ML20206J244
| ML20206J244 | |
| Person / Time | |
|---|---|
| Site: | Seabrook  |
| Issue date: | 06/23/1986 |
| From: | George Thomas PUBLIC SERVICE CO. OF NEW HAMPSHIRE |
| To: | Novak T Office of Nuclear Reactor Regulation |
| References | |
| SBN-1135, NUDOCS 8606270052 | |
| Download: ML20206J244 (83) | |
Text
-
June 23, 1986 SBN-1135 T.F. B7.1.2 United States Nuclear Regulatory Commission Washington, D.C. 20555 Attention: Mr. Thomas M. Novak, Acting Director Division of PWR Licensing-A
References:
(a) Construction Permits CPPR-135 and CFPR-136, Docket Nos. 50-443 and 50-444 (b) USNRC Letter Dated May 20, 1986, "Seabrook Station Technical Specification Improvement Program",
T. M. Novak to R. J. Harrison Subj ect:
Seabrook Station Technical Specification Improvement Program
Dear Sir:
Your letter of May 20, 1986, Reference (b), required that certain items, currently included in the Standard Technical Specification could be removed from the Seabrook Station Technical Specifications provided they were included in the Seabrook Station FSAR. Attachment 1 is proposed FSAR Section 16.3 which includes those items required by Reference (b) to be included in the Seabrook Station FSAR. Attachment 2 provides the administrative controls for the Seabrook Station Technical Specification Improvement Program, as you requested.
Each of the items in Attachment I will be formally incorporated into the Seabrook Station FSAR in a future amendment.
Very truly yours, Geor d
. Thomas Attachments cc: ASLB Service List 888618858I8Sh3 A Yl I (
l P.O. Box 300 Seabrook,NHO3874 Telephone (603)474-9521
l ATTACHMENT I TO SBN-1135 l
C _
^^ ~ - - - - , - , - - . _ _ _ _ _ _ _ _ _ _ _
16.3 Technical Specification Improvement Program The Technical Specification Improvement Program for Seabrook Station has resulted in the inclusion of certain technical requirements into the FSAR.
These improvements are provided below. Changes to these requirements shall be reviewed and approved in accordance with Seabrook Station Technical Specification administrative controls of the Specification Improvement Program.
Requirement 1 - Reactor Trip System Instrumentation Response Times The response time of each Reactor Trip function shown in Technical Specification Table 3.3-1 shall be as shown in FSAR Table 16.3-1 Requirement 2 - Engineered Safety Feature Activation System Instrumentation Response Times The response time of each Engineered Safety Feature Activation System Function shown in Technical Specification Table 3.3-3 shall be as shown in FSAR Table 16.3-2.
Requirement 3 - Loose part Detection System When the reactor is in MODES 1 and 2, the Loose Part Detection System shall be OPERABLE.
With one or more of the Loose Part Detection System channel (s) inoperable for more than 30 days a Special Report shall be prepared and submitted to the Commission within the next 10 days. This report shall outline the cause of the malfunction and shall describe the actions required to restore the channel (s) to OPERABLE status.
Each channel of the Loose Part Detection System shall be demonstrated OPERABLE by performance of the following:
- 1. A CHANNEL CHECK at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />
- 2. An ANALOG CHANNEL OPERATIONAL TEST at least once per 31 days
- 3. A CHANNEL CALIBRATION at least once per 18 months
Requirement 4 - Reactor Vessel Material Irradiation Specimens The reactor vessel material irradiation surveillance specimens shall be removed and examined to determine changes in material properties as required by 10 CFR Part 50, Appendix g, in accordnnce with the schedule in FSAR Table 16.3-3. The results of these examinations shall be used to update Technical Specification Figures 3.4-2 and 3.4-3.
Requirement 5 - Snubbers The surveillance requirements for snubbers, as defined by Technical Specification 4.7.7, shall be performed in accordance with the Seabrook Station Inservice Inspection Program as described in FSAR Section 16.3.1.
Requirement 6 - Containment Isolation Valves The containment isolation valves required to be operable by Technical Specification 3.6.3 shall be demonstrated operable with isolation times as shown in Table 16.3-4.
I Requirement 7 - Fire Hose Stations The fire hose stations required to be operable by the Seabrook Station Fire Protection Program shall be as shown in FSAR Table 16.3-5.
Requirement 8 - Yard Fire Hydrants and Hydrant Hose Stations The yard fire hydrants and hydrant hose stations required to be operable by the Seabrook Station Fire Protection ,
l Program shall be as shown in FSAR Table 16.3-6.
Requirement 9 - Containment Penetration Conductor Overcurrent Protection The containment penetration conductor overcurrent protective devices required by Technical Specification 3.8.4.2 shall be as shown in FSAR Table 16.3-7.
Requirement 10 - Motor Operated Valves Thermal Overload Protection The thermal overload protection for motor operated valves required by Technical Specification 3.8.4.3 shall. be as f l
shown in FSAR Table 16.3-8. i
s- I TABLE 16.3-1 REACTOR TRIP SYSTEM INSTRUMENTATION RESPONSE TIMES FUNCTIONAL UNIT RESPONSE TIME
- 1. Manual Reactor Trip N.A.
I
- 2. Power Range, Neutron Flux
- a. High Setpoint j[ 0.5 second*
- b. Low Setpoint ji0.5 second*
- 3. Power Range, Neutron Flux, High Positive Rate - N.A.
- 4. Power Range, Neutron Flux, High Negative Rate ;( 0.5 second*
- 5. Intermediate Range, Neutron Flux N.A.
- 6. Source Range, Neutron Flux N.A.
- 7. Overtemperature AT ,
j[4 seconds *
- 8. Overpower AT ;[ 4 seconds *
- 9. Pressurizer Pressure--Low j( 2 seconds *
- 10. Pressurizer Pressure--High j[2 seconds
- 11. Pressurizer Water Level--High N.A..
- 12. Reactor Coolant Flow--Low
- a. Single Loop (Above P-8) ..
< 1 second
- b. Two Loops (Above P-7 and below P-8) j( ) second
- 13. Steam Generator Water Level--Low-Low j( 2 seconds
- 14. Undervoltage - Reactor Coolant Pumps (Above P-7) j[1.5 seconds ,
- 15. Underfrequency - Reactor Coolant Pumps (Above P-7) j( 0.6 second u Neutron detectors are exempt from response time testing. Response time j of the neutron flux signal portion of the channel shall be measured from )
~
detector output or input of first electronic component in channel.
.I 1 ..
- _ _ _ C
f .
- r. t
, n l
TABLE 16.3-1 (Continued) l l
REACTOR TRIP SYSTEM INSTRUMENTATION RESPONSE TIMES FUNCTIONAL UNIT RESPONSE TIME
- 16. Turbine Trip (Above P-9)
- a. Low Fluid Oil Pressure N.A.
- b. Turbine Stop Valve Closure N.A.
- 17. Safety Injection Input from ESF N.A.
- 18. Reactor Trip System Interlocks N.A.
- 19. Reactor Trip Breakers N.A.
- 20. Automatic Trip and Interlock Logic N.A.
I e'
I l
TABLE 16.3-2 ENGINEERED SAFETY FEATURES RESPONSE TIMES ,
INITIATION SIGNAL AND FUNCTION RESPONSE' TIME IN SECONDS
- 1. Manual Initiation
- a. Safety Injection N.A.
- 1) Reactor Trip N.A.
- 2) Feedwater Isolation N.A.
- 3) Phase "A" Isolation N.A.
- 4) Containment Ventilation Isolation N.A.
- 5) Start Diesel Generator , N.A.
- 6) Emergency Feedwater N.A.
- 7) CBA Emergency Fan / Filter Actuation N.A. (
- 8) Service Water to SCCW Isolation N.A.
- b. Containment Spray N.A.
- 1) Containment Ventilation Isolation N.A.
- 2) Ph.se "B" Isolation N.A.
- c. Steam Line Isolation N.A.
- d. Phase "A" Containment Isolation N.A.
- 1) Containment Ventilation Isolation N.A.
- 2. Containment Pressure--Hi-1
~~
- a. Safety Injection (ECCS) j(27(1)
- 1) Reactor Trip j[2
- 2) Feedwater Isolation
< 6(3)
- 3) Phase "A" Isolation N.A.
- 4) Containment Ventilation Isolation j( 3.5
- 5) Emergency Feedwater N.A.
- 6) Service Water System j[210(1)
- 7) Start Diesel Generator j( 12
- 8) CBA Emergency Fan / Filter Actuation N.A.
I 1
l l
< - a
TABLE 16.3-2 (Continued)
ENGINEERED SAFETY FEATURES RESPONSE TIMES INITIATION SIGNAL AND FUNCTION RESPONSE -TIME IN SECON' DS
- 3. Pressurizer Pressure--Low
- a. Safety Injection (ECCS) ;(27(1)/12(5)
- 1) Reactor Trip j(2
- 2) Feedwater Isolation j(6(3)
- 3) Phase "A" Isolation N.A.
- 4) Containment Ventilation Isolation ;( 3.5
- 5) Emergency Feedwater j( 60
- 6) Service Water System j(210(1)
- 7) Start Diesel Generators j( 12
- 8) CBA Emergency Fan / Filter Actuation N.A.
- 4. Steam Line Pressure--Lcw
- a. Safety Injection (ECCS) j[12(1)/22(4)
- 1) Reactor Trip j[ 2
- 2) Feedwater Isolation . ;(6(3)
- 3) ' Phase "A" Isolation N.A.
- 4) Containment Ventilation Isolation < 3.5
- 5) Emergency Feedwater li. A.
- 6) Service Water System ;(210(1)
- 7) Start Diesel Generators j( 12
- 8) CBA Emergency Fan / Filter Actuation N.A.
- b. Steam Line Isolation j[ 6( -
- 5. Containment Pressure--Hi-3
- a. Containment Spray .. j(28(2)/37(1)
- b. Phase "B" Isolation N.A.
- 6. Containment Pressure--Hi-2
- a. Steam Line Isolation j(6(3)
- 7. Steam Generator Pressure - Negative Rate--High .
- a. Steam Line Isolation N.A.
- 8. Steam Generator Water Level--High-High (P-14)
- a. Turbine Trip N.A.
- b. Feedwater Isolation j(7(3)
.I
TABLE 16.3-2 (Continued)
ENGINEERED SAFETY FEATURES RESPONSE TIMES s
INITIATION SIGNAL AND FUNCTION RESPONSE TIME IN SECONDS
- 9. Steam Generator Water Level--Low-Low
- a. Motor-Driven Energency Feedwater Pump j( 60
- b. Turbine-Driven Emergency Feedwater Pump j( 60
- 10. RWST Level--Low-Low Coincident with Safety Inj ection -
- a. Automatic Switchover to Containment Sump i 29
- 11. Loss of Power
- a. 4.16 kV Bus E5 and E6 N.A.
(Loss of Voltage)
- 1) . Motor Driven Emergency Feedwater Pump N.A.
- 2) Turbine Driven Emergency Feedwater Pump N.A.
- 3) Diesel Generator j(12.0
- b. 4.16 kV Bus E5 and E6 Degraded Voltage N.A.
Coincident with Safety Injection
- 12. Low RCS Tave Coincident with Rx Trip
- a. Feedwater Isolation N.A.
- 13. Containment On Line Purge Radiation - High
- a. Containment Ventilation Isolation N.A.
l 1
__ _ _ - - _ _ _ _ _ _ _ ___ __ . N
8 TABLE 16.3-2 (Continued)
TABLE NOTATIONS (1) Diesel generator starting and sequence loading delays included.
(2) Diesel generator starting and sequence loading delay not included.
Offsite power available.
(3) Air-operated valves.
(4) Diesel generator starting and sequence loading delay included. Only centrifugal charging pumps included.
