ML20053A591
| ML20053A591 | |
| Person / Time | |
|---|---|
| Site: | FitzPatrick  |
| Issue date: | 05/20/1982 |
| From: | POWER AUTHORITY OF THE STATE OF NEW YORK (NEW YORK |
| To: | |
| Shared Package | |
| ML20053A587 | List: |
| References | |
| NUDOCS 8205260276 | |
| Download: ML20053A591 (60) | |
Text
_ _ __ _
REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST TYPE A, B,
and C
-PERIODIC TESTS FOR MAY 1980 to FEBRUARY 1982 i
POWER AUTHORITY OF THE STATE OF NEW YORK JAMES A.
FITZPATRICK NUCLEAR POWER PLANT DOCKET NO. 50-333 O
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TABLE OF CONTENTS Section Title Page 1
PURPOSE 1-1 2
SUMMARY
2-1 2.1 TYPE A TEST 2-1 2.1.1 Test Summary 2-1 2.1.2 Conclusions 2-4 2.2 LOCAL LEAK RATE TESTS (B AND C) 2-4 3
TYPE A TEST 3.1-1 3.1 EDITED LOG OF EVENTS 3.1-1 3.2 GENERAL TEST DESCRIPTION 3.2-1 3.2.1 Prerequisites 3.2-1 3.2.2 Equipment and Instrumentation 3.2-1 3.2.3 Data Acquisition System 3.2-2 3.2.4 Data Resolution System 3.2-2 3.3 TEST RESULTS 3.3-1 4
LOCAL LEAK RATE TESTS (TYPE B AND C) 4-1 11
LIST OF ATTACHMENTS O
t\\ s'4 Attachment Title 2.1A Graph 1 - Preliminary Drywell and Torus Masses vs.
Time 2.1B Graph 2 - Drywell and Torus Masses (without C190 and C230) vs. Time 2.1C Graph 3 - Drywell and Tcrus Temperatures (without C230) vs. Time 3.2A Site Meteorology 3.2B Temporary Piping Leak Rate Analyzer (LRA) System No.
16-1 3.2C Permanent Piping Leak Rate Analyzer (LRA)
System No. 16-1 3.2D Instrumentation 3.2R LRA System No. 16-1, ILRT Temperature Detector Locations
()
3.2F LRA System No. 16-1, ILRT Moisture Detector Locations 3.3A Primary Containment Integrated Leak Rate Test (PCILRT) from 1500 on 2-15-82 to 1500 on 2-16-82 Page 1 of Run 1 3.3B Primary Containment Integrated Leak Rate Test (PCILRT) from 1500 on 2-15-82 to 1500 on 2-16-82 Page 2 of Run 1 3.3C Primary Containment Integrated Leak Rate Test (PCILRT) from 1500 on 2-15-82 to 1500 on 2-16-82 Page 3 of Run 1 3.3D Primary Containment Integrated Leak Rate Test (PCILRT) from 1500 on 2-15-82 to 1500 on 2-16-82 Page 4 of Run 1 3.3E Type C
Penetration Leakage to be Added to Calculated i
PCILRT Leak Rate 3.3F Graph 4 - Containment Leak Rate and UCL vs. Time 3.3G Graph 5 - Containment Air Mass vs. Time i
}
LIST OF ATTACHMENTS (Cont.)
l Attachment Title l
3.3H Graph 6 - Drywell and Torus Average Temperatures vs.
[
Time j
3.3I Graph 7 - Drywell and Torus Pressures vs. Time i
3.3J Graph 8 - Drywell and Torus Vapor Pressures vs. Time 4
4A 1981/1982 Type B and C Data Summary i
4B 1981/1982 Primary Containment Boundary Modifications i
4C 1980 Type B and C Data Summary i
l lO i
I l
iv
r SECTION 1 PURPOSE The purpose of this report is to present an analysis and interpretation of the February, 1982 Type A test and a summary of the last two periodic Type B and C tests performed at the James A.
FitzPatrick Nuclear Power Plant (JAFNPP) between May, 1980 and
- February, 1982.
JAFNPP is owned and operated by the Power Authority of the State of New York (PASNY).
1 This report is submitted as required by 10CFR50, Appendix J, i
Paragraph V.B, as amended September 22, 1980.
i l
!O 1
1 I
i k
4 i
i 1
1-1 i
i
F SECTION 2 m
(v)
SUMMARY
2.1 TYPE A TEST 2.1.1 Test Summary On February 13, 1982, pressurization was started at 2013 hours0.0233 days <br />0.559 hours <br />0.00333 weeks <br />7.659465e-4 months <br />.
A fairly constant rate of 6 psig per hour was maintained throughout the pressurization period.
The compressors were secured at 0330 hours0.00382 days <br />0.0917 hours <br />5.456349e-4 weeks <br />1.25565e-4 months <br /> on February 14,
- 1982, with a
peak instantaneous pressure of 61.0 psia.
Both the torus and drywell air temperatures were changing significantly, apparently due to Condensate Transfer System in-leakage to the torus and due to the isolation of the shutdown cooling mode of the Residual Heat Removal (RHR)
System.
At approximately 0825 hours0.00955 days <br />0.229 hours <br />0.00136 weeks <br />3.139125e-4 months <br />, the condensate transfer supply (" Keep Full")
to the RHR System was isolated.
At approximately 0930 hours0.0108 days <br />0.258 hours <br />0.00154 weeks <br />3.53865e-4 months <br />, the shutdown cooling mode of the RHR System was restarted.
At approximately 1100 hours0.0127 days <br />0.306 hours <br />0.00182 weeks <br />4.1855e-4 months <br />, the average hourly drywell and torus temperature satisfied the stabilization criteria.
From 1100 to 1700 hours0.0197 days <br />0.472 hours <br />0.00281 weeks <br />6.4685e-4 months <br /> (Attachment 2.1A), a fairly _ stable mass
(}/
loss of about 14 lbm per hour was observed.
This rate was
(,,
slightly in excess of the NRC endorsed limit of 0.375%/ day (13 lbm per hour) but within the procedural rate of 0.5%/ day (17.4 lbm per hour).
In order to identify leakage paths, the following actions were taken:
a.
An extensive investigation of all penetration areas we.e I
conducted.
This search revealed small packing leaks on ~
several valves, the most significant on 27-AOV-101A.
b.
Pressure readings were taken between the Main Steam j
Isolation Valves (MSIVs).
f l
In order to reduce the mass trend, the following actions were
/'
'enetrations taken and the leakage effects of all the isolated p
l (floor drains,
At 1700 hours0.0197 days <br />0.472 hours <br />0.00281 weeks <br />6.4685e-4 months <br />, the manual operator on 27-AOV-101A was wrapped in plastic in order to quantify the packing >
leakage.
A Local Leak Rate Test (LLRT) produced a '
leakage of approximately 8 standard cubic feet per day (SCFD).
\\()
N' 2-1 l
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J 4 i NOTE:
-This reading was lower than expected, perhaps
+ qdue to excessive pressure drop in the tubing j
O--
leak, etc.
Although this was a
significant "to the LLRT Panel, problems in containing the 1
packing
- leak, it was not a
significant contribution to the total Type "A" leakage.
b.
At 1731 hours0.02 days <br />0.481 hours <br />0.00286 weeks <br />6.586455e-4 months <br />, manual valves, downstream of'the outboard
[
equipment and floor drain sump isolation valves,',were closed.
The position of the inboard isolation valves had not been clearly established by the procedure.
These valv9s had been left open for the Type "A" Test.
c.
At 1830 hours0.0212 days <br />0.508 hours <br />0.00303 weeks <br />6.96315e-4 months <br />, an air, block of 40 psig was established on the "B" MSIV line.
This was done to check if the outboard isolation valve was holding pressure.
8 v
Typically, significant chbnges' in the mass trend can be achieved by isolating significant leakage paths.
Using graphical techniques, these changes or breakpoints can usually be seen immediately although several data points, i.e.,
2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />
- minimum, required before an analytical analysis can be predicted with are certainty. Arguments for<the breakpoint analysis can be offered by reviewing the 1978 ' JAFNPP. mass trend data from 1500 to 2400 hours0.0278 days <br />0.667 hours <br />0.00397 weeks <br />9.132e-4 months <br /> on November 26, '1978'.'
A slightly excessive mass loss of 16.2 lbm-per hour was observed from 1500.to 1940 hours0.0225 days <br />0.539 hours <br />0.00321 weeks <br />7.3817e-4 months <br />.
An air block wis. established'on the "A" MSIV'lirle'at 1945 with the mass loss after this isolation at 12'.5 lbm per hour.
The "as-(%
(,)
found" ILRT of' this penetration confirmed the Type "A"
predicted I
LLRT resui.ts of approximately 1175 SCFD.
i
'From 1800 tot 2240 hours0.0259 days <br />0.622 hours <br />0.0037 weeks <br />8.5232e-4 months <br /> on February 14, 1982 (Attachment 2.1A), a fairly stable mass loss of about 8 lba per hour was observed.
The bagi on 27-AOV-101A was removed and the manual valves on the equipment and floor drain s' ump lines yere reopened in order to demonstrate that these were not a r.ajor contributing spurce to 3
the observed mass trends..Thus, the entire mass trend improvement of about 6 lbm per hour kan assigned to the MSIV. This mass rate change corresponds to a leakage rate of 1900 SCFD for the MSIV penetration.
At approximately 0320 hours0.0037 days <br />0.0889 hours <br />5.291005e-4 weeks <br />1.2176e-4 months <br /> on February 15, 1982, reactor coolant temperature approached a
normal shutdown limit of 180*F.
RHR service water was supplied to the P!IR heat exchangers for about'30 minutecireducing reactor coolant Temperature about 25 F.
This caused a.
containment temperature: change of approximately 0.79 F over the next 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />, thus excehding the procedure's temperature stabilization criteria.
Flow to the non-regenerative Reactor Water Clpa'-Up (RWCU) heat exchangers was increased in an n
attempt to stabilize and control the reactor coolant temperature throughout the test period.
Containment temperature
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i stabilization and a
means for maintaining reactor coolant temperature within a narrow band w?re not established until f O approximately 1500 hours0.0174 days <br />0.417 hours <br />0.00248 weeks <br />5.7075e-4 months <br /> on Februtty 15 1"92.
