ML20113G942
| ML20113G942 | |
| Person / Time | |
|---|---|
| Site: | Limerick  |
| Issue date: | 05/01/1992 |
| From: | PECO ENERGY CO., (FORMERLY PHILADELPHIA ELECTRIC |
| To: | |
| Shared Package | |
| ML20113G941 | List: |
| References | |
| ML-008, ML-8, NUDOCS 9205140214 | |
| Download: ML20113G942 (340) | |
Text
{{#Wiki_filter:., . - . ENCLOSURE 2-Limerick Gene:ating Station Units 1 and 2 First Ten Year Interval Pump and Valve Inservice Testing (IST) Program Philadelphia Electric Company Specification No. ML@8. Revision 2 (Uncontrolled Copy) s 9205140214 920501 PDR -ADOCK 05000352 P^ PDR
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06,' r$b ' F LIMERICK GENERATING STATION UNITS 1 AND 2 FIRST-TEN YEAR INTERVAL PUMP
. AND VALVE INSERVICE TESTING (iST) PROGRAM
. (Specification No ML@8, Revision No. 2)-
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's UNCONTROLLED COPY
y _.. .- -- -. - - - - . - - . . . , -- - b LC*. 1 & 2, IST Program Spec. ML-008, Rev. 2 Page 1-11 of 15 Additionally,
% Thel purpose of;this revision is to interporate Addendum I to Revision IST Program 1. with the NRC in accordance
-the purpose of this revision is to revise the Safety Evaluation issued on March 1991 and to incorporate the most current available plant inf ormation into the specification.
The following EWRs have been addressed in this revision and the changes are noted below in_the Record Of Changes. EWR A000271O'
-EWR A0007722' ELQQED OF CHANGES Table Of Contents, page 3
- 1. AFFEQlED PMLSt Description of change Revised . the Table Of Contents to include soecific ,
Appendix contents. l Reason for changes This was.doni to clearly identify the contents of each Appendix. AFFECTED PAGLgt Text, Page 5 2.
' Dese inticn of changei Revised section 2.1 CODE OF FEDIRAL. REGULATIONS, by the first inspection interval commencement date adding for LGS-Unit 2, January 8, 1990, Reason for changes-Revision 1 of this specification did not include the specific date-f or the Unit 2 first ten year interva; for t inservice testing, only a statement that it would'be M1 coincident with t:.e start of commercial operation, 3,
Text. Page 6 AJJECTED PACES: Description of changei Revised section 3.4 HRC LETTERS, by adding reference to Generic Letter 89-04, Reason for changei Generic letter 89-04 is used as a guideline to establish adequate inservice testing procedures and should be referenced in this specification, AFFECTEp PAGEgi Appendix A. Page 13 4. _ Description of change n . Changed the system prefix on the valves listed on Cold Shutdown Test Justification 46-VCS-1 from 47 to-46. Reason for change These valves are part of systen 46, Control Rod Drive Hydraulic - Part-A. and were incorrectly denoted as system 47 valves on: the test justification which was included in Addendum 1 to Re<ision 1. The valve tables indicated the correct system 46 notation. Appendix p?qe .14
- 5. AFFECTED PAGES . Valve Tab **, a ges 43 - 53, and 169 - 179 Description of changei Revised valve category from Category C to Category A, C in Cold Shutdown Test Justification 47-VCS-1 and the appropriate valve tables for valves 47-1(23-15(02-19) through 47-1(2)-15(58-45), 185 valves per unit. Also
-~ included the ALME Section XI leak testing desi gna ti on (LP-T) in the valve tables. ,
LCS 1 & 2, 151 Progrcm bp c. ML 008, Rey. 2 Page 1-111 of 15 W 8% Reason for changei In a ddi tion to exercise testing these valves, leak
' testing is required be aut.e they have a safety function to maintain hydraulic :ontrol unit accumulator pressure.
This itam was addressed in the IST SER /,ppendix A. Item li. S. AFFECILILIAgut Appendix B, Page 1
. scription of change- Revised Relief Request GPER-1 'o change the pump identification f rom 2CP201 to 2CP208.
Reason for change This change was to correct a typographical errors 2CP208 is the correct pump identification number.
- 7. AF_EU R PJa9.Dt Appendix B, Page 2 Description of changei Revised Relief request OPRR-2 by adding instrument rence limit relief to the relief request and by deleting the second category of gauge a curacy determination. Also, added the specif2c pump identification numbers to the relief reques'
}
Reason for changei The IST technis valuation issued by the NRC discusses combining ASME u .e sections IHP-4110 (gauge accuracy) and IWP-4120 (instrument f ull-te c al e range linits) to establish a maximum indicated accuracy that would be allowed by the Code which is 26%. However, the original issue of this relief request only dise.ased instrument accuracy. In-order to perforn inservice testing on the ESH pump using the installed geuges, the relief requet.t had to be revised to include range limits that exceed
~VA the Code criteria. The installed ESH gauges are more Q' accurate than the Code but the full-scale range exceeds the Code requirements. However, the indicated accuracy for these cauges when compared to the raference value is less than the Code allowed 26%. This item was addr.ssed in the IST SER Appendix A, Item 4.
- 8. AFFECTEP PAQDi Appendix B, Page 3 Description of changei Revised Relief Request CPRR-3.
Reeson for changei Relief Request GPRR-3 was . evised to clarify the percent g of-reading accuracy and compare it to the Code required 9 f ull-scale accuracy. This revised request was approved in an NRC letter to PEco dated March 8,1991.
- 9. bFFECTED PAGElf Appendix C, Page 4 Description of changei Revised Reli of Request GVRR-4 by adding the following statement t. iSe " Alternate Test" sections "Both valves
*. will be dec;4 red inopersble if testing indicates the valves do rot close wn reverse flow."
Reason for cherrai lesting these velves in series does not provide a positive method to determine which valve is leaking. Theref ore, both valves are suspect and the pair will be decl6ted inoparable and subjected to additional verification to ensure operability. This was identified by the NRC in the IST SER, Appendix A, item 6. a -- -__.-- - _ - - - --
LCS 1 & 2e IST Pro 0rtm Sp;c. ML-005, Rsv. 2 Pcg2 1-tv of 15 Appendix Ce Page 5
- 10. AEfiQllD. PAGES: Valve Table, Pages 96, 113, 222, 239
,a ,
I
' Description of changei Revised Relief Request OVI'R-5 and the valve tables by adding reverse exercise testing requirements for the " following valves:
49-1(2)017 55-1(2)D25 49-1(2)D18 55-1(t)D26 49-1(2)f068 55-1(2)F060 49-1(2)F081 $$-1(2)f094 j Reason for changes These vacuum breaker / check valves have a saf ety function in the closed direction which is to prevent HPC1/RCIC turbine e w.ha us t from entering the wet-well airspace. . This was identified by the NRC in the IST SLR, Appendix A, I t e,r. 7, 11 AEEICIED_EAq13: App >ndix C, Page 6 and 7 Description of thanges Povised Relief Request GVRR-6 to comply with the sample disassembly and inspection requirements spec fled in t Generic letter 89-04, Attachment 1, Position 2 ' " Alternative to Full Flow Testing of Check Valves". Also, added the following statement to the Alternate f ests section of kellef Request GVRR-61 " partial stroke will be performed after valve re-assembly." Reason for changei Sample disassembly and inspection is an acceptable alternative to flow testing of check valves in the IST Procram. This pelief request identifien valve groupinos based on the requirements of the Generic Letter. Also, Q: partial stroke af ter re-assembly ensures that the valve
,if is operable prior to returning the valve to service.
This partial stroke requirement was identified by the NRC in the IST SER, Appendix A, Item 11. -
+
- 12. AFFECIED_.EAQES: Appendix C Page 8 Valve Table, Pages 14, 15, 140, 141 Description of chenpe Revised Relief Request 20-VRR-1 and the valve tables to add quarterly rtroke time requirements and to change the exercise test interval from 18 moni"a to quarterly.
' Also, added limiting diesel start time to the relief request, Reason #or change: These valves have no direct means f or stroke timing but a valve f ailure can be detected by c deleved or failed diesel start, therefore, a limiting diesel start time was added to the relief request. Also, quarterly exercise testing can be perf ormed in accordance with ASME Code requirements so the test interval identified in the relief request and the valve tables were revised accordingly. These changes were identified in the IST Program SER Appendix A, Item 8.
- 13. AEfl91ED. PAGE$t Appendix C, Page 10 Valve Table. Pages 22, 23, 148, 149 Description of cha sgee Revised Relief request 41-VRR-2 and the valve tables by adding stroke time requirements in the open direction for relief valves PSV-41-1(2)F013E.H,K,M, and S.
Reason for changes The NRC identifled these valves as requiring stroke time y -ye ,<-i e y . - , , _ _ . - - - - e_m,-w .w-m-m ---,w_.w .----.4--- w--
LCS 1 & 2, IST Progrcm Sp;c. HL-008, Roy. 2 Pegi 1-v of 35 testing in the 151 SCR, Appendix A, i tem 12.
- 14. AFFECTED PAQL$t Appendix C, Page 19 )
Description of changei Revised Rolsef Request 51-VRR-1 by combining the Unit I and Unit 2 valves into the same callout in the " Basis for Relief" section of the request. Reason for changen the original issue of the relief request separated the Unit I and Unit 2 valves in the " Basis" section of the ' relief' request because it was implemented before Unit 2 start-up. This revision only combines the callout of the valves, for examples Revised from HV-51-1f075 toi HV- 51 -1 ( 2 ) F 07 5 15.- MJ.EC,U.D._1A R is Appendix Ce Page 20 Dascription of change s Provided additional justification for relief in the Basis for Relief section of Relief Request 52-VRR-1. Also, provided clarification that manually stroking the valve will 1,e done in accordance with IWV-3522(t ). Rea,on for change In it.e IST Program $tR, App. A, Iten 13, the NRC denied relief to manually stroke this valve open during refueling outages instead of quarterly as required by the Code. Their reason f or denial was that the request did not provide sufficient justification to warrant relief. However, quarterly str * '.no requires injecting oh cold water in the reactor vessel which could cause a-SCHAM. Also, manually stroking this valve open requires partial disassemuly of the actuator which can not be accomplished during normal power operation and if attempted during cold shutdown. may impact plant start- ! up. Theref ore, exercising in the open direction can only > be accomplished during refueling outages. The original relief request did not provide this inforention to the NRC f or their technical review for granting relief. ; Additionally. the method of manually stroking the valve did not comply with the requirements of INV-3522(b). The revised relief request indicates that manually stroking this valve will meet the requirements of INV-3522(b). The additional justification for relief was discussed with the NRC in-a telecon on August 27, 1991. They approved relief based on our additional justification. Apoendix C, Page 21'and 22
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- 16. MFECTED PAG (Jit Description of changei Added the following statement to the Alternate Tests section of Relief Request 55-VRR-1 and 55-VRR-2 " partial stroke will be performed after valve re-assembly".
Reason for change: Partial stroke af ter re ar.sembly ensures that the valve is operable prior to returning the valve to service. This partial stroke requirement was identified by the NRC in the IST SER, Appendix A. Items 9 and 10.
- 17. AFFECTED_tA R$t Pump Table, Pages 1 and 5 j
Description of change Deleted the Relief Request GPRR-2 callout for the Unit
., u_ .~_._..n_
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Lb> A a se m t e vs6.. Spac. HL-008: Rev. 2 rags 1-vi of 15 1 and Unit 2 Core $ pray rumps. Reason for changet 'he installed cauces do not meet A$ME XI Code s eguirements or tne specifications noted in the relief ; aquest. Therefo.e, test causes will be installed to n.rforn pump inservice testing.
- 18. AFFECTED_PAgES: Yafve Table, Pages 24 and 150 i
Description of change 36 loted valvea XV-41-1(2)f 009 from the valve tables. Reason for changee 'nese excess flow check valves do not need to be operability tested per Tech. $nec. Table 3.6. 3-1 (Note
- 27) and should not be included in the scope of the !$7 Program. This issue was, addressed in EWR A0002710.
19, AFFECTCD PAG.Us Valve Table. Page 100 Description of changen Deleted valves HV-51-lF022 and HV-51-lF023 f rom the valve tables. Reason for changes These valve were for the head spray system which was r deleted by MDCP 5658. Also, these valves were deleted from Tech. Spee Table 3.6.3-1 (PCIVs).
- 20. AFFECTED PAgut Valve Table, Feaes 117 and 243 Description of change Revised the specified normal position from "C" to "0C",
and the safety position from "0C" to *C" and deleted stroke time testing in the open direction for the following valves
^' HV-57-1(2>04
- HV-57-1(2112 HV-57 1(2)14 HV-57-1(2)l5-Reason for changes EWR ' A0007722 requested engineering to evaluate the normal, safety and fa'. lure positions of the Containment Atmospheric Control (CAC) system valves which are specified in the IST Program. The EHR response, which was prepared by the NCSD CAC system engineer, revised the valve positions as indicated above. Also, because these valves have no- safety function in the open ,
direction, the stroke time test in the open direction was deleted accordingly. t me ? N
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LCS 1 & 2, IST Progrtm Spec. ML-008. Rev. 1 Page 2 of 15 , TABLE OF CONTENTS 1 fME , CONTROLLED COPY DIST RI BUT 10'l 1-1 RECORD Of CHANGES FOR REVISION 2 1-1 TABLE Of CONTENTS 2
1.0 INTRODUCTION
5 2.0 REGULATORY REQUIREMENTS 5 5 2.1 Code of rederal Regulations 5 2.2 Applicable Code 5 3.0 ADDITIONAL REFERENCE DOCUMENTS 5 3.1 FSAR - - 3 3.2 Technical Specifications 5 3.3 Operating Procedures 6 3.4 NRC Letters 6 3.5 Draft Regulatory Guide 6 NRC I.E. Bulletin 6
' 3.6 3.7 NRC 1.E. Notice 6
. 3.8 ANSI /ASME OM Documents 6 4.0 INSERVICE TESTING BOUNDARIES 6 4.1- Scope 6 4.2 Exemptions 7 4.3 Definitions 7 4.4 Valve Categories 7
^'
4.5 System Identification 8
- 5.0 PUMP AND VALVE SELECTION 8 5.1 Code Requirement Positions for Pumps 8 5.2 Code Requirement Positions for Valves 9 5.3 Alterations to Section XI Requirements for Pumps 10 5.4 Alterations to Section XI Requirements for Valves 10 5.5 Cold Shutdown Test Justification Discussion 10 5.6 Relief Request Discussion 11-6.0. IST TABLE L'ESCRIPTIONS - Pt'MPS- AND VALVES 11
' 6.1 IST Table - Pumps il 6.2 IST Ta'le a - Valves 12 7.0 RECORDS 15 ex-- .--w,- e,-. .,------,,r-- , , n~N .m me. e .u r.v.n ,,~,,-.n,-,, , - , + - . . , , - , . . - -v r- m m +-N--,ev an I,- -- ,-e-w- .m--,,<,nw-e,-n..,,,-m,.w w w,, ee,I w s, N.r.--
1 LCS 1 & 2. IST Progrom Spec ML-008. Rev. 2 Page 3 of 15 TABLE OF CONTENTS (Cont'd) i !i EAQI
! !'PC._ ACES Appendix A - Valve Inservice Testing Program Cold shutdown Test Justifications (24 pages) 1 01-VCS-1 2 01-VCS-2 3 13-VCS-1 4 40-VCS-1 5 41-VCS-1 6 ,
41-VCS-2 7 t 41-VCS-3 8 41-VCS-4 9 ; 41-VC$-5 10 42-VCS-1 11 43-VCS-1 12 44-VCS-1 13 46-VCS-1 14 47-VCS-1 15 49+VCS-1 16 49-VCS-2 17 49-VCS-3 18 49-VCS-4 19 51-VCS-1 20 51-VCS-2 21 52-VCS-1 22 55-VCS-1 23 55-VCS-2 24 , 59-VCS-1 Appendix B - Pump. Inservice Testi'ig Program Relief Requests (3 pagest 1 GPRR-l' 2 GPRR-2 3 GPRR-3 Appendix C - Valve Inservice Tusting Program Relief Requests (24 pages) 1 , GVRR-1 2 GVRR-2 3 GVRR-3 4 GVRR-4 5 GVRR-5 6 GVRR-6 8 20-VRR-1 9 41-VRR-1 10 41-VRR-2 11 41-VRR-3 12 g 41-VRR-4 -13 l 41-VRR-5 14 t 43-VRR-1 15 1 46-VRR-1 16 47-VRR-1 17 (8-VRR-1 18 49-VRR-1 19 51-VRR-1 2D 52-VRR-1 21
$5-VRR-1 22 55-VRR-2 23
! $9-VRR-1 24 90-VRR-1
l l Lcs 1 & 2, IST Progrcm J Spec. ML-008. Rev. 2 Page 4 of 15 T ABLE OF CONTENTS (Corit'd) f100 11LIMLU 151 Table - F'urrs (6 s' aces) 1 -3
- LOS 1 and Commoti 4 -6
- 105 2 IST Table - Valves (256 repet) g - 131
- L OS 1 and Common 131 - 256
- LOS 2
. :t p.
9' g f
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LGS 1 & 2, IST Progrca Sp;c. ML-008, Rey. 2 Pega 5 o f 15 1.0 1111RQ0Rc11011 The Pump and Valve Inservice Testing Prouram for the Limerick Generating Station, Units 1 and 2 (LGS-la?), details the technical basis and provides the overall description of the activities planned to fulfill the Inservice Testing (IST) requirements f or pumps and valves as defined in the American Society of Mechanical Engineers, Boiler and Pressure Vessel Code. Section XI. Division 1. " Rules for Inservice Inspection of Nuclear Pewe-
.lant Comronents". The IST required program includes the puros and valves within to be tested in accordance with the scope of Section 4.1 Section XI. Subsections INP and INV.
The IST Program consists of two parts: the Program te.1 with appendices, and the IST Tables. The text defines the basis of the 15 program. It lists and explains the specific exemptions and selection criterna arplied to pumps and valwos, thus defining the scope and extent of the IST testing requirements. The Appendices include the Cold Shutdown Test Jus ti fica tions, Pump R e l i e f' Requests and Valve Relief Requests. The IST Tables contain a sys tem by system listing of r,pecific pumps and valves for each unit. along with the applicable testing requirements for each. They will consist of the following four tables IST Table - Pumps - L OS-1 and Common IST Table - Pumps - t05-2 IST Table - Valves - LOS-1 and Common IST Tab!r - Valves - LGS-2 The IST Implementing Plans contain additional inf orma tion pertinent to the implementation of the testing program. Such information includes: Specific Surveillance Test Irocedure (SI) used, test frequencies. etc. The IST Implementing Plans are (191 a part of this Program document, however, they are subtier documents which must reflect the requirements rf the IST Program. 2.0 RGMLM9RLREM1AMUfD 2.1 Code of Federal Regulations Title 10, Part 50.55a ef the Code of Federal Regulations, Faragraph (g)(4) requires that 10-year IST programs comply with the latest edition and addenda of Section XI incorporated by ref erence in Paragraph (b)(2) on the date 12 months prior to the start of the 120-month inspection interval. The use of later edition and addenda of Section XI 10-year The first is allowed inspection if it has been incorporated in Paragraph (b)(2). interval for LOS-1 & 2 commenced February 1, 19E6 and January 8, 1990 l respectively. 2.2 Applicable Code The first 10-year interval Pump and Valve IST Prcoram complies with Section XI of the ASME Boiler and Pressure Vessel Code. 1986 Edition. This Code edition is optional for LGS-1 and nandatory for LOS-2 per 10CFRSO.SSa(b)(2). In order to maintain continuity between LGS-1 and 2, the LOS-1 IST Program has been updated to incorporate this Code edition. All references to subsections IHP and IWV of Section XI in this document correspond to the aforementioned Code edition. f.o nonatiAunraaemuomein k.1 FSAR The Final Safety Analysis Repor t (FSAR) for LOS-1 & 2 is used to determine which pumps and valves are within the scope of this document. 3.2 Technical Specifications The LOS Technical Specifications (T.S.) were used in conjunction with the FSAR in determining the pumps and valves which are in the scope. T he T .S . surveillance requirements were compared with the Section XI requirements t
LOS 1 & 2, !$T Prcgecm Sp2c. HL-008, Rav. 2 Page 6 of 15 to determine equivalent testing. Whenever possible, equivalent T.S. testing will be used to satisfy Section XI requirements. The specific 3 c, Section XI requirements satisfied by T.S. will be specified either in the test f requency column of the IST lables or in the associated relief request or cold shutdewn test justification. 3.3 Operating Procedures The Unit 1 & 2 Operating Procedures were used to determine system operating modes and alignments under normal and emergency conditions. 3.4 NRC Letters Generic letter 89-04, " Guidance On Developing Acceptable Inservice Testing Programs", hied April 5, 1989, is used as a guideline to establish adequate inservice testing procedures.
"HRC Staff Guidance for Preparing Pump and Valve Testing Program Descriptions and Associated Relief Requests Pursuant to 10CFR50.55a(9)".
January 1978, was used to provide guidance for the establishment of selec tion philosophy. the program submittal format, and the development of relief requests.
"HRC Staf f Guidance for Complying with Certain Provisions of 10CFR50.55a(s)
Inservice inspection Requirements". Hovember 1976, was used as a ref erence to provide NRC staf f guidelines for excluding exercising tents of certain valves during plant operation. 3.5 Draft Regulatory Guide Division I, Draf t Regula tory Guide and Value/ Impact Statement (Draf t 2),
" Identification of Valves f or inclusion in Inservice Testing Programs" was o Va used to provide further insight to NRC positions on the contents of the
- valve program.
3.6 NRC I.E. Bulletin I.E. Bulletin 83-05: " Check Valve '.' lures in Raw Water Cooling Systems of Diesel Generators" provides re indations on test requirements for check valves. 3.7 NRC I.E. Notice 3.7.1 1. E. Notice 84-7 4 : " Isolation of Reactor Coolant System from Low-Pressure Systems Outside Containment" was used as a reference f or - providing justification for relief from exercising certain reactor coolant pressure boundary valves. 3.7.1 1.E. Notice 88-70s " Check Valve Inservice Testing Program Deficiencies" was used to identify and ensure that all required check valve testing is being performed. 3.8 ANSI /ASME CH Documents ANSI /ASME OM-1-1981 is used for r eli ef/sa f e ty valve and rupture disk testing per Code Case H-415. ANSI /ASME OM Parts 6 and 10, (1987/1987A) are us-4 *or reference when determining testing requirements for pumps and val respectively. 4.0 ItisERVICE TESl1NftEpilt!DMIES
,o.. 4.1 -SCOPE i v. 4.1.1 Pump IST Program lhe scope of_the pump IST program includes all centrifugal and positive e displacement type pumps that ar e provided with an emergency power source, that are not exempt by paragraph 4.2.1 and which function toi
- , _ . ..~ . - _. - . . . - _ . .
LGS 1 & 2, IST Progrcm
$pec. ML-005, Ray. 2 Page 7 of 15
- Hitigate the consequences of an accident or. l Shutdown the reactor to a cold shutdnwn condition.
The pumps withir this scope are listed in the IST Tables-Pumps. 4.1.2 Valve IST Pengram The scope of the valve IST program includes all valves that are not swempt by paragraph 4.2.2 and which function to: Mitirate the conseouences of an accident or. Shutdown the reactor to a cold shutdown condition. , The valves within this scope are listed in the IST Tables-Valves. 4.2 i EXEMPTIONS I 4.2.1 Pump Exclusions identified in IWP-1200 , Hote: The term "Exclunions" is used in IkP-1200. but is considered synonymous with " Exemptions".
- n. Drivers of pumps except where the driver and pump form an integral unit and the pump bearings are in the driver.
- b. Pumps supplied with emergency power solely for operating convenience.
4.2.2 Valve Exemptions identified in IWV-1200 R; . Ne a. Maintenance Valves - Valves which are used only to isolate componer ts
- to perform maintenance, including pressure / thermal relief valves which provide overpressure protection for a component that is isolated only for maintenance;
- b. Operating Convenience Valves - Valves used only for operating convenience, such as manual vs'.nt, drains instrument, and test valves.
- c. System Contrcl Valves - Valves such as pressure regulating, flow control, and manual throttle valves,
- d. Valves in External Control and Protection Systems - Systems responsible for sensing plant conditions and providing signals for valve operation.
4.3 DEFINITI0HS 4.3.1 Active valve - a valve that must perform a mechanical motion during she course of accomplit.hing a system safety function. 4.3.2 Pessive valve - a valve that does not perform a mechanical motion during the course of accomplishing a system safety function. 4.3.3 Exercising - the demonstration based on direct or indirect visual observation or other positive indication that the moving parts of a valve function satisfactoril/. 4.4 VALVE CATEGORIES 4.4.1-Category A - valves for which seat leakago is limited to a specific maximum ae.ount in the closed position for fulfillment of their function. 4.4.2 Category B - valves for which seat leakage in the closed position is inconssquential for fulfillment of their function. 4.4.3 Category C valves which are self actuating in response to sore system characteristic, such as pressure (relief valves) or flow direction (check
1 LOS 1 & 2,15T Progrca Spec. ML-008. Rev. 2 Page 8 of 15 valves). 4.4.4 Category D - valves which are actuated by an energy source capable of only one operation, such as rupture disks or explosive actuated valves. 4.5 SYSTEM IDENTIFICATION . 9 The following is a list of the system PalD's and their associated system names for all systems contained in the IST Program. At LOS-1 & 2, system numbers are consistent with PAID numbering. P8ID flWnkit inien Hut._ M-01 Main Steam M-11 Emergency Service Water M-12 Residual Heat Removal Service Water M-13 Reactor Enclosure Cooling Hater M-15 Compressed Air M-20 Fuel- 8 Diesel Oil Storage / Transfer and Air Starting M-26 Plant Process Radiation Monitoring M-40 Main Steam luolation Valve leakage Control , M-41 Nuclear Boiler ,' Huclear Boiler Vessel Instrumentation M-4?' M-43 Reactor Recirculation Pump M-64 Reactor Water Clean-up M-i6 Control Rod Crive Hydraulic - Part A M-47 Control Rod Drive Hydraulic - Part B M-48 Standby liquid Control M-49 Reactor.Cor) Isolation Cooling M-50 Reactor Core Isolation Cooling Pump / Turbine M-51 Residual Heat Removal M-52 Core Spray M-53 Fuel Fool Cooling and Cleanup
- M-55 High Pressure Coolant Injection M-56 High Pressure Coolant Injection Pump / Turbine t
H 57 Containment Atmosphere Control M-59 Primary Containment Instrument Gas M-60 Primiry Containment team Testing M-61 Liquid Radwaste Collection M-87 Drywell Chilled Hator ^ M-90 Conirol Structure Chilled Water 5.0 PUNP ARD_\fALYK_.SELECTIQN Pumps and valves which are-within the scope of the Inservice Testing Program, as defined in Section 4.1, and that are not exempt per Section 4.2, shall be tested in accordance with the Section XI Code Edition stated in paragraphs 2.1 and 2.2. Pumps and valves (as defined in IHP-1000 and-lHV-1000 respectively).- including all applicable testing requirements and frequencies, are listed in the IST Tables. Pump and valve IST Table descriptions are found in Section 6.0. When valve testing mest be deferred to cold shutdown, a Cold Shutdown Test Justification is provided in Appendix A. When the pump or valve testing requirements of ' the applicable code cannot be met, relief requests are provided in
-Appendix B or C, respectively.
5.1 CODE REQUIREHENT POSITIONS FOR PUHPS
.This section indicates the position used to clarify Section XI requirements as they apply for the formulation and the-Implementation of the pump program.
5.1.1 Pump Inlet Pressure ! Test circuits on certain pumps are not provided with inlet or dif f erential pressure indicators. These punos are either Submerged in a wet pit or take suction from a storogs tank. Therefore, suction pressures will be L ' calculated from the fluid level in the tank or pit. Since IHP-4240 does ! not specify the method to determine suction pressure, relief will not be
- l l
LOS 1 & 2e IST Program Spac. ML-008, Ray. 2 Pege 9 of 15 requested, However, the particular pumps which require this calculation will be identified in the remarks section of the IST TABLES-PUMPS. 5.2 CODE REQUIREHENT POSITIONS FOR VALVES This section indicates the positions used to clarify Section XI requirements as they apply for the formulation and the implementation of the valve program. 5.2.1 Passive Valves l 1 Paragraph 4.3.2 defines a passive valve as "a valve that does not perf ore ' a mechanical motion during the course of accomplishing a rystem safety j function". For this program. passive valves are further defined as those that do not receive an auto initiation signal (s) and their normal and safety pnsition are the same. Category B passive valves will not be included in IST Tables-Valves unless they have remote position indicators and are also located in the flow path of a system important to safety that is. idle during normal plant operation. 5.2.2 Cold Shutdown Valve Testing ( For valves in which testing is deferred to cold shutdown, testing will commence within 48 hours af ter cold shutdown is achieved and will continue until all tests are complete or the plant is ready to return to power. Any testing not completed at one cold shutdown will be performed during subsequent cold shutdowns. For planned cold shutdowns in which LOS-1 & 2 uill have sufficient time to conplete the testing of all valves identified to be tested at cold shutdown, exception may be taken to the 48 hour start time. As a minimum, all cold shutdown valves will be tested during each refueling outage, however, valve testing will not be performed at a frequency greater than quarterly for Categories A, B and C valves.
- 5.2.3 Cold Shutdown Valve Testing Corrective Action Subsections IWV-3417(b), f or Categories A and B valves, and IWV-3123 for Category C valves states "When corrective action is required as a result of testing during cold shutdown, the condition shall be corrected before s ta rt-up. " At LGS 1 & 2 this will only apply to valves that can only be tested at cold shutdown. For valves that can be t sted quarterly at power and whereby the Technical Specification allows plant start up- with the valve inoperable (or its associated train or system), then the plant may return to power and the valve tested af ter repair.
5.2.4 Check Valve Full / Partial Stroke In most cases, system design flow through a check volve requires less than full mechanical valve movement. As used in this program, the term full stroke refers to the ability of the valve to pass sufficient flow to support normal / safety system operation or a full mechanical stroke. Any
-tost that verifies less than normal / safety system flow capability or full mechanical movement is considered as a partial stroku test.
5.2.5 Valve Position Indicator verification To the extent practicable, verification of proper remote position indication (IWV-3300) will be accomplished by locally observing the position of the valve by direct means and comparing it with the remote indication. On valves not equipped with a local means to verify position, valve position will be verified by an appropriate indicator which signals the required position change or by observation of system parameters such as flow,-pressure, temperature or level. 5.2.6 Fail-Safe Testing of Valves i For fail-safe valves, whereby placing the control switch in the OPEN posi tion for fail opsn' valves, and the CLOSED position for fail-closed valves, resalts in a loss of actuator power, the fail safe testing requirements of IHV-3415 will be satisfied by the exercise testing I l l \ l
~ = - e- _ , . , _ _ _ _ _ __ __ _ .,
LGS 16 3, 8ST Program Spec. ML-008. Rev. 3 Page 10 of 15 required by IHV-3412. 5.2.7 Measurement of Stecke Times For valves which require stroke time measurement in accordance with IWV-3413, stroke time will commence upon movement of the valve control switch and end when the required position indication light is the only light illuminated. 5.3 ALTERATIONS TO SECTION XI REQUIREMENTS FOR PUMPS
.5.3.1 Pump Bearing Temperature Pump bearing temperature monitoring, when applicable, will not be performed. Justification is provided in Relief Request GPRR-1, based on the ability of vibration testing to detect thanges in bearing condition that would preclude any bearing condition severe enough to cause a rise in the temperature on the bearing housing.
5.3.2 Reference Pump Curves Code section IWP-3110 defines reference values as one or more sets of values of specified quantities measured or observed when the equipment is known to be operating acceptably. Reference values shall also be at points of operation readily duplicated during subsequent inservice testing. For some pumps at LOS 1 & 2 whose test loop flow path is part of a flow path used to support normal operation, duplicating a single set of reference flow or delta P conditions is not practical (i .e. , system For heat loads may vary requiring changes to cooling system flow rates). these pumps. A reference pump curve comprised of multiple reference flow / delta P points will be used in lieu of a single reference point. 5.4 ALTERATIONS TO SECTION XI REQUIREMENTS FOR VALVES 5.4.1 Increased. Testing Frequencies The testing frequencies for certain Catepary C and D valves have been increased in compliance with Technical Specification commitments. The specific frequency designations- and the asscciated references are contained in the test frequency column of the IST Table-Valves. 5.5 COLD SHUTDOWN TEST JUSTIFICATION DISCUSSION Section XI permits deferring valve testing tnat is impractical during operation to cold shutdown. Juntification for deferred testing is provided by the Cold Ehutdown Test Justifications included in Appendix A. Each Cold Shutdown Test Justification is formatted to contain the following information Cold Shutdown Test Justification Nunber System Valve identification Number (s)
- Category Function
- Deferred Testing Cold Shutdown Test Justification Quarterly Partial Stroke Testing, if applicable
- Cold Shutdown Testing The cold shutdown test justifications are formatted for numerical filing as follows:
-XX-VCS-Y wheres XX = System designation number l
VCS = Valve cold shutdown test :iustification L ' Y = Sequential number within any system Applicable cold shutdown test justification numbers are listed in the o I l l. b
w , LGS 1 & 2, IST Program Spec. ML-008, R3v. 2 Page 11 of 15 VRR/VCS Number column of the IST Table-Valves, Si6 RELIEF REQUEST DISCUSSION 5.6.1 General Hritten relief requests as allowed by 10CFR50 55a(g)($1(lii) have been provided in Appendix B, f or pumps, and Appendix C, f or valves, to provide justification fors
+ Performance of testing requirements on pumps and valves that are impractical during both operation and cold shutdown.
The use of alternate testing methods when Code requirements are either impractical, or where the alternate methods provide equal or greater assurance of pump and valve operability. Each relief request is formatted to include the f ollowing inf orma tion s Relief Request Number l
- System (specific relief requests only) i
- Pump or Valve Iden tification Number I
Category (valves only) Function (specific relief requests only) Testing Requirement from which relief is requested . I Basis for Relief
- Alternate Testing :
5.6.2 Ceneric Pump and Valve Relief Requests Generic relief requests are used when a relief reauest applies to a grouping of punps or valves (e.g. : all containment isolation valves that are Type C tested, or all centrifugal pumps). These relief requests ar* fornatted for numerical filing as dollows: GVRR-Y or GPRR-Y wherei GVRR
- Generic valve relief request GPRR = Generic pump relief request Y = Sequential number In the IST Tables-Valves, apolicable relief rennest numbers are listed in the VRR/VCS Number column.
5.6.3 Specific Pump and Valve Relief Requests Specific relief requests are used when a relief request applies to specific pumps or valves. They are formatted for numerical filing as
- follows:
.XX-VRR-Y or XX-PRR-Y wheres XX
- System designation number VRR = Valve relief request
PRR = Pump relief request Y -r Sequential relief request number within any system In the IST Tables-Valves, applicable relief request numbers are listed in the VRR/VCS Number column. 6.0 IST TABLE _DESCRIPTIQHS - PUMPS AND VALYL 3 6.1 IST TAELE - PUMPS 6.1.1 Summary
-These- tables contain an alpha-numeric listing of all the pumps included in the LGS-1:8 2 IST Program. The data contained in these tables
=. __ _ _ _ _. . . _ - . , _ _ - - . - -
LOS 1 & 2 IST Program Spre. ML-008, Nov. 2 Page 12 of 15 identifies the inservice test parameters to be measured of observed, the applicable relief requests and any applicable remarts. A column for testing frequency was not included since all measurements of 151 parameters f or pumps will be perf ormed quarterly. 6.1.2 Pump Table format The Pump IST lables have been organized to provide the following information (the numbers in parenthesis correspond to those found on sample Table 6.1-1): (1) PUMP H AME.JLP_DUCEIE11QNi t T he pump description. (2) _ PUMP 1.D. tiL i The pump identification numbar. (3) Ell) Piping and Instrumenta:;on Drawing on which pump in depicted. (4) EQq!Q i L o c a ti on c o o r di na t or o f the pump on the P&lD. (5) 1Dl PlEMiLILR$i This column lists the applicable testing rarameters that will he measured or t,bterved. The parameters listed are those required by the code unless alternate testino is provided by relief request. The following is a description of applicable parameters > (a) Hi Pump treed (only re%uired for variable speed pumps) (b) 01 : Pump suction pressure (c) p/_f i Pump differential or discharge pressure (d) 9: Pump flowrote (*) Vi Pump vibration (f) LLE: Observe proper pump lubricant level or pressure, if apnlicable (6) EC 'EF REQUESli Lists any ar olicable relief request numbers. , (7) REMARMLi Any additional pertinent information is provided in this space. 6.1.3 SAMPLE TABLE 151 1ABit - PUMPS LIMERICK CENER A11HG ST ATI'84 - UtHT 1 AND Com0N ttfut Il pleir NAME OR Ple1P TLST PtLIEF LDJt% ttID_._C00RD4 Pl.RAMETit$ RLWELI Pi"JNJi DLLalEII,0H
- 16) 471 g til it) (31 i4t ts 6.2 IST TABLE - VALVES 6.2.1 Surnmary These tables provide e tabulation of all valves included in the LGS-1 & 2 IST Program. The tables nre arranged by system and the valves in each systee are listed in alpha-numeric sequence.
6.2.2 Valve Table For mat Each table has been organized to provide the following information (the numbers in parenthesis correspond to those found on sample Table 6.2-1): (1) 5151[d: The system name and number that the particular table applies to. (2) V AllL.tMihEEi T he valve identification number (3) (qRL$l ASS: ALME Code class. (4) filli Piping and instrueentation drawing and sheet number where the
LCS 1 & 2. IST Program Spec. HL-008. Rev. 2 l Page 13 of 15 valve is located (5) (QQED Valve location coordinates on the PalD (6) VALYL _CE: Valve category as identified in text paragraph 4.4 and lHV-2100. (7) A G/_fA$i Clas- 'ication as identified in text paragraph 4.5 and IWA-9000, where A = Active and P
- Passi*e .
l (8) $JLL: Nominal valve size in inches (9) yALV E 1 YP E i Valv e design type (10) &CT. TYPEi Type of actuator used to change resition af the valve (l1) EQ$111Q!!$ i (a) NRM - Pcsition during normal plant oraration including syns tem ~ test modes) (b) SAF - Position to fulfill safety function (c) FAl - Posi tion valve fails to on loss of actuator power, if applicable (12) APP. J T 1f.I._C : Indicates whether valve requires Appendix J, lyre C leak lest, where Y = Yes N= No (15) TEST-FREQ ( DI R EC_IIDHli The information contained in this column indicates the actual testing that will be performed. If the performed testing is different from the Section XI requirements, a relief request or cold shutdown test justification will be provided. The following information is contained in this columni TEST - The required testing to be performed. FREQ. - The frequency at which the required testing will be performed. (DIRECTION) - the direction (s) that a valve will be eiercised or stroke timed. This inf ormation is coded using the codes contained in Table 6.2-2. The following are examples of how the information is formatted in this columni , Eqwer operated valven ST-Q(0) = Stroke time quarterly in the open direction FS-C(C)
- Fail stroke at cold shutdown in the closed direction CherA n h.ts ET-Q(F8R) = Exarcise test quarterly in the forward and reverse direction.
(14) yRB/VCS NUMBIE All applicable relief requect (VRR) and/or cold shutdown test justification (VCS) numbers are listed in this column. (15) REMARIO: Any additional portinent information is provided in this space. 6.2.3 SAMPLE TAELE
- - ist r.et t - a vt s L j op f t.s Gi+4s aiins; *.+ s t g y, m g 1 1 si.o temysw aw y t gi M
S vC r et : all 4 ALyt 401 ,_P 2* M j M _ Ap p . J tti . f t(*J 58 t W*, Wai.ht C DCf Vats 1 act/ II kY b i si i Ih 5 T' Ib
LGS 1 & 2 IST Proge: ' Spic. ML-008. Ras ! Page 14 of 15 !
,- 6.2.3 Valve Table Codes quick reference tabic providing definitions for the codes A
(abbreviations) used on the Valve Tables is provided. l VALVE TAELE CODES VALVE TYPE ACTUATOR TYPE VALVE TYPE CODE DEFINITION CODE DEFINITION CODE DEFINITION Butterfly RD Rupture Disk A0 Air Operated BF EX Explosive-Operator BL Ball RL Relief SK Stop Check MA Manual Operator CK Check M0 Motor Operator DI Diaphragm TC Testable Check TH Three-Hay NO Nitrogen Operator EX Explosive GL 01obe VR Vacuum Relief SA Self-Actuated Excess Flow Check SO Solenoid Operator GT Gate XC TEST DIRECTION VALVE POSITIONS CODE DEFINITION CODE DESCRIPTION Open 0 Doen O Closed C Closed C F Forward Flow LO Locked Open Locked Closed R Reverse Flow LC TH Throttled
-- Determined by system parameters i .e. check valve Al' As is OC Open or Closed TEST FREQUINCY TEST REQUIREMENTS CODE DEFINITION CODE DEFINITION Q Quarterly ET Full Streke Exercise per IWV-3412 or 3522 C Cold Shetdown Refueling FS Fail Safe per IHV-3415 R Eva-y refueling, and when Leak Test per 20CFR50 Ra LJ conditions specified in the ;
Appendix J associated Relief Request LP Leak Test per f ection XI (Pressure Isolation Only) exist T Every 2 years P! Remote Position Indication P1 50% each refueling outage Test per INV-3100 per TS 4.4.2.2 PT Partial Stroke Exercise P2 Every 5 years per 0M-1,1981 RD Rupture Disc per DM-1. 1981 Every 10 years per DM-1, Relief Valve per OM-1,1981 P5 RT 1981 P4 At least I squib each ST Stroke Time per INV-3413 refueling and 100% within XT Explosive Valve a 36 month period per T.S.4.1.5.d.1 P$ 1 squib each refueling outage per T .S .4.6. 3. 5 b y . .-,c- -- . ,.--..~s, ..---m. , ,
LCS 1 & 2, IST Pecgrc:a Sp;c. ML-008, R;V. 2 Pcg7 15 of 15 7.0 ggggggg The current status of the IST program will be contained in the IST Implementing Plans. A record of the actual test results will be contained in the specific surveillance test procedure used to perform the test and retained by the Huelear Records Section. i l
-- - , - - ~ _ - , , - y , - - - - y wy -,y.,, ~ r-+
-.i--. _
c: s Al'PENDIX A COLD SIIUTDOWN TEST .lUSTlFICATIONS
LCS 1 1 2, !$7 Pro 0rgm . Spac. ML-008. Rev. 2 Appendix A Page 1 of 24 l
- COLD SHUYDCHN TEST JUSTIFICATION 01-VCS-1, REVISION 0 >
System Main Steam VPTVelsit HV-01-150 l HV-01-250 , T B CateDorY8 Funct00n3 Male siasm supply isolation to the Steam Jet Air Ejector ($JAE) Deferred TestinGl Exerciso and streka time. Cold Shutduwn The above valves sarve as the main steam supply isolation Test Justifications valves to 'he SJA(, These valves are required to be closedDuring post LOCA in order for the MSIV-LCS to f unction preperly. nermal operation, the SJAE is used to remove non-condensable Failure of vases and 4-seistainposition a vacuum other on the than main condencer. open, during exercising, tn* valve in s.ny could in a loss of condenser vweuum end subsequent plant trip. Inresult addition to a loss of SJAE, valve exercising would also create a loss of dilution flw to the eff gas system. Mech >nical vacuum pumps, which ars available and used durinv plant start-up, are undesirable to use during operation due to_ the levels of hydrogen - f ound in the condenser and the lack of adequate filtering of gases prior to exhausting to the atmosphere. Quarterly Partial Partial stroke will not be performed - based on the same Stroke Testingt reason as discussed above. Cold Exercise and streke time, Shutdown Testing
- L t
l _ . - . . . , . - m _ . _ . . - _ . _ . . - _ .
LCS 1 & 2 IST Program Spec. ML-008 Rey. 2 Appendix A Page 2 of 24 COLD SHUTDOWN 1EST JUS 11FICAT10N 01-VCS-2, REVISION 0 Systems Mein Steam Valvetsli HV-01-111 HV-01-211 Category B Functient Main steam supply isolation to the steam seal evaporator. Deferred Testing Exereir.e and stroke timo. Cold Shutdown The above valven serve as the main steam supply isolation Test Justifications valves to the steam seal evaporators. These valves are required to be closed post LOCA in order for the M51V-LCS to function i properly, railure of these v&lvas in any position other than open, during normal operation, could result in a steam seal loss with subsenvent damage to the turbine steam seals, and the edeimaior, of steam to the turbine buildino creating an airbor .e vtat em. na
- ion condi tion. Additionally, failure in the closed position St.ul, restit in loss of condenner vacuum.
Quarterly Partial Par tial stroke w111 not be performed - based on the same Stroke Testingt reason as discussed above. Cold Exercise and stroke time. Shutdown Testingt J A
.,._w~v --r s---es-- -r m ,m n- ,v - - - - -
e v m
LGS 1 & 2. IST Progrcm spse. ML-008. Rsy, 2 Appendix A Page 3 of 24 COLD SHUTDOWN TEST JUSTIFICATION 13-VCS-1. REVISION 0 System Reactor Enclosure Cooling W ter Valvelsit HV-13-106 HV-13-206 HV-13-107 HV-13-207 HV-13-106 HV-13-2 'J 8 HV-13-ll! HV-13-211 Category: A Functient Cooling water to reactor recirculation pump seal and motor oil coolers, primary containment isolation. Deferred Testingt Quarterly exercisa and stroke time. Cold Shutdown Exercising these valves during power operation would cause Test Justificationt loss of cooling water flow to the reactor recirculation pump seal and motor oil coolers. The failure of any one of these valves in any position other than open, during exercising, would result in an inadequato cooling water supply with subsequent damage to the pump seals and motor. A damaged pump or motor, necessitating shutdown, would require a reduction in reactor power in accordance with Technical Speci ficction 3.4.1.1. Quartel*1y Partial Partial stroke will not be performed - based on the same Strol:e Testingt reason as discussed above. Cold Exercise and stroke time. Shutdown Testing i l
LCS 1 & 2, IST Program tpsc. ML-005, Rsv. 2 Appendix A Page 4 of 24 COLD SHUTDOWN TFIT JurTIFICATION 40-VCS-1, REVISION 0 System MSIV - leakage Control valvets): HV-40-lF001B, F. K. P HV-40-2F0018. F. K. P HV-40-lF0028. F. K. P HV-40-2F002B, F. a. P HV-40-1F003B, F, K. P HV-40-2F003B, F. K, P HV-40-lF006 HV-40-2F006 HV-40-1F007 HV-40-2F007 HV-40-1F008 HV-40-2F008 HV-40-1F009 HV-40-2F009 Categoryt A (HV-40-1(2)F0018. F, K, P) l B (HV-40-IF0028. F, K, Ps HV-40-1(2)f003B, F, K. PJ , HV-40-1(2)F006; HV-40-1(21F007; HV-40-1(2)F008; HV-4 0 -1 ( 2 ) F 0 0 91 Function System control valves. , Deferred Testingt Quarterly exercise and stroke timing. I Cold Shutdown The H5IV-LCS controls include interlocks to prevent Test Justificationt inadvertent operation of these valves when main steam line pressure is >35 psig. These interlocks are provided to prevent , multiple valve openings that would result in the discharge of high-ptessure stsam into the steam turnel. Because main sis,am
,line pressure during uneration is >35 psi these valves cannot be exercised.
Quarterly Partial Partial strok e exercising cannot be performed - based on
- Stroke Testingt the sane reason discussed above.
Cold Exercise and stroke time. Shutdown Testingt l l-
LGS 1 & 2e IST Program Spic. HL-008, Rev. 2 Appendit A Page 5 of 24 COLD SHUTDOWN TEST JUST!rICATION 41-VCS-1, REVISION 0 systemt Huclear Boiler Valvels): HV-41-1F032A, B Hs 1 F 07 4'A . B HV-41-2F032A, B MV-41-27074A, B i Categoryl A. C . Functions f eedwater System outside primary containnent isolation valvew. Deferred Testing Exercise in reverse direction. Cold shutdown . Valves HV-41-1(2)F074A,f are eauipped with air operators Test Justifications and valves HV-41-1(2)F032A,B are equipped with motor operators that are not capable of closing the valves with the Feedwater System in operation. Because both feedwater loops are required for full power operation, isolation of one loop f or testing would require a significant reduction in power and could result in a reactor scram due to low feedwater flow. Quarterly Partial Partial streke will not be performed - based on the sane Stroke Testingt reason discussed above. Cold Exercise in the reverse direction. Shutdown Testingt 1 e ,,y . ..- - . ~ ---... -- w , ,- y, ,
LCS 1 L 2e IST Progrco Spse. ML-008, Rev. 2 Appsndix A Page 6 of 24 COLD SHUTDOWil TEST JUST!FICATION 41-VCS-2, REVISION 0 System! Nuclear Boiler Valvetsli HV-41-lF022A, B,C,D HV-41-lF028A, B,C,D HV-41-2F022A, B,C, D HV-41-2F028 A, B, C, D Categoryt A Functient Main steam line inside/outside primary containment isolation valves. Deferred Testingt Exercise, stroke time, and fail-safe test. Cold Shutdown Full stroke exercising of these valves during normal Test Justifications operation requires-isolating one of the four main steam lines. Isolation of these lines results in reactor power fluctuations, prinary system pressure spikes; and increased flow in the non-isolated steam lines. This unstable operating condition could lead to reactor scram or increase the chances of main steam-relief valve actuation as discussed in NUREO-0626. These valves are provided with the circuitry to permit partial This partial stroke stroking to a 10% closed' position. exercising provides an acceptable means of verifying valve performance during plant operation without affecting safety margins. Quarterly Partial Partial stroke will be performed. Stroke Testingt
^
Cold Exercise,-stroke time, and fail-safe test. Shutdown Testing
- i.
LCS 1 1 3 1$7 Prog 70m Spec. ML-008, Rev. 2 Appendix A PaDe 7 of 24 COLD SHUTDCWN TEST JUSTIFICAT30N 41-VCS-3, REVISION 0 Systemi Nuclear Boiler
. Valve (sit HV-41-130A,.B HV-41-133A, B HV-41-230A, B HV-41-233A. B Category: A Function Safeguas, Piping fill System seal water injection to feedwater and primary containment isolation valves.
7eferred Testingt Exercise and stroke time. Cold shutdown
-Test Justifications asThese valves and an isolation downstream barrier check between highvalves 41-ids pressure 6As 8 serve F eedwater and low pressure Safeguard Piping Fill System piping, Exorcising these valves open wi th subseavent failure of the downstraem check valves to close could over pressurire the low pressure piping.
Quarterly Partial Stroke Testings. Partial stroke cannot be performed - based on the same o reason discussed above, Cold Exercise and stroke timing.
- Shutdown Testings 4
k
LCs 1 & 2. IST Progetm Sp3c. ML-005, Rev. 2 Appindix A Page I of 24 COLD SHbTDOWN TEST JUST!FICATION 41-VCS-4, REVIS10N 0 Systemi Nuclear Boiler valvetalt 41-1036A. B 41-2056A, b Category: A, C Functient- Safecuard Piping Fill System seal water injection to feedwater end primary containment 19olation valves. Deferred Testingt Exercise in the forward and reverse direction. Cold shutdown forward flow operability is verified by injecting Test Justifications Safeguard Piping Fill Systen water into the Feedwater System. During power operation feedwater pressure prohibits injection f rom the $af eguard Piping Fill System. Emercising in the f orward dires tion will be performed during cold shutdown when Feedwa ter System pressure is low enough to allow water injection from the Safeguard Piping Fill System. Exercising in the reverse direction is accomplished by venting of f the upstream side of the valve with pressure opplied to the downstream side. At power high energy and radioactive feedwater is applied to the downstream side of the check valve. Venting the upstream side wi th a subsequent failure of the check valve to close would pose a safety hazard to personnel and a possible release of radioactivity. In addition, entry into the steam tunnel would be requit ed for venting the upstream side. During normal operation the steam tunnel is a high temperature / radioactive environment limiting access to emergenclem only. Therefore, exercising in the e everse directictr will be perforwed at cold shutdown when the hostile environment and the high energy / radioactive condition does not exist. Quarterly Partial Partial stroke exercising will not be performed - based on j Stroke Testingt the same reason discussed above. Cold Exercise in the forward and reverse direction. Shutdown Testingt I i i i l l l l
-- ,, , , , , , . . . , , , _ , , - - - ., . .- -- - . - - - - --____-----J
LCS 1 f 2e IST Progrca 5p3c. ML-008. Rev. 2 Appindix A Page 9 of 24 COLD SHUTDOWN TEST JUSTIFICATION 41-VCS-5, REVISION 0 System Nuclear Boiler Valve (sit- Al-2F029A, B, C, D Category: C , runctions Outboard MSIV accumulator ' inlet ch' *; valve. Deferred Testingt Exercise in the reverse direction. cold Shutdown Reverse exercising of_these valves would require isolating Test Justifications and venting the associated compressed air supply hea de r' and i observing the a3cumulator pressure. Since pressure indication is not provided f or the accu ~,ulators, a tw.aporary pressure gavne must be installed on a test connection which is lecated inside the steam tunnel. The steam tunnel is a high temperature and , high radiation area during power operation limiting access to emergencies only. Quarterly Partial Hot es..icable Stroke Testings , Cold Exercise in the reverse directien. Shutdown Testingt f
,~ -rn--w, --+,,,nrwe w ,- , ,---r---e --,,--a,- -,y ~,-n.
LGi 1 & 2, IST Program Sptc. ML-005, Rsv. 2 Appindix A Pcge 10 of 24 COLD SHUTDOWN TEST JUSTIFICATION 42-VCS-1, REVISION 0 System Nuclear Boiler Vessel Instrumentation Valvels)* HV-42-147A, B, C. D HV-42-247A, B. C. D Categoryl B Function Outside primary aantainment instrument line isolation. Deferred Testing
- Exorcise and stroke time.
Cold Shutdown The function of these valves a to isolate instrument Test Justifications lines outside primary containment in the event of a line break. i ' Also, these valves'are required to open at post accident in order to monitor drywell pressure. Failure of these valves in er,y position other than open, during testing would isolate multiple saf ety related instruments used for the Reactor Protection Svstem and the Emergency Core Cooling System (i.e., drywell pressure). Because these instruments are required by technical specifica ti ons to be operable, loss of instrumentation due to' isolation could result in a plant shutdown. Quarterly Partial Partial stroke will not be performed - based on the sa e Stroke Testingt reason discussed above. Cold Exercise and struke time. Shutdown Testingt E l l
LOS 1 & 2, IST Progrtm Sp c. ML-008, Rov. 2 Apptndix A Pag 3 11 of 24 C9tD SHUTDOWN TEST JUSTIFICATION 43-VCS-1, REVISION 0 Systemt l Reactor Recirculation Pump System Valve (s): HV-43-IF031A,B HV-43-2F031A,B Category B Function! Reactor recirculation pump A and E discharge isolation valves. Deferred Testingt Exercise and stroke time. Cold Shutdown Exercising these valves during normal operation would Test Justifications require a recirculation reduction loop. in power and interruption of flow in one In addition, if these valves failed in any posi ti on other than open c':a ri n g testing, the plant would be forced be shutdownto operate at a reduced power level until the plant could for repairs. Furthermore, full exer cising of these valves would result in an automatic runback to 28:. of the pumps speed, transient. subjectir e the reactor core to en abrupt power reduction Quarterly Partial Stroke Testingt Partial stroke will not be performed - based on the same reason discussed above. Cold Shutdown Testingt Exercise and stroke time.
LCS 1 & 2, IST Program . Spsc. ML-008, Ray. 2 Appendix A Page 12 of 24 COLD SHUTDOWN TEST JUSTIFICATION 44-VCS-1. REVISION 0 Systemt Reactor Water Cleanup (RWCU)
.Valvetsli HV-44-lF001 HV-44-2F001 HV-44-lF004 HV-44-2F004 HV-44-IF039- HV-44-2F039 Categoryt A (hV-44-It2)F00' & F0041 A. C (HV-44-1(2)F0391
. Functions Reactor Water Cleanup System primary containment isolation valves.
Deferred Testinct Exercise and stroke time (HV-44-1(2)F001 1 F0041 Exercise in the reverse direction (HV-44-1(2)F039] Cold Shutdown Reactor coolant water chemistry control is provided in Test Justificationi part by the RWCU system .a n d is required during all normal operating nodes. Failure to maintain water chemistry would violate Technical Specification 3.4.4 resulting in a forced shutdown of the reactor. The RHCU pumps are interlocked to trip upon the closure of either F001 or F004. A pump trip causes a loss in cooling water to the mechanical seal resulting in a high seal temperature and possible seal failure. A seal 'ailure would delay RWCU system start-up and would limit the ability to maintain plant chemistry within the required limits. In addi tion, HV-44-1(2)F001 are located inside the primary cc atainment which is inaccessible during power operation due to hiah ra dia ti on levels and the inerted atmosphere. failure in the closed position would result in a
-complete loss of the RHCU system.
Reverse exercising of HV-44-1(2)F039 would require an interruption of flow due to ' the assisting operator design not l-being capable of valve closure e, gainst flow. An interruption j of flow would require closing F001 or F004 which is not possibla i
. based on the same reason as discussed above.
Additionally, the assisting air operator has been setup to prevent slamming the check valve disk into the seat. This was
.necessary to preclude unnecessary degewdation ._to the valve
- sea ting surf aces which prior to this change required-frequent l' and costly rework. As a result, the proposed routing cold
-shutdown test is considerad only a " partial stroke". Full stroke l
exercise requiremeats will be satisfied in conjunction with the Local Leak Rate -Test '(LLRT) which is perf ormed every refuel
. outage.
Quarterly Partial Partial stroke will not be performed - if the valves are Stroke Testingt not fully open the RHCU Pump will ' receive a trip signal . Cold . Exercise and stroke time (HV-44-1(2)F001 & F0041. Shutdown Testing Exercise (Partial Stroke)in the reverse direction (HV 1(2)F0391. Exercise (Full Stroke) IHV-44-1(2)F039) in conjunction with LLRT every refuel outage.
LGS 1 & 2, IST Program Spse. ML-008, Rsv. 2 Appsndix A Page 13 of 24 COLD SHUTDOWN TEST JUSTIFICATION 46-VCS-1, REVISION 1 Systema Control Rod Drive Hydraulic - Part A Valve (slt 46-1-1101 46-1-1115 46-1-1102 46-1-1116 46-1-1108 46-1-1122 46-1-1109 46-1-1125 Category: A, C Function Containment isolation of CRD cooling, charging, drive and exhaust water supply headers. Deferred Testingt Ewercise in the reverue direction. Cold Shutdown Verification of reverse flow closure requires securing the Test Justifications control rod drive water pumps. Stopping the control rod drive water pumps would result in a loss of cooling water flow to the CRD's. Quarterly Partial Not Applicable. Stroke Testingt
-Cold Verification o f reverse flow closure will be performed by Shutdown Testingt securing the CRD pumns and verifying that the valves ha se closed on reverse flow.
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LCS 1 & 2, IST Program Spic. ML-008, Rev. 2 ' Appindix A Page 14 of 24 _ COLD. SHUTDOWN. TEST JUSTIFICATION 47-VCS-1, REVISION l' Systemt . Control Rod . Drive Hydraulic - Par t B Valvelsit 47-1-15 (all 185 HCOs) 47-2-15 (all 185 NCUs) Category: A. C ! Functiont- Scram accumulator cF' 'cing water line check valves. Deferred Testingt Exercise in the reverse direction. Cold Shutdown Verification of reverse flow closure requires securing the Test Justifications control-rod drive water r,um ps , and monitoring the individual accumulator pressure and alarm to verify that the valves have closed on reverse flow. Stopping the control rod drive water pumps would resu? t in a loss of cooling water flow to tha CRDs. Quarterly Partial Not Applicable.
. Stroke Testingt Cold Verification of reverse flow closure will be performed by Shutdown Testingt securing the CRD pumps and monitoring the individua' accumulator pressure and alarms to verify that the valves have closed on reverse flow.
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LCS 1 & 2. IST Prograa Spic. HL-008. Rev. 2 Appsndix A Page 15 of 24 COLD SHUTDOWN TEST JUSTIFICATION 49-VCS-1, RIVJSION 0 System Reactor Core Isolation Cooling Valve (sit. HV-49-1F007
-HV-49-2F007 Category: A Function RCIC steam supply; inboord primary containment isolation valve.
Deferred Testing: Exercise and stroke time. Colo Shutdown These valves are normally open during power operation Test Justificationi providing an open flow path for supply steam to the RCIC turbine. In addition these valves are located inside primary containment which is not accessible during operation, since it is inerted with nitrogen and is a high radiation area. Should a failure occur during valve exercising, in the closed position, the result would be a loss of system function. Plant shutdown, to restore the valve to an operable status per T.S. 3.7.3.a. would be required should failure occur during exercising. Quarterly Partial Partial stroke will not be per formed - operating circuitry Stroke Testingt does not provide for par tial stroking. Cold Exercise and stroke time. Shutdown Testing l-s l 1 I
LCS 1 &-2, IST reogetm Spsc. ML-008, Ray. 2 Appandix A Page 16 of 24
- COLD SHUTDOWN TEST JUSTIFICATICH 49-VCS-2, REVISION 0 Systems Reactor Co e Isolation Cooling (RCIC) 'Valvets!*- HV-49-lF013 HV-49-2F013 Category: A Function: RCIC pump discharge to feedwater isolation and containment isolation' valve.
Deferred Testingt Quarterly exercise and stroke timing. Cold Shutdown- The above valve is located at a Hith' Moderate-Energy - Test Justification Line Break. FSAR 3.6-47 specifies that a fluid systen classified as a moderate-energy fluid system should not be exposed to high-energy conditions eveept for short periods of time. More specifically this short period of time is defined as 2% of the time that the system operates as a moderate-energy fluid system or 1%-of the nornal operating life span of the plant. These valves are located in the steam tunnel which is a high temperature and high radiation area during power operation with access limited to energencies. Should the valve fail, during exercise testing in any posi tion other than full closed, the enodera t e -ener gy fluid system would be exposed to high energy conditions for extended periods of time due to the location of the valve. In addition, the valve f ailure would result in a loss of the' valves ability to function for containment isolation. Therefore, exercise and stroke timing will be performed at cold
- shutdown when the high-energy condition does not exist.
Guarterly Partial Partial stroke can not be performed - based on the same Stroke. Testings reason discussed above. Cold Exercise and stroke time. Shutdown Testing:
LGS 1 & 2, IST Pecgram Spac. ML-008, Ray. 2-Appsndix A Page 17 of 24 COLD.?HUTDOWN TEST JUSTIFICATION 49-VCS-3, REVISION 0
'Systemt' Reactor Core Isolation Cooling (RCIC)
Valvelsit 49-IF028 49-2F028 Categoryl 'A,C Function: RCIC turbine vacuun pump discharge to the suppression pool and containment isolatinn check valve. Deferred Testingt Exercise in the everse direction. Cold Shutdown Testing of these valves requires closing downstrean
- Test -Justificationi containment isolation valves HV-49-1(2)F002 and applying pressure between NV-40-1(2)F002 and the check valves via a test connection. Opening of the test connection establishes a bypass flowpato, thus negating the containment isolation function of valves 49-1(2)F028. This alignment would be equivalent to cperating wi th an inoperable containment isolation valve. which places the plunt into a LCO. Therefore. to avoid entering an LCO these valves will be tested at cold shutdown.
_ Quarterly Partial N/A Stroke Testing: Cold Exercise in the reverse direction. Shutdown Testing l .. I t l l L 1
l LCS 1 & 2e IST Progetm Spic. ML-008. Rev. 2 Appandix A Page 18 of 24 COLD SHUTDOWN TEST JUSTIFICATION 49-VCS-4, REVISION 0 Systemt Reactor Core Isolation Cooling (RCICJ Valve t s ): 49-lF064 49-2F064 49-lF065 49-2F065 Category: C Functient Condensate transfer piping-stay - fill check valves, Deferred Testingt Exercise in the reverse direction. Cold Shutdown The above stay-fill check valves can' be tested in series Test Justifications by applying pressure downstream and observing en upstream drain connection for leakage. The upstream drain connections utiliz=d during testing are located inside the steim tunnel. Durins normal operation the steam tunnel- is a high tempeisture/high radiation area limiting access to emergencies only. Therefore, exercising in the raverse direction will be perforned at cold shutdown when access to the steam tunnel is permitted. Quarterly Partial Not applicable. Stroke Testingt 1 Cold Exercise in the reverse direction. Shutdown Tcsting: 1
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LGS 1 & 2, IST Program Spsc. HL-008, Rev. 2 Apptndix A Page 19 of 24 COLD SHUTDOWN TEST-JUSTIFICATION SI-VCS-1, REVISION 0 System Residual Heat Removal (RHR) Valvets): HV-51-lF015A B HV 2 F 015 A , B HV-51-1F017A,B.C.D HV-51-2F017A,B,C.D HV-51-1F041 A, B C, D HV-51-2F041A,B,C,D HV-51-1F050A,B HV-51-2F050A,B Category: A (HV-51-1(2)F015A,Ba HV-51-1(2)f017A,B,C D1 A, C (HV-51-1(2)F041A,B,C,D; HV-51-1(2)F050A,B) Functiont! Low pressure coolant injection and shutdown cooling containment and reactor coolant pressure boundary isolation (RCPB) valves. Deferred Testingt A - exercise and stroke time in the open and closed direction A. C exercise in the forward ard reverse direction Cold shutdown The above valves provide the only isolation between Test Justifications reactor vessel pressure and the low pressure RHR piping, in each case two valves are provided, a downstream testable check valve located inside the primary containment and a motor operated valve located outside the containment. System configuration does not provide a method to ensure the downstream check valve is I fully closed, therefore opening of the HOV could result in en
- over pressurization of the low pressure RHR piping.
The testable check valve has been provided with an equalization valve to allow testing during power using the air operator. Since the check valve is located inside the primary cor.tainment, it is inaccessible for maintenance in the event the valve fails Because Technical Specification to reclose dursng testing. 3.4.3.2, requires all RCPB valves be within their individusi leakage limits during power operation, failure of the check valve to close would require the plant to oe shutdown. Quarterly Partial Partial stroke will not be performed - results in the same Stroke Testing: cordition as full streke testing. Cold Exercise and stroke time the Category A valves. Exercise Shutdown Testing: in the forward and reverse direction the Category AC valves.
b0 LGS 1 & 2, IST Program Spsc. ML-008, Rev. 2 Appindix A page 20 of 24 COLD SHUTDOWN TEST JUSTIFICATION 51-VCS-2, REVISION 0 Sy s t em t .. . Residual Heat Removal (RHR) Valve (sit HV-51-1F008
-HV-51-1F009 HV-51-2F008 HV-51-2F009-Category: A Function: RHR shutdown cooling return inside'outside primary containment isola tion, reactor coolant pressure boundary isolation.
Deferred Testing: Exarcise and stroke time. Cold Shutdown These valves are interlocked to prevent operation when Test Justification: Reactor Coolant System pressure is > 75 psig. Because Reactor Coolant System pressure d u r-i n g power . operation is > 75 psis
-these valves cannot be exercised.
Quarterly Partial Partial stroke exercising cannot be performed - based on Stroke Testing: the same reason discussed above. Cold . Exercise and stroke time. ShutdcWn Testing: 9 i
LGS 1 t, 2, IST Program Sp3c. ML-008, Rsv. 2 Appsndix A Pags 21 of 24 COLD SHUTDOWN TEST JUSTIFICATION 52-VCS-1, REVISION O Systemt Core Spray Valvets): HV-52-lF005 HV-52-2F005 HV-52-IF006A,B HV-52-2F006A,B i Categorys- A (HV-52-1(2)F005] A, C (HV-52-1(2)F306A,B) Functiont Primary containment isolation, reac tor coolant pressure boundary l l isolation, Deferred Testingt Exercise and stroke time. [HV-52-1(2)F0053 Exercise in the f orward and reverse direction (HV-52-1(2)F006 A,B J Cold Shutdewn These valves function as both primary containment , Test Justificatient isolation valves andDuring as reactor coolant pressure boundary power operation these valves protect l j isolation valves. the Core Spray Syntom from being over pressurized by the Reactor I i Coolant System. Exercising these valves to +he open ponition, ' with simultaneous failure of the other valve to perform its pressure isolation function, could cause the Core Spray System to be over pressurized r. .lting in a possible loss af the Core Spray System function. Quarterly Partial Partial stroke will not be performed - partial stroke Stroke Testingt exercising results in the same condition as full stroke exercising. Cold Exercise and stroke time the Category A valves. Exercise Shutdown Testingt in the forward and reverse direction the Category AC valves, y {. .
