HC.OP-SO.BB-0002(Q) Rev 50A Reactor Recirculation System Operating Procedures, 10/30/2004

ML050050112
Person / Time
Site:	Hope Creek
Issue date:	10/30/2004
From:	Baban T, Klass K, Lasala P Public Service Enterprise Group
To:	Office of Nuclear Reactor Regulation
References
HC.OP-SO.BB-0002(Q), NC.DM-AP.ZZ-0002(Q), TAC MC5111
Download: ML050050112 (68)
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Text

ON THE SPOT CHANGE PRINTED 20041212 ' I IT IS THE RESPONSIBILITY OF THE USER TO VERIFY REVISION, STATUS PRINTED 20041030 I NC.DM-AP.ZZ-0002(Q)

FORM-N1 ON-THE-SPOT-CHANGE (OTSC) FORM PROCEDURE NO: HCPS0. '0&Q OTSC No. S) A Order No.4ecs3 vs-s TM1*03-0 PROCEDURE TITLE: 9EArcckrAo, Sysh*w°a, USE CATEGORY:_ .

DESCRIPlION OF CHANt3E' C he A Rgtdo- XIC+.T )k X6eA{

+ l¢etphaI i/&1ge_ Wt8 PUM27 .7-52-I~,t: 15 T //. 0 - k &

IREASONFORCHANGE: Teivl .4 7h 3-_

LIST PAGES CHANGED: II/ 1(4 , 3!7 Determln6 if the OTSC alters the Intent .of the procedure.

Refer to Attachment 1, Change of Intent Criteria. IE.ANY of the statements In Attachment I are true, THENthe OTSC changes the Intent of the procedure...

NC & SH procedurDs: Salem HC Ops SM/ORS signatures required priorto usel INITIATED: f.R. /tiastlc, (O-3e -05 Initiator (Pri Date APPROVED: 1fM'q A BRI70J4 (

' Supervisor (Print 6I1Sfg0) Date APPROVEDR :p S K15 pr#J)rv P XLflt,-

/ (Hope Creek) Ops SMlCRS (Print AND Sign) -- Date APPROVED 1, (Salom) Ops SMICRS (Print AND Sign) Date SUPERVISORIDESIGNEE:

.1. Initiate aNotification to the responslble procedure group to perform the post-implementation review of the OTSC upon final Ops SMICRS approval.

Notification No: C u~ry.

2. Ptovide an approved cory of the OTSC Package (net the work package) to TDR by the end of shl

3. Provide an approved = of the 0TSC Package to the Sponsor/Procedure Writer Iy Itm end of shlk

4. When applicable, provide an approved co= of the OTSC Package for the Control Room Console(s).

6. Deliver the signed ORIGIN AL OTSO Paokoge for use with the procedure.

Alf S Ensuresacopy of the completed procedure Including the OTSC Package issubmnitted wlth the Work C Package, Ifthe procedure was part of the work package.

COMPLETED BY: _______ ____ 3______ r I,,S48'ivisor/Desibnese Extension - - ICWte ' I -__

Nuclear Common page II of 14 Rev. 2

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only Page I of 1 PSE G NUCLEAR L.L.C.

HOPE CREEK GENERATING STATION IIC.OP-SO.BB-0002(Q) - Rev. 50 REACTOR RECIRCULATION SYSTEM OPERATION USE CATEGORY: II Field Copy Exists A. Biennial Review performed Yes No V N/A B. Change Package(s) and Affected Document Number(s) incorporated into this revision.

CPNo. CPRev.No. ADNo. AD Rev.No. orNoine C. OTSC(s) incorporated into this revision:

. OTSC No(s) . orNone V REVISION

SUMMARY

I. Based on the requests made under orders 70038946 and 80071310, prerequisite 2.1.14 has been re-worded to clarify that the .MG Set Fluid Coupler Oil Level should be f 1/4 inch of the Maximum level mark prior to starting the MG Set, and that the level will lower as MG Speed is raised.

2. Based on the requests made under orders 70038946 and 80071310, new Precaution 3.1.31 has been added to this revision to clarify where the oil level should be maintained in the MG Set Fluid Coupler, for different conditions of operation.

3. Added PNI-B31-SO01-0120 to the reference section of the procedure. This change is editorial in nature, based on the guidance found inNC.NA-AP.ZZ-000I(Q).

A/c5/-/

IMPLEMENTATION REOUIREMENTS Effective date 0l The MG Set Fluid Coupler Sight Glasses have been properly marked, lAW operation 0030 of order 70038946.

APPROVED: I Fox e I-OL Man" reek Operations Date

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Isc Only HC.OP-SO.BB-0002(Q)

REACTOR RECIRCULATION SYSTEM OPERATI ON TABLE OF CONTENTS Section Title Pagc 1.0 PURPOSE. 2 2.0 PREREQUISITES.................................................................................................... 2 3.0 PRECAUTIONS AND LIMITATIONS. 6 4.0 EQUIPMENT REQUIRED..................................................................................... 15 5.0 PROCEDURE ........................ 16 5.1 Reactor Recirculation System Startup. 17 5.2 Reactor Recirculation System Two Loop Operation . 33 5.3 Reactor Recirculation System Single Loop Operation. 38 5.4 Resetting Reactor Recirculation Pump Runback. 44 5.5 Scoop Tube Positioner Lockup Operation . 45 5.6 Reactor Recirculation System Shutdown. 49 5.7 Reactor Recirculation Pump Quick Restart. 53 5.8 Oil Mist Eliminator Operation . 61 6.0 RECORDS........................................................................................................................... 62

7.0 REFERENCES

......... 62 ATTACHMENTS Attachment I Power to Flow Map.................................................................................. 64 XI1BIT Exhibit I Reactor Recirculation Pump Motor..........................................................

66 Hope Creek Page 1 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only IIC.OP-SOJIBI-0002(Q)

REACTOR RECIRCULATION SYSTEM OPERATION 1.0 PURPOSE This procedure outlines the steps necessary for the startup, operation and shutdown of the Reactor Recirculation System.

2.0 PREREQUISITES 2.1 Reactor Recirculation System Startup 2.1.1 Reactor Recirculation System valves and breakers are aligned IAW applicable SAP/WCM operational mode.

2.1.2 Nuclear Boiler System is in service to align Reactor Recirculation Systems instrumentation.

2.1.3 Reactor Auxiliaries Cooling Water System (RACS) is in service to supply cooling water to Reactor Recirc Pump Motor Oil Coolers.

2.1.4 Safety Auxiliaries Cooling Water System (SACS) is in service to supply cooling to MG Set hydraulic oil cooler.

2.1.5 Chilled Water System or RACS is in service to supply cooling water to Reactor Recirc Pump Motor Winding Coolers.

2.1.6 Motor Generator Ventilation System is in serviceto ventilate MG Set area with ventilation dampers lined up JAW applicable SAP/WCM operational mode.

2.1.7 Control Rod Drive Hydraulic System is in service to supply seal purge water to Reactor Recirc Pumps.

2.1.8 Drywell Equipment Drain Sump is in operation to receive Reactor Recirc Pump seal cavity flow.

2.1.9 PCIS System has been reset.

Hope Creek Page 2 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internnl Use Only HC.OP-SO.13B-0002(Q) 2.1.10 The following controllers are in MANUAL at their MINIMUM setpoints:_

A. SIC-R621A PUMP A SPD CONT B. SIC-R621B PUMP B SPD CONT C. SIC-R620 MASTER SPD CONT 21.11 PRIOR to starting a Recirculation Pump, and WHEN entry into the Drywell is possible, the upper and lower oil level gauge caps on the Recirculation Pump Motor should be removed and the reservoirs ensured to be filled to the reference level on the oil gauges.

2.1.12 Reactor Recirc Motor Generator bearing reservoir levels indicate approximately at the center of the oil level sight glasses.

2.1.13 Reactor Recire Pump Motor bearing reservoir oil levels are within the height of the ring dam located in the level indicator.

[REFER TO Exhibit I and/orHC.OP-LP.BB-0001(Q)].

2.1.14 Fluid couplers oil levels are within d 114" of the Maximum Mark on the fluid coupler sight glass.

(Oil Level will lower as MG Set Speed is raised). .

2.1.15 Radiation Protection should be notified PRIOR to any venting/draining of this system when not using a hard piped drain.

2.1.16 RHIR is in Shutdown Cooling AND a flow path through RWCU Bottom head drain valve BG-H V-F01 returning to SDC via BG-H V-F102 AND a flow path through either BG-HV-F100 OR BO-HV-Fl 06 is available.

OR Reactor Water Cleanup (RWCU) is in service to provide bottom head drain flow.

2,2 Reactor Recirculation Two Loop Operation 2.2.1 Reactor Recirculation Loop A and B are in service.

2.2.2 Reactor Recirculation Pumps A and B are operating within the Tech Spec required band f6r the current flow.

Hope Creek Page 3 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSE G Internal Use Only NC.OP-SO.BB-0002(Q) 2.3 Reactor Recirculation Single Loop Operation 2.3.1 Reactor Recirculation Loop'A and B are in service.

2.3.2 Reactor Recirculation Pumps A and B are operating within the Tech Spec required band for the current flow.

2.3.3 Reactor Engineering is prepared to meet the requirements of Technical Specification 3.4.1.1.

2.3.4 Instrumentation and Controls has been notified.

2.4 Resetting Reactor Recirculation Pump Runback Initiating condition has cleared.

2.5 Scoop Tube Positioner Lockup Operation Reactor Recirculation Loop A and/or B are in service.

2.6 Reactor Recirculation System Shutdown Reactor Recirculation System is in service.

2.7 Reactor Recirculation Pump Quick Restart 2.7.1 Reactor Recirculation System valves and breakers are aligned IAW applicable SAP/WCM operational mode.

2.7.2 Nuclear Boiler System is in service to align Reactor Recirculation Systems instrumentation.

2.7.3 Reactor Auxiliaries Cooling Water System (RACS) is in service to supply cooling water to Reactor Recirc Pump Motor Oil Coolers.

2.7.4 Safety Auxiliaries Cooling Water System (SACS) is in service to supply cooling to MG Set hydraulic oil cooler.

2.7.5 Chilled Water System or RACS is in service to supply cooling water to Reactor Recirc Pump Motor Winding Coolers.

2.7.6 Motor Generator Ventilation System is in service to ventilate MG Set area with ventilation dampers lined up IAW applicable SAPIWCM operational mode.

H1ope Creek Page 4 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only HC.OP-SO.BB-0002(Q) 2.7.7 Control Rod Drive Hydraulic System is in service to supply seal purge water to Reactor Recirc Pumps.

2.7.8 Drywell Equipment Drain Sump is in operation to receive Reactor Recirc Pump seal cavity flow.

2.7.9 PCIS System has been reset.

2.7.10 The following controllers are in MANUAL at their MINIMUM setpoints:

A. IF A Reactor Recirculation Pump has tripped, SIC-R621A PUMP A SPD CONT B. IF B Reactor Recirculation Pump has tripped, SIC-R621B PUMP 13 SPD CONT C. SIC-R620 MASTER SPD CONT 2.7.11 Recirculation System Motor Generator A(B) Lube Oil System is in operation IAW Section 5.1.8.

2.7.12 The plant is in Operational Condition 3 or 4.

2.7.13 Reactor Water Cleanup (RWCU) is in service to provide bottom head drain flow.

2.8 Oil Mist Eliminator Operation None.

Hope Creek Page 5 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only HC.OP-SO.B1B-0002(Q) 3.0 PRECAUTIONS AND LIMITATIONS 3.1 Precautions 3.1.1 Limitations of Technical Specification 3.4.1.1 prior to Shutdown of an operating Recirculation Loop during Operational Conditions 1 AND 2 shall be observed. Reactor Engineering AND Instrumentation and Controls must be notified.

3.1.2 To avoid over-pressurizing the pump casing, the Seal Purge Water for the Reactor Recirc Pump Seals shall be secured PRIOR to isolating a Reactor, Recirc Pump. [CD-781A, CD455H]

3.1.3 Closure of both Reactor Recire Pump Suction Valves simultaneously will result in a loss of Reactor Water Cleanup System suction.

3.1.4 The Limitations of Technical Specification 3.4.1.4 shall be observed PRIOR to starting an idle Recirculation Pump.

3.1.5 BB-HV-FO31A(B) PUMP A(B) DISCH VALVE should be closed for

> 5 minutes only for shutdown cooling or pump maintenance. [CD-976B]

3.1.6 WHEN locally adjusting Scoop Tube position, the licensed operator performing the adjustment must remain in constant communication with the NCO in the Main Control Room while locally adjusting Scoop Tube position WITH the Reactor Recirc Pump in operation.

3.1.7 The Scoop Tube Positioner should NOT be manually positioned unless the Scoop Tube Positioner power switch is OFF.

3.1.8 When coming out of Scoop Tube Lockup, the potential exists for the Recirc Pump to "Run Away", and the Operator should be prepared to take appropriate action.