At approximately
~
1630 hours0.0189 days <br />0.453 hours <br />0.0027 weeks <br />6.20215e-4 months <br />, service water flow of 3000 gpm was established through the RHR heat exchangers for 45-60 seconds.
This was
{
repeated every hour to maintain reactor coolant temperature.
t i
The Type N.was successfully completed with the "B" MSIV leakage path blocked with an air
- plug, at 1500 hours0.0174 days <br />0.417 hours <br />0.00248 weeks <br />5.7075e-4 months <br /> on February 16,
- 1982, with a
UCL of 0.213258%/ day.
A mass step verification test was successfully completed from 1620 to 1750 hours0.0203 days <br />0.486 hours <br />0.00289 weeks <br />6.65875e-4 months <br /> on l
February 16, 1982.
Depressurization was started at 2040 hours0.0236 days <br />0.567 hours <br />0.00337 weeks <br />7.7622e-4 months <br /> with the drywell pressure at 61.304 psig.
At the completion of the
- ILRT, a
LLRT of the "B" MSIV line indicated a leak rate of approximately 3.0 SCFD.
This was similar to the "as left" leakage rs. corded by the Type "C" test but was not in agreement with the Type "A" predicted results of I
1900 SCFD.
j An extensive review of the trend data from approximately 1100 to 0600 hours0.00694 days <br />0.167 hours <br />9.920635e-4 weeks <br />2.283e-4 months <br /> on February 14 and 15, 1982 (Attachment 2.1A),
indicated an instrumentation readout problem with the drywell manometer (C190).
The discontinuities in the drywell mass trend, that existed at approximately 1700 and 2300 hours0.0266 days <br />0.639 hours <br />0.0038 weeks <br />8.7515e-4 months <br />, disappeared j
when the average drywell manometer value (C192) was adjusted to restore the separation that existed between the two drywell manometers (C190 and C191) during previous readings.
Additionally, a
torus temperature readout problem (C230) was j
observed to be erratically fluctuating by as much as
+4 F, starting at approximately 1830 hours0.0212 days <br />0.508 hours <br />0.00303 weeks <br />6.96315e-4 months <br />.
i When the effects of these instruments were removed from the mass trends (Attachment 2.1B),
the previously assumed breakpoint disappeared.
In fact, the adjusted trends showed the mass trend change to be very gradual and not a direct result of the MSIV isolation.
l Upon further analysis of the drywell and torus air temperature data (Attachment 2.1C),
it can be observed that the torus j
temperature trends had not yet approached the equilibrium (torus water) temperature.
Therefore, the apparent 14 lbm per hour mass i
trend from 1100 to 1700 hours0.0197 days <br />0.472 hours <br />0.00281 weeks <br />6.4685e-4 months <br /> on February 14, 1982, can be directly attributed to this temperature equalization process.
From 0400 to 1700 hours0.0197 days <br />0.472 hours <br />0.00281 weeks <br />6.4685e-4 months <br />.
on February 14, 1982, the temperature dropped approximately 5 F, after which it remained fairly i
constant at 71.5 F.
l I
1 2-3
2.1.2 Conclusions O
a.
The predicted MSIV leakage rate value of 1900 SCFD was based upon malfunctioning sensors inputting to the
- computer, and the significant mismatch of torus air and water temperature, b.
When these instruments were deleted from the mass calculation there were no breakpoints that were attributable to the MSIV air block (Attachment 2.lB).
c.
The torus air-water temperature mismatch significantly attributed the apparent 14 lbm per hour mass trend.
d.
The MSIV air block had no effect on the Type "A" Test results.
The "as-found" and the "as left" are recorded I
in Attachment 3.3E.
I The Data Analysis Program results, without C190 and C230 e.
(Attachments 3.3A-3.3D), indicate a UCL of approximately 0.213258%/ day, which is well below the acceptance criteria.
2.2 LOCAL LEAK RATE TESTS (TYPE B AND C)
The Local Leak Rate Tests (LLRT) of containment isolation valves and other primary containment penetrations were performed by the methods described in the plant surveillance procedure No. F-ST-O 39B, " Type 'B' and 'C' LLRT of Containment Penetrations."
t Data for the two surveillance periods (1980 and 1981/1982) of LLRT's performed since the last Type A Test in accordance with Appendix J to 10CER50, Paragraph V.3, is summarized in Section 4 of this report.
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DRYHELL MASS DRYWELL MRSS ' RDJUSTED '-
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2-14-82 2-15-82 RTTACHMENT 2.1R TIME HOURS MRSS VS. TIME PRSNY, JRFNPP INTEGRRTED LERK RATE TEST
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ATTACHMENT 3.28 TO STORM I
TEMPORARY PIPING LEAK RATE I
DR AIN l
I I
LRA SYSTEM NO,16-1 l
-,pogny,-
1 J.A. FITZPATRICK NUCLEAR POWER PLANT l
COMPRESSORS l
DATE : FEB. 13,1982 TO FEB.16,1982
('*
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_l L_____________
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p, 108 10 9 2
i FI t-C ATTACH.
I RTD
- 3. 2 B SAS-40 R PI 7 01 3
105 702 5 4
u ALL MANUALVALVES ARE PREFIXED WITH LRA WHICH IS LEAK RATE RHR-73lA2 ANALYZER SYSTEM NO 16-1.EXCEPT AS NOTED.
RH R -731 A1 RHR-75tB RHR-52A RHR-528 10 MOV IOMOV 31A 31 RHR-50A RHR-508
+
705 6
X39A X398 706 TO CONTAINMENT 704 SPRAY (RH R)
ATTACHMENT 3.2C PERMANENT PIPING LEAK RATE ANALYZER LRA SYSTEM NO.16-1 J.A.FITZF% TRICK NUCLEAR POWER PLANT DATE: FEB.13,1982 TO FEB.16,1982
)
O O
AMAC1MLNT 3.2D INSTRIMENTATIGd Weight Computer Instrument Factor Point Range Zone Accuracy A.
Temperature 16-1-RTD-101 0.056755 C1su 08-300*F 0
11.0*F 16-1-RTD-120 0.056755 C199 0*-300*F 0
11.0*F 10-1-RtD-10 2 0.082510 C202 00-300*F 1
t1.0*F 16-1-RTD-119 0.082510 C203 00-303*F 1
21.0*F 16-1-Rm -103 0.178020 C206 0*-300*F 2
11.0*F 16-1-RTD-104 0.178020 C207 06-300*F 2
11.0*F 16-1-RID-105 0.065685 C210 0*-300*F 3
11.0*F 16-1-RTD-106 0.065695 C211 06-300*F 3
11.0*F 16-1-RTD-107 0.023505 C214 0*-300*F 4
21.0*F 16-1-RTD-108 0.023505 C215 0*-300*F 4
11.0*F 16-1-RTD-109 0.026685 C218 0*-300*F 5
11.0 'F 16-1-RFD-117 0.026685 C219 0*-300*F 5
11.0*F 16-1-RTD-110 0.0357b5 C222 08-300*F 6
11.0*F 16-1-RTD-111 0.035765 C223 0*-300*F e
i1.0*F t
16-1-RTD-112 0.031075 C226 00-300*F 7
21.0*F l
16-1-RTD-118 0.031075 C227 0*-300*F 7
11.0*F 16-1-R1D-113 0.000000 C230 O*-300*F 8
21.0*F 16-1-RTD-114 1.000000 C231 0*-300*F 8
11.O*F B.
Pressure i
16-1-PIT-101 0.00 C190 0-100 psia Drywell 10.021 16-1-PIT-102 1.00 C191 0-100 psia Drywell 20.0a 16-1-PIT-103 0.50 C194 0-100 pria Torus 10.02S 16-1-PIT-104 0.50 C195 0-100 ps la Torus 10.02n C.
Dewpoint 16-1-DC-A1 0.50 r234 36.5*-118.5*F A
21*-2*F 16-1-DC-A2 0.50
- 235 38.50-118.5*F A
210-2*F 16-1-DC-B1 0.00 c238 38.5*-115.5*F B
118-2*F 16-1-DC-B2 1.00 C239 38.5*-118.5*F B
110-2*F i
16-1-DC-C1 0.00 C242 38.5*-118.5*F C
218-2*F 16-1-DC-C2 1.00 C243 35.58-118.5'F C
218-2*F D.
Pump back Verification Test Flow Computer 16-1-PT-105 N/A N/A 0-165 psia N/A 121 F.3.
16-1-TT-115 N/A N/A 0*-150*F N/A 10.1*F 16-1-FE-101 N/A N/A 0-20 in. H,0 N/A 215 F.S.
16-1-Pyr-101 N/A N/A Flow Total 12er N/A 22% of (scf) nading 1 ot 1 I
2p' REA EL 355' 90'
/
RTD (NORTH) d EL 338-RTD l10 lil EL 323' RTD l10 200* RTD l
109 117
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O'RTD a
l RTD 1800 107 M
l 108
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NIO' RTD 10 6 RE A til ARE AIll
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20' RTD RTD 190*
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104 EL 282' 10 5 70' RTD REAl AREAVil AREAL RTD 16 0' 12 5 '
RTD RTD 250o 103 N
114 EL 260,,101
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AREAO EL 254' AREA
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RTD l80
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355' RTO 10 2 119 ARE A Vill RTD 2 lC' 67' RTD R EA Vill 11 2 118 305 RTD 11 3 NOTE RTD ELEVATIONS AND AZIMUTH POSITIONS ARE APPROXIMATE ATTACHMENT 3.2E ILRT TEMPERATURE DETECTOR LOCATIONS 1,RA SYST EM NO.16 -l l
x' J.A.FITZPATRICK NUCLEAR POWER PLANT DATE:FEB. 13,1982 TO FEB.16,1982
270' 18 0' 0'
(NORTH) g
/
/
/
EL 315' DEWCELL Al
/
DEWCELL A2
~
~
120 *
/
300*
/
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AREA A AREA A OM[
DEWCELL B2 EL 280'-
DEWCE LL BI 210*h
\\
30' AREA B AREA B O
s'> r x
4 s
X
/
EL 254 AREA (
1 DEWCELL C2 DEWCELL Cl 320' 14 0' l
l NOTE MOISTURE DETECTOR ELEVATIONS AND AZlMUTH POSITIONS ARE APPROXIM ATE.
l ATTACHMENT 3.2F l
ILRT MOISTURE DETECTOR LOCATIONS
'i LRA SYSTEM NO.16-1 (Q
J.A.FITZPATRICK NUCLEAR POWER PLANT D ATE : FEB.13,1982 TO FEB.16,1982
3.3 TEST RESULTS
(
3.3.1 Analysis of Test Results The test data for the period of 1500 hours0.0174 days <br />0.417 hours <br />0.00248 weeks <br />5.7075e-4 months <br /> on February 15, 1982 through 1500 hours0.0174 days <br />0.417 hours <br />0.00248 weeks <br />5.7075e-4 months <br /> on February 16, 1982, were analyzed for the final test results using PASNY's PCILRT program.
