ML20063A050

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Reactor Containment Integrated Leakage Rate Test Results Rept,1982
ML20063A050
Person / Time
Site: Beaver Valley
Issue date: 05/31/1982
From:
DUQUESNE LIGHT CO.
To:
Shared Package
ML20063A046 List:
References
NUDOCS 8208240169
Download: ML20063A050 (69)


Text

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DUQUESNE LIGHT COMPANY Beaver Valley Power Station Unit Number One REACTOR CONTAUC4ENT INTEGRATED LEAKAGE RATE TEST RESULTS REPORT May, 1982 l

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Table of Contents Introduction Page i PART'I - Containment Integrated Leakage Rate Test A. Summary of Events Page 1 B. Acceptance Criteria Page 5 C. Data Summary Page 6 D. Data Summary - Verification Test Page 9 E. Error Analysis Page 10 F. Type C AS - FOUND vs. AS -LEFT Analysis Page 12 G. Conclusions Page 20 H. Graph Air Mass Quantity vs. Time Page 23 I. Graph Leakage Rate vs. Time with U.C.L. Page 24 PART II - Local Leakage Rate Tests A. Summary of Type B Test Results Page 26 B. Summary of Type C Test Results Page 33 i

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' INTRODUCTION - Containmrnt Integrated Leakage Rate Test, 1982 ,

This report contains a discussion of the Beaver Valley Power Station, Unit No. 1, containment leakage testing since the last performance of the Type A Leak Test in November 1978. It has been prepared in accordance with the requirements of 10 CFR 50, Appendix J, Section V, paragraph B.3. Part I discusses this May, 1982 performance of the Containment Type A Integrated Leak Rate Test. Part II summarizes the results of the containment local leak testing performed since the last Type A Test.

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PART I - Containment Integrated Leak Rate Test, 1982 A.

SUMMARY

OF' EVENTS After the completion of all prerequisites (i.e. - system alignments, equipment calibrations, computer program checkout, etc.) the pressurization of the reactor containment building was started at 2112 hours0.0244 days <br />0.587 hours <br />0.00349 weeks <br />8.03616e-4 months <br /> on May 9, 1982.

It can be noted here that two changes were made to Type "A" equipment subsequent to the Novmeber, 1978 Type "A" test te improve upon the perform-ance of this test.

First, the interface between the quartz manometer (for measuring containment pressure) and the process computer was changed from an analog voltage signal to a binary coded decimal (BCD) signal improving on the accuracy of the computer readings for the Type "A" test. Voltage fluctuations in the analog signal coming into the computer were causing the computer readings of the manometer to fluctuate excessively; thus the manometer readings had to be manually entered into the computer by a test engineer periodically during the previous Type "A" test. But with the addition of the BCD inter-face, the manometer readings had a high degree of accuracy and repeatability thus sparing two test engineers from the monotonous task of manually inputting the readings into the computer.

The second modification was an upgrade of the Type "A" computer program. This modification consisted of 1) changing the calculations from hourly to every ten minutes and 2) using a real time clock for the calculations. This increase in the number of data sets resulted in a better least squares fit for the leakage rate calculation and also a more realistic confidence- level .

The pressurization of the containment continued smoothly until a pressure af approximately 47 psia was reached inside tne containment. During a routine survey for leaks, pressure was discovered increasing inside the

? age 1

PART I - ContainmInt Integrated Leakage Rate Test, 1982

  • A . SUIC4ARY OF EVENTS (CONTINUED)
  • personnel airlock.

Initially the decision was made to let the airlock pressurize along with the containment and use the airlock's outer door as the pressure boundary. Unfortunately, the outer door had a minor seal leak to the outside atmosphere which at this time was suspected to be greater than the acceptable leak rate.

The leakage rate measured on the computer was approximately 20 pound mass of air per hour (Lbm/hr) which was greater than the 15 Lbm/hr acceptable leakage rate. An investigation into a design change which had just been completed on the airlock showed that an emergency access equalizing (whistle) valve had been installed on each airlock door and was probably the reason for the pressure increase inside tue airlock.

This modification consisted of a two inch diameter steel shaf t (locking pin) through the door which operated the equalizing valve depending on the shafts' position, in or out.

The differential pressure exerted a force on the end of the shaft forcing it to slide inward, opening the equalizing valve and creating a flow path f rom the containment into the airlock. To defeat this setup, entrance was made into the airlock and the steel shaft was secured such that the equaliaing valve was in the closed position. During the remainder of the test, the pressure in the airlock stayed at 0 psig.

In continuing with the test, a leakage rate of approximately 20 Lbm/hr was still being measured.

An intensive investigation into all systems for leakages and valve alignments was implemented. At first the only leaks found were very minor, i. e. - flange gasket leaks or valve packing leaks. Then it was discovered that the river water system to the inside containment recir-culation spray heat exchangers was drained when it should have been filled (as in normal operation) for the test. Further investigation revealed that three of the four penetrations were under vacuum while the fourth had a positive pressure of 7 psig. It was suspected that a vent or drain valve on the heat exchanger may have been inadvertently lef t open or a hole was Paea_3

EAEK K - Containment Integrated Leakage Rate Test, 1982

,A .

SUMMARY

OF EVENTS (CONTLNOED) .

i present in the metal expansion joint inside containment. Either condition would provide a direct air path from the inside to outside containment showing up as a leak on the calculations. The river water system to each heat exchanger was isolated by shutting the inlet and outlet isolation motor operated valves.

The Type "A" computer program was re-initialized at 1620 hours0.0188 days <br />0.45 hours <br />0.00268 weeks <br />6.1641e-4 months <br /> on May 12, 1982. After several hours of data acquisitions, a leakcge rate of approximately 7 Lbm/hr (0.04%/ Day) was measured which was well within the acceptable limit of 15Lbm/ Day (.075%/ Day). The test continued for a full 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> without any additional adverse encounters. At 1620 hours0.0188 days <br />0.45 hours <br />0.00268 weeks <br />6.1641e-4 months <br /> on May 13, 1982 the Type "A" test was concluded with a leakage rate of 0.0239%/ Day and a 95% confidence level of 0.0019%/ Day. '

The Mass Step Change Verification Test was then performed. For this verification test 240 pounds mass of air per hour was pumped into the containment via the station air system over a two hour period. This mass of air was measured by both a calibrated mass air flow meter and the Type "A" instrumentation system (process computer). The mass air flow meter measurement of 440.5 pounds mass verses the Type "A" instrument system measurement of 412 pounds mass were in agreement by 4.03% (adjusted for measured type A leakage rate during the two hour test) which is well within the allowable 25.0%.

The completion of the verification test concluded the Type "A" ILRT.

Depressurization was started on May 14, 1982 at 0045 hours5.208333e-4 days <br />0.0125 hours <br />7.440476e-5 weeks <br />1.71225e-5 months <br /> and the contain-ment reached atmospheric pressure at 2200 hours0.0255 days <br />0.611 hours <br />0.00364 weeks <br />8.371e-4 months <br />. Afterwards general equipment and system restoration was completed.

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. PART I - Containment Integrated Leakage Rate Test, 1982 t

B. ACCEPTANCE CRITERIA Integrated Leak Rate Test
The measured leakage rate, Lam, at the initial test pressure, Pa, is less than 75% of the maximum allowable leakage rate, La.

4 Lam f 0.75 La at test pressure Pa l Where:

. La = 0.10 percent leakage by weight of the containment air per 2

24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> at Pa Pa = 38.3'PSIG (53.0 PSIA), and s

Lam = Sum of measured leakage rate, 95% confidence level, and any Type C

! penelties in percent per day (%/ Day)

Verification Test - Mass Step Change Method i

The mass metered by the flowmeter must equal the change in mass measured by the Type A test instrumentation during the verification test within a margin of 25% on the metered value.

J M - (Lam) (T) (Q1 )/2400 - (Qg - Q )

) < 0.25 M

i Q = mass measured by Type A test instrumentation M = mass measured by verification test flowmeter i

Verification Test - Super Imposed Leakage Method The composite leakage calculated by the computer leak rate program (L )

must equal the sum of the super-imposed leakage (L ) and the Type A leakagec (Lam) within a margin of 25% of the maximum allowaole leakage (La) in one day.

i.

l (Lo + Lam) - 0.25La i LcI (L, + Lam) + 0.25La f

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Page 3

Part I - Containment Integrated Leakags Rata Tect, 1982

. C. DATA

SUMMARY

Data Real Average Absolute Air Mass 95%

Set Time Leakage Temperature Pressure Quantity Confidence No.

Rate

(*R) (PSIA) (Lbm) (%/ Day) (%/ Day) 1 16: 20: 3 530.63 54.540 499102. 0.0000 2 16: 30: 39 530.83 0.0000 54.540 499110. 0.0000 0.0000 3 16: 41: 19 530.82 54.540 499107. 0.6036 4 16: 52: 0 530.82

-0.0664 54.539 499104. 0.1869 -0.0127 5 17: 2: 39 530.82 54.536 499102. 0.0997 0.0158 6 17: 13: 19 530.60 54.536 499107. 0.0632 7 17: 24: 0 -0.0006 530.60 54.537 499099.. 0.0507 0.0166 6 17: 34: 39 530.79 54.535 499096. 0.0406 9 17: 45: .19 0.0312 530.76 54.535 499097. 0.0307 0.0326 10 17: 56: 0 530.77 54.534 499102. 0.0264 11 16: 6: 39 0.0241 530.77 54.535 499111. 0.0294 0.0063 12 16: 17: 19 530.77 54.534 499106. 0.0247 0.0043 13 16: 26: 0 530.77 54.534 499104. 0.0207 14 16: 36: 39 0.0033 530.76 54.532 499094. 0.0196 0.0106 15 16: 49: 19 530.76 54.532 499093. 0.0176 0.0155 16 19: 0: 2 530.76

~

0.0257 54.530 499030. 0.0315 17 19: 10: 39 530.76 54.529 499069. 0.0265 0.0431 lb 19: 21: 19 530.75 54.528 499067. 0.0255 0.0512 19 19: 32: 2 530.74 54.527 499063. 0.0242 0.0560 20 19: 42: 39 530.75 54.526 499049. 0.0246 0.0675 21 19: 53: 19 530.73 54.525 499062. 0.0222 0.0693 22 20: 4: 0 530.71 54.525 0.0206 499074. 0.0656 23 20: 14: 39 530.72 54.523 499055. 0.0190 0.0680 24 20: 25: 19 530.71 54.522 499052. 0.0175 0.0699 25 to: 36: 0 430.71 54.521

'" 2V 4D ## 499043. 0.0164 0.0729 530.70 54. 20 499045. 0.0152 0.0742 27 20: 57: 19 530.70 54.520 499047. 0.0140 26 21: 6: 0 0.0743 530.69 54.520 499047. 0.0130 0.0736 29 21: 16: 39 530.66 54.519 499055. 0.0125 l 30 21: 29: 19 0.0713 530.66 54.520 499064. 0.0125 31 21: 40: 2 0.0673 530.66 54.520 499065. 0.0125 0.0634 32 21: 50: 39 530.67 54.520 499066. 0.0126 33 22: 1: 19 0.0596 530.66 54.519 499067. 0.0125 0.0562

, 34 22: 12: 1 530.67 54.518 499057. 0.0119 35 __ 22: 22: 39 0.0541 530.66 54.516 499056. 0.0115 0.0522 36 22: 33: 19 530.67 54.519 499066. 0.0113 37 22: 44: 0 0.0495 530.67 54.516 499051. 0.0107 lb 22: 54: 39 530.66 0.04b6 54.516 499059. 0.0104 0.04tb 39 23: 5: 19 '530.67 54.519 499066. 0.0103 0.0442 40 23: 16: 0 530.67 54.519 41 23: 26: 39 499063. 0.0100 0.0422 530.oS 54.519 499046. 0.0095 42 23: 37: 19 530.67 0.0420 54.519 499053. 0.0091 0.0420 43 2: Ab: 0 5a0.66 54.519 499054. 0.006o 0.039e 44 23: 5c: 39 530.6c 54.519 499054.

45 9: 19 0.0065 0.03bb

00
530.cc 54.519 499055. 0.00e2 0.0376 l

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Part I - Containment Integrated ,L2akaga Rate Tect, 1982 C ., DATA

SUMMARY

(continu;d) -

Data Real Average Absolute Air Mass '

95% Leakage Set Time Temperature Pressure Quantity No. Confidence Rate

(*R) (PSIA) (Lbm) (%/ Day) (%/ Day) 46 tJ. ': ^~2 530.69 54.519 499046. 0.0076 47 00. 30: 39 530.68 0.0372 54.516 499047. 0.0075 0.0368 46 00: 41: 19 530.66 54.516 499043. 0.0072 00: 52: 0 0.0365 49 530.a6 54.518 499046. 0.0070 0.0360

._ ;0 01: 2: 39 530.56 54.518 499045. 0.0067 0.0354

.1 01: 13: 19 530.69 54.516 499031. 0.0064 01: 24: 1 0.0356 52 530.68 54.516 499037.' O.0062 0.0356 53 01: 34: 39 530.68 54.518 499042. 0.0060 01: 45: 19 0.0351 54 530.66 54.517 499033. 0.0056

5 0.0350 01
56: 1 530.68 54.517 499038. 0.0056 56 02: 6: 39 530.66 0.0347 54.517 499034. 0.0054 0.0346 57 02: 17: 19 530.68 54.516 499024. 0.0052 02: 26: 0 0.0346 56 530.69 54.515 499012. 0.0051 39 02: 36: 39 530.68 0.0356 54.515 499011. 0.0050 0.0363 60 02: 49: 19 530.69 54.514 499003. 0.0049 03: 0: 0.0371 61 3 530.68 54.514 499011. 0.0048 0.0375 62 03: 10: 39 530.68 54.514 499001. 0.0047 0.0383 63 03: 21: 19 530.69 54.514 498997. 0.0046 64 03: 32: 0 0.0391 530.66 54.514 499006. 0.0045 65 03: 42: 39 530.68 0.0394 54.514 499001. 0.0044 0.0397 66 03: 53: 19 530.67 54.514 499011. 0.0042 67 04: 4: 0.0396 1 530.66 54.513 499004. 0.0041 68 04: 14: 39 530.67 0.0396 54.513 499002. 0.0040 0.0400 69 04: 25: 19 530.67 54.513 499003. 0.0039

