ML19253C277
| ML19253C277 | |
| Person / Time | |
|---|---|
| Site: | Brunswick  |
| Issue date: | 10/12/1979 |
| From: | UNITED ENGINEERS & CONSTRUCTORS, INC. |
| To: | |
| Shared Package | |
| ML19253C267 | List: |
| References | |
| NUDOCS 7911300424 | |
| Download: ML19253C277 (75) | |
Text
UNITED STATES NUCLEAR REGULATORY COMMISSION DOCKET N0. 50-325 LICENSE N0. DPR-71 CAROLINA POWER & LIGHT COMPANY RALEIGH, NORTH CAROLINA LICENSING SUPPORT INFORMATION FOR PROPOSED CHANGES TO TECHNICAL SPECIFICATION PRESSURE SWITCH TO ANALOG REPLACEMENT BRUNSWICK STEAM ELECTRIC PLANT UNIT N0.1 OCTOBER 12, 1979
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UNITED STATES NUCLEAR REGULATORY COMMISSION DOCKET No. 50-325 LICENSE NO. DPR-71 CAROLINA POWER & LIGHT COMPANY RALEIGH, NORTH CAROLINA LICENSING SUPPORT INFORMATION
_FOR PROPOSED CHANGES TO TECHNICAL SPECIFICATION PRESSURE SWITCH TO ANALOG REPLACEMENT BRUNSWICK STEAM ELECTRIC PLANT UNIT NO. 1 PREPARED BY:
UNITED ENGINEERS & CONSTRUCTORS INC.
PHILADELPHIA, PA.
OCTOEER 12, 1979 1444 110
4 144Y I11
TABLE OF CONTENTS SECTION DESCRIPTION I
GENERAL
===1.
Background===
2.
System Design
3.
System Components 4.
Equipment Qualifications 5.
Interconnections (See Figure 5-1) 6.
Surs.eillance Test Intervals 7.
Osntrol Wiring Diagrams - Typical (Before/Af ter)
II CHART OF EXISTING DEVICES REPLACED WITH TRANSMITTERS AND TRIP UNITS III TRIP CALIBRATION CABINETS AND INSTRUMENT RACKS 1.
Location, General Arrangements of ECCS and RPS Cabinats in Control Room 2.
Location of Instrument Racks in Reactor Building IV PRESSURE AND LEVEL TRANSMITTERS DATA SHEETS V
MASTER AND SLAVE TRIP CALIBRATION UNITS LATA SHEETS VI TECHNICAL SPECIFICATIONS (REVISED) 144'P I12
.144& I13
1.
BACKGROUND 1.1 For each device (a) being replaced, this modification consists of removing one existing device and replacing it with one or two channels (b) to perform the same function or functions.
Replacing certain devices with two channels (See Section II for tabulation and Section I, 5.3 for discussion) provides additional redundancy and system separation - but does not change the logic or protective functions of the systems.
(a)
Device - pressure or differential pressure switch (b)
Channel - a pressure or differential pressure transmitter and one or more trip units 1.2 This document references, and the modifications meet, the requirements outlined in General Electric Licensing Topical Report NEDO 21617-A as applicable.
(NEDO 21617-A was accepted for reference in license applications by NRC to G.E. letter dated June 27, 1978.) This document also covers the following areas:
1.2.1 Dif ferences and justifications for differences between this specific plant system and the systems covered by NEDO 21617-A.
1.2.2 Interface information specific to this installation.
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2.
SYSTEM DESIGN The system design parameters are essentially the same as the NEDO report with the following exceptions:
2.1 Power Source for the RPS ' Channels A1, B1, A2 and B2 The change consists of obtaining power from the 125 volts D-C batteries similar to the ECCS systems. The change from 115 volt A-C RPS distribution power to 125 volt D-C battery power was based on the negative effect that an A.C. voltage decay would have on the RFS trip units in the event of a BOP power loss and the subsequent trans fe r to the diesel generators.
Power source availability is assured through power supply redundancy for both the ECCS and RPS systems, (see FigureJF-1 for redundant power supply layout for ECCS and RPS systems).
2.2 Effects of Addition of Trip Calibration Cabinets on DC Load Study 2.2.1 For Unit No. I the Trip Calibration Cabinets have been connected to Distribution Panels 3A and 11A which are fed from Battery 1A-1 and to Distribution Panels 3B and 11B which are fed from Battery 1B-2.
Review of the expected loads of the Trip Calibration Cabinets by calculation and by observation of ammeters during functional test indicates the following loads for the equipment:
2.2.1.1 ECCS cabinet power supply
- 6 amps 2.2.1.2 ECCS cabinet standby power supply - 2 amps 2.2.1.3 RPS cabinet power supply
- 4 amps 2.2.1.4 RPS cabinet standby power supply - 2 an.ps 2.2.2 As there are four (4) power supplies on a battery, the total load would be approximately 14 amps per hour or 112 amp-hours over an eight hour time period. Addition of this load to the loads calculated in the D.C. Load Study of May 9, 1975 causes the following changes:
2.2.2.1 Time to Discharge to 1.75 volt / cell for Normal Operation for Battery 1A-1 is reduced from 38 hours4.398148e-4 days <br />0.0106 hours <br />6.283069e-5 weeks <br />1.4459e-5 months <br /> to 27 hours3.125e-4 days <br />0.0075 hours <br />4.464286e-5 weeks <br />1.02735e-5 months <br />.
- 2. 2. 2. 2 Time to Discharge to 1.75 volt / cell for Normal Operation for Battery IB-2 is reduced from 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> to 19 hours2.199074e-4 days <br />0.00528 hours <br />3.141534e-5 weeks <br />7.2295e-6 months <br />.
2.2.2.3 Tine to Discharge to 1.75 volt / cell for Normal Operation plus UPS and 1A, 1B Lighting Inverter is reduced from 5.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> to approximately 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br />.
144tv 'l 16
2.
SYSTEM DESIGN (cont'd) 2.2 Effects of Addition of Trip Calibration Cabinets on DC Load Study (cont'd) 2.2.2.4 Design Basis Accident (DBA) with no DC Failures would require a total of 809 amp-hours on Battery 1A-1 and 687.64 amp-hours on Battery IB-2.
This is below the 960 amp-hours (80% of 1200 amp-hours) rated end of life capacity for batteries.
2.2.2.5 DBA with 1A Battery failure would require a total of 856.35 amp-hours on Battery IB-2.
This is below the 960 amp-hours rated end of life capacity for the battery.
2.2.2.6 DBA with IB Battery failure would require a total of 1011.92 amp-hours on Battery 1A-1.
This is above the 960 amp-hours rated end of life for battery; however, the 1011.92 amp-hours will be reduced to within rating if non-essential loads (for example:
Reactor Building Emergency Lighting) are disconnected.
NOTE: The Reactor Building Emergency Light'.ng (DC) was considered in the DC Load Study as a constant load during the eight hours that the supply to the battery charger would be considered out of service.
A recent review has determined the following:
a.
The emergency lighting (DC) is controlled by a contactor which is energized by the Reactor Building Standby Lighting system (AC) such that if the Standby Lighting system is in operation the emergency lighting (DC) will be de-energized.
b.
The Standby Lighting system (AC) is fed from the Div. II emergency bus which is fed from either the of f site power system or a diesel generator, c.
It is highly unlikely that a Div. II battery would be out of service along with the loss of a Div. II emergency bus.
Therefore, under the conditions hypothesized, the Reactor Building Emergency Lighting (DC) would not be required and is automatically disconnected without creating an unsafe condition.
2.2.2.7 DBA with 2A Battery failure would require a total of 814.90 amp-hours on Battery 1A-1 and 687.64 amp-hours on Battery IB-2.
This is below the 960 amp-hours rated end of life capacity for the batteries.
2.2.2.8 DBA with 2B Battery failure would require a total of 809 amp-hours on Battery 1A-1 and 789.86 amp-hours on Battery IB-2.
This is below the 960 amp-hours rated end of life capacity for the batteries.
1444'1I7
2.
SYSTEM DESIGN (cont'd) 2.2 Effects of Addition of Trip Calibration Cabinets on DC Load Study (cont'd) 2.2.3 The information in Section 3.1.2 was determined on the basis of a D.C. Load Study performed on the Unit No. 2 batteries.
Since the loads on the Unit No. I batteries are similar to the loads on the Unit No. 2 batteries, the study is also valid for the Unit No. 1 batteries.
1444 118
l 144Pl19
3.
SYSTEM COMPONENTS The system components are the same as outlined in NEDO 21617-A report except for the power supplies and transmitters.
3.1 This exception consists of a redundant power supply system using two Lambda LXS-EE-24R regulated power supplies with ove rvoltage protection and diode isolation instead of an Elma ferroresonant power supply. The Lambda redundant power supply system was selected to assure very high availability and good output voltage stability against input voltage, input frequency, load, and ambient temperatur? variations.
3.1.1 Subjective comparisons of the failure modes of the two power supply systems - redundant series regulated with overvoltage protection versus ferroresonant (Lambda versus Elma) - indicate that the " Conclusions of System Availability Analysis" (NEDO 21617-A, paragraph 3.4.4) are applicable when the redundant Lambda power supply system is used.
3.1.2 The Lambda overvoltage protectors are specified to operate in a voltage range of 27.3 i 0.8 volts. When actuated the individual Lambda power supply overvoltage protector will short circuit its current limited power supply output and drive and hold the output voltage to near zero initiating an alarm.
Note:
The maximum specified operating voltage of the over-voltage protector, 28.1 volts, exceeds the maximum input voltage of the trip units (28 volts) and the maximum continutus voltage of the trip relays (27 volts).
The individual power supply isolating diode forward voltage drop (approximately 0.6 volts) reduces the maximum power supply system bus voltage (af ter the isolating diodes) to an acceptable value.
3.1.3 Redundant Lambda power supplies, each with a MTBF (mean time between failures) rate of 100,000 hours0 days <br />0 hours <br />0 weeks <br />0 months <br />; annunciated failure s ; and early replacement of failed supplies with spare supplies provide very high power supply system availability.
3.1.4 Periodic tests of the power supplies can be conducted to detect non-annunciated failures and further improve power system availability.
Suggested test and test intervals are listed:
TEST TEST INTERVAL Power Supply Output Voltage:
Be fo re Diode M (once per 31 days)
After Diode M (once per 31 days)
Ovtrvoltage Protector R (once per 18 months) 144cb I20
3.
SYSTEM COMPONENTS (cont'd) 3.1.5 The redundant Lambda power supply system discussed above is to be compared to the Elma power supply referenced in NEDO 21617-A, paragraphs 1.3.5, 2.3.1.1, and 3.1.1.
3.2 Transmitters This installation utilizes Rosemount Model 1152 transmitters instead of the Rosemount Model 1151 transmitters referenced in NEDO 21617-A.
3.2.1 The Model 1152 has been qualified and exceeds the requirements for this installation as noted in Section I, 4 Equipment Qualifications.
3.2.2 Rosemount transmitter Models 1151 and 1152 response times are the same.
This makes the Response Time conclusions (NEDO 21617-A, paragraph 3.3.2) applicable to this installation.
144LF l21
144CF 122
4.
EQUIPMENT QUALIFICATIONS 4.1 Qualification Summary All Class 1E equipment was specified to meet, and does meet or exceed, applicable environmental service conditions.
Environmental qualification documentation is on file and is available at the plant.
An " Environmental Interface Comparison Chart" (Figure 4-1 this section) compares the NEDO 21617-A equipment maximum environments to the normal and accident environments for this installation.
4.2 Service Environment The environmental service conditions were defined in Design Report No. 12 and have been summarized in the " Service Environment Chart -
Normal and Accident Conditions - Units No. I and No. 2" FSAR FIGURE NO. M7. 9-1.
A copy of the chart is included in this section of the report.
The environmental parameters applied to the pressure switch to analog replacement safety system transmitters are for " Reactor Building -
Other" and " Turbine Building" as applicable.
" Reactor Building,
-17' Level" parameters are applicable to two non-safety transmitters.
The environmental parameters applied to the trip calibration system components; trip units, trip relays, inverters, power supplies and cabinets are for the " Control Building, Control Room".
4.3 Qualification Documentation Environmental qualification documentation is available at the plant for all equipment except inverters and trip relays which are covered by NEDO 21617-A.
(Trip unit documentation supplements coverage by NEDO 21617-A. )
4.3.1 Trip Unit Documentation List F.P. NO.
(BP0/252-55)
REPORT NO.
DESCRIPTION 9527-70271 127531 Qualification test report for trip /
(2 volumes) calibration system - Rosemount Model 510DU 9527-70274 6453C Qualification test procedure for trip / calibration system -
Rosemount Model 510DU 9527-70275 12777D Qualified life test report for trip /
calibration system - Rosemount Model 510DU 144tF-123
4.3.1 Trip Unit Documentation List (cont'd)
F.P. NO.
_(BP0/252-55)
REPORT NO.
DESCRIPTION 9527-70295 3/68A Qualification test summary for the trip / calibration system - Rosemount Model 510DU 9527-70296 27723 Qualified life test procedure for the trip / calibration system - Rosemount Model 510DU 9527-70254 510DUA010 Product specification for the trip / calibration system - Rosemount Model 510DU 4.3.2 Transmitter Documentation List F.P. NO.
(BP0/252-51)
REPORT NO.
DESCRIPTION 9527-70298 67710A Environmental qualification test report for 1151 and 1152 pressure transmit te rs 9527-70300 117415 Qualification tests summary for 1152 pressure transmitters 9527-70301 127516 Seismic simulation test report for 1151 and 1152 pressure transmitters 9527-70299 10763 Radiation qualification test report for 1152 pressure transmitters 9527-LL-7044 UE&C New Local Transmitter Mountings -
Sheet 174 Internal Seismic Evaluation (Seismic Memo:
Analyzed M. M. Tahara and to Approved)
B. J. Huselton Nov. 17, 1978 UE&C New Transmitters Mounted on Existing Inte rnal G.E. Design Racks Memo:
T. C. Chang to E. R.
Forman (Seismic Analyzed and Approved) 144tF l24
4.3.3 Power Supply Documentation List F.P. NO.
REPORT NO.
DESCRIPTION 9527-70303 DIB04R75 Dayton T. Brown Report tested dated per MIL-STD-810B " Environmental 22 March 1975 Test Methods" (by similarity to tested equipment)
(Lambda LXS-EE-24R is fungus inert Model LXS-EE-24)
N.A.
N.A.
Tested to MIL-I-6181D 25 Nov. 1959
" Interference Control Requiremento, Aircraf t Equipment" 4.3.4 Trip calibration Cabinets (Includes Inverters, Power Supplies Trip Units, Trip Relays and Cabinets)
F.P. NO.
(BP0/252-56)
REPORT NO.
DESCRIPTION 9527-70292 14660 Seismic Vibration Testing of One dated RPS Trip Calibration Cabinet May 7, 1979 9527-70293 14660-1 Seismic Vibration Testing of One dated RPS Trip Calibration Cabinet May 7, 1979 4.4 Electromagnetic Interference (EMI)
All system components are the same as referenced in NEDO 21617-A (equivalent transmitters) except for the 24 volt D-C power supplies.
4.4.1 The susceptibility of this installation to EMI effects is evaluated to be equal to or less than the susceptibility of the NEDO 21617-A reference system.
4.4.2 The Lambda Model LXS-EE-24R power supply meets the requirements of MIL-I-6181D, 25 Nov. 1959, " Interference Control Requirerents, Aircraft Equipment".
4.4.3 The NEDO 21617-A instrumentation susceptibility tests were based on worst-case transient and radio frequency tests in and around nuclear control rooms (see NEDO paragraph 4.4) for 24 volt D-C power supplies located in the reactor building (125 volt A-C lines exposed for EMI pickup), and for interpanel 24 volt D.C.
buses.
4.4.4 This installation utilizes inverters and 24 volt D-C power supplies located in the same cabinets and in the control room environment for the ECCS and RPS systems - reducing the exposure to EMI pickup in the A-C power lines.
The 24 volt D-C buses are not interpanel -
again reducing the exposure to EMI pickup.
4.4.5 The 24 volt D.C. power supply pass-through of EMI is judged to be equivalent for the Lambda series regulated power supply and the Elma ferroresonant power supply referenced in NEDO 21617-A.
1444 126
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5.
INTERCONNECTIONS 5.1 Refer to chart shown in Section II for a complete list of pressure and level switches which were replaced with analog transmitter devices and to Figure 5-1 for conduit and cable routing.
5.2 The original plant separation criteria has been followed in routing of new cables and the location of new equipment. All transmitters, with the exception of ten (10) local transmitters which are mounted on new steel supports, are mounted on existing instrument racks in the same approximate location as the devices which they replaced.
(See Section I, 4 for seismic qualification of supports.)
5.3 Separation of ECCS and RPS Circuits Eight (8) pressure switches (B21-LS-N017A, B, C, D; B21-LS-N024A, B; and B21-LS-N025A, B) were utilized for both ECCS and RPS circuitry.
These pressure switches have been replaced by sixteen (16) trans-mi t te rs. Eight (8) of the transmitters (B21-LT-N017A-2, B-2, C-2, D-2; B21-LT-N024A-2, B-2; and B21-LT-N025A-2, B-2) are utilized in the ECCS system logic and eight (8) of the transmitters (B21-LT-N017A-1, B-1, C-1, D-1; B21-LT-N024 A-1, B-1; and B21-LT-N025A-1, B-1) are utilized in the RPS system logic.