(5) Diesel generator starting and sequence loading delays not included. Only centrifugal charging pumps included.
O 4
9
_ _. . - - - - - d
TABLE 16.3-3 REACTOR VESSEL MATERIAL SURVEILLANCE PROGRAM - WITHDRAWAL SCHEDULE CAPSULE VESSEL LEAD NUMBER LOCATION FACTOR WITilDRAWAL TIME (EFPY)
U 58.5* 4.00 First Refueling Y 241* 3.69 5 V 61* 3.69 9 X 238.5* . 4.00 15 W 121.5* 4.00 Standby Z 301.5* 4.00 Standby o
O i
--. . - - - - c
l -
TABLE 16.3-4 l
l CONTAINMENT ISOLATION VALVES A. PHASE "A" ISOLATION ~.
MAXIMUM i ISOLATION TIME VALVE NUMBER FUNCTION (Seconds)
CAH-FV6572 Radiation Monitoring Skid 60 Inlet 1 CAH-FV6573 Radiation Monitoring Skid 60 Inlet 1 CAH-FV6574 Radiation Monitoring Skid 60 Outlet 1 CGC-V14 Containment inclosure Exhaust Filter 8 Isolation CGC-V28 Containment Enclosure Exhaust Filter 8 Isolation CS-V149 Reactor Coolant Letdown 10 CS-V150 Reactor Coolant Letdown 10 CS-V167' RCP Seal Water /Exce's s Letdown Return 10 CS-V168 RCP Seal Water / Excess Letdown Return 10 NG-FV4609 Nitrogen Gas Supply 1 NG-FV4610 Nitrogen Gas "spply 1 NG-V13 Accumulator Nitrogen Supply 10 NG-V14 Accumulator Nitrogen Supply 10 RC-FV2830 PZR Steam Sample 1 RC-FV2831 PZR Liquid Sample 1 l 1
RC-FV2832 RCS Loop 1 Sample 1 !
RC-FV2833 RCS Loop 3 Sample 1 RC-FV2836 PZR Relief Tank Gas Sample 1 RC-FV2837 PZR Relief Tank Gas Sample 1 RC-FV2840 PZR Steam / Liquid Sample 1 ,
l RC-FV2874 RCS Loop 1 Sample 1 RC-FV2876 RCS Loop 3 Sample 1 l l
i
TABLE 16.3-4 CONTAINMENT ISOLATION VALVES (continued) s A. PHASE "A" ISOLATION (CONT'D) ,
MAXIMUM ISOLATION TIME VALVE NUMBER FUNCTION (Seconds)
RH-V27# RHR Test Line 10 RH-V28# RER Test Line 10 RH-V49# RHR Test Line 10 RMW-V30 Reactor Make0p Water 10 SB-V9# SG Blowdown 10 l
SB-V10# SG Blowdown 10 SB-V11# SG Blowdown 10 :
1 SB-V12# SG Blowdown 10 SI-V62 Accumulator Fill and Test Line 10 SI-V70 Accumulator Fill and Test Line 10 SI-V131# SI Test Line 10 SI-V134# SI Test Line 10 SI-V157 Accumulator Fill and Test Line 10 SI-V158# SI Test Line 10 SI-V160# SI Test Line 10 SS-FV2857* Post Accident Sample Flush Tank Drain i VG-FV1661 Hydrogenatsd Equipment Vent Header 1 VG-FV1712 Hydrogenated Equipmant Vent Header 1 WLD-FV8330 Containment Floor Drains 1 i
WLD-FV 131 Containment Floor Drains 1 )
l WLD-V81 Reactor Coolant Drain Tank 10 l
1 WLD-V82 Reactor Coolant Drain Tank 10 I
I 1
o l
TABLE 16.3-4 l CONTAINMENT ISOLATION VALVES (continued) i B. PHASE "B" ISOLATION ~,
MAXIMUM ISOLATION TIME VALVE NUMBER FUNCTION (Seconds)
CC-V57 PCCW Loop A Supply 10 1 CC-V121 PCCW Loop A Return 10 CC-V122 PCCW Loop A Return 10 CC-V168 PCCW Loop A Supply 10 CC-V175 PCCW Loop B Supply 10 CC-V176 PCCW Loop B Supply 10 CC-V256 PCCW Loop B Return 10 CC-V257 PCCW Loop B Return 10 C. CONTAINMENT PURCE AND EXHAUST
- MAXIMUM ISOLATION TIME VALVE NUMBER FUNCTION (Seconds)
CAP-V1 Containment Refueling Purge & Exhaust 3 CAP-V2 Containment Refueling Purge & Exhaust ,
3 CAP-V3 Containment Refueling Purge & Exhaust 3 CAP-V4 Containment Refueling Purge & Exhaust 3 COP-VI Containment On-Line Purge 2 COP-V2 Containment On-Line Purge 2 COP-V3 Containment On-Line Purge 2 COP-V4 Containment On-Line Purge 2 I
1
)
TABLE 16.3-4 CONTAINMENT ISOLATION VALVES (continued)
D. MANUAL ,
HAXIMUM ISOLATION TIME VALVE NUHBER FUNCTION (Seconds)
. CGC-V3 #* Hydrogen Analyzer Outlet NA CGC-V10#* Hydrogen Analyzer Inlet NA CGC-V15* Containmant Exhaust Filter ORC Isolation NA CGC-V24#* Hydrogen Analyzer Outlet NA CGC-V32f* Hydrogen Anaifzer Inlet NA l
CGC-V36* Containment Exhaust Filter ORC Isolation NA CGC-V43* Compressed Air Supply to Containment NA CGC-V44* Compressed Air Supply to Containment NA CGC-V45 Portable Air Compressor Connection NA DM-V4 Demineralized Water Supply NA DM-V5 Demineralized Water Supply NA FP-V592* Containment Fire Protection Header NA SA-V229 Containment Service Air ,,
NA SA-V1042 Containment Service Air NA SF-V86 Refueling Cavity Cleanup NA SF-V87 Refueling Cavity Cleanup NA LD-VI Leak Detection NA LD-V2 Leak Detection NA E. OTHER MAXIMUM ISOLATION TIME VALVE NUHBER FUNCTION (Seconds)
CAH-V12 Radiation Monitoring Skid 60 IRC Check NA l
1 CC-V410 PCCW Loop A Return Relief NA
. . . . .. k
TABLE 16.3-4 CONTAINMENT ISOLATION VALVES (continu:d)
E. OTHER (CONT'D)
MAXIMUM
' ISOLATION TIME l VALVE NUMBER FUNCTION '. (Seconds) l CC-V474 PCCW Loop B Return Relief NA l
l CC-V840 PCCW Loop B Supply Relief NA l
l CC-V845 PCCW Loop A Supply Relief NA l CGC-V4# Hydrogen Analyzer Outlet IRC Check NA CGC-V25# Hydrogen Analyzer Outlet IRC Check NA CCC-V46 Compressed Air Supply IRC Check NA CS-V794 RCP Seal Water / Excess Letdown Return Relief NA DM-V18 Containment Demineralized Water Supply NA Relief FP-V588 Containment Fire Protection Header NA IRC Check ,
RC-V312 Prassurizer Sample Relief NA 1 RC-V314 RCS Loop 1 Sample Relief NA RC-V337 RCS Loop 3 Sample Relief NA RMW-V29 Reactor Makeup Water IRC Check
- NA SF-V101 Refueling Cavity Cleanup Relief NA SI-V247 Accumulator Fill / Test Header Relief NA SS-V273 Post Accident Sample Flush Tank Drain NA IRC Check WLD-V209 Sump "B" to FDT Relief NA WLD-V213 PDT to RC Drain Tank Relief NA I RC-FV2894* RCS Loop 1 Sample NA RC-FV2896* RCS Loop 3 Sample NA
- Not subject to Type C leakage test
- May be opened on an intermittent basis under administrative control
)
TABLE 16.3-4 -
CONTAINMENT ISOLATION VALVES .
(continued) -
)
E. OTHER (CONT'D)
MAXIMUM ISOLATION TIME VALVE NUMBER FUNCTION (Seconds)
MS-V86 Main Steam Isolation 5 MS-V88 Main Steam Isolation 5 N6-V90 Main Steam Isolation 5 MS-V92 Main Steam Isolation 5 MS-V204 Main Steam Isolation Bypass 15 MS-V205 Main Steam Isolation Bypass 15 MS-V206. Main Steam Isolation Bypass 15 MS-V207 Main Steam Isolation Bypass 15 MSD-V44 Main Steam Drain Isolation 15 MSD-V45 Main Steam Drain Isolation 15 MSD-V46 Main Steam Drain Isolation -
15 MSD-V47 Main Steam Drain Isolation 15 FW-V30 Feedwater Isolation , 5 FW-V39 Feedwater Isolation 5 FW-V48 Feedwater Isolation 5 FW-V57 Feedwater Isolation 5 FW-V76 Feedwater Isolation Check Valves NA FW-V82 Feedwater Isolation Check Valves NA FW-V88 Feedwater Isolation Check Valves NA FW-V94 Feedwater Isolation Check Valves NA
0 TALBE 16.3-5 FIRE HOSE STATIONS ,
i
.- (
LOCATION ELEVATION BOSE REEL NUMBER EMRG. FW BLDC.
West end opposite door 27' 71 West end in stairway 27' 62 EQUIPMENT VAULTS North Vault . -50' 27 South Vault -50' 26 North Vault -31' 25 South Vault -31' 24 North Vault 3' 23 South Vault 3' 22 CONTROL BUILDING Stairway 21' 30 Turbine Bldg. by door ',
to Essential Swg. Rm. A 21' 8A I Stairway 50' 29 Turbine Bldg. by door to Cable Spd. Rs. 50' 15A Stairway 75' 28 Turbine Bldg. by tornado door 75' 20A e
TABLE 16.3-5 FIRE HOSE STATIONS LOCATION ELEVATION . HOSE REEL NUMBER DIESEL CEN. BLDG.
"A" Train in stairway -8' 67
-8' 70 "B" Train in stairway "A" Train in stairway 21' 66 21' 69 "B" Train in stairway "A" Train in stairway 51' 65 "B" Train in stairway 51' 68 ELECTRICAL TUNNELS "A" Train - West stairway O' 63A "A" Train - East stairway O' 63 "B" Train - West end of Tunnel -20' 64A "B" Train - East stairway -26' 64 t
l l
l
TABLE 16.3-5 FIRE HOSE STATIONS LOCATION ELEVATION HOSE REEL NUMBER ]
PRI. AUX. BLDG. (PAB)
Piping Penetration Area -26' 37B Piping Penetration Area -26' 37C North stairway 4 37 Outside Demineralizer Access Room
-6' 37A North stairway 7 36 South stairway 7' 38 North stairway 25' 34 South stairway 25' 35 North stairway '53 33 South stairway 53' 32 Outside HVAC Eq. Room 81' 31 FUEL STORAGE BLDG. .
Outside SF pump area 7' 49 By West doorway 21e 48 By West stairway 64' 47 MAIN STM - FW PIPECHASE South stairway 12' 22A South stairway 21' 22B
i TABLE 16.3-5 FIRE HOSE STATIONS LOCATION ELEVATION HOSE REEL NUMBER CONTAINMENT Approx. 55' on outside wall -26' 53 Approx. 130* by "C" accumulator -26' 51 Approx. 210* -26' 60 Approx. 320* by stairway -26' 57 Approx. 55* 0' 54 Approx. 120* by equip. hatch O' 52 Approx. 220* opposite inst. rack O' 61 Approx. 310' 0' 58 Approx. 65* behind H 2 recom. 25' 55 Approx. 135*'by equip. hatch '25' 50 Approx. 225* 25' 59 Approx. 310* by personnel hatch 25' 56 O
TABLE 16.3-6 YARD FIRE HYDRANTS AND ASSOCIATED HYDRANT HOSE HOUSES LOCATION HYDRANT NO. HOSE HOUSE NUMBER CONTROL BUILDING 17A HH9A Gutside "B" Diesel doorway Opposite stairway door 16
.. )
DIESEL GEN. BLDG.
