Reactor Containment Bldg Ilrt,Types A,B & C Preoperational Test

ML20214F347
Person / Time
Site:	Beaver Valley
Issue date:	05/08/1987
From:	Lacey W, Patterson J, Zyra T STONE & WEBSTER ENGINEERING CORP.
To:
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ML20213H013	List: ML20213H011 ML20214F347
References
NUDOCS 8705260040
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REACTOR CONTAINMENT BUILDING INTEGRATED LEAKAGE RATE TEST TYPES A, B, AND C PREOPERATIONAL TEST DUQUESNE LIGHT COMPANY BEAVER VALLEY POWER STATION UNIT 2 FEBRUARY 1967 O Prepared By: Stone & Webster Engineering Corporation Reviewed By: k b "J Date: 6-l 67 J.@.Patterson Test Engineer Reviewed Ey: eW. 'Date: 6'6~N T. G. {yra y

Director Testing & Plant Performance Approved By

M Date: ~ b 8 'O 7 acey A.S.[

Plant Manager 8705260040 870511 2 PDR ADOCK 0500 A

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( ) TABLE OF CONTENTS a

Section. Title Page TABLE OF CONTENTS 11 LIST OF. ATTACHMENTS iii REFERENCES iv 1 PURPOSE 1-1

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SUMMARY

2-1 2.1 TYPE A TEST 2-1 4 2.1.1' Test Summary 2-1 2.1.2 Conclusion 2-2

. 2.2 LOCAL LEAKAGE RATE TESTS (TYPES B AND C) 2-3 1

3 TYPE A TEST- 3.1-1 3.1 EDITED LOG OF EVENTS 3.1-1 3.2~ GENERAL TEST DESCRIPTION 3.2-1 i 3.2.1 Prerequisites 3.2-1 3.2.2 Equipment and Instrumentation 3.2-2 3.2.3 Data Acquisition System 3.2-2 3.2.4 Data Resolution System 3.2-3

, 3.3 TEST RESULTS 3.3-1 f

3.3.1 Presentation of Test Results 3.3-1

3.3.2 59.396 psia ILRT Results 3.3-1 2

3.3.2.1 ILRT Results - Mass Point Analysis 3.3-1 3.3.2.2 ILRT Results - Total Time Analysis 3.3-2 3.3.2.3 Supplemental Test Results 3.3-2 3.3.2.4 Leakage Penalties Added-to Type A 3.3-4 Leakage 4 . LOCAL LEAKAGE RATE TESTS (TYPES B AND C) 4-1 i

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LIST OF ATTACHMENTS ATTACHMENT TITLE 2.lA Graph 1 - Containment Mass versus Time 3.2A Site Meteorology 3.2B. Instrumentation List 3.2C ILRT. Temperature Detector Locations (Plan View) 3.2D ILRT Temperature Detector Locations (Profile View) 3.2E ILRT Dewpoint Temperature Sensor Locations (Plan View) 3.2F ILRT Dewpoint Temperature Sensor Locations (Profile View) 3.3A ILRT Reduced Input Variables

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3.3B. ILRT Absolute Test Method - Mass Point Analysis Test Results 3.3C ILRT Absolute Test Method - Total Time Analysis Test Results 3.3D- Graph 2 - Containment Mass vs. Time 3.3E Graph 3 - Leakage Rate and UCL vs. Time, Mass Point Analysis 3.3F Graph 4 - Leakage Rate and UCL vs. Time, Total Time Analysis 3.3G Superimposed Leakage Verification Test Reduced Input Variables 3.3H Superimposed Leaksge Verification Test, Absolute Test Method - Mass Point Analysis Test Results 3.3I Superimposed Leakage Verification Test, Absolute Test l Method - Total Time Analysis Test Results 4A 1987 Local Leakage Rate Test Data 111

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I REFERENCES J

1. 10CFR50,[AppendixJ,PrimaryReactorContainmentLeakageTestingFor Water-Cooled Power Reactors, October 22, 1980.

2. PO-2,47.07, Containment Type A Leakage Rate Test, Beaver Valley Power Station Unit 2,-Preoperational Test Procedure.

3. ANSI N45.4, American National Standard Leakage - Rate Testing of Containment Structures For Nuclear Reactors, March 16, 1972.

4. ANSI /ANS-56.8, Con {ainmentSystemLeakageTestingRequirements, February 19, 1981.

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This document used only as a guideline and any reference to said document in no

way implies compliance.

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SECTION 1 Q/

PURPOSE The purpose of this report . is to present .a description and analysis .of the February ' 1987, Preoperational - Type A Reactor Containment Building Integrated-Leakage. Rate Test (ILRT) and a. summary of the Types B and C Local Leakage Rate

-Tests (LLRT's) performed at Duquesne Light Company's Beaver Valley Power Station F Unit 2 (BVPS 2).

Duquesne Light Company (DLC) has the responsibility for licensing, design, procurement, construction, operation, and all related functions with respect to Unit 2. DLC, along with three other utilities, own, as tenants in common, proportional interests in Unit 2.

Stone & Webster Engineering Corporation (SWEC) provided test engineering consultation services to DLC during the performance of this test.

This report is submitted as required by 10CFR50, Appendix J. Paragraph V.B.

(Reference 1).

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SECTION 2

SUMMARY

2.1 TYPE A TEST 2.1.1 Test Summary i The Structural Integrity Test (SIT) for the containment was successfully completed on February 12, 1987. The containment was opened and an entry was made to perform a general inspection. The valve lineups required for the ILRT had been established for the SIT.

Pressurizatifon for the ILRT began at approximately 1027 hours0.0119 days <br />0.285 hours <br />0.0017 weeks <br />3.907735e-4 months <br /> on February 12,

-1987 with a fairly constant pressurization rate of 4.42 psi per--hour.

Pressurization was temporarily secured at 1810 hours0.0209 days <br />0.503 hours <br />0.00299 weeks <br />6.88705e-4 months <br /> due to a pressurization skid air dryer trip on high refrigerant . pressure. This was ' caused by high chilled water temperature. Pressurization of the containment was resured at approximately 2037 hours0.0236 days <br />0.566 hours <br />0.00337 weeks <br />7.750785e-4 months <br />. The compressors were secured at approximately 2333 hours0.027 days <br />0.648 hours <br />0.00386 weeks <br />8.877065e-4 months <br /> on February 12, 1987 with a peak instantaneous pressure of 61.46 psia.

At 0405 hours0.00469 days <br />0.113 hours <br />6.696429e-4 weeks <br />1.541025e-4 months <br /> on February 13, 1987, the procedural temperature stabilization-criteria was satisfied. Initial mass trends iodicated an unacceptable leakage rate of. approximately 40 ~ lbm/hr. Extensive leakage 'i nvestigations of all penetration areas were conducted. These investigations revealed three substantial leakage paths in the Recirculation Spray Syrtem (RSS). Various O' minor leakage paths were also identified.

in the RSS were as follows:

The three substantial leakage paths-

1. Block Valve 2RSS*4 which isolates the non-seismic Demineralized Water System from the RSS..

2. RSS Pump 2RSS*P21B shaft seal swagelok fitting.

3. RSS Pump 2RSS*P21D shaft seal.

At approximately 1059 hours0.0123 days <br />0.294 hours <br />0.00175 weeks <br />4.029495e-4 months <br />, the leakage through 2RSS*4 war. isolated by closing the manual valve on the pump recirculation line. Mass trends from 1100 hours0.0127 days <br />0.306 hours <br />0.00182 weeks <br />4.1855e-4 months <br /> to approximately 1700 hours0.0197 days <br />0.472 hours <br />0.00281 weeks <br />6.4685e-4 months <br /> indicated an unacceptable leakage rate of approximately

, - 22 lbm/hr. The next substantial leakage path, which was the 2RSS*P21B shaft seal swagelok fitting, was isolated at approximately 1715 hours0.0198 days <br />0.476 hours <br />0.00284 weeks <br />6.525575e-4 months <br />. This isolation

! was performed by isolating the entire. loop outside of containment by closing the isolation valves. The mass trend following this second isolation indicated an acceptable leakage rate of about 8 lbm/hr. Section 3.3.2.4 contains the as-found and as-left leakage rates for the 2RSS*4 and 2RSS*P21B shaft seal swagelok fitting. ' Attachment 2.1A shows how the mass trend was affected by these two isolations.

The start time for the Type A Test was finally declared to be 1903 hours0.022 days <br />0.529 hours <br />0.00315 weeks <br />7.240915e-4 months <br /> on February 13, 1987 when the stability of all the containment parameter trends had

, recovered from the last isolation.

Temperature, dewpoint, and pressure data was continuously collected at one

( minute intervals throughout the entire test period and were printed at 10 minute intervals.

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f'} The Type A Test was successfully completed at 1905 hours0.022 days <br />0.529 hours <br />0.00315 weeks <br />7.248525e-4 months <br /> on February 14, 1987

.V with a Mass Point Upper Confidence Limit (UCL-MP) of 0.037056 percent / day and a Total Time Upper Confidence Limit (UCL-TT) of 0.057981 percent / day, (See Section 3.3, Test Results). Both the Mass Point and Total Time leakage rates were well below the 0.75 La acceptance criteria of 0.075 percent per day.

The Superimposed Leakage Verification Test was started at 2205 hours0.0255 days <br />0.613 hours <br />0.00365 weeks <br />8.390025e-4 months <br /> on February 14, 1987 when the stability of all the containment parameter trends _ had recovered from the imposed leakage rate perturbation. The Superimposed Leakage Verification Test was successfully completed at 0205 hours0.00237 days <br />0.0569 hours <br />3.38955e-4 weeks <br />7.80025e-5 months <br /> on February 15, 1987.

