Text

Reactor Containment Bldg Integrated Leak Rate Test Sequoyah Nuclear Plant Unit 1 Conducted 931217-20
	ML20064M088
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Site:	Sequoyah
Issue date:	03/07/1994
From:	Bodine F, Justice W, Chris Miller; TENNESSEE VALLEY AUTHORITY
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REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST SEQUOYAH NUCLEAR PLANT UNIT 1 CONDUCTED DECEMBER 17-20, 1993 DOCKET NUMBER 50-327 PREPARED BY:

TENNESSEE VALLEY AUTHORITY SEQUOYAH NUCLEAR PLANT P. O. BOX 2000 SODDY-DAISY, TENNESSEE 37379 i

i PL355202/3821/p1 9403280098 940321 PDR ADDCK 05000327 P

PDR J

l Page 2 of 88 h

REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST SEQUOYAH NUCLEAR PLANT UNIT 1 CONDUCTED DECEMBER 17-20, 1993 TEST REPORT PREPARED BY:

REVIEWED BY:

AM APPROVED BY:

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DATE APPROVED:

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SUBMITTED TO:

THE UNITED STATES NUCLEAR REGULATORY COMMISSION PURSUANT TO FACILITY OPERATING LICENSE PL355202/3821/p2

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TABIL )F CONTENTS SECTION HIJJ PAGE

1.0 INTRODUCTION

4 2.0

SUMMARY

5 3.0 TEST PURPOSE AND RESULTS 5

3.1 Test Purpose.

5 3.2 Test Results.

5-8 4.0 CONDUCT OF TEST.

9-10 5.0 MEASUREMENTS AND CALIBRATIONS.

10 5.1 Test Equipment 10 5.2 Sensor Location.

. 10-11 5.3 Computer-Based Date. Acquisition and Data Reduction.

11 5.4 Reactor Building Containment Model.

. 11-12 6.0 ANALYSIS OF TEST DATA.

12 6.1 Instrument Check.

12 6.2 Discussion of Graphical and Tabular Results For The CILRT.. 12-13 6.3 Discussion of Agreement (Verification Test).

13

7.0 CONCLUSION

S.

13 APPENDICES A.

Stabilization Phase.

. 14-16 B.

CILRT Graphs.

. 17-31 C.

CILRT Tabular Data.

. 32-38 D.

Verification Graphs.

. 39-53 E.

Verification Test Tabular Data.

. 54-57 F.

Verification Test Analysis.

. 58-59 G.

Penetrations Inservice During CILRT.

. 60-61 H.

Leak Rate Calculations Due to Sump Level.

. 62-63 I.

Computer System Block Diagram.

. 64-65 J.

Compartment Parameters and Instrument Locations.

. 66-67 K.

Instrumentation Specifications

. 68-69 L.

Local Leak Rate Tests Conducted From Cycle 5 to Cycle 6.

. 70-88 i

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$1

1.0 INTRODUCTION

As prescribed in Sequoyah Nuclear Plant (SQN) Unit 1 Technical Specification 4.6.1.2, the leakage of air from the boundary forming the reactor building primary containment is limited to 0.25 percent by weight of the containment air mass per day at a pressure of Pa (i.e. 12.0 psig).

In conformance with Title 10, Code of Federal Regulations (CFR), Part 50, Appendix J, SQN Technical Specifications require that a reactor building containment integrated leak rate test (CILRT) be performed as part of the surveillance progran to demonstrate the continuing leak-tight integrity of the reactor building primary containment.

The fourth inservice reactor building CILRT was successfully completed on SQN Unit 1 by TVA personnel on December 17-20, 1993. This test was conducted in accordance with plant approved surveillance inotructions 1-SI-SLT-088-156.0 and 1-PI-SLT-000-156.0, which are on file at the plant site. These sis implement the requirements of SQN Unit 1 Technical Specifications and 10 CFR 50, Appendix J.

The American National Standard for Containment Testing, ANSI 45.4-1972, the American Nuclear Society for Containment Testing, ANS 56.8, and the procedure outlined in Bechtel's topical report, " Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants" (BN-TOP-1, Revision 1) provided guidance for the procedures implemented by the SI and PI.

SQN Unit 1 is a 3,411 megawatt thermal, pressurized water reactor employing an ice condenser pressure suppression containment. The Final Safety Analysis Report defines the calculated peak accident pressure, Pa, to be 12.0 psig. The reactor building containment is divided into three major compartments for the CILRT analysis--the ice condenser houses the energy absorbing ice beds and supporting machinery for the ice condenser systems, the lower compartment which contains the reactor and main piping systems, and the upper compartment which provides for a large work area within containment and also can accommodate the displaced air mass from the other compartments in the unlikely event of a loss-of-coolant accident (LOCA). These three compartments are connected by means of blowout panels located between the ice condenser and the upper / lower compartments.

In the event of a LOCA, steam flows from the lower compartment through the ice condenser compartment and into upper containment. The upper compartment is sealed from the lower compartment to ensure that any steam released in an accident will be forced through energy absorbing ice beds. For the performance of the CILRT, the lower compartment and upper compartments were not sealed from each other to promote the free flow of air in containment.

This report outlines the objectives, principal events, special equipment used, and analysis of the test results for the CILRT conducted on December 17-20, 1993, on SQN Unit 1.

In addition, a 1

summary of local leak rate tests conducted since the previous CILRT is

)

included in Appendix L.

j

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2.0

SUMMARY

The SQN Unit 1 inservice CILRT was conducted on December 17-20, 1993, in conjunction with the Cycle 6 refueling outage. The CILRT was successfully completed in 13 hours1.50463e-4 days <br />0.00361 hours <br />2.149471e-5 weeks <br />4.9465e-6 months <br /> and 10 minutes and included 80 data points.

The calculated Total Time Leak Rate (TTLR) for the CILRT was 0.1333%/ day. The associated reportable "as found" leak rate, which includes the upper confidence limit (UCL), the Type B and C leakage rates for systems in service during the CILRT, the leakage savings and leakage rate compensation for water level changes not accounted for by the CILRT computer system was 0.2416%/ day. The "as left" leakage rate, including the UCL, leakage rates (Type B and C) of systems inservice during the CILRT, and leak rate compensation for water level change was 0.1742%/ day.

The "as found" mass leak rate (MLR) for the CILRT was 0.1980%/ day. The reportable "as left" leak rate was 0.1306%/ day.

These two values reflect the add on leakage adjustments described for the TTLR calculation.

The verification test agreement was -3.3590% for TTLR by A;pendix J method and -2.2206% by BN-TOP-1 calculation. The MLR verification agreement by Appendix J method was 4.0515% and 2.5842% by BN-TOP-1 procedure. The allowable agreement is A25.0%.

Graphical and tabular data for the CILRT and verification test are included in Appendices A-F.

3.0 IEST PURPOSE AND RESULTS 3.1 Itst Purpose The objective of the inservice CILRT was to demonstrate the continuing leak tight integrity of the Unit i reactor building containment for return-to-power operation.

For SQN Unit 1, the leak-tight integrity is defined in Technical Specification 4.6.1.2 to be that the leakage of air from containment is not to exceed 0.1875%/ day at peak accident pressure Pa (12.0 psig).

3.2 lest Results NOTE:

CILRT and verification test graphical and tabular data are included in Appendices A-F.

i

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Page 6 of 88 3.0 IESI_fERf0SE AND RESULIS (continued) 3.2 Imst Results (continued)

Pressurization was started at 2238 on December 17, 1993. During pressurization, pressurizer level was reported to be dropping and at 2357 pressurization was stopped to evaluate this situation.

Apparently an air void existed in the reactor coolant system.

If oweve r, it was determined that compression of the air void would not affect test results since equilibrium with containment ambient pressure would exist. During the remainder of pressurization, make up to the reactor coolant system continued to maintain pressurizer level constant. Pressurization was completed at 0940 on December 18, 1993. The stabilization phase was started at 0956. During stabilization, a difference in control room containment pressure and CILRT data acquisition system containment pressure was noted.

Investigation revealed the calibrated data for the atmospheric pressure gauge, which is part of the CILRT test system, had been entered incorrectly.

After reentering the calibration data, the CILD.T test system indicated a containment pressure of 13.32 psig.

This pressure was greater than that specified by the test procedure but was below the ASME Section 8 Paragraph UG 100 limit of 13.5 psig.

The decision was made to continue the test sequence at the current pressure since any possible effects or results would be in the conservative direction. The temperature stabilization phase was ended at sample 29 after four and one-half hours of data.

Temperature stabilization was 0.0624'F/ hour, which was only 12.5% of the allowable 0.5'F/ hour.

The test phase was started at sample 30 at 1426 on December 18, 1993. At 1456, it was reported that a penetration used to supply ice during outages (X-79B) was leaking. The initial set of data was terminated at sample 60 at 1927 on December 18, 1993. The indicated calculated TTLR and MLR of sample 60 were 0.1825%/ day and 0.187%/ day, respectively.

Inspection of the "0" ring seals on X-79B penetration revealed damage (breakage) which had apparently occurred when the penetration flange was replaced approximately two weeks prior to the conduct of the CILRT.

This damage was not detected during the Type B LLRT performed after replacement due to an obstruction (foreign material) in the flange test port. The flange and surfaces were cleaned, the seals were replaced, and the flange retorqued. The possible presence of foreign material in the flange test port is being investigated. The seals were replaced and the flange retorqued. The test was resumed at sample 81 at 0221 on December 19, 1993.

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3.0 IEST PURPOSE AND RESULTS (continued) 3.2 Iem1 Aesulla (continued)

The test continued until sample 160 when the TTLR UCL was

~

0.1742%/ day and the MLR UCL was 0.1306%/ day. The leak rate was increasing slightly at the conclusion of the test.

Ilowever, the TTLR calculated value of 0.1338%/ day, when extrapolated, as described in BN-TOP-1, was 0.1382%/ day which is well within the required acceptance criteria of 0.1875%/ day.

The mean value of the measured total time leak rates over the last five hours of the test period was 0.1169%/ day, which is significantly less than 0.75 La (0.1875%/ day) as required by the termination critoria of BN-TOP-1.

A leak rate of approximately La was established and allowed to stabilize for one hour in accordance with BN-TOP-1 requirements for the verification test.

The verification test started at sample 168 at 1651 on December 19, 1993 with an imposed leak rate of 104,884.4 standard cubic centimeters per minute (SCCM) or 98.6% of the allowable leak rate. The test was concluded satisfactorily at sample 210 at 2354 on December 19, 1993 after seven hours The agreement was well within the limits of 25%.

The TTLR agreement per Appendix J and BN-TOP-1 was -3.3590% and

-2.2206% respectively. The agreement for MLR was 4.0515% and i

2.5842% for the Appendix J and BN-TOP-1 analysis respectively.

The following table presents the tests results as well as the instrument selection guide (ISG) evaluation for post test conditions.

I i

i i

i l

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5 Pege 8 of 88 I

TABLE OF CILRT AND VERIFICATION TEST RESULTS "As Found" and "As Left" Acceptance Criteria is 0.75 La or (0.1875%/ Day)

Post Test ISG 12.9729 Percent La (Using Instrument Accuracy) 2.0830 Percent La (Using Instrument Repeatability)

(25% La Allowable)

As Found Q 1gulAtgj With 95% UCL TTLR 0.2007

%/ Day (l)(2)(3) 0.2416

%/ Day ((1)(2)(3)

MLR 0.1962

%/ Day (1)(2)(3 0.1980

%/ Day l)(2)(3)

As Left La.lcylated With 95% UCL TTLR 0.1333

%/ Day (2)(3) 0.1742

%/ Day (2)(3)

MLR 0.1288

%/ Day (2)(3) 0.1306

%/ Day (2)(3)

CILRT Test Duration 13 Hours 10 Minutes CILRT Number of Samples 80 CILRT Sample Span 81 to 160 Mean Value of Measured TTLR __R21169

%/ Day Verification Test TTLR Agreement

-3.3590 (4) Appendix J TTLR Agreement

-2.2206 BN-TOP-1 MLR Agreement 4.0515 (4) Appendix J MLR Agreement 2.5842 BN-TOP-1 Verification Test Duration 7

Hours O

Minutes Verification Number of Samples 43 Verification Sample Span 168 to 210 TTLR = Total Time Leak Rate MLR = Mass Leak Rate (1)

Reflects leakage savings of 0.0674 percent per day.

(2)

Reflects leakage of systems inservice during CILRT of 0.0000 percent per day.

See Appendix G.

(3)

Reflects adjustment of 0.0000 percent per day due to sump level changes. See Appendix H for calculations.

Sump level influence on leak rate is facilitated by manual collection and evaluation of data.

Pressurizer level changes are automatically monitored by the CILRT computer system and included in computed test results.

(4)

See Appendix F for verification calculations.

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4.0 C.QJJDUCT OF TEST The following is a summary of events from the test log and test procedure for the Unit 1 CILRT.

Dalg

_Tims Event 12/17/93 1400 Completed inspection of Unit 1 containment in accordance with SI-254.

12/17/93 2238 Started pressurization.

12/17/93 2357 Stopped pressurization due to pressurizer level drop.

12/18/93 0021 Pressurizer level drop apparently due to compression of air void in the reactor coolant system.

Pressurizer makeup will be concurrent with pressurization.

12/18/93 0940 Completed pressurization.

12/18/93 0956 Started stabilization phase.

12/18/93 1042 Pressurization spool piece removed.

Compressor is now disconnected from containment.

12/18/93 1100 Began leak checks in annulus. There is a discrepancy of 0.55 psi in the Unit I control room ready for containment pressure and the CILRT data acquisition system.

12/18/93 1340 Investigation into pressure discrepancy revealed calibration for CILRT atmospheric pressure gauge had been entered incorrectly. After reentering the calibration data pressure was 13.32 psig.

This is greater than that specified by the test procedure but is below containment design pressure and ASME Section 8 Paragraph UG 100 limit of 13.5 psig.

12/18/93 1426 Temperature stabilization criteria met.

Started test phase on sample 30.

12/18/93 1456 X-79B reported leaking.

12/18/93 1927 Test stopped at sample 60 to repair X-79B.

Leak rate 0-1825%/ day TZ!.R (calculated) 0.187%/ day MLR (calculated).

12/19/93 0050 Exited containment after epairs to X-79B.

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4.0 CONDUCT OF TEST (continued)

Datt I1E EYant 12/19/93 0200 Restart test at sample 78.

12/19/93 0215 Problem with P3 gauge reading (spike) will restart test at sample 81.

11/19/93 0221 Restart test at sample 81.

12/19/93 0900 Noticed anomaly in P3 reading. Deleted P3 from test data base.

12/19/93 1313 R24 in ice compartment overranged.

Failed R24 from test data base.

12/19/93 1531 Concluded CILRT test phase at sample 160.

12/19/93 1550 Established verification test imposed leak.

12/19/93 1651 Started verification test at sample 168.

12/19/93 1750 AD 10/10 error 21 RS 232 1A timeout to primary computer.

Concurrently bad data warning for dew cell D45. Failed D45 from test data based.

Continuing on one computer.

12/19/93 2354 Terminated verification test.

12/20/93 0142 Started depressurization.

12/20/93 0615 Containment pressure is zero psig.

i 5.0 MEASUREMENTS AND CALIBRATIONS 5.1 Test Eauipment j

Appendix K lists the instrument specification used for the Unit 1 Cycle 6 CILRT. All instruments were calibrated within six months of the CILRT and the temperature and dew point instruments also received an additional "in place" loop calibration after installation in primary containment.

j 5.2 Ernsor LgsallRD Appendix J gives the final volumetric weighing factor for each temperature and dew point sensor based upon a three-compartment model. The associated figures indicate sensor locations. The l

pressure sensors were divided so that two sensors measured each of the three compartments through X-27, X-87A, and X-87D.

