B A or B Aand B Aand B A and B A and B A orB Aand B A and B B A or B See Note A orB A or B A or B *IF the barrier in a stairway is adjacent to a HSS Fire Area (see Table 16.9-5-3), enter CONDITION A; otherwise enter CONDITION C. ** Exterior walls that interface with the YRD do not require entry into a CONDITION statement and therefore do not have a REQUIRED ACTION. A= A TRAIN B = B TRAIN SSS= STANDBY SHUTDOWN SYSTEM Catawba Units 1 and 2 16.9-5-20 Revision 7 BASES Fire Rated Assemblies 16.9-5 The functional integrity of the Fire Rated Assemblies and associated sealing devices ensures that fires will be confined or adequately retarded so as not to spread between fire areas/compartments.

Risk-informed insights from the Fire PRA process can apply to compensatory actions. The safety significance of the fire area can provide relief for required compensatory actions. In addition, the presence of functional fire detection can reduce the required compensatory actions. Functional fire detection in the area provides early warning of a fire for fire brigade response.

Fire detection can provide a compensatory action equivalent to or better than fire watch. Fire barrier penetration seals, including cable/pipe penetration seals, fire doors, and fire dampers, are considered FUNCTIONAL when the visually observed condition indicates no abnormal change in appearance or abnormal degradation.

An evaluation is performed to determine the cause of any identified fire barrier penetration seal abnormal change in appearance or abnormal degradation and the effect of this change on the ability of the fire barrier penetration seal to perform its function.

Based on this evaluation additional inspections may be performed.

During periods of time when a barrier is not FUNCTIONAL, either: ( 1) Perform the recommended fire watch in accordance with the criteria in the remedial actions, or (2) a licensee may choose to implement a different required action or a combination of actions (e.g., additional administrative controls, operator briefings, temporary procedures, interim shutdown strategies, operator manual actions, temporary fire barriers, temporary detection or suppression systems).

Such a change must be made to the approved Fire Protection Plan (FPP). However, the licensee must complete a documented evaluation of the impact of the proposed required action to the FPP. The evaluation must demonstrate that the required actions would not adversely affect the ability to achieve and maintain safe shutdown in the event of a fire. Any change to the FPP must maintain compliance with the General Design Criteria and 10 CFR 50.48(a).

Catawba Units 1 and 2 16.9-5-21 Revision 7 * * * 

REFERENCES Fire Rated Assemblies 16.9-5 The expectation is to promptly complete the corrective action at the first available opportunity and eliminate the reliance on the required action. This SLC is part of the Catawba Fire Protection Program and therefore subject to the provisions of Section 2.C.(5) of the Catawba Renewed Facility Operating Licenses.

: 1. Catawba UFSAR, Section 9.5.1. 2. Catawba Nuclear Station 10 CFR 50.48( c) Fire Protection Safety Evaluation (SE). 3. Catawba Plant Design Basis Specification for Fire Protection, CNS-1465.00-00-0006, as revised. 4. Catawba UFSAR, Section 18.2.8. 5. Catawba License Renewal Commitments, CNS-127 4.00-00-0016, Section 4.12.2. 6. 7. NRC Regulatory Issue Summary 2005-07, Compensatory Measures to Satisfy the Fire Protection Program Requirements, April 19, 2005 . Catawba Renewed Facility Operating License Conditions 2.C.(5). 8. CNC-1435.00-00-0084, Catawba NFPA 805 Monitoring Program. 9. CNC-1435.00-00-0044, Fire Protection Nuclear Safety Capability Assessment.

: 10. CN-1209.10 series drawings . Catawba Units 1 and 2 16.9-5-22 Revision 7 r-----1 Fire Detection Instrumentation

* 16.9-6 16.9 AUXILIARY SYSTEMS 16.9-6 Fire Detection Instrumentation COMMITMENT The Fire Detection Instrumentation for each fire detection zone shown in Table 16.9-6-1 shall be FUNCTIONAL.