This increases the separation between systems and assures that a failure of the above transmitters or its respective trip calibration unit in the ECCS system does not af fec t the RPS system and vice-versa.
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6.
SURVEILLANCE TEST INTERVALS 6.1 This modification requires changes to the survaillance requirements as noted below and in the revised Technical Specification pages in Section VI.
6.2 The recommended surveillance intervals listed, either simultaneous or staggered, are based on the following:
(NEDO 21617-A paragraphs are referenced) 6.2.1 NEDO 3.4. 2, "Mean-Time-Between-Failures (MIBF) Analysis",
the MTBF conservatism indicated in paragraph 3.4.2, and on the low trip unit stress level in the control room environment of this installation.
6.2.2 NEDO 3.4.4, " Conclusion of System Availability Analysis".
6.3 Recommended surveillance intervals for all instrument channels which are being changed - and are also cusered by Technical Specifications:
TRANSMITTER TRIP UNIT Channel Check N.A.*
D Channel Functional Test N. A.
- M Channel Calibration R **
M N. A. - not applicable R
- at least once per 18 months (550 days)
D
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- at least once per 31 days
- the transmitter channel is satisfied by the trip unit channel check. A separate trans-mitter check is not required.
- traasmitters are exempted from the monthly channel calibration.
1 4 4tt-1 3 3
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i! h UP'T NO. 1 1:
II CONTROL WtRING DIAGRAM
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RPS CHANNEL "Al" CB-XU,-65 PARTIAL CONTROI. WIRING DIAGRAM MZ7 f-M03hn ?.
TYPICAI.
ATTACHMENT "A" FIGURE 7-2
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UNIT NO. 1 GE CRAWING
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CAROLINA PORER M
,HT COMPANY BRUNSWICK STEAM ELECTRIC PLANT PRESSURE SWITCH TO ANALOG CHANGE 0UT LICENSING TECHNICAL REPORT INFORMATION NOTES-1.
For more detailed information on transmitters (*) see Specification No. 9527-01-252-51, page XXA as noted and on trip calibration units (#)
see Specification No. 9527-01-252-55, page XXA as noted.
2.
Symbol shown thus (**) in column calls attention to (M) = master trip unit and (S) = slave trip unit, both of which are located in card files at the trip calibration cabinets.
3.
Under the column heading for schematic data the complete drawing number and cabinet designation consists of the heading and the data listed below the column, e.g.
Drawing No.
Cabinet No.
9527-390~3, Sh. 2 CB-XU-65 9527-39034, Sh. 2 CB-XU-66 9527-39035, Sh. 2 CB-XU-67 etc.
etc.
4.
Instrument Number Corelation with Technien1 Specifications The change from mechanical sensors to analog transmitters requires a re-definition of instrumenc numbers. The following examples will meet the requirements between transmitters and master / slave trip units:
B21-PT-N023A, pressure transmitter located at instrument rack B21-PTM-N023A-1, master trip unit, located in card file in trip calibration cabinet B21-PTS-N023A-2, slave trip unit, located in card file in trip calibration cabinet B21-LT-N017A-1, level trcnsmitter, located at instrument rack 45.
B21-LT-N017A-2, level transmitter, located at instrument rack Jb-B21-LTM-N017A-1, master trip unit, located in card file in trip calibration cabinet
~5(
B21-LTM-N017A-2, master trip unit, located in card file in trip calibration cabinet 4
C2]
Unit No. 1 ATTACHMENT "A" Date:
August 15, 1979 Sheet 1 of 4
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EQUTPMENT LIST C.P.6L. G.E. ITEM EQUIP. M.P.L. NO. DESCRIPTION NO. NO. 11 HPCI LEAK DETECTOR INST. RACK - B 1B H21-P036 51 MAIN STEAM FLOW INSTRUMENT RACK 1A H21-P015 52 MAIN STEAM FLOW INSTRUMENT RACK IB. H21-P025 53 JET PUMP INSTRUMENT RACK (1 TO 10) 1A il21-P009 54 JET PUMP INGTRUMENT RACK (11 TO 20) IB H21-P010
- '8 R.V. LEVEL & PRESSURE INSTRUMENT RACK 1A ll21-P004 & P004-002
- '/9 R.V. LEVEL 6 PRESSURE INSTRUMENT RACK IB ll21-P005 & P005-002 168 RCIC LEAK DETECTOR INST. RACK - B IB H21-P038 186 CS/IlPCI LEAK DETECTOR INST. RACK H21-P016 NOTES:
1. SYMBOL SHOWN WITil AN ASTERISK (*) DENCTIES INSTRUMENT CACKS LOCATED AT ELEVATION 50'-0" IN REACTOR BUILDING 2. ALL OTHER INSTRUMENT RACKS ARE LOCATED AT ELEVATION 20'-0" t 85 oo $$ 9 G o 3 2-bb a5 Z e 4
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3 i w 3 m e J.' md O O j -z 2 is I 44rt 168 m W is za 8 x g r. ,z 6 g h ez f 3 3 O C AROLIN A POWER & LIGHT COMPANY g BRUNSWICK STEAM ELECTRIC PLANT NI ey Q UNIT NO. I y g :) REACTOR BUILDING od INSTRUMENT RACKS h> PRESSURE SWITCil TO ANALOG REPLACEMENT ATTACHMENT "A" SilEET 3 0F 3
144t 169
SECTION VI PRESSURE AND LEVEL TRANSMITTERS - TAG NUMBER INDEX l Unit No. Tag Nitmher Paac No. Unit No. Tag Number Page No. I 1 B21-PDT-N006A 24 A 1 B21-PT-N056A 21 A 1 B21-PDT-N00GB 24 A 1 B21-PT-N056B 21 A 1 B21-PDT "'16C 24 A 1 B21-PT-N056C 21 A 1 B21-PDT-MUC6D 24 A 1 B21-PT-N056D 21 A 1 B21-PDT-N007A 24 A 1 B21-PDT-K007B 24 A 1 B21-PDT-N007C 24 A 1 B21-PDF-N007D 24 A 1 B21-PDT-N008A 24 A 1 B21-PDT-N008B 24 A 1 C71-PT-N002A 21 A 1 B21-PDT-N008C 24 A 1 C71-PT-N002B 21 A 1 B21-PDT-N008D 24 A 1 C71-PT-N002C 21 A 1 B21-PDT-N009A 25 A 1 C71-PT-N002D 21 A 1 B21-PDT-N009B 25 A 1 B21-PDT-N009C 25 A 1 B21-PDT-N009D 25 A 1 B21. LT -N017A-1 24 A 1 B21. LT -N017A-2 24 A 1 B21-LT -N017B-1 24 A 1 B21-LT -N017B-2 24 A 1 B21. LT -N017C-1 24 A 1 B21-LT -N017C-2 24 A 1 E11-PT-N010A 21 A 1 B21-LT N017D-1 24 A 1 E11-PT-N010B 21 A 1 B21-LT -N017D-2 24 A 1 E11-PT-N010C 21 A 1 B21-LT -N024A-1 24 A 1 E11-PT-N010D 21 A 1 B21-LT -N024A-2 24 A 1 Ell-PT-N011A 22 A 1 B21 LT -N024B-1 24 A 1 E11-PT-N011B 22 A 1 B21-LT -U024B-2 24 A 1 E11-PT-N011C 22 A 1 B21-LT -N025 A-1 24 A 1 E11-PT-N011D 22 A 1 B21-LT -N025 A-2 24 A 1 E11-PT-N019A 22 A 1 B21-LT -N025B-1 24 A 1 E11-PT-N019B 22 A 1 B21-LT -N025B-2 24 A 1 E11-PT-N019C 22 A 1 B21-LT -N031A 25 A 1 E11-PT-N019D 22 A 1 B21-LT -N031B 25 A 1 B21-LT -N031C 25 A 1 B21-LT -N031D 25 A 1 E41-PDT-N004 25 A 1 E41-PDT-N005 25 A 1 B21-PT-N015A 21 A 1 B21-Pr-N015B 21 A 1 E51-PDT-N017 25 A 1 B21-PT-N015C 21 A 1 E51-PDT-N018 25 A 1 B21-PT-N015D 21 A 1 B21-PT-N021A 21 A 1 B21-PT-N021B 21 A 1 B21-1/r-N036 25 A 1 B21-PT-N021C 21 A 1 B21-LT-NO37 25 A 1 B21-PT-N021D 21 A 1 B21 -Iir-N042 A 25 A 1 B21-Pr-N023A 21 A 1 B21-LT-N042B 25 A 1 B21-PC-N023B 21 A 1 B21-PT-N023C 21 A 1 B21-Pr-N023D 21 A Spec. No. 9527-01-252-51 R5 Page 17 A
SECTION VI PRESSURE AND LEVEL TRANSMITTERS - TAC NUMBER INDEX (Cont'd) R5 Unit No. Tag Number Page No. 1 E41-LT-N014 26 A R6 1 E51-LT-N010 26 A Spec. No. 9527-01-252-51 n 's Page 18 A ~ 1449 170
SECTION IVI/ RF PRESSURE INSTRUMENT O TAG NO. W NU SPECIFICATl01 SHEET cLntNT CAR O L/AfA POWER E LIGHT CO LOCATION b -' Y ~ O'/ ' ' /' O# M 0f8 b CLAM ) SERYlCE (NOTE l ) DESCRIPTION: RECORDER I N DIC ATOP ~' BLIND E CONTROLLER TRAN SMITTER $ ) C ASE: RECTANGULAR CIRCUL AR L) MINI COLOR: BLACK OTHER MFK 972. s MOUNiihC: FLUSH $URFACE C BRACKET NO. PTS. RECORDING INDICATING O CHART TYPE: STRIP _ _ CIRCULAR RANGE CHART NO. SC AL F : RANGE CHART SPEED CHART DRIVE: SPRING DAY WIND ELECTRIC D EXP. PROOF ,V CY OTHER daLUMATIC 0 3-is rSiG ELECTRIC 0 OUTPUT MTG. LOCa ' : M: INTERNA PLUG-IN O REMOTE O PROP. 5 RATE O ON-0 OTHER g g ON MEASUREMENT INCREASE. OUTPUT: EASES CREASES O v 8 AUTO. MAN SWITCH: hCNE INTERNAL MAL aLTIGRAL No POSITIONS SETPolhi ADJUSTMEN TS: SfM , ELECTRIC INTE N ERhAL RENTE SET O MINuAt SET O CASCADE MASTER SECONDARY M A N U AL-M. NOME O IN CASE O Sue-e AN Et uSED WiTH INSTR. NO. _w_ TYPE: PNEUMATIC O OUTi UT: }-15 OTHER PC W E R 6UE[4Yl24VOO (EV OU/E/*I) ELECTRIC @ OUTPUT: 4-20 #ADC EXP. PR00F 0 GEN. PURPOSE WTHR. PRC0F Q ww..: TYPE: SPIRAL BELLOWS BOURDON DIAPHRAGM HEllC AL OTHER U; MATERIAL: BP042E STEEL 3/5 SS O OTHER R A%r : SES FA ct:: 21A & l2A OVER R ANGE PROTECT TO 2000 ES/0 hi {$ DI APHR AGM SEAL: CLEAN 0UT O NON-CLEAN 0uT O rtuSH. CONN. O rtANGED tB. ASA: TvPE: MATERI ALS: DIAPHRAGM BOTTOM BOWL C APILLARY TUBING: M AT
- L.
ARMOR CONNECTION, MPT: B0wl
- INSTR.
YM BACK BOTTOM ] CAPILLARY LENGTH f SEE PAGEs_ 21A & 22A rLulD: Ek Fpr WICF : NORMAL P$lG MAX. PSIG TrPP: NORMAL MAX. o [> u 4/1 U FILTER-REGULATOR SUPPLY G AGE C MTG. BR ACKET SYPHON C OUTPUT GAGE h CHARTS thKSET O CONTROLLER MANIFOLD h ElfCT. CONTACTS: M OT HER: (Q t?ocEMOuNY MODEL lls.2 GP (2) GEtCMic QuAunCA7/On RE90tRED j INS TA L L CE) INDOCR6 ((i) FOR
- 3) 5-PC/NT CAUBMT/ON FOR EACH IHE TRUM5r/ T.
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Form 550-14 RS SE*C TION T7T TAG NO. 066 8 6't.OW ~ SPECIFICATION SHEET CUENT 0/$ pol /NA POWER d U6Hr CD d $ E P - U/ / / ~/*S / LOCATION GEE BTlou ( ctAss _E) sLRvict .mocESS CA L IERA Tiot! PRO:Ess PRESS PROCESS TEMP tt TAG No. gAugs RANGE (P.StG) (Psig ) emst Vf);I'#0'EC 0 EA VI C 0 O (F.st4) .s ara ,;'omA o lue.M tA A g stor n mag , l~Luto Tg gS[ /352 log _f5 0 g7 tag %jgfgy'"' -.[j21-P T-Ngl 5A o -,2 c o_ o ,2 co y I -821-PT-Nol5B o-iaco o 1200 l l-B2]- PT-NCISC o-iao o o ozoo 1_ k 1 y v l -E.21-PT_ N. G._IS. D-.. o.12 co o ggoo l l-82hET-ffQ2M _ 1200 goo ygoo te ac 1557 ,,,7p g( pg,Sg,,,5& CO TO l -221-PT-Noli B Jzoo goo ,, o o g g oo n, / ~ b_k f ?~ 0 .s o'2 OO foo pgoo l GOO 70 1 -2:1-PT-NO2?D 1200 soo igo o u y i -821-PT-NO21A o roo o 500 132 5~ PJ PR!? SS l. 9 H,_l_ l -E2I-PT-NCEIE o-Sco o 500 l-E21-PT-No2l c o.roo o sco L (-821-PT-t/02t D '3
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Form 550-14 Rg SECTION y_d. N MM M NO. SPECIFICAT10ll SHEET CLIENT CAfOl./Nb ?OW5S l-l$N? 00 LOCATION b 'EP ~~"VIIS SERVICE
- ^II
- II M Pgr4ESS l CA LIBRATION PRO:EC5 PEE.'s =ROCSSS TEMP N
TAG Mo. ,gggg gpyja; (p3p(,) (p;;q ) g,yg7(op) PMM MWM o l(PSIG) 4 mA 20mA \\oRM MAX N0hl l MA g F't. ulO Yg l -Ell.PT-NOllh o-5 o C ,85 72, 70 l60 AIRhl2 :RYnCL PK?f s H' b' l - Ell-PT-NoIIE o-g o S 85 7,2 70 ISO A//tf/lb k I -Ell-PT-N0ll C o.g o S 85 72 70 '/SO Att/dz 4 I - G//-PT-not/D o-S o 5 85 7z 70 ISO AIR /H4 4 l -Ell-PT-NOl9/ O -5 _o S 85 72 70 /60 Ats/tiz 4 l -Ell-PT-NOI9 o-C o C . SS* 72 70 150 AIR /Hz. A l -Ell-PT-NOI9 C o-S o s 85 72 70 /50 AIR /NL l 4 I l -Eil-PT-NOl?L 0-C o S .S5 72 70 /50 A/P/H1 1 4 ..m norrs (t ) R2?."*MOUJ1 f!O DEt. It GldQP f C;2702 80PB (2) Ro:sMauvr ner.n itc:.;P::e;2 Tc2 eoes \\ C') RosEMounT MoDSL /t52 GPRE~2 TO2 80P8 (4) ROSCMouMT MO:21. //52G P402270280PB 1444 173 SPEC, tyo, 9 5; 7.oj.g5g. m, RS D20LS :.5 %.?'"*C,Y:G2C PAGE 22 A ~ i
