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| issue date = 12/11/1983
| issue date = 12/11/1983
| title = Qualification of Purge & Vent Valves at WPPSS-2, Vols 1 & 2
| title = Qualification of Purge & Vent Valves at WPPSS-2, Vols 1 & 2
| author name = ARMSTRONG D, MEYER M, SCOTT M
| author name = Armstrong D, Meyer M, Scott M
| author affiliation = CYGNA ENERGY SERVICES
| author affiliation = CYGNA ENERGY SERVICES
| addressee name =  
| addressee name =  
Line 17: Line 17:


=Text=
=Text=
{{#Wiki_filter:REGULA TO 1%&ORNATION DISTRIBUTION
{{#Wiki_filter:REGULA TO   1%&ORNATION DISTRIBUTION       >i       (RIDE)
>i (RIDE)ACCESSION NBR:8312300157 DOC~DATE: 83/12/11 NOTARIZED:
ACCESSION NBR:8312300157         DOC ~ DATE: 83/12/11     NOTARIZED: NO                     DOCKET FACIL'0   397 WPPSS Nuclear     Projects Unit 2E Washington Public           Powe           05000397 AUTH. NAME           'AUTHOR AFFII IATION MEYEREM ~             Cygna Energy Services SCOTTpM,             Cygna Energy Services ARMSTRONGiD,         Cygna Energy Services RECIP ~ NAME         RECIPIENT AFFILIATION
NO DOCKET FACIL'0 397 WPPSS Nuclear Projects Unit 2E Washington Public Powe 05000397 AUTH.NAME'AUTHOR AFFII IATION MEYEREM~Cygna Energy Services SCOTTpM, Cygna Energy Services ARMSTRONGiD, Cygna Energy Services RECIP~NAME RECIPIENT AFFILIATION


==SUBJECT:==
==SUBJECT:==
"Qualification of Purge L Vent Valves at WPPSS<<2E" Vols 1 L 2." DISTRIBUTION CODE: S001S COPIES RECEIVED:LTR IC ENCL g~SIZE:(~g2 g~g TITLE: Licensing Submittal:
  "Qualification of     Purge   L Vent Valves at WPPSS<<2E" Vols 1 L 2."
PSAR/FSAR Amdts L Related Correspondence
DISTRIBUTION CODE: S001S TITLE: Licensing COPIES RECEIVED:LTR IC ENCL Submittal: PSAR/FSAR Amdts L Related g~ SIZE:(~g2 Correspondence g~g L ePVle gEPg                                                                        'OTES:
'OTES: L ePVle gEPg RECIPIENT ID CODE/NAME NRR/DL/ADL NRR LB2 LA COPIES RECIPIENT LTTR ENCL ID CODE/NAME 1 0 NRR LB2 BC 1 0 AULUCKER, 01 COPIES LTTR ENCL 1 0 1 1'NTERNAL:
RECIPIENT          COPIES            RECIPIENT             COPIES ID CODE/NAME         LTTR ENCL        ID CODE/NAME        LTTR ENCL NRR/DL/ADL               1      0    NRR LB2 BC              1     0 NRR LB2 LA              1     0     AULUCKER,       01       1 ELD/HDS2                1           IE FILE                  1 1'NTERNAL:
ELD/HDS2 IE/DEPER/EPB 36 IE/DEQA/QAB 2$NRR/DE/CEB ii NRR/DE/EQB 13 NRR/DE/MEB 18 NRR/DE/SAB 24 NRR/DHFS/HFEB40 NRR/DHFS/PSRB NRR/DS I/AEB 26 NRR/DS I/CPB 10 NRR/DSI/I CSB 16 NRR/DSI/PSB 19 NRR/DSI/RSB 2K RGN5 EXTERNAL: ACRS 41 DMB/DSS (AMDTS)LPDR 03 NSIC 05 1 3 1 1 2 1 1 1 1 1 1'1 1 3 IE FILE IE/DEPER/IRB 35 NRR/DE/AEAB NRR/DE/EHEB NRR/DE/GB 28 NRR/DE/MTEB 17 NRR/DE/SGEB 25 NRR/DHFS/LQB 32 NRR/DL/SSPB NRR/DS I/ASB NRR/DSI/CSB 09 NRR/DS I/METB 12 N/RAB 22 REG F IL 04/MIB BNL(AMDTS ONLY)FEMA-REP DIV 39 NRC PDR 02 NTIS 1 1 1 1 2 1'1 1 1 1 1 1 1 1 1 1 1 i-]a 0 1 c 0 TOTAL NUMBER OF COPIES REQUIRED: LTTR 53 ENCL 46 4t,>t%5 I>>II il li II l I VOLUME I-ATTACHMENT A'1 QJALIFICATION OF PURGE AND VENT VALVES PREPARED FOR: WASHINGTON PUBLIC POWER SUPPLY SYSTEM WNP-2 SITE VALVE SIZES: 24" AND 30" VALVE MANUFACTURER:
IE/DEPER/EPB 36         3            IE/DEPER/IRB 35          1 IE/DEQA/QAB 2$                       NRR/DE/AEAB NRR/DE/CEB NRR/DE/EQB ii 13 1
BIF A UNIT OF GENERAL SIGNAL OPERATOR MANUFACTURER:
1 2
MILLER AIR PRODUCTS REPORT DATE: DECEMBER 11, 1983 PREPARED BY: ilon Meyer and Mark Scott REVIEWED BY: Dennis Armstron APPROVED BY: 3.E.Rhoads 8+f+300157 00gg7 PDP@DOCK 050 PDR A VOLUME I TABLE OF CONTENTS~Pa e l.Introduction 2.Synopsis 3.Functional Description and Application 4.Limiting Condition for Operation 5.Response to NRC Concerns (Summary)5.1 Installation Information
NRR/DE/EHEB NRR/DE/GB        28 1
1 2
NRR/DE/MEB      18      1            NRR/DE/MTEB      17      1 NRR/DE/SAB      24      1            NRR/DE/SGEB      25 NRR/DHFS/HFEB40          1            NRR/DHFS/LQB     32       1 NRR/DHFS/PSRB            1            NRR/DL/SSPB               1 NRR/DS I/AEB 26          1          NRR/DS I/ASB             1 NRR/DS  I/CPB 10        1            NRR/DSI/CSB 09           1      i-NRR/DSI/I CSB 16        '1            NRR/DS I/METB 12         1    ]a NRR/DSI/PSB      19      1            N         /RAB 22         1    0 NRR/DSI/RSB      2K                  REG F IL       04       1    1          c RGN5                    3                      /MIB           1    0 EXTERNAL: ACRS              41                  BNL(AMDTS ONLY)
DMB/DSS (AMDTS)                      FEMA-REP DIV 39           1 LPDR            03                  NRC PDR         02       1 NSIC            05                  NTIS                     1 TOTAL NUMBER OF COPIES       REQUIRED: LTTR     53   ENCL     46


===5.2 Dynamic===
4 t,>
Torques for Worse Case Geometry 5.3 Valve Pressure Ratings 5.4 Discussion of LOCA Curves 6.Discussion of Operability 7.Summary of Structural Analysis 8.Summary of Flow Calculations 9.Qualification Summary 10.References VOLUME II Additional Attachments Attachment 8-Draft Copy of WNP-2, SER, Outstanding Issue No.26 Attachment C-Limiting Condition for Operation (LCO)Attachment D-WPPSS Letter to NRC Attachment E-Supplemental Calculations Including Final As-Built Review VOLUME III Attachment F-Structural Analysis of 30" Valves QID 361104 VOLUME IV Attachment G-Structural Analysis of 24" Valves QID 361106 VOLUME V Attachment H-In-Situ Test Results Attachment I-WPPSS Flow Calculations 21 21 28 28 29 TABLE OF CONTENTS (Contd.)Attachment J-Vendor (BIF)Flow Test and Results l)Torque Load Tests For Straight Pipe 2)Torque Load Tests With Connected Elbow Attachment K-Field Modifications, PED h Startup Work Requests Attachment L-Drawings l)2)3)4)5)6)Debris Screen Photograph Flow Diagram M543 Piping Isometrics Valve Drawings Operator Drawings Valve Data Sheets
5 t%
I        il
                    >> II li  II l I


QJAI IFICATION OF PURGE AND VENT VALVES AT WNP-2 1.0 Introduction The Nuclear Regulatory Commission is concerned about operability of the WNP-2 purge and vent valves when subjected to a postulated LOCA in combination with seismic plus hydrodynamic conditions.
                                                    '1 VOLUME  I  ATTACHMENT A QJALIFICATION OF PURGE AND VENT VALVES PREPARED FOR:
Specifically, their concern is the ability of these valves to close in the time re-quired to prevent discharge of radioactive gases to the outside environ-ment.The valves identified as the containment isolation valves in the purge and vent system are as follows: Valve Number Valve Size (in)Use Location 2.0 CSP-V-1 CSP-V-2 CSP-V-3 CSP-V-4 CEP-V-1A CEP-V-2A CEP-V-3A CEP-V-4A~Sno sis 30 30 24 24 30 30 24 24 Supply Supply Supply Supply Exhaust Exhaust Exhaust Exhaust Outside Containment Outside Containment Outside Containment Outside Containment Outside Containment Outside Containment Outside Containment Outside Containment
WASHINGTON PUBLIC POWER SUPPLY SYSTEM WNP-2 SITE VALVE SIZES:  24"  AND 30" VALVE MANUFACTURER:    BIF A UNIT OF GENERAL SIGNAL OPERATOR MANUFACTURER:    MILLER AIR PRODUCTS REPORT DATE:    DECEMBER  11, 1983 PREPARED BY:
ilon  Meyer and Mark  Scott REVIEWED BY:
Dennis Armstron APPROVED BY:
3.E. Rhoads 8+f+300157 050 00gg7 PDP @DOCK        PDR A


==3.0 Qualification==
TABLE OF CONTENTS
of WNP-2 purge and vent valves for a postulated LOCA condition superimposed with a seismic/hydrodynamic event is exhibited by analysis utilizing dynamic flow calculations, detailed structural integrity studies, dynamic flow tests and investigation of actual on site configurations.
                                                                          ~Pa  e VOLUME  I
Operability was addressed by in-situ testing (equivalent static load)of the operator, dynamic flow testing of a similar valve (12")and subsequent calculations to account for dynamic air/steam flow conditions.
: l. Introduction
Final As-built qualification has been demonstrated on the WNP-2 purge and vent valves by the use of appropriate dynamic torque coefficients for associated installation configurations coupled with a restricted valve opening angle to 70 degress.Functional Descri tion and A lication The containment purge and vent valves are butterfly valves manufactured by BIF, a unit of General Signal Corporation and are identified as model numbers A-206765 (24")and model number A-206763 (30").Both sizes use Miller Air Products air cylinder operators (air to open and spring to close in the fail-safe mode).
: 2. Synopsis
CSP-V-l CSP-V-2 are 30" butterfly valves which are normally closed, and are open only for drywell purge, and drywell inerting.During drywell purge air is supplied by the reactor building ventilation system through these valves into containment.
: 3. Functional Description and Application
During drywell inerting, nitrogen from the containment inerting system is introduced to the drywell through these valves.Valves fail closed on loss of air or power and close on F,A,Z signal regardless of operating switch position.Figure l provides a schematic flow diagram for all eight valves.Also, Attachment L Sec-tion 3 provides Flow Diagram M543 with the valve locations identified.
: 4. Limiting Condition for Operation
CEP-V-lA CEP-V-2A are 30" butterfly valves which are normally closed, and are operated only for drywell purge and drywell inerting.During drywell purge or inerting operations, the exhaust gas exits containment through these valves and is routed to either the elevated exhaust stack or to the Standby Gas Treatment System.Used in conjunction with CSP-V-l and CSP-V-2 these valves fail closed on loss of air or power and close on F,A,Z signal regardless of operating position.CSP-V-3 CSP-V-4 are 24" butterfly valves which are normally closed, and are opened only for wetwell purge, or wetwell inerting.During wetwell purge, air is supplied by the reactor ventilation system through these valves to the wetwell volume.During wetwell inerting, nitrogen from the containment inerting system is introduced through these valves.Valves used in conjunction with CEP-V-3A and CEP-V-4A fail closed on loss of air or power and close on F,A,Z signal regardless of the operating switch position.CEP-V-3A CEP-V-4A are 24" butterfly valves which are normally closed, and are opened only for wetwell purge and wetwell inerting.During wet-well purge or inerting operations, the exhaust gas exits containment through these valves and is routed to either the elevated exhaust stack or to the Standby Gas Treatment System.Used in conjunction with CSP-V-3 and CSP-V-4, these valves fail closed on loss of air or power and close on F,A,Z signal regardless of the operating position.The purge system is desicped to purge either the drywell or the wetwell.Only one entrance and one exhaust line will be open at any given time.
: 5. Response  to NRC Concerns  (Summary) 5.1 Installation Information 5.2 Dynamic Torques for Worse Case Geometry 5.3 Valve Pressure Ratings 5.4 Discussion of LOCA Curves
I SCHEMATIC FLOW DIAGRAM FOR PURGE AND VELDT VALVES fO cKVAYs'p~RAN t CCi%<5M%ho AO CONTAINMENT VESSEL cKP-Q I g CGP-V ZA 30'e(w-LS cap-v-zs 2,'<PASs@tlat!5 h<R+a~~~u~i l.A<ict ttt3 DRYWELL FRO&Ctd~a~csp-v-z cd v.l ALL~KG..QP CA~Ver<~0 csP v.~Act VACUA~asL.YAC~ZS LlE.F e m-aP l4 CQ&(@KB PIGUQE 1 g L/~ERAL'I V COMTPIMN"=MT ISOLN30N'0": I.CEP-V-IA 2.CEP-Y-2A.3.GSF'-V-I'I.C.'P-V-Z----I.UP~II I REF.Dh/&2/O.EOb7~o 7 Flow"for CSP Valves due to LOCA , 70 OP F.'ESTRIC ION Flow for CEP Valves due to LOCA Normal Flow for both CEP and CSP Valves., FIGURE 2
: 6. Discussion of Operability                                        21
: 7. Summary  of Structural Analysis                                  21
: 8. Summary  of  Flow Calculations                                  28
: 9. Qualification    Summary                                          28
: 10. References                                                        29 VOLUME  II  Additional Attachments Attachment 8    Draft Copy    of WNP-2, SER, Outstanding Issue No. 26 Attachment  C  Limiting Condition for Operation    (LCO)
Attachment  D - WPPSS  Letter to NRC Attachment  E  Supplemental    Calculations Including Final As-Built Review VOLUME  III Attachment  F Structural    Analysis of 30" Valves  QID 361104 VOLUME  IV Attachment  G  Structural    Analysis of 24" Valves  QID 361106 VOLUME V Attachment  H  In-Situ Test Results Attachment  I-   WPPSS  Flow Calculations


===4.0 Limitin===
TABLE OF CONTENTS  (Contd.)
Condition for 0 eration The Purge and Vent System at WNP-2 for normal operation, is controlled with 2" bypass lines (two pairs)for inerting, de-inerting and pressure control.The large 24" and 30" purge and vent valves will be used only during off-power operation in accordance with the limiting conditions for operation (LCO)as shown below.Each 24" and 30" purge and exhaust isolation valve shall be normally closed during the time period: 1.Within 24 hours after Thermal Power is greater than 15%of Rated Thermal Power, following start-up to within 24 hours prior to reducing Thermal Power to less than 15K of Rated Thermal Power, preliminary to a scheduled reactor shutdown.2.The valve opening angle will be limited to 70 degrees and will be implemented prior to 5X Rated Thermal Power.Each 2" purge valve may be open for purge system operation for in-erting, de-inerting and pressure control.A complete copy of this LCO is provided in Attachment C.I r'g 5.0 Res onse to NRC Concerns (Summar)5.1 NRC Concern No.1-Valve Installations Detailed valve installation information was not provided for each valve such as: Item 1.Item 2.Item 3.Item 4.Item 5.Item 6.Direction of flow.Disc closure direction.
Attachment J  Vendor  (BIF) Flow Test and Results l)   Torque Load Tests For Straight Pipe
Curved side of disc, upstream or downstream (asymmetric discs).Orientation and distance of elbows, tees, bends, etc.within 20 pipe diameters of valve.Shaft orientation.
: 2)    Torque Load Tests With Connected Elbow Attachment K  Field  Modifications, PED h Startup Work Requests Attachment L  Drawings l)   Debris Screen Photograph
Distance between valves.Su 1 S stem Res onse-Valve Installations Complete details of the valve installations are provided.Figure 3 Figure 4 Figure 5 Figure 6 CEP-V-1A and CEP-V-2A CEP-V-3A and CEP-V-4A CSP-V-1 and CSP-V-2 CSP-V-3 and CSP-V-4 Item 1-Direction of Flow For normal flow considerations at WNP-2, the valves are installed in the manufacturer's preferred orientation.
: 2)    Flow Diagram M543
Therefore, the exhaust valves (CEP)are installed in the preferred direction of flow for both venting containment and flow which is a result of LOCA.However, the supply valves (CSP)are installed for preferred flow toward containment and will be subjected to non-preferred flow direction during postulated LOCA condition (see figure 2).These CSP valves are potentially subject to reversed torque due to flow out of containment.
: 3)   Piping Isometrics
To assure that only positive closure torque occurs, all valve openings will be limited to 70'nd therefore precluding the negative flow induced torque.Item 2-Disc Closure Direction Disc closure directions are provided in Figures 1 through 4.For installations downstream from an elbow, LOCA induced flow tends to help close the valve.Item 3-Curved Side of Disc Installation The BIF valves used at WNP-2 do not have a curved side and the air foil lifting characteristics associated with this type of configura-tion will not exist on WNP-2 valves.The location of the seal ring is shown in figures 3 thru 6.
: 4)   Valve Drawings
Item 4-Orientation and Distance of Elbows Tees Bends Etc.Detailed valve installation information for piping configuration is provided in Figures 3 through 6.Item 5-Shaft Orientation Detailed valve installation information for shaft orientations is provided in Figures 3 through 6.Item 6-Distance Between Valves 5.2 Detailed valve installation information for the distance between valves is provided in Figures 3 through 6.NRC Concern No.2-Flow Torque vs Seating Torque The worst case geometry at large angles of valve openings can pro-duce very high torques that would be considerably larger than seat-ing torque.These dynamic torques should be used in the structural analysis instead of seating torques.Su 1 S stem Res onse No.2 5.3 The qualification analysis used the larger of either seating torque or flow induced dynamic torques.NRC Concern No.3-Valve Pressure Ratings Valve pressure ratings and a static pressure analysis are not ad-dressed in the submittals.
: 5)   Operator Drawings
The applicant is to provide this infor-mation for each of the valves.Su 1 S stem Res onse No.3 5.4 Valve pressure rating of 150 lbs is provided by the Vendor Data Sheets (Attachment L Section 6).Analysis for pressure loading is provided by BIF vendor calculations:
: 6)   Valve Data Sheets
24" Valves-Attachment G, Section 7.0 Sheet B-61 30" Valves-Attachment F, Section 7.4 Sheet 7.4.61 NRC Concern No.4-LOCA Curves Included were plots of flow rate versus time from LOCA initiation for the 24 inch and 30 inch valves maintained in a full open closure from 90'o 0'hich should be deleted.However, the analysis is not affected.Su 1 S stem Res onse No.4 The LOCA curves present have two abscissa labels.Supply System agrees that the valve angle information should be deleted and that the analysis is not affected.
I.CE'P-V-IA Z.CEP-V-2A PIPE OW.30 BIF BU ITER.F LY VALVES v<oV>"~~(p I~8 EEl AIL 1~pit>(~S<>~gptll>>>II iC 0 4 IL~l~l~+T~l)
SUWZt".WlTR I lCTllREK I T o~ul REF: I50 CEP-&R.'5-IO sun CEP-(25-II.Ih t'NSHINGTGN PlELIC PQ'lER SOPPLY SYSTPl 1'lNP-2 RJl@E NG YBlT YIPES o~0 op oo~oo 4-.-.~4 ,'.',J Oyoy@0 60y by PICTLIK i'6, 1 CEP-'~ELEVs VIB(LKGe EAST SHUTS CCW TO OPEN PICTURE NO, 2 LKGs UP SHUT>CCW TO OPEN
~~S~CONTAMMCNT v 0 VALVE 0 6 ll.I I I~~0 1'to.~O, I D~ELQbL AlC tAICr (I V ROC.TbR.CSP-V-I+rcPig f 0 3'-ZPrib'cruz N b.WCK CCPJ Th CIPC 0 0'
~1NSHINGTON RELIC PSIER SUPPLY SYStPI l't."tP-2 PURGE Al'8 VENT VAI VES~((t i l I r II (~~(~<0 ff qG'ad~PICTURE NO, 1 CSEHU.SHUTS CCW TO OPEN PICItjRE I, 2 ESP=VX SHUTS CCH TO OPEN t'tASHINGTON PLSLIC POI'KR SUPPLY SYQPI l'Pi>P-2 PURGE M)VBtT VALVES f.J v O Ij p P J~j/,q 97$PICTtK NO, 5-V-LOOKING UP AT 46 FROM FLOOR PICTURE tN.~~(SP-'!-
COMTAthIME T ISO IRTIOM VALVE5 I.CEP-Y-DA
~j~p y pp)BIF 5LJPEPJ LV VALVES PEPE blA.=Z.LI REF.ISQ*CEP-SZK-l.2 CEP-Co25-3.'I 0 6 LZ 3c<'P (ti C.7-)A (g~)r 4 i<&io lo'l(g)I 0//gL~~<<~Cg>(q CCW 70oPEN SEQ: A-A CAO5''EC1 LKfr.SDUTI4 (TYP)P1 CT UCG.0 Ll~"R~i, i Cy>V) j'SS)1!l'lGToih PUBLIC PEKR SUPPLY SYSTH'l NP-2 PURGE Af'tD VH'IT VALVES 0'I l lI I I PICTURE tm, 1 CEP-V-3A ie 4A
.I rh CONTI N SO TION VALVES I.QP-V-3'~P V-q BIF 1MITERFLV NLVES 3.MP-V-5 II.CSP-V-l LHCUC.V/ILVC VhCuurl GRCAK~IE qO<(C REF.150lSP-807-5.7 C5P-80"I-S.IO Pl TO PICru C VIE Qy'/a ,I'r T r r rh 0 PICT C~L p I I~~r5 (II~~0 COMTAINMEAfr
~N~'90'.R.ELL PCOu 6UaIM6.~p"I: r//CS.an.S CSp-V-5~lhhl"h A FLOhl)I JPI BREAICEIK C~TODPEN SECT'A-A P gJ h-18 h h'h


WASHINGTON PUBLIC PNKR SUPPLY SYSTEN lNP-2 PURGE NS VBlT VALVES F PICTURE m, 1 cN To.opw PICTURE NO.3 C5LYM HASHIf'JGTON PUBLIC POi'KR SUPPLY SYSTPI MlP-2 PURGE AfS VBH VALYES A j o PICll!8E~6, 5-20
QJAI IFICATION  OF PURGE AND VENT VALVES AT WNP-2 1.0 Introduction The Nuclear Regulatory Commission is concerned about operability of    the WNP-2 purge and vent valves when subjected to a postulated LOCA in combination with seismic plus hydrodynamic conditions. Specifically, their concern is the ability of these valves to close in the time re-quired to prevent discharge of radioactive gases to the outside environ-ment. The valves identified as the containment isolation valves in the purge and vent system are as follows:
Valve Number    Valve Size  (in)        Use        Location CSP-V-1             30              Supply        Outside Containment CSP-V-2              30              Supply      Outside Containment CSP-V-3              24              Supply        Outside Containment CSP-V-4              24              Supply      Outside Containment CEP-V-1A            30              Exhaust      Outside Containment CEP-V-2A            30              Exhaust      Outside Containment CEP-V-3A            24              Exhaust      Outside Containment CEP-V-4A            24              Exhaust      Outside Containment 2.0 ~Sno sis Qualification of  WNP-2 purge and vent valves for a postulated LOCA condition superimposed with a seismic/hydrodynamic event is exhibited by analysis utilizing dynamic flow calculations, detailed structural integrity studies, dynamic flow tests and investigation of actual on site configurations.
Operability was addressed by in-situ testing (equivalent static load) of the operator, dynamic flow testing of a similar valve (12") and subsequent calculations to account for dynamic air/steam flow conditions.
Final As-built qualification has been demonstrated on the WNP-2 purge and vent valves by the use of appropriate dynamic torque coefficients for associated installation configurations coupled with a restricted valve opening angle to 70 degress.
3.0 Functional Descri tion and    A   lication The containment purge and vent valves are butterfly valves manufactured by BIF, a unit of General Signal Corporation and are identified as model numbers A-206765 (24") and model number A-206763 (30"). Both sizes use Miller Air Products air cylinder operators (air to open and spring to close in the fail-safe mode).


==6.0 Discussion==
CSP-V-l CSP-V-2 are 30" butterfly valves which are normally closed, and are open only for drywell purge, and drywell inerting. During drywell purge air is supplied by the reactor building ventilation system through these valves into containment. During drywell inerting, nitrogen from the containment inerting system is introduced to the drywell through these valves. Valves fail closed on loss of air or power and close on F,A,Z signal regardless of operating switch position. Figure    l provides a schematic flow diagram for all eight valves. Also, Attachment L Sec-tion 3 provides Flow Diagram M543 with the valve locations identified.
of 0 erabilit Operator operability was demonstrated by a stress integrity calculation and a static deflection test.The static deflection test consisted of applying a load at the outboard end of the air/spring cylinder equivalent to the SRSS actuator assembly CG acceleration loads.Determined from the piping analysis, in the two axes of the cylinder this load would cause the most adverse operability effect.This acceleration level times the cylinder weight, acting at the cylinder CG, was equated by an equal mo-ments approach to an equivalent force acting at the outboard end of the cylinder assembly.Flith the load applied, the air supply was removed and the spring loaded cylinder was allowed to move to its fail-safe (de-ener-gized)position.Acceptable operation of the air cylinder was its abil-ity to move from its energized position to the fail-safe position with the load applied at the outboard end.This static load method of demonstrating operability is deemed very conservative because of the following reasons: 1)Time duration of a peak seismic/hydrodynamic acceleration is very small compared to a steady (static)load.2)Static friction is greater than dynamic friction.3)Square root sum of squares of two orthogonal directional accelera-tions is conservatively applied to the worst case direction.
CEP-V-lA CEP-V-2A are 30"   butterfly valves which are normally closed, and are operated  only for drywell purge and drywell inerting. During drywell purge or inerting operations, the exhaust gas exits containment through these valves and is routed to either the elevated exhaust stack or to the Standby Gas Treatment System. Used in conjunction with CSP-V-l and CSP-V-2 these valves fail closed on loss of air or power and close on F,A,Z signal regardless of operating position.
Conditions and results for the valve stroke tests with and without statically applied loads is provided in Attachment 3.An enveloping test was successfully performed on both the 10" bore cylinder (part of the 30" butterfly valve assembly)and the 8" bore cylinder (part of the 24" butterfly valve assembly).
CSP-V-3 CSP-V-4 are 24" butterfly valves which are normally closed, and are opened only for wetwell purge, or wetwell inerting. During wetwell purge, air is supplied by the reactor ventilation system through these valves to the wetwell volume. During wetwell inerting, nitrogen from the containment inerting system is introduced through these valves. Valves used in conjunction with CEP-V-3A and CEP-V-4A fail closed on loss of air or power and close on F,A,Z signal regardless of the operating switch position.
Summar of Structural Anal sis Detailed structural analysis was performed on the valve and air/spring actuator.The following is a summary of the analysis performed.
CEP-V-3A CEP-V-4A are 24" butterfly valves which are normally closed, and are opened only for wetwell purge and wetwell inerting. During wet-well purge or inerting operations, the exhaust gas exits containment through these valves and is routed to either the elevated exhaust stack or to the Standby Gas Treatment System. Used in conjunction with CSP-V-3 and CSP-V-4, these valves  fail closed on loss of air or power and close on F,A,Z signal regardless of the operating position.
Com anent Descri tion QID No.Attachment NPPSS Supplemental Calculations (Review of As-built conditions) 30" BIF Butterfly Valves 24" BIF Butterfly Valves 361104 361106 30" Valve Vendor (BIF)Calcuations 361104 24" Valve Vendor (BIF)Calcuations 361106 F Section 7.4 G Section 7.0 ll 0 A summary of critical valve components is provided in Table ZIfor 24" size and Table I for 30" size.To assure a very high confidence level, normal condition allowables (including 0.4 Sy for shear)were used as criterion for the combined postulated LOCA and seismic/hydrodynamic conditions.
The purge system  is desicped to  purge either the drywell or the wetwell.
Since the valve opening angle will be limited, the operational torques (LOCA)were used in-lue-of the design seating torques, thereby, providing a higher margin of safety on loading deemed less predictable while still maintaining standard margins of safety on design seating loads.
Only one entrance and one exhaust line will be open at any given time.
5 0 SIF Zk JiTFRFLY Co}JWI dWgW I~JUNC.f'CR~
Vf-Lgt~VALVE BEATIFIC TOg.auS+JOVE LOCK FiowVoazuE
+~~6'ALC'D STRESS hlOKhh ALl=AVE:TED cALc'10 STR.E~S GTPESS Au OvVP.GLE'FAOLT ED Vp Lvh/Dm~zm Carne-oI-I~~
7 i TEhlSIQ S~sHE'AF B=QEPgl}lq
, C Fr.%Fv MlC6 1d oF SAF.SF'&Pi'4eciu or T''TEhlS I 5 iSAEAR.+i gg~llJ(oF'AFE~,CR.4'RUhldiOQ MIHS g I95 IZ>OO g,g (GOOO g.Z, 2 i/5 I 7dOQ 5.4 I 8 ooo 8.Z~A~REW'Rgs I 8'OO I.I (bgGd I.7 7O3'9 93'OO I.S IgggO Z.o~IY~L~p.~I I O9Z z.Z g@OCg Zgdoo ZC U>O~MAIQ SHP,PT 2o527/4z@7/9000/.5 2 OOOO DR.IVG Ra+EAM BOLTS e'er-e(S)e vs4 (v)gC OOO I,,"(p~eas 4)WOOL I.C e oog (s c}g}8 (T)'g&ocQ I,I<OS~g, t l.7 LRVEW M~AY/4 OoQ>lobe z.e 79ZQ (S OOO+,O ZQOOD 3,0 I 25'67 I BOOC)I.4.I Z.~7 I800d l.4 VALm E~MEO0 I 5 277 y 9oaQ I,-'4.iz~%7 I8ooo I.4 VALVE%AVIAN t a~auC+DUE LOCA-FLom Tor AVE<-WUK CALC'D STRESS QLOv4 A>LE'PAVL-'TKW CAI C'S~ms STF-'E5S Al GOWAGLE FAVL.VEP VAt vh/c7m~~or
+~&#x17d;COMP Dhl~, CrFc..'9''Fc'hhhCAid 6&#xc3;Sm ,.9%v , fnF~~g.col~vert T~7LhtSI g c5$CA%~5GHZlij oF 54$UY~scag~fY T'RUDRA>0~)
Piels g/04/2000.2;g./OOOO 4/o4/ZOOO g,9./8000~A~ezo T(WS DOQ4~IYK Lp'i/BQ~ooo/5 9+0!!~gazoo r./,7 99OO/,7/395O 2+OO)8 5t-oooQ 2.5 g.7 bhAla St<P,~/7O44 DwlvG Rcpt&9'~!3(oObO I j Wgooo/ZSZZ l Bz9oV/coco/g ZvQoo Q~o&o//+good zg EAw BoLTS tS rrr>(<)/v-4(v)Z.78')r=I 5552/C 74-3 Z'7370 T'Y I t5&Z GHaww&wax S r//nodo z4ooo Z, I'78 l4 9&57 5/k om z.o z4oOO/gonzo Vms E~W~i~/0+&9/Boy%/.7/o589 (8 os 0
Summar of D namic Tor ues and Available S rin Closure Tor ues The purge system valves (CSP-V-1 thru CSP-V-4)are installed with the flat side of the disc upstream.When these valves are in the full open position (90 degrees), the dynamic torque coefficient becomes negative (tends to open the valve).Based on the test results provided in the BIF report (Attachment J Report No.2)the worst case negative torque coefficient (CT=-.34)is less than the bounding torque coefficient (Cy=+.56)used in the BIF calculations.
For comparison purposes both the full open valve dynamic torques and the 70'pen dynamic torques are compared to the available air operator spring closure torque.Butterf1 Valve with Disc U stream Flow at 1 sec.and disc angle 90'Full Open Valve Size 24" 30 II Dynamic (1)Tor ue (0 enin)6,830 In.Lb.13,640 In.Lb.Actuator Spring Tor ue Available (Closure)11,900 In.Lb.23,470 In.Lb.Margin of Safet 1.7 1.7 Flow at 1 sec.and disc angle 70'pen Valve Size Dynamic Tor ue (Closure)Actuator Spring I Margin of Tor ue Available (Closure)I Safet 24" 30 ll 1,200 In.Lb.2,400 In.Lb.18,600 In.Lb.33,700 In.Lb.Not 1 Applicable IBoth Loads IProvide I Closure I Figures 7 and-8 show torques for both valve sizes at all angular positions.
(1)Torques conservatively include 1.3 factor for an elbow located directly upstream.
FIGURE//7 3~~: j6Pg=FS>-QNfii=.LBTilR-gw=:Z.mt~~4~>t tCEP2J,O.RQ,.I I.D&~owA~aFPM3 1~t~~--~'Ri'CD~B1+KPT=N(g2,'.-S-, g~t.=OF%.raew.0 EAU'-~0'5~=)EA'LV.E 0-26-j I~~!!!Ii Ii)j 5'.)Ol/i xt'I@I a!I~>>)I i~It I!,1 I!)I(gt'f j if" 11 I:(ii 1~qt(I.'jj',: 1 I (I~1 I ct)I~!i~ii el zl oj;I II z<'!X!1 ul,t oii))-~tll gl!(i.'i':: lq:!ji~1:~I);fiji~~itj ijl.: (lf~il.i~~il s ll I::ji It}I!~I!1 ('I 1 I'I I!if!I I'~ili!IIII':3 ti!I:t(i f(i(i!1 I!i jfi I 1 j Ili I!I)I~II I~:I~~!!>>" fi ,1 Ij~jim!i'lit s~i!::I!'i'I~Il flij iii::II'!I'tis lit~i)ittj tfi~!!lf ,ii!!111!j!I ji):: Q>>I jiff~(!I ti)'el)sit)!':i I I I, I~~~a!!j~~I!!I!!" ij!1:lil!g9 set tjji'.i!l ljif si f~I I jij!!ij'l!I i)"l i++)!L..I>>ilj(if!i ll!!I;~,~~I IL)1 I~tisi i~I ('>>tf:.is i!ii':I!iii fels>>~j Iiii:.!.g2'44 i/0 I!j;j!'I it)li'I!,':iii i!I!!i'!I!i''.
!'I'~tf I!I:)j,i"" i(j't~~~~II~I!(i Ljl(t)t: j'@@e~I i~il s sI s I>>'It s}if lI!!i.lii It'(jsett!!II fiji i!1)sit I!!I~~I s,)it;1>>(I js!1)1.I lii.l 3 I I!l I EEI'!I I"li Iji tf'I II iifi jj I:!i~aa~tt.!ll Ljlt (Its~I,'~~I!I Il I(tl LLti e!1 ijj (Iit it a;si 1!'A lilt fljl I!.i II Uf It(I;j!(f set I~tete>>>>1~I)II SS VV~ii: I t I~It i.~I t~I li)J}ltl1>>'t I~!ljj~1~(I I~(te+jil)I I)I 5 il!iii!T&W(It!i I I itt i'I!i i tie~'V.I~~i!I">>'II~!I!I~II I~i~if j'iij i!4I iii!I Il!I Ts~s ii tii: et'ttt Ij}}}:,'jH s~at}!I!i I~It!I I li I Iff ttj(I iE!i!lt'I I (I t iD Liii I>>!)at!,E'.), lii!'i Qii'ILt iifi lj!(jj!,!If I:II I, I, jji;:!.0 I>>Sj f~f jjii 0.il II It ii!i iii!III)It)I iet>>ii I)ft (11()tee f447.1!I!fi,!,'i:~:!!I 1'I~I~~I!Il I~!I!i!g)ill~)I I!I iii I,'I ti~Ie I I tt'j I((if(1}TI}ll.j tts~lil!',1st P.~!I I'~~'fi I~I jli~1st~'1 Ii~~!I (eft I~jil iti II~1!A i:;i if~!i it i)~I.I I Is j!ij jtij jit;!!!I Irl i!i.I~}It~IIIll!ll 1!!~jjjj I D:U.}~te~~I!a~It 1, K~I ii!I I iii sl~ii t~I I I,~I ji!"!~I II lilt j('t!jj li tl ji 4'li: lll!i!I!it,i I)11 I!11 I)t I)PISC%~K~~~(ttlematam) lj jj yi]jij j!I'I I!IIII I I il P(SC I i Ul sTlccw iii'l'!I!!!!!l(j l ijil j!',gf'it I~\t II~II I