Hope Creek Page 6 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED ?.0041212 YNE1lGInternal Use Only HC.OP-SO.TJB-0002(Q) 3.1.9 The Reactor Recirc Pumps have vibration resonances in the following speed ranges, as seen on SIC-R621A(B) PUMP A(B) SPD CONT. Monitor Reactor Recirc Pump vibrations while operating in these ranges, and minimize operation at speeds causing elevated vibration levels. [CD-250G]

IAP201 RPMM IAG122 IBP201 RPM 1BG122

%SPEED %SPEED 720-800 4348 700-760 42-46 1040-1090 62-65 1150-1200 69-72 1444-1484 86-88 3.1.10 The following Recirculation MG Set/Pump Oscillations were identified during the Power Ascension program. These oscillations are a result of inherent instabilities in the Recirc Speed Control System and cannot be tuned out. Operations at these speeds may result in speed oscillations of 4 - 10%. Operation at these speeds should be minimized. [CD-250G] _ _

IAP2Q1 RPM 1AG122 IBP201 RPM lBG122

%SPEED %SPEED 538 32% 470 28%

890 53% 890 53% 1 3.1.11 Operation above 1510 RPM should be avoided. Operation withReactorRecirc Pump speeds above 1510 RPM has resulted in elevated Reactor Recirc piping and Reactor Building vibrations due to frequency resonance between these components (RPM as read at SMART Panel B, Rack B, Channel KPH2 for 1AP201 and Channel KPH3 for IBP201). [951005196]

3.1.12 This system contains potentially radioactive contaminated fluid.

3.1.13 With NO Recirculation pumps in service in Operating Condition 1, the Reactor shall be manually scrammed.

3.1.14 WHEN isolating a Recirculation Pump due to multiple seal failure, the suction valve must be closed prior to the discharge valve, due to the

• highdifferential pressure that will be created across a partially-closed suction valve. The discharge valve is designed to operate under high differential pressure whereas the suction valve is not.

3.1.15 Core stability is a direct function of Recirculation System flowrate.

Operation should be 1AW Attachment 1; Power to Flow Map. [CD-354F]

Hope Creek Page 7 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION. STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only IIC.OP-SO.BB-0002(Q) 3.1.16 The 1AlP120 and 113 P120, OR the IA2P120 and 1B2P120 MG Set Lube Oil Pumps should NOT be run together as they have power supplies on the same 480V Bus (10B140 or IOB130).

IF run together, a single 480V Bus trip may result in both Recirc Pumps tripping.

3.1.17 IF a pump reaches the electrical stop, the scoop tube drive will stop and the disc brake will engage.

IF an increase demand for speed is still present, the speed demand indicator will slowly go to full scale and a scoop tube lockup will occur. The Scoop Tube Reset Push button must be pressed to disengage the brake.

3.1.18 IF RPT Brkr A,(B,C,D)N205 for a Recirc Pump trips, the Drive Motor breaker will not trip (DCP 4HE-0222). The Recirc MG Set should be secured IAW HC.OP-SO.BB-0002(Q).

3.1.19 A loss of Recirc. MG Set Ventilation will not result in an automatic trip of the MG Set Drive Motor breakers.

3.1.20 WHEN the RHR System is operating in the Shutdown Cooling Mode, Recirc Loop suction and discharge valve manipulations that result in a Shutdown Cooling Loop bypass flowpath being established shall be avoided (example: recirc suction and discharge valves being open simultaneously on the loop seeing Shutdown Cooling return flow) 3.1.21 Following Recirculation Pump seal maintenance, seal vents should remain open until seal purge is established and seals are flushed and vented. This prevents small particles from entering the pump cavity and seals due to flooding without seal purge established. [CDA4551 3.1.22 The Reactor Recirc Pump Seal cavities must be thoroughly vented prior to pump operation to reduce seal wear. [CD-781A]

3.1.23 BB-HV-F023A(B) PUMP A(B) SUCT VALVE should only be closed for pump maintenance or leak isolation.

3.1.24 PRIOR to commencing Single Recirculation Loop Operations, Reactor Engineering and Instrumentation and Controls must be notified.

3.1.25 IF a Recirc MG Set fails to start, the Recirc Pump discharge Valve (F03 1) may not be fully closed. Shutdown cooling could be compromised IF the valve is left partially open. [PR 960105118]

Hope Creek Page 8 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PrSit0t; Internal Use Only HC.O'-SO.BB-0002(Q) 3.1.26 With the operable loop drive flow near 23 Kgpm (approximately 48%

Pump speed), the flow through the idle loop is close to zero and will swap back and forth between forward and reverse flow. Operation can cause excessive jet pump vibration and the potential for consequent stress fatigue of the riser brace welds to the vessel.

Operation in this area should be minimized. [800332701 3.1.27 1-BF-V155(772) and I-BF-l 56(773) Recirc Pmps Seal Purge Supply Hdr Vent Vlvs should remain open any time the downstream isolation valves are closed. 170029861]

3.1.28 Approximately 45 minutes may be required to stabilize motor-generator lube oil temperatures during post-maintenance equipment starts.

Control Room temperature recorders B31-TRR625 and CRIDS points A2911 and A2912 provide pertinent parameter information and should be monitored for this duration. Local observation should also be in place.

[700315151 3.1.29 PRIOR to placing OIL MIST ELIMINATOR 1A-V-136 in service ensure proper oil collection apparatus is attached to collect oil.

3.1.30 Due to concerns with Oil Vapors being released to the atmosphere of the M-G room, the "A" Reactor Recirc Pump M-G Oil Mist Eliminator (HIBEB -1A-V-136) should only be placed in-service when the "A" Reactor Recirculation Pump is being maintained at a steady speed ("Stable Power Operation"), and should not be used while "Maneuvering Power". Minor adjustments in Reactor Recirc Pump Speed, to maintain "Stable Power Operation", should be considered as "Stable Power Operation".[70036590]

3.1.31 With the MG Set out of service, the Fluid Coupler Oil Level should be at the Maximum level mark, h 1/4 inch. While operating, the Fluid Coupler Oil Level should be maintained between the Maximum and Minimum levels per the gauge glass. The oil level will raise as pump speed is lowered. When adding Oil at 100% power, only add oil to the Minimum level mark + 1/2 inch, - zero inch.

Hop~e Creek Page 9 of 66 Rev. so

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only HC.OP-SO.1IB-0002(Q) 3.2 Limitations 3.2.1 IF valve or electrical lineup cannot be completed as required, the SM/CRS will determine whether the deviations are such that the system should not be placed in service or standby, as required.

3.2.2 The Limitations of Technical Specification 3.4.1.3 concerning Recirculation Pump speeds shall be observed. _

3.2.3 The maximum heatup AND cooldown limitations of Technical Specification 3.4.6.1 shall be observed. A heatup or cooldown rate of 1000 F per hour shall NOT be exceeded .

WIEN heating up a Reactor Recirculation Pump.

3.2.4 The following lube oil temperature limitations should be observed during Startup and Operation of the Reactor Recirculation Motor Generator sets, for lube oil to drive circuits and bearings:

Nonnal 110 to 130'F Allowable 80 to 140 IF 3.2.5 The Reactor Recirc Pump should NOT be operated for > 10 minutes without cooling water.

3.2.6 All pump operations should be performed IAW HC.OP-AP.ZZ-0109(Q);

Equipment Operational Control.

3.2.7 Following a Recirc Runback, Chemistry Department shall be notified to ensure compliance with Tech Spec 3/4.4.5, Specific Activity, AND Radiation Protection shall be notified to ensure compliance with Tech Spec 3/4.11.2, Gaseous Effluents.

3.2.8 IF operation is to continue with one Recirculation Loop Shutdown, the Limitations of Technical Specification 3.4.1.1 and surveillance requirement of T/S 4.4.1.2.b shall be observed. [TIS 4.4.1.2.bJ 3.2.9 The Limitations of Technical Specification 3.4.1.4 shall be observed WHEN restarting an idle Recirculation Loop.

3.2.10 WHEN operating in Single Recirculation Loop, THERMAL POWER shall be maintained < 70% of rated, Recirculation Pump speed shall be maintained < 90% of rated pump speed (90% of rated pump speed is 79% indicated),

AND the recirculation flow control shall remain in local manual mode.

Hope Creek Page 10 of 66 Rev. 50

ON THE SPOT CHANGE PRINTED 20041212 IT IS THE RESPONSIBILITY OF THE USER TO VERIFY REVISION, STATUS PRINTED 2QQ4.1Q2l Use Only FIC.OP-SO.BB-0002(Q) 3.2.11 Recirculation Pumps shall NOT be started.

WHIEN operating above the 80% rod line, lAW Technical Specification Plgiue 3.4.1.1-1. [CD-354F]

3.2.12 IF in Hot Standby Operation without Recirc Flow - Maximizing Bottom Head Drain Flow, RWCU System outlet temperature must be.maintained

< 4340 F to prevent thermal shock of the feedwater nozzles. [CD-389E]

3.2.13 During the transition from Shutdown Cooling operations to establishment of normal Reactor Recirculation System operations, the RHR System may be left in Shutdown Cooling, only LF BP202 is the RHR Pump in service AND AP201 is the Reactor Recirculatlon Pump to be started.

3.2.14 During the transition from normal Reactor Recirculation System operations to establishment of Shutdown Cooling, only the AP201 Reactor Recirculation Pump may be left in operation until the BP202 RHR Pump is operating satisfactorily, ANID THEN only until the required B RHR Loop flow of 10,000 gpm is achieved.

3.2.15 Reactor Recirc Pump starting and operation should be minimized WHEN Reactor Vessel pressure is < 300 pslg. Due to Recirc Pump seal concerns, the operation of a Recirculation Pump under this low pressure condition should be limited to I week. Engineering should be consulted prior to exceeding this limit, [CD-781A, PR 96122715D]

3.2.16 Neither Recirculation Pump should be operated above the following Danger Vibration Setpoints.

RADIAL AXIAL ALERT I DANGER ALERT I DANGER Reciro Pump A 11.0 mils 21.0 mils 7.0 milsII.0 mil Recirc Pump B . - -

2 1. 0 7.0 ml7.0milsJ I 1.0 mlls Ito0 als 3.2.17 Master Manual mode of Reactor Recire may be used only when

> 45% speed and c 102% Total Core Flow, 3.2.1 8 Seal Purge Should be in service when the pump is not isolated.

IF It is necessary to remove seal purge from service for maintenance with the pump operating, the time out of service should be minimized.

Engineering should determine the allowable time.

IF the pump is stopped with seal purge isolated, the pump should be isolated to prevent low point crud from entering the pump seals.

[700298611 Hope Creek Page 11 of 66 Rey. so I

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDrM!At, 20041212 internatl Use Only HC.OP-SO.BB-0002(Q) 3.2.19 The Reactor Recirc Pump Seal must be cooled to <200 IF via seal purge prior to isolating the pump. [700298611 3.3 Interlocks 3.3.1 The following conditions will cause a full Recirc Pump runback to 30% speed:

• Reactor water level <Level 3 (+12.5")

• Total feedwater flow < 20% for > 15 seconds

• Loss of I Circ Water Pump with 3 or less Circ Water Pumps running AND Condenser pressure > 5.8" 1-gA.  !

• Loss of I Primary Condensate Pump with total feedwater flow

> 75% and 2 or more feedpumps in service.

• BB-HV-F031A(B) PUMP A(B) DISCH VLV < 90% open.

• Loss of Stator Water Cooling after a 12 second time delay as sensed by:

1. Generator Stator Cooling Inlet Pressure low-low (13 psig)

OR

2. Generator Stator Cooling Outlet Temperature high (820C)

OR

3. Main Generator Stator Current to Stator flow 15% mismatch:

STATOR REQUIRED ALARM RUNBACK AMPS FLOW (FLOW) (FLOW) 30,022 (100%) 661 gpm 595 gpm 562 gpm 27,020 (90%) 535 gpm 482 gpm 455 gpm 24,018 (80%) . 423 gpm 381 gpm 360 gpm 21,015 (60%) 324 gpm 292 gpm 275 gpm 18,013 (50%) 238 gpm 214 gpm 202 gpm 15,011 (50%) 165 gpm 149 gpm 140 gpm 12,009 (40%) 106 gpm 95 gpm 90 gpm NOTE: The Main Turbine will trip on loss of stator water cooling if Main Generator Stator Current is NOT less than 79.11% (23,752 amps) in 2 minutes or 23.49% (7,055 amps) In 3.5 minutes Hope Crecek Page 12 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDrbt+/-U1 20041212 internal Use Only HC.OP-SO.BB-0002(Q) 3.3.2 The following conditions will cause an intermediate Recirc Pump runback to 45% speed:

Loss of I Reactor Feed Pump AND Reactor water level < level 4 (+30")

• Loss of I Circ Water Pump with 4 Circ Water Pumps running AND Condenser pressure > 4.5" HgA.

• Loss of I Secondary Condensate Pump WITH total feedwater flow> 85%

AND 2 or more feedpumps in service.

