ML20205B134

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Revs to Catawba Nuclear Station Selected Licensee Commitments Manual
ML20205B134
Person / Time
Site: Catawba  Duke Energy icon.png
Issue date: 03/11/1999
From:
DUKE POWER CO.
To:
Shared Package
ML20205B128 List:
References
PROC-990311, NUDOCS 9903310160
Download: ML20205B134 (25)
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  • CATAWBA NUCLEAR STATION SELECTED LICENSEE COMMITMENTS MANUAL List of Effective Pages

' Tab 18.6 16.6-1 Page 1 of 1 01/16/99 16.6-2 Page 1 of 2 01/16/99 16.6-2 Page 2 of 2 01/16/99 16.6-3 Page 1 of 2 01/16/99 16.6-3 Page 2 of 2 01/16/99 16.6-4 Page 1 of 2 01/16/99 16.6-4 Page 2 of 2 01/16/99 Tab 16.7 16.7-1 Page 1 of 2 05/04/98 16.7-1 Page 2 of 2 05/04/98 16.7-2 Page 1 of 4 01/16/99 16.7-2 Page 2 of 4 01/16/99 16.7-2 Page 3 of 4 01/16/99 16.7-2 Page 4 of 4 01/16/99 16.7-3 Page 1 of 4 03/11/99 16.7-3 Page 2 of 4 03/11/99 16.7-3 Page 3 of 4 01/16/99 16.7-3 Page 4 of 4 O 16.7-4 Page 1 of 2 16.7-4 Page 2 of 2 01/16/99 01/16/99 01/16/99 16.7-5 Page 1 of 2 05/04/98 16.7-5 Page 2 of 2 05/04/98 16.7-6 Page 1 of 2 01/16/99 16.7 S Page 2 of 2 01/16/99 16.7-7 Page 1 of 2 01/16/99 16.7-7 Page 2 of 2 01/16/99 16.7-8 Page 1 of 2 01/16/99 16.7-8 Page 2 of 2 01/16/99 16.7-9 Page 1 of 4 01/16/99 16.7-9 Page 2 of 4 01/16/99 16.7-9 Page 3 of 4 01/16/99 16.7-9 Page 4 of 4 01/16/99

.16.7-10 Page 1 of 6 01/16/99 16.7-10 Page 2 of 6 01/16/99 16.7-10 Page 3 of 6 01/16/99 16.7-10 Page 4 of 6 01/16/99 16.7-10 Page 5 of 6 03/11/99 .

16.7-10 Page 6 of 6 01/16/99 16.7-11 Page 1 of 1 01/16/99 16.7-12 Page 1 of 2 01/16/99 16.7-12 Page 2 of 2 01/16/99 Page 2 of 8 03/11/99

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CATAWBA NUCLEAR STATION SELECTED LICENSEE COMMITMENTS MANUAL Liet of Effective Pages

' Tab 18.8 (continued) 16.8-1 Page 44 of 49 05/04/98 16.8-1 Page 46 of 49 05/04/98 16.8-1 Page 47 of 49 05/04/98 16.8-1 Page 49 of 49 05/04/98 16.8-2 Page 1 of 2 01/16/99 16.8-2 Page 2 of 2 01/16/99 16.8-3 Page 1 of 2 01/15/97 16.8-3 Page 2 of 2 01/15/97 16.8 4 Page 1 of 2 05/29/97 16.8-4 Page 2 of 2 05/29/97 16.8-5 Page 1 of 2 01/16/99 16.8-5 Page 2 of 2 01/16/99 Tab 16.9 16.9-1 Page 1 of 4 01/16/99 16.9-1 Page 2 of 4 01/16/99 16.9-1 Page 3 of 4 01/16/99 16.9-1 Page 4 of 4 01/16/99 O 16.9-2 Page 1 of 5 16.9-2 Page 2 of 5 01/16/99 01/16/99 16.9-2 Page 3 of 5 01/16/99 16.9-2 Page 4 of 5 01/16/99 16.9-2 Page 5 of 5 01/16/99 16.9-3 Page 1 of 4 03/11/99 16.9-3 Page 2 of 4 03/11/99 16.9-3 Page 3 of 4 03/11/99 16.9-3 Page 4 of 4 03/11/99 16.9-4 Page 1 of 5 01/1G/99 16.9-4 Page 2 of 5 01/16/99 16.9-4 Page 3 of 5 01/16/99 16.9-4 Page 4 of 5 01/16/99 16.9-4 Page 5 of 5 01/16/99 16.9-5 Page 1 of 6 01/16/99 16.9-5 Page 2 of 6 01/16/99 16.9-5 Page 3 of 6 01/16/99 16.9-5 Page 4 of 6 01/16/99 16.9-5 Page 5 of 6 01/16/99 l 16.9-5 Page 6 of 6 01/16/99 )