===8.0 Summar===
I SCHEMATIC FLOW DIAGRAM FOR PURGE AND VELDT VALVES fO cKVAYs'p
of Flow Calculations The shortest purge line with the lowest flow resistance was analyzed to determine the Mach number of the fluid flowing through the butterfly iso-lation valve as a function of valve opening angle.Based on this analy-sis, it was determined that valve angle positions of 70'r less will assure that the Mach number through both the inner and outer isolation valve remains below Mach number 0.3 following a postulated LOCA.The containment pressure and temperature used as a forcing function for this analysis were obtained from the WNP-2 FSAR (figures 6.2.2 and 6.2.3)for a postulated DBA.Containment pressure obtained from these figures was based on the assumption that there was no fluid leaving containment.
  ~RAN    t CCi
If the purge valves were open the containment pressure would be slightly less than that used in this analysis.Flow calculations are provided in Attachment K.9.0 Qualification Summar 9.1 The 30" and 24" diameter purge and supply valves are closed for normal plant operation since the small 2" lines will be used for inerting, de-inerting and pressure make-up.9.2 NRC has recommended the disc opening be limited.Prior to 5X power, WNP-2 will install a mechanical device which limits the opening to 70 degrees.This restriction on valve opening coupled with appropriate dynamic torque coefficients resolves safety and qualification concerns for LOCA conditions.
          %<5M%
9.3 Due to the pipe length and associated line loss coefficients; the maximum flow velocity for full open valves was calculated to be 0.33 Mach number, thereby assuring that correlation methods used with compressible fluid calculations as previously presented is valid.With a restriction on valve opening, the Mach number will be less than 0.3 for all conditions.
ho      AO                                          CONTAINMENT VESSEL cKP-Q I g    CGP-V ZA 30'e(w-LS cap-v-zs 2,'<PASs
Additional conservation is introduced because the LOCA pressure and temperature curves did not take credit for flow through these valves during closure time.Also, the pressure excursion assumes a very conservative double ended pipe break.9.4 As-built configuration of the valves (especially with the 70 degree angle restriction) precludes the possibility of flow induced opening torque.Therefore, the air operator spring and flow will combine to assure valve closure in less than the required 5.0 seconds.9.5 Structural integrity of these purge and vent valves has been at-tained by combining two faulted conditions (SSE/Hydrodynamic plus LOCA)using normal allowables.
              @tlat!5 h<R
This includes shear allowables of 0.6 Sm for pressure boundary ASME components and 0.4 Sy for AISC components.
                                                                                      +a~
A table which summarizes the calculated stresses and allowables is provided in Attachment I.
                                                                                        ~~u~i l. A<ictttt3 FRO& Ctd DRYWELL
NOTE Field modifications to strengthen the support brackets and replacement of bolts have been performed.
                                                                                                    ~a~
Documentation is provided in Attachment K.9.6 Since the valves are normally closed, there is a low probability that LOCA conditions will occur with the valves open.Furthermore, a very low probability of all three conditions (valves open, LOCA and seismic/hydrodynamic) will occur simultaneously.
csp-v-z    cd v. l 0
Therefore, this very conservative approach of combining all three unlikely con-ditions and comparing to Normal/Upset condition allowables exhibit large confidence levels.9.7 Operability was demonstrated by analysis and in-situ (static load)testing.9.8 In conclusion the purge and vent valves satisfy all the Equipment Qualification criteria implemented at WNP-2 for'even 90'full open)valves.Limiting the disc angle to 70'rovides additional margin to address the following NRC concerns.Therefore, our WNP-2 design: 1)Assures dynamic torque due LOCA conditions will always be a positive closure torque.2)Assures Mach Number will be less than 0.3, and 3)Limits magnitude of dynamic flow induced torque.10.0 References 10.1 NUREG-0892, WNP-2 SER Outstanding Issue No.26,"Operability of Purge Valves" 10.2 NRC Standard Review Plan 6.2.4,"Containment Isolation System" Containment Systems Branch (CSB)10.3 Branch Technical Position CSB 6-4,"Containment Purging During Normal Plant Operations" Supplement to SRP Section 6.2.4 10.4 Letter, A.Schwencer (hRC)to R.L.Ferguson (SS),"Request for Addi-tional Information", dated September 16, 1982, Docket No.50-39 10.5 WPPSS Letter, February 24, 1983, G.D.Bouchey to A.Schwencer (hRC)with Attachments 10.6 WPPSS Letter, June 22, 1983, G.D.Bouchey to A.Schwencer (hRC)with Attachments VOLE%II 1'PPSS'JALIFICATION OF PURGE ANO YENT VALVES AT lOP-2 ATtAC8'HA'
                                                                    ~KG..QP                      csP v.~
-DRAFT COFY OF lOP-2, SER, OUTSTANDING ISSUE NO.26 ATTACHMENT C-LINITII'6 CONOITIPS FOP, OPERATION (LCO)A1TAHBIT D-, I'FPSS UTIER TO NRC" ATTAQK'6 E-SUPPLEMENTAL CALCULATION INCLUDING FINAL AS-BUILT REVIBt g~HIi";Os
CA ~Ver<~                          Act VACUA~
'NUCLEC.R PROJECT 2 DOCXET NO.50-397 tiOP P,', 0~NSTRATION OF CONTAINMENT PURGE ANO VENT VALVE OPERABILITY/
asL.
ALL YAC~
ZS LlE.F e m-aP l4 CQ  &(@KB PIGUQE 1


==1.0 Requirement==
g L/~ERAL'I V
D~nstratfon of operability of the contafanent purge and vent valves, par-ticularly the ability of these valves to close during a design basis accident, is necessary to assure contairnent isolatfon.
COMTPIMN"=MT ISOLN30N
This d~nstration of operabfl-fty is required by BTP CSB 6-4 and SRP,3.IO for containrant purge and vent yalves~fch are not sealed closed during ooeratfCCWcondftfons I, 2.3, and 2.0 Descrf tion of Purge and Vent Valves The valves fdentfffed as the contafnrent isolation valves in the purge and vent system are, as follms: Yal ve Nunber inches Use Location CSP-VA CSP-Y-2 CSP-Y-3 CSP-Y-4 CEP-Y-IA CEP-Y-2A CEP-Y 3A CEP-Y-4A 30 30 24 24 30 30 24 24 Vent.Vent.Yent.Vent.Vent.Vent Vent Vent.~Supply Supply Supply Supply Exhaust Exhaust Exhaust Exhaust Outside Contafrgqent Outside Contafnrznt Outside Contafrnent Outside Containrent Outside Contafrwent Outs ide Conta f nnant Outside Contairaent Outside Conta'fnrent 1.The conta$rnent purge and vent valves are butterfly valves manufactured by 8IF, a mft of General Signal Corporation and are listed as BIF Model Hurdler A 2M765 (24" valves}and 8IF Hodel Nunber A-206763 (30 valves}.%lier Air Products Corporation Model A-83 cylinders (afr open-spring closed)are used for valve actuation The 24-inch valves use 8" cylinders and the 30'alves use 10'ylinders.
                                                '0": I. CEP-V- IA
p)gal 3.'0 Geaanstratf on of erabil it.3.I Vhshfnqton Pub'lic Pomr Supply System (MPPSS)has provided operability d~nstratfon fnformatfon for the containment purge and vent system isolation valves used at their Mashington Nuclear Prospect 2 (MHP 2)in the following.
: 2. CEP-Y-2A.
sutmf ttal s: Reference A MppSS letter, F'ebruary 24, 1983, G.G.Bouchey to A.Sch~encer (NRC).
: 3. GSF'-V-I
2 FA Reference 8 p>1 jt[t c t'-'ihhC Ee.VPPSS letter, June 22,)983, G.D.Bouchey to A.Schxencer (%C).3,2~termination of dynamic torques durfno valve closure against the bufldup of containment pressure during a LKA is based on dynamic torque coefffcfents CT obtained fry BlF tests performed using different types of disc geometry and disc and shaft orientation xith respect to direction of flow.The test~i~fs mter and no air.testing xas performed.
                                                      'I. C.'P-V-Z ---
One of the test conffgura-included a directly connected short radius elbox upstream to study the qffect of flox non-uniformity on dynamic torque.Several tests xere a so per-t ons inc r 1 fo~fifth the valve shaft vertical and horfzontal, counter clockxise opening and clockxfse opening, xith flatside upstream and flatsfde doxnstream.
I. UP~II I
Frcn these tests, the most severe case xas determined.to be a vertical shaft orfen-tatfon ($.e.perpendicular to the plane of the elbow)with the flatsfde of the disc d~stream and xfth a clockxise rotation of the disc.Thfs orfentatfon results in an approximately 30K increase in maximum dynamic torque coefffcfent over the straight pipe inlet configuration.
REF. Dh/& 2/O. EOb7~o 7 70 OP F.
Torque coefficients used to de-temfne dynanfc loads for V&#xc3;P-2 purge and vent valves are based on this.xorst case configuration.
Flow"for                         'ESTRIC    ION  Flow for CSP Valves                                        CEP Valves due to LOCA ,                                     due to   LOCA Normal Flow for both CEP and CSP Valves FIGURE 2
The dfffereetial pressure 5 p across the valve is calculated fron the data on vol~trf c fl ox rate under LOCA conditions, and using the equat io P)2-PZ2 g 963 Cv xhere g~6as f1ox in$CFH P P)Valve upstrean pressure (psfa)P2 Valve downstream pressure (psfa)6~Specffic gravfty T~Upstream temperature in oRankine)2 C Ye1ve coefficient 29.9 D Y Xv.D Valve Port diameter ()n.)Kz-"Coefficfent of floor go load closure tfme for the valves ranged from)1/2 to 4 seconds based on tests performed at BIF The maximum no load closure tine af 4 seconds fs used for the analysis xith a one second instrumentation tive delay for a total of 5 3'lij li r g":I~-L3 econds frcxn LOCA fnftf ation-to-valve closure..As an addi tional conservatisn, the d~ll pressure and temperature rise during a LOCA is used for a11 vol ves.Dynmfc torques are calculated for both saturated stean and air as the flow~fa.The calculations are summarized and shorn belo~in Tables I, 2, 3, and 4 (Reference 8)for both the 24-inch and 30-inch vaIves and for steam and air fl ec.The peak dynadnfc torqaes during closure and the seating and bearing friction torques at oo are ccapared to the design torques usedD~he~ei~eic analy-sis rcport and indicate posftive margins;SUHHARY OF RESULTS Table 1.30-inch Valve, Airflow, (TNET 2217i in-lb)-1.0 1.5 2.0 2.5 3.0 3,5 4.0 4.5 5.0 Angl e s deg, 90{Full Open)78.75 , 67.50 56.25 45.00 33 75 22.50 11 25 9.0 (Full c1osed)Dynam)c Torque in-lb.II020 2309S X813S 14747 12428 10780 8014 3972 0.0<<Qg JEST<<At full closed position, the dynamic torque is zero and the net torque is due to seating and bearing friction.v~g Note: The design torque used in the seismic analysis report No.Ill-74-B byM~A'~t 1 t 27m in-lb..  
$~SueSRT 0-.RESULTS gable 2.30-Inch Valve, Stean fl~, (TgET 22l74 in-lb}Tithe Angledeg~Dynamic Torque in-lb.E.o 1.5 2.0 2.5 3.0 3 5 4 0 4 5 5.0 90{Full Open)78.75 67.50 56.25 45-00 33.75 22.50 11.25 9.0 (Full closed)11032 23175 18142 14668 l2424~"~"-c g;~i'0580 7809 3867 0'.0+"At full closed position, the dynariic torque is zero and the net torque is due to seating and bearing friction.SUNDRY OF RESULTS Table 3.24-ln'ch Valve, Airflx, (TgET 13808$n-lb)Angle a deg.Dynamic Torque in lb'.0 1.5 2.0 2.5'.0 3.5 4.0 4.5 5.0 90 (Full Open)78;75 67.50 56.25 45 OD 33 75 22.50 11 25 9.0 (Full closed)5525 11692 5430 4043 2020 0 pe At full closed position, the dynamic torque ts zero and the net torque is due to seating and bearing friction.ate: The design torque used in the seismic analysis report No.TR-74-8 by HcPherson-Assoc!atesDo~this valve is}7000 SU~RY OF RESULTS f"ran(f" i.j(/i//Table 4-24-Inch Valve, Steamflo~, (TgET.1380B in-lb)Ti)2)e (s)Angle o dege Dynamic Torque in-lb.l.0 1 5 R.Q Z.5 3.0 3.5 4.0 4.5 5.0 90 (Ful>Open)78.75 6?.50 56.25 45,00 33.75 22.SD Il.25 9.0 (Full closed)5425 11394 p.B92l 6109 5202 3S42'902 0.0++At full c1osed position, the dynamic torque is zero and-the..net torque is due to seating and bearing friction.3.3 D~nstration of actuator torque margin is based on the mini(((~spring force developed which 5s equal to the spring pre-load.24-inch valve 8 c linder)>6,890 fn-lhs (preload)>13,80S'.n-lbs (seating torque).30-fnch Valve 10-inch c finder)32,422 in-1bs (preIoad)>22.174 in-1bs (seating torque)g///.d4 3.4 gppSS provides a structural analysis for the puraewnd vent valves and their operators in Reference B.This consists of ((3)Seismic/Hydrodynamic Requalification Reports for the 30-inch valves, 24-inch valves, and the operators.
The requalification certificates far both the 24 and 30 valves are contingent upon ear bolt modifications and the addition of shear plates.*Acceptance criteria for the structural analysis are taken fro())Section III of the ASHE Boiler and Pressure Vessel Code or the AISC Constructin Hanual, whict)ever
$s applicable.
Load used in the analysis are the valve operating load crab-;ned eth the dynamic loads vhich would result frcm seismic and h+rodyna=ic events as det.eminc=-
by the piping analys',s for the plant.
h
~p Ao SR$S onalysfs ms set uj tn a caepUter prop ea for each valve assembly fn fts specfffc orfenAt'fed@
The SOS fs~en'at the maxfain stress lese)~to sefsirfc, 9-)oadfng.
Qperatfag.
loads de to seatfng torque force and de-d~fight are cceMaed H&the sefsefc stress by absolute sm..Ba~on tte results of the structural analysfs.the valves 41)reefs fac-'t)oaal through f'orth'ears af postulated hydrodyn~c events, ffve operating basf s earthquakesand one safe shuteye.earthcpake.
4.D-Kva1oatfon 4.l The detemfnatfoa of dynaafc torques Kr.MPPSS pe'ge'and vent valves ader I.XA condftfons fs tesed on the testfng by the valve supp)e'er (SIF)of I aodel valve using mter as the test medfum.Tests conducted Hth a short el-dfrectly upstream, valve shatt at%P to the p)aine of the e)bee, and flatsfde of dfsc deestre~fndfcitid i 3'.fncrease fe maxfmw, dyneafc tor-que coefffcfeC for tMs erst case geaaetry.Vsfng data froo Node)tests performed by other valve aanufacturers wftb afr as the test aedfea, tMs erst case geometry prodtmes 0 3'ncrease fn aaxfmm dynarnfc torque coefffrfent The-large'.dffference (3'.}ater versus 300j'.afr)fn aaxfeen dynaefc torque.coefffcfent f s due to the hfgher (above%ch-.3j velocftfes at large angles of openfng%ere the cbmwfc torque coefffcfents peak;Oyaanfc torque coefff-'fests frit Nocfel tests usfng fnc~xmsfhle flufds correlate reasonably cell Hth data free tests usfsg afr f f the vHocftfes are helm a Kacb nveber of 0.3).Ccesfderfng the.ana1ysf's results tabulated fn Table 1 of Reference A, the peak 4ynaafc torq~for the K-fnch valve occurred at?8.75'M was 23,098'fa-)bs.The desfw torque fs 2'7,800 fn-)bs ns noted fn the same table.Qp'lying a 30gf.increase to the 23098 fn-Ebs peak dynesfc torque&feb al reefy has a'3%erst case conffguratfon factor;the peak dynaxfc torque usfag the factor froa afr tests mrks mt to 48,505 fn-lbs, wll@bere the 27,NO fn-lhs des f go torque Aa acceptable approach to the staff fnstead of.the coeservatfm erst case conffguratfoa used Q the lfcensee seal@be the use at'pproprfate
~enfc torque coefffcfeats for each valves fnsta3)atfoa cosffguratfen coupled Qth a restrfctfoa oa valve openfeg Deaf laf valve fnstallatfen fnfoeratfon ms not provfdeci for each valve shah i!$'.Nrectfoa of flm.2.Nsc closure dfrectfon.
3.Curved sfde of 4fsc, upstr'earn or 4oenstrean (asya~etrfc dfscs).4.Orfentatfoo and df stance ot elboee, tees, beefs, etc Hthfe RO pfpe df aNIRters of viil ve.S.Shaft orfentatfon.
6.Nstance bet~val ver.~~I~~~~~~~~~~~-~~~~~~~~~~~~
~E'"..-".'.4.2 As deaestrated
$n 4,1 of this report, the terst case geanetry at lative a~'les of va'l~opes1ags can price wry h0gh torques that~)d be con-sidf rab>y larger than the seating to~..5~se dynamic torques shogld be.used fn.the structvral analysis (Ref'erence 8)insteH K the seat'5ng torques.4.3 Y'alve'presses e rat$rgs ed a static press'-e analysis are'et addressed.$n the suberttta'ls.
--provide this$nfonat$aa for each of the va1ves<<4.4 Reference R fncludus plots of floe rata versus tine fran LX.A initiation for the 24-fnch and 3n-inch valves veintainod fn a full open po'sition.The I-*--abscissa incorrect)y includes vail c1asure f'rm~to Oo, Rich Auld be deleted Hecever, the analysis fs tet affected-5.0 Suwarg Nh trave caarpleted our rerum of the infnmat$ie submttid'ta date, concerning the operabfli of the H-$nch ed 30-inch valves used fa the carrbtiemnt ptn'ge and vent cyst~for Qhshiagtan nuclear PH)act 2'.lk find ttet the informatics'sube)t~
for tha 24-inch and 30-inch valves cHd not deaenstrata that these valves have the ab$7fty to clos4.against the M1dup crf press~<n the eh'erat of a 9BQLXh fron the ful1 apeh position.Paragraphs 4.2, 4.2, and are the bases for these findings.For this reasce, the 24-inch and 30-inch va1ves sold'be sea1ed c$asaf in accordance Htb SRP Sectfce 6.2.4 and-2~TlI 5.f.FMrthe~re, these valves should be verified to be closet at'teist ofhce cvog'da)$+v CONTAINMENT SYSTEMS DRYWELL AND SUPPRESSION CHAMBER PURGE SYSTEM LIMITING CONDITION FOR OPERATION 3.6.1.8 The drywell and suppression chamber 2-inch exhaust isolation valves shall be OPERABLE and: '.Each 24-and 30-inch purge supply and-exhauae-iaaiaaien-vabre-shall be closed during the time period: 1.Within 24 hours after THERMAL POWER is grehter than 15~of RATED THERMAL POWER, following startup, to 2.Within 24 hours prior to r educing THERMAL POWER to less than 15'f RATED THERMAL POWER, preliminary to a scheduled reactor shutdown.b.Each 2-inch purge valve may be open for purge system operation for inerting, deinerting and pressure control.c.Each 24-and 30-inch purge supply and exhaust isolation valve shall be limited to open no more than 70 degrees.APPLICABILITY:
OPERATIONAL CONDITIONS 1, 2, and 3.ACTION: a.With a 24-and/or 30-inch drywell and suppression chamber purge supply and/or exhaust islation valve(s)not closed, close and/or seal the 24-and 30-inch valve(s)or otherwise isolate the pene-.tration within 4 hours or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours except as provided for in 3.6.1.8.a.
b.With a 2-inch drywell and suppression chamber exhaust isolation ralve inoperable or open for other than inerting, deinerting, or pressure control, close the, open 2-inch valve(s)or otherwise isolate the penetration(s) within 4 hours or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours.c'ith a drywell and suppression chamber purge supply and/or exhaust isolation valve(s)with resilient material seals having a measured leakage rate exceeding the limit of Surveillance Requirements 4.5.1.8.2, restore the inoperable valve(s)to OPERABLE status within 24 hours or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours.WASHINGTON NUCLEAR-UNIT 2 3/4 6-11 CONTAINMENT SYSTEMS 4.6.1.8.1 Each 24 and 30-inch drywell and suppresion chamber purge supply, and exhaust isolation valve shall be verified to be closed at least once per 31 days.**4.6.1.8.2 At least once per 92 days each group shown below of drywell and suppression chamber purge supply and exhaust isolation valve with resilient material seals shall be demonstrated OPERABLE by verifying that the measured leakage rate is less than or equal to.05 L when pressurized to P..a a Valve Grou a.CEP-V-1A and 1B CEP-V-2A and 2B Maximum Leaka e Rate.05 L*b.CEP-V-3A and 3B CEP-V-4A and 4B;05 L*a c.CSP-V-1 CSP-V-2..05 L*d.CSP-V-3 CSP-V-4 4.6.1.8.3 Each 24-and 30-inch purge supply and exhaust isolation valve 70 degree open limiting device shall be functionally tested at least once every 18 months.*These valves are tested in parallel with the maximum leakage allowed for a single valve applied to the group.**Valve operation as provided for in 3.6.1.8.a shall be under administrative con rol only.
Internal Distribution T Harrold-982A Martin-927M Powell-956B PK Shen (JMY)-580 SI Stevens-956B WW Waddel-9670 JE Rhoads-9670 Docket Fi1 e-956B kt/file-994E PL2/LB-956B JDM/LB-927M GCS/LB-340 sf (2)WNP-2 Files bcc: WG Conn B&R RO NS Reynolds-D&L Docket No.50-397 Director of Nuclear Reactor Regulation Attention:
Mr.A.Schwencer, Chief Licensing Branch No.2 Division of Licensing U.S.Nuclear Regulatory Commission Washington, D.C.20555 December 8, 1983 G02-83-1129


==Dear Mr.Schwencer:==
4.0 Limitin Condition for    0 eration The Purge and Vent System  at WNP-2 for normal operation, is controlled with 2"  bypass lines (two pairs) for inerting, de-inerting and pressure control. The large 24" and 30" purge and vent valves will be used only during off-power operation in accordance with the limiting conditions for operation (LCO) as shown below.
Each 24" and 30" purge and exhaust    isolation valve shall be normally closed during the time period:
: 1. Within 24 hours after Thermal Power is greater than 15% of Rated Thermal Power, following start-up to within 24 hours prior to reducing Thermal Power to less than 15K of Rated Thermal Power, preliminary to a scheduled reactor shutdown.
: 2. The valve opening angle  will be limited to 70 degrees  and will be implemented prior to 5X Rated Thermal Power.
Each  2" purge valve  may be open for purge system operation for in-erting, de-inerting and pressure control.
A complete copy of this LCO is provided in Attachment C.
I r'g
 
5.0 Res onse  to  NRC  Concerns  (Summar )
5.1  NRC  Concern No. 1  Valve        Installations Detailed valve installation information            was not provided for each valve such as:
Item 1.      Direction of flow.
Item 2.      Disc closure direction.
Item 3.      Curved side    of disc, upstream or downstream (asymmetric discs).
Item 4.      Orientation and distance of elbows, tees, bends, etc.
within 20 pipe diameters of valve.
Item 5.      Shaft orientation.
Item 6.      Distance between valves.
Su  1  S  stem Res onse      - Valve  Installations Complete    details of the valve installations are provided.
Figure  3        CEP-V-1A    and  CEP-V-2A Figure  4        CEP-V-3A    and  CEP-V-4A Figure  5        CSP-V-1    and  CSP-V-2 Figure  6        CSP-V-3    and  CSP-V-4 Item  1  Direction    of  Flow For normal flow considerations          at WNP-2, the valves are installed in the manufacturer's preferred orientation. Therefore, the exhaust valves (CEP) are installed in the preferred direction of flow for both venting containment and flow which is a result of LOCA.
However, the supply valves (CSP) are installed for preferred flow toward containment and        will be  subjected to non-preferred flow direction during postulated        LOCA  condition (see figure 2).
These CSP valves are        potentially subject to reversed torque due to flow out of    containment.      To assure that only positive closure torque occurs,    all  valve    openings will be limited to 70'nd therefore precluding        the  negative flow induced torque.
Item 2    Disc  Closure Direction Disc closure directions are provided in Figures 1 through 4. For installations downstream from an elbow, LOCA induced flow tends to help close the valve.
Item 3  Curved    Side  of Disc Installation The BIF    valves used at      WNP-2 do  not have a curved side and the air foil lifting characteristics        associated with this type of configura-tion will not exist on WNP-2          valves. The location of the seal ring is  shown  in figures    3  thru 6.
 
Item 4    Orientation and  Distance  of Elbows Tees  Bends  Etc.
Detailed valve installation information for piping configuration is provided in Figures 3 through 6.
Item  5  Shaft  Orientation Detailed valve installation information for shaft orientations is provided in Figures 3 through 6.
Item 6    Distance Between  Valves Detailed valve installation information for the distance between valves is provided in Figures 3 through 6.
5.2 NRC  Concern No. 2  - Flow Torque vs Seating Torque The worst case geometry at large angles of valve openings can pro-duce very high torques that would be considerably larger than seat-ing torque. These dynamic torques should be used in the structural analysis instead of seating torques.
Su  1  S stem Res onse No. 2 The  qualification analysis used the larger of either seating torque or flow induced dynamic torques.
5.3 NRC  Concern No. 3  Valve Pressure    Ratings Valve pressure ratings and a static pressure analysis are not ad-dressed in the submittals. The applicant is to provide this infor-mation for each of the valves.
Su  1  S stem Res onse No. 3 Valve pressure rating of 150 lbs is provided by the Vendor Data Sheets (Attachment L Section 6). Analysis for pressure loading        is provided by BIF vendor calculations:
24" Valves  Attachment G,  Section 7.0 Sheet B-61 30" Valves  Attachment F,  Section 7.4 Sheet 7.4.61 5.4 NRC  Concern No. 4  - LOCA  Curves Included were plots of flow rate versus time from LOCA initiation for the 24 inch and 30 inch valves maintained in a full open closure from 90'o 0'hich should be deleted. However, the analysis is not affected.
Su  1  S stem Res onse No. 4 The LOCA curves    present have two abscissa labels. Supply    System agrees  that the valve angle information should be deleted    and that the analysis is not affected.
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6.0 Discussion of 0    erabilit Operator operability was demonstrated by a stress        integrity calculation and a  static deflection test.      The static deflection test consisted of applying a load at the      outboard end of the air/spring cylinder equivalent to the SRSS actuator assembly CG acceleration loads. Determined from the piping analysis, in the two axes of the cylinder this load would cause the most adverse operability effect. This acceleration level times the cylinder weight, acting at the cylinder CG, was equated by an equal mo-ments approach to an equivalent force acting at the outboard end of the cylinder assembly. Flith the load applied, the air supply was removed and the spring loaded cylinder was allowed to move to its fail-safe (de-ener-gized) position. Acceptable operation of the air cylinder was its abil-ity to move from its energized position to the fail-safe position with the load applied at the outboard end.
This  static load    method  of demonstrating operability is    deemed very conservative because of      the following reasons:
: 1)    Time  duration of a peak seismic/hydrodynamic acceleration is very small compared to a steady (static) load.
: 2)    Static friction is greater than      dynamic friction.
: 3)    Square  root sum of squares of two orthogonal directional accelera-tions is conservatively applied to the worst case direction.
Conditions and results for the valve stroke tests with and without statically applied loads is provided in Attachment 3.
An enveloping test was successfully performed on both the 10" bore cylinder (part of the 30" butterfly valve assembly) and the 8" bore cylinder (part of the 24" butterfly valve assembly).
Summar    of Structural Anal sis Detailed structural analysis      was performed on the valve and air/spring actuator. The following is        a summary of the analysis performed.
Com  anent Descri  tion            QID No.        Attachment NPPSS    Supplemental Calculations (Review  of As-built conditions) 30" BIF    Butterfly Valves                361104 24" BIF    Butterfly Valves                361106 30" Valve Vendor (BIF) Calcuations        361104              F Section 7.4 24" Valve Vendor (BIF) Calcuations        361106              G Section 7.0 ll 0
 
A  summary  of critical valve components is provided in Table ZIfor 24" size and  Table I for 30" size.
To  assure a very high confidence level, normal condition allowables (including 0.4  Sy for shear) were used as criterion for the combined postulated LOCA and seismic/hydrodynamic conditions. Since the valve opening angle will be limited, the operational torques (LOCA) were used in-lue-of the design seating torques, thereby, providing a higher margin of safety  on loading deemed less predictable while still maintaining standard margins of safety on design seating loads.
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0 Summar    of D namic Tor ues and Available      S  rin    Closure Tor ues The purge system    valves (CSP-V-1 thru CSP-V-4) are installed with the flat side of the disc upstream. When these valves are in the full open position (90 degrees), the dynamic torque coefficient becomes negative (tends to open the valve). Based on the test results provided in the BIF report (Attachment J Report No. 2) the worst case negative torque coefficient (CT = .34) is less than the bounding torque coefficient (Cy = + .56) used in the BIF calculations.          For comparison purposes both the full open valve dynamic torques and the 70'pen dynamic torques are compared to the available air operator spring closure torque.
Butterf1 Valve with Disc      U  stream Flow  at  1  sec. and disc angle 90'        Full Open Dynamic      (1)      Actuator Spring                    Margin of Valve Size        Tor ue    (0 enin )    Tor ue Available (Closure)          Safet 24"              6,830 In. Lb.            11,900  In. Lb.                    1.7 30 II          13,640  In. Lb.          23,470  In. Lb.                    1.7 Flow at 1 sec. and disc angle        70'pen Dynamic                Actuator Spring                  I  Margin of Valve Size        Tor ue (Closure)        Tor ue Available (Closure)      I  Safet Not 24"              1,200 In. Lb.            18,600  In. Lb.                1 Applicable IBoth Loads 30 ll            2,400 In. Lb.            33,700  In. Lb.                IProvide I Closure I
Figures  7  and -8 show torques      for both valve sizes at    all angular positions.
(1) Torques conservatively include 1.3 factor for            an elbow located directly  upstream.
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                                                                                                                                                                                                                                ~ )I      !g
                                                                                                                                                                                                                                            )ill                                                          IIIll!ll                          II ~
I!                                                                                                          )II                                                                    ttj(I I li I
  ~!i                                flij !!ij Iiii:.!.j                                                                3                                                                                                                                                              I            D                              }
iii 'l!I g2'44                                                                      I SS                                                                      iE Iff
                                                                                                                                                                                                                                                                              ~
I
:U.
                                                                                                                                                                                                                                                                                                                    ~
1, te K~ ~ ~ I!a It
                                                                                                                                                                                                                                                                                                                                        ~
~ ii I!1 el                                ::II                                                                        I!l I                                                                                              !i!
zl          (
1
                  'I                            i)"l      i/0                                                              VV jil
                                                                                                                                                                    )I                                      lt'I        I                                                                              I ii!                  I I,I EEI'!
                                    '!                                                            II                                                              I)  I                (I t I>>!    )at I!I                                      (eft ji! iii I'I I                              i++)!                                                                                                                                                                                                                                    I lii! 'i
                                                                                                                                                                                                          !                                                                                                            ~
I I'tis L.                                                                                                              5                  iD ,E '.),                                                                            I~                    sl
                                                                                                                                                                                                                                                                                                            ~
              !if!
I                                  .I>>                                          "li                                                                                    Liii                                    iii                                                              ~  ii 4        'li: liII lilt
                                                                                                                                                                                                                                                                                    "!I            t j('t oj;II I' ilj( I!j; j!'I                                I:!i
                                                                                              ~ aa II Iji                                                                              Qii'ILt                          I,'I                                        jil          ~            I    lll! tl                          II
                    ~
I!i                  if!i it)li                                              iifi tf'I                                                                            iifi lj                                                                      iti                          i!I! ji!                jj        I I
ili! jfi i) ll!! i!I!
z<'! IIII I ittj lit    ~                          'I!,':iii jj                                                    il!                    f~f  !(jj!,!If it,i I)11
                                                                                                                                                                                                                                                                                    %~K~~~
PISC I!11 I) t          I )
X!1 ':3 1
j    tfi I; ~,
                                            ~
                                                  ~    ~ I
                                                                                                                                  ~  ii:                  iii!                                I:II  I,                                                                      II1!    (ttlematam) lj ul,t        ti!        Ili !!lf IL) !i'!I!i''.
T&W(
jjii I,      jji;:                                                lil!                  ~
yi]jj I                                  1
  ))-                                                                                                                                                                                                                                              tt'j  ',1st
:t(i I! ,ii!
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I oii                                !111 tisi
                                                              !'I'
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P.              A f(i( I II      )I                                          ~
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I>>
                          ~
I!I: )j,i                                            I!I                                                                              Sj                                                                      i:;i    jij i!      1
                                          !j                                          Ljlt e! 1 LLti Il il                                                            if i  ~
I    ""                      (Its I,'      ijj                                                                                                                                                                                j!I 'I                  I !      IIII I        I il
                                                                                      ~
II i(j't (Iit                I(                                                                                                                                                              I P(SC
                                    !I I          ~              ('>>                                                                                                                                                                                        ti                                      i Ul sTlccw
:I >>"        !!                tf:.
iii'l'!I!!!! !l(j l
                          ~ ~
tl                                                                                                                      ~ Ie fi                    ji)::
is i!      ~  ~ ~            II
                                                                                    ~
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              ,1 Ij                    Q>>I ii':I I!(i Ljl(                                                                                                                                                                            I                                      ijil j!',gf'it
                  ~jim
                  !i 'lit jiff !iii I                                                                            I
 
8.0  Summar    of Flow Calculations The  shortest purge line with the lowest flow resistance was analyzed to determine the Mach number of the fluid flowing through the butterfly iso-lation valve as a function of valve opening angle. Based on this analy-sis,  it was determined that valve angle positions of    70'r    less will assure that the Mach number through both the inner and outer isolation valve remains below Mach number 0.3 following a postulated LOCA.
The containment    pressure and temperature used as a forcing function for this analysis were obtained from the WNP-2 FSAR (figures 6.2.2 and 6.2.3) for a postulated DBA. Containment pressure obtained from these figures was based on the assumption that there was no fluid leaving containment.
If  the purge valves were open the containment pressure would be    slightly less than that used in this analysis.
Flow  calculations are provided in Attachment    K.
: 9. 0 Qualification  Summar 9.1  The 30" and 24"    diameter purge and supply valves are closed for normal plant operation since the small 2" lines will be used for inerting, de-inerting and pressure make-up.
9.2  NRC  has recommended  the disc opening be limited. Prior to 5X power, WNP-2 will install a mechanical device which limits the opening to 70 degrees. This restriction on valve opening coupled with appropriate dynamic torque coefficients resolves safety and qualification concerns for LOCA conditions.
9.3  Due to the pipe length and associated line loss coefficients; the maximum flow velocity for    full open valves was calculated to be 0.33 Mach number, thereby assuring that correlation methods used with compressible fluid calculations as previously presented is valid.
With a restriction on valve opening, the Mach number will be less than 0.3 for all conditions.
Additional conservation is introduced because the LOCA pressure and temperature curves did not take credit for flow through these valves during closure time. Also, the pressure excursion assumes a very conservative double ended pipe break.
9.4 As-built configuration of the valves (especially with the 70 degree angle restriction) precludes the possibility of flow induced opening torque. Therefore, the air operator spring and flow will combine to assure valve closure in less than the required 5.0 seconds.
9.5  Structural integrity of these purge and vent valves has been at-tained by combining two faulted conditions (SSE/Hydrodynamic plus LOCA) using normal allowables. This includes shear allowables of 0.6 Sm for pressure boundary ASME components and 0.4 Sy for AISC components. A table which summarizes the calculated stresses    and allowables is provided in Attachment I.
NOTE        Field modifications to strengthen the support brackets and replacement of bolts have been performed. Documentation is provided in Attachment K.
9.6 Since the valves are normally closed, there is a low probability that LOCA conditions will occur with the valves open. Furthermore, a very low probability of all three conditions (valves open, LOCA and seismic/hydrodynamic) will occur simultaneously.          Therefore, this very conservative approach      of combining all  three  unlikely con-ditions and comparing to Normal/Upset condition        allowables  exhibit large  confidence  levels.
9.7 Operability    was  demonstrated by analysis and    in-situ (static load) testing.
9.8  In conclusion the purge and vent valves satisfy all the Equipment Qualification criteria implemented at WNP-2 for'even 90'full open) valves. Limiting the disc angle to 70'rovides additional margin to address the following NRC concerns. Therefore, our WNP-2 design:
: 1)    Assures dynamic torque due    LOCA  conditions  will always  be a positive closure torque.
: 2)    Assures Mach Number    will be  less than 0.3, and
: 3)    Limits magnitude of dynamic flow induced torque.
10.0 References 10.1 NUREG-0892, WNP-2    SER Outstanding Issue No. 26, "Operability of Purge Valves" 10.2  NRC  Standard Review Plan 6.2.4, "Containment      Isolation  System" Containment Systems Branch (CSB) 10.3 Branch Technical Position      CSB 6-4, "Containment Purging During Normal Plant Operations" Supplement      to SRP Section 6.2.4 10.4 Letter, A. Schwencer (hRC) to R.L. Ferguson (SS), "Request for Addi-tional Information", dated September 16, 1982, Docket No. 50-39 10.5  WPPSS  Letter, February 24,    1983, G.D. Bouchey to A. Schwencer      (hRC) with Attachments 10.6  WPPSS  Letter,  June 22, 1983, G.D. Bouchey    to  A. Schwencer  (hRC)  with Attachments VOLE%    II 1'PPSS OF PURGE ANO YENT VALVES AT
                                            'JALIFICATION lOP-2 ATtAC8'HA'  -  DRAFT COFY OF lOP-2,  SER, OUTSTANDING ISSUE NO. 26 ATTACHMENT C  LINITII'6 CONOITIPS FOP, OPERATION (LCO)
A1TAHBIT D  , I'FPSS UTIER TO NRC
" ATTAQK'6 E  SUPPLEMENTAL    CALCULATION INCLUDING FINAL AS-BUILT REVIBt
 
tiOP P, ',
g~HIi";Os 'NUCLEC.R    PROJECT  2 DOCXET NO. 50-397 0~NSTRATION      OF CONTAINMENT PURGE ANO VENT VALVE OPERABILITY/
1.0  Requirement D~nstratfon of operability of the contafanent purge and vent valves, par-ticularly the ability of these valves to close during a design basis accident, is necessary to assure contairnent isolatfon. This d~nstration of operabfl-fty is required by BTP CSB 6-4 and SRP,3.IO for containrant purge and vent yalves ~fch are not sealed closed during ooeratfCCWcondftfons I, 2. 3, and 2.0 Descrf tion of Purge and Vent Valves The valves    fdentfffed  as the  contafnrent isolation valves in the purge and vent system are, as    follms:
Yal ve Nunber            inches              Use                    Location CSP-VA                    30            Vent. Supply      Outside  Contafrgqent CSP-Y-2                  30            Vent. Supply      Outside  Contafnrznt CSP-Y-3                  24            Yent. Supply      Outside  Contafrnent CSP-Y-4                  24            Vent. Supply      Outside  Containrent CEP-Y-IA                  30            Vent. Exhaust    Outside  Contafrwent CEP-Y-2A                  30            Vent    Exhaust    Outs ide  Conta f nnant CEP-Y 3A                  24            Vent    Exhaust    Outside  Contairaent CEP-Y-4A                  24            Vent. ~  Exhaust    Outside  Conta'fnrent 1
.The conta$ rnent purge and vent valves are butterfly valves manufactured by 8IF, a mft of General Signal Corporation and are listed as BIF Model Hurdler A 2M765 (24" valves} and 8IF Hodel Nunber A-206763 (30 valves}. %lier Air Products Corporation Model A-83 cylinders (afr open - spring closed) are used for valve actuation The 24-inch valves use 8" cylinders and the 30'alves use  10'ylinders.
3.'0  Geaanstratf on of      erabil  it .          p )gal 3.I Vhshfnqton Pub'lic Pomr Supply System (MPPSS) has provided operability d~nstratfon fnformatfon for the containment purge and vent system isolation valves used    at their Mashington Nuclear      Prospect  2 (MHP 2) in the following.
sutmf ttal s:
Reference  A MppSS  letter,  F'ebruary 24, 1983, G. G. Bouchey to A. Sch~encer (NRC).
 