. 70 04: 36: 0 530.66 0.0400 54.513 499013. 0.0036 0.0397 71 04: 46: 39 530.67 54.514 499010. 0.0037 il 04: 57: 19 530.68 0.0394 54.513 499001. 0.0036 0.0394 73 05: 6: 0 530.66 54.513 498999. 0.0035 0.0394 is 05: 16: 39 530.67 54.512 496996. 0.0034 55 05: 29: 19 530.66 0.0395 54.513 498997. 0.0033 0.0394 76 05: 40: 2 530.67 54.513 499001. 0.0032 ii 05: 50: 39 530.66 0.0393 54.513 496995. 0.0031 it 06: 1: 19 530.67 0.0393 54.513 499004. 0.0031 79 06: 12: 530.06 0.0390 0 54.513 496994. 0.0030 bJ 530.67 0.03b9 06: 22: 39 54.513 499006. 0.0030 0.0365 c1 06: 23: 19 530.bb 54.513 49ers7. 0.0029 0.03b4 i c2 06: 44: 0 530.67 54.514 499011. 0.0029 0.0376 c3 06: 54: 39 530.66 54.514 499006. 0.0029 0.0373 d4 07: 5: 19 520.6e 54.514 499011. 0.0029 0.0366 c5 05: 16: 0 530.69 44.514 496996. 0.002e 0.0366 co ' 07: 30: 39 530.cc 54.514 499006. 0.0026 0.03o2 37 07 37: 19 530.69 54.514 499001. 0.0027 0.0359 ce C '. 46: 0 530.6o 54.514 499000. 0.0027 0.0356 c9 07: 58: 39 530.6e 54.51; 496996. 0.0027 0.0352 90 06: -- - 'a0.ec 54.514 499001. 0.0026

' 0.0349_

I u,- - -- -

, Part I - Containment Ints: grated L =kaga Rata Teat, 1982 -

C. DATA

SUMMARY

(continu:d) '

4 Data Real Average Absolute Air Mass 95% Leakage Set Time Temperature Pressure Quantity Confidence Rate No. (*R) (PSIA) (Lbm) (%/ Day) (%/ Day) 91 05: 20: 3 530.69 54.514 496996. 0.0026 0.0347 92 06: 30: 39 530.69 54.514 498999. 0.0026 0.0344 93 05: 41: 19 530.69 54.514 498997. 0.0025 0.0341 94 08: 52: 0 530.69 54.515 496999. 0.0025 0.0336 95 09: 2: 39 530.70 54.515 496995. 0.0025 0.0335 96 09: 13: 19 530.70 54.515 496991. 0.0024 0.0333 97 09: 24: 1 530.70 54.516 499003, 0.0024 0.0329 9e 09: 34: 39 530.71 54.516 498999.~ 0.0024 0.0325 99 09: 45: 19 530.70 54.517 499014.' O.0024 0.0319 100 09: 56: 0 530.71 54.520 499033. 0.0026 0.0311 101 lo: 6: 39 530.70 54.516 499023. 0.0026 0.0304 102 10: 17: 19 530.70 54.516 499022. 0.0027 0.0296 103 10: 28: 0 530.70 54.516 499006. 0.0027 0.0294 104 10: 36: 39 530.70 54.515 498997. 0.0026 0.0291 105 10: 49: 19 530.69 54.513 498989. 0.0026 106 11: 0: 3 530.69 0.0290 54.513 498995. 0.0026 107 11: 10: 39 530.69 0.0286 54.514 498996. 0.0025 0.0265 106 11: 21: 19 530.69 54.514 498992.

109 11: 32: 0 530.69 0.0025 0.02b4 54.513 498995. 0.0025 0.0261 110 11: 42: 39 530.69 54.514 498995. 0.0024 111 11: 53: 19 530.66 0.0276 54.514 496999. 0.0024 0.0276 112 12: 4: 0 530.69 54.514 496999. 0.0024 0.0272 113 12: 14: 39 530.69 54.515 499002. 0.0024 0.0269 114 12: 25: 19 530.69 54.517 499023. 0.0024 0.0263 115 12: 36: 0 530.68 54.517 499028. 0.0025 0.0256 116 12: 46: 39 530.69 54.516 499015. 0.0025 0.0251 117 12: 57: 19 530.66 54.514 499003. 0.0025 0.0248 j 118 13: 8: 1 530.68 54.514 499000.

119 0.0024 0.0245 l 13: lu: 40 530.68 54.513 499000.

120 13: 29: 20 0.0024 0.0242 530.67 54.511- 498966.

13: 40: a 0.0024 0.0241 121 530.66 54.511 498992.

122 13: 50: 40 0.0024 0.0239 530.66 54.512 499007. 0.0023 0.0236 l

123 14: 1: 20 530.65 54.510 499000. 0.0023

' 24 14: 12: 1 530.66 0.0233 54.508 496975. 0.0023 0.0233 l 125 14: 22: 40 530.65 54.507 496972. 0.0022 126 Ia: 33: 20 530.65 0.0233 54.506 496964. 0.0022 127 14: 44: 530.65 0.0234 0 34.506 496961. 0.0022 128 14: 54: 39 530.64 0.0235 54.505 496963. 0.0022 0.0236 129 15: 5: 19 530.63 54.504 496962. 0.0021 0.0237 130 15: 16: 2 530.64 54.503 496946. 0.0021 lal 15: 26: 39 530.62 0.0239 54.503 496961. 0.0021 132 15: 37: 19 0.0239 530.62 54.504 49c967. 0.0020 t

123 15: 46: 2 530.62 0.0240 54.503 496963. 0.0020 134 15: 56: 39 530.62 0.0240 54.504 496967. 0.0020 135 16: 9: le 530.62 0.0239 54.503 496960. 0.0020 0.0240 136 16: 20: 3 530.62 54.503 t

496364. 0.0019 0.0240 i

137 _16 : 30:_ 39 530.62 54.503 __496961. 0.0019 0.0239 I

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Part I - Containment Integratc;d L:akaga Rate Test, 1982 D.

DATA St.MfARY - VERIFICATION TEST Data Real Average Absolute Air Mass Mass Air Set Time Temperature Pressure Quantity Flowmeter No. ('R) (PSIA) (Lbm) Readings (Lbm/Hr.)

1 20: 25: 19 ~530.60 ~44.495 49691'2. 220 2 20: 36: 0 530.60 54.49r 498919. 221 3 20: 46: 39 530.60 54.501 498957. 221 4 20: 57: 19 530.61 54.505 496991. 220 5 21: 8: 0 530.60 54.507 499019. 219 6 21: 16: 39 530.60 54.511 499047.

7 21: 29: 19 530.60 54.515 499086.

220 6 21: 40: 3 530.60 54.519 220 9 21: 50: 39 499123. 222 530.60 54.523 499167.

10 22: 1: 19 530.61 54.528 220 11 22: 12: 0 499201. 220 530.61 54.532 12 22: 22: 39 499239. 220 530.60 54.537 13 22: 33: 19 499286. 220 530.60 54.540 499324. 220 l

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'PART I - Containm:nt Integrated Leakage Rate Test, 1982 E. ERROR ANALYSIS INSTRUMENTATION SELECTION GUIDE (ISG)

The Instrumentation Selection Guide (ISG) formula is used to determine the ability of an instrumentation system to measure the integrated leakage rate of the primary reactor containment system. The ISG formula is not based on a statistical analysis of leakage rate calculations, but has been developed for instrumentation selection. The ISG computed is not added to the value of the calculated leakage rate, but is used for instrument selection and loss of sensor criteria only.

+ 2 VP T 1/2

- Np l I t l -

NPl T) a and ISG 1 0.25 La = .025 %/ Day where: t= test duration, hours p = Test pressure, 53 psia T = test ambient temperature, 535*R e,e and e are calculated as follows:

T

1. Absolute Pressure: Mensor Quart: Manometer Number of Sensors: 1 Range of Sensor: 0 - 150 inches mercury absolute Sensor Sensitivity (E : 0.0005% of FS = 1 0.00037 psia Measurement System Erfo)r (E ): 0.001% of FS = 0.00074 pv -

P

=1 r~(E + (number of ser , ors)1/?~

e p ( )~ (()' ] 1/ +

--- , ,9

=; ((0. 0003 7) ~ + (0.00074)~ _ if', t (1)if, ~

= 1 00082 psia Page 10

PART I - Containment Integrated Leakage Rate Test, 1982 E. ERROR ANALYSIS (CONTINUED)

2. Ambient Temperature:- Thermohm Platinum RTD's Number of Sensors: 16 Range of Sensors:

60 - 100*F (520 - 560*R)

Sensor Sensitivity (E ): 1 0.l*F (1 0.l*R)

T Measurement System Error (E ): Resolution:

T 0.0l*F (0.01*R)

Repeatability: 0.05'F (0.05*R) e T

=

1 {(ET} + (I )

I

) + (number of sensors)

=

1 [(0.1) + (0.01 + 0.05) ] 1/2 (16)1/2

=

1 0.02915*F

3. Dewpoint Measurements: Foxboro Company Model 2701RPG Number of Sensors: 5 Range of Sensors: 0 - 100*F At a dewpoint temperature of 60*F the equivalent water vapor pressure change (as determined from the Steam Tables) is 0.0092 psia /*F.

Sensor Sensitivity (E  : + 0.5'F (0.0092 psia / *F) = + 0.00046 psia Measurement System Err 0)r (E vp): -+ 0.1*F (0.0092 psia /*F) = 0.00092 psia e

yp

=

{ (E ) + (E )2 g1/2 + (number of sensors)l/2

=i [(0.0046) + (0.00092) ]1 + (5)1/2

= 1 0.00210 psia

4. Using the measurement system errors calculated above (based on the availability of all ILRT instruments), the Instrumentation Selection Guide (ISG) is calculated for a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> duration Type "A" test to be:

ISG =

2 + 2 *vp 2

, 2 1/2

, ,2400 [ ] /0.00082 2 0.002112 , 0.02915 2 1/2

- 24 {\ 53 ,

53 l ~

535 _

=

1 00978 i and ISG = t .00978 { .025 Therefore the ISG is acceptable.

f I

Page 11

PART I - Containment Integrated Leakage Rate Test, 1982 F. TYPE C AS - FOUND VS. AS - LEFT ANALYSIS The requirements of 10CFR50 Appendix J, Section III.A.l.2 specify that the Type A test to be performed on the reactor containment building in as close to the "AS FOUND" condition as practical; i.e. - no repairs or adj ustments (RA's) to the primary containment boundary so that the containment can be tested in the "AS - FOUND" condition. Because this isn't always practical during an outage where the Type B and C local leakage rate tests are usually performed and necessary repairs made prior to the Type A test, an analysis was made of the leakage rates of the repaired penetrations both before and after repairs to determine any local leakage rate correction to be added to the Type A test results. These corrections would result from any RA's performed prior to the Type A test and would be used to assess the containment integrity following a period of operation.

The following table is a summary of the AS - FOUND verses AS - LEFT leakage rates from the 1982 Type C testing program. Note that Type A add on leakage only occured if the total penetration leakage decreased as a result of repairs to both the inside and outside isolation valves. If repairs were performed on only one valve and the other isolation valve measured an acceptable leakage rate, the assumption was made that no leakage change resulted from the repairs; that is the containment integrity was maintained by the acceptable valve. As can be seen from the table, only two penetrations (40 and 64) qualified as having repairs made to both isolation valves thereby reducing the leakage rate prior to the Type A test. Thus the total add on leakage rate is 475.97 SCF/D or 0.00734 J;/ Day. (See Section G, conclusions of this report) .

l Page 12

+

PART I - Containment Integrated Leakage Rate Test, 1982 F.

TYPE C AS - FOUND VS. AS - LEFT ANALYSIS (CONTINUED) i i a

', I' l AS - FOUND

' l AS - LEFT  ! TYPE "A" a PENETRATION! l LEAKAGE l' LEAKAGE l ADD - ON NUMBER I VALVES I SCFD SCFD i SCFD I

1 MOV-CC-ll2A2 I

.464 *

.464 0 CCR-247 l .563 i .563 2 MOV-CC-112B3 750 SCF/hr 26.86 0

, CCR-252 .528 .528 1

4 MOV-CC-112A3 > 50 .464 0 CCR-251 191.37 191.37 l I 5 MOV-CC-112B2 32.48 32.48 0 CCR-248 .528 .528 i

t 7 i

SI-83 69.6 69.6 0 l l MOV-SI-869A 69.6 69.6 L

8  !' TV-CC-107D1 .464 .464 0 l TV-CC-107D2 .563 .563 9  !

TV-CC-lllD1 .464 .464 0 f TV-CC-lllD2 l 3.61 3.61 1

I 11 i TV-CC-110D l 7.428 7.428 0 TV-CC-110F2 38.067 38.067 .

TV-CC-110F1 i i

i I l 14 TV-CC-110E3 .464 .464 I

' 0 TV-CC-110E2 20.84 20.84 1

15 CH-31 Note 1 217.70 0 MOV-CH-389 259.39 259.39 16 TV-CC-lllA2 8.82 8.82 0 TV-CC-lllAl 163.38 67.6 l

i L7 TV-CC-103B1 1.35 1.85 0

) TV-CC-103B 43.94 13.94 13 IV-CC-103Cl 29.23 29.25 0 TV-CC-103C 174.34 141.00 t

Page 13

PART I - Containment Integrated Leakage Rate Test, 1982 F. TYPE C AS - FOUND VS. AS - LEFT ANALYSIS (CONTLNUED) i  ;

! 'AS - FOUND AS - LEFT -

TYPE "A" PENETRATION ! LEAKAGE LEAKAGE -

ADD - ON f NUMBER  ! VALVES SCFD SCFD  : SCFD f i i

19 CH-369 \ 31.03 31.03 0 MOV-CH-378 '

MOV-CH-381 i .464 .464 20 '

S I-42 .464 .464 0 f

SI-41 .464 .464 ,

I 24 ' l- - - 5.56 RH-14 \

RH-16 /

5.56 ll 0 l

RH-15 28.77 28.77 l l  !