APPLICABILITY:

At all times. ----------

----------------------------------------------N 0 TE--------------------------------------------------------

8 e e Table 16.9-6-1 for Risk Criteria REMEDIAL ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. All fire detection A.1 Establish roving fire watch 1 hour instruments in all fire in accordance with fire zones non-functional detection system operating due to fire detection procedure.

system failure. AND A.2 Restore the non-functional 72 hours fire detection system to FUNCTIONAL status. OR A.3 If the non-functional fire 72 hours detection system cannot be restored to FUNCTIONAL status within 72 hours, enter Conditions B through E as applicable.

B. One or more of the fire B.1 Establish a continuous fire 1 hour detection instruments in watch. a HSS* EFA zone is non-functional.

OR (continued)

Catawba Units 1 and 2 16.9-6-1 Revision 11 * *

CONDITION B. (continued)

* Catawba Units 1 and 2 REQUIRED ACTION B.2.1 Verify affected area has FUNCTIONAL full area automatic fire suppression.

AND B.2.2 Establish an hourly fire watch patrol. OR B.3 Complete an evaluation as permitted by NRC RIS 2005-07 to implement required action(s).

C.1 Establish an hourly fire watch. OR C.2.1 Verify affected area has FUNCTIONAL full area automatic fire suppression.

AND C.2.2 Establish a once per shift fire watch patrol. OR C.3 Complete an evaluation as permitted by NRG RIS 2005-07 to implement required action(s).

16.9-6-2 Fire Detection Instrumentation 16.9-6 COMPLETION TIME 1 hour 1 hour Prior to terminating Required Action B.1 or B.2 1 hour 1 hour 1 hour Prior to terminating Required Action C.1 or C.2 (continued)

--REMEDIAL ACTIONS (continued)

CONDITION REQUIRED ACTION D. One or more fire D.1 Establish a once per shift detection instruments in fire watch. a DID*** EFA zone is non-functional.

OR D.2 Verify affected area has FUNCTIONAL full area automatic fire suppression.

OR D.3 Complete an evaluation as permitted by NRC RIS 2005-07 to institute required action(s).

E. One or more fire E.1 IF Containment is detection instruments in accessible, establish a a CONTAINMENT****

once per 8 hour fire watch. EFA zone is non-functional.

OR Catawba Units 1 and 2 16.9-6-3 e Detection Instrumentation

Revision 11 * * 

CONDITION E. (continued)

REQUIRED ACTION Fire Detection Instrumentation 16.9-6 COMPLETION TIME E.2 Monitor containment air 1 hour temperature at least once OR E.3 per hour at the locations listed in Technical Specification Surveillance Requirements 3.6.5.1 or 3.6.5.2 as applicable.

Complete an evaluation as permitted by NRC RIS 2005-07 to implement required action(s).

Prior to terminating Required Action E.1 or E.2 *High Safety Significant (HSS) EFA Zone Detection is defined by the Catawba NFPA 805 Monitoring Program. **Low Safety Significant (LSS) EFA Zone Detection is defined as that detection required by Risk as part of the Catawba NFPA 805 fire protection program. ***Defense-in-Depth (DID) EFA Zone Detection is defined as detection devices required by engineering evaluation or previous licensing approval as part of the Catawba NFPA 805 fire protection program; or detection protecting equipment important to safety added to the fire protection program as 'best practice'.  

****CONTAINMENT EFA Zone Detection is defined as detection devices located inside the Reactor Building (excluding the Annulus area) . Catawba Units 1 and 2 16.9-6-4 Revision 11 Fire Detection Instrumentation

* 16.9-6 TESTING REQUIREMENTS TEST FREQUENCY TR 16.9-6-1 Verify the NFPA Standard 720 supervised circuits 6 months supervision associated with the detector alarms that are accessible during plant operation is FUNCTIONAL.

TR 16.9-6-2 Perform a visual inspection of each flame detection 12 months instrument.

TR 16.9-6-3 Perform a visual inspection of each smoke detection 12 months instrument accessible during plant operation.

