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| issue date = 12/26/1996
| issue date = 12/26/1996
| title = Forwards Proposed Rev to Inservice Testing Program,Including Relief Requests for V-24 & V-25 for Check Valves SJ55 & SJ56
| title = Forwards Proposed Rev to Inservice Testing Program,Including Relief Requests for V-24 & V-25 for Check Valves SJ55 & SJ56
| author name = STORZ L F
| author name = Storz L
| author affiliation = PUBLIC SERVICE ELECTRIC & GAS CO. OF NEW JERSEY
| author affiliation = PUBLIC SERVICE ELECTRIC & GAS CO. OF NEW JERSEY
| addressee name =  
| addressee name =  
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=Text=
=Text=
{{#Wiki_filter:INSERVICE TESTING PROGRAM RELIEF REQ1JEST.
{{#Wiki_filter:INSERVICE TESTING PROGRAM RELIEF REQ1JEST.
REC'D W/LTR DTD 12/26/96 ..  
REC'D W/LTR DTD 12/26/96 .. ~.9701020241
-NOTICE** THE ATTACHED FILES ARE OFFICIAL RECORDS OF THE INFORMATION  
        - NOTICE**
& RECORDS MANAGEMENT BRANCH. THEY HAVE BEEN CHARGED TO YOU FOR A LIMITED TIME PERIOD AND MUST BE RETURNED TO THE RECORDS & ARCHIVES SERVICES . SECTION, T5 C3. PLEASE DO NOT SEND DOCUMENTS CHARGED OUT THROUGH THE MAIL. REMOVAL OF ANY PAGE(S) FROM DOCUMENT FOR REPRODUCTION MUST BE REFERRED TO FILE PERSONNEL.  
THE ATTACHED FILES ARE OFFICIAL RECORDS OF THE INFORMATION &
**NOTICE -
RECORDS MANAGEMENT BRANCH.
Document Control Desk LR-N96437 ATTACHMENT 1 INSERVICE TESTING PROGRAM RELIEF REQUEST SALEM GENERATING STATION UNIT NOS. 1 AND 2 DOCKET NOS. 50-272 AND 50-311 DEC 2 6 1996
THEY HAVE BEEN CHARGED TO YOU FOR A LIMITED TIME PERIOD AND MUST BE RETURNED TO THE RECORDS & ARCHIVES SERVICES .
* Attachment (1) Document Control Desk LR-N96437 C Mr. Hubert J. Miller, Administrator  
SECTION, T5 C3. PLEASE DO NOT SEND DOCUMENTS CHARGED OUT THROUGH THE MAIL. REMOVAL OF ANY PAGE(S) FROM DOCUMENT FOR REPRODUCTION MUST BE REFERRED TO FILE PERSONNEL.
-Region I U. S. Nuclear Regulatory Commission 475 Allendale Road King of Prussia, PA 19406 DEC 2 6 1996 Mr. L. N. Olshan, Licensing Project Manager -Salem U. S. Nuclear Regulatory Commission One White Flint North 11555 Rockville Pike Mail Stop 14E21 Rockville, MD 20852 Mr. C. Marschall  
      **NOTICE -
-Salem (S09) USNRC Senior Resident Inspector Mr. K. Tosch, Manager, IV NJ Department of Environmental Protection Division of Environmental Quality Bureau of Nuclear Engineering CN 415 Trenton, NJ 08625
 
*
DEC 2 6 1996 Document Control Desk LR-N96437 ATTACHMENT 1 INSERVICE TESTING PROGRAM RELIEF REQUEST SALEM GENERATING STATION UNIT NOS. 1 AND 2 DOCKET NOS. 50-272 AND 50-311
* Document Control Desk LR-N96437 EHV/ DEC 2 6 1996 BC CNO & President  
 
-Nuclear Business Unit (N09) Senior Vice President  
DEC 2 6 1996 Attachment (1)
-Nuclear Engineering (N19) Senior Vice President  
Document Control Desk           LR-N96437 C   Mr. Hubert J. Miller, Administrator - Region I U. S. Nuclear Regulatory Commission 475 Allendale Road King of Prussia, PA 19406 Mr. L. N. Olshan, Licensing Project Manager - Salem U. S. Nuclear Regulatory Commission One White Flint North 11555 Rockville Pike Mail Stop 14E21 Rockville, MD 20852 Mr. C. Marschall - Salem (S09)
-Nuclear Operations (X04) Director -Nuclear Business Support (NlO) Director -QA/Nuclear Safety Review (XOl) Director -Nuclear System Engineering (X07) General Manager -Nuclear Operations Services (XlO) General Manager -Salem Operations (S05) General Manager -Hope Creek Operations (H07) Manager -Nuclear Safety Review (N38) Manager -External Affairs (N28) Manager -Licensing  
USNRC Senior Resident Inspector Mr. K. Tosch, Manager, IV NJ Department of Environmental Protection Division of Environmental Quality Bureau of Nuclear Engineering CN 415 Trenton, NJ 08625
& Regulation (X09) Onsite Safety Review Engineer -Salem (Xl5) Onsite Safety Review Engineer -Hope Creek (Hll) General Solicitor, E. J. Selover (Newark, 5G) Perry Robinson, Esq. Records Management (N21) Microfilm Copy File Nos. 1.2.1,
* Document Control Desk LR-N96437 EHV/
* Salem Units 1 and 2 Inservice Test Progam
DEC 2 6 1996 BC CNO & President - Nuclear Business Unit (N09)
* VALVE RELIEF REQUEST -V -24
Senior Vice President - Nuclear Engineering (N19)
* COMPONENTS:
Senior Vice President - Nuclear Operations (X04)
l 1SJ55, 12SJ55, 13SJ55, 14SJ55 21SJ55, 22SJ55, 23SJ55, 24SJ55 FUNCTION:
Director - Nuclear Business Support (NlO)
These check valves are located in the discharge lines from the respective safety injection accumulators.
Director - QA/Nuclear Safety Review (XOl)
The valves perform an active safety function in the open and closed positions.
Director - Nuclear System Engineering (X07)
The valves must be capable of opening during a large break LOCA to provide a flow path for SI accumulator discharge to the RCS cold legs when reactor pressure drops below accumulator pressure.
General Manager - Nuclear Operations Services (XlO)
The valve must be capable of closure to prevent divergence of safety injection and recirculation flow subsequent to the accumulators dumping their contents.
General Manager - Salem Operations (S05)
This valve also functions as an RCS pressure isolation valve. This function prevents exposing the SI accumulators to RCS pressure which would compromise accumulator pressure boundary integrity.
General Manager - Hope Creek Operations (H07)
CATEGORY:
Manager - Nuclear Safety Review (N38)
AC CLASS: 1 TEST REQUIREMENTS:
Manager - External Affairs (N28)
Open & Closed Position -Check valves shall be exercised at least once every 3 months, in accordance with the requirements oflWV-3521.
Manager - Licensing & Regulation (X09)
BASIS FOR RELIEF: During power operation, these valves are maintained in the closed position by RCS pressure on the downstream side of the valve disk. Quarterly exercising these valves to the full or partially open position during power operation is impracticable because the only flow path is into the RCS. The operating accumulator pressure cannot overcome normal operating RCS pressure to establish flow. Full stroke exercising these valves at cold shutdown is impracticable because of the potential for low temperature overpressurization due to insufficient expansion volume in the RCS to accept required flow. This testing could also result in the intrusion of nitrogen into the core which could interrupt the normal circulation of cooling water flow. Partial stroke exercising these valves going into cold shutdown is burdensome without a commensurate increase in the level of quality and safety. The associated motor-operated isolation valve (one per accumulator) cannot be partially stroked, but must complete a full stroke before changing direction.
Onsite Safety Review Engineer - Salem (Xl5)
This could cause a complete discharge of the water volume in the accumulator and possibly inject nitrogen into the reactor coolant system, causing gas binding of the residual heat removal pumps and a subsequent loss of shutdown cooling. These valves are also verified to close by leak testing per plant technical specifications for Pressure Isolation Valves (PIV's). Reverse exercising these check valves at any time other than refueling is burdensome without a commensurate increase in the level of quality and safety. The valves are normally in the closed position and accumulator pressure is continuously monitored to ensure that an adequate nitrogen blanket is maintained and to verify the lack of RCS inleakage.
Onsite Safety Review Engineer - Hope Creek (Hll)
*
General Solicitor, E. J. Selover   (Newark, 5G)
* Salem Units 1 and 2 Inservice Test Progam \! -24 (Cont) ALTERNATE TESTING: These check valves shall be full stroke exercised to the open position during refuelings utilizing a reduced pressure, partial accident flow test method. This controlled method is performed with the reactor vessel head removed. The test method establishes accumulator pressure between 67 and 70 psig, accumulator level between 96 and 100% and refueling cavity level between 125.5 and 126.5 feet. After establishment of the fixed parameters the test then measures the time interval required for the pressure in the associated safety injection accumulator to drop from an initial pressure to 35 psig. Engineering calculation S-2-SJ-.MDC-1394  
Perry Robinson, Esq.
-"Acumulator Pressure Decay during Discharge Test" establishes the test conditions and acceptance criterion and concludes that this methodology is adequate in determining that the associated check valve disk moves to the full open position.
Records Management (N21)
Microfilm Copy File Nos. 1.2.1,
 
Salem Units 1 and 2 Inservice Test Progam
* VALVE RELIEF REQUEST - V - 24 COMPONENTS:           l 1SJ55, 12SJ55, 13SJ55, 14SJ55 21SJ55, 22SJ55, 23SJ55, 24SJ55 FUNCTION:
These check valves are located in the discharge lines from the respective safety injection accumulators. The valves perform an active safety function in the open and closed positions. The valves must be capable of opening during a large break LOCA to provide a flow path for SI accumulator discharge to the RCS cold legs when reactor pressure drops below accumulator pressure. The valve must be capable of closure to prevent divergence of safety injection and recirculation flow subsequent to the accumulators dumping their contents. This valve also functions as an RCS pressure isolation valve. This function prevents exposing the SI accumulators to RCS pressure which would compromise accumulator pressure boundary integrity.
CATEGORY:             AC CLASS:               1 TEST REQUIREMENTS:
* Open & Closed Position - Check valves shall be exercised at least once every 3 months, in accordance with the requirements oflWV-3521.
BASIS FOR RELIEF:
During power operation, these valves are maintained in the closed position by RCS pressure on the downstream side of the valve disk. Quarterly exercising these valves to the full or partially open position during power operation is impracticable because the only flow path is into the RCS.
The operating accumulator pressure cannot overcome normal operating RCS pressure to establish flow. Full stroke exercising these valves at cold shutdown is impracticable because of the potential for low temperature overpressurization due to insufficient expansion volume in the RCS to accept required flow. This testing could also result in the intrusion of nitrogen into the core which could interrupt the normal circulation of cooling water flow. Partial stroke exercising these valves going into cold shutdown is burdensome without a commensurate increase in the level of quality and safety. The associated motor-operated isolation valve (one per accumulator) cannot be partially stroked, but must complete a full stroke before changing direction. This could cause a complete discharge of the water volume in the accumulator and possibly inject nitrogen into the reactor coolant system, causing gas binding of the residual heat removal pumps and a subsequent loss of shutdown cooling. These valves are also verified to close by leak testing per plant technical specifications for Pressure Isolation Valves (PIV's). Reverse exercising these check valves at any time other than refueling is burdensome without a commensurate increase in the level of quality and safety. The valves are normally in the closed position and accumulator pressure is continuously monitored to ensure that an adequate nitrogen blanket is maintained and to verify the lack of RCS inleakage.
 
Salem Units 1 and 2 Inservice Test Progam
* \! - 24 (Cont)
ALTERNATE TESTING:
These check valves shall be full stroke exercised to the open position during refuelings utilizing a reduced pressure, partial accident flow test method. This controlled method is performed with the reactor vessel head removed. The test method establishes accumulator pressure between 67 and 70 psig, accumulator level between 96 and 100% and refueling cavity level between 125.5 and 126.5 feet. After establishment of the fixed parameters the test then measures the time interval required for the pressure in the associated safety injection accumulator to drop from an initial pressure to 35 psig. Engineering calculation S-2-SJ-.MDC-1394 - "Acumulator Pressure Decay during Discharge Test" establishes the test conditions and acceptance criterion and concludes that this methodology is adequate in determining that the associated check valve disk moves to the full open position.
Information from other nuclear stations was reviewed regarding partial flow, full stroke exercising using a calculational method. The testing performed at Salem provides a valid methodology for verifying the open function even though the test method differs from the various methods reviewed.
Information from other nuclear stations was reviewed regarding partial flow, full stroke exercising using a calculational method. The testing performed at Salem provides a valid methodology for verifying the open function even though the test method differs from the various methods reviewed.
In attempting to utilize the guidance of NUREG 1482, Section 4.1.2 -"Exercising Check Valves with Flow and Nonintrusive Techniques", nonintrusive equipment was used during informational testing..
In attempting to utilize the guidance of NUREG 1482, Section 4.1.2 - "Exercising Check Valves with Flow and Nonintrusive Techniques", nonintrusive equipment was used during informational testing.. These valves are Darling Valve & Manufacturing Co. "Clear Waterway" swing checks that are fabricated without a backstop. The valve design permits the disk to move sufficiently out of the flow path without contacting the valve body.
These valves are Darling Valve & Manufacturing Co. "Clear Waterway" swing checks that are fabricated without a backstop.
Nonintrusive testing using acoustic and magnetic technology provides sufficient data for monitoring degradation on a periodic basis however, full open acoustic indication is not detected or expected to show on the test trace. Nonintrusive testing does not verify full stroke exercising however occasional use of this equipment during the pressure decay test provides useful condition monitoring information.
The valve design permits the disk to move sufficiently out of the flow path without contacting the valve body. Nonintrusive testing using acoustic and magnetic technology provides sufficient data for monitoring degradation on a periodic basis however, full open acoustic indication is not detected or expected to show on the test trace. Nonintrusive testing does not verify full stroke exercising however occasional use of this equipment during the pressure decay test provides useful condition monitoring information.
This method of forward flow check valve testing complies with the guidance provided in Generic Letter 89-04, Attachment 1, Position 1.
This method of forward flow check valve testing complies with the guidance provided in Generic Letter 89-04, Attachment 1, Position 1. Regarding reverse flow exercise testing, these valves shall be verified in the closed position during the process of performing seat leakage testing at the frequency specified in Unit I TS 4.4.6.3 and Unit 2 TS 4.4.7.2.2.
Regarding reverse flow exercise testing, these valves shall be verified in the closed position during the process of performing seat leakage testing at the frequency specified in Unit I TS 4.4.6.3 and Unit 2 TS 4.4.7.2.2.
The open stroke frequency change was previously approved in NRC Safety Evaluation April 15, 1994 (TAC Nos. M88 l 44 and M88 I 45) .
The open stroke frequency change was previously approved in NRC Safety Evaluation April 15, 1994 (TAC Nos. M88 l 44 and M88 I 45) .
"' .
 
* Salem Units 1 and 2 Inservice Test Progam VALVE RELIEF REQUEST-V -25 COMPONENTS:
Salem Units 1 and 2 Inservice Test Progam VALVE RELIEF REQUEST- V - 25 COMPONENTS:           11SJ56, 12SJ56, 13SJ56, 14SJ56 21 SJ56, 22SJ56, 23SJ56, 24SJ56 FUNCTION:
11SJ56, 12SJ56, 13SJ56, 14SJ56 21 SJ56, 22SJ56, 23SJ56, 24SJ56 FUNCTION:
These check valves are located in the discharge lines from the respective safety injection accumulators downstream of the branch connection from RHR. The valves perform an active safety function in the open position. The valves must be capable of opening during a large break LOCA to provide a flow path for SI accumulator discharge to the RCS cold legs when reactor pressure drops below accumulator pressure. The valve must also be capable of opening to provide a path for low head safety injection and cold leg recirculation flow. This valve also functions as an RCS pressure isolation valve. This function prevents exposing the SI accumulators and RHR system piping to RCS pressure.
These check valves are located in the discharge lines from the respective safety injection accumulators downstream of the branch connection from RHR. The valves perform an active safety function in the open position.
CATEGORY:             AC CLASS:                 1 TEST REQUIREMENTS:
The valves must be capable of opening during a large break LOCA to provide a flow path for SI accumulator discharge to the RCS cold legs when reactor pressure drops below accumulator pressure.
Open & Closed Position - Check valves shall be exercised at least once every 3 months, in accordance with the requirements ofIWV-3521.
The valve must also be capable of opening to provide a path for low head safety injection and cold leg recirculation flow. This valve also functions as an RCS pressure isolation valve. This function prevents exposing the SI accumulators and RHR system piping to RCS pressure.
BASIS FOR RELIEF:
CATEGORY:
During power operation, these valves are maintained in the closed position by RCS pressure on the downstream side of the valve disk. Quarterly exercising these valves to the full or partially open position during power operation is impracticable because the only flow path is into the RCS.
AC CLASS: 1 TEST REQUIREMENTS:
The operating accumulator pressure cannot overcome normal operating RCS pressure to establish flow. Full stroke exercising these valves at cold shutdown is impracticable because of the potential for low temperature overpressurization due to insufficient expansion volume in the RCS to accept required flow. This testing could also result in the intrusion of nitrogen into the core which could interrupt the normal circulation of cooling water flow. The associated motor-operated isolation valve (one per accumulator) cannot be partially stroked, but must complete a full stroke before changing direction. This could cause a complete discharge of the water volume in the accumulator and possibly inject nitrogen into the reactor coolant system, causing gas binding of the residual heat removal pumps and a subsequent loss of shutdown cooling. These valves are also verified to close by leak testing per plant technical specifications for Pressure Isolation Valves (PIV's). Reverse exercising these check valves at any time other than refueling is burdensome without a commensurate increase in the level of quality and safety .
Open & Closed Position -Check valves shall be exercised at least once every 3 months, in accordance with the requirements ofIWV-3521.
 
BASIS FOR RELIEF: During power operation, these valves are maintained in the closed position by RCS pressure on the downstream side of the valve disk. Quarterly exercising these valves to the full or partially open position during power operation is impracticable because the only flow path is into the RCS. The operating accumulator pressure cannot overcome normal operating RCS pressure to establish flow. Full stroke exercising these valves at cold shutdown is impracticable because of the potential for low temperature overpressurization due to insufficient expansion volume in the RCS to accept required flow. This testing could also result in the intrusion of nitrogen into the core which could interrupt the normal circulation of cooling water flow. The associated operated isolation valve (one per accumulator) cannot be partially stroked, but must complete a full stroke before changing direction.
Salem Units 1 and 2 lnservice Test Progam
This could cause a complete discharge of the water volume in the accumulator and possibly inject nitrogen into the reactor coolant system, causing gas binding of the residual heat removal pumps and a subsequent loss of shutdown cooling. These valves are also verified to close by leak testing per plant technical specifications for Pressure Isolation Valves (PIV's). Reverse exercising these check valves at any time other than refueling is burdensome without a commensurate increase in the level of quality and safety .
* V - 25 (Cont)
* *
AL TERNATE TESTING:
* Salem Units 1 and 2 lnservice Test Progam V -25 (Cont) AL TERNA TE TESTING: These check valves shall be full stroke exercised to the open position during refuelings utilizing a reduced pressure, partial accident flow test method. This controlled method is performed with the reactor vessel head removed. The test method establishes accumulator pressure between 67 and 70 psig, accumulator level between 96 and 100% and refueling cavity level between 125.5 and 126.5 feet. After establishment of the fixed parameters the test then measures the time interval required for the pressure in the associated safety injection accumulator to drop from an initial pressure to 35 psig. Engineering calculation S-2-SJ-l\1DC-1394  
These check valves shall be full stroke exercised to the open position during refuelings utilizing a reduced pressure, partial accident flow test method. This controlled method is performed with the reactor vessel head removed. The test method establishes accumulator pressure between 67 and 70 psig, accumulator level between 96 and 100% and refueling cavity level between 125.5 and 126.5 feet. After establishment of the fixed parameters the test then measures the time interval required for the pressure in the associated safety injection accumulator to drop from an initial pressure to 35 psig. Engineering calculation S-2-SJ-l\1DC-1394 - "Acumulator Pressure Decay during Discharge Test" establishes the test conditions and acceptance criterion and concludes that this methodology is adequate in determining that the associated check valve disk moves to the full open position.
-"Acumulator Pressure Decay during Discharge Test" establishes the test conditions and acceptance criterion and concludes that this methodology is adequate in determining that the associated check valve disk moves to the full open position.
Information from other nuclear stations was reviewed regarding partial flow, full stroke exercising using a calculational method. The testing performed at Salem provides a valid methodology for verifying the open function even though the test method differs from the various methods reviewed.
Information from other nuclear stations was reviewed regarding partial flow, full stroke exercising using a calculational method. The testing performed at Salem provides a valid methodology for verifying the open function even though the test method differs from the various methods reviewed.
In attempting to utilize the guidance ofNUREG 1482, Section 4.1.2 -"Exercising Check Valves with Flow and Nonintrusive Techniques", nonintrusive equipment was used during informational testing. These valves are Darling Valve & Manufacturing Co. "Clear Waterway" swing checks that are fabricated without a backstop.
In attempting to utilize the guidance ofNUREG 1482, Section 4.1.2 - "Exercising Check Valves with Flow and Nonintrusive Techniques", nonintrusive equipment was used during informational testing. These valves are Darling Valve & Manufacturing Co. "Clear
The valve design permits the disk to move sufficiently out of the flow path without contacting the valve body. Nonintrusive testing using acoustic and magnetic technology provides sufficient data for monitoring degradation on a periodic basis however, full open acoustic indication is not detected or expected to show on the test trace. Nonintrusive testing does not verify full stroke exercising however occasional use of this equipment during the pressure decay test provides useful condition monitoring information.
* Waterway" swing checks that are fabricated without a backstop. The valve design permits the disk to move sufficiently out of the flow path without contacting the valve body.
The valves shall be partial stroke exercised at cold shutdown during normal RHR. shutdown cooling operations.
Nonintrusive testing using acoustic and magnetic technology provides sufficient data for monitoring degradation on a periodic basis however, full open acoustic indication is not detected or expected to show on the test trace. Nonintrusive testing does not verify full stroke exercising however occasional use of this equipment during the pressure decay test provides useful condition monitoring information.
This method of forward flow check valve testing complies with the guidance provided in Generic Letter 89-04, Attachment 1, Position 1. Regarding reverse flow exercise testing, these valves shall be verified in the closed position during the process of performing seat leakage testing at the frequency specified in Unit l TS 4.4.6.3 and Unit 2 TS 4.4.7.2.2.
The valves shall be partial stroke exercised at cold shutdown during normal RHR.
The open stroke frequency change was previously approved in NRC Safety Evaluation April 15, 1994 (TAC Nos. M88 I 44 and M88 I 45) .
shutdown cooling operations.
*
This method of forward flow check valve testing complies with the guidance provided in Generic Letter 89-04, Attachment 1, Position 1.
Regarding reverse flow exercise testing, these valves shall be verified in the closed position during the process of performing seat leakage testing at the frequency specified in Unit l TS 4.4.6.3 and Unit 2 TS 4.4.7.2.2.
The open stroke frequency change was previously approved in NRC Safety Evaluation April 15, 1994 (TAC Nos. M88 I 44 and M88 I 45) .
* General Approach Proposed For Full Open Testing Of Accumulator Check Valves PSE&G procedure S2.0P-ST.SJ-0006(Q), lnservice Testing Safety Injection Valves Mode 6, provides instructions necessary to perform lnservice Inspection and Testing IAW Technical Specification 4.0.5 for the following Safety Infection (Accumulator) check valves:
* General Approach Proposed For Full Open Testing Of Accumulator Check Valves PSE&G procedure S2.0P-ST.SJ-0006(Q), lnservice Testing Safety Injection Valves Mode 6, provides instructions necessary to perform lnservice Inspection and Testing IAW Technical Specification 4.0.5 for the following Safety Infection (Accumulator) check valves:
* 21 SJ55 and 21 SJ56 -21 Accumulator Discharge to Cold Leg
* 21 SJ55   and 21 SJ56 - 21 Accumulator Discharge to   Cold Leg
* 22SJ55 and 21 SJ56 -22 Accumulator Discharge to Cold Leg
* 22SJ55   and 21 SJ56 - 22 Accumulator Discharge to   Cold Leg
* 23SJ55 and 21 SJ56 -23 Accumulator Discharge to Cold Leg
* 23SJ55   and 21 SJ56 - 23 Accumulator Discharge to   Cold Leg
* 24SJ55 and 21 SJ56 -24 Accumulator Discharge to Cold Leg The testing procedure involves open-stroke testing each tank's discharge check valves with the reactor depressurized and the vessel head removed. The initial tank liquid volume is set to 96 -100%, and initial tank pressure is set at 67 -70 psig. Flow is initiated by opening the tank MOV. Per the procedure, the valve is to be stroked fully open, left in the open position until the Accumulator reaches a pressure of 35 psig, and then closed. Tank pressure is set low enough to prevent injection of nitrogen gas into the RCS. Velocities achieved should also be sufficient to fully stroke the valves, according to calculation.
* 24SJ55   and 21 SJ56 - 24 Accumulator Discharge to   Cold Leg The testing procedure involves open-stroke testing each tank's discharge check valves with the reactor depressurized and the vessel head removed. The initial tank liquid volume is set to 96 -
The bases for the testing is captured in Calculation No. S-2-SJ-MDC-1394, Accumulator Pressure Decay During Discharge Test. The purpose of this calculation is to establish a mathematical model of test conditions to develop acceptance criterion for establishing the valves tested go full open. The description, below, will describe the calculation with reactor head removed as is currently performed during testing . The following parameters are fixed by procedure:  
100%, and initial tank pressure is set at 67 - 70 psig. Flow is initiated by opening the tank MOV.
.. The Unit is in Mode 6 (Defueled) with the Upper Internals installed.
Per the procedure, the valve is to be stroked fully open, left in the open position until the Accumulator reaches a pressure of 35 psig, and then closed. Tank pressure is set low enough to prevent injection of nitrogen gas into the RCS. Velocities achieved should also be sufficient to fully stroke the valves, according to calculation.
The bases for the testing is captured in Calculation No. S-2-SJ-MDC-1394, Accumulator Pressure Decay During Discharge Test. The purpose of this calculation is to establish a mathematical model of test conditions to develop acceptance criterion for establishing the valves tested go full open. The description, below, will describe the calculation with reactor head removed as is currently performed during testing .
The following parameters are fixed by procedure:
  .. The Unit is in Mode 6 (Defueled) with the Upper Internals installed.
* Safety Injection Accumulators are at a fixed and defined pressure.
* Safety Injection Accumulators are at a fixed and defined pressure.
* Safety Injection Accumulators are at a fixed and defined level. .. Refueling Cavity is at a fixed and defined level. " Acceptance criteria -Maximum blowdown time in seconds. During valve stroking, Accumulator pressure and level measurements, which are acquired from inputs from normal plant instrumentation, are recorded.
* Safety Injection Accumulators are at a fixed and defined level.
Based on the measured level and pressure change with time, the relationship between the check valve disc angle, flow rate and pressure difference are calculated using information supplied by Westinghouse Letter PSE-90-530 for full lift velocity for the valves being tested. Loss factor for the MOV isolation valve as well as friction losses associated with the piping system are calculated.
  .. Refueling Cavity is at a fixed and defined level.
Equations of motion are then solved simultaneously.
  "   Acceptance criteria - Maximum blowdown time in seconds.
During valve stroking, Accumulator pressure and level measurements, which are acquired from inputs from normal plant instrumentation, are recorded. Based on the measured level and pressure change with time, the relationship between the check valve disc angle, flow rate and pressure difference are calculated using information supplied by Westinghouse Letter PSE   530 for full lift velocity for the valves being tested. Loss factor for the MOV isolation valve as well as friction losses associated with the piping system are calculated. Equations of motion are then solved simultaneously.
The calculation solves six unknown variables simultaneously using a FORTRAN computer program. The following are calculated to determine flow and pressure at a point in time under a variety of disc angles:
The calculation solves six unknown variables simultaneously using a FORTRAN computer program. The following are calculated to determine flow and pressure at a point in time under a variety of disc angles:
* Accumulator level elevation
* Accumulator level elevation
* Accumulator gas pressure
* Accumulator gas pressure
* MOV loss factor
* MOV loss factor
* Check valve Delta P .. Derivations " Values at new tirT)e step
* Check valve Delta P
*
  .. Derivations
* Results The following three cases were run:
  "   Values at new tirT)e step
 