3.3.3 Any one of the following conditions will trip the MG Set Drive Motor Breaker:

• Generator Lockout Relay energized.

• Drive Motor phase current unbalance.

• Disch Vlv not off closed seat within 3 secs. of field breaker closure.

• BB-HV-F023A(B) PUMP A(B) SUCT VLV < 90% open.

• BB-HV-FO3lA(B) PUMP A(B) DISCH VLV < 90% open (after 85 second time delay on pump start).

• MG set drive motor bus undervoltage.

• MG set drive motor lube oil high temperature (21 00 F).

c Low lube oil pressure < 30 psig (after 6 second time delay).

3.3.4 The following signals will energize the generator lockout relay and/or the generator auxiliary lockout relay, resulting in a Field Breaker trip AND a Drive Motor breaker trip:

• M/G set incomplete start sequence.

Generator neutral overvoltage.

• Exciter Field overcurrent.

Generator vs Pump Motor high differential current.

• Generator loss of Field (with Field Breaker closed).

Generator overcurrent (instantaneous and I 0 second time delay),

• 7.2KV Bus (lOAl10, 10A120) differential overcurrent.

H~ope Creek Page 13 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20 041212 PI tt, internal Use Only HC.OP-SO.IIB-0002(Q) 3.3.5 The following conditions will cause the scoop tube positioner to lockup: [CD-230G]

• M/G drive motor bus undervoltage (I OA] 10, O.A120).

• Speed control signal failure, high or low.

• Lube oil temperature high > 210F.

Lube oil pressure low < 30 psig after 6 sec time delay.

a Manual (Push button 10C651)

• Loss of control power to the positioner and/or loss of MG set lockout power, as listed below:

MG CONTROL POWER LOCKOUT POWE R A lOY109 AD31 8 B 10Y107 BD318 3.4 Permissives 3.4.1 The following Pernissives must be satisfied in order to start a Recirc MG Set Drive Motor:

• Generator Lockout Relay reset.

• Generator Auxiliary Relay reset

• BB-HV-P023A(B) PUMP SUCT VLV 100% open.

• BB-HV-F031A(B) PUMP DISCH VLV 100% closed.

MG Field Breaker open.

Lube Oil pressure > 20 psig.

RPT Breakers 1AN205 and ICN205 (lBN205 and 1DN205) closed.

• Drive Motor Differential Lockout Relay reset.

Hope Creek Page 14 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20012 rPRNEinternal Use Only RC.OP-SO.BB-0002(Q) 3.4.2 The following permissives will start a Lube Oil Pump:

A. To manually start an AC Lube Oil Pump, the following must be satisfied:

1. MAN mode selected

2. Alternate AC Lube Oil Pump in NOT in service.

3. START pressed B. The standby AC Lube Oil Pump will Auto start IF all of the following are satisfied:

1. AUTO mode selected

2. Low Lube Oil Pressure < 30 psig

3. Alternate AC Lube Oil Pump in NOT in service.

C. The DC Lube Oil Pump will auto start IF the following are satisfied:

1. AUTO mode selected

2. Low Lube Oil Pressure < 30 psig with 6 sec. TD

3. Low low LO Pressure (< 20 OR 10 psig) 4.0 EQUIPMENT REQUIRED

• Hand-held pyrometer

• Hose and hose clamps or pipe fitting Hope Creek Page 15 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED ?OQ4121 2 I'MEG Internal Use Only HC.OP-SO.BB-0002(Q) 5.0 PROCEDURE NOTE 6.0 A. All operations are from the 10C651 Section C unless otherwise noted.

B. Local panel locations are as follows:

A(B)C158 Recirc MG Set A(B) Relay Panel, Turb Bldg. El. 137'.

CAUTION 6.0 A. The Reactor Recirc Pumps have vibration resonances in the following speed ranges, and as seen on SIC.R621A(B) PUMP A(B) SPD CONT.

Reactor Recirc Pump vibrations should be monitored while operating In these ranges, and operation at speeds causing elevated vibration levels should be minimized. [CD-250G].

IAP201 RPM -1AG122 %SPEED 1BP201 RPMI 1IBG122 %SPEED 720-800 4348 - 700-760 42-46 1040-1090 62-65 1150-1200 69-72 1444-1484 86-88 B. The following Recirc MG Set/Pump oscillations were identified during the power ascension program. These oscillations are a result of Inherent Instabilities In the Recirc Speed Control System and cannot be tuned out. Operations at these speeds may result In speed oscillations of 4 - 10%. Operation at these speeds should be minimized.

IAP201 RPM 1AG122 %SPEED IBP201 RPM 1BG122 %SPEED 638 32% 470 28%

890 63% 1 890 63%

C. Operation above 1510 RPM should be avoided. Operation with Reactor Recirc Pump speeds above 1510 RPM has resulted In elevated Reactor Recirc piping and Reactor Building vibrations due to frequency resonance between these components (RPM as read-at SMART Panel B, Rack B, Channel KPH2 for IAP201 and Channel KPH3 for IBP201). [951005196]

D. Operation with one recirculation loop shutdown Is permitted provided the Limitations of Tech Spec 3.4.1.1 are adhered to. Reactor EngineeringAND Instrumentation and Controls must be notified prior to commencing single loop operation.

Hope Creek Page 16 of 66 ]tev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDrV 20Q41212 internal Use Only HC.OP-SO.BB-0002(Q) 5.1 Reactor Recirculation System Startup 5.1.1 ENSURE all prerequisites have been satisfied IAW Scction 2.1.

5.1.2 ENSURE Reactor level is greater than +30 inches to ensure adequate NPSH is available.

NOTE 5.1.3 Venting of the Reactor Recirculation Pump Seal Purge Supply Header lAW Step 5.1.3 requires three EOs and close communication with the Control Room.

CAUTION 5.1.3 A. The CRD System is pressurized to 1600 pslg. Caution should be used when venting the Seal Purge Supply line.

B. Reactor Pressure Vessel Level should be monitored while performing the following step.

5.1.3 IF the Reactor Recirc pump was isolated, OR Reactor Recirculation Seal Purge-requires venting following isolation THEN PERFORM the following: [CD455H]

A. E NSURE the following valves are closed:

• I-BF-V805(V804) CRD Drive Water Filter to Recirc Loop A(B) (CRD Master Control Area A) v 1-BF-VIOO (101) RxRecirc Pump A(B) CRD Seal ISLN.

• 1-BB-V050(V052)

AND 1-BB-V051(V053) Seal Vent.

Continued on next page Hope Creek Page 17 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRI NT ED 6200 41212 r iU Internal Use Only IIC.OP-SO.BB-0002(Q) 5.1.3 (Continued)

NOTE 5.1.3.B Venting the Reactor Recirculation Pump 'Common' Seal Purge Supply Header is ONLY required for the 1st pump being placed Inservice.

B. VENT the Reactor Recirculation Pump 'Common' Seal Purge Supply Header as follows:

1. UNCAP AND INSTALL a hose at 1-BF-V796 Recirc Pmp Seal Purge Hdr Vnt (CRD Master Control Area A)

AND ROUTE to nearest floor/equipment drain.

2. OPEN I-BF-V795 Recirc Pmp Seal Purg Hdr Isin.

3. USING 1-BF-V796 VENT UNTIL a solid, steady stream issues from vent hose THEN CLOSE 1-BF-V796.

4. CLOSE 1-BF-V795.

5. REMOVE hose AND CAP I-BF-V796.

C. VENT the A(B) Reactor Recirculation Pump Seal Purge Supply Header as follows:

1. E NSURE I-BB-V042(V046) Seal Purge Manual Isolation is OPEN.

2. UNCAP AND INSTALL a hose at 1-BB-V647 (V649)

AND l-BB-V645 (V652) InstLnPDT-N015A(B)VntVlv (Drywell Area C(K), AZ 045-080 (190)

AND ROUTE to the Equipment Drain Sump.

3. ENSURE BF-HV-3800A(B) Pump A(B) Seal Purge Wtr Vlv is CLOSED.

4. VERIFY I-ED-V023(V024) RxRecircPmpA(B)

Racs Sup Isln (90 Deg, 10' From Outer Wall)

AND I-ED-V025(V026) Rx Recirc Pmp A(B)

RACS Rtn IsIn (90 Deg, 10' From Outer Wall) are OPEN.

Continued on next page Hope Crceek Hrage 18 of 66 Rev. 50 I

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDr~.20041212

,internal Use OuiW 11C.OP-SO.BB-0002(Q) 5.1.3.C (Continued)

5. ENSURE I-BB-V284 AND I-BB-V285(1-BB-V286 and 1-BB-V287)

1. 2 Seal Cavity Vents are CLOSED.

6. PREPARE the A(B) Reactor Recirculation Pump Seal Purge Supply Header highpoint vent as follows:

a. UNCAP AND INSTALL a hose at I-BF-V156(V773),

Recirc Pmps Seal Purge Supply Hdr Vent Vlv (Torus Access, Rmn. 4223 (4321 Pipechase))

AND ROUTE to nearest floor/equipment drain.

b. OPEN I-BF-V155(V772), Recirc Pmps Seal Purge Supply Hdr Vent Vlv.

c. OPEN 1-BF-V156(V773), Recirc Pmps Seal Prg Hdr Vent.

7. CHECK OPEN 1-BB-V179(V175)

AND I-BB-V176(V172) #2 Seal Drains.

170029861]

8. OPEN 1 BF-VI00 (I01) Rx Recirc Pump A(B) CRD Seal ISLN is OPEN.

NOTE 5.1.3.C.9 A. Establishing a higher-than-normal purge flow in the following step is acceptable since purge flow will be re-adjusted to a normal value in Step 5.1.5.

B. IF it is desired to reduce flow from the vent, 1- BF-V805(V804) may be throttled. [70029861]

9. SLOWLY OPEN I-BF-V805(V804)

AND ADJUST to obtain = 4 to 6 gpm flow, as indicated on Fl-RO20A(B) Rx Recirc Pump A(B) Seal Purge Flow (Local).

Continued on next page I-lopec Creek Page 19 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 ySEiG Internal Use Only HIC.OP-SO.BB-0002(Q) 5.1.3.C (Continued)

10. OPEN the following valves:

• 1-BB-V647(V649) Inst Ln PDT-NO15A(B) Vnt VIv

• I-BB-V648(V650) InstLnPDT-N015A(B)VntVlv

• I-BB-V645 (V652) Inst Ln PDT-NO15A(B) Vnt Vlv a 1-BB-V646(V651) InstLnPDT-N015A(B)VntVlv CAUTION 5.1.3.C.1 I Establishing Seal Purge to an Isolated Recirc Pump without an adequate vent path may result In over-pressurizing the pump casing.

11. WITH operators in place to monitor flows at Seal Purge Supply Header High Point and Pump Vents OPEN BF-HV-3800A(B) Pump A(B) Seal Purge Wtr Valve.

12. CLOSE 1-BF-V156(V773), Recirc Pmps Seal Prg Hdr Vent.

NOTE 6.1.3.C.13 The following step may be completed while continuing in this section.

13. COMPLETE the following:

a. CLOSE 1-BF-V155(V772) Recirc Pmps Seal Prg Hdr Vent.

b. REMOVE hose AND CAP 1-BF-V156(V773), Recirc Pmps Seal Prg Hdr Vent.

Continued on next page Hope Creek Page 20 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDr i't, 20041212 internal Use Only HC.OP-SO.BB3-0002(Q) 5.1.3.C (Continued)

NOTE 6.1.3.C.14 Maintaining a higher-than-normal purge flow in the following step is acceptable since purge flow will be re-adjusted to a normal value in Step 5.1.5.

L_

14. WHILE operator monitors venting at l-BB-V647(V649)

AND l-BB-V645 (V652) Inst Ln PDT-NOI 5A(B) Vnt VIv, RE-ADJUST I-BF-V805(V804) to obtain 4 to 6 gpm purge flow as indicated on FI-RO20A(B).

NOTE 5.1.3.C.15 There is no maximum time limit restriction for flushing the seals In the following steps.

Since the pump suction valve is not open, overheating of the seals should not occur.

15. MAINTAIN flush for a minimum of 5 minutes, after a solid, steady stream issues from vent hose.

NOTE 6.1.3.C.16 Direct communication with the Control Room is required during the performance of the following step.

CAUTION 5.1.3.C.1 6 When the RHR System Is operating In the Shutdown Cooling Mode, Recire Loop suction and discharge valve manipulations that result in a Shutdown Cooling Loop bypass flowpath being established shall be avoided (example: Recirc suction and discharge valves being open simultaneously on the loop seeing Shutdown Cooling return flow).

16. WHILE operator monitors seal venting at l-BB-V647(V649) AND I-BB-V645 (V652) Inst Ln PDT-NO I5A(B) Vnt Vlv OPEN Suction Valve BB-HV-F023A(B).

