Text

Rev 7 to Inservice Testing Program,Callaway Nuclear Plant
	ML20207Q156
Person / Time
Site:	Callaway
Issue date:	01/15/1987
From:	Roesner G, Witt W; UNION ELECTRIC CO.
To:	;
Shared Package
ML20207Q155	List: ML20207Q154; ML20207Q156;
References
	PROC-870115, NUDOCS 8701230127
	Download: ML20207Q156 (146)
	v • d • e

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INSERVICE TESTING PROGRAM CALLAWAY NUCLEAR PLANT

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i REVISION 7 JANUARY 15, 1987 PREPARED BY: REVIEWED BY:

&{W v0 SWit adh b AAI GARY J. ROESNER WARREN A. WITT IST ENGINEER SUPERVISING ENGINEER -

MECHANICAL SYSTEMS 8701230127 DR 870134 ADOCK 05000483 PDR r

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3 Rev. 7 TABLE OF CONTENTS PAGE INTRODUCTION

11 1.0 INSERVICE TESTING OF PUMPS 1.1 Gene ral In fo rmation . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1.2 P ro g ram I n fo rma t i o n . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1.3 Test Frequency ................................ I 1.4 Req ue s t fo r Rel i e f . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 1.5 Special Test .................................. 2 2.0 INSERVICE TESTING OF VALVES 2.1 General Information ........................... 2 2.2 Program Information ........................... 2 2.3 Piping and Instrumentation Drawings ........... 5 2.4 Req ue s t fo r Rel i e f . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 2.5 Explanation of Abbreviations and Notes . . . . . . . . 7 3.0 INSERVICE TESTING PROGRAM 3.1 ISI Pump Program 3.2 ISI Valve Program Appendix A - Relief Requests for Pumps Appendix B - Relief Requests for Valves

1 Rev. 7 INTRODUCTION

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The Inservice Testing Program for Callaway Plant was developed in compliance with the rules and regulations of 10CFR50.55a and Section XI of the ASME Boiler and Pressure Vessel Code, 1980 Edition through Winter 1981 Addenda.

Where these rules were determined to be impractical, specific relief was written.

Section 1.0 discusses the Inservice Testing Program of applicable ASME Class 1, 2 and 3 pumps. Section 2.0 discusses the Inservice Testing Program of applicable ASME Class 1, 2 and 3 valves.

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Rev. 7 1.0 INSERVICE TESTING OF PUMPS 1.1 GENERAL INFORMATION The Inservice Testing Program for ASME Class 1, 2 and 3 pumps was developed in accordance with, and meets the requirements of. ASME Boiler and Pressure Vessel Code,Section XI, Subsection IWP, 1980 Edition through Winter 1981 Addenda.

The Inservice Testing Program for pumps will remain in effect through the next 10 year inservice inspection interval.

Section 3.1 lists all Class 1, 2 and 3 pumps which are to be tested, along with the applicable paramgters to be measured.

1.2 PROGRAM INFORMATION The following information is included in the Inservice Testing Program for pumps:

A. Pump Number lists the pump identification number as shown on the P&ID's.

B. Pump Name describes the pump's functional identification as it is related to system operation.

C. ISI Class is the Owner's classification of the pump per ISI requirements.

D. Test Paramete~s indicates the required test quantities measured per Table IWP-3100-1.

E. Notes are general statements which can be referred to in the ISI Testing Program. Requests for Relief (see 1.4) are also denoted here as RR (#).

1.3 TEST FREQUENCY An inservice test shall be run on each pump nominally every three months during plant operation. If this frequency can reasonably be accomplished during shutdown periods it will be, however,

! this is not mandatory. Where a pump is not tested on a three month frequency during plant shutdown, it will be tested prior i to declaring the system operable, per Technical Specifications.

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Rey, 7 1.4 R'IQUEST FOR RELIEF Where ASME Section XI requirements were determined to be impractical, a request for relief was written. These requests were developed to -

the guidelines suggested in an NRC letter dated January 1978.

Where relief from an ASME Code requirement is granted within the provisions of 10CFR50.55a (g)(6)(i), it will be incor-porated into the Callaway Inservice Testing Program.

Relief requests are shown in Appendix A.

1.5 SPECIAL TEST Where a pump is operated more frequently than every three months, it need not be stopped for a special test, provided the requirements of IWP-3400b are met.

2.0 INSERVICE TESTING OF VALVES 2.1 GENERAL INFORMATION The Inservice Testing Program for ASME Class 1, 2 and 3 valves was developed in accordance with, and meets the requirements of ASME Boiler and Pressure Vessel Code,Section XI, Subsection IWV, 1980 Edition through Winter 1981 Addenda.

The Inservice Testing Program for valves will remain in effect throughout the next 10 year inservice inspection interval.

The tables are organized by system in order of the assigned P&ID's number and are listed in Section 2.3.

2.2 PROGRAM INFORMATION The following information is included in the Inservice i Testing Program for valves:

A. System (SY) lists the SNUPPS system designator for the valve.

B. Valve Number (VLV-NUMBER) lists the valve identification i number as shown on the P&ID's..

C. P&ID and Coordinates references the P&ID on which the valve appears and its coordinates.

D. ISI Class (I) is the Owner's classification of the valve per ISI requ'rements.

Rev. 7 J

5-E. Valve Category (CAT) indicacAs the category assigned to the valve based on the d0finitions of IWV-2200.

F. Valve Size (SIZE) lists the nominal pipe size of the valve in inches.

G. Valve Type (TYP) lists the valve design.

H. Actuator Type (AT) lists the type of valve actuator.

I. Valve Position (POS) indicates the normal position of the valve during plant operation; either normally open (0),

or normally closed (C).

J. Stroke Direction (DIR) indicates the direction which an active valve must stroke to perform its safety function.

Also, the direction in which the valve will be stroked to satisfy the exercising requirements of IWV-3410 or IWV-3520. This may be specified as open (0), closed (C),

or both (0/C).

K. Test (TST) lists the test or tests that will be performed for each valve to fulfill the requirements of Subsection IWV.

Seat Leak Test AT Valve will be seat leak tested at the appropriate functional differential pressure.

Full Stroke Exercise Test BT Valve will be full stroke exercised for operability in the direction necessary to fulfill its safety function.

Partial Stroke Exercise Test BTP Valve will be partial stroke exercised when full stroke exercising is impractical.

Check Valve Partial Exercise Test CVP Check valve will be partial stroke exercised, (i.e. disc moves away from seat) when full stroke exercising is impractical.

Check Valve Exercise CVT Check valve will be exercised to the position required to fulfill its function. This functional test will be verified by the operation of the required system.

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Rev. 7 3

Fail-Safe Test U ,

FST All valves with fail-safe actuators will be tested to .

verify proper fail-safe operation upon loss of actuator power. ,

! Position Indicating Test -? PIT Automatically actuated valves withiremote indication '

will be verified in accordance with IWV-3300.

$ Relief Valve Set Point Check -

RVT Relief and safety valve set points will be verified in '

accordance with IWV-3510.

L. Test Mode (TM) indicates the frequency at which the above 1

mentioned tests will be performed. The following abbre-viations are used: -

i Cold Shutdown i CS Valve testing at cold shutdown is valvi testing which commences not later than forty-eight (48) hours after

! cold shutdown and continues until required testing is completed or plant startup, whichever occurs' first.

Completion of all required valve testing is not a pre-requisite to plant startup. Valve testing which is not i completed during a cold shutdown will be performed during subsequent cold shutdowns to meet the code specified testing requirements. No valve is required to be tested more often than once every 90 days.

! NOTE: Completion of all valve testing during cold shut-down is not required if plant operating conditions will not permit the testing of specific valves. Specific re-quests for relief will be provided for any valves that routinely or frequently fall into this situation.

f Normal Operation x OP l Valve tests with this designation w'ill be performed once j every three months. --

Reactor Refueling RR Valve tests with this designation will be conducted at reactor refueling outages only. .

M. Max Stroke Time (MAX) lists the maximum allowed full stroke c time measured in seconds from sicial initiation until stroke completion whenever the valve is full stroke tested (ref.

IWV-3413).

N. Relief Request (R/R) references the. relief request' contained in Appendix 8 that applies to the particular valve.

O. NOTES lists clarification remarks.

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Rev. 7 2.3 PIPING AND INSTRUMENTATION DRAWINGS

- The following P&ID's contain valves which are part of the In-service Testing Program:

Systen P&ID Revision Main Steam System M-02AB01 11 M-02AB02 12 Feedwater System M-02AE01 13 M-02AE02 12 Condensate Storage and Transfer M-22AP01 01 Auxiliary Feedwater System M-02ALO1 14 Reactor Coolant System M-02BB01 15 M-02BB02 17 M-02BB03 11 M-02BB04 05 Chemical & Volume Control System M-02BG01 12 M-02BG02 12

> M-02BG03 15 M-02BG04 09 M-02BG05 13 i

Reactor Make-up Water System M-02BL01 09 Steam Generator Blowdown System . M-02BM01 12 J Borated Refueling Water Storage System M-02BN01 12 Fuel Pool Cooling and Clean-up System M-02EC01 10 M-02EC02t 10 i

. Essential Service Water System M-U2EF01 10 M-02EF01 10 M-02EF02 10 Component Cooling Water System M-02EG01 11 M-02EG02 12 M-02EG03 15 Residual Heat Removal System M-02EJ01 14 High Pressure Cooling Injection System M-02EM01 08 M-02EM02 11 Containment Spray System M-02EN01 06

s, Rev. 7 System P&ID Revision Accumulator Safety Injection System M-02EP01 12

s' Auxiliary Turbines-Auxiliary Feedwater M-02FC02 10 Pump Turbine Containment Hydrogen Control System M-02GS01 08 Containment Purge System M-02GT01 15 Liquid Radwaste System M-02HB01 13 Decontamination System M-02HD01 05 Emergency Fuel Oil System M-02JE01 05 Compressed Air System M-02KA01 14 M-02KA02 11 M-02KA05 05 Fire Protection System ,

M-02KCO2 12 Standby Diesel Generator System M-02KJ01 04 M-22KJ02 00 M-02KJ03 03 M-02KJ04 03 M-22KJ05 00 M-02KJ06 02 _

Reactor Building and Hot Machine Shop M-02LF09 11 Floor and Equipment Drain System Nuclear Sampling System M-02SJ01 10 M-02SJ04 03 I

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Rev. 7 2.4 REQUEST FOR RELIEF Where ASME Section XI requirements were determined to be impractical, a request for relief was written. These requests were developed to the guidelines suggested in an NRC letter dated January 1978. (See Appendix B.)

2.5 EXPLANATION OF ABBREVIATIONS AND NOTES A. General SY - System VLV-NUMBER - Valve Number CRD - P&ID Coordinates I - ISI Class CAT - Valve Category TYP - Valve Type AT - Actuator Type POS - Normal Position DIR - Stroke Direction TST - Test TM - Test Mode MAX - Maximum Allowable Stroke Time -

R/R - Relief Request B. Valve Type BA - Ball CK - Check GA - Gate GL - Globe RV - Relief SV - Safety TW - Three way AG - Angle Globe BT - Butterfly DI - Diaphragm

Rev. 7 C. Actuator Type M - Manual A0 - Air Operator MO - Motor Operator SA - Self Actuated 50 - Solenoid D. Test AT - Seat Leak Test BT - Full Stroke Exercise Test BTP - Partial Stroke Exercise Test CVP - Partial Check Valve Exercise Test

-CVT - Check Valve Exercise Test FST - Fail Safe Test PIT - Position Indicating Test RVT - Relief or Safety Valve Test E. Test Mode .

CS - Cold Shutdown OP - Normal Operation RR - Reactor Refueling EXPLANATION OF NOTES NOTES:

1. This valve is checked for locked closed or locked open position.

2. This valve is a pressure relief valve and will be tested at the frequency stated in IWV-35il.

3. This valve is a passive valve and does not require testing.

4. This valve cannot be full stroke exercised.

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Rev. 7

5. This valve cannot be partially stroke exercised during plant operation.

6. All motor operated valves fail-as-is and therefore do not require a fail safe test per IWV-3415.

7. An intersystem LOCA seat leakage test will be performed in accordance with Owner's requirements.

8. This valve is tested when the containment spray header is tested per Technical Specification.

9. This valve is A passit' and will only receive a seat leakage test.

10. The seat leakage test for this valve will be performed in accordance with 10CFR50 Appendix J requirements.

11. This valve is within a non-safety related system, however, it is used for containment isolation and therefore will receive a seat leakage test in accordance with 10CFR50 Appendix J requirements.

12. Position of valve is determined to be non-safety related and therefore requires no testing.

13.

Position indication will be-performed by verification of flow conditions.

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Rev. 7 e

3.0 INSERVICE TESTING PROGRAM I

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Rsv. 7 4

e SECTION 3.1 INSERVICE TESTING PROGRAM -

PUMPS CALLAWAY NUCLEAR PLANT a

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R v. 7 l INSERVICE TESTING PROGRAM ISI CLASS 1, 2, & 3 PUMPS January 15. 1982 CALLAWAY NUCLEAR PLAllT Page 1 of 4 l PUMP PUMP ISI P & ID AND TEST PARAMETERS HUMBER NAME CLASS CORDINATES VIBRA- LUBRI-INLET DIFF. FLOW-SPEED PRESS. PRESS. RATE TION CATION NOTES 1

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' Note 1 l

Motor Driven Auxiliary M-02AL01 RRf P07 E-4 N/A YES YES YES YES YES PALO1A Feedwater Pump A 3 RRf PO4 P08, POS j!

Note 1 i Motor Driven Auxiliary 3 M-02AL01 N/A YES YES YES YES YES PALOIB Feedwater Pump B G-4 P08, P05 l

.N te 1 M-02AL01 RRf P07 Turbine Driven B-4 & YES YES YES YES YES YES RRf P04 PALO2 Auxiliary Feedwater 3 M-02FC02 P08, P05 i

Pump l

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Note 1 CVCS Boric Acid M-02BG05 N/A YES YES N0 YES NO RRf P07 Transfer Pump A 3 B-6 RRf PO4 PBG02A

'ruS, P09 P10 Note 1 M-02BG05 N/A YES YES NO YES NO RR# P07 CVCS Boric Acid Transfer Pump B 3 A-6 RRf PO4 PBG02B P08, P09 P10 l

i Note 1 l Centrifugal M-02BG03 f0 ,

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C-5 N/A YES YES NO YES YES l PBG05A Charging Pump A 2 3, P08, P04 f

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Rev. 7 INSERVICE TESTING PROGRAM ISI CLASS 1, 2, & 3 PUMPS- January 15, 1982 l CALLAWAY NUCLEAR PLAtlT p,q, p of 4 i

PUMP PUMP ISI P & ID AND TEST PARAMETERS NUMBER NAME CLASS CORDINATES INLET DIFF. FLOW- VIBRA- LUBRI-SPEED PRESS. PRESS. RATE TION CATION NOTES Note 1 Centrigugal -

M-02BG03 RRf P06 PBG05B Charging Pump B 2 B-5 il/A YES YES N0 YES YES P07. P03 008. PO4 li Note 1

Essential Service *2 Water Pump A 3 M- F01 N/A YES YES YES YES YES p, j PEF 01A P08, P04 i

, Note 1 Note 2

! Essential Service M-U2EF01 PEF 01B Water Pump B 3 C-6 N/A YES YES YES YES YES RRf P07 P08. P04 I Note 1 Component Cooling M-02EG01

' 7 i PEG 01A Water Pump A 3 G-4 N/A YES YES YES YES YES j

Note 1 Component Cooling M-02EG01 RRf P08 PEG 01B Water Pump B 3 D-4 N/A YES YES YES YES YES PO4, P07 i

e Component Cooling M-02EG01 P08 PEG 01C Water Pump C -3 E-4 N/A YES YES YES YES YES PO4, P07 e

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y INSERVICE TESTING PROGRAM ISI CLASS 1, 2, & 3 PUMPS January 15. 198]

CALLAWAY NUCLEAR PLAllT Page 3 of 4 i

! PUMP PUMP ISI P & ID AND TEST PARAMETERS j NUMBER NAME CLASS CORDINATES

' INLET DIFF. FLOW- VIBRA- LUBRI-SPEED PRESS. PRESS. RATE TION CATION NOTES

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) Note 1 RRf P08 Component Cooling M-02EG01 P04, P07 PEG 01D Water Pump D 3 B-4 N/A YES YES YES YES YES i

i Note 1 Residual Heat M-02EF01 RRf P01 PEJ01A Transfer Pump A 2 G-6 N/A YES YES YES YES YES P04, F08 1 P07

. Note 1

! RRf P01 Residual Heat H-02EJ01 , P08 PEJ01B Transfer Pump B 2- C-6 N/A YES YES YES YES YES Note 1 Safety Injection M-02EM01 RRf P08 PEM01A Pump A 2 E-6 N/A YES YES YES YES YES PO4, P07 i Note 1 Safety Injection M-02EM01 RRf P08 PEM01B Pump B 2 D-6 N/A YES YES YES YES YES P04, P07 Note 1 l Containment M-02EN01 RRf P08

PEH01A Spray Pump A ~2 G-6 N/A YES YES YES YES YES P04, P07 i

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INSERVICE TESTING PROGRAM ISI CLASS 1, 2, & 3 PUMPS January 15. 1982 CALLAWAY NUCLEAR PLANT

! Page 4 of 4 PUMP PUMP ISI P & ID AND TEST PARAMETERS

! NUMBER NAME CLASS CORDINATES INLET DIFF. FLOW- ' VIBRA- LUBRI-SPEED PRESS. PRESS. RATE TION CATION NOTES l

Note 1 l Containmenit M-02EN01 P PEN 01B Spray Pump.B 2 B-6 N/A YES YES YES YES YES i

Note 1

< Emergency Fuel M-02JE01 '

PJE01A 011 Transfer Pump A 3 E-7 N/A NO YES YES NO N0 P02 P04 Emergency Fuel M-02JE01 e3 j PJE018 011 Transfer Pump B 3 A-7 N/A N0 YES YES NO NO RRf P02 PO4 l

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Rev. 7 NOTE 1 - Pump discharge pressure is measured and compared with inlet pressure to determine differential pressure.

NOTE 2 - Pump inlet pressure is determined with level in ultimate heat sink.

NOTE 3 - Pump flow measurements will be made when design change to install flow indicators is implemented.

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Rev. 7 e

SECTION 3,2 4

INSERVICE TESTING PROGRAM - VALVES CALLAWAY NUCLEAR PLANT 4

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- Pcg3 1 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

AB PV 0001 M-02AB01 G-3 2 B 8" GL A0 C O/C BT CS 20 AB-1 5 AB PV 0001 M-02AB01 G-3 2 B 8" GL AO C O/C FST CS AB-1 5 AB PV 0001 M-02AB01 G-3 2 B 8" GL A0 C O/C PIT RR AB PV 0002 M-02AB01 D-3 2 B 8" GL A0 C O/C BT CS 20 AB-1 5 AB PV 0002 M-02AB01 D-3 2 B 8" GL A0 C O/C FST CS AB-1 5 AB PV 0002 M-02AB01 D-3 2 B 8" GL A0 C O/C PIT RR AB PV 0003 M-02AB01 D-6 2 B 8" GL A0 C O/C BT CS 20 AB-1 5 AB PV 0003 M-02AB01 D-6 2 B 8" GL A0 C O/C FST CS AB-1 5 AB PV 0003 M-02AB01 D-6 2 B 8" GL 'A0 C O/C PIT RR AB PV 0004 M-02AB01 G-6 2 B 8" GL A0 C O/C BT CS 20 AB-1 5

, AB PV 0004 M-02AB01 G-6 2 B 8" GL A0 C O/C FST CS AB-1 5 AB PV 0004 M-02AB01 G-6 2 B 8" GL A0 C O/C PIT RR 9

Paga 2 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

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- AB HV 0005 M-02AB02 D-4 2 8 4" GL AO C 0 BT OP 10 AB HV 0005 M-02AB02 D-4 2 B 4" GL A0 C 0 FST OP AB HV 0005 M-02AB02 D-4 2 B 4" GL A0 C 0 PIT RR i

AB EV 0006 M-02AB02 C-4 2 3 4" GL A0 C 0 BT OP 10 AB HV 0006 M-02AB02 C-4 2 B 4" GL A0 C 0 FST OF AB HV 0006 M-02AB02 C-4 2 3 4" GL A0 C 0 PIT RR AB HV 0011 M-02AB02 H-3 2 B 28" GA A0 0 C BT CS 5 AB-2 AB HV 0011 M-02AB02 H-3 2 B 28" GA A0 0 C BTP OP AB HV 0011 M-02AB02 H-3 2 B 28" GA A0 0 C PIT RR

! AB HV 0012 M-02AB02 G-3 2 B 2" GL A0 C C NA 3 AB HV 0014 M-02AB02 F-3 2 B 28" GA A0 0 C BT CS 5 AB-2

AB HV 0014 M-02AB02 F-3 2 B 28" GA A0 0 C BTP OP AB HV 0014 M-02AB02 F-3 2 B 28" GA A0 0 C PIT RR

, AB HV 0015 M-02AB02 F-3 2 B 2" GL A0 C C NA 3 AB HV 0017 M-02AB02 D-3 2 B 28" GA A0 0 C BT CS 5 AB-2 AB HV 0017 M-02AB02 D-3 2 B 28" GA A0 0 C BTP OP

AB HV 0017 M-02AB02 D-3 2 B 28" GA A0 0 C PIT RR AB HV 0018 M-02AB02 D-3 2 B 2" GL A0 C C NA 3 l AB HV 0020 M-02AB02 C-3 2 B 28" GA A0 0 C BT CS 5 AB-2

AB HV 0020 M-02AB02 C-3 2 B 28" GA 'A0 0 C BTP OP-

, AB HV 0020 M-02AB02 C-3 2 B 28" GA A0 0 C PIT RR AB HV 0021 M-02AB02 C-3 2 B 2" GL A0 C C NA 3 AB HV 0048 M-02AB02 D-4 2 B 1" GL A0 0 C BT OP 5 AB HV 0048 M-02AB02 D-4 2 B 1" GL A0 0 C FST OP AB HV 0048 M-02AB02 D-4 2 B 1" GL A0 0 C PIT RR AB HV 0049 M-02AB02 C-4 2 B 1" GL A0 0 C BT OP 5 AB HV 0049 M-02AB02 C-4 2 B 1" GL A0 0 C FST OP i

AB HV 0049 M-02AB02 C-4 2 B 1" GL A0 0 C PIT RR ,

AB LV 0007 M-02AB02 B-4 2 B 2" GL A0 C C NA 3 AB LV 0008 M-02AB02 D-5 2 B 2" GL A0 C C NA 3 i AB LV 0009 M-02AB02 E-4 2 B 2" GL A0 C C NA 3 AB LV 0010 M-02AB02 G-4 2 B 2" GL A0 C C NA 3 AB V 0045 M-02AB02 H-7 2 C 6" SV SA C 0 RVT 2 l