16.9-6 Page 1 of 11 03/11/99  !

16.9-6 Page 2 of 11 03/11/99 16.9-6 Page 3 of 11 03/11/99 Page 4 of 8 03/11/99

CATAWBA NUCLEAR STATION SELECTED LICENSEE COMMITMENTS MANUAL List of Effective Pages

' Tab 16.9 (continued) 16.9-6 Page 4 of 11 03/11/99 16.9-6 Page 5 of 11 03/11/99 16.9-6 Page 6 of 11 03/11/99 16.9-6 Page 7 of 11 03/11/99 16.9-6 Page 8 of 11 03/11/99 16.9-6 Page 9 of 11 03/11/99 16.9-6 Page 10 of 11 03/11/99 16.9-6 Page 11 of 11 03/11/99 16.9-7 Page 1 of 2 01/16/99 16.9-7 Page 2 of 2 01/16/99 16.9-8 Page 1 of 2 01/16/99 l 16.9-8 Page 2 of 2 01/16/99 16.9-9 Page 1 of 2 l 01/16/99 j 16.9-9 Page 2 of 2 01/16/99 1 16.9-10 Page 1 of 1 01/16/99 16.9-11 Page 1 of 3 01/16/99 16.9-11 Page 2 of 3 01/16/99 16.9-11 Page 3 of 3 01/16/99 16.9-12 Page 1 of 3 01/16/99

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16.9-12 Page 2 of 3 16.9-12 Page 3 of 3 01/16/99 01/16/99 16.9-13 Page 1 of 10 01/16/99 16.9-13 Page 2 of 10 01/16/99 16.9-13 Page 3 of 10 01/16/99 16.9-13 Page 4 of 10 01/16/99 16.9-13 Page 5 of 10 01/16/99 16.9-13 Page 6 of 10 01/16/99 16.9-13 Page 7 of 10 01/16/99 16.9-13 Page 8 of 10 01/16/99 16.9-13 Page 9 of 10 01/16/99 16.9-13 Page 10 of 10 01/16/99 16.9-14 Page 1 of 2 01/16/99 16.9-14 Page 2 of 2 01/16/99 16 4-15 Page 1 of 1 01/16/99 16 16 Page i of 1 01/16/99 16 17 Page 1 of 1 01/16/99 16.9-18 Page 1 of 1 01/16/99 16.9-19 Page 1 of 2 01/16/99 16.9-19 Page 2 of 2 01/16/99 16.9-20 Page 1 of 1 01/'.6/99 10.9-21 Page 1 of 1 01/16/99 16.9-2.2 Page 1 of 2 01/16/99 O Page 5 of 8 03/1199

CATAWBA NUCLEAR STATION SELECTED LICENSEE COMMITMENTS MANUAL List of Effective Pages Tab 16.9 (continued) 16.9-22 Page 2 of 2 01/16/99 16.9-23 Page 1 of 3 05/04/98 16.9-23 Page 2 of 3 05/04/98 16.9-23 Page 3 of 3 05/04/98 Tab 16.10 16.10-1 Page 1 of 2 01/16/99 16.10-1 Page 2 of 2 01/16/99 16.10-2 Page 1 of 2 01/15/97 16.10-2 Page 2 of 2 01/15/97 Tab 16.11 16.11-1 Page 1 of 7 01/16/99 16.11-1 Page 2 of 7 01/16/99 16.11-1 Page 3 of 7 01/16/99 16.11-1 Page 4 of 7 01/16/99 16.11-1 Page 5 of 7 01/16/99

