Reactor Containment Bldg Integrated Leak Rate Test

ML20099H118
Person / Time
Site:	Davis Besse
Issue date:	12/31/1984
From:	Blessing J, Shirk R GILBERT/COMMONWEALTH, INC. (FORMERLY GILBERT ASSOCIAT
To:
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ML20099H116	List: ML20099H113 ML20099H118
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NUDOCS 8503150178
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Text

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. n rm DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST -

DECEMBER 1984 TOLEDO EDISON COMPANY

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Prepared by r%w . .

A_f a A n a U. .

c". Utb Reviewed by: --

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ILRT Engineer Approved by: Mh' 0503150178 850308 PDR ADOCK 05000346 p PDR

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,. TABLE OF CONTENTS i

Sect. Item Title Page l

1.0 SYNOPSIS 1  ;

2.0 INTRODUCTION

2 l

3.0 GENERAL, TECHNICAL, AND TEST DATA 3 i 4.0 ACCEPTANCE CRITERIA 5' 4.1 TECH:!ICAL SPECIFICATION ACCEPTANCE

, CRITERIA 5 4.2 SHORT, DURATION TESTING ACCEPTANCE CRITERIA 5 5.0 ,

TEST INSTRUMENTATION 6 5.1

SUMMARY

OF INSTRUMENTS 6 5.2 SCHEMATIC ARRANGEMENT 7 5.3 CALIBRATION CHECKS 7 5.4 INSTRUMENTATION PERFORMANCE 7 5.5 VOLUME WEIGHTING FACTORS 8

,. 5.6 SYSTEM ERROR ANALYSIS 9

'\ 5.7 SUPPLEMENTAL VERIFICATION 11 6.0 TEST PROCEDURE 13 6.1 PREREQUISITES 13 6.2 GENERAL DISCUSSION 13 6.3 TEST PERFORMANCE 15 7.0 METHODS OF ANALYSIS 16 7.1 GENERAL DISCUESION 16 7.2 STATISTICAL EVALUATION 19 8.0 DISCUSSION OF RESULTS 21 8.1 21 8.2 RESULTS AT P, TEST RESULTS SUPPLEMENTAL 23 8.3 AS FOUND ANALYSIS 23

9.0 REFERENCES

25 k

, Greertirms l

L

,,._ TABLE OF CONTENTS (Cont'd)

APPENDICES Appendix A -

Schematic Arrangement of Test Instrumentation Appendix B - Reduced Leakage Rate Data Appendix C -

Weight of Containment Air and Average

. Containment Temperature Versus Time Appendix D - Computer Printout Appendix E -

Summary of Measured Data Appendix F -

Type B and C Leakage Rate Histories C

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l Geert/Cammanusse

1.0 SYNOPSIS The Davis-Besse Nuclear Power Station Unit No. 1 reactor containment building was subjected to a periodic integrated leak rate test during the period of December 9, 1984 to December 10, 1984. The purpose of 1 this test was to demonstrate the acceptability of the building leakage j rate at an internal pressure of 38 psig (P ). Testing was performed j in.conformance with the requirements of 100FR50 Appendix J, ANSI l N45.4-1972, Bechtel Topical Report BN-TOP-1, and the Davis-Besse '

Technical Specifications.

The Mass Point method of analysis resulted in a measured leakage rate of 0.0004 by weight per day at 39 psig. The leakage rate at the upper

bound of the 954 confidence interval was 0.0034 by weight per day.

Utilizing the Total Time method of analysis, the measured leakage rate was found to be -0.0194 by weight per day and 0.0874 by weight per day at the upper bound of the 954 confidence interval at the 39 psig pressure level. The mean of the measured leakage rates based on the i

total time calculations for the last five hours of the test was

-0.0024. by weight per day. All total time analyses are below the allowable leakage rate of 0.375% by weight per day and meet the criteria set forth in Bechtel Topical Report BN ' TOP-1 for conduct of i -

a short duration integrated leakage rate test.

I An equivalent leakage rate reduction of 0.1754 by weight per day was achieved by performing Type B and Type C tests prior to the integrated leakage rate test (see Section 8.3). Therefore, the 'as found' reactor containment integrated leakage rate is the measured leakage i

' rate of 0.0034 by weight per day plus the 0.1754 by weight per day or O.178% by weight per day using the Mass Point method of analysis.

Utilizing the Total Time method, the 'as found' leakage rate is the i

measured upper confidence leakage rate of 0.087% by weight per day plus the 0.175% by weight per day or 0.262% by weight per day. These t

values are well below the allowable 'as found' leakage rate of 0.375%

l by weight per day (see Appendix F).

.I l The supplemental instrumentation verification test at P demons trated I

an agreement between measured reactor containment buildfag integrated

! leakage rates of 1% using the Mass point method and 4% using the Total Time Method which are within the 25% requirement of 10CFR50, Appendix J, Section III A.3.b.

Testing was performed by Toledo Edison with the technical assistance of Gilbert / Commonwealth, Inc. Procedural and calculational methods were witnessed by Nuclear Regulatory Commission personnel.

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2.0 INTRODUCTION

l The objective of the integrated leakage rate test was the verification I of the overall leak tightness of the reactor containment building at l the calculated design basis accident pressure of 38 psig. The l allowable leakage is defined by the design basis accident applied in the safety analysis in accordance with site exposure guidelines specified by 10CFR100. For Davis-Besse, the maximum allowable integrated leak rate at the design basis accident pressure of 38 psig I (P,) is 0.5% by weight per day (L,). )

Testing was performed in accordance with the procedural requirements

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as stated in Davis-Besse Nuclear Power Station Unit No.1 Surveillance Procedure ST-5061.01. This procedure was approved by the station.

superintendent prior to commencement of the test.

Leakaoe rate testing was acr:omplished at the pressure level of 39 psig for a period of 15.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br />. The 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> period was followed by a one hour stabilization period and four hour supplemental test for a verification of test instrumentation.

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f . 3 3.0 GENERAL, TECHNICAL, AND TEST DATA 3.1 GENERAL DATA Owner: Toledo Edison Company Docket No.: 50-346 Lccation: Oak Harbor, Ohio Containment Types Steel Date Test Completed: December 10, 1984 3.2 TECHNICAL DATA Containment Net Free Volume 0 2.834 x 10 cubic feet Design Preasure: 36 psig/40 psig (max)

Design Temperatures 265 F Calculated Accident Peak 4

(_. Pressure: 38 psig Calculated Accident Peak Temperature 255*F 3.3 TEST DATA Test Method: Absolute Data Analysis: Mass Point and Total Time Test Pressures 39 psig Max Allowable Leakage

! Rate (L,) 0.500 wt t per day l

l Heasured Leakage Rates i

Mass Point 0.000 wt t per day Total Time -0.019 wt t per day Measured Leakage Rate at UCL:

Mass Point 0.003 wt t per day Total Time 0.087 wt t per day

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,- 4 Supplemental Test Flow Rate: 0.396% per day Supplemental Test Measured Leak Rate:

Mass Point 0.391 wt 4 per day Total Time 0.397 wt % per day Supplemental Test and L Agreement:

Mass Point 14 Total Time 4%

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r 5 4.0 ACCEPTANCE CRITERIA 4.1 TECHNICAL SPECIFICATION ACCEPTANCE CRITERIA Acceptance criteria established prior to the test, and as specified by 10CFR50, Appendix J, ANSI N45.4-1972 and the Davis-Besse Nuclear Power Station Unit No.1 Technical Specifications are as follows:

1. The measured leakage rate (L ) at the calculated design basis accident pressure of 38 psig*IP ) shall be less than 75% of the maximumallowableleakagerateTL)specifiedat0.5%byweight of the building atmosphere per da*. The acceptance criteria is determined as follows:

L, = 0.St/ day 1

0.75 L, = 0.375t/ day

2. The test instrumentation shall be verified by means of a supplemental test. Agreement between the containment leakage

, measured during the Type A test and the containment leakage measured during the supplemental test shall be within 25% of L .

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4.2 SHORT DURATION TESTING ACCEPTANCE CRITERIA In addition to the acceptance criteria mentioned above, the following i short duration testing acceptance criteria contained in Bechtel Topical Report BN-TOP-1, Revision 1 dated November 1, 1972 was used:

1. The trend report based on total time calculations shall indicate that the magnitude of the calculated leak rate is tending to stabilise at a value less than the maximum allowable leak rate

! (L,).

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2. The end of test upper 95% confidence limit for the calculated leak rate based on total time calculations shall be less than the maximum allowable leak rate.

3. The mean of the measured leak rates based on total time

! calculations over the last five hours of test or last 20 data

) points, whichever provides the most data, shall be less than the maximum allowable leak rate.

4. At least 20 data points shall be provided for statistical analysis.

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i 5.0 TEST'INSTRdMEN'5ANIdN 5.1

SUMMARY

OF INSTRUMENTS Test instruments employed are describe <"., by system, in the following subsections.

5.1.1 Temperature Indicating' System .

, Resistance Temperature Detectors

Quantity 20 Manufacturer Burns Type 100 ohn platinum Range, *F (calibrated) 32 - 100 Accuracy, F +0.5 Sensitivity, 'F .I0.5 5.1.2 Dawpoint Indicating System Dewcell Elements Quantity 5 I

Manufacturer EGGG i

Type Model 660 Range, F -58 to 212 Accuracy, F +0.54 Sensitivity, F 70.01 i

i Repeatability, *F ~

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5.1.3 Pressure Monitoring System Precision Pressure Gauges Quantity 2 l Manufacturer ~ Mensor Type Dual Quarts Manometer Range, psia 0 - 60 ,

Accuracy, psia +0.01% of reading plus 0.002% full scale Sensitivity, psia +0.005 psia Repeatability, psia +0.005 psia l

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5.1.4 Supplem' e ntial' Tes't Flow Monitoring System Mass Flow Meter Quantity 2 Manufacturer Brooks Type Model 5812 Range, scfm 0 - 14 . .

Accuracy +1% of full scale 5.2 SCHEMATIC ARRANGEMENT The arrangement of the four measuring systems summarized in Section 5.1 -is depicted in Appendix A.

Drybulb ttaperature sensors were placed throughout the reactor containment vessel volume to permit monitoring of internal temperature i variatior.s at 20 locations. Dewpoint temperature sensors were placed at five locations to permit monitoring of the reactor containment partial pressure of water vapor. A temperature modeling survey was

' performed after the sensors were installed which verified that the sensors"were monitoring representative volumes and that there were no large areas of temperature variation.

5.3 CALIBRATION CHECKS Temperature, dowpoint, and pressure measuring systems were checked for

' calibration before the test as recommended by ANSI N45.4-1972, Section 6.2 and 6.3. The results of the calibration checks are on file at Davis-Besse Nuclear Power Station Unit No.1. The supplemental test at 38 psig confirmed the instrumentation acceptability.

5.4 INSTRUMBiTATION PERFORMANCE During the pressurization phase, one dewpoint instrument exhibited abnormal behavior and was not used for the test. The volume weighting fract$on assigned to the defective dewpoint instrument was then assigned to the other dewpoint instrument on the same elevation. The remaining five dewpoint instruments, 20 RTDs, two precision pressure ,

gauges, ami two mass flowmeters performed satisfactorily throughout the performance of the integrated leak rate test and provided more than adequate coverage of containment.

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1 f* . 8 5.5 VOLUME WEIGHTING FACTORS Weighting factors were assigned to each operable drybulb temperature sensor and dowpoint temperature sensor based on the calculated volume of the reactor containment building each sensing device monitored.

Drybulb and dewpoint temperature sensors elevation and weighting factors for the test were as follows:

Elevation / Temperature Weighting Azimuth Element Factor 782/0 TE-5056A .056 782/180 TE-5056B .056 TE-5056C .056

^

760/270 760/90 TE-5056D .056 739/0 TE-5056E .056 739/180 TE-5056F .056 714/270 TE-5056G .056 714/90 TE-5056H .056 689/0 TE-50561 .056 689/180 TE-5056J .056 664/270 TE-5056K .056

( GG4/90 TE-5056L .056 634/0 TE-5056M .051 634/180 TE-5056N .051 603/270 TE-50560 .051 603/90 TE-5056P .051 590/270 TE-50568 .031 590/90 TE-5056T .031 584/0 TE-50569 .031 584/180 TE-5056R .031 760/90 TE-5057D .334 689/0 TE-5057I .169 689/180 TE-5057J .169 603/270 TE-50570 .164 603/90 TE-5057P .164 l

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f. 9 5.6 SYSTEM ERROR ANALYSIS Systematic error, in this test, is induced by the operation of the temperaure indicating system, dewpoint indicating system, and the pressure indicating system.

Justification of instrumentation selection was accomplished using manufacturer's sensitivity and repeatability tolerances, stated in Section 5.1, by computing the instrumentation selection guide (.ISG) formula.

Containment leakage determined by the Absolute Method requires accurate measurement of small changes in containment pressure with suitable corrections for temperature and water vapor. Since the Absolute Method utilizes the change in a reading (i.e., pressure and temperature) to calculate leak rate, the repeatability, sensitivity, and readability of the instrument system is of more concern than the accuracy. To perform the ISG calculation, the sensitivity error of the sensor and the repeatability error of the measurement system must be used.

Sensitivity is defined as 'the capability of a sensor to respond to change . Sensitivity is usually a function of the system measuring the sensor output. When the sensor energy _ state is raised or lowered

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, an amount equal to the smallest value which the entire system will process, a change of indication will occur. To determine sensitivity l

for ILRT sensors, it is necessary to analyze the smallest value of the l analog sensor output which will cause a one digit change in the digital display.

Repeatability is defined as 'the capability of the measurement system to reproduce a given reading from a constant source.'

l Utilizing the methods, techniques, and assumptions in Appendix G to ANS 56.8-1981, the ISC formula was computed for the Absolute Method as follows:

1. Conditions:

L, = 0.St/ day P = 53.7 psia f T = 525 R drybulb i

Tdp = 49 F dewpoint t = 15.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> l

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2. Total Absolute Pressures e P

No. of sensors - 2 i Range = 0 - 60 psia Sensor sensitivity error (E ) = +0.005 psia Measurement system error (8 ) = +0.005 psia i

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e = + (E )2 + (C )2- /[no. of sensors]1/2

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e p

=

( 5 x 10 ) 2 + ( 5 x 10 )

e = +5 x 10" psia'

3. Water Vapor Pressures e PV No. of sensors = 5 Sensor sensitivity error (E ) = +0.01 F Measurement system error (cF),

excluding sensor = +0.1*F At a dowpoint temperature of 49*F, the equivalent water vapor pressure change (as determined from steam tables) is 0.0065 psia /*F i

E = _0.01

+ F (0.0065 psia / F)

-5 E = 6.5 x 10 p,g, P'

c = +0.1 F (0.0065 psia / F) j- t = 6.5 x 10 psia

PF

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i e = + (E )2 + (t )2" _

/[no. of sensors]1/2 e = +- (6.5 x 10-5)2 + (6.5 x 10~4)2 /[5]1/2 PT

(. e = +2.92 x 10 psia Geert/r"

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4. Temperatures e T

No. of sensors = 20 Sensor sensitivity error (E ) = +0.5 F = +0.5 R Measurement system error (c ) = +0.1 F = +0.1 R f **"" #']'!

e ~ + ) /t"

• T + (* T)

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II e = + (0.5)2 +- (0.1 )2 / [20]1/2 T . .

e = +0.114 R 9

5. Instrument Selection Guide (ISG):

+ 2 00 pV  !

ISG =

2( ) + 2( p )2 + 2( )

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+ 2400 2 1/2 ISG =

- 15.75 2(5 x53.7 10 3 + 2(2.92 x 10 53.7 )2 , 0.114)2 525 ISG = +152.4 1.734 x 10" + 5.914 x 10~ 1 + 9.430 x 10-8 1/2 ISG = +0.0511/ day (0.1254/ day) and it is The therefore ISG value concludeddoesthatnot the exceedinstrumen0.25 L, tation selected was

' acceptable for use in determining the reactor containment integrated leakage rate.

5.7 SUPPLEMENTAL VERIFICATIOtt In addition to the calibration checks described in Section 5.3, test instrumentation operation was verified by a supplemental test subsequent to the completion of the 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> leakaga rate test.

This test consisted of imposing a known calibrated leakage rate on the

. reactor containment building. After the flow rate was established, it was not altered for the duration of the test.

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During the supplemental test, the measured leakage rate was:

L = L'+L j Where L = Measured composite leakage rate consisting of the e

, reactor containment building leakage rate plus the imposed leakage rate L, = Imposed leakage rate L,' = Leakage rate of the reactor containment building during the supplemental test phase i Rearranging the above equation, L' = L -L v c o The reactor containment building leakage during tne supplemental test can be e,alculated by subtracting the known superimposed leakage rate i from the measured composite leakage rate.

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.The reactor containment building leakage rate during the supplemental test (L ') was then compared to the measured reactor containment building leakage rate during the preceding 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> test (L,,) to determine instrumentation acceptability. Instrumentation is considered acceptable if the difference between the two building leakage rates is within 25% of the maximum allowable leakage rate I

(L,).

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6.0 TEST PROCEDURE 6.1 PREREQUISITES Prior to commencement of reactor containment building pressurization,

the following prerequisites were satisfied:

1

1. Proper operation of all t;est instrumentation was verified.

2. All reactor containment building isolation valves were closed

using the normal mode of operation. All associated system ,

l valves were placed in post-accident positions.

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3. Equipment within the reactor containment building, subject to damage, was protected from external differential pressures.

4. Porticas of fluid systems, which under post-accident conditions become extensions of the containment boundary, were drained and ,

vented.

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5. Type B and C testing was completed with a leakage value less than 0.6 L .

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6. Containment pressurization system was operational.

7. Potential pressure sources were removed or isolated from the containment.

8. Containment recirculation fans were in operation.

9. A general inspection of the accessible interior and exterior areas of the containment was completed.

I 6.2 GENERAL DISCUSSION Following the satisfaction of the prerequisites stated in Section 6.1, the reactor containment building pressurization was initiated at a rate of approximately 2.2 psi per hour. After the containment was

, stabilized, leak rate testing was initiated at the 39.0 psig pressure

! level. For the duration of the 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> leak test and the four hour l'

supplesental test, average internal containment torperature remained within a band of +0.6 F.

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During the test, the following occurred at 15 minute intervals (see '

Appendix B and Appendix E)

1. Readings indicated by the precision pressure gauges were recorded and entered into the computer. The computer then computed the

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average pressure in psia.

2. Readings indicated by the 20 RTDs were recorded and entered into the computer. The computer program calculated the average containment building drybulb temperature by use of a weighting factor that was assigned to each RTD. This value was subsequently converted to degrees Rankine for use in the ideal gas law equation to calculate containment building weight of air.