TR 16.9-6-4 Perform a functional test of each restorable line type 6 months heat detection instrument by applying a heat source. TR 16.9-6-5 Perform a functional test of each flame detection 12 months instrument.

TR 16.9-6-6 Perform a functional test of each smoke detection 12 months

* instrument accessible during plant operation.

TR 16.9-6-7 Perform a non-destructive functional test of each non-12 months restorable line type heat detection instrument accessible during plant operation.

TR 16.9-6-8 Perform a functional test of each smoke detection 18 months instrument not accessible during plant operation.

TR 16.9-6-9 Perform a non-destructive functional test of each non-18 months restorable line type heat detection instrument not accessible during plant operation.

TR 16.9-6-10 Verify the NFPA Standard 720 supervised circuits 18 months supervision associated with the detector alarms that are not accessible during plant operation is FUNCTIONAL.

Catawba Units 1 and 2 16.9-6-5 Revision 11 *

* Fire Detection Instrumentation 16.9-6 Table 16.9-6-1 Fire Detection Instruments EFA DESCRIPTION LOCATION REQUIRED RISK CRITERIA ZONE INSTRUMENTS' 1> COLUMN ELEVATION SMOKE FLAME HEAT OR AZIMUTH 1 ND Pump 18 GG-53 522 + 0 1 0 0 DID I 2 ND Pump 1A FF-53 522 + 0 1 0 0 DID I 3 NS Pump 18 GG-54 522 + 0 3 0 0 DID I 4 NS Pump 1A GG-55 522 + 0 2 0 0 DID I 5 ND Pump 28 GG-61 522 + 0 1 0 0 DID I 6 ND Pump 2A FF-61 522 + 0 1 0 0 DID I 7 NS Pump 28 GG-60 522 + 0 3 0 0 DID I 8 NS Pump 2A GG-59 522 + 0 2 0 0 DID I 9 CA Pumps (Unit 1) 88-51 543 + 0 14 0 0 LSS I 10 Mech Pen Room JJ-52 543 + 0 3 0 0 LSS I 11 Corridor/Cables NN-51 543 + 0 6 0 0 DID I 12 NV Pump #1 (Unit 1) JJ-53 543 + 0 1 0 0 DID I

* 13 NI Pump 18 HH-53 543 + 0 1 0 0 DID I 14 NI Pump 1A GG-53 543 + 0 1 0 0 DID I 15 NV Pump 18 JJ-54 543 + 0 2 0 0 DID I 16 NV Pump 1A JJ-55 543 + 0 2 0 0 DID I 17 Aisles/Cables KK-56 543 + 0 18 0 0 DID I 18 Aisles/Cables EE-55 543 + 0 6 0 0 LSS I 19 CA Pumps (Unit 2) 88-63 543 + 0 14 0 0 LSS I 20 Mech Pen Room JJ-62 543 + 0 3 0 0 LSS I 21 Aisles/Cables NN-61 543 + 0 6 0 0 DID I 22 NV Pump #2 (Unit 2) JJ-60 543 + 0 1 0 0 DID I 23 NI Pump 28 HH-60 543 + 0 1 0 0 DID I 24 NI Pump 2A GG-60 543 + 0 1 0 0 DID I 25 NV Pump 28 JJ-59 543 + 0 2 0 0 DID I 26 NV Pump 2A JJ-58 543 + 0 2 0 0 DID I 27 Aisles/Cables KK-59 543 + 0 20 0 0 DID I 28 Aisles/Cables EE-58 543 + 0 6 0 0 LSS I 29 Swgr Equip Room AA-50 560 + 0 7 0 0 HSS I 30 Elect Pen Room CC-50 560+ 0 8 0 0 LSS I 31 Corridor/Cables EE-53 560 + 0 5 0 0 DID I 32 Corridor/Cables KK-52 560 + 0 8 0 0 DID I

