Forwards Summary Analysis of Periodic Type B & Type C Reactor Containment Bldg Leak Rate Test for Subj Facil. Leakage During Test Occurred Thru Improperly Positioned Valve on 33 & 34 Containment Recirculation Fan

ML100271753
Person / Time
Site:	Indian Point
Issue date:	11/02/1978
From:	Early P Power Authority of the State of New York
To:	Office of Nuclear Reactor Regulation
Shared Package
ML100271754	List: ML100271753 ML20023A391
References
IPO-166, NUDOCS 7811080110
Download: ML100271753 (65)
v • d • e

Text

T ATTACHEDIL OES" ARg OFFICIAL: RECORDS.OF THE IISION,'

r CONTROL.

THEY HAVE BEEN SCH ARGED TO OUi FOR A lIMITED TIME PERIOD.AND

~MUST.-BE, RETURNED. T6TH RECORDS FACILITY-,

'BRANCH 016.'PLEASE, DO 'NOT -SEN.

DOCUM ENT S, C-HA-RGED-0IrT,T'HROUGH THEtMAL REMOVAL OF AY PAGE(S)

R DOCUMT FMUSRE DUCTION MUST BE RFEREDO FI.EPESONEAPU ENR(TURN IATE Dat.L.So Tloruen't

-" GiJT 0

nn

ftYrT.ET.FILE r.

RECODS LTY BRACH

..:;i;:i'..S-f Aq!L!YB A C

IIIIINTO REACTOR DOCKET DockeSt#

fcontrol # -4~

o S

I I

Date I -

of Document LATOQRY DOCKET FILE POWER AUTHORITY OF THE STATE OF NEW YORK INDIAN POINT NUCLEAR POWER PLANT UNIT NO.

3 REACTOR CONTAINMENT BUILDING INTEGRATED LEAK RATE TEST

SUMMARY

TECHNICAL REPORT PREPARED FOR POWER AUTHORITY OF THE STATE OF NEW YORK PREPARED BY EBASCO SERVICES INCORPORATED PLANT OPERATIONS & BETTERMENT DEPARTMENT SEPTEMBER 6, 1978 THIS DOCUMENT IS THE PROPERTY OF EBASCO SERVICES INCORPORATED.

ITS USE IS EXPRESSLY RESTRICTED BY THE TERMS OF THE CONTRACT BETWEEN EBASCO SERVICES INCORPORATED AND THE POWER AUTHORITY OF THE STATE OF NEW YORK.

TABLE OF CONTENTS PAGE I.

INTRODUCTION................................................. 1 II.

SUMMARY

..................................................... 2 III.

TEST DISCUSSION............................................. 3 A. Description of Containment.............................. 3 B.

Description of Instrumentation.......................... 4

1. Temperature Instrumentation......................... 4

2. Humidity Instrumentation............................ 5

3. Pressure Instrumentation............................ 5

4. Flow Instrumentation................................ 5

5. Ancillary Instrumentation.........................

C.

Description of Computer Program......................... 5 D.

Error Analysis.......................................... 6 E.

Description of Tests.................................... 7 IV.

RESULTS AND VERIFICATION.................................... 11 V.

CONCLUSIONS................................................ 13 VI.

FIGURES.................................................... 15 VII.

APPENDICES A.

Computer Generated Report

1. Integrated Leak Rate Test (ILRT)

2. Controlled Leak Rate Test (CLRT)

I.

INTRODUCTION A periodic Type "A" Integrated Leakage Rate Test (ILRT) was performed on the containment structure of the Power Authority of the State of New York, Indian Point Nuclear Power Plant -

Unit No. 3 pressurized water reactor in July and August of 1978 utilizing the "Absolute Method" of testing. This test was performed at a pressure in excess of the calculated peak containment internal pressure related to the design bases accident (P a) and specified in the Technical Specifications.

This report describes and presents the results of this periodic Type "A" Leakage Rate Test including supplemental test method utilized for verification.

II.

SUMMARY

Type "B" and "C" tests were performed by Power Authority of the State of New York station personnel and repairs/corrections were made where necessary.

At the start of the Type "A" test, all valves were to be in their normal position for accident conditions. Exceptions to this valve line up were noted during the test and are documented in the official copy of the Integrated Leak Rate Test periodic test procedure which is on file at the Indian Point Station. The calculated total-time simple leakage rate was 0.007 %/day by weight at 58.396 psia (total containment pressure at the end of the test).

A least squares statistical fit of the total time simple leakage rates gave a leakage rate of -0.003%/day by weight. The supplementary Controlled Leak Rate Test (CLRT) results verified the meas ured leakage within the allowable acceptance band.

2 -

III.

TEST DISCUSSION A.

Description of Containment The reactor containment structure completely encloses the entire reactor and reactor coolant system to ensure no leakage of radioactive materials to the environment in the unlikely event of a loss of coolant accident.

The containment vessel is a reinforced concrete vertical right cyl inder with a hemispherical dome and a generally flat base supported on rock. A welded steel liner with a minimum thickness of 1/4 inch is attached to the inside face of the concrete to ensure a high degree of leak tightness.

Small steel channels are welded over all joints i n the containment vessel liner forming leak tight air chambers. These chambers are continuously pressurized with air to serve as a leak prevention system.

These channels also serve to identify any liner plate weld leakage.

The containment has side walls measuring 148 feet from the liner on the base to the spring line of. the dome and has an inside diameter of 135 feet.

The side walls of the cylinder and the dome are 4 1/2 feet and 3 1/2 feet thick, respectively.

The inside radius of the dome is equal to the inside radius of the cylinder so that the discontinuity at the spring line due to the change in thickness is on the outer surface. The

.flat concrete base-mat is 9 feet thick with the bottom liner plate located on top of this mat. The bottom liner plate is covered with 3 feet of concrete, the top of which forms the floor of the containment.

All penetrations made in the containment vessel were considered as potential leak sources and as such were designed with double barriers and treated by a leak prevention system. There are approximately 60 electrical penetration cannisters, 80 process piping penetrations, one personnel access airlock, one airlock/ equipment hatch and one fuel transfer tube penetration.

Each process piping system which penetrates the containment vessel is designed to maintain the leak integrity of the containment vessel through the use of double leak tight barriers. The design of process piping isolation barriers is such that no single active failure degrades the leak tightness of the containment vessel. An Isolation Valve Seal Water System is provided as a leak prevention system.