3. Readings indicated by the five dewpoint temperature sensors were recorded and entered into the computer. The computer program then calculated the average containmen't dowpoint temperature by use of a weighting factor assigned to each sensor. This weighted average dowpoint temperature was then converted to a partial pressure of water vapor.

The use"of water vapor pressure (P , temperature (T), and the total pressure (P ) is described in moreDe) tail in Section 7.1. All t

C.- original data is on file at Davis-Besse Nuclear Power Station Unit No. 1.

Data was entered into an Atrona attache microcomputer located in the plant computer room. The ILRT computer program utilized for the test had been previously checked with sample data of known results and certified prior to the test at Davis-Besse Unit No.1. The computer program then calculated the following at 15 minute intervals:

1 9 Total weight of containment air.

l

2. Mass point least squares fit leakage rate.

3. Naas point 954 upper confidence level leakage rate.

4. Observed total time leakage rate.

5. Total time mean leakage rate.

6. Total time least squares fit leakage rate.

7. Total time 954 upper confidence level leakage rate.

A plot of weighted average containment temperature, containment total pressure, containment average dowpoint temperature, and weight of air was performed for each 15 minute data set (see Appendix C).

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Immediately following the 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> leak test, a superimposed leakage

rate was established for a one hour stabilization period and four hour  ;

test period. During this time, temperature, pressure, and vapor pressure were monitored as described above.

6.3 TEST PERFORMANCE 6.3.1 Pressurization and Stabilization Phase Pressurization of the reactor containment building was started on December 8, 1984 at 2145. The pressurizat. ion rate was approximately l 2.2 psi per hour. When containment internal pressure reached 39.0

! psig at approximately 1630 on December 9, pressurization was secured.

By 2100 on December 9, temperature stabilization criteria had been met and leakage rate data recording, reduction, and analysis began.

I 6.3.2 Integrated Leak Rate Testing Phase Fifteen minute frequency test data showed that stable conditions

! existed within the containment. Test duration for the ILRT was extended to 15.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> to ensure that a stable leakage rate had been established prior to the start of the superimposed test. For the 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> period from 2100 on December 9 to 1245 on December 10, an

-( acceptable leakage rate of 0.0004/ day with an associated 954 confidence interval of 0.0034 by weight per day was obtained using the Mass Point method of analysis. Utilizing the Total Time method, the measured leakage rate was -0.0194/ day and 0.0874 by weight per day at the upper bound of the 954 confidence interval.

6.3.3 Supplemental Leakage Rate Test Phase Following completion of the 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> integrated leak rate test, a leakage rate of 28.64 scfm was imposed on the containment building through two mass flowmeters at 1300 on December 10. After a one hour stablization period, leakage rate data was again collected at 15 minute intervals for a period of four hours. With an imposed leak rate of 0.3964 per day, a measured composite leakage rate of 0.3914 per day was obtained using the Mass Point method. This results in a containment building leakage rate agreement of it of L with the results of the 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> test. Using the Total Time meIhod of analysis, the measured composite leakage rate was 0.3974 per day, resulting in an agreement of 4% of L with the results of the 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> test. These val'ues are both wef1 within the acceptance limit of 25% of L, 6.3.4 Depressurization Phase After all required data was obtained and evaluated, containment building depressurization to O psig was started. A post test inspection of the reactor containment building interior revealed no unusual findings.

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7.0 METHODS OF ANALYSIS 7.1 GENERAL DISCUSSIOtt The Absolute Method of leakage rate determination was employed during testing at the 38.0 psig pressure level. The Gilbert / Commonwealth, Inc. ILRT computer code calculates the percent per day leakage rate for th,e mass point and total time methods. .

7.1.1 Mass Point Analysis i

The mass point method of computing leakage rates uses the following ideal gas law equation to calculate the weight of air inside containment for each 15 minute interval:

, , 144 PV ,

KP RT T Wheres

) W ,= Mass of air inside containment, lha

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K =

144 V/R = 7.64941 x 10

{

P = Partial pressure of air, psia T =

Average internal containment temperature, R V = 2.834 x to ft

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R = 53.35 lba "R i

The partial pressure of air, P, is calculated as follows:

P = P -P 9

Where:

P, =

True corrected pressure by converting pressure gauge readings and averaging, psia P =

Partial pressure of water vapor determined by averaging the five dowpoint temperatures and i

converting to partial pressure of water vapor,

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17 The average internal. containsent temperature, T, is calculated as follows:

T = Sum of the products of each RTD x assigned weighting factor + 459.69 R The weight of air is plotted versus time for the 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> test and for the four hour supplemental test. .The Gilbert / Commonwealth, Inc.

ILRT computer code fits the locus of these points to a straight line using a linear least squares fit. The equation of the linear least squares fit line is of the form W = A + B, where A is the slope in Ibn per hour and B is the initial weig t at time zero. The least

, squares parameters are calculated as follows:

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N( i i) - ( i) ( i) j s,,

B = I III II - I II I i II XX i where:

(-- S = N (E t g 2

) - (It g)2 The weight percent leakage per day can then be determined from the

following equation:

-2400 A as B where the negative sign is used since A is a negative slope to express

! the leakage rate as a positive quantity.

7.1.2 Total Time Analysis The total time method utilizes the following equation to determine the i leakage rate of the reactor containment building:

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2k00 ,'l '2 i t T #

- 2 1 -

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sess/cm===amm l

l__...___.,-_.,_.___ - . . ._. _ _ __ _ -- . - _ . . _ _ _ _ _ _ _ _ _ -

p 18 Where: -

L =

Measured leak rate in weight percent per day i t = Time interval, in hours, between measurements T, , T2= Average internal containment temperature, R, at the beginning and the end of the test interval .

respectively.

P,P2= Average c ntainment pressure (corrected for water vapor pressure) at the beginning and end of the test interval respectively.

The mean total time leakage rate is derived from the above individual total time calculations. The equation for the mean leakage rate is in ~

the forms I

I, i i n

where Lg =

Individual total time leakage rates

{

n =

Number of total time leakage rates

)

The individual leakage rates are then plotted against time for the duration of the 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> test. The Gilbert / Commonwealth, Inc. ILRT computer code fits the locus of these points to a straight line using a linearL,least where is thesquares slope infit. percent The equation per hourisand of the L isform L = L + L,t the initiaf leakage rate at time sero. The least squares PIrameters are calculated as follows: '

g Itg 2 IL g It g IL xx L = N b It g E i i - g S

Where: **

5 = N It - (It g) g l

1 i

)

l .

i l

ggyg fr -=====mkh  !

i p 19 7.2 STATISTICAL EVALUATION

7.2.1 Genera 1 Af ter performing the least squares fit, the ILRT computer code calcu1ates the following statistical parameters:

i 1. Limits of the 954 confidence interval for the mass point leakage rate (C,).

2. Limits of the 954 confidence interval for the total time i leakage rate (C g).

These statistica1 parameters are then used to determine that the measured leakage rate plus the 95 UCL meet the acceptance criteria.

)

7.2.2 Sass Point D5dfiilEnd 1

The upper 954 confidence limit for the mass point leakage rate is calculated as follows:

C ," = 2400 t95 (sg /s)

,-C where C, = Upper 954 confidence limit t 95 = Student's t distribution with M-2 degrees of freedom s, =

standard deviaeion of the sio,e of the 1 east squares fit line

! B = Intercept of the least squares fit lis6e The standard deviation of the slope of the least squares fit line (S '

I is calculated as follows: A g , S (N) !

l [N(It g2) -

(It i)2) 1/2 Where:

8 = Common standard deviation of the weights from the .1. east , ,

squares fit line M = Number of data points t Time intervat of .e i a daea ,oint 1=

t Geert/r-

r- 20 1

The common standard deviation (S) is defined by:

E(W g -

W)

S = [ 1 1/2 y,2 f

where:

Wp = dbserved mass of air W = Least squares calculated mass of air j

The ILRT computer code calculates an upper 954 confidence leakage rate as follows:

i UCL = L

+ 2400 t95 (SA This UCL value is then used to determine that the meast. red leakage rate at the upper 954 confidence limit meets the acceptance criteria.

7.2.3 Total Yime 'Chnfidence f

A.

The 954 confidence limit for the total time leakage rate is calculated as follows:

~

C = t Se 95 1+f+I(t - t)2 g _

where:

t = Total time interval i

! It g

t =

l n l

l t g= Time interval for each data point n = Number of individual total time leakage rates l

( .

ratert/re

,-,,-,,_.----,,.,,.,-,,.-,,---.-,--c,, -e.. -y, , - - , . ,.,,,_,n- , , , , . , . , . , - - - , - - e,, . -,., , _ , , , , - , . , - - . - -e,-.,- - - ,-, ,., . ,m,,,,- , ,,_, ,

l f

I 21 i

8.0 DISCUSSION OF RESULTS 8.1 RESULTS AT P,

! 8.1.1 Mass Point Method of Analysis Data obtained during the leak rate test at P indicated the following changes (highest to lowest) during the 15.75" hour test.

Variable Maximum Change ,

P 0.104 psia P,, 0.004 psia T 1.07 F i

The method used in calculating the Mass Point leakage rate is described in Section 7.1.1. The results of this calculation is a mass point leakage rate of 0.0004/ day (see Appendix D).

1

! The 95% confidence limit associated with this leakage rate is 0.003%

i (.( - per day. Thus, the leakage rate at the upper bound of the 954 confidence level becomes:

UCL = 0.000 + 0.003 UCL = 0.003t/ day Additional leakage rates must be applied to the measured leakage rate at the upper 954 confidence level to account for changes in the not l free volume of the containment due to water level changes, penetration paths not exposed to the test pressure, and for nitrogen additions to the electrical penetrations during the test. Penetration paths not exposed to the test pressure and the corresponding leakage rates based on analysis of minimum pathway local leakage rate testing are as follows; WMC System Isolation Valve Leakage (scen)

ILRT Pressurization CV-343 119 I

Ctat Spray CS-33, CS-17 0 j

Ctat Spray CS-36, CS-18 0 l

l (, Seal Return MU-59A-D, MU-38 0 i

ILRT Pressure Sensing CV-5094 0 eestr-(

' 7

22 Thetotalapplicable,gocalleakagerateis119seemwhichis equivalent to 6 x 10 t/ day. The addition of this negligible value does not change the results of the integrated leakage rate test.

Water level changes in the containment during the 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> integrated leakage rate test are summarized below:

1 Containment Sump Water Level: -

1500 12-08-84 0.35' 4

1325 12-10-84 0.61'

, Pressurizer and Hot Leg Level:

2100 12-09-84 268" 1800 12-10-84 263*

During the test, no makeup water was introduced into the reactor coolant system. Therefore, the volume change associated with the

change in pressurizer / hot leg water level showed an increase in the j net free. volume of 44 cubic feet in 21 hours2.430556e-4 days <br />0.00583 hours <br />3.472222e-5 weeks <br />7.9905e-6 months <br /> or 50.3 cubic feet extrapolated out to 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. This corresponds to a reduction in the

!j it measured containment leakage rate of 0.0017t/ day. However, it is

, conservatively assumed that the water level decrease was not lost out of containment and no change in net free volume occurred.

The level change in the containment sump showed a decrease in the not free volume of 12.5 cubic feet in 15.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> or 19 cubic feet when

! extrapolated out to 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. This corresponds to an additional l leakage rate of 0.000674/ day.

The nitrogen addition to the electrical penetrations is conservatively assumed to have gone into containment. The amount of nitrogen used was measured to be 8.472 cubic feet from 2100 on December 9 to 1400 on l December 10. This is equivalent to 11.96 cubic feet for a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> i

period. This corresponds to an additional leakage rate of 0.00014/ day.

The addition of these very small leakage rates due to water level changes, Type C penalties, and nitrogen additions have no significant )

effect on the results of the integrated leakage ratt test.

l The measured leakage rate and the measured leakage rate at the upper

) bound of the 954 confidence level are well below the acceptance i

criteria of 0.3754/ day (0.75 L,).

o e

d I

l ( .. 23 i

8.1.2 Total Time Method of Analysis s

i The method used -in calculating the total time leakage rates is defined i

in section 7.1.2. The results of these calculations are as follows:

1. The mer pred total time leakage rate for the 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> test was

-0.0194 by weight per day.

2. The 95% confidence limit associated with this leakage rate is 0.106% per day. Thus, the leakage rate at the upper bound of the 954 confidence level becomes

i UCL = -0.019 + 0.106 UCL = 0.0874/ day

' 3. The mean of the measured leakage rates based on the last five hours of the test wes -0.002 percent by weight per day.

The total time measured leakage rate, the measured leakage rate at the upper bound of the 954 confidence level and the mean of the measured i

leakage, rates based on the last five hours of testing are below the acceptance criteria of 0.3754/ day.

i .(

Therefore, the reactor containment building leakage rate, based on

both the mass point method and total time method of analysis, at the l calcula hd design basis accident pressure (P,) of 38.0 pelg is acceptawe.

l 8.2 SUPPLEMENTAL TEST RESULTS P

! After conclusion of the 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> test at 38.0 peig (P ), the mass flowmeters were placed in service and a flow rate of 28*64 scfm was established. This flow rate is equivalent to a leakage rate of 0.3964/ day. After the flow rate was established, it was not altered for the duration of the supplemental test. The measured leakage rate i (L during the supplemental test was calculated to be 0.3914/ day usin)g the Mass Point authod of analysis and 0.3974/ day using the Total Time Method.

The building leakage rate during the supplemental test is then determined as follows:

Mass Point Total Time L,' =

'L,- L, L,' =

L, - L, L,' = 0.391 - 0.396 L,' = 0.397 - 0.396 L,' = -0.0054/ day L,' = 0.0014/ day eastIceme=ese

- .. - -. . .- - - . - - . - . . - _ . - .. . _ _=- .

r~ 24 i

Comparing this leakage rate with the building leakage rate measured during the 15.75 hour8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> test yields the following: "

l

! Mass Point =

"" ~ ' = l0.000 (-0.005)l

.001 1

L L

"" ~ ~* ~

Total Time = = = .004 L 0.5 e

The building leakage rates agree within 14 of L using the Mass Point

} method and 44 using Total Time which are well b$ low the acceptance j criteria of 254.

Using the formulation of ANS 56.8-1981,

('

( L, + L,, - 0. 2 5 L, ) j[L j: ( L, + L,, ,

+ 0'. 25 L,)

I (0.396 + 0 - 0.125) jiL, ;((0.396 + 0 + 0.125) 0.271 j: L, ;c 0.521 l Since L was measured to be 0.3914/ day, this value falls within the l acceptaEle range of 0.2714 to 0.5214 per day. Therefore, the acceptability of the test instrumentation is considered to have been '

j verified.

8.3 AS FOUND ANALYSIS

! To determine the as-found containment leakage rate, an analysis was ,

performed to evaluate any leakage savings from repairs of containment l

! isolation barriers. Leakage savings are realized when containment {

isolation barrier repairs result in a lower minim'um pathway leakage l

l which is the minimum leakage value that can be quantified through I a penetration leakage path. ,

i

\_

l

k l

g

,- 25 Repairs were performed on eight penetrations during the 1984 outage with only two resulting in a minimum pathway leakage (MPL) savings. J The results.of these eight penetrations (in seca) are listed below.

As,, ,As ,

MPL , .

MPL Leakage Found Penet. Left Pre-Maint Post-Maint Savings 3 (1) 423 212 212 . 0 l 33 700,000 504 350,000 252 349,748 34 371 1188 186 594 0 41 34,400 -

0 -

0 368 368 368 368 - -

42A 11,814 280 - - -

89 89 89 89 0 44A (2) 1869 - - -

775 775 775 775 0 81 (3) 1743 872 872 0 (1 )' Valves tested in parallel, penetration would not pressurize, maintenance performed on only one. valve.

(2) Valves tested in series, one valve would not pressurize, maintenance performed on only one valve.

(3) Personnel lock would not pressurise, maintenance performed on one handwheel shaft seal.

The leakage savings due to performing Type B and C tests prior to the Type A test is 350,116 seca. This value is equivalent to 0.1754 by weight per day. -

L Omertfr -

_ .== -

?" 26 -

9.0 REFERENCES

1. Surveillance Test ST.5061.01 Containment Integrated Leak Rate Test.

2. Davis-Besse Nuclear Power Station Unit No.1 Updated Safety Analysis Report.

3. Code of Federal Regulations, Title 10, Part 50, Appendix h.

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

5. ANS-56.8-1981, Containment System Leakage Testing Requirements, American Nuclear Society.

l 6. ILRT Computer Code, Gilbert / Commonwealth, Inc.

7. Steam Tables, American-Society of Mechanical Engineers, 1967.

8. BN-10P-1, Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power

' C__ Plants, Revision 1, November 1, 1972. '

i

/

i GeertW

9 APPENDICES O

C s

{

l I

I u.

Geert/%

1. -'-"*-----~.-

O l

.

• e APPENDIX A SCHEMATIC ARRANGEMENT OF TEST INSTRUMENTATION S

.C I

i l

Gdhertle-l

b O TEST INSTRUMENTS TAG NUMBERS i DEWPOINT TE-5057 D,I,J,

! TEMPERATURE 0,P DRYBULB TE-5056A thru

.782' E- E- TEMPERATURE TE-5056T-l 2

i CONTAINMENT PT-5094A & S  ;

PRESSURE PI-5094 -

m 760'

. TE-c

. FE-L D E- SUPERIMPOSED FLOW FT-4912A E B $

m '

l E ,

739' TE- E-l E F 8 l >

n f

\

. ll0

'y f

mp E 1:3 m at;p Zm i i .

_ PT Z 689' TEC F A O T-t)

1. -4 X I

X X @) l

~

H 664' -

B m

-4 l . 2 i C ,

i E m

1 Z 634' -4 TE- E-PI PT PT - >

g M N A B g

Z 603' TF -

TE- TE A L AE 584' '

E- TE-R -

1 j

e 9

APPENDIX B REDUCED TEST DATA 9

.C 4

Geert/P"

f- APPENDIX B REDUCED TEST DATA Date - Time PAVG PWV TAVG Weight 12-09-84 2100 53.778 .171 65.52 780752 1

2115 53.773 .172 65.49 780721 2130 53.77 .172 65.45 780735 2145 53.766 .172 65.41 720735 2200 53.764 .172 65.37 780759 2215 53.76 .172 65.35 780738 2230 53.758 .172 65.31 780761 2245 53.755 .172 65.29 780751 2300 53.753 .172 65.26 780757 2315 53.751 .172 65.23 780776 2330 53.749 .173 65.22 780746 2345 53.746 .172 65.20 780756 12-10-84 0000 53.744 .172 65.19 780747 0015 53.743 .173 65.16 780756 0030 53.741 .172 65.13 780782 i 0045 53.739 .173 65.10 780783 l 0160 53.738 .173 65.10 780776 I

,{- 0115 53.737 .172 65.08 780790 0130 53.736 .173 65.06 780796 '

0145 53.734 .173 65.05 780793 0200 53 732 .173 65.04 780781 0215 53.731 .172 65.03 780786 0230 53.731 .172 65.02 780783 0245 53.729 .172 65.00 780797 0300 53.728 .172 64.98 780807 0315 53.727 .173 64.97 780791 l 0330 53.725 .173 64.97 780763 l 0345 53.723 .173 64.95 780771 0400 53.721 .173 64.92 780795 l 0415 53.719 .173 64.90 780785 .