b[(I/hM,[M FORM 6323 DIFFERENTI AL PRESSURE INSTRUMENT R5 M No. SPECIFICAT10ll SHEET CAROUNA POJ.v5K / L/GH7" C0 CLIENT LOCATlon BSEP - u Alo TS I t SERVICc Sz E FACFs 24A, 25A & 26A (CLASS,1)_ iNoCAToR O stiNo O CoNTRottER O 'TRfMIM$ r'TER D iNTEc.O DESCRIPfl0N: RECORDER O CASF: RECTANGULAR O CiRCutAR O C0 tor: STACK O oTnER u y cro a E MOUNTING: FLUSH O SuRrACE D BRACKET O No. PTS. RECoRolNG INolCATING b CHART TYPES:
- CIRC. O RANcE:
So. Root uNiroRM REV / DAY SCAtr: TYPE RANGE: SQ. Root UNIFORM O CHART ORivE: SPRING DAY WIND ELECTRIC EXP. proof V CY oTHER UMATIC O 3-1S eSic ELECTRIC 0 output TY : MTG. LOCATION: INTERNA PLUG-lN O REMOTE O f J PROP. 5 RATE O oN-ore - 'oTnER ON MFASuRfMENT INCREASE, OUTPUT: I E 0 4 E hEASES v h AUTO-MAN Svil TCH : NaNE C INTERNAL O -rxTiWN At crit No roSiTioNS SETPOINT ADJUSTMENTS: ELECTRIC D INTERNAL EXTERNAL 0 REMOTE SET O MANuAt SET O CASCAoE O M SECoNoARY O M ANb. L.RE NaNE O iN CASE O Su B-e AN Et O uSto wirn INSTR. No. g x TYPE: PNEUMATIC 0 ouTeuT: oTsER Fowse suppl.y :14vccI6 omad 3-1S ELECTRIC b output: 20 M MC EAP. proof GEN. PURPOSE O wTsR. eRoor O n tn,:.:- SERVICE: Flow O tEvEtOMrr.eRESS. O DIFF. RANGE SEE PAGES 24A, 25A & 26A a h TYPE: FORCE bat. O BottowS O MERC. MANo. O oTHER s/Fr cerec/7xace R5 "., s BODY MATL: STEEL 0
- 3. M _STNt. STt. O oTwER RiT i NG _zo o o eSic AT /oo or h5 ElfMENT MATT:
.dlf_STNL. STt. O oTHER h PROCESS CONNECTION SIZE: NPT 4/4' C 1/2-O oTnER '~ rrtekFloW NoZ. VENTuRl O oTutR TYPE TAPS: FLANGE O 6 HER (( PlPE 1.D.. gNGEW EL.EMENI.MAIta '" BORE: BETA RATIO N Fi ll! D: SEE PAGES 24A,25_A_ &_26A Flo W: NORMAL FULL SCALE UNITS 0 O Q ;- PRESSURF: NORMAL PSIG. MAX. PSIG. TEMPEFATilRE: NORMAL H A X. hh O 0 SPFCIFic CRAVITY: AT F M0L. WT. VISCOSITY CP AT 7 O 8 BASE CONDITIONS: PSIA. F STEAM: Quat lTY 5 SuP ERHE AT: F 0 FILTER-REcutATo9 O Suertv cAucE O Mic. BRACKET O CoNo. POTS O oureuT-ciucE O k CHARTS: INKSET O MtTEs MANiroto O CoNTRottERMAMirotoO h ELECT. CONTACTS: 8 O TH F R: (I) ROSEMC'!!ir MODt!L II52DP )fkf \\lk (2) SEISvlIC G UA L/i'IC A TI 3?.' R[Qt ' IRE: ; int S7L l L CD IN DOOPS. (:) /=ivE (s) /'oiNr cs uu.urton i=OR EA CH /N S TRUMEN T. h (m fort PL AN T Mo p. 7 7-2C8 l < 5 9 h sPsc. )tkdM,27-ci. 252 - Si .--..n -.a R5 PAGE 23 A
Form 550 14 RC SECTION WI N TAG NO. SPECIFICATION SHEET car 0LIA% PowfR l L/GiY7* CO cutNr LOCATION EOIE - W//IS # stavsct 555 _ EDm (_CLASG I) PRocCSS PRESS PMocESS TEMP N "A'OCESS CAllB. RANGE (psic ) 9tNSit. ( *F) Flue: S g gvi ct a 'TAq NOS. RANGE 4 tr?A 20 mA N0!'M MAX N3kM MAX Te f -E21-LT-NOITA-l O_-60"WC G7.58_"wc 2 0.l"WC LOO 6-- I331 I00 /SO WATER Rx L[ vfl LOW 30_ ~ l 321-LT-sot 7A-2
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Form 550 14 RS SECTION Vil ^0 N0* SPECIFICATION SHEET CLIENT CAR OLINA POWER $ 1/GHi' CO 8.Sf"P ~ c)Aff TS / LOCATION SERVICC 3 6 E. B EL.0 LJ (cLAS $ } PRCCE:$ PRCSS PROCESS TEM)P 1, PROCESS CALIB. RANGE TAG; N05 (PSIG) GtHST (*F flu!D SERVICE o T RANGE 4 mp go yng gagpy gpy gagg gpg g l ~ HIDCI DRAli. fit l.Geil f -f/o/4 0-?O h D O /l20 30/b O //20 1500 560 575 STM LEVEL HIGH _3 RC/C DRAIN l'Of R6 1-s ri-t r ;,'oi o o.w w2o o%o go-pio 11 2 o igoo ggo g7g Srg trygt g,ay y (1) Rt : aMou^tT MoDEL /tS2DP4222ro280PB (2) H / t32DPSE22 TO2 ScPB (3) n n //52DPGE2s TC2 BOPB ?) D 1) //S2DPTE22 702 BoPB 9 h (5^) // 52DP3E22TO2 So PB 's n 9 9 144t 177 SPEC. No. 952 7-OI.a 5~'- 57 Rt1. 7 7-2 l,8, 2 G 9 ] ? 7 0 PA GE.C G A PS i>
144F 178
SECTION V TRIP CALIBRATION SYSTEM - TAG NUMBER INDEX '" NIT NO. TAG NO. PAGE NO. UNIT NO. TAG NO. PAGE NO. 1 B21-N006A-1 40 A 1 B21-N024B-1 44 A 1 B21-N024B-2 38 A 1 B21-N006B-1 44 A 1 B21-N025A-1 42 A 1 B21-N006C-1 42 A 1 B21-N025A-2 35 A 1 B21-N006D-1 46 A 1 B21-N025B-1 46 A 1 B21-N007A-1 40 A 1 B21-N025B-2 38 A j1 B21-N007B-1 44 A 1 B21-NO31A-1 34 A l 1 B21-NO31A-2 34 A
- 1 B21-N007C-1 42 A 1
B21-N031A-3 34 A 1 B21-N007D-1 46 A 1 B21-NO31A-4 34 A 1 B21-N008A-1 40 A 1 B21-N031B-1 37 A 1 B21-N008B-1 44 A 1 B21-N031B-2 37 A 1 B21-N008C-1 42A 1 B21-NO31B-3 37 A 1 B21-NO31B-4 37 A 1 B21-N008D-1 46A 1 B21-N031C-1 34 A 1 B21-N009A-1 40 A 1 B21-NO31C-2 34 A 1 321-N009B-1 44 A 1 B21-NO31C-3 34 A 1 B21-N009C-1 42 A 1 B21-N031C-4 34 A 1 B21-N009D-1 46A 1 B21-N0310-1 37 A 1 B21-N031D-2 37 A 1 B21-N015A-1 40 A 1 B21-NO310-3 37 A 1 B21-N0158-1 44 A 1 B21-NO310-4 37 A 1 B21-N015C-1 42 A 1 B21-NO36-1 36 A 1 B21-N0150-1 46A 1 B21-N037-1 39 A g '1 B21-N017A-1 40 A 1 B21-N042A-1 36 A B21-N017A-2 35 A 1 B21-N042B-1 39 A l1 B21-N017B-1 44 A 1 B21-N056A-1 40 A 1 B21-N017B-2 35 A 1 B21-N056B-1 44 A 1 B21-N017C-1 42A 1 B21-N056C-1 42 A 1 B21-N017C-2 38 A 1 B21-N056D-1 46 A !1 B21-N0170-1 46 A 1 B21-4033 34 A l1 B21-N0170-2 38 A 1 B21-4036 37 A j1 B21-N021A-1 34 A 1 B21-4039 40 A '1 B21-N021A-2 34 A 1 B21-4040-1 (Spare) 41 A 1 B?l-N021B-1 37 A 1 B21-4040-2 (Spare) 41 A 1 B21-N021B-2 37 A 1 B21-4041 42 A 1 B21-N021C-1 34 A 1 B21-4042-1 (Spare) 43 A l1 B21-N021C-2 34 A 1 B21-4042-2 (Spare) 43 A 1 B21-N0210-1 37 A 1 B21-4043 44 A 1 B21-N0210-2 37 A 1 B21-4044-1 (Spare) 45 A l1 B21-N023A-1 40A 1 B21-4044-2 (Spare) 45 A 1 B21-N023A-2 40A 1 B21-4045 46 A 1 B21-N023B-1 44A 1 B21-4046-1 (Spare) 47 A 1 B21-N023B-2 44 A 1 B21-4046-2 (Spare) 47 A 1 B21-N023C-1 42A 1 B21-4047-1 (Spare) 40 A 1 B21-N023C-2 42A 1 B21-4048-1 (Sparr.) 42A 1 321-N023D-1 46A 1 B21-4049-1 (Spare) 44 A 1 B21-N023D-2 46A 1 B21-4050-1 (Spare) 46 A !1 B21-N024A-1 40A 1 B21-4052 19 A l1 B21-N024A-2 35 A Specification No. 9527-01-252-55 Page 17 A 144tP'l79
SECTION V TRIP CALIBRATION SYSTEM - TAC NUMBER INDEX (Cont'd) UNIT NO. TAG NO. PAGE NO. 1 C71-N002A-1 40A 1 C71-N002B-1 44A 1 C71-N002C-1 42A l 1 C71-N002D-1 46A l 1 E11-N010A-1 36 A 1 E11-N010B-1 39 A 1 E11-N010C-1 36 A 1 E11-N010D-1 39 A 1 E11-N011A-1 35 A 1 E11-N011A-2 35 A 1 E11-N011B-1 38 A 1 E11-N011B-2 38 A l 1 E11-N011C-1 35 A 1 E11-N011C-2 35 A i f 1 E11-N011D-1 38 A 1 F'.1-N011D-2 38 A 1 E11-N019A-1 36 A N5i 1 E11-N019B-1 39 A i 1 E11-N019C-1 36A i 1 E11-N0190-1 39 A 1 E11-4034-1 (Spare) 36 A 1 E11-4034-2 (Spare) 36A 1 E11-4035-1 (Spare) 36 A j 1 E11-4035-2 (Spare) 36 A 1 E11-4037-1 (Spare) 39 A l 1 E11-4037-2 (Spare) 39 A 1 E11-4038-1 (Spare) 39 A 1 E11-4038-2 (Spare) 39 A 1 E41-N004-1 35 A 1 E41-N004-2 35 A 1 E41-N005-1 38 A 1 E41-N005-2 38 A 1 E41-N014-1 36 A i 1 E51-N017-1 35A 1 E51-N017-2 35 A 1 E51-N018-1 38 A 1 E51-N018-2 38 A 1 E51-N010-1 39A Specification No. 9527-01-252-55 Page 18 A 14Aq l80
SECTION V TRIP CALIBRATION SYSTEM - TAC NUMBER INDEX (Cont'd) NOTES: 1. T*..e tag number index, as shown on Specification No. 9527-01-252-55, Sheet Nos. 17A and 18A, is recorded on the following data sheets and on the plant modification drawings, whereas the instrument tag numbers noted on the technical specification sheets reflects the distinction between master and slave trip units in accordance with the following examples: DATA SHEETS & DRAWINGS TECHNICAL TRANSMITTERS MASTER / SLAVE TRIP UNITS SPECIFICATIONS (Ex.) B21-PT-N023A B21-N023A-1 (Master) B21-PTM-N023A-1 B21-N023A-2 (Slave) B21-PTS-N023A-2 (Ex.) B21-LT-N017A-1 B21-N017A-1 (Master) B21-LTM-N017A-1 B21-LT-N017A-2 B21-N017A-2 (Master) B21-LTM-N017A-2 etc. 2. The symbol (c) shown in trip setpoint column on the following specification data sheets reflect nominal trip setpoints. Actual trip setpoints will be determined and set in the Field to be consistent with the technical specifications. Specification No. 9527-01-252-55 Page 18 Al 144't-l8i
SECTION VI SPECIFICATION SHEET TRIP CALIBRATION SYSTEM Rosenount Model 510DU Trip Calibration System consisting of one hundred seventy-two (172) Master Trip Units, eighty (80) Slave Trip Units, twelve (12) Calibration Units and twenty-eight (28) unwired card files complete with accessories as listed below. Refer to specification sheets, pages 34A thru 47A for tag numbers, scales, trip setpoints and card file locations. The master, slave and calibration units shall be furnished completely assembled in their respective card file positions as shown in the specification sheets. ACCESSORIES: Three (3) Trip Unit Card Extenders Two (2) Spare Parts Kits One (1) Readout Assembly Card Extender One (1) Calibration Card Extender One (1) Bench Test Facility Eighty-Eight (88) Blanks for Trip Units Sixteen (16) Blanks for Calibration Units Two (2) Readout Assembly tagged as follows: 1-B21-4052 Spec. No. 9527-01-252-55 Page 19A I44tt i82
SECTION VI SPECIFICATION SHEET (CONT'D) CABINET TAG No. : 1-CB-XU-63 (Eccs D/ v. J) CARD FILE CARD FILE INSTRUMENT TRIP C TAG NO. POSITION TAG NO. TYPE SCALE (RANGE) SETPOINI SERVICE _ 1-CB-XU-3897 1 1-B21-N02 M-1 M 0-500 PSIG 325 PSIG Rx Presc Low 2 1-B21-N021A-2 S (0-500 PSIG) 325 PSIG Rx Press Low 3 1-B21-N021C-1 M 0-500 PSIG 325 PSIG Rx Press Low I I 4 1-B21-N021C-2 S (0-500 PSIG) 325 PSIG Rx Press Low -150 To 60 5 1-B21-N031A-1 M IN H2O -381N H2O Rx Level Low (-150 To 60 6 1-B21-NO31A-2 S IN H2O) -381N H2O Rx Level Iow (-150 To 60 -147.5 I 7 1-B21-NO31A-3 S IN H2O) -IN H2O Rx Level Low (-150 To 60 -147.5 f 8 1-B21-NO31A-4 S IN H O) IN H O Rx Level Low 2 2 -150 To 60 9 1-321-N031C-1 M IN H 0 -38IN H O Rx Level Low 7 2 (-150 To 60 10 1-B21-N031C-2 S IN H O) -381N H O Rx Level Iow 2 2 (-150 To 60 -147.5 11 1-B21-NO31C-3 S IN H O) IN H O Rx Leve1 Low 2 2 (-150 To 60 -147.5 12 1-B21-NO31C-4 S IN H O ) IN H O Rx Level Low 2 2 13 1-B21-4033 C Digital Calibration NOTE: (1) M = Master Trip Unit; S = Slave Trip Unit; C = Calibration Unit l Spec. No. 9527-01-252-55 Page 34A i 144& 183
SECTION VI SPECIFICATION SHEET (CONT'D) CABINET TAG NO.: 1-CB-XU-63 (Ecc6 DM r) CARD FILE CARD FILE INSTRUMENT TRIP C TAG NO. POSITION TAG NO. TYPE SCALE (FANGE) SETPOINr SERVICE _ l-CB-XU-3898 1 1-B21-N017A-2 M 0-60 IN H2O 58 IN H2O Rx Level High 2 1-B21-N017B-2 M 0-60 IN H2O 58 IN H2O Rx Level High -150 To 60 3 1-B21-N024A-2 M IN H2O -38 IN H2O Rx Level Low -150 To 60 4 1-B21-N025A-2 M IN H2O -38 IN H2O Rx Level Low -300 To 300" -230 IN 5 1-E41-N004-1 M IN H2O H2O HPCI Stmline llP Hi (-300 To 300 +230 IN 6 1-E41-N004-2 S IN H2O) H2O HPCI Staline llP Hi -550 To 550" -412 IN HO RCIC Stmline TSP Hi, 7 1-E51-N017-1 M HO 2 2
- -550 To 550"
+412 IN HO RCIC StmlinetSP Hi 8 1-E51-N017-2 S H O) 2 2 9 l-E11-N0llA-1 M 0-5 PSIG 2 PSIG Drywell Press Hi 10 1-E11-N011A-2 S (0-5 PSIG) 2 PSIG Drywell Press Hi 11 1-E11-N011C-1 M 0-5 PSIG 2 PSIG Drywell "ress Hi 12 1-Ell-N011C-2 S (0-5 PSIG) 2 PSIG Drywell Press Hi Blank for 13 Calib. Unit q, NOTE: (1) M = Master Trip Unit; S = Slave Trip Unit; C = Calibration Unit l Spec. No. 9527-01-252-55 i Page 35 A 1 4 4'r' i 8 4
