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* e *, ... . VIRGINIA ELECTRIC AND POWER COMPANY RICHMOND, VIRGINIA 23261 October 19, 1993 United States Nuclear Regulatory Commission Attention:

Document Control Desk Washington, D. C. 20555 Gentlemen:

VIRGINIA ELECTRIC AND POWER COMPANY SURRY POWER STATION UNITS 1 AND 2 THIRD TEN YEAR INSERVICE TESTING PROGRAM Serial No. SPS/ETS Docket Nos. License Nos. 93-658 R 50-280 50-281 DPR-32 DPR-37 In accordance with 1 O CFR 50.55a(f), Virginia Electric and Power Company submits the third ten-year interval.

inservice testing program for Surry Units 1 and 2. Surry Power Station Units 1 and 2 lnservice Testing (1ST) Program Plans for Pumps and Valves have been revised to comply with the requirements of the 1989 Edition of the Code for the third interval.

The third interval begins on May 10, 1994 for both units. The programs are included as Attachments 1 and 2 to this letter. Included with the programs is a description of the changes between the second and third interval programs for Surry Power Station Units 1 and 2. There are three pump relief requests (P-1, 11, and 21 ), and three valve relief requests (V-26, 47, and 51) that require approval prior to use for Unit 1. Similarly, there are two pump relief requests (P-1 and 18), and three valve relief requests (V-26, 47, and 51), which require approval prior to use for Unit 2. Accordingly, we request your review of these relief requests prior to the start of the third interval.

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If you have questions regarding this information, please contact us. Very truly yours, LJ~-j\ W. L. Stewart ' Senior Vice President  

-Nuclear Attachments

: 1. Unit 1 lnservice Testing Program Plan 2. Unit 2 lnservice Testing Program Plan cc: w/out attachments U. S. Nuclear Regulatory Commission Region II 101 Marietta Street, N. W. Suite 2900 Atlanta, Georgia 30323 Mr. M. W. Branch NRC Senior Resident Inspector Surry Power Station /

;_ /* '.-i ' I -*' .... -~ ' ..... VIRGINIA ELECTRIC AND POWER COMPANY SURRY POWER STATION UNIT 2 INSERVICE TESTING PROGRAM PLAN FOR PUMPS AND VALVES THIRD INSPECTION INTERVAL MAY 10, 1994 -MAY 10, 2004 REVISION 0 --... ,-.::...........

__ . ------.,._ ___ -__ . _ _._ __ -__ ___,_..__ . --_-' ** ___ _ -NOTICE-THE ATTACHED FILES ARE OFFICIAL RECORDS OF THE INFORMATION  

& REPORTS MANAGEMENT BRANCH. THEY HAVE BEEN CHARGED TO YOU FOR A LIMITED TIME PERIOD AND MUST BE RETURNED TO THE CORDS & ARCHIVES SERVICES TION P1-22 WHITE FLINT. PLEASE DO NOT SEND DOCUMENTS CHARGED OUT THROUGH THE MAIL. REMOVAL OF ANY PAGE($) FROM DOCUMENT FOR REPRODUCTION MUST BE FERRED TO FILE PERSONNEL. -NOTICE-/ l) /; -r-/cr 3#1JIPZ5e>211  

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* '*1*' .* ' . . .* ATTACHMENT 2  

OF CHANGES TO THE SURRY UNIT 2 THIRD INTERVAL 1ST PROGRAM REVISION 0   

* *

* ATTACHMENT 2  

OF CHANGES TO THE SURRY UNIT 2 IST PROGRAM The following summary describes the changes from Revision 3 of the Surry Power Station Unit 2 Inservice Testing (IST) Program for the second IST interval to Revision O for the third IST interval.

In addition to describing the changes to the program, the summary gives the approval mechanism for each relief request given in Sections 3.6 and 4.6. Revision 3 for the second IST interval was submitted on July 24, 1992 (Serial No. 92-286). The NRC issued a Safety Evaluation Report (SER) for Revision 3, by letter dated March 22, 1993. Changes to Revision 3 were issued to the NRC by letters dated October 8, 1992 (Serial No. 92-610) and May 6, 1993 (Serial No. 93-046). The summary given below presents all changes to the IST Program from Revision 3 dated July 24, 1993, and identifies the corresponding letter if the change had been subsequently submitted.

Changes to the IST Program Plans are highlighted by a revision bar in the right margin. INSERVICE TESTING PROGRAM FOR PUMPS AND VALVES  

==1.0 INTRODUCTION==

The introduction was expanded to describe the transition from the second to the third IST interval, and the approval by the NRC of the 1989 Edition of Section XI * . ** 2~0. PROGRAM DESCR:.CPTi.ui*r''.,.**c 0* ,,, **** Reference to Section XI, the 1980 Edition through the Winter 1980 Addendum was replaced by reference to addenda through the 1988 Addenda and editions through the 1989 Edition. 3.0 PUMP INSERVICE TEST PROGRAM DESCRIPTION 3.1 PROGRAM DEVELOPMENT PHILOSOPHY References to Section XI, the 1980 Edition through the Winter 1980 Addendum were replaced by references to addenda through the 1988 Addenda and editions through the 1989 Edition and ASME/ANSI Edition OM-87, Part 6, Addenda OMa-1988.

3.2 PROGRAM IMPLEMENTATION Verb tense changed from future tense to present tense

* 2

* 3.3 ATTACHMENT 2 .  

OF CHANGES TO THE SURRY UHI'l' 2 IST PROGRAM PROGRAM ADMINISTRATION Reference to updating the IST Program a least once every 40 months was deleted. program periodically is addressed in an administrative procedure.

minimum of at Updating the internal 3.5 PUMP INSERVICE TEST TABLES Unit 2 PUMP NUMBER 2-RS-P-2A 2-RS-P-2B 2-RS-P-lA 2-RS-P-lB OM Part 6 does not require the measurement of bearing temperature.

Therefore, references to bearing temperature were deleted. COMMENT/PROGRAM CHANGE Withdrew Relief Request P-4. Refer to the discussion in Section 3.6. Withdrew Relief Requests P-5 and P15. Refer to the discussion in Section 3.6. 2-RH-P-lA Program Change: Measurements of inlet and 2-RH-P-lB discharge pressures were deleted. Differential pressure is measured directly.

1-EE-P-lC Program change: Diesel fuel oil transfer pump 1-EE-P-lC was moved from the Unit 2 IST Program to the Unit 1 IST Program. 3.6 PUMP TEST PROGRAM RELIEF REQUESTS The following summarizes the changes to relief requests since Revision 3. It also contains a description of the approval mechanism for each relief request. That is, the summary indicates whether the approval is: 1) 2) 3) through a position in Generic Letter 89-04, through a previously issued NRC SER or obtained using a relief request that will need 3

* Unit 2 Relief Request P-0 P-1* P-2 to P-3 ATTACHMENT 2

Change This relief request number is no longer active. Reference to using vibration velocity (in/sec) instead of vibration displacement (mils) was deleted because vibration velocity is allowed by OM Part 6. The Revision 3 version of P-1 contained a note describing the use of a minimum value (0.5 in/sec) for vibration reference values. Reference to this minimum reference was retained in the current version. Surry Power Station was given a three year period ending in August, 1993 to use the minimum reference value. Surry Power Station requested by letter dated June 29, 1993 (Serial No. 93-206) that the use of a minimum value be extended for a period of three years. Use of a minimum vibration reference value was recently granted to North Anna Power station in the NRC SER received in September of 1993(TAC NOS. M86645 & M86646). No period restrictions were placed on North Anna. These relief request numbers are no longer active. P-4 Relief request is being withdrawn.

The Revision 3 version of P-4 dealt with the outside recirculation spray pumps and requested relief for: 1) testing every 24 months instead of quarterly testing, 2) waiting two minutes instead of five minutes before measuring test quantities and 3) calculating inlet pressure.

4 __ ....

* P-5 P-6 P-7 . P-8 to P-14 ATTACHMENT 2  

OF CHANGES TO THE SORRY UHJ:T 2 IST PROGRAM For Item 1, the recirculation spray pumps are deep draft pumps that are maintained dry. OM Part 6, Paragraph 5.5 allows a 24 month test frequency for this type of pump. For Item 2, OM Part 6, Paragraph 5.6 only requires a two minute run time before measuring the test quantities.

For Item 3, the NRC concluded in the NRC SER dated March 22, 1993 (TAC Nos. M84333, M84334, M83165, and M83166) for P-4 that calculating the inlet pressure from the surface level is in accordance with the provisions of the Code, and therefore, relief is not required.

Relief request is being withdrawn.

The Revision 3 version of P-5 dealt with the inside recirculation spray pumps and requested relief for: 1) testing every 24 months instead of quarterly testing and 2) measuring inlet and differential pressure

* For Item 1, the recirculation spray pumps are deep draft pumps that are maintained dry. OM Part 6, Paragraph 5.5 allows a 24 month test frequency for this type of pump. For Item 2, the NRC concluded in the NRC SER dated March 22, 1993 (TAC Nos. M84333, M84334, M83165, and M83166) for P-5 that calculating the inlet pressure from the surface level is in accordance with the provisions of the Code, and therefore, relief is not required.

This relief request number is no longer active. The request to stop measuring inlet pressure was deleted for the residual heat removal pumps. OM-6 does not require measuring inlet pressure if differential pressure is measured directly.

The NRC SER dated August 27, 1990 (TAC Nos. 655555 and 65556) granted approval for the extended cold shutdown testing frequency.

These relief request numbers are no longer active

* 5 __ ....

* ATTACHMENT 2  

OF CHANGES TO THE SURRY UlU::T 2 IST PROGRAM Interim Relief request is being withdrawn.

The acceptance criteria were changed to reflect the criteria in OM Part 6, Table 3b. The basis for this relief request was approved by the NRC SER dated March 22, 1993 (TAC Nos. M84333, M84334, M83165, and M83166). Relief request is being withdrawn.

Relief Request P-20 requested relief from measuring the static inlet pressure on a pump that is already in operation.

This relief request is being withdrawn because OM Part 6 does not require measuring static inlet pressure.

Calibrating the inlet pressure instruments for the boric acid transfer pumps to an accuracy within+ 2% has proven difficult and may be impractical in the future with the current instruments.

Calibrating the inlet pressure instruments to an accuracy within+ 3% would be practical.

However, with the current o to 15 psig inlet pressure gauges calibrated to+/- 3%, a differential pressure can be determined that exceeds the accuracy requirements for differential pressure if the discharge pressure gauge is calibrated to an accuracy within+/- 1.75%. Relief for going to the+ 3% is new to this relief request. The remainder of the relief request was approved by the NRC SER dated March 22, 1993 (TAC Nos. M84333, M84334, M83165, and M83166)

* 6

* 3.6 ATTACHMENT 2

OF CHANGES TO THE SURRY OBIT 2 IST PROGRAM ALTERNATIVE TESTING FOR NON-CODE PUMPS This section describes why certain non-Code components that are included in the IST Program are not tested to the provisions of the Code and describes the alternative tests. The non-Code alternative tests are not relief requests and do not require approval by the NRC. Unit 2 Non-Code Alternative Test Change PNC-1 The Revision 3 version of PNC-1 dealt with the diesel fuel oil pumps and described the following deviations from the Code: 1) measuring test quantities when the pump automatically starts on a low tank level signal instead of waiting five minutes, 2) measuring vibration velocity instead of vibration displacement and bearing temperature and 3) measuring inlet and differential pressure.