,o 16.11-1 Page 6 of 7

() 16.11-1 Page 7 of 7 16.11-2 Page 1 of 6 01/16/99 01/16/99 01/16/99 16.11-2 Page 2 of 6 01/16/99 16.11-2 Page 3 of 6 01/16/99 16.11-2 Page 4 of 6 01/16/99 16.11-2 Page 5 of 6 03/11/99 16.11-2 Page 6 of 6 01/16/99 16.11-3 Page 1 of 2 '01/16/99 l 16.11-3 Page 2 of 2 01/16/99 '

16.11-4 Page 1 of 2 01/16/99 16.11-4 Page 2 of 2 01/16/99 16.11-5 Page 1 of 3 08/01/94 16.11-5 Page 2 of 3 08/01/94 16.11-5 Page 3 of 3 08/01/94 16.11-6 Page 1 of 7 01/16/99 16.11-6 Page 2 of 7 01/16/99  !

16.11-6 Page 3 of 7 01/16/99 16.11-6 Page 4 o' 7 01/16/99 16.11-6 Page 5 of 7 01/16/99 16.11-6 Page 6 of 7 01/16/99 16.11-6 Page 7 of 7 01/16/99 16.11-7 Page 1 of 9 01/16/99 16.11-7 Page 2 of 9 01/16/99 O Page 6 of 8 03/11/99

CATAWBA NUCLEAR STATION SELECTED LICENSEE COMMITMENTS MANUAL 4

List of Effective Pages I

' Tab 16.11 (continued) 16.11-7 Page 3 of 9 01/16/99 I 16.11-7 Page 4 of 9 01/16/99 16.11-7 Page 5 of 9 01/16/99 16.11-7 Page 6 of 9 l 01/16/99 16.11-7 Page 7 of 9 01/16/99 16.11-7 Page 8 of 9 01/16/99 16.11-7 Page 9 of 9 01/16/99 16.11-8 Page 1 of 2 01/16/99 16.11-8 Page 2 of 2 01/16/99 16.11-9 Page 1 of 2 01/16/99 16.11-9 Page 2 of 2 01/16/99 16.11-10 Page 1 of 2 01/16/99 16.11-10 Page 2 of 2 01/16/99 16.11-11 Page 1 of 2 01/16/99 16.11-11 Page 2 of 2 01/16/99 16.11-12 Page 1 of 2 01/16/99 16.11-12 Page 2 of 2 01/16/99 16.11-13 Page 1 of 14 01/16/99 16.11-13 Page 2 of 14 01/16/99 16.11-13 Page 3 of 14 01/16/99 O 16.11-13 Page 4 of 14 16.11-13 Page 5 of 14 01/16/99 01/16/99 16.11-13 Page 6 of 14 01/16/99 16.11-13 Page 7 of 14 01/16/99 16.11-13 Page 8 of 14 01/16/99 16.11-13 Page 9 of 14 01/16/99 16.11-13 Page 10 of 14 01/16/99 16.11-13 Page 11 of 14 01/16/99 16.11-13 Page 12 of 14 01/16/99 16.11-13 Page 13 of 14 01/16/99 16.11-13 Page 14 of 14 01/16/99 16.11-14 Page 1 of 2 01/16/99 16.11-14 Page 2 of 2 01/16/99 16.11-15 Page 1 of 1 01/16/99 16.11-16 Page 1 of 4 01/16/99 16.11-16 Page 2 of 4 03/11/99 16.11-16 Page 3 of 4 01/16/99 16.11-16 Page 4 of 4 01/16/99 16.11-17 Page 1 of 2- 01/16/99 16.11-17 Page 2 of 2 01/16/99 16.11-18 Page 1 of 2 01/16/99 16.11-18 Page 2 of 2 01/16/99 16.11-19 Page 1 of 2 01/16/99 O Page 7 of 8 03/11/99

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1 16.7 INSTRUMENTATION 16.7-5 METEOROLOGICAL INSTRilMENTATION I

COMMITMENT:

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

APPLICABILITY:

At all times.

l REMEDIAL ACTION:

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

TESTING REQUIREMENTS:

a. Each of the above meteorological monitoring instrumentation channels shall be demonstrated OPERABLE by the performance of a CHANNEL CHECK and Instrument Calibration at the frequencies shown in Table 16.7-38. l REFERENCS:

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BASES:  !

l The OPERABILITY of the meteorological instrumentation ensures that sufficient j meteorological data are available for estimating potential radiation doses to the public as a result of routine or accidental release of radioactive materials to the  !

atmosphere. This capability is required to evaluate the need for initiating protective i measures to protect the health and safety of the public and is consistent with the I recommendations of Regulatory Guide 1.23,"Onsite Meteorological Programs,"

February 1972.