AB V 0046 M-02AB02 H-7 2 C 6" SV SA C 0 RVT 2 l AB V 0047 M-02AB02 H-6 2 C 6" SV SA C 0 RVT 2 l AB V 0048 M-02AB02 H-5 2 C 6" SV SA C 0 RVT 2 i AB V 0049 M-02AB02 H-5 2 C 6" SV SA C 0 RVT 2 AB V 0055 M-02AB02 F-7 2 C 6" SV SA C 0 RVT 2 ;

AB V 0056 M-02AB02 F-7 2 C 6" SV SA C 0 RVT 2 AB V 0057 M-02AB02 F-6 2 C 6 "- SV SA C 0 RVT 2 AB V 0058 M-02AB02 F-5 2 C 6" SV SA C 0 RVT 2 AB V 0059 M-02AB02 F-5 2 C 6" SV SA C 0 RVT 2 i AB V 0065 M-02AB02 D-7 2 C 6" SV SA C 0 RVT 2

! AB V 0066 M-02A302 D-7 2 C 6" SV SA C 0 RVT 2 AB V 0067 M-02AB02 D-6 2 C 6" SV SA C 0 RVT 2 l AB V 0068 M-02AE02 D-5 2 C 6" SV ,SA C 0 RVT 2 l

AB V 0069 M-02AB02 D-5 2 C 6" SV SA C 0 RVT 2 AB V 0075 M-02AB02 C-7 2 C 6" SV SA C 0 RVT 2 l AB V 0076 M-02AB02 C-7 2 C 6" SV SA C 0 RVT 2 AB V 0077 M-02AB02 C-6 2 C 6" SV SA C 0 RVT 2 AB V 0078 M-02AB02 C-5 2 C 6" SV SA C 0 RVT 2 AB V 0079 M-02AB02 C-5 2 C 6" SV SA C 0 RVT 2 l

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Pcg3 3 R;v. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

AE FCV0510 M-02AE01 E 3 14" AG AO O C NA 12 AE FCV0520 M-02AE01 C B 14" AG A0 0 C NA 12 AE FCV0530 M-02AE01 B B 14" AG A0 0 C NA 12 AE FCV0540 M-02AE01 G B 14" AG A0 0 C NA 12 AE FCV0550 M-02AE01 E B 4" GL A0 C C NA 12 AE FCV0560 M-02AE01 C B 4" GL A0 C C NA 12 AE FCV0570 M-02AE01 A B 4" GL A0 C C NA 12 AE FCV0580 M-02AE01 G B 4" GL A0 C C NA 12 i

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Paga 4 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

AE FV 0039 M-02AE02 G-3 2 B 14" GA A0 0 C BT CS 5 AE-4 AE FY 0039 M-02AE02 G-3 2 B 14" GA A0 0 C BTP OP AE FV 0039 M-02AE02 G-3 2 B 14" GA A0 0 C FST CS AE-4 AE FV 0039 M-02AE02 G-3 2 B 14" GA A0 0 C PIT RR AE FV 0040 M-02AE02 C-3 2 3 14" GA A0 0 C BT CS 5 AE-4 AE FY 0040 M-02AE02 C-3 2 B 14" GA A0 0 C BTP OF AE FV 0040 M-02AE02 C-3 2 B 14" GA A0 0 C FST CS AE-4 AE FV 0040 M-02AE02 C-3 2 B 14" GA A0 0 C PIT RR AE FY 0041 M-02AE02 C-6 2 B 14" GA A0 0 C BT CS 5 AE-4 AE FV 0041 M-02AE02 C-6 2 3 14" GA A0 0 C BTP OP AE FY 0041 M-02AE02 C-6 2 B 14" GA A0 0 C FST CS AE-4 AE FY 0041 M-02AE02 C-6 2 B 14" GA A0 0 C PIT RR AE FV 0042 M-02AE02 G-6 2 B 14" GA A0 0 C BT CS 5 AE-4

, AE FV 0042 M-02AE02 G-6 2 B 14" GA A0 0 C BTP OP AE FV 0042 M-02AE02 G-6 2 B 14" GA A0 0 C FST CS AE-4 AE FV 0042 M-02AE02 G-6 2 B 14" GA A0 0 C ~ PIT RR AE IV 0043 M-02AE02 G-4 2 B 1" GL A0 C C NA 3 AE FV 0044 M-02AE02 D-4 2 B 1" GL A0 C C NA 3

, AE FV 0045 M-02AE02 D-7 2 B 1" GL A0 C C NA 3 AE FV 0046 M-02AE02 G-7 2 B 1" GL A0 C C NA 3 AE V 0120 M-02AE02 C-4 2 C 14" CK SA 0 C CVT RR AE-1 AE V 0121 M-02AE02 F-4 2 C 14" CK SA 0 C CVT RR AE-1 '

AE V 0122 M-02AE02 F-7 2 C 14" CK SA 0 C CVT RR AE-1 AE V 0123 M-02AE02 C-7 2 C 14" CK SA 0 C CVT RR AE-1 i AE V 0124 M-02AE02 C-3 2 C 4" CK SA C 0 CVT CS AE-3 5 AE V 0125 M-02AE02 F-3 2 C 4" CK SA C 0 CVT CS AE-3 5

AE V 0126 M-02AE02 F-6 2 C 4" CK SA C 0 CVT CS AE-3 5 .

AE V 0127 M-02AE02 C-6 2 C 4" CK SA C 0 CVT CS AE-3 5 i

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. - . _ - - _ . _ _ . _ _ _ . _ _ _ . _ _ ,__ . - , _ - . . _ _ _ - _ , ~ _ , - _ . _ . _ _ _ _ _ _ _ . _ _ _ _ _ _ _ . _ _ . , , . _ _ _ . , _ _ . _ , _ , _ , _ , , _ _ _ _ _ . _ . . . . .

Paga 5 ,

R:v. 7 j INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

AL HV 0005 M-02AL01 H-6 2 B 4" GL M0 O C BT OP 10 AL HV 0005 M-02AL01 H-6 2 B 4" GL MO O C PIT RR AL HV 0006 M-02AL01 G-6 2 B 4" GL A0 0 C BT OP 10

< AL HV 0006 M-02AL01 G-6 2 3 4" GL' A0 0 C. PIT RR i- AL HV 0007 M-02AL01 F-6 2 B 4" GL MO O C BT OP 10

'AL HV 0007 M-02AL01 F-6 2 B 4" GL MO O C PIT RR

, AL HV 0008 M-02AL01 E-6 2 B 4" GL AO O C BT OP 10

. AL HV 0008 M-02AL01 E-6 2 B 4" GL A0 0 C PIT RR AL HV 0009 M-02ALOL D-6 2 B 4" GL MO O C BT OP 10 AL HV 0009 M-02ALOL D-6 2 B 4" GL MO O C PIT RR AL HV 0010 M-02AL01 D-6 2 B 4" GL A0 0 C BT OP 10 AL HV 0010 M-02AL01 D-6 2 B 4" GL A0 0 C PIT RR AL HV 0011 M-02AL01 C-6 2 B 4" GL MO O C BT OP 10

. AL HV 0011 M-02AL01 C-6 2 B 4" GL MO O C PIT RR I

AL HV 0012 M-02AL01 B-6 2 B 4" GL A0 0 C BT OP 10 AL HV 0012 M-02AL01 B-6 2 B 4" GL A0 0 C PIT RR f

AL HV 0030 M-02AL01 F-3 3 B 6" BT M0 C 0 BT OP 20 6 AL HV 0030 M-02ALOL F-3 3 B 6" BT M0 C 0 PIT RR i AL HV 0031 M-02AL01 E-3 3 B 6" BT M0 C 0 BT OF 20 6 AL HV 0031 M-02AL01 E-3 3 5 6" BT MO C 0 PIT RR -

l AL HV 0032 M-02ALO1 C-3 3 B 8" BT M0 C 0 BT OP 22 6 i AL HV 0032 M-02ALO1 C-3 3 B 8" BT M0 C 0 PIT RR i AL HV 0033 M-02AL01 B-3 3 5 8" BT M0 C 0 BT OP 22 6 8" BT M0 C PIT RR AL HV 0033 M-02AL01 B-3 3 8 0 AL HV 0034 M-02AL01 H-3 3 B 8" GA MO O C BT OP 40 6 AL HV 0334 M-02AL01 H-3 3 B 8" GA MO O C PIT RR l AL HV 0035 M-02ALO1 D-3 3 B 8" GA MO O C BT OP 40 6 i AL HV 0035 M-02ALO1 D-3 3 B 8 CA MO O C PIT RR AL HV 0036 M-02ALOL B-3 3 B 10" GA MO O C BT OP 40 6 AL HV 0036 M-02ALOL B-3 3 B 10" GA MO O C PIT RR AL V 0001 M-02AL01 B-4 3 C 10" CK SA C 0 CVP OP AL V 0001 M-02AL01 B-4 3 C 10" CK SA C 0 CVT CS AL-1 '

j AL V 0002 M-02ALO1 D-4 3 C 8" CK SA C 0 CVP OP l AL V 0002 M-02AL01 D-4 3 C 8" CK SA C 0 CVT CS AL-1 4

AL V 0003 M-02AL01 H-4 3 C 8" CK SA C 0 CVP OP AL V 0003 M-02ALO1 H-4 3 C 8" CK SA C 0 CVT CS AL-1 i AL V 0006 M-02ALOL F-4 3 C 6" CK SA C 0 CVT RR AL-2 4,5 l

AL V 0009 M-02AL01 E-4 3 C 6" CK SA C 0 CVT RR AL-2 4,5 AL V 0012 M-02AL01 C-4 3 C 8" CK SA C 0 CVT RR AL-2 4 l

AL V 0015 M-02AL01 B-4 3 C 8" CK SA C 0 CVT RR AL-2 4 AL V 0029 M-02AL01 G-5 3 C 2" CK SA C 0 CVT OP AL V 0030 M-02AL01 H-5 3 C 6" CK SA C 0 CVT CS AL-1 5 j AL V 0033 M-02AL01 T-7 2 C 4" CK SA C 0 CVT CS AL-1 5 AL V 0036 M-02AL01 H-7 2 C 4" CK SA C 0 CVT CS AL-1 5 l

, AL V 0041 M-02ALO1 F-5 3 C 2" CK SA C 0 CVT OP AL V 0042 M-02AL01 D-5 3 C 6" CK SA C 0 CVT CS AL-1 5 AL V 0045 M-02AL01 C-7 2 C 4" CK SA C 0 CVT CS AL-1 5 l

i AL V 0048 M-02AL01 D-7 2 C 4" CK SA C 0 CVT CS AL-1 5 Al V 0053 M-02ALO1 B-5 3 C 3" CK SA C 0 CVT OP AL V 0054 M-02AL01 B-5 3 C 8" CK SA C 0 CVT CS AL-1 5 l

AL V 0057 M-02AL01 E-7 2 C 4" CK SA C 0 CVT CS AL-1 5 4

AL V 0062 M-02AL01 G-7 2 C 4" CK SA C 0 CVT CS AL-1 5

AL V 0067 M-02ALO1 D-7 2 C 4" CK SA C 0 CVT CS AL-1 5 j AL V 0072 M-02AL01 B-7 2 C 4" CK SA C 0 CVT CS AL-1 5 l

L__.__________ _ . _ _ _ _ . _ . _ _ _ _ . -

P:32 6 Rev. 7 INSERVICE TESTING PROGRAM ST VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAK *R/R

NOTES

AP V '0033 M-02AP01 F C 3" CK SA C 0 CVP OP AP-1 AP V 0033 M-02AP01 F C 3" CK SA C 0 CVT CS AP-1

Pcg3 7 Rev. 7 INSERVICE TESTING PRCGRAM SY YLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

BB 8378A M-02BB01 E-4 1 C 3" CK SA 0 0/C NA BB 83788 M-02B501 E-4 1 C 3" CK SA 0 0/C NA BB 8379A M-02B501 E-7 1 C- 3" CK SA 0 0/C NA BB 83798 M-02B501 E-7 1 C 3" CK SA 0 0/C NA BB 8948A M-02BB01 E-4 1 A,C 10" CK SA C 0 AT CS V05 7 BB 8948A M-025501 E-4 1 A,C 10" CK SA C 0 CVT RR BB-1 5 BB 8948B M-025801 D-4 1 A,C 10" CK SA C 0 AT CS V05 7

. BB 8948B M-025501 D-4 1 A,C 10" CK SA C 0 CVT RR BB-1 5 BB 8948C M-02BB01 C-6 i A,C 10" CK SA C 0 AT CS V05 7 BB 8948C M-02BB01 C-6 1 A,C 10" CK SA C 0 CVT RR BB-1 5 BB 8948D M-02BB01 E-6 1 A,C 10" CK SA C 0 AT CS V05 7 BB 8948D M-02BB01 E-6 1 A,C 10" CK SA C 0 CVT RR BB-1 5 BB 8949A M-02BB01 E-! 1 A,C 6" CK SA C 0 AT CS V05 7 BB 8949A M-02BB01 E-5 1 A,C 6" CK SA C 0 CVT RR BB-2 5 BB 8949B M-02BB01 C-5 1 A,C 6" CK SA C 0 AT CS V05 7 BB 8949B M-02BB01 C-5 1 A,C 6" CK SA C 0 CVT CS BB-3 5 BB 8949C M-02BB01 C-6 1 A,C 6" CK SA C 0 AT CS V05 7 BB 8949C M-02BB01 C-6 1 A,C 6" CK SA C 0 CVT CS BB-3 5 BB 8949D M-02BB01 G-6 1 A,C 6" CK SA C 0 AT CS V05 7 BB 8949D M-02BB01 G-6 1 A,C 6" CK SA C 0 CVT RR BB-2 5 BB PV 8702A M-02BB01 E-4 1 A 12" GA M0 C C AT CS V05 7 BB PV 8702A M-02BB01 E-4 1 A 12" GA M0 C C BT CS 120 BB-6 5,6 BB PV 8702A M-02BB01 E-4 1 A 12" GA M0 C C PIT RR BB PV 8702B M-02BB01 H-6 1 A 12" GA M0 C C AT CS V05 7 BB PV 87025 M-02BB01 H-6 1 A 12" GA M0 C C BT CS 120 BB-6 5,6 BB PV 87025 M-02BB01 H-6 1 A 12" GA MO C C PIT RR BB V 0001 M-02BB01 D-5 1 A,C 1.5" CK SA C 0 AT CS V05 7 -

BB V 0001 M-02BB01 D-5 1 A,C 1.5" CK SA C 0 CVT RR BB-4 5 BB V 0022 M-02BB01 D-4 1 A,C 1.5" CK SA C 0 AT CS V05 7 BB V 0022 M-02BB01 D-4 1 A,C 1.5" CK SA C 0 CVT RR BB-4 5 BB V 0040 M-02BB01 D-6 1 A,C 1.5" CK SA C 0 AT CS V05 7 BB V 0040 M-02BB01 D-6 1 A,C 1.5" CK SA C 0 CVT RR BB-4 5 BB V 0059 M-02BB01 E-6 1 A.C l.5" CK SA C 0 AT CS V05 7 BB V 0059 M-02BB01 E-6 i A,C 1.5" CK SA C 0 CVT RR BB-4 5 i

f i

< l Pcg3 8 Rev. 7

INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+1D

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

i BB 8010A M-028802 H-7 1 C 6" RV SA C 0 RVT 2 BB 80105 M-02BB02 H-6 1 C 6" RV SA C 0 RVT 2 BB 8010C M-02BB02 H-5 1 C 6" RV SA C 0 RVT 2 BB HV 8000A M-02BB02 E-7 i B 3" GA M0 O 0/C BT OP 15 6 BB HV 8000A M-02BB02 E-7 1 B 3" GA MO O 0/C PIT RR

-BB HV 80005 M-02BB02 E-7 i B 3" GA MO O 0/C BT OP 15 6 BB HV 80005 M-02BB02 E-7 1 B 3" GA MO O 0/C PIT RR l BB HV 8026 M-025502 E-3 2 A 1" DI A0 C C AT RR V04 10

! BB HV 8026 M-02BB02 E-3 2 A 1" DI A0 C C BT OP 10

. PB HV 8026 M-02BB02 E-3 2 A 1"' DI AO C C FST OP BB HV 8026 M-02BB02 E-3 2 A 1" DI A0 C C PIT RR BB HV 8027 M-02BB02 E-3 2 A 1" DI A0 C C AT RR V04 10 BB HV 8027 M-02BB02 E-3 2 A 1" DI AO C C BT OP 10 BB HV 8027 M-02BB02 E-3 2 A 1" DI A0 C C PST OP BB HV 8027 M-02BB02 E-3 2 A 1" DI A0 C C PIT RR M-02BB02 E-1 3 B GL SO C BB HV 8157A 1" C NA 3 BB HV 8157B M-025502 E-1 3 B 1" GL SO .C C NA 3 BB PCV0455A M-02BB02 E-7 1 B 3" GL SO C O/C BT CS 2 5810 5 BB PCV0455A M-025502 E-7 i B 3" GL So C O/C FST CS BB PCV0455A M-02BB02 E-7 1 B 3" GL SO C O/C PIT RR 13 BB PCV0455B M-02BB02 A-4 1 B 4" BA A0 0 N/A NA 3 BB PCV0455C M-02BB02 B-4 1 B 4" BA A0 0 N/A NA 3 BB PCV0456A M-02BB02 E-8 1 B 3" GL So C O/C BT CS 2 5510 5 BB PCV0456A M-02BB02 E-8 1 B 3" GL SO C O/C FST CS ,

BB PCV0456A M-02BB02 E-8 i B 3" GL S0 C O/C PIT RR 13 BB V 0084 M-02BB02 C-4 1 C 2" CK SA C C NA 3 A

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PaB3 9 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+1D-* CRD I CAT

SIZE TYP AT POS DIR TST TM MAK *R/R

NOTES

BB HV 0013 M-02BB03 C-2 3 3 3" GA Mo o C BT CS 30 BB-8 5,6 BB HV 0013 M-02B503 C-2 3 B" 3" GA MO O C PIT RR BB HV 0014 M-02BB03 C-2 3 5 3" GA MO O C BT CS 30 BB-8 5,6 BB HV 0014 M-02BB03 C-2 3 B 3" GA MO O C PIT RR BB HV 0015 M-02BB03 C-2 3 5 3" GA MO O C BT CS 30 BB-8 5,6 BB HV 0015 M-02BB03 C-2 3 5 3" GA MO O C PIT RR BB HV 0016 M-02BB03 C-2 3 B 3" GA NO O C BT CS 30 BB-8 5,6 BB HV 0016 M-02BB03 C-2 3 3 3" GA MO O C PIT RR BB HV 8141A M-02BB03 E-3 2 B .75" GL A0 0 0 NA 3 BB HV 8141B M-02BB03 E-3 2 B .75" GL A0 0 0 NA 3 BB HV 8141C M-02BB03 E-3 2 B .75" GL A0 0 0 NA 3 BB HV 8141D M-02BB03 E-3 2 5 .75" GL A0 0 0 NA 3 BB HV 8351A M-023503 C-5 2 A 2" GL M0 O 0/C AT RR V04 10 BB HV 8351A M-02BB03 C-5 2 A 2" CL MO O 0/C BT CS 10 BB-9 5 BB HV 8351A M-02BB03 C-5 2 A 2" GL M0 O 0/C PIT RR BB HV 8351B M-02BB03 C-5 2 A 2" GL MO O 0/C AT RR V04 10 BB HV 8351B M-02BB03 C-5 2 A 2" GL MO O 0/C BT CS 10 BB-9 5 l BB HV 8351B M-02BB03 C-5 2 A 2" GL MO O 0/C PIT RR l BB HV 8351C M-02BB03 C-5 2 A 2" GL MO O 0/C AT RR V04 10 BB HV 8351C M-02BB03 C-5 2 A 2" GL MO O 0/C BT CS 10 BB-9 5 BB HV 8351C M-02BB03 C-5 2 A 2" GL MO O 0/C PIT RR BB HV 8351D M-02BB03 C-5 2 A 2" GL MO O 0/C AT RR V04 10 BB HV 8351D M-02BB03 C-5 2 A 2" GL MO O 0/C BT CS 19 BB-9 5 BB HV 8351D M-02BB03 C-5 2 A 2" GL M0 O 0/C PIT RR BB V 0118 M-02BB03 C-5 2 A,C 2" CK SA 0 C AT RR V04 10 BB V 0118 M-02BB03 C-5 2 A,C 2" CK SA 0 C CVT RR BB-7 5 BB V 0120 M-02BB03 C-4 1 C 2" CK SA 0 0 NA BB V 0121 M-02BB03 C-4 1 C 2" CK SA 0 0 NA BB V 0122 M-02BB03 C-4 3 C 3" CK SA 0 0 NA 3 BB V 0124 M-02BB03 B-3 3 C .75" KV SA C 0 RVT 2 BB V 0148 M-02BB03 C-5 2 A,C 2" CK SA 0 C AT RR V04 10 BB V 0148 M-02BB03 C-5 2 A,C 2" CK SA 0 C CVT RR BB-7 5 BB V 0150 M-02BB03 C-4' 1 C 2" CK SA 0 0 NA BB V 0151 M-02BB03 C-4 1 C 2" CK SA 0 0 NA BB V 0152 M-02BB03 C-4 3 C 3" CK SA 0 0 NA 3 BB V 0154 M-02BB03 B-3 3 C .75" RV SA C 0 RVT 2 BB V 0178 M-02BB03 C-5 2 A,C 2" CK SA 0 C AT RR V04 10 BB V 0178 M-02BB03 C-5 2 A,C 2" CK SA 0 C CVT RR BB-7 5 BB V 0180 M-02BB03 C-4 1 C 2" CK SA 0 0 NA BB V 0181 M-02BB03 C-4 1 C 2" CK SA 0 0 NA BB V 0182 M-02BB03 C-4 3 C 3" CK SA 0 0 NA 3 BB V 0184 M-02BB03 5-3 3 C .75" RV SA C 0 RVT 2 BB V 0208 M-02BB03 C-5 2 A,C 2" CK SA 0 C AT RR V04 10 BB V 0208 M-02BB03 C-5 2 A,C 2" CK SA 0 C CVT RR BB-7 5 BB V 0210 M-02BB03 C-4 1 C 2" CK SA 0 C NA BB V 0211 M-02BB03 C-4 1 C 2" CK SA 0 C NA BB V 0212 M-02BB03 C-4 3 C 3" CK SA 0 0 NA 3 BB V 0214 M-02BB03 B-3 3 C .75" RV SA C 0 RVT 2

Faga 10 Rev. 7 INSERVICE TESTING PROGRAM

. ST YLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

BB HV 8001A M-02BB04 F-4 2 B 1" GL 'So C O/C BT CS 10 BB-5 5 B3 HV 8001A M-02BB04 F-4 2 B 1" GL S0 C O/C FST CS 5 BB HV'8001A M-02BB04 F-4 2 3 1" GL S0 C O/C PIT RR 13 BB HV 80015 M-02BB04 F-4 2 B 1" GL So C O/C BT CS 10 BB-5 5 BB HV 80018 M-02BB04 F-4 2 B 1" GL So C O/C FST CS 5 BB HV 8001B M-025504 F-4 2 3 1" GL SO C 0/C PIT RR 13 BB HV 8002A M-02BB04 F-3 2 B 1" GL So C 0/C BT CS 10 BB-5 5 BB HV 8002A M-02BB04 F-3 2 B 1" GL So C O/C FST CS 5 BB HV 8002A M-02BB04 F-3 2 B 1" GL So C O/C PIT RR 13 BB HV 80025 M-02BB04 F-3 2 B 1" GL SO C O/C BT CS 10 BB-5 5 BB HV 8002B M-02BB04 F-3 2 B 1" GL So C O/C FST CS 5 j' BB HV 80025 H-02BB04 F-3 2 B 1" GL SO C O/C PIT RR 13 9