The results of the verification test satisfied the requirements set forth in Reference 2, (See Section 3.3, Test Results).

Depressurization of the containment commenced at 0240 hours0.00278 days <br />0.0667 hours <br />3.968254e-4 weeks <br />9.132e-5 months <br /> and was completed at 1045 hours0.0121 days <br />0.29 hours <br />0.00173 weeks <br />3.976225e-4 months <br /> on February 15, 1987.

2.1.2 Conclusion The February 1987 Beaver Valley Power Station Unit 2 Type A Test was successfully completed, thus demonstrating the leak-tightness of the containment boundary. The as-left leakage rate is well below the plant's procedural acceptance criteria, s

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2.2 LOCAL LEAKAGE RATE TESTS'(TYPES B AND'C)

P The Local Leakage Rate Tests _ (LLRT's) 'of the containment iso;ation valves and other' containment penetrations were conducted as. required by . the methods

{ described. in -the Beaver Valley. Power Station Unit 2 Preoperational test-procedures'for the Type B.and Type C tests. . >

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i .. In accordance with Appendix J to 10CFR50, Paragraph V.B. , data for the' Local Leakage Rate Tests are summarized in Section 4 of this report.

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- e e e a m -- - - - - - - - - m m m m m ms 13 Feb 1987 14 Feb 1987 TIME - HOURS RTTRCHMENT 2.IR MRSS VS. TIME BERVER VRLLEY UNIT 2 INTEGRATED LERKRGE RATE TEST-4 L . . _ . _ _ _ __ _ _ _ - _ _ __ _ _ _ _ _ _ _ _ _ _ . _

4 SECTION 3 TYPE A TEST

' 3.1 EDITED LOG 0F EVENTS.

This log was edited !from information contained . in the Test Director's Type A Test Log.

February 12, 1987 0915 - . Secured the containment personnel airlock and successfully Type B tested both door seals. Secured containment lighting.

1027'- Commenced' Typ'e A pressurization. Initial containment pressure.

@ 14.2. psia.(PIT-102).

1110 - Replaced PIT-102 BCD card to plant computer.

1530 - Containment pressure @ 38.240 psia (PIT-102).

Pressurization rate approximately 4.42 psi /hr.

'1810 - Temporarily - ~ secured . containment pressurization. due to - the tripping of the pressurization test skid air dryer.

[ 2037 - Resumed containment pressurization.

2335 - -Secured containment pressurization. with a peak instantaneous

-pressure of 61.46 psia.

February 13, 1987 0005 - Commenced Type A stabilization period.

0405 - Satisfied procedural temperature stabilization criteria.

0630 - . Initiated an extensive leakage investigation of the RSS and identified three substantial leakage paths as follows:

a. Block Valve 2RSS*4.

b. RSS Pump 2RSS*P21B shaft seal swagelok fitting.

c. RSS Pump 2RSS*P21D shaft seal.

! 1059 - Isolated leak past block valve 2RSS*4.

- 1715 - Isolated leak at RSS Pump 2RSS*P21B shaft seal swagelok fitting.

i 1805 - Consenced 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> Type A test period with a peak instantaneous i pressure of 60.906 psia.

L LO I 3.1-1

J l( ' 1903 - Declared restart of 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> Type A test period.

-February 14, 1987 0100 - Observed RSS Pump 2RSS*P21B shaft seal swagelok fitting still leaking.

1905 - Completed 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> Type A test period.

, 1942 -- Initiated a 4.5 scfm flow for the Superimposed Leakage Verification Test.

2055 - Commenced the Superimposed Leakage Verification Test.

2205 -- Declared restart of the Superimposed Leakage Verification Test.

February 15, 1987 0205 - Completed the Superimposed Leakage Verification Test.

4 0240 - Began depressurization of the containment at approximately 8 psi /hr.

l 1045 - Completed containment depressurization.

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i 3.'2 GENERAL TEST DESCRIPTION 3.2.1 Prerequisites In _ accordance 'with the Beaver Valley Power Station Unit 2 Type A procedure, PO-2.47.07. the following is a. listing of the pertinent prerequisites completed and documented prior to containment pressurization:

a.. Controlled Access Program in effect.

b. Containment Roundness Survey completed..

c. All Types-B and C Local Leakage Rate Testing completed.

d. All test instrumentation calibrated or functionally verified within 6 months of the test.

e. All required penetration valve lineups completed.

.f. Instrument Location Survey completed.-

g. All ILRT computer _ software used for data acquisition,' and' calculations, tested and. operational.

h. The Type A Test Log established.

i.- Site meteorology data recorded during the ILRT, (Attachment 3.2A).

j. Temporary air compressors and test skid checked out and available for pressurization,

k. All equipment that could be damaged by test pressure, removed or protected.

1. Portable pressure containing equipment removed from the containment.

building.

m. Pressure test of the secondary sides of the steam generators and feedwater piping completed.

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n 3.2.2 Equipment and Instrumentation (V)

Pressurization of the containment was achieved by the utilization of a temporary system consisting of eight air compressors, two aftercoolers and a refrigerant air dryer. The system included adequate instrumentation and valving to maintain proper monitoring and control of the compressed air quality throughout the pressurization sequence. The total capacity of the pressurization system was rated at approximately 10,200 standard cubic feet per minute (scfm). Air was supplied to the containment through the plant's Leakage Monitoring and Containment Purge Systems.

The various containment parameters required to calculate containment leakage during the test were monitored using instrumentation which consisted of 18 resistanca temperature detectors, 5 dewpoint temperature sensors, and an absolute pressure quartz manometer. Pertinent data for the test instrumentation is listed in Attachment 3.2B, and the general locations of the temperature and dewpoint instrumentation are shown in Attachments 3.2C through 3.2F.

A rotometer was used to perform the Superimposed Leakage Verification Test.

3.2.3 Data Acquisition System The data acquisition system used for the Beaver Valley Power Station Unit 2 ILRT was the plant process computer.

O For the ILRT,. the plant process computer monitored the following V instrumentation:

M No. of Sensors Tenperature Detectors 18 Dewpoint Sensors 5 Quartz Manometers 2 i

Instantaneous readings for each sensor were collected at one minute intervals and were printed every 10 minutes. Input to the data analysis program was based on these collections. Each data set was time stamped.

3.2-2 i

( ) 3.2.4 Data Resolution System The recorded data was inputted to Stone & Webster Engineering Corporation's (SWEC) portable computer for data reduction and leakage rate calculations. Both the Mass Point and Total Time Analysis Methods were used to determine the leakage rates.

Absolute Method of Mass Point Analysis The Absolute Method of Mass Point Analysis consists of calculating the air mass within the containment structure, over the test period, using pressure, temperature, and dewpoint observations made during the ILRT. The air mass is computed using the ideal gas law as follows:

M = 144V(P-Pv)

RT (Eq. 1) where M = air mass, lbm P = total pressure, psia Pv = average vapor pressure, psia R = 53.35 ft-lbf/lb, R (for air)

T = average containment temperature. R V = containment free volume, 1,716,633 ft 3 The leakage rate is then determined by plotting the air mass as a function of time, using a least-squares fit to determine the slope, A = dM/dT. The leakage rate is expressed as a percentage of the air mass lost in 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> or symbolically:

Leakage Rate = A/B(-2400) (Eq. 2)

Where A is the slope of the least-squares curve and B is the y-intercept. The sign convention is such that the leakage out of the containment is positive, and the units are in percent / day.

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) The air mass is calculated and the result is correlated as a function of time by means of a least-squares curve fit of the form:

M = At + B (Eq. 3)

The slope A and .y-intercept B are ' then used in Equation 2 to determine the leakage rate.

A confidence interval is calculated using a Student's T distribution. The sum of the leakage rate and confidence interval is the Upper Confidence Limit-Mass Point (UCL-MP).

Absolute Method of Total Time Analysis The Absolute Method of Total Time Analysis consists of calculating air lost from

-the containment, using pressure, temperature, and dewpoint observations made.

during the ILRT.

The containment air mass is computed using Equation 1. The measured leakage rate at any time (t) is then determined by subtracting the mass at that time (Mt) from the initial mass (Mi) and dividing by the initial mass. The measured leakage rate is expressed as a percentage of containment mass lost in 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> or symbolically:

Measured Leakage Rate = Mi-Mt (2400) (Eq. 4)

/ Mi (At)

U] The sign convention is such that leakage out of the containment is positive, and the units are in percent / day.

The calculated leakage rate is then determined by plotting the measured leakage rate as a function of time and then performing a least-squares curve fit of the measured leakage rate values as follows:

Calculated Leakage Rata = At + B (Eq. 5) where A is the slope and B is the y-intercept of the least squares curve'.

The sua of the calculated leakage rate and the confidence interval is the Upper Confidence Limit - Total Time (UCL-TT).

