Final Rept, Reactor Containment Bldg Integrated Leak Rate Test Unit 1 - Fifth Periodic

ML20071H626
Person / Time
Site:	Farley
Issue date:	07/31/1994
From:	SOUTHERN NUCLEAR OPERATING CO.
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ML20071H623	List: ML20071H621 ML20071H626
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NUDOCS 9407190381
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SOUTHERN NUCLEAR OPERATING COMPANY J. M. FARLEY NUCLEAR PLANT UNIT 1 FIFI11 PERIODIC REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST JULY 1994 FINAL REPORT Prepared by Southern Co. Services, Inc O

9407190381 940715 PDR ADDCK 05000348 P PDR

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O TAate oP CoxTexTS  :

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l 1.0 Introduction Page 1 l

2.0 Summary Page 2 l 3.0 Methodology Page 3 3.1 Leakage Rate Calculations Page 3 3.2 Test Measurements Page 3 4.0 Test Procedure Page 5 4.1 Front-of-Outage Test Page 5 4.2 Initial Conditions Page 5 4.3 Pressurization Page 6 4.4 Stabilization Page 6 4.5 Type A Test Page 7 4.6 Verification Page 7 5.0 Results & Analysis Page 8 5.1 Mass Point Results Page 8 5.2 Verification Results Page 9 5.3 Total Time Results Page 10 6.0 References Page 11 l

Tables and Figures l

l Appendix I ILRT Computer Program Description '

Appendix II Type B and C Local Leakage Rate Test Results Appendix III Instrument Calibration Summary Appendix IV GeneralInformation

(3 LIST OF TABLES i Lable Title 1 Drybulb and Dewpoint Temperature Sensor Locations 2 Temperature Stabilization Report 3 Data Summary Report 4 Mass Point Leakage Rate Report 5 Mass Point Leakage Rate Report - Verification 6 Total Time Leakage Rate Report LIST OF FIGURES O ri,ture Titie 1 Temperature During Stabilization 2 Air Mass - Type A Test 3 Mean Temperature - Type A Test 4 Total Pressure - Type A Test 5 Vapor Pressure - Type A Test 6 Mass Point Leakage Rate - Type A Test 7 Air Mass - Verification 8 Mass Point Leakage Rate - Verification

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1.0 INTRODUCTION

The Fifth Periodic Integrated Leakage Rate Test (ILRT) at Alabama Power Company's  !

Joseph M. Farley Nuclear Plant (FNP) Unit I was performed on March 9-10,1994. The l I

ILRT was performed as required by 10CFR50 Appendix J (Reference 1) and the Farley FSAR (Reference 4) to demonstrate that leakage through the containment boundary at design basis accident pressure does not exceed the FNP Technical Specification (Reference

2) limit. The test was performed in accordance with procedure FNP-1-STP-117.0 Revision 12, Oflicial Test Copy #940304-1 (Reference 3). The following documentation is retained at the site along with the Official Test Copy of the procedure:

o instrumentation validation (calibrations, ISG, etc.)

o test instrumentation status o plant systems status o access control o test procedure o event log o temperature stabilization data o integrated leakage rate data o verification leakage rate data o local leak rate test data A summary of general plant information as related to the Integrated Leak Rate Test is p> provided in Appendix IV.

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SUMMARY

The Fiflh Periodic Integrated Leakage Rate Test for the Farley Unit I containment was successfully completed at 12:45 p.m. on March 10,1994. The duration of the test was 24 ,

hours. The results of the test follow: (Additional leakage to account for penetrations in service or isolated during the test and not in post accident alignment is included in the leakage rates. The 95% UCL plus any penalty addition is referred to as the final leakage rate.)

Leakage Rate (weight % per day)

Mass Point Analysis Calculated Leakage 95% UCL Final Leakage Rate Acceptance Limit Rate (UCL + penalties) (0.75 La) 0.0345 0.0361 0.0479 0.1125 i

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{} 3.0 METHODOLOGY 3.1 Leakage Rate Calculations j Data from the instrumented containment is reduced by direct application of the ideal gas law, PV = w RT, to calculate air mass at each data point. The change in air mass provides )

informatian to develop the leakage rate. 1 i

The mass point data analysis technique assumes that the leakage rate is constant with time and thus the data can be analyzed by the method oflinear least squares. The slope of this line represents the rate of change of air mass with respect to time, which is the leakage rate. A typical description of the mass point method can be found in ANSI /ANS 56.81987 (Reference 5).

An upper confidence limit (UCL) is set such that there is only a five percent chance that the actual containment leakage rate exceeds the reported UCL value. This 95% UCL on calculated leakage rate rather than the calculated rate itselfis the number used to determine acceptance.

3.2 Test Measurements Twenty-four drybulb and six dewpoint temperature sensors located inside containment were used to collect information for leakage rate calculations. These were located at O averoxi==teir e9u tiv spaced eievatioas se=>or ioc>tioa= >ad votu=e cractioa= (T>6te 2) were established by considering temperature distributions in past tests, temperature surveys l

and the containment free volume.

Drybulb temperatures were measured using 100 Ohm platinum resistance temperature detectors (RTDs). Dewpoint temperatures were measured using optical chilled mirror dew point hygrometers. These devices use a direct-measuring sensor automatically held at the dew point temperature by an optical system. This technique is a primary measurement of the water vapor content of the air. The mirror temperature represents the true dew point temperature and is measured by an imbedded precision platinum resistance thermometer.

Absolute pressure was measured using a vibrating cylinder element sensor connected through tubing to a containment penetration. The change in pressure during an ILRT is quite small relative to absolute pressure. The pressure device used has an accuracy of+/-

0.015% RDG, +/- 0.002% F.S. and a repeatability of +/- 0.001% F.S.

A data logger was used to collect data at fifteen minute intervals. Information from the RTDs, dewpoint sensors, and pressure indicators was transferred from the data logger to the ILRT computer for analysis. The data system generated a printed tape record of each data set transmitted to the computer.

The computer used for the ILRT was an IBM compatible. A compiled Basic program as O described in Appendix 1 was run on the computer.

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The imposed leakage rate for the verification test was measured using a float type flowmeter.

All instrumentation was calibrated prior to the ILRT. Instrumentation characteristics and calibration information are summarized in Appendix III. Calibration documents are included with the official test copy of the procedure.

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m 4.0 TEST PROCEDURE i

4.1 Front-of-Outage Test Previous ILRTs at Farley had been conducted at the end of the outage. After a review of the advantages and disadvantages of front-end and back-end tests, it was determined that this ILRT would be performed at the beginning of the outage.

This approach would not allow the local leak rate test (LLRT) program to be completed prior to the ILRT. Because a limited number of LLRTs could be completed, tests were performed for penetrations that were not going to be in correct post-LOCA alignment during the ILRT and for penetrations that had a history which showed some large as-found leakages. These tests provided the information to calculate penalty additions due to penetrations out of post-LOCA alignment due to systems in service or systems that would be isolated. These LLRTs also provided some opportunity to identify potential gross leakage through Containment Isolation Valves. No gross leakages were detected and no valve repairs were made prior to the ILRT.

Advantages of the front-end ILRT include: savings in critical path time, reduction in the valve lineups required by operations, reduction in time required for instrumenting the containment, and decrease in the time required to clean-up containment for the ILRT at the end of the outage.

O 4.21nitiaiConditiees i A general inspection of the accessible interior and exterior surfaces of the containment building was performed prior to the ILRT. No repairs or adjustments were made to the containment after initiation of the inspection so that the building could be tested as close as practical to the "as is" condition. The inspection uncovered no evidence of structural deterioration which would affect the containment structural integrity or leak-tightness.

Plant systems were aligned for the ILRT as specified in the plant procedure. Isolation valves, except those in systems required to maintain the plant in a safe condition and those systems used to conduct the ILRT, were set in post-LOCA positions specified in the FSAR.

For those systems or penetrations that were in service or isolated during the test a penalty addition must be made to the Type A test results. The penalty addition is the sum of the minimum pathway leakages for those penetrations determined to be in a position other than normal post-LOCA position. Penetrations included in this penalty calculation were Normal Charging (#24), RCP Seal Return (#28), Service Water Return from Coolers (#32), RCP Cooling Water (#42), Excess Letdown CCW (#45), Component Cooling Water (#46),

Pressurizer Steam Sample (#56), Pressurizer Liquid Sample (#57), Relief Valve Discharge to PRT (#59), Service Water Supply to Coolers (#60), and ILRT Post Accident Containment Sample / Pressure Sensing Line (#61 A).

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e Piping was vented and drained to expose valve seats per post LOCA scenarios. All sources k of gas at pressures above containment test pressure were isolated or vented to prevent leakage into the containment during the ILRT.

A temperature survey was performed to confirm the placement locations of the sensors. An in-situ test on the sensors was performed to demonstrate the proper functioning of the sensors and the data collection system. RTD in-situ tests were done using an ice bath (32 degrees F) and verifying that temperature at the data system. Dewpoint in-situ tests were done using a calibrated dewpoint instmment (spare dewcell) to measure dewpoint temperature at each sensor and comparing the results with dewpoint temperature at the data system. The in-situ checks that all RTDs were operating within +/- one degree of the standard and all dewcells were operating within +/- two degrees of te standard.

The Official Test Copy of the procedure documents the completion of the prerequisites for the test including all exceptions to specified conditions.

4.3 Pressurization The containment was pressurized using oil free compressors discharging through an after cooler / moisture separator and refrigerated air dryer. Ten compressors with a combined capacity of 12,000 SCFM were used. Start of pressurization occurred at 1:30 p.m. on 1 March 8,1994. Pressurization was terminated when containment pressure reached 50 psig at 1:00 a.m. on March 9,1994. This allowed a 2 psi margin for pressure drop to ensure the ,

O gage pressure would be at or above the 48 psig minimum pressure required for the test.

To assist with the circulation of pressurizing air the containment ventilation fans were run until the containment reached test pressure. Containment lights were turned off when the pressure reached 10 psi.

4.4 Stabilization  !

Upon reaching ILRT test pressure the containment was allowed to stabilize. The start time i was 1:00 a.m. on March 9,1994. Containment conditions were recorded at fifteen minute intervals. Contaiment conditions during :tabilization were somewhat different than previous Farley ILRTs. Containment pressun and temperature continued to rise after the completion of pressurization. (Containment pn.c e did not exceed the 51 psig procedural limit).

It is not fully known why this phenomena occurred. Because of a front-end test, warm containment components had less time to expel their excess heat which may have created a I heat source. The pressurized air was somewhat cooler than the air of previous tests. Thus it is reasonable that equalization of temperature would take longer time.

Data received during this period indicated that the final leakage rate may result in a large leakage rate. It was not certain as to whether the indicated large leakage was the result of O containment conditions described above or ifit may be the result of a leaking valve. It was determined to isolate two penetrations, #32 Service Water Return from Coolers and #60 6

o Service Water Supply to Coolers. This was done by closing the vent valve downstream of

,V the outboard isolation valve for each penetration. (A penalty for these isolated penetrations is included in the final leakage rate provided in this report.) This adjustment occurred at 8:45 a.m. on March 9,1994.

As data collection continued, indications were that the final leakage would result in a lower number than previously indicated. The last data stabilization point was taken at 12:45 p.m.

on hfarch 9,1994. All stabilization criteria were met for this point (see Table 2). Actual change rates and maximum allowable change rates are listed below:

Stabilization Rate Rate Actual hiaximum Allowable Difference between rate of dT = 0.073 0.5 degrees (-0.023<0.5) temperature change average dT = 0.096 over the last hour and the dTl - dT4 = -0.023 degrees rate of temperature change averaged over the last four p(> hours Containment temperature stabilization data is shown graphically in Fibure 1.

4.5 Type A Test Upon meeting stabilization criteria, the start of the Type A test was declared. The Type A test was started at 12:45 p.m. on hiarch 9. Containment conditions were recorded at fifteen minute intervals. The test was successfully concluded at 12:45 p.m. on hfarch 10. Results of the test are recorded in section 5.1 of this report. The Type A test was conducted in accordance with the provisions of ANS N45.4-1972 (Reference 6).