* Catawba Units 1 and 2 16.9-6-6 Revision 11 Fire Detection Instrumentation

* 16.9-6 Table 16.9-6-1 Fire Detection Instruments EFA DESCRIPTION LOCATION REQUIRED RISK CRITERIA ZONE INSTRUMENTS(1> COLUMN ELEVATION SMOKE FLAME HEAT OR AZIMUTH 33 Corridor/Cables NN-54 560 + 0 9!3) 0 0 DID I 34 Aisles/Cables JJ-56 560 + 0 14 0 0 DID I 35 Motor Control Center GG-56 560 + 0 2 0 0 DID I 36 Cable Tray Access FF-56 568 + 0 2 0 0 DID I 37 Equip Batteries DD-55 554 + 0 5 0 0 LSS I 38 Equip Batteries CC-55 544 + 0 5 0 0 LSS I 39 Battery Room CC-56 554 + 0 17 0 0 LSS I 41 Swgr Equip Room AA-64 560 + 0 7 0 0 HSS I 42 Elect Pen Room CC-65 560 + 0 8 0 0 LSS I 43 Corridor/Cables FF-61 560 + 0 5 0 0 DID I 44 Aisles/Cables KK-63 560 + 0 8 0 0 DID I 45 Aisles/Cables NN-60 560 + 0 12(3 l 0 0 DID I 46 Aisles/Cables HH-59 560 + 0 13 0 0 DID I

* 47 Motor Control Center GG-58 560 + 0 2 0 0 DID I 48 Cable Tray Access FF-58 560 + 0 2 0 0 DID I 49 Equip Batteries DD-60 560 + 0 5 0 0 LSS I 50 Equip Batteries CC-60 560 + 0 5 0 0 LSS I 51 Battery Room CC-59 560 + 0 17 0 0 LSS I 53 Swgr Equip Room AA-49 577 + 0 7 0 0 HSS I 54 Elect Pen Room CC-50 577 + 0 10 0 0 LSS I 55 Aisles/Ca bl es NN-52 577 + 0 8(3) 0 0 DID I 56 Aisles/Cables PP-55 577 + 0 13(3) 0 0 DID I 57 Aisles/Cables LL-55 577 + 0 11 0 0 DID I 58 Aisles/Cables HH-55 577 + 0 17(:!) 0 0 DID I 59 Motor Control Center EE-54 577 + 0 2 0 0 DID I 60 Cable Room CC-56 574 + 0 18 0 0 LSS I 62 Swgr Equip Room AA-64 577 + 0 7 0 0 HSS I 63 Elect Pen Room CC-64 577 + 0 10 0 0 LSS I 64 Aisles/Cables PP-62 577 + 0 g(3) 0 0 DID I 65 Aisles/Cables PP-59 577 + 0 11 (3) 0 0 DID I 66 Aisles/Cables LL-59 577 + 0 11 0 0 DID I 67 Aisles/Cables HH-59 577 + 0 17(3 J 0 0 DID I Catawba Units 1 and 2 16.9-6-7 Revision 11 *

* Fire Detection Instrumentation 16.9-6 Table 16.9-6-1 Fire Detection Instruments EFA DESCRIPTION LOCATION REQUIRED RISK CRITERIA ZONE INSTRUMENTS' 1> COLUMN ELEVATION SMOKE FLAME HEAT OR AZIMUTH 68 Motor Control Center FF-60 577 + 0 2 0 0 DID 69 Cable Room CC-59 577 + 0 18 0 0 LSS 71 Elect Pen Room CC-51 594 + 0 10 0 0 LSS 72 Control Room CC-56 594 + 0 25 0 0 LSS 73 Vent Equip Room FF-56 594 + 0 9 0 0 DID 74 Aisles/Cables LL-56 594 + 0 25 0 0 DID 76 Aisles/Cables PP-54 594 + 0 15 0 0 DID 79 Elect Pen Room BB-63 594 + 0 11 0 0 LSS 80 Control Room BB-59 594 + 0 22 0 0 LSS 81 Vent Equip Room FF-58 594 + 0 12 0 0 DID 82 Aisles/Cables KK-58 594 + 0 27 0 0 DID 84 Aisles/Cables NN-58 594 + 0 17 0 0 DID