2 FA c
Reference 8                                            p>1    jt[
t'-'ihhC Ee. t VPPSS  letter,    June 22, )983, G. D.      Bouchey to A. Schxencer (%C).
3,2 ~termination of dynamic torques durfno valve closure against the bufldup of containment pressure during a LKA is based on dynamic torque coefffcfents CT obtained      fry  BlF tests performed using different types of disc geometry and disc and shaft orientation xith respect to direction of flow. The test
  ~i~
t ons fifth fs mter and no air. testing xas performed. One of the test conffgura-inc included    a directly connected short radius elbox upstream to study the qffect  of    flox non-uniformity      on dynamic torque.                        r a 1 so per-Several tests xere fo~              the valve shaft vertical and horfzontal, counter clockxise opening and clockxfse opening, xith flatside upstream and flatsfde doxnstream.                    Frcn these tests, the most severe case xas determined.to be a vertical shaft orfen-tatfon ($ .e. perpendicular to the plane of the elbow) with the flatsfde of the disc d~stream and xfth a clockxise rotation of the disc. Thfs orfentatfon results in an approximately 30K increase in maximum dynamic torque coefffcfent over the straight pipe inlet configuration. Torque coefficients used to de-temfne dynanfc loads for V&#xc3;P-2 purge and vent valves are based on this.xorst case  configuration.
The  dfffereetial    pressure    5 p across  the valve is calculated fron the data      on vol ~trf    c flox rate    under    LOCA  conditions,  and using the equat io P)2  - PZ2 g    963 Cv xhere g    ~ 6as f1ox    in  $ CFH P
P)      Valve upstrean pressure      (psfa)
P2      Valve downstream pressure (psfa) 6    ~  Specffic gravfty T) ~ Upstream temperature          in oRankine 29.9  D2 CY      Ye1ve  coefficient Xv.
D      Valve Port diameter      ()n.)
Kz  -"Coefficfent of floor go load closure tfme for the valves ranged from ) 1/2 to 4 seconds based on tests performed at BIF The maximum no load closure tine af 4 seconds fs used for the analysis xith a one second instrumentation tive delay for a total of 5
 
3
                                                              'lijli r    g
                                                              ":I ~- L3 econds  frcxn LOCA  fnftfation-to-valve        closure.. As an addi      tional conservatisn, the  d~ll pressure vol ves.
and  temperature rise during    a LOCA      is  used  for a11 Dynmfc torques are calculated for both saturated stean and air as the flow
  ~fa. The calculations are summarized and shorn belo~ in Tables I, 2, 3, and 4 (Reference 8) for both the 24-inch and 30-inch vaIves and for steam and air flec.
The peak dynadnfc  torqaes during closure and the seating and bearing                friction torques  at  oo are ccapared to the design torques        usedD~he~ei~eic analy-sis rcport  and indicate posftive margins; SUHHARY OF RESULTS Table 1. 30-inch Valve, Airflow, (TNET            2217i    in-lb)
Dynam) c
-                                        Angl e s deg, Torque in-lb.
1.0        90  {Full  Open)      II020            Qg JEST 1.5        78. 75                  2309S 2.0      , 67.50                  X813S 2.5        56. 25                  14747 3.0        45. 00                  12428 3,5        33 75                  10780 4.0        22. 50                    8014 4.5        11 25                    3972 5.0        9.0 (Full c1osed)          0.0<<
                                                        '~
                    <<At full closed position, the dynamic torque is zero and the net torque is due to seating and bearing friction.
v~
g Note:  The  design torque used in the seismic analysis report No.
Ill-74-B in-lb..
byM~A                                  t    1    t 27m
 
                                                          $ ~
SueSRT    0-. RESULTS gable 2. 30-Inch Valve, Stean      fl~, (TgET        22l74  in-lb}
Dynamic Tithe          Angle              Torque deg~              in-lb.
E.o        90  {Full  Open)        11032 1.5        78. 75                  23175 2.0        67. 50                  18142 2.5        56. 25                  14668 3.0        45-00                    l2424      ~"~"-c g;~
3 5        33. 75                                        i'0580 4 0        22. 50                    7809 4 5        11. 25                    3867 5.0        9.0 (Full closed)          0'.0+
      "At  full closed position, the dynariic torque is zero            and the net torque is due to seating and bearing friction.
SUNDRY    OF RESULTS Table 3. 24-ln'ch Valve,  Airflx, (TgET      13808    $ n-lb)
Dynamic Angle a            Torque deg.              in lb'.0 90  (Full  Open)        5525 1.5      78; 75                  11692 2.0      67.50 2.5        56. 25
        '.0        45  OD 3.5      33 75                    5430 4.0      22. 50                    4043 4.5      11 25                    2020 5.0        9.0 (Full closed)          0 pe At full closed position, the dynamic torque ts zero and the net torque is due to seating and bearing friction.
ate:    The design  torque used in the seismic analysis report No.
TR-74-8 by  HcPherson-Assoc!atesDo~this valve is }7000
 
f"ran(f"
: i. j(/i/ /
SU~RY    OF RESULTS Table 4-    24-Inch Valve, Steamflo~, (TgET.          1380B in-lb)
Dynamic Ti)2)e            Angle o            Torque (s)              dege              in-lb.
l.0          90 (Ful> Open)            5425 1  5        78.75                    11394          p.
R.Q          6?. 50                    B92l Z.5          56.25 3.0          45,00                    6109 3.5          33.75                    5202 4.0          22. SD                    3S42 4.5          Il.25                  '902 5.0          9.0 (Full closed)        0.0  +
                      +At  full    c1osed  position, the dynamic torque is zero and-the..
net torque is due to seating and bearing friction.
3.3  D~nstration of actuator torque margin is based              on  the mini(((~ spring force developed which 5s equal to the spring pre-load.
24-inch valve      8  c  linder)
  >6,890  fn-lhs (preload)      >  13,80S '.n-lbs (seating torque).
30-fnch Valve 10-inch c finder) 32,422 in-1bs (preIoad) > 22.174 in-1bs (seating torque)                  g///.d4 3.4 gppSS provides a structural analysis for the puraewnd vent valves and their operators in Reference B. This consists of ((3) Seismic/Hydrodynamic Requalification Reports for the 30-inch valves, 24-inch valves, and the operators. The requalification certificates far both the 24 and 30 valves are contingent upon ear bolt modifications and the addition of shear plates.
Acceptance  criteria for the structural analysis are taken fro()) Section III of the  ASHE  Boiler and Pressure Vessel Code or the AISC Constructin Hanual, whict)ever $ s applicable.        Load used in the analysis are the valve operating load  crab-;ned  eth    the  dynamic  loads vhich would result frcm seismic and h+rodyna=ic    events  as  det.eminc=-  by the piping analys',s for the plant.
 
h
                                              ~  p onalysfs ms set uj tn      a caepUter prop ea for each valve assembly fn Ao SR$ S fts specfffc    orfenAt'fed@ The SOS fs ~en'at the maxfain stress lese) to sefsirfc, 9-)oadfng. Qperatfag. loads de to seatfng torque force and de-d
                                                                                                        ~
    ~fight are cceMaed H& the sefsefc stress by absolute sm.
. Ba~ on tte results of the structural analysfs. the valves 41) reefs fac-
    't)oaal through f'orth'ears af postulated hydrodyn~c events, ffve operating basf s earthquakesand one safe shuteye .earthcpake.
4.D -Kva1oatfon 4.l  The detemfnatfoa of dynaafc torques Kr. MPPSS pe'ge'and vent valves ader I.XA condftfons fs tesed on the testfng by the valve supp)e'er (SIF) of I aodel valve using mter as the test medfum. Tests conducted Hth a short el-dfrectly upstream, valve shatt at %P to the p)aine of the e)bee, and i
flatsfde of dfsc deestre~ fndfcitid 3'. fncrease fe maxfmw, dyneafc tor-que coefffcfeC for tMs erst case geaaetry.            Vsfng data froo Node) tests performed by other valve aanufacturers wftb afr as the test aedfea, tMs erst case geometry prodtmes 0 3'ncrease fn aaxfmm dynarnfc torque coefffrfent The -large'.dffference (3'. }ater versus 300j'. afr) fn aaxfeen dynaefc torque
  . coefffcfent f s due to the hfgher (above %ch-.3j velocftfes at large angles of openfng %ere the cbmwfc torque coefffcfents peak; Oyaanfc torque frit Nocfel tests usfng fnc~xmsfhle flufds correlate reasonably cell    coefff-'fests Hth data free tests usfsg afr f f the vHocftfes are helm a Kacb nveber of 0.3).
Ccesfderfng the.ana1ysf's results tabulated fn Table 1 of Reference A, the peak 4ynaafc torq~ for the K-fnch valve occurred at ?8.75'M was 23,098
  'fa-)bs. The desfw torque fs 2'7,800 fn-)bs ns noted fn the same table.
Qp'lying a 30gf. increase to the 23098 fn-Ebs peak dynesfc torque &feb al reefy has a'3% erst case conffguratfon factor; the peak dynaxfc torque usfag the factor froa afr tests mrks mt to 48,505 fn-lbs, wll @bere the 27,NO fn-lhs des fgo  torque Aa acceptable approach to the staff fnstead of. the coeservatfm erst case conffguratfoa used Q the lfcensee seal@ be the use at'pproprfate ~enfc closurefor each valves fnsta3)atfoa cosffguratfen coupled Qth torque coefffcfeats                                                                                      a restrfctfoa    oa valve openfeg Deaf i!$
        '.laf  valve fnstallatfen fnfoeratfon ms not provfdeci Nrectfoa of flm.
: 2. Nsc              dfrectfon.
for each valve              shah
: 3. Curved sfde of 4fsc, upstr'earn or 4oenstrean (asya~etrfc dfscs).
: 4. Orfentatfoo and df stance ot elboee, tees, beefs, etc Hthfe RO pfpe df aNIRters of viilve.
S. Shaft orfentatfon.
: 6. Nstance    bet~    val ver.
                                            ~  ~  I ~ ~ ~      ~ ~ ~ ~ ~ ~ ~ ~ - ~ ~ ~            ~ ~  ~ ~  ~ ~ ~ ~ ~
 
                                                              ~E
  '"..-".  '.4.2 As deaestrated $ n 4,1 of this report, the terst case geanetry at lative a~'les of va'l~ opes1ags can price wry h0gh torques that ~)d be con-sidf rab>y larger than the seating to~..5~se dynamic torques shogld be
          . used fn.the structvral        analysis (Ref'erence 8) insteH K the seat'5ng torques.
4.3 Y'alve'presses    e  rat$ rgs ed-  a static press'-e analysis are'et addressed
          .  $ n the suberttta'ls.
provide this $ nfonat$ aa for each of the va1ves<<
4.4    Reference  R  fncludus plots of floe rata versus tine fran LX.A initiation for the 24-fnch          3n-inch valves veintainod fn a full open po'sition .The I-*-
be deleted and abscissa incorrect)y includes vail c1asure f'rm Hecever, the analysis fs tet affected-
                                                                        ~  to Oo, Rich Auld 5.0 Suwarg Nh  trave caarpleted our    rerum of the infnmat$ ie submttid'ta date, concerning the operabfli      of the H-$ nch    ed 30-inch valves used fa the carrbtiemnt ptn'ge and vent cyst~ for Qhshiagtan nuclear PH)act 2'. lk find ttet the informatics'sube)t~ for tha 24-inch and 30-inch valves cHd not deaenstrata that these valves have the ab$ 7fty to clos4. against the M1dup crf press~ <n the eh'erat of a 9BQLXh fron the ful1 apeh position. Paragraphs 4.2, 4.2, and are the bases for these findings. For this reasce, the 24-inch and 30-inch va1ves sold'be sea1ed c$ asaf in accordance Htb SRP Sectfce 6.2.4 and 2
TlI~ 5.f. FMrthe~re, these valves should be verified to be closet at 'teist ofhce  cvog'      da)$ +
v
 
CONTAINMENT SYSTEMS DRYWELL AND SUPPRESSION        CHAMBER PURGE SYSTEM LIMITING CONDITION      FOR OPERATION 3.6.1.8 The drywell and suppression chamber 2-inch exhaust isolation valves shall be OPERABLE and:
Each 24- and 30-inch purge supply and-exhauae-iaaiaaien-vabre-shall  be closed during the time period:
: 1. Within  24 hours    after  THERMAL POWER  is grehter than  15~
of  RATED THERMAL POWER,    following startup, to
: 2. Within  24 hours    prior to  r educing  THERMAL POWER  to less than  15'f      RATED THERMAL POWER,    preliminary to  a scheduled reactor shutdown.
: b. Each 2-inch purge valve may be open for purge system operation            for inerting, deinerting      and pressure control.
: c. Each 24- and 30-inch purge supply and exhaust          isolation valve shall be  limited to open no more than 70 degrees.
APPLICABILITY:      OPERATIONAL CONDITIONS      1, 2, and 3.
ACTION:
: a. With a 24- and/or 30-inch drywell and suppression chamber purge supply and/or exhaust islation valve(s) not closed, close and/or seal the 24- and 30-inch valve(s) or otherwise isolate the pene-
        . tration within 4 hours or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours except as provided for in 3.6.1.8.a.
: b. With  a 2-inch drywell and suppression chamber exhaust isolation ralve inoperable or open for other than inerting, deinerting, or pressure control, close the, open 2-inch valve(s) or otherwise isolate the penetration(s) within 4 hours or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours.
c'ith      a  drywell and suppression      chamber purge supply and/or exhaust isolation valve(s) with resilient material          seals having a measured leakage rate exceeding        the limit of Surveillance Requirements 4.5. 1.8.2, restore the inoperable valve(s) to OPERABLE status within 24 hours or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours.
WASHINGTON NUCLEAR    -  UNIT 2        3/4 6-11
 
CONTAINMENT SYSTEMS 4.6. 1.8. 1  Each 24  and  30-inch drywell and suppresion chamber purge supply, and exhaust isolation valve shall be verified to be closed at least once per 31 days.**
4.6. 1.8.2    At least once per 92 days each group shown below of drywell and suppression chamber purge supply and exhaust isolation valve with resilient material seals shall be demonstrated OPERABLE by verifying that the measured leakage rate is less than or equal to .05 .a    L when pressurized to P .
a Valve Grou                        Maximum Leaka e Rate
: a. CEP-V-1A and 1B                              .05 L
* CEP-V-2A and 2B
: b. CEP-V-3A and 3B                              ;05 L
* a CEP-V-4A and 4B
: c. CSP-V-1                                      ..05 L*
CSP-V-2
: d. CSP-V-3 CSP-V-4 4.6.1.8.3    Each 24- and  30-inch purge supply and exhaust isolation valve 70 degree open    limiting  device shall be functionally tested at least once every 18 months.
* These valves are tested      in parallel with the maximum leakage allowed for  a  single valve  applied to the group.
**    Valve operation as provided      for in 3.6.1.8.a shall  be under administrative con  rol only.
 
Internal Distribution T Harrold - 982A                  Docket Fi1 e    - 956B            bcc:    WG  Conn    B&R RO Martin -    927M                kt/file -    994E                        NS  Reynolds -  D&L Powell  -  956B                PL2/LB    - 956B PK Shen (JMY) - 580                JDM/LB    - 927M SI Stevens - 956B                  GCS/LB    - 340 WW Waddel - 9670                    sf  (2)
JE Rhoads - 9670                  WNP-2  Files December    8,  1983 Docket No. 50-397                                    G02-83-1129 Director of Nuclear Reactor Regulation Attention: Mr. A. Schwencer, Chief Licensing Branch No. 2 Division of Licensing U.S. Nuclear Regulatory Commission Washington, D.C. 20555
 
==Dear Mr. Schwencer:==


==Subject:==
==Subject:==
NUCLEAR PROJECT NO. 2 QUALIFICATION AND OPERATION OF WNP-2 CONTAINMENT VENT & PURGE VALVES


==References:==
==References:==
a)  Letter,    A. Schwencer  (NRC)  to  R. L'. Ferguson  (SS),
                                          "Request for Additional Information", dated September 16, 1982 b)  NUREG-0892, WNP-2 Safety Evaluation Report, Out-standing Issue No. 26, "Operability of Purge Valves" c)  Letter, G02-83-170, G. D. Bouch'ey (SS) to A. Schwencer (NRC), "Vent 8 Purge Valves", dated February 24, 1983 d)  Letter,'02-83-550, G. D. Bouchey (SS) to A. Schwencer          ~
(NRC), "gualification of WNP-2 Containment Vent and Purge Valves", dated June 22, 1983 References  a and b  contain NRC .requests .for information regarding the WNP-2 containment vent and purge valves and References c and d are the Supply System's responses.'to the requests. ",:These concerns have resulted in a proposed Technical Specification Limiting Condition for Operation (LCO),
for WNP-2 (Attachment A)., This LCO would seriously impact the WNP-2              plant's ability to properly carry out initial power ascension testing and operation.
The purpose  of this letter is to bring to the NRC's attention, additional infor-mation concerning the Supply Systems action to resolve this issue and to propose an alternate Technical Specification LCO (Attachment B). This LCO'is consistent with the LCO that provides for the drywell and suppression chamber atmosphere inerting (Reference Technical Specification 3.6.6.2) and will allow compliance capability.
AUTHOR:                                                  FOR SIGNATURE OF:
SECTION FOR APPROVAL OF                            '    d APPROVED  /P DATE


NUCLEAR PROJECT NO.-2 QUALIFICATION AND OPERATION OF WNP-2 CONTAINMENT VENT&PURGE VALVES a)Letter, A.Schwencer (NRC)to R.L'.Ferguson (SS),"Request for Additional Information", dated September 16, 1982 b)NUREG-0892, WNP-2 Safety Evaluation Report, Out-standing Issue No.26,"Operability of Purge Valves" c)Letter, G02-83-170, G.D.Bouch'ey (SS)to A.Schwencer (NRC),"Vent 8 Purge Valves", dated February 24, 1983 d)Letter,'02-83-550, G.D.Bouchey (SS)to A.Schwencer~(NRC),"gualification of WNP-2 Containment Vent and Purge Valves", dated June 22, 1983 References a and b contain NRC.requests.for information regarding the WNP-2 containment vent and purge valves and References c and d are the Supply System's responses.'to the requests.",:These concerns have resulted in a proposed Technical Specification Limiting Condition for Operation (LCO), for WNP-2 (Attachment A)., This LCO would seriously impact the WNP-2 plant's ability to properly carry out initial power ascension testing and operation.
A. Schwencer Page Two December 8, 1983 QUALIFICATION AND OPERATION OF WNP-2 CONTAINMENT VENT         8 PURGE VALVES The Supply System       is aware of NRC concerns which resulted from the staff's review of references       c and d. These concerns have been discussed with the Equipment gualification Branch and their consultant.         The result of these discussions is the Supply Systems commitment to limit the valve opening angle to a point that provides a maximum air velocity equal to or below a Mach number of .3. This corresponds to a maximum valve opening of no more than 70 degrees (with full open equal to 90 degrees).
The purpose of this letter is to bring to the NRC's attention, additional infor-mation concerning the Supply Systems action to resolve this issue and to propose an alternate Technical Specification LCO (Attachment B).This LCO'is consistent with the LCO that provides for the drywell and suppression chamber atmosphere inerting (Reference Technical Specification 3.6.6.2)and will allow compliance capability.
Appropriate valve limiting devices will be installed prior to exceeding 5'A power. A revised package detailing the field modification to limit valve opening and demonstrate that the information provided in references c and d is appropriate with this valve opening limit will be provided by December 16, 1983.
AUTHOR: SECTION FOR APPROVAL OF APPROVED/P DATE'd FOR SIGNATURE OF:
Based on the Supply System commitment       to limit valve opening, it is understood that the   LCO which now requires that they be 1'ocked sealed closed may be relaxed. Provided in Attachm nt B is the Supply System recomnendation to a revised LCO that would allow Safe Operation of WNP-2 with the subject valves appropriately modified.
A.Schwencer Page Two December 8, 1983 QUALIFICATION AND OPERATION OF WNP-2 CONTAINMENT VENT 8 PURGE VALVES The Supply System is aware of NRC concerns which resulted from the staff's review of references c and d.These concerns have been discussed with the Equipment gualification Branch and their consultant.
The Supply System's       planned December 16 submittal will provide the appropriate data to   address     the concerns now in place. Should you have any further questions, please contact Mr. P. L. Powell, Manager, WNP-2 Licensing.
The result of these discussions is the Supply Systems commitment to limit the valve opening angle to a point that provides a maximum air velocity equal to or below a Mach number of.3.This corresponds to a maximum valve opening of no more than 70 degrees (with full open equal to 90 degrees).Appropriate valve limiting devices will be installed prior to exceeding 5'A power.A revised package detailing the field modification to limit valve opening and demonstrate that the information provided in references c and d is appropriate with this valve opening limit will be provided by December 16, 1983.Based on the Supply System commitment to limit valve opening, it is understood that the LCO which now requires that they be 1'ocked sealed closed may be relaxed.Provided in Attachm nt B is the Supply System recomnendation to a revised LCO that would allow Safe Operation of WNP-2 with the subject valves appropriately modified.The Supply System's planned December 16 submittal will provide the appropriate data to address the concerns now in place.Should you have any further questions, please contact Mr.P.L.Powell, Manager, WNP-2 Licensing.
Very truly yours, G. C. Sorensen, Manager
Very truly yours, G.C.Sorensen, Manager-Regulatory Programs JER/tmh ,.Attachments-4 cc: R Auluck--NRC WS Chin-BPA AD Toth-NRC Site R Wright-NRC D Hoffman-NRC F Eltawila-NRC ATTACHMENT A CC Cu.rri.OV CGNTA<.'i.'.<chT SYST=MS DRYWELL">O SU'7PRE"::
    -Regulatory Programs JER/tmh
./CHi4~/BE&7"RGE"hh~y.s"fiU~Jf'r PPg'ir.'f!j
  ,. Attachments-4 cc:   R   Auluck   - -NRC WS Chin -   BPA AD Toth -   NRC Site R Wright   -   NRC D Hoffman   - NRC F Eltawila -     NRC
~a~.I LIHITIHQ CONDITION FOR OPERATION 3.6.1.8 The drywell and suppression chamber 2-inch purge supply and"exnaus:"-----
isolaticn valves shai'.be OPERABLE and: a.Each 24-and 30-inch purge supply and exhaust isola icn valve snail be sealed closed.Each 2-inch purge valve may be open for ourge sys em coerat.on for inerting, deirer ing zna pressure con rol.APPLICABILITY:
OPERATIONAL CCNOITICHS 1, 2, and 3.ACTION: a.With a 24-and/or 30-inch dr~e11 and suppression chamber purge supply and/or exhaust isolation valve(s)open or not seaIed closed, close and/or seal the 24-and 30-inch valve(s)or otherwise isolate tPe penetration within 4 hcurs or be in at leas HOT SHIJTOQ'i'd%
within the next 12 hours and in COLO SHUTOBr'H within the fol cw ng 24 ho rs.With a 2-inch drywell and suppression chamber purge suppTy and/or exhaust isolation valve(s)inoperable or open or other than inerting, aeinerting, or pressure control, close the open 2-inch valve(s)or otherwise'.solz-e the penetration(s) within 4 hours or be in a least HOT SHUTDOWN'wi Din the nex.~D hours and in COLD SHUTDO'~H wi nin the following 24 hours.c.Nth a drywe11 and suppr ss',on chamber purge supply and/or exhaus isolation valve(s)wi h resilient material seals having a measured leakage rate exceedir g the iimit of Surveillance Requirements 4.6.1.8.3 and/or 4.6.1.&.4, restore+he inoperable valve(s)to OP&ABLE status within 24.hours or be in at least HOT SHROOM within.Ne next 12 hours and in COLO SHUTDOlA wi Din the.ollcwing 24 hours.t SURVEILLANCE RE UIR~EHTS 4.6.1.8.1Each 24-and 30-inch drywell and suppression chamber purge supply and exhaust isolation valve shall be veri ied m be sealed closed at least once per 31 days.4.6.1.8.2 At leas."nce per 6 closea 2~-and 30-incn dwell isolation valve with r silient by veri ying.hat the measured when pressurized to P.months on z STAGGEREO TEST BASIS each sealed and suppression chamber purge supply anc exhaust mater'.al seals shall be demonstrated OPERABI~leakaoe ram is less than or equal w 0.05 L'rlASH!ia<i"N NUC~+R-IJNIT 2~/4 6"'
C NTAINMEHT SYSTBtS JRVEIL&NCE REQUIRED".EHTS Continued) 4.6.1.8.3 At least once per 92 days each 2"inch~r..~el'--ana s'-ppv ssion chanber purge su"ply and-exhaust iso'a ion valve witn resilien-m.er al s alshall be demonstrated GPERABI c by ver.'fying tha--he"easured leax ge rate is less han or eaual to 0.01 L linen pressuri ed to P.a'7=,.Vyl+~-.~~8"k~~'ASHINGTON NUCLEAR" UNIT 2 3/4 6-32
'l~~ATTACHMENT B"DRAFT LCO" CONTAINMENT SYSTEMS DRYWELL AND SUPPRESSION CHAMBER PURGE SYSTEM LIMITING CONDITION FOR OPERATION~~3.6.1.8 The drywell and suppression chamber 2-inch exhaust isolation valves shall be OPERABLE and: a.Each 24-and 30-inch purge supply and exhaust isolation valve shall be closed dyring the time period:~>g~~l.Within 24 hours after THERMAL POWER is greater than 15>of RATED THERMAL POWER, following startup, to.2.Within 24 hours.prior to reducing THERMAL POWER to less than 15%of RATED THERMAL POWER, preliminary to a scheduled reactor shutdown.b.Each 2-inch purge valve may be open for purge system operation for inerting, deinerting and pressure, control;c.Each 24-and 30-inch purge supply and exhaust isolation valve shall be limited.to open no more.than 70 degrees.APPLICABILITY:,OPERATIONAL;CONDITIONS,l, 2, and 3.ACTION: a.With a 24-and/or 30-inch drywell and suppression chamber purge supply and/or exhaust islation valve(s)not closed, close and/or'.seal the 24-and 30-inch valve(s)or otherwise isolate the pene-tration within 4 hours or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours-.except as provided for in'3.6.1.8.a; C~b.With a'2-inch-drywell and suppression chamber exhaust isolation ,.valve inoperable or.open.for.other than inerting, deinerting,or'pressure control,"'close the open 2-inch valve(s)or otherwise isolate the penetrati'on(s) within 4 hours or be in at least HOT-,.SHUTDOWN within the next 12.hours and in COLD SHUTDOWN within the fo11owing 24 hours.4~o~FO C~With a drywell and suppression chamber purge supply and/or exhaust'solation valve(s)with resilient material seals having a measured leakage rate exceeding the limit of Surveillance Requirements 4.5.1.8.2, restore the inoperable valve(s)to OPERABLE status within 24 hours or be in at least HOT SHUTDOWN within the next l2 hours and in COLD SHUTDOWN within the following.24 hours.WASHINGTON NUCLEAR-UNIT 2 3/4 6-11


CONTAINMENT SYSTEMS SURYEIl LANCE RE UIREMENTS 4.6.1.8.1 Each 24-and 30-inch drywell and suppresion chamber purge supply and exhaust isolation valve shall be verified to be closed at least once per 3l days.~4.6.1.8.2 At least once per 92 days each group shown below of drywell and suppression chamber purge supply and exhaust isolation valve with resilient material seals shall be demonstrated OPERABLE by verifying that the measured leakage rate is less than or equal to.05 L when pressurized to P.Valve Grou Maximum Leaka e Rate a.CEP-V-1A and 1B CEP-Y-2A and 2B.05 L*b.CEP-Y-3A and 3B CEP-Y-4A and 4B.05 L*a c.CSP-V-I CSP-Y-2.05 L" d.CSP-V-3 CSP-V-4.05 L+4.6.1.8.3 Each 24-and 30-inch purge supply and exhaust isolation valve 70 degree ope'n limiting device shall be functionally tested at least once every-18 months.t.*These valves are tested in parallel with the maximum leakage allowed for a single valve applied to the group.Valve operation as provided for in 3.6.l.8.a shall be under administrative control only.  
ATTACHMENT A CC Cu.rri.OV CGNTA<.'i.'.<chT SYST=MS "hh ~y.
s"fiU~Jf'r PPg'ir.'f!j ~a~.I DRYWELL ">O      SU'7PRE":: ./    CHi4~/BE& 7"RGE LIHITIHQ CONDITION        FOR OPERATION 3.6.1.8     The  drywell and suppression chamber 2-inch purge supply and"exnaus:"----
isolaticn valves shai'.            be OPERABLE and:
: a.     Each 24- and 30-inch purge supply and exhaust           isola icn valve snail be sealed closed.
Each 2-inch purge valve may be open for ourge sys          em coerat.on for inerting, deirer ing zna pressure con rol.
APPLICABILITY: OPERATIONAL CCNOITICHS 1, 2, and 3.
ACTION:
: a.     With a 24- and/or 30-inch dr~e11 and suppression chamber purge supply and/or exhaust isolation valve(s) open or not seaIed closed, close and/or seal the 24- and 30-inch valve(s) or otherwise isolate tPe penetration within 4 hcurs or be in at leas HOT SHIJTOQ'i'd% within the next 12 hours and in COLO SHUTOBr'H within the fol cw ng 24 ho rs.
With a 2-inch drywell and suppression chamber purge suppTy and/or exhaust isolation valve(s) inoperable or open or other than inerting, aeinerting, or pressure control, close the open 2-inch valve(s) or otherwise '.solz-e the penetration(s) within 4 hours or be in a least HOT SHUTDOWN 'wi Din the nex. ~D hours and in COLD SHUTDO'~H wi nin the following 24 hours.
: c.     Nth    a drywe11 and suppr ss',on chamber purge supply and/or exhaus isolation valve(s) wi h resilient material seals having a measured leakage rate exceedir g the iimit of Surveillance Requirements 4.6.1.8.3 and/or 4.6.1.&.4, restore +he inoperable valve(s) to OP&ABLE status within 24. hours or be in at least HOT SHROOM within. Ne next 12 hours and in COLO SHUTDOlA wi Din the .ollcwing 24 hours.
t SURVEILLANCE RE        UIR~EHTS 4.6.1.8.1      Each 24- and 30-inch drywell and suppression chamber purge supply and exhaust       isolation valve shall         be veri ied m be sealed closed at least once per 31 days.
4.6.1.8.2      At leas. "nce per 6 months on z STAGGEREO TEST BASIS each sealed closea 2~- and 30-incn dwell and suppression chamber purge supply anc exhaust isolation valve with r silient mater '.al seals shall be demonstrated OPERABI ~
by veri ying .hat the measured leakaoe ram is less than or equal w 0.05 L when  pressurized to        P  .
'rlASH !ia<i"N  NUC~+R    -  IJNIT 2            ~/4 6" '


4A r7ASIG'iGTON PUBIC PO4 ER SUPPLY SYS'I'd lit g)I't 7 T~~~1+5 (~'~P~fONEHT HO, CSP-V-l COMPONENT DESCRIPTIOXi t CSP-V-2 CEP-V-lA, CEP-V-2A 30" Cylinder Operated Butterfly Valves/ID 361104 BIF MANUFACTURER EGUIPMEHT CLA~SIFIC*TION1 Q ACTIVE UPAS IVF.A-206763 MODEL NO1 SEISMIC QUALIFICATION REPORT REFERENCE1 1.Ci na Ener v Services Re ort No.0.01.F Rev.2 dated 6/15/83."30" Cvlinder 0 crated Butterfl Valves", 2.'WPPSS Su lemental'alculations, EO-02-83-11"Final As-built Review of Pur e and Vent Valves (BIF)" EN V I RON M KNTAL ClUALIF I CATION REPORT REFEREN CKz Certificate of qualification is.for seismic/hydrodynamic and postulated LOCA conditions.
C  NTAINMEHT SYSTBtS JRVEIL&NCE    REQUIRED".EHTS  Continued) 4.6.1.8.3    At least once per 92 days each 2"inch ~r..~el'--ana s'-ppv ssion chanber purge su"ply and -exhaust iso'a ion valve witn resilien- m .er al s al shall be demonstrated GPERABI c by ver.'fying tha- -he "easured leax ge rate is less han or eaual to 0.01 La linen pressuri ed to P .
THE ABOVE SEISMIC AND ENVIRONMENTAL QUALIFICATIOH REPORTS HAVE BEEN REEVALUATED IN ACCORDANCE WITH TNE CURRENT HRC SEIS'MIC AND ENVIRONMENTAL CRITERIA1-~l I EEE STANDARDS S44 (I S7S).USNRC REGULATORY GUIDES l>Z, 7.100 STANDARD REVIEW PLA 5DNt S lOt ell 4 NURKG<SSS THE ABOVE COMPONENT HAS BEEN FOUHD ACCEPTABLE FOR PERFORMING ITS INTENDED SAFETY RELATED FUNCTION WH-H SUK'EC i ED TO THE PLANT SPECIFIC-VjBRATORY AND ENVIRON)4ENTAL LOADS, REVIEWED BY Hark Scott Dennis Armstrong 12/14/83*12/14/83 c"T'2/14/83 I~jf~~~~0 KASHL4GTON PUBLIC FO>>r R SUPI LY ST PiI:QC:(LIr lC.'.I i0 C".'.TJHC.:: C: D 361106 CSP-V-3 CSP-V-4 CSP-V-5 CSP-V-6, CSP-V-9, CEP-V-3A, GEP-V-4A COMPONENT Hot t 24" Cylinder Operated Butterfly Valves COMPONENT DESCRIFTIONt I.IANUFACTURER'QUIPMENT CLASSIFICATIONt Q ACTIVC Q tASSIVC)(DDEL NO, A-206765 SEISMIC QtfALIFICATIbN REPORT RKFKRENCdt 1.C na Ener Services Re ort No.OT;01".F,"24" Cylinder Operated"Butterf3P'a3wes",-
                                                        .~
Rev.4, dated 11/'ll/83.
            '7=,.            Vyl+            ~-   ~8 "k  ~
2.MPPSS Supplemental Calculations EQ-02-83-11,"Final As-built Revie" of Purge and Vent Valves (BIF)" ENVIRONMENTAL QUALIFICATION REPORT REFKRENCKt ated LOCA-THE ABOVE SEISMIC AHD ENVIRONMENTAL QUALIFICATION REPORTS HAVE BEEN REEVALUATED IN ACCORDANCE WITH THE CURRENT NRC SEISMIC AND ENVIRONMENTAl CRITERIAt~1.IEEE STANDARDS 544 (ISTS)~Z.USNRC REGULATORY GUIDES 1A2, 1 100 S.STANDARD REVIEW PLAN SD>, S.la S.11 4 NUREGASSS THE ABOVE COMPONENT HAS BEEN FOUND ACCEPTABLE FOR PERFORMING ITS INTENDED SAFETY RELATED FUhCTION'HEN SUBJECTED TO THE PLANT SPECI F IC VIBRATORY AHD ENVIRONMENTAL LOADS PREPARED BY Mark Scott X~rf REVIEWED BY p Milon Mever'I r, Af'PROVED BY Dennis Armstrong I*" i2(i~ist i 12/14/83 I 12/14/83 WASHINGTON PUBLIC POWER SUPPLY SYSTEM CALCULATION COVER SIIEET SHEET OF PROJECT CONTRACT DISCIPLINE MCOI W~Y'3dA.L.>miC.AmO<
  ~'ASHINGTON NUCLEAR  "  UNIT 2          3/4 6-32
SPECIFICATION 2&o8-8 CALC.NO.EQ-oz-a3-t I QUALITY CLASS STEM NO CKP~C5'P SUB C EQ IP E P EC CBP-'V-/A,ZA)>~)~)
 