The waiting period in Item 1 was changed from five minutes to two minutes. The alternative test is still necessary even with the waiting period reduced to two minutes by OM Part 6. Item 2 was deleted because OM Part 6 allows the use of vibration velocity and does not require bearing temperature measurement.

Item J was also deleted because OM Part 6 does not require the measurement of inlet and differential pressure for positive displacement pumps such as the diesel fuel oil transfer pumps. Only discharge pressure need be measured.

Also, pump 1-EE-P-lC was moved from the Unit 2 IST Program to the Unit 1 IST Program and deleted from PNC-1

* 7

** *

* 4.0 ATTACHMENT 2  

OF CHANGES TO THE SURRY UNIT 2 IST PROGRAM VALVE INSERVICE TEST PROGRAM DESCRIPTION 4.1 PROGRAM DEVELOPMENT PHILOSOPHY References to Section XI, the 1980 Edition through the Winter 1980 Addendum were replaced by references to addenda through the 1988 Addenda and editions through the 1989 Edition and ASME/ANS!

Edition OM-87, Part 10, Addenda OMa-1988.

4.2 PROGRAM IMPLEMENTATION Verb tense changed from future tense to present tense. References to Section XI were replaced by references to OM Part lOe 4.3 PROGRAM ADMINISTRATION Reference to updating the IST Program a least once every 40 months was deleted

* program periodically is addressed in an administrative procedure.

4.4 VALVE INSERVICE TEST TABLES minimum of at Updating the internal References to Section Xi were replaced by references to* OM Part 10 in the description of the valve tables. Valves that were added to the program are identified by an asterisk *. Unit 2 Valve Number 2-BD-TV-200A to 2-BD-TV-200F 2-CC-94, 95, 2-CC-555, 556, 2-CC-557, 592 Comment Program Change: Relief Request V-34 was withdrawn.

Program Change: Relief Request V-45 was replaced by Reactor Refueling Justification RRV-7. 8

* 2-CC-LCV-201 2-CC-RV-212A to C, 2-CC-RV-219A

OF CHANGES TO THE SURRY UNIT 2 IST PROGRAM Program Change: Relief Request V-47 was revised to reflect the changes in the new Code. Program Change: Relief Request V-1 was withdrawn.

This relief valve was removed from the system. Program Change: Valve was deleted from the IST Program. This trip valve was removed from the system. Program Change: Valve was deleted from the IST Program. These trip valves were added to the system to replace 2-CC-TV-207.

They must close to isolate the RCP thermal barrier cooling piping inside containment.

Program Change: Valves were added to the IST Program to be tested to the closed position every cold shutdown.

Refer to Cold Shutdown Justification CSV-27. Following an accident, this volume control tank (VCT) discharge check valve must close after recirculation mode transfer to prevent contaminated sump water from entering the VCT via the seal water heat exchanger relief valve 2-CH-RV-2382B.

Program Change: The valve category was changed from C to A, and a closure test and leakage test were added. The closure test will be performed every reactor refueling as discussed in Reactor Refueling Justification RRV-8 . 9

* 2-CH-258 2-CH-267 2-CH-276 2-CH-309 2-CH-FCV-2113B, 2-CH-FCV-2114B ATTACHMENT 2

OF CHANGES TO THE SURRY UNIT 2 IST PROGRAM Program Change: Relief Request V-14 was replaced by Reactor Refueling Justification RRV-1. Program Change: This valve was moved from Cold Shutdown Justification csv-20 to Reactor Refueling Justification RRV-6 and the test frequency was changed from cold shutdown to reactor refueling.

It was determined that the failure of these valves to close will not reduce the operator's ability to manually use the emergency boration system. Program Change: Valves were deleted from the IST Program~ 2-CH-LCV-2115B  

& D Following an accident, these valves isolate the reactor water storage tank (RWST) to prevent contaminated sump water from entering the RWST after recirculation mode transfer.

& B 2-CS-MOV-201A to D 2-CV-TV-250A to D Program Change: The valve category was changed from B to A, and a leakage test was added. These valves are passive. They do not have to change position to fulfill their safety functions.

Program Change: The exercise test was deleted. Program Change: Relief Request V-1 was withdrawn.

Program Change: Relief Request V-34 was withdrawn.

Program Change: Relief Request V-39 was withdrawn.

Program Change: Relief Request V-34 was withdrawn

* 10

* 2-CW-117 2-DA-TV-200A

Program Change: Valve was deleted from the IST Program. Program Change: Relief Request V-34 was withdrawn.

Program Change: Relief Request V-34 was withdrawn.

Program Change: These valves were moved from the Unit 2 IST Program to the Unit 2 IST Program. Program Change: Relief Request V-1 was withdrawn.

Program Change: Relief Request V-36 was replaced by Non-Code Alternative Testing VNC-4. Program Change: Relief Request V-37 was replaced by Non-Code Alternative Testing VNC-3. Program Change: Relief Request V-34 was withdrawn.

These instrument air valves must open to allow bottled air to valve 2-RC-PCV-2456.

Program Change: The closure test was changed to an open test and the leakage test was deleted. These instrument air valves must close to ensure that bottled air is supplied to valve 11

* 2-IA-704 2-IA-864, 868 2-IA-RV-211 2-IA-TV-200 2-IA-TV-201B 2-LM-TV-200A to H 2-MS-NRV-201A to B 2-MS-RV-201A to C 2-MS-SV-201A to C, 2-MS-SV-202A to C, 2-MS-SV-203A to C, 2-MS-SV-204A to C, 2-MS-SV-205A to C 2-MS-TV-220 ATTACHMENT 2  

Program Change: The open test was changed to a closure test and the leakage test was added. Program Change: Relief Request V-39 was withdrawn.

Program Change: Relief Request V-44 was replaced by Reactor Refueling Justification RRV-6. Program Change: Relief Request V-1 was withdrawn.

Program Change: Relief Requests V-34 and 39 were withdrawn.

Program Change: Relief Request V-34 was withdrawn

* Program Change: Relief Requests V-34 and 39 were withdrawn.

Program Change: Relief Request V-48 was replaced by Cold Shutdown Justification csv-32. Program Change: Relief Request V-47 was revised to reflect the changes in the new Code. Program Change: Relief Request V-1 was withdrawn.

This valve is a mechanical trip device valve that is normally open. It trips closed to protect the turbine on the auxiliary feedwater pump from over speed conditions and has to be locally reset. The valve is passive in the open position and need not be tested

* 12

* 2-RC-160 2-RC-PCV-2455C 2-RC-PCV-2456 ATTACHMENT 2  

OF CHANGES TO THE SURRY UN:IT 2 IST PROGRAM Program Change: Valve was deleted from the IST Program. Program Change: Relief Request V-44 was replaced by Reactor Refueling Justification RRV-6. These power operated relief valves need to open on setpoint to protect the reactor coolant system from overpressurization when the reactor vessel is cooled down to less than 275 °F. Program Change: A setpoint test was added and Relief Request V-34 was withdrawn.

2-RC-SOV-200Al  

& 2 Program Change: Relief Request V-31 was 2-RC-SOV-200Bl  

& 2 replaced by Cold Shutdown Justification CSV-33 and Relief Request V-34 was withdrawn.

2-RC-RV-2551A to C Program Change: Relief Request V-1 was withdrawn.

2-RH-FCV-2605 Program Change: Relief Request V-47 was 2-RH-HCV-2758 revised to reflect the changes in the new Code. 2-RH-RV-2721 Program Change: Relief Request V-1 was withdrawn.

2-RL-3 & 5 Program Change: Relief Request V-39 was withdrawn.

2-RM-3 Program Change: Relief Request V-44 was replaced by Reactor Refueling Justification RRV-6. 2-RM-TV-200A to C Program Change: Relief Request V-34 was withdrawn.

2-RS-46 & 53 Program Change: Relief Request V-39 was withdrawn.

2-RS-MOV-255A  

& B Program Change: Relief Request V-39 was withdrawn

* 13

* 2-SI-25 2-SI-46A & B 2-SI-50 & 327 2-SI-79, 82, 85, 2-SI-88, 91, 94, 2-SI-224, 225, 2-SI-226, 227, 2-SI-228, 229, 2-SI-235, 236, 2-SI-237, 238, 2-SI-239, 240, 2-SI-241, 242, 243 2-SI-107, 109, 2-SI-128, 130, 2-SI;....145, 147 2-SI-150 & 174 2-SI-201 & 209 2-SI-304 2-SI-321 & 322 ATTACHMENT 2

Program Change: The valve category was changed from C to A, a leakage test were added and Relief Request V-28 was replaced by Reactor Refueling Justification RRV-5. Program Change: Relief Request v-21 was replaced by Reactor Refueling Justification RRV-2. Program Change: Relief Request V-27 was revised to reference only back seat testing of valves 2-SI-88 and 238, and 2-SI-91 and 239, and 2-SI-94 and 240 in pairs. The reference to test frequency was removed from V-27 for all valves and replaced by Reactor Refueling Justification RRV-4. Program Change: Relief Request V-26 was replaced by Reactor Refueling Justification RRV-3. Program Change: Relief Request V-39 was withdrawn.

These check valves are on a 3/4 inch supply line from the RWST to the LHSI pump seals. This line has been permanently isolated.

Program Change: Valves were deleted from the IST Program. Program Change: Relief Request V-44 was replaced by Reactor Refueling Justification RRV-6. Program Change: Relief Request V-39 was withdrawn

* 14

* 2-SI-400 ATTACHMENT 2

OF CHANGES TO THE SURRY UNIT 2 IST PROGRAM Program Change: Relief Request V-28 was replaced by Reactor Refueling Justification RRV-5. 2-SI-MOV-2860A  

& B Program Change: Relief Request V-39 was withdrawn.

2-SI-MOV-2867C  

& D Program Change: Relief Request V-39 was 2-SI-MOV-2869A withdrawn.

2-SI-MOV-2885A to 2-SI-MOV-2885D Following an accident, these valves isolate the reactor water storage tank (RWST) to prevent contaminated sump water from entering the RWST after recirculation mode transfer.

Program Change~ The valve category was changed from B to A, and a leakage test was added. 2-SI-RV-2845A to c Program Change: Relief Request V-1 was withdrawn

* 2-SI-TV-200 Program Change: Relief Request V-34 was 2-SI-TV-201B withdrawn.

2-SS-TV-200A  

& B, 2-SS-TV-201A  

&'B, 2-SS-TV-202A  

& B, 2-SS-TV-204A  

& B, 2-SS-TV-206A  

& B 2-SW-108 2-SW-113 2-SW-130 2-SW-442 2-SW-445 2-SW-TCV-208A to 2-SW-TCV-208C Program Change: Relief Request V-34 was withdrawn.

The design basis for the charging pump service water system is being reevaluated.

A full flow acceptance criteria will not be available until this evaluation is complete.

In the mean time, these valves will be disassembled and inspected.

Program Change: The valves will be d~sassembled and inspected.