Outside "B" Diesel doorway 17A HH9A Southeast of Diesel Gen. Bldg. 16 FUEL STORAGE BLDG.
South of Pri. Aux. Bldg. (PAB) ,,
6 HH4 Opposite Fuel Storage Bldg. 7 Southeast of Fuel Storage Bldg. 8 HHS PRI. AUX. BLDC. (PAB)
South of Pri. Aux. Bldg. 6 .HH4 Outside "B" Diesel doorway 17A HH9A Northwest of Primary Aux. Bldg. 16 ,,
Southeast of Primary Aux. Bldg. 7 SERV. WTR. PUMP HOUSE Southwest of Serv. Wtr. Pump House 8 HHS South of Serv. Water Puup House 26 SERV. WTR. COOLING TOWER East end of Cooling Tower SA HH10 1
J
c .. .
TABLE 16.3-6 YARD FIRE HYDRANTS AND ASSOCIATED HYDRANT HOSE HOUSES MCATION HYDRANT NO. HOSE HOUSE NUMBER MAIN STM - FW PIPECHASE Near South entrance to pipechase 9 HH6 EMERGENCY FEEDWATER PUMPHOUSE Near South Entrance to Main Steam Feedvater Pipe Chase (East) '. 9 HH6
~.
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)
TABLE 16.3-7 CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT PROTECTIVE DEVICES NOTES REGARDING FIELD TESTING OF PROTECTIVE DEVICES: ,
- 1. INSTANTANEOUS 'IRIP TESTING ON MOLDED CASE CIRCUIT BREAKERS -
Using the pulse method, increase test current until a trip occurs with a response time of 0 to 0.067 seconds. Immediately attempt to reset the tripped circuit breaker. If the breaker can be reset, this is evidence that the instantaneous trip element was responsible for the trip as opposed to the thermal element. Should the test current be increased to the maximum value specifed, and the subsequent response time is greater than 0.067 second, the breaker shall be declared inoperable.
- 2. THERMAL OVERLOAD RELAY TESTING The test setpoints and verification times given in this table are based on data in the manufacturers time / current curve for an ambient temperature of 40 C. If field testing is performed in an ambient temperature other than 40 C the test current may have to be adjusted by the appropriate temperature correction factor (See table below) in order to meet the specified verification times.
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t40 0 20 40 to 80 800 AMest NT TEMPE RATURt . Of GRE ES AMBIENT TEMPERATURE CORRECTION CURVE LLA55 L10 & E20 OVERLOAD RELAY AVRs(NT COMPENSAIE D f yrs dredLJ SM0. pc. MO. V09FJ4> mo.e courtmsArt o tyrt
i
, e Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued) ,
CT Second'ary Verification Test Current Time Systes Device Number and Location (amps) (seconds) ,
Powered Instant Instant Longtime Longtime I. 13.8 kV
- a. Circuit Breakers
- 1. Bus 1 - Overcurrent Trip' Devices - IAC Relays Incoming Line 40* .37 .43 RC Breaker UAT-Ila (S) 12 3.7-4.3 Incoming Line 40* .37 .43 RC Breaker RAT-I3A (S) 12 3.7-4.3 Reactor Coolant Pump 28.5-31.5 0 .047 RC RC-P-1A Feeder 15 26-30 Breaker (P)
Reactor Coolant Pump 28.5-31.5 0 .047 RC RC-P-iB Feeder 15 26-30 Breaker (P)
- 2. Bus 2 - Overcurrent Trip Devices - IAC Relays Incoming Line 40* .37 .43 RC Breaker UAT-X2B (S) 12 3.7-4.3 Incoming Line 40* .. .37 .43 RC Breaker RAT-X3B (S) 12 3.7-4.3 Reactor Coolant Pump 28.5-31.5 0 .047 RC RC-P-1C Feeder 15 26-30 Breaker (P)
Reactor Coolant Pump 28.5-31.5 0 .047 RC RC-P-1D Feeder 15 26-30 Breaker (P)
- 3. The opening response time to a trip signal for all 13.8 kV circuit breakers should be less than 0.042 seconds for verification time purposes.
Note:
.- 1 (P) - Primary J
(S) - Back-up/ Secondary
(*) - Short-Time Value
. e l
Table 16.3-7 l Containment Penetration Conductor Overcurrent Protective Devices (Continued) =
i .
~
Test Verification Setpoint Time System (amps) (seconds) Powered Instant. Instant.
Long-time Long-time II. 480 V
- a. Unit Substations Bus E53 Secondary '- 9600* .48 .84 CAH Breaker (S) 4800 10-28 Containment Structure 3000-4500 0 .070 CAH Cooling Fan CAH-FN-lC (P) 990 10-28 Containment Structure 3000-4500 0 .070 CAR Cooling Fan CAH-FN-1E (P) 990 10-28 Containment Structure 2160-3240 0 .080 CAH Cooling Fan CAH-FN-1F (P) 900 10-28 i
Bus E63 Secondary 9600* .48 .84 CAH Breaker (S) 4800 10-28 Containment Structure 3000-4500 0 .070 CAH Cooling Fan CAH-FN-la (P) 990 10-28 Containment Structure 2160-3240 0 .080 CAH Cooling Fan CAH-FN-1B (P) 900 10-28 Containment Structure 2160-3240 0 .080 CAH Cooling Fan CAH-FN-1D (P) 900 10-28 l
i
,o
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued) ,
~.
~
Test Verification Setpoint Time System (amps) (seconds) Powered Instant Instant Overload Overload III. MOTOR CONTROL CENTERS
- a. Type HE3-Thermal Magnetic Circuit Breaker ,
MCC-E512 containment Structure 450-1400 0 .067 CAN Recire. Filter Fan 210 18-75 CAH-FN-3A (P)
MCC-E515 Thermal Barrier PCCW 45.0-1400 0 .067 CC Recirculating Pump 150 18-75 CC-P-322A (P)
MCC-E531 Control Rod Drive 450-1400 0 .067 CAH Mechanism Cooling Fan -
150 18-75 CAH-FN-2A (P) -
Control Rod Drive 450-1400 0 .067 CAH Mechanism Cooling Fan 150 18-75 CAH-FN-2C (P) .
Containment Building Air 450-1400 0 .067 SA Compressor 12 0 18-75 SA-C-4A (P)
Lighting Transformer 450-1400 0 .067 ED ED-X-16H Feeder (P) 300 18-75 Lighting Transformer 450-1400 0 .067 ED ED-X-16H teeder (S) 300 18-75 MCC-E522 Accum. Tk. 9A Outlet Iso. 450-1400 0 .067 SI Valve SI-V3 (P) 12 0 18-75 Accum. Tk. 9C Outlet Iso. 450-1400 0 .067 SI Valve SI-V32 (P) 12 0 18-75
.. . . . _ .- _-- . , , . s t_ . -
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued)
Te'st Verification Setpoint Time System (amps) (seconds) Powered Instant Instant Overload Overload III. MOTOR CONTROL CENTERS (Cont'd.)
- a. Type HE3-Thermal Magnetic (Cont'd.)
MCC-E622 ,
Accum. Tk. 9B Outlet Iso. 450-1400 0 .067 SI Valve SI-V17 (P) 120 18-75 Accum. Tk. 9D Outlet Iso. 450-1400 0 .067 SI Valve SI-V47 (P) 12 0 18-75 MCC-E612 Containment Structure 4'50-1400 0 .067 CAH Recire. Filter Fan 210 18-75 CAH-FN-3B (P)
MCC-E615 Thermal Barrier PCCW 450-1400 0 .067 CC Recirculating Pump 150 18-75 .,
CC-P-322B (P)
MCC-E631 Control Rod Drive 450-1400 0 .067 CAH Mechanism Cooling Fan 15 0 18-75 CAH-FN-2B (P)
Control Rod Drive 450-1400 0 .067 CAH Mechanism Cooling Fan 15 0 18-75 CAH-FN-2D (P)
Containment Building Air 450-1400 0 .067 SA Compressor SA-C-4B (P) 12 0 18-75 Lighting Transformer 450-1400 0 .067 ED ED-I-16A Feeder (P) 300 18-75 Lighting Transformer 450-1400 0 .067 ED ED-X-16A Feeder (S) 300 18-75 1 _
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued)
I Test Verification Setpoint Time System (amps) (seconds) Powered Instant Instan t Overload Overload III. MOTOR CONTROL CENTERS (Cont'd.)
- a. Type HE3-Thermal Magnetic (Cont'd.)
MCC-111 .
RC-P-1A 011 Lift 300-980 0 .067 RC Pump RC-P-229A (P) 90 6-70 RC-P-1B 011 Lift 300-980 0 .067 RC Pump RC-P-229B (P) 90 6-70 RC Drain Tank Pump 300-980 0 .067 WLD WLD-P-33A (P) 90 6-70 RC-P-1A Motor 300-980 0 .067 RC Space Heater (P) 45 6-70 RC-P-1A Motor 300-980 0 .067 RC Space Heater (S) 45 6-70 RC-P-1B Motor 300-980 0 .067 . RC Space Heater (P) 45 6 '70 RC-P-1B Motor 300-980 0 .067 RC Space Heater (S) 45 6-70 Lighting Transformer 450-1400 0 .067 ED.
ED-X-16E Feeder (P) 300 18-75 Lighting Transformer 450-1400 0 .067 ED ED-X-16E Feeder (S) 300 18-75 Containment Building 300-980 0 .067 MM Personnel Air-Lock 45 6-70 MM-MM-30 (P)
Containment Building 300-980 0 .067 -MM Personnel Air-Lock 45 6-70 MM-MM-30 (S) 1 e
i 1
Table 16.3-7 Containment Penetration Conductor l
Overcurrent Protective Devices (Continued) .
Ten.t Verification Setpoint Time System (amps) (seconds) Powered Instant Ins tant Overload Overload III. MOTOR CONTROL CENTERS (Cont'd.)
- a. Type HE3-Thermal Magnetic (Cont'd.)
MCC-111 (Cont'd.) ',
Lighting Transformer 450-1400 0 .067 ED ED-X-16J Feeder (P) 300 18-75 Lighting Transformer 450-1400 0 .067 ED ED-X-16J Feeder (S) 300 18-75 Incore Detector Drive-A (P) 300-980 0 .067 IC 45 6-70 Incore Detector Drive A (S) 300-980 0 .067 IC 45 6-70 Incore Detector Drive B (P) 300-980 0 .067 IC 45 6-70 Incore Detector Drive B (S) 300-980 0 .067 - IC 45 6-70 '
Incore Detector Drive C (P) 300-980 0 .067 IC
.45 . 6-70 Incore Detector Drive C (S) 300-980 0 .067 IC 45 6-70 MCC-231 RC-P-1C 011 Lift Pump 300-980 0 .067 RC RC-P-229C (P) 90 6-70 RC-P-1D Oil Lift Pump 300-980 0 .067 RC RC-P-229D (P) 90 6-70 RC Drain Tank Pump B 300-980 0 .067 WLD l WLD-P-33B (P) 90 6-70
. i Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued) .
Test Verification Setpoint Time System (amps) (seconds) Powered Instant Instan t Overload Overload III. MOTOR CONTROL CENTERS (Cont'd.)
- a. Type HE3-Thermal Magnetic (Cont'd.)
MCC-231 (Cont'd.) '.