* 89 Fuel Pool Area PP-50 605 + 10 19 7 0 DID Unit 1 90 Fuel Pool Area PP-64 605 + 10 19 7 0 DID Unit 2 129 Fuel Pool Purge NN-50 631+6 6 0 0 LSS Room 1} 0&deg;-45&deg; 131 Reactor Bldg (Unit 1) Below 565 + 3 4 0 0 CONTAINMENT 132 Reactor Bldg (Unit 1) 45&deg;-90&deg; Below 565 + 3 3 0 0 CONTAINMENT 133 Reactor Bldg (Unit 1) 90&deg;-135&deg; Below 565 + 3 4 0 0 CONTAINMENT 134 Reactor Bldg (Unit 1) 135&deg;-180&deg; Below 565 + 3 5 0 0 CONTAINMENT 135 Reactor Bldg (Unit 1) 180&deg;-225&deg; Below 565 + 3 4 0 0 CONTAINMENT 136 Reactor Bldg (Unit 1) 270&deg;-315&deg; Below 565 + 3 3 0 0 CONTAINMENT 137 Reactor Bldg (Unit 1) 315&deg;-0&deg; Below 565 + 3 8 0 0 CONTAINMENT 138 Reactor Bldg (Unit 1) 0&deg;-45&deg; Below 586 + 3 6 0 0 CONTAINMENT 139 Reactor Bldg (Unit 1) 45&deg;-90&deg; Below 586 + 3 4 0 0 CONTAINMENT 140 Reactor Bldg (Unit 1) 90&deg;-135&deg; Below 565 + 3 3 0 0 CONTAINMENT 141 Reactor Bldg (Unit 1) 135&deg;-180&deg; Below 586 + 3 8 0 0 CONTAINMENT 142 Reactor Bldg (Unit 1) 180&deg;-225&deg; Below 586 + 3 5 0 0 CONTAINMENT 143 Reactor Bldg (Unit 1) 315&deg;-0&deg; Below 586 + 3 5 0 0 CONTAINMENT 144 Reactor Bldg (Unit 1) 0&deg;-45&deg; Below 593 + 2 1 /2 14 0 0 CONTAINMENT 145 Reactor Bldg (Unit 1) 45&deg;-90&deg; Below 593 + 2 1 /2 16 0 0 CONTAINMENT

* Catawba Units 1 and 2 16.9-6-8 Revision 11 Fire Detection Instrumentation

* 16.9-6 Table 16.9-6-1 Fire Detection Instruments EFA DESCRIPTION LOCATION REQUIRED RISK CRITERIA ZONE I NSTRUMENTs<

1> COLUMN ELEVATION SMOKE FLAME HEAT OR AZIMUTH 146 Reactor Bldg (Unit 1) 90&deg;-135&deg; Below 593 + 2 1 /2 11 0 0 CONTAINMENT I 147 Reactor Bldg (Unit 1) 135&deg;-180&deg; Below 593 + 2 1 /2 10 0 0 CONTAINMENT I 148 Reactor Bldg (Unit 1) 180&deg;-225&deg; Below 593 + 2 1/2 2 0 0 CONTAINMENT I 149 Reactor Bldg (Unit 1) 315&deg;-0&deg; Below 593 + 2 1 /2 7 0 0 CONTAINMENT I 150 Reactor Bldg (Unit 2) 0&deg;-45&deg; Below 565 + 3 4 0 0 CONTAINMENT I 151 Reactor Bldg (Unit 2) 45&deg;-90&deg; Below 565 + 3 3 0 0 CONTAINMENT I 152 Reactor Bldg (Unit 2) 90&deg;-135&deg; Below 565 + 3 4 0 0 CONTAINMENT I 153 Reactor Bldg (Unit 2) 135&deg;-180&deg; Below 565 + 3 5 0 0 CONTAINMENT I 154 Reactor Bldg (Unit 2) 180&deg;-225&deg; Below 565 + 3 2 0 0 CONTAINMENT I 155 Reactor Bldg (Unit 2) 270&deg;-315&deg; Below 565 + 3 4 0 0 CONTAINMENT I 156 Reactor Bldg (Unit 2) 315&deg;-0&deg; Below 565 + 3 6 0 0 CONTAINMENT I 157 Reactor Bldg (Unit 2) 0&deg;-45&deg; Below 586 + 6 6 0 0 CONTAINMENT I 158 Reactor Bldg (Unit 2) 45&deg;-90&deg; Below 586 + 6 4 0 0 CONTAINMENT I