+&V'-I-I)2)3,4)%,6)QI CO<i~)0 V5KhJ II P-E<W R~I zvv P<w Su&nAmw p Fi Aa~ASm OIL.~LO+X'RWI tM ACTION REQUIRED@SAR CHA~GE Q SPEC.CHANGE@OTHER tIDENTIFY BELOW)-e~mam k)R'c.m adI~..M~V R)cc 4=.UBMl AM~ATTACHMENTS O HER N@COMPUTER PRINTOUT CIVERIFICATION HE KLIST VERIFICATION REQUIREMENT TYPE OF CALCULATION NO REASON REMARKS APPROV EDIDATE UPERSEDES 0 PRELIMINARY g FINAL SUPERSEDED BY REV.NO.RFVISION DESCRIPTION CALCULATION BY DATE CHECKED DATE APPROVED D TE Hlzlc (M~WP SOS R4 0
  'l  ~ ~
Calculation Sheet Project Subject System Wa-r3 1 Prepared By: Checked By: gr~File No.Date Date)~-Ib-g Analysis No.Rev.No.~-ow-a--I l Sheet No.//yt Q4;LC BLAT-l~S 8tp 730TrERa(Y V~deK l Mm or-Ccc~~s f P Zmz~~s~~i ES At Lou3P'B~K~KSGE'~ptO 1005.00 l Calculation Sheet/Project a-4~P T7dd~ixz~c Date (a Checked By: JQ)g Date I+Syste Job No.otic~l/ceufs" File No.Analysis No.Rev.No.Sheet No.-n>-a~-Il~He Co~~<4M~~U~w pc~Pdgrm 5MQa/GOAL<i~oATlo4~a~oR~)(Z~l p 7)~l~~Pc)K'~i+Co~7 L I~CE TC cRQ~F 04s~~Ag~&4~w~(wM~~, d~T AHm~O~gP t d~.~QG~"rjaaS~~L<dt.A~DWZ u3~w&~I Rvlc=-u 8-nJ'to Ncaa tw(~tA-H4w~L.~u3jw P WP 4 Y'g tS~-5owc-L REMA<~KSS CoWSGZUATl5fA
ATTACHMENT B "DRAFT LCO" CONTAINMENT SYSTEMS DRYWELL AND SUPPRESSION            CHAMBER PURGE SYSTEM LIMITING CONDITION            FOR OPERATION
~At OA~W(PAt~BQ(L-i~A~lpJr'CCEL~-
                                ~~
AmnAs.~he'u~~/44 awe%~u)i~~-W t oIQWAR~W tM~E REQQLRE~gRC At-Mu3At50, C+GQC.L'cP5 l od~ULwlWc>~~S~Xod~~~~~4/ALVB~~kt>~.g.~dEs Pros Dl5E TR~A~MW&~~E~~B~~it~d~~~Un lmarJS.~pe-K~Qt~rJ4~Zc Ga~YOU~LOC.A.~w j O'Dd c~~was AL t CAS~SWz.S~e~a Qog.Mr L Cod'D (~o<5 AS i&'po'SKAG, Eg ME'J+C
3.6.1.8      The drywell and suppression          chamber 2-inch exhaust      isolation valves shall be      OPERABLE      and:
~w!Calculation Sheet'project td)QP-Z Subject t'6~i.a--~-r.JI~~~Q~Cent3-Checked By:~,~\""I Ii/sr"")~-)s-~Syst m I j Job No.'jSoLmma3'4aM~C,Fp~CSp File No, Analysis No.Rev.No.QQ 7-9.-I(0 Sheet No.Ki~~.rI LM)4~AAzo~~Mt+.~WE.C'RtS, t-Y t I WFR'P'M AN~"BQTTPK-'P4"(V A,i-ttS Are M MS I)5 f R, EfF~-v+-7)WW4e~ap A~&W r!~~S,.)(~C., ,I r,.I rf'P8 I-rl PY<A~t.C~DR.a Jr.-CAI C QL-amber~P~l t-I-'f fYf-~WC<<V af JC, fbi F~~-Z 72-3W~P(2-Z 7235,WM~>eA K,DI a.Il WSOI Va~~+V rC Ma P<<~~ON<<'fJy~ff, II PBZPOA~)F I r AV704 a7=M CY'D(4~~~;;.GRAN>"-A~a 130'T..rl~R Y,.t~fJ~T=sR, C5P-'fI-3I4I5,Co
: a.       Each 24- and 30-inch purge supply and exhaust            isolation valve shall    be closed dyring the time period:
~'q~IJr r EF-'V-3I-t
                                                                                ~ >
~4Af~7",o(,F, 4I+<pc/IQQ)<<c<+FQeV-C'r 5~WV IC E:-S'.%)WA~A~a>it w Ace.~~W~od'S iaIJ H.G OP'F I~W E~7~j F l EST'~t-T~V IJ~tC (,Oa4dci LOSS~~~G nW MaW l~~~L,)IJZ 6~gc9evzsusW>~tc~~
l.
vw=%~=re'Psc.Wc''ft-~~~klo.f~-octo-+3~rf~w S-ZII-BZ AY~'DYIJIIMIC hA'0~mt OSS%68T cd 12'-)5o~EmM.ec t'A~Qt=-.u)vH Dt z~ett=r 6 DrJV~~HWPl-PHD)LK ELF~bA&S~~.r 1000 00
g  ~~
Within 24 hours after        THERMAL POWER is  greater      than 15>
of    RATED THERMAL POWER, following startup,        to.
: 2. Within 24 hours. prior to reducing      THERMAL POWER        to less than    15%  of  RATED THERMAL POWER,  preliminary to        a scheduled reactor shutdown.
: b.         Each  2-inch purge valve        may be open for purge system operation          for inerting, deinerting        and pressure, control;
: c.        Each 24- and        30-inch purge supply and exhaust isolation valve shall be  limited.to      open no more. than 70 degrees.
APPLICABILITY:,OPERATIONAL;CONDITIONS,l,2, and 3.
ACTION:
: a.        With a 24- and/or 30-inch drywell and suppression chamber purge supply and/or exhaust islation valve(s) not closed, close and/or '.
seal the 24- and 30-inch valve(s) or otherwise isolate the pene-tration within 4 hours or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours-except as provided for in '3.6.1.8.a; C~
: b.        With a'2-inch -drywell and suppression chamber exhaust isolation
                  ,. valve inoperable or. open. for .other than inerting, deinerting, or'pressure control,"'close the open 2-inch valve(s) or otherwise isolate the penetrati'on(s) within 4 hours or be in at least HOT-
                  ,    .SHUTDOWN within the next 12.hours and in COLD SHUTDOWN within the fo11owing 24 hours.
4            C~        With  a    drywell and suppression chamber purge supply and/or exhaust
~
FO o ~
                      'solation        valve(s) with resilient material seals having a measured leakage rate exceeding the limit of Surveillance Requirements 4.5.1.8.2, restore the inoperable valve(s) to OPERABLE status within 24 hours or be in at least HOT SHUTDOWN within the next l2 hours and in COLD SHUTDOWN within the following.24 hours.
WASHINGTON NUCLEAR          - UNIT 2      3/4 6-11
 
CONTAINMENT SYSTEMS SURYEIl LANCE RE UIREMENTS 4.6.1.8.1    Each 24- and 30-inch drywell and suppresion chamber purge supply and exhaust isolation valve shall be verified to be closed at least once per 3l days.~
4.6.1.8.2    At least once per 92 days each group shown below of drywell and suppression chamber purge supply and exhaust isolation valve with resilient material seals shall be demonstrated OPERABLE by verifying that the measured leakage rate is less than or equal to .05 L when pressurized to P .
Valve Grou                    Maximum Leaka e Rate
: a. CEP-V-1A and 1B                            .05 L
* CEP-Y-2A and 2B
: b. CEP-Y-3A and 3B                            .05 L
* CEP-Y-4A and 4B                                  a
: c. CSP-V-I                                    .05 L  "
CSP-Y-2
: d. CSP-V-3                                    .05 L +
CSP-V-4 4.6.1.8.3    Each 24- and 30-inch purge supply and exhaust isolation valve 70 degree ope'n  limiting device shall  be functionally tested at least once every-18 months.
t.
* These valves are  tested in parallel with the  maximum leakage  allowed for  a  single valve applied to the group.
Valve operation as provided    for in 3.6.l.8.a shall  be under  administrative control only.
 
4A r7ASIG'iGTON      PUBIC  PO4 ER SUPPLY SYS'I 'd lit g)I'  t 7 T~ ~ ~1+5  (
                                                                          ~
                                                                            '~P    ~
                                                                                                      /ID 361104 fONEHT HO,     CSP-V-l  CSP-V-2        CEP-V-lA, CEP-V-2A COMPONENT       DESCRIPTIOXi 30" Cylinder Operated            Butterfly    Valves t
BIF                                                    MODEL NO1 A-206763 MANUFACTURER EGUIPMEHT CLA~SIFIC*TION1          Q ACTIVE                  UPAS    IVF.
SEISMIC QUALIFICATIONREPORT REFERENCE1
: 1. Ci na Ener v Services Re          ort  No. 0    .01.F    "30" Cvlinder 0 crated Butterfl Valves",
Rev. 2      dated 6/15/83.
: 2.    'WPPSS    Su  lemental'alculations,            EO-02-83-11        "Final As-built  Review  of Pur  e and Vent Valves    (BIF)"
EN V I RON M KNTALClUALIFI CATION REPORT REFEREN CKz Certificate of qualification is. for seismic/hydrodynamic                      and postulated LOCA  conditions.
THE ABOVE SEISMIC AND ENVIRONMENTALQUALIFICATIOHREPORTS HAVE BEEN REEVALUATED IN ACCORDANCE WITH TNE CURRENT HRC SEIS'MIC AND ENVIRONMENTALCRITERIA1
          -~I EEE STANDARDS S44 (I S7S).
USNRC REGULATORY GUIDES      l>Z, 7.100 STANDARD REVIEW PLA        5DNt S lOt  ell 4 NURKG<SSS THE ABOVE COMPONENT HAS BEEN FOUHD ACCEPTABLE FOR PERFORMING ITS INTENDED SAFETY RELATED FUNCTION WH- H SUK 'EC i ED TO THE PLANT SPECIFIC-VjBRATORY AND ENVIRON)4ENTAL LOADS, Hark Scott                                                                            12/14/83 REVIEWED BY
* 12/14/83 Dennis Armstrong                                                                  c"T'2/14/83
 
~0 I  ~jf  ~~                 ~
KASHL4GTON PUBLIC FO>> r R SUPI LY        ST PiI:QC:(LIr lC.'. I i0  C".'. TJHC  .::
C: D 361106 CSP-V-3    CSP-V-4    CSP-V-5 t CSP-V-6, CSP-V-9, CEP-V-3A, GEP-V-4A COMPONENT Hot COMPONENT DESCRIFTIONt 24" Cylinder Operated        Butterfly Valves
                                                                                          )(DDEL NO, A-206765 I.IANUFACTURER'QUIPMENT CLASSIFICATIONt    Q ACTIVC              Q tASSIVC SEISMIC QtfALIFICATIbNREPORT RKFKRENCdt
: 1.       C      na Ener      Services  Re  ort    No. OT;01".F, "24"    Cylinder Operated"Butterf3P'a3wes",-
Rev. 4, dated          11/'ll/83.
: 2.      MPPSS Supplemental Calculations EQ-02-83-11, "Final As-built Revie" of Purge                        and Vent Valves (BIF)"
ENVIRONMENTALQUALIFICATIONREPORT REFKRENCKt ated LOCA-THE ABOVE SEISMIC AHD ENVIRONMENTALQUALIFICATIONREPORTS HAVE BEEN REEVALUATED IN ACCORDANCE WITH THE CURRENT NRC SEISMIC AND ENVIRONMENTAl CRITERIAt
                    ~1.       IEEE STANDARDS 544 (ISTS)
                    ~Z.       USNRC REGULATORY GUIDES 1A2,      1 100 S. STANDARD REVIEW PLAN SD>, S.la S.11 4 NUREGASSS THE ABOVE COMPONENT HAS BEEN FOUND ACCEPTABLE FOR PERFORMING ITS INTENDED SAFETY RELATED FUhCTION
            'HEN SUBJECTED TO THE PLANT SPECI F IC VIBRATORYAHD ENVIRONMENTAL LOADS PREPARED BY Mark Scott    X~rf
                                                                                                                  *" i2(i~ist
                                                  'I I
REVIEWED BY Milon Mever            p r,                                                i      12/14/83 Af'PROVED BY Dennis Armstrong                                                            I 12/14/83
 
WASHINGTON PUBLIC POWER SUPPLY SYSTEM CALCULATIONCOVER SIIEET SHEET      OF PROJECT                                    DISCIPLINE                                      CALC. NO.
CONTRACT MCOI W~Y'3dA.L.>miC.AmO<                       EQ-oz-a3-t        I SPECIFICATION                                  QUALITYCLASS STEM NO 2&o8 -8 EQ IP  E  P EC CKP    ~  C5'P                    CBP-'V-/A,ZA)>~)~) +&V'- I- I) 2) 3,4)%,6)QI SUB  C CO<i~) 0 V5KhJ      II    P              E<W R~     I zvv  P  <w Su&nAmw p Fi Aa~ ASm OIL.~ LO+X 'RWI tM ACTION REQUIRED
                    @SAR CHA~GE                  Q SPEC. CHANGE            @OTHER tIDENTIFY BELOW)
                                                -e      ~ mam        k)R'c. m adI~.
                                    .M~V R)cc              4=. UBMl        AM~
ATTACHMENTS
                    @COMPUTER PRINTOUT            CIVERIFICATION  HE KLIST O HER      N VERIFICATION                NO  REASON                                                  APPROV EDIDATE REQUIREMENT TYPE OF CALCULATION              REMARKS                                                        UPERSEDES 0  PRELIMINARY SUPERSEDED BY g  FINAL REV. NO.         RFVISION DESCRIPTION          CALCULATIONBY  DATE    CHECKED    DATE    APPROVED      D TE Hlzlc  (M~
WP SOS R4
 
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Calculation Sheet Prepared By:                      Date U3p~>-                                                                                      I  z J>3/9 >
Subject                                                      Checked By:                      Date A.~AMDT ~Q<GOE:                                            ~~,~  ~~                  ~
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Calculation Sheet'"""comms Prepared By: Date r w/J Subject U~Co~~~(Checked By: 'i'le~lV)eg., Date)0-l5'-Q Syste/J9b No File No.t n I Vc.4=m C~~CSP'nalysis No.Rev.No.-oz-SZ-(l Sheet No.M-(S~4 N-CulmCS~br AV~Ac~SA/s STAN~~LS M~CdWm=-a~g Wg~gez~O J oF/I'Ri cF@c TIE s4+K Ha~,~~~A'/V~Lc;V~CbJz MH/w u~u'u aA-e7 tw''0 do z/5///~&&77'4~~WI&4~77K ESZ US'/A/c v~~~~~~M<.~@.~F~//Nl J.C 3373<i/~etc-c-BAAe~
            <'B                                                                                              I  fl tto                                                                            !It! p+i tI4              ASS            4+ Nf I I PH jiff                                                                              ! !IP V 010 Q <<t                      0<<
z~~rUw 5~c~s YIKE~uJQ(cg/5'OO Calculation Sheet~i s uDBV'-Z Prepared By: I>>Date/~re/A/p>Subject R!+r Md.I Checked By: g,)Date)2-t>-6 Syg~n Job No.(ca~d J~J:~<~t.~P File No.Analysis No.Rev.No.pa.-oz. I (O Sheet No, 6'-I 4+AS~&W WOE PA~t~+~F~~lMVt cb Ti~c~8&#xc3;Ol-t l+9 Z pJ LS-(RC7'=Z)-Pg=3>(go/I'Fez/rC)&D l/g~Z//C vz/oooo zU 19B-va14~]II k j-=/./Z5 3=z<D Z,<(C//7'>On-e.~1~@(/44-7+Z9.7c 83/q-r-3.97(
V+P ttt ipj Vtf.
Wt ~ \t4 Hif       A.'- .A'~Tl                     't4 H'TO          Q                              CLQs @dan A        ~ Wt
:Vy.                     +
                                                                                                                                                                                                                                          \ Sit                          ~  04
                                                                                                                                                                                                                                                                                                                !B>>
                                                                                                                                                                                                                                                                                                                                                  'I mj tt                                                                                                                                                                                                 I>> R 041 ~
                                    ~
g'ji.""di'fil'-.-SI+fg                                                               Hft isH                              Iff                                Bi                                                                        H."
I
                                                                                                                                                                                                                          ~
                    ~ 4
                                    ~
                                                                                ~0                                                              .-                                                        ?Td                  + I ~               !IIH                        ~ I?! I                                                              BH tl                                                      t        ~                  " '="ii f:."i!jr'.".                                                                                                      44
                                                                                                                                                                                                                                ~4      4 4 W!               ifB jm HH I                                                                                                                                                                <<4                                                      !sjj          Ph          RPSH 44 it<<    I'->>                                                   ~      ~
4                1<< +                                                                f 0+I    I    ~                                                                                                    ~  ~      OS                            '11 C              :;!: ?ji'4V
                                                                                                                                                                                                                                +14 4
Bi! !It!                         HH                                                  f4-41                                        ~ i <<I
                                                                                                                                                                                                                                                      ~   ~
                                                                                                                                                                                                                                                            ~                                                                                     HH              SV+i
                'ij f25                  ,*"I;>>J-11                                                                                                        PH        HH            '!iP !IH $1 tt                      !P! !IH Hi<<! jm jjij IPI P!I                                   sf IIII I              $ $$ .
01!0                      ',ALWV                    .'SE'V                                                                            !t<<                      hH    jm            IN            !Pj I 4~-
                                                                                                                                                                                                                                                      ,4      IJ> Hf<
Of Pt B"           i!H I
S$                                                                                                                            0B                                      tf."",
6":i itt O", t
                    ~
                    ~  ~~ ~
4~
                                                    ~  ~ I Ir-'I ~4 1
                                                                                                            ~
fito tfri i:";. Ii~ 41 HH        4 0400 Hsj!
                                                                                                                                                                                ~lo ~
H!I j!H
                                                                                                                                                                                      ~ 4     I~
                                                                                                                                                                                                            !IH iii!
tf If<<
                                                                                                                                                                                                                                !:.t t.ff fhjj jjit !I!! I';Ij l'1    i!if                    ~ II
                                                                                                                                                                                                                                                                  ~ ~
                                                                                                                                                                                                                                                                            '" ~
iitj il
      !                             i!H                                                                                                    .DU, 9  t'".Q, O,RQUE- t)tsc.                                                                          hff+ ltio        1 tiff i;L'Pf.;.                      W+
ISW            Jt<<~ ~
V.l                     8,-;FL OW          (Sl                  .Ti l4b 2%234) Q                                                                        t:B t'.;t            i!Bit z:
ftf'p 4                                                                                                                                              .. io t I i                4
:                                                    4<<t t tt tttti trio            1                                                                          ~ 44t Itt ~W                                                                                                                  Hh    jm                        p!I tm          jfgo IV+I   roti                      ~ t4 ~
OS!                    fttt                                                                      It'>>I.      0$
                                                                                                                                                                              'wt ssv                                                                            '                          $ 11
                                                                                                                                                                                                                                                                                                    ?Bf  14!Hvi ihi Im
                              ~ >>                                                                     4
                                                                                                                                            @t <<tf -f???Sf                .                  Itro wis                          f $$ f                          St!4      I~ $ 4 4 I +
I <<                                                                                                              :!i~*?!HP.!N
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W    gt
                                    ~ Qt              ~   ~
toff                                                                                                                                        Iz! Vf                              HS W               ~     fii          ~~
4
                                                                                                                                      +'  +t                         ijH HH h; ffjf!::0                                                                                                              BH !jfjjffB 0                                                                        4t        4+ I+ ~ .
twt Ctt                                                                              >>44
                                                                                              *t4~          !% jt<<               t~
f-            .          '~s    IZi BH!I HP. f~                       I I'I OtfI                                                                    Hh
                                                                                                      ~
44t
                                                                                                                                                                                                      ~
                                                                                                                                                                                                            '                    ~ Pj!                ~   Jf 411 f          041    ~ ftt                                    ff+
i      ~.'if} m! I!!?                                                                                                                                                          jh? Hjj        N                          $
FLOIAt~l DtJQ Ebfj,QR 0 H1HO R                        I    A                E iB 0
                                                                                                                                                                                                                    ~ If Boff                                                                            K~                    !9                I ! HB
                                                                                                                                                                                                                                                                                                                                                                                    +
                                      ~   >>1        ~ ~ 14
                                                    ~   ~
                                                        ~4          !IB                                                                      ?HB t
                                                                                                                                                                    ~ I HH!f          ii          '. Ip.            !A 4tt                                                                                                                Sf 8Ll:          'l mi KI I::ZiPIH V-;.'f!j                                      tiH i   ~~      ?HS!
                            ~
OIL  f   ~    ~4       !!H                                                                                                                                                                                                                                                            o                            !Hj "SB
        ~         ~
                      ~4 ~
Sit:                    04    'P    ~  1>>4 (6
litt!If!i1ttt PH!",;-I I !Isf fit f,i'ttt                                  :'lj'imi
                                                                                                                't 4~
LOSERS uf Si                                                                                            gti                                                                                                                                                        tot I
tWO                                                            \          +
f I+P
                      $1
                        ~4 44  Bw                      ti ttwtti                          p=t}B HH!fHf! I                    HH
                                                                                                                                                                                              ~IS rfif    Srtf                            ~       ~
                                                                                                                                                                                                                                                                                            ?HI                    H  jbt Hh I~
                                                    ~ <<
                                                                ~4
                                                                              ~>>
                                                                                    ~
I 4>>>>~   ~         ~
WI    4 4 44    I to W~
N I!HI?%III~I
                                                                                                                                                                                                                                + 4 4 I>>
                                                                                                                                                                                                                                    ~ IIr
                                                                                                                                                                                                                                              ~
ft'I   ~   I+i                        HHH            IHH          HH   Ij                !HI
                                                                              ~W     <<W                ~  tt                        t>>                                                                          ~ 44
                                                                                                                                                                                                                                                                          -':.!'XP f
                              +4 i ff trot it!i PoB                                                          ~ t 4 tttf      Vw<<
444 otto                  mj HH              CHh Hj!4                                                HH    !B! ht                                                                              Pf H                                   HP,
        ~
        \
h' Ottt gt                                ttt
                                                    ~4                       ~ +4           ~ I>>            ~  4>>                0&IV      Sf ttt 4                                Bpt r'"..~:As'H                                          tW                                                        SVO                                              It>>
Vi I IIjI?
                                                                                                                                                                                            ?
l    QJ                                                                                                <<pt                  ~
fff                                                                                                                                            DlSC                                                ?Hs t                                                                                                                                tOt+
t+
                                                                                              ~+
IB hit
                                                                                                                    ~
BtH    ?8 hB      ~~~4        tt
                                                                                                                                                              ~+
                                                                                                                                                                          ~ 4$
tw
                                                                                                                                                                                      ~ 44 toit 4+
                                                                                                                                                                                                                                                ~
OowK5~<                                  F              0                  t+B
                                                                                                                                                                                                                                                                                                                                                                                  'H Ht 1.H tt It    ~
SBI    v=-!IH i!H jm mj jm                                                            HP  fm jm jm jjH HH HH                            HH 14    <<t+
pti                      Hf              (Ptf:E'~K~)                          1 tf                                                    g.A    mj
                                                                                                                                                                                                                          >>tt PO>> tw
                                                                              ~~ .~ Ptt PH t?tt
        ~
                                                            >>44
                                                                                                                                ~                                                     44    N'011 T:5                                                      ~    ~
fjif                                  !Hi!I                                      8                                                                                                                  ih!
11                                                                                                                                ~0 HH               I*.              p!i                  HP;!IH                                                  P.S I'' 'Vi O>>4                                OI                    ~4
                                                                                                                ~tt ~
                                                    +
trio 14 4   w tfBt        to%0 ffN                                VVO                                                                                                                                g
                                              ~ tt f                    'ti..tt! <<B                                                  ?H'                                                                                                                pj
                                                                                                                                                                                                                                                                            'B II
                                                                                                                                                                                                                                ;:H HH FH                t4<<+          414                                                        ffgf                                                                                                                                                                                                      Pi Ptt                                                    IPj PP            LH
                                                                                                        '                                                                                            PtH                        i?BS                           tt
                                                                                                                                                                                                                                                                +4 PLSC                                              fHiHi
                            ~4 tt                        Wtt              Wtt                              ~ tit                                                                                                                                                          0 P'KTRchH
                                ~
                                                                ~ Vt
                                                              ~ Wi it to
                                                                      ~ ~~                                      iiHi                                                    HH                                        hH fto                                                                                          I  ~
I?H NNN!Hj                                          jj?3 Ptff                        Hj!                                                                  Hjj                                                                                            i!B fB tot! tioit                              ,'?B                                                                                                                                                Ht!                                      IH                                                    Ht    .N .
110 ttH              !IH Itt'H            >>
mf jtfj ptt'                    ~
wrt
                                                +
ttt
                                              ~
                                                                              'j'i Iq7 i!H                                    I!H ijh
 
t r
JPJPIOJJ4 4 I 2.188
>>                                                                                                                                                                                                                                                  t                  t~ t ekh ~ 4                                                                                                                                                                                                                                                                       W>> ~t
                                                                                                                                                                                                                          =HH
                                                                                                                                                                                                                                                  ~
rf
                                                                                                                                                                                                                                                                                              ~
                                  !LE'44 SS<<4 Ht IB!4
                                                                                                                                                                                                                          ~ PB                  CP,<                 gk~Z-83 -ll CAB 44 P~AC             O''-5
                                                                                                                                                                              +4 HB                           CQO I "0                                           0+9                                                           S.              SV MPBQ ssgt                                      Vef I+If                      "@~8"psT                                 P$ VQG>>RBTUR                                       !j IB                  Hg                                                                                    t>>4
                                  <<tt                                                                                                                                   tet Wt\ ~ t                                                              tfBf1    tit                     I       ti<<
SfP4
                                  ~ 44 ~                                                                                                         +4>>    I                                         Jt>>
44+                                         Hif                                                          41 4
                                                                                                                                                                                                                            >>                                                             >>t4 I        I
                                              ~W
                                                                                                                                                                  +~~
BB
                                                                                                                                                                                                                          ~
                                                                                                                                                                                                                                                                    -'= PB                      44
                  ~
1~
                        ~~
W 4                          et!1 Bsj                                                        !HE                                                                                                                                               4>>t 4tit f!P            jjw 1
ti ~                              jj>>j=j                               ss>>
tB,PI t 411
                                        ~.
wt
                                                  'VALY                    Sz X ~Z~i O.E
                                                                                                                      'j                       '78OOS jg LI5t%-
iB                            R Sot                                  HH IBE     ~~ 'B est                                              44>>
PI      IB! MM                      tt+                                                                    fm@ Q !L                               f          PB jm
                                                                                                                                                                                          ~
                                                                        ~
PW ttt4
                        ~4 jji "
I                ~4                                                                                                                                                         S.
L,.g ri          ~ 11 SS<< ~
                                                                                                                                                                  -'B gt,"                    TI.O.R j        Q;,                 f                                                                          HH
                                              <<~4 44>>
                                                                                                                                                      ,dDNg((B$ Ht TARRY?$+ =7.
                                                                                                                ~
                                                                                                                                                          'tff CCC                                                        JISM
                                                                                                                                                                                                                            <<4 Itt t>>
                                                                        >>44 WW            ~+   It        Stre 4>>4 44 ~ 4th
                                                                                                      + W             k I'.I p=j~ ~gp~r !P ff                                                  ~
                                                                                                                                                                                                                          +tet B                                          ij>> IB Hto          ~t
                                                                                                                                              <<4 Sfrt                                                                                        p  i                                  ~ >>4   444t 4                                     ~ ~
                                                                                                                + 44 H
                                                                                                                                          ~
I+                 re
                    'tt<! Z          '
                                                                                      ~
                                                                                              +   t
                                                                                                    ~                        IIP
                                                                                                                                          .~t~ -.        'g                                         ~ 4 jdj pi
                                              ~ Ht4
                                                      ~
1 t+t+
WW tt 4
Jq
                                                                                                                                                                                ~
Wt 4
                                                                                                                                                                                          >>4 44 ~
I WH+                          4 tt I R pji r                  Ij>>  =6'I I                                                                                                                                                                                          4
                                                                            . t"   <<                                                                                             Nj isrt                          ijB tt                                                             <<4                                                                              4 fH t 4   \4 St  44                                                            ~HO                        ~I                                                                 rw iB.
                                                                                                ~ 11 PI    ~          -ikt                                                      ~ f 1tr
                                                                                                                                                                                            ~ PJ
                                                                                                                                                                                          ~4 I          1~
Wt+
1 ~tt 0-;,
                                                                                                                                                                                                                                                          !HB
                                                                                                                                                                                                                                                                    -* rj                               *   &   1 Potf                            '-.':it~ tts                                                                            >>SS Bi          e
                                                                                                                                                                                                                                                                      +ef
                                                                                                                                                                                                                                                                                                  ~ Bsf i<<SS<<
                                  ~
J W                                                                                                            pB                                                                 ~+ 4 0     4&4 ~       r toft             +
0    ~
Qtt O                                                                            ~ t>>                        ;It
:-2                              =-3                                                 + W                                                                  S>>t                         ~
:5 PB.
Ij
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Br'ot HH                                            Jht


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                                                              ~   ~                                                                 ~ 1                                                                            wii W                    ~ >>                                                      tent                << tt                        Hji E!BW>> BB        1>> >>g                                                                  Hti
                                          ~
tl                                                                4<< ~ 4i1>>                << 4 tt                                                      it4 I..'F;
                                                                                                                                                                                                                        ~I ~                         +W +\
                                                                                                                          \                                tt+        tw                                                          <<1 Jti 4~
j'p
                                                                                                                                                                                                                            ~P                                                                     ~         ~
                                                                  ~   \
                                                                                                                              ~                   Wff
                                                                                                                                                  ~ o<<ff I+tt 4        W>>                +>>t                    Stf trh 1
                                              'tHt I    ~ ~W WI tent                  ~ .<<. r-\et      t j:>>
I H Sffs                  ~     <<4   ~+
i!B          jH, 5d        ETB
                                                                                                                                                                                                                                                    ~ t44 Btj piro
                                                                                                                                                                                                                                                                                    ~ tt
                                                                ~ t      Ht>>           ~ JHto +4<<+          44      t+~ 4%4 mi HH."SH!I
                                                                                                                                                                                                      ~
                                                                                                                                                                                                      -+tt
                                                                                                                                                                                                          +f io tt tt 14 S jj".! R                ~ +1 p
11 t4
                                                      ~
WSS 4444                        K-W B"                                     jiB                                                                                      Sf Pt Bs jB! BB
                                                                                                                                                                                                                                                                                                    ~I I 4                                                                                                                                                                                                                                        aft
                    ~>k!Z                    41 ~     r+-i            ~ I>>                  +tB                        re>>4
                                                                                                                                                                                                                                  ' Povcnf STREAM                                      ~           ~4 4
                                                                        'I 1 !'B
                                                "~4                                                       144 Btf A'iH                                                  (~~~)
                                                                                                                                                                                                                                                                                      ~
                                                                                        ~   1                                        P                                                                                                                                                              -'
                                                                                                                                                                                                      +t
                            "~                                                                                                                                                                                       Hjj! I pt I
                                                                                                                                  !HI Bj rj;.iiB P 41                                                                                                                                                                                            +
f!                            14 1 St*                                      ~ +I HH        <<I~ Pjj 4
t~h    ISIS hi."1 Sh W
4                                  ASS
                                                                                                                                                  .0ATLGPl                                      O.RQ J>>J test                                +1              ~
                                                                                                                                                                                                                                                                                                                          ~ ~
                                                                                                                                                                                                                                                                                                                            >>4 t
t jjjs PH I f<<ttt 1
4414
                                              ~4 H
tt tt4 tt4                      'I
                                                                                        .S;:. 4          P~P
                                                                                                                  ~
                                                                                                                ;r,,
Wt 68: Ps'f te
                                                                                                                                                                                  ~4 ~ ~
I Hs      hB 41 Hj    jjH im S.                                 Hjs BB 4
                                                                                                                                                                                                                                                                                                                          ~4 Wif          I                                          I                                          Sttt4                      !OPEN-                                 VP;j            ~
Pjij    iti!                  I            jjjj                                        'tt4
                                ~
                                                                                ~ I
                                                                                                                                                              ~ I tref
                                                                                                                                                                                          \~ +~                                       ~     wI Lfw            ceto
                                                                                                                                                                                                                                                                ~
te SBE                        4+1 1 ~ Si  1>>       ~ tt t Hii jiiiPi riff ftd                                      ttB <<tf            4PPPI        EBi                                              +IS!                                      ~4
                      ~
fi jiftt  I" 1\4 Bij I' I tto  j'"
ht<< tftt
                                                                      ~ ~
t~
Pt          ~4 ~ ~
                                                                                                                          >>44 !Bt jp                      jN B~j'i!
                                                                                                                                                                                                        +I ~
Hg                  PiSC                          !set                          HH tti St>> 1! f I t!                         ~~~
tsr        4i                                      rip
                                                                                                                                    !!If 'tNI ts!'
i  II>>I p                      H<<~         ~
                                                                                                                                                                                                        ..I i!B
                                                                                                                                                                                                            ~                     pj O~V aeANf                                              ~ <<
tf    +Htf  '
                                  ~ttt. ttttH ttH
                                  <<+1          14!
                                                        ~
                                                        ~ H4
                                                            ~ eeet ft<<4tt 1144 4
                                                                                        ~
                                                                                                >>t Htt I1 t4! eeet
                                                                                          ~
414 >>t
                                                                                                                  ~
B<<jj SB4  ~1 j~
                                                                                                                                                                                      ~4 1
                                                                                                                                                                                                              !H!                  Hi jLI                          HB ..j Hij                                      44<<
                                                                        ~t                                           tt                                                                                                                                    fit I +if! tl fttt i' fttj t41t
                                                                                                                  ~
                                                        ~ tp ~ tt4 tt>>t ~>>'
1~
t<<J                    ~~    444 ~
                                                        !.il                            fBI                      IBI                                                                                                                                                                              ~4 fttt tg t                                                                                                                                     ~4 ~ I N! j-j'H Hjj
                                                                                                                                                                                                                                                                          ~ 4 iiB tfft otto                                                                                        its                                                                !B Is!i                            HH gt                      Btt 10  httlllmeters to the Ccntlmcter
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~~~~J~s T!I~'I I~~~~/~~~~~~~l~~~~~~~;la t~t~I~~~~~~r'I<I I~~I I-s~I~~li~~~I~il~~III I~a~~~~t~~~I~I~-I~I~I~le~~~~~~~~I'~~~~~~I~s~~l~~~~~s~I~~~e~~~~I:::.I.I~~~sl''I~~l~a~~~~~'I~~~~J I~~Le~s t~~~~sl~~~~s~~~I s~t~~J~a I 1~I~~~~~a~~~s~-.i I~~~I~s I~I~I I~~I~~I~'~s~~~~~~I~~~~~~~~~s LQ I ll'!~i I~~1~~~i~~~~~~I~~I Il''e~~s~i~~~~~~~~~~s~~I~~~l~I I~~~~~~~~I~i FAIL e~t~~~~~ls~~I~I-'-".~~~I~I~~~~I I~~~).;:;:.I L~~~~~I-I~I~a~I!li~~~~~~~'~~at~~~~~~~I I~~ill~~~tat~'.a I t~1~~e~~~~~~'1::il~I~~i s~,~~I~.:):7O.':"5 e t~e~~~I I l~~;i.I::::~I~~~;'ll e~e~~I~~~OP CC~I G.l~~~~~~I!s~~I J i~~~~~I s il~~I~~~1 I~I~~~1~~~I~~~e~~~~~t s~'I~I~~~~I I~~Is~~I~~~~i~~~~a~~s:.;:t~~I~~I I i'::s.~~~~~le~I I I~I~~~~l t~I~~~I~~~: Is!!~~I~s/I.,~s~>>is ,I;~t~I~i~~~~.IIII~~~lt I s~a~~~I~'ts'~~s~~~s~~~I~~~~I~s.l itic I~~~~~~~~~~~~I~~~I~~e~I~I~~~I~~~e 1~I i'~1~~~~~I~I~~~II: Ii,:=-''-'i!..r:.i!I~I I~a~fL a~~~'I~~~e~~sa, la~~'~I~~e I:i'e~'i~I a I~~e~~I~I e~~s~I I~Ii.s\~s I~~~s i e~~e~~~~~~s~-~~::.I:.'.s..-....~~I i".'=.-80:.
~I''%~~i'~I~" i'.;:.I"',!.I.'I a a