RC-P-1D Motor Space 300-980 0 .067 RC Heater (P) 45 6-70 RC-P-1D Motor Space 300-980 0 .067 RC Heater (S) 45 6-70 RC-P-1C Motor Space 300-980 0 .067 RC Heater (P) 4.5 6-70 RC-P-1C Motor Space 300-980 0 .067 RC Heater (S) 45 6-70 Lighting Transformer 450-1400 0 .067 ED ED-X-16F Feeder (P) 30 0 18-75 Lighting Transformer 450-1400 0 .067 -
ED ED-X-16F Feeder (S) 300 18-75 Lighting Transformer 450-1400 0 .067 ED ED-X-16K Feeder (P) 300 ,
18-75 Lighting Transformer 450-1400 0 .067 ED ED-X-16K Feeder (S) 300 18-75 Incore Detector Drive D (P) 300-980 0 .067 IC 45 6-70 Incore Detector Drive D (S) 300-980 0 .067 IC 45 6-70 Incore Detector Drive E (P) 300-980 0 .067 IC 45 6-70
~
s I
l e t Table '16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued) '
Test Verification Setpoint Time System (amps) (seconds) Powered Instant Instant Overload Overload III. MOTOR CONTROL CENTERS (Cont'd.)
- a. Type HE3-Thermal Magnetic (Cont'd.)
MCC-231 (Cont' d.) .
Incore Detector Drive E (S) 300-980 0 .067 IC 45 6-70 Incore Detector Drive F (P) 300-980 0 .067 IC 45 6-70 Incore Detector Drive F (S) 300-980 0 .067 IC 45 6-70 Containment Building 300-980 0 .067 MM Equipment Hatch Air-Lock 45 6-70 MM-MM-29 (P)
Containment Building 300-980 0 .067 MM Eq:tipment Hatch Air-Lock 45 6-70 ~
MM-MM-29 (S) ,
Table 16.3-7 Containment Penetration -onductor Overcurrent Protective Devices (Continued) -
- e Test Verificat' ion Setpoint Time System (amps) (seconds) Powered Instant Instant III. MOTOR CONTROL CENTERS (Cont'd.)
- b. AMPCAP Motor Circuit Protector MCC-E512 Containment Structure Recire. 496-925 0 .067 CAH Filter Fan CAH-FN-3A (S)
Regen. HT Exch Letdown Iso. 27-50 0 .067 CS Valve CS-V149 (P)
Regen. HT Exch Letdown Iso. 27-50 0 .067 CS Valve CS-V149 (S)
RC-P-1A to PCCW Iso. Valve $2-59 0 .067 CC CC-V428 (P)
RC-P-1A to PCCW Iso. Valve 32-59 0 .067 CC CC-V428 (S)
RC-P-1D to PCCW Iso. Valve 32-59 0 .067 CC CC-V439 (P) -
RC-P-1D to PCCW Iso. Valve 32-59 0 .067 CC CC-V439 (S)
NCC-E515 Thermal Barrier PCCW 369-689 0 .067 CC Recirculating Pump CC-P-322A (S)
NEC-E531 Control Rod Drive Mech. 369-689 0 .067 CAH Cooling Fan (s)
CAH-FN-2A I
t l
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued)
Test Verification Setpoint Time System (amps) (accends) Powered Instant Instant III. MOTOR CONTROL CENTERS (Cont'd.)
- b. AMPCAP Motor Circuit Protector MCC-E531 (cont'd.)
Control Rod Drive Mech. 369-689 0 .067 CAH Cooling Fan C CAH-FN-2C (S)
Containment Bldg. Air 252-470 0 .067 SA Compressor SA-C-4A (S)
RC Loop 3 Letdown to Regen. 17-31 0 .067 RC HX Iso. Valve RC-V81 (P)
RC Loop 3 Letdown to Regen. 17-3 1 0 .067 RC HX Iso. Yalve RC-V81 (S)
Letdown Control Valve 5.3-10 0 .067 CS CS-HCV-189 (P)
Letdown Control Valve 5.3-10 0 .067 -
~
CS CS-HCV-189 (S)
MCC-E521 RC Loop 1 RHR Inlet Iso.67-125 ' 0 .067 RC Valve RC-V23 (P)
RC Loop 1 RHR Inlet Iso.67-125 0 .067 RC Valve RC-V23 (S)
RC Loop 4 Pressurizer Press. 39-73 0 .067 RC Relief Iso. Valve RC-V122 (P)
RC Loop 4 Pressurizer Press. 39-73 0 .067 RC Relief Iso. Valve RC-V122 (S)
6
. o Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued)
~.
Test Verification Setpoint Time System (erra) (seconds) Powered Instant ~ 'Inatant III. MOTOR CONTROL CENTERS (Cont'd.)
- b. AMPCAP Motor Circuit Protector MCC-ES21 (cont'd)
Containment Purge Iso. Valve 8.6-16 0 .067 CGC CGC-V14 (P)
Containment Purge Iso. Valve 8.6-16 0 .067 CGC CGC-V14 (S)
RC Loop 4 RHR. Inlet Iso.67-125 0 .067 RC q Valve RC-V88 (P)
RC' Loop 4 RHR Inlet Iso. 67'-125 0 .067 RC j Valve RC-V88 (S)
MCC-E522 Accum Tk 9A Outlet Iso. 317-591 0 .067 SI Valve SI-V3 (S) .
Accum Tk 9C Outlet Iso. 317-591 0 .067 SI Valve SI-V32 (S)
MCC-E622 .,
j Accum Tk 9B Outlet Iso. 317-591 0 .067 SI~
Valve SI-V17 (S) i i
Accum Tk 9D Outlet Iso. 317-591 0 .067 SI Valve SI-V47 (S)
MCC-E612 1
Containment Structure Recire. 496-925 0 .067 CAH Filter Fan CAH-FN-3B (S)
RCP Seal Water Iso. Valve 29-49 0 .067 CS CS-V168 (P) h
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued) ,
', 3 Test Verification Setpoint Time System (amps) (seconds) Powered instant _ Ins tao t III. MOTOR CONTROL CENTERS (Cont'd.)
- b. AMPCAP Motor Circuit Protector MCC-E612 (Cont'd.) .
0 .067 29-49 CS RCP Seal Water Iso. Valve CS-V168 (S)
RC-P-1B to PCCW Iso. Valve 32-59 0 .067 CC CC-V395 (P)
RC-P-1B to PCCW Iso. Valve 32-59 0 .067 CC CC-V395 (S)
RC-P-1C to PCCW Iso. Valve 3'-59 2 0 .067 CC CC-V438 (P)
RC-P-1C to PCCW Iso. Valve 32-59 0 .067 CC CC-V438 (S)
Reactor Vent Valve 4.7-9.0 0 .067 BC RC-V323 (P) .
Reactor Vent Valve 4.7 -9.0 0 .067 BC RC-V323 (S)
MCC-E615 -
Thermal Barrier PCCW 367-689 0 .067 CC Recirculating Pump CC-P-322B (S)
MCC-E631 Control Rod Drive Mech. 369-689 0 .067 CAH Cooling Fan CAH-FN-2B (S)
l Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued) ',
Test Verification Setpoint Time System (ampa) (seconds) Pewtred ,
Instant instant III. MOTOR CONTROL CENTERS (Cont'd.)
- b. AMPCAP Motor Circuit Protector MCC-E631 (Cont'd.) .
Control Rod Drive Mech. 369-689 0 .067 CAH Cooling Fan CAH-FN-2D (S)
Containment Bldg. Air Com- 252-470 0 .067 SA pressor SA-C-4B (S)
Letdown Control valve 5.3-10 0 .067 CS CS-HCV-190 (P)
Letdown Control valve 5.3-10 0 .067 CS CS-HCV-190 (S)
MCC-E621 RC Loop 1 RHR Inlet Iso.67-125 0 .067 RC Valve RC-V22 (P) ,
RC Loop 1 RHR Inlet Iso.67-125 0 .067 RC Valve RC-V22 (S)
RC Loop 4 RHR Inlet Iso. 62-115*. 0 .067 RC Valve RC-V87 (P)
RC Loop 4 RHR Inlet Iso.62-115 0 .067 RC Valve RC-V87 (S)
RC Loop 1 Pressurizer Press. 39-73 0 .067 RC Relief Iso. Valve RC-V124 (P)
RC Loop 1 Pressurizer Press. 39-73 0 .067 RC Relief Iso. Valve RC-V124 (S)
f Table 16.3-7 i Containment Penetration Conductor Overcurrent Protective Devices (Continued) s i
.' 5
~
Test Verification Setpoint Time System (smuc) .jseconds) Powered Instant Instant III. MOTOR CONTROL' CENTERS (Cont'd.)
- b. AMPCAP Motor Circuit Protector MCC-E621 (Cont'd.) .
Containment Purge Isolation 9.2-17 0 .067 CGC Valve CGC-V28 (P)
Containment Purge Isolation 9.2-17 0 .067 CGC Valve CGC-V28 (S)
'CC-111 M
RC-P-1A 011 Lift Pump 129-241 0 .067 RC RC-P-229A (S)
RC-P-1B Oil Lift Pump 129-241 0 .067 RC RC-P-229B (S)
Containment Structure Sump A 51-95 0 .067 WLD Pump WLD-P-5A (P)
Containment Structure Sump A 51-95 0 .067 WLD Pump WLD-P-5A (S) l Containment Structure Sump B 51-95 *. 0 .067 WLD l Pump WLD-P-5C (P) i Containment Structure Sump B 51-95 0 .067 WLD Pump WLD-P-SC (S)
RC Drain Tank Pump A 185-344 0 .067 WLD WLD-P-33A (S)
Pressure Relief Tank Cooling 29-55 0 .067 RC Pump RC-P-271 (P)
Pressure Relief Tank Cooling 29-55 0 .067 RC Pump RC-P-271 (S)
{~ l
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued) ,
Test Verification Setpoint Time System (amps) (seconds) Powered Instaut Instant III. MOTOR CONTROL CENTERS (Cont'd.)
- b. AMPCAP Motor Circuit Protector MCC-111 (Cont'd.)
Excess Letdown Heat 27-50 0 .067 CC Exchanger Valve CC-V434 (P)
Excess Letdown Heat 27-50 0 .067 CC Exchanger Valve CC-V434 (S)
Steam Generator Blowdown 8.6-16 0 .067 SB Stop Valve SB-V191 (P)
Steam Generator Blowdown 8.6-16 0 .067 SB Stop Valve SB-V191 (S)
Steam Generator Blowdown 8.6-16 0 .067 SB Stop Valve SB-V193 (P) .
Steam Generator Blowdown 8.6-16 0 .067 SB Stop Valve SB-V193 (S)
MCC-231 .
RC-P-1C Oil Lift Pump 129-241 0 .067 RC RC-P-229C (S)
RC-P-1D 011 Lift Pump 129-241 0 .067 RC RC-P-229D (S)
Containment Structure Sump A 51-95 0 .067 WLD Pump WLD-P-5B (P)
Containment Structure Sump A 51-95 0 .067 WLD Pump WLD-P-5B (S) i Containment Structure Sump B 51-95 0 .067 WLD
)
Pump WLD-P-SD (P) ;
I a
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued)
Test Verification Setpoint Time System (amps) (seconds) Powered Instant Instan t III. MOTOR CONTROL CENTERS (Cont'd.)