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5.0 MEASUREMENTS AND CALIBRATIONS (continued) 5.2 Sensor Locatipn (continued)

Utilizing two pressure sensors per compartment allows the removal of any one malfunctioning pressure gauge during the test and continue to accurately monitor pressure. An additional pressure gauge measured barometric pressure at the test station.

5.3 Computer-Based Lata Acauisition and Data Reduction The raw test data measured by the special test instrumentation

'during the SQN 15it 1 CILRT was scanned and collected by a microprocessor based data acquisition system. The raw test data was automatically presented to a portable minicomputer system for correction to calibration curves and reduction to containment leak rate. The minicomputer produced immediate statistical and graphical results of the containment test parameters, including temperature, pressure, vapor pressure, mass, total time leak rate, and mass leak rate plots.

These calculated results were reported automatically to the test director as the data was collected. Appendix I depicts the functional relationship between the special test instrumentation and the data acquisition and analysis system.

All calculations perforced by the minicomputer system were in conformance with the procedure outlined in ANS 56.8, ANSI 45.4, and Bechtel Topical Report (BN-TOP-1), Revision 1).

Source listings for all computer programs are on file with the Plant Operating Systems Section in Chattanooga, Tennessee.

5.4 Reactor Buildina Containment Model An ice condenser pressure suppression containment presents special problems not normally encountered in the leak testing of dry containment structures. The pressure suppression design feature requires the reactor building containment to be divided into distinct compartments, where vastly different temperatures and vapor pressures may exist. While each compartment ib vented to the containment atmosphere during the performance of the CILRT, the direct circulation of air is limited.

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5.0 MEASUREMENTS AND CALIBRATIONS (continued) 5.4 Rgaetor Buildinn Containment Model (continued)

Since an ice condenser containment typically exhibits a 40*F temperature differential between the ice compartments and others, it is necessary to compensate by compartmentalization so the leak rate is accurately measured. For SQN Unit 1 CILRT, a three-compartment containment model was used to measure the leak rate. The free air mass is calculated individually for each compartment, and containment leak rate is calculated from the sum of the compartmental masses. Each sensor within a compartment is volume weighted for the calculation of compartment average temperature and vapor pressure.

6.0 ANALYSIS Of TEST DATA The previous sections of this report have discussed the general test conduct, calibration methods, and test equipment.

In this section, events and problems that influenced the test results are discussed and are used to formulate conclusions on the performance of the SQN Unit 1, Oycle 6 CILRT.

6.1 Instrument Check The instrument complement for SQN Unit I was 49 RTDs, 13 Dewcells (measure vapor pressure), 1 flow meter (for verification test),

and 9 Mensor quartz pressure gauges (6 containment pressure and one atmospheric pressure gauge).

During testing, 1 pressure gauge, 1 resistance temperature detector, and 1 dew cell instrument had to be failed from the data base due to malfunctioning (i.e. spiking and overranging).

Regardless of these losses, the instrumentation analysis in accordance with the ISG of ANSI 56.8-1987 proved that the instrument system provided excellent performance in determining the leak rate.

See Section 3.2 for test results, l

6.2 Discussign of Craphical and Tabular Results for the CILEI 1

The trends exhibited during the SQN Unit 1 Cycle 6 CILRT were typical of that experienced during past tests on a containment system employing an ice condenser. The trends of measured parameters in the upper and lower compartments uniformly are decreasing. However, the temperature and vapor pressure in the j

ice condenser typically, and in the case of the Unit 1 Cycle 6 i

CILRT, trend upwardly. This phenomenon along with electronic i

i PL355202/3821/p12

Pcge 13 of 88 d'

6.0 AHALYSIS OF TEST DATA (continued) 6.2 Discussion of Graphical and Tabular Results for the CILRT (continued) fluctuation in the instrument system and naturally occurring air currents in containment tend to produce instability in some test results. These influences appear to be the precipitating cause in the slight increase in the leak rate trend, although the extrapolated leak rate (as required and described by BN-TOP-1) was well below 0.75 La.

No operational causes could be discovered to explain the trend and the magnitude of the trend

(+0.002 slope of the leak rate line) was so small that the trend in leak rate had reversed itself (i.e. slope of leak rate line was -0.014) during the verification test.

Other potential sources of instability, such as pressurizer level, which is monitored by the data acquisition and volume corrections made on a real time basis, and the influence of sump level on leak rates are corrected for subsequent to CILRT were found to be too small and not concurrent with the trend in leak rate to have been an influencing factor. Other than the slightly increasing trend in the leak rate toward the end of the test, no significant or unusual observations were recorded for the duration of the CILRT.

6.3 Discussion of Anreement (Verification Test)

Since this test was conducted in accordance with BN-TOP-1, the verification flow was allowed to stabilize for approximately one hour prior to starting the verification phase of testing. The verification test was concluded in seven hours, which is slightly over the duration of one-half the CILRT test phase as required by BN-TOP-1.

No significant problems in data trends were recorded during this phase. Test summary data for the verification test is included in Appendix D, E, and F.

The verification results were within iS%, which is well within the acceptance limit of 125%.

7.0 CONCLUSION

The CILRT performed on SQN Unit 1 Cycle 6 recorded an "as left" leak rates determined by the procedure outlined in BN-TOP-1, of 0.1742%/ Day which is below the limit of 0.1875%/ Day for return to power operation.

The "as found" leak rate was 0.2416%/ Day and included leakage savings of Type B and C tests performed prior to the CILRT. There was close agreement of the TTLR and MLR results, especially when the upper confidence limit is not included which gives credence to the test results produced by each method.

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APPENDIX A STABILIZATION PHASE CONTENTS: REVIEW TEMPERATURE STABILIZATION CRITERIA CONTAINMENT TEMPERATURE PL355202/3821/p14

Page 15 of 88 REVIEW TEMPERATURE STABILIZATION CRITERIA j

SAMPLE ELAPSED AVG RATE OF CHANGE DE J

TIME TEMPERATURE CONTAINMENT TEMP (DEGE/HR) 3 000:00 62.09613 0.0000000 4

000:10 61.97534 0.7247314 5

006: 20 61.89321 0.4928055 6

000:30 61.84287 0.3020096 7

000:40 61.78403 0.3530502 0

000:50 61.75968 0.1461182 9

001:00 61.71555 0.2647705 10 001:10 61.68560 0.1796951 11 001:20 61.64830 0.2238235 12 001:30 61.63092 0.1042557 13 001:40 61.59669 0.2053986 14 001:50 61.57214 0.1473083 15 002:00 61.54669 0.1526642 16 003:10 61.51240 0.2057648 17 002:20 61.48307 0.1759415 18 002:30 61.47151 0.69J9697E-01 19 002: 40 63.44345 0.1683426 20 002:50 61.43080 0.7592010E-01 21 003:00 61.40638 0.1465073 22 003:10 61.39505 0.6000079E-01 23 003:20 61.37648 0.1113968 24 003:30 61.36622 0.6156921E-01 25 003:40 61.35113 0.9054565E-01 26 003:50 61.31921 0.1915283 27 004:00 61.31237 0.4099274E-01 28 904:10 61.27747 0.2094269 29 004:20 61.27706 0.2449036E-02 THE AVG. RATE OF TEMP CHANGE FOR THE LAST 4 HOURS 0.1479730 DEGE/HR,

=

'THE AVG. RATE OF TEMP CHANGE FOR THE LAST HOUR

= 0.8556584E-01 DEGF/HR.

THE TEMP. STABILIZATION CHECK INDICATED A VALUE OF 0.6240717E-01 DEGE/Hk, WHICH IS ONLY 12.48143

% OF THE RECOMMENDED 0.5 DEGF/HR I

STADILITY CHECK INDICATES CONDITIONS ARE FAVORABLE TO PROCEED WITH CILRT.

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i APPENDIX B CILRT GRAPHS CONTENTS: COMPARTMENT TEMPERATURE COMPARTMENT VAPOR PRESSURE COMPARTMENT PRESSURE CONTAINMENT TEMPERATURE CONTAINMENT VAPOR PRESSURE CONTAINMENT PRESSURE CALCULATED TOTAL TIME LEAK RATE CALCULATED MASS LEAK RATE PL355202/3821/p15

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5 10 15 TIME (HOURS) RELATIVE TO BEGINNING OF PHASE COMPARTMENT VAPOR PRESSURE TEST PHASE 4

CMPT. 3 = RED E

0.047

~

y p

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5 10 15 TIME (HOURS) RELATIVE TO BEGINNING OF PHASE COMPARTMENT VAPOR PRESSURE TEST PHASE 6

r CMPT. i

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5 10 15 TIME (HOURS) RELATIVE TO BEGINNING OF PHASE COMPARTMENT ABSOLUTE PRESSURE TEST PHASE

.O

CMPT. 2 = RED E

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5 10 15 TIME (HOURS) RELATIVE TO BEGINNING OF PHASE COMPARTMENT ABSOLUTE PRESSURE TEST PHASE

. ~.

CMPT. 3 = RED E

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p

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5 10 15 TIME (HOURS) RELATIVE TO BEGINNING OF PHASE COMPARTMENT ABSOLUTE PRESSURE TEST PHASE.

n

M l

60.7

,jjjiijj7=

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5 10 15 TIME (HOURS) RELATIVE TO BEGINNING OF PHASE CONTAINMENT TEMPERATURE TEST PHASE

~

i

{

3 0.058 y

p

_y 3y-y 3 y-y-37

=j 3 y 3 y 3 - j-3 y - - 1 1 T~rT 1 T T U;H 1

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5 10 15 TIME (HOURS) RELATIVE TO BEGINNING OF PHASE CONTAINMENT VAPOR PRESSURE TEST PHASE O

e

E-27.58 E

p

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5 10 15 TIME (HOURS) RELATIVE TO BEGINNING OF PHASE CONTAINMENT PRESSURE TEST PHASE e

e 3

.v y

r---

w

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4

=*'s

CALCULATED TOTAL TIME LEAK RATE FOR THE LEAK RATE TEST PHASE E

0.25 y

_ i 3-j- I 1 T I Tl~ T W I I

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5 5

j E

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5 10 15 TIME (HOURS) RELATIVE TO BEGINNING OF PHASE CALCULATED TOTAL TIME LEAK RATE TEST PHASE

CALCULATED MASS LEAK RATE FOR THE LEAK RATE TEST PHASE 8

0.25

_,l rI il 1 FT-T1 1 1 1 i Tn1 i=1 1 T fly E

E

=

~

g A

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2 f

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=

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lI l-I _.LI = 1 l -

LLLLI I-IAL l L L LLLLl 1E

=

0 5

10 15 TIME (HOURS) RELATIVE TO BEE

-ING OF PHASE CALCULATED MASS LEAK RATE TEST PHASE e

t-

Pege 32 of 88 k

APPENDIX C CILRT TABULAR DATA CONTENTS: TOTAL TIME LEAK RATE

SUMMARY

MASS LEAK RATE SUft1ARY PL355202/3821/p16

Page 33 of 88 TOTAL TIME LEAK RATE (TTLR)

SUMMARY

I:

RESULTS USING 80 SAMPLES (SAMPLES T-081 - T-160)

ELAPSED TIME 013:10 FOR THE MEASURED TOTAL TItiE LEAK RATE (%/ DAY) 0.11690 STANDARD DEV.

0.25356E-01 SKEW 0.22973E-02 MEAN =

=

EXTRAPOLATED VALUE =

0.13817

(%/ DAY) WHICH IS 55.267

% OF LA EXTRAPOLATION VALUE MUST Bb LESS THAN 75% OF LA (LA 0.25000

(%/ DAY))

=

INDIVIDUAL SAMPLE TTLR

SUMMARY

3AhPLE ELAPSED MEASURED CALCULATED 95 % UCL FOR CONVERGENCE NO T1hE TTLR (%/ DAY)

TTLR (%/ DAY)

(95%UCL-CALC) 81 000:00 0.0000000 82 000:10

-0.6600320E-02 83 000:20 0.6336307E-01 84 000:30 0.1166057 0.1193925 0.1855219 0.6612940E-01 85 000:40 0.1082453 0.1300703 0.2736323 0.1435620 86 000:50 0.2138504 0.1962495 0.3060841 0.1098346 87 001:00 0.9328452E-01 0.1654480 0.3600569 0.1946089 BH 001:10 0.8448410E-01 0.1422841 0.3351818 0.1928978 89 001:20 0.1160006 0.1402981 0.3100022 0.1697041 90 001:30 0.1223259 0.1409120 0.2929446 0.1520326 91 001:40 0.9266850E-01 0.1307305 0.2749355 0.1442049 92 001:50 0.8676420E-01 0.1213333 0.2583033 0.1369699 93 002:00 0.1223259 0.1247501 0.2516775 0.1269274 94 002:10 0.9260756E-01 0.1190371 0.2399375 0.1209004 95 002:20 0.1181457 0.1211085 0.2349522 0.1138437 96 002:30 0.1157256 0.1220696 0.2299774 0.1079078 002:40 0.1087403 0.1211729 0.2242369 0.1030641 bu 002:50 0.1036639 0.1192933 0.2183369 0.9904361E-01 99 003:00 0.1190258 0.1208513 0.2158113 0.9495994E-01 100 003:10 0.1171383 0.1217288 0.2130853 0.9135648E-01 101 003:20 0.1053411 0.1202305 0.2087559 0.8852540E-01 jo2 003:30 0.1052280 0.1189136 0.2048189 0.8590531E-01 l

103 003:40 0.1050051 0.1177286 0.2012090 0.8348041E-01 104 003:50 0.1085896 0.1172751 0.1983901 0.8111498E-01 105 004:00 0.1053301 0.1163530 0.1953751 0.7902205E-01

'06 004:10 0.1002193 0.1147655 0.1920066 0.7724112E-01 107 004:20 0.1105300 0.1148654 0.1901574 0.7539195E-01 100 004:30 0.1229148 0.1166622 0.1901722 0.7350995E-01 109 004:40 0.1162072 0.1176175 0.1894111 0.7179361E-01 110 004:50 0.1119480 0.1190598 0.1892696 0.7020975E-01 111 005:00 0.1088613 0.1185402 0.1873755 0.6883527E-01 110 005:10 0.1212756 0.1195917 0.1870122 0.6742049E-01 11J 005:20 0.1247048 0.1209301 0.1870328 0.6610272E-01 314 005:30 0.1323664 0.1230078 0.1879620 0.6495424E-01 115 005:40 0.1200482 0.1234803 0.1872526 0.6377234E-01 116 005:50 0.1246518 0.1243997 0.1870372 0.6263749E-01 la?

006:00 0.1333631 0.1261502 0.1877734 0.61G2323E-01

!i8 006:10 0.1240503 0.1267621 0.1873679 0.6060575E-01 11 0 006:20 0.1279767 0.1277059 0.2873339 0.5962798E-01

!.0 006:30 0.1191104 0,1276815 0.1964611 0.5877960E-01 121 03G:40 0.1246471 0.1281825 0.1860836 0.5790107E-01 l"-

006:50 0.1234743 0.1285219 0.1855971 0.5707520E-01 i.

007:00 0.1280148 0.1292419 0.185D002 0.5625034E-01 ile 007: 10 0.1340325 0.1304365 0.1859338 0.5548730E-01 125 007:20 0.1287962 0.1310697 0.1850088 0.5473906E-01

, ~ _ _ _

Page 34 of 88 i

TOTAL TIME LEAK RATE (ITLR)

SUMMARY

I RESULTS USING 80 SAMPLES (SAMPLES T-081 - T-160)

ELAPSED TIME 013:10 FOR THE MEASURED TOTAL TIME LEAK RATE (%/ DAY)

M E..