0430 53.716 .174 64.90 780729 0445 53.715 .174 64.87 780759 0500 53.712 .173 64.85 780762 0515 53.71 .174 64.82 780771 0530 53.709 .173 64.80 780779 0545 53.706 .173 64.77 780789 0600 53.705 .173 64 77 780772 0615 53.703 .174 64.75 780772 1 0630 53 702 .174 64.73 780775 0645 53.699 .174 64.71 780758 N

mem '-

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

,- APPENDIX B (Cont'd)

Date Time PAVG PWV TAVG Weight

12-10-84 0700 53.697 .173 64.69 '

780785 l 0715 53.696 .174 64.68 780775 j 0730 53.695 .173 64.66 780786 l

0745 53 693 .174 64.66 780759

0800 53 692 .174 64.63 780784

0815 53.69 .174 64.64 780742 ..

0830 53.689 .174 64.62 780745 1 0845 53 687 .174 64.60 780752

! 0900 53.686 ,.174 64.58 780769.

l 0915 53.685 .174 64.56 780785 0930 53.684 .175 64.55 780770

) 0945 53.682 .174 64.55 780753 1 1000 53.681 .174 64.53 780764 1015 53.679 .175 64.51 780765 1030 53.679 .175 64.51 780771 1045 53.678 .175 64.49 780776

} 1100 53.677 .174 64.48 780780 l 1115 53.676 .175 64.47 780773 1130 53.675 .174 64.47 780762 1145 53.673 .175 64.47 780726 l-{

1 1200 1215 1230 53.672 53.672 53.670

.176

.175

.175 64.45 64.45 64.42 780752 780737 780761

- 1245 53.669 .175 64.43 780724 j VERIFICATION TEST j 1400 53.654 .175 64.38 780596 1

1415 53.650 .176 64.36 780565 t

1430 53.648 .175 64.35 780535

! 1445 53.645 .176 64.34 780511 1500 53.642 .175 64.35 780470 1515 53.639 .176 64.33 780431 1530 53.636 .176 64.31 780405 i 1545 53.633 .176 64.31 780379

" l'::'7 :lll  :::  ;;;;8:'

1630 53.624 .175 64.29 780271 1645 53.620 .175 64.28 780239

1700 53.618 .175 64.27 780231

{ 1715 53.615 .175 64.28 780168 1730 N.612 .175 64.26 780163 1745 53.609 .175 64.26 780113 1800 53.606 .175 64.24 780101 l

e >

4

Gest /Casumesmasah

APPENDIX C LEAKAGE RATE TEST GRAPHS m

, Geertir-*

l l

t .

APPENDII C WEIGHT OF CONTAINMENT AIR AND AVERAGE CONTAINMENT TEMPERATURE VERSUS TIME e *** * **

• 780,000 -

8e eSos 8.e e e l

_se e e e... e g oe ,e, _e,ee ee- W = 780,595 - 127.2t

_e -

, " e. e

THE AVE PRE 55URE IS = 53.764 PSIA 1 DEWPT 1 48.65 DEWPT 4 49.62 DEWPT 2 49.64 , DEWPT 5 48.71 DEWPT 3 48.99 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.0437 THE PWV IS = .171779 PSIA I THE MASS WEIGHT IS = 780758.75 LBM i Q: 1 APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

(" \

READINGS TAKEN AT TIME PERIOD :

2215 DATE : 12/9/84 l

\

RTD 1 64.72 RTD 11 65.56 RTD 2 65.21 -

RTD 12 65.27 1 RTD 3 65.28 RTD 13 65.57 l RTD 4 65 RTD 14 66.12 l RTD 5 65.24 -

RTD 15 65.65 RTD 6 64.7 RTD 16 65.96 RTD 7 65.22 RTD 17 64.49 RTD 8 65.16 RTD 18 65.3 RTD 9 65.41 RTD 19 65.27 RTD 10 65.3 .RTD 20 67.1 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.3512 IN F

= 525.041 IN R s

PRESS -1 53.771 PRESC 2 53.749 .

()"

THE AVE PRESSURE IS = 53.76 PSIA DEWPT 1 48.82 DEWPT 4 49.63 DEWPT 2 49.65 DEWPT 5 48.55 DEWPT 3 48.64 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.0184 THE PWV IS = .171617 PSIA l

i THE MASS WEIGHT IS = 780737.875 LBM l e

l

i APPENDIX E DAVIS BESSE 1984 ILRT  ;

SUMMARY

OF LEAK RATE DATA 1

/~

READINGS TAKEN AT TIME PERIOD : 2230 DATE : 12/9/84 RTD 1 64.67 RTD 11 65.49  ;

RTD 2 65.15 RTD 12 65.21 RTD 3 65.22 RTD 13 65.57 RTD 4 65 RTD 14 65.91 RTD 5 65.18 RTD 15 65.65 -

RTD 6 64.56 RTD 16 65.96 RTD 7 65.28 RTD 17 64.49 RTD 8 65.11 RTD 18 65.24 RTD 9 65.35 RTD 19 65.33 RTD 10 . 65.24 RTD 20 67.1 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.3063 IN F

= 524.996 IN R PRESS 1 53.768 PRESS 2 53.747

(_ THE AVE PRESSURE IS = 53.7575 PSIA DEWPT 1 48.77 DEWPT 4 49.6

.DEWPT 2 49.74 DEWPT 5 48.71 DEWPT 3 48.97 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.094 THE PWV IS = .172102 PSIA THE MASS WEIGHT IS = 780761 LBM k.-

l

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA l'

READINGS TAKEN AT TIME PERIOD : 2245 DATE : 12/9/84 RTD 1 64.61 RTD 11 65.56 RTD 2 65.09 RTD 12 65.21 RTD 3 65.22 RTD 13 65.52 l RTD 4 64.94 RTD 14 65.87 l RTD 5 65.18 RTD 15 65.63 RTD 6 64.5 RTD 16 65.96 RTD 7 65.25 RTD 17 64.43 RTD 8 65.11 RTD 18 65.24 RTD 9 65.3 RTD 19 65.33 RTD 10 65.27 . RTD 20 67.05 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.285 IN F l = 524.975 IN R PRESS -1 53.766 FRESS 2 53.744

(( THE AVE PRESSURE IS = 53.755 PSIA DFWPT 1 48.87 DEWPT 4 49.69 JEWPT 2 49.65 DEWPT 5 48.86 DEWPT 3 48.94 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.1465

, THE PWV IS = .172439 PSIA THE MASS WEIGHT IS = 780751.4375 LBM i

Q. -

I

APPENDIX E DAVIS BESSE 1984 ILRT i

SUMMARY

OF LEAK RATE DATA j l

i f '

READINGS TAKEN AT TIME PERIOD :

2300 DATE : 12/9/84 RTD 1 64.61 RTD 11 65.49 RTD 2 65.09 RTD 12 65.15

, RTD 3 65.16 RTD 13 65.52 RTD 4 64.94 RTD 14 65.88 5

RTD 65.06 RTD 15 65.57 RTD 6 64.52 RTD 16 65.96 RTD 7 65.18 RTO 17 64.43 RTD 8 65.05 RTD 18 65.18 RTD 9 65.3 RTD 19 65.33 RTD 10 65.28 RTD 20 67.03 .

. THE AVE RTD WITH WEIGHTING FACTORS IS = 65.257 IN F j = 524.947 IN R PRESS 1 53.763 PRESS 2 33.742 t,I J

~-

THE AVE PRESSURE IS = 53.7525 PSIA 1 ,

DEWPT 1 49.05 DEWPT 4 49.66 DEWPT 2 49.68 DEWPT 5 48.65 DEWPT 3 48.79 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.147 THE PWV IS = .172443 PSIA s .

l l

THE MASS WEIGHT IS = 780756.6875 LBM

(,

1 i

APPENDIX E

, DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DAT.A p.

READINGS TAKEN AT TIME PERIOD : 2315 DATE : 12/9/84 I

i RTD 1 64.61 RTD 11 65.44 RTD 2 65.03 RTD 12 65.09 RTD 3 65.11 RTD 13 65.46 RTD 4 64.89 RTD 14 65.87 RTD 5 '65.12 -RTD 15 65.57 RTD 6 64.46 RTD 16 65.9 RTD 7 65.18 RTD 17 64.43 RTD 8 65.05 RTD 18 65.18 RTD 9 65.3 RTD 19 65.38 RTD 10 65.15 RTD 20 66.97 .

THE AVE RTD WITH WEIGHTING FACTORS IS = 65.2276 IN F

= 524.918 IN R PRESS 1 53.761 PRESS 2 53.74

,( THE AVE PRESSURE IS = 53.7505 PSIA DEWPT 1 48.82 DEWPT 4 49.73 '

DEWPT 2 49.71 DEWPT 5 48.48 DEWPT 3 48.98 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.0909 THE PWV IS = .172082 PSIA THE MASS WEIGHT IS = 780776.375 LBM l

(/

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA r~. .

READINGS TAKEN AT TIME PERIOD : 2330 DATE : 12/9/84 RTD 1 64.55 RTD 11 65.43 RTD 2 65.03 RTD 12 65.09 RTD 3 65.11 RTD 13 65.46 )

RTD -4 64.89 RTD 14 65.78 RTD 5 65.06 'RTD 15 65.57 -

RTD 6 64.52 RTD 16 65.96  ;

RTD 7 65.12 RTD 17 64.43 RTD 8 65.05 RTD 18 65.18 RTD 9 65.3 RTD 19 65.33 RTD 10 65.24 RTD 20 66.97 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.2223 IN F l

= 524.912 IN R i

• PRESS 1 53.759 PRESS 2 53.738 (f - THE AVE PRESSURE IS = 53.7485 PSIA i .

DEWPT 1 48.91 DEWPT 4 49.77 .

DEWPT 2 49.76 DEWPT 5 48.76 DEWPT 3 49.03 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.1904 i

THE PWV IS = . 172722 PSIA ,

s I

THE f! ASS WEIGHT IS = 780745.6875 LBM 4

N I

r <

me n n - , - - -- - - , - - , , ,

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA r.

READINGS TAKEN AT TIME PERIOD : 2345 DATE : 12/9/84 l

RTD 1 64.55 RTD 11 65.35 RTD 2 65.03 RTD 12 65.09 RTD 3 65.11 RTD 13 65.4 RTD 4 64.83 RTD 14 65.82 l RTD 5 65.06 RTD 15 65.57 l RTD 6 ~64.53 RTD 16 65.9 RTD 7 65.09 RTD 17 64.37 RTD 8 64.99 RTD 18 65.18 RTD 9 65.24 RTD 19 65.33

. RTD 10 65.27 RTD 20 66.97 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.2024 IN F

= 524.892 IN R PRESS 1 53.756 PRESS 2 53.736

(: THE AVE PRESSURE IS = 53.746 PSIA DEWPT 1 48.92 DEWPT 4 49.73 DEWPT 2 49.7 DEWPT 5 47.97 DEWPT 3 48.79 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.0069 THE PWV IS = .171543 PSIA THE MASS WEIGHT IS = 780756.1875 LBM l

(/

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA READINGS TAKEN AT TIME PERIOD : O DATE : 12/10/84 RTD 1 64.55 RTD 11 65.33 RTD 2 64.97 RTD 12 65.03 RTD 3 65.11 RTD 13 65.4 RTD 4 64.83 RTD 14 65.79 RTD 5 65.06 -

RTD 15 65.63 '

RTD 6 64.46 RTD 16 65.84 RTD 7 65.09 RTD 17 64.37 RTD 8 64.99 RTD 18 65.18 RTD 9 65.24 RTD 19 65.33 RTD .10 65.21 RTD 20 66.97 ,

THE AVE RTD WITH WEIGHTING FACTORS IS = 65.1857 IN F

= 524.876 IN R PRESS 1 53.754 PRESS 2 53.734 C; THe ave eRESSuRe IS = 53.744 eSIa DEWPT 1 48.82 DEWPT 4 49.81 DEWPT 2 49.69 DEWPT 5 48.27 DEWPT 3 48.93 i

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.0578 THE PWV IS = .171869 PSIA THE MASS WEIGHT IS = 780747 LBM

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA i

READINGS TAKEN AT TIME PERIOD : 15 DATE : 12/10/84 RTD 1 64.49 RTD 11 65.33 RTD 2 64.97 RTD 12 65.03 RTD 3 65.05 RTD 13 65.34 RTD 4 64.83 RTD 14 65.75 RTD 5 65 RTD 15 65.63 -

RTD 6 64.46 RTD- 16 65.78 RTD 7 65.09 RTD 17 64.37 RTD 8 64.93 RTD 18 65.12 RTD 9 65.18 RTD 19 65.33

. RTD 10 65.21 RTD 20 66.91 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.1571 IN F

= 524.847 IN R PRESS -1 53.753 PRESS 2 53.732

( THE AVE PRESSURE IS = 53.7425 PSIA DEWPT 1 48.96 DEWPT 4 49.76 DEWPT 2 49.77 DEWPT 5 48.69 DEWPT 3 48.98 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.1872 THE PWV IS = .172702 PSIA THE MASS WEIGHT IS = 780755.75 LBM b

l

)

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA READINGS TAKEN AT TIME PERID3 : 30 DATE : 12/10/84 l

l RTD 1 64.49 RTD 11 65.31 RTD 2 64.97 RTD 12 64.97 RTD 3 65.05 RTD 13 65.34 RTD 4 64.77 RTD 14 65.62 RTD 5 65 RTD 15 65.56 RTD 6 64.93 RTD 16 65.84 RTD 7 65.03 RTD 17 64.37 RTD 8 64.93 RTD 18 65.12 RTD 9 65.18 RTD 19 65.27 RTD. 10 65.15 RTD 20 66.88 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.1589 IN F

= 524.849 IN R PRESS -1 53.751 PRESS 2 53.731

( THE AVE PRESSURE IS = 53.741 PSIA I

i l' DEWPT 1 48.82 DEWPT 4 49.82 DEWPT 2 49.66 DEWPT 5 48.48 DEWPT 3 49.14 l

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.1243 THE PWV IS = . 172297 PSIA l THE MASS WEIGHT IS = 780737.0625 LBM l

l

(_,

..v. .-.7 , - . - - . - - - , ,

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA r

READINGS TAKEN AT TIME PERIOD : 45 DATE : 12/10/84 i

i

)

RTD 1 64.43 RTD 11 65.31 '

RTD 2 64.92 RTD 12 64.92 RTD 3 64.99 RTD 13 65.34 RTD 4 64.77 RTD 14 65.72 RTD 5 64.94 RTD 15 65.56 RTD 6 64.33 RTD 16 65.94 RTD 7 65.03 RTD 17 64.31 RTD 8 64.87 RTD 18 65.06 i

RTD 9 65.12 RTD 19 65.33 RTD 10 65.12 . RTD 20 66.88 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.1045 IN F

= 524.794 IN R PRESS 1 53.749 PRESS 2 53.729

(* THE AVE PRESSURE IS = 53.739 PSIA DEWPT 1 48.96 DEWPT 4 49.82 DEWPT 2 49.74 DEWPT 5 48.7 DEWPT 3 48.96 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.1902 THE PWV IS = .172721 PSIA THE MASS WEIGHT IS = 780782.6875 LBM l

i w'

~

1 APPENDIX E

~

DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

. r.

READINGS TAKEN AT TIME PERIOD : 100 DATE : 12/10/84 l

RTD 1 64.43 , RTD 11 65.28 RTD 2 64.92 RTD 12 64.92 RTD 3 64.99 RTD 13 65.28 RTD 4 64.77 RTD 14 65.68 RTD 5 64.94 RTD- 15 65.56 RTD 6 64.4 RTD 16 65.84 RTD 7 65.03 RTD 17 64.31 RTD 8 64.87 RTD 18 65.06 RTD 9 65.12 RTD 19 65.27 i RTD 10 65.08 RTD 20 66.82 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.0956 IN F-

= 524.786 IN R I

PRESS -1 53.747 PRESS 2 53.728

(. THE AVE PRESSURE IS = 53.7375 PSIA DEWPT 1 48.98 DEWPT 4 49.77 DEWPT 2 49.74 DEWPT 5 48.69 DEWPT 3 48.88 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.1735 THE PWV IS = .172614 PSIA THE MASS WEIGHT IS = 780775.5 LBM i

I i

(

i

1 APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA A

READINGS TAKEN AT TIME PERIOD : 115 DATE : 12/10/84 RTD 1 64.37 RTD 11 65.3 RTD 2 64.92 RTD 12 64.92 RTD 3 64.93 RTD 13 65.28 '

RTD 4 64.74 RTD 14 65.57 RTD 5 64.94 RTD 15 65.56 -

RTD 6 64.34 -

RTD 16 65.84 RTD 7 64.97 RTD 17 64.26 RTD 8 64.87 RTD 18 65.06 RTD 9 65.12 RTD 19 65.27 RTD 10 65.18 RTD 20 66.83 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.0804 IN F

= 524.77 IN R PRESS -1 53.746 PRESS 2 53.727 C THe ave PRESSURE 1S = 53.7365 PS1A DEWPT 1 48.96 DEWPT 4 49.77 DEWPT 2 49.8 DEWPT 5 48.86 DEWPT 3 48.3 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.1069 THE PWV IS = .172185 PSIA THE MASS WEIGHT IS = 780790 LBM O

_S -

• ^

6 '

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA f^- -

READINGS TAKEN AT TIME PERIOD : 130 DATE : 12/10/84 RTD 1 64.43 RTD 11 65.25 RTD 2 64.86 RTD 12 64.92 RTD 3 64.93 RTD 13 65.22 RTD 4 64.74 RTD 14 65.53 RTD 5 64.89 RTD 15 65.56 RTD 6 64.34 RTD 16 65.82 RTD 7 64.97 RTD 17 64.26 RTD 8 64.87 RTD 18 65.06 RTD 9 65.06 RTD 19 65.27 RTD 10 65.12 RTD 20 66.81 .