25 TV-CC-105D1 i>50 SCF/hr 46.4 i 0 i i TV-CC-105D2 l 67.6 67.6 l i i I  !

26 TV-CC-107El l 180.96 36.19 0 l l l . TV-CC-107E2 j 0.85 1.32 l I i

'  !  ! i 27 TV-CC-105El  ! 35.26 35.26 0

TV-CC-105E2 3 1.13 1.13 -

' I 28 TV-CH-200A,B,C! 6.03 l 6.03

  • 5.09  ; 5.09 0

> MOV-CH-142 RV-CH-203 e p! '

TV-CH-204 , .464 .464 l l 29 i i

!  ! TV-DG-108A .464 -

.464 0 ,

! TV-DG-108B 2.97  ! 2.97  !

i 33 SI-84 69.6 69.6 0 j MOV-SI-869B 69.6 69.6 i

l 35 CH-lS1 28.72 28.72 0 1

$10V-CH-308A 9.75 9.75 36 CH-182 1.39 1.39 0 l MOV-CH- 3083 11.61 11.61 37 Cil-ld3 60.21 60.21 0 MOV-CH-308C 97.49 31.04 38 TV-DA-100A 33.38 d3.38 0

{ 6 003 1s99 1.99 '

PART I - Containment Integrated Leak Rate Test, 1982 F.

TYPE C AS - FOUND VS. AS - LEFT ANALYSIS (CONTINUED)

AS - FOUND AS - LEFT  !! TYPE "A"

' PENETRATION LEAKAGE l LEAKAGE ADD - ON h[

NUMBER VALVES + SCFD i SCFD i

SCFD i

(

39 TV-BD-100A 11.14 11.14 0 l

LMC 18.56  ! 18.56 l i '

40 TV-BD-100B 218.4 3.12

' 209.04 -

, LMC Not Tested 9.35 41 TV-BD-100C .464 i .464 0 LMC .464 '

.464

! l 42 ,

SA-14 28.32 28.32 0

, SA-15 1.81 1.81  !

43 TV-CV-102 Note 2 324.24 0 l l i TV-CV-102-1 2.78 e i '

44 i TV-CV-101A 55.76 64.748 0 l j TV-CV-101B 92.85 4 45.324 4

i ,

! l -

45 i RC-72 4.5 j 4.5  ; O

. TV-RC-519 0.93 0.93  ;,

l

! 4 46 CH-70  ! 2.27 l 2.27 8

O FCV-CH-160 t

6.02 i 6.02 '

i i 1

t, 47 IA-90 8.33 -

8.33 j 0 LA-91 8.33 8.33 ,

48 TV-DG-109Al .464 .464 / 0 i TV-DG-109A2 125.58 1.72 49 RC-68 3.78 3.78 0

TV-RC-101 1.51 1.51 1

53 TV-SI-101-1 626.71 46.40 0 TV-SI-101-2 60.35 60.35

35-1 TV-SS-109Al .464 .464 0 j TV-SS-109A2 .464 .464 1

! 55-2 TV-LM-100Al 464 .464 57-1 l 57-2 TV-LM-100A2 404 .464 9 97-3

I PART I - Containment Integrated Leakage Rate Test, 1982 F. TYPE C AS - FOUND VS. AS - LEFT ANALYSIS (CONTINUED)

AS - FOUND AS - LEFT  ; TYPE "A" 3

PENETRATION LEAKAGE LEAKAGE ADD - ON NUMBER VALVES SCFD SCFD SCFD 2

55-4 TV-SS-111A1 .464 .464 0 TV-SS-111A2 .464 .464 s

56-1 TV-SS-100A1 .464' .464 0 TV-SS-100A2 1.39 1.39 j
56-2 TV-SS-102A1 Note 2 .464 0 TV-SS-102A2 .464 56-3 Tv-SS-105A1 Note 2 .464 0 TV-SS-105A2 .464 56-4 ,

TV-SS-117A 0.79 0.79 0 i

57-3 CV-35 11.142 11.142  ! O TV-LM-101A .464 .464 -

57-4 CV-36 3.62 3.62 0 TV-LM-101B .464 .464  !

58 TV-CC-10 3A 16.09  ; 16.09 0 l

g TV-CC-103Al .464 i .464 i i 60 l SI-13 l Note 1 , .464 0 l MOV-SI-890A )5O SCF/hr  ! 125.06 ,

! I 61  !

SI-10 92.85 -

92.35 ' '

SI-ll .464 .464  ! O SI-12 >50 SCF/hr 116.06 l MOV-SI-890C 464 .464 l 62 SI-14 Note 1 464 0 MOV-SI-890B .464 464 63 QS-4 60.35 60.35 0 MOV-QS-1013 255.33 122.64 04 QS-3 306.39 3.24 266.93

, MOV-QS-101A 1573.38 39.46 ,.

$NM S

i PART I - Containment Integrated Leakage Rate Test, 1982 F. TYPE C AS - FOUND VS. AS - LEFT ANALYSIS (CONTINUED)

AS - FOUND AS - LEFT TYPE "A" PENETRATION l LEAKAGE LEAKAGE ADD - ON NUMBER  ! VALVES SCFD_ SCFD SCFD i

66 MOV-RS-155A .464 .464 0 l

l I

l 67 ,

MOV-RS-155B .464 .464 l 0 3

68 MOV-SI-860A > 50 SCF/hr 139.20 0 69 MOV-SI-860B > 50 SCF/hr 199.52 Note 3 0

70 RS-101 12.99 12.99 0 MOV-RS-156B .464 .464 .

71 RS-100 4.44 4.44 0 MOV-RS-156A 3.89 3.89 i ,

t

. 87 HY-111 222.72 l 0.88 0 HY-120 1.11 1.11 l

l 88 HY-110 .60 .60 0 l l HY-119 1.44 1,44 I l 89 l AS-278 181.05 i 23.19 0 ,

l TV-AS-100A 15.78 l 15.78 l

' l I 4 90 ' VS-D 3A .650 .650 1 0

VS-D-5-3B'f l l i

91 , VS-D-5-5A l t VS-D-5-5B

.836 .836 0 VS-D-5-6 l l 92 I'

HY-102 .742 .742 0 TV-CV-150C HY-104 ,-- 60.35 60.35 TV-CV-150D 93 HY-101 .464 464 0 TV-CV-150B TV- - OA 3.53 3.53 Page 17

i l

l 1

PART I - Containment Integrated Leakage Rate Test, 1982 F. TYPE C AS - FOUND VS. AS - LEFT ANALYSIS (CONTINUED)

AS - FOUND AS - LEFT TYPE "A" PENETRATION LEAKAGE LEAKAGE ADD - ON NUMBER VALVES SCFD SCFD ,

SCFD 94 HCV-CV-151 25.53 25.53 0

HCV-CV-151-1 18.11 18.11 i

96 , SI-95 97.4 97.4 0

, MOV-SI-836 .464 .464  !'

97-1 l TV-SS-104A1 .464 .464 0 i

TV-SS-104A2 .464 .464 l 97-2 .

TV-SS-103Al .464 .464 0 l TV-SS-103A2 .464 .464 j 97-4 TV-SS-117C .464 .464 '

0 ,

103  ! PC-37 27.32 27.32 0 PC-38 l 4.03 l 4.03

! 1 104 PC-9 l 10.68 10.68 0 PC-10  ; 2.23 l 11.58 -

105-1 TV-SS-117B l 2.60 2.60 0
i l  ; 105-2 TV-SS-112A1 .464 .464 0 l TV-SS-112A2 .464 .464 l \ f l

.464 j 106 MOV-SI-842 .464 l 0  ;

TV-SI-889 .464 .464 '

j i 110 RC-277 .464 .464 0 RC-278 .464 .464 l

l 113 SI-94 115.8 115.8 0 l SI-91 l

MOV-SI-867C j L11.' 111.2 MOV-SI-867D ' ,

i l

TOTAL a73.97 l

l i

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

i 4 .

j PART I - Containment Integrated Leakage Rate Test, 1982 F.

TYPS C AS - FOUND VS. AS - LEFT ANALYSIS (CONTINUED) i j

NOTE 1: Valves CH-31, SI-31, and SI-14 were repaired under a design change prior to initial Type C testing.

NOTE 2: These valves were replaced with new Solenoid Operated Valves prior to initial Type C testing.

NOTE 3: During a DBA these valves are normally open therefore no Type A add on penalty is taken.

t l

i j

4

, PART I - Containment Integrated Leakage Rate Test, 1982 I

G. CONCLUSIONS i

, TEST RESULTS (May, 1982 Type A ILRT) i' i

, Calculated Leakage -

0.0239 %/ Day

{' 95% Confidence -

0.0019 %/ Day Type C test penalties -

0.0118 %/ Day Type C AS - FOUJD vs.

I AS - LEFT penalties -

0.0147 %/ Day Tbtal Type A Leakage -

0.0523 %/ Day i

The total Type A leakage is within the BVPS technical specification limit

, of 0.075 %/ Day leakage, and also the verification test was satisfactorily j completed which confirms the capability of the Type A test method and equipment to determine the containment leakage rate. The effects of the two major problems and their significance on the Type A test results are examined below.

1) The air inleakage from the reactor containment into the airlock as a l result of the newly installed equalizing valve on the airlock's inner door had no effect on the outcome of the Type A test. When the locking pin (shaf t) was j secured such that the equalizing valve remained in the closed position, no I

leakage occured into the airlock. This is the normal position of the valve and it is the position the valve would be in during a DBA. After the completion l of the Type A test, an engineering evaluation was performed and a modification

  • 1 .

j made to the equalizing valve to assure containment integrity during a DBA or  ;

LOCA.

f

  • Note: The air path from the equalizing valve into the airlock was plugged
and a Type C test performed to verify no leakage.

l l

I E

j Page 20

l PART I - Containment Integrated Leakage Rate Test, 1982 G. CONCLUSION (CONTINUED)

2) The cause of the initial high leakage rate was determined during the test to be a leak path through one of the recirculation spray heat exchanger's river water piping. The 1B heat exchanger was the most suspect because the pressure in the river water line was approximately 7 psig while the other three were negative pressure (indicating vacuum). For the Type A test, the river water lines were supposed to be filled with water as they would be during a DBA, but because a hydrostatic test was performed on this system just prior to the Type A test, the lines were inadvertently left drained. The river water outside containment isolation valves were then all shut, thereafter the leakage rate dropped to an acceptable level. After the Type A test, an investigation was performed to determine the actual leak path, which was originally suspected to be an open vent or drain valve on the heat exchanger. All the vent and drain valves were found to be closed, but while performing a pressure test on i

the 1B river water system, a hole was discovered in the metal expansion joint inside containment. This would be a direct flow path from inside to outside containment with the outside isolation valves open and the system drained. It could not be determined what caused the hole, but the expansion joints had been removed and reinstalled during the outage prior to the Type A test. The defective joint was then replaced with a new one.

This situation does not contain any unreviewed safety questions, as this condition has already been addressed in the Beaver Valley Power Station Unit #1 FSAR, section 6.4.4.

Also, it can be verified this leak was not. present during cycle 2 operation as it would have been discovered by an abnc mal amount of containment vacuum pump operation.

The result of having a hole in the expansion joint during a DBA would depend on the containment pressure. If this pressure was less than the river water pressure in the system, a small leak would occur out of the expansion joint, resulting in a very small dilution of the sump. If the containment pressure would exceed the river water pressure, as it might for a relatively short time during a DdA, (less than one hour) a radioactive leak may occur through the river water system. This leak would be detected by the 13 RSHX river water radiation monitor and could be isolated by the operator. thus, terminating the release. The important fact is that the river water system would be filled Page 21

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

t i

i

  • PART I - Containment Integrated Leakage Rate Test, 1982 l

i G. CONCLUSIONS (CONTINUED) '

and operational during a DBA and ths.refore, isolating the river water lines during the test was a justified response to the initial high leakage rate.  !

If the system had been filled at the start of the type A test, as it should have been, the leakage rate would have been acceptable from the beginning.

t ,

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.= .em O Q M N W

4 PART II - Local Leakage Rate Test .

INTRODUCTION Local leakage rate testing of the reactor containment building penetrations is performed regularly (approximately every refuelin,g outage) to determine the leakage rates of the isolation valves and other isolation barriers, i e. electrical penetrations, airlocks, etc.

The combined leakage f rom all penetrations and valves subject to Type B and C tests shall be less than sixty percent of the maximum containment allowable leakage rate (.60 La) tested at a minimum test pressure, Pa. The maximum allowable leakage rate (La) is 0.10 percent per day of the containment internal air mass or 6489.80 SCF/D. The maximum leakage for the local leakage rate test is therefore 3893.88 SCF/D.

f I

iPAge 25 O

w

--w

-m _ - -+ ---w-- ..w.-,e-w,,- c- W& - ( + mm. + m. g., -- - - - - - ,mm..- -

PART II - Local Leakage Rate Tests A. TYPE B TEST RESULTS Local leakage rate testing for the containment electrical penetrations (Type B testing) has been performed twice since the last November,1978 Type A test; once in May, 1980 and again in March, 1982. The results were acceptable for both series of tests.

The local leakage rate testing for the containment electrical penetrations measures the leakage through the penetration 0-ring seals on the bolt-on flanges and the leakage from the penetration canister. A summary sheet is included listing the electrical penetration leakage rates for each series of tests.

Other Type B leakage rate tests measure the leakage through the personnel airlock, the equipment hatch, and the fuel transfer tube. The results of these tests are also included on the summary for reference.

Page 26

PART II - Local Leakage Rate Test A. TYPE B TEST RESULTS (CONTINUED)

Type B Tests Completed 5/9/80 Type B Tests Completed 3/19/82 Leakage Leakage Penetration 0-ring-seal / Canister 0-ring-seal / Canister Number (SCF/D) (SCF/D)'

1-B 0.0305 / 0.000 0.144 / 0.144 1-D 0.0305 0.0013

/ 0.144 / 0.144 1-F -

Spare - -

Spare -

2-B 0.0305 / 0.0013 0.144 / 0.144 2-D 0.0305 / 0.0013 0.144 / 0.144 2-F 0.0305 / 0.0014 0.014 / 0.144 3-A 0.0305 / 0.0305 0.144 / 0.144 3-B 0.0305 / 0.0305 0.144 / 0.144 3-C 0.0305 / 2.2512 0.144 / 0.144 3-D 0.0305 / 0.0305 0.144 / 0.144 3-E 0.0305 / 0.0305 0.144 / 0.144 3-F 3.274 / 0.0305 4.032 / 0.144 3-G -

Spare -

Spare -

4-A 0.0305 / 0.0305 0.144 / 0.144 4-B 0.0305 / 0.0305 0.144 / 0.144 4-C 0.0305 0.0305

/ 0.144 / 0.144 4-D 0.0305 / 0.0305 0.144 / 0.144 4-E l 1.291 / 0.0305 0.144 / 0.144 4-F 0.0305 / 0.0305 0.144 / 0.144 4-G O.0305 0.0305 0.144

/ / 0.144 5-A 0.0305 / 0.0305 0.144 / 0.144 5-B 0.0305 / 0.0406 0.144 0.144 *

/

5-C 0.0305 / 0.0305 0.144 / 0.144 Totals Page 1 5.1445 / 2.7241 3.0240 6.9120 /

Page 27

PART II - Local Leakage Rate Test A. TYPE B TEST RESULTS (CONTINUED)

Type B Tests Completed 5/9/80 Type B Tests Completed 3/19/82 Leakage l Leakage Penetration 0-ring-seal Canister Number

/  ! 0-ring-seal / Canister (SCF/D) (SCF/D) l i

5-D 0.0305 / 0.0305 '

j , O.144 / 0.144 5-E O.0305 0.0305  ! 0.144

/ / 0.144 l

5-F 0.0305 0.0305

/ 0.144 / 0.144 5-G O.0305 0.0305

/ .