SECTION VI SPECIFICATION SHEET (CONT'D) CABINET TAG NO.: 1-CB-XU-63 (ECCS 3/ v. I ) CARD FILE CARD FILE INSTRUMENT TRIP C TAG NO. POSITION TAG NO. TYPE SCALE (RANGE) SETPOINI SERVICE _ i 1-CB-XU-3899 1 1-Ell-N010A-1 M 0-5 PSIG 2 PS m Drywell Press Hi 2 1-Ell-N0100-1 M 0-5 PSIG 2 PSIG Drywell Press Hi 3 1-Ell-N019A-1 M 0-5 PSIG 2.5 PSIG Drywell Press Hi 4 1-E11-N019C-1 M 0-5 PSIG 2.5 PSIG Drywell Press Hi 5 1-B21-N042A-1 M 0-60IN H O 12.5IN H O Rx Level Low 2 2 -100 To 200 6 1-B21-NO36-1 M IN H O -39IN H O Rx Level Low 2 2 7 1-Ell-4034-1 "M Spare R5 8 1-E11-4034-2 S Spare HPCI Drain Pot Level 9 l-E41-N014-1 M 0-30IN H O ISIN H O High 2 2 10 1-Ell-4035-1 M Spare 11 1-E11-4035-2 S Spare 12 Blank Blank for 3 Calib. Unit 2 NOTES
- 1) M = Master Tr: p Unit; S = Slave Trip Unit; C - Calibrat on Un t e
Page 36A 1449 185
SECTION VI SPECIFICATION SHEET (CONT'D) CABINET TAG NO. : 1-CB-XU-64 (ECC5 S/v. 2) CARD FILE CARD FILE INSTRUMENT TRIP C TAG NO. POSITION TAG NO. TYPE SCALE (RANGE) SETPOINI SERVICE _, 1-CB-XU-3900 1 1-B21-N021B-1 M 0-500 PSIG 325 PSIG Rx Press Low 2 1-B21-N021B-2 S (0-500 PSIG) 325 PSIG Rx Press Low 3 1-B21-N021D-1 M 0-500 PSIG 325 PSIG Rx Press Low 4 1-B21-N021D-2 S (0-500 PSIG) 325 PSIG Rx Press Low I -150 To 60 5 1-B21-NO31B-1 M IN H 0 -38IN H 0 Rx Level Low 7 7 (-150 To 60 6 1-B21-NO313-2 S IN 3 0) -38IN H 0 Rx Level Low 9 9 (-150 To 60 -147.5 7 1-B21-N031B-3 3 IN H 0) IN H 0 Rx Level Low 9 9 (-150 To 60 -147.5 8 1-B21-N031B-4 S IN H O) IN H O Rx Level Low 2 2 -150 To 60 9 l-B21-NO31D-1 M IN H O -38IN H O Rx Level Low 2 2 (-150 To 60 10 1-B21-NO31D-2 S IN H O) -38IN H O Rx Level Low 2 2 (-150 To 60 -147.5 11 1-B21-NO31D-3 S IN H O) IN H O Rx Level Low 2 2 (-150 To 60 -147.5 12 1-B21-N031D-4 S INHO) IN H O Rx Level Low 2 2 13 1-B21-4036 C Digital Calibration q7 NOTE : (1) M = Master Trip Unit; S = Slave Trip Unit; C = Calibration Unit i Spec. No. 9527-01-252-55 Page 37A 144(P I86
SECTION VI SPECIFICATION SHEET (COKr'D) CABINET TAG NO. : 1-CB-XU-64 (ECCS D/v. X) CARD FILE CARD FILE INSTRUMENT TRIP C TAG NO. POSITION TAG NO. TYPE SCALE (RANGE) SETPOINI SERVICE _ 1-CB-XU-3901 1 1-B21-N017C-2 M 0-60 IN H 0 58 IN H 0 Rx level High 9 9 2 1-B21-N017D-2 M 0-60 IN H 0 58 IN H 0 Rx Level High 9 9 -150 To 60 3 1-B21-N024B-2 M IN H 0 -38 IN H 0 Rx Level Low 9 9 -150 To 60 4 1-B21-N025B-2 M IN H O -38 IN H 0 Rx Level Low 2 9 -300 To 300 -230 5 1-E41-N005-1 M IN H 0 IN H 0 HPCI Stmline6P Hi 9 9 (-300 To 300 +230 6 1-E41-N005-2 S IN H O) IN H O HPCI Stmline dP Hi 2 2 -550 To 550 -412 7 1-E51-N018-1 M IN H O IN H O RCIC Stmline dP Hi 2 2 (-550 To 550 + 412 8 1-E51-N018-2 S IN H O) IN H O RCIC StmlineOP Hi 2 2 9 1-E11-N011B-1 M 0-5 PSIC 2 PSIG Drywell Press Hi 10 1-E11-N011B-2 S (0-5 PSIG) 2 PSIG Drywell Press Hi 11 1-E11-N011D-1 M 0-5 PSIG 2 PSIG Drywell Press Hi 12 1-E11-N011D-2 S (0-5 PSIG) 2 PSIG Drywell Press Hi Blank for 13 Calib. Unit 9 NOTE: (1) M = Master Trip Unit; S = Slave Trip Unit; C = Calibration Unit i Spec. No. 9527-01-252-55 Page 38 A 1444 187
E SECTION VI SPECIFICATION SHEET (CONT'D) CABINET TAG NO. : 1-CB-XU-64 (Eccs S/v. Z ) CARD FILE CARD FILE INSTRUMENT TRIP c TAG NO. POSITION TAG NO. TYPE SCALE (RANGE) SETPOINI SERVICE _ 1-CB-XU-3902 1 1-Ell-N010B-1 M 0-5 PSIG 2 PSIG Drywell Press Hi 2 1-E11-N010D-1 M 0-5 PSIG 2 PSIG Drywell Press Hi 3 1-Ell-N019B-1 M 0-5 PSIG 2.5 PSIG Drywell Press Hi 4 1-Ell-N019D-1 M 0-5 PSIG 2.5 PSIG Drywell Press Hi 5 1-B21-N042B-1 M 0-601N H O 12.5IN H 0 Rx Level Low 2 9 -100 To 200 6 1-B21-N037-1 M IN H O -391N H O Rx Level Low 2 2 7 1-Ell-4037-1 M Spare R5 8 1-Ell-4037-2 S Spare RCIC Drain Pot 9 l-E51-N010-1 M 0-30 IN H O 8 IN H O Level High 2 2 10 1-Ell-4038-1 M Spare 11 1-Ell-4038-2 S Spare 12 (Blank) Blank for gr 13 Calib. Unit NOTES (1) M = Master Trip Unit; S = Slave Trip Unit; C = Calibration Unit Spec. No. 9527-01-252-55 Page 39 A 1441t i88
SECTION VI SPECIFICATION SHEET (CONT'D) CABINET TAG NO. : 1-CB-XU-65 (RPS CNANNEL A1) CARD FILE CARD FIIE INSTRUMENT TRIP c TAG NO. PL3ITION TAG NO. TYPE SCALE (RANGE) SETPOINI SERVICE _ l-CB-XU-3903 1 1-B21-N006A-1 M 0-150 PSID 115 PSID Main Stm Flo Hi 2 1-B21-N007A-1 M 0-150 PSID 115 PSID Main Stm Flo Hi 3 1-B21-N008A-1 M 0-150 PSID 115 PSID Main Stm Flo Hi 4 1-B21-N009A-1 M 0-150 PSID 115 PSID Main Stm Flo Hi 5 1-B21-N015A-1 M 0-1200PSIG 825 PSIG Main Stm Press Lo -150 To 60 6 1-B21-N024A-1 M IN H 0 -38 IN H 0 Rx Level Low 9 9 7 1-B21-N056A-1 M 0-30 IN HgVAC 7IN HgVAC Cond. Vacuum Lo 8 1-C71-N002A-1 M 0-5 PSIG 2 PSIG Drywell Press Hi 9 l-B21-N017A-1 M 0-60 IN H 0 12.5IN H 0 Rx Level Low 10 1-B21-N023A-1 M 600-1200 PSIG 1045PSIG Rx Press High 11 1-B21-N023A-2 S (600-1200PSIG: 1035 PSIG Rx Press Hi 12 1-B21-4047-1 S Spare 13 1-B21-4039 C Digit 41 Calibration q, hua: (1) M = Master Trip Unit; S = Slave Trip Unit; C - Calibration Unit l Spec. No. 9527-01-252-55 Page 40 A 14 4't-l 8 9
SECTION VI SPECIFICATION SHEET (CONT'D) CABINET TAG NO. : 1-CB-XU-65 (RPS CNANNEZ AI) CARD FILE CARD FILE INSTRI MENT TRIP c TAG NO. POSITION TAG NO. TYPE SCALE (RANGE) SETPOINT SSRVICE _, Spare 1-CB-XU-3904 1 1-B21-4040-1 M 2 1-B21-4040-2 S Spare 3 Blank 4 Blank l 5 Blank 6 Blank 7 Blank 8 Blank 9 Blank 10 Blank 11 Blank 12 Blank Blank for Calib. Unit NOTE: (1) M = Master Trip Unit; S = Slava Trip Unit; C = Calibration Unit i Spec. No. 9527-01-252-55 Page 41 A 1 4 4t4 ~1 9 0
SECTION VI SPECIFICATION SHEET (CONT'D) CABINET TAG NO. : 1-CB-XU-66 (RPS CNANNEl. A2) CARD FILE CARD FILE INSTRUMENT TRIP c TAG NO. POSITION TAG NO. TYPE SCALE (RANGE) SETPOINI SERVICE,, 1-CB-XU-3905 1 1-B21-N006C-1 M 0-15G PSID 115 PSID Main Stm Flo Hi 2 1-B21-N007C-1 M 0-150 PSID 115 PSID Main Stm Flo Hi 3 1-B21-N008C-1 M 0-150 PSID 115 PSID Main Stm Flo Hi 4 1-B21-N009C-1 M 0-150 PSID 115 PSID Main Stm Flo Hi 5 1-B21-N015C-1 M 0-1200 PSIG 825 'SIG Main Stm Press Lo _ -150 To 60 6 1-B21-N025A-1 M IN H 0 -38IN H 0 Rx Level Low 7 7 7 1-B21-N056C-1 M 0-301N HgVAC 7IN HgVAC Cond. Vacuum Lo 8 1-C71-N002C-1 M 0-5 PSIG 2 PSIG Drywell Press Hi 9 1-B21-N017C-1 M 0-60IN H O 12.5IN H 0 Rx Level Low 2 9 10 1-B21-N023C-1 M 600-1200PSIG 1045 PSIG Rx Press High 11 1-B21-N023C-2 S (600-1200PSIG) 1035 PSIG Rx Press High 12 1-B21-4048-1 S Spare 13 1-B21-4041 C Digital Catibration 3r NOTE: (1) M = Master Trip Unit; S = Slave Trip Unit; C - Calibration Unit Spec. No. 9527-01-252-55 Page 42 A i 4 Avt-i 91
SECTION VI SPECIFICATION SHEET (CONT'D) CABINET TAG NO. : 1-CB-XU-66 (RPS CNANNf4 A2) CARD FILE CARD FILE INSTRUMENT TRIP c TAG NO. POSITION TAG NO. TYPE SCALE (RANGE) SETPOINI SERVICE _ 1-CB-XU-3906 1 1-621-4042-1 M Soare 2 1-B21-4042-2 S _ Soare 3 Blank 4 Blank 5 Blank 6 Blank 7 Blank 8 Blank 9 Blank 4 10 Blank 11 Blank 12 Blank Blank for y 13 Calib. Unit NOTE: (1) M = Master Trip Unit; S = Slave Trip Unit; C = Calibration Unit 1 Spec. No. 9527-01-252-55 Fage 43 A 144P I92
SECTION VI SPECIFICATION SHEET (CONT'D) CABINET TAG NO. : 1.CB-XU-67 (RPS CNANNEZ S1) CARD FILE CARD FILE INSTRUMINT TRIP c TAG NO. POSITION TAG NO. TYPE SCALE (RANGE) SETPOINI SERVICE _ 1-CB-XU-3907 1 1-B21-N006B-1 M 0-150 PSID 115 PSID Main Stm Flo Hi 2 1-B21-N007B-1 M 0-150 PSID 115 PSID Main Stm Flo Hi 3 1-B21-N008B-1 M 0-150 PSID 115 PSID Main Stm Flo Hi 4 1-B21-N009B-1 M 0-150 PSID 115 PSID Main Stm Flo Hi 5 1-B21-N015B-1 M 0-1200 PSIG 825 PSIG Main Stm Press Lo -150 To 60 6 1-B21-N024B-1 M IN H O -38 IN H O Rx Level Iow 2 2 7 1-B21-N0563-1 M 0-30IN HgVAC 7IN HgVAC Cond. Vacuum Lo 8 1-C71-N002B-1 ei 0-5 PSIG 2 PSIG Drywell Press Hi 9 l-B21-N017B-1 M 0-60 IN H,0 12.5IN H 0 Rx Level Iow 7 10 1-B21-N023B-1 M 600-1200PSIG 1045 PSIG Rx Press High 11 1-B21-N023B-2 S (600-1200PSIG) 1035 PSIG Rx Press High 12 1-B21-4049-1 S Spare 13 1-B21-4043 C Digital Calibration NOTE: (1) M = Sbster Trip Unit; S = Slave Trip Unit; C = Calibration Unit Spec. No. 9527-01-252-55 Page 44 A )kk
SECTION VI SPECIFICATION SHEET (CONT'D) CABI!Pc,1 TAG NO. : 1-CB-XU-67 (RPS CNANNEZ 52) CARD FILE CARD FIIZ INSTRUMENT TRIP c TAG NO. POSITION TAG NO. TYPE SCALE (RANGE) SETPOINI SERVICE _ Spare 1-CB-XU-3908 1 1-B21-4044-1 M Spare 2 1-B21-4044-2 S 3 Blank 4 Blank 3 Blank 6 Blank 7 Blank 8 Blank 9 Blank 4 10 Blank 11 Blank 12 Blank Blank for 13 Calib. Unit 9 NOTE: (1) M = Master Trip Unit; S = Slave Trip Unit; C = Calibration Unit Spec. No. 9527-01-252-55 Page 45 A -144T.194
SECTION VI SPECIFICATION SHEET (CONT'D) CABINET TAG NO. : 1-CB-XU-68 [RFS CNANNEl. 82) CARD FILE CARD FILE INSTRUMENT TRIP c TAG NO. POSITION TAG NO. TYPE SCALE (RANGE) SETPOINI SERVICE _ 1-CB-XU-3909 1 1-B21-N005D-1 M 0-150 PSID 115 PSID Ma_in Stm Flow Mi 2 1-B21-N007D-1 M 0-150 PSID 115 PSID Main Stm Flow Mi 3 1-B21-N008D-1 M 0-150 PSID 115 PSID Main S tm Flow 31 4 1-B21-N009D-1 M 0-150 PSID 115 PSID Main Stm Flow Mi 5 1-B21-N015D-1 M 0-1200 PSIG 825 PSIG Main S tm Press Low -150 To 60 6 1-B21-N025B-1 M IN H 0 -38IN H 0 Rx Level Low 9 9 7 1-B21-N056D-1 M 0-301N HgVAC 7IN HgVAC Cond. Vacuum Lo 8 1-C71-N002D-1 M 0-5 PSIG 2 PSIG Drywell Press Hi 9 1-B21-N017D-1 M 0-60 IN H 0 12.5IN H 0 Rx Level Low 3 10 1-B21-N023D-1 M 600-1200PSIG 1045PSIG Rx Press High 11 1-B21-N023D-2 S (600-1200PSIG) 1035PSIG Rx Press High 12 1-B21-4050-1 S Spare 13 1-B21-4045 C Digital Calibration 3, Nott: (1) M = Master Trip Unit; S = Slave Trip Unit; C = Calibration Unit i Spec. No. 9527-01-252-55 Page 46 A 14 4'r' I 9 5
SECTION VI SPECIFICATION SHEET (CONT'D) CABINET TAG NO.: 1-CB-XU-68 (RPS CNANN.!~t B2) CARD FILE CARD FILE INSTRUMENI TRIP c TAG NO. F3SITION TAG NO. TYPE SCALE (RANGE) SETPOINI SE_R_VICE _ Spare 1-CB-XU-3910 1 1-B21-4046-1 M Spare 2 1-B21-4046-2 S 3 Blank 4 Blank 5 Blank 6 Blank 7 Blank 8 Blank 9 Blank 10 Blank 11 Blank 12 Blank Blank for T 13 Calib. Unit NOTE: (1) M = Master Trip Unit; S = Slave Trip Unit; C = Calibration Unit Spec. No, 9527-01-252-55 Page 47 A 144r 196
144Y 197
TABLE 2. 2.1-1 en REACTOR PROTECTION SYSTEM INSTRUPENTATION SETPOINTS E 5 ALLOWABLE b FUNCTIONAL UNIT AND INSTRUMENT NUMBER TRIP SETPOI?Tr VAllIES O f 8 1. Intermediate Range Monitor, Neutron Flux - High <120 divisions of full scale <120 divisions g (C51-IRM-K601 A,B,C,D,E,F,G,H) of full scale U 2. Average Power Range Monitor (C51-APRM-CH.A,3,C,D,E,F) 1 57. of RATED 1 a. Neutron Flux - High, 157. 1157. of RATED TiiERMAL POWER THERMAL POWER b. Flow Biased Neutron Flux - High(3)(4) 5(U.66 W + 547.) 1(0.66 W + 547.) Fixed Neutron Flux - High(4) 51207. of RATED THERMAL POWER $1207. of RATED c. THERMAL POWER Y v~ 3. Reactor Vessel Steam Dome Pressure - High (B21-lTM-N023A-1,B-1,C-1,D-1) < 1045 psig < 1045 psig l
- 1 4.