The containment vessel, penetrations and isolation valves are aligned to simulate accident conditions for the performance of the Integrated Leak Rate Test. An extra degree of conservatism in testing is provided by not using the Isolation Valve Seal Water or the Channel Weld and Penetration Pressurizing Systems during the Integrated Leak Rate Test.

The containment vessel and all associated isolation valves, pene trations and support systems have been designed to limit leakage to 0.1%

by weight of the contained air per day at 47 psig. The calculated peak accident pressure is 40.6 psig.

B.

Description of Instrumentation A 'state-of-the-art' ILRT instrumentation package was utilized to allow leakage rate determination by the "Absolute Method". The primary measure ment variables include containment pressure, dewpoint and temperature as a function of time.

Ancillary measurements include ambient out side pressure and temperature. During the supplemental CLRT, containment

-leed-off flow is also-measured.

Instrument readings were output at 15 minute intervals automatically via a data logger and printer.

1. Temperature Instrumentation Thirty precision Resistance Temperature Detectors (RTD's) were located throughout the containment to allow measurement of the volumetrically weighted average temperature. The location of the temperature detectors in the containment is depicted in Figure 1. The specified accuracy of the RTD's is +.150 F. The repeatability of the sensor is quoted as +/-.1F.

-4

2. Humidity Instrumentation Ten Lithium-Chloride wetted dewcells were located throughout the containment to allow measurement of the volumetrically weighted average containment vapor pressure. The location of the dewcells in the containment is depicted in Figure 2. The specified accuracy of the dew cells is -1.00 F dewpoint.

+

0 The repeatability of the sensor is quoted as -

.25 F.

3. Pressure Instrumentation Two precision quartz bourdon tube pressure indicators were supplied in the instrumentation package for the determination of containment absolute pressure. One precision pressure indicator was used as the primary sensor while the second indicator was considered as a backup. The equipment manu facturer specification accuracy of the precision pressure indicators is

+.002 psia. The repeatability of the instrument is quoted as +.001 psia.

4. Flow Instrumentation One thermal mass flowmeter with a range of I to 10 scfm and an accuracy of + 0.1 scfm was used during the Supplemental CLRT.

The repeatability of the instrument is quoted as + 0.05 scfm.

5. Ancillary Instrumentation The ambient outside temperature at the site was measured using a pre cision RTD with the same specifications as those given in 1. above. The ambient barometric pressure was measured with a strain gauge absolute

-pressure indicator with an accuracy of + 0.017 psia. The repeatability of the instrument is quoted as +/- 0.017 psia.

C.

Description of the Computer Program The Ebasco ILRT computer program is an interactive Fortran IV program written specifically for fast, easy utilization during all phases of the ILRT and CLRT. Data entry and modifications, if necessary, are readily accomplished by the data acquisition team. In addition to extensive data verification routines, the program calculates, on demand, point-to-point, total time and mass point leak rates as well as first order linear regressions for these leakage rate calculations. Computation of the 95% regression confidence interval for the leak rate calculations 5 -

is available on demand.

Data rejection based upon the Chauvenet criterion may be utilized in the analysis.

Both a'priori and a! posteriori instrument. error contribution to the leak rate are computed using the standard error approach. The a'priori error is based upon nominal pretest conditions whereas a' posteriorierror is based upon actual test conditions.

Data evaluations are enhanced by the flexible display of either sensor variables or various computed values in tabular or graphical form on the computer terminal. Data is recorded on magnetic tape to prevent loss during the testing. All data is stored on the computer systems in use with retrieval capability to any desired data base throughout the testing.

Temperature, pressure and humidity data are entered interactively via the computer terminal at 15 minute intervals. Computer verification and checking routines supplement data verification by the data acquisition team. Modifications are promptly made when errors are detected. Prior to issuance of this report, further extensive data verification has been performed.

The computer generated reports based upon verified data substantiate for both the ILRT and CLRT that a successful test has been completed in accordance with 10 CFR 50, Appendix J.

D;--Error-Analysis Three types of error analysis are performed using the Ebasco ILRT computer program. These types are a'priori instrument loop error, a' posteriori instrument loop error and a statistical regression confidence interval.

The a' priori instrument loop error is based upon the standard error approach in which individual contributions of the various sensors and dis play equipment are added to provide the worst possible error. Additional conservatism is added by not taking credit for any error cancelling terms generated by multiple sensors of the same variable. This error is computed

-6

to a 95% confidence. Prior to the test, this a' priori loop error verifies that the instrumentation system is sufficiently sensitive to measure leakage rates in the range desired. The calculated a' priori instrument loop error is 0.052%/day at a 95% confidence level.

The a' posteriori instrument loop error is also based upon the standard error approach and is computed to a 95% confidence. No simplifying assumptions other than constant containment free volume are made in the derivative calculations for parameter sensitivity in the standard error formula.

Instrument loop errors are computed from containment conditions once variable bias has been compensated. This leakage error due to instrumentation is then reported for both the ILRT and CLRT as the maximum probable instrument loop error. The calculated maximum probable instrument error is 0.021%/day at a 95% confidence level.

A statistical regression confidence interval is generated for the first order regression line of the simple total-time leak rates. The significance of this interval is that 95% of all analyzed leakage rates measured fall within this interval when transformed to frequency space. The 95% regression confidence interval for the ILRT is 0.014%/day.

E. Description of Tests Interpretation of the final analysis of test data show results well within the specified limits for this containment as delineated in Section V (Conclusions) of this report.

The containment was made ready for the Integrated Leak Rate Test with the Containment Structural Integrity Inspection performed in accordance with procedure 3PT-A2 "Containment Structural Inspection" on July 26, 1978. The containment was closed for the ILRT on 2030 hours0.0235 days <br />0.564 hours <br />0.00336 weeks <br />7.72415e-4 months <br /> 7/26/78 with pressurization starting at 2130 hours0.0247 days <br />0.592 hours <br />0.00352 weeks <br />8.10465e-4 months <br />. Pressurization was accomplished using up to nine (9) mobile air compressors with a total capacity of approximately 10000 scfm.