0.144 / 0.144 6-A 0.0305 0.0305 0.144

, / / 0.144 6-B l

Spare -

l -

Spare -

f

6-C 0.0305 0.0305 0.144

/

l / 0.144 6-D ' l 0.0305 / 0.0305 0,144 / 0.144 }

i 6-E 0.0305 / 0.0305 0.144 / 0.144 6-F 0.0305 / 0.0305 0.144 / 0.144 6-G 0.0305 0.0305 0.144

/ l s

/ 0.144 7-A ' -

Spare -

Spare -

. l; 7-B l 0.0305 / 0.0305 0.144 l / 0.144 "

7-C 0.0305 0.0305 0.144

/ ,

/ 0.144 7-D 0.0456 / 0.0305 0.144 / 0.144 7-E 0.0305 / 0.0305 0.14,4 / 0.144 7-F 0.0305 0.0305 0.144

/ / 0.144 7-G -

Spare -

Spare -

8-A 0.0305 0.0305 0.144

/

/ 0.144 8-B 0.0305 0.0305

/ 0.144 / 0.144 8-C 0.0305 / 3.0305 0.144 / 0.144 8-D 0.0305 0.0305 0.144

/

/ 0.144 8-E 0.0305 0.0305 0.144

/

/ 0.144 S-F -

Spare -

Spare -

Totals Page 2 0.6251 0.6100

/

2.3800 /

2.3800 1

Page 23

PART II - Local Leakage Rate Test A. TYPE B TEST RESULTS (CONTINUED) i Type B Tests Completed 5/9/80 l Type B Tests Completed 3/19/82 Leakage Leakage Penetration 0-ring-seal / Canister l 0-ring-seal Number / Canister

.l (SCF/D) l (SCF/p) 8-G 0.0305 / 0.0305  ! 0.144 / 0.144 l 9-A 0.0305 0.0305

/ i 0.144 / 0.144

! 9-B 0.0305 / 0.0305 l 0.144 i

1

/ 0.144 9-C 0.0305 / 0.0305 l 0.144 / 0.144 9-D 0.0305 0.0305

, /

j 0.144 / 0.144 i 9-E 0.0305 0.0305

/

{ 0.144 / 0.144 9-F 0.0305 / 0.0509:  ! 0.144 / 0.144 9-G 0.0305 / 0.0305

{ 0.144 / 0.1(4 10-A 0.0305 / 0.0305 l 0.144 / 0.144 10-B 0.0305 0.0305 I

/ 0.144 / 0.144 10-C 0.0305 0.0305

/ 0.144 0.144 10-D { /

0.0305 / 0.0305 0.144 i / 0.144 10-E 0.0305 0.0305

/ 0.144 / 0.144 10-F 0.0305 0.0305

/ 0.144 / 0.144 10-G 0.0305 0.0305

/ 0.144 / 0.144 ll-A 0.0305 0.0305

/ 0.144 / 0.144 11-B 0.0305 / 0.0305 0.144 / 0.144 11-C -

Spare -

Spare -

11-D 0.0305 0.0305

/

0.144 / 0.144 11-E 0.0305 0.0305

/ 0.144 / 0.144 11-F 0.0305 0.0305

/ 0.144 / 0.144 ll-G 0.0305 / 0.0305 0.144 / 0.144 12-A 0.0305 0.0305

/ 0.144 / 0.144 12-3 0.0305 0.0305

/ 0.144 / 0.144 Totals Page 3 0.7015 0.7219

/

3.3120 /

3.3120 Page 29

PART II - Local Leakage Rate Test A. TYPE B TEST RESULTS (CONTINUED)

Type B Tests Completed 5/9/80 l Type B Tests Completed 3/19/82

^

Leakage , Leakage Penetration 0-ring-seal / Canister  !

Number 0-ring-seal / Canister (SCF/D) l (SCF/D) i 12-C  ! 0.0305 / 0.0305 0.144 / 0.144 '

12-D 0.0305 / 0.0305 ,

0.144 / 0.144 12-E '

O.0305 / 0.0305 0.144 / 0.144 1

12-F  ! 0.0305 / 0.0305 0.144 / 0.144 12-G 0.0305 / 0.0305 0.144 / 0.144 1

13-A -

Spare - -

Spare -

{

13-B -

Spare - -

Spare -

f j 13-C 0.0305 / 0.0305 0.144 / 0.144 j i

13-D -

Spare -

I -

Spare -

l' i.

13-E 0.0305 / 0.0305 0.144 0.144

/

f' i 13-F 0.0305 / 0.0305 0.144 / 0.144 j 13-G 0.0305 / 0.0305 0.144 / 0.144 l

l 14-A 0.0305 / 0.0305 j 0.144 / 0.144 l 14-B '

l ,

0.0355 / 0.0305  ! 0.144 / 0.144 ,

l 14-C 0.0305 / 0.0305  ! 0.144 / 0.144 i 14-D l 0.0305 / 0.0305 0.144 / 0.144 4

14-E 0.0305 / 0.0305 0.144 / 0.144

. 14-F  ; 0.0305 / 0.0305 0.144 / 0.144 1

l 14-G 0.0305 / 0.0305 0.144 / 0.144 15-A 0.0305 / 0.0305 0.144 / 0.144 15-B 0.0305 / 0.0305 0.144 / 0.144 15-C 0.0305 / 0.0305 0.144 / 0.144 15-D 0.0305 / 0.0305 0.144 / 0.144 Totals Page 4 0.6150 / 0.6100 2.8800 / 2.3800 .

Page 30

PART II - Local Leakage Rate Test .

A. TYPE B TEST RESULTS (CONTINUED) i l Type B Tests Completed 5/9/80l Type B Tests Completed 3/19/82

! Leakage Leakage Penetration i 0-ring-seal / Canister 0-ring-seal Number j

/ Canister i (SCF/D) (SCF/D) 15-E 0.0305 / 0.0305 0.144 0.144 f /

l 15-F 0.0305 / 0.0305 0.144 / 0.144 j

15-c 0.0305 / 0.0305 0.144 / 0.144 16-A 0.0305 / 0.0305 f 0.144 / 0.144 16-B 0.0305 / 0.0305 0.144 / 0.144 16-c 0.0305 / 0.0305 0.144 / 0.144 i j

16-D 0.0305 / 0.0305 - 0.144 / 0.144 l 16-E 0.0305 / 0.0305 0.144 / 0.144 l 16-F 0.0305 / 0.0305 0.144 / 0.144 16-G -

Spare -

Spare l - -

17-B 0.0305 / 0.0305 0.144 / 0.144 4

17-D (

Spare -

Spare -

17-F -

Spare - -

Spare -

t l j 18-B 0.0305 / 0.0005 0.144 0.144 i

l /

l l 18-D 0.0305 0.0305 '

O.144

/ / 0.144 l l 18-F -

Spare -

Spare 111  ; 0.0305 / 0.0305 O.240 / '0.240 -

I Totals Page 5 0.3965 / 0.3665 1.9680 / 1.9680 Page 31

PART II - Local Leakage Rate Test A. TYPE B TEST RESULTS (CONTINUED)

Type B Tests Completed 5/9/80, Type B Tests Completed 3/19/8 Leakage Leakage 0-ring-seal / Canister 0-ring-seal / Canister Totals (SCF/D) SCF/D)

Page 1 5.1445 / 2.7241 6.9120 / 3.0240 Page 2 0.6251 0.6100 2.8800

/ / 2.8800

, Page 3 0.7015 0.7219 3.3120

/ / 3.3120 Page 4 0.6150 0.6100 l / 2.8800 / 2.8800 Page 5 0.3965 0.3665 1.9680

/ .' l.9680 Total  !

Leakage 7.4826 / 5.0325 l17.9520 / 14.0640  ;

Total Type B Leakage for 5/9/80:

Electrical Penetrations =

12.515 SCF/D Personnel Airlock =

138.73 SCF/D Equipment Hatch =

1.60 SCF/D Fuel Transfer Tube =

0.192 SCF/D I

Total Type B Leakage =

153.057 SCF/D Total Type B Leakage for 3/19/82:

Electrical Penetrations =

32.016 SCF/D Personnel Airlock =

45.280 SCF/D Equipment Hatch =

0.464 SCF/D Fuel Transfer Tu' oe =

0.464 SCF/D

~

Total Type 3 Leakage =

78.224 SCF/D Page 32

PART II - Local Leakage Rate Test B. TYPE C TEST RF LTS The purpose of T"pe C testing is to demonstrate the integrity of the containme ' isolation valves in accordance with Appendix J of Title 10 Code of Federal Regulations Part 50 and BVPS Technical Specification-3.6.1.2.

Two complete series of Type C tests have been performed since the November, 1978 Type A test. The first series of Type C tests was performed during the period of March through September, 1980. The second series of tests was performed from January through May,1982. Both series of Type C tests were completed satisfactorily meeting the applicable acceptance criteria and both are summarized on Tables #1 and 2 respectively.

It should be noted that for the 1982 series of tests, five new penetrations had been added during the previous outage, all of which were Type C tested.

Page 33

PART II - Local Leakage Race Test B. TYPE C TEST RESULTS (CONTINUED)

Table #1 - 1980 Performance I

Pene- Test Valve Date Valve Penetration tration: Number , Tested Tested '

Leakage I Leakage Number

! (SCF/D) (SCF/D) 1 i

f 1 i 1.47.5 l MOV-CC-112A2 4/14/80 .936

; CCR-247 4/14/80 1.992 1.992 l

I f' 2 1.47.6 l MOV-CC-112B3 5/19/80 .1524 l 1CCR-252 5/19/80 91.4 91.4 l

4 ' l.47.7 MOV-CC-ll2A3 4/11/80: .984 l

l 1CCR-251 4/16/80 76.08 76.08 l

5 1.47.8 MOV-CC-112B2 4/24/80 2.28 1CCR-248 4/24/80 3.81 3.81 7 1.47.9 SI-83 8/4/80 245.04 l MOV-1SI-869A 7/28/80 293.8 293.8 8 1.47.10 i TV-1CC-107D1l 5/15/80 l l 2.35 3

TV-1CC-107D2l5/15/80 2/85 2. 9. 5 l

i l I 9 1.47.11 i l

' TV-lCC-111D1i 5/28/80 7.35  ! '

TV-1CC-111D2l $/28/80 8.98 f 8.98

+

i  !

11 1.47.12 i TV-1CC-110D l 4/21/80 59.68  !

-1CC-110F2 TV-lCC-110F1 4/21/80 2.9 59.68

{

, l .

14 1.47.13 i TV-lCC-110E3 6/19/80 20.4 i TV-lCC-110E2 7/9/80 65.28 65.28 15 1.47.14 1CH-31 4/1/80 52.92 MOV-lCH-389 7/9/80 13.9 52.92 16 1.47.15 TV-LCC-111A2 5/28/80 8.98 TV-lCC-111A1 5/8/80 .813 3.98 17 .47.16 TV-1CC-103B1 5/14/80 13.9 TV-1CC-1033 5/14/SO 4.369 13.9 TOTAL. Par,e 1 679.67

PART II - Local Leakage Rate Test B. TYPE C TEST RESULTS (CONTINUED)

Table #1 - 1980 Performance Pene- Test Valve Date Valve tration Number Tested Tested Penetration Number (OST-) '

Leakage Leakage (SCF/D) (SCF/D)

TV-lCC-103C1 6/9/80 8.18 18 1.47.17 TV-lCC-103C 6/9/80 12.25 12.25 CH-369% l

-7/28/80 11 MOV-1CH-378' ^^4*24 15 1.47.18 MOV-lCH-381 4/16/80 .312 114.24 ISI-42 6/14/80 34.3 20 1.47.19 ISI-41 3/31/80 10.78 34.3 LRH-14 5/2/80 24 1.47.20 28.48 11H-15+1RH16 5/2/80 1.57 28.48 TV-lCC-105D1 5/25/80 3.2 25 1.47.21 TV-lCC-105D2 4/18/80 .96 3.2 TV-lCC-107El 6/6/80 65.34 26 1.47.22 TV-lCC-107E2 4/19/80 .072 65.34 TV-lCC-105El 4/18/80 45.912 27 1.47.23 TV-lCC-105E2 4/19/80 36.432 45.912 TV-lCH-200A,3,C 6/25/80 13.1 MOV-lCH-142 5/9/80 3.20-

RV-lCH-203 44.22 28 1.47.24 5/12/80 27.92' TV-1CH-204 5/10/80 2.64 TV-lDG-108A 5/1/80 3.65 29 1.47.25 77-IDG-1083 5/1/80 1.70 3.65 ISI-84 8/4/80 33 1.47.9 77.6 MOV-lSI-8693 8/11/30 216.24 216.21 l ICH-lSi 35 6/18/80 31.16 1.47.26 MOV-lCH-308A 3/27/30 24 31.16

+

l l ICH-132 36 1.47.27 6/27/30 17.97 MOV-lCH-3083 6/3S/30 65.3 65.3 l .

IGTAL, Page 2 I

664.29  !

Page 35, ..