'i~~~~I'~~~~~~~~~l I~~~~I~I~~~I~~~t'~~~~~~~l~4~I I I 44~'I 4 LL~'I f+~~~.~rf~f a~I l"" I~~~~I~r~~r~t~J~~I~~~~~)'Ir~~\l~~I 4--r---4IJ~'T.C V/MM l~~~~~~~>>I 0)z.)):)a.~0 I N)X)O ,n)4~I I'~~~~~~I~I~~~4 al t~~I~~I g~g~~~~{I~~'f~~t I I~~~~~~.~r l l~~~~f~~~~~ad@Rc.~~I~~~~0~~~~~~~.~4~l~~~I'~I~~~~I~~I~~~~~~~~~~~t~~I~I~~~I~<<~~t~~~'~~i~~~~~T~t~~I f~~~~~f f t r~~~*t~~t~~~~t'  
Calculation Sheet
~r L~~I~~l.~rL\~~a 1'L~~~~~.~1~I L~~~~~~~~I~~~~~I~~I~~I L~~~I L~'9~t L~~I~5'o'vs':.hate.
'"""comms                                          Prepared By:                              Date r w/J Subject U~ Co~~~             (
I a~'~~~.~~~~I~~.~~r~~I~~~I I~~a~~'~a'~~I~~I~~~~~~1~~~I~I~1 t~t 4~~I k~~}~(~t~~a~~g I~~~~~~~I:~'t t~~~~~1~~~~~at I~~~~~~~~I~~~~~~~~~~~r a~~~~~~~I~~~~~~1~~~~*~I~~I~I~L~~ra~'~t 0 la l o 5o'5D GO, 7O.8a.9n I k Qr,',I;t,k~k I Calculation Sheet"'"'lcc ws Qd P-2 Subject AZ88 CO CvJ>~Prepared By: Checked By;Date W 93)~->b-Q Systtset//Job No.d~eJ l/z ah~C8pI CSp'nalysis No.Rev.No.Sheet No.en-c z-BS-I/~-H5 File No.~0~~t&t'uMw~~~ltJ7 D>v'~~c R VA~<<OQS V~tj~mm~~~~WW~v3<~~M Otu Wl7>rJ8,~C.~mme<orJS.W46 a@r'tQAL, CC WPd~t-H&~VSt~~~~%Or.~O~~~E-ZO~PIA~(~c.a-~<",~,~14=-iamb'~Vf~m a~iaHmw Wo Io<W(~~A.cc.~W IOl PT-~~3 CDP't~MI 4~wade'eccSS.
Checked By:
~~KCSUL.i<4<~~PcM~C~CUC~~idun~~~~a~~<~v L'us P5E t o~i Pa~n~~~dva~u3 t m-I~I-f'A W-I&0M S~~t~rJC~~N Qt3d'tZr W~GUS,~QB.P, i is~ia~~<~~m eo~ii=i~eP~ces OIJ~~t (w~Is'a~MlW@i 4w V~(Dds vA-L.v E~g.ill Q8~, 1005 00 CEP3A CEP-V/AO-3A WITH TORQUE MODIFICATION t REVI SED 12-10-83 MASJ'TBGMr'CYGNA INPUT GLOBAL ACCELERATIONS
                                                                      'i'le~ lV)eg.,         Date
'?4'7, 1~26, 0.90 INPUT DATA INPUT OPERATOR FORCE (TORQUE)~LoA~i&OE'?995.GLOBAL G-LEVELS 4.57 NORTH VECTOR ANGLES=90 VERTICAL VECTOR ANGLES=90 EAST VECTOR ANGLES=180 WEIGHT VECTOR ANGLES=90 1~26 90 0 90 180.9 0 90 90 90 LOCAL G-LEVELS-1.74332E-5
                                                                                                  )0- l5'-Q
-4.80652E-6
                                        /                        No                File No.
-.9-1.74332E-5 1.26-3'3323E-6 4'7-4.80652E-6
Syste t       n I Vc. 4=m  C~~J9b Rev. No.                   Sheet No.
-3.43323E-6 OPERATING DRIVE ROD STRESS AT A OPERATING DRIVE ROD STRESS AT B OPERATING CYLINDER BRG PRESSURE t OPERATING VALVE EAR TENSILE STR OPERATING VALVE EAR SHEAR STRES OPERATING EAR BOLT SHEAR STRESS OPERATING EAR BOLT TENSILE STR 412.882 710.744-3'5613E-4 1240.79 63.5285 768'9 353.72 sif=-3.4591E-3
CSP'nalysis No.
,s2f=319 t3f=-2.5?873E-3 mi f=-2193.04 m2f=-5.29623E-3 tt3f=3611.67 9)g DYNAMIC CONPONENTS l DRIVE ROD TENSILE STRESS DRIVE ROD TENSILE STRESS BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS si d=816.102 s2d=851.76 t 3d=3085'.31 mid=9745'8''2d=22844'tt3d=20809.2 AT A 4543'1 AT B 65'45'04 88'181 7118'3 25'6.639 3588'7 23002.1 FIXED PLUS DYNANIC CONPONENTS DRIVE ROD TENSILE STRESS DRIVE ROD TENSILE STRESS PUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS si t=816.106 s2t=1170.76 t3t=3085'.32 mit=5'965'1.6 m2t=22844'tt3t=24420'AT A 4956.39 AT B 7655'.78 88'185 8359 F 01 360.167 4356.86 23355.8 CEP3A CEP-V/AO-3A WITH TORQUE MODIFICATION REVI SED 12-10-83 MAS/TBGM/'CYGNA INPUT GLOBAL ACCELERATIONS
            -oz -SZ-( l                                                M -(S
'?4~57)1~26, 0.90 INPUT DATA INPUT OPERATOR FORCE (TORQUE)D~M~~WC~(~QC?1447.GLOBAL G-LEVELS 4.57 NORTH VECTOR ANGLES=90 VERTICAL VECTOR ANGLES=90 EAST VECTOR ANGLES=180 WEIGHT VECTOR ANGLES=90 1.26 90 0 90 180.9 0 90 90 90 LOCAL G-LEVELS-1.74332E-5
                ~4    N- CulmCS ~br AV~Ac~ SA/s                                            STAN~~
-4'0652E-6-~9-1.74332E-5 1.26-3'3323E-6 4.57-4.80652E-6
LS M~CdWm=-a ~g Wg~ gez ~O J oF
-3.43323E-6 OPERATING DRIVE ROD STRESS AT A OPERATING DRIVE ROD STRESS AT B OPERATING CYLINDER BRG PRESSUPE OPERATING VALVE EAR TENSILE STR OPERATING VALVE EAR SHEAR STRES OPERATING EAR BOLT SHEAR STRESS OPERATING EAR BOLT TENSILE STR 600.434 1033.6-3'5613E-4 2670.32 138.312 1673.13 854'29 si f=-3.4591E-3.,''s2f=771':;t3f=-2~57873E-3 mi f=-5300.54 m2f=-5.29623E-3 t t3f=7453.67 DYNAMI C COMPONENTS D RIVE ROD TENSILE STRESS DRIVE ROD TENSILE STRESS BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS si d=816.102 s2d=851.76 t3d=3089.31 mid=97498.6 m2d=22844.9 tt3d=20809.2 AT A 4543.51 AT B 6949.04 88.6181 7118'3 296.639 3588.37 23002.1 F irYED PLUS DYNAM I C COMPONENTS DRIVE ROD TENSILE STRESS DRIVE ROD TENSILE STRESS PUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS t si t=816.106 s2t=1622.76 t3 t=3089~32 mit=1.02799E+5 m2t=22844'tt3t=28262.9 AT A 5143.94 AT B 7982.64 88.6185 9788.55 434.951 5261.5 23857.1 CEP4A CEP-VPAO-4A WITH TORQUE MODIFICATION REVISED 12-1 0-83 MAS j'TBGM/CYGNA
                                      /I'Ri      cF @c TIE s4+K Ha~, ~~ ~A'/V~ Lc;V~
~~~INPUT GLOBAL ACCELERATIONS 3~71 s 1~34, 0~89 INPUT OPERATOR FORCE (TORQUE)~M~NGLVC'P 995.I NPUT DATA c''P CpO GLOBAL G-LEVELS 3'1 NORTH VECTOR ANGLES=90 VERTICAL VECTOR ANGLES=90 EAST VECTOR ANGLES=180 WEIGHT VECTOR ANGLES=90 1.34-38 52 90-1 28.89'2.1 42 90-38 LOCAL G-LEVELS-1.41525E-5
CbJz    MH/w          u~u'u aA-e7 tw''0 do        z    /5 ///
-5.11169E-6
                            ~&&77'4 ~~WI&4                           ~77K ESZ        US'/A/c v~~~ ~~~M<.                             ~@.~           F~/
-~89 2.92352.824984-3.39508E-6 2.2841-1~05594-3.39508E-6 OPERATING DRIVE ROD STRESS AT A OPERATING DRIVE ROD STRESS AT B OPERATING CYLINDER BRG PRESSURE OPERATING VALVE EAR TENSILE STR OPERATING VALVE EAR SHEAR STRES OPERATING EAR BOLT SHEAR STRESS OPERATING EAR BOLT TENSILE STR 412.882 710'44-3.75613E-4 2300.51 102'84 1238.52 4599.3 si f=-3~4591E-3 s2f=578.81'"" t3f=532~695 mif=-20760
                                          /NlJ.C                 3373<          i
'm2f=-3818.52 tt3f=5474.06 DYNAMI C COMPONENTS t DRIVE ROD TENSILE STRESS AT A DRIVE ROD TENSILE STRESS AT B BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS si d=807.034 s2d=2053.47 t3d=1701'6 mid=64964'm2d=13396.7 tt3d=24569.7 4493.02 6871.83 87'336 9303.24 405.714 4907.83 14492.5 FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS DRIVE ROD TENSILE STRESS PUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS t si t=807~038 s2t=2632.28 t3t=2233.76 mit=85725.4 m2t=17215.2 tt3t=30043.7 AT A 4905~9'T B 7582.57 87'339 11603.7 508.099 6146.36 19091.8 CEP4A CEP-Vf'AO-4A WITH TORQUE MODIFICATION c REV I SED 12-10-83 MAS/'TBGM/CYGNA INPUT GLOBAL ACCELERATIONS
                            /  ~   etc-c-BAAe~ z~~rUw 5~c~s YIKE uJQ(cg /5 'OO
?3.71, 1.34, 0.89 INPUT OPERATOR FORCE (TORQUE)O~wC'A~>44~~~~?1447.INPUT DATA GLOBAL G-LEVELS 3.71 NORTH VECTOR ANGLES=90 VERTICAL VECTOR ANGLES=90 EAST VECTOR ANGLES=180 WEIGHT VECTOR ANGLES=90 1.34-38 52 90-1 28~89 52 142 90-38 LOCAL G-LEVELS-1.41525E-5-5.11169E-6
                                      ~
-.89 2.92352~824984-3.39508E-6 2.2841-1.05594-3.39508E-6 OPERATING DRIVE ROD STRESS AT A 600.434 OPERATING DRIVE ROD STRESS AT B 1033.6 OPERATING CYLINDER BRG PRESSURE-3.75613E-4 OPERATING VALVE EAR TENSILE STR 3730.04 OPERATING VALVE EAR SHEAR STRES 177'8 OPERATING EAR BOLT SHEAR STRESS 2143'1 OPERATING EAR BOLT TENSILE STR 5100'1 sif=-3.4591E-3
",, s2f=1030~81 t3f=532'95 mif=-23868.3 m2f=-3818.
52 tt3f=9316.05


cEP4P.>44a DYNAM I C COMPONENTS DRIVE ROD TENSILE STRESS DRIVE ROD TENSILE STRESS BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS si d=807.034 s2d=2053~47 t3d=1701.06 mid=64964.6 m2d=13396.7 tt3d=24569.7 AT A 4493.02 AT B 6871.83 87.6336 9303,24 405.714 4907.83 14492'GCa~FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT DRIVE ROD TENSILE STRESS AT PUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS~~s 1 t=807.038 s2t=3084.29 t3t=2233.76 mit=88833 m2t=17215.2 tt3t=33885.7 A 5093.46 B 7905'3 87.6339 13033.3 582.894 7051'4 19593 CSP14 CSP-V/AO-1/4P WITH TORQUE MOD I F I GATI ON t REV I SED 12-10-83 MASr'TBGMj'CYGNA INPUT GLOBAL ACCELERATIONS
Calculation Sheet
?1.46, 3 67, 2'3 INPUT OPERATOR FORCE (TORQUE)P~Q~PPJC"?1966.INPUT DATA GLOBAL G-LEVELS 1.46 NORTH VECTOR ANGLES=135 VERTICAL VECTOR ANGLES=90 EAST VECTOR ANGLES=45 WEIGHT VECTOR ANGLES=90 3'7 90 180 90 0 2.13 135 90 135 90 LOCAL G-LEVELS-1.03238-1.39999E-5
              ~i s   uDBV'-Z                                          ~re Prepared By:        I>>        Date    /
-5.56945E-6
                                                                                                / A /p>
-3.67-1.03238-1.39999E-5 1~50613-8.1253E-6
Subject                                                    Checked By:                  Date R!+    r  Md. I                                              g,)                   ) 2-t>-6 Syg~n                                                      Job No.             File No.
-1.50614 OPERATING OPERATING OPERATING t~OP ERAT I NG OPERATING OPERATING OPERATING DRIVE ROD STRESS AT A 815.81 DRIVE ROD STRESS AT B 1404.35 CYLINDER BRG PRESSURE-7.15824E-4 VALVE EAR TENSILE STR 4206.68 VALVE EAR SHEAR STRES 306.895 EAR BOLT SHEAR STRESS 2569.7 EAR BOLT TENSILE STR 1695'4 s 1 f=-5.43205E-3 ,'s2f=2880 ," t3f=-3.48663E-3 mi f=-22319.9 m2f=-1~64417E-2 tt3f=23436.6 DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS DRIVE ROD TENSILE STRESS BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS AT A 20370.4 AT B 31155.3 342'45 11484'648.873 5433'4 7823.03 s 1 d=2600.18 s2d=3354.38 t3d=1668.96 mid=68091.2 m2d=27118.9 tt3d=70644.8 FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A DRIVE ROD TENSILE STRESS AT B PUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS si t=2600.18 s2t=6234.38 t3t=1668.97 Ri t=90411~1 m2t=27119 tt3t=94081.4 21186.2 32559.7 342.646 15691 955.768 8002.83 9518.17 CSP14 CSP-V/AO-1t'4 WITH TORQUE MODI FI CATI ON REVISED 12-10-83 MASr'TBGM/CYGNA
(ca~     d J      ~ J:  ~<~     t .~P Analysis No.
~~~INPUT GLOBAL ACCELERATIONS
pa.-oz. I(
?1~46t 3'7<2.13 INPUT OPERATOR FORCE (TORQUE)?2366'NPUT DATA GLOBAL G-LEVELS 1.46 NORTH VECTOR ANGLES=135 VERTICAL VECTOR ANGLES=90 EAST VECTOR ANGLES=45 WEIGHT VECTOR ANGLES=90 3.67 90 180 90 0 2.13 135 90 135 90 LOCAL G-LEVELS-1.03238-1.39999E-5
Rev. No.
-5.56945E-6
O Sheet No, 6'- I 4
-3'7-1.03238-1.39999E-5 1.50613-8.1253E-6
                      +AS~        &W WOE            PA~t ~+~           F~~     lMVtcb Ti~c~8&#xc3; Ol-           t l + 9 Z pJ LS-(RC7'= Z)
-1.50614 OPERATING DRIVE ROD STRESS AT A 981.785 OPERATING DRIVE ROD STRESS AT B 1690.06 OPERATING CYLINDER BRG PRESSURE-7.15824E-4 t OPERATING VALVE EAR TENSILE STR 4807'8 OPERATING VALVE EAR SHEAR STRES 350'89 OPERATING EAR BOLT SHEAR STRESS 2935.55 OPERATING EAR BOLT TENSILE STR 1930.58 , si f=-5.43205E-3
                              -Pg =     3> (go          /I'Fez            zU 19B
,"s2f=3280"t3f=-3.48663E-3 mi f=-25419.9 m2f=-1~6441 7E-2 t t3f=26836.6 CgV 1 z~DYNAMIC COMPONENTS Q DRIVE ROD TENSILE STRESS DRIVE ROD TENSILE STRESS BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS s1 d=2600.18 s2d=3354.38 t3d=1668.96 mid=68091'm2d=27118.9 tt3d=70644'AT A 20370'AT B 31155.3 342.645 11484.3 648.873 5433.14 7823'3 FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS DRIVE ROD TENSILE STRESS PUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS si t=2600'8 s2t=6634.38 t3t=1668.97 mi t=93511.1 m2 t=27119 tt3t=97481.4 AT A 21352.2 AT B 32845.4 342.646 16291.8 999.462 8368.69 9753.61
                                                        / rC)&D l/g~ Z          //C vz        va14      ~]
~'0 CSR52 CSP-V/AOW/2 WITH TORQUE tRODIFI CATION REVISED 12-10-83 HAS/TBGl"I/CYGNA t INPUT GLOBAL ACCELERATIONS
                                                        / oooo II k
?1.44, 3.57, 1~90 INPUT OPERATOR FORCE (TORQUE)'?1966'NPUT DATA GLOBAL G-LEVELS 1.44 NORTH VECTOR ANGLES=135 VERTI CAL VECTOR ANGLES=90 EAST VECTOR ANGLES=45 WEIGHT VECTOR ANGLES=90 3'7 90 180 90 1~9 135 90 f35 90 LOCAL G-LEVELS-1.01824-1.36185E-5
j- = /./Z5 3   =
-5.49316E-6
z <D      Z,<(C/
-3.57-1~01824-1.36185E-5 1.3435-7.24792E-6
                                          /7'>On-e.~1~@(
-1.34351 OPERATING DRIVE ROD STRESS AT A 815.81 OPERATING DRIVE ROD STRESS AT B 1404.35 OPERATING CYLINDER BRG PRESSURE-7.15824E-4 t OPERATING VALVE EAR TENSILE STR 4206.68 OPERATING VALVE EAR SHEAR STRES 306''95 OPERATING EAR BOLT SHEAR STRESS 2569.7 OPERATING EAR BOLT TENSILE STR 1695.14'if=-5.43205E-3 s2f=2880:,',;," t3f=-3.48663E-3 mi f=-22319.9 m2f=-1.64417E-2 tt3f=23436.6 est'z DYNAMI C COMPONENTS DRIVE ROD TENSILE STRESS DRIVE ROD TENSILE STRESS BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS s1 d=2400.49 s2d=3262.98 t3d=1540'9 mid=63365 m2d=24262.9 tt3d=65656.8 AT A 18806 AT B 28762.8 316'32 10686.5 607.944 5090.43 7168.94 FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS DRIVE ROD TENSILE STRESS PUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS t si t=2400,5 s2t=6142.98 t3t=1540.8 m1t=85684.9 m2t=24263 tt3t=89093.4 AT A 19621.9 AT B 30167.1 316'33 14893 F 1 914.838 7660.13 8864'8 CSP4 2 CSP-V/'AO+l'2 WITH TORQUE MODIFICATION REVISED 12-10-83 MAS/'TBGM/'CYGNA
                                          /44-7      + Z9.7c          83 / q-r
~~~INPUT GLOBAL ACCELERATI ONS 1 44r 3'7r 1 90 INPUT OPERATOR FORCE (TORQUE>'?2366'NPUT DATA GLOBAL G-LEVELS 1.44 NORTH VECTOR ANGLES=135 VERT I CAL VECTOR ANGLES=90'AST VECTOR ANGLES=45 WEIGHT VECTOR ANGLES=90 3.57 90 180 90 0 1.9 135 90 135 90 LOCAL G-LEVELS-1~01824-1.36185E-5
                                              -3. 97(
-5.49316E-6
-3'7-1.01824-1.36185E-5 1.3435-7.24792E-6
-1.34351 OPERATING DRIVE ROD STRESS AT A 981.785 OPERATING DRIVE ROD STRESS AT B 1690'6 OPERATING CYLINDER BRG PRESSURE-7.15824E-4 t OPEPATING VALVE EAR TENSILE STR 4807'8 OPERATING VALVE EAR SHEAR STRES 350'89 OPERATING EAR BOLT SHEAR STRESS 2935.55 OPERATING EAR BOLT TENSILE STR 1930'8 sif=-5.43205E-3
~l, s2f=3280 t3f=-3.48663E-3 mi f=-25419.9 m2f=-1~64417E-2 t t3f=26836.6 DYNANIC CONPONENTS DRIVE ROD TENSILE STRESS AT A DRIVE ROD TENSILE STRESS AT B BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS sid=2400.49 s2d=3262.98 t3d=1540.79 mid=63365 m2d=24262.9 tt3d=65656.8 1 8806 28762.8 316'32 10686.5 607.944 5090.43 7168.94 FIXED PLUS DYNANIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 19787'DRIVE ROD TENSILE STRESS AT B 30452.8 PUSHING PRESSURE 316.333 VALVE EAR TENSILE STRESS 15493.9 VALVE EAR SHEAR STRESS 958.532 EAR BOLT SHEAR STRESS 8025.98 EAR BOLT TENSILE STRESS 9099.52 si t=2400.5 s2t=6542.98 t3t=1540.8 mit=88784'm2t=24263 tt3t=92493.4 CSP39 CSP-Vr AO-3/N WITH TORQUE t"IODIFI CATI ON REV I SED 1 2-1 0-83 HAS/'TBGNr'CYGNA
/~~~INPUT GLOBAL ACCELERATIONS 2.66, 3.17, 3.76 INPUT OPERATOR FORCE<TORQUE)FLO<>oR6)UE'?5'9'S~INPUT DATA GLOBAL G-LEVELS 2'6 NORTH VECTOR ANGLES=90 VERTICAL VECTOR ANGLES=0 5'0 EAST VECTOR ANGLES=90 WEIGHT VECTOR ANGLES=180 3.17 90 5'0 180 5'0 LOCAL G-LEVELS~-1.01471E-5 3.17-1.01471E-5
-1.205'26E-5
-2.66-1.20926E-5
-1.43433E-5
-3.76-1.43433E-5 OPERATING DRIVE ROD STRESS AT A OPERATING DRIVE ROD STRESS AT B OPERATING CYLINDER BRG PRESSURE OPERATING VALVE EAR TENSILE STR OPERATING VALVE EAR SHEAR STRES OPERATING EAR BOLT SHEAR STRESS OPERATING EAR BOLT TENSILE STR 5461.21 8431.86-5'8.4646 5930.22 251.91 3047.3 2443''8 si f=-906.782
<<'s2f=5'5'4~997 t3f=-2.S7873E-3 mi f=-6840~52 m2f=-6234.
1 t t3f=-13646.3 CSV'3 DYNAMIC COMPONENTS t DRIVE ROD TENSILE STRESS DRIVE ROD TENSILE STRESS BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS s 1 d=2874.45'2d=2541.76 t3d=175'8.16 mid=59281.6 m2d=2355'4.3 tt3d=72395'T A 16003~2 AT B 24476 312'33 23765'.1 1017.24 12305.3 14299.1 r+7 3 FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS DRIVE ROD TENSILE STRESS PUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS t 51 t=3781.28 s2t=3536.76 t3t=1798.16 mi t=66122.1 m2 t=25'828.4 tt3t=86045.3 AT A 21464.4 AT B 325'07.5'10.597 25'699.3 1265'.15 15352'16743'


CSP34 CSP-ViAO-3i4 WITH TORQUE t"tODI FI CATION REV I SED 12-10-83 I"tASiTBGNiCYGNA
Calculation Sheet Project
~~~INPUT GLOBAL ACCELERATIONS
        ~                                               Prepared By:      ~ /  ) ~         Date Checked By:                          Date Subject
'P 2.66'.17<3'6 INPUT OPERATOR FORCE (TORQUE)O>~?1447.I NP UT DATA GLOBAL G-LEVELS 2.66 NORTH VECTOR ANGLES=90 VERTICAL VECTOR ANGLES=0 90 EAST VECTOR ANGLES=90 MEIGHT VECTOR ANGLES=180 3~17 90 90 180 90 3.76 180 90 90 LOCAL G-LEVELS-1.01471E-5 3.1?-1.43433E-5
                  ~~PJ'S ~ 77K~ ~                                    fRJ )on JY/ /$ 4'           ~-tz-~p  ~
-1.01471E-5
System                  I              I              IJobNo                    File No.               I lamell&        t VQ      Q=~~ C.gP Sheet No.
-1'0926E-5-3.76-2.66-1.20926E-5
Analysis No.
-1.43433E-5 OPERATING DRIVE ROD STRESS AT A OPERATI tilG DRIVE ROD STRESS AT B OPERATItilG CYLINDER BRG PRESSURE OPERATING VALVE EAR TENSI I E STR OPERATING VALVE EAR SHEAR STRES OPERATING EAR BOLT SHEAR STRESS OPERATING EAR BOLT TENSILE STR 5648.76 8754.72-98'646 5380'5 231.813 2804.19 2945'9&if=-906.782 s2f=1447 43f=-2.57873E-3 mi f=-9948.02 m2f=-6234.
8'-oz-8S- ll Rev. No t=- l7 I ~    ~blD4 ~~5s ~~ 0
1 t t3f=-9804.29 DYNAMIC COMPO JENTS DRIVE ROD TENSILE STRESS AT DRIVE ROD TENSILE STRESS AT BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS A 16003.2 B 24476 312.133 23765'.1 1017.24 12305.3 1425'5'.1 si d=2874~45'2d=2541.76 t3d=1798'6 mid=59281.6 m2d=23594.3 tt3d=72399 FIXED PLUS DYt lAMI C COMPONENTS DRIVE ROD TENSILE STRESS AT DRIVE ROD TENSILE STRESS AT PUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS t'ai t=3781~28 s2t=3988.76 t3t=1798'6 m1t=69229'm2t=25'828.4 tt3t=82203'A 21652 B 33230.7 410.597 25'149.4 1249.05 15109.5 17244' CSP54 CSP-VPAO~t'4 WITH TORQUE MODIFICATION ,REV I SED 12-1 0-83 I"iAS/TBGNr'CYGNA
                            ~~C-~QW~ ~~~t ~+~ Q
~~~INPUT GLOBAL ACCELERATIONS 3'5r 2'4r 4'9 INPUT OPERATOR FORCE<TORQUE)Whorl~WAQc=?995.INPUT DATA GLOBAL G-LEVELS 3~25 NORTH VECTOR ANGLES=90 VERTICAL VECTOR ANGLES=0 90 EAST VECTOR ANGLES=90 WEIGHT VECTOR ANGLES=180 2.94 90 90 180 90 4'9 180 00 90 LOCAL G-LEVELS-1.23978E-5 2.94-1.23978E-5
                                                                    ~      0'<
-1.12152E-5 3~25-1.12152E-5
                                                                                ~ PJ      P~o 4a kW o> ~~~.~c~ f XY~i u  4       .(I447      +  zmD') (4 oo .lo.si 4;",-
-1.59836E-5
                                                                        /0 . a/<
-4.19-1.59836E-5 OPERATING DRIVE ROD STRESS AT A OPERATING DRIVE ROD STRESS AT B OPERATING CYLINDER BRG PRESSURE OPERATING VALVE EAR TENSILE STR OPERATING VALVE EAR SHEAR STRES OPERATING EAR BOLT SHEAR STRESS OPERATING EAR BOLT TENSILE STR 5461.21 8431'6-98.4646 5930'2 251.91 3047'2443.98 si f=-906~782;s2f=994.997 t3f=-2.57873E-3 ml f=-6840.52 , m2f=-6234.1 t t3f=-13646
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                                                                ;.I.l,~ I /
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c.sue DYNAMIC COMPONENTS t DRIVE ROD TENSILE STRESS AT A DRIVE ROD TENSILE STRESS AT B BUSHING PRESSURE VALVE EAR
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REM WEIGHT COMPONENTS for J=i to 3 wa(j)=wao+cos(av(j>)
REM WEIGHT COMPONENTS for J=i to 3 wa(j)=wao+cos(av(j>)
wb(j)=wbr+cos(av(j))
wb(j)=wbr+cos(av(j))
next ph i=ph i+2.+3.1 416/360.1 a=i ave c i 12=c i/i 2 c i 21=cd i 1 ae ar=1 1+1 2 REM CALCULATE EAR FORCES USE B8cR LOADS AS OPT I ON LATER REM FIXED COMPONENTS ARE ALWAYS THERE I br=1 r od+1 c g watr i=1 br+wa(1)J'1 r od si f=wb(1)+watr 1 w to t=wao+wbr s2f=wb(2)+wa(2)+
next ph i =ph   i +2. +3. 1 416/360   .
f s t2 t3f=wa(3)+wb(3) mi f=-(wa(2)+wb(2)+
a=i ave 1
f s t2)+e5-wa(3)+(e3+1 cg)-wb(3)+e4 wb(2)+e 1$5dl af;sdr bf;pbushf;srf;taurf;taubf)btf print print"si f=";si f print"s2f=";s2f pr i n t"t3f=";t3f pr int"ml f=";mi f pr i n t"m2f=";m2f print"tt3f=";tt3f print REM REM CALCULATE VARIABLE COMPONENTS REM dsr=0.dtaur=0'2f=(watr1+wb(1)
c i 12=c i/i2 c i 21=cd i 1 ae ar= 1 1 +1 2 REM CALCULATE EAR FORCES USE B8cR LOADS AS OPT I ON LATER REM FIXED COMPONENTS ARE ALWAYS THERE I br= 1 r od+ 1 c g watr i=1 br+wa(1)J'1 r od si f=wb(1)+watr 1 w to t=wao+wbr s2f=wb(2)+wa(2)+ f s t2 t3f =wa(3)+wb(3) mi f=-(wa(2)+wb(2)+ s        f t2) +e5-wa(3) +(e3+1 cg) -wb(3) +e4
)~e5-wa(3)we2-wb(3>+e 1 tt3f=watri+e3+(wa(2)+fst2>+e2+wb(i)+e4+
 
f cdr f=l cg+wa(1)/i rod maf=f cdr f+(1 rod-13.5)mbf=f cdr f+7.125 sdr af=f st2/aa+abs(maf
                          ) ~e5-wa(3) we2-wb(3> +e   1 tt3f=watri+e3+(wa(2)+fst2>+e2+wb(i)+e4+ wb(2) +e 1 f cdr f=l cg+wa(1)/i rod f +(1 rod-13.5) maf=f cdr'2f=(watr1+wb(1) mbf =f cdr f +7. 125 sdr af=f st2/aa+abs(maf +ca/i a) sdr bf=fst2/ab+abs(mbf +cb/i b) fcof=lcgo+wa(i)/lrodo pbushf=f cof +( dr+d>/(d+abush) 1 REM STRESSES        FROM    FIXED COMPONENTS dear=(d1+di+d2+d2) ++. 5 set3f=abs(t3f/(4+aear))
+ca/i a)sdr bf=f st2/ab+abs(mbf
semi f=abs(m1f/(2+d2+aear          >>
+cb/i b)fcof=lcgo+wa(i)/lrodo pbushf=f cof+(1 dr+d>/(d+abush)
sem2f=abs(m2f/(2+di+aear))
REM STRESSES FROM FIXED COMPONENTS dear=(d1+di+d2+d2)
fcear f=tt3f/(2wdear) fr f=x+fcearf f 11 f=-( f cear f +s i n(ph i ) -fr f icos(ph i ) )
++.5 set3f=abs(t3f/(4+aear))
f22f=fcear f+cos(phi )+frf+sin(phi )
semi f=abs(m1f/(2+d2+aear
st t3f=abs( f f +1 a+c i 12)+abs( f 22f +1 a+c i 2 1 1 sesi f=abs(si f wc i 12+1 a/4. )
>>sem2f=abs(m2f/(2+di+aear))
ses2f=abs(s2f +c i 21+1 a/4. )
fcear f=tt3f/(2wdear) fr f=x+fcearf f 11 f=-(f cear f+s i n(ph i)-f r f icos(ph i))f22f=fcear f+cos(phi)+frf+sin(phi
sr f=se t3f+semi f+sem2f+sesi f+ses2f+st t3f REM EAR SHEAR taui f=abs(si f/(4+aear ) )+abs( f 11 f/aear )
)st t3f=abs(f 1 1 f+1 a+c i 12)+abs(f 22f+1 a+c i 2 sesi f=abs(si f wc i 12+1 a/4.)ses2f=abs(s2f
1 tau22f=abs(s2f/(4+aear) )+abs( f 22f/aear) taur f=( taui f + taui f+ tau22f ~ tau22f ) ++ 5 1          1                       ~
+c i 21+1 a/4.)sr f=se t3f+semi f+sem2f+sesi f+ses2f+st t3f REM EAR SHEAR taui 1 f=abs(si f/(4+aear))+abs(f 11 f/aear)tau22f=abs(s2f/(4+aear)
taubf=taurf+aear/abl t REM EARBOLT        TENSION btf=(se t3f+semi f+sem2f ) +aear/abl t pr  int pr  int"" OPERATING DRIVE ROD STRESS AT A              $ 5dl af print OPERATING DRIVE ROD STRESS AT B                  ; sdr bf print" OPERATING CYLINDER BRG PRESSURE                  ;pbushf pr int" OPERATING VALVE EAR TENSILE STR                ;srf pr int "OPERATING VALVE EAR SHEAR STRES                ;taurf pr i n t" OPERATING EAR BOLT SHEAR STRESS              ; taubf print"OPERATING EAR BOLT TENSILE STR                    )btf print print        f="; si f print "si print "s2f="; s2f pr i n t "t3f=";t3f pr int "ml f=";mi f pr i n t "m2f=";m2f print "tt3f=";tt3f print REM REM CALCULATE          VARIABLE COMPONENTS REM dsr=0.
)+abs(f 22f/aear)taur f=(taui 1 f+taui 1 f+tau22f~tau22f)++~5 taubf=taurf+aear/abl t REM EARBOLT TENSION btf=(se t3f+semi f+sem2f)+aear/abl t pr int pr int" OPERATING DRIVE ROD STRESS AT A print" OPERATING DRIVE ROD STRESS AT B print" OPERATING CYLINDER BRG PRESSURE pr int" OPERATING VALVE EAR TENSILE STR pr int"OPERATING VALVE EAR SHEAR STRES pr i n t" OPERATING EAR BOLT SHEAR STRESS print"OPERATING EAR BOLT TENSILE STR print dtaub=0'bten=0'sa=O.dsb=O.dp ID=0~+leg)-wbr+glc(3,J)+e4
dtaur=0
+el)+glc(3,J>(wao+e2+wbr+ei) f si=0.f s2=0.f t3=0.f ml=0.fm2=0.ftt3=0.for j=i to 3 f co=i cgowwao+ol c (1, j)11 r odo pbush=fco+(idr+d)/(d+abush) ftr i=lbr+wao+glc(i,j)t'lrod si=f tri+wbr+glc(i,j) s2=wtot+glc(2)j) t3=wtot+glc(3,j) mi=-wtot+glc(2,j)+e5-wao+glc(3,j)+(e3 m2=(f tri+wbr+gl c(1, j))+e5-(wao+e2+wbr t t3=f tr 1+e3+wbr+gi c(1, j)+e4+gl c(2,J)+f cdr=1 cg+wao+g1 c (1, j>11 r od ma=fcdr+(l rod-i3.5)mb=f cdr+7.125 s I ga=ma+c al I a s I gb=mb+c bl I b REM CALCULATE EAR TENS1 QN se t 3=abs (t 3/'(4+ac ar))semi=abs(mi/(2+d2+aear
 
))sem2=abs(m2/'(2+di+aear))
dtaub=0
f c ear=t t 3/(2+de ar)f r=x+f cear f11=-(fcear+sin(phi
          'bten=0
)-fracas(phi
            'sa=O.
))f22=fcear+cos(phi
dsb=O.
)+fr+sin(phi)st t3=abs(f 11+1 a+c i 12)+abs(f 22+1 a+c i 21>sesi=abs(si+c i 12+1 af'4.)ses2=abs(s2+ci21+la/4.)
dp ID=0 ~
sr=set3+semi+sem2+sesi+ses2+stt3 REiR EAR SHEAR taui l=abs(si/'(4
f si=0.
~+aear))+abs(f 11/'aear)tau22=abs(s2/(4.+aear))+abs(f 22/aear)tauear=(tauii+tauii+tau22+tau22)++
f s2=0.
~5 taublt=tauear+aearr'ablt REN EARBOLT TENSION btens=(set3+semi+sem2)+aear/ablt dsa=dsa+siga+siga dsb=dsb+sigb+sigb dpb=dpb+pbush+pbush dsr=dsr+sr+sr dtaur=dtaur+
f t3=0.
tauear+tauear dtaub=dtaub+taubitwtaublt e
f ml=0 .
dbten=dbten+btens+btens f si=f si+si+si f s2=f s2+s2+s2 f t3=f t3+t3~t3 f mi=f mi+ml+mi fm2=f m2+m2+m2 f t t3=f t t3+t t3+t t3 next j REM COMBINE STRESSES dsa=dsa++e5 dsb=dsb++.5 dpb=dpb~+.5 dsr=dsr++.5 dtaur=dtaur++.5 dtaub=dtaub++.5 dbten=dbten++.5 f si=f si++~5 f s2=f s2++.5 f t3=f t3++.5 fml=fml++.5 f m2=f m2++~5 f t t3=f t t3++.5 print t e x t 0, 8c DYNAM I C COMPONENTS 5 print print"DRIVE ROD TENSILE STRESS print"DRIVE ROD TENSILE STRESS print"BUSHING PRESSURE print"VALUE EAR TENSILE STRESS print"VALUE EAR SHEAR STRESS print"EAR BOLT SHEAR STRESS print"EAR BOLT TENSILE STRESS print print"sid=";fsi pr i n t"s2d=";f s2 pr int"t3d=";f t3 pr in t"mid=";fml print"m2d=";fm2 print"tt3d=";f tt3 pr int dsa=dsa+abs(sdr af)dsb=dsb+abs(sdrbf
fm2=0.
)~dpb=dpb+abs(pbush f)dsr=dsr+abs(sr f)dtaur=dtaur+abs(taurf)dt*ub=dtaub+abs(taubf)dbten=dbten+abs(btf) f si=f si+abs(si f)AT A"sdsa AT B")dsb"'dpb'sr";dtaur";dtaub";dbten f s2=f s2+abs(s2f)f t3=f t3+abs(t3f)f ml=f mi+abs(mi f)fm2=fm2+abs(m2f
ftt3=0.
)f t t3=f t t3+abs(t t3f)print text 0,8c FiiYED PLUS DYNAMIC COMPONENTS 8c print print"DRIVE ROD TENSILE STRESS AT A";dsa print"DRIVE ROD TENSILE STRESS AT B";dsb print"PUSHING PRESSURE";dpb print"VALVE EAR TENSILE STRESS";dsr print"VALVE EAR SHEAR STRESS";dtaur print"EAR BOLT SHEAR STRESS";dtaub print"EAR BOLT TENSILE STRESS";dbten E'rint pr int print print print print print pr int end"si t=" fsi"s2t="'s2 t"t3t-"'f t3"mi t="'fml 7"m2t=" fm2"t t3t=")f tt3 R~P~V O'ASIIINCTON PUBI.IC POWER SUPPLY SYSTEM SUPPI,IER TRANSIIIITTAI, FORM (AREA WITHIN HEAVY BORDER TO BE COMPLETED BY SUPPLIER)TO THE ATTENTION OFa 3 0 p p 0 pF I>A"lg PUgCHASp gGEItg YEpgotfTf+ATdADMIN.)
for j=i to             3 f co=i cgowwao+ol c (1, j ) 11 r odo pbush=fco+(idr+d)/(d+abush) ftr i=lbr+wao+glc(i,j)t'lrod si=f tri+wbr+glc(i,j) s2=wtot+glc(2)j) t3=wtot+glc(3,j) mi=-wtot+glc(2,j)+e5-wao+glc(3,j)+(e3 +leg)-wbr+glc(3,J)+e4 m2=( f tri+wbr +gl c(1, j) ) +e5-(wao+e2+wbr +el)+glc(3,J>
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t t3=f tr 1+e3+wbr +gi c(1, j ) +e4+gl c(2,J ) + (wao+e2+wbr+ei) f cdr =1 cg+wao+g1 c ( 1, j >11 r od ma=fcdr +(l rod-i3.5) mb=f cdr +7. 125 s I ga=ma+c         al I a s I gb=mb+c         bl b I
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REM   CALCULATE EAR TENS1 QN se t 3= abs ( t 3/'( 4 +ac ar ) )
/1 R COMMENTS: IUSE ADDITIONAL SHEET, IF REQUIRED)TO BE REVIEWED BY ECEIVED BY: IPURCHASING ONLY)TRANSMITTED BYs IPURCHASING ONLY)APP AME D BYc E IT LK//Z-ACTION LEGEND'~APPROVED FOR PUBLICATION AN%APPROVED AS NOTED FOR FABRICATION WP 170 RI I%INFORMATION ONLY NA%NOT APPROVED}}
semi=abs(mi/(2+d2+aear ) )
sem2=abs(m2/'(2+di+aear))
fc ear= t t 3/(2+de ar )
f r=x+fcear f11=-(fcear+sin(phi )-fracas(phi       ))
f22=fcear+cos(phi )+fr +sin(phi )
st t3=abs( f 11+1 a+c i 12)+abs( f 22+1 a+c i 21>
sesi=abs( si +c i 12+1 af'4. )