- b. AMPCAP Motor Circuit Protector MCC-231 (Cont'd.) ,
ContainmentStructureSumph 51-95 0 .067 WLD Pump WLD-P-SD (S)
RC Drain Tank Pump B 185-344 0 .067 WLD i
WLD-P-33B (S)
Steam Generator Blowdown 8.6-16 0 .067 SB Stop Valve SB-V189 (P)
Steam Generator Blowdown 8.'6-16 0 .067 SB Stop Valve SB-V189 (S)
Steam Generator Blowdown 8.6-16 0 .067 SB Stop Valve SB-V195 (P)
Steam Generator Blowdown -
8.6-16 0 .067 -
SB Stop Valve SB-V195 (S) ,
r
J Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued) ',
Test Verification System Setpoint Time Powered (amps) (seconds) 200% 200%
300% 300%
III. MOTOR CONTROL CENTERS (Cont'd.)
- c. Type G30T Thermal Overload Relays NCC-E512 Regen. Heat Exchanger Letdown 3.6 27-98 CS Iso. Valve CS-V149 (P) 5.4 12 -4 0 Regen. Heat Exchanger Letdown 3.6 27-98 CS Iso. Valve CS-V149 (S) 5.4 12-4 0 RC-P-1A to PCCW Iso. Valve 4.8 27-98 CC CC-V428 (P) -
7.2 12-40 RC-P-1A to PCCW Iso. Valve 4.8 27-98 CC CC-V428 (S) 7.2 12-4 0 RC-P-1D to PCCW Iso. Valve 4.8 27-98 CC CC-V439 (P) 7.2 12-4 0 RC-P-1D to PCCW Iso. Valve 4.8 27-98 CC CC-V439 (S) 7.2 12-40 Containment Structure Recire. 191 27-98 CAH Filter Fan CAH-FN-3A (S) -
28&. 12-4 0 MCC-E531 RC Loop 3 Letdown to Regen. 3.2 27-98 RC HX Iso. Valve RC-V81 (P) 4.8 12-40 l
~
Table 16.3-7 Containment Penetration Conductor j Overcurrent Protective Devices (Continued) -
Test Verification System Setpoint Timed Powered (amps) (seconds) 200% 200%200%
300% 3001300%
III. MOTOR CONTROL CENTERS (Cont'd.)
- c. Type G30T Thermal Overload Relays MCC-E531 (Cont'd) ',
RC Loop 3 Letdown to Regen. 3.2 27-98 RC HX Iso. Valve RC-V81 (S) 4.8 12-4 0 Control Rod Drive Mech. Cooling 105 27-98 CAH Fan CAH-FN-2A (S) 15 8 12-40 Control Rod Drive Mech. Cooling 105 27-98 CAH Fan CAH-FN-2C (S) 15 8 12 -4 0 Containment Building Air 68 27-98 SA Compressor SA-C-4A (S) 10 2 12-40 Letdown Control Valve 1.2 27-98 CS CS-HCV-189 (P) 1.8 12 -40 Letdown Control Valve 1.2 27-98 -
CS CS-HCV-189 (S) 1.8 12 -4 0 MCC-ES21 RC Loop 1 RHR Inlet Iso. Valve 14 27-98 RC RC-V23 (P) 20 12-40 RC Loop 1 RHR Inlet Iso. Valve 14 27-98 RC RC-V23 (S) 20 12-40 l
1
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices 1 (Continued) '
Test Verificat' ion Setpoint Time System (amps) (seconds) Powered 200% 200%
300% 300%
III. MOTOR CONTROL CENTERS (Cont'd.)
- c. Type G30T Thermal Overload Relays MCC-E521 (Cont'd.) 1 RC Loop 4 Pressurizer Press. 7.2 27-98 RC Relief Iso. Valve 11 12-40 RC-V122 (P)
RC Loop 4 Pressurizer Press. 7.2 27-98 RC Relief Iso. Valve 11 12-40 RC-V122 (S)
Containment Purge Iso. Valve 1.8 27-98 CGC CGC-V14 (P) 2.6 12 -40 Containment Purge Iso. Valve 1.8 27-98 CGC CGC-V14 (S) 2.6 12 -4 0 i
RC Loop 4 RHR Inlet Iso. Valve 14 27-98 ~
RC RC-V88 (P) 20 12-40 RC Loop 4 RHR Inlet Iso. Valve 14 27-98 RC RC-V88 (S) 20 12-40 MCC-E612 RCP Seal Water Iso. Valve 3.6 27-98 CS CS-V168 (P) 5.4 12-40 RCP Seal Water Iso. Valve 3.6 27-98 CS CS-V168 (S) 5.4 12-40 RC-P-1B to PCCW Iso. Valve 4.8 27-98 CC CC-V395 (P) 7.2 12-40 RC-P-1B to PCCW Iso. Valve 4.8 27-98 CC CC-V395 (S) 7.2 12-40 RC-P-1C to PCCW Iso. Valve 4.8 27-98 CC CC-V438 (P) 7.2 12-40 RC-P-1C to PCCW Iso. Valve 4.8 27-98 CC CC-V438 (S) 7.2 12-40 j
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued) ,
~.
Test Verification Setpoint Time System (amps) (seconds) Powered 200% 200%
300% 300 %
III. MOTOR CONTROL CENTERS (Cont'd.)
- c. Type G30T Thermal Overload Relays MCC-E612 (Cont'd.)
Containment Structure Recire. 191 27-98 CAH Filter Fan CAH-FN-3B 286 12-4 0 Reactor Vent Valve 1.0 27-98 RC RC-V323 (P) 1.4 12-4 0 Reactor Vent Valve 1.0 27-98 RC RC-V323 (S) 1.4 12-40 MCC-E631 Control Rod Drive Mech. 105 27-98 CAH Cooling Fan CAH-FN-2B (S) 15 8 12-40 Control Rod Drive Mech. ~
105 27-98 '
CAH Cooling Fan CAH-FN-2D (S) 15 8 12 -4 0 Containment Bldg. Air 68 27-98 SA Compressor SA-C-4B (S) 10 2 12-40 Letdown Control Valve 1.2 27-98 CS CS-HCV-190 (P) 1.8 12-40 Letdown Control Valve 1.2 27-98 CS CS-HCV-190 (S) 1.8 12-40 MCC-621 RC Loop 1 RHR Inlet Iso. 14 27-98 RC Valve RC-V22 (P) 20 12-40 RC Loop 1 RHR Inlet Iso. 14 27-98 RC Valve RC-V22 (S) 20 12-40 k
Table-16.3-7 Containment Penetration Conductor J Overcurrent Protective Devices l (Continued) i
~
Test Verification 1
Setpoint Time System (amps) (seconds) Powered 200% 200%
300% 300 %
III. MOTOR CONTROL CENTERS (Cont'd.)
- c. Type G30T Thermal Overload Relays MCC-E621 (Cont'd.) --
RC Loop 1 Pressurizer Press. 8.0 27-98 RC Relief Iso. Valve 12 12-40 RC-V124 (P)
RC Loop 1 Pressurizer Press. 8.0 27-98 RC Relief Iso. Valve 12 12-4 0 RC-V124 (S)
RC. Loop 4 RER Inlet Iso. Valve '14 27-98 RC RC-V87 (P) 20 12-4 0 RC Loop 4 RHR Inlet Iso. Valve 14 27-98 RC RC-V87 (S) 20 12-40 Containment Purge Isolation ~
2.0 27-98 CGC
! Valve CGC-V28 (P) 2.9 12 -4 0 .
Containment Purge Isolation 2.0 27-98 CGC Valve CGC-V28 (S) 2.9 12 -4 0 MCC-111 Containment Structure Sump A 10 27-98 WLD Pump WLD-P-5A (P) 15 12 -4 0 Containment Structure Sump A 10 27-98 WLD Pump WLD-P-5A (S) 15 12 -4 0 Containment Structure Sump B 10 27-98 WLD Pump WLD-P-SC (P) 15 12 -4 0 Containment Structure Sump B 10 27-98 WLD Pump WLD-P-5C (S) 15 12 -4 0 Pressure Relief Tank Cooling 7.2 27-98 RC Pump RC-P-271 (P) 11 12-40 Pressure Relief Tank Cooling 7.2 27-98 RC Pump RC-P-271 (S) 11 12-40
i l
Table 16.3-7 )
Containment Penetration Conductor Overcurrent Protective Devices (Continued) t Test Verification Setpoint Time System (amps) (seconds) Powered 200% 200%
300% 300%
III. MOTOR CONTROL CENTERS (Cont'd.)
- c. Type G30T Thermal Overload Relays PEC-111 (Cont'd.)
RC-P-1A 011 Lift Pump 35 27-98 RC RC-P-229A (S) 52 12-40 RC-P-1B Oil Lift Pump 35 27-98 RC RC-P-229B (S) 52 12-40 Excess Letdown Heat Exch. 4.8 27-98 CC Valve CC-V434 (P) . 7.2 12-40 Excess Letdown Heat Exch. 4.8 27-98 CC Valve CC-V434 (S) 7.2 12-4 0 Reactor Coolant Drain Tank 48 27-98 WLD Pump WLD-P-33A (S) /1 12-40 Steam Gen. Blowdown Stop Vakve 1.6 27-98 ,
SB SB-V191 (P) 2.4 12-40 Steam Gen. Blowdown Stop Valve 1.6 27-98 SB SB-V191 (S) , 2.4 ,
12-4 0 Steam Gen. Blowdown Stop Valve 1.6 27-98 SB SB-V193 (P) 2.4 12-4 0 Steam Gen. Blowdown Stop Valve 1.6 27-98 SB SB-V193 (S) 2.4 12-40 MCC-231 i Containment Structure Sump A 10 27-98 WLD Pump WLD-P-5B (P) 15 12 -4 0 Containment Structure Sump A 10 27-98 WLD
- Pump WLD-P-5B (S) 15 12 -4 0 Containment Structure Sump B 10 27-98 WLD
~ ^
Pump WLD-P-SD (P) 15 12 -4 0
Table 16.3-7 Containment Penetration Conductor i
Overcurrent Protective Devices (Continued) \ j Test Verification Setpoint Time System (amps ) (seconds) Powered 2002 200%
300% 300%
III. MOTOR CONTROL CENTERS (Cont'd.)
- c. Type G30T Thermal Overload Relays MCC-231 (Cont'd.)
Containment Structure Sump B 10 27-98 WLD Pump WLD-P-SD (S) 15 12 -4 0 RC-P-1C 011 Lift Pump 35 27-98 EC RC-P-229C (S) 52 12-4 0 RC-P-1D 011 Lift Pump 35 27-98 RC RC-P-229D (S) 52 12-4 0 Reactor Coolant Drain Tank 48 27-98 WLD Pump WLD-P-33B (S) 71 12-40 Steam Gen. Blowdown Stop Valve 1.6 27-98 SB SB-V189 (P) 2.4 12-4 0 Steam Gen. Blowdown Stop Valve 1.6 27-98 SB SB-V189 (S) 2.4 12-4 0 Steam Gen. Blowdown Stop Valve 1.6 27-98 SB SB-V195 (P) - 2.4 .. 12-4 0 Steam Gen. Blowdown Stop Valve 1.6 27-98 SB SB-V195 (S) 2.4 12-4 0 MCC-E515 Thermal Barrier PCCW 98 27-98 CC Recirculating Pump 146 12-4 0 CC-P-322A (S) l i
Table 16.3-7 Containment Penstration Conductor Overcurrent Protective Devices (Continued)
Test Verification Setpoint Time -
System (amps) (seconds) Powered 200% 200%
300% 300%
III. MOTOR CONTROL CENTERS (Cont'd.)
- c. Type G30T Thermal overload Relays MCC-ES22 Accumulator Tank 9A Outlet ' 64 27-98 SI Iso. Valve SI-V3 (S) 96 12-40 Accumulator Tank 9C Outlet 64 27-98 SI Iso. Valve SI-V32 (S) 96 12-40 MCC-E615 Thermal Barrier PCCW , 98 27-98 CC Recirculating Pump 14 6 12-40 CC-P-322B (S)
MCC-E622 Accumulator Tank 9B Outlet 64 27-98 SI Isol. Valve SI-V17 (S) . 96 12-40 Accumulator Tank 9D Outlet 64 27-98 -
SI Isol. Valve SI-V47 (S) 96 12-40 9
s
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued)
Test Verification Setpoint Time System (amps) (seconds) Powered Instant Instan t Overload Overload III. MOTOR CONTROL CENTERS (Cont'd.)