Results The following three cases were run:
* Check valve is free (72 degrees swing angle)
* Check valve is free (72 degrees swing angle)
* Check valve maximum swing angle form closed position is 60 degrees.
* Check valve maximum swing angle form closed position is 60 degrees.
* Check valve maximum swing angle form closed position is 30 degrees. Tables 4.1, 4.2 and 4.3, provided in the calculation, show the accumulator pressure time history and discharge flow rate time history for each case. These curves are plotted in figures 4.1 and 4.2. Only curves with the reactor head on are shown since the pressure decay time is nearly equal for both test configurations, reactor head on and reactor head off. These curves show approximatly a 4 second (or 14 percent difference) between the two values of the disc being free (72 degrees open) and a disc maximum swing of 60 degrees. Conclusion The calculation concluded that the pressure decay time from 70 psig to 35 psig is nearly 24 seconds when the check valve is free. lmperical test results were then compared to the value calculated.
* Check valve maximum swing angle form closed position is 30 degrees.
A pressure decay time of 23.9 seconds (maximum value of four lines tested) was measured on Salem Unit 1. On Salem Unit 2 three Accumulator pressure decay tests were performed with pressure decay times of just below 24 seconds. One test was not considered do to a motor failure of the Accumulator isolation MOV. Therefore, a 24 second decay time, as calculated , is a very good representation of the transient and has been verified empirically over seven tests. The valves tested were known to be in new or good condition based on recent disassembly and inspections of the valves' internals.
Tables 4.1, 4.2 and 4.3, provided in the calculation, show the accumulator pressure time history and discharge flow rate time history for each case. These curves are plotted in figures 4.1 and 4.2. Only curves with the reactor head on are shown since the pressure decay time is nearly equal for both test configurations, reactor head on and reactor head off. These curves show approximatly a 4 second (or 14 percent difference) between the two values of the disc being free (72 degrees open) and a disc maximum swing of 60 degrees.
Conclusion The calculation concluded that the pressure decay time from 70 psig to 35 psig is nearly 24 seconds when the check valve is free. lmperical test results were then compared to the value calculated. A pressure decay time of 23.9 seconds (maximum value of four lines tested) was measured on Salem Unit 1. On Salem Unit 2 three Accumulator pressure decay tests were performed with pressure decay times of just below 24 seconds. One test was not considered do to a motor failure of the Accumulator isolation MOV. Therefore, a 24 second decay time, as calculated , is a very good representation of the transient and has been verified empirically over seven tests. The valves tested were known to be in new or good condition based on recent disassembly and inspections of the valves' internals.
It is reasonable to conclude that the test method described is valid at providing reasonable assurance that the valves tested go to there full open position .
It is reasonable to conclude that the test method described is valid at providing reasonable assurance that the valves tested go to there full open position .
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* PROCEDURES
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DE-AP.ZZ-0002(0) 
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CHECK    ONE; 0    INTERIM {Proposed Plant Change)                                    0  VOID
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/cv/rvc ):2-DE-AP.ZZ-0002(0)
Rl&SQN roa CALetlLA.TIQN BEYISIQN (IP APPL.)              i
ATTACHMENT 2 
              . IMPr~~M OJT t N 6(u AL/Ty.
-
HOPE CREEK                    Do            Dos        OOsh        OF        OR            ON/A
CALCULATION CONTINUATION SHEET TITLE n ('('ti i'Jl'L tl T r7!.._ r f.-' l .... () f D1 <ti'/ DU RI Nfi IDNO. s-2.-
        *                                                  ~                        0 Q
9lt REFERENCE SHEET 1 t:. OF ORIGINATOR v.(ltll1d>(f1 __ L __ L __ L 4 l DATE SC1 rnt+ PEER REVIEW t'C""'lCj DATE Jc)(t.\(<1  
* LIST (SALEM) ?                                YES                      NO IMPORTANT TO SAFETY ?                        ~    YES                D    NO FUTURE CONFIRMATION REQUIRED            ?    0   YES                ta  NO  If YES liat page
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* OTHER DOCUMENTS AFFECTED? (CBDs, UFSAR, etc.):                      ~o STA~ION    PROCEDURES    IM~ACTED?      (*N/A" FOR CALCS R&#xa3;LATED TO A DCP}
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                            .&#xa3;l YES OR UNSURE          0 NO          ON/ A
-\&deg; Ru. 5 R 3 / c L o "1 E. R t\ ,.rel 0 "' F f. 'f. I o*'-t3J o* 39 o* 39 0 9 0* 5 Y 8 0. s 8 o. 9 LI fJ . '.i ,, L\ ( v At v i s fl r ,.., o i 1 rt u ri cJ) t' t:.I' l \ DErAP.ZZ-0002(0) o* o* 51 o* / 2 o* S o* S-(, 3*CI o 18 o*C:.6 O* s I 2* 7 0 o* S 3*_2.2 /*0 0.Li.1 1 ...,. \<'. -,.. : ;:;)(;, ".) 1 l ATTACHMENT 2 IHH711M.l-ll 
              - If *YEs OR UNSURE", ha* Syatem Engineer been contacted? ~ YES                                  CJ  NO
                  - If *y&#xa3;s* or *No", has pertinent de~criptive information been transmitted to syaeem Engineer/Single Point.Contact? 181 YES                            (J  NO (transmittal required if system Engineer no~ concacte~
oa:tQIHA'l'Oll/COKPAHY NAKJ:s    v1.JA'/ CHAllDRA    /Psr. (0                      23  JAN/C}~5 Dat*
PJ:IR RKV'llWD/C:OKPANY HAMS:            Al(/ GiARCJA- /pseiG                            2..-s-._c&#xb5; 2 ~                          Date VKRIPIIR/COHPAHY HAXJl:a            A~:r      Ci!JR..ctA--1    f?=--C:~                2.-s-~
                                                                      '                                    Date Date ARPl.OVS!>1                                                                              ?-L)-/9c Oata I~ the ealaulat1on i1 *ith*r O*Liat, c. O*. Q*h, r, R. or Important to Safety *y*s*, compl*ticD ot th* C*rtification for D**igu Veriftca~lon (Parm NC.DS*Al>.ZZ-0010*1) i* requir*d.                     .
:Pag* :21 of! 23                      Ravi*t~n
* TITLE    fl rr u 111 u L Al~            10 NO. s   $ J - 1111) (- 1 ~ c;, 1.       SHEET pf:' t- S ~ V f< [* /'JET f1-J                                                7 OPS~G Du R1 Nfl 'Dr<; r 1-1 Mf.',r            REFERENCE                                          ,_
                                      "H ~I CALCULATION ORIGINATOR IV DATE ftlf\t>:'IJ~~ --L 21 rq lj}4 L --L                 :1 CONTINUATION SHEET            PEER REVIEW O;v1. 'i DATE            t Qf'Z. "l(tr '( _ _
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* I 38 DE-AP .ZZ-0002(0)                                                                                            ATTACHMENT 2 IHlll'IWMl-111
 
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PfH. ":.''-Uf/.f: )) ! r fl')
ID NO. s s J- nil 1*
1
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                                                                                                                                  't SHEET OPS~G                          1) U t' I ~ 1 (.I () "J !I fl Vil                                                                          ~
1 REFERENCE
                                    'TE S1 OF ORIGINATOR DATE IJ.fl!N;f)f'il~
fl1 C:.l PJYl/1
                                                                                          --L                        L--L                 l-1 I CALCULATION CONTINUATION SHEET            PEER REVIEW                  a,..,_ lf DATE                      lU/1.1,(<"f'f _ _
: 1. l    NTRo'DUC TIO N:
ACCuMuLAT6"((. f>uMP TE51                                    ts      l)ON~          IN  MtJD&#xa3; ~          vs1tJt; PRctt DvR E s 2. oP~ s T. s J - oo" b (                                             &. ) - ~ ev o.     IHI; fu~rosE:
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T HI g (' R11 cR I(fN I,\.) A s D ~VE L, oP Cf) I N M[")";')~I "10. ~ 2 - t 8 3 f) A1 CD        trO"J ' B I ~ CJ 2-J                      I      F (( lfr\'\ c . tit -t'trd c~ 0 I 0 J. pfl..J rr fl z [ s.
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DE*AP.ZZ-0002(0)                                                                                                                ATTACHMENT 2
 
TITLE /\ er u r.I
* j1 Rc <:: e: uU ID NO. c.,, _ 2 _ S J _ M D ( _ I :, g 1,          SHEET D~rfl; Duf'11.it1                                                          T                    ,
OPS~G                        r>1Sn1ARl)1          lE.51          REFERENCE                                              L(
OF CALCULATION ORIGINATOR V.C/IANbF./l.t:C DATE        IS S! P /'H~
                                                                    --L --L --L                                          4!
CONTINUATION SHEET            PEER REVIEW          Q'.<<&#xa3; DATE            tdf~1/-f'Y FIGURE1A.SHOWS. 1trf R~Ll:.Vt'J.Jf C'trrvifoND'-..fT'S.
THA1 PrR E 1 tJVOL\JtD IN 11-rE 1EST(R&#xa3;'frr7d fto1Dl1"N).                                                  THE vf\LvE SJ5't          IS    cpFN[l)          WMiLE              \HE:    /NIT/A-L .t1AS              f>R&#xa3;Ssu1,_
IN 1H&#xa3; -A<'('U'lt1ULA7C!R_                  IS ~&#xa3;.TNc&#xa3;N                  ~7 f\Nl) 7D fc;~*if-.
As    1 H&#xa3;    v ~ L v r c rr.. N s 1 rl E w A'1 &#xa3;K s TM T ~ T o (' (fYYI E J
cu 1 6F "TH&#xa3; A r CtffflU L 1\1 r:rK_ A*rJD pRE. s s uR1 'Z cf(_ L 81 r=.L R\ 5 E s . \ H [ pa f\J ~. iti?t. cfLN
* TH&#xa3; AIR r R{ly\'} 1 t1 t I
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F I Cl uRE 1 ~.        5 r-1 ow s "T Ii E            REL Ev fhv{        ~ PtJ NE. "fT    s    1 t-i A'T ftf?..E  INVOLVF.f)            hJttPJ        IHf          !ESt          12:. f)oN[        lJl1H 1Hf R. l ftr T t'!R. H l"tfi) rt= F.          l tJ \ HI~ s11 u11~r I rirJ, l H c w A'T cf<-_,
FRD'fY\ \H[ A{'rctvv'iuLf.ITO'f<._; IS f)1S:n1/tfl7t:D 10 -rnr f t ~ ( 1 c'.f(( (' f\v I l j .
OE-AP.ZZ-0002(0)                                                                                            ATTACHMENT 2 IHll71#MJ-wl
 
TITLE    II tr V /11 (I L II 7 tJ'f!...,
PR !:. s *; L- N      n ir 11 '/                ID NO. ~ s J - MD c - I 3 <J 4        SHEET OPS~G                    /) '-' KI >.i Cl {) I <:: C fl f\fdi [
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REFERENCE                                    5 OF ORIGINATOR v.t11r.~Drill                  0 CALCULATION                  DATE              15St.Pl'N~                                                          L\ l CONTINUATION SHEET        PEER REVIEW                ~        q DATE                    tdI 12..(~
                                                                / *'
                                                              /
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F!(.)URE lA. 5CHEMA11C                          A-RFAN~EMENT OF ACt1J~lULA10R, REAC10f:._,                f\Nt>          vnrr&#xa3;1)          PRt:*s.:;uR1~&#xa3;~.
( 1 E ~1 CoNr              1r.,uR i\1ro"1      t ...i1111  R&#xa3;:Ar 1 r'R trt:A f) oN)
DE-AP .ZZ-0002(0)                                                                                              ATTACHMENT 2 IHll7 llM ....
 
TITLE fl lrl/f'l UL llif'f\..                                                                                        2_ S      J-    M T)C -    I39          SHEET ID NO. -::) _
PRE '.:'.:r.;f;'f /;11 /I')_
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                                    *rE    s-r.
REFERENCE                                                                    ~
OF ORIGINATOR                              v.t/rf\NDRI\                0 CALCULATION                        DATE                                                                                                                                                    41 CONTINUATION SHEET              PEER REVIEW DATE
__ .,.. _ __.. .. _ _, .. _  ... __ /  ..,,..... ,,,,.. .... _r-.. _.,/' ... _.,,... _ _/' ... , . .,,,..... , _... __ .
Accv . . wL ATolZ
            &#xa3;!_
        / *'        **..\
Fl (1 URE        i B. SC H E. M AT IC.                        fl      R RA1\J <l [" M E: NT                                            (ff"              A c r u fVI U L fl 16({ J DI i:; Utfr~fi'&#xa3; Vf\LVE S AND                                                                      RE Ar T t1f<. C Avll j (1ES\ (O/\JFICiuRA'TIOtJ ltHTH R&#xa3;f\CTO'R. Hefti) ~F).
DE-AP.ZZ-0002(0)                                                                                                                                                                    ATIACHMENT 2
                                                                                                                                                                                            ..... 1711MI.....
 
TITLE (lrrt;r.)l)Lt)"T rK          ID NO. S 5  J- M 'D  (-  #3 ') 4    SHEET P~r r.*-.upl f) 1 <II; OPS~G                            Dut\1Nt1 f)1<.rt1Mfi&#xa3; Tf~.
REFERENCE                                    7
                                                                                                                    ~
CALCULATION ORIGINATOR DATE V.CHAllD~A.l..e_
I~ ~ti' 1''14
                                                                      ---L                L ---L                1.1 I
CONTINUATION SHEET                PEER REVIEW cf....1..'1 DATE              /Ott.l{ct't
    '3. ANALys1s IN THIS        5~(1/0N              fl rtl/llHP'rJt1Ytr/fL [Y)tf/.)f.l      trF" tlrrvff'IUl1J1c!<. Du~*1P ff<PCEs~                            HAS  BEE'N    'Dt=Vt.LoPE:O.
        ~/NCE      P~E.S<SvRt            D1FFCRl N<c t1t'RtJss 7H. R&#xa3;/tr"1tf"f?
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DE-AP .ZZ-0002(0)                                                                                        ATTACHMENT 2
                                                                                                            -111UNHI
 
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TITLE /\N {,f1) L:U11Cf:!..                ID NO.      S        SJ -  M f) (-    J 3 7/,        SHEET P~u.svRi Drrk1                                                                              I OPS~G                                Dt:PJIJ() {)J t:Cl!N(jl                    REFERENCE 8
: 11. s1                                                                                                  OF ORIGINATOR V-f/(/\>IMA,l::_ "'.CJl/'tJCA?A DATE          l?SE. fl"J94            '23..JllNl'l~(;
                                                                                                      ,L!_                L --L                    4I CALCULATION CONTINUATION SHEET                  PEER REVIEW ~li                            OM G DATE              t.cJ {1."_ff1'-t    1=-)'-<14 3.\  ACCUPIULflTOR.
AC~UMuLA1(!R. LEvEL                                t.L&#xa3;Vf111orJ                    1s C71vcN                tN FICluR&#xa3;      2.        /frBLE.        1 P:ic:Loi.-J L1.5."T'&#xa3;                            IHt VJA'Ttf<                  VtJLUM["
IN "THE          Ar'ruMuLA1Cff<._                    Ar;          A      r:-uNC11orJ                      trF 1AJfj7&#xa3;f?...
L &#xa3;\fl:: LE LE*\JAllON. [ Re4                          *SJ Tfl~Lt      1. II ('('u  rr1 IJltWcr{( L [ Vl L,                tv fl T C6?    vet..{. *~)t. fh..:'""0 U  \/&#xa3; L [ Lr;vt'\"T/(JN.
L~\JE      L    fo        wl\T&#xa3;R VOLUl'l'G                  E.Lt. vA1101JttF r ~)                  tvfl 7 cR SL~ F/o.t'f
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r-io,  r-"ll r11.1 L D          '-/0'7'3 LET zA =            ELEV A TIO tJ Acru f{\LJLATofL ffF      tv A1 ~ L E V f: L                    I rJ I ~t E.
V () L U r<l [            f f W A I d( I N I H &#xa3;                                A (' r u rv1 uL ltT df(
                \NlllllL WAllf' VOLUME                          ('tr(?f(t;*s(.tJND~            -ro      '='r-t?c. L l:. Vt L
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DE-AP.ZZ-0002(0)                                                                                                                    ATTACHMENT 2
 
TITLEll('(l/ll1.L/!'f&#xa3;i~-      IDN0.45_  2- 5J-f"'1D(- 139&#xa3;+                SHEET OPS~G fi/[<"..':cft DErA1
                                                                                                      ~
                      'DuR1N(J f)JSr11f'rff.,1'      REFERENCE
                      -Ir SI OF ORIGINATOR      V.Cft/iroDRA 0 CALCULATION            DATE      15S&#xa3;Jlf')~~
CONTINUATION SHEET  PEER REVIEW      ~      'i DATE          /d/tr/GC(
Fl Ci u Rr .2.      Ac (' um uL AT c;(<._ Lr; v E L A ND &#xa3; L E v A TI 0            fJ RrLATIOrJSHlf [feJ 2 3,, '-t]  1
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jl *53 2  .ft EL ~ 7    B*ooo{t ATTACHMENT 2 te-GIUllM-
 
TITLE ii ('(' l: fl 1(. [_J11(i(_
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                                                                                          --L                  L --L              1.
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CALCULATION CONTINUATION SHEET            PEER REVIEW              ~Cf DATE                I(..)( 't "lf'1J/f-
: 3. 2    PRE S'3 u RI z ER.
f\<'.luRr-    3      SH010s              "THl;              PRE 5'5uR1zcft....        LEvE. LIN ~
Vs.    &#xa3;LE. VATION oF lVA 'T&#xa3;R Lr;vtL.                                              Tfrr.iL&#xa3; 2 /SI:..Lo/AJ SHOr-JS      1Ni:  (-{f:Lfll/0~5}-llP                    ()GrVJffN                wA-rCT?LEvl:.L ELEvA*lttA..J/
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                      \Jwp -::      38. 3ft      Z...P-      40          ~2-*2>          , f/8* 58 f    2p~ / '72*75      +r.
* DE-AP.ZZ-0002(0)                                                                                                  ATTACHMENT 2
 
TITLE/.{"('{"/:!* i.1)-\ff ID NO. 5 5 J-  fY) D ('- I 3 9 't      SHEET Pf\- (':Su Re f)l (/)'j OPS~G fiu RI Nl7 DJ <:c 11.~f.'t1E        REFERENCE                                          1I ll St.                                                                                OF ORIGINATOR DATE N*Cll~PliRA lo I~ S<Pl'':-J~
                                                                    ---L                    L ---L                '-1 I
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CALCULATION CONTINUATION SHEET    PEER REVIEW          a.__ f DATE            (C)/7-?(Vl'f Fl C1 uRE 3 .      PREs~uR1zrR                LEVEL        /lND. f"Lt:VRTfON R~LA110/\1St-11f.            [~-e~.G]
                                                                        ---    \oo%LEVE:L ,&#xa3;L=-            152*75.(t-o fo  LE v EL , t. L =  Io 8
* 9 ( f DE-AP.ZZ-0002(0)                                                                              ATTACHMENT 2
 
TITLE ll {'('UM 1;Lil 1.trfl-..              ID NO. 5 - '2. - 5 J -  f\1 '[) ( - I 3~          SHEET FPtssut-'! ill r1i1 OPS~G                        fit' r? I IJ r-, () / 5 CN r1 ~* t, E
                                        *1 * .:*_,
                                            ~
REFERENCE                                            11..
OF ORIGINATOR v.r11twDP.li 0 CALCULATION                      DATE            ISS1.r1H                                                                  4\
CONTINUATION SHEET            PEER REVIEW              ~ j' DATE                tr:J I t."Jff 'f 3.3    C-HEC K VALVE :=J 55 IN THT5 SEC1IOfJ, TliE: RELATtONSHlf &&#xa3;Twt=EtJ 1 HE C H ITT \J AL \J ~ D I s c JbJ <i l. E ; FL- o tV RA'1 &#xa3; / A-NO pRt. s s u Rr D1r r E~ EN cr HA s Br; r:. tJ c AL (Io L tl T t:fJ.
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FLL>ID FO"f\CE
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..:..1                1<= 2.              FRff'M IE S1                          DA'TA DE-AP.ZZ-0002(0)                                                                                                      ATTACHMENT 2 IHH1111MIHI
 
TITLeAcru/l'lvL1ncK_                    IDNO. S- '2- SJ- MDC- 1 3~!1          SHEET PRc: ssvf?I: 'Dt.Cf\'J                                              -,
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REFERENCE                                I '3>
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CONTINUATION SHEET                PEER REVIEW        d,,N\.. 4 DATE                td lt.if"7 USttJ(J      \H&#xa3;          tJ01A11CN                    cTf Ft()uRE L'-1 of\J              Pfif?c;    r-7 cF    f(ETC1J TH E"      C(fYVI. ro N &#xa3;AfT'        rF    r L u I [) f o'R ('I:" I rJ T H l          D IR IT T ( (/ N
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DE-AP.ZZ-0002(0)                                                                                       ATTACHMENT 2


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* CALCULATION CONTINUATION SHEET TITLE 11 ('('UN l'L fl *r r(:._ f-f:' E <_ ""* U f t I\ t. r t' '/ r; URI i11'7 f) I".
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T {; s .(i L Of\) G /h .. JO 11' 5 I. D. I 5 ,, I '2. L --ft. DE-AP .ZZ-0002(0)
PK'.ES>UlZE              D1r-rnu.           Ncr- Rt:.L/111c1'1 s111p r-crf                      1t1c:        cucc.-k.
ATTACHMENT 2 ... Jt7PM-  
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DE*AP.ZZ*0002(Q)                                                                                                    ATTACHMENT 2
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IDNO.S  SJ- MDC- 1394      SHEET OPS~G                                                                  REFERENCE                      I!;
C-,A s PRt '.;'.s.ur-'t IN -1111: ?RE ... -::uR1 , ATTACHMENT 2
OF ORIGINATOR V.(/l/'l>Jf)l?AE DATE      l~or1t'!'1Lj
., -* *-* TITLE Ii (( U f>Jl 1 L /11 f'"'R._ (' r [ c.-, tJ f: [ f'l E r /1 'j 0 IJURJtJC, D1C,r11/t"R01.
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11 .S1' ORIGINATOR CALCULATION DATE It; co 119 CONTINUATION SHEET PEER REVIEW DATE (<./l'tJ.Ff*
FRM          W&#xa3;S11N<';~IOVSE LE.Tl~                                    PS&#xa3;.- ~t;7-53~  [Ret.cBJ, Ttif  FUL.L          Lt    Fl ocruR ~Arr                        20ft/ ~,;c vcLoC17y
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* ATTACHMENT2 l...,117PMl-
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TITLE /)('('Uf\JUL 111 t'&deg;(__ IDNO. S (Jf\ESSUR.t Orc111 DuR\N{j 'D/<)(/tfltJ1&#xa3; -n s1 REFERENCE SJ -M '() C-/ 3 'j 4 SHEET "'2 &..,.. ..,,,,, .....
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CALCULATION CONTINUATION SHEET ORIGINATOR Vl:/1/IJJDP.lo J 0 L --L L DATE 14 en{!) ----PEER REVIEW DA TE ....!5!.i..!::2" ) Ml 1 IAL ((1 fi{'f) /l / (lfi /1-r\' t Vw" -;
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PA6E'S, DE-AP .ZZ-0002(0)
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AlTACHMENT 2 IHll7PMH&
DE-AP.ZZ-0002(0)                                                                                AlTACHMENT 2
2 L1 t'f 6-2-SJ-f'(JDC-13'}4 DIMENSION VVOF(12),CVCV(l2)
 
TITLE /\ C r lJ PRESSu~&#xa3;'
M UL A 1 tffl DtCA'}          ID NO. 5' .SJ- M f) C- 13 ~ 4-    SHEET OPS~G                  "DVRJtJ(.j' DiSCHflR(.j'E T&#xa3;51 REFERENCE                                /~
OF ORIGINATOR VClfi''10R>.~        --L                      L --L            l.jl
-      CALCULATION CONTINUATION SHEET DATE PEER REVIEW d:cA:: f DATE 111 er T 1999
                                                  /d(U{<)'1' l
FRO"M 1 Ht  DEF/ tJ(1'101\J          /rtovr 1<cHK ~    )7*9&        (I- ~t:p)
DE-AP.ZZ-0002(0)                                                                             ATTACHMENT 2
 
TITLE (,     t. ' ( L ~ 1 t* t t 1 T ('(!..      IDNO. 5 <:;J-           {Ylf){'-/~g4        SHEET I r. l  *: '.:  un          r*, c, ,. 1\'f OPS~G                        Dv (\I 1 [    'C.1
                                          ~J (;      /JI    r._r /I{' F!(i [    REFERENCE                                            11 OF ORIGINATOR V.('/IJ11JD/\AI 0 yc+;~flRA,L.:_
DATE                  I :i~tr 1~9:LJ- ~SJ/l>Jl~'it:;
                                                                                                      --L ---L                        4l CALCULATION CONTINUATION SHEET          PEER REVIEW c&#xa3;,.vt.. f                              Q(il'6 DATE                      tcJ/7..7.(""'{ t-l..-<&#xa3;4-IO  ~E    c.*
TH&#xa3;      FD LLO WI rJ (.j              T ltBu:.               SHNv $ Tf-1 E              f  E L.f)llOtJ<;~11p 8 &#xa3; l w E E" /\) .v ft L v E 6f nJ                                F RA  (TI {JIJ      ~            NtJt..J DIMtN<::JoAJllL
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FRA-CTION                                                                      11-1[ MMl1"1Ufi'I            S1R~E 71rri&#xa3; o*O 0                                            o*o                        I&#xa3; 12. 5 &#xa3;E('
IHI:      ffFECI c-N c *{Is                                        o *OI~~                          Pft:. .s ~ v'RE     Dt.~ IN 7J ME IS    /JJ~l0NIFll"frNT' 0* 10                                        0 *O 55                          INHEN          S1Rtf'KE -r1rJ&#xa3; CH~C,ES              fRO'<<l ID 7c 0 *2 0                                        o *Io
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Lo S s  r/\<<Trf. AT        l)"N'J        ro~.{1/CN:                    /cv/rvc ):2-DE-AP.ZZ-0002(0)                                                                                                            ATTACHMENT 2
 
TITLE      n ('('ti i'Jl'L tl Tr7!.._                  IDNO. s- 2.- SJ-n'J()('-~13 9lt                        SHEET r f.-' l '~ .... () ~ f    D1 <ti'/
OPS~G                                DU    RI Nfi 1 t:. ~(
                                                              ~1c:;c11t1t'1&#xa3;                    REFERENCE                                                )~
OF ORIGINATOR DATE v.(ltll1d>(f1 I~ SC1 rnt+
                                                                                    ~          __      L __ L __ L                                       4l CALCULATION CONTINUATION SHEET                    PEER REVIEW                  t'C""'lCj DATE                  Jc)(t.\(<1 '1 T ftB L E '3 .        S HO w S T rl E                      pI Pl N Ci lf1'ff) FI 7 TI N Q D~ T /l / L 5 o*?..37        +'     75"*41.tB ~
o*Sl.;7                  tJ* '3 94        .
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o NE I      EE    13.i'Z_                                        o*'-t3J                            o* 51 TINO      IEE      RUNS                                            o* 39 ~                            o* / 2 FCILl(Z    LR    ')/tL                                          o* 39 ~                              o* S TWIY        SR <J/r:L                                            0        ~9 ~                      o*  S-(,                       3*CI oNE        LR ~r/tl                                              0*        5 Y8                      o    18                          o*C:.6
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TITLE 11 ('('UN l'L fl f- f:' E <_ ""* U f t I\ t.
                                                              *r r(:._
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ID NO. s $' J - rt) Dc- I 3 0 ~        SHEET OPS~G                        r; URI i11'7          I". rt*P~I)[
f)                    REFERENCE 1 [ SI CALCULATION ORIGINATOR Nr11/\1-JOAA DATE              14 NT F19~
lo ---L                  L ---L ~~
CONTINUATION SHEET          PEER REVIEW                a....,_  S DATE                  tcl(U('-""t - - -
          \H \ s Pl ri tJ(} [ c.        Af~(;L) T            {; s .(i L Of\) G /h. JO 11' 5 I. D. I 5 I '2.
                -L -
ft.
DE-AP .ZZ-0002(0)                                                                                      ATTACHMENT 2
                                                                                                              . . .Jt7PM-
 
TITLE A('    rll (Ill' L /) 1 r"R..          ID NO.      s          5 J - M D C'* I 3 9 't                  SHEET f'fU    ~*:uR    &#xa3; iJl r*r; OPS~G                                  i':t! l?IN IJ 1 ~ S1 DISOlft-~c)E                REFERENCE                                                            Z..J ORIGINATOR V-CH/lNDRAl 0                    '1-WllllDRA,~            --L -'----L                                  OF CALCULATION                              DATE            14POl99:f;"'-7.:?.J~l'f:IG                                                                1t\
CONTINUATION SHEET                      PEER REVIEW (F+/-'z. (                            (.e.vy (j DATE                ptU.{q'f            7..-7--'=lb FoR FLO            ltJ \trRtUflf-f                    A      SERI&#xa3;S c-~ vftR.11Jus                                      D1Jtr.ic1rt_
p1PES,            1r1&#xa3;          roLLOL"11N0                            &#xa3;6.'uAT/tJNrtr r*10110N                                        Is A-P r L  l r fit L E"
('fA    -t    f  F ~) - (Pp -i-1' Fr )                                    =    (ff~~,; )i iq ,_ + "~ vALv"
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f~* L"*                                                                            ~*;      U(j .
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                                                      -      ~A 1 f dzR)                -(        PP  + f; xP ) -                    3-f)* B 2        6(        (~ 1
                                                                      -      &#xa3;~      VAL VE      s
                                        = S Urr1            6        F ~I { 71 ON AL                pf:l L ..., *:, L Flt        f)  fl r-p fr f: C- <:      S C::  J Sy          I    S j :i      s , fh-(f)        ') J :) l          \J  /1 l.  \1 [  ('":,  /lf'...'0 IS fr,JAIL/~LC                        fff.'>'YI      St:C\(CIJ$                  r~'*?..      Arsf) ).L,
                            =-        L 16( urj)        v0 L '        r LC' <d ~ A1T
-    -I.JO 1 E 'i
                    )iA'Pp  =        c.;*,,s C-,A  s PRr:ssu~r PRt    '.;'.s.ur-'t IN 1Hr:. 1\rr1.1111uL11-rrrR.
IN    -1111:      ?RE ... -::uR1 z~
DE-AP .ZZ-0002(0)                                                                                                                              ATTACHMENT 2
 
