Reactor Containment Bldg Integrated Leakage Rate Test, Types A,B & C Periodic Test,Turkey Point Plant Unit 4.

ML17342A595
Person / Time
Site:	Turkey Point
Issue date:	03/31/1986
From:	STONE & WEBSTER ENGINEERING CORP.
To:
Shared Package
ML17342A594	List: ML17342A593 ML17342A595
References
NUDOCS 8606270299
Download: ML17342A595 (81)
v • d • e

Text

REACTOR CONTAINMENT BUILDING INTEGRATED LEAKAGE RATE TEST TYPES A, B, AND C PERIODIC TEST FLORIDA POWER AND LIGHT COMPANY TURKEY POINT PLANT UNIT NO. 4 MARCH 1986 8606270gcP9 @~0~~~

PDR ADoCg 050002 4

PDR PREPARED BY STONE 6 WEBSTER ENGINEERING CORPORATION BOSTON, MASSACHUSETTS

t,

)a.

V <

TABLE OF CONTENTS Section Title ~Pa e TABLE OF CONTENTS LIST OF ATTACHMENTS REFERENCES PURPOSE SU>MARY 2-1 2.1 TYPE A TEST 2-1 2.2 LOCAL LEAKAGE RATE TESTS (TYPES B AND C) 2-2 TYPE A TEST 3-1 3.1 EDITED LOG OF EVENTS 3-1 3.2 GENERAL TEST DESCRIPTION 3-3 3.2.1 Prerequisites 3-3 3.2.2 Equipment and Instrumentation 3-3 3.2.3 Data Acquisition System 3-4 3.2.4 Data Resolution System 3-4 3o3 TEST RESULTS 3-6 3.3.1 Presentation of Test Results 3-6 3.3.2 ILRT Results Mass Point Method 3-6

/

3.3.3 ILRT Results Total Time Method 3-6 3.3.4 Superimposed Leakage Verification 3-6 Test Results 3.3.5 Type C Corrections 3-7 LOCAL LEAKAGE RATE TESTS (Types B and C) 4-1

'O 4 Il,

LIST OF ATTACHMENTS Attachment Title 3.2A Site Meteorology 3.2B Instrumentation List 3.2C Instrumentation Location RHD's (Profile View) 3.2D Instrumentation Location RHD's (Plan View) 3.2E Instrumentation Location RTD's (Profile View) 3.2F Instrumentation Location RTD's (Plan View) 3.3A ILRT - Input Variables 3.3B Leakage Rate Data Mass Point 3.3C Leakage Rate Data Total Time 3.3D Graph 1 - Containment Mass versus Time 3 'E Graph 2 - Containment Leakage Rate and UCL versus Time (Mass Point) 3.3F Graph 3 Calculated Containment Leakage Rate and UCL versus Time (Total Time) 3.3G Superimposed Leakage Verification Test Data (Reduced Input Variables, Mass Point, Total Time Results) 4A 1986 Local Leakage Rate Test Data 4B 1984 Local Leakage Rate Test Data 4C 1986 Local Leakage Rate Test Summary Analysis

l l

\

I PI t

REFERENCES

1. 10CFR50, Appendix J, Primary Reactor Containment Leakage Testing for Water-Cooled Power Reactors, October 22, 1980.

2. Florida Power & Light Turkey Point Plant Operating Procedure 13100.1, Integrated Leakage Rate Test, and 13100.2, Valve Lineup for ILRT.

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

4. ANSI/ANS-56.8, Cqntainment System Leakage Testing Requirements, February 19, 1981.

IP

5. Bechtel Corporation Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants, BN-TOP-l, Revision 1, November 1, 1972.

1 This document used only as a guideline and any reference to said document in no way implies compliance.

SECTION 1 PURPOSE The purpose of this report is to present a description and analysis of the March 1986 Periodic Type A Containment Integrated Leakage Rate Test (ILRT),

and a summary of the periodic Types B and C Local Leakage Rate Tests conducted since May 1983 on the Florida Power and Light Company's (FP&L)

Turkey Point Plant, Unit No. 4.

Stone & Webster Engineering Corporation provided engineering consultation services to FP&L during the performance of this test.

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

(Reference 1).

1-1

0 SECTION 2

SUMMARY

2.1 TYPE A TEST Pressurization for the ILRT began at 2356 hours0.0273 days <br />0.654 hours <br />0.0039 weeks <br />8.96458e-4 months <br /> on March 25, 1986.

Investigations of all penetration areas for leakage were conducted during

the pressurization period and throughout the Type A test. Only minor leakage paths were identified.

Containment pressurization equipment was secured at approximately 0937 hours0.0108 days <br />0.26 hours <br />0.00155 weeks <br />3.565285e-4 months <br /> on March 26, 1986, with a peak instantaneous pressure of 67.148 psia.

Temperature, humidity, and pressure data was continuously recorded throughout the entire test period at 15 minute intervals. The temperature stabilization criteria was satisfied at 1915 hours0.0222 days <br />0.532 hours <br />0.00317 weeks <br />7.286575e-4 months <br /> on March 26, 1986.

The Type A test was successfully completed from 1930 hours0.0223 days <br />0.536 hours <br />0.00319 weeks <br />7.34365e-4 months <br /> on March 26, 1986 to 0500 hours0.00579 days <br />0.139 hours <br />8.267196e-4 weeks <br />1.9025e-4 months <br /> on March 27, 1986, with a Mass Point Upper Confidence Limit (UCL-MP) of 0.083594 percent/day and a Total Time Upper Confidence Limit (UCL-TT) of 0,108892 percent/day, (See Section 3.3, Test Results).

Both the Mass Point and the Total Time leakage rates were well below the Turkey Point 0.75 La acceptance criteria of 0.1875 percent per day.

The Type A test duration was extended by. approximately one and one-half hours. This, was done 'to closely monitor the slight change in the mass trend which occurred at approximately midnight of March 26, 1986.

Reference the mass and leakage rate graphs of Attachments 3.3D through 3.3F.

A review of Attachment 3.3A indicates that at approximately 2330 hours0.027 days <br />0.647 hours <br />0.00385 weeks <br />8.86565e-4 months <br /> on March 26, 1986 (which is 4.250 hours0.00289 days <br />0.0694 hours <br />4.133598e-4 weeks <br />9.5125e-5 months <br /> after the start of the Type A test),

the temperature and pressure trends essentially stabilized. This brought about a very slight change in the mass trend. Once additional data was obtained it was readily determined that a significant break in the trends had not occured. A subsequent review of all the individual sensor readings did not reveal any abnormalities.

The superimposed leakage verification test was started at 0630 hours0.00729 days <br />0.175 hours <br />0.00104 weeks <br />2.39715e-4 months <br /> and was successfully completed at 1115 hours0.0129 days <br />0.31 hours <br />0.00184 weeks <br />4.242575e-4 months <br /> on March 27, 1986. The results of the verification test satisfied the requirements set forth in References 4 and 5, (See Section 3.3, Test Results).

Depressurization of the containment commenced at 1200 hours0.0139 days <br />0.333 hours <br />0.00198 weeks <br />4.566e-4 months <br /> on March and was completed in the early evening. 27,'986 2-1

1 2.2 LOCAL LEAKAGE RATE TESTS (Types B and C)

The Local Leakage Rate Tests (LLRT's) of containment isolation valves and other primary containment penetrations were conducted as,.required by the methods described in FP&L's Operating Procedure No. 13404.1, "Containment Boundary Isolation Valves Local Leakage Rate Tests" since the last Unit No. 4 Type A Test performed in May 1983.

Section 4 of this report summarizes the data for the two surveillance periods (1984 and 1986) of LLRT's conducted since the last Type A Test in accordance with Appendix J, 10CFR50, Paragraph V.B.

2-2

SECTION 3 TYPE A TEST 3.1 EDITED LOG OF EVENTS This log was edited from information contained in the Official Log of Events.

March 25, 1986 2356 Containment pressurization was initiated. Pressurization rate was approximately 6.0 pounds per hour.