THE AVE RTD WITH WEIGHTING FACTORS IS = 65.0613 IN F

= 524.751 IN R PRESS -1 53.745 PRESS 2 53.726 THE AVE PRESSURE IS = 53.7355 PSIA DEWPT 1 48.97 DEWPT 4 49.75 DEWPT 2 49.84 DEWPT 5 48.8 DEWPT 3 48.79 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.1867 THE PWV IS = .172699 PSIA l

THE MASS WEIGHT IS = 780796.25 LBM

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

(, ,

READINGS TAKEN AT TIME PERIOD : 145 DATE : 12/10/84 RTD 1 64.37 RTD 11 65.25 RTD ~2 64.86 RTD 12 64.86 RTD 3 64.93 RTD 13 65.22 ,

RTD 4 64.68 RTD 14 65.59 l RTD 5 - 64.89 RTD 15 65.56 l RTD 6 64.29 RTD 16 65.82 RTD 7 64.97 RTD 17 64.26 RTD 8 64.81 RTD 18 65 RTD 9 65.06 RTD 19 65.27 RTD 10 65.15 RTD 20 66.81 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.048 IN F

= 524.738 IN R PRESS -1 53.744 PRESS 2 53.724

(' THE AVE PRESSURE IS = 53.734 PSIA DEWPT 1 48.94 DEWPT 4 49.82 DEWPT 2 49.74 DEWPT 5 48.86 DEWPT 3 48.93 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.2047 THE PWV IS = .172815 PSIA t

.THE MASS WEIGHT IS = 780792.5 LBM 1

i (d

l l

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA r~'

READINGS TAKEN AT TIME PERIOD : 200 DATE : 12/10/84 l RTD 1 64.37 RTD 11 65.3 RTD 2 64.86 RTD 12 64.86 -

RTD 3 64.93 RTD 13 65.22 l RTD 4 64.68 RTD 14 65.56 )

RTD 5 64.89 RTD 15 -65.5 l

RTD 6 64.3 RTD 16 65.82 RTD 7 64.97 RTD 17 64.26 RTD 8 64.81 RTD 18 65 RTD 9 65.06 RTD 19 65.21

. RTD 10 65.09 RTD 20 66.67 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.0372 IN F

= 524.727 IN R PRESS 1 53.74 PRESS 2 53.724 '

(( THE AVE PRESSURE IS = 53.732 PSIA DEWPT 1 48.92 DEWPT 4 49.82 DEWPT 2 49.86 DEWPT 5 48.57 DEWPT 3 49.05 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.191 THE PWV IS = .172727 PSIA 4

THE MASS WEIGHT IS = 780780.75 LBM k

=

l -

's

. - . . , ,----r .m -. , . , _ , , - , . - - , . , - , , .

APPENDIX E

, DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA t' l READINGS TAKEN AT TIME PERIOD : 215 DATE : 12/10/84 RTD 1 64.37 RTD 11 65.24 RTD 2 64.86 RTD. 12 64.87 RTD 3 64.87 RTD 13 65.22 RTD 4 64.68 RTD 14 65.56 RTD 5 64.89 RTD 15 65.5 '

RTD 6 64.3 RTD 16 65.76 RTD 7 64.94 RTD 17 64.26 RTD 8 64.81 RTD 18 65 RTD 9 65.06 RTD 19 65.27 RTD 10 65.03 RTD 20 66.79 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.0285 IN F

= 524.719 IN R PRESS -1 53.741 PRESS 2 53.721

-( THE AVE PRESSURE IS = 53.731 PSIA DEWPT 1 49.92 DEWPT 4 49.86 DEWPT 2 49.86 DEWPT 5 48.26 DEWPT 3 48.9 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.1214 THE PWV IS = .172278 PSIA THE MASS WEIGHT IS = 780785.5625 LBM

l 1

APPENDIX E  !

DAVIS BESSE 1984 ILRT '

SUMMARY

OF LEAK RATE DATA READINGS TAKEN AT TIME PERIOD : 230 DATE : 12/10/84 RTD 1 64.36 RTD 11 65.3 RTD 2 64.86 RTD 12 64.87 RTD 3 64.93 RTD 13 65.16 RTD 4 64.68 RTD 14 65.52 RTD 5 64.89 RTD 15 65.5 -

RTb 6 64.3 RTD 16 65.71 RTD 7 64.92 RTD ~ 17 64.26 RTD 8 64.81 RTD 18 65 RTD 9 65.06 RTD 19 65.21

. RTD 10 65.03 RTD 20 66.76 i

THE AVE RTD WITH WEIGHTING FACTORS IS = 65.0231 IN F

= 524.713 IN R PRESS 1 53.74 PRESS 2 53.721

(' THE AVE PRESSURE IS = 53.7305 PSIA DEWPT 1 49.05 DEWPT 4 49.86

'DEWPT 2 49.76 DEWPT 5 48.22 DEWPT 3 48.98 i THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.1549 THE PWV IS = .172494 PSIA i

THE MASS WEIGHT IS = 780783.25 LBM i

i e

( .-

APPENDIX,E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA A*

READINGS TAKEN AT TIME PERIOD : 245 DATE : 12/10/84 RTD 1 64.36 RTD 11 65.27 RTD 2 64.8 RTD 12 64.8 RTD 3 64.87 RTD 13 65.16 RTD 4 64.68 RTD 14 65.47 RTD 5 64.89 RTD 15 65.5 RTD 6 64.29 RTD 16 65.76 RTD 7 64.86 RTD 17 64.26 RTD 8 64.81 RTD 18 64.94 RTD 9 65 RTD 19 65.27 RTD 10 65.03 RTD 20 66.7 THE AVE RTD WITH WEIGHTING FACTORS IS = 65.0016 IN F

. = 524.692 IN R PRESS 1 53.738 PRESS 2 53.72

( THE-AVE PRESSURE IS = 53.729 PSIA i

DEWPT 1 49.08 DEWPT 4 49.85 DEWPT 2 49.86 DEWPT 5 47.98 DEWPT 3 48.81 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.1121 THE PWV IS = . 172218 PSIA THE MASS WEIGHT IS = 780797.25 LBM r

e

_ __ _ . _ _y-__ _ , - " - * " * ~ ' ' * ~ '

APPENDIX E

, DAVIS BESSE 1984 ILRT FUMMARY OF LEAK RATE DATA

/~- .

READINGS TAKEN AT TIME PERIOD : 300 DATE : 12/10/84 l RTD 1 64.3 RTD 11 65.19 RTD 2 64.86 RTD 12 64.86 RTD 3 64.87 RTD 13 65.16 RTD 4 64.62 RTD 14 65.53 RTD 5 64.81 'RTD 15 65.5 -

RTD 6 64.29 RTD 16 65.63 RTD 7 64.86 RTD 17 64.2 RTD 8 64.75 RTD 18 64.94 RTD 9 65 RTD 19 65.21 RTD 10 64.97 RTD 20 66.73 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.9796 IN F

= 524.67 IN R PRESS -1 53.737 PRESS 2 53.718

.( THE AVE PRESSURE IS = 53.7275 PSIA 4

DEWPT 1 49.07 DEWPT 4 49.84 DEWPT 2 49.75 DEWPT 5 48.25 DEWPT 3 48.79 '

i

' THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.1294 THE PWV IS = .17233 PSIA J

THE MASS WEIGHT IS = 780806.625 LBM l

l l

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA i /-

READINGS TAKEN AT TIME PERIOD : 315 DATE : 12/10/84 RTD 1 64.3 RTD 11 65.21 RTD 2 64.8 RTD 12 64.86 RTD 3 64.81 RTD 13 65.16 RTD 4 64.62 RTD 14 65.43 RTD 5 64.81 RTD 15 65.5' RTD 6 64.27 RTD 16 65.71 RTD 7 64.86 RTD 17 64.2 RTD 8 64.75 RTD 1 18 64.94 RTD 9 65 RTD 19 65.15

. RTD 10 65.03 RTD 20 66.76 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.9743 IN.F

= 524.664 IN R l

PRESS -1 53.736 PRESS 2 53.717 lf THE AVE PRESSURE IS = 53.7265 PSIA DEWPT 1 49.07 DEWPT 4 49.88 DEWPT 2 49.93 DEWPT 5 48.37 DEWPT 3 49.03 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.2266 THE PWV IS = .172956 PSIA l

i THE MASS WEIGHT IS = 780790.75 LBM

'S W

l

APPENDIX E l DAVIS BESSE 1984 ILRT  !

SUMMARY

OF LEAK RATE DATA l s~ .

READINGS TAKEN AT TIME PERIOD : 330 DATE : 12/10/84 RTD 1 64.3 RTD 11 65.15 RTD 2 64.8 RTD 12 64.8 RTD 3 64.81 RTD 13 65.16 .

RTD 4 64.62 RTD 14 65.41 l RTD 5 64.81 RTD 15' 65.5 -

RTD 6 64.27 RTD 16 65.76 RTD 7 64.94 RTD 17 64.2 RTD 8 64.75 RTD 18 64.94 RTD 9 65 RTD 19 65.21 RTD 10 64.97 RTD 20 66.76 ,

THE AVE RTD WITH WEIGHTING FACTORS IS = 64.9721 IN F

= 524.662 IN R r

PRESS 1 53.734 PRESS 2 53.715

(j THE AVE PRESSURE IS = 53.7245 PSIA DEWPT 1 49.19 DEWPT 4 49.86 DEWPT 2 49.82 DEWPT 5 48.43 DEWPT 3 48.96 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.2428 THE PWV IS = .173061 PSIA THE MASS WEIGHT IS = 780763.4375 LBM

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

/~

READINGS TAKEN AT TIME PERIOD : 345 DATE : 12/10/84 RTD 1 64.3 RTD 11 65.24 RTD 2 64.74 RTD 12 64.8 RTD 3 64.81 RTD 13 65.11

, RTD 4 64.56 RTD 14 65.47 RTD 5 64.81 -

RTD 15 65.43 RTD 6 64.27 RTD 16 65.72 RTD 7 64.89 RTD 17 64.14 RTD 8 64.75 RTD 18 64.93 RTD 9 64.94 RTD 19 65.21

. RTD 10 64.92 RTD 20 66.63 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.9501 IN F

= 524.64 IN R PRESS -1 53.732 PRESS 2 53.713

(- THE AVE PRESSURE IS = 53.7225 PSIA l

i DEWPT 1 49.15 DEWPT 4 49.88 DEWPT 2 49.9 DEWPT 5 48.19 DEWPT 3 48.93 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.2019 j THE PWV IS = .172796 PSIA i

l THE MASS WEIGHT IS = 780770.75 LBM 1

l

' APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA READINGS TAKEN AT TIME PERIOD : 400 DATE : 12/10/84 RTD 1 64.24 RTD 11 65.18 RTD 2 64.74 RTD 12 64.71 RTD 3 64.75 RTD 13 65.11 RTD 4 64.56 RTD 14 65.38 RTD 5. 64.75 RTD 15 65.43 -

RTD 6 64.27 RTD 16 65.75 RTD 7 64.83 RTD 17 64.07 RTD 8 64.7 RTD 18 64.87 RTD 9 64.94 RTD 19 65.15 RTD 10 64.94 RTD 20 66.57 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.9158 IN F

= 524.606 IN R PRESS 1 53.73 PRESS 2 53.712 h .

THE AVE PRESSURE IS = 53.721 PSIA DEWPT 1 49.15 DEWPT 4 49.71 DEWPT 2 49.95 DEWPT 5 48.57 DEWPT 3 48.98 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.2532 THE PWV IS = .173128 PSIA THE MASS WEIGHT IS = 780795.125 LBM I

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA y,

READINGS TAKEN AT TIME PERIOD : 415 DATE : 12/10/84 RTD 1 64.24 RTD 11 65.09 RTD 2 64.74 RTD 12 64.71 RTD 3 64.81 RTD 13 65.05 RTD 4 64.56 RTD 14 65.4 RTD 5 64.75 RTD 15 65.43 -

RTD 6 64.12 RTD 16 65.63 RTD 7 64.84 RTD 17 64.07 RTD 8 64.7 RTD 18 64.86 RTD 9 64.89 RTD 19 65.21

. RTD 10 64.89 RTD 20 66.64 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.8962 IN F

= 524.586 IN R PRESS 1 53.728 PRESS 2 53.709 f( ' THE AVE PRESSURE IS = 53.7185 PSIA DEWPT 1 49.07 DEWPT 4 49.91 DEWPT 2 49.88 DEWPT 5 48.88 DEWPT 3 48.86 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.278 THE PNV IS = .173288 PSIA THE MASS WEIGHT IS = 780785.375 LBM l

(- -

l l

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA 7

READINGS TAKEN AT TIME PERIOD : 430 DATE : 12/10/84 RTD 1 64.24 RTD 11 65.09 RTD 2 64.74 RTD 12 64.77 RTD 3 64.75 RTD 13 65.05 RTD 4 64.56 RTD 14 65.35 RTD 5 64.75 -

RTD 15 65.43 ,

RTD 6 64.23 RTD 16 65.76 RTD 7 64.77 RTD 17 64.07 RTD 8 64.64 RTD 18 64.86 RTD 9 64.89 RTD 19 65.21 RTD 10 64 96 RTD 20 66.64 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.9031 IN F

= 524.593 IN R PRESS -1 53.725

• PRESS 2 53.707 C- THe ave eRESSuRE IS = 53.716 eSIa l

DEWPT 1 49.11 DEWPT 4 49.86 i

DEWPT 2 50.01 DEWPT 5 48.99 DEWPT 3 49.2 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.3806 THE PWV IS = .173952' PSIA THE MASS WEIGHT IS = 780728.9375 LBM

'N f

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA r

READINGS TAKEN AT TIME PERIOD : 445 DATE : 12/10/84 RTD 1 64.24 RTD 11 64.96 RTD 2 64.68 RTD 12 64.71 RTD 3 64.75 RTD 13 65.05 RTD 4 64.5 RTD 14 65.38 RTD 5 64.7 RTD 15 65.37 RTD 6 64.17 RTD 16 65.71 RTD 7 64.83 RTD 17 64.07 RTD 8 64.64 RTD 18 64.86 RTD 9 64.89 RTD 19 65.15

. RTD 10 64.92 RTD 20 66.57 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.8726 IN F

= 524.563 IN R PRESS -1 53.724 PRESS 2 53.706

( THE AVE PRESSURE IS = 53.715 PSIA DEWPT 1 49.09 DEWPT 4 49.96 DEWPT 2 49.91 DEWPT 5 49.05 DEWPT 3 49.22 4

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.3867 THE PWV IS = .173992 PSIA THE MASS WEIGHT IS = 780759.25 LBM 1

(

l l

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

'O ,

READINGS TAKEN AT TIME PERIOD : 500 DATE : 12/10/84 '

RTD 1 64.18 RTD 11 65.03 RTD 2 64.68 RTD 12 64.71 RTD 3 64.75 RTD 13 64.99 RTD 4 64.5 RTD 14 65.3 RTD 5 64.7 RTD 15 65.37 ~

RTD 6 64.11 RTD 16 65.63 RTD 7 64.81 RTD 17 64.07 RTD 8 64.64 RTD 18 64.78 RTD 9 64.83 RTD 19 65.22 RTD 10 64.86 . RTD 20 66.53 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.8492 IN F 4

= 524.539 IN R PRESS -1 53.721 PRESS 2 53.703 b THE AVE PRESSURE IS = 53.712 PSIA I

DEWPT 1 49.09 DEWPT 4 49.92 DEWPT 2 50.02 DEWPT 5 48.63 DEWPT 3 48.82 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.2622 THE PWV IS = .173186 PSIA i

THE MASS WEIGHT IS =. 780762.125 LBM e

1 1

e s

e

-- - - ,..--.v.. - . , , . - - , . - - - - - , . , - - - - - - , - - - - - - - - , --. . . - - -

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA n '

READINGS TAKEN AT TIME PERIOD : 515 DATE : 12/10/84 RTD 1 64.18 RTD 11 65.09 RTD 2 64.68 RTD 12 64.68 RTD 3 64.7 RTD 13 64.99 RTD 4 64.45 RTD 14 65.18 RTD 5 64.64 RTD 15 65.31 RTD 6 64.09 RTD 16 65.57 RTD 7 64.75 RTD 17 63.99 ,

RTD 8 64.58 RTD 18 64.78 RTD 9 64.83 RTD 19 65.21 i RTD 10 64.86 RTD 20 66.53 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.8191 IN F

= 524.509 IN R PRESS -1 53.719 PRESS 2 53.701

() '

THE AVE PRESSURE IS =

53.71 PSIA i

DEWPT 1 49.15 DEWPT 4 49.86 i DEWPT 2 49.86 DEWPT 5 48.8 DEWPT 3 49.18 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.3341 THE PWV IS = .173651 PSIA THE MASS WEIGHT IS = 780771.125 LBM 4

l i

- _ - . . - -. _ _ . _ - - - _--._i

APPENDIX E DAVIS SESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA p

READINGS TAKEN AT TIME PERIOC : 530 , DATE : 12/10/84 I

RTD 1 64.18 RTD 11 65.03 RTD 2 64.68 RTD 12 64.56 RTD 3 64.7 RTD 13 64.93 l RTD 4 64.45 RTD 14 65.25 RTD 5 64.64 RTD 15 65.31 RTD 6 64.09 RTD 16 65.65 i RTD 7 64.7 RTD 17 63.99 RTD 8 64.58 RTD- 18 64.78 RTD 9 64.83 RTD 19 65.15 RTD 10 64.77 RTD' 20 66.53 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.8039 IN F

= 524.494 IN R PRESS 1 53.717 PRESS 2 53.7

(, THE AVE PRESSURE IS = 53.7085 PSIA DEWPT 1 49.14 DEWPT 4 49.87 DEWPT 2 50.04 DEWPT 5 48.33 DEWPT 3 49.05 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.2638 THE PWV IS = .173196 PSIA 1

i THE MASS WEIGHT IS = 780778.5625 LBM

(,'

I

• I l

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA p ..