1 An Instrument Calibration will consist of the following test: ,

1) A bench based test and calibration of the tower mounted sensors for:

O Chapter 16.7-3 Page 1 of 4 03/11/99

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- . Wind Speed l

. Wind Direction

. Temperature RTD's and Temperature Processing Module (Ambient and Delta T)

2) An Instrument Loop Calibration from the input of the signal proc'essors to the end devices.
3) For Wind Direction a Line Phase Differential Compensation will be j performed, which includes the tower signal cable. .
4) A CHANNEL CHECK, subsequent to any work performed. This will verify  !

continuity of the signal cable between the sensor and signal processors.

The Wind Speed Sensors and cup-sets or Wind Direction Sensors and l

5) l Vanes do not require wind tunnel testing as an assembly, i
6) Replacement of cup-sets or vanes does not require an Instrument Calibration of the affected channel.

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Chapter 16.7-3 Page 2 of 4 03/11/99 i

TABLE 16.7-10A REMEDIAL ACTION STATEMENTS (con't)

ACTION H - With the number c>f OPERABLE channels less than the Minimum Channels OPERABLE requirement, operation may continue for up to 30 days provided that, at least once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />, grab samples are collected and analyzed for principal gamma emitters (listed in Table '

16.11-1, Table Notation (3)) at a lower limit of detection of no more than 5x10'7 Ci/ml.

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Chapter 16.7-10 Page 5 of 6 03/11/99

16 9 AUXIUARY SYSTEMS - FIRE PROTECTION SYSTEMS

'16J-1 CO2 SYSTEMS 1

COMMITMENT:

The following High Pressure and Low Pressure CO2 Systems shall be OPERABLE:

a. Low Pressure CO 2System - Diesel generator rooms, and
b. High Pressure CO2 System - Auxiliary feedwater pump rooms APPUCABILITY:

Whenever equipment protected by the Systems is required to be OPERABLE.

REMEDIAL ACTION:

a. With one or more of the Low Pressure CO2 System (Diesel Generator Rooms) inoperable, within one hour establish an hourly fire watch with backup fire suppression equipment as long as the fire barrier between the affected A and B tra;n D/G rooms is intact. If the fire barrier between the O affected A anci B train D/G rooms is not intact or backup fire suppression equipment is not available, establish a continuous fire watch
b. With one or more of the High Pressure CO2 Systems (Aux Feedwater Pump Rooms) inoperable, within one hour establish a continuous fire watch.

TESTlHG REQUIREMER

a. Each of the above required CO2 Systerns shall be demonstrated OPERABLE by visual verification that each valve (manual, power operated, or automatic) in the flow path is in the correct position.

The frequency of the verification shall be determined by the performance based criteria in the Bases Section.

b. Each of tae above required Low Pressure CO2 Systems shall be demonstrated OPERABLE:
i. At least once per 7 days by verifying the CO2 storage tank level to be greater than 44% of full caps. city, and O

CHAPTER 16.9-3' Page 1 of 4 03/11/99

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TESTING REQUIREMENTS (cont'd)

I ii. At least once per 18 months by verifying:

1) Each system actuates manually and automatically, upon receipt of a simulated actuation signal,
2) Normal and Emergency Ventilation System Fans receive an "off" signal upon system operation, and
3) By a visual inspection of discharge nozzles to assure no blockage.
c. Each of the L . .e required High Pressure CO2 Systems shall be demonstrated OPERABLE:
i. At least once per 6 months by verifying the weight of each CO2 storage cylinder to be at least 90% of full charge weight, and ii. At least once per 18 mor.ths by:
1) Verifying each system actuates manually and automatically upon receipt of a simulated actuation signal,
2) Verifying that damper closure devices receive an actuation