The input data and results obtained by PCILRT are shown in Attachments 3.3A through 3.3D.
Test Run 1 utilized lO-minute zone averages of absolute pressure, vapor pressure, and temperature data for the drywell and torus.
These averages were generated by the Plant Data Acquisition System.
In the PCILRT program, weight factors of 0.00 were assigned to a torus RTD (C230) and a drywell manometer (C190) when they were found to be malfunctioning.
I Calculated results are well below the test procedure acceptance criteria and the technical specification limit of 0.50 percent / day.
These results include corrections for Type C
leakage and water level (Section 3.3.2).
Five graphs (Attachments 3.3F through 3.3J) are provided showing the following quantities vs time:
O 1.
Containment Leak Rate 2.
Containment Air Mass 3,
Drywell and Torus Average Temperatures 4.
Drywell and Torus Presseres 5.
Drywell and Torus Vapor Pressures The leak rate and 95 percent confidence limit were calculated only for the test period shown.
The onsite computer calculations include data for the overall test duration which began on February 13, 1982.
The leak rate test calculations were verified during the supplemental test which used the metered pump back test method.
Approximately 75 percent of the maximum allowable 24-hour leakage (Ld) was inserted into the containment in a one hour period.
The calculated reading using the PCILRT computer program was within 0.25 Ld of the metered input.
l l
)
3.3-1
3.3.2 60-psia PCILRT Results
/- g The 60-psia PCILRT was conducted in accordance with section VII.3
(,)
of surveillance procedure No. F-ST-39F.
a.
Lam leak rate calculated (percent / day) 0.202093 b.
95 percent confidence level (percent / day) 0.011165 c.
UCL, leakage rate with 95 percent confidence level (percent / day) 0.213258 d.
Corrections due to water level (percent / day)
Torus 0.0177 Reactor Vessel None Drywell Equipment Sump 0.0056 Drywell Floor Sump O.00036 Total O.0237 e.
Correction for Type C leakage (percent / day)
(see Attachment 3.3E) 0.0167 f.
Total reported Type A leak rate (percent / day) 0.253658 Total allowable leakage is less than Ld or 0.50 percent / day.
s_/
3.3.3 Supplemental Test Results The Supplemental Verification Test was performed using the Mass Pump Back Method in accordance with Section VII.4 of F-ST-39F.
a.
Verification air inserted 319.2 lbm (4200 SCF) b.
Computer calculated change in containment air mass using Type A test instrumentation 306.551 lbm c.
Agreement between measured and calculated air added to contain-ment 12.649 lbm d.
O.25 Ld 104.3 lbm Results were acceptable within 0.25 Ld in accordance with 10CFR50, Appendix J, Paragraph III A.3.b.
IV) 3.3-2
i
)
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\\
/
d PAGE 1 OF RDN 1 ATTACHMEtc 3.3A PRIMARY COtCAINMEtc INTEGRATh.D LEAY. MATE Ti.ST PASNY JAMES A. FITZPATRICK 1AJCLEAR POWER PLAIR FROM 1500 ON 02-15-82 TO 1500 ON 02-16-82 LOG 1 - TEN MINUTE ZONE AVERAGES TIME ABSOLUTE PRASS
TEMPERATURES
=
---I,EhPOINT Tf.MPS--
HRS DRY TOR ZONE O ZONE 1 ZONE 2 ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONE 7 Zug, 8 ZON4 A ZONE b ZuNr. C 0.000 60.8u 60.935 103.79 108.83 110.63 118.26 126.73 144.63 126.58 102.88 71.55 98.03 96.57 73.60 0.999 60.90 60.958 103.98 109.16 110.96 118.76 127.3?
145.52 127.19 103.12 71.58 98.29 96.92 73.77 2.001 60.92 60.976 104.20 109.42 111.24 119.21 127.85 146.22 127.72 103.31 71.61 98.40 90.89 73.7s 3.000 60.94 60.990 104.30 109.56 111.42 119.50 128.20 146.70 128.24 103.42 71.59 95.57 96.91 73.50 3.999 60.94 60.998 104.41 109.69 111.59 119.79 128.39 147.03 128.68 103.43 71.60 98.65 97.13 73.o1 4.998 60.95 61.006 104.53 109.92 111.79 120.08 128.64 147.21 129.09 103.42 71.65 9d.u0 97.40 73.86 5.997 60.96 61.014 104.65 110.03 111.94 120.29 128.63 147.42 129.35 103.78 71.06 99.02 97.35 73.90 6.996 60.96 61.018 104.77 110.20 112.00 120.52 129.02 147.49 129.58 103.e5 71.69 99.01 97.39 74.07 7.995 60.97 61.021 104.91 110.33 112.28 120.75 129.22 147.48 129.67 104.07 71.72 99.10 97.57 74.14 8.994 60.97 61.029 105.03 110.36 112.34 120.94 129.33 147.51 129.84 104.17 71.72 99.25 97.77 74.17 d
9.993 60.97 61.029 105.13 110.48 112.47 121.13 129.49 147.48 129.d4 104.27 71.77 99.39 97.76 74.1o 10.992 60.9e 61.037 105.19 110.5u 112.61 121.31 129.02 147.61 129.90 104.34 71.7d 99.53 97.51 74.20 11.991 60.98 61.037 105.29 110.69 112.69 121.48 129.d0 147.72 129.92 104.43 71.79 99.56 97.89 74.20 12.990 60.99 61.045 105.35 110.84 112.o2 121.70 129.94 147.80 130.00 104.50 71.82 99.5e 97.9u 74.18 13.989 60.99 61.045 105.44 110.95 112.96 121.91 130.13 147.97 130.10 104.24 71.88 99.79 98.17 74.39 E.988 60.99 61.045 105.52 110.93 113.06 122.05 130.27 147.93 130.04 104.57 71.88 99.66 98.12 74.52 15.987 61.00 61.053 105.52 111.11 113.12 122.22 130.33 147.98 130.06 104.16 71.87 99.51 98.10 74.48 16.986 61.00 61.053 105.60 111.13 113.23 122.37 130.46 148.11 130.11 104.61 71.88 99.64 98.21 74.56 I
18.000 01.00 61.053 105.74 111.23 113.36 122.57 103.62 148.09 130.06 104.7d 71.93 99.70 98.23 74.56 1d.999 61.01 61.061 105.d9 111.41 113.43 122.6s 130.59 148.16 129.96 104.88 71.92 99.77 98.34 74.6e I
19.99u 61.01 61.061 105.97 111.48 113.54 122.82 103.78 145.04 129.79 104.89 71.92 99.78 96.23 74.5%
20.997 61.01 61.068 106.00 111.58 113.65 122.95 130.82 148.00 129.76 105.03 71.92 99.96 98.44 74.62 21.996 61.01 01.068 106.07 111.66 113.75 123.12 130.99 14o.27 129.b0 105.12 71.93 99.95 98.57 74.70 l
22.995 61.01 61.068 106.17 111.77 113.81 123.33 131.07 148.32 129.54 104.88 71.93 99.9s 90.67 74.93 1
24.000 61.01 61.068 106.22 111.85 113.93 123.50 131.23 148.35 129.54 105.18 71.95 100.06 98.71 74.99 4
Page 1 of 6
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ATTAChetENT 3.JB PAut. 2 OF $UN 1
.l PRDiARE CONTAIRatENT INTEGkATED LEAK RATE TEST PASNY JAMhs A. FITZPATRICK NUCLEAR PoetER PLANT FROM 15 00 ON 2-15-82 10 1500 ON 2-16 -82 LOG 2 - INPUT VARIABLES s e e e e e e e e e * * * * * * * *
- DRY W ELL * * * * * * * * * * * * * * * * * *
- TORUS **************
TDtE ABS PRESS VAP PRESS ABS TDiP ABS DEWPT ABS PRESS VAP PhF.SS ABS TtJtP HRS PSIA a*SI A DeGk DhGR PSIA PSIA DEGk 0.000 60.oo 0.8747 573.62 557.30 60.935 0.4100 531.55 0.999 60.90 0.8829 574.01 557.60 60.958 0.4123 531.58 2.001 60.92 0.8840 574.34 557.65 60.976 0.4124 531.61 3.000 60.94 0.8865 574.56 557.74 60.990 0.4127 531.59 3.999 00.94 0.8906 574.74 557.69 60.998 0.4129 531.60 t
4.998 60.95 0.oS63 574.96 558.10 61.000 0.4136 531.65 5.997 60.96 0.8986 575.13 558.19 61.014 0.*14 1 531.60 6.996 60.96 0.8990 575.28 558.40 61.018 0.4165 531.o9 7.995 00.97 0.9027 575.4o 55s.33 61.028 0.4175 531.74 6.994 60.97 0.9075 575.55 55s.51 61.029 0.4179 531.72 9.993 60.97 0.9093 575.66 55u.57 61.02w 0.*177 531.77 10.992 60.98 0.9119 575.78 558.67 61.037 0.a183 531.78 11.991 60.98 0.9134 575.88 558.72 61.037 0.4183 531.79 14.990 60.99 0.9146 576.01 558.77 61.045 0.61d0 531.82 13.989 60.93 0.9205 576.12 558.98 61.045 0.4210 531.88 14.988 60.99 0.9180 576.20 558.89 61.045 0.*z28 531.so 15.987 61.00 0.9150 57o.2o 558.61 61.053 9.4222 331.87 16.986 01.00 0.9189 576.37 55s.93 61.033 0.4434 53%.88 18.000 61.00 0.9201 576.49 558.96 61.053 0.4234 531.93 18.999 61.01 0.9226 576.58 559.06 61.0b1 0.4242 531.92 Page 2 ot 6
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PAGE 2 OF RUN 1 J
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- * * * * * * * * * * * * * * * * *
- DR1rW ELL * * * * * * * * * ** * * * * * * *
- 'IORUS**************
TIME ABS PRASS JAP Phr.SS AhS TEMP ABS DEMPT ABS Pkt.SS VAP PdA"A ABS TAMP HRS PSIA PSIA DEGR DLGR PSIA PSIA DLGN I
j 19.398 61.01 0.9212 576.65 559.01 61.061 0.4231 531.92 1
20.997 61.01 0.9266 576.74 559.20 61.068 0.4242 531.92 1
l 21.w96 bl.01 0.9283 576.83 559.26 e1.06d 0.4254 531.93 l
22.995 61.01 0.9301 576.90 559.32 61.068 0.4266 531.93 l
2*.000 61.01 0.9318 577.01 559.39 61.068 0.e295 531.95 i
i INITIALIZATION DRYWELL 1WdJS C0ffrROLS OUTPUT NETA
{
ABS PRF.SS 60.de 60.935 100 25 i
VAP PRESS 0.8747 0.4100 I
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ABS TEMP 573.b2 531.55 4
j VOLUME 154476.