4.6 Verification Following completion of the Type A test a 9.05 SCFAI(0.1514 wt.%/ day) verification leak was imposed. The verification test was then started at 1:45 p.m. on hiarch 10 and successfully completed at 5:45 p.m. on hiarch 10. Results of the test are recorded in section 5.2.

Table 3 provides a summary of data collected during the stabilization, the Type A test, and i O the verification as discussed in sections 4.4,4.5, and 4.6.

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i 5.0 RESULTS AND ANALYSIS 5.1 Mass Point Results The end of test leakage rate was well within the acceptance criteria stated in Reference 2 and 3. This includes the 95% UCL plus any penalty additions. Penalty additions are the sum of the minimum pathway leakages determined for those penetrations which were not in a normal post-LOCA position. A summary of these penetrations and their contribution to the penalty addition are presented below:

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Penalty Additions Penetration Description As-left leakage (SCCM) 24 Normal Charging 4.7 - l 28 RCP Seal Return 2.3 32 Service Water Return from Coolers 19,483.9 l 42 RCP Cooling Water 194.9 45 Excess Letdown CCW 74.6 46 Component Cooling Water 4.9 Q 56 Pressurizer Steam Sample 4.0 l

1 57 Pressurizer Liquid Sample 2.4 59 Relief Valve Discharge to PRT 27.7 60 Service Water Supply to Coolers 231.5 61A ILRT Post Accident Containment 4.4 Sample / Pressure Sensing Line Total Leakage (SCCM) 20,035.3 Total Leakage 0.0118 (wt.%/ day) l The FNP Technical Specifications specify a maximum allowable leakage rate of 0.1500 wt.%/ day. To allow a margin for deterioration of the leakage boundary the as left leakage rate must be less than 75% of the maximum allowable rate (0.1125 wt,%/ day). UCL leakage rate, penalty addition, final leakage rate and acceptance limit are listed below:

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O Final Leakage Rate 95% UCL Leakage Rate 0.0361 wt.%/ day l

1 Penalty Addition 0.0118 wt.%/ day Final Leakage Rate 0.0479 wt.%/ day l

l Acceptance Limit (0.75 La) 0.1125 wt.%/ day l l

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Figures 2 through 6 present a graphic demonstration of the data collected during the Type A test. The air mass plot (Figure 2) shows lines whose slopes represent leakage rates. A least squares fit line is plotted through the actual test data which must lie above a line I representing the acceptance limit. As seen in the graph the actualleakage rate was easily l less than the allowable rate. The temperature plot (Figure 3) shows the weighted average

'O drybulb temperature of the containment air mass. The total temperature change was 0.4257 degrees F over the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test period. The pressure plot (Figure 4) shows the containment total pressure and a total change of 0.0374 psi. Both temperature and pressure increased for a period and then began to decrease. The total change values stated reflect the increase in value to the peak value plus the decrease from the peak to the final value. The vapor pressure plot (Figure 5) shows a change in vapor pressure of 0.0010 psi. Figure 6 shows a plot of mass point leakage rate data from Table 4. The leakage rate UCL must be below a i line representing the acceptance limit. As seen from the graph the UCL is well below the )

allowable limit.

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5.2 Verification Results The verification test introduced an additional leak of 9.05 SCFM (0.1514 wt.%/ day). )

Verification test results are listed in Table 5 and graphed in Figures 7 and 8. The results of -

the verification are acceptable if the leakage rate calculated after imposition of the additional leak falls within the limits of(Lam + Lo) +/- 0.25 La, where Lam is the previously calculated leakage rate; Lo is the imposed leakage; and La is the maximum allowable leakage rate. The final results and acceptance limits are listed below:

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O Verification Results '

Upper Limit Rate 0.2234 wt.%/ day

.i Mass Point Calculated Rate 0.1697 wt.%/ day Lower Limit Rate 0.1484 wt.%/ day 5.3 Total Time Results For information purposes, total time results are included in Table 6. Accounting for penalty t additions the BN-TOP-1 short duration test would have passed leakage criteria at an  ;

elapsed time of 7 hours8.101852e-5 days <br />0.00194 hours <br />1.157407e-5 weeks <br />2.6635e-6 months <br />.

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6.0 REFERENCES

1. Code of Federal Regulations, Title 10, Part 50, Appendix J, Reactor Containment Leakage Testing for Water Cooled Power Reactors.

2. Joseph M. Farley Nuclear Plant, Unit 1, Technical Specifications 3/4.6.1

3. Farley Nuclear Plant, Surveillance Test Procedure FNP-1-STP117.0 revision 12, Containment Integrated Leak Rate Test, Official Test Copy #940304-1

4. Farley Nuclear Plant, Units I and 2, Final Safety Analysis Report. (Sections 3.1.45,  :

6.2.1.4)

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5. ANSI /ANS 56.8-1987, Containment System Leakage Testing Requirements.

6. ANSI N45.4-1972, Leakage Rate Testing of Containment Structures for Nuclear Reactors.

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TABLES AND FIGURES i

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l TABLE 1 O DRYBULB AFD DEWPOINT TEMPERATURE SENSOR LOCATIONS .

DRYBULB SENSORS Sensor Elevation Azimuth Distance From Volume Number (feet) (decrees) Ctr of Ctmt (ft) Fractions 1 247 275 40 0.0456 2 240 145 48 0.0461 3 265 85 30 0.0507 4 232 95 48 0.0460 5 211 145 45 0.0460 6 197 325 45 0.0460 7 218 300 45 0.0460 8 255 325 40 0.0507-9 190 275 45 0.0456 10 226 45 48 0.0460 11 176 95 45 0.0508 12 193 145 45 0.0447  ;

13 168 325 45 0.0494 14 152 30 55 0.0368 15 143 175 55 0.0411 16 125 25 55 0.0323 S- 17 118 130 55 0.0216 4

18 108 205 55 0.0278 l 19 272 325 8 -

0.0525 20 138 75 25 0.0200 i 21 160 275 45 0.0464 22 204 95 45 0.0460 23 134 310 55 0.0403 l' 24 113 310' 55 0.0216 1.0000 i DEWPOINT SENSORS l 1 204 325 45 0.1836 2 232 95 48 0.1841 3 262 .325 8 0.1995 4 175 30 60 0.1449- d 5 143 175 55 0.1746 6 116 250 55 0.1133 ,

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TABLE 2

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TEMPERATURE STABILIZATION REPORT Start Time = 100 309

• = stabilization criterion satisfied data elapsed temperature dT1 dT4 dT1-dT4 set time, hr T, deg F avg dT avg dT (1 hr) (4 hr) 1 0.00 79.544 2 0.25 80.657 3 0.50 81.426 4 0.75 81.910 5 1.00 82.300 2.756 6 1.25 82.589 1.932 7 1.50 82.794 1.368 8 1.75 82.993 1.083 9 2.00 83.159 0.859 10 2.25 83.301 0.712 11 2.50 83.432 0.638 12 2.75 83.559 0.566 13 3.00 83.670 0.511 14 3.25 83.756 0.455 15 3.50 83.851 0.419

(~T 16 3.75 83.932 0.373

\# 17 4.00 84.006 0.336 1.116 -0.780 18 4.25 84.074 0.318 0.854 -0.536 19 4.50 84.139 0.288 0.678 -0.390

• 20 4.75 84.199 0.267 0.572 -0.305

• 21 5.00 84.263 0.257 0.491 -0.234

• 22 5.25 84.316 0.242 0.432 -0.190

• 23 5,50 84.366 0.227 0.393 -0.166

• 24 5.75 84.418 0.219 0.356 -0.137

• 25 6.00 84.449 0.186 0.322 -0.136

• 26 6.25 84.496 0.180 0.299 -0.119

• 27 6.50 84.547 0.181 0.279 -0.098

• 28 6.75 84.577 0.159 0.255 -0.096

• 29 7.00 84.619 0.170 0.237 -0.067

• 30 7.25 84.651 0.155 0.224 -0.069

• 31 7.50 84.689 0.142 0.209 -0.067

• 32 7.75 84.718 0.141 0.197 -0.056

• 33 8.00 84.747 0.128 0.185 -0.057

• 34 8.25 84.777 0.126 0.176 -0.050

• 35 8.50 84.804 0.115 0.166 -0.051

• 36 8.75 84.836 0.118 0.159 -0.041

• 37 9.00 84.865 0.118 0.150 -0.032

• 38 9.25 84.890 0.113 0.144 -0.031

• 39 9.50 84.908 0.104 0.136 -0.032

• 40 9.75 84.934 0.098 0.129 -0.031

• 41 10.00 84.959 0.094 0.128 -0.034 *

() 42 43 10.25 10.50 84.975 85.000 0.085 0.092 0.120 0.113

-0.035

-0.021

l 44 10.75 85.022 0.088 0.111 -0.023

• j 45 11.00 85.037 0.078 0.105 -0.027

• l 46 11.25 85.058 0.083 0.102 -0.019

• l 47 11.50 85.073 0.073 0.096 -0.023

• 48 11.75 85.092 0.070 0.093 -0.023

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TABLE 3 (STABILIZATION)

DATA

SUMMARY

REPORT

'( ) data set time date temperature deg F pressure psia vapor pressure dry air mass psia lbm 1 100 309 79.5438 64.6789 0.2689 644837.27 2 115 309 80.6568 64.8609 0.2716 645300.98 3 130 309 81.4261 64.9443 0.2743 645188.11 4 145 309 81.9104 64.9994 0.2751 645152.52 5 200 309 82.2997 65.0395 0.2760 645079.73 6 215 309 82.5893 65.0698 0.2760 645037.33 7 230 309 82.7937 65.0934 0.2757 645031.96 8 245 309 82.9926 65.1135 0.2755 644997.32 9 300 309 83.1591 65.1315 0.2756 644977.12 10 315 309 83.3007 65.1471 0.2758 644961.94 11 330 309 83.4319 65.1608 0.2758 644942.14 12 345 309 83.5588 65.1731 0.2755 644916.77 13 400 309 83.6700 65.1842 0.2757 644893.51 14 415 309 83.7559 65.1941 0.2757 644889.68 15 430 309 83.8513 65.2033 0.2758 644867.10 16 445 309 83.9322 65.2118 0.2756 644857.15 17 500 309 84.0060 65.2196 0.2756 644847.15 18 515 309 84.0744 65.2272 0.2758 644840.24 19 530 309 84.1392 65.2339 0.2757 644830.08 20 545 309 84.1985 65.2401 0.2758 644820.54 21 600 309 84.2627 65.2457 0.2757 644801.38

(~) 22 615 309 84.3164 65.2507 0.2757 644787.04

(/ 23 630 309 84.3656 65.2554 0.2755 644777.47 24 645 309 84.4179 65.2600 0.2756 644760.22 25 700 309 84.4487 65.2641 0.2758 644761.78 '

26 715 309 84.4957 65.2682 0.2757 644748.68 27 730 309 84.5475 65.2720 0.2757 644724.13 28 745 309 84.5774 65.2756 0.2758 644723.63 29 800 309 84.6189 65.2791 0.2756 644711.66 30 815 309 84.6508 65.2825 0.2760 644702.93 31 830 309 84.6888 65.2855 0.2759 644689.20 I 32 845 309 84.7183 65.2885 0.2759 644683.80 33 900 309 84.7465 65.2914 0.2758 644680.10 34 915 309 84.7766 65.2940 0.2761 644667.75 35 930 309 84.8045 65.2966 0.2759 644661.96 36 945 309 84.8363 65.2992 0.2759 644650.24 37 1000 309 84.8647 65.3016 0.2762 644637.32  !