These units were connected to the cohtainment as shown in Figure 3. Four of nine compressors were secured at 0015 hours1.736111e-4 days <br />0.00417 hours <br />2.480159e-5 weeks <br />5.7075e-6 months <br /> 7/27/78 to reduce the pressuriz ation rate to allow containment entyrfor inspection purposes. At 0100 hours0.00116 days <br />0.0278 hours <br />1.653439e-4 weeks <br />3.805e-5 months <br /> the containment entry was made with no signs of abnormalities, oil carry over, smoke or water vapor observed.

During the containment entry it was noted that one of the personnel airlock inner bulkhead shaft seals was leaking. The outer door of the airlock and outer bulkhead was determined leak tight and this became the ILRT boundary. The containment entry was completed at 0200 hours0.00231 days <br />0.0556 hours <br />3.306878e-4 weeks <br />7.61e-5 months <br /> with pressurization at a higher rate resumed.

Pressurization was secured at 1500 hours0.0174 days <br />0.417 hours <br />0.00248 weeks <br />5.7075e-4 months <br /> with 45 psig pressure in the containment vessel. After an appropriate stabilization period, the apparent leakage rate was determined to be.14%/day, or about twice allow able, at 0000 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> 7/28/78 with active leak survey teams attempting to find the excess leakage. At this time, it was noted that two of the ten dewcells began to exhibit noisy signals.

During the next 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br />, the leak survey teams continued to attempt to identify the excess leakage. Many systems were temporarily blanked-off to look for possible leaks with no apparent decrease in leakage rate. By 0400 hours0.00463 days <br />0.111 hours <br />6.613757e-4 weeks <br />1.522e-4 months <br /> 7/30/78, it was identified that the leak was somewhere in the

1. 33 and #34 containment fan cooler service water supply and return lines inside the containment. Isolation of this leakage was started and most of the temporarily blanked systems were unblanked. Also during this time period, seven of the ten dewcells in the containment (numbers 1, 2, 3, 4, 5, 6 & 7) were exhibiting noise on the signal. The five dewcells exhibiting the worse noise were deleted from analysis of the leakage rate.

It was also noted during this time that the primary pressure instrument did not exhibit

_as goodrepeatabilityas the backup sensor. The pressure drop sensed by the two instruments was identical over long periods of time (1-2 hours) but over 15 minute periods, the primary sensor appeared to occasionally stick on one value, Isolation of the #33 and #34 containment fan cooler service water supply and return lines was completed on 1630 hours0.0189 days <br />0.453 hours <br />0.0027 weeks <br />6.20215e-4 months <br />, 7/31/78 with the official start of the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> ILRT initiated at that time. Data was accumulated for 24.25 hours2.893519e-4 days <br />0.00694 hours <br />4.133598e-5 weeks <br />9.5125e-6 months <br /> and acceptable leakage was measured. The ILRT was completed at 1645 hrs on 8/1/78.

8-

Chemistry and Health Physics sampled the containment air volume prior to ini tiation of the Controlled Leak Rate Test (CLRT).

The mass flow meter was adjusted to 7 scfm bleedoff flow.

This flow is approximately equal to the containment design leakage rate of 0.1%/day.

The CLRT commenced at 1830 hours0.0212 days <br />0.508 hours <br />0.00303 weeks <br />6.96315e-4 months <br /> on8 /1/78 with stable conditions inside the containment. At the start of the CLRT, the backup pressure indicator was selected for use due to its better repeatability. The CLRT was completed at 0145 hrs on 8/2/78.

Depressurization of the containment commenced at 0255 hrs on 8/2/78.

Atmospheric pressure was reached at 0015 hrs on 8/3/78. An internal inspection of the containment was completed at 1000 hours0.0116 days <br />0.278 hours <br />0.00165 weeks <br />3.805e-4 months <br /> on 8/3/78. During the inspection it was noted that the motor cooler service water vent and drain valves on #33 and #34 Containment Fan Cooler Units were left open during the ILRT. This was the source of leakage in the service water system.

A summary of the Containment ILRT boundary changes and subsequent actions are given below:

a) The No. 31 Reactor Coolant Pump seal injection valve No. 250A was removed prior to the test and the line capped. Subsequent to the ILRT the valve was re-installed and a Type C leak rate test was performed. Zero leakage was detected.

b) The personnel lock boundary during the ILRT was the outer bulkhead due to a shaft seal leak on the inner bulkhead. Subsequent to the ILRT, a pre-repair Type B leak test was performed with 0.00893 scfm leakage detected. The mechanical stuffing box on the shaft seal was tightened with zero leakage detected in the post-repair Type B leak test.

c) The Weld Channel and Penetration Pressurization lines to the air locks were capped in order to isolate the airlocks from other penetrations in the system. This was necessary since the Pressuriza tion System was not in service during the ILRT and leakage was sus pected through the personnel lock inner containment-side door seal.

Capping of the Weld Channel supply lines to the airlocks allowed credit to be taken for the double door seals which would be the sys tem boundary during normal and accident plant conditions. Isolation valves have been installed to allow this system to be aligned in this manner during future ILRTS.

9 -

d) The station air penetration ILRT boundary was moved to turbine hall isolation valves SA-10 due to air leakage detected at the bleedoff point that was attributed to the Containment Isolation Valves. Subsequent to the ILRT, this leakage was determined to be from the station air system via station air valve SA-lI. No repairs on the Containment Isolation Valves SA-24 were made and zero leakage was detected.

e) The #33 and #34 Containment Fan Cooler Service Water supply and return lines were isolated outside of the containment due to a leak inside. This was performed by blanking off valves SWN 41 and 44 (service water supply and return isolation valves) and relief valve SWN42 (#34 Fan Cooler service water inlet relief).

Sub sequent to the ILRT, the motor cooler vent and drain valves were found open, thus explaining the leakage path. Relief valve SWN-42 was repaired and the service water leaders were tested with water in accordance with Technical Specifications with acceptable in-leakage determined.

10 -

IV.

RESULTS AND VERIFICATION The Type A Integrated Leakage Rate Test was conducted for a period of 24.25 hours2.893519e-4 days <br />0.00694 hours <br />4.133598e-5 weeks <br />9.5125e-6 months <br /> with a total of 98 samples of data sets taken. The containment pressure at the end of the ILRT was 58.396 psia. Since the backup pressure indicator was used during the CLRT in an attempt to improve repeatability, the backup pressure indicator was used during final ILRT calculations.