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Pag 3 11 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-l+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES * ,

i BG 8117 M-02BG01 H-3 2 C 2" RV SA C 0 RVT 2 BG 8121 M-02BG01 D-3 2 C 2" RV SA C 0 RVT 2 BG 8381 M-02BG01 T-4 2 A,C 3" CK SA 0 C AT RR V04 10 BG 8381 M-02BG01 F-4 2 A,C 3" CK SA 0 C CVT RR BG-1 5 BG HCV0123 M-02BG01 E-5 2 5 1" GL A0 C C NA 3 BG HV 8100 M-02BG01 D-2 2 A 2" GL MO O C AT RR V04 10 BG HV 8100 M-02BG01 D-2 2 A 2" GL MO O C BT CS 10 BG-2 5,6 BG HV 8100 M-02BG01 D-2 2 A. 2" GL MO O C PIT RR BG HV 8112 M-02BG01 D-2 2 A 2" GL MO O C AT RR V04 10 BG HV 8112 M-02BG01 D-2 2 A 2" GL MO O C BT CS 10 BG-2 5,6 BG HV 8112 M-02BG01 D-2 2 A 2" GL MO O C PIT RR BG HV 8143 M-02BG01 E-3 2 B 1" TW A0 0 0 NA 3 BG HV 8145 M-02BG01 G-7 1 B 2" GL A0 C C NA 3 BC HV 8146 M-02BG01 F-7 2 B 3" GL A0 0 0 NA 3 4

BG HV 8147 M-02BG01 F-7 2 B 3" GL A0 0 0 NA 3 BG HV 8152 M-02BG01 F-2 2 A 3" GL A0 0 C AT RR V04 10

BG HV 8152 M-02BG01 F-2 2 A 3" GL A0 0 C BT CS 10 BG-3 5 4 BG HV 8152 M-02BG01 T-2 2 A 3" GL A0 0 C FST CS 5

) BG HV 8152 M-02BG01 F-2 2 A 3" GL A0 0 C PIT RR BG HV 8153A M-02BG01 D-7 1 B 1" GL SO C C NA 3 i BG HV 81535 M-02BG01 D-7 1 3 1" GL CO C C NA 3 BG HV 8154A M-02BG01 D-8 1 B 1" GL SO C C NA 3 BG HV 81545 M-02BG01 D-8 1 B 1" GL SO C C NA 3

BG HV 8160 M-02BG01 F-3 2 A 3" GL A0 0 C AT RR V04 10 BG HV 8160 M-02BG01 F-3 2 A 3" GL A0 0 C BT CS 10 BG-3 5 <

BG HV 8160 M-02BG01 F-3 2 A 3" GL A0 0 C FST CS 5 BG HV 8160 M-02BG01 F-3 2 A 3" GL A0 0 C PIT RR ,

BG V 0019 M-02BG01 E-7 2 C .75" CK SA C C NA 12 BG V 0135 M-02BG01 D-3 2 A,C .75" CK SA C C AT RR V04 9,10 i BG V 0203 M-02BG01 E-7 3 C .75" RV SA C 0 RVT RR 2 i

i I

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Pag) 12 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES *

, BG 8119 M-02BG02 G-4 2 C 2" RV SA C 0 RVT RR 2 BG TV 0130 M-02BG02 H-5 3 5 6" BT A0 0 0 NA 3 BG V 0020 M-02BG02 G-6 3 C .75" RV SA C 0 RVT RR 2 i

I.

I

Pag 3 13 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CBD I CAT

SIZE TYP AT POS DIR TST TM MAK *R/R

NOTES *

~

BG 8118 M-02BG03 E-4 2 C 1.5" RV SA C 0 RVT 2 BG 8120 M-02BG03 G-8 2 C 3" RV SA C 0 RVT 2 BG 8123 M-02BG03 H-3 2 C 2" RV SA C 0 RVT 2 BG 8124 M-02BG03 5-7 2 C .75" RV SA C 0 RVT 2 BG 8440 M-02BG03 E-6 2 C 4" CK SA 0 0 NA 3 BG 8481A M-02BG03 C-4 2 C 4" CK SA C 0 CVT RR BG-4 BG 8481A M-02BG03 C-4 2 C 4" CK SA C 0 CVP OF BG-4 BG 84815 M-02BG03 B-4 2 C 4" CK SA C 0 CVT RR BG-4 BG 84815 M-02BG03 5-4 2 C 4" CK SA C 0 CVP OP BG-4 BG 8497 M-02BG03 E-4 2 C 3" CK SA 0 0 NA 3 BG 8546A M-02BG03 C-7 2 C 8" CK SA C 0 CVT RR BG-5 5 BG 8546B M-02BG03 B-7 2 C 8" CK SA C 0 CVT RR BG-5 5 BG PCV01115 M-02BG03 G-5 2 B 2" DI A0 C C NA 3 BG FCV0121 M-02BG03 D-4 2 B 3" GL A0 0 0 NA 3 BG HCV0182 M-02BG03 E-3 2 B 3" GL A0 0 0 NA 3 BC HV 8105 M-02BG03 E-2 2 A 3" GA MO O C AT RR V04 10 BC HV 8105 M-02BG03 E-2 2 A 3" GA MO O C BT CS 10 BG-6 6,5 BG HV 8105 M-02BG03 E-2 2 A 3" GA MO O C PIT RR BG HV 8106 M-02BG03 E-2 2 B 3" GA M0 O C BT CS 10 BG-6 6,5 BG HV 8106 M-02BG03 E-2 2 B 3" GA MO O C PIT RR BG HV 8109 M-02BG03 E-5 2 B 2" GL M0 C C NA 12 BG HV 8110 M-02BG03 E-3 2 B 2" GL MO O 0/C BT OP 10 6 BG HV 8110 M-02BG03 E-3 2 B 2" GL MO O 0/C PIT RR BG HV 8111 M-02BG03 E-4 2 5 2" GL MO O 0/C BT OP 10 6 BG HV 8111 M-02BG03 E-4 2 B 2" GL MO O 0/C PIT RR BC HV 8357A M-02BG03 C-4 2 B 1" GL SO C O/C BT OP 10 BG HV 8357A M-02BG03 C-4 2 B 1" GL 50 C O/C FST OP ,

BG HV 8357A M-02BG03 C-4 2 B 1" GL S0 C O/C PIT RR 13 BG HV 8357B M-02BG03 5-4 2 5 1" GL SO C O/C BT OP 15 BG HV 8357B M-02BG03 B-4 2 B 1" GL So C O/C FST OP BC HV 83575 M-02BG03 B-4 2 B 1" GL So C O/C PIT RR 13 BG LCV01125 M-02BG03 F-6 2 B 4" GA MO O C BT CS 10 BC-7 5,6 BG LCV01125 M-02BG03 F-6 2 B 4" GA M0 O C PIT RR BG LCV0112C M-02BG03 F-6 2 5 4" GA MO O C BT CS 10 BG-7 5,6 BC LCV0112C M-02BG03 F-6 2 B 4" GA MO O' C PIT RR BG V 0091 M-02BG03 C-4 2 C 2" CK SA C 0 CVT OP BG V 0095 M-02BG03 B-4 2 C 2" CK SA C 0 CVT OP BG V 0207 M-02BG03 G-4 3 B 3" RV SA C 0 RVT RR 2 BG V 0524 M-02BG03 C-6 3 C .75" RV SA C 0 RVT 2 BG V 0525 M-02BG03 A-6 3 C .75" RV SA C 0 RVT 2 BG V 0545 M-02BG03 D-5 3 C .75" RV SA C 0 RVT 2 BG V 0589 M-02BG03 B-4 2 C 1" CK SA C C NA 3 BG V 0590 M-02BG03 C-4 2 C' 1" CK SA C C NA 3 BG V 0605 M-02BG03 B-3 2 C 3" CK SA 0 C CVT OP BG V 0606 M-02BG03 D-3 2 C 3" CK SA 0 C CVT OP i

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___ _ . . _ _ _ . . _~_ - . _ . _ . _ _ . ._. -.--_ . _.

Pag 3 14 Rev. 7 INSERVICE TESTING PROGRAM ST VLY-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAI *R/R

NOTES

BG 7006 M-02BG04 E-4 2 C .75" RV SA C 0 RVT 2 J

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7 Pcg3 15 Rev. 7 INSERVICE TESTING PROGRAM s

SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

BG FCV0110A M-02BG05 B-3 3 8 2" GL A0 C 0 NA 12 .

BG HV 8104 M-02BG05 A-4 2 B 2" GL MO C 0 BT OP 10- 6, BG HV 8104 H-02BG05 A-4 2 B 2" GL M0 C 0 PIT RR ,,

BG V 0147 M-02BG05 B-6 3 C 3" CK SA C 0 CVT CS' BG8 BG V 0155 M-02BG05 B-6 3 C .75" CK SA C 0 CVT OP 7

BG V 0165 M-02BG05 A-6 3 C 3" CK SA C 0 CVT CS .BG8 .

BG V 0167 M-02BG05 B-6 3 C .75" CKs SA C ' O CVT OP .

l BG V 0174 M-02BG05 A-4 2 C 3" CK SA C 0 'CVT CS .

BG8 BG V 0184 H-02BG05 A-4 2 C 2" CK SA C NA NA ' 12 BG V 0188 M-02BG05 B-2 2 C 1" CK SA C NA NA .

12

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Pega 16 Rev. 7 INSERVICE TESTING PROGRAM ST VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAK *R/R

NOTES

BL 8046 M-02BL01 B-3 2 A,C 3" CK SA 0 C AT RR V04 10 ,

BL 8046 M-02BL01 B-3 2 A,C 3" CK SA 0 C CVT RR BL-1 11 l BL HV 8047 M-02BL01 B-4 2 A 3" DI A0 0 C AT RR V04 10 BL HV 8047 M-02BL01 B-4 2 A 3" DI A0 0 C BT OP 10 BL HV 8047 M-02BL01 B-4 2 A 3" DI A0 0 C FST OP BL HV 8047 M-02BL01 B-4 2 A 3" DI A0 0 C PIT RR 1

. I i

1 1

O l

_ _ _ . _ - . __ _ . . . _ _ . - _ _ . _ , _________.________,_,,_.,,,_.,_,,.m..,_,_,_, _ _ _ , _ . . - . . _ . _ _ _ . _ . _ _ _ . . . _ _ _ _ _ _ . _ _ . _ _ _ _ .

Pcg3 17 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+1D

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

BM HV 0001 W U2BM01 F-5 2 B 4" GL A0 0 C BT .CS 10 BM-1 5 i BM HV 0001 M-02BM01 F-5 2 B 4" GL A0 0 C FST CS BM-1 5 BM HV 0001 M-02CM01 F-5 2 3 4" GL A0 0 C PIT RR BM P.V 0002 M-02BM01 E-5 2 3 4" GL A0 0 C BT CS 10 BM-1 5 BM HV 0002 M-02BM01 E-5 2 B 4" GL A0 0 C FST CS BM-1 5 BM HV 0002 M-02BM01 E-5 2 B 4" GL A0 0 C PIT RR BM HV 0003 M-02BM01 C-5 2 B 4" GL A0 0 C BT CS 10 BM-1 i

BM HV 0003 M-02BM01 C-5 2 B 4" GL A0 0 C FST CS 5 BM HV 0003 M-02BM01 C-5 2 B 4" GL A0 0 C PIT RR BM HV 0004 M-02BM01 A-5 2 3 4" GL A0 0 C BT CS 10 BM-1 BM HV 0004 M-02BM01 A-5 2 B 4" GL A0 0 C FST CS 5 BM HV 0004 M-02BM01 A-5 2 B 4" GL A0 0 C PIT RR BM HV 0019 M-02BM01 G-7 2 B 1" GL SO C C NA 3 BM HV 0020 M-02BM01 E-7 2 B 1" GL SO C C NA 3 BM HV 0021 M-02BM01 D-7 2 3 1" GL SO C C NA 3 BM HV 0022 M-02BM01 B-7 2 B 1" GL SO C C NA 3 BM HV 0035 M-02BM01 G-7 2 B 1" GL SO O C BT OP 5 I

BM HV 0035 M-02BM01 G-7 2 B 1" GL SO O C FST OP BM HV 0035 M-02BM01 G-7 2 B 1" GL SO O C PIT RR 13 BM HV 0036 M-02BM01 E-7 2 B 1" GL SO O C BT OP 5 BM HV 0036 M-02BM01 E-7 2 B 1" GL SO O C FST OP BM PV 0036 M-02BM01 E-7 2 B 1" GL SO O C PIT RR 13 BM HV 0037 M-02BM01 C-7 2 B 1" GL SO O C BT OP 5 BM HV 0037 M-02BM01 C-7 2 B 1" GL SO O C FST GP BM HV 0037 M-02BM01 C-7 2 3 1" GL SO O C PIT RR 13 BM HV 0038 M-02BM01 B-7 2 B 1" GL SO O C BT OP 5 BM HV 0038 M-02BM01 B-7 2 B 1" GL SO O C FST OP .

BM HV 0038 M-02BM01 B-7 2 B 1" GL SO O C PIT RR 13 '

BM HV 0065 M-02BM01 G-6 2 B 1" GL SO O C BT OP 5 BM HV 0065 M-02BM01 G-6 2 B 1" GL SO O C FST OF BM HV 0065 M-02BM01 G-6 2 B 1" GL SO O C PIT RR 13 i BM HV 0066 M-02BM01 E-6 2 B 1" GL SO O C BT OP 5 BM HV 0066 M-02BM01 E-6 2 B 1" GL SO O C FST OP BM HV 0066 M-02BM01 E-6 2 B 1" GL SO O C PIT RR 13 BM HV 0067 M-023M01 C-6 2 B 1" GL SO O C BT OP 5 BM HV 0067 M-02BM01 C-6 2 B 1" GL SO O C FST OP BM HV 0067 M-02BM01 C-6 2 B 1" GL SO O C PIT RR 13 BM HV 0068 M-02BM01 B-6 2 B 1" GL SO O C BT OP 5 BM HV 0068 M-02BM01 B-6 2 B 1" GL SO O C FST OP

! BM HV 0068 M-02BM01 B-6 2 B 1" GL SO O C PIT RR 13 BM V 0045 M-02BM01 A-4 2 A 3" GA M C C AT RR V04 1,9,11 BM V 0046 M-02BM01 A-3 2 A 3" GA M C C AT RR V04 1,9,11 1

- - . - . , . . . . _ . ~ , - - - - _ . - . . _ . - - _ - _ - . . _ . ~ - _ _.

Prga 18 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

BK HCV8800A M-02BN01 E-5 2 B 3" GL A0 C C MA 3 BN HCV88005 M-02BN01 E-5 2 B 3" GL A0 C C NA 3 BN HV 0003 M-02BN01 C-3 2 5 12" GA MO O C BT OP 65 6 BN HV 0003 M-02BN01 C-3 2 B 12" 'GA MO O C PIT RR BN HV 0004 M-02BN01 A-3 2 B 12" GA MO O C BT OP 65 6 BN HV 0004 M-02BN01 A-3 2 B 12" GA MO O C PIT RR BN HV 8806A M-02BN01 B-5 2 B 8" GA MO O C BT OP 15 6 BN HV 8806A M-02BN01 B-5 2 B 8" GA MO O C PIT RR BN HV 8806B M-02BN01 E-3 2 B 8" GA MO O C BT OP 15 6 BN HV 8806B M-02BN01 E-3 2 B 8" GA MO O C PIT RR BN HV 8812A M-02BN01 B-3 2 B 14" GA MO O C BT OP 17 6 BN HV 8812A M-02BN01 B-3 2 B 14" GA MO O C PIT RR BN HV 88123 M-02BN01 D-3 2 B 14" GA MO O C BT OP 17 6 BN HV 8812B M-02BN01 D-3 2 B 14" GA MO O C PIT RR BN HV 8813 M-02BN01 B-7 2 B 2" GL MO O C BT CS 10 BN-2 6,5 BN HV 8813 M-02BN01 B-7 2 B 2" GL MO O C PIT RR BN LCV0112D M-02BN01 A-5 2 B 8" GA MO C O/C ET CS 10 BN-1 6,5 i

BN LCV0112D M-02BN01 A-5 2 B 8" GA MO C O/C PIT RR BN LCV0112E M-02BN01 E-3 2 B 8" GA M0 C O/C BT CS 10 BN-1 6,5 BN LCV0112E M-02BN01 E-3 2 B 8" GA MO C O/C PIT RR I

Paga 19 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

EC HV 0011 M-02EC01 H-5 3 B 12" BT MO O O NA 3 EC HV 0012 M-02EC01 F-5 3 B 12" BT MO O O NA 3 EC V 0996 M-02EC01 E-6 3 C .75" RV SA C 0 RVT RR 2 EC V 0997 M-02EC01 G-6 3 C .75" RV SA'C 0 RVT RR 2 EC V 0998 M-02EC01 E-5 3 C .75" RV SA C 0 RVT RR 2 EC V 0999 M-02EC01 G-5 3 C .75" RV SA C 0 RVT RR 2 6

+

l l

Pcge 20 Rev. 7 1

INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

EC V 0083 M-02ECO2 C-6 2 A 6" GA M C C AT RR V04 1,9,11 EC V 0084 M-02EC02 C-5 2 A 6" GA M C C AT RR V04 1,9,11 EC V 0087 M-02ECO2 D-7 2 A 6" GA M C C AT RR V04 1,9,11 EC V 0088 M-02ECO2 D-7 2 A 6" GA M C C AT RR V04 1,9,11 EC V 0095 M-02EC02 B-5 2 A 6" GA M C C AT RR V04 1,9,11 EC V 0096 M-02EC02 B-5 2 A 6" GA M C C AT RR V04 1,9,11 w--- ,7_ , - - . , . - , -

4m _w, - _ - - - , , - ,

Pcg2 21 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

EF HV 0023 M-02EF01 F-7 3 B 30" BT MO O C BT OP 35 6 EF HV 0023 M-02EF01 F-7 3 *B 30" BT MO O C PIT RR EF HV 0024 M-02EF01 E-7 3 B 30" BT MO O C BT OP 35 6 EF HV 0024 M-02EP01 E-7 3 B 30" BT MO O C PIT RR l EF HV 0025 M-02EF01 F-7 3 B 30" BT MO O C BT OP 35 6 EF HV 0025 M-02E701 7-7 3 B 30" BT MO O C PIT RR EF HV 0026 M-02EF01 E-7 3 B 30" BT MO O C BT OP 35 6 EF HV 0026 M-02EF01 F-7 3 B 30" BT MO O C PIT RR EF HV 0044 M-02EF01 B-7 3 B 2" GL A0 0 C BT OP 5 EF HV 0044 M-02EF01 B-7 3 B 2" GL A0 0 C FST OP EF HV 0044 M-02EF01 B-7 3 B 2" GL A0 0 C PIT RR EF V 0076 M-02EF01 B-6 3 C 2.5" CK SA 0 C CVT OP

e

m _ __ . _ . _ _ _ _ _ _ _ _ . . _ _

Pcga 22 R v. 7 l INSERVICE TESTING PROGRAM i i

SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

EF HV 0031 M-02EF02 G-7 2 A 14" BT MO O 0/C AT RR V04 10 EF HV 0031 M-02EF02 G-7 2 A 14" BT MO O 0/C BT OP 40 6 EF HV 0031 M-02EF02 G-7 2 A 14" BT MO O 0/C PIT RR EF HV 0032 M-02EF02 B-7 2 A 14" BT MO O 0/C AT RR V04 10 EF HV 0032 M-02EF02 B-7 2 A 14" BT MO O 0/C BT OP 40 6 EF HV 0032 M-02EF02 B-7 2 A 14" BT MO O 0/C PIT RR EF HV 0033 i M-02EF02 G-7 2 A 14" BT MO O 0/C AT RR V04 10 EF HV 0033 M-02EF02 G-7 2 A 14" BT MO O 0/C BT OP 40 6 EF HV 0033 M-02EF02 G-7 2 A 14" BT MO O 0/C PIT RR EF HV 0034 M-02EF02 B-7 2 A 14" BT MO O 0/C AT RR V04 10 ,

M-02EF02 B-7 2 A 14" BT MO O 0/C BT OP 35 6 EF HV 0034 i EF HV 0034 M-02EF02 B-7 2 A 14" BT MO O 0/C PIT RR EF HV 0037 M-02EF02 G-2 3 B 30" BT M0 C 0 BT OP 35 6 EF HV 0037 M-02EF02 G-2 3 B 30" BT M0 C 0 PIT RR EF HV 0038 M-02EF02 C-2 3 B 30" BT M0 C 0 BT OP 35 6 EF HV 0038 M-02EF02 C-2 3 B 30" BT MO C 0 PIT RR EF HV 0039 M-02EF02 F-2 3 B 30" BT MO O C BT OP 35 6 EF HV 0039 M-02EF02 F-2 3 B 30" BT M0 O C PIT RR EF HV 0040 M-02EF02 D-2 3 B 30" BT MO O C BT OP 35 6 EF HV 0040 M-02EF02 D-2 3 B 30" BT MO O C PIT RR EF HV 0041 M-02EF02 E-2 3 B 30" BT MO O C BT OP 35 6 EF HV 0041 M-02EF02 E-2 3 B 30" BT MO O C PIT RR EF HV 0042 M-02EF02 D-2 3 B 30" BT MO O C BT OP 35 6 EF HV 0042 M-02EF02 D-2 3 B 30" BT MO O C PIT RR EF HV 0043 M-02EF02 E-7 3 B 2" GL A0 0 C BT OP 8 EF HV 0043 M-02EF02 E-7 3 B 2" GL A0 0 C FST OP EF HV 0043 M-02EF02 E-7 3 B 2" GL A0 0 C PIT RR EF HV 0045 M-02EF02 G-6 2 A 14" BT MO O 0/C AT RR V04 10 -