38 1015 309 84.8895 65.3039 0.2760 644633.20 39 1030 309 84.9084 65.3059 0.2760 644630.00 40 1045 309 84.9342 65.3080 0.2762 644618.60 41 1100 309 84.9591 65.3101 0.2761 644610.85 42 1115 309 84.9747 65.3120 0.2762 644609.79 43 1130 309 84.9995 65.3140 0.2762 644600.91 44 1145 309 85.0219 65.3159 0.2761 644594.13 45 1200 309 85.0367 65.3177 0.2762 644593.82 46 1215 309 85.0576 65.3194 0.2763 644584.23 47 1230 309 85.0732 65.3209 0.2764 644579.91

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1 48 1245 309 85.0923 65.3226 0.2766 644572.55 l

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TABLE 3 (Type A Test)

DATA

SUMMARY

REPORT O data time date temperature pressure vapor dry air set deg F psia Pressure mass psia lbm 1 1245 309 85.0923 65.3226 0.2766 644572.51 2 1300 309 85.1125 65.3242 0.2767 644562.99 3 1315 309 85.1280 65.3256 0.2765 644560.57 4 1330 309 85.1623 65.3270 0.2766 644532.80 5 1345 309 85.1652 65.3282 0.2767 644540.45 6 1400 309 85.1847 65.3293 0.2767 644528.28 7 1415 309 85.1931 65.3306 0.2765 644533.09 8 1430 309 85.2129 65.3317 0.2768 644517.54 9 1445 309 85.2266 65.3328 0.2768 644512.64 10 1500 309 85.2347 65.3339 0.2770 644511.80 11 1515 309 85.2496 65.3349 0.2768 644505.69 12 1530 309 85.2573 65.3359 0.2768 644507.11 13 1545 309 85.2723 65.3368 0.2769 644496.84 14 1600 309 85.2848 65.3376 0.2767 644492.11 15 1615 309 85.2943 65.3384 0.2769 644486.60 16 1630 309 85.3015 65.3392 0.2770 644485.53 17 1645 309 85.3147 65.3398 0.2770 644475.82 18 1700 309 85.3234 65.3405 0.2769 644473.73 19 1715 309 85.3261 65.3412 0.2769 644476.52 20 1730 309 85.3392 65.3418 0.2770 644466.81 21 1745 309 85.3410 65.3423 0.2770 644469.12 0 22 23 1800 1815 309 309 85.3530 85.3632 65.3429 65.3433 0.2771 0.2770 644460.21 644452.94 24 1830 309 85.3700 65.3439 0.2769 644452.03 25 1845 309 85.3708 65.3443 0.2770 644454.04 26 1900 309 85.3786 65.3447 0.2770 644448.46 27 1915 309 85.3804 65.3452 0.2769 644452.19 28 1930 309 85.3837 65.3455 0.2771 644449.59 29 1945 309 85.3875 65.3457 0.2770 644447.88 30 2000 309 85.4058 65.3459 0.2771 644427.89 31 2015 309 85.4021 65.3460 0.2769 644434.87 32 2030 309 85.4013 65.3462 0.2769 644437.65 33 2045 309 85.4109 65.3465 0.2771 644426.90 34 2100 309 85.4149 65.3466 0.2770 644424.58 35 2115 309 85.4148 65.3465 0.2772 644421.93 36 2130 309 85.4252 65.3468 0.2770 644414.43 37 2145 309 85.4135 65.3468 0.2771 644427.32 38 2200 309 85.4121 65.3469 0.2759 C44431.92 39 2215 309 85.4210 65.3470 0.2709 644421.82 40 2230 309 85.4214 65.3470 0.2767 644423.67 41 2245 309 85.4159 65.3469 0.2767 644429.08 42 2300 309 85.4204 65.3470 0.2767 644424.92 43 2315 309 85.4236 65.3470 0.2768 644420.23 44 2330 309 85.4211 65.3468 0.2770 644419.49 45 2345 309 85.4237 65.3468 0.2767 644419.14 46 0 310 85.4362 65.3467 0.2772 644398.00

() 47 48 15 30 310 310 85.4347 85.4389 65.3467 65.3468 0.2772 0.2772 644400.54 644396.48 49 45 310 85.4388 65.3464 0.2771 644392.93 50 100 310 85.4418 65.3465 0.2773 644388.56 51 115 310 85.4394 65.3463 0.2774 644388.18 i

52 130 310 85.4376 65.3462 0.2774 644389.83 53 145 310 85.4478 65.3460 0.2772 644377.73 54 200 310 85.4432 65.3458 0.2773 644380.30 55 215 310 85.4372 65.3458 0.2774 644386.23

() 56 57 230 245 310 310 85.4428 85.4450 65.3459 65.3459 0.2773 0.2775 644381.62 644377.59 58 300 310 85.4560 65.3458 0.2772 644365.57 59 315 310 85.4493 65.3457 0.2774 644371.28 60 330 310 85.4477 65.3457 0.2773 644373.63 61 345 310 85.4586 65.3456 0.2775 644357.68 62 400 310 85.4511 65.3455 0.2775 644365.81 63 415 310 85.4534 65.3452 0.2775 644360.39 64 430 310 85.4555 65.3451 0.2774 644358.11 65 445 310 85.4489 65.3449 0.2773 644364.59 66 500 310 85.4544 65.3448 0.2773 644356.61 67 515 310 85.4554 65.3444 0.2776 644349.19 68 530 310 85.4575 65.3443 0.2776 644345.83 69 545 310 85.4501 65.3440 0.2774 644353.10 70 600 310 85.4529 65.3438 0.2774 644347.75 71 615 310 85.4526 65.3436 0.2774 644345.81 72 630 310 85.4513 65.3433 0.2777 644342.01 73 645 310 85.4435 65.3428 0.2774 644348.89 74 700 310 85.4411 65.3425 0.2774 644349.11 75 715 310 85.4413 65.3422 0.2774 644345.82 76 730 310 85.4383 65.3419 0.2777 644343.86 77 745 310 85.4417 65.3416 0.2774 644338.95 78 800 310 85.4334 65.3414 0.2775 644345.84 79 815 310 85.4176 65.3410 0.2772 644363.97 80 830 310 85.4413 65.3407 0.2775 644330.25

~

81 845 310 85.4389 65.3404 0.2777 644328.33 82 900 310 85.4322 65.3400 0.2776 644332.58 83 915 310 85.4401 65.3397 0.2778 644318.88 84 930 310 85.4288 65.3394 0.2777 644330.38 85 945 310 85.4158 65.3392 0.2776 644343.97 86 1000 310 85.4100 65.3388 0.2773 644350.17 87 1015 310 85.4060 65.3383 0.2773 644349.62 88 1030 310 85.3934 65.3379 0.2771 644362.98 89 1045 310 85.3918 65.3374 0.2771 644359.61 90 1100 310 85.3961 65.3370 0.2770 644352.10 91 1115 310 85.3972 65.3366 0.2773 644343.95 92 1130 310 85.4173 65.3361 0.2777 644310.94 93 1145 310 85.4121 65.3355 0.2777 644310.61 94 1200 310 85.4055 65.3350 0.2777 644314.04 95 1215 310 85.3998 65.3347 0.2777 644317.76 96 1230 310 85.3995 65.3343 0.2777 644313.74 97 1245 310 85.3992 65.3340 0.2776 644312.28 O

i l

TABLE 3 (VERIFICATION)

DATA

SUMMARY

REPORT O data time date temperature pressure vapor dry air set deg F psia pressure mass psia lbm 1 1345 310 85.3873 65.3307 0.2777 644292.54 2 1400 310 85.3841 65.3291 0.2777 644280.55 3 1415 310 85.3826 65.3277 0.2778 644267.89 4 1430 310 85.3814 65.3261 0.2778 644253.15 5 1445 310 85.3776 65.3246 0.2778 644242.85 6 1500 310 85.3834 65.3230 0.2777 644221.10 7 1515 310 85.3744 65.3215 0.2778 644215.50 8 1530 310 85.3687 65.3198 0.2778 644205.42 9 1545 310 85.3596 65.3182 0.2777 644201.58 10 1600 310 85.3592 65.3168 0.2778 644187.56 11 1615 310 85.3610 65.3151 0.2777 644169.29 12 1630 310 85.3574 65.3137 0.2778 644158.79 13 1645 310 85.3469 65.3120 0.2777 644155.61 14 1700 310 85.3499 65.3104 0.2777 644135.54 15 1715 310 85.3417 65.3089 0.2778 644129.42 16 1730 310 85.3336 65.3073 0.2776 644124.97 17 1745 310 85.3348 65.3056 0.2777 644106.10 0

O

TABLE 4 MASS POINT LEAKAGE RATE REPORT O data time date elapsed dry air leakage ucl set time mass rate rate (hrs) (1bm) (%/ day) (%/ day) 1 1245 309 0.00 .644572.51 0.0000 0.0000 2 1300 309 0.25 644562.99 0.1418 0.1418 3 1315 309 0.50 644560.57 0.0889 0.3501 4 1330 309 0.75 644532.80 0.1810 0.3426 5 1345 309 1.00 644540.45 0.1404 0.2333 6 1400 309 1.25 644528.28 0.1347 0.1901 7 1415 309 1.50 644533.09 0.1105 0.1570 8 1430 309- 1.75 644517.54 0.1105 0.1440 9 1445 309 2.00 644512.64 0.1081 0.1335 10 1500 309 2.25 644511.80 0.1016 0.1226 11 1515 309 2.50 644505.69 0.0976 0.1150 12 1530 309 2.75 644507.11 0.0907 0.1068 13 1545 309 3.00 644496.84 0.0886 0.1022 14 1600 309 3.25 644492.11 0.0867 0.0985 15 1615 309 3.50 644486.60 0.0854 0.0956 16 1630 309 3.75 644485.53 0.0830 0.0922 17 309 1645 4.00 644475.82 0.0826 0.0907 18 1700 309 4.25 644473.73 0.0813 0.0886 19 1715 309 4.50 644476.52 0.0785 0.0856 20 1730 309 4.75 644466.81 0.0774 0.0839  ;

21 1745 309 5.00 644469.12 0.0752 0.0814 O- 22 1800 309 5.25 644460.21 0.0741 0.0799 23- 1815 309 5.50 644452.94 0.0737 0.0790 24 1830 309 5.75 644452.03 0.0728 0.0777 25 1845 309 6.00 644454.04 0.0712 0.0759 26 1900 309 6.25 644448.46 0.0700 0.0745 27 1915 309 6.50 644452.19 0.0680 0.0726 28 1930 309 6.75 644449.59 0.0662 0.0709 29 1945 309 7.00 644447.88 0.0645 0.0691 <

30 2000 309 7.25 644427.89 0.0646 0.0689 31 2015 309 7.50 644434.87 0.0637 0.0678 32 2030 309 7.75 644437.65 0.0623 0.0664 33 2045 309 8.00 644426.90 0.0617 0.0656 34 2100 309 8.25 644424.58 0.0611 0.0648 35 2115 309 8.50 644421.93 0.0604 0.0640 36 2130 309 8.75 644414.43 0.0601. 0.0635 ,

37 2145 309 9.00 644427.32 0.0588 0.0622 38 2200 309 9.25 644431.92 0.0571 0.0608 39 2215 309 9.50 644421.82 0.0561 0.0597 40 2230 309 9.75 644423.67 0.0549- 0.0585 41 2245 309 10.00 644429.08 0.0534 0.0571 42 2300 309 10.25 644424.92 0.0521 0.0558 43 2315 309 10.50- 644420.23 0.0510 0.0548 44 2330 309 10.75 644419.49 0.0500 0.0537 1 45 2345 309 11.00 644419.14 0.0490 0.0526 l 46 0 310 11.25 644398.00 0.0488 0.0523

() 47 48 15 30 310 310 11.50 644400.54 11.75 644396.48 0.0484 0.0481 0.0518 0.0514 l

)

l 49 45 310 12.00 644392.93 0.0479 0.0510 j 50 100 310 12.25 644388.56 0.0477 0.0507 j 51 115 310 12.50 644388.18 0.0474 0.0503 '

52 130 310 12.75 644389.83 0.0470 0.0498 53 145 310 13.00 644377.73 0.0470 0.0497 54 200 310 13.25 644380.30 0.0467 0.0494 55 215 310 13.50 644386.23 0.0463 0.0488