Changing from tne primary to the backup pressure indicator did not change the calculated leakage rates but did improve pressure loop error from.0020 psia to.0012 psia. As noted in Section III.e), seven of the ten dewcells exhibited noisy signals subsequent to pressurization. The five worst dew cells (#1, #2, #3, #6 and #7) were deleted from the analysis as they all exhibited loop errors in excess of four times the quoted loop repeatability.

Dewcells #4 and #5 exhibited loop errors approximately four times the quoted loop repeatability while Dewcells #8, #9 and #10 exhibited loop errors equal to the quoted loop repeatability. Dewcells #4 and #5 were not deleted as this would leave no humidity sensors active in the upper area of the contain ment. The Chauvenet Rejection criteria was applied to the 98 samples with samples 2 and 3 showing excessive deviation based upon total time leak rates These samples were rejected from analysis.

The results of the computed total time least squares fit of the data revealed a leakage rate of -0.003%day by weight, a total time simple leakage rate of 0.007%/day by weight and a fitted mass point leakage rate of -0.005%/day by weight.

The maximum probable instrumeLt loop error for the ILRT was 0.021%/day by weight with the largest contributor to this error caused by the Dewcells.-

The 95% statistical regression confidence interval for the ILRT was 0.014%/day by weight. For conservatism, these leakages rates are not corrected from test pressure to peak accident pressure.

Following satisfactory completion of the ILRT, a 7.25 hour2.893519e-4 days <br />0.00694 hours <br />4.133598e-5 weeks <br />9.5125e-6 months <br /> CLRT was performed. This test was conducted by superimposing a known leak rate approximately equal to the containment design leakage rate of 0.1%/day by weight. The mass flow meter reading was recorded at 15 minute intervals and averaged over the duration of the test to give 7.12 scfm. This is equivalent to 0.103%/day by weight leakage for the given conditions of containment pressure and temperature during the test. The Chauvenet Rejection criteria was applied to the 30 samples with samples 2 and 3 11 -

showing excessive deviatioLA basea upon total time leakage rates.

The measured total time least squares fit of the data was.103%/day by weight, a total time simple leakage rate of.097%/day by weight and a fitted mass point leakage rate of.130%/day by weight. Thus, the simple total time leakage rate and the least squares fit of the total time leakages give very good agreement with the calculated superimposed leakage. Agreement with the fitted mass point was not as good due to the noisy nature of the first few data sets caused by the dewcell sensor problems mentioned above and since the Chauvenet Rejection criteria was not used on mass point calculations.

12 -

V.

CONCLUSIONS The high containment leakage measured initially has been identified due to an improper valve lineup on a closed seismic Class I post-accident system inside the containment. During normal operation these service water vent and drain valves would be closed and the system would be in operation. During accident conditions any anomalies in the Containment Fan Cooler Service Water Supply System would result in service water leakage out of the system since the service water header pressure is higher than post-accident containment pressure.

The Integrated Leakage Rate Test at P (40.6 psig) provided acceptable a

results as evidenced by the computer printout and graphs in Appendix A of this report. The measured leak rate is well within the specified limits.

The acceptance criteria for the ILRT is as follows:

a) The maximum allowable operational leak rate shall not exceed 75%

of the Containment Design Leakage Rate of 0.1%/day by weight at a pressure of not less than 40.6 psig. This is equivalent to 0.075%/day by weight.

As shown in Section IV, the measured leakage rate for the contain ment was -0.003%/day by weight at a test pressure of 43.6 psig. If the maximum probable instrument loop error is added to this value, the leakage rate including instrument error would be 0.018%/day by weight at a 95% confidence level.

If the 95% statistical regression confidence interval is added to the measured leakage rate, the leakage rate would be 0.011%/day by weight at a 95% confidence interval.

Both of the above values are less than the acceptance criteria of 0.075%/day by weight.

b) The accuracy of the ILRT shall be verified by a supplemental test which confirms the accuracy of the ILRT by verifying that the difference between the containment leakage rate measured during the supplemental test and the ILRT is within 25% of the containment design leakage rate of 0.1%/day by weight. This is equivalent to 0.025%/day by weight.

13 -

The measured leakage during the CLRT was 0.103%/day by weight with a superimposed leakage equivalent to 0.103%/day by weight. The measured net CLRT containment leakage was therefore 0.0%/day by weight. The measured ILRT leakage rate was -0.003%/day by weight, thus giving a difference between the CLRT and ILRT measurements of 0.003%/day by weight. This difference between the CLRT and ILRT measurements is within the acceptance criteria and the accuracy of the ILRT has been verified.

VI FIGURES 15 -

POWER AUTHORITY OF THE STATE OF NEW YORK INDIAN POINT UNIT NO. 3 ILRT RTD LOCATION/VOLUME RTD 1-7 VOLUME 722,850 CU. FT.

EL. 185'-6" RTD 8-14 VOLUME Vir 644,124 CU. FT.

EL. 140'-6" RTD 15-20 VOLUME 472,357 CU. FT.

I E L. 107'-6" RTD 21-25 VOLUME 341,954U. FT EL. 81'-6"

. f t a 7-RTD'S AT EL. 218'-6" 7-RTD'S AT EL. 160'-0" 6-RTD'S AT EL. 120'-0" 5-RTD'S AT EL. 98'-0" 5-RTD'S AT EL. 71'-O" RDT 26-30 VOLUME 428,715 CU. FT.

a.

6*

4 4..° FIGURE 1 W

LAR ANE

POWER AUTHORITY OF THE STATE OF NEW YORK INDIAN POINT UNIT NO. 3 ILRT DEWCELL LOCATION/VOLUME 4 DEWCELLS AT EL. 210'-0" 3 DEWCELLS AT EL. 130'-0" 3 DEWCELLS AT EL. 71'-0" FIGURE 2 POLAR SPRANE

0 POWER AUTHORITY OF THE STATE OF NEW YORK INDIAN POINT UNIT NO. 3 ILRT CONTAINMENT PRESSURIZATION SYSTEM I

I 11 CONTAINMENT WALL L--------------I COOLING WATER INLET FIGURE 3

APPENDIX A Computer-Generated Report

1.