Continued on next page Hope Creek Page 21 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDr;,it20041212 internal Use Only HC.OP-SO.BB-0002(Q) 5.1.3.C (Continued)

17. WHEN BB-HV-F023A(B) is fully OPEN, AND AFTER ensuring a solid, steady stream of water is issuing from vent hose at 1-B1-V647(V649),

THEN IMMEDIATELY CLOSEI-BB.V647(V649)

ANDI-BB-V645 (V652).

NOTE 6.1.3.C.18 The following step may be completed while continuing in this section.

18. COMPLETE the following:

a. CLOSE 1-BB-V648(V650)

.AND 1-BB-V646 (V651)InstLnPDT-NO15A(B)

Vnt Viv.

b. REMOVE hose AND CAP 1-BB-V647(V649)

AND 1-BB-V645 (V652) InstLn PDT-NO15A(B)

VntVlv.

CAUTION 6.1.3.C.19 For hot recirculation pump Seal Cavity venting (i.e., filled with Reactor Coolant System >2120 F) DO NOT leave vents open for > 6 minutes to prevent seal damage from overheating.

Reactor Pressure Vessel level should be monitored while performing this following step.

19. PRIOR to starting the associated Recirc Pump VENT Recirc Pump A(B) Seal Cavity as follows:

a. SLOWLY OPENI-BB-VO51 (1-BB-VO53)

ANDI -313V050 (1-BB-V052), A(B) Recirc Pump Seal Cavity No. 1 vents.

b. CLOSE1-BF-V805(1-BF-V804).

Continued on next page Hope Creek Page 22 of 66 Rev. 50

- l USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDI., 20041212

+/-tiu al Use Only HC.OP-SO.BB-0002(Q) 5.1.3.C (Continued)

c. AFTER A(B) Recirc Pump, No. 1 Seal Cavity vent has been open for a minimum of five (5) minutes THEN OPEN AND ADJUST 1-BF-V805(1-BF-V804),

as necessary, to obtain a 4 to 6 gpm purge flow, as indicated on Fl-RO20A(B).

d. CLOSE1-BB-V051 (1-BB-V053) and I -BB-VO50 (1 -BB-V052), A(B) Recirc Pump Seal Cavity No. 1 vents.

e. INSTALL a hose at l-BB-V285 (V287) A(B) Recirc Pump No.2 Cavity Vent Outboard Valve AND ROUTE to the Equipment Drain Sump.

f. Slowly OPEN I-BB-V284 AND I-BB-V285(I-BB-V286 and 1-BB-V287)

Recirc Pump No. 2 Cavity Vent Vlvs.

g. After all the air is removed, CLOSE 1-BB-V284 and I-BB-V285(1-BB-V286 and 1-BB-V287)

Recire Pump No. 2 Cavity Vent Vlvs.

h. REMOVE hose attached at 1-BB-V285 (1-BB-V287)

A(B) Recirc Pump No. 2 Cavity Vent Outboard Valve AND INSTALL cap.

i. DOCUMENT completion of Recirc Seal Venting in Control Room Log(s).

5.1.4 ENSURE, BB-HV-F023A(B) Suction Valve AND BG-HV-F100(F106) RWCUSuctionValveareOPEN.

NOTE 5.1.5 Approximately 30 minutes should be allowed to elapse between the completion of Step 5.1.5 and the start of the pump, to allow the #2 Seal Cavity to self-vent through the seal stage flow line.

5.1.5 ADJUST I-BF-V805 (1-BF-V804) CRD Drive Water to Rx Recirc Pump A(B) Seal Purge throttle valve as necessary UNTIL FI-RO20A(B) Rx Recirc Pump A(B) Seal Purge Flow indicates 1.5 to 2.5 gpm (Local). [CD-405H]

Hope Creek Page 23 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDO2OOt4J1J?2n Use Only HC.OP-SO.BB-0002(Q) 5.1.6 ENSURE the following:

• RECIRC PUMP A(B) SEAL COOLING FLOW LOW -

Computer Point D2424(D2425) alarm is CLEAR.

• RECIRC PUMP MTR A(B) OIL LEVEL HI/LO - Computer Point D2922(D2923) alarm is CLEAR.

5.1.7 VERIFY no flow from the PSV-F025A(B) discharge piping.

IF flow is identified from the discharge piping, THEN CONTACT engineering to calculate the required increase in seal purge flow. 170029861]

5.1.8 PREPARE the Reactor Recirc Pump for start as follows:

A. VERIFY that PUMP A(B) LOCKOUT BUS POWER AVAILABLE light is illuminated.

B. TURN handle on LF-173A(B) Rx Recire Motor Generator blade type lube oil filter through several rotations to clear any blockage (Local).

C. PLACE the A(B) Oil Mist Eliminator in-service IAW section 5.8.

D. TEST DC oil pump auto start function WITH NO AC oil pumps in service, as follows (Local Panel A(B)C158):

1. PLACE AUX LUBE OIL PUMP A(B)PI 13 Control Switch in AUTO.

2. VE RIFY START is ON.

3. PLACE AUX LUBE OIL PUMP A(B)PI 13 Control Switch in OFF.

Continued on next page Hope Creek Page 24 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use OnlM IIC.OP-SO.BB-0002(Q) 5.1.8. (Continued)

CAUTION 6.1.8.E The 1AIP120 AND 11P120, OR the 1A2P120 AND 1B2P120 oil pumps should not ba run together, as they are powered off the same 480V Bus (10B130 and 10B140).

A single 480'volt Bus trip may result In both MG Sets tripping.

E. START one of A1P120 (BIP120)

OR A2P120 (B2P120) PUMP A(B) Auxiliaries Lube Oil Pump for Motor Generator to be started.

F. PRESS AUTO push button of other pump AIP120 (BIP120)

OR A2P 120 (B2P120) PUMP A(B) Auxiliaries Lube Oil Pump.

G. PLACE AUX LUBE OIL PUMP A(B)P 113 Control Switch in AUTO (Local Panel A(B)CI 58).

H. VERIFY the following MG Set parameters:

1. Computer Point D2915 (D2916) RECIRC MG A(B)

DRV LUBO PRESS is NOT in alarm.

2. Computer Point D2913 (D2914) RECIRC MG A(B)

LUBE OIL TEMP is NOT in alarm.

I. VERIFY the following:

I. PUMP A(B) - MOT-GEN-FIELD BRKR TRIPPED is ON.

2. AU protective AND Generator Lockout relays are reset (Local Panel A(B)C158).

3. REACTOR RECIRC "A"("B") TROUBLE annunciator Cl-D4 (Cl-DS) is CLEAR.

4. PUMP B - RSP TK OVR is OFF.

Continued on next page Hope Creekc Page 25 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDr;,htj 20041212 internal Use Only IIC.OP-SO.B3B-0002(Q) 5.1.8 (Continued)

J. ENSURE RECIRC PUMP TRIP A(B)P201 PUMP MTR BRKR 1AN205 AND ICN205 (IBN205 AND IDN205) are CLOSED.

K. PRESS the following push buttons for REACTOR RECIRCULATION PUMP A AND PUMP B.

1. HIGH VIBRATION TRIP RESET.

2. SCOOP TUBE TRIP RESET (SCOOP TUBE LOCK UP light goes OFF).

5.1.9 START the first idle Reactor Recirc Pump as follows:

NOTE 5.1.9.A The limitations of Technical Specification 3.4.1.4 shall be observed prior to starting an idle Reactor Recirculation Pump.

A. Withih 15 minutes prior to starting pump, VERIFY temperature differential between Reactor coolant within idle loop AND coolant in pressure vessel is < 50'F as indicated by:

[T/S 4.4.1.4]

• Dome temperature calculated from REACTOR PRESSURE IAW HC.OP-DL.ZZ-0026(Q).

• RECIRC PUMP SUCTION LOOP A(B) TEMP IAW HC.OP-DL.ZZ-0026(Q).

B. LOG the above temperatures in HC.OP-DL.ZZ-0026(Q),

Attachment 3v.

Continued on next page Hlope Creek Page 26 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 VSM4 internal Use Only IIC.OP-SO.BB-0002(Q) 5.1.9 (Continued)

NOTE 5.1.9.C To obtain a true bottom head drain temperature reading on Computer point A2942 one of the following conditions must be met.

The RWCU System must be in service with BG-H-V-Fl01 SUCT FROM RPV BOT DRN open.

• RHR must be in Shutdown Cooling with BG-HV-FIOO SUCT FROM A RECIRC LP OR BG-HV-F106 SUCT FROM B RECIRC LP open AND BG-HV-F102 RECIRC LP SUCT HDR open AND BG-HV-Fl01 SUCT FROM RPV BOT DRN open to obtain a true bottom head drain temperature C. Within 15 minutes prior to starting pump, VERIFY temperature differential between Reactor coolant within dome AND bottom head drain is 5 145 0 F as indicated by: [T/S 4.4.1.4]

• Computer Point A2942-REAC ]OT HD DRN TEMP

• Dome temperature calculated from REACTOR PRESSURE IAW HC.OP-DL.ZZ-0026(QO.

D. LOG the above temperatures in HC.OP-DL.ZZ-0026(Q),

Attachment 3v.

NOTE 5.1.9.E IF the BP202 RHR Pump Is operating in Shutdown Cooling AND the AP201 Reactor Recirc Pump is to be placed in service, THEN performance of Step 5.1.9.E is NOT required.

E. .REMOVE the RHR System operating in the Shutdown Cooling mode from service.

Continued on next page loype.Creek Page 27 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDrtazi 20041212 internal Use Onlv IHC.OP-SO. BB -0002(Q) 5.1.9 (Continued)

CAUTION 6.1.9.F WHEN the RHIR System is operating in the Shutdown Cooling Mode, Recirc Loopi.

suction and discharge valve manipulations that result In a Shutdown Cooling Loop bypass flowpath being established shall be avoided (example: recirc suction and discharge valves being open simultaneously on the loop seeing Shutdown Cooling return flow).

F. THROTTLE OPEN BB-HV-F031A(B) PUMPA(B)DISCH VALVE as necessary to increase loop temperatures (push button must be pressed and held to effect valve opening.)

G. AFTER loop temperature requirements are satisfied, IF BB-HV-F031A(B) PUMP A(B) DISCH VALVE is open, THEN CLOSE BB-HV-FO31A(B) PUMP A(B) DISCH VALVE.

H. IF the 31B-HV-F03IA(B) PUMP A(B) DISCH VALVE has NOT been opened to satisfy the loop temperature requirements, THEN CYCLE BB-HV-F03lA(B) PUMP A(B) DISCH VALVE as necessary to verify that the valve is not bound, ensuring valve is left in the closed position after cycling.

I. ENSURE approximately 30 minutes have elapsed since completion of Step 5.1.5. This allows the #2 Seal Cavity to self-vent through the seal stage flow line.

J. ENSURE the temperature requirements of T/S 3.4.1.4 are satisfied PRIOR to performing the following step (REFE RENCE Steps 5.1.9.A through D).

Continued on next page Hope Creek . Page 28 of 66 Rev. 50

I-...

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDr 20041212 PAY internal Use Only tIC.OP-SO.BIB-0002(Q) 5.1.9 (Continued)

NOTE 5.1.9.K The next step will startth d'r6epective Motor Generator Set and Recirculation Pump.  ;.....

The following should be observed to occur after starting:

A. Recirc Pump A(B) drive motor ammeter will increase to approximately 3000 amps AND THEN decrease to approximately 200 amps.

B. Approximately 6 seconds after the MG set is started, the generator field breaker will close.

C. The Recirc Pump speed will increase to approximately 50% of rated generator speed.

D. The Recirc Pump speed will decrease AND settle at approximately 20% of rated speed.

CAUTION 6.1.9.K During the transition from Shutdown Cooling operations to establishment of normal Reactor Recirculation System operations, the RHR System may be left in Shutdown Cooling, only If BP202 Is the RHR Pump In service AND AP201 Is the Reactor Recirculation Pump to be started.

K. PRESS REACTOR RECIRCULATION PUMP A(B) MOTOR BRKR CLOSE push button.

L. VERIFY BB-HV-FO31A(B) REACTORRECIRCULATION PUMP A(L) OSCH VALVE opens according to jog sequence (approximately 80 seconds for full travel).

M. RAISE Reactor Recirculation Pump Speed to 25% - 30%,

to prevent erratic speed indications.

170031631)

Continued on next page Hopec Crock Page 29 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 2, 0 rnal Use Only HC.OP-SO.BB-0002(Q) 5.1.9 (Continued)

CAUTION 6.1.9.N Approximately 45 minutes may be required to stabilize motor-generator lube oil temperatures during post-maintenance equipment starts. Control Room temperature recorders B31-TRR625 and CRIDS points D2911 and D2912 provide pertinent parameter information and should be monitored for this duration. Local observation should also be in place. [70031515]

N. ADJUST TACS flow to IAE-126 (IBE-126) MG Set A(B)

Hydraulic Oil Cooler to maintain lube oil temperature between 11 07F and 130'F as indicated on TI-8290 A(B) MG Set A(B)

Lube Oil Temp (Local).