ses2=abs(s2+ci21+la/4.)
sr=set3+semi+sem2+sesi+ses2+stt3 REiR EAR           SHEAR taui l=abs(si/'(4 +aear) )+abs(f 11/'aear )
                            ~
tau22=abs( s2/(4. +aear ) ) +abs( f 22/aear )
tauear=(tauii+tauii+tau22+tau22)++ 5        ~
taublt=tauear+aearr'ablt REN EARBOLT TENSION btens=(set3+semi+sem2)+aear/ablt dsa=dsa+siga+siga dsb=dsb+sigb+sigb dpb=dpb+pbush+pbush dsr=dsr +sr+sr dtaur=dtaur+ tauear+tauear dtaub=dtaub+taubitwtaublt
 
e dbten=dbten+btens+btens f si=f si+si +si f s2=f s2+s2+s2 f t3=f t3+ t3~t3 fmi = fmi+ml +mi fm2=fm2+m2+m2 f t t3=f t t3+ t t3+t t3 next   j REM COMBINE STRESSES dsa=dsa++e5 dsb=dsb++.5 dpb=dpb~+.5 dsr =dsr++. 5 dtaur=dtaur++.5 dtaub=dtaub++.5 dbten=dbten++.5 f si=f si ++ 5~
f s2=f s2++. 5 f t3=f t3++.5 fml=fml++.5 fm2= fm2++ ~
f t t3=f t t3++.5 print t e x t 0, 8c DYNAMI C COMPONENTS 5 print print "DRIVE ROD TENSILE STRESS     AT A"sdsa print "DRIVE ROD TENSILE STRESS     AT B")dsb
                                        " 'dpb print "BUSHING PRESSURE print "VALUE EAR TENSILE STRESS           'sr print "VALUE EAR SHEAR STRESS           ";dtaur print "EAR BOLT SHEAR STRESS           ";dtaub print "EAR BOLT TENSILE STRESS         ";dbten print print "sid=";fsi pr i n t "s2d="; f s2 pr int "t3d="; f t3 pr in t "mid=";fml print "m2d=";fm2 print "tt3d=";ftt3 pr int dsa=dsa+abs( sdr af )
dsb=dsb+abs(sdrbf       ) ~
dpb=dpb+abs( pbush       f) dsr=dsr+abs(sr f )
dtaur=dtaur+abs( taurf) dt*ub=dtaub+abs( taubf )
dbten=dbten+abs(btf) f si=f si+abs(si f )
 
f s2=f s2+abs( s2f )
f t3=f t3+abs( t3f )
fml = fmi+ abs(mi f )
fm2=fm2+abs(m2f )
f t t3=f t t3+abs( t t3f )
print text 0,8c FiiYED PLUS DYNAMIC COMPONENTS   8c print print "DRIVE ROD TENSILE STRESS AT A";dsa print "DRIVE ROD TENSILE STRESS AT B";dsb print "PUSHING PRESSURE               ";dpb print   "VALVE   EAR TENSILE STRESS ";dsr   E'rint print "VALVE EAR SHEAR STRESS         ";dtaur print "EAR BOLT SHEAR STRESS           "; dtaub print "EAR BOLT TENSILE STRESS         ";dbten pr int   "si t=" fsi print    "s2t=" 't s2 print    "t3t-" 'f t3 print    "mi t=" 'fml 7
print    "m2t=" fm2 print    "t t3t=" f tt3
                  )
pr int end
 
R~P~ V O'ASIIINCTON PUBI.IC POWER SUPPLY SYSTEM SUPPI,IER TRANSIIIITTAI,FORM (AREA WITHIN HEAVY BORDER TO BE COMPLETED BY SUPPLIER)
TO THE ATTENTION OFa 30pp  0 pF     I>A"lg PUgCHASp gGEItg   YEpgotfTf+ATdADMIN.)
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                                                                                        'ACH CONTRACT NO:      C NO. OF PRINTS               OF EACH         NO. DF REPRODUCIBLES             OF     PO NO:
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Latest revision as of 05:23, 24 February 2020

Qualification of Purge & Vent Valves at WPPSS-2, Vols 1 & 2
ML17277B220
Person / Time
Site: Columbia Energy Northwest icon.png
Issue date: 12/11/1983
From: Armstrong D, Matthew Meyer, Michael Scott
CYGNA ENERGY SERVICES
To:
Shared Package
ML17277B221 List:
References
NUDOCS 8312300157
Download: ML17277B220 (167)


Text

REGULA TO 1%&ORNATION DISTRIBUTION >i (RIDE)

ACCESSION NBR:8312300157 DOC ~ DATE: 83/12/11 NOTARIZED: NO DOCKET FACIL'0 397 WPPSS Nuclear Projects Unit 2E Washington Public Powe 05000397 AUTH. NAME 'AUTHOR AFFII IATION MEYEREM ~ Cygna Energy Services SCOTTpM, Cygna Energy Services ARMSTRONGiD, Cygna Energy Services RECIP ~ NAME RECIPIENT AFFILIATION

SUBJECT:

"Qualification of Purge L Vent Valves at WPPSS<<2E" Vols 1 L 2."

DISTRIBUTION CODE: S001S TITLE: Licensing COPIES RECEIVED:LTR IC ENCL Submittal: PSAR/FSAR Amdts L Related g~ SIZE:(~g2 Correspondence g~g L ePVle gEPg 'OTES:

RECIPIENT COPIES RECIPIENT COPIES ID CODE/NAME LTTR ENCL ID CODE/NAME LTTR ENCL NRR/DL/ADL 1 0 NRR LB2 BC 1 0 NRR LB2 LA 1 0 AULUCKER, 01 1 ELD/HDS2 1 IE FILE 1 1'NTERNAL:

IE/DEPER/EPB 36 3 IE/DEPER/IRB 35 1 IE/DEQA/QAB 2$ NRR/DE/AEAB NRR/DE/CEB NRR/DE/EQB ii 13 1

1 2

NRR/DE/EHEB NRR/DE/GB 28 1

1 2

NRR/DE/MEB 18 1 NRR/DE/MTEB 17 1 NRR/DE/SAB 24 1 NRR/DE/SGEB 25 NRR/DHFS/HFEB40 1 NRR/DHFS/LQB 32 1 NRR/DHFS/PSRB 1 NRR/DL/SSPB 1 NRR/DS I/AEB 26 1 NRR/DS I/ASB 1 NRR/DS I/CPB 10 1 NRR/DSI/CSB 09 1 i-NRR/DSI/I CSB 16 '1 NRR/DS I/METB 12 1 ]a NRR/DSI/PSB 19 1 N /RAB 22 1 0 NRR/DSI/RSB 2K REG F IL 04 1 1 c RGN5 3 /MIB 1 0 EXTERNAL: ACRS 41 BNL(AMDTS ONLY)

DMB/DSS (AMDTS) FEMA-REP DIV 39 1 LPDR 03 NRC PDR 02 1 NSIC 05 NTIS 1 TOTAL NUMBER OF COPIES REQUIRED: LTTR 53 ENCL 46

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'1 VOLUME I ATTACHMENT A QJALIFICATION OF PURGE AND VENT VALVES PREPARED FOR:

WASHINGTON PUBLIC POWER SUPPLY SYSTEM WNP-2 SITE VALVE SIZES: 24" AND 30" VALVE MANUFACTURER: BIF A UNIT OF GENERAL SIGNAL OPERATOR MANUFACTURER: MILLER AIR PRODUCTS REPORT DATE: DECEMBER 11, 1983 PREPARED BY:

ilon Meyer and Mark Scott REVIEWED BY:

Dennis Armstron APPROVED BY:

3.E. Rhoads 8+f+300157 050 00gg7 PDP @DOCK PDR A

TABLE OF CONTENTS

~Pa e VOLUME I

l. Introduction
2. Synopsis
3. Functional Description and Application
4. Limiting Condition for Operation
5. Response to NRC Concerns (Summary) 5.1 Installation Information 5.2 Dynamic Torques for Worse Case Geometry 5.3 Valve Pressure Ratings 5.4 Discussion of LOCA Curves
6. Discussion of Operability 21
7. Summary of Structural Analysis 21
8. Summary of Flow Calculations 28
9. Qualification Summary 28
10. References 29 VOLUME II Additional Attachments Attachment 8 Draft Copy of WNP-2, SER, Outstanding Issue No. 26 Attachment C Limiting Condition for Operation (LCO)

Attachment D - WPPSS Letter to NRC Attachment E Supplemental Calculations Including Final As-Built Review VOLUME III Attachment F Structural Analysis of 30" Valves QID 361104 VOLUME IV Attachment G Structural Analysis of 24" Valves QID 361106 VOLUME V Attachment H In-Situ Test Results Attachment I- WPPSS Flow Calculations

TABLE OF CONTENTS (Contd.)

Attachment J Vendor (BIF) Flow Test and Results l) Torque Load Tests For Straight Pipe

2) Torque Load Tests With Connected Elbow Attachment K Field Modifications, PED h Startup Work Requests Attachment L Drawings l) Debris Screen Photograph
2) Flow Diagram M543
3) Piping Isometrics
4) Valve Drawings
5) Operator Drawings
6) Valve Data Sheets

QJAI IFICATION OF PURGE AND VENT VALVES AT WNP-2 1.0 Introduction The Nuclear Regulatory Commission is concerned about operability of the WNP-2 purge and vent valves when subjected to a postulated LOCA in combination with seismic plus hydrodynamic conditions. Specifically, their concern is the ability of these valves to close in the time re-quired to prevent discharge of radioactive gases to the outside environ-ment. The valves identified as the containment isolation valves in the purge and vent system are as follows:

Valve Number Valve Size (in) Use Location CSP-V-1 30 Supply Outside Containment CSP-V-2 30 Supply Outside Containment CSP-V-3 24 Supply Outside Containment CSP-V-4 24 Supply Outside Containment CEP-V-1A 30 Exhaust Outside Containment CEP-V-2A 30 Exhaust Outside Containment CEP-V-3A 24 Exhaust Outside Containment CEP-V-4A 24 Exhaust Outside Containment 2.0 ~Sno sis Qualification of WNP-2 purge and vent valves for a postulated LOCA condition superimposed with a seismic/hydrodynamic event is exhibited by analysis utilizing dynamic flow calculations, detailed structural integrity studies, dynamic flow tests and investigation of actual on site configurations.

Operability was addressed by in-situ testing (equivalent static load) of the operator, dynamic flow testing of a similar valve (12") and subsequent calculations to account for dynamic air/steam flow conditions.

Final As-built qualification has been demonstrated on the WNP-2 purge and vent valves by the use of appropriate dynamic torque coefficients for associated installation configurations coupled with a restricted valve opening angle to 70 degress.

3.0 Functional Descri tion and A lication The containment purge and vent valves are butterfly valves manufactured by BIF, a unit of General Signal Corporation and are identified as model numbers A-206765 (24") and model number A-206763 (30"). Both sizes use Miller Air Products air cylinder operators (air to open and spring to close in the fail-safe mode).

CSP-V-l CSP-V-2 are 30" butterfly valves which are normally closed, and are open only for drywell purge, and drywell inerting. During drywell purge air is supplied by the reactor building ventilation system through these valves into containment. During drywell inerting, nitrogen from the containment inerting system is introduced to the drywell through these valves. Valves fail closed on loss of air or power and close on F,A,Z signal regardless of operating switch position. Figure l provides a schematic flow diagram for all eight valves. Also, Attachment L Sec-tion 3 provides Flow Diagram M543 with the valve locations identified.

CEP-V-lA CEP-V-2A are 30" butterfly valves which are normally closed, and are operated only for drywell purge and drywell inerting. During drywell purge or inerting operations, the exhaust gas exits containment through these valves and is routed to either the elevated exhaust stack or to the Standby Gas Treatment System. Used in conjunction with CSP-V-l and CSP-V-2 these valves fail closed on loss of air or power and close on F,A,Z signal regardless of operating position.

CSP-V-3 CSP-V-4 are 24" butterfly valves which are normally closed, and are opened only for wetwell purge, or wetwell inerting. During wetwell purge, air is supplied by the reactor ventilation system through these valves to the wetwell volume. During wetwell inerting, nitrogen from the containment inerting system is introduced through these valves. Valves used in conjunction with CEP-V-3A and CEP-V-4A fail closed on loss of air or power and close on F,A,Z signal regardless of the operating switch position.

CEP-V-3A CEP-V-4A are 24" butterfly valves which are normally closed, and are opened only for wetwell purge and wetwell inerting. During wet-well purge or inerting operations, the exhaust gas exits containment through these valves and is routed to either the elevated exhaust stack or to the Standby Gas Treatment System. Used in conjunction with CSP-V-3 and CSP-V-4, these valves fail closed on loss of air or power and close on F,A,Z signal regardless of the operating position.

The purge system is desicped to purge either the drywell or the wetwell.

Only one entrance and one exhaust line will be open at any given time.

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4.0 Limitin Condition for 0 eration The Purge and Vent System at WNP-2 for normal operation, is controlled with 2" bypass lines (two pairs) for inerting, de-inerting and pressure control. The large 24" and 30" purge and vent valves will be used only during off-power operation in accordance with the limiting conditions for operation (LCO) as shown below.

Each 24" and 30" purge and exhaust isolation valve shall be normally closed during the time period:

1. Within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> after Thermal Power is greater than 15% of Rated Thermal Power, following start-up to within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> prior to reducing Thermal Power to less than 15K of Rated Thermal Power, preliminary to a scheduled reactor shutdown.
2. The valve opening angle will be limited to 70 degrees and will be implemented prior to 5X Rated Thermal Power.

Each 2" purge valve may be open for purge system operation for in-erting, de-inerting and pressure control.

A complete copy of this LCO is provided in Attachment C.

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5.0 Res onse to NRC Concerns (Summar )

5.1 NRC Concern No. 1 Valve Installations Detailed valve installation information was not provided for each valve such as:

Item 1. Direction of flow.

Item 2. Disc closure direction.

Item 3. Curved side of disc, upstream or downstream (asymmetric discs).

Item 4. Orientation and distance of elbows, tees, bends, etc.

within 20 pipe diameters of valve.

Item 5. Shaft orientation.

Item 6. Distance between valves.

Su 1 S stem Res onse - Valve Installations Complete details of the valve installations are provided.

Figure 3 CEP-V-1A and CEP-V-2A Figure 4 CEP-V-3A and CEP-V-4A Figure 5 CSP-V-1 and CSP-V-2 Figure 6 CSP-V-3 and CSP-V-4 Item 1 Direction of Flow For normal flow considerations at WNP-2, the valves are installed in the manufacturer's preferred orientation. Therefore, the exhaust valves (CEP) are installed in the preferred direction of flow for both venting containment and flow which is a result of LOCA.

However, the supply valves (CSP) are installed for preferred flow toward containment and will be subjected to non-preferred flow direction during postulated LOCA condition (see figure 2).

These CSP valves are potentially subject to reversed torque due to flow out of containment. To assure that only positive closure torque occurs, all valve openings will be limited to 70'nd therefore precluding the negative flow induced torque.

Item 2 Disc Closure Direction Disc closure directions are provided in Figures 1 through 4. For installations downstream from an elbow, LOCA induced flow tends to help close the valve.

Item 3 Curved Side of Disc Installation The BIF valves used at WNP-2 do not have a curved side and the air foil lifting characteristics associated with this type of configura-tion will not exist on WNP-2 valves. The location of the seal ring is shown in figures 3 thru 6.

Item 4 Orientation and Distance of Elbows Tees Bends Etc.

Detailed valve installation information for piping configuration is provided in Figures 3 through 6.

Item 5 Shaft Orientation Detailed valve installation information for shaft orientations is provided in Figures 3 through 6.

Item 6 Distance Between Valves Detailed valve installation information for the distance between valves is provided in Figures 3 through 6.

5.2 NRC Concern No. 2 - Flow Torque vs Seating Torque The worst case geometry at large angles of valve openings can pro-duce very high torques that would be considerably larger than seat-ing torque. These dynamic torques should be used in the structural analysis instead of seating torques.

Su 1 S stem Res onse No. 2 The qualification analysis used the larger of either seating torque or flow induced dynamic torques.

5.3 NRC Concern No. 3 Valve Pressure Ratings Valve pressure ratings and a static pressure analysis are not ad-dressed in the submittals. The applicant is to provide this infor-mation for each of the valves.

Su 1 S stem Res onse No. 3 Valve pressure rating of 150 lbs is provided by the Vendor Data Sheets (Attachment L Section 6). Analysis for pressure loading is provided by BIF vendor calculations:

24" Valves Attachment G, Section 7.0 Sheet B-61 30" Valves Attachment F, Section 7.4 Sheet 7.4.61 5.4 NRC Concern No. 4 - LOCA Curves Included were plots of flow rate versus time from LOCA initiation for the 24 inch and 30 inch valves maintained in a full open closure from 90'o 0'hich should be deleted. However, the analysis is not affected.

Su 1 S stem Res onse No. 4 The LOCA curves present have two abscissa labels. Supply System agrees that the valve angle information should be deleted and that the analysis is not affected.

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6.0 Discussion of 0 erabilit Operator operability was demonstrated by a stress integrity calculation and a static deflection test. The static deflection test consisted of applying a load at the outboard end of the air/spring cylinder equivalent to the SRSS actuator assembly CG acceleration loads. Determined from the piping analysis, in the two axes of the cylinder this load would cause the most adverse operability effect. This acceleration level times the cylinder weight, acting at the cylinder CG, was equated by an equal mo-ments approach to an equivalent force acting at the outboard end of the cylinder assembly. Flith the load applied, the air supply was removed and the spring loaded cylinder was allowed to move to its fail-safe (de-ener-gized) position. Acceptable operation of the air cylinder was its abil-ity to move from its energized position to the fail-safe position with the load applied at the outboard end.

This static load method of demonstrating operability is deemed very conservative because of the following reasons:

1) Time duration of a peak seismic/hydrodynamic acceleration is very small compared to a steady (static) load.
2) Static friction is greater than dynamic friction.
3) Square root sum of squares of two orthogonal directional accelera-tions is conservatively applied to the worst case direction.

Conditions and results for the valve stroke tests with and without statically applied loads is provided in Attachment 3.

An enveloping test was successfully performed on both the 10" bore cylinder (part of the 30" butterfly valve assembly) and the 8" bore cylinder (part of the 24" butterfly valve assembly).

Summar of Structural Anal sis Detailed structural analysis was performed on the valve and air/spring actuator. The following is a summary of the analysis performed.

Com anent Descri tion QID No. Attachment NPPSS Supplemental Calculations (Review of As-built conditions) 30" BIF Butterfly Valves 361104 24" BIF Butterfly Valves 361106 30" Valve Vendor (BIF) Calcuations 361104 F Section 7.4 24" Valve Vendor (BIF) Calcuations 361106 G Section 7.0 ll 0

A summary of critical valve components is provided in Table ZIfor 24" size and Table I for 30" size.

To assure a very high confidence level, normal condition allowables (including 0.4 Sy for shear) were used as criterion for the combined postulated LOCA and seismic/hydrodynamic conditions. Since the valve opening angle will be limited, the operational torques (LOCA) were used in-lue-of the design seating torques, thereby, providing a higher margin of safety on loading deemed less predictable while still maintaining standard margins of safety on design seating loads.

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0 Summar of D namic Tor ues and Available S rin Closure Tor ues The purge system valves (CSP-V-1 thru CSP-V-4) are installed with the flat side of the disc upstream. When these valves are in the full open position (90 degrees), the dynamic torque coefficient becomes negative (tends to open the valve). Based on the test results provided in the BIF report (Attachment J Report No. 2) the worst case negative torque coefficient (CT = .34) is less than the bounding torque coefficient (Cy = + .56) used in the BIF calculations. For comparison purposes both the full open valve dynamic torques and the 70'pen dynamic torques are compared to the available air operator spring closure torque.

Butterf1 Valve with Disc U stream Flow at 1 sec. and disc angle 90' Full Open Dynamic (1) Actuator Spring Margin of Valve Size Tor ue (0 enin ) Tor ue Available (Closure) Safet 24" 6,830 In. Lb. 11,900 In. Lb. 1.7 30 II 13,640 In. Lb. 23,470 In. Lb. 1.7 Flow at 1 sec. and disc angle 70'pen Dynamic Actuator Spring I Margin of Valve Size Tor ue (Closure) Tor ue Available (Closure) I Safet Not 24" 1,200 In. Lb. 18,600 In. Lb. 1 Applicable IBoth Loads 30 ll 2,400 In. Lb. 33,700 In. Lb. IProvide I Closure I

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8.0 Summar of Flow Calculations The shortest purge line with the lowest flow resistance was analyzed to determine the Mach number of the fluid flowing through the butterfly iso-lation valve as a function of valve opening angle. Based on this analy-sis, it was determined that valve angle positions of 70'r less will assure that the Mach number through both the inner and outer isolation valve remains below Mach number 0.3 following a postulated LOCA. The containment pressure and temperature used as a forcing function for this analysis were obtained from the WNP-2 FSAR (figures 6.2.2 and 6.2.3) for a postulated DBA. Containment pressure obtained from these figures was based on the assumption that there was no fluid leaving containment. If the purge valves were open the containment pressure would be slightly less than that used in this analysis. Flow calculations are provided in Attachment K.

9. 0 Qualification Summar 9.1 The 30" and 24" diameter purge and supply valves are closed for normal plant operation since the small 2" lines will be used for inerting, de-inerting and pressure make-up.

9.2 NRC has recommended the disc opening be limited. Prior to 5X power, WNP-2 will install a mechanical device which limits the opening to 70 degrees. This restriction on valve opening coupled with appropriate dynamic torque coefficients resolves safety and qualification concerns for LOCA conditions. 9.3 Due to the pipe length and associated line loss coefficients; the maximum flow velocity for full open valves was calculated to be 0.33 Mach number, thereby assuring that correlation methods used with compressible fluid calculations as previously presented is valid. With a restriction on valve opening, the Mach number will be less than 0.3 for all conditions. Additional conservation is introduced because the LOCA pressure and temperature curves did not take credit for flow through these valves during closure time. Also, the pressure excursion assumes a very conservative double ended pipe break. 9.4 As-built configuration of the valves (especially with the 70 degree angle restriction) precludes the possibility of flow induced opening torque. Therefore, the air operator spring and flow will combine to assure valve closure in less than the required 5.0 seconds. 9.5 Structural integrity of these purge and vent valves has been at-tained by combining two faulted conditions (SSE/Hydrodynamic plus LOCA) using normal allowables. This includes shear allowables of 0.6 Sm for pressure boundary ASME components and 0.4 Sy for AISC components. A table which summarizes the calculated stresses and allowables is provided in Attachment I. NOTE Field modifications to strengthen the support brackets and replacement of bolts have been performed. Documentation is provided in Attachment K. 9.6 Since the valves are normally closed, there is a low probability that LOCA conditions will occur with the valves open. Furthermore, a very low probability of all three conditions (valves open, LOCA and seismic/hydrodynamic) will occur simultaneously. Therefore, this very conservative approach of combining all three unlikely con-ditions and comparing to Normal/Upset condition allowables exhibit large confidence levels. 9.7 Operability was demonstrated by analysis and in-situ (static load) testing. 9.8 In conclusion the purge and vent valves satisfy all the Equipment Qualification criteria implemented at WNP-2 for'even 90'full open) valves. Limiting the disc angle to 70'rovides additional margin to address the following NRC concerns. Therefore, our WNP-2 design:

1) Assures dynamic torque due LOCA conditions will always be a positive closure torque.
2) Assures Mach Number will be less than 0.3, and
3) Limits magnitude of dynamic flow induced torque.

10.0 References 10.1 NUREG-0892, WNP-2 SER Outstanding Issue No. 26, "Operability of Purge Valves" 10.2 NRC Standard Review Plan 6.2.4, "Containment Isolation System" Containment Systems Branch (CSB) 10.3 Branch Technical Position CSB 6-4, "Containment Purging During Normal Plant Operations" Supplement to SRP Section 6.2.4 10.4 Letter, A. Schwencer (hRC) to R.L. Ferguson (SS), "Request for Addi-tional Information", dated September 16, 1982, Docket No. 50-39 10.5 WPPSS Letter, February 24, 1983, G.D. Bouchey to A. Schwencer (hRC) with Attachments 10.6 WPPSS Letter, June 22, 1983, G.D. Bouchey to A. Schwencer (hRC) with Attachments VOLE% II 1'PPSS OF PURGE ANO YENT VALVES AT

                                           'JALIFICATION lOP-2 ATtAC8'HA'   -  DRAFT COFY OF lOP-2,  SER, OUTSTANDING ISSUE NO. 26 ATTACHMENT C  LINITII'6 CONOITIPS FOP, OPERATION (LCO)

A1TAHBIT D , I'FPSS UTIER TO NRC " ATTAQK'6 E SUPPLEMENTAL CALCULATION INCLUDING FINAL AS-BUILT REVIBt

tiOP P, ', g~HIi";Os 'NUCLEC.R PROJECT 2 DOCXET NO. 50-397 0~NSTRATION OF CONTAINMENT PURGE ANO VENT VALVE OPERABILITY/ 1.0 Requirement D~nstratfon of operability of the contafanent purge and vent valves, par-ticularly the ability of these valves to close during a design basis accident, is necessary to assure contairnent isolatfon. This d~nstration of operabfl-fty is required by BTP CSB 6-4 and SRP,3.IO for containrant purge and vent yalves ~fch are not sealed closed during ooeratfCCWcondftfons I, 2. 3, and 2.0 Descrf tion of Purge and Vent Valves The valves fdentfffed as the contafnrent isolation valves in the purge and vent system are, as follms: Yal ve Nunber inches Use Location CSP-VA 30 Vent. Supply Outside Contafrgqent CSP-Y-2 30 Vent. Supply Outside Contafnrznt CSP-Y-3 24 Yent. Supply Outside Contafrnent CSP-Y-4 24 Vent. Supply Outside Containrent CEP-Y-IA 30 Vent. Exhaust Outside Contafrwent CEP-Y-2A 30 Vent Exhaust Outs ide Conta f nnant CEP-Y 3A 24 Vent Exhaust Outside Contairaent CEP-Y-4A 24 Vent. ~ Exhaust Outside Conta'fnrent 1 .The conta$ rnent purge and vent valves are butterfly valves manufactured by 8IF, a mft of General Signal Corporation and are listed as BIF Model Hurdler A 2M765 (24" valves} and 8IF Hodel Nunber A-206763 (30 valves}. %lier Air Products Corporation Model A-83 cylinders (afr open - spring closed) are used for valve actuation The 24-inch valves use 8" cylinders and the 30'alves use 10'ylinders. 3.'0 Geaanstratf on of erabil it . p )gal 3.I Vhshfnqton Pub'lic Pomr Supply System (MPPSS) has provided operability d~nstratfon fnformatfon for the containment purge and vent system isolation valves used at their Mashington Nuclear Prospect 2 (MHP 2) in the following. sutmf ttal s: Reference A MppSS letter, F'ebruary 24, 1983, G. G. Bouchey to A. Sch~encer (NRC).

2 FA c Reference 8 p>1 jt[ t'-'ihhC Ee. t VPPSS letter, June 22, )983, G. D. Bouchey to A. Schxencer (%C). 3,2 ~termination of dynamic torques durfno valve closure against the bufldup of containment pressure during a LKA is based on dynamic torque coefffcfents CT obtained fry BlF tests performed using different types of disc geometry and disc and shaft orientation xith respect to direction of flow. The test

  ~i~

t ons fifth fs mter and no air. testing xas performed. One of the test conffgura-inc included a directly connected short radius elbox upstream to study the qffect of flox non-uniformity on dynamic torque. r a 1 so per-Several tests xere fo~ the valve shaft vertical and horfzontal, counter clockxise opening and clockxfse opening, xith flatside upstream and flatsfde doxnstream. Frcn these tests, the most severe case xas determined.to be a vertical shaft orfen-tatfon ($ .e. perpendicular to the plane of the elbow) with the flatsfde of the disc d~stream and xfth a clockxise rotation of the disc. Thfs orfentatfon results in an approximately 30K increase in maximum dynamic torque coefffcfent over the straight pipe inlet configuration. Torque coefficients used to de-temfne dynanfc loads for VÃP-2 purge and vent valves are based on this.xorst case configuration. The dfffereetial pressure 5 p across the valve is calculated fron the data on vol ~trf c flox rate under LOCA conditions, and using the equat io P)2 - PZ2 g 963 Cv xhere g ~ 6as f1ox in $ CFH P P) Valve upstrean pressure (psfa) P2 Valve downstream pressure (psfa) 6 ~ Specffic gravfty T) ~ Upstream temperature in oRankine 29.9 D2 CY Ye1ve coefficient Xv. D Valve Port diameter ()n.) Kz -"Coefficfent of floor go load closure tfme for the valves ranged from ) 1/2 to 4 seconds based on tests performed at BIF The maximum no load closure tine af 4 seconds fs used for the analysis xith a one second instrumentation tive delay for a total of 5