INTEGRATED LEAK RATE TEST (ILRT)

LEAK RATE COMPUTED USING TOTAL TIME AS RECOMMENDED BY APPENDIX J FOR 10 (REACTOR CONTAINMENT LEAKAGE TESTING FOR WATER METHOD CFR 50 COOLED POWER REACTORS)

TEST PERIOD STARTED AT 1630 HOURS ON JULY 31,1978 A LEAST SQUARES FIRST ORDER FIT OF LEAK RATE TO TIME SHOULD YIELD A SLOPE OF ZERO AND AN INTERCEPT EQUAL TO THE LEAK RATE AS COMPUTED AT THE INITIAL START TIME THE EQUATION HAS THE FORM - L=ST+R WHERE L - CORRELATED LEAK RATE S - SLOPE OF CORRELATION T - TIME IN HOURS R - INTERCEPT LEAK RATE LEAK RATE MEAN 0.000 HOURS + -O.0O0 PER CENT

= -0.003 PER CENT INITIAL CONTAINMENT AIR WEIGHT 747370 LBS.

FINAL CONTAINMENT AIR WEIGHT 747320 LBS.

FITTED MASS POINT LEAK RATE IS -0.005 PER CENT PER DAY MAXIMUM NRC LEAK RATE OF 0.075 PER CENT PER DAY GIVEN FOR HIGH PRESSURE TEST AT 58.43 PSIA I

MAXIMUM PROBABLE TEMPERATURE LOOP ERROR IS MAXIMUM PROBABLE PRESSURE LOOP ERROR IS MAXIMUM PROBABLE HUMIDITY LooP ERROR IS 0.008 DEGREES F, 0.0012 PSIA.

1.353 PERCENT.

MAXIMUM PROBABLE INSTRUMENT ERROR IS

.0212 PERCENT PER DAY "

WITHIN A COMPUTED CONFIDENCE OF 95.00 PERCENT

• UNOTE FOR GRAPHS "

A*

BOTH SAMPLE NUMBERS AND TIME ARE SHOWN

"'NOTE FOR TABULAR DATA TABLE VALUES OF ZERO SIGNIFY THAT THE DATA IS NOT APPLICABLE TO THE CALCULATION

~'DESCRIPTION OF VARIABLES AVG TEN VOLUMETRICALLY WEIGHTED TEMPERATURE AVG PRE AVERAGE PRESSURE VAP PRE VOLUMETRICALLY WEIGHTED VAPOR PRESSURE LEA COM FIRST ORDER COMPUTED LEAK RATE LEA TRA STATISTICAL TOTAL TIME LEAK RATE LEA SIM SIMPLE TOTAL TIME LEAK RATE ERROR STATISTICAL TOTAL TIME LEAK RATE ERROR

OBSER#TION NUMBER 19 28 37 46 55 64 73 82 91 iii ~

~

.II am i

Im i

Ai Iai Ae aa, I...........

LER x x K RRTES RELRTIVE TO STATISTICAL TOTAL TIME LEAK RATE CONTAINMENT DESIGN LEAK RATE NRC TECHNICAL SPECIFICRTION LIMIT INSTRUMENT ERROR LIMIT REDUCTION COMPUTED FIRST ORDER EQUATION FIT LIMITS 31.54 28.19 24.83 21.48 18.12 14.77 11.42 8.06 4.71 -

xx-------

NlINIi Mm..............

-*1*

I 0

120 2

240 I36 360 4

480 I

Boo 7

720 8

840 I

I I

I 960 1080 1200 1320 1440 TIME IN MINUTES 0

i

1.

I0..

COMPUTED x

x x

xxxx x x

1.35-

-2.00 i

) I I I I

I i

• u.........

0.1400 0.1250

.0.1100 0.0950 0.0800 0.0650-0.0350 0.0200 0.0050

-0.0100-OBSFVRTION NUMBER 10 19 28 37 46 55 64 73 0

COMPUTED LERK RRTE FIT RELRTIVE TO LIMITS CONTAINMENT DESIGN LEAK RATE NRC TECHNICAL SPECIFICATION LIMIT

.INS T RUMENT E7RRQR 'LMT

.7J i\\

lK

.1 F O 17, T, REOUCTT0N m I COMPUTED FIRST ORDER EQUATION FIT f

960 1080 1200 i

1 1320 1440 TIME IN MINUTES 120 240 360 480 600 720 840 0.0500

• 1

0 OBS#VRTION NUMBER 1

10 19 28 37 46 55 64 73 82 91

,~-J I

a COMPUTED FIT xRx GR EEN RELRTIVE TO CRITICRL SIMPLE TOTAL TIME LEAK RATE INSTRUMENT ERROR LIMIT REDUCTION COMPUTED FIRST ORDER EQUATION FIT OCTAGON IS STATISTICAL REJECTION LIMIT 0.372 0.192 0.013-1

-0.166

-0.345

-0.524

-0.704

-0.883-

"a--

I m-

-u ----

--- -- =-

-x x

x x

x x

x 1 K.#I I

I 0

120 240 360 4

480 600 720 8

840 6

960 I

I i

I 1080 1200 1320 1440 TIME IN MINUTES O.730 0.551 -

-1.062

OBSERTION 10 19 28 37 46 55 64 VOLUMETRICRLLY WEIGHTED CONTRINMENT TEMPERRTURE TR INow urn.I m anlu sswoman an II I3 a

U ii a

Now Eno Ioii Ura UiI I*3 U.

Ul iU 87.10 87.05 87.00 86.95 86.90 86.85 86.80 86.76-

i.

I IU U

UgI so

-I I

I I

I I

I I

0 120 240 360 480 600 720 840 I

960 I

I I

1 1080 1200 1320 1440 TIME IN MINUTES 0

87.20 -t 87.15-NUMBER 73 82 91 us am"I I aia 86.70 I I I I I I I.

lllllllllllllllllllmllii.ll

OBS*VRTION NUMBER 1

10

-IO 19 28 37 46 55 64 11wt 11 l,,nt I l

,1 v,,,,lt,,,,,,,,I..

,,,,t....

IIVERRGE CONTRINMENT PR 73 82 I I I t t I I I

t I t I I I I t I I I I I I I I I t l I EISSURE I 58.442 58.434 58.426 58.418 58.410 58.402 58.394 58.386 58.378-58.370 mmmsomm somu..