.,    0      PS~G TITLE Ii (( U f>Jl1L /11
(' r [ c.-, tJ f: [
IJURJtJC, D1C,r11/t"R01.
11 .S1' f'"'R._
f'l E r /1 'j l/.Cf1'A~~/1:~
ID NO. 5 _ 2 _ 5J- MOC-1394 REFERENCE L                L                    L SHEET 1-L-OF
-          CALCULATION CONTINUATION SHEET ORIGINATOR DATE PEER REVIEW DATE It; co 119
                                                                            ~f
(<./l'tJ.Ff*
                                                                                                                                                                ~\
SEC"110N                3.1 VwA ;- 7 8G9
* C zIt                                9 s *7 2 F"RC-7" AN (j rt! UL        fl'TrT'R. Q CY'l [-,          R '/                                                W/l,1['(<V()l-1.11)1&#xa3;              IN (3 J                            A(' (' () fY7 {)L /J 1 df\
V4JA        = 1350-VNA N ( 1'  R0 c, CN        \f#'L. lJft'}    c GI\ S    &deg;f= x PftrJ    s 10 tJ I ~ <7 & v 8< t fl'> Ry                                                      I 1J '111 E        ii{' (" l' Yl1  UL  A1 trR..
l                  .
TH [    F0 L L 0 tv {NG                .E    lY IJ A'11 0 tJ 1\                              'Y'\
PA      VAN = PAo*VANo Y\
                                                        \JANo )
pA    -::::.      PA 0 ( ,,.1'-N
* AC('trntJLA1l'.l1(                          IS cJ. VA rv c).t
                      <3tC1/0N                3* 2-
                        =        VL-Jp ;-          40~ 2. 3
                                              ~3* 3i ~
( ( 2)
E o(v t\ 'i I0 N Si            ( 6 ) T H(( 0 u(, 11              (I :?)        (1 /t'N (\ [      <:o L v rn      .:; /I'\' () L 7 A ~Jt:. s L 'I..
{.oU 11-1 f        UNrt.JOWN                \/nf~l/t{::,t l S              r1 PC            Q )    pJ.\    .z: A ) 2. p ' vWft v"1 A
* J                              J
          ;/Pffi        ,V,wp.
OE-AP .ZZ-0002(0)                                                                                                                        ATTACHMENT2 l...,117PMl-N
 
TITLE /)('('Uf\JUL 111 (Jf\ESSUR.t          Orc111 t'&deg;(__    IDNO. S SJ - M '() C- / 3 'j 4    SHEET OPS~G
                                                                                                                          ~.. "'2 DuR\N{j 'D/<)(/tfltJ1&#xa3;          -n s1  REFERENCE                                  &..,.. ..,,,,,.....
ORIGINATOR Vl:/ 1/IJJDP.lo J 0                  L --L                      L q~F
-*      CALCULATION CONTINUATION SHEET DATE PEER REVIEW ~
DATE 14 en{!) -
                                                            ....!5!.i..!::2"
        ) Ml 1 IAL    ((1 fi{'f) /l / (lfi ~      /1-r\' t
                    -;      <j~O*I -(-t)
Vw" Vt.JP    -:-    7 s 8 -[1 ~
B1t*7 p~<*~
PA        ==
                            = 0      -t-1/s
                ~
q            =0      R(* d a,.,._
I E~VA1ION s;              {G) THR.OUGH (12)                        \-!ft\/&#xa3; ~[&#xa3;N    SoLvz:D NUM~)(frt..L'I u g, tt*J G A       FCJ'f(T RAN CirrYI       pI) 1 &#xa3;R. f RoG f(!rn'I         1 HE: LI s 1 r "' q aF C()rflPu1dZ.. PRoGR-frM.                       1s     SHOtvN           1N l"H&#xa3;" FoLLow1N{)           PA6E'S, DE-AP .ZZ-0002(0)                                                                                           AlTACHMENT 2 IHll7PMH&
 
2 L1 t'f ~I 6-2-SJ- f'(JDC-13'}4 DIMENSION VVOF(12),CVCV(l2)
DATA VVOF I 0. ,
DATA VVOF I 0. ,
* 0 5 , . 1,
* 0 5 , . 1,
Line 341: Line 564:
* 3 , . 4 , . 5 , . 6 , . 7 I
* 3 , . 4 , . 5 , . 6 , . 7 I
* 8 I
* 8 I
* 9 , 1 . I DATA CVCV/O., 0.0194, 0.055, 0.1, 0.146, 0.204, # 0.277,0.3536,0.4613,0.6086,0.767,1./ . ...__. PARAMETERS GAM=l.3 G=32.174 RHO=l.94 AREA=0.394 DT=0.01 PPRES=14.7*144.
* 9 , 1 . I DATA CVCV/O., 0.0194, 0.055, 0.1, 0.146, 0.204,
          #           0.277,0.3536,0.4613,0.6086,0.767,1./                                   .
  ...__. PARAMETERS GAM=l.3                                                               REf\CTG1\ 11dt-D ts oN G=32.174 RHO=l.94                                                               Ct\tf.-t vALvt"" IS F"R.EE AREA=0.394 DT=0.01 PPRES=14.7*144.
C INITIAL CONDITIONS TIME=O.l NSTEP=-1 VNAZ=419.9 VNA=VNAZ PAZ=84.7*144.
C INITIAL CONDITIONS TIME=O.l NSTEP=-1 VNAZ=419.9 VNA=VNAZ PAZ=84.7*144.
PA= PAZ Q=.001 VWP=758. REf\CTG1\
PA=PAZ Q=.001 VWP=758.
11dt-D ts oN Ct\tf.-t vALvt"" IS F"R.EE WRITE(*,101) 101 FORMAT(T19'TIME', T28'ACCUMULATOR PRESSURE 103 FORMAT(T19'(SEC.)',T28' (PSIG) FLOW RATE') (GPM) I, I/) WRITE(*,103}
WRITE(*,101) 101 FORMAT(T19'TIME', T28'ACCUMULATOR PRESSURE                                         FLOW RATE')
31 NSTEP=NSTEP+l TIME=TIME+DT C CALCULATE ACCUMULATOR LEVEL ELEVATION VWA=l350.-VNA ZA=(VWA+7869.6)/95.72 C CALCULATE PRESSURIZER LEVEL ELEVATION ZP=(VWP+4092.3)/38.34  
103 FORMAT(T19'(SEC.)',T28'                               (PSIG)                         (GPM) I, I/)
-CALCULATE ACCUMULATOR GAS PRESSURE
WRITE(*,103}
* PA=PAZ*(VNAZ/VNA)**GAM CALCULATE SJ54 LOSS FACTOR VOTl=lO. GVKZ=.15 IF(TIME .LT. VOTl) THEN VOF=TIME/VOTl CALL INTER(VOF,CVND,12,VVOF,CVCV)
31 NSTEP=NSTEP+l TIME=TIME+DT C CALCULATE ACCUMULATOR LEVEL ELEVATION VWA=l350.-VNA ZA=(VWA+7869.6)/95.72 C CALCULATE PRESSURIZER LEVEL ELEVATION ZP=(VWP+4092.3)/38.34 CALCULATE ACCUMULATOR GAS PRESSURE
* PA=PAZ*(VNAZ/VNA)**GAM CALCULATE SJ54 LOSS FACTOR VOTl=lO.
-            GVKZ=.15 IF(TIME .LT. VOTl) THEN VOF=TIME/VOTl CALL INTER(VOF,CVND,12,VVOF,CVCV)
GVK=GVKZ/(CVND*CVND)
GVK=GVKZ/(CVND*CVND)
ELSE GVK=GVKZ END IF C CALCULATE CHECK VALVE DP VEL=Q/AREA AV2=38.3/(VEL*VEL)
ELSE GVK=GVKZ END IF C CALCULATE CHECK VALVE DP VEL=Q/AREA AV2=38.3/(VEL*VEL)
SINPHI=0.5*(SQRT(AV2**2+4.)-AV2)
SINPHI=0.5*(SQRT(AV2**2+4.)-AV2)
IF (SINPHI .GE. 0.9532) SINPHI=0.9532 DPCHK=2.*8.98*RHO*VEL*VEL*(l.-SINPHI)
IF (SINPHI .GE. 0.9532) SINPHI=0.9532 DPCHK=2.*8.98*RHO*VEL*VEL*(l.-SINPHI)
C CALCULATE DERIVATIVES DQDT=(PA+RHO*G*ZA-PPRES-RHO*G*ZP-35.75*Q*ABS(Q)  
C CALCULATE DERIVATIVES DQDT=(PA+RHO*G*ZA-PPRES-RHO*G*ZP-35.75*Q*ABS(Q)
# -0.5*GVK*l.94*Q*ABS(Q)/AREA**2  
            #         -0.5*GVK*l.94*Q*ABS(Q)/AREA**2 - DPCHK)/468.9 DVNADT=Q DVWPDT=Q C CALCULATE VALUES AT NEW TIME STEP QQ=Q+DQDT*DT VVNA=VNA+DVNADT*DT VVWP=VWP+DVWPDT*DT IF (TIME .LE. 2.) THEN IF(MOD(NSTEP,10) .EQ. O)WRITE(*,102) TIME,+(PA/144.-14.7),
-DPCHK)/468.9 DVNADT=Q DVWPDT=Q C CALCULATE VALUES AT NEW TIME STEP QQ=Q+DQDT*DT VVNA=VNA+DVNADT*DT VVWP=VWP+DVWPDT*DT IF (TIME .LE. 2.) THEN IF(MOD(NSTEP,10) .EQ. O)WRITE(*,102)
            #     Q*7.48*60.
TIME,+(PA/144.-14.7), # Q*7.48*60.
ELSE IF(MOD((NSTEP+l0),100) .EQ. D)WRITE(*,102) TIME,+(PA/144.-14.7),
ELSE IF(MOD((NSTEP+l0),100) .EQ. D)WRITE(*,102)
            #     Q*7.48*60.
TIME,+(PA/144.-14.7), # Q*7.48*60.
END IF
END IF
 
...._.. 102 FORMAT(F23.3,8F17.2)
2 -; q:
UPDATE THE OLD VARIABLES Q=QQ VNA=VVNA VWP=VVWP IF(TIME .GT. 100.) STOP GO TO 31 END SUBROUTINE INTER(X,Y,N,XX,YY)
s SJ- M 0 C- 13 94    4\
102 FORMAT(F23.3,8F17.2)
UPDATE THE OLD VARIABLES Q=QQ VNA=VVNA VWP=VVWP
...._..      IF(TIME .GT. 100.) STOP GO TO 31 END SUBROUTINE INTER(X,Y,N,XX,YY)
DIMENSION XX(N),YY(N)
DIMENSION XX(N),YY(N)
IF(X .LT. XX(l) .OR. X .GT. XX(N)) GO TO 3 DO 2 J=2,N IF(X .GE. XX(J-1) .AND. X .LE. XX(J)) GO TO 101 GO TO 2 101 Y=YY(J-l)+(YY(J)-YY(J-l))*(X-XX(J-1))/
IF(X .LT. XX(l) .OR. X .GT. XX(N)) GO TO 3 DO 2 J=2,N IF(X .GE. XX(J-1) .AND. X .LE. XX(J)) GO TO 101 GO TO 2 101 Y=YY(J-l)+(YY(J)-YY(J-l))*(X-XX(J-1))/
1 (XX(J)-XX(J-1))
1   (XX(J)-XX(J-1))
RETURN 2 CONTINUE 3 WRITE(6,l)
RETURN 2 CONTINUE 3 WRITE(6,l) X,(XX(I),I=l,N) 1 FORMAT('   BEYOND RANGE',Gl0.4,5X,20G10.4)
X,(XX(I),I=l,N) 1 FORMAT(' BEYOND RANGE',Gl0.4,5X,20G10.4)
RETURN END C:\SALEM\REACTOR\ECCS>
RETURN END C:\SALEM\REACTOR\ECCS>
* 2 -; q: s SJ-M 0 C-13 9 4 4 \ 
 
---------------
TITLE {\(*tu MUL     /\\(TR               ID NO. s s J-     M   rv"_ r 3 &deg;' /,             SHEET PR G. SS u R{;" D c (' f\ '/                                           , . Iv<-     - _,I OPS~G                              DU i;I rJ (1 Dr S C't*I ~(it:
---
1ES1 REFERENCE                                                   -:" (.-
TITLE {\(*tu MUL /\\(TR ID NO. s s J-M rv"_ r 3 &deg;' /, SHEET PR G. SS u R {;" D c (' f\ '/ , . Iv<--_,I DU i;I rJ (1 Dr S C't*I REFERENCE  
CALCULATION ORIGINATOR v.Cfl/\rJOf.A)
-:" (.-1ES1 *-* ORIGINATOR v.Cfl/\rJOf.A) o v L L itt DATE 2.I NT  
DATE o v*CH~~~
'21.JIP'-ll'>'G; CALCULATION CONTINUATION SHEET PEER REVIEW a.-..t; QNt 'i DATE le) (1..l /&deg;""' -z. -1. ..&f..l ?J:-;. 2.. ECQUA 1*1or-JS. r<IOTION (RtArT6f( f/&#xa3;1TD 6FF) LE\ f c ::=. A 1 (\PR t: s s vl\E. 1rJ Ttlf rAvri ') Zc == ELE.\J/\i!O/\.l crF IAJ{)Tc-R., suRFACb (;b ) (,f) r. ) (2.. f-(*kA*\_1,</-
2.I NT 199~ '21.JIP'-ll'>'G; L                  L        itt CONTINUATION SHEET                   PEER REVIEW a.-..t;                           QNt 'i DATE               le) (1..l /&deg;""'       -z. -1. ..&f..l
6Pr fjZft -ic-+f'JZc
          ?J:-;. 2.. ECQUA 1*1or-JS. ~ r<IOTION                                   (RtArT6f( f/&#xa3;1TD 6FF)
=--1* -t 11JAt.v[5 -tf'2 LA,* f,*) 1 :: I *CJ 4-'*' 2 2 I = 4 2 8* 7 .l '-
LE\           fc    ::=. A 1 (\PR t: s s vl\E.                 1rJ Ttlf             rAvri ')
2 L -v _, :J. v -z; rt 7 A. "2,... 1 I 1 3 5* 7S 2. DE-AP.ZZ-0002(0)
Zc     ==     ELE.\J/\i!O/\.l crF IAJ{)Tc-R., suRFACb
= ( f A t f if ZA ) -c t c: -t f 3 z c ) --3 ') . 8 IQ. 6(_ -V f) L \J 'L S Q '3 ) Vw.,q 1 7569*( 9 '1* 7 'l.. (17) (/Lt) (I ') ) S fTw1 l fl ) C6r' N ( 8) ATIACHMENT2 ... , ........
(;b
* SHEET L .--L*oF ORIGINATOR 0 ___ L_ ---!..\\ DATE 21 en J9 CALCULATION CONTINUATION SHEET PEER REVIEW DATE t.l(tl(<t 1 DuR1Nt1 1HIS. ltrt A1f? PRE. ssrf<E IN II-fl r.;tv1'T')  
                ~t fjZft -
/11'.fD I H &#xa3;. ld I\ 1 tR L E Vl L ( H /+-f'J <-y* &#xa3; S ft-RE NE <-, L I f7 I BL t; IHE'RLF0<r , zc /'J 7 WILL P:iE u.sc[) -h ':  
                                      )           (,f)ic-+f'JZc        r.     )
,44 /!d;J_ IC 41 i E rS! u -11 o N S ( I :, ) 1 H R. o u (-/ 11 { 17) C /'rN NO w B E StJ L vrp '5 l M \) L 1.f\N&#xa3; 0 U <;. L J, DE-AP.ZZ-0002(0)
                                                                                    =-
AITACHMENT 2 -ll"&IMHI
(2..
* DIMENSION VVOF(12),CVCV(12)
                                                                                          -1*
f-(*kA*\_1,</- 6Pr
                                                                                                  ~ )).~ -t 11JAt.v[5
                                                                                      -tf'2
                                                                                          ~1 LA,*
1 f,*) ~~
:: I *CJ 4- '*'       2 2   I       = 4 2 8* 7
              .l '-  f-;;---1'-~.----'2.....~    3~5-*~_,__,5"'--a-St-0-(j-------&--------*---
L                   -v       _, :J. v -z; rt 7 2        A. "2,...                               1   I 1
3 5* 7S         2.
                                          = (       fA t       f if ZA ) -               ct    c: -t     f 3 zc ) -         -3 ') . 8 IQ. 6(_
                                                              -       .6~    Vf) L \J 'L S                                               Q'3 )
Vw.,q       1     7569*(                           (/Lt) 9 '1* 7 'l..
(I ') )             S fTw1 l       fl )   C6r' N (       8)
(17)
DE-AP.ZZ-0002(0)                                                                                                                ATIACHMENT2
                                                                                                                                                  ~ ...,........
 
SHEET OPS~G
* CALCULATION CONTINUATION SHEET ORIGINATOR 1/CHAr.JD~A 0 DATE PEER REVIEW ~y DATE 21 en     J9 t.l(tl(<t 1 L
L_ - - -
L*oF  !..\\
DuR1Nt1 1HIS. TE~T 1                        ltrt       A1f? PRE. ssrf<E   IN II-fl   r.;tv1'T')
        /11'.fD I H &#xa3;. ld I\ 1 tR L E Vl L ( H /+-f'J <-y* &#xa3; S ft-RE NE <-, L I f7 I BL t; IHE'RLF0<r , zc ~ /'J 7 ~-t WILL P:iE u.sc[)
                                    -h       ':   14*7~ ,44 /!d;J_
IC                                 41   i E   rS! u ~ -11 oN S       ( I:, )     1 H R. ou(-/ 11 {17)   C/'rN NO w B E StJ L vrp
        '5 l M \) L 1.f\N&#xa3; 0 U       <;. L J, DE-AP.ZZ-0002(0)                                                                               AITACHMENT 2
                                                                                                      -ll"&IMHI
 
DIMENSION VVOF(12),CVCV(12)
DATA VVOF /0. I
DATA VVOF /0. I
* 05 I .1,. 2 I
* 05 I .1,. 2 I
Line 387: Line 645:
* 4 I
* 4 I
* 5, . 6, . 7, . 8 I
* 5, . 6, . 7, . 8 I
* 9 I l. I DATA CVCV/O., 0.0194, 0.055, 0.1, 0.146, 0.204, # 0.277,0.3536,0.4613,0.6086,0.767,1./  
* 9 I l. I DATA CVCV/O., 0.0194, 0.055, 0.1, 0.146, 0.204,
'-" PARAMETERS GAM=l.3 G=32.174 RHO=l.94 AREA=0.394 DT=0.01 PCAV=14.7*144.
        #           0.277,0.3536,0.4613,0.6086,0.767,1./
Clh'r'\Pu1a<.
'-" PARAMETERS GAM=l.3 G=32.174 RHO=l.94                               Clh'r'\Pu1a<. PRol7~~ L1S1"trJG AREA=0.394 DT=0.01 Rnc      T61Z Mt}\-i) l ~ OF F PCAV=14.7*144.                         Ctt~ 'JAL-\iG \5 Fr\t=E*
L1S1"trJG R nc T61Z M t}\-i) l OF F C INITIAL CONDITIONS TIME=O.l
C INITIAL CONDITIONS TIME=O.l NSTEP=-1 VNAZ=419.9 VNA=VNAZ PAZ=84.7*144.
'JAL-\iG \5 Fr\t=E* NSTEP=-1 VNAZ=419.9 VNA=VNAZ PAZ=84.7*144.
PA=PAZ Q;:;;. 001 ZCAV=127.
PA= PAZ Q;:;;. 001 ZCAV=127.
WRITE(*,101) 101 FORMAT(Tl9 1 TIME 1 , T28 1 ACCUMULATOR PRESSURE                           FLOW RATE')
WRITE(*,101) 101 FORMAT(Tl9 1 TIME 1 , T28 1 ACCUMULATOR PRESSURE 103 FORMAT(Tl9 1 (SEC.)',T28 1 (PSIG) WRITE(*,103) 31 NSTEP=NSTEP+l TIME=TIME+DT C CALCULATE ACCUMULATOR LEVEL ELEVATION VWA=1350.-VNA ZA=(VWA+7869.6)/95.72 C CALCULATE ACCUMULATOR GAS PRESSURE PA=PAZ*(VNAZ/VNA)**GAM CALCULATE SJ54 LOSS FACTOR VOTl=lO. GVKZ=.15 IF(TIME .LT. VOTl) THEN VOF=TIME/VOTl CALL INTER(VOF,CVND,12,VVOF,CVCV)
103 FORMAT(Tl9 1 (SEC.)',T28 1                       (PSIG)                       (GPM) ',//)
WRITE(*,103) 31 NSTEP=NSTEP+l TIME=TIME+DT C CALCULATE ACCUMULATOR LEVEL ELEVATION VWA=1350.-VNA ZA=(VWA+7869.6)/95.72 C CALCULATE ACCUMULATOR GAS PRESSURE PA=PAZ*(VNAZ/VNA)**GAM CALCULATE SJ54 LOSS FACTOR VOTl=lO.
GVKZ=.15 IF(TIME .LT. VOTl) THEN VOF=TIME/VOTl CALL INTER(VOF,CVND,12,VVOF,CVCV)
GVK=GVKZ/(CVND*CVND)
GVK=GVKZ/(CVND*CVND)
ELSE GVK=GVKZ END IF C CALCULATE CHECK VALVE DP VEL=Q/AREA AV2=38.3/(VEL*VEL)
ELSE GVK=GVKZ END IF C CALCULATE CHECK VALVE DP VEL=Q/AREA AV2=38.3/(VEL*VEL)
SINPHI=0.5*(SQRT(AV2**2+4.)-AV2)
SINPHI=0.5*(SQRT(AV2**2+4.)-AV2)
IF (SINPHI .GE. 0.9532) SINPHI=0.9532 DPCHK=2.*8.98*RHO*VEL*VEL*(l.-SINPHI)
IF (SINPHI .GE. 0.9532) SINPHI=0.9532 DPCHK=2.*8.98*RHO*VEL*VEL*(l.-SINPHI)
FLOW RATE') (GPM) ',//) C CALCULATE DERIVATIVES DQDT=(PA+RHO*G*ZA-PCAV-RHO*G*ZCAV-35.75*Q*ABS(Q)  
C CALCULATE DERIVATIVES DQDT=(PA+RHO*G*ZA-PCAV-RHO*G*ZCAV-35.75*Q*ABS(Q)
# -0.5*GVK*l.94*Q*ABS(Q)/AREA**2  
        #             -0.5*GVK*l.94*Q*ABS(Q)/AREA**2 - DPCHK)/428.7 DVNADT=Q C CALCULATE VALUES AT NEW TIME STEP QQ=Q+DQDT*DT VVNA=VNA+DVNADT*DT IF (TIME .LE. 2.) THEN IF(MOD(NSTEP,10) .EQ. O)WRITE(*,102) TIME,+(PA/144.-14.7),
-DPCHK)/428.7 DVNADT=Q C CALCULATE VALUES AT NEW TIME STEP QQ=Q+DQDT*DT VVNA=VNA+DVNADT*DT IF (TIME .LE. 2.) THEN IF(MOD(NSTEP,10) .EQ. O)WRITE(*,102)
        #       Q*7.48*60.
TIME,+(PA/144.-14.7), # Q*7.48*60.
ELSE IF{MOD({NSTEP+l0),100) .EQ. O)WRITE(*,102) TIME,+(PA/144.-14.7),
ELSE IF{MOD({NSTEP+l0),100) .EQ. O)WRITE(*,102)
        #       Q*7.48*60.
TIME,+(PA/144.-14.7), # Q*7.48*60.  
*.._. END IF 02 FORMAT(F23.3,BF17.2)
*.._. END IF 02 FORMAT(F23.3,BF17.2)
UPDATE THE OLD VARIABLES Q=QQ VNA==VVNA
UPDATE THE OLD VARIABLES Q=QQ VNA==VVNA IF(TIME .GT. 100.) STOP
 
* GO TO 31 END _ SUBROUTINE INTER(X,Y,N,XX,YY)
IF(TIME .GT. 100.) STOP GO TO 31 END
DIMENSION XX(N),YY(N)  
* _     SUBROUTINE INTER(X,Y,N,XX,YY)
...._. IF(X .LT. XX(l) .OR. X .GT. XX(N)) GO TO 3 DO 2 J=2,N IF(X .GE. XX(J-1) .AND. X .LE. XX(J)) GO TO 101 GO TO 2 101 Y=YY(J-l)+(YY(J)-YY(J-l})*(X-XX(J-1))/
DIMENSION XX(N),YY(N)
1 (XX(J)-XX(J-1))
  ...._.     IF(X .LT. XX(l) .OR. X .GT. XX(N)) GO TO 3 DO 2 J=2,N IF(X .GE. XX(J-1) .AND. X .LE. XX(J)) GO TO 101 GO TO 2 101 Y=YY(J-l)+(YY(J)-YY(J-l})*(X-XX(J-1))/
RETURN 2 CONTINUE J WRITE(6,1)
1   (XX(J)-XX(J-1))
X,(XX(I),I=l,N) 1 FORMAT(' BEYOND RANGE',Gl0.4,5X,20Gl0.4}
RETURN 2 CONTINUE J WRITE(6,1) X,(XX(I),I=l,N) 1 FORMAT(' BEYOND RANGE',Gl0.4,5X,20Gl0.4}
RETURN END C:\SALEM\REACTOR\ECCS>  
RETURN END C:\SALEM\REACTOR\ECCS>
 