0.11690 STANDARD DEV.

0.25356E-01 SKEW =

0.22973E-02

=

EXTRAPOLATED VALUE =

0.13817

(%/ DAY) WHICH IS 55.267

% OF LA EXTRAPOLATION VALUE MUST BE LESS THAN 75% OF LA (LA 0.10641E+0L (%/ DAY))

=

INDIVIDUAL SAMPLE TTLR

SUMMARY

SAMPLE ELAPSED MEASURED CALCULATED 95 % UCL FOR CONVERGENCE NO TIME TTLR (%/ DAY)

TTLR (%/ DAY)

(95%UCL-CALC) 126 007:30 0.1264915 0.1314481 0.1854883 0.5404024E-01 127 007:40 0.1232825 0.1315198 0.1849323 0.5341254E-01 128 007:50 0.1228783 0.1315451 0.1843612

0. 5 2';1611 E-01 129 008:00 0.1137455 0.1308231 0.1832792 0.5245610E-01 130 008:10 0.1255408 0.1310783 0.1829351 0.5185600E-01 131 008:20 0.1171689 0.1306594 0.1820829 0.5142350E-01 132 008:30 0.1312817 0.1313371 0.1821715 0.5083440E-01 133 008:40 0.1337326 0.1321473 0.1824145 0.5026715E-01 134 000:50 0.1265020 0.1023687 0.1821164 0.4974769E-01 135 009:00 0.1282662 0.1326973 0.1819289 0.4923157E-01 r

136 009:10 0.1297263 0.1331031 0.1818274 0.4873429E-01 i

137 009:20 0.1275276 0.1333256 0.1815779 0.4825230E-01' 438 009:30 0.1220480 0.1331548 0.1810280 0.4787320E-01 139 009:40 0.1237446 0.1331030 0.1805780 0.4747500E-01 140 009:50 0.1244216 0.1330941 0.1801724 0.4707824E-01 141 010:00 0.1263961 0.1332095 0.1798783 0.4666884E-01 1

010:10 0.1273754 0.1333765 0.1796390 0.4626243E-01 193 010:20 0.1239796 0.1333161 0.1792256 0.4590946E-01 144 010: 30 0.1245260 0.1332887 0.1788466 0.4555796E-01 145 010:40 0.1241273 0.1332344 0.1784554 0.4522103E-01 14G 010:50 0.1195369 0.1329030 0.1778723 0.4496939E-01 l

147 011:00 0.1222059 0.1327434 0.1774150 0.4467167E-01 148 011:1'O 0.1227462 0.1326200 0.1769913 0.4437134E-01 149 011:20 0.1266291 0.1327229 0.1767553 0.4403239E-01 i

150 011:30 0.1289454 0.1329489 0.1766346 0.4368575E-01 151 011:40 0.1225774 0.1328044 0.1762180 0.4341434E-01

'152 011:50 0.12 516 t. 4 0.1328066 0.1759218 0.4311520E-01 153 012:00 0.1245360 0.1327711 0.1756014 0.4283032E-01 154 012:10 0.1256954 0.1327971 0.1753365 0.425393GE-01 ISS 012:20 0.1279570 0.1329391 0.1751756 0.4223654E-01 156 012:30 0.1264797 0.1329946 0.1749478 0.4195324E-01 157 012:40 0.1321627 0.1333383 0.1749052 0.4164696E-01

.158 012:50 0.1242403 0.1333605 0.1746644 0.4140390E-01 159 013:00 0.1258630 0.1332653 0.1744129 0.4114766E-01 160 013:10 0.1268598 0.1333171 0.1742049 0.4088786E-01 L

n w

w

-n-,

.e

+-

.s

Page 35 of 88 TOTAL TIME LEAK RATE (TTLR)

SUMMARY

RESULTS USING 80 SAMPLES (SAMPLES T-081 - T-160)

ELAPSED TIME 013:10 FOR THE MEASURED TOTAL TIME LEAK RATE (%/ DAY)

MEoN =

0.11690 STANDARD DEV.

0.25356E-01 SHEW 0.22973E-02

=

EXTRAPOLATED VALUE =

0.13817

(%/ DAY) WH ICH IS 55.267

% OF LA EXTRAPOLATION VALUE MUST BE LESS THAN 75% OF LA (LA 0.25000

(%/ DAY))

=

INDIVIDUAL SAMPLE TTLR

SUMMARY

GAMPLE ELAPSED MEASURED MEAN MEASURED CALCULATED DELTA CALC NO TIME TTLR (%/ DAY)

TTLR (%/ DAY)

TTLR (%/ DAY) 81 000:00 0.0000000 82 000:10

-0.6600320E-02 83 000:20 0.6336307E-01

_, _ _, _ _0.2838138E-01

~~

84 000:30 0.1166057 0.5778947E-01 0.1193925 CD 000:40 0.1082453 0.7040342E-01 0.1300703 0.1067786E-01 86 000:50 0.2138504 0.9909280E-01 0.1962495 0.6617922E-01 87 001:00 0.9328452E-01 0.9812476E-01 0.1654480

-0.3080150E-01 80 001:10 0.8448410E-01 0.9617610E-01 0.1422841

-0.2316397E-01 89 001:20 0.1160006 0.9865417E-01 0.1402981

-0.1985982E-02 90 001:30 0.1223259 0.1012844 0.1409120 0.6138980E-03 91 00):40 0.9266850E-01 0.1004228 0.1307305

-0.1018143E-01 92 001:50 0.8676420E-01 0.9918109E-01 0.1213333

-0.9397194E-02 93 002:00 0.1223259 0.1011098 0.1247501 0.3416732E-02 94 002:10 0.9260756E-01 0.1004558 0.1190371

-0.5712971E-02 95 002:20 0.1181457 0.1017194 0.1211085 0.2071351E-02 96 002:30 0.1157256 0.1026531 0.1220696 0.9611696E-03 002:40 0.1087403 0.1030336 0.1211729

-0.8967742E-03 90 002:50 0.1036639 0.1030706 0.1192933

-0.1879536E-02 99 003:00 0.1190258 0.1039570 0.1200513 0.1558028E-02 100 003:10 0.1171383 0.1046508 0.1217288 0.8774698E-03 101 003:20 0.1053411 0.1046853 0.1202305

-0.1498289E-02 102 003:30 0.1052280 0.1047111 0.1189136

-0.1316890E-02 303 003:40 0.1050051 0.1047245 0.1177286

-0.1185067E-02 104 003:50 0.1085896 0.1048925 0.1172751

-0.4534945E-03 105 004:00 0.1053301 0.1049108 0.1163530

-0.9220541E-03 106 004:10 0.1002193 0.1047231 0.1147655

-0.1587495E-02 107 004:20 0.1105300 0.1049465 0.1148654 0.9987503E-04 108 004:30 0.1228148 0.1056082 0.1166622 0.1796849E-02 100 004:40 0.1182872 0.1060611 0.1176175 0.9552017E-03 110 004:50 0.1229480 0.1066434 0.1190598 0.1442358E-02 111 005:00 0.1088613 0.1067173 0.1185402

-0.5196258E-05 112 005:10 0.1212756 0.1071869 0.1195917 0.1051493E-02 115 005:20 0.1247048 0.1077344 0.1209301 0.1238378E-02 1i4 005:30 0.1323664 0.1084806 0.1230078 0.2077'51E-02 115 005: 40 6.1200482 0.1080210 0.1234803 0.4724488E-03 116 005:50 0.1246b18 0.1092733 0.1243997 0.9194389E-03 1 1

006:00 0.1333631 0.1099425 0.1261502 0.17505]4E-02 118 006: 10 0.1240503 0.1103238 0.1267621 0.6119162E-03

.19 006:30 0.1279767 0.1107883 0.1277059 0.9437799E-03 i?0 006:30 0.1191104 0.1110017 0.1276835

-0.2437830E-04 J21 006:40 0.1246471 0.1113428 0.1281825 0.5009621E-03 006:50 0.1234743 0.1116387 0.1285219 0.3394037E-03 1.

007: 00 0.1280148 0.1120286 0.1292419 0.7199794E-03 124 007:10 0.1340325 0.1125403 0.1304365 0.1194671E-02 125 007:20 0.1287962 0.1129098 0.1310697 0.6331950E-03

Page 36 of 88 TOTAL TIME LEAK RATE (TTLR)

SUMMARY

RESULTS USING 80 SAMPLES (SAMPLES T-081 - T-160)

ELAPSED TIME 013:10 I

FOR THE MEASURED TOTAL TIME LEAK RATE (%/ DAY) met.

0.11690 STANDARD DEV.

0.25356E-01 SKEW

=

0.22973E-02

=

EXTRAPOLATED VALUE =

0.13817

(%/ DAY) WHICH IS 55.267

% OF LA EXTRAPOLATION VALUE MUST DE LESS THAN 75% OF LA (LA 0.10641E+06 (%/ DAY))

=

INDIVIDUAL SAMPLE TTLR

SUMMARY

SAMPLE ELAPSED MEASURED MEAN MEASURED CALCULATED DELTA CALC NO TIME TTLR (%/ DAY)

TTLR (%/ DAY)

ITLR (%/ DAY)

TTLR (%/ DAY) 126 007:30 0.1264915 0.1133116 0.1314481 0.3783256E-03 327 007:40 0.1232825 0.1134306 0.1315198 0.7173419E-04 128 007:50 0.1228783 0.1136316 0.1315451 0.2525747E-04 129 008:00 0.1137455 0.1136339 0.1308231

-0.7219762E-03 130 008:10 0.1355408 0.1136769 0.1310783 0.2552569E-03 131 008:20 0.1171689 0.1139428 0.1306594

-0.4189610E 03 132 008:30 0.1312817 0.1143828 0.1313371 0.6777197E-03 13; 008: 40 0.1337326 0.1146568 0.1321473 0.8102506E-03 134 008:50 0.1265020 0.1148803 0.1323687 0.2213418E-03

Jb 009: 00 0.1282662 0.1151282 0.1326973 0.3286302E-03 136 009:10 0.1297263 0.1153936 0.1331031 0.4058033E-03 137 009:20 0.1275276 0.1156103 0.1333256 0.2224743E-03 138 009:30 0.1220400 0.1157232 0.1331548

-0.1707822E-03 139 009:40 0.1237446 0.1158615 0.1331030

-0.5179644E-04 140 009:50 0.1244216 0.1160066 0.1330941

-0.8866191E-05 t41 010:00 0.1263961 0.1161798 0.1332095 0.1153201E-03 1

010:10 0.1273754 0.1163633 0.1333765 0.167v569E-03 14e 010:20 0.1239796 0.1164862 0.1333161

-0.6040931E-04 144 010:30 0.1245260 0.1166138 0.1332887

-0.2743304E-04 145 010:40 0.1241273 0.1167312 0.1332344

-0.5433963E-04 146 010:50 0.1195369 0.1167744 0.1329030

-0.3314018E-03 147 011:00 0.1222059 0.1168566 0.1327434

-0.1595914E-03 148 011:10 0.1227462 0.1169446 0.1326200

-0.1233816E-03 149 011:20 0.1266291 0.1170870 0.1327229 0.1029074E-03 150 011:30 0.1289454 0.1172588 0.1329489 0.2260059E-03 15]

011: 40 0.1225774 0.1173348 0.1328044

-0.1444668E-03 152 011:50 0.1251644 0.1174401 0.1328066 0.2175570E-05 353 012:00 0.1245260 0.1175434 0.1327711

-0.3553927E-04 154 012:10 0.1256954 0.1176551 0.1327971 0.2606213E-04 155 012:20 0.1279570 0.]177943 0.1329391 0.1419634E-03 JSG 012:30 0.1264797 0.1179101 0.1329946 0.5550683E-04 157 012:40 0.1321627 0.1180977 0.1330383 0.3436953E-03 l';D 012:50 0.1242403 0.1181774 0.1332605

-0.7779896E-04 159 013:00 0.1358630 0.1182760 0.1332653 0.4783273E-05 11 0 013:10 0.1268598 0.1103846 0.1333171 0.5178]S4E-04

Page 37 of 88 MASS LEAM RATE (MLR)

SUMMARY

DESULTS USING 000 SAMPLES (SAMPLES T-081 - T-160)

ELAPSED TIME 013:10 5f LE ELAPSED CALCULATED 95 % UCL (MLR) 95% UCL (MLR)

J TIME MLR (%/ DAY)

(%/ DAY) APPROX.

(%/ DAY) EXACT 81 000:00 0.0000000

~~------

82 000:10

-0.3960191E-02 83 000:30 0.6336296E-01 0.4090369 0.4090270 84 000:30 0.1172212 0.2252003 0.2251977 85 000:40 0.1219734 0.1718432 0.1718420 86 000:50 0.1964233 0.2928286 0.2928237 87 001: 00 0.1470920 0.2332429 0.2332307 88 001:10 0.1169198 0.1873856 0.1873824 89 001:20 0.1177495 0.1709560 0.1709535 90 001:30 0.1205816 0.1623790 0.1623769 91 001:40 0.1100214 0.1458440 0.1458422 92 003:50 0.1001405 0.1314133 0.1314117 93 002:00 0.1072299 0.1345944 0.1345929 94 002:]O 0.1013811 0.1253946 0.1253933 95 002:30 0.1063595 0.1276136 0.1276123 96 002:30 0.1095808 0.1282868 0.1282855 97 002:40 0.1090217 0.1254443 0.1254432 98 002*50 0.1077630 0.1223813 0.1223803 99 003:00 0.1107185 0.1241348 0.1241338 100 003:10 0.1]28146 0.1249902 0.1249892 101 003:20 0.1112555 0.1223619 0.1223611 103 003:30 0.1101965 0.1203401 0.1203392 003:40 0.1089444 0.1182458 0.1182450 104 003:50 0.1090946 0.1176030 0.1176022 305 004:00 0.1083996 0.1162473 0.1162466 106 004:10 0.1067533 0.1141863 0.1141855 107 004:20 0.1076940 0.1146039 0.1146032 108 004:30 0.1104257 0.1174970 0.1174962 109 004:40 0.1118683 0.1186457 0.1186450 1]O 004:30 0.1141236 0.1208293 0.1200285 Ill 005:00 0.1134400 0.]l97325 0.1197317 lJ.

005:10 0.1152050 0.1213191 0.1213183 11 3 005:20 0.1170685 0.1231236 0.1231228 314 005:30 0.1202000 0.1265836 0.1265826 115 005:40 0.1204065 0.1264425 0.1264417 116 005:50 0.1218647 0.1276793 0.1276785 l'7 006:00 0.1242611 0.1302175 0.1302168 110 006:10 0.1251299 0.1308080 0.1308071 11<

006:20 0.1260062 0.1314997 0.1314987

]20 006:30 0.1257260 0.1309460 0.]309447 006:40 0.1262829 0.1312713 0 1312706 0 0 4, : t. O U, 1..

MB8 0.1G12614 0 13]2605 007: 00 0.]T "30 0.]Mj9756 0.]31R748 i

007:10 0.12902u0 0.1336554 0.1336544 J 25 00'/:20 0.1294289 0.133893) 0.133P919

!o 007:30 0.i197954 0.i340734 0.1340722 1.

007: 40 0.