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.Y a% h 3 UF kUN 1 ATTAC VENT 3.3C PRIMARY CONTAIldo.frf INT 2.a.kl.TLD LEAK RATh TEST PASNY JAMA.S A. FITWAfkId NUCLEAR POWER PLANT FROM 1500 ON 2-15-82 TO 1500 ON 2-1o-82 IDG 3 - ABSOLurE ME1 HOD TEST RESULTS l
TIME MASS OF AIR LIAA RATE 95 PCT CONF IDURS POOt LS PCT / DAY
_ PCT / DAY g
0.000 79207.528 0.000000 0.000000 0.000000 0.999 79196.789 0.000000 0.000000 0.000000 2.001 79193.684 0.209576 0.478740 0.688316 3.000 79199.153 0.0d5524 0.299133 0.3o4056 3.999 79186.oet 0.11o065 0.149044 0.4e70s9 4.998 79174.093 0.105804 0.114977 0.2807s1 5.997 79170.250 0.177590 0.077843 0.255*34 6.996 79157.728 0.199339 0.0o3311 0.262050 l
7.995 79148.163 0.215539 0.052356 b.267s94 8.994 79142.360 0.221633 0.0*157.
0.2O3207 9.993 79129.071 0.2331se 0.036579 0.269777 1
10.992 79129.192 0.2307eo 0.030155 0.230920 I
11.991 79119.756 0.431144 0.045167 0.256309 l
12.990 79119.323 0.225121 0.022651 0.247772 13.989 79100.809 0.429025 0.0402e8 0.249d73 14.988 75095.374 0.'31210 0.017690 0.2*mv00 4
15.987 79105.975 0.4214e7 0.019602 0.2 = 100 9 1o.986 79093.458 0.217403 0.01e024 0.235*27 18.000 79080.285 0.217317 0.01m042 0.233359 18.999 79063.872 0.212595 0.015469 0.22s064 i
Pege 4 of 6
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1 FAGE 3 OF xom 1 ATTACHMLh? 3.3C (Cont.)
TIME MASS OF AIR LkJA RAtt.
9$ PCT C0ter HOORS POUFOS PCP/ DAY PCT / DAY Ugg 19.938 7w000.228 0.207777 0.015105 0.222881 l
i 20.997 79073.231 0.204213 0.014339 0.218552 l-21.99o 79063.742 0.202411 0.013227 0.215e3m 22.995 79055.589 0.201471 0.012142 0.213613
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24.000 79044.067 0.202093 0.011165 0.213258 i
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I PAGE 4 OF RUN 1 ATTACHMENT 3.3D PRIMARY CONTAINMENT INTEGRATED LEAK RATE TEST PASNY JAMES A. FITZPATRICK NUCLEAR POWER PIJudt FRCM 1500 ON 2-15-82 TO 1500 ON 2-16-d2 LOG 4 - INITIALIZATION A E CONTROL VARIABLES WZIGHTING FACTORS FOR TEMPERATURE A M DEWPOINT AVERAGING l
EONE 0 ZONE 1 ZONE 2 ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONr. 7 ZOte. 8 ZONE A ZONE B ZONd C l
j 0.11351 0.16502 0.35604 0.13137 0.04701 0.05337 0.07153 0.06215 1.00000 0.50000 0.50000 1.00000 j
POLYNOMIAL COEFFICIENTS FOR VAPOR PRkSSURE CONVERSION 0.919818D-14 0.172223D-10 0.105015D-08 0.349876D-Oo 0.17958SD-04 0.1121990-02 0.211357D-01 STUDENT'S T CONSTANTS 1.95996 2.3722e 2.82250 l
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ATTACHMENT 3.3E r~s
(
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b' TYPE C PENETRATION LEAKAGE TO BE ADDED TO CALCULATED PCILRT LEAK ~ BATE o
1.
Penetrations to be penalized from initial valve lineup (see Type B and C data):
E' V
Leakage Penetration Description (SCFD)
X-9A "A'" Feedwater Line 31.98 X-93 "B"
Feedwater Line 28.40 88.41 X-14 RWCU Supply 0.204 X-23 Drywell Cooling Equipment O.204 X-24 Drywell Cooling Equipment X-36 CRD Return 30.90 Total (percent / day) 0.0164 2.
Penetrations isolated during Type A Test (post-isolation results added to Type A leakage):
Pre-Post-s Isclation Isolation Leakage (2)
Leakage (2)
Penetration (1)
Description (SCFD) _
(SCFD)
X-7B "B" Main Steam Line 4.67 3.00 Total (percent / day) 0.0003 i
3.
Total corrections for Type C. leakage 0.0167 NOTES:
['
f (1)
The manual valves downstream of the outboard equipment and floor drain' sump isolation valves (20-AOV-95 and 20-AOV-83) and 27-AOV-lOlA were isolated and returned to their normal valve lineup; therefore, there is no penalty applicable.
(2)
The pre-isolation results of 4.67 SCFD were taken from 'he LLRT performed prior'to the Type A Test.
The post-isolation results were taken from the LLRT performed after the Type A Test.
No repair was performed.
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SECTION 4 O)
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LOCAL LEAK RATE TESTS (TYPE B AND C)
Attachments 4A and 4C, which follow, summarize the LLRT data which has been obtained from periodic testing performed since the last Type A Test.
Pre-repair data 13 provided for surveillance testing performed in 1981/1982 and 1980.
Values listed in both summaries are individual valve measurements, unless otherwise noted.
Each penetration's leak rate can be obtained from site reference
.nate rial.
These LLRT's were performed using
" Volumetric" leakage measuring equipment with a
maximum calibrated range of 1,018 SCFD.
Corrective action was taken whenever the penetration leakage was greater than 100 SCFD or when leakage was significantly greater than historical "as found" values.
No attempt to establish the actual leak rate was made when the maximum range of the test instrumentation was exceeded.
new drywell electrical penetration, X-100D, was In 1981/1982 a
added and Type B tested.
The acceptance criteria for Type B
and C
testing are in accordance with 10CFR50, Appendix J.
The combined leakage rate for all penetrations and valves subject to Type B and C tests shall be less than 0.6 Ld.
The LLRT's performed in 1980 and 1981/1982 were well below the acceptance criteria.
The Attachments for this section are:
x-Attachment No.
Title Surveillance Period 4A 1981/1982 Type B and C 10/26/81 through 2/3/82 Data Summary 4B 1981/1982 Primary Containment Boundary Modifications 4C 1980 Type B and C 5/5/80 through 8/14/80 Data Summary i
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ATTACHMANF 4A 19b1/1982 TYPE B AND C DATA
SUMMARY
Type Equipment / Valves Pre-Rapair Post-Repeir Penetration No.
Test Tested Leakage iset/ day)
Lear. age isof/ day)
Remarks Drywell Stabilizer 0*
(GE-908)
D
- O* rings
<0.102
< 0.102 45* (GE-135 *)
B
- O* rings (0.102
<0.102 908 (GE-180*)
B
- O" rings
<0.102
<0.102 135* (GE-225*)
B "O" rings 0.155 0.155 18 0 * (GE-270 *)
B "O* rings
<1.02
<1.02 225* (GE-315 *)
B "O" rings
<1.02
<1.02 270* (GE-08)
B "O" rings
<1.02
<1.02 l
315* (GE-4 5*)
B "O" rings
<1.02
<1.02 I
Dry well Head B
- O* rings
<0.025
<0.025 X-1A Equipment and Emergency Escape Hatch B
- O* rings 0.102 0.102 1-1B Equipment Batch B
"O" rings 0.204 0.204 X-2A Personnel Access Hatch B
"O" rings 2.378 2.373 X-4 Drywell Head Manhole B
- O" rings
<1.02
<1.02 X-6 CRD Removal Hatch B
"O" rings
<0.102
<0.10:2 i
X-7A *A* Main Steam Line C
29-AOV-80A (IPC) 1.19 1.19 2 9-AOV-86 A (OPC)
X-7B *B" Main Steam Line C
29-AOV-80 B (IPC) 4.67 4.b7 29-AOV-86B (OPC)
X-7C "C" Main Steam Line C
29-AOV-80 C (IPC) 448.39 (enrnhined) 79.15 AOV-8bC macnined seet; 29-AOV-86C (OPC) lapped pilot discs replaced packing, ring, gasxet, and ping X-7D *D* Main Steam Line C
29-AOV-80D (IPC) 80.93 80.93 29-AOV-06D (OPC)
X-8 Condensate Drain C
29-HOV-74 (IPC) 64.39 o4.39 2 9-MOV-77 (OPC) 1.79 1.79 1 of 9
ATTAC19 TENT 4A (Cont.)
1981/1982 TYPE b AND C DATA StEMARY Type f.quipment/ Valves Pre-Repair Post-Repair Penetration No.