0. IF Shutdown Cooling was NOT terminated in Step 5.1 .9.E, AND the AP201 Reactor Recirc Pump is operating satisfactorily, THEN TERMINATE Shutdown Cooling IAW HC.OP-SOBC-0002(Q), Decay Heat Removal Operation.

5.1.10 START the second Reactor Recirc Pump as follows:

NOTE 6.1.10.A The limitations of Technical Specification 3.4.1.4 shall be observed prior to starting an idle Reactor Recirculation Pump.

A. Within 15 minutes prior to starting pump, ENSURE, operating Loop flow is 5 (50% rated loop flow),

as indicated on B31-FR-R614 RECIRC LOOP A / LOOP B FLOW. [TIS 4.4.1.4]

B. LOG FLOW in HC.OP-DL.ZZ-0026(Q), Attachment 3v.

C. Within 15 minutes prior to starting pump, ENSURE: temperature differential between idle AND operating Reactor Recirculation Loops is < 50 0 F, IAW HC.OP-DL.ZZ-0026(Q). [T/S 4.4.1.4]

D. LOG temperatures in HC.OP-DL.ZZ-0026(Q), Attachment 3v.

Continued on next page Hope Creek Page 30 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only HC.OP-SO.BB-0002(Q) 5.1.10 (Continued)

NOTE 5.1.10.E The RWCU System must be in service with BG-HV-FIOI SUCT FROM RPV BOT DRN open to obtain a true bottom head drain temperature reading on Computer Point A2942.

E. Within 15 minutes prior to starting pump, ENSURE temperature differential between Reactor coolant within dome AND bottom head drain is 5 1450 F as indicated by the following:

[T/S 4.4.1.4]

• Computer Point A2942-REAC BOT HD DRN TEMP

• Dome temperature calculated from REACTORPRESSURE, 1AW HC.OP-DL.ZZ-0026(Q).

F. LOG temperatures in HC.OP-DL.ZZ-0026(Q), Attachment 3v.

G. THROTTLE OPEN BB-HV-FO31A(B) PUMP A(B) DISCH VALVE as necessary to increase loop temperatures (push button must be pressed and held to effect valve opening).

H. AFTER loop temperature requirements are satisfied, IF BB-HV-FO31A(B) PUMP A(B) DISCH VALVE is open, THEN CLOSE BB-HV-F031A(B) PUMP A(B) DISCH VALVE.

I. IF the BB-HV-F03 1A(B) PUMP A(B) DISCH VALVE has NOT been opened to satisfy the loop temperature requirements, THEN CYCLE BB-HV-FO31A(B) PUMP A(B) DISCH VALVE as necessary to verify that the valve is not bound, ensuring valve is left in the closed position after cycling.

J. ENSURE approximately 30 minutes have elapsed since completion of Step 5.1.5. This allows the #2 Seal Cavity to self-vent through the seal stage flow line.

K. ENSURE the temperature requirements of T/S 3.4.1.4 are satisfied PRIOR to performing the following step (REFERENCE Step 5.1.10.A through F).

Continued on next page Hope Creek Page 31 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 1DSUEG Internal Use Only 11C.OP-SO.BB-0002(Q) 5.1.10 (Continued)

NOTE 6.1.10.L The next step will start the Trspective Motor Generator-Set AND Recirculation Pump.

The following should be observed to occur after starting:

A. Recirc Pump A(B) drive motor ammeter will increase to approximately 3000 amps AND THEN decrease to approximately 200 amps.

B. Approximately 6 seconds after the MG set is started, the generator field breaker will close.

C. The Recirc Pump speed will increase to approximately 50% of rated generator speed.

D. The Recirc Pump speed will decrease AND settle at approximately 20% of rated speed.

L. PRESS REACTOR RECIRCULATION PUMP A(B)

MOTOR BRKR CLOSE push button.

M. VERIFY BB-HV-F03lA(B) REACTORRECIRCULATION PUMP A(B) DISCH VALVE opens according to jog-sequence (approximately 80 seconds for full travel).

N. RAISE Reactor Recirculation Pump Speed to 25% - 30%,

to prevent erratic speed indications.

[700316311 CAUTION 6.1.10.0 Approximately 45 minutes may be required to stabilize motor-generator lube oil temperatures during post-maintenance equipment starts. Control Room temperature recorders B31-TRR625 and CRIDS points A2911 and A2912 provide pertinent parameter Information and should be monitored for this duration. Local observation should also be In place.

0. ADJUST TACS flow to lAE-126 (IBE-126) MG Set A(B)

Hydraulic Oil Cooler to maintain lube oil temperature between I I°F and 1301F as indicated on TI-8290 A(B) MG Set A(B) Lube Oil Temp (Local).

Hope Creek pCPage 32 of 66 - Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 I SE UInternal Use Only 11C.OP-SO.BB-0002(Q) 5.2 Reactor Recirculation System Tvo Loop Operation 5.2.1 ENSURE all prerequisites have been satisfied IAW Section 2.2.

5.2.2 PERFORM Manual Recirc Flow Control as follows:

NOTE 5.2.2.A Recirc Pump speed can NOT be increased above Its minimum set point until Feedwater flow is > 20% of its rated value.

A. MONITOR the following when changing Recire Pump speed:

• XR-R603AB,C,D - C51 (NEUTRON MONITORING)

APRM

• B31-FR-R614 RECIRC LOOP A(B) FLOW

• FR-R61 1A(B) RECIRC LOOP A(B) JET PUMP FLOW

. PDR-R613/FR-R613 CORE PLATE DIFF PRESS/JET PUMP FLOW B. RAISE OR LOWER Reactor Recirc Pump speed by intermittently pressing INCREASE OR DECREASE push button on SIC-R621A(B) PUMP A(B) SPD CONT.

5.2.3 ADJUST TACS flow to IAE-126 (IBE-126) MG Set A(B) Hydraulic Oil Cooler to maintain lube oil temperature between I 100 F and 1300 F as indicated on TI-8290 A(B) MG Set A(B) Lube Oil Temp (Local).

Hope Creek Page 33 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 P'SEG Internal Use Only HC.OP-SO.BII1-0002(Q)

NOTE 5.2.4 A. Reactor Recirc Master Manual mode may be used ONLY when > 45% speed and s 102% Total Core Flow.

B. For Master Manual operation, Steps 5.2.4 through 5.2.6 are performed.

5.2.4 IF Master Manual operation is desired, WHEN Recirc Pump speed is > 45%,

THEN PERFORM MASTER MANUAL Recirc Flow Control as follows:

A. ENSURE SIC-R620 MASTER SPD CONT MAN push button is ON.

B. ENSURE both Recirc Pump A AND B speeds are matched (approximately).

C. PRESS OUTPUT A SELECT push button on SIC-R620 MASTER SPD CONT.

D. PRESS SIC-R620 MAST CONT INCREASE OR DECREASE push button as necessary to null RECIR MASTR DEMAND on the SIC-R620 A/B DEMND OUTPT (approximately).

E. PRESS SIC-R621A PUMP A SPD CONT AUTO push button.

F. PRESS OUTPUT B SELECT push button on SIC-R620 MASTER SPD CONT.

Continued on next page Hope Creek Page 34 of66 Rev. SO

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDPJ-%y 20041212 IN .zianal Use OnIX HC.OP-SO.BB-0002(Q) 5.2.4.G (Continued)

NOTE 6.2.4.G The following step will change speed on the B Recirc Pump. IF there is a speed mismatch of > 5%, A Recirc Pump speed should be adjusted, using the Master Controller to halve the difference.

G. IF SIC-R620 A/B DEMND OUTPT AND SIC-R620 RECIR MASTR DEMND do NOT match, THEN PRESS -SIC-R621B PUMP B SPD CONT INCREASE OR DECREASE push button to adjust B Pump speed so that the B Pump speed as indicated on SIC-R620 A/B DEMND OUTPT matches SIC-R620 RECIR MASTR DEMND (approximately).

H. r~Ess SIC-R621B PUMP B SPD CONT AUTO push button.

I. CONTROL Recirculation Pump speed AND Reactor Power by intermittently pressing appropriate INCREASE OR DECREASE push button on SIC-R620 MASTER SPD CONT as necessary.

J. ADJUST TACS flow to IAE-126 (IBE-126) MG Set A(B)

Hydraulic Oil Cooler to maintain lube oil temperature between 11 0°F and 130°F as indicated on T1-8290 A(B) MG Set A(B)

Lube Oil Temp (Local).

5.2.5 To CONTROL RecircPumps speed above 100% Total Core Flow:

A. Intermittently PRESS SIC-R620 MASTER SPEED INCREASE push button UNTIL 102% Total Core Flow is reached.

B. PRESS SIC-R621APUMP A SPD CONT MANUAL pusb button.

C. PRESS SIC-R621B PUMP B SPD CONT MANUAL push button.

Continued on next page Hope Creek Page 35 of 66 Rev. 50

ON THE SPOT CHANGE PRINTED 20041212 IT IS THE RESPONSIBILITY OF THE USER TO VERIFY REVISION, STATUS PRINTED_ .20Aj.Q3.9l Use Only HC.OP-SO.1B1-0002(Q) 5.2.5 (Continued)

CAUTION 6.2.5.D A. Neither Recirculatlon Pump should be operated above the Danger Vibration Sotpolnt.

RADIAL AXIAL ALERT DANGER ALERT DANGER Recire Pump A 11.0 mils 21.0 mils 7.0 mils 11.j mIls RecIrc Pump B -4.0 mJll 21.0 mil 7ls 11.0 mIls jWA.

11o Itos B. 105% Total Core Flow shall NOT be exceeded In the following step, D. INCREASE Recirculation Pumps speed to 105% Total Core Flow, as necessary, by Intermittently pressing SIC.R621A PUMP A SPD CONT AND SIC-R621B PUMP B SPD CONT INCREASE push buttons until desired speed Isreached.

E. DECREASE Recirculation Pumps speed to I00% .Total Core Flow, as necessary, as follows:

1. Intermittently PRESS SIC-R621A PUMP A SPD CONT AND SIC. R621B PUMP B SPD CONT DECREASE push buttons UNTIL 100% Total Core Flow is reached.

2. PLACE both Recirculation Pumps speed controllers in MASTER MANUAL IAW Steps 5.2.4.A through 5.2.4.1.

F. ADJUST TACS flowto 1E-126 (BE-126)MG Set A(B)

Hydraulic Oil Cooler to-maintain lube oil temperaturc between 110°F and 130F as indicated on TI-8290 A(B) MG Set A(B) Lube Oil Temp (Local).

Hopp, Crock Hkage 36 of 66 Rev. 50 I-

ON THE SPOT CHANGE PRINTED 20041212 IT IS THE RESPONSIBILITY OF THE USER TO VERIFY REVISION, STATUS PRINT ED OOl,4tJ Use Only IUC.OP-SO.BB-0002(Q)

NOTE 8.2,6.

The limitations of Tech Spec 3.4.1.1 shall be observed for flow mismatch requirements.

5.2.6 IF Individual MANUAL operation is desired, PERFORMI the following:

A. PRESS SIC-R621A PUMP A SPD CONT MANUAL push button.

B.. PRESS S]C-R621B PUMP B SPD CONT MANUAL push button.

CAUTION 6,2.6.0 A. NeIther Recirculatlon Pump should be operated above the Danger Vibration Sotpolnt.

RADIAL AXIAL ALERT DANGER ALERT DANGER Rcire Pump A 11.0 mils 21.0 mIl mils1.0 mile il7.0 Recirc Pump B . 21.0 mile m11.0 mll B. 105% Total Core Flow shall NOT be exceeded Inthe following stop.

C, RAISE OR LOWER Reactor Recirc Pump speed by intermittently pressing INCREASE OR DECREASE push button on SIC-R621A(B) PUMP A(B) SPD CONT.push buttons until desired speeds are reached.

D. ADJUST TACS flow to IAE-126 (1B&126) MG Set A(B)

Hydraulic Oil Cooler to maintain lube oil temperature between 11 00F and 130 0 F as Indicated on TI-S290 A(B) MG Set A(B) Lube Oil Temp (Local).

E. VHEN desired AND <102% Total Core flow,,

PLACE both Recirc Pump Speed Controllers in Master Manual 1AW Step 5.2.4.A through 5.2,4.1.

I-ope Creek Page 37 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 I'SEG Internal Use Only HC.OP-SO.BB-0002(Q) 5.3 Reactor Recirculation Single Loop Operation NOTE 5.3 IF operating in Single Loop, the following actions must be taken to determine actual core flow:

A. IF the operating loop Recirc Pump speed is > 48% AND drive flow is

> 23,000 gpm, THEN core flow indication can be taken from the flow recorder.

B. IF the operating loop recirc pump speed is < 48% speed AND < 23,000 gpm, THEN the flow In the idle loop is positive (forward) flow.

The Idle loop jet pump flow AND the operating loop jet pump flow should be added to obtain actual core flow.