READINGS TAKEN AT TIME PERIOD : 545 DATE : 12/10/84

RTD 1 64.12 PTD 11 64.92 RTD 2 64.62 RTD 12 64.56 RTD 3 64.64 RTD 13 64.93 RTD 4 64.39 RTD 14 65.19 RTD 5 64.64 RTD 15 65.25 -

RTD 6 64.17 RTD 16 65.69 RTD 7 64.62 RTD 17 63.93 RTD 8 64.52 RTD 18 64.72 RTD 9 64.77 RTD 19 65.09 RTD 10 64.86 RTD 20 66.44 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.7701 IN F

= 524.46 IN R PRESS 1 53.715 PRESS 2 53.697 THE AVE PRESSURE IS = 53.706 PSIA DEWPT 1 49.09 DEWPT 4 49.92 DEWPT 2 .49.99 DEWPT 5 48.68 DEWPT 3 49.08 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.3093 THE PWV IS = .17349 PSIA THE MASS WEIGHT IS = 780787.9375 LBM l

l

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

. l READINGS TAKEN AT TIME PERIOD : 600 DATE : 12/10/84 l RTD 1 64.12 RTD 11 65.09 RTD 2 64.62 RTD 12 64.62 I RTD 3 64.64 RTD 13 64.93 l RTD 4 64.39 RTD 14 65.15 l 1

RTD 5 64.64 RTD 15 65.25 1 RTD 6 64.11 RTD 16 65.55 RTD 7 64.72 RTD 17 63.93 RTD 8 64.52 RTD 18 64.72 RTD 9 64.77 RTD 19' 65.15 RTD 10 64.74 RTD 20 66.5 .

THE AVE RTD WITH WEIGHTING FACTORS IS = 64.7731 IN-F

= 524.463 IN R J

f PRESS 1 53.714 PRESS 2 53.696

- THE AVE PRESSURE IS = 53.705 PSIA i

1 DEWPT 1 49.11 DEWPT 4 49.97 DEWPT 2 49.99 DEWPT 5 48.42 i DEWPT 3 49.05 I

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.2765 j THE PWV IS = . 173278 PSIA i

THE MAGS WEIGHT IS = 780772.0625 LBM i

1 w'

, , , _ _ . . ,, , , _ . __ _ _,_ , , , . . _ , . . . . . . . . . .-_ ,,_,.,.-_-.-...-...___-__,.,__m_ . . _ . , _ _ , , . _ , . _ , . _ , . , . _ . . . . , . . . , . -

\

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA r~.

READINGS TAKEN AT TIME PERIOD : 615 DATE : 12/10/84 RTD 1 64.12 RTD 11 65 RTD 2 64.62 RTD 12 64.56 RTD 3 64.64 RTD 13 64.93 l RTD 4 64.39 RTD 14 65.09 RTD' - 5 64.58 RTD 15 65.25 RTD 6 64.11 RTD 16 65.49 RT9 7 64.62 RTD 17 63.87 RTD 8 64.52 RTD 18 64.72 RTD 9 64.77 RTD 19 65.15 RTD 10 64.8 RTD 20 66.44 .

THE AVE RTD WITH WEIGHTING FACTORS IS = 64.7492 IN F

= 524.439 IN R 1

PRESS 1 53.712 PRESS 2 53.694

(' THE AVE PRESSURE IS = 53.703 PSIA DEWPT 1 49.13 DEWPT 4 49.93 DEWPT 2 50.01 DEWPT 5 48.8 DEWPT 3 49.03 i

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.3389 THE PWV IS = .173682 PSIA i

THE MASS WEIGHT IS = 780772.4375 LBM i

a e

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

(~~ .

READINGS TAKEN AT TIME PERIOD : 630 DATE : 12/10/84 RTD 1 64.07 RTD 11 65 RTD 2 64.56 RTD 12 64.56 RTD 3 64.58 RTD 13 64.87

RTD 4 64.33 RTD 14 65.24 RTD 5 64.58 ~

RTD 15 65.19 RTD 6 64.11 RTD 16 65.49 6 RTD 7 64.65 RTD 17 63.79 RTD 8 64.46 RTD 18 64.72 RTD 9 64.77 RTD 19 65.15 RTD 10 64.78 RTD 20 66.44 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.7326 IN F l = 524.423 IN R 1

PRESS 1 53.71 PRESS 2 53.693 I THE AVE PRESSURE IS = 53.7015 PSIA 4

i DEWPT 1 49.16 DEWPT 4 49.97 i DEWPT 2 50.01 DEWPT 5 48.37

! DEWPT 3 49.35 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.339 THE PWV IS = .173683 PSIA i

THE MASS WEIGHT IS = 780775.3125 LBM I

I r ks %

i l

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA READINGS TAKEN AT TIME PERIOD : 645 DATE : 12/10/84 RTD 1 64.01 RTD 11 65 RTD 2 64.56 RTD 12 64.56 RTD 3 64.58 RTD 13 64.87 RTP 4 64.33 RTD 14 65.09 RTD 5 64.58 RTD 15 ~ 65.19 -

RTD 6 64.04 RTD 16 65.56 RTD 7 64.58 RTD 17 63.85 RTD 8 64.46 RTD 18 64.67 2

RTD 9 64.71 RTD 19 65.15 RTD 10 64.77 RTD 20 66.37 l

THE AVE RTD WITH WEIGHTING FACTORS IS = 64.7115 IN F

= 524.402 IN R PRESS 1 53.708 PRESS 2 53.689

) (' THE AVE PRESSURE IS = 53.6985 PSIA i

DEWPT 1 49.24 DEWPT 4 50.01 DEWPT 2 49.97 DEWPT 5 48.72 DEWPT 3 49.14 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.3375 i THE PWV IS = .173997 PSIA i l I

THE MASS WEIGHT IS =

~

780758.3125 LBM i i l I

1 i

1

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA READINGS TAKEN AT TIME PERIOD : 700 DATE : 12/10/84 1

l RTD 1 64.01 RTD 11 64.96 '

RTD 2 -64.5 RTD 12 64.56 RTD 3 64.58 RTD 13 64.81 RTD 4 64.33 RTD 14 65.06 RTD 5 64.52 RTD 15 65.19 RTD 6 64.02 RTD 16 65.49 RTD 7 64.68 RTD 17 63.85 RTD 8 64.46 RTD 18 64.61 RTD 9 64.71 3 RTD 19 65.15

. RTD 10 64.65 RTD 20 66.37 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.6903 IN F

= 524.38 IN R PRESS -1 53.706 PRESS 2 53.688

'([ THE AVE PRESSURE IS = 53.697 PSIA DEWPT 1 49.19 DEWPT 4 49.9 DEWPT 2 49.95 DEWPT 5 48.16 DEWPT 3 48.86

• THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.2102 THE PWV IS = .17285 PSIA

) THE MASS WEIGHT IS = 780784.75 LBM i

4

l APPENDIX E ,

DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA READINGS TAKEN AT TIME PERIOD : 715 DATE : 12/10/84 RTD 1 64.01 RTD 11 64.86

, RTD 2 64.5 RTD 12 64.56 RTD 3 64.58 RTD 13 64.81 RTD 4 64.33 RTD 14 65.02 -

RTD 5 64.52 RTD 15 ' 65.19 RTD 6 64.02 RTD 16 65.59 RTD 7 64.56 RTD 17 63.79 RTD 8 64.4 RTD '18 64.67 RTD 9 64.65 RTD 19 65.09 RTD 10 64.77 RTD 20 66.34

THE AVE RTD WITH WEIGHTING FACTORS IS = 64.6783 IN F

= 524.368 IN R PRESS 1 53.705 PRESS 2 53.687

(( ) THE AVE PRESSURE IS = 53.696 PSIA 1

DEWPT.1 49.21 DEWPT 4 49.97 DEWPT 2 49.95 DEWPT 5 48.44 DEWPT 3 49.32 l

} THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.352 j THE PWV IS = .173767 PSIA THE MASS WEIGHT IS = 780774.75 LBM i

l i

(-

i 1 .

~ _.

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

/~. .

READINGS TAKEN AT TIME PERIOD : 730 DATE : 12/10/84 RTD 1 63.95 RTD 11 64.9 RTD 2 64.5 RTD 12 64.5 RTD 3 64.52 RTD 13 64.81 RTD 4 64.27 RTD 14 65.06 RTD 5 64.52 RTD 15 65.-13 RTD 6 64.02 RTD 16 65.46 RTD 7 64.56 RTD 17 63.79 RTD 8 64.4 RTD 18 64.61 RTD 9 64.65 RTD 19 65.09

.RTD 10 64.77 RTD 20 '66.39 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.6591 IN F

= 524.349 IN R PRESS 1 53.703 PRESS 2 53.686

() THE AVE PRESSURE IS = 53.6945 PSIA DEWPT 1 49.09 DEWPT 4 49.99 DEWPT 2 50.09 DEWPT 5 48.44 DEWPT 3 49.13 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.3068 THE PWV IS = .173474 PSIA l

l THE MASS WEIGHT IS = 780785.625 LBM l

O i

l I

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA 1

p- .

. READINGS TAKEN AT TIME PERIOD : 745 DATE : 12/10/84 RTD 1 64.01 RTD 11 64.96 RTD 2 64.5 RTD 12 64.5 RTD 3 64.52 RTD 13 64.81 RTD 4 64.27 RTD 14 65.03

, RTD 5 64.52 RTD 15 65.13 '

RTD 6 64.01 RTD 16 65.53 '

RTD 7 64.56 RTD 17 63.79 RTD 8 64.4 RTD 18 64.61 RTD 9 64.65 RTD 19 65.09 RTD 10 64.65 RTD 20 66.41 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.6612 IN F

= 524.351 IN R i

PRESS 1 53.702 PRESS 2 53.684 l ., ( ) THE AVE PRESSURE IS = 53.693 PSIA i

DEWPT 1 49.21 DEWPT 4 50.01 DEWPT 2 50.02 DEWPT 5 48.37 DEWPT 3 49.13 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.3268 THE PWV IS = .173604 PSIA THE MASS WEIGHT IS = 780758.8125 LBM i

j l

i d

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

(- .

READINGS TAKEN AT TIME PERIOD : 800 DATE : 12/10/84 l

l RTD 1 64.01 RTD 11 64.84 l RTD 2 64.52 RTD 12 64.45 RTD 3 64.52 RTD 13 64.81 RTD 4 64.27 RTD 14 65 i

RTD 5 64.46 RTD 15 65.08 RTD 6 63.95 RTD 16 65.4 l RTD 7 64.56 RTD 17 63.79 RTD 8 64.4 RTD 18 64.61 RTD 9 64.65 RTD 19 65.03 RTD 10 64.68 RTD 5M) 66.32 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.6324 IN F

= 524.322 IN R i

PRESS 1 53.701 PRESS 2 53.683 -

((}- THE AVE PRESSURE IS = 53.692 PSIA i DEWPT 1 49.21 DEWPT 4 50.03 DEWPT 2 50.08 DEWPT 5 48.39 4

DEWPT 3 49.2 l THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.3553 THE PWV IS = . 173788 PSIA I

l THE MASS WEIGHT IS = 780784.375 LBM e

APPENDIX E DAVIS BESSE 1984 ILRT 1

SUMMARY

OF LEAK RATE DATA i

g,.

READINGS TAKEN AT TIME PERIOD : 815 DATE : 12/10/84 RTD 1 64.01 RTD 11 64.8 RTD 2 64.45 RTD 12 64.45 -

RTD 3 64.52 RTD 13 64.75 RTD 4 64.27 RTD 14 65.16

- RTD 5 64.46 -

RTD 15 65.13 RTD 6 63.9 RTD 16 65.52

' RTD 7 64.59 RTD 17 63.73 RTD 8 64.34 RTD 18 64.61 RTD 9 64.65 RTD 19 65.09 RTD 10 64.67 RTD 20 66.34 .

i THE AVE RTD WITH WEIGHTING FACTORS IS = 64.6356 IN F

= 524.326 IN R PRESS 1 53.699 PRESS 2 53.681 -

- (i THE AVE PRESSURE IS = 53.69 PSIA DEWPT 1 49.26 DEWPT 4 50.01 DEWPT 2 50.13 DEWPT 5 48.59 DEWPT 3 49.37 1

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.4388 i

THE PWV IS = . 17433 PSIA i, .

THE MASS WEIGHT IS = 780742.4375 LBM

- ----,-_-,-,,w,,,r,,w, , - ~ nwe v ,,= w

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

,e.

RE.4 DINGS TAKEN AT TIME PERIOD : 830 DATE : 12/10/84 RTD 1 63.95 RTD 11 64.92 RTD 2 64.45 RTD 12 64.45

.RTD 3 64.46 RTD 13 64.75 i RTD 4 64.21 RTD 14 65.02 RTD 5 64.46 RTD 15 65.13 -

RTD 6 63.99 RTD 16 65.52 RTD 7 64.55 RTD 17 63.73 RTD 8 64.4 RTD 18 64.59 RTD 9 64.59 RTD 19 65.03 RTD 10 64.59 RTD.20 66.28 THE AVE RTD WITH WEIGHTING FACTORS IS ~= - 64.6191 IN F i = 524.309 IN R PRESS -1 53.697 PRESS 2 53.68

(? -THE AVE PRESSURE IS = 53.6885 PSIA j DEWPT 1 49.29 DEWPT 4 50.02

DEWPT 2 49.99 DEWPT 5 48.91

) DEWPT 3 49.15 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.442 THE PWV IS = .174351 PSIA THE MASS WEIGHT IS = 780745 LBM l

f .

i

_ _ _ _ _ , _ _ , _ _ _ , , , . , _ _ _ . _ . _ _ ___._,_.r_.__..._

~

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

.r -

IADINGS TAKEN AT TIME PERIOD : 845 DATE : 12/10/84 RTD 1 63.95 RTD 11 64.83 RTD 2 64.45 RTD 12 64.45 RTD 3 64.46 RTD 13 64.75 RTD 4 64.21 RTD 14 65.03  ;

RTD 5 64.46 RTD 15 65.08 '

RTD 6 63.99 RTD 16 65.46 RTD 7 64.45 RTD 17 63.73 RTD 8 64.34 RTD 18 64.53 RTD 9 64.59 RTD 19 65.09 RTD 10 64.65 RTD 20 66.29 .

THE AVE RTD WITH WEIGHTING FACTORS IS = 64.6036 IN F

= 524.294 IN R i

PRESS 1 53.696 PRESS 2 53.678

( THE AVE PRESSURE IS = 53.687 PSIA DEWPT 1 49.18 DEWPT 4 50.08 DEWPT 2 50.09 DEWPT 5 48.64 2

DEWPT'3 49.09 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.3776 THE PWV IS = . 173933 PSIA THE MASS WEIGHT IS = 780752.1875 LBM I

e C

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA rn READINGS TAKEN AT TIME PERIOD : 900 DATE :'12/10/84 i RTD 1 63.95 RTD 11 64.71 RTD 2 64.39 RTD 12 64.45 l RTD 3 64.46 RTD 13 64.7 RTD 4 64.21 RTD 14 64.94 RTD 5 '64. 4 - RTD 15 '65.00 RTD 6 63.83 RTD 16 65.46 RTD 7 64.62 RTD 17 63.66 l RTD 8 64.34 RTD 18 64.53 RTD 9 64.59 RTD 19 65.09 RTD 10 64.61 RTD 20 66.23 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.5774 IN F i = 524.267 IN R

. PRESS 1 53.695 PRESS 2 53.677

'( THE AVE PRESSURE IS = 53.686 PSIA

! DEWPT 1 49.11 DEWPT 4 50.05 DEWPT 2 50.16 DEWPT 5 49.11 '

DEWPT 3 49.2 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.4568 THE PWV IS = . 174447 PSIA l

l THE MASS WEIGHT IS = 780769.25 LBM l

l 1 -

, -----mm+---,----- ---e -- -

p- ,-, - . - - - - - - - - - --,-n. - ,

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA READINGS TAKEN AT TIME PERIOD : 915 DATE : 12/10/84 l

RTD 1 63.89 RTD 11 64.72 RTD 2 64.39 RTD 12 64.33 RTD 3 64.46 RTD ~13 64.7 RTD 4 64.21 RTD 14 65 ~

RTD 5 64.4 RTD 15 65.08 '

RTD 6 63.89 RTD 16 65.46 RTD 7 64.48 RTD 17 64.64 '

RTD 8 64.29 RTD 18 64.48 RTD 9 64.53 RTD 19 65.03 RTD 10 64.59 RTD 20 66.29 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.588 IN F

-- 524.278 IN R PRESS 1 53.694 PRESS 2 53.676

(' THE AVE PRESSURE IS = 53.685 PSIA DEWPT 1 49.38 DEWPT 4 50.1 DEWPT 2 49.88 DEWPT 5 48.8 DEWPT 3 49.19 I

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.4554 i

THE PWV IS = .174438 PSIA i

l THE MASS WEIGHT IS = 780738.9375 LBM l

l g.

\.-

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA r~

READINGS TAKEN AT TIME PERIOD : 930 DATE : 12/10/84 RTD 1 63.89 RTD 11 64.8 1

RTD 2 64.33 RTD 12 64.33 RTD 3 64.46 RTD 13 64.7 RTD 4 64.15 RTD 14 64.94 i RTD 5 64.4 RTD 15 '65.08 i RTD 6 63.82 RTD 16 65.46

RTD 7 64.53 RTD 17 63.64 RTD 8 64.34 RTD 18 64.48 RTD 9 64.52 RTD 19 65.03 RTD 10 64.61 RTD 20 66.23 THE AVE RTD WITH WEIGHTING FACTORS IS =

~

l 64.552 IN F

= 524.242 IN R PRESS 1 53.692 PRESS 2 53.675

(( f THE AVE PRESSURE IS = 53.6835 PSIA i

DEWPT 1 49.26 DEWPT 4 50.08 DEWPT 2 50.23 DEWPT 5 48.83 DEWPT 3 49.13 -

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.4659 THE PWV IS = .174506 PSIA i

i THE MASS WEIGHT IS = 780769.5625 LBM i

l 1

j- l 1

i l

--c- - -- ,, .,,- . . _ - - . - - - - ., ,. . . , . _ _ . , , - . . - - - - _. - -- -- -

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA p v. -

READINGS TAKEN AT TIME PERIOD : 945 DATE : 12/10/84 RTD 1 63.89 RTD 11 64.75 RTD 2 64.39 RTD 12 64.33 RTD 3 64.39 RTD 13 64.e4 RTD 4 64.15 RTD 14 65.02 RTD 5 64.34 RTD 15 65.08 RTD 6 63.86 RTD 16 65.49 RTD 7 64.48 RTD 17 63.64 RTD 8 64.29 RTD 18 64.48 RTD 9 64.52 RTD 19 65.09

.RTD 10 64.67 RTD 20 ~66.2 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.5488 IN F

= 524.239 IN R

, PRESS 1 53.691 PRESS 2 53.673

'( THE AVE PRESSURE IS = 53.682 PSIA i

DEWPT 1 49.2 DEWPT 4 50.09 DEWPT 2 50.12 DEWPT 5 48.81 DEWPT 3 49.32 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.4578 THE PWV IS = .174453 PSIA THE MASS WEIGHT IS = 780753.1875 LBM 1

i

! L. .