- d. type JL-Thermal Magnetic MCC-ES21 Hydrogen Recombiner 563-1050 0 .067 CGC CGC-MM-284A (P) 375 32-150 Hydrogen Recombiner 563-1050 0 .067 CGC CGC-MM-284A (S) 375 32-150 MCC-E621 Hydrogen Recombiner 563-1050 0 .067 CGC CGC-MM-284B (P) 375 32-150 Hydrogen Recombiner 563-1050 0 .067 CGC CGC-MM-284B (S) 375 32-150 e
l 1
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued)
Test Verification Setpoint Time System (amps) (seconds) Powered Instant _Io stant Overload Overload IV. PRESSURIZER HEATERS Backup Group A - RC-PP-6A Type FJ-Thermal Magnetic Heaters 1, 2 and 22 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 1, 2 and 22 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 Heaters 5, 6 and 27 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heatera-5, 6 and 27 5'63-1050 0 .067 RC Secondary Breaker (S) 375 30-180 Heaters 9, 10 and 32 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 9, 10 and 32 . 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 .
Heaters 13,14 and 37 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 13, 14 and 37 563-105'd 0 .067 RC Secondary Breaker (S) 375 30-180 Heaters 17, 18 and 42 563-104) 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 17, 18 and 42 5tS-105c 0 .067 RC Secondary Breaker (S) 375 30-180 Backup Group C - RC-PP-6C Heaters 51, 52 and 24 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 l
i Table 16.3-7 Containment Panatration Conductor Overcurrent Protective Devices (Continued)
Test Verification Setpoint Time - System (amps) (seconds) Powered Instant Instant Overload Overload IV. PRESSURIZER HEATERS (Cont'd.)
Backup Group C - RC-PP-6C (Cont'd)
Heaters 51, 52 and 24 563-1050 0 .06 7 RC Secondary Breaker (S) ', 375 30-180 Heaters 57, 58 and 29 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 57, 58 and 29 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 Heaters 63, 64 and 34 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 63, 64 and 34 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 Heaters 69, 70 and 39 563-1050 0 .067 RC Primary Breaker (P) 375 30-180
~
Heaters 69, 70 and 39 563-1050 0 .067 - RC Secondary Breaker (S) 375 30-180 Heaters 75, 76 and 44 563-1050 0 .067 RC Primary Breaker (P) 375 ,30-180 Heaters 75, 76 and 44 563-1050 0 067 RC Secondary Breaker (S) 375 30-180 Control Group - RC-PP-6E Heaters 47, 48 and 21 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 47, 48 and 21 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 Heaters 53, 54 and 26 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 b
. . Table 16.3-7 Cantaintcnt Panstration Ccuducter Overcurrent Protective Devices (Continued) f Test Verification !
Setpoint Time - System-(amps) (seconds) Powered Instant Instant Overload Overload IV. PRESSURIZER HEATERS (Cont'd.)
Control Group - RC-PP-6E (Cont'd)
Heaters 53, 54 and 26 563-1050 0 .067 RC Secondary Breaker (S) -
375 30-180 Heaters 59, 60 and 31 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 59, 60 and 31 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 Heaters 65, 66 and 36 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 65, 66 and 36 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 Heaters 71, 72 and 41 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 71, 72 and 41 563-1050 0 .067 . RC Secondary Breaker (S) 375 30-180 -
Heaters 77, 78 and 46 563-1050 0 .067 RC Primary Breaker (P) 375 ,30-180 Heaters 77, 78 and 46 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 Backup Group D - RC-PP-6D Heaters 3, 4 and 25 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 1 Heaters 3, 4 and 25 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 Heaters 7, 8 and 30 563-1050 0 .067 RC Primary Breaker (P) 375 30-180
.~ .
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued)
Test Verification Setpoint Time System (amps) (seconds) Powered Instant Instant Overload Overload IV. PRESSURIZER HEATERS (Cont'd.)
i Backup Group D - RC-PP-6D (Cont'd)
Heaters 7, 8 and 30 ,
563-1050 0 .067 RC Secondary Breaker (S) - 375 30-180 Heaters 11,12 and 35 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 11,12 and 35 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 Heaters 15,16 and 40 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 15,16 and 40 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 Heaters 19, 20 and 45 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 19, 20 and 45 563-1050 0 .067 .
RC Secondary Breaker (S) 375 30-180 Backup Group B - RC-PP-6B Heaters 49, 50 and 23 563-1050' 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 49, 50 and 23 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 Heaters 55, 56 and 28 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 55, 56 and 28 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 ;
Heaters 61, 62 and 33 563-1050 0 .067 RC )
' Primary Breaker (P) 375 30-180 l i
l Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued)
Test Verification Setpoint Time System (amps) (seconds) Powered Instant Instant Overload Overload IV. PRESSURIZER HEATERS (Cont'd.)
Backup Group B - RC-PP-6B (Cont'd)
Heaters 61, 62 and 33 563-1050 0 .067 RC Secondary Breaker (S) ' - 375 30-180 Heaters 67, 68 and 38 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 67, 68 and 38 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 Heaters 73, 74 and 43 563-1050 0 .067 RC Primary Breaker (P) 375 30-180 Heaters 73, 74 and 43 563-1050 0 .067 RC Secondary Breaker (S) 375 30-180 O
I O I .
t
l Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices Test Verification Setpoint Time'. System (amps) (seconds) Powered Instant Instan t Overload Over1E d V. LOW VOLTAGE CIRCUIT BREAKERS (125 Y dc & 120 Y ac)
Note: In cases where both the primary and secondary protective devices are not listed, the required protection is provided by fuses which are not listed in this table.
Type E2 Thermal Magnetic 125 V de Distr. Panel 111A Circuit #4 (P) 300-980 0 .067 CAH 60 4.5-70 Circuit #6 (P) 30.0-980 0 .067 NG 60 4.5-70 Circuit #14 (P) 300-980 0 .067 SB 60 4.5-70 125 V de Distr. Panel 112A Circuit #2 (P) 300-980 0 .067 -
RH 60 4.5-70 Circut #7 (P) 300-980 0 .067 SI 60 .. 4.5-70 Circuit #19 (P) 300-980 0 .067 RC 60 4.5-70 125 V de Distr. Panel 113A Circuit #4 (P) 300-980 0 .067 CC 60 4.5-70 circuit #7 (P) 300-980 0 .067 S1 60 4.5-70
- - - -- - - - - - - - -p .,,.__y ,, _ _,.y c - -- - . . ,, , . . , - - - - , , . . - . ~ . - * -
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued)
Test Verification ~
Setpoint Time System (amps) (seconds) Powered Instant Instant Overload OveriEd V. LOW VOLTAGE CIRCUIT BREAKERS (Cont'd.)
(125 V dc & 120 V ac)
Type E2 Thermal Magnetic .
125 V de Diser. Panel lllB '
Circuit #4 (P) 300-980 0 .067 CAH 60 4.5 '70 125 V de Lighting Distr.
Panel ED-MM-167N Circuit #20 (P) 450-1260 0 .067 ED 150 4.5-70 Circuit #20 (S) 450-1260 0 .067 ED 15 0 4.5-70 e
O l
l
]
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued)
Test Verification Setpoint Time - System (amps) (seconds) Powered Instant Instant Overload Overload V. LOW VOLTAGE CIRCUIT BREAKERS (Cont'd.)
(125 V dc & 120 V ac)
Type E2 Thermal Magnetic 125 V de Distr. Panel 112B Circuit #1 (P) 300-980 0 .067 RC 60 4.5-70 Circuit #2 (P) 300-980 0 .067 EJI 60 4.5-70 Circuit #3 (P) 300-980 0 .06 7 CDP 60- 4.5-70 Circuit #5 (P) 300-980 0 .067 WLD 60 4.5-70 Circuit #7 (P) 300-980 0 .067 SI
. 60 4.5-70 Circuit #16 (P) 300-980 0 .067 CAP 60 4.5-70 Circuit #19 (P) 300-980, 0 .067 RC 60
- 4.5-70
- 125 V de Distr. Panel 113B Circuit #4 (P) 300-980 0 .067 CC 60 4.5-70 Circuit #7 (P) 300-980 0 .067 SI 60 4.5-70
)
'1
,1 1
Table 16.3-7 i Containment Penetration Conductor Overcurrent Protective Devices (Continued) 4 Test Verification Setpoint Time ~ System (amps) (seconds) Powered Instant Instant Overload Overload V. LOW VOLTAGE CIRCUIT BREAKERS (Cont'd.)
(125 V dc & 120 V ac)
Type E2 Thermal Magnetic 120 V ac Vital Instrument Distr. Panel 1E Circuit #3 (S) 300-980 0 .067 ML 45 4.5-70 Circuit #9 (P) 300-980 0 .067 SI 45 4.5-70 Circuit #16 (P) 300-980 0 .067 RC 45 4.5-70 120 V ac Vital Instrument Distr. Panel 1F Circuit #3 (S) .
300-980 0 .067 ML 45 4.5-70 .
Circuit #9 (P) 300-980 0 .067 SI 45 4.5-70 Circuit #16 (P) 300-980 0 .067 RC 45 4.5-70 Type BQ Thermal Magnetic 120 V ac Vital Instrument Distr. Panel llE Circuit #3 (P) 263-980 0 .067 RM 45 7-25 120 V ac Vital Instrument Distr. Panel 11F Circuit #3 (P) 263-980 0 .067 RM 45 7-25
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued)
Test Verification Setpoint Time System (amps) (seconds) Powered Instant Ins tant Overload Overload V. LOW VOLTAGE CIRCUIT BREAKERS (Cont'd.)
(125 V dc & 120 V ac)
Type BQ Thermal Magnetic MCC-111, 120 V ac Distr. Panel Circuit #1 (S) 150-420 0 .067 SB/SF/
45 5-21 CC Circuit #2 (S) 150-420 0 .067 WLD 45 5-21 Circuit #12 (S) 263-980 0 .067 CAH 60' 7-25 Circuit #21 (S) 150-420 0 .067 RC 45 5-21 Circuit #28 (P) 300-770 0 .067 IC
. 10 5 5-21 Circuit #31 (P) 150-420 0 .067 RMW 45 5-21 MCC-231, 120 V ac Distr. Panel ,
Circuit #4 (P) 150-420 0 .067 SB/WLD 45 5-21 Circuit #5 (P) 300-770 0 .067 IC 10 5 5-21 Circuit #14 (P) 300-770 0 .067 IC 105 5-21 l _ - . - . . - ._. - . . _ _ _ . -
Table 16.3-7 Containment Penetration Conductor Overcurrent Protective Devices (Continued)
Test Verification Setpoint Time System (amps) (seconds) Powered Instant Instant Overload Overload V. LOW VOLTAGE CIRCUIT BREAKERS (Cont'd.)
(125 Y dc & 120 V ac)
Type BQ Thermal Magnetic MCC-E512, 120 V ac Distr. Panel Circuit #1 (P) 150-420 0 .067 RC 60 5-21 Circuit #14 (S) 150-420 0 .067 CC/CAH 45 5-21 Circuit #15 (S) 150-420 0 .067 CC 45' 5-21 MCC-ES21,120 V ac Distr. Panel Circuit #7 (P) 150-420 0 .067 SI 45 5-21 Circuit #10 (P) 150-420 0 .067 . CC 45 5-21 Circuit #13 (S) 150-420 0 .067 CGC 45 ., 5-21 MCC-E531, 120 V ac Distr. Panel Circuit #2 (S) 150-420 0 .067 RC/CS 45 5-21 SA/CAH Circuit #11 (P) 150-420 0 .067 CC 45 5-21
~36-
. . . - Table 16.3-7 Contain22nt Pzustratica Conductor Overcurrent Protective Devices (Continued)
Test Verifica tion Setpoint Time
- System (amps ) (seconds) Powered Instant Instant Overload Overload V. LOW VOLTAGE CIRCUIT BREAKERS (Cont'd.)
