Proposed Tech Specs,Relocating Seismic & Meteorological Monitoring Instrumentation & Associated Bases

ML20069Q004
Person / Time
Site:	Waterford
Issue date:	06/22/1994
From:	ENTERGY OPERATIONS, INC.
To:
Shared Package
ML20069P984	List: ML20069P982 ML20069Q004
References
NUDOCS 9406270202
Download: ML20069Q004 (22)
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INDEX LIMITING CONDITION FOR OPERATION AND SURVEILLANCE REQUIREMENTS SECTION PAGE 3/4.2 POWER DISTRIBUTION LIMITS 3/4.2.1 LINEAR HEAT RATE........................................ 3/4 2-1 3/4.2.2 PLANAR RADIAL PEAKING FACTORS........................... 3/4 2-3 3/4.2.3 AZIMUTHAL POWER TI LT. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3/4 2-4 ,

3/4.2.4 DNBR MARGIN............................................. 3/4 2-6 3/4.2.5 RCS FLOW RATE........................................... 3/4 2-10 3/4.2.6 REACTOR COO LANT COLD LEG TEMPERATURE. . . . . . . . . . . . . . . . . . . . 3/4 2-11 3/4.2.7 AFIAL SHAPE INDEX....................................... 3/4 2-12 3/4.2.8 PRESSURIZER PRESSURE.................................... 3/4 2-13 3/4.3 INSTRUMENTATION 3/4.3.1 REACTOR PROTECTIVE INSTRUMENTATION...................... 3/4 3-1 3/4.3.2 ENGINEERED SAFETY FEATURES. ACTUATION SYSTEM INSTRUMENTATION...................................... 3/4 3-13 3/4.3.3 MONITORING INSTRUMENTATION RADIATION MONITORING INSTRUMENTATION................. 3/4 3-28 INCORE DETECTORS..................................... 3/4 3-34 SEISMIC INSTRUMENTATION.............................. 3/4 3-35 METEOROLOGICAL INSTRUMENTATION....................... 3/4 3-38 REMOTE SHUTDOWN INSTRUMENTATION...................... 3/4 3-41 ACCIDENT MONITORING INSTRUMENTATION.................. 3/4 3-44 CHEMICAL DETECTION SYSTEMS........................... 3/4 3-47 LOOSE-PART DETECTION INSTRUMENTATION................. 3/4 3-54 EXPLOSIVE GAS MONITORING INSTRUMENTATION............. 3/4 3-60 3/4.3.4 TUR81NE OVERSPEED PROTECTION............................ 3/4 3-68 9406270202 DR 940622 ADOCK 05000382 PDR WATERFORD - UNIT 3 V Amendment No. 55. 68

INDEX LIST OF TABLES TABLE PAGE 1.1 FREQUENCY N0TATION...................................... 1-9 1.2 OPERATIONAL M00ES....................................... 1-10 2.2-1 REACTOR PROTECTIVE INSTRUMENTATION TRIP SETPOINT LIMITS.................................................. 2-3 2.2-2 CORE PROTECTION CALCULATOR ADDRESSABLE CONSTANTS........ 2-5

• MONITORING FREQUENCIES FOR BORON DILUTION DETECTION 3.1-1 K,ff>0.98............................................. 3/4 1-17 3.1-2 0. 9 8 > K, f f > 0. 9 7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3/4 1-17a 3.1-3 0. 9 7 > K, 7 f > 0. 9 6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3/4 1-17b 3.1-4 0 . 9 6 > K, f f > 0 . 9 5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3/4 1-17c 3.1-5 K,ff < 0.95............................................. 3/4 1-17d 3.3-1 REACTOR PROTECTIVE INSTRUMENTATION. . . . . . . . . . . . . . . . . . . 3/4 ... 3-3 3.3-2 REACTOR PROTECTIVE INSTRUMENTATION RESPONSE TIMES....... 3/4 3-8 4.3-1 REACTOR PROTECTIVE INSTRUMENTATION SURVEILLANCE REQUIREMENTS............................................ 3/4 3-10 3.3-3 ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATI0H......................................... 3/4 3-14 3.3-4 ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION TRIP VALUES............................. 3/4 3-19 3.3-5 TIMES...............