EF HV 0045 M-02EF02 G-6 2 A 14" BT MO O 0/C BT OP 40 6 EF HV 0045 M-02EF02 G-5 2 A 14" BT MO O 0/C PIT RR EF HV 0046 M-02EF02 B-6 2 A 14" BT MO O 0/C AT RR V04 10 EF HV 0046 M-02EF02 B-6 2 A 14" BT MO O 0/C BT OP 35 6 EF HV 0046 M-02EF02 B-6 2 A 14" BT MO O 0/C PIT RR EF HV 0047 M-02EF02 G-6 2 A 10" BT MO O C AT RR V04 10 EF HV 0047 M-02EF02 G-6 2 A 10" BT MO O C BT OP 30 6 EF HV 0047 M-02EF02 G-6 2 A 10" BT MO O C PIT RR M-02EF02 C-6 2 A 10" BT MO O C AT RR V04 10 EF HV 0048 EF HV 0048 M-02EF02 C-6 2 A 10" BT MO O C BT OP 30 6 EF HV 0048 M-02EF02 C-6 2 A 10" BT MO O C PIT RR EF HV 0049 M-02EF02 G-6 2 A 14" BT MO C O/C AT RR V04 10 EF HV 0049 M-02EF02 G-6 2 A 14" BT MO C O/C BT OP 30 6 EF HV 0049 M-02EF02 G-6 2 A 14" BT M0 C O/C PIT RR M-02EF02 B-6 2 A 14" BT MO C O/C AT RR V04 10 EF HV 0050 EF HV 0050 M-02EF02 B-6 2 A 14" BT M0 C O/C BT OP 30 6 EF HV 0050 M-02EF02 B-6 2 A 14" BT M0 C O/C PIT RR EF HV 0051 M-02EF02 G-4 3 B 24" BT MO O O BT OP 65 6 EF HV 0051 M-02EF02 G-4 3 B 24" BT M0 O O PIT RR EF HV 0052 M-02EF02 C-4 3 B 24" BT M0s0 0 BT OP 66- 6 EF HV 0052 M-02EF02 C-4 3 B 24" BT MO O O PIT RR EF HV 0059 M-02EF02 G-3 3 B 24" BT M0 O C BT OP 65 6 EF HV 0059 M-02EF02 G-3 3 B 24" BT MO O C PIT RR EF HV 0060 M-02EF02 C-3 3 B 24" BT MO O C BT OP 65 6

Pcg2 23 Rsv. 7 INSERVICE TESTING PROGRAM 6

SY VLV-NUMBER *-P+1D

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

EF HV 0060 M-02EF02 C-3 3 B 24" BT MO O C PIT RR EF HV 0087 M-02EF02 E-3 3 B 1" GA SO O C BT OP 5 EF HV 0087 M-02EF02 E-3 3 B 1" GA SO O C FST OP EF HV 0087 M-02EF02 E-3 3 B 1" GA SO O C PIT RR 13 EF HV 0088 M-02EF02 D-3 3 B 1" GA SO O C BT OP 5 EF HV 0088 M-02EF02 D-3 3 B 1" GA SO O C FST OP EF HV 0088 M-02EF02 D-3 3 B 1" GA SO O C PIT RR 13 EF V 0046 M-02EF02 E-6 3 C 2.5" CK SA 0 C CVT OP

Pcas 24 Rsv. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

EG HV 0011 M-02 EGO *. F-8 3 B 1.5" GL MO C 0 BT OP 23 6 EG HV 0011 M-02EG01 F-8 3 B 1.5" GL MO C 0 PIT RR EG HV 0012 M-02EG01 C-8 3 B 1.5" GL M0 C 0 BT OP 23 6 EG HV 0012 M-02EG01 C-8 3 3 1.5" GL M0 C 0 PIT RR EG HV 0013 M-02EG01 F-7 3 B 1.5" GL MO C 0 BT OP 23 6 EG HV 0013 M-02EG01 F-7 3 B 1.5" GL MO C 0 PIT RR EG HV 0014 M-02EG01 C-7 3 B 1.5" GL MO C 0 BT OP 23 6 EG HV 0014 M-02EG01 C-7 3 B 1.5" GL MO C 0 PIT RR EG HV 0015 M-02EG01 D-6 3 B 18" BT MO O 0/C BT OP 65 6 EG HV 0015 M-02EG01 D-6 3 B 18" BT MO O 0/C PIT RR EG HV 0016 M-02EG01 D-6 3 B 18" BT M') 0 O/C BT OP 60 6 EG HV 0016 M-02EG01 D-6 3 B 18" BT MO O 0/C PIT RR EG LV 0001 M-02EG01 G-7 3 B 3" GL A0 C C NA 3 EG LV 0002 M-02EG01 C-7 3 B 3" GL A0 C C NA 3 EG RV 0009 M-02EG01 G-6 3 B 2" GL A0 0 C BT OP 5 EG RV 0009 M-02EG01 G-6 3 B 2" GL A0 0 C FST OP EG RV 0009 M-02EG01 G-6 3 B 2" GL A0 0 C PIT RR EG RV 0010 M-02EG01 C-6 3 B 2" GL A0 0 C BT OP 5 EG RV 0010 M-02EG01 C-6 3 B 2" GL A0 0 C FST OP EG RV 0010 M-02EG01 C-6 3 B 2" GL A0 0 C PIT RR EG V 0003 M-02EG01 G-3 3 C 20" CK SA C 0 CVT OP EG V 0007 M-02EG01 E-3 3 C 20" CK SA C 0 CVT OP

-EG V 0012 M-02EG01 D-3 3 C 20" CK SA C 0 CVT OP EG V 0016 M-02EG01 C-3 3 C 20" CK SA C 0 CVT OP EG V 0130 M-02EG01 D-6 3 C 18" CK SA C 0 CVT OP EG V 0131 M-02EG01 D-6 3 C 18" CK SA C 0 CVT OF EG V 0159 M-02EG01 G-6 3 C 2" RV SA C 0 RVT 2 ~

EG V 0170 M-02EG01 C-6 3 C 2" RV SA C 0 RVT 2 EG V 0305 M-02EG01 G-6 3 C 1" RV SA C 0 RVT 2 EG V 0306 M-02EG01 C-6 3 C 1" RV SA C 0 RVT 2

Pcg3 25 Rav. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES * !

EG HV 0053 M-02EG02 G-5 3 B 18" ~ BT MO O O BT OP 60 6 EG HV 0053 M-02EG02 G-5 3 B 18" BT MO O O PIT RR EG HV 0054 M-02EG02 F-5 3 B 18" BT MO O O BT OP 60 6 EG HV 0054 M-02EG02 F-5 3' B 18" BT M0 O O PIT RR EG HV 0072 M-02EG02 G-2 3 B 2" GA MO O CIO BT OP 23 6 EG HV 0072 M-02EG02 G-2 3 B 2" GA MO O C/0 PIT RR EG HV 0073 M-02EG02 G-2 3 B 2" GA MO O C/0 BT OP 23 6 EG HV 0073 M-02EG02 G-2 3 B 2" GA MO O C/0 PIT RR EG HV 0074 M-02EG02 G-1 3 B 2" GA MO O C/0 BT OP 23 6 EG HV 0074 M-02EG02 G-1 3 B 2" GA MO O C/0 PIT RR EG HV 0075 M-02EG02 G-1 3 B 2" GA MO O C/0 BT OP 23 6 EG HV 0075 M-02EG02 G-1 3 B 2" GA MO O C/0 PIT RR EG HV 0101 M-02EG02 G-4 3 B 18" BT MO O O BT OP 60 6 EG HV 0101 M-02EG02 G-4 3 3 18" BT MO O O PIT RR EG HV 0102 M-02EG02 C-4 3 B 18" BT MO O O BT OP 60 6 EG HV 0102 M-02EG02 C-4 3 B 18" BT MO O O PIT RR EG TV 0029 M-02EG02 G-6 3 B 20" BT A0 0 C BT OP 50 EG TV 0029 M-02EG02 G-6 3 B 20" BT A0 0 C FST OP EG TV 0030 .M-02EG02 C-6 3 B 20" BT A0 0 C BT OP 50' EG TV 0030 M-02EG02 C-6 3 B 20" BT A0 0 C FST OP EG V 0024 M-02EG02 G-6 3 C 1" RV SA C 0 RVT RR 2 EG V 0027 M-02EG02 G-5 3 C 1" RV SA C 0 RVT RR 2 EG V 0036 M-02EG02 G-5 3 C 18" CK SA 0 0 NA 3 EG V 0049 M-02EG02 C-6 3 C 1" RV SA C 0 RVT RR 2 EG V 0052 M-02EG02 C-5 3 C 1" RV SA C 0 RVT RR 2 EG V 0061 M-02EG02 F-5 3 C 18" CK SA 0 0 NA 3 EG V 0200 M-02EG02 H-4 3 B 12" BT M 0 0 NA 1,3 EG V 0201 M-02EG02 D-4 3 B 12" BT M 0 0 NA 1,3 ~

. Pcg3 26 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

EG HV 0058 M-02EG03 H-5 2 A 12" GA MO O C AT RR V04 10 EG HV 0058 M-02EG03 H-5 2 A 12" GA MO O C BT OP 30 6 EG HV 0058 M-02EG03 H-5 2 A 12" GA MO O C PIT RR EG HV 0059 M-02EG03 C-5 2 A 12" GA MO O C AT RR V04 10 EG HV 0059 M-02EG03 C-5 2 A 12" GA MO O C BT OP 30 6 EG HV 0059 M-02EG03 C-5 2 A 12" GA MO O C PIT RR EG HV 0060 M-02EG03 B-5 2 A 12" GA MO O C AT RR V04 10 EG.HV 0060 M-02EG03 B-5 2 A 12" GA MO O C BT OP 30 6 EG HV 0060 M-02EG03 B-5 2 A 12" GA MO O C PIT RR EG HV 0061 M-02EG03 C-4 2 A 4" GA MO O C AT RR V04 10 EG HV 0061 M-02EG03 C-4 2 A 4" GA MO O C BT OP 30 6 EG HV 0061 M-02EG03 C-4 2 A 4" GA M0 O C PIT RR EG HV 0062 M-02EG03 B-4 2 A 4" GA MO O C AT ER V04 10 EG HV 0062 M-02EG03 B-4 2 A 4" GA MO O C BT OP 30 6 EG HV 0062 M-02EG03 B-4 2 A 4" GA MO O C PIT RR EG HV 0069A M-02EG03 F-8 3 B 14" BT A0 0 C BT OP 13 EG HV 0069A M-02EG03 F-8 3 B 14" BT A0 0 C FST OP EG HV 0069A M-02EG03 F-8 3 B 14" BT A0 0 C PIT RR EG HV 0069B M-02EG03 F-6 3 B 14" BT A0 0 C BT OP 13 EG HV 0069B M-02EG03 F-6 3 B 14" BT A0 0 C FST OP EG HV 0069B M-02EG03 F-6 3 B 14" BT A0 0 C PIT RR EG HV 0070A M-02EG03 F-8 3 B 14" BT A0 0 C BT OP 10 EG HV 0070A M-02EG03 F-8 3 B 14" BT A0 0 C FST OP EG HV 0070A M-02EG03 F-8 3 B 14" BT A0 0 C PIT RR EG HV 0070B M-02EG03 F-6 3 B 14" BT A0 0 C BT OP 10 EG HV 0070B M-02EG03 F-6 3 B 14" BT A0 0 C FST OP EG HV 0070B M-02EG03 F-6 3 B 14" BT A0 0 C PIT RR -

EG HV 0071 M-02EG03 H-5 3 B 12" GA MO O C BT OP 30 6 EG HV 0071 M-02EG03 H-5 3 B 12" GA. MO O C PIT RR EG HV 0126 M-02EG03 G-5 3 B 12" GA M0 C 0 NA 3 EG HV 0127 M-02EG03 G-5 2 A 12" GA M0 C 0 NA 3 EG HV 0130 M-02EG03 B-5 2 A 12" GA M0 C 0 NA 3 EG HV 01'31 M-02EG03 C-5 2 A 12" GA M0 C 0 NA 3 EG HV 0132 M-02EG03 B-4 2 A 4" GA M0 C 0 NA 3 EG HV 0133 M-02EG03 C-5 2 A 4" GA M0 C 0 NA 3 EG V 0124 M-02EG03 D-4 3 C 4" CK SA 0 0 'NA 3 EG V 0129 M-02EG03 D-5 3 C 12" CK SA 0 0 NA 3 EG V 0204 M-02EG03 H-4 2 A,C 12" CK SA 0 C AT RR V04 10 i

l l

l

Pcg2 27 Rsv. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAE *R/R

NOTES

EJ 8708A M-02EJ01 F-T 2 C 3" RV SA C O/C RVT 2 l

EJ 8708B M-02EJ01 C-7 2 C 3" RV SA C O/C RVT 2 EJ 8730A M-02EJ01 G-4 2 C 10"- CK ~ SA C 0 CVT CS EJ-10 EJ 8730A M-02EJ01 G-4 2 C 10" CK SA C 0 CVP OP EJ 8730B M-02EJ01 C-4 2 C 10" CK SA C 0 CVT CS EJ-10 EJ 8730B M-02EJ01 G-4 2 C 10" CK SA C 0 CVP OP EJ 8841A M-02EJ01 E-2 1 AC 6" CK SA C C/0 AT CS VOS 5,7 EJ 8841A M-02EJ01 E-2 1 A,C 6" CK SA C C/0 CVT CS EJ-1 EJ 8841B M-02EJ01 D-2 1 A,C 6" CK SA C C/0 AT CS VOS 5,7 EJ 8841B M-02EJ01 D-2 1 A,C 6" CK SA C C/0 CVT CS EJ-1 EJ 8958A M-02EJ01 F-6 2 C 14" CK SA C 0 CVT RR EJ-8 EJ 8958A M-02EJ01 F-6 2 C 14" CK SA C 0 CVP OP EJ 8958B M-02EJ01 B-6 2 C 14" CK SA C 0 CVT RR EJ-8 EJ 8958B M-02EJ01 B-6 2 C 14" CK SA C 0 CVP OP EJ 8969A M-02EJ01 G-3 2 C 8" CK SA C 0 CVT RR EJ-9 5 EJ 8969B M-02EJ01 A-4 2 C 8" CK SA C 0 CVT RR EJ-2 5 EJ FCV0610 M-02EJ01 H-6 2 B 3" GA MO O C BT OP 13 6 EJ FCV0610 M-02EJ01 H-6 2 B 3" GA MO O C PIT RR EJ FCV0611 M-02EJ01 A-5 2 B 3" GA MO O C BT OP 10 6 EJ FCV0611 M-02EJ01 A-5 2 B 3" GA MO O C PIT RR EJ FCV0618 M-02EJ01 F-5 2 B 8" BT A0 C C NA 3 EJ FCV0619 M-02EJ01 B-5 2 B 8" BT A0 C C NA 3 EJ HCV0606 M-02EJ01-G-4 2 B 10" BT A0 0 0 NA 3 EJ HOV0607 M-02EJ01 C-4 2 B 10" BT A0 0 0 NA 3

EJ HCV8825 M-02EJ01 E-2 2 B .75" GL A0 C C NA 3 EJ HCV8890A M-02EJ01 F-2 2 B .75" GL A0 C C NA 3 EJ HCV8890B M-02EJ01 C-2 2 B .75" GL A0 C C NA 3 EJ HV 0014 M-02EJ01 H-5 2 B 1" GL SO C C NA 3

. EJ HV 0015 M-02EJ01 A-5 2 B 1" GL SO C C NA 3 EJ HV 0021 M-02EJ01 E-7 2 B 1" GL SO C C NA 3 EJ HV 0022 M-02EJ01 D-7 2 B 1" GL SO C C NA 3 EJ HV 0023 M-02EJ01 E-7 2 A 1" GL SO C C AT RR V04 10 EJ HV 0024 M-02EJ01 D-6 2 A 1" GL SO C C AT RR V04 10 EJ HV 0025 M-02EJ01 E-7 2 A 1" GL S0 C C AT RR V04 10 EJ HV 0026 M-02EJ01 D-6 2 A 1" GL SO C C AT RR V04 10 EJ HV 8701A M-02EJ01 F-8 1 A 12" GA MO C C AT CS V05 7 EJ HV 8701A M-02EJ01 F-8 1 A 12" GA M0 C C BT CS 120 EJ-3 5,6 EJ HV 8701A M-02EJ01 F-8 1 A 12" GA MO C C PIT RR EJ HV 8701B M-02EJ01 B-8 1 A 12" GA M0 C C AT CS V05 7 EJ HV 8701B M-02EJ01 B-8 1 A 12" GA M0 C C BT CS 120 EJ-3 5,6 EJ HV 8701B M-02EJ01 B-8 1 A 12" GA M0 C C PIT RR EJ HV 8716A M-02EJ01 E-4 2 B 10" GA MO O C/0 BT CS 15 EJ-7 6,5 l EJ HV 8716A M-02EJ01 E-4 2 B 10" GA MO O C/0 FIT RR i EJ HV 8716B M-02EJ01 D-4 2 B 10" GA MO O C/0 BT CS 15 EJ-7 6,5 l EJ HV 8716B M-02EJ01 D-4 2 B 10" GA MO O C/0 PIT RR l EJ HV 8804A M-02EJ01 G-4 2 B 8" GA MO C 0 BT CS 15 EJ-4 6,5 EJ HV 8804A M-02EJ01 G-4 2 B 8" GA M0 C 0 PIT RR

! EJ HV 8804B M-02EJ01 A-4 2 3 8" GA MO C 0 BT CS 15 EJ-4 6,5 EJ HV 8804B M-02EJ01 A-4 2 B 8" GA M0 C 0 PIT RR EJ HV 8809A K-02EJ01 G-3 2 B 10" GA M0 O C BT CS 15 EJ-5 6,5 EJ HV 8809A M-02EJ01 G-3 2 B 10" GA M0 O C PIT RR EJ HV 8809B M-02EJ01 C-3 2 B 10" GA MO O C BT CS 15 EJ-5 6,5

Pcga 28 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAI' *R/R

NOTES

EJ HV 88095 M-02EJ01 C-3 2 B 10" GA MO O C PIT RR EJ HV 8811A M-02EJ01 E-7 2 B 14" GA M0 C O/C BT RR 18 EJ-6 6,5 EJ HV 8811A M-02EJ01 E-7 2 B 14" GA MO C O/C PIT RR EJ HV 88115 M-02EJ01 D-7 2 B 14" GA M0 C O/C BT RR 18 EJ-6 6,5 EJ HV 88115 M-02EJ01 D-7 2 B 14" GA MO C O/C PIT RR EJ HV 8840 M-02EJ01 E-3 2 B 10" GA M0 C 0 BT CS 15 EJ-5 6,5 EJ HV 8840 M-02EJ01 E-3 2 B 10" GA M0 C 0 PIT RR EJ V 0084 M-02EJ01 H-5 3 C 1.5" RV SA C 0 RVT RR 2 EJ V 0085 M-02EJ01 E-5 3 C 1.5" RV SA C 0 RVT RR 2 EJ V 0156 M-02EJ01 G-5 3 C .75" RV SA C 0 RVT RR 2 EJ V 0157 M-02EJ01 D-6 3 C .75" RV SA C 0 RVT RR 2 4

l

Pcga 29 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

EM 8922A M-02EM01 E-5 2 C 4" CK SA C 0 CVT RR EM-1 5 EM 8922B M-02EH01 D-5 2 C 4" CK SA C 0 CVT RR EM-1 5 EM 8926A M-02EM01 E-7 2 C 8" CK SA C 0 CVP OP EM-5 EM 8926A M-02EM01 E-7 2 C 8" CK SA C 0 CVT RR EM-5 EM 8926B M-02EM01 D-7 2 C 8" CK SA C 0 CVP OP EM-5 EM 8926B M-02EM01 D-7 2 C 8" CK SA C 0 CVT RR EM-5 EM HV 8802A M-02EM01 E-4 2 B 4" GA M0 C 0 BT CS 10 EM-6 6,5 EM HV 8802A M-02EM01 E-4 2 B 4" GA M0 C 0 PIT RR i EM HV 8802B M-02EM01 D-4 2 B 4" GA M0 C 0 BT CS 10 .EM-6 5,6 EM HV 8802B M-02EM01 D-4 2 B 4" GA M0 C 0 PIT RR EM HV 8807A M-02EM01 G-7 2 B 6" GA MO C 0 BT OP 15 6 EM HV 8807A M-02EM01 G-7 2 B 6" GA MO C 0 PIT RR EM HV 8807B M-02EM01 F-7 2 B 6" GA M0 C 0 BT OP 15 6 EM HV 8807B M-02EM01 F-7 2 B 6" UA M0 C 0 PIT RR EM BV 8814A M-02EM01 B-6 2 B 1.5" GL MO O C BT OP 10 6 EM HV 8814A M-02EM01 B-6 2 B 1.5" GL MO O C PIT RR EM HV 8814B M-02EM01 B-5 2 B 1.5" GL MO O C BT OP 10 6 EM HV 8814B M-02EM01 B-5 2 B 1.5" GL MO O C PIT RR EM HV 8821A M-02EM01 E-4 2 B 4" GA MO O C BT OP 15 6 EM HV 8821A M-02EM01 E-4 2 B 4" GA MO O C PIT RR EH HV 8821B M-02EM01 D-4 2 B 4" GA MO O C BT OP 15 6 EM HV 8821B M-02EM01 D-4 2 B 4" GA MO O C PIT RR EM HV 8823 M-02EM01 C-4 2 B .75" GL A0 C C NA 3 EM HV 8824 M-02EM01 D-3 2 B .75" GL' A0 C C NA 3 EM HV 8835 M-02EM01 B-4 2 B 4" GA MO O C BT CS 10 6,5 EM HV 8835 M-02EM01 B-4 2 B 4" GA MO O C PIT RR EM HV 8871 M-02EM01 G-5 2 A .75" GL A0 C C AT RR V04 10 ~

EM HV 8881 M-02EM01 G-4 2 B .75" GL A0 C C NA 3 EM HV 8888 M-02EM01 F-6 2 A 1" GL A0 C C AT RR V04 9,10 EM HV 8889A M-02EM01 G-2 i B .75" GL A0 C C NA 3 EM HV 8889B M-02EM01 G-3 1 B .75" GL A0 C C NA 3 EM HV 8889C M-02EM01 G-2 1 B .75" GL A0 C C NA 3 EH HV 8889D M-02EM01 G-2 i B .75" GL A0 C C NA 3 EM HV 8923A M-02EM01 E-7 2 B 6" GA MO O O NA 3 EM HV 8923B - M-02EM01 D-7 2 B 6" GA MO O O NA 3 EM HV 8924 M-02EM01 G-8 2 B 6" GA MO O O NA 3 EM HV 8964 M-02EM01 G-6 2 A .75" GL A0 C C AT RR V04 10 EM V 0001 M-02EM01 F-3 1 A,C 2" CK SA C O/C AT CS V05 7 EM V 0001 M-02EM01 F-3 1 A,C 2" CK SA C O/C CVT RR EM-2 5 l EM V 0002 M-02EM01 E-3 1 A,C 2" CK SA C O/C AT CS V05 7 l EM V 0002 M-02EM01 E-3 1 A,C 2" CK SA C O/C CVT RR EM-2 5 EM V 0003 M-02EM01 D-3 1 A,C 2" CK SA C O/C AT CS V05 7 EM V 0003 M-02EM01 D-3 1 A,C 2" CK SA C O/C CVT RR EM-2 5 EM V 0004 M-02EM01 C-3 1 A,C 2" CK SA C O/C AT CS V05 7 EH V 0004 M-02EM01 C-3 1 A,C 2" CK SA C O/C CVT RR EM-2 5 EM V 0005 M-02EM01 A-6 2 C 1.5" CK SA C 0 CVT OP EM V 0006 M-02EM01 F-6 2 A,C 1" CK SA C C AT RR V04 9,10 EM V 0007 M-02EM01 A-5 2 C 1.5" CK SA C 0 CVT OP EM V 0188 M-02EM01 D-6 3 C .75" RV SA C 0 RVT RR 2 EM V 0189 M-02EM01 F-6 3 C .75" RV SA C 0 RVT RR 2