Tg Tested Leakaoe (sef/dhyl Lea.kaoe (set / day)
Remarks X-9A Feedwater C
34-FWS-28 A (IPC) 19.14(FWS-28A) 19.14 (FMS-2bA)
NRV-111A lapped seat 13-MOV-21 (OPC)
> 1018 (M0V-21) 6.78 (M0te l) ring ano flapper; adjus-34-NRV-111A (OPC)
(NKV-111 A)
(RWC-62) ted stutting Dox ano pin RWC-62 (OPC)
(RWC-62) 25.2 (NPV-111A) bearing; adjusted linxage on actuator; RWC-62 lapped seat ano 3
tlapper; replacea gasmet; I
X-9B Feedwater C
34-fwS-28h (lPC) 123. - b (P hS-48B) 88.41 (FhS-288) fMS-29b tightened packing; 2 3-MOV-19 (OPC)
>1018 (MOV-1S) 3.0 (MOV-19) 3 34-NRV-111B (OPC)
(NAV-111b)
(NEV-111B)
NhV-111b lapped disc and seats replaced gastets and pack 1.ng; X-10 Steam to RCIC Turbine C
13-MOV-16 (IPC)
<1.018
<1.018 13-MOV-15 (OPC)
<1.018
<1.018 x-11 Steam to tiPCI Turbine C
23-MOV-15 (IN) 2.05 2.05 MOV-15 tigntened pecung; 2 3-MOV-16 (OPC) cleaned inside Dody Lore 2 3-MOV-60 (OPC) to lap area; X-12 Shutdown Supply to RHR C
10-MOV-17 (IPC)
>1018
<0.102 MOV-17 lapped seat and 10-MOV-18 (OPC)
- 1018
< 0.102 disc; replaced seal and sarety ring; MOV-18 and RBR-88 repaired packing leaks; X-13A RHR Return C
10-MOV-27A (OPC)
>1018 292.1*l MOV-27A replacea pacAirm3; 10-MOV-25 A (OPC) 9.62 9.62 knx-703A replaced valve; X-13B RHR Return C
10-MOV-27B (OPC) 12.32 12.32 AOV-68b replaced Donnet 10-MOV-25B (OPC)
>1018 14.51 gasket; Rkut-700b replacea stem packing and disc; lapped seat; Rhx-701B replaced stem packing and disc; X-14 RWCU Supply to C
12-NV-15 (IPC) 2.3b (MOV-15) 2.38 MOV-15 replaced packing; Recirculation Pumps 12-MOV-18 (OPC) 36.b (MOV-18)
- 28. 4 (MOV-18)
MOV-18 replaced pacxing 12-MOV-80(OPC)
(MOV-80)
(MOV-8 0) i 2 ot 9 I
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ATTACHMENT 4A (Cont.)
1981/1982 TYPE B AND C DATA
SUMMARY
Type Equipment / Valves Pre-kepair Post-Repair Penetration No.
M Tested Leakaae (set / day)
Leakaae (set /davi Remarts X-16A Core Spary Pump Discharge C
14-MOV-11 A (OPC) 0.554 0.554 AOV-13A cleaned 14-MOV-12A (OPC) 2.94 4.94 seat ring; lapped cisci replaced gasket; X-16b Core Spray C
14-MOV-11B (OPC) 15.37 15.37 Pung Discharge 14-MOV-12B (OPC) 3.57 3.57 X-17 RPV head Spray C
10-MOV-32 (IPC) 1.25 1.25 10-MOV-33 (OPC) 6.99 6.99 X-18 Floor Sump Puup Discharge C
20-MOV-82 (IPC)
<1.02
<1.02 20-MOV-83 (OPC)
<1.02
<1.02 X-19 Equipment Sump Pump C
20-MOV-94 (IPC) 1.53 1.53 Discharge 20-AOV-95 (OPC) 17.15 17.15 X-21 Service Air C
39-SAS-10 (IPC) 254.91 0.375 SAS-10 relapped; new 39-SAS-9 (OPC) 70.65
<1.02 wedge, stema, and gasxet; SAS-9 honed seat; new gasxet and wedge; X-22 Instrument Air C
IAS-22 (IPC) 48.76 48.76 IAS-21 replaced packing; IAS-21 (OPC)
> 1018
<1.02 I AS-23 (OPC)
<1.02
<1.02 X-23 Cooling Water Supply C
4 6-ESW-16 B (OPC)
<0.102
<0.102 15-RBC-24A (OPC)
<0.102
<0.102 X-24 Cooling Water Supply C
46-ESW-16 A (OPC)
<0.102
<0.102 15-RBC-24 B (OPC)
<0.102
<0.102 X-25 Drywell Inerting and C
27-AOV-111 (OPC)
> 1016 (AOV-111) 2.19 (AOV-111)
AOV-111 & Auv-112 new CAD and Purge X-71 27-AOV-112 (OPC)
(AOV-112)
(AOV-112) gaskets and packing; 27-AOV-131A (OPC) 463.19 (AOV-13tA) 3.o2 (AOV-131A) readjusted; CV-68 (CV-68)
(CV-68)
CV-68 lapped disc 27-AOV-131B (OPC) 22.9 (AOV-131b) 22.9 (AOV-131b) and saat; 4
CV-69 (CV-69)
(CV-69) i i
3 of 9 4
('"'
Cm
(
d ATTACHME!ff 4A (Cont.)
i 1981/1982 TYPE B AND C DATA
SUMMARY
Type Equipment / Valves Pre-Repair Post-Repair Penetration No.
Test Tested LeaXaoe (set / day)
Leaxaoe (set /dayl Remarts X-26A Containment Atmospheric C
CAD-204 0.102 0.102 Sampling 27-SOV-12 0A (OPC) 95.34
<0.102 SOV-120A replaced piston 27-SOV-12 0B (OPC) 1.2b
<0.102 spring, disc, o-ring, CAD-206 0.102 0.102 set screw, and witon plug; 27-SOV-12 2A (OPC) 8.0 0.025 SOV-121A, 60V-1218, SOV-1208 2 7-SOV-122B (OPC) 1.u9 1.59 sOV-122A, and sOV-1428 CAD-205 0.102 0.102 replaced o-ring; cnanged 27-SOV-121A (OPC) 0.097
<0.102 plugs trom TFE to 27-SOV-121B (OPC) 1.83
<0.102 Viton; X-26A, X-26B Containment Vent C
27-AOV-113 (OPC)
> 1018 (AOV-113) 0.276 (AOV-113)
AOV-113 & AOV-114 ad-and Purge 27-AOV-114 (OPC)
(AOV-114)
. (AOV-114) justed actuators; 2 7-MOV-113 (OPC) 0.18 8 (MOV-113) 0.188 (MOV-113)
AOV-113 Replaced T-ring, 27-MOV-122 (MOV-122)
(MuV-122) o-ring, actuator re-turn spring, and tlange gaske*.s; X-31Ac *A" Recirculation C
02-RWR-13 A (IPC) 14.56 (RNR-13A) 14.56 (RWR-13A)
Pung Mini Purge 02-RWR-14A (RWR-14A)
(RWR-14A) 0 2-RWR-40 A (OPC) 1018 (RWR-14A) 39.75 (RWR-14A)
(RWR-14A)
(RhR-40A)
RWR-40A replaced valve)
X-31Ad Drywell Inert and Purge C
27-SOV-13 5A (OPC) 13.13 13.13 1
27-SOV-135B (OPC)
>1018 44.69 SOV-135B replaced o-ring, disc, seal ring, and spring; noned inside piston wall; CAD-81 replaced cisc and packing; lapped aheat; X-31bc *B* Recirculation C
02-RWR-13B (IPC) 44.44 (RWR-13B) 44.44 (RWR-138)
Pump Mini Purge 02-RWR-14B (RWR-14B)
(RWR-148) 02-RWR-40B (OPC) 0.25 (RNR-408) 0.25 (RWR-408)
(RWR-148)
(RWR-lisB)
X-35A TIP Probe C/B Ball Valve (OPC) 26.42 26.42 "O" ring (OPC)
<1.02
<1.02 X-35B TIP Probe C/B Ball Valve (OPC) 8.5 8.5
- O" ring (OPC)
<1.02
<1.02 X-35C TIP Probe C/B Ball Valve (OPC) 14.3 14.3 "O" ring (OPC)
<1.02
<1.02 X-35D TIP Probe C/B Ball Valve (OPC) 9.93 9.93 "O" ring (OPC)
<1.02
<1.02 4
J 4 of 9 t
O O
O ATTACHMElfr 4A (Cont.)
1981/19u2 TYPE B AND C DATA
SUMMARY
Type Equipsaent Walves Pre-Repair Post-Repair 1%=netration No.
Test.
Tested Leakace fsef/cav)
Leaxage (set / day)
Remarks X-355 TIP Purge C/B TP-1 (OIC) 1.39 1.39 "O" ring (OPC)
<1.02
<1.02 X-36 CRD Return C
CRD-113 (IPC) 1.92 1.92 i
l CRD-110 (OPC)
>1018 30.9 CRIs-110 locA Dracket caugnt in slapper, in-stalled new lock DracAet; X-39A Containment Spray C
10-MOV-26 A (OPC)
<1.01d
<1.018 10-MOV-31 A (OPC)
RHR-52A (OPC)
X-39B Containment Spray C
10-ft0V-2 6B (OPC) 55.6 ts 55.b8 10-MOV-31B (OPC)
RHR-52B (OPC) l X-41 Recirculation loop Sample C
0 2-AOV-39 (IPC) 4.81 (AOV-39) 4.81 (AUV-39)
RWR-255 (RWR-255)
(RWR-255) 02-2-AOV-40 (OPC) 0.31 (AOV-40) 0.31 ( AUV-40)
(RWR-255)
(RWR-155)
X-42 Standby Liquid Control C
11-SLC-17 (IPC) 70.75 70.75-11-S14-16(OPC) 1.89 1.89 X-45 Leak Rate Analyzer C
16-1-AOV-101A 0.41 (AOV-101A) 0.41 (AOV-101A) 16-1-AOV-101B (AOV-101B)
(ACN-101B)
LRA-20 (OPC)
<0.025 (IRA-20)
<0.325 (LRA-20)
LRA-21 (OPC)
(LRA-21)
(LRA-41)
X-SSB Drywell CAD C
27-SOV-125A (OPC) 0.316 0.3 16 Inert and Purge 27-SOV-125B (OIC)
>1018
<1.02 SOV-125B replaced disc and body o-ring; in-stalled piston rings; X-58B CAD System C
CAD-214 0.102 0.102 i
X-58C CAD System C
CAD-215 0.102 0.102 X-SbD CAD System C
CAD-216 0.102 0.102 i
1 5 of 9
ATTACHMENT 4A (Cont.)