Reactor Vessel Water Level - Low, Leve1 y ( B21-LTM-N017A-1, B-1, C-1, D-1 ) >12.5 inches above instru- >12.5 inches above ment zero instrument zero 4 CD 5. Main Steam Line Isniation Valve - Closure (5) 3107. closed <107. closed (B21-F022 A,B,C,D; B21-F028 A,B,C,D) S R. l 6. Main Steam Line Radiation - High 53 x full power background 13.5 x full power (D12-RM-K603 A,B,C,D) background n
TABLE 2.2.1-1 (continued) RFACTOR PROTECTION SYSTEM INSTRUMENTATION SETPOINTS Ey ALIDWABLE g FUNCTIONAL UNIT AND INSTRUMENT NUMBER TRIP SETPOINT VALUES 7: 7. Drywell Pressure - High (C71-PTM-N002A-1,B-1,C-1,D-1) < 2 psig < 2psig l H w 8. Scram Discharge Volume Water Level - High 5,109 gallons <109 gallons (C11-LSH-N013 A,B,C,D) Y A. W D 8 8-Bn
TABLE 3. 3.1d REACTOR PROTECTION SYSTEM INSTRUMENTATION 5 APPLICABLE MINIMUM NUMBER E OPERATIONAL OPERABLE CHANNELS FUNCTIONAL UNIT AND INSTRUMENT NUMBER CONDITIONS PER TRIP SYSTEM (a)(b) ACTION o 1. Intermediate Range Monitors: (C51-IRM-K601A,B,C,D,E,F,G,H) N a. Neutron Flux - High 2, 5 3 1 3, 4 2 2 b. Inoperative 2, 5 3 1 3, 4 2 2 2. Average Power Range Monitor: (CSI-APRM-CH.A,B,C,D,E,F,) a. Neutron Flux - High, 15% 2, 5 2 3 g b. Flow Biased Neutron Flux - High 1 2 4 c. Fixed Neutron Flux-High, 120% 1 2 4 d. Inoperative 1, 2, 5 2 5 L e. Downscale 1 2 4 f. LPRM 1, 2, 5 (c) NA 3. Reactor Vessel Steam Dome Pressure - A High D (B21-PT-N023A,B,C,D) i (B21-PTM-N023A-1,B-1,C-1,D-1) 1, 2 2 6 y 4 Reactor Vessel Water Level a Low, Level #1 3 (B21-LT-N017A-1,B-1,C-1,D-1) (B21-LTM-N017A-1,B-1,C-1,D-1) 1, 2 2 6 5.! 5. Main Steam Line Isolation Valve 5 Closure (B21-F022A,B,C,D, and B21-F028A,B,C,D) 1 4 4
TABLE 3.3.1-1 (Continued) REACTOR PROTECTION SYSTEM INSTRUMENTATION es 8 APPLICABLE MINIMUM NQiBER d OPERATIONAL OPERABLE CHA';NELS Q FU'iCTION UNIT AND INSTRDIENT NUMBER CONDITIONS PER TRIP SYSTEM (a)(b) ACTION 6. Main Steam Line Radiation - High 1, 2(d) 2 7 5 (L12-RM-K603A,B,C,D) H 7. Drywell Pressure - High ( C 71-PT-N002A, B, C, D) (C71-PTM-N002A-1,B-1,C-1,D-1) 1, 2(e) 2 6 8. Scram Discharge Volume Water Level - IE) High (C11-LSH-N013A,B,C,D) 1, 2, S 2 5 9. Turbine Stop Valve - Closure 1(8) 4 8 u, 3: (EHC-SVOS-1X,2X,3X,4X) y 10. Turbine Control Valve Fast Closure 1(g) '3 Control Oil Pressure - Low 2 8 (EHC-PSL-1756,1757,1758,1759 11. Reactor Mode Switch in Shutdown 1, 2, 3, 4, 5 1 9 Position (C71A-SI) b 45-12. Manual Scram (C71A-S3A,B) 1, 2,3,4,5 1 10 -C- . ss CD > g E. n .?
TABLE 3.3.1-2 REACTOR PROTECTION SYSTEM RESPONSE TIMES 8g FUNCTIONAL UNIT AND INSTRUMENT NUMBER RESPONSC TIME (Seconds ) ? Q 1. Inte rmediate Range Monitors ( C 51-I RM-K601 A, B, C, D, E, F, G, H) : h a. Neutron Flux - High* NA b. Inoperative NA a 2. Average Power Range Monitor * (CSI-APRM-CH.A,B,C,D,E,F): a. Neutron Flux - High, 15% 10.09 b. Flow Biased Neutron Flux - High NA c. Neutron Flux - High, 1207. 10.09 d. Inoperative NA e. Downscale NA f. LPRM NA M 3. Reactor Vessel Steam Dome Pressure - High (B21-PT-N023A,B,C,D) 100.55 w js (B21-PTM-N023A-1,B-1,C-1,D-1) 4. Reactor Vessel Water Level - Level #1 (B21-LT-N017A-1,B-1,C-1,D-1) <1.05 ( B21-LTM-N017A-1, B-1, C-1, D-1) 3S[ 5. Fbin Steam Line Isolation Valve-Closure (B21-F022A,B,C,D and B21-F028A,B,C,D) <0.06 -Z== -{* 6. Main Steam Line Radiation - High (D12-RM-K603A,B,C,D) NA 7. Drywell Pressure - High 'y @y (C71-PT-N002A,B,C,D) NA p)@ (C 71-PTM-N00 2A-1, B-1, C-1, D-1) 8. Scram Discharge Volume Water Level - High (C11-LSH-N013A,B,C,D) NA 5 9. Turbine Stop Valve - Closure (EHC-SVOS-lX,2X,3X,4X) 10i.06
TABLE 3.3.1-2 (Continued) REACTOR PROTECTION SYSTEM RESPONSE TIFES FUNCTIONAL UNIT AND INSTRUMENT NUMBER RESPONSE TIME (Seconds) 5 Q 10. Turbine Control Valve Fast Closure, Control Oil Pressure - Low (EHC-PSL-1756,1757,1758,1759) (0.08 e 11. Reactor Mode Switch in Shutdown Position (C71A-S1) NA H 12. Manual Scram (C71A-S3A,B) NA M .~ Y C 4 4Y t %) CD U N a i an y
- Neutron detectors are exempt f rom response time tes ting.
Response time shall be measured from detector output or input of first electronic component in channel.
TABL E _4_._3.1 -1 R_EACTOR PROTECTION SYSTEM INSTRUMENTATION SURVEILLANC,E_REQUIRDIENT_S z h CHANNSL OPERATIONAL p FUNCTIONAL UNIT CHANNEL FUNCTIONAL CHANNEL CONDITIONS IN WHICH g) AND INSTRUMENT NUMBER CHECK TEST CALIBRATION SURVEILLANCE REQUIRED C 1. Intermediate Range Monitors: H (C51-IRM-K601 A,B,C,D,E,F,G,H) a. Neutron Flux - High D S/U(b)(c) R 2 D W R 3,4,5 b. Inoperative NA W NA 2,3,4,5 2. Average Power Range Monitor: (CS I-APRM-CH. A, B, C, D, E, F) a. Neutron Flux - High 15% S S/U(b), g(d) Q 2 S W Q 5 b. Flow Biased Neutron Flux-High S S/U(b),y g (e)(f),q y y 3 c. Fixed Neutron Flux - High, 1207. S S/U(b),y g(e),q y w 4 d. Inoperative NA W NA 1, 2, 5 e. Dranscale NA W NA 1 f. LPRM D NA (g) 1, 2, 5 { 3. Reactor Vessel Steam Dome Pressure - High (B21-PT-N023A, B, C, D) NA(k) NA R(1) (321-PTM-N023A-1, B-1, C-1, D-1) D M M 1, 2 CD 4. Reactor Vessel Water Level - Low A Level #1 (B21-LT-N017A-1, B-1, C-1, D-1) NA( ) NA R(1) (B21-LTM-N017A-1, B-1, C-1, D-1) D M M 1, 2 5 5. Main Steam Line Isolation Valve - Closure (B21-F022 A,B,C,D and MS M R(h) B21-F028 A,B,C,D)
TABLE 4.3.1-1_(continued) E' RE ACTOR PROTECTION SYSTEM INSTRUMENTATION SURVEILLANCE REQUIRDENTS U R CHANNEL OPERATIONAL X FUNCTIONAL UNIT CHANNEL FUNCTIONAL CHANNEL CONDITIONS IN WHICH AND INSTRUMENT NUMBER CHECK TEST CALIBRATION (") SURVEILLANCE REQUIRED C 6. Main Steam Line Radiation-High S M(i) R(3) 1, 2 (D12-RM-K603 A, B,C,D) 7. Drywell Pressure - High (C71-PT-N002A, B, C, D) NA(k) NA R(1) (C71-PIM-NO32A-1,B-1,C-1,D-1) D M M 1, 2 8. Scram Discharge Volume Water Level - High NA Q R 1,2,5 (Cil-LSH-N013 A, B, C, D) w 9. Turbine Stop Valve - Closure NA M R(h) 1 3 (EHC-SVOS-lX, 2X, 3X, 4X) 10. Turbine Control Valve Fast closure, Control 011 Pressure-Low (EHC-PSL-1756,1757,1758, NA M R 1 1759) 11. Reactor Mode Switch in Shutdown NA R NA 1,2,3,4, .t:- Position (C71A-SI) .E:=4 12. Manual Scram NA Q NA 1,2,3,4,5 y (C71A-S3A,B) Q{ a. Neutron detectors may be excluded from CHANNEL CALIBRATION. a b. Within 24 hours prior to startup, if not performed within the previous 7 days. g a c. The IRM channels shall be compared to the APRM channels and the SRM instruments for overlap during each startup, if not performed within the previous 7 days. ,5 d. When changing from CONDITION 1 to CONDITION 2, perform the required surveillance within 12 hours after entering CONDITION 2. e. This calibration shall consist of the adjustment of the APRM readout to conform to the power values calculated by a heat balance during CONDITION 1 when THERMAL POWER > 257. of RATED THERMAL POWER.
TABLE 4.3.1-1 (continued) REAC1DR PROTECTION SYSTEM INSTRUMENTATION SURVEILLANCE REQUIRDIENTS m Sn^ f. This calibration shall consist of the adjustment of the APDi flow biased setpoint to conform to a calibrated flow signal. E [ g. The LPRM's shall be calibrated at least once per ef fective full pow 2r month (EFPM) using the TIP system. ~ h. This calibration shall consist of a physical inspection and actuation of these position switches. i. Instrument alignment using a standard current source. J. Calibration using a standard radiation source. k. The transmitter channel check is satisfied by the trip unit channel check. A separate transmitter check is not required. M l. Transmitters are exempted from the monthly channel calibration. Y s Fe 3 g as-a %.m. 2 O i s) CD Ch
TABLE 3.3.2-1 ISOLATION ACTUATION INSTRUMENTATION m W VALVE GROUPS MINIMUM NUMBER APPLICABLE 2 OPERATED BY OPERAELE CHANNELS OPERATIONAL TRIP FUNCTION AND INSTRUMENT NUMBER SIGNAL (a) PER TRIP SYSTEM (b)(c) CONDITION ACTION 1. PRIMARY CONTAINMENT ISOLATION Ey a. Reactor Vessel Water Level - Low 1. Level #1 ( B 21 -LT-N017 A-1, B-1, C-1, D-1) (B21-LTM-N017A-1,B-1,C-1,D-1) 2, 6, 7, 8 2 1,2,3 20 2. Level #2 (B21-LT-N024A-1,B-1,and B21-LT-N025A-1,B-1 (B21-LTM-N024A-1,B-1 and w 3 B21-LTM-N025A-1,B-1) 1, 3 2 1,2,3 20 T' b. Drywell Pressure - High C ( C71-PT-N002 A, B, C, D) (C71-PTM-N002A-1,B-1,C-1,D-1) 2,6,7 2 1, 2, 3 20 c. Main Steam Line -n-41, 1. Radiation - High (d) 1 2 1,2,3 21 -gr (D12-RM-K603A,B,C,D) ' N' 2. Pressure - Low f (B21-PT-N015A,B,C,D) CC) 'd E. (B21-PTM-N015A-1,B-1,C-1,D-1) 1 2 1 22 8 E E
TABLE 3.3.2-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION E VALVE GROUPS MINIMUM NUMBER APPLICABL? U OPERATED BY OPERABLE CHANNELS OPERATIONAL y TRIP FUNCTION AND INSTRUMENT NUMBER SIGNAL (a) PER TRIP SYSTEM (b)(c) CONDITION ACTION 1. PRIMARY CONTAINMENT ISOLATION (Continued) E Q c. Main Steam Line (Continued) 3. Flow - High ( B 21-P DT-N006A, B, C, D; B21-PDT-N007A,B,C,D; B21-PDT-N008A,B,C,D; B21-PUT-N009A,B,C,D) (B21-PDTM-N006A-1,B-1,C-1,D-1; w 3 B21-PUTM-N007A-1,B-1,C-1,D-1; B21-PDTM-N008A-1,B-1,C-1,D-1; 1 2/line 1 22 [ B21-PDTM-N009A-1,B-1,C-1,D-1) d. Main Steam Line Tunnel Temperature - High 1 2(e) 1, 2, 3 21 (B21-TS-N010A, B,C,D; B21-TS-N011A,B,C, D; B21-TS-N012A,B,C,D and B21-TS-N013A,B,C, D) a3, e. Condenser Vacuum - Low 43. (B21-PT-N056A,B,C,D) -yb (B21-PTM-N056A-1,B-1,C-1,D-1) 1 2 1, 2( f) 21 i ss f. Turbine Building Area CC3 Temperature - High 1 4(e) 1, 2, 3 21 CX) g (B21-TS-3225A,B,C,D; B21-TS-3226A,B,C,D; B21-TS-3227A,B,C,D; B21-TS-3228A,B,C,D; g B21-TS-3229A,B,C,D; B21-TS-3230A,B,C, D; B21-TS-3231 A,B,C, D; and B21-TS-3232 A,B,C,D) 5 an .O
TABLE 3.3.2-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION VALVE GROUPS MINIMUM NUMBER APPLICABLE OPERATED BY OPERABLE CilANNELS OPERATIONAL y TRIP FUNCTION AND INSTRUMENT NUMBER SIGNAL (a) PER TRIP SYSTEM (b)(c) CONDITION ACTION E X 2. SECONDARY CONTAINMENT ISOLATION e a. Reactor Building Exhaust y Radiation - liigh 6 1 1, 2, 3, 5 and
- 23 (D12-RM-N010A,B) r.