295376 0.1336318 0.133G308 007: 50 0.1293103 0.1332371 0.1333365 008:00 0.1279657 0.1319240 0.1319232 so 000:10 0.1281300 0.1319330 0.1319330 1:11 008:20 0.1273437 0.1310703 0.1310695 l

Page 38 of 88 MASS LEAK RATE (MLP)

SUMMARY

g; RESULTS USING 080 SAMPLES (SAMPLES T-081 - T-160)

ELAPSED TIME 013:10

~

SA'

'. E ELAPSED CALCULATED 95 % UCL (MLR) 95% UCL (MLR) hu TIME MLR (%/ DAY)

(%/ DAY) APPROX.

(%/ DAY) EXACT 132 008:30 0.1282714 0.1319491 0.1319404 133 008:40 0.1293195 0.1329979 0.1329967 134 008:50 0.1293759 0.1329223 0.1329214 135 009:00 0.1296133 0.1330442 0.1330436-136 009:10 0.1303367 0.1334726 0.1334719 137 009:20 0.1303709 0.1335927 0.1335923 138 009:30 0.1298542 0.1329880 0.1329869 139 009:40 0.1296422 0.1326735 0.1326730 140 009:50 0.1294635 0.1323978 0.1333965 141 010:00 0.1296324 0.1324684 0.1324675 142 010:10 0.1296886 0.1324358 0.1324345 143 010:20 0.1294493 0.1321160 0.1321153 144 010:30 0.1292308 0.1318158 0.1318149 145 010:40 0.1290282 0.1315376 0.1315369 146 010:50 0.1284993 0.1309907 0.1309901 147 011:00 0.1282516 0.1306840 0.1306831 148 011:10 0.1279386 0.1303084 0.1303082 149.

011:30 0.1282338 0.1305370 0.1305368 150 011:30 0.1284205 0.1306767 0.1306757 151 011:40 0.1282372 0.1304416 0.1304407 152 011:50 0.1281832 0.1303264 0.1303257 153 012:00 0.1281163 0.1302022 0.1302016-l' 012:10 0.1281563 0.1301852 0.1301847 lba 012:20 0.1282890 0.1302714 0.1302706 156 012:30 0.1283909 0.1303220 0.1303212 157 012:40 0.1288897 0.1308264 0.1308260 158 012:50 0.1287130 0.1306050 0.1306045 159 013:00 0.1387232 0.1305665 0.1305659 160 013:10 0.1'8bO37 0.1306014 0.1306011 i

l i

e Page 39 of 88 b

2 APPENDIX D VERIFICATION GRAPHS CONTENTS: COMPARTMENT TEMPERATURE COMPARTMENT VAPOR PRESSURE COMPARTMENT ABSOLUTE PRESSURE CONTAINMENT TEMPERATURE CONTAINMENT VAPOR PRESSURE CONTAINMENT PRESSURE CALCULATED TOTAL TIME LEAK RATE CALCULATED MASS LEAK RATE PL355202/3821/pl7

CMPT. i= RED 65.9 pjj33;j3, 3 3 3 3 y 3111' T1111111F' 1 1 1 1 17 1 T f E

T 0

E 5

5 a

M e

65.8 2

p

=

I

=

N 2

65.7

=

D E

65.6

[

G 5

5

=

F 65.5

[

[=

1 l 1 I--I L 1 l--l.

LLLI I.LLLL sL1 Ild1LL.L J_lJ_.LLLLli 65.4 0

2 4

6 8

TIME (HOURS) RELATIVE TO BEGINNING OF PHASE COMPARTMENT TEMPERATURE VERIFICATION PHASE e

T m

CMPT. 2 = RED E

67.30 T

yjgjjj) y y m 3 j j= y p -=

3 y yj y i T TT ' I l l ~l FTT l]

G E

E 5

M 67.25 2

5 5

P 2

E E

5 67.20

~

I

=

N l5 5

' =

=

67.15 l:

D A

=

'E E

E

=

G 67.10

{

]

=

.-=

=

lb b

67.05 E

E

=

I 67.00 I I-I =I-I I I k I I I= I I= I I Eh I I I= LLJ LLL LLLLLLLt.J5 0

2 4

6 8

TIME (HOURS) RELATIVE TO BEGINNING OF PHASE COMPARTMENT TEMPERATURE VERIFICATION PHASE O

~

f CMPT. 3 - RED E

19.5 T

qm-T TfTTTI~1'T'T 'lNT'lT "1T T T FT 1]

'O E

5 5

M 19.4. 5-5 E

E P

==

=

19.3

=

y

}

N E

E

=

t 19.2

~

D E

E

=

=s E

=

r g -19.1

[--

~

=

p

=

19.0

=

i

=

18.9

' =' I I l I-I I Id I I I I LJ._LLL 1 I I l 1 l I 1 1 1_LLLLL.LlJ5 0

2 4

6 8

TIME (HOURS) RELATIVE TO BEGINNING OF PHASE COMPARTMENT TEMPERATURE VERIFICATION PHASE 9

CMPT. i= RED E

0.0570 p

'7TT'TM'T 'TT 1WT 17T 17 T17TTn~

7777'TfTTT Q

R 5

~

E O

8 0.0565 S

l 7

?

E I

E

-N 0.0560

[.

~

P G

Z S

E 3

I 0.0555 A

3 3

I

=' l LL L=I 1 l l LLLLLLLlJ_

LLLLLLLLL LLLLJJ.1.li 0.0550 0

2 4

6 8

TIME (HOURS) RELATIVE TO BEGINNING OF PHASE COMPARTMENT VAPOR PRESSURE VERIFICATION PHASE

CMPT. 2 = RED E

0.0566

~'s p

_[-g777p 7 7733j=p377 7y;j)--- f 37p==yq-- y y 3 73 3 g 3

R

[

^

& E 5

5 g

0.0564 g

S 0.0562 {

y

~

i N

E p 0.0560 S

5 l

I E

E A

0.0558

[

_c

=

==

! -I IlII l I l 1,J l 1 l JJ.J_. LL 1 1.111 l__ t LI-J LL1_LLLIE 0.0556 O

2 4

6 8

TIME (HOURS) RELATIVE TO BEGINNING OF PHASE COMPARTMENT VAPOR PRESSURE VERIFICATION PHASE 4

9

CMPT. 3 = RED E

0.047 T

P

_1 11 i1 Il T T^"7 1 FTT l i il ~ TTTT 1 1 T i 1-TTill 1 1 T i_ !

O R

2

-l

~

E

?

~

n S

i m

h 2

S 0.046 f

h I

N

[

~

P

~

s 0.045 I

i A

e

r lt 0.044

'-I I LL LLLLL LLLLLLLLL

_LLLLLLLLL

._LLLI. LLLL.C 0

2 4

6 8

TIME (HOURS) RELATIVE TO BEGINNING OF PHASE COMPARTMENT VAPOR PRESSURE VERIFICATION PHASE

CMPT.

1=

RED E

27.52 t

p MNT'TTTm~rTT' i 1 r i i 11 IT ' i i 1 ~rTW !

=

~

R

j e

E i:

4 ai 27.51 g

]

g S

6 3

27.50 I

p

=

N IZ 2

C p

27.49

[

)

5 5

S

~

I E

A 27.48 LPp r

'E I

E

- - 1 I I--I 3dM1L l d I I.l LLl~;

27.47 TI I I-l I I I I-I-LI=l LI-I L l-l l

O 2

4 6

8 TIME (HCJRS) RELATIVE TO BEGINNING OF PHASE COMPARTMENT ABSOLUTE PRESSURE VERIFICATION PHASE e

CMPT 2 = RED 8

27.52 t

p

,_c g j p nlT'7TM~Utm'~l'Tf'nTTT'r171T1 I=i=17 l:

R a

3

[

27.51 g

S A

=

4 f

2 27.50 y

N 3

E p

27.49 {

]

S 2

5 m

I g-

=

~

A 27.48 la gI

--ll-lI d1l-lIllII 27.47 l-I I l-l- I I I lI-lLLIlll llII 1

O 2

4 6

8 TIME (HOURS) RELATIVE TO BEGINNING OF PHASE COMPARTMENT ABSOLUTE PRESSURE VERIFICATION PHASE 9

1 CMPT. 3 = - RED 8

'g -

p

_i gi]=yiggp 7 py7rprpp--ipg"gfjpgg-j-gij gT3,_

27.52 R

c' a

E t

27.51

~

- =

S 3

S y

]

27.50 N

?

=

~

P 27.49

=

S 3

5 I

E E

~

A 27.48

=

t

=

=I I I l -l I I I I -

l I I.I l-l I-I I - l I I I I I l =l I I lJJ.J. LI. lE 27.47 O

2 4

6 8

i TIME (HOURS) RELATIVE TO BEGINNING OF PHASE

.E COMPARTMENT ABSOLUTE PRESSURE VERIFICATION PHASE F

g.

i E

60.15

, y y ; j -) iir q q m j-ITI1TFl'TT n 1 17 ~1 1 11 1

T

=

= :

E

=_.

=

M 60.10 Z

=

m P

=

_=

=

~

60.05 I

=

E E'

N

=

.l 60.00 2

0 E

E E

i,:

E G

59.95 g

=

F i :

59.90 9

=

59.85

' l I I I I L l I LI-l I I J I I l-IIlIllIII I L I l I l I-I I 0

2 4

6 8

TIME (HOURS) RELATIVE TO BEGINNING OF PHASE CONTAINMENT TEMPERATURE VERIFICATION PHASE O

3

g 0.0552 p

yiIll111 1 71T111T11 17 1IiTi fi'l 1111117 i-R R

[

h E

[

0.0550

~

g S

I

]

~

0.0548 E

N

=

p 0.0546

~

S

=

a I

d A

0.0544

=_

l t

d b

='IILLIIII I I I L i-_t i 1.1 _. t 1 1 LI 1 1 1 L L1LLLLLIE 0.0542 O

2 4

6 8

TIME (HOURS) RELATIVE TO BEGINNING OF PHASE CONTAINMENT VAPOR PRESSURE VERIFICATION PHASE d

E 27.52

_jjym q p 7 p p 77 n 7 pq77 n 7 7 71m-n m Y

P R

n

=;

E E

d s

27.51 S

=

S

_=

27.50

[

]

I N

'E E

=_

p 27.49.[

]

S 3

I 3

3

~

A 27.48

[::

C 27.47 El I LLI LI LI-s ldi Ll 1 LLL,11 LLI L1 L L LLLLLLLli O

2 4

6 8

TIME (HOURS) RELATIVE TO BEGINNING OF PHASE CONTAINMENT PRESSURE VERIFICATION PHASE L_

CALCULATED TOTAL TIME LEAK RATE FOR THE VERIFICATION TEST PHASE E

06 t

FTTTTYrTT'1TTTmTT'TTTYm~TT~fTTTTTD if "n

E 2

A 2

S K

2 E

0.4

~

R A

3 T

0.2

~

E 2

3 r-x E

5

~

/

0 D

3 3

A

?

~

y Z

=

-0.2 M IIIlIII LL1LLLLLl_

tLLLllJ_.LL.LLLLLLLL.15 0

2 4

6 8

TIME (HOURS) RELATIVE TO BEGINNING OF PHASE CALCULATED TOTAL TIME LEAK RATE VERIFICATION PHASE e

CALCULATED MASS LEAK RATE FOR THE VERIFICATION TEST PHASE E

0.8

'L

'yym7pyn mq7pqm-g 3 3 y, y TT F TTFTl lM!

2 E

h h

~

A i3

=

S' K

3

=

D F

=

d R

0.4 1

T E.:

5 E

R 5

0.2 L

=

x

=

a

/

15 E

D 0

Y

-0.2 I I Ll LL.! I -

l I I J l-- LI L I L L lil-I I l I I L 1 1._LLLJ J.5

=3 0

2 4

6 8

TIME (HOURS) RELATIVE TO BEGINNING OF PHASE 1

CALCULATED MASS LEAK RATE VERIFICATION PHASE

Page 54 of 88 0

APPENDIX E VERIFICATION TEST TABULAR DATA CONTENTS: TOTAL TIME LEAK RATE

SUMMARY

MASS LEAK RATE

SUMMARY

I PL355202/3821/pl8 L

1 Page 55 of 88 TOTAL TIME LEAR RATE (TTLR)

SUMMARY

I PESULTS USING 43 SAMPLES (SAMPLES V-168 - V-210)

ELAPSED TIME 007:00 FOR THE MEASURED TOTAL TIME LEAK RATE (%/ DAY)

-0.14444E-01 0.82553E-01 SKEW 0.39996 STANDARD DEV.

=

Mesa

=

EXTRAPOLATED VALUE =

0.45071

(%/ DAY) WHICH IS 180.29

% OF LA 0.25000

(%/ DAY))

EXTRAPOLATION VALUE MUST DE LESS THAN 75% OE LA (LA r INDIVIDUAL SAMPLE TTLR

SUMMARY

SAMPLE ELAPSED MEASURED TALCULATED 95 % UCL FOR CONVERGENCE NO TIME ITLR (%/ DAY)

TTLR (%/ DAY)

(95%UCL-CALC) 168 000:00 0.0000000 169 000:10 0.6645305 170 000:20 0.5377016 171 000:30 0.4139554 0.4134417 0.4256329 0.1219121E-01 172 000:40 0.4835351 0.4249208 0.8049673 0.3000465 173 000:50 0.5136569 0.4514933 0.7766741 0.3251808 174 001:00 0.4403780 0.4287228 0.6751635 0.2464407 175 001:10 0.3872810 0.3922885 0.5941668 0.2018782 176 001:20 0.3363938 0.3496930 0.5240985 0.1744055 1Y7 001:30 0.3935512 0.3444863 0.5118185 0.1673322 170 001:40 0.3646330 0.3319804 0.4877184 0.1557380 179 001:50 0.3918964 0.3326234 0.4881991 0.1555757 180 002:00 0.3907254 0.3334912 0.4876241 0.1541330 181 002:10 0.3929866 0.3353707 0.4880903 0.1527196 182 002:20 0.4073811 0.3410172 0.4946889 0.1536717 103 002:30 0.4025055 0.3446738 0.4967833 0.1521095 1

002:40 0.4221024 0.3523892 0.5056337 0.1532445

ba 002: 50 0.4208978 0.3586362 0.5111241 0.1524880 386 003:00 0.4249648 0.3648010 0.5161626 0.1513615 107 003:10 0.4096907 0.3671077 0.5150530 0.1479454 lE8 003:20 0.4041349 0.3681569 0.5124025 0 1442455

9 003:30 0.4209385 0.3721502 0.5143356 0.1421773 100 003:40 0.4136951 0.3744410 0.5138173 0.1393762 191 003:50 0.4109076 0.3760527 0.5125425 0.1364898 192 004:00 0.3994239 0.3757161 0.5089038 0.1331877 193 004:10 0.3892590 0.3739710 0.5038009 0.1298399 194 004:20 0.3910049 0.3727767 0.4995924 0.126815G 195 004:30 0.3913004 0.3718395 0.4958999 0.1240604 196 004:40 0.3934149

0. 3 " ~ 637 0.4929538 0.1215901 197 004:50 0.4090960 0.3730556 0.4930299 0.1199743 100 005:00 0.3934778 0.3726288 0.4903867 0.1177579 199 005:10 0.3770773 0.3702795 0.4856475 0.1153680 200 005:20 0.3935741 0.3701915 0.4836984 0.1135068 201 005:30 0.3994229 0.3708333 0.4827916 0.1119584 202 005:40 0.4053162 0.3721145 0.4828221 0.1107076

03 005:50 0.4010586 0.3720416 0.4821496 0.1093000 204 006: 00 0.3921934 0.3725886 0.4802845 0.1076959 205 006:10 0.3878421 0.3719380 0.4780134 0.1060754

06 006:20 0.3651893 0.3690017 0.4734558 0.104374]

006:30 0.3661574 0.2665987 0.4693393 0.1027411 n '

00 006: 40 0.3733525 0.3650462 0.4662716 0.1012254 20" 006:50 0.3581240 0.3622176 0.4619604 0.9974206E-01 i

007:00 0.3634377 0.3601327 0.4584520 0.9831926E-01 I

Page 56 of 88 I

I)

TOTAL TIME LEAK RATE (TTLR)

SUMMARY

RESULTS USING 43 SAMPLES (SAMPLES V-168 - V-210)

ELAPSED TIME 007:00 EOR THE MEASURED TOTAL TIME LEAK RATE (%/ DAY) 0.82553E-01 SKEW

-0.14444E-01 0.39996 STANDARD DEV.