1981/1982 TYPE B AND C DATA SUMPARY Type Equipment / Valves Pre-Repair Post-Repair Penetration No.
Test Tested Leaxage (set / day)
Leaxage aset/dayt Remarts X-59 Drywell CAD Inert C
27-SOV-123 A (OPC) 19b.47 1.02 sOV-143A 6 SOV-1238 and Purge 27-SOV-12 3B (OPC)
>1018 5.14 replaced piston spring, CAD-207 0.102 0.102 disc, o-rang, and set screw; changed plugs trom TFE to Viton; 50V-143b pollsned piston and sidewalls; lapped seat; X-61 Breathing Air C
BAS-5(IPC) 85.51 40.26 BAS-5 lapped seat and BAS-4 (OPC) 43.16 29.06 1 lapper; BAS-4 cleaned and po-lashed seat and wedge; X-62 Drywell Cooling Return C
RBC-26B (OPC) 0.406 0.406 X-63
- B" Recirculation Pump C
15-RBC-21 A (OPC)
<0.1018
<0.1018 4
MTR Cooling Supply 4 6-LSW-15B (OPC) 5.97 5.97 1-64 "A* Recirculation Pump C
1$-RBC-22A (OPC) 4J.76 42.76 MTR Cooling Return X-65 Equipment Drain C
15-RBC-33 (OPC)
<0.1018
<0.1018 Pump Clr Return X-66 "A" Drywell Clr C
15-RBC-26A (OPC) 0.163 0.163 Assembly Return l
X-67 *A" Recirculation Pump C
15-RBC-21B (OPC)
<0.1018
<0.1018 MTR Cooling Supply A 6-ESW-15A (OPC)
<0.1018
<0.1018 I
1-68 "B" Recirculation Pump C
15-RBC-22 B (OPC)
<0.1018
<0.1018 MTR Cooling Return x-100A Elect B
"O* rings 0.045 0.045 X-100B Elect B
"O* rings
<0.025
<G.025 I
X-100C Elect B
"O" rings 0.121 0.1 1 j
1-1000 Elect B
"O" rings
<0.102
< 0.10 2 New penetration; X-100P Elect B
- O" rings
<0.025
<0.025 X-100G Elect B
- O* rings 0.422 0.422 6 of 9
O C
O ATTACHMENT 4A (Cont.)
1981/1982 TYPE b AND C DATA SLNMARY Type Equipment / valves Pre-hepair Post-Repair Penetration No.
M Tested Leakage (set / day 1 Leakaae (set /dayn kemarts X-100K Elect B
- O" rings 0.074 0.074 x-101A Elect B
"O" rings 0.046 0.0a6 x-101B Elect B
=0* rings
<0.025 (0.025 X-101C Elect B
"O" rings 0.052 0.052 X-100D Elect B
"O" rings
<0.025
<0.025 X-101E Elect B
"O* rings
<0.025
<0.025
]
X-101F Elect B
- O* rings
<0.025
<0.025 x-103A Elect B
- O* rings
<0.025
<0.025 X-1038 f. lect B
"O* rings 0.053 0.053 X-104C Elect B
"O" rings
<0.025
<0.025 X-104D Elect B
"O* rings 0.038 0.038 4
X-104E Elect B
"O" rings
<0.025
<0.025
)
X-106A Elect B
"O" rings 0.067 0.067 x-106B Elect B
"O" rings
<0.025
<0.025 X-107 Elect B
"O* rings 0.084 0.084 x-108 Elect B
"O" rings 0.062 0.062 l
l X-109 Elect B
"O" rings 0.042 0.042 X-110C Elect B
"O" rings 0.049 0.04 9 j
X-110D Elect B
"O" rings 0.103 0.103 X-111B Elect b
"O" rings 0.039 0.039 X-200A Torus Access B
"O* rings 0.102 0.102 x-200B Torus Access B
"O" rings 0.102 0.102 X-200C Turus Access B
"O" rings 2.822 2.822 7 of 9 i
l l
}
O O
O ATTACHMENT 4A (Cont.)
1981/1982 TYPE B AND C DATA SUstARY Type Equipment / Valves Pre-Repair Post-Repair Penetration No.
h Tested Leakage (sct/ day)
Leakage (set /dayt Reuurns X-202BG Vacuum Breaker C
27-AOV-101B (OFC)
> 101J (AOV-1018)
< 1.102 (AOV-1018)
ADV-101n replaced T-VB-7 (OPC)
(va-7)
(VB-7) ring, set screw, and 27-AOV-101A (OPC) 3.64 (AOV-101A) 3.64 (AOV-101A) gasket; VB-6 (OPC)
(VB-6)
(VD-e) x-202F Vacuum Breaker B
"O" ring (VB-1) 27.13 27.13 X-202G Vacuum Breaker B
"O" ring (VB-2) 49.88 49.88 X-202B Vacuum breaker B
"O" ring (VB-3) 46.27
<0.102 VB-3 honing and re-placed o-rings; x-202I Vacuum Breaker B
"O" ring (VB-4) 5.11 5.11 x-202J Vacuum Breaker B
"O" ring (VB-5) 28.30 28.30 X-203A Oy Analyzer Sample C
<0.102 SOV-115A 6 SOV-119B 27-SOV-119B (OPC) 2.86
<0.102 replaced o-rings; cnanged CAD-201 0.102 0.102 plugs from TFE to Viton; x-203B O, Analyzer Sample C
27-SOV-12 4A (OPC) 2.49 2.49 27-SOV-124B (OPC) 2.89 2.89 CAD-202 0.419 0.419 CAD-203 0.286 0.286 X-205 Drywell Inert CAD C
27-AOV-117 (OPC) 19.9 (AOV-117) 19.9 ( AOV-117) and Purge 2 7-AOV-118 (OPC)
(AOV-118)
(AOV-118) 2 7-MOV-117 (OPC) 52.0 7 (MOV-117)
- 42. 41 (MOV-117)
MOV-117 removed tit-27-MOV-123 (MOV-123)
(MOV-123) up spacers; x-211A Containment Spray C
10-MOV-34 A (OPCL) 61.28 61.28 10-MOV-38A (OPC) 10-MOV-39A (OPC) x-2118 Containment Spray C
10-MOV-34 B (OPC) 738.56 (Comnined) 202.6 MOV-34b replaced senat 10-MOV-38B (OPC) disc; lapped seat and 10-MOV-39B (OPC) dise; new gasxec; x-212 RCIC Turbine Exhaust C
RCIC-04 (OPC)
>1018 44.91 xCIC-04 & ECIC-05 re-RCIC-05 (OPC)
>1018 138.45 lapped machine dise; 13-Mov-130 13.64 13.64 8 of 9 i
O O
O ATTACHMENF 4A (Cont.)
1981/1982 TYPE B AND C DATA
SUMMARY
Type Equipment / Valves Pre-Repair Post-Repair Penetration No.
Test Tested Leakage (sct/ day)
Leakage tscf/ day 1 kemarts X-214 HPCI Turbine Exhaust C
23-HPI-12 (OPC) 291.66 291.66 23-HPI-t:5 (OPC)
>1018 40.97 HPI-65 lapped seat and disc; rebuilt bacKaeats 2-217 HPCI Turbine Exhaust Vent C
2 3-MOV-59 (OPC) 18.37 18.37 23-HPI-40 3 (OPC) 23-HPI-402 X-218 Leak Rate Analyzer C
LRA-13 (OPC)
< 1.02 (LRA-13)
< 1.02 (LRA-13)
LRA-14 (OPC)
(LRA-14)
(LRA-14)
AOV-102A
<1.02 (AOV-102 A)
< 1.02 (AOV-102A)
AOV-10 2B (AOV-10 2B)
(AOV-1028)
X-220 Drywell CAD C
27-AOV-132A 2.4 8 (AOV-132A) 2.4 8 (AOV-132A)
Inert and Purge CV-67 (CV-67)
(CV-67) l 27-AOV-132B 85.56 (AOV-132B) 8 7.87 (AOV-1328)
CV-70 lapped seat and l
CV-70 (CV-70)
(CV-70) and piston; new gas-27-AOV-115 14.71 (AOV-115) 14.71 (AOV-115)
Aets; replaced aise 27-AOV-110 (ADV-116)
(AOV-114)
X-221 Condensate from C
13-RCIC-07 1.35 1.35 RCIC Turbine 13-kCIC-0 8
<1.02
<1.02 X-231 Elect B
- O* rings
<0.025
<0.025 i
9 of 9 i
4
ATTACHMENT 4B
("S PRIMARY CONTAINMENT BOUNDARY MODIFICATIONS The following JAFNPP Primary Containment boundaries were modified during the 1981/1982 refueling outage.
1.
Penetrations modified to provide taps for the H2 Monitoring System:
a.
x-58B A
manual valve (CAD-214) and cap are currently installed.
SOV-122F1 and SOV-122F2 will be tied in later.
- b. x-58C A
manual valve (CAD-215) and cap are currently installed.
SOV-120F1 and SOV-120F2 will be tied in later.
c.
x-58D A
manual valve (CAD-216) and cap are currently installed.
SOV-123F1 and SOV-123F2 will be tied in later.
- d. x-59 A
manual valve (CAD-207) and cap are currently installed.
SOV-123El and SOV-123E2 will be tied in later.
e.
x-26A Manual valves (CAD-204, CAD-205, and CAD-206) and O-caps are cur *ently installed.
SOV-120El, SOV-120E2, SOV-119F1, SOV-119F2, SOV-122El, and s-SOV-122E2 will be tied in later.
- f. x-203A A manual valve (CAD-201) and cap are currently installed.
SOV-119El and SOV-119E2 will be tied in later.
g.
x-203B Manual valves (CAD-202 and CAD-203) and caps are currently installed.