b. Drywell Pressure - High ( C 71 - PT-N002 A, B, C, D) ( C 71-PTM-N002 A-1, B-1, C-1, D-1) 2,6,7 2 1, 2, 3 23 c. Reactor Vessel Water Level - Low, Level #2 (B21-LT-N024A-1,B-1 and t' B21-LT-N025A-1,B-1) ,n (B21-LTM-N024A-1,B-1 and u, B21-LTM-N025A-1,B-1) 1, 3 2 1,2,3 23 3. REACTOR WATER CLE ANUP SYSTEM ISOLATION a. A Flow - liigh 3 1 1,2,3 24 -^ (G31-dFS-N603-1A,1B) d** b Area Temperature - liigh 2 1,2,3 24 ~ (G31-TS-N600A, B, C, D,E, F) ~ Area Ventilation A Temp. - High 3 2 1, 2, 3 24 c. y ( G31-TS-N 602 A, B, C, D, E, F) , s, C3 d. SLCS Initiation (C41A-SI) 3(g) NA 1, 2, 3 24 si) e. Reactor Vessel Water Level - Low, Level #2 (B21-LT-N024A-1,B-1 and B21-LT-N025A-1,B-1) (B21-LTM-N024A-1,B-1 and B21-LTM-N025A-1,B-1) 1, 3 2 1,2,3 24
TABLE 3.3.2-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION VALVE GROUPS MINIMUM NUMBER APPLICABLE g OPERATED BY OPERABLE CHANNELS OPERATIONAL TRIP FUNCTION AND INSTRUMENT NUMBER SIGNAL (a) PER TRIP SYSTEM (b)(c) CONDITION ACTION E X 4. CORE STANDBY COOLING SYSTEMS ISOLATION I g a. High Pressure Coolant g Injection Isolation 1. HPCI Steam Line Flow - High (E41-PDT-N004 and E41-PDT-N005) (E41-PDTM-N004-1 and 4 2 1,2,3 25 E41-PDTM-N005-1) (E41-PDTS-N004-2 and E41-PDTS-N005-2) 3 2. HPCI Steam Supply Pressure - y Low (E41-PSL-N001A,B,C,D) 4 2 1, 2, 3 25 C 3. HPCI Steam Line funnel Temperature - High 4 2 1,2,3 25 (E41-TS-3314; E41-TS-3315; E41-TS-3316; E41-TS-3317; E41-TS-3318; E41-TS-3354; E41-TS-3488 and E41-TS-3489) 4. Bus Power Monitor NA(h) 1/ bus 1, 2, 3 26 42= (E41-K55 and E41-K56) 4 ~k 5. HPCI Turbine Exhaust I Diaphragm Pressure - High 4 2 1,2,3 25 b2Ik (E41-PSH-N012A,B,C,D) C:) Rc 6. HPCI Steam Line Ambient Temperature - High 4 2 1,2,3 25 ,o (E5i-TS-N603C,D)
TABLE 3.3.2-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION VALVE GROUPS MINIMUM NUMBE APPLICABLE OPERATED BY OPERABLE CHANNEUS OPERATIONAL TRIP PUNCTION AD INSTRUMENT NUMBER SIGNAL (a) PER TRIP SYSTEM (b)(c) CONDITION ACTION E 4. CORE STANDBY COOLING SYSTEMS ISOLATION (Continued) U a. High Pressure Coolant Injection Isolation (Continued) 4 2 1, 2, 3 25 7. HPCI Steam Line Area A Temp. High ( E 51-dTS-N604C, D) 8. Emergency Area Cooler Tempe ra ture - High 4 2 1, 2, 3 25 (E41-TS-N002A,B) w 3 Y C> Jd-g -fi e S .vg __.g
TABLE 3.3.2-1 3ntinued) ISOLATION ACTUATION INSTRUMENTATION VALVE GROUPS MINIMUM NUMBER APPLICABLE g OPERATED BY OPERABLE CHANNELS OPERATIONAL g TRIP FUNCTION AND INSTRUMENT NUMBER SIGNAL (a) PER TRIP SYSTEM (b)(c) CONDITION ACTION g 7: i b. Reactor Core Isolation g Cooling System Isolation U 1. RCIC Steam Line Flow - High ~ (E51-PDT-N017 and E51-PDT-N018) (E51-PUTM-N017-1 and 5 2 1,2,3 25 E51-PUIM-N018-1) (E51-PDTS-N017-2 and E51-PDTS-N018-2) 2. RCIC Steam Supply Pressure - Low (E51-PS-N019A,B,C,D) 5 2 1,2,3 25 3. RCIC Steam Line Tunnel Temperature - High 5 2 1,2,3 25 (E51-TS-3319; E51-TS-3320; E51-TS-3321; E51-TS-3322; E51-TS-3323; E51-TS-3355 and E51-TS-3487) 4. Bus Power Monitor NA(h) 1/ bus 1, 2, 3 26 (E51-K42 and E51-K43) 5. RCIC Turbine Exhaust Diaphragm Pressure - High 5 2 1,2,3 25 (E51-PS-N012A,B,C,D) O E. 6. RCIC Steam Line Ambient Temp - High 5 2 1, 2, 3 25 S (E51-TS-N603A,B) ~Y E p 7. RCIC Steam Line Area A Temp - High 5 2 1,2,3 25 (E51-dTS-N604A,B) N 8. RCIC Equipment Room Ambient Temp - High (E51-TS-N602A,B) 5 2 1,2,3 25 9. RCIC Eculpment Room A Temp - High 5 2 1,2,3 25 (E51-dTS-N601A,B)
TABLE 3.3.2-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION VALVE GROUPS MINIMUM NUMBER APPLICABLE OPERATED BY OPERABLE CilANNELS 0.PE RATIONAL ps TRIP FUNCTION AND INSTRUMENT NUMBER SIGNAL (a) PER TRIP SYSTEM (b)(c) CONDITION ACTION r. 5. SHUTiXVeN COOLING SYSTEM ISOLATION Ey a. Reactor Vessel Water - Low, Level #1 (B21-LT-N017A-1,B-1,C-1,D-1) (B21-LTM-N017A-1,B-1,C-1,D-1) 2,6,7,8 2 3, 4, 5 25 b. Reactor Steam Dome Pressure - High 7, 8 1 1,2,3 27 (B32-PS-N018A,B) ti n Y C' y g a=. g am. ~$ Z
- 4. NJ
,o u
TABLE 3.3.2-2 ISOLATION ACTUATION INSTRUMENTATION SETPOINTS ,x E ALLOWABLE TRIP FUNCTION AND INSTRUMENT NUMBER TRIP SETPOINT VALUE E 1. PRIMARY CONTAINMENT _ ISOLATION E a. Reactor Vessel Water Level - Low U l. Level #1 (B21-LDi-N017A-1, B-1, C-1, D-1) > +12.5 inches > + 12.5 inches 2. Level #2 (B21-LTM-N024A-1, B-1 and > -38 inches > - 38 inches B21-Lni-N025A-1, B-1) b. Drywell Pressure - High 5 2 psig i 2 psig (C71-PTM-N002A-1,B-1,C-1,D-1) I c. Main Steam Line 1. Radiation - 111gh (D12-RM-K603 A, B, C, D) $ 3 x full power background 1 3.5 x full power background 2. Pressure - Low > 825 psig 2 825 psig g (B21-PD!-N015A-1, B-1, C-1, D-1) l 3. Flow - liigh i 1407,of rated flow 1 1407. of rated 1 (B21-PDTM-N006A-1, B-1, C-1, D-1; B21-PDTM-N007A-1, B-1, C-1, D-1; flow B21-PDDI-N008A-1, B-1, C-1, D-1; B21-PDTM-N009A-1, B-1, C-1, D-1) N d. Main Steam Line Tunnel Temperature - liigh < 200 F $ 200 F (B21-TS-N010 A, B, C, D; B21-TS-N0ll A, B, C, D; B21-TS-N012 A, B, C, D; and,",21-TS-N013 A, B, C, D) e. Condenser Vacuum - Low 2 7 inches lig Vacuum > 7 inches IIg .p-(B21-PTM-N056A-1, B-1, C-1, D-1) l vacuum f. Turbine Duilding Area Temp. - liigh 1 200 F 1 200 F g (B21-TS-3225 A, B, C, D; B21-TS-3226 A, B, C, D; B21-TS-3227 A, B, C, D; '] B21-TS-3228 A, B, C, D; B21-TS-3229 A, B, C, D; B21-TS-3230 A, B, C, D; B21-TS-3231 A, B, C, D and B21-TS-3232 A, B, C, D) p 5
TABLE 3.3.2-2 (Continued) E ISOLATION ACTUATION INSTRUMENTATION SETPOINTS E AllIL'ABLE E TRIP FUNCTION AND INSTRUMENT NUMBER TRIP SETPOINT VALUE 7; 2. SECONDARY CONTAINMENT ISOLATION e U a. Reactor Building Exhaust Radiation - High < 11 mr/hr i l? mr/hr (D12-RM-N010 A, B) b. Drywell Pressure - High $ 2 psig i 2 psig (C71-FIM-5002A-1, B-1, C-1, D-1) c. Reactor Vessel Water Level - Low, Level #2 > -38 inches > -38 inches (B21-LDf-N024A-1, B-1 and B21-Lni-5025A-1, B-1) I g 3. REACTOR WATER CLEANUP SYSTE'! ISOLATION O y a. 6 Flow - High $ 53 gal / min 1 53 gal / min g (G31-dFS-N603-1A, IB) b. Area Temperature - High $ 150 F < 150 F (G31-TS-N600A, B, C, D, E, F) c. Area Ventilation Temperature A Temp - High 5 50 F 5 50 F (G31-TS-N602A, B,C, D, E, F) d. SLCS Initiation (C41A-S1) NA NA f e. Reactor Vessel Water - Low, Level #2 > -38 inches > -38 inches g3 (B21-LDi-N024A-1, B-1 and B21-LDi-5025A-1, B-1) l ! 4 o O W
TABLE 3.3.2-2 (continued) f ISOLATION ACTUATION INSTRUMENTATION SETPOINTS z E ALLOWABLE E TRIP FUNCTION AND INSTRUMENT NUMBER TRIP SETPOINT VALUE X 4. CORE STANDBY COOLING SYSTEMS ISOLATION E [ a. High Pressure Coolant Injection Isolatica 1. HPCI Steam Line Flow - High < 300% of rated flow < 3007. of rated (E41-PDTM-N004-1 and E41-PDIM-N005-1) flow (E41-PDTS-N004-2 and E41-PDTS-N005-2) 2. HPCI Steam Supply Pressure - Low 2 100 psig 3,100 psig (E41-PSL-N001A, B, C, D) 3. HPC1 Steam Line Tunnel Temperature - High < 200 F $ 2000 F y, (E41-TS-3314; E41-TS-3315; E41-TS-3316; E41-TS-3317; c' E41-TS-3313; E41-TS-3354; E41-TS-3488 and E41-TS-3489) Y;; 4. Bus Power Monitor NA NA (E41-K55 and E41-K56) 5. HPCI Turbine Exhaust Diaphragm Pressure-High i 10 psig < 10 psig (E41-PSH-N012A, B, C, D) 6. HPCI Steam Line Ambient Temp. - High < 200 F $ 200 F (E51-TS-N603C, D) 7. g-- HPCI Steam Line Area 6 Temp. - High 1 50 F 1 50 F (E51dTS-N604C, D) m E 43-(E51-dTS-N604C, D) g 42-5- 8. Emergency Area Cooler Temp. - High 5 175 F i 175 F g: (E41-TS-N602A, B)
TABLE 3.3.2-2 (continued) E gj IS01ATION ACTUATION INSTRUMENTATION SETPOINTS 2 ALLOWABLE s O TRIP FUNCTION AND INSTRUMENT NUMBER TRIP SETPOINT VALUE gj b. Reactor Core Isolation Cooling System Isolation U l. RCIC Steam Line Flow - High < 3007. of rated flow 1303% of rated (E51-PDIM-N017-1 and E51-PDIM-N018-1) flow (E51-PDTS-N017-2 and E51-PDTS-N018-2) 2. RCIC Steam Supply Pressure - Low > 50 psig > 50 psig (E51-PS-N019A, B, C, D) 3. RCIC Steam Line Tunnel Temp. - High 1 175 F $ 175 F (E51-TS-3319; E51-TS-3320; E51-TS-3321; E51-TS-3322; E51-TS-3323; E51-TS-3355 and E51-TS-3487) u, A 4. Bus Power Monitor NA NA u, J, (E51-K42 and E51-K43) o 5. RCIC Turbine Exhaust Diaphragm Pressure - High (E51-PS-N012A, B, C, D) i 10 psig i 10 psig 6. RCIC Steam Line Ambient Temp. - High < 200 F 1 200 F (E51-TS-N603A, B) 0 7. RCIC Steam Line Area a Temp. - High 1 50 F 1 50 F (E51-dTS-N604A, B) II g 8. RCIC Equipment Room Ambient Temp. - High i 175 F i 175 F (E51-TS-N602A, B) o su _f 9. RCIC Equipment Room 6 Temp. - High i 50 F $ 50 F y (E51-dTS-N601A, B) r> a
TABLE 3.3.2-2_(continued) Ey ISOLATION ACTUATION INSTRUMFJ[AHON SETPOINT3 c E ALLOWABLE TRIP FUNCTION AND INSTRUMENT NUMBE_R TRIP SETPOINT VALUE E 5. SilUTDOWN COOLING SYSTEM ISOLATION a. Reactor Vessel Water - Low, Level #1 1 +12.5 inches 2 +12.5 inches (B21-LTM-N017A-1, B-1, C-1, D-1) b. Reactor Steam Dome Pressure - liigh i 140 psig i 140 psig (B32-PS-N018A, B) M> M c. a a D iv C .O
TABLE 3.3.2.-3 ISOLATION SYSTEM RESPONSE TIME TRIP FUNCTION AND INSTRUMENT NUMBER RESPONSE TIME (Seconds) 1. PRIMARY CONTAINMENT ISOLATION a. Reactor Vessel Water Level - Low 1. Level #1 ( B21-LT-N017 A-1, B-1, C-1,. D-1) (B21-LTM-N017A-1,B-1,C-1,D-1) <13 2. Level #2 (B21-LT-N024A-1,B-1 and B21-LT-N025A-1,B-1) (B21-LTM-N024A-1,B-1 and B21-LTM-N025A-1,B-1) 11.0** b. Drywell Pressure - Hig h (C71-PT-N002A,B,C,D) (C71-PTM-N002A-1,B-1,C-,0-1) 113 c. Main Steam Line 1. Fadiation - High* 11.0** (D12-RM-K603A,B,C,D) 2. Pressure - Low (B21-PT-N015A,B,C,D) (B21-PTM-N015A-1,B-1,C-1,D-1) 113 3. Flow - High (B21-PDT-N006A,B,C,D; B21-PDT-N007A,B,C,D; B21-PDT-N008A,B,C,D; B21-PDT-N009A,B,C,D) B21-PUIM-N006A-1, B-1, C-1, D-1 ; B 21-P DTM-N007 A-1, B-1, C-1, D-1 ; B 21-P DTM-N008 A-1, B-1, C-1, D-1 ; 10.5** B21-P DTM-N009 A-1, B-1, C-1, D-1) d. Main Steam Line Tunnel Temperature - High 113 ( B21-TS-N010A, B, C, D; B21-TS-N011 A, B, C, D; B21-TS-N012 A, B,C, D; and B21-TS-N013A, B,C, D) e. Condenser Vacuum - Low 'B21-PT-N056A,B,C,D) (B21-PTM-N056A-1,B-1,C-1,D-1) <13 144'r ?I 9 BRUNSWICK - UNIT 1 3/4 3-22 Amendment No.
TABLE 3.3.2-3 (Continued) ISOLATION SYSTEM RESPONSE TIME TRTP FUNCTION AND INSTRUMENT NUMBER RESPONSE TIME (Seconds) 1. PRIMARY CONTAINNENT ISOLATION (Continued) f. Turbine Building Area Temperature - High NA ( B21-TS-3225A, B, C, D; B21-TS-32 26 A, B,C, D; B21-TS-3227A,B,C,D; B21-TS-3228A,B,C,D; B21-TS-3229A,B,C,D; B21-TS-3230A,B,C,D; B21-TS-3231A,B,C,D; B21-TS-3232A,3,C,D) 2. SECONDARY CONTAINMENT ISOLATION a. Reactor Building Exhaust Radiation - High * <13 ( D12-RM-NS10A, B) b. Drywell Pressure - High (C71-PT-N002A,B,C,D) (C71-PTM-N002A-1,B-1,C-1,D-1) 1'13 c. Reactor Vessel Water Level - Low, Level #2 (B21-LT-N024A-1,B-1 and B21-LT-N025A-1,B-1) (B21-LTM-N024A-1,B-1 and B21-LTM-N025A-1,B-1) <1.0** 144'r ?20 BRUNSWICK - UNIT 1 3/4 3-22A Amendment No.
TABLE 3.3.2-3 (Continued) ISOLATION SYSTEM RESPONSE TIFE TRIP FUNCTION AND INSTRUMENT NUMBER RESPONSE TIME (Seconds) 3. REACTOR WATER CLEANUP SYSTEM ISOLATION a. /h Flow - High G31-dFS N603-1A,1B) <13 b. Area Temperature - High <13 ( G31-TS-N600A, B, C, D, E, F) c. Area Ventilation Temperature /1 T - High <13 ( G31-TS-N602 A, B, C, D, E, F) d. SLCS Initiation (C41A-S1) NA e. Reactor Vessel Water - Low, Level #2 (B21-LT-N024A-1,B-1 and B21-LT-N025A-1,B-1) B21-LTM-N024A-1,B-1 and B21-LTM-N025A-1,B-1) <1.0** 4. CORE STANDBY COOLING SYSTEMS ISOLATION a. High Pressure Coolant Injection Isolation
- 1. HPCI Steam Line Flow - High (E41-PDT-N004 and E41-PDT-N005)
(E41-PDTM-N004-1 and E41-PDTM-N005-1) < 13 (E41-PDTS-N004-2 and E41-PDTS-N005-2) 2. HPCI Steam Supply Pressure - Low <13 (E41-PSL-N001A,B,C,D) 3. HPCI Steam Line Tunnel Temperature - High $13 (E41-TS-3314; E41-TS-3315; E41-TS-3316; E41-TS-3317; E41-TS-3318; E41-TS-3354; E41-TS-3488 and E41-TS-3489) 4. Bus Power Monitor (E41-K55 and E41-K56) NA 5. HPCI Turbine Exhaust Diaphragm Pressure - High NA (E41-PSH-N012A,B,C,D) 6. HPCI Steam Line Ambient Temperature - High NA (E51-TS-N603C,D) 7. HPCI Steam Line Area /1 Temp - High NA ( E51-dTS-1604C, D) 8. Emergency Area Cooler Temperature - High NA (E41-TS-602A, B) } 4 4'I 2_ l BRUNSWICK - UNIT 1 3/4 3-23 Amendment No.
TABLE 3.3.2-3 (Contiaued) ISOLATION SYSTEM RESPONSE TIME TRIP FUNCTION AND INSTRUMENT NUMBER RESPONSE TIFE (Seconds) b. Reactor Core Isolation Cooling System Isolation 1. RCIC Steam Line Flow - liigh (E51-PDT-N017 and E51-PDT-N018) (E51-PUTM-N017 A-1 and E51-PDTM-N018A-1) NA (E51-PDTS-N017A-2 and E51-PDTS-N018A-2) 2. RCIC Steam Supply Pressure - Low NA (E51-PS-N019A,B,C,D) 3. RCIC Steam Line Tunnel Temp - liigh NA (E51-TS-3319; E51-TS-3320; E51-TS-3321; E51-TS-3322; E51-TS-3323; E51-TS-3355 and E51-TS-3487) 4. Bus Power Monitor (E51-K42 and E51-K43) NA 5. RCIC Turbine Exhaust Diaphram Pressure - liigh NA (E51-PS-N012A,B,C,D) 6. RCIC Steam Line Ambient Temperature - liigh NA (E51-TS-N603A,B) 7. RCIC Steam Line Arca o Temp - High NA (E51-dTS-N604A,B) 8. Emergency Area Cooler Temperature - liigh NA (E51-TS-N602A,B) 9. RCIC Equipment Room A Temp - High NA (E51-dTS-N601A,B) 5. SilUTDOWN COOLING SYSTEM ISOLATION a. Reactor Vessel Water Level - Low, Level #1 (B21-LT-N017A-1,B-1,C-1,D-1) NA ( B21-LTM-N017 A-1, ll-1, C-1, D-1 ) b. Reactor Steam Dome Pre s su re - liigh NA (B32-PS-N018A,B) . Radiation monitors are exempt from response time testing. Response time 'shall be measured f rom detector output or the input of the first electronic component in che channel. }}}
- Isolation actuation instrumentation response time only, e
BRUNSWICK - UNIT 1 3/4 3-24 Amendment No.