() 56 57 230 245 310 310 13.75 14.00 644381.62 644377.59 0.0459 0.0456 0.0484 0.0480 58 300 310 14.25 644365.57 0.0455 0.0479 59 315 310 14.50 644371.28 0.0453 0.0475 60 330 310 14.75 644373.63 0.0449 0.0471 61 345 310 15.00 644357.68 0.0449 0.0470 62 400 310 15.25 644365.81 0.0446 0.0467 1 63 415 310 15.50 644360.39 0.0444 0.0464 l 64 430 310 15.75 644358.11 0.0442 0.0462 '

65 445 310 16.00 644364.59 0.0438 0.0458 l 66 500 310 16.25 644356.61 0.0436 0.0455 ;

67 515 310 16.50 644349.19 0.0434 0.0453 l 68 530 310 16.75 644345.83 0.0433 0.0451 1 69 545 310 17.00 644353.10 0.0430 0.0448 l 70 600 310 17.25 644347.75 0.0428 0.0445 71 615 310 17.50 644345.81 0.0426 0.0443 72 630 310 17.75 644342.01 0.0424 0.0441 73 645 310 18.00 644348.89 0.0421 0.0437 74 700 310 18.25 644349.11 0.0417 0.0433 75 715 310 18.50 644345.82 0.0414 0.0430 76 730 310 18.75 644343.86 0.0411 0.0427 77 745 310 19.00 644338.95 0.0408 0.0424 78 800 310 19.25 644345.84 0.0404 0.0420 79 815 310 19.50 644363.97 0.0398 0.0415 80 830 310 19.75 644330.25 0.0396 0.0413 r"T 81 845 310 20.00 644328.33 0.0395 0.0411

\d 82 900 310 20.25 644332.58 0.0392 0.0408 83 915 310 20.50 644318.88 0.0391 0.0407 84 930 310 20.75 644330.38 0.0389 0.0404 85 945 310 21.00 644343.97 0.0385 0.0400 86 1000 310 21.25 644350.17 0.0379 0.0395 87 1015 310 21.50 644349.62 0.0374 0.0391 88 1030 310 21.75 644362.98 0.0368 0.0385 89 1045 310 22.00 644359.61 0.0362 0.0380 90 1100 310 22.25 644352.10 0.0357 0.0375 91 1115 310 22.50 644343.95 0.0353 0.0371 92 1130 310 22.75 644310.94 0.0352 0.0370 93 1145 310 23.00 644310.61 0.0352 0.0369 94 1200 310 23.25 644314.04 0.0350 0.0367 95 1215 310 23.50 644317.76 0.0348 0.0365 96 1230 310 23.75 644313.74 0.0347 0.0363 97 1245 310 24.00 644312.28 0.0345 0.0361 Allowable leakage rate, La = 0.1500 %/ day 75% La = 0.1125 %/ day Mass point leakage rate = 0.0345 %/ day Mass point UCL = 0.0361 %/ day CO v

1 i

I TABLE 5 l MASS POINT LEAKAGE RATE REPORT

- VERIFICATION

'~#

data time date elapsed dry air leakage set time mass rate (hrs) (1bm) (%/ day) 1 1345 310 0.00 644292.54 0.0000 2 1400 310 0.25 644280.55 0.1787 3 1415 310 0.50 644267.89 0.1837 4 1430 310 0.75 644253.15 0.1949 5 1445 310 1.00 644242.85 0.1889 6 1500 310 1.25 644221.10 0.2065 7 1515 310 1.50 644215.50 0.1996 8 1530 310 1.75 644205.42 0.1926 9 1545 310 2.00 644201.58 0.1803 10 1600 310 2.25 644187.56 0.1756 11 1615 310 2.50 644169.29 0.1774 12 1630 310 2.75 644158.79 0.1777 13 1645 310 3.00 644155.61 0.1735 14 1700 310 3.25 644135.54 0.1745 15 1715 310 3.50 644129.42 0.1731 16 1730 310 3.75 644124.97 0.1698 17 1745 310 4.00 644106.10 0.1697 Upper limit on leakage rate = 0.2234 %/ day Mass point leakage rate = 0.1697 %/ day Lower limit on leakage rate = 0.1484 %/ day O

TABLE 6 TOTAL TIME LEAKAGE RATE REPORT

() data set time date elapsed time dry air mass measured rate leakage rate ucl rate (hrs) (lbm) (%/ day) (%/ day) (%/ day) 1 1245 309 0.00 644572.51 0.0000 0.0000 0.0000 2 1300 309 0.25 644562.99 0.1418 0.1418 0.1418 3 1315 309 0.50 644560.57 0.0889 0.0889 0.0889 4 1330 309 0.75 644532.80 0.1971 0.1703 0.8074 5 1345 309 1.00 644540.45 0.1194 0.1429 0.4221 6 1400 309 1.25 644528.28 0.1317 0.1379 0.3151 7 1415 309 1.50 644533.09 0.0978 0.1174 0.2591 8 1430 309 1.75 644517.54 0.1169 0.1146 0.2306 9 1445 309 2.00 644512.64 0.1115 0.1108 0.2103 10 1500 309 2.25 644511.80 0.1005 0.1042 0.1924 11 1515 309 2.50 644505.69 0.0995 0.0996 "0.1791 12 1530 309 2.75 644507.11 0.0886 0.0929 0.1659 13 1545 309 3.00 644496.84 0.0939 0.0897 0.1575 14 1600 309 3.25 644492.11 0.0921 0.0869 0.1504 15 1615 309 3.50 644486.60 0.0914 0.0848 0.1448 16 1630 309 3.75 644485.53 0.0864 0.0819 0.1389 17 1645 309 4.00 644475.82 0.0900 0.0806 0.1352 .

18 1700 309 4.25 644473.73 0.0865 0.0789 0.1313 19 1715 309 4.50 644476.52 0.0794 0.0761 0.1264 20 1730 309 4.75 644466.81 0.0829 0.0746 0.1232 21 1745 309 5.00 644469.12 0.0770 0.0723 0.1193 22 1800 309 5.25 644460.21 0.0796 0.0709 0.1166 O 23 24 1815 1830 309 309 5.50 5.75 644452.94 644452.03 0.0809 0.0780 0.0700 0.0688 0.1146 0.1124 25 1845 309 6.00 644454.04 0.0735 0.0671 0.1096 26 1900 309 6.25 644448.46 0.0739 0.0657 0.1073 27 1915 309 6.50 644452.19 0.0689 0.0638 0.1044 28 1930 309 6.75 644449.59 0.0678 0.0621 0.1018 29 1945 309 7.00 644447.88 0.0663 0.0604 0.0992 30 2000 309 7.25 644427.89 0.0743 0.0600 0.0985 31 2015 309 7.50 644434.87 0.0683 0.0589 0.0968 32 2030 309 7.75 644437.65 0.0648 0.0575 0.0948 33 2045 309 8.00 644426.90 0.0678 0.0567 0.0935 34 2100 309 8.25 644424.58 0.0668 0.0559 0.0923 35 2115 309 8.50 644421.93 0.0660 0.0551 0.0910 36 2130 309 8.75 644414.43 0.0673 0.0545 0.0902 37 2145 309 9.00 644427.32 0.0601 0.0532 0.0884 38 2200 309 9.25 644431.92 0.0566 0.0518 0.0864 39 2215 309 9.50 644421.82 0.0591 0.0507 0.0849 40 2230 309 9.75 644423.67 0.0568 0.0495 0.0833 41 2245 309 10.00 644429.08 0.0534 0.0481 0.0815 42 2300 309 10.25 644424.92 0.0536 0.0469 0.0799 43 2315 309 10.50 644420.23 0.0540 0.0458 0.0784 44 2330 309 10.75 644419.49 0.0530 0.0448 0.0771 45 2345 309 11.00 644419.14 0.0519 0.0437 0.0757 46 0 310 11.25 644398.00 0.0578 0.0433 0.0752 47 15 310 11.50 644400.54 0.0557 0.0427 0.0745

() 48 49 30 45 310 310 11.75 12.00 644396.48 644392.93 0.0558 0.0557 0.0422 0.0418 0.0739 0.0734 50 100 310 12.25 644388.56 0.0559 0.0414 0.0729 '

51 115 310 12.50 644388.18 0.0549 0.0409 0.0725 52 130 310 12.75 644389.83 0.0533 0.0404 0.0718

i l

53 145 310 13.00 644377.73 0.0558 0.0402 0.0716 54 200 310 13.25 644380.30 0.0540 0.0398 0.0712 55 215 310 13.50 644386.23 0.0514 0.0392 0.0705 56 230 310 13.75 644381.62 0.0517 0.0388 0.0699

(-

r w) 57 245 310 14.00 644377.59 0.0518 0.0384 0.0695 58 300 310 14.25 644365.57 0.0541 0.0382 0.0693 59 315 310 14.50 644371.28 0.0517 0.0378 0.0689 60 330 310 14.75 644373.63 0.0502 0.0374 0.0683 61 345 310 15.00 644357.68 0.0533 0.0372 0.0682 62 400 310 15.25 644365.81 0.0505 0.0368 0.0678 63 415 310 15.50 644360.39 0.0510 0.0365 0.0675 64 430 310 15.75 644358.11 0.0507 0.0363 0.0672 65 445 310 16.00 644364.59 0.0484 0.0359 0.0667 66 500 310 16.25 644356.61 0.0495 0.0356 0.0663 67 515 310 16.50 644349.19 0.0504 0.0353 0.0661 68 530 310 16.75 644345.83 0.0504 0.0351 0.0659 69 545 310 17.00 644353.10 0.0481 0.0348 0.0655 70 600 310 17.25 644347.75 0.0485 0.0345 0.0652 71 615 310 17.50 644345.81 0.0482 0.0343 0.0649 72 630 310 17.75 644342.01 0.0484 0.0340 0.0646 73 645 310 18.00 644348.89 0.0463 0.0337 0.0642 74 700 310 18.25 644349.11 0.0456 0.0334 0.0638 75 715 310 18.50 644345.82 0.0456 0.0330 0.0634 76 730 310 18.75 644343.86 0.0454 0.0327 0.0630 77 745 310 19.00 644338.95 0.0458 0.0324 0.0627 78 800 310 19.25 644345.84 0.0438 0.0321 0.0623 79 815 310 19.50 644363.97 0.0398 0.0316 0.0616 80 830 310 19.75 644330.25 0.0457 0.0313 0.0614 81 845 310 20.00 644328.33 0.0455 0.0311 0.0611 82 900 310 20.25 644332.58 0.0441 0.0309 0.0608 83 915 310 20.50 644318.88 0.0461 0.0307 0.0607 84 930 310 20.75 644330.38 0.0434 0.0305 0.0604 85 945 310 21.00 644343.97 0.0405 0.0301 0.0599 86 1000 310 21.25 644350.17 0.0390 0.0296 0.0594 87 1015 310 21.50 644349.62 0.0386 0.0292 0.0588 88 1030 310 21.75 644362.98 0.0359 0.0287 0.0581 89 1045 310 22.00 644359.61 0.0360 0.0282 0.0575 90 1100 310 22.25 644352.10 0.0369 0.0277 0.0570 91 1115 310 22.50 644343.95 0.0378 0.0274 0.0565 92 1130 310 22.75 644310.94 0.0428 0.0272 0.0564 93 1145 310 23.00 644310.61 0.0424 0.0271 0.0563 94 1200 310 23.25 644314.04 0.0414 0.0269 0.0561 95 1215 310 23,50 644317.76 0.0404 0.0267 0.0558 96 1230 310 23.75 644313.74 0.0406 0.0265 0.0556 97 1245 310 24.00 644312.28 0.0404 0.0263 0.0311 Allowable leakage rate, La = 0.1500 %/ day 75% La = 0.1125 %/ day Total time leakage rate = 0.0263 %/ day Total time UCL = 0.0311 %/ day l

O O- O FARLEY UNIT 11994 ILRT Temperature During Stabilization 87 g 85 3

w T

83 w

! (1.