1farch 26, 1986 0300 Initiated leakage investigation of the penetration area.

0410 - No pressure observed in the Personnel and Emergency Hatch.

0500 Penetration area leakage investigation completed. Observed various minor leakages on opened vent valves and valve packing.

Containment pressure was 44.3 psia. Containment average temperature was approximately 94 0 F.

0800 Performed leakage investigation of the penetration area. Same minor leakages were observed.

0900 Performed leakage investigation of exclusion areas. No leakage was noted.

0937 Containment pressure was 67.148 psia. Compressors were secured, and the pressurization line was vented.

1315 The pressure between the purge exhaust and supply valves was increasing. Readings were approximately 2 psig and 28 psig, respectively.

1400 - Performed leakage investigation of the penetration area. Same minor. leakages were observed.

1915 Satisfied the temperature stabilization criteria of the teat procedure.

1930 Commenced the start of the Type A Test.

3-1

March 27, 1986 0130 Performed leakage investigation of the penetration area. Same minor leakages were observed.

0500 Satisfied Type A criteria for a reduced duration test.

0530 Superimposed leakage rate was started.

0630 Superimposed leakage verification test was started.

1115 Superimposed leakage verification test criteria was satisfied.

1200 Depressurization of the containment commenced.

3-2

3.2 GENERAL TEST DESCRIPTION 3.2.1 Prerequisites In accordance with the Turkey Point Plant Unit No. 4 ILRT Procedure 13100.1 (Reference 2), the following is a listing of the pertinent prerequisites that were completed and documented prior to containment pressurization:

a. General inspection of the accessible interior and exterior surfaces of the containment structures and components completed.

b. All equipment and instrumentation that could be damaged by test pressure removed or protected.

II

c. All instrumentation required for the test. calibrated within six months of the test and functionally verified.

d. All required system valve lineups completed, including closure of containment isolation valves.

e. All required Types B and C local leakage rate testing completed.

f. The Official Log of Events established.

g. Site meteorological data recorded at least three days prior to and during the ILRT (Attachment 3.2A).

h. Temporary containment air recirculation fans installed and tested.

ILRT pressurization system properly installed and tested.

All ILRT computer software used for test calculations tested and operational.

3.2.2 Equipment and Instrumentation Pressurization of the containment was achieved by the utilization of a temporary system consisting of ten air compressors manifolded to aftercoolers and refrigerant air dryers. 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 11,000 standard cubic feet per minute (scfm).

The various containment parameters required to calculate containment leakage during the test were monitored using instrumentation which consisted of 22 resistance temperature detectors (RTD's), 10 relative humidity detectors (RHD's), and an absolute pressure quartz manometer,.

Pertinent data for the test instrumentation is listed in Attachment 3.2B, and the general locations of the RTD's and RHD's are shown in Attachment 3.2C through 3.2F.

A rotometer was used to perform the superimposed leakage verification test.

3-3

3.2.3 Data Acquisition System The Turkey Point Plant Unit No. 4 ILRT sensor data were recorded at approximately 15 minute intervals during the test. A programmable, multichannel data logger was used to scan and record data from 22 RTD's, 10 RHD's, and manometer signal inputs; Data readings of the rotometer were manually recorded.

The ILRT utilized a portable programmable computer to average the test data. Periodically during the test period, weighted average temperature, air pressure, weighted average vapor pressure, and mass values were computed.

3.2.4 Data Resolution System After the appropriate data had been acquired and averaged, the results were inputted to the Stone 6 Webster Engineering Corporation's (SWEC) portable computer for leakage rate calculations. For the Turkey Point Plant Unit No. 4 ILRT, both the Absolute Method of Mass Point Analysis and Absolute Method of Total Time Analysis were used to determine the leakage rate.

Absolute Method of Mass Point Anal sis 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 relative humidity 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, ibm P ~ total pressure, psia Pv ~ average vapor pressure, psia R ~ 53.35 ft-lbf/lbm R (for air) 0 T average containment temperature, V containment free volume, 1.55 x 10 g ft3 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, 3-4

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 Anal sis The Absolute Method of Total Time Analysis consists of calculating air lost from the containment, using pressure, temperature, and relative humidity 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 (>t)

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 Rate At + B (Eq. 5) where, A is the slope and B is the y-intercept of the least squares curve.

The confidence interval is calculated in accordance with the 'equations in Reference 5. The sum of the calculated leakage rate and the confidence interval is the upper confidence limit - total time (UCL-TT).

This analysis method was used in con)unction with procedure 13100.1 (Reference 2).

3-5

ATTACHMENT 3. 2A SITE METEOROLOGY Ambient Barometric Wind Wind Temperature Pressure Velocity Direction Date Time ( p ~(m h) ~(a z emu th 3-23-86 1700 69 30.36 11 300 1800 68 30.37 8 330 1900 66 30.38 5 335 2000 66 30.40 10 335 2100 64 30.40 6 330 2200 63 30.41 9 330 2300 62 30.42 12 320 3-24-86 0000 60 30.40 10 315 0100 58 30.37 12 335 0200 56 30.37 12 320 0300 56 30.36 7 325 0400 56 30.36 ll 325 0500 57 30.37 6 355 0600 57 30.37 8 325 0700 57 30.40 12 330 0800 57 30.44 10 330 0900 58 30.46 10 330 1000 61 30.48 5 330 1100 64 30.48 6 330 1200 70 30.47 8 40 1300 72 30.47 10 70 1400 70 30.42 10 60 1500 71 30.41 12 63 1600 72 30.40 7 65 1700 71 30.41 8 45 1800 69 30.42 7 45 1900 65 30.43 8 65 2000 65 30.43 4 64 2100 65 30.45 12 63 2200 65 30.45 5 55 2300 65 30.45 6 55 3-25-86 0000 66 30.45 5 55 0100 66 30.42 6 55 0200 66 30.40 5 60 0300 66 30.38 6 70 0400 66 30.36 7 79 0500 66 30.25 12 90 0600 66 30.40 12 91 0700 65 30.41 16 91 0800 68 30.43 13 90 0900 71 30.45 12 90 1000 70 30.33 15 85 1100 71 30.33 13 90 1200 73 30.31 13 85 1300 74 30.30 12 85 1400 72 30.25 10 75 Page 1 of

ATTACHMENT 3.2A (Continued)

SITE METEOROLOGY Ambient Barometric Wind Wind Temperature Pressure Velocity Direction Date Time (P) (in. H ~(m h ~(azimuth 1500 72 30.24 16 85 1600 70 30.35 5 98 1700 68 30.34 10 85 1800 66 30.33 8 90 1900 65 30.32 9 70 2000 67 30.33 ll 75 2100 67 30.34 10 105 2200 67 30.35 10 105 2300 67 30.33 10 405 3-26<<86 0000 67 30.33 14 415 0100 67 30.31 8 415 0200 67 30.29 8 410 0300 65 30.28 7 410 0400 65 30.25 7 410 0500 66 30. 15 6 .90 0600 66 30.26 13 404 0700 67 30.28 4 75 0800 66 30.29 5 100 0900 66 30.30 7 110 1000 67 30.29 ll 440 1100 67 30.28 ll 445 1200 1300 '3 68 30.28 30.27 12 13 450 450 1400 73 30.25 7 450 1500 74 30.23 7 450 1600 74 30.21 10 445 1700 74 30. 19 6 425 1800 74 30. 19 10 440 1900 72 30.20 15. 480 2000 71 30.21 8 435 2100 71 30.21 8 435 2200 71 30.22 ll 445 2300 71 30.22 7 425 3-27-86 0000 72 30.21 7 445 0100 72 30.20 8 425 0200 67 30.18 10 55 0300 66 30.16 7 46 0400 66 30.14 5 39 0500 66 30. 16 8 55 0600 65 30. 16 4 40 0700 65 30. 16 5 305 0800 71 30.18 7 300 0900 -72 30.19 3 60 1000 76 30.19 9 65 1100 76 30.19 ll 75 1200 78 30. 17 10 60 Page 2 of

~ l, M h ATTACHMENT 3.2B

\

INSTRUMENTATION LIST The following instruments were calibrated or 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 Standards.