ENGINEERED SAFETY FEATURES RESPONSE 3/4 3-22 4.3-2 ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION SURVEILLANCE REQUIREMENTS............... 3/4 3-25 3.3-6 RADIATION MONITORING INSTRUMENTATION.................... 3/4 3-29 4.3-3 RADIATION MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS............................... 3/4 3-32 3.3-7 SEISMIC MONITORING INSTRUMENTATION............. ........ 3/4 3-36 4.3-4 SEISMIC MONITORING INSTRUMENTATION .

SURVEILLANCE REQUIREMENTS............................... 3/4 3-37 .

3.3-8 METEOROLOGICAL MONITORING INSTRUMENTATION............... 3/4 3-39 WATERFORD - UNIT 3 XX AMENDMENT NO. 9

INDEX

, LIST OF TABLES (Continued)

TABLE PAGE 4.3-5 METEOROLOGICAL MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3/4 3-40 3.3-9 REMOTE SHUTDOWN INSTRUMENTATION....................... 3/4 3-42 4.3-6 REMOTE SHUTDOWN INSTRUMENTATION SURVEILLANCE REQUIREMENTS............................. 3/4 3-43 3.3-10 ACCIDENT MONITORING INSTRUMENTATION................... 3/4 3-45 4.3-7 ACCIDENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS............................. 3/4 3-46 3.3-12 DELETED............................................... 3/4 3-56 4.3-8 DELETED............................................... 3/4 3-58 .

3.3-13 EXPLOSIVE GAS MONITORING INSTRUMENTATION............................ 3/4 3-61 4.3-9 EXPLOSIVE GAS MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS.............. 3/4 3-65 4.4-1 MINIMUM NUMBER OF STEAM GENERATORS TO BE INSPECTED DURING INSERVICE INSPECTION........................... 3/4 4-15 4.4-2 STEAM GENERATOR TUBE INSPECTION....................... 3/4 4-16 3.4-1 REACTOR COOLANT SYSTEli PRESSURE ISOLATION VALVES...... 3/4 4-20 3.4-2 REACTOR COOLANT SYSTEM CHEMISTRY...................... 3/4 4-22  !

1 I

4.4-3 REACTOR COOLANT SYSTEM CHEMISTRY LIMITS  !

SURVEILLANCE REQUIREMENTS............................. 3/4 4-23 l 4.4-4 PRIMARY COOLANT SPECIFIC ACTIVITY SAMPLE  !

AND ANALYSIS PR0 GRAM.................................. 3/4 4-26 I

4.4-5 REACTOR VESSEL MATERIAL SURVEILLANCE  !

PRDGRAM - WITHDRAWAL SCNEDULE......................... 3/4 4-32 )

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I WATERFORD - UNIT 3 XXI Amendment No. 9, 58, 68,75

1 INSTRUMENTATION SEISMIC INSTRUMENTATION ,

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LIMITING CONDITION FOR OPERATION l 3.3.3.3 The seismic monitoring instrumentation shown in Table 3.3-7 shall be '

OPERABLE.

APPLICABILITY: At all tines.

f ACTION:

a. With one or more seismic monitoring instruments inoperable for more ,

than 30 days, prepare and submit a Special Report to the Commission  :

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

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b. The provisions of Specifications 3.0.3 and 3.0.4 are not applicable.

SURVEILLANCE REQUIREMENTS  :

) 4.3.3.3.1 Each of the above seismic monitoring instruments shall be demonstrated ;

OPERABLE by the performance of the CHANNEL CHECK, CHANNEL CALIBRATION and i CHANNEL FUNCTIONAL TEST operations at the frequencies shown in Table 4.3-4.

4.3.3.3.2 Each of the above seismic monitoring instruments which is accessible during power operation and which is actuated during a seismic event (one or i more basemat accelerations of 0.05 g or greater) shall be restored to OPERABLE i status within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> and a CHANNEL CALIBRATION performed within 5 days.  !