SOV-124E1, SOV-124E2, SOV-124F1, and SOV-124F2 will be tied in later.
2.
Instrument lines added:
a.
Level taps for monitoring Torus water level were added at penetrations x-206C1, x-206C2, x-206A1, x-206A2, x-206B1, and x-206D1.
b.
Pressure and level taps were added at penetrations x-26A and x-26B.
O)
(
Page 1 of 2
l ATTACHMENT 4B (CON'T) 3.
Vent and Purge lines added:
g a.
x-205, upstream of MOV-117.
b.
x-26A & B, upstream of MOV-122.
4.
A new drywell electrical penetration, x-lOOD, was added for
[
the H.R. Containment Rad. Monitoring System.
{
I l
t i
f t
{
t t-l l
1 Page 2 of 2 lc
d x
V ATTACHMENT 4C 1980 TYPE b AND C DATA SbMMARY Type Equipment / Valves Pre-Repair Post-Repair Penetration No.
Test Tested Leakaae (set / day)
Leakage (scf/daV)
Remarks Drywell Stabilizer 0*
(GE-90*)
B "O" rings 0.102 0.102 45* (GE-135*)
B
- O" rings 0.102 0.102 90* (GE-1808)
B
- O*
ring s 0.104 0.102 135* (GE-225*)
B
- O" rings 0.102 0.10 A 180 * (GE-2708) a "O" rings 0.102 0.102 225* (GE-315*)
B
- O" rings 0.102 0.10 2 270* (GE-0 *)
B
=0* rings 0.102 0.102 315* (GE4 b*)
B "O" rings 0.102 0.10 2 Dry Well Head B
"O" rings
<1.02
<1.02 X-1A Equipment and Emergency Escape Hatch B
"O" rings 0.54 0.54 X-1B Equipment Hatch B
=0* rings
<0.102
<0.102 X-2A Personnel Access Hatch B
"O" rings 0.40s 0.408 X-4 Drywell Head Mannole B
- O*
rings
<0.102 0.102 l
A-6 CRD Removal Hatch B
"O" rings
<0.102
<0.102 X-7A *A* Main Steam Line C
29-AOV-80A (IPC) 43d.21 (cr=ninea) 238.21 "A* and "B" main Steam 2 9-AOV-86A (OPC)
Lines were test.ed at the beginning or the 1
outage. See site reterence local lear 1
rate progress log for i
retest information.
X-78
- B* Main Steam Line C
29-AOV-80B (IPC) 2.84 (Combined) 2.84 2 9-AOV-86B (OPC)
X-7C *C" Main Steam Line C
29-AOV-80C (IPC) 715.65 (Combined 98.75 AW-86C replaced 29-AOV-86C (OPC) packing and lantern i
ring; i
X-7D "Da Main Steam Line C
29-AOV-80D (IPC)
>1018 ( N ined) 5.67 AOW-86D ground and 29 AOV-86DIUPC) lapped; repacked stem; replaced Donnet to Dody gasRet; 1 of 8
t
\\,
\\
(
ATTACHME.tfr 4C (Cont.)
1900 TYPE B AND C DATA SuletART Type Equignaent/ Valves Pre -Repair Post-Repair Penetration No.
Test Tested Leaxage (set / day 1 Leakage (sct/ day)
Remarxs X-ts Condensate Drain C
29-MOV-74 (IPC) 29.78 29.78 2 9-MOV-77 (OPC)
<1.02
<1.02 X-9A Feedwater C
3 4-FWS-28A (IPC) 40.52 40.52 13-MOV-21 (OPC)
< 1.02 (MOV-21)
<1.02 559-41) 34-NRV-111A (OPC)
(NRV-111A)
(NRV-111A)
RWC-62 (OPC)
(Rt#C-6 2)
(RWC-62) 1-9B Feedwater C
34-FwS-28B (IPC) 51.71 51.71 23-MOV-19 (OPC)
>1018 (MOV-19) 8.81990V-19)
NRV-111b replaceo 34-NRV-111B (OPC)
(NRV-1111s)
(NRV-111B) buaninga; lapped disc; X-10 Steam to RCIC Turbine C
13-MOV-16 (IPC)
>1018 (Combined) 0.102 MOV-15 repaired alsc; 13-MOV-15 (OPC) 0.113 lapped; repacxed; X-11 Steam to HPCI Turbine C
23-MOV-15 (IPC)
< 1.02 (Cbabined)
<1.02 23-MOV-16 (OPC) 23-MOV-60 (OPC)
X-12 Shutdown Supply to RHR C
10-MOV-17 (IPC) 512.56 In1.35 MOV-17 & MOV-18 10-MOV-18 (OPC)
> 1018
<1.02 ad3usted torque; X-13A RHR Return C
10-MOV-27A (OPC)
>101d 179.68 MOV-27A no repair was 10-MOV-25A (OPC) 18.07 18.07 performed) Pronien j
was with valve line-up; X-13B RHR Return C
10-MOV-27B (OPC) 823.0 80.62 MOV-27B lapped seat 10-MOV-25B (uPC) 100.8 100.8 ring body; lapped nody and nonnet surtaces; replaced disc ar.d stem assembly and gaastets; X-14 RWCU Supply to C
12-MOV-15 (IPC) 0.102 0.74 MOV-16 6 Mov-e0 gross Recirculation Pumps 12-MOV-18 (OPC)
>1018 (MO#-18) 9.93 (MOV-18) pre-repaiz leamage 12-MOV-80 (OPC)
(MOV-8 0)
(MOV-80) caused ny leaxage at MOV-15; MuV-15 replaced pacxing; X-16A Core Spray Pump Discharge C
14-MOV-11A (OPC) 0.96't 0.967 AOV-13A adjusted 14-MOV-12A (OPC) 9.65 9.65 operator; tagntened bonnet; X-16B Core Spray Pump Discharge C
14-seOV-11B (OPC) 0.03 0.63 14-MOV-12B (OPC) 4.54 4.54 14 -ADV-138 94.9 94.9 2 of 8
O O
O ATTACHMENT 4C (Cont.)
1980 TYPE B AND C DATA
SUMMARY
Equi anent/ Valves Pre-Repair Post-Repair Type t
Penetration No.
Test Tested Leakage (set / day 1 Leakage (set / day)
RaunarKs X-17 RPU Head Spray C
10-MOV-32 (IPC)
<0.102
<0.102 10-MOV-33 (OPC)
>102 0.102 MOV-33 lapped dise; replaced gaaxes and packing; X-18 Floor Sump Pump Discharge C
2 0-MOV-82 (IPC)
< 0.102
<0.102 20-MOV-8 3 (OPC)
<0.102
<0.102 X-19 Equipment Sump C
20-MOV-94 (IPC)
<0.102
<0.102 Pump Discharge 20-AOV-95 (OPC) 10.6 10.6 X-21 Service Air C
39-SAS-10 (IPC)
>1018 0.102 has-10 cleaned piston 3 9-SAS-9 (OPC)
<1.02
< 1.02 seat area and covez; new gasket; X-22 Instzument Air C
I AS-22 (IPC) 150.7 150.7 IAS-22 (513) cleaned; IAS-21 (OPC) 0.102 0.102 I AS-23 (OPC) 0.102 0.102 X-23 Cooling Water Supply C
4 6-ESW-16B (OPC)
>1018 1.36 ESh-ItB replaced disc 15-RBC-24 A (OPC) 0.102 0.102 and gaaxet; X-24 Cooling Water Supply C
4 6-ESW-16A (OPC)
<0.102
<0.10 2 RBC-23a lapped seat ano 15-RBC-24B (OPC)
< 0.102
<0.102 gate; replaced gaaxet; X-25 Drywell Inerting and C
27-AOV-111(OPC) 6.1 (AOV-111) 6.1 (AUV-111)
CAD and Purge X-71 27-AOV-112 (OPC)
(AOV-112)
(AOV-112) 27-AOV-131A (OPC)
> 1080 (AOV-131A) 23.30 (AOV-131A)
AOV-131A relapped plug CV-69 (CV-68)
(CV-08) and atesa; replaced seat 27-AOV-1316 (OPC) 19.80 (AOV-1318) 19.bO (A0V-1318) ring ano bonnet gasket; CV-69 (CV-69)
(CV-69)
CV-68 replaced valve; X-26A Containment Atanospheric C
27-SOV-120A (OPC) 4.27 4.27 SOV-120b 6 SOV-121A Sampling 27-SCV-120B (OPC)
>1018 0.146 reunoved rust trosa 27-SOV-122A (OPC)
< 0.102
<0.102 seats replaced o-ring; 27-SOV-122B (OPC) 4.06 4.06 27-SOV-121A (OPC) 61.94 0.102 27-SOV-121B (OPC) 2.48 2.48 X-26A,X-26B Containment Vent and C
27-AOV-113 (OPC) 54.15 (Canbined)
<0.102 AOV-114 cleaneo; Purge 27-AOV-114 (OPC) roplaced tlange gasxets; 27-MOV-113 (OPC) installed new elastosner T-ring; 3 ot 8
ATTACHMENT #C (Cont.)
1980 TYPE B AND C DATA SUMMAkY Type Equipment / Valves Pre-Repair Pcat-Repair
>wnetration No.