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ATTACHMENT 3.2A SITE METEOROLOGY Barometric Ambient Wind Win'd Pressure Tempgrature Dewgoint Speed. Direction. General Weather Date Time (in. Hg.) ( F) { F) (MPH) (Azimuth) Conditions February 9, 1987 1000 29.23 16.0 8.6 8.5 322 Fair 1400 29.42 23.6 9.3 5.0 309" Fair 1800 29.42 24.8 14.5 5.3 292 Fair 2200 29.45 18.1 13.3 4.1 183 Fair February 10, 1987 0200 29.41 21.1 15.3 3.0 213 Fair 0600 29.35 26.3 14.2 5.4 241 Fair 1000 29.35 30.1 15.9 6.4 268 Fair 1400 29.34 37.4 19.9 7.4 287 Fair 1800 29.37 35.8 21.3 3.0 343 Fair 2200 29.42 26.7 22.7 1.2 131 Fair February 11, 1987 0200 29.42 23.9 22.0 1.7 147 Fair 0600 29.42 21.5 21.3 1.6 141 Fair 1000 29.42 28.5 24.5 3.3 2 ' Fair 1400 29.34 40.9 24.4 5.0 360 Fair 1800 29.24 39.4 26.8 1.9 78 Fair 2200 29.18 33.1 27.4 1.4 85 Fair February 12, 1987 0200 29.06 36.1 27.7 2.0 46 Cloudy / Rain 0600 28.92 36.9 33.9 1.5 110 Cloudy / Rain 1000 28.88 39.5 37.5 5.1 299 Cloudy / Rain 1100 28.90 39.4 35.5 5.4 307 Cloudy / Rain 1200 28.92 38.9 33.8 8.1 311 Cloudy / Rain 1300 28.95 37.8 31.4 6.1 332 Cloudy / Rain 1400 28.98 37.5 31.3 7.5 309 Cloudy / Rain 1500 29.03 36.6 31.0 6.1 318 Cloudy / Rain 1600 29.05 35.6 30.4 6.6 289 Cloudy / Rain 1700 29.10 34.7 28.8 6.8 309 Cloudy / Rain 1800 29.13 34.6 29.9 6.4 299 Cloudy / Rain 1900 29.14 34.6 29.9' 6.6 310 Cloudy / Rain 2000 29.17 34.5 30.6 5.2 276 Cloudy / Rain 2100 29.20 35.1 30.5 5.1 287 Cloudy / Rain 2200 29.21 35.2- 30.1 5.3 277 Cloudy / Rain 2300 29.22 35.4 30.5 6.0 270 Cloudy / Rain Page 1 of 3

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SITE METEOROLOGY.

j Barometric Ambient Wind Wind

Pressure . Temperature int Speed Direction General Weatber

Date Time (in. Hg.) ( F) De y( F)

(MPH) (Azimuth)- Conditions .

I February 13, 1987 0000 29.22 '35.5 28.3. 7.1- ' 296 Cloudy / Rain I 0100 29.23 33.8. 23.1: 9.3 311 Fair .

.i 0200 29.26 31.6 20.0 7.7 306 Fair -!

0300 29.28 .29.6 18.5 6.0 310 Fair [

3 0400 29.31 28.7 17.8 6.2 317 Fair l 4 0500 29.32 27.5 18.6 5.3 311 Fairc

• I  % 00 29.32 26.0 15.5 4.1 333 Fair l 0700 29.33. 25.3 16.2 3.5 307 Fair'-

l 0800 29.36 25.4 15.7 .6.1 351 Fair l

! 0900 29.37 24.7 14.6 3.4 8 Fair 1000 29.37 25.7 13.7 4.1 337 Fair I f 1100 29.37 27.0 14.1 3.7 308 Fair  !

l 1200 29.36 28.9 11.3 3.2 265 - Fair l 1300 29.34 30.2 15.4 4.7 271 Fair >

) 1400 29.32 31.9 14.8 5.2 267 Fair.  !

j 1500 29.30 33.1 14.9 3.5 353 Fair  :

1600 29.28 33.1 15.3 4.3 322 Fair '

! 1700 29.27 32.6 15.2 2.8 '354 Fair

1800 29.26 30.7 16.4 2.7 39 Fair r i 1900 29.25 29.4 16.3 3.0 36 Fair  !

) 2000 29.25 26.9 17.5 0.9 27 Fair  !

I 2100 29.24 26.1 16.5 2.4 78 Fair 2200 29.23 25.5 16.5 1.7 59 Fair  !

2300 29.22 25.2 16.2 1.5 79 Fair February 14, 1987 0000 29.20 23.9' 15.6 2.1 72 Fair.

• 0100 30.05 22.4 16.3 2.2 103 Cloudy ,

, 0200 30.05 23.0 18.0 1.6 114 Cloudy [

! 0300 30.05 24.2 16.1- 1. 4 . 60 Cloudy

! 0400 30.05 25.0 15.2 1.8 .52 Cloudy l 0500 30.05 25.7 .15.7 1.8 71 Cloudy ,

j 0600 30.05 26.1 15.3 '1.3 26 Cloudy l 0700 30.05' 26.4 15.7 2.4 91 Cloudy i

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ATTACHMENT 3.2A (Continued)

SITE METEOROLOGY Barometric Ambient Wind Wind Pressure Tempgrature Dewgoint Speed Direction General Weather Date Time (in. Hg.) ( F) ( F) (MPH) (Azimuth) Conditions February 14, 1987 0800 30.05 26.8 15.7 2.5 93 Cloudy 0900 30.05 27.7 15.5 2.2 93 Cloudy 1000 30.05 28.7 16.0 1.3 140 Cloudy 1100 30.05 29.9 17.1 1.9 31 Cloudy 1200 30.05 30.5 17.3 1.9 297 Cloudy 1300 30.05 32.1 18.0 1.6 359 Cloudy 1400 30.05 33.4 17.9 2.2 357 Cloudy 1500 30.05 34.1 18.0 2.4 334 Cloudy 1600 30.05 34.5 19.2 1.7 279 Cloudy 1700 30.05 34.9 20.2 2.8 219 Cloudy 1800 30.05 35.2 22.3 4.3 344 Cloudy 1900 30.05 32.1 18.7 6.3 12 Cloudy 2000 30.05 30.5 18.7 4.0 22 Cloudy 2100 30.05 27.7 18.6 5.6 329 Cloudy 2200 30.05 25.9 18.4 4.2 341 Cloudy 2300 30.05 23.9 15.3 5.8 348 Cloudy February 15, 1987 0000 30.05 21.7 12.3 5.8 23 Cloudy 0100 30.05 19.4 10.2 8.7 358 Fair / Clear 0200 30.05 17.8 10.3 7.4 354 Fair / Clear 0300 30.05 15.4 9.5 8.1 352 Fair / Clear 0400 30.05 12.7 6.8 7.8 19 Fair / Clear 0500 30.05 11.4 5.7 7.2 8 Fair / Clear Page 3 of 3

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b ATTACHMENT 3.2B INSTRUMENTATION LIST i The following instruments were calibrated and functionally verified within 6 months prior to the performance of this test and in accordance with 10CFR50, Appendix J, using instrumentation traceable to the National Bureau of-a Standards.

Weight Computer Instrument Factor Address Range Zone Elevation A. Temperature 2LMS-TE100-1 0.05810 T1001A 50-120 F II 781'-00" 2LMS-TE100-2 0.06915 T1002A 50-120 F III-2 801'-06" 2LMS-TE100-3 0.05550 T1003A- 0-300 F V-1 701'-06" 2LMS-TE100-4 0.03610 T1004A 0-300 F IV-1 745'-06" 2LMS-TE100-5 0.07440 T1005A 0-300 F I 865'-00" 2LMS-TE100-6 0.06915 T1006A 0-300 F III-2 791'-00" 2LMS-TE100-7 0.05810 T1007A 50-120 F II 781'-00" 2LMS-TE100-8 0.02340 TIOO8A 0-300 F IV-1 743'-00" 2LMS-TE100-9 0.03880 T1009A 0-300 F W2 701'-06" 2LMS-TE100-10 0.07440 T10010A 0-300 F I 865'-00"

! 2LMS-TE100-11 0.02730 T10011A 0-300 F IV-2 730'-00" 2LMS-TE100-12 0.06915 T10012A 0-300 F III-I 794'-00" i 2LMS-TE100-13 0.06915 T10013A 50-120 F III-l 802'-00"

) 2LMS-TE100-14 0.06680 T10014A 50-120 F V-2 701'-06"

21}fS-TE100-15 0.05810 T10015A 50-120 F II 777'-04"

! 2LMS-TE100-16 0.03880 T10016A 0-300 F V-1 701'-06" I

2LMS-TE100-17 0.07440 T10017A 0-300 F I 865'-00" 2IJtS-TE100-18 0.03920 T10018A 0-300 F IV-2 726'-06" i

NOTE: The temperature detectors in Zones I and II were mounted on the liner. These detectors were j temporarily moved off or away from the liner by approximately ten feet in order to sense the air j temperature of the sub volume. Zone I elevations are approximate. Zone II sensors were moved approximately to the midpoint of the annulus ring. Reference project E&DCR 2PQ-4975.

Page 1 of.2 4

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) ) (

%/ J v' ATTACHMENT 3.2B (Continued)

INSTRUMENTATION LIST Weight Computer Instrument Factor Address Range Zone Elevation B. Dewpoint 2LMS-ME100-1 0.111624 Y1014A 0 to 125 F I 848' 2LMS-ME100-2 0.111624 Y1010A 0 to 125 F I 848' 2LMS-ME100-3 0.258917 Y10llA 0 to 125 F II 701'-00" 2LMS-ME100-4 0.258917 Y1012A 0 to 125 F II 701'-00" 2LMS-ME100-5 0.258918 Y1013A 0 to 125 F II 701'-00" NOTE: 2LMS-ME100-1 and -2 were temporarily moved to elevation 848' (Approximate).

Reference project E&DCR 2PQ-4975.