,' c , .- , , . - - - - - ,

. - . , . - - , ,e v. , , . , - -

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA J

r*,

!- READINGS TAKEN AT TIME PERIOD : 1000 DATE : 12/10/84 i RTD 1 63.89 RTD 11 64.86 12 RTD 2 64.33 RTD 64.33 RTD 3 64.39 RTD 13 64.64 RTD 4 64.15 RTD 14 64.94

~

RTD 5 64.34 -

RTD 15 65.02 RTD 6 63.86 RTD 16 65.43 RTD 7 64.42 RTD 17 63.64 RTD 8 64.29 RTD 18 64.48 RTD 9 64.52 RTD 19 65.02 RTD 10 64.5. RTD 20 66.2 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.5264 IN F

= 524.216 IN R i

PRESS 1 53.689 PRESS 2 53.672

([')

THE AVE PRESSURE IS = 53.6805 PSIA 1

i DEWPT 1 49.21 DEWPT 4 50.08 DEWPT 2 50.18 DEWPT 5 49.08 DEWPT 3 49.03 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.4649 THE PWV IS = .174499 PSIA THE MASS WEIGHT IS = 780764.1875 LBM i

L.-

i I

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

APPENDIX E DAVIS BESSE 1934 ILRT s: u

SUMMARY

OF LEAK RATE DATA i

READINGS TAKEN AT TIME PERIOD : 1015 DATE : 12/10/84 L

RTD 1 63.89 RTD 11 64.71 RTD 2 64.33 RTD 12 64.33 RTD 3 64.39 RTD 13 64.64 RTD 4 64.09 RTD 14 64.9 RTD 5 64.34 RTD 15 65.02 -

RTD 6 63.8 RTD 16 65.35 RTD 7 64.42 RTD 17 63.58 RTD 8 64.29 RTD 18 64.48 RTD 9 64.52 RTD 19 65.02 RTD 10 64.56 RTD .20 66.26 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.5085 IN F

= 524.198 IN R PRESS 1 53.688 PRESS 2 53.67

, ( THE AVE. PRESSURE IS = 53.679 PSIA s

3 , DEWPT 1 49.24 DEWPT 4 7 50.07 DEWPT 2 50.04 DEWPT 5 49.15 DEWPT 3 49.27 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.5016 THE PWV IS = .174739 PSIA ,

I i

THE MASS WEIGHT IS = 780765.375 LBM l l

i d'

l l

r

APPENDIX E 1 DAVIS BESSE 1984 ILRT 4

SUMMARY

OF LEAK RATE DATA i ,-

READINGS TAKEN AT TIME PERIOD : 1030 DATE : 12/10/84 RTD 1 63.83 RTD 11 64.89 RTD 2 64.33 RTD 12 64.39 RTD 3 64.39 RTD 13 b4.64

~

RTD 4 64.09 RTD 14 64.81 RTD 5 64.34 RTD 15 65.02 RTD 6 63.85 RTD 16 65,43 RTD 7 64.37 RTD 17 63.583 RTD 8 64.23 RTD 18 64.48 RTD 9 64.52 RTD 19 63.02 RTD 10 64.45 RTD 20 66.15 .

THE AVE RTD WITH WEIGHTING FACTORS IS = 64.5051 IN F

= 524.195 IN R PRESS 1 53.688 PRESS 2 53.67

,(

, THE AVE PRESSURE IS = 53.679 PSIA DEWPT 1 49 . 27 DEWPT 4 50.03 DEWPT 2 50.23 DEWPT 5 48.98

, DEWPT 3 49.2 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.4975 THE PWV IS = .174712 PSIA THE MASS WEIGHT IS = 780770.75 LBM

/

- . . - ,7--- -r

4 APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA l READINGS TAKEN AT TIME PERIOD : 1045 DATE : 12/10/84 RTD 1 63.83 RTD 11 64.78 RTD 2 64.27 RTD 12 64.27 RTD 3 64.33 RTD 13 64.64 RTD 4 64.09 RTD 14 64.92 RTD 5' 64.29 RTD 15 65.02 RTD 6 63.7 RTD 16 65.49 4 RTD 7 64.43 RTD 17 63.85 RTD 8 64.23 RTD 18 64.42 RTD 9 64.45 RTD 19 65.02 '

RTD 10 64.45 RTD 20 66.2 .

THE AVE RTD WITH WEIGHTING FACTORS IS = 64.4905 IN F

= 524.18 IN R PRESS 1 53.687 PRESS 2 53.669

, (_) THE AVE PRESSURE IS = 53.678 PSIA l

l DEWPT 1 49.22 DEWPT 4 50.07 DEWPT 2 50.21 DEWPT 5 49.11 DEWPT 3 49.27 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.5171 THE PNV IS = .174839 PSIA THE MASS WEIGHT IS = 780776.125 LBM i

E

\_ .

_ -- - - - - +

l APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

t. -

READINGS TAKEN AT TIME PERIOD : 1100 DATE : 12/10/84 RTD 1 63.83 RTD 11 64.81 RTD 2 64.33 RTD 12 64.27 RTD 3 64.31 RTD 13 64.58 RTD 4 64.09 RTD 14 64.9 RTD 5 64.34 RTD 15 65.02 RTD 6 63.82 RTD 16 65.37 RTD 7 64.42 RTD 17 63.52 RTD 8 64.23 RTD 18 64.42 RTD 9 64.45 RTD 19 65.02 RTD 10 64.45 RTD 20 66.13 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.4808 IN F

= 524.171 IN R PRESS -1 53.685 PRESS 2 53.668

() THE AVE PRESSURE IS = 53.6765 PSIA DEWPT 1 49.27 DEWPT 4 50.12 DEWPT 2 50.05 DEWPT 5 48.39

, DEWPT 3 49.27 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.3969 THE PWV IS = .174058 PSIA THE MASS WEIGHT IS = 780780.125 LBM k

l .J t

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

/~,

READINGS TAKEN AT TIME PERIOD : 1115 DATE : 12/10/84 RTD 1 63.83 RTD 11 64.74 RTD 2 64.33 RTD 12 64.33 RTD 3 64.31 RTD 13 64.58 RTD 4 64.09 RTD 14 64.9 RTD 5 64.34 RTD 15 64'.96 -

RTD 6 63.74 RTD 16 65.43 RTD 7 64.36 RTD 17 63.52 RTD 8 64.23 RTD 18 64.42 RTD 9 64.46 RTD 19 64.96

. RTD 10 64.5 RTD 20 66.13 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.4739 IN F

= 524.164 IN R PRESS 1 53.685 PRESS 2 53.667

( ,. THE AVE PRESSURE IS = 53.676 PSIA DEWPT 1 49.27 DEWPT 4. 50.14 DEWPT 2 50.13 DEWPT 5 48.66 DEWPT 3 49.54 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.5036 I THE PWV IS = .174752 PSIA I

I THE MASS WEIGHT IS = 780773 LBM

APPENDIX E i DAVIS BESSE 1984 ILRT l

SUMMARY

OF LEAK RATE DATA '

(",

READINGS TAKEN AT TIME PERIOD : 1130 DATE : 12/10/84 RTD 1 63.83 RTD 11 64.59 RTD 2- 64.33 RTD 12 64.29 RTD 3 64.37 RTD 13 64.58 RTD 4 64.09 RTD 14 64.84 RTD 5 64.34 RTD 15 65.02

~

RTD 6 63.82 RTD 16 65.43 RTD 7 64.42 RTD 17 63.52 RTD 8 64.23 RTD 18 64.42 RTD 9 64.46 RTD 19 64.97 RTD 10 64.49 RTD 20. 66.13 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.4742 IN F

= 524.164 IN R PRESS 4 53.684 PRESS 2 53.666 l THE AVE PRESSURE IS = 53.675 PSIA DEWPT 1 49.3 DEWPT 4 50.12 DEWPT 2 50.08 DEWPT 5 48.65 DEWPT 3 49.32 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.4631 THE PWV IS = .174488 PSIA i

THE MASS WEIGHT IS = 780761.75 LBM i

kai

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA f.

1 READINGS TAKEN AT TIME PERIOD : 1145 DATE : 12/10/84 RTD 1 63.83 RTD 11 64.8 '

RTD 2 64.27 RTD 12 64.27 RTD 3 64.31 RTD 13 64.58 RTD 4 64.09 RTD 14 64.86 ,

RTD 5- 64.29 RTD 15 64.96 RTD 6 63.82 RTD 16 65.43 RTD 7 64.34 RTD 17 63.58 RTD 8 64.23 RTD 18 64.42 RTD 9 64.46 RTD 19 65.03 RTD 10 64.45 . RTD 20 66.19 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.4721 IN F

= 524.162 IN R PRESS 1 53.682 PRESS 2 53.664

(: THE AVE PRESSURE IS = 53.673 PSIA DEWPT 1 49.29 DEWPT 4 50.18 DEWPT 2 50.2 DEWPT 5 48.82 DEWPT 3 49.57 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.56 THE PWV IS = .175119 PSIA THE MASS WEIGHT IS = 780726.4375 LBM i

1

. l k..-

1 l l

APPEND 14 E DAVIG BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA -

READINGS TAKEN AT TIME PERIOD : 1200 DATE : 12/10/84 RTD 1 63.77 RTD 11 64.75 RTD 2 64.27 RTD 12 64.27 RTD 3 64.31 RTD 13 64.58 RTD 4 64.04 RTD 14 64.75 RTD 5 64.29 RTD 15 - 64.96 RTD 6 63.71 RTD 16 65.43 RTD 7 64.3 RTD 17 63.45 RTD 8 64.23 RTD 18 64.42 RTD 9 64.46 RTD 19 64.97 RTD 10 64.56 RTD 20. 66.09 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.4463 IN F

= 524.136 IN R PRESS 1 53.681 PRESS 2 53.664

.( THE AVE PRESSURE IS = 53.6725 PSIA DEWPT 1 49.35 DEWPT 4 50.13 DEWPT 2 50.27 DEWPT 5 49.18 DEWPT 3 49.43 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.619 THE PWV IS = . 175505 PSIA THE MASS WEIGHT IS = 780752.0625 LBM

\ ,'

l

• , . , +

w - - . - - - -

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA

?"' .

READINGS TAKEN AT TIME PERIOD : 1215 DATE : 12/10/84 RTD 1 63.77 RTD 11 64.77 RTD 2 64.21 RTD 12 64.27 l RTD 3 64.31 RTD 13 64.58 RTD 4 64.04 RTD 14 64.84 l RTD 5 64.29 RTD 15 64.96 -

l RTD 6 63.71 RTD 16 65.46 RTD 7 64.37 RTD 17 63.51 RTD 8 64.17 RTD 18 64.42

• RTD 9 64.46 RTD 19 65.03 RTD 10 64.45 RTD 20 66.1

• THE AVE RTD WITH WEIGHTING FACTORS IS = 64.4486 IN F

= 524.139 IN R PRESS 1 53.68 PRESS 2 53.663 eh

. THE AVE PRESSURE IS = 53.6715 PSIA DEWPT 1 49.31 DEWPT 4 50.34 DEWPT 2 50.02 DEWPT 5 49.21 DEWPT 3 49.33 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.5859 THE PWV IS = .175288 PSIA THE MASS WEIGHT IS = 780737.125 LBM O

I -

b.-

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA (4 .

READINGS TAKEN AT TIME PERIOD : 1230 DATE : 12/10/84 RTD 1 63.77 RTD 11 64.7 RTD 2 64.21 RTD 12 64.27 RTD 3 64.31 RTD 13 64.52 RTD 4 64.04 RTD 14 64.78 RTD 5 '6'4.:29 RTD 15 64.96 RTD 6 63.66 RTD 16 65.46 RTD 7 64.37 RTD 17 63.45

'RTD 8 64.17 RTD 18 64.36 RTD 9 64.4 RTD 19 64.97 RTD 10 64.33 RTD 20 66.09 .

THE AVE RTD WITH WEIGHTING FACTORS IS = 64.4198 IN F

= 524.11 IN R PRESS 1 53.679 PRESS 2 53.661

(( . - THE AVE PRESSURE IS = 53.67 PSIA DEWPT 1 49.44 DEWPT 4 50.14 DEWPT 2 50.19 DEWPT 5 48.9 DEWPT 3 49.21 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.5541 THE PWV IS = .175081 ' PSIA THE MASS WEIGHT IS = 780761.187'5 LBM 5

l I I

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF LEAK RATE DATA s- , j READINGS TAKEN AT TIME PERIOD : 1245 DATE : 12/10/84 i

i RTD 1 63.77 RTD 11 64.71 RTD 2 64.29 RTD 12 64.21 RTD 3 64.26 RTD 13 64.52 RTD 4 64.04 RTD 14 64.84 RTD 5 64.29 RTD 15 64.96 RTD 6 63.79 RTD 16 65.4 17 RTD 7 64.33 RTD 63.52 RTD 8 64.17 RTD 18 64.36 RTD 9 64.4 RTD 19 64.97 RTD 10 64.45 RTD 20 66.09 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.4326 IN F

= 524.123 IN R PRESS -1 53.678 PRESS 2 53.66 I, THE AVE PRESSURE IS = 53.669 PSIA i

DEWPT 1 49.32 DEWPT 4 50.41 DEWPT 2 50.13 DEWPT 5 48.96 DEWPT 3 49.42 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.5935 THE PWV IS = .175338 PSIA THE MASS WEIGHT IS =

780723.6875 LBM

, e *

~

I APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VERIFICATION DATA

([' READINGS TAKEN AT TIME PERIOD : 1400 DATE : 12/10/84 RTD 1 63.71 RTD 11 64.75 RTD 2 64.18 RTD 12 64.2 i RTD 3 64.29 RTD 13 64.46 RTD 4 63.98 RTD 14 64.68 RTD 5 ,64.23 RTD 15 64.9 l' RTD 6 63.68 RTD 16 65.34' RTD 7 64.3 RTD 17 63.41 RTD 8 64.11 RTD 18 64.3 RTD 9 64.34 RTD 19 64.97 RTD 10 64.33 RTD 20 66.07 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.3752 IN F

=, 524.065 IN R 1

PRESS 1 53.663 -

PRESS 2 53.646 x.

THE AVE PRESSURE IS = 53.6545 PSIA

.DEWPT 1 49.44 DEWPT 4 50.23 DEWPT 2 50.24 DEWPT 5 48.91 DEWPT 3 49.42 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.6145 THE PWV IS = .175475 PSIA THE MASS WEIGHT IS = 780595.5625 LBM 1

w - - - , - , - - - ,, - - - - . - . , . , - -

1 APPENDIX E DAVIS BESSE 1984 ILRT I

SUMMARY

OF VERIFICATION DATA I t". l READINGS TAKEN AT TIME PERIOD : 1415 DATE :' 12/10/84

(

RTD 1 63.71 RTD 11 64.56 RTD 2 64.18 RTD 12 64.09 RTD 3 64.21 RTD 13 64.46 RTD 4 63.98 RTD 14 64.83 RTD 5 64.23 "RTD 15 64.9 RTD 6 63.64 RTD 16 65.37 RTD 7 64.24 RTD 17 63.41 RTD 8 64.05 RTD 18 64.3 RTD 9 64.34 RTD 19 65.03 RTD 10 64.36 RTD 20 66.01 THE AVE RTD WITH WEIGHTING FACTORS 10 = 64.3559 IN F

= 524.046 IN R PRESS '-1 53.659 PRESS 2 53.642

.(j THE AVE PRESSURE IS = 53.6505 PSIA 1

DEWPT 1 49.46 DEWPT 4 50.21 DEWPT 2 50.21 DEWPT 5 49.09 DEWPT 3 49.35 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.6305

! THE PWV IS = .175579 PSIA l

l THE MASS WEIGHT IS = 780564.5625 LBM e

l

. . . .m- - -,s. - . e - --

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VERIFICATION DATA 4'

READINGS TAKEN AT TIME PERIOD : 1430 DATE : 12/10/84 RTD 1 63.71 RTD 11 64.62 RTD 2 64.2 RTD 12 64.15 RTD 3 64.15 RTD 13 64.46 RTD 4 63.98 RTD 14 64.78 RTD 5 64.17 RTD 15 64.84 RTD 6 63.71 RTD 16 65.4 RTD 7 64.2 RTD 17 63.41 RTD 8 64.11 RTD 18 64.3 RTD 9 64.34 RTD 19 65.03

. RTD 10 64.3 RTD 20 65.98 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.3536 IN F

= 524.044 IN R PRESS *1 53.657 PRESS 2 53.639

(. THE AVE PRESSURE IS = 53.648 PSIA DEWPT 1 49.42 DEWPT 4 50.24 DEWPT 2 50.23 DEWPT 5 48.91 DEWPT 3 49.32 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.5908 THE PWV IS = .17532 PSIA THE MASS WEIGHT IS = 780535.125 LBM l

4

\/'

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VERIFICATION DATA

,s READINGS TAKEN AT TIME PERIOD : 1445 DATE : 12/10/84 l

l RTD 1 63.71 RTD 11 64.53 RTD 2 64.14 RTD 12 64.21 RTD 3 64.15 RTD 13 64.46 RTD 4 63.92 RTD 14 64.84 RTD 5 64.17 ~ RTD 15 64.B4 RTD 6 63.6 RTD 16 65.41 RTD 7 64.2 RTD 17 63.29 RTD 8 64.05 RTD 18 64.3 RTD 9 64.34 RTD 19 64.97 RTD 10 64.37 RTD 20 66 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.3383 IN F

= 524.028 IN R PRESS -1 53.654 PRESS 2 53.636 (f THE AVE PRESSURE IS = 53.645 PSIA EEWPT 1 49.41 DEWPT 4 50.24 DEWPT'2 50.29 DEWPT 5 48.86 DEWPT 3 49.54 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.6266

~THE PWV IS = .175554 PSIA THE MASS WEIGHT IS = 780510.8125 LBM I

g:

~ - , - -- >-'m, -

---+-v-- -

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VERIFICATION DATA g- .

READINGS TAKEN AT TIME PERIOD : 1500 DATE : 12/10/84 )

i l

i i

i RTD 1 63.71 RTD 11 64.5  :

RTD 2 64.2 RTD 12 64.18 RTD 3 64.21 RTD 13 64.46 '

RTD 4 '

63.98 RTD 14 64.67 RTD 5 64.17 RTD 15 64.84 -

RTD 6 63.66 RTD 16 65.43 RTD 7 64.31 RTD 17 63.35 RTD 8 64.05 RTD 18 64.3 RTD 9 64.34 RTD 19 64.97 RTD 10 64.37 RTD 20 65.96 .

THE AVE RTD WITH WEIGHTING FACTORS IS = 64.3475 IN F o 524.038 IN R PRESS 1 53.651 PRESS 2 53.634 i, THE AVE PRESSURE IS = 53.6425 PSIA DEWPT 1 49.37 DEWPT 4 50.25 DEWPT 2 50.34 DEWPT 5 48.38 DEWPT 3 49.47 .