PART 11 - Local Leakage Rate Test

. B. TYPE C TEST RESULTS (CONTINUED)

Table #1 - 1980 Performance Pene- Test Valve Date Valve tration Number Tested Tested

?anetration

, Number (OST-)

Leakage Laakage (SCF/D) (SCF/D) 1CH-183 6/27/80 37 1.47.28 40.9 MOV-CH-308C 3/27/80 7.92 40.9 TV-lDA-100A 4/23/80 100.69 38 1.47.29 TV-lDA-100B 4/23/80 99.97 100.69 TV-13D-100A 4/1/80 7.52 39 1.47.30 LMC 4/3/80 5.24

__ 7.52 TV-13D-100B 6/10/80 25.54 40 1.47.31 LMC 6/11/80 8.16 25.54 TV-13D-100C 5/12/80 13.05 41 1.47.32 LMC 5/12/80 12.395 13.05 1SA-14 3/25/80 42 1.47.33 5.040 ISA-15 3/25/80 20.45 20.45  ;

TV-lCV-102 4/18/80 1.988 43 1.47.34 TV-lCV-102-1 4/18/80 2.640 2.640 44 TV-lCV-101A 5/28/80 .8168 1.47.35 TV-lCV-1013 6/12/80 32.73 32. 73 1RC-72 3/24/80 45 1.47.36 18.24 TV-1RC-519 3/24/80 .1368 18.24 1CH-170 6/19/80 24.6 46 1.47.37 FCV-lCH-160 6/21/30 32.8 32.3 IIA-90 3/24/80 16.87 47 1.47.38 IIA-91 3/21/80 55.44 55.44 TV-13G-109Al 3/23/S0 40.3

'a 1.47.39 Tv-12G-109A2 4/16/30 7.65 40.3 TCTAL. ? age 3 l

390.50 i Page 36

. PART II - Local Leakage Rate Test '

B. TYPE C TEST RESULTS (CONTINUED)

Table #1 - 1980 Performance Pene- Test Valve ~

Date tration Nu=ber Tested Valve Penetration Nu=ber Tested Laakage (OST-) Leakage (SCF/D) (SCF/D) 1RC-68 6/16/80 49 1.47.40 18.8 TV-lRC-101 4/10/80 .456 18.8 33 T7-lSI-101-1 4/19/80 10.704 1.47.41 TV-1SI-101-2 4/13/80 16.416 16.416 T7-1SS-109Al 4/15/80 l 55-1 1.47.42 .096 TV-1SS-109A2; 4/15/80 144 0.144 hh-t TV-lLM-100A1 57-2 3/31/30 .356 97-3 1.47.43 I T7-lLM-100A2 3/31/80 1

.559 0.559 55-4 TV-lSS-111A1 4/16/80 1.47.44 T7-lSS-111A2 .168 4/16/80 2.016 2.016 4

T7-lSS-100A1 4 / 15 /8 0 56-1 1.47.45 T7-lSS-100A2 .072 l 4/15/80 ,

.096 0.096 I

T7-1SS-102A1 4/17/80 56-2 1.47.46 .24 T7-lSS-102A2 4/17/80 .096 0.24

,TV-1SS-105A1, 9/3/80 56-3 1.47.47 65.28 T7-lSS-105A2 4/18/80 64.34 65.28 56-4 1.47.48 T7-lS's-117A I 4/23/30 2.30 l 2.30 1C7-35 3/24/30 57-3 1.47.49 T7-1LM-101A .1752 3/2i/80 .48 0.48 i l

IC7-36 3/24/80 57-4 1.47.30 .1488 l l

4 TV-1LM-1013 3/24/30

_ 4.20 4.20 I  !

77-lCC-103A '

3/31/50 38 3.048 1.47.51 T7-lCC-103Al 3/23/30 .336 3.048  :

TOTAL, Page 4 1

113.33 1

Page 37

PART II - Local Leakage Rate Test "

B. TYPE C TEST RESULTS (CONTINUED)

Table #1 - 1980 Performance Pene- Test Valve Date Valve tration Number Tested Tested Penetration Nu=ber Leakage Leakage (OST-)

(SCF/D) (SCF/D)

ISI-13 9/12/80 60 1.47.52 228.48 MOV-1SI-890A 8/27/80 40.8 228.48 ISI-10 8/27/80 ISI-ll 57.18 s 8/27/80 8.16 106.14 ISI-12 9/12/80 40.8 :

61 1.47.53 MOV-1SI-890C 8/27/80 40.8 ISI-14 9/12/80 62 1.47.52 228.48 MOV-1SI-8903 9/17/80 '

228.7 t

228.7 1QS-4 6/11/80 53.4 63 1.47.54 MOV-lQS-1013 6/12/80 49 53.4 lQS-3 6/10/80 25.3 64 1.47.55 MOV-1QS-101A 6/10/80' 31.1 31.1 66 1.47.56 MOV-lRS-155A 6/10/80 6.631 6.631 67 1.47.57 MOV-lRS-1553 6/10/80 6.631 6.631 MOV-lSI-860A 68 & 69 1.47.58 MOV-lSI-8603 8/8/80 335 335 1RS-101 5/16/80 70 1.47.59 .762 Mov-lRS-1563 5/16/80 1.58 1.58 12S-100 5/16/80 71 1.47.60 4.314 MCV-fRS-156A 5/16/30 2.39 .

a.314 ,

i i

1HY-111 3/27/30 37 1.47.62 21.55 1HY-120 7/30/30 3.' 'T 55 i i

i LEY-110 38 1.47.63 LEY-119 5/17/30 l 3.25 I I

__ 5/20/30 l 2.4 l' 3.25 I

, f

' I l TOTAL, Page 5 1026.73 l

? age 3d

PART II - Local Leakage Rate Test B. TYPE C TEST RESULTS (CONTINUED)

Table #1 - 1980 Performance Pene- Test valve Date tration Number Tested Valve Penetration Number (OST-) Tested Leakage Leakage (SCF/D) (SCF/D)

LAS-278 -

39 1.47 n4 3/28/80 85.46 TV-lSV-100A 3/28/80 i

41.92 85.46 90 IVS-D-5-3As 1.47.65 IVS-D-5-3B -4/12/80 1.65 l 1.65 IVS-D-5-5A 91 VS-D-5-5Ej 1.47.66 IVS-D-5-6h -4/11/80 1.118 1.118

-150C 6/80 3.624 1HY-104  ;

92 1.47.67 TV-lCV-150D /( 3/26/80 5.712 5.712 1HY-101 l TV-lCV-150B i 3/25/80 1HY-103 6.312 93 1.47.68 N TV-lCV-150A 3/25/80 29.92 29.92 .

94 HCV-lCV-151 3/25/80 1.47.69 HCV-lCV-151-1 34.272 3/25/80 35.784 35.784 96 ISI-95 5/31/80 1.47.70 MOV-lSI-836 32.6 8/13/80 163.36 163.36 97-1 T7-1SS-104A1 4/18/30 1.47.71 T7-lSS-104A2 .0048 4/18/80 .24 0.24 97-2 T7-lSS-103Al 4/13/S0 1.47.72 Tv-1SS-103A2 .096 4/13/SO .36 0.36 97-4 1.47.73 T7-1SS-ll7C 4/21/80 l 1.65 1.65 l

l?C-37 4/7/80 103 1.47.74 .0576 l?C-38 4/3/30 .312 0.312 104 iPC-9 4/7/30 1.47.75. l?C-10 l .053 l l I 1

4/7/30 .163 I

! I- 0.163 l l:0:AL, 72;e o I

325.73  :

? age 39 _

PA2T II - Lacal Leakage Rate Test B. TYPE C TEST RESULTS (CONTLNUED)

Table #1 - 1980 Performance i

Pene- l Test  ! Valve Valve tration Number Tested l Date Penetration

Tested Leakage Number Leakage (OST-) j (SCF/D) (SCF/D) i 105-1 1.47.76 8.1 TV-1SS-1175l6/14/80 8.1 105-2 1.47.77 TV-1SS-112A1 4/16/80 .1344 TV-1SS-112A2 4/16/80 .1176 0.1344 1

106 1.47.78 MOV-1SI-842 5/7/80 1.778 TV-ISI-889  ; 5/7/80 1.6256 1.778 I I 110 1.47.79 1RC-277 4/10/80 .135 I 1RC-278 !4/10/80 .120 0.135 1

i l 113 1.47.70 1SI-94
5/31/80 24.5 I

t 1SI-91 MOV-SI-867C ! 9/12/80 359.04 359.04

{ {MOV-SI-867D j j TOTAL, Page 7 s 369.19 Total, Page 1 679.67 SCF/D Total, Page 2 664.29 SCF/D Total, Page 3 390.80 SCF/D Total, Page 4 113.58 SCF/D Total, Page 5 1026.78 SCF/D Total, Page 6 325.73 SCF/D Total, Page 7 369.19 SCF/D l Total Type "C" Leakage 3570.04 SCF/D

! 1980 Perfor=ance i

l' Page 40

PART II - Local Leakage Rate Test B. TYPE C TEST RESULTS (CONTLNUED)

Type "B" Tests Electrical Penetrations (5/9/80) 12.515 SCF/D Personnel Airlock 138.75 SCF/D Equipment Hatch (8/20/80) 1.60 SCF/D Fuel Transfer Tube (4/14/80) 0.192 SCF/D Total Type "B" Tests 153.057 SCF/D Total Type "C" Tests 3570.04 SCF/D Total Local Leakage Rate Tests 3723.097 SCF/D (3723.097 SCF/D) =

0.057% leakage / day 8 O C )

I 9

1 I

Page al

PART IX - Local Leakage Rate Test B. TYPE C TEST RESULTS (CONTINUED)

Corrective Actions Summary - 1980 Performance i

i Penetration #2 (OST 1.47.6)

The initial leak test was performed 4/28/80. Valve [MOV-CC-112B3]

would not hold the applied pressure. Maintenance Work Request MWR-800468 was initiated and the motor operator limit switch set-point adjusted. The retest was performed 5/19/80, with a leakage of .1524 SCF/D.

Penetration #7 (OST 1.47.9)

The initial leak test was performed 7/28/80. Valve (SI-83] was leaking 375.4 SCF/D. Maintenance Work Request MWR-801945 was initiated and the disc surfaces were lapped, new lock wire and new flexitallic gaskets were installed.

The retest was performed 8/4/80 with a leakage of 245 SCF/D.

Penetration #9 (OST 1.47.11)

The initial leak test was performed 3/9/80. Valve [TV-CC-111Dl] was leaking 94.996 SCF/D and valve [TV-CC-111D2] was leaking 87.09 SCF/D.

Maintenance Work Request MWR-800511 and NWR-800512 were initiated and the valves were repaired. The stem on valve [TV-CC-lllDl] was adjusted and a retest performed 5/13/80 with the results being unacceptable. The seat ring was then lapped, a new body was installed as well as new packing and gaskets.

The retest was performed 3/28/80 with a leak rate of 7.35 SCF/D.

The stroke was adjusted on valve [TV-lCC-lllD2] and a retest performed 5/28/80 with a leak rate of 8.98 SCF/D.

Page 42

PART II - Local Leakage Rate Test B. TYPE C TEST RESULTS (CONTINUED)

Penetration #14 (OST 1.47.13)

The initial leak rate test was perfromed 4/16/80. Valves [TV-CC-110E2]

. and [TV-CC-110E3] were leaking at a rate higher than the range of the flow meters. Maintenance Work Requests MWR-800521 and MWR-800548 were written on (TV-CC-110E2] and [TV-CC-110E3], respectively. [TV-CC-110E2] was repaired and a retest was performed 6/14/80 but the leakage was still beyond the range of the flow meters. [TV-CC-110E2] was again repaired and the retest was performed 7/3/80 with a leak rate of 440 SCF/D which was acceptalbe. [TV-CC-110E2] was repaired a third time, this time the leakage was acceptable at 65.28 SCF/D. During the three repairs of

[TV-CC-110E2] maintenance replaced the bonnet gasket, replaced the seat gasket, turned down the stem seat, turned down the body seat, and installed a new follower.

[TV-CC-110E3] was also repaired and a retest was performed 4/26/80 but the leakage was again beyond the range of the flow meter. [TV-CC-110E3] was i

repaired a second time and a retest was performed 6/14/80 but the leakage was

. gain beyond the range of the flow meters. [IV-CC-110E3] was repaired a third time and a retest was again performed 6/19/80 with an acceptable leak rate of 20.4 SCF/D.

Penetration #15 (OST 1.47.14)

The initial leak test was performed 4/7/80. Valve [MOV-CH-289] would not hold the applied pressure. Maintenance Work Request MWR-80041, was initiated.

A new disc was installed, the surface was ground, the seat was lapped, and the valve was repacked. The retest was performed 7/9/80 with a leak rate of 13.9 SCF/D.

Page 43

. PA2T 1X - Local Leakage Rate Test B.

TYPE C TEST RESULTS (CONTINUED)

Penetration #16 (OGT 1.47.15)

The initial leak test was perfor=ed 5/8/80.

. Valve [TV-CC-111A2] was leaking 73.81 SCF/D. Maintenance Work Request MWR-800510 initiated.

The stroke was adjusted and lengthened 1/4 Lach.

The retest was performed 5/28/80 with a leak rate of 8.98 SCF/D.

Penetration #18 (OST 1.47.17)

The initial leak test was perfor=ed 5/12/80.

Valve [TV-CC-103C] leaked excessively, The disk was forced past the seat on valve [TV-CC-103C1] and, therefore, could not be tested at that time. Maintenance Work Request MWR-800516 and MWR-800708 were initiated on (TV-CC-103Cl] and (TV-CC-103C], respectively. A new diaphram was installed in [TV-CC-103c1] and a retest perfor:ed 6/9/80 with a leak race of 8.18 SCF/D.

The stroke was adjusted on [TV-CC-103C] but the valve would not operate when the retest was atta=pted 6/5/80.

The limit switches were adjusted on [TV-CC-103C] and a ratest performed 6/9/80 with a leak rate of 12.25 SCF/D.

?enetration #19 (OST 1.47.18)

The initial leak test was perfor:ed 4/16/80.

The inside isola:icn valves leaked at a rate beycad the range of the ficw meters.

Wi:h the ul::a-sonic detector, it was decer=ined tha:

the one inside isolation valve [CH-369] was leaking : ore than the valve that it was in parallel with [MOV-CH-378).

Maintenance Work l Request MWR-800464 was initiated.

A new disc and spring were installed. The retest was perfor=ed 6/21/30.

This time, it was deter =ined : hat valve [MOV-CH-373]

leaked beycad :he range of the flew meters.

Maintenance Work Request MWR-3CCS19 was initiated.

The talve was repaired and a retest performed 7/28'30, the leakage :hrough [MOV-CH-373] and [CH-369] was 111.2; 3C7/3.

Page a4 1 . _ . .