Data shall be retripved from the accessible actuated instruments and analyzed -

to determine the magnitude of the vibratory ground motion. A Special Report shall be prepared and submitted to the Commission pursuant to Specification 6.9.2 within 10 days describing the magnitude, frequency spectrum, and resultant effect upon facility features important to safety. Each of the above seismic monitoring instruments which is actuated during a seismic event (one or more basemat accelerations of 0.05 e or greater) but is not accessible during power operation shall be restored to OPERABLE status and a CHANNEL CALIBRATION performed the next time the plant enters MODE 3 or below. A supplemental report shall then be prepared and submitted to the Commission within 10 days pursuant to Specification 6.9.2 describing the additional data from these instruments.

WATERFORD - UNIT 3 3/4 3-35 i

l TABLE 3.3-7 i

SEISMIC MONITORING INSTRUMENTATION -

MINIMUM MEASUREMENT INSTRUMENTS INSTRUMENTS AND SENSOR LOCATIONS RANGE OPERABLE i

1. Triaxial Time-History Accelerograph System ,

i

a. Accelerometer (YT-SM 6000) Adjacent to RB -35 ft MSL 0.02-1.0 g 1

b. Accelerometer (YT-SM 6001) RB +46 ft MSL 0.02-1.0 g 1

c. Accelerometer (YT-SM 6002) Free Field Yard Area 0.02-1.0 g 1  :

d. Starter Unit (YS-SM 6000) Adjacent to RB

-35 ft MSL 0.01-0.02 g 1

e. Starter Unit (YS-SM 6001) RB +51 ft MSL 0.01-0.02 g 1

f. Recorder (YR-SM 6000) Control Room RAB +46 ft MSL 0.02-1.0 g 1

g. Control U' nit (YZ-SM 6000) Control Room

• RAB +46 ft MSL 0.02-1.0 g 1*

h. Playback Unit 'YR-SM 6001) Control Room ,

RAB +46 ft MSL 0.02-1.0 g 1

2. Triaxial Peak Accelerographs

a. YR-SM 6020 RB +56 ft MSL 0-2 g 1

b. YR-SM 6021 RB 23 ft MSL 0-2 g 1 l

c. YR-SM 6022 RAB +21 ft MSL 0-2 g 1

3. Triaxial Seismic Switches

a. Seismic Swtich (YS-SM 6060) RB -35 ft MSL 0.1-0.25 g 1  ;

b. Control Unit (YZ-SM 6060) Control Room RAB +46 ft MSL 0.1-0.25 g 1*

4. Triaxial Response-Spectrum Recorders

a. YR-SM 6040 RB +10 ft MSL 1-32 Hz, 0-2 g 1

b. YR-SM 6041 RA8 -35 ft MSL 1-32 Hz, 0-2 g I

c. YR-SM 6042 RAB +21 ft MSL 1-32 Hz, 0-2 g 1

d. Peak Shock Annunciator (YR-SM 6045)

RB -35 ft MSL 1-32 Hz, 0-2 g 1

e. Peak Snock Annunciator Control Unit (YZ-SM 6045) Control Room RAB +46 ft MSL 1-32 Hz,.0-2 g 1 "With reactor control room annunciation.

WATERFORD - UNIT 3 3/4 3-36 AMENDMENT NO. I4,52

TABLE 4.3-4 SEISMIC MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS CHANNEL CHANNEL CHANNEL FUNCTIONAL INSTRUMENTS AND SENSOR LOCATIONS CHECX CALIBRATION TEST __

1. Triaxial Time-History Accelerograph System

a. Accelerometer (YT-SM 6000) Adjacent to RB -35 ft MSL N.A. R SA

b. Accelerometer (YT-SM 6001) RB

+46 ft MSL N. A. R SA

c. Accelerometer (YT-SM 6002) Free Field Yard Area N.A. R SA

d. Starter Unit (YS-SM 6000) Adjacent to RB -35 ft MSL M R SA

e. Starter Unit (YS-SM 6001) RB

+51 ft MSL M R SA

f. Recorder (YR-SM 6000) Control Room RAB +46 ft MSL M R SA

g. Control Unit (YZ-SM 6000) Control Room RAB +46 ft MSL M R SA*

5. Playback Unit (YR-SM 6001) Control Room RAB v46 ft MSL N. A. R SA

2. Triaxial Peak Accelerographs

a. YR-SM 6020 RB +56 ft MSL N.A. R N.A.

b. YR-SM 6021 RB 23 ft MSL N.A. R N.A. j

c. YR-SM 6022 RAB +21 ft MSL N.A. R N.A.