* 159 Reactor Bldg (Unit 2) 90&deg;-135&deg; Below 586 + 6 3 0 0 CONTAINMENT I 160 Reactor Bldg (Unit 2) 135&deg;-180&deg; Below 586 + 6 8 0 0 CONTAINMENT I 161 Reactor Bldg (Unit 2) 180&deg;-225&deg; Below 586 + 6 5 0 0 CONTAINMENT I 162 Reactor Bldg (Unit 2) 315&deg;-0&deg; Below 586 + 6 5 0 0 CONTAINMENT I 163 Reactor Bldg (Unit 2) 0&deg;-45&deg; Below 593 + 2 1 /2 13 0 0 CONTAINMENT I 164 Reactor Bldg (Unit 2) 45&deg;-90&deg; Below 593 + 2 1 /2 17 0 0 CONTAINMENT I 165 Reactor Bldg (Unit 2) 90&deg;-135&deg; Below 593 + 2 1 /2 13 0 0 CONTAINMENT I 166 Reactor Bldg (Unit 2) 135&deg;-180&deg; Below 593 + 2 1 /2 10 0 0 CONTAINMENT I 167 Reactor Bldg (Unit 2) 180&deg;-225&deg; Below 593 + 2 1 /2 2 0 0 CONTAINMENT I 168 Reactor Bldg (Unit 2) 315&deg;-0&deg; Below 593 + 2 1 /2 7 0 0 CONTAINMENT I 169 NC Pump 1A 45&deg; 593 + 2 1/2 0 0 1 !2) CONTAINMENT I 170 NC Pump 1B 135&deg; 593 + 2 1/2 0 0 1 !2) CONTAINMENT I 171 NC Pump 1C 225&deg; 593 + 2 1/2 0 0 1 !2) CONTAINMENT I 172 NC Pump 10 315&deg; 593 + 2 1/2 0 0 1 !2) CONTAINMENT I 173 NC Pump 2A 45&deg; Below 593 + 2 1 /2 0 0 112) CONTAINMENT I 174 NC Pump 2B 135&deg; Below 593 + 2 1 /2 0 0 1 !2) CONTAINMENT I 175 NC Pump 2C 225&deg; Below 593 + 2 1 /2 0 0 1 {2) CONTAINMENT I 176 NC Pump 20 315&deg; Below 593 + 2 1/2 0 0 1 {2) CONTAINMENT I 177 Filter Bed Unit 1 A oo Below 565 + 3 2 0 0 CONTAINMENT I Catawba Units 1 and 2 16.9-6-9 Revision 11 *