Refer to Relief Request V-50. Also, the ASME Class for valve 2-SW-130 was changed from Class 3 to Class. Program Change: Relief Request V-47 was revised to reflect the changes in the new 15

* ATTACHMENT 2  

OF CHANGES TO THE SURRY UNIT 2 IST PROGRAM Code. 2-VG-TV-209A  

& B Program Change: Relief Request V-34 was withdrawn.

2-VP-12 Program Change: Relief Request V-44 was replaced by Reactor Refueling Justification RRV-60 2-VS-MOV-200A to Program Change: Relief Request V-39 was 2-VS-MOV-200D, withdrawn.

2-VS-MOV-201  

& 202 4.5 VALVE TEST PROGRAM RELIEF REQUESTS The following summarizes the changes to relief requests since Revision 3. It also contains a description of the approval mechanism for each relief request. That is, the summary indicates whether the approval is: 1) through a position in Generic Letter 89-04, 2) 3) Unit 2 Relief Request V-1 V-2 to V-4 through a previously issued NRC SER or obtained using a relief request that will need approval by the NRC. Relief requests requiring NRC approval are marked with an asterisk*.

Change Relief request is being withdrawn.

The Revision 3 version of V-1 requested relief from testing safety and relief valves in accordance with PTC-25.3-1976 and to use OM Part 1 instead. OM Part 10 references OM Part 1 for safety and relief valve testing. These relief request numbers are no longer active. 16

* V-5 V-6 to V-13 V-14 V-15 to V-19 v-20 v-21 ATTACHMENT 2

OF CHANGES TO THE SURRY tm:IT 2 IST PROGRAM The Code requirement reference was changed from Section XI, IWV to OM Part 10. OM Part 10, Paragraph 4.3.2.4(c) reads in part that, "disassembly every refueling outage to verify operability of check valves may be used." This sentence implies that each check valve in the group given in v-s (2-FW-10, 41 and 72) must be disassembled every refueling outage. V-5 describes the disassembly and inspection of one valve from a group of three valves. This test frequency is in accordance with Generic Letter 89-04, Position 2. These relief request numbers are no longer active. Relief request is being withdrawn.

Relief Request V-14 was replaced by Reactor Refueling Justification RRV-1. OM Part 10, Sections 4.2.1.2 and 4.2.2.2 allow for valves to be tested during reactor refuelings if testing during normal operation and cold shutdown is impractical.

According to OM Part 10, Section 6.2, the test. plan must justify the deferral of stroke testing. These relief request numbers are no longer active. The Code requirement reference was changed from Section XI, IWV to OM Part 10. OM Part 10, Paragraph 4.3.2.4(c) reads in part that, "disassembly every refueling outage to verify operability of check valves may be used." This sentence implies that each check valve in the group given in V-20 {2-SI-47 and 56) must be disassembled every refueling outage. v-20 describes the disassembly and inspection of one valve from a group of two valves. This test frequency is in accordance with Generic Letter 89-04, Position 2. Relief request is being withdrawn.

Relief Request V-21 was replaced by Reactor Refueling

* Justification RRV-2. OM Part 10, Sections 4.2.1.2 and 4.2.2.2 allow for valves to be tested during reactor refuelings if testing during normal 17

* v-22 to V-25 V-27 ATTACHMENT 2  

These relief request numbers are no longer active. Relief Request V-26 was revised to describe a sampling program for non-intrusive techniques used in testing the SI accumulator discharge check valves. The sampling program is as follows. During the first refueling outage where intrusive techniques are used, all valves in the group will be tested to verify that the techniques verify valve obturator movement.

During subsequent refueling outages, flow testing will be performed on all valves in the group, but the intrusive techniques need be applied only to one valve in each group, on a rotating basis, unless indications of problems are identified.

In this case, all valves in the group will be subjected to the non-intrusive techniques.

The sampling program is in accordance with Generic Letter 89-04, position 2. A similar non-intrusive technique sampling program was approved for use by North Anna Power Station in the NRC SER received in September of 1993(TAC NOS. M86645 & M86646). The justification for going to a reactor refueling frequency was moved to RRV-3. OM Part 10, Sections 4.2.1.2 and 4.2.2.2 allow for valves to be tested during reactor refuelings if testing during normal operation and cold shutdown is impractical.

The alternative test method was changed from disassembly and inspection to using non-intrusive techniques to verify that the check valves go to the full open position.

The portion of Relief Request V-27 which dealt with test frequency was replaced by Reactor Refueling Justification RRV-4. RRV-4 deals with the cold leg and hot leg SI check valves. OM Part 10, Sections 4.2.1.2 and 4.2.2.2 allow for valves to be tested during reactor refuelings if testing during normal operation and cold shutdown is impractical.

The portion of Relief Request V-27 which dealt with check valve pairs 2-SI-88 and 18 -, 

* V-28 V-29 & V-30 V-31 V-32 & V-33 V-34 ATTACHMENT 2  

OF CHANGES TO THE SORRY UHXT 2 IST PROGRAM 238, 2-SI-91 and 239, and 2-SI-94 and 240 remains. Relief request is being withdrawn.

Relief Request V-28 was replaced by Reactor Refueling Justification RRV~S. RRV-5 deals with the SI cross tie check valves (2-SI-25 and 400). OM Part 10, Sections 4.2.1.2 and 4.2.2.2 allow for valves to be tested during reactor refuelings if testing during normal operation and cold shutdown is impractical.

The Revision 3 version of V-28 indicated that 2-SI-25 would be disassembled and inspected every other outage. Reference to the disassembly and inspection every other outage was deleted from RRV-5. The test method and frequency are in accordance with OM Part 10, Paragraph 4.3.2.4(c).

These relief request numbers are no longer active. Relief request is being withdrawn.

Relief Request V-31 was replaced by Cold Shutdown Justification CSV-33. CSV-33 deals with the head vent isolation valves and was originally a relief request because there could exist plant conditions during some cold shutdowns that prevent testing of these valves. Because OM Part 10 allows for a testing frequency as long as a reactor refueling frequency, relief from Code requirements is no longer necessary.

As shown by the test frequency description, the appropriate test plan justification is a cold shutdown justification and not a reactor refueling justification.

These relief request numbers are no longer active. Relief request is being withdrawn.

The Revision 3 version of Relief Request V-34 requested relief from applying an alert range acceptance criteria for stroke time to rapid acting valves (i.e., valves that stroke in less than two seconds).

OM Part 10, Paragraph 4.2.1.S(e) addresses rapid acting valves. Therefore, relief from Code requirements is no longer necessary

* 19

* V-35 V-36 V-37 V-38 V-39 V-40 V-41 ATTACHMENT 2

OF CHANGES TO THE SURRY UNIT 2 IST PROGRAM This relief request number is no longer active. Relief request is being withdrawn.

Relief Request V-36 was replaced by Non-Code Alternative Testing VNC-4. The valve.s in VNC-4 (1-EE-SOV-102 and 103) are non-Code valves. According to the Minutes of Public Meetings on Generic Letter 89-04, "If Code components are included in the ASME Code IST program (or some other licensee-developed inservice testing program) and certain Code provisions cannot be met, the Commission regulations (10 CFR 50.55a) do not require a 'request for relief' to be submitted to the staff. Nevertheless, documentation that provides assurance of the continued operability of the Code components through the performed tests should be available at the plant site." The non-Code alternative testing given in Section 4.8 documents the method for showing continued operability for these valves

* Relief request is being withdrawn.

The non-Code air start solenoid valves were transferred to Code Alternative Testing VNC-3. For the reasons given above, a 'request for relief' is not necessary.

This relief request number is no longer active. Relief request is being withdrawn.

The Revision 3 version of Relief Request V-39 requested relief from individually leak testing containment isolation valves and allowing groups of valves to be tested together.

OM Part 10, Paragraphs 4.2.2.J(e) and (f) allow for the testing of valve combinations.

Therefore, relief from Code requirements is no longer necessary.

This relief request number is no longer active. The Code requirement reference was changed from Section XI, IWV to OM Part lOo OM Part 10, Paragraph 4.3.2.4(c) reads in part that, "disassembly every refueling outage to verify operability of check valves may be used." This sentence implies that each check valve in the 20

* ATTACHMENT 2

OF CHANGES TO THE SURRY UN:IT 2 IST PROGRAM groups given in V-41 (2-FW-144, 159 and 174 in one group and 2-FW-148, 163 and 178 in another group) must be disassembled every refueling outage. v-41 describes the disassembly and inspection of one valve from each group of three valves. This test frequency is in accordance with Generic Letter 89-04, Position 2. These check valves can be disassembled while the plant is operating.

To allow for flexibility in planning for refueling outages and still meet the intent of OM Part 10, the valves will be disassembled on a reactor refueling frequency but not necessarily during refueling outages. Also, reference to part stroke exercising every three months was deleted. There is no flow instrumentation or other means to detect partial flow. The Code requirement reference was cha~ged from Section XI, IWV to OM Part 10. OM Part 10, Paragraph 4.J.2.4(c) reads in part that, "disassembly every refueling outage to verify operability of check valves may be used." This sentence implies that each check valve in the group given in V-42 (2-MS-176, 178 and 182) must be disassembled every refueling outage. V-42 describes the disassembly and inspection of one valve from a group of three valves. This test frequency is in accordance with Generic Letter 89-04, Position 2. These check valves can be disassembled while the plant is operating.

To allow for flexibility in planning for refueling outages and still meet the intent of OM Part 10, the valves will be disassembled on a reactor refueling frequency but not necessarily during refueling outages. The Code requirement reference was changed from Section XI, IWV to OM Part 10. OM Part 10, Paragraph 4.3.2.4(c) reads in part that, "disassembly every refueling outage to verify operability of check valves may be used." This sentence implies that each check valve in the 21

* ATTACHMENT 2

OF CHANGES TO THE SURRY UNIT 2 IST PROGRAM groups given in V-43 (2-CS-104 and 105 in one group, 2-CS-13 and 24 in another group and 2-RS-11 and 17 in another group) must be disassembled every refueling outage. V-43 describes the disassembly and inspection of one valve from each group of two valves. This test frequency is in accordance with Generic Letter 89-04, Position 2. Relief request is being withdrawn.

Relief Request V-44 was replaced by Reactor Refueling Justification RRV-6. RRV-6 deals with certain containment isolation valves located inside containment that are subject to leakage testing. The Revision J version of V-44 requested relief from performing a back seat test every cold shutdown.

OM Part 10, Sections 4.2.1.2 and 4.2.2.2 allow for valves to be tested during reactor refuelings if testing during normal operation and cold shutdown is impractical.

Relief request is being withdrawn.

Relief Request V-45 was replaced by Reactor Refueling Justification RRV-7. RRV-7 deals with the RCP thermal barrier isolation check valves located inside containment that are subject to back seat testing. The Revision J version of V-45 requested relief from'performing a back seat test every cold shutdown.

OM Part 10, Sections 4.2.1.2 and 4.2.2.2 allow for valves to be tested during reactor refuelings if testing during normal operation and cold shutdown is impractical.

The Code requirement reference was changed from Section XI, IWV to OM Part 10. OM Part 10, Paragraph 4.J.2.4(c) reads in part that, "disassembly every refueling outage to verify operability of check valves may be used." This sentence implies that each check valve in the group given in V-46 (2-SW-247, 249, 251 and 2-SW-253) must be disassembled every refueling outage. V-46 describes the disassembly and inspection of one valve from a group of three valves. This test frequency is in accordance with Generic Letter 89-04, Position 2. These check valves can be disassembled while the 22

* V-48

* ATTACHMENT 2  

OF CHANGES TO THE SURRY lJNJ:T 2 IST PROGRAM plant is operating.