3. Triaxial Seismic Switches

a. Seismic Switch YS-SM 6060 i RB -35 ft MSL M R SA

b. Control Unit YZ-SM 6060 Control Room RAB +46 ft MSL M R SA*  !

4. Triaxial Response-Spectrum Recorders  !

a. YR-SM 6040 RB +10 ft MSL N.A. R N.A. I

b. YR-SM 6041 RAB -35 ft MSL N.A. R N. A.

c. YR-SM 6042 RAB +21 ft MSL N.A. R N.A.

d. Peak Shock Annunciator YR-SM 6045 RB -35 ft MSL N.A. R N.A.

I

e. Peak Shock Annunciator Control Unit l Y7-SM 6045 Control Room RAB i

+46 ft MSL N. A. R SA "With reactor control room annunciation.

WATERFORD - UNIT 3 3/4 3-37 AMENDMENT NO. 24,52 '

, INSTRUMENTATION METEOROLOGICAL INSTRUMENTATION LIMITING CONDITION FOR OPERATION 3.3.3.4 The meteorological monitoring instrumentation channels shown in Table 3.3-8 shall be OPERABLE.

APPLICABILITY: At all times.

ACTION:

a. With one or more required meteorological monitoring channels inoperable for more than 7 days, prepare and submit a Special Report

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

b. The provisions of Specifications 3.0.3 and 3.0.4 are not applicable.

SURVEILLANCE REQUIREMENTS 4.3.3.4 Each of the above meteorological monitoring instrumentation channels shall be demonstrated OPERABLE by the performance of the CHANNEL CHECK and CHANNEL CALIBRATION operations at the frequencies shown in Table 4.3-5.

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d TABLE 3.3-8 METEOROLOGICAL MONITORING INSTRUMENTATION MINIMUM LOCATION INSTRUMENTS INSTRUMENT * (Nominal Elevation) OPERABLE l

1. WIND. SPEED

a. Primary 33 ft (10 m) 1-(a or b)

b. Secondary 33 ft (10 m)

c. Primary 199 ft (60 m) 1

2. WIND DIRECTION (SIGMA THETA)**

a. Primary 33 ft (10 m) 1-(a or b)

b. Secondary 33 ft (10 m)

c. Primary 199 ft (60 m) 1

3. TEMPERATURE -

DIFFERENCE

a. Primary 33 ft - 199 ft (10 m-60 m) 1-(a, b, or c)

b. Secondary 33 ft - 199 ft (10 m-60 m)

c. Primary 33 ft - 199 ft (10 m-60 m)

!

• Primary, Secondary - Refers to the tower on which instrument is located, see Specification 5.5.

• • Derived from instantaneous wind direction measurements.

t WATERFORD - UNIT 3 3/4 3-39

TABLE 4.3-5 METEOROLOGICAL MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS LOCATION CHANNEL CHANNEL INSTRUMENT * (Nominal Elevation) CHECK CALIBRATION

1. WIND SPEED

a. Primary 33 ft (10 m) D SA

b. Secondary 33 ft (10 m) D SA

c. Primary 199 f t (60 n ) D SA

2. WIND DIRECTION (SIGMA THETA)**

a. Primary 33 ft (10 m) D SA

b. Secondary 33 ft (10 m) D SA

c. Primary 199 ft (60 m) D SA

3. TEMPERATURE DIFFERENCE

a. Primary 33 ft - 199 ft (10 m-60 m) D SA

b. Secondary 33 ft - 199 ft (10 m-60 m) D SA

c. Primary 33 ft - 199 ft (10 m-60 m) D SA

• Primary, Secondary - Refers to the tower on which instrument is located, see Specification 5.5.