M E r...

=

EXTRAPOLATED VALUE =

0.45071

(%/ DAY) WHICH IS 100.29

% OF LA

' EXTRAPOLATION VALUE MUST BE LESS THAN 75% OF LA (LA 0.25000

(%/ DAY))

=

INDIVIDUAL SAMPLE TTLR

SUMMARY

BAMPLE ELAPSED MEASURED MEAN MEASURED CALCULATED DELTA CALC NO TIME TTLR (%/ DAY)

TTLR (%/ DAY)

TTLR (%/ DAY) 168 000:00 0.0000000 169 000:10 0.6645305 170 000:20 0.5377016 0.6011161 171 000:30 0.4139554 0.5387291 0.4134417 172 000:40 0.4835351 0.5249306 0.4249208 0.1147914E-01 173 000:50 0.5136569 0.5226759 0.4514933 0.2657247E-01 174 001:00 0.4403700 0.5089596 0.4287228

-0.2277052E-01 175 001:10 0.3873810 0.4915769 0.3922885

-0.3643423E-01 176 001:20 0.3363938 0.4721790 0.3496930

-0.4259557E-01 177 001:30 0.3935512 0.4634426 0.3444863

-0.5206674C-02 178 001:40 0.3646330 0.4535616 0.3319804

-0.1250586E-01 179 001:50 0.3918964 0.4479557 0.3326234 0.6429553E-03 100 002:00 0.3907254 0.4431866 0.3334912 0.8677840E-03 101 003:10 0.3929866 0.4393250 0.3353707 0.1879513E-02 182 002:20 0.4073811 0.4370433 0.3410172 0.5646557E-02 183 002:30 0.4025055 0.4347408 0.3446738 0.3656536E-02

]

002:40 0.4221024 0.4339509 0.352?892 0.7715404E-03 lbs 002:50 0.4208978 0.4331831 0.3586362 0.6246984E-02 186 003:00 0.4249648 0.4327266 0.3648010 0.6164879E-02 107 003:10 0.4096907 0.4315141 0.3671077 0.2306610E-02 188 003:20 0.4041349 0.4301452 0.3681569 0.1049280E-02 109 003:30 0.4209385 0.4297068 0.3721582 0.4001290E-02 190 003:40 0.4136951 0.4289790 0.3744410 0.2282790E-02 191 003:50 0.4109876 0.4281968 0.3760527 0.1611650E-02 192 004:00 0.3994229 0.4269978 0.3757161

-0.3365278E-03 193 004:10 0.3892590 0.4254883 0.3739710

-0.1745164E-02 194 004:20 0.3910049 0.4241620 0.3727767

-0.1194268E-02 195 004:30 0.3913004 0.4229449 0.3718395

-0.9372234E-03 196 004:40 0.3934149 0.4218903 0.3713637

-0.4758239E-03 197 004:50 0.4090960 0.4214491 0.3730556 0.1691967E-03 198 005:00 0.3934778 0.4205167 0.3726288

-0.4268507E-03 199 005:10 0.3770773 0.419]155 0.3702795

-0.2349317E-02 200 005:20 0.3935741 0.4183173 0.3701915

-0.8791685E-04 20]

005:30 0.3994229 0.4177447 0.3708333 0.6417334E-03 20.7 005:40 0.4053162 0.4173792 0.3721145 0.1281232E-02 203 005:50 0.4010586 0.4169129 0.3728416 0.7270873E-03 204 006:00 0.3921934 0.416:262 0.3725886

-0.2529919E-03 OK 006:10 0.3878421 0.4154591 0.3719380

-0.6506443E-03 200 006:20 0.3651893 0.4141362 0.3690817

-0.28560848-0?

006.30 0.3661574 0.4129000 0.366599?

-0.2483517E-02 006: 40

0. >7 D525 0.4119171 0.3650462

-0.1551986E-07 MM 006:50 0.3581240 0.4106051 0.3622176

-0.2828598E-02 007:00 0.3634377 0.4094821 0.3601327

-0.2084881E-02

Page 57 of 88 MASS LEAK RATE (MLR)

SUMMARY

I,'

RESULTS USING 043 SAMPLES (SAMPLES V-168 - V-210)

ELAPSED TIME 007:00 SA LE ELAPSED CALCULATED 95 % UCL (MLR) 95% UCL (MLR) no TIME MLR (%/ DAY)

(%/ DAY) APPROX.

(%/ DAY) EXACT l

168 000:00 0.0000000 169 000:10 0.6658515 170 000:20 0.5370426 1.166929 1.166878 171 000:30 0.4137828 0.6461181 0.6461024 172 000:40 0.4454893 0.5607753 0.5607662 173 000:50 0.4810452 0.5621746 0.5621665 174 001:00 0.4495660 0.5146844 0.5346773 175 001:10 0.4046497 0.4731313 0.4731231 176 001:20 0.3556567 0.4302487 0.4302398 177 001:30 0.3502028 0.4165766 0.4165688 178 001:40 0.3476344 0.3958995 0.3958929 179 001:50 0.3530866 0.3941791 0.3941731 180 002:00 0.3588909 0.3929204 0.3929148 181 002:10 0.3634898 0.3927784 0.3937732 102 002:20 0.3718863 0.3986672 0.3986619 183 002:30 0.3767618 0.4006037 0.4005991 184 002:40 0.3867079 0.4100112 0.4100065 185 002:50 0.3942329 0.4161175 0.4161420 IC6 003:00 0.4005146 0.4212151 0.4212100 187 003:10 0.4020399 0.42C6494 0.4206440 188 003:20 0.4015719 0.4183705 0.4183652 189 003:30 0.4053382 0.4210335 0.4210291 1

003:40 0.4068061 0.4211574 0.4211528 191 003:50 0.4071769 0.4203286 0.4203246 19; 004:00 0.4054636 0.4177173 0.4177135 393 004: 10 0.4013453 0.4132755 0.4132710 194 004:20 0.3989176 0.4102958 0.4102910 195 004:30 0.3965258 0.4073085 0.4073030 196 004: 40 0.3948601 0.4049902 0.4049869 197 004:50 0.3968267 0.4064191 0.4064152 190 005:00 0.3954232 0.4044786 0.4044740 199 005:10 0.3912772 0.4006161 0.4006123 200 005:20 0.3910038 0.3997926 0.3997898 201 005:30 0.3914397 0.3997149 0.3997104 202 005:40 0.3927828 0.4006990 0.4006951 203 005:50 0.3933205 0.4008120 0.400806G I

204 006: 00 0.3923380 0.3994702 0.3994656 205 006:10 0.3900028 0.3976795 0.3976760 l

206 006:20 0.3863467 0.3941938 0.3941080 207 006:30 0.3826357 0.3909472 0.3909431 100 006:40 0.3804066 0.3886162 0.3886131

.W/

006:50 0.37623)2 0.3850057 0.3849994 li e 007:00 0.3732575 0.3820811 0.3820?G4 I

Page 58 of 88 i

i

\\

APPENDIX F VERIFICATION TEST ANALYSIS PL355202/3821/p19

Page 59 of 88-AAAAAA VERIFICATION ANALYSIS

SUMMARY

.AAAAAA j

'l TTLR REPORTED DURING VERIFICATION (SCCM):

160957.0 MLR REPORTED DURING VERIFICATION (SCCM):

166822.9 i

i TTLR REPORTED DURING CILRT (SCCM):

59646.75 MLR REPORTED DURING CILk7 (SCCM):

57627.41 I

AVERAGE FLOWMETER READING (SCCM):

104884,,4 MAXIMUM ALLOWADLE LEAK RATE (SCCM):

106405.3 TTLR AGREEMENT BY APPENDIX J METHOD:

-3.359036 MLR AGREEMENT BY APPENDIX J METHOD:

4.051538 i

TTLR AGREEMENT DY BN1 METHOD:

-2.2205S8 MLk AGREEMENT DY BN1 METHOD:

2.584209 i

i J

6 5

f 1

I

Page 60 of 88 h

APPENDIX G PENETRATIONS INSERVICE DURING CILRT PL355202/3821/p20

Page 61 of 88 APPENDIX G TESTABLE PENETRATIONS REQUIRED TO BE INSERVICE DURING TEST PERE 0RMANCE Leakage Rate Added To Penetration 011qrigli.pn Justification 95% UCL_

X-27(C)

Integiated Leak Rate Isolation Valves Required To Be Open 0.0000 SCFH System Pressure To Monitor Containment Pressure X-47A Ice Condenser System Glycol Cooling supply To Air Handling 0.0000 SCFH Units In Ice Condenser Required To Ensure Ice Condition Is Maintained X-478 Ice Condenser system Same As X-47A 0.0000 SCFH X-54 Thimble Renewa Used As Pressurization Point For Air 0.0000 SCFH Compressors X-114 Ice Condenser System Glycol Returo From Air Handling Units 0.0000 SCFH Required To Ensure Ice Condition Is Maintained X-115 Ice Condenser System Same As X-114 0.0000 SCFH X-118 Hatch Used As Source For Verification Flow And 0.0000 SCFH Post-Test Depressurization X-46 Waste Disposal Used To Provide Leak-Of f for RCP Seals 0.0000 SCFH X-87A Integrated Leak Rate Same As X-27C 0.0000. rH System Pressure X-87D Integrated Leak Rate Same As X-27C 0.0000 SCFH System Pressure 1

PL3SS202/3821/p21

)

Page 62 of 88 iI!

APPENDIX H T

LEAK RATE CALCULATIONS DUE TO SUMP LEVEL CHANGES t

L f

f I

PL355202/3821/p22 1

Page 63 of 88 I:

CORRECTING LEAK RATES TO COMPENSATE FOR SUMP LEVEL CilANGES DATA: There was a two and one-half gallons increase in the Auxiliary Reactor Building Floor and Equipment Drain Sump during the CILRT and Verification Test.

CALCULATION: There are 7.48 gallons /ft3 2% Divided By 7.48 Yields 0.3342 ft3 Decrease in Containment Volume This corresponds to:

0.3342 ft-28.0160 osia 1.44 in2/112 0.0486 lbm

=

1h _11 520.07 'R 53.357 f

lbm 'R Total containment mass is:

L R 220.0 f1 _28 0160 us_ia 144 inglf12 173,329.2341 lb 2

=

m 53.357 1Fr ft 520.07 'R lt "R

The leak rate impact due to increase in sump level is:

0.0486 lb x 100 0.000028%/ Day

=

g 173,329.2341 lbm Since calcu ations for leak rate are reliable only to four decimal places, no addition 'o the CILRT or verification leak rates were required.

PL355202/3821/p23

Page 64 of 88 0'

APPENDIX I COMPUTER SYSTEM BLOCK DIAGRAM PL355202/3821/p24

)

Page 65 of 88 4

COMPUTER BASE ACQUISITION AND DATA REDUCTION SYSTEM DIGITAL PDP 11/73 COMPUTER SYSTEM TWO MENSOR

~

TWO MENSOR s

OUARTZ MAN 0 METERS A

OVARTZ MAN 0 METERS DATA ACQUISITION TWO MENSOR

,'~

QUARTZ MAN 0 METERS UNIT

(

AAAAAAA

' ~ PRm Leva.

AtuosmERIC

r LT 6S-321 PPISSSURE 1E5T STATION '

~

MASS R0W 7

- Ton g rrvRE uag

\\tssa u a n.

)

jj I?GDE CMME j j

l ll otnstoc cu m ). I MULTIPLEXOR MULTIPLEXOR UNIT A UNIT B A

A UPPm SDGNG uNES TRANSDUCER SIGNAL w pg e nt

)

c smm towm dCE UWGDucos CONDITIONING mcoucas s

ac gg uNES

Page 66 of 88 h

APPENDIX J COMPAl/TMENT PARAMETERS AND INSTRUMENT LOCATIONS PL355202/3821/p25

Page 67 of 88 l

APPENDIX J COMPARTMENT PARAMETERS AND INSTRUMENT LOCATIONS P

Volumetric Weight Number of Segment Per Sensor By 3

Temperaturg Transducers yo1Mmg_(ft )

Compartment (Percent)

I.

Upper Compartz.ent 14 651,000 7.1429 II.

Lower Compartment 25 383,720 4.0000 III.

Ice Compartment 9

157,500 11.1111 48 Dewpoint I.

Upper Compartment 3

651,000 33.3333 II.

Lower Compartment 3

383,720 33.3333 P

III.

Ice Compartment 6

157,500 16.6667 12 P

PL355202/3821/p26

Page 68 of 88 i

APPENDIX K i

INSTRUMENT SPECIFICATIONS PL355202/3821/p27

Page 69 of 88 APPENDIX K Measured Manufacturer Number Instrument Parameter and Madg]_. h

_jjigd_

Speci fi c a ti o.n Containment Leads & Northrup 49 Range:

0-250'F Temperature Model No. 178055 Accuracy:

0.1*F Repeatability:

10.00'F Containment Mensor Corporation 8 Range:

0-30 psia, 400,000 Pressure Model No. 10100-001 Counts F.S.

Accuracy:

30.015% Reading Repeatability:

0.0005% Reading Containment Foxboro Corporation 12 Range:

-50 to +142'F Dewpoint Model No. 2701 RG Accuracy:

3 *F Dewpoint 1

Repeatability:

10.10*F Analog to Acurex Corporation 1 Accuracy:

f0.001*F Dewpoint Olgital Autodata Ten /10 10.001*F Temperature Converter 1 Count Pressure Verification Tel edyne-Ha s ti ngs 1 Range:

0-5 SCFM Flow Mass Flow Meter Model Accuracy:

f2% Range AHL 25 With H-3M Repeatability:

f /2% of Range 1

Transducer TVA No.

469936 Mensor Princo 8 Range:

49% to 57%C Chamber ASTM 19L Accuracy:

'O.12'C Temperature Atmospheric Mensor Corporation 1 Range:

0-30 psia Pressure Model No. 10100-001 Accuracy:

0.015% Reading RCS Pressuriser Plant Process 1 Range:

0-100 Level Water Level Transmitter Model Accuracy:

35% F.S.