, signal upon system operation, and

3) A visualinspection of the discharge nozzles to assure no blockage.
d. Each of the initiating device circuits for both the Low Pressure CO2 and the High Pressure CO2 Systems shall be demonstrated OPERABLE:
i. At least once per 6 months by performing a visualinspection of all spot type heat detectors.

ii. At least once per 6 months by simulating actuation of the system by applying a heat source to one restorable spot type heat detector in tha circuit. A different detector shall be selected for each test.

iii. Fct non-restorable spot type heat detectors, at least 2%, or fraction thereof, shall be removed and functionally tested once every 15 years.

For each failure that occurs on the detectors removed, two additional q detectors shall be removed and tested. An acceptable altemative is to NJ CHAPTER 16.9-3 Page 2 of 4 03'11/99

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replace all non-restorable spot type heat detectors at least once every 15 years.

REFERENCES

1) Catawba FSAR, Section 9.5.1
2) Catawba SER, Section 9.5.1
3) Catawba SER, Supplement 3, Section 9.5.1 BASES:

The OPERABILITY of the Fire Suppression Systems ensures that adequate fire '

suppression capability is available to confine and extinguish fires occurring in any portion of the facility where safety-related equipment is located. The Fire Suppiession System consists of the water system, spray, and/or sprinklers, CO2, and fire hose stations. The collective capability of the Fire Suppression Systems is adequate to minimize potential damage to safety-related equipment and is a major element in the facility Fire Protect 5 9 Program.

The proper positioning of RF. valves is critical to delivering fire suppression CO2 at the fire source as quickly as possible. The option of increasing or decreasing the O frequency of valve position verification allows the ability to optimize plant operational resources. Should an adverse trend develop w;th CO2 Systems valve positions, the frequency of verification sha!I be increased. Similarly if the CO2 Systems valve position trends are positive, the frequency of verification could be decreased.

Through programmed trending of CO2 Systems as found valve positions, the CO2 fire protection systems will be maintained at predetermined reliability standards.

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

Initially the frequency will be monthly.

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

. if the results demonstrates that the valves are found in the correct position at least 99% of the time, the frequency of conducting :he 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).

i e- if the results demonstrates 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 serniannually or - semiannually to quarterly CHAPTER 16.9-3 Page 3 of 4 03/11/99

BASES: (cont'd) 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 inoperable, altemate backup fire-fighting equipment is required to be made available in the affected areas until the inoperable equipment is restored to service. When the inoperable fire-  !

fighting equipment is intended for use as a backup means of fire suppression, a l longer period of time is allowed to provide an attemate means of fire fighting than if the inoperable equipment is the primary means of fire suppression.

This Selected Licensee Commitment is part of the Catawba Fire Protection Program and therefore subject to the provisions of the Catawba Facility Operating License Conditions #6 for NPF-52 and #8 for NPF-35.

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CHAPTER 16.9-3 Page 4 of 4 03!11/99

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1_ga AUXILIARY SYSTEMS - FIRE PROTECTION SYSTEMS

.1ja-g FIRE DETECTION INSTRUMENTATION COMMITMENT:

As a minimum, the fire detection instrumentation 'or each fire detection zone shown in Table 16.9-3 shall be OPERABLE.

APPLICABILITY:

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

REMEDIAL ACTION:

a. With any, but not more than one-half the total in any fire zone, fire detection l instruments shown in Table 16.9-3 inoperable, restore the inoperable instrument (s) to OPERABLE status within 14 days or within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> establish a fire watch patrol to inspect the zone (s) with the inoperable instrument (s) at least once per hour, unless the instrument (s) is located inside the containment, then inspect that containment zone at least once per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> or l monitor the containment air temperature at least once per hour at the locations listed in Technical Specification Surveillance 3.6.5.1 (Upper Containment) or 3.6.5.2 (Lower Containment), as applicable.
b. With more than one-half of the fire detection instruments in any fire zone shown in Table 16.9-3 inoperable, or with any two or more adjacent fire detection instruments shown in Table 16.9-3 inoperable, within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> establish a fire watch patrol to inspect the zone (s) with the inoperable instrument (s) at least once per hour, unless the instrumen'.(s) is located inside the containment, then inspect that containment zone at least once per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> or monitor the containment air temperature at least once per hour at the locations listed in Technical Specification Surveillance 3.6.5.1 (Upper Containment) or 3.6.5.2 (Lower Containment), as applicable.