1

• • Derived from instantaneous wind direction measurements. I l

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WATERFORD - UNIT 3 3/4 3-40 1

INSTRUMENTATION BASES I

individual channels; (2) the alarm or automatic action is initiated when the radiation level trip setpoint is exceeded; and (3) sufficient information is available following anon selected plant parameters to monitor and assess these variables accident. This capability is consistent with the recommendations of Regulatory Guide 1.97 " Instrumentation for Light-Water-Cooled Nuclear Power Plants to Assess Plant and Environs Conditions During and Following an Accident," December 1980'and NUREG-0737, " Clarification of TMI Action Plan Requirements," November 1980.

3/4.3.3.2 INCORE DETECTORS The OPERABILITY of the incore detectors with the specified minimum complement of equipment ensures that the measurements obtained from use of this system accurately represent the spatial neutron flux distribution of the reactor core.

3/4.3.3.3 SEISMIC INSTRUMENTATION The OPERABILITY of the seismic iristramentation ensures that sufficient capability is available to promptly determine the magnitude of a seismic event and evaluate the response of those features important to safety. This capability is required to permit comparison of the measured response to that used in the design basis for the Facility to determine if plant shutdown is required pursuant to Appendix "A" of 10 CFR Part 100.

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

3/4.3.3.4. METEOROLOGICAL INSTRUMENTATION The OPERABILITY of the meteorological instrumentation ensures that sufficient _

meteorological data are available for estimating potential radiation doses to the public as a result of routine or accidental release of radioactive materials to the atmosphere. This capability is required to evaluate the need for initiating protective measures to protect the health and safety of the public and is consistent with t he recommendations of Regulatory Guide 1.23 "Onsite )

Meteorological Programs ," February 1972.  ;

i 3/4.3.3.5 REMOTE SHUTDOWN INSTRUMENTATION I

The OPERABILITY of the remote shutdown instrumentation ensures that  !

sufficient capability is available to permit shutdown and maintenanct of HOT STANDBY of the facility from locations outside of the control room. This capability is required in the event control room habitability is lost and is consistent with General Design Criterion 19 of 10 CFR Part 50.

1 WATERFORD - UNIT 3 8 3/4 3-2

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INDEX LIMITING CONDITION FOR OPERATION AND SURVEILLANCE REQUIREMENTS SECTION PAGE i

3/4.2 POWER DISTRIBUTION LIMITS r 3/4.2.1 LINEAR HEAT RATE.... ............................................ 3/4 2-1 3/4.2.2 PLANAR RADIAL PEAKING FACTORS....... ............................ 3/4 2 3 3/4.2.3 AZIMUTHAL POWER TILT............................................. 3/4 2-4 ,

3/4.2.4 DNBR MARGIN............................ ......................... 3/4 2 6 3/4.2.5 RCS FLOW RATE.................................................. . 3/4 2 10 3/4.2.6 REACTOR COOLANT COLD LEG TEMPERATURE............................. 3/4 2-11 3/4.2.7 AXIAL SHAPE INDEX................. .............................. 3/4 2-12 3/4.2.8 PRESSURIZER PRESSURE............................................. 3/4 2-13 3/4.3 INSTRUMENTATION

+

3/4.3.1 REACTOR PROTECTIVE INSTRUMENTATION............................... 3/4 3 1 >

3/4.3.2 ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION....................... ... .. . ........ 3/4 3 13 3/4.3.3 MONITORING INSTRUMENTATION  !