C. Pressure 2LMS-PIT 101 0.000000 -

0-100 psia - -

2LMS-PIT 102 1.000000 U4226 0-100 psia - -

D. Superimposed Leakage Verification Test Flow Instrument Rotometer - -

0-10 scfm - -

Page 2 of 2

gs (

C ST l TE-17 1 lTE-1l

)

L ITE-2]

ITE-181 lTE 3]

ITE 16l T -15 Qc 2RCS *SG21 A lTE-4]

h 2RCS

• SG 21C m

l l x 3 x ' #

/ ,

lTE-14l ITE-S]

{

'Y lTE 61 2RCS

• SG213 x

ITE 81

[TE 131 g \

ITE 9l

\ \

lTE 101 ITE 111 PLAN VIEW NOTES:

1. TE l 2LMS TEl001 (TYP)

2. INSTRUMENT LOCAfl0NS SHOWN ARE ONLY APPROXIMATE ATTACHMENT 3.2C ILRT TEMPERATURE DETECTOR LOCATIONS ( RTD)

BEAVER VALLEY POWER STATION UNIT 2 i

O['N lTE 17l lTEtO] lTE 5l

\ EL.876' ITE-Il EL.824' lTE 13] O I lTE-2l l TE-121 lTE-61 O c lTE-71 1 TE 151/ -

E L . 767'-10" lTE 81 1TE 4l EL. 7 3 8'-10" lTE 181 OQ EL. 718'- 6" l TE-lli /

O Q Q Q. EL. 6 9 2'- 11" I \ \ \

\ \ \

lTE 16l l TE-91 ITE 31 PROFILE VIEW NOTES :

1. TE-l 2LMS TE1001 (TYP)

2. INSTRUMENT LOCATIONS SHOWN ARE ONLY AP PRO X IM ATE.

ATTACHMENT 3.20 ILRT TEMPERATURE DETECTOR

\ LOCATIONS ( RTD)

BE AVER vat. LEY POWER STATION-UNIT 2

d o r

) lb y) u z ME5 ME 4 ME2 2R CS

• SG21 A 2RCS*SG2ic

+ l T3 - -

,'f O ME1

<n>

Q 2RCS *SG21B

\

\

PLAN VIEW D

NOTES

1. ME-5 2LMS-MElOO 5 (TYP) 2 INSTRUMENT LOCATIONS SHOWN ARE ONLY APPROXIMATE.

ATTACHMENT 3.2E O ILRT DEWPOINT TEMPERATURE SENSOR LOCATIONS BEAVER VALLEY POWER STATION UNIT 2 j

l

O EL. 876' 8 o o 8 EL. 8 24' EL. 813' EL. 767 '- 10" b.

' ~

EL. 7 3 8'-10"

< r E L . 718 '- 6" EL. 692' 11" F / / 1 ME-3 ME5 PROFILE VIEW NOTES:

1. ME 5 3 2 LMS-MEIOO-S (TYP)

2. INSTRUMENT LOCATIONS SHOWN ARE ONLY APPROXIM ATE l

l ATTACHMENT 3.2F l

p ILRT DEWPOINT TEMPERATURE V SENSOR LOCATIONS BEAVER VALLEY POWER STATION UNIT 2 i

. . . . _ _ _ , . _ , . _ , _ . _ . . . . - - - , _ _ , _ _ _ _ _ _ _ , . .._ . ,. ., . - _ _., - ....___.__ __.__-m__ . . . _ _ _ - _

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

4 f(~ N L1" .

-g 3.3 TEST RESULTS:

1 \m / :  ;

'3.3.1 Presentation of Test Results

, The test-data for.the February 1987 ILRT is based on an approximate 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test period starting'at,1903 hours0.022 days <br />0.529 hours <br />0.00315 weeks <br />7.240915e-4 months <br /> on February 13, 1987. ,The final test results were determined using SWEC's ILRT computer program. The Reduced' Input Data, Mass

i. Point Analysis Test ~ Results, . Total Time Analysis Test Results, Superimposed '

Leakage Verification Test Results, and representative graphs'are contained in Attachments'3.3A through 3.31. ,

Both the Mass Point and Total Time Analysis Test Results for the ILRT satisfied the procedural acceptance criteria.

The . Type A test instrumentation was verified by the Superimposed- Leakage ,

. Verification Test Method. Both _ the Mass Point and Total ~ Time Analysis -Test -

Results for the Superimposed Leakage Verification Test satisfied'the-procedural acceptance criteria.

t

~ 3.3.2' 59.396 psia ILRT Results The ILRT was conducted in accordance with the Beaver Valley Power Station Unit 2 Type A ILRT procedure -PO-2.47.07. The results for the ILRT and for - the

, Supplemental Test are shown below.

3.3.2.1 ILRT Results - Mass Point Analysis l Item (Percent / Day)

1. Lam, Leakage Rate Calculated 0.035663

2. UCL, Upper Confidence Level 0.001393

.3. UCL-MP, Lam Leakage Rate 0.037056

.plus UCL-(1&2)

4. Corrections for:

(See Section 3.3.2.4)

! i. Type B Penalties 0.000138

11. Type C Penalties 0.002818 i- 111. Water Levels 0.000000 iv. 2RSS*4 and RSS "B" Loop 0.000140

. v. Total Corrections 0.003096 (1. through iv.)

t 5. - Total Reported Type A Leakage Rate 0.040152

, (Items 3 & 4)

! Results were within the acceptable limits of 0.75 La.or 0.075 percent / day.

I LO

, 3.3-1 e

. - - - - -- -a ,- ,

,,,.,,-,,,,.m , , . , , , , , , , ,.-,,v-,nn.,.-- w,-w-,,wn..en,,-,--, ,.._,-,-w --,------------,_-g-s,-,--a---, .---.,,w.+

[ 3.3.2.2. ILRT Result's - Total Time Analysid

' Item (Percent / Day)

1. Lam, Leakage Rate Calculated 0.039535-

2. UCL, Upper-Confidence Level 0.018446 3.: UCL TT, Lam Leakage Rate 0.057981 plus UCL -(1&2)

4. Corrections ~for:

(See Section 3.3.2.~4')

'i. . Type B: Penalties 0.000138

.ii. -Type C: Penalties 0.002818

.111. Water' Levels. . 0.000000-iv. 2RSS*4 and RSS "B" Loop 0.000140 v .- Total Corrections 0.003096

'(i. through.iv.)

5. Total Reported Type A Leakage Rate 0.061077

-(Items 3 & 4)

Results were within the acceptable limits of 0.75 La or 0.075 percent / day.

3.3.2.3 Supplemental Test Results

--The Supplemental Verification-Test was performed using.the. Superimposed' Leakage O ~ Verification -Test Method in accordance with. the station Type A procedure PO-2.47.07. The results - for the' Superimposed Leakage'. Verification Test are shown below.

1.- The Superimposed Leakage Verification Test is acceptable provided Lc-falls within the following~ range:

, ~(Lam + Lo - 0.25La) d Le f (Lam + Lo + 0.25La)

I' Where:. Lam = Type A calculated leakage (computer)

(Lam - MP = 0.035663 %/ day) j (Lam - TT = 0.039535 %/ day)

Lo = Superimposed leakage rate developed from rotometer (Lo - 0.097964%/ day) t La = Maximum allowable leakage rate (La = 0.1%/ day)

Le = Composite leakage (computer)

(Lc - MP = 0.140697%/ day)

(Lc - TT = 0.126205%/ day)

O 4

3.3-2

ll

-a. Mass Point

~

.(0.035663 + 0.097964-- 0.025) $ 0.140697 6 (0.035663 + 0.097964 + 0.025)

(0.108627) d 0.140697 i (0.158627)

.b~. .' Total Time-

, (0.039535 + 0.097964 - 0.025) i 0.126205 I (0.039535 + 0.097964 + 0.025)

(0.112499) $ 0.126205 6 (0.162499)

The Superimposed Leakage Verification Test met - the requirements set forth in

-Reference 2 .

i .

i 9

P 4

I F

h t

t I

j.

s

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3.3-3.

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'NJ 3.3.2.4 Leakage Penalties Added to Type A Leakage Penetration leakage to be added since these penetrations were isolated or could not be vented and drained during the Type A Test. The leakage assigned is the recorded value for minimum pathway analysis. _

Leakage

1. Type B Penalties' Description (SCF/ hour)

Electrical Penetrations "0" Rings 0.3980 Total Type B Leakage 0.3980 SCFH-Total Type B Leakage 0.000138 percent / day Leakage

11. Type C Penalties Description (SCF/ hour)

X-1 Component Cooling Water System 4.36625 X-2 Component Cooling Water System 0.02342 X Component Cooling Water System 3.38 X-5 Component Cooling Water System 0.0355 X-14 Service Water System 0.23334 X-21 Service Water System 0.0355 X-25 Service Water System 0.02342

/' X-27 Service Water System 0.02342

( X-105-3 Leakage Monitoring System 0.023 Total Type C Leakage 8.14385 SCFH Total Type C Leakage 0.002818 percent / day Leakage 111. Water Level Corrections Description (SCF/ hour)

Rx Vessel 0.0 Cont. Sump 0.0 Total Water Level Corrections 0.0 SCFH Total Water Level Corrections 0.0 percent / day i

!O 3.3-4 l-1 i

Pre-Repair Post-Repair

+- Leakage Leakage .

-iv. Recire. Spray System (SCF/ hour) (SCF/ hour) 2RSS*4 > 50.0 0.2375 RSS "B" Loop >50.0 0.1655-4 Total RSS 0.403 SCFH.