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.5328 THE PWV IS = .174942 PSIA THE MASS WEIGHT IS = 780469.5 LBM

! c j

i

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VERIFICATION DATA

(,

READINGS TAKEN AT TIME PERIOD : 1515 DATE : 12/10/84 RTD 1 63.71 RTD 11 64.61 RTD 2 64.14 RTD 12 64.15 RTD 3 64.21 RTD 13 64.4 RTD 4 63.92 RTD 14 64.77 RTD 5 64.17 RTD 15 64.84 '

RTD 6 63.54 RTD 16 65.34 RTD 7 64.26 RTD 17 63.35 RTD 8 64.05 RTD 18 64.23 RTD 9 64.34 RTD 19 64.97 RTD 10 64.36 RTD 20 66.06 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.3335 IN F

= 524.023 IN R E

PRESS 1 53.648 PRESS 2 53.63 THE AVE PRESSURE IS = 53.639 PSIA DEWPT 1 49.44 DEWPT 4 50.3 DEWPT 2 50.36 DEWPT 5 48.76 DEWPT 3 49.42 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.6216 THE PWV IS = .175522 PSIA THE MASS WEIGHT IS = 780430.75 LBM s

l l

l

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VERIFICATION DATA r

READINGS TAKEN AT TIME PERIOD : 1530 DATE : 12/10/84 RTD 1 63.66 RTD 11 64.53 RTD 2 64.14 RTD 12 64.09 RTD 3 64.15 RTD 13 64.4 RTD 4 63.92 RTD 14 64.71 RTD 5 64.17 -

RTD 15 64.'84 RTD 6 63.55 RTD 16 65.4 RTD 7 64.21 RTD 17 63.41 RTD 8 64.05 RTD 18 64.23 RTD 9 64.29 RTD 19 64.97

. RTD 10 64.33 RTD 20 66.01 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.3131 IN F

= 524.003 IN R l PRESS 1 53.644 PRESS 2 53.627 l( THE AVE PRESSURE IS = 53.6355 PSIA DEWPT 1 49.46 DEWPT 4 50.27 DEWPT 2 50.26 DEWPT 5 49.18 DEWPT 3 49.44 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.6787 THE PWV IS = .175896 PSIA THE MASS WEIGHT IS = 780404.5625 LBM k/

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VERIFICATION DATA READINGS TAKEN AT TIME PERIOD : 1545 DATE : 12/10/84 1

RTD 1 63.66 RTD 11 64.55 RTD 2 64.14 RTD 12 64.09 RTD 3 64.15 RTD 13 64.4 RTD 4 63.92 -

RTD 14 64.71 RTD 5 64.17 RTD 15 64.84 -

RTD 6 63.67 RTD 16 65.34 RTD 7 64.14 RTD 17 63.29 RTD 8 64.05 RTD 18 64.23 RTD 9 64.29 RTD 19 64.97 l RTD 10 64.33 RTD 20 66 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.3099 IN F

= 524 IN R PRESS 1 53.642 PRESS 2 53.624 THE AVE PRESSURE IS = 53.633 PSIA I

i

! DEWPT 1 49.41 DEWPT 4 50.19 DEWPT 2 50.41 DEWPT 5 48.92 DEWPT 3 49.37 l

l THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.6198 THE PWV IS = .17551 PSIA I

i l

l THE MASS WEIGHT IS = 780378.5 LBM

(.-

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VERIFICATION DATA I

(~.

READINGS TAKEN AT TIME PERIOD : 1600 DATE : 12/10/84 RTD 1 63.66 RTD 11 64.45 RTD 2 64.14 RTD 12 64.09 RTD 3 64.15 RTD 13 64.4 RTD 4 63.92 RTD 14 64.78 -

RTD 5 64.17 RTD 15 64.84 RTD 6 63.61 RTD 16 65.4 RTD 7 64.2 RTD 17 63.35 RTD 8 64.05 RTD 18 64.23 RTD 9 64.29 RTD 19 64.97 RTD 10 . 64.27 RTD 20 66 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.3095 IN F

= 523.999 IN R PRESS -1 53.639 PRESS 2 53.621 sh THE AVE PRESSURE IS = 53.63 PSIA DEWPT 1 49.42 DEWPT 4 50.31 DEWPT 2 50.36 DEWPT 5 49.03 DEWPT 3 49.19 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.622 THE PWV IS = .175524 PSIA -

THE MASS WEIGHT IS = 780335.1875 LBM l

l l

l (,

1 l

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VERIFICATION DATA f~ .

READINGS TAKEN AT TIME PERIOD : 1615 DATE : 12/10/84 RTD 1 63.66 RTD 11 64.65 RTD 2 64.14 RTD 12 64.09 RTD 3 64.15 RTD 13 64.4 RTD 4 63.92 RTD 14 64.67 RTD 5 64.17 RTD. 15 64.84 RTD 6 63.61 RTD 16 65.4 RTD 7 64.21 RTD 17 63.35 RTD 8 64.05 RTD 18 64.23 RTD 9 64.29 RTD 19 65.03 RTD 10 64.27 . RTD 20 65.93 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.3153 IN F

= 524.005 IN R PRESS -1 53.635 PRESS 2 53.619 I THE AVE PRESSURE IS = 53.627 PSIA DEWPT 1 49.54 DEWPT 4 50.3 DEWPT 2 50.51 DEWPT 5 48.83 DEWPT 3 49.18 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.6513 THE PWV IS = .175716 PSIA t

THE MASS WEIGHT IS = 780279.875 LBM l

I l

l APPENDIX E  !

DAVIS BESSE 1984 ILRT l

SUMMARY

OF VERIFICATION DATA s- ,

READINGS TAKEN AT TIME PERIOD : 1630 DATE : 12/10/84 RTD 1 63.66 RTD 11 64.5 RTD 2 64.14 RTD 12 64.04 RTD 3 64.15 RTD 13 64.4 RTD 4 63.92 RTD 14 64.71 7 RTD 5 64.11 -RTD 15 64.77 RTD 6 63.61 RTD 16 65.4 RTD 7 64.15 RTD 17 63.35 RTD 8 64.05 RTD 18 64.23 RTD 9 64.29 RTD 19 64.97 <

RTD 10 64.27 RTD 20 65.93 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.294 IN F

= 523.984 IN R

~

PRESS 1 53.632 PRESS 2 53.615

, ( THE AVE PRESSURE IS = 53.6235 PSIA DEWPT 1 49.44 DEWPT 4 50.29 DEWPT 2 50.34 DEWPT 5 48.33 DEWPT 3 49.42 ,

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.5461 THE PWV IS = .175029 PSIA i

THE MASS WEIGHT IS = 780270.5 LBM i Y:

l

+-.

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VERIFICATION DATA p.

READINGS TAKEN AT TIME PERIOD : 1645 DATE : 12/10/84 RTD 1 63.6 RTD 11 64.48 RTD 2 64.14 RTD 12 64.09 RTD 3 64.15 RTD 13 64.4 RTD 4 63.92 RTD 14 64.71 RTD 5 64.11 RTD 15 64.77 -

RTD 6 63.6 RTD 16 65.4 RTD 7 64.15 RTD 17 63.35 RTD 8 63.99 RTD 18 64.23 RTD 9 64.23 RTD 19 64.97 RTD ,

10 64.21 RTD 20 65.93 .

THE AVE RTD WITH WEIGHTING FACTORS IS = 64.2817 IN F

. = 523.972 IN R PRESS 1 53.629 PRESS 2 53.612 d THE AVE PRESSURE IS = 53.6205 PSIA DEWPT 1 49.41 DEWPT 4 50.27 DEWPT 2 50.38 DEWPT 5 48.5 DEWPT 3 49.66 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.608 THE PWV IS = .175433 PSIA l THE MASS WEIGHT IS = 780239.125 LBM l

l

/

/

s

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VEP'FICATION DATA r"; .

READINGS TAKEN AT TIME PERIOD : 1700 DATE : 12/10/84 RTD 1 63.66 R TD 11 64.49 RTD 2 64.07 RTD 12 64.07 RTD 3 64.14 RTD 13 64.34 RTD 4 63.86 RTD 14 64.62 RTD 5 64.11' RTD 15 64.77 RTD 6 63.58 RTD 16 65.41 1 RTD 7 64.15 RTD 17 63.35 RTD 8 63.99 RTD 18 64.23 RTD 9 64.23 RTD 19 64.97 RTD 10 64.18 RTD. 20 65.88 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.2652 IN F

= 523.955 IN R PRESS 1 53.626 PRESS 2 53.609

( THE AVE PRESSURE IS = 53.6175 PSIA .

DEWPT 1 49.44 DEWPT 4 50.36

. DEWPT 2 50.24 DEWPT 5 48.14 DEWPT 3 49.32 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.4926 THE PWV IS = .17468 PSIA l

THE MASS WEIGHT IS = 780231 LBM i

\

i e  :

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VERIFICATION DATA

(- .

READINGS TAKEN AT TIME PERIOD : 1715 DATE : 12/10/84 RTD 1 63.66 RTD 11 64.48 RTD 2 64.12 RTD 12 64.04 RTD 3 64.14 RTD 13 64.34

, RTD 4 63.92 RTD 14 64.7 RTD 5 64.11 RTD f5 64.77 RTD 6 63.58 RTD 16 65.37 RTD 7 64.15 RTD 17 63.35 RTD 8 63.99 RTD 18 64.23 RTD 9 64.23 RTD 19 64.97 *

, RTD 10 64.26 RTD 20 65.87 .

THE AVE RTD WITH WEIGHTING FACTORS IS = 64.2753 IN F'

= 523.965 IN R i'

PRESS 1 53.623 PRESS 2 53.607 .

4

(! THE AVE PRESSURE IS = 53.615 PSIA DEWPT 1 49.49 DEWPT 4 50.36 DEWPT 2 50.29 DEWPT 5 48.74 DEWPT 3 49.33 l

THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.6178 THE PWV IS = .175497 PSIA I

I THE MASS WEIGHT IS = 780167.5625 LBM i

Ff

APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VERIFICATION DATA r~.

READINGS TAKEN AT TIME PERIOD : 1730 DATE : 12/10/84 RTD 1 63.66 RTD 11 64.5 RTD 2 64.07 RTD 12 64.04 1 RTD 3 64.08 RTD 13 64.34 l RTD 4 63.86 RTD 14 64.62 l RTD 5 64.11 RTD 15 64.77 '

RTD 6 63.52 RTD 16 65.37 RTD 7 64.15 RTD 17 63.35 RTD 8 63.79 RTD 18 64.23 RTD 9 64.23 RTD 19 64.92 RTD 10 64.27 RTD 20 65.88 .

THE AVE RTD WITH WEIGHTING FACTORS IS = 64.2588 IN F

= 523.949 IN R s

^ '

PRESS 1 53.62 PRESS 2 53.604

'f '

g THE AVE PRESSURE IS = 53.612 PSIA I

DEWPT 1 49.48 DEWPT 4 50.32

DEWPT 2 50.42 DEWPT 5 47.52 DEWPT 3 49.54 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.4653 THE PNV IS = .174503 PSIA 4

THE MASS WEIGHT IS = 780162.6875 LBM -

I k

l

t-t '

APPENDIX E DAVIS BESSE'1984 ILRT

SUMMARY

OF VERIFICATION DATA 4

READINGS TAKEN AT TIME PERIOD : 1745 DATE : 12/10/84

~

RTD 1 63.6 RTD 11 64.64

. RTD 2 64.05 RTD 12 64.04 RTD 3 64.12 RTD 13 64.34

! RTD 4 63.86 RTD 14 64.55 -

~

l RTD 5 64.11 RTD. 15 64.77 -

RTD 6 63.55 RTD 16 65.31 RTD 7 64.09 RTD 17 63.29 RTD 8 63.99 RTD 18 64.23 RTD 9 64.29 s RTD 19 ed.97 RTD 10 64.2 RTD 20 65.9 THE AVE RTD WITH WEIGHTING FACTORS IS = 64.2558 IN F

== 523.946 IN R FPESS 1 53.617 PRESS 2 53.601 j

.h THE AVE PRESSURE IS =

s 53.609 PSIA DEWPT 1 49.42 '

DEWPT 4 50.34 DEWPT 2 50.34 DEWPT 5 48.54 DEWPT 3 49.38 THE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.5753 THE PWV IS = .175219 PSIA l

THE MASS WEIGHT IS = 780113 LBM i

6

(., .

i

\ >.

N APPENDIX E DAVIS BESSE 1984 ILRT

SUMMARY

OF VERIFICATION DATA f'

READINGS TAKEN AT TIME PERIOD : 1800 DATE : 12/10/84 I

RTD 1 63.6 RTD 11 64.64 RTD 2 64.05 RTD 12 63.98 RTD 3 64.12 RTD 13 64.34 RTD 4 63'.86 RTD 14 64.53

• RTD 5 64.11 RTD 15 64.77' RTD 6 63.55 RTD 16 65.24 RTD 7 64.09 RTD 17 63.23 RTD 8 63.99 RTD 18 64.17 RTD 9 64.23 RTD 19 64.99

. RTD 10 64.18 RTD 20 65.82 TH" AVE RTD WITH WEIGHTING FACTORS IS = 64.2378 IN F l

= 523.928 IN R PRESS -1 53.614 PRESS 2 53.598

'( THE. AVE PRESSURE IS = 53.606 PSIA DEWPT 1 49.55 DEWPT 4 50.27 DEWPT 2 50.41 DEWPT 5 47.74 DEWPT 3 49.62 T.HE AVE DEWPOINT WITH WEIGHTING FACTORS IS = 49.5284 j THE PWV IS = .174913 PSIA i

f THE MASS WEIGHT IS = 780100.5 LBM l

L.-

l 1

r APPENDIX F TYPE B AND C LEAKAGE RATE HISTORIES 4

C .

4 I

l Q..

Gdbart/Commennesith

t - - - - - - __ . - T-------'

! DATE: 1980- CONTAINHEN1 VESSEL IDCAL 1.EAK NATE TEST Page 1 *

~

~~ 1982 ST 5061.02 l ADDITIONAL TESTS Pxnt No Valve Leakage Pent Leakage Valves As Left As Left SCCH Comments SCCtl 43B CV'2011 E O O 10-6-80 44B Nil 5fl 1000 1000 7-11-P0 67 CV 210 370 370 7-30-80 Emergency Lock 80 (Volumetric) 0 0 11-10-80 Emergency Lock

, 80 (Volumetric) 0 0 5-12-81 Emergency I.ock 80 (Volumetrie) 0 0 9-11-81 Personnel leck 81 (Volumetric) 447 447 12-11-80 Personnel Lock 81 (Volumetric) 791 791 5-29-81 Perannnel lock

. 81 (Volumetric) 800 800 10-12-81 i 82 Equipment llatch 50 50 9-29-80 s

, 82 Equipment fla t ch 0 0 1-25-81 82 Equipment Ilatch 0 0 4-20-8I 82 Equipment lia s ch 0 0 7-14-81 APPENDIX F ,

l1 \l' \

> 11lliIl1 jl1l i ol

~

r J

F -

2 X

Y D _

e N E -

g a P P P A

s t

n e

m m

o T C S

E T

E T e A 1 R 8 1 1 _

K

- 8 8 8 - -

A 2 8 8 E - 2 2 L l - -

I 1 1 L

. A

. C _

_. LO S .

T _

S L2E E

S 0. T e S1 L g a 0 0 0 E6A hV0N T 5O I

k t af ee NTT LLH ESI C H D t sC _

N D nAS e

I A A P

, T

N .

O C

. 2 8 e g

0 a 8 k 0 0 0 at

• 91 ef o

L e

. E LH

. T e C A vsC l AS

.D a V

~

e.. n o

h i t c t t s t a a e a r r v H t t l e e a t n n V n e e

- ~

^

e o

p P

t P

t I

c c u e e q l l E E E o

N

_ t n 2 2 0

1 e 8 0 P 1 1 e

. 4 6 e ll 1 l

('r t

.s ___

DATE: 1982 CONTAINHENT VESSEL IACAL LEAK HATE Test Page 3 ST 5061.02 Valve Leakage Penetration I.cakage *

, Pant No Valves As Found

' As Left As Found As Left - Comments SCCH SCCH SCCH SCCH '

RC240A 0 0 -

RC2401 303 303 _.303 303 3 CC 141IA, CC 1411B > 3800 0 >3800 0 4 CC 140)A, CC 1407B 40 40 ' 40 40 8A CV 5070, CV 5080 2000 2000 2000 2000 8B CV 5071. CV 5081 1202 1202 1202 1202 8C CV 5072, CV 5082 0 0 0 0 8D CV 5073, CV 5083 0 0 0 0 8E CV 5074, CV 5084 180 180 180 180 8F CV 5075, CV 5085 0 0 0 0 8G CV 5076, CV 5086 0 0 0 0 8H CV 5077, CV 5087 0 0 0 0 81 CV 5078 CV 5088 0 0 0 0 83 CV 5079, CV 5089 0 0 0 0 CC 1567A 0 0 CC 1567B 0 0 0 0 DR 2012A 50 50 13 DR 20128 0 0 '50 50 g4 Mll 3 0 0 MU 2A 0 0 0 0

! 16 RC 1719A 0 0 RC 17198 0 0 0 0 g7 CV 343 248 248

-B!.1,gd Flanges 248 248 248 248

'19 Mll 33 35 35

___ 35 35

, APPENDIX F

b r

DATE: 1982 CONTAINHENT VESSEL IDCAL 1.EAK HATE *t EST Page 4 4 ST 5061.02 Valve Leakage Penearation f.eakage Pent No Valves As Found As Left As Found Am I.e f t Comments SCCH SCCH SCCH SI:i:H DW 6831A 0 0 DW 68318 0 0 0 0 23 Fuel Trans Fing 0 0 Fuel Trans Fing 0 0 0 0 Fuel Trans Fing 0 0 Fuel Trans Fing 0 0 0 0 SA 532, SA 536 0 0 25 CS 33 0 0 0 0 CS 17 0 0 SA 533, SA 535 0 0 26 CS 36 0 0 0 0 CS 18 0 0 29 Dil 23 0 0 0 0 30 Emer. Sump Guard 0 0 0 0 31 0 Emer. Sum d uard 0 0 0 I

RC 1773A 0 0 32 I

RC 1773B 0 0 0 0 33 CV 5005, CV 5006

• 17,400

• 17,400

• Penetration could not be pressur-34 CV 5007 CV 5008 3,796 Ized .