Pega 30 j Rev. 7 )

INSERVICE TESTING PROGRAM l SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

EM 8815 M-02EM02 D-3 1 A,C 3" CK SA C' 0/C AT CS V05 7 EM 8815 M-02EM02 D-3 1 A,C 3" CK SA C O/C CVT RR EM-3 5 EM 8852 M-02EM02 E-5 3 C .75" RV SA C 0 RVT RR 2 EM HV 8801A M-02EM02 D-4 2 B 4" GA M0 C 0 BT OP 15 6 EM HV 8801A M-02EM02 D-4 2 B 4" GA M0 C 0 PIT RR EM HV 8801B M-02EM02 D-4 2 B 4" GA M0 C 0 BT OP 15 6 EM HV 8801B M-02EM02 D-4 2 B 4" GA MO C 0 PIT RR EM HV 8803A M-02EM02 C-7 2 3 4" GA M0 C 0 BT OP 15 6 EM HV 8803A M-02EM02 C-7 2 B 4" GA MO C 0 PIT RR EM HV 8803B M-02EM02 A-7 2 3 4" GA M0 C 0 BT OP 15 6 EM HV 8803B M-02EM02 A-7 2 B 4" GA M0 C 0 PIT RR EM HV 8837A M-02EM02 C-7 2 B 1" GL SO C 0 BT OP 10 ,

EM HV 8837A M-02EM02 C-7 2 B 1" GL SO C 0 FST OP EM HV 8837A M-02EM02 C-7 2 B 1" GL SO C 0 PIT RR 13 EM HV 8837B M-02EM02 B-7 2 B 1" GL SO C 0 BT OP 10 EM HV 8837B M-02EM02 B-7 2 B 1" GL S0 C 0 FST OP EM HV 8837B M-02EM02 B-7 2 B 1" GL SO C 0 PIT RR 13 EM HV 8843 M-02EM02 C-4 2 B .75" GL A0 C C NA 3 EM HV 8870A M-02EM02 E-5 2 B 1" GL A0 0 C BT OP 5 EM HV 8870A M-02EM02 E-5 2 B 1" GL A0 0 C FST OP EM HV 8870A M-02EM02 E-5 2 B 1" GL A0 0 C PIT RR EM HV 8870B M-02EM02 E-5 2 B 1" GL A0 0 C BT OP 5 EM HV 8870B M-02EM02 E-5 2 B 1" GL A0 0 C FST OP EM HV 8870B M-02EM02 E-5 2 B 1" GL A0 0 C PIT RR

EM HV 8882 M-02EM02 C-3 2 B .75" GL A0 C C NA 3

' EM HV 8883 M-02EM02 D-6 2 B 1" GL A0 0 C BT OP 5 3 EM HV 8883 M-02EM02 D-6 2 B 1" GL A0 0 C FST OP ~

EM HV 8883 M-02EM02 D-6 2 B 1" GL A0 0 C PIT RR EM V 0014 M-02EM02 E-6 2 C 1" CK SA C C NA 12 EM V 0017 M-02EM02 D-6 2 C 1" CK SA C C NA 12 EM V 0240 M-02EM02 C-7 2 C 1" CK SA C 0 CVT RR EM-3 5 EM V 0241 M-02EM02 B-7 2 C 1" CK SA C 0 CVT RR EM-3 5

, ~ - _ _ _ _ . . _ _

- . . , , . .-,-m__ - . _ . _ - . . - - _ . _ _ _ _ . . . _ . _ . _ - . - _ . . . . - . . - _ _ _ _ - _ _ _ . _ ~ _ _ - _ _ _ . .

Pcg3 31 Rev. 7 INSERVICE TESTING PROGRAM l l

SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAK *R/R

NOTES

EN HV 0001 M-02EN01 G-7 2 B 12" GA M0 C C/0 BT CS 30

EM-4 6,5 EN HV 0001 M-02EN01 G-7 2 B 12" GA MO C C/0 PIT RR EN HV 0006 M-02EN01 G-4 2 B 10" GA MO C 0 BT OP 15 6 EN HV 0006 M-02EN01 G-4 2 B 10" GA MO C 0 PIT RR EN HV 0007 M-02EN01 B-7 2 B 12" GA M0 C C/0 BT CS 30 EN-4 6,5 EN HV 0007 M-02EN01 B-7 2 B 12" GA M0 C C/0 PIT RR EN HV 0012 M-02EN01 B-4 2 B 10" GA MO C 0 BT OP 15 6 l

EN HV 0012 M-02EN01 B-4 2 B 10" GA MO C 0 PIT RR EN HV 0015 M-02EN01 E-6 2 B 3" GA MO C 0 BT OP 8 EN HV 0015 M-02EN01 E-6 2 B 3" GA MO C 0 PIT RR EN HV 0016 M-02EN01 D-6 2 B 3" GA M0 C 0 BT OP 8 l EN HV 0016 M-02EN01 D-6 2 B 3" GA M0 C 0 PIT RR EN V 0002 M-02EN01 G-7 2 C 12" CK SA C 0 CVT RR EN-1 5 EN V 0003 M-02EN01 G-7 2 C 12" CK SA C 0 CVP OP EN-2 EN Y 0003 M-02EN01 G-7 2 C 12" CK SA C 0 CVT RR EN-2 EN V 0004 M-02EN01 G-5 2 C 10" CK SA C 0 CVP OP EN-2 EN V 0004 M-02EN01 G-5 2 C 10" CK SA C 0 CVT RR EN-2 EN V 0008 M-02EN01 B-7 2 C 12" CK SA C 0 CVT RR EN-1 5

EN V 0009 M-02EN01 B-7 2 C 12" CK SA C 0 CVP OP EN- 2 EN V 0009 M-02EN01 B-7 2 C 12" CK SA C 0 CVT RR EN-2 EN V 0010 M-02EN01 B-5 2 C 10" CK SA C 0 CVP OP EN-2 EN V 0010 M-02EN01 B-5 2 C 10" CK SA C 0 CVT RR EN-2 EN V 0013- M-02EN01 G-4 2 C 10" CK SA C 0 CVT RR EN-3 5 EN V 0017 M-02EN01 B-4 2 C 10" CK SA C 0 CVT RR EN-3 5 EN V 0057 M-02EN01 F-5 2 C .75" RV SA C C RVT 2 EN V 0058 M-02EN01 F-5 2 C 1" RV SA C 0 RVT 2 EN V 0099 M-02EN01 F-6 2 C 3" CK SA C 0 CVT OP EN V 0101 M-02EN01 C-6 2 C 3" CK SA C 0 CVT OP EN V 0106 M-02EN01 F-5 2 C 1" RV SA C 0 RVT 2 l'

. . , . . - _ _ , . .- _ . . . . ,_-_,_...___.._-__,....,m,.-. . . , , . - . . , _ ~ , , , , , _ . , - - _ . _

Pcg2 32 l Rev. 7 INSERVICE TESTING PROGRAM !

SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

KP 8818A M-02EP01 G-3 1 A,C 6" CK SA C O/C AT CS V05 7 EP 8818A M-02EP01 G-3 1 A,C 6" CK SA C O/C CVT CS EP-1 5 EP 8818B M-02EP01 F-3 1 A,C 6" CK SA C O/C AT CS VOS 7 EP 8818B M-02EP01 F-3 1 A,C 6" CK SA C O/C CVT CS EP-1 5 EP 8818C M-02EP01 D-3 1 A,C 6" CK SA C O/C AT CS V05 7 EP 8818C M-02EP01 D-3 1 A,C 6" CK SA C O/C CVT CS EP-1 5 EP 8818D M-02EP01 C-3 1 A,C 6" CK SA C O/C AT CS VOS 7 EP 8818D M-02EP01 C-3 1 A,C 6" CK SA C O/C CVT CS EP-1 5 EP 8855A M-02EP01 H-7 2 C 1" RV SA C 0 RVT 2 EP 8855B M-02EP01 F-7 2 C 1" RV SA C 0 RVT 2 EP 8855C M-02EP01 D-7 2 C 1" RV SA C 0 RVT 2 EP 8855D M-02EP01 C-7 2 C 1" RV SA C 0 RVT 2 EP 8956A M-02EP01 G-4 1 A,C 10" CK SA C 0 AT CS VOS 7 EP 8956A M-02EP01 G-4 1 A,C 10" CK SA C 0 CVT RR EP-2 5 EP 8956B M-02EP01 E-4 1 A,C 10" CK SA C 0 AT CS V05 7 EP 8956B M-02EP01 E-4 1 A,C 10" CK SA C 0 CVT RR EP-2 5 EP 8956C M-02EP01 C-4 1 A,C 10" CK SA C 0 AT CS VOS 7 EP 8956C M-02EP01 C-4 1 A,C 10" CK SA C 0 CVT RR EP-2 5 EP 8956D M-02EP01 B-4 1 A,C 10" CK SA C 0 AT CS V05 7 EP 8956D M-02EP01 B-4 1 A,C 10" CK SA C 0 CVT RR EP-2 5 EP HV 8808A M-02EP01 G-5 2 B 10" GA MO O O NA 1,3 EP HV 8808B M-02EP01 E-3 2 B 10" GA MO O O NA 1,3 EP HV 8808C M-02EP01 C-5 2 B 10" GA MO O O NA 1,3 EP HV 8808D M-02EP01 B-5 2 B 10" GA MO O O NA 1,3 EP HV 8875A M-02EP01 H-6 2 B 1" GL A0 C C NA 3 EP HV 8875B M-02EP01 F-6 2 B 1" GL A0 C C NA 3 EP HV 8875C M-02EP01 D-6 2 B 1" GL A0 C C NA 3 ~

EP HV 8875D M-02EP01 C-6 2 B 1" GL A0 C C NA 3 EP HV 8877A M-02EP01 F-4 2 B .75" GL A0 C C NA 3 EP HV 8877B M-02EP01 E-4 2 B .75" GL A0 C C NA 3 EP HV 8877C M-02EP01 C-4 2 B .75" GL A0 C C NA 3 EP HV 8877D M-02EP01 A-4 2 B .75" GL A0 C C NA 3 EP HV 8878A M-02EP01 G-5 2 B 1" GL A0 C C NA 3 EP HV 8878B M-02EP01 E-5 2 B 1" GL A0 C C NA 3 EP HV 8878C M-02EP01 D-5 2 B 1" GL A0 C C NA 3 EP HV 8878D M-02EP01 B-5 2 B 1" GL A0 C C NA 3 EP HV 8879A M-02EP01 G-4 2 B .75" GL A0 C C NA 3 EP HV 8879B M-02EP01 E-4 2 B .75" GL A0 C C NA 3 EP HV 8879C M-02EP01 D-4 2 B .75" GL A0 C C NA 3 EP HV 8879D M-02EP01 C-2 2 B .75" GL A0 C C NA 3 EP HV 8880 M-02EP01 A-4 2 A 1" GL A0 C C AT RR V04 9,10 EP HV 8950A M-02EP01 H-7 2 B 1" GL SO C 0 BT CS 10 EP-4 5 EP HV 8950A M-02EP01 H-7 2 B 1" GL S0 C 0 PIT RR EP HV 8950B M-02EP01 F-8 2 B 1" GL SO C 0 BT CS-10 EP-4 5 EP HV 8950B M-02EP01 F-8 2 B 1" GL SO C 0 PIT RR EP HV 8950C M-02EP01 F-7 2 B 1" GL SO C 0 BT CS 10 EP-4 5 EP HV 8950C M-02EP01 F-7 2 B 1" GL SO C 0 PIT RR

'EP HV 8950D M-02EP01 0-8 2 B 1" GL SO C 0 BT CS 10 EP-4 5 EP HV 8950D M-02EP01 D-8 2 B 1" GL SO C 0 PIT RR EP HV 8950E M-02EP01 D-7 2 B 1" GL SO C 0 BT CS 10 EP-4 5 EP HV 8950E M-02EP01 D-7 2 B 1" GL SO C 0 ' PIT RR EP HV 8950F M-02EP01 C-8 2 B 1" GL SO C 0 BT CS 10 EP-4 5

Pcg3 33 R3. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAK *R/R

NOTES

EP HV 8950F M-02EP01 C-8 2 B 1" GL SO C 0 PIT RR EP V 0010 M-02EP01 G-3 1 A,C 2" CK SA C O/C AT CS V05 7 EP V 0010 M-02EP01 G-3 1 A,C 2" CK SA C O/C CVT RR EP-3 5 EP V 0020 M-02EP01 T-3 1 A,C 2" CK SA C O/C AT CS VOS 7 EP V 0020 M-02EP01 T-3 1 A,C 2" CK SA C O/C CVT RR EP-3 5 EP V 0030 M-02EP01 D-3 1 A,C 2" CK SA C O/C AT CS VOS 7 EP V 0030 M-02EP01 D-3 1 A,C 2" CK SA C O/C CVT RR EP-3 5 EP V 0040 M-02EP01 C-3 1 A,C 2" CK SA C O/C AT CS V05 7 EP V 0040 M-02EP01 C-3 1 A,C 2" CK SA C O/C CVT RR- EP-3 5 EP V 0046 M-02EP01 A-5 2 A,C 1" CK SA C C AT RR V04 9,10 1

0 l

l l

l 1

l 6

Pcg3 34 R;v. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAK *R/R

NOTES

FC FV 0310 M-02FC02 D-7 3 B 1" GL A0 0 C BT OP 5 FC FV 0310 M-02FCO2 D-7 3 B 1" GL A0 0 C FST OP FC HV 0312 M-02FCO2 F-5 3 B 4" GA MO C 0 BT OP 10 6 FC HV 0312 M-02FCO2 F-5 3 B 4" GA MO C 0 PIT RR FC LV 0010 M-02FC02 D-6 3 B 1" GL A0 C C NA 3 FC V 0001 M-02FCO2 G-6 2 C 4" CK SA C O/C CVT CS FC-1 FC V 0001 M-02FCO2 G-6 2 C 4" CK SA C 0 CVP OP FC-1 FC V 0002 M-02FC02 G-6 2 C 4" CK SA C O/C CVT CS FC-1 FC V 0002 M-02FCO2 G-6 2 C 4" CK SA C 0 CVP OP FC-1 FC V 0003 M-02FCO2 G-6 3 C 4" CK SA C C NA 3 FC V 0024 M-02FCO2 G-6 2 C 4" CK SA C O/C CVT CS FC-1 FC V 0024 M-02FCO2 G-6 2 C 4" CK SA C 0 CVP OP FC-1 FC V 0025 M-02FCO2 G-6 2 C 4" CK SA C O/C CVT CS FC-1 FC V 0025 M-02FC02 G-6 2 C 4" CK SA C 0 CVP OP FC-1 FC V 0999 M-02FCO2 E-3 3 C .5" RV SA C 0 RVT RR 2 t

l l

l_ , . . - _ - _ _ . . - ._ .___ -.- _ _ _. _ _ - - .. _ _ _ - _ _ . .

Pcg2 35 127. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

GS EV 0003 M-02GS01 E-6 2 A 1" GA SO C O/C AT RR V04 10 GS HV 0003 M-02GS01 E-6 2 A 1" GA SO C O/C BT OP 5 '

GS HV 0003 M-02GS01 E-6 2 A 1" GA SO C O/C FST OP GS HV 0003 M-02GS01 E-6 2 A 1" GA SO C O/C PIT RR 13 GS HV 0004 M-02GS01 E-6 2 A 1" GA SO C O/C AT RR V04 10 GS HV 0004 M-02GS01 E-6 2 A 1" GA SO C O/C BT OP 5 GS EV 0004 M-02GS01 E-6 2 A 1" GA SO C O/C FST OP GS HV 0004 M-02GS01 E-6 2. A 1" GA SO C O/C PIT RR 13 GS HV 0005 M-02GS01 D-5 2 A 1" GA SO C O/C AT RR V04 10 l GS EV 0005 M-02GS01 D-5 2 A 1" GA SO C O/C BT OP 5 GS HV 0005 M-02GS01 D-5 2 A 1" GA 50 C O/C FST OP GS HV 0005 M-02G301 D-5 2 A 1" GA SO C O/C PIT RR 13 GS HV 0008 M-02GS01 B-6 2 A 1" GA SO C O/C AT RR V04 10 GS HV 9008 M-02GS01 B-6 2 A 1" GA SO C O/C BT OP 5 GS HV 0008 M-02GS01 B-6 2 A 1" GA SO C O/C FST OP G3 HV 0008 M-02GS01 B-6 2 A 1" GA SO C O/C PIT RR 13 GS HV 0009 M-02GS01 B-6 2 A 1" GA SO C O/C AT RR V04 10~

4 GS HV 0009 M-02GS01 B-6 2 A 1" GA SO C O/C BT OP 5 GS HV 0009 M-02GS01 B-6 2 A 1" GA S0 C O/C FST OP GS HV 0009 M-02GS01 B-6 2 A 1" GA SO C O/C PIT RR 13 GS HV 0012 M-02GS01 E-4 2 A 1" GA SO C O/C AT RR V04 10 GS EV 0012 M-02GS01 E-4 2 A 1" GA SO C O/C BT OP 5 GS HV 0012 M-02GS01 E-4 2 A 1" GA SO C O/C FST OP GS HV 0012 M-02GS01 E-4 2 A 1" GA SO C O/C PIT RR 13 GS HV 0013 M-02GS01 E-5 2 A 1" GA SO C O/C AT RR V04 10 GS HV 0013 M-02GS01 E-5 2 A 1" GA SO C O/C BT OP 5 GS HV 0013 M-02GS01 E-5 2 A 1" GA SO C O/C FST OP '

GS EV 0013 M-02GS01 E-5 2 A 1" GA SO C O/C PIT RR 13 GS HV 0014 M-02GS01 D-5 2 A 1" GA SO C 0/C AT RR V04 10

, GS HV 0014 M-02GS01 D-5 2 A 1" GA SO C O/C BT OP 5 GS HV 0014 M-02GS01 D-5 2 A 1" GA SO C O/C FST OP GS HV 0014 M-02GS01 D-5 2 A 1" GA SO C O/C PIT RR 13 GS HV 0017 M-02GS01 B-4 2 A 1" GA SO C O/C AT RR V04 10 l GS HV 0017 M-02GS01 B-4 2 A 1" GA SO C O/C BT OP 5 l GS HV 0017 M-02GS01 B-4 2 A 1" GA SO C O/C FST OP l GS HV 0017 M-02GS01 B-4 2 A 1" GA SO C O/C PIT RR 13 GS HV 0018 M-02GS01 B-5 2 A 1" GA SO C O/C AT RR V04 10 GS HV 0018 M-02GS01 B-5 2 A 1" GA SO C O/C BT OP 5 GS HV 0018 M-02GS01 B-5 2 A 1" GA SO C O/C FST OP GS HV 0018 M-02GS01 B-5 2 A 1" GA SO C O/C PIT RR 13 GS HV 0020 M-02GS01 F-5 2 A 6" BT M0 C O/C AT RR V04 10 GS HV 0020 M-02GS01 F-5 2 A 6" BT MO C O/C BT OP 5 6 i GS HV 0020 M-02GS01 F-5 2 A 6" BT MO C O/C PIT RR l GS HV 0021 M-02GS01 F-4 2 A 6" BT M0 C O/C AT RR V04 10 l GS HV 0021 M-02GS01 F-4 2 A 6" BT MO C O/C BT OP 5 6 l GS HV 0021 M-02GS01 F-4 2 A 6" BT MO C O/C PIT RR

! GS HV 0031 M-02GS01 D-4 2 A 1" GA SO O C AT RR V04 10 GS HV 0031 M-02GS01 D-4 2 A 1" GA SO O C BT OP 5 l GS HV 0031 M-02GS01 D-4 2 A 1" GA SO O C FST OP l GS HV 0031 M-02GS01 D-4 2 A 1" GA SO O C PIT RR 13 i GS HV 0032 M-02GS01 D-3 2 A 1" GA SO O C AT RR V04 10

! GS HV 0032 M-02GS01 D-3 2 A 1" GA SO O C BT OP 5

Pcgs 36 Rev. 7 '

l INSERVICE TESTING PROGRAM SY VLV-NUMBER *-PiID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

GS HV 0032 M-02GS01 D-3 2 A 1" GA SO O C FST OP GS HV 0032 M-02GS01 D-3 2 A 1" GA SO O - C PIT RR 13 GS EV 0033 M-02GS01 C-4 2 A 1" GA SO O C AT RR V04 10 GS HV 0033 M-02GS01 C-4 2 A 1" GA SO O C BT OP 5 GS HV 0033 M-02GS01 C-4 2 A 1" GA SO O C FST OP GS HV 0033 M-02GS01 C-4 2 A 1" GA SO O C PIT RR 13 GS HV 0034 M-02GS01 C-4 2 A 1" GA SO O C AT RR V04 10 GS HV 0034 M-02GS01 C-4 2 A 1" GA SO O C BT OP 5 GS EV 0034 M-02GS01 C-4 2 A 1" GA SO O C FST OP GS HV 0034 M-02GS01 C-4 2 A 1" GA SO O C PIT RR 13 GS HV 0036 M-02GS01 D-6 2 A 1" GA SO O C AT RR V04 10 GS HV 0036 M-02GS01 D-6 2 A 1" GA SO O C BT OP 5 GS HV 0036 M-02GS01 D-6 2 A 1" GA SO O C FST OP GS HV 0036 M-02GS01 D-6 2 A 1" GA SO O C PIT RR 13 GS HV 0037 M-02GS01 D-7 2 A 1" GA SO O C AT RR V04 10 GS HV 0037 M-02GS01 D-7 2 A 1" GA SO O C BT OP 5 GS HV 0037 M-02GS01 D-7 2 A 1" GA SO O C FST OP GS HV 0037 M-02GS01 D-7 2 A 1" GA SO O C PIT RR 13 GS HV 0038 M-02GS01 C-6 2 A 1" GA SO O C AT RR V04 10 GS HV 0038 M-02GS01 C-6 2 A 1" GA SO O C BT OP 5 GS HV 0038 M-02GS01 C-6 2 A 1" GA SO O C FST OP GS EV 0038 M-02GS01 C-6 2 A 1" GA SO O C PIT RR 13 GS HV 0039 M-02GS01 C-6 2 A 1" GA SO O C AT. RR V04 10 GS HV 0039 M-02GS01 C-6 2 A 1" GA SO O C BT OP S GS HV 0039 M-02GS01 C-6 2 A 1" GA SO O C FST OP GS HV 0039 M-02GS01 C-6 2 A 1" GA SO O C PIT RR 13 I

Pcg2 37 Rsv. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

GT HZ 0004 M-02GT01 D-4 2 A 18" BT A0 0 C AT RR V04 10 GT HZ 0004 M-02GT01 D-4 2 A 18" BT A0 0 C BT OP 3 GT HZ 0004 M-02GT01 D-4 2 A 18" BT A0 0 C FST OP GT HZ 0004 M-02GT01 D-4 2 A 18" BT A0 0 C PIT RR GT HZ 0005 M-02GT01 A-5 2 A 18" BT A0 0 C AT RR V04 10 GT HZ 0005 M-02GT01 A-5 2 A 18" BT A0 0 C BT OP 3 GT HZ 0005 M-02GT01 A-5 2 A 18" BT A0 0 C FST OP GT HZ 0005 M-02GT01 A-5 2 A 18" BT A0 0 C PIT RR GT HZ 0006 M-02GT01 C-4 2 A 36" BT A0 C C AT RR V04 9,10 GT HZ 0007 M-02GT01 C-5 2 A 36" BT A0 C C AT RR V04 9,10 GT HZ 0008 M-02GT01 C-6 2 A 36" BT A0 C C AT RR V04 9,10 GT HZ 0009 M-02GT01 C-7 2 A 36" BT A0 C C AT RR V04 9,10 GT HZ 0011 M-02GT01 A-6 2 A 18" BT A0 0 C AT RR V04 10 GT HZ 0011 M-02GT01 A-6 2 A 18" BT A0 0 C BT OP 3 GT HZ 0011 M-02GT01 A-6 2 A 18" BT A0 0 C FST OP GT HZ 0011 M-02GT01 A-6 2 A 18" BT A0 0 C PIT RR GT HZ 0012 M-02GT01 A-7 2 A 18" BT A0 0 C AT RR V04 10 GT HZ 0012 M-02GT01 A-7 2 A 18" BT A0 0 C BT OP 3 GT HZ 0012 M-02GT01 A-7 2 A 18" BT A0 0 C FST OP GT HZ 0012 M-02GT01 A-7 2 A ~18" BT A0 0 C PIT RR

~

l l

l

Pcg2 38 R:;v. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

HB HV 7126 M-02HB01 G-6 2 A .75" DI A0 0 C AT RR V04 10 RB HV 7126

M-02HB01 G-6 2 A .75" DI A0 0 C BT OP 10 HB HV 7126 M-02HB01 G-6 2 A .75" DI A0 0 C FST OP HB HV 7126 M-02HB01 G-6 2 A .75" DI A0 0 C PIT RR H3 HV 7136 M-02HB01 F-3 2 A 3" DI A0 0 C AT RR V04 10 HB HV 7136 M-02HB01 F-3 2 A 3" DI A0 0 C BT OP 10 HB HV 7136 M-02HB01 F-3 2 A 3" DI A0 0 C FST OP HB HV 7136 M-02HB01 F-3 2 A 3" DI A0 0 C PIT RR HB HV 7150 M-02HB01 G-5 2 A .75" DI AO O C AT RR V04 10 HB HV 7150 M-02HB01 G-5 2 A .75" DI A0 0 C BT OP 10 HB HV 7150 M-02HB01 G-5 2 A .75" DI A0 0 C FST OP HB HV 7150 M-02HB01 G-5 2 A .75" DI A0 0 C PIT RR HB HV 7176 M-02HB01 F-3 2 A 3" DI A0 0 C AT RR V04 10 HB HV 7176 M-02HB01 F-3 2 A 3" DI A0 0 C BT OP 10 HB HV 7176 M-02HB01 F-3 2 A 3" DI A0 0 C FST OP HB HV 7176 M-02HB01 F-3 2 A 3" DI A0 0 C PIT RR HB V 0036 M-02HB01 C-3 3 C .75" RV SA C 0 RVT RR 2 l

1 l

l

Pcga 39 Rev. 7 INSERVICE TESTING FROGRAM SY VLV-NUMBER *-P+1D

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

HD V 0016 M-02HD01 B-7 2 A 2" GL M C C AT RR V04 1,9,11 HD V 0017 M-02HD01 B-7 2 A 2" GL M C C AT RR V04 1,9,11 I

i I

e l

Pega 40 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD~I CAT

SIZE TYP AT POS DIR TST TM MAK *R/R

NOTES

KA TV 0029 M-02KA01 D-2 2 A 2" GL A0 0 C AT RR V04 10 KA FV 0029 M-02KA01 D-2 2 A 2" GL A0 0 C BT CS 5 KA-1 5 KA FV 0029 M-02KA01 D-2 2 A 2" GL A0 0 C FST CS KA-1 KA FV 0029 M-02KA01 D-2 2 A , .2" GL A0 0 C PIT RR KA HV 0030 M-02KA01 C-1 2 B 1.5" GA MO C 0 NA 3 KA V 0204 M-02KA01 C-2 2 A,C 1.5" CK SA 0 C AT RR V04 5,11 l KA V 0204 M-02KA01 C-2 2 AC 1.5" CK SA 0 C CVT RR KA-2

{

l l

Pega 41 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

KA V 0039 M-02KA02 D-6 2 A,C 4" CK SA C C AT RR V04 9,11 KA V 0118 M-02KA02 D-6 2 A 4" GL M C C AT RR V04 1,9,11

Pcg3 42 i Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAK *R/R

NOTES

KA V 0648 M-02KA05 G-6 3 A .75" CK SA C ,C AT RR 9 KA V 0649 M-02KA05 F-5 3 A .75" CK SA C C AT RR 9 KA V 0650 M-02KA05 D-6 3 A .75" CK SA C C AT RR 9 KA V 0651 M-02KA05 B-5 3 A .75" CK SA C C AT RR 9 KA V 0703 M-02KA05 H-7 3 C .75" RV SA C 0 RVT RR 2 KA V 0704 M-02KA05 F-6 3 C .75" RV SA C 0 RVT RR 2 KA V 07')5 M-02KA05 D-7 3 C .75" RV SA C 0 RVT RR 2 KA V 0706 M-02KA05 B-6 3 C .75" RV SA C 0 RVT RR 2

Pcg2 43 Rev. 7 INSERVICE TESTING PROGRAM i

SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAI' *R/R

NOTES

KC HV 0253 M-02KC02 B-6 2 A 4" GA M0 C C AT RR V04 9,11 KC V 0478 M-02KCO2 B-6 2 A,C 4" CK SA C C AT RR V04 9,11 4

e

Pega 44 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

KJ HV 00'01 M-02KJ01 A-6 3 B 1" GA MO O C BT OP 12 4

0

)

a i

l.

i

. ~ . . , , , - , . , _ . _ - - . - . . - . _ _ - _ _ _ - . , - - , , , - - - , . - . . _ _ - - , _ _ , , , . . - , . . . . - . . - . - - - , . _ , . . - - - - - - . _ - - - - -

Pcg3 45 R;v. 7 INSERVICE TESTING PROGRAM s

, SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

KJ PV 0001A M-02KJ02 F-3 3 B .375" TW M0 C 0 BT OP 12 KJ-1 6 KJ PV 0001A M-02KJ02 F-3 3 B .375" TW M0 C 0 PIT RR KJ PV 0001B M-02KJ02 F-3 3 B .375" TW M0 C 0 BT OP 12 KJ-1 6 KJ PV 0001B H-02KJ02 F-3 3 B .375" TW M0 C 0 PIT RR KJ V 0711A M-02KJ02 C-2 3 C .75" CK SA 0 C CVT CS KJ-2 KJ V 0712A M-02KJ02 D-5 3 C .75" CK SA 0 C CVT CS KJ-2 KJ V 0716A M-02KJ02 D-2 3 C .75" RV SA C 0 RVT RR KJ V 0717A M-02KJ02 C-4 3 C .75" RV SA C 0 RVT RR t

e w - - - - - .

~ _ , , - - , - ,y_,-, . . . _ , ,.,,.r, . _ - , , _ ,,, _. ,,

Pcg3 46 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+1D

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

KJ HV 0002 M-02KJ03 A-6 3 B 1" GA MO O C BT OP 12 l

l l

Pcg3 47 R;v. 7 INSERVICE TESTING PROGRAM

'SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

KJ HV 0101 M-02KJ04 A-6 3 B 1" GA MO O C BT OP 12 e

l l

, . , , . , _, , - . , - n.. .- --,-~,-- - - . . , , . , . - . -

Pega 48 R;v 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

KJ PV 0101A M-02KJ05 F-3 3 B .375" TW M0 C 0 BT OP 12 KJ-1 6 KJ PV 0101A M-02KJ05 F-3 3 B .375" TW M0 C 0 PIT RR KJ PV 0101B M-02KJ05 F-3 3 B .375" TW M0 C 0 BT OP 12 KJ-1 6 KJ PV 0101B M-02KJ05 F-3 3 B .375" TW M0 C 0 PIT RR KJ V 0711B M-02KJ05 B-2 3 C .75" CK SA 0 C CVT CS KJ-2 KJ V 0712B M-02KJ05 D-5 3 C .75" CK SA 0 C CVT CS KJ-2 KJ V 0716B M-02KJ05 C-2 3 C .75" RV SA C 0 RVT RR KJ V 0717B M-02KJ05 C-4 3 C .75" RV SA C 0 RVT RR l

l

\

l

Pcan 49 Rev. 7 INSERVICE TESTING PROGRAM ST VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES * .

KJ HV 0102 M-02KJ06 A-6 3 B 1" GA MO O C BT OP 12

Pcg2 50 l

Rev. 7 1 l

INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

LF TV 0095 M-02LF09 F-2 2 A 6" GA MO O C AT RR V04 10 LF FV 0095 M-02LF09 F-2 2 A 6" GA MO O C BT OP 30 6 LF FV 0095 M-02LF09 F-2 2 A 6" GA MO O C PIT RR LF FV 0096 M-02LF09 F-2 2 A 6" GL A0 C C AT RR V04 10 LF FV 0096 M-02LF09 F-2 2 A 6" GL A0 C C BT OP 4 LF FV 0096 M-02LF09 F-2 2 A 6" GL A0 C C FST OP LF TV 0096 E-02LF09 F-2 2 A 6" GL A0 C C PIT RR

ei w -- - w - --e- - - - - ---, ,,e _ -,-,m ~- , - - , - - - , , , , , , - - - - y-,.. ,y,--,-~,m - - - - ----c-----n, - -

Pagn 51 R0v. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

SJ HV 0012 M-02SJ01 F-7 2 A 1" GL SO C C AT RR V04 10 SJ HV 0012 M-02SJ01 F-7 2 A 1" GL SO C C BT OP 5 SJ HV 0012 M-02SJ01 F-7 2 A 1" GL SO C C FST OP SJ HV 0012 M-02SJ01 F-7 2 A 1" GL SO C C PIT RR 13 SJ HV 0013 M-02SJ01 E-7 2 A 1" GL SO C C AT RR V04 10 SJ HV 0013 M-02SJ01 E-7 2 A 1" GL SO C C BT OP 5 SJ HV 0013 M-02SJ01 E-7 2 A 1" GL SO C C FST OP SJ HV 0013 M-02SJ01 E-7 2 A 1" GL SO C C PIT RR 13 SJ HV 0018 M-02SJ01 F-3 2 A 1" GL SO C C AT RR V04 10 SJ HV 0018 M-02SJ01 F-3 2 A 1" GL SO C C BT OP 5 SJ HV 0018 M-02SJ01 F-3 2 A 1" GL SO C C FST OP SJ HV 0018 M-02SJ01 F-3 2 A 1" GL SO C C PIT RR 13 SJ HV 0019 M-02SJ01 E-3 2 A 1" GL SO C C AT RR V04 10 SJ HV 0019 M-02SJ01 E-3 2 A 1" GL SO C C BT OP 5 SJ HV 0019 M-02SJ01 E-3 2 A 1" GL SO C C FST OP SJ HV 0019 M-02SJ01 E-3 2 A 1" GL SO C C PIT RR 13

(

+

l

Pcg2 52 Rev. 7 INSERVICE TESTING PROGRAM ST VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES

SJ HV 0003 M-02SJ04 F-7 2 B 1" GL SO C C NA 3 SJ HV 0004 M-02SJ04 H-7 2 B 1" GL SO C C NA 3 SJ HV 0005 M-02SJ04 F-7 2 A 1" GL SO O C AT RR V04 10 SJ HV 0005 M-02SJ04 F-7 2 A 1" GL SO O C BT OP 5 SJ HV 0005 M-02SJ04 F-7 2 A 1" GL SO O C FST OP SJ HV 0005 M-02SJ04 F-7 % A 1" GL SO O C PIT RR 13 SJ HV 0006 M-02SJ04 F-6 2 A 1" GL SO O C AT RR V04 10 SJ HV 0006 M-02SJ04 F-6 2 A l" GL SO O C BT OP 5 SJ HV 0006 M-02SJ04 F-6 2 A 1" GL SO O C FST OP SJ HV 0006 M-02SJ04 F-6 2 A 1" GL SO O C PIT RR 13 SJ HV 0020 M-02SJ04 G-7 2 B 1" GL SO C C NA 3 SJ HV 0127 M-02SJ04 F-6 2 A 1" GL SO C C AT RR V04 10 SJ HV 0127 M-02SJ04 F-6 2 A 1" GL SO C C BT OP 5 SJ HV 0127 M-02SJ04 F-6 2 A 1" GL SO C C FST OP SJ HV 0127 M-02SJ04 F-6 2 A 1" GL SO C C PIT RR 13 SJ HV 0128 M-02SJ04 H-6 2 A 1" GL SO O C AT RR V04 10 SJ HV 0128 M-02SJ04 H-6 2 A 1" GL SO O C BT OP 5 SJ HV 0128 M-02SJ04 H-6 2 A 1" GL SO O C FST OP SJ HV 0128 M-02SJ04 H-6 2 A 1" GL SO O C PIT RR 13 SJ HV 0129 M-02SJ04 H-5 2 A 1" GL SO O C AT RR V04 10 SJ HV 0129 M-02SJ04 H-5 2 A 1" GL SO O C BT OP 5 SJ HV 0129 M-02SJ04 H-5 2 A 1" GL SO O C FST OP SJ HV 0129 M-02SJ04 H-5 2 A 1" GL SO O C PIT RR 13 SJ HV 0130 M-02SJ04 G-5 2 A 1" GL SO C C AT RR V04 10 SJ HV 0130 M-02SJ04 G-5 2 A 1" GL SO C C BT OP 5 SJ HV 0130 M-02SJ04 G-5 2 A 1" GL SO C C FST OP SJ HV 0130 M-02SJ04 G-5 2 A 1" GL SO C C PIT RR 13 _

SJ HV 0131 M-02SJ04 B-6 2 A 1" GL SO C C AT RR V04 10 SJ HV 0131 M-02SJ04 B-6 2 A 1" GL SO C C BT OP 5 SJ HV 0131 M-02SJ04 B-6 2 A 1" GL SO C C FST OP SJ HV 0131 M-02SJ04 B-6 2 A 1" GL SO C C PIT RR 13 SJ HV 0132 M-02SJ04 A-6 2 A 1" GL SO C C AT RR V04 10 4 SJ HV 0132 M-02SJ04 A-6 2 A 1" GL SO C C BT OP 5

SJ HV 0132 M-02SJ04 A-6 2 A 1" GL SO C C FST OP SJ HV 0132 M-02SJ04 A-6 2 A 1" GL SO C C PIT RR 13 SJ V 0101 M-02SJ04 G-7 2 C 1" CK SA C C NA 3 SJ V 0111 M-02SJ04 A-7 2 A,C 1" CK SA C C AT RR V04 9,11 l

l l

t I-

Peg 2 53 Rev. 7 INSERVICE TESTING PROGRAM SY VLV-NUMBER *-P+ID

CRD I CAT

SIZE TYP AT POS DIR TST TM MAX *R/R

NOTES * -

EF HV 0065 M-U2E701 B-6 3 B 30" BT MO O C BT OP 35 6 EF HV 0065 M-U2EF01 B-6 3 3 30" BT MO O C PIT RR EF HV 0066. M-U2EF01 B-3 3 3 30" BT MO O C BT OP 35 6 EF HV 0066 M-U2EF01 B-3 3 B 30" BT M0 O C PIT RR EF HV 0097 M-U2EF01 F-6 3 3 3" GA MO O C BT OP 30 6 EF HV 0097 !? U2EF01 F-6 3 B 3" GA MO O C PIT RR EF HV 0098 M-U2EF01 D-6 3 B 3" GA MO O C BT OP 30 6 EF HV 0098 M-U2EF01 D-6 3 B 3" GA MO O C PIT RR EF PDV0019 M-U2EF01 F-4 3 B 3" GA MO C 0 BT OP 30 6 EF PDV0019 M-U2EF01 F-4 3 3 3" GA M0 C 0 PIT RR EF PDV0020 M-U2EF01 D-4 3 B 3" GA M0 C 0 BT OP 30 6 EF PDV0020 M-U2EF01 D-4 3 B 3" GA M0 C 0 PIT RR EF V 0001 M-U2EF01 G-5 3 C 30" CK SA C 0 CVT OP EF V 0004 M-U2EF01 D-5 3 C 30" CK SA C 0 CVT OP Y

s e

. , . _ _ ,,, ___ _ ___.__.-__-___r_,,-_, _-,-_--__-,,,.---_,_,m-.,,,-,_,.,y__ ,_~w-. ,

M l

Rev. 7 APPENDIX A REQUEST FOR RELIEF FOR PUMPS o

O 1

Rev. 7

. RELIEF REQUEST # POL SYSTEM: Residual Heat Removal System COMPONENT: PEJ01A and PEJOLB CLASS: 2 FUNCTION: To provide low head safety injection and residual heat.

removal.

TEST REQUIREMENT: The full-scale range of each instrument shall be three times the reference value or less. Instrument accuracy shall be within the limits of Table IWP-4L10-L.

Station instruments meeting these requirements shall i

be acceptable.

l BASIS FOR RELIEF: Reference values for discharge pressures for these pumps are between 200 psig and 300 psig. This would require a discharge pressure gauge of 0-600 psig maximum.

The accuracy required for this gauge would be 2% of 600 psig which is L2 psig. The permanent discharge pressure gauges we have installed are 0-700 psig t5 psig.

Although the permanent instruments are above the maximum range limits they are within the accuracy requirements and are therefore suitable for the test. _.

ALTERNATE TESTIN.G: Use permanently installed discharge pressure gauges.

4 e

H I

Rev. 7 l

i l

RELIEF REQUEST #P02 l

, SYSTEM: Emergency Fuel Oil System COMPONENT: NE01A and PJE018 CLASS: 3 FUNCTION: To provide fuel oil to the standby diesel generators.

TEST REQUIREMENT: Measurevibration,inletpressure(Pi), differential 4 pressure (dp), pump flow (Q) and lubrication levels.

BASIS FOR RELIEF: Diesel generator fuel oil transfer pumps are submersible sump pumps. Vibration cannot be measured on the sub-mersible pumps. Pi cannot be measured, since no Pi instruments are installed. The fuel oil system is a fixed resistance system, and discharge pressure is indicative of pump performance. Lubrication levels need not be verified since these pumps are lubricated by the liquid they are submerged in.

ALTERNATE TESTING: Pump discharge pressure and flow measurement will be made quarterly.

O f

f k

a

_,,,--,,-,_-,,-.,__,,,--w_,c,--v, ,vr_

,.,-,n,,,_,,e---.--n,,,-,-- , , - ... n,,--,-

Rev. 7 i

RELIEF REQUEST #F03 SYSTEM: Chemical and Volume Control ~ System COMPONENT: PBG05A and P8G058 ,

CLASS: 2 FUNCTION: To provide high head safety injection to.the reactor.

TEST REQUIREMENT: .The resistance of the system shall be varied until-either the measured differential pressure or the measured flowrate equals the corresponding reference

value..

. BASIS FOR RELIEF: Technical Specification 4.5.2.f.1 states, "Each ECCS Subsystem shall be demonstrated OPERABLE by verifying that each centrifugal charging pump develops a discharge pressure greater than or equal to 2390 psig on recircula-tion flow.when tested persuant to Specification 4.0.5."

Testing of these pumps is performed on the fixed resistance mini-flow path (z2500 psid, 60 gpm). At this flow rate, the pump curve for these pumps is relatively flat (a25

- psid/60 gpm). Flow rate changes of 50% would result in

- less than 1% change in pump differential pressure. Adequate flow is verified for protection of the pumps by monitoring ~

! discharge pipe temperature changes. Measurement and trend-i ing of pump differential pressure provides sufficient in-formation to adequately monitor pump hydraulic degradation.

ALTERNATE TESTING: Pump discharge pressure and differential pressure will be measured in lieu of pump flow rate.

1 i

Rev. 7 PUMP RELIEF REQUEST NO. 4 SYSTEM: Safety Related COMPONENT: All pumps listed in the program CLASS: 2&3 FUNCTION: To provide flow to safety related systems TEST REQUIREMENT: To measure bearing temperature BASIS FOR RELIEF: Measuring pump hydraulic parameters and vibration will ensure pump operability and the trending of mechanical degradation is assured. Bearing degra-dation will be observed by changes in vibration.

Increases in bearing temperature usually do not occur until just prior to total bearing failure. To detect bearing degradations using bearing temperature would require continuous monitoring. The chance of observing bearing degradation with a yearly test is very low.

ALTERNATE TESTING: None l

l

Rev. 7 RELIEF REQUEST #P05 SYSTEM: Auxiliary Feedwater System COMPONENT: PALO1A, PALO18, and PALO2 CLASS: 3 FUNCTION: Provide a means to remove reactor decay heat when the principal heat sinks are unavailable.

TEST REQUIREMENT: The full-scale range of each instrument shall be three times the reference value or less. Instrument accuracy shall be within the limits of Table IWP-4110-1. Station instruments meeting these requirements shall be acceptable.

BASIS FOR RELIEF: Reference values for suction pressures for these pumps are about 15 psig. This would require suction pressure gauges of 0 45 psig maximum. The accuracy required for these gauges would be L., of 45 psig which is :0.9 psig.

The permanent suction pressure gauges we have installed are 0-60 psig 0.5 psig. Although the permanent instru-ments are above the maximum range limits, they are within the accuracy requirements and are therefore suitable for the test.

- ALTERNATE TESTING: Use permanently installed suction pressure gauges.

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Rev. 7 RELIEF REQUEST #F06 SYSTEM: Chemical and Volume Control System C0h10NENT: PBGOSA and PBG05B CLASS: 2 FUNCTION: To provide high head safety injection to the reactor.

TEST REQUIREMENT: The full-scale range of each instruman't shall be three times the reference value or less. Instrument accuracy shall be within limits of Table IWP-4110-1. Station instruments meeting these requirements shall be acceptable.

BASIS FOR RELIEF: Reference values for suction pressures for these pumps are between 30 psig and 40 psig. This would require suction pressure gauges of 0-90 psig maximum. The accuracy required for this gauge would be 2% of 90 psig which is

1.8 psig. The permanent suction pressure gauges we have installed are 0-150 psig 21.0 psig. Although the permanent instruments are above the maximum range limits, they are within the accuracy requirements and are therefore suitable for the test.

ALTERNATE TESTING: Use permanently installed suction pressure gauges.

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Rev. 7 -

i RELIEF REQUEST #P97 SYSTEM: Safety Related COMPONENT:

All pumps listed in the program except PJE01 A & B CLASS: 2&3 FUNCTION: To provide flow to safety related systens TEST REQUIREMENT: The full-scale range of each instrument shall be three times the reference value or less. .

BASIS FOR RELIEF: Vibration analyzers generally have multiple over-lapping scales rather than a single full-scale range. Also, for vibrations in the lowest range of Table IWP-3100-2, when 0 < Vr < 0.5 mil, if a gauge of 3 Vr were used we would

' not be able to reach the Required Action Range of > 1.5 mil. It is not feasible, for example, to require a meter with a range of 0-0.6 mils for a reference vibration of 0.2 mils when Alert Range is 1.0-1.5 mils.

ALTERNATE TESTING: Will use vibration meters with multiple over-lapping scales, the actual scale used will be determined by the amplitude of vibration for each test.

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Rev. 7 RELIEF REQUEST #P08 SYSTEM: Safety Related COMPONENT: All pumps listed in the program except PJE01 A & B CLASS: 2&3 FUNCTION: To provide flow to safety ielated systems.

TEST REQUIREMENT: The direction of displacement shall be measured in a plane approximately perpendicular to the rotating shaft, and in the horizontal or vertical direction that has the largest deflection for the particular pump installation.

BASIS FOR RELIEF: Some bearing housings have obstructions such as oil fill caps, sight glasses, bolts, rigid supports, etc., which prevent obtaining valid vibration data l

in the perfectly horizontal or vertical direction.

4 ALTERNATE TESTING: The direction of displacement shall be measured in a plane approximately perpendicular to the rotating shaft, and in approximately the horizontal or vertical direction that has the largest deflection for the particular pump installation.

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Rev. 7 RELIEF REQUEST #P09 SYSTEM: Chemical and Volume Control System COMPONENT: PBG02A and PBG028 CLASS: 3 FUNCTION: To provide emergency boration.

TEST REQUIREMENT: The resistance of the system shall be varied until either the measured differential pressure or the measured flowrate equals the corresponding reference value.

BASIS FOR RELIEF: Testing of these pumps is performed on the fixed resistance mini-flow path. Since there is no flow instrument'ation in the recirculation test loop, flow cannot be measured. Measurement and trending of pump differential pressure provides sufficient information to adequately monitor pump hydraulic degradation.

ALTERNATE TESTING: Pump differential pressure will be measured and trended. ,

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Rev. 7 RELIEF REQUEST #P10 SYSTEM: Chemical and Volume Control System COMPONENT: PBG02A and PBG02B CLASS: 3 FUNCTION: To provide emergency boration 4

TEST REQUIREMENT: Measure or observe proper lubricant level or pressure.

BASIS FOR RELIEF: These pumps are canned pumps. The pumps and motors are lubricated by the fluid being pumped.

ALTERNATE TESTING: None 1

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Rev. 7 O

APPENDIX B REQUEST FOR RELIEF FOR VALVES i

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RELIEF REQUEST #V02 .

1 VALVES: All valves exercised only during cold shutdowns or refueling outages.

CATEGORY: A, B, & C CLASS: 2&3 REQUIRENENT: When corrective action is required as a result of tests made during cold shutdown, the condition shall be corrected prior to startup. A retest showing acceptable operation shall be run following any required corrective action before the valve is returned to service.

BASIS FOR RELIEF: The Plant Technical Specifications provide the require-monts and plant conditions necessary for plant startup.

The test requirement taill be satisfied before the valve is required for plant operability as defined in the Plant Technical Specifications.

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Rev. 7 RELIEF REQUEST #V04 VALVE: All Containment Isolation Valves CATEGORY: A CLASS: 2 FUNCTION: Provides containment isolation. ,

TEST REQUIREMENT: Perform valve leak rate test per section IWV-3421 through 3425.

BASIS FOR RELIEF: 10 CFR 50, Appendix J, Primary Reactor Containment Leakage Testing for Water-Cooled Power Reactors, provides-leakage test requirements for containment isolation valves. Technical Specifications provide ACTION statements to be adhered to in the event of test failure.

ALTERNATE TESTING: Valve leak rate testing for containment isolation valves will be performed to the leak test require-ments of 10 CFR 50, Appendix J, and Technical Specifications. This includes requirements for test frequency, differential test pressure, seat

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leakage measurement, and test medium.

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Rev. 7 RELIEF REQUEST #V05 VALVE: BB-8948A, B, C, D BB-8949A, B, C, D BB-V-0001, 0022, 0040, 0059 BB-PV-8702A, B EJ-8841A, B EJ-HV-8701A, B EM-V-0001, 0002, 0003, 0004 EM-8815 EP-V-0010, 0020, 0030, 0040 EP-8818A, B, C, D EP-8956A, B, C, D CATEGORY: A l CLASS: 1 FUNCTION: Provide Reactor Coolant System Pressure Isolation.

TEST REQUIREMENT: Perform valve leak rate test per sections IWV-3421 through IWV-3427.

BASIS FOR RELIEF: Reactor Coolant System Pressure Isolation Valves are sufficiently leak tested per Callaway Plant Technical Specification 4.4.6.2.2.

ALTERNATE TESTING: Reactor Coolant System Pressure Isolation Valves will be leak tested in accordance with Technical Specification 4.4.6.2.2.

9

Rev. 7 RELIEF REQUEST #AB 1 Cold Shutdown Justification VALVE: AB-PV1, PV2, PV3, PV4 CATEGORY: B CLASS: 2 FUNCTION: Steam generator power operated relief valve.

TEST REQUIREMtNT: Exercise valve (full stroke) to the position required to fulfill its function, stroke time, and verify fail safe actuation every 3 months.

BASIS FOR RELIEF: Operating these valves during power operation would cause a decrease in pressure in the respective main steam header. This would introduce a severe transient in the main steam header which is unacceptable from an operational viewpoint.

ALTERNATE TESTING: Valve will be exercised (full stroke) to the position required to fulfill its function, stroke timed and fail safe actuation verified during cold shutdown.

Rev. 7 RELIEF REQUEST #AB 2 Cold Shutdown Justification VALVE: AB-HV-11, AB-HV-14, AB-HV-17, AB-HV-20 CATEGORY: B CLASS: 2 '

FUNCTION: Main steam isolation valves TEST REQUIREMENT: Exercise valve (full stroke) to the position required to fulfill its function, stroke time, and verify fail safe actuation every 3 months.

BASIS FOR RELIEF: Closure of these valves during power operation would introduce a severe transient in the main steam lines which is unacceptable from an operational viewpoint.

Testing by isolating each main steam header is also possible but would cause a power reduction which is also unacceptable from an operational viewpoint.

ALTERNATE TESTING: In This valvevalve addition, will be will partially stroked be stroke timed q(uarterly.

full stroke) to the position required to fulfill its function at _

cold shutdown.

Rev. 7 RELIEF REQUEST #AE 1 .,

VALVE: AE-V120, 121, 122, 123 CATEGORY: C CLASS: 2 FUNCTION: Close to prevent blowdown of steam generators following Feedwater Pipe Rupture. /

TEST REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Exercising these valves during power operation t would require isolation of Feedwater to the steam generator which would result in a severe transient in the steam generator, possibly causing a unit trip. Valve disassembly requires draining the steam generator below the feed header which can only be performed during longer term shutdowns.

ALTERNATE TESTING: A different valve of each group will be disassembled, inspected, and manually full stroked at each refueling, until the entire group has been tested. If the full-stroke capability of the disassembled valve is in question, the remainder of the valves in that group will be disassembled also, inspected, and manually full j stroked at the same outage..

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Rev. 7 J

REU EF REQUEST #AE 3 Cold Shutdown Justification

[ VALVE: AE-V124, 125, 126, 127 CATEGORY: C CLASS: 2 FUNCTION: Open to pass flow from motor driven and turbine driven auxiliary feedwater pumps to steam generators.

TEST REQUIREMNT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR REUEF: Exercising these valves would result in feeding cold water into the steam generators. This is not desir-able during power operation since flow through these valves would unnecessarily thermal shock the steam generator feedwater nozzles.

ALTERNATE TESTING: Exercise check valve (full stroke) to the position required to fulfill its function at cold shutdown.

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Rev. 7 RELIEF REQUEST #AE 4 Cold Shutdown Justification VALVE: AE-FV-39, 40, 41. 42 CATEGORY: B CLASS: 2 FUNCTION: Isolates main feedwater piping from the steam generators upon receipt of a feedwater isolation signal.

TEST REQUIREMENT: Exercise valve (full stroke) to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: Closing these valves during power operation is considered impractical from an operating viewpoint. Clu'sure would ;

isolate feedwater to the steam generator which may result in a severe transient in the steam generator, possibly causing a unit trip.

ALTERNATE TESTING: Valve will be partially stroked quarterly. . Valve will be exercised (full stroke) to the position; required to fulfill its function, stroke timed, and fail safe .

actuation verified at cold shutdown.

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Rev. 7 RELIEF REQUEST #AL 1 Cold Shutdown Justification VALVE: AL-V001, V002, V003, 7030, V033*, V036*, V042, V045*, V048*, V054, V057*, V062*, V067*, V073

- Class 2 CATEGORY: C .

CLASS: 2 and 3 TEST REQUIRE)ENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months. ,

BASIS FOR RELIEF: Exercising these valves would result in feeding cold water into the steam generators. This is not desirable during power operation since flow through these valves would unnecessarily thermal shock the steam generater feedwater nozzles.

ALTERNATE TESTING: Exercise check valve (full stroke) to the position required to fulfill its function at cold shutdown.

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Rev. 7 RELIEF REQUEST #AL 2 VALVE: AL-V006, V009, V012, V015 CATEGORY: C ,

CLASS: 3 FUNCTION: Valves open to provide assured source of auxiliary feedwater from the Essential Service Water System.

TEST REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Full stroking these valves would result in feeding dirty water into the steam generators or to the condensate storage tank as these are the only flow path available.

ALTERNATE TESTING: A different valve of each group will be disassembled, inspected, and manually full stroked at each refueling, '

until the entire group has been tested. If the full-stroke capability of the disassembled valve is in question, the remainder of the valves in that group -

will be disassembled also, inspected, and manually full stroked at the same outage.

Rev. 7 RELIEF REQUEST #AP-1 COLD SHUTDOWN JUSTIFICATION VALVE: AP-V-0033 CATEGORY: C CLASS: -

FUNCTION: Auxiliary feedwater pump mini-flow check valve to the Condensate Storage Tank.

TEST REQUIREMENT: Exercise check valve (full stroke) to the position re-quired to fulfill its function every 3 months.

BASIS FOR RELIEF: Full stroking this valve during normal operation would result in feeding cold water to two steam generators, which is undesirable, or taking two of the auxiliary feedwater punps out of operation which violates Tech-nical Specifications.

ALTERNATE TESTING: Exercise check valve (partial stroke) quarterly..

Exercise check valve (full stroke) to the position '

required to fulfill its function at cold shutdown.

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Rev. 7.

RELIEF REQUEST #B8-1 VALVE: BB-8948A, B, C, D CATEGORY: A, C CLASS: 1 FUNCTION: Opens on flow from the cold leg accumulators, saf'ety injection pumps or residual heat removal pumps to provide flow to the reactor coolant system cold legs.

TEST REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: These valves cannot be full or part stroke exercised during power operation since safety injection pump discharge pressure (approximately 1520 psig) cannot overcome reactor coolant system pressure.

Valves cannot be full stroke exercised during cold shutdown since the residual heat removal pumps can-not provide accident required flow rates through the valves. Accident required flow rates would require injection from the accumulators which cannot be done '

due to cold overpressurization concerns.

ALTERNATE TESTING: A different valve of each group will be disassembled, inspected, and manually stroked at each refueling, until the entire group has been tested. If the full-stroke capability of the disassembled valve is in question, the remainder of the valves in that group will be disassembled also, inspected, and manually full stroked at the same outage.

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Rev. 7 RELIEF REQUEST fBB 2 VALVE: BB-8949A, D CATEGORY: A, C

. CLASS: 1 FUNCTION: These valves open to provide hot leg recirculation flow from the safety injection pumps.

TEST REQUIRE)ENT: Exercise check valva (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Valves cannot be full or partial stroke exercised during power operation since the'only flowpath discharges into the reactor coolant system. Safety injection pump discharge pressure (+ 1520 psig) cannot overcome reactor coolant system pressure. During cold shutdown these valves cannot be full or partial stroke exercised since this could result in a low temperature overpressuri-zation of the reactor coolant system.

ALTERNATE TESTING: Exercise check valve (full stroke) to the position required to fulfill its function at refueling.

Rev. 7 RE UEF REQUEST #BB 3 Cold Shutdown Justification VALVE: BB-8949B, C CATEGORY: A, C CLASS : 1 FUNCTION: Open on flow from the residual heat removal pumps to the reactor coolant hot legs.

TEST REQUIRE)ENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Valves cannot be full or partial stroke exercised during power operation since the only flowpath discharges into the reactor coolant system. Residual Heat Removal Pump Discharge Pressure (approximately 210 psig) or Safety Injection Pucip Discharge Pressure ( approximately 1520 psig) cannot overcome reactor coolant system pressure.

ALTERNATE TESTING: Exercise check valve (full stroke) to the position required to fulfill its function at cold shutdown.

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Rev. 7 RELIEF REQUEST #BB 4 VALVE: BB- 001, 7022, V040, V059 CATEGORY: C CLASS: 1 FUNCTION: These valves open on flow from the Centrifugal Charging Pumps.

TEST REQUIREMNT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Operating these valves would require using a centrifugal charging pump to providei flow which would result in injecting borated water into the Reactor Coolant System thereby causing a power decrease and thermal shock to th'e reactor coolant piping. During cold shutdowns exercising this valve could result in a low temperature overpressurization of the reactor coolant system.

ALTERNATE TESTING: Exercise check valve (full stroke) to the position required to fulfill its function at refueling.

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Rev. 7 RELIEF REQUEST #BB 5 COLD SHUTDOWN JUSTIFICATION VALVES: BB-HV-8001A, B and 8002A, B CATEGORY: B CLASS: 2 FUNCTION: High Point Vents on the RCS TEST REQUIREMENT: Exercise valve to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: If stroked during operation failure of a valve in the open position would put the reactor in a potential small break LOCA situation. Stroking one of these valves open would result in relying on one valve for RCS pressure boundary. Also, no matter what sequence of testing is used, exercising these valves would result in venting out some RCS water directly to the containment atmosphere. This would necessitate in-stallation of a vent rig to control the effluent.

The vent is not accessible for installation of a vent rig due to radiation concerns during operation.

ALTERNATE TESTING: Valves will be exercised and stroke timed at cold shutdown.

Rev. 7 REUEF REQUEST fBB 6 Cold Shutdown Justification VALVE: BB-PV-8702A, 8702B CATEGORY: A CIASS: 1 FUNCTION: Valves open to provide suction to Residual Heat Removal Pumps during normal unit cooldown.

TEST REQUIRE)ENT: Exercise valve (full stroke) to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: These valves have been provided with an interlock which 4

prevents their opening when Reactor Coolant System pressure is above approximately 383 PSIG.

ALTERNATE TESTING: Valve will be exercised (full stroke) to the position

- required to fulfill its function and stroke timed during cold shutdown.

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Rev. 7 RELIEF REQUEST #BB 7 VALVE: BB-V118, V148, V178, V208 CATEGORY: A, C CLASS: 2 FUNCTION: Provides containment isolation.

TEST REQUIRE)ENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: System design does not provide any indication for verifying valve closure upon flow reversal.

ALTERNATE TESTING: Verify valve closure during performance of leak rate test during refueling.

Rev. 7 REM EF REQUEST dBB 8 Cold Shutdown Justification.

VALVE:- BB-HV-13, 14, 15, 16 CATEGORY: B CLASS: 3 FUNCTION: Isolates flow to the reactor coolant pump thermal barriers.

TEST REQUIRENENTS: Exercise valve (full stroke) to the position required to fulfill its function and stroke time every 3 meaths.

BASIS FOR REUEF: Failure of this valve in the closed position during testing would inhibit flow to the reactor coolant pump thermal barriers. This action could result in unit shutdown and possible damage to the vessel and reactor coolant pumps.

ALTERNATE TESTING: Valve will be exercised (full stroke) to the position required to fulfill its function and stroke timed during cold shutdown.

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Rev. 7 RELIEF REQUEST fBB 9 -

Cold Shutdown Justification VALVE: BB-HV-8351A, B, C, D CAIEGORY: A CLASS: 2 FUNCTION: Closes to provide containment isolation.

TEST REQUIREMNT: Exercise valve (full stroke) to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: Failure of this valve in the closed position during testing would inhibit flow to the reactor coolant pump seals. This action could result in unit shutdown and possible damage to the vessel and reactor coolant pumps.

ALTERNATE TESTING: Valve will be exercised (full stroke) to the position required to fulfill its function and stroke timed during cold shutdown.

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Rev. 7 RELIEF REQUEST #BB 10 Cold Shutdown Justification VALVE: BB-PCV-455A, BB-PCV-456A CATEGORY: B CLASS: 1 FUNCTION: Pressurizer power operated relief valve TEST REQUIREMENT: Exercise valve (full stroke) to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: The PORV's, BB-PCV-455A and BB-PCV-456A, cannot be opened during normal operation. If they are

, opened, it could cause depressurization of the RCS and too rapid of a pressure transient. If the PORV block valves are closed, there is not enough pressure to open the PORV's. Required pressure to lift them is 125 psig.

ALTERNATE TESTING: Valve will be exercised (full stroke) to the position required to fulfill its function and ~

stroke timed during cold shutdown.

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Rev. 7 RELIEF REQUEST #BG 1 I

l VALVE: BG-8381 CATEGORY: A, C CLASS: 2 '

FUNCTION: 'Provides containment isolation.

TEST REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: System design does not provide any indication for verifying valve closure upon flow reversal.

ALTERNATE TESTING: Verify valve closure during performance of leak rate test.during refueling.

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R;v. 7

RELIEF REQUEST fBG 2 Cold Shutdown Justification VALVE: BG-HV-8112, 8100 CATEGORY: 1 CLASS: 2 FUNCTION: These valves isolate the return flow path from the reactor coolant pump seal water supply.

TEST REQUIREMENT: Exercise valve (full stroke) to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: Closure of one of these valves during power operation would , inhibit seal water flow across the reactor coolant pump seals. This would result in damage to the pump seals.

ALTERNATE TESTING: Valve will be exercised (full stroke) to the position required to fulfill its function and stroke timed during cold shutdown.

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Rev. 7 RELIEF REQUEST #BG 3 Cold Shutdown Justification VALVE: BG-HV-8160, HV-8152 CATEGORY:

CLASS: 2 FUNCTION: Provides containment isolation.

TEST REQUIRENENT: Exercise valve (full stroke) to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: Failure of this valve in the closed position during testing would result in loss of pressurizer level control and could result in plant shutdown.

ALTERNATE TESTING: Valve will be exercised (full stroke) to the position required to fulfill its function and stroke timed during cold shutdown.

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REV. 7 RELIEF REQUEST #BG 4 VALVE: BG-8481A, B CATEGORY: C CLASS: 2 FUNCTION: Open to provide flow from the centrifugal charging pumps to the normal charging line or boron injection tank.

TEST REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Valves cannot be full stroke exercised during power operation. The only full flow flowpath is through the Boron Injection Tank into the reactor coolant 4

system. This would cause an increase in reactor coolant system boron inventory and possibly cause plant shutdown. Valves cannot be exercised during cold shutdown since this could result in a cold over-pressurization of the reactor coolant system.

ALTERNATE TESTING: Exercise check valve (partial stroke) quarterly during plant operation. Exercise check valve (full stroke) to the position required to fulfill its function at refueling.

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REV. 7 RELIEF REQUEST #BG 5 VALVE: BG-8546A, 8 i

CATEGORY: C CLASS: 2 .

FUNCTION: Valve opens on flow from the refueling water storage tank to

, suction of the centrifugal charging pumps.

t TEST REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Valve cannot be full or partial stroke exercised during power operation as this would increase the reactor coolant system boron inventory and possibly cause plant shutdown. This valve cannot be exercised during cold shutdown since this could result in a cold over-pressurization of the reactor coolant system.

To perform testing on these valves requires injection of 2000 ppm borated water for several minutes for each valve. This would result in injection of large quan-

. .tities of borated water, which would have to be re-

. moved prior to startup and would result in larger quantities of radwaste.. Also, the test would only .

. be a partial exercise test since full flow cannot be obtained due to cold over-pressurization concerns

> with lack of room for expansion to handle additional injected water. The small amount of additional as-surance supplied by a partial stroke on a cold shutdown frequency does not justify the additional radwaste, system manipulations and manpower required to perform i the tests.

ALTERNATE TESTING: Exercise check valve (full stroke) to the position re-quired to fulfill its function at refueling.

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REV. 7 RELIEF REQUEST fBG 6 COLD SHUTDOWN JUSTIFICATION VALVE: BG-HV-8105, 8106 CATEGORY: B CLASS: 2 FUNCTION: Valves close to isolate the charging line to the Reactor Coolant System upon receipt of a safety injection signal.

TEST REQUIRENNT: Exercise valve (full stroke) to the position required to fulfill its f~nction and stroke time every 3 months.

BASIS FOR RELIEF: Closure of one of these valves during power operation would isolate charging flow to the Reactor Coolant System.

This could result in loss of pressurizer level control and cause plant shutdown.

ALTERNATE TESTING: Valve will be exercised (full stroke) to the position required to fulfill its function and stroke timed during cold shutdown.

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REV. 7 RELIEF REQUEST fBG 7 COLD SHUTDOWN' JUSTIFICATION VALVE: BG-ICV-112B, 112C CATEGORY: B CIASS: 2 FUNCTION: Valves close to isolate the volume control tank (normal charging supply) upon receipt of a safety injection signal.

TEST REQUIREMENT: Exercise valve (full stroke) to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF:

Closure of one of these valves during normal unit operation would isolate the normal suction for the charging pumps. Alternate suction paths would result in increasing the reactor coolant system boron inventory and could result in plant shutdown. In addition, seal water for the reactor coolant pumps would be inhibited.

This may result in damage to the reactor coolant pump seals.

i ALTERNATE TESTING: Valve will be exercised (full stroke) to the position required to fulfill its function and stroke timed during cold shutdown.

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REV. 7 RELIEF REQUEST #BG 8 COLD SHUTDOWN JUSTIFICATION VALVE: BG-V-0147, BG-V-0165, BG-V-0174 CATEGORY: C CLASS: 3 FUNCTION: Open to provide emergency boration flowpath.

TEST REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Exercising these valves requires substantial boration of the Reactor Coolant System which is unacceptable from an operational view point.

' ALTERNATE TESTING: Exercisec' heck valves to position required to fulfill the function at cold shutdown.

- . . _ _ _ _ _ _ _ . - _ . _ , , , . _....--___r_,_-. -_-,__-_ ___. ~__ ,_-- - - . . . . _ _ . _ _ _ . - . . _ . . _ . . _ _ _ _ . . _ _ . . _ _ . .

REY. 7 RELIEF REQUEST #BL 1 ,

VALVE: BL-8046 CATEGORY: A, C CLASS: 2 FUNCTION: Provides containment isolation.