Total RSS 0.00014 percent / day . ,

Leakage

- v. Total Corrections Description- (SCF/ hour)

Total Type A Corrections ' Penalties & Corrections 8.94485-

(i. through.iv.)

i Total Type A Corrections 8.94485 SCFH

-Total Type A Corrections 0.003096 percent / day

'm t

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3.3-5 1

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ATTACHMENT 3.3A INTEGRATED LEAKAGE RATE TEST FROM 1903 HOURS ON 02/13/87 TO 1905 HOURS ON 02/14/87 REDUCED INPUT VARIABLES ABS. VAP. ABS.

TIME PRESS. PRESS. TEMP. DEWPOINT- MASS (HRS.) (PSIA) (PSIA) ( R) ( F) (LBM) 0.000 60.898 0.1979 523.297 52.877 537460.41 0.367 60.896 0.1977 523.282 52.851 -537460.16 0.700 60.894 0.1979 523.267 52.872 537455.76 1.033 60.892 0.1977 523.248 52.841 537460.34 1.367 60.891 0.1978 523.238 52.861 537460.38 1.600 60.888 0.1978 523.220 52.859 537452.16 2.367 60.884 0.1983 523.197 52.924 537435.72 2.700 60.882 0.1976 523.192 52.833 537429.03 3.033 60.881 0.1975 523.164 52.821 537449.91 3.367 60.879 0.1975 523.152 52.824 537444.65 3.700 60.878 0.1974 523.153 52.798 537436.66 4.033 60.876 0.1972 523.146 52.777 537427.52 4.367 60.874 0.1970 523.139 52.754 537417.93 4.700 60.872 0.1969 523.116 52.730 537425.23 5.033 60.870 0.1966 523.115 52.694 537411.39 5.283 60.869 0.1969 523.092 52.734. 537423.40 5.700 60.867 0.1962 523.086 52.632 537417.86 6.033 60.865 0.1963 523.066 52.653 537419.28 6.367 60.864 0.1962 523.060 52.643 537417.90 6.700 60.862 0.1962 523.048 52.643 537412.04 7.033 60.860 0.1962 523.043 52.643 537399.98 7.367 60,859 0.1964 523.035 52.660 537398.11 7.700 60.857 0.1964 523.035 52.660 537379.90 8.033 60.856 0.1961 523.013 52.627 537396.12 8.367 60.854 0.1963 523.004 52.650 537385.83 8.700 60.853 0.1961 522.995 52.617 537388.47 Page.1 of 3

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

l,*ra e*-

O O O-ATTACHMENT 3.3A (Continued)'

INTEGRATED LEAKAGE RATE TEST-FROM 1903 HOURS ON.02/13/87 TO 1905 HOURS ON 02/14/87 REDUCED INPUT VARIABLES ABS. VAP. ABS.

TIME PRESS PRESS. TEMP. . DEWPOINT MASS-(HRS.) (PSIA) '(PSIA) ( R) ( F) -(LBM)"-

9.033 60.851 0.1961 -522.982 52.627 537383.75 9.367 60.849 0.1959 522.988 52.600 537361.90-9.700 60.847 0.1960 522.976 .52.612' 537355.32.

9.950 60.846 i0.1959- 522.957 52.600 537367.25 10.283 60.845 0.1957 522.956 52.574 '537360.96 11.533 60.840 0.1952 522.919 52.498 537359.07 11.700 60.838 0.1953 522.913 52.508 537346.90 12.033 60.837 0.1955 522.890 52.545 537359.70 12.367 60.835 0.1954 522.893- -52.527 '537340.11.

12.700 60.834 0.1953 522.863 52.517- 537362.11 13.033 60.833 0.1952 522.862 52.501 .537355.82 13.367 60.831 0.1953 522.852 52.511 537347.50 13.700 60.830 0.1951 522.834 52.488 537358.91 14.033 60.828 0.1951 522.811: 52.490 537364.18 14.367 60.826 0.1952 522.811 52.501 537346.29 14.700 60.824 0.1951 522.793 52.491 537347.81 15.033 60.822 0.1950 522.800 52.477 537323.47.

15.367 60.821 0.1951 ~522.781 52.488 537333.20 15.700 60.819 0.1948 522.722- 52.447 537327.45-16.033 60.817 0.1941 522.754 52.340 '537335.17 16.367 60.816 0.1943 522.752 52.380 .537325.59 16.650 60.815 0.1946 .522.728 52.413 '537339.62 17.033 60.812 0.1945- 522.740 52.408' 537300.97 17.367 60.811 0.1937 522.721 52.289~ 537318.54 17.700 60.809 0.1944 -522.705 52.381 537311.38-18.033 60.807 0.1945 522.696 -52.394 537302.50

~

'Page 2 ' of 3 -

ATTACHMENT 3.3A (Continued)

INTEGRATED LEAKAGE RATE TEST' FROM 1903 HOURS ON 02/13/87 TO-1905 HOURS ON 02/14/87 REDUCED INPUT VARIABLES ABS. VAP. ABS.

TIME PRESS. PRESS. TEMP. DEWPOINT MASS (HRS.) (PSIA) (PSIA) ( R) _

( F) (LBM) 18.367 60.806 0.1943 -r522.680 52.374 537311.68 18.700 60.804 0.1943 522.684 52.374 537289.16 19.033 60.802 0.1942 522.648 52.354 537310.33 19.367 60.800 0.1943 522.650 52.367 537289.91 19.700 60.800 0.1940 522.636 52.335 537305.62 20.033 60.798 0.1940 522.636 52.337 537288.51 20.367 60.796 0.1942 522.620- 52.357 537285.29 20.700 60.795 0.1944 522.607 52.393 537287.37 21.033 60.793 0.1942 522.587 52.353 537292.72 21.367 60.792 0.1941 522.566 52.348 537305.95 21.533 60.790 0.1937 522.573 52.291 537284.80 22.033 60,789 0.1939 522.562 52.322 537285.40 22.367 60.787 0.1937 522.554 52.289 537277.63 22.700 60.786 0.1936 522.519 52.281 537305.53 22.950 60.786 0.1936 522.530 52.276 537294.33 23.367 60.784 0.1933 522.522 52.240 537287.31 23.700 60.782 0.1935 522.513 52.258 537278.08 24.033 60.780 0.1935 522.499 52.263 537273.62 Page 3 of 3

% #'N ,.##'V.

'b O L)

ATTACHMENT 3.3B INTEGRATED LEAFACE RATE TEST FROM 1903 HOURS ON 02/13/87 TO 1905 HOURS ON 02/14/87 ABSOLUTE TEST METHOD, MASS POINT ANALYSIS TEST RESULTS TIME MASS LEAKAGE CONF. UCL (HRS.) (LBM) (PCT./ DAY) (PCT./ DAY) (PCT./ DAY) 0.000 537460.41 0.000000 0.000000 0.000000 0.367 537460.16 0.000000 0.000000 0.000000 0.700 537455.76 0.029223 0.137768 0.166991 1.033 537460.34 0.006128 0.045931 0.052058 1.367 537460.38 0.000035 0.023073 0.023037 1.600 537452.16 0.013261 0.023338 0.036599 2.367 537435.72 0.040590 0.027379 0.067969 2.700 537429.03 0.052065 0.022252 0.074317 3.033 537449.91 0.037363 0.022916 0.060278 3.367 537444.65 0.031702 0.019038 0.050740 3.700 537436.66 0.031524 0.015450 0.046974 4.033 537427.52 0.034405 0.013212 0.047617 4.367 537417.93 0.038849 0.012171 0.051020 4.700 537425.23 0.038344 0.010454 0.048798 5.033 537411.39 0.041212 0.009580 0.050792 5.283 537423.40 0.039496 0.008646 0.048142 5.700 537417.86 0.038679 0.007684 0.046363 6.033 537419.28 0.037183 0.007015 0.044197 6.367 537417.90 0.035825 0.006441 0.042266 6.700 537412.04 0.035376 0.005823 0.041199 7.033 537399.98 0.036540 0.005410 0.041950 7.367 537398.11 0.037300 0.004985 0.042285 7.700 537379.90 0.039963 0.005309 0.045272 8.033 537396.12 0.039648 0.004883 0.044531 8.367 537385.83 0.040246 0.004537 0.044783 8.700 537388.47 0.040115 0.004194 0.044309 Page 1 of 3

1

,m ,

Q \J j ATTACHMENT 3.3B (Continued)

INTECRATED LEAKAGE RATE TEST FROM 1903 HOURS ON 02/13/87 TO 1905 HOURS ON 02/14/87 ABSOLUTE TEST METHOD, MASS POIhT ANALYSIS TEST RESULTS TIME MASS LEAKAGE- CONF. UCL (HRS.) (LBM) (PCT./ DAY) (PCT./ DAY) (PCT./ DAY) 9.033 537383.75 0.040182 0.003887 0.044069 9.367 537361.90 0.041996 0.004048 0.046044 9.700 537355.32 0.041772 0.004173 0.047945 9.950 537367.25 0.044044 0.003913 0.047957 10.283 537360.96 0.044499 0.003696 0.048194 11.533 537359.07 0.044064 0.003436 0.047500 11.700 537346.90 0.044501 0.003224 0.047725 12.033 537359.70 0.043761 0.003089 0.046850 12.367 537340.11 0.044186 0.002923 0.047109 12.700 537362.11 0.043047 0.002947 0.045995 13.033 537355.82 0.042270 0.002873 0.045143 13.367 537347.50 0.041887 0.002738 0.044626 13.700 537358.91 0.040854 0.002774 0.043627 14.033 537364.18 0.039591 0.002896 0.042488 14.367 537346.29 0.039166 0.002782 0.041948 14.700 537347.81 0.038617 0.002700 0.041316 15.033 537323.47 0.038990 0.002598 0.041588 15.367 537333.20 0.038838 0.002483 0.041321 15.700 537327.45 0.038808 0.002373 0.041181 16.033 537335.17 0.038417 0.002301 0.040719 16.367 537325.59 0.038925 0.002207 0.040502 16.650 537339.62 0.037672 0.002204 0.039876 17.033 537300.97 0.038189 0.002175 0.040364 17.367 537318.54 0.038055 0.002093 0.040147 17.700 537311.38 0.038055 0.002012 0.040067 18.033 537302.50 0.038218 0.001942 0.040160 Page 2 of 3

,, q,

^

) -

ATTACHMENT'3.3B (Continued) .