PART II - Local Leakage Rate Test B. TYPE C TEST RESULTS (CONTINUED) o Penetration #20 (OST 1.47.19)

The initial test was perfor=ed 3/25/80.

Valve (SI-42] leaked at a rate beyond the range of the flow =eter. Maintenance Work Request MWR-800404 was initiated and the valve was repaired.

A retest was perfor=ed 3/26/80, with a leakage of 43.5 SCF/D.

However, the valve failed to =eet the require =ents of 37T 1.47.3 (lift test). Maintenance Work Request MWR-800434 was initiated and the valve was repaired.

A retest was perfor=ed 6/11/80, with a leak rate of 98.02 SC7/D.

However, the valve again failed to =eet the require =ents of 37T 1.47.3. The valve was again repaired.

A retest was performed 6/14/80 with a leak rate of 34.3 SC7/2. The require =ents of BVT 1.47.3 were also met at this ti=e. After the valve was seal welded, a retest was perfor=ed 7/3/80, with a leak rate the same as the 6/14/80 test. SVT 1.47.3 which was also perfor=ed 7/3/30 was satisfactory.

Penetration #25 (OST 1.47.21)

The initial leak test was perfor=ed 4/17/80.

Valve (TV-CC-105D1] leaked at 62.88 SCF/D. Maintenance Work Request MWR-800470 was initiated and a stroke adjustment was =ade on the valve.

A retest was perfor=ed 5/14/30 with a leak rate of 55.85 SC7/D which was unsatisfactory. New packing and new gaskets were installed in :he valve and the valve seats were repaired. A retest was perfor:ed 5/25/80 wi:h a leak rate of 3.2 SC7/D.

?ene:ratic: #26 (OST 1.47.22)

The initial leak :est was perfor=ed 3/26/30.

valve [!v-CC-107El; was leaking 34 SC7/D.

Maintenance Werk Reques: MWR-dO6310 was initia:ed and the valve ste:

vas adjus:ed. A re:est was perfor=ed 4/19/30 wi:h a leak ra:e of 69.12 SCT.'D.

The valve was again repaired and a rates:

perfor=ed 3/12/30 wi:h a leak race af

PART II - Local Leakage Rate Test B.

TYPE C TEST RESULTS (CONTINUED) 98.1 SCF/D. A new body gasket and new seat ring gasket were installed, the seat and the plug were turned down.

A retest was perfor=ed 5/27/80 with a leak rate of 92.9 SCF/D. The valve was again repaired. The retest was performed 5/29/80 with a leak rate of 61.26 SCF/D. The valve was again repaired and the retest perforned 6/6/80 with a leak rate of 65.34 SCF/D which was accepted.

Penetration #27 (OST 1.47.23)

The initial leak test was performed 3/28/80.

Valve [TV-CC-105El] leaked at a rate beyond the range of the flow meters.

Maintenance Work Request MWR-was initiated.

The valve stroke was adjusted and the retest was perfor=ed 4/18/80 ,

with a leak rate of 45.912 SCF/D.

Penetration #28 (OST 1.47.24)

The initial leak test was performed 5/9/80.

Valves [MOV-CH-200A], (MOV-CH-200B],

and [MOV-CH-200C] leaked at a rate beyond the range of the flow meters.

Maintenance Work Requests MWR-800513, 800514, and 800515 were initiated. The

) valve plugs were adjusted and a retest perfor:ed 6/17/80 with the leak rate beyond the range of the flow neters.

I The stems, seats and plugs were replaced en the three valves and a retest perfor=ed 6/25/80 with a leak rate of 13 1 SOF . .

i' Penetration #35 (OST 1.47.26)

The initial leak test was performed 3/27/80.

Valve [CH-181] leaked at 45.956 SCF/D.

Maintenance Work Request MWR-506512 was iniziated. The valve was cleaned, the body and disc seats were lapped, and the gaskets were replaced.

A retest was perforned 6/13/30 with a leak rate of 31.16 SCF/D.

PAiLI 11 - Local Leakage Rate Test B. TYPE C TEST RESULTS (CONTINUED)

_ Penetration #36 (OST 1.47.27)

The initial leak test was perfor ed 3/26/80.

Valves (CH-182] and (MOV-CH-3083]

leaked at 80.67 SCF/D and 84.144 SCF/D, respectively. Maintenance Work Requests MWR's-800410 and 800441 were initiated. Valve (CH-181] was cleaned, the body and disc seats were lapped, and the gaskets were replaced. In [MOV-CH-3083],

a new stem and disc were installed; the surfaces on the stem, seat, backseat, and disk were lapped; new graffoil packing was installed.

A retest was perfor=ed 6/17/80 at that time it was found that there was excessive leakage past the clearance point (CH-185].

The high leakage through valve (CH-185] =ade it im-possible to obtain accurate results for the type "C" test, therefore, Maintenance Work Request MWR-800836 was initiated to repair valve (CH-185] .

Valve (CH-185] was cut out and replaced with a new valve .

A retest was per-formed 6/27/80 on (CH-182] which had a leak rate ofA 17.97 .

retest SCF/D was performed 6/28/80 on (MOV-CH-308B] which had a leak rate of 65 3 SCF/D . .

Penetration #37 (OST 1.47.28)

The initial test was perfor=ed 3/27/80.

Valve [CH-183] was leaking 73.6 SC7/D.

Maintenance Work Request MWR-806511 was initiated. The valve was cleaned, -Sa body seat and disc seats were lapped, and the gaskets were replaced .

A retest was perfor=ed 6/13/30, with a leak rate of 72.16 SC7/D.

The seats were again lapped and a retest was perfor:ed 6/27/S0 with a leak rate of 40.9 SCF/D .

? age ;7

, , PART II - Local Leakage Rate Test B. TYPE C TEST RESULTS (CONTINUED) e Penetration #40 (OST 1.47.31)

The initial test was perfor=ed 4/1/80.

Valve [T7-3D-1003] was leaking 29.173 SCF/D Maintenance Work Request MWR-800427 was initiated. The seat ring and ste= plug were =achined, the packing and gaskets were replaced. A retest was perfor=ed 6/10/80, with a leak rate of 24.54 SCF/D.

Penetration #41 (OST 1.47.32)

The initial leak test was perfor=ed 4/1/80.

High leakage was detected through valve [3D-24], the clearance point, which prevented accurate testing of the LMC.

Maintenance Work Request MWR-800428 was initiated to repair valve [3D-24] . The seats and disk on the valve were replaced, the valve was repacked, and the gasket seating surface was cleaned and inspected. The retest was perfor=ed 5/12/80 with a leak rate of 12.395 SCF/D.

?enetration #44 (OST 1.47.35)

The initial leak test was perfor=ed 4/17/80.

High leakage was detected through boundary valve (CV-14], which prevented accurate results for the trip valves .

Maintenance Work Request MWR-800504 was initiated. A new gasket was installed in valve (C7-14] and the seat was lapped. A retes was perf:r:ed 4/22/80, with valve (TV-C7-101A] and valve (77-CV-1013] leaking excessively. Maintenance Work Recuests MWR-800506 and MWR-300507 were written en [T7-C7-101A] and

{T7-C7-1013], re.spectively.

The stroke was adjusted en (T7-CV-101A] and a rates: perfor ed 5/03/3C vich a leak race of,3163 SCF/D.

The st :ke was adjusted en valve [T7-C7-1013: and a retes: perfor:ed 5/ 3/30 2 :h a leak rate of 198.3 SCF'O.

Valve [T7-C7-1 13: was : hen rebuil: fr:: :he sea:

PART II - Local Leakage Rate Test B. TYPE C TEST RESULTS (CONTINUED) up and a retest perfor=ed 6/2/80 vich a leak rate of 32.73 SCF/D. The stem on valve (TV-CV-1013] was adjusted and a retest perfor=ed 6/12/80'sich a leak rate of 32.73 SCF/D.

Penetration #46 (OST 1.47.37)

The initial leak race test was perfor=ed 4/12/80.

Valve [FCV-CH-160] leaked at a rate beyond the range of the flow =eters. 'Although the leak rate was acceptable for (CH-170], the valve did not =eet the require =ents of 3VT 1.47.3 perfor=ed 3/22/80.

Maintenance Work Requests MWR-800462 and MWR-800518 vere initiated to repair valves [FCV-CH-160] and [CH-170], respectively.

A new stem-plug and seat ring were installed in valve [FCV-CH-160], the gaskets and packing were also replaced in the valve. A retest was perfor=ed 6/20/80 with a leak rate beyond the range of the flow =eters. The stroke on the valve was adjusted and a retest perfor=ed 6/21/80 with a leak rate of 32.8 SCF/D.

The spring and gasket were replaced in valve [CH-170] and BVT 1.47.3 was perfor=ed 6/19/80, this ti=e the results being acceptable. The leak rate test was performed 6/19/80 with a leak race of 24.6 SCF/D.

Penetration 147 (OST 1.47.38) l The initial leak test was perfor:ed 3/21/80.

valve [:A-90] leaked at 201.36 ,

SCF/D. Maintenance 'a'ork Request MWR-300382 was initiated. The gate on the valve was lapped, the gasket replaced, and the valve internals were cleaned.

l The ratest was perfor:ed 3/24/30 with a leak rate of 16.37 SCF/D.

i I

? age 19

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

PART IX - Local Leakage Rate Test B. TYPE C TEST RESULTS (CONTINUED)

Penetration #48 (OST 1.47.39)

The initial leak test was performed 4/16/80. Both valves on the penetration had acceptable leak rates. However, the outside isolation valve

[TV-DG-109Al] was physically relocated, after the test was done, as per Design Change Package DCP-#103. This required a retest of the valve which was performed 8/28/80 with a leakage of 40.8 SCF/D.

Penetration #49 (OST 1.47.40)

The initial leak test was performed 4/10/80. Valve [RC-68] would not hold the applied pressure. Maintenance Work Request MWR-800453 was initiated. A new disc, spring, and gasket were installed and the retest performed 6/16/80 with a leak rate of 18.8 SCF/D.

Penetration #56-3 (OST 1.47.47)

The initial leak test was performed 4/18/80. Valve [TV-1SS-105Al]

leaked at a rate greater than the range of the flow meters. However, no air could be detected leaking out the downstream vent, indicating that the trip valve was not leaking. To see if any of the clearance points, valves

[TV-SS-106A], [TV-SS-106B], [TV-SS-106C] and (TV-SS-106D], were leaking the valves upstream of these clearance points, [RC-1], [RC-6], [RC-8] and [RC-10]

were closed to see if the leakage would go down. First, one of these valves i

was closed, the leakage was checked, the valve was opened, then the next valve was closed, the leak rate checked, then the valve opened, etc. At no time, however, was the leak rate within the range of the flow meter. Valve

[TV-lSS-105Al} was then pressurized through the LMC outboard of [TV-lSS-105Al]

whila the leak monitoring connection inboard of [TV-lSS-105Al] was opened r

Page 50

~ ---- - - - - . - - . .

PART II - Local Lsakage Rate Test B. TYPE C TEST RESULTS (CONTINUED) for a free flow path. The leakage with this method was approximately 65 SCF/D.

This was considered a troubleshooting effort because the outboard. side of l [TV-1SS-105A] was pressurized, rather than the inboard side as required; there-fore, the test was invalid. Another attempt was made to test [TV-1SS-105Al]

with the approved method. Again, an attempt was made to 'back up' the clearance points by shutting [RC-1], [RC-6], [RC-8] and [RC-10]. During this test, however, all four of these valves were shut at the same time, unlike the first test when no two of these valves were shut at the same time. This test performed 9/30/80 resul'ted in a leak rate of 65.28 SCF/D.

Penetration #60 and #62 (OST 1.47.52)

The initial leak test was performed 6/4/80 and 6/5/80. Valve [MOV-SI-890B]

leaked excessively. The two parallel isolation check valves, [SI-13] and [SI-14],

also leaked excessively.

It was determined that [SI-13] leaked more than [SI-14].

Therefore, Maintenance Work Request MWR-800768 and MWR-800769 were initiated on [MOV-SI-890B] and (SI-13], respectively. Valve [SI-13] was cleaned and the s

flexitallic gasket was replaced. Ten rings of packing from [MOV-SI-890B] were replaced with new ones. A retest was performed 8/27/80 with a leak rate of 228.7 SCF/D for [MOV-SI-8908). Valves [SI-13] and [SI-14] again leaked excessively.

Due to the repairs made on [SI-13], it was now [SI-14] that leaked the most.

Maintenance Work Request MWR-801223 was initiated to repair valve [SI-14]. It was found that the two disc knobs were not oriented at the bottom of the installed disk (see attached figure) as required, instead, they were oriented at the top of the installed disk. In this orientation, the top of the disk was forced against the ceae. As a result, the bottom of the disk broke contact with the seat.

1 The disk was then rotated and a retest performed 9/21/80 with a leak rate of 228.48 SCF/D for [SI-13] and [SI-14].

i Page 31

PART II- Local Leakage Rate Test B .* TYPE C TEST RESULTS (CONTINUED)

Penetration #61 (OST 1.47.53) .

The initial leak rate test was atte=pted 6/5/80.

  • dowever, because of leakage through valve (SI-23], the penetration could not be drained down and threrfore ,

could not be tested.

Maintenance Work Request MWR-800%760 was initiated to repair valve (SI-23). The leak rate test was performed 8/27/80.

Valve [SI-10] leaked at 57.18 SCF/D, valve (SI-11] leaked at 8.16 SCF/D, and [MOV-SI-890C] leaked at 40.8 SCF/D all of which were acceptable.

Valve [SI-12] still could not be tested due to leakage through (SI-23].

In [SI-23] it was found that the two disk knobs were not oriented at the bottom of the installed disk (see figure) as required, instead they were orienced at the top of the installed disk. In this orientation, the top of the disk was forced against the seat. As a result, the bottom of the disk broke contact with the seat. The disk was rotated and a retest was perfor=ed 9/12/80 with a leak rate of 40.8 SCF/D for (SI-12].

Penetration #68 and #69 (OST 1.47.58)

The initial leak test was perfor=ed 6/26/80.

Valves [MOV-SI-860A] and

[MOV-SI-860B] both leaked at a rate beyond the range of the flow neters.

Maintenance Work Requests MWR-800874 and MRR 300875 were initiated to repair valves

[MOV-SI-860A] and [MOV-SI-8603], respectively.

Nine rings of packing were replaced in each valve.