To allow for flexibility in planning for refueling outages and still meet the intent of OM Part 10, the valves will be disassembled on a reactor refueling frequency but not necessarily during refueling outages. The Revision 3 version of V-47 submitted on July 24, 1992, requested relief from determining the alert status as required by the ;old Code. In the NRC SER received in March of 1993, the NRC reviewer determined that V-47 was not necessary because OM Part 10 does not require the determination of the alert acceptance criteria.

Also, relief from measuring the full-stroke time from the initiation of the actuating signal was added. Relief request is being withdrawn.

Interim Relief Request V-48 was replaced by Cold-Shutdown Justification CSV-32. The Revision 3 version of V-48 requested an interim period from testing the main steam non-return valves until an alternative test method could be developed.

This alternative method was developed during the Surry Unit 2 1993 refueling outage and is described in CSV-32. csv-32 was sent to the NRC by letter dated May 6, 1993 (Serial No. 93-046). Relief request is being withdrawn.

The Revision 3 version of V-49 requested relief from IWV-3427(b) which required trending of leakages for Category A valves larger than six inches. OM-Part 10 does not have a similar requirement.

Therefore, relief from Code requirements is no longer necessary.

These relief request is being added for check valves 2-SW-108, 113, 130, 442 and 445. The design basis for the charging pump service water system is being reevaluated.

A full flow acceptance criteria will not be available until this evaluation is complete.

In the mean time, these valves will be disassembled and inspected.

The test frequency is in accordance with Generic 23 

* *

* v-s1* ATTACHMENT 2  

OF CHANGES TO THE SURRY UN:IT 2 IST PROGRAM Letter 89-04, Position 2. These check valves can be disassembled while the plant is operating.

To allow for flexibility in planning for refueling outages and still meet the intent of OM Part 10, the valves will be disassembled on a reactor refueling frequency but not necessarily during refueling outagese This relief request is being added and applies to containment isolation valves subject to Appendix J*, Type c leak testing. For cases where a valve has exceeded its permissible leakage rate but the overall containment leakage is below 0.6La, and the repair or replacement of the valve will have an adverse impact on plant startup and/or continued operation, an evaluation can be used as corrective action. A similar relief request was approved for use by North Anna Power Station in the NRC SER received in September of 1993(TAC NOS. M86645 & M86646) . 4.6 VALVE TEST PROGRAM COLD SHUTDOWN JUSTIFICATIONS References to IWV were replaced with references to OM Part 10. Also, a section was added to each justification which gives a summary of the testing frequency.

The following summarizes the changes to cold shutdown justifications since Revision 3. Unit 2 Cold Shutdown Just CSV-1 CSV-2 and CSV-3 CSV-4 Change Added test frequency summary.*

These cold shutdown justification numbers are no longer active. Reference to full flow testing check valves 2-FW-142, 157 and 172 was added. Also, a test frequency summary was added

* 24

* CSV-5 CSV-6 CSV-7 to CSV-9 CSV-10 CSV-11 CSV-12 CVS-13 csv~14 to CSV-18 CSV-19 CSV-20 CSV-21 CSV-22 to CSV-24 CSV-25 & CSV-26 CSV-27 ATTACHMENT 2

OF CHANGES TO THE SURRY UNIT 2 IST PROGRAM Added test frequency summary. Added the phrase "when the reactor coolant pumps are secured" and a test frequency summary. Added test frequency summaries.

The relief valve setting was changed from 700 psig to 600 psig. Also, a test frequency summary was added. Added test frequency summary. This cold shutdown justification number is no longer active. Added the phrase "when the reactor coolant pumps are secured" and a test frequency summary

* Added test frequency summaries.

Deleted reference to partial stroke testing of check valves 2-CH-225, 227 and 229. These valves will be full stroke tested every quarter when the boric acid concentration is above 100 .ppm. Also, a test frequency summary was added. Replaced by Reactor Refueling Justification RRV-6. Added test frequency summary. These cold shutdown justification numbers are no longer active. Added test frequency summaries.

Deleted valve 2-cc-TV-207 and added valves 2-CC-TV-240A and B. Also, a test frequency summary was added

* 25

* CSV-28 CSV-29 to CSV-31 CSV-32 CSV-33 ATTACHMENT 2

OF CHANGES TO THE SURRY UNIT 2 IST PROGRAM Deleted reference to part stroke testing the main feedwater bypass valves every three months and added an explanation as to why this testing is not necessary.

Also, a test frequency summary was added. Added test frequency summaries.

Cold Shutdown Justification CSV-32 was added to the IST Program to replace Interim Relief Request V-48. The Revision 3 version of V-48 requested an interim period from testing the main steam non-return valves until an alternative test method could be developed.

This alternative method was developed during the Surry Unit 2 1993 refueling outage and is described in CSV-32. CSV-32 was sent to the NRC by letter dated May 6, 1993 (Serial No. 93-046)

* Cold Shutdown Justification CSV-33 was added to the IST Program to replace Relief Request V-31. CSV-33 deals with the head vent isolation valves and was originally a relief request because there could exist plant conditions

* during some cold shutdowns that prevent testing of these valves. Because OM Part 10 allows for a testing frequency as long as a reactor refueling frequency, relief from Code requirements is no longer necessary.

As shown by the test frequency description, the appropriate test plan justification is a cold shutdown justification and not a reactor refueling justification.

4.7 VALVE TEST PROGRAM REACTOR REFUELING JUSTIFICATIONS Section 4e7 was added to the IST Program and the Revision 3 Section 4.7 was renumbered to Section 4.8. OM Part 10, Sections 4.2.1.2 and 4.2.2.2 allow for the full stroke exercising of valves during reactor refueling (but not more frequently than every three months) if the valves cannot be exercised during normal operation or cold shutdown.

IWV allowed testing to be 26

* ATTACHMENT 2  

OF CHANGES TO THE ~URRY UNIT 2 IST PROGRAM deferred only to cold shutdowns.

Therefore, no request for relief for testing every reactor refueling is necessary.

A number of relief requests were replaced by reactor refueling justifications.

Unit 2 Reactor Refuel Just RRV-1 RRV-2 RRV-3 RRV-4 RRV-5 RRV-6 Change Reactor Refueling Justification RRV-1 was added to the IST Program to replace Relief Request V-14. No other changes were made to the justification.

Reactor Refueling Justification RRV-2 was added to the IST Program to replace Relief Request v-21. No other changes were made to the justification.

The justification for going to a reactor refueling frequency was moved from V-26 to RRV-3 for the SI accumulator discharge check valves. The alternative test method was changed from disassembly and inspection to using non-intrusive techniques to verify that the check valves go to the full open position.

A sampling program will be *applied to the *non-intrusive techniques as** described in Relief Request V-26. ~eactor Refueling Justification RRV-4 was added to the IST Program to replace the test frequency descriptions previously found in Relief Request v-27 for the hot leg, cold leg and HHSI check valves. Reactor Refueling Justification RRV-5 was added to the IST Program to replace Relief Request V-28. The Revision 3 version of V-28 indicated that 2-SI-25 would be disassembled and inspected every other outage. Reference to the disassembly and inspection every other outage was deleted from RRV-5. The test method and frequency are in accordance with OM Part 10, Paragraph 4.3.2.4(c).

Reactor Refueling Justification RRV-6 was added to the IST Program to replace Relief Request V-44

* 27

* ATTACHMENT 2  

RRV-7 Reactor Refueling Justification RRV-7 was added to the IST Program to replace Relief Request V-45 and Cold Shutdown Justification csv-20. RRV-8 Reactor Refueling Justification RRV-8 was added to the IST Program to present the basis for testing the VCT discharge check valve 2-CH-230 closed every reactor refueling.

4.8 ALTERNATIVE TESTING FOR NON-CODE VALVES The Revision 3 Section 4.7 was renumbered to Section 4a8o Unit 2 Non-Code Alternative Test VNC-1 VNC-2 VNC-3 VNC-4 Change There is no change to VNC-1. Non-Code alternative testing is being withd:cawn.

VNC~2 dealt with valve 2-CW-117 which was deleted from the IST Program. The air start system solenoid valves SOV-200A and B were added to VNC-3. These valves were covered by Relief Request V-37 in Revision J. Non-Code Alternative Testing VNC-4 was added to the IST Program to replace Relief Request V-36. Also, valve 1-EE-SOV-104 was moved from the Unit 2 IST Program to the Unit 1 IST Program and deleted from VNC-4

* 28 -_-.

* ATTACHMENT 2  

OF CHANGES TO THE SURRY UNIT 2 IST PROGRAM REPORTING OF INSERVICE TEST RESULTS 5.1 PUMP INSERVICE TESTING PROGRAM References to IWP were. replaced with references to OM Part 6, Sections 7.1 to 7.4. 5.2 VALVE INSERVICE TESTING PROGRAM References to IWV were replaced with references to OM Part 10, Sections 6.1 to 6.4

* 29 

* VIRGINIA ELECTRIC AND POWER COMPANY SURRY POWER STATION UNIT 2 INSERVICE TESTING PROGRAM PLAN FOR PUMPS AND VALVES THIRD INSPECTION INTERVAL MAY 10, 1994 -MAY 10, 2004 REVISION 0 ADDRESSES:

VIRGINIA ELECTRIC AND POWER COMPANY P.O. BOX 26666 RICHMOND, VIRGINIA 23261 SURRY POWER STATION P.O. BOX 315 SURRY, VIRGINIA 23883

* TABLE OF CONTENTS INSERVICE TESTING PROGRAM PLAN FOR PUMPS AND VALVES  

2.0 PROGRAM DESCRIPTION 3.0 PUMP INSERVICE TEST PROGRAM DESCRIPTION 3.1 Program Development Philosophy 3.2 Program Implementation 3.3 Program Administration 3.4 Pump Reference List 3.5 Pump Inservice Test Tables 3.6 Pump Test Program Relief Requests 3.7 Alternative Testing for Non-Code Pumps 4.0 VALVE INSERVICE TEST PROGRAM DESCRIPTION 4.1 Program Development Philosophy 4.2 Program Implementation 4.3 Program Administration 4.4 Valve Inservice Test Table 4.5 Valve Test Program Relief Requests 4.6 Valve Test Program Cold Shutdown Justifications 4.7 Valve Test Program Reactor Refueling Justifications 4.8 Alternative Testing for Non-Code Valves 5.0 REPORTING OF INSERVICE TEST RESULTS 5.1 Pump Inservice Test Program 5.2 Valve Inservice Test Program 6.0 QUALITY ASSURANCE PROGRAM ii S2PVI3RO Revi:;ion o November 10, 1993 INSERVICE TESTING PROGRAM FOR PUMPS AND VALVES *

==1.0 INTRODUCTION==

* S2PVI3RO This Pump and Valve Inservice Test (IST) Program Plan is applicable to the Surry Power Station Unit 2 which began commercial operation on May 1, 1973. The IST Program Plan is comprised of two independent subprograms

* S2PVI3RO PROGRAM DESCRIPTION This Inservice Testing Program for ISI Class 1, 2, 3 and NC pumps and valves meets the requirements of Subsections IWP and IWV of Section XI of the ASME Boiler and Pressure Vessel Code, addenda through the 1988 Addenda and editions through the 1989 Edition. Where these requirements are determined to be impractical, specific requests for relief have been written and included in the program plan attached . 2-1 Rev~pion O Noveinber 10, 1993 3.0 PUMP INSERVICE TEST PROGRAM DESCRIPTION  

* S2PVI3RO 3.1 PROGRAM DEVELOPMENT PHILOSOPHY 3.2 Highly reliable safety-grade equipment is a vital consideration in the operation of a nuclear generating station. To help assure operability, the Surry Power Station Unit 2 Pump Inservice Test Program was developed.