* Fire Detection Instrumentation 16.9-6 Table 16.9-6-1 Fire Detection Instruments EFA DESCRIPTION LOCATION REQUIRED RISK CRITERIA ZONE INSTRUMENTS' 1 l COLUMN ELEVATION SMOKE FLAME HEAT OR AZIMUTH 178 Filter Bed Unit 1 B 180&deg; Below 565 + 3 2 0 0 CONTAINMENT 179 Filter Bed Unit 2A 00 565 + 3 2 0 0 CONTAINMENT 180 Filter Bed Unit 28 180&deg; 565 + 3 2 0 0 CONTAINMENT 181a Annulus (Unit 1) 0&deg;-350&deg; 561+0 0 0 1\:!j DID 181b Annulus (Unit 1) 10&deg;-360&deg; 583 + 0 0 0 1(2) DID 181c Annulus (Unit 1) 0&deg;-350&deg; 604 + 0 0 0 1(2) DID 181d Annulus (Unit 1) 10&deg;-360&deg; 629 + 5 0 0 1 (2) DID 181e Annulus (Unit 1) o 0-3so 0 649 + 5 0 0 1 (2) DID 181f Annulus (Unit 1) 10&deg;-360&deg; 664 + 0 0 0 1 (2) DID 182a Annulus (Unit 2) 0&deg;-350&deg; 561+0 0 0 1 (2) DID 182b Annulus (Unit 2) 10&deg;-360&deg; 583 + 0 0 0 1 (2) DID 182c Annulus (Unit 2) 0&deg;-350&deg; 604 + 0 0 0 1\2) DID

* 182d Annulus (Unit 2) 10&deg;-360&deg; 629 + 5 0 0 1(2) DID 182e Annulus (Unit 2) 0&deg;-350&deg; 649 + 5 0 0 1(2) DID 182f Annulus (Unit 2) 10&deg;-360&deg; 664 + 0 0 0 1(2) DID 183 Fuel Pool Purge NN-64 631 + 6 6 0 0 LSS Room (Unit 2} 184 HVAC Duct for FF-53 543 + 0 1 (Duct) 0 0 DID Rooms 331 & 332 185 HVAC Duct for MM-60 543 + 0 1 (Duct) 0 0 DID Rooms 203, 205, 205A, 206A, 2068, 207, & 209A 186 HVAC Duct for NN-60 560 + 0 1 (Duct) 0 0 DID Rooms 301, 302, 305, & 307 212 Aisles/Cables GG-57 522 + 0 2 0 0 DID 213 Aux Battery Room M-55 544 + 0 4 0 0 LSS 214 Aux Control Power AA-59 560 + 0 4 0 0 LSS Batteries 215 DIG Corridor/

BB-45 556 + 0 5 0 0 LSS 216 DIG Corridor/

AA-45 556 + 0 4 0 0 LSS

* Catawba Units 1 and 2 16.9-6-10 Revision 11 Fire Detection Instrumentation

* 16.9-6 Table 16.9-6-1 Fire Detection Instruments EFA DESCRIPTION LOCATION REQUIRED RISK CRITERIA ZONE I NSTRUMENTs' 1> COLUMN ELEVATION SMOKE FLAME HEAT OR AZIMUTH 217 DIG Corridor/

CC-71 560 + 0 5 0 0 LSS 218 DIG Corridor/

BB-71 560 + 0 4 0 0 LSS 219 Mech Pen Room HH-52 577 + 0 6 0 0 DID 220 Mech Pen Room JJ-62 577 + 0 6 0 0 DID 222 Airlock Access JJ-51 605 + 10 0 0 DID Unit 1 224 Airlock Access JJ-63 605 + 10 1 0 0 DID Unit 2 225 RN Pump Structure West 600 + 0 8 0 0 DID Train} Section 226 RN Pump Structure East 600 + 0 8 0 0 DID {A Train} Section

* 231 Reactor Bldg (Unit 1) 260&deg;-303&deg; Below 668 + 10 10 0 0 CONTAINMENT 232 Reactor Bldg (Unit 2) 260&deg;-303&deg; Below 668 + 10 10 0 0 CONTAINMENT (1) The fire detection instruments located within the containment are not required to be FUNCTIONAL during the performance of Type A containment leakage rate tests. (2) Line type detector.

(3) See Bases section for explanation of the number of required detectors for this zone. Catawba Units 1 and 2 16.9-6-11 Revision 11 * 

* BASES Fire Detection Instrumentation 16.9-6 FUNCTIONALITY of the detection instrumentation ensures that adequate warning capability is available for prompt detection of fires. Prompt detection and suppression of fires will reduce the potential for damage to safety related equipment and is an integral element in the overall facility Fire Protection Program. Definitions:

Conventional Detection Addressable Detection A detector where the signal received does not identify the individual device operated.