(125 V dc & 120 V ac)
Type BQ Thermal Magnetic MCC-E612, 120 V ac Distr. Panel Circuit #9 (P) 150-420 0 .067 RC 45 5-21 Circuit #10 (P) 150-420 0 .067 RC 45 5-21 Circuit ill (P) 150-420 0 .067 VG 60 5-21 Circuit #13 (S) 150-420 0 .067 CAH/RC 45 5-21 Circuit #15 (S) 150-420 0 .067 CC
, 45 5-21 MCC-E621, 120 V ac Distr. Panel Circuit #1 (P) 150-420 0 .067 WLD 60 ,
5-21 Circuit #4 (P) 150-420 0 .067 SI 45 5-21 Circuit #6 (P) 150-420 0 .067 CC 45 5-21 Circuit #13 (S) 150-420 0 .067 CGC 45 5-21 i
f I
e . . . Table 16.3-7 C:ntainment P2nstration Conducter Overcurrent Protective Devices (Continued)
Test Verification Setpoint Time - System (amps) (seconda) Powered Instant Instant Overload Overload V. LOW VOLTAGE CIRCUIT BREAKERS (Cont'd.)
(125 V dc & 120 V ac)
Type BQ Thermal Magnetic MCC-E631, 120 V ac Distr. Panel I
Circuit #1 (S) 150-420 0 .067 CS/CAH 45 5-21 Circuit #2 (S) 150-420 0 .067 SA 45 5-21 Circuit #10 (P) 150-420 0 .067 CC
- 45 5-21
. 120/240 V ac Distr. Panel PP-8C Circuit #5 (S) 263-980 0 .067 CAH 45 7-25 MCC E515,120 V ac Distr. Panel .
Circuit #13 (S) 150-420 0 .067 CC 45 5-21 MCC-E615, 120 V ac Distr. Panel' '.
Circuit #10 (P) 150-420 0 .067 CAH 60 5-21 i
Circuit #11 (P) 150-420 0 .067 NG
- 60 5-21 l
Circuit #12 (P) 150-420 0 .067 RC 60 5-21 Circuit #13 (S) 150-420 0 .067 CC 45 5-21 i
)
r L
l T'ABLE 16.3-8 MOTOR OPERATED VALVES WITH THERMAL OVERLOAD ,
PROTECTION DEVICES OPERABLE AT ALL TIMES ,
l VALVE NUMBER FUNCTION / SYSTEM MSD-V44 Main Steam Drain MSD-V45 Main Steam Drain MSD-V46 Main Steam Drain MSD-V47 Main Stesa Drain MS-V204 Main Steam Isolation Bypass MS-V205 Main Steam Isolation Bypass MS-V206 Main Steam Isolation Bypass MS-V207 Main Steam Isolation Bypass AS-V175 Auxiliary Steam Isolation AS-V176 Auxiliary Steam Isolation RC-V22** Reactor Coolant Loop 1 (RHR)
RC-V23** Reactor Coolant Loop 1 (RHR) .
RC-V87** Reactor Coolant Loop 4 (RHR)
RC-V88** Reactor Coolant Loo,p 4 (RHR)
RC-V122** Reactor Coolant Pressurizer RC-V124** Reactor Coolant Pressurizer RH-V35 Residual Heat Removal RH-V22 Residual Heat Removal RH-V14 Residual Heat Removal RH-V70 Residual Heat Removal RH-V36 Residual Heat Removal 1
RH-V21 Residual Heat Removal i
l l
TABLE 16.3-8 o
(Continued) -
VALVE NUMBER FUNCTION / SYSTEM RC-V323** Reactor Vessel Head Vent RH-V26 Residual Heat Removal RH-V32 Residual Heat Removal RH-FCV-611 Residual Heat Removal RH-FCV-610 Residuai Heat Removal SI-V3** Safety Injection Accumulators SI-V17** Safety Injection Accumulators SI-V32** Safety Injection Accumulators SI-V47** Safety Injection Accumulators CBS-V47 Safety Injection Cold Leg CBS-V49 Safety Injection Cold Leg CS-V460 Safety Injection Cold Leg CS-V461 Safety Injection Cold Leg
~.
CS-V475 Safety Injection Cold Leg SI-V90 Safety Injection Cold Leg SI-V112 Safety Injection Col'd Leg SI-V114 Safety Injection Cold Leg CBS-V51 Safety Injection Cold Leg CBS-V53 Safety Injection Cold Leg SI-V49 Safety Injection Cold Leg FW-FV-4214A Feedwater FW-FV-4214B Feedwater.
4 FR-FV-4224A Feedwater 6
b TABLE 16.3-8 (Continued) ,
~
VALVE NUMBER FUNCTION / SYSTEM FW-FV-4224B Feedwater FW-FV-4234A Feedwater FW-FV-4234B Feedwater FW-FV-4244A Feedwater FW-FV-4244B Feedwater FW-V346 Feedwater FW-V347 Feedwater SI-V93 Safety Injection SI-Vill Safety Injection SI-V138 Boron Injecti'on SI-V139 Boron Injection SI-V102 Boron Injection SI-V77 Boron Injection CS-V142 Chemical and Volume Control CS-V143 Chemical and Volume Control CS-V149** Chemical and' Volume'tontrol CS-V154 Chemical and Volume Control CS-V158 Chemical and Volume Control CS-V162 Chemical and Volume Control CS-V166 Chemical and Volume Control l CS-V167 Chemical and Volume Control l
CS-V168** Chemical and Volume Control CS-LCV-112B Chemical and Volume Control 4
TABII 16.3-8 (Continued) .
VALVE NUMBER FUNCTION / SYSTEM ,
CS-LCV-112C Chemical and Volume Control CS-V196 Chemical and Volume Control CS-V197 Chemical and Volume Control CS-V426 Chemical and Volume Control SW-V54 Service Water SW-V25 Service Water SW-V4 Service Water SW-V5 Service Water SW-V74 Service Water SW-V76 Service Water.
SW-V19 Service Water SW-V2 Service Water SW-V22 Service Water SW-V29 Service Water .
SW-V31 Service Water SW-V20 Service Water ,
SW-V27 Service Water SW-V56 Service Water ,
SW-V23 Service Water SW-V34 Service Water SW-V15 Service Water SW-V17 Service Water SW-V26 Service Water d
TABLE 16.3-8 (Continued)
VALVE NUMBER FUNCTION / SYSTEM .
SW-V55 Service Water SW-V139 Service Water SW-V140 Service Water CGC-V14** Combustible Gas Control CGS-V28** Combustible Gas Control i CBS-V38 ECCS/CS Fluid Supplies CBS-V43 ECCS/CS Fluid Supplies CS-LCV-112D ECCS/CS Fluid Supplies CS-LCV-112E ECCS/CS Fluid Supplies CBS-V2 ECCS/CS Fluid Supplies CBS-V5 ECCS/CS Fluid Supplies CBS-V8 ECCS/CS Fluid Supplies CBS-V14 ECCS/CS Fluid Supplies CBS-Vil ECCS/CS fluid Supplies ,
CBS-V17 ECCS/CS Fluid Supplies CC-V266 Primary Component Cooling CC-V272 Primary Component Cooling CC-V145 Frimary Component Cooling CC-V137 Primary Component Cooling CC-V395** Primary Component Cooling Thermal Barrier CC-V428** Primary Component Cooling Thermal Barrier CC-V438** Primary Component Cooling Thermal Barrier CC-V439** Primary Component Cooling Thermal Barrier
= -- -- - ,
TABLE 16.3-8 (Continued) ,
VALVE NUMBER FUNCTION / SYSTEM
~
CC-V1092 Primary Component Cooling Thermal Barrier CC-V1095 Primary Component Cooling Thermal Barrier CC-V1101 Primary Component Cooling Thermal Barrier CC-V1109 Primary Component Cooling Thermal Barrier l
1 l
1 1 ** This Motor Operated Valve Thermal Overload may not be bypassed as it provides penetration protection.
i l
1.0* OBJECTIVE l
The objective of this procedure is to demons trate that each snubbe r -is operable by the performance of this augmented ' inservice inspection program. ,
2.0 REFERENCES
2.1 Technical Specifications, Section 3/4.7.7 2.2 Technical Specifications, Section 4.0.5 3.0 SCOPE Each snubber shall be demonstrated OPERABLE by performance of the following augmented inservice inspection program and the requirements of Technical Specifications 4.0.5.
4.0 INSTRUCTIONS ,
4.1 Inspection Types As used in this specification, type of snubber shall mean snubbers of the same design and manufacturer, irrespective of capacity.
4.2 Visual Inspections snubbers are categorized.as inaccessible or accessible during reactor operation. Each of these groups (inaccessible and accessible) may be inspected independently according to the sche-dule below. The first inservice visual inspection of each type of snubber shall be performed af ter 4 months but within 10 months of commencing POWER OPERATION and shall include all snubbers. If all snubbers of each type [on any system] are found OPERABLE during the first inservice visual inspection, the second inservice visual inspection [of that systeel shall be performed at the first refueling outage. O therwise, subsequent visual inspections. [of a given system] shall be performed in accordance with the following schedule No. of Inoperable Snubbers of Ea'ch Typ'e'. Subsequent Visual
[on Any System per Inspection Period Inspection Period * **
O 18 months + 25%
1 12 months + 25%
2 6 months +~ 25%
3,4 124 days + 25%
5,6,7 62 days + 25%
8 or more 31 days + 25%
- The inspection interval for each type of snubber [on a given system shall not be lengthened more than one step at a time unless a generic problem has bacn identified and corrected; in that event the inspection interval may be longthened one step the first time and two steps thereaf ter if no inoperable snubbers of that type are found [on that system] .
- The provisions of Specification 4.0.2 are not applicable.
+
- - - - _ -_ - _-- _ . _ _ = _ . . _ . - . ..-_
i .
I i
4.0 INSTRUCTIONS (Continued)
\
)
i 4.3 Visual Inspection Accep tance Criteria 4
l Visual inspection shall verify that: (1) there are no visible indications of damage or impaired OPERABILITY, (2) sttachments toi the foundation or supporting structure are functional, and (3) fasteners for attachment of the snubber to the component and to the snubber anchorage are functional. Snubbers which appear ino- ;
i parable as a result of visual inspections may be determined OPERABLE for the purpose of establishing' the next visual inspec-tion interval, provided that: (1) the cause of the rejection is
, clearly established and remedied for that particular snubber and i for other snubber irrespective of type ion that system] that may l be generically susceptible; and (2) the affected snubber is functionally tested in the as-found condition and determined
- OPERABLE per Section 4.6. 'All snubbers connected to an inoperable common hydraulic fluid reservoir shall be counted as inoperable l snubbers. [For those snubbers common to more than one system, the OPERABILITY of such snubbers shall be considered in assessing the i surveillance schedule for each of the related systems].
j 4.4 Transient Event Inspection I
j An inspection shall be performed of all snubbers attached to sec-j tions of systems that have experienced unexpected, potentially
! damaging transients as determined from a review of operational data and a visual inspection of the systems within 6 months following such an event. In addition to satisfying the visual l inspection acceptance criteria, freedom-of-motion of mechanical j snubbers shall be verified using at least one of the followings l
(1) manually induced snubber movement; or (2) evaluation of in-place snubber piston setting; or (3) stroking the mechanical snubber through its full range of travel.