--------------
TITLEACt'UMULI\          Tr/Z._        IDNO. S SJ- /Yll)C- 13    "31*           SHEET OPS~G PF?_t: SSURE: [){:{'fl/
----------* ......_.
D V R I N (J D I S CH nR(j' [
TITLEACt'UMULI\
IE S\.
Tr/Z._ IDNO. S-2-SJ-/Yll)C-13 "31* SHEET PF?_t: SSURE: [){:{'fl/
REFERENCE T
T D V R I N (J D I S CH n R (j' [ REFERENCE
                                                                                                                                      >0 OF ORIGINATOR v.t11t.1JoR4lo DATE        Jl-tOCT I~.~
> 0 IE S\. OF ORIGINATOR v.t11t.1JoR4lo
                                                                                        --L                  L --L                  '-\I CALCULATION CONTINUATION SHEET                  PEER REVIEW ~                1 DATE            I c/ ( 7-"l_(9"1
--L L --L '-\I CALCULATION CONTINUATION SHEET 4. RE'SuL T'S DATE Jl-tOCT PEER REVIEW 1 DA TE I c/ ( 7-"l_(9"1 lti!Z FoLLO.WIJJ{7 TH R&#xa3; &#xa3; Wf"Rt RvtJ F<f'R Hcfroc')J C.tHIT IC, v RA 'TION . 1 CH'f.CK V/JLvE IS 2.. CHt;Ck \J/lLVL Mfl1-JfYl!l[r')
: 4. RE'SuL T'S lti!Z FoLLO.WIJJ{7 TH R&#xa3; &#xa3;                                CA.s:t..~* Wf"Rt RvtJ          F<f'R Rt::1tT1~ Hcfroc')J C.tHIT IC, v RA 'TION .
SvvtAJG FRtfW1 ftJ.S/TIO/\J IS Go DEGR.&#xa3;ES, 3. Cftrc.K VflLvr MA-x1mvM sc.-v1rJ(7 f+NGLr f/?..{)r(I CL-t>ScD PoSITJtJN IS 3o 7 irB L &#xa3; s 4. / , 4. 2, lrNO '-t* 3 s HO i.J THE /J Ctv M vL.!iTd1Z_i TIJYJr H15 TtrR.j f\KD DJSCHHt;t::
1   CH'f.CK V/JLvE IS                      FR.&#xa3;~
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2.. CHt;Ck          \J/lLVL        Mfl1-JfYl!l[r')     SvvtAJG       /t-N(il.~ FRtfW1     (1L~Sc()
* 1 HE A c (" cJfll v LA 'T tR. PR E s <:: c:: ,Ar.lf'i 1J1 c NM t7 c fLtH-'1 fr-R[ SHOWN \N llrf3,L&#xa3; 4*l.i. 'J <' () M p frR I s o*tJ of RE Su L I S 6F 1 AA L &#xa3; 4 * ( fh..-p 4 .4 , I 1 I S CO Al ('_ L u j) [{) I t1 ft 1 1 H E P R E 5 <: u-.P. E f) fl A-y \lrvlf lg, NE1rf?.L')
ftJ.S/TIO/\J IS                 Go DEGR.&#xa3;ES,
r:.QUA-'L WHE.'THcR  
: 3. Cftrc.K         VflLvr MA-x1mvM                       sc.-v1rJ(7   f+NGLr f/?..{)r(I CL-t>ScD PoSITJtJN IS                 3o Dt=Gf<.t=~s.
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7irB L &#xa3; s           4. / , 4. 2, lrNO '-t* 3 s HO i.J THE /J Ctv M vL.!iTd1Z_i PR&#xa3;S~uRr- TIJYJr H15 TtrR.j f\KD DJSCHHt;t:: FLot.J RA--r &#xa3; "TIME
07\f OJ\ err F
* 1-11s1cR.y rtR JN FI 4 v R &#xa3; s tflSt. 4
* OE-AP.ZZ-0002(0)
                                        &#xa3;-ftL.A{
ATTACHMENT 2 _,., __
                                            '1- *I it_JAS RurJ f~
* TA-BL&#xa3; '-t I TIME (SEC.) .110 .210 .310 .410 .510
rA -s~.
.610 .710 .810 .910 1.010 1.110 1.210 1.310 1.410 1.510 1.610 1. 710 1.810 1.910 2.010 3.010 4.010 5.010 6.010 7.010 8.010 9.010 10.010 11. 010 12.010 13.010 14.010 15.010 16.010 17.010 18.010 19.010 20.010 21.010 22.010 23.010 24.010 25.010 26.010 27.011 28.011 29.011 30.011 31. 011 32.011 33.010 34.010 35.010 36.010 37.010 38.010 39.009 40.009 41. 009 42.009 43.009 A (' (' u n1 VL" T oR. p R &#xa3; s s u R f ANO DI s c H ftf{ 6 E FLoLu RAif 1/nlt HISToRl&#xa3;S (Cli/;ZI<.
{)-Ni)    4. 2-.
WlLVG 15 F(U.t:) ACCUMULATOR PRESSURE FLOW RATE Oft.\\ (PSIG) (GPM) 70.00 69.99 69.97 69.94 69.90 69.85 69.80 69.73 69.64 69.55 69.44 69.33 69.20 69.07 68.93 68.79 68.64 68.48 68.32 68.15 66.23 64.04 61. 75 59.48 57.29 55.21 53.26 51.43 49.72 48 .13 46.65 45.26 43.97 42.75 41. 60 40.53 39.51 38.55 37.65 36.79 35.98 35.22 34.50 33.82 33.18 32.58 32.01 31. 47 30.95 30.47 30.0l 29.58 29.17 28.78 28.41 28.06 27.73 27.'12 27.12 26. 84 26.58 .45 300.49 440.81 578.47 713.81 902.74 1115.94 1330.04 1541. 08 1747.67 1930.52 2087.50 2229.64 2362.35 2488.29 2608.84 2724.74 2836.38 2943.97 3047.65 3875.55 4401. 87 4713.27 4839.18 4872.79 4849.09 4779.05 4688.39 4574.63 4454.73 4338.16 4225.73 4117.26 4012.45 3911. 02 3812.72 3717.33 3624.65 3534.47 3436.45 3330.96 3225.19 3121.06 3019.06 2919.24 2821. 52 2725.84 2632.09 2540.20 2450.10 2361.72 2275.02 2189.97 2106.55 2024.74 1944.57 1866.05 1789.22 1714.15 1640.91 1569.61 S 5 J-('() DC-t 30J4 CnECK '\11\L\J[ FREE R 1::.At:TD'R Hcit1) IS ON 
lru::sG"         CfJf?VE s !ti?&#xa3;     PLOTTED Rnfz"TcR HFfrDt.f"f ~N"rl(}<!RA'Tl~N.
---*--------
In-if) -r Ht.       CHnl:- vAL vc; Wt' s t.arJ s1 DfRrD F RE~ Ta JY)u\J E.
TABL&#xa3; 4*2 PRESSURE AtJP 'DISCH/tf.C,t; FLOW RA'Tf: 31. -qr<\&#xa3; HIS WX'\ &#xa3;5 lfYlA.X* SWlt\ll] AIJ(jLE: 60 Dc-tS.) oF
* 1 HE         A c (" cJfll v LA 'T tR. PR E s <:: c~ c:: ,Ar.lf'i 1J1 ~ c NM t7 c fLtH-'1     ~f\1&#xa3;S            fr-R[       SHOWN                 \N   llrf3,L&#xa3;     4*l.i.
* TIME ' ACCUMULATOR PRESSURE FLOW RATE 4\ (SEC.) {PSIG) (GPM) ...........  
                        ~'J     <' () M pfrR I s o*tJ       of RE Su L I S 6F                     1 AA L &#xa3;     4 *(     fh..-p 4 .4   ,   I   1       IS      CO Al ('_ L   u j) [{) I t1 ft 1 1             HE    PRE 5 <: u-.P. E   f) fl   A-y
.110 70.00 .45 5-2-SJ-f'flf)C-1:,&deg;,)4 .210 69.99 300.49 .310 69.97 440.81 .410 69.94 578.47 .510 69.90 713.81 .610 69.85 902.74 .710 69.80 1115.94 .810 69.73 1330.04 .910 69.64 1541. 08 1.010 69.55 1747.67 1.110 69.44 1930.52 1.210 69.33 2087.17 l.310 69.20 2224.09 1.410 69.07 2347.27 1. 510 68.94 2460.90 1. 610 68.79 2567.13 1.710 68.64 2667.11 cfi&#xa3;Ct"-VAL\J( 1.810 68.49 2761.49 1.910 68.33 2850.70 /\1JIJCIMUM SL-VI rJt; 2.010 68.17 2935.03 {;o R&#xa3;&#xa3; 3.010 66.36 3561.19 = 4.010 64.37 3937.09 R t1'rc T d{ H CIT() 5.010 62.33 4135.53 6.010 60.31 4198.94 I s t1 rJ 7.010 58.37 4202.26 8.010 56.53 4169.33 9.010 54.79 4108.03 10.010 53.15 4035.44 11.010 51. 60 3948.75 12.010 50.15 3859.57 13.010 48.79 3773.05 14.010 47.50 3689.36 15.010 46.29 3608.35 16.010 45.14 3529.82 17.010 44.06 3453.60 18.010 43.03 3379.54 19.010 42.05 3307.51 20.010 41.12 3237.37 21. 010 40.24 3169.00 22.010 39.40 3102.31 23.010 38.60 3037.19 24.010 37.84 2973.55 25.010 37.11 2911.31 26.010 36.41 2850.39 27.011 35.74 2790.71 28.011 35.10 2732.22 29.011 34.49 2674.85 30.011 33.91 2618.55 31.011 33.35 2563.25 32.011 32.81 2508.91 33.010 32.29 2455.49 34.010 31. 80 2402.93 35.010 31. 32 2351.20 36.010 30.86 2300.26 37.010 30.42 2250.07 38.010 30.00 2200.59 39.009 29.59 2151.80 40.009 29.20 2103.67 41. 009 28.82 2056.16 42.009 28.46 2005.5!) 43.009 28 .11 1941.39 
                \lrvlf         lg,     NE1rf?.L')       r:.QUA-'L WHE.'THcR -1Hc                     lE Sr       IS. DrJNE wl ,-t Ii   I   HE      11 t. ~"f) 07\f         OJ\       err F
**------* *-*-** . TABL(: lt*3 A ccurouLsrrcR._
* OE-AP.ZZ-0002(0)                                                                                                 ATTACHMENT 2
PR 1.::s s u R c: AJJD 015 CJ-f FLOhJ IUJTE \I "1 G'" HISIOR.1&#xa3;"$ (
 
Sw/rJG ANG&#xa3;::. 3o DtiCt.). 33 TIME ACCUMULATOR PRESSURE FLOW RATE Of' (SEC.) {PSIG) (GPM) t; I -* .110 70.00 .45 5-2-.SJ-Ml)C-r39ft
TA-BL&#xa3;   '-t I A(' (' u n1 VL" ToR. pR&#xa3; s s uRf ANO  DI s cHftf{ 6 E FLoLu RAif 1/nlt HISToRl&#xa3;S (Cli/;ZI<. WlLVG 15 F(U.t:)                    ~'
.210 69.99 300.49 .310 69.97 440.81 .410 69.94 578.47 .510 69.90 713.81 .610 69.85 902.74 .710 69.80 1110.33 69.73 1308.20 .910 69.65 1492.50 1.010 69.56 1661.97 1.110 69.46 1800.72 1.210 69.35 1911..17 1.310 69.24 2005.29 1.410 69.12 2088.58 1.510 69.00 2163.68 1. 610 68.87 2232.04 1.710 68.74 2294.51 1.810 68.61 2351. 71 1.910 68.48 2 4 o 4 . 11 e H &#xa3; L' "-v AL. V &#xa3; 2.010 68.34 2 4 5 2
TIME      ACCUMULATOR PRESSURE            FLOW RATE                                Oft.\\
* 11 MAX I P'I u M Sl-'11 Ill (.j 3.010 66.88 2759.92 .R _ 4.010 65.35 2902.46 = DE"l*1 &#xa3;&#xa3; 5.010 63.83 2957.44 6.010 62.34 2959.75 Ri HE.11-D 7. 010* 60.90 2942.94 8.010 59.53 2914.56 1s 0 tJ 9.010 58.21 2877.51
(SEC.)                    (PSIG)            (GPM)
* 10.010 56.95 2837.78 11.010 55.74 2793.53 12.010 54.59 2749.34 13.010 53.49 2706.28 14.010 52.43 2664.32 15.010 51.42 2623.40 16.010 50.45 2583.46 17.010 49.52 2544.45 18.010 48.63 2506.33 19.010 47.77 2469.05 20.010 46.95 2432.56 21.010 46.15 2396.84 22.010 45.38 2361.85 23.010 44.65 2327.55 24.010 43.93 2293.91 25.010 43.25 2260.90 26.010 42.58 2228.50 27.011 41. 94 2196.68 28.011 41. 32 2165.41 29.011 40.73 2134.67 30.011 40.15 2104.44 31.011 39.59 2074.71 32.011 39.04 2045.44 33.010 38.52 2016.62 34.010 38.01 1988.24 35.010 37.51 1960.28 36.010 37.03 1932.72 37.010 36.57 1905.55 38.010 36.12 1878.75 39.009 35.68 1852.30 40.009 35.25 1826.21 41.009 34.84 1800.45 42.009 34.44 1775.02 43.009 34.05 1749.89 
                                                      .45          S 5 J- ('() DC-t 30J4
.........
        .110                    70.00
sooo \!-\.} l:l t-" :? l\Ol>> C) lu Q::'.' Cl: E 3000 Vl a. ot. <::i :3 200D 'E: " q: 1000 ( (]\ I N 1 I}\ L I 3 0 ,...., I
        .210                   69.99              300.49
.......
        .310                   69.97              440.81
s-to 1s 20 2s 3o 35 itME' (Sec.) Ft4. 4&deg;1 DISC.fi/\R.CJC FLOW ftA'fE TIME" H\5\0'RlES. 
        .410                     69.94            578.47
* ( 70 50 VALV&#xa3; f S F'Ri=:ri . ti\" IV c..., 1 30 3 C7 ""\ 1 lP \J) --F"" 5 I 0 15 20 25 3o 35 l>> -\)\ T 1 IVl E ( s ('C ') Ace u P R(;Ss uf?t ttl s To-RI E" S. ( R Efrt..T'*-.
        .510                     69.90            713.81
t1 efrO 1 so"') 
        .610                    69.85            902.74
*---** *-* --. 1 ML&#xa3; 4. A c r t1 m u L. Al cfZ p &#xa3; s .-,; l*l? &#xa3; ftN D cHM()r-3, FLoi.v RA'T&#xa3; Tl ME E..S TIME ACCUMULATOR PRESSURE FLOW RATE (SEC.) (PSIG) (GPM) --.110 70.00 .45 C H &#xa3;L..f< \i 1l L. VE .210 69.99 302.62 IS F RE&#xa3; .310 69.97 443.73 .410 69.94 582.24 R Fl\-r T af\.. .510 69.90 718.41 .610 69.85 912.06 HttrlJ 1$ .710 69.79 1129.44 OFF-.810 69.72 1346.85
        .710                    69.80          1115.94
* 910. 69.64 1560.72 1.010 69.54 1769.78 1.110 69.44 1952.89 1.210 69.32 2108.73 1.310 69.19 2249.72 1.410 69.06 2381. 56 l.510 68.92 2506.95 1.610 68.78 2627.17 1. 710 I 68.62 2742.87 1.810 68.47 2854.40 1.910 68.30 2961. 92 2.010 68.13 3065.54 3.010 66.20 3889.94 4.010 64.01 4415.41 5.010 61. 72 4727.30 6.010 59.44 4854.45 7.010 57.25 4892.59 8.010 55.16 4874.61 9.010 53.20 4810.78 10.010 51. 36 4727.42 11.010 49.64 4620.66 12.010 48.03 4508.55 13.010 46.54 4400.16 14.010 45 .13 4296.01 15.010 43.82 4195.86 16.010 42.58 4099.41 17.010 41. 42 4006.38 18.010 40.32 3916.53 19.010 39.28 3829.62 20.010 38.30 3745.47 21.010 37.37 3663.87 22.010 36.49 3584.68 23.010 35.65 3506.31 24.010 34.86 3417.82 25.010 34.10 3326.38 26.010 33.39 3235.94 27.011 32.71 3147.41 28.011 32.07 3060.95 29.011 31. 46 2976.50 30.011 30.88 2894.00 31.011 30.33 2813.J3 32.011 29.81 2734.42 33.010 29.31 2657.18 34.010 28.83 2581. 54 35.010 28.38 2507.44 36.010 27.94 2434.82 37.010 27.53 2363.62 38.010 27.14 2293.81 -39.009 26.76 2225.34 40.009 26.40 2158.18 41. 009 26.06 2092.31 42.009 25.73 2027.71 43.009 25.42 1964.38
        .810                    69.73          1330.04
* 10 NO. S $ J-l'1 !) ( -I 3 5 Lt SHEET TITLE Arr U fl -r PRc-.S<;uRl on-fl'j '11 CY\ t [)URI tJ f1 REFERENCE 3 7 /)J <;CtJfrR(J[.
        .910                    69.64          1541. 08 1.010                     69.55          1747.67 1.110                      69.44          1930.52 1.210                      69.33          2087.50 1.310                      69.20          2229.64 1.410                      69.07          2362.35 1.510                      68.93          2488.29 1.610                      68.79          2608.84
/ &#xa3; 5 -, CALCULATION CONTINUATION SHEET OF ORIGINATOR
: 1. 710                    68.64          2724.74 1.810                      68.48          2836.38 1.910                      68.32          2943.97 2.010                     68.15            3047.65 3.010                      66.23          3875.55 4.010                      64.04          4401. 87 5.010                      61. 75          4713.27    CnECK '\11\L\J[
--L c --L DATE 21 PEER REVIEW 0A-t&#xa3;L DATE td(U{&deg;''r'
6.010                      59.48            4839.18    I~    FREE 7.010                      57.29            4872.79 8.010                      55.21            4849.09 9.010                      53.26            4779.05      R1::.At:TD'R Hcit1) 10.010                      51.43            4688.39        IS ON
__ $'. CoNCLUSION
: 11. 010                    49.72            4574.63 12.010                      48 .13          4454.73 13.010                      46.65            4338.16 14.010                      45.26            4225.73 15.010                      43.97            4117.26 16.010                      42.75            4012.45 17.010                      41. 60          3911. 02 18.010                      40.53           3812.72 19.010                      39.51           3717.33 20.010                      38.55           3624.65 21.010                      37.65           3534.47 22.010                      36.79           3436.45 23.010                      35.98           3330.96 24.010                      35.22           3225.19 25.010                      34.50           3121.06 26.010                      33.82           3019.06 27.011                      33.18           2919.24 28.011                      32.58           2821. 52 29.011                      32.01           2725.84 30.011                      31. 47           2632.09
* fi5 CALl'.'UL.AltD IN S,[(1/0N 4, "THE PRES<>URE b Et A j It rY1 E F R (JYr1 7 0 f s 1 'd To S
: 31. 011                    30.95            2540.20 32.011                      30.47            2450.10 33.010                      30.0l            2361.72 34.010                      29.58           2275.02 35.010                      29.17           2189.97 36.010                      28.78           2106.55 37.010                      28.41           2024.74 38.010                      28.06           1944.57 39.009                      27.73           1866.05 40.009                      27.'12           1789.22
\ s N f. frF Ly '2 4 S.E V-..1r'D*-l C'HE<: .. vAL\it IS f Rr:. E THE PRf'SsuRc;
: 41. 009                    27.12           1714.15 42.009                      26. 84           1640.91 43.009                      26.58           1569.61
: 7) EC A') TI Ji'\ E I<; N L) E U I' L t O Iii TE 5. 1 CON l!ON C HEl'rooN {t1-m HtfrD Off). \ N \HE PJ<E: V\OVS \E sis or UNIT 1 ACC'UfflULf\'14...
 
D / S c. H fr{< Ci E \ t: S IS Tu t: PR t_ '> s u R E D r:-c TI t\1 E Clf' 2 . e < . ( M A )( . \j 1k v E f o u R LI Nl s ) w s ME. fl s u R [[) . I f\J fi I rn l L ftf\ l t. <; T f\ **1 u NJ T 2 . 1 ;1 R t c A t' r v rn VL A 7t'ff. Pf-'tSC:uf-<r htrf\') 1rs.1c;: HA-1) PRESSUF'[
TABL&#xa3;      4*2  llCtVMULllT~ PRESSURE AtJP 'DISCH/tf.C,t; FLOW RA'Tf:                      31.
f)frfl*J/17Y'I[
                            -qr<\&#xa3;  HIS WX'\ &#xa3;5 lfYlA.X* SWlt\ll] AIJ(jLE: 60 Dc-tS.)                  oF 4\
J !) (, -r [ L 0 N '2 y s u (I ,.ryy; . I 1'J 0 f\l [ T [ s I ,;, -, II N I 1 2.. '2 1
TIME      ' ACCUMULATOR PRESSURE          FLOW RATE (SEC.)                {PSIG)                (GPM) 5 SJ- f'flf)C- 1:,&deg;,)4
* I S [ r o f-!D D [ r fl' J / 1 11*1 [ l*u I' <: M E l'1 <;; u /\' ( f) . T tit. PRcP.iML r Rrfkcr\l Fcri? *rru s {rNE. Hf{,N T)crk; 1'1r 1: f' I<:; 1 54-\/ALvr P)uRNET) DuR1/\Jt7 IHf \t$-( lt-rl'i) -T s .J s L\ G t\'1 f \J V[ f)J /) Ml) 1 r"{)[;71.l F ()LL;. I t-1 n E'Fof< r;:, 2 L1* S ITotJD iHT f+'/ 1 I MC:. , f. C:.: r At_t' vL ft1&#xa3;. D H tR [ , I "... fl vrR '/ (7 001) R r:* PR E <:.r;""NT A 1 1 d tJ or-I H [' 1 RAN s I f'hl1. {ti) D/ /\fl7 I 9 0 M AA(, I rJ IC> 2 l, (&deg;T t.f'J.*-0 Tf r't1[. V\JE (,[:_ 1 27
...........           .110                  70.00                  .45
* cJ S:ITCt"-rO.
                      .210                  69.99                300.49
I s ( H f' R rr*tfR E R [:-c f'r(J ,.,,, r"-rf) Cf) , f' A rr -, HE"' I / J1 ( (' CP -r ftrf C E ( RI 'T rff I 0 'N fl:&#xa3; E 7 /+-& l I r:; ff rD 7 O e-r fi'N/). DE-AP .ZZ-0002(0)
                      .310                  69.97                440.81
ATTACHMENT 2 ..... 111 UNI lHI 
                      .410                  69.94                578.47
------------
                      .510                  69.90                713.81
---* .... --* -_*I
                      .610                  69.85                902.74
* SHEET REFERENCE 38 OF CALCULATION CONTINUATION SHEET
                      .710                  69.80              1115.94
---L L ---L ft-( PEER REVIEW """"'-((" DATE t cJ(t. l{'1 "( (;. L 1 s T aF R E r r=1{ 1: N c [ s i. .. Mp L I ('A T I 0 N (; I) I D E L \ N t s F crR c /-1 t:: C..K v ()L v L s I N N u c L &#xa3; r cHJ &#xa3;P r L t) /\r( f_ Pr< ]. R CP O'f T f: r R .7 "'p -s 4 7 &deg;.). JAN I CJ F8. 2.
                      .810                  69.73              1330.04
DRAL,JtrJC, 218213 8ev. 18; /ir'((Jf\?ULf11t't..
                      .910                  69.64              1541. 08 1.010                  69.55              1747.67 1.110                  69.44              1930.52 1.210                  69.33              2087.17 l.310                  69.20              2224.09 1.410                  69.07              2347.27
il'ID P1 f/N(] /rRRAN(,&#xa3;Mt NI. 3. Lt. S" . (;. 7. fj .. psBP D&#xa3;LT(l re. [)f<.lr""J11Jf}
: 1. 510                  68.94              2460.90
ff t)/.J/T 2. (' (' V1'1 V L /I '7 er((_ 52.of>.'DD-'Z'Z.-
: 1. 610                  68.79              2567.13 1.710                  68.64              2667.11 1.810                  68.49              2761.49  cfi&#xa3;Ct"- VAL\J(
OD74fZ) 5 ALE M 2 A('(' u M UL VOL u f\*) E. vs. r B D D [ -(' . R c -00L1 ) r rx. ) R fv. 1 PRE 5 <;uR1z r:K klfl 1CR VuL ume: Vs. LE. 1 1 d. f R ('&#xa5;'\ 1 .,,1 F s -r r ,.,ic; H () u s C 1 MO. D1. M Aj 2 I; IC) 'Jl) 1/c LE::Vl:.L
1.910                  68.33              2850.70  /\1JIJCIMUM SL-VI rJt; 2.010                  68.17              2935.03        {;o l>~(1 R&#xa3;&#xa3; 3.010                  66.36              3561.19    =
<'uPvc flt(; c FI 7-l. fo LEVt.L PSE-c:>CJ-s OE-AP.ZZ-0002(0)
4.010                  64.37              3937.09 5.010                  62.33              4135.53    Rt1'rc T d{ H CIT()
ATIACHMENT2 lll-01117 UM HI 
6.010                  60.31              4198.94      I s t1 rJ 7.010                  58.37              4202.26 8.010                  56.53              4169.33 9.010                  54.79              4108.03 10.010                  53.15              4035.44 11.010                  51. 60            3948.75 12.010                  50.15              3859.57 13.010                  48.79              3773.05 14.010                  47.50              3689.36 15.010                  46.29              3608.35 16.010                   45.14              3529.82 17.010                  44.06              3453.60 18.010                  43.03              3379.54 19.010                  42.05              3307.51 20.010                  41.12              3237.37
* -FORM NC.DE-AP.ZZ-0010-1 Page 2 of 4 CERTIFICATION FOR DESIGN VERIFICATION Reference No. SJ -IY1 I)( -I -JL1
: 21. 010                  40.24              3169.00 22.010                  39.40              3102.31 23.010                  38.60              3037.19 24.010                  37.84              2973.55 25.010                  37.11             2911.31 26.010                  36.41              2850.39 27.011                  35.74              2790.71 28.011                  35.10              2732.22 29.011                  34.49              2674.85 30.011                  33.91              2618.55 31.011                  33.35              2563.25 32.011                  32.81              2508.91 33.010                   32.29              2455.49 34.010                   31. 80            2402.93 35.010                   31. 32            2351.20 36.010                   30.86              2300.26 37.010                   30.42              2250.07 38.010                   30.00              2200.59 39.009                  29.59              2151.80 40.009                  29.20              2103.67
: 41. 009                  28.82              2056.16 42.009                  28.46              2005.5!)
43.009                  28 .11              1941.39
 
TABL(:  lt*3 AccurouLsrrcR._ PR 1.::s s u Rc: AJJD 015 CJ-f MC,~ FLOhJ IUJTE
                \I "1 G'" HISIOR.1&#xa3;"$ ( fl1Jl~* Sw/rJG ANG&#xa3;::. 3o DtiCt.).                   33 TIME      ACCUMULATOR PRESSURE              FLOW RATE                              Of' (SEC.)                          {PSIG)        (GPM)                                t; I
-*        .110
          .210
          .310
          .410 70.00 69.99 69.97 69.94 300.49 440.81 578.47
                                                            .45    5 .SJ-Ml)C-r39ft
          .510                            69.90        713.81
          .610                            69.85        902.74
          .710                            69.80      1110.33
          ~810                            69.73      1308.20
          .910                            69.65      1492.50 1.010                            69.56      1661.97 1.110                            69.46      1800.72 1.210                            69.35     1911..17 1.310                            69.24      2005.29 1.410                            69.12      2088.58 1.510                            69.00      2163.68
: 1. 610                            68.87      2232.04 1.710                            68.74      2294.51 1.810                            68.61      2351. 71 1.910                            68.48                  e 2 4 o4 . 11 H&#xa3; L' "- vAL. V&#xa3; 2.010                            68.34      2 4 5 2
* 11 MAX IP'I uM Sl-'11 Ill (.j 3.010                            66.88      2759.92                  .R _
4.010                            65.35      2902.46 = ~o DE"l*1 &#xa3;&#xa3; 5.010                            63.83      2957.44 6.010
: 7. 010*
62.34 60.90 2959.75 2942.94 Ri ALT~        HE.11-D 8.010                            59.53      2914.56      1s 0 tJ 9.010                            58.21      2877.51 10.010                            56.95      2837.78 11.010                            55.74      2793.53 12.010                            54.59      2749.34 13.010                            53.49      2706.28 14.010                            52.43      2664.32 15.010                            51.42      2623.40 16.010                            50.45      2583.46 17.010                            49.52      2544.45 18.010                            48.63      2506.33 19.010                            47.77      2469.05 20.010                             46.95      2432.56 21.010                            46.15      2396.84 22.010                            45.38      2361.85 23.010                            44.65      2327.55 24.010                            43.93      2293.91 25.010                            43.25      2260.90 26.010                            42.58      2228.50 27.011                            41. 94    2196.68 28.011                            41. 32    2165.41 29.011                            40.73      2134.67 30.011                            40.15      2104.44 31.011                            39.59      2074.71 32.011                            39.04      2045.44 33.010                             38.52      2016.62 34.010                             38.01      1988.24 35.010                             37.51      1960.28 36.010                             37.03      1932.72 37.010                             36.57      1905.55 38.010                             36.12      1878.75 39.009                            35.68      1852.30 40.009                            35.25      1826.21 41.009                            34.84      1800.45 42.009                            34.44      1775.02 43.009                            34.05      1749.89
 
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s-            .......
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                                                ~~~~"'---------&#xa3;..~-------'-~------'----~~--"-~~
1s          20        2s 3o      35 itME' (Sec.)
Ft4. 4&deg;1  DISC.fi/\R.CJC      FLOW ftA'fE  TIME" H\5\0'RlES.
 