LT-68-321 PL355202/3821/p28

Page 70 of 88 I-APPENDIX L i

LOCAL LEAK RATE TESTS CONDUCTED FROM CYCLE 5 TO CYCLE 6 i

i PL355202/3821/p29

Pcge 71 of 88 GOMPONENT DATE LEAK _EATE g

FCV-26-240 10/19/91 0.00 AF FCV-26-240 11/02/91 0.00 AL FCV-26-240 04/12/93 0.1389 AF FCV-26-240 12/14/93 0.00 AL VLV-26-1260 10/19/91 0.00 AF/AL VLV-26-1260 04/12/93 0.1595 AF VLV-26-1260 12/14/93 0.00 AL FCV-26-243 10/19/91 0.00 AF FCV-26-243 11/12/91 0.00 AL FCV-26-243 04/22/93 0.00 AF FCV-26-243 05/22/93 0.00 After Maintenance FCV-26-243 11/23/93 0.00 AL VVL-26-1296 10/19/91 0.00 AF VLV-26-1296 11/16/91 7.009 After Inspection VLV-26-1296 11/07/91 1.4633 After Maintenance VLV-26-1296 11/12/91 0.0907 AL VLV-P6-1296 04/22/93 0.0841 AF VLV-26-1296 11/23/93 11.0338 After Inspection VLV-26-1296 12/14/93 3.8355 After Maintenance VLV-26-1296 12/16/93 0.2801 AL EnIge Valves 30-7/8, 9/10, 14/15, 16/17, 19/20, 37/40, 30-50/51, 52/53, 56/57, 58/59 All Valves 09/25/90 All Zeros All Valves 03/06/91 All Zeros All Valves 05/22/91 All Zeros All Valves 08/14/91 All Zeros 30-9/10, 19/20, 37/40, 52/53, 58/59 30-7/8, 14/15, 16/17, 50/51, 56/57 All Valves 11/14/91 All Zeros All Valves 11/16/91 All Zeros Except 56/57 = 0.0559 All Valves 02/05/92 All Zeros All Valves 04/30/92 All Zeros All Valves 07/23/92 All Zeros Except 58/59 (0.4783)

All Valves 10/22/92 All Zeros All Valves 01/07/93 All Zeros 30-9/10, 14/15, 16/17, 19/20, 56/57, 58/59, 52/53 30-7/8, 50/51, 37/40 All Valves 04/26/93 All Zeros Except 14/15 = 0.1394 All Valves 05/24/93 All Zeros All Valves 11/15/93 All Zeros Except 14/15 = 0.325 j

PL355202/3777/p1 i

l

Page 73 of 88 COMPONENT DAIE LEAK RATE FCV-30-46/571 10/16/91 3.0486 AF FCV-30-46/571 11/26/91 2.73 After Maintenance FCV-30-46/571 11/26/91 1.3091 AL FCV-30-46/571

.04/15/93 4.3815 AF FCV-30-46/571 12/07/93 4.8836 After Maintenance FCV-30-46/571 12/11/93 2.1593 After Maintenance FCV-30-46/571 12/13/93 0.7738 AL FCV-30-47/572 10/16/91 0.3420 AF FCV-30-47/572 11/26/91 0.6380 AL FCV-30-47/572 04/14/93 22.6756 AF FCV-30-47/572 04/15/93 0.6072 After Maintenance FCV-30-47/572 12/07/93 21.8834 FCV-30-47/572 12/13/93 0.6133 AL FCV-30-48/573 10/16/91 0.00 AF FCV-30-48/573 11/25/91 0.00 AL FCV-30-48/573 04/14/93 0.00 AF FCV-30-48/573 12/07/93 0.3546 AL FSV-30-134 10/17/91 0.00 AF/AL FSV-30-134 04/14/93 0.00 AF FSV-30-134 11/29/93 0.00 AL FSV-30-135 10/17/91 0.00 AF/AL FSV-30-135 04/14/93 0.00 AF FSV-30-135 11/29/93 0.00 AL VLV-30-42Y 10/16/91 0.00 AF/AL VLV-30-42Y 04/03/93 0.00 AF/AL VLV-30-42X 10/16/91 0.00 AF/AL VLV-30-42X 04/03/93 0.00 AF/AL VLV-30-43Y 10/16/91 0.00 AF/AL VLV-30-43Y 04/01/93 0.00 AF/AL VLV-30-43Y 11/10/93 0.00 AF/AL VLV-30-43X 10/16/91 0.00 AF/AL VLV-30-43X 04/01/93 0.00 AF/AL VLV-30-43X 11/10/93 0.00 AF/AL VLV-30-44Y 10/16/91 0.00 AF/AL VLV-30-44Y 04/01/93 0.00 AF/AL VLV-30-44Y 11/11/93 0.00 AF/AL VLV-30-44X 10/16/91 0.00 AF/AL VLV-30-44X 04/01/93 0.00 AF/AL VLV-30-44X 11/11/93 0.00 AF/AL VLV-30-45Y 10/16/91 0.00 AF/AL VLV-30-45Y 04/01/93 0.00 AF/AL VLV-30-45Y 11/11/93 0.00 AF/AL VLV-30-45X 10/16/91 0.00 AF/AL VLV-30-45X 04/01/93 0.00 AF/AL VLV-30-45X 11/11/93 0.00 AF/AL VLV-30-46AY 10/16/91 0.00 AF/AL VLV-30-46AY 04/03/93 0.00 AF/AL VLV-30-46AX 10/16/91 0.00 AF/AL VLV-30-46AX 04/03/93 0.00 AF/AL VLV-30-47AY 10/16/91 0.00 AF/AL l

VLV-30-47AY 04/03/93 0.00 AF/AL VLV-30-47AX 10/16/91 0.00 AF/AL VLV-30-47AX 04/03/93 0.00 AF/AL PL355202/3777/p2 i

Page 73 of 88 COMPONENT DAH LEAK RATE VLV-30-43AY 10/16/91 0.00 AF/AL VLV-30-48AY 04/03/93 0.00 AF/AL VLV-30-48AX 10/16/91 0.00 AF/AL VLV-30-48AX 04/03/93 0.00 AF/AL VLV-30-30CY 10/16/91 0.00 AF/AL VLV-30-30CY 04/03/93 0.00 AF/AL VLV-30-30CX 10/16/91 0.00 AF/AL VLV-30-30CX 04/03/93 0.00 AF/AL VLV-30-310Y 10/16/91 0.00 AF/AL VLV-30-310Y 04/01/93 0.00 AF/AL VLV-30-310Y 11/11/93 0.00 AF/AL VLV-30-310X 10/16/91 0.00 AF/AL VLV-30-310X 04/01/93 0.00 AF/AL VLV-30-310X 11/11/93 0.00 AF/AL VLV-30-311Y 10/16/91 0.00 AF/AL VLV-30-311Y 04/01/93 0.00 AF/AL VLV-30-311Y 11/11/93 0.00 AF/AL VLV-30-311X 10/16/91 0.00 AF/AL VLV-30-311X 04/01/93 0.00 AF/AL VLV-30-311X 11/11/93 0.00 AF/AL FCV-31C-222 07/09/90 0.8787 AF FCV-31C-222 07/09/90 0.7125 AL FCV-31C-222 10/18/91 0.00 AF/AL FCV-31C-222 04/15/93 0.00 AF/AL FCV-31C-223/752 10/18/91 0.00 AF/AL FCV-31C-223/752 04/15/93 0.00 AF/AL FCV-31C-224 10/18/91 0.00 AF/AL FCV-31C-224 04/15/93 0.00 AF/AL FCV-31C-225/734 10/18/91 0.00 AF/AL FCV-31C-225/734 04/15/93 0.00 AF/AL FCV-31C-229 10/18/91 0.00 AF/AL FCV-31C-229 11/13/93 0.00 AF/AL FCV-31C-230/715 10/18/91 0.00 AF/AL FCV-31C-230/715 11/13/93 0.00 AF/AL FCV-31C-231 10/18/91 0.00 AF/AL FCV-31C-231 11/13/93 0.00 AF/AL FCV-31C-232/697 10/18/91 0.00 AF/AL FCV-31C-232/697 11/13/93 0.00 AF/AL FCV-32-80/285 10/17/91 0.00 AF/AL FCV-32-80/285 04/21/93 0.0555 AF/AL VLV-32-287 10/17/91 0.00 AF/AL VLV-32-287 04/21/93 0.00 AF/AL FCV-32-102/295 10/13/91 0.00 AF/AL FCV-32-102/295 11/15/993 0.2527 AF/AL VLV-32-297 10/13/91 0.0543 AF/AL VLV-32-297 04/21/93 3.8425 AF VLV-32-297 11/15/93 0.00 AL FCV-32-110/375 11/01/91 0.1163 AF/AL FCV-32-110/375 11/30/93 0.00 AF/AL VLV-32-377 11/01/91 0.0943 AF/AL VLV-32-377 11/30/93 0.00 AF/AL VLV-33-704 10/07/91 0.0814 AF/AL PL355202/3777/p3

Page 74 of 88 G.0MPONENT DAIE LEAK RATE VLV-33-704 03/16/93 0.00 AF VLV-33-704 10/05/93 0.00 AL VLV-33-740 10/07/91 0.00 AF VLV-33-740 10/07/91 0.00 AL VLV-33-740 03/16/93 0.00 AF VLV-33-740 10/05/93 0.00 AL FSV-43-2 10/20/91 0.00 AF/AL FSV-43-2 04/20/93 0.00 AF/AL FSV-43-3 10/20/91 1.0025 AF FSV-43-3 11/21/91 0.00 AL FSV-43-3 04/20/93 0.00 AF/AL FSV-43-11 10/20/91 0.00 AF/AL FSV-43-11 04/20/93 0.00 AF/AL FSV-43-12 10/20/91 0.00 AF/AL FSV-43-12 04/20/93 0.00 AF/AL FSV-43-22 10/20/91 0.00 AF/AL FSV-43-22 04/20/93 0.00 AF/AL FSV-43-23 06/07/91 0.00 AF/AL FSV-43-23 10/20/91 0.00 AF/AL FSV-43-23 04/20/93 0.00 AF/AL FSV-43-34 10/28/91 0.00 AF/AL FSV-43-34 04/20/93 0.00 AF/AL FSV-43-35 10/22/91 0.00 AF/AL FSV-43-35 04/20/93 0.00 AF/AL FSV-43-75 10/20/91 0.00 AF/AL FSV-43-75 04/20/93 0.00 AF/AL FSV-43-77 10/20/91 0.00 AF/AL FSV-43-77 04/20/93 0.00 AF/AL FSV-43-201 10/21/91 0.00 AF/AL FSV-43-201 04/21/93 0.00 AF/AL FSV-43-202 10/21/91 0.00 AF/AL FSV-43-202 04/21/93 0.00 AF/AL FSV-43-207 10/19/91 0.00 AF/AL FSV-43-207 04/21/93 0.00 AF/AL FSV-43-208 10/19/91 0.00 AF/AL FSV-43-208 04/21/93 0.00 AF/AL FSV-43-450 10/21/91 0.1499 AF/AL FSV-43-450 04/21/93 0.00 AF/AL FSV-43-451 10/21/91 0.00 AF/AL FSV-43-451 04/21/93 0.00 AF/AL FSV-43-452 10/19/91 0.0841 AF/AL FSV-43-452 04/21/93 0.00 AF/AL FSV-43-453 10/19/91 0.00 AF/AL FSV-43-453 04/21/93 0.00 AF/AL VLV-52-500 10/08/91 0.00 AF/AL VLV-52-500 03/26/93 0.00 AF VLV-52-500 11/11/93 0.00 AL VLV-52-501 10/08/91 0.00 AF/AL VLV-52-501 03/26/93 0.00 AF VLV-52-501 11/11/93 0.00 AL VLV-52-502 10/08/91 0.00 AF/AL VLV-52-502 03/26/93 0.00 AF PL355202/3777/p4

Page 75 of 88 COBP_QHER DAIE LEAK RATE VLV-52-502 11/11/93 0.00 AL VLV-52-503 10/08/91 0.00 AF/AL VLV-52-503 03/26/93 0.00 AF VLV-52-503 11/11/93 0.00 AL VLV-52-504 10/09/91 0.00 AF/AL VLV-52-504 03/26/93 0.0563 AF VLV-52-504 11/11/93 0.00 AL VLV-52-505 10/09/91 0.00 AF/AL VLV-52-505 03/26/93 0.00 AF VLV-52-505 11/11/93 0.00 AL VLV-52-506 10/09/91 0.00 AF/AL VLV-52-506 03/26/93 0.00 AF VLV-52-506 11/11/93 0.00 AL VLV-52-507 10/09/91 0.00 AF/AL VLV-52-507 03/26/93 0.00 AF VLV-52-507 11/11/93 0.00 AL VLV-59-522/529 10/08/91 0.00 AF/AL VLV-59-522/529 03/16/93 0.9349 AF VLV-59-522/529 03/29/93 0.00 After Maintenance VLV-59-522/529 10/07/93 0.00 AL VLV-59-633 10/08/91 0.00 AF/AL VLV-59-633 03/16/93 0.00 AF/AL VLV-59-633 10/07/93 0.00 AF/AL FCV-61-96 10/23/91 0.00 AF/AL FCV-61-96 05/26/93 0.00 AF/AL FCV-61-96 05/29/93 0.00 AF/AL FCV-61-97/692 10/23/91 0.00 AF/AL FCV-61-97/692 05/26/93 0.00 AF/AL FCV-61-97/692 05/29/93 0.00 AF/AL FCV-61-110 10/23/91 0.00 AF/AL FCV-61-110 05/26/93 0.00 AF/AL FCV-61-110 05/29/93 0.00 AP/AL FCV-61-122/745 10/23/91 0.00 AF/AL FCV-61-122/745 05/26/93 0.00 AF/AL FCV-61-122/745 05/29/92 0.00 AF/AL FCV-61-191 10/15/91 0.00 AF/AL FCV-61-191 05/26/93 0.00 AF/AL FCV-61-191 05/29/93 0.00 AF/AL FCV-61-192/533 10/15/91 0.00 AF/AL FCV-61-192/533 05/26/93 0.1135 AF/AL FCV-61-192/533 05/29/93 0.00 AF/AL FCV-61-193 10/15/91 0.00 AF/AL FCV-61-193 05/26/93 0.00 AF FCV-61-193 05/28/93 0.00 AL FCV-61-194/680 10/14/91 0.00 AF/AL FCV-61-194/680 05/26/93 0.00 AP FCV-61-194/680 05/28/93 0.00 AL FCV-62-61/639 10/15/91 0.00 AF FCV-62-61/639 10/25/91 0.00 AL FCV-62-61/639 04/08/93 0.00 AF FCV-62-61/639 06/01/93 0.00 After Maintenance FCV-62-61/639 11/22/93 0.00 AL PL355202/3777/p5

Page 76 of 88 COMPONENT DATE LEAK.RATI j

FCV-62-63 10/15/91 0.2089 AF FCV-62-63 10/25/91 0.00 AL/After Maintenance FCV-62-63 04/08/93 0.1378 AF FCV-62-63 06/01/93 0.00 After Maintenance FCV-62-63 11/22/93 0.00 AL FCV-62-72/73/74 10/13/91 0.0624 AF FCV-62-72/73/74 11/01/91 0.00 AL FCV-62-72/73/74 04/01/92 0.00 AF FCV-62-72/73/74 04/08/92 0.00 AL FCV-62-72/73/74 04/16/93 0.00 AF FCV-62-72/73/74 12/08/93 0.00 AL FCV-62-77/662 10/13/91 0.1576 AF/AL FCV-62-77/662 01/21/92 0.2838 AF FCV-62-77/662 01/21/92 0.00 AL FCV-62-77/662 04/16/93 0.0555 AF FCV-62-77/662 12/08/93 0.00 AL FCV-63-64 10/12/91 0.00 AF/AL FCV-63-64 04/13/93 0.00 AF/AL VLV-77-868 10/12/91 0.0540 AF/AL VLV-77-868 04/02/92