TESTING REQUIREMENTS

a. Each of the above required flame detection instruments shall be demonstrated operable at least once per 6 months by the performance of a visualinspection and at least once per year by performance of a Functional Test.

O Chapter 16.9-6 Page 1 of 11 3/11/99 l

TESTING REQUIREMENTS (con't)

' b. ' Each of the above required smoke detectn.,. 5struments which are l accessible during plant operation shall be demonstrated OPERABLE at least once per 6 months by the performance of a visual inspection and at least once per year by performance of a Functional Test. Detectors which are not accessible during plant operation shall be demonstrated operable by the performance of a Functional Test at least once per 18 months.

c. All line type heat detectors shall be demonstrated OPERABLE:
i. For restorable line type heat detectors, perform a Functional Test by applying a heat source at least once per 6 months.

ii. For non-restorable line type detectors, which are accessible during plant operation, perform a non-destr'ctive Functional Test at least once every 12 months.

iii. For non-restorable line type detectors, which are not accessible during plant operation, perform a non-destructive Functional Test at least once every 18 months.

d.

q The NFPA Standard 72D supervised circuits supervision associated with the detector alarms of each of the above required fire detection instruments shall 9

be demonstrated OPERABLE at least once per 6 months.

REFERENCES

1) Catawba FSAR, Section 9.5.1
2) Catawba SER, Section 9.5.1
3) Catawba SER, Supplement 2, Section 9.5.1
4) Catawba SER, Supplement 3, Section 9.5.1
5) Catawba Fire Protection Review, as Revised
6) Cathuba Fire Protection Commitment Index BASES:

OPERABILITY of the detection instrumentation ensures that adequate waming capab:irty 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.

O Chapter 16.9-6 Page 2 of 11 3/11/99 l

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BASES: (coat'd)

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 operability of alarm.

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

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

. The smoke detector located in the Spent Resin Batching Tank Room is not included in the Table 16.9-3 EFA Zone 65 Minimum Instruments Operable because the Spent Resir. Batching Tank Room is a High Rad Area with minimal combustible loading. Entering this room twice a year to perform smoke detector testing is not justified. The Spent Resin Batching Tank Room is enclosed by four foot thick reinforced concrete walls. The only access to this room is through a O reinforced concrete hatch in the 594+0 Elevation floor slab. In the unlikely event that a significant fire should occur in the Spent Resin Batching Tank Room, the smoke detectors adjacent to (Elevation 577 - EFA Zone 65) or above (Elevation 594 - EFA Zone 34) the Spent Resin Batching Tank Room would provide an alarm to the Control Room. The areas adjacent to the Spent Resin Br&hing Room rely on the same assured train of Post Fire Safe Shutdown; therefore, a fire in this room would have no adverse impact on Post Fire Safe Shutdown even in the unlikely event of fire extension into the adjacent areas.

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

. The smoke detectors located in the Unit 1 (Zone 58, rooms 476 and 477) and l a Unit 2 (Zone 67, rooms 467 and 468) Letdown Heat Exchanger and Moderating l Heat Exchanger Rooms are not included in the Table 16.9-3 Minimum .

Instruments Operable because these rooms are High Rad Areas with minimal combustible loading. Entering these rooms twice a year to perform smoke detectcr testing is not justified. These rooms primarily consist of piping and a heat exchanger which are not significantly prone to fire damage. The Moderating' Heat Exchanger Rooms are in a safety related ares, but contain O

Chapter 16.9-6 Page 3 of 11 3/11/99 l

O BASES: (cont'd)

U components which do not perform a safety related function nor a safe shutdown l function. The Letdown Heat Exchanger Rooms contain safety related components, however, they de not perform a safe shutdown function. These rooms are enclosed by two to three foot thick concrete walls with ca common labyrinth entrance. The outer, common entrance has a wire mesh door. In the unlikely event that a significant fire should occur in one of these heat exchanger rooms, the smoke detectors adjacent to these rooms would provide an alarm to the Control Room. The areas adjacent to these rooms rely on the same assured train of Post Fire Safe Shutdown; therefore, a fire in either of these rooms would have no adverse impact on Post Fire Safe Shutdown even in the unlikely event of fire extension into the adjacent areas.