1 w

f-- 81 l

! 79 1:00 am 12:45 l 3/9/1994 pm 3/9/1994 TIME (Hours)

FIGURE 1

O O O FARLEY UNIT 1 1994 ILRT Air Mass - Type A Test i 644600

~:s ,...*

~

s -~_-_. ..

644400 -- , ...., -

~,' .... ._

s, .

s.

m '. '

E -s p 644200 -- ' s ,,, ,

m .

tn ~.

~' ~ 's g 644000 -- 's,

<C 's.

-s Air Mass Plot s. s 643800 -- . ---- Least Squares Fit Line Through Data '

i

---

0.75 La Acceptance Limit 643600 l l l l l l l l l l l l , l l l l l l l l l l 12:45 12:45 pm pm 3/9/1994 3/10/94 TIME (Hours)

FIGURE 2

O O O FARLEY UNIT 1 1994 ILRT Mean Temperature - Type A Test 86 C

3 W

Z h 85.5 Q

N 2

w g

l 85 , , , , , , , , ,, , ,,,

12:45 12:45 pm pm 3/9/1994 3/10/94 TIME (Hours) l FIGURE 3 i__-___-____-__--_--___ . _ _ _ _ __ _ . ._- - __ _

O O O FARLEY UNIT 1 1994 ILRT Total Pressure - Type A Test 65.4 S

'ih b

tu h

m 65.35 O' "

Q.

65.3 . . . , , , . . . .

12:45 12:45 pm pm 3/9/1994 3/10/94 TIME (Hours)

FIGURE 4

O O O FARLEY UNIT 1 1994 ILRT Vapor Pressure - Type A Test 0.28 E

'ih b

LU Z

~3 (O

0.275

]

CL M

O C1.

s 0.27 , , , , , , , , , , , ,, ,,;, ,,

12:45 12:45 pm pm 3/9/1994 3/10/94 TIME (Hours)

FIGURE 5 l

O O O FARLEY UNIT 1 1994 ILRT Mass Point Leakage Rate - Type A Test 0.4 0.35 - ,,

Sm

1 C.3 - * '.

E '

g Mass Point Leakage Rate w 0.25 -  ! ;'; - - - - - Mass Point UCL I-  : .

- - -- 0.75 La Acceptance Limit = 0.1125,

-h f 0.2 - -

F- l '.

E  :

O o 33 .: ',

O_ ,

(D to . _. .' ,.__._.._______.____._._._. .____._ _. .___ _..__ ___.___ _

( 0.1 -- .,

2 ..,,

0.05 -- - --- -- --. . ... .. . ____ - --

0  :  :  :  :  :  :  :  :  :  :  :  :  :  :  :  : l  : l l l l l 12:45 12:45 pm pm 3/9/1994 3/10/94 TIME (Hours)

FIGURE 6

O O O FARLEY UNIT 1 1994 ILRT Air Mass - Verification 644300

'*g

' s 'q . ,

'g'~. s,

's.

s,'-

's, . .

.s, ~.

. .. ~ . ,

s, -

., s s, .

~~,

^

644200- 's. -s ., -

's -

s, E .

~. '

.o ,

O N., ., ' '. s u) s., -

's.,

U) N., . ~~. s s - s g N., .,

Air Mass Plot s,' ' .

644100 .

s '

- - - - Upper Limit ~,,

- - - - Lower Limit 'N ,

---

Least Squares Fit Line Through Data 'N .,

s 644000 1:45 pm 5:45 pm 3/10/1994 3/10/94 TIME (Hours) ,

FIGURE 7

O O O FARLEY UNIT 11994 ILRT Mass Point Leakage Rate - Verification 0.25 9(U N

g v

0.2 t.tJ H

N p N Z

O Q.

(D 0.15 - ...._...._.... .......................... .........................................

(D 4 Mass Point Rate 2

- - - - - - Lower Limit = 0.1484

- - - - Upper Limit = 0.2234 l

0.1 1:45 pm 5:45 pm 3/10/1994 3/10/94 t

TIME (Hours) l FIGURE 8 l

- - n n- - - . - - - y

APPENDIX I ILRT COMPUTER PROGRAM DESCRIPTION i

The ILRT computer program used in this test was a program purchased by Southern Company Services (SCS) from BCP Technical Services. The program is a modified version of the BCP standard ILRT program prepared for specific use at FNP. Complete verification of the FNP ,

version has been performed and documented. The program source code was included in the purchase of the software should there be the need to review the routines used to calculate the various ILRT parameters. The BCP ILRT program is written in Microsoft QuickBASIC, Version 4.5, for IBM Personal Computers and Compatibles.

Upon starting the program the user is prompted for the following predata:

' Number of temperature sensors Number of dewpoint sensors Number of pressure sensors Containment free air volume Allowable leakage rate, La Sensor volume fractions Once the test is started the following data is received from the data acquisition system during the test:

O Time and a te Containment atmosphere drybulb temperatures Containment atmosphere pressure Containment atmosphere dewpoint temperatures Program options provide calculation of the following reports:

DATA

SUMMARY

REPORT. Displays data set number, time, date, temperature, pressure, vapor pressure and dry air mass for all data sets.

DATA SET REPORT. Displays data set number, time, date, sensor data (raw data and '

calibrated values), weighted average temperature, pressure and vapor pressure, and volume and dry air mass.

MASS POINT LEAKAGE RATE REPORT. (ANSI /ANS 56.8 - 1987). Displays data set number, time, date, elapsed time, dry air mass, mass point leakage rate and UCL for all data sets.

TOTAL TIME LEAKAGE RATE REPORT. (BN-TOP-1, rev.1). Displays data set number, time, date, elapsed time, dry air mass, total time measured leakage rate, leakage rate (calculated) and UCL for all data sets.

TREND REPORT. Displays data set number, time, date, elapsed time, total time measured leakage rate, leakage rate (calculated) and UCL, and mass point leakage rate and UCL for all data sets.

DATA REJECTION REPORT. (ANSI /ANS 56.8 - 1987). Displays data set number, time, air mass, linear least square fit (air mass), residual from least square fit, standard error of residual and '

s standardized residual for all data sets.

i

e TEMPERATURE STABILIZATION REPORT. (ANSI /ANS 56.8 - 1987 and BNTOP-1, rev.1).

b Displays start time and date, data set number, elapsed time, temperature, I hour and 4 hour4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> average rates of temperature change and difference (ANSI criteria), and 2 hour2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> average rate of temperature change and 2 hour2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> average change in rate of temperature change, i.e., second derivative, (BNTOP-1 criteria) for all data sets.

The following plots are available:

AIR MASS. Plots the air mass, regression line and 75% La line.

LEAK RATES. Plots the mass point and total time leakage rate, UCLs and 75% La line.

TEMPERATURE. Plots the weighted average temperature, temperature for one sensor, or temperature for all sensors.

PRESSURE. Plots the weighted average pressure, pressure for one sensor, or pressure for all sensors.

DEWPOINT / VAPOR PRESSURE. Plots the weighted average vapor pressure, dewpoint temperature for one sensor, or dewpoint temperature for all sensors.

In addition the program allows for manual data entry, data correction, data set insertion, and deletion of a data set.

O O

t APPENDIX II TYPE B AND C LOCAL LEAKAGE RATE TEST RESULTS I Results for Type B and C local leakage rate tests performed between the completion of the 1991 ILRT and the start of the 1994 ILRT are presented herein.

3 t

I O

I l

i 1

0:  :

LOCAL LEAK RATE TEST The following data is a summary of the leakage for Unit 1 12th Refueling Outage.

"As Found" (Min)

Electrical Penetration Total 328.14 scem Type B test (less Elec. Pene.) Total (Hatches, etc.) 3289.6 seem j Type C "As Found" Min. Path Leakage 99,596.15 seem  !

)

Total 103,213.89 seem l 1

"As Found" Min. 103,213.Es x 100 = 68.36% of allowable leakage l 150,975 Max. Allowable Leakage (.6 La) = 150,975 seem "As Left" (Min)

Electrical Penetration Total 8.44 scam Type B test (less Elec. Pene.) Total (Hatches, etc.) 3626 seem Type C Min. Path Leakage 4081.15 seem Total 7,715.59 scam "As Left" Min. 7,715.59 x 100 = 5.12% of allowable leakage 150,975 O "As Left" (Max) r Electrical Penetration Total 8.44 seem Type B test (less Elec. Pene.) Total (Hatches, etc.) 3626 seem Type C Max. Path Leakage 8389.6 secm Total 12,024.04 seem "As Left" Max. 12,024.04 x 100 = 7.97% of allowable leakage 150,975

. O LLRT-1 1 Unit 1 12th RF

UNIT 1 TYPE B TEST

SUMMARY

- 12TH REFUELING AS FOUND AS LErr PENE TPNS NO. DATE LEAKAGE DATE LEAKAGE NO. (SCCM) (SCCM)

EA01 Q1T52A003-A 3-16-94 0.56 3-16-94 0.56 EA02 Q1T52A004-A 3-16-94 0.00 3-16-94 0.00 EA03 Q1T52B014-A 3-16-94 0.39 3-16-94 0.39 EA05 Q1T52B001-A 3-17-94 0.09 3-17-94 0.09 EA06 Q1T52B005-A 3-17-94 0.23 3-17-94 0.23 EA09 Q1TS2B002-A 3-17-94 0.08 3-17-94 0.08 EA10 Q1T52A001-A 3-17-94 0.05 3-17-94 0.05 EAll Q1T52A002-A 3-17-94 0.10 3-17-94 0.10 EB01 Q1T52B019-A 3-17-94 0.46 3-17-94 0.46 EB05 Q1T52B007-A 3-17-94 0.00 3-17-94 0.00 EB09 Q1T52B006-A 3-17-94 0.15 3-17-94 0.15

) EC01 Q1T528013-1 3-16-94 0.21 3-16-94 0.21

1. EC03 Q1T528012-1 3-16-94 0.00 3-30-94 0.00 EC07 Q1T52B009-A 3-17-94 0.09 3-17-94 0.09 EC08 Q1T52B010-4 3-17-94 0.08 3-17-94 0.08 EC10 Q1T52B008-4 3-17-94 0.05 3-17-94 0.05 WA02 Q1T52B015-B 3-16-94 0.12 3-16-94 0.12

1. • WA03 Q1T528023-B 3-16-94 320 3-26-94 0.30 WA05 Q1T52B046-B 3-15-94 0.00 3-15-94 0.00 WA06 Q1T528047-B 3-15-94 0.24 3-15-94 0.24 WA07 QlT52A005-B 3-15-94 0.10 3-15-94 0.10 WA08 Q1T52A006-B 3-15-94 0.19 3-15-94 0.19 WA09 Q1T52B018-B 3-14-94 0.08 3-14-94 0.08 WA10 Q1T52B016-B 3-15-94 0.00 3-15-94 0.00

• Failed as found LLRT

1. Module Replaced LLRT-1 Page 1

UNIT 1 TYPE B TEST

SUMMARY

- 12TH REFUELING AS FOUND AS LEFT i PENE TPNS No. DATE LEAKAGE DATE LEAKAGE NO. (SCCM) (SCCM)

Wall Q1T528017-B 3-14-94 0.08 3-14-94 0.08 WA21 Q1T528032-N 3-14-94 0.58 3-14-94 0.58 WA22 Q1T52B033-N 3-14-94 0.39 3-14-94 0.39 WA23 Q1T52B034-N 3-14-94 0.58 3-14-94 0.58 WA24 Q1T52B035-N 3-14-94 0.20 3-14-94 0.20 WB03 Q1T52B020-B 3-15-94 0.23 3-15-94 0.23 WB07 Q1T52B022-B 3-15-94 0.00 3-15-94 0.00

1. WB09 Q1T52B025-B 3-15-94 0.00 3-29-94 0.00 WB11 Q1T52B038-B 3-14-94 0.29 3-14-94 0.29 WB21 Q1T52B037-N 3-14-94 0.20 3-14-94 0.20 WB24 Q1T52B039-N 3-14-94 0.20 3-14-94 0.20