RADIATION HONITORING INSTRUMENTATION......................... 3/4 3 28 INCORE DETECTORS ............................................. 3/4 3 34 r SE4SNIG-4NSTRUNENTAT40N . . . . . . . . . . . cr 3/d 3-35 I

METEOR 0LMICAL--4WSTPAMELTATION , . ... .. ... .... . ... 3/4 3-38 I

REMOTE SHUTDOWN INSTRUMENTATION.............................. 3/4 3 41 i

ACCIDENT MONITORING INSTRUMENTATION. ........................ 3/4 3-44 -l t

CHEMICAL DETECTION SYSTEMS................................... 3/4 3-47  :

LOOSE PART DETECTION INSTRUMENTATION ......................... 3/4 3 64 )

EXPLOSIVE GAS MONITORING INSTRUMENTATION..................... 3/4 3-60 3/4.3.4 TURBINE OVERSPEED PROTECTION..................................... 3/4 3-68 WATERFORD - UNIT 3 V i

i I

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

4 .-

INDEX ,

i LIST OF TABLES TABLE PAGE l 1.1 FREQUENCY N0TATION...................................................... 19 1.2 OPERATIONAL H00ES.......................................... ............ 1-10 2.2 1 REACTOR PROTECTIVE INSTRUMENTATION TRIP SETPOINT LIMITS.... ............................................................. 23 2.2 2 CORE PROTECTION CALCULATOR ADDRESSABLE C0NSTANTS........................ 25 HONITORING FREQUENCIES FOR BORON DILUTION DETECTION I

3.1-1 Keff > 0.98..................................... ....................... 3/4 1-17 3.1 2 0.98 3 Keff > 0.97............................ ......................... 3/4 1 17a 3.1-3 0.97 3 Keff > 0.96.......................... ........................... 3/4 1 17b ,

3.1-4 0.96 > Keff > 0.95.............................................. ....... 3/4 1 17c  ;

3.1 5 Keff 5 0-95................................ ... .. ..................... 3/4 1-17d 1 3.3 1 REACTOR PROTECTIVE INSTRUMENTATION.................................. ... 3/4 3 3 3.3 2 REACTOR PP.0TECTIVE INSTRUMENTATION RESPONSE TIMES..................... . 3/4 3 8  !

4.3 1 REACTOR PROTECTIVE INSTRUMENTATION SURVEILLANCE i

REQUIREMENTS............................................................ 3/4 3 10 l.

3.3-3 ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION......................................................... 3/4 3 14 [

3.3-4 ENGINEERED SAFETY FEATURES ACTUATION SYSTEM ,

INSTRUMENTATION TRIP VALUES............................................. 3/4 3 19 3.3-5 ENGINEERED SAFETY FEATURES RESPONSE TIMES............................... 3/4 3 22  :

I

' 4.3 2 ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION SURVEILLANCE RE0VIREHENTS............................... 3/4 3 25 3.3 6 RADIATION HONITORING INSTRUMENTATION.................................... 3/4 3-29 4.3 3 -RADIATION HONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS............................................... 3/4 3 32

-313-7 SE4SMIG-NONITORIE4NSTRUMENTAT10N . . . . . . .. . ..... ... .. . . 3/4 4 -36 413-4 SEISMIC-NONITORIE-1NSTRUMENTAT10N -l SURVE4LLANGE-REQUIREMENTS, . . . . . . . . . . . . . . . . ............ . .. 3/4-3-37 3,3-8 NETEOROLOGIGAL-MONITORIM-INSTRUMENTAT40N . . . . . . . ... .. ...... 3/4-3-39 WATERFORD UNIT 3 xx

INDEX LIST OF TABLES (Continued)