70
                                    *                                                (
50 VALV&#xa3; f S F'Ri=:ri
                                                                                        . ti\"
IV
                                                                                            ~
30                                                                                           c...,
1 3
C7
                                                                                            ""\
1 lP
                                                                                            \J)
                                                                                          --F""
5        I0              15                20      25                3o        35 s
T 1IVl E (  ('C ' )
Ace uMULAT~ PR(;Ss uf?t Trrtt~ ttl s To-RI E" S. ( REfrt..T'*-. t1 efrO  1 so"')   -..!:'~ l>>
                                                                                                  \)\


==SUMMARY==
1 ML&#xa3; 4. ~- Ac r t1 mu L. Al cfZ p ~ &#xa3; s .-,; l*l? &#xa3; ftN D D1~ cHM()r-3, FLoi.v RA'T&#xa3; Tl ME HIS.l~I E..S TIME (SEC.)
STATEMENT
ACCUMULATOR PRESSURE (PSIG)
: 1) d c ( cvrA (.JlG The undersigned hereby certifies (in the right column) that the design verification for the subject document has been completed, the questions from the generic checklist have been reviewed and addressed as appropriate, and all comments have been adequately incorporated.
FLOW RATE (GPM)
JAGK Design Verifier Assigned By Design Verifier I Date (signature of Manager/Supervisor)
                                                                                      ~I
/20./fi'." ///
--       .110
Desigrl' Verifier Assigned By Sigvature (signature of Manager/Supervisor)  
        .210
/;:QrL I z.-E-!'19.EJ Design Verifier Date Design Verifier Assigned By Sigvature of Design Verifier / Date (signature of Manager/Supervisor)
        .310 70.00 69.99 69.97 69.94
Design Verifier Assigned By Sigvature of Design Verifier / Date {signature of Manager/Supervisor)  
                                                        .45 302.62 443.73 582.24 C H &#xa3;L..f< \i 1l L. VE IS F RE&#xa3;
*If the Functional Manager/Supervisor acts as the Design Verifier, the signature of the next higher level of technical management is required.
        .410
Page of --* 'llev. 2 Page 13 of 17 Jtuclear Common 
        .510                    69.90            718.41        RFl\-r T af\..
**
        .610                    69.85            912.06        HttrlJ      1$
* Rev. 2 FORM NC.DE-AP.ZZ-0010-1 Page 3 of 4 CERTIFICATION FOR DESIGN VERIFICATION Page __ of __ Page 14 of 17 :VUclear Cammon FORM NC.DE-AP.ZZ-0010-1 Page 4 of 4 CERTIFICATION FOR DESIGN VERIFICATION REFERENCE DOCUMENT NO. /REV. *-2 -SJ -M DC-13 CJ 't COMMENTS SUBMITTED BY y oJ(TE RESOLUTION JIT 6J t.>> Ill Al)I:) 70 S ff 1' 0 t: 0 ({.. Die. Acceptance of Resolution Jl.ev. 2 Page 15 of 17 Nuclear Common 
        .710                    69.79            1129.44
* .! 'b. _ __, ----,-USE CATEGORY : I REVISION SUMl\llARY SALEMJOPERATIONS S2.0P-ST.SJ-0006(Q)
        .810                    69.72            1346.85        OFF-
-REV. 4 INSERVICE TESTING SAFETY INJECTION VALVES MODE6 Page_l of_l + Incorporated "MODE 6" in procedure title to accurately reflect perfonnance requirement.
* 910.                  69.64            1560.72 1.010                      69.54            1769.78 1.110                      69.44            1952.89 1.210                      69.32            2108.73 1.310                      69.19            2249.72 1.410                      69.06            2381. 56 l.510                      68.92            2506.95 1.610                      68.78            2627.17
t Procedure revised throughout to reflect performance requirements of "Unit is in Mode 6 with the Reactor Vessel He.ad REMOVED, OR is DEFUELED with the Reactor Vessel Head REMOVED and the Upper Internals installed" versus "Mode 5, 6 or DEFUELED with the upper internals installed".
: 1. 710  I                68.62            2742.87 1.810                      68.47            2854.40 1.910                      68.30            2961. 92 2.010                      68.13            3065.54 3.010                      66.20            3889.94 4.010                      64.01            4415.41 5.010                      61. 72          4727.30 6.010                      59.44            4854.45 7.010                      57.25            4892.59 8.010                      55.16            4874.61 9.010                      53.20            4810.78 10.010                      51. 36          4727.42 11.010                      49.64            4620.66 12.010                      48.03            4508.55 13.010                      46.54            4400.16 14.010                      45 .13          4296.01 15.010                      43.82            4195.86 16.010                      42.58            4099.41 17.010                      41. 42          4006.38 18.010                      40.32            3916.53 19.010                      39.28            3829.62 20.010                      38.30            3745.47 21.010                      37.37            3663.87 22.010                      36.49            3584.68 23.010                      35.65            3506.31 24.010                      34.86            3417.82 25.010                      34.10           3326.38 26.010                      33.39            3235.94 27.011                      32.71            3147.41 28.011                      32.07            3060.95 29.011                      31. 46          2976.50 30.011                      30.88            2894.00 31.011                      30.33            2813.J3 32.011                      29.81            2734.42                              ;~~
This change provides additional clarification, and is in response to AR 960206344.  
33.010                      29.31            2657.18 34.010                      28.83            2581. 54 35.010                      28.38            2507.44 36.010                      27.94            2434.82 37.010                      27.53            2363.62 38.010                      27.14            2293.81 39.009                      26.76            2225.34 40.009                      26.40            2158.18
+ Revised Purpose 1.1 to indicate the respective Safety Injection (Accumulator)
: 41. 009                    26.06            2092.31 42.009                      25.73            2027.71 43.009                      25.42            1964.38
Check Valves being tested and "This requirement is applicable in Modes I and 2, and Mode 3 with Pressurizer Pressure above 1000 psig". + Incorporated Purpose 1.2 to indicate "To partially satisfy the requirements of Technical Specification 4.4.7.2.2 for the RCS Pressure Isolation Valves identified in I.I. This requirement is applicable in Modes 1-4". + Incorporated Purpose 1.3 to delineate performance requirements.
t Incorporated Prerequisite Step 2.1 to ensure applicable Work Order number(s) and Reason for Test are recorded on Attachment
: 1. + Step 5.3.2 and Attachment 3 revised to incorporate IST Program Manager review following procedure completion.  
+ Revised Reference Section 7.0 to reflect appropriate required references.  
+ Revised Reference 7.5.10 to reflect Rev. 1 of Calculation No. S-2-SJ-MDC-1394.  
+ Revised procedure to reflect current procedure fonnat requirements (no revision bars used). IMPLEl\.llENTATION REQUIREMENTS t None APPROVED:
-Salem Operations 
\. INSERVICE TESTING SAFETY INJECTION VALVES MODE6 TABLE OF CONTENTS s2.or-ST .sJ-0006(Q)
SECTION TITLE PAGE 1.0 PURPOSE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2


===2.0 PREREQUISITES===
TITLE    Arr U l\~UL fl -r ~            10 NO. S $      J-    l'1 !) ( - I        3 5 Lt              SHEET PRc-.S<;uRl        on-fl'j OPS~G                                  '11 CY\ t
                                          /)J
[)URI tJ f1
                                              <;CtJfrR(J[. / &#xa3; 5 -,
REFERENCE                                                              37 CALCULATION ORIGINATOR DATE V.{'/111NDT\'A~
21 tr11~9i
                                                                                  --L                              c --L ~I                                OF CONTINUATION SHEET                    PEER REVIEW          0A-t&#xa3;L DATE            td(U{&deg;''r' _ _
    $'. CoNCLUSION
* fi5 CALl'.'UL.AltD                      IN S,[(1/0N                  4,      "THE        PRES<>URE b Et    Aj      It rY1 E F R(JYr1 7 0                f s 'd 1      To ~ S                f~,,.,    \s        Nf. frF Ly
        '2  4    S.E coN1)~              V-..1r'D*-l    C'HE<:.. ~      vAL\it            IS f      Rr:. E          THE PRf'SsuRc;
: 7) EC A')        TI Ji'\ E      I<;        N ~ L)            E ~ U I' L t ~                ~ O I i i TE 5. 1 CON Fll,lJR/~ l!ON                            C HEl'rooN              {t1-m HtfrD            Off).
              \N      \HE            PJ<E: V\OVS \E sis or UNIT 1 ACC'UfflULf\'14...
D/ S c. H fr{< Ci E \ t: S IS Tu t: PR t_ '> s u RE Dr:-c I~'/ TI t\1 E Clf' 2 ~ . ~ ~ e < . ( M A)( . \j 1k v E ~r f o u R LI Nl s ) w ~ s ME. fl s u R (() .
I f\J fi ~ I rn l L ftf\ l t. <; T f\ **1 u NJ T 2 . 1 ;1 R t c A t' r v rn VL A 7t'ff.
Pf-'tSC:uf-<r              htrf\') 1rs.1c;:
HA-1)        PRESSUF'[                f)frfl*J/17Y'I[
J !)  (, -r    f~ [  L  0 N        '2  y su      (I ,.ryy; .      I 1'J    0  f\l [    T[    sI        ,;, -,          II N  I 1 2..
            '2 1
* I    S [ r o f-!D D[ r fl' J / 111*1 [                    l*u I'  <:    M E l'1 <;;  u /\' ( f) .                T tit.
PRcP.iML r Rrfkcr\l Fcri? *rru s                                {rNE.      Hf{,N T)crk; 1'1r f' I<:;      1
:                    1 f!l*~'I
            ~j    54-      \/ALvr            MOlr~            P)uRNET)            DuR1/\Jt7 IHf              \t$-(                lt-rl'i)
              -T ~I(;      s .J    s L\    G t\'1 f      \J ~'L  V[      f)J /)      Ml)    1    r"{)[;71.l    F ()LL;.
I t-1 n E'Fof< r;:,            2 L1* S ITotJD              iHT    f+'/ 1 I MC:. , f.              C:.:    r At_t' vL ft1&#xa3;. D H tR [ ,          I "... fl      vrR '/        (7 001)          R r:* PR E <:.r;""NT A 1          1d tJ or- I H['
1 RAN s I f'hl1.                  {ti) D/    /\fl7      I ~J 90          M AA(, I      rJ  IC>        2 l,            ~ (&deg;T t.f'J.*-0 Tf r't1[.        V\JE      (,[:_  1      27
* cJ S:ITCt"-rO.
I  s ( H f' R rr*tfR E R[:-c f'r(J ,.,,, r"-rf) Cf)
I                              /
                                                                                                                      , f'          Arr -, HE"'
J1 ( (' CP -r ftrf C E            ( RI 'T rff I 0 'N            fl:&#xa3; E ~ 7      /+-& l I        r:; ff rD      7O
                                ~ e-r fi'N/).
DE-AP .ZZ-0002(0)                                                                                                                      ATTACHMENT 2
                                                                                                                                                  .....111 UNI lHI


.........................................
SHEET OPS~G                                                                          REFERENCE                                          38 OF CALCULATION ORl~~T~TOR :~c~~~~~;~L ---L                                        L ---L                    ft-(
2 3.0 PRECAUTIONS AND LIMIT A TIO NS . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 4.0 EQUIPMENT/MATERIAL REQUIRED ...........................
CONTINUATION SHEET                    PEER REVIEW          """"'- (("
3 5.0 PROCEDURE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DATE              t cJ(t. l{'1 "(
4 5.1 Forward Flow IST of Accumulator Check Valves ...............
(;.               L 1s T        aF          RE r r=1{        1:  N  c[ s
4 5.2 Acceptance Criteria ..................................
: i.         Mp L I ('A TI 0 N (; I) I D E L \ N t s F crR c /-1 t:: C..K v ()L vL s I N N u cL &#xa3; ~ rcHJ &#xa3;P r L t) /\r( ~ f_ Pr< ].                                   RCPO'f T f: rR. "'p - s 4 7 &deg;.).
8 5.3 Completion and Review ...............................
7 JAN I CJ F8.
8
: 2.       r~E.~<7 DRAL,JtrJC, 218213 8ev. 18;                                              /ir'((Jf\?ULf11t't.. il'ID A~ ~O(/Alc-D P1 f/N(] /rRRAN(,&#xa3;Mt NI.
* 6.0 RECORDS .............................................
: 3. psBP          !O~&l17. D&#xa3;LT(l                    ~CUTHtr<tJ            re. [)f<.lr""J11Jf} f f t)/.J/T 2.
9
                    ~ (' (' V1'1 V L /I '7 er((_
Lt.       52.of>.'DD-'Z'Z.-                          OD74fZ)
S" .       5 ALE M 2              A('('  u M UL 111~ VOL u f\*) E.                   vs.       1/c  LE::Vl:.L <'uPvc
*          (;.
7.
fj .
r BD PRE LE. 1 D1.
1 M
D[ - (' ~ . Rc -
5 <;uR1z r:K
: d. f R('&#xa5;'\
Aj      2   I; IC) 1 .,,1
                                                        'Jl)
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klfl 1CR VuL ume:
s -r r ,.,ic; rrx. ) Rfv. 1 H () us C  1 Vs.
MO.
flt(; c FI 7-fo PSE- c:>CJ-l.
LEVt.L f'Uf\J~
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* OE-AP.ZZ-0002(0)                                                                                                      ATIACHMENT2 lll-01117 UM HI


==7.0 REFERENCES==
FORM NC.DE-AP.ZZ-0010-1 Page 2 of 4
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
*- Reference No. ~:i CERTIFICATION FOR DESIGN VERIFICATION SJ - IY1 I)( - I ~ -JL1
9 ATIACHMENTS Attachment 1 Instrumentation and Test Equipment Data . . . . . . . . . . . . . . . . . . . .
11 Attachment 2 Check Valve Data and Independent Verification
.................
12 Attachment 3 Completion Sign-Off Sheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
13 Salem 2 Page 1 of 14 Rev. 4
*
* s2.oP-S T .sJ-0006(Q) l 1.0 PURPOSE 1.1 Provides instructions necessary to perfonn Inseivice Inspection and Testing C0265 JAW Technical Specification 4.0.5 for the following Safety Injection (Accumulator)
Check Valves: + 21SJ55 and 21SJ56 (21 Accumulator Discharge to Cold Legs) + 22SJ55 and 22SJ56 (22 Accumulator Discharge to Cold Legs) + 23SJ55 and 23SJ56 (23 Accumulator Discharge to Cold Legs) + 24SJ55 and 24SJ56 (24 Accumulator Discharge to Cold Legs) This requirement is applicable in Modes 1 and 2, and Mode 3 with Pressurizer Pressure above 1000 psig. 1.2 To partially satisfy the requirements of Technical Specification 4.4. 7.2.2 for the RCS Pressure Isolation Valves identified in 1.1. This requirement is applicable in Modes 1-4. 1.3 Perfonnance of this procedure is required once per Refueling Outage, or as otherwise . specified in the post-maintenance operational retest requirements.


===2.0 PREREQUISITES===
==SUMMARY==
STATEMENT
: 1)        d c ( cvrA (.JlG The undersigned hereby certifies (in the right column) that the design verification for the subject document has been completed, the questions from the generic checklist have been reviewed and addressed as appropriate, and all comments have been adequately incorporated.
JAGK CU~HAM                          -.--~a~ct/f-'-*_r.+k:~-~-*~_.*~-*~~'~----.--,,~'-0-/z~.l~.1~0_~_1 Design Verifier Assigned By              Sig~aturelof Design Verifier I Date (signature of Manager/Supervisor)
                                                                        /;:QrL ~-v.          I
            /20./fi'." '~
            / / / t.(?~                                                                z.-E-!'19.EJ Desigrl' Verifier Assigned By            Sigvature              Design Verifier                  Date (signature of Manager/Supervisor)
Design Verifier Assigned By              Sigvature of Design Verifier / Date (signature of Manager/Supervisor)
Design Verifier Assigned By              Sigvature of Design Verifier / Date
{signature of Manager/Supervisor)
  *If the Functional Manager/Supervisor acts as the Design Verifier, the signature of the next higher level of technical management is required.
Page              of
  'llev. 2                            Page 13        of    17                    Jtuclear Common


===2.1 Applicable===
FORM NC.DE-AP.ZZ-0010-1 Page 3 of 4
**        CERTIFICATION FOR DESIGN VERIFICATION Page __ of __
Rev. 2            Page 14  of  17          :VUclear Cammon


Work Order number(s) and Reason for Test are recorded on Attachment I, Section 1.0. 2.2 C0289 2.3 2.4 2.5 2.6 2.7 2.8 2.9 Calibration data for the Instruments and Test Equipment listed in Attachment 1, Section 2.0 is obtained.
FORM NC.DE-AP.ZZ-0010-1 Page 4 of 4 CERTIFICATION FOR DESIGN VERIFICATION REFERENCE DOCUMENT NO.   /REV.   ~
Unit is in Mode 6 with the Reactor Vessel Head RE.M:OVED, OR is DEFUELED with the Reactor Vessel Head REMOVED and the Upper Internals installed.
* SJ -  M DC-    13 CJ 't COMMENTS                                        RESOLUTION 0 t:
Safety Injection Accumulators are pressurized between 67 and 70 psig. Safety Injection Accumulator levels arc between 96 and 100 %
0 ({..
* Two Control Room Operators are available to support testing. Refueling transfer tube gate valve is closed. Refueling Cavity level is 125.5 -126.5 ft. An Infrequently Performed Test or Evolution briefing session is completed by the Manager -Salem Operations, or designee, IAW NC.NA-AP.ZZ-0005(Q), Station Operating Practices .
JIT  6J
* Salem2 Page 2 of 14 Rev. 4
*~                                            t.>> Ill  Al)I:)  70 S ff  1 '
* 3.0 C0329 s2.oP-ST .sJ-0006CQ>
Die.
PRECAUTIONS AND LIMITATIONS
l~(t.z./q y                                              Acceptance SUBMITTED BY          oJ(TE                                                        of Resolution Jl.ev. 2                      Page 15      of     17                Nuclear Common


===3.1 Procedure===
SALEMJOPERATIONS                                  Page_l of_l S2.0P-ST.SJ-0006(Q) - REV. 4
              '~- .!
      'b. ___, ---- ,-
INSERVICE TESTING SAFETY INJECTION VALVES MODE6 USE CATEGORY :                  I REVISION SUMl\llARY
    +              Incorporated "MODE 6" in procedure title to accurately reflect perfonnance requirement.
t              Procedure revised throughout to reflect performance requirements of "Unit is in Mode 6 with the Reactor Vessel He.ad REMOVED, OR is DEFUELED with the Reactor Vessel Head REMOVED and the Upper Internals installed" versus "Mode 5, 6 or DEFUELED with the upper internals installed". This change provides additional clarification, and is in response to AR 960206344.
    +              Revised Purpose 1.1 to indicate the respective Safety Injection (Accumulator) Check Valves being tested and "This requirement is applicable in Modes I and 2, and Mode 3 with Pressurizer Pressure above 1000 psig".
  +              Incorporated Purpose 1.2 to indicate "To partially satisfy the requirements of Technical Specification 4.4.7.2.2 for the RCS Pressure Isolation Valves identified in I.I.
This requirement is applicable in Modes 1-4".
  +              Incorporated Purpose 1.3 to delineate performance requirements.
t              Incorporated Prerequisite Step 2.1 to ensure applicable Work Order number(s) and Reason for Test are recorded on Attachment 1.
  +              Step 5.3.2 and Attachment 3 revised to incorporate IST Program Manager review following procedure completion.
  +              Revised Reference Section 7.0 to reflect appropriate required references.
  +              Revised Reference 7.5.10 to reflect Rev. 1 of Calculation No. S-2-SJ-MDC-1394.
  +              Revised procedure to reflect current procedure fonnat requirements (no revision bars used).
IMPLEl\.llENTATION REQUIREMENTS t              None APPROVED:
                                    ~Manager - Salem Operations


Use and adherence policy as found in NC.NA-AP.ZZ-OOOl(Q), Nuclear Procedure System. is applicable to this procedure.  
s2.or-ST .sJ-0006(Q)
    \.
INSERVICE TESTING SAFETY INJECTION VALVES MODE6 TABLE OF CONTENTS SECTION      TITLE                                                                                        PAGE 1.0        PURPOSE  . . . . . . . . . .. . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . 2 2.0          PREREQUISITES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 3.0          PRECAUTIONS AND LIMITATIO NS . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 4.0          EQUIPMENT/MATERIAL REQUIRED . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 5.0          PROCEDURE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 5.1  Forward Flow IST of Accumulator Check Valves                  ............... 4 5.2  Acceptance Criteria . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 5.3  Completion and Review . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
* 6.0          RECORDS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9


===3.2 Steps===
==7.0          REFERENCES==
identified with a dollar sign($) are those items required to meet Technical Specification acceptance criteria.
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 ATIACHMENTS Attachment 1      Instrumentation and Test Equipment Data              . . . . . . . . . . . . . . . . . . . . 11 Attachment 2      Check Valve Data and Independent Verification . . . . . . . . . . . . . . . . . 12 Attachment 3      Completion Sign-Off Sheet          . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Salem 2                                  Page 1 of 14                                                    Rev. 4
Such steps, if not satisfactorily completed, may have reportability requirements and should be brought to the immediate attention of the SNSS/NSS.  


===3.3 Failure===
s2.oP-S T.sJ-0006(Q) l 1.0  PURPOSE 1.1  Provides instructions necessary to perfonn Inseivice Inspection and Testing C0265    JAW Technical Specification 4.0.5 for the following Safety Injection (Accumulator)
of a single SJ54 valve to close can lead to the following:  
Check Valves:
+ Introducing N 2 into the RCS which may lead to gas binding of RHR System. t Loss of RHR cooling [entry condition to S2.0P-AB.RHR-0001(Q), Loss of RHR]. t A 1h foot Refueling Cavity level increase.  
            +         21SJ55  and  21SJ56  (21 Accumulator Discharge  to Cold Legs)
            +        22SJ55  and  22SJ56  (22 Accumulator Discharge  to Cold Legs)
            +        23SJ55  and  23SJ56  (23 Accumulator Discharge  to Cold Legs)
            +        24SJ55  and 24SJ56  (24 Accumulator Discharge  to Cold Legs)
This requirement is applicable in Modes 1 and 2, and Mode 3 with Pressurizer Pressure above 1000 psig.
1.2 To partially satisfy the requirements of Technical Specification 4.4. 7.2.2 for the RCS Pressure Isolation Valves identified in 1.1. This requirement is applicable in Modes 1-4.
1.3  Perfonnance of this procedure is required once per Refueling Outage, or as otherwise .
specified in the post-maintenance operational retest requirements.
2.0  PREREQUISITES 2.1  Applicable Work Order number(s) and Reason for Test are recorded on Attachment I,
* C0289 2.2 2.3 Section 1.0.
Calibration data for the Instruments and Test Equipment listed in Attachment 1, Section 2.0 is obtained.
Unit is in Mode 6 with the Reactor Vessel Head RE.M:OVED, OR is DEFUELED with the Reactor Vessel Head REMOVED and the Upper Internals installed.
2.4 Safety Injection Accumulators are pressurized between 67 and 70 psig.
2.5 Safety Injection Accumulator levels arc between 96 and 100 %*
2.6 Two Control Room Operators are available to support testing.
2.7 Refueling transfer tube gate valve is closed.
2.8 Refueling Cavity level is 125.5 - 126.5 ft.
2.9 An Infrequently Performed Test or Evolution briefing session is completed by the Manager - Salem Operations, or designee, IAW NC.NA-AP.ZZ-0005(Q),
Station Operating Practices .
* Salem2                                    Page 2 of 14                                        Rev. 4


===3.4 Coordinate===
s2.oP-ST .sJ-0006CQ>
* 3.0  PRECAUTIONS AND LIMITATIONS 3.1  Procedure Use and adherence policy as found in NC.NA-AP.ZZ-OOOl(Q),
Nuclear Procedure System. is applicable to this procedure.
3.2  Steps identified with a dollar sign($) are those items required to meet Technical Specification acceptance criteria. Such steps, if not satisfactorily completed, may have reportability requirements and should be brought to the immediate attention of the SNSS/NSS.
3.3  Failure of a single SJ54 valve to close can lead to the following:
C0329
            +        Introducing N 2 into the RCS which may lead to gas binding of RHR System.
t        Loss of RHR cooling [entry condition to S2.0P-AB.RHR-0001(Q),
Loss of RHR].
t        A 1h foot Refueling Cavity level increase.
3.4 Coordinate Refueling Cavity level changes with Radiation Protection.
4.0  EQUIPMENT/MATERIAL REQUIRED 4.1  M&TE:
            +        Calibrated Stopwatch(es)
Page 3 of 14                                        Rev. 4


Refueling Cavity level changes with Radiation Protection.
s2.oP-ST .sJ-0006CQ>
4.0 EQUIPMENT/MATERIAL REQUIRED
5.0 PROCEDURE 5.1 Forward Flow IST of Accumulator Check Valves 5.1.1  IF testing 21 Accumulator (21SJ55 and 21SJ56) check valves, THEN:
* 4.1 M&TE: + Calibrated Stopwatch(es)
A. At Panel 2RP4, ENSURE 21SJ54 in the VALVE OPERABLE position.
Page 3 of 14 Rev. 4 s2.oP-ST .sJ-0006CQ>
B. SIMULTANEOUSLY PERFORM the following:
                        ~      OPEN 21SJ54, 21 ACCUMULATOR OUT
                        +      START the Stopwatch C. When 35 psig is observed, SIMULTANEOUSLY PERFORM the following:
                        ~      STOP the Stopwatch
                        +      CLOSE 21SJ54 D. RECORD the following in Attachment 2, Section 1.0:
                        +     Stopwatch Reading and Number
                        +      2ISJ55 and 21SJ56 OPEN "Test Results" by initialing the SAT or UNSAT column using the Acceptance Criteria in Attachment 2.
E. DIRECT a second Operator to complete Attachment 2, Section 2.0, for 21SJ54 valve position .
* sa1em2                              Page 4 of 14                                     Rev. 4


===5.0 PROCEDURE===
s2.oP-ST .sJ-0006<Q>
* 5.1.2 IF testing 22 Accumulator (22SJ55 and 22SJ56) check valves, THEN; A. At Panel 2RP4, ENSURE 22SJ54 in the VALVE OPERABLE position.*
B. SIMULTANEOUSLY PERFORM the following:
t    OPEN 22SJ54, 22 ACCUMULATOR OUT t    START the Stopwatch C. When 35 psig is observed, SIMULTANEOUSLY PERFORM the following:
                      +    STOP the Stopwatch t    CLOSE 22SJ54 D. RECORD the following in Attachment 2, Section 1.0:
* Stopwatch Reading and Number 22SJ55 and 22SJ56 OPEN "Test Results" by initialing the SAT or UNSAT column using the Acceptance Criteria in Attachment 2.
E. DIRECT a second Operator to complete Attachment 2, Section 2.0, for 22SJ54 valve position.
Salem 2                          Page 5 of 14                                    Rev. 4


===5.1 Forward===
s2.oP-ST.sJ-0006CQ>
Flow IST of Accumulator Check Valves
_;. \
* sa1em2 5.1.1 IF testing 21 Accumulator (21SJ55 and 21SJ56) check valves, THEN: $ A. At Panel 2RP4, ENSURE 21SJ54 in the VALVE OPERABLE position.
5.1.3 IF testing 23 Accumulator (23SJ55 and 23SJ56) check valves~
B. SIMULTANEOUSLY PERFORM the following: OPEN 21SJ54, 21 ACCUMULATOR OUT + ST ART the Stopwatch C. When 35 psig is observed, SIMULTANEOUSLY PERFORM the following: STOP the Stopwatch
THEN:
+ CLOSE 21SJ54 D. RECORD the following in Attachment 2, Section 1.0: + Stopwatch Reading and Number + 2ISJ55 and 21SJ56 OPEN "Test Results" by initialing the SAT or UNSAT column using the Acceptance Criteria in Attachment
A. At Panel 2RP4, ENSURE 23SJ54 in the VALVE OPERABLE position.
: 2. E. DIRECT a second Operator to complete Attachment 2, Section 2.0, for 21SJ54 valve position . Page 4 of 14 Rev. 4
* 5.1.2 $
* Salem 2 s2.oP-ST .sJ-0006<Q>
IF testing 22 Accumulator (22SJ55 and 22SJ56) check valves, THEN; A. At Panel 2RP4, ENSURE 22SJ54 in the VALVE OPERABLE position.*
B. SIMULTANEOUSLY PERFORM the following:
B. SIMULTANEOUSLY PERFORM the following:
t OPEN 22SJ54, 22 ACCUMULATOR OUT t ST ART the Stopwatch C. When 35 psig is observed, SIMULTANEOUSLY PERFORM the following:
                          +     OPEN 23SJ54, 23 ACCUMULATOR OUT
+ STOP the Stopwatch t CLOSE 22SJ54 D. RECORD the following in Attachment 2, Section 1.0: *
                          +     START the Stopwatch C. When 35 psig is observed, SIMULTANEOUSLY PERFORM the following:
* Stopwatch Reading and Number 22SJ55 and 22SJ56 OPEN "Test Results" by initialing the SAT or UNSAT column using the Acceptance Criteria in Attachment
                          +     STOP the Stopwatch
: 2. E. DIRECT a second Operator to complete Attachment 2, Section 2.0, for 22SJ54 valve position.
                          +     CLOSE 23SJ54 D. RECORD the following in Attachment 2, Section 1.0:
Page 5 of 14 Rev. 4
                          +     Stopwatch Reading and Number
* _;. \ 5.1.3 $ Salem 2 s2.oP-ST .sJ-0006CQ>
                          +     Z3SJ55 and 23SJ56 OPEN "Test Results'! by initialing the SAT or UNSA T column using the Acceptance Criteria in Attachment 2.
IF testing 23 Accumulator (23SJ55 and 23SJ56) check THEN: A. At Panel 2RP4, ENSURE 23SJ54 in the VALVE OPERABLE position.
E. DIRECT a second Operator to complete Attachment 2, Section 2.0, for 23SJ54 valve position.
B. SIMULTANEOUSLY PERFORM the following:
Salem    2                            Page 6 of 14                                     Rev. 4
+ OPEN 23SJ54, 23 ACCUMULATOR OUT + ST ART the Stopwatch C. When 35 psig is observed, SIMULTANEOUSLY PERFORM the following:  
 
+ STOP the Stopwatch  
I. '
+ CLOSE 23SJ54 D. RECORD the following in Attachment 2, Section 1.0: + Stopwatch Reading and Number + Z3SJ55 and 23SJ56 OPEN "Test Results'!
s2 .OP-ST .s1-0006(Q) 5.1.4 IF testing 24 Accumulator (24SJ55 and 24SJ56) check valves, THEN:
by initialing the SAT or UNSA T column using the Acceptance Criteria in Attachment  
A. At Panel 2RP4, ENSURE 24SJ54 in the VALVE OPERABLE position.
: 2. E. DIRECT a second Operator to complete Attachment 2, Section 2.0, for 23SJ54 valve position.
Page 6 of 14 Rev. 4 I. '
* Salem 2 s2 .OP-ST .s1-0006(Q) 5.1.4 IF testing 24 Accumulator (24SJ55 and 24SJ56) check valves, THEN: $ A. At Panel 2RP4, ENSURE 24SJ54 in the VALVE OPERABLE position.
B. SIMULTANEOUSLY PERFORM the following:
B. SIMULTANEOUSLY PERFORM the following:
* OPEN 24SJ54, 24 ACCUMULATOR OUT
* OPEN 24SJ54, 24 ACCUMULATOR OUT
Line 589: Line 1,030:
* STOP the Stopwatch
* STOP the Stopwatch
* CLOSE 24SJ54 D. RECORD the following in Attachment 2, Section 1.0:
* CLOSE 24SJ54 D. RECORD the following in Attachment 2, Section 1.0:
* Stopwatch Reading and Number
* Stopwatch Reading and Number 24SJ55 and 24SJ56 OPEN "Test Results" by initialing the SAT or UNSAT column using the Acceptance Criteria in Attachment 2.
* 24SJ55 and 24SJ56 OPEN "Test Results" by initialing the SAT or UNSAT column using the Acceptance Criteria in Attachment  
E. DIRECT a second Operator to complete Attachment 2, Section 2.0, for 24SJ54 valve position.
: 2. E. DIRECT a second Operator to complete Attachment 2, Section 2.0, for 24SJ54 valve position.
Salem  2                            Page 7 of 14                                     Rev. 4
Page 7 of 14 Rev. 4 s2.oP-ST .sJ-0006CQ> . ' 5 .2 Accq>tance Criteria 5.2.1 This surveillance procedure is satisfactory when Attachment 2 has been completed with valve(s) listed meeting the Acceptance Criteria stated in the Attachment.
 