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LCS.1 & 2, IST Prcgram Spac. HL-008 R3v. 2
. App:ndix A Page 22 of 24 COLD SHUTDOWN TEST JUSTIFICATION 55-VCS-1, REVISION 0 Systemt. High Pressure Coolant Injection Valvets): HV-55-lF002 HV-55-2F002
-Category: A Function: HPCI steam supplyt inboard primary containment isolation valve.
Deferred Testingt Exercise and stroke time. Cold Shutdown -These valves are normally open during power operation Test Justifications providing an open flow path for the supply rteam to thw HPCI turbine. In addition these valves are located inside primary - containment which is not accessible during operation, min,e it is inerted with nitrogen and is a high radiation eres.. Should a failure occur during valve exercising, in the closed posi' tion, the result would be a loss of system function. Plant shts.own, to restore the valve to operable status per T.S. 3.5.1 c. would be required should failure occur during exercisino. Quarterly Partial Quarterly partial stroke will not be performed - operating Stroke Testingt circuitry does not provide for partini stroking. Cold Exercise and stroke time, snutdown Testingt
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LCS 1 & 2, IST Prcgram Sp2c. ML-008, Rey. 2 Appandix A Page 23 of 24 COLD SHUTDOWN TEST-JUSTIFICATION 55-VCS-2, REVISION O System: High Pressure Coolant Injection (HPCi)
-Valvetsla HV-55-lF105 HV-55-2F105 CategorV: A Function: HPCI: pump discharge to feedwater isolation and containment isolation valve.
Deferred Testing: Quarterly exercise and stroke timing. Cold Shutdown The above valve is locet d at a High/ Moderate-Energy line Test Justification: Break. FSAR 3.6-47 specifies that a fluid systen classified as a - moderate-energy fluid system should not be exposed to high-energy conditions except for short periods of time. More specifically this short period of time is defined as 2% of the time that the cystem operates as a moderate-energy fluid system or 1% of the normel operating life span of the plant. These valves are located in the steam tunnel which is a high radiation and high temperature area during power operation with access limited to emergencies. Should the valve fail, during exercise testing in any position other than full closed, the moderate-energy fluid system would be exposed to high-energy conditions for extended periods of timo due to the location of the valve. In addition, the salve failure would result in a loss of the valves ability to function-for containmens i s o l a ti o n .. Therefore, exercise and stroke timing will be performed at cold shutdown when. the high energy condition does not exist. Quarterly Partial Partial stroke exercising cannot be performed - based on Stroke Testingt the same reason discussed above. Cold Exercise and stroke time. Shutdown Testing: (
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LGS 1 & 3, 8ST Progras Spec.-HL-008. Rev. 2 Appendix A Page 24 of 24 COLD SHUTDOWN TEST JUSTIFICATION 59-VCS-1. REVISION 0 Systemt Primary Containment Instrument Gas (PCIG) Valvelsli HV-59-lC1 HV-59-102 HV-59-201 HV-59-232 Category! A Function: PCIG compressor suction from the primary containment 3 inside and outside containment isolation valves. Deferred Testing!- Exercise and stroke time. Cold Shutdown . The (PCIG) is supplied by' instrument gas compressors which Test Justifications take suction directly fror. the drywell atmosphere. This prevents a build up of pressure in the primary containment due to pneumatic operator leakage. There is only one suction line installed on each unit for the PCIG compressors. These valves provide the inside and outside containment isolation on the suction line of their associated units. Due to the inerted condition and high radiation levels that exist inside the primary containment at power, entry is prohibited. Therefore, if these
- valves failed in the closed position during testing the PCIG compressors would be 2noperable until the plant could be shutdown to repair the failed valve. In addition, failure in the closed position could result in the MSIVs drifting closed.
Quarterly Partial Partial stroke will not be performed - based on the same Stroke Testingt reason as discussed above. Cold Exercise and stroke time.
- d Shutdown Testing:
P
. APPENDIX 13 PUMP INSERVICE TESTING PROGRAM RELIEF REQUESTS 1
LCS 1 &-2-IST'ProDrea Spec. ML-008, Rev. 2 App 3ndix B Pags 1-of 3 l'- RELIEF REQUEST NO.'GPRR-1. REVISION 1
- Pumpts): 0AP162 2AP256 DBP162 2BP256 1AP256 2AP208 IBP256 2BP208 1AP208 2CP208 l 1BP208 20P203 '
1CP208 20P204 10P203 10P7.04 Testing Requirement (s): Neasure bearing temperature annually (INP-3300) Easis for Relief The measuring of bearing temperatures along with vibration monitoring are both means of determining the mechanical condition of a pump. However , - in order for bearing temperature measurements to be useful continuous monitoring would be required. The rise in temperature due to bearing degradation is a very sudden occurrence which is much more detectable in its early stages by- utilizing vibration monitoring. Serious degradation would have to occur to cause a detectable rise of temperature on the bearing housin,. Vibration monitoring is a more' logical means of de t ec ti ng bearing degradation prior to an increase in temperature. Alternate-Testing - Pump / bearing mechanical condition will be determined using the vibration moni toring program. Bearing temperature will not be neasured, n , A
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a , . _ . - - . ,. - . .- n- - .. LCS k & 2,'IST Prcgram Sper.. ML-008, R3v. 2 Appendix B Page 2 of 3 RELIEF REQUEST HC. GPRR-J. REVISION 1 Main Control Rcom DAP162 Pump (s): OBP162 Chilled Hater DAP506 0CP506 Residual Heat Removal ODP506 Service Water OBP506 Emergency Service WEter DAP548 OCP548 OBP548 ODP545 Residual Heat Removal 1AP202 2AP202 IBP202 2BP202 1CP202 2BP202 1DP202 2DP202 Reactor Core Isolation Cooling 10P203 20P203 High Pressure Coolant Injection 10P204 20P204 Testing Requirement (s): Pump instrumentation accuracy and full-scale range shall be within the limits .specified in ASME Section XI Subsection IWP Articles INP-4110 and IWP-4120. Basis for Relieft Various permanently installed pressure and flow instruments are calibrated to an accuracy that _ exceeds 12% of full-scale or have a full-scale range that exceeds the three times _ the reference value criteria that is specified by the Code. Although these instruments do not meet the Code requirements, they are able.to provide the same or better indication accuracy at the reference value that is allowed ' by the Code. f . For instruments to be in compliance with ASME Sectiod XI i
. Subsection IWP, two requirements must be satisfied. The first requirement (specified in IWP-4110. Table IWP-4110-
- 1) states that flow and pressure instrumentation must be accurate to within 12% of the full-scale values the second requirement (specified in IWP-4120) states that "the full-
. scale range of each -instrument shall be three times the
- reference value or less." Based on these requirements, a maximum indication accuracy of 16% can be calculated by comparing the actual tolerance of the_ instrument to the I reference value being measured. An example of calculating -
the indica ted accuracy is shown below. Exampit Using a flow reference value of 10.000 som and a flow gauge with an actual full-scale range of 12,000 spm tha t is calibrated to 12% of full scales g,gde Requirement' Ref erence value = 10,000 spm IHP-4120, 3 x reference value = 30,030 spm Instrument tolerance e 1600 som (12% x 30,000 opm) Indicated accuracy 2600 gpm / 10,000 ppm x 100%
- 26%
The indicated accuracy fo* the instruments on the pumps listed are less than or equal to 16% at the reference value. These accuracies' are the same or better than allowed by the Code. Alternate Testing: The existing permanently installed pump instrumentation is acceptable provided the indicated accuracy is less than or equal to 16% of the reference value. Ho alternate testing will be performed.
LG5 1 1 2. IST Progrsm Spsc. ML-008, R2v. 2
-App 2ndix B Page 3 of 3
_ RELIEF REQUEST NO. GPRR-3, REVISION 1 PUMP (Sl Safeguard Piping Fill IAP256 2AP256 IBP256 2BP256 Diesel Fuel Oil Transfer 1AP514 2AP514 1BP514 2BP514 1CPLl4 2CP514 IDP514 2DP514 . Standby Liquid Control IAP208 2AP208 IBP208 2BP208 1CP208- 2CP208 TESTING REQUIREMENT (Sit Pump instrumentation accur.ev shall Le within the limits specified in ASME Section X1 Subsection INP Article IWP-4110. BASIS FOR RELIEF: PEco proposes to measure flow using state-of-the-art ! ultrasonic testing instrumentation.that is calibrated to an accuracy of t5% of reading .instead of the Code required 12% of full-scale. Although this equipment does not meet the Code requirements, it meetn the intent of the Code'by ensuring that data collected during inservice testing is measured to the degree of accuracy specified in Article IWP-4110. For instruments to be in compliance with ASME Section XI Subsection IWP, two requirements must be satisfied. The. first requirement (specified in IWP-4110, Table IW?-4110-
-1) states that. flow instrumentation must be accurate to within 12% of the full-scale values the sacond requirement (specified in IWP-4120) states that "the full-scale range of each instrument shall be three tines the reference >alue or less." Through these . requi rements, the Code has established a maximum allowable tolerance for a curacy of reading that is equivalent to 26% of the reference value.
We believe that we meet the intent of the code since the ultrasenic flow instrument _ is ac: urate to 15% of reading. PEco also believes that this measurement technique provides the necessary accuracy for- pump performance trending surposes. Furthermore. PEco consider s the . resulting IST flow data measured using the ultrasonic equipment to be more accurate than data collected using the alternate method of measuring tank level change as a -function of time. ALTERNATE TESTING!- Since the ultrasonic instrumentation, which is accurate to 15% of reading,. is considered appropriate 'or measuring IST flow data no alternate testing will be .,erformed. t l
l i r-APPENDIX C
. VALVE INSERVICE TESTING PROGRAM RELIEF REQUESTS F
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LGS 1 & 2, IST Progrtm Spsc. ML-008 Rev. 2 Appendix C Page 1 of 24 RELIEF REQUEST Ho. GVRR-1, REVISION 0 g Valvest- Containment Isolation Valves Category: A Testing Requirement (s): Leak rate test in accordance with subsection IWV-3420. Basis for Relieft Containm(nt isolation valves are required to be leakege rate tested in accordance with 10CFk$0, Appendix J. The leakage rate requirenent in basaJ on a total allowable leakage rate for all valves instead of an individual valve leakage rate. IWV-2100(a) defines Category A as " valves for which seat leakace in linited to a specified maximum amount in the closed position of fulfillment of their function." Although for containment isolation valves leakage rates are not limited on an individual basis by Appendix J, they have been determined to be Category A valves. Since containment isolation valves are Category A, the leakage rate testing requirements of INV-3420 must be satisfied. The
. leakage rate testing performed per Appendix J satisfies the requirements of INV-3421 through 3425, however, it does not satisfy the individual valve leakage rate analysis and corrective ac tions of IWV-3426 and IWV-3427.
Appendix J testing is accomplished by performing individual local leak rate tests on each containment penetration. The results of these tests repres its the total leakage from the boundary valves associated wit . the penetratien. In order to prevent duplicate leakage testing of these valves, a maximum permissible leakage will be established for each individual local leak rate test. If this value is exceeded, then corrective action will be taken to restore tha leakage rate to withi.s acceptable limits. The proposed actions will be > taken in lieu of IWV-3426 and INV-3427(a). Double frequency testing, as required by.lWV-3427(b), shall not be performed. The usefulness of the data does not justify the burden of complying with this requirement. Corrective action previously addressed will be suf ficient in maintaining acceptable leakage rates. Alternate Testing: Containment isolation valves will be leak rate tested in accordance witn the 10CFR50 Appendix J Type C testing program. In addition - a maximum permissible leakage criterion will be established f or each individual local leak rate test. If the local leak rate test leakage criterion is exceeded, errective action will be taken to restore the leakage rate to within the acceptable value.
LGS 1 1 2, IST Program ' Spec. ML-00C, Rev. 2 Appendix C Page 2 of 24 RELIEF REQUEST NO. GVRR-2, REVISION 0 Valves: Excess flow check valves Category: C Testing Requirement (s h Exercise in the forward direction. Basis for Relief Excess flow check valves are installed on instrument lines penetrating containment to minimize leakase in the event of an i n s t r um en '. line failure outside the containment in accordance with Regulatory Guide 1.11. The excess flow check valve is basically a spring loaded check valve. Sine. the systen is normally in a static condition, the valve pot, et is held open by the spring. Any sudden increase in flow through the valve 'i.e. line break) will result in a differential pressure across the valve which will overcome the spring and close the v a lv e . Functional testing of valve closure is acconpl.shed by venting the instrument side of the valve while the process side is under pressure, observing that the remote i position indicator indicates closed a nd/ o r verifying the absence of 1 akage through the vent. The testing described above requires the removal of the associated instrument or instruments from service. Tince these instruments are in use during plant operation and cold shutiusn, removal of any of these instruments from service may cause a spurious signal which could resul t in a plant trip, an inadvertent initiation of a safety system, loss of decay heat removal and/or the defeating of saf ety interlocks. In addition to the plant safety concerns, personnel safety concerns must'be considered since the process side of these
' valves is normally high energy (>200 and >500 psig) and highly radioactive reactor coolant.
In summary, due to the plant and personnel safety-concerns and plant operating conditions that prohibit the testing of these valves quarterly or at cold shutdown, testing will be performed at refueling when decay heat loads are at a minimum and safety systems can be removed from service to prevent inadvertent initiation. Alternate. Testing: Functional testing to ensure the valves exercise will be performed at refueling.
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LCS 1 & 2,..IST PrCgrtm Spse. ML-008, Ray. 2 Appindix C Page 3 of 24 ' RELIEF REQUEST NO. CVRR-3, REVISION 0 Valves Rapid actuating power-operated valves Category: A, B Testing Requirement (s) -For power operated valves, the testing frequency shall be increased to once per month if the measured stroke time for the valve i n c r ea ses' 'vy 50 percent or more fron'the previous test.
-Basis for Relief For rapid actuating power operated valves, the application of the above criteria could result in increased testing when the valves are functioning normally. These valves generally are small air and solenoid operated valves which, because of their size and actuator types, stroke very quickly. Operating history on this type of velve indicates that they generally either operate immediately or fail to operate, The intent of the referenced-testing requirement is to trend valve stroke time as a means of detecting valve degradation. .For rapid actuating power-operated valves, comparison of stroke times to the previous stroke times is not an effective means of detecting valve degradation. Because of the reasons mentioned above, rapid actuating power-operated valve stroke times will not be compared with the previous stroke times, but will be assigned a maximum limiting stroke time of 2 seconds. -Alternate Testing: A maximum limiting stroke time of 2 seconds will be specified for each rapid actua ting power operated valve. If the valve strokes in 2 seconds or less, it will be considered acceptable and no corrective action will be required. If the valve - exceeds 2 seconds, appropriate corrective action will be taken.
i LCS 1 & 2, IST Progrgm Sp2c. ML-005, R2v. 2 ; Appindix C Page 4 of 24 RELIEF REQUEST No. GVRR-4, REVISION 1 Valvels): 49-1032 49-2032 49-1033 49-2033 51-1115A,C 51-2115A.C 51-Ill6A,C 51-2116A C 52-1045A 52-2045A 52-1046A 52-2046A Categoryt C Testing Requirement (sit Exercise in the reverst direction.
-tasis for Relief These check valves are installed in ar-les and are not provided K: with a means to facilitate individual exercising. There are no vents, drains, or test valves located between each pair of valves, therefore, no practical nethod exists to verify proper it U operation of the individual valves upon reversal of flow. T r.e fact that two valves are in series lessens the probability of failure to retard backflow. In all cases, of check valves in series, there is a neans provided to verify proper valve operability of at least one of the two valves.
Alternate Testing: Each set of series check valves will be exercised quarterly, in the reverse direction, as a unit. Both valves wii! be declared inoperable if testing indicates that the valves do not close on reverse flow.
LCS 1 & 2, 3S1 Program Spir. MI.-008, R3V. 2 Appendix C Page 5 of 24 RELIEF REQUEST NO. CVRR-5, REVISION 1 Valve (sl 49-1017 49-2017 55-1025 55-2025 49-1013 49-2018 55-1024 55-2026 49-1F068- 49-2F068 55-IF080 55-2F080 49-lF081 49-2F081 55-lF094 55-2F094 Category: C , Testir, Requirement (s): Exercise in the forward and reverse direction. Basis for Relief: These check valves, that function as vacuum relief valves, are installed in series-parallel and were not provided with air operators to' facilitate testing texercising). The piping c on fi gura ti ons in the High Pressure Coolant injection and Reactor Core Isolation Cooling systema do ,not allow for individual testing of these valves. Since a series-parallel arrangement was used, there are multiple combinations of flowpaths any one of which would provide vacuum relief. No single valve failure would prevent the system from providing vacuum relief. Because single valve failure will not prevent the systen from functioning as designed, and system configuration does'not allow for individual valve testing in the forward direction, testing as a unit will verify that the system can provide vacuum relief as designed. Additionally, the existing system configuration does not allow for individual valve testing in the. reverse direction. However, there are suf ficient test taps available to allow for - testing each parallel set of check valves to verify closure on reverse flow.
- Alternate Testing: Check valves will be tested- quarterly, in the forward - direction, as a unit (4 valves). All valves will be declared inoperable if the group fails to allow the required forward flow. -Each parallel set of check valves (2 sets, 2 valves per set) will be tested quarterly in the reverse direction.
Both valves in the set will be declared inoperable if testing-indicates that the valves do not close on reverse flow. T a
-y
f LGS 1-& 2. IST Progrca Sp;c. HL-008, R3v. 2 AppIndix C Page 6 of 24 RELIEF REQUEST NC. CVRR-6, REVISION 1 Valvets) - 51-1052A,B Sl-2032A B 51-1115B,D bl-2115B.D SI-1F090A,B,C.D 51-2F090A,B,C,D 52-1045B 52-2045B 52-1F030A,B- 52-2F030A.B 55-1048 55-2048 55-lF078 55-2F078 Category: C Testing Requirement (s): Exercise in the reverse direction. Basis for Relief: The above valves function as the safeguard piping stay fill or condensate transfer stay fill check valves. Because of system configuration, these valves cannot be verified closed using visual verification, system parameters or by leak testing methods. Valve disassembly will be required to verify reverse direction closure. Disassembly of the valves, if attempted at cold shutdown, could result in a' delayed plant s tart-t p. Alternate Testingt Condensate transfer stay fill check valves vill be v eri fi ed to operate in the reverse direction during refueling or associated system mini outaves b valve dissssenbly. Safeguard piping stay fill check valves will be verified to operate in the reverse direction during refueling or Safeguard Piping Fill System mini outages-by valve disassemblyt partial stroke will be performed after valve reassembly. In accordance with the NRC guidance provided in Generic Letter 89-04 At tachment 1, item 2, a sample disassembly and inspection
" plan is being adopted f or the check valves identified ~ above.
This p? in groups valves of identical construction which are used in similar applications. Input criteria to the grou, selections included valve design features and materials, service conditions, maintenance / failure history and piping i arrangement considerations. This information is dccumented L in Limerick's Check Valve Design Application Review (1988) which was prepared in response to INPO SOER 86.03. The valve groupings and inspection frequencies are described on the following page. 1
LGS 1 & 2, IST Progrca Sp3c. ML-008,'Roy. 2 App;ndix C Page 7 of 24 RELIEF _ REQUEST NO. GVRR-6 (continued) UNIT 1 NUMBER VALVES OF VALVES DISASSEMBLY & INSPECTION FREqQ(_Nfl QR.M 51-1032A,B 6 2 valves each refueling outege 1 . 51-1F090A,B,C.D 51-11158,D 3 1 valve each refueling outage 2
$2-1045B 52-1F030A,B 3 1 valve each refueling outage 3
55-1F078
.i 55-t048 1 1 valve each refueling outage UNIT 2 NUMBER VALVES EE VALVES pllAEEMBLY & INSPECTION FREQUENCY QR M 51-2032A,B 6 2 sal'es each refueling outage 1
51-2F090A,B,C,D 51-2115B,D 3 1 valve each refueling outage 2 52-2045B 52-2F030A,B 3 1 valve each refualing outage 3 55-2F078 4 55-2048 1 1 valve each refueling outage
i LGS 1 & 2, IST Progrtm Spic. ML-008, R3v. 2 App:ndix C Ptg2 8 of 24
' RELIEF REQUEST N0, 20 "9-1, REVISION 1 Systems Emergency Diesel Generators 20-92-1302 A,B.C,D 20-92-2302 A,B.C.D Valve (sir .
20-92-1303 A,B,C.D 20-92-2303 A,B,C.D 20-92-1308 A,f,C.D 20-92-2308 A,B.C,0 20-92-1309 A.B,Ceb 20-92-2309 A,B,C,D Categoryt a Function: Emergency Diesel Generator starting air valves Testing Requirement (sit Quarterly stroke time measurement. l Easis for Relief Thece valven are non ASME but are in air starting lines that are designed to ASME Ill Class-3 requirements. The valves were not provided with any position indication, theref ore str oke timing by local or remote position indication is not possible. Significant degradation or ' failure of these valves to operate would, however, be indicated by an increased starting time on the Emergency Diesel Generator or its failure to start. Because it is not possible to measure individual valve stroke times, Emergency Diesel Generator starting times will be measured in its stead. Alternate Testingt In lieu of the individual valve stroke time testing required by IWV-3413, failure of the Emergency Diesel Generator to start within 10 seconds will be evaluated to determine if the cause can be attributed to the associated starting air valves, (Note: Start is defined as the diesel accelerating to 200 rpm
?
in response to a start signal). Alternate isolation o.' the air headers will verify individual performance these valves. l t l-I . l
LCS 1 & 2 !$f Program Spec. HL-006, Rev. 2 Appendix C Page e of 24 RELIEF REQUEST NO. 41-kRR-1, REVISION 0 systems Nuclear coiler 41-1F010A, B Valvelsit 41-2F010A, P k Category: A. C Function 8 f eedwater system inside primary containment isolation valve Testing Reautrementislt tuercise in the reverse direction. tasis for Reliott Verificatiori of reverse flow closure Sinceof these these elven valvesare is
.iccomplished by leak testing.
containment isolation valves, they at o leak tested during Appendiw J, Type C testing at r efueling. In order to perform leak testing manual valves located inside primary containment During must be opened and ternpot arv tent eeivipment installed. power operation and normally at cold shutdown, the primary Sontainment atmosphere is inerted with nitrogen, limiting access to eme4pencies only. Because leak testing at power is not possible, and is impractical at cold shutdown due to the probability of delayitse plant star t-ut , these valves will tie leak tested at refueling, Alt.tenate T esting Reverse flow closure will be verified during Appendix J. Type C testitic during ref ueling. l
LOS 1 & 2, IST Progrca l spec. HL-008. Rev. 2 l App 3ndix C Pag 3 10 of 24 i l RELIEF REQUEST No. 41-VRR-2, REVISION 1 System Nuclear Boiler , PSV-41+1F015f , H. F. , H, 5 Valvets): F5V-41-2F0130, H, K , f*. S Category: B, C Depressucitation of the RC5 to allow for low pi :asure coolant Functions injection, Testing Requirmnentisli Exercise quarterly and strok e time. l Ensis for Relieft if any of these valves fall to reclose after testing, the plant would be placed an a LOCA condition requiring planta In addition, shutdown in accordance with T.S. 3.4.2.b. recent study (BWR Owner's Group Evaluation of HURio-0737, item II.K.3.16, Red >ction of Challenges and f ailures of Relief Valves) recommends thatBased the number of ADS openings be reduced on this study and the potential as much as possible. I for causing a LOCA condition, exercise testing of the ADS valves will be perf ormed during restart af ter refueling. Also, a direct method to stroke time the ADS valves is not available since the control room indication only indicates if the solenoid valve is energized, and not the actual valve disc ' position. An alter nate indirect method to stroke time the ADS valves is available which includes measuring the time f rom the j initiation sig' sal f or the valve, and the acoustic monitoring detection on the tail pipe. Cxercise during restarl after refueling. Stroke time test Alternate Testings during restart af ter refueling by timing the intervel between energizing the pilot valve end acoustics monitoring detection on the tail pipe, f i-i L 8
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LOS 1 & 2, IST Prsgeca sp:c. ML-008, Rov. 2 Appsndix C Pa03 11 Of 24
- RELIEF REQUEST Ho. 41-VRR-3, REVISION 0 ,
Systems Nuclear Buller i Valve (sit 41-1F036E. H. K. N, $ ' 41+2r036E. H, K. M. $ Category: C Functions Primary Containment Instrument Oas suppiv check valve to the ADS valve accumulator, Testing Requirement (sli Exercise in the forward and reverse direction. Basis for Relieft Verificatira of reverse exercising reautres isolating the associated instrument gas header and venting the upstream side ; through a test- connection located inside primary containment. To verify forward exercising reavires lowering the pressure in the associated ADS accumulator with the gas suppiy isolated. then opening the gas supply and observints that ADS accumulator pressure increases. $1nce installed pressure indication is not provided for the ADS accumulators a 16mporary test gauge must be insta? led on a pressure tap located inside the primary containment. During power operation and cold shuidown. the containment atmosphere is normally inerted with nitrogen in addition, high limiting access to emergencies only, . radiation levels during power operation prohibst containment entry. Altemate Testing: Forward and reverse exercising will be vartfied during all , refueling outages and during cold shutdowns when the primary containment is de-inerted. .
LGS 1 & 2 IST Progrca l' Spec. ML*008 Rev. 2 AprLndix C Pags 12 of 24 RELIEF REQUEST NO. 41-VRR-4, REY!S!ON 0 System Nuclear boiler i Valvetsla tel-Ir024A, B, C, D 41-2r0F4A. B, C. D i category: C l Functiont inboard MSIV accumulator inlet check valve. Testing Requirement (sit Exercise in the reverse direction. Basis for Relieft Verification of reverse exercising requires isolating the i associated instrument nitrogen hender, verting the upstream side of the check valve and observing accumulator pressure. These valves are located inside the primary containment and ' testing requires enterino the containment for the installation I of a temporary pressure gauge and to vent the upstrean piping. During power operation and cold shutdown, the containment atmosphere is nor nally inerted with nitrogen limiting access , to emergencies only. In addition, high radiation levels during power operation prohibit containment entry, i Alternate Testing Reverse exercising will be verified during all refueling outages and dur.ing cold shutdowns when the primary containment in de-inerted. 1 i t
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LCS 1 & 2, !$T Progrcm Spac. NL-008, Rev. 2 , Appendix C Page 13 of 24 REi1EF REQUr$T NO. 41-VRR*5, REV1'10N 0 system: Hut. lear Boiler Valvoisit 41-If 029 A. 8, C, D CattDory C Functient Outboard MSIV accumulator inlet check valve. Testing P*1uirementisit Exercise in the reverse direction. Itatis for Relief: System configuration does not provide the necessary test connectionw to perform the required testing, lhe?efore, testing must be performed by disassembling mechanical ; connections and installing the necessary test eavipment. I During normal operation this method would require e reduction in power and closing (Se associated M51V. 1*i addition, these valves are located in a high temperature and high radiation area. At cold shutdown the method of testing could result in a delay in plant restart. Alternate Testingt 'Exeecise in the reverse direction at refueling. 4 -.v4 - - - ~ . . ., y - . _ , . - ., ,, .,,,_,.~.n.--...-+.---.._-.n.- - - - . - . , . -- ,
LGS 1 & 2, IST Progrcm Spac, HL-008. Rev. 2 App 3ndix C Page 14 of 24 RELIEF REQUEST NO. 43-YRR-1, REYl$10N 0 Systems Reactor Recirculation Pump System 43-1004A,B Valvets): 43-200GA.B Category: A, C Recirculation pump seal purge primary containee.it isolation Function valve. Testing Requirements: Exercise in ihn reverse direction. Basis for Reliefs These check valves are located inside primary containment in the reactor recirculation pump seal purge supply lines and are open during power operation. Exercising t'ie valves to the closed position during operation would require interruption of seal purge water flow to the reactor recirculation pumps. Due to system configuration the nest practical method to verify In reverse flow closure of these valves is by leak testing. order to leak test the valves, manual valves located inside the primary containment must be opened. During power opera tion and cold shutdown, the containment atmosphere is normally inerted with nitroren, limiting access to emergencies only. Leak testing at power is not possible und is impractical at cold shutdown, when containment is de-inerted, by possibly delaying plant start-up. These valves will be tested in the reverse direction at refuelins during Appendix J Type C testins. Alternate Testings Reverse exercising will be verified durin; Appendix J. Type C testing during refueling. I I 1 i
. . . , _ .. m . - _ _ _ . - . _ _ _ _ _ _ _ _ . _ _ _ . _ _ _ _ . _ _ . _ _ _ _ _ _ _ _ - - . - _ _ LCS 1 & 2, IST Progetm spec. HL-006. Rev. 2 ( I Arpendix C rape 25 of-24 I RELIEF REQUEST NO, 46-VRR-le REVISION t> Systemt Control Rod ()tivo - Part A Valvelsit HV-46 125 HV-46-225 HV-46-126 HV-46-22( Category 8 Functions Reactor r eci rculati on Pumps seal purge water line bypass leakage vert valves. Testing Requiaement(sit Exercise and stroke time. Basis for Relieft The above velves serve as the re circulation pumps seal purge water line bypass leakene vent valves. Exercising these valves , during opet a tion could result in air reaching the seal water casily causing daenmoe to the seal . Piping configuration does not allt:w a means of venting this air except by entering the containment. During operation and cold shutdown the containment is a high radiation area and is inerted with nitrogen prohibiting entry. Alternate Testingt Exercise and stroke time during ref ueling ce at cold shutdowns when containment in de-iner ted. t I r
~
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LGS 1 & 2. IST Program Sp;c. HL-008e Rev. 2 App;ndix C Pagi 16 of 24 RELIEF REQUEST NO. 47-VRR-1, REVIS10N 0 Systemt Control Rod Drive Hydraulic - Part 8 Valvels!* XV-47-1-26 (all 185 HCUs) XV-47-2-26 (all 185 HCUs) XV-47-1-27 (all 185 HCUs) XV-47-2-27 (all 185 HCUs) 47-1-14 (all 78$ HCUs) 47-2-14 (all 185 HCOs) Category B (XV-47-1(2)-26. 211 C (47-1(2)-141 Functioni Control rod drive scram valves. Testing Requirementst Exercise, stroke time, and fail safe test (XV-47-1(2)-26,27) Exercise in the forward direction f47-1(2)-14) Easis for Reliefs These valves are located on the hydraulic control units f HCUs) for the control rod drives. The air operated valves, XV 1(2)-26827, open on a signal fron the reactor protection system to permit rapid insertion of the control rods (scram). Check valve, 47-1(2)-14 is flow actuated as a result cf XV-47-1(21-27 opening. System configuration does not permit individual testing of these valves or stroke timing of the Ca*.esory B
. valves. However, the proper function of these valves as a unit is verified by performing a scram test on their associated control rod and verifying rod insertion timws. Technical Specifications require periodic scram testing of each control rod at an interval adequate to determine that the valves and control rod are operable and not so frequent as to cause excessive wear on the system components.
Alternate Testing The control end scram insertion time testing required by Technical Specification 4.1.3,2 will be performed in lieu of n-the section XI testing. With reactor coolant pressure 2 950 psig and the rod drive pumpn isolated from the accumulators, maximum scram insertion times shall be demonstratedi
- a. For all control rods prior to THERMAL POWER exceeding 40% of RATED ' THERHAL POWER f ollowing CORE ALTERATIONS or after a reactor shutdown that is greater than 120 days,
- b. For specifically affected individual control rods following maintenance on or modification to the control rod or control rod drive system which could affect the scram insertion tine of those specific control rods, and
- c. For at least 10% of the control rods, on a rotating basis, at least once per 120 days of POWER OPERATION.
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7 i LCS 1 & 2. 18T Progptm a Spsc. ML*008. Rey, 2 Appsndix C Page 17 of 24 RELIEF REQUEST NO. 48-VRR-le REVISION 0 Systeut Standby liquid Control (SLC) Valvets1: HV-68-l/C06A,B HV-48-2F006A,B 48-1F007 48-2f007 48-1027 48-2027 Categopyt A, C (HV-48-1(2)F006A,8 and 48-1(21F0071 C L48-1(2>0271 i Funct1ont SLC inboard and outboard injection checks primary containment isolation (HV-48-1(2)F006A,B and 48-1(2)F0071. SLL inbeard injection check (48-1(2)D271. Testing Requirerients Exorcise in the forward direction stop check valves (HV 1(2)F006A,81 and check valves (48-1(2J0273. > Exercise in the forward and reverba direction check valves ( 4 8 -1 ( 2 ) F 0 071. Basis for Relief t Verifying f orward flow operability requires firing a anuib valve and injecting water into the Remetor Coolant System using the standby liquid control pumps. The frequent introduction of relatively colder water into the Reactor Coolant System, associated with this type of testing, would result in an excessive number of thermal cycles to SLC piping and components. Additionally, the introduction of colder water would increase reactivity due to the colder moderator temperature 4 Since the firing of a squib valve requires valve disassembly 4 to replace internals, firing should be minimized. Therefore,
+
foreerd flow testing of the check valves will be performed during SLC injection testing as required by Technical . Specifications 4.1.5.d.1. Due to system configuration the most practical method to verify reverse flow closure on 48-1(2)F007 is by leak testing. In order to leak test, temporary test equipment must be installed inside primary containment. During power operation and normally at cold shutdown, the primary containment atmosphere is inerted with nitrogen, limi ting access to emergencies only. Because le3k testing at power is not possible, and is impractical at cold shutdown. by possibly delaying plant start-up, this valve will be tested in the reverse direction at refueling during Appendix J, Type C testing. Alternate Testinut Forward flow operability will be verified at refueling during SLC injection testing. Reverse flow closure for 48-1(2)F007 will . be verified at refueling during Appendi x J. Type C - testing.
. _ _ _ _ _ . _ _ . . ._.-..>_ m._ _ ... ._..._______.-.._.m. . . _ _ . _ . . _ . - .
LOS 1 & 2, IST Progrce bpse. ML-005, Rev, 2 App 9ndix C Page 18 of 24 i RLLIEF~ REQUEST NO, 49-VRit-1, REVIS!0h 0 l 1 Systems Reactor Core Isolation Cooling-(RCIC) Valvelsit 69-1F030 69-2r030 Categoryt .c Functient RCIC pump suction from suppression pool check. Testing Requiremeritst Exercise in the forward direction. < Basis for Relieft To achieve the aequired flow for dull exercising these check valves the NPCI retu n line to the suppression pool, via HV- , 55-1(2)F071, shall be utilized in conjunction with the RCIC suppression pool return line. In order to establish this flow path valvo anterlocks mu::,1 be lif ted. This is not practical dur ino power operation as the automatic isolation capabilities of HV-49-1(2)F022, whien is required to close upon RCIC initiation and low reactor water level, would be defeated. In addition, HV-49-1(21F029 and F031, which are containment isolation volves, would not be able to pe ferm their automatie
-isolation function. Testing during cold shutdown could delay plant start-up.
Alternate Testing Check valves will be partially stroked during quarterly pump test and full exercised during refueling. , ? 4--
l LCS 1 & 2, IST Progerm Spec. HL-008 Rev. 2 App ndix C Page 19 of 24 RELIEF REQUEST No. 51-VRR*1, REVISION 1 System Res.idual Heat Removal (RHR) Valvets): HV-51-1F073 j HV-51-2F073 Category: B Function: RHRSW supply for emergency core ficod isolation valve, e Testing Requirements: Exercise and stroke time. Basis for Relief Valves HV-51-1(2)F073, HV-51-1(2)F075 and HV-51-1(2)F078 l provide isolation between the radioactive RHR system and non-radioactive RHR5W system. Periodic exercising of the 1(2)F078 and 1(2)FD75 contaminates the volume between the 1(2)F075 and 1(2)F073 with C0", ZH" and other long lived isotopes. Numerous attempts to flush the volume have been unsuccessful resulting in a substantial volume of contaminated water to rad waste and contamination releases to the spray pond through the RHR5W system when 1(2)F073 is opened. To remain consistent l with 1.E. Bulletin No. 80-10 and minimize environmental and radweste impact, testing of HV-51-1(2)F073 will be performed l l at~ refuel. A modification for an improved flush connection is being pursueds however, it is anticipated this potential for cross contamination will still exist. Alternate Testingt Exercise and stroke time at refueling. l l L 4
LGS 1 & 2, IST Progrcm Sp c. ML-008, R3v. 2 Appendix C Page 20 of 24
% RELIEF REQUEST NO. 52-VRR-1 REVISION 1 Systems Core Spray Valvels): HV-52-108 HV-52-208 Category: AC -
l Function: Core spray injection check valves containment isolation and pressure isolation function. Testing Requirements: Exercise in the forward and reverse direction. Basis for Relieft The above valves are equipped with air actuators that are i designed to provide spring assistance for valve closure only. 1 Therefore, flow exercising in the forward direction can only be accomplished by injection into the vessel. Injection into l the vessel using the core spray pump is not possible because the core spray pump is not capable of overcoming reactor pressure during normal operation. The HPCI system injects through this valve, hnwever, this would require the injection of relatively cold water from the condensate storage tank into the reactor vessel via the HPCI pump. The introduction of relatively colder water into the Reactor Coolant Systen would result in an excessive number of thermal cycles to system piping and components. Additionally, the introduction of colder water would increase rea c tivi ty due to the colder moderator temperature. Therefore, as an alternate means of forward exercising, the valve will be manually full opened in accordance with INV-3522(b). Manually forward exercising this valve at - cold shutdown requires enut.!1 zing nressure across the valve. Pressure equalization across this valve would be accomplished by injection of condensate into the vessel through a stagnated leg of the cor e spray systen. Use of this injestion path would introduce crud iMo the reactor vessel and could impact unit restart due to Technical Specification 3/4.4.4 chemistry requirements, A means of crud removal is nat available because no vent or drain path exists on this leg of piping. Crud removal from this leg of piping can only be performed during refuel by flushing the core spray header into the reactor using station procedures. The reactor water cleanup system would have to be placed into operation to reduce crud levels so the chemistry levels would be within acceptable ranges. Restart would be delayed by this cleanup process. Additionally, manually forward exercising requires partial disassembly of the actuator, which if attempted during :old shutdown, could result in a delayid plant start-up. Therefore, forward exercising will be accomplished at refueling and exercising in the reverse direction will be accomplished during Appendix J and Section XI leak rate testing. Alternate Testingt Manually exercising in the f orward direction will be performed at refueling. The force used to forward stroke these valves I will not exceed the criteria specified in IWV-3522(b). Reverse l flow closure will be verified at refueling by Appendix J and Section XI leak rate testing. 4
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$pic HL*008 R$v. 2 Appendix C Page 21 of 24 RELi'(F RE9UEST NO. 55 VRR-1, REVISION 1 System High Pressure Coolant Injection (HPCI)
Vrivels): 55-1F045 55-2F045 Category: C Function HPCI pump stetion from suppression pool check. Testing Requipements: Exercise in the forsard direction. Basis for Relieft Full stroke exercising of these valves in the forward directitn by normal system fluw paths would require injecting poor quality suppression poc1 water into either the reactor vessel or the condensate storage tank. Technical Specification 3.4.4 requires Reactor Coolant System conductivity and chloride levels to be within specified levels. Injection of poor quality water from the suppresrion psol into the condensate stormoe tank (rea tor coolant nakeup water) er Reactor Coolsnt System, would r; sult in increased chloride and conductivity levels exceeding Techniem1 Specification 1smits. These valves are exercised by returning flow to the suppression pool via the test return loop, however, due to the sm. iller line size.of the test return lorp, *he flow rates that would be obtained would result in only a partial opening of the valves.
.Because no means is available to verify a full stroke in the open direction for these valves, valve disassembly will be
- required. Disassembly of the valves, if attempted at cold shutdown, could result in a delayed plant start-up.
Alternate Testing Valves will be partial stroked in the forward dire tion quarterly. Full stroke exercise will be verified at refu .ing by valve disassemblys partial stroke will be perf ormed a Iter l valve reascembly, i
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LGS 1 & 2. IST Progrcm Spec. ML-006, Rev. 2 Appendix C Page 22 of 24 RELIEF REQUEST NO. 55-VRR-2. REVISION 1 System High Pressure Coolant Injection (HPCI) Valvels): 55-10.55 55-1059 55-2058 55-2059 , Category: C Function HPCI pump discharge to Feedwater HPCI pump discharge to Core Spray Testing Requirements: Exercise in the forward direction. Basis for Relief Veri fyi ng forward flow operability during operation, would require the injection of relatively cold water from the condensate storage tank into the reactor vessel via the HPCI pump. The introduction of relatively colder water into the Reactor Coolant System would result in an excessive number of thermal cycles to system piping and components. Additionally, the introduction of colder water would increase reactivity due to the colder moderator temperature. Full exercise therefor e, can only be accomplished by valve disassembly. Valve disassembly if attempted at cold shutdowr could result in a delayed plant start-up. Alternate Testing: ry'? stroke exercising in the forward direction will be accomplished at refueling by valve disassemblys partial stroke will be performed after valve reassembly. N l
LCS 1 & 2, IST Progrca Sp:c. ML-008, Rev. 2 App;ndix C Page 23 of 24 RELIEF REQUEST NO. 59-VRR-1, REVISION 0 System Primary Containment Instrument Oas Valvets18 59-1001 59-2001 59-1005A,B 59-2005A,8 59-1023E,H,K,M,5 59-2023E,H,K M,5 59-1024E,H K,M,5 $9-2024E.H,K,M,5 59-1056 59-2056 59-1112 59-2112 59-1128 59-2128
$9-1131E,H,K,M,S 59-2131E.H K,M,$
Category A, C (59-1(2)D01J 59-1(2)005A,8; 59-1(2)056; 59-1(21112;
$9-1(2)1281 C (59-1(2)D23E,H,K.M,51 59-1(2)D24E,H,K,M.S; 59-1(2)131E,H,K,M,5)
Functions ADS Accumulator Nitrogen Supply check valves Testing Requirementet a) Exercise in the forward direction (59-1(2)023E.H,K,M,5J 59-1(21112, 59-1(2)128), b) Exercise in the reverse direction all valves. Basis for Relieft These valves are all located inside the primary containment. Testir,g of these valves requires the use of test connections which are also located inside the pranary containment. During pnwer operation and cold shutdown, the containment atmosphere is normally inerted with nitrogen limiting access to emergencies only. In addition, high radiation levels during power operations prohibit containment entry. Alternate Testingt Ferward (when applicable) and reverse exercising will be verified during all refueling outages and during cold shutdowns when the primary containment is de-inerted, i
LOS 1 & 2, IPT Progrtm Spsc. ML-008, Rev. 2 Appindix C Page 24 of 24
- RELIEF REQUEST NO. 90-VRR-1, REVISION 0 Systems Control Structure Chilled Water Valvets): SV-90-045A B SV-90-047A,8 Category: B -
Function - Standby Gas Treatment access and roon coolers supply isolation valves. Testing Requirementst Stroke time Basis for Relief These valves are solenoid valves which are not provided with local or remote position indication. The only means to verify ; their position is by observing the performance of their associated cooler. Neasuring of the valve stroke time using this indirect measurement of valve position does not prrvide consistent enough results to detect valve degradation. Alternate Testing The valves will be exercised and fail safe tested quarterly to ensure operability. Stroke time will not be measured. 1
- 3 4
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? POPP 148tE I iST Taste - PL,tPS PAGE NO: 2 1 l LIMERICK GENERAftwG STAT!04'- Uu!T 1 & CMMON DATE: 09/06/71 1 i Pu== TEST REtttF PUMP.WAME OR DESCRIPitos ID. #0. FSID 'COORD. PA8AMETERS REQUEST REMARKS DIESEL FUEL O!L TRAwSTER 1CP514 M-20 (Sni 5) C-4 Pi', D/P, C, V GPR8-3
- CALCULATED INLET PPESSURE (TEXT 5.1.1). PUMP stARimG TEMPERATURE EXEMPT PER IWP-4310. ROTAffac l SPEED ErEMPT PER IWP-4400.
IMACCES$ttLE FOR LU68tCATIO4 CFECE. DtESEL FUEL CIL TRANSFER 1DPS14 a-20 (SMT 6) C-4 Pl*, D/P O, V GPRR-3 *tALCULATED INLET PtESS'JRE (TErf 5.1.1). PUMP BEmatuG TEMPERATUPE EREMPT PER IWP-431G. RoiATIaG SPEED ENEMPT PER IWP-4400. IEACCES$1BLE FOR tusatCAftDN CMECK. j EMERGEwCV SERV!CE WATER CSW) 0AP545 m-11 (Suf 1) n-8 Pi**, efp, o, GPee-2 **tELET PRESSURE VERIFIED fu V, L/P Attorom=CE WITN T.S. 4.7.1.3.A.
- PUMP ST AathG TEMPE*ATURE ETE" Mt IWP-4}10. ROTAT!kG SPEED trEMFT PE9 I IWP 4400, EMERGENCY SERV!CE bATER (ESW) C8P543 M-11 (SWI 1) N-4 Pi'*, D/S, C, CPRR-2 **lktET PRES %1E VERIFIED 15
, v. L/P ACCOFDABCE WITN T.S. 4.7.1.3.A. 4 PUMP SEARthG TEMPERATUWE EFEMPT PER IWP-4310. ROTAf tug SPEFD ErtwPT PER 4 IWP-4400. = EuteGE4CY SERVICE WATER (ESW) OCP548 a-11 (SRT 1) M-6 Pl**, D/P O, GP3#-Z **tMLET P9 ESSURE VERIFIED fu Y,L/P ACCOR0ANCE WITM T.S. 4.7,7.3.A. [ Pt. PEP BfARtu; TEMPtsATUDE ErfasPT PEP l 4 tWp-4310. ROTA!!NG SPEED ENEMPT PER IWP-4400. ? ! EPERGENCY SERV 1CE WATER (ESW) ODP545 M-10 (Suf 1) p-2 PiS*, C/P, Q, GPRS-2 **!w(ET pegggygg yEggggtg gg W. L/P ACCC#D8mCE Wtta T.S. 4.7.1.3.A. PUMP EEARING fiMPEBATURE EattMPT PER IWP-4310. ROTAT1u0 SPEED ENEMPT PER IWP-4400. MIGN PLESSuaE COOLANT INjfCTION (NPCI) 10P2D4 M-56 (Suf 1) F-5 m, PI, D/P, Q, GPse-1, GPtR-2 V, L/P 4
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. IST TABLE - PUMPS s
LGS UNIT 2 d
i
' ' SPEC. ML udd Revision 2'
< Ptpr TABLE
- PAGE no: 5 r
!$f TABLE.- PUMPS LIMERICK CENEPAf tug STATION - tMIT 2 DATE: 09/06/91 t.
PUMP TEST RElf t F t P1tD CDORD. : PARAPETERS REQUEST RtmASES l PLMP NAME OR DESCRIPfl0W 10. rJ. t a 1' ! a . M-52 (Sai 4) C-7 Pl. D/P, o, V, PUMP SEAR!nG TEMPERATURE EXEMrf PER CORE SPRAT (CS) 2 AP206 _ l IWD-4310. ROTATING SPEED ENE"PT L/P . q. PER IWP-4400. = l I PUMP EEARING ;WPERATUtt EXEMPT PER
- 29P206 M 52 (SMT 4) C-3 Pl, D/P, Q, V, CORE SPRAT (CS) IWP-4370. R. C TIEG SPEED ENEMPT LA
' PER IWP-4400. 1 }_ M-52 ($47 4) C- 5 Pi, O/P, C, V, PtMP SEARING TEMPERATURE ErEMPT PER t CORE SPRAT (CS) 2CP206 L/P IWP-4310. POTAftmG SPEED EKEuPT l PER IWP-4400. t Pi,D/P, Q, V, PUMP BEAsthC TEMPERATURE ENEMPT PER [ 2DP206 M-52 (Swf 4) C-2 CORE SPRAT (CS) tWP-43fD. ROTATING SPEED ENEMPT f L/P
- I Pt8 IWP-440'2.
L M 20 ($MT 7) C-4 Pi*, D/P, Q, V GPRR-3
- CALCULATED INLET PDESSURE (TEri 2AP514 f' GlCSEL (UEL Ort TRANSFER 5.1.1). PUMP BEARING TEMPEsATurE ['
ENEMPT PER BWP-4310. ROTAftuG j l SPEED ENEMPT PER IWP-4400. , tuACCESSIBLE FOR LUBRICATICW C#ECK. [ ZsP514 M-20 (Swi 8) C-4 P l*, D/P, C, V CPen-3 *CAttutATED lutET PPESSUPE (TEXT DtESEL FUEL Ott TRANSf tR 5.1.1). PUMP stAatuc Yt=PEaATutt l j ErEMPT PER IWP-4310. pofaftw 3 j SPEED EWE *PT PER IWP-4400. [ thACCESSIBLE FOR LUB8tCAf tcu CHEtr [ 1 2CP514 M-20 (SMT 9) C-4 Pi*,D/P, o, V cPaR-3 *tALCUtarED tNLET PtESSURE (TENT I DIESEL FUEL Ott TRANSFER 5.1.T). PUMP SEARtus TEMPERATURE [ ENEMPT PER IWP-4310. toTAfts; f SPEED EFEwPT PER TWP-4400. { ImACCES$tatt too tuettCAT!on CPetr. l 2DP514 M-20 (SnT10) C-4 Pl*, D/P O, V GPC8-3
- CALCULATED tutET PtESSUPE (TENT f OtEstl FUEt Ott TRANSf f R 5.1.1). PU"P SEastwC TEMPEFATurE p f.
[y(MPT PER IWP-4510. DOTATimG [ 58'T ED E Wiw t pef 9WP-44GO. r tuACCE55f8tt SOA JJ1t tCAf t04 Cp(Cr. ; 1 ( k i I
) i
,s- -
L. .' . sPtC. lt.d REVISION 2 PUMP TABLE Isf TARLE - PLMPS PACE WO: 6 - LIMEA 'I GENERATING $fATIOM - LMIT 2 CATE: 09/06/91 PUMP ' TEST RitEF 10 NO. P&tD C00RD. PARAPETERS REQUEST REMARr5
- PUMP EAME OR DESCRIPTION 20P204 M-56 (Sui 2) 7-5 W, Pt 0/P, c, crRR-1, cPRR-2 MICM PRESSURE COOLALT INJECit0N (NPCI) 4 V, L/P REACTOR CORE 150LAT104 COOLING (RCIC) 20P203 M-50 (SMT 2) 7-6 4, Pi, 0/P, o, GPRR-1, GPRR-2 l V, L/P ;
a RESIDUAL HEAT REMOVAL (RNR) 2AP202 M-51 (SMT 5) s-4 Pi, p/P, c v, cPRR-2 PUMP BEARINC TEMPERATURE EXEMPT PER L/P IWP-4310. ROTATING SPEED EstMPT , j PER IWP-4400. { J 2aP202 M-51 (snf 7) 8-5 Pl, D/P, o, y, CPRR-2 PUMP SEAthWC TEMPERATust ErtMpf PER L RESIDUAL NEAT REMOVAL (RNR) L/P IWP-4310. ROTATING SPEED EXEMPT y PER !WP-&&00. 2CP202 M-51 ($NT $). 5-3 PI, D/P, o, V, CPRR 2 PUNP St ARING TEMPERATURE ENEMPI PER RESIDUAL MEAT RE*0 VAL (RMR) L/P IWP-4310. PotATING SPEED ENEMPT PER IWP-4400 l 2DP202 M-51 (sNT 7) s-6 PI, D/P, o, v. cpRR-2 RogP BEARINd TE *ERATURE ExtMPT PER REs! DUAL ptAT R2Movat (tMR) L/P IWP-4310. ROTaftmG $PEtp EXEMPT ; PER IWP-4&OO. 2AP256 M-52 ($4T 4) C-2 Pf, D/P. o, y, cPtai, CPRR-3 POTATING SPEED ENEMPT PER WP-4&co. SAFEGUARD PIPING FILL L/P ; SAFEGUARD PIPING FILL 28P256 M-52 (SRT &) F-2 PI, D/P O, V. CPRR1, GPRW-3 POTATING SPEED ENEMPT PER IWP-4400. L/P 2AP208 M-45 (SNT 2) E-5 Pi, D/P, o, V, GPRR1, GPRR-3 RO'AftuG SPEED ENEMPT PER IWP-4400, t STA408Y LIQu!D CONTROL (SLC) L/P j 28P208 M-45 ($NT 2) C-5 Pi, D/P o, V, CPRR1, CPRR-3 ROTATING SPEED FFEMPT Pt2 TWP-t&DO. ; STAND 9Y LloutD CONTROL (SLC) ; L/P 2CP20S M-&S (SMT 21 8-5 Pl, D/P, 0, V, CPRR1, CPRii-3 ROTATING SPEED EytMPT Pit IWP-4400. 5?AND8Y L100!D CONTROL (SLC) L/P i k b i
%.- ~, - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ . _ _ _
1 b IST TABLE - VALVES J LGS UNIT I AND COhlhlON N I
;>: ; ri
? I ffr f 4 l !: : ! ;, ! 7
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, 1 6
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L 4 a : ? - J M 0 T 00 1 #
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.& T ( E E E E 1
T J C I .E M P P a u 4 4 - I P Y A T
. S 4 L E C A t t t t V I F A A A A y t T N a A O W T f S T I
M S C C C C s
- G S E t O L t P M B f p C A A T R a O O O O .
E T N . E S E T P O O O O I C C Y M M M M A T E , C l a E E 'E V L P T T T T M A Y G G G G -. I V T L
..E
..Z 0 3 0 0 I 0 0 0 0 S
6 6 8 4
/
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) ) ) )
1 1 1 1 T f T t M m P a S S S S ( ( ( ( D 1 1 1 1 l 0 0- 0- 0 i - - P M M M M S E S M D A 2
' 2 2 2 A O L E C C s T S
N I A M 1 0 S 7 1 0 C 3 1 5
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E E E 1 1 1 1 T V B 0 0 0- 0-S L M - - Y A U V V v v S V N M N H H
I sitC. Mt-cos aEvtstou 2 VALVE TABLE' IST TARLE - valves F#GE NO: 2 LT*ERICE CENERAf f 40 STATION tJuli 1 & CCMMON CATE: 07/fA/91 SYSTEM:.11 EMERCEWCY SERV 1CE WATER PCSTT104 UALVE CODE VALVE ACT/ VALDE ACT. APP. J TEST FREQUEECT VER/vCS C1)MBER CLASS F&tD C00R0 CAT. PAS SIZE TYPE TYPE NRM sAF FAL TYPE C (DIRECTIO4) NUMBER RE= ARES 11-0001A 3 14-11 (SNT 1) G-7 C a 20.00 TC SA OC OC - N ET-C(FER) i 11-00018 3 M-11 (sMT 1) C-4 C A 20.00 TC SA et OC - w ET-o(FSR) 4 11-0001C 3 e-11 (sni 1) G-6 C 4 20.00 TC 54 OC OC - 4 !T-c(FSR) 11-Lv)01D 3 M 11 (SNT 1) G-3 C A 20.00 TC SA ' OC OC - u ET-C(FER) 4 11-0032A 3 M-11 (sNT 2) T-2 C A 6.00 Cr SA C 0 - m ET-o(F) 11-003/9 3 M-11 (SMT 2) D-2 C A 6.00 CK SA C 0 - M ET-Q(F) 11-00334 3 M-11 (SMT 23 F-2 C A 6.00 Cr 54 0 C - # ET-ota) 11-0033s 3 M-11 (sni 2) D-2 C A 6.00 CE EA 0 C -
= ET-c(a)
! 11-0039 3 M-11 (sti 5) 0-2 C A 2.00 CE SA C 0 - N ET-c(F) pass!vE oustus unti 2 l ComtTRUCTIOh. Unli 2 VALVE TE$iED WITW W1T 1 & COMMON. [ 11-0062 3 M-11 (snt 2) C-2 C A 3.00 TC SA (C C - N ET-OtR) !!DLAf ttM BARRIER BE TVEE N E ME R &E N *T i SERVICE WATFR AQ SERVICE WATER. 5 S.5 R DJEtitDN 410.32 SPECIFIES SEAT LEAOCT TO 8 11-0063 3 M-11 (suf 5) 0-3 C A 2.00 TC - OC C - 4 ET-0(R) 15:n sage gETw ! wit a SVCE WTR & tvCE .dik. FSAR QUES 410.52 SPEtts tEs :to? LrG 10 i BE = 10 CPM. Uuti 2 VALVE TESTED V1Tp
g f
/
SPEC. ML405 REV151SW 2 WALVE TABLF IST ?ABLE - vaLVts' pact go: 3 LIMERICK CENERAf fkC STATIOM - 04tf 1 & COMON DATE: 07/06/?1 SYSTE4 'll EMEPGEWCT SERVICE WATER
-{
PO$ tit 04 ! VOLVE C00E VALVE ACT/ VALVE ACT. APP. J TEST FREQUENCY VRR/vCS NUMBER CLASS F&!D COORD CAT. FAS $1ZE TYPE TYFf MRM SAF TAL TYPE C (DIRECTION) NLMBER REpARKS 11-0064A 3 M *1 (SMT 1) E-T C A 20.00 CK SA N O - u ET-c(F) 11-00648 3' M 11 (SMT 1) E-7 C A 20.00 CK SA OC 0 - N ET-ctF) 11-0065A 3 M-11 (SPT 1) E-2 C A 20.00 CK SA OC 0 - E ET-C(F) 11-00658 3 M-11 (SNT 1) E-2 C A 20.00 CK SA OC 0 - N ET-G(F) 11-0069 3 M-11 (Sat 2) E7 C A . 3.00 TC SA C o- - u ET-o(F) 51-1007 3 M-11 (Snf 23 s-6 C A 8.00 TC SA OC 0 - N ET-Q(F)
- 11-1000 3 M-11 (SNT 3) 0-4 C A 8.00 TC SA OC O - 4 ET-Q(F) 11-tu11 3 M-11 (SMT 2) C-7 C A 8.00 TC SA OC C - N ET-C(R) IsntAfrow gart!ER LETWEEN EwtaCEbCY SERVICE WATES PED SERVICE WAff R, FSAs GdF!!!Ou 410.52 SPECIFIES SEAT LEAEAM TO 8 11-1012 3 M-11 ($ni 3) E-3 C A 8.00 TC SA Ot C - a ET-cta) ISOLATION gapstEs '
SETWEEN ems.84ENCT SERVICE - '69 aus SERY!CE = TEN. TSAS QUE07104 410.52 . SPECT'IES SEAT LER.A:E [ 70 8 Mv-11-0~14 3 M-11 (Sui 1) E-8 s P 20.00 BF Mo 0 0 At a Pt-T Mtf-11-011a 3 M-11 (Smf 1) E-8 9 P 20.00 SF MO O O At u PI-T l Hv-11-0154 1 N-11 (SRT 1) E-2 9 P 20.00 SF MO O O At a pt-T
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w .x x z 2 x 2 m z z , z z
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> >- > >= - s-z z z z gg p- > t-z z~ z 2 z 44 M M
- w. z w z M We M M M to w w w w
>= M M M w w w w w w w w e w
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O O O O O O e.- o.- e.= e.= c.= r
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_j. SPEC. ML-0G8 ' REVISION 2 VALVE TAELE PAGE kO: 8 - IST TABLE - VALVES DATE: 09/06/91 LIMERICK CENERATING STATION - 11 NIT 1 & COMMON 57 STEM: 11 EMERGENCY SERVICE WATER POSITION VALVE ACT. APP. J TEST TREQUENCY VRR/VCS VALVE CODE VALVE AC7/ NUMBEW PEMARKS CLASS P&l0 COORD CAT. PAS SIZE TTPE TYPE' NRM SAF FAL T1PE C (DIRECTION) Nt:MBER 4.00 A0 OC 0 0 N ET-0, FS-Q(0), HV-11-104H '3 M-11 (SMT 3) 8-7 8 A GT ST-0(0) 2.00 GL A0 ' GC O O N ET-0, FS-Q(0), HV-11-106A - 3 'H-11 (SMT 2) 05 8 A ST-C(0) 2.00 A0 00 0 0 N ET-0, FS-c(0), HV-11-1068 3 M-11 (SMT 2) t5 8 A GL ST-o(0) A-7 8 A 8.00 GT A0 0 C C N ET-0, FS-Q(C), NV-11-121 3 M-11 (SHT 2) fr-QtC), PI-T 8.00 AO O C C W ET-0, FS-Q(C), Hv 11-123 3 M-11 (SHT 2) A~ B A GT ST-0(C), PI-T 5 A 8.00 GT A0 0 C C N ET-0, FS-Q(C), HV-11-125 3 M-11 (SHT 3) C-3 8 Sf-0(C), PI-T 8.00 GT A0 0 C C N ET-0, fS-o(C), 3 H-11 (SMT 3) C-3 8 A HV-11-126 ST-Q(C), P3-7 A 6.00 St M0 O GC At u .ET-ott&R), ST-o(OEC), HV-11-131A 3 M-11 (SHT 1) D-6 C PI-T A 6.00 SK MO C OC At N ET-Q(FER), ST-Q(O&C), HV-11-1319 3 M-11 (SMT 1) D-5 C PI-T 6.00 SC MO O OC Al N ET-Q(F&R), ST-Q(0&C), HV-11-131C 3 M-11 (SHT 13 0-6 C A P!-T 6.00 St M0 C OC At u ET-0(F&R), ST-f.(OSC), HV-11-1310 3 M-11 (SMT 1) 0-5 C A PI-T s A 6.00 GT M0 O OC At N ET-0, ST-0(OSC), PI-T HV-11-132A 3 M-11 (SNT 1) D-7 A 6.00 GT M0 C OC Al N ET-0, LT-o(OEC), PI T Hv-11-132s 3 M-11 (SNT 13' D-5 B i 4 1 k
, t % >
=
~g" e-9 1 9
8 / 0 E 6 02L 0
- B /
L N A : 9
) M0 T O0 N
1S E ( CI V E E E V L G T P E A A A S C V P D S K R A M E R f S C R VE
/ B R M R U V N T T , , , , Y T T T
- - ) ) ) ) - - - -
I I C C C C I ! I t P P & & E & P P P P 0 ( o c O ( C ( , , , ,
) ) Q o- c- c- )
C
)
C
)
C
)
Y C C - C C E & T T T T & & S E N O 0( S S S S 0( 0 ( O ( C ( E ) ( U N 0 0 , , , , 0 o- 0 o-QO - - ) ) ) ) - - N E I T T R R R R T T T T O R T S S & 1 & S S S S S M F C ', F f F F M E , ( ( ( ( , , , , O T R 0 0 C T cT 0 T oT 0 o- 0 0-C S I - - - - - - - - - I D T T T I T I T T 1 T T T T
& T ( E E E P E P E i P E P E E E E 1
J C T I . E N P P N N N N N N N N N N U P Y A T S N L E O A l l t t t t l t I t V I F A A A A A A A A A A _ L T N A A O
, V T I F C C C C C C C C C n.
A - E S G h T I S O A S O C O O C O D O D O O L I P M B T R A A T R W o C C o C o C o C O E ' ENG E
.E T P C Y O
M O M 0 M o M 0 M O M O M O M O M O M A T K C I E R V E E L P T T C t t K T T T T M A Y G G S S S S G G G G I V T L 0 0 0 0 0 0 0 3 0 0 E 0 0 0 0 0 0 0 0 0 0 Z I 6 6 6 6 6 6 6 6 6 6
.S
/
T S C A A A A A A A A A A A A P E , V T L A A C V 8 8 C C C C 8 8 8 8 D R O 6 5 6 5 6 5 7 5 6 5 O - - - - - - - - - C 0 D D D 0 D 0 D 0 D
) ) ) ) ) ) ) ) ) )
1 1 1 1 1 1 1 1 1 1 R T T T T T T f T T T E H M M H M H H H M M T S S S S $ S S S S S A ( ( ( ( ( ( ( ( ( ( W D 1 1 1 1 1 1 1 1 1 1 E I 1 1 1 1 1 1 1 1 1 1 C S - - - - - - - - - I P M M M M M M M M M M V R E S S E S D A 3 3 3 3 3 3 3 3 3 3 Y O L C C C N E C e R E M E 1 C D 4 3 C 0 A 8 C 0 1 ~ 2 2 3 3 3 3 4 4 4 4 3 3 3 3 3 3 3 3 3 3
- 1 1 1 1 1 1 1 1 1 1 M R - - - - - - - - - -
E~ E E 1 1 1 1 1 1 1 1 1 1 T V B 1 1 1 1 1 1 1 1 1 1 S L M - - - - - Y A U V V V V V V V V v V S V N H H H H H H M H H H
> ;)
SPEC. ML-008 REVISION 2 VALVE TA8tE
~
.PAGE NO: 10- >
IST TABLE - VALVES LIMERICK CENERAftNG STAfl0N - UN!T 1 1 COMMON QATE: 05/06/93 STSTEM: 12 RHR SERVICE WATER POSli!OE
' VALVE ACT. APP. J TEST FREQUENCY YRR/vCS COCE ' VALVE ACT/
VALVE NUMBER REMARKS CLASS P&lo COORD CAT. PAS SIZE TYPE TYPE NRM 2AF FAL TYPE C -(DIRECTION) NLMBER A 20.00 TC SA OC OC - N ET-0(FLR) 12-0001A 3 M-12 E-6 C
.20.00 TC SA OC OC - N ET-0(FAR)
TZ-CCota 3- 88-12 E-4 C A
?
H-12 E-5 C A 20.00 TC . 54 OC OC - N E T-Q( F ER ) 12-000tc 3 70.00 TC SA OC OC - N ET-0(FER) 12-0001D- 3 M-T2 E-3 C A NOT TESTED TpROUCN A ' 6.00 CK SA OC C - N ET.0(R) 12-0010 3 M-12 C-7 C FIRST REFUEL OUTAGE UNTIL MODIFICATION 137 WAS COMPLETED ET-0(R) NCT TESTED THROUCN M 12 C-7 C A 6.00 CK SA OC C - N 12 0031 3 FIRST REFUEL CL'TAGE UNTIL MODIFICAT!ON 137 kAS COP'PLETFD 8 30.00 BF MO OC 0 Al # ET-0, 57 0(0), Pt-T NV-12-031A 3 M-12 B-6 A 30.00 BF MO OC 0 Al N ET-0, ST-0(0), PI-T 3 M-12 B-3 8 A NV-12-0318 8 A '30.00 8F MO OC 0 Al N ET-0, ST-Q(0), PI-T 3 M-12 S-6 Hv-12 031C 30.00 BF M0 OC 0 At N ET-0, ST-Q(0), PI-T 3 M-12 B-3 9 A Hv-12-0310 A-6 s A 30.00 BF
- MO OC C At N ET 0, ST-0(0), PI-T HV-12-032A 3 M-12 30.00 SF MO OC 0 Al N ET-0, ST-O(0), PI-T NV-12-032s 3 M-12 6 8 A A 30.00 SF MO OC O At N ET-0, ST-0(O), PI-T .
HV-12-032C 3 H-12 8*5 ,a A-3 s A 30.00 BF MO OC 0 Al N ET-0, ST-Q(0), PI-T HV-12 0320 3 M-12 A 30.00 Bf M0 C OC Al N ET-0, ST-0(O&C), Pt-T 3 M-12 A-5 8 - HV-12-034A I
... .i
.J.
~
- SPEC. ML-COS - .'
PEVISIOu 2 VALVE TABLE. -l IST TABLE - VALVES PAGE NO: 11 - LIMERICC GENERATING STATION - ll NIT 1 & COMMON DATE: 09/06/91 SYSTEM: 12 RHR SERV 1CE k'ATER POS! TION
. VALVE CODE VALVE ACT/ VAIVE ACT. APP. J TEST FREQUENCf VRR/VCS
- NUN 8ER CLASS P&lD COORD CAT. PAS SIZE - TYPE. TYPE NRM SAF FAL TYPE C (DIRECTION). NUM8ER REMARKS HV-12 0348 3 M-12 A4 8 A 30.00 ~ BF. . MO . C' OC -- Al N ET-0, ST-0(O&C), PI-T HV-12-111 3 M-12 A-6 8 A 30.00 SF MO OC C- At N ET-0, ST-Q(C),'PI-T-Hv 12-112 3 M-12 D-7 8 A 36.00 BF MO . OC C 'At N ET-0, ST-0(C), PI-T HV-12-113 3 M-12 .A6 B A 30.00 8F N) OC C Al N ET-0, ST-0(C), PI-T Hv-12 114 3- M-12 0-7 B A 36.00 BF MO OC C Al N ET-0, ST-0(C), PI-T e
-I
.]-
~
, .ff[
- f
$PEC. ML-005.-
REvtSf02 2' VALVE TARLE_
' 'PAGE NO: .17 .(
IST'TABLF - vatVES ' CATE: 07/06/91'-
' LIMERICK CENERATING ST ATION - UNti.1 & CF '06 SYSTEM: 13 REACTOP ENCLOSURE COOLING WATER POSITION!
VALVE ACT. APP. J Trit FREQUEECY VAR /VCS' , VALVE CODE. . VALVE ACT/.- TYPE" TYPE NRM SAF ,FAL TYPE C '(DIRECTION)' NUMBER R'.88 ARKS . , CLASS P&i3 COORD CAT. PAS SIZE WUMBER
..Y~ .ET-C., ST-C(C), LJ-7,. 13-VCS-1,' GvG -1 ' F?NT. X-23 ;
F-5 A i A .. '4.00 GT' :No o C ' At : HV-13 106 2' M-13 (SMT 1). P1-T. Al- ET-C..ST-C(C); tJ-T, 13+VCS-1,'GVR9-1' PENT. X-24. M-13 (siti 1) H7 A 'A 4.00 GT MO O .C. Y MV-13-107 2 <$ PC-7. C' Al Y. ET-C, STiC(C). LJ-T, 13-VCS-1, GVRR-1 PEWT. X-23 F4 A 3.00 GT MO NY-13-108- ) +13 (SHT 1) A Pt T Al LJ-T - CVRa-1 ' PENT. W-23, G-5 'A P 3.00 GT M0 LC C- ,Y Hv-13-109 2 M-13 (SNT 1) ELECTRICALLY O f SCCWNECTED . Al LJ-T GVRR-1 PENT. K-24, G-8 ' A P 3.00 GT , M0 LC C T HV-13-110 2 M-13 (SMT 1) ELECTRICALLY: DISCONNECTED O C. Al Y ET-C, ST-C(C). LJ-T, 13-VCS-1, CVRR-1 PENT. X-24 f 2 M-13'(#NT 1) : G-7 A A. .3.00 GT 'MO uv-13-111 Pf-T r 1 J 8 L 2
- 1
. SPEC. ML-008.
' REV1510N 2' tat *A TABLE FACE NO: ^13" IST TABLE - VALVES CATE: 09/06/ci tlMERICK GENERATING STATtON - UNIT 1 & CCSIMON STSTEM: 15 COMPRESSED. AIR POSITION VALVE ACT, APP, J' TEST TREQUENCY %2R/VCS CODE VALVE ACT/
VALVE Nt.MBER REMARIES CLASS' FS!D COORD CAT. PAS SIZE TTPE TYPE NtM 5AF FAL TYFE O '(DIRECTION) kUMBER LJ-T CVeR .1 PENT. x-21 P 3.00 GT MA LC 'C - 7 '- 15-1139 2 M-15 (SMT 15) f-4 A
'LJ-T CNRR 1 PEET. x-21 M-15 (SH1 15) F-4 A. 'P 3.09 GT MA 'tC C -
Y. 15-1140 2 i L w.. y r aw-
/.
/.
SPEC. ML-003. REVIS!ON 2 VALVE TABLE PACE NO: 14. IST TABLE - VALVES D ATE: 09/06/91 LIMERICK CENERAi!NG stall 0W - UNIT 1 & COMMON
$7 STEM: 20 P,EL & DIESEL Ott STORAGE TRANSFER & AIR STARTING
. POSITION'
- VALVE ACT. APP. J TEST FREQUENCY VRR/VCS tfALVE CODE VALVE ACT/
NUMBER DEMARKS NUMBER CLASS P&lD- COORD CAT. PAS SIZE TYPE TYPE WRM .SAF FAL TYPE C (DIRECT 10N) C-4 'C A -2.00 CK SA OC -0 - N Ef-0(F)' 20-1046A - M-20 (SHT 3) C-4 A 2.00 .-CK SA OC 0 - N ET-0(F) 20-10468 - M-20 (SMT 4) C C-4 A 2.00 'CK SA OC 0- - N ET-0(F) 20-1046C - M-20 (SHT 5) C M-20 i,SHT 6) C-4 C A 2.00- Cr SA OC 0 - N ET-0(F) 20-10460 - 0 C A 1.00 ' CK SA. OC C - N ET-0(R) 20-11184 3 M 20 (SHT 3) D-3 C A. 1.00 CK SA OC C - N E7-0(R) 20-1118s 3 M-20 (SHT 4) 3 M 20 (SMT 5) 0-3 C A 1.00 CK SA OC C - N Ei-c(R) 20-111SC 1.00 CK SA OC C - N ET-0(R) 20-11186 3 M-20 (SHT 6) 03 C A f 0-2 C A 1.00 CK SA OC C - N ET-0(R) 20 11224 3 M 20 (SNT 3) 0-2 C A 1.00 CK SA OC C - N Ef-0(R) 20-11228 3 'M-20 (SMT 4) 0-2 C A 1.00 CK SA OC C - N Ef-0(R) 20-1122C 3 M-20 (SHT 5) D-2 4 1.00 CK SA OC C - N Ef-0(R) 20-11220 3 M-20 (SNT 6) C 1.5 DI 50 C 0 - N ET-0, ST-0(0) 20-veR-1 SEE FSAR FIG. 9.5-10 3 M-20 (NOTE) N/A s A 20-92-1302A 1.5 DI S0 C 0 - N E T -0, $1-0(0) 20-veR-1 SEE FSAR Ftc. 9.5-10 3 H-20 (NOTE) N/A 9 A 20-92-13028 1.5 DI 50 C 0 - N El-0, ST-Q(0) 20-veR-1 SEE FSAR FIG. 9.5-10 3 M-20 (NOTE) N/A 8 A 20-92 1302C O! 50 C 0 - N ET-0, St-Q(0) 20-VPR-1 SEE FSAR FIG.'9.5-10 3 M-20 (NOTE) N/A 8 A 1.5 20-92-13020 1.5 DI So C 0 - N ET-0, 5f-0(0) 20-VRR-1 SEE FSAR FIG. 9.5 10 N/A B A 20-92-1303A 3 M-20 (NOTE) A 1.5 DI S0 C 0 - N ET-0, 57-Q(0) 20-VRR-1 SEE FSAR FIG. 9.5-10 3 M-20 (NOTE) N/A 8 20-92 13039
' ~
~~' ~ '
r' 42 _ e .. 7 SPEC. ML-005 REvlSION 2 VALVE TABLE IST TABLE - VALVES PAGE NO: 15 LIMERICK CENfRATING STATION - UNIT .1 & CE"04 DATE: 09/06/91
- SYSTEM: 20 FUEL & DIESEL Olt STORAGE TRtNSFER & AIR STARTING POSI T10l*
VALVE CODE- VALVE ACT/ VAi.VE ACT. APP. J TEST FREQUENCY. VRR/VCS NUMBER CLASS P&fD COORD. CAT. PAS SIZE TYPE TYPE NRM SAF FAL TYPE C (DIRECTION) NUMBER REMARKS 20 92-1303C- 3 N-20 (NOTE). N/A 8 A 1.5 D1 50 C 0 .-- N ET-0, ST-C(0) 20-VRR-1 SEE FSAR FIG. 9.5-10 2G-92-1303D 3 M-20 (MTE) N/A B A 1.5 DI SO C 'O - N ET-0, ST-o(0) 20 VRR-1 SEE FSAR FIG. 9,5 10 20-92-1308A 3 M-20 (No.TE) K/A' .8 A .50 TW SO O C - N' ET-0, ST-0(0) 20-VRR-1 SEE FSAR FIG. 9.5-10 20-92 13088 3 M 20 (NOTE) N/A B A .50 TW $3 'O C - N ET-o, ST-o(0) 20-vRR-1 SEE FSAR FIG. 9.5-10 20-92-130SC 3 .M-20 (NOTE) N/A B A .50 TW SO O C - N ET-0, ST-0(0) 20-VRR-1 'SEE FSAR FIG. 9.5-10 20-92-13080 3 M-20 (NOTE) N/A B A. .50 TW SO O C - N- ET-0, ST-0(0) 20-VRR-1 SEE FSAn FIG. 9.5-10 20-92-1309A 3 M-20 (NOTE) N/A 8 A .50 TW S0 0 C - N ET-0, ST-Q(0) 20-VRR-1 SEE FSAR FIG. 9.5-10 20-92-13098 3 M-20 (NOTE) N/A 6 A .50 TW SO O C - N ET-0, ST*C(0) 20-VRR-1 SEE FSAR FIG. 9.5-10 20-92-1309C 3 M-20 (NOTE) N/A a A .50 TW SO O C - N ET-0, ST-Q(0) 20-VRR-1 SEE FSAR FIG. 9.5-10 10-92-13090 3 M-20 (NOTE) N/A B A .50 TW SO O C - N ET-0, St-0(0) 20-VRR-1 SEE FSAR FIG. 9.5-10 l 4 Y i
..s
( SPEC. ML'- 005 t REVIS!Ost 2
' VALVE TABLE-IST TABLE - VALVES PAGS WO: 16 '
Lip *ERICK CENERATING STATION .- UNIT 1 & CtM98 DATE: 09/06/91 SYSTEM: 26 PLANT PROCESS RADIAf!ON MONITORING POS!T1t* VALVE CODE VALVE ACT/ VAL VE ACT. APP. J TEST FPEQUENCY VRR/VCS NUMBER CLASS .P&lD .C00RD CAT. PAS SIZE 1TPE TYPE -WRM..SA -FAL TTPE C (DIRECTION) WUMBER REMARKS t SV 26-190A 3 M-26 (SMT 2) G-3 A A 1.00 Gt ' S3 O .C C' .ET-0, FS-0(C),
.Y GVRR-1, GVER-3 PENT. X-1179-1 ST-QtC), LJ-T, PI-T
'SV-26-190s 3 H-26 (SHT 2) .T-3 A A i.UO' ct so o C- -C Y ET-0, FS-0(C), cvpR-1, CvRR-3 PENT. X-117a-1 ST-Q(C), LJ-T, PI-T
~
SV-26-190C 3 M-26 (SHT 2) G-4 .. A A 1.00 G' SD 0 C 'C- Y ET-0, FS-0(C), CVRR-1, CVRR-3 . PENT. X-1178-2 ST-0(C),'LJ-T, P!-T SV-26-190D 3 M-26 (SMT 2) F-4 A' A 1.00 CL SO O C C T ET-0, FS-0(C), GvPR-1, GvtR-3 FENT. X-117B-2 ST-0(CT, LJ-T, Pt-T l e I 4
~ w -
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/
(' SPEC. AL-008 REVIS!cN 2 VALVE TABLE PAGE NO: '17 IST TABLE - VALVES 1DATE: 09/C&91 LIMERICK CENERATING STA110N - UNIT 1 & COMMON-SYSTEM: 40 MSIV LEAKAGE CONTROL POSITION APP. J TEST FREQUEktY VRR/VCS VALVE ACT/ VALVE ACT. ' VALVE COCE NUMBEP REMAlAS
-COORD CAT. PAS 12E TYPE TYPE nan SAF FAL,TTPE C. (DIRECTIO4)
NUMBER CLAS$P&lD A 1.00 CE SA C . OC - N ET-Q(F&R) 2 M-40 (SHT 1) - N-4 C 40-1F010 1.00 CC : SA C OC
- N ET-Q(FER) 40-1F011 2 M-40 (SHT 1) .8-3 -C A
'Al Y ET-C, ST-C(0&C), 40-VCS-1, CVaR-1 PENT. X-7A F-7 A A - 2.00 GL Mo C OC -HV-40-1F001s 1 M-40 (SHT 1) LJ-1, PD -T ET-C, ST-C(0&C), 40-VCS-1, GVRR-1 PENT. m C-6 A A 2.00 CL MO C OC Al Y HV-40-1F001F 1 M-40 (SHT 1) LJ-T, PI-T C- OC At T ET-C, ST-C(OSC), 40-VCS-1, ' 1R-1 PENT. N-7C 1 M-40 (SNT 1) C-6 A A 2.00 GL MO MV-40-1F001K LJ-T, PI-T OC Al ET-C, ST-C(0&C), 40-VCS-1, GV'#R-1 PENT. X-7D C-6 A A 2.00 GL MO C Y HV-40-1F001P 1 M-40 (SHT 1) LJ-7, P!-T A 2.00 CL Mo C 0 At N ET-C, ST-C(0), F1-T 40-VCS-1 2 M-40 (SNT .1) F-7 8 MV-40-1F0029 MO. C 0 Al N ET-C. ST-CCC), PI-T 40-VCS-1 2 M-40 (SHT 1) C-6 8 A 2.00 CL HV-40-1F002F 2.00 Ct Mo C 0 At N ET-C, ST-C(0), Ff-T 40-VCS-1 2 M 40 (SNT 1) C-4 e A HV-40-1F002K M0 C 0 Al N ET-C, ST-C(0). P!-T 40-VCS-1 M-40 (SMT 1) C-6 6 A 2.00 Gt HV-40-1F002P 2 2.00 GL M0 C OC Al N ET-C, ST-C(OEC), PI-Y 40-VCS-1 2 M-40 (SNT 1) 0-5 8 A.
NV-40-1F0038 A 2.00 GL MO C OC At M ET-C, ST-C(C&C), PI-T 40-vCS-1 2 M-40 ($WT 1) C-6 8 HV-40-1F003F 2.00 GL MO C OC A! N ET-C, ST-C(OEC), PI-T 40-VCS-1 2 M-40 (SNT 1) C-6 s A HV-40-1F003r 2.00 GL MO C OC Al N ET-C. ST-C(n&C), Pf-T 40-VCS-1 C-6 B A HV-40-1F001P 2 M-40 (SNT 1) 2.00 Gt M0 C OC At u ET-C, ST-C(C&C), PI-T 40-VCS-1 M-40 (SNT !) E-3 8 A HV-40-1F006 2 2.00 Ct M0 C OC Al N ET-C, ST-C(OSC), PI-T 40 VCS-1 M-40 (SNT 1) E*3 5 A HV-40-1F007 2
.s.
. -)
SPEC. ML-005 REYlSION 2
-VALVE TABLE -
-IST TABLE - VALVES PAGE WO; 18 LIMERICK GENERATING STATION - UNIT 1 & COPw90N DATE: 07/06/91-
! SYSTEM: 40 NSIV LEAKAGE CONTROL-POSITION VALVE ACT/ VALVE ACT. APP. J TEST TREJKNCY VRR/VCS tfALVE CODE. TYPE NRM .SAF FAL TYPE C (D!RECTION) NUMRER . REMARKS-NUMBER CLASS.'P&lD .C00RD ' CAT. PAS SIZE TYPE F<3 9 A' 2.00 GL Mo C OC . Al - N ET-C, ST-C(0&C), PI-T 40-VCS-1 ! HV-40-1F008 2. M-40 (SMT 1) F-3 A- 2.00 GL , M0 C 00 At M ET-C, St-C(O&C), Pt-T 40-VCS-1 HV-40-1F009 2 M-40 (SHT 1) B 2 G-6 A. 1.00 NC. . SA 0 C .- N ET-k(F), P!-T GVRR-2 PENT. X-7A xV-40-1018 1 M-40 (SHT 1) C xv-40-101F 1- M 40 (SHT 1) C-6 C 'A 1.00 xc . SA 0' C - M ET-R(F), PI-T GVRR-2 PENT. X-78
'C-6 'C A 1,00 hC SA 0 C -
N .ET-R(F), Pl-T Gv9R-2 FENT. X-7C XV-40-101K 1 M-40 ($HT 1) C. :A 1.00 FC SA 0 C - p ET-a(F), Pl-T GVRR-2 ' PENT. M-7D XV-40-101P 1 M-40 (SHT 1) C-6 a s , - = - - - - _ _ - . - -
.}
- SPEC. ML-008' REVISION 2 VALVE TACLE IST TABLE - VALVES PAGE NO: 19 LIMERICK GENERATING *T* TION - tlNIT 1 5 COMMON DATE: 09/06/91 SYSTEM: 41 WCLEAR BOILER POSITION ViLVE CODE VALVE ACT/ VALVE ACT.. - APP. J IEST F tE0ttri.CY FJMBER VRR/VCS CLASS P&lD COORD . CAT. PAS. SIZE- TYPE TYPE WRM SAF FAL TYPE C (DIFECTION) YJMBER REMARKS 41-1016 1 M-41 (SHT 1) F-4 A P' -4.00 CL MA LC C -
Y LJ ' CVRR-1 PENT. X-44 1017 1 M 41_(SHT 1) F-4 A P 4.00 Ct MA LC C - Y LJ-T GVRR*1 FENT. X-44 41-1036A 1, M-41 (SNT 1) D*S. AC A 1.00 CK SA C OC - Y ET-C(F1T). LJ-I GVRR-1, 41-VCS-4 PENT. X-9A 41-10368 1~ M-41 (SNT 1) 8-4 AC A 1.00 CK SA C OC - Y ET-C(T12), LJ-T GVRR-1, 41-VCS-4 PENT. X-99 41-1F010A 1 M-41.($NT 1) D-4 AC A 24.00 CX 5A 0 OC - Y ET-c(F). ET-#(R), GvRR-1, 41-vRR-1 PENT. X-9A LJ-T 41-1F0108 1 M 41 (SHT 1) C-4 AC A 24.00 CK SA o DC - Y ET-Q(F), E T-R(R), GV8R-1, 41-vPR-1 PEN 1. #-98 LJ-T 41-1F024A 3 M-41 (SHT 2) G-5 C A 1.5 CK SA OC C - N ET-R3(R) 41-VRR-4 41-1F0248 3 M-41 (SNT 2) G-5 C A 1.5 CK SA OC C - N ET-RG(R) 41-var-4 41-1F024C 3 M 41 (SHT 2) G-5 C. A 1.5 CK SA OC C - N ET #2(R) 41-yRR-4 41-1F0240 3 M-41 (Shi 2) G-5 C A 1.5 CK SA OC C - N Ei-R3(R) 41-vPR-4 41-1F029A 3 M-41 (SNT 2) G-4 C. A 1.5 CK SA OC C - N ET-R(R) 41-VRR-5 41-170298 3 M-41 (SNT 2) G-4 C A 1.5 Cr SA OC C - N ET-#(R) 41-vRR-5 41-1F029C 3 M-41 ($HT 2) G-4 C A 1.5 CK SA OC C - N ET-Ara) 41-vRR-5 41-1FP290 3 M 41 (SNT 2) G-4 C A 1.5 CK SA OC C - N ET-R(R) 41-vnR-5 41-1F036E 3 M-41 (SNT 2) G-8 C A 1.00 CK SA OC OC - N ET-R3(FAR) 41-vPR-3 41-1F036H 3 M-41 (SMT 2) G-8 C A 1.00 CK SA OC OC - N ET-R3(FER) 41-vPR-3
' 41-1F03M 3 M-41 (SNT 2) G-8 C A 1.00 CK SA OC OC - N El-R3(FAR) 41-yRR-3
t . . , i) SPEC. ML-008 REV!SION 2 VALVE TABLEJ
'IST TABLE - VALVES PACE No: 20-LINEllCK GENERA 11 0 aTATION' UNIT 1 1 COMMON DATE: 09/06/91 SYSTEM: 41 NUCLEAR BOILER POSITION-VALVE- CODE VALVE .ACT/' VALVE ACT. APP. J . TEST FREQUENCT 'VRR/vCS NUMBER' CLASS P&lD COORD CA1. ' PAS 'St2E TTPE TTPE. NRM SAF FAL TTPE C (DIRECTI0er) WJhBER REMARES 41-1F036M 3 M-41 (SMT 2) 'G-8 C A 1.00 CK :SA OC OC - N ET RQ(F1R) 41 VRR-3 41-1F036S 3 M-41 (Snf 2) G-8 C .A. -1.00 CK '- SA OC OC -
N 'ET-R3(FER) 41-VRR-3 HV-41-109A 2 M-41 (SMT 1). D-7 .A :P 16.0C GT Mo LC C . Al Y LJ-T, PI-T- ' GVRR-1 PENT. X-9A HV-41-1098 2- M-41 (SHT 1)' D-7 A P 16.00 GT MO LC C Al Y LJ-T, P!-T GVRR-1 PENT. X-93 HV-41-130A 1 M-41 (SHT 1) 8*5 A A 1.50 CL M'l C OC Al T ET-C, ST-C(OEC), CVRR-1, 41-VCS-3 PENT. X-99 LJ-T, PI-T HV-41-1308 1 M 41 (SHT 1) C-5 A A 1.50 GL MO C OC Al Y ET-C, St-C(OEC), Cv8R-1, 41-VCS-3 PENT X-9A LJ-T, PI-T HV-41-133A 1 M-41 (SNT 1) 8-5 A A 1.50 - CL' Mo C OC Al Y ef-C, ST-CCO&C), CVRR 1, 41-VCS-3 PENT. K-9A LJ-T, P!-T ' HV-41-1338 1 M-41 (SMT I? 8-5 4 A 1. ",0 ct Mo C OC At Y ET-C, ST-C(0&C), CVRR-1, 41-VCS 3 PENT. X-98 LJ-T, PI-T HV-41-140 - M-41 (SMT 2) 0-3 8 A 1.00 CL M4 C 0 Al N ET 0. 5T-0(O), PI-T HV-41-141 - M-41 (SHT 2) D-2 9 A 1.00 GL Mo C O At N ET-0, ST-o(0), PI-T NV-41-142 - M-41 (SMT 2) D*2 8 A 3.00 GT MO O C A! N ET 0, ST-Q(C), P!-T HV-41-143 - M-41 (SNT 2) 0-2 B A 3.00 GT MO O C At 8 ET-Q, ST-Q(C), P!-T HV-41-1F015 1 M-41 (SHT 2) D-5 A A 3.00 GT MO OC C Al Y ET-0, ST-0(C), LJ-T, CVRR-1 PENT. X-8 PI-T HV-41-1F019 1 M-41 (SMT 2) D '. A A 3.00 GT HO OC C At i ET-0, ST-Q(C), LJ-T, CV9R-1 PENT. X-8 PI-T Hv-41-1F022A 1 M-41 (SMT 2) 7-5 A A 26.00 CL A0 0 C C Y ET-C, PT-0, FS C(C), CVpR-1, 41-yts-2 pggy, y.73 ST-C(C), LJ-T, Pt -T .- . _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - _ _ _ - - _ _ - ____.L. - _ _
\ L J :. ,
. SPEC Mt-008 REvlSION 2 VALW TASt.E 1$7 TABLE - VALVES PAGE No: 21 LIMERICK GENERAflNG STATION - UNIT 1 & COtMOW 'DATE: 09/06/91?
SYSTEM: 41 NUCLEAR BOILER POSiftfA E VALVE CODE VALVE ACT/ VALVE ACT. - APP. 4 TEST FREQUENCT *RR/VCS NUMBER CLASS P&lD COORD CAT. PAS SIZE TYPE TYPE NRM SAF FAL TYPE C (rIRECTION) N'JMBE R REMARKS , t C-6 A A 26.00 GL A0 0 C- C Y ET-C, PT-0, FS-C(C), 'GV9R-1, 41-VCS PENT. X-78 HV-41-1F0229 1 M-41 (SMT 2) I ST-C(C), LJ T, PI-T M 41 (SHT 2) C-6 A A 26.00 GL Ao o C C Y ET-C, PT-0, FS-CfC), GVRR-1, 41-VCS-2 PENT. X-7C i HV 41-1F022C 1
- T-C(C), LJ T, P!-T 26.00 A0 0 C C ET-C, PT-0, FS-C(C), GVRR-1, 41-VCS-2 PENT, X-7D HV-41-1F0220 1 M-41 (SHY 2) C-6 A A GL Y ST-r(C), LJ-T, PI-T H-41 (SHT 2) F5 A A. 26.00 GL AO O C C Y ET-C. 57-0, FS-C(C), CVRR-1, 41-VCS-2 PENT. X-TA HV-41-1F0284 1 ST-C(C',
, LJ-T, Pl-T C-6 A A 24.00 GL AO O C C Y ET-C, PT-0, FS-C(C), GVRR-1, 41-*TS-2 PENT. X-78 HV-41-1F0288 1 M-41 (SHT 2)
ST-C(C), (J T, PI-T 26.00 Ao o C ET-C, PT-0, FS-C(C), GVRR-1, 41-VCS-2' PENT. X-7C Hv-41-1F02BC 1 M-41 (SHI 2) C6 A A GL C Y ST-C(C), LJ-T, PI-T C-6 A 26.00 GL A0 0 C. C y ET C, PT-0, FS-C(C), CVPR-1, 41 VCS-2 PENT. X-7D HV-41-1F0280 1' M-41 (SMT 2) A ST-C(C), LJ-T, PI-T A 24.00 SK SA O C Al Y ET-C(R), LJ-T, PI-T CVRR-1, 41-VCS-1 PENT. X-9A NV-41a1F032A 2 M-41 ($MT 1) 0-7 4.C C-7 AC A 24.00 SK SA 0 C Al Y ET-C(P), LJ-T, PI-T GVRR-1, 41-VCS-1 PENT. X-98 HV-41-1F032s 2 M-41 (SHT 1) - 0-4 AC A 24.00 YC SA 0 oC - Y ET-0(F), ET-C(R), GVRR-1, 41-VCS-1 PENT. X-9A l HV-41 -1 F074 A 1 M-41 (SHT 1) LJ-T, Pf-T C-4 AC A 24.00 TC SA 0 OC - Y ET-0(F), ET-C(R), GVap-1, 41-VCS-1 PENT, F-98 HV-41-1F0749 1 M-41 (SHT 1) LJ T, PI-T i 8-5 A A 1.00. GL A0 OC C C Y ET-0, FS-0(C), GV9R-1 PENT, F-439 HV-41-1F084 1 Ma41 (SHT 2) ST-G(C), LJ-T, PI-T i 8-4 A A 1.00 GL A0 OC C C Y. EY-0, FS-0(C), CVRR-1 PENT. N-438 hV-41-1F085 1 M-41 (SHY 2) ST-0(C), LJ.T, PI-T l
M r s . . .
'h SPEC. ML-006
~ REVISION 7' VALVE TAC E IST TABLE - VALVES PAGE NO: - 22 LIMERity CENERATING STATION -- UNIT 1 & COWO4 DATE: 09/06/91 SYSTEM: 41 NUCLEAR COILER POSIT 104 VALVE ' CODE . V8, LYE ACT/ ' VALVE' ACT. APP. J TEST FREOLTNCY VRR/VCS NUMBER CLASS PEID : ' C00RD CAT. . PAS SIZE . TYPE TYPE -kRM SAF .FAL TYPE f (DIRECTION) N'J8BER -REMARKS HV-C-41-1F020 2 M-41 (SHT 2) D-3 8 'A 2.00' Ct - MO ' O- C Al S ET-0, ST-C(C), PI-T PSV-41-112' 1 M-41 (SHT 1) /E-5 AC A ' 0.75 1 RL 'SA C. OC - T' LJ-T, RT-P2 GYPR-T PENT. X-44 PS'f 134 A 2 M-41 (SMT 1) B-6 C A~ 1.00 ; . RL ' SA C O' - N RT-P3 PSV-41-1348 2' M-41 (Siti 1) C-5 C A 1.00 RL ,SA C ;
o - N RT-P3 PSV-41-1FC134 1 M-4? (SHT 2) F-7 C A 6.00 RL "SA C. 0 - N RT-P1 PSV-41-1F0135 1 M-41 (SHT 2) T-7 C A 6.00 RL SA C 0 - N RT-P1 PSV-41-1F013C 1 M-41 (SNT 2) F-7 C A 6.00 RL SA C. O - N RT-P1 PSV-41-1F013D 1 M-41 (SRT 2) F-7 C A 6.00 RL SA C 0 - N RT-P1 PSV-41-1F013E 1 M 41 (SMT 2) c-7 s, C A 6.00 RL No C 0 - N ET-R, ST-R(0), RT-P1 41-vtR-2 AS PER TSAR QUESTION 271.2. Alt 0WABLE LEAU GE RATE NOT TO EXCEED 78 SCC / MIN. PSV-41-1F013F 1 M-41 (SHT 2) F-7 C A 6.00 mL SA C O - N RT-P1 PSV-41-1F013G I M-41 (Sui 2) F-7 C- A 6.00 RL SA C 0 - N RT-P1 PSV-41-1F013H 1 M-41 (SMT 2) G-7 ' 9, C A 6.00 RL NO C ~ O - N ET-R, ST-R(0), RT-P1 41-VRR-2 AS PER FSAR QUESTION 271.2. ALLowAaLE LEAKAGE RATC NOT TO EXCEED 78 SCC / MIN. PSV-41-1F013J 1 M-41 (SMT 2) F-7 C .A 6.00 RL EA C 0 ' - N RT-P1 PSV-41-1F013E 1 M-41 (SNT 2) G-7 B, C ' A' 6.00 RL NO C O - N ET-R, ST-R(0), RT-P1 41-vRR-2 AS FER FSA .(STION 271.2. Att u BLE LEAOCE RATE NOT TO ENCEED T8 SCC /Miu. i i ____._a_._.._____.______ - . _ . __ . _ _ m m 7
'(. i
+
1 %PEC. Mt-008 '
. REVISION 2 VALVE TABLE I'ST' TABLE - VALVES PAGE NO: '23' LIMERICC G!NERATING ST4TloN - Luli 1 1 COMMON DATE: 09/06/91 SYSTEM: 41 NUCLEAR BOILER' POSIT 10N VALVE CODE VALVE ACT/' VALVE ACT. .' APP. J TEST FREQUENCT' VER/VCS NUMBER CLASS P110 COORD CAT. PAS SIZE TYPE 'TvPE NRM SAF FAL 1TPE C (DIRECTION) WUMBER REMARKS PSV-41-1F013L 1 M-41 ($HT 2) F-7 C A 6.00 RL SA C 0 -
N RT-P1 i' M-41 (SHT 2) 'G-'7 B, C A 6.00 RL NO C 0 - N ET-R, ST-R(0), RT P1 41-VRR-2 AS PER FSAR OUEST104 PSV-41-1F013M 271.2. ALL0uABLE LEAKAGE RATE NOT TO-EXCEED 78 SCC / MIN. Pvt-41-1F013N 1 M-41 (SHT 2) F-7 C A 6.00 RL SA C 0 - N RT-P1 M-41 (SHT 2) G-7 E, C A 6.00 R L. 40 C 0 - N ET-R, ST-R(0), RT-P1 41-VRR-2 AS PER FSAR QUESTrow PSV-41-1F013S 1 271.2. AllouABLE' LEAKAGE RATE NOT TO EXCEED 78 SCC /M!N. 8-6 C A 6.00 . VR SA C 0 - N RT-P3 PSV-41-1F037A 3 M-41 (SHT 2) s-6 C A 6.00 VR SA C 0 - N RT-P3 PSV-41-1F0378 3 M-41 (SMT 2) 3 M-41 (SET 2) 8-6 C A 6.00 VR SA C 0 - N RT-P3 PSV 1803 7C t PSV-41-1F037D 3 M-41 (SNT 2) 8-6 C A '6.90 VR SA C 0 - N RT-P3 M-41 ($MT 2) B-6 C A 6.00 VR SA C 0 - N RT-P3 PSV-41 -1 F 03 7E 3 i 3 M-41 (SMT 2) 8-6 C 4 6.00 VR SA ? O - N RT-P3
'SV-41 1F037F PSV-41-1F037G 3 M 41 (SHT 2) B-6 C A 6.00 VR SA C 0 - N RT-P3 PS J-41-1F C37H 3 M-41 (SNT 2) 8-6 C A 6.00 VR SA C 0 - N RT-P3 PSV-41-1F037J 3 M-41 (SNT 2) 8-6 C A 6.00 VR SA C 0 - N RT-P3 3 M-41 (Sisi 21 86 C A 6.00 VR SA C 'O - N RT P3 PSV-41-1F037c 3 M-41 ($HT 2) B-6 C A 6.00 VR SA C 0 * 'N RT-P3 PSa-41-1F037L
I,i .
- t. ,,
. SPEC. ML-005 REVIS10m 2:
VALVE TABLE - IST TABLE - VALVES ~ . PACE NO: ~N' tlMER!CK GENERATING STAT!ON - UNIT 1 & CCNMON DATE: 07/06/91 STSTEM: 41 WUCLEAR BOILER POSITION VALVE CODE VALVE ACT/ VALVE ACT. APP. J TEtf FREQUENCY VRR/VCS -
. Nt#'BER - . CLASS P&10 COORD CAT. PAS SIZE TTPE TTPE NRM SAF FAL TTPE C (DIRECTION) NUMBER REMARKS - PSV-41-1F037M 3 M-41 (SMT 2) B-6 C A 6.00 - VR SA C O -
N RT-P3 PSV-41-1F037N 3 M-41 (SMT 2) ' B-5 C A- 6.00- VR SA C O - N RT-P3
. 5 PSV-41-1F0375 3 M-41 (SMT 2) 8-6 C A- 6.00 VR SA C O -- N RT-P3 PSV-41-1F097A .3 M-41 (SMT 2) -B-6 C A 6.00 VR SA C O -
N RT-P3 PSV-41-1F0978 3 M-41 (SHT 2) B-6 C A '6.00 vR SA C O - N RT-P3 PSV-41-1F097C 3 M-41 (SHT 2) 9-6 C A 6.00 YR SA ~C O - N RT-P3 PSV-41-17097D 3 M-41 (S$rf 23 9-6 C A 6.00 VR SA C 0 - N di-P3 PSV-41-1F097E 3 M-41 (SMT 2) B-6 C A 6.00 VR SA C O - N RT-P3 r PSV-41-1F097F 3 M-41 (SMT 2) s-6 c. 4 6.00 VR SA C 0 - N RT-P3 , I PSv-41-ir097G 3 M-41 (SMT 2) 8-6 C A 6.00 VR SA C 0 - N RT-P3 f PSV-41-1F097M 3 M-41 (SMT 2) B-6 C A 6.00 YR SA C O - N RT-73 PSV-41-1F097J 3 M-41 (SHT 2) 8-6 C A 6.00 VR SA C 0 - N RT-P3 2 1 B-6 6.00 PSV-41-1F097K 3 M-41 (SMT 2) C A VR SA C O - N RT-P3 PSV 1 F097L 3 M-41 (SMT 2) B-6 C A 6.00 VR SA C 0 - N RT-P3 I PSV-41-1F097M 3 M-41 (SHT 2) 8-6 C A 6.00 YR SA C O - N PT-P3 # 4 PSV-41-1F097N 3 M 41 (SHT 2) B-6 C A 6.00 YR SA C O - N RT-P3 PSV-41 1F0975 3 M-41 (5:tf 2) 8-6 C A 6,00 VR SA C O - N RT-P3 l MV-41-1F070A 1 M 41 (SHT 2) - E- A C A 1.")0 XC SA O C - N ET-R(F), FI-T cypR-2 PENT, N-30 4 4 4
+ 4
.O
~*
.D' .
( '{ ..' ) SPEC. ML-008 REV!$10N 21 VALVE TA8tE-IST TABLE - VALVES PAGE NO: 25 LIMEk!(< GENEPATING STAfl0* - UNIT ' & COMMON DATE: 09/06/91
' SYSTEM:.41 NUCLEAR BOILER POSITION CODE- VALVE ACT/ . VALVE ACT. APP. J TEST FREQUENCY VRR/VCS VALVE CAT. PAS- SIZE' TTPE TYPE. NRM SAF FAl. TYPE C (DIRECTION) NUMBER REMARKS NUMBER CLASS P110 COORD 0-6 A. 1.00 XC - SA 0 C - N ET-R(F), PI-T GVRR-2 PENT. X-52A XV-41-1F0708' 1 M-41 (SMT 2) C C-6 C A' 1.00 XC SA O C' - N ET-R(F), PI-T CVRR-2 PENT. X-34A.
XV 1 F 070C 1 M-41 (SNT 2) a 1.00 SA O C - N ET-R(F), PI-T GVRR-2 PENT. X-3A XV-41-1F0700 1 -M 41 (SNT 2)' C6 C NC M 41 (SHT 2) E-4 C A 1,00 XC SA G C - N E FR(?), PI T *VRR-2 PENT. X-49A XV-41-If071A 1 C-6 C A 1.00 XC SA O C - N ET-R(F), PI-T CV9R-2 PENT. K-499 XV-41-IF0719. 1 M-41 (SHT 2) 1.00 SA O N ET-R(F), PI-T CVRR-2 PENT. M-308 xv-41-1F071C 1 M-41 (SMT 2) C-6 c. A- XC C - A 1.00 xc SA O C - N CT-R(F), PI-T GVRR-2 PENT. M-30A xV-41-1r071D 1 M-41 (SHT 2) .C-6 C 1.00 SA 0 N ET-R(F), PI-T GVRR-2 PENT. X-49A M-41 (' / 2) E-4 C A XC C XV 1 F 072 A 1 1.00 SA O C - N ET-R(F), P!-T GYRW-2 PENT. M-498 xv-41-1F072s 1 M-41 (SHT 2) C6 C A XC h-41 (SHT 2) C6 C A 1.00 MC SA O C - N ET-R(F), PI-T CVRR-2 Pidi. X-308 xV-41-1F072C 1 C-6 C 1.00 *c SA O C. - N ET-R(F), PI-T GVRR-2 PEN?. M-30A XV-41-1F0720 1 M-41 (SMT 2) .. A M-41 (SNT 2) E-4 C A 1.00 NC SA O C - N . ET-R(F), P1-T GVRR-2 PENT. X-33 RV 1 F0734 1 C-6 A 1.00 MC SA O C - N ET-F(F), PI-f CVRR-2 PENT. X-52A xv 1 F073s 1 M-41 (SNT 2) C C-6 A 1.00 XC SA O C - N ET-R(F), P!-T GWRR-2 PENT. X-34A XV-41 1F073C 1 M-41 (Sui 2) C C-6 C A $,00 XC SA O C - N ET-R(F), PI-T SVRR-2 PENT. X-3A kV-41-1F0730 1 M-41 (SMT 2)
) ( J, 5 SPEC. ML-COS REVISION 2 VALVE TABLE IST TABLE - VALVES PAGE NO: 26 LIMERICK GENERATING STATION - (JNIT 1 & COMMON DATE: 07/06/91-SYSTEM: 42 NUCLEAR 80!LER VESSEL INSTRUMENTATION POSITION VALVE CODE VALVE ACT/ VALVE ACT. APP J TEST FREQUENCT VPR/VCS WUMSER CLASS P&lD C00R0 CAT. PAS SIZE ,, TYPE TYPE hRM SAF FAL TYPE C (DIRECTION) NUMBER REMARKS HV-42-147A 9- M-42 ($HT 1) B-6 B A 1.50 GL NO O OC Al N ET-C, ST-C(0&C), P!-T 42-VCS-1 NV-42-1473 1 H-42 (SHT 1) 8-3 D A 1.50 Gt MO O OC Al N ET-C, ST-C(OSC), PI-T 42-VCS-1 HV-42-147C 1 M-42 (SNT 1) A-6 B A 1.50 CL MO O. OC Al N ET C, ST-C(0&C), PI-1 42-VCS-1 HV 42-147D 1 M 42 ($HT 1) A-3 9 A 1.50 C;- MO - 0 OC Al N ET-C, ST-C(OEC), PI-T 42-VCS-1 A-42 (SMT 1) C-6 C A 1.00 XC SA 0 C - N ET-R(F), P!-T GVRR-2 PENT. X-102A XV-42-185A 1 xv-42-1859 1 M-42 (SHT 2) E-4 C A 1.00 WC SA 0 C - N ET-R(F), PI-T GVRR-2 PENT. x-107 xv-42-1F041 1 M-42 ($NT 1) G-6 C 4 1.00 xC SA 0 C - N ET-R(F), PI-T GVPR-2 . PENT. x-678-2 M-42 (SHT 1) G-6 C A- 1.00 NC SA 0 C - N ET-R(F), PI-T GVRR-2 PENT. x-678-1 XV-42 1F0434 1 M 42 (SHT 1) G-4 C A 1.00 xC SA 0 C - N ET-R(F), PI-? GvRR-2 PENT. x-65A XV-42 1F0438 1 M-42 (SMT 1) E-6 C A 1.00 MC SA 0 C - N ET-R(F), PI-T GVPR-2 PENT. X-668-1 XV-42-1F045A i M-42 (SMT 1) E-4 C A 1.00 NC $4 0 C - N ET-R(F), PI-T CVPR-2 PENT. x-20A-1 UV-42-1F0459 1 M-42 (SNT 1) E-6 C A 1.00 NC SA 0 C - N ET-R(F), PI-T CV*R-2 PENT. x-20s-1 XV-42-1F045C 1 M-42 (SHT 1) E-4 C A 1.00 MC SA 0 C - N ET-R(F), PI-T GVRP-2 PENT. x-66A-1 XV-42 1F045D 1 M-42 (SHT 1) E-6 C A 1.00 xC SA 0 C - N ET-R(F), PI-T GVRR-2 PENT. x*488 xV-42-1F0474 1 M-42 (SHT 1) E-4 C' A 1.00 MC S4 0 C - N ET-R(F), PI-T CVRR-2 PENT. x-48A-1 xv-42-1F0475 1 M-42 (SNT 1) F-6 C A 1.00 MC SA 0 C - N ET-R(F), PI-T Gv22-2 PENT. X-655 xv-42-1F0404 1 1- M-42 (SHT 1) F-4 C A 1.00 xC SA 0 C - N ET-R(F), PI-T GVRR*2 PENT. x-674 xv-42-1F0499 M-42 (SHT 1). C-6 C A 1.00 MC S4 0 C - N ET-R(F), PI-T CVPR-2 PENT. x-40s xv-42-1F0514 1
l; ,' s .
-/
$Ptc. M -006 REVISION 2'
' VALVE TABLE :
IST !ABLE - VALVES PAGF Not 27 LIMERICK GENERATING STATION - UN!T 1 1 COMMON
' DATIP 09/06/91.
STSTEM: 42 NUCLEAR B0llER VESSEL INSTRUMENTATION POSITION VALVE CCDE VALVE. ACT/" VALVE ALT. . APP. J TEST FREQUENCT VRR/VCS/ NUMBER CLASS P3tD COORD CAT. PAS SIZE .TTPE ' TTFE . NRM SAF FAL TTPE C (DIRECTION) NumsER REMARKS AV-42-1F0519 1 M-42 (SMT 2) E-4 C A 1.00 XC SA 0 C - A ET-R(F), P!-T GVRR-2 ' PENT. X-318 XV-42 1F051C 1 M-42 (SHT 2) F-5 C A 1.00 xC SA 0 C - E ET-R(F), PI-T GVRR-2 PENT. K 518 XV-42-1F051D 1 M-42 (SHT.2) D-5 C A 1.00 WC .SA 0 C - N ET-R(F), P!-T GVRR-2 PENT. X-328 xV-42-1F053A 1 M-42 (SNT 1) 0-6 C A 1.00 XC SA 0 C- - N ET-R(F), PI-T GyRR*2 PENT. X-408 HV-42-1F0538 1 M-42 ($dT 2) E-4 C A 1.00 XC SA 0 C - N ET R(F), PI-T GVRR 2 PENT. M-31B XV-42-1F053C 1 M-42 (SNT 2) T-5 C A 1.00 0 NC SA C
- N ET-R(F), PI-T CVRR-2 PENT. X-$18 XV-42-1F053D 1 M 42 (Shi 2) D5 C A 1.00 xc SA 0 C -
N ET-R(F), PI-T GVRR-2 PENT. X-328 kV-42-1F055 1 M-42 (SNT 1) C-4 C A .1.00 ' XC $A 0 C - N ET-R(F), PI-T GvRR-2 PENT. X-33A-1 r'-42-1F057 1 M-42 ($HT 1) C-6 C A 1.00 C- SA 0 C - N ET-R(F), PI-T GvnR-2 FENT. X-40D-1 MV-42-1F050A 1 M-42 (SN! 2) D-6 C A 1.00 xc SA 0 C - N ET-R(F), PI-T GVRR*2 PENT. X-40C WV-42-1F0598 1 M-42 (SHT 2) F-4 C A 1.00 xC SA 0 C - N ET-R(F), PI-T CVRR-2 PENT. X-31A XV-42-1Ft50C 1 M 42 (SHT 2) 06 C A-
- 00 XC S4 0 C -
N ET R(F), Pr-T GVPR-2 PENT, x.40C kV-42-1F0590 1 H 42 (SHT 2) F-4 C A 1.00 XC SA O C - N ET-R(F), PI-T GVRR-2 ptgT. X-31A XV-42-17059E 1 M-42 (SHT 23 0-6 C A 1.00 XC SA 0 C - N ET-R(F), P!-T cvaR-2 pgMT. E 40C XV-42-1F059F 1 M-42 (SNT 2) F-4 C A 1.00 SA 0 XC C - N ET-R(F), PI-T GVRR-2 PENT. X-31A DV-42-1F059G 1 M 42 (Shi 2) D-6 C A 1.00 XC SA 0 C - N ET-2(F), PI-T GyRg.2 p y,g xv-42-1F059H 1 M-42 (SMT 13 0-3 C A 1.00 xC SA 0 C - N ET-R(F), PI-T GvRR 2 PENT. E-318 kV-42-1Fn59L 1 M-42 (SMT 2) E-6 c 4 1.00 xC. SA 0 C - N ET-R(f), PI-T GynR-2 PENT. E-40A
-_, _ ____-_-.~
R a
).
'$?tc. ML-005 REV!SION 2 VALVE TABLE IST TABLE - VALVES PACE NO: 28' L!MERIEIC CENERAflWG $TATION ..tMIT 1. & COMMON DATE: 09/06/91 t
SYSTEM: 42 NUCLEAR BOILER VESSEL INSTRUMENTAT!DN POSITION VALVE CODE VALVE ACT/ . valve ACT. APP. J TEST FREQUENCY VRR/VCS NUMSER CLASS ,PilD- COORD CAT. -PAS $1ZE - TYPE TYPE NRM SAF FAL TYPE C (DIRECTION). NtMBER REMARKS-yV-42-1F059M 1 M-42 (SHT 2) D4 C 'A .1.00 XC SA ' O C - N ET-R(F), P!-T CVRR-2 PENT. X-32A XV-42-1F059N 1 M-42 (SHT 2) F-6 C A 1.00 XC SA 0 C - N ET-2(F), PI-I CVRR-2 ' PENT. X-40A xv-42-1F059P 1 M 42 (SHT 2) D-4 C A 1.00 XC S4 0 C - N ET-R(F), PI-T CVRR-2 PENT.'X-32A' XV-42-1F059R 1 M-42 (SHT 2) F-6 C' 4 1.00' XC SA 0 C - N ET-R(F), PI-T CVRR-2 ' PENT. X-40A XV-42-1F059S 1 M-42 (SHT 2) D-4 C A 1.00 XC SA 0 C - N ET-R(F), PI-T 1;VPR-2 PENT. 2-32A xv-42-1F050T 1 M 42 (SMT 2) F-6 C A 1.00 xC SA 0 C - N ET-R(F), PI-T CVRR-2 PENT. X-518 xV-42-1F059U 1 M-(/ (SHT 2) D-4 C A 1.00 kC SA 0 C - N ET-R(F), P!-T CVPR-2 PENT...X-328 1 XV-42-1F061 1 M-42 (SNT 13 8-4 C A 1.00 XC SA 0 C - N ET-R(F). PI-T ' CVRR-2 PENT. X-33A-2 i XV-42-1F065A 1 M-42 (SMT 1) F-6 C A 1.00 XC SA 0 C - N ET-R(F), P!-T CVRR-2 PENT. X-488 xv-42-1F0653 1 M-42 (SNT 1) F-4 C A 1.00 xc SA 0 C - N ET-R(F), Pi-T CVPR-2 PENT. X-48A-1 xV 1 F 076 1 M-42 (SHT 1) C-4 C A 1.00 XC SA O C - N ET-R(F), PI-T GVRR-2 PENT. X-33A-1. r 4 j S 6 - +-
~ - ,
.w 1 1'
.: SPEC. Mt-0 G .
REV1910N 2-VALVE TABLE IST TABLE - VALVFC PACE No: 29 ' LIMfPsCK CEutRATING STATION * (JN!i 1 & COMMON ~ .DATE: 07/06/91-- i SYSTEM: .43' REACTO't RECIRCULATION PUMP POSITION
' CODE VALVE ACT/ VALVE ACT. APP. J. TEST FREQUENCY VRR/VCS . VALVE t%JMBE R CLASS P&I3 COORD CAT. PAS $12E TYPE. TYPE WRM SAF FAL. 1TPE C (DIRECTION) NUMBER REMARKS 43-10044 '1 'M-43 (. aft 1) C-7 ACL A. 1.00 CK SA 0 C .- 1 ET-R(R); LJ-T 43-VRR-1, GYRR-1 FEtif. M-61-1 43-10048 1 M-43 (SHT 1) B-7 AC A 1.00 CK SA 0 C - Y ET-R(R), LJ-T. 43-VRR-1, GVRR-1 PENT. X-51-2 HV 43-1F010' 1 N 43 (SMT 1) G-4 .A .A 1.00 Gt A0 OC C C Y ET-0, TS-Q(C), CVRR-1 PENT. X-28A-1.
ST-Q(C), LJ-T, PI-T HV-43-1F020 1 M-43 (SHT 1) G2 A A 1.00 GL A0 OC C C Y ET-0, FS-Q(C), GVRR-1 PENT. X-2SA-1 ST-Q(C), LJ-T, PI-T M-43 (SNT 1) C-4 8 A 28.0 GT Mo o C At N ET-C, ST-C(C), PI-T 43-VCS-1 HV-43-1F031A 1 t P-43 (SNT 1) A-$ 8 A 28.0 GT MO O C Al N ET-C, ST-C(C), PI-T 43-VCS-1 HV-43-1F031s M-43 (SHT 1) C-8 C A 1 00 EC SA 0 C - N ET-R(F), PI-T GV4R-2 PENT E-61-1 xv-43-103A 1
+
M 43 (SHT 1) 8-8 C A 1.00- XC SA 0 C - N ET-R(F), PI-T GVRR-2 PENT N-61-2 XV43-1039 1 M 43 (SHT.1) .E-8 C .A 1.00 NC SA 0 C - -M ET-R(F), PI-T GvRR-2 PENT N-3A-2 DV-43-1F003A 1 M-43 (SMT 1) A-8 C A 1.00 'XC SA 0 C - M ET-R(F), PI-T GVeR-2 PENT N-63-2 xV-43-1F003s t'
'M-43 (SHT 1) D-8 C 4 1.00 XC SA 0' C - N ET-R(F), PI-T CVRR-2 PENT x-50s-1 DV-43-1F004A 1 kV-43-1F004g 1 M-43 (SHI 1) A8 C A 1.00 WC SA 0 C - N ET-R(F), PI-T GVRR-2 PENT N-63-2 M-43 (SMT 2) H-3 C A 1.00 NC SA 0 C - N ET-R(F), PI-T GVRR-2 PENT N-5'A-1 XV-43-1F0094 1 D-3 C A 1.00 XC SA 0 C - k ET-R(F), PI-T GVRR-2 M MT W ';1A-2 XV-43-1N W8 1 M-43 (SNT 2)
F-3 C A 1.00 xc SA 0 C - N ET-R(F), PI-T GVR4 2 PENT N-349-1 XV-43-1F009C ' 1 M-43 (SHT 2) M-43 (SHT 2) C-3 C A 1.00 *C SA 0 C - N ET-R(F), PI-T GvRR-2 PENT x-3t.B-2 xV-43-1F0090 1 1.00 xC O C -- N ET-R(, PI-T CVap-2 PEwT y-51A-2 6-3 SA M-43 (SHT 2) C A
% -t3-1?O10A 1
1-SPEC. ML-003 sEVIS;as 2 VALVE TABLE-1ST TABLE - VALVES PAGE No: 30 L1MERICK CENERATING STATION - UNIT 1 & Cm MON DATE: 09/06/91 SYSTEM: 43 kEACTOR RECIRCULATION PUMP POSIT!DN VALVE . C(CE VALVE ACT/ VALVE ACT. APP. J TEST INEQUENCY VRR/VCS NUMSER CLASS P&lo COORD CAT. PAS $12E: L TTPE . (TPE kRM SAF FAL TTPE C (DIRECTION) NUPBER REMARKS XV-43-1F0108 1 M 43 (SHT 2) E-3 C A 1.00 SA o WC C. - N ET-R(F), P!-T GVRR-2 PENT X-51A-1. XV-43-1F0100 1 M-43 (SMT 2) F-3 C A 1.00 XC ' SA 0 C - N ET-R(F), PI-T GVPR-2 PENT R-348-2 XV-43-1F0100 1 M-43 (SHT 2) C-3 C A 1.00 'O XC SA C
- N ET-R(F), PI-T GVRR-2 PENT x-343-1 XV-43-1F011A 1 M-43 (SHT 2) F-3 C A 1.00 SA 0 WC C -~
N ET-R(F), PI-T GVRR-2 PENT x-50A-2 kV-43-1F0118 1 M-43 (SHT 2) 0-3 C A 1.00 XC SA o .C - N ET-R(F), PI-1 GVRe-2 PENT X-50A-3 XV-43-1F011C 1 H-43 (SNT 2) E-3 C A 1.00 M f' SA 0 C - N ET-R(F), PI-T GVRR-2 PENT M-528-1 NV-43-1F0110 1 M-43 (SHT 2) B-3 C A 1.00 XC SA O C ,. - N ET-R(F), PI-T GVRe-2 PENT X 52s-1 : xV-43-1F012A 1 M 43 (SNT 2) G-3 C A 1.00 XC SA O C - N ET-R(F), PI-T GVRR-2 PENT X-504-3 XV-43-1F0129 1 M-43 (SNT 2) C-3 C A 1.00 MC SA O C - N ET-R(F), PI-T GVRR-2 PENT x-50A-2 XV-43-1F012C 1 M-43 (SNT 2) E-3 C A 1.00 kC SA 0 C - N ET-R(F), PI-T GVPP 2 PENT x-528-2
-xv-43-1F0120 1 M-43 :SMT 2) a-3 C A 1.00- XC SA 0 C -
N ET-R(F), Pt-T GVRR-2 PENT K-528 2 XV-43-1FS40A 1 M 43 (SMT 1) B-2 C A 1.00 WC SA 0 C - N ET-R(F), PI-T GvRe-2 PERT X 43A XV-43 1F040B 1 M-43 ($MT 1) A*2 C A- 1.00 XC SA O C - N ET-R(F), P!-T GVRR-2 PENT X-58A XV-43-1F040C 1 *t-43 (SNT 13 8-2 C A 1.00 WC SA O C - N ET-R(F), PT-T GvtR-2 PENT K-43A XV-43-1F0400 1 M-43 (SMT 1) A-2 C A 1.00 FC 54 O C - N ET-R(F), PI-T GvRR-2 PENT M-63-1 f
..k'.
g , - ~. SPEC. ML-008
#EVISION 2 VALVE TABLE IST TABLE - VALVES- PACE NO: 31 LIMERICK CENERATING STATION - UNIT 1 & COMMON DATE: 09/06/91 SYSTEM: 44 REACTOR WATER CLEANUP POSIT!DN VALVE CODE -VALVE ACT/ ' VALVE ACT. APP. J TEST FREQUENCY- VRR/VCS NUMBER CLASS PLID COORD CAT. PAS SIZE . TYPE TYPE WRM SAF .FAL' TYPE C (DIRECTION) NUMBER REssARKS HV-44-1F001 1 M-44 (SRT 1) ET A .A ' 6.00 CL - MO O -C Al Y ET-C, ST-C(C), LJ-T, 44-VCS-1, CVRR 1 PENT X-14 [
PI-T HV-44-1F004 1 M-44 (SNT 1) E-6 A. A ' 6.00 CL MO O .C 'Al f ET-C,'ST-C(C), LJ-T, 44-VCS-1, CVRR-1 PENT X-14 P!-T ( HV-44-1F039 2 M-44 (SMT 2) H-7 AC A 4.00 CK SA 0 C - Y ET-C(R), LJ-T, P!-T 44-VCS-1, GYRR-1 PENT X-9A, X-99 ' XV-44-102A 1 M-44 (SMT 1) .E-6 C A 1.00 xC 54 0 C - N ET-R(F), PI-T CVnR-2 PENT M-41 XV-44-1029 1 M-44 (SHY 1) D-6 C A 1.00 xC SA O C - N ET-R(F), PI-T CVPR-2 PENT X-41 , xv-44-102C 1 M-44 (SMT 1) D-6 'C A 1.00 XC SA D C - N ET-R(F), PI-T CVRR-2 PENT X-57 XV-44-102D 1 M 44 (SMT 1) C-6 C A 1.00 NC - SA 0 C - N. ET-R(F), PI-T CYRR-2 PENT N-47 ' xV 44-170 1 M-44 (SMT 1) C-6 C A 1.00 XC SA 0 C - N ET-R(F), P!-T CyaR-2 PENT X-400 XV 44-171 1 M-44 (SMT 1) B-6 C A 1.00 XC SA 0 C - N ET-R(F), PI-T CVRR-2 PENT N-40D. I L F k
d N_ s $. f i' SPEC. mL-008 REVISION 2 VALVE TA8tE tit TA8LE - VALVE 5 PAGE so: 32 LiutRICK CEEERAT!s". STAft0E - U417.1 & C m MON DATE: 09/06/97
'STSTEM: 46 CC41ROL R(D DRIVE MYDRAUllC - PART A f POSITIOW.
tfALVE ' CTE VALVE ACT/ VALVF ACT. APP, if TEST T2E LtaCT VasfvCs }. 1 CAMBER ^ ' CLASS P1tD COOPD CAT. PAS $12E TT*E TYPE WR* -SAF TAL TTPE C (DIRECTION) WJMBER REMARTS j . _ __ l 46-1-1101 2 M-46 (SMT 1) . F-2 ' A, C 'A 2.00 CK SA 0 C - T ET-Cta), LJ-T :46-vC:-1 'r! 46-1-1102 2 M-46 (snT 1) F-2 A, C - A- 2 00 CK SA 0 C - Y ET-C(R), LJ-T 66-vCS-t 46-1-1108 2 M 46 ($MT 1) *6' AC A 2.00 CK SA 0 C - 1 ET-C(Et LJ-T 4-VCs-1 f-46-1-1107 2 M-46 (SMT 1) F.-6 .A, C A 2.00 CK SA O C - Y El-C(8), LJ-T 46-vts-1 1 46-1-1113 2 M-46 (SWT 1) F-? A, C A 1.00 CK SA C C - Y ET-C(R), LJ-T 45-VC5-1 i 46-1-1116 2 M-46 (LET 1)' F-2 A, C .A 1.00 . CK SA O C - Y ET-C(R), LJ-T 4-vCS-1 . 46-1-1122' 2 M-46'($MT t) G-6 4, C A 1.00 CK SA O C - Y ET-C(t), LJ-T 46-VCS-1 4G-1-1123 2 ' M-46 (sat 1) G-6 A,
- A 1.03 CK SA O C - Y ET-Ctt), LJ-T 4-vCS-1 i
WV-46-125 - M-46 (shi 1) C-3 8 A 1- CL NO C 0 AI # ET-R, ST-Etc), Pt-T 4-vst-1 s MV-46-126 - M*46 ($NT 1) C-3 8 A 1 CL #3 C O AI N ET-R, ST-Rf0), PI-T 46-v*t-1 NV-46-127 -' M-46 (SMT 1) C-4 8 A 1 CL MO O 'C At u ET-0, sf-0(C), Pt-T ny-46-123 . . M-46 ($nt 1) C-4 8 A 1 CL MO O C At E ET-0, ST-ort), PI-T 1 1 i i i k
}
t
$8'tC. ML-005 REV1510N 2 VALVE Tp6LE 1 PACE JsC: 33 IST T ABLE - V A!.VES CATE: C9/06/91 L1=$81Cf Cf 4E24T1tG ST ATIOes - LMIT T & CtwwwC18 SYSTEM: 47 CONTPOL ROD CRivE NTDRAULIC - FMT B POSITiCW AFF. J TEST FFt3UECCY 47 TAU
%ALVE ACT/ VALVE AC7. mJw ,En FEMARES valVL CODE 77E C (01FECTIC4)
CAT. FAS SIZE TYPE TYPE NEM $AF F A* CLR$5 ROD C00tD WUw3ER
# ET-#2(F) 47- vrt- 7 75 CE SA C O -
2 M-47 (SMT 1) 0-6 C A 47-1-14(02-19) 0 N ET-73(F) 47-vra-1 D-6 C A .75 CK SA C - 47-1-14(02-23) 2 M-47 (SMT 1) 47-yes-1 75 Cr sa C o - m ET-sa(r) D-6 C A 47-1-14(02-27) 2 M 47 (SMY 1)
# ET-eatv) 47 vsa-1 A 75 Ct SA C 0 -
M-47 (SMT 11 c-6 C 47-1-14(02-31) 2 u ET-R2(F) 47-vse- 1 A . 75 Cr SA C 0 - 2 M-47 (Sui 1) 06 C 47-1-14(02-35) a E7-tG(F) 47-ves-1 l A 75 CE SA C 0 - 2 m-47 (SMT 1) D-6 C 47-1-14(C2-39)
# ET-astF) 47- vs s.1 a .75 CC 5A C 0 -
( M-47 (SMT 1) 0-6 C 47-1-14(02-431 2 J
# ET-tatt) 47-ves -1 A .75 CK SA C 0 -
l 2 M-47 (SMT 1) D-6 C l 47-1-14(06-15) - N E T - F 3( .') 47-Vos-1 A .75 CK $4 C O - 2 M-47 (SMT 1) D-6 C 47 14(v6 19) N ET-83(F) 47- vTs - 1 A .75 CE SA C 0 - 2 M-47 (SM7 1) D-6 C 47-1-14(06-23) ET-e;(f) 47-ves-t 75 Cr SA C o - w 2 M-47 (snt 1) 0-6 C A 47-1-14(C6-27) ET-ratry 47.wsa-1 A .75 cr sA C o - w M-47 (sur 1) D-6 C 47 14(C6-31) 2 e ET-aa(F) 47- ves - t C # . 75 Cr T4 C o - 2 M-47 (SNT 13 0-6 47-1-14406-35) m ET-t&(F) 47-vam-1 C A .75 Cr SA C o - 47-1-14(C6-39) 2 M-47 (sui 1) 0-6 o = ET-aa(F) 47-vss-1 A .75 Cr sa C - 2 m-47 (suf 12 D-6 C 47-1 14(06-43) C - 8 ET-Rstf) 4.7-ves-1 A .75 C4 SA C 2 P-47 (SNT D-6 C 47-1-14(C6 47) .
# ET-catry 47 s**-1 c A .75 CK sa C 0 -
2 u-47 (SMT 1) 0-6 47-1-1. .0 11)
# E T -Ru f ) 47-vws-1 A .7) CK SA C 0 -
2 M-47 (SW1 1} D-6 C 47-1-14(10-15)
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. pat:E C: 34 1 IST TA8tt - VALTES caTEL 09/06/91 t!MERICE CEWERATING ST AT 08 - tMIT 1 & CDescu SYSTEM: 47 CON 1ROL RCD C#1VE RYD*4ULIC - FAni s MS!flCW VALVE ,ACT/ VALVE A?,- APP. J TEST FatouEnti vesfvts ._
VALVE CTE WuMCES SEMARKS CLASS FilD COORD CAT. FAS 5 TIE 1TPE ' TYP" WaM SAF FAL TTFE C (D!RECTION) NUMBER _ _ _ 0-6 lC A 75 Cr sA C o - a' Ev-tatt) 47-ves.1 47-1-14(10-19) 2 - 7 (SMT 13 SA C o - t ET-R2(7) 57-vst -t D-6 C A- 75 CE 47-1-1&(10 23) 2 M-47 ($MT 1) sA C o - a ET-ratr> 47-vra 1 A M-47 (SNT 1) D-6 C. A .75 CK 47-1-14(10-27) 0 N ET-R3(F) 47-Yte-1 M-47 (SMT 1) D-6 C A .75 Cr 5A C - 47-1-1&(10-31) '2 3 54 C o - u ET-83(F) 47-vst-1 M-47 ($4T 1) D-6 C A 75 47-1-1&(10-35)- 2 0 # ET-R3(f) 47-vrt-1 C A .75 CK SA C - 4 N -14(10-39) 2 M-47 (sni 1) 0-6 SA C 0 - N ET-ta(F) 47-vva-1 2 N-47 (Sui 11 'D-6 C A .75 CK 47-1-14(10-43) ET-R3(F) 47-yet-1 0-6 C A .75 CK SA C o - m 47-1-16(10-47) 2 M-47 (SMT 1) u ET-Rat?) 47-ves-t 2 M-4T (SWT 1) 0-6 C .A .75 cr 5- C 0 - 47-1-1&(10-51) m ET-a3(r) 47-yee.1 D-6 A .75 Cf SA C 0 - 47-1-1&(14-07) 2 M-te (Sai 1) C SA C O - 4 ET-Ra(f) 47-vru-1 2 M-47 (SHT 1) D-6 C A .75 CK 47-1-14(14-11) C o - u ET-#3(f) 47-ves-T 2 M-47 (SMT 1) D-6 C A .75 Cr SA 47-t- 1& (1&.15) W ET -R3(* ) 47-yst.) CE ' $P. C O - 47-1-1&(14-19) 2 es-47 (suf 1) D C A . 75 4 ET-33(r) 47-ygg-t A 75 CX SA C O - 2 'M 47 (SNT 1) .D-6 C 47-1-14(14-23) o - e ET-aatr) 47-vam-i D-6 C A 75 Cr SA C 47-1-16(14-27) 2 88-47 (Sat 1) o - a ET-watr) 47.veg., C A .75 Cr SA C 47-1 14(16-31) 2 M-47 ($n! 1) D-6 A .75 Cr sA C o - a ET-satr> 47-ves-t 2 m-47 (Sut 1) 0-6 C 47-1 14(1&-35) A .75 Cr A C o - a iT-EG(r) 47-vsa-t 2 M-47 (SMT 1) D-6 C 47-1-1&(16-39) l l l; i l l [__ _ . . . . . . . . . . . . ..
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-f IST TABLE - VALVES PAGE E*', 35 [
Lt*ERICK GtstaAf twG STATIO4 - LMelt 1 & COMPON DATE: 09/06/71 , SYSTEM: 47 CONTROL.RCO DittVE MYDRAULIC - PART 3 l PCSITION WA(VE ACT/ VAtVE ACT- APP J TEST FREQUEECT VFt/VCS VALVE CODE WJpBEM REMARES CLASS P&lD COORD CAT. PAS SIIC . TYPE TYPE NT4 SAF FAL TYPE C (DIRECTION)
- i. NUMBER f 47-vam-1 r D-6 .C A .75 CK - SA- C 0 -
N. ET-Ra(F) 47-1-14(14 43) 2 M-47 (SMT 1) ! f ,4 M-47 (SMT 1) - D-6 C 'A .75 . Ct sa C o - a ET-aa(F)- 47-van-t ! 47-1,14(14-47) 2 [
.75 CK SA e o .- u ' ET-#a(F) ' 47-stR- t 47-1-14(14-51) 2 M-47 (SNT 1) D-6 C A !
.75 CE SA C 0 - u ET-8C(F) (7-vre-t 47-1-14(14-55) 2 M-47 (SMT 1) . D-6 C A
.75 CK SA C 0 - E .ET-Ra(F) 47-vrR-1 i 47-1-14(15-03) 2 M-47 (SMT 1) ' . D-6 C A i-SA C 0 4 ET-Ra(F) 47-vrp-1 47-1 14(18-07) 2 -. M-47 (SMT 1) D-6' C A .75 CK -
l ( C A .75 CK SA C O -
# ET-Ra(F) 47-vre-T
, 47 1-14(18-11) 2 ' M*47 (SMT 1) 0-6 L D-6 C A .75 CE SA C o - m ET-ta(F) 47-vet.1 t + 47-t-14(13-15) 2 M-47 (SMT 1) f i
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D-6 C A .75 CK SA C 0 - # ET-ma(F) 47-vre-1 47-1-14(18-19) 2 M-47 (SHT 1) i D-6 C A .75 CK SA C 0 - N ET-ta(F) 47-vre- 1 l 47-1-14(15-23) 2 M-47 (SNT 1) > h D-6 C A .75 CE SA C 0 - m ET-sa(F) 47-vra-1 47-1-14(15-27) 2 M-4e' (SMT 1) h 6 D-6 A _ .75 CK SA C 0 - W E T -sa(F ) 47-vre- 1 , 47-1-14(18-31) '2 M-47 (Shi 1) C 47-ygg.g g
.75 CK SA C O N ET-pa(F) 47-1-14(13-35) 2 M-47 (SMT 1) D-6 C A D-6 C A .75 CK SA C 0 - 4 ET-Ra(F) 47-vst-1 47-t-14(18 31) 2 M-47 (Suf 1)
I M-47 q$NT 1) . D-6 C A .75 CK SA C 0 - # ET-sa(F) 47-vre- t 4 47-1-14(18-43) 2 t 0-6 C A .75 CK SA C 0 - = ET-satF ) 47-vsit- t [ 47-1-14(18-47) 2 M-47 (SMT 1) I y C O 4 ET-pa(F) 47.ygg.1 2 M-47 (SMT 1) D-6 C . .75 CE SA - 47-1-14(18-51). 0-6 C A .75 CE SA C O - N ET-ma(F) 47-veg-g l 47-1-14(15-55) 2 M-47 (SMT 1) r
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_s" ~.;i. g SPEC. PL-008 hEvision 2 ' VALVE TA8tt IST TABLE - VALVES PACE NO: 36 LIMERICK CENERATtWG STAfl05 - Uuti 1 & COMMON DATE: C9/06/91 SYSTEM: 47 C0kTROL R(E DRIVE MTCRAULIC . PART 3 POSITION .- VALVE CODE VALVE ACT/ VALvt ACT. APP. J- TEST F8EtlFJEWCY VFR/VC3 CUMBER t1 ASS PE!D COORD CAT. PAS , SIZE TYPE TYPE WFM SAF FAL TYPE C (DIREtit04) meesta stMARES . 47-1-14(15-591. 2 M-47 ($WT 1) D-6 C A .75 CE - SA C 0' - t ET-83(F) 47-pe-1 47-1-14(22-03) 2 M-47 (SMT 1) 0-6 C A 75 CK SA C 0 - N ET-RatF) 47-vre-1 47-1-14(22-07) 2 M-47 (StiT 1) 0-6 C A .75 CE SA - C C - N ET-R2(F) 47-ven-1 47-1-14(22-11) 2 w-47 (s4T 1) 0-6 C A .75 CK SA C 0 - N ET-aa(F) 47-yys-t
~ 47-1-14(22-15) 2 M-47 (sat 1) D-6 C A .75 CE 5A C 0 -
u ET-natF) 47-vas-1 47-1-14(22-19) 2 M-47 (sni 1) D-6 C A .75 CE SA C 0 ' - 4 ET-a3(F) 471ta-1 47-1-14(22-23) 2 M-47 (SMT 1) D-6 C A 75 CK SA C o - N ET-aa(F) 17-vyn 3 47-1-14(22-27) 2 M-47 (SMT 1) D-6 C A 75 CK SA C 0 - W ET-83(F) 47-vte-1 47-1-14(22-31) 2 M-47 ($NT 1) 0-6 C A .75 CK SA C C - m ET-t3(F) 47-vam-1 47-1-14(22-35) 2 M-47 (SNT 1) D-6 C A .75 CK $A C O -
% ET-R&(F) 47-ven-1 47-1-14(22-39) 2 M-47 (SMT 1) 0-6 C A 75 CE SA C 0 -
m ET-aa(F) 47-yps-t 47 %-14(22-43) 2 M-47 ($ET 1) D-6 C A .75 Cut SA C o - E E' - MF) 47-von-1 47-1-14(22-47) 2 M-47 (snt 1) D-6 .C A .75 CK SA C o - m ET-tatF) 47.ves.1 47-1-14(22-51) 2 M-47 (swT 1) 0-6 C A .75 CT SA C 0 - # ET-matF) 47-vas-t 47-1 14(22-55) 2 M-47 (sni 1) D-6 C A .75 Cr sA C o - a ET ar(F) 47-vas-t 47-1-14(22-59) 2 M-47 (SMT 1) D-6 C A .75 CE SA C o - u ET-es(F) 47-vam-1 47-1-14(26-03) 2 M-47 (SMT 1) 0-6 C A 7'; Ct 54 C o - m ET-eats) 47-ves-1 47-1-14(26-07) 2 M-47 (SMT 1) D-6 C A 75 CE 14 C 0 - a ET-#3(F) 47-vsm 1
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- EPEC. ML-008 REVI5fou 2 VALVE Taste IST TABLE - VALVEF- PAGE =0: 37 LIMERICK CEXERATlWG STATT04 - tm!T 1 & COMMON CATE: 09/06/71
. SYSTEM 47 CONTROL E00 DRIVE IITDRAULIC - PARY B POSITICR CCDE VALVE ACT/ VALVE ACT. APF. J TEST FREQUENCY vt#/VCs VALVE TTPE atM SAF FAL T'FE C (D!#ECTION) muMBER REM;. hts WUMBER CLASS. P&tD .COORD CAT. PAS $1ZE TYPE 2 M-47 (SMT,1) .D-6 C A' D CK SA C 0 - (1 ET-eE(F) 47-Vra-1 47-1-14(26-11) M-47 (SMT 1) D-6 C' A '.75 CK SA C O - W' ET-R3(F) 47 vst-1 47-1-14(26-15) 2-47-1-14(26-19) 2 . M-47 (ss.T 1) 0-6 C A .75 CK sA C 0 - N ET-Ra(T) 47-vrt-1
.75 sA C o N ET-aa(F) 47-vag-t 47-1-14(26-23) 2 M-47 (SMT 1) D-6 C A CK -
D-6 A .75 CK SA C' O - N ET-R3(F) 47- VER - 1 47 1-14(26-27) 2 M-47 (SMT 1) C 2 M-47 (sMT.1) D-6 C A 75 CK SA C 0 - # ET-#3(F) 47-vta-1 4711-14(26-31) O ET-ea(F) 47-yet-1 47-1-14(26-35) '2 M-47 (SNT 1) D-6 C A .75 - CK SA C - N
.75 .C 0 - N .%e 47-yea.1 47-1-14(26-39) 2 M-47 (SMT 1) D-6 C A CK . SA ,
47-1-14(26-43) 2 M-47 (SMT 1) C-6 C A' .'t5 - CK 4A C o - e 6 cat- 47-yen-1 47 1-14(26-47) 2 M-47 (sMT 1) D6 C A .75 CK sA C o - e ;7 F) 47.vn,.1 D .C A. .75 CK SA C 0 - N -+) 47-vpp-1 47-1-14(?6-51) 2 M-47 (SMT 1) D-6 C A .75 CK SA C O - N * * (F) 47-vpp 1 47-1-14(76-55) 2 M-47 ($MT 1) M-47 (suf 1) D-6 C' A .75 CK sa C o - m datr> 47-van-1 47-1-14(26-59) 2 M-47 (sMT 1) D-6 C- A 75 CK SA C O - 4 ET-R3(7) 47-voe-1 47-1-14(30-03) 2 47-1-14(3D-07) 2 M-47 (SHT 1) D-6 C A .7% C( ' SA C O - # ET-R&(F) 47.we -t 47-1-14(30-11) 2 M-47 (SMT 1) D-6 C .A .75 CK SA C 0 - N ET-83(F) 47-vos-t D-6 C A .75 CK sA C O . m ET-sp(p) 47.yp.g.g 47-1-14(30-15) 2 M-47 ($MT 1) 47-1-14(30-19) 2 M-47 (SMT 1* D-6 C A .75 CK sa C o - u ET-Re(F) 47-v,=-1
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j SPEC. Mt 0*J REVT5ftus 2 _ l VAivE TAst,E i Pact mo: 38 IST TABLE - %ALVES t!MEttCK GEsE* ATING STATION - (MIT 1 & COM"04 DATE: 09/06/91 SYSTEM: 47 C04 TROL ROD DRIVE MTDRAutIC - PART 8 f POSITION I YALVE ACT. APP. J TEST f*EQUEECT VfD/1A'S VALVE CCEE VALVE ACT/ i NUMBER ptMARKS ! NUMBER CLASS FilD .COORD CAT. PAS' SIZE TYPE iTPE EPM SAF FAL TYPE C (DIRECTION) i a
.N CK SA C C - u ET-E9(F) 47-ves-1
_ (7-1-14t3D-2 2 M-47 (SMT 1) D-6 C A l t SA C 0- N' ET-R3(F) 47-vse.T l 47-1-14(30-27) 2 M-47 isMT 1) 0-6 C A .75 CK - 4- N ET-se(F) 47-vyt-1 2' M-47 (SMT'1) D-6 C A .75 ' CK SA C 0 - 47-1-14(30-31) ! SA C C - # ET-ad(F) 47- VER ' t
-2 M-47 (Siti *) D-6 C A 75 CK 1 47-1-14(30-35) 1 A 75 CK SA C' o - m E T-tat F) 47-vrw-1 47-1-14(30-39) 2 M-47 (suf 1) . D-6 C t'
D-6 C A .75 CK SA C C - # ET*R9(F) 47-vrt-1 i- 47-1-14(30-43) 2 M-47 ($MY 1) C 0 2 ET-RG(F) 47-vya-1 2 M 47 ($MT 1) D-6 C A .75 CK SA - 47-1-1&(30-47) 1 D-6 C A .75 CK SA C o - u ET-ta(F) 47-vre- t I' 47-1-14(30-51). 2 M-47 (SMT 1*
- t
.75 CK SA C 0 - m ET-ra(F) 47-ver.t i 47-1-14(30-55) 2 .M-47 (Snf 1) D-6 C A .
SA C O u ET-RG(F) 47-vsg-1
'M-47 ($HT 1) D-6 C A .75 CK - ! 47-1-14(30-59) 2. .
SA C 0 - N ET-P3(F) 47-yon-1 .} M-47 (sMT 1) D-6 C A 75 CE i 47-1-14(34-03) 2 !
.75 CK SA C O - u ET WGtF) 47-vs e-1 :
l 47-1-14(34-07) 2 M-47 (snt 13 D-6 C A 4, I $A O N ET-pe(F) 47-yes-1 j 2 M-47 (SMT 1) 0-6 C A .75 CK C - i 47-1-14(34-11) D-6 C A .75 CK SA C 0 - N ET-#3(F) 47-vat-1 47-1-14(34-15) 2 lM-47 (SMT 1)' .
.75 CK SA C o - W ET-ma(F) 47-von-1 i 47-1-14(34-19) 2 M-47 (swi 1) 0-6 C A I
i N ET-RC(F) 47-vrt-1 f 2 M-47 (suf 1) 0-6 C A .75 CK SA C O - t 5 47-1-14(34-23) P
- 1. -
J D-6 C A .75 CK SA C 0 - m ET RQ(F) 47-ves-t 47-1-14(34-27) 2 m-47 (sMT 13 ! ] ; I 0 m ET-aa(F) 47-vpe.1 2 . M 47 (sNT 1) D-6 C A .75 CK SA C - i 47-1-1e(34-31) ! t 1 ' i l I a I i' i . .
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i< SPEC. ML-008 i REv1SION 2 j'. VALVE TABLE IST TAELE - VALVES PAGE NO: 39 LIMERICK CENEPATING STATION - UNIT 1 & COMMON DATE: 09/06/91
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i SYSTEM: 47 CONTROL RCD CRIVE NYMAULIC - PART 8 l POSITION VALVE, CODE VALVE ACT/ VALYE ACT. - APP. J TEST FREQUENCY VRR/vCS NUMBER CLASS P&lD COORD CAT. PAS SI2E TYPE TYPE NRM SAF FAL TT*E C (DIRECTION) NUMBER REMARKS e 47 1-14(34-35). 2 P-47 (SMT 1) D-6 C A .75 CK SA C 0 - N Ei-4G(F) 47-vst-1 i i 9 47-1-14(34-39) 2 M-47 (SNT 1) D-6 C A- .75 CK SA C 0 - :: ET-a3(F) 47-vam-1 i M-47 (SMT 1) 0-6 A 75 CK SA C 0 - N ET-Ra(F) 47-vup-1 l ! 47-1-14(34-43) 2 C 47-1-14(34-47) 2 M-47 (SMT 1) D-6 C A 75 CK SA C 0 - N ET-wa(F) 47-yag-t 47-1-14(34-51) 2 M-47 (SMT 1) 0-6 C A .75 CE. SA C 0 - N ET-Ratt) 47-vnt.1 [ r 1 M-47 (SMT 1) D-6 4 .75 CK SA C 0 # ET-Ra(F) 47-vrR 1 f 47-1-14(34-55) j 2 C 47-1-14(34-59) 2 M-47 (SMT 2) 0-6 C' A 75 CK SA C 0
- 4 ET-RG(F) 47-vsa -1
- L l 47-1-14(38-03) 2 M-47 (SNT 2) D-6 C A .75 CK SA C 0 - N ET-Ra(F) 47-vta-1 l 47-1-14(35-07) 2 M-47 ($MT 2) 0-6 C A .75 CK SA C 0 - N ET-aa(F) 47-VRR-1 47-1-14(38-11) 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-ma(F) 47-vte-1 M-47 (SMT 2) D-6 C A 75 CK ' SA C 0 - 4 ET-Ra(F) 47-yet-1 47-1-14(38-15) 2 a 47-1-14(33-19) 2 M-47 (SMT 2) D-6 C A ,75 CK SA C 0 - N ET-ta(F) 47-yae-1 M 47 (Swi 2) D-6 C A .75 CK SA C 0 - N ET-a3(F) 47-yea-1 47-1-14(35-23) 2 M-47 (SMT 2) 0-6 C A 75 CK SA C 0 - # ET-pa(F) 47-vap-t 47-1-14(38-27) 2 47-1-14(38-31) 2 M-47 (SMT 2) 0-6 C A .75 CK ' SA C 0 - # ET-p3(F) 47-vam-1 47-1-14(33-35) 2 M-47 (SNT 2) D-6 C A .75 CK SA C 0 - N ET-patF) 47 vse-1 47-1-14(33-39) 2 M-47 (SNT 2) 3-6 C A .75 CK SA C 0 - N ET-Ra(F) 47-voa-1 j-4 M-47 (SNT 2) D-6 ' -C A .75 CK S4 C 0 - u ET-matt) 47-yes.1 47-1-14(3S-43) 2 ? 1 8 .L
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SPEC. ML-006 PEvlstom 2 VALVE TA5LE IST ?ABLE - VALVES Pi"E WO: 40 LIMERICK GENERAfttG STATION - LUIIT 1 E COMMON DATE: 09/06/*#1 ST5 FEM: 47 Com7ROL RLD DRIVE nTDRAULIC - PART 8 POSITION BALVE. CODE. VALVE ACT/ VALVE ACT. ATP. J TEST FREQUENCY vtt/vCS CUMBER CLASS P&!D C00'tD CAT. PAS SIZE TTPE TTPE NRM SAF FAL TTPE C (DIRECTION). wJs5ER REwArts 47-1-14(38-47) 2 M-47 (SMT 2) D-6 C A .75 CK . SA C 0 - N ET-RQ(F) 47-vta-1 I 47-1 14(33-51) 2 M-47 (Stif 2) D-6 C A .75 CE SA C 0 - a 'ET-R3(F) 47-vtR-1 47-1-14(35-55) 2 . M-47 (SNT 2) D-6 C A .75 CK ' 5A C O - N ET-RG(F) 47-ves-1 47-1-14(35-59)' 2. M-47 (sNT 2) D-6 C A .75 CK SA C o - u ET-R2(F) 47-von- 1 47-1-14(42-03) 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-ma(F) 47-vaa-1 47-1-14(42-07) 2 M-47 (SMT 2) D-6 C A .75 CE SA C O - N ET-Ra(F) 47-vst- 1 47-1-14(42-11) 2 ' M-47 ($nt 1) 0-6 C A .75 CK SA C 0 - N ET-R3(F) 47-vra-1 47-1-14(42-15) 2 M-47 (sNT 1) 0-6 C A 75 CK SA C C - t ET-R3(F) 47-vet-1 47-1-14(42-19) 2 M-47 (SMT 1) D-6 C A .75 CE SA C 0 - t ET-R3(F) 47-vys-1 47-1-14(42-23) 2 M-47 (smT 1) D-6 C A .75 CK SA C 0 - N ET-33(F) 47-ygg-1 47-1-14(42-27) 2 M-47 F'wi 1) D-6 C A .75 Cr SA C 0 - u E T-ea(F) 47-vna-1 47-1 14(42-31) 2 M-47 (swi 1) D-6 C A .75 CK 54 C 0 - N- E T-ea(F ) 47-vpa-t 47-1-14(4 -35) 2 M-47 (Sa; ** D-6 C A .75 CE SA C 0 - # ET-#3(F) 47-ver-3 47-1-14(42-39) 2 M-47 (suf 1) D-6 C A .75 CE SA C .O - u ET-#3(F) C-Wst-1 47-1 14(42-43) 2 M-47 (Swt 1) D-6 C A .75 CK SA C 0 - u ET-tG(F) 47-vRs- t 47-1-14(42-47) 2 M-47 (SMT !) D-6 C A 75 CK SA C 0 - u ET-as(F) 47-vng-1 47-1-14(42-51) 2 M 47 (SMT %) D*& C A 75 CE 54 C O - N ET-Ra(F) 47-ypa-1 47-1-14(42-55) 2 M-47 (spf 13 0-6 C A .75 CK SA C o -
# ET-83(F) 47-vos-1
S- t i ! $PEC. ML 008 1-FEY 1510E 2 v4LvE TABLE. PAE WO: 41 IST TA8LE - VALVES f DATE: 09/06/77 timERICK CEkERATING STAfl0N - UNIT 1 & CDP"04 SYSTEM: 47 CONYROL RUD CRIVE WTDRAUL1C - PART S FOSITIC4 VA&vE ACT. APP. J TEST FrEQUEECT VRt/vCS CCCE VALVE ACT/ WEMAsts VALVE WUMBER' COORD CAT. FAS SI2E' ' TYPE TTft kR4- SAF TAL TYPE C (Ot#ECTfCW) NUMBER ., CLASS P&tD SA C- 0 - N. Et-a3(7) 47-vsa-1 2 .M-47 (SMT 1) D-6 C A .75 CK 47-1-14(42-59) SA C C - a ET R3(F) 47-vam-1 l' 2 M-47 (SMT 1)- D-6 C A .75 CE i 47-1-14(46-07) . i C O- - E ET-RatF) 47-VER-t M-47 (SMT 1) D-6 C A .75 CE SA i 47-1-14(46-11) -2 SA C o - a ET-93(F)' 47-vrt- t
~
0-6 C A 75 CK 47-1-14(56-15) 2 M-47 (Smi 1) l 47-va#-1
.75 & L C o - u ET-83(F) 47-1-14(46-17) 2 M-47 (SMT 13 0-6 C A 1
SA C o - m ET-watt) 47-vez-1 2 M-47 (ut 13 0-6 C A .75 CE 47-1-14(46-23) SA C D - 4 Ei-t3(F) 47-vst-1 C A 75 CE 47-1-14(46-27) 2 M-47 (Set 1) 0-6 ! SA C- 0 - 4 ET a3(F) 47-vre-1 2 M-47 (SHT 1) 0-6 C A .75 CK
- 47-1-14(46-31)
C o - w ET-a3(F) 47-wa-1 2 M-47 (Swt 13 0-6 C A .75 CE SA 47-1-14(46-35) 4 C e 'iT-R3(F) 47-vsa-T 0-6 C A .75 CE SA C - 4 47-1-14(46-39) 2 M-47 (SMT 1) E ET-a3(F) 47-v,3-1 A 75 CE SA C O - 2 M-47 ($8T 1) D-6 C 47-1-14(46-43) C 0 - # ET-83(F) 47-vsa-1 M-47 (Sui 1) D-6 C A .75 CE SA 4 47-1-14(46-47) 2 SA C c - m ET-aatt) 47-vse-1 0-6 C A 75 tt 47-1-14(46-51) 2 M-47 (Smi 1)
! SA C o - e ET-R3(F) 47-ves-1 M-47 (Swi 1) c-6 C A .75 CE 47-1-14(46-55) 2 j
4 ET-p3(F) 47 ,w-1 A 75 CE SA C 0 - 2 M-47 (Suf 1) D-6 C 47-1-14(50-11) A 75 CE SA C o - u ET-#3(F) 47-vst-1 2 M-47 (Sni 1) 0-6 C 47-1-14(50-15) C o - m ET-s3(F) 47-vam-1 M-47 (SMT 1) 0-6 C A ' .75 CK SA 47-1 14(50-19) 2 u ET-pacF) 47.va ,-1 0-6 C A 75 CC sa C o - 47-1-14(50-23) 2 M-47 (Suf 1)
- g. - .
' S*TC. ML-005 4
#Ev!SICm 2 4 VAlvt tat *2 .
IST TABtf - VALVES PAGE uC: 42 ! 1 LIME #tCK CEEERAT!ka STATION - 1141T 1 & COMMom DATE: 07/0t</71 SYSTEM: 47 CouTRC* RCD CR1VE NYDRAULIC - PART B l l POSITION VALVE CODE VALVE ACT/ VALVE ACT. APP. J TEST FREQUENCY VRR/VCS l alUMBER CLASS Pt!D C00RD' CAT. PAS $12E TYPE TYPE NRM SAF- FAL TYPE C (D!RECTION) NUMBER REMARK $ 47-1-14(50-27) 2 M-47 (Suf 1) D-6 C A .75 CK SA C 0 - N ET-R3(F) 47 VRR 1 ! . 47-1-14(50-31) 2 M-47 (SHT 1) D-6 C A 75 CX SA C 0 - u ET-#3(F) 47-V9R-1 47-1-14(50-35) 2 M-47 (SMT 1) D-6 C A .75 CK SA C 0 - # ET-a3(F) 47-vns-1 j 47-1-14(50-39) 2 M-47-(SMT 1) D-6 C A .7% CK SA C 0 - N ET-93(F) 47-v3R-1 i 47-1-14(50-43) 2 M-47 (SAT 1) 0-6 C A 75 Cr SA C O - N ET-R3(F) 47-vee -1 f 47-1-14(50 47) 2 M-47 (SMT 1) D-6 C A .75 CE SA C O - u ET-R3(F) 47-vsR-1 } s I
- 47-1-14(50-51) 2 M-47 (Snf 1) D-6 C A .75 CE SA C O - u ET-R3(F) 47-ypa - 1 1 1 47-1-14(54-15) 2 M-47 (SMT 1) D-6 C A 75 CK SA C 0 -
4 ET-R3(F) 47-vnt-1
- 1 1
47-1-14(54-17) 2 M-47 (SMT 1) 0-6 C A .75 CE SA C 'O - u ET-n3(F) 47-vne-1 47-1-14(54-23) 2 M-47 (SHT 1) ' D-6 C A .75 Cr SA C 0 - N ET-R3(F) 47-vnt = 1 47-1-14(54-27) 2 M 47 (SMT 1) 0-6 C A .75 Ct SA C O - N ET-R3(F) 47-vam -1 I I 47-1-14(54-31) 2 M-47 (Snf 1) D-6 C A .75 Cr 58 C 0 - N ET-83(F) 47-vs e-1 I j
' 47 1-14(54-35) 2 M-47 (SMT 1) D-6 C A .75 CE SA C o -
a ET-e3(F) 47-ven-1 [ 47-1-14(54-39) 2 M-47 (SMT 1) 0-6 C A .75 CK SA C o - u ET-ma(F) 47.vnn- t I
~
i 47-1-14(54-43) 2 M-47 (swT 13 D-6 C A' .75 CK SA C o - u ET-R3(F) 47-vas-1 ! l 47-1-14(54-47) 2 M-47 (SMT 1) 0-6 C A .75 CK S4 C C - N ET-R3(F) 47-vpp-1 ; 47-1-14(58-03) 2 M-47 (SMT 1) 0-0 C A .75 CK SA - C O - h ET-R3(F) 47-vRt-1 5 l 47-1-14(58-19) 2 M-47 (SNT 1) D-6 C A .75 CK SA C 0 - N ET-R3(F) 57-vsm -1 s i
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SPEC. ML-008 REVISION 2 9' VALW TA8LE , IST TABLE - VALVES PAGE NO: 43 !" LIMERICK CENER ATING STATION - UNIT 1 & CL***0N DATER 09/06/91 i, I SYSTEM:'47 CONTROL R00 DRIVE NYDRAULIC - PART 9.- POSITION LUALVE CODE VALVE ACT/ VALVE ACT. APP. J TEST FREQKNCT VRR/vCS l l ! j- NUMBER CLASS PE!D COORD CAT. PAS SIZE TTPE TTFE WRM SAF FAL TTPE C (DIRECTtDN) NUMBER RE'.'RKS
' 47-1-14(58-23) 2 M-47 (SNT 1) .D-6 C- A .75 CE $A C' O - 4 ET-R9(F) 47-virt-1 47-1-14(58-27) 2 M-47 (SNT 1) D-6 C A .75 CK SA C 0 - 4 ET-R2(F) 47-vat-1 D-6 A .75 CE SA C 0 - N ET-R3(F) 47-vpR-1 47-1-14(58-31) 2 M-47 (sNT 1) C 2 M 47 ($NT 1) D-6 C A .75 CK SA C 0 - N ET-#4(F) 47-Wst-1 47 1-14(58-35) 47-1-14(58-43) 2' M-47 (SNT 1) D-6 C A .75 CE SA C 0 - 4 ET-Ratt) 47-var-1 M-47 (sui 1) 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-vCS-1 l 47-1-15:02-19) 2 47-1-15(02-23) 2 M-47 (SNT 1) 8-4 A, C A .5 CK SA OC .C - N ET-C(R), LP-! 47-WCS-1 >
.47-1-15(02-27) 2 M-47 (SNT 1) 8-4 A, e 4 .5 CK sA CC C -
4 ET-C(R), LP-T 47-vts- 1 , t 47-1-15(02-31) 2 M-47 (SNT 1) s-4 A, C A 5 CE SA OC C - 4 ET-C(R), tP T 47-vCs-1 47-1-15(02-35) 2 M-47 (Suf 1) 8-4 A, C A .5 CK SA CC C - N. ET-C(W), LP-T 47-VCS-1 47-1-15(02-39) 2 M-47 ($NT 1) 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 4F-vCS-1 47-1-15(02-43) 2 M-47 (SNT 13 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP T 47-WCS- 1 47-1-15(06-15) 2 M-47 (5n 1) 8-4 A, C A .5 CK SA OC C - N ET-C(N), LP-T 47-vCs-1 2 M-47 (SMT 1) 8-4 A, C A .5 CK SA CC C - # ET-C(R), LP-T 47-vCS-t 47-1-15(06-19) 47-1-15(06-23) 2 M-47 (swT 1) 8-4 A, C A .5 CK SA DC C - # EY-C(*), LP-T 47-vts-1 2 M-47 (SNT 1) B-4 A, C A .5 CK SA ot C - # ET-C(s), LP-T 47-vts-t 47-1-15s06-27) 47-1-15(06-31) 2 M-47 (SNT 1) 8-4 A, C A .5 CK SA E C - N ET-Cte), LP-T 47-vts-1 47-1-15 06-35) 2 M-47 (SNT 1) s-4 4, C A .5 CK $4 OC C 9 ET -C(W), (p-t 47-VCs-t t .. , -.
\
SPEC. est-008 REV1510m 2 VALVE taste IST TABLE - VALVES PAGE. No: 44 LIMERICE GENERAf tWC STAf tC4 - UNIT 1 & COP *Of CATE: 09/05/91 SYSTEM:.- 47 CONTROL ROD DRIVE NYDRAULIC - PART 8 POSIT 104 l tfALVE CODE VALVE ACT/ tLVE. ACT. APP. J TEST FREQUEuCT VRR/vCs ! NUMBER CLASS FE!D COORD CAT. ' PAS SIZE TTPE TTPE NRM SAF FAL TTPE C (DIRECTION) rJussEt REMAars i i: _ _ _ __ _ 47-1-15(06-39) 2 M-47 (SMT 1) 8-4 A, C A .5 CK SA" OC C - N ET-C(R), LP-7 47-vCs-1 47-1-15(06-43) 2 M-47 ($NT 1) . B-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-vCs-1 47-1-15(04-47) 2 M-47 (SMT 1) s-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-vCS-1 47-1-15(10-11) 2 M-47 (SMT 1) 8-4 A, C A .5 CK SA OC C - W ET-CiR), LP-T 47-VC5-1 [ 47 1-15(10-15) 2 M-47 (sNT 1} 8-4 A, C A .5 CK SA OC C - 4 ET-C(R), LP-T 47-vCs-1 t 47-1-15(10-19) 2 M-47 ($NT 1) s-4 A, C A .5 CK sa OC C - a ET-C(R), LP-T 47-vts-1 I 47-1-15(10-23) 2 M 47 (sNT 1) 8-4 A, C A .5 CK SA OC C - N ET*C(R), LP-T 47-WC5-1 47-1-15(10-27) 2 M-47 (sNT 1) - B-4 A, C A .5 CE SA OC C - 4 ET-C(R), LP-T 47-VCS-1 47-1-15(10-31) 2 M-47 (SMT 1) 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-wCs- 1 47 1-15(10-35) 2 M-47 (Suf 1) a-4 A, C A .5 CE SA OC C - a ET-C(R), LP-7 47-vCs-1 47-1-15(10-39) 2 M-47 (ski 1) 8-4 A, C A .5 CK SA OC C - S ET-C(R), LP-T 47-vCS-1 47-1 15(10-43) 2 M-47 (Smf 1) 8-4 A, C A .5 Cr sa OC C - N ET-C(R), LP-T 47-vCS-1 f 47-1-15(10-47) 2 M-47 (St ? 1) 8-4 A. C A .5 CK SA OC C - 4 ET-C(R), LP-T 47-vCS- 1 47-1-15(10-51). 2 M-47 (SMT 1) s-4 AC A .5 CE $4 OC C - # ET-C(R), LP-T 47-vCs-1 47 1-15(14-07) 2 M-47 (sMT 1) 8-4 A, C A .5 CK SA OC C - u ET-C(Es, LP-T 47-vts-1 47-1-15(14-11) 2 M-47 (sMT 1) 8-4 AC A .5 CK SA OC C - 4 ET-C(R), LP-T 47-vC3-1 47-1-15(14-15) 2 M-47 (sni 1) e-4 A.' C A .5 CK SA OC C - W ET-C(R), LP-T 47-wCs-1 47-1-15(14-19) 2 M-47 (snt 1) e-4 A, C A .5 LE SA OC C - N ET-C(R), LP-T 47-vts-1
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SPEC. ML-008 PEVIs!ON 2 L vatVE TABLE IST TABLE - VALVES PACE NO: 45 LIMERICK CENERATING STAT 104 - UNIT 1 & COMMON DATE: 07/06791 sisTEM: 47 C0gTROL ROD DRIVE HYDELULIC - PART $ Posiff0:6 VALVE C(CE VALVE V.7/ V?tvt ACT. APP. J 1EST FREQUE4CT VRR/V's CUMBER class P&ID COORD CAT. - pas s!ZE TYPE TYPE WRM SAF FAL TYPE C (DIRECTION) 1 WUMBER RE4 tKs ! 47-1-15(14-23) 2 M-47 (sMT 1) B A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-VCs-1
]
47-1-15(14-27) 2 M-47 (sMT 1) B-4 A, C A .5 CK SA OC C a W ET-C(R), LP-T 47-VC5-1 i 47- 1 -1$(14-31) 2 M-47 (sNT 17 8-4 A, C A' .5 CK SA - OC C - N ET-C(R), LP-T 47-VCs-1 47-1-15(14-35) 2 M-47 (spi 1) B-4 A, C A. .5 CK SA OC C - e ET-CCR), LP-7 47-VCs-1 47-1-15(14-39) 2 M-47 (sMT 1) 8-4 A, C A .5 CK SA CC C - # ET-C(R), LP-T &T-VCs-1 , 47-1-15(1&-43) 2 M-47 (sMT 1) B-4 A. C A .5 CE S4 OC C - e ET-C(R) LP-T 47-vts-1 I 47-1 15(14-47) 2 M-47 (SMT 1) s-4 4, C A .5 CP. sA "JC C - # ET-C(R), LP-7 47-VCS-1 47-1-15(14-51)- 2 M-47 (sMT 1) 8-4 A, C A .5 Cr SA OC C - e ET-C(R), LP-T 47-vCs-1 47-1-15(14 ,5) 2 M-47 (sMT 1) 8-4 4, C A .5 Cr SA OC C - u ET-C(R), LP-7 47-vCs-1 ' 47-1 15(15-03)- 2 M 47 (sMT 1) s4 A, C A .5 - CK SA OC C - N ET-C(R), LP-T 47-VCs-1 47-1-15(18-07) 2 M-47 (sgf 1) s-4 4. C A .5 CK SA OC C - m ET-C(R), (P T 47-vts-1 I 47-1-15(18-11) 2 M-47 (SWT 1) 4 A, C A .5 Ct SA OC C -
# ET-C(t), LP-T 47-vts 1 47-1-15(15-15) 2 M-47 (sni 1) e-4 A, C A .5 CK 5A OC C -
N ET-C(R), LP-T 47-vts-1 47-1-15(18-17) 2 M-47 (sMT 1) s-4 A, C A .5 CY SA OC C - u ET-C(R), LP-Y 47-vts 1 f i 47-1-15(15-23) 2 M-47 (SMT 1) B-4 A, C A .5 CK sA OC -C - N ET-C(R), LP-T 47-vts-1 l 47-1-15(13-27) 2 M-47 (sMT 1) B-4 A, C A .5 Cr S4 oC C - u ET-C(R), to-T 47-vCs-1 67-1-15(15-31) 2 M-47 (snt 1) 8-4 A, C A 5 CK SA OC C - # ET-C(R). tP-T 47-vts-1 t 47-1-15(15-35) 2 M-47 (5MT 1) 8-4 A, C A .5 CT 5A OC C - e ET-C(e), LP-T 47-vC's- t i 1
1 -
)
t ! SPEC. PL-006 REVISICM 2 a VALVE TABLE IST TABLE - VALVES PACE NO: 46 2' 4 LIMERTCK CENERATING STATIC 4 - Uh!T 1 & C(PMON CATE: 09/06/91 4 j SYSTEM:,47 CONTROL ROD CRIVE : W AULIC --PART 8 POSITION 1 VRR/VCS VALVE ACT/ .. VALVE ACT. APP. J TEST FREQUENCY VALVE . C(DE utM8ER REMARES WUMBER CLASS P&lD -COORD CAT. PAS SIZE TTTE TTPE NRM SAF FAL ?TPE C (DIRECTION) B-4 A, C A .5 Cr SA OC. C - N ET-C(R), LP-T 47-VCS-1
'47-1-15(18-37) 2 M-47 (SHT 1) 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-VCS-1 i 47-1-15t18-43) 2 M-47 (ANT 1) 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-VCS-1 f.7-1-15(18-47) 2 M-47 tswT 1) l~
A, C A .5 CK SA OC C - M ET-C(R), LP-T 47-VCS-1 47-1-15(18-51) 2 M-47 MMT 1) B+4 ! B-4 A, C A .5 CE $4 OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(18-55) 2 M- 7 (Sul 1) 8-4 A, C A .5 CE SA OC C' - N ET-C(R), tp-T' 47-VCS-1 47-1-15(18-59) 2 M-47 (SMT 1) B-4 AC A .5 CK SA OC C - N ET-C(R ), 17-7 47-VCS-t 47-1-15(22-03) 2' M-47 (SNT 1) a-4 A, C 4 .5 CK SA OC C - N ET-C(t), LP-T 4T-VCS-1 47-1-15(22-07) 2 M-47 (Smf 1) ' N . ET-C(R), LP-T e,7-VCS-1 47-1-15(22-11) 2' M-47 (SMT 1) 8-4 A, C A- .5 CK SA OC C - 8-4 A, C A .5 CK SA OC C - N ET-C(r), LP-T 47-VCS-1 47-1-15(22-15) 2 M-47 (SMT 1) a-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(22-19) . M-47 (SMT 1) N ET -C(R), t*-T 47-VCS-1 [ 47-1-1$(22-23) 2 M-47 (SNT 1) e-4 AC A .5 CK SA OC C - i B-4 A, C A .5 CC SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(22-27) 2 M-47 (SMT 1) i
.5 SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(22-31) 2 M-47 (SHT 1) 8-4 A, C A CK
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M-47 (SMT 1) 8-4 A, C A .5 Ct SA OC C - N ET-C(R) LP-T 47-VCS-1 47-1-15(22-35) 2 I i 8-4 A. C A .5 - CE SA OC C - N ET-C(R), LP-T 47-wtS-1 47-1-15(22-39) 2 M-47 (SMT 1) I A, C A .5 Cr SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(22-43) 2 M-47 (SMT 1) - s-4 l A, C A .5 CC SA OC C - N ET-C(R),LP-7 47-45-1 47-1-15(22-41) 2 M-47 (SMT 1) s-4 ,
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[ 6 m w- '-r_- - , H mn wes r r , ,w ,,m
SPEC. ML-008 - i~ REVISION 2 valve TABLE
- i IST TAaLE - VALVES PAGE No: 47 LIMCRICK GENERATIN9 STAftau - UNIT 1 & CW MON DATE: 09/06/91
$75 FEM: 47 CONTROL RCD CRIVE MYDRAULIC - PART 8 4
< POSITION tfALVE CCDE VALVE ACT/ valve ACT. APP. J TEST FREQJENCY . YRR/VCS NUMBER CLASS P&lD COORD CAT. PAS SIZE TYPE TTPE htM $AF FAL TT*E C (DIRECTION) NUMBER REMARKS t" _ _ _ _ _
47-1-15(22-51) 2 M-47 (SMT 1) 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(22-55) 2 M-47 ($NT 1) 8-4 A, C A .5 CK . SA CC C - 'N E!-C(R), LP-T 47-vt$-1 ]. 1-15(22-59) 2 ' M-47 (sui 1) 8-4 A, C . A .5 CK 54 OC C - N ET-C(R), J -Y 47-vCs 1 i 47-1-15(26-03) 2 M-47 (sNT 1) 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP-7 47-VCS-1 47-1-15(26-07) 2 M-47 (SHT 1) 8-4 AC A .5 CK SA OC C - N ET-C(R), LP-T 47-vts-1 47-1-15(26-11) 2 M-47 (SMT ts 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-VCs- T 4 47-1-15(26-15) 2 M-47 (SMT 1) s-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-vts.1 47-1-15(26-19) 2 M-47 (SNT 1) 8-4 A, C A .5 CK SA OC C - N ET-C(e), LP-T 47-vCS-1 47-1-15(26-23) 2 P-47 ($MT 1) 8-4 A, C A .5 CK SA CC C - N ET-C(R), LP-T 47-vCS-1 47-1-15(26-27) 2 M-47 (SMT 1) s-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-vts-1 47-1-15(26-31) 2 M-47 (sMT 1). s-4 A, C A .5 CK SA OC C - N ET-C(R), LP-7 47-vts-t 47-1-15(26-35) 2 M-47 (SMT 1) B-4 A. C A .5 CK SA OC C - h ET-C(R), LP-T 47-vts-1 47-1-15(26-39) 2 - M-47 (sni 1) 8-4 A, C A .5 CK SA OC C - N ET-C(R). LP-T. 47-vts.1 i 47-1-15(26-43) 2 M-47 (SMT 1) 3-4 A, C A .5 CK SA CC C - N ET-C(t), LP-T 4T-vts-1 47-1-15(26-47) 2 M-47 (SMT 1) B-4 A, C A .5 CK SA OC C - N ET-C(t), LP-T 47-vts-1 4 47-1-15(26-51) 2 M-47 (sMT 1) s-4 ,C A .5 CK S4 OC C - N ET-C(R), LP-T 47-vCs-1 1-15(26-55) 2 M-47 ($NT 1) 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-vCS-1 l 47-1-15(26-59) 2 M-47 (SMT 1) s-4 AC A .5 CK SA OC C - N .ET-C(R), LP-T 47-VC5-1 q i r
- - - s. -=- _ _ _ _ , _ _ _ ,_
, J i ..
SPEC. ML-008 i REVISIDW 2 . VALVE TABLE PAGE #0: 48 IST TAstt - VALVES
- f. DATE: 07/06/91 LIMERICE CEwERATims $1 ATION - Outf 1 & C(M404 i
i SYSTEM: 47 CONTROL ROD DRIVE NYDRAULIC - PART 8 POSIT 70W APP. J TEST FREQUENCT VRR/VCS VALVE ACT/ VALVE ACT. VALVE CODE NLPsER REMARKS ! CLASS PEfD COORD CAT. PAS SIZE TYPE TTPE wnM SAF FAL TTPE C (DIRECTION) NUMBER i SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(30-03) 2 M-47 (SNT 13 5-4 A. C - A .5 CK SA OC C - m ET-C(R), LP-T 47-vCS-1 2 M-47 (SNT 1) a-4 A, C A .5 CK 47-1-15(30-07) i SA OC C - M ET-C(R), LP-T 47-VCS-1 2 M-47 (SMT 1) B-4 A, C A .5 CK l 47-1-15(30-11) SA OC C - r ET-C(R), LP-T 47-vCS-1 ' 2 M-47 (SMT 1) 8-4 AC A .5 CK 47-1-15(33-15) SA OC C N ET-C(R), LP-T 47-vCS-1 M-47 (Sui 11 8-4 A, C A .5 CC - 47-1-15(30-19) 2-OC C - N ET-C(t), LP-7 47-vCS-1 2 M-47 (SMT 1) 8-4 A, C A .5 CK SA ! 47-1-15(30-23) 3 N ET-C(R), LP-T 47-VCS-1 47-1-15(30-27) 2 M-47 (Snf 1) a-4 A, C A .5 CE SA . OC C - SA OC C - u ET-C(R), LP-T 47-vCS-1 ' 2 M-47 (SNT 1) 8-4 A, C A .5 CC 47-1-15(30-31) SA OC C - N ET-C(R), LP-T 47-vCS-1 2 M-47 (SNT 1) 9-4' A, C A .5 CE 47-1-15(30-35)
.5 CK SA OC C - N ET-C(R), LP-T AT-VCS-1 47-1-15(30-39) 2 M-47 (Snf 1) s-4 A, C A SA OC C - M ET-C(R), LP-7 47-VCS-1 9-4 A, C A .5 l CE 47-1 15(30 43) 2 M-47 (SMT 11 2
OC C - # ET-C(R) LP-T 47-vCS-1 2 M-47 (SMT 1) a-4 A, C A .5 CK SA 47-1-15(30-47) SA oC C - u ET-C(R), LP-7 47-vCS-T 2 M-47 (Suf 13 s-4 AC A .5 Cr 47-1-15(30-51) l SA CC C - h ET-C(R), LP-T 47-vCS-1 ' 2 M-47 (SMT 11 8-4 A, C A .5 CE 47 1-15(30-55) SA OC C N ET-C(R), LP-T 47-vCS-1 2 M-47 (SMT 1) 3-4 A, C A .5 CC l 47 1-15(30-59)
.5 CK SA OC C - N ET-C(R), LP-T 47-vCS-1 4- 47-1-15(34-03) 2 M-47 (SMT 1) s-4 A, C A OC C - 4 ET-CCR), LP-T 47-vCS-1 t
2- M-47 (SMT 13 8-4 A, C A .5 CK SA 47-7-15(34-07) SA OC C - 4 ET -C(R), LP-T 47-vCS-1 2 M-47 (SMT 1). 3-4 A, C A .5 CE 47-1-15(34-11) 4 { i i
b.. y .. ' . SPEC. ML-OCS REv!SION 2 VALVE TABLE IST TABLE - VALVES PAGE No: 49 LleEERICE CENERAf f MG STAfl(M - UNIT 1 & COMMON DATE: 09/06/91
- . SYSTEM
- 47 CONTR0', 2;P DRIVE HYDRAULIC - PART 8 POSTTION valve ^ CODE VAtVE ACT/ VALVE ACT, APP. J TEST FREQUENCT VER/VCS NUMBER CLASS P&iD COORD CAT. PAS SIZE TYPE TTPE M*w SAF FAL TYPE C (DIRECTION) NUMBER REMARKS 47-1-15(34-15) 2 M-47 (SMT 1) B-4 A, C A .5 CK SA oC C -
4 ET-C(R), LP-T 47 vCS-1 47-1-15(34-19) 2 M-47 (SMT 13 9-4 A. C A .5 CK SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(34-23) 2 M-47 (SMT 1) B-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(34-27) 2 M-47 (SMT 1) 8-4 A, C A .5 CE SA CC C - N ET-C(R), LP-T 47-VCS-1 4?- 15(34-31) 2 M-47 (SNT 1) 8-4 .5 4, C A CK SA OC C - N ET-C(R), tP-T 47-VCS-1 47-1-15(34-35) 2 M 47 (SMT 1) 8-4 AC 4 .5 Cr SA OC C - N 4T-C(R), tP-T 47-VCS-1 47-1-15(34-39) 2 M-47 (SMT 1) 8-4 A, C A 5 EK SA OC C - N ET-C(R), LP-T 47-YCS-1 1 47 1-15(34-43) 2 M-47 (SMT 1) 84 A, C A .5 CE SA CC C - N ET-C(R), LP-T 47-VCS- t 47-1-15(34-47) 2 M-47 (SMT 1} 8-4 A, C A .5 Ct 54 OC C - N ET-C(R ), LP-T 47-VCS-1 67-1-15(34-51) 2 M-47 (Snf 13 s-4 A, C A .5 ' CK SA OC C - N ET-C(R), LP-7 47-VCS-1 47-1 15(34-55) 2 M-47 (SNT 1) S-4 A, C A .5' CK SA OC C - N ET-C(R), LP-T 47- VCS - 1 47-1-15(34-59) 2 M-47 (SMT 1) 8-4 A, C A .5 CT SA OC C - M ET-C(R), LP-T 47-VCS-1 i 47-1-15(38 03) 2 M-47 (SMT 1) 9-4 A, C A .5 CE SA OC C - 4 ET-C(R), LP-T 47-VCS-1 47-1-15(33-07) 2 M-47 (SNT 1) 8-4 A, C A .5 - CK S4 OC C - M ET*C(R), LP-T 47-VCS-1 47-1-15(3S 11) 2 M-47 (Shi 1) 8-4 A, C A .5 CK Sa DC C - N ET C(R), LP-Y 47-VCS-1 47-1-15(33-15) 2 M-47 (SMT 1) s-4 A, C A 5 CK SA OC C - 4 ET-CfR), LP-T 47-vCS-1 47-1-15(35-19) 2 M-47 (SMT 1) a-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-vCS-1 47-1-15(33-23) 7 M-47 (SNT .1) B-4 A, C A .$ CC SA OC C - 4 ET-C(R), LP-T 47-VCS-1 s 4
.: t r
F CrE". ML-008 DEV13tou 2 i t ' VAtVE TABLE
- IST TASTE - VALVES F4E #d
- 50 t
, t!MERICE GEmEttfinG STATION - tRi!T 1 & CCM od DATE: 09/06/91 i f . SYSTEM: 47 CCMTROL RCD DRIVE WYttAuttC - PART 8 < ! Ft'$TTI08 tfALVE CDDE VALVE ~~ACT/ WALVE ACT. AFP. J . TEST TRESUEun yst/vCS , I CUPBER CLASS f&lD ~ COORD CAT. PAS SITE TYPE T?PE stM SAF FAL TYFE C (D!aECTrom) atsste sEmmets 47-1-15(3B-27) 2 M-47 (SNT 1) B-4 A, C A. .5 CC 4 CC C -' W ET-Ct#3, ip-T 47-705-1 I L 47-1-15(33-31) 2 M-47 (SMT 1) 8-4 A, C A .5 CE SA CC C - 4 ET r**) i M 47-VCS-1 L 47-t-15(33-35) 2 M-47 (SMT 1) 8-4 A, C A .5 CE SA OC C - # ET-C(#), LP-T 47-VCS-1 h , 47-1-15(3S 't) 2 M-47 (SHY 1} 8-4 A, C A .5 CK SA CC C - 4 ET-C(R), LP-T 47-VCS-1 ! I 47-1-15(38-43) 2 M-47 (SMT 1) 8-4 A, C A .5 CK SA OC C - 4 ET-C(R), LP-T 47-vCS-1 't 47-1-15(38-47) 2 M-47 (SHf 1) 8-4 A, C A .5 CE SA OC C - N ET-C(R), LP-T 47-vCS-1 47-1-15(38 51) 2 M-47 (SHT 1) 8-4 A. C . A .5 Ck S4 02 C - N ET-C(R), t#-T 47-vCS-1 47-1-15(38-55) 2 M-47 (SMT 13 8-4 AC A 5 Cr SA OC C - a ' ET-CCR), LP-T 47-vCS-1 j 47-1-15(38 59) 2 M-47 (SMT 1) 8-4 A, C A .5 CT SA OC C - N ET-C(R), LP-T 47-VCS-1 l j 47-1-15(42-03) 2' M-47 (SMT 1) 8-4 A, C A .5 - CK SA OC C - W ET-C(R), LP-T &T-VCS-1 i 47-1-15(42-07) 2' M-47 (SNT 1) 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-VCS-1 i 1 1 . 2 47-1-15(42-11) 2 M-47 (SHT 1) 8-6 A, C A .5 CK SA OC C - m ET-C(R), LP-T 47-vCS-1 47-1-15(42-15) 2 M-47 (SNT 1) 8-4 A, C A .5 CK SA OC C - W ET-C(R), LP-T 47-vCS-1 f
- j. 47-1 -15t 42-19) 2 M-47 (SMT 13 8-4 A, C A .5 CT SA OC C - M ET-C(R), LP-T 47-vCS-1 ;
l ! 47-1-15(42-23) 2 M-47 (SMT 1) 8-4 A, C A 5 CC SA OC C - N ET-t(R), LP-T 47-vCS-t , l , 47-1-15(42-27) 2 M-47 (SMT 11 8-4 A, C A .5 CE SA OC C - m ET-C(R), LP-T 47-vCS-1 l 67-1-15(42-31) 2 M-47 (SMT 1) 8-4 A, C A .5 CE SA OC C - W ET-C(R), LP-T 47-vCS-1 i . t 47-t-15(42-35, 2 M-47 (Snr 1) 8-4 A, C A .5 Cr SA oC C - = ET-C(R >, to-T 47-vCS-1 ! t i 'f !
, .I SPtc. P.-00s RCV1$10N 2 VALVE TABLE ' IST TABLE - VALVES PAGE NO: 51 LIMERICK GENERATING STATICN - tMIT 1 1 COMMON DATE: 07/06/91 STSTEM: 47 CONTROL RtX) CRIVE HTDRAULIC - PART 8 POSlfl0N -
VALVE ACT/ VALVE ACT. APP. J TEST FREQUENCY VER/VCS
. tfALVE CocE f COORD CAT. PAS S!ZE TYPE . TYPE NRM SAF FAL ' TYPE C (DIRECT!04) NUMBER REmAnt$
i O.lM9ER CLASS P&lD 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(42-39) 2 M-47 (SMT 1) 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-VCS-1 j 47-1-15(42-43) 2 M-47 (SMT 1) 8-4 A .5 CK SA CC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(42-47) 2 M-47 (SMT 13 A. C
.5 SA OC C - N ET-C(R), LP-T 47-VCS- 1
- 47-1-15(42-51) 2 m-47 (SNT 11 8-4 A, C A CK 8-4 A, C A .5 CC SA OC C - N ET-C(R), LP-T 47 VCS-1 47-1-15(42-55) 2 M-47 (SHT 1)
.5 OC C - N ET-C(R), LP-T 47 VCS 1 47-1-15(42-59) 2 M-47 ($NT 1) 8-4 A, C A CC SA 4
A, C A 5 CK SA OC C - N ET-C(P), (P-T 47-VCS- 1 47-1-15(46-07) 2 M-47 (SHT 1) 8-4 8-4 A, C A .5 CK SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(46-11) 2 M-47 (SMT 1) i 5 CE SA OC C - N ET-C(R), LP-T 47-VCS-1 . 47-1-15(46-15) 2 M-47 (Swr t) 5-4 A, C A
.5 CE SA OC C - N ET-C(R), (P-T 47- VCS- 1 47-1-15(46-19) 2 M-47 (5NT 1) 8-4 A. C A
.5 SA OC C - N ET-C(R), LP-T 47-VCS-1 y i 47-1-15(46-23) 2 at-47 (SNT 1) 8-4 A, C A CK !
.5 SA CC C - N ET-C(R), LP-T 47 VCS-1 47-1-15(46-27) 2 M-47 (Swi 1) 8-4 A, C A CK 8-4 A, C A .5 Cr SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(46-31) 2 M-47 (Snt 1) 1
- 4.
- 8-4 A, C A .5 m SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(46-35) 2 M-47 (Swf 11 i
8-4 A, C 4 .5 C( S4 OC C - N < C( R ), LP-T 47-VCS-1 47-1-15(46-39) 2 M-47 (SuT 1)
.5 SA CC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(46-43) 2 M-47 (Sui 1) 8-4 A, C A CE
.5 CK SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(44 47) 2 M 47 (SMT 1) 8-4 A, C A A,C. A .5 Cd SA OC C - N ET-C(R), LP-T 47-VCS-1 47-1-15(46-51) 2 M-47 (SNT 1) 8-4 L
l
J y Srtt. PL-008 REVIStos 2 VALYE TABLE IST TAstt - VALVES PACE NO: 52 t!MERICE GEMEATIKG STAT 10E - (JWIT 1 1 CfM404 DATE: 09/06/91 i STSTEM: 47 CONTeot ROD DRIVE IITORAULIC - PART 3 POSITI04 VALVE CODE a
-VALVE ACT/ YALVE ACT. APP. J TEST Ft!QUENCY v20/VCS CUMBER CLASS P&lD COORD CAT PAS SIZE TTPE TYPE NRM SAF TAL TYPE C (C18ECiton) upset 80. Arc 47-1-15(46-55) 2- M-47 (SMT 1) 84 AC A .5 CE SA OC C M j
ET-C(R),tp-T 47-VCS-t 47-1-15(50-11) 2 M-47 (Suf 1) B-4 AC A .5 Cr SA OC C - N E.T-C(t), LP-T 47-VCS-1 I 47-1-15(50-15) 2 M-47 (SMT 1) 8-4 A, C A .5 CE S4 OC C - 4 ET-C(t), LP-T 47-VCS-1 i i 47-1-15(50-19) 2 M-47 (SNT il 8-4 A, C A .5 CX SA OC C - N ET-C(R), LP-7 47-VCS- T I i i , 47-1-15(50-23) 2 M-47 (SMT 1) B-4 A, C A .5 CK SA OC C - N ET-C(t), LP-T 47-vCS-t ! 47-1-15(50-27) 2 M-47 (SMT 1) 8-4 A, C A .5 CK SA OC C - M ET-C(e), LP-T 47-vCS- 1 47-1-15(50-31) 2 M-47 (Sni 1) s-4 AC A 5 CK SA OC C - t ET-C(r), LP-T 47-vCS-T
)
t 47-1-15(50-35) 2 M-47 (SMT 1) a-4 A. C A .5 CC SA OC C -
# ET-C(t), LP-Y 47-vCS-t 4
47-1-15'D Y 2 M-47 (SMT 1) 6-4 A. C A .5 Cr Sa OC C - m ET-C;s), LP-T (7-yCS-t 47 1-15(50-43> 2 M-47 (SMT 1) 8-4 AC A .5 Cr SA OC C - m ET-Cta), LP-T 47-vCS-1 i 47-1-15(50-47) 2 M-47 (SMT 1) 3-4 A, C A .5 CC SA OC C - N ET-C(t), LP-T 47-vCS-1 t 47-1-15(50-51) 2 M-47 (Sur 1) B-4 A, C A .5 CK SA OC C - N ET-C(8),LP-T 47-VCS-t 47-1-15(54-15) 2 M-47 (Suf 1) s-4 A, C A .5 CK SA OC C - N ET-C(a), LP-T 47-vCS-1 l 47-1-15(54-19) 2 M-47 (Suf 1) B-4 A, C A .5 CE SA OC C -
# ET* Cit), LP-T 47-VCS-t 47-1-15(54-23) 2 M-47 (Swi 1) e-4 A, C A .5 CT SA OC C -
W ET-C(s), LP-T 47-vCS- 1 f 47-1-15(54-27) 2 M-47 (SpT 1) s-4 AC A .5 Cr SA OC C - m E T-Cta) LP-T 47-vCS-t ' 47-1-15(54-31) 2 M-47 (SNT 1) 8-4 A, C A .5 CK $4 OC C - N ET-C(R), LP-T 47-vCS-1 47-1-15(54-35) 2 M-47 ts#T 1) 8-4 A, C A 5 CE SA OC C - a t v-st a ), LP-T 47-vcS-1
- a. i 9
4
y SPEC. ML-008 REvis104 2 . VALWE TABLE e
!$T 14BLE - VALVES Pact mo: 53 LIMERICC CENERAfinG STATlas - tJulf i & Carmou CATE: 09/06/71 i
I sTSTEM: 47 CONTROL POD CRIVE MfCRAULIC - PAAT. 8 j FOSITIOR k l VALVE CODE ' VALVE ACT/ WALVE ACT. APP. J TEST FREQUEnCT vtR/vts j NUMBER CLASS P&iD C00RD CAT. PAS SI2F . TYPE TYPE hRM SAF fat TTFE C (DIRECT!04) muMBER REwAars [ A, C . A i'. . 47-1-15;$4-39) 2 M-47 (SHT 1). B-4 .5 Cr SA- OC C - W ET-C(R), LP-T 47-vts-1 f ( 47-1-15(54-43) 2 M-47 (SMT 1) 8-4 ' A. C A .5 ' CK SA OL C - # ET-C(R), LP-T 47-VCS-1 i' r 47-1-15(54-47) 2 m-47 (SMT 1) 8-4 A, C A .5 CK SA OC C' - N ET-C(R), LP-T 47-vts-1 ! i . ! 47-1-15(54-03) M-47 (SMT 1) B-4 A, C A .5 CK SA C- C - m ET-C(ri, LP-T 47.vts-t y b i 47-1-15(58-19)- 2 M-47 (SMT 1) 8-4 AC A .5 CK .5A OC C - # ET-C(R), LP-T 47-yts.1 47-1-15(55-23) 2 M-47 (SMT 1) 9-4 A, C A 5 CK SA OC C * # ET-C(R), LP ' 47-vCs-1 47-1-15(58 27) 2 M-47 (spi 1)' s-4 A. C A .5 . CK SA OC C - N ET-C(R), LP-T . 47 vCS-1 47-1-15(58-31) 2 M-47 ($MT 1) 8-4 A, C A .5 CE SA OC ,C - M . ET-C(R), LP-T 47-vts-1 I i 47-1-15(58-35) 2 M-47 ($4T 1) 3-4 A, C A .5 CK SA OC C - N ET C(R), LP-7 47-vCS-1 l s-4 A. C A .5 CK SA OC C - u ET-Cte), LP-T 47-wCS-T 47-1-15(58-43) 2 P-47 (*;nt 13 47-1-38(02-19) 2 M-47 (SMT 1) B-6 C A .5 CK %A 0 C - 2 ET-c(R) PER T.S. 4.1.3.1.2 i i 47-1-3S(02-23) 2 M-47 (snt 1) 8-6 C A .5 CE $A O C - # ET-C(R) PER T.s. 4.1.3.1.2 47-1-38(C2-27) 2 . M-47 (SHT 1) 8-6 C A .5 CC 54 0 C - m ET-c(R) PER T.S. 4.1.3.1.2 47-1-35(02-31) 2 M-47 (sni 1) 8-6 C A' .5 CK SA O C - # ET-QCR) PER Y.S. 4.1.3.1.2 47-t-3sto2-35) 2 M-47 (Sui 1) s-e C A .5 CK sA o C - = ET-otR) Ptt T.s. 4.1.3.1.2 I- 47-1-3s(c2-39) 2 M-47 (snT il s-6 C A .5 Cr sA o C - = ET-o(R> Pen T. . 4.1.3.1.2 ; l I t 47-i-38co2-43) 2 M-47 <sai 1 > s-6 C A 5 Ct sA o C - = ET-oca) PER T.s. 4.:.2.1.2 47 1-3S(06-15) 2 M-47 (snT 13 3-6 C A .5 CE sA o C - m ET-c(R) PER T.S. 4.1.3.1.2 !- i I l 4 b i : i 3
-!t l
r - -- - . I SPEC. ML-005 REVIS10m 2 VAlvt TAttE IST TA8tE - VALVES PAGE NO: 54 LIMERICK CENERAfthG STATION - tMIT 1 1 COMMON DATE* 09/06/91-SYSTEM: 47 CCNTROL @ DSIVE HYDRAULIC - PART 8 PCStit04 VOLVE CODE VALVE ACT/ WALVE ACT. A87. J TEST FREQUENCY VRR/bu CLMBER C1 ASS P&lD CDORD CA1. PAS $17E TYPE TYPE mRM SAF FAL TYPE C (0! RECT 104) atPa3ER REMAnts 47-1-38(06-19) 2 M-47 ($nt 1) 3-6 C A .5 CK SA 0 C - N ET-c(R) PER T.S. 4.1.3.1.2 47-1-38(06-23) 2 M-47 (SNT 1) 8-6 C A .5 CK SA 0 C - N ET-QCR) PER T.S. 4.1.3.1.2 47-1-3S(06-27) 2 M-47 (SMT 1) B-6 C A .5 CE - SA D C - W ET-c(R) PER T.S. 4.1.3.1.2 47-1 38(06-31) 2' M-47 (SMT 1) B-6 C A .5 CK S4 0 C -
# ET-0(R) PER T.S. 4.1.3.1.2 47-1-3S(06-35) 2 M-47 (Sul 1) 8-6 C A .5 CK SA 0 C - N ET-C(R) PER T.S. 4.1.3.1.2 47-1-35(06-39) 2 M-47 (SMT 1) B-6 C A .5 CE SA O .C - N ET-C(R) PER T.S. 4.1.3.1.2 47-1-35(06-43) 2 M-47 (SnT 1) s-6 C A .5 CK SA 0 C - N ET-ota) PER T.S. 4.1.3.1.2 67-1-3S(06-47) 2 M 47 ($NT 1) 8-6 C A .5 Cr 54 C C - m ET-C(R) PER T.S. 4.1.3.1.2 47-1-3S(10-11) 2 M-47 ($MT 1) - B-6 C A .5 Cit SA 0 C - m ET-c(R) PER
- S. 4.1.3.1.2 47-1-38(10-15) 2 M-47 (SMT 1) B-6 C A .5 CK $4 0 C -
4 ET-c(R ) PER T.S. 4.1.3.1.2 47-1-3S(10 19) 2 #-47 (SMT 1) 8-6 C 4 .5 CE SA O C - N ET-Q(R) PER T.S. 4.1.3.1.2 47-1-38(10-23) 2 M-47 (Sai 1) e-6 C A .5 Cr SA o C - u E.-ott) PER T.S. 4.1.3.1.2 47-1-38(10-27) 2 M-47 (SMT 1) s-6 C A .5 CK SA 0 C - M ET-0(R) ptR T.S. 4.1,3.1.2 47-1-38(10-31) 2 M-47 (SMT 1) 3-6 C A .5 Cr SA 0 C - N ET-c(R) PER T.S. 4.1.3.1.2 47-1-3S(10-35) 2 M-47 (Snf 1) B-6 C 4 .5 CK SA o C - # ET-ota) PER Y.S. 4.1.3.1.2 47-1-3S(10-39) 2 M-47 (SHT 1) a6 C ~A .5 CE $4 o C - u ET-ott) PER T.S. 4.1.3.1.2 47-1-3S(10-43) 2 M-47 (Set 1) 8-6 C A .5 CK S4 0 C - N ET-QtR) PER T.S. 4.1.3.1.2 47-1-3S(10-47) 2 M-47 (SMT 1) 8-6 C A .5 CE SA 0 C - u ET-c(R) PER T.S. 4.1.3.1.2
. L< ?
/
I l SPEC. Mt-008 etvision 2 vatyt T A8t.E PAGE MO: 55 k j DATE: 09/06 61 l Ist TA8tE - VALYES l LINEntCt CrwraATinG STAit0g - uwti t & CtweOu f PCs!TioW W8R/VCs l 47 CONTECL RC9 DRIVE HTCFAULIC - PART 8 ACT, - - APP. J Test FtEQUEEC* REMA#rs Nt:MBER VALVE %TsTEM: VALVE T/ TYPE C (DIRECTION) TYPE TYPE kR4 SAF FAL - - . __
- Pt* T.5. 4.1.3.1.2 CDCE CAT. "1 $1ZE _ _
VALVE COORD _ _ CLASS P&ID _ - N ET-c(a) C NUMSER C A M CE $A 0 M8TI'I3T2 M-47 (SHT 1) B-6 ET-C(R) 2 - N 47-1-35(10-51) CK SA O C M a T.s. 4.1.3.1.2 A .5 M-47 (SNT 1) 8-6 C ET-C(#1 2 C - 4 47 1 33(14 07) .5 CK SA O PER T.S. 4.1.3.1.2 A M-47 (shi 1) B6 C ET-c(e) 2 C - u 47-1-38(14-11) 5 Ct sa O PER T.S. 4.1.3.1.2 C A M-47 (sRT 1) 86 M ET-Q(R) 2 C - 47-i-38(14-15) .5 CK !A 0 n a T .s. 4.1.3.1.2 C A M-47 (swf 1) B-6 ET-o(a) 2 - " 47-1-35(14 19) IA 0 C A 5 6 M' T s. 4 1 3.1 2 s-6 C 2 M-47 (sHT 1) - N ET-Q(t) 47 1 38(14-23) S4 0 C A .5 CK M - B-6 C 2 M-47 (Sw? 1) C * " WW 47 1 33(14 27) A .5 U SA C Ptp T.s. 4.1.3.1.2 8-6 C 2 M-47 (snt 1) - # ET-0(R) 47-1-35(14-31) CK SA o C Pts T.S. 4.1.3.1.2 A 5 B+6 C 2 M-47 ($NT 1) - m ET+C(r) sA 0 C 47-1-38(14-35) A .5 t( Pfa T.s. 4.1.3.1.2 6-6 C ee-47 ($HT t) # ET-Q(a) 47-1-38(14-30) 2 A .5 C( 54 0 C - MM MM A M-47 (sMT 17 8-6 C W M4 2 p 0 C 47 1 33(14 43) A 3 n Ptt T.S. 4.1.3.1.2 B-6 C ET-q(s) 2 M 47 (sNT 1) C - u 47-1-3S(14-47) .5 CE sA o Pia T.S. 4.1.3.1.2 A M.47 (swi 1) s-6 C u ET.c(a) 2 C - 47 1 35(14-51) CK sk G pea T.s. 4.1.3.1.2 C A .5 M.47 (SMT 1) 3-6 # ET*C(R) 2 o C 47 1 33(14 55) A .5 tr SA s-6 C 2 M-47 (snt 1) ' 47-1-3S(15-03) 3 N Pts T.s. 4.1.3.1.2 C A M 47 ($NI 1) 8-6 # ET-0(8) 2 PI'TS '13T2 58 0 C 47 1-35(18-07) A .5 CE 8-6 C M-47 (sMT 1) 4 ET-C(8) 2 SA O C - 47 1 33(13 11) A .5 Cy 86 C 2 M-47 (sMT 1) 47 1 3S(15-15) m
Q*';
-)
SPEC. ML-CCS REVISION 2 VALVE TABLE IST TAME - VALVES PAGE MO: 56 LIMERICK CEMERAfimG STATION - UNIT 1 & COMMom cATE- 09/06 #1
$7 STEM: 47 CONTROL ROD D4tVE WYDRAULIC - PART S POSITION UALVE CODE VALVE ACi/ VALVE ACT. APP. J TEST FREQUERCT VRR/VCS NUMBER CLASS PS!D COORD CAT. PAS $1ZE TYPE TYPE GM SAF FAL TYPE C (DTRECTION) NUMBER REMARKS l- 47-1-38(15-19) 2 M-47 (SMT '1) 8-6 C A .5 CK SA J C - N ET-0(R) i Ptt T.S. 4.1.3.1.2 47-1-38(18-23) 2 M-47 ($MT 1) 8-6 C A .5 CK S4 0 'C -
N ET-C(R) I Pts T.S. 4.1.3.1.2 47-1-38(18-27) 2 M-47 (SMT 1) 86 C A .5 CK SA 0 C - N ET-Q(R) PER T.s. A.1.3.1.2 I 47-1-35(13-31) 2 M-47 (SMT 1) a-6 C A .5 CK SA 0 C - 4 ET-o(a) l Ptn T.S. 4.1.3.1.2 47-1 38(18-35) 2 M-47 (SMT 13 8-6 C A .5 CK SA 0 C
- u ET-otR) Pta T.S. 4.1.3.1.2 47-1 0 (15-39) 2 M-47 (SMT 13 8-6 C A .5 CK SA 0 C -
N ET-cCR) l PER T.s. 4.1.3.1.2 47-1-3S(18-(3) 2 M-47 (SMT 1) e-6 C A .5 CE SA 0 C - 4 ET-0(R) i PV. T.S. 4.1.3.1.2 47-1 38(18-47) 2 M-47 (SMT 1) e-6 C A .5 CK SA 0 C - N ET-c(R) Pia T.S. 4.1.3.1.2 47-1-38(18-51) 2 M-47 t$nt 1) s-6 C A .5 CK SA 0 C - N ET-C(R) PER T.S. 4.1.3.1.2 47-1-38(18-55) 2- M*47 (Snf 1) f-6 C A .5 CK SA 0 C - M ET-Q(R) Ptn T.S. 4.1 2.1.2
. 7*1-M(13 -50) 2 M 47 (SNT 1) B6 C A .5 CK SA 0 C -
N ET-QCR) PER T.S. 4.1.3.1.2 47 7- Ni( b -03' 2 M-47 (Srf 1) e-6 C A 5 CK SA 0 C - m ET-ot#) Pts T.s. 4.1.3.1.2 47-w3?( 2 4, 2 M-47 (Sui il a-6 C A .5 CK SA 0 C - N ET-Q(t) Pte T.S. 4.1.3.1.2 47-1-38(22-1 4 ? +47 (SNT 1) s-6 C A .5 CK SA 0 C - M ET-QtR) Pts T.S. 4.1.3.1.2 47-1-38(22-15) 2 M-47 (SMT 1) 8-6 C A .5 CK SA 0 C - N ET-QCR) PER T.S. 4.1.3.1.2 47-1 3S(22-19) 2 M-47 ($MT 1) B-6 C A .5 CK SA 0 C - N ET-ot#1 Pia T.S. 4.1.3.1.2 47-1-3S(22-23) 2 M-47 (SMT 13 8-6 C A .5 CK SA 0 C - M ET-C(R) Pta T.S. 4.1.1.1.2 47-1-38(22-27) 2 M-47 ($nt u M-6 C A .5 CK SA 0 C - m ET-ct') Pte T.S. 4.t.3.1.2 ) i e _ _ _c_ _ _ _ _ _ . _ _ . _ -
a j " .1 :
*)
SPEC. n-oon REVISION 2 VALVE fAELE IST taste - VALVES PAGE 80- 57 LIMERICK CEkERATING STATION - (MIT 1 & CmMON DATE 09/06/91 SYSTEM: 47 LOhikOL Rfl0 DRIVE #TCRAULIC - PART 3 POSITION tfALVE CODE VALVE ACT/ VALVE ACT. APP. J TEST Th'GUENCT VRRfVCS NUMGER CLASS P&lD COORD CAT. ' PAS SI2E TYPE TTPE kt4 SAF FAL TTPE C Q! RECTI"Jn) muMatt REMARKS i 47-1-38(22-31) 2 #1-47 (SMT 1) 8-6 C A .5 Cr 54 o C - u ET-c(R) 1 PER T.S. 4.1.3.1.2 47-1-38(22-35) 2 M-47 ($NT 1) 8-6 C A .5 CK SA 0 C' - N ET-Q(R) 5 PER T.S. 4.1.3.1.2 i 47-1 38(22-39) 2 M-47 (SRT 1) e-6 C A .5 CK SA 0 C - N ET-OtR) i pet T.S. 4.1.3.t.2 1 47-1 -38 r 22-43) 2 M-47 (SNT 1) 5-6 C A .5 Cr 54 o c # ET-C(R) PER T.S. 4.1.3.1.2 l 47-1-38(22-47) 2 M-47 (SMT 1) 8-6 C A .5 CK $4 0 C - N ET-0(R) Ptt T.S. 4.1.3.1.2
- 47-1 3S(22-51) 2 M-47 (Sui 1) 8-6 C A .5 Cr SA O C -
N ET*C(R) PER T.S. 4.t.3.1.2 47-1 3S(22-55) 2 M-47 (SHf 13 s-6 C A .5 CK SA O C - N ET-Q(R) ttR T.S. 4.1.3.1.2 1 47-1-38(22-59) 2 M-47 (SMT 1) 8 C A .5 CK SA O C - N ET-C(R) PER T.S. 4.1.3.1.2 47-1-38(26-03) 2 M-47 (SMT 1) s- C A .5 CK SA 0 C - # ET-0(R) PER T.S. 4.1.3.1.2 47-r 38(26-07) 2 M-47 (Snf 1) s-6 C A .5 CE S4 o C - m ET-c(R) PtX T.S. 4.1.3.1.2 47-1-36(26-11) 2 M-47 (SMT 1) a-6 C A .5 CE SA 0 C - N ET-0(R) PER T.S. 4.1.8.1.2 47-1-3S(26-15) 2 M-4i s:=v 11 s-6 C A .5 CE $4 0 C -
# E T-o(R )
rit T.S. 4.1.3.1.2 47-1-3S(26-19) 2 M-47 (SMT 1) 8-6 d A .5 CW SA O C -
# ET-Q(#1 PER T.S. 4.1.3.1.2 47-1 .18(26-23) 2 M-47 (SMT 1) 8-6 C A .5 Cr SA 0 C -
N ET-C(R) PER T.S. 4.1.3.1.2 47-1-!8(26-27) 2 M 47 (SMT t) 8 C A .5 CK SA O C - N ET-3(R) PER T.S. 4.1.3.1.2 47-1-36(26-J1) '2 M-47 (SMT 1) B-6 C A .5 Cr SA O C - t ET-Q(#1 PER T.S. 4.1.3.1.2 47-1-33(26-35) 2 M-47 (SNT 1) 8-6 C A .5 CK SA C C - 4 ET-c(R) *ER T.S. 4.1.3.1.2 47-1-3d(26-39) 2 M-47 (SMt 1) 8-6 C A ., CE SA 0 C - W ET-C(R) S. g,1,3,1,2
+
1 'I .I SPEC. ML-038' '[ REvtSicst 2 YAtVE TA8LE ' ITT. TABLE - VALVES PAGE mo: 58 4 5 LIMERICK CEMERATING STA!!04 - (AEIT 11 CDeos DATEi 09/06/91
- . $7STEge
- 7 coutpot a00 DRIVE NTDRAuttC - PART B '
POS?f!OW VALVE ACT/ VALVE ACT. APP. J TEST FREQUENCY YttrdCS VOLVE ' CODE SI2E TYPr TTPE m*M SAr. FAL TYPE C (DIRECTION) FJMSER REMARKS CAT. FAS NUMBER CLASS P&l0 COORD n - - - . _ '
.5 CK .SA 0 C - N ET-c(t) PER T.S. 4.1.3.1.2 47-1-3SG6-43) 2 M-47 (Sai 1) 8-6 ' C A i
B-6 A .5 CK $4 0 C - N ET-C(t) PER T.S. 4.1.3.1.2 i 47.-1-33(26-47) 2 M-47 (SMT 1) C i 4 8-6 'A .5 CK S4 0 C 8 ET-C(R) PER T.S. 4.1.3.1.2 47-1-38(26 51) 2- M 47 (SMT 1) C - i 8-6 C A .5 CK SA o C - 4 ti-ora) vEn T.S. 4.1.3.1.2. 47-1-38(26-55) '2 M-47 (SMT 1) i 8-6 A .5 CK S4 o C - m ET-Q(R ) PER T.S. 4.1.3.1.2 47-1-3S(26-59) ? M-A7 (Sni 1) C R C 4 .5 CK SA 0 C - N ET-0(R) PER T.S. 4.1.3.1.2 47-1-3S(30-03) 2 M-47 (SMT 1) 8-6 i C A .5 CK S4 O C - M ET-Q(t) PER T.S. 4.1.3.1.2 i 47-1-38(30-07) 2 M-47 (SNT 13 8-6 8-6 C A .5 CK SA O C - M ET-Q(R) PER T.S. 4.1.3 1.2 L 47-1-3S(30-11) 2 M-47 (SMT 1) 'i N ET-Q(R) pen T.S. 4.1.3.1 2 47-1-3S(30-15) 2 M-47 (SuT 1) 5-6 C A .5 CK SA 0 C - 1 M-47 (Smi 1) 8-6 C A .5 CK SA o C - = ET-o(*) Pt* T.S. 4.1.3.1.2 t 47-1-38(30-19) 2 o a ET-c(a) PER T.S. .t.3.1.2 $ 47-1-38(30-23) 2 M-47 (Sat 13 8-6 C A .5 CK SA C - l l A .5 CE $4 o C - m ET-c(R) PER T.S. 4.1.3.T.2 }
.47-1-3S(30-27) 2 M-47 (SMT 1) 8 C M-47 (SMT 1) B-6 C A .5' CK SA 0 C -
N ET-c(R ) PER T.S. 4.1.3.1.2 ; 47-1-3S(30-31) 2 I
?
8-6 C A .5 CK SA O C - N ET-0(R) PER T.S. 4.1.3.1.2 [ 47-1 38:30-35) 2 M-47 (SMT 1) y 8-6 C A .5 - CK SA 0 C - m ET-oO) PEN T.S. 4.1.3.1.2 [ 47-1-35(30-39) 2 M-47 (SWT 1) v B-6 C A .5 CK SA 0 C - W ET-C(R) Pts T.S. 4.1.3.1.2 47-1-3S(30-43) 2 M-47 (SMT 1) M-47 (Sn1 13 8-6 C A .5 tr SA o C - E ET-o(s) ett T.S. 4.1.3.1.2 47-1-38(30-47) 2 O N ET-O(R) pts T.S 4,1,3,1,2 47-1-3S(30-51) 2 M-47 (SMT 1) 8-6 C A .5 CK SA C - f i l l h
'~ ~ ~
* -- - -- s _- _ - _ . _ _ _ _ , _ _ _ _ _ _ _ , , , _ _ _ , _ _ _ _ _ _ , _ ___
M
/
SPEC. ML-CCS REVISION 2 VAlvt TA8tE 4 PACE uo: 59 IST TABLE - VALVES DATE: 07/06/91 LIMERICK CENERATimG STAT 10N - LM!T 1 1 COMMCN S757EM: 47 CD41ROL 200 DRIVE MYDRAUL1C - PART B POSIT 10s APP. J TESI FREQUENCY VPR/VCS VALVE 4CT/ VALVE. ACT. VOLVE C00E WUmste REMARES
' CLASS P110 COORD OT. PAS SIZE TYPE TYPE ERM SAF FAL TTPE C (DIRECTION)
NUMBER N ET-otR) PER T.S. 4.1.3.1.2 8-6 C A .5 CK SA 0 C - 47-1-38(30-55) 2 M-47 (SMT 1) N ET-c(R) PER T.C. 4.1.3.1.2 8-6 C A .5 CK SA 0 C - 47-1-38(30-59) 2 M-47 (SMT 1) O C - W ET-O(R) PER T.S. 4.1.3.1.2 8-6 C A .5 CK S4 47-1-38(34-03) 2 M-47 (SMT 1) SA 0 C - u ET-C(8) Pts T.S. 4.1.3.1.2 2 o T 1) 86 C 4 .5 CK 47-1-35(34-07) o C - n ET-c(R) Pts T .S. 4.1.'.1.2 8-6 C A .5 Cr SA 47- 1 -3d(34-11 ) 2 M-47 s > S4 0 C - m ET-ote) PER T45. 4.1.3.1.2 2 M-47 ( L. .) 8-6 C A .5 CE 47-1-38(34-15) Cr C - # ET-c(*) Ptn T.S. 6.t.3.1.2 2 M-47 (SMT 1) 86 C A .5 SA t' 47-1-38(34-19) O C - N ET-G(R) PER T.S. 4.1.5.t.2 M-47 (Shi 1) 8-6 C A .5 CE SA 47-1-38(34-23) 2 0 C - u ET-cta) PER T.S. 4.1.3.1.2 8*6 C A .5 Cr SA 47-1-38(34-27) 2 M-47 (SMT 1) Pts 7,5, 4,1,3,1 2 A .3 CK SA 0 C - N ET-c(R) 2 r-47 (Syf 1) 8-6 C 47-1-?8(34-31) S4 0 C - M ET-ot') Pts T.S. 4.t.3.1.2 M-47 (SMT 1) 8-6 C A .5 CE 47-1-3$(34-35) 2 cc o C - 4 ET-o(8) Ptn T.S. 4.1.3.1.2 M-47 (Swt 1) s-6 C A .5 SA 47-1-35(34-39) 2 pra T.S. 4.1.3.1.2 A .5 CK S4 O C - u ET-cta) ~ 2 4-47 (Suf 1) s-6 C 47-1-3S(34-43) CK SA 0 C - m ET-otal Pts T.S. 4.1.3.T.2 8-6 C A .5' 47-1-38(34-47) 2 M-47 (SMT 1) 0 C - N ET-Q(#) PER T.S. 4.1.3.1.2 2 M-47 (SMT 1) 8-6 C A .5 CK SA 47-1-3S(34-51) 4 0 C - # ET-0(t) Ptt T.S. 4.1.3.1.2 M-47 (Sat 13 86 C A .5 CK SA i 47-1-3S(34-55) 2 ). O C - # ET-0(#) Pit 7.5. 4.1.3.1.2 2 M-47 (SMT 1) 8-6 C A .5 CK SA 47-1-38(34-59) pta T.S. 4.1.3.1.2 A .5 Er SA o C - N- ET O(R) M-47 (Snf 1) s-6 C 47-1-3e(38 03) 2 (. _
. _ _ _ _._s
m c -m
.y.
SPEi*. ML-008 PEVtS!ON N VALVETABLE[. PAGE NO: 60 LIP 8ERICK CENER#.TIkG STATION - taf T 1 & COMMON DATE: 00/06s91 STSitM: 47 CONTROL RCD DRIVE MtDRAULIC # ART
- POSITION VALVE' C(et . "ALVE 'ACT/ VALVE ACT.
NUMBER CLASS PEID C00f.D APP. J TEST TREQUENCY- VRR/VCS ' CA T.' PAS S!ZE .TTPE TYPE NRM SAF FAL TTPE C (DIP *CTION) WMER PEM. ARES 47-1 38(38 07) 2- M-47 (SMT 14 8-6 C A- .5 CK SA .O C -' N ET-C(R) PER T.S. 4.1.3.1.2 47-1-38(3S-1:) - 2 N 47 (Sgf 1) 8-6 C A .5 CK SA O' C- - 4- ET-Q(R) PER ' T.S. 4.1.3.1.2 47-1 3a(35 15) .2 e-47 (SNT 1) 8-6 C A 5 CK SA 0 C - N ET-Q(R) PER T.S. 4.1.3.1.2 47-1-38(35-19) 2 M-47 (SMT 1) 8-6 C A .5 Et SA 0 C - N ET-C(R) PER T.S. 4.1.3.1.2 47-1-38(35-23) 2 M-47 (SMT 1) 86 C A .5 CC SA 0 C - N ET-C(R)- PEP T.S. 4.1.3.1.2 47+?-38(3S-27) 2 M-47 (SMT 13 8-6 C A .5 CK SA 0 C - N ET-G(R) PER T.S. 4.1.3.1.2-47 1-38(38 31) 2 M-47 (SNT 1) 8-6 C A .5 CK SA 0 C - N ET-Q(R) PER T.S, 4,1.3.1.2 47-1-38(33-35) 2 M-47 ($HT 1r 3-6 C A .5 CK %A 0 C - N ET-o(R) PER T.S. 4.1.3.1.2 47-1-35(35-39) 2 M-47 (SHT 1) B-6 C .A .5 CK SA 0 C - N ET-0(U
.PER T.S. 4.1.3.1.2 47-1-3S(38-43) 2 M-47 (SMT 1) 8-6 C A .5 . C% SA 0 .C -
N ET-o(R) PER T.S. 4.1.3.1.2 47-1-38(3S-47) 2 M-47 (SNT 1) 8-6 C A .5 CC SA 0 C - N ET-Q(R) PER T.S. 4.1.3.1.2 47-1-3S(35-51) 2 M-47 #5HT 1) 8-6 C A .5 CK SA 0 C - N ET-ciR) PER T.S. 4.1.3.1.2 47-1-38(3S-55) 2 M-47 (SHT .1) 8 C A .5 Et SA- 0 C -
-N ET-0(R)
PER T.S. 4.1.3.1.2 47-1-38(33-59) 2 M-47 (SNT :1) P4- C A .5 CK SA 0 C . N ET-C(R) PER T.S. 4.1.3.1.2 47-1-3S(42-03) 2 M 47 (SHT 1) . 8-6 C A .5 CE SA 0 C - N ET-Q(R) PER T.S. 4.1.3.1.2 47-1-38(42-07) ? M-47 (SMT 1) 8-6 C A .5 CK SA 0 C - N ET-0(R) PER T.S. 4.1.3.1.2 47-1-38(42-11) 2 M-47 (SMT 1) 8-6 C A .5 CK SA 0 C - N ET-Q(R) PER T.S. 4.1.3.1.2 47-1-38(42-15) 2 M-47 (SNT 1) .'8-6 C A .5 CK sA- 0 C - N ET-Q(R) PER T.S. 4.1.3.1.2 s m
,s.
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SPEC. ML-008 REVISION 2 VALVE TABLE IST TASTE - VALVES PAGE 80 -61 L1MERICK GENER*.T!NG !TATIOnl - UNIT 18 CCMMON 04TE: 09/06/91 SYSTEM: 47 CONTROL ROD ORIVE NYDRAULIC - PART 2 POSITION tfGLVE CODE ~ VALVE ACT/. VALVE ACT . ~ APP. J TEST FREQ'JENCT YRR/YCS NtMBER CLASS P&!D COORD CAT. PAS S!ZE TYPE -TTPE bRM SAF -fat. TTPE C (DIREttt0N) EMBER REMARKS 47-1-3S(42-19) 2 M-47 (SNT 1) B C A' .5 CK SA 0 C - N .ET-0(R) PER T.S.'4.1.3.1.2 ! 47-1-3f(42 23) 2 - M-47 (SHT 1) B-6 C A. .5 CK SA 0 C - N ET-C(R) PER T.S. 4.1.3.1.2 47-1-38(42-27) 2 M-47 (SHT 11 8-6 C a .5 CK SA 0 C - N ET-0(R) PER T.S. 4.1.3.1.2 47-1-3S(42-31) 2 M 47 (SMT 1) B-6 C A .5 CK SA C - N ET-C(R) PER T.S. 4.1.3.1.2 47-1-3S(42-35) 2 M-47 (SNT 1) 8-6 C A .5 CK SA 0 C - N ET-O(R) PEA T.S. 4.1.3.1.2 47-1-3S(42-39) 2 M-47 (SMT 1) 8-6 C A .5 CK SA O C - N ET-?(R) PER T.S. 4.1.3.1.2 47-1-38(42-43) 2 M-47 (SHT - 1) B-6 C A .5 CK SA O C - N ET-Q(R) PER 7.5. 4.1.3.1.2 , 47-1 38(42-47) 2 M-47 (SNT 1) 8-6 C A .5 CK SA O C - N ET-C(R) PER T.S. 4.1.3.1.2 47-1-3S(42-51s 2 M-47 (SMT 1) 8-6 C A .5 CK SA 0 C - N ET-C(R) PER T.S. 4.1.3.1.2 47-1-3S(42-55) 2 M-47 (SMT 1) B-6 C A .5 CK SA 0 C .- N ET-0(R) PER Y.S. 4.1.3.1.2 47-1-3S(42-59) 2 M-47 (SNT 1) 86 C A .5 CK S4 O C - N ET-Q(R) PEN T.S. 4.1.3.1.2 i 47-1-38(46-07) 2 M-47 (SMT 13 8-6 C A .5 CK SA 0 C - N ET-otR) PER T.S. 4.1.3.1.2 47-1-3S(46-11) 2 M-47 (SMT 1) - B-6 C A .5 CK SA O C - to ET-C(R) PER T.S. 4.1.3.1.2 47-1 38(46-15) 2 M-47 (SHT 1) 8-6 C A .5 CK &A 0 C - 3 ET-oth) PER T.S. 4.1.3.1.2 47-1-3S(46-19) 2 M-47 (SHT 1) 8-6 C A .5 CK St O C - N ET-otR) PEW 7.S. 4.1.3.1.2 47-1-3S(46-23) 2 M-47 (SNT 1) s-6 C A .5 CK SA O C - N ET-Q(R) PER T.S. 4.1.3.1.2 47-1-3S(46-27) 2 M-47 (S T 1) s-6 C A .5 CK SA 0 C - # E! 0(R) PER T.S. 4.1.3.1.2 47-1-3S(46-31) 2 M-47 (SMT 1) B-6 C A .5 CK SA O C - N ET-4(R) PER T.S. 4.1.3.1.2 i
>)
SPEC. Mt -008 REVISION 2 VALVE TABLE IST TABLE - VALVES PAGE NO: 62 LIMERICK CEMERATING STAT!DN - UNIT 1 & COMMON OATE: 09/06/91 STSTEM: 47 CONTRot R00 calve HYDRAULIC - FART 8 POSITION VALVE CODE VALVE ACT/ VALVE ACT. APP. J TEST TREQUENCT VRR/vCS NUMBER CLASS P&lD C00RD CAT. PAS SIZE TTPE TTFE NPM SAF FAL TYPE C (D!RECTION) NUMBER REMMKS 47-1-3S(46-35) 2 M-47 (SMT 1* 9-6 C A .5 CK SA O C - N ET-Q(R) PER T.S. 4.1.3.1.2 47-1-38(46-39) 2 M-47 (SHT 1) B-6 C A .5 CC SA 0 C - N ET-Q(R) PER T.S. 4.1.3.1.2 47-1-3S(46 43) 2 +'.7 (SNT 1) 8-6 C A .5 CK SA 0 C - N ET-c(R) PER T.S. 4.1.3,1.2
)
47-1-38(46-47) 2 M-47 (5HT 1) B-6 C A .5 Li 9 0 C - N ET-o(R) rER T.S. 4.1.3.1.2 l 1 47-1-3S(46-51) 2 M-47 (Sat 1) B-6 C A .5 CK S4 0 C N ET-0(R) PER T.S. 4. 3.1.2 47-1-3S(46-55) 2 H-47 (SNT 1) 8-6 C A .5 CK SA 0 C N ET-o(R) PER T.S. 4.1.3.1.2 47-1-38(50-11) 2 M-47 (SNT 1) B-6 C A .5 CK SA 0 C - N EY C(R) PER .S. 4.1.3.1.2 l 47-1-38(50-15) 2 M-47 (SHT 1) B-6 C A .5 CK SA 0 C - N ET-0(R) PER T.S. 4.1.3.1.2 47-1-3S(50-19) 2 M-47 (SMT 1) s-6 C A .5 CK SA 0 C - N ET-otR) PER T.S. 4.1.3.1.2 47-1-38(50-23) 2 M-47 (SNT 1) 8-6 C A .5 CK SA 0 C - N ET-c'R) PER T.S. 4.1.3.1.2 47-1-35(50-27) 2 M-47 (SHY 1) 8-6 C A .5 CK SA O C - N ET-C(R) PE R T.S. 4.1.3.1.2 47-1-3S(50-31) 2 M-47 (SNT 1) B-6 C A .5 CK SA 0 C - N ET-Q(R) PER T.S. 4.1.3.1.2 4 7- t -3S t S0-35 ) 2 M-47 (SMT 1) 8-6 C A .5 CK SA O C - N ET-Q(R) PER T.S. 4.1.3.1.2 47-1-38(50-39) 2 M-47 (SHT 1) e-6 C A .5 CK SA 0 C - N ET-0(R) PER T.S. 4.1.3.1.2 47-1-3S(50-43) 2 M-47 (SNT 1) s-6 C A .5 CK SA 0 C - N ET-Q(R) pra y,5. 4,1,3.1.2 47-1-3S(50-47) 2 M-47 (SWT 1) s-6 C A .5 CK SA 0 C - N ET-o(R) p(, T.5, 4 g.3.1,2 47-1-38(53-51) 2 M-47 (SMT 1) 8-6 C A .5 CK S4 0 C - N ET-o(R) PER T.r. 4.1.3.1.2 47 1-3S(54 15) 2 M-47 (SNT 1) B-6 C A .5 CK SA O C - N ET-0(R) PER T.S. 4.1.3.1.2 [ _ __ ___
~-
_ . . . _ i-
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SPEC. ML-008 REVISION 2 VALVE TABLE IST TABLE - VALVES PAGE No: 63 LIMERICK CENERATING STATION - tJNIT 1 1 COMMON DATE: 09/ % /91
-SYSTEM: 47 CONTROL ROD DRIVE liTDRAULIC - PART 8
. POSITION VALVE CODE VALVE ACT/ VALVE ACT. APP. J' TEST TREQUENCY V* 'VCS NUMBER CLASS P&!D COORD CAT. PAS.
$12E TYPE TYPE NRM SAF TAL TYPE C (D!PECTION) NUMBER REMARCS 47-1-38(54-19) -2 M-47 (SHT 1) B-6 C A .5 CK SA -o C -
N' ET-Q(R) PER T.S. 4.1.3.1.2 P
..47-1-38(54 23) 2- M-47 (SHT 1) . .8-6 C' 'A .5 CK' SA 0' C' -
N ET-0(R) PER T.S. 4.1.3.1.2 47-1-38(54 27) 2. M-47 (SHT 1)' 8-5 C A .5- CK SA 'O C - W ET-0(R) PER T.S. 4.1.3.1.2 4 7- 1-38($4-31) 2 M 47 (SMT 1) 86 C A .5 CC $4 O C - N ET-0(R) PER T.S. 4.1.3.1.2 j 47-1 35(54-35) 2 M-47 (SMT 1) B-6' C A .5 CK SA O C - N. ET-C(R) PER T.S. 4.1.3.1.2 47 1-38(54-39) 2 - M 47 (SHT 1) B-6 C A .5 CK SA O C - N ET-0(R) p-g T.S. 4.1.3.1.2 i 47-1-38(54-43) -2 M-47 (SMT 1) 8-6 C, A .5 CK SA O C - N ET-Q(R) ;PER T.S. 4.1.3.1.2
- 47-1-3S(!? 47) 2- M-47 (Spf 1) a-6 C A .5 CK SA o C -
N ET-Q(R) PER T.S. 4.1.3.1.2 47-1-38(58-03) 2 M-47 (SNT 1) B-6 C A .5 CK SA 0 C - N ET-Q(R) PER T.S. 4.1.3.1.2 47-1-38(58-19) 2 M-47 (SNT 1) B-6 C 'A .5 CK SA 0 C - N ET-Q(a) 5 PER T.S. 4.1.3.1.2 47-1-3S(58-23) 2 M-47 (SNT 1) 8-6 .C A .5 CK S4 o C - N ET-o(R) PER T.S. 4.1.3.1.2' 47-1-3S(58-27) 2 M-47 (SMT 1) 8-6 C A .5 CK SA 0 C - N ET-o(R) PER T.S. 4.1.3.1.2' 47-1-38(58-31) 2 M-47 (SMT 1) 8-6 C A .5 CK SA 0 C - N ET-c(R) PER T.S. 4.1.3.1.2 'I 47-1-38(58-35) 2 M-47 (SNT 1) 8-6 C A .5 CK SA ') C - N ET-Q(R) F2R T.S. 4.1.3.1.2 f 47-1-38(5S-43) 2 M-47 (SMT 1) 8-6 C A .5 Cit SA 0 C - N ET-c(R) PER T.S. 4.1.3.1.2 nV 1 -26( 02-19 2 M-47 (SNT 1) a-6 a A .5 GL A0 C D 0 ! N ET-RS, FS-R(0), 4 7-vtR- 1 ST-R(0). P!-T XV-47-1-26(02-23 2' M-47 (SNT 1) 8-6 8 A .5 CL Ao C 0 o N ET-Ra, FS-Pto), 4 7-vpR.1 ST-R(0), PI-T i
)
i i
W 4 1
. SPEC. ML-008 REVISION 2- i VALVE TABLE IST TABLE - VALVES PAGE No: 64 ' I LIMERICK CENERATINC STATION .?)MIT 1 & COMMON DATE: 09/06/91.
SYSTEM: 47 CONTROL ROD DRIVE HYDRAULIC - PART 8 POSITION VALVE CODE VALVE ACT/- VALVE ACT. APP. J TEST FREQUENCY VRR/VCS COMBER CLASS'P&!D -COORD CAT. PAS ' SIZE TYPE TYPE kRM SAF FAL TYPE C (DIRECTION) NUMBER ' REMARK 3 ny-4 7-1-26( 02-27 2 .M 47 (SHT 1) 8-6 8 A .5 - CL A0 C 0 D. 4 ET-RS, FS-R(0), 47-VRR-1
' ST-R(0), PI-T kV-47-1-26(02-31 2 ' M-47 (SMT 1) 8-6 '8 A .5 CL A0 C. 0. O' N. 'ET-Ra,-FS-R(0), 47-VRR-1 ST-R(0), P!-T XV-47-1-26(02-35 2 M 47 tSHT 1) 8-6 8 A .5 CL
- Ao C 0 0 m ET-RS, FS-R(0), 47-VRR-1 ST-R(0), PI-T kV-4 7-1 -26(02-39 2 M-47 (SNT 1) B-6 8 A .5 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-VRR-1 ST-R(0), PI-T xV-47-1-26(02-43 2 M-47 (SHT 1) 86 8 A .5 Ct A0 C 0 0 N ET-RG, r$-R(0), 47-vRR-1 ST-R(0), PI-T !
XV 47-1-26(05-15 2 M-47 (SMT 1) 8-6 8 A .5 .CL A0 C 0 0 4 ET-R3, FS R(0), 47-VRR-1 ST-R(0), P!-T XV-47-1-26(06-19 2 M-47 (SHT 1) B-6 8 A .5 CL A0 C 0 W ET-RG, FS-R(0), 47- 4RR-1 l ST-R(0), PI-T XV-47-1-26(06-23 2 M-47 (SHT 1) 8-6 8 A .5 CL Ao C 0 0 N ET-Ra, FS-R(0), 47-vnR 1 , ST-R(0), P!-T X V 1 -26(06- 27 2 M-47 (SHT 1) 8-6 8 A .5 GL A0 C 0 0 N ET R3, FS-R(0), 47-VRR-1 ST-R(0), P!-T XV-47-1 26(06-31 2 M-47 ZSMT 1) 8-6 8 A .5 CL A0 C 0 0 N ET-#3, FS-R(0), 4 7-VRR - 1
~
ST-RfC), PI-T XV 47-1-26(C6-35 2 M-47 (SMT 1) 8-6 8 A .5 CL A0 C 0 0 N ' va, FS-R(0), 47-VRR-1 2' a(0), PI-T XV-47-i-26t06-39 2 M-47 (SHT 1) 8-6 8 A .5 CL A0 C O O N CT-#3, FS-R(0), 47-VPR-1 ST-R(0), PI-T
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- SPEC. ML-008 REVISION 2 VALVE TABLE IST TABLE - VALVES- PAGE NO: 66 LIPERICE CENERATING STATION - tJNtf 1 & COMMON DATE: 09/06/91 SYSTEM: 47 CONTROL 200 DRIVE NTORAtKIC - PART B POSITION UALVE CODE VALVE .ACT/ VALVE ACT. APP. J TEST FREQUENCY VRR/VCS '
NUMBER CLASS P&lD COORD CAT. PAS SIZE TYPE TYPE NRM SAF FAL TYPE C (DIRECTION) NUMBER REMARKS M-47 (SHY 1) 8-6 8 A .5 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-VRR-1 MV-47-1-26(10-51 2 ST-R(0), PI-T M-47 (SHT 1) B-6 8 A .5 GL A0 C 0 0 N ET-RG, FS-R(0), 47-VRR-1 xv-47-1-26(14-07 2 ST-R(0), P!-T M-47 (SNT 1) 8-6 8 A .5 Gt Ao C 0 0 W ET-Ra, FS R(0), 47-VR R-1 XV-47-1-26(14-11 2 ST-R(0), PI-T M-47 (SHT 1) 8-6 8 A .5 CL AD C 0 0 N ET-Ra, FS-R(0), 47-vRR-1 XV 47-1-26(14-15 2 ST-R(0), PI-T 2 M-47 (SHT 1) B-6 8 A .5 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-VRR-1 XV-47-1-26(14-19 ST-R(0), PI-T M-47 (SMT 1) B-6 8 4 .5 GL A0 C 0 0' h ET-RG, FS-R(0), 47-vRR-1 XV-47-1 26(14-23 1 ST-R(0), P!-T M-47 (SMT 1) 8-6 8 A .5 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-Vo t-1 xv-47-1-26(14-27 2 ST-R(0), PI-T 8-6 8 A .5 CL A0 C 0 0 N ET-RQ, FS-R(0), 47-VRR-1 XV-47-1-26s14-31 2' M 47 (SNT 1) ST-R(0), PI-T 8-6 8 .5 CL Ao C 0 0 N ET-Ra, FS-R(0), 47-VRR.1 kV-47-1-26(54-35 2 M-47 (SNT 1) .A ST-R(0), P!-T M-47 (SHT 1) 8-6 8 A .5 CL AG C 0 0 N ET-RG, FS-etc), 47-VRR-1 XV-47-1-26(14-39 2 ST-R(0), PI-T M-47 (SMT 1) B-6 8 A .5 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-VRR-1 xv-47-1-26(14-43 2 ST-R(0), PI-T M-47 (SHT 1) 8-6 8 A .5 ct Ao C 0 0 N ET-R3, FS-R(0), 47-VRR-t XV-47-1-26(14 47 2 ST-R(0), Pt-T 1 4 J
--------__._._.__.____.__._.._.a
)
SPEC. ML-008 REVISION 2 VALVE TABLE IST TABLE - VALVES . PAGE NO: 67 LIMERICK CENERATING STAf t0N.- UNIT 1 & COMMON DATE: 09/06/97 SYSTEM: 47 CONTROL ROD DRIVE HTDRAUL!C
- PART 8 POSITION t'ALVE CODE -VALVE ACT/. VALVE ACT. APP. J TES: FREQUENCY VRR/vCS NUMBER CLASS P&IO COORD CAT. PAS SIZE TTPE TTPE NRM SAF FAL TYPE C (DIRECTION) NUMBER ^ REMARKS XV-47-1-26(14-51 2 M-47 (SHT 1) 8-6 8 .A .5 Ct A0 C 0 0 W ET-R2, FS-R(0), 47-VRR-1 ST-R(0), PI-T xv 1 -26(14-55 2 M-47 (SHT 1) ' 8-6 8 A .5 GL A0 C 0 0 W ET-RE, FS-R(0), 47-VRR-1 ST-R(0), PI-T XV-47-1-26(18-03 2 M-47 (SMT 1) 8-6 8 A .5 GL A0 C 0 0 N ET-RE, FS-Rf0), 47-veR- 1 S!-R(0), PI-T xv-47-1-26(18-07 2 M-47 (SHT 1) 8-6 8 A .5 GL A0 C O O N ET-RE, FS-R(0), 4 7-VE R - 1 ST-R(0), PI-Y XV-47-1-26(18-11 2 - M 47 (SMT 11 8-6 8 A GL A0 C 0 0 N ET-RE, FS-R(0), 4 7-vpR- 1 ST-R(0), P!-T xv-47-1-26(18-15 2 M-47 ($HT 1) 8-6 8 A .5 GL A0 C 0 0 N ET-Ra, FS-Rf0), 47-vRR-1 #
ST-R(0), PI-T XV 1-26(18- 19 2 M-47 (SHT 13 8-6 8 A .5 GL A0 C 0 0 u ET-RS, FS-R(0), 47-vzR-1 ST-R(0), P!-T xv-47-1-26(18-23 2 M-47 (SHT 1) B-6 8 A .5 CL A0 C 0 0 N ET-RS, FS-R(0), 47-vR R-1 ST-R(0), P!-T NV-47-1-26(18-27 2 M-47 (SHT 11 8-6 8 A .5 CL Ao C 0 0 N ET-R2, FS-R(0), 47-vRR- 1 ST-R(0), P!-T xv-47-1 26(18-31 2 M-47 (SHT 1) 86 8 A .5 CL A0 C O O N ET-R2, FS-R(0), 47- VR R - 1 ST-R(0), PI-T XV 47-1-26(18-35 2 M-47 (SHT 1) 8-6 8 A .5 GL AD C 0 0 N ET*RE, FS-R(0), 47-vRR-t ST-R(0), P!-T QV-47-1-26(18-39 2 M-47 (SNT 1) 8-6 8, A .5 GL AO C O O N Ef-R3. FS-R(0), 47-ven -1 ST-RCO), Pf-T
J. SrtC. m -00s REVIS10N 2 VALVE TABLE' IST TABLE f VALVES FACE NO: 68 - LIMERICK CEkERATING STATION - t> NIT 1 & COMMON DATE: 09/06/91 SYSTEM:' 47.CONTRot. R00 DRIVE HYDRAtJLIC - PART B
+
POSITION UALVE CODE VALVE, ACT/ VALVE ACT. . APP. J TEST FREQUENCY VRR/VCS NUMBER CLASS P&lD ~ COORD CAT. PAS SIZE . TYPE- TYPE NRM SAF FAL' TYPE C (DIRECTION) NUM9ER REMARKS XV-47-1-26(18-43 2 M-47 (SHT 1) 86 8 'A .5 GL A0 C 0 0 N ET-RG, FS-R(0), 47-VRR-1 ST-R(0), PI-T XV 47-1-26(18-47 2 M+47 (SNT 1) 86 B A .5 CL A0 C 0 0 N ET-R2, FS-R(0), 47-vRR-1 ST-R(0), PI-T kV-4 7- 1-26(18-51 2 M-47 (SMT 1) B-6 B A .5 GL AC C 0 0 N ET-Ra, FS-R(0), 47-VRR-1 ST-R(0), PI-T
'xv-47-1-26(18-55 2 M-47 (SHT 1) s-6 8 A .5 CL AO C 0 0 N ET-R2. FS-R(0), 47-VR R-1 ST-R(0), P!-T XV-47-1-26(18 59 2 M-47 (SHT 13 8-6 8 A .5 CL AO C O O N ET-R3, FS-R(0), 47-VRR-1 ST-R(0), PI T XV-47-1-26(22-03 2 M-47 (SMT 1) 86 8 A .5 GL A0 C 0 0 W ET-R2, FS-R(0), 47-YRR-1 ST-R(0), P!-Y XV-47-1-26(22-07 2 M-47 (Sni 1) 8-6 B A .5 GL AO C 0 0 N ET-RG, FS-R(0), 47-vt R-1 ST R(0), PI-T xv 1-26(22-11 2 M-47 (SMT 1) e-6 B A .5 CL Ao C o o N ET-Ra, FS-R(0), 47-VRR-1 ST-A(0), PI-T XV-4 7- 1-26(22-15 2 M 47 (SNT 1) 86 8 A- .5 . GL A0 C O O N ET-RG, FS R(0), 47-VRR-1 ST-R(0), PI-T XV-4 7-1 -26(22- 19 2 M 47 (SMT 13 s-6 B A .5 ct Ao C 0 0 N ET-Ra, FS R(o), 47-VRR-1 ST-R(0), PI-T i
xV-47-1-26(22-23 2 M-47 (SHT 1) s-6 8 .A .5 CL AO C 0 0 N .ET-R2, FS-R(0), 47- VR R - 1 ST-R(0), PI-T uV-47-1-26(22 27 2 M-47 (SNT 1) B6 8 A .5 Ct AO C O O N ET-RG, FS R(0), 4 7-VR R - 1 ST-R(0), P!-T
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SPEC. ML-006 REVISION 2 IST TABLE - VALVES VALVE TA8tE LIMERICK CENERATING STATION - UNIT 1 & COMMON PACE NO: 70 DATE: 09/06/91 SYSTEM: 47 CONTROL ROD ORIVE HTDRAULIC - PART 8 tfALVE CODE POSIfl0N VALVE ACT/ VALVE.ACT, NUMBER CLASS F&lD APP. J TEST FREQUENCY COORD CAT. PAS ' SIZE TTPE VRR/VCS TIPT. NRM SAF FAL TTPE C (0!EECT10N) WUMBER REMARKS' XV-47-1-?6(26- 19 2 M-47 (SHT 1) B-6 B A .5 CL A0 t- 0 0 N ET-RG, FS-R(0), 47-vRR-1 ST-R(0), PI-T XV-47-1-26(26-23 2 M-47 (SHT 1) B-6 8 A .5 CL A0 C 0 0 W ET-Ra, FS-R(0), 47-vRR-1 ST-R(0), PI-T xv-47-1-26(26-27 2 M-47 (SMT 1) B-6 8 .A .5 GL A0 C O O N ET-RG, FS-R(0), 47-VR R- 1 ST-R(0), P!-T xv-47-1-26(26-31 2 M-47 (SHT 1) 8-6 8 A .5 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-VR R- 1 ST R(0), PI-T xv-47-1-26(26-35 2 M-47 (SN! 1) B-6 B A .5 Ct AO C 0 0 W ET-Ra, FS-R(0), 47-vRR-1 ST-R(0), P!-T XV-47-1-26(26-39 2 M-47 (SNT 1) s-6 s A .5 CL As - C 0 0 N ET-Ra, FS-R(0), 47-VRR 1 ST-R(0), PI-T XV-47-1-26(26-43 2 M 47 (SHT 1) 8-6 a A .5 CL A0 C 0 0 J ET-RD, FS-R(0), 47-VRR-1 ST-R(0), PI-T XV-47-1-26(26-47 2 M 47 (SNT 1) B-6 B A .5 CL A0 C O D N ET-R2, FS-R(0), 47-VPR - 1 ST-R(0), PI-T XV-47-1 26(26-51 2 M 47 (SMT 1) B-6 9 A .5 CL A0 C O O N ET-R2, FS-R(0), 47- VRR - 1 ST-R(0), PI-T XV-47-1-26(26-55 2 M-47 (SNT 1) 86 8 4 .5 GL A0 C 0 0 N ET Ra, FS-R(0), 47-VR R- 1 ST R(0), PI-T XV 1 -26(26-59 2 M-47 (SMT 1) B'6 8 A .5 CL A0 C O O N ET-R2, FS-R(0), 47 VRR-1 ST R(0), P!-T uv-47-1-26(30 03 2 M-47 (Suf 1) a-6 8 A .5 CL A0 C 0 0 N ET-82, FS-R(0), 4 7- VR R - 1 ST-R(0), PI-T
t.l&.,, . SPEC. ML-008 REVISION 2 VALVE TA8tE IST TABLE - VALVES PAGE NO: .' 71 LIMERICK GENERAftNG STATION - UNIT 1 & COMMON DATE: 09/06/91 STSTEM: 47 CONTROL ROD DRIVE HYDRAULIC.- PART 8 POSITION VALVE CODE VALVE .ACT/ VALVE ACT. . APP, J TEST FREQUENCY NUMBER CLASS P&lD VER/VCS COORD CAT. PAS SIZE TTPE TTPE NRM SAF FAL TYPE C (DIRECTION) NUM8tR REMARKS IIV-47-1-26(30 07 2 M-47 (SHT 1) 8-6 8 A. .5 '. GL A0 C 0 'O N ET-R3, FS-R(0), 47-VRR-1 ST-R(0), P!-T XV-47-1-26(3?-11 2 M-47 (SRf 1) 8-6 8 A .5 CL AO. C 0- 0 N ET-R3, FS R(0), 47-VRR-1 ST-R(0), P!-T k V-47-1 26( 30- 15 2 M-47 (SHT 1) 8-6 8 A .5 GL. AO _ C 0 0 N ET-Ra, TS-R(0), 47-VRR-1 ST-R(0), P!-T XV-47-1-26(30-19 2 M-47 (SNT 1) B-6 8 A 5 CL AO C 0 0 N ET-Ra, FS-R(0), 47-VRR-1 ST-R(0), P!-T xv-47-1-26(30 23 2 M-47 (SMT 1) 8-6 8 A '.5 CL A0 C 0 0- N ET-R3, FS-R(0), 47 VRR-1 ST-R(0), PI-T xv 1 -26(30-27 2 M-47 (SNT 1) B-6 5 .A .5 Ao C CL 0 0 N ET-Ra, FS-R(0), 47-YRR-1 ST-R(0), PI-T xv-47-1-26(30-31 2 M-47 (SNT 1) 8-6 8 A .5 CL A0 C 0 0 N El-Ra, FS R(0), 47-var-1 ST-R(0), PI-T XV-47-1-26(30-35 2 M-47 (Set 1) B-6 P A .5 CL A0 C 0 0 m ET RG, FS-R(0), 47-vRR-1 ST-R(0), PI-T xv-4 7- 1 -26( 30-39 2 M-47 (SNT 1) B6 8 A .5 CL An C 0 0 N ET-R3, TS-R(0), 4 7-var-1 ST-R(0), PI-T XV-47-1-26(30-43 2 M-47 (SNT 1) 8-6 8 A .5 CL A0 C 0 0 N ET-Ra, FS-R(0), 4 7-VR R- 1 ST-R(0), PI-T xV-47-1-26(30-47 2 M-47 (SNT 1) 8-6 S A .$ GL AD C 0 0 W ET-RG, FS-R(0), 4?-vas-1 ST-R(0), PI-T
' XV-47-1-26(30-51 2 M-47 (SNT 1) 8 9 A' .5 CL AO .C O O N ET-R3, FS-R(0), 47-vRR-1 ST-R(0),' PI-T
_._u _ _ _.. . _ .
s SPEC. ML'-008 REVISION 2-VALVE TABLE-IST TABLE - VALVES. 'PAGE NO: 72 LIMERICK CENERATING STATION - UNIT 1 & COMMON DATE: 09/06/91-SYSTEM: 47 CON 1ROL ROD DRIVE NYDRAULIC - PART B POSITION VALVE CODE' VALYE ACT/ VALVE ACT. APP. J TEST FREQUENCY VRR/VCS N'JMBE R CLASS PEID - COORD - CAT. PAS S!2E . TYPE TYPE NPM .SAF FAL TTPE C (DIRECTION) NUMBER REMARKS XV-47-1 26(30-55 2 M-47 (SHT 1) B-6 8
'A .5 CL AO C O O N ET-R3, FS-R(0), 47-vR R-1 ST-R(0), P!-T XV-47-1-26(30-59 2 M-47 (SHT 1) 86 9 A 5 GL AO C 0 0 N ET-Ra, FS-R(0), 47-vRR-1 ST-R(0), PI-T xv 1 -26(34-03 2 M-47 (SHT 1)- B-6' 8 A .5 CL AO C O O N ET-Ra,'FS-R(0), 47-vRR-1 ST-R(0), PI-T xv 47-1-26(34-07 2 M-47 (SHT 1) B-6 P A '. 5 CL AO C O O- 'N ET-Ra, FS-R(0), 47-vRR-1 ST-R(0), PI-T xv-47-1 26(34-11 2 M-47 (SHT 1) B-6 8 A .5 CL AD C O O N ET-RG, FS-R(0), 47-vf R-1 ST-R(0), PI-T xv-47-1-26(34-15 2 M-47 ($HT 1) B-6 B A .5 CL n C O O N. ET-RG, FS-R(0), 47-vR R-1 ST-R(0), PI-T xv-47 1-26(34-19 2 M 47 (SNT 1) B-6 8 A- .5 CL AO C O O N ET-Ra, FS-R(0), 47-yRR.1 ST-R(0), PI-T xv 47-1-26(34-23 2 M-47 (SNT 1) 8-6 8 -A .5 CL AO C O O N ET-RG, FS-R(O), 47-vRR-1
.ST-R(0), PI-T XV-47-1-26(34-27 2 M-47 (SHT 1) 8 8 A .5 . GL AO C O O N ET-Ra, FS-R(0), 47-vR R-1 ST-R(0), Pl-T '
xv-47 1-26(34-31 2 M-47 ($HT 1) a-6 8 A .5 CL AO C 0 0 N ET-Ra, FS-R(0), 47-vf R-1 ST-R(0), PI-T xv 1-26(34-35 2 M-47 (SHT 1) B-6 8 A- .5 CL AO C O O N ET-R3, FS-Pf)), 47-vfR-1 ST-R(0), PF F xv 47 1-26(34-39 2 M-47 (SNT 1) B6 B A .5 CL AO C O O N ET-R3, FS-RCO), 47-v2R-1 ST-R(0), PI-T l
?).
SPEC ML-008 - REVISION 2 IST TABLE - VALVES VA..YE TABLE. PA',E NO: 73 ~ t!MERICK CENERATING STATION - UNIT 1 1 COMMON DA17: 09/06/91' SYSTEM: 47 COW 1ROL ROD ORIVE HYDRAULIC - PART B VALVE CODE POSITION VALVE ACT/ vat.VI ACT. NUMBER CLASS P&lD APP. J TEST FREQUENCT COORD CAT. PAf VRR/VCS
- SIZE TYPE TYPE ~ NRM SAF FAL TTPE C (DIRECTION) WJMBER
____ REMARKS xV-4 7- 1 26(34-43 2 H-47 (SHT 1) 8-6 B A .5 CL A0 C 0 0 N ~ET-Ra, FS-R(0), 47-VRR-1 ST-R(0), PI-T xv-47-1 -26(34-4 7 2 M-47 (SHT 1) s-6 8 A .5 Ct A0 C D 0 N ET-RG, FS R(0), 47-VRR - 1 ST-R(0), PI-T XV-47-1-26(34-51 2 M 47 (SHT 1) 8-6 8 A .5 GL A0 C 0 0 N ET-RG, FS-R(0), 47-VR R- 1 ST-R(0), PI-T XV-47-1-26(34-55 2 M 47 (SNT 1) B-6 8 A .5 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-VR R-1 ST-R(0), P!-T xV-47-1-26(34-59 2 M-47 (SMT 1) B-6 B A .5 GL AG C 0 0 N ET-Ra, FS-R(0), 47-VRR-1 ST-R(0), PI-T XV-47-1-26(38-03 2 M-47 (SHT 1) a-6 s A .5 CL Ao C 0 0 N ET-RE, FS-R(0), 47-VRR -1 f ST-R(0), PI-T W-47-1 -26( 33-07 2 M 47 (SMT 1) 9-6 8 A .5 CL A0 C 0 0 N ET-Ra, FS R(0), 47-VRR-1 ST-R(0), PI-T xv-47 1 26(38-11 2 M-47 (SHT 1) B-6 9 A .5 CL A0 C 0 0- N ET-Ra, FS-R(0), 47 VRR-1 S T - R ( D),. PI-T kV-47-1 26(38-15 2 M 47 (SMT 1) 9-6 s A .5 ct A0 C 0 0 N ET-Ra, FS-R(0), 47-vR R -1 ST-R(0), PI-T xv-47-1 26(38-19 2 M-47 (SNT 1) e-6 8 A .5 GL Ao C 0 0 N ET-Ra, FS-R(0), 47-vRR-1 i ST-R(0), PI-T XV-47-1-24(38-23 2 M-47 (SHT 1) B-6 8 A .5 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-VRR - 1 ST-R(0), PI-T XV 47-1-26(38-27 2 M-47 (SNT 1) 3-6 B A .5 CL AO C D 0 N ET-R3, FS-R(0), 47-VrW-1 ST-R(0), PI-T
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SPEC. ML*008 REVISION 2 VALVE TABLE IST TABLE - VAtVES PAGE NO: ' 74 LIMERICK CENERAflWG STATION - UNIT.1 & COP' MON DATE: 09/06/91 i.
' SYSTEM: 47 CONTROL ROD DRIVE HTDRAULIC - PART B 4
POSITION VALVE E00E .VALYE ACT/ VALVE ACT. APP, J TEST FREQUENCY VRR/VCS NUMBER CLASS P&lD COC5tD . CAT. PAS SIZE TTPE TTPE' NRM SAF FAL- TYPE C- (DIRECTION) NUMBER - FEMARits
- .- +: _ _ _ _
4 XV 47-1-26(38-31 2- . M-47 (SHT 1) B-6 8 A .5 , CL ' A0 C 0 0 W ET-RQ, FS-R(0), 47-vRR -1 ST-R(0), PI-T UV 47-1-26(38-35 2 M 47 (SHT 1) B-6 B A .5 GL AO C 0 0 N ET-Ra, FS-R(0), 47-VRR-1 ST R(0), PI-T I XV 47-1-26(38-39 2 M-47 (SHT 1) B-6 B A .5 GL A0 C.- 0 0 N ET-Ra, FS-R(0), 47-VRR- 1 ST-R(0), PI-T XV 47-1 26(38-43 2 M-47 (SHT 1) 8-6 8 A .5 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-VRR-1 ST R(0), P!-T XV 47-1 26(38 47 2 M-47 (SHT 1) 8-6 8 A .5 GL AO C 0 0 N ET-Ra, FS R(0), 47-VRR- 1 ST-R(0), PI-T XV- 47 1 -26(35-51 2 M-47 (S?T 1) 8-6 8 A .5 GL A0 C 0 0 N ET-RS, FS-R(0), 47-VRR-1 *
! ST R(0), P!-T XV 1 -26(3S-55 2 M-47 (HT 1) 86 B A .5 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-VRR -1 ST-R(0), PI-T XV 47-1-26(38-59 2 . M-47 (SMT 1) B-6 s A .5 Gt A0 C 0 0 N ET-R4, FS R(0), 47-VRR-1 i ST-R(0), P!-T xv~47-1 26(42-03 2 M-47 (SNT 1) 86 s A .5 CL A0 C 0 0 W ET-R3, FS-R(0), 47-VRR -1 ST-R(0), PI-T XV-47-1 26(42 07 2 M-47 (SMT 1) B6 8 A .5 GL A0 C 0 0 W ET-Ra, FS-R(0), 47-VRR-1 ST-R(0), PI-T XV 4/-1-26(42-11 2 M-47 (SMT 1) B-6 B A .5 GL A0 C 0 0 N ET-R3,'FS-R(0), 4 7-VRR - 1 ST-R(0), PI-T xV 47-1-26(42-15 2 M-47 (SMT 1) B-6 9 A .5 - GL A0 C 0 0 F ET-Ra, FS-R(0), 47-Vot-1 ST-R(0), P!-T I
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SPEC. ML-003 REvaS10N 2 VALVE TABLE' IST TABLE - VALVES PAGE NO: 75 . LIMERICK CENERATING STATION . UNIT 1 & COMMON DATE: 09/06/91 STS1EM: 47 CONTROL R00 DRIVE HYDRAUllC - PART 8 POSITION VA".VE CODE VALVE ACT/ VALVE ACT, APP. J TEST FREQUENCY- VRR/vCS Nu1BER CLASS P&lD 'COORD CAT. PAS SIZE. TYPE TYPE NRM SAF FAL TTPE C (DIRECT!N ) NUMBER REMARKS xv 47-1 26(42 2 M-47 (SHT 1) 8-6 .8 A .5 CL A0 C 0 0 .N- ET-Ra, FS-R(O' 47-VRR-1 ST-R(0), PI-T XV-47-1-26(42-23 2 M 47 (SHT 1) B-6 8 A .5 GL A0 C 0 0 W ET-Ra, FS-R(0), 47-VR R- 1 ST-R(0), PI-T xv 47-1-26(42-27 2 M-47 (SHT 1) 8-6 8 A .5 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-VR R-1 ST-R(0), PI-T XV-47 1-26(42-31 2 M-47 (SMT 1) 8-6 8 A .5 CL A0 C. 0 0 N ET R3, FS-R(0), 47-VsR-1 ST-R(0), PI-T xV-47-1-26(42-35 2 M-47 (SHI 1) 8-6 8 A' .5 . GL A0 C O O N ET-Ra, FS-R(C), 47-VE R- 1 ST-R(0), PI-T xv-47-1-26(42 39 2 M 47 (SHT 1) 8-6 8 A .5 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-var-1 # ST-R(0), PI-? xv-47-1-26(42-43 2 M-47 (SHT 1) B-6 8 A .5 GL A0 C 0 0 N ET-RG, FS-R(0), 47-VRR-1 ST-R(0), PI-T xv-47-1-26(42-47 2 M-47 (SMT 1) s-6 8 A .5 CL A0 C 0 0 N ET-Ra, FS R(0), 47-VRR-1 ST-R(0), P!-T W 1 - 26( 42 - 51 2 M-47 (SNT 1) B6 8 A .5 CL A0 C 0 0 N ET-Ra, FS-R(0), 4 7- vR R-1 ST-R(0), PI-T ky 1 -26(42-55 2 M-47 (SNT 1) B-6 8 A .5 CL A0 C 0 0 N ET-Ra, FS*R(0), 47-VPR-1 ST-R(0), PI-T xV-47-1-26(42-59 2 M-47 (SMT 1) 8-6 s A .5 GL A0 C 0 0 N ET-R2, FS-R(0), 47-VRR-1 ST*R(0), PI-T xv-47-1-26(46-07 2 M-47 (SNT 1) s-6 8 A .5 CL A0 C 0 C N ET R9, FS-R(0), 47-VRR-1 ST-R(0), PI-T
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SPEC. ML-008 REVISION 2 VALVE TABLE '
!ST TABLE .. VALVES PAGE NO: 76 LIMERICK GENTRATING STATION - UNIT 1 & COMM M DATE:'09/06/91-SYSTEM: 47 CONTROL R00 DRIVE HYDRAut!C . PART 8 -
POSITION VALVE . CODE' VALVE ACT/ '. VALVE ACT. APP. J TEST FREQUENCY VRR/VCS NUMBER CLASS P&tD COORD CAT. PAS SIZE - TYPE TYPE NRM .SAF FAL TYPE C (DIRECTION) NUMBER ' REMARKS XV-47-1-26(46-11 2 M-47 (SMT 1) 8-6 8 A .5 GL A0 C 0 0 N ET-RG, FS-R(0), 47-VR R-1 ST-R(0), P!-T xV-47-1-26(46-15 2 M-47 (SHT 1) 8-6 8 A .5 GL A0 C 0 0 N ET-RS, FS-R(0), 47-VAR-1 ST-R(0), PI-T xv-47-1 26(46 19 2 M-47 (SHT 1) ' 86 8 A .5 GL A0 C 0' O N ET-83, FS p(O), 47-VRR-1 ST R(0), Pf-T XV-47-1-26(46-23 2 M-47 (SHI 1) 8-6 e A .5 GL A0 C 0 0- N ET-Ra, FS-R(0), 47-VRR-1 ST-R(0), P!-T XV-47-1-26(46-27 2 M- (SHT 1) 86 8 A .5 GL Ao C 0 0 N ET-Ra, FS R(0), 47-vpR- 1 ST-R(0), PI-T XV-47-1-26(46-31 2 M-47 (SNT 1) B-6 8 A .5 GL AO C 0 0 N ET-Ra, FS-R(0), 47-VR R-1 ST-R(0), PI-T xv '7-1-26(46-35 2 M-47 (SMT 1) B6 8 A .5 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-VR R-1 ST-R(0), P!-T XV-47-1-26(46-39 2 M-47 (SHT 1) 86 8 A .5 GL A0 C 0 0 N ET-R2, FS-R(0), 47-VR R-1 ST-R(0), PI-T xV-47 1-26(46-4 3 2 M-47 (SMT 1) 8-6 8 A .5 CL A0 C 0 0 N ET-RD, FS-R(0), 47-VRR- 1 ST-R(0), P!-T xV-4 7-1 -26(46-4 7 2 M-47 ($HT 1) 8-6 8 A .5 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-vRR-1 ST-R(0), Pf-T xv-47 1 -26(46-51 2 M-47 (SHT 1) 8-6 8 A .5 CL A0 C 0 0 N ET-R3, FS-R(0), 47-VPR-1 ST-R(0), PI-T XV-47-1-26(46-55 2 M 47 (SHT 1) 8-6 8 A .5 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-vRR - 1 ST-R(0), PI-T t
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SPEC. ML-008 REVISION 2 VALVE TABLE IST TABLE - VALVES PAGE NO: 77 LIMERICE CENERATING STATION - 1) NIT 1 & COMMON DATE: /91 SYSTEM: 47 CONTROL ROD DRIVE HYDRAULIC - PART 8 - POSITION C(SE VALVE- ACf/ VALVE ACf. APP. J TEST FREQUENCT VRR/VCS WALVE NtNBER CLASS PEID COORD CAT. PAS SIZE- ITPE TTPE NRM SAF FAL TTPE C (DIRECTION) NUMBER REMARKS XV-47-1-26(50-11 2 M-47 (SMT 1) B-6 8 A .5 . GL A0 C 0 0 N ET-Ra, FS-RCO), 47-VRR-1 ST-R(0), PI-T xV-47-1 -26(50-15 2 M-47 (SHT 1) 8-6 8 A .5 CL A0 C 0 0 W. ET-Ra, FS-R(0), 47-vRR-1 ST-R(0), P!-T XV-47-1-26(50-19 2 M-47 (SHT 1) 8-6 8 A .5 GL A0 C U 0 N ET-RG, FS-R(0), 47-VRR-1 ST-R(0), PI-T xv-47-1-26(50-23 2 M-47 (Snf 1) B-6 8 A .5 CL A0 C 0 0 N ET-R3, FS-R(0), 47-VRR-1 ST-R(0), PI-T xv-47-1-26(50-27 2 M-47 (SHT 1) 8-6 8 A .5 CL A0 C 0 0 W ET-Ra, FS-R(0), 47-vnR 1 ST*R(0), PI-T xv-47-1-26(50-31 2 M-47 (SNT 1) 8-6 8 A .5 ~ GL A0 C 0 0 N ET-RS, FS-R(0), 47-vR R-1 ST R(0), PI-T uv-47-1-26(50-35 2 M-47 (SNT 1) 8-6 8 A .5 CL A0 C 0 0 id ET-RG, FS-R(0), 47-vRR-1 ST-R(0), PI-T xv-47-1-26(50 39 2 M-47 (SMT 1) B6 8 A .5 CL A0 C 0 0 N ET-Ra, FS R(07., 47 VRR-1 ST-R(0), PI-T xv-47-1-26(50-43 2 M-47 (SMT 1) B-6 8 A .5 CL A0 C 0 0 N ET-R3, FS-R(0), 47-vpR-1 ST-RCO), P!-T 2 M 47 (Snf 1) 86 8 A .5 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-vRR-1 XV 1 -26(50-47 ST-R(0), PI-T xv-47-1 26(50-51 2 M-47 (SNT 1) D-6 8 A .5 CL A0 C 0 0 M ET-RG, FS-R(0), 47-va R-1 ST-R(0), PI-T ny-47-1-26(54-15 2 M-47 (SMT 1) 8-6 8 A .5 ct A0 C 0 0 N ET-RE, FS-R(0), 47-vRR 1 SI-R(0), PI-T
~~~
i ? ). SPEC. Mt-Oca REVISION 2 VALVE TABLE IST TABLE - VALVES PAGE WO: 78 " 1,IMERICK CENERAT!kG STATION - UNIT 1 & COMMON DATE: 07/06/91 SVSTEM: 47 CONTROL R(X) DRIVE HTDRAULIC - PART B POSITION ! VALVE ACT/ VALVE ACT. APP, J TEST FREQUENCY VRR/VCS VALVE CODE TYPE ' TYPE NRM SAF FAL TTPE C (DIRECTION) k' UMBER REMARKS NUMBER CLASS P&lD COORD CAT. PAS $!ZE i 8-6 8 A .5 . CL A0 C 0 0 N ET-Ra, FS-R(0), 47 VRR-1 " XV-47 1-26(54-19 2 ~M-47 (SHT 1) ST-R(0), PI-T
.5 A0 0 0- 0 W ET-Ra, FS-R(0), 47-VRR-1 xv-47-1-26(54-23 2 M-47 (SMT 1) 8-6 8 A CL ST-R(0), PI-T
.5 A0 C 0 0 N ET-RG, FS-R(0), 47-VRR-1 XV-47-1-26(54-27 2 M-47 (SMT 1) 8-6 8 A CL ST-R(0), PI-f r
.5 A0 0 0 N ET-Ra, FS-M(0), 47-VRR-1 XV-47 1-26(54-31 2 M-47 (SMT 1) 8-6 8 A CL C ST-8(0), PI-T 8-6 8 A .5 Ct A0 C 0 0 W ET-Ra, FS-R(0), 47-VE R-1 xv 47-1-26(54-35 2 M-47 (SHT 1)
ST-R(0), P!-T 8 A .5 CL An C 0 0 N ET RG,-FS R(0), 47-VER-1 xv-47-1-26(54-39 2 M-47 (SHT 1) 8-6 ST-R(0), P!-T
.5 A0 C 0 0 W ET-Ra, FS R(0), 47-VRR-1 XV 47-1-26(54-43 2 M-47 (SMT 1) 8-6 8 A CL ST-R(0), PI-T 86 8 A .5 Ct A0 C 0 0 N ET-Ra, FS-R(0), 47-VPR-1 XV-47-1-26(54-47 2 M 47 (SHT 1)
ST R(0), PI-T
.5 CL A0 C 0 0 W ET-Ra, FS-R(0), 47- VR R - 1 xv-47-1-26(58 03 2 .M-47 (SNT 1) 8-6 8 A ST R(0), Pf-T 8 A .5 CL A0 C 0 0 N ET-Ra, FS-R(0), 47. var- 1 XV-47-1-26(58-19 2 M-47 (SHT 1) 8-6 ST-R(0), Pf-T
.5 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-Vem-1 MV-47-1 .',(53-23 2 M 47 (SHT 1) 8-6 8 A ST-R(0), P!-T
.5 A0 C 0 0 N ET-Ra, FS-R(0), 47-vte-1 xV-47 1-26(55 27 2 M-47 (Shi '1) e-6 8 A CL ST R(0), PI-T
)
SPEC, ML-008' REVISION 2 VALVE. TABLE. IST TABLE + VALVES PAGE NO: 79 LIMERICE GENERAT!NC STATICW - UNIT 1 & CCMMON DATE: 09/06/91 SYSTEM: 47 CONTROL ROD DRIVE HYDRAULIC - PART B POSITION CODE VALVE ACT/ VALVE ACT, APP.'J TEST FREQUENCT VRR/VCS BALVE COORD CAT. PAS $12E TTPE TTPE NRM SAF FAL TYPE C (DIRECTION) NtMBE R REMARES NUMBER CLASS P&lD M-47 (SMT 1) B-6 -8 A .5 Gt A0 C 0- 0 N ET-Ra, FS-R(0),- 47-VRR-1 ' XV-47-1-26(58-31 2
- ST-R(0), PI-T 2 M-47 (SMT 1) B-6 8 A- .5 CL A0 C O O N ET-RG, TS-R(0), 47-VRR-1 i XV-47 1 -26(58-35 ST-R(0), PI-T A. .5 GL A0 C O O N ET-R3, FS-R(0), 47-VRR-1 XV-47-1-26(58 43 2 M-47 ($HT 1)~ 8-6 B ST-R(0), PI-T M 47 (SNT 1) D-6 8 A .75 ct AO C O O N ET-Ra, FS-R(0), 47-v2R-1 ,
xv-47-1 27(02-19 2 ST-R(0), PI-T D-6 B A .75 CL AO C 0 0 N ET-Ra, FS-R(0),. 47-VRR 1 XV 1-27(02-23 2 M-47 (SNT 1) ST-R(0), PI-T 2 M-47 (SHT 1) D-6 9 A .75 GL A0 C O O N ET-RG, FS-R(0), 47-VRR-1 f XV-47-1-27(02-27 ST-R(0), PI-T M-47 (SHT 1) D6 s A .75 GL A0 C O O N ET Ra, FS-R(0), 47-VRR-1 xv-47 1 -27(02-31 2 ST-R(0), PI-T -[ M-47 (SMT 1) D-6 B A 75 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-VR R - 1 < XV 1 27(02-35 2 ST-R(0), P!-T D-6 B A .75 GL A0 C O O N ET-RG, FS-R(0); 47-VRR-1 xv 47-1-27(02-39 2 M-47 (SHT 1) ST-Rf0), PI-T , M-47 (SHT 1) D6 s A .75 GL A0 C O O N ET-Ra, FS-R(0), 47 VRR-1 XV 47-1-27(02-43 2 ST-R(0), PI-T D-6 8 A .75 GL A0 C O O N EI*R3, FS-R(0), 47-v2R-1 XV-47-1-27(06-15 2 M-47 (SMT 1) ST-R(0), P!-T D6 8 4 .75 GL A0 C O O N ET-R2, FS-R(0), 47-vp R-1 kV-47-1-27(06-19 2 N-47 (SHT 1) ST-R(0), PI-T 6
j SPEC. ML-008 REVISION 2 VALVE TABLE IST TABLE - VALVES PAGE NO: .80' LIMERIEK CENERATING STATION - UNIT 1 & COMMON CATE: 09/06/91' STSTEM: 47 CONTROL R00 DRIVE HTDRAULIC - PART 8 POSIT!ON VALVE ' CODE -VALVE ACT/- VALVE ACT. APP. J TEST TREQUENCY VRR/VCS NUMBER CLASS P&lD COORD CAT. PAS SIZE .TTPE TTPE NRM SAF FAL TTPE C (DIRECTION) NtMBER ' REMARKS XV-47-1-27(06-23 H 47 ($MT 1) D-6 8 A .75 GL A0 C- 0 0 W 'ET-R3, FS-R(0), 47-vRR-1 ST-R(0), PI-T uv-47-1-27( 06-27 2- M-47 (SNT 1) D-6 8 A .75 CL A0 C 0 0 W ET-Ra, FS-R(0), 47-VR R -1 ST-R(0). PI-T XV-47-1-27(06-31 2 M-47 ($MT 1) D-6 8 A .75 GL A0 C 0 0 N ET-RG, FS R(0), 47-vRR-1 , ST-Rto), PI-T xv 1 -27(06-35 2 M-47 (SHT 1) D-6 8 A .75 CL A0 C 0 0 N ET-RG, FS-R(0), 47-VsR-1 ST-R(0), PI-T IIV 47-1-27(06-39 2 M-47 (SMT 1) D-6 8 A .75 CL A0 C 0 0 W ET-Ra, FS-R(0), 47-vRR-1 ST-R(0), PI-T xy-47-1-27(06-43 2 M-47 (SMT 1) D6 8 A .75 GL A0 C C 0 H. ET-Ra, FS-R(0), 47-vRR-1 ST-R(0), PI-T XV 47-1-27(06-47 2 M-47 (SMT 1) D-6 'O A 75 CL AS C O O N ET-83, FS-R(0), 4 7-vRR-1 ST-R(0), PI-T XV-47-1-27(10 '.1 2 N-47 (Snf 1) L-6 8 A .73 CL A0 C O O N ET-RG, FS-R(0), 47-vpp-1 ST-R(0), PI-T XV-47-1-27(1L 15 2 M-47 (SMT 17 D-6 8 4 .75 CL Ao C 0 0 N ET-RG, FS-R(0), 47-vRe-1 ST-R(0), PI'T XV-4 7- 1 -27(10- 19 2 M-47 (SMT 1) D-6 4 A .75 CL A0 C O O N ET-83, PS-R(0), 47-v8R- 1 ST-st(O), PI-T xe-47-1-27(10-23 2 M-47 (SNT 1) D-6 s A .75 CL A0 C 0 0 W ET-83, FS-R(0), 47-vRR-1 ST-R(0), PI-T XY-4 7-1 -27(10-27 2 M-47 (SNT 1) D-6 8 A 75 CL A0 C 0 0 N ET-R3, FS-R(0), 47-vR R-1 ST-R(0), PI-T
J: SPEC 5ML-008' PEVISION 2 VALVE TABli IST 1A8tE - VALVES PAGE NO: 81 LIMERICK CENER4 TING STAfl0N - 19:1T 1 & C& MON DATE: 09/06/91 SYSTEM: 47 CONTROL ROD DRIVE MTORAULIC - PART B - POSITION VALVE CODE VALVE ACT/ VALVE Act. APP. J TEST FREQUENCY VRR/vCS NUMBER CLASS P&lD C0020 CAT. PAS SIZE TYPE TYPE WRM SAF FAL TYPE C (DIRECTION) NUMBER REMARKS xv-47-1-27(10 31 2 *-41 f$H' 1) D-6 B A .75 GL A0 C 0 0 N ET-Ra, FS R(0), 47-var- 1 ST-R(0), P!-T XV 1 27( 10-35 2 M-47 (sHT ') D-6 B A .75 GL A0 C 0 0 N ET-R3, FS-R(0), 47-YRR-1 ST-R(0), PI-T ' xv-47-1-27(10 39 2 M 47 (SHT 1) D-6 8 3 .75 CL A0 C 0 0- -N ET-R3, FS-R(0), 47-vR E -1 ; ST-R(0), PI-T xV-47-1-27(10 43 2 M 47 (SHT 1) D6 B A ,75 CL A0 C 0 0 N El-R2, FS-R(0), 47-vnR- 1 ST-R(0), PI-T xv-47-1 27(10-47 2 M-47 (SHT 1) D B A J- GL A0 C 0 0 N ET-PG, FS-R(0), 47-VRR-1 ST-R(0), PI-T XV-47-1 27( 10-51 2 M-47 (SHT 1) D-6 B A b k A3 C 0 0 W ET-RG, fS-R(0), 47-vRR-1 ST-R(0), PI-T A .79 Gi *A 0 6 a N ET-RG, FS-R(0), 47-vpa-1 xv-47 1 27(14-07 2 M-47 (SHT 1) 0-6 B ST-R(0), P!-T xv-47-1-27(14-11 2 M-47 (Sni 1) D-6 B A .75 fr AS C 0 0 N ET-Ra, FS-R(0), 47-vRR-1 ST-R(0), PI-T xv 1-27( 14-15 2 M-47 (SHT 1) D-6 B A .75 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-vRR-1 ST-R(0), PI-T o ny 1 -27( 14 19 2 M-47 (SHT 1) D-6 5 A .75 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-vpR-1 ST-RfD), PI-T xv 1 -2 7( 14-23 2 M 47 (SHT 1) D-6 B A .75 CL A0 C 0 0 N ET-Ra, FS-Rf0), 4 7-vRR -1
$1-R(0), PI-T xv 47-1-27(14 27 2 H-47 (SH1 1) D-6 n A . 75 Ct A0 C 0 0 W ET-Ra, FS-R(0), 47- vR R - 1 ST-R(0), PI-T
W-SPEC NL-008 REVIsl0m 2 VALVE TABLE IST TABtf - VALVES PAGE NO: . 82 . ,
!!MERICK GENERATING STATION - 17N1' 1 & COMMON DATE: 09/06/91 SYSTEM: 47 CONTROL RCD DRIVE HYDRAULIC
- PART B POSITION VALVE CCOE VALVE ACT/ VALVE ACT. APP. J TEST FREQUENCY VRR/vCS NUMBER CLASS.P&lD COURD CAT. PAS SIZE TfPE TTPE NRM SAF FAL . TYPE C (DIRECTION)- NUMBER REMARKS XV-47-1-27(14-31 2 M-47 (SMT 1) D-6 8 A .75 GL A0 C 0 0 N ET-R3, TS-R(0), 47-vRR-1 ST-R(0), P!-T XV-47-1-27(14-35 2 M-47 (SNT 1) D-6 8 A- .75 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-vRR-1 ST-R(0), PI-T xv-47-1-27(14 39 2 M-47 (SMT 1) D-6 8 'A 75 CL A0 C 0 .O N ET-R2, FS-R(0), 47-VRR-1 ST-R(0), PI-T xv 47-1-27(14 43 2 M-47 (SHT 1) D-6 8 A' .75 GL Ao C 0 0 N ET-P3, FS-R(0), 47-vR R-1 ST-R(0), l't -T XV-47-1-27(14-47 2 M-47 (SHT 1) 0-6 8 A ,75 GL A0 C 0 0 N ET-Ra, FS R(0), 47-VRR-1 ST-R(0), PI-T XV-47-1-27(14-51 2 M 47 (SHT 1) D-6 8 A .75 GL A0 C 0 0 N ET-RG, FS-R(0), 47-VRR-1 ST-R(0), PI-T ,
xV-47-1-27(14-55 2 M-47 (Snf 1) D-6 8 A .75 CL Ao C 0 0 N ET-Ra, FS -), 47 vRR-1 ST-R(0), F T xv-47-1-27(18-03 2 M-47 (SNT 1) D-6 8 A .75 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-VRR-1 ST-R(0), Pt-T XV-47-1-27(18-07 2 M-47 (SHT 1) D-6 8 A .75 Ct A0 C 0 0 N ET-RG, fS-R(0), 47-var-1 ST-R(0), PI-T XV 47-1-27(15-11 2 M 47 (SMT 1) D*6 8 A 75 GL A0 C 0 0 4 ET-Ra, IS-R(0), 47-Vea-1 ST-R(0), PI-T xy 47-1-27(18-15 2 N-47 (SHT 1) 0-6 a A 75 CL A0 C 0 0 W ET-RG, fS-R(0), 47- VR R - 1 ST-R(0), P!-T xv- 47-1-27(15-19 2 M-47 (SHT 1) 0-6 8 A .75 CL Ao C 0 0 N ET-Ra, FS-R(0), 4 7-vpR-1 ST-R(0), PI-T I i
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i SPEC. ML-0C2 l REVISION 2 VALVE TABLE , IST TABLE - VALVES PAGE NO: 34 , LIMERICK GENERATING STATION - UNIT 1 & CO M DATET 09/06/91 SYSTEM: 47 CONTROL 900 DRIVE HYDRAULIC - PART 8 PostTION
- VALVE CODE ~ VALVE ACT/ VALVE ACT. APP. J.' TEST FREQUENCY VRR/VCS NUNSER CLASS P&tD - 'C00Rb CAT. PAS $1ZE TYPE TYPE NRM SAF FAL TYPE C (D!RECTION) NUMBER . REMARKS XV-47-1 27(22- 11 2 M-47 (SHT 1) - D-6 9 A .75 GL . .A0 C 0 0 N ET-RG, TS-R(0), 47-va R-1 ST-R(0), PI-T AV 1 -27(22- 15 2 M-47 (SNT 1) D-6 B A .75 CL A0 C 0 0 N ET-RC, FS-R(0), 47-VfR-1 57-R(0), PI-T nV-47-1-27(22-19 2 M-47 (SHT 1). D-6 B A .75 GL A0 C 0 0 N ET-R9, FS-R(0), 47-Vf R-1 ST-R(0), PI-T XV-4 7- 1-27(22-23 2 M-47 (SMT 1) D-6 8 A .75 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-VRR-1 ST-R(0), P!-T XV 1 -27(22-27 2 M-47 (SNT 1) D-6 B A .75 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-vtR-1 ST-R(0), PI-T XV-47-1-27(22 31 2 M-47 (SHT 1) . D-6 s A .75 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-vR R-1 +
ST-R(0), P;lM MV 1 -27(22-35 2 M-47 (SNT 1) D*6 9 A '. 75 CL Ao C 0 0 W ET-Ra, FS-R(0), 47-VRR-T ST-R(0), PI-T xV 47-1-27(22-39 2 M-47 (SMT 1) 0-6 B A 75 GL Ao C 0 0 N ET-Ra, FS R(0), 47- VR R - 1 ST-R(0), PI-T WV 1 -27(22-4 3 2. M-47 (SH1 1) D-6 9 A .75 ct Ao C 0 0 N ET-Ra, FS-R(0), 47-VRR-t ST-R(0), PI-T xV 47-1-27(22-47 2 M-47 (SHT 1) D-6 a A .75 CL A0 C 0 0 N ET-RG, fS-R(0), 47-VRP-T ST-R(0), P!-T xV 1 -27(22- 51 2- M-47 (SHT 1) D-6 8 A .75 GL A0 C O O N ET-R3, FS-R(0), 47-VRR-1 ST-R(0), PI-T wv-4 7- 1 -27(22-55 2 M-47 (SMT 1) 06 8 A .75 ct A0 C o o N ET-Ra, FS-R(0), 47-Vat-1 ST-R(0), PI-T i
P i,
' SPEC. ML-008 REVISION 2 VALVE TABLE IST TABLE - VALVES PACE No: 85 LIMERICC CENERATINC STAftDN - UNIT 1 & COMMON DATE: 09/06/91 STSTEM: 47 CONTROL ROD DRIVE HTDRAU .IC' - PART B POS17104 VALVE CODE VALVE ACT/ VALVE ACT. APP. J TEST FREQUENCT VRR/VCS NUMBER CLASS "81D CODRD CAT. PAS SITE 'TTPE TYPE NRM SAF FAL TTPE C (DIRECTION) NUMsER RFMARKS XV-4 7-1 -27(22-59 2 M-47 (SMT 1) 0-6 8 A .75 CL A0 C 0 0 N ET-RG, FS R(0), 47-VRR-1 ST-R(0), PI-T XV 1-27( 26-03 2 M-47 (SMT 1) D6 8 A .75 Gt A0 C 0 0 N ET-RS, FS-R(0), 47-vRR-1 ST-R(0), PI-T !
nV-47-1-27(26-07 2 H-47 (SMT 1) D-6 8 A .75 CL A0 C 0 0 W ET-Ra, FS-R(0), 47-VRR-1 ST-R(0), PI-T XV-47-1-27(26-11 2 M-47 (SMT 1) D-6 6 A .75 CL A0 C 0 0 N El-Ra, FS-R(0), 47-vRR-1 ST-R(0), PI-T XV 1 -27(26- 15 2 M 47 (SHT 1) D-6 8 A .75 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-VRR-1 ST-R(0), PI-T XV-4 7 27(26-19 2 M 47 (SHT 1) 0-6 8 A .75 CL A0 C U 0 N ET-R3, FS-R(0), 47-VRR-1 ST-RCO), P!-T XV 1 -27(26- 23 2 M-47 (SHT 1) D-6 8 A .75 CL A0 C 0 0 W ET-R2, FS-R(0), 47-VRR-1 ST-R(0), P!-T XV 1 -27(26- 27 2 M-47 (SMT 1) D-6 B A .75 CL AO C 0 0 W ET RG, FS R(0), 47-VDR-1 ST-R(0), PI-T XV-4 7 1 -27(26-31 2 M-47 (SMT 1) D-6 8 A .75 CL A0 C 0 0 h ET-Ra, F S R(0), 47-VPR-1 ST R(0), PI-T KV 1 -27(26-35 2 M 47 (SMT 1) 0-6 8 A .75 CL AO C 0 0 W ET-Ra, FS-R(0), 47-VRR 1 ST-R(0), Pf-T XV-47-1-27(26 39 2 H-47 (SHT 1) D-6 8 A .75 CL A0 C 0 0 N ET-Ra, FS-R(0), 4 7- #R - 1 ST-R(0), P!-T xV-4 7- 1 -27(26-43 2 H-47 (SMT 1) D-6 8 A .75 CL' A0 C 0 0 N ET Ra, FS-R(0), 47- VR R - 1 ST-R(0), PI-T
L
'( i j SPEC. ML-003 -
REv!SI'JN 2 VALDE 1AstE IST TABLE - VALVES PAGE NO: 86 LIMERICC CENERATING STATION - (JWIT 1 & CONON DATE: 09/06/91 SYSTEM: 47 CONTROL R00 DRIVE HTDRAULIC - PART 8 POSITION VALVE CODE VALVE ACT/ VALVE. ACT. - APP, J TEST FREQUENCY var /VCS WUMBER CLASS P11D COORD CAT. . PAS SIZE .TTPE TYPE NRM' SAF .FAL TTPE C (DIRECTION) WJMBER REMARKS XV-47-1-27(26-47 2 M-47 (SHT 1) p6 s A .75 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-VRR-1 ST A(0), PI-T XV-47-1-27(26-51 2 M-47 (SNT 13 0-6 s A .75 CL A0 C 0 0 N ET-Ra, FS-R(0), 47-vRR-1 ST-R(0), PI-T NV-47-1-27(26-s5 2 M 47 (SHT 1) 0-6 8 A .75 GL A0 C 0 0 N ET-R2, FS-R(0), 47 VRR-1 ST R(0), PI-T XV 47-1-27(26-59 2 M-47 (SHT 1) 0-6 s A ,75 CL AO C 0 0 N ET-RE, FS-R(0), 47-VRR-1 ST-R(0), P!-T xv-47-1-27(30-03 2 M-47 (SNT 1) D4 s A .75 GL Ao C 0 0 N ET-RG, FS-R(0), 4 7- VR R - 1 ST-R(0), PI-T xv-47-1-27(30-07 2 M-47 (SNT 1) D-6 5 A' .75 GL A0 C 0 0 M ET-Ra, FS-R(0), 47-vRR-1 ST*R(0), PI-T XV 47-1-27(30-11 2 M-47 (SHT 1) 1W6 e A .75 GL A0 C - 0 7 N ET-RE, FS R(0), 47-VRR-1 ST-R(0), PI-T XV 1 -27( 30 15 2 M-47 (SNT 1) 0-6 s A .75 st Ao C 0 0 N ET R2, FS-R(0), 47eVRR-1 I ST-R(0), PI T uv-47-1-27(30 39 2 M-47 (SNT 1) D-6 s A .75 CL A0 C 0 0 W FT RG, FS-R(0), 47-VRR-1 ST R(0), P!-T XV 47-1-27(30-23 2 M-47 (SNT'1) D-6
- A .75 ct Ao C 0 0 N ET-Ra, FS-R(0), 47-vPR- 1 ST-R(0), PI-T XV-47-1-27(30-27 2 M-47 (SHT 1) 'D-6 8 A .75 GL A0 C 0 tr N ET-R9, FS-R(0), 47-VRR-1 ST-R(0), PI-T XV 1-2 7(30-31 2 M-47 (SNT 1) 0-6 s A .75 Gt A0 C 0 0 N ET R2, FS-R(0), 47-VRR-1 SI-p(0), P!-T 1
m.-
;))
SPEC. ML-006 REVIS!ON 2.-
- VALVE TABLE -
IST TABtt - VALVES Pace NO: 87-LIMERICK GENERATING STAT!ON - UNIT 1 & CCRMON DATE: 09/06/91 STSTEM 47 CONTROL R(X) ORIVE HYDRAtX1C - PART 8 POSITION VALVE CODE VALVE ACT/ VALVE ACT. APP. J TEST TREQUENCT VRR/VCS NUMBER ' CLASS P&lD COORD CAT. PAS SIZE TTPE TTPE NRM SAF FAL TTPE C (DIRECT!04) IrJmBER REMARES xV-47-1-27(30-35' 7 M-47 (SMT 1) D-6 8 A .75 Gi 'A0 C 0. O N ET-Ra, FS-R(0), 47-VRR-1 ST-R(0), PI-T XV-47-1-27(30 39 2 M-47 (SMT 1) D-6 8 A .75 GL A0 C 0 0 W ET-R2, FS-R(0), 47-VRR-1 ST^-R(0), PI-T xv-47-1-27(30-43 2 M 47 (SMT 1) D-6 8 A .75 GL A0 C 0 0 N ET-Ra, FS-R(0), 47 VRR-1 ST-R(0), PI-T xv 1 -27(30-47 2 M-47 (SHT 1) D-6 s A .75 GL AO C 0 0 *J ET-Ra, FS-R(0), 47-VRR-1 ST*R(D), PI-T XV-47-1-27(30-51 2 M-47 (SHT 1) D-6 5 A .75 CL A0 C 0 0 N ET-R3, FS-R(0), 47-VRR-1 ST-R(0), PI-T XV 1- 27(30-55 2 M-47 (SNT 1) 0-6 8 A .75 GL A0 C 0 0 N ET-Ra, FS-R(0), 47-VpR-1
- ST-R(0), PI-T XV 1 -2 7(30-59 2 M-47 (SHT 1) D-6 9 A .75 GL A0 C 0 0 N ET**a, FS-HO), 47-ven-1 ST-R(0), PI-f xv-47-1-27(34-03 2 M-47 (SMT 1) D-6 8 A .75 GL A0 C 0 0 N ET-Ra, FS-R(0), 47 V1tR-!
ST R(G), P!-T XV 1 - 27(34-07 2 M-47 (SHT 1) 0-6 8 A .75 GL A0 C 0 0' h ET-Ra, FS-R(0), 47-VpR-1 ST-R(0), PI-T xv-47 1-27(34-11 2 M-47 (SHT 1) D6 8 A ./5 GL A0 C 0 0 W ET-#2, FS-R(0), 47-VR R-1 ST-R(0), PI-T XV-4 7- 1-27(34 15 2 M-47 (SMT 1) 'D-6 8 A .75 GL AC C 0 0 N ET-RO, 75-#(0), 4 7-vR R-1 ST-R(0), Pl-1 xv-47-1-27(34-19 2 M-47 ($MT 1) D-6 8 A .75 GL A0 C O O N ET-Ra, FS-R(0), 47-Ves-1 ST*R(0), PI-T
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*EVTStow 2 WRLVE TA8tE IST TABLE - VALVES PAGE NO. 96 LIMERICE CEuERATIkG STAft04 - 1: NIT 1 & CDPM04 CATE: 09/06/91 SYSTEM: 47 CONTROL RCD DRIVE MYDRAULIC - PART 8
' POSIT!04 j VALVE CODE VALVE ACT/ VALVE ACT, APP. J TEST FREQUEWCY YtR/VCS i CAT. PAS SIZE TTPE TYPE kRM SAF FAL TYPE C (DIRECTION) WUpt,ER REMARES j ' NUMBER ' CLASS PE!D COORD xv-47-14T(54-47 2 M-47 (SNT 1) D-6 8 A .75 CL A0 C O O M ET-R3, FS-R(c), 47-VRR-1 l ST-R(C), PI-T 4 xv-47-1-27(58-03 2- . M-47 (SMT 1) D-6 s A .75 CL A0 C o o M Ef-Ra, TS-R(0), 47-VRR-1 1 1 ST-#(tt), PI-T j ! I 2 M-47 (SMT 1) 0-6 9 A .75 CL A0 C 0 0 m ET-R3, FS-Rtc), 47-vRR-1 l XV-47-1-27(55-19 ST-R(0), P!-T 1 xv-47-1-27(58-23 2- M-47 (SNT 1) D-6 s A 75 CL - A0 C o o u ET-R3. FS-R(o), 47 vsa 1 ST-#(0), PI-T l xv-47-1-27(SS-27 2 M-47 (SMT 1) D-6 8 A .75 CL A0 C 0 0 m ET-#3, FS-R(0), 47 vas-t i 3 ST-R(0), Pf-T 4 XV-47-1-27(58-31 2 M-47 ($nt 13 D-6 s A .75 CL Ao C o C w ET Ra, FS-Rto), 47-vRt-t - ]. ST-R(0), PI-T xv-47-1-27(55-35 2 M-47 (Sui 1) 0-6 s A 75 CL A0 C o o a RT-aa, rS.R(0), 47-vet-1 j ST-R(0), PI-T i o o u NV-47-1-27(58-43 2 M-47 (SMT 1) 06 s A .75 Ct 40 C ET-Ra, FS-sto), 47-vte-t ST-R(0), PI-Y xv-47-17010 2 M-47 (SwT 1) C-4 A A 1.0 CL A0 C C C Y ET-0. FS-C(C), CvsR-T PEwT. N-38 ST-StC), LJ-T, PI-T xy 1F D11 2 M-47 (Saf 1) D6 A A 2.0 CL to O C C Y ET-0, FS-C(C), CvRR-1 PERT. z-38 ST-C(C) LJ-T, Pt-T xv-47-1F180 2 M-47 (SMT 1) 4-4 A A 1.0 CL A0 0 C C Y ET-0, FS-C(C), Cvta-T Pest. R-38 ST-C(C), LJ-T, PI-T xy-47-1F181 2 M-47 (Sui 1) 0-6 A A 20 CL 80 0 C C Y ET-o, FS-otC), Gw2-1 PENT. R-38 ST-0-(C). LJ-T, Pt-T j _. _ ._ m . _ _ _ . _ _ _ __ _ _ . . - _ _ . _ _ _ _ __
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SPTC. ML-008 REv!SION 2 VALVE TA9tE IST TABLE - VALVES PAGE NO: 96
- e LIMERICK CENERATING STA!!CN - UN!T 1 & COMMON OATET 09/06/91 SYSTEM: 49 REACTOR CORE ISOLATION COOLING PostTION UALVE CODE VALVE ACT/ VALVE ACT. APP. J TEST FREQUENCY VRR/vCS i- NLMBER ~ CLASS P&!D COORD CAT. PAS S'ZE TYPE TYPE NRM SAF FAL TYPE C (DIRECTION) N'JMBER REMARKS 49-1017 2 M-49 (SNT 1) A-8 C A 3 CK SA OC OC - N ET-0(FER) GVRR-5 L
$ 49-1018 2 M-49 (SNT 1) A-8 C A 3 CK SA OC OC - N ET-C(FER) GVER-5 49-1032 2 M-49 (SNT 1) C-3 C A 1.5 CK SA OC C - N ET-o(R) cVrt-4 1 49-1033 2 M-49 (SNT 1) C-3 C A 1.5 CK- SA OC C - # ET-0(R) CVat-4 49-1F001 2 M-49 (SMT 1) B-4. C A 8 SK SA OC 0 - N ET-0(F) 49-1F011 2 M-49 (SNT 1) E-2 C A 6 CA SA OC 0 - N ET-C(F) i D-3 6 CK SA OC O N ET-C(F) 49-1F014 2 M-49 (JNT 1) C A - 49-1F021 2 M-49 (SNT 1) C-3 C A 2 CK SA OC 0 - N ET-o(F) 49-1F02S 2 M-49 (SNT 1) B-2 AC A 2 CK SA OC C - Y ET-C(R), LJ-T GVRR-1, 49-VCS-3 PENT. X-217 1 49-1F030 2 M-49 (SNT 1) A-6 C A 6 CK S4 OC O - M ET-Rg/), PT-Q(F) 49-VRR-1 ft,tl EXCERC1SE ACCOMPLISHED VIA NPCT
- RETURN TO SUPPRES$104 j POOL (NV-$5-1F071)
DURING FEFUELikG f 1 49-17064 2 M-49 (SMT 1) 8-4 C A 2 CK SA OC C - N ET-C(R) 49-VCS-4, CVRR-4 I
; 49-1F065 2 M-49 (SNT 1) s-4 C A 2 CK SA OC C - N ET-C(R) 49-VCS 4, cvat-4 ; 49-1F068 2 M-49 (SMT 1) A-8 C A 3 CK SA OC OC - N ET-QtF4R) CVRR-S a
40-1F081 2 M-40 (SNT 13 A-B C A 3 CK SA OC OC - N ET-o(74R) CVRR-5 MV-49-1F002 2 M-49 (SMT 13 3-$ jaC A 2 St MO OC C At Y EI-Q(R), ST-Q(C), CVRR-1 pgui, u.217 g LJ-T, PI-!
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4
t i I
- s SPEC. ML*003 '
$ REVISt0E 2 VALVE taste PAGE NO: 97 IST TABLE - V4tVES ' LIMERICK CENERATIL4G STAit04 - UNIT t & Capes 04 DAff: 09/06/91 i , SYSTEM 47 REACTOR CORE ISOLAft0N COOLING POSITION l AFP. J TEST FREQUENCY VRR/VCS VALVE ACT/ VALVE ACT. ' VALVE CODE WJMBER REMARKS CLASS' P&lD. COORD CAT. PAS SIZE TTPE TYPE mRM SAF FAL TTPE C (DIRECTION) f WUMBER - - - - i ET-C, St-C(C&C), GVPR-1, 49-VCS-1 DENT. N-10 f-6 A A 3 GL ' MO .O OC At Y j- HV-49-17007 1 M-49 (SMT 1) LJ-T, P!-T ET-0, ST-Q(01C), GYet-T Peut. E-10 t F-5 A A' 3 GL MO O OC At 7 HV-49-1F008 1 'M-49 (SMT 1) LJ-7, P! T I' 4 6 CT MO OC OC At # ET-0, ST-Q(0&C), PI-T 2 M-49 (SNT i) E-2 8 , NV-49-1F010 A 6 GT MO OC 0 At w ET-0. ST-C(0), PI-T M-49 ($MT 1) D-4 8 ! MV-49-1F012 '2 4. 7 ET-C, ST-C(CEC), Svet-1, 49-VCS-2 PEUT. 2-98 D-4 A A 6 GT M0 C OC At !' NV-49-1F013 2 M-49 (SMT 1) L)-7, PI-T 4 r i- 7 ET-o, ST-c(C&C), GVaw-1 PENT. E-216 [' M-49 (SHT 13 C-5 A A 2 GL MO OC OC At MV-49-1F019 2- LJ-T, PI-T ! 4 CL MO OC C At W ET-0, ST-O(C), PI-T pV-49-1F022 2 M-49 (sui 1) E-4 8 A
- 4, i A0 O' C C N ET-0, FS-C(C),
C-2 8 4 1 GL l NV-49-1F025 2 M-49 (SNT f) ST-C(C), Pt-T 1 i. CL A0 G C C N ET-0. FS-C(C), HV-49 17026 2 M-49 (SNT 1) 8-2 8 A 1 j 4 ST-oft), Pt-T MO OC 0 At u ET-C, ST-cro), PI-T 2 9-40 (Sui t) A-5 8 A 6 GT MV-49-1F029 MO OC OC At 7 ET-0, St-C(CEC), GVRW-1 PEUT. m-214 M-49 (SPT 1) A-6 A A 6 CT MV-49-1F031 2 LJ-T, Pt-T [ i MO O OC Al V ET-0 ST-0(C&C), svet-1 Ptuf. x-215 !
#t -49 ($MT f) C-5 A A 8 GT i HV-49-1F060 2 LJ-T, PI-T 4
MO OC' C At T ET-0. ST-O(C), L J-T, CV84-1 Ptuf. 3-10 i i M-49 (Suf 1) E-5 A f 1.5 GL l MV-49-1FC'6 PI-T 4 i i t i i w -. - . - - - . . -_ , , -,
~
1 SPEC. ML-008 REVIS104 2 VALVE TABLE IST TA8tE - VALVES PAGE NO: 9C - LIMERICK CENER?. TING STATION - UNIT 1 & CD908 DATE: 09/05/91 57 STEM: 49 REACTOR CORE ISOLATION COOLING POS1T104 VALVE CCoE VAtVE ACT/ VALVE ACT. APP. J TEST FREQUENCY VRR/VCS NUM3ER CLASS P110 COORD CAT. PAS SIZE TYPE TTPE mRM SAF FAL TYPE C (DIRECTION) WUPett REMARKS Ntf-49-1F 080 2 M-49 (SNT 1) A-7 A A 3 GT M3 0 OC Al Y ET-0, ST-Q(0&C), CVRR-1 PENT. X-241 LJ T, PI-T MV-49-1F054 2 M-49 (SMT 1) C-8 A A 3 67 MO o DC At Y ET-0, ST-c(Otc), CVRR-1 PEAT. r-241
'LJ-T, PI-T xV-49-1F044A 1 M-49 (SMT 1) G5 C A 1 FC SA 0 C - M ET-R(F) GVRR-2 PENT. X-335 XV-49-1F0448 1 89-49 (SMT 1) E-5 C 4 1 NC SA O C -
N ET-R(F) CVaR-2 PENT. X-407-T XV-49-tF044C M-49 (SMT 1) C-5 C A 1 NC SA O C - N ET-#(F) CVRR 2 PEUT. z-333 XV-49-170440 1 M-49 (SMT 1) 0-5 C A 1 .XO SA O C - N ET-R(F) GVeR-2 PENT. X-40F-1 C _. .. - -
)
SPEC. etL-008
#Evtstos 2 VALVE TABLE IST taste - VALVES PAGE #0: ' 1P7
. LIMERICK CENEP.AT!uG STail04 - t>IT 1 & CD*Of DATE: 09/06/91
.?
SYSTEM: 50 RCIC PUMP tt*BINE POSITION BALVE CODE VALVE ACT/ VALVE ACT. APP. J TEST FREQUE#CT VRt/VCS CL9eBER CLASS P&tD COORD CAT. PAS SIZE TYPE TYPE kRM SAF FAL- TYPE C EDIRECTIOg) enpBEa atma 2RS 50-1F047 2 M-50 (SMT 1) 8-5 C A 2 CE SA OC C - w ET-c(R) HV-50-1F004 2 M-50 (SHT 1) 8-5 8 A 1 CL 80 OC C C u ET-0, FS-C(C), ST-Q(C), PT-T MV-50-1F005 2 M-50 (SNT 1) A-5 8 A 1 CL A0 OC C C N ET-0, FS-Q(C), ST-c(C), PI-T HV-50-1F045 2 M-50 (SMT 1) F-2 8 A 6 CL MO OC OC Al N ET-0, ST-C(CLC), PI-T HV-50-1F046 2 M-50 (5MT 1) 0-7 8 A 2 CL Mo OC OC At u ET-o, ST-o(CEC). PT-T PSE-50-10001 2 M-50 (SNT 1) F-5 0 A 8 RD SA C 0 - m aD-P2 PSE-50-10002 2 M-50 (SMT ") M-5 D A 8 RD SA C 0 - w RD-P2 i e f i
. a v -
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)
f :-
~ SPEC. ML-008
' DEVIStou 2 VALVE TASLE , IST 1 AstE - VALVES PA.T un: 100 , LIMERICK GENERAf tug STATION - tm!T T & COMMou
- CATE: 09/06/91 i
SYSTEM: 51 RESIDUA!. HEAT REMCVAL
, POSITI(Mt "
VALVE CODE. VALVE ACT/ VALVE _ ACT. APP. J TEST FREuuEktif
, VER/VCS NUMBER CLASS P&tD COORD CAT. PAS S12E TYPE TYPE htM SAF FAL TYPE C (DIRECTION) MUP8tR REMARKS .. t
'51 1032A ' 2 .M51(SMTli , C-5 C A 4 CK SA 0C C -
N' ET-Ra(R) GvRR-6 i 51-10328 2 'M 51 (SMT 3) -G-4 C A 4 CK SA OC C - N- ET-R3(R) CVat-6 i j 51 11154 2 M-51 (Smi 1) A-7 C. A 1.5 " CK $4 OC C - N. ET-Q(R) CVRR-4 ! 51-1115s M-51 (SMT 3) A-2 C A 1.5 CK' SA CC C - N ET-Ra(R) cvrR-6 51-1115C 2 M-51 ($ni 1) A-6 C A 1.5 CK SA OC C - N ET-o(R) - cvRR-4 : f 51-1115D 2 M-51'(Snf 3) A-3 C 4 1.5 CK SA OC C - 4 E T-RECR) CVRR-6 51-11164- 2 M ",1 (SMT 1) A-7 C A 1.5 CK St. OC C - N ET-C(R) CvaR-4 1116C 2 M-51 (SNT 1) A-6 C A 1.5 CK S4 OC C - N ET-c(*) CynR-4 r 51-1F0314 2 M-51 (SNT 1) s-6 C A 18 TC SA OC 0 - N ET-o(F) " 51-1F03ts- 2 M-51 (SnT 3) s-3 C A. 18 TC SA CC o - = ET-cit) ! 3 51-1F031C 2 M 51 (Sat 1) s-6 C 4' 18 TC SA OC o - N ET-C(F) 51-170310 2 M-51 (SNT 3) s-4 C 4 18 TC SA OC 0 - W ET-0(F) f i 51-1F046A 2 M-51 ($HT 1) C-5 C A 4 CK S4 OC o - M ET-c(F) r 51-1F046s 2 M-51 (SMT 3) C-5 C A 4 CK SA OC O - N ET-o(F) 4 51-1F046C 2 M-51 (SMT 1) C-5 C A 4 CK SA oC o - m ET-otry 4
. i 51-1F0460 2 M-51 ($4T 3) C-4 C A 4 CK SA OC 0 -
4 ET-c(F) . i ) 51-17065A 1 M-51 (SMT 1) F-1 s P 12 .T PA LO o - M PI-!
! 51-1F0658 1 M 51 (SMT 3) F-8 a P 12 GT w to o - M Pt-T i 4
F E f i i
m L e SPEC. ML-00 REVIStC4 2 VALVE TABLE PAGE WO: 101 IST TABLE - VALVES ' CATE: 09/Ok '1 LIMEattK GENERATING STAf ton - U41T 1 & CCMMON i SYSTEM: 51 #ESIDUAL MEAT PEMOVAL.. POSITION
. APP. J TEST FREQUENCY VRR/vCS VALVE ACT/ YALVE :CT- REMARKS VALVE CODE NUMBER CLASS P&ID 'N CAT. PAS SIZE TYPE TYPE s?M SAF FAL TYPE C (DIRECitDN) l NUMBER.
P '2 rf : MA LO o - .N Pt-T 1 re-51 (SMT 1) F-1 a , t , 51-1F0e5C 4 12 Gi MA LO O - 4 Pt-T 5;-1F065D 1 M-51 (SMT 31 G-8 9 P. 4 A 18 *C SA C 0 - N ET-ctF) 2 M-51 (SMT *) G-5 C I 51-1F078 I' SA OC C - N ET-R3(R) cvtR-6 , C-4 C A 4 CK 51-1F090A. 2 M-51 ($MT 1) 1 N ET-R3(R) CvRa-6 i G-4 C A 4
.K SA OC C -
$1-1F0908 2 M-51 (SMT 3)
M ET-R3(a) GvPR-6 G-5 C' A 4 CK SA OC C - 51-17090C 2 M-51 (SMT 1) N ET-R3(R) GvtR-6 c-4 C' A 4 CK SA OC C - 51-1F0900 2 M-5~ (SMT 33 V ET-0, ST-Q(C&C), CVPR-1 PEhT. M-226A [ C-3 A A- 4' GT MO O CC AI ' Hv-51-105A 2 M-51 (Snf 1) LJ-T, Pt-T ET-0, ST-Oto&C), cvat-T PEwf. E-2268 s A .A 4 GT MO O OC At Y Ny-51-105s 2 M 51 (SNT 3) D-6 LJ-T, PI-T l ET-0, ST-0(C&C), Cves-1 PEuf. X-204A A 18 GT Mo O CC At Y
! Mv-51-12%A 2 M-51 (SMT 1) 0-3 A LJ-T, PI-T J
ET-0. ST-0(0&C), GvPR-T Ptwr. r-20c3 D-6 A A to CT MO O OC At Y I l Hv-51-1253 2 M-51 (SMT 3) LJ-T, PI-T ] ET-0, ST-0(C), tJ-T, GvRR-1 PENT. N-225 A CT MO O C At Y 2 M-51 (Sui 1) D-3 A i Pt-T MV-51-130 , ET-0, ST-C(C), LJ-T, CVRt-1 PENT. N-225 A' 6 GT MO - 0 C At Y E-5 A MV-5*-131 2 5 51 SMT 2) PI-T (, LJ-T, LP-T, PI-T PEur. N-45A r-2 A P 1 CL AO C C Y My 51-142A 1 M-51 (SNT 1) LJ-T, LP-T. PI-T PEhT. N-455 F-7 A P 1 GL AO C C C Y MV-51-1428 4 M-51 (Sni 3) i 5 f 5
5 l l SPEC. ML-DOS I REV!SION 2 i VALVE TABLE ( ts? taste
- VALVES PAGE #0: 102 LIMERICE CENERATING STAT!ON - UNIT 1 & COMMON DATE: 09/06/91 STSTEM: 51 RESIDUAL NEAT REMOVAL
, POSITION ! VALVE CODE. VALVE iCT/ VALVE ACT. APP, J TEST FMJUENCT VRR/vts NUMBER CLASS P8tD CDCR0 CAT. . PAS $1ZC TYPE TTPE NRM SAF FAL TYPE C (D!tECTION) NUMBER REMAtts Hv-51-142C 1 M-51 (snt 1) F-2 A 'P 1 CL Ao C C C Y LJ T, LP-T, PI-T PENT. M-43C MV-51-1&2D 1 M-51 (sHT 3) F-7 A P 1 GL A0 C C C Y LJ-T, LP-T, PI-T PENT. M-450 1 . Hv-51-151A 1 M-51 (SMT 1) E-3 A P 1.5 ct A0 C C C Y LJ-T, LP-T, PI-T PENT. M-13A mv-51-1518 1 M-51 (sMT 3) E-6 A P 1.3 - GL Ao C C C Y LJ-T, LP-T, PI-T PENT. X-138 NV-51-1F003A 2 M-51 ($MT 2) F-5 9 P 18 GT MO O O At 4 PI-T uv-51-1F0038 2 M-51 (sNT 4) F-6 8 P 18 GT MO ' ( O Al N P!-T i Mv-51-17004A 2 M-51 (SNT 1) C-3 A A 24 GT MO O OC At Y ET-0, ST-0(C&C), Gvre-1 PENT. M-203A l LJ-T, P!-T l NY-51-1F0048 2 M-51 (suf 3) C-6 A A 24 CT Mo O OC At Y Es-Q, ST-C(C&C), CVRR-1 PENT, M-203s j LJ-T, PI-T l Hv-51-1F004C 2 M-51 (SMT 1) C-2 A A 26 GT MO O OC Al Y ET-0. ST-0(OEC), GvPR-1 PENT. M-203C LJ-T, PI-T 1 HV-51-tF0040 2 M-51 ($NT 3) C-7 A A 24 GT MO O OC At Y ET-0, ST-C(01C), Cype-1 Pest. M-203D LJ-T, PI-T j MV-51-1F006A 2 M-51 (sni 1) s-3 a A 20 GT Mo C OC At u ET-o, ST-o(CEC), PI-t
, NV-51-1F0068 2 M-51 (SMT 3) a-T s A 20 GT Mo C oc At w ET-o.. ST-c(c&C), PI-T Mv-51-1F007A 2 M-51 (suf 1) C-5 8 A 4 GT M9 OC OC At u !T-c. ST-St0&C), PI-T HV-51 -1 F 0079 2
- 51 (suf 3) C-5 s A 4 ci m oc oc at u ET-o, ST-ctc&C), PI-T uv-51-17007C 2 M-51 ($NT 1) C-5 8 4 4 GT MO OC OC At 4 ET-Q, ST-Q(0&C), PI-T Mv-51-1F007D 2 M-51 (smi 3) C-4 s A 4 CT MO OC OC Al N ET-0, ST-OtOSC), PI-T 1
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SPEC. ML-008 PEVIS10m 2 VALVE TA8tt 1 -' IST TABLE - VALVES PSGE No: 1C3 LIMERICit CENtRATING STATION - tJN1T .1 & CCM'ON CATE: 09/06/91 SYSTEM: 51 REstDUAL NEAT REMOVAL' POSITION tfALVE CODE VALVE ACT/ VALVE ACT. APP. J TEST FREQUENCY VER/VCS CLASS P&lD COODO CAT. PAS SIZE TYPE TYTE NRM SAF FAL TYPE C (DIRECTICN) NUMBER REpAngs CIJMBER MV-51-1FD08 1 M-51 (Suf 1) E-3 A A 20 GT MO- C OC At Y ET-C, ST-C(0&C), 51-vCS-2 PENT. r-12 LJ-T, LP-T, PI-T HV-51-1F009 1 M-51 (SMT 3) E-8 A ~A ' 20 ' GT MO C OC AI' Y ET-C, ST-C(O&C), $1-VCS-2 PENT. X-12 LJ-T, LP-T, P!-T kV-51-1F010A 2 N-51 (SMT 1) 0-4 B' A 18 GL MO OC C At 4 ET-0, ST-Q(C), PI-T HV-51-1F01CB ' 2 M-51 (SMT 3) D-4 s A 18 GL =0- OC C At N E1-0 ST-Q(C), PI-T HV-51-170144 3 M-51 (SMT 2) 8-7 8 A 20 GT MO OC OC Al N ET-0, ST-0(0&C), PI-T f NV-51-1F014s 3 M-51 (SMT 4) c5 8 A 20 GT MO OC OC Al N ET-0. ST-QCO&C), PI-T { Hv-51-1F0154 1 M-51 ($df 1) E-3 A A 12 GL Mo C OC AI Y ET-C, ST-C(C&C), 51-/CS-1 PENT. x-13A i LJ-T, LP-T, PI-T j i MV-51-17015s 1 M-51 (SMT 3) F-6 A A 12 GL MO C OC Al i ET-C, ST-C(CEC), 51-VCS-1 PENT. x-tha LJ-T, LP-T, PI-T 1 i HV-51-1F016A 2 M-51 (SWT 1) G-7 A A 16 GT MO C OC At ? ET-0, ST-0(CEC), CVRR-1 PE u r . 1-I I. A LJ-T, PI-T HV-51-1F016s 2 M-51 (SMT 3) G3 A A 16 GT MO C OC Al f ET-0, ST-0(OSC), GVRR 1 Pfaf x-39s LJ-T, Pf-T l MV-51-1FD17A 1 M-51 (SMT 1) F-3 A A 12 GT MO C OC At Y ET-C, ST-C(C&C), $1-VCS-1 PENT. u-45A l ' LJ-T, LP-T, PI-T Mv-51-1F0178 1 M-51 (SMT 33- t-6 A 4 12 CT MO C OC Al T ET-C, ST C(C&C?, 51-VCS-1 Pruf. u-Ass LJ-T, LP-T, Pf-T MV-51-1F017C 1 M-51 (SMT 1) F-3 A A 12 GT Mo C OC Al f ET-C, ST Ct0&C), 51-VCS-1 PEwf. y-45C LJ-T, LP-T, PI-T i
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( ) SPEC. ML-OC8 PEVIS*04 2 VALVE TABLE PAGE NO: 104 IST TABLE - VALVES DATE: 09/06/11 LIMCRICE GEJERATING STAfl04 - 04tf 1 & COMM04 STSitM: 51 REstDUAL NE AT stMOVAL POSITIOW VALVE ACT. APP. J TEST FREQUENCY VER/VCS tfALVE CDDE VALVE ACT/-
$12E TTPE - TYPg hRM SAF TAL TYPc C (DIRECTION) WLNBER REMAEKS NLMBER CLASS P&tD COORD CAT. PAS A 12 GT M0 C OC At Y- ET-C, ST-C(0&C), 51-Vts-1 PENT. M-45D ' NV 51-1F017D 1 M-5* (SHT 3) G-6 A LJ-T, LP-T, Pt-T 4
MO C OC At Y ET-Q, ST-C(C&C), CVRR-1 PENT. E-374 2 M-51 (SMT 1) G-3 A A 16 GT HV-51-17021A LJ-T, Pt-T - A 16 GT MO C OC Al Y ET-0, ST-Qt0&C), CVst-1 PENT. E-393 HV 51-1F021s 2 M-51 (SNT 3) G-6 A LJ-1, Pi-T' D-4 s A- 18 GL MO CC OC Af M ET-0, ST-C(C&C), PI-T W 1 F 0244 2 M-51 (Snf 1) e 0-5 s A 18 GL MO oC OC At N FT-o, ST-cto&C), Pr-T HV-51-170248 2 M-51 (SMT 3) A 6 CL Mo C OC At Y ET-o, ST-oto&C), CVRF-1 PENT. 3-205A "AV-51-17027A 2 M-51 (SMT 1) D-3 A j LJ-1, PE-T A 6 CL MO C OC At T ET-Q, ST-O(C&C), CVWR-1 PENT. M-205s HV-51-1F027s 2 M-51 (SMT 3) E-6 A LJ T, F1-7 8 A 4 GT MO OC C At n ET--Q, ST-C(C), PI-T HV-51-1F040 2 M-51 ($MT 2) f-3 SA C oC - Y ET-C(F&t), LJ-T, 51-VCS-1 PEUT,x-45A 1 M-51 (SMT 1) F-2 AC A 12 TC . HV-51-17041A LP-T, PI-T I C OC - T ET-C(FER), LJ-T, 51-VCS-1 PENT. y-455 F-7 4C A 12 TC SA j MV 51-1F041s .1 M-51 (SMT !) LP-7, PI-T SA C OC - Y ET-CtF&#), LJ-T, 51-VCS-1 PENT, N-45C
- 1. M-51 (SMT 1) F-2 AC A 12 TC MV-51-1F041C LP-T, PI-T i
A 12 TC SA C OC - Y ET-C(F&r), LJ-7, 51-VCS-1 PENT. x-45D 1' MV-51-1F041D 1 M-51 (SMT 3) G-7 AC i LP-T, Pt-T f C-7 s P 18 GT MO O O At M PI-T ! nV-51-17047A 2 M-51 (SMT 1) 2 0-2 s P 18 CT MO O s At 4 Pf-T j- HV-51-1F047s 2 M-51 (SMT 3) ! l t F f 1 6
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REV152cu 2 vat.VE TA8tE - 1ST TAptE - VALVES PAGE e 105 CATE: 09/06/91
- LIMERICK CEWERAina STATION - UutT 1 & COMMON e b
{ STSTEM: 51 REsl(sat HE AT PEmov4L PCS1T104 YALVE. ACT. APP. J TEST FREQUEuCY vtR/vCS
-CODE VAtt'E ACT/ REM. ARKS bALVE TYPE WRM SAF TAL TYPE C (41RECitou) WUMBER CLASS, P&tD CDODD . CAf. PAS StIE TTPE r
- C1JMBER i
A 4 GT MG OC C At W ET-2, ST-C(C), PI-T Hv-51-1F049 2 M-51 (SMT 2) F-4 8 SA C OC - Y ET-C(FER), LJ T, 51-vCS-1 PENT. M-13A f E-3 AC A 12 TC HV-51-170504 1 M-51 (snt 1) LP-T, PI-T F OC - Y ET-CtF&R), LJ-7, 51-vCS-1 PEmi. N-138 7-6 AC 4 12 Tt 14 C av-51-1705cs 1 M-5T (SMT 3) LP-T, PI-T [ r i 20 GL Mo oc oC At u ET-o, ST-c(CEC), Pt-T 3 M-51 (SNT 21 5-4 9 A ' sv-51-17068A MO OC CC At 4 ET-0, ST-0 OEC), PI-T M-51 (SMT 4) C-6 8 A 20 GL l py-51-1FOMs 3 a 13 GT 90 C CC At u rif-a, ST-t(C&C), PI-T 51-ven-1 , 3 M-51 (SMT 4) G-4 s ! MV-51-17073 I 1 GL A0 0 C C N ET-G, FS-Q(C), E $t-1F07t- 3 M-51 (SMT 4) 7-5 3 A l ST-C(C), PI-T MO C OC At u ET-0, ST-Q(C&C), PI-T 4 M-5 (Suf 4) G-5 8 A 18 GT Hv-51-17075 2 l l GL A0 OC C C u ET-0, FS-0(C), 2 M-51 (sMT 2) E-6 s A 1 i Mv-51-17079A ST-CCC), PI-T I 1 GL AO OC C C N ET-0, FS-c(C), I ) F-4 8 A 1 j Hv-51-1F079s 2 M-51 (SNT 4) ST-C(C), P1-T J f: GL A0 CC C C N ET-C FS-o(C), Hv-51-1F030A 2 M-51 (SMT 2) ti-7 8 A 1 ST-0(C), PI-T [ ] i I Gt Ao oC C C u ET-o, FS o(C), 2 M-51 (swf 4) F-4 s A 1 , I MV-51-1 FOS 08 ST-O(C), P*-T i f I ET-0, ST-C(OLC), PI-T SF NO O OC At M D-7 3 A 18 MV-C-51-17048A 2 M-51 (SNT 1k A 18 SF MO C OC At u ET-C, ST-O(OLC), PI-T
? M-51 (sui !)- E-2 8 uv-C 51-1F0488 '
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J 4 (' y SPEC. K-Oct REVISION 2 VALVE TABLE 136 IST TABLE - VALVES PAGE kO: ! 1.tMERICE CENERAf tnG STATION - LMIT 1 & Cor*904 CATE: 09/06/91 Y S7 STEM: 51 RtStDUAL HEAT RTMOVAL POSITION
. VALVE ACT/ VALVE ACT. APP. J TEST FRE'JUENCY VRR/VCS VALVE- CODE WUMBER REMARKS NUMBER CLASS P&tD COORD CAT, PAS SIZE TYPE TYPE ERM SAF FAL TYPE C (01RECTt04)
C-7 A A 1- GL MO OC C 'At Y ET-0, ST-Q(C), LJ-T, CVRR-1 PEtt. X-237 HU-C-51-1F103AL 2 'M-51 (SMT 2) Pt-T 2 M 51 ($HT 4) D-5 9 A 1 GL MO CC C At W ET-0, ST-Q(C), Pt-T
. HU-C-51-1F1038 M-54 (SHT 2) C-6 8 A 1 GL MO OC C At N ET-0, ST-o(C), PI-T HV-C-51-1F104A . 2 D-4 A A 1 GL MO OC C At Y ET-0, ST-Q(C), LJ-T, tVRR 1 PENT. N-235 g HV-C-51-1F10!.8 2 M-51 (SMT 4)
PI-T l P 6 WR SA C C - Y LJ-T GVPR-f INCLUDED FOR TYPE C PSV-51-101A 2 M-51 (SHT 2) E-5' AC -
' LEAK TESTING CutY PENT. K-237 6 VR SA C C - Y 'LJ-T CVRR-1 INCLUCED FOR TYPE C PSV-51-101s ' l2 M-51 ($MT 4) E-6 AC P LEAK TESTIW*,CNt?
PENT. X-238 l a 0.75 SA C 0 - u RT-P3 PSV-51-105A 2 M-51 (SMT 2) B5 C A RL 1 C-6 C A 0.75 RL SA C O - N RT-P3 i PSV-51-1058 2 M-51 (SMT 4) P 0.75 Rt SA C C - y LJ-T cVoR-t twCLUDED FOR TYPE C PSV-51-106A 2 M-51 (Sui 2) C-6 AC trar. 1ESTsuG cut? PENT, N 239 1 1 0-5 AC P 0.75 NL SA C C -- V LJ-T Gypp.1 INCLUDED FOR TYPE C 3 PSV-51-1068 2 M-51 (SNT 4) LEAR TESTING C4LT j Pfuf. N-234 I n-2 AC P 1 RL SA C C - T LJ-T CvtR-1 PENT. z-17 ' PSV-51-122 2 4-51 (SMT 1) E-2 AC A 0.75 RL SA C OC - Y RT-P2, LJ-T cvpR-1 PENT. N-12 PSV-51-155 1 .M-51 (SMT 1)
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4 SPEC. ML-008 FEVIStou 2 VAL. I TASLE 157 TA8tE - VALVES . PAGE NO: TCT Li4ERICE CEuE44TIEC STATIC 4 - Unli.1 & C0**C8 CATE: 07/06/91 SYSTEM: 51 RESIDUAL WEAT REMOVAL j FCstitCA 3
. VALVE CODE VALVE ACT/ WALVE ACT. AFP J -TEST ttE2K4CY Vrt/VCS g
WJMBER CLASS.P1tD C00R3 cat. PAS SIZE TTPE TYPE uN# SAF FAL TYPE C (DIRECTTM) RPJMBER stuARKS l PSV-51-1F030A. 2 M-51 (SMT 1) C-3 AC P 1 RL SA C C - Y LJ-T GVFR-1 luCLLCED FCR TYPE C j LEAK TESTING tarLY ! Muf. R-203A l { PSV-51-1F030s - 2 . M-51 (sui 3) C-6 AC P. 1 RL SA C C - Y LJ-T GVR8-1 fuCLLEED FOR TYPE C j LEAK TESTING CulY PENT. X-2038
. PSV-51-1F030C 2 M-51 (SMT 1) C-2 AC P 1 RL SA C C -
Y LJ-T CVat-1 tuCLUDED TOR TYPE C l LEAK TESTING CulY i PENT. M-2030 J 3 l PSV-51-1F030D 2 M-51 (SNT 3) C-7 'AC P 1 RL SA C C - Y LJ-T GVRa-1 tuCLtDED FOR TYPE C { LEAK TESTING omtv PENT. X-203D I PsV-51-1F055A 2 M-51 (SMT 2) D-4 AC P 6 RL 54 C C - Y LJ-T Gvar-1 luCLLeto Foo TYPE C 1 LEAC TEsituG OwtY I PENT. F-237 i PSV-51-1F0558 2 M-51 (suf 4) E-7 AC P 6 et SA C C - Y LJ-Y CVre-1 tutttetD FOR TYPE C LEAC TE$itus outY PEuf. E-238 PSV-51-17007 2 M-51 (Suf 2) a-3 AC P & RL SA C C - Y LJ-T cvam-1 luCLUDED Fat TYPE C LEAC TEST]uG OWLY { Ptuf. N-2&D , kV-51-102A 1 M-51 (SMT 13 F-4 C A 1 MC SA O C - N ET-R(F), P t-T CV8R-2 PENT. M-668 nV-51-1028 1 M-51 (SNT 3) F-6 C A 1 NC ~ SA 0 C - M ET-R(F) PI-t GV'a-2 PedT. x-20A i xW-51-102C 1 M-51 (SNT 1) F-3 C A 1 XC SA O C - M E1-ptf) P!-T GVaa-2 PEuf. N-208 XV-51-102D 1 M-51 (SMT 3)- F-6 C A 1 xC SA 0 C - N ,ET-#(F). Pt-T CV'#-2 PENT. 1-664 f I. i
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t SPEC. ML-008 Rn*tSION 2 VALVE TABLE PAGE 4to: 108 IST TABLE - VALVES DATE: 09/06/91 LIMERICK GENERATING STAf tDN - tuli 1 & COMMON 2
$YSTEM: 51 RESIDUAt PEAT RtWMAL- POSITION APP. J TEST FREQUENCY vtR/VCS VALVE ACT/ VALVE ACT.
tfALVE CODE WJMBER REMARKS COORD CAT. PAS $12E . TYPE TYPE NRM SAF FAL TYPE C, (DIRECTION)
' BU*SER CLASS P8?D 4
N ET-R(F), PI-T GVRR-2 PENT. M-4T G-3 C A. 1 40 SA D C - xv-51-103A 1 M-51 (SMT 1) N ET-R(F), Pt-T GVRR-2 PENT. X-20A M-51 (SMT 3) N-6 C A 1 NC SA O C - xv-51-1039 1 N ET-R(F), PI-T GyRR-2 PENT. x-665 G-3 C A 1 xC SA O C - XV-51-103C 1 M-51 (SMT 1) N ET-R(f), Pt-T GVaR-2 PENT. E-66A G-6 C A 1 NC 54 O C - xv 51-103D 1 M-51 (SMT 3) i 4 t 1 1 1 }
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Snt. Mt-Ocs . SEYtS!ON 2 VALVE TABLE IST TABLE - VALVES PAGE NO: 109 LIMERICE CENERATING STATION - tm!T 1 & CtNMON DATE: 09/06/97 ;
' SYSTEM:.52 COR2 SPRAY POSITION VALVE ACT/ VALVE ACT. . APP. J TEST FREQUEWCY . VRR/VCS VALVE CTE TYPE NRM SAF FAL TYPE C (51RECTlou) stMBER REMArts ;
NUMBER CLASS P&fu COORD CAT. PAS . SIZE TYPE 1.5 SA OC C - N ET-C(R) CVSR-4 r
$2-10454- 2 ML 52 (SHT 2) E-6 C A CK M-52 (SMT 2) 'E-2 C A 1.5 ' Cr ' SA OC C - N ET-as(R) GvRR-6 52-10458 2 !
E-5 C A 1.5 CT SA OC C - N ET-C(R) Cv4R-4 52-1046A 2 M-52 (SMT 2) i j G-2 A - 1.5 Cr SA OC o - E ET-C(F) 52-1051A 2 - M-52 (SHT 2) C ! M-52 (SMT 2? F-2 C A 1.5 CK SA OC 0 - 4 ET-Q(F)- 52-1051s 2 l
..M-52 (sNT 2) D-6 C A '12 TC SA OC OC - 4 ET-0(F&R)
$2-1F003A 2 I
2 ' M 52 (SMT 23 - D-3 C A 12 . TC SA OC 00 - N E T-C( FER) 52-1F0033 i D-5 C A 12 TC sa OC OC - N ET c(FE8) 52-1F003C 2 M-52 (SwT 2) ' t 2 M-52 ($NT 2) 0-1 C A 12 TC SA OC OC - M ET-0(FLai) 52-1F003o ! M-52 (SMT 1), E B P 12 .GT SA Lo O - 4 Pt-T PostTIO4 tuotCATOR 52-1F007A 1 CMECK ONLY-8EFERENCE FSAR TABLE 6.3-7 P 12- GT MA LO O - N PI-T POSITION INDICATC# 52-150078 1 .M-52 (SMT 1). F-7 8 CPECK ONLY-REFERENCE FSAR TABLE 6.3-7 , C A 2 CK SA OC C - u ET-Ratt) cvam-6 52-1F030A 2 M-52 (sur 1) c-4 r A 2 CK SA OC C - # E T-Rat R ) cvam-6 52-1F030s 2 M-52 (snt 11 ' m-4 C [ D-7 C A '3 CE SA OC o - M ET-Q(F) 52-1F0364 2 ' M-52 (SMT 2) i 2 M-52 (sni 2) D-3 C A 3 CE SA Oc o - a ET-o(F) g 52-1F036s 2 M-52 (sni 2)' c-5 C A 3 Cr sA OC o - m ET-o(F) 52-1F036C i i i f _ . , . _ - _ - . .- _ _ . _ _ _ -.___ _ o
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SPEC. PL-D O RtvtSf0m 2 VALVE TABLE IST TABLE - VALVES PAGE No: 111 LtPERICE CEhrRATING STATION - 1141T 1 & COMMON DATE: 07/06/91 l SYSTEM: 1. CORE SPRAT [ PCSIT104 VALVE C005 ' VALVE ACT/ VALVE ACT. APP. J TEST FREQUENCY VRR/VCS WUMBER CLASS P&t0 COORD CAT. PAS SIZE TYPE TYPE NRM SAF FAL TYPE C . (DIRECTION) sumSER REMARKS Hv-52 1F0068 1, M-52 ($NT 1) F-7 AC A 12 TC SA C OC - Y ET-C(FER), LJ-T, 52-VCS-1 PEWT. E-168 [ L9-T, PI-T Hv-52-1F015A 2 M-52 (SMT 1) 0-6 A A 10 ct Mo DC C At Y ET-0, ST-C(C). LJ-T, CVPR-1 PEwT. X-207A PI-T l t ET-0, ST-0(C). LJ-T, PEuf. X-2073 Hv-52 1F0158 2 M-52 (SMT 1)' D-6 A A 10 ' CL MO OC C At Y CVtt-1 Pt i MV-52-1F031A 2 M-52 (SRT 1) C-6 A A 4 GL MO OC OC Al Y ET-0, ST-C(C&C), CVR8-1 PtWT. N-235 LJ-T, PI-T MV 52-1F0318 2 M-52 (Swi 1) C-6 A A 4 GL MO OC- OC Al Y ET-0, ST-oto&C). CVF#-! PEUT. w-20E8 LJ-T, PE-T 2 M-52 (SMT 1) F-5 8 .A 12 CT Mo C OC At u ET-0 ST-c(CEC), PI-T Hv 52-1F037 HV-52-1F039A 1 M-52 (Sui 1) E-6 A P 1 GL A0 C C C Y LJ-T, LP-T. PI-T PENT. X-16A - i Hv-52-1F039s 1 M-52 ($MT 1) F-6 'A P 1 CL A0 C C C 7 LJ-T, LP-T. PI-T PENT. N-168 L P 0.75 at SA C C - y (J-T Gveg.1 PENT. E-237 twCLtets PSv-52-127 2 M-52 (SNT 2) T AC FOR CouTAINMENT [ ISOLATION LEAC TESTTut 2 CNLY I Sv-52-139 2 M-52 (SNT 1) A7 8 A 1 GL SO O oC C m ET-0. FS-O(C). CM-3 { ST-ototC), P -Y ! M-52 (SMT 1) G-6 C A 1 *C- SA O C - N ET-R(F), Pf-T GVRR-2 PENT N-275 xv-52-1F018A 1 M 52 (Snf 1) c-6 C A T xC SA 0 C - w ET-t(F), PI-T cvet-2 PENT. M-CSA-2 f WV-52-1FC - 1 i
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SPtC. PL-095
#EVIStow 2 VALVE Taste p
IST D8tE - VALVES CATE- W M LIMERICK GENET 4T!wG STATION - tmtf 1 & Cm SYSTE,:. 53 nJEt POOL CTLin; & CtEAwp POSIT 104 APP. J TEST FRE2SuCT VRafin VALVE ACT/ VALVE ACT. REMAtts CODE NUNGER VRtVE SIZE TYPE TTFE WWW SAF FAL TYFE C (DIRECTION) CLASS F&t0 CDORD CAT. PAS WJMBER SPERT FUEL POOL MAKEUP, GL Ma LC 0 - # ET-c M-53 (Smf 1) G-2 e a 2 TSAR 9.1.3.3, FSAR
$3-1093 3 CE STrow 410.65 SPtwT Ft:EL p(x)L unEt>P, Gt MA LC o - d Ef-Q M-53 (SNT 1) G-2 s A 2 FSAR 9.1.3.3, FSAR
$3 1094 3 GUEST!0s 410.65 l
l I l i __, I f M
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j .. SPEC. ML-OCS
=Evi$:04 2
' VALVE TABLE a IST TABLE - VALVES PAGE NO. 113 LIMERICK GENERATING STATION - (MIT 1 & CD8 MON CATE: 09/06/91 SYSTEM: 55 MIGH PRESSURE COOLANT INJECTION e POSIT 10N
- 1 C(DE VALVE ACT/ VALVE ACT, APP. J TEST FREQUENCT W8/vts VALVE NUMBER CLASS PS!D .- COORD ~ CAT. PAS SIZE TTPE TTPE NRM SAF FAL TTPE C (D! RECT!cu) NUMETR REMARES
' A-8 C 4 SA OC OC
- N ET-Q(F&R) GVRS-5
.55-1025 2 M-55 (SMT 1) A CK i 55-1026 2 M-55 (SMT 1) A-7 C A 4 CK SA OC OC - N ET-QtF14) Gvet-5 55-1048 2 M-55 (SMT 1) D-4 C- A 1.5 : CK SA CC C -
N ET-2&(a) CVRS-6 l 55-1055 2 M-55 (SMT 1) .F-4 ~C A 8 CK SA C 0 - N ET-e(F) 55-ven-2 55-1059. 2 M 55 (SMT 1) D-5 C- A 12 CK SA C 0 - N ET-R(T) 55-ven-2 55-1F005 2 M-55 (SMT 1) 0-4 C A 14 CK SA OC 0 - N ET-Q(F) 55-1F019 2 M-55 (SNT 1) F-5 C A 16 CK SA DC 0 - N E T-0( F ) i ~' 55-1F021 2 M-55 (SMT 1) C-4 C A 12 $( MA OC 0 - N ET-Q(F) a
$5-1F045 2 M-55 (SMT 1) 8-6 C A 16 CK SA CC 0 - N PT-0, ET-R(F) 55-vot-1 55-1F046 .2 M-5$ (SMT 1) C-5 C A 4 CC SA OC 0 -
N ET-Q(F) 55-17078 2 M-55 ;ni 1) s-5 C A 2 CK SA OC C - N E T -a.1(a ) cype-6 55-1F080 2 M-55 (SMT 1) A-6 C A 4 CK SA CC OC - N ET-QtF&R) cves-5 55-1F094 2 M-55 (SNT 1) A-7 C A 4 EK SA tA CC - N ET-C(ftR) cvem-5 Hv-55-120 2 M-55 (SMT 1) 8-6 9 A 2 GL MG 0 DC At N ET-0, ST-C(OSC), PI-T Mv-55-121 2 M-55 (SNT 13 8-6 8 A 2 CL MO O OC At N ET-0, ST-o(Ott), Pt-T NV-55-1FC01 2 M-55 (SMT 1) D-2 8 A 12 GT MO OC OC Al N ET-Q, ST-Q(C&C), PI-T NY-55-1F002- 1 M-55 (SMT 1) F6 A A to CL Mo 0 CC At Y ET-C, ST-C(Ott), 55-vCS-T, cvra-1 PENT. u-11 LJ-T, PI-T
- w. . . , . . -- - - - - . - _ _ _ _ - - _ - ---___- - _ __-__ __ -_- _ _ _ _ _ ..-
u SeEC. + 00s REVISIDE 2
,.>. VALVE h. I IST TABLE - VALVES Pa'.E NO: tit LIMERICK CENERAf tNG STAfl04 - UNIT 1 & CIMMON DATE: 09/06/91 ST!'E';: 55 MtGN PRESSURE COOLANT I4JECTION POSITIOk VALVE CODE VALVE ACT/ VALVE ACT, APP. J TEST FREQUENCY VER/vCS NUMBER CLASS PE!D COORD CAT. PA? SIZE TTPE TTPE NRM SAF FAL TYPE C (G!tECTION) WJMBER REPARES W-55-1 F003 1 M-55 (SNT'1) F-6 A A 10 GL MO O OC At Y ET-0, ST-C(CEC), C@ t-1 PENT. N-11 LJ-7, PI-T W 1F 004 2 M-55 (SMT 1) F-3 8 A 16 GT MO OC OC Al N ET-0 ST-Q(OSC), PI-T WV-35-1F006 2 .M-55 (SMT 1) D-5 s A 12 GT Mo C OC at N ET-o, ST-o(Osc), Pt-T MV-55-1Fct7 2 M-55 (SMT 1) D-6 8- A 14 GT MO OC 0 Al N ET-0, ST-Q(0), Pt-T Mv-55-1F006 2 M-55 (SMT 1) E-4 s A 10 GL MO OC C At N ET-0, ST-c(C), PI-T kV-55-1F011 2 M-55 (SMT 1) G-4 8 A 10 GT MO OC C At N ET-0, ST-o(C), PI-T MV-55-1F012 2 it-55 (SMT 1) C-6 A A 4 GL MO OC OC At Y ET-0, ST-Q(01C), Gvst-1 Pent. E-236 LJ-T, PI-T mv-55-1F028 2 4-55 (Sat 1) D2 8 A 1 GL A0 0 C C N ET-0, TS-Q(C),
ST-C(C), Pt-T Mv-55-1F029 2 M 55 (SMT 1) e-2 8 A 1 GL Ao o C C N ET-0, FS-0(C), ST-Q(C), PI-T NV-55-170t.1 2 M-55 (SMT 1) E-3 6 A 16 8F MO OC 0 At N ET-0, ST-Q(0), PI-T Mv-55-1F042 2 M-55 (SMT 1} 8-7 A A 16 GT MO OC OC At Y ET-0, ST-0(C&C), G'at-1 PEmT. X-2C9 LJ-T, PI-T WV-55-1F071 2 M-55 (SwT 1) C-6 A A 4 GT #0 (, C At Y ET-0. ST-c(C), LJ-T, Gvaa-1 PENT r-212 PI-T Mv 1 F 072 2 M-55 (SMT 1) C-6 A A 12 GT s*) O OC At Y ET-0, ST--Q(0&C), Gvrt-1 PEuf. r-210 LJ-T, PI-T HV-55-1F003 2 M 'S (SMT 1) 4-6 A A 4 GT MO O OC Al Y , ET-0. St-C(0&C), Cyna-1 Ptut, y-2 m LJ-T, Pi-T
s
-I a.
l CPCC. ML-008 FEV15104 2 VALVE TARLE IST TAgtf - VALVES **GE WO: 115 LIMERICK GENERATING STAT!ON - L4EIT 1 & CO*Of DATE: 09/06/91 l STST(M: 55 MIGH FRESSURE COOLANT INJECit0N c P05tt!OM MLVE CtrE VALVE. ACT/ . VALVE ACT. APP. J TEST FREQUENCY v2R/VCS NUMBER CLASS P&!D COORD CAT. -PAS SIZE TYPE TYPE ni'r4 SAF FAL TYPE C (DIRECTION) ut.PBER ttMArtS 4 MV-55-1F095 2 M-55 (SMT 1) C-8 A A 4 GT MO O CC At Y ET-Q, ST-C(C&C), GVRW-1 PENT. M-2283 I LJ-T, PI-T
+
NV-55-1F100 1- M-55 (SRT 1) 7-6 A A 1.5 Gt Mc CC C At Y ET-0, ST-c(C). LJ-T, GvpR-1 Pent u-11 i PI-T l MV-55-17105 2 M-55 (SMT 1) 7-4 A A 8 GT MO C OC Al Y ET-C, ST-Ct0&C), Gvar-1, 55-VCS-2 PtuT. W-9A l LJ-T, Pf-T ] ! RV-55-1F024A 1 M 55 (SMT 1) F-6 C A 1 NC SA O C - N ET-R(F), Pi-T Gype-2 PENT. M-3C-1 { tv 55-1FON s 1 M-55 csni 1) 0-6 C A 1 NC 5A 0 C - N E T -R(F ), Pr-T cvrR-2 Ptui. F-275-1 xv-55-1F024C 1 M-55 (SNT 1) E-6 C A 1 *C SA 0 C - N ET-R(F), P!-T GvRR-2 PEhi. N-3C-2 I M-55 (Swi 1) D-6 SA O xv-55-1F0240 1 C A 1 WC C - N T-R(F), PI-T Gype-2 PtuT. w.273-2 } i i
- i I
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SPEC. ML-005
- REY!SION 2
' VALVE TABLE IST TABLE - VAL %ES FAGE 20; 116 LIMERlrK GENERATING STATION - tiNIT 1 & Com 9 ATE: M/06/91 SYSTEM: M HPC1 PUMP TURBINE POS!TICW VALVE *'")E ' VALVE ACT/ . . VALVE ACT. APP. J TEST FREcufWCY- VRR/YCS MJMBER CLASS P&to COORD CAT. 84S . . SIZE TYPE - TYPE WRM SAF ' fat TYPE C (DIRECTION) NUuSER REPMKS -
56-17048 2 M-56 ($HT 1) . B-3 C A 2 CK SA OC OC - N ET-0(FER) 56 1r057 2 M 56 (sHT 1) B-4 C A 2 CA SA OC 0 - W ET-0(F) Hv-56-1702s 2 M-56 (SNT 1) A5 9 A 1 ' GL A0 OC C C N ET-0, TS-0(C), ST-Q(C), P!-T MV-56-1F026 2 M 56 (SHT 1) B 5: 8 A 1 GL A0 OC C C N' ET-0, FS-Q(C), SDo(C), PI-T HV-56-1F059 2 H 56 (SHT 1) D-6 8 A 2 GL MO OC OC Al N ET-0, $!-0(OEC), PSE-56-1D003 2 N-56 (SH? 1) F-4 .D A 16 RD . SA C 0 -
.N RD '2 PSE-56-10004 2 M 56 ($MT 1) e-4 0 A 16 20 SA C 0 -
N Ro-P2 PSV-56-1F050 2 M-56 (Sd7 t) C-5 C A 1 RL SA C 0- - # RT-P3
1 S. SPEC. ML-DC8 REY!SION 2 VALVE TABLE P4GE NO: 117 IST TA8t.E - VALVES CATE: 07/f)6/91 LIMERICK GENERAf!NG STATION - t> NIT 1 & Com St' STEM: 57 COAT AINMENT ATMOSPMERIC CONTROL POS til'We VALVE ACT. APP. J TES; FREQUENCY VRR/VCS O! VE CODE VnLVE ACT/ TYPE NRM SAT FAL TYPE C (DIRECTICM) h1.PBE R #EMAsKS MUMBER Ct. ASS v&tD COORD CAT. PAS SIZE TYPE 4 Mn C OC At Y ET-0, ST-0C0&C), Gv82-1 PEST. x-26 TV-57-00-101A 2 M-57 (SHT 2) 0-8 A A GL LJ-T, Pt-T 4 GL MO C OC Al Y ET-0, 3T-C(C&C), CVRR-1 PENT. X-25 M-57 ("Y 1) E-2 A A fv-57-00-10?8 2 LJ-T, Pt-T 18 BF A0 OC C C Y S-Q(C), CVRR-1 PENT. X-202 ) Hv-57-104 2 M-57 (SHT 2) E-7 A A ! 5 4 C), LJ ~, P!-T MO OC C Al Y ET-0, ST-c(C), LJ-T, GvRP-1 PENT. X-702 2 '557 ($NT 2) D-6 A A 2 GL Hv-57-105 91-T M0 LC Al Y E T-C, ST-C(C), LJ-T, CVER-1 PENT. X-25, x-201A 2 M-57 ($NT 1) E-5 A A 6 BF C xv-57-109 Pt-T E-8 9 A 1 GL M0 C 0 Al N FT-0, 57 0(0), PI-T Hv- 5 7- 110 A 2 M-57 (SMT 2) A 1 Gt MO C O A! W ET-0. ST-0(D), PI-T HV-57-110s 2 M-57 'SMT 1) E-2 B MO OC c As Y ET-o, ST-c(C), LJ-T, CvRR-1 PENT. X-24 M-57 ($d7 2) c-5 A A 2 GL NV-57 111 2 P1-1 18 BF MO OC C Al Y ET-0, ST-0(C), LJ-T, CVPR-1 PE T. x-202 Hv-5 7- 112 2 M-57 (SMT 2) F-7 A A PI-T l 24 BF A0 CC C C Y ET-0, FS-C(C), CVER-1 PENT. x-26 M-57 (SHT 2) F-6 A A l Nv-5 7- 114 2 ST-0(C), LJ-T, PI-T f Cyna-1 ptNT, x-26 G-6 A A 24 BF MO OC C At Y ET-c, ST oft), LJ-T, Hv-57-115 2 M-57 (SNT 2) PI-T MO OC C At Y ET-o, ST-c(C), tJ-T, GW R - 1 PENT. x-62 2 M-57 ($HT 1) F*5 a A 1.5 CL HV-57-116 PI-T AG OC C C Y ET-0, FS-o(C). GvRR-1 PENT. F 26 2 M 57 (SMI 2) G-5 A A 2 GL HV- $ 7- 117 ST-G(C.), LJ-T, P!-T
49 , d
- t
_f
' SPEC. ML-008 -
REvlSION 2' VALVE TABtf l 1ST TABLE - VALVES PAGE NO: 116 LIMERICIC CEWERAflNG STATION ' wd DATE: 09/06/91
^
SYSTEM: 57 CONT AINMEMT ATMOSPHERIC CONTROL POSITION YAtVE ACT. A vRR/vCS I~ VALVE CtEE VALVE 'ACT/- SIZE iTPE TYPE NRM SAF, FAL Ti i N$JMBER PEMARKS NUMBER CLASS P&!D C00RD' CAT. PAS i 2 CL A0 OC C C Y t. ., . ..s, EvRR-1 PENT. X-202 EV-57-118 2 - M-57 (EHT 2) E-6 A A ST-0(C), LJ-T, PI-T Br Ao DC C 'C ET-o, FS-o(C), cvPR-.1 PENT. X-25, X-201A
.2 M-57.(SHT 1)- D-5 A A 6 Y HV-57-121 ST-Q(C), LJ-T, PI-T ET-0 FS-Q(C), CVER-1 PENT, X-25 2 M-57 (SMT 1) 0-4 A A 24 SF AO OC C C Y ffv 123 ST-Q(t), LJ-T, PI-T 8F AO OC C C Y ET-0, FS-OfC), CVRR-1 PENT. x 201A
'2 M-57 (SMT 1) D-4 A A 24 HV-57-124 ST-C(C), LJ-T, P t-T Bf AO OC C C ET-0, FS-0(C), GvtM-1 PENT. X-201A, M-25..
2 M-57 (Shf'1) D-5 A A: 6 Y NV-57-131 ST-0(C), LJ-7, PI-T t A, 24 er No DC C At Y ET-C, ST-o(C). LJ-T, cvtR-1 PENT. x HV-57-135 2 M 57 (SMT 1) D4 A PI-T 1 MO OC C At Y ET 0, ST-0(C) LJ-T, CvtR-1 PENT. X-201A wy 57-147 2 M-57 (SMT 13 0-3 A A- 24 af Pf-T M-57 (SHT 1) G-5 s A 6 cf MO O C AI N ET-o, ST-otC), PI-T uv 160 A 3 8 A 6 GT MO O C At N ET-0, ST-OtC), Pf-T ' a MV-57-1603 3 M-57 (sHT 1) ~ G-5 A 4 . 8F MO 'C OC if Y ET-0, ST-0(C&C), GVRR-1 PENT. X-26 Hv-57-161 2 M 57 (SMT 2) E-T A tJ T, PI-T A 6 BF MO C OC At Y ET-0, ST-Q(C&C), CV2R-1 PENT. X-202 HV-57-162 2 M-57 (SMT 2) C-6 A LJ-T, PI-T
& 8F . M0 C OC Al Y ET-0, ST-0(OEC), GWR-1 PENT. x-25 WV-57-163 2 M-57 (SH1 1) D-5 A .A' LJ-T, 91-T A 6 BF M3 C OC At T ET-0, ST-Q(OEC), CVRC-1 PENT. M-2014 Hv-57-164 2 M-57 (SMT 1) C-3 A LJ-T, PE-1 s
SPEC. ML-008 REVISION 2 VALVE TABLE i IST TABLE - VALVES. PAGE NO: 119 LIMERICK CENTRATING STATION - t?!!T 1 & % W DATE: 09/06/91 SYSTEM: 57 CONTAINMENT ATMOSPHERIC CONTROL POSITION VALVE CODE '4ALVE ACT/ VALVE ACT. APP. J TEST FREQUENCY VRR/VCS WUMBER CLASS P&lD COORD CAT. PA3 . SIZE TTPE TTPE NRM SAF FAL TTPE C (DIRECit0N) NUM3fR ' " MARKS HV-57-165 - M-57 (SHT 1) G-6 8 A 1 . GL MO C O AT' N. 'ET-0, ST-Q(0), PI-T HV-57-166 2 M-57 (SHT 2) C-7 A A 6 87 Me C OC At T ET 0, ST-Q(0&C?, GVRR-1 PENT. X-202 LJ-T, P!-T HV 167 - M-57 (SHT 1) F-6 8 A 1 GL M0 C' O AI -# ET-Q, ST-C(0), PI-T HV-57-168A 2 M-57 (SMT 2) E-8 8 A 1.5 Gt MO C O At N ET-0, ST-0(O), PI-T HV-57 1688 2 M-57 (Shi 1) F-2 8 'A 1.5 GL M0 C O Al N ET-0, ST-0(O), PI-T Hv-57-160 2 M-57'(SHT 1) B-3 A A 6 8F MO C OC At T ET-0 ST-0(CEC), GVPR 1 PENT. X-201A L2-T, PE-T i PSV-57-137A 1 2 M-57 (SMT 2) c-3 C A 24 VR SA C OC - N RT-P3, pr-T RT-P3, PI-T PSV-57-137A 2 2 M-57 (SHT 2) C-3 C A 24 VR SA C OC - N rSV-5 7- 1378- 1 2 M-57 (SNT 2) E-3 C A 24 VR SA C OC - N RT-P3, PI-T PSV-57-1378 2 2 M-57 (SHT 2) E-3 C A 24 VR SA C OC - N RT-P3, PI-T P SV-57-137C- 1 2 M-57 (SHT 2) C-3 C A 24 VR SA C OC - N RT-P3, PI-T-PSV 137C-2 2 M-57 (SHT 2) C-3 C A 24 VR SA C OC - N RT-P3, P!-T PSit 57-137D 1 2 M-57 (SHT 2) A-3 C A 24 VR SA C OC - ' N RT-P3, PI-T PSV-57-137D 2 2 M-57 (SHT 2) A-3 C A 24 vt SA C OC - N RT-P3, PI-T SV-5 7- 101 2 M-57 (SMT 1) B-6 8 A 2 GL SO O OC C N ET-0, FS-0(C), Gvea 3 ST-C(C&C), Pi-T SV-57-132 2 M-57 ($Hf 1) E-6 A A 1 CL SO O OC C Y E'-0, FS-0(C), GVRR-1, GVRR-3 PENT. X-28A 2 ST-0(OEC), LJ-T, PI-T
4 SM C. FL-0CS
*EVISION 2 VmLVE TABLE IST TABLE -' VALVES PAGE NO: 120 LIMERICK GENERATING STAY 10N - tm1T 1 & COMMON - .DATE: 07/06/91 STSTEM: 57 CONTAthMENT ATMOSPNERFC CONTROL POS! TION VALVE ACT/ VALVE ACT. APP. J TEST 7REQUENCT ' VRR/VCS VALVE CODE SIZE TYPE TYPE NRM SAF FAL TYPE C (DIRECTION) WUMBER REMAwKS NUMBER CLASS P&iD COORD CAT. PAS l
CL SO O OC C ET-0, FS-0(C), GVRR-1, GVRR-3 PENT. X-288 SV-57-133 2 M-57 (SHT 1) E-6 A A 1 % ST-0(0&C), LJ-T, PI-T GL SO O- OC C Y ET-0, FS-0(C), CVRR-1, GVRR-3 ~ PENT. X 28A-3 SV-57-134 2 M-57 (SRT 1) E-6 A A 1 ST-0(OLC), LJ-T, PI-T G-6 A 0.5 CL So 0 OC C N ET-0, FS-0(C), CVRR-3 SV-57-139 2 M-57 (SMT 2) B ST-0(OEC), PI-T 0.5 CL SO O OC C Y ET-0, FS-0(C), GVRR-1., OVRR-3 PENT. X-221A SV-57-141 2 M-57 ISHT 11 A5 A A ST-Q(C&C), LJ-T, PI-T A-4 A A 05 GL SO O OC C Y ET-0, FS-0(C), GvRR-1, GVRR-3 PENT. N-2t 3 SV-57-142 2 M 57 (SHT 1) ST-0(0&C), LJ-T, P!-T 0.5 GL SO O OC C Y ET .. FS-0(C), CVRR-1, GVRR-3 .' PENT. X-288 SV 57-143 2 M 57 (SNT 1) A-4. A A ST-0(OSC), LJ-T, PI-T A4 A A 0.5 GL SO O OC C Y ET-0, FS-0(C), GVRR-1, GVRR-3 PENT. X-28A-3 SV-57-144 2 M-57 (SMT 1) ST-0(0&C), LJ-T, Pt-T s3 A A 0.5 GL S0 0 OC C Y ET-0, FS 0(C), CVRR-1, GVRR-3 PENT. K-26 SV-57-145 2 H-57 (SHT 1) ST-0(OEC), LJ-T, PI-T 0-6 A A 1 GL SO O OC C V ET-0, FS-0(C), GvRR-1, GvRR-3 PENT. r-62 SV-5 7-150 2 M-57 (SHf 1) ST-Q(0&C), LJ-T, PI-T A-5 A A 1 Gs. 50 0 OC C Y ET-0, FS-O(C). GVRR-1, GvRR-3 PENT. K-62 SV-57-159 2 M-57 (SHT 1) ST-0(C&C), LJ-T, PI-T A GL S0 o DC C- ' ET-0, FS-otC), GvRR 1, GvRR-3 PENT, N-221A SV 181 2 M 57 (SNT 1) C-6 A 1 ST-Q(CEC), LJ-T, P!-T C-6 A A 1 GL SO O OC C Y ET-0, FS-0(C), Gype-T, CVRR-3 PENT x-2213 sV-57-183 2 M-57 (SNT 2) ST-Q(0&C), LJ-T, PI-T a
~
w .. ') ' " SPEC. ML-0035
' PEVIS!OE 2.
VALVE TA8tE. PAGE NO: 12f IST TABLE - V4tVES _ DATE: 09/06/91.- LIMERICIC GENERATlWG STATION - UN!T 1 & CO* MON STSTEM:'57 CONYsINMENT ATMOSP)tERIC CONTROL PO$1 TION . APP. J TEST TREQUENCY VRR/VCS. I VALVE ACT/ VALVE ACT. VALVE CODE EJM9ER REMARKS
' C00RD CAT, PAS $12E TfPE: TYPE NRM SAF F AL . TYPE C (DIRECTION)
FJMBER CLASS P&tD ET-0, FS-Q(C), GVRR-1, CVRR-3 PENT.'X-221A A 0.5 ' GL S0 0 0C C Y SV-57-134. 2- M-57 (SNT 2) e-7 A ST-CC0&C), tJ-T, PI-T ET-0,'FS-Q(C), CVRR 1, ' ' 1-3 ' PENT. X-202 87 A A- 0.5' GL SO O OC C. Y SV-57-185 2 H-57 (SHT'2) ST 0(0&C), LJ-T, PI-T ET-0, TS-0(C), GVRR-1, GVRR-3 PENT. x-2218-8-7 A A 03 GL SD 0 OC C Y sv-57-186 2 e-57 (!NT 2) ST-Q(0&C), LJ-T, PI-T ET-0, FS-0(C), GVRR-1,'GVRR-3 PENT, X-2DA 86 A A 1 GL 50- 0 OC C i SV-57-19G 2 ~ M 57 (SMT 2) ST-Q(C&C), LJ-T, PI-T ET-0, FS-Q(C), GVRR-1, GVRR-3 ~ PENT. X-220A C-6 A A 2 GL . 50 0 OC C Y SV-57-191 2 M-57 (SHT 2) ST-Q(C&C), LJ-T, PI-T ET-0 FS-Q(C), CVPR-1, GVRR-3 PENT. x-288 A 0.5 GL SO O OC C Y SV-57-195 2 M-57 (SNT 2) 86 A ST 0(C&C), LJ-T, PI-T E t t
( SPEC. f*L-008 g,,
^ ' REVIS!ON 2 VALVE TABLE
' PACE NO: 122 IST TA9LE - VALVES DATE: 09'06/91 tiMERICK CENERAftNG STATION - UN!T 1 & COMM09 SYSTEL 59 PRIMARY CONTA!NMEMT INSTRUMENT CAS POSITION APP. J TEST TREQUENCY VRR/VCS CODE VALVE ACf/ VALVE ACT.
VALVE TYPE hpM SAF TAL TYPE C (DI7ECT!0N) NUMBER REMARKS COORD CAT. PAS STZE TYPE FUMBER CLASS P&l0 _ _ SA (X- C - Y ET-RD(R), LJ-T CVRR-1, 59-V:iR-1 PENT. X-218 59-1001 2 M-59 (SMT 1) 8-5 AC A 1 CK SA OC C - Y ET-Pa(R), LJ-T GVRR-1, 59-VPR-1 PENT. 1-40M-1 E-5 AC A 1 CK 59-1005A 2 M-59 (SHT 1) SA OC C - Y ET-R2(R), LJ-T GVRR-1, 59-VRR-1 FENT. 1-3B F-5 AC A 1 CK 59-10058 2 M-59 (SHT 1) ET-R2(FER) 59-VR*-1 AS FER FSAR QUEST..d N-3 C A 1 rK SA OC OC - N
$9-1023E 3 M-59 (SHT 1) 271.2. ALLC%ABLE LEAKAGE RATE NOT TO EXCEED 73 SCC / MIN.
SA OC OC - N ET-R2(F1R) 59-vpp-1 AS PER FSAR CUESTIOd G-3 A 1 CK 59-1023H 3 M-59 (SHT 1) C 271.2. AttowAstE LEAKAGE RATE NOT 70 EXCEED 78 SCC / MIN. Cr SA OC OC - N ET-Rm(FER) 59-wR-1 AS PER FSAR CUESTION 3 #*-59 (SHT 1) H-3 C A 1 59-1023K 271.2. ALLowAstE LEAO CE RATE N01 TO EXCEED 78 SCC / min. 59-VRR 1 AS FER FSAR ouESTION M 59 (SHT 1) G-3 C A 1 CK SA OC OC - N ET-RQ(F&R) 59-1023M 3 271.2. Alt.0WABLE tEAKAGE paTE NOT 10 EXCEED 78 SCC / WIN. SA OC OC - N ET-RQ(FAR) 59-VR* 1 AS PER FSAR CUFSTION C-3 C A 1 CK 59-1023S 3 M-59 (SHT 1) 271.2. ALLO ABLE LTAKAGE RATE NOT 70 E rCEto 76 SCCru!N. SA OC C N ET-R;(R) 59-var-1, cypp.4 G-4 C 4 1 CK 59-1024E 3 M-59 (SWT 1) 1 CK SA OC C N ET-R2(R) 59-var-1, CVRR-4 G-4 C A 59-1024H 3 1-59 ($HT 1) CK SA OC C - N EF-RQ(R) 59-vPR-1, CveR-l. 59 1024K 3 M-59 (SHT 1) c-4 C A 1
r a (_ ^f' 7 h SPEC.ML-Ob8 REvrSiON 2 - valve TABLE' 1ST TABLE - VALVES PAGE NO: 123 LIMERICK GENERAT!NC STATICN - t> NIT 1 & COMM0W DATE: 09/06/91 - STSTEM: 59 PRIMART CONTAINMENT INSTRUMENT CAS POSITION VALVE CCCE LLVE ACT/ VALVE ACT. - APP. J TEST FEEQUENCY VER/VCS CO O CAT. PAS SIZE, TYPE TTPE ' NRM SAF FAL TTPE C (D17.ECTION) NUMBER REMARKS NUMBER CLASS P&lD 3 M-59 (SHT 1) G4 -C A 1 CK SA OC C - N ET-F3(R) 59-VRR-1, GVRR-4 59-1024M M-59 (SHT 1) G-4 C A 1 CK SA OC C - N ET-R2(R) 59-var 1, GVRR-4 59-1024S '3 M-59 (SHi 1) 0-5 AC A 1 .CK SA OC C - T ET-R3(R), LJ-T GvPR-1, 59-vRR-1 PENT. M-358 59-1056 2 M-59 (SNT 1) H-4 AC A 1 CK SA OC OC - Y .ET-R3(FSR), LJ-T GvRR-1, 59-vRR-1 PENT. X-30-2 59-1112 2 2 M-59 (SHT 1) G-4 AC A 1 CK SA OC OC - Y ET-R2(F&R), LJ-T GvRR-1, 59-VPR-1 PENT. X 27A 59-1128 3 M-59 (SHT 1) G-3 C A 1 CK SA OC C - N ET RG(R) 59-veR-1, GVRR-4 AS PER FSAR QUESTION 59 1131E 271.2. ALLOWABtf LEAKAGE RATE NOT To EXCEED 78 SCC / MIN. 3 M-59 ($NT 1) G-3 C A 1 CK $4 OC C - N E T-Rat R ) 59-vRR-1, Cvet-4 AS PER FSAR QUESTfC4' 59-1131H 271.2. AtLOWAst.E .; LEAKAGE RATE kOT TO EXCEED 78 SCC / MIN. M-59 (SHT 1) G-3 C A 1 CK SA OC C - N E T-R3(R } $9 veR*1, CVRR-4 AS PER FSAR QUEST 104 59 1131K 3 271.2. ALLOWABLE LEAKAGE R ATE WOT TO - EXCEED 78 SCC /P'IN. 3 M-59 (SHT 1) G-3 C A 1 CK SA OC C - N El-R2(R) 59-vet-1, GvPR-4 AS PER FSAR QUESTION
$9-1131M 271.2. ALLOWABLE LEAKAGE RATE woT TO ENCEED TS Srt/ MIN.
M 59 (SHT 1) G-3 C A 1- CK SA OC C - N ET-R3(R) 59-ven-1, CVRR-4 AS PER FSAR QUESTION 59-11315 3 271.2. ALLOWAstE LEAKA0E RATE NOT To EXCEED 78 SCC / MIN. b
c . y SPEC. Mt-008 REVIStou 2
' VALVE TABLE IST 1ABLE + VALVES PAGE NO: 124 -
LIM RICK GENERATING STAfl0N - UNIT 1 & Cm MON DATE: 09/06/91 SYSTEM: 59 PRIMART CONTAlWMENT INSTRUMENT CAS POSIT 104 .
-VALVE ACT/ VALVE ACT, APP, J TEST FREQUENCY .VRR/VCS VALYE CODE COORD CAT. PAS $1ZE TTPE TYPE NRM SAF FAL TYPE C ~ (DIRECTION) NUMBER . RG4 ARKS NUMBER CLASS P&lD C-5 A A 1.5 MO O C Al Y ET-C, ST-C(C), LJ-T, CVRR-1, 59-VCS-1 PENT. X-40F-2 HV 59-101 2 M-59 (SHT 1) .GL pt-T r C-5 A A 1 GL AO O C C Y ET-C, FS-C(C), GVRR-1, 59-VCS-1 PENT. X-4CF-2 HV-59-102 2 M-59 (SHT 1)
ST-C(C), LJ-T, PI-T AO O C C Y ET-0, FS-0(C), GvRR-1 PENT, X-40W-1 HV-59-129A 2 M 59 (SHT 1) E-5 A A 1 GL ST-0(C), LJ-T, P! T F-5 A A 1 GL A0 0 C C Y ET-0, TS-0(C), GVRR-1 PENT. X-38 HV-59-1298 2 M-59 (SNT 1) ST-Q(C), LJ-T, P! T A0 0 C C Y ET-0, FS-0(C), Gvap-1 PENT, X-358 HV 59 131 2 M-59 (SHT 1) 0-5 A A 1 GL ST-Q(C), LJ T, PI-T A0 0 C Y ET 0, FS-0(C), CVRR-1 PENT. X-215 HV-59 135 2 .M-59 (S'fi 1) 85 A A 1 GL C ST-0(C),'LJ-T, PI-T M-59 (SHT 2) G5 8 A 1 GL MO O C Al N ET-0. ST-Q(C), PI-T HV-59-140 - G-4 8 A 1 GL MO O C At N ET-0, ST-0(C), PI-T NV-59-141 - M-59 (SHT 2) N-5 8 A GL MO C 0 Al N ET-0, ST-Q(0), P!-T [ HV-59-142 - M-59 (.JT 2) 1 M-59 (SHT 2) H-6 8 A 1 CL M0 C 0 Al N ET-0, ST-0(0), Pf-T HV-59-143 - G-5 A A 1 ct MO 9 ^ At Y ET-0, ST-0(OEC), Gvam-1 PENT. X-27A' HV-59-151A 2 M-59 (SHY 1) LJ-1, Pf-T H-5 A ,A 1 GL MO O OC Al Y ET-0, ST 0(OEC), Gvpa-1 PENT. N-3D-2 HV-59-1519 2 M-$9 (SHT 1) L2-1, Pt-T F-7 C A 1 RL SA C 0 - N RT-P3 PSV-59-152A 3 M-59 (SNT 1) HT C A' 1 RL SA C 0 - # #I*P3 PSV-SV-152s 3 M-59 (SMT 1)
h . SPEC. ML-CD8 REVISION 2 VALVE TABLE PAGE NOI 123 IST eABLE - VALVES DATER 09/06/91-LIMERf Cf GENERATING STAfl04 - t1 NIT 1 & COM404 STSTEM: 59 PRIMART CONT AINMENT IWSTRtJMENT CAS POSlflDN VALVE ACT, APP. J TEST FREQUENCT VRR/VCS CocE VALVE ACT/ PEMARKS VALVE NUMBER CLASS P&t0 COORD CAT. PAS St2E TTPE TTPE NRM SAF FAL TTPE C (D:RECTION) WUMBER _ . - _
'RL SA C 0 - 4 RT-P3 PSV-59-153A 3 M-59 (SHY 1) F-T C A 1 A RL SA C 0 N RT-F3 H-T' C 1 PSV-59-1538 3 M 59 (SHT 1)
A GL SO O C C 4 ET-0, FS-Q(C), GVRR-3 SV-59-1504 3 M-59 (SHT 1) C-6 8 1 ST-0(C), PI-T GL SO O C C N ET-0, FS 0(C), GVRR-3 M-59 (SMT 1) H-6 9 A 1 SV-59-150B 3 ST-Q(C), P!-T SO C 0 0 N ET-0, fS-0(0), Gv9R-3 F-6 B A 1 GL SV-50-152A 3 M-59 (SHT 1) ST-0(0), P!-T SO C O O N ET-0, 75-0(0), GVER-3 H-6 8 A 1 CL SV-59-152s 3 M-59 (SNT 1) ST-0(0), Pt-T Al N XY-P5 PENT. X-35C D6 D A .3 75 EX FX O C xv-59-140A 2 M-59 (Snf 1) M XT-P5 PENI. X-350 D-6 O A .3 75 EX EX O C Al XV 59-140s 2 M-59 (SHT 1) XT-P5 ;ENT X-35E
.375 E!! EX 0 C Al N xv-59-140C 2 M-59 i:T 1) D-6 D A EX 0 C Al N XT-P5 PENT. X-35F 0-6 D A .3 75 EL xv 59-1400 2 M-59 (SHT 1) 0 C A! N NT-P5 PENT. X-35G 2 M-59 (SNT 1) D-6 0 A .375 EX EX xv-59-140E ET-0, FS-Q(C), GVRR-1, GVRR-3 PENT. X-35C D-6 A A .375 BL SO OC C C T xv 59-141A 2 M-59 (SMT 1) St-0(C), LJ-1, PI-T ET-0, FS-0(C), svtR 1, GVRR-3 PENT. X-350 D-6 A A .375 BL SO OC C C f xv-59 1418 2 M-59 (SNT f) ST-0(C). LJ T, PI-Y SO OC C C Y ET-0, FS-0(C), CV9R-1, r"*R-1 PENT. X-37 D6 A A .3 75 BL xv-59 141C 2 M-59 (SNT 1) ST-0(C), LJ-T, PI T
N SPEC. ML-008 REVISION 2' VALVE TABLE. IST 1ABLE - VALVES . FACE NO: :126 LIMERICK CENERATING STAYl0N - UN!i 1 8 COMMON DATE: 09/06/91. SYSTEM: 59 PalMARY CONTAlWHENT f MSTRUMENT CAS POSITION VALVE CODE VALVE ACT/ VALVE' ACT. APP. J TEST FREQUENCY VRR/VCS NUMBER CLASS P&lD COORD CAT, PAS SI2E TYPE TYPE NRM SAF FAL-.iYPE C (DIRECTION) NUMBER RENARKS-XV-59-1410 2 M 59 (SHT 1) 0-6 A -A .375- BL $0 OC C' C Y ET-0, TS-Q(C), CVRR-1, GVRR-3 PEN 1. X-35F: ST-0(C), LJ T, PI-T XV 59-141E 2 kt-59 (SHT 11 0-6 A A .375 st SO OC C C Y ET-0, FS-Q(C), CVRR-1, CVRR-3 PENT. X-35G ST-Q(C), LJ-T, PI-T i i
- t. . :
. SPEC. ML-003 REVISION 2 VALVE TABLE-IST FABLE - VALVES PAGE No: 127'-
LINERIC4 CENERATING STATION - tN!T 1 & COMMON DATE: 07/06/91 SYSTEM: 60 PRIMARY CONTAlWMEWT LEAK TEST 11aG POSITION VALVE CODE VALVE .ACT/ VALVE ACT. APP. J TEST FREGUENCY ' VRR/VCS NUMBER CLASS P&tD COURD CAT. PAS SIZE TYPE TYPE NRM SAF' FAL TYPE C (D!RECTION) NUMBER REMARKS 60-1057 2 M-60 (SHT 1) F-4 A P 0.75 CL MA LC C - Y LJ-T CVRR 1 PENT. X-40G 60-1058 2 M-60 (SHT 1) F-4 A P 0.75 CL MA LC C - ' Y LJ-T GVRR-1 PENT. X-40G-1' 60-1070 2 M-60 (SHT 1) D-4 A P 0.75 Ct MA LC C- - Y LJ-T GVRR-1 PENT. X-40G-2 60-1071 2' M-60 (SHT 1) D-4 ' A P 0.75 CL MA LC C - Y LJ-T CVRR-1 PENT. X-40G-2 60-1073 2 M-60 (SHT 1) C-4 A P 0.75 CL MA LC C- - Y LJ-T GvRR-1 PENT. X-227-60-1074 2 M-60-(SMT 1) C-4 A P 0 75 CL MA LC C - Y LJ-T CVRR-1 PENT. X 227
~).
, SPEC. Mt-DOS .
REVISION 2 VALVE TAaLE' . IST YABLE - VALVES PAGE MO: 128 LIMERICK CENERATING STAfl0N - UNIT 1 & COMMON 'DATE: 07/06/91 SYSTEM: 61 LIQUID RA0 WASTE COLLECTION
, POSITION' VALVE CODE VALVE ACT/ VALVE ACT. APP. J TEST FREQUENCY vitt/VCS
. NUMBER CLASS P&lD COORD CAT. PAS SIZE TYPE TYPE NRM SAF FAL TYPE C (DtkECTION) NUMBER REPARKS HV-61-110 2 M-61 (SHT 1) F-5 A A 4 GT A0 0 C C- Y ET-0, FS-0(C), GVRR-1 PENT. X-231A ST-Q(C) PJ-T, P!-T f HV-61-111 2 M-61 (SHT 1) F-4 A A 4 GT A0 OC C C Y ET-0, FS-Ofe),
- CVRR-1 PENT. x-231A ST-C(C), LJ-T, PI-T HV-61-112 2 M-61 (SHT 1) G-4 9 A 1.5 GL MO O OC At N ET-0,'ST-0(0&C), PI-T hV-61-130 2 4-61 (SHT 1) B-5 A A 4 GT AO O C C Y ET-0, FS-0(C), CV9R-1 PENT. X 2318 ST-0(C). LJ-T, P!-T HV-61-131 2 M-61 (SMT 1) 8-4 A A 4 CT A0 OC C C Y ET-0, FS-0(C), GVRR-1 PENT, K-2318 ST-Q(C), LJ-T, PI-T HV-61-132 2 M-61 (SHT 1) C-4 8 A 1.5 GL MO O OC Al N ET-0, ST-0(OSC), PI-T
i .' SPEC. ML-OLS REVISTON 2
^~ALVE
. !ABLE IST TABLE - VALVES PAGE Noi T29 LIMERICK GENERATING STATION - tMIT 1 & COMMON .DATE: 09/06/91 STSTEM: 87 DRTVELL CHILLED WATER POSITION.
VALVE CCCE VALVE ACT/ VALVE ACT. APP. J TEST FREQUENCY . VRR/VCS NUMBER CLASS' P&lD COORD CAT. PAS SIZE TYPE TYPE NRM SAF TAL TYPE C (DIRECTION) NUMBER REMJLRKS ' HV-87-120A 2 M 87 (SMT 4) C-4 A A 8 GT MO OC- C: AI Y ET-0, ST-0(C), LJ-T, c'.N FENT. X-53, CLASS 2.. PI-T Ecuir45=T PER FSAR 3.2.2.g. HV-87-1208 2 M-87 (SHT 4) 8-4 A A 8 .. CT MO OC. C, Al Y ET-o,'ST-o(C), LJ-7 GVRR-1 FEN 2. X-55, CLASS 2 PI-T EQt!! VALENT PER FSAR 3.2.2.g. HV-87-121A 2 M-87 (SHT 4) C-4 A A 8 GT MO OC C ' Al Y ET-0, ST-0(C), tJ-7, CVRR-1 FENT. A-54, CLASS 2 P!-T EQUIVALEri PER FSAR 3.2.2.g. HV-87-1218 2 M-87 (SHT 4) A-4 A A 8 GT MO OC C Af Y ET-0, ST-0(C), LJ-T, Gynt-1 PENT. M-56, CLASS 2 P!-T EQUIVALENT PER FSAR 3.2.2,g. HV 122 2 M-87 (SHT '. ) 8-5 A A 8 GT MO OC C At Y ET-0, ST-G(C), LJ- T, CVRR-1 PENT. N*SS it-T WV-87-123 2 M-87 (SHT 4) A-5 A A, 8 GT Mo CC C At Y ET-0, ST-0(C), LJ-T, CVR8-1 PEET. X-56 PI-T Hv.87-12t.A 2 M 87 (SNT 4) 8-4 A A 8 GT MO OC C At Y ET-0, ST-Q(C), LJ-T, CVER-1 PTNT. x-54, CLASS 2 PI-T EQUIVALENT PER FSAR 3.2.2.g. Hv 87-1248 2 M 87 (SHf 4) A-4 A A B bT MO OC C Al T ET-0, ST-0(C), LJ-T, CVRR-1 PENT x.56, CLASS 2 PI T EQUIVALENT PER FSAR 3.2.2.g. Hv 87-125% 2 M 87 (SHT 4) C-4 4- A 3 cf No DC C Al T ET-0, St-o(C), LJ-T, b 42-1 PENT. K 53, CLASS 2 Pt-T EDU! VALENT PER FSAR , 3.2.2.g.
I .',f-) . (
- .)'
SPEC. ML-008 REVISION 2 VALVE T AetE PAGE W0r 130 IST TABLE - VALVES CATE: 09/06/91 LIME 2tCK CENERATING ST AT!ON - ifNIT 1 & COMMON SYSTEM:.87 DRTWELL CHILLED k'ATER POSITION APP, J TEST FREQUENCT VRR/VCS VALVE ACT/ VALVE ACT. VALVE CODE NUMBER REMARKS CLASS P&lD C00RC CAT. PAS SIZE TTFE TYPE NRM SAF FAL TTPE C (DIRECTION) WUMBER ET-0, ST-c(C), tJ-T, GvRR-1 PENT. x-55, CLASS 2 A 8 - GT MO OC C Al Y 2 M-87 (SHT 4) B-4 A Ecu! VALENT PER FSAR . HV-87-1255 P!-T 3.2.2.g. Al ET-0, ST-0(C), LJ-T, CVRR-1 PENT. x-53 C-5 A A 8 GT MO OC C Y HV 87-128 2 M-87 (SNT 4) PI-T ET-0, ST-Q(C), LJ-T, CVRR-1 PENT. x-54 C-5 A' A 8 GT MO OC C Al Y HV-87-129 2 M-87 (SHT 4) PI-T N ET-R(F), PI-T CVRR-2 PENT. X-508-2 H-1 C A 1 xC SA 0 C - XV-87-156A 2 M-87 (SHT 5) N ET-R(F), PI-T CVRR-2 PENT. x-40H-2 D-2 C A 1 XC SA 0 C - xV-87-1568 2 M-87 (SNT 5) N ET-R(F), PI-T GVRR-2 PENT. x-508-2 G-1 C A 1 xC ' SA O C - xv-87-15 7A 2 M-87 (SHT 5) t
- N ET-R(F), PI-T CVRR-2 PENT. X-40M-2 D-2 C A 1 NC 54 0 C xV-87-1578 2 M-87 (SHT.5)
+ _
, ~
1 .' f
. SPEC. ML-008
--REVISION 2 VALVE TABLE.;
IST TABLE - VALVES
- ACE No: 131 LIMERICX TENERATING STATION + UNIT 1 1 COMMON DATE: 09/06/91-SY ST EM: 90 CONTAINMENT ENCLOSURE CHILLED WATER MSITION VALVE CODE VALVE ACT/ VALVE ACT. . APP. J TEST FREQUENCY VRR/VCS NUMBER CLASS P1!D COORD CAT. PAS SIZE TYPE TYPE NRM SAF FAL TYPE C (DIRECTION) NUMBER SIMARKS 90-0013A -
M-90 (SHT 1) E-3 .C 'A 6 CX SA OC 0 - N ET-Q(F) 90-00'3B - H-90 (SHT 1) F-2 .C A '6 CK SA OC O - N ET-Q(F) SV-90 045A - M-90 (SHT 2) G-3 B A 1.5 GL S0 OC OC C N ET-0, FS-C(C) GVRR-3, 90-VRR-1 H 90 (L.T 2) c2 s A 1.5 ct. 50 oc OC C N r?-o, FS-c(C) GVRR-3, 90-veR SV-90-045s -
"SV-90-047A -
M-90(SMT2) E-3 8 A. 1 CL SO OC OC C N ET-0, FS-0(C) GVRR-3, 90-VRR-1 SV 0478 - M-90 (SHT 2) E-C 8 A 1 CL 50 OC OC C N ET-0, FS-o(C) CVRR-3, 90-VRR-1 4
%_ _ a J
t-j' IST TABLE - VALVES LGS UNIT 2 i e
+
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SPEC.'MU 008 REVISION 2 VALVE 7ABLE IST TABLE - VALVES PAGE No: .132 LIMERICK CENERATING STAT?ON - UNIT 2 OATE: 09/06/91. SYSTEM: 01 MAIN STEAM POSIT 10N VALVE CODE VALVE ACT/ -VALVE ACT. APP. J TEST FREQUENCY VRR/VCS NUMBER CLASS PilD COORD CAT. PAS SIZE TYPE TYPE ' NRM SAF FAL TYPE C (D!RECTION) NUMBER REMARKS HV-01-208 2 M-01 (SMT 3) H-7 B A 6.00 - GT MO O C Al W ET-0, ST-Q(C), PI-T Hv-01 209 2 M 01 (SHT 3) C-8 8 .A 6.00 GT MO 00 C Al N ET-0, ST-Q(C), P!-T HV-01-211 2 M-01 (SNT 3) 0-7 B A 8.00 GT MO O C Al N ET-C, ST-C(C), P!-T 01-VCS-2 HV-01-250 2 M 01 (SHT 3) 0 8 A 4.00 GT MO O C Al N ET-C, ST-C(C), PI-T 01-VCS-1 e L_- _ _ _
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SPEC. ML-008 REVISION 2 VALVE TABLE PAGE NO: 133 IST 779tE - VALVES DATE: 09/06/91 LIMERICK GENERATING STATICE - UNIT 2 SYSTEM: 11 EMERGENCf SERV!CE WATER POSITIDW l APP. J TEST FREQUENCY VRR/VCS VALVE ACT/ VALVE ACT. VALVE CODE NUMBER REMARKS COORD CAT. PAS $1IE 1YPE TYPE NRM SAF FAL TYPE C (DIRECf!ON) NLHSER CLASS P&lD i 6.00 TC SA OC O - N ET-Q(F) ! D-7 C A 11-2007 3 M-11 (SNT 4) 6.00 TC SA OC 0 - N ET-Q(F) l C-4 C A 11-2009 3 M-1' (SHT 5) N' ET-Q(R) ISOLAT! M BARRILR E-7 C A 8.00 TC $A OC C - 11-2011 3 M-11 C HT 4) BETWEth EMERGENCY SERVICE WATER AND SERVICE WATER. FSAR QUESit0N 410.52 SPECIf!ES SEAT LEAKAGE TO 8 N Ef-Q(R) ISOLATION BARRIER C-3 c A 8.00 TC SA OC C - 11-2012 3 M-11 (SH1 5) BETWEEN EMERGENCY SERVICE WATER AwD SERVICE WATER. FSAR QUESTION 410.52 SPTCIFIES SEAT LEAKAGE TO 8 A0 OC 0 0 N ET-0, FS-0(0), F-5 B A 2.00 ct NV-11-201A 3 M-11 (SNT 4) 57-0(O) A0 OC 0 0 N ET-0, FS-0(0), r-6 8 A 2 00 GL ttV-11-2015 3 M-11 (SHY 5) ST-nc0) AO OC o 0 N ET-o, r$ o(0), G-5 3 A 2.00 ct HV 11-201C 3 M-11 (SNT 4) ST-0(0) A0 OC 0 0 N ET-0, FS-c(0), G-6 B A 2.00 cl W 2010 3 M 11 (SHr 5) ST-Q(0) A0 OC 0 0 N FT-0, FS-o(0), G-5 S A 2.00 GL HV-11 201E 3 M-11 (SMT 4) 51-0(0)
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REY!$!fMi 2 VALVE TABLE-IST TABLE - VALVES PAGE No: 135 LIMERICK CEkERAT!NG STATION a tJNIT 2 DATE: 09/06/91 SYSTEM: 11 EMERGENCY SERV!CE WATER POSITION VALVE CODE VALVE ACT/ VALVE ACT.- APP. J TEST TREQUENCY VRR/vCS NUM8ER CLASS P&lD' COORD CAT, PAS SIZE TYPE TYPE NRM SAF FAL TTPE C (DIRECTION) NUMBER REMARKS ~ HV-11-204H 3 M-11 (SHT i) C-7 8. A 4.00 GT A0 OC 0 0 N ET-0, FS-Q(0), ST-Q(0) HV-11-206A 3 M 11 (5'HT 5) D-6 8 A 2.00 CL AO OC 0 0 N ET-0,-FS-0(0), ST-Q(0) HV-11-2068 3 M-11 (SMT 5) E-6 8 A 2.00 CL AO OC 0 0 N ET 0, fS-Q(0), ST-Q(0) 3 M-11 (SMT 4) C-7 8 A 8.00 GT A0 0 C C N ET-0, FS-C(C), HV-11-221 ST-C(C), PI-T 3 M-11 (SHT 4) C-7 8 A 8.00 CY A0 0 C C N ET-0, FS-Q(C), HV-11 223 ST-Q(C), Pt-T HV-11-225 3 Mall (SHT 5) C-3 8 A 8.00 GT AO O 'C C N ET-0, FS-C(C), ST-0(C), FI-T C-3 8 A 8.00 GT A0 0 C C N ET-0, F3-C(C), HV-11-226 3 M-11 (SHT 5) ST-0(C), PI-T M-11 (SHT 1) D-4 C A 6.00 SK MO OC Al N ET-0(FER), STact0EC), HV-11-231A 3 P!-T 0-3 A 6.00 SIC M0 C OC Al N ET-0(TER), ST-0(OF.C), HV 11-2318 3 M-11 (SHT 1) C PI-T C*4 A 6.00 SE NO O OC At N E F-0(F &# ), ST-ofo&C), HV 11-231C 3 M-11 (SHT 1) C PI-T M-11 (SNT 1) D-2 C A 6.00 SK MO C OC At N ET-0(FER), ST-0(0&C), HV-11 2310 3 PI-T M-11 (SMT 1) D-4 8 A 6.00 GT MO O OC Al N ET-0, ST-0(0&C), PI-T HV-11*232A 3 3 M-11 (SHT 1) D-3 8 A 6.00 GT MO C CF' Al N ET-0 ST-0(OEC), PI-T HV-11-2328
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TALVE TABLE. IST TABLE - VALVES PAGE NO: 137 LIE RICK GENERATING STATION - UNIT 2 DATE:'09/06/91 , SYSTEM: 12 RHR SERVICE WATER POSIT 10N l APP, J TEST FREQUEFCT ' ! VALVE CODE VALVE ACT/ VALVE ACT. VRR/VCS l NUMBER CLASS PEID COORD CAT. PAS $1ZE TYPE. TTPE NRM SAF-FAL. TYPE C (DIRECTION) NUM91R' REMARKS HV-12-211 3 M 12 A-3 8 A 30.00 BF MO OC C Al N ET-0, ST-0(C), PI-T PAS $1VE VALVE DUplac UNIT 2 CONSTRUCTION-HV-12-212 3 M-12 02 8 A- 36.00 8F MO OC C Al N ET-0, ST-Q(C), PI-T PASS!YE VALVE DUR!WG UNIT 2 CONSTRUCTION HV-12-213 3 M-12 A-3 8 A 30.00 BF MO OC C Al N ET-0, ST-0(C), P!-T PASSIVE VALVE OtSt!9G UNIT 2 CONSTRUCTION HV 12-214 3 M-12 0-2 -8 A 36.00 BF Ho OC C 'Al N ET-0, ST-0(C), PI T PASSIVE VALVE DURING tMIT 2 CONSTRUCTION.
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4 s I) SPEC. ML-008 REVISION 2. VALVE TABLE: IST TABLE - VALVES PAGE NO: ~138' LIMERICK GEkERATING STATION - UNIT 2 - DATE: 09/06/91' SYSTEM: 13 REACTOR ENCLOSURE COOLING WATER POSITION BALVE CODE VALVE ACT/ ' VALVE ACT. APP. J TEST TREQUENCY VRR/VCS NUMBER . CLASS P&!D _COORD CAT. PAS S!2E TYPE . TYPE NRM SAF FAL TYPE C (DIRECTION) NUMBER REMARKS 4 HV-13-206 2 M-13 (SHT 2) F-5 A A 4.00. GT MO O .C Al Y ET-C, ST-C(C), LJ-T, 13-VCS-1, CVRR-1 PENT. X-23 PI-T HV-13-207 2 M-13 (SHT 2) n-7 A A 4.00 GT MO O C Al Y ET-C, ST-C(C), LJ-T, 13-VCS-1, CVRR-1 PENT. X-24 PI-T NY-13-208 2 M-13 (SHT 2) F-5 A A 3.00' GT MO O C At Y ET-C, ST-C(C), LJ-T, 13-VCS-1, CVRR-1 PENT. X-23 PI-T NV-13-209 2 .M-13 (SHT 2) G-5 A P 3.00 GT MO LC C Al Y LJ-T' CVRR-1 PENT.'X-23, ELECTRICA1LY DISCONNECTED HV-13-210 2 M-13 (SNT 2) G-8 A P 3.00 GT MO LC C At Y LJ-T CVRR-1 PENT. X-24, ELECTRICALLY DISCONNECTED HV-13-211 2 M-13 (sNT 2) C-7 A A 3.00 GT MO O C At Y ET-C, ST-C(C), LJ-T, 13 VCS-1, CVRR-1 PENT. N-24 PI-T I e e
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1 SPEC. ML-DOS RE%ISION 2 VALVE TABLE' PAGE NO: 137 ~ TST TABLE - VALVES DATE: 09/06/91 LIMERICK CENERATING STff!CN -.1741T 2 . SYSTEM: 15 COMPRESSED AIR POSITION APP. J . TEST FREQUENCY' VRR/%TS VALVE ACT/ VALVE ACT .' CODE WJMBFR PEMARKS VALVE COORD CAT. PAS SIZE TYPE TYPE WRM SAF FAL TYPE C (D titECT!Oel) NUMBER CLASS P&l0 LJ-T GVRR-1 . PENT. X-21 A P 3.00- GT MA LC C - T 15-2139 2 M-15 (SHf 29) H-5 LJ-T GVRR-1 PENT. X-21'- H-5 A P 3.00 GT MA LC C - Y 15-2140 2 M-15 (SHT 29) k V V F i i ___m_ _ _ . _ . _ _ _ _
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SPEC. ML-008 REVISION 2' VALVE TABLE IST TABLE - VALVES PAGE NO: 140
. LIMERICK CENERATING STATf0N - UNIT 2 .'OATE: C9/06/91 N
S7 STEM: 20 FUEL & DIESEL.0IL STORAGE TitA'SFER & A1R STARTING POSITION VALVE CODE VALVE ACT/ -VALVE 'ACT; APP. J TEST FREQUENCY VRR/VCS NUMBER CLASS Pl!D COORD CAT. PAS SIZE TYPE TYPE NRM SAF .FAL TYPE C (0!RECil0N) NUMBER REMARKS 20-2046A - M-20 (SHT 7) C-4 C A 2.00 CK 'SA ' OC 0 - N ET-0(F) 20-20468 - M-20 (SHT 8) C-4 C A 2.00 CK SA OC 0 - N ET 0(F) 20-2046C - M-20 (SHT 9) C-4 C A 2.00 CK 'SA OC 0 - N ET-Q(F) 20-20460 - M-20 (SHT 10) C-4 C A 2.00 CK SA OC 0 - N ET-C(r) 20-2118A 3 M-20 (SMT'7) 03 C A 1.00 CK SA OC C - N ET-0(R) 20-2118s 3 M 20 (SHT 8) D-3 C A 1.00 CK SA OC C - N ET-0(R) 20-2118C 3 M-20 (SHT 9) 0-3 C A 1.00 CK SA OC C - N ET-0(R) 2t 21180 3 M 20 (SHT 10) D-3 C A 1.00 CK SA OC C - N ET-0(R) t 20-2122A 3 M*20 (SHT 7) D-2 C A 1.00 CK $4 OC C - N ET-C(R) 20 21228 3 M-20 (SHT 8) 0-2 C A 1.00 CK SA OC C - N ET-0(R) a 20-2122C 3 M-20 ($HT 9) D-2 C A 1.90 CK' SA OC C - N ET-0(R) 20-2122D 3 M-20 r$HT 10) 0-2 C A 1,00 CK SA OC C - ' N ET-0(R) 20-97 2302A 3 M-20 (NO)E) N/A 9 A 1.5 DI SO C 0 - N ET-0, ST-d(0) 20-veR-1 SEE FSAR FIC. 9.5-10 20-92-2302a 3 M-20 (NOTE) N/A B A 1.5 DI SO C 0 - N ET-0. ST-O'0) 20-VER-1 SEE FSAR F8G. 9.5-10 20 92-2302C 3 M 20 (NOTE) N/A B A 1.5 of So C 0 - N ET-0 ST-0(0) 20-veR-1 SEE FSAsi FIC. 9.5-10 20-92 23020 3 M 20 (NOTE) N/A B A 1.5 DI So C 0 - N ET-0, St-0(0) 20-vtR-1 SEE FSAR FIG. 9.5 20-92-2303A 3 M-20 (N01El N/A G A 1.5 DI SO, C 0 N ET-0 St-0(O) 20-var.1 SEE FSA# FfC. 9.5-10 20-92-2303s 3 M-20 (NOTE) N/A. 8 A 1.5 Dt 50 C 0 - N E T-0, ST -0(0) . 20 V#R-1 SEE FSAR FIG. 9.5-10
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r SPEC. ML-0*A REVISION 2 VALVE TABLE - IST TABLE -. VALVES PAGE NO: 142 LIMERICK CENERATING STATION - UNIT 2 DATE: tri/06/91 SYSTEM: 26 PLANT PROCESS RADIATION MONITORING POSITION VALVE CODE '.VE ACT/ VALVE ACT. , APP. J TEST FREQUENCY VRR/YCS NtFBER CLASS P&lD C00,- CAT. PAS SIZE TYPE TY7E M*M SAF IAL TTPE C (DIRECTION) NUMBER REMARKS SV 26-290A 3 M 26 (SMT 8) G-3 A A 1.00 GL SO O C C Y ET-0, FS-0(C), GvRR-1, GvtR-3 PENT. X-1178-1 ST-C(C), LJ-T, PI-T SV-26-2908 3 M-26 ($MT 8) F-3 A A 1.00 GL SO O C C Y ET-0, FS-C(C), CVRR-1, GVRR-3 PENT. N-1175 1 ST-0(C), LJ-T, PI-T SV'26-290C 3 M-26 (SNT 8) G-4 A A 1.00 GL= SO O C C Y ET-0, FS-Q(C), CV8R-1, GVRR-3 PENT. X-1178-2 ST-0(C-), LJ-f, PI-T SV-26-290D 3 M 26 (SM1 8) F-4 A A 1.00 CL SO C C Y ET-0, TS-0(C), GVRR-1, GVRR-3 PENT. N-1178-2 ST-Q(C), LJ-T, F1-7 4
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SYSTEM: 40 M51V LEAKACE CONTROL POSITION UALVE C00E VALVE ACT/ VALVE ACT. APP. J TEST FRECLENCY VtR/VCS NUMBER CLASS P&!D COORD CAT. WAS $1IE TYPE WPE NRM SAF FAL TM C (DIRECT!04) WJM8Et REMAtts MV-60-27003 2 M-40 (Suf 2) 5-3 8 A 2.00 CL 983 C OC AI # ET-C, ST-C(C&O), PI-T 40-vCS-1 1' i HV-40-2T009 2 M-40 (SRT 2) F
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$PEC. ML-008 PEV151CN 2 VALVE TABLE l I
PAGE NO: 145 IST TABLE - WALVES CATE: 09/06/91 L1MERICE GCNERAT1hG STATION - U4tf 2 SYSTEM: 41 WJCLEAR 80f tEP ! POSITitM YRW/VCS ! WALVE ACT/ - VALVE ACT. APP. J' TEST FREQUENCY YALVE CODE mupsta mE*RES 6 NUMBER CLAS$ P&tD COORD CAT. PAS SIZE TYPE TYPE hRM SAF. FAL TYPE C (DIRECTton) ! MA LC C ' - Y LJ-T GV9R-1 PENT. w-44 , 1 M-41 (SRT 4) T-4 A P 4.C2 CL I 41-2016 t MA 1C C Y LJ-T GvtR-1 PENT. M-44 , 1 M-41 (SWT 4) F-4 A P 4.00 CL - [ 41-2017 ! SA C OC - Y ET-C(f tR).. LJ-T Cyra-1, 41-VCS-4 PEwT. w-94 1 M-41 (SMT 4) D-5 AC A 1.00 CK ! 41-2036A t 1.00 LE SA C OC - Y ET-C(FER), LJ-T cvit-1, 41-VCS-4 PEWT. M-91 t 41-20365 i M-41 (sMT 4) s-4 AC A [ f i 0 OC - f ET-otr), ET-sta), Cyre-1, 41-vsm-1 PFwT. w-9A I 1 m-41 t$4T 4) 0-4 AC A 24.00 CE SA
'41 2TD10A LJ-T 1
0 OC - Y ET-C(f), E1-R(t), cves 1, 41-vts 1 PEhT. w-98 1 - M-41 ($#T 4) C-4 AC A 24.00 CT SA l 41-2F0109 LJ-T t . A 1.5 Cr SA OC C - # ET-satt) 41-vam-4 3 M-41 (spi 53 c C !
- 41-2F02t.A f
SA OC C - N ET-Ra(R) 41-ves-4 4 3 M-41 (sMT 53 G-5 .C A 1.5 CK 41-2f024s 41-vme-4 ) C A 15 CK SA OC C - m ET-sat t ) 41-2F024C 3 M-.41 (sMT 5) G5 ET-eata) 41-Vya-4 s-5 A 1.5 CK SA OC C - # 41-270240 3 M-41 ($ni 5) C r A 1.5 CE SA OC C - N ET-C(R) 4t-vC3-3 41-n 029s 3 M-41 (Seti 5) c-4 C t 41-vC -5 4 i C A 1.5 CE SA OC C - m ET-C(a) 41-2F029s 3 M-41 (SMT 5) s-4 ! I i A 1.5 CE SA OC C - m ET-C(m) 4t-vCs-5 : 3 M-41 (Swt 5) G-4 C 41-25029C 't Cu sa oC C - = ET-C(a) u-ves-5 i 3 M-47 (sur si c4 c A t.5 u.zFc2co : g ( f-34g p &p p 4g.ygg.3 M-41 (sFT 5) C8 C A 1.00 CK sa OC OC - 41-2F016E 3 ' 1 41-veg-3 i C A 1.0C CE SA oC OC - t ET-Ra(F49) 3 M-41 (SMT 5) G-S I 41-2F016M 41 - vs-s - 3 ; i C A 1.00 CK SA OC OC - # E T-eatf &a) i
- 3. M-41 (swi 5) G-S i j 41-2Fo16C i
i i i i l i i
.m ?-
. ) .
TFEC. ML*U05 REWTSi(* 2 valve TABLE . IST TABLE - 10LVE3 PAGE an: 146 ! LIMERICK GENERAttuG Sint!ON - 0417 2 CATE: 09/06/11 i .i
- SYSTEM
- 41 WUCLEnt B0!LER l POSITION !
VAlvi CLM VALVE' ACT/ WALVE ACT. APP. J TEST FRE2JENCY VRt/wss I NU"SER CLAS$ P&lD C00R CAT. PA5 SIZE TYPE TYPE 4R9 SAF FAL TYPE C (DIRECTtou) WU"EE* RE*ASC5 ! L 41-2fC36M 3 M-41 (SHT 5) C-8 C A 1.00 Cr sA OC OC - m ET-astrta) 41-vas-3 ; 41-2f036s 3 M-41 ($MT 5) G-8 C A 1.00 Cr sA rc OC - u ET-aa(F&a) 41-vpa 3 Hv-41 2094 2 M-41 (SMT 4) D-T A P 16.00 GT MO LC C AT Y LJ-T, PI-T Gv8R-1 PENT. X-94
- ny-41 2093 2 M-41 (SNT 4) D-T A P 16.00 GT MG LC C At Y LJ-7, P!-T CVtt-1 PENT. x-99 f V
, Hv-41-2304 1 *-41 (sMT 4) e-5 A 'A 1.50 GL MO C oC At Y ET-C, ST-C(c4C), Gvta-1, 41-vts-3 PEUT. x-os ! I I (J-1 P!-T l MV-41-230s 1 M-41 (SMT 4) C-5 A A 1.50 CL MO C OC At Y ET-C, ST-CtOLC). Cyre-1, 41-vts-3 Prut, y-Se LJ-T, PI-T Hv-41-23 D 1 M-41 (SNT 43 s5 A A 1.50 CL M0 C OC AT Y ET-C, sT-C(o40), Gvra-1, 41-vts-3 PEUT. x-9A , LJ-T, PI-T Mv-41-.2338 1 M-41 (Sui 4) 8-5 A A 1.50 GL Mo C OC at Y ET-C, ST-Ct04C), Cven-1, 41-vC3-3 PE*T. 2-95
- LJ-T, PI-T
, Hv .1-240 - m-41 (suf 5) 0-3 s A 1.00 CL MO C O At E ET-0, sf-C(0), Pt-T f i ! NV-41-241 - M-41 (SMT 5) D-2 9 A 1 00 CL MO C 0 Al M ET-0, ST-cto). PI-T t
^
Hv-41-242 - M-41 (SMT 5) D-2 s A 3.00 Gt MO O C At u ET-o sT-c(C). Pt-T ; I mv-41-2t.3 - M-41 (sui 5) D-2 8 4 3.00 GT MO O C At N ET-Q, ST-0(c', P;-t uv-41.?F016 1' N-41 (SHf 5) 0-5 a a 3,00 GT M OC C at v E T -0. U -ot t r, & T. G m -1 PEuf. r O Pt-T 1 s.v.41-27019 1 M-41 (Sdf 5) 0-5 a a 3.00 GT M OC C At f G. St-CCC), tJ-T, Gvta-1 PEuf. r-8 Pt-T py-41-27022A 1 M-41 (Shi 5) F-5 A A I4.00 CL A0 0 C C Y ET-C, PT-Q, FS-C(C), CVRR-1. 41-VC5-2 PEuf. k-TA ST C(C). tJ-T, Pt-T a 4-- -
' 4 ,'.T .
i { i i SPEC. ML-0CP DEvtSION 2 VALVE TABLE
- IST TABLE - WALVES. PAGE WO: 147 I
LIMERitK CEut#Af ts; STATION - tmtf 2 CATE: 09/06/91
$73 FEM: 418R? CLEAR Sof tER l' '
POSIT 10s '
-UALVE CODE VALVE ACT/ VALVE ACT. APP. J TEST FREQUENCY VRR/WC3 j CUMBER class PEID C00RD CAT. PAS- SIZE TYPE TYPL mem SAF FAL TTPE C (D!tECTicu) asuMBEM PEMARKS' j '. fef-41-2F022s 1. M-41 (sHT 5) C-6 A A 26.00 Ct A0 0 C C Y ET-C PT-0, FS-C(C), 7,1 tit-1, 41-VC3-2 PENT. N-78 ST-C(C), LJ-T, PI-7 '
j ..
~
'Mv-41-27022C 1 M-t* (SMT 5) C-6 -A A '26.00 CL' AD C C C Y ET-C PT-0, FS-C(C), CVRt-1, 41-vC5-2 PENT. U TC ST-C(C), LJ-7, PI-T MV-41-2F0220 1- M-41 (suf 5) C-6 A A 26.00 C3 A0 0 C C 7 ET-C, PT-0, FS-C(C), Ovst-1, 41-vCS-2 PEuf. X-73
, ST-C(C), LJ-T, P!-T i-Hv-41-2F028A 1 M-41 (SNT 5) F-5 A A 26.00 CL A0 0 C C Y ET-C PT-C. FS-C(C), GVR2-1,'41-vCS-2 Pest. x-7A ST-C(C), LJ-T, Pt-1 p Hv-41-2F0288 1 M-41 (SMT 5) C-6 A A 26.00 CL A0 0 C C ? ET-C PT-0, FS C(C), Cyng-1, 41-vC3-2 PEuf. M-TB q ST-C(C) LJ-T, Pi-T j' Hv-41-2F02SC
- M-41 (SMT 5) C-6 A A 25.00 CL A0 0 C C Y. ET-C, PT-o, FS-Ctt), Cvez-1, 41-vts-2 ' PEUT. w-7C ST-C(C) LJ-T, Pt-T Hv-41-2F0250 1 M-41 (SMT 5) C-6 A A 26.00 CL A0 0 C C Y ET-C PT-0, FS-C(C), syra-1, 41-vCS-2 PEUT. N-7D 4
ST-C(C), LJ-T, PI-T HV-41+2F032A 2 M-41 (sHT 4) D-7 AC A 24 00 Sr SA o C At Y ET-C(R), LJ-T, PT-T CVPit-1, 41-vCS-1 Muf. z-9A Mv-41-2F032s 2 M-41 (SMT 4) C-7 AC A 24.00 st SA 0 C At Y ET-C(R), (J-T, P!-T Cypp-1, 41-vt$-1 pggt, p.93 MV-41 2F074A 1 M-41 (sgi 4) D-4 AC A 24.00 TC SA 0 OC - Y ET-C(F), ET-C(s). CVPR-1, 41-VCS-1 FEnt. X-SA LJ-T, PI-T l j MV-41 2F 0749 1 M-41 (SMT 4) C-4 AC A 24.00 TC SA O OC Y ET-0(F), (T-C(*), CYPR-1, 41-vCS-1 Pent. w 93 LJ-T, PI-T 1 WV-41-2F084 1 M-41 (sni 5) a-4 A A' 1.00 CL A0 OC C C Y ET-0, FS-0(C), Csta-1 PEWT. R-438 j ST-C(C) LJ-T, Pt-Y a uv-41-2FDS* 1 M-41 (SwT * ) e-4 A A 1.00 CL mo DC C C Y .ET-0, FS-O(C). Cve#-1 PE4V. F-431 ST-Q(C), LJ-T, PI-T
s 1 {. ~ i !- t g- SPEC. ML-CD8 REvtStos 2 i vatvE TARtE [
- IST TABLE.- VALVES PAGE 20
- 148 I LIMERICK GENER AT!40 STAf trw - outi 2 DATE: 09/06/91 I t
. i SYSTEM: 41 NUCLEAR 80fLER
,. POSIT 104 i
! tALVE' ' CODE ' valve.AC1/ 4ALVE ACT. APP. J TEST FREcutaCY vat /vCS WUMBER- CLASS P11D COORD CAT. FAS . SIZE TTFE TYPE NFM SAF FAL TYPE C E0!RECTIO4) wpSER RE* ARES
' Hv-C-41-2FO?O ' 2 M-41 (SMT 5) D-3 8 A 2.03 GL MO D C Al W ,ET-0, ST-Q(C), PI-T .
i i PSv-41 212 1 M-41 (SMT 4) E-5 AC A 0.75 RL SA ' C OC - Y LJ-T, F'42 GvtR-1 PE=T. u-44 l 1 .i PSV-41-234A 2 M-41 (SMT 4) 8-6 C A 1.00 RL 'A- C 0 - N- WT*F3 4 .
'PSV-41-2348 2 M-41 (SNT 4) C-5 C A' 1.00 RL SA C. O -
w WT-P3 i t . , i PSV-41 ZF013A 1 M-41 (SMT 5) F-7 C A 6.00 RL SA C 0 - a RT-P1 i i f l . PSV-41-2F0138 1 M-41 (SMT 5', F-7 C A 6.00 RL SA C O - a RT-P1 l l ! PSv-41-2F013C 1 + 41 (SNT 5) F-7 C A 6.00 RL SA C O - 4 RT-P1 j PSv-41-2F0130 1 M-41 ($6 5) F-7 ~C A 6.00 RL SA C O - M RT-P1 PSV-41-2f013E 1.. M-41 ($xT $) G-7 8C A 6.00 RL mO C C - a ET-R; ST-Rtc), RT-P1 41-var-2 AS PER FSAR OXST!Ost 271.2. ALLOW 18LE i
- LEaCACE RATE #CT M _
i EXCEED 78 SCC /mfu. f PSv-41-2F013F 1 M-41 (Swt 5) F-7 C
- 6.00 Rt in C O - m. < '-P1 PSv-41-2Fot3s 1 M-41 (Saf 5) F-7 C A 6.00 PL SA C O -
# T-P1 I I
PSv-41-270133 1 M-41 (SwT 5) G-7 8, C A '6.00 RL WO C 0 - N ET-W5ST-WCO),WT-PT 41-Y**-2 AS PER FSAR QUESTTou 27T.2. ALLcWA8tE l l LEstAGE RATE W37 70 f i EXCEED Ta Stoutu. ) I PSV-41-2F013J 1 M-41 ($MT 5) F-7 C A 6.00^ RL SA C 0 - a RT-P1 [ PSV-41-2F013c 1 M-41 (Smf 5) c-7 8C A 6.00 at so C 0 - u E T-8, ST-acO), RT.,1 ti-vWR-2 AS PER FSaR cutSTTan ' f ' 2n.2.Au .am : l LE8 TACE RATE NOT TO [ Er Eto Ta Stu =rs. t i ; i I l + E
. . . _ _ ,. . - _ ._. _ _ _, _. _ . - . . _ ___ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . ~ _ _ _ _ _ _ _ _ _ _ _
-4
)
~
( SPEC. ML-905
#EVIS10m 2 VatVE TABLE IST taste - VAtVES Paz wo- . 149 LIMERICK GENERAT!kG STAT!04 - tJu!T 2 CATE: 09/06/91' STSTEM: 41 WCLEAR BottER POSIT!04 VALVE CODE VALVE ACT/ VALVE ACT. ter. J TEST FREQUENCT VRR/VCS class. P&10 COORD C3T. PAS $1ZE TYPE TYPE WRM SAF FAJ TYPE C (0! RECT 104) WUPTER FEMA #KS ' ' CUMBER PSW-41-27013L l' M-41 (Ss! 5) F-7 C A 6.00 at SA C o - N RT-P1 6.00 wc ' C 0 # ET-4, ST-ato), RT-P1 41-Vra-2 As pes FSAR QUESTTou PSV-41-2F013M 1 M-41 (SMT 5) G-7 s. C A at -
271.2. ALLC:#3tt LEarAGE eATE woi TO EXCEED 75 SCC /uts. PSV-41-2F013N t M-41 (Sai 5) F-7 C A 6.00 RL SA C- c - M ei-*1
'PSV-41-2F0133 1 M-41 (SMT 5) G-7 s,'c A 6.00 *L- WO - C 0 -
# ET-R, ST-R(0), RT-P1 41-VP#-2 AS PER TSAa outs! Tom l 271.2. AltowastE tEarASE 88TE NOT TO ENCEED .~8 SCC /w!M.
PSV-41 2F037A 3 M-41 (Sai 53 3-6 C- A 6.00 VR SA C 0 - N RT-P3 M-41 (Sui 5) t-6 C A 3.00 VR SA C C - u .at-P3 PSV-41-2F0373 ~3 PSV-41-2F037c 3 'M-41 (SwT 5)- 8-6 C A 6.f"O Ve SA C o -- - a af-P3 PSV-41-2F017D 3 M-41 (SMT 5) s-6 C A 6.00 VR SA C 0 - M af-P3 3 #*41 (SNT 5) 8-6 C A 6.00 VR SA C 0 - w ST-P3 PSV-41-2F037E PSV-41-2F037F 3- t 47 49T 5) e-6 ' C .A 6.00 Va -5A C- 0 - M sf-73 3 M-41 (SMT 5) s-6 C A 6/"D VR SA C 0 - u RT P3 PSV-41-2F037G 3 M-41 (Suf 5) s-6 C A 6.00 VR SA C 0 - a DT-P3 PSV-41-2T037M PSV-41-2F037J 3- M-41 (SMT 53 8-6 C A 6.00 VR SA C 0 - u RT-P3 PSV-41-27037C 3 M-41 (SRT 5) 8-6 C A 6.00 Ve SA C o - 4 af-P3 PSV-41-2F037L 3 M-41 (SwT 5) e-6 C A 6.00 Va tm C o - = sf-p3
1 i ..
!PEC. ML-008 mEYtstow 2 ;
VALVE TABLE
'IST TABLE
- VALVES PAGE WO: 150 LIMERICE GEhERATING STATIDW - 04tf 2 CATE: 09/06/91 t
STSTEM- 41 L.CtEAR BotLER . POSITION VALVE ACT/ WALVE ACT. APP. J TEST FRE7JENCT YRR/VCS VALVE CODE. COORD CAT. PAS SIZE TYPE TYPE WPM SAF FAL TTPE C (DIRECTION) muMBER Rtuarts
. NUMBER CLA$5 P&tD r A 6.00 VR SA- C O - E- RT-P3 PSV-41-2T037M 3- M-41 (SMT $) s-6 C :
t 8-6 C A 6.C0 VR SA - C 0 - N RT-F3 PSV-41-2F03t'W 3 M-41 (!NT,5) i 3 M-41 (SMT 5) s-6 C A 6.00 VR SA C 0 - w RT P3 PSV-41-2f0375 3 s-6 C A 6.00 VR SA C 0 - 2 RT-P3 i PSV-41 27077A 3 M-41 (SMT 5) 8-6 6,00 VR ~ SA C 0 - 2 RT-P3 , PSV-41-2fo97s 3- M-41 (SMT 5) C A. ! A 6.00 VR SA C 0 - a RT-P3 PSV-41-2F097C 3 M-41 (SMT 5) 8-6 C s*6 C A 6.00 VR SA C 0 -- 4 RT-P3 PSV-41-2F0973 3 M-41 (SMT 5) 3 M-41 (SMT 5) 8-6 C A 6.00 Ya SA C o - 4 RT-P3 PSV-41-2F097E L 3 M-41 (SMT 5) 8-6 C A 6.00 Ya SA C 0 - e af-P3 PSV-41-2FC97F I .3 M-41 (S#T 5) 8-6 C A 6.00 vn SA C o - m- sT-P3 PSV-41-ZF097G 3 M-41 (SMT 5) s-6 C A 6.00 Ya SA C 0 - a rT-P3 , PSV-41-27097n ! C A 6.00 Vr SA C 0 - a eT-P3 PSV-41-27097J 3 M-41 (SMT 5) s-6 s-6 C A 6.00 VR SA C o - a PT *3 PSV-41-2*C97K 3 M-41 (SNT 5) i PSV-41 -2F097L 3 M-41 (Saf 53 s6 C A 6.00 VR SA C 0 - N .(-P3 3 2-6 C A 6.00 vf. SA C C - n a f -P 3 j i PSV-41-2FC97M 3 M-41 (SMT 5) t
]
8-6 A 6.07 VR SA C 0 - a at-p3 l PSV-41-27097u 3 M-41 (SNT 5) C 'l 8-6 C. A 6 .770 Ve %C 0 - a sT-r3 4 PSV-41 ~F0975 3 M-41 (SMT 5) 6 1 ! E-4 C A 1.01 WC SA 0 t - a ET-#(F), PI-T cvna-2 Ptut r-30 4:. MV-41-2F070A 1 M-41.(SMT 5) I i;
- E
"s
.i -
SPEC. #st-003
#EVISION 2 TALVE TABLE IST TABLE - VALVES . .
PAGE wo: 151 LIMERICA GENERATING STATICW - LMIT 2 DATE: 09/06r#1 STSTEM: 41 NUCLEAR BOILER 2 POSIT 105 VALVE : CODc VALVE ACT/ VALVE ACT. APP. J TES' FRECUEWCY VWR/VCS 3 ... NUMBER CLASS 'P&lD- COORD CAT. PAS- SIZE TTPE TTPE meM SAF FAL TTPE C (0!RECTION) WUMS74 REMA8KS l xv-41-2F0709- 1 M-41 (SMT C-6 .C A 1.00 RC SA O . C - 4 ET-#(F), P!-T GVRa-2 PENT. X-52A ! XV-41-2F070C 1 M-41 (SMT 5) C-6 C A 1.00 rC SA O C - N ET-R(F), PI-T Cvta-2 rEmT. I-34A l XV-41-2F070D 1 M-41 (SMT 5) C-6 C A 1.00 MC SA O C - N ET-R(F), PI-T CVWR-2, PENT. E-3A i 4 XV-41-2F 0714 '1 M-41 (SMT 5) E-4 C A 1.00 XC SA O C - N ET-R(F), Pt-T CYRR-2 PENT. E-494 l XV-41-2F0718 1 M-41 (SMT 5) C-6 C A 1.00 XC SA O C - N ET-#(F), PI-T GVRS-2 PENT. X-493 4 i DV-41-2F071C 1 M-41 (SMT 5) C-6 C ,A 1.00 WC $4 O C - N ET-a(F), PI-T Cyne-2 PEUT. r-303 k. XV-41-2F0710 1 M-40 (Suf 5) C-6 C A 1.00 WC SA O C - N ET-B(F), Pt-T GYRR-2 PENT. X-30A XV-41-2F072A 1 M-41 (SFT 5) E-4 C A 1.00 NC SA O C -
# ET-t(F), Pt-T Cynt-2 Pest. x-49m xv-41-2F0723 1 M-41 (SMT 5) C-6 C A 1.00 XC SA O C - N ET-R(F), PI-T cvat-2 PEnf. x-49s xv-41-2F072C 1 M-41 (SMT 5) C-6 C A 1.00 RC SA O C -
N ET-R(F), PI-T CVRt-2 PENT. X-308 XV-41-2F072D 1 M-41 (SMT 5) C-6 C A 1.00 WC SA O C - 4 ET-R(F), PI-T Cyne-2 PENT. X-30A i xv 41-2F073A 1 M-41 (SMT 5) E-4 C A 1.00 WC SA O C - m ET-R(F), Pt-T CVRW-2 PENT. X-33 yv 41-2FOT39 1 M-4T (SMT 5) C-6 C A 1.00 FC SA O C - M ET-R(F), Pf-T Cyrt-2 PEuf. N-524 xv-41-2F073C 1 M-41 (SMT 5) C-6 C A t.00 =C SA O C - 1 ET-#(F), Rt-T Cyre-2 PEuf. y-3&A xv 270733 1 M-41 (Snf 5) C-6 C A 1.00 m SA O C - W ET-R(F). Pt-T Gys#-2 PEuf. u-3A 1 i i' 4 - -w -- s- D=a = w-r -_ _ _ _ _ __.-_-___-___._..______._.__.m....__m._m.. _ . _ _ .
[
)
S M C. ML-008
#Evi$1ou 2 YALvC TABLE par.E 40: 152 IST TABLE - VALVES '
LIMERICE CENERATING STATION - IJNIT '2 DATE: 09/'X/91 i SYSTEM: 42 NitCLEAR 80!LER VESSEL INSTRt*_NTATION
- j. .
POSI7104
+
VALVE CODE VALVE ~ ACT/ VALVE ACT. APP. J TEST FREQUENCY VRR/VCS NUMBER CLASS PSID COORD CAT. PAS SI2E TYPE TYPE tRM SAF FAL TYPE C (03rECTION) NUMBER stNARES Hv-42-247A 1 M-42 (SMT 33 8-6 8 A 1.$0 GL MO O OC 'Al N ET-C, ST-C(C&Cli Pt-T 42-VCS-1 ! NV-42-2478. 1. M*42 (SHT 3) 8-3 8 A 1.30 GL MO O OC At t ET-C, St-C(0&C). PI-T 42-YCS-1 l f MV-42-247C t M-42 (SMT 3) A-6 8 A. 1.50 CL MO O OC At N ET-C. ST-C(CEC), PI-T 42-VCS-1 j i HV-42-247D 1 M-42 (SMT 3) A*3 8 A 1.50 GL ' M0 O OC At M ET-C, ST-C(010), PI-Y 42-VCS-t XV-42-285A 1 M-42 (SMT 3) C-6 C A 1.00 3C SA 0 C - M ET-n(F), PI-T CV22-2 PtwT. X-102A t'
- i. XV-42-2558- 1 M-42 (SMT 4) E-4 C A 1.00 kC SA 0 C - 4 (T-t(F), PI-T CVRS-2 PEwT. m-107 4
xv-42-2F041 1 M-42 (SMT 3) G-6 C A 1.00 EC SA 0 C - k ET-a(F), Pt-T svew-2 PEwT. E-678-2 : 4 i 4 4 hv-42-2F043A 1 M-42 ($MT 3) C-6 C A 1.00 XC S4 O C -- N ET-a(F), PT-T CVRR-2 PENT. M-678-1 2 , XV-42-2F0438 1 M-42 (SMT 3) C-4 C A 1.00 MC SA 0 C - w ET-a(F), PI-T CV2e-2 PENT. N-65A
- MV-42-2F0454 1 M-42 (Suf 3) E-6 C A 1.00 WC SA O C - W ET-R(F), Pt-T Evyt 2 Ptul. N-6AR-1 t
i 1 l XV-42-270458 1 M-42 (SMT 3) E-4 C A 1.00 WC SA 0 C - u ET-#(F), Pi-T cvne-2 PENT. N-20A-1 4 WV-42-2f045C 1 M-42 (SnT 3) E-6 C A 1.00 MC SA 0 C - W ET-*(F). PI-T cve#-2 Pfuf. X-208-1 l t j i xv-42-2F0450 1 M-42 (SMT 3) E-4 C A 1.00 XC SA 0 C - N ET-ati), Pt T cvra-2 PENT. E-66A-1 l 4-MV-42-2F047A 1 M-42 (SMT 3) E-6 C A T.00 *C SA 0 - N ET-#(F ). PI-T Gvra-2 PENT. X-428 L ! uv-42-2F0478 1 M-42 (Swi 3) E-4 C A 1.00 WC SA O C - 4 E T-#( F ). Pt-T Cve#-- Ptuf, v-43A.1 j t xv-42-2F0494 1 M-42 (SMT 3) 7-6 C A 1,00 ut SA 0 C n ET-R(F). F1-T C'488-2 PENT. 2-658 ! T-4 xC 0 cve,-2 PtwT. w-67A ; xv-42-2r0498 1 M-42 (Sai 3) C A t.c0 SA C - m ET-n(F) PI-T i e < i xv-42-2F051A 1 M-42 (SMT 3) C-6 C A . 1.00 NC SA 0 C - u ET-et t), Pt-T cyra-2 PENT. M-408 [
! 1 I
k" I S !
w ) i SPEC. PL-008 REVIStr1s 2 YALVE TABLE IST TABLE - VALVES PAGE NO: 153 LIMERICC CENERATING STATION - UNIT 2 CATE: .9/06/91 t SiSTEM: 42 NUCLEAR BOILER VESSEL INSTRUMENTATION POSITION VALVE CODE VALVE ACT/. VALVE ACf. APP. J TEST FRELJENCY vitR/VCS , NUMBER CLASS P&fD COORD CAT. PAS 512E TYPE TYPE hRM SAF FAL TYPE C (DIRECTt04) D: UMBER REwATES XV-42-2F0518 -1 k 42 ($HT 4) E-4 .C A 1.00 xC SA O C - W ET-R(F), P!-T -GVRR-2 PENT. X-313 i xv-42 2F051C 1- M-42 (SHT 4) F-5 C A 1.00 XC .SA 0 C - 4 ET-R(F), PI-I CVrt-2 PENT. X-515 - NV-42-2F051D 1 M-42 (SNT 4) D-5 C A 1.00 xC SA O C - N ET-R(F ), Pt-T GVRR-2 PENT. x-311 xV-42-2F053A 1 M-42 (SMT 3) D-6 C A 1.00 xc SA O. C - N ET-R(F), PI-T CVSR-2 PENT. X-40s xv-42-2F0.3s 1 M-42 (SMT 4) E-4 C A 1.00 xC 5A O C - N ET-R(F), PI-f CVRR-2 PENT. .: .ts XV-42-2F053C 1 M-42 (SNT 4) F-5 C A 1.00 NC SA O C - N ET-R(F), Pl*T CVFR-2 PENT. z-518 i KV-02-2F0530 1 M-42 (SNT 43 0-5 C A 1.00 xC SA O C - N ET-R(F), PI-T CVRR-2 P!NT. X-325 ; xv-42-2Foi$ 1 M-42 (SMT 3) C-4 C A 1.00 xC SA 0 C - N ET-R(F), PT-T CVRR-2 PENT. r-3 M-1 i XV-42-2F057 1 M 42 (SMT 3) C-6 C A 1.00 NC SA O C - N* ET-R(F). PI-T CVRR-2 PENT. X-400-1 I XV-42-2F05CA 1 M-42 (SMT 4) D-6 C A ) A xC SA G C - N ET-p(F), Pt-T CVRR-2 PENT. X-40C t XV-42-2F059s l' M-42 (Smi 4) F-4 C A~ 1.00 xc SA O C - u ET-R(F), PI-T CVRR-2 PENT. N-31A XV-42-2F059C 1 4-42 (SMT 4) 0-6 C A 1.00 NC SA O C - N ET F(F), PI-T GVRR-2 PENT. 4-40C , XV 42-2F059D 1 M-42 (SMT 4) F-4 C A 1.00 NC 54 O C - # ET-R(F), PI-T CVRR-2 PENT. E-31A
- r L
xv-42-2F059E 1 M-42 (SMT 4) 06 C A 1.00 NC ?A O C - N ET-R(F), PI-T CVRR-2 PENT. X-40C 1 XV-4?-270$9F 1 M-42 (SMT 4) F-4 C A 1,00 xC SA ') C - m ET-p(F), Pt-T GVRR-2 PENT. r-31A t 5 l XV 42 27059G 1 M-47 (SMT 4) D-6 C 4 1.00 xC SA 0 C - N Ef-R(F), PI-T CVwR-2 PENT. r-40s l I XV-42-2f050M 1 M-42 (SMT 3) D-3 C A 1.00 FC 5A O C - m El-R(F), Pt-T CYRR-2 PENT. -318 f xv-42-2F059L 1 M-42 (SHf 4) E-6 C A 1.00 MC SA O C - N ET4(F1, PI-T CYPR-2 PEwT. z-40A [ i 4 :
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( SPEC. 8tL-008 FEvtStom 2
%AtVE TABLE FAGE NO: 154
' 15T TABLE - VALVES DA7E: 09/06/71 LIMERICK e/EERAflitG ST ATION - (Mif 2 SYSTEM: 42 pi> CLEAR BOILER VESSEL !NSTRUMENTATIGN PCSITION APP. J TEST FREQU!L+.T VER/VCS VAtW ACT/ VALVE ACT.
VALVE CODE KJM4Et REMARit3 CLASS Pt,fD COORD CAT. PAS S!ZE TTPE TTPE WRM SAF FAL TTFE C (DIRECT 109) WUMBER _ _ _ _ M ET-R(F), P!-T GVRR-2 PENT. x-32A D4 C A 1.00 XC SA O C XV-42-2F059M 1 M-42 (SMT 4) 4 ET-R(F), P!-T GVrR-2 PENT. x-40A ! F-6 C A 1.00 WC SA O C - WV-42-2rc50N 1 M 42 (SMT 4) l
# ET-R(F), PI-T GVRR-2 PENT. F-324 D-4 C A 1.00 FC SA O C -
l xv-42-2F059P i M-42 (SMT 4) a ET-#(F), Pt-T GVRR-2 FENT. N-404 A 1.00 FC SA O C - 1 M-42 (SMT 4) F-6 C xv 2F 059R N ET-R(F), PI-T GVRR-2 PENT. N-32A A 1.00 NC SA O C - 1 M-42 (SMT 4) D-6 C XV- d-2F05?S 4 ET-R(F ), PI-T GVWR-2 PENT. M-518 7-6 C A 1.03 *C SA O C - xv-42-2r0597 1 M-42 (SMT 4) 4 ET-R(F1, PI-T Gv4R-2 PENT. M-324 D-4 C A 1.00 XC SA O C - xv-42-2FU590 1 M-42 (SMT 4) A ET-R(F), P!-T GV9R 2 PENT. X-33A-2 8-4 C A 1.00 NC SA O C - MV-42-2F061 1 M-42 (S.HT 3) N ET-R(F), Pt-T cv7R-2 PENT. X-488 T-6 C A 1.00 xC SA O C - XV-4?-2F065A 1 M-42 (SNT 3) N ET-R(F), Pt-T GVRR-2 PENT. w-4EA-1 A 1.03 FC SA O C - M-42 (SMT 3) F-4 C xv-42-2F065s 1 ET-R(F), PI T GVRR 2 PENT. y-33A-1 O C - N H-42 ($NT 3) C-4 C A 1.00 BC SA xv 42 2F076 i
T ( / SPEC. ML-008' > ' REVISION 2 VALVE TABLE IST TABLE - VALVES PAGE NO: T53 LINERICK GENERATING STATION - L*tt 2 DATE: 09/06/91 1 r SYSTEM: 43 RT ' TOR RECIRCULAfl04 PUMP FOsti!ON APP. J TEST FREQJEhCY I Ut.LVE CODE VALVE ACT/ VALVE ACT. VRR/VCS i NUMBER CLASS 5&tD COND CAT. PAS $!ZE TYPE TYPE NR8f SAF FAL' TYPE C (DIRECTION) NUMBER REMARKS f r 43-2004A 1 M-43 (SMT 3) C-7 AC A 1.00 CK SA O C - Y ET-R(R), LJ-T 43-VRR-1, GvRR-1 PENT. X-61-1 43-2004g 1 M-43 ($ni 3)- 8-7 AC A 1.00 CK ' SA O C - Y ET-R(R), LJ-T 43-vRR-1, svtR-1 PENT. M-61-2 Hv-43-2f019 -1 't-43'(SMT 3) G-4 A A 1.00 GL A0 OC C C Y ET-0, T3-Ott), SVrit-1 RENT. N-28A-1 l ST-C(C) LJ-T, PI-T a MV-43-2F020 1 M-43 (SMT 3) G-2 A A 1.00 GL A0 ' OC C C T ET-0. FS-C(C), GVRR-1 PENT. N-284-1 , ST-3(C) LJ-T, PI-T . Hv-43-2F031A 1 M-43 (SNT 3) C-4 s A 28.0 GT. MO O C Al N ET-C, ST-C(C), PI-T 43-VCS-1 [ HV-43-2F0318 1 M-43 (SHT 3) A-5 8 A 28.0 GT MO - O C Al N ET-C, ST-C(C), PI-T 43-vCS-1 f 4 1.00 xC SA O C - N ET-R(f), P1-T GVRa-2 PENT M-61-1 i XV-43-203A 1 M-43 (Sui 3) C-8 C A f xv-43-2033 1 M-43 (SMT 3) s-5 C- A 1.00 xC SA O C - N ET-F(F), ?I-T GvRR-2 PENT N .t-2 xv-43-2F0034 1 M-43 (SMT 3) E-8 C A 1.00 KC $4 0 C - N ET-R(F), PI-T GWR*-2 PENT x-3A-2 I
- XV-43-2F003s 1 M-43 (SMT 3) A-8 C A 1.00 NC SA O C - N ET-R(F), PI-T GVRR-2 PENT N-63-2 l M-43 ($MT 3) D-8 C A 1.00 WC ~SA O C - N ET-R(F), PI-T GWRR-2 PENT u-505-1 DV 43-2700'.A 1 e
UV-43-2F3043 1 M-43 (SMT 3) A-8 C A 1.00 XC SA O C - N ET-R(F), Pt-T GVRR-2 PEE N-63-2 i xv-43-2FOMA 1 M-43 (SMT 4) M-3 C A 1.00 NC SA O C - N ET-R(F), Pt-T GVRt-2 PENT N-$1A-1 t 1.00 O N ET-#(F), P{-1 Cy9R 2 p{gT M 51A-2 xv-43-2F009G 1 3 (Swi 4) D-3 C A MC SA C - I FV-43-2F009C 1 M-43 (Sur 4) F.3 C A 1.00 RC SA O C - N ET-R(F), Pt-T GWRR 7 PENT N-348-1 M-43 ($ni 4) C-3 C A t.00 pc $4 0 C - N ET R(F), Pf-T GvsR-2 PENT r-348-2 4 uv-43-2F0090 1 xv'43-2F010A
- 1 M-43 ($MT 4) G-3 A 1.00. wt SA O C - N ET-R(F), PI-T GVRR-2 PENT r-51A-2 .[
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3 SPEC. ML 003 Rtvi510m 2 VALVE TA8tf PACE 80: T56 IST TABLE = VALVES DATE: C7/06/91 LIFERICE GENERAf tMG STATION - tJ4 t f 2 SYSTEM: 43 REACTOR RECIRCULAT!GW PUMP POS!T104 A*P. J TEST FRECUEktY VER/vCS VALVE ACT/ VALVE ACT. WUMBER REsuRr1 CODE VALVE COORD CAT. PAS SIZE TYPE TYPE kN SAF FAL TYPE C (DIRECTICW) NLHSER CLASS PE!D - - - _
- PENT x $1A-1
__ - N ET-R(F), PI-T CVRR-2 A 1.00 FC $4 0 C 1 M-43 (SMT 4) E-3 C xv-43-2T0108 PE4T x-345-2 0 C. - N ET-R(F), PI-T CYRR-2 A 1.00 xC 5A 1 M-43 (Suf 4) F-3 C WV-43 2F010C PEuf X-34tp-1 N ET-R(F), PI T GvPR-2 A 1.00 xC SA 0 C - 1 M-43 (SNT 4) C-3 C l XV-43-2F0100 GWR -2 PEmi X-SCA-2 SA O C - M ET-R(F) PI-T i F-3 C A 1.00 KC 1 M-43 (SHT 4) XV-43-2F011A ET-a(f), PI-T GVER-2 *Euf w 504-3 SA 0 C - u 0-3 C A 1.00 NC xv-43-270118 1 M-43 (SMT 4) CVRR-2 PE47 x-328-1
- M ET-R(F), PI-T A f.00 xC SA 0 C 1 M-43 ($nT 4) E-3 C mv-43-2F011C Gy*R-2 Pigt F-523-1
- 4 ET-R(F), Pf-T A 1.00 xC SA 0 C M-43 ISNT 43 8-3 C xV-43-2F01ip 1 Pfui N-50A-3 N ET-R(F), PI-T cvsm-2 A 1.00 NC SA O C -
M-43 (SMT 4) G-3 C 1 XV-43-2F012A GvtR-2 PENT N-50A-2 C - N ET-R(F), PI-T A 1.00 XC SA C 1 M-43 (SMT 4) C-3 C xv-43 2F0128 ET-8(F), PI-T GvrR-2 riuf K-529-2 C - E A 1.00 XC SE O 1 M-43 (SMT 4) E-3 C xv-43-2F012C GvP9-2 Ftut x-$28-2
- N ET-9(f), P!-T A 1.00 MC SA O C 1 M-43 (SMT 4) s-3 C kv-43-28012D cvir- !
Pini y-43A
- M ET-R(F), P t-T 1.00 xC SA O C A
1 M-43 (SNT 3) 3-2 C xv-43-2F040A CVr#-2 PENT x-3EA C - N ET-stF), F1-7 A 1.tC xC SA J 1 M-43 (SMT 3) A-Z C xv-43-2F0403 cvFR-2 PEwT x-43A
# ET-R(*), PI-T A 1.00 xt SA O C -
1 *-43 (SwT 3) s-2 C xv-43-2504CC ET-p(F), Pt-T CVFR 2 Ftut W-63-1
- M A I DO KC SA O C A-2 4 v v . 43- 2 f C1.00 1 M-43 (SMT 3)
. . .-h I
g , J SPEC, ML-005 ' Riv1SION 2 VAlvt TAsit IST TABLE - VALVES PAGE NO: 157 LIMERICK CEhERAf tNC STATION
- t.MIT 2 DATE: 09/06/91
, 57 STEM: 44 REACTOR WATER CLEAV# 70$ lit 0N VALVE ACT. 4PP. J TEST FREQUEuCY VRa/VCS VALVE CODE VALVE ACT/ TTPE NRM SAF FAL TYPE C (DIRECTION) NUMBER REMARKS
-NUMBER CLASS P&iD COORD CAT. PAS SIZE -TYPE 6.00 GL MO O C Al- Y ET-C, ST-C(C),.LJ-1, 44-VCS-1, GVRR-1 PENT X-14 Hv-44-2F001 1 ,M-44 (SMT 3) E-7 A A Pt-T t
MO O AI 'ET-C ST-C(C), LJ-T, 44-tCS-1, CVRR-1 PENT X-14 My 44-27004 1 M-44 (SMT 3) E-6 A A 6.00 GL C Y Pt-T Cr ET-C(n), L3-T, pg-T 44-vCS-1, cv=R-1 PENT N-9A, a-98 HV-44-2F039 2 M-44 (SMT 4) M-7 - AC A 4.00 SA 0 C - T 1.00 NC 54 0 C - N ET-R(F), PI-T CVRP-2 FENT K-41 Qv-44-202A 1 M-44 (SMT 3) E-6 C A , D-6 C A 1.00 WC SA 0 C - N ET-R(F), PI-T cvat-2 Fist X-41 uv-44 2028 1 M-44 (SNT 3) A 1.00 *C SA O C - N ET-R(F), PI-T. Crit-2 PENT X-57 uv-44-202C 1 M 44 (SMT 3) 0-6 C A 1.00 XC 54 0 C - N ET-R(F), P!-T GVRP-2 PEET I-4T xv-44-202D 1 M-44 (SMT 3) C-6 C 1.G0 NC SA 0 C - N ET-R(F), FT-T CVPR-2 PENT X-400 XV-44-270 1 M-44 (SMT 3) C-6 C A 1.00 SA 0 C - N ET-R(F), Pt-T Cyt2-2 PENT X-400
- xv-44-271 1 M-44 (SMT 3) 8-6 C A XC 4
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SPEC. ML-COS REVISION 2 VALVE TABLE PAGE NO: 158 IST TABLE - VALVES DATE: 07/06/91 LIMERICK GENERATING STATION - U41T 2 SYSTEM: 46 CONTROL RCD CRIVE HYDRAULIC - PART A POSITION APP J TEST FREQUEMCY VRRAtS VAtVE ACT/ VALVE ACT. VALVE CCCE WUMBER REMARKS COORD CAT. PAS SIZE TYPE TYPE NRM SAF FAL TYPE C (DIRECTION) NUMBER CLASS P&lD A 1 GL MO C O Al N ET-R, ST-R(0), PI-T 46-VDR-1 MV-46 225 - M-46 (SMT 2) C-3 8 At N ET-R, ST-sto), PI-T 46-VRR-1 C-3 8 A
- GL Mo C 0 HV-46-226 - M-46 (SNT 2)
GL MO O C Al N ET-0, ST-Q(C), PI-T C-4 8 A 1 HV 46-227 M-46 (SkT 2) GL MO O C At N ET-0, ST-C(C), PI-T C-4 8 4 1 MV 46-228 M-46 (SNT 2)
e . - .. L .
- s.
- SPEC. ML-008 REVISION 2 VALVE TABLE PAGE No: 159 IST TABLE - VALVES-f.tMERICE GENERATING STATION -. UNIT 2 DATE: 09/06/91 SYSTEM: 47 CCNTROL #0D DRIVE MYDR AULIC - F ART S POSITION VALVE ACT. APP. J TEST FRCDUENCY VRR/VCS VALVE CODE VALVE ACT/
FAL TYPE C (DIRECTION) NUMBER REMARES NUMBER CLASS P&ID COORD CAT. PAS SIZE TYPE TTPE kRM !** 75 CK SA C O -' 4, ET-Ra(Fy 47-VRR-t 47-2-14(02-17) '2 M-47 ($HT 2). D-6 C A CE SA C O - N ET-Ra(F) 47-veR-1 47-2-14(02-23) 2 M-47 (SMT 23 D-6 C A .75 ~ 75 CK SA O - N ET-Ra(F ) ' 47-VRR-1 47-2-14(02-27) 2 M-47 (SNT 2) D-6 C A SA C 'O N 'ET-Ra(F) 47-VRR-1 47-2-14(02-31) 2 M-47 (SMT 2) 0-6 C A . 75 CK -
.75 CE SA C 0 - N ET-R3(F) 47-VRR-f 47-2-14(02-35) 2 M-47-(SNT 2) D-6 C A C A 75 CE SA C 0 - N ET-Ra(F) 47-vPR-1 47-2-14(02-39) 2 M-47 (SMT 2) 9-6
.75 ' CK SA C 0 - N ET-Ra(*) 47-vRR-1 j 47-2-14(02-43) 2 M-47.(SMT 2) D-6 C A l
I A .75 CE SA C O - N ET-Ra(F) 47-var-1 47-2-14(06-15) 2 M-47 (sni 2) 0-6 C
.75 CK SA C O - N ET-Ra(F) 47-VR2-1 j 47-2-14(06-19) -2 M-47 (SNT 2) D-6 C A !
.75 SA C O - N ET-Ra(F) 47-VR2-1 47-2-14(06-23) 2 M-47 (SNT 2) 0-6 C A CE O - N ET-Ra(F) 47-See-t 2 M-47 (SMT 2) 0-6 C A .75 : CE SA C 47-2-14(06-27) 75 Cr SA C O - N ET Ra(F) 47-vRR-1 47-2-14(06-31) 2 M-47 (SNT 2) D-6 C A A 75 Cr. SA C 0 - N E T-ra(F ) 47-ver- t 47-2-14(06-35) 2 M 47 (SNT 2) D-6 C SA C 0 N ET-Ra(F) 47-vpR-1 2 M-47 (SMT 23 0-6 C A .75 CE -
47-2-14(06-37) A .75 CE SA C O - N ET-Ra(F) 47-vPR-1 , 2 M 47 (SNT 2) 0-6 C 47-2-14(06-43) I SA C O - N E T-#at s ) 47- vrt .1 j M 47 (SMT 2) D-6 C A . 75 - CE 47-2-14(06-47) 2 J C :O N ET-pa(F) (T yet-t D-6 C A .75 CK SA - 47-2-14(10 *1) 2 M-47 ($MT 2) SA O N fT-Ba(F) 47- ypR - 1 1 D-6 C A .75 CE C M-47 (SMT 2) 47-2-14(10-15) 2
- - - ~ - - -
\
/
SPEC. ML 008 REVISIOC 2 VAiVE TA8tf IST TABLE - VALVES FAGE No: 160 LIMERICE GENERATING STATICJr - tfMIT 2 DATE- 07/05/91 575 TEM: 47 CONTE 0L RCD DRIVE NfCRAULIC - PART B POS! TION t1ALVE CODE VALVE ACT/ VALVE ACT. APP J TEST FREQUENCY VRR/VCS , VJMBER CLASS PEID CDORD CAT. PAS SIZE T1PE TYPE NRM SAF FAL TYPE C (DIRECTICN) NUMBER REMARKS I' 47-2-14(10-19) 2 M-47 (SNT 2) C-6 C A' .75 .'E SA C 0 - N ET-Ra(F) 47-VrR-1 47-2-14(10-23) 2 M-47 (SNT 2) 0-6 C A .75 CK SA C 0 - N ET-R3(F) 47-VRR-1 47-2 14(10-27) 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-R3(F) 47-VRR-1 47-2-14(10-31) 2 M-47 (SNT 2) 0-6 C A .75 CK SA C 0 - N ET-Ra(F) 47-VRR-1 47-2 14(10-35) 2 M-47 (ShT 2) D-6 C 75 CK SA C 0 - N ET-Ra(Fs 47-VRR-1 47-2-14(10-39) 2 M-47 (SMT 2) 0-6 C A .73 CK SA C 0 - N ET-R2(F) 47-VRR-1 47-2-14(10-43) 2 M-47 (SMT 2) 0-6 C A .75 CK SA C 0 - N ET-Ra(F) 47-VRR-1 47-2-14(10-47) 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-Ra(F) 47-Vw -1 47-2-14(10-51) 2 M-47 (SNT 2) D-6 C A 75 CK SA C 0 - N ET-R3(F) 47-VR R - 1 47-2-14(14-07) 2 M-47 (SNT 2) D-6 C A .75 CK SA C 0 - N ET-Ra(F) 47-vRR-1 47-2-14(14-11) 2 M-47 (SNT 2) D-6 C A .75 CK $A C 0 - N ET-Rart) 47- vpR - 1 47-2-14(14-15) 2 M-47 (SNT 2) D-6 C A .75 CK SA C 0 - N ET-Ra(F) 4 7-VR R - 1 47-2-14(14-19) 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-RQ(F2 47-vpa-1 47-2-14(14-23) 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-Ra(F) 47-vRR-1 47 2-14(14-27) 2 M-47 (SNT 2) D-6 C A 75 CK SA C 0 - N ET-Ra(F) 47-vna-1 47-2-14(14-31) h M-47 (SNT 2) D-6 C A . 75 CK SA C 0 - N ET-RarF) 47-veR-1 47-2-14(14-3 9 2 M 47 (Sr* 2) 0-6 C A .75 CK SA C D - # ET-82(F) 4 7-var -1 47-2-14(14-39) 2 M-47 (SMT 2 D-6 C A .75 CK SA C ts - N ET-Ra(F) 47-VRP-1 1 l
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SPEC. 9tL-008 mEVISION 2 VALVE TABLE PACE WD: 161 IST TABLE - VALVES DATE 09/06/91 LIMEntCE CENEaAftkG STATION - U4tf 2 SYSTEM: 47 CONTROL 200 DalVE MTDaAULIC - PAst 8 POSITION APP. J TEST FREQUENCY . Van /VCS VALVE ACT/ VALVE -ACT. VALVE CODE utesta REMAsts CLASS P&tD CTRD CAT. PAS- SIZE TYPE TYPE NRM . SAF FAL: TYPE C (DiaECT104) NUMBE1
*/ ET-a3(F) 4T-Vaa-1 0-6 C A .75 CE- SA - C 0 N 47-2-14(14-43) 2 M-47 (SMT 2)
.ET-m3(F) 47-V9m-1 D-6 C A 75 CK SA C 0 .. N 47-2-14(14-47) 2 M-47 (SMT 2).
0 -t ET-aatt) 47-vat-1 0-6 C A .75 CK SA C - 47 2-14(14-51) 2- 'M-47 (SMT 2) SA C 0 - N ET-aG(r) 47-vat-1 2 M-47 (SMT 2) 0-6 C A .75 CE 47-2-14(14 55) 0 - N El-RG(F) 47-Vaa-1 0-6 C A .75 CE SA C 47-2-14(18 03) 2 M-47 (SHT 2) O - 4 ET-aa(F) 47-Van-1 M-47 (SMT 2) 0-6 C A .75 CK SA C 47-2-14(18-07) 2 o - N ET-Ra(f) 47-vam-1 D-6 C A 75 Cr SA C 47-2-14(18-11) 2 M-47 (SHT 2) SA C o - 4 ET-aQ(F) 47-vam-1 D-6 C A .75 Cr - 47-2-14(18-15) 2 M-47 (Suf 2) o w ET-a3(f) 47-vam-1 0-6 C A 75 CE. SA C - 47-2-14(18-19) 2 M-47 (SHT 2) Cr SA C o - N ET-astr> 47-vat-1 2 M-47 (SMT 2) D-6 c. A .75 47-2-14t18-23)
.,3 SA C- O. - u ET-natt) 47-vas-t D-6 C 'A CE 47 2-14(15-27) 2 M-47 (Swi 2)
SA C 0 - M ET-33(r) 47-vam-1 0-6 C A 75 CK 47-2-14(18-31) 2 M-47 ($47 23 SA C 0 - # ET-Ratt) 47-vam-t 2 M-47 (Sa' 2) D-6 C A .75 CE 47-2-14(18-35) ET-32(F) 47-vyn-1 D-6 C A .75 CK SA C o - N 47-2-14(18-39) 2 M-47 (SMT 2) C O - M ET-a3(F) 47-ves-1 M-47 (SMT 2) D-6 C A .75 Et SA 47-2-14(18-43) 2 SA C o - u ET-setr> 47-ves-1 2- M-47 (SMT 2) D-6 C A .75 CK 47-2-14(18-47) SA C O - N ET-aatf) 47-ve n-1 D-6 C A . 75 CK 47-2-14(18-51) 2 M-47 (SMT 2) SA C o - a ET-aatr) 47-vam-1 D-6 C A' 75 CK 47-2-14(18-55) 2 M-47 (SMT 2)
sr 2- n -.
$PEC. ML-006 PEV13 TOW 2
? VALVE TABLE PAGE NO: 162 IST TABLE - VALVES DATE: 07/06/71 LIMERICE GENERAT!uG STATION - Uu!T 2
=TSTEM: 47 CC" TROL ROD DRIVE NTORAULIC - PART B FCSITION VALVE ACT. APP. J TEST FRLouEuCT VPt/VCS C00E VALVE ACT/
l valve TYPE TYPE mRW SAF .TAL TYPE C (DIRECTIDW) .t1MBER REMArts CDORD CAT. PAS SIZE NUMBER CLASS P&fD SA C D - N ET-R2(F) 47-VFR-1 2 M-47 (SMT 2) D-6 C A- .75 CK 47-2-14(18-59) SA C 0 - # ET-R3(T) 47-vat-1 2 M-47 (sMT 2) D-6 C .A- .75 CE 47-2-14(22-03) SA C 0 - u ET-R3(F) 47-vRR-1 D-6 C A 75 CE 47-2-14(22-07) 2 M-47 (SMT 2) C 0 - u ET-R3(F) 47-vRR-1 M-47 (SMT 2) D-6 C A 75 Cr SA 47-2-14(22-11) 2 u ET-#3(F) 47-veR-1 2 M-47 (SMT 2) 0-6 C A .M cr SA C 0 - 47-2-14(22-15) 47-Vpt 1 f 0-6 C A 75 CK SA C O - N [T-F3(F) 47-2-14(22-19) 2 M-47 (SMT 2) SA C 0 - u ET-R3(F) 47-vrt-t D-6 C A 75 CE 47-2-14(22-23) 2 M-47 (SMT 2) 47-vpW-1 ; A ./5 Cr SA C 0 - N ET-R3(F) r 47-2-14(22-27) 2 M-47 (SMT 2) D-6 C
- i SA C O - u ET-R3(F) 47-vRR-1 i
2 M-47 (SMT 2) D-6 C A .75 CK l 47-2-14(22-31) ! CE SA C 0 - u ET-R3(F) 47-vtR-t D-6 C A 75 l 47-2-14(22-35) 2 M-47 (sMT 2) C O - u ET-RatF) 47-vnt-1 0-6 C A 75 Cr SA 47 2-14(22-39) 2 M-47 (sNT 21 O u ET-R3(F) 47-veR-1 M 47 (SMT 2) D-6 C A .75 Cf $A C - 47 2-14(22-43) 2 SA C O - u ET-R3(F) 47-vte-t M-47 (spi 2) D-6 C A 75 CK 47-2-14(22-47) 2 u ET-83(F) 47 yet-1 A 75 Cr sa C o - 47-2-14(22-51) 2 M-47 (SMT 2) D C SA C O - u ET-R3(F) 47-vos-1 2 M-47 (sMT 2) D-6 C
- J5 CR 47-2-14(22-55)
Cr SA C 0 - u ET-R3(F) 47-vn#-t M-47 (spf 2) D-6 C A 75 47-2-14(22-59) 2' u ET-p3(F) 47-vpR-t A 75 CK SA C 0 - 47-2-14(26-03) 2 M-47 (suf 2) D-6 C 5 E T -P3(F ) 47-vpR-1 D-6 c. A .75 CK ' SA C O - l 47 2-14(26-07) 2 M-47 (SPT 2) 1
i 1
)
SPEC. ML-DOB REVTSIOu 2 VALVE TABLE
!$T TABLE - VALVES PACE m3: 163 LIMERICK CEWERATING STATICW - (Mtf 2 DATE: 07/06/91 SYSTEM: 47 CONTROL RCD DRIVE HTLRAUL1C - PART 8 POSITION VALVE CODE VALVE ACT/ VALVE ACT . APP. J TEST FREQLTNCY vat /VCS
;rJMBER CLASS P&lD COORD CAT. PAS SIZE TTPE TYPE NRM SAF FAL TTPE C (DIRECT!cu) rJMsEt eEMAntS D C A 75 SA C 0 -
N ET-RG(F) 47-vpt-1 47-2-14(26-11) 2 M-47 (SNT 2) CK
)
47-2-14(26-15) 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-#3(T) 47-vta-1 2 M-47 (SMT 2) D-6 C A .75 CK SA C o - # ET-Ra(F) 47-va#-1 47-2-14(26-19) 1 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-R2*F) 47-VRR-1 47-2-14(26-23) 2 M-47 (WT 2) D-6 A .75 CK SA C 0 - N ET-Ra(*) 47-VRr-1 47-2-14(26-27) C M-47 (SNT 2) D-6 C A .75 CE SA C 0 - M ET-R3(F) 47-vRa-1 47-2-14(26-31) 2 47-2-14(26-35) 2 M-47 (SNT 2) D-6 C A .75 CK SA C O - # ET-ta(F) 47-vnt-T 2 M-47 (SMT 2) D-6 C A .75 CE SA C 0 - M ET-Ra(F) 47-Vaa-1
- d. 47-2-14(26-39) 1 47-2-14(26-43) 2 M-47 (Swi 2) D-6 C A .75 ' CE SA C 0 - # ET-R3(F) 47-vta-1 i
47-2-14(26-47) 2 M-47 (SMT 2) D-6 C A .75 CK SA C o - u CT-Ra(p) 47-ven-1 2 M-47 (SNT 2) 0-6 C A 75 CK SA C O - N ET-aa(F) 47-vaa-T f 47 2-14(26-513-47-2-14(26-55) 2.- M-47. (SMT 2) D-6 C A 75 CE SA C 0 - # ET-*GtF) 47 w-1 D-6 C A .75 CK SA C 0 - 4 ET-RG(F) 47-vpa-1 47-2 14(26-59) 2 M-47 (SMT 2) i-M-47 (SMT 2) D-6 C A 75 CE SA C 0 - N ET Ra(F) 47-V9a-1 47-2-14(33-03) 2 2 M-47 (SMT 2) 3-6 C A .75 CR $8 C O - M ET-RG(F) 47-vs a-1 a 47 2-14(30-07) M-47 (SMT 2) D6 C A . FS - CE SA C o - m Er-ea(F) 47-ven.1 l 47-2-14(30-11) 2 4 47 2-14(50-15) 2 M 4T (SMT 2) D-6 C A .75 CK SA C O . m E T -R3(f ) 47.yyg . y 4 47 (SNT 2) D-6 C A .75 CE SA C O - u ET-Ra(p) 47-ves-1 47-2-14(30-19) 2 i
a
)
SPEC. ML-008 PEvtStow 2 VALVE TABLE PAGE ac: 164 IST TABLE - WALVES DATE: C9/06/91 I LIMERICE GENERAT14G STATION - L14tf 2
- I - SYSTEMI' 47 CONTROL ROD DalVE RfDBAULIC - PAAT S PostTION ,
t YALVE ACT. APP. J TEST FREQtEMCT VRR/YCS VALVE CODE VALVE ACT/ ! wupsER REaARKS I NUMBER CLASS P&tD COORD CAT. PAS SIZE TTPE TYPE RAM S.t F ' F4L TYPE C (DIRECTIow) o u ET s3(F) 47-vRW-1 47-2-14(30-23) '2 M-47 (SMT 2) 0-6 C' A .75 Cr - SA C. r.
.75 SA C o - M ET-R3(F) 47-vsa-1 f
47-2-14(30-27) 2 M-47 (SMT 2) . D-6 C A. CE L' }. o - N ET-a3(F) . 47-vsa-1 2 M-47 (SMT 2) D-6 e A .75 CK SA C f . 47-2-14(30-31) i D-6 C A .75 ' CE SA C o - a ET-wa(F) 47-vaa-t f' 47-2-14(30-35) 2 M-47 (SMT 2) I
* .75 SA C o - u ET-s3(F) 47-var-1 47-2-14(30-39) 2 M-47 (SMT 2) 0-6 C CK SA C o u ET-93(F) 47-ygg-1 2 M-47 (SMT 2) 0-6 C A .75 CK -
l 47-2-14(30-43) SA C o N ET-R3(F) 47-yss-1 M-47 (Suf 2) D-6 C A .75 CK - I- 47-2-14(30-47) 2
.75 CK SA C o - N ET-W3(F) 47-vst-1 .&
l 47-2-14(30-51) 2 M-47 (Smi I: D-6 C A 75 rr SA C o - u ET-R3(F) 47-ves-1 : 47-2-14(30-55) 2 M-47 (SMT 2) D-6 C A [ c i ET-s3(F) M-47 ($4T 2) 0-6 C & 75 ft SA C o - u 47-vas-t 47-2-14f30-59) '2 47-vga-t ; M-47 ($4T 2) n-6 C a 75 LC SA C o - u ET-s3(F ) i 47-2-14(34-03) 2 j J M ET-R3(F) 47-ype-t 47-2-14(34-07y 2 M 47 (SMT 2) . D-6 C A .75 CT SA C - o N El-33(s) 47-yes-t M-47 (SMT 2) ,D-6 C A .75 CK SA C - 4 47-2-14(34- 1) 2 i o # ET -Raf f ) 47-vag -1 t M-47 (Sui 2) D-6 C. A .75 . Cr SA C - i 47 2-14(34-15) 2 j 47-yan-1 [ C A 75 CE SA C o - # ET-83(f) 47-2-14(34-19) 2 M-47 (SMI 2) 'D-6 i SA C' o - m ET-a3(F) 47-vva-1 47-2-14(34-23) 2 M-47 (SMT 2) 0-6 C A 75 CK D-6 C A .75 CE SA C. o - # ET-aatF) 47-ven-t M-47 (SMT 23 47-2-14(34-27) 2 ' y 4 C A .75 CC SA C- 0 - m ET-as(F) tr.ves.t 47-2-14(34-31) 2 M-47 (SMT 2) . D-6 ! 4 i 1 1 !
< L
m . . . s- ) SPEC. ML-008 i *EvtSION 2 VALVE TABLE IST TABLE - VALVES PAGE NO- 165 LIMERICE GENERATING STATICE - UNIT 2 ' DAST: 09/06/91 SYSTEM: 47 CMTROL RCD DtlVE NTDRAULIC - PART S POSITION VALVE C(CE VALVE ACT/ VELVE ACT. APP. J TEST FREQUENCY VER/VCS rpBER CLASS P&lD COORD - CAT. PAS SIZE TYPE TYPE N#M SAF FAL TTPE C (DIRECT 10s) erJMER REMAKES 47-2-14(34-35) 2 M-47 (Sui 2) 0-6 C A .75 CK SA C 0 - # ET-R3(F) 47-Veg-1 47-2-14(34-39) 2 M-47 (SMT 2) D-6 C .A .75 CE SA C 0 - u ,ET-R3(F) 47-Vra-1 47-2-14(34-43) 2 M-47 (SMT 23 D-6 C A .75 - CK SA C C - 4 ET-R3(F) 47-Vit-1 I' 47-2-14(34-47) 2 M-47 (SMT 2) 0-6 C A 75 CE SA C o - 4 ET-#3(F) 47-VWa-1 47-2-14(34-51) 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-R3(F) 47-Vta-1 D-6 C A .75 CC SA C o - p ET-33(F) 47-vta-1 47-2-14(34-55) 2 M-47 ($MT 2) 4 47-2-14(34-59) 2 M-47 (SMT 2) D-6 C A .75 CC SA C 0 - N ET-e3(F) 47.vas.1 47-2-14(38-03) . 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-8&(F) 47-Vat 1 47-2-14(33-07) 2 M-47 ($nt 2) D-6 C A .75 CK SA C 0 - N ET-83(F) 47-Vet-1 47-2-14(38-11) 2 M-47 (Sai 2) D-6 C A 75 CK SA C 0 - M ET-#3(F) 47-Vaa-1 47-2-14(35-15) 2 M-47 (SNT 2) D-6 C A .75 Cr SA C O - 4 ET-R3(F) 47-vrt.1 47 2-14(35-19) 2 M 47 (SNT 2) D-6 C A .75 CE SA C O - N ET-R3(F) 47-VRR-1 47-2-14(38-23) 2 M-47 (Smf 2) D-6 C A .75 Cr SA C o - a ET-es(F) 47-Vee-t 47-2-14(33-27) 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - W -ET-tatF) 47-V99-1 47-2-14(38-31) 2 M-47 (SMT 2) 0-6 C A .75 CK SA C o - w ET-R3(F) 47-Voa-1 47-2-14(35-35) 2 M-47 (SRT 2) 0-6 C A .75 Cr SA C 0 - w ET-ra(F) 47-Vra-1 47-2-14(33-39) 2 M-47 (SMT 2) D-6 C A .75 CE SA C o - w ET-tStF) 47-Vrt- ? 47-2-14(35-43) 2 M-47 (SMT 2) D-6 C A .75 CT SA C O - 4 ET-s3(F) 47-Ves - T
~ - .- - - _ - _ - _ . - _ - _ _ _ - _ _ _ _ _ - _ _ . - , ._ _
- e.
- s_ ' '
) i SPEC. ML-OCS RETTS104 2 VALVE TABLE IST TA8tE - VALVES PA4E #0: 166 LIMERICK CENERATING STAfl04 - LMIT 2 DATE: 09/06/71 SYSTEM: 47 CONTROL ROD DRIVE HvDRAULIC - PART 8 i POS!TIO6 VALVE CODE VALVE ACT/ VALVE' ACT. A7P. J TEST FRE3JERCT VRR/VCS NUMBER CLASS PS!D COORD CAT. PAS 5!ZE - TTPE TYPE 4RM SAF FAL TTPE C (DIREC?t(m) utmBEa rE*JL*KS '
4 47-2-14(38-47) 2 M-47 (SNT 2) D-6 C A .75 CK SA C 0 - N ET-R3(F) 47-Vet-1 47-2-14(38-51) 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-R3(F) 47- N -1 i 47-2-14(38-55) 2 M-47 (SMT 22 D-6 C A .73 CK SA C o - u ET-R3(F) 47-vez-1 47-2-14(38-59) 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-R3(F) 47-Vtt-1 47-2-14(42-03) 2 M-47 (SMT 2) D-6 C A .75 ~ CK SA C 0 - N ET-R3(F) 47-vsa-1 , 47-2-14(42-07) 2 M-47 (sNT 2) D-6 C A 75 CE SA C O
- N ET-ta(F) 47-vet-1 47 2-14(42-11) 2 M-47 (SMT 2) D-6 C A .75 Cr sa C o - m ET-ea(F) 47-yes-t l 47-2-14(42-15) 2 M-47 (SMT 2) D-6 C A 75 tr SA C 0 - m ET-33(F) 47-vnt-1 47-2-14(42-19) 2 M-47 (SnT 2) D-6 C A .75 CE SA C O - 4 ET-93(F) 47-vem-1 47-2-14(42-23) 2 M-47 (suf 2) D-6 C A .75 Cf SA ~ C O - N ET-R3(F) 47-vrR-1 l 47-2 14(42-27) 2 M-47 (snf 2) D-6 C A .75 CK 54 C 0 - u ET-a3(F) 47-vte-1 i
- l. 47-2-14(42-31) 2' M-47 (snt 2) D-6 C' A .75 CE SA C 0 - u ET-s3(F) 47-ves-1 J
47-2-14(42-35) 2 M-47 (541 2) 0-6 C A 75 CK SA C o - M ET-BatF) 47-yet.1 47-2-14(42-39) 2 M-47 (SN! 2) D-6 C A 75 CE $A C O - N (T-33(F) 47-ygg.1 l 47-2-14(42-43) 2 M-47 (SMT 2) D-6 C A .75 CK SA C O - # ET-R3(F) 47 vew-t i 1 47-2-14(42-47) 2 M-47 (suf 2) D-6 C A 75 CK SA C O - N ET-R3(F) 47-vta- t l' C
- 75 ru sa C o - u Et-p3(F) 47-wwe-t 47-2-14(42-51). 2 M-47 (swT 2) 0-6 47-2-14(42-55) 2 M-47 (sMT 2) D-6 C A 75 CE sa C o - m ET-wa(F) 4 7- ra,- t I
I
l 4 r SPEC. ML*008 REvtS10N 2 valve taste IST TABLE - VALVES FACE NO: 167 LIMERICK GENERATING STATION - (MIT 2 DATE: 09M1 STSTEM: 47 CONTROL RCD DRIVE MYDRAULIC - PART 8 POSITION VALVE CODE 1 VALVE ACT/- VALVE ACT. APP. J TEST FREQUENCY VCR/vCS 4 NUMBER CLASS .P&lD COORD CAT. PAS SIZE TYPE TTPE WRM SAF FAL TTPE C (DIRECTION) EUMBER REMARg3 47-2-14(42-59) 2 M-47 (SMT 2) D-6 C A .5 CE SA C 0 -- N ET-R3(F) 47-v2R-1 j 47-2-14(46-07) 2 M-47 (SMT 2) 0-6 C A .75 Cr SA C o - N ET-R3(F) 47-vtR-t 47-2-14(46-11) 2 M-47 (SMT 2) 0-6 C A .75 CE SA C 0 - N ET-R3(F) 47-vRR-1 47-2-14(46-15) 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-R3(F) 47-Utt-1 47-2-14(46-19) 2 M-47 (SNT 2) D-6 C A .75 CE SA C O - N ET-R3(F) 47-yRR-1 47-2-14(46-23) 2 M-47 (SMT 2) D-6 C A .75 CK SA C o - N ET-R3(F) 47-vwR-1 47-2-14(46-27) 2 M-47 (SMT 2) D-6 C A .75 , CK SA C 0 - N ET-R3(F) 47-v2R-1 l 47-2-14(46-31) 2 M-47 (SMT 2) D-6 C A .75 CK SA C 0 - N ET-R3(F) 47-vga-1 1 47-2 14(46-35) 2 M-47 (SNT 2) D-6 C A .75 CK SA C 0 - N ET-R3(F) 47-vit R-1 47-2 14(46-39) 2 M-47 (SNT 2) 0-6 C A .75 . CE SA C O - N E T-R3( F) 47-vnt-1 6 f 47-2-14(46-43) 2 M-47 (SNT 2) D-6 C A .75 ' CK SA C O - N ET-#3(T) 47-vpR-1 4 47-2-14(46-47) 2 M-47 (SMT 2) D-6 C A 75 CC $A C 0 - N ET-R3(F) 47-vns-1 ! 47-2-14(46-51) 2 . M-47 (SMT 2) 0-6 C A .75 CE SA C 0 - N ET-R3(F) 47 veR-t i 47-2-14(46-55) 2 M-47 (SMT 2) D-6 C A .75 CE SA C O - N ET-83(F) 47-yRa-3 47-2-14(50-11) 2 M-47 (SMT 2) D-6 C A 75 CK SA C 0 - N El-R3(F) 47-vtR -1 47-2-14(50-15) 2 M-47. (SMT 2) D-6 C A .75 CE SA C O - N ET-R3(F) . 47-vte-1 ', 47-2-14(50-193 2 M-47 (SMT 2) 0-6 C A .75 CK SA C 0 - N ET-R3(F) 47-vsw.1 i 47-2-14(50-23) 2 M-47 (SMT 2) D-6 C A .75 CK SA C O - N Ei-p3(F) 47 ypq-3 2
- 1 s ^.
i- f- -( ) SPEC. ML-006
#EVISION 2 i- valvt TABLE IST TAttE - VALVES PACE No: 168 LIMERICK GENERATING STAf t04 - tmtf 2 CAP 09/06/91 SYSTEM:,47 CONTROL ROD DRIVE MYDRAULIC - PART B
- f. PCSITION VALVE ACT/ VALVE ACT. APP. J TEST FREQUENCY VER/VCS VALVE CODE SIZE TYPE TYPE NRM SAF FAL TYPE C (DIRECTION) NUMBER REMARES NUMBER CLA$$ P&tD C00RD CAT. PAS A .75 CK SA C 0 - M ET-93(F) 47-YRR-1 47-2-14(50-27) 2 M-47 (SMT 23 D-6 C i
t D-6 C A .75 CK SA C o - N ET-R3(T) 47-var-1 l 47-2-14(50-31) 2- M-47 (sMT 2) i ' 47-yRR-1 2 M-47 (sni 2) D-6 C A .75 CK SA C o - N ET-R3(F) j 47-2-14(50-35) D-6 C A .75 Cr SA C 0 - N ET-R3(F) 47-vtR-1 47 2-14(50-39) 2 M-47 tsNT 2) 0-6 C A .75 CE SA C o - N CT-R3(F ) 47-vRR.t
- 47-2-14(50-43) 2 M-47 (SNT 2) 0-6 C A .75 CK SA C o - N ET-RG(F ) 47-vRR-1 I 47-2-14(50-47) 2 M-47 (sMT 2) i 47-vmR-1 2 M-47 ($MT 2) D-6 C A .75 CK SA C o - N ET-R3(F)
- 47-2-14(50-51) 0-6 C A .75 CK SA C 0 - N ET-R3(F) 47-vtR-1 47-2-14(54-15) 2 M-47 (sMT 2)
,i o N ET-R3(O 47.v8R-;
47-2-14(54-19) 2 M 47 (SMT 2) D-6 C A .75 CE SA C - D-6 A .75 CK SA C 0 - N ET-93(F) 47-vtR-1 47-2-14(54-23) 2 M-47 (suf 2) C 47-vtR-t 4 M-47 ($NT 2) D-6 C A .75 Cr SA C 0 - N CT-RatF) 47-2-14(54-27) 2 a D-6 C A .75 CK SA C o - N ET-43(F) 47-VRR-1 47-2-14(54-31) 2 M-47 ($HT 2) 2 M-47 (sMT 2) D-6 C A .75 CE sa C o - N ET-R3(o 47-vst-t 47-2-14(54-35) M 47 (SMT 2) 0-6 C A 75 CE SA C o - N ET-R3(O 47-vnt-t 47-2-14(54 39) 2 D-6 C A 75 CK SA C o - N ET-R3(O 47-vtR-1 47-2-14(54-43) 2 M-47 (sNT 2) SA C o N ET-s3(F) 47-yet-t 47-2-14(54-47) 2 M 47 (snt 2) D-6 C A .75 CE - D-6 C A .75 CK SA C o - N ET-R3(O 47-veR-t 47-2-14(58 03) 2 M-47-(SMT 2) M-47 (Suf 23 0-6 C A .75 4K sA C o - N ET-R3(F ) 47-vnt-t 47-2-14(58-19) 2 4 a mF mmam - - _ m --- ____ _._ -,__m___- _ . . _ _ _ - . ~ _ _ _m.__.
,I t
57EC. =t-008 P! VISION 2 YALVE TABLE PAGE NO: 167 IST TABLE - s2* VES ErATE: 09/06/97 LIMERICK CINERATING STAfl04 - tMIT 2 SYSTEM: 47 C(W!ROL ROC CRIVE HYDRAULIC - FART 8 9051TSON VALVE ACT. APP. J TEST FREQUENCT VtR/vCS CODE VALVE ACT/ Rt=Atts
*eALVE TYPE mRM SAF FAL TYFE C (DIRECTION) NUMBER C0(ED CAT. PAS SIZE TYPE WJMSER CLASS P&lD _ _ - -
SA}}