3m.m son now Eggs so son No an mu now 33.D mm massm as EEB3 mE m

~1 I

I I

I 0

120 240 360 480 600 720 840 SI 1

1 960 1080 1200 1320 1440 TIME IN MINUTES 58.450 0

I 91

OBSIARTION NUMBER 0.4500 0.4430 0.4360 0.4290 0.4220 0.4150 0.4080 0.4010 0.3940 0.3870 0.3800-1 10 19 iI L l I II I t I

28 37 46 55 64 73 82 91 jg**,

ggI,

I,,,,*..

I i........ I........

I......

IVOLUMETRICRLLY WEIGHTED VRPOR PRESSUREI a

a sm a

i U

tm3 0

v U

m U

U U

U U

urn m~

3 U

u U.

iU a a I

U 0

a I

I F

120 240 3

360 480 600 720 4

840 9

960 I

I I

I 1080 1200 1320 1440 TIME IN MINUTES 0

0 CL 03 Li n

U)

U3 CO LU a_

C3 13cr CL

• ~~

~~~~

I I

I I

I I

I I

II 1

I I I I I I

I I I I I2 1 1 i

0 a a

I B

VARIABLE TABLE

SUMMARY

SAMPLE DELTA AVG. TEM AVG. PRE VAP. PRE LEAK COM LEAK TRA ERROR(T)

NUMBER MINS DEG.

F PSIA PSIA PER CENT PER CENT PER CENT 1

0 87.161 58.432 0.414

-0.004 0.000 0.000 2

15 87.161 58.432 0.419

-0.004 0.000 0.000 3

30 87.151 58.431 0.402

-0.004 0.000 0.000 4

45 87.147 58.431 0.1109

-0.004

-0.305 0.014 5

60 87.144 58.431 0.416

-0.004 31.537 0.014 b

6 75 87.140 58.431 0.415

-0.004 13.394 0.014 V

7 90 87.138 58.431 0.413

-0.004 5.726 0.014 8

105 87.137 58.431 0.417

-0.004 4.899 0.014 9

120 87.127 58.431 0.414

-0.004 2.862 0.014 3

10 135 87.124 58.431 0.421

-0.004 3.063 0.014 11 150 87.127 58.430 0.420

-0.004 2.853 0.014 12 165 87.119 58.430 0.423

-0.004 2.709 0.014 13 180 87.117 58.430 0.423

-0.004 2.436 0.014 14 195 87.116 58.430 0.411

-0.004 1.556 0.014 15 210 87.106 58.430 0.419

-0.004 1.262 0.014 g

16 225 87.106 58.430 0.420

-0.004 1.093 0.014 17 240 87.106 58.429 0.418

-0.004 0.924 0.014 18 255 87.101 58.429 0.423

-0.004 0.875 0.014 19 270 87.101 58.429 0.424

-0.001 0.842 0.014 20 285 87.103 58.428 0.413

-0.004 0.651 0.014 21 300 87.100 58.428 0.409

-0.004 0.448 0.014 22 315 87.097 58.428 0.414

-0.004 0.349 0.014 23 330 87.098 58.428 0.421

-0.004 0.343 0.014 24 345 87.097 58.428 0.423

-0.004 0.346 0.014 25 360 87.096 58.428 0.416

-0.004 0.296 0.014 26 375 87.096 58.427 0.419

-0.004 0.276 0.014 27 390 87.079 58.427 0.418

-0.004 0.243 0.014 28 405 87.088 58.427 0.425

-0.003 0.251 0.014 29 420 87.086 58.427 0.416

-0.003 0.217 0.014 30 435 87.079 58.427 0.418

-0.003 0.192 0.014 31 450 87.082 58.427 0.419

-0.003 0.177 0.014 32 465 87.071 58.427 0.418

-0.003 0.157 0.014 33 480 87.077 58.426 0.416

-0.003 0.138 0.014 34 495 87.065 58.426 0.418

-0.003 0.122 0.014 35 510 87.068 58.426 0.421

-0.003 0.118 0.014 36 525 87.058 58.425 0.419

-0.003 0.109 0.014 t

37 540 87.060 58.425 0.418

-0.003 0.099 0.014 38 555 87.057 58.425 0.409

-0.003 0.074 0.014 39 570 87.047 58.424 0.424

-0.003 0.077 0.014 5

40 585 87.048 58.424 0.419

-0.003 0.072 0.014 41 600 87.046 58.424 0.422

-0.003 0.070 0.014 42 615 87.040 58.424 0.411

-0.003 0.054 0.014 5

43 630 87.042 58.423 0.409

-0.003 0.040 0.014 44 645 87.029 51:.423 0.415

-0.003 0.032 0.014 4

45 660 87.029 58.422 0.424

-0.003 0.036 0.014 I

46 675 87.025 58.422 0.417'

-0.003 0.032 0.014 47 690 87.023 58.422 0.407

-0.003 0.019 0.014 48 705 87.011 58.421 0.428

-0.003 0.025 0.0114 49 720 87.011 58.421 0.416

-0.003 0.021 0.014 50 735 87.002 58.420 0.415

-0.003 0.017 0.014 S

,,U

0 VARIABLE TABLE

SUMMARY

SAMPLE NUMBER 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 DELTA MINS 750 765 780 795 810 825 840 855 870 885 900 915 930 945 960 975 990 1005 1020 1035 1050 1065 1080 1095 1110 1125 1140 1155 1170 1185 1200 1215 1230 1245 1260 1275 1290 1305 1320 1335 1350 1365 1380 1395 1410 1425 1440 1455 AVG. TEM DEG.

F 87.005 86.998 86.999 86.984 86.980 86.980 86.965 86.967 86.960 86.960 86.954 86.948 86.941 86.940 86.932 86.927 86.925 86.915 86.912 86.912 86.903 86.899 86.900 86.894 86.888 86.882 86.881 86.876 86.882 86.872 86.868 86.856 86.853 86.847 86.841 86.838 86.832 86.829 86.822 86.815 86.804 86.813 86.802 86.794 86.787 86.787 86.776 86.778 AVG. PRE PSIA 58.420 58.419 58.419 58.418 58.418 58.417 58.416 58.416 58.416 58.415 58.415 58.414 58.414 58.414 58.413 58.412 58.411 58.411 58.411 58.411 58.411 58.410 58.410 58.410 58.410 58.409 58.409 58.407 58.407 58.407 58.407 58.406 58.406 58.405 58.405 58.404 58.403 58.403 58.402 58.402 58.401 58.401 58.400 58.399 58.399 58.398 58.397 58.396 VAP. PRE PSIA 0.415 0.419 0.416 0.422 0.417 0.418 0.409 0.416 0.416 0.419 0.414 0.420 0.417 0.420 0.419 0.419 0.415 0.423 0.425 0.417 0.418 0,416 0 405 0.420 0.420 0.413 0.414 0.417 0.424 0.419 0.410 0.411 0.413 0.414 0.416 0.417 0.417 0.428 0.422 0.423 0.417 0.418 0.429 0.418 0.414 0.416 0.425 0.423 END OF TABLE LEAK COM