Test Tested M akage (set / day 1 Leaxace tscf/dayn Remarxs X-3 TAC "A" Recirculation Pump C
0 2-xWh-13A (IPC)
> 1016 04.69 RhR-13A b kWR-40a Mini Purge 0 2-RwR-40A (OPC) 40.92 11.04 lapped and cleaned; replaced connet gasxete; X-31AD Drywt ll Inert and Purge C
27-SOV-135A (OPC) 11.19 6.5 SOV-135A replaceo 2 7-SOV-13 5B (OPC) 13.2 2.3 o-ring; SOV-135a rebuilt valve; X-31Bc "B" Recirculation Pump C
0 2-RNR-13B (IPC) 44.5 1.02 Rha-138 repl.ced Mini Purge 0 2-RWR-40B (OPC) 5.97 5.97 valve; X-35A TIP Probe C/B Ball Valve (OPC) 28.03 28.09 "O" ring (OPC) 0.102 0.102 X-35B TIP Probe C/B Ball Valve (OPC) 1.9 1.9 "O" ring (OPC) 0.102 0.101 X-35C TIP Probe C/B Ball Valve (OPC) 6.10 6.16 "O" ring (OPC) 0.16 0.10 X-35D TIP Probe C/B Ball Valve (OPC) 11.6 11.6 "O" ring (OPC) 0.133 0.133 X-35E TIP Purge C/B TP-1 (OPC) 0.188 0.188 "O" ring (OPC)
- 0. 160 0.160 X-36 CRD Return C
CRD-113 (IPC) 6.08 6.08 CRD-110 (OPC) 24.84 24.84 X-39A Containment Spray C
10-MOV-26A (OPC) 133.35 (Combined)
<1.02 MOV-26A lapped alsc; 10-MOV-31A(OPC) replaced seat ring; RHR-52A (OPC)
RhR-52A laged disc; X-39B Containment Spray C
10-MOV-2bB (OPC)
>1018 (ConDined) 63.12 MOW-2ba reLullt disc; 10-MOV-31B (OPC) replaced seat rings and j
RBR-52B (OPC) bonnet gasket; X-41 Recirculation Loop Sample C
02-2-AOV-39 (IPC) 9.6 9.6 02-2-AOV-40 (OPC) 1.02 1.02 X-42 Standby Liquid Control C
11-SIC-17 (IPC) 14.66 14.66 11-514-16 (OPC) 17.05 17.05 4 of 8 b
qO d
\\
ATTACHMENT #C (Cont.)
1980 TYPE B AND C DATA Sus 9!ARY Type Equipment / Valves Pre-kepair Post-Repair Penetration No.
Test Tested Leakaqe (set / day 1 Leaxace iscf/ day 1 Remarks X-45 Leak Rate Analyzer C
16-1-AOV-101A
- 0. 44 ( AOV-101A) 0.44 (A0W-101A) 16-1-AOV-101B (noV-101B)
(Aow-101B)
LRA-20 (OPC)
<0.102 (LRA-20)
<0.102(LRA-20)
LRA-21 (OPC)
(LRA-21)
(1.RA-21)
X-55b Drywell CAD Inert C
27-SOV-125A (OPC)
<0.104
<0.102 Suw-125B replaced and Purge 27-SOV-125B (OPC)
> 1018 8.3 disc and Dody 0-ring; X-59 Drywell CAD Inert C
27-SOV-12 3A (OPC) 1.43 1.43 and Purge 27-SOV-123B (OPC)
>1018 26.2 SOV-123b replaceo Dody o-ring with insert and new discs X-61 Breathing Air C
BAS-5 (IPC)
<1.02
<1.02 BAS-4 (OPC)
<1.02
<1.02 X-62 Drywell Cooling Return C
RBC-26B(OPC)
>1018
<0.102 RDC-263 lapped seat and globe; repacxed; replaced gastet; X-63 *B* Recirculation Pump C
15-RBC-21A (OPC)
<0.102
<0.10 2 RbC-20A lapped seat MTR Cooling Supply 46-ESW-15B (OPC) 31.2 31.2 replaced gasmet; X-64 "A" Recirculation Pump C
15-RBC-22A (OPC)
> 1018
< 0.102 RBC-22A lapped seat and MTR Cooling Return globe; replaced gaskets l
X-65 Equipment Drain Pump C
15-RBC-33 (OPC) es3.5 483.5 RBC-33 replaced globe Clr Return ana gastet; X-66 "A" Drywell Clr C
15-RBC-26A(OPC)
<0.102
<0.102 Assemnly Return X-67 "A" Recirculation Pump C
15-RBC-218 (OPC)
- 0. 10 2 0.102 NTR Cooling Supply 46-ESW-15A (OPC) 1.02 1.02 X-68 *B" Recirculation Pump C
15-RBC-22B (OPC)
>1018
<0.102 kaC-22b lapped disc to MTR Cooling Return seats replaced gasket; X-100A Elect B
"O" rings 0.0010 0.0010 X-100B Elect B
"O" rings 0.0000 0.0000 X-100C Elect B
- O* rings 0.21 0.21 5 of d 1
g ATTACHMENT 4C (Cont.)
1980 TYPE b AND C DATA
SUMMARY
Type Equipment / Valves Pre-Repair Post-Repair Penetration No.
Test Tested Leaxa:3e (set / day 1 Leakacae f act/ day)
Remarks X-100F Liect B
"O" rings 0.17 0.17 X-100G Elect B
"O" rings 0.013 0.013 X-100K Elect B
"O" rings 0.0000 0.0000 X-101A Elect B
"O" rings 0.0015 0.0015 j
X-101B Elect B
"O" rings 0.0005 0.0005 X-101C Elect B
"O" rings 0.0005 0.0005 X-101D Elect B
"O" rings 0.0000 0.0000 j
X-101E Elect B
"O" rings 0.0000 0.0000 X-101F Elect B
"O" rings 0.0010 0.0010 X-103A Elect B
- O* rings 0.1273 0.1273 X-103B Elect B
"O" rings 0.038 0.038 X-104C Elect B
"O" rings 0.0000 0.0000 j
X-104D Elect B
"O" rings 0.0010 0.0010 X-104E Elect B
"O" rings 0.0000 0.0000 X-106A Elect B
"O" rings 0.0010 0.0010 X-106B Elect B
- O* rings 0.0000 0.0000 X-107 Elect B
"O" rings 0.0000 0.0000 X-108 Elect B
"O" rings 0.0000 0.0000 X-109 Elect B
"O" rings
<0.102
<0.102 X-110C Elect B
- O" rings 0.031 0.031 X-1100 Elect B
"O" rings 0.93 (0.102 X-111B Elect B
"O" rings 0.0015 0.0015 X-200A Torus Access B
"O" rings
<0.102
<0.104 1
6 ot 8 i
I
U J
t ATTACHMENT 40 (Cont.)
1990 TYPE B AND C DATA
SUMMARY
Equipment / Valves Pre-Repair Post-Repair Penetration No2 Test Tested Leakage (set / day)
Leaxace f acf / day)
Remarks X-2003 Torus Access B
- O" rings
< 0.'10 2
<0.102 X-200C Torus Access B
"O" rings (0.102
<0,102 X-202BG vacuum Breaxer C
27-AOV-101B (OPC)
<0.102 (AOV-1018)
<0.102 (sov-1018)
VB-7 (OPC)
(VB-7)
(VB-7) 2 7-AOV-101A (OPC)
<0.10J (AOV-101A)
<0.102 (AOV-101A)
VB-6 (OPC)
(VB-6)
(VB-6)
X-202E Vacuum Breaker C
13-MOV-130 (OPC) 7.65 7.65 e
X-202F Vacuum Breaker B
"O" ring (VB-1) 11.96 11.96 X-202G Vacuum Breaker B
"O" ring (VB-2) 23.31 23.31 X-202H Vacuum Breaker B
- O* ring (VB-3) 73.3 1.03 VB-3 replaced all packing and o-ring seals in totn sturfing ooxes; X-202I Vacuum Breaxer a
"O" ring (VB-4)
<0.104
<0.102 X-202J Vacuum Breaker B
- O* ring (Jb-5) 27.79 27.79 X-203A O, Analyzer Sample C
27-SOV-119A (OPC) 1.08 1.08 27-SOV-1198 (OPC) 0.38 0.38 X-203B O, Analyzer Sample C
27-SOV-124A (OPC) 0.4 0.4 27-SOV-12 4B (OPC) 0.48 0.48 X-205 Drywell Inert CAD C
27-AOV-117 (OPC) 18.07 (Comnined) 1s.07 and Purge 27-AOV-118 (OPC) 27-se0V-117 (OPC)
X-211A Containment Spray C
10-MOV-34A (OPC) 19.05(Combined) 19.05 10-MOV-38A (OPC) 10-MOV-39A (OPC)
X-211B Containment Spray C
10-MOV-34 B (OPC) 380.2(Combined) 312.02 MOV-38B replaced disc, 10-MOV-38 B (OPC) seat ring and bonnet 10-MOV-39B (OPC) gasket; 7 of 8
J ATTACHMENT #C (Cont.)
1980 TYPE B AND C DATA
SUMMARY
Type Equipment / Valves Pre-Repair Post-Repair Penetra* ion No.
Test Tested Leakage [ set / day)
Leaxace (scf/dayl Remarks 1-212 RCIC Turbine Exhaust C
RCIC-04 (OPC)
>1018 3.25 RCIC-04 lapped Loth RCIC-05 (OPC)
>1018 30.18 disc and seats replaced gasket; RCIC-OS replaced 72n harger, nut holder, gasket, disc, and disc ringi emory clothed seat mmbers; X-214 HPCI Turnine Exhaust C
23-HP t-12 (OPC) 170.00 121 BPI-12 polianed seats 2 3-MP1-65 (OPC)
> 1018 576.10 replaced gasset; BPI-65 replaced disc holder; lapped disc; replaced gasmet and pin plug gasmet; X-217 HPCI Turbine C
23-MOV-59 (OPC) 30.54 (Combined) 30.54 Exhaust Vent 23-HPI-403 (OPC) 23-BPI-402 X-218 Leak Rate Analyzer C
LRA-13(OPC) 0.640 (LRA-13) 0.b46(LRA-13)
LRA-14 (OPC)
(LRA-14)
(LRA-14)
AOV-102A 3.914 (AOV-102A) 3.914 (AoV-102A)
AOV-1028 (AOV-1028)
(AOV-1028)
X-220 Drywell CAD Inert C
27-AOV-132A 253.0 (ADV-132A) 11.8 (ADV-132A)
CV-07 6 CV-70 cla-and Purge CV-e7 (CV-67)
(CV-67) assembled; cleanea 27-AOV-132B 134.0 (ADV-132B) 27.2 ( ADV-132m) piston and seats CV-70 (CV-70)
(CV-70) resurfaced piston ano 27-AOV-115 2.8 (AOV-115)
J.8 (AOV-115) lapped into seat; 27-AOV-116 (AOV-110)
(t.OV-110) replaced Donnet gasxet; X-221 Condensate from RCIC C
13-RCIC-07 22.8 22.8 Turbine 13-RCIC-08 4.1 4.1 X-231 Elect B
"O" rings (0.102
<0.104
+
4 8 of 8