1 4.5 Functional Tests During the first refueling shutdown and,at least once per 18 months thereaf ter during shutdown, a representative sample of l snubbers of each type shall be tested using one of the following-sample plans. The sample plan for each type shall be selected prior to the test period and cannot be changed during the test period. The NRC Regional Administrator shall be notified in writing of the sample plan selected for each snubber type prior to i
the test period or the sample plan used in the prior test period shall be implemented:
1 l 1) At least 10% of the total of each type of snubber shall be functionally tested either in-place or in a bench test. For each snubber of a type that does not meet the functional test j acceptance criteria of Specification 4.6, an additional 10% of i that type of snubber shall be functionally tested until no more failures are found or until all snubbers of that typ:
l j have been functionally tes ted; or ,
[' .
a i
f
4.0 INSTRUCTIONS (Centinusd) 4.5 Functional Tests [
i
- 2) A representative sample of each type of snubber'shall be func-tionally tested in accordance with Figure 5.1. ."C" is the I total number of snubbers of a type found not meet'ing the acceptance requirements of Section' 4.6. The cumulative number of snubbers of a type tested is denoted by "N" and "C" (previous day;s total plus current day's increments) shall be plotted on Figure 5.1. If at any time the point plotted falls in the " Reject" region, all snubbers of that type shall be functionally tested. If at any time the point plotted falls in the "Accep t" region, testing of snubbers of that type may be terminated. When the point plotted lies in the " Continue Testing" region, additional snubbers of that type shall be tested until the point. falls in the " Accept" region or the
" Reject" region, or all the snubbers of that type have been tested; or
- 3) An initial representative sample of 55 anubbers shall be func-tionally tested. For each snubber which does not meet the functional test acceptance criteria, another sample of at least one-half the size of the initial sample shall be tested until the total number tested is equal to the initial sample size multiplied by the factor, 1 + C/2, where "C" is the number of snubbers found whi*ch;. do not meet the functional test acceptance criteria. The ret *lts from this sample plan shall be plotted using an " Accept" line which follows the equation N = 55(1 + C/2). Each snubber point should be plotted as soon as the snubber is tested. If the point plotted falls on or below the "Accep t" line, testing of that type of snubber may be terminated. If the point plotted falls above the " Accept" line, testing must continue until the point falls in the " Accept" region or all the snubbers of that type have been tested.
Testing equipment failure during functional testing may invalidate that day's tes ting and allow that day'*s* testing to resume anew at a later time provided all snubbers tested with the faired equip .
ment during the day of equipment failure are retested. The representative sample selected for the functional test sample plans shall be randomly selected from the snubbers of each type and reviewed before beginning the tes ting. The review shall ensure, as far as practicable, that they are representative of the various configura tions, operating environments, range of size, and capacity of snubbers of each type. Snubbers placed in the same location as snubbers which failed the previous functional test shall be retested at the time of the next functional test but shall not be included in the sample plan. If during the func-tional testing, additional sampling is required due to failure of only one type of snubber, the functional tes t results shall be j reviewed at tha t time to determine if additional samples should bt limited to the type of snubber which has failed the functional I
testing.
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4.0 INSTRUCTIONS (Centinusd) 4.6 Functional Tes t Acceptance Criteria The snubber functional test shall verify that:
- 1) Activation (certrainging action) is achieved withi,n the spe-cified range in both tension and compression;
- 2) Snubber bleed, or release rate where required, is present in both tension and compression, within the specified range;
- 3) For mechanical snubbers, the force required to initiate or maintain motion of the snubber is within the specified range in both directions of travel; and
- 4) For snubbers specifically required not to displace under con-tinuous load, the ability of the snubber to withstand load without displacement.
Testing methods may be used to measure parameters indirectly or parameters other than those specified if those results can be correlated to the specified parameters through established methods.
4.7 Functional Test Failure Analysis
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An engineering evaluation shall be made of each failure to meet the functional test acceptance criteria to determine the cause of the failure. The results of this evaluation shall be used, if applicable, in selecting snubbers to be tested in an effort to determine the OPERABILITY of other snubbers irrespective of type which may be subject to the same failure mode.
For the snubbers found inoperable, an engineering evaluation shall be performed on the components to which the inoperable snubbers are attached. The purpose of this engineering evaluation shall be to determine if the components to which the inoperable snubbers are attached were adversely affected by..the inoperability of the snubbers in order to ensure that the component remains. capable of meeting the designed service.
If any snubber selected for functional testing either fails to lock up or fails to move, i.e. , frozen-in-place, the cause will be evaluated and, if caused by manufacturer or design deficiency, all snubbers of the same type subject to the same defect shall be functionally tested. This tes ting requirement shall be indepen-dent of the requirements stated in Section 4.5 for snubbers not meeting the functional test acceptance criteria.
4.8 Functional Tes ting of Repaired and Replaced Snubbers Snubbers which fail the visual inspection or the functional test l
i acceptance criteria shall be repaired or replaced. Replacement i
snubbers and snubbers which have repairs which might affect the functional test results shall be tested to meet the functional
6.0 INSTRUCTIONS (Continued) 4.3 Functional Testing of Repaired and Reolsced Snubbers (Continued) test criteria before installation in the unit. Mechanical snub-bers shall have met the acceptance . criteria subsequeist to their ~
most recent service, and the freedom-of-motion test must have been performed within 12 months before being installed in the unit.
4.9 Snubber Service 1.ife Program The service life of hydraulic and mechanical snubbers shall be monitored to ensure that the service life is not exceeded between surveillance inspections. The maximum expected service life for various seals, springs, and other critical parts shall be deter-mined and established based ,on engineering information and shall be extended or shortened bisetd on monitored test results and failure history. Critical parts shall be replaced so that the 1 maximum service life will not be exceeded during a period when the snubber is required to be OPERABLE. The parts replacements shall be documented and the documentation shall be retained in accor-dance with Technical Specification, Section 6.10.3.
5.0 FIGURES 5.1 Sample Plan 2 for Snubber Functional Test
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FIGURE 5.1 SAMPLE PLAN 2 FOR SUUBBER FUNCTIONAL TEST
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1.0 INTRODUCTION
fuso The Nuclear Production Technical Requirements Manual is composed of m chapters. ,
Chapter 1 is the Introduction.
- Chapter 2 contains these efems nat-have. Geen remewed fro m _flw Seabrook Sth+sen 7ii'e):mca/ Specifscahiens.
2.0 REVISIONS Revisions are evaluated, reviewed and approved in accordance with the following end incorporated into the manual in accordance with the Nuclear Production Manage =ent Manual (NPMM) .
RESPONSIBILITY TASK REQUESTER 1. Requests a change using the Technical Requirements Change Request Form.(NPTR FORM-1A). Completes the sec-tion identifying the change and the reason it is requested. Attaches Continuation Sheets (NPTR FORM-1B)
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as required.
REQUESTER'S DEPT. 2. Approves the request.
SUPERVISOR TECHNIC AL GkPPORT - - - - - - -
ENEWungsausseus2 3. Completes safety evaluation (NPTR FORM-lC Section I).
DEPT. SUPERVISOR REGULaro RY m****emmesm* SERVICES 4. Enters the required information in the Technical m Requirements Change Log, (NPTR FORM-lD). Assigns the next sequential number to the change documents.
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l NPTR Rev. O
2.0 REVISIONS
[ RESPONSIBILITY TASK REG 4ALATUR9 N SERVICES NOTE - The numbering system consists of a five digit gummmmmmma number. The first two digits indicate the year, the last three digits indicate the sequential change made in the year. Change 85-001 is the first change in calendar year 1985.
- 5. Reviews the safety evaluation to determine whether regulatory approvals are required. Completes Section 2 of NPTR FORM-lC. p If NO, proceeds to Step 6.
If YES: -
- a. continues processing as a license change in accordance with the Nuclear Production Reporting Program Manual (NPRE), or
- b. discontinues processing and enters information in the log.
SORC 6. Reviews the requested change and safety evaluation and provides recodmendations.
STATION MANAGER 7. Approves the change.
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NSARC 8. Reviews the requested change and safety evaluation and provides recommendations.
VICE PRESIDENT - 9. Approves the change. .
NUCLEAR PRODUCTION 1
.k 2 NPTR Rev. 0
-_______ _______________ _ _. _ ]
2.0 REVISIONS 7
RESPONSIBILITY TASK ,
REGuLArbdy
____.___ .__ SERVICES 40P5. Prepares a package containing the approved Technical N Requirements change and all affected FSAR pages.
// Pt. Completes a Technical Requirements ' Advanced Change Notice Transmittal (NPTR FORM-lE) and attaches approved documentation.
/2 D6. Completes a log entry indicating the Technical Requirements change is approved.
/3)4. Distributes the change to:
- a. Control Room,
- b. Unit Shift Supervisor, and
- c. Operational Projects Section.
OPERATIONAL PROJECTS /Y ME. Publishes the change in the Technical Requirements SECTION Manual.
DOCUMENT CONTROL /S*>&. Distributes the revision to the Technical Require-CENTER ments Manual in accordance with the Nuclear Production Records Program Manual (NPRM) .
4 SERVICES /4 W . Distributes the Technical Requirements change m description including the safety evaluation to the Nuclear Regulatory Commission in accordance with the Nuclear Production Reporting Program Manual.
1754. Enters the appropriate information in the change log indicating that the NRC is notified of the change and processing is complete. ,
l' 3 NPTR Rev. O
TEChlNICALREQUIREMENTS CHANCE ~ REQUEST FORM REQUEST NO: REQUEST DATE:
(I TECHNICAL ttEQUIREMENT NUMBERS: .
REQUEST:
i' REASON: ,
1 SUBMITTER: DEPARTMENT SUPERVISOR:
RECEIVED BY:
( W Services N ev4N4654 R54uLArany SORC REVIN l l Approve Recommendation <
MTG. NO. l l Disapprove Station Manager NSARC REVIN l l Approve Recommendation MTG. NO. l l Disapprove 1
i Chairman i
- Vice President - Nuclear Production .
I NPTR FORM 1A Rev. O
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- . TECHNICAL REQUIREMENTS CHANGE CONTINUATION SHEET .
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- '"*I SEQUEST NO.
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TECHN8 CAL REQUIREMENTS SAFETY EVALUATION
(- Number Dat h w I. SAFETY EVALUATION A. Is the structure, system, or component to which this change is applicable described -
in the Final Safety Analysis Report (FSAR) '
in either words or drawings? l l Yes l l No B. Does this change: p
- 1. Increase the probability of occurrence or the consequences of an accident or malfunction of equipment'important to safety previously evaluated in the FSAR? l l Yes l l No
- 2. Create the possibility for an accident or malfunction of a different type than
, any previously evaluated in the FSAR? l l Yes l l No
- 3. Reduce the margin of safety as defined in the basis for any technical specification? l l Yes l l No
, II. LICENSE IMPACT l
A. Does the change:
- 1. Violate any provision of 10 CFR 50.54? l l Yes l l No
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- 2. Violate a specific Seabrook Station -
unit license condition? l l Yes l l No
- 3. Require a change to Seabrook Station Technical Specifications? . l l Yes l l No NOTE: Any "Yes" box checked indicates that the change must be reviewed by NSARC and approved by NRC prior to implementation.
III. JUSTIFICATION FOR THE CONCLUSIONS REACHED IN I & II ABOVE.
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( Submitted By: ,
l Reviewed By: J GpEEEEEEEEE Services ^ , -
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Re%fory ha na*3 e P NPTR FORM 1C Rev. 0 '
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TECHNICAL REQUIREMENTS
[- ADVANCED CHANGE NOTICE TRANSMITTAL FROM:
DRAFTDATE:
N Services M .
Reydalo.y &qev .
TO: DISTRIBUTION The attached documents are provided as advanced notification of an approved change to the Technical Requirements Manual.
This change replaces requirement and ,is to be incorporated Lamediately. The permanent revision to the
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Technical Requirement.s Manual will be distributed upon
, completion of publishing activities.
l NPTR FORM IE j Rev. 0 6