TABLE 4.a.2-1 ISOLATION ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREMENTS CHANNEL OPERATIONAL CHANNEL FUNCTIONAL CHANNEL CONDITIONS IN WHICH y g TRIP FUNCTION AND INSTRUMENT NUMBER CHECK TEST CALIBRATION SURVEILLANCE REQUIRED 7: l. PRIMARY CONTAINMENT ISOLATION Ey a. Reactor Vessel Water Level - Low 1. Level #1 Q) R(b) (B21-LT-N017A-1,B-1,C-1,D-1) NA NA ( B21-LTM-N017 A-1, B-1, C-1, D-1) D M M 1, 2, 3 2. Level #2 (B21-LT-N024A-1,B-1 and NA(a) NA R(b) B21-LT-N025A-1,B-1) (B21-LTM-N024A-1,B-1 and D M M 1, 2, 3 B91-LTM-N025A-1,B-1) b. Drywell Pressure - High ) R(b) ( C 71-l'E-N002 A, B, C, D) NA NA (C71-PTM-N002A-1,B-1,C-1,D-1) D M M 1, 2, 3 w 0 c. Main Steam I.ine 1. Radiation - High (D12-RM-K603A,B,C,D) D W R 1, 2, 3 2. Pressure - Low ) ( B 21 -PT-N015 A, B, C, D) NA(a) NA R (B21-PTM-N015A-1,B-1,C-1,D-1) D M M 1 3. Flow - High ( b21-PIrr-N006 A, B, C, D; NA NA R 7 B21-PDT-N007A,B,C,D; B21-PIJr-N008A, B, C, D; A B21-PDT-N009A,B,C,D) o (B21-PDTM-N006A-1,B-1,C-1,D-1; D M M 1 g B21-PDTM-N007 A-1, B-1, C-1, D-1; Q B21-PITEM-N008 A-1, B-1, C-1, D-1 ; B21-PIrrM-N009A-1, B-1, C-1, D-1) u
TABLE 4.3.2.-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREMENTS E CHANNEL OPERATIONAL g CHANNEL FUNCTIONAL CHANNEL CONDITIONS IN FHICH g TRIP FUNCTION AND INSTRUMENT NUFEER CHECK TEST CALIBRATI ON SURVEILLANCE REQUIRED n i 1. PRIMARY CONTAINSENT ISOLATION (Continued) E d. Main Steam Line Tunnel Temperature - High NA M R 1,2,3 (B21-TS-N010A,B,C,D; B21-TS-N011A,B,C,D; B21-TS-N012A,B,C,D and B21-TS-N013A,B,C,D) e. Condenser Vacuum - Low R(b) NA(a) NA (B21-PT-N056A,B,C,D) (B21-PTM-N056A-1,B-1,C-1,D-1) D M M 1, 2# f. Turbine Building Area Temp - High NA M R 1, 2, 3 (B21-TS-3225A,B,C,D; B21-TS-3226A,B,C,D; B21-TS-3227A,B,C,D; B21-TS-3228A,B,C,D; B21-TS-3229A,B,C,D; B21-TS-3230A,B,C,D; B21-TS-3231A,B,C,D and B21-TS-3232A,B,C,D) S Y 5> 4 4 ~~k a j i ss a rsa 42= n E
- When reactor steam pressure >500 psig.
TABLE 4.3.2.-l (Continued) ISOLATION ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREFENTS m E CHANNEL OPERATIONAL si CHANNEL FUNCTIONAL CHANNEL CONDITIONS IN WilICll $ TRIP FUNCTION AND INSTRUFENT NUMBER CHECK TEST CALIBRATION SURVEILLANCE REQUIRED 2. SECONDARY CONTAINMENT ISOLATION c a. Reactor Building Exhaust H Radiation - High D M R 1, 2, 3, 5 and * (D12-RM-N010A,B) b. Drywell Pressure - liigh R(b ) (C71-PT-N002A,B,C,D) NA(a) NA (C71-FIM-N002A-1,B-1,C-1,D-1) D M M 1, 2, 3 c. Reactor Vessel Water Level - Low, Level #2 ) l (B21-LT-N024A-1,B-1 and NA,) NA R u, 3: B21-LT-N025A-1,B-1) (B21-LTM-N024A-1,B-1 and D M M 1,2,3 B21-LTM-N025A-1,B-1) u, 3. REACTOR WATER CLEANUP SYSTEM ISOLATION a. A Flow - High D M R 1, 2, 3 (G31-dFS-N603-1A,lB) n 41= b. Area Temperature - liigh NA M R 1, 2, 3 -4f ( G31-TS-N604 A, B, C, D,E, F) I m ' [j @. c. Area Ventilation A Temp - g High (G31-TS-N602A,B,C,D,E,F) NA M R 1, 2, 3 ty, y
- When handling irradiated fuel in the secondary containment.
TABLE 4.3.2-1 (cantinued) ISOLATION ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREMENTS CHANNEL OPERATIONAL CHANNEL FUNCTIONAL CHANNEL CONDITIONS IN WHICH TRIP FUNCTION AND INSTRUhENT NUMBER CHECK TEST CALIBRATION SURVEILLANCE REQUIRED R* 3. REACTOR WATER CLEANUP SYSTEM ISOLATION (continued) z Q d. SLCS Initiation (C41A-SI) NA R NA 1, 2, 3 e. Reactor Vessel Water Level - Low, Level #2 (B21-LT-N024A-1,B-1 and NA(" NA R(b) B21-LT-N025A-1,B-1) (B21-LTM-N024A-1,B-1 and D M M 1,2,3 B21-LTM-N025A-1,B-1) W. a> k 8 i dr" -4.F ~ Ch
TABLE 4. 3. 2-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREFENTS CHANNEL OPERATIONAL y CHANNEL FUNCTIONAL CHANNEL CCONDITIONS IN WHICH p; TRIP FUNCTION AND INSTRUMENT NUMBER CHECK TEST CALIBRATION SURVEILLANCE REQUIRED n 4. CORE STANDBY COOLING SYSTEMS ISOLATION Ey a. High Pressure Coolant Injection Isolation 1. HPCI Steamline Flow - High (E41-PDT-N004 and E41-PDT-N005) NA(#} NA R( } (E41-PUIM-N004-1 and E41-PUIM-N005-1) D M M 1,2,3 (E41-PDTS-N004-2 and E41-PDTS-N005-2) 2. HPCI Steam Supply Pressure - u, 3: Low NA M R 1,2,3 (E41-PSL-N001A,B,C,D) 3. HPCI Steamline Tunnel u,;; Temperature - High NA M Q 1, 2, 3 (E41-TS-3314; E41-TS-3315; E41-TS-3316; E41-TS-3317; E41-TS-3318; E41-TS-3354; E41-TS-3488 and E41-TS-3489) 4. Bus Power Monitor NA R NA 1,2,3 (E41-K55 and E41-K56) 5. HPCI Turbine Exhaust Diaphragm Pressure - High NA M Q 1,2,3 (E41-PSH-N012A,B,C,D) 6. HPCI Steam Line Ambient Temp - High NA M R 1,2,3 f (E 51-TS-N603C, D) g, 7. HPCI Steam Line Area _p, A Temp - High NA M R 1,2,3 g 3 _qy (E51-dTS-N604C,D) D 8. Emergency Area Cooler z .o iv Temp - High NA M Q 1, 2, 3 PN) (E41-TS-N602A,B) N
TABLE 4.3.2-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREMENTS Eg CHANNEL OPERATIONAL y CHANNEL FUNCTIONAL CHANNEL CONDITIONS IN WHICH g TRIP FUNCTION AND INSTRUMENT NUMBER CHECK TEST CALIBRATION SURVEILLANCE REQUIRED 7: e b. Reactor Core Isolation g Cooling System Isolation U RCIC Steamline Flow - High 1. (E51-PDT-N017 and E51-PITI-N018) NA(a) NA R(b) g (E51-PDTM-N017A-1 and E51-PDTM-N018A-1) D M M 1,2,3 (E51-PDTS-N017A-2 and E51-PDTS-N018A-2) 2. RCIC Steam Supply Pressure - Low NA M Q 1,2,3 (E51-PS-N019A,B,C,D) 3. RCIC Steamline Tunnel High Temperature NA M R 1, 2, 3 (E51-TS-3319; E51-TS-3320; E51-TS-3321; E51-TS-3322; E51-TS-3323; s ESI-TS-3355 and E51-TS-3487) 4. Bus Power Monitor NA R NA 1, 2, 3 (E51-K42 and E51-K43) 5. RCIC Turbine Exhaust Diaphragm Pressure - High NA M R 1,2,3 (E51-PS-N012A,B,C,D) 6. RCIC Steam Line Ambient Temp - High NA M R 1, 2, 3 (E51-TS-N603A,B) 4 7. RCIC Steam Line Area f A A Temp - High NA M R 1,2,3 { g (E51-dTS-N604A,B) g 8. RCIC Equipment Room Ambient Temp - High NA M Q 1, 2, 3 c 'v N (E51-TS-N602A,B) 5 9. RCIC Equipment Room A Tcmp - High NA M Q 1, 2, 3 (E51-dTS-N601A,B)
TABLE 4.3.2-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREMENTS CHANNEL OPERATIONAL y CHANNEL FUNCTIONML CHANNEL CONDITIONS IN WHICH p; TRIP FUNCTION AND INSTRUMENT NUMBER CHECK TEST CALIBRATION SURVEILLANCE REQUIRED n 5. SHUTDOWN COOLING SYSTEM ISOLATION Ey a. Reactor Vessel Water - Low, Level #1 ( B21-LT-N017 A-1, B-1, C-1, D-1) NA(,) ) NA R (B21-LTM-N017A-1,B-1,C-1,D-1) D M M 3,4,5 b. Reactor Steam Dome Pressure High (B32-PS-N018A,B) NA S/U*, M R 1,2,3 Mv Y
- If not performed within the previous 31 days.
(a) The transmitter channel check is satisfied by the trip unit channel check. A separate transmitter check is not re qui re d. (b) Transmitters are exempted f rom the monthly channel calibration. I a 43. 45. n r . ~s NW
TABLE 3.3.3-1 g EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION Ey MINIMUM NUMBER APPLICABLE pi OPERABLE CHANNELS OPERATIONAL 7 TRIP FUNCTION AND INSTRUMENT NUMBER PER TRIP SYSTEM CONDITIONS Ey 1. CORE SPRAY SYSTEM a. Reactor Vessel Water Level - Low, Level #3 (B21-LT-NO31A, B, C, D) (B21-LTS-NO31 A-3, B-3, C-3, D-3 ; 321-LTS-NO31A-4, 2 1,2,3,4,5 B-4, C-4, D-4) b. Reactor Steam Dome Pressure - Low (Injection Permissive) (B21-PT-N021A, B, C, D) (B21-PIM-N021A-1, B-1, C-1, D-1) 2 1,2,3,4,5 (B21-PTS-N021A-2, B-2, C-2, D-2) Mo c. Drywell Pressure - High (Ell-PT-N0llA, B, C, D) us d2 (E11-PTM-N0llA-1, B-1, C-1, D-1) 2 1,2,3 b) (E11-PTS-N0llA-2, B-2, C-2, D 2) d. Time Delay Relay 1 1,2,3,4,5 e. Bus Power Monitor #(E21-KlA, B) 1/ bus 1,2,3,4,5 2. LPCI MODE OF RHR SYSTEM a. Drywell Pressure - High (Ell-PT-N0llA, B, C, D) i __, (Ell-PTM-NollA-1, B-1, C-1, D-1) 2 1, 2, 3 m Q 45 h b. Reactor Vessel Water Level - Low, Level #3 (B21-LT-NO31A, B, C, D) E ' '} (B21-LTS-NO31A-3, B-3, C-3, D-3) 2 1,2,3,4*5* ' jj (B21-LTS-NO31A-4, B-3, C-3, D-3)
- Not applicable when two core spray system subsystems are OPERABLE per Spec;#iration 3.5.3.1.
- Alarm Only. When inoperable, verify power availability to the b;s at lea a per 12 hours.
TABLE 3.3.3-1 (continued) Ez EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION h MINIMUM NUMBER APPLICABLE OPERABLE CIIANNELS OPERATIONAL TRIP FUNCTION AND INSTRUMENT NUMBER _ PER TRIP SYSTEM CONDITIONS H 2. LPCI MODE OF RllR SYSTEM (continued) c. Reactor Vessel Shroud Level (Drywell Spray Permissive) (B21-LT-NO36 and B21-LT-NO37) (B21-LTM-N036-1 and B21-LTM-N037-1) 1 1, 2, 3, 4*, 5* d. Reactor Steam Dome Pressure - Low (Injection Per-missive) (B21-PT-N021A, B, C, D) (B21-PIM-N021A-1, B-1, C-1, D-1) (B21-PTS-N021A-2, B-2, C-2, D-2) h 1. RilR Pump Start and LPCI Injection Valve Actuation 2 1, 2,'3, 4*, 5* 2. Recirculation Loop Pump Discharge Valve Actuation 2 1, 2, 3, 4*, 5* u, Oy e. RllR Pump Start - Time Delay Relay 1 1, 2, 3, 4*, 5* f. vis Power Monitor # (E11-K106A, B) 1/ bus 1, 2, 3, 4*, 5* I
- Not applicable when two core spray sy stem subsystems are OPERABLE per Specification 3.5.3.1.
- Alarm only. When inoperable, verify power availability to the bus at least once per 12 hours.
~-' o 43-45= =( x .o i ss U
TABLE 3.3.3-1 (continued) en EMERGENCY CORE COOLING SYSTDI ACTUATION INSTRUMENTATION
- o Eq MINIMUM NUMBER APPLICABLE h
OPERABLE CIIANNELS OPERATIONAL TRIP FUNCTION AND Ifh>TRUMENT NUMBER PER TRIP SYSTDI CONDITIONS 3. HPCI SYSTDI d a. Reactor Vessel Water Level - Low, Level #2 ~ (B21-LT-NO31A, B, C, D) (B21-LTM-NO31A-1, B-1, C-1, D-1; B21-LTS-NO31A-2, 2 1,2,3 B-2, C-2, D-2) b. Drywell Pressure - High (Ell-PT-NollA, B, C, D) (E11-PIM-N0llA-1, B-1, C-1, D-1, Ell-PTS-N011A-2, 2 1,2,3 B-2, C-2, D-2) c. Condensete Storage Tank Level-Low ** (E41-LS-N002, NA* 1,2,3 E41-LS-N003) O u d. Suppression Chamber Water Level-High** (E41-LSH-N015A, B) NA* 1, 2, 3 e. ilus Power Monitor # (E41-K55 and E41-K56) 1/ bus 1, 2, 3 4. ADS a. Drywell Pressure - High, coincident with (Ell-PT-N010A, B, C, D) 2 1, 2, 3 (Ell-PTM-N010A-1, B-1, C-1, D-1) 4 I k b. Reactor Vessel Water Level - Low, Level #3 g (B21-LT-NO31A, B, C, D) 2 1,2,3 g (B21-LTS-NO31A-3, B-3, C-3, D-3; B21-LTS-NO31A-4, B-4, C-4, D-4) W z N
- Alarm only. When inoperable, verify power availability to the bus at least once per 12 hours.
- When eit..er channel of the automatic transfer logic is inoperable, align HPCI pump suction to the suppression pool.
- Provides signal to HPCI pump suction valves only.
TABLE 3.3.3-1 (continued) E EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION MINIMUM NUMBER APPLICABLE E OPERABLE CllANNELS OPERATIONAL W TRIP FUNCTION AND INSTRUMENT NUMBER PER TRIP SYSTEM CONDITIONS 8 E 4. ADS (continued) U r. c. ADS Timer (B21-TDPU-KSA, B) 1 1,2,3 d. Core Spray Pump Discharge Pressure - Iligh (Permissive) 2 1,2,3 (E21-PS-N008A, B and E21-PS-N009A, B) RHR (LPCI Mode) Pump Discharge Pressure - liigh (Per-e. missive) 2/ pump 1,2,3 (Ell-PS-N016A, B, C, D and E11-PS-N020A, B, C, D) f. Bus Power Monitor # (B21-KlA, B) 1/ bus 1, 2, 3 M n Y d> m 5. an. o .42=
- Alarm only. When inope rab l e, verify power availability to the bus at least once per 12 hours.
~ { 2 O i %> 'A
TABLE 3.3.3-2 5 EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION SETPOINTS 5 U ALLOWABLE f TRIP FUNCTION AND INSTRUJME T NUMBER TRIP SETPOINT VALUE 1. CORE SPRAY SYSTEM z [ a. Reactor Vessel Water Level - Low, Level #3 > -147.5 inches > -147.5 inches (B21-LTS-NO31A-3, B-3, C-3, D-3; B21-LTS-N031A-4, B-4, C-4, D-4) b. Reactor Steam Dome Pressure - Low (B21-PIS-N021A-2, B-2, C-2, D-2) 410 i 15 psig 410115 psig c. Drywell Pressure 'tigh < 2 psig i 2 psig r (Ell-PTS-N011A-2, B-2, C-2, D-2 ) M s~ d. Time Delay Relay 14 < t 516 secs 14 $ t <,16 secs u O e. Bus Power Monitor (E21-KlA, B) NA NA 2. LPCI MODE OF RHR SYSTDI a. Drywell Pressure - High < 2 psig i 2 psig (Ell-PIM-N011A-1, B-1, C-1, D-1) y 43-(B21-LTS-NO31A-3, B-3, C-3, D-3; B21-LTS-NO31A-4, B-4, -> -147.5 inches > -147. 5 inches b. Reactor vessel Water Level - Low, Level #3 ~ J5-C-4, D-4) 5. A a c. Reactor Vessel Shroud Level > 39" below TAF* ~> 39" below TAF* []j (B21-LTM-NO36-1 and B21-LTM-NO37-1) ~ l .O 42m
- Top of the active fuel.