TEST REQUIRENENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: System design does not provide any indication for verifying valve closure upon flow reversal.

ALTERNATE TESTING: Verify valve closure during performance of leak rate test during refueling.

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REV. 7 RELIEF REQUEST fBM 1 COLD SHUTDOWN JUSTIFICATION VALVE: BM-HV-1, 2, 3, 4 CATEGORY: B CIASS: 2 FUNCTION: Isolates steam generator blowdown upon steam generator blow-down and sample isolation signal.

, TEST REQUIREMNT: Exercise valve (full stroke) to the position required to fulfill its function, stroke time, and verify fail safe actuation every three months.

BASIS FOR RELIEF: Failure of one of the valves in the closed position during testing would inhibit normal blowdown and possibly cause unit shutdown due to exceeding chem-istry limits.

ALTERNATE TESTING: Valve will be exercised (full stroke) to the position required to fulfill its function, stroke timed, and fail safe actuation verified during cold shutdown.

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REV. 7 i

RELIEF REQUEST fBN 1

. COLD SHUTDOWN JUSTIFICATION VALVE: BN-IEV-112D, E CATEGORY: B CIASS: 2 FUNCTION: Opens to provide flowpath from RWST to Centrifugal Charging Pumps upon Safety Injection Signal or VCT low-low signal.

TEST REQUIREMENT: Exercise valve (fu11' stroke) to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: Failure of these valves in the open position would result in introduction of borated water into the RCS, resulting in possible unit shutdown.

ALTERNATE TESTING: Valve will be exercised (full stroks) to the position required to fulfill its function and stroke timed during cold shutdown.

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REV. 7

. RELIEF REQUEST #BN 2 COLD SHUTDOWN JUSTIFICATION VALVE: BN-HV-8813 CATEGORY: B CLASS: 2 FUNCTION: Valve is normally open to provide miniflow path to the refueling water storage tank.

TEST REQUIRENENT: Exercise isive (full stroke) to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: Failure of this valve in the closed position during testing would result in loss of miniflow path for both trains of safety injection pumps. This would result in pump damage due to dead heading the safety injection pumps in the event of a safety injection signal with reactor coolant pressure above 1520 psig (Safety Injection Pump Discharge Pressure).

ALTERNATE TESTING: Valve will be exercised (full stroke) to the position required to fulfill its function and stroke timed during cold shutdown.

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REV. 7 E? LIEF REQUEST #EJ 01 COLD SHUTDOWN JUSTIFICATION VALVE: EJ-8841A, B CATEGORY: A, C

. CLASS: 1 FUNCTION: Open on flow from the residual heat removal pumps to the reactor coolant hot legs.

TEST REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Valves cannot be full or partial stroke exercised during power operation since the only flowpath discharges into the reactor coolant system. Residual Heat Removal Pump Discharge Pressure (approximately 210 psig) .or Safety Injection Pump Discharge Pressure (approximately 1520 psig) cannot overcome reactor coolant system pressure.

I ALTERNATE TESTING: Exercise check valve (full stroke) to the position required to fulfill its function at cold shutdown.

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REV. 7 .

RELIEF REQUEST #EJ 2 VALVE: EJ-8969B CATEGORY: C CLASS: 2 FUNCTION: Opens to provide auction to the safety injection pumps from residual heat removal pump 1B discharge during the recircula-tion phase following safety injection actuation.

TEST REQUlREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 nonths.

BASIS FOR RELIEF: Valve cannot be full stroke exercised during power operation since the only full flow flowpath dis-charges into the Reactor Coolant System. Safety injection pump discharge pressure (approximately 1520 psig) cannot overcome Reactor Coolant System pressure.

Valve cannot be full stroke exercised during cold shutdown since this could result in a cold over pressurization of the Reactor Coolant System.

ALTERNATE TESTING: Exercise check valve (full stroke) to the position ~

required to fulfill its function at refueling.

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REV. 7 RELIEF REQUEST #EJ 3 ,

COLD SHUTDOWN JUSTIFICATION j VALVE: EJ-HV-8701A, B CATEGORY: &

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CLASS: 1 FUNCTION: Valves open to provide suction to Residual Heat Removal Pump 1A during normal unit cooldown.

TEST REQUIRENENT: Exercise valve (full stroke) to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: These valves have been provided with an interlock which prevents their opens.ng when Reactor Coolant System pressure is above approximately 383 psig.

ALTERNATE TESTING: Valve will be exercised (full stroke) to the yosition required to fulfill its function and stroke timed during cold shutdown.

REV. 7 RELIEF REQUEST #EJ-4 l COLD SHUTDOWN JUSTIFICATION l I

VALVE: EJ-HV-8804A, B I

CATEGORY: B CIASS: 2 FUNCTION: Valves open to provide flowpath from discharge of the RHR pumps to the suction of the Safety Injection and Centrifugal Charging Pumps.

TEST REQUIREMENT: Exercise valve to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: Valves cannot be opened during operation due to control interlocks with other ECCS valves.

EJ-HV-8804A & B are interlocke.d with EM-HV-8814A

& B as well as BN-HV-8813. The latter valves are safety injection miniflow isolation valves which must be closed in order to open the 8804 valves.

If a SI would occur during testing, the SI pumps could be damaged due to a " dead headed" condition (i.e. loss of required miniflow).

ALTERNATZ TESTING: Valves will be exercised and stroke timed during cold shutdown.

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REV. 7 RELIEF REQUEST #EJ-5 COLD SHUTDOWN JUSTIFICATION VALVE: EJ-HV-8840 and 8809A, B CATEGORY: B CLASS: 2 ,

FUNCTION: Valves would be cycled to put the RER system in hot leg recire mode during post accident conditions.

TEST REQUIREMENT: Exercise valves to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: Valves have power removed during operation to prevent blockage of the ECCS flowpath (per Technical Specifications).

ALTERNATE TESTING: Valves will be exercised and atroke timed during cold shutdown.

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REV. 7 RELIEF REQUEST #EJ-6 . .

VALVE: EJ-HV-8811A, B .

CATEGORY: B

, CLASS: 2 FUNCTION: Provides containment isolation. Opens to provide flow path from containment recirculation sump to suction of RHR Pump.

TEST REQUIREMENT: Exercise valve to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: Opening valve during operation would drain the RHR suction header into the containment sump rendering the RHR punps inoperable. Current procedures isolate and drain the suction header prior to stroking. This requires significant time. An alternative is to allow the water to go into the sumps which then would require removal to decrease containment humidity. Another concern is the additional risk of not getting the system fully vented. Requirements currently exist requiring ECCS systems be vented monthly due to problems which were encountered. The additional risks encountered and amount of time to perform testing do not justify the small amount of additional

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assurance gained by the testing.

ALTERNATE TESTING: Valves will be exercised and stroke timed during re-fueling when the proper premutions may be taken without impacting operation.

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i REV. 7 l

I RELIEF REQUEST #EJ-7 1

COLD SHUTDOWN JUSTIFICATION l

l VALVE: EJ-HV-8716A, B -

CATEGORY: B CLASS: 2 FUNCTION: Provide Low Head Safety Injection / Residual Heat Removal train separation for recirculation of fluid to cold legs of Reactor CoolantSystem(RCS).

TEST REQUIREMENT: Exercise valves to the position required to fulfill its function and stroke time every three (3) months.

BASIS FOR RELIEF: Closing either EJ-HV-8716A or EJ-HV-87168 isolates each Residual Heat Removal (RHR) pump from two RCS cold legs. This renders both trains of Emergency CoreCoolingSystem(ECCS) inoperable,whichisin violation of Technical Specifications during opera-tion. If either 8716A or B is failed in a closed position, 2 of the 4 cold leg injection pathways are isolated from the assumed single operating RHR pump.

ALTERNATE TESTING: Valves will be exercised and stroke-timed at cold shutdown.

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REV. 7 RELIEF REQUEST #EJ-8

' VALVE: EJ-8958A and EJ-8958B CATEGORY: C CLASS: 2 FUNCTION:' Open to provide flow from the Refueling Water Storage Tank to the suction of the Residual Heat Removal pumps.

TEST REQUIREMENT: Exercise valve to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: These valves cannot be full stroke exercised during power operations since the full flow path discharges into the Reactor Coolant System. Residual heat re-moval pump discharge pressure (a250 psig) cannot overcome Reactor Coolant System pressure during full power operations.

EJ-8958A and EJ-8958B cannot be full stroke exercised during cold shutdown due to insufficient expansion volume for injection during cold shutdown.

ALTERNATE TESTING: Exercise check valves (partial stroke) every 3 months.

Exercise check valves (full stroke) to the position required to fulfill its function at refueling. ,

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Rev. 7, RELIEF REQUEST #EJ-9 VALVE: EJ-8969A CATEGORY: C CLASS: 2

-FUNCTION: Opens to provide suction to the centrifugal charging pumps from residual heat removal pump 1A discharge during the recirculation phase following safety injection actuation.

TEST REQUIREMENT: Exercise check valve (full stroke) to the position re-quired to fulfill its function every 3 months.

BASIS FOR RELIEF: The valve cannot be full stroke exercised during power operation since the CCP's do not full-flow into the RCS during normal operation (avg flow a 120 gpm, full flow a 500 gpm.) Partial stroke exercising would re-quire starting up the RHR pump, aligning it to the RWST, opening EJ-HV-8804A (See Relief Request #EJ-4),

and as a result you would borate the RCS with 2000 ppm water. This is not conducive to plant operation.

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Valve cannot be full stroke exercised during cold shutdown since this could result in a cold over pressurization of the Reactor Coolant System.

ALTERNATE TESTING: Exercise check valve (full stroke) to the position required to fulfill its function at refueling.

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REV. 7 RELIEF REQUEST #EJ-10 COLD SHUTDOWN JUSTIFICATION VALVE: EJ-8730A, EJ-87308 CATEGORY: C CLASS: 2 ;

FUNCTION: Open to provide flow from residual heat removal pumps to the

. Reactor Coolant System.

TEST REQUIREMENT: Exercise valve to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: These valves cannot be full stroke exercised during power operations since the full flow path discharges into the Reactor Coolant System. Residual heat re-moval pump discharge pressure (m 250 psig) cannot overcome Reactor Coolant System pressure during full power operations.

ALTERNATE TESTING: Exercise check valves (partial stroke) every 3 months.

Exercise check valves (full stroke) to the position required to fulfill its function at cold shutdown. _

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5 REV. 7 RELIEF REQUEST #EM 1 VALVE: EM-8922A, B CATEGORY: C i CLASS: 2 FUNCTION: Opens on flow from the safety injection pumps to the reactor coolant cold legs or hot legs.

TEST REQUIRENENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Valves cannot be full or partisi stroke exercised during power operation since the only flowpath discharges into the reactor coolant system. Safety injection pump discharge pressure (s 1520 psig) cannot overcome reactor coolant system pressure. During cold shutdown these valves cannot be full or partial stroke exercised since this could result in a low temperature overpressur-ization of the reactor coolant system.

ALTERNATE TESTING: Exercise check valve (full stroke) to the position required to fulfill its function at refueling.

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1 REV. 7 i

RELIEF REQUEST #EM 2 l VALVE: EM-I001,002,003,004 CATEGORY: A, C CLASS: 1 FUNCTION: These valves open to provide hot leg recirculation flow from the safety injection pumps.

TEST REQUIRE)ENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Valves cannot be full or partial stroke exercised during power operation since the only flow path dis-charges into the reactor coolant system. Safety injection pump discharge pressure (+ 1520 psig) cannot overcome reactor coolant system pressure. .During cold shutdown these valves cannot be full or partial stroke exercised since this could result in a low temperature overpressurization of the reactor coolant system.

ALTERNATE TESTING: Exercise check valve (full stroke) to the position required to fulfill its function at refueling.

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REV. 7 RELIEF REQUEST #EM 3 VALVE: EM-8815, EM-V240, 241 CATEGORY: C CLASS: 2 FUNCTION: Opens flow from the Centrifugal Charging Pumps.

TEST REQUIRE)ENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Using a centrifugal charging pump to provide flow would result in injecting borated water into the Reactor Coolant System through the cold leg injection lines.

This would result in a decrease in reactor power and thermal shock to the reactor coolant piping. During cold shutdowns exercising this valve could .msult in a low temperature overpressurization of the reactor coolant system.

ALTERNATE TESTING: Exercise check valve (full stroke) to the position required to fulfill its function at refueling.

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+ REY. 7 RELIEF REQUEST #EM 5 VALVE: EM-8926 A,B CATEGORY: C CLASS: 2 FUNCTION: Open on flow from the Refueling Water Storage Tank to the suction of the Safety Injection Pumps.

TEST ~ REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Valves cannot be full stroke exercised during power operation since the only full flow path discharges into the reactor coolant system. Safety injection pump discharge pressure ( -1520 psig) cannot over-come reactor coolant system pressure. During cold shutdown these valves cannot be full stroke exer-cised since this could result in a low temperature overpressurization of the reactor coolant system.

. ALTERNATE TESTING: Exercise check valves (partial stroke) to the -

position required to fulfill its function every 3 months. Exercise check valves (full stroke) to the position required to fulfill its function at refueling.

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REV. 7 RELIEF REQUEST #EM-6 COLD SHUTDOWN JUSTIFICATION P

VALVE: EM-HV-8802A, B CATEGORY: B CLASS: 2 FUNCTION: Provide isolation between the Safety Injection Pumps dis-

, charge and the Reactor Coolant System Hot Legs.

TEST REQUIREMENT: Exercise valve to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: Valves have power removed during operation to ensure proper Emargency Core Cooling System flowpath (per Technical Specifications).

ALTERNATE TESTING: Valves will be exercised and stroke timed during 4

cold shutdown outages.

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REY. 7 RELIEF REQUEST #EN-1 VALVE: EN-V002, 008 CATEGORY: C CLASS: 2 FUNCTION: Val'res open to provide flow from the Containment Sump to the Containment Spray Pumps.

TEST REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: These valves cannot be full stroke exercised since

. the only flowpath is from the Containment Sump.

Flow from the Containment Sump would require filling the sump with water and providing it with a constant supply of clean water. This would be very difficult '

to perform. Also, full flow would require spraying containment which would result in damage to lagging, non EQ electrical equipment, etc.

ALTERNATE TESTING: A different valve of each group will be disassembled, inspected, and manually full stroked at each refueling, until the entire group has been tested. If the full-stroke capability of the disassembled valve is in question, the remainder of the valves in that group will be disassembled also, inspected, and manually full stroked at the same outage.

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REV. 7 RELIEF REQUEST #EN-2 VALVE: EN-V003, 004, 009, 010 CATEGORY: C CLASS: 2

) FUNCTION: Valves open to provide flow from the refueling water storage j tank to the spray headers.

TEST REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: These valves cannot be full stroke exercised since the only full flow flowpath is to the spray headers

which would result in spraying containment resulting in damage to lagging, non EQ electrical equipment, etc.

ALTERNATE TESTING: Exercisecheckvalve(partialstroke)every3 months.

A different valve of each group will be disassembled,

inspected, and manually full stroked at each refueling, until the entire group has been tested. If the full-stroke capability of the disassembled valve is in question, the remainder of the valves in that group i

will be disassembled, also inspected, and manually full stroked at the same outage.

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REV. 7 l RELIEF REQUEST #EN-3 VALVE: V013, 017 CATEGORY: C CLASS: 2 FUNCTION: Opens on flow from the containment spray pump to the contain- ,

ment spray headers.

TEST REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: To full or partial stroke. these valves flow from the containment spray pump would have to be initiated.

This would result in spraying water through the spray nozzles into containment resulting in damage to lag-ging, non EQ electrical equipment, etc.

ALTERNATE TESTING: A different valve of each group will be disassembled, inspected and manually full stroked at each refueling, until the entire group has been tested. If the full-stroke capability of the disassembled valve is in question, the remainder ~of the valves in that group will be disassembled, also inspected, and manually .

full stroked at the same outage.

REV. 7

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RELIEF REQUEST #EN-4 !

COLD SHUTDOWN JUSTIFICATION VALVE: EN-HV-1. EN-HV-7 CATEGORY: B CLASS: 2 FUNCTION: Provides containment isolation. Opens to provide flow path 4

from containment recirculation sump to suction of the Containment Spray Pumps.

TEST REQUIREMENT: Exercise valve to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: Opening valve during operation would run the risk i of draining the Containment Spray Pumps suction headers into the containment sump which could cause severe damage to the pumps and render them inoperable.

ALTERNATE TESTING: Valves will be exercised and stroke timed during cold shutdown when the proper precautions may be taken without impacting operation.

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REV. 7 RELIEF REQUEST #EP 1 COLD SHUTDOWN JUSTIFICATION VALVE: EP-8818A, B, C, D CATEGORY: A, C CLASS: 1 FUNCTION: Valves open on cold leg injection flow from the residual heat removal pumps.

TEST REQUIKENNT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR R.3 LIEF: Valves cannot be full or partial stroke exercised during power operation since the only flow path discharges into the reactor coolant system. Residual Heat Removal Pump Discharge Pressure (S 210 psig) cannot overcome reactor coolant system pressure.

ALTERNATE TESTING: Exercise check valve (full stroke) to the position required to fulfill its function at cold shutdown.

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i REY. 7 RELIEF REQUEST #EP-2 VALVE: EP-8956A, B, C, D CATEGORY: A, C CLASS: 1 FUNCTION: Opens on flow from the cold leg accumulators to provide flow to the reactor coolant system cold legs.

TEST REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: These valves cannot be- full or part stroke exercised during power operation since cold leg accumulator pressure (approximately 540 psig) cannot overcome reactor coolant system pressure. During cold shut-down exercising these valves could result in a low temperature overpressurization of the reactor

coolant system.

ALTERNATE TESTING: A different valve of each group will be disassembled, inspected, and manually full stroked at each refueling, until the entire group has been tested. If the full stroke capability of the disassembled valve is in ~

i question, the remainder of the valves in that group will be disassembled, also inspected, and manually full stroked at the same outage.

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REV. 7 RELIEF REQUEST #EP 3 1

VALVE: EP-V010, V020, V030, V040 CATEGORY: A, C CLASS: 1 FUNCTION: Valves open on cold leg injection flow from the safety injection pumps.

TEST REQUIRENENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: Valves cannot be full or partial stroke exercised during

power operation since the only flowpath discharges into the reactor coolant system. Safety Injection Pump Discharge Pressure ( 1520 psis) cannot overcocae reactor coolant system pressure. During cold shutdown these valves cannot be full or partial stroke exercised since this could result in a low temperature overpressurization of the reactor coolant systen.

ALTERNATE TESTING: Exercise check valve (full stroke) to the position required to fulfill its function at refueling.

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REV. 7 RELIEF REQUEST,#EP-4 COLD SHUTDOWN JUSTIFICATION VALVE: EP-HV-8950A, B, C, D E, F CATEGORY: B CLASS: 2 FUNCTION: Valves are provided to depressurize the accumulator tanks during emergency cold shutdown conditions.

TEST REQUIREMENT: Exercise valve to the position required to fulfill its function every 3 months.

Opening valve during operation would run the risk of BASIS FOR RELIEF:

rendering the accumulator inoperable if the valve were to fail open.

ALTERNATE TESTING: Valves will be exercised and stroke timed at cold shutdown.

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REV. 7 RELIEF REQUEST #FC-1 COLD SHUTDOWN JUSTIFICATION VALVE: FC-V-0001, FC-V-0002, FC-V-0024 FC-V-0025 CATEGORY: C CLASS: 3 FUNCTION: Valves open to provide steam flow to the turbine' driven auxiliary feedwater pump. Valves close to provide redun-dant steam line separation.

TEST REQUIREMENTS: Exercise check valves (full stroke open and closed) to the position required to fulfill its function every 3 months. '

BASIS FOR RELIEF: Valves cannot be full stroke opened during power operation since this would require full flow of cold water from the turbine driven auxiliary feed-water pump to the steam generators. This is unde-sirable since this would unnecessarily thermal shock steam generator feedwater nozzles.

Closure testing will be performed on a cold shut-down frequency due to the amount of personnel hazard involved in venting off 1100 psig steam.

Only one check valve in each of the two lines is required to close to meet single failure redundancy requirements. Both check valves in the same line-will be tested as one since only one valve is required and the valves cannot be tested in-dividually.

! ALTERNATE TESTING: Check valves will be partial stroke tested open

quarterly. Valves will be full stroke exercised i

open at cold shutdown frequency. Valves will be full stroke tested closed on cold shutdown frequency i by verifying that one of the two valves in each line Closes.

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REV. 7 RELIEF REPORT #KA-1 -

COLD SHUTDOWN JUSTIFICATION VALVE: KA-FV-29 CATEGORY: A

. CLASS: 2 FUNCTION: Valve closes to provide containment isolation.

TEST REQUIREMENT: Exercise valve (full stroke) to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: Stroking this valve would interrupt instrument air supply to the containment. This could result in a loss of the normal letdown path, which is undesirable from an operating standpoint.

ALTERNATE TESTING: Valve will be exercised (full stroke) to the position required to fulfill its function and stroke time tested during cold shutdown.

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REV. 7 RELIEF REQUEST #KA-2 VALVE: XA-V-204 CATEGORY: A, C CLASS: 2 FUNCTION: Provides containment isolation.

TEST REQUIREMENT: Exercise check valve (full stroke) to the position required to fulfill its function every 3 months.

BASIS FOR RELIEF: System design does not provide any indication for verifying valve closure upon flow reversal.

ALTERNATE TESTING: Verify valve closure during performance of leak rate test required to be performed during refueling.

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Rev. 7 s

RELIEF REQUEST #KJ-1 VALVE: KJ-PV-0001A&B, 0101A&B CATEGORY: 8

$ CLASS: 3 FUNCTION: Valves open to provide starting air to the emergency diesel generator.

TEST REQUIREMENT: Exercise valves to the position required to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: These are totally enclosed solenoid valves. The valves are controlled by the start /stop switch for the diesel.

Therefore, stroke time for the valves themselves cannot be measured. Valve stroke time affects diesel start time. Diesel start time will be used to monitor valve performance. Maximum stroke time of 12 seconds will be used since this is the limit for diesel start time.

Since both valves actuate when the diesel is started, changes in starting air tank pressures will be monitored to ensure approximately equal pressure decreases to verify both valves actuated properly.

ALTERNATE TESTING: Diesel starting times and starting air tank pressure -

changes will be measured.

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Rev. 7 RELIEF REQUEST #KJ-2 COLD SHUTDOWN JUSTIFICATION VALVE: KJ-V-0711A&B, 0712A&B CATEGORY: C CLASS: 3 FUNCTION: Check valves preventing backflow from the emergency diesel gen-erator air starting tanks.

TEST REQUIREMENT: Exercise check valve (fullstrok()tothepositionre-quired to fulfill its function and stroke time every 3 months.

BASIS FOR RELIEF: Testing of these valves would require that the remaining diesel be tested every 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months causing unnecessary wear on the system. Difficulty would also occur in completing the test within the 72 hour8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months action statement period per Technical Specifications.

ALTERNATE TESTING: Valves will be exercised (full stroke) to the position re-quired to fulfill its function during cold shutdown.

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ML20207Q156

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