INTEGRATED LEAKAGE RATE TEST FROM 1903 HOURS ON 02/13/87 TO 1905 HOURS ON 02/14/87 ABSOLUTE TEST METHOD, MASS POINT ANALYSIS TEST RESULTS TIME MASS LEAKAGE- CONF. UCL (HRS.) (LBM) (PCT./ DAY) (PCT./ DAY) (PCT./ DAY) 18.367 537311.68 0.038053 0.001877 0.039929 18.700 537289.16 0.038395 0.001839 0.040234 19.033 537310.33 0.038124 0.001794 0.039918 19.367 537289.91 0.038288 0.001738 0.040027 19.700 537305.62 0.038020 0.001699 0.039719 20.033 537288.51 0.038087 0.001643 0.039730 20.367 537285.29 0.038156 0.001590 0.039746 20.700 537287.37 0.038118 0.001539 0.039657 71.033 537292.72 0.037922 0.001502 0.039424 21.367 537305.95 0.037439 0.001531 0.038969 21.533 537284.80 0.037364 0.001486 0.038850 22.033 537285.40 0.037209 0.001449 0.038658 22.367 537277.63 0.037155 0.001406 0.038561 22.700 537305.53 0.036586 0.001475 0.038061 22.950 537294.33 0.036219 0.001478 0.037696 23.367 537287.31 0.035937 0.001462 0.037399 23.700 537278.08 0.035780 0.001428 0.037209 24.033 537273.62 0.035663 0.001393 0.037056 Page 3 of 3

1

% f) _ V[ g_

V ATTACHMENT 3.3C INTEGRATED LEAKAGE RATE TEST FROM 1903 HOURS ON 02/13/87 TO 1905 HOURS ON 02/14/87 ABSOLUTE TEST METHOD, TOTAL TIME ANALYSIS TEST RESULTS MEAS. MEAN OF CALC.

TIME MASS LEAKAGE MEAS. LEAKAGE CONF. UCL (HRS.) (LBM) (PCT./ DAY) (PCT./ DAY) (PCT./ DAY) (PCT./ DAY) (PCT./ DAY) 0.000 537460.41 0.000000 0.000000 0.000000 0.000000 0.00000, 0.367 537460.16 0.003023 0.000000 0.000000 0.000000 0.00000 0.700 537455.76 0.029666 0.000000 0.000000 0.000000 0.00000 1.033 537460.34 0.000295 0.000000 0.009631 0.221529 0.23115 1.367 537460.38 0.000086 0.000000 0.002540 0.082749 0.08528 1.600 537452.16 0.023022 0.000000 0.012582 0.061684 0.07426 2.367 537435.72 0.046569 0.000000 0.036038 0.059176 0.09521 2.700 537429.03 0.051898 0.000000 0.046807 0.047914 0.09472 3.033 537449.91 0.015452 0.000000 0.037483 0.053093 0.09057 3.367 537444.65 0.020903 0.000000 0.033884 0.049683 0.08356 3.700 537436.66 0.028655 0.000000 0.034020 0.045164 0.07918 4.033 537427.52 0.036413 0.000000 0.036417 0.041347 .0.07776 4.367 537417.93 0.043436 0.000000 0.040095 0.038437 0.07853 4.700 537425.23 0.033420 0.000000 0.040264 0.036424 0.07668 5.033 537411.39 0.043487 0.000000 0.042778 0.034311 0.07708 5.283 537423.40 0.031275 0.000000 0.041608 0.033304 0.07491 5.700 537417.86 0.033335 0.000000 0.041793 0.032407 0.07420 6.033 537419.28 0.030438 0.000000 0.040896 0.031771 0.07266 6.367 537417.90 0.029813 0.000000 0.039998 0.031170 0.07116 6.700 537412.04 0.032236 0.026671 0.039672 0.030332 0.07000 7.033 537399.98 0.038367 0.028589 0.040465 0.039278 0.06974 7.367 537398.11 0.037761 0.030326 0.041011 0.028360 0.06937 7.700 537379.90 0.046686 0.031177 0.042917. 0.027546 0.07046 8.033 537396,12 0.035736 0.032949 0.042812 0.026991 0.06980 8.367 537385.83 0.039803 0.034935 0.043317 0.026293 0.06961 8.700 537388.47 0.036921 0.035630 0.043316 0.025789 0.06910 Page 1 of 3

ATTACHMENT 3.3C (Continued)

INTEGRATED LEAKAGE RATE TEST FROM 1903 HOURS ON 02/13/87 TO 1905 HOURS ON 02/14/87

$ ABSOLUTE TEST METHOD, TOTAL TIME ANALYSIS TEST RESULTS

]

1 MEAS. MEAN OF CALC.

$ TIME MASS LEAKAGE MEAS. LEAKAGE CONF. UCL

! (HRS.) (LBM) (PCT./ DAY) (PCT./ DAY) (PCT./ DAY) (PCT./ DAY) (PCT./ DAY) 9.033 537383.75 0.037892 0.035196 0.043435 0.025276 0.06871 1 9.367 537361.90 0.046959 0.034950 0.044758 0.024684 0.06944 9.700 537355.32 0.048376 0.036596 0.046099 0.024133 0.07023 i 9.950 537367.25 0.041806 0.037641 0.046229 0.023650 0.06987 10.283 537360.96 0.043185 0.038367 0.046721 0.023202 0.06992 11.533 537359.07 0.039236 0.038508 0.048674 0.023399 0.07207

11.700 537346.90 0.043320 0.038503 0.048342 0.022933 0.07127 12.033 537359.70 0.037370 0.038700 0.047689 0.022871 0.07056 l 12.367 537340.11 0.043439 0.038698 0.047864 0.022498 0.07036 i 12.700 537362.11 0.034562 0.038862 0.046990 0.022626 0.06961

. 13.033 537355.82 0.035832 0.038987 0.046360 0.022597 0.06895

13.367 537347.50 0.037719 0.039351 0.046005 0.022432' O.06843 13.700 537358.91 0.033083 0.039514 0.045204 0.022523 0.06772 4

14.033 537364.18 0.030621 0.039434 0.044235 0.022723 0.06695 14.367 537346.29 0.035469 0.039289 0.043831 0.022574 0.06640 14.700 537347.81 0.034205 0.039111 0.043344 0.022472 0.06581 15.033 537323.47 0.040675 0.038810 0.043493 0.022167 0.06566 .;

- 15.367 537333.20 0.036964 0.038872 0.043297 0.021962 0.06525 15.700 537327.45 0.037816 0.038772 0.043188 0.021737 0.06492 16.033 537335.17 0.034879 0.038670 0.042837 0.021612 0.06444 16.367 537325.59 0.036783 0.038615 0.042670 0.021419 0.06408 16.650 537339.62 0.032394 0.037887 0.042117 0.021377 0.06349 17.033 537300.97 0.041798 0.037558 0.042433 0.021121 0.06355 17.367 537318.54 0.036478 0.037291 0.042268 0.020947 0.06321 17.700 537311.38 0.037598 0.037012 0.042197 0.020750 0.06294 Page 2 of 3

\ ) O -l l

ATTACHMENT 3.3C (Continued)

INTEGRATED LEAKAGE RATE TEST FROM 1903 HOURS ON 02/13/87 TO 1905 HOURS ON 02/14/87 ABSOLUTE TEST METHOD, TOTAL TIME ANALYSIS TEST RESULTS MEAS. MEAN OF CALC.

TIME MASS LEAKAGE MEAS. LEAKAGE CONF. UCL (HRS.) (LBM) (PCT./ DAY) (PCT./ DAY) (PCT./ DAY) (PCT./DAI) (PCT./ DAY) 18.033 537302.50 0.039100 0.037005 0.042241 0.020535 0.06277 18.367 537311.68 0.036160 0.036647 0.042067 0.020384 0.06245 18.700 537289.16 0.040893 0.036823 0.042240 0.020164 0.06240 19.033 537310.33 0.035210 0.036412 0.042001 0.020050 0.06205 19.367 537289.91 0.039313 0.036649 0.042059 0.019856 0.06191 19.700 .537305.62 0.035086 0.036612 0.041825 0.019749 0.06157 20.033 537288.51 0.038316 0.036642 0.041819 0.019576 0.06139 20.367 537285.29 0.038395 0.036908 0.041816 0.019407 0.06122 20.700 537287.37 0.037328 0.037243 0.041744 0.019259 0.06100 21.033 537292.72 0.035600 0.037250 0.041565 0.019149 0.06071 21.367 537305.95 0.032280 0.037153 0.041189 0.019130 0.06031 21.533 537284.80 0.036416 0.036940 0.040997 0.018984 0.05998 22.033 537285.40 0.035468 0.036865 0.040935 0.018884 0.05982 22.367 537277.63 0.036490 0.036799 0.040845 0.018754 0.05959 22.700 537305.53 0.030467 0.036579 0.040407 0.018779 0.05918 22.950 537294.33 0.032314 0.036355 0.040063 0.018725 0.05878 23.367 537287.31 0.033079 0.036389 0.039848 0.018658 0.05850 23.700 537278.08 0.034354 0.036017 0.039678 0.018555 0.05823 24.033 537273.62 0.034705 0.035929 0.039535 0.018446 0.05798 Page 3 of 3

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ATTACHMEhr 3.3G SUPERIMPOSED LEAKAGE VERIFICATION TEST FROM 2205 HOURS ON 02/14/87 TO 0205 HOURS ON 02/15/87 REDUCED INPUT VARIABLES ABS. VAP. ABS.

TIME PRESS PRESS TEMP. DEWPOINT MASS (HRS.) (PSIA) (PSIA) ( R) ( F) (LBM) 0.000 60.762 0.1932 522.385 52.221 537234.38 0.333 60.760 0.1933 522.390 52.228 537211.40 0.667 60.757 0.1932 522.368 52.219 537207.69 1.000 60.756 0.1933 522.374 52.227 537192.05 1.333 50.753 0.1932 522.357 52.224 537182.80 1.667 60.751 0.1932 522.350 52.216 537173.48 1.833 60.749 0.1931 522.339 52.209 537166.74 2.333 60.747 0.1928 522.338 52.167 537152.45 2.667 60.745 0.1931 522.315 52.208 537156.12 3.000 60.742 0.1932 522.322 52.214 537122.14 3.333 60.740 0.1930 522.310 52.188 537118.39 3.667 60.739 0.1931 522.300 52.201 537119.36 4.000 60.735 0.1929 522.286 52.182 537099.32 Page 1 of I

f i <- -

-s N) (J N__/I ATTACHMENT 3.3H SUPERIMPOSED LEAKAGE VERIFICATION TEST FROM 2205 HOURS ON 02/14/87 TO 0205 HOURS ON 02/15/87 ABSOLUTE TEST METHOD, MASS POINT ANALYSIS TEST RESULTS TIME MASS LEAKAGE CohT. UCL (HRS.) (LBM) (PCT./ DAY) (PCT./ DAY) (PCT./, DAY) 0.000 537234.38 0.000000 0.000000 0.000000 0.333 537211.40 0.000000 0.000000 0.000000 0.667 537207.69 0.178863 0.638283 0.817146 1.000 537192.05 0.175152 0.098365 0.273517 1.333 537182.80 0.164178 0.047834 0.212012 l 1.667 537173.48 0.155429 0.030328 0.185758 l 1.833 537166.74 0.153748 0.021482 0.175230 l 2.333 537152.45 0.149359 0.015752 0.165111 l 2.667 537156.12 0.133637 0.020249 0.153886 3.000 537122.14 0.143992 0.019106 0.163098

3.333 537118.39 0.145776 0.015363 0.160539 l 3.667 537119.36 0.139703 0.013820 0.153523 l 4.000 537099.32 0.140697 0.011600 0.152297 l

l Page 1 of I

y f i N._ .Y ATTACHMEhr 3.31 SUPERIMPOSED LEAKAGE VERIFICATION TEST FROM 2205 HOURS ON 02/14/87 TO 0205 HOURS ON 02/15/87 ABSOLUTE TEST METHOD, TOTAL TIME ANALYSIS TEST RESULTS MEAS. MEAN OF CALC.

TIME MASS LEAKAGE MEAS. LEAKAGE CONF. UCL (HRS.) (LBM) (PCT./ DAY) (PCT./ DAY) (PCT./ DAY) (PCT./ DAY) (PCT./ DAY) 0.000 537234.38 0.000000 0.000000 0.000000 0.000000 0.00000 0.333 537211.40 0.308078 0.000000 0.000000 0.000000 0.00000 0.667 537207.69 0.178862 0.000000 0.000000 0.000000 0.00000 1.000 537192.05 0.189096 0.000000 0.165854 0.551510 0.71736 1.333 537182.80 0.172820 0.000000 0.152883 0.239955 0.39283 1.667 537173.48 0.163232 0.000000 0.143271 0.166898 0.31016 1.833 537166.74 0.164828 0.000000 0.144913 0.130381 0.27529 2.333 537152.45 0.156864 0.000000 0.132576 0.120714 0.25329 2.667 537156.12 0.131109 0.000000 0.121304 0.104113 0.22541 3.000 537122.14 0.167136 0.000000 0.128522 0.105395 0.23391 3.333 537118.39 0.155461 0.000000 0.129557 0.099713 0.22927 3.667 537119.36 0.140136 0.000000 0.125630 0.092524 0.21815 4.000 537099.32 0.150839 0.000000 0.126205 0.088854 0.21505 Page 1 of I

SECTION 4 V

LOCAL LEAKAGE RATE TESTS (TYPES B AND C)

Attachment 4A summarizes the results of the Local -Leakage Rate Tests (ILRT's) data that was established to support the overall containment leakage testing program.- These LLRT's were performed by pressurizing the listed penetrations with air or nitrogen and either measuring leakage across the containment isolation valves boundary (Type C) or across the resilient seals (Type B). The leakage rates that are listed in Attachment 4A are valve leakage rates, not penetration leakage rates. Each penetration leakage rate can be obtained from site reference material.

The acceptance criteria for Types B and C leakage rate testing is in accordance with 10CFR50, Appendix J. The combined leakage rate for all penetrations and valves, subject to Types B and C tests, is well below the acceptable leakage rate of 0.60 La.

.The attachment for this section is

-Attachment No. Title 4A 1987 Local Leakage Rate Test Data O

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s.sy v x g ATTACHMENT 4A 1987 LOCAL LEAKACE RATE TEST DATA TYPE EQUIPMENT / VALVES LEAKACE/DATE PENETRATION NO./ SYSTEM TEST TESTED (NOTE 1) (SCF/ HOUR) REMARKS X-1 Component Cooling C 2CCP*MOV157-2 (IC) 3.340/1-28-87 Water System 2CCP*RV105 (IC) 2.330/1-28-87 2CCP*MOV157-1 (OC) 2.337/1-28-87 X-2 Component Cooling C 2CCP*MOV150-2 (IC) 0.024/1-22-87 Water System 2CCP*RV102 (IC) 0.024/1-22-87 2CCP*MOV150-1 (OC) 0.003/1-22-87 X-4 Component Cooling C 2CCP*MOV151-2 (IC) 0.024/1-29-87 Water System 2CCP*RV103 (IC) 3.360/1-29-87 2CCP*MOV151-1 (OC) 0.912/1-29-87 X-5 Component Cooling C 2CCP*MOV156-2 (IC) 0.024/I-28-87 Water System 2CCP*RV104 (IC) 0.036/1-28-87 2CCP*MOV156-1 (OC) 0.003/1-28-87 X-Il Air Supply System C 2IAC*MOV133 (IC) 0.024/1-7-87 2IAC*MOV134 (OC) 0.024/1-7-87 X-14 Service Water System C 2SWS*MOV153-2 (IC) 0.234/1-16-87 2SWS*MOV153-1 (OC) 0.315/1-16-87 2SWS*RV153 (OC) (Combined)

X-19 Chemical and Volume C 2CHS*MOV378 (IC) 1.212/1-27-87 Control System 2CHS*473 (IC) (Combined) 2CHS*MOV381 (OC) 0.764/1-27-87 X-20 Safety Injection System C 2 SIS *42 (IC) 0.024/2-3-87 2 SIS *41 (OC) 0.024/1-4-87 2 SIS *RV130 (OC) (Combined)

Page 1 of 7

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LJ LJ ATTACHMENT 4A (Continued) 1987 LOCAL LEAKAGE RATE TEST DATA TYPE EQUIPMENT / VALVES LEAKAGE /DATE PENSTRATION NO./ SYSTEM TEST TESTED (NOTE 1) (SCF/ HOUR) REMARKS X-21 Service Water System C 2SWS*MOV155-2 (IC) 0.036/1-18-87 2SWS*MOV155-1 (OC) 0.146/1-19-87 2SWS*RV155 (OC) (Combined)

X-24 Residual Heat Removal C 2RHS*107 (IC) 0.024/1-3-87 System 2RHS*15 (OC) 0.336/1-3-87 2RHS*RV100 (OC) (Combined)

X-25 Service Water System C 2SWS*MOV154-2 (IC) 0.253/1-16-87 2SWS*MOV154-1 (OC) 0.024/1-16-87 2SWS*RV154 (OC) (Combined)

X-27 Service Water System C 2SWS*MOV152-2 (IC) 0.254/1-17-87 2SWS*MOV152-1 (OC) 0.024/1-17-87 2SWS*RV152 (OC) (Combined)

X-28 Chemical and Volume C 2CHS*A0V200A (IC) 1.659/1-27-87 Control System 2CHS*A0V200B (IC) (Combined) 2CHS*A0V200C (IC) 2CHS*HCV142 (IC) 0.024/2-2-87 2CHS*RV203 (IC) 0.024/1-27-87 2CHS*A0V204 (OC) 0.275/1-27-87 X-29 Vent and Drain System C 2DGS*A0V108A (IC) 0.024/1-9-87 2DGS*A0V108B (OC) 0.024/1-9-87 2DCS*RV115 (OC) (Combined)

X-38 Vent and Drain System C 2DAS*A0V100A (IC) 0.024/1-12-87 2DAS*AOV100B (OC) 0.024/1-12-87 2DAS*RV110 (OC) (Combined)