5.2.2 This surveillance is unsatisfactory:
s2.oP-ST .sJ-0006CQ>
5.2 Accq>tance Criteria 5.2.1   This surveillance procedure is satisfactory when Attachment 2 has been completed with valve(s) listed meeting the Acceptance Criteria stated in the Attachment.
5.2.2   This surveillance is unsatisfactory:
A. INITIATE Action Request(s) to correct the unsatisfactory condition(s).
A. INITIATE Action Request(s) to correct the unsatisfactory condition(s).
B. RECORD Action Request number(s)
B. RECORD Action Request number(s) AND reason for unsatisfactory completion on Attachment 3 in the Comments Section.
AND reason for unsatisfactory completion on Attachment 3 in the Comments Section. 5.3 Completion and Review Salem 2 5.3.1 COMPLETE Attachment 3, Sections 1.0 and 2.0, and FORWARD this procedure to SNSS/NSS for review and approval.
5.3 Completion and Review 5.3.1   COMPLETE Attachment 3, Sections 1.0 and 2.0, and FORWARD this procedure to SNSS/NSS for review and approval.
5.3.2 SNSS/NSS PERFORM the following:
5.3.2   SNSS/NSS PERFORM the following:
A. REVIEW this procedure with Attachments 1 through 3 for completeness and accuracy.
A. REVIEW this procedure with Attachments 1 through 3 for completeness and accuracy.
B. IF ANY Check Valve Surveillance is UNSAT, THEN:. I 1. DECLARE Check Valve INOPERABLE.  
B. IF ANY Check Valve Surveillance is UNSAT, THEN:.
: 2. EVALUATE Technical Specification requirements for system operability. COMPLETE Attachment 3, Section 3.0. D. PLACE this procedure in the IST PROGRAM MANAGER REVIEW REQUIRED mail slot. END OF PROCEDURE SECTION Page 8 of 14 Rev.4 s2. OP-ST .sJ-0006(Q) ) ' 6.0 RECORDS 6.1 Retain the following IAW NC.NA-AP.ZZ-0003(Q), Document Management Program: + Attachment 1 + Attachment 2 + Attachment 3 7 .0 REFERENCES
I
: 1. DECLARE Check Valve INOPERABLE.
: 2.     EVALUATE Technical Specification requirements for system operability.
C~  COMPLETE Attachment 3, Section 3.0.
D. PLACE this procedure in the IST PROGRAM MANAGER REVIEW REQUIRED mail slot.
END OF PROCEDURE SECTION Salem 2                                Page 8 of 14                                       Rev.4


===7.1 Updated===
      )    '
Final Safety Analysis Report: 7.1.1 Section 6.3, Emergency Core Cooling 7.2 Technical Specifications  
s2. OP-ST .sJ-0006(Q) 6.0    RECORDS 6.1  Retain the following IAW NC.NA-AP.ZZ-0003(Q), Document Management Program:
-Unit 2: 7.2.1 3.5.1, Emergency Core Cooling Systems (ECCS) Accumulators  
              +        Attachment 1
              +        Attachment 2
              +        Attachment 3
 
==7.0    REFERENCES==
 
7.1 Updated Final Safety Analysis Report:
7.1.1     Section 6.3, Emergency Core Cooling 7.2 Technical Specifications - Unit 2:
7.2.1     3.5.1, Emergency Core Cooling Systems (ECCS) Accumulators
: 7. 3 Procedures:
: 7. 3 Procedures:
7.3.l NC.NA-AP.ZZ-0012(Q), Technical Specification Surveillance Program 7.3.2 NC.NA-AP.ZZ-0022(Q), Measurement  
7.3.l     NC.NA-AP.ZZ-0012(Q), Technical Specification Surveillance Program 7.3.2     NC.NA-AP.ZZ-0022(Q), Measurement & Test Equipment, Lifting & Rigging and Tool Control 7.3.3     NC.NA-AP.ZZ-0050(Q), Station Testing Program 7.3.4     NC.NA-AP.ZZ-0070(Q), Inservice Testing and MOV Testing Programs 7 .4 Drawings:
& Test Equipment, Lifting & Rigging and Tool Control 7.3.3 NC.NA-AP.ZZ-0050(Q), Station Testing Program 7.3.4 NC.NA-AP.ZZ-0070(Q), Inservice Testing and MOV Testing Programs 7 .4 Drawings:
7 .4.1   205334, Unit 2 Safety Injection 7.5 C>thers:
7 .4.1 205334, Unit 2 Safety Injection 7.5 C>thers: Salem 2 7.S.1 Section XI of ASME Boiler and Pressure Vessel Code (1983 Edition with Addenda through Summer 1983) 7.5.2 OMa-10, Inservice Testing of Valves in Light-Water Reactor Power Plants (1987 Edition with 1988 Addenda) 7.5.3 Salem Generating Station IST Manual 7.5.4 NUREG-1482, Guidelines for Inservice Testing at Nuclear Power Plants 7.5.5 SJ MECH 001, Safety Injection Valve Alignment Page 9 of 14 Rev. 4 s2.oP-ST .sJ-0006(Q)  
7.S.1     Section XI of ASME Boiler and Pressure Vessel Code (1983 Edition with Addenda through Summer 1983) 7.5.2   OMa-10, Inservice Testing of Valves in Light-Water Reactor Power Plants (1987 Edition with 1988 Addenda) 7.5.3   Salem Generating Station IST Manual 7.5.4   NUREG-1482, Guidelines for Inservice Testing at Nuclear Power Plants 7.5.5   SJ MECH 001, Safety Injection Valve Alignment Salem  2                                Page 9 of 14                                   Rev. 4
\ ' 7 .5 Others: (continued) 7 .5.6 NRC Information Notice 89-67, Loss of RHR caused by Accumulator Nitrogen Injection 7.5.7 NSO LER 272/89-019-00 7 .5. 8 Memo 92-027, dated 02/07 /92 7.5.9 Memo 92-189, dated 11/18/92 7.5.10 Calculation S-2-SJ-MDC-1394, Rev. 1 7.5.11 Memo SCl-94-0884 dated 12/21/94 7 .5.12 Westinghouse Letter NTD-NSRLA-OPL-94-441 7 .6 Cross-
 
s2.oP-ST .sJ-0006(Q)
      \   '
7 .5 Others: (continued) 7 .5.6 NRC Information Notice 89-67, Loss of RHR caused by Accumulator Nitrogen Injection 7.5.7   NSO LER 272/89-019-00 7 .5. 8 Memo 92-027, dated 02/07 /92 7.5.9   Memo 92-189, dated 11/18/92 7.5.10 Calculation S-2-SJ-MDC-1394, Rev. 1 7.5.11 Memo SCl-94-0884 dated 12/21/94 7 .5.12 Westinghouse Letter NTD-NSRLA-OPL-94-441 7 .6 Cross-


==References:==
==References:==


7 .6.1 Procedures:
7 .6.1   Procedures:
A. NC.NA-AP.ZZ-OOOl(Q), Nuclear Procedure System B. NC.NA-AP.ZZ-0003(Q), Document Management Program C. NC.NA-AP.ZZ-0005(Q), Station Operating Practices D. S2.0P-AB.RHR-0001(Q), Loss of RHR 7 .6.2 Technical Specifications  
A. NC.NA-AP.ZZ-OOOl(Q), Nuclear Procedure System B. NC.NA-AP.ZZ-0003(Q), Document Management Program C. NC.NA-AP.ZZ-0005(Q), Station Operating Practices D. S2.0P-AB.RHR-0001(Q), Loss of RHR 7 .6.2   Technical Specifications - Unit 2:
-Unit 2: A. 4.0.5, Inservice Inspection and Testing B. 4.4. 7 .2.2, Reactor Coolant System Operational Leakage 7. 7 Commitments:  
A. 4.0.5, Inservice Inspection and Testing B. 4.4. 7 .2.2, Reactor Coolant System Operational Leakage
: 7. 7 Commitments:
7.7.1    C0265 - NSO LER 311/89-015-00 7.7.2    C0283 - NRC VIOL 311187-18-01 7.7.3    C0289 - INSTRUMENT CALIBRATION REQUIREMENTS
: 7. 7 .4  C0329 - NRC PLAN NLR-189215-01 Salem  2                                Page 10 of 14                                Rev. 4


====7.7.1 C0265====
s2.oP-ST .sI-0006CQ>
-NSO LER 311/89-015-00
ATTACHMENT 1 (Page 1of1)
INSTRUMENTATION AND TEST EQUIPMENT DATA 1.0      WORK ORDER DATA Work Order Number(s):                                          Reason for Test Scheduled Surveillance Post-Maintenance Operability Other (Explain in Comments) 2.0      INSTRUMENT/TEST EQUIPMENT Instrument/Test                                          Calibration Description                                    Initials Equipment                                              Overdue Date
      "'2PI'936A      21 Ace Pressure Channel A
      "'2PT937A        21 Ace Pressure Channel B
                                            \
      ... 2PT937B      22 Ace Pressure Channel A
* 2PT936B        22 Ace Pressure Channel B
* 2PT936C        23 Ace Pressure Channel C
* 2Pf937C        23 Ace Pressure Channel D
* 2Pf937D        24 Ace Pressure Channel C
      "'2Pf936D        24 Ace Pressure Channel D Serial
      #                        Calibrated Stopwatch Serial
      #                        Calibrated Stopwatch
* Only one channel is required per Accumulator.
Salem    2                                  Page 11 of 14                                Rev. 4


====7.7.2 C0283====
s2.oP-ST .s1-0006(Q)
-NRC VIOL 311187-18-01
ATTACHMENT 2 (Page 1 of 1)
CHECK VALVE DATA AND INDEPENDENT VERIFICATION 1.0    CHECK VALVE DATA Stopwatch          Test Results Component                    Stopwatch Reading                        Date Stroke Description                      #
(seconds)      SAT      UNSAT 21SJ55 and 21SJ56 21 Accumulator          0 Check Valves 22SJS5 and 22SJS6 22 Accumulator          0 Check Valves 23SJSS and 23SJS6 23 Accumulator          0 Check Valves 24SJSS and 24SJ56 24 Accumulator          0 Check Valves ACCEPTANCE CRITERIA: Accumulator blowdown time is          ~  27 .5 seconds.
2.0    INDEPENDENT VERIFICATION Normal Component                    Description                                  IV    Date Position 21SJ54                  21 Accumulator Out                    x 228.154                22 Accumulator Out                    x 23SJ54                  23 Accumulator Out                    x 248.154              -. 24 Accumulator Out                    x Salem  2                                Page 12 of 14                                  Rev. 4


====7.7.3 C0289====
s2.oP-ST.sJ-0006(Q)
-INSTRUMENT CALIBRATION REQUIREMENTS
. 1  ,
: 7. 7 .4 C0329 -NRC PLAN NLR-189215-01 Salem 2 Page 10 of 14 Rev. 4
ATTACHMENT 3 (Page 1of2)
* s2.oP-ST .sI-0006CQ>
COMPLETION SIGN-OFF SHEET
' . ATTACHMENT 1 (Page 1of1) INSTRUMENTATION AND TEST EQUIPMENT DATA 1.0 WORK ORDER DATA Work Order Number(s):
 
2.0 INSTRUMENT/TEST EQUIPMENT Instrument/Test Description Equipment
==1.0 COMMENTS==
"'2PI'936A 21 Ace Pressure Channel A "'2PT937A 21 Ace Pressure Channel B \ ... 2PT937B 22 Ace Pressure Channel A
(Include test deficiencies and corrective actions.)
* 2PT936B 22 Ace Pressure Channel B
Salem 2                                     Page 13 of 14               Rev. 4
* 2PT936C 23 Ace Pressure Channel C
 
* 2Pf937C 23 Ace Pressure Channel D
s2.oP-ST.sJ-0006(Q)
* 2Pf937D 24 Ace Pressure Channel C "'2Pf936D 24 Ace Pressure Channel D Serial # Calibrated Stopwatch Serial # Calibrated Stopwatch
    )  j ATTACHMENT 3 (Page 2 of 2)
* Only one channel is required per Accumulator.
COMPLETION SIGN-OFF SHEET
Salem 2 Page 11 of 14 Reason for Test Scheduled Surveillance Post-Maintenance Operability Other (Explain in Comments)
Calibration Initials Overdue Date Rev. 4 s2.oP-ST .s1-0006(Q)  
!
* ATTACHMENT 2 (Page 1 of 1) CHECK VALVE DATA AND INDEPENDENT VERIFICATION


===1.0 CHECK===
==2.0 SIGNATURES==
VALVE DATA Component Stopwatch Stopwatch Test Results Stroke Reading Description
Print                         Initials       Signature                           Date INDEPENDENT VERIFICATION:
# (seconds)
3.0   SNSS/NSS FINAL REVIEW AND APPROVAL:
SAT UNSAT 21SJ55 and 21SJ56 21 Accumulator 0 Check Valves 22SJS5 and 22SJS6 22 Accumulator 0 Check Valves 23SJSS and 23SJS6 23 Accumulator 0 Check Valves 24SJSS and 24SJ56 24 Accumulator 0 Check Valves ACCEPTANCE CRITERIA:
Accumulator blowdown time is 27 .5 seconds. 2.0 INDEPENDENT VERIFICATION Component Description Normal IV Position 21SJ54 21 Accumulator Out x 228.154 22 Accumulator Out x 23SJ54 23 Accumulator Out x 248.154 -. 24 Accumulator Out x Salem 2 Page 12 of 14 Date Date Rev. 4 1 , .. 1.0 COMMENTS:
ATTACHMENT 3 (Page 1of2) COMPLETION SIGN-OFF SHEET (Include test deficiencies and corrective actions.)
Salem 2 Page 13 of 14 s2.oP-ST.sJ-0006(Q)
Rev. 4 s2.oP-ST.sJ-0006(Q) ) j
* ATTACHMENT 3 (Page 2 of 2) COMPLETION SIGN-OFF SHEET 2.0 SIGNATURES:
Print Initials Signature Date INDEPENDENT VERIFICATION:
3.0 SNSS/NSS FINAL REVIEW AND APPROVAL:
C0283 This procedure with Attachments 1-3 has been reviewed for completeness and accuracy.
C0283 This procedure with Attachments 1-3 has been reviewed for completeness and accuracy.
All deficiencies, including corrective actions, have been clearly recorded in the COMMENTS Section of this attachment.
All deficiencies, including corrective actions, have been clearly recorded in the COMMENTS Section of this attachment. Technical Specification compliance, procedure compliance, and Acceptance Criteria have been evaluated.
Technical Specification compliance, procedure compliance, and Acceptance Criteria have been evaluated.
Signature: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __                        Date:
Signature:
(Senior) Nuclear Shift Supervisor                             ------
___________________
4.0   IST PROGRAM MANAGER REVIEW:
_ (Senior) Nuclear Shift Supervisor Date: ------4.0 IST PROGRAM MANAGER REVIEW: Test Results have been reviewed for acceptability.
Test Results have been reviewed for acceptability. Forward completed procedure to Operations Staff.
Forward completed procedure to Operations Staff. Date: Signatu.re:
Signatu.re: _ _ _ _ _-=-==-=--==-------:-:---------- Date:- - - - -
_____ -=-==-=--==-------:-:----------
IST Program Manager Salem 2                                     Page 14 of 14                                   Rev. 4
IST Program Manager -----Salem 2 Page 14 of 14 Rev. 4
 
* } ) FORM NC.NA-AP.ZZ-0001-7 Page 1of1 PROCEDURE TRANSMITTAL FORM PROCEDURE NO: S2.0P-ST.SJ-0002(Q)
FORM NC.NA-AP.ZZ-0001-7 Page 1of1
TO: TDR/DDG Supervisor FROM: Procedure Maintenance Group REV:_5_ DATE: __ _ PLEASE DISTRIBUTE CONTROLLED COPIES OF THE ATTACHED PROCEDURE IN ACCORDANCE WITH THE CONTROLLED DISTRIBUTION LIST. REFERENCES (Use additional sheet if necessary)
        }  )
The following references and cross-references have been deleted from this procedure:  
PROCEDURE TRANSMITTAL FORM PROCEDURE NO: S2.0P-ST.SJ-0002(Q)                                                     REV:_5_
TO: TDR/DDG Supervisor FROM: Procedure Maintenance Group                                                 DATE: _ __
PLEASE DISTRIBUTE CONTROLLED COPIES OF THE ATTACHED PROCEDURE IN ACCORDANCE WITH THE CONTROLLED DISTRIBUTION LIST.
REFERENCES (Use additional sheet if necessary)
The following references and cross-references have been deleted from this procedure:


==References:==
==References:==
NC.NA-AP.ZZ-0027(Q), Inservice Inspection Program Cross-
NC.NA-AP.ZZ-0027(Q), Inservice Inspection Program Cross-


==References:==
==References:==
NC.NA-AP.ZZ-OOll(Q), Records Management Program The following references and cross-references have been added to this procedure:


NC.NA-AP.ZZ-OOll(Q), Records Management Program The following references and cross-references have been added to this procedure:
==References:==
UFSAR Section 9.2.1, Service Water System and P&ID 205342, No. 2 Unit Service Water Nuclear Area  rum OMa-10, Inservice Testing of Valves in Light-Water Reactor Power Plants (1987 Edition with 1988 Addenda) and C0297 - NRC GL 89-13, Service Water System Problems Affecting Safety Related Equipment Cross-


==References:==
==References:==
NC.NA-AP.ZZ-OOOl(Q), Nuclear Procedure System and NC.NA-AP.ZZ-0003(Q),
Document Management Program !!!ill S2.RA-ST.SJ-0002(Q), Inservice Testing - 22 Safety Injection Pump Acceptance Criteria The following references and cross-references have been revised in this procedure:


UFSAR Section 9.2.1, Service Water System and P&ID 205342, No. 2 Unit Service Water Nuclear Area rum OMa-10, Inservice Testing of Valves in Light-Water Reactor Power Plants (1987 Edition with 1988 Addenda) and C0297 -NRC GL 89-13, Service Water System Problems Affecting Safety Related Equipment Cross-
==References:==
NC.NA-AP.ZZ-0022(Q), Measurement & Test Equipment, Lifting & Rigging and Tool Control and NC.NA-AP.ZZ-0070(Q), Inservice Testing and MOV Testing Programs Cross-


==References:==
==References:==
None


NC.NA-AP.ZZ-OOOl(Q), Nuclear Procedure System and NC.NA-AP.ZZ-0003(Q), Document Management Program !!!ill S2.RA-ST.SJ-0002(Q), Inservice Testing -22 Safety Injection Pump Acceptance Criteria The following references and cross-references have been revised in this procedure:  
FORM NC.NA-AP.ZZ-0001-4 Page 1 of l
 
      }  j l
==References:==
PROCEDURE SIGNOFF SHEET Page _1 of _L PROCEDURE NO: S2.0P-ST.SJ-0002(Q)                                                                       REV:~
PROCEDURE TITLE: INSERVICE TESTING - 22 SAFETY INJECTION PUMP Refer to Attachment 6, Procedure Review Matrix for required reviews. N/A if not applicable.
A. Biennial Review Performed by this Revision: No B. Writer Review          Randall        AA~'*.c>                                    Date :<\\s.\qJ,.
: c. Department Review                                                                  Date:#'~
D. QA Review            ~N..,,,l......A~----------------- Date:                                    ---
E. ALARA Review          NIA                                                          Date:      ---
F.
G.
Technical Review SQRReview              ~;di- :f (ii..,sk;ll Cross-Disciplinary Review Performed
                                                                /Gijt;v YES'~ Not Applicable: D Date:
Date:      iJiif;i Discipline:  IST Program Manager Reviewer:              #        ~          Date: __'4-=-f-."/1oc..::c"-J./'i_._h"---
SORC Review          SALEM:                    HOPE CREEK:                  NONE:X SALEM SORC                                              HOPE CREBX SORC Recommend a~proval with no                                  Recommend a~proval with no further action.                                              further action.
Recommend approval after actions                  [=::::J Recommend approval after listed below are completed.                          actions listed below are completed.
SORC Chairman:                                            SORC Chairman:
Date:  - - - - - M t g . No.                               Date: - - - - - Mtg. No.
D    Procedure/revision and 10CFR50.59 Safety Evaluation transmitted to QA/NSR. T/S 6.5.2.4.2 D      Procedure/revision and 10CFRS0.59 Safety Evaluation transmitted to QA/NSR.
T/S 6.5.2.4.2 SPONSOR - - - - - - - - DATE _ _ __                        SPONSOR - - - - - - DATE - - -
SPONSOR APPROVAL (for NAPs only): ~N~/~A=----------- DATE: __,,N_,_,/.._,A,____ _


NC.NA-AP.ZZ-0022(Q), Measurement
FORM NC.NA-AP.ZZ-0059-1
& Test Equipment, Lifting & Rigging and Tool Control and NC.NA-AP.ZZ-0070(Q), Inservice Testing and MOV Testing Programs Cross-
  .. J- J 10CFRS0.59 APPLICABILITY REVIEW FOR PROCEDURE REVISIONS Page _1_ of _2_
I.D. Number (Procedure      Number):.=S=2.'""0&deg;"'P--S"'-T"""'.""'S"'-J-~0=002=>-C0x.)..___ _ _ _ _ _ _  Revision: 2...


==References:==
==Title:==
INSERVICE TESTING - 22 SAFETY INJECTION PUMP Applicability:
Salem 1                                                              Salem 3 (Gas Turbine)
Salem 2                                                              Hope Creek Common to Salem 1 & 2                                                Common to Hope Creek & Salem 1.0    Applicable SAR sections, Technical Specifications, and other documents reviewed:
*            +
              +
              +
              +
              +
UFSAR Section 9. 2.1, Service Water System P&ID 205342, No. 2 Unit Service Water Nuclear Area OMa-10, Inservice Testing of Valves in Light-Water Reactor Power Plants (1987 Edition with 1988 Addenda)
NUREG-1482, Guidelines for Inservice Testing at Nuclear Power Plants C0297 - NRC GL 89-13, Service Water System Problems Affecting Safety Related Equipment
* U FSA~      ~t>~ '3.. q . It              lf1    1./1.f'IC.
              ..  ~ ~s.                'g    A\.\)O  C\      J(J'&deg;llJ/ltl.
              +  s~ 1 ~"'--1....1,H\"\\w.:i ~PoDi                (4515'l....:h s\?.o:-.:~      s.~ ~ '--3 "' '/vif' t    SEL !iUP'oUi.r'r'cf\TS          '3.  ~=&deg;'\"'- S            ..> $i001~ S* 3 N (/"(<if.
* SC.llL :Sr..IPpu.me!>l'lt"'.:S    I 4'-h1'1)11'i... S      :>    SE,aH~ E.. 3 Jt;1 'IUf/tJ.
2.0    The proposed procedure revision does not change the facility as described in the SAR, because (check those that are true):
      ,/    a. The change does not result in an unauthorized alteration to plant systems, structures or components.
L      b. The change does not deviate from Technical Specification Acceptance Criteria nor requires a change to the Technical Specifications.
    ,/      c. The change will not result in equipment or systems being operated in configurations different than those described in the SAR or not permitted by Technical Specifications.                                                                    *


None
          .                             FORM NC.NA-AP.ZZ-0059-1 i_           10CFR50.59 APPLICABILITY REVIEW FOR PROCEDURE REVISIONS Page _2_ of _2_
* l } j FORM NC.NA-AP.ZZ-0001-4 Page 1 of l PROCEDURE SIGNOFF SHEET PROCEDURE NO: S2.0P-ST.SJ-0002(Q)
l.D. Number (Procedure Number):=S2=.'-"0""'P--'-=S-=-T""".S=J--'-000"-"-"=2-'-'(Q,._),___ _ _ _ _ _ _ _ Revision: 2..
Page _1 of _L PROCEDURE TITLE: INSERVICE TESTING -22 SAFETY INJECTION PUMP Refer to Attachment 6, Procedure Review Matrix for required reviews. N/A if not applicable.
3.0       The proposed procedure revision does not change the procedures as described in the SAR, because (check those that are true):
Biennial Review Performed by this Revision:
L         a. The change does not conflict with procedural steps or a system or component's operation as described in the SAR or cause any information in the SAR to be incorrect.
No A. B. c. D. E. F. G. Writer Review Randall Department Review Date :<\\s.\qJ,.
: b. The change does not alter or delete the descriptions of the applicable procedure topics in UFSAR Section 13 .
Date: QA Review
      .L       c. The change does not delete a procedure either listed or described in the SAR.
......
4.0       The proposed procedure revision does not constitute a "test or experiment not described in the SAR, " because (check those that are true):
---ALARA Review NIA Date: ---
L         a. The procedure, as changed, does not conflict with the descriptions of tests (such as surveillance tests) described in the UFSAR or Technical Specifications .
:f (ii..,sk;ll
* b. The procedure, as changed, does not implement an experiment as defined in NAP-8.
/Gijt;v Cross-Disciplinary Review Performed Not Applicable:
5.0       Completion and Approval Based upon ALL of the above screening criteria being checked true, 10CFR50.59 does not apply to the procedure change.
D Technical Review SQRReview Date: Date: iJiif;i Discipline:
Preparer:
IST Program Manager Reviewer:
Peer Reviewer:
# Date: __ '4-=-f-."/1oc..::c"-J./'i_._h"---
* Approval:}}
SORC Review SALEM: SALEM SORC Recommend with no further action. Recommend approval after actions listed below are completed.
SORC Chairman:
Date: -----Mtg.
No. D Procedure/revision and 10CFR50.59 Safety Evaluation transmitted to QA/NSR. T/S 6.5.2.4.2 SPONSOR --------DATE ___ _ HOPE CREEK: NONE:X HOPE CREBX SORC Recommend with no further action. [=::::J Recommend approval after actions listed below are completed.
SORC Chairman:
Date: D -----Mtg. No. Procedure/revision and lOCFRS0.59 Safety Evaluation transmitted to QA/NSR. T/S 6.5.2.4.2 SPONSOR ------DATE ---SPONSOR APPROVAL (for NAPs only):
DATE: __,,N_,_,/.._,A,___
__
* J-J .. FORM NC.NA-AP.ZZ-0059-1 lOCFRS0.59 APPLICABILITY REVIEW FOR PROCEDURE REVISIONS Page _1_ of _2_ I.D. Number (Procedure
_______ Revision:
2... Title: INSERVICE TESTING -22 SAFETY INJECTION PUMP Applicability:
Salem 1 Salem 3 (Gas Turbine) Salem 2 Hope Creek Common to Salem 1 & 2 Common to Hope Creek & Salem 1.0 Applicable SAR sections, Technical Specifications, and other documents reviewed:
2.0 + UFSAR Section 9. 2.1, Service Water System + P&ID 205342, No. 2 Unit Service Water Nuclear Area + OMa-10, Inservice Testing of Valves in Light-Water Reactor Power Plants (1987 Edition with 1988 Addenda) + NUREG-1482, Guidelines for Inservice Testing at Nuclear Power Plants + C0297 -NRC GL 89-13, Service Water System Problems Affecting Safety Related Equipment
* U
'3.. q . It lf1 1./1.f'IC.
.. 'g A\.\)O C\ J(J'&deg;llJ/ltl.
+
(4515'l....:h '--3 "' '/vif' t SEL !iUP'oUi.r'r'cf\TS
'3.
S ..>
S* 3 N (/"(<if.
* SC.llL :Sr..IPpu.me!>l'lt"'.:S I 4'-h1'1)11'i...
S :>
E.. 3 Jt;1 'IUf/tJ. The proposed procedure revision does not change the facility as described in the SAR, because (check those that are true): ,/ a. The change does not result in an unauthorized alteration to plant systems, structures or components.
L b. The change does not deviate from Technical Specification Acceptance Criteria nor requires a change to the Technical Specifications.
,/ c. The change will not result in equipment or systems being operated in configurations different than those described in the SAR or not permitted by Technical Specifications.
** i_ *
* FORM NC.NA-AP.ZZ-0059-1
,._ . 10CFR50.59 APPLICABILITY REVIEW FOR PROCEDURE REVISIONS Page _2_ of _2_ l.D. Number (Procedure Number):=S2=.'-"0""'P--'-=S-=-T""".S=J--'-000"-"-"=2-'-'(Q,._),__
________ Revision:
2.. 3.0 The proposed procedure revision does not change the procedures as described in the SAR, because (check those that are true): L a. The change does not conflict with procedural steps or a system or component's operation as described in the SAR or cause any information in the SAR to be incorrect.  
: b. The change does not alter or delete the descriptions of the applicable procedure topics in UFSAR Section 13 . .L c. The change does not delete a procedure either listed or described in the SAR. 4.0 The proposed procedure revision does not constitute a "test or experiment not described in the SAR, " because (check those that are true): L a. The procedure, as changed, does not conflict with the descriptions of tests (such as surveillance tests) described in the UFSAR or Technical Specifications . b. The procedure, as changed, does not implement an experiment as defined in NAP-8. 5.0 Completion and Approval Preparer:
Based upon ALL of the above screening criteria being checked true, 10CFR50.59 does not apply to the procedure change. Peer Reviewer:
Approval:}}

Latest revision as of 15:00, 17 March 2020

Forwards Proposed Rev to Inservice Testing Program,Including Relief Requests for V-24 & V-25 for Check Valves SJ55 & SJ56
ML18102A708
Person / Time
Site: Salem  PSEG icon.png
Issue date: 12/26/1996
From: Storz L
Public Service Enterprise Group
To:
NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
LR-N96437, NUDOCS 9701020241
Download: ML18102A708 (70)


Text

INSERVICE TESTING PROGRAM RELIEF REQ1JEST.