CAUTION 6.3 A. IF operation Is to continue with one Recirculation Loop Shutdown, the Limitations of TIS 3.4.1.1 and surveillance requirement of TIS 4.4.1.2.b shall be observed. [TIS 4.4.1.2.b]

B. With the operable loop drive flow near 23 Kgpm (approximately 48% Pump speed), the flow through the Idle loop Is close to zero and will swap back and forth between forward and reverse flow. Operation can cause excessive jet pump vibration and the potential for consequent stress fatigue of the riser brace welds to the vessel. Operation In this area should be minimized.

[80033270]

Hope Creek Page 38 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 r'Lti Internal Use Only HC.OP-SO.BB-0002(Q)

CAUTION 5.3.1 A. The Limitations of T/S 3.4.1.1 shall be observed prior to the shutdown of an operating Reactor RecIrc Pump during Operational Conditions I AND 2. Reactor Engineering AND Instrumentation and Controls have prerequisites to satisfy prior to the commencement of single loop operation. [TiS 3.4.1.1]

B. Instrumentation and Controls must reduce the APRM Scram and Rod Block Monitor Trip Setpoints and Allowable Values to those applicable for single recirculation loop operation per Technical Specification 2.2.1,

i 3.2.2, & 3.3.6. This must be done within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> of commencing single recirculation loop operation. Compliance with Action Statements 3.4.1.1.a.2, a.3 AND a.4 satisfies the APRM specifications in 2.2.1,3.2.2, and 3.3.6 unless an event other than single loop operations affects these specifications, In which case, those Action Statements must also be entered. ITIS 3.4.1.1]

C. IF operation Is to continue with one Recirculation Loop Shutdown, the Limitations of TIS 3.4.1.1 and surveillance requirement of TIS 4.4.1.2.b shall be observed. [T/S 4.4.1.2.b]

5.3.1 ENSURE all prerequisites have been satisfied 1AW Section 2.3.

5.3.2 NOTIFY Instrumentation and Controls thatihey have 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> to reduce APRM Scram and Rod Block Monitor Trip Setpoints and Allowable Values in accordance with Technical Specification 3.4.1.1. [TIS 3.4.1.1]

Hope Creek Page 39 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only HC.OP-SQ.I)B-0002(Q)

CAUTION 5.3.3 A. Power-to-Flow Maps should be observed while decreasing power and prior to removing the recirculation pump from service. [Reference Attachment 11 B. Core flow must be maintained > 40% during single loop operations to prevent cooldown of the idle loop.

C. With NO Recirc Pumps In service in Operational Condition 1, the Reactor shall be manually scrammed.

5.3.3 REDUCE Reactor Power by decreasing core flow and/or inserting control rods IAW Reactor Engineering instructions.

5.3.4 TRANSFER Reactor Recirc Pump A AND B control to Manual Recirc Flow Control by pressing SIC-R621A

• AND B PUMP A AND B SPD CONT MAN push buttons.

5.3.5 SIMULTANEOUSLY PERFORM the following two steps:

• On the pump remaining in-service, INTERMITTENTLY PRESS SIC-R621B(A) PUMP B(A)

SPD CONT INCREASEIDECREASE push button UNTIL desired speed is reached, THEN RELEASE.

• On the pump being removed from service, INTERMITTENTLY PRESS SIC-R621A(B) PUMP A(B)

SPD CONT DECREASE push button UNTIL minimum speed is reached, THEN RELEASE.

5.3.6 PRESS PUMP A(B) MOTOR BRKR TRIP push button.

Holpe Cr-eck Page 40 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDrst20041212 jinternal Use Only I1C.OP-SO.BB-0002(Q)

NOTE 5.3.7 A. IF BB-HV-F031A(B) can NOT be opened in the following step, then Step 5.3.8 must be performed. Otherwise, Step 5.3.8 may be disregarded.

B. BB-H1-F031A(B) PUMP A(B) DISCH VALVE should be left closed following the 5 minutes IF Shutdown Cooling Isto be placed in service or for pump maintenance that requires the discharge valve to remain closed. [CD-976B]

5.3.7 CLOSE BB-HV-F031A(B) PUMP A(B) DISCH VALVE for approximately 5 minutes, THEN RE-OPEN the valve to keep the loop Temperature within 50 0F of the Reactor coolant temperature (push button must be pressed and held to effect valve opening). [CD-976B]

5.3.8 IF BB-HV-F03lA(B) PUMP A(B) DISCH VALVE can NOT be opened (loop remains isolated),

THEN RECORD the time isolated in HC.OP-DL.ZZ-0026(Q),

Surveillance Log, Attachment 3v (T/S item 4.4.1.1.2.c),

AND INFORM System Engineering.

Continued on next page Hope Creek Page 41 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20 2,4A1?1.nal Usc Only HC.OP-SO.BB-0002(Q) 5.3 (Continued)

NOTE 5.3.9 A. Recirc Flow control must remain in local Manual Mode,'THERMAL POWER' must remain < 70% of Rated AND Recirc Pump speed must remain < 90% of rated pump speed (90% of rated pump speed Is 79% indicated), while operating with a single recirc loop in service.

B. IF core flow can NOT be increased above 40% in the following step OR drops below 40%, then Step 5.3.10 must be performed. Otherwise, Step 5.3.10 may be disregarded.

CAUTION 5.3.9 A. The lImitations of Tech Spec 3.4.1.1 shall be observed during Operational Conditions I AND 2 with a single recirculation loop in service.

B. Core flow must be maintained > 40% during single loop operations to prevent cooldown of the Idle loop.

5.3.9 INCREASE core'flow to > 40% of rated core flow, as required. Recirculation Pump speed AND Reactor Power are now controlled by pressing the appropriate INCREASE OR DECREASE push button on SIC-R621B(A) Pump B(A)

SPD CONT as necessary.

5.3.10 IF core flow can NOT be increased above 40% OR drops below 40%,

THEN RECORD the time in HC.OP-DL.ZZ-0026(Q),

Surveillance Log, Attachment 3v (T/S 3.4.1. 1,ACTIONS c and d),

AND INFORM System Engineering.

Hope Creek Page 42 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 rSEL internal Use Only HC.OP-SO.BB-0002(Q) 5.3.11 IFthe MG Set A(B) Lube Oil system associated with the Recirc Pump removed from service is itself to be removed from service, THEN PERFORM the following:

A. ENSURE Motor-Generator set A(B) has stopped turning (Local).

B. PRESS MAN push button of PUMP A(B) AUXILIARIES LUBE OIL PUMP AlP120(BP120)

OR A2PI20(BP120) which was in standby.

C. PLACE the (Local) control switch for AP-1 13(BP-1 13)

Emergency Lube Oil Pump in OFF.

D. AFTER MG Set lube oil temperature has decreased to < 1100 F as indicated on TI-8290A(B) MG Set A(B) Lube Oil Temp, STOP PUMP A(B) AUXILIARIES LUBE OIL PUMP A1Pl20(BIPl20) OR A2Pl20(B2P120).

E. STOP Fluid Coupler Oil Mist Eliminator IA(B)VI35 (Local)

AND/OR REMOVE Oil Mist Eliminator IA-V-136 IAW section 5.8.

5.3.12 IF the MG Set A(B) Lube Oil System was left in service, THEN ADJUST TACS flow to IAE-126 (lBE-126)MG Set A(B)

Hydraulic Oil Cooler to maintain lube oil temperature ibetween I 10 0 F and 1300 F as indicated on TI-8290 A(B) MG Set A(B) Lube Oil Temp (Local).

5.3.13 IF Reactor Recirc Pump isolation is desired, THEN REFER to Section 5.6, Reactor Recirculation System Shutdown.

5.3.14 WHEN ready to return the second Recirc Pump to service, THEN REFER to Section 5.1, Reactor Recirculation System Startup.

Hop~e Crcok Page 43 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only HC.OP-SO.BB-0002(Q) 5.4 Resetting Reactor Recirculation Pump Runback CAUTION 5.4 A. WHEN a scoop tube is locked up, a recirculation runback may create a large flow mismatch. Timely action must be taken to match loop flows by either resetting the runback, if possible, AND increasing the flow In the runback loop OR-by unlocking the scoop tube to lower flow in the locked up loop. IF action cannot be taken In a timely manner, the Recirc Pump In the low flow (unlocked) loop should be tripped.

• B. IF BOTH pumpseare NOT In manual prior to attempting to reset a' runback, unwanted reactivity manipulationipower decrease may occur.

5.4.1 ENSURE all Prerequisites have been satisfied IAW Section 2.4.

5.4.2 ENSURE BOTH SIC-R621A PUMP A SPD CONT is in MAN AND SIC-R621B PUMP B SPD CONT is in MAN.

5.4.3 ENSURE the A/B DEMND OUTPT on SIC-R620 MASTER SPD CONT is less than or equal to the SPEED DEMAND indicated on SIC-R621 A(B)

PUMP A(B) SPD CONT by performing the following:

A. PRESS OUTPUT A(B) SELECT on SIC-R620 MASTER SPD CONT.

B. REDUCE A/B DEMND OUTPT on SIC-R620 MASTER SPD CONT by pressing the DECREASE push button on SIC-R621 A(B)

PUMP A(B) SPD CONT until the A/B DEMND OUTPT on the SIC-R620 MASTER SPD CONT is less than or equal to the SPEED DEMAND on SIC-R621 A(B) PUMP A(B) SPD CONT.

C. REDUCE SIC-R620 MASTER SPD CONT RECIR MASTR DEMND to match A/B DEMND OUTPT (approximately).

5.4.4 PRESS the following for Reactor Recirc Pump A(B):

A. INTMD RUNBACK RESET push button B. FULL RUNBACK RESET push button TIope Crock Page 44 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 I IU internal Use Only HC.OP-SO.BB-0002(Q) 5.5 Scoop Tube Positioner Lockup Operation CAUTION 5.5 WHEN a scoop tube is locked up, a recirculation runback may create a large flow mismatch. Timely action must be taken to match loop flows by either resetting the runback, if possible, AND Increasing the flow In the runback loop OR by unlocking the scoop tube to lower flow in the locked up loop. IF action cannot be taken in a timely manner, the Recirc Pump In the low flow (unlocked) loop should be tripped.

5.5.1 ENSURE all Prerequisites have been satisfied IAW Section 2.5.

NOTE 5.5.2 This step is written for routine transfer to the Lockup position AND is NOT to be used for an emergency lockup.

5.5.2 PERFORM the following to lock up the Reactor Recirc Pump Motor/Generator Scoop Tube Positioner:

A. PRESS SIC-R621A AND B PUMP A AND B SPD CONT MAN push buttons.

B.. EQUALIZE A AND B Recirc Pump Speeds by increasing OR decreasing pump speeds with SIC-R621A AND B PUMP A AND B SPD CONT while maintaining constant Reactor Power.

C. .PRESS SCOOP TUBE TRIP push button A(B)

AND ENSURE SCOOP TUBE LOCKUP light comes on for the desired Motor/Generator.

flope Creek oPage 45 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDi',iSi..

20041212 internal Use Only HC.OP-SO.BB-0002(Q)

NOTE 6.6.3 Operation of the Scoop Tube Controller locally shall be performed by a Licensed Operator.

5.5.3 PERFORM the following to manually control the speed of Reactor Recirc Pump A(B) from the Scoop Tube Positioner (Local):

A. REQUEST NCO in the Main Control Room to maintain constant communications while adjusting pump speed.

CAUTION 5.6.3.Bl The Scoop Tube Positioner should not be manually positioned unless the Scoop Tube Positioner power switch Is OFF.

B. PLACE Reactor Recirc A(B) Scoop Tube Positioner power switch in OFF.

C. REMOVE handcrank from inside Positioner on mounting bracket-D. INSTALL handcrank on shaft.

NOTE 6.6.3.E A firm grip must be applied to the handcrank before releasing the Brake to prevent the load from driving through the Control Drive.

-E. DISENGAGE the Reactor Recirc A(B) Scoop Tube Positioner Disc

.Brake manually by turning down on the (2)Red Capped dial screws at 180° fpart (REFER TO Figure 1).

Continued on next page Hope Creek Page 46 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION. STATUS AND CHANGES PRINTED[ 2004 21 2nal Use Only HC.OP-SO.BB-0002(Q) 5.5.3 (Continued)

CAME ta APART rn< W DJ

- "rrn" f, Mr _r _ .M L 1 GDE VIEW loP VIEW (2) SCREWS 180° apart Figure 1 F. After receiving the proper instructions from the NCO as to direction of pump speed, slowly ROTATE shaft clockwise to reduce speed OR counterclockwise to increase speed.

0. WHEN speed has been adjusted to the proper level, ENGAGE the Reactor Recirc A(B) Scoop Tube Positioner Disc Brake manually by turning up on the (2) Red Capped dial screws at 1800 apart (REFER TO Figure 1).