Page 2 of 7

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ATTACHMENT 4A (Continued) 1987 LOCAL LEAKAGE RATE TEST DATA TYPE EQUIPMENT / VALVES LEAKAGE /DATE PENETRATION NO./ SYSTEM TEST TESTED (NOTE 1) (SCF/ HOUR) REMARKS I-42 Air Supply System C 2SAS*15 (IC) 0.028/1-15-87 2SAS*14 (OC) 0.024/1-15-87 I-43 Containment Vacuum C 2CVS*93 (IC) 0.444/1-10-87 System 2CVS*SOV102 (OC) 0.036/1-10-87 I-44 Containment vacuum C 2CVS*SOV153B (IC) 0.436/12-30-86 System 2CVS*SOV153A (OC) 0.438/12-30-86 I-45 Reactor Coolant System C 2RCS*72 (IC) 0.075/1-3-87 2PCS*A0V519 (OC) 0.075/1-3-87 l 2RCS*RV100 (OC) (Combined)

I-48 Vent and Drain System C 2VRS*A0V109A2 (IC) 0.028/1-21-87 2VRS*A0V109Al (OC) 0.437/1-21-87 I-49 Reactor Coolant System C 2RCS*68 (IC) 0.028/12-31-86 2RCS*A0V101 (OC) 0.035/12-31-86 I-53 Cas Supply System C 2GNS*A0V101-2 (IC) 0.024/12-17-86 2CNS*A0V101-1 (OC) 0.024/12-17-86 I-55-1 Sample System C 2SSR*ADV109Al (IC) 0.024/2-3-87 2SSR*A0V109A2 (OC) 0.024/2-5-87 2SSR*RV117 (OC) (Combined)

I-55-2 Sample System C 2SSR*SOV130A1 (IC) 0.295/2-2-87 2SSR*SOV130A2 (OC) 0.275/2-2-87 l

I-55-3 Post DBA Hydrogen C 2HCS*SOV136A (IC) 0.024/1-8-87 Control System 2HCS*SOV136B (OC) 0.024/1-8-87 Page 3 of 7

_/ ,

I (  ;

ATTACEMEhT 4A (Continued) 1987 LOCAL LEAKACE RATE TEST DATA TYPE EQUIPMENT / VALVES LEAKAGE /DATE PENETRATION NO./STSTEM TEST TESTED (NOTE 1) (SCF/ HOUR) REMARKS I-56-1 Sample System C 2SSR*ADV102A1 (IC) 0.065/1-31-87 2SSR*A0V102A2 (OC) 0.065/1-31-87 2SSR*RVil8 (OC) (Combined)

I-56-2 Sample System C 2SSR*128A1 (IC) 0.024/2-2-87 2SSR*128A2 (OC) 0.024/2-2-87 2SSR*RV120 (OC) (Combined)

I-56-3 Sample System C 2SSR*AOVIOOAl (IC) 0.024/2-3-87 2SSR*ADV100A2 (OC) 0.024/2-3-87 2SSR*RV119 (OC) (Combined)

I-57-1 Sample System C 2SSR*A0Vll2Al (IC) 0.024/1-31-87 2SSR*AOV112A2 (OC) 0.024/1-31-87 2SSR*RV121 (OC) (Combined)

I-57-2 Post DBA Hydrogen C 2HCS*SOV135A (IC) 0.024/1-8-87 Centrol System 2HCS*SOV135B (OC) 0.024/1-8-87 I-59 Air Supply System C 2IAC*22 (IC) 0.024/1-7-87 2IAC*MOV130 (OC) 0.500/1-24-87 I-63 Quench Spray System C 2QSS*4 (IC) 0.295/1-22-87 2QSS*MOV101A (OC) 0.024/2-6-87 2QSS*RV101A (OC) (Combined)

I-64 Quench Spray System C 2QSS*3 (IC) 0.095/1-23-87 24SS*MOV101B (OC) 0.024/2-6-87 2QSS*RV101B (OC) (Combined)

Page 4 of 7

r r

l O O O-ATTACHMENT 4A (Continued) l 1987 LOCAL LEAKAGE RATE TEST DATA l

l TTPE EQUIFIENT/ VALVES LEAKACE/DATE PENETRATION ND./ SYSTEM TEST TESTED (BDTE-1) (SCF/BOLM) RDIARKS I-87 Post DBA Hydrogen C 2HCS* HOT 117 (OC) 1.253/2-5-87 Control System 2HCS*111 (OC) 2.068/2-5-87 I-88 Post DBA Eydrogen C 2HCS*MDVll6 (OC) 0.032/2-5-87 Control System 2BCS*110 (OC) 0.275/2-5-87 I-90 Containment Purge C 2HVR* MOD 235 (IC) 2.511/2-4-87 System 2HVR*M0023A (OC) 2.511/2-4-87 I-91 Containment Purge C 2HVR* MOD 255 (IC) 4.363/2-7-87 System 2HVR*MDD25A (OC) 4.363/2-7-87 2RVR*DMP206 (OC) (Combined)

I-92 Containment vacuum and C 2CVS*SOVI525 (OC) 0.278/1-12-87 Post DBA Hydrogen 2CVS*SOV1515 (OC) 0.024/I-12-87:

Control Systems 2BCS*Sov1155 (OC) 0.193/1-12-87 2BCS*SOV114B (OC) 0.024/1-12-87 I-93 containment Yacuum and C 2CVS*SOV152A (OC) 0.107/1-14-87 Post DBA Hydrogen 2CVS*SOV151A (OC) 0.165/1-13-87 Control Systems 2BCS*SOV115A (OC) 0.107/1-14-87 2BCS* SOT 114A (OC) 0.200/1-14-87

! I-94 Containment Yacuum System C 2CVS*151 (IC) 4.520/12-13-86 2CVS*151-1 (OC) 4.520/12-13-86 I-97-1 Sample System C 2SSR*SOV129A1 (IC) 15.483/2-3-87 2SSR*SOV129A2 (OC) 0.024/2-2-87 2SSR*RY122 (OC) (Combined).

Page 5 of 7

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G) I 1

1 ATTACHMENT 4A (Continued) l 1987 LOCAL LEAKACE RATE TEST DATA 1

TYPE EQUIPMENT / VALVES LEAKAGE /DATE PENETRATION NO./STSTDT TEST TESTED (KOTE 1) (SCF/ HOUR) REMARKS I-97-2 Post DBA Hydrogen C 2HCS*SOV133B (IC) 0.024/1-14-87 Control System 2HCS*SOV134B (OC) 0.024/1-14-87 I-99 Fire Protection Water C 2FFE*761 (IC) 0.030/12-22-86 System 2FPW*AOV206 (OC) 0.024/12-22-86 I-101 Fire Protection Water C 2FPW*753 (IC) 0.080/1-20-87 System 2FPW*ADV205 (OC) 0.085/1-20-87 I-103 Fuel Pool cooling and C 2FNC*121 (IC) 0.024/2-2-87 Purification System 2FNC*38 (OC) 0.024/2-2-87 I-104 Fuel Pool Cooling and C 2FNC*122 (IC) 0.520/2-2-87 Purification System 2FNC*9 (OC) 0.336/2-2-87 I-105-1 Post DSA Hydrogen C 2HCS*SOV133A (IC) 0.037/2-3-87 Control System 2HCS*SOV134A (OC) 0.045/2-3-87 I-105-2 Post Accident Sampling C 2 PAS *SOV105Al (IC) 0.024/1-22-87 2 PAS *SOV105A2 (OC) 0.024/1-22-87 I-105-3 Leakage Monitoring C 2LMS*51 (OC) 0.023/12-13-86 System 211tS*52 (OC) 0.023/12-13-86 I-106 Safety Injection System C 2 SIS *MOV842 (IC) 0.034/1-11-87 2 SIS *A0V889 (OC) 0.169/1-11-87 2 SIS *RV175 (OC) (Combined)

I-116 Fire Protection Water C 2FPW*388 (IC) 0.044/12-21-86 System 2FPW*A0V221 (OC) 0.145/12-21-86 Page 6 of 7

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ATTACHMENT 4A (Continued) 1987 LOCAL LEAKAGE RATE TEST DATA TYPE EQUIPMENT / VALVES LEAKAGE /DATE PENETRATION NO./STSTEM TEST TESTED (NOTE 1) (SCF/ HOUR) REMARKS I-II7 Fire Protection Water C 2FPW*382 (IC) 0.077/12-21-86 Systen 2FPW*ADV204 (OC) 0.437/12-21-86 I-II8 Quench Spray System C 2QSS*267 (IC) 0.079/2-7-87 2QSS*SOV100A (OC) 0.024/2-7-87 2QSS*SOV100B (OC) (Combined)

Electrical Penetrations B "O"-rings 0.398/1-31-87 See Note 2 Personnel Airlock B "O"-rings 0.186/2-1-87 Equipment Hatch Airlock B "O"-rings 1.977/2-9-87 Equipment Hatch B "0"-rings 0.562/2-8-87 Fuel Transfer Tube B "O"-rings 0.041/1-27-87 NOTES:

1) The Local Leakage Rate Test Program commenced approximately 3 months prior to the performance of the Type A Test. Repairs performed to these isolation valves were generally minor in nature and consisted of packing adjustments, torque switch adjustments, lapping, cleaning / flushing, alignment adjustments, etc. Specific repairs are identified in the site maintenance records.

2) All electrical penetrations were tested prior to the performance of the ILRT with a combined total leakage of 0.398 scfh.

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