REC'D W/LTR DTD 12/26/96 .. ~.9701020241

- NOTICE**

THE ATTACHED FILES ARE OFFICIAL RECORDS OF THE INFORMATION &

RECORDS MANAGEMENT BRANCH.

THEY HAVE BEEN CHARGED TO YOU FOR A LIMITED TIME PERIOD AND MUST BE RETURNED TO THE RECORDS & ARCHIVES SERVICES .

SECTION, T5 C3. PLEASE DO NOT SEND DOCUMENTS CHARGED OUT THROUGH THE MAIL. REMOVAL OF ANY PAGE(S) FROM DOCUMENT FOR REPRODUCTION MUST BE REFERRED TO FILE PERSONNEL.

    • NOTICE -

DEC 2 6 1996 Document Control Desk LR-N96437 ATTACHMENT 1 INSERVICE TESTING PROGRAM RELIEF REQUEST SALEM GENERATING STATION UNIT NOS. 1 AND 2 DOCKET NOS. 50-272 AND 50-311

DEC 2 6 1996 Attachment (1)

Document Control Desk LR-N96437 C Mr. Hubert J. Miller, Administrator - Region I U. S. Nuclear Regulatory Commission 475 Allendale Road King of Prussia, PA 19406 Mr. L. N. Olshan, Licensing Project Manager - Salem U. S. Nuclear Regulatory Commission One White Flint North 11555 Rockville Pike Mail Stop 14E21 Rockville, MD 20852 Mr. C. Marschall - Salem (S09)

USNRC Senior Resident Inspector Mr. K. Tosch, Manager, IV NJ Department of Environmental Protection Division of Environmental Quality Bureau of Nuclear Engineering CN 415 Trenton, NJ 08625

  • Document Control Desk LR-N96437 EHV/

DEC 2 6 1996 BC CNO & President - Nuclear Business Unit (N09)

Senior Vice President - Nuclear Engineering (N19)

Senior Vice President - Nuclear Operations (X04)

Director - Nuclear Business Support (NlO)

Director - QA/Nuclear Safety Review (XOl)

Director - Nuclear System Engineering (X07)

General Manager - Nuclear Operations Services (XlO)

General Manager - Salem Operations (S05)

General Manager - Hope Creek Operations (H07)

Manager - Nuclear Safety Review (N38)

Manager - External Affairs (N28)

Manager - Licensing & Regulation (X09)

Onsite Safety Review Engineer - Salem (Xl5)

Onsite Safety Review Engineer - Hope Creek (Hll)

General Solicitor, E. J. Selover (Newark, 5G)

Perry Robinson, Esq.

Records Management (N21)

Microfilm Copy File Nos. 1.2.1,

Salem Units 1 and 2 Inservice Test Progam

  • VALVE RELIEF REQUEST - V - 24 COMPONENTS: l 1SJ55, 12SJ55, 13SJ55, 14SJ55 21SJ55, 22SJ55, 23SJ55, 24SJ55 FUNCTION:

These check valves are located in the discharge lines from the respective safety injection accumulators. The valves perform an active safety function in the open and closed positions. The valves must be capable of opening during a large break LOCA to provide a flow path for SI accumulator discharge to the RCS cold legs when reactor pressure drops below accumulator pressure. The valve must be capable of closure to prevent divergence of safety injection and recirculation flow subsequent to the accumulators dumping their contents. This valve also functions as an RCS pressure isolation valve. This function prevents exposing the SI accumulators to RCS pressure which would compromise accumulator pressure boundary integrity.

CATEGORY: AC CLASS: 1 TEST REQUIREMENTS:

  • Open & Closed Position - Check valves shall be exercised at least once every 3 months, in accordance with the requirements oflWV-3521.

BASIS FOR RELIEF:

During power operation, these valves are maintained in the closed position by RCS pressure on the downstream side of the valve disk. Quarterly exercising these valves to the full or partially open position during power operation is impracticable because the only flow path is into the RCS.

The operating accumulator pressure cannot overcome normal operating RCS pressure to establish flow. Full stroke exercising these valves at cold shutdown is impracticable because of the potential for low temperature overpressurization due to insufficient expansion volume in the RCS to accept required flow. This testing could also result in the intrusion of nitrogen into the core which could interrupt the normal circulation of cooling water flow. Partial stroke exercising these valves going into cold shutdown is burdensome without a commensurate increase in the level of quality and safety. The associated motor-operated isolation valve (one per accumulator) cannot be partially stroked, but must complete a full stroke before changing direction. This could cause a complete discharge of the water volume in the accumulator and possibly inject nitrogen into the reactor coolant system, causing gas binding of the residual heat removal pumps and a subsequent loss of shutdown cooling. These valves are also verified to close by leak testing per plant technical specifications for Pressure Isolation Valves (PIV's). Reverse exercising these check valves at any time other than refueling is burdensome without a commensurate increase in the level of quality and safety. The valves are normally in the closed position and accumulator pressure is continuously monitored to ensure that an adequate nitrogen blanket is maintained and to verify the lack of RCS inleakage.

Salem Units 1 and 2 Inservice Test Progam

  • \! - 24 (Cont)

ALTERNATE TESTING:

These check valves shall be full stroke exercised to the open position during refuelings utilizing a reduced pressure, partial accident flow test method. This controlled method is performed with the reactor vessel head removed. The test method establishes accumulator pressure between 67 and 70 psig, accumulator level between 96 and 100% and refueling cavity level between 125.5 and 126.5 feet. After establishment of the fixed parameters the test then measures the time interval required for the pressure in the associated safety injection accumulator to drop from an initial pressure to 35 psig. Engineering calculation S-2-SJ-.MDC-1394 - "Acumulator Pressure Decay during Discharge Test" establishes the test conditions and acceptance criterion and concludes that this methodology is adequate in determining that the associated check valve disk moves to the full open position.

Information from other nuclear stations was reviewed regarding partial flow, full stroke exercising using a calculational method. The testing performed at Salem provides a valid methodology for verifying the open function even though the test method differs from the various methods reviewed.

In attempting to utilize the guidance of NUREG 1482, Section 4.1.2 - "Exercising Check Valves with Flow and Nonintrusive Techniques", nonintrusive equipment was used during informational testing.. These valves are Darling Valve & Manufacturing Co. "Clear Waterway" swing checks that are fabricated without a backstop. The valve design permits the disk to move sufficiently out of the flow path without contacting the valve body.

Nonintrusive testing using acoustic and magnetic technology provides sufficient data for monitoring degradation on a periodic basis however, full open acoustic indication is not detected or expected to show on the test trace. Nonintrusive testing does not verify full stroke exercising however occasional use of this equipment during the pressure decay test provides useful condition monitoring information.

This method of forward flow check valve testing complies with the guidance provided in Generic Letter 89-04, Attachment 1, Position 1.

Regarding reverse flow exercise testing, these valves shall be verified in the closed position during the process of performing seat leakage testing at the frequency specified in Unit I TS 4.4.6.3 and Unit 2 TS 4.4.7.2.2.

The open stroke frequency change was previously approved in NRC Safety Evaluation April 15, 1994 (TAC Nos. M88 l 44 and M88 I 45) .

Salem Units 1 and 2 Inservice Test Progam VALVE RELIEF REQUEST- V - 25 COMPONENTS: 11SJ56, 12SJ56, 13SJ56, 14SJ56 21 SJ56, 22SJ56, 23SJ56, 24SJ56 FUNCTION:

These check valves are located in the discharge lines from the respective safety injection accumulators downstream of the branch connection from RHR. The valves perform an active safety function in the open position. The valves must be capable of opening during a large break LOCA to provide a flow path for SI accumulator discharge to the RCS cold legs when reactor pressure drops below accumulator pressure. The valve must also be capable of opening to provide a path for low head safety injection and cold leg recirculation flow. This valve also functions as an RCS pressure isolation valve. This function prevents exposing the SI accumulators and RHR system piping to RCS pressure.

CATEGORY: AC CLASS: 1 TEST REQUIREMENTS:

Open & Closed Position - Check valves shall be exercised at least once every 3 months, in accordance with the requirements ofIWV-3521.

BASIS FOR RELIEF:

During power operation, these valves are maintained in the closed position by RCS pressure on the downstream side of the valve disk. Quarterly exercising these valves to the full or partially open position during power operation is impracticable because the only flow path is into the RCS.

The operating accumulator pressure cannot overcome normal operating RCS pressure to establish flow. Full stroke exercising these valves at cold shutdown is impracticable because of the potential for low temperature overpressurization due to insufficient expansion volume in the RCS to accept required flow. This testing could also result in the intrusion of nitrogen into the core which could interrupt the normal circulation of cooling water flow. The associated motor-operated isolation valve (one per accumulator) cannot be partially stroked, but must complete a full stroke before changing direction. This could cause a complete discharge of the water volume in the accumulator and possibly inject nitrogen into the reactor coolant system, causing gas binding of the residual heat removal pumps and a subsequent loss of shutdown cooling. These valves are also verified to close by leak testing per plant technical specifications for Pressure Isolation Valves (PIV's). Reverse exercising these check valves at any time other than refueling is burdensome without a commensurate increase in the level of quality and safety .

Salem Units 1 and 2 lnservice Test Progam

  • V - 25 (Cont)

AL TERNATE TESTING:

These check valves shall be full stroke exercised to the open position during refuelings utilizing a reduced pressure, partial accident flow test method. This controlled method is performed with the reactor vessel head removed. The test method establishes accumulator pressure between 67 and 70 psig, accumulator level between 96 and 100% and refueling cavity level between 125.5 and 126.5 feet. After establishment of the fixed parameters the test then measures the time interval required for the pressure in the associated safety injection accumulator to drop from an initial pressure to 35 psig. Engineering calculation S-2-SJ-l\1DC-1394 - "Acumulator Pressure Decay during Discharge Test" establishes the test conditions and acceptance criterion and concludes that this methodology is adequate in determining that the associated check valve disk moves to the full open position.

Information from other nuclear stations was reviewed regarding partial flow, full stroke exercising using a calculational method. The testing performed at Salem provides a valid methodology for verifying the open function even though the test method differs from the various methods reviewed.

In attempting to utilize the guidance ofNUREG 1482, Section 4.1.2 - "Exercising Check Valves with Flow and Nonintrusive Techniques", nonintrusive equipment was used during informational testing. These valves are Darling Valve & Manufacturing Co. "Clear

  • Waterway" swing checks that are fabricated without a backstop. The valve design permits the disk to move sufficiently out of the flow path without contacting the valve body.

Nonintrusive testing using acoustic and magnetic technology provides sufficient data for monitoring degradation on a periodic basis however, full open acoustic indication is not detected or expected to show on the test trace. Nonintrusive testing does not verify full stroke exercising however occasional use of this equipment during the pressure decay test provides useful condition monitoring information.

The valves shall be partial stroke exercised at cold shutdown during normal RHR.

shutdown cooling operations.

This method of forward flow check valve testing complies with the guidance provided in Generic Letter 89-04, Attachment 1, Position 1.

Regarding reverse flow exercise testing, these valves shall be verified in the closed position during the process of performing seat leakage testing at the frequency specified in Unit l TS 4.4.6.3 and Unit 2 TS 4.4.7.2.2.

The open stroke frequency change was previously approved in NRC Safety Evaluation April 15, 1994 (TAC Nos. M88 I 44 and M88 I 45) .

  • 21 SJ55 and 21 SJ56 - 21 Accumulator Discharge to Cold Leg
  • 22SJ55 and 21 SJ56 - 22 Accumulator Discharge to Cold Leg
  • 23SJ55 and 21 SJ56 - 23 Accumulator Discharge to Cold Leg
  • 24SJ55 and 21 SJ56 - 24 Accumulator Discharge to Cold Leg The testing procedure involves open-stroke testing each tank's discharge check valves with the reactor depressurized and the vessel head removed. The initial tank liquid volume is set to 96 -

100%, and initial tank pressure is set at 67 - 70 psig. Flow is initiated by opening the tank MOV.

Per the procedure, the valve is to be stroked fully open, left in the open position until the Accumulator reaches a pressure of 35 psig, and then closed. Tank pressure is set low enough to prevent injection of nitrogen gas into the RCS. Velocities achieved should also be sufficient to fully stroke the valves, according to calculation.

The bases for the testing is captured in Calculation No. S-2-SJ-MDC-1394, Accumulator Pressure Decay During Discharge Test. The purpose of this calculation is to establish a mathematical model of test conditions to develop acceptance criterion for establishing the valves tested go full open. The description, below, will describe the calculation with reactor head removed as is currently performed during testing .

The following parameters are fixed by procedure:

.. The Unit is in Mode 6 (Defueled) with the Upper Internals installed.

  • Safety Injection Accumulators are at a fixed and defined pressure.
  • Safety Injection Accumulators are at a fixed and defined level.

.. Refueling Cavity is at a fixed and defined level.

" Acceptance criteria - Maximum blowdown time in seconds.

During valve stroking, Accumulator pressure and level measurements, which are acquired from inputs from normal plant instrumentation, are recorded. Based on the measured level and pressure change with time, the relationship between the check valve disc angle, flow rate and pressure difference are calculated using information supplied by Westinghouse Letter PSE 530 for full lift velocity for the valves being tested. Loss factor for the MOV isolation valve as well as friction losses associated with the piping system are calculated. Equations of motion are then solved simultaneously.

The calculation solves six unknown variables simultaneously using a FORTRAN computer program. The following are calculated to determine flow and pressure at a point in time under a variety of disc angles:

  • MOV loss factor

.. Derivations

" Values at new tirT)e step

Results The following three cases were run:

  • Check valve maximum swing angle form closed position is 60 degrees.
  • Check valve maximum swing angle form closed position is 30 degrees.

Tables 4.1, 4.2 and 4.3, provided in the calculation, show the accumulator pressure time history and discharge flow rate time history for each case. These curves are plotted in figures 4.1 and 4.2. Only curves with the reactor head on are shown since the pressure decay time is nearly equal for both test configurations, reactor head on and reactor head off. These curves show approximatly a 4 second (or 14 percent difference) between the two values of the disc being free (72 degrees open) and a disc maximum swing of 60 degrees.

Conclusion The calculation concluded that the pressure decay time from 70 psig to 35 psig is nearly 24 seconds when the check valve is free. lmperical test results were then compared to the value calculated. A pressure decay time of 23.9 seconds (maximum value of four lines tested) was measured on Salem Unit 1. On Salem Unit 2 three Accumulator pressure decay tests were performed with pressure decay times of just below 24 seconds. One test was not considered do to a motor failure of the Accumulator isolation MOV. Therefore, a 24 second decay time, as calculated , is a very good representation of the transient and has been verified empirically over seven tests. The valves tested were known to be in new or good condition based on recent disassembly and inspections of the valves' internals.

It is reasonable to conclude that the test method described is valid at providing reasonable assurance that the valves tested go to there full open position .

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2 L1 t'f ~I 6-2-SJ- f'(JDC-13'}4 DIMENSION VVOF(12),CVCV(l2)

DATA VVOF I 0. ,

  • 0 5 , . 1,
  • 2 I
  • 3 , . 4 , . 5 , . 6 , . 7 I
  • 8 I
  • 9 , 1 . I DATA CVCV/O., 0.0194, 0.055, 0.1, 0.146, 0.204,
  1. 0.277,0.3536,0.4613,0.6086,0.767,1./ .

...__. PARAMETERS GAM=l.3 REf\CTG1\ 11dt-D ts oN G=32.174 RHO=l.94 Ct\tf.-t vALvt"" IS F"R.EE AREA=0.394 DT=0.01 PPRES=14.7*144.

C INITIAL CONDITIONS TIME=O.l NSTEP=-1 VNAZ=419.9 VNA=VNAZ PAZ=84.7*144.

PA=PAZ Q=.001 VWP=758.

WRITE(*,101) 101 FORMAT(T19'TIME', T28'ACCUMULATOR PRESSURE FLOW RATE')

103 FORMAT(T19'(SEC.)',T28' (PSIG) (GPM) I, I/)

WRITE(*,103}

31 NSTEP=NSTEP+l TIME=TIME+DT C CALCULATE ACCUMULATOR LEVEL ELEVATION VWA=l350.-VNA ZA=(VWA+7869.6)/95.72 C CALCULATE PRESSURIZER LEVEL ELEVATION ZP=(VWP+4092.3)/38.34 CALCULATE ACCUMULATOR GAS PRESSURE

  • PA=PAZ*(VNAZ/VNA)**GAM CALCULATE SJ54 LOSS FACTOR VOTl=lO.

- GVKZ=.15 IF(TIME .LT. VOTl) THEN VOF=TIME/VOTl CALL INTER(VOF,CVND,12,VVOF,CVCV)

GVK=GVKZ/(CVND*CVND)

ELSE GVK=GVKZ END IF C CALCULATE CHECK VALVE DP VEL=Q/AREA AV2=38.3/(VEL*VEL)

SINPHI=0.5*(SQRT(AV2**2+4.)-AV2)

IF (SINPHI .GE. 0.9532) SINPHI=0.9532 DPCHK=2.*8.98*RHO*VEL*VEL*(l.-SINPHI)

C CALCULATE DERIVATIVES DQDT=(PA+RHO*G*ZA-PPRES-RHO*G*ZP-35.75*Q*ABS(Q)

  1. -0.5*GVK*l.94*Q*ABS(Q)/AREA**2 - DPCHK)/468.9 DVNADT=Q DVWPDT=Q C CALCULATE VALUES AT NEW TIME STEP QQ=Q+DQDT*DT VVNA=VNA+DVNADT*DT VVWP=VWP+DVWPDT*DT IF (TIME .LE. 2.) THEN IF(MOD(NSTEP,10) .EQ. O)WRITE(*,102) TIME,+(PA/144.-14.7),
  1. Q*7.48*60.

ELSE IF(MOD((NSTEP+l0),100) .EQ. D)WRITE(*,102) TIME,+(PA/144.-14.7),

  1. Q*7.48*60.

END IF

2 -; q:

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102 FORMAT(F23.3,8F17.2)

UPDATE THE OLD VARIABLES Q=QQ VNA=VVNA VWP=VVWP

...._.. IF(TIME .GT. 100.) STOP GO TO 31 END SUBROUTINE INTER(X,Y,N,XX,YY)

DIMENSION XX(N),YY(N)

IF(X .LT. XX(l) .OR. X .GT. XX(N)) GO TO 3 DO 2 J=2,N IF(X .GE. XX(J-1) .AND. X .LE. XX(J)) GO TO 101 GO TO 2 101 Y=YY(J-l)+(YY(J)-YY(J-l))*(X-XX(J-1))/

1 (XX(J)-XX(J-1))

RETURN 2 CONTINUE 3 WRITE(6,l) X,(XX(I),I=l,N) 1 FORMAT(' BEYOND RANGE',Gl0.4,5X,20G10.4)

RETURN END C:\SALEM\REACTOR\ECCS>

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DIMENSION VVOF(12),CVCV(12)

DATA VVOF /0. I

  • 05 I .1,. 2 I
  • 3 I
  • 4 I
  • 5, . 6, . 7, . 8 I
  • 9 I l. I DATA CVCV/O., 0.0194, 0.055, 0.1, 0.146, 0.204,
  1. 0.277,0.3536,0.4613,0.6086,0.767,1./

'-" PARAMETERS GAM=l.3 G=32.174 RHO=l.94 Clh'r'\Pu1a<. PRol7~~ L1S1"trJG AREA=0.394 DT=0.01 Rnc T61Z Mt}\-i) l ~ OF F PCAV=14.7*144. Ctt~ 'JAL-\iG \5 Fr\t=E*

C INITIAL CONDITIONS TIME=O.l NSTEP=-1 VNAZ=419.9 VNA=VNAZ PAZ=84.7*144.

PA=PAZ Q;:;;. 001 ZCAV=127.

WRITE(*,101) 101 FORMAT(Tl9 1 TIME 1 , T28 1 ACCUMULATOR PRESSURE FLOW RATE')

103 FORMAT(Tl9 1 (SEC.)',T28 1 (PSIG) (GPM) ',//)

WRITE(*,103) 31 NSTEP=NSTEP+l TIME=TIME+DT C CALCULATE ACCUMULATOR LEVEL ELEVATION VWA=1350.-VNA ZA=(VWA+7869.6)/95.72 C CALCULATE ACCUMULATOR GAS PRESSURE PA=PAZ*(VNAZ/VNA)**GAM CALCULATE SJ54 LOSS FACTOR VOTl=lO.

GVKZ=.15 IF(TIME .LT. VOTl) THEN VOF=TIME/VOTl CALL INTER(VOF,CVND,12,VVOF,CVCV)

GVK=GVKZ/(CVND*CVND)

ELSE GVK=GVKZ END IF C CALCULATE CHECK VALVE DP VEL=Q/AREA AV2=38.3/(VEL*VEL)

SINPHI=0.5*(SQRT(AV2**2+4.)-AV2)

IF (SINPHI .GE. 0.9532) SINPHI=0.9532 DPCHK=2.*8.98*RHO*VEL*VEL*(l.-SINPHI)

C CALCULATE DERIVATIVES DQDT=(PA+RHO*G*ZA-PCAV-RHO*G*ZCAV-35.75*Q*ABS(Q)

  1. -0.5*GVK*l.94*Q*ABS(Q)/AREA**2 - DPCHK)/428.7 DVNADT=Q C CALCULATE VALUES AT NEW TIME STEP QQ=Q+DQDT*DT VVNA=VNA+DVNADT*DT IF (TIME .LE. 2.) THEN IF(MOD(NSTEP,10) .EQ. O)WRITE(*,102) TIME,+(PA/144.-14.7),
  1. Q*7.48*60.

ELSE IF{MOD({NSTEP+l0),100) .EQ. O)WRITE(*,102) TIME,+(PA/144.-14.7),

  1. Q*7.48*60.
  • .._. END IF 02 FORMAT(F23.3,BF17.2)

UPDATE THE OLD VARIABLES Q=QQ VNA==VVNA

IF(TIME .GT. 100.) STOP GO TO 31 END

  • _ SUBROUTINE INTER(X,Y,N,XX,YY)

DIMENSION XX(N),YY(N)

...._. IF(X .LT. XX(l) .OR. X .GT. XX(N)) GO TO 3 DO 2 J=2,N IF(X .GE. XX(J-1) .AND. X .LE. XX(J)) GO TO 101 GO TO 2 101 Y=YY(J-l)+(YY(J)-YY(J-l})*(X-XX(J-1))/

1 (XX(J)-XX(J-1))

RETURN 2 CONTINUE J WRITE(6,1) X,(XX(I),I=l,N) 1 FORMAT(' BEYOND RANGE',Gl0.4,5X,20Gl0.4}

RETURN END C:\SALEM\REACTOR\ECCS>

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  • OE-AP.ZZ-0002(0) ATTACHMENT 2

TA-BL£ '-t I A(' (' u n1 VL" ToR. pR£ s s uRf ANO DI s cHftf{ 6 E FLoLu RAif 1/nlt HISToRl£S (Cli/;ZI<. WlLVG 15 F(U.t:) ~'

TIME ACCUMULATOR PRESSURE FLOW RATE Oft.\\

(SEC.) (PSIG) (GPM)

.45 S 5 J- ('() DC-t 30J4

.110 70.00

.210 69.99 300.49

.310 69.97 440.81

.410 69.94 578.47

.510 69.90 713.81

.610 69.85 902.74

.710 69.80 1115.94

.810 69.73 1330.04

.910 69.64 1541. 08 1.010 69.55 1747.67 1.110 69.44 1930.52 1.210 69.33 2087.50 1.310 69.20 2229.64 1.410 69.07 2362.35 1.510 68.93 2488.29 1.610 68.79 2608.84

1. 710 68.64 2724.74 1.810 68.48 2836.38 1.910 68.32 2943.97 2.010 68.15 3047.65 3.010 66.23 3875.55 4.010 64.04 4401. 87 5.010 61. 75 4713.27 CnECK '\11\L\J[

6.010 59.48 4839.18 I~ FREE 7.010 57.29 4872.79 8.010 55.21 4849.09 9.010 53.26 4779.05 R1::.At:TD'R Hcit1) 10.010 51.43 4688.39 IS ON

11. 010 49.72 4574.63 12.010 48 .13 4454.73 13.010 46.65 4338.16 14.010 45.26 4225.73 15.010 43.97 4117.26 16.010 42.75 4012.45 17.010 41. 60 3911. 02 18.010 40.53 3812.72 19.010 39.51 3717.33 20.010 38.55 3624.65 21.010 37.65 3534.47 22.010 36.79 3436.45 23.010 35.98 3330.96 24.010 35.22 3225.19 25.010 34.50 3121.06 26.010 33.82 3019.06 27.011 33.18 2919.24 28.011 32.58 2821. 52 29.011 32.01 2725.84 30.011 31. 47 2632.09
31. 011 30.95 2540.20 32.011 30.47 2450.10 33.010 30.0l 2361.72 34.010 29.58 2275.02 35.010 29.17 2189.97 36.010 28.78 2106.55 37.010 28.41 2024.74 38.010 28.06 1944.57 39.009 27.73 1866.05 40.009 27.'12 1789.22
41. 009 27.12 1714.15 42.009 26. 84 1640.91 43.009 26.58 1569.61

TABL£ 4*2 llCtVMULllT~ PRESSURE AtJP 'DISCH/tf.C,t; FLOW RA'Tf: 31.

-qr<\£ HIS WX'\ £5 lfYlA.X* SWlt\ll] AIJ(jLE: 60 Dc-tS.) oF 4\

TIME ' ACCUMULATOR PRESSURE FLOW RATE (SEC.) {PSIG) (GPM) 5 SJ- f'flf)C- 1:,°,)4

........... .110 70.00 .45

.210 69.99 300.49

.310 69.97 440.81

.410 69.94 578.47

.510 69.90 713.81

.610 69.85 902.74

.710 69.80 1115.94

.810 69.73 1330.04

.910 69.64 1541. 08 1.010 69.55 1747.67 1.110 69.44 1930.52 1.210 69.33 2087.17 l.310 69.20 2224.09 1.410 69.07 2347.27

1. 510 68.94 2460.90
1. 610 68.79 2567.13 1.710 68.64 2667.11 1.810 68.49 2761.49 cfi£Ct"- VAL\J(

1.910 68.33 2850.70 /\1JIJCIMUM SL-VI rJt; 2.010 68.17 2935.03 {;o l>~(1 R££ 3.010 66.36 3561.19 =

4.010 64.37 3937.09 5.010 62.33 4135.53 Rt1'rc T d{ H CIT()

6.010 60.31 4198.94 I s t1 rJ 7.010 58.37 4202.26 8.010 56.53 4169.33 9.010 54.79 4108.03 10.010 53.15 4035.44 11.010 51. 60 3948.75 12.010 50.15 3859.57 13.010 48.79 3773.05 14.010 47.50 3689.36 15.010 46.29 3608.35 16.010 45.14 3529.82 17.010 44.06 3453.60 18.010 43.03 3379.54 19.010 42.05 3307.51 20.010 41.12 3237.37

21. 010 40.24 3169.00 22.010 39.40 3102.31 23.010 38.60 3037.19 24.010 37.84 2973.55 25.010 37.11 2911.31 26.010 36.41 2850.39 27.011 35.74 2790.71 28.011 35.10 2732.22 29.011 34.49 2674.85 30.011 33.91 2618.55 31.011 33.35 2563.25 32.011 32.81 2508.91 33.010 32.29 2455.49 34.010 31. 80 2402.93 35.010 31. 32 2351.20 36.010 30.86 2300.26 37.010 30.42 2250.07 38.010 30.00 2200.59 39.009 29.59 2151.80 40.009 29.20 2103.67
41. 009 28.82 2056.16 42.009 28.46 2005.5!)