PER CENT

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

.-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003

-0.003 LEAK TRA PER CENT 0.013 0.013 0.011 0.012 0.011 0.010 0.005 0.004 0.002 0.003 0.001 0.001 0.000 0.001 0.001 0.001

-0.000 0.001 0.002 0.002 0.001 0.000

-0.003

-0.002

-0.002

-0.003

-0.004

-0.004

-0.003

-0.003

-0.004

-0.005

-0.006

-0.006

-0.007

-0.007

-0.007

-0.005

-0.005

-0.005

-0.005

-0.005

-0.00

-0.004

-0.004

-0.004

-0.004

-0.003 ERROR(T)

PER CENT 0.014 0.014 0.014 0.014 0.014 0..014 0 014

0. 014 0 014

0. 014

0. 014

0. 014

0. 014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 0.014 S

S S

b b

I

VARIABLE TABLE

SUMMARY

SAMPLE DELTA TEMP I TEMP 2 TEMP 3 TEMP 4, TEMP 5 TEMP 6

NUMBER MINS DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F 1

0 86.6410 86.970 86.530 86.630 86.280 87.3410 2

15 86.660 86.9410 86.500 86.620 86.280 87.380 3

30 86.6410 86.960 86.500 86.610 86.280 87.330 4

115 86.610 86.9140 86.500 86.610 86.280 87.3410 5

60 86.6410 86.950 86.4190 86.610 86.270 87.350 6

75 86.600 86.950 86.510 86.610 86.2410 87.330 7

90 86.610 86.9410 86.500 86.620 86.260 87.300 8

105 86.620 86.930 86.4190 86.590 86.270 87.330 9

120 86.560 86.9410 86.510 86.600 86.2410 87.310 10 135 86.610 86.900 86.510 86.600 86.2410 87.310 11 150

.86.610 86.910 86.4190 86.590 86.250 87.310 12 165 86.600 86.9110 86.500 86.600

.86.230 87.300 13 180 86.610 86.910 86.4180 86.600 86.230 87.300 111 195 86.590 86.890 86.4180 86.590 86.260 87.300 15 210 86.620 86.900 86.4160 86.580 86.220 87.300 16 225 86.600 86.920 86.1160 86.580 86.230 87.300 17 2110 86.560 86.9110 86.1190 86.570 86.220 87.300 18 255 86.590 86.900 86.1160 86.600 86.220 87.290 19 270 86.600 86.890 86.1160 86.580 86.220 87.280 20 285 86.600 86.910 86.1160 86.570 86.220 87.320 21 300 86.550 86.860 86.1150 86.570 86.220 87.300 22 315 86.620 86.880 86.4410 86.590 86.220 87.300 23

-330 86.550 86.870 86.1460 86.570 86.230 87.260 211 3115 86.610 86.880 86.1160 86.560 86.220 87.290 25 360 86.600 86.890 86.1160 86.560 86.220 87.300 26 375 86.580 86.890 86.1150 86.600 86.190 87.290 27 390 86.560 86.870 86.1110 86.570 86.210 87.260 28 1105 86.570 86.870 86.1170 86.560 86.220 87.270 29 1120 86.560 86.900 86.1150 86.550 86.200 87.260 30 1135 86.570 86.880 86.1160 86.5110 86.210 87.280 31 1150 86.570 86.860 86.1150 86.560 86.200 87.260 32 1165 86.530 86.880 86.1160 86.550 86.200 87.250.

33 1180 86.5110 86.850 86.1130 86.530 86.190 87.260 311 1195 86.510 86.860 86.1120 86.5110 86.170 87.250 35 510 86.580 86.860 86.1130 86.550 86.180 87.250 36 525 86.550 86.860 86.1130 86.520 86.170 87.250 37 5110 86.1190 86.850 86.1120 86.5110 86.190 87.210 38 555 86.550 86.850 86.4120 86.530 86.180 87.230 39 570 86.510 86.8110 86.1110 86.510 86.170 87.230 110 585 86.530 86.820 86.1100 86.5110 86.180 87.220 411 600 86.1160 86.830 86.1120 86.500 86.150 87.220 112 615 86.520 86.820 86.1100 86.500 86.160 87.220 113 630 86.1170 86.8110 86.1100 86.520 86.160 87.220 441 6115 86.4410 86.790 86.380 86.510 86.1110 87.210 115 660 86.1180 86.800 86.1100 86.510 86.150 87.180 116 675 86.1180 86.810 86.1100 86.1180 86.1110 87.200 417 690 86.500 86.800 86.390 86.1190 86.150 87.190 118 705 86.1160 86.800 86.390 86.1180 86.110 87.170 119 720 86.1160 86.780 86.370 86.1180 86.1110 87.190 50 735 86.1120 86.790 86.390 86.1170 86.130 87.180

VARIABLE TABLE

SUMMARY

SAMPLE DELTA TEMP 1 TEMP 2 TEMP 3 TEMP 4 TEMP 5 TEMP 6