3,796 3.796 326 37 Feed Wtr Inner BelInwt 0 0 Feed War Outer Bellow > 0 0 0 0 39 Feed Wtr Inner Bellout 0 0 Feed Wtr Outer Bellow > 0 0 0 0 Kiln Ste.n Inner Bellow:, 0 0 Kiln,St e.n Giter B_ellmn. 0 0 0 0 s Kiln Steam Inner Bellowa 0 0 Kiln Ste.im inster Reilows 0 0 APPFHDIX F

(s. .~' .. .

D _

\ _

. DATE:

1982 CONTAINHENT VESSEL IDCAL LEAK NATE TEST Page 5 ST.5061.02 Valve Leak ~ age Penetration I.eakage P:nt No Valves As Found As Left As Found As i. eft Commen t s SCCH SCCM SCCM SCCH 1

41 0 0 RC 232 0 0 0 0 42A SA 502 > 3,800 1,298 73,800 1,298 SA 2010 73,g00 0 42B 1 0 0 CV 5010E O O O O 43A TA 501 2M 251 IA 2011 198 198 251 251 CV 125 > 3,800 43B 0 .

CV S0llE O O

, 0 i

44A CF 15 727 727 CF 1541 73,800 , 80

! 448 NN $8 954 0 4

NN 236 100 100 954 100 CF 1545 75 75 l 47A CF 2A D 75 75' CF 28 0 0 CF SA 0 0 j 47B CF 5B 0 0 90 90 CF 1542 90 90 RC 229A 0 0 48 RC 229B 0 0 0 0

DH 87 0 0 49 DH 88 0 0 0 ,

i 51 Dil 5037, Dil 5038 0 0 0 0 APPENDIX F

(t,'1 ,-

DATE: 1982 CONTAINHENT VESSEL IDCAL LEAK RATE TEST

• Page 6 ST 5061.02 Valve Leakage Penetration Leakage Prnt $80 Valves As Found As Left As Found As i.ett Comments SCCH SCCM SCCM SCCH HU 242 3,577 238 52 HU 66A 2,096 0

, 38 HU 0 0 53 HU 668 1,996 0 ,  !,996 0 Hl! 244 605 605 54 HU 66C 0 0 605 HU 245 0 0 55 HU 66D 25 a

25 56 HU 38. Hil 59A,B C.D 'O O O O 59 BIInd Flanges 0 0 0 -

0 CV 210 1,.447

. 67 324 2,500 864 CV 5090 2,500 864 SS 235A 90 90 68A SS 235B 90 90 0 0 68B CV 50108. CV 501IB 0 0 0 0 CV 209 361 361 69 CV 5065 601 601 601 601 71B CV 5010A, CV 50llA

• 20 *

• Penetration could 20 not be pressur-CF 16 677 754 Ized 7tC CF 1544 677 754 0 0 73B CV 5010C, CV 50lic 0 0 0 0 748 CV 5010D, CV 50llD 49 49 49 49 Dil 2735 0 0 DH 2736 0 0 0 0 80 Emer. Lock 0 0 0 0 81 Personnel I.ock 0 0 0 0 APPENDIX F

e .

b,

~

DATE: 1982 CONTAINHENT VESSEL IDCAL LEAK RATE TEST .Page 7

. ~ ST 5061.02 Valve Leakage Penet ra t tiin Le.skage Pint No Valves As Found As Left As Found Am f.e t t Ceinamen t s SCCM SCCM SCCM SYH

. 82 Equip. Hatch 0 0 0 0 101 Elect. Pent. 0 0 0 0 102 Elect. Pent. . 0 0 0 0 i LEAKAGE TOTAL I.041 9

• e i

e APPENDIX F

~

~

F X

8 I D

e N g E a P P P A

s t

n e

m m

o T C S

E T

E T

A 2 2 2 2 3 3 3 3 R 8 8 8 8 8 8 8 8

K 7 3 4 5 9 9 6 7 A 1 2 1 1 1 1 2 2 E - - - - - - - -

L 7 7 9 9 l 1 5 3 L

A C

- O S

- L T S

L2E E

S 0. T e g

1 S1 L a E6A k t 0 0 6 6 6 2 0 0 V0N af 6 9 1 4

5O ee 2 2 0, 7,

- T I LLH NTT C 1 1

.ESI t sC

_H D nAS

_N D e

. I

.A A P

., TN

,O

.C 3

8 e

- g 2 a 8 k 9 at 0 0 6 6 6 1 ef 6 2 0 0

- 9 1 4 L e 2 0 E

LH 2

7, T e C 1 1 A vsC D

l AS

. a V

h c k k k k k t c c c c c a o o o o o l

l L L L L L s

e y l y l y l v c e c e c e l n n n n n n

_ a X B

X e g

n e g

n e n

_ V G o o g o 3 4 r s r s r s P L e r e r e r

_ I 2 m e m e m e P P E P E P E P

~

f'-

o N

t n 1 1 0 1 0 1 0

e 0 0 8 8 8 8 8 1

8

_ P 1 1 l

[

) --

UATE: 1983 CONTAINHENT Vt adEL IDCAL LEAK RATE TEST Page 9

. ST 5051.02 Valve Leakage Penetratino Leakage Pant ha Valves As Found As Left As Found As Left Comments SCCH SCCM SCCH SCCH ~~

RC240A 0 0 RC2408 0 0 0 0 3 CC 1411A, CC 1411B * *Penet ra t ion cou ld 0

• 0 not be pressur-4 CC 1407A, CC 1407B 610,,000 Ized 2,900 610,000 2,900 On Pen. 3 only 8A CV 5070, CV 5080 0 CC14118 was a 0 0 8B CV 5071, CV 5081 0 worked 0 0 0 BC CV 5072, CV $082 0 0 0 0 8D CV 5073, CV 5083 0 0 0 0 8E CV 5074, CV 5084 0 0 0 0 8F CV 5075, CV 5085 0 0 0 0 8G CV 5076, CV 5086 0 0 0 0 8H CV 5077, CV 5087 0 0 0 0 8I CV 5078, CV 5088 0 0 0 0 83 CV $079, CV 5089 0 0 0 0 CC 1567A o o CC 1567B 0 O DR 2012A 350,000 0 350,000 0 DR 20128 0 0 14 0 0 MU 2A 0 0 16 RC 1719A 0 0 RC 17198 0 0 0 0 17 CV 343 250 250 270 '

270 BIInd F1anges 270 270 ,

19 HU 33 0 0 0 0 ,

APPENDir F

_ ('% _

.-..-.. - - - - \ ~-

DATE 1983 CONTAINHENT VESSEL LOCAL LEAK RATE TEST Pege 10 ST 5061.02 Valve Leakage Penetration I.eakage Fant No Valves As Found As Left As Found ~As i.e f t Comenen t s SCCH SCCH SCCH S(:CH DW 683tA 700 700 21 725 725 DW 6831B 725 725 23 Fuel Trans Fing 0 0 Fuel Trans FIng 0 0 Fuel Trans Fing 0 0 Fuel Trans Fing 0 0 SA 532, SA 536 50 50 5

CS 33 0 0 50 50 CS 17 0 0 SA 533, SA 535 0 0 26 CS 36 0 0 0 0 CS 18 0 0 29 DH 23 0 0 0 0 30 Emer. Sump Gisard 0 0 0 0 31 Emer. Sump Cisard 0 0 0 0 RC 1773A 0 0 0 0 RC 1773B 0 0 33 CV 5005, CV 5006 395 395 395 t'

395 l 34 CV 5007, CV 5008 960 960 960 950 37 Feed Wtr inner Bellout 0 0 i

Feed Wtr Outer Bellowo 0 0 38 Feed Wtr Inner Bellowe 0 0 0 0 Feed Wtr Outer Bellout 0 0 Kil n S t e .sn inner Be l l ow:, 0 0

Kain St e .en (hts r_ Bel town 0 0 thin Steam Inner Bellows 0 0 40 i Nin Ste ,im (hte r He 1 lows 0 g 0 0 t

_ ___ Mggm0W1_m

h _-

DATE: [383 CONTAINHENT VESSEL IDCAL LEAK HATE TEST Page iI ST 5061.02 Valve Leakage Penetration Leakage P2nt No VaIves As Found As Left As Found As Left '

Commen t a SCCH SCCH SCCH SCCH 4g RC 113 0 0 RC 232 165 165 42A SA 502 0 0 SA 2010 68.600 735 42B

' 260 260 CV 5010E O O TA 501 130 130

'43A 175 IA 2011 175 175 175 f 435 0 0 0 0 CV S0llE O O 44A CF 15 0 0 0 0 CF 1541 0 0 NN SH 595 44B 595 795 795 NN 216 795 795 CF 1545 0 0-47A CF 2A 0 0 0 0 CF 28 ,

0 0 CF SA 0 0 478 CF 58 0 0 60 60 CF 1542 60 60

, RC 229A 0 0 0 0 RC 229B 0 0 Dit 87 195 195 49 gg gg$

Dit 8'l 0 0 51 Dil 5017 Dil 5038 0 0 0 0

l I APPENDIX F

DATE: 1983 CONTAINHENT VESSEL IDCAL LEAK HATE TEST Pcge 12 ST 5061.02 Valve Leakage Penetration Leakage Pat No Valves As Found As Left As Found As Left Comments SCCH SCCH SCCH SCCH HU 242 110 110 52 Hij 66A 110 110 0 0 HU 243 0 0 53 HU 66B 0 0 0 0 HU 244 1,655 1,655 54 1,655 1,655 HU 66C 0 0 HD 245 0 0 55 0 Hll 66D 0 0 0 56 HU 38. Hil 59A,B C.D 0 0 0 0 59 BIInd FIanges 0 0 0 0 CV 210 365 365 67 1,235 1,235 CV 5090 1,235 1,235 SS 235A 40 40 68A 40 40 SS 2358 0 0 68B CV 5010B, CV 5011B 0 0 0 0 CV 209 40 40 69 CV 5065 0 0 71B CV $010A, CV 50llA 0 0 0 0 CF 16 420 420 CF 1544 0 0 73B CV 50100. CV 50lic 0 0 0 0 74B CV 5010D, CV 5011D 0 0 0 0 Dil 2735 0 0 Dil 2736 0 0 80 Emer. I.nck --- --- --- ---

)"81&80not included in this Personnel I.ock

-~~

! 81 --' ~~~ ~~~

) package

?

Al'I'l(Niii y "

(' ' D - -

'~

DATE: 1983 CONTAINHENT VESSEL IDCAL LEAK RATE TEST ,page 3 ST 5061.02

, Valve Leakage Penetration Leakage Pmt No Valves As Found As Left As Found Au Left Comments SCCH SCCH SCCH SCCH 82 Equip. Ilatch 0 0 0 0 101 Elect. Pent. 0 0 0 0 102 Elect. Pent. 40 40 40 40 TOTAL LEAKAGE

'11,225 4

9 I T C

f I

I APPENDIX F

- . i F

4 X 1

T D

e N

- g E a P P P A

u t

u c

a.

u.

4 T C S

E T

E T

A R 3 3 3 3 3 K 8 8 8 8 8 4 4 4 A - - - - - 8 8 8 E 4 8 9 6 6 - - -

L 2 2 2 - - 3 3 4

- - - 2 2 - - -

L 9 9 9 1 1 3 4 4 A

C D

I S

T S

L2E E 0. T S g e

S1 L a E6A kt V0N af 0 5 O 0 0 5 5O ee 7 0 0 T I LLM 1 4 6 4 NTT C 1

ESI t sC H D nAS N D e I

A A P e

h h

0 C

_ 4 g e g

s a 3 k 8 at 0 5 O 0 0 5 0 0 9 ef 7 4 6 4 g

i L e 1 1

~E LH T e C A vsC D l AS a

V n

y r l

p u -

t p e u R s

- e l l k k y k k l p c c a c s d m r c e a o. o. p o o.

l v 2 S 1 I S

L 1 H y y a - rE c l

e x I

e c V 8 0 ii n n u5 n n 3 9 A1 e n A3 n e e

< 0 0 g o 7 o g 2 5 T5 r s r2 s r M e r z r e C V TV m e ri l e m R C CC E P PD P E o

N t B C n I 7 3 0 1 4 1 0 e 6 4 6 8 7 8 8

- P

. +

! 3 , : ' i  !:i i

. , e. , _ .

DATE: 1984 CONTAINHENT VESSEL LOCAL LEAK NAIE lt.ST pe g,3 35 ST 5061.02 Valve Leakage g Pene t ra t i ou l.a al . age Pr.t No Valves As Found As Left As Found Aa 1.e f t Conueen t s SCCH SCCH SCCH SI:4 :M RC240A 0+ 0 I

RC2408 0+ 0 3 CC le a lA, CC 14118

• Only CCl4llB 423

• 423 was worked 4 CC 1407A, CC 1407B 2,330+ 2,330

• Penetration 2,330 2,330 -

could not he 8A pressurized CV 5070, CV 5080 397 397 397 197 8B CV 5071, CV 5081 30 30 30 30 8C CV 5072, CV 5082 0 0 0 0 8D CV 5073, CV 5083 0 0 0 0 8E CV 5074, CV 5084 249 249 249 249 8F CV 5075, CV 5085 100 100 100 100 8G CV 5076, CV 5086 50 50 50 50 8H CV 5077, CV 5087 80 80 80 80 8I CV 5078, CV 5088 100 100 100 100 83 CV 5079, CV 5089 100 100 100 100 I

CC 1567A 0 0 12 i 0 0 CC 1567B 0+ 0 DR 2012A --

300 300 13 329 329 DR 20128 329+ 329 g4 HU 3 400 . 400 HU 2A 0 0 16 RC 1719A 0 0 0 0 RC 17198 0 0 g7 CV 343 199 119 228 168 Bilnd Flanges. 228 168 19 Hil 33 0 0 0- 0 '

APPENDIX F

__ . a

p

, _ _ __ 9, - - - -

DATEt 1984 CONTAINHENT VESSEL LOCAL LEAK NATE'IEST Pege 16

., ST 5061.02 Valve l'eakage Penetration f.eakage Pat No Valves As Found As Left As Found As Left Commenta l SCCH SCCH SCCH SCCH 2

DW 6831A 129 129 21 --

129 129 DW 68318 40 40 23 ue rans ng _

0 0 0 0 Fuel Trans Fing 0 0 Fuel Trans Fing 0 0 Fuel Trans Fing 0 0 25 SA 532 d A 536 0 0 CS 33 73 73 73 73 CS 17 0 0 SA 533, SA 535 100 100 26 CS 36 0 0 100 100 CS 18 0 0 29 Dil 23 0 0 0 0 30 Emer. Sump Cuard 0 0 4 0 0

{ 31 Emer. Sump Guard- 0 0 0 0 RC 1773A 0 0 RC 1773B 0 0 33 CV 5005, CV 5006 700,000 504 700,000 504 34 CV $007, CV 5008 371 1,188 371 1,188 37 Feed Wa r Inner Bellow: 0 0 0 0 Feed Wtr Outer Bellowe 0 0 3g Feed Wtr Inner Bellow 0 0

- 0 0 Feed Wtr Outer Bellowe 0 0 Kiln Ste:m inner Be1Iow.s 0 0 Kaln St e.m Oster Bellowe. 0 0 Miln Steam Inner Bellows 0 0 40 --

0 0 Miln Sicam niter Hellowt. 0 0 APPENDIX F

'~~__--__-_ ___ - ____________

[ . _ .. . . .a c.. - . -

- r DATE: 1984 CONTAINHENT VESSEL IBCAL LEAK RATE TEST Pag 2 17 ST 5061.02 Valve Leakage Penetration Leakage ,

Pest No Valves As Found As Left As Found As Left Comments SCCH SCCH SCCH SCCH zg RC 113 34,400 o 34,400 368 RC 232 368 368 42A SA 502 89 89 SA 20I0 , O 11,814 280 i 428 124 m 330 0

CV 5010E O+ 0 43A IA 501 90 90 90 90 IA 2011 30 30 CV 125 0 0 435 CV S0llE O O O CF 15 775 775 *Penetratton 44A could not be

< CF 1541 1,869 pressurized

• 1,869 i 44B NN 58 0 o j NN 236 0 0

! CF 1545 100 100 47A CF 2A 161 161 161 161

• CF 2B 0 0 CF SA 65 65 47B CF 55 60 + 60 125 125 CF 1542 100 . 100 RC 229A 0 0 i 48 0 0' i RC 2298 0 0 I DH 87 0 0

! 49 0 0 Dil 88 0 0 51 Dil 5037, Dil 5038 0 0 0 0 APPENDIX F

- _ _ _ _ _ _ _ _ - _ _ _ _ _ _ - -____ _ - __________- . _ _ - _ _ _ _ _ _ _ _ _ ___ _D

. w. .. t --

DATE: 1984 CONTAINHENTVESSEk.11) cal.LEAKkNIETEST

• Page 18 ST 5061.02 Valve Leakage Penetration i.eakage Put No Valves As Found As Left As Found As Left Ca eraco t r SCCH SCCH SCCH SCCH Hil 242 1,191 1,191 52 Mil 66A 1,191 1,I91 0 0 Mtl 243 0 0 53 HU 668 0 0 HU 244 1,494 1,494 54 HU 66C 0 0 MU 245 178 178 55 HU 66D 178 178 0 0 56 MU 38. Hi! 59A,B.C.D 0 0 0 0 59 Blind Flanges 75 75 75 75 V I 66 966 67

' 966 966 CV 5090 247 247 SS 235A 0 0 0 0 SS 235B 0 0 68B CV 50108, CV 5011B 0 0 0 0

, CV 209 0 O

69

' o o

, CV 5065 0 0 71B CV 5010A, CV 50llA 0 0 0 J

0 CF 16 P.53 853 71C CF 1544 0 853 853 0

738 CV 5010C, CV SollC 0 0 0 0 748 CV 50100, CV Salin 0+ 0 0 0 Dil 2735 0+ 0

~

74C '0 0

• Penetration DH 2736 0+ 0 '

could not lee 80 Emer. lock -- - -

H26 826 826 H26 Pressurized.

8I

• 1,743 lowar Interior Personnel lock

• I,743 wisee on exter-for door was adjust Al'I'Hilll X F ed.

_ _ _ _ _ - _ _w

DATE: 1984 CONTAINHENT VESSEI. LOCAL LEAK RATE TEST .Page 19 ST 5061.02 Valve Leakage Penet roliani 1.cakage P nt No Valves As Found As Left As Found As Left Conemen t s SCCH SCCH SCCH SCCH 82 Equip. Ilatch 0 0 0 0 101 Elect. Pent. 0 0 0 0 102 Elect. Pent. O o o o 73A Pressure Sensing Line 0 0 0 0 gthp ,$,{Nr -[

in 1984.

, TOTAL LEAKAGE 17,299

)

I 1

+ Maintenance Performed on Valve APPENDIX F a