The Program is designed to detect and evaluate significant hydraulic or mechanical changes in the operating parameters of vital pumps and to initiate corrective action when necessary.

As described in Section 2, the Program must meet the:requirements of Subsection IWP, of Section XI of the ASME Boiler and Pressure Vessel Code. Subsection IWP, addenda through the 1988 Addenda and editions through the 1989 Edition, references Part 6, Edition OM-87, ASME/ANSI, Operation and Maintenance of Nuclear Power Plants, Addenda OMa-1988. Therefore, the Program is based on the requirements of Part 6, along with NRC Staff guidelines provided in Generic Letter 89-04 for complying with certain provisions of 10CFR50.55a(f}.

The Nuclear Regulatory Commission and Code Committee recognized that design differences among plants may render impractical certain Code requirements.

Where such impracticalities exist, they have been sub~tantiated as exceptions as allowed by the Code. Alternate testing requirements have been proposed when warranted.

* PROGRAM IMPLEMENTATION Surveillance testing is performed to detect equipment malfunction or degradation and to initiate corrective action. Since the safeguards pumps are normally in standby mode, periodic testing of this equipment is especially important.

The Surry Power Station Unit 2 Inservice Test Program provides a schedule for testing safety-grade pumps and is implemented as part of normal periodic surveillance testing. Reference data is gathered during initial surveillance tests. In most cases, test parameters are measured with normal plant instrumentation.

This approach simplifies the test program and promotes timely completion of periodic surveillance testing. When permanently installed instrumentation is not available, portable instrumentation is used to record the required parameters

* 3-1 Revi~ion o November 10, 1993

* S2PVI3RO During subsequent surveillance tests, flow rate is normally selected as the independent test parameter and is set to match the reference flow rate. Other hydraulic and mechanical performance parameters are measured and evaluated against the appropriate reference values. The results of such evaluations determine whether or not corrective action is warranted.

Each pump in the Pump Inservice Test Program is tested according to a detailed test procedure.

The procedure include, as minimum: 1)  

: 2) Purpose: This section identifies test objectives.

: 3) Initial Conditions:

Each procedure should identify those independent actions or procedures which shall be completed and station conditions which shall exist prior to use. 4) Precautions:

Precautions should be established to alert the individual performing the task to those situations in which important measures should be taken early or where extreme care should be used to protect equipment and personnel.

Cautionary notes applicable to specific steps in the procedure should be included in the main body of the procedure as appropriate and should be identified as such. 5) Instructions:

The main body of a procedure should contain step by step instructions in the degree of detail necessary for performing a required test. 6) Acceptance Criteria:

The ranges within which test data are considered acceptable are established and included in the test procedure.

In the event that data fall outside the acceptable range, operator action is governed by approved station procedures.

Additional testing is performed, as required, after pump maintenance or as determined necessary by personnel at Surry Power station

* 3-2 Revi~ion o November 10, 1993 3.3

* 3.4 *

* S2PVI3RO PROGRAM ADMINISTRATION The operations and engineering staffs at Surry Power Station are responsible for administration and execution of the Pump Inservice Test Program. The third 10-year interval IST Program will be officially implemented on May 10, 1994 and governs pump testing for a 120 month period. Prior to the end of the 120 month period, the Program will be reviewed and upgraded to assure continued compliance with 10CFR50.55a(f)

(4). PUMP REFERENCE LIST This list gives a brief description of each pump identified in the Pump Inservice Test Program. The pump's ASME Code Classifications are specified in "PUMP INSERVICE TEST TABLES". 2-CH-P-1A 2-CH-P-1B 2-CH-P-lC High Head Safety Injection or Charging Pumps provide high pressure flow for the Safety Injection System and during normal operation, maintain pressurizer level and seal water injection to the Reactor Coolant Pumps. See drawing 11548-CBM-SSB, Sheet 2 . 2-SI-P-1A 2-SI-P-1B Low Head Safety Injection Pumps provides low pressure safety injection to the core for long term cooling and as a backup to accumulators.

See drawing 11548-CBM-89A, Sheet 1. 2-CS-P-1A 2-CS-P-lB Containment Spray Pumps provide a cooled, chemically treated, borated spray to reduce containment pressure following a loss of coolant accident.

See drawing 11548-CBM-84A, Sheet 2. 2-RS-P-2A 2-RS-P-2B Outside Recirculation Spray Pumps aid the Containment Spray System in reducing containment pressure rapidly following a loss of coolant accident.

See drawing 11548-CBM-84B, Sheet 2 . 3-3 Rev.:!-.sion o November 10, 1993

* *

* S2PVI3RO 2-RS-P-lA 2-RS-P-lB Inside Recirculation Spray Pumps aid the containment spray system in reducing containment pressure rapidly following a loss of coolant accident.

See drawing 11548-CBM-84B, Sheet 1. 2-FW-P-JA 2-FW-P-JB 2-FW-P-2 Auxiliary Feedwater Pumps supply the steam generator with feedwater in the event of a complete loss of normal feedwater.

See drawing 11548-CBM-GSA, Sheet 3. 2..:RH-P-lA 2-RH-P-lB The function of Residual Heat Removal Pumps is to remove heat energy from the core when the Reactor Coolant system is below 350°F. See drawing 11548-CBM-87A, Sheet 1. 1-cc-P-1c 1-CC-P-lD Component Cooling Water Pumps are used to supply water to remove heat from the Residual Heat Removal System. See drawing 11448-CBM-72D, Sheet 1. 1-CH-P-2C 1-CH-P-2D Boric Acid Transfer Pumps supply boric acid to suction of charging pumps via normal coolant boration and emergency makeup. See drawing 11448-CBM-SSA, Sheet 1. 2-CC-P-2A 2-CC-P-2B Charging Pump Cooling Water Pumps provide water to transfer heat from the charging pump mechanical seals. See drawing 11548-CBM-71B, Sheet 2. 2-SW-P-lOA 2-SW-P-lOB Charging Pump Service Water Pumps provide cooling water for Charging Pump Cooling Water Systems. See drawing 11548-CBM-71B, Sheet 1 . 3-4 Rev,t~ion o Noveinber 10, 1993

* S2PVI3RO -------------1-EE-P-1B 1-EE-P-1E Fuel Oil Pumps supply fuel oil to emergency diesel generators wall mounted tank. See drawing 11448-CBB-38A, Sheet 2

* Note: NC is for non-Code pumps. These pumps are important to safety but are not in systems that are classified ASME Class 1, 2 or 3. 3) System Resist -Either FIX for a test loop with a fixed system resistance or VAR for a test loop with a system resistance that can be varied. 4) The required Section XI test quantities of Inlet Pressure, Differential Pressure (Discharge Pressure is not a required test quantity but is listed for clarity), Flow Rate, Vibration, Pump Speed and Lubrication Level/Pressure are given as column headings.

* PUMP IN SERVICE Pump ASME System Inlet Disch Diff Flow Ident. Class Resist Press Press Press Rate 2-CH-P-lA 2 VAR 0 0 0 0 2-CH-P-lB 2 VAR 0 0 0 0 2-CH-P-lC 2 VAR 0 0 0 0 2-SI-P-lA 2 FIX 0 0 0 0 2-SI-P-lB 2 FIX 0 0 0 0 2-CS-P-lA 2 FIX 0 0 0 0 2-CS-P-lB 2 FIX 0 0 0 0 2-RS-P-2A 2 FIX 2Y 2Y 2Y 2Y 2-RS-P-2B 2 FIX 2Y 2Y 2Y 2Y 2-RS-P-lA 2 VAR RR RR RR RR 2-RS-P-lB 2 VAR RR RR RR RR 2-FW-P-3A 3 VAR 0 0 0 0 2-FW-P-3B 3 VAR 0 0 0 0 2-FW-P-2 3 VAR 0 0 0 0 2-RH-P-lA 2 VAR NA NA CSD CSD 2-RH-P-lB 2 VAR NA NA CSD CSD 3-8 S2PVI3RO TEST TABLE Pump Vibration Speed 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA 2Y NA 2Y NA ' RR NA RR NA 0 NA 0 NA 0 0 CSD NA CSD NA

* Lubrication Relief Level/Pressure Request 0 1 0 1 0 1 NA 1 NA 1 0 1 0 1 NA 1 NA 1 NA 1 NA 1 0 1 0 1 0 1 NA 1, 7 NA 1.1 Revision o November 10, 1993  

* PUMP INSERVICE TEST TABLE Pump ASME System Inlet Disch Diff Flow Pump Lubrication Relief !dent. Class Resist Press Press Press Rate Vibration Speed Level/Pressure Request 1-CC-P-lC 3 VAR 0 0 0 0 0 NA 0 1.16 l-CC-P-1D 3 VAR 0 0 0 0 0 NA 0 1.16 l-CH-P-2C 2 VAR 0 0 0 0 0 NA NA 1.18 1-CH-P-2D 2 VAR 0 0 0 0 0 NA NA 1.18 2-CC-P-2A 3 VAR 0 0 0 0 0 NA NA 1 2-CC-P-2B 3 VAR 0 0 0 0 0 NA NA 1 2-SW-P-lOA 3 VAR 0 0 0 0 0 NA NA 1 2-SW-P-lOB 3 VAR 0 0 0 0 0 NA NA 1 1-EE-P-1B NC FIX NA 0 NA 0 0 NA NA 1,PNC-1 1-EE-P-lE NC FIX NA 0 NA 0 0 NA NA 1,PNC-1 Note: PNC-1 is not a request for relief but a description of alternative testing for non-Code pumps. Refer to Section 3.7. ,, ,, S2PVI3RO 3-9 Revision O November 10, 1993  

* *

* S2PVI3RO 3.6 PUMP TEST PROGRAM RELIEF REQUESTS Relief Requests identify code requirements which are impractical for Surry Unit 2 and provide justification for the requested exception.

* 3-10 Revision o Noveinber 10, 1993 

* S2PVI3RO RELIEF REQUEST P-0 Relief Request Withdrawn 3-11 Revi::;ion o Nov~:inber 10, 1993 

* RELIEF REQUEST P-1 *Systems:

Various Pump{s): IWP Program Pumps. See PUMP INSERVICE TEST TABLE. Class OM Part 6 Code Requirements For Which Relief Is Requested section 4.3 Reference Values Reference vaiues shall be determined from the results of preservice testing or from the results of the first inservice test. This request applies only to vibration testing. Basis For Request Small reference values for vibration (Vr) will produce small acceptable ranges for pump operation.