43.009 28 .11 1941.39

TABL(: lt*3 AccurouLsrrcR._ PR 1.::s s u Rc: AJJD 015 CJ-f MC,~ FLOhJ IUJTE

\I "1 G'" HISIOR.1£"$ ( fl1Jl~* Sw/rJG ANG£::. 3o DtiCt.). 33 TIME ACCUMULATOR PRESSURE FLOW RATE Of' (SEC.) {PSIG) (GPM) t; I

-* .110

.210

.310

.410 70.00 69.99 69.97 69.94 300.49 440.81 578.47

.45 5 .SJ-Ml)C-r39ft

.510 69.90 713.81

.610 69.85 902.74

.710 69.80 1110.33

~810 69.73 1308.20

.910 69.65 1492.50 1.010 69.56 1661.97 1.110 69.46 1800.72 1.210 69.35 1911..17 1.310 69.24 2005.29 1.410 69.12 2088.58 1.510 69.00 2163.68

1. 610 68.87 2232.04 1.710 68.74 2294.51 1.810 68.61 2351. 71 1.910 68.48 e 2 4 o4 . 11 H£ L' "- vAL. V£ 2.010 68.34 2 4 5 2
  • 11 MAX IP'I uM Sl-'11 Ill (.j 3.010 66.88 2759.92 .R _

4.010 65.35 2902.46 = ~o DE"l*1 ££ 5.010 63.83 2957.44 6.010

7. 010*

62.34 60.90 2959.75 2942.94 Ri ALT~ HE.11-D 8.010 59.53 2914.56 1s 0 tJ 9.010 58.21 2877.51 10.010 56.95 2837.78 11.010 55.74 2793.53 12.010 54.59 2749.34 13.010 53.49 2706.28 14.010 52.43 2664.32 15.010 51.42 2623.40 16.010 50.45 2583.46 17.010 49.52 2544.45 18.010 48.63 2506.33 19.010 47.77 2469.05 20.010 46.95 2432.56 21.010 46.15 2396.84 22.010 45.38 2361.85 23.010 44.65 2327.55 24.010 43.93 2293.91 25.010 43.25 2260.90 26.010 42.58 2228.50 27.011 41. 94 2196.68 28.011 41. 32 2165.41 29.011 40.73 2134.67 30.011 40.15 2104.44 31.011 39.59 2074.71 32.011 39.04 2045.44 33.010 38.52 2016.62 34.010 38.01 1988.24 35.010 37.51 1960.28 36.010 37.03 1932.72 37.010 36.57 1905.55 38.010 36.12 1878.75 39.009 35.68 1852.30 40.009 35.25 1826.21 41.009 34.84 1800.45 42.009 34.44 1775.02 43.009 34.05 1749.89

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ACCUMULATOR PRESSURE (PSIG)

FLOW RATE (GPM)

~I

-- .110

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.310 70.00 69.99 69.97 69.94

.45 302.62 443.73 582.24 C H £L..f< \i 1l L. VE IS F RE£

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.810 69.72 1346.85 OFF-

  • 910. 69.64 1560.72 1.010 69.54 1769.78 1.110 69.44 1952.89 1.210 69.32 2108.73 1.310 69.19 2249.72 1.410 69.06 2381. 56 l.510 68.92 2506.95 1.610 68.78 2627.17
1. 710 I 68.62 2742.87 1.810 68.47 2854.40 1.910 68.30 2961. 92 2.010 68.13 3065.54 3.010 66.20 3889.94 4.010 64.01 4415.41 5.010 61. 72 4727.30 6.010 59.44 4854.45 7.010 57.25 4892.59 8.010 55.16 4874.61 9.010 53.20 4810.78 10.010 51. 36 4727.42 11.010 49.64 4620.66 12.010 48.03 4508.55 13.010 46.54 4400.16 14.010 45 .13 4296.01 15.010 43.82 4195.86 16.010 42.58 4099.41 17.010 41. 42 4006.38 18.010 40.32 3916.53 19.010 39.28 3829.62 20.010 38.30 3745.47 21.010 37.37 3663.87 22.010 36.49 3584.68 23.010 35.65 3506.31 24.010 34.86 3417.82 25.010 34.10 3326.38 26.010 33.39 3235.94 27.011 32.71 3147.41 28.011 32.07 3060.95 29.011 31. 46 2976.50 30.011 30.88 2894.00 31.011 30.33 2813.J3 32.011 29.81 2734.42  ;~~

33.010 29.31 2657.18 34.010 28.83 2581. 54 35.010 28.38 2507.44 36.010 27.94 2434.82 37.010 27.53 2363.62 38.010 27.14 2293.81 39.009 26.76 2225.34 40.009 26.40 2158.18

41. 009 26.06 2092.31 42.009 25.73 2027.71 43.009 25.42 1964.38

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DE-AP .ZZ-0002(0) ATTACHMENT 2

.....111 UNI lHI

SHEET OPS~G REFERENCE 38 OF CALCULATION ORl~~T~TOR :~c~~~~~;~L ---L L ---L ft-(

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  • OE-AP.ZZ-0002(0) ATIACHMENT2 lll-01117 UM HI

FORM NC.DE-AP.ZZ-0010-1 Page 2 of 4

  • - Reference No. ~:i CERTIFICATION FOR DESIGN VERIFICATION SJ - IY1 I)( - I ~ -JL1

SUMMARY

STATEMENT

1) d c ( cvrA (.JlG The undersigned hereby certifies (in the right column) that the design verification for the subject document has been completed, the questions from the generic checklist have been reviewed and addressed as appropriate, and all comments have been adequately incorporated.

JAGK CU~HAM -.--~a~ct/f-'-*_r.+k:~-~-*~_.*~-*~~'~----.--,,~'-0-/z~.l~.1~0_~_1 Design Verifier Assigned By Sig~aturelof Design Verifier I Date (signature of Manager/Supervisor)

/;:QrL ~-v. I

/20./fi'." '~

/ / / t.(?~ z.-E-!'19.EJ Desigrl' Verifier Assigned By Sigvature Design Verifier Date (signature of Manager/Supervisor)

Design Verifier Assigned By Sigvature of Design Verifier / Date (signature of Manager/Supervisor)

Design Verifier Assigned By Sigvature of Design Verifier / Date

{signature of Manager/Supervisor)

  • If the Functional Manager/Supervisor acts as the Design Verifier, the signature of the next higher level of technical management is required.

Page of

'llev. 2 Page 13 of 17 Jtuclear Common

FORM NC.DE-AP.ZZ-0010-1 Page 3 of 4

    • CERTIFICATION FOR DESIGN VERIFICATION Page __ of __

Rev. 2 Page 14 of 17 :VUclear Cammon

FORM NC.DE-AP.ZZ-0010-1 Page 4 of 4 CERTIFICATION FOR DESIGN VERIFICATION REFERENCE DOCUMENT NO. /REV. ~

  • SJ - M DC- 13 CJ 't COMMENTS RESOLUTION 0 t:

0 ({..

JIT 6J

  • ~ t.>> Ill Al)I:) 70 S ff 1 '

Die.

l~(t.z./q y Acceptance SUBMITTED BY oJ(TE of Resolution Jl.ev. 2 Page 15 of 17 Nuclear Common

SALEMJOPERATIONS Page_l of_l S2.0P-ST.SJ-0006(Q) - REV. 4

'~- .!

'b. ___, ---- ,-

INSERVICE TESTING SAFETY INJECTION VALVES MODE6 USE CATEGORY : I REVISION SUMl\llARY

+ Incorporated "MODE 6" in procedure title to accurately reflect perfonnance requirement.

t Procedure revised throughout to reflect performance requirements of "Unit is in Mode 6 with the Reactor Vessel He.ad REMOVED, OR is DEFUELED with the Reactor Vessel Head REMOVED and the Upper Internals installed" versus "Mode 5, 6 or DEFUELED with the upper internals installed". This change provides additional clarification, and is in response to AR 960206344.

+ Revised Purpose 1.1 to indicate the respective Safety Injection (Accumulator) Check Valves being tested and "This requirement is applicable in Modes I and 2, and Mode 3 with Pressurizer Pressure above 1000 psig".

+ Incorporated Purpose 1.2 to indicate "To partially satisfy the requirements of Technical Specification 4.4.7.2.2 for the RCS Pressure Isolation Valves identified in I.I.

This requirement is applicable in Modes 1-4".

+ Incorporated Purpose 1.3 to delineate performance requirements.

t Incorporated Prerequisite Step 2.1 to ensure applicable Work Order number(s) and Reason for Test are recorded on Attachment 1.

+ Step 5.3.2 and Attachment 3 revised to incorporate IST Program Manager review following procedure completion.

+ Revised Reference Section 7.0 to reflect appropriate required references.

+ Revised Reference 7.5.10 to reflect Rev. 1 of Calculation No. S-2-SJ-MDC-1394.

+ Revised procedure to reflect current procedure fonnat requirements (no revision bars used).

IMPLEl\.llENTATION REQUIREMENTS t None APPROVED:

~Manager - Salem Operations

s2.or-ST .sJ-0006(Q)

\.

INSERVICE TESTING SAFETY INJECTION VALVES MODE6 TABLE OF CONTENTS SECTION TITLE PAGE 1.0 PURPOSE . . . . . . . . . .. . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . 2 2.0 PREREQUISITES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 3.0 PRECAUTIONS AND LIMITATIO NS . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 4.0 EQUIPMENT/MATERIAL REQUIRED . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 5.0 PROCEDURE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 5.1 Forward Flow IST of Accumulator Check Valves ............... 4 5.2 Acceptance Criteria . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 5.3 Completion and Review . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

  • 6.0 RECORDS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

7.0 REFERENCES

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 ATIACHMENTS Attachment 1 Instrumentation and Test Equipment Data . . . . . . . . . . . . . . . . . . . . 11 Attachment 2 Check Valve Data and Independent Verification . . . . . . . . . . . . . . . . . 12 Attachment 3 Completion Sign-Off Sheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Salem 2 Page 1 of 14 Rev. 4

s2.oP-S T.sJ-0006(Q) l 1.0 PURPOSE 1.1 Provides instructions necessary to perfonn Inseivice Inspection and Testing C0265 JAW Technical Specification 4.0.5 for the following Safety Injection (Accumulator)

Check Valves:

+ 21SJ55 and 21SJ56 (21 Accumulator Discharge to Cold Legs)

+ 22SJ55 and 22SJ56 (22 Accumulator Discharge to Cold Legs)

+ 23SJ55 and 23SJ56 (23 Accumulator Discharge to Cold Legs)

+ 24SJ55 and 24SJ56 (24 Accumulator Discharge to Cold Legs)

This requirement is applicable in Modes 1 and 2, and Mode 3 with Pressurizer Pressure above 1000 psig.

1.2 To partially satisfy the requirements of Technical Specification 4.4. 7.2.2 for the RCS Pressure Isolation Valves identified in 1.1. This requirement is applicable in Modes 1-4.

1.3 Perfonnance of this procedure is required once per Refueling Outage, or as otherwise .

specified in the post-maintenance operational retest requirements.

2.0 PREREQUISITES 2.1 Applicable Work Order number(s) and Reason for Test are recorded on Attachment I,

  • C0289 2.2 2.3 Section 1.0.

Calibration data for the Instruments and Test Equipment listed in Attachment 1, Section 2.0 is obtained.

Unit is in Mode 6 with the Reactor Vessel Head RE.M:OVED, OR is DEFUELED with the Reactor Vessel Head REMOVED and the Upper Internals installed.

2.4 Safety Injection Accumulators are pressurized between 67 and 70 psig.

2.5 Safety Injection Accumulator levels arc between 96 and 100 %*

2.6 Two Control Room Operators are available to support testing.

2.7 Refueling transfer tube gate valve is closed.

2.8 Refueling Cavity level is 125.5 - 126.5 ft.

2.9 An Infrequently Performed Test or Evolution briefing session is completed by the Manager - Salem Operations, or designee, IAW NC.NA-AP.ZZ-0005(Q),

Station Operating Practices .

  • Salem2 Page 2 of 14 Rev. 4

s2.oP-ST .sJ-0006CQ>

  • 3.0 PRECAUTIONS AND LIMITATIONS 3.1 Procedure Use and adherence policy as found in NC.NA-AP.ZZ-OOOl(Q),

Nuclear Procedure System. is applicable to this procedure.

3.2 Steps identified with a dollar sign($) are those items required to meet Technical Specification acceptance criteria. Such steps, if not satisfactorily completed, may have reportability requirements and should be brought to the immediate attention of the SNSS/NSS.

3.3 Failure of a single SJ54 valve to close can lead to the following:

C0329

+ Introducing N 2 into the RCS which may lead to gas binding of RHR System.

t Loss of RHR cooling [entry condition to S2.0P-AB.RHR-0001(Q),

Loss of RHR].

t A 1h foot Refueling Cavity level increase.

3.4 Coordinate Refueling Cavity level changes with Radiation Protection.

4.0 EQUIPMENT/MATERIAL REQUIRED 4.1 M&TE:

+ Calibrated Stopwatch(es)

Page 3 of 14 Rev. 4

s2.oP-ST .sJ-0006CQ>

5.0 PROCEDURE 5.1 Forward Flow IST of Accumulator Check Valves 5.1.1 IF testing 21 Accumulator (21SJ55 and 21SJ56) check valves, THEN:

A. At Panel 2RP4, ENSURE 21SJ54 in the VALVE OPERABLE position.

B. SIMULTANEOUSLY PERFORM the following:

~ OPEN 21SJ54, 21 ACCUMULATOR OUT

+ START the Stopwatch C. When 35 psig is observed, SIMULTANEOUSLY PERFORM the following:

~ STOP the Stopwatch

+ CLOSE 21SJ54 D. RECORD the following in Attachment 2, Section 1.0:

+ Stopwatch Reading and Number

+ 2ISJ55 and 21SJ56 OPEN "Test Results" by initialing the SAT or UNSAT column using the Acceptance Criteria in Attachment 2.

E. DIRECT a second Operator to complete Attachment 2, Section 2.0, for 21SJ54 valve position .

  • sa1em2 Page 4 of 14 Rev. 4

s2.oP-ST .sJ-0006

B. SIMULTANEOUSLY PERFORM the following:

t OPEN 22SJ54, 22 ACCUMULATOR OUT t START the Stopwatch C. When 35 psig is observed, SIMULTANEOUSLY PERFORM the following:

+ STOP the Stopwatch t CLOSE 22SJ54 D. RECORD the following in Attachment 2, Section 1.0:

  • Stopwatch Reading and Number 22SJ55 and 22SJ56 OPEN "Test Results" by initialing the SAT or UNSAT column using the Acceptance Criteria in Attachment 2.

E. DIRECT a second Operator to complete Attachment 2, Section 2.0, for 22SJ54 valve position.

Salem 2 Page 5 of 14 Rev. 4

s2.oP-ST.sJ-0006CQ>

_;. \

5.1.3 IF testing 23 Accumulator (23SJ55 and 23SJ56) check valves~

THEN:

A. At Panel 2RP4, ENSURE 23SJ54 in the VALVE OPERABLE position.

B. SIMULTANEOUSLY PERFORM the following:

+ OPEN 23SJ54, 23 ACCUMULATOR OUT

+ START the Stopwatch C. When 35 psig is observed, SIMULTANEOUSLY PERFORM the following:

+ STOP the Stopwatch

+ CLOSE 23SJ54 D. RECORD the following in Attachment 2, Section 1.0:

+ Stopwatch Reading and Number

+ Z3SJ55 and 23SJ56 OPEN "Test Results'! by initialing the SAT or UNSA T column using the Acceptance Criteria in Attachment 2.

E. DIRECT a second Operator to complete Attachment 2, Section 2.0, for 23SJ54 valve position.

Salem 2 Page 6 of 14 Rev. 4

I. '

s2 .OP-ST .s1-0006(Q) 5.1.4 IF testing 24 Accumulator (24SJ55 and 24SJ56) check valves, THEN:

A. At Panel 2RP4, ENSURE 24SJ54 in the VALVE OPERABLE position.

B. SIMULTANEOUSLY PERFORM the following:

  • START the Stopwatch C. When 35 psig is observed, SIMULTANEOUSLY PERFORM the following:
  • STOP the Stopwatch
  • CLOSE 24SJ54 D. RECORD the following in Attachment 2, Section 1.0:
  • Stopwatch Reading and Number 24SJ55 and 24SJ56 OPEN "Test Results" by initialing the SAT or UNSAT column using the Acceptance Criteria in Attachment 2.

E. DIRECT a second Operator to complete Attachment 2, Section 2.0, for 24SJ54 valve position.

Salem 2 Page 7 of 14 Rev. 4

s2.oP-ST .sJ-0006CQ>

5.2 Accq>tance Criteria 5.2.1 This surveillance procedure is satisfactory when Attachment 2 has been completed with valve(s) listed meeting the Acceptance Criteria stated in the Attachment.

5.2.2 This surveillance is unsatisfactory:

A. INITIATE Action Request(s) to correct the unsatisfactory condition(s).

B. RECORD Action Request number(s) AND reason for unsatisfactory completion on Attachment 3 in the Comments Section.

5.3 Completion and Review 5.3.1 COMPLETE Attachment 3, Sections 1.0 and 2.0, and FORWARD this procedure to SNSS/NSS for review and approval.

5.3.2 SNSS/NSS PERFORM the following:

A. REVIEW this procedure with Attachments 1 through 3 for completeness and accuracy.

B. IF ANY Check Valve Surveillance is UNSAT, THEN:.

I

1. DECLARE Check Valve INOPERABLE.
2. EVALUATE Technical Specification requirements for system operability.

C~ COMPLETE Attachment 3, Section 3.0.

D. PLACE this procedure in the IST PROGRAM MANAGER REVIEW REQUIRED mail slot.

END OF PROCEDURE SECTION Salem 2 Page 8 of 14 Rev.4

) '

s2. OP-ST .sJ-0006(Q) 6.0 RECORDS 6.1 Retain the following IAW NC.NA-AP.ZZ-0003(Q), Document Management Program:

+ Attachment 1

+ Attachment 2

+ Attachment 3

7.0 REFERENCES

7.1 Updated Final Safety Analysis Report:

7.1.1 Section 6.3, Emergency Core Cooling 7.2 Technical Specifications - Unit 2:

7.2.1 3.5.1, Emergency Core Cooling Systems (ECCS) Accumulators

7. 3 Procedures:

7.3.l NC.NA-AP.ZZ-0012(Q), Technical Specification Surveillance Program 7.3.2 NC.NA-AP.ZZ-0022(Q), Measurement & Test Equipment, Lifting & Rigging and Tool Control 7.3.3 NC.NA-AP.ZZ-0050(Q), Station Testing Program 7.3.4 NC.NA-AP.ZZ-0070(Q), Inservice Testing and MOV Testing Programs 7 .4 Drawings:

7 .4.1 205334, Unit 2 Safety Injection 7.5 C>thers:

7.S.1 Section XI of ASME Boiler and Pressure Vessel Code (1983 Edition with Addenda through Summer 1983) 7.5.2 OMa-10, Inservice Testing of Valves in Light-Water Reactor Power Plants (1987 Edition with 1988 Addenda) 7.5.3 Salem Generating Station IST Manual 7.5.4 NUREG-1482, Guidelines for Inservice Testing at Nuclear Power Plants 7.5.5 SJ MECH 001, Safety Injection Valve Alignment Salem 2 Page 9 of 14 Rev. 4

s2.oP-ST .sJ-0006(Q)

\ '

7 .5 Others: (continued) 7 .5.6 NRC Information Notice 89-67, Loss of RHR caused by Accumulator Nitrogen Injection 7.5.7 NSO LER 272/89-019-00 7 .5. 8 Memo 92-027, dated 02/07 /92 7.5.9 Memo 92-189, dated 11/18/92 7.5.10 Calculation S-2-SJ-MDC-1394, Rev. 1 7.5.11 Memo SCl-94-0884 dated 12/21/94 7 .5.12 Westinghouse Letter NTD-NSRLA-OPL-94-441 7 .6 Cross-

References:

7 .6.1 Procedures:

A. NC.NA-AP.ZZ-OOOl(Q), Nuclear Procedure System B. NC.NA-AP.ZZ-0003(Q), Document Management Program C. NC.NA-AP.ZZ-0005(Q), Station Operating Practices D. S2.0P-AB.RHR-0001(Q), Loss of RHR 7 .6.2 Technical Specifications - Unit 2:

A. 4.0.5, Inservice Inspection and Testing B. 4.4. 7 .2.2, Reactor Coolant System Operational Leakage

7. 7 Commitments:

7.7.1 C0265 - NSO LER 311/89-015-00 7.7.2 C0283 - NRC VIOL 311187-18-01 7.7.3 C0289 - INSTRUMENT CALIBRATION REQUIREMENTS

7. 7 .4 C0329 - NRC PLAN NLR-189215-01 Salem 2 Page 10 of 14 Rev. 4

s2.oP-ST .sI-0006CQ>

ATTACHMENT 1 (Page 1of1)

INSTRUMENTATION AND TEST EQUIPMENT DATA 1.0 WORK ORDER DATA Work Order Number(s): Reason for Test Scheduled Surveillance Post-Maintenance Operability Other (Explain in Comments) 2.0 INSTRUMENT/TEST EQUIPMENT Instrument/Test Calibration Description Initials Equipment Overdue Date

"'2PI'936A 21 Ace Pressure Channel A

"'2PT937A 21 Ace Pressure Channel B

\

... 2PT937B 22 Ace Pressure Channel A

  • 2PT936B 22 Ace Pressure Channel B
  • 2PT936C 23 Ace Pressure Channel C
  • 2Pf937C 23 Ace Pressure Channel D
  • 2Pf937D 24 Ace Pressure Channel C

"'2Pf936D 24 Ace Pressure Channel D Serial

  1. Calibrated Stopwatch Serial
  1. Calibrated Stopwatch

Salem 2 Page 11 of 14 Rev. 4

s2.oP-ST .s1-0006(Q)

ATTACHMENT 2 (Page 1 of 1)

CHECK VALVE DATA AND INDEPENDENT VERIFICATION 1.0 CHECK VALVE DATA Stopwatch Test Results Component Stopwatch Reading Date Stroke Description #

(seconds) SAT UNSAT 21SJ55 and 21SJ56 21 Accumulator 0 Check Valves 22SJS5 and 22SJS6 22 Accumulator 0 Check Valves 23SJSS and 23SJS6 23 Accumulator 0 Check Valves 24SJSS and 24SJ56 24 Accumulator 0 Check Valves ACCEPTANCE CRITERIA: Accumulator blowdown time is ~ 27 .5 seconds.

2.0 INDEPENDENT VERIFICATION Normal Component Description IV Date Position 21SJ54 21 Accumulator Out x 228.154 22 Accumulator Out x 23SJ54 23 Accumulator Out x 248.154 -. 24 Accumulator Out x Salem 2 Page 12 of 14 Rev. 4

s2.oP-ST.sJ-0006(Q)

. 1 ,

ATTACHMENT 3 (Page 1of2)

COMPLETION SIGN-OFF SHEET

1.0 COMMENTS

(Include test deficiencies and corrective actions.)

Salem 2 Page 13 of 14 Rev. 4

s2.oP-ST.sJ-0006(Q)

) j ATTACHMENT 3 (Page 2 of 2)

COMPLETION SIGN-OFF SHEET

2.0 SIGNATURES

Print Initials Signature Date INDEPENDENT VERIFICATION:

3.0 SNSS/NSS FINAL REVIEW AND APPROVAL:

C0283 This procedure with Attachments 1-3 has been reviewed for completeness and accuracy.

All deficiencies, including corrective actions, have been clearly recorded in the COMMENTS Section of this attachment. Technical Specification compliance, procedure compliance, and Acceptance Criteria have been evaluated.

Signature: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __ Date:

(Senior) Nuclear Shift Supervisor ------

4.0 IST PROGRAM MANAGER REVIEW:

Test Results have been reviewed for acceptability. Forward completed procedure to Operations Staff.

Signatu.re: _ _ _ _ _-=-==-=--==-------:-:---------- Date:- - - - -

IST Program Manager Salem 2 Page 14 of 14 Rev. 4

FORM NC.NA-AP.ZZ-0001-7 Page 1of1

} )

PROCEDURE TRANSMITTAL FORM PROCEDURE NO: S2.0P-ST.SJ-0002(Q) REV:_5_

TO: TDR/DDG Supervisor FROM: Procedure Maintenance Group DATE: _ __

PLEASE DISTRIBUTE CONTROLLED COPIES OF THE ATTACHED PROCEDURE IN ACCORDANCE WITH THE CONTROLLED DISTRIBUTION LIST.

REFERENCES (Use additional sheet if necessary)

The following references and cross-references have been deleted from this procedure:

References:

NC.NA-AP.ZZ-0027(Q), Inservice Inspection Program Cross-

References:

NC.NA-AP.ZZ-OOll(Q), Records Management Program The following references and cross-references have been added to this procedure:

References:

UFSAR Section 9.2.1, Service Water System and P&ID 205342, No. 2 Unit Service Water Nuclear Area rum OMa-10, Inservice Testing of Valves in Light-Water Reactor Power Plants (1987 Edition with 1988 Addenda) and C0297 - NRC GL 89-13, Service Water System Problems Affecting Safety Related Equipment Cross-

References:

NC.NA-AP.ZZ-OOOl(Q), Nuclear Procedure System and NC.NA-AP.ZZ-0003(Q),

Document Management Program !!!ill S2.RA-ST.SJ-0002(Q), Inservice Testing - 22 Safety Injection Pump Acceptance Criteria The following references and cross-references have been revised in this procedure:

References:

NC.NA-AP.ZZ-0022(Q), Measurement & Test Equipment, Lifting & Rigging and Tool Control and NC.NA-AP.ZZ-0070(Q), Inservice Testing and MOV Testing Programs Cross-

References:

None

FORM NC.NA-AP.ZZ-0001-4 Page 1 of l

} j l

PROCEDURE SIGNOFF SHEET Page _1 of _L PROCEDURE NO: S2.0P-ST.SJ-0002(Q) REV:~

PROCEDURE TITLE: INSERVICE TESTING - 22 SAFETY INJECTION PUMP Refer to Attachment 6, Procedure Review Matrix for required reviews. N/A if not applicable.

A. Biennial Review Performed by this Revision: No B. Writer Review Randall AA~'*.c> Date :<\\s.\qJ,.

c. Department Review Date:#'~

D. QA Review ~N..,,,l......A~----------------- Date: ---

E. ALARA Review NIA Date: ---

F.

G.

Technical Review SQRReview ~;di- :f (ii..,sk;ll Cross-Disciplinary Review Performed

/Gijt;v YES'~ Not Applicable: D Date:

Date: iJiif;i Discipline: IST Program Manager Reviewer: # ~ Date: __'4-=-f-."/1oc..::c"-J./'i_._h"---

SORC Review SALEM: HOPE CREEK: NONE:X SALEM SORC HOPE CREBX SORC Recommend a~proval with no Recommend a~proval with no further action. further action.

Recommend approval after actions [=::::J Recommend approval after listed below are completed. actions listed below are completed.

SORC Chairman: SORC Chairman:

Date: - - - - - M t g . No. Date: - - - - - Mtg. No.

D Procedure/revision and 10CFR50.59 Safety Evaluation transmitted to QA/NSR. T/S 6.5.2.4.2 D Procedure/revision and 10CFRS0.59 Safety Evaluation transmitted to QA/NSR.

T/S 6.5.2.4.2 SPONSOR - - - - - - - - DATE _ _ __ SPONSOR - - - - - - DATE - - -

SPONSOR APPROVAL (for NAPs only): ~N~/~A=----------- DATE: __,,N_,_,/.._,A,____ _

FORM NC.NA-AP.ZZ-0059-1

.. J- J 10CFRS0.59 APPLICABILITY REVIEW FOR PROCEDURE REVISIONS Page _1_ of _2_

I.D. Number (Procedure Number):.=S=2.'""0°"'P--S"'-T"""'.""'S"'-J-~0=002=>-C0x.)..___ _ _ _ _ _ _ Revision: 2...

Title:

INSERVICE TESTING - 22 SAFETY INJECTION PUMP Applicability:

Salem 1 Salem 3 (Gas Turbine)

Salem 2 Hope Creek Common to Salem 1 & 2 Common to Hope Creek & Salem 1.0 Applicable SAR sections, Technical Specifications, and other documents reviewed:

  • +

+

+

+

+

UFSAR Section 9. 2.1, Service Water System P&ID 205342, No. 2 Unit Service Water Nuclear Area OMa-10, Inservice Testing of Valves in Light-Water Reactor Power Plants (1987 Edition with 1988 Addenda)

NUREG-1482, Guidelines for Inservice Testing at Nuclear Power Plants C0297 - NRC GL 89-13, Service Water System Problems Affecting Safety Related Equipment

  • U FSA~ ~t>~ '3.. q . It lf1 1./1.f'IC.

.. ~ ~s. 'g A\.\)O C\ J(J'°llJ/ltl.

+ s~ 1 ~"'--1....1,H\"\\w.:i ~PoDi (4515'l....:h s\?.o:-.:~ s.~ ~ '--3 "' '/vif' t SEL !iUP'oUi.r'r'cf\TS '3. ~=°'\"'- S ..> $i001~ S* 3 N (/"(<if.

  • SC.llL :Sr..IPpu.me!>l'lt"'.:S I 4'-h1'1)11'i... S  :> SE,aH~ E.. 3 Jt;1 'IUf/tJ.

2.0 The proposed procedure revision does not change the facility as described in the SAR, because (check those that are true):

,/ a. The change does not result in an unauthorized alteration to plant systems, structures or components.

L b. The change does not deviate from Technical Specification Acceptance Criteria nor requires a change to the Technical Specifications.

,/ c. The change will not result in equipment or systems being operated in configurations different than those described in the SAR or not permitted by Technical Specifications. *

. FORM NC.NA-AP.ZZ-0059-1 i_ 10CFR50.59 APPLICABILITY REVIEW FOR PROCEDURE REVISIONS Page _2_ of _2_

l.D. Number (Procedure Number):=S2=.'-"0""'P--'-=S-=-T""".S=J--'-000"-"-"=2-'-'(Q,._),___ _ _ _ _ _ _ _ Revision: 2..

3.0 The proposed procedure revision does not change the procedures as described in the SAR, because (check those that are true):

L a. The change does not conflict with procedural steps or a system or component's operation as described in the SAR or cause any information in the SAR to be incorrect.

b. The change does not alter or delete the descriptions of the applicable procedure topics in UFSAR Section 13 .

.L c. The change does not delete a procedure either listed or described in the SAR.

4.0 The proposed procedure revision does not constitute a "test or experiment not described in the SAR, " because (check those that are true):

L a. The procedure, as changed, does not conflict with the descriptions of tests (such as surveillance tests) described in the UFSAR or Technical Specifications .

  • b. The procedure, as changed, does not implement an experiment as defined in NAP-8.

5.0 Completion and Approval Based upon ALL of the above screening criteria being checked true, 10CFR50.59 does not apply to the procedure change.

Preparer:

Peer Reviewer:

  • Approval: