ML20087D394
| ML20087D394 | |
| Person / Time | |
|---|---|
| Site: | Wolf Creek  |
| Issue date: | 10/31/1983 |
| From: | Rahe E WESTINGHOUSE ELECTRIC COMPANY, DIV OF CBS CORP. |
| To: | |
| Shared Package | |
| ML20087D270 | List: |
| References | |
| EQDP-HE-10B, WCAP-8587S1R-HE-10B, WCAP-8587S1R0-HE-10B, NUDOCS 8403130389 | |
| Download: ML20087D394 (28) | |
Text
{{#Wiki_filter:l WESTINGHOUSE CLASS 3 EQDP-HE-108 s Rev. 0 10/83 EQUIPENT QUALIFICATION DATA PACKAGE \\ is ument contains information, relative to the qualifica-i po he equipment identified below, in accordance with the odol of WCAP 8587. The Specification section (Section 1) ces t assumed limits for the equipment qualification and tute interface requirements to the user. HEAD VENT SYSTEM Electronic Control Module (HE-108) This system also includes the following pieces of equipment: Solenoid Operated Isolation Valve (HE-10A) y Modulating Valve (HE-10C) Seperate Equipment Qualification Data Packages (EQOPs) and Equipment Qualification Test Reports (EQTRs) have been developed for each of the a es of equipment utilized in t H stem y l APPROVED: t.. P. Irahe, Manager Nuclear Safety Department Westinghouse Electric Corporation Nuclear Energy Systems 1 P.O. Box 355 Pittsburgh, Pennsylvania 15230 8403130389 840306 PDR ADOCK 050004G2 4450Q-A PDR
WESTINGHOUSE CLASS 3 s o SECTION 1 - SPECIFICATIONS 1.0 PERFORMANCE SPECIFICATIONS 1.1 Electrical Requirements
1.1.1 Voltage
90-140 VDC
1.1.2 Frequency
N/A 1.1.3 Load: N/A 1.1.4 Electromagnetic Interference: N/A
1.1.5 Other
N/A 1.2 Installation Requirements:' The Electronic Control Module must be installed in a location outside containment that is limited to normal environment conditions and earthquake loads. Mounting should be to a vertical surface using the holes provided on the back panel. 1.3 Auxfliary Devices: .None l l a,,u, an.
IESTINGHOUSE CLASS 3 1.4 Preventative Maintenance Schedule: Per the Westinghouse Equipment QuaMfication test program, no preventive maintenance is required to support the equipment qualified life of 10 years as specified in Section 1.9. This does not preclude development of a preventive maintenance program designed to enhance equipment perfonnance and identify unanticipated equipment degradation as long as this program does not compromise the qualification ' status of the equipment. Surveillance activities may also be considered to support the basis for/and a possible extension of the qualified life. 1.5 Design Life: 40 years ~ 1.6 Operating Cycles (Expected number of cycles during design life, including test): 20,000 for a 40 year life. I l t i 6 4450Q 3-
~ . 8 1 1.7 Perferusace Regf rements for (b): Clactroate Control Module DOE Conditions (a) Post DEE Coadttionsla) Contafament Bernal Abaomel Test Parameter Conditions Conditions Condittens FLB/SLB LOCA Seismic FLB/SLB LOCA Seismic 1.7.1 Time reyframent Continuous lacluded N/A N/A N/A Event II/A N/A Continuous under duration moriaal 1.7.2 Performance Note c N/A N/A N/A Bote c N/A N/A Note c regsIrament 1.8 Envfroamental Condittens for Same inactfen (b) 1.8.1 Temperature (*F) 50-120, included II/A N/A II/A Ambient N/A-N/A Ambient under \\. normel 1.8.2 Pressure (psfg) E.7/+.3 II/A N/A ~ N/A Ambient N/A N/A Ambient i M 1.8.3 IIunidity 0-100 N/A N/A N/A Ambient il/A N/A Ambient "l8 (Percent Wil ..T 1.8.4 Radlettee (R) 3.5x10, II/A N/A N/A tiene N/A N/A None 'O' 4 M .i n, 1.8.5 Cheefcals some II/A II/A II/A leone ll/A N/A None (a 1.8.5 Vfbratten Ffgere 1 II/A II/A II/A Ilone N/A N/A Ilone 1.8.7 Acceleration (g) leone ll/A II/A N/A Figure 2 II/A N/A lione Ilotes: a: BOE is the Besign Basis Event, b: flergfa is not included la the parameters of this sectioe, c: The valve strate time, fully closed to fully open or fully open to fully closed, shall not exceed ten (10) seconds. e E _ _ ~ -
ESTINGHOUSE CLASS 3 1.9 Qualified Life: The demonstrated qualified life is 10 years based on the actual test conditions identified in Table 1. 1.10 Remarks: None 4 4 e 4 4 e e e r i 44500 c
e-WESTINGHOUSE CLASS 3 O SECTION 2 - QUALIFICATION BY TEST 2.0 TEST PLAN The complete sequence of type testing for the Target Rock Comoration (TRC) Electronic Control Module was conducted at several different test facilities. All functional tests were conaucted at Target Rock Corporation, East Famingdale, N.Y. The environmental and vibration / seismic testing was perfomed at American Envi neent Co., Inc., in West Babylon, N.Y. All radiation testing was perfomed by Isomedix, Inc., in Parisippany, N.J. 2.1 Equipment
Description:
Target Rock Conoration, " Electronic Control Module, Model 80T, part number 300592-1, serial number 001. 2.2 Number Tested: 1
2.3 Mounting
As defined in Section 1.2
2.4 Connections
As specified by manufacturer on the 79AB-003 modulating valve assembly drawings 2.5 Aging Simulation Prxedure By a sequential type test program as described by Subprogram A of Appendix B to WCAP-8587 and reported in Reference 1. j 4450Q 6
III ~ 2.6 Service Conditions to be Simulated by Test Containment Normal Abnormal Test Seismic HELB/LOCA Post-HELB/LOCA 2.6.1 Temp. (*F) 50-120 Included N/A Ambient N/A N/A under normal 2.6.2 Pressure (psig) -6.7/+.3 Ambient 2.6.3 Humidity 0-100 percent Ambient (Percent RH) N 2.6.4 Radiation (R) 2.5x10 v None 55 Si s m 2.6.5 Chemicals hone None w 2.6.6 Vibration See Fig. 1 None 2.6.7 Acceleration (g) hone Figure 2 t
ESTINGHOUSE CLASS 3 2.7 Measured Variables This section identifies the parameters required to be measured during the test seque'nce(s). 2.7.1 Category I - EnvEronment Required Not Required 2.7.1.1 Temperature B A,C,D 2.7.1.2 Pressure B A,C,0
- 2. 7.1. 3 Moisture A,B,C,D 2.7.1.4 Composition A,B,C,0 2.7.1.5 Seismic Acceleration C
A,B,D 2.7.1.6 Time B,C,0 A 2.7.2 Category II - Input Electrical Characteristics 2.7.2.1 Voltage A,B,C D j 2.7.2.2 Current A,B,C D 2.7.2.3 Frequency A,B,C,D 2.7.2.4 Power . A,B,C,D 2.7.2.5 Other A,B,C,0 2.7.3 Category III - Fluid Characteristics N/A i 2.7.4 Category IV - Radiological Features 2.7.4.1 Ettergy Type D A,B,C 2.7.4.2 Energy Level D A,B,C 2.7.4.3 Dose Rate D A.B.C 2.7.4.4 Integrated Dose D A,B,C l
J WESTINGHOUSE CLASS 3 Required Not Required 2.7.5 Category V - Electrical Characteristics 2.7.5.1 Insulation Resistance A,B,C D 2.7.5.2 Output Voltage A,B,C,D 2.7.5.3 Output Current A,B,C D
- 2. 7. 5. 4 Output Power A,B,C,0 2.7.5.5 Response Time A,B,C,D 2.7.5.6 Frequency Characteristics A,B,C,D 2.7.5.7 Simulated Load A,B,C
, D 2.7.6 Category VI - Mechanical Characteristics l N/A 2.7.7 Category VII - Auxiliary Equipment N/A A. Performance Tests B. Environmental Aging Tests C. Vibration / Seismic Tests D. Radiation Test 4450Q 9 .-.-9 f ry 9
i WESTINGHOUSE CLASS 3 2.8 Test Sequence Preferred This section identifies the preferred test sequences as specified in IEEE-323-74 2.8.1 Inspection of Test Item 2.8.2 Operation (Normal Condition) 2.8.3 Operation (Performance Specifications Extremes, Section 1) 2.8.4 Simulated Aging 2.8.5 Vibration / Seismic 2.8.6 Disassembly and Inspection Note: Since the Electronic Control Modules are limited to installation outside of containment, the HELS and post-HELB conditions are not applicable. l 2.9 Test Sequence Actual The Electronic Control Module was tested in accordance with the preferred test sequence identified in Section 2.8. l l 4450Q 10
nESTINGHOUSE CLASS 3 i 2.10 Test Data 2.10.1 Objective The objective of this test pFogram is to demonstrate that the 1 Target Rock Electronic Control Module meets or exceeds the safety related performance requirements.while subjected to simulated normal, abnormal and accident environments in accordance with the recomended practices of Reg. Guide 1.89 (IEEE-323-1974), Reg. Guide 1.100 (IEEE 344-1975) and Reg. Guide 1.73 (IEE-382-1972). 2.10.2 Equipment Tested A sample component from the Generic Design was identified randomly and tested. Manufacturing processes, production tests and materials of construction for the design are monitored and controlled and a quality release provided. The sample. componerats selected completed the entire test sequence of Section 2.8. 2. 10.3 Test Summary The test module was randomly selected from a production run, for 2.10.3.1 Westinghouse, as specified by Westinghouse equipment Specification G-955186. i -11 Avim
WESTINGHOUSE CLASS 3 e 2.10.3.2 The Electronic Control Module was initially perfomance tested in accordance with,the manufacturer's applicable Test Procedure and inspected to insure no damage had occurred since manufacture. Perfomance testing and subsequent inspection was successfully completed. 2.10.3.3 The Electronic Control Module was thenna11y aged in a controlled oven for a time period and at a test-temperature equivalent to a qualified life of 10 years. The. module was cycled 4850 times during thermal aging. Prior to themal aging, the module was cycled 15,150 cycles for a total of 20,000 cycles. 2.10.3.4 The test unit was radiation tested by exposure to a ganna sourt:e 4 for a dosage of 2.5x10 Rads to simulate the nonnal environment total dose. 2.10.3.5 The test unit was vibration / seismic tested in accordance with the requirenents of Figures 1 and 2 and IEEE 344-1975.. 2.10.3.6 The test unit was additional'ly radiation tested by exposure to a 4 ganna dosage of 1.0x10 rads after the DBE vib~4 tion / seismic testing. l 4450Q 12
~ WESTINGHOUSE CLASS 3 2.10.3.7 During and after the testing identified in Sections 2.10.3.3 through 2.10.3.5 the Electronic Control Module was perfomanc. ~ tested to demonstrate valve operability to the requirements of Sections 1.1 and 1.7. 2.10.4 Conclusion The demonstrated qualified life of the Target Rock Corporation Electronic Control Module has been established in accordance with Subprogram A of the Westinghouse Aging Evaluation Program. The results of the aging program, together with the seismic and environmental testing described herein, demonstrat'e the qualification of the Model 80T Electronic Control Module for a period of 10 years employing the practices recomended by Reg. Guide 1.89,1.100 and 1.73. 2.11 Section 2 Notas (1) The generic tests completed *by Westinghouse employ parameters designed to envelope a number of plant applications. ' Margin is a plant specific parameter and will be established by the applicant. 2.12 References
- 1. Kamenic, M. E., " Equipment Qualification Test Report Target Rock Corporation Electronic Control Module", WCAP 8687, Supplement 2-E10B' (Proprietary).
e ~~ 44500 13
ESTINGHOUSE CLASS 3 SECTIONS 3 AND 4 QUALIFICATION BY EXPERIENCE AND/OR ANALYSIS Westinghouse does not employ operating experience or analysis in support of the qualification program for the Target Rock Electronic Control Module. t G e 44500 14
~. ' 9 A5 o TABLE 1 ACTUAL QUALIFICATION TEST CONDITIONS QUAL E OIPE NT (1) LOCATION MM1UFACTURER -8 / ACCIDENT ElfVIRO10 ENTAL EXTREES OPERASILITT ACCURACY (1) QUAL QUAL QUAL PROGRAM SYSTEM / CATEGORY STRUCTURE / AREA TYPE /MODEL P HAE TER SPECIFIED (2) - QUALIFIED g DTM RfQ M LIFE ETH00 REF STATUS Valve Outside Target Rock Temperature 240*F 1 yr. 1 yr. N/A N/A 10 Seq. E -105 Completed appurtances/ Containment Model 80T Pressure .3 pstg Post Post yrs. Test J CVCS. SIS Electronic' Rel. I.umidity 100 percent DOE DOE RHR, RCS Control Raffation 3.510k(v) h C:tegory a Module 5 Cheeistry~ lione c= iN c n .G 'Nl" 1. For definition of the equipment category, refer to NullEG-0588."Interia Staff Position on Environmental Qualf fication of Safety-Related Electrical Equipment," Appendix E. Section 2. 2. Plant specific environmental parameters are to be inserted by the app 11 cant.
WESTINGHOUSE CLASS 3 ,1, 1.0 0.8 - - I _3 0.6 - E p E. g W 6_'. .1 0 0.4 - - g .i 0.2 - - 0.0 50 100 150 200 FREQUENCY (H2) l Fig.1 : Plant Induced Vibration Linear Spectra 16 4450Q l
WESTINGHOUSE CLASS 3 l' j 0 3 Y\\ MYM[ N l _. s ,/ ; g 8 N E e d 1 :: .-{ /,# 1 w i \\ l / / 1 s [w \\ f-( lt A X ll/ N, / K } N-i AN 'wi! NY / )x X' X x / NX N/ \\ N 2 3 3 3 = asa! 'unom 17 44500
..... ~.. ~ = - -. -. -..... -.. . ~ -... _ . ~ _ -. _. 4 i i 4 h 4 4 i j i J i j i t i l i SNUPPS l Interim Justification Position for the Seismic Qualification of International i Instrtments 1151 Indicator 1 (J-110) i p 4 I j b t E i l i i p i f _k t
i SPECIFICATION J10 J-110 Equipment: International Instruments model 1151 panel indicators, guglification Concern: The indicators are currently in a ter,t program. Test documentation will not be available until after fuel load. JIO: 1. The International Instrument model 1151 indicator has been seismically tested satisfactorily for i other nuclear units and is in use at existing nuclear power plants. 2. The SNUPPS seismic test program will be completed by 3/9/84. Bechtel will monitor the testing to stay abreast of the qualification program. However, based on item 1 above, no adverse results are expected as a result of the testing program. The International Instrument model 1151 indicators will be qualified or will be replaced with qualified indicators prior to March 31, 1985. J 4 e l l l t l l
- ~. i j SNUPPS Interim Justification Position for the Seismic Qualification of American Warming and Ventilating Dampers (M-627A) i l t 1 I j . i
l I SPECIFICATION JIO H-627A Equipment: AWV Model No. 7401 dampers. supplied by American Warming and Ventilating, Inc. as identified in Attachment 1. Qualification Concern: The final test report will not be available until April, 1984.
Background:
The dampers of concern were previously tested. An anomaly during the testing resulted in a acdification in the attachment of the damper blades. Subsequent field verification determined that the modification was not performed as specified. A new test was performed to verify the acceptability of the installed configuration in February, 1984. JIO: All dampers that were retested satisfactorily demonstrated the adequacy of the attachment method. The tests were witnessed by a representative from the SNUPPS Architect / Engineer. Written confirmation has been received f rom the testing lab that the dampers had the ability to withstand the specified TRS. The dampers are considered qualified based on the satisfactory completion of the seismic test program. The documentation is being developed by the testing laboratory and vendor. O 'I
m ATTACHMENT 1 DAMPER TAG NLIMBERS GE-D-046/1-5-4 GK-D-128/1-5-4 CE-D-047/1-5-4 GK-D-129/1-5-4 ~ GF-D-024/1-5-3 GK-D-208/3-2-1 GF-D-025/1-5-3 GK-D-209/3-2-1 GF-D-028/1-5-4 GK-D-212/3-2-1 GF-D-029/1-5-4 GK-D-213/3-2-1 GG-D-003/6-1-1 GL-D-030/1-3-3 GG-D-004/6-1-1 GL-D-031/1-3-3 GG-D-032/6-3-1 GL-D-058/1-5-3 4 GT-D-009/1-5-4 GT-D-010/1-5-4 GF-D-065/1-4-4 GF-D-066/1-4-4 GL-D-156/1-4-2 GL-D-157/1-4-2 GK-D-317/3-4-1 GK-D-292/3-4-1 GK-D-320/3-3-1 GK-D-323/3-3-1 GK-D-002/1-5-2 GK-D-004/3-7-1 GK-D-009/3-2-1 GK-D-016/3-7-1 GK-D-018/1-5-2 GK-D-219/3-2-1 GK-D-220/3-2-1 GK-D-300/1-5-2 GK-D-301/1-5-2 GK-D-309/1-5-2 GK-D-310/1-5-2 GK-D-311/1-5-2 GK-D-312/1-5-2 GF-D-062/1-5-4 GF-D-063/1-5-4 GM-D-011/5-2-1 GM-D-012/5-2-1 GM-D-013/5-2-1 GM-D-014/5-2-1 'GM-D-015/5-2-1 GM-D-016/5-2-1 GD-D-019/0-1-0 (Item U-15) GD-D-020/0-1-0 (Item U-16) GD-D-015/0-1-0 (Item U-11) i CD-D-016/0-1-0 (Item U-12) GD-D-017/0-1-0 (Item U-13) GD-D-018/0-1-0 (Item U-14) O e l
I SNUPPS Interim Justification Position for the Seismic Qualification of the Operator Interface Modules (OIM's) { 3 'r i - 1-m .m
'destinghouse has conducted preliminary qualification testing on the Operator Interface Modules (OIM's). The objective of this program was to demonstrate the capability of the OIM's to perform their safety function while exposed to the abnormal environment of Attachment 1 and the safe shutdown earthquake of. This testing employed the recommended practices of R.G. 1.89 and R.G. 1.100 as interpreted by WCAP-8587. Acceptance criteria for the test was absence of switch contact bounce during the testing and no more than a + 2% shift in output on the 3.5 inch meter after the test. Monitoring of the switch contacts during the test demonstrated no contact bounce. The 3.5 inch meter did slightly exceed its acceptance criteria but the increased error can be absorbed by the total channel allowance. However, i since the original acceotance criteria was exceeded, Westinghouse is reviewing the meter design and plans to repeat the tests with a larger sample and a relaxed acceptance criteria. In the interim, the tests to date provide sufficient assurance that the total indicated accuracy of the channel will be satisfied and operation using these instruments is justified. ~ The final testing and report is scheduled t'o be completed by Hay 31, 1984 and will be documented in WCAP-8587 and WCAP-8687. l 0083G/JAA/1-23-84
O WESTINGHOUSE CLASS 3 Auc.L. + /
120*F TEMPERATURE t
82*F
- --- - -- - - 95% RH HUMIDITY J - - - - - - - - - - - - - 3 2% RH +12 -* + 12 -* + 12 -+ +12 HOURS l Enviremental Test Profile 1 i
WESTINGHOUSE CLASS 3 AMc ke4 i 2 10 8 CONTR01. 80ARD MOUNTED EQUIPMENT 6 4 l l 2 ~a 3 l C lo E 8 0 y 6 5t DAMPING g 2 (NOTE: cet REquitto RESPONSE SPECTRUM = 0.5 SSE RRS) til 0 t I i i ! ! i 10 100 3 2 2 4 6 8 10 2 4 6 8 10 FREQUENCY (Hz) Required Response Spectrum (RRS) for Safe Shutdown Earthquake (SSE)
m O 4 SNUPPS Interim Justification Position for the Seismic Qualification of Cutler Hamier Series E-30 Pushbutton Assemblies 7 (E-028,J-200) .I 4 l i j. l J i I h r. g r e r
n 3 SPECIFICATION JIO E-028 J-200 Equipment: Cutler Hammer series E-30 pushbutton assemblies. Qualification concern: These pushbutton assemblies are currently in a test program. The results are not available. { JIO: The use of the pushbutton assemblies without complete seismic qualification is justified for.the following i reasons: 1. Cutler Hammer pushbutton assemblica have been qualified for use in existing nuclear power plants. 2. Similar SNUPPS plant pushbutton assemblies have been qualified to the SNUPPS seismic requirements as components of tested equipment. Pushbutton 7 I assemblies have been seismically qualified in motor control centers, load centers, switchgear and other electrical equipnent. i 3. The Cutler Hammer series E-30 pushbutton assemblies utilized in the SNUPPS design are heavy duty compact units that exhibit no apparent seismic fragility. 4. A qualification testing program is in progress with seismic testing scheduled for completion at a j later date. Bechtel will monitor the testing to stay abreast of the qualification progress. The results of the testing will be known prior to r fuel load. However, based on reasons 1-3 above no adverse results are expected. 3 The Cutler Hammer pushbutton assemblies are currently in a testing program to verify seismic qualification. The operators will be qualified or will be replaced with pushbutton operators that are qualified prior to March 31, 1985. i i I i p l I^ .}}