Based on a small acceptable range, an adequately and smoothly running pump could be subject to corrective action. To avoid this situation, a minimum value for Vr of 0.05 in/sec has been established for velocity measurements.

Alternate Testing Proposed Pumps with a measured reference value below 0.05 in/sec shall have subsequent test results compared to an acceptable range based on 0.05 in/sec . 3-12 S2PVI3RO Revi::don o November 10, 1993

* *

* S2PVI3RO INTERIM RELIEF REQUEST P-2 Relief Request Withdrawn RELIEF REQUEST P-3 Relief Request Withdrawn RELIEF REQUEST P-4 Relief Request Withdrawn RELIEF REQUEST P-5 Relief Request Withdrawn RELIEF REQUEST P-6 Relief Request Withdrawn 3-13 Revi~ion o November 10, 1993

* RELIEF REQUEST P-7 System: Residual Heat Removal Pump(s): 2-RH-P-1A 2-RH-P-1B Class 2 OM Part 6 Code Requirements For Which Relief Is Requested Frequency of Pump Test. Basis For Request The low pressure RHR pumps take suction from and discharge to the reactor coolant system which operates nominally at 2235 psig. This is well above the operating pressure for the RHR pumps. Therefore, testing during normal operation is not possible.

Alternate Testing Proposed Pumps will be tested each cold shutdown (but not more frequently than every three months)

* 3-14 S2PVI3RO Revision o Noveinber 10, 1993 

* S2PVI3RO RELIEF REQUEST P-8 Relief Request Withdrawn INTERIM RELIEF REQUEST P-9 Relief Request Withdrawn RELIEF REQUEST P-10 Relief Request Withdrawn RELIEF REQUEST P-11 Relief Request Withdrawn RELIEF REQUEST P-12 Relief Request Withdrawn RELIEF REQUEST P-13 Relief Request Withdrawn RELIEF REQUEST P-14 Relief Request Withdrawn RELIEF REQUEST P-15 Relief Request Withdrawn 3-15 Revision o November 10, 1993 

* RELIEF REQUEST P-16 -system: Component Cooling Pump(s): 1-CC-P-1C 1-CC-P-1D Class 3 OM Part 6 Code Requirements For Which Relief Is Requested OM Part 6, Paragraph 4o3 requires reference values to be points of operation readily duplicated during subsequent tests. All subsequent test results shall be compared to these initial reference values. Basis For Request During testing of the component cooling water pumps, flow is adjusted to the reference flow rate using an 18 inch butterfly valve. The butterfly valve is a crude throttling device and does not provide the fine tuning that is required to duplicate the reference flow rate from test to test. Consequently, throttling to the same reference flow rate during each test is not practical

* Alternate Testing Proposed Two reference points of flow versus differential pressure will be established from the reference test for each pump. A straight line approximation will be used to determine differential pressure reference points as a function of flow between the two test points. By keeping the difference between two test points small, the straight line is a good approximation of the pump curve within the two test points. During the subsequent tests, test flow will be throttled as close as practical to the reference flow value. The test flow must fall between the two reference points used to establish the straight line approximation.

The test flow and the corresponding differential pressure will be compared to either graphical and/or tabular acceptance criteria based on the straight line approximation of the reference pump curve . 3-16 S2PVI3RO Revision o November 10, 1993 

* RELIEF REQUEST P-16 (Cont.) *For example, given the straight line equation determined from the two reference points for flow and differential pressure:

Prdiff =a+ b*Q where Prdiff = the reference differential pressure based on the test value for flow (Q) recorded during subsequent tests and, a and bare constants, the acceptance criteria for the flow (Q) would be as follows: Upper Required Action= 1.l*Prdiff Lower Required Action= 0.90*Prdiff The multipliers on Prdiff are taken from Table Jb in OM Part 6. The actual recorded.differential pressure (Padiff) will then be compared to the acceptance criteria determined from Prdiff. Also, the tests results can be trended from test to test by normalizing Padiff to Prdiff. For acceptable operation, the ratio of Padiff/Prdiff must fall between 0.9 and 1.1. A decrease in the ratio from test to test would indicate a steady degradation in pump performance

* 3-17 S2PVI3RO Revi~ion o Nov~:mber 10, 1993 

* * ** S2PVI3RO RELIEF REQUEST P-17 Relief Request Withdrawn 3-18 Revision o November 10, 1993 

* RELIEF REQUEST P-18 *system : Chemical and Volume Control Pump{s): 1-CH-P-2C 1-CH-P-2D Class 2 OM Part 6 Code Requirements For Which Relief Is Requested The pressure instrument accuracy shall be within+ 2% (OM Part 6, Paragraph 4.6.1.1) The full-scale range of each instrument shall be three times the reference value or less (OM Part 6, Paragraph 4.6.1.2).

Basis For Request Calibrating the inlet pressure instruments for the boric acid transfer pumps to an accuracy within+/- 2% has proven difficult and may be impractical in the future with the current instruments.

Calibrating the inlet pressure instruments to an accuracy within+ 3% would be practical

* Also, the 15 psig. pressures the three pressures inlet pressure gauges have a full scale range of Oto These instruments were sized by evaluating the static present at the suction side of the pumps and applying times rule of OM Part 6, Paragraph 4.6.1.2. The static range from 6 to 7 psig. When the pumps are started, the pressure at the suction side of the pumps drops to approximately 2 psig; therefore, the inlet pressure gauges do not meet the three times rule for dynamic inlet pressure.

Using a lower range temporary gauge on a quarterly basis presents a hardship because the process fluid contains boric acid and is contaminated.

If contaminated, the temporary instruments would probably become waste material.

However, with the current o to 15 psig inlet pressure gauges calibrated to+/- 3%, a differential pressure can be determined that exceeds the accuracy requirements for differential pressure

* 3-19 S2PVI3RO Rev1;,sion o November 10, 1993

* RELIEF REQUEST P-18 (Cont.) Each boric acid transfer pump discharge pressure gauge (Oto 150 psig range) has an instrument loop accuracy of 1.59%. computing the maximum error for differential pressure using the current instrument configuration and an inlet pressure gauge accuracy of +/- 3%, yields an error of 2.85 psid. Computing the Code allowed error for differential pressure for an inlet pressure gauge with a 2% accuracy and a o to 5 psig range and a discharge pressure instrument with a 2% accuracy and a o to 150 psig range yields an error of 3.1 psid. With the current instrument configuration, the loop accuracy of each discharge pressure instrument could be as high as 1.75%, which equates to a 3.075 psid error, and still be within the Code allowed error of 3.1 psid for differential pressure.

Therefore, for purposes of trending pump degradation using differential pressure and flow, the current instrument is adequate as long as the discharge pressure instrument loop accuracies remain at or below 1.75%. Alternate Testing Proposed The *inlet pressure gauges with a full scale range of Oto 15 psig and calibrated to an accuracy within+ 3%, will be used to measure dynamic inlet pressures.

Also, the loop accuracies for the discharge pressure gauges will be maintained at or below an accuracy of 1.75% to ensure that the differential pressure error is below the differential pressure error allowed by the Code

* 3-20 S2PVI3RO Revision O November 10, 1993 3.7 * *

* S2PVI3RO ALTERNATIVE TESTING FOR NON-CODE PUMPS According to the minutes of public meeting on Generic Letter 89-04, "Paragraph (g) of 10 CFR 50.55a requires the use of Section XI of the ASME Code for inservice testing of components covered by the Code. Paragraph (g) has been replaced by Paragraph (f) in the currently approved 10 CFR 50.55a. For other components important to safety, the licensee also has the burden of demonstrating their continued operability." The minutes go on to state.that, "The Code-required IST program is a reasonable vehicle to provide a periodic demonstration of the operability of pumps and valves not covered by the Code. If non-Code components are included in the ASME Code IST program. (or some other licensee-developed inservice testing program) and certain Code provisions cannot be met, the Commission regulations (10 CFR 50.55a) do not require a 'request for relief' to be submitted to the staff. Nevertheless, documentation that provides assurance of the continued operability of the non-Code components through the performed tests should be available at the plant site." Non-Code components are components that are important to safety but are not in systems or portions of systems that are classified ASME Class 1, 2 or 3

* Surry Power Station has elected to include certain Code components in the ASME IST program. Where the Code provisions cannot be met for non-Code components, alternative testing is performed that is adequate to ensure continued operability.

The alternate testing is described in this section. There may be other deviations from Code provisions that are not described in this section. For these cases, documentation is available at the plant site. As indicated in the minutes of public meeting on Generic Letter 89-04, a 'request for relief' need not be submitted for non-Code components.

Therefore, the alternative tests described in this section are not 'requests for relief' but are provided for information . 3-21 Revi~ion o Nove~ber 10, 1993

* NON-CODE ALTERNATIVE TESTING PNC-1 *-system:

Fuel Oil Pump(s): 1-EE-P-1B 1-EE-P-1E Class : NC OM Part 6 Code Requirements Which cannot Be Met Measure test quantities after the pump has been running for at least two minutes (OM Part 6, Paragraph 5.6). Basis For Alternate Testing The pump op~rating time is limited due to operational restraints.

While the diesels are running, these pumps start automatically when the fuel oil level in the day tank reaches the low level switch, and stop when the level reaches the high level switch. The pump run time can vary depending upon the diesel load and the resulting fuel consumption rate. If the pumps are allowed to run for five minutes prior to measuring the test quantities and the fuel consumption'rate is low, not enough time is available to gather all of the required Section XI test data

* Alternate Testing The measurement of Section XI quantities will begin when the pump automatically starts on a low tank level signal

* 3-22 S2PVI3RO Rev~sion o November 10, 1993 4.0 VALVE INSERVICE TEST PROGRAM DESCRIPTION  

* *

* S2PVI3RO 4.1 PROGRAM DEVELOPMENT PHILOSOPHY Surry Power Station Unit 2 is a Pressurized Water Reactor being operated in compliance with the ASME Boiler and Pressure Vessel Code. The Code requires periodic testing of certain safety related valves in order to verify their operability and physical integrity.

The Surry Unit 2 Valve Inservice Test Program satisfies these requirements.

The program will detect potentially adverse changes in the mechanical condition of valves within the scope of Section XI, Subsection IWV of the Code. Subsection IWV, addenda through the 1988 Addenda and editions through the 1989 Edition, references Part 10, Edition OM-87, ASME/ANSI, Operation and Maintenance of Nuclear Power Plants, Addenda OMa-1988.

Therefore, the Program is based on the requirements of Part 10, along with NRC Staff guidelines provided in Generic Letter 89-04 for complying with certain provisions of 10 CFR 50.55a(f).

This program includes valves "which are required to perform a specific function in shutting down a reactor to the cold shutdown condition or in mitigating the consequences of an accident." It is important to note that the scope of ASME Section XI and the Surry Inservice Testing Program for its implementation includes many valves which are not required to operate to meet FSAR license condition of hot shutdown nor limiting conditions in the plant Technical Specifications.