Channel Elevation Instrument CH-9 0.033 +0.5 F CH-19 RTD 0.033 +0.5 F CH-20 20'0'0'4'9t RTD 0.033 +0.5 F CH-12 RTD 0.033 +0.5 F CH-14 RTD 0.033 +0.5 F CH-15 RTD 0.033 +0.5 F CH-1 RTD 0.03 +0.5 F CH-3 RTD 0.03 +0.5 F CH-4 RTD 0.03 +0.5 F CH-5 34'4'4'4'4'7'7'7'7'7t RTD 0.03 +0.5 F CH-2 RTD 0.060334 +0.5 F CH-6 RTD 0.060334 +0.5 F CH-7 RTD 0.060333 +0.5 F CH-8 RTD 0.060333 +0.5 F CH-21 RTD 0.060333 +0.5 F CH-22 RTD 0.060333 +0.5 F CH-10 RTD 0.053334 +0.5 F CH-11 RTD 0.053334 +0.5 F CH-13 RTD 0.053333 +0.5 F CH-16 RTD 0.053333 +0.5 F CH-17 RTD 0.053333 +0.5 F CH-18 RTD 0.053333 +0.5 F CH-50 143'43'43'43'0'0'4'4'4'4'7'43'43'TD RHD 0.0495 +2.5%RH CH-51 RHD 0.0495 +2.5%RH-CH-52 RHD 0.0495 +2.5%RH CH-53 RHD 0.0495 +2.5%RH CH-54 RHD 0.06 +2.5%RH CH-55 RHD 0.06 +2.5%RH CH-56 RHD 0.181 +2.5%RH CH-57 RHD 0.181 +2.5%RH CH-58 RHD 0.16 +2.5%RH CH-59 RHD 0.16 +2.5%RH CH-80 TI-145 0-100 psia Quartz Manometer 1 1.0 +0.001%F.S.

TI-145 0-100 psia Quartz Manometer 2 .N/A +0.001%F.S.

Rotometer 0>>28 scfm 8 50 psig +1.0%F.S.

Page 1 of 1

EL. 143 CH-56 CH-57 EL. 97 CH-54 CH-55 EL. 64 CH-52 CH-53 EL. 34 EL. 20 CH-50 CH-51 PROFILE VIEW ATTACHMENT 3.2C INSTRUMENTATION LOCATION RELATIVE HUMIDITY DETECTORS (RHD S)

TURKEY POINT PLANT- UNIT 4

CH"50 CH.-51 CH-52 CH-53 EL. 20 EL. 54 CH-64 97'H-67'H-.58 97 CH-66 EL. 64 CH-55 EL. 143 CH-59 (EL. 97)

PLAN . VIEW ATTACHMENT 5.2D INSTRUMENTATION LOCATION RELATIVE HUMIDITY DETECTORS (RHO S)

TURKEY POINT PLANT-UNIT 4

CH-18 CH-I6 CH" 13 CH-17 CH" 10 CH-'11 CH-7 CH 8 CH-2'L.

CH-2'I EL. 143 97 CH.22 CH'6 CH.4 CH-3 CH-1 CH.5 EL. 64 CH 12.

CH-15 CH "14 EL. 34 EL 20 CH-9 CH.20 CH-19 PROFILE VIEW ATTACHMENT 3.2E INSTRUMENTATION LOCATION RESISTANCE TEMPERATURF DETECTORS (RTD S)

TURKEY POINT PLANT-UNIT 4

CH" I9 CH-20 CH-5 CH-12 0

29 CH-9 CH-14 EL. 20 EL. 34 97 97 CH-1 CH-2 CH-5 CH-6 CH-10 CH-11 97 97 CH-7 CH-8

,CH-IB CH-16 CH-17 97 97 CH-4, CH-21 CH-'5 CH.22 CH-15 EL. 143 (EL. 97 ')

PLAN VIEW ATTACHMENT 3.2F INSTRUMENTATION lOCATION RESISTANCE TEMPERATURE DETECTORS (.RTD'S)

TURKEY POINT PLANT-UNIT 4

I 0

3.3 TEST RESULTS 3.3.1 Presentation of Test Results The ILRT was conducted in accordance with the Turkey Point Plant Unit No. 4 Operating Procedure 13100.1. The results for the ILRT and for the Superimposed Leakage Verification Test are shown below:

3.3.2 ILRT Results - Mass Point Method

1. Leakage Rate Calculated, Lam 0.079923

2. Upper Confidence Level 0.003670

3. Type C Corrections (See'3.3.5) 0.003838

4. Total Reported Type A Leakage Rate 0.087431 Results were within the acceptable limit of 0.1875 percent/day.

3.3.3 ILRT Resuls Total Time Method Percent/Da

1. Leakage Rate Calculated, Lam 0.077245

2. Upper Confidence Level 0.031647

3. Type C Corrections (See 3.3.5) 0.003838

4. Total Reported Type A Leakage Rate 0.112730 Results were within the acceptable limit of 0.1875 percent/day.'.3.4 Superimposed Leakage Verification Test Results

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

(Lam + Lo - 0.25 La) + Lc ~ (Lam + Lo + 0.25 La) where: Lam ~ total measured containment leakage rate from ILRT Lo leakage rate imposed on containment using a flow measuring device (percent/day)

La maximum allowable leakage rate (0.25 percent/day)

Lc = composite leakage rate calculated during the verification test

a. Mass Point (See Attachment 3.3G, Page 2 of 3)

(.079923 + .260691 .062500)( .3340084 (.79923 + .260691 + .062500)

. 278114 5. 334008 ~. 403114 3-6

b. Total Time (See Attachment 3.3G, Page 3 of 3)

(.077245 + .260691 .062500) ~".351351~(.077245 + .260691 + .062500)

.275436 ~ .351351 ~ .400436 The Superimposed Leakage Verification Test met the requirements set forth in References 4 and 5.

c. Calculation of Lo, percent/day Lo ~ 740.04 scfh La ~ 709.687 scfh and 0.25 percent/day Lo ~ (0.25) (740.04)

(709.687)

Lo .260691 percent/day 3.3.5 Type C Corrections

1. Type C penalty for not venting or draining in standard cubic centimeters per minute.

Pen. 11 40 ccm Pen. 24 a,b,c 1130 ccm Total 1170 ccm 14.696

2. Type C penalty in percent/day (See 3.3.2.3 and 3.3.3.3)

La ~ 11.828 scfm and 0.25 percent/day 5142.71 sccm ~ 0.181589 scfm Type C Correction = 0.181589 (scfm) (0.25) = 0.003838 11.828 (scfm)

Type C Correction = 0.003838 percent/day 3-7

ATTACHMENT 3.3A INTEGRATED LEAKAGE RATE TEST FROM 1930 HOURS ON MARCH 26, 1986 TO 0500 HOURS ON MARCH 27, 1986 REDUCED INPUT VARIABLES Time Abs. Pressure Vap. Pressure Temp. Rel. Humidity Mass

~(nr ( sia ( ct (ibm 0.000 66.042 .4434 545.97 71.443 502675.452

.250 66.035 .4430 545.92 71.473 502666.990

.500 66.028 .4424 545.87 71.500 502662.334

~ 750 66.022 .4420 545.83 71.529 502659.434 1.000 66.016 .4414 545.78 71.554 502663.749 1.250 66.009 .4412 545.74 71.582 502645.619 1.500 66.003 .4406 545.70 71.591 502643.796 1;750 65.996 .4403 545.66 71.623 502629.178 2.000 65.991 .4399 545.62 71.661 502629.810 2.250 65.985 ,4394 545.58 71.675 502626.891 2.500 65.981 .4390 545.54 71.696 502634.785 2.750 65.974 .4385 545.50 71.700 502618.750 3.000 65.969 .4382 545.46 71.740 502619.037 3.250 65.964 .4378 545.43 71.763 502616.859 3.500 65.959 .4375 545.40 71.779 502609.757 3.750 65.954 .4371 545.36 71.808 502606.609 4.000 65.949 .4368 545.33 71.838 502602.508 4.250 65.944 .4365 545.30 71.844 502591.344 4.5oo 65.939 .4364 545.27 71.881 502583.199 4.75O 65.934 .4359 545.24 71.885 502576.761 5.000 65.929 .4357 545.21 71;921 502567.823 5.250 65.925 .4354 545.18 71.946 502568.000 5.500 65.921 .4350 545.15 71.934 502563.359 5.750 65.917 .4347 545.12 71.946 502563.063 6.000 65.913 .4347 545.'10 71.983 502553.466 6.250 65.909 .4343 545.07 72.009 502554.105 6.500 65.906 .4341 545.04 72.025 502554.788 6.750 62.902 .4338 545.02 72.029 502551.678 7.000 65.899 .4335 544.99 72.050 502552.697 7.250 65.897 .4334 544.97 72.080 502561.556 7.500 65.893 .4332 544.94 72.091 502555.958 7.750 65.889 .4329 544.92 72.101 502549.281 8.000 65.885 .4327 544.90 72.126 502538.827 8.250 65.881 .4325 544.88 72.143 502528.882 8.500 65.878 .4324 544.86 72.158 502527.112 8.750 65.875 .4320 544.83 72.169 502532.891 9.000 65.871 .4319 544.81 72.181 502518.687 9.250 65.867 .4317 544.79 72.207 502511.669 9.500 65.864 .4314 544.77 72.205 502506.973 Page lof1

ATTACHMENT 3. 3B INTEGRATED LEAKAGE RATE TEST FROM 1930 HOURS ON MARCH 26, 1986 TO 0500 HOURS ON MARCH 27, 1986 ABSOLUTE TEST METHOD, MASS POINT ANALYSIS Time Mass Leakage 95 Pct. Conf. UCL (hr) ~(ibm ~ct~/da ) ct/da ~(ct/da )

0.000 502675.45 0.000000 0.000000 0.000000

.250 502666.99 0.000000 0.000000 0.000000

.500 502662.33 .125269 . 179527 .304796

~ 750 502659.43 .100667 .050088 .150755 1.000 502663.75 .059132 .061023 .120154 1.250 502645.62 .088280 .050944 .139223 1.500 502643.80 .092963 .034482 .127445 1.750 502629.18 .110431 .031597 .142027 2.000 502629.81 .110416 .023863 .134279 2.250 502626.89 .107427 .018958 .126385 2.500 502634.78 .094061 .020808 ;114869 2.750 502618.75 .094510 .017124 .111635 3.000 502619.04 .091485 .014679 .106165 3.250 502616.86 .088158 .012937 .101095 3.500 502609.76 .087183 .011177 .098360 3.750 502606.61 .085933 .009803 .095737 4.000 502602.51 .084926 .008665 .093592 4.250 502591.34 .086470 .007824 .094294 4.500 502583.20 .088666 .007313 .095979 4.750 502576.76 .090755 .006885 .097640 5.000 502567.82 .093340 .006725 .100065 5.250 502568.00 .094135 .006148 .100282 5.500 502563.36 .094680 .005625 .100305 5.750 502563.06 .094209 .005166 .099375 6.000 502553.47 .094664 .004764 .099429 6.250 502554.11 .094109 .004424 .098533 6.500 502554.79 .092819 .004282 .097101 6.750 502551.68 .091538 .004166 .095704 7.000 502552.70 .089740 .004258 .093997 7.250 502561.56 .086607 .005021 .091629 7.500 502555.96 .084166 .005268 .089434 7.750 502549.28 .082401 .005227 .087628 8.000 502538.83 .081565 .004973 .086538 8.250 502528.88 .081415 .004678 .086092 8.500 502527.11 .081062 .004420 .085482 8.750 502532.89 .079902 .004321 .084224 9.000 502518.69 .079738 .004087 .083825 9.250 502511.67 .079817 .003870 .083687 9.500 502506.97 .079923 .003670 .083594 Page 1 of 1

ATTACHMENT 3. 3C INTEGRATED LEAKAGE RATE TEST FROM 1930 HOURS ON MARCH 26, 1986 TO 0500 HOURS ON MARCH 27, 1986 ABSOLUTE TEST METHOD, TOTAL TDK ANALYSIS Mean of Meas.

Time, (hr)

Mass (ibm Meas. Leakage

/ ~(/

Leakage

) ~(/

Gale. Leakage Confidence

( ct/da UCL

~(ct/da 0.000 502675.45 0.000000 0.000000 0.000000 0.000000 0.00000

.250 502666.99 . 161613 0.000000 0.000000 0.000000 0.00000

.500 502662.33 .125268 0.000000 0.000000 0.000000 0.00000

.750 502659.43 . 101972 0.000000 .099797 .051600 .15139 1.000 502663.75 . 055876 0.000000 .060106 .033316 .09342 1.250 502645.62 .113949 0.000000 .078792 .126159 .20495 1.500 502643.80 .100762 0.000000 .082456 .104960 .18741 1.750 502629.18 .126248 0.000000 .096906 .102131 .19903 2.000 502629.81 .108959 0.000000 .098946 .088976 .18792 2.250 502626.89 .103047 0.000000 .098205 .078919 .17712 2.500 502634.78 .077666 0.000000 .089040 .072446 .16148

2. 750 502618.75 .098445 0.000000 .089230 .067064 .15629 3.000 502619.04 .089784 0.000000 .086928 .062196 .14912 3.250 502616.86 .086077 0.000000 .084272 .058161 .14243 3-500 502609.76 .089617 0.000000 .083226 .055002 .13822 3.750 502606.61 .087650 0.000000 .082011 .052260 .13427 4.000 502602.51 .087067 0.000000 .080981 .049919 .13090 4.250 502591.34 .094488 0.000000 .081814 .048474 .13028 4.500 502583.20 .097879 0.000000 .083245 .047441 .13068 4.750 502576.76 .099200 0.000000 .084731 .046501 .13123 5.000 502567.82 .102774 .095635 .086674 .045852 .13252 5.250 502568.00 .097719 .100289 .087444 .044700 .13214 5.500 .502563.36 .097307 .097226 .088054 .043585 .13163 5.750 502563.06 .093321 .095705 .087949 .042378 .13032 Page 1 of 2

ATTACHMENT 3.3C (Continued)

INTEGRATED LEAKAGE RATE TEST FROM 1930 HOURS ON MARCH 26, 1986 TO 0500 HOURS ON MARCH 27, 1986 ABSOLUTE TEST METHOD, TOTAL TIME ANALYSIS Mean of Meas.

Time

~(hr Mass (ibm Meas. Leakage

/ ~t/

Leakage

) ~(/

Gale. Leakage Confidence

( ct/da UCL

~(ct/da )

6.000 502553.47 .097070 .095472 .088465 .041417 .12988 6.250 502554.11 .092699 .097225 .008270 .040364 .12863 6.500 502554.79 .088632 .096020 .087526 .039333 .12685 6.750 502551.68 .087549 .095390 .086737 .038374 .12511 7.000 502552.70 .083727 .093366 .085539 .037487 .12302

7. 250 502561.56 .075006 .091749 .083352 .036841 .12019 7.500 502555.96 .076069 .090464 .081559 .036131 .11769

7. 750 502549.28 .077729 .090467 .080179 .035402 .11558

8. 000 502538.83 .081539 .089662 .079414 .034712 .11412 8.250 502528.88 .084823 .089426 .079122 .034130 .11325 8.500 502527.11 .083323 .089295 .078703 .033552 .11225 8.750 502532.89 .077789 .088731 .077732 .032955 .11068 9.000 502518.69 .083163 .088518 .077437 .032464 .10990 9.250 502511.67 .084538 .088397 .077323 .032042 .10936 9.500 502506.97 .084673 .087930 .077245 .031647 .10889 Page 2 of 2

58Z658 582688 582558

6) l2 M OJ 26 Nar 1S86 2? Mar 1S86 TINE HOURS RTTRCHMENT 3.3D MRSS VS. TINE TURKEY POINT PLRNT UNIT 4 INTEGRRTED LERKRGE RRTE TEST

~ ~ ~~

LRMMP 0-cC -3 R

~zi I-D bJ a + 2 K

u) o

~ N u cern

~u CC

.1 ~ ~ ~ ~

~ ~ ~ ~ ~ ~ ~ ~ ~ ~

~ ~ ~ ~ ~

26 Mar 1986 2? Mar 1S86 RTTRCHMENT 3.3E TIME HOURS UCL 8 LRM VS. T IME TURKEY POINT PLRNT UNIT INTEGRRTED LERKRGE RRTE TEST

~ ~ ~ ~ ~~

RMTT

~ ~ ~

~ ~ ~ ~ ~ ~

~ ~

~ ~ ~ ~

26 Nar 1986 27 Mar 1986 TINE HOURS RTTRCHMENT 3.3F UCL 8 LRM VS. T IME TURKEY POINT PLRNT UNIT INTEGRRTED LERKRGE RRTE TEST

ATTACHMENT 3.3G SUPERIMPOSED LEAKAGE VERIFICATION TEST FROM 0630 TO 1115 HOURS ON MARCH 27, 1986 REDUCED INPUT VARIABLES Time Abs. Pressure Vap. Pressure Temp. Rel. Humidity Mass

~hr sia ( ct (ibm) 0.000 65.835 .4303 544.64 72.313 502412.458

.250 65.831 .4300 544.62 72.314 502403.787

.500 65.826 .4297 544.59 72.312 502389.856

.750 65.822 .4295 544.57 72.338, 502378.923 1.000 65.817 .4294 544.55 72. 355 502358.479 1.250 65.812 .4292 544.54 72.369 502339.129 1.500 65.809 .4290 544.52 72.371 502334.462 1.750 65.803 .4290 544.51 72.387 502298.584 2.000 65.798 .4286 544 '9 72.391 502281.909 502264.392 2.250 65.794 .4286 544.47 72.421 2.500 65.789 .4284 544.45 72.422 502244.555 2.750 65.785 .4282 544.43 72.429 502232.782 3.000 65.781 .4281 544.42 72.430 502212.780 3.250 65.776 .4280 544.40 72.469 502193.781 3.500 65.772 .4278 544.39 72.475 502179.505 3.750 65.768 .4276 544.37 72.492 502165.831 4.000 65.763 .4273 544.36 72.467 502143.262 4.250 65.759 .4272 544.34 72.484 502127.174 4.500 65.755 .4271 544.33 72.510 502110.399 4.750 65.751 .4270 544.31 72.521 -

502091.440 Page 1 of 3

ATTACHMENT 3. 3G (Continued)

SUPERIMPOSED LEAKAGE VERIFICATION TEST FROM 0630 TO 1150 HOURS ON MARCH 27, 1986 ABSOLUTE TEST METHOD, MASS POINT ANALYSIS Time

~(hr 0.000

~ibm Mass 502412.46 Leakage

~(ct/d a 0.000000

~/

95 Pct. Conf.

0.000000 UCL

~(ct/da 0.000000

.250 502403.79 0.000000 0.000000 0.000000

.500 502389.86 .215946 .248265 .464210

.750 502378.92 .218854 .038499 .257353 1.000 502358.48 .253794 .050720 .304513 1.250 502339.13 .280338 .044399 .324737 1.500 ~ 502334.46 '.269337 .032317 .301654 1.750 502298.58 .299436 .040987 .340422 2.000 502281.91 .314760 .035202 .349963 2.250 502264.39 .323649 .029168 .352818 2.500 502244.55 .331016 .024738 .355754 2.750 502232.78 .331186 .020352 .351538 3.000 502212.78 .332970 .017144 .350113 3.250 502193.78 .334950 .014711 .349661 3.500 502179.50 .334682 .012662 .347345 3.750 502165.83 ~ 332885 .011163 .344048 4.000 502143.26 .333579 .009824 .343403 4.250 502127.17 .334092 .008709 .342800 4.500 502110.40 .333808 .007752 .341561 4.750 502091.44 .334008 .006958 .340966 Page 2 of 3

~,

ATTACHMENT 3. 3G (Continued)

SUPERIMPOSED LEAKAGE VERIFICATION TEST FROM 0630 TO 1115 HOURS ON MARCH 27, 1986 ABSOLUTE TEST METHOD, TOTAL TIME ANALYSIS Mean of Meas.

Mass (ibm Meas. Leakage

/ ~t/

Leakage

~(/

Calc. Leakage Confidence

/

UCL

~(ct/da )

0.000 502412.46 0.000000 0.000000 0.000000 0.000000 0.00000

.250 502403.79 .165686 0.000000 0.000000 0.000000 0.00000

.500 502389.86 0.000000 0.000000 0.000000 0.00000

.215946'213593

~ 750 502378.92 0.000000 .222362 .208078 .43044 1.000 502358.48 .257857 0.000000 .254395 .079509 .33390.

1.250 502339.13 .280232 0.000000 .280864 .050156 .33101 1.500 502334.46 .248389 0.000000 .276758 .078880 .35563

l. 750 502298.58 .310841 0.000000 .302541

.318218

.066412

.057829

.36895

.37604 2.000 502281.91 .311815 0.000000 2.250 502264.39 .314358 0.000000 .328790 .054584 .38337 2.500 502244.55 .320827 0.000000 .337683 .053037 .39072 2.750 502232.78 .312110 0.000000 .340717 .057072 .39778 3.000 502212.78 . .317951 0.000000 .344212 .058509 .40272 3.250 502193.78 .321418 0.000000 .347411 .059273 .40668 3.500 502179.50 .317945 0.000000 .348647 .061187 .40983 3.750 502165.83 .314167 0.000000 .348415 .063604 .41201 4.000 502143.26 .321484 0.000000 .349652 .063849 .41350 4.250 502127.17 .322282 0.000000 .350610 .064010 .41462 4-500 502110.40 .320650 0.000000 .350872 .064453 .41532 4.750 502091.44 .322839 0.000000 .351351 .064473 .41582 Page 3 of 3

SECTION 4 LOCAL LEAKAGE RATE TESTS (TYPES B AND C)

Section 4 summarizes the LLRT data which has been obtained from periodic testing performed since the Hay 1983 Type A ILRT. Pre-repair data are provided for surveillance testing performed in 1984 and 1986. These LLRT's were performed by pressurizing the listed penetrations with either air or nitrogen and measuring the leakage across the containment isolation valves (Type C) or resilient seals (Type B). Each penetration's leakage rate can be obtained from site reference material.

If the pre-repair and post-repair leakages are the same then no repair was performed. Also, it should be noted that certain penetrations had multiple LLRT's performed as indicated in Attachments 4A and 4B.

The acceptance criteria for Types B and C testing are in accordance with 10CFR50, Appendix J. The combined "as-left" leakage rate for all penetrations and valves subject to Type B and C tests in 1984 and 1986 were well below the acceptance criteria of less than 0.60 La.

The data contained in this section are summarized below:

Attachment Title 4A 1986 Local Leakage Rate Test Data 4B 1984 Local Leakage Rate Test Data 4C 1986 Local Leakage Rate Test Summary Analysis I

4-1

ATTACHMENT 4A 1986 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min) (cc/min) Re air/Notes 5 PRT to Gas Analyzer CV-516 (OSC) 425 (25 SV-6385 (OSC). 425 C.25 6 Nitrogen to PRT CK-518 (ISC) 70,000 170 CK-518 Cleaned and CK-519 (ISC) 540 540 lapped seat.

7 PW to PRT and RCP CV-519A (OSC) (25 425 Standpipes CV-519B (ISC) Combination Combination CV-522A (ISC)

CV-522B (ISC)

CV>>522C (ISC)

~0 430 Pen. 7 - Replaced valve Combination Combination diaphragms.

C30 630 Pen. 7 - Replaced valve Combination Combination diaphragms.

8 PRZ Steam Samples CV-951 (ISC) 450 450 CV-956A (OSC) ~0 <30 CV-956A Cleaned and lapped.

9 PRZ Liquid Samples CV-953 (ISC) 33,500 (30 CV-953 Cleaned and CV-956B (OSC) <20 <20 lapped seat.

Page 1 of 7

ATTACHMENT 4A (Continued) 1986 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min / Re air/Notes 10 RCDT and PRT Vent CV-4658B (OSC) ~30 <30 and Nitrogen to RCDT PCV-3-1014 (OSC) 875 875 CV-4658A (OSC) Combination Combination ll Alternate Low Head SI MOV-872 (OSC) 40 40 to Loops 14 Letdown to Nonregenerative C CV-200A (ISC) <30 <30 Heat Exchanger CV-200B (ISC) Combination Combination CV-200C (ISC)

CV-204 (OSC) 50 50 15 Charging to Regenerative CK-312C (ISC) <30 (30 Heat Exchanger HCV-121 (OSC) ~30 <30 V-333 (OSC) Combination Combination 16 PACVS, Hydrogen Removal HV-3-2 (OSC) +30 <30 HV-3-1 (OSC) Combination Combination PAHM-002A (OSC) 17 SI Test Line V-895V (OSC) g30 g30 19A Containment Spray A CK>>890A (OSC) 430 +30 8,750 CK-890A Inspected valve internals.

2,800 1,400 CK-890A - Cleaned and lapped seat.

Page 2 of 7

ATTACHMENT 4A (Continued) 1986 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min) (cc/min) Repair/Notes MOV-880A (OSC) (30 (30 19B Containment Spray B CK-890B (OSC) 300 300 1,500 600 CK-890B Inspected valve internals and cleaned and lapped seat.

MOV-880B (OSC) C30 (30 20 A and B Hot Leg Sample SV-6427A (ISC) (30 C3O SV-6427B (ISC) 550 550 SV-6428 (OSC) (30 (30 23 .,Containment Sump to WHT CV-2822 (OSC) 150 150 CV-2821 (OSC) 400 400 24A Seal Water Injection CK-298A (ISC) 800 800 to A RCP 24B Seal Water Injection CK-298B (ISC) C'30 to B RCP 24C Seal Water Injection CK-298C (ISC) 300 300 to C RCP 25 RCP Seal Water Return MOV-381 (OSC) ~30 C30 MOV-6386 (ISC) 1 0600 1$ 000 MOV-6386 Adjusted limit switch.

Page 3 of 7

ATTACHMENT 4A (Continued) 1986 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min) (cc/min) Re air/Notes 29 Instrument Air Supply CK-336 (ISC) 400 400 CK-340A (ISC) 750 750 30 Breathing Air CK-201 (ISC) <30 <30 CV-6165 (OSC) 800 800 31 RCDT to Gas Analyzer CV-4659B (OSC) +30 C,30 CV-4659A (OSC) Combination Combination 32 Containment Air Sample CK-11-003 (ISC) 47,500 700 CK-11-003 Cleaned and Return lapped seat.

SV-2912 (OSC) 650 650 PAHM-001A, B (OSC) Combination Combination 33 Containment Air Sample SV-2913 (OSC) <30 <30 SV-2911 (OS) <30 430 34 Service Air CK-205 (ISC) 145,000 600 CK-205 Cleaned and V-204 (OSC) 600 600 lapped seat.

HV-17 (OSC) Combination Combination 35 Containment Purge Inlet PV-2600 (OSC) 23,000 1%500 PV-2600, 2601 PV-2601 (ISC) Combination Combination Adjusted seats.

170,000 1,800 PV-2600, 2601 Combination Combination Adjusted seats.

Page 4 of 7

ATTACHMENT 4A (Continued) 1986 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min (cc/min Re air/Notes 36 Containment Purge Outlet PV-2602 (OSC) 0'190,000 700 PV-2603 PV-2603 (ISC) Combination Combination Adjusted seat.

150,000 550 PV-2603 Combination Combination Adjusted seat.

37 Spare Cap X30 (30 10-879 <30 C,30 38 Electrical Cannisters Cannisters 350 350 Pen. 38 The repair value is the total of all electrical penetrations.

39 Fuel Transfer Tube Flange B 0-Ring and Body 120 120 40 Equipment Access Hatch B 0-Ring and Body 430 <30 41 Personnel Air Lock 0-Ring and Body 4,500 4,500 42 Nitrogen to Accumulators ST-CK-945E (ISC) 1,600 1,600 3,600 1,900 CK-945E Cleaned and lapped seat.

CV-855 (OSC) 600 600 47 Primary Water Supply to CK-10-567 (OSC) 1705000 CK-567 Cleaned and Wash Header V-582 (ISC) Combination lapped seat.

Page 5 of 7

ATTAGBKNT 4A (Continued) 1986 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min (cc/min Re air/Notes 180,000 2,200 CK-567 Cleaned and Combination Combination lapped seat.

49 Emergency Air Lock 0-Ring and Body 720 720 51 PACVS HV-4-3,4 (OSC) <30 <30 PAHM-4-002B (OSC) Combination Combination 52 RCDT Pump Discharge CV-4668B (OSC) <30 30 CV-4668A (OSC) Combination Combination 54A Containment Recir. Sump MOV-861A (OSC) <30 <30 to RHR Pump A MOV-860A (OSC) Combination Combination 54B Containment Recir. Sump MOV-861B (OSC) 100 100 to RHR Pump B MOV-860B (OSC) Combination Combination 55 Accumulator Sampling CV-955C (ISC) 430 <30 CV-955D (ISC) 11,000 120 CV-955D Cleaned and lapped seat.

CV-955E (ISC) 40 40 CV-956D (OSC) 15,500 <30 CV-956D Cleaned and lapped seat.

430 CV-956D Replaced valve internals.

Page 6 of 7

ATTACHMENT 4A (Continued) 1986 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Ape Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min) (cc/min) Re air/Notes 56 Spare Cap <30 <30 61A Spare V-2027 (OSC) (30 430 61B Deadweight Tester to PT V-2023 (ISC) 430 430 V-2024 (OSC) <30 K30 63 Instrument Air Bleed CV-2819 (ISC) 150 150 CV-2826 (OSC) 700 700 65A Containment Air Test Flange 'E'OSC) 1,600 (30 Pen. 65A Tightened Air In-Out (ISC) Combination Combination outbd. flange.

65B Containment Air Test B, C V-2025 (OSC) 430 Z30 Pressure Flange (ISC) Combination Combination 65C Containment Air Test B, C . V-2026 (OSC) -430 g30 Leakage Flow Flange (ISC) Combination Combination Page 7 of 7

ATTACHMENT 4B 1984 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min) (cc/min) 5 PRT to Gas Analyzer cv-516 (osc) (30 (30 SV-6385 (OSC) <30 (30 6 Nitrogen to PRT CK-518 (ISC) 1,250 1,400 CK-518 Cleaned and lapped seat.

CK-519 (ISC) 3,000 750 CK-519 Cleaned and lapped seat.

7 PM to PRT and RCP CV-519A (OSC) (30 (30 Standpipes CV-519B (ISC) Combination Combination CV-522A (ISC)

CV-522B (ISC)

CV-522C (ISC) 8 PRZ Steam Samples CV-951 (ISC) (30 (30 48$ 000 450 CV-951 Retest performed after hydro cleaned and lapped seat.

cv-956A (osc) 400 240 CV-956A Cleaned and 18$ 000 250 lapped seat.

3 5600 Tubing modification on containment boundary.

9 PRZ Liquid Samples CV-953 (ISC) 170 170 300 CV-953 Retest performed after hydro.

Page 1 of 10

ATTACHMENT 4B (Continued) 1984 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min) (cc/min) Re air/Notes CV-956B (OSC) 50 50

~30 CV-956B - Retest performed after hydro.

10 RCDT and PRT Vent and CV-4658B (OSC) (30 (30 Nitrogen to RCDT PCV-3-1014 (OSC) 30,000 <20 CV-4658A Cleaned and CV-4658A (OSC) Combination Combination lapped seat.

ll Alternate Low Head SI to MOV-872 (OSC) +52,000 (30 MOV-872 Cleaned and lapped seat.

Loops 1,900 MOV-872 Greased valve operator.

14 Letdown to Nonregenerative C CV-200A (ISC) 700 700 Heat Exchanger CV-200B (ISC) Combination Combination CV-200C (ISC)

CV-204 (OSC) (30 &30 15 Charging to Regenerative C CK-312C (ISC) (30 430 Heat Exchanger HCV-121 (OSC) 220 220 V-333 (OSC) Combination Combination 16 PACVS, Hydrogen Removal HV-3-2 (OSC) (30 (30 HV-3-1 (OSC) Combination. Combination PAHM-002A (OSC) 17 SI Test Line V-895V (OSC) C30 (30 Page 2 of 10

ATTACHMENT 4B (Continued) 1984 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min) (cc/min) Repair/Notes 19A Containment Spray A CK-890A (OSC) 80 1i400 CK-890A Inspected valve internals.

MOV-880A (OSC) <30 90 MOU-880A Greased valve operator.

19B Containment Spray B CK-890B (OSC) (30 350 CK-890B Inspected valve internals.

MOV-880B (OSC) (30 100 MOV-880B Greased valve operator.

20 A and B Hot Leg Sample SV-6427A (ISC) (30 400 SV-6427A Retest performed after hydro.

SV-6427B (ISC) 150 430 SV-6427B Retest performed after hydro.

SV-6428 (OSC) (30 50 SV-6428 Retest performed after hydro.

23 Containment Sump to WET CV-2822 (OSC) )52,000 800 CV-2822 Cleaned and lapped seat.

CV-2821 (OSC) (30 <30 Page 3 of 10

0 ATTACHIKNT 4B (Continued) 1984 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min) (cc/min) Re air/Notes 24A Seal Water Injection to CK-298A (ISC) C30 (30 A RCP 24B Seal Water Injection to CK-298B (ISC) (30 (30 B RCP 24C Seal Water Injection to CK-298C (ISC) (30 (30 C RCP 25 RCP Seal Water Return MOV-381 (OSC) 1,150 1,150 MOV-6386 (ISC) (30 <3O 29 Instrument Air Supply CK-336 (ISC) 950 950 CK-340A (ISC) 950 950 30 Breathing Air CK-201 (ISC) (30 C30 CV-6165 (OSC) 430 (30 31 RCDT to Gas Analyzer CV-4659B (OSC) (30 (30 CV-4659A (OSC) Combination Combination 32 Containment Air Sample CK-11 -003 (ISC) 40%000 1,000 CK-11-003 Cleaned Return and lapped seat.

SV-2912 (OSC) 100 100 PAHM-001A, B (OSC) Combination Combination Page 4 of 10

ATTACHMENT 4B (Continued) 1984 LOCAL LEAKAGE RATE TEST DATA Pre-,Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test - Tested ~(cc/min (cc/min) Re air/Notes 33 Containment Air Sample SU-2913 (OSC) 100 100 SV-2911 (OSC) 275 275 34 Service Air CK-205 (ISC) 11,000 850 CK-205 Cleaned and lapped seat.

V-204 (OSC) 150 430 HV-17 (OSC) Combination Combination 35 Containment Purge Inlet PV-2600 (OSC) )52,000 PV-2600 & 2601 PV-2601 (ISC) Combination Ad)usted seats.

3,000 PV-2600 & 2601 Combination Replaced seals and seats.

0 52,000 PV-2600 & 2601 Combination Ad)usted seats.

9,000 PV-2600 & 2601 Combination Retest only.

13,500 PV-2600 & 2601-Combination Retest only.

Page 5 of 10

0 ATTACHMENT 4B (Continued) 1984 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min) (cc/min) Repair/Notes 12%500 PV-2600 & 2601 Combination Retest only.

14,200 PV-2600 & 2601 Combination Retest only-.-.-

127000 PV-2600 & 2601 Combination Retest only.

29,000 PV-2600 & 2601 Combination Retest only-.

10,000 Combination 36 Containment Purge Outlet PV-2602 (OSC) )52,000 PV-2602 & 2603 PV-2603 (ISC) Combination Adjusted seats.

700 PV-2602 & 2603 Combination Retest only.

24,000 PV-2602 & 2603 Combination Adjusted seats.

350 PV-2602 & 2603 Combination Retest only.

Page 6 of 10

ATTACHMENT 4B (Continued) 1984 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min (cc/min Re air/Notes 200 PV-2602 & 2603 Combination Retest only.

19500 PV-2602 & 2603 Combination Retest only.

1,400 PV-2602 & 2603 Combination Retest only.

500 PV-2602 & 2603 Combination Retest only.

3,500 PV-2602 & 2603 Combination Retest only.

500 Combination 37 Spare Cap 430 <30 V-10-879 <30 a30 38 Electrical Cannisters Cannisters C,330 <330 Penetration 38 Total of all electrical penetrations.

39 Fuel Transfer Tube Flange B 0-Ring and Body 450 450 Page 7 of 10

ATTACHMENT 4B (Continued) 1984 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min) (cc/min Re air/Notes 40 Equipment Access Hatch 0-Ring and Body C,30 c30 c,30 430 c,30 30 41 Personnel Air Lock 0-Ring and Body 5,900 5,900 3,500 8,700 Personnel Airlock Repaired reach rods.

4,600 4,600 3,000 3,000 6,800 2,500 Personnel Airlock Repaired reach rods.

42 Nitrogen to Accumulators ST-CK-945E (ESC) 4,400 CK-945E Cleaned and lapped seat.

35,000 CK-945E Cleaned and lapped seat.

4,200 CK-945E Cleaned and lapped seat.

51000 500 CK-945E - Replaced valve.

CV-855 (OSC) 600 600 400 CV-855 Retest performed after hydro.

Page 8 of 10

~ '"

ATTAQBKNT 4B (Continued) 1984 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Penetration No.

Type Test Equipment/Valves Tested ~))

Leakage- Leakage (cc/min) Re air/Notes 47 Primary Water Supply CK-10-567 (OSC) 2%000 240 CK-10-567 Cleaned Wash Header V-582 (ISC) Combination Combination and lapped seat.

49 Emergency Air Lock O-Ring,and Body 400 400 750 750 51 PACV's C . HV-4-3,4 (OSC) <30 <30 PAHM-4-002B (OSC) Combination Combination 52 RCDT Pump Discharge CV-4668B (OSC) <20 C20 Combination Combination

.CV-4668A (OSC) ~20 ~0 CV-4668A & B - Retest Combination Combination performed after hydro.

54A Containment Recirc. Sump MOV-861A (OSC) 40 40 to RHR Pump A MOV-860A (OSC) Combination Combination 43O (30 MOV-860A & 861A-Combination Combination Greased valve operator.

54B Containment Recirc. Sump MOV-861B (OSC) 20200 20200 to RHR Pump B Combination Combination MOV-860B (OSC) 130 130 .MOV-860B & 861B-Combination Combination Greased valve operator.

55 Accumulator Sampling CV-955C (ISC) 50 50 230 <30 CV-955C - Retest performed after hydro.

Page 9 of 10

I ATTAC1KENT 4B (Continued) 1984 LOCAL LEAKAGE RATE TEST DATA Pre-Repair Post-Repair Type Equipment/Valves Leakage Leakage Penetration No. Test Tested (cc/min (cc/min Re air/Notes CV-955D (ISC) 430 430 (30 430 CV-955D Retest performed after hydro.

CV-955E (ISC) <30 430

<30 <30 CV-955E Retest performed after hydro.

CV-956D (OSC) 430 (30

+30 <30 CV-956D Retest performed after hydro.