H. IF manual adjustment of the Scoop Tube is to be terminated, THEN PERFORM the following:

1. REMOVE handcrank from shaft.

2. PLACE the handcrank in its mounting bracket.

3. PLACE Reactor Recirc A(B) Scoop Tube Positioner Power Switch in ON.

4. To remove the Scoop Tube from the Locked-up position, CONTINUE with Step 5.5.4.

Hope Creek Page 47 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES 20041212 PRINTEDtrS.Li i internal Use Only HC.OP-SO.I]B-0002(Q) 5.5.4 To unlock the Reactor Recirc Pump Motor/Generator Scoop Tube Positioner, PERFORM the following:

NOTE 5.5.4.A IF the Scoop Tube Lockup condition was a result of either:

(1) reaching the electrical stops OR (2) pressing the Scoop Tube Trip push button, AND NO manual speed adjustments have been made, THEN Step 5.5.4A should NOT be performed (continue at Step 5.5.4.B).

A. VERIFY the Reactor Recirc A(B) Scoop Tube Positioner Disc Brake is engaged manually by turning up on the (2) Red Capped dial screws at 1800 apart (SEE Figure 1).

NOTE 6.5.4.Bl Speed demand will drift continuously and care must be used when Scoop Tube Lockup is reset.

B. PRESS SIC-R621A(B) PUMP A(B) SPD CONT INCREASE OR DECREASE push button as necessary to null indicated speed on SIC-R621A(B) with associated pump output signal at A/B DEMND OUTPT on SIC-R620 MASTER SPD CONT.

NOTE 6.5.4.C A small speed change of c 5% may be experienced when coming out of Lockup.

CAUTION 5.5.4.C When coming out of Scoop Tube Lockup, the potential exists for the Reciro Pump to "Run Away", and the operator should be prepared to take appropriate action.

C. WHEN SIC-.R621A(B) PUMP A(B) SPD CONT SPEED DEMAND indicator is slightly less than indicated speed, PRESS SCOOP TUBE TRIP RESET AND ENSURE SCOOP TUBE LOCK-UP light goes off.

D. ADJUST speed(s) as necessary.

Hop~e Creek Page 48 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 2 0 0 4 12 12nat Use Only HC.OP-SO.IB-0002(Q) 5.6 Reactor Recirculation System Shutdown NOTE 5.6 IF shutdown of the Reactor Recirculation System is to be performed to accommodate ..

placing Shutdown Cooling in operation, consideration may be given to maintaining Reactor Recirculation inservice to provide forced core flow until the required RHR flow is achieved. During the transition from normal Reactor Recirculatlon System operations to establishment of Shutdown Cooling, only the AP201 Reactor Recirculation Pump may be left in operation until the BP202 RHR pump is operating satisfactorily, AND then only until the required B RHR Loop flow of 10, 000 gpm Isachieved.

CAUTION 5.6.1 A. The limitations of Tech Spec 3.4.1.1 shall be observed prior to the shutdown of an operating Reactor Recirc Pump during Operational Conditions I and 2.

B. With NO Recirc Pumps In service and In Operational Condition 1, I' then the Reactor shall be manually scrammed 5.6.1 ENSURE all prerequisites have been satisfied 1AW Section 2.6.

5.6.2 REDUCE Reactor Power by decreasing core flow and/or inserting control rods 1AW Reactor Engineering instructions.

5.6.3 TRANSFER Reactor Recirc Pump A*

AND B control to Manual Recirc Flow Control by pressing SIC-R621A AND B.PUMP A AND B SPD CONT MAN push buttons.

5.6.4 PRESS SIC-R621A(B) PUMP A(B). SPD CONT DECREASE push button UN1lL minimum speed is reached.

5.6.5 PRESS PUMP A(B) MOTOR BRKR TRIP push button.

Hope Creek Page 49 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED "4 iaiunal Use Only IIC.OP-SO.BB-0002(Q)

CAUTION 5.6.6 BB-HV-F031A(B) PUMP A(B) DISCH VALVE should be left closed following the 5 minutes IF Shutdown Cod1irg 'id to be placed in service OR for pump maintenance that requires the discharge valve to remain closed. [CD-976B]

5.6.6 CLOSE BB-HV-F031A(B) PUMP A(B) DISCH VALVE for approximately 5 minutes, THEN RE-OPEN BB-HV-F03 IA(B) to keep the loop temperature within 50'F of the reactor coolant temperature (push button must be pressed and held to effect valve opening). [CD-976B]

5.6.7 IF the MG Set A(B) Lube Oil system is to be removed from service, THEN PERFORM the following:

A. ENSURE Motor-Generator Set A(B) has stopped turning (Local).

B. PRESS MAN push button of PUMP A(B) AUXILIARIES LUBE OIL PUMP AlP120(B1P120)

OR A2P120(B2P120) which was in standby.

C. PLACE the (local) control switch for AP-1 13(BP-1 13) the Emergency Lube Oil Pump in OFF.

D. AFTER the MG Set lube oil temperature has decreased to < IIOTF as indicated on TI-8290A(B) MG Set A(B) Lube Oil Temp, STOP PUMP A(B) AUXILIARIES LUBE OIL PUMP AlP120(BIP120) OR A2P120(B2P120).

E. STOP Fluid Coupler Oil Mist Eliminator IA(B)V135 (Local)

AND/OR REMOVE Oil Mist Eliminator 1A-V-136 IAW section 5.8.

5.6.8 IF the MG Set A(B) Lube Oil system was left in service, THEN ADJUST TACS flow to IAE-126 (lBE-126) MG Set A(B)

Hydraulic Oil Cooler to maintain lube oil temperature between I 100 F and 1300 F as indicated on TI-8290 A(B) MG Set A(B) Lube Oil Temp (local).

Hope Creek Page 50 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES 20041212 PRINTED r"11'u internal Use Only HC.OP-SO.BB-0002(Q)

CAUTION 6.6.9 A. Closure of both Reactor Recirc Pump suction valves will result in a loss

'. of suction to the Reactor Water Cleanup System, unless the RWCU bottom head suction path is established.

B. To avoid over-pressurizing and overcooling the pump casing, the Seal Purge Water for the Reactor Recirc Pump seals must be secured prior to isolating the pump. [CD-219B]

5.6.9 IF isolation of Reactor Recirc Pump A(B) is desired, THEN PERFORM the following:

A. CLOSE l-BF-V805(V804) CRD Drive Water Filter to Recirc Loop A(B) to prevent lifting relief valve.

B. CLOSE 1-BF-Vl00 (101) RX RECIRC PUMP A(B) CRD SEAL ISLN.

C. UNCAP AND INSTALL a hose at l-BF-V156 (V773) Recirc Pmps Seal Purge Supply Hdr Vent Vlv (Torus Access, Rm. 4223 (4321 Pipechase))

AND ROUTE to nearest floor/equipment drain.

D. OPEN 1-BF-VI55 (V772) Recirc Pmps Seal Purge Supply Hdr Vent Vlv.

E. OPEN 1-BF-V1 56 (V773) Recire Pmps Seal Purge Supply Hdr Vent Vlv.

F. CLOSE BF-HV-3800A(B) SEAL PURGE WTR VALVE.

G. CLOSE BB-HV-F023A(B) SUCTION VALVE.

H. ENSURE BB-HV-FO31A(B) PUMP DISCH VALVE is CLOSED.

I. CLOSE BG-HV-Fl00(Fl06) RWCU SUCTION VALVE.

J. CLOSE I-BB-V042(V046) Seal Purge Manual Isolation.

Continued on next page Hopec Creek Page 51 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 2 00 4II2?Inal Use Only HC.OP-SO.BB-0002(Q) 5.6.9 (Continued)

K. OPEN 1-BB-V050(V052)

AND l-BB-V051(V053) Seal Vent.

L. ~IIpump draining is required (for seal replacement, the pump is kept full for shielding),

THEN PERFORM the following:

1. OPEN 1-BG-V167(V169)

AND l-BG-V168(V170) Pump Drains.

2. OPEN I-BB-V647(V681)

AND 1-BB-V648(V682).

M. CLOSE I-ED-VO23(VO24)

AND 1-ED-V025(V026) RACS Isolation Valves.

Hope Creek Page 52 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PLSMEInternal Use Only HC.OP-SO.BB-0002(Q)

NOTE 5.7 A. This subsection may be used to restart one or both Reactor Recirc Pumps to prevent thermal stratification following a plant transient, but only when In Operational Condition 3 or 4. [700315151 B. This subsection should not be used if the Recirc System has been out of service for an extended period as determined by the SMICRS.

C. All operations are performed from 10C651 Section C unless otherwise noted.

5.7 Reactor Recirculation Pump Quick Rcstart 5.7.1 ENSURE all prerequisites have been satisfied lAW Section 2.7. .

5.7.2 ENSURE Reactor level is greater than +30 inches to ensure adequate NPSH is available.

5.7.3 VERIFY BB-HV-F023A(B) SUCTION VALVE AND BG-HV-FlOO(F106) RWCU SUCTION VALVE are OPEN.

5.7.4 PREPARE the Reactor Recirc Pump for start as follows:

A. VERIFY that PUMP A(B) LOCKOUT BUS POWER AVAILABLE light is illuminated.

B. VERIFY the following MG Set parameters:

1. Computer Point D2915 (D2916) RECIRC MG A(B)

DRV LUBO PRESS is NOT in alarm.

2. Computer Point D2913 (D2914) RECIRC MG A(B)

LUBE OIL TEMP is NOT in alarm.

Continued on next page Hop~e Creek Page 53 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTEDr~bE 20041212 intcrnal Use Only IIC.OP-SO.BB-0002(Q) 5.7.4 (Continued)

C. VERIFY the following:

1. PUMP A(B) - MOT-GEN-FIELD BRKR TRIPPED is ON.

2. All protective AND Generator Lockout relays are reset (Local Panel A(B)C158).

3. REACTOR RECIRC "A"("B") TROUBLE annunciator C1-D4 (CI-D5) is CLEAR.

4. PUMP B - RSP TK OVR is OFF.

D. IF RECIRC PUMP TRIP A(B)P201 PUMP MTR BRKR IAN205 AND 1CN205 (IBN205 AND 1DN205) have TRIPPED, THEN PERFORM the following:

I. ENSURE the following switches are in BYP:

• C71-512A RECIRC PUMP TRIP SYSTEM A DISABLE.

• C71-512B RECIRC PUMP TRIP SYSTEM B DISABLE.

2. ENSURE RRCS is RESET.

3. CLOSE RECIRC PUMP TRIP A(B)P201 PUMP MTR BRKR 1AN205.

AND ICN205 (IBN205 AND IDN205).

E. PRESS the following push buttons for REACTOR RECIRCULATION PUMP A AND PUMP B.

1. HIGH VIBRATION TRIP RESET.

2. SCOOP TUBE TRIP RESET (SCOOP TUBE LOCK UP light goes off).

Hople Creek Page 54 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION. STATUS AND CHANGES PRINTEDr"Jt~

20041212 internal Use Only HiC.OP-SO.BB-0002(Q) 5.7.5 IF desired, START the first idle Reactor Recirc Pump as follows (A Reactor Recirc Pump is preferred):

NOTE 6.7.5.A-The limitations of Technical Specification 3.4.1.4 shall be observed prior to starting an idle Reactor Recirculation Pump.

A. Within 15 minutes prior to starting pump, VERIFY temperature differential between Reactor coolant within idle loop AND coolant in pressure vessel is < 50 0F as indicated by: [T/S 4.4.1.4]

1. Dome temperature calculated from REACTOR PRESSURE IAW HC.OP-DL.ZZ-0026(Q).

2. RECIRC PUMP SUCTION LOOP A(B) TEMP 1AW lIC.OP-DL.ZZ-0026(Q).

B. LOG the above temperatures in HC.OP-DL.ZZ-0026(Q),

Attachment 3v.

Continued on next page Hope Creek Page 55 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only HC.OP-SO.B13-0002(Q) 5.7.5 (Continued)

NOTE 5.7.5.C The RWCU System must be In service with BG-HV-Fl01 SUCT FROM RPV BOT DRN -

open to obtain a true bottom head drain temperature reading on Computer point A2942.

C. Within 15 minutes prior to starting pump, VERIFY temperature differential between Reactor coolant within dome AND bottom head drain is

• 145 0F as indicated by:

[T/S 4.4.1.4]

1. Computer Point A2942-REAC BOT HD DRN TEMP

2. Dome temperature calculated from REACTOR PRESSURE IAW HC.OP-DL.ZZ-0026(Q).

D. LOG the above temperatures in HC.OP-DL.ZZ-0026(Q),

Attachment 3v.

E. After loop temperature requirements are satisfied, IF BB-HV-F031A(B) PUMP A(B) DISCH VALVE is open, TIEN CLOSE BB-HV-F031A(B) PUMP A(B) DISCH VALVE.

F. ENSURE the temperature requirements of Technical Specification 3.4.1.4 are satisfied prior to performing the following step.

Continued on next page Hope Creek Page 56 of 66 Rtev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only HC.OP-SO.IBB-0002(Q) 5.7.5 (Continued)

NOTE 5.7.5.G The next step will start the respective Motor Generator Set AND Recirculation Pump.

The following should be observed to occur after starting:

A. Recirc Pump A(B) drive motor ammeter will increase to approximately 3000 amps AND THEN decrease to approximately 200 amps.