In these cases, the requirements of Section XI, OM Part 10 shall be met except where relief has been granted. To generate the Surry Unit 2 Valve Program, ASME Class 1, 2 and 3 valves were analyzed to determine their required type and frequency of testing. The valves to be tested under OM Part 10 commitments are listed by system and drawing in the Valve Test Tables. Surry Unit 2 is committed to meeting the leak rate testing requirements of: 1) 10CFR50, Appendix J for containment isolation valves and 2) OM Part 10 for other valves for which seat leakage is limited to a specific maximum amount (i.e. pressure isolation valves) unless relief is specifically requested from OM Part 10 4-1 Revision o Nove:fuber 10, 1993

* S2PVI3RO requirements

* Valves subject to leak testing per Appendix J will be tested to the requirements of OM Part 10, Paragraphs 4.2.2.3(e) and 4.2.2.3(f) as required by 10 CFR 50.55a(b)

(2) (vii). Appendix J satisfies the testing requirements of OM Part 10, Paragraph 4.2.2.2. The Code recognizes that certain of its requirements may be impractical for a specific plant and contains provisions for requesting relief from impractical requirements.

The relief requests for the Valve Inservice Test Program identify testing impracticalities, provide technical basis for the request and propose alternate testing where warranted (refer to Section 4.5). The Surry Unit 2 Valve Inservice Test Program complies with the intent of the applicable codes, regulations and guidelines and makes a positive contribution to the safe operation of the plant. PROGRAM IMPLEMENTATION The Valve Inservice Test Program is executed as part of the normal plant surveillance routine. Three types of tests are conducted as part of the Valve Test Program: 1) Valve Exercise Tests, 2) Valve Leakage Tests and 3) Safety Valve Tests The Exercise Tests verify that: 1) the valve strokes properly, 2) the valve responds to control commands, 3) the valve stroke time is within specific limits and 4) remote position indication accurately reflects the observed valve position.

Remote valve position indication will be verified every two years. Fail safe valves are tested by observing the valve operation upon loss of actuating power. In most cases, this can be accomplished using normal control circuits.

Those valves which are scheduled to be exercised during cold shutdown are subject to the requirements of OM Part 10, Paragraph 4.2.1.2(g) which states that: "valve exercising during cold shutdown shall commence within 48 hr of achieving cold 4-2 Revision o Noveinber 10, 1993

* S2PVI3RO shutdown, and continue until all testing is complete or the plant is ready to return to power. For extended outages, testing need not be commenced in 48 hr provided all valves required to be tested during cold shutdown will be tested prior to plant startup. However, it is not the intent of this Part to keep the plant in cold shutdown in order to complete cold shutdown testing." Valve Leakage Tests verify that valves are leak tight in accordance with Appendix J or ASME Section XI. Relief and Safety valves are required to be tested to the requirements of OM Part 1. Certain valves cannot be full stroke exercised during normal operation following maintenance.

These valves are described in the cold shutdown justifications (refer to Section 4.6) and reactor refueling justifications (refer to Section 4.7). If maintenance cannot be deferred to a shutdown condition, then an engineering evaluation must be performed prior to the maintenance to determine the effect of the maintenance on valve performance.

If the evaluation shows that performance will not be affected, then no post maintenance testing is required.

A partial stroke test will be performed if possible

According to Generic Letter 89-04, disassembly and inspection of the check valves on a sampling basis is an acceptable alternative testing method. As described in Generic Letter 89-04, the sample disassembly and inspection program involves grouping similar valves and testing one valve in each group during each refueling outage. The sampling technique requires that each valve in the group be the same design (manufacturer, size, model number, and materials of construction) and have the same service conditions including valve orientation.

The group size cannot exceed four valves. Additionally, at each disassembly it must be verified that the disassembled valve is capable of full-stroking and that the internals of the valve are structurally sound. Also, to verify the full stroke capability of the valve, the disk should be manually exercised

* 4-3 Revision O Noveinber 10, 1993

* A different valve of each group is required to be disassembled, inspected, and manually full stroked exercised at each successive refueling outage, until the entire group has been tested. If the disassembled valve is not capable of being full stroked exercised or there is binding or failure of valve internals, the remaining valves in that group must be disassembled, inspected, and manually full stroked exercised during the same outage. PROGRAM ADMINISTRATION*.

The operations and engineering staffs at Surry Power Station are responsible for administration and execution of the Valve Inservice Test. Program. The program will be officially implemented on May 10, 1994. The program will be reviewed and upgraded to assure continued compliance with 10 CFR 50.SSa(f)

(4) for subsequent 120 month IST intervals.

VALVE. INSERVICE TEST TABLES The Valve Inservice Test Tables are the essence of the Valve Program to meet OM Part 10 requirements.

The tables reflect the positions taken in support of the relief requests.

To aid the reader in the interpretation of the tables, brief explanations of the table headings and abbreviations are provided.

For non-Code valves, a request for relief is not necessary when provisions of the Code cannot be met. Section 4.8 contains a discussion of the testing .,,:.,'.'-,, ... ,"*,:regui:i::*eme:.:its for non~Code valves* and descriptions**of*  

*-*-'*.,

* S2PVI3RO alternative testing in cases where the provisions of the Code cannot be met. 1) 2) 3) 4) Valve Number -Each valve in the plant has a unique "tag" number which identifies the system to which the equipment belongs and type of equipment.

Drawing Location -The specific coordinates of each valve are supplied to facilitate location of the valves on the flow diagrams provided.

Function -A brief description of the function of the valve. Code Class -ASME code Class of each valve as per 10 CFR so.ssa and Regulatory Guide 1.26. NOTE: NC is for non-Code valves. These valves are important to safety but are not in systems that are 4-4 Revision o Noveibber 10, 1993

* *

* S2PVI3RO classified ASME Class 1, 2 or 3

* 5) category -Categories are defined by OM Part 10, Section 1.4. Each valve has specific testing requirements which are determined by the category to which it belongs. Valves marked with an "E" are passive valves. 6) Size -Nominal pipe diameter to which valve connects is given in inches. 7) Valve Type -A brief description of the actuator and valve type. The following abbreviations are used to describe actuator types. Valves may be actuated in more than one way. MO -Motor Operated AO -Pneumatic (Air Operated)

MAN -Manually Operated SO -Electronic solenoid Operated Valves 8) Isolation Valve Type -Valves that are assigned a maximum leakage. The following abbreviations are used to describe the main isolation valve types: CIV -Containment Isolation Valve subject to Appendix J leakage testing. PIV -Pressure Isolation Valve which protects low pressure safety related piping from RCS pressure.

Technical Specification Section 3.1.C specifies the pressure isolation valves that are tested in accordance with this program. 9) Test Position -The following abbreviations are used to describe normal valve positions to which the valves are tested (including the valve safety position):

o -Open C -Closed OC -Open and Closed 10) Test Required -Testing requirements identified for the valves are identified here. ST -Stroke times shall be measured per OM Part 10, Paragraph 4.2.1.4 or as modified by a specific relief request

* 4-5 Revision o November 10, 1993

* S2PVI3RO EV -Exercise valve for operability at least once every 3 months per OM Part 10, Paragraph 4.2.1.4 or as modified by a specific cold shutdown or reactor refueling justification which is allowed by OM Part 10, Section 4.2.1.2. LT -Leak test shall be performed per OM Part 10, Section 4.2.2 or as modified by specific relief request. CV -Check valves shall be exercised at least once every 3 months per OM Part 10, Paragraph 4.3.2.1 or as modified by a specific cold shutdown or reactor refueling justification which is all9wed by OM Part 10, Section 4.2.2.2. VP -Valve position indication shall be verified per OM Part 10, Paragraph 4.1 or as modified by a specific relief request. SP -Set points of safety and relief valves shall be tested per OM Part 1 or as modified by a specific relief request. FS -Valves with fail-safe actuators shall be tested by observing the operation of the valves upon loss of the actuator power at least once every 3 months per OM Part 10, Paragraph-4.2.1.6 or as modified by a specific cold shutdown or reactor refueling justification which is allowed by OM Part 10, section 4.2.1.2

* 4-6 Revision O Noveinber 10, 1993

* 0 VALVE NUMBER 2*BD*TV-200A DRA"ING NUMBER VIRGINIA POWER COMPANY SURRY UNIT 2 THIRD INSERVICE TESTING INTERVAL INSERVICE TESTING PROGRAM* VALVE TABLE . SHEET DR"G VALVE NUMBER COOR TYPE ISO VALVE ASHE IW VALVE TEST SIZE CLASS CAT TYPE TYPE 11548*CBM*124A 1 OF 4 C-7 AO GATE 3.000 2 B EV FS ST VP 11 A 11 STEAM GENERATOR BLOWDOYN, INSIDE CON* TAINMENT ISOLATION VALVE -------------------------------------------------------------

-------------2*BD*TV-200B 2*BD*TV-200C 2*BD*TV*200D 2*BD*TV*200E 2*BD*TV*200F 11548*CBM*124A 1 OF 4 C-6 AO GATE 11 A 11 STEAM GENERATOR BLOWDOYN, OUTSIDE CON* TAINMENT ISOLATION VALVE 11548*CBM*124A 2 OF 4 C-7 AO GATE 11 B 11 STEAM GENERATOR BLOWDOIIN, INSIDE CON* TAINMENT ISOLATION VALVE 11548*CBM*124A 2 OF 4 C-6 AO GATE 11 B 11 STEAM GENERATOR BLOWDOYN, OUTSIDE CON* TAINMENT ISOLATION VALVE 11548*CBM*124A 3 OF 4 C-7 AO GATE 11 C 11 STEAM GENERATOR BLOWDOYN, INSIDE CON* TAINMENT ISOLATION VALVE 11548*CBM*124A 3 OF 4 C*6 AO GATE 11 C 11 STEAM GENERATOR BLOWDOYN, OUTSIDE CON* TAINMENT ISOLATION VALVE 3.000 2 B 3.000 2 B 3.000 2 B 3.000 2 B 3.000 2 B EV FS ST VP EV FS ST VP EV FS ST VP EV FS ST VP EV FS ST VP PAGE: 1 OF 66 REVISION:

00 DATE: 11/10/93 NC REL CS RR ALT TEST REQ JUST JUST TEST POS V* CSV* RRV-VCN-C C C oc C C C oc C C C oc C C C oc C C C oc C C C oc ---21 21 21 ----21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 --------  