61B Deadweight Tester to PT V-2023 (ISC) 430 <30 V-2024 (OSC) <30 C30 63 Instrument Air Bleed CV-2819 (ISC) 300 300 CV-2826 (OSC) 950 950 65A Containment Air Test Flange iEe (OSC 5,000 130 Pen. 65A Tightened Air In-Out (ISC) Combination Combination outbd. flange.

65B Containment Air Test B, C V-2025 (OSC) g30 430 Pressure Flange (ISC) Combination Combination 65C Containment Air Test B, C V-2026 (OSC) C.30 430 Leakage Flow Flange (ISC) Combination Combination Page 10 of 10

ATTACHMENT 4C 1986 LLRT

SUMMARY

ANALYSIS The pre-repair LLRT, the repair, and the post-repair LLRT for each boundary, or penetration, was reviewed. The net leakage contribution for each penetration was determined using the following criteria:

1. A leakage equivalent to the repair improvement achieved on each valve in the penetration is calculated.

2. The leakage equivalent is the difference between the pre-repair and the post-repair LLRT results.

,3. If a repair was not performed, a zero leakage equivalent is assessed to the valve.

4. The leakage equivalent assessed to a penetration may be reduced due to the safety related service of the system associated with the penetration(s). Justification for this reduction will be provided with the analysis.

5. The net equivalent leakage for the penetration is the lowest of the inside or outside valve grouping (e.g., simulates minimum pathway leakage).

6. If the "As-Left" leakage of a repaired valve is lower than the "As-Left" leakage of a valve that didn't require a repair, then the penetration net equivalent leakage is the difference between the "As-Left" leakages.

7. For series valves tested together, the penetration net equivalent leakage is half the total leakage when both valves are repaired at the same time (prior to performing another test).

8. When the summation of the leakage equivalent and the leakage measured during a successful Type A test is greater than 0.75 L the penetration(s) with excessive leakage(s) shall be analyzed under a corrective action program.

Page 1 of 5

ATTACHMENT (Continued) 1986 LLRT SU&fARY ANALYSIS "As-Found" "As-Left" Pen.

Pen. No. Valve Loc. (ccm). (ccm) Net Remarks 5 PRT Gas to Analyzer CV-516 SV-6385 OSC OSC (Z 25 25 (25 (25 Nitrogen to PRT CK-518 ISC 70,000 170 370 RCP Standpipes CK-519 ISC 540 540

- PW to PRT and CV-519A,B OSC/ISC (25 (30 0 Combination RCP Standpipes CV-522A,B,C ISC PRZ Steam CV-951 ISC 450 450 Samples CV-956A OSC ~30 Z30 PRZ Liquid CV-953 ISC 33,500 (30 Samples CV-956B OSC MO <20 10 RCDT and PRT PCV-3-1014 OSC 875 875 0 Combination Vent and Nitrogen CV-4658A OSC to RCDT CV-4658B OSC ~30 430 Alternate Low MOV-872 OSC 40 40 Head SI to Loops 14 Letdown to CV200A,B,C ISC WO 430 0 Combination Nonregenerative CV204 OSC 50 50 Heat Exchanger 15 Charging to CK-312C ISC ~30 (30 Regenerative V-333, HCV-121 OSC <30 &0 Combination Heat Exchanger PACV's, Hydrogen HV-3-1,2 OSC C30 . 230 0 Combination Removal PAHM-002A OSC 17 - SI Test Line V-895V OSC (30 ~30 19A Containment CK-890A OSC (30 1,400 Spray A MOV-880A OSC 4 30 (30 19B Containment CK-890B OSC 300 600 Spray B MOV-880B OSC <30 (30 Page 2 of 5

ATTACIBKNT (Continued) 1986 LLRT

SUMMARY

ANALYSIS "As-Found" "As-Left" Pen.

Pen. No. Valve Loc. (ccm) (ccm) Net Remarks 20 A and B Hot Leg SV-6427A ISC (30 (30 Sample SV-6427B ISC 550 550 SV-6428 OSC <-30 (30 23 Containment Sump CV-2821 OSC 400 400 to WHT CV-2822 OSC 150 150 24A,B,C, - RCP Seal CK-298A ISC 800 800 Inject. CK-298B ISC (30 (30 CK-298C ISC 300 300 25 RCP Seal Water MOV-6386 ISC 1,600 1,000 Return MOV-381 OSC ~30 (30 29 Instrument Air ST-CK-340A ISC 750 750 Supply CK-336 ISC 400 400 CK-201 ISC (30 <30 CV-6165 OSC 800 800 31 RCDT to CV-4659A,B %0 (30 OSC 0 Combination Gas Analyzer 32 - Containment Air CK-11-003 ISC 47,500 700 Sample Return SV-2912, OSC PAHM-001A,B OSC 650 650 Combination 33 - Containment Air SV-2911 OSC <30 <30 Sample SV-2913 OSC (30 <SO CK-205 ISC 145,000 600 HV-17, V-204 OSC .600 600 Combination 35 Containment PV-2601 ISC 23,000 1,800 10,600 See Note 1 Purge Inlet PV-2600 OSC Combination 36 Containment PV-2603 ISC 0190,000 550 0 See Note 2, Purge Outlet PV-2602 OSC Only re-worked PV-2603.

Combination Page 3 of 5

.i ATTACHMENT (Continued)

N 1986 LLRT

SUMMARY

ANALYSIS "As-Found" "As-Left" Pen.

Pen. No. Valve Loc ~ (ccm) (ccm) Net Remarks 37 Spare CAP (30

( 30

(<3030 0 10-879 38 - Electrical 350 350 Cannisters 39 - Fuel Transfer 120 120 Tube Flange 40 Equipment Hatch 30 30 41 Personnel Air Lock 4,500 4,500 42 Nitrogen to ST-CK-945E ISC 1,600 15900 Accumulators CV-855 600 600 t

OSC 47 Primary Water CK-10-567 OSC 170,000 2,200 0 Only re-Supply to Wash V-582 ISC worked Header CK-10-567

'ombination 49 - Emergency Air Annulus 720 720 Lock 51 - PACV's HV-4-3, HV-4-4 OSC ~30 ~30 0 Combination PAHM-4-002B OSC 52 RCDT Pump CV-4668A,B OSC <'3O (30 0 Combination t Discharge 54A Cont.

to Recirc.

RHR Pump A 54B Cont. Recirc.

Sump Sump MOV-860A MOV-861A MOV-860B OSC OSC MO 100 (30 100 0

0 Combination Combination to RHR Pump B MOV-861B 55 Accumulator CV-955C ISC <30 430 Sampling CV-955D ISC 11,000 120 10,880 CV-955E ISC 40 40 CV-956D OSC 15,500 ~0 Page 4 of 5

<4 ~ ~

I rj

~ ~

ATTACHMENT '(Continued) 1986 LLRT

SUMMARY

ANALYSIS "As-Found" "As-Left" Pen.

Pen. No. Valve Loc.

56 Spare 30 30 ~0 q(

t 61A Spare 61B Deadweight 63 Tester to Instrument PT Air V-2027 V-2023 V-2024 CV-2819 OSC ISC OSC ISC 30 150 30 30 30 150 0

0 0

Bleed CV-2826 OSC 700 700 65A Containment Air Flange OSC 1,600 30 0 Only outbd.

Test Air In-Out ISC ,',flange repaired.

65B Containment Air V-2025 OSC 30 30 0 Combination Test Pressure Flange ISC 65C Containment Air V-2026 OSC 30 30 0 Combination Test Pressure Flange ISC NOTES:

1. Since both valves were reworked at the same time, one-half of the total leakage (As-Found minus As-Left) is conservatively assigned to this penetration. If piece-wise maintenance had been performed; as was done on Penetration 36, a smaller net equivalent leakage ~mi ht have resulted.

2. Greater than represents the largest flowmeter used for the 1986 LLRT program. See Penetration 36.

CONCLUSION The net equivalent leakage is 21,850 ccm, or 0.071860 percent/day.

Page 5 of 5

(~i 0',

0