TABLE 3.3.3-2 (continued) m EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION SETPOINTS 8 h ALLOUABLE 4 TRIP FUNCTION AND INSTRUMENT NUMBER TRIP SETPOINT VALUE k i d. Reactor Steam Dome Pressure - Low Ey 1. REIR Pump Start and LCPI Injection Valve Actuation (B21-PTS-N021A-2, B-2, C-2, D-2) 410 i 15 psig 410 i 15 psig l 2. Recirculation Pump Discharge Valve Actuation (B21-PTM-N021A-1, B-1, C-1, D-1) 310 i 15 psig 310 1 15 psig l e. RHR Pump Start - Time Delay Relay 9 i t i 11 seconds 9 i t $_ 11 seconds f. Bus Power Monitor (Ell-K106A, B) NA NA M> W> y g as-a ~$' k E . s, x (/4 o LJ7
TABLE 3.3.3-2 (continued) $g EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION SETPOINTS ag ALLOWABLE 7: TRIP FLTCTION AND INSTRUMENT NUMBER TRIP SETPOINT VALUE I g 3. HPCI SYSTEM -[ a. Reactor Vessel Water Level - Low, Level #2 2 -38 inches 2 -38 inches (B21-LTM-NO31A-1, B-1, C-1, D-1 and B21-LTS-NO31A-2, B-2, C-2, D-2) b. Drywall Pressure - High 5,2 psig < 2 psig (Ell-PIM-N0llA-1, B-1, C-1, D-1 and Ell-PTS-N0llA-2, B-2, C-2, D-2) c. Condensate Storage Tank Level - Low > 23'4" 2 23'4" (E41-LS-N002, E41-LS-N003) 3 d. Suppression Chamber Water Level - High* < -2 feet ( -2 feet 4 (E41-LSH-N015A, B) w e. Bus Power Monitor (E41-K55 and E41-K56) NA NA 4. ADS a. Drywell Pressure - High < 2 psig < 2 psig (Ell-PIM-N010A-1, B-1, C-1, D-1) g b. Reactor Vessel Water Level - Low, Level #3 > -147.5 inches 2 -147.5 inches (B21-LTS-NO31A-3, B-3, C-3, D-3 and B21-LTS-NO31-A-4, B-4, C-4, D-4) 8 23, c. ADS Ilmer (B21-TDPU-KSA, B) < 120 seconds < 120 seconds 4d. JF d. Core Spray Pump Discharge Pressure - High > 100 psig 2 100 psig (E21-PS-N008A, B and E21-PS-N009A, B) s ss {j e. RHR (LPCI Mode', Pump Discharge Pressure - High 2 100 psig 2 100 psig (Ell-PS-N010A, B, C, D and Ell-PS-NO20A, B, C, D)
- Suppression chamber water level zero is the torus centerline minus 1 inch.
TABLE 3.3.3-2 (Continued) EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION SETPOINTS
- o h
ALLOWABLE E TRIP FUNCTION AND INSTRUMENT NUMBER TRIP SETPOINT VALUE g A 4. ADS (continued) C f. Bus Power Monitor (B21-K1A, B) NA NA ds e-= n Y 0> B a it 3, -f Z l %/ .O U N
TABLE 4.3.3-1 EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREMENTS m E CHANNEL OPERATIONAL d CHANNEL FUNCTIONAL CHANNEL CONDITIONS IN WHICH fi TRIP FUNCTION AND INSTRUMENT NUMBER CHECK TEST CALIBRATION SURVEILLANCE REQUIRED R 1. CORE SPRAY SYSTEM E a. Reactor Vessel Water Level - Low, [ Level #3 NA R(b) (B21-LT-NO31A,B,C,D) NA(a) (B21-LTS-N031A-3,B-3,C-3,D-3) D M M 1,2,3,4, 5 (B21-LTS-NO31A-4,B-4,C-4,D-4) D M M b. Reactor Steam Dome Pressure - B21-PT-N021A,B,C,D) NA NA R( (B21-PTM-N021A-1,B-1,C-1,D-1) D M M 1,2,3,4, 5 w3 (B21-PTS-N021A-2,B-2,C-2,D-2) D M M [ c. Drywell Pressure - High ) b) (E11-PT-N011A,B,C,D) NA NA R %J (E11-PTM-N011A-1,B-1,C-1,D-1) D M M 1,2,3 (E11-PTS-N011A-2,B-2,C-2,D-2) D M M d. Time Delay Relay NA R R 1,2,3,4, 5 e. Bus Power Monitor (E21-K1A,B) NA R NA 1, 2, 3, 4, 5 2. LPCI MODE OF RHR SYSTEkt 7 a. Drywell Pressure - High ( E 11 - PT-N011 A, B, C, D) NA(") NA R(b) { (E11-PTM-N011A-1,B-1,C-1,D-1) D M M 1,2,3 42* -it 5 z O s %) t,a (a) The transmitter channel check is satis fied by the trip unit channel check. CX3 A separate transmitter check is not required. (b) Transmitters are exempted f rom ti e monthly channel calibration.
TABLE 4.3.3.-1 (Continued) EFERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREFENTS E E CHANNEL OPERATIONAL CHANNEL FUNCTIONAL CHANNEL CONDITIONS IN WHICH E TRIP FUNCTION AND INSTRUMENT NUF A CHECK TEST-- CALIBRATION SURVEILLANCE REQUIRED 2. LPCI MODE OF RHR SYSTEM (Continued) U U b. Reactor Vessel Water Level - Low, Level #3 r. ( B21-LT-N031 A, B, C, D) NA(a) NA R(b) (B21-LTS-N031A-3,B-3,C-3,D-3) D M M 1, 2, 3, 4*, 5* (B21 1TS-N031A-4,B-4,C-4,D-4) D M M c. Reactor Vessel Shroud Level (B21-LT-N036; B21-LT-N037) NA(a) NA R(b) (B21-LTM-N036-1 and D M M 1, 2, 3, 4*, 5* w 30 B21-LTM-N037-1) ti d. Reactor Steam Dome Pressure - Low d (B21-PT-NO. A,B,C,D) NA(a) NA R(b) l 1. RHR Pump Start and LPCI Injection Valve Actuation (B21-FTC : 021A-2, B-2, C-2, D-2 ) D M M 1, 2, 3, 4*, 5* l 2. Recirculation Loop Pump Discharge Valve Actuation g (B21-PTM-N021A-1,B-1,C-1,D-1) D M M 1, 2, 3, 4*, 5* I e. RHR Pump Start-Tir.e Delay Relay NA R R 1, 2, 3, 4*, 5* f. Bus Power Monitor (E11-K106A,B) NA R NA 1, 2, 3, 4*, 5* p it a 5 Not applicable when two core spray system subsystems are OFF RABLE per Specificati or 3.5.3.1. z (a) The transmitter channel check is satisfied by the trip unit channel check. A separate transmitter check is not required. se 34 d3 (b) Transmitters are exempted from the monthly channel calibration.
TABLE 4.3.3.-l (Continued) EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUFENTATION SURVEILLANCE REQUIREFENTS 8g CHANNEL OPERATIONAL C CHANNEL FUNCTIONAL CHANNEL CONDITIONS IN WHICH f TRIP FUNCTION AND INSTRUMENT NUMBER CHECK TEST CALIBRATION SURVEILLANCE REQUIRED 3. HPCI SYSTEM U a. Reactor Vessel Water Level - Low Level #2 (B21-LT-NO31A,B,C,D) NA(a) NA n(b) (B21-LTM-N031A-1,B-1,C-1,D-1) D M M 1,2,3 (B21-LTS-N031A-2,B-2,C-2,D-2) D M M b. Drywell Pressure - High (Ell-PT-N0llA,B,C,D) NA(") NA R(b ) (Ell-PTM-N011A-1,B-1,C-1,D-1) D M M 1, 2, 3 g (El1-PTS-N011A-2,B-2,C-2,D-2) D M M y c. Condensate Storage Tank Level g Lon (E41-LS-N002, E41-LS-N003) NA M Q 1, 2, 3 d. Suppression Chamber Water Level - High (E41-LSH-N015A,B) NA M Q 1, 2, 3 e. Bus Power Monitor (E41-K55 and NA R NA 1,2,3 E41-K56) 4. ADS ? g a. Drywell Pressure - High (Ell-PT-N010A,B,C,D) NA(a) NA R(b) c-f (Ell-PTM-N010A-1,B-1,C-1,D-1) D M M 1,2,3 A .i:= n (a) The transmitter channel check is satisfied by the trip unit channel check. ,. g 3 A separate transmitter check is not required. CD (b) Transmitters are exempted from the monthly channel calibration.
TABLE 4.3.3-1 (Continued) EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION SURVEILIANCE REQUIREMENTS E E CHANNEL OPERATIONAL U CHANNEL FUNCTIONAL CHANNEL CONDITIONS IN WHICH h TRIP FUNCTION AND INSTRUMENT NUMBER CHECK TEST CALIBRATION SURVEILLANCE REQUIRE _D 4. ADS (Continued) U b. Reactor Vessel Water Level - Low, Level #3 ~ (B21-LT-N031A,B,C,D) NA(a) NA R(b) (B21-LTS-NO31A-3,B-3,C-3,D-3) D M M 1,2,3 (B21-LTS-N031A-4,B-4,C-4,D-4 D M M c. ADS Timer (B21-TDPU-K5A,L) NA R R 1,2,3 d. Core Spray Pump Discharge gy Pressure - High NA M Q 1,2,3 (E21-PS-N008A,B and y E21-PS-N009A,B) U> e. RHR (LPCI MODE) Pump Discharge Pre s su re - High NA M Q 1,2,3 (E11-PS-N016A,B,C,D and E11-PS-N020A,B,C,D) f. Dus Power Monitor (B21-K1A,B) NA R NA 1,2,3 ~g >a - E. E y (a) The transmitter channel check is satisfied by the trip unit channel check. A separate transmitter check is not required. (b) Transmitters are exempted from the monthly channel calibration.
TABLE 3.3.5.3-1 POST-ACCIDENT MONITORING INSTRUMENTATION MINIMUM NO. OF OPERABLE INSTRUNENT INSTRUMENT AND INSTRUMENT NUMBER CHANNELS
- 1. Reactor Vessel Water Level 2
(B21-LITS-N026A,B; B21-LR-615; B21-LI-R604A,B; B21-LT-N037 and B21-LTM-N037-1) l
- 2. Reactor Vessel Pressure 2
(B21-PI-R004A,B; C32-LPR-R608 and C32-PT-N005A,B)
- 3. Containment Pressure 2
(CAC-PI-2599; CAC-PT-2599; CAC-PR-1257-1 and CAC-PT-1257-1)
- 4. Containment Pressure 2
(CAC-TR-1258-1 thru 13,22,23,24 and C91-P602)
- 5. Suppression Chamber Atmosphere Temperature 2
(CAC-TR-1258-17 thru 20 and C91-P602)
- 6. Suppression Chamber Water Level 2
(CAC-LI-2601-3; CAC-LR-2602; CAC-LT-2601; CAC-LT-2602 and CAC-LY-2601-1)
- 7. Suppression Chamber Water Temperature 2
(CAC-TR-1258-14, 21 and C91-P602)
- 8. Containment Radiation 2
(CAC-AR-1260; CAC-AQH-1260-1,2,3; CAC-AR-1261; CAC-AQH-1261-1,2,3; CAC-AR-1262 and CAC-AQH-1262-1,2,3)
- 9. Containment Oxygen 2
(CAC-AT-1259-2; CAC-AR-1259; CAC-AT-1263-2 and CAC-AR-1?63)
- 10. Containment Hydrogen 2
(CAC-AT-1959-1; CAC-AR-1259; CAC-AT-1263-1 and CAC-AR-1263) BRUNSWICK - UNIT 1 3/4 3/51 Amendment No. 44tF 242
6 TABLE 4.3.5.3-1 POST-ACCIDENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS E CHANNEL CHANNEL j INSTRUMENT AND INSTRUMENT NUMBER CHECK CALIBRATION O 1. Reactor Vessel Water Level M R (B21-LITS-N026A,B; B21-LR-R615; B21-LI-R604A,B; E B21-LT-N037 and B21-LTM-N037-1) l H 2. Reactor Vessel Pressure M R (B21-PI-R004A,B; C32-LPR-R608 and C32-PT-N005A,B) 3. Containment Pressure M R (CAC-PI-2599; CAC-PT-2599; CAC-PR-1257-1 and CAC-PT-1257-1) 4. Containment Temperature M R (CAC-TR-1258-1 thru 13,22,23,24 and C91-P602) 5. Suppression Chamber Atmosphere Temperature M R (CAC-TR-1258-17 thru 20 and C91-P602) U 6. Suppression Chamber Water Level M R (CAC-LI-2601-3; CAC-LR-2602; CAC-LT-2601; CAC-LT-2602 and CAC-LY-2601-1) 7. Suppression Chamber Water Temperature M R (CAC-TR-1258-14, 21 and C91-P602) 8. Containment Radiation M R (CAC-AR-1260; CAC-AQH-1260-1,2,3; CAC-AR-1261; CAC-AQH-1261-1,2,3; CAC-AR-1262 and CAC-AQH-1262-1,2,3) f 9. Containment Oxygen Concentration M R (CAC-AT-1259-2; CAC-AR-1259; CAC-AT-1263-2 and CAC-AR-1263) 9 oc 10. Containment Hydrogen Concentration M R v 4 (CAC-AT-1259-1; CAC-AR-1259; CAC-AT-1263-1 and CAC-AR-1263) 2
TABLE 3.3.6.1-1 ATWS RECIRCULATION PUMP TRIP SYSTEM INSTRUMENTATION Ey MINIMUM NUMEER OPERABLE TRIP E TRIP FUNCTION AND INSTRUMENT NUMBER SYSTEMS PER OPERATING PUMP k 1. Reactor Vessel Water Level - 1 Low Low, Level 2 e 3 (B21-LT-N024A-1, B-1 and B21-LT-N025A-1, B-1) H B21-LTM-N024A-1,B-1 and B21-LTM-N025A-1,B-1) 2. Reactor Vessel Pressure - Low g (B21-PS-N045A,B,C,D) R> Y it a '- n = N: O. 5 g a g* sJ bD* J>
TABLE 3.3.6.1-2 m ATWS RECIRCULATION PUMP TRIP SYSTEM INSTRUMENTATION SETPOINTS TRIP ALLOWABLE d TRIP FUNCTION AND INSTRUMENT NUMBER SETPOINT VALUE O e 1. Reac tor Vessel, Wate r Level - c Low low, Level 2 -> -38 inches -> -38 inches (B21-LTM-N024A-1,B-1 and H B21-LTM-N025A-1,B-1) 2. Reactor Vessel Pressure - Low >1120 psig > 1120. psig (B21-PS-N045A,B,C,D) U Y ? ~ D s a S a <w n D Z LD
TABLE 4.3.6.1-1 ATWS RECIRCULATION PUMP TRIP SYSTEM INSTRUMENTATION SURVEILLANCE REQUIREMENTS E CHANNEL CHANNEL FUNCTIONAL CIIANNEL TRIP FUNCTION AND INSTRUMENT NUMBER CHECK TEST CALIBRATION s* 1. Reactor Vessel Water Level - Low Low, Level 2 E (B21-LT-N024A-1,B-1; B21-LT-N025A-1,B-1) NA(a) NA R(b) y B21-LTM-N024A-1,B-1; B21-LTM-N025A-1,B-1) D M M 2. Reactor Vessel Pressure - Low NA M R ( B 21-PS -N04 5 A, B, C, D) u 3 w .q i ait 42-(a) The transmitter channel check is satisfied by the trip unit channel check. 4"* A separate transmitter check is not required. 'i ? (b) Transmitters are exempted f rom the monthly channel calibration. .p-CD
4 ELECTRICAL POWER SYSTEMS SURVEILLANCE REQUIREMENTS (Continued) d.- At least once per 18 months, during shutdown, by verifying that either: 1. The battery capacity is adequate to supply and maintain in OPERABLE status all of the actual emergency loads for 8 hours when the battery is subjected to a battery service test, or 2. The battery capacity is adequate to supply a dummy load of the following profile while maintaining the battery terminal voltage >_105 volts. a) During the initial 60 seconds of the test; 1) Battery 1 A-1 > i0 56.42 amperes, l 2) Battery lA-2 > 1211.90 amperes, 3) Battery 1B-1E1089.06 amperes, and 4) Battery 18-2 > 1042.67 amperes. l b) During the remainder of the first 30 minutes of the test; 1) Battery 1 A'-l > 243.19 amperes, l 2) BatterylA-2[159.10 amperes, 3) Battery 18-1 > 176.79 amperes, and 4) Battery 1B-2E216.67 amperes. l c) During the remainder of the 8 hour test; 1) Battery 1A-1 > 89.52 amperes, l 2) Battery 1A-2 > 50.34 amperes, 3) Battery 1B-1 s 53.39 amperes, and 4) Battery 1B-2 E 75.09 amperes. l 3. At the completion of either F.' the above tests, the battery charger shall be demonstrated capable of recharging its battery at a rate of at least 200 amperes while supplying normal D.C. loads. The battery shall be charged to at least 95 capacity in < 24 hours. e. At least once per 60 months during shutdown by verifying that the battery capacity is at least 80% of the manufacturer's rating when subjected to a performance discharge test. This performance discharge test shall be performed subsequent to the satisfactory completion of the required battery service test and after nonnal equalizer charge. BRUNSWICK - UNIT 1 3/4 8-10 j 4 4 7 ')4 J Amendment No.}}