3

                                                             'lijli r     g
                                                              ":I ~- L3 econds  frcxn LOCA  fnftfation-to-valve        closure.. As an addi      tional conservatisn, the  d~ll pressure vol ves.

and temperature rise during a LOCA is used for a11 Dynmfc torques are calculated for both saturated stean and air as the flow

 ~fa. The calculations are summarized and shorn belo~ in Tables I, 2, 3, and 4 (Reference 8) for both the 24-inch and 30-inch vaIves and for steam and air flec.

The peak dynadnfc torqaes during closure and the seating and bearing friction torques at oo are ccapared to the design torques usedD~he~ei~eic analy-sis rcport and indicate posftive margins; SUHHARY OF RESULTS Table 1. 30-inch Valve, Airflow, (TNET 2217i in-lb) Dynam) c - Angl e s deg, Torque in-lb. 1.0 90 {Full Open) II020 Qg JEST 1.5 78. 75 2309S 2.0 , 67.50 X813S 2.5 56. 25 14747 3.0 45. 00 12428 3,5 33 75 10780 4.0 22. 50 8014 4.5 11 25 3972 5.0 9.0 (Full c1osed) 0.0<<

                                                        '~
                    <<At full closed position, the dynamic torque is zero and the net torque is due to seating and bearing friction.

v~ g Note: The design torque used in the seismic analysis report No. Ill-74-B in-lb.. byM~A t 1 t 27m

                                                          $ ~

SueSRT 0-. RESULTS gable 2. 30-Inch Valve, Stean fl~, (TgET 22l74 in-lb} Dynamic Tithe Angle Torque deg~ in-lb. E.o 90 {Full Open) 11032 1.5 78. 75 23175 2.0 67. 50 18142 2.5 56. 25 14668 3.0 45-00 l2424 ~"~"-c g;~ 3 5 33. 75 i'0580 4 0 22. 50 7809 4 5 11. 25 3867 5.0 9.0 (Full closed) 0'.0+

      "At   full closed position, the dynariic torque is zero             and the net torque is due to seating and bearing friction.

SUNDRY OF RESULTS Table 3. 24-ln'ch Valve, Airflx, (TgET 13808 $ n-lb) Dynamic Angle a Torque deg. in lb'.0 90 (Full Open) 5525 1.5 78; 75 11692 2.0 67.50 2.5 56. 25

        '.0         45  OD 3.5       33 75                     5430 4.0       22. 50                    4043 4.5       11 25                     2020 5.0        9.0 (Full closed)          0 pe At full closed position, the dynamic torque ts zero and the net torque is due to seating and bearing friction.

ate: The design torque used in the seismic analysis report No. TR-74-8 by HcPherson-Assoc!atesDo~this valve is }7000

f"ran(f"

i. j(/i/ /

SU~RY OF RESULTS Table 4- 24-Inch Valve, Steamflo~, (TgET. 1380B in-lb) Dynamic Ti)2)e Angle o Torque (s) dege in-lb. l.0 90 (Ful> Open) 5425 1 5 78.75 11394 p. R.Q 6?. 50 B92l Z.5 56.25 3.0 45,00 6109 3.5 33.75 5202 4.0 22. SD 3S42 4.5 Il.25 '902 5.0 9.0 (Full closed) 0.0 +

                      +At  full    c1osed   position, the dynamic torque is zero and-the..

net torque is due to seating and bearing friction. 3.3 D~nstration of actuator torque margin is based on the mini(((~ spring force developed which 5s equal to the spring pre-load. 24-inch valve 8 c linder)

 >6,890  fn-lhs (preload)       >  13,80S '.n-lbs (seating torque).

30-fnch Valve 10-inch c finder) 32,422 in-1bs (preIoad) > 22.174 in-1bs (seating torque) g///.d4 3.4 gppSS provides a structural analysis for the puraewnd vent valves and their operators in Reference B. This consists of ((3) Seismic/Hydrodynamic Requalification Reports for the 30-inch valves, 24-inch valves, and the operators. The requalification certificates far both the 24 and 30 valves are contingent upon ear bolt modifications and the addition of shear plates. Acceptance criteria for the structural analysis are taken fro()) Section III of the ASHE Boiler and Pressure Vessel Code or the AISC Constructin Hanual, whict)ever $ s applicable. Load used in the analysis are the valve operating load crab-;ned eth the dynamic loads vhich would result frcm seismic and h+rodyna=ic events as det.eminc=- by the piping analys',s for the plant.

h

                                              ~   p onalysfs ms set uj tn      a caepUter prop ea for each valve assembly fn Ao SR$ S fts specfffc    orfenAt'fed@ The SOS fs ~en'at the maxfain stress lese) to sefsirfc, 9-)oadfng. Qperatfag. loads de to seatfng torque force and de-d
                                                                                                        ~
   ~fight are cceMaed H& the sefsefc stress by absolute sm.

. Ba~ on tte results of the structural analysfs. the valves 41) reefs fac-

   't)oaal through f'orth'ears af postulated hydrodyn~c events, ffve operating basf s earthquakesand one safe shuteye .earthcpake.

4.D -Kva1oatfon 4.l The detemfnatfoa of dynaafc torques Kr. MPPSS pe'ge'and vent valves ader I.XA condftfons fs tesed on the testfng by the valve supp)e'er (SIF) of I aodel valve using mter as the test medfum. Tests conducted Hth a short el-dfrectly upstream, valve shatt at %P to the p)aine of the e)bee, and i flatsfde of dfsc deestre~ fndfcitid 3'. fncrease fe maxfmw, dyneafc tor-que coefffcfeC for tMs erst case geaaetry. Vsfng data froo Node) tests performed by other valve aanufacturers wftb afr as the test aedfea, tMs erst case geometry prodtmes 0 3'ncrease fn aaxfmm dynarnfc torque coefffrfent The -large'.dffference (3'. }ater versus 300j'. afr) fn aaxfeen dynaefc torque

 . coefffcfent f s due to the hfgher (above %ch-.3j velocftfes at large angles of openfng %ere the cbmwfc torque coefffcfents peak; Oyaanfc torque frit Nocfel tests usfng fnc~xmsfhle flufds correlate reasonably cell     coefff-'fests Hth data free tests usfsg afr f f the vHocftfes are helm a Kacb nveber of 0.3).

Ccesfderfng the.ana1ysf's results tabulated fn Table 1 of Reference A, the peak 4ynaafc torq~ for the K-fnch valve occurred at ?8.75'M was 23,098

  'fa-)bs. The desfw torque fs 2'7,800 fn-)bs ns noted fn the same table.

Qp'lying a 30gf. increase to the 23098 fn-Ebs peak dynesfc torque &feb al reefy has a'3% erst case conffguratfon factor; the peak dynaxfc torque usfag the factor froa afr tests mrks mt to 48,505 fn-lbs, wll @bere the 27,NO fn-lhs des fgo torque Aa acceptable approach to the staff fnstead of. the coeservatfm erst case conffguratfoa used Q the lfcensee seal@ be the use at'pproprfate ~enfc closurefor each valves fnsta3)atfoa cosffguratfen coupled Qth torque coefffcfeats a restrfctfoa oa valve openfeg Deaf i!$

        '.laf  valve fnstallatfen fnfoeratfon ms not provfdeci Nrectfoa of flm.
2. Nsc dfrectfon.

for each valve shah

3. Curved sfde of 4fsc, upstr'earn or 4oenstrean (asya~etrfc dfscs).
4. Orfentatfoo and df stance ot elboee, tees, beefs, etc Hthfe RO pfpe df aNIRters of viilve.

S. Shaft orfentatfon.

6. Nstance bet~ val ver.
                                            ~   ~  I ~ ~ ~      ~ ~ ~ ~ ~ ~ ~ ~ - ~ ~ ~             ~ ~  ~ ~  ~ ~ ~ ~ ~
                                                              ~E
  '"..-".  '.4.2 As deaestrated $ n 4,1 of this report, the terst case geanetry at lative a~'les of va'l~ opes1ags can price wry h0gh torques that ~)d be con-sidf rab>y larger than the seating to~..5~se dynamic torques shogld be
          . used fn.the structvral         analysis (Ref'erence 8) insteH K the seat'5ng torques.

4.3 Y'alve'presses e rat$ rgs ed- a static press'-e analysis are'et addressed

          .  $ n the suberttta'ls.

provide this $ nfonat$ aa for each of the va1ves<< 4.4 Reference R fncludus plots of floe rata versus tine fran LX.A initiation for the 24-fnch 3n-inch valves veintainod fn a full open po'sition .The I-*- be deleted and abscissa incorrect)y includes vail c1asure f'rm Hecever, the analysis fs tet affected-

                                                                       ~   to Oo, Rich Auld 5.0 Suwarg Nh  trave caarpleted our    rerum of the infnmat$ ie submttid'ta date, concerning the operabfli       of the H-$ nch     ed 30-inch valves used fa the carrbtiemnt ptn'ge and vent cyst~ for Qhshiagtan nuclear PH)act 2'. lk find ttet the informatics'sube)t~ for tha 24-inch and 30-inch valves cHd not deaenstrata that these valves have the ab$ 7fty to clos4. against the M1dup crf press~ <n the eh'erat of a 9BQLXh fron the ful1 apeh position. Paragraphs 4.2, 4.2, and are the bases for these findings. For this reasce, the 24-inch and 30-inch va1ves sold'be sea1ed c$ asaf in accordance Htb SRP Sectfce 6.2.4 and 2

TlI~ 5.f. FMrthe~re, these valves should be verified to be closet at 'teist ofhce cvog' da)$ + v

CONTAINMENT SYSTEMS DRYWELL AND SUPPRESSION CHAMBER PURGE SYSTEM LIMITING CONDITION FOR OPERATION 3.6.1.8 The drywell and suppression chamber 2-inch exhaust isolation valves shall be OPERABLE and: Each 24- and 30-inch purge supply and-exhauae-iaaiaaien-vabre-shall be closed during the time period:

1. Within 24 hours after THERMAL POWER is grehter than 15~

of RATED THERMAL POWER, following startup, to

2. Within 24 hours prior to r educing THERMAL POWER to less than 15'f RATED THERMAL POWER, preliminary to a scheduled reactor shutdown.
b. Each 2-inch purge valve may be open for purge system operation for inerting, deinerting and pressure control.
c. Each 24- and 30-inch purge supply and exhaust isolation valve shall be limited to open no more than 70 degrees.

APPLICABILITY: OPERATIONAL CONDITIONS 1, 2, and 3. ACTION:

a. With a 24- and/or 30-inch drywell and suppression chamber purge supply and/or exhaust islation valve(s) not closed, close and/or seal the 24- and 30-inch valve(s) or otherwise isolate the pene-
        . tration within 4 hours or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours except as provided for in 3.6.1.8.a.
b. With a 2-inch drywell and suppression chamber exhaust isolation ralve inoperable or open for other than inerting, deinerting, or pressure control, close the, open 2-inch valve(s) or otherwise isolate the penetration(s) within 4 hours or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours.

c'ith a drywell and suppression chamber purge supply and/or exhaust isolation valve(s) with resilient material seals having a measured leakage rate exceeding the limit of Surveillance Requirements 4.5. 1.8.2, restore the inoperable valve(s) to OPERABLE status within 24 hours or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours. WASHINGTON NUCLEAR - UNIT 2 3/4 6-11

CONTAINMENT SYSTEMS 4.6. 1.8. 1 Each 24 and 30-inch drywell and suppresion chamber purge supply, and exhaust isolation valve shall be verified to be closed at least once per 31 days.** 4.6. 1.8.2 At least once per 92 days each group shown below of drywell and suppression chamber purge supply and exhaust isolation valve with resilient material seals shall be demonstrated OPERABLE by verifying that the measured leakage rate is less than or equal to .05 .a L when pressurized to P . a Valve Grou Maximum Leaka e Rate

a. CEP-V-1A and 1B .05 L
  • CEP-V-2A and 2B
b. CEP-V-3A and 3B ;05 L
  • a CEP-V-4A and 4B
c. CSP-V-1 ..05 L*

CSP-V-2

d. CSP-V-3 CSP-V-4 4.6.1.8.3 Each 24- and 30-inch purge supply and exhaust isolation valve 70 degree open limiting device shall be functionally tested at least once every 18 months.
  • These valves are tested in parallel with the maximum leakage allowed for a single valve applied to the group.
**    Valve operation as provided      for in 3.6.1.8.a shall  be under administrative con  rol only.

Internal Distribution T Harrold - 982A Docket Fi1 e - 956B bcc: WG Conn B&R RO Martin - 927M kt/file - 994E NS Reynolds - D&L Powell - 956B PL2/LB - 956B PK Shen (JMY) - 580 JDM/LB - 927M SI Stevens - 956B GCS/LB - 340 WW Waddel - 9670 sf (2) JE Rhoads - 9670 WNP-2 Files December 8, 1983 Docket No. 50-397 G02-83-1129 Director of Nuclear Reactor Regulation Attention: Mr. A. Schwencer, Chief Licensing Branch No. 2 Division of Licensing U.S. Nuclear Regulatory Commission Washington, D.C. 20555

Dear Mr. Schwencer:

Subject:

NUCLEAR PROJECT NO. 2 QUALIFICATION AND OPERATION OF WNP-2 CONTAINMENT VENT & PURGE VALVES

References:

a) Letter, A. Schwencer (NRC) to R. L'. Ferguson (SS),

                                          "Request for Additional Information", dated September 16, 1982 b)   NUREG-0892, WNP-2 Safety Evaluation Report, Out-standing Issue No. 26, "Operability of Purge Valves" c)   Letter, G02-83-170, G. D. Bouch'ey (SS) to A. Schwencer (NRC), "Vent 8 Purge Valves", dated February 24, 1983 d)   Letter,'02-83-550, G. D. Bouchey (SS) to A. Schwencer          ~

(NRC), "gualification of WNP-2 Containment Vent and Purge Valves", dated June 22, 1983 References a and b contain NRC .requests .for information regarding the WNP-2 containment vent and purge valves and References c and d are the Supply System's responses.'to the requests. ",:These concerns have resulted in a proposed Technical Specification Limiting Condition for Operation (LCO), for WNP-2 (Attachment A)., This LCO would seriously impact the WNP-2 plant's ability to properly carry out initial power ascension testing and operation. The purpose of this letter is to bring to the NRC's attention, additional infor-mation concerning the Supply Systems action to resolve this issue and to propose an alternate Technical Specification LCO (Attachment B). This LCO'is consistent with the LCO that provides for the drywell and suppression chamber atmosphere inerting (Reference Technical Specification 3.6.6.2) and will allow compliance capability. AUTHOR: FOR SIGNATURE OF: SECTION FOR APPROVAL OF ' d APPROVED /P DATE

A. Schwencer Page Two December 8, 1983 QUALIFICATION AND OPERATION OF WNP-2 CONTAINMENT VENT 8 PURGE VALVES The Supply System is aware of NRC concerns which resulted from the staff's review of references c and d. These concerns have been discussed with the Equipment gualification Branch and their consultant. The result of these discussions is the Supply Systems commitment to limit the valve opening angle to a point that provides a maximum air velocity equal to or below a Mach number of .3. This corresponds to a maximum valve opening of no more than 70 degrees (with full open equal to 90 degrees). Appropriate valve limiting devices will be installed prior to exceeding 5'A power. A revised package detailing the field modification to limit valve opening and demonstrate that the information provided in references c and d is appropriate with this valve opening limit will be provided by December 16, 1983. Based on the Supply System commitment to limit valve opening, it is understood that the LCO which now requires that they be 1'ocked sealed closed may be relaxed. Provided in Attachm nt B is the Supply System recomnendation to a revised LCO that would allow Safe Operation of WNP-2 with the subject valves appropriately modified. The Supply System's planned December 16 submittal will provide the appropriate data to address the concerns now in place. Should you have any further questions, please contact Mr. P. L. Powell, Manager, WNP-2 Licensing. Very truly yours, G. C. Sorensen, Manager

    -Regulatory Programs JER/tmh
 ,. Attachments-4 cc:   R   Auluck    - -NRC WS  Chin  -   BPA AD  Toth  -   NRC  Site R  Wright   -   NRC D  Hoffman    -  NRC F  Eltawila -     NRC

ATTACHMENT A CC Cu.rri.OV CGNTA<.'i.'.<chT SYST=MS "hh ~y. s"fiU~Jf'r PPg'ir.'f!j ~a~.I DRYWELL ">O SU'7PRE":: ./ CHi4~/BE& 7"RGE LIHITIHQ CONDITION FOR OPERATION 3.6.1.8 The drywell and suppression chamber 2-inch purge supply and"exnaus:"---- isolaticn valves shai'. be OPERABLE and:

a. Each 24- and 30-inch purge supply and exhaust isola icn valve snail be sealed closed.

Each 2-inch purge valve may be open for ourge sys em coerat.on for inerting, deirer ing zna pressure con rol. APPLICABILITY: OPERATIONAL CCNOITICHS 1, 2, and 3. ACTION:

a. With a 24- and/or 30-inch dr~e11 and suppression chamber purge supply and/or exhaust isolation valve(s) open or not seaIed closed, close and/or seal the 24- and 30-inch valve(s) or otherwise isolate tPe penetration within 4 hcurs or be in at leas HOT SHIJTOQ'i'd% within the next 12 hours and in COLO SHUTOBr'H within the fol cw ng 24 ho rs.

With a 2-inch drywell and suppression chamber purge suppTy and/or exhaust isolation valve(s) inoperable or open or other than inerting, aeinerting, or pressure control, close the open 2-inch valve(s) or otherwise '.solz-e the penetration(s) within 4 hours or be in a least HOT SHUTDOWN 'wi Din the nex. ~D hours and in COLD SHUTDO'~H wi nin the following 24 hours.

c. Nth a drywe11 and suppr ss',on chamber purge supply and/or exhaus isolation valve(s) wi h resilient material seals having a measured leakage rate exceedir g the iimit of Surveillance Requirements 4.6.1.8.3 and/or 4.6.1.&.4, restore +he inoperable valve(s) to OP&ABLE status within 24. hours or be in at least HOT SHROOM within. Ne next 12 hours and in COLO SHUTDOlA wi Din the .ollcwing 24 hours.

t SURVEILLANCE RE UIR~EHTS 4.6.1.8.1 Each 24- and 30-inch drywell and suppression chamber purge supply and exhaust isolation valve shall be veri ied m be sealed closed at least once per 31 days. 4.6.1.8.2 At leas. "nce per 6 months on z STAGGEREO TEST BASIS each sealed closea 2~- and 30-incn dwell and suppression chamber purge supply anc exhaust isolation valve with r silient mater '.al seals shall be demonstrated OPERABI ~ by veri ying .hat the measured leakaoe ram is less than or equal w 0.05 L when pressurized to P . 'rlASH !ia<i"N NUC~+R - IJNIT 2 ~/4 6" '

C NTAINMEHT SYSTBtS JRVEIL&NCE REQUIRED".EHTS Continued) 4.6.1.8.3 At least once per 92 days each 2"inch ~r..~el'--ana s'-ppv ssion chanber purge su"ply and -exhaust iso'a ion valve witn resilien- m .er al s al shall be demonstrated GPERABI c by ver.'fying tha- -he "easured leax ge rate is less han or eaual to 0.01 La linen pressuri ed to P .

                                                       .~
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 ~'ASHINGTON NUCLEAR   "  UNIT 2           3/4 6-32
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ATTACHMENT B "DRAFT LCO" CONTAINMENT SYSTEMS DRYWELL AND SUPPRESSION CHAMBER PURGE SYSTEM LIMITING CONDITION FOR OPERATION

                                ~~

3.6.1.8 The drywell and suppression chamber 2-inch exhaust isolation valves shall be OPERABLE and:

a. Each 24- and 30-inch purge supply and exhaust isolation valve shall be closed dyring the time period:
                                                                               ~ >

l. g ~~ Within 24 hours after THERMAL POWER is greater than 15> of RATED THERMAL POWER, following startup, to.

2. Within 24 hours. prior to reducing THERMAL POWER to less than 15% of RATED THERMAL POWER, preliminary to a scheduled reactor shutdown.
b. Each 2-inch purge valve may be open for purge system operation for inerting, deinerting and pressure, control;
c. Each 24- and 30-inch purge supply and exhaust isolation valve shall be limited.to open no more. than 70 degrees.

APPLICABILITY:,OPERATIONAL;CONDITIONS,l,2, and 3. ACTION:

a. With a 24- and/or 30-inch drywell and suppression chamber purge supply and/or exhaust islation valve(s) not closed, close and/or '.

seal the 24- and 30-inch valve(s) or otherwise isolate the pene-tration within 4 hours or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours-except as provided for in '3.6.1.8.a; C~

b. With a'2-inch -drywell and suppression chamber exhaust isolation
                  ,. valve inoperable or. open. for .other than inerting, deinerting, or'pressure control,"'close the open 2-inch valve(s) or otherwise isolate the penetrati'on(s) within 4 hours or be in at least HOT-
                  ,    .SHUTDOWN within the next 12.hours and in COLD SHUTDOWN within the fo11owing 24 hours.

4 C~ With a drywell and suppression chamber purge supply and/or exhaust ~ FO o ~

                      'solation         valve(s) with resilient material seals having a measured leakage rate exceeding the limit of Surveillance Requirements 4.5.1.8.2, restore the inoperable valve(s) to OPERABLE status within 24 hours or be in at least HOT SHUTDOWN within the next l2 hours and in COLD SHUTDOWN within the following.24 hours.

WASHINGTON NUCLEAR - UNIT 2 3/4 6-11

CONTAINMENT SYSTEMS SURYEIl LANCE RE UIREMENTS 4.6.1.8.1 Each 24- and 30-inch drywell and suppresion chamber purge supply and exhaust isolation valve shall be verified to be closed at least once per 3l days.~ 4.6.1.8.2 At least once per 92 days each group shown below of drywell and suppression chamber purge supply and exhaust isolation valve with resilient material seals shall be demonstrated OPERABLE by verifying that the measured leakage rate is less than or equal to .05 L when pressurized to P . Valve Grou Maximum Leaka e Rate

a. CEP-V-1A and 1B .05 L
  • CEP-Y-2A and 2B
b. CEP-Y-3A and 3B .05 L
  • CEP-Y-4A and 4B a
c. CSP-V-I .05 L "

CSP-Y-2

d. CSP-V-3 .05 L +

CSP-V-4 4.6.1.8.3 Each 24- and 30-inch purge supply and exhaust isolation valve 70 degree ope'n limiting device shall be functionally tested at least once every-18 months. t.

  • These valves are tested in parallel with the maximum leakage allowed for a single valve applied to the group.

Valve operation as provided for in 3.6.l.8.a shall be under administrative control only.

4A r7ASIG'iGTON PUBIC PO4 ER SUPPLY SYS'I 'd lit g)I' t 7 T~ ~ ~1+5 (

                                                                         ~
                                                                           '~P     ~
                                                                                                      /ID 361104 fONEHT HO,      CSP-V-l  CSP-V-2        CEP-V-lA, CEP-V-2A COMPONENT       DESCRIPTIOXi 30" Cylinder Operated             Butterfly     Valves t

BIF MODEL NO1 A-206763 MANUFACTURER EGUIPMEHT CLA~SIFIC*TION1 Q ACTIVE UPAS IVF. SEISMIC QUALIFICATIONREPORT REFERENCE1

1. Ci na Ener v Services Re ort No. 0 .01.F "30" Cvlinder 0 crated Butterfl Valves",

Rev. 2 dated 6/15/83.

2. 'WPPSS Su lemental'alculations, EO-02-83-11 "Final As-built Review of Pur e and Vent Valves (BIF)"

EN V I RON M KNTALClUALIFI CATION REPORT REFEREN CKz Certificate of qualification is. for seismic/hydrodynamic and postulated LOCA conditions. THE ABOVE SEISMIC AND ENVIRONMENTALQUALIFICATIOHREPORTS HAVE BEEN REEVALUATED IN ACCORDANCE WITH TNE CURRENT HRC SEIS'MIC AND ENVIRONMENTALCRITERIA1

          -~l  I EEE STANDARDS S44 (I S7S).

USNRC REGULATORY GUIDES l>Z, 7.100 STANDARD REVIEW PLA 5DNt S lOt ell 4 NURKG<SSS THE ABOVE COMPONENT HAS BEEN FOUHD ACCEPTABLE FOR PERFORMING ITS INTENDED SAFETY RELATED FUNCTION WH- H SUK 'EC i ED TO THE PLANT SPECIFIC-VjBRATORY AND ENVIRON)4ENTAL LOADS, Hark Scott 12/14/83 REVIEWED BY

  • 12/14/83 Dennis Armstrong c"T'2/14/83

~0 I ~jf ~~ ~ KASHL4GTON PUBLIC FO>> r R SUPI LY ST PiI:QC:(LIr lC.'. I i0 C".'. TJHC .:: C: D 361106 CSP-V-3 CSP-V-4 CSP-V-5 t CSP-V-6, CSP-V-9, CEP-V-3A, GEP-V-4A COMPONENT Hot COMPONENT DESCRIFTIONt 24" Cylinder Operated Butterfly Valves

                                                                                         )(DDEL NO, A-206765 I.IANUFACTURER'QUIPMENT CLASSIFICATIONt    Q ACTIVC               Q tASSIVC SEISMIC QtfALIFICATIbNREPORT RKFKRENCdt
1. C na Ener Services Re ort No. OT;01".F, "24" Cylinder Operated"Butterf3P'a3wes",-

Rev. 4, dated 11/'ll/83.

2. MPPSS Supplemental Calculations EQ-02-83-11, "Final As-built Revie" of Purge and Vent Valves (BIF)"

ENVIRONMENTALQUALIFICATIONREPORT REFKRENCKt ated LOCA-THE ABOVE SEISMIC AHD ENVIRONMENTALQUALIFICATIONREPORTS HAVE BEEN REEVALUATED IN ACCORDANCE WITH THE CURRENT NRC SEISMIC AND ENVIRONMENTAl CRITERIAt

                   ~1.       IEEE STANDARDS 544 (ISTS)
                   ~Z.       USNRC REGULATORY GUIDES 1A2,      1 100 S. STANDARD REVIEW PLAN SD>, S.la S.11 4 NUREGASSS THE ABOVE COMPONENT HAS BEEN FOUND ACCEPTABLE FOR PERFORMING ITS INTENDED SAFETY RELATED FUhCTION
            'HEN SUBJECTED TO THE PLANT SPECI F IC VIBRATORYAHD ENVIRONMENTAL LOADS PREPARED BY Mark Scott    X~rf
                                                                                                                 *" i2(i~ist
                                                 'I I

REVIEWED BY Milon Mever p r, i 12/14/83 Af'PROVED BY Dennis Armstrong I 12/14/83

WASHINGTON PUBLIC POWER SUPPLY SYSTEM CALCULATIONCOVER SIIEET SHEET OF PROJECT DISCIPLINE CALC. NO. CONTRACT MCOI W~Y'3dA.L.>miC.AmO< EQ-oz-a3-t I SPECIFICATION QUALITYCLASS STEM NO 2&o8 -8 EQ IP E P EC CKP ~ C5'P CBP-'V-/A,ZA)>~)~) +&V'- I- I) 2) 3,4)%,6)QI SUB C CO<i~) 0 V5KhJ II P E<W R~ I zvv P <w Su&nAmw p Fi Aa~ ASm OIL.~ LO+X 'RWI tM ACTION REQUIRED