/7

(_j WC01 Q1TS2B026-3 3-16-94 0.13 3-16-94 0.13 WC03 Q1T52B024-3 3-15-94 0.11 3-15-94 0.11 WC05 Q1T52B028-3 3-15-94 0.00 3-15-94 0.00 WC07 Q1T52B030-2 3-16-94 0.55 3-16-94 0.55 ,

l WC08 Q1T528011-B 3-15-94 0.02 3-15-94 0.02  ;

I WC09 Q1T52B042-2 3-14-94 0.24 3-14-94 0.24 I l

WC11 Q1TS28031-2 3-14-94 0.19 3-14-94 0.19 WC21 Q1T528040-N 3-14-94 0.34 3-14-94 0.34 l

WC23 QlT52B041-N 3-14-94 0.00 3-14-94 0.00 WCO2 Q1T52B053-B 3-16-94 0.24 3-16-94 0.24 EB10 Q1T52B052-4 3-17-94 0.30 3-17-94 0.30 EB02 Q1T52B055-N 3-16-94 0.00 3-16-94 0.00 J ECOS Q1TS2B056-N 3-17-94 0.00 3-17-94 0.00 I EB04 Q1T528054-N 3-17-94 0.00 3-17-94 0.00 l l

1 LLRT-1 Page 2 l

l

\

1 UNIT 1 i TYPE D TEST SUbe(ARY FOR 12TH REFUELING 1

AS FOUND AS LEFT PENE DESCRIPTION DATE LEAKAGE DATE LEAEAGE NO -(SCCN) (SCC 3()

84 Equip Hatch 3-6-94 44.6 4-18-94 219 86 Personnel 4-15-94 1809 4-15-94 1809 Hatch 87 Aux Hatch 4-16-94 1168 4-16-94 1168 14 Fuel Transfer 3-21-94 197.9 3-21-94 197.9 Tube - Bellows 14 Fuel Transfer 3-11-94 17.0 4-14-94 51.4 Tube-Blind Flange t

90 Spare 3-11-94 36.0 4-14-94 111.0 Penetration for S/G Outage Activities 92 Spare 3-11-94 17.1 4-14-94 69.7 +

Penetration for S/G Outage '

Activities c O

TOTAL 3289.6 3626 i

O l

LLRT-1 Page 3 i 1

O O O

~

UNIT 1 - TYPE C TEST

SUMMARY

FOR 12TH REFUELING AS FOUND PENE. -VALVE NO. DATE AS FOUND MIN. PATH DATE AS LEER AS LEFT PER PENE.

NO. LEAKAGE LEAKAGE LEAKAGE MIN. MAX.

(SCCM) (SCCM) (SCCM) 1 10 QlE11V025B 3-21-94 240# 120 3-24-94 246# 123 246 Q1E11V026B 3-21-94 2404 3-24-94 246#

11 Q1E11V025A 3-18-94 78.6# 39.3 4-1-94 454# 227 454

Q1E11V026A 3-18-94 78.6# 4-1-94 454#

12 Q1P13V282 3-2-94 414' 414 4-17-94 1039* 604.3 1208.6 Q1P13V281 3-2-94 414* 4-17-94 1039*

Q1P13V301 3-2-94 414' 4-17-94 1039*

Q1P13V302 3-6-94 68,100 4-14-94 169.6 13 Q1P13V283 3-2-94 402* 266.45 4-17-94 928* 468 936 OlP13V284 3-2-94 402* 4-17-94 928*

Q1P13V304 3-6-94 130.9 4-14-94 8.0 Q1P13V303 3-2-94 402* 4-17-94 928*

16 Q1E11V001A 3-18-94 75,400 75,400 4-18-94 85.0 85.0 85.0

, 18 Q1E11v001B 3-21-94 72.5 72.5 3-21-94 72.5 72.5 72.5 i 23 01E21V253A 3-22-94 2.2* 5.0 3-22-94 2.2* 9.4 38.7 Q1E21V253B 3-22-94 2.2* 3-22-94 2.2*

j Q1E21V253C 3-22-94 2.2* 3-22-94 2.2*

Q1E21V254 3-22-94 9.4 3-22-94 9.4 Q1E21V255 3-22-94 2.8 4-16-94 36.5 24 Q1E21"257 3-23-94 349** 4.7 3-30-94 177.1 4.7 16.2

Q101V258 3-28-94 4.7 3-28-94 4.7 Q1E21V119 3-23-94 7.4 3-29-94 16.2 l

1

• values represent total leakage from group sets of valves as physically tested.

1. Leakage represents total leakage for the Penetration from a group set of valves.

• • This data was taken after Maintenance was performed on the valve by MOVATS, but prior to all Maintenance being complete 1 '

LLRT-1 Page 1 l

._ __ _ . _ . s, . . _ . . . . ,w, . . . . . , , , ..,_.s ,

O O UNIT 1 - TYPE C TEST

SUMMARY

FOR 12TH REFUELING O

AS FOUND PENE. VALVE NO. DATE AS FOUND MIN. PATH DATE AS LEFr AS LEFT PER PENE.

NO. LEAKAGE LEAKAGE LEAKAGE MIN. MAX.

(SccM) (SccM) (SccM) 28 Q1E21V213 3-22-94 59.3* 2.3 3-22-94 59.3* 59.3 298 Q1E21V249A 3-22-94 59.3* 3-22-94 59.3*

QlE21V249B 3-22-94 2.3 3-31-94 298 29 Q1E21V049

~

3-14-94 7.3 7.3 3-14-94 7.3 7.3 11.1 01E21V050 14-94 11.1 3-14-94 11.1 30 Q1B13V040 3-14-94 32.4 32.4 3-14-94 32.4 32.4 66.9 Q1B13V038 3-14-94 66.9 3-14-94 66.9 31 Q1G21v005 3-8-94 193.4 240 3-8-94 193.4 240 486.4' Q1G21V006 3-7-94 ~240 3-7-94 240 Q1G21V064 3-8-94 226 4-9-94 293 32 Q1P16V081 3-7-94 52,200 19,483.9 4-15-94 34.8 34.8 573.9 .

Q1P16V072 3-7-94 19,400 4-8-94 490 Q1P16V203 3-7-94 83.9 3-7-94 83.9 33 Q1G21HV3380 3-7-94 109.4 109.4 3-7-94 109.4 109.4 238 Q1G21V204 3-7-94 160,200 4-4-94 238 42 Q1P17V083 3-21-94 194.9 194.9 3-21-94 194.9 194.9 236 Q1P17V082 3-22-94 219 3-22-94 219 Q1P17V158 3-22-94 17.0 3-22-94 17.0 i

43 Q1P17HV3045 3-22-94 143.0 18.3 3-22-94 143.0 18.3 143.0 ,

Q1P17HV3184 3-22-94 18.3 3-22-94 18.3

~

• Values represent total leakage from group sets of valves as physically tested.

e LLRT-1 Page 2 t

O O O UNIT 1 - TYPE C TEST

SUMMARY

FOR 12TH REFUELING AS FOUND PENE. VALVE NO. DATE AS FOUND MIN. PATH DATE AS LEFT AS LEFT PER PENE.

NO. LEAKAGE LEAKAGE LEAKAGE MIN. MAX.

(SCCM) (SCCM) (SCCM) 44 Q1P17V097 3-22-94 209 92.4 3-22-94 209 92.4 209 QlP17V099 3-22-94 46.4 3-22-94 46.4 OlP17V155 3-22-94 46.0 3-22-94 46.0 45 OlP17HV3095 3-22-94 37.1 74.6 3-22-94 37.1 53.2 74.6 01P17V159 3-21-94 705 4-9-94 53.2 Q1P17V153 3-22-94 37.5 3-22-94 37.5 46 Q1P17HV3443 3-23-94 4.9 4.9 3-23-94 4.9 4.9 90.4 QlPl7VHV3067 3-22-94 46.6 3-22-94 46.6 Q1P17V154 3-22-94 43.8 3-22-94 43.8 47 Q1P18V001 3-11-94 52.9 52.9 3-11-94 52.9 52.9 230 OlP18V002 3-26-94 230 3-26-94 230 48 Q1P19HV3611 3-25-94 260 260 3-25-94 260 226 260 Q1P19V002 3-25-94 1221 3-29-94 226 49 Q1E21V052 3-18-94 51.8 8.8 3-18-94 51.8 8.8 51.8 Q1E21V091 3-18-94 8.8 3-18-94 8.8 50 OlP15HV3766 3-19-94 7.0 7.0 3-19-94 7.0 7.0 11.0 QlP15HV3334 3-19-94 11.0 3-19-94 11.0 54 Q1E14V002 4-2-94 10.4 5.0 4-8-94 4.0 4.0 5.0 Q1E14HV3658 4-2-94 5.0 4-2-94 5.0 55 QlE14HV3657 4-2-94 7.1 7.1 4-2-94 7.1 7.1 17.3 Q1E14V001 4-2-94 815 4-9-94 17.3 56 Q1P15HV3104 4-8-94 10.8 4.0 4-8-94 10.8 4.0 10.8 OlP15HV3331 4-8-94 4.0 4-8-94 4.0 LLRT-1 Page 3

O O O UNIT 1 - TYPE C TEST

SUMMARY

FOR 12TH REFUELING AS FOUND PENE. VALVE NO. DATE AS FOUND MIN. PATH DATE AS LEFT AS LEFT PER PENE. ;

NO. LEAKAGE LEAKAGE LEAKAGE MIN. MAX.

(SCCM) (SCCM) (SCCM) 57 QlP15HV3103 3-7-94 3.0 2.4 3-7-94 3.0 2.4 3.0 QlP15HV3332 3-7-94 2.4 3-7-94 2.4 58 OlP15HV3765 3-19-94 6.9 5.7 3-19-94 6.9 5.7 6.9 QlP15HV3333 3-19-94 5.7 3-19-94 5.7 59 QlE11V039B 3-19-94 27.7* 27.7 3-30-94 15.5* 7.0 15.5 QlE11V039A 3-19-94 27.7* 3-30-94 15.5*

QlE21V263A 3-19-94 27.7* 3-30-94 15.5*

Q1E21V263B 3-19-94 27.7* 3-30-94 15.5*

Q1B13V054 3-19-94 1389 3-30-94 7.0 QlEllV040 3-19-94 27.7* 3-30-94 15.5*

l 60 QlP16V075 3-7-94 206,100 231.5 4-9-94 108.4 108.4 252.6 Q1P16V071 3-7-94 181.9 4-9-94 203 QlP16V204 3-7-94 49.6 3-7-94 49.6 61A QlE23V022C 3-6-94 8.8# 4.4 3-26-94 4.8# 2.4 4.8 01E23V022D 3-6-94 8.8# 3-26-94 4.8#

QlE23V023B 3-6-94 8.8# 3-26-94 4.8#

61B QlE23V024B 3-6-94 3.8# 1.9 3-26-94 5.0 2.5 5.0 ole 23V025B 3-6-94 3.8# 3-26-94 5.0 62 Q1G21V082 3-11-94 10.2 10.2 3-11-94 10.2 10.2 12.4 l

Q1G21V001 3-11-94 12.4 3-11-94 12.4 1 63 Q1E21V058 3-14-94 1505 833 4-17-94 48.8 4.6 48.8 QlE21V059 3-14-94 833 4-6-94 4.6 64A QlB13V039 3-23-94 6.4 3.4 3-23-94 6.4 3.4 6.4 Q1B13V037 3-23-94 3.4 3-23-94 3.4

• Values represent total leakage from group sets of valves as physically tested.

1. Leakage represents total leakage for the Penetration from a group set of valves.

LLRT-1 Page 4 i

O 0 OJ UNIT 1 - TYPE C TEST

SUMMARY

FOR 12TH REFUELING AS FOUND

-PENE. VALVE NO. DATE AS FOUND MIN. PATH DATE AS LEFT AS LEFT PER NO. LEAKAGE LEAKAGE LEAKAGE PENE.