>471.1009 AF VLV-77-868 04/06/92 0.00 AL VLV-77-868 04/13/93 150.7667 AF VLV-77-868 07/19/93 0.00 AL FCV-63-71 10/23/91 0.00 AF FCV-63-71 11/09/91 0.9520 After Maintenance FCV-63-71 11/09/91 0.3057 AL FCV-63-71 05/10/93 1.5873 AF FCV-63-71 06/12/93 0.00 AL FCV-63-84/23/344E 09/15/90 0.3864 AF/AL FCV-63-84/23/344E 10/23/91 1.0882 AF FCV-63-84/23/344E 11/09/91 0.00 AL FCV-63-84/23/344E 05/10/93 0.00 AF/AL FCV-67-107 10/08/91 0.00 AF/AL ICV-67-107 04/12/93 0.00 AF/AL FCV-67-106/1523A 10/08/91 0.00 AF FCV-67-106/1523A 11/27/91 1.4996 AL FCV-67-106/1523A 04/10/93 0.00 AF/AL FCV-67-99 10/08/91 0.0974 AF/AL FCV-67-99 04/13/93 0.00 AF/AL FCV-67-105/1523C 10/08/91 0.6145 AF FCV-67-105/1523C 11/25/91 0.00 AL FCV-67-105/1523C 04/13/93 0.00 AF/AL FCV-V -91 10/30/91 0.00 AF/AL FCV-67-91 05/06/93 0.00 AF/AL FCV-67-90/1523B 10/30/91 0.00 AF/AL FCV-67-90/1523B 05/06/93 0.00 AF/AL FCV-67-83 10/30/91 0.00 AF/AL FCV-67-83 05/04/93 0.00 AF/AL FCV-67-89/1523D 10/30/91 0.00 AF/AL FCV-67-89/1523D 05/04/93 0.00 AF/AL FCV-67-130 10/10/91 0.00 AF/AL FC7-67-130 12/13/93 0.00 AF/AL FL355202/3777/p6

Pcge 77 of 88

,QOMPONENI DATE LEAK RATE VLV-67-580A 10/10/91 0.00 AF/AL VLV-67-580A 12/13/93 0.00 AF/AL FCV-67-133 10/10/91 0.00 AF/AL FCV-67-133 04/09/93 0.00 AF/AL VLV-67-580C 10/10/91 0.00 AF/AL N7.V-67-5800 04/09/93 0.00 AF/AL FCs'-67-138 11/12/91 0.00 AF/AL FCV-67-138 05/01/93 0.00 AF/AL VLV-67-580B 11/12/91 0.2254 AF/AL VLV-61-580B 05/01/93 0.00 AF/AL FCV-67-141 11/13/91 0.00 AF/AL FCV-67-141 05/01/93 0.00 AF/AL VLV-67-580D 11/12/91 0.00 AF/AL VLV-67-580D 05/01/93 0.00 AF/AL FCV-67-87/575A 10/08/91 6.9290 AF FCV-67-87/575A 11/26/91 0.00 AL FCV 67-87/575A 04/12/93 11.6914 AF FCV-07-97/575A 12/16/93 0.1385 AL FCV-6'/-88 10/08/91 0.9228 AF FCV-67-88 11/26/91 0.00 AL FCV-67-88 04/12/93 10.2711 AF FCV-67-88 12/16/93 0.1385 AL FCV-67-95/575C 10/08/91 0.0539 AF/AL FCV-67-95/575C 04/13/93 0.00 AF FCV-67-95/575C 12/16/93 0.00 AL FCV-67-96 10/08/91 0.00 AF/AL FCV-67-96 04/13/93 0.00 AF FCV-67-96 12/16/93 0.00 AL FCV-67-103/575B 10/30/91 0.00 AF/AL FCV-67-103/575B 05/06/93 0.00 AF FCV-67-103/575B 12/16/93 0.00 AL FCV-67-104 10/30/91 0.00 AF/AL FCV-67-104 05/06/93 0.00 AF FCV-67-104 12/16/93 0.00 AL FCV-67-111/575D 10/30/91 0.00 AF/AL FCV-67-111/575D 05/04/93 0.00 AF FCV-67-111/575D 12/16/93 0.00 AL FCV-67-112 10/30/91 0.00 AF/AL FCV-67-112 05/04/93 0.00 AF FCV-67-112 12/16/93 0.00 AL FCV-67-131 10/10/91 0.00 AF/AL FCV-67-131 04/08/93 0.00 AF/AL FCV-67-295/585A 10/10/91 0.00 AF/AL FCV-67-295/585A 04/08/93 0.00 AF/AL FCV-67-134 10/10/91 0.00 AF/AL FCV-67-134 04/08/93 0.00 AF/AL FCV-67-296/585C 10/10/91 0.00 AF/AL FCV-67-296/5850 04/08/93 0.00 AF/AL FCV-67-139 11/12/91 0.00 AF/AL i

FCV-67-139 05/01/93 0.00 AF/AL l

FCV-67-297/585B 11/12/91 0.00 AF/AL FCV-67-297/585B 05/01/93 0.00 AF/AL i

l PL355202/3777/p7

Pega 78 of 88 COMPONENT DATE LEAK RATE g

FCV-67-142 11/12/91 0.00 AF/AL FCV-67-142 05/01/93 0.00 AF/AL FCV-67-298/585D 11/12/91 0.00 AF/AL FCV-67-298/585D 05/01/93 0.00 AF/AL FCV-68-305 10/11/91 0.00 AF/AL FCV-68-305 04/13/93 0.00 AF FCV-68-305 06/10/93 0.00 AL VLV-77-849 10/11/91 0.00 AF/AL VLV-77-849 04/13/93 0.0843 AF/AL FCV-68-307 10/09/91 0.00 AF/AL FCV-68-307 04/07/93 0.00 AF FCV-68-307 12/09/93 0.00 AL FCV-68-308 10/09/91 0.00 AF/AL FCV-68-308 04/07/93 0.00 AF FCV-68-308 12/09/93 0.00 AL FCV-70-85/143/703 10/12/91 0.00 AF/AL FCV-70-85/143/703 04/07/93 0.1112 AF FCV-70-85/143/703 12/15/93 0.00 AL FCV-70-87/687 10/12/91 0.00 AF FCV-70-87/687 11/21/91 0.00 AL FCV-70-87/687 04/07/93 0.00 AF/AL FCV-70-90 10/12/91 0.00 AF FCV-70-90 11/21/91 0.00 AL FCV-70-90 04/07/93 0.00 AF/AL FCV-70-89/698 10/12/91 0.3791 AF FCV-70-89/698 11/06/91 0.00 AL FCV-70-89/698 04/06/93 0.00 AF/AL FCV-70-92 10/12/91 0.00 AF/AL FCV-70-92 04/06/93 0.00 AF/AL FCV-70-134 10/11/91 0.0622 AF/AL FCV-70-134 04/05/93 0.0987 AF FCV-70-134 12/15/93 0.00 AL VLV-70-679 10/12/91 2.9345 AF VLV-70-679 10/30/91 0.4060 AL VLV-70-679 04/05/93 440.7095 AF VLV-70-679 12/15/93 0.00 AL FCV-70-140 10/12/91 0.00 AF/AL FCV-70-140 04/07/93 0.00 AF/AL FCV-70-141/791 10/12/91 0.1177 AF/AL FCV-70-141/791 04/07/93 0.00 AF/AL FCV-77-9 10/18/91 0.00 AF FCV-77-9 10/30/91 0.00 AL FCV-77-9 04/15/93 0.00 AF FCV-77-9 12/04/93 0.00 AL FCV-77-10/84-511 10/18/91 0.00 AF FCV-77-10/84-511 10/30/91 0.00 AL FCV-77-10/84-511 04/15/93 0.00 AF FCV-77-10/84-511 12/04/93 0.00 AL FCV-77-18 10/17/91 0.00 AF/AL FCV-77-18 04/13/93 0.00 AF FCV-77-18 10/08/93 0.00 After Maintenance FCV-77-18 12/04/93 0.00 AL FL355202/3777/p8 1

1

i Page.79 of 88 COMPONENT DAIK LEAK RATI j

FCV-77-19/20 10/17/91 0.00 AF/AL FCV-77-19/20 04/13/93 0.0655 AF j

FCV-77-19/20 10/08/93 0.0421 AL i

FCV-77-127 10/23/91 0.00 AF/AL FCV-77-127 04/15/93 0.00 AF FCV-77-127 11/19/93 0.00 AL FCV-77-128 10/23/91 0.00 AF/AL FCV-77-128 04/15/93 0.00 AF FCV-77-128 11/19/93 0.00 AL VLV-78-557 10/09/91 0.00 AF/AL VLV-78-557 03/31/93 0.00 AF VLV-78-557 11/20/93 0.00 AL VLV-78-558 10/09/91 0.00 AF/AL VLV-78-558 03/31/93 0.00 AF VLV-78-558 11/20/93 0.00 AL VLV-78-560 10/09/91 0.0532 AF/AL VLV-78-560 03/31/93 0.00 AF VLV-78-560 11/20/93 0.00 AL VLV-78-561 10/09/91 0.00 AF/AL VLV-78-561 03/31/93 0.00 AF VLV-78-561 11/20/92 0.00 AL FCV-81-12 10/09/91 0.00 AF/AL FCV-81-12 04/13/93 0.00 AF FCV-81-12 11/20/93 0.00 AL VLV-81-502 10/09/91 0.00 AF/AL VLV-81-502 04/13/93 0.00 AF VLV-81-502 11/20/93 0.00 AL FCV-90-107 10/24/91 0.00 AF/AL FCV-90-107 05/12/93 0.00 AF/AL FCV-90-108 10/24/91 0.00 AF/AL FCV-90-108 05/12/93 0.00 AF/AL FCV-90-109 10/24/91 0.00 AF/AL FCV-90-109 05/12/93 0.00 AF/AL FCV-90-110 10/24/91 0.00 AF/AL FCV-90-110 05/12/93 0.00 AF/AL FCV-90-111 10/24/91 0.00 AF/AL FCV-90-111 05/12/93 0.00 AF/AL FCV-90-113 10/25/91 0.00 AF/AL FCV-90-113

.04/30/93 0.00 AF/AL FCV-90-114 10/25/91 0.00 AF/AL FCV-90-114 04/30/93 0.00 AF/AL FCV-90-115 10/25/91 0.00 AF/AL FCV-90-115 04/30/93 0.00 AF/AL FCV-90-116 10/25/91 0.00 AF/AL FCV-90-116 04/30/93 0.00 AF/AL FCV-90-117 10/25/91 0.0377 AF/AL FCV-90-117 04/30/93 0.00 AF/AL a

FSV-43-309 10/10/91 0.00 AF/AL FSV-43-309 04/09/93 0.00 AF/AL FSV-43-310 10/10/91 0.00 AF/AL FSV-43-310 04/09/93 0.00

'AF/AL FSV-43-250 10/10/91 0.00 AF/AL PL355202/3777/p9

Page 80 of 88 4

,QQ11EQ1[EI[I DAIK LEAK RATE FSV-43-250 04/09/93 0.00 AF FSV-43-250 05/21/93 0.00 AL FSV-43-251 10/10/91 0.00 AF/AL FSV-43-251 04/09/93 0.00 AF FSV-43-251 05/21/93 0.3545 AL FSV-43-318 10/10/91 0.0827 AF/AL FSV-43-318 04/09/93 0.00 AF/AL FSV-43-319 10/10/91 0.00 AF/AL FSV-43-319 04/09/93 0.00 AF/AL VLV-43-461 10/10/91 0.00 AF/AL VLV-43-461 04/09/93 30.547 AF VLV-43-461 07/13/93 0.00 AL FSV-43-317/341 10/10/91 0.00 AF/AL FSV-43-317/341 04/09/93 0.00 AF FSV-43-317/341 12/10/93 0.00 AL FSV-43-287 10/10/91 0.0827 AF/AL FSV-43-287 04/09/93 0.00 AF/AL FSV-43-288 10/10/91 0.00 AF/AL i

FSV-43-288 04/09/93 0.0557 AF/AL VLV-43-460 10/10/91 0.00 AF/AL VLV-43-460 04/09/93 0.00 AF/AL FSV-43-325/307 10/10/91 0.0617 AF/AL FSV-43-325/307 04/09/93 0.0571 AF/AL FCV-72-39 10/10/91 0.0254 CFH FCV-72-39 10/15/91 0.0254 CFH FCV-72-39 04/22/93 0.0127 CFH FCV-72-39 12/03/93 0.0254 CFH FCV-72-2 10/10/91 0.0254 FCV-72-2 10/10/91 0.0254 FCV-72-2 04/22/93 0.0127 FCV-72-2 12/03/93 0.0254 FCV-72-40/215E/215F/

10/17/91 0.0113 CFH 216E/216F FCV-72-40/215E/215F/

10/31/91 0.0113 216E/216F FCV-72-40/215E/215F/

04/28/93 0.0113 216E/216F FCV-72-40/215E/215F/

06/09/93 0.0112 216E/216F FCV-72-41/217E/217F/

10/26/91 0.0113 218E/218F FCV-72-41/217E/217F/

11/02/91 0.0113 218E/218F FCV-72-41/217E/217F/

04/29/93 0.0113 218E/218F FCV-72-41/217E/217F/

05/15/93 0.0113 218E/218F PL355202/3777/p10

Pege 81 of 88 l

COMPONENT DAIK LEAK RATE 690' Airlock 08/30/90 0.1667 AF/AL 690' Airlock 01/24/91 7.4452 AF/AL 690' Airlock 06/25/91 7.9753 AF/AL 690' Airlock 11/24/91 18.67 AF 690' Airlock 11/25/91 0.0611 AL 690' Airlock 04/22/92 17.3727 AF 690' Airlock 04/22/92 5.5014 AL 690' Airlock 09/09/92 1.3183 AF/AL 690' Airlock 02/09/93 0.9897 AF/AL 690' Airlock 12/04/93 4.2494 AF/AL 734' Airlock 08/31/90 1.1363 AF/AL 734' Airlock 01/22/91 8.4127 AF/AL 734' Airlock 06/20/91 5.0964 AF/AL 734' Airlock 11/20/91 14.1737 AF 734' Airlock 11/22/91 4.2807 AL 734' Airlock 04/21/92 1.1444 AF/AL 734' Airlock 09/08/92 2.4650 AF/AL 734' Airlock 02/16/93 2.9828 AF/AL 734' Airlock 11/10/93 2.8427 AF/AL

+

SI-159.3.3 "A" H2 Analyzer 10/28/91 0.00 AF "A" H2 Analyzer 12/04/91 0.0459 After Maintenance "A" H2 Analyzer 12/06/91 0.00 AL "A" H2 Analyzer 04/24/93 0.3918 AF "A" H2 Analyzer 05/07/93 0.00 AL "A" H2 Analyzer 11/18/93 0.00 AF/AL SI-159.3.4 "B" H2 Analyzer 09/02/90 0.00 AF "B" H2 Analyzur 09/04/90 0.00 AL "B" H2 Analyzer 10/28/91 0.00 AF e

"B" H2 Analyzer 12/04/91 0.0500 After Maintenance "B" H2 Analyzer 12/06/91 0.00 AL "B" H2 Analyzer 04/24/93 0.0623 AF "B" H2 Analyzer 05/05/93 0.00 AL "B" H2 Analyzer 12/06/93 0.00 AF/AL SI-159.5.1 Cont. Pressure Taps PS-30-46A 11/19/91 0.00 12/05/93 0.00 PS-30-46B 11/19/91 0.00 12/05/93 0.00 PS-30-47A 11/19/91 0.00 12/05/93 0.00 PS-30-47B 11/19/91 0.00 12/05/93 0.00 PS-30-48A 11/19/91 0.00 12/05/93 0.00 PS-30-48B 11/19/91 0.00 12/05/93 0.00 PDT-30-30C 11/19/91 0.00 12/05/93 0.00 FT-30-310 11/19/91 0.00 12/05/93 0.00 j

PT-30-311 11/19/91 0.00 12/05/93 0.00 PDT 42 11/19/91 0.00 12/05/93 0.00 PDT-30-43 11/19/91 0.00 30-43 02/28/92 12/05/93 0.00 PDT-30-44 11/19/91 0.00 0.00 12/05/93' O.00 PDT-30-45 11/19/91 0.00 12/05/93 0.00 i

PL355202/3778/p1 1

l

Page 82 of 88 COMPONENT DAIE LEAK RAIS Resilient Seal X-1 10/06/91 0.00 Resilient Seal X-1 12/03/91 0.00 Resilient Seal X-1 03/24/92 0.00 Resilient Seal X-1 03/20/93 0.00 Resilient Seal X-1 12/15/93 0.00 Resilient Seal X-1 10/07/91 0.00 Resilient Seal X-1 11/29/91 0.00 Resilient Seal X-1 03/20/93 0.00 Resilient Seal X-1 11/03/93 0.00 Bellows X-12A Inboard 10/26/91 0.0003 Bellows X-12A Inboard 05/04/93 0.00 Bellows X-12A Inboard 10/22/93 0.00 Bellows X-12A Outboard 10/26/91 0.00 Bellows X-12A Outboard 05/04/93 0.00 Bellows X-12A Outboard 10/22/93 0.00 Bellows X-12B Inboard 10/26/91 0.0003 Bellows X-12B Inboard 04/23/93 0.00 Bellows X-12B Inboard 10/19/93 0.00 Bellows X-12B Outboard 10/26/91 0.0016 Bellows X-12B Outboard 04/23/93 0.00 Bellows X-12B Outboard 10/19/93 0.0336 Bellows X-12C Inboard 10/26/91 0.0012 Bellows X-12C Inboard 04/22/93 0.00 Bellows X-12C Inboard 10/19/93 0.00 Bellows X-12C Outboard 10/25/91 0.0011 Bellows X-12C Outboard 04/22/93 0.00 Bellows X-12C Outboard 10/19/93 0.00 Bellows X-12D Inboard 10/26/91 0.00 Bellows X-12D Inboard 05/03/93 0.00 Bellows X-12D Inboard 10/22/93 0.00 Bellows X-12D Outboard 10/26/91 0.00 Bellows X-12D Outboard 05/03/93 0.00 Bellows X-12D Outboard 10/22/93 0.00 BelJcws X-13A Inboard 10/26/91 0.0002 Bellows X-13A Inboard 05/03/93 0.00 Bellows X-13A Inboard 10/22/93 0.00 Bellows X-13A Outboard 10/26/91 0.00

]

Bellows X-13A Outboard 05/03/93 0.00 Bellows X-13A Outboard 10/22/93 0.00 Bellows X-13B Inboard 10/26/91 0.0006 Bellows X-13B Inboard 05/04/93 0.00 Bellows X-13B Inboard 10/26/93 0.00 Bellows X-13B Outboard 10/26/91 0.0001 Bellows X-13B Outboard 05/04/93 0.00 Bellows X-13B Outboard 10/26/93 0.00 Bellows X-13C Inboard 10/26/91 0.012 Bellows X-13C Inboard 05/05/93 0.00 Bellows X-13C Inboard 10/22/93 0.00 Eellows X-13C Outboard 10/26/91 0.0005 4

Bellows X-13C Outbeard 05/05/93 0.00 Bellows X-13C Outboard 10/22/93 0.00 PL355202/3778/p2 j

Pcge 83 of 88 MMEDEE DATE 1&AK_EAIE j

Bellows X-13D Inboard 10/26/91 0.00 Bellows X-13D Inboard 05/03/93 0.00 Ballows X-13D Inboard 10/22/93 0.00 Ballows X-13D Outboard 10/26/91 0.00 Bellows X-13D Outboard 05/03/93 0.00 Bellows X-13D Outboard 10/22/93 0.00 Bellows X-14A 10/26/91 0.0006

.Bsilows X-14A 05/04/93 0.00 Bellows X-14A 10/22/93 0.00 Bellows X-14B 10/26/91 0.0004 Bellows X-14B 05/03/93 0.00 Bellows X-14B 10/22/93 0.00 Bellows X-14C 10/26/91 0.0001 Bellows X-14C 05/04/93 0.00 Bellows X-14C 10/22/93 0.00 Bellows X-14D 10/26/91 0.00 Bellows X-14D 05/03/93 0.00 Bellows X-14D 10/22/93 0.00 Bellows X-15 10/26/91 0.0006 Bellows X-15 04/24/93 0.00 Bellows X-15 10/20/93 0.00 Bellows X-17 10/26/91 0.00 Bellows X-17 04/23/93 0.00 Bellows X-17 10/20/93 0.00 Bel ows X-20A 10/26/91 0.0004 Lellows X-20A 04/24/93 0.00 Bellovs X-20A 10/20/93 0.00 Bellows X-20B 10/26/91 0.0005 Bellows X-20B 04/24/93 0.00 Bellows X-20B 10/20/93 0.00 Bellows X-21 10/26/91 0.0001 Bellows X-21 04/24/93 0.00 Bellows X-21 10/20/93 0.00 Bellows X-22 10/26/91 0.00 Bellows X-22 04/24/93 0.00 Bellows X-22 10/21/93 0.00 Bellows X-24 10/26/91 0.0004 Bellows X-24 04/24/93 0.00 Bellows X-24 10/20/93 0.00 Bellows X-30 10/27/91 0.0001 Bellows X-30 04/24/93 0.00 Bellows

.T -30 10/22/93 0.00 Bellows Y

'2 10/26/91 0.0005 Bellows X-32 04/24/93 0.00 bellows X-32 10/21/93 0.00 Bellows X-33 10/26/91 0.00 Bellows X-33 04/24/93 0.00 Bellows X-33 10/21/93 0.00 Resilient Seal X-40D 10/17/91 0.00 Resilient Seal X-40D 03/26/93 0.00 Resilient Seal X-40D 10/25/93 0.00 PL355202/3778/p3 l

Page 84 of 88 GQMPONENT DAIE LEAK RATE Ballows X-45 10/26/91 0.002 3 allows X-45 04/24/93 0.00 Bellows X-45 10/21/93 0.00 Bellows X-46 10/26/91 0.0008 Bellows X-46 04/24/93 0.00 Bellows X-46 10/21/93 0.00 Bellows X-47A Inboard 10/27/91 0.0002 Bellows X-47A Inboard 05/05/93 0.00 Bellows X-47A Inboard 10/19/93 0.00 Ballows X-47A Outboard 10/27/91 0.0002 Bellows X-47A Outboard 05/05/93 0.00 Bellows X-47A Outboard 10/19/93 0.00 Bellows X-47B Outboard 10/27/91 0.0003 Bellows X-47B Inboard 05/05/93 0.00 Bellows X-47B Inboard 10/19/93 0.00 Bellows X-47B Outboard 10/27/91 0.0002 Bellows X-47B Outboard 05/05/93 0.00 Bellows X-47B Outboard 10/19/93 0.00 Resilient Seals X-54 10/06/91 0.00 Resilient Seals X-54 11/26/91 0.00 Resilient Seals X-54 03/24/93 0.00 Resilient Seals X-54 10/20/93 0.00 Resilient Seals X-79A 10/06/91 0.1695 Resilient Seals X-79A 11/20/91 0.0003 Resilient Seals X-79A 03/25/93 0.00 Resilient Seals X-79A 12/07/93 0.00 Resilient Seals X-79B 10/06/91 0.00 Resilient Seals X-79B 11/20/91 0.0928 Resilient Seals X-79B 11/21/91 0.00 Resilient Seals X-79B 03/25/93 0.00 Resilient Seals X-79B 12/07/93 0.00 Bellows X-81 10/27/91 0.0004 Bellows X-81 04/24/93 0.00 Bellows X-81 10/21/93 0.00 Bellows X-88 10/06/91 0.0011 Bellows X-88 11/29/91 0.00 Bellows X-88 03/24/93 0.00 Bellows X-88 10/20/93 0.00 Bellows X-88 12/10/93 0.00 Bellows X-107 10/26/91 0.0006 Bellows X-107 04/24/93 0.00 Bellows X-107 10/22/93 0.00 Bellown X-108 10/27/91 0.0008 Bellows X-108 05/04/93 0.00 Bellows X-108 10/21/93 0.00 Bellows X-109 10/27/91 0.0002 Bellows X-109 05/04/93 0.00 Bellows X-109 10/21/93 0.00 PL355202/3778/p4

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b Pege 85 of 88 COMPONENT DAIE LEAK RAIE

'Rzsilient Seals X-111 10/17/91 0.00 Resilient Seals X-111 04/14/93 0.00 Rssilient Seals X-lli 10/18/93 0.00 Resilient Seals X-ll2 10/17/91 0.00 Resilient Seals X-lii 04/14/93 0.00 Resilient Seals X-ll2 10/18/93 0.00 Resilient Seals' X-113 10/17/91 0.00 Resilient Seals X-113 04/14/93 0.00 Rasilient Seals X-ll?

10/18/93 0.00 Rasilient Seals X-11' 10/07/91 0.00 Rssilient Seals X-117 11/26/91 0.00 Resilient Seals X-117 03/24/93 0.00 Rssilient Seals X-117 12/10/93 0.00 Resilient Seals X-118 10/06/91 0.00 Resilient Seals X-118 11/26/91 0.00 Resilient Seals X-118 03/24/93 0.09 Resilient Seals X-118 10/20/93 0.00 Resilient Seals X-108 10/06/91 0.00 Resilient Seals X-103 11/22/91 0.00 Resilient Seals X-108 03/25/93 0.0302 Resilient Seals X-106 10/25/93 0.00 Resilient Seals X-109 10/06/91 0.00 Resilient Seals X-109 11/22/91 0.00 Resilient Seals X-109 03/25/93 0.00 Resilient Seals X-109 10/25/93 0.00 ElLCM M Ala X-120E 10/25/91 0.00 X-120E 04/02/93 0.00 X-120E 11/04/93 0.00 X-121E 10/24/91 0.3889 X-121E 04/10/93 0.00 X-121E 04/14/93 0.00 X-121E 11/04/93 0.00 X-122E 10/25/91 0.00 X-122E 04/17/93 0.00 X-122E 10/28/93 0.00 X-123E 10/25/91 0.00 X-123E 04/19/93 0.00 X-123E 11/05/93 0.00 X-124E 10/25/91 0,00 X-124E 04/21/93 0.00 X-124E 11/04/93 0.00 X-126E 10/22/91 2.9020 X-126E 11/26/91 3.1290 X-126E 03/29/93 3.3718 X-126E 11/02/93 0.00 X-127E 10/24/91 0.00 X-127E 04/17/93 11.4673 X-1211 10/28/93 11.4867 PL355202/3778/p5

Page 86 of 88 COMPONENT DAIE LEAK RATE g

X-128E 10/24/91 0.00 X-128E 11/26/91 0.00 X-128E 04/03/93 0.00 X-128E 10/26/93 0.00 X-129E 10/25/91 0.3417 X-12CE 03/27/93 0.6124 X-129E 04/14/93 0.00 X-129E 10/28/93 0.3495 X-131E 10/25/91 0.00 X-131E 04/19/93 0.00 X-131E 11/09/93 0.00 X-132E 10/25/91 0.00 X-132E 04/02/93 0.00 X-132E 11/05/93 0.00 X-133E 10/25/91 0.00 X-133E 04/02/93 0.00 X-133E 11/05/93 0.00 X-134E 10/23/91 0.00 X-134E 04/03/93 0.00 X-134E 10/28/93 0.00 X-135E 10/23/91 0.00 X-135E 04/03/93 0.00 X-135E 10/28/93 0.00 X-136E 10/25/91 0.00 X-136E 04/03/93 0.7266 X-136E 10/28/93 0.00 X-137E 10/24/91 0.0284 X-137E 04/18/93 0.0992 X-137E 10/28/93 0.0978 X-138E 10/23/91 0.06965 X-138E 04/03/93 0.7266 X-138E 10/28/93 0.4991 X-139E 10/23/91 0.00 X-139E 03/29/93 0.00 X-139E 10/28/93 0.00 X-140E 10/25/91 0.00 X-140E 04/18/93 0.00 X-140E 10/28/93 0.00 X-141E 10/25/91 0.00 X-141E 04/19/93 0.00 X-141E 11/05/93 0.00 X-142E 10/23/91 0.00 X-142E 04/19/93 0.00 X-142E 10/28/93 0.00 X-143E 10/25/91 0.0489 s

X-143E 04/01/93 0.3969 X-143E 11/05/93 0.3680 X-144E 10/25/91 0.00 X-144E 04/02/93 0.00 X-144E 11/05/93 0.00 X-145E 10/25/91 0.00 PL355202/3778/p6

)

Pcge 87 of 88 GQHEQERI DATE LEAK RATE X-145E 04/19/93 0.00 X-145E 11/09/93 0.00 X-146E 10/25/91 1.5848 X-146E 04/19/93 2.0249 X-146E 05/18/93 1.4448 X-146E 11/09/93 1.3292 X-147E 10/22/91 0.00 X-147E 03/29/93 0.0393 X-147E 11/02/93 0.00 X-148E 10/22/91 0.0032 X-148E 03/29/93 0.00 X-148E 11/04/93 0.00 X-149E 10/23/91 0.00 X-149E 03/29/93 0.00 X-149E 11/04/93 0.00 X-150E 10/23/91 0.00 X-150E 03/29/93 0.00 X-150E 11/02/93 0.00 X-151E 10/22/91 0.00 X-151E 03/29/93 0.00 X-151E 11/04/93 0.00 X-152E 10/23/91 0.00 X-132E 03/29/93 0.00 X-152E 11/04/93 0.00 X-153E 10/24/91 0.0286 X-153E 04/17/93 0.00 X-153E 10/28/93 0.00 X-154E 10/24/91 0.00 X-154E 04/17/93 0.00 X-154E 10/28/93 0.00 X-156E 10/24/91 21.9532 X-156E 04/03/93 57.0714 X-156E 05/12/93 0.00 X-156E 11/05/93 0.00 X-157E 10/24/91 0.00 X-157E 04/17/93 0.00 X-157E 10/26/93 0.00 X-158E 10/24/91 0.00 X-158E 04/17/93 0.0992 X-158E 10/26/93 1.3912 X-159E 10/24/91 0.00 X-159E 04/03/93 0.00 X-159E 10/26/93 0.00 X-160E 10/25/91 0.0489 X-160E 04/03/93 0.1464 X-160E 10/26/93 0.00 X-161E 10/22/91 0.00 X-161E 04/03/93 0.00 X-16TA 10/26/93 0.00 X-163E 10/24/91 1.0602 PL355202/3778/p7

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X-163E 04/03/93 1.3014 X-163E 10/27/93 0.5393 X-164E 10/24/91 0.00 X-164E 04/03/93 16.9270 X-164E 10/26/93 3.7722 X-165E 10/24/91 0.00 X-165E 04/03/93 0.00 X-165E 10/26/93 0.00 X-166E 10/24/91 0.00 X-166E 04/17/93 0.00 X-166E 10/26/93 0.00 X-167E 10/25/91 0.00 X~167E 03/23/93 0.00 X-167E 10/28/93 0.00 X-168E 10/22/91 0.00 X-168E 11/26/91 0.00 X-168E 03/27/93 0.00 X-168E 10/28/93 0.00 X-169E 10/22/91 0.00 X-169E 03/27/93 0.00 X-169E 10/28/93 0.00 X-170E 10/25/91 0.00 X-170E 03/27/93 0.00 X-170E 10/28/93 0.00 PL355202/3778/p8

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