B. Approximately 6 seconds after the MG set is started, the generator field breaker will close.

C. The Recirc Pump speed will increase to approximately 50% of rated generator speed.

D. The Recirc Pump speed will decrease AND settle at approximately 20% of rated speed.

G. PRESS REACTOR RECIRCULATION PUMP A(B) MOTOR BRKR CLOSE push button.

H. VERIFY BB-HV-FG31A(B) REACTOR RECIRCULATION PUMP A(B) DISCH VALVE opens according to jog sequence (approximately 80 seconds for full travel).

I. ADJUST TACS flow to IAE-126 (lBE-126) MG Set A(B)

Hydraulic Oil Cooler to maintain lube oil temperature between 110 F and 130 0F as indicated on TI-8290 A(B) MG Set A(B)

Lube Oil Temp (Local).

Hope Creek Page 57 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED ';iSi20041212 internal Use Only 11C.OP-SO.BB-0002(Q) 5.7.6 IF desired, START the second Reactor Recirc Pump as follows:

NOTE 6.7.6.A The limitations of TechnicalrSpecification 3.4.1.4 shall be observed priorto;starting an idle Reactor Recirculation Pump.

A. Within 15 minutes prior to starting pump, ENSURE operating Loop flow is 5 (50% rated loop flow),

as indicated on B3 I -FR-R614 RECIRC LOOP A / LOOP B FLOW. [T/S 4.4.1.4]

B. LOG FLOW in HC.OP-DL.ZZ-0026(Q)j Attachment 3v.

C. Within 15 minutes prior to starting pump, ENSURE temperature differential between idle AND operating Reactor Recirculation Loops is

• 50 0F, IAW HC.OP-DL.ZZ-0026(Q). [T/S 4.4.1.4]

D. LOG temperatures in HC.OP-DL.ZZ-0026(Q), Attachment 3v.

Continued on next page Hope Creek Page 58 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 lSF! G Internal Use Only HC.OP-SO.BB-0002(Q) 5.7.6 (Continued)

NOTE 6.7.6.E The RWCU System must be in service with BG-HV-F101 SUCT FROM RPV BOT DRN open to obtain atrue bottom head drain temperature reading on Computer Point A2942.

E. Within 15 minutes prior to starting pump, ENSURE temperature differential between Reactor coolant within dome AND bottom head drain is < 1457F as indicated by the following:

[TS 4.4.1.4]

• Computer Point A2942-REAC BOT HD DRN TEMP

• Dome temperature calculated from REACTOR PRESSURE, 1AW HC.OP-DL.ZZ-0026(Q).

F. LOG temperatures in HC.OP-DL.ZZ-0026(Q), Attachment 3v.

G. THROTTLE OPEN BB-HV-FO31A(B) PUMP A(B) DISCH VALVE as necessary to increase loop temperatures (push button must be pressed and held to effect valve opening).

H. After loop temperature requirements are satisfied, IF BB-HV-F03 1A(B) PUMP A(B) DISCH VALVE is open, THEN CLOSE BB-HV-F03 1A(B) PUMP A(B) DISCH VALVE.

I. ENSURE the temperature requirements of Technical Specification 3.4.1.4 are satisfied prior to performing the following step.

Continued on next page Hope Creek Page 59 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES 20041212 PRINTEDr~rit internal Use Only HIC.OP-SO.BB-0002(Q) 5.7.6 (Continued)

NOTE 5.7.6.J

-The next step will start the respective Motor Generator Set AND Recirculation Pump.

The following should be observed to occur after starting:

A. Recirc Pump A(B) drive motor ammeter will increase to approximately 3000 amps AND THEN decrease to approximately 200 amps.

B. Approximately 6 seconds after the MG set is started, the generator field breaker will close.

.4. .. . . .e C. The Recirc Pump speed will increase to approximately 50% of rated generator speed.

D. The Recirc Pump speed will decrease AND settle at approximately 20% of rated speed.

J. PRESS REACTOR RECIRCULATION PUMP A(B)

MOTOR BRKR CLOSE push button.

K. VERIFY BB-HV-F03lA(B) REACTOR RECIRCULATION PUMP A(B) DISCH VALVE opens according to jog sequence (approximately 80 seconds for full travel).

CAUTION 5.7.6.L Approximately 45 minutes may be required to stabilize motor-generator lube oil temperatures during post-maintenance equipment starts. Control Room temperature recorders B31-TRR625 and CRIDS points A2911 and A2912 provide pertinent parameter information and should be monitored for this duration. Local observation should also be In place. [7003i5151 L. ADJUST TACS flow to lAE-126 (lBE-126) MG Set A(B)

Hydraulic Oil Cooler to maintain lube oil temperature between 110F and 130 0F as indicated on TI-8290 A(B) MG Set A(B) Lube Oil Temp (Local).

Hop~e Creek Page 60 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only HC.OP-SO.BB-0002(Q) 58 Oil Mist EliminatorOperation

[700381941 5.8.1 To place the IA(B)-V-135 Oil Mist Eliminator in service, PLACE the *,-

Motor Starter for IA(B)-V-135 to "ON".

.* I 5.8.2 To remove the 1A(B)-V-135 Oil Mist Eliminator from service, PLACE the Motor Starter for I A(B)-V- 13 5 to "OFrFg".

CAUTION 6.8.3 Due to concerns with OilVapors being released to the atmosphere of the M-G room, the "A" Reactor Recirc Pump M-G Oil Mist Eliminator (H1BB -1A-V-136) should only be placed in-service when the "A" Reactor Recirculation Pump is being maintained at a steady speed ("Stable Power Operation"), and should not be used while "Maneuvering Power". Minor adjustments In Reactor Recirc Pump Speed, to maintain "Stable Power Operation", should be considered as "Stable Power Operation".

170036590]

5.8.3 To place the 1A-V-136 Oil Mist Eliminator in service, PERFORM the following:

A. POSITION Mg Set A Fluid Drive Blower Flow Damper 1-BB-V290 to "1/2" OPEN.

B. PLACE Motor Starter Operator For Demister lA-V-136, 1A-N-120 to ON.

C. FULLY OPEN Mg Set A Fluid Drive Blower Flow Damper 1-BB-V290.

5.8.4 To remove the 1A-V-136 Oil Mist Eliminator from service, PERFORM the following:

A. PLACE Motor Starter Operator For Demister IA-V-136, IA-N-120 to OFF.

B. CLOSE Mg Set A Fluid Drive Blower Flow Damper 1-BB-V290.

]lope Creek Page 61 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only JHC.OP-SO.BB-0002(Q) 6.0 RECORDS None.

7.0 REFERE NCES 7.1 P&ID:

M41-1 Sht 1, Sht 2 M42-1 Sht 1, Sht2 M43-1 Sht 1, Sht2 7.2 Logic Drawings:

J43-0 Sht 1, Sht2, Sht 3, Sht 4, Sht 6,.Sht 7, Sht 8, Sht 9, & Sht 10 7.3 Vendor Drawings PNI-B31-SO01-0120 7.4 Electrical Drawings:

E-4-1 E-13, Sht 1, Sht2, Sht 3 E-24-1 E-31-1 E-6016-0 Sht 2 E-6766-0 7.5 Vendor Manuals:

N-I B-31-124(1)-4 Reactor Coolant Pump N-I B-31-125(1)2 N-1 B-3 1-119(1)-3 Nuclear Reactor Water Pump Recirculating Motors N-1 B-3 1-120(1)-i Variable Frequency Motor Generator Set 7.6 Panel Drawings:

J-0650-1, Sht. 9 J-0651-1, Sht. 6 7.7 DITS:

D3.30, Rev. I 7.8 GE Documents:

GEK-90300, Vol. III, Part 1, Sept. 1983 7.9 Procedures HC.OP-AP.ZZ-0109(Q) Equipment Operational Control HC.OP-DL.ZZ-0026(Q) Surveillance Log Hope Crock Page 62 of 66 Revt.50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSE:G Internal Use Only HC .Op-SQ.111-0002(Q) 7.10 Commitment Documents CD-781A (GE SIL 203 and 203 Supp. 1)

CD-806A (GE SIL 062)

CD-184B (SOER 83-04)

CD-219B (INPO 0&MR 113)

CD-976B (GE SIL 368)

CD-389E SIL 436

{CD-354F (NRC Bulletin 88-07)

CD-230G NHO INCI 354192-073 CD-250G NHO INCI 354/92-089 CD-405H LER 95-039 CD-455H Level 2, Level 1 PR Upgrade by SORC (PR #960330084)

CD-191F GE SIL 459- Recirc pump shaft failure CD-921E Thermal cracking inspection of Recirc Pump PR 981019199 GE SIL 621 - Recirc operation with locked scoop tube 70031515 Recirc Pump Quick Restart 70029861 Recirc Pump Seal Purge 7.11 Other Documents:

DCR No. 4-EMJ-86-093 (and 093A)

DCR No. 4-HM-0006 DCRNo. 4-HM-0172 Memorandum HCT-95-194 Memorandum HCT-95-198 INPO SER 7-95 Letter NE-95-141 1 CR #950919568 PR #960330084 PR #951005196 Technical Specifications, 2.2.1, 3.2.2, 3.3.6, 3/4.4.1.1, 3/4.4.1.3, 314.4.1.4,3/4.4.5, 3.4.6.1 PR 961227150 PR 960105118 DCP 4EC-3458 DCP 80006592 PR 980720223 - Added Section 5.8; Reactor Recirculation Pump Quick Restart PR 981121110 - Added limitation 3.2.11 and direction into Note 5.3.21.B CR990410137, 80008321 - Recirc Seal Purge Header and Seal Cavity Venting 80029235- T-MOD 01-007 (60019637) 'B' Reactor Recirc Pump Vibration setpoints 80033270 GE SIL 628 70031631 Recirc Flow Loop 70036590 "A" Recirc M-G Demister 70038946 Recirc MG Set Oil Level I Hope Crck HPage 63 of 66 Rev. SO

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only 1IC.OPl-SO.BB-0002(Q)

ATTACHMENT 1 POWER TO FLOW MAP (Page 1 of 2)

POWER TO FLOW 110 -- r . ....- L-j ----I... .... 1. .... . ...

100 ..........

-kW  :.....:N

-...... r ....

f~

-: _S.

90 --- !

j'''''-..'.....j...........

-! - 4...... ... .

..... ........ W ........... X ....

sat6W

0. 80 .SCRAM-REGION--....................................

2

-J 70 ...... _....... :.:..... ....

Q 60 ............ ;XIT REGION ,

w . . ...  ;  :  :. , s ;;j.s; --- . -+ -i  :-;.

. . - -- -. -i --

w 50 i... i i

'i. ....

i i

4.

80%.

ItOf LI*4E'iii 4  : ......... . .... ....

40 iMIN. SPEED ..... 0% ROD---  ; ...................................

w 30 0 .... ~~~~~~ [o4

....---4-s-,-- -: -.

411-11 0X 20 I

i ii- CAViTAiTIo-N V LNC 10 .

i. iT i _  : :i  : @ i  : i f....i.:..: .  :.

0 0 10 20 30 40 50 60 70 80 90 100 110

% TOTAL CORE FLOW

[lope Creek Page 64 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal 'Use Only HC.OP-SO.B1B-0002(Q)

ATTACHMENT 1 POWER TO FLOW MAP (Page 2 of 2)

POWER TO FLOW 80...... :i:.

o -r i

a..:. .-.

50

........ ...... .. ..... . ..................... .i IL60 .... ...... -* ---

Jim.. .j.

60 -.

.. 14..

4 .yq:

i '.'-i.4

.4... -. 4 1 . ........

4 ., 4 -- .........

.- i..

... .4.-  :- ?

..............j.-..- . - .. . :r.-.4

? ..

. ... :... , .. f..4....... .. .. ... .. .......

4 -...................

%TOTL CORE FjL4-4-W--4--4--

-*j^ .3... _ .. ..... .. .. ..., f s ,1^'......

C 4....

• U -~~~~~~~~~..._i.L..i........... .L.... I - . .9. .......... i'3LIL..

_.'i.i.,,

40 , : ::,_1 .,¢,,,,:: : : :::  :  ::::]':

w30 w , r ;0r a. , s.Q~v . RD.. . . . ... ...... 50..  ;..qv

........... V. '607 'E.

...@s**@...

.^.. . r..::z.* .....:..:.....

.  :*:*...:..:...:......'....:-.......--..I.

.~. . ..._ .. . ..

30 40 50 60 70

% TOTAL CORE FLOW 11ope Creek Page 65 of 66 Rev. 50

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES PRINTED 20041212 PSEG Internal Use Only HC.OP-SO.BB-0002(Q)

EXHIBIT 1 REACTOR RECRICULATION PUMP MOTOR WPER OLLIUS I.

LvOROxL m SV 0 PfICATO)R .

IUPPEi~

DfAIJ VALVC ett u

H-ope Creek Page 66 of 66 Rev. 50