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

. The smoke detectors located in the Unit 1 (Zone 55, room 417) and Unit 2 (Zone 64, room 408) Fuel Pool Cooling (KF) Demineralizer Rooms are not included in ,

the Table 16.9-3 Minimum Instruments Operable because the KF Demineralizer l Rooms are High Rad Areas with minimal combustible loading. Entering these rooms twice a year to perform smoke detector testing is not justified. These rooms primarily consist of piping and a demineralizer which are not significantly b prone to fire damage. These rooms are in a safety related area, but contain components which do not perform a safet'/ related function nor a safe shutdown j function. These rooms are enclosed by two and three foot thick concrete walls I with a labyrinth entrance. The entrance has two doors. The outer door has a wire mesh above it and the inner door has an open grill. In the unlikely event j that a significant fire should occur in one of the KF Demineralizer Rooms, the j smoka detectors adjacent to these rooms would provide an alarm to the Control j Room. The areas adjacent to the KF Demineralizer Rooms rely on the same >

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

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

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i COMMITMENT (con't)

  • deviations from the sampling schedule of Table 16.11-7; and discussion of all  !

analyses in which the LLD required by Table 16.11-8 was not achievable.

I 16.11-16.2 RADIOACTIVE EFFLUENT RELEASE REPORT (See Note)

The Radioactive Effluent Release Report covering the operation of the unit during the previous calendar year shall be submitted before May 1 of each year. The Radioactive Effluent Release Reports shallinclude a summary of the quantities of I radioactive liquid and gaseous effluents and solid waste released from the unit. i l

The Radioactive Effluent Release Report shall include an annual summary of hourly meteorological data collected over the previous year. This annual summary may be

)

either in the form of an hour-by-hour listing on magnetic tape of wind speed, wind direction, atmospheric stability, and precipitation (if measured), or in the form of joint frequency distributions of wind speed, wind direction, and atmocpheric stability. (in lieu of submission with the Radioactive Effluent Release Report, the licensee has the option of retaining this summary of required meteorological data on site in a file  !

that shall be provided to the NRC upon request.) This same report shall include an assessment of the radiation doses due to the radioactive liquid and gaseous effluents released from the unit or station during the previous calendar year. This

. same report shall also include an assessment of the radiation doses from radioactive liquid and gaseous effluents to MEMBER OF THE PUBLIC due to their  ;

activities inside the SITE BOUNDARY during the report period. All assumptions  !

used in making these assessments, i.e., specific activity, exposure time and location, shall be included in these reports. A five-year average of representative onsite meteorological data shall be used in the gaseous effluent dose pathway calculations. Dispersion factors (x/Qs) and deposition factors (D/Qs) shall be generated using the computer code XOODOQ (NUREG/CR-2919) which implements NRC Regulatory Guide 1.111. The meteorological conditions concurrent with the time of release shall be reviewed annually to determine if the five-year average values should be revised. The assessment of radiation doses  !

shall be perfonned in accordance with the methodology and parameters in the .

OFFSITE DOSE CALCULATION MANUAL (ODCM). l The Radioactive Effluent Reiease Report shall also include an assessment of radiation doses to the likely most exposed MEMBER OF THE PUBLIC from reactor i releases and other nearby uranium fuel cycle sources, including doses from primary l effluent pathways and direct radiation, for the previous ca!endar year to show conformance with 40 CFR Part 190, " Environmental Radiation Protection Standards  !

for Nuclear Power Operation". Acceptable methods for calculating the dose l contribution from liquid and gaseous effluents are given in Regulatory Guide 1.109,  ;

Rev.1, October 1977.  !

I O

Chapter 16.11-16 Page 2 of 4 03/11/99 l

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