A retest was perfor=ed 6/30/30 vi:h a leak race beyond :he range of the flow neters. Maintenance Work Requests MRR-800995 and MWR-800838 were initiated to repair valves [MOV-SI-860A] and [MOV-SI-860B], respectively. The seats on the two valves were lapped and the flexitallic gaskets were replaced. A retest was perfarned 7/26/30 but the valves would not hold the applied pressure.

It was found tha: the notor in the operator of valve IMOV-SI-3603] did not shu Page 32

,,7 .

r- -

. x'I ,

t <

PART II - Local Leakage Rate Tcst

. 4 B. TYPE C' TEST iGSULTS (CONTINUED) ,

off occa th6 7alve shut, resul-ing in the =ocar burning up. The motor operator was then replaced in (McV-SI-860B]. A retest vas perfor=ed S/8/80 with a leak rate of 335 SCF/D. ..'

, -t

} *, f y

/

Penetri.cdon 187 (OST 1.4 7. 62)

The initial leak test was perfer:iel 3/26/80. Both valves on the penetration had J

acceptabi.a;1dak rates.

/ However, valve [HY-120] failed to =eet the requirements of BVT 1.47.3. Maintenance Work Request MWR-800783 was initiated to repair the 2

valve,.c The valve was ripaired and SVT 1.47.3 was perfor=ed 6/22/80 with the 4 -

results 1 f being unsatisfactory. The valve was repaired and 3VT 1.47.3 was perfor:ed

,. s 6/23/80 with the rasbles being r.nsatisfactory~ .

The valve was repaired and

,/

~

~3VTel.,47.3 was perfor=ed g/17/b0 with the . results,. again, being unsatisfactory. -

Ibk, valve was, again, repatied>.and BVT 1.47.3 was perfor=ed 7/21/80 with the results peing unsatisfactor Engineering Me=orandurc 20504 was initiated to add

,. .o e s more vel.ght go the, ar='of the valve! An unofficial 3VT and leak test was perfor ed f, , ,f . ,

., 3 .

r ,

/ -

7/22/30 vid,i4eight'te=porarily t fast'ened to the ar= of the valve. Both of these

, t '

rests were s, atisfactory. A weight equal :o that which was te=porarily fastened

\

io the; ar-5 f 'the check valve was fabrica:ed 'and placed on the' tr= of the valve.

'he official retest was perfer=ed 7/30/30. A: this ti=e, therequkre=entsof 3p1.'+7.3werenet. The leak :est was also satisfactory.wi:5 a Isak rate of 3.1 SCF/,D. - In ecder to ce=plete E.M.-20504, a flev :f 50 cf: had to be established e

s t'nrough, f p-12h. ~~his require =ent was fulfilled 3/11/30 when a flow of 32 ef:

was noted ec sing thrhag5-J [HY-120] .

I g 0

/

l ,

j i .I - , -

. t j k i

/

.f '

r

_y

, A?N -

1 i

PART II - Local Leakags Rate Test B.

. TYPE C TEST RESULTS (CONTINUED)

Penetration 188 (OST 1.47.63) _

The initial leak test was performed 3/26/80 and 4/2/30.

Valve [HY-1101 leaked -

39.72 SCF/D, and valve [HY-119] leaked 50.304 SCF/D.

Also, [HY-119] failed to meet the requirements of BVT 1.47.3.

Maintenance Work Requests MWR-800432 and MWR-800405 were written on [HY-110] and [HY-119], respectively .

New teflon seats and seals were installed in [HY-110] and the valve as cleaned.

The retest was performed 5/17/80 with a leak rate of 3.25 SCF/D .

l The rubber disc, gland, and top gaskets were replaced in valve [HY -

and 119] a retest perfor=ed 3/27/80 but the leak rate was still excessive.

The valve was again repaired and again failed the retest performed 3/29/80.

The valve was repaired a third ti=e and a recesc was performed 3/31/80 but the leak rate was again excessive.

Engineering Memorandum E.M.-20401 was initiated for valve [HY-119] . Counter-weights were installed on valve [HY-119] and a retest performed 5/14/80 ut it b

would not hold the applied pressure.

A =aintenance inspection of valve [HY-119]

found an 0-ring incorrectly placed between the disc and seating surface c whi caused the valve to crack open.

The 0-ring was removed and the original arm-I l

weight was re-installed. .

The retest was perfor ed 5/20/80 with a leak rate of 2.4 SC7/D. The valve also met the require =ents of 3V' l.47.3.

Penetration 196 and #113 (OST 1.47.70) i The initial leak test was performed 3/30/80. valve

[MOV-SI-e67C] and [MOV-SI-267D]

would not hold the applied pressure.

Maintenance Work Requests MWR-306588 and MWR-306389 vere initia:ed for

[MOV-SI-367C] and [MOV-SI-367D], respec:ively. -'a e valves were rebuilt and a retest perforced 7/11-/30 but the valve would, aga not hold the applied pressure.

was disc:vered tha: the noter opera::: 52r:ed

! the vedges in: che seats da= aging the sea:s.

7alve [MOV-S:-567Cl was :u: cu: and

- - - _ . -. -- - ---?aSe M _- -_ - - ------ - - - - - - ~ ~ ~

PkRTII-LocalLeakagaRatsTest B. TYPE C TEST RESULTS (CONTINUED) tebuilt by the =anufacturer.

Valve [MOV-SI-867D] was rebuilt. The retest was performed 9/12/80 with a leak rate for valves [MOV-SI-867C],

[MOV-SI-867D] and

[SI-91] of 359.04 SC7/D.

Penetration #105-1 (OST 1.47. 76)

The initial leak test was perfor=ed 4/22/80.

Valve [IV-1SS-1173] leaked 653.12 SCF/D. Maintenance Work Request MWR-800465 was initiated to repair the valve .

The plug to the seating surface was lapped and two s=all grooves were removed m f the seating surface.

The retest was perfor=ed 5/9/80 with a leak rate which was unacceptable.

The valve was again repaired and a retest performed 6/2/80 with a leak rate which was, again, unacceptable.

At that ti=e, it was determined that the clearance point, valve [3D-14], was leaking. Maintenance Work Request

. MWR-800342 for [3D-14], initiated before this series of leak tests began, was coupleted 6/6/80.

The retest was perfor=ed 6/14/80 with a leak rate of 8.1 SCF/D.

Page 35

PAlT II - Local Leakage Race Test

3. TYPE C TEST RESULTS (CONTINUED)

Pene- '

Tast Valve Table #.2 - 1982 Performance Da ta 7alva ration Numbar Tasted ?cne: ration Tasted Laakage Laakage Nu=ber (OST-)

(SCF/D) (SC7/D)

MOV-CC-112A2 4/05/82 0.464 1 1.47.5 CCR-247 0.563 0.563 MOV-CC-11233 4/14/82 26.86

,2 1.47.6 1CCR-252 26.86 0.528 4

}

4 MOV-CC-112A3 4/11/82 0.464 1.47.7 1CCR-251 191.37 191.37 MOV-CC-11232 4/05/82 32.48 5 1.47.8 1CCR-248 32.48 i

0.528 i

SI-83 4/11/82 69.6 7 1.47.9 MOV-lSI-869A 69.6 69.6 TV-1CC-107D1 2/06/82 0.464 8 1.47.10 TV-1CC-107D2 0.563 0.563 TV-lCC-lllD1 2/22/82 0.464 9 1.47.11 TV-lCC-111D2 3.61 3.61 TV-lCC-110D 7.428 TV-lCC-110F2 1/16/82 38.067 11 1.47.12 38.067 T7-lCC-110F1 T7-lCC-110E3 1/13/32 0.163 la 1.47.13 !7 'CC-110E2 20.a' 20.34

.c.

..._--, . i . . . .2 ,

3.-

15 -..3 ,

1.47.11 i MOV-1CH-259 ,' 259.39 I 259.39 i

l .".

'C" itlA'

- -' ,' ^,8 ./ ' i

..2?-

16  ! 1.17.15 T7 '.CC-illAl '

67.6 1

67.6

+

, , - I

..._.-- _,o,3 ,,

i i

j

-, 3.., ...o

... . . a . ,. 2 .:

~~ aa: 3 r e.4 0 .,

..; . " .3, Page 30

_..m - e

3. TYPE C TEST RESULTS (CONTINUED)

Table #2 - 1982 Performance Pens- l Tas: Valve ' Data Valva Fenetrat*on

. tration Number Tested Testad Number Laakage Laakage (OST-) , ,

(SCF/D) (SCF/D)

T7-1CC-103C1 3/16/82 29.25 18 1.47.17 T7-1CC-103C 141.00 141.00 i

CH-369 1/25/82 31.03 31.03 MOV-lCH-378 19 1.47.18 MOV-1CH-381 0.464 ISI-42 1/21/82 0.464 0.464 20 1.47.19 ISI-41 0.464 1RH-14 + 1RH -16 5.56 24 1.47.20 1RH-15 3/04/S2 28.77 28.77 T7-lCC-105DL 3/11/82 46.4 25 1.47.21 TV-1CC-105D2 67.6 67.6 TV-lCC-107El 3/10/82 36.19 36.19 26 1.47.22 T7-lCC-107E2 1.32 TV-lCC-105El 2/06/82 35.26 35.26 27 1.47.23 TV-lCC-105E2 1.13 i

T7-lCH-200A,3,C 6.03 MOV-lCH-142 6.03 l 5.09 R7-1CH-203 5/18/82 0.464 28 1.47.24 T7-1CH-204 t

' T7-10G-108A 2/03/32 0.464 29 1.57.25 l

!7-LOG-1083 2.971

\

i 2.971 l, 1 ,

i 15 -34 33 1.17.9 4/16/32 i 69.5 69.6 j  ; MOV-ISI-3693 '

59.6 j  ;

I

.? Cv.._ ? -o .t i

.t / S n ,i a a- s.

?o i.o

-a. 7c 9 35 1.'7.26 MOV-1CH-308A 9.73 1 --.i.

-. 4:..f.2,- -...  :

l 26 -.17.27 MCV-lCH-3C53 11.51 l

11.61 l >

~s-.-.  : .u = : .. ,.

,=__ -

3. TYPE 6 TEST R;SULS (CO3TINUED)

Pens- l Table d2 - 1982 Performance Tes Valve 2 ate Valva Panatra ica

ation Number Tasted Tested Laakage Laakage Number (OST-) (SCF/3) (SCF/D) 1CH-133 1/20/82 60.21 60.21 37 1.47.28 M07-CH-308 31.04 TV-lDA-100A 1/22/32 33.38 33.38 38 1.47.29 T7-lDA-1003 1.99 T7-13D-100A 2/19/92 11.14 39 1.47.30 CMC 13.56 13.56 T7-13D-1003 3/03/82 3.12 40 1.47.31 LMC 9.36 9.36 I T7-13D-100C 4/13/92 0.464 41 1.47.32 LMC 0.464 0.464
t ISA-14 1/15/82 28.32 23.32 42 1.47.33 ISA-13 1.81 l TV-1CV-102 5/24/82 324.24 '

324.24

+

43 1.47.34 TV-1CV-102-1 2.78 i

TV-lCV-101A 2/06,82 64.748 i 64.748 44 1.47.35 T7-1CV-1013 45.324 t

l 45 1RC-7' l '/01/32 4.5 -

4.5 1.47.36 T7-1RC-519 0.93

.C=. .

.i 0 l,.-ran

...~.

) 46 1.47.37 FC7-1CE-160 , 6.02 6.02 t

f t {

IIA-90 I

/19/32 ,' 3.33 .

47 1.47.38 lLA-91 3.33 3.33

'. "" .' ' c'" .' ' J'7 5' . .'r' . '. / ' .a . 0.*0'- ' '
  • v; i

..*> ..33 . . b,qqe .w.n.

3 . ..

me,- ,

.n=e.V.".-. ~nUL * .e ..

" 1, 7 , * ]

l

?a:c 55 f _ ___ _ -

. .m u ge ace test 8.

TYPE C TEST RESULIS (CONTIdUED)

Pens- Test Valve Table 42 - 1932 Performance Da te Valve Penstration

, tration Numbar Tested Tested Leakage Leaka ge Number (OST-) (SCF/D) (SCF/D) 1RC-68 1/30/32 3.777 3.777 49 1.47.40 Tv-12C-101 1.511

{

T7-ISI-101-1 4/29/82 46.4 l 53 1.47.41 T7-1SI-101-2 60.35 60.35 i

TV-lSS-109Al 1/20/82 0.464 0.464 l 55-1 i

1.47.42 TV-lSS-109A2 0.464 e

! 55-2 1/13/82 57-1 Tv-lLM-100^1 0.464 57-2 0. a, c. .,

57-3 1.47.43 T7-lLM-100A2 0.464 TV-lSS-111A1 0.464 55-4 1.47.44 TV-ISS-111A2 1/15/82 0.464 0.464 TV-lSS-100A1 1/29/82 0.464 56-1 1.47.45 TV-lSS-100A2 1.393 1.393 TV-lSS-102A1 3/24/82 0.464 56-2 1.47.46 TV-lSS-102A2 0.464 0.464 T7-1SS-105A1 3/24/82 0.464 56-3 1.47.47 TV-lSS-105A2 0.464 0.464 56-4 1.47.48 T7-153-117A 1/11/82 0.739 0.789 i

i .

/ + 1,/ 3 q !

.C+,. . 1 ;

3

    • ?7 it * '

57-3 -.-i.-r ..-l'M-191a

! v.-64 l l t I ,

j ICV-36 57-a 1/13/82 l 3.621 I 3.621 i 1.47.50 . 77-1LM-1013 i

t i 0.46a i i i t t '

! i

,e n

.s - rn3r s t

-.i -

j:n . 3c. -; m

.>c.

o . ., ..:.,-

. - m..a i 2.-:- .

e

. .J, - . .. , ~.

. *..V -: -, -

??.

e 6d e

3.

TYPE C TEST RESULTS (CONTINUCD)

Table J2 - 1982 Performance

! Pans- Test Valva Date Valve j: ration Number Testad Panetration Tested Laakage laakage

~Nu=ber (OST-) (SCF/D) (SCF/D) i I

l 15I-13 5/23/82 0.463 i 60 1.47.52 MOV-lSI-890A 125.06 125.06 I r

, 1SI-10 , 3/05/82 92.8

! 15I-11 i 0.464 209.37 i

1SI-12 '

116.06 l61 1.47.53 MOV-1SI-890C 0.464 i 1SI-14 5/23/82 0.463 l 62 1.47.52 MOV-1SI-8903 0.464 0.464 1QS-4 2/11/82 60.35 I63 1.47.54 MOV-1QS-1013 122.64 i

i 122.64 1QS-3 2/27/82 ' 3.24 l64 1.47.55 MOV-1QS-101A : ,

39.46 39.46 I.