(SCCM) (SCCM) (SCCM) MIN. MAX.

66 Q1E23V025A 3-12-94 6.6# 3.3 3-24-94 108.9# 54.45 108.9 Q1E23V024A 3-12-94 6.6# 3-24-94 108.9#

67 ole 23V022A 3-12-94 5.2# 2.6 3-24-94 9.5# 4.75 9.5 Q1E23V022B 3-12-94 5.2# 3-24-94 9.5#

ole 23V023A 3-12-94 5.2# 3-24-94 9.5#

70 Q1E14V004 3-19-94 6.0 6.0 3-24-94 6.2 6.2 24.3 Q1E14V003 3-19-94 24.3 3-19-94 24.3 71 OlP23V002A 3-6-94 315 315 4-16-94 216 216 216 72 Q1P23V002B 3-6-94 271 271 4-16-94 224 224 224 78 Q1G21HV3377 3-8-94 30.3 30.3 3-8-94 30.3 30.3 68.0 Q1G21V291 3-8-94 331 4-6-94 68.0 Q1G21HV3376 3-8-94 331 4-6-94 68.0 82 Q1P11HV3659 3-25-94 16.0 5.3 3-25-94 16.0 5.3 16.0 Q1P11V002 3-25-94 5.3 3-25-94 5.3 93 Q1E13V003B 3-14-94 185.1# 92.55 4-1-94 715# 357.5 715 Q1E13V004B 3-14-94 185.1# 4-1-94 715#

94 QlE13V003A 3-14-94 1524# 762 4-4-94 483# 241.5 483 Q1E13V004A 3-14-94 1524# 4-4-94 483#

95 Q1G31V012 3-18-94 15.0 15.0 3-18-94 15.0 15.0 21.4 Q1G31V013 3-18-94 21.4 3-18-94 21.4 97B Q1P19V004 3-18-94 5.5 5.5 3-18-94 5.5 5.5 31.0 Q1P19HV2228 '3-18-94 31.0 3-18-94 31.0 103 QlE23V003 3-17-94 80.5# 40.25 3-24-94 46.9# 23.45 46.9 QlE23V002 3-17-94 80.5# 3-24-94 46.9#

1. Leakage represents total leakage for the Penetration from a group set of valves.

LLRT-1 Page 5

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

u.

l l

l LOCAL LEAK RATE TEST  !

The following data is a summary of the leakage for Unit 1 lith Refueling Outage.

"As round" (Min)

Electrical Penetration Total 41.76 secm Type B test (less Elec. Pene.) Total (Hatches, etc.) 2,260.4 seem Type C "As Found" Min. Path Leakage 76,779.65 seem Total 79,081.81 seem "As Found " Min. 79081.81 x 100 - 52,38% of allowable leakage 150,975 Max. Allowable Leakage (.6 La) - 150,975 seem "As Left" (Min)

Electrical Penetration Total 10.2 seem Type B Test (less Elec. Pene.) Total (Hatches, etc.) 1,588.6 scem Type C Min. Path Leakage 3,879.45 seem Total 5,478.25 seem O "^= ' et" "ta 5 478.25 x 100 - 3.e3. of A110.as1e teakage 150,975 "As Left" (Max)

Electrical Penetration Total 10.2 seem Type B Test (Less Elec. Pene.) Total (Hatches, etc.) 1,588.6 sccm  :

Type C Max Path Leakage 6,852.6 seem Total 8,451.4 seem i "As Left" Max. 8,451.4 x 100 5.60% of Allowable Leakage 150,975 l O

LLRT-03/16 1

UNIT 1 TYPE B TEST

SUMMARY

- lith PEFUELING p)

C PENE TPNS FO.

AS FOUND AS LEFT DATE LEAKAGE

10. DATE LEAKAGE (SCCM)

(SCCM)

EA01 01T52A003-7 09-29-92 0.56 09-29-92 0.56 EA02 01T52A00/-A 09-29-92 0.14 09-29-92 0.14 EA03 01T52P's14-A 09-29-92 0.59 09-29-92 0.59 EA05 01T52B001-A 09-28-92 0.09 09-29-92 0.09

• EA06 CIT 528005-A 10-01-92 26.06 10-07-92 0.12

1. EA09 01T528002-A 09-28-92 0.30 10-25-92 0.02 EA10 Q1T52A001-A 09-28-92 0.33 09-28-92 0.33 EAll 01T52A002-A 09-29-92 0.00 09-29-92 0.00

• • EB01 01T52B019-A 10-03 1.14 10-06-92 1.14 EB05 01T528007-A 09-28-92 0.23 09-28-92 0.23 EB09 01T528006-A 09-28-92 0.00 09-28-92 0.00 O

v EC01 01T528013-1 09-29-92 0.42 09-29-92 0.42 EC03 01T52B012-1 09-29-92 0.34 09-29-92 0.34 EC07 01T528009-A 09-29-92 0.12 09-29-92 0.12 EC08 01T528010-4 09-28-92 0.29 09-28-92 0.29 EC10 Q1T528008-4 09-28-92 0.09 09-28-92 0.09 WA02 01T528015-B 09-29-92 0.20 09-29-92 0.20

• WA03 01T52B023-B 10-01-92 5.54 10-07-92 0.13 WA05 01T528046-B 09-30-92 0.24 09-30-92 0.24 WA06 01TS2B047-B 09-30-92 0.00 09-30-92 0.00 WA07 01T52A005-B 09-30-92 0.05 09-30-92 0.05 WA08 01T52A006-B 10-02-92 0.14 10-02-92 0.14 WA09 Q1T52B018-B 10-02-92 0.20 10-02-92 0.20

1. WA10 01TS28016-B 09-28-92 0.12 10-19-92 0.19 i 73 Failed as found LLRT V # Module Replaced

• • Failed as found LLRT but administratively accepted '

i LLRT-03/17 PAGE 1

UNIT 1 TYPE B TEST

SUMMARY

- lith REFUELI1G h

v PENE. TPNS 10. DATE AS FOUND LEAKAGE AS LEFT DATE LEAKAGE 10.

(SCCM) (SCCM)

Wall Q1T528017-B 10-02-92 0.24 10-02-92 0.24 WA21 01T528032-N 10-02-92 0.00 10-02-92 0.00 km22 01T52B033-N 10-02-92 0.00 10-02-92 0.00 WA23 Q1T528034-N 10-02-92 0.58 10-02-92 0.58 WA24 01T528035-N 10-02-92 0.20 10-02-92 0.20 WB03 01T528020-B 09-30-92 0.00 09-30-92 0.00 WB07 Q1T528022-B 09-30-92 0.15 09-30-92 0.15 WB09 Q1T52B025-B 10-02-92 0.00 10-02-92 0.00 WB11 Q1T528038-B 10-02-92 0.29 10-02-92 0.29 WB21 Q1T52B037-N 10-03-92 0.00 10-03-92 0.00 WB24 Q1T52B039-N 10-02-92 0.39 10-02-92 0.39

() WC01 01T528026-3 09-29-92 0.21 09-29-92 0.21 WC03 Q1T528024-3 09-29-92 0.18 09-29-92 0.18 WC05 01TS28028-3 09-30-92 0.36 09-30-92 0.30 WC07 Q1T528030-2 10-01-92 0.00 10-01-92 0.00 WC08 Q1T52B011-B 10-01-92 0.04 10-01-92 0.04 WC09 01T52B042-2 10-02-92 0.24 10-02-92 0.24 WC11 Q1TS2B031-2 10-02-92 0.19 10-02-92 0.19 WC21 Q1T52B040-N 10-03-92 0.34 10-03-92 0.34 WC23 Q1T528041-N 10-03-92 0.00 10-03-92 0.00 WCO2 01T52B053-B 10-02-92 0.00 10-02-92 0.00 EB10 Q1T528052-4 10-02-92 0.30 10-02-92 0.30 EB02 Q1T528055-N 09-29-92 0.33 09-29-92 0.33 ECOS Q1T52B056-N 09-28-92 0.42 09-28-92 0.42

{} EB04 Q1T52B054-N 09-29-92 0.17 09-29-92 0.17 LLRT-03/17 PAGE 2

i UNIT 1 TYPE B TEST SLHMARY TCR 11DI REFUELING l

' AS FOUND AS LErr PENE DESCRIPTICN DATE LEAKAGE DATE LEAIUGE NO.

(SCCM) (SCCM) 84 Equip Hatch 09-28-92 30.2 11-22-92 133.0  ;

86 Personnel Lock 11-21-92 547.0 11-21-92 547.0 Interior.

86 Personnel Lock N/A N/A 11-21-92 0 Outer Door Between Seals 87 Aux Access Lock N/A N/A 11-24-92 0 Outer Door  ;

e Between Seals 87 Aux Access Lock 11-20-92 1467 11-24-92 759.0 '

vol. Between Doors 14 Puel Transfer 11-16-92 79.8 11-16-92 79.8 Tube - Bellows 14 ruel Transfer 09-28-92 35.5 11-18-92 17.6 Tube Blind O rian,e 90 Spare 10-01-92 35.5 11-18-92 22.9 Penetration for SA3 Outage Activities 92 Spare 10-01-92 65.4 11-18-92 29.3 l Penetration for S/G Outage Activities i

'It7EAL 2260.4 i 1588.6 I I

i O

LLRT-03/17 - M --------J

gq v

LUIT 1 - TYPE C TEST St Y FOR 11W REFUELING (q,)

PENE.

AS FtXND MIN. PAW AS LEPr NO. VALVE NO. DA'IE AS LEFT PER PENE.

LEAKAGE LEAKAGE DATE LEAKAGE MIN. MAX.

(SCCM) (SCCM) (SCCM) 10 Q1E11v025B 10-19-92 2088 104 10-19-92 2088 ole 11V026B 10-19-92 104 208 2088 10-19-92 2085 11 Q1E11v025A 10-14-92 86.23 43.1 10-14-92 86.25 43.1 Q1E11V026A 10-14-92 86.25 86.2 10-14-92 86.25 12 Q1P13V282 09-28-92 133.03 66.5 11-18-92 5438 QlP13V281 09-28-92 271.5 543 133.08 11-18-92 5438 Q1P13V301 09-28-92 133.0t Q1P13V302 11-18-92 5438 09-28-92 133.06 11-18-92 Q1P13V287 5438 09-28-92 133.08 11-18-92 543B 13 Q1P13V283 09-28-92 221.08 110.5 11-17-92 557# 278.5 Q1P13v284 09-28-92 557 221.03 11-17-92 5578 Q1P13V304 09-28-92 221.08 Q1P13V303 11-17-92 5578 09-28-92 221.03 11-17-92 Q1P13V288 5578 09-28-92 221.03 11-17-92 5578 16 Q1E11V001A 10-14-92 4,240.0 4,240.0 10-18-92 300 300 300 18 Q1E11V001B 10-19-89 32.0 32.0 10-31-92 74.4 74.4 74.4 23 Q1E21v253A 10-08-92 12.1* 3.1 10-08-92 12.1* 15.2 24.3 Q1E21V253B 10-08-92 12.1* 10-08-92 12.1*

Q1E21v253C 10-08-92 12.1*

Q1E21V254 10-08-92 12.1*

10-08-92 3.1 10-17-92 24.3 Q1E21V255 10-08-92 3.1 10-08-92 3.1 24 Q1E21v257 10-09-92 246.0 25.2 10-22-92 122.4 39.8 122.4 Q1E21V258 10-12-92 58.1 Q1E21V119 10-22-92 374 10-09-92 25.2 10-12-92 39.8 cValues represent total leakage from group sets of valves as physically tested.

ILeakage represents total leakage for the Penetration from a group set of valves.

LLRT-04/2 PAGE 1

1 UNIT 1 - TYPE C TEST g J Y EDR 11TH REEUELING V PHE. AS ETX]ND -

AS EDUND MIN. PATH FO. VALVE PO. DATE AS LEET AS LEFT PER PD4E.

LEAKAGE LEAKAGE DATE LEAKAGE MIN. MAX.