A detector with discrete identification that can have its status individually identified.

An acceptable method to satisfy the functional test requirement for smoke detectors is by pre-testing (actuates at the required setpoint within the required accuracy) the detection instruments, replacing all detection instruments on a signaling circuit, and then actuating one detection instrument on the signaling circuit to verify FUNCTIONALITY of alarm. The following detectors are not included in the Table 16.9-6-1 EFA Zones as "REQUIRED INSTRUMENTS" because they are located in high radiation areas with minimal combustible loading, or because they are located in non-safety related areas. As a result, they are also exempt from the TESTING REQUIREMENTS given in this SLC: EFA DETECTOR ROOM LOCATION REASON ZONE NUMBER NUMBER CODE INOTE 1) 33 FD033D04 315 560, Valve Gallerv, LU53 1 45 FD045D04 306 560, Valve Gallerv, LL/61 1 55 FD055D02 417 577, U1 KF Demin. Room, NN-PP/51 1 56 FD056D14 401 577, Elevator Corridor, RR-SS/55-58 2 56 FD056D15 401 577, Elevator Corridor, RR-SS/55-58 2 56 FD056D16 401 577, Elevator Corridor, RR-SS/55-58 2 58 FD058D01 476 577, U1 Letdown Hx Room, KK/53 1 58 FD058D02 477 577, U1 Moderatino Hx Room, JJ/53 1 58 FD058D03 474 577, U1 Letdown Reheat Hx Room 1 58 FD058004 475 577, U1 Letdown Chiller Hx Room 1 64 FD064D08 408 577, U2 KF Demin. Room, NN-PP/63 1 65 FD065D01 405 577, Filter Bunker Room, RR-SS/58-60 2 65 FD065D02 405 577, Filter Bunker Room, RR-SS/58-60 2 65 FD065005 404A 577, Evap. Concentrate Batching Tank Room, 1 PP-QQ/59 65 FD065D04 404B 577, Radwaste Feed Skid and Dewatering Pump 1 Room, PP-QQ/59-60 65 FD065D08 550 577, Radwaste Batching Tank Room. NN-PP/60 1 65 FD065D10 404C 577, Evap. Concentrate Holdup Tank Room, NN-1 PP/59 65 FD065D12 403 577, Container and Drum StQ. Room, NN/57-58 1 67 FD067D15 465 577, U2 Letdown Reheat Hx Room 1 67 FD067D16 466 577, U2 Letdown Chiller Hx Room 1 67 FD067D17 467 577, U2 Letdown Hx Room, KK/61 1 67 FD067D18 468 577, U2 Moderating Hx Room, JJ/61 1 Catawba Units 1 and 2 16.9-6-12 Revision 11 BASES (continued)

REASON CODES: 1. High radiation area Fire Detection Instrumentation 16.9-6 2. Non-safety related area For the individual detector designation, see the EFA System Detector Series drawings (CNM-1376.00 series). Excluding the detectors in the above listed rooms from the "REQUIRED INSTRUMENTS" is acceptable for the following reasons:

* All of the above listed detectors, with the exception of detector A 12 in EFA Zone 65, are located in rooms that consist of very little to no combustible loading. These rooms contain primarily piping and mechanical equipment such as tanks, demineralizers, or heat exchangers.

This type of equipment is not significantly prone to fire damage or fire propagation.

In the case of detector A 12 in EFA Zone 65, the room is separated from adjacent areas with fire rated three-foot thick concrete walls and has additional detectors in the room that will remain in the scope of this SLC.

* All of the above listed rooms are adjacent to areas that also contain smoke detectors that alarm to the control room. Thus, in the unlikely event that a significant fire should occur in one of these rooms, the smoke detectors in the adjacent areas would provide an alarm to the control room. *