* VALVE NUMBER 1-CC-569 1-CC-578 2-CC-001 2-CC-058 2-CC-059 2-CC-094 2-CC-095 2-CC-176 2-CC-177 2-CC-181 2-CC-185 VIRGINIA PCllER COMPANY SURRY UNIT 2 THIRD INSERVICE TESTING INTERVAL INSERVICE TESTING PROGRAM -VALVE TABLE ISO DRAWING NUMBER SHEET DRWG VALVE NUMBER COOR TYPE VALVE ASME IW VALVE TEST SIZE CLASS CAT TYPE TYPE 11448-CBM-0720 1 OF 5 B-5 CHECK VALVE 11 D 11 COMPONENT COOLING PUMP DISCHARGE CHECK VALVE 11448-CBM-0720 1 OF 5 B-5 CHECK VALVE 11 C" COMPONENT COOLING PUMP DISCHARGE CHECK VALVE 11548-CBM-072A 2 OF 7 F-7 CHECK VALVE CC SUPPLY TO 11 A" RC PUMP LO, STATOR SHROUD & THERM BARRIER COOLERS, ISOL CHECK VLV 11548-CBM-072A 3 OF 7 F-7 CHECK VALVE CC SUPPLY TO 11 8 11 RC PUMP LO, STATOR SHROUD & THERM BARRIER COOLERS, ISOL CHECK VLV 11548-CBM-072A 4 OF 7 F-7 CHECK VALVE CC SUPPLY TO 11 C 11 RC PUMP LO, STATOR SHROUD & THERM BARRIER COOLERS, ISOL CHECK VLV 11548-CBM-072A 2 OF 7 C-6 CHECK VALVE COMPONENT COOLING WATER TO RCP THERMAL BARRIER ISOLATION CHECK VALVE 11548-CBM-072A 3 OF 7 C-6 CHECK VALVE COMPONENT COOLING WATER TO RCP THERMAL BARRIER ISOLATION CHECK VALVE 18.000 3 18.000 3 6.000 3 6.000 3 6.000 3 2.000 3 2.000 3 11548-CBM-072A 1 OF 7 F-7 CHECK VALVE 18.000 3 CC SUPPLY TO RHR HEAT EXCHANGER CHECK VALVE 11548-CBM-072A 1 OF 7 F-7 CHECK VALVE CC SUPPLY TO RHR HEAT EXCHANGER CHECK VALVE 11548-CBM-072A 1 OF 7 E-2 MANUAL BFLY CC RETURN FROM RHR HEAT EXCHANGER MANUAL ISOLATION VALVE 11548-CBM-072A 1 OF 7 C-2 MANUAL BFLY CC RETURN FROM RHR HEAT EXCHANGER MANUAL ISOLATION VALVE 18.000 3 18.000 3 18.000 3 C CV C CV C CV C CV C CV C CV C CV C CV C CV B EV B EV PAGE: 2 OF 66 REVISION:

00 DATE: 11/10/93 NC REL CS RR ALT TEST REQ JUST JUST TEST POS V-CSV-RRV-VCN-C 0 C 0 C C C C C C 0 C 0 C 0 C 0 6 6 6 5 5 5 5 26 26 26 26 7 7 -------------------------------------------------------------

-----------------------------------------  

* *

* VALVE NUMBER 2-CC-224 2-CC-233 2-CC-242 2-CC-329 VIRGINIA POWER COMPANY SURRY UNIT 2 THIRD INSERVICE TESTING INTERVAL INSERVICE TESTING PROGRAM -VALVE TABLE ISO DRAIJING NlllBER SHEET DRIJG VALVE NUMBER COOR TYPE VALVE ASHE IW VALVE TEST SIZE CLASS CAT TYPE TYPE 11548-CBM-0728 1 OF 3 D-2 CHECK VALVE CC SUPPLY TO 11 C 11 RECIRC AIR COOLING COILS, INSIDE CONTAINMENT ISOLATION CHECK VALVE 11548-CBM-0728 1 OF 3 D-6 CHECK VALVE CC SUPPLY TO 11 8 11 RECIRC AIR COOLING COILS, INSIDE CONTAINMENT ISOLATION CHECK VALVE 11548-CBM-0728 1 OF 3 D-8 CHECK VALVE CC SUPPLY TO 11 A 11 RECIRC AIR COOLING COILS, INSIDE CONTAINMENT ISOLATION CHECK VALVE 11548-CBM-0718 2 OF 2 D-3 CHECK VALVE CHARGING PUMP COOLING IJATER PUMP DISCHARGE CHECK VALVE 6.000 3 6.000 3 6.000 3 2.000 3 C CV C CV C CV C CV ------------------

***-. ---------------------------------------

2-CC-555 2-CC-556 2-CC-557 2-CC-592 2-CC-764 2-CC-806 2-CC-LCV-201 11548-CBM-072A 2 OF 7 C-6 CHECK VALVE COMPONENT COOLING IJATER TO RCP THERMAL BARRIER ISOLATION CHECK VALVE 11548-CBM-072A 3 OF 7 C-6 CHECK VALVE COMPONENT COOLING IJATER TO RCP THERMAL BARRIER ISOLATION CHECK VALVE 11548-CBM-072A 4 OF 7 C-6 CHECK VALVE COMPONENT COOLING IJATER TO RCP THERMAL BARRIER ISOLATION CHECK VALVE 11548-CBM-072A 4 OF 7 C-6 CHECK VALVE COMPONENT COOLING IJATER TO RCP THERMAL BARRIER ISOLATION CHECK VALVE 11548-CBM-0718 2 OF 2 C-7 CHECK VALVE CHARGING PUMP COOLING IJATER PUMP DISCHARGE CHECK VALVE 11448-CBM-072E 1 OF 2 C-5 CHECK VALVE CHARGING PUMP SEAL COOLING SURGE TANK MAKEUP CHECK VALVE 11548-CBM-0718 2 OF 2 D-5 AO GATE CHARGING PUMP SEAL COOLING SURGE TANK LEVEL CONTROL/ISOLATION VALVE 2.000 3 C CV 2.000 3 C CV 2.000 3 C CV 2.000 3 C CV 2.000 3 C CV 1.000 3 C CV -------------1.000 3 B EV FS ST PAGE: 3 OF 66 REVISION:

00 DATE: 11/10/93 NC REL CS RR ALT TEST REQ JUST JUST TEST POS V-CSV-RRV-VCN-C C C C 0 C C C C C 0 0 C 0 C C 0 ---47 47 5 5 5 7 7 7 7 30 ------------31 31 31 31 31

* VAtVE NUMBER 2*CC*RV-212A 2*CC*RV*212B 2*CC*RV-212C 2*CC*RV-219A 2*CC*RV*219B 2-CC*RV-224

* 2*CC*RV-238A 2*CC*RV*238B 2*CC*RV-238C 2-CC*TV*205A 2*CC*TV-205B

* VIRGINIA POWER COMPANY SURRY UNIT 2 THIRD INSERVICE TESTING INTERVAL INSERVICE TESTING PROGRAM -VALVE TABLE DRAWING NUMBER SHEET DRWG VALVE NUMBER COOR TYPE 11548*CBM-072B 1 OF 3 C-7 RELIEF VALVE REACTOR CONTAINMENT AIR RECIRCULATION COOLER RELIEF VALVE 11548*CBM*072B 1 OF 3 C-5 RELIEF VALVE REACTOR CONTAINMENT AIR RECIRCULATION COOLER RELIEF VALVE 1t548*CBM*072B 1 OF 3 C-3 RELIEF VALVE REACTOR CONTAINMENT AIR RECIRCULATION COOLER RELIEF VALVE 11548*CBM*072A 1 OF 7 E-3 RELIEF VALVE 11 A 11 RHR HEAT EXCHANGER COMPONENT COOLING RELIEF VALVE 11548*CBM-072A, 1 OF 7 D-3 RELIEF VALVE 11 8 11 RHR HEAT EXCHANGER COMPONENT COOLING RELIEF VALVE 11548*CBM*072A 5 OF 7 F-6 RELIEF VALVE COMPONENT COOLING PIPING RELIEF 11548*CBM*072A 2 OF 7 F-6 RELIEF VALVE REACTOR SHROULD COOLING COIL RELIEF VALVE 11548*CBM*072A 3 OF 7 F-6 RELIEF VALVE REACTOR SHROULD COOLING COIL RELIEF VALVE 11548*CBM*072A 4 OF 7 F-6 RELIEF VALVE REACTOR SHROULD COOLING COIL RELIEF VALVE 11548*CBM*072A 2 OF 7 B-4 AO BALL CC RETURN FROM "A" RC PUMP LO,STATOR

& SHROUD COOLERS, OUTSIDE CONTAINMENT ISOLATION VALVE 11548*CBM*072A 3 OF 7 B-4 AO BALL CC RETURN FROM 11 8 11 RC PUMP LO,STATOR

& SHROll> COOLERS, OUTSIDE CONTAINMENT ISOLATION VALVE ISO VALVE ASME IWV VALVE TEST SIZE CLASS CAT TYPE TYPE .750 3 .750 3 .750 3 1.500 3 1.500 3 .750 3 .750 3 .750 3 .750 3 6.000 3 6.000 3 C C C C C C C C C B B SP SP SP SP SP SP SP SP SP EV FS ST VP EV FS ST VP PAGE: 4 OF 66 REVISION:

00 DATE: 11/10/93 NC REL CS RR ALT TEST REQ JUST JUST TEST POS V* CSV* RRV* VCN* 0 0 0 0 0 0 0 0 0 C C C oc C C C oc 6 6 6 6 6 6

* VALVE NUMBER 2*CC*TV*205C 2*CC*TV*209A 2*CC*TV*209B

* 2*CC*TV*210A 2*CC*TV*210B 2*CC*TV*210C 2*CC*TV*220A 2-CC*TV*220B

* VIRGINIA POWER COMPANY SURRY UNIT 2 THIRD INSERVICE TESTING INTERVAL INSERVICE TESTING PROGRAM* VALVE TABLE ISO DRAWING NUMBER SHEET DRWG VALVE NUMBER COOR TYPE VALVE ASME IW VALVE TEST SIZE CLASS CAT TYPE TYPE 11548*CBM*072A 4 OF 7 B-4 AO BALL 6.000 3 CC RETURN FROM 11 C 11 RC PUMP LO,STATOR

& SHROUD COOLERS, OUTSIDE CONTAINMENT ISOLATION VALVE 11548*CBM*072A 1 OF 7 B-7 AO BFLY CC RETURN FROM 11 A 11 RHR HEAT EXCHANGER, OUT* SIDE CONTAINMENT ISOLATION VALVE 11548*CBM*072A 1 OF 7 C-7 AO BFLY CC RETURN FROM 11 B 11 RHR HEAT EXCHANGER, OUT* SIDE CONTAINMENT ISOLATION VALVE 11548*CBM*072B 1 OF 3 E-7 AO BFLY CC RETURN FROM 11 A 11 RECIRC AIR COOLING COILS, OUTSIDE CONTAINMENT ISOLATION VALVE 11548*CBM*072B 1 OF 3 E-5 AO BFLY CC RETURN FROM 11 B 11 RECIRC AIR COOLING COILS, OUTSIDE CONTAINMENT ISOLATION VALVE 11548*CBM*072B 1 OF 3 E-4 AO BFLY CC RETURN FROM 11 C 11 RECIRC AIR COOLING COILS, OUTSIDE CONTAINMENT ISOLATION VALVE 11548*CBM*072A 2 OF 7 C-5 AO GATE CC RETURN FROM REACTOR COOLANT PUMP THERMAL BARRIER ISOLATION VALVE 11548*CBM*072A 3 OF 7 C-5 AO GATE 18.000 3 18.000 3 6.000 3 6.000 3 6.000 3 1.500 3 1.500 3 B B B B B B B B EV FS ST VP EV FS ST VP EV FS ST VP EV FS ST VP EV FS ST VP EV FS ST VP EV FS ST VP EV PAGE: 5 OF 66 REVISION:

00 DATE: 11/10/93 NC REL CS RR ALT TEST REQ JUST JUST TEST POS V* CSV* RRV* VCN* C C C oc C 0 C C 0 oc C 0 C C 0 oc C C C oc C C C oc C C C oc C C C oc C 6 6 6 27 27 27 27 

* .,VALVE NUMBER 2*CC*TV-220B 2*CC*TV-220C 2*CC-TV-240A 2*CC*TV-240B