TABLE PAGE 473-6 METEOROLOGICAL-HONITORING-INSTRUMENTAT40N SURVEIL 4.ANGE-REQUIREMENTS . ... . . crr 3/4-3-40 3.3 9 REMOTE SHUTDOWN INSTRUMENTATION....... ................................ 3/4 3 42 4.3 6 REMOTE SHUTDOWN INSTRUMENTATION SURVEILLANCE REQUIREMENTS.................... . ... ................... 3/4 3-43 3.3 10 ACCIDENT HONITORING INSTRUMENTATION..................... .......... .... 3/4 3 45 4.3-7 ACCIDENT HONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS. .................. ....... .................. 3/4 3-46 3.3 12 DELETED...... .. .................... .... .... ... .. .... .. .. .... 3/4 3-56 4.3-8 DELETED... ..... ........... .. ... .. . .. . . ......... ............ 3/4 3 58 3.3-13 EXPLOSIVE GAS HONITORING INSTRUMENTATION.. ............. ... ..................... ... 3/4 3 61 4.3-9 EXPLOSIVE GAS HONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS.. .... .................... .. 3/4 3-65 4.4-1 HINIMUM NUMBER OF STEAM GENERATORS TO BE INSPECTED DURING INSERVICE INSPECTION....... ...... ....................... .... 3/4 4-15 4.4-2 STEAM GENERATOR TUBE INSPECTION......................................... 3/4 4-16 3.4 1 REACTOR COOLANT SYSTEM PRESSURE ISOLATION VALVES. .................. . 3/4 4 20 3.4 2 REACTOR COOLANT SYSTEM CHEMISTRY..................................... .. 3/4 4 22 4.4-3 REACTOR COOLANT SYSTEM CHEMISTRY LIMITS SURVEILLANCE REQUIREMENTS............................................... 3/4 4 23 4.4-4 PRIMARY COOLANT SPECIFIC ACTIVITV SAMPLE AND ANALYSIS PR0 GRAM.................................................... 3/4 4 26 4.4 5 REACTOR VESSEL HATERIAL SURVEILLN4CE PROGRAM - WITHDRAWAL SCHEDULE........................................... 3/4 4 32 ,

WATERFORD UNIT 3 XXI

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PAGES 3/4 3-36 THROUGH PAGE 3/4 3-40 NOT USED WATERFORD - UNIT 3 3/4 3-35 Y '

.o e INSTRUMENTATION ,

i l

i BASES l

l l

areas served by the individual channels; (2) the alarm or automatic action is initiated when the l radiation level trip setpoint is exceeded; and (3) sufficient information is available on selected plant parameters to monitor and assess these variables following an accident. This capability is consistent with the recommendations of Regulatory Guide 1.97. " Instrumentation for Light-Water-Cooled Nuclear Power Plants to Assess Plant and Environs Conditions During and Following an Accident.

" December 1980 and NUREG-0737, " Clarification of THI Action Plan Requirements," November 1980.

1 2

3/4.3.3.2 INCORE DETECTORS The OPERABILITY of the incore detectors with the specified minimum complement of equipment ensures that the measurements obtained from use of this system accurately represent the spatial neutron flux distribution of the reactor core.

3/4.3.3.3 SE!SMIC -4ETRt#4E4 TAT 404 THIS SECTION HAS BEEN DELETED l The-0PERABILITY Of the seismic--instewnt+ tion ensures that suf#icient capability is available

--te-pro"ptly determine the magnitude of a seismic event and evaluate the resporte of these features 4mportant to-safety--This capabi"ty is required to permit comparison of the measured response to that-used-44-the design basis for the f acility to determine " plant shutdow" is required pursuant to-Appendix "A" of 10-C4R Part 100. The instrumentation is cone.istent '>ith the recommendations of Regulatory Guide 1.12. " Instrumentation for Earthquakes." fpril 1974.

J/4.3.3.4 14ETf4GL41G444STRUMENTATION THIS SECTION HAS BEEN DELETED l The4PERABILITY cf the "eteorological instrumentat40n ensures that Sufficient meteorological data-ar+-available-for estimating potential radiation doses to the public as a result Of routine or ass 4 dental-r+1 ease of rad 10activ^ e terials to the at=0;phere This capability is required to evaluate the-need-for initiat4ng-proteft4ve =casures to protect the hea'th and safety of the public and is EORG46 tent-with the rec 0="eAda64005 Of egulat0ry Guide 1.23 "00;it0 Mete 000 logical r0 grassy

. " 5+bruany %%2--

3/4.3.3.S REMOTE SHUTDOWN INSTRUMENTATION The OPERABILITY of the remote shutdown instrumentation ensures that sufficient capability is available to permit shutdown and maintenance of HOT STANDBY of the facility from locations outside of the control room. This capability is required in the event control room habitability is lost and is consistent with General Design Criterion 19 of 10 CFR Part 50.

WATERFORD - UNIT 3 B 3/4 3-2

\ .