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GLOBAL G-LEVELS 4.57 1 ~ 26 .9 NORTH VECTOR ANGLES = 90 90 0 VERTICAL VECTOR ANGLES= 90 0 90 EAST VECTOR ANGLES = 180 90 90 WEIGHT VECTOR ANGLES = 90 180 90 LOCAL G-LEVELS -1.74332E-5 -4.80652E-6 .9 -1.74332E-5 1.26 -3 '3323E-6 4 '7 -4.80652E-6 -3.43323E-6 DRIVE ROD STRESS AT A 412.882 t OPERATING OPERATING DRIVE ROD STRESS AT B 710.744 OPERATING CYLINDER BRG PRESSURE -3 '5613E-4 OPERATING VALVE EAR TENSILE STR 1240.79 OPERATING VALVE EAR SHEAR STRES 63.5285 OPERATING EAR BOLT SHEAR STRESS EAR BOLT TENSILE STR 768 '9 353.72 OPERATING sif=-3.4591E-3 ,s2f= 319 t3f=-2.5?873E-3 mi f=-2193. 04 m2f=-5.29623E-3 tt3f= 3611.67 9)g l DYNAMIC CONPONENTS DRIVE DRIVE ROD ROD TENSILE STRESS AT A 4543 BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS 7118 3588 '1 TENSILE STRESS AT B 65'45' 04 88 '181 '3 25'6.639 '7 23002.1 si d= 816. 102 s2d= 851 . 76 t 3d= 3085'. 31 mid= 9745'8 ' '2d= 22844 ' tt3d= 20809.2 FIXED PLUS DYNANIC CONPONENTS DRIVE ROD TENSILE STRESS AT A 4956.39 DRIVE ROD TENSILE STRESS AT B 7655'.78 PUSHING PRESSURE 88 '185 VALVE EAR TENSILE STRESS 8359 01F VALVE EAR SHEAR STRESS 360.167 EAR BOLT SHEAR STRESS 4356.86 EAR BOLT TENSILE STRESS 23355.8 si t= 816. 106 s2t= 1170.76 t3t= 3085'.32 mit= 5'965'1.6 m2t= 22844 ' tt3t= 24420 ' CEP3A CEP-V/AO-3A WITH TORQUE MODIFICATION REVI SED 12-10-83 MAS/TBGM/'CYGNA INPUT GLOBAL ACCELERATIONS '? 4 57) 1 26, 0. 90 ~ ~ INPUT DATA INPUT OPERATOR FORCE (TORQUE) D~ M~~WC ~(~QC  ? 1447. GLOBAL G-LEVELS 4.57 1.26 .9 NORTH VECTOR ANGLES = 90 90 0 VERTICAL VECTOR ANGLES= 90 0 90 EAST VECTOR ANGLES = 180 90 90 WEIGHT VECTOR ANGLES = 90 180 90 LOCAL G-LEVELS -1.74332E-5 -4 '0652E-6 9~ -1.74332E-5 1.26 -3 '3323E-6 4.57 -4.80652E-6 -3.43323E-6 OPERATING DRIVE ROD STRESS AT A 600.434 OPERATING DRIVE ROD STRESS AT B 1033.6 OPERATING CYLINDER BRG PRESSUPE -3 '5613E-4 OPERATING VALVE EAR TENSILE STR 2670.32 OPERATING VALVE EAR SHEAR STRES 138.312 OPERATING EAR BOLT SHEAR STRESS 1673.13 OPERATING EAR BOLT TENSILE STR 854 '29 si f=-3. 4591E-3 ., s2f= 771 ':; t3f=-2 57873E-3 ~ mi f=-5300. 54 m2f=-5.29623E-3 t t3f= 7453.67 DYNAMIC COMPONENTS D RIVE ROD TENSILE STRESS AT A 4543.51 DRIVE ROD TENSILE STRESS AT B 6949.04 BUSHING PRESSURE 88.6181 VALVE EAR TENSILE STRESS 7118 '3 296.639 VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS 3588.37 EAR BOLT TENSILE STRESS 23002.1 si d= 816. 102 s2d= 851.76 t3d= 3089.31 mid= 97498.6 m2d= 22844.9 tt3d= 20809.2 F irYED PLUS DYNAMI C COMPONENTS DRIVE ROD TENSILE STRESS AT A 5143.94 DRIVE ROD TENSILE STRESS AT B 7982.64 PUSHING PRESSURE 88.6185 VALVE EAR TENSILE STRESS 9788.55 VALVE EAR SHEAR STRESS 434.951 t EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS si t= s2t= t3 t= mit= 816. 106 1622. 76 3089 32 ~ 1.02799E+5 m2t= 22844 ' 5261.5 23857.1 tt3t= 28262.9 CEP4A CEP-VPAO-4A WITH TORQUE MODIFICATION c REVISED 12-1 0-83 MASj'TBGM/CYGNA P CpO INPUT GLOBAL ACCELERATIONS 3 71 s 1 34, 0 89 ~ ~ ~ INPUT OPERATOR FORCE (TORQUE) ~M ~NGLVC 'P 995. I NPUT DATA GLOBAL G-LEVELS = 3 '1 1.34 -38 . 89'2 NORTH VECTOR ANGLES 90 VERTICAL VECTOR ANGLES= 90 52 .1 42 EAST VECTOR ANGLES = 180 90 90 WEIGHT VECTOR ANGLES = 90 -1 28 -38 LOCAL G-LEVELS 1.41525E-5 -5.11169E-6 89 ~ 2.92352 .824984 -3.39508E-6 2.2841 -1 05594 ~ -3.39508E-6 OPERATING DRIVE ROD STRESS AT A 412.882 OPERATING DRIVE ROD STRESS AT B 710 '44 OPERATING CYLINDER BRG PRESSURE -3.75613E-4 OPERATING VALVE EAR TENSILE STR 2300.51 OPERATING VALVE EAR SHEAR STRES 102 '84 OPERATING EAR BOLT SHEAR STRESS 1238.52 OPERATING EAR BOLT TENSILE STR 4599.3 si f=-3 4591E-3 ~ s2f = 578. 81 '"" t3f= 532 695 ~ mif=-20760 ' m2f=-3818.52 tt3f= 5474.06 t DYNAMIC COMPONENTS DRIVE DRIVE ROD ROD TENSILE STRESS AT A 4493.02 TENSILE STRESS AT B 6871.83 BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS 87 '336 9303.24 405.714 4907.83 EAR BOLT TENSILE STRESS 14492.5 si d= 807. 034 s2d= 2053.47 t3d= 1701 mid= 64964 ' '6 m2d= 13396.7 tt3d= 24569.7 FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 4905 ~ 9'T DRIVE ROD TENSILE STRESS B 7582.57 PUSHING PRESSURE 87 '339 VALVE EAR TENSILE STRESS 11603.7 508. 099 t VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS 6146. 36 EAR BOLT TENSILE STRESS 19091 . 8 si t= 807 038 ~ s2t= 2632.28 t3t= 2233.76 mit= 85725.4 m2t= 17215.2 tt3t= 30043.7 CEP4A CEP-Vf'AO-4A WITH TORQUE MODIFICATION REV I SED 12-10-83 MAS/'TBGM/CYGNA c  ? INPUT GLOBAL ACCELERATIONS 3.71, 1.34, 0.89 INPUT OPERATOR FORCE (TORQUE) O~ wC'A~>44 ~~~~  ? 1447. INPUT DATA GLOBAL G-LEVELS 3.71 1.34 ~ 89 NORTH VECTOR ANGLES = 90 -38 52 VERTICAL VECTOR ANGLES= 90 52 142 EAST VECTOR ANGLES = 180 90 90 WEIGHT VECTOR ANGLES = 90 -1 28 -38 LOCAL G-LEVELS -1 .41525E-5 -5.11169E-6 .89 2.92352 ~ 824984 -3.39508E-6 2.2841 -1 . 05594 -3.39508E-6 OPERATING DRIVE ROD STRESS AT A 600.434 OPERATING DRIVE ROD STRESS AT B 1033.6 OPERATING CYLINDER BRG PRESSURE -3.75613E-4 OPERATING VALVE EAR TENSILE STR 3730.04 OPERATING OPERATING VALVE EAR SHEAR STRES EAR BOLT SHEAR STRESS 177 2143 '8'1 OPERATING EAR BOLT TENSILE STR 5100 '1 sif=-3.4591E-3 ",, s2f= 1030 81 ~ t3f= 532 '95 mif=-23868.3 m2f=-3818. 52 tt3f= 9316.05 cEP4P. >44a DYNAMI C COMPONENTS GCa~ DRIVE ROD TENSILE STRESS AT A 4493.02 DRIVE ROD TENSILE STRESS AT B 6871.83 BUSHING PRESSURE 87.6336 VALVE EAR TENSILE STRESS 9303,24 VALVE EAR SHEAR STRESS 405.714 EAR BOLT SHEAR STRESS 4907.83 EAR BOLT TENSILE STRESS 14492 ' si d= 807. 034 s2d= 2053 47 ~ t3d= 1701 . 06 mid= 64964.6 m2d= 13396.7 tt3d= 24569.7 FIXED PLUS DYNAMIC COMPONENTS DRIVE TENSILE STRESS AT A 5093.46 DRIVE ROD ROD TENSILE STRESS AT B 7905 PUSHING PRESSURE '3 87.6339 VALVE EAR TENSILE STRESS 13033.3 VALVE EAR SHEAR STRESS 582.894 EAR BOLT SHEAR STRESS 7051 19593 '4 EAR BOLT TENSILE STRESS s 1 t= 807. 038 ~ s2t= 3084.29 ~ t3t= 2233.76 mit= 88833 m2t= 17215.2 tt3t= 33885.7 t  ?  ? CSP14 CSP-V/AO-1/4P WITH TORQUE MOD I F I GATI ON REV I SED 12-10-83 1 .46, 3 67, 2 MASr'TBGMj'CYGNA INPUT GLOBAL ACCELERATIONS '3 INPUT OPERATOR FORCE (TORQUE) 1966. P~Q ~PPJC" INPUT DATA GLOBAL G-LEVELS = 1.46 135 3 90 '7 2.13 135 NORTH VECTOR ANGLES VERTICAL VECTOR ANGLES= 90 180 90 EAST VECTOR ANGLES = 45 90 135 OP WEIGHT VECTOR ANGLES = 90 0 90 LOCAL G-LEVELS -1.03238 -1.39999E-5 1 ~ 50613 -5.56945E-6 -3.67 -8.1253E-6 -1.03238 1.39999E-5 -1.50614 815.81 t OPERATING DRIVE ROD STRESS AT A OPERATING DRIVE ROD STRESS AT B 1404.35 OPERATING CYLINDER BRG PRESSURE -7.15824E-4 ERAT I NG VALVE EAR TENSILE STR 4206.68 OPERATING VALVE EAR SHEAR STRES 306.895 OPERATING EAR BOLT SHEAR STRESS 2569.7 OPERATING EAR BOLT TENSILE STR 1695 '4 s1 f=-5. 43205E-3 's2f= 2880 ," t3f=-3.48663E-3 mi f=-22319. 9 m2f =-1 64417E-2 ~ tt3f= 23436.6 DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 20370.4 DRIVE ROD TENSILE STRESS AT B 31155.3 BUSHING PRESSURE 342 '45 VALVE EAR TENSILE STRESS 11484 ' VALVE EAR SHEAR STRESS 648.873 EAR BOLT SHEAR STRESS 5433 '4 7823.03 EAR BOLT TENSILE STRESS s 1 d= 2600 . 18 s2d= 3354.38 t3d= 1668.96 mid= 68091.2 m2d= 27118.9 tt3d= 70644.8 FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 21186. 2 DRIVE ROD TENSILE STRESS AT B 32559.7 PUSHING PRESSURE 342.646 VALVE EAR TENSILE STRESS 15691 VALVE EAR SHEAR STRESS 955.768 EAR BOLT SHEAR STRESS 8002.83 EAR BOLT TENSILE STRESS 9518.17 si t= 2600.18 s2t= 6234.38 t3t= 1668.97 Ri t= 90411 ~ 1 m2t= 27119 tt3t= 94081.4 CSP14 CSP-V/AO-1t'4 WITH TORQUE MODI FI CATI ON REVISED 12-10-83 MASr'TBGM/CYGNA INPUT GLOBAL ACCELERATIONS  ? 1 ~ 46t 3 '7< 2.13 ~ ~ INPUT OPERATOR FORCE (TORQUE)  ? 2366 'NPUT DATA GLOBAL G-LEVELS 1.46 3.67 2.13 NORTH VECTOR ANGLES = 135 90 135 VERTICAL VECTOR ANGLES= 90 180 90 EAST VECTOR ANGLES = 45 90 135 WEIGHT VECTOR ANGLES = 90 0 90 LOCAL G-LEVELS -1.03238 1.39999E-5 .50613 -5.56945E-6 1 .03238 -3 '7 1.39999E-5 1 -8.1253E-6 -1 . 50614 OPERATING DRIVE ROD STRESS AT A 981.785 t OPERATING OPERATING OPERATING OPERATING OPERATING OPERATING DRIVE ROD STRESS AT B CYLINDER BRG PRESSURE VALVE EAR TENSILE STR VALVE EAR SHEAR STRES EAR BOLT SHEAR STRESS EAR BOLT TENSILE STR 1690.06 -7.15824E-4 4807 350 '8 '89 2935.55 1930.58 , si f=-5.43205E-3 ,"s2f= 3280 "t3f=-3.48663E-3 mi f=-25419. 9 m2f=-1 6441 7E-2 ~ t t3f= 26836.6 CgV 1 z~ DYNAMIC COMPONENTS Q DRIVE ROD TENSILE STRESS AT A 20370 ' DRIVE ROD TENSILE STRESS AT B 31155.3 BUSHING PRESSURE 342.645 VALVE EAR TENSILE STRESS 11484.3 VALVE EAR SHEAR STRESS 648.873 EAR BOLT SHEAR STRESS 5433.14 EAR BOLT TENSILE STRESS 7823 '3 s1 d= 2600 . 18 s2d= 3354.38 t3d= 1668.96 mid= 68091 ' m2d= 27118.9 tt3d= 70644 ' FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 21352. 2 DRIVE ROD TENSILE STRESS AT B 32845.4 PUSHING PRESSURE 342.646 VALVE EAR TENSILE STRESS 16291.8 VALVE EAR SHEAR STRESS 999.462 EAR BOLT SHEAR STRESS 8368.69 EAR BOLT TENSILE STRESS 9753.61 si t= 2600 '8 s2t= 6634.38 t3t= 1668.97 mi t= 93511 . 1 m2 t= 27119 tt3t= 97481.4 ~ ' 0 t CSR52 CSP-V/AOW/2 WITH TORQUE tRODIFI CATION REVISED 12-10-83 HAS/TBGl"I/CYGNA INPUT GLOBAL ACCELERATIONS  ? 1.44, 3.57, 1 90 ~ INPUT OPERATOR FORCE (TORQUE) '? 1966 'NPUT DATA GLOBAL G-LEVELS = 1.44 135 3 90 '7 1 ~ 135 9 NORTH VECTOR ANGLES VERTI CAL VECTOR ANGLES= 90 180 90 EAST VECTOR ANGLES = 45 90 f35 WEIGHT VECTOR ANGLES = 90 90 LOCAL G-LEVELS -1.01824 -1.36185E-5 1.3435 -5.49316E-6 -3.57 -7.24792E-6 -1 01824 ~ -1.36185E-5 -1.34351 OPERATING DRIVE ROD STRESS AT A 815.81 t OPERATING DRIVE ROD STRESS AT B 1404.35 OPERATING CYLINDER BRG PRESSURE -7.15824E-4 OPERATING VALVE EAR TENSILE STR 4206.68 OPERATING VALVE EAR SHEAR STRES 306 95 OPERATING EAR BOLT SHEAR STRESS 2569.7 OPERATING EAR BOLT TENSILE STR 1695.14 'if=-5.43205E-3 s2f= 2880
    , ',;," t3f=-3. 48663E-3 mi f=-22319. 9 m2f =-1. 64417E-2 tt3f= 23436.6
    est'z DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 18806 DRIVE ROD TENSILE STRESS AT B 28762.8 BUSHING PRESSURE 316 '32 VALVE EAR TENSILE STRESS 10686.5 VALVE EAR SHEAR STRESS 607.944 EAR BOLT SHEAR STRESS 5090.43 EAR BOLT TENSILE STRESS 7168.94 s1 d= 2400 . 49 s2d= 3262.98 t3d= 1540 mid= 63365 '9 m2d= 24262.9 tt3d= 65656.8 FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 19621.9 DRIVE ROD TENSILE STRESS AT B 30167.1 PUSHING PRESSURE 316 '33 VALVE EAR TENSILE STRESS 14893 1 F VALVE EAR SHEAR STRESS 914.838 t EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS si t= 2400,5 s2t= 6142.98 t3t= 1540.8 m1t= 85684.9 m2t= 24263 7660.13 8864 '8 tt3t= 89093.4 CSP4 2 CSP-V/'AO+l'2 WITH TORQUE MODIFICATION REVISED 12-10-83 MAS/'TBGM/'CYGNA INPUT GLOBAL ACCELERATI ONS 1 ~ 44r 3 '7r ~ 1 ~ 90 INPUT OPERATOR FORCE (TORQUE> '? 2366 'NPUT DATA GLOBAL G-LEVELS 1.44 3.57 1.9 NORTH VECTOR ANGLES = 135 90 135 VERT I CAL VECTOR ANGLES= 90 180 90 'AST VECTOR ANGLES = 45 90 135 WEIGHT VECTOR ANGLES = 90 0 90 LOCAL G-LEVELS -1 01824 -1.36185E-5 1.3435 ~ -5.49316E-6 -1.01824 -3 '7 1.36185E-5 -7.24792E-6 -1.34351 DRIVE ROD STRESS AT A 981.785 t OPERATING OPERATING OPERATING DRIVE ROD STRESS AT B CYLINDER BRG PRESSURE 1690 '6 -7.15824E-4 OPEPATING VALVE EAR TENSILE STR 4807 '8 OPERATING VALVE EAR SHEAR STRES 350 '89 OPERATING EAR BOLT SHEAR STRESS 2935.55 OPERATING EAR BOLT TENSILE STR 1930 '8 sif=-5.43205E-3 ~ l, s2f= 3280 t3f=-3.48663E-3 mi f=-25419. 9 m2f=-1 64417E-2 ~ t t3f = 26836. 6 DYNANIC CONPONENTS DRIVE ROD TENSILE STRESS AT A 1 8806 DRIVE ROD TENSILE STRESS AT B 28762.8 BUSHING PRESSURE 316 '32 VALVE EAR TENSILE STRESS 10686.5 VALVE EAR SHEAR STRESS 607.944 EAR BOLT SHEAR STRESS 5090.43 EAR BOLT TENSILE STRESS 7168.94 sid= 2400.49 s2d= 3262.98 t3d= 1540.79 mid= 63365 m2d= 24262.9 tt3d= 65656.8 FIXED PLUS DYNANIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 19787 ' DRIVE ROD TENSILE STRESS AT B 30452.8 PUSHING PRESSURE 316.333 VALVE EAR TENSILE STRESS 15493.9 VALVE EAR SHEAR STRESS 958.532 EAR BOLT SHEAR STRESS 8025.98 EAR BOLT TENSILE STRESS 9099.52 si t= 2400.5 s2t= 6542.98 t3t= 1540.8 mit= 88784 ' m2t= 24263 tt3t= 92493.4 CSP39 CSP-Vr AO-3/N WITH TORQUE t"IODIFICATI ON REV I SED 1 2-1 0-83 HAS/'TBGNr'CYGNA / INPUT GLOBAL ACCELERATIONS 2.66, 3.17, 3.76 ~ ~ ~ INPUT OPERATOR FORCE < TORQUE) FLO< > oR6)UE '? 5'9'S ~ INPUT DATA GLOBAL G-LEVELS = 90 2 '6 3. 17 90 NORTH VECTOR ANGLES VERTICAL VECTOR ANGLES= 0 5'0 5'0 EAST VECTOR ANGLES = 90 180 WEIGHT VECTOR ANGLES = 180 5'0 LOCAL G-LEVELS ~ -1 .01471E-5 3. 17 -1.43433E-5 1.01471E-5 -1.205'26E-5 -3.76 -2.66 -1.20926E-5 -1.43433E-5 OPERATING DRIVE ROD STRESS AT A 5461.21 OPERATING DRIVE ROD STRESS AT B 8431.86 OPERATING CYLINDER BRG PRESSURE -5'8.4646 OPERATING VALVE EAR TENSILE STR 5930.22 OPERATING VALVE EAR SHEAR STRES 251 .91 OPERATING EAR BOLT SHEAR STRESS 3047.3 OPERATING EAR BOLT TENSILE STR 2443 8 si f=-906.782 <<'s2f= 5'5'4 ~ 997 t3f=-2.S7873E-3 mi f=-6840 52 ~ m2f=-6234. 1 t t3f=-13646.3 CSV'3 t DYNAMIC COMPONENTS DRIVE DRIVE ROD ROD TENSILE STRESS BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS A 16003 2 TENSILE STRESS AT B 24476 312 23765'.1 1017.24 12305.3 '33 ~ r +73 EAR BOLT TENSILE STRESS 14299.1 s 1 d= 2874. 2541.7645'2d= 72395'T t3d= 175'8.16 mid= 59281.6 m2d= 2355'4.3 tt3d= FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 21464.4 DRIVE ROD TENSILE STRESS AT B 325'07.5'10.597 PUSHING PRESSURE VALVE EAR TENSILE STRESS 25'699.3 1265'.15 t VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS 15352 ' EAR BOLT TENSILE STRESS 16743 ' 51 t= 3781 . 28 s2t= 3536.76 t3t= 1798.16 mi t= 66122. 1 m2 t= 25'828. 4 tt3t= 86045.3 CSP34 CSP-ViAO-3i4 WITH TORQUE t"tODI FI CATION REV I SED 12-10-83 I"tASiTBGNiCYGNA INPUT GLOBAL ACCELERATIONS 'P 2.66'.17< ~ ~ 3 '6 ~ INPUT OPERATOR FORCE (TORQUE) O>~ ? 1447. I NP UT DATA GLOBAL G-LEVELS 2.66 3 17 ~ 3.76 NORTH VECTOR ANGLES = 90 90 180 VERTICAL VECTOR ANGLES= 0 90 90 EAST VECTOR ANGLES = 90 180 90 MEIGHT VECTOR ANGLES = 180 90 90 LOCAL G-LEVELS -1.01471E-5 3.1? -1.43433E-5 -1.01471E-5 -1 '0926E-5 -3.76 -2.66 -1.20926E-5 -1.43433E-5 OPERATING DRIVE ROD STRESS AT A 5648.76 OPERATI tilG DRIVE ROD STRESS AT B 8754.72 OPERATItilG CYLINDER BRG PRESSURE -98 '646 OPERATING VALVE EAR TENSI I E STR VALVE EAR SHEAR STRES 5380 '5 231.813 OPERATING OPERATING EAR BOLT SHEAR STRESS 2804.19 OPERATING EAR BOLT TENSILE STR 2945 '9 &if=-906.782 s2f= 1447 43f=-2.57873E-3 mi f=-9948. 02 m2f=-6234. 1 t t3f=-9804.29 DYNAMIC COMPO JENTS DRIVE ROD TENSILE STRESS AT A 16003. 2 DRIVE ROD TENSILE STRESS AT B 24476 BUSHING PRESSURE 312.133 VALVE EAR TENSILE STRESS 23765'.1 VALVE EAR SHEAR STRESS 1017.24 EAR BOLT SHEAR STRESS 12305.3 EAR BOLT TENSILE STRESS 1425'5'. 1 si d= 2874 ~ 2541.7645'2d= t3d= 1798 mid= 59281.6 '6 m2d= 23594.3 tt3d= 72399 FIXED PLUS DYt lAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 21652 DRIVE ROD TENSILE STRESS AT B 33230.7 PUSHING PRESSURE 410.597 VALVE EAR TENSILE STRESS 25'149.4 1249.05 t VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS 15109.5 EAR BOLT TENSILE STRESS 17244 ' 'ai t= 3781 28 ~ s2t= 3988.76 t3t= 1798 m1t= 69229 ' '6 m2t= 25'828.4 tt3t= 82203 ' CSP54 CSP-VPAO~t'4 WITH TORQUE MODIFICATION ,REV I SED 12-1 0-83 I"iAS/TBGNr'CYGNA INPUT GLOBAL ACCELERATIONS 3 '5r '4r '9 ~ 2 ~ 4 ~ INPUT OPERATOR FORCE <TORQUE) Whorl ~WAQc=  ? 995. INPUT DATA GLOBAL G-LEVELS = 3 25 ~ 2.94 4 '9 180 NORTH VECTOR ANGLES 90 90 VERTICAL VECTOR ANGLES= 0 90 90 EAST VECTOR ANGLES = 90 180 00 WEIGHT VECTOR ANGLES = 180 90 90 LOCAL G-LEVELS -1.23978E-5 2.94 -1.59836E-5 -1.23978E-5 -1.12152E-5 -4. 19 3 25 ~ -1.12152E-5 -1.59836E-5 OPERATING DRIVE ROD STRESS AT A 5461.21 OPERATING DRIVE ROD STRESS AT B CYLINDER BRG PRESSURE 8431 '6 -98.4646 OPERATING OPERATING VALVE EAR TENSILE STR 5930 '2 OPERATING VALVE EAR SHEAR STRES 251.91 OPERATING EAR BOLT SHEAR STRESS 3047 ' OPERATING EAR BOLT TENSILE STR 2443.98 si f=-906 782~ ;s2f= 994.997 t3f=-2.57873E-3 f ml =-6840 . 52 , m2f=-6234.1 t t3f=-13646 ~ 3 c.sue t DYNAMIC COMPONENTS DRIVE DRIVE ROD ROD TENSILE STRESS AT A 14842.1 TENSILE STRESS AT B 22700.2 BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS 289.486 22501.9 972 '61 11761.2 EAR BOLT TENSILE STRESS 17082.2 si d= 2665.94 s2d= 2832.44 t3d= 2197 mid= 71899.2 m2d= 24165 tt3d= 68083 FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 20303. 3 DRIVE ROD TENSILE STRESS AT B 311 32 PUSHING PRESSURE 387.951 VALVE EAR TENSILE STRESS 28432.1 VALVE EAR SHEAR STRESS 1224 '7 t EAR BOLT SHEAR STRESS EAR BOLT TENSILE STRESS s1 t= 3572 72 s2t= 3827 t3 t= 21 97 mit= 78739.7 02 t= 30399. '4 ~ 1 14808.5 19526.2 ~ tt3t= 81729.3 g A I CSP84 CSP-V/AOM/4 WITH TORQUE HODI FI CATION REVI SED 12-10-83 HAS/'TBGN/CYGNA INPUT GLOBAL ACCELERATIONS  ? 3 '5, ~ 2.94, 4.19 ~ ~ INPUT OPERATOR FORCE (TORQUE) DL~ ~~Tlwl4 YnNQQE'P 1 447, I NP UT DATA GLOBAL G-LEVELS 3.25 2.94 4.19 NORTH VECTOR ANGLES = 90 90 180 VERTICAL VECTOR ANGLES= 0 90 90 EAST VECTOR ANGLES = 90 180 90 WEIGHT VECTOR ANGLES = 180 90 90 LOCAL G-LEVELS 1 ~ 23978E-5 2.94 -1.59836E-5 -1.23978E-5 -1.12152E-5 -4.19 -3 '5 1.12152E-5 1 ~ 59836E-5 OPERATING DRIVE ROD STRESS AT A 5648.76 OPERATING DRIVE ROD STRESS AT B 8754.72 OPERATING CYLINDER BRG PRESSURE -98.4646 OPERATING VALVE EAR TENSILE STR 5380.35 OPERATING VALVE EAR SHEAR STRES 231 .813 OPERATING EAR BOLT SHEAR STRESS 2804.19 OPERATING EAR BOLT TENSILE STR 2945.19 si f=-906. 782 , . s2f= 1447 ,'t3f=-2.57873E-3 mi f=-9948. 02 m2f =-6234. 1 t t3f=-9804.29 DYNAt"II C COMPONENTS 1 DRIVE DRIVE ROD ROD TENSILE STRESS AT A 1 4842. 1 TENSILE STRESS AT B 22700.2 BUSHING PRESSURE VALVE EAR TENSILE STRESS 289.486 22501.9 VALVE EAR SHEAR STRESS 972.261 EAR BOLT SHEAR STRESS 11761 ' EAR BOLT TENSILE STRESS 17082 ' s 1 d= 2665. 94 s2d= 2832.44 t3d= 21 97 mid= 71899.2 m2d= 24165 tt3d= 68083 FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 20490.9 DRIVE ROD TENSILE STRESS AT B 31454 ' PUSHING PRESSURE 387.951 VALVE EAR TENSILE STRESS 27882.2 VALVE EAR SHEAR STRESS 1204.07 EAR BOLT SHEAR STRESS 14565.4 EAR BOLT TENSILE STRESS 20027.4 si t= 3572.72 s2t= 4279.44 t3t= 2197 mit= 81847.2 m2t= 30399.1 tt3t= 77887.2 CSP5 CSP-W'AO-5 MITM TORQUE NODIFICATION REVISED 12-10-83 HASr'TBGMi'CYGNA INPUT GLOBAL ACCELERATIONS '? 2 '6, '2) ~ 3 ~ 5.42 INPUT OPERATOR FORCE (TORQUE) Gj-W ~~~~tQ< m~adR'P 1 447. I NP UT DATA GLOBAL G-LEVELS 2.96 3. 52 5.42 NORTH VECTOR ANGLES 42 ' 47.5 90 VERTICAL VECTOR ANGLES= 90 90 0 EAST VECTOR ANGLES 47.5 137. 5 90 WEIGHT VECTOR ANGLES 180 90 90 LOCAL G-LEVELS 2 '8234 -1 34277E-5 ~ 3.66169 1.99974 -1 34277E-5 ~ -3.99606 -1 1291 5E-5 ~ 3 52 ~ -2 '6756E-5 5648.76 t OPERATING DRIVE ROD STRESS AT A OPERATING DRIVE ROD STRESS AT B 8754.72 OPERATING CYLINDER BRG PRESSUPE -98 '646 OPERATING VALVE EAR TENSILE STR 5380.35 OPERATING VALVE EAR SHEAR STRES 231.813 OPERATING OPERATING EAR BOLT SHEAR STRESS EAR BOLT TENSILE STR 2804 '9 2945. 19 sif=-906.782 -, s2f= 1447 t3f=-2.57873E-3 mi f=-9948. 02 m2f =-6234 ~ 1 t t3f=-9804.29 <SV'6' 44 1 t DYNAMIC COMPONENTS DRIVE DRIVE ROD ROD TENSILE STRESS AT A 21519.6 TENSILE STRESS AT B 32912.8 BUSHING PRESSURE VALVE EAR TENSILE STRESS VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS 419.724 30726.9 1312.91 15882 EAR BOLT TENSILE STRESS 19863.7 sid= 3865 s2d= 3020.7 '4 t3d= 2379.52 mid= 77785.5 m2d= 31577.4 tt3d= 84539.5 FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 27168.3 DRIVE ROD TENSILE STRESS AT B 41667.5 PUSHING PRESSURE 518 '89 VALVE EAR TENSILE STRESS 36107.2 VALVE EAR SHEAR STRESS 1544.73 t EAR BOLT SHEAR STRESS 18686.2 EAR BOLT TENSILE STRESS 22808 ' sit= 4772.12 s2t= 4467.7 t3t= 2379.52 mit= 87733.5 m2t= 37811 ' tt3t= 94343.8 t CSP6 P '? REVISED 2 I NPUT '8~ CSP-Vr'AO-6 WITH TORQUE MODIFICATION 3 12-10-83 DATA GLOBAL G-LEVELS NORTH VECTOR ANGLES 5 MAS/'TBGM/'CYGNA INPUT GLOBAL ACCELERATIONS '5r '3r '5 INPUT OPERATOR FORCE (TORQUE) 1447 VERTICAL VECTOR ANGLES= 0 EAST VECTOR ANGLES = 90 = 90 2 55 ~ 90 ot w ~~~the, ~wa~E 0 3 33 90 90 ~ 0 5.85 90 LOCAL G-LEVELS -9.72747E-6 -9.72747E-6 3 '3 -1.27029E-5 -2.2316E-5 5.85 2.55 -1.27029E-5 -2.2316E-5 OPERATING DRIVE ROD STRESS AT A 5648.76 8754.72 t OPERATING DRIVE ROD STRESS AT B OPERATING CYLINDER BRG PRESSURE -98.4646 OPERATING VALVE EAR TENSILE STR 5380.35 OPERATING VALVE EAR SHEAR STRES 231.813 OPERATING EAR BOLT SHEAR STRESS 2804.19 OPERATING EAR BOLT TENSILE STR 2945.19 sif=-906 '82 s2f= 1447 ',,t 3f =-2. 57873E-3 mif=-9948.02 m2f =-6234. 1 t t3f=-9804.29 ~sv4- t&l DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 16811 DRIVE ROD TENSILE STRESS AT B 25711.4 BUSHING PRESSURE 327.887 VALVE EAR TENSILE STRESS 26284.3 VALVE EAR SHEAR STRESS 1154.32 EAR BOLT SHEAR STRESS 13963.6 EAR BOLT TENSILE STRESS 14253 ' Bid= 3019.58 s2d= 3954.6 t3d= 1723.8 IAid= 60730.3 m2d= 24158.8 tt3d= 78875.3 FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSILE STRESS AT A 22459.8 DRIVE ROD TENSILE STRESS AT B 34466 1 F PUSHING PRESSURE 426.352 VALVE EAR TENSILE STRESS 31664.6 1386.13 t VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS 16767.8 EAR BOLT TENSILE STRESS 17198.7 sit= s2t= 3926 '6 5401 ' t3t= 1723 ' IAit= 70678.3 m2t= 30393 tt3t= 88679.5 t cS7 co CSP-V/AO-6 WITH TORQUE MODIFICATION REV I SED 12-10-83 MAS/TBGMj'CYGNA INPUT GLOBAL ACCELERATIONS '? 11.39, 3 '3, 5.85 INPUT OPERATOR FORCE (TORQUE) 1447. ~ ~~P~H4 >oeaQZ'? I NP UT DATA GLOBAL G-LEVELS = 90 11.39 3.33 90 0 5 '5 NORTH VECTOR ANGLES VERTICAL VECTOR ANGLES= 0 90 90 EAST VECTOR ANGLES = 90 90 LOCAL G-LEVELS -4.34494E-5 3.33 -2.2316E-5 -4.34494E-5 11.39 -1.27029E-5 -1 27029E-5 ~ 5 '5 -2.2316E-S OPERATING DRIVE ROD STRESS AT A 5648.76 DRIVE ROD STRESS AT B 8754 '2 t OPERATING OPERATING CYLINDER BRG PRESSURE -98.4646 OPERATING VALVE EAR TENSILE STR 5380.35 OPERATING VALVE EAR SHEAR STRES 231. 813 OPERATING EAR BOLT SHEAR STRESS 2804.19 OPERATING EAR BOLT TENSILE STR 2945.19' 1 f=-906. 782 s2f= 1447 ,. t3f=-2 57873E-3 ~ mi f=-9948. 02 m2f=-6234. 1 t t3f=-9804.29 DYNAMI C COMPONENTS DRIVE ROD TENSILE STRESS AT A 16811 DRIVE ROD TENSILE STRESS AT B 25711.4 BUSHING PRESSUPE 327.887 VALVE EAR TENSILE STRESS 26685 ' VALVE EAR SHEAR STRESS 1154.32 EAR BOLT SHEAR STRESS 13963 ' EAR BOLT TENSILE STRESS 57543 sld= 3019.58 s2d= 3954.6 t3d= 7699.63 mid= 2.44083E+5 m2d= 58968 ' tt3d= 78875.3 FIXED PLUS DYNAMIC COMPONENTS DRIVE ROD TENSI LE STRESS AT A 22459.8 DRIVE ROD TENSILE STRESS AT B 34466.1 PUSHING PRESSURE 426.352 VALVE EAR TENSILE STRESS 32065.7 1386.13 t VALVE EAR SHEAR STRESS EAR BOLT SHEAR STRESS 16767.8 EAR BOLT TENSILE STRESS 60488.2 sit= s2t= 3926 '6 5401 ' t3t= 7699.64 mit= 2.54031E+5 m2t= 65202.4 tt3t= 88679.5 REM+++++ BIF VALVE AND AIR OPERATOR SEISMIC STRESS REM+++++ CEP-V/AO-3A WITH TORQUE MODIFI CATI ON REM+++++ REVISED 12-10-83 MA SCOTT 1 TBG MARVIN 1 CYGNA REM var i, j sk = integer var lr od, cg,x,phi, lave,abl t,11,12,ei,e2,e3,e4,e5 = r eal 1 var f st2, ca, i a,cb, ib,aa,ab,dl,d2,ci, i i,c2, i 2=real var 1 rodo, cgo, dr sd, abush, pbush=real 1 I var fcof, fco, ma,mb, siga, sigb, fcdr, fcdrf,maf, mbf=real var dear, f cear, f r, f 11, f 22, a, c i 12, c i 21, st t3, semi=real 1 var sem2,set3,sesl,ses2,sr, taui 1, tau22, tauear,aear=real var btens, taubl t, set3f,semif,sem2f,fcearf, frf,fiif=real var f22f, st t3f, sesi f, ses2f, sr f, taui f, tau2f, taur f=real var taubf,btf, dsr,dtaur,dtaub,dbten,dsa,dsb,dpb=real var sdr af,sdrbf,pbushf, taul if, tau22f=real var wao,wbr, f tri,watr i,si,sl f,s2,s2f,mi,mi f,m2=real var m2f, t3, t3f, t t3, t t3f, br,wtot=r eal 1 var bsi,bs2,bt3,bmi,bm2,bt t3=r eal var f sl f s2s f t3s fml fm2s f t t3s sids s2ds t3d s s =real var mid,m2d,tt3d,sit,s2t,t3t,ml't',m2t,tt3t =real dim r ea,l av(3) dim r eal wa(3) dim real wb(3) REM REM ~++ BURNS 7 ROE EAR FORCES ARE bsi etc TURN ON WITH K=1+++ REM REM dim real a(3,3) dim r eal b(3) dim real glc(3,3) 1 2 data data 7 's 10s 25si4.46s ~ ~ 75, 1.5'5, 1.25, 53is53 s5 5s ~ ~ 7 3isi 5s2.5 ~ 3 data 1150 , 875,.46, 648,.138,2.41,1.4 ~ 4 data 399s277,5.25,8 ',28.5,15.,6.875 5 6 7 data data data REM DATA 5'0 180 6h7 '90 FOR ~ ~ 't 40.,10.9'6,26.5,30.5,2.075 '90~ sts90 s5'0 '180 s5'0 s5'0 ~ ~ ,5'0 ~ VALVMGLOBAL-G ORIENTATIONS AND WEIGHT VECTOR restor e read di,d2,ci,ii,c2,i2 restore 2 read lrod,lcg,x,phi,lave,ablt,11,12 r estor e 3 read fst2,ca,ia,cb,ib,aa,ab restore read wao,wbr,ei,e2,e3,e4,e5 restor e 5 read lrodo, ego, dr,d,abush 1 1 r estore 6 read a(l 1) sa(2s 1) sa(3s 1) sa(i s s2) sa(2s2) sa(3s2) restore 7 read a(1,3), a(2,3), a(3,3), av(1), av(2), av(3) text 0,8c "* 12-10-83 REVISED MAS/TBGM/CYGNA 8c print text 0,8c INPUT GLOBAL ACCELERATIONS 8c input b(l),b(2),b(3) print text 0,h INPUT DATA h pr int text 0 h INPUT OPERATOR FORCE (TORQUE) 8c print print "GLOBAL G-LEVELS "Ib(i)sb(2)sb(3) pr nt NORTH VECTOR ANGLES I ya( 1 g 1 ) pa(2g ) pa(3) ) 1 1 print "VERTICAL VECTOR ANGLES== I a(i 2> a(2~2> a(3~2) s ~ s pr int "EAST VECTOR ANGLES ";a(1,3>,a(2,3),a(3,3> pr int "WEIGHT VECTOR ANGLES = ";av(i),av(2),av(3) print for i=i to 3 for j=i to 3 a( j, i ) =a( J, i ) +2. +3. 1416/360. next gl c( j, i )=b( i ) icos(a( J, i )) next i for j=i to 3 j av ( j ) =av ( ) +2. +3. 1416/360 . next J print text 0,h LOCAL G-LEVELS h print print glc( 1, i),glc( 1,2),glc(1,3) print glc(2,1),glc(2,2),glc(2,3) print glc(3,1),glc(3,2),glc(3,3) REM WEIGHT COMPONENTS for J=i to 3 wa(j)=wao+cos(av(j>) wb(j)=wbr+cos(av(j)) next ph i =ph i +2. +3. 1 416/360 . a=i ave 1 c i 12=c i/i2 c i 21=cd i 1 ae ar= 1 1 +1 2 REM CALCULATE EAR FORCES USE B8cR LOADS AS OPT I ON LATER REM FIXED COMPONENTS ARE ALWAYS THERE I br= 1 r od+ 1 c g watr i=1 br+wa(1)J'1 r od si f=wb(1)+watr 1 w to t=wao+wbr s2f=wb(2)+wa(2)+ f s t2 t3f =wa(3)+wb(3) mi f=-(wa(2)+wb(2)+ s f t2) +e5-wa(3) +(e3+1 cg) -wb(3) +e4 ) ~e5-wa(3) we2-wb(3> +e 1 tt3f=watri+e3+(wa(2)+fst2>+e2+wb(i)+e4+ wb(2) +e 1 f cdr f=l cg+wa(1)/i rod f +(1 rod-13.5) maf=f cdr'2f=(watr1+wb(1) mbf =f cdr f +7. 125 sdr af=f st2/aa+abs(maf +ca/i a) sdr bf=fst2/ab+abs(mbf +cb/i b) fcof=lcgo+wa(i)/lrodo pbushf=f cof +( dr+d>/(d+abush) 1 REM STRESSES FROM FIXED COMPONENTS dear=(d1+di+d2+d2) ++. 5 set3f=abs(t3f/(4+aear)) semi f=abs(m1f/(2+d2+aear >> sem2f=abs(m2f/(2+di+aear)) fcear f=tt3f/(2wdear) fr f=x+fcearf f 11 f=-( f cear f +s i n(ph i ) -fr f icos(ph i ) ) f22f=fcear f+cos(phi )+frf+sin(phi ) st t3f=abs( f f +1 a+c i 12)+abs( f 22f +1 a+c i 2 1 1 sesi f=abs(si f wc i 12+1 a/4. ) ses2f=abs(s2f +c i 21+1 a/4. ) sr f=se t3f+semi f+sem2f+sesi f+ses2f+st t3f REM EAR SHEAR taui f=abs(si f/(4+aear ) )+abs( f 11 f/aear ) 1 tau22f=abs(s2f/(4+aear) )+abs( f 22f/aear) taur f=( taui f + taui f+ tau22f ~ tau22f ) ++ 5 1 1 ~ taubf=taurf+aear/abl t REM EARBOLT TENSION btf=(se t3f+semi f+sem2f ) +aear/abl t pr int pr int"" OPERATING DRIVE ROD STRESS AT A $ 5dl af print OPERATING DRIVE ROD STRESS AT B  ; sdr bf print" OPERATING CYLINDER BRG PRESSURE ;pbushf pr int" OPERATING VALVE EAR TENSILE STR ;srf pr int "OPERATING VALVE EAR SHEAR STRES ;taurf pr i n t" OPERATING EAR BOLT SHEAR STRESS  ; taubf print"OPERATING EAR BOLT TENSILE STR )btf print print f="; si f print "si print "s2f="; s2f pr i n t "t3f=";t3f pr int "ml f=";mi f pr i n t "m2f=";m2f print "tt3f=";tt3f print REM REM CALCULATE VARIABLE COMPONENTS REM dsr=0. dtaur=0 dtaub=0 'bten=0 'sa=O. dsb=O. dp ID=0 ~ f si=0. f s2=0. f t3=0. f ml=0 . fm2=0. ftt3=0. for j=i to 3 f co=i cgowwao+ol c (1, j ) 11 r odo pbush=fco+(idr+d)/(d+abush) ftr i=lbr+wao+glc(i,j)t'lrod si=f tri+wbr+glc(i,j) s2=wtot+glc(2)j) t3=wtot+glc(3,j) mi=-wtot+glc(2,j)+e5-wao+glc(3,j)+(e3 +leg)-wbr+glc(3,J)+e4 m2=( f tri+wbr +gl c(1, j) ) +e5-(wao+e2+wbr +el)+glc(3,J> t t3=f tr 1+e3+wbr +gi c(1, j ) +e4+gl c(2,J ) + (wao+e2+wbr+ei) f cdr =1 cg+wao+g1 c ( 1, j >11 r od ma=fcdr +(l rod-i3.5) mb=f cdr +7. 125 s I ga=ma+c al I a s I gb=mb+c bl b I REM CALCULATE EAR TENS1 QN se t 3= abs ( t 3/'( 4 +ac ar ) ) semi=abs(mi/(2+d2+aear ) ) sem2=abs(m2/'(2+di+aear)) fc ear= t t 3/(2+de ar ) f r=x+fcear f11=-(fcear+sin(phi )-fracas(phi )) f22=fcear+cos(phi )+fr +sin(phi ) st t3=abs( f 11+1 a+c i 12)+abs( f 22+1 a+c i 21> sesi=abs( si +c i 12+1 af'4. ) ses2=abs(s2+ci21+la/4.) sr=set3+semi+sem2+sesi+ses2+stt3 REiR EAR SHEAR taui l=abs(si/'(4 +aear) )+abs(f 11/'aear ) ~ tau22=abs( s2/(4. +aear ) ) +abs( f 22/aear ) tauear=(tauii+tauii+tau22+tau22)++ 5 ~ taublt=tauear+aearr'ablt REN EARBOLT TENSION btens=(set3+semi+sem2)+aear/ablt dsa=dsa+siga+siga dsb=dsb+sigb+sigb dpb=dpb+pbush+pbush dsr=dsr +sr+sr dtaur=dtaur+ tauear+tauear dtaub=dtaub+taubitwtaublt e dbten=dbten+btens+btens f si=f si+si +si f s2=f s2+s2+s2 f t3=f t3+ t3~t3 fmi = fmi+ml +mi fm2=fm2+m2+m2 f t t3=f t t3+ t t3+t t3 next j REM COMBINE STRESSES dsa=dsa++e5 dsb=dsb++.5 dpb=dpb~+.5 dsr =dsr++. 5 dtaur=dtaur++.5 dtaub=dtaub++.5 dbten=dbten++.5 f si=f si ++ 5~ f s2=f s2++. 5 f t3=f t3++.5 fml=fml++.5 fm2= fm2++ 5 ~ f t t3=f t t3++.5 print t e x t 0, 8c DYNAMI C COMPONENTS 5 print print "DRIVE ROD TENSILE STRESS AT A"sdsa print "DRIVE ROD TENSILE STRESS AT B")dsb " 'dpb print "BUSHING PRESSURE print "VALUE EAR TENSILE STRESS 'sr print "VALUE EAR SHEAR STRESS ";dtaur print "EAR BOLT SHEAR STRESS ";dtaub print "EAR BOLT TENSILE STRESS ";dbten print print "sid=";fsi pr i n t "s2d="; f s2 pr int "t3d="; f t3 pr in t "mid=";fml print "m2d=";fm2 print "tt3d=";ftt3 pr int dsa=dsa+abs( sdr af ) dsb=dsb+abs(sdrbf ) ~ dpb=dpb+abs( pbush f) dsr=dsr+abs(sr f ) dtaur=dtaur+abs( taurf) dt*ub=dtaub+abs( taubf ) dbten=dbten+abs(btf) f si=f si+abs(si f ) f s2=f s2+abs( s2f ) f t3=f t3+abs( t3f ) fml = fmi+ abs(mi f ) fm2=fm2+abs(m2f ) f t t3=f t t3+abs( t t3f ) print text 0,8c FiiYED PLUS DYNAMIC COMPONENTS 8c print print "DRIVE ROD TENSILE STRESS AT A";dsa print "DRIVE ROD TENSILE STRESS AT B";dsb print "PUSHING PRESSURE ";dpb print "VALVE EAR TENSILE STRESS ";dsr E'rint print "VALVE EAR SHEAR STRESS ";dtaur print "EAR BOLT SHEAR STRESS "; dtaub print "EAR BOLT TENSILE STRESS ";dbten pr int "si t=" fsi print "s2t=" 't s2 print "t3t-" 'f t3 print "mi t=" 'fml 7 print "m2t=" fm2 print "t t3t=" f tt3 ) pr int end R~P~ V O'ASIIINCTON PUBI.IC POWER SUPPLY SYSTEM SUPPI,IER TRANSIIIITTAI,FORM (AREA WITHIN HEAVY BORDER TO BE COMPLETED BY SUPPLIER) TO THE ATTENTION OFa 30pp 0 pF I>A"lg PUgCHASp gGEItg YEpgotfTf+ATdADMIN.) 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