66 1.47.56 MOV-lRS-ISSA ; 4/22/82 ' O.464 0.464 t

t 67 1.47.57 MOV-1RS-155B 4/24/82 0.464 0.464 i

! MOV-1SI-860A ! 5/19/82 139.2

!68 & 69 1.47.58 139.2 MOV-lSI-360B 199.52 199.52 i.

! i  ! l l 1RS-101 4/19/32 12.99 12.99 l 70 1.47.59 MOV-IRS-1563 0.464

e 125-100 4/22/32 4.4- 1.14 71 1.a'.50 MCV-125-155A 3.39 t i

i  !

l l '

l LEY-111 2/26/32 0.38 or -

.~i.c, ,2v. ,,0 3

-: . .i .t

-- .-  : i

. i . .? ,.

. i t

a LEY-110 2/13/52 0.50 i a: - -

. -.-i.a, ., u.v.

. . . c. ,

A A

^

...-....a.. s Page 90

caru tt - Local Leakage Kate Iest 3.

TYPE C TEST RESULTS (CONTINUED)

' Pans- Test Table #2 - 1932 Performance valva Da te Valve tration Number Tested Penetratice Tested Leakage Leakage Number (OST-) (SCF/D) (SCF/D)

LAS-278 2/01/32 23.19 89 1.47.64 TV-lSV-100A 23.19 15.78 IVS-D-5-3A 1/14/82 0.650 0.650 90 1.47.65 IVS-D-5-33 '

IVS-D-5-5A 1/14/82 0.836 , 0.836 VS-D-5-53 91 ,

1.47.66 IVS-D-5-6 i

l IEY-102 - l 0.742 i j TV-1CV-150C ',2/19/82 i l 1HY-104 92 , 1.47.67 TV-1CV-150D '-

I 60.35 60.35 i

1HY-101 l f  !' 0.464 TV-1CV-1503 ' 5/24/82 i 1HY-103 93 1.47.68 TV-1CV-150A '- [f f

3.53 3.53

I HCV-1CV-151 1/26/82 ;i 25.53 25.53 94 1.47.69 . HCV-1CV-151-1  ; 18. 11 i

l i l

ISI-95 3/20/82 , 97.4 97.4 l 96 1.47.70 MOV-1SI-836

' , 0.464 TV-1SS-104A1 1/29/32 0.464 0.464 97-1 1.47.71 TV-1SS-104A2 0.464 i ,

i f ..,. y...

qq _?..n_

q 1. .  ! s_s_...

,f e , r ; , ,3 ..o- * ,-

. ,s . a c -

97-2 1.47.72 TV-lSS-103A2

i 0.164 i  !

e I

97-4 !1.47.73jTV-lSS-117C i ,

!1/14/32 0.464 0.464 t t '

3

. c. _ .2 , i m.a..ra., , ,, 4 ,

t,, I , ,- , .

...<4

.3r-33 . v _,

+v

... . .. .. ,' I?C-? ,. ..

5.~ T . ' 3 ' 13.si

.a- -..: :c _; .. .,

i

...:c ._.:--

i

. . . . . _ . .n. ... n_ 7 .:

m_ __

s B. TYPC C TEST ?ISULTS (CONTINUZD)

Tehir li ? - 14R2 persnr,,nco Pens- Test Valve Date

' Valva Fenetratiod tration Number Tested Tested Laakage Laa kage Number (OST-) (SCF/D) (SCF/D) 4 105-1 1.47.76 T7-1SS-1173 1/11/82 } 2.599

, 2.599 1 i T7-1SS-112A1 2/12/82 0.464 I 105-2 1.47.77 T7-1SS-112A2 0.464 '

O.464 I I

I a

I

, MOV-1SI-842 1/21/32 0.464 l 0.464 106 1.47.78 !7-151-889 0.464 I e i

' t i

l 1RC-277 1/23/82 0.464 0.464 110 1.47.79 11C-278 0.464 ISI-94 115.8 115.8 ISI-91 3/20/82 MOV-SI-867C 113 1.47.32 MOV-SI-867D 111.2 I

f0TAL,PAGE8 119.79 i

3. TYPE C TEST RESULTS (CodTI.iUED) ]
Panz,- Tas Table (12 - 1962 Performance (New Penetratioa
  • Valva '

Cate 7alva 198 Oration '!u=b a r Testad ?anstration

- Tested Lea' age Lea' age Nu=ber (OST-1)

(SCF/D) (SCF/D) t

! FP-827 5/08/32 0.928 0.923 l 13 1 1.47.91 TV-FP-107 9.744 i 9.744 l

FP-304 5/07/32 0.464  !

31 1.47.92 TV-FP-105 6.96 , 6.96 I

i I

FP-800 5/08/82 0.464 32 1.47.93 T7-FP-106 27.37 .' 27.87

+

95-64 SOV-HY-1023L 3/08/32 1.35 i 1.85 1.47.94 SOV-HY-10232 0.464  ;

SOV-HY-103B1 3/08/32 0.462 0.462 95-69 1.47.95 Sov-HY-103B2 1

0.462 l

4 t

50V-HY-104B1 3/08/82 0.462 0.462 95-72 1.47.96 SOV-HY-10432 0.462 i

SOV-HY-102Al 5/08/82 0.464 0.464 109-44 1.47.97 SOV-HY-102A2 0.464 SOV-HY:-103Al 5/07/32 0.462 0.462 109-49 1.47.98 SOV-HY-103A2 0.462 l

i i  !

SOV-HY-104A1 3/07/S2 1.67 109-52 1.47.99 SOV-HY-104A2 [

1.90 1.90  ;

f I

TO'"E , ? AGE 9 l 30.17 l

!OTE , ? AGE 2 75J. 38 SCF/D TOTE, ? AGE 3 459.25 SCF/D i TOTE , ? AGE 609.35 SCF/D

'OTE , PAGI $ 99.13 ICTAL, PAGE 6 SCF/0

. .. 356.62 SCF/D

. v .1 ,

c AL.c .< ,y, -

--_.<:  : s c ,,

. v- . . , 3AL-: a. .

3..,.y .- ,

,, . cu:

. v- .m. . . .s L.c :

0... - - - . . ,

. :w: .,

- ' i 2 ?I?.7 ' ?.'01:2 I .

.r.~ a :.

PART II - Local Leakage Rate Test B. TYPE C TEST RESULTS (CONTINUED)

Type "B" Tests ELECTRICAL PENETRATIONS (3/19/82) 32.016 SCF/D PERSONNEL AIRLOCK '(5/25/82) 45.28 SCF/D 1

EQUIPMENT HATCH (5/08/82) 0.464 SCF/D FUEL TRANSFER TUBE (4/19/82) 0.464 SCF/D TOTAL TYPE "B" TESTS 78.22 SCF/D TOTAL TYPE "C" TESTS '

3322.31 SCF/D TOTAL LOCAL LEAKAGE RATE TESTS 3400.53 SCF/D (3400.53 SCF/D)

' ^^

({8 .

F/ )

=

.052 (% LEAKAGE / DAY)

Page 64

L - a .. 3d.mc .e3, TYPL C TEST RESULTS (CONTINUED)

CORREC'"IVE ACTIONS SDenRT l

Penetration #2 (OST 1.47.6)

The initial leak tes: vas per-Zor=ed 4/3/82.

not hold the applied pressuru. 'd init.ated and tne =otor operation limitMaintenance The re:es:

5 443 Work w s Reques: V switch se:

vas perfor=ed 4/5/82, with a leakage of 26.86- Poin adjus ad SCF/D.

Penetration 14 (OST 1.47.7)

The not initial leak test was performed 4/3/82.

hold uhe applied pressure. Valve (MOV-CC-112A3] vould initiated and the seat Maintenance Work Request MWR 826493 was val' aced a d cleaned. ring was replaced, brushings checked' and ~%

The ratest was perfor:ed 4/11/82, vi h a eakage Penetration #16 (OST 1.47.15)

The163.38 initial leak test was perfor=ed 2/8/82.

Sce/D. Valve (TV-1CC-lllAl] leaked Maintenance Work Request MRW 820156 was initiated and

- e valve a.r diaphragm and filter regulator were replaced' per:or ed 2/22/82, with a leakage of 67.6 SCF/D. '

The 'e t" ' ~*

Penetration #13 (OST 1.47.17)

The initial leak test was perfor.~ed 3/5/82.

at 174.84 SCF/D.

Maintenance Work Request MRRValve (TV-CC-103C] 1eaked t e preload on the valve was adjusted. 826440 with a,.eakage at 141.00 SCF/D. vsa ini:1 ted and The retest was performed 3/16/82' Penetration #23 (OST 1.47.21) in ial leak tes: vas perforced 2/9/32.

yo -..e anp..ed pressu re. " Valve

. aintenance 'iork Reques-('V-CC-105Dl]

MWR would

?'/7,M, -- , .,#*C "e sea and plug were lapped. 526773 .m

. ... a .ea.<a ge a : io,. 3Cyf3,

'he retest was :erfor:ed

_?ene::a:16n #26 /OST 1.47.22) itial eak tes: was perf o rmed 2,'S/32.

- -- o -': / D .

Main:enance Valve (~7-CC-107El]

was '-4-d leaked

'03CA Seat , and plug were lapped.Work'he Request MRW 326774 -- -

a 2ea.<a 2 e a : ;e. o

- - -eu--,m- . e as. as w h w 3/-' ' ' N ,' a d'1$'a l

l l

1 l

I Pa;;e o3

e m - Local Leakage Rate Test

. B. TYPE C TEST RESULTS (CONTINUED)

Penstration 437 (OST 1.47.28)

The initial leak tes: vas performed 1/20/82.

at 97.49 SCF/D. Valve [MOV-CH-308C] leaked the seat was lapped. Maintenance Work Request MMR 826117 was initiated and The ratest of 31.04 SCF/D. was perfor=ed 3/10/82, with a leakage Penetration #40 (OST 1.47.31)

The initial leak test was performed 2/20/82.

at 218.40 SCF/D. Maintenance Work Request MMRValve (TV-3D-1003] leaked the plug and seat were cut. The retest 828142 was initiated and leakage of 3.12 SCF/D. was perfor=ed 3/3/82, with a Penetration #47 (OST 1.47.38)

The ini:ial leak test was performed 1/16/82.

152.86 SCF/D. Valve [lA-91] leaked a:

the seat was lappedMain:enance Work Request MWR 828107 was initiated and and cleaned.

with a leakage of 8.33 SCF/D. The reces: vas performed 1/19/82, Penetration #48 (OST 1.47.39)

The initial leak test was perfor=ed 2/5/82.

at 125.58 SCF/D. Valve [TV-DG-109A2] leaked Maintenance Work Request MMR 826769 was initiated and the plug guide was dressed, cleaned and inspected.

performed 2/27/82, with a leakage of 1.72 SCF/D. The rates: was

_ Penetration #53 (OST 1.47.41)

The initial leak test was perfor=ed 1/22/82.

at 626.71 SCF/D. Maintenance Work Request MWRValve [TV-SI-101-1] leaked the seat ring, plug and stem were replaced. 838118 was ini:1ated and 4/29/82, with a leakage of 46.4 SCF/D. The ratest was performed Penetration 450 (CST 1.47.52)

The ini:ial leak tes: vas perfo rced 1/17/32.

at 296.4 SCF/3. 7alve [MCV-S!-390A] leaked the seats were ground. Maintenance The rates: Work Request MMR 526'95 was initiated and of 125.06 SCF/D. was performed 3/23/32, vi:h a leakage

?ene tra icn 463 /C ET 1. 4 7. 5-)

The ini:ial leak :es: va s pe rf o rced .' .'23 / 3 2.

a: 255.38 SCF/D.

Maintenance Work Reques: MWR7alve 5267'MC V-QS-1: 13 .' leaked 2 was the Limi:-tor ue se::ing was 10;usted. ni:ia:ed and l v ::- a lea ka ge :f

  • 2 ^. ia SCF T. The re:es: vas perf:rred 1 1_ 32,

PART T2 - Local Leakage Rate Test

,,B. TYPE C TEST RESULTS (CONTINUED) -

o Penetration #64 (OST 1.47.55)

The initial leak test was perfor=ed 2/4/32. Valve (QS-3] was leaking 306.39 SCF/D and valve [MOV-QS-101A] was leaking 1378.38 SCF/D. Maintenance Work Requests MWR 826772 and MWR 826771 were ini:1ated and the valves repaired.

(QS-3] disc and disc face were replaced; (MOV-QS-101A] 11=1:-torque setting was adjusted. The rates was perfor=ed 2/27/32, with leakages of 3.24 SCF/D and 39.46 SCF/D respectively.

Penetration #68 and #69 (OST 1.47.58)

The initial leak test was perfor=ed 3/17/82. Valves [MOV-5I-360A & 3603]

would not hold the applied pressure. Maintenance Work Requests MNR 326443 and 326444 were initiated :o repair the valves. Both valves had the seats lapped and new gaskets installed.

The retest was perfor=ed 3/19/82, with leakages of 139.2 SCF/D and 199.52 SCF/D respectively.

Penetration #87 (OST 1.47.62)

The i'nitial leak test was perfor=ed 2/22/82. Valve (EY-111] leaked at 222.72 SCF/D. Maintenance Work Request MWR 328141 was initiated and a new sea:, ste= seals, and 0-ring were installed. The retest was perfor=ed 2/26/82, with a leakage of 0.88 SCF/D.

Penetration #89 (OST 1.47.64)

The initial leak test was perfor=ed 1/21/82. Valve (AS-278] leaked at 131.05 SCF/D. Maintenance Work Request MWR 328113 was initiated and the seat and disc were =achined. The retest was perfor=ed 2/11/82, with a leakage of 23.19 SCF/D.

?enetration 4104 (OST 1.17.75T The initial leak tes: was perfor=ed 1/30/32. Valve (?C-9] .'eaked at 10.63 SCF/D. Main:enance Verk Request MWR 320507 was ini:ia:ed because of work : hat had to be fone for scheduled station nain:enance. The sea:

and s:e= seal vere replaced. The valve was re:ested 3/1/52, v :h a leakage of C.L64 3CF/3.

l l

Page 97

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