(SCCM) (SCCM) (SCCM) 25 QlE21V115B 10-09-92 10.5 10.5 10-09-92 10.5 10.5 10.5 26 Q1E21V115C 10-09-92 23.9 23.9 10-09-92 23.9 23.9 23.9 27 Q1E21V115A 10-09-92 2.5 2.5 10-09-92 2.5 2.5 2.5 28 Q1E21V213 10-09-92 72.1* 10.6 11-05-92 93.5*

Q1E21V249A 10-09-92 72.1* 10.6 93.5 Q1E21V249B 11-05-92 93.5*

10-09-92 10.6 10-09-92 10.6 29 Q1E21V049 09-29-92 12.6 12.6 09-29-92 12.6 Q1E21v050 09-29-92 25.1 12.6 25.1 09-29-92 25.1 30 01B13v040 10-02-92 8.7 8.3 10-02-92 8.7 8.3 8.7 Q1B13v038 10-02-92 8.3 10-02-92 8.3 31 Q1G21V005 10-01-92 197.3 178.6 10-01-92 197.3 Q1G21V006 10-01-92 178.6 178.6 363.6 Q1G21V064 10-01-92 178.6 10-01-92 166.3 10-01-92 166.3 32 Q1P16v081 10-11-92 83,600 68,485.2 10-28-92 228 Q1P16V072 10-11-92 68,400 228 291.2 Q1P16v203 10-29-92 206 10-29-92 85.2 10-29-92 85.2 33 Q1G21HV3380 09-28-92 73 73 09-28-92 73 Q1G21V204 09-28-92 73 243 363 11-19-92 243 42 Q1P17V083 10-13-92 4.2 4.2 10-13-92 4.2 Q1P17V082 10-02-92 121.9 4.2 176.2 Q1P17V158 10-13-92 87.4 10-02-92 88.8 10-02-92 88.8 43 Q1P17HV3045 10-02-92 76.4 5.8 10-02-92 76.4 Q1P17HV3184 10-02-92 5.8 5.8 76.4 10-02-92 5.8

• Values represent total leakage from group sets of valves as physically tested.

LLRT-04/2 PAGE 2

UNIT 1. - TYPE C 'IEST Sr O Y mR 112 REWELING d AS NUtO ^

PENE.

NO.

AS ftXIO MIN. PAM AS LEPP AS LEPP PER PENE.

VALVE NO. DATE LEAKAGE LEAKAGE DATE LEAKAGE MIN. MAX.

(SCCM) (SCCM) (SCCM) 44 Q1P17V097 10-02-92 102.7 50.9 10-02-92 102.7 102.7 273.6 Q1P17V099 10-02-92 26.3 10-13-92 249 Q1Pl7V155 10-02-92 24.6 10-02-92 24.6 45 Q1P17HV3095 10-02-92 67.1 46.8 10-02-92 67.1 46.8 126.7 Q1P17V159 10-02-92 46.8 10-02-92 Q1P17V153 46.8 10-02-92 59.6 10-02-92 59.6 46 Q1P17HV3443 10-13-92 13.0 13.0 10-13-92 13.0 13.0 25.8 Q1Pl7HV3067 10-13-92 12.9 10-13-92 Q1P17V154 12.9 10-13-92 12.9 10-13-92 12.9 47 Q1P18V001 11-17-92 138.5 138.5 11-17-92 138.5 138.5 140.9 Q1P18V002 11-17-92 140.9 11-17-92 140.9 48 Q1P19HV3611 10-31-92 205 205 10-31-92 205 205 269 Q1P19V002 10-31-92 269 10-31-92 269 49 Q1E21V052 09-29-92 7.7 4.7 09-29-92 7.7 7.7 14.1 Q1E21V091 09-29-92 4.7 11-04-92 14.1 50 Q1P15HV3766 10-01-92 3.1 2.3 10-01-92 3.1 2.3 3.1 Q1P15HV3334 10-01-92 2.3 10-01-92 2.3 54 Q1E14V002 09-30-92 5.1 5.1 09-30-92 5.1 5.1 7.5 Q1E14HV3658 09-30-92 7.5 09-30-92 7.5 55 Q1E14HV3657 09-30-92 10.5 10.5 09-30-92 10.5 10.5 72.1 Q1E14V001 09-30-92 72.1 09-30-92 72.1 56 Q1P15HV3104 10-23-92 560 2.9 10-31-92 12.8 2.9 12.8 Q1P15HV3331 10-23-92 2.9 10-23-92 2.9 LLRT-04/2 , PAGE 3

O u" r 1 - re c =s' s'er "= 11= 88>c'1"o O AS MXRO PDIE. AS ETXRO MIN. PATH NO. AS LEFT AS LEET PER PENE.

VALVE NO. DATE LEAKAGE LEAKAGE DATE LEAKAGE MIN. MAX.

(SCCM) (SCCM) (SCCM) 57 QlP15HV3103 11-12-92 2.9 1.8 11-24-92 3.5 1.8 3.5 Q1P15HV3332 11-12-92 1.8 11-12-92 1.8

+

58 Q1P15HV3765 10-07-92 8.5 6.7 10-07-92 8.5 6.7 8.5 Q1P15HV3333 10-07-92 6.7 10-07-92 6.7 59 Q1E11V0398 10-09-92 11.5* 6.4 10-12-92 8.1* 6.4 8.1 Q1E11V039A 10-09-92 11.5* 10-12-92 8.1*

Q1E21V263A 10-09-92 11.5* 10-12-92 8.1*

Q1E21V2638 10-09-92 11.5* 10-12-92 8.1*

Q1B13V054 10-09-92 6.4 10-09-92 6.4 Q1E11V040 10-09-92 11.5* 10-12-92 8.1*

60 Q1P16V075 10-11-92 175,500.0 1340.3 10-24-92 9.8 9.8 11.7 Q1P16V071 10-11-92 1,340.0 10-28-92 11.4 Q1P16V204 10-28-92 0.3 10-28-92 0.3 61A Q1E23v022C 09-28-92 421# 210.5 11-22-92 7.04 3.5 7.0 Q1E23V022D 09-28-92 4218 11-22-92 7.0%

Q1E23V0238 09-28-92 4218 11-22-92 7.05 61B Q1E23v0248 09-28-92 4.68 2.3 09-28-92 4.6% 2.3 4.6 Q1E23V0258 09-28-92 4.65 09-28-92 4.68 62 Q1G21v082 01-92 8.7 3.1 10-01-92 8.7 3.1 8.7 Q1G21v001 10-01-92 3.1 10-01-92 3.1 63 Q1E21V058 09-29-92 394 97.5 10-06-92 138.7 97.5 138.7 QlE21V059 09-29-92 97.5 09-29-92 97.5 64A Q1B13V039 09-30-92 5.5 5.5 09-30-92 5.5 5.5 9.9 Q1B13V037 09-30-92 9.9 09-30-92 9.9

• Values represent total leakage from group sets of valves as physically tested.

ILeakage represents total leakage for the Penetration from a group set of valves.

LLRT-04/2 PAGE 4

() (NIT 1 - TYPE C 1EST S'-hY NR 11111 REWELHG ()

AS FOLND PE2iE. AS FOUND MIN. PATTI AS LEFT AS LEFT PER PE24E.

NO. VALVE NO. DATE LEAKAGE LEAKAGE DATE LEAKAGE MIN. MAX.

(SCCM) (SCCM) (SCCM) 66 Q1E23V025A 09-28-92 4.45 2.2 09-28-92 4.48 2.2 4.4 Q1E23V024A 09-28-92 4.48 09-28-92 4.45 67 Q1E23V022A 09-28-92 1.38 0.65 09-28-92 1.38 0.65 1.3 Q1E23V022B 09-28-92 1.38 09-28-92 1.33 Q1E23V023A 09-28-92 1.38 09-28-92 1.38 70 Q1E14V004 09-29-92 8.0 8.0 09-29-92 8.0 8.0 52.4 Q1E14V003 09-29-92 52.4 09-29-92 52.4 71 Q1P23V002A 09-28-92 35.4 35.4 11-19-92 245 245 245 72 01P23V0028 09-28-92 204 204 11-19-92 332 332 332 78 Q1G21HV3377 09-28-92 13.2 13.2 09-28-92 13.2 13.2 19.7 Q1G21V291 09-28-92 17.4* 11-19-92 19.7*

Q1G21HV3376 09-28-92 17.4* 11-19-92 19.7*

82 Q1PllHV3659 10-14-92 38.5 38.5 10-14-92 38.5 38.5 43.1 Q1P11V002 10-14-92 43.1 10-14-92 43.1 93 Q1E13V003B 09-30-92 9238 461.5 09-30-92 923 # 461.5 923 Q1E13V004B 09-30-92 9238 09-30-92 923 8 94 Q1E13V003A 09-30-92 7818 390.5 09-30-92 781 # 390.5 781 Q1E13v004A 09-30-92 7818 09-30-92 781 8 95 Q1G31V012 09-29-92 5.0 5.0 09-29-92 5.0 5.0 29.1 Q1G31V013 09-29-92 29.1 09-29-92 29.1 97B Q1P19V004 09-29-92 9.5 9.5 09-29-92 9.5 9.5 9.8 Q1P19HV2228 09-29-92 9.8 09-29-92 q F.8 103 Q1E23V003 09-29-92 35.65 17.8 09-29-92 35.68 17.8 35.6 Q1E23V002 09-29-92 35.65 09-29-92 35.63 cValues represent total leakage from group sets of valves as physically tested.

80eakage represents total leakage for the Penetration from a group set of valves.

LLRT-04/2 PAGE 5 L _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - _ _

l l

APPENDIX III INSTRUMENT CALIBRATION

SUMMARY

Parameter /Instrume.nl Data Pressure / Range: 0 - 100 psia  ;

Volumetrics Model PPM-1000 Accuracy: +/-0.015% RDG Precision Pressure Gauge +/-0.005% F.S.

Repeatability: 0.001 PSIA .

i Sensitivity: 0.0001 PSIA ,

Cal. Date: 10-7-93 ,

Drybulb Temperature / Range: 60 - 120 degrees F 100 OHM Platinum Resistance Accuracy: +/-0.5 degrees F Temperature Detectors Seasitivity: 0.02 degrees F Repeatability: 0.07 degrees F -

Cal. Date: 2-9-94 Dewpoint Temperature / Range: -40 to +140 degrees F '

EG&G Dewtrak Humidity Accuracy: +/-l degrees F  ;

Transmitter Cal. Date: 10-8-93 Flow / Range: 1.34 to 13.4 scfm ,

Brooks Rotameter Accuracy: +/-2.0% F.S. j Model GT/1000 Cal. Date: 2-9-94 l

.1 l

I O

APPENDIX IV O_E_b[ERAL INFORM ATION General Data Owner - Alabama Power Company Plant Name - Joseph M. Farley Nuclear Plant (FNP)

Unit-1 Docket Number 348 Location - Houston County near Dothan AL Outage Cycle - 12th refueling Containment Description - steel lined prestressed concrete Date test was completed - March 10,1994 Technical Data Containment net free volume - 2,000,000 cf Design Pressure - 54 psig Design Temperature - 280 degrees F Calculated Accident Peak Pressure - 48 psig Calculated Accident Peak Temperature - 273.7 degrees F O Test Data Test Method - absolute Test Duration - 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> Data Analysis Technique - mass point Test Pressure - 48.0 psig (+3.0 psig, -0 psig)

Maximum Allowable Leakage Rate (La) 0.15 %/ day Acceptance Limit (0.75La)- 0.1125 %/ day Calculated Leakage Rate (Lam) - 0.0345 %/ day Leakage rate at upper confidence limit (UCL) - 0.0361 %/ day Final leakage rate (UCL + penalties) - 0.0479 %/ day Verification Test Calibrated Leak Superimposed - 0.1514 wt.%/ day Upper limit rate - 0.2234 wt.%/ day Lower limit rate - 0.1484 wt %/ day i Mass po:nt calculated rate - 0.1697 wt.%/ day O