NUMBER MINS DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F 51 750 86.440 86.790 86.380 86.470 86.120 87.160 52 765 86.390 86.780 86.360 86.460 86.100 87.170 53 780 86.420 86.780 86.370 86.450 86.060 87.170 54 795 86.440 86.760 86.360 86.460 86.080 87.150 55 810 86.400 86.760 86.330 86.460 86.070 87.150 56 825 86.470 86.750 86.330 86.450 86.080 87.150 57 840 86.380 86.750 86.330 86.440 86.070 87.150 58 855 86.450 86.760 86.330 86.450 86.080 87.140 59 870 86.420 86.740 86.350 86.420 86.060 87.130 60 885 86.400 86.720 86.290 86.420 86.080 87.130 61 900 86.370 86.750 86.300 86.430 86.050 87.120 62 915 86.350 86.730 86.300 86.430 86.080 87.120 63 930 86.350 86.750 86.310 86.400 86.060 87.120 64 945 86.330 86.710 86.300 86.400 86.050 87.110 65 960 86.370 86.710 86.300 86.370 86.020 87.090 66 975 86.340 86.690 86.270 86.390 86.030 87.070 67 990 86.330 86.700 86.270 86.360 85.990 87.100 68 1005 86.350 86.690 86.290 86.370 86.020 87.080 69 1020 86.360 86.700 86.270 86.360 86.000 87.090 70 1035 86.320 86.680 86.260 86.360 86.010 87.080 71 1050 86.310 86.690 86.270 86.350 86.000 87.070 72 1065 86.300 86.680 86.270 86.340 86.000 87.060 73 1080 86.320 86.670 86.240 86.360 85.990 87.060 74 1095 86.320 86.690 86.230 86.340 85.990 87.060 75 1110 86.290 86.660 86.250 86.380 85.990 87.050 76 1125 86.310 86.650 86.230 86.350 85.970 87.050 77 1140 86.340 86.630 86.230 86.350 85.970 87.040 78 1155 86.280 86.650 86.240 86.330 85.970 87.050 79 1170 86.320 86.670 86.230 86.340 85.990 87.040 80 1185 86.280 86.670 86.200 86.310 85.950 87.040 81 1200 86.290 86.640 86.220 86.310 85.990 87.010 82 1215 86.290 86.660 86.190 86.320 85.950 87.010 83 1230 86.300 86.640 86.210 86.310 85.960 87.000 84 1245 86.230 86.640 86.210 86.290 85.980 87.000 85 1260 86.270 86.590 86.210 86.320 85.960 87.000 86 1275 86.240 86.630 86.190 86.310 85.960 87.000 87 1290 86.240 86.610 86.200 86.290 85.930 87.000 88 1305 86.240 86.600 86.180 86.280 85.930 87.010 89 1320 86.250 86.620 86.180 86.260 85.930 86.990 90 1335 86.230 86.590 86.150 86.290 85.920 86.980 91 1350 86.220 86.580 86.140 86.240 85.920 86.970 92 1365 86.210 86.590 86.170 86.250 85.920 86.960 93 1380 86.270 86.590 86.160 86.250 85.880 86.950 94 1395 86.200 86.550 86.140 86.240 85.910 86.950 95 1410 86.180 86.560 86.130 86.230 85.890 86.930 96 1425 86.190 86.570 86.140, 86.250 85.890 86.940 97 1440 86.190 86.560 86.140 86.220 85.890 86.920 98 1455 86.170 86.560 86.120 86.230 85.860 86.930 END OF TABLE

VARIABLE TABLE

SUMMARY

SAMPLE DELTA TEMP 7 TEMP 8 TEMP 9 TEMP 10 TEMP 11 TEMP 12 NUMBER MINS DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F 1

0 86.620 87.480 87.036 87.330 87.110 87.460 2

15 86.610 87.470 87.110 87.370 87.110 87.410 3

30 86.620 87.450 87.020 87.330 87.100 87.440 14 45 86.600 87.480 87.000 87.330 87.100 87.430 5

60 86.610 87.500 87.040 87.320 87.090 87.380 6

75 86.610 87.460 87.030 87.330 87.100 87.370 7

90 86.590 87.480 87.030 87.330 87.090 87.400 8

105 86.590 87.430 87.030 87.320 87.110 87.450 9

120 86.590 87.460 87.010 87.310 87.060

• 87.350 10 135 86.600 87.420 87.030 87.320 87.070 87.430 11 150 86.560 87.430 87.020 87.280 87.080 87.400 12 165 86.580 87.430 87.070 87.270 87.060 87.370 13 180 86.570 87.420 87.010 87.290 87.060 87.380 14 195 86.570 87.430 87.000 87.280 87.060 87.410 15 210 86.560 87.470 86.980 87.290 87.050 87.370 16 225 86.570 87.410 87.000 87.280 87.060 87.350 17 240 86.550 87.420 87.040 87.300 87.050 87.390 18 255 86.560 87.410 86.990 87.280 87.060 87.330 19 270 86.540 87.420 86.970 87.290 87.060 87.380 20 285 86.550 87.440 86.970 87.290 87.060 87.350 21 300 86.550 87.410 87.060 87.280 87.060 87.350 22 315 86.550 87.410 86.980 87.260 87.040 87.290 23 330 86.550 87.400 87.050 87.280 87.060 87.370 24 345 86.560 87.410 86.970 87.250 87.050 87.380 25 360 86.540 87.400 86.990 87.300 87.060 87.330 26 375 86.530 87.410 87.010 87.250 87.040 87.350 27 390 86.530 87.410 86.970 87.240 87.030 87.300 28 405 86.520 87.380 86.990 87.290 87.050 87.370 r

29 420 86.520 87.410 86.980 87.250 87.030 87.370 30 435 86.520 87.390 86.970 87.250 87.040 87.350 31 450 86.520 87.390 87.030 87.270 87.030 87.360 32 465 86.500 87.380 86.960 87.250 87.030 87.300 33 480 86.500 87.400 87.000 87.270 87.020 87.380 34 495 86.500 87.390 86.960 87.200 87.000 87.350 35 510 86.530 87.390 86.980 87.240 87.010 87.320 36 525 86.500 87.380 86.950 87.230 87.000 87.320 37 540 86.510 87.370 86.980 87.240 87.010 87.310 38 555 86.480 87.350 87.000 87.210 87.010 87.330 39 570 86.490 87.350 86.940 87.230 87.000 87.320 40 585 86.490 87.350 86.930 87.200 87.000 87.370 41 600 86.480 87.360 86.9140 87.210 87.000 87.360 42 615 86.480 87.340 86.970 87.220 86.980 87.280 43 630 86.480 87.370 86.940 87.200 86.970 87.340 44 645 86.480 87.330 86.880 87.190 86.980 87.330 45 660 86.490 87.330 86.900 87.240 87.000 87.270 46 675 86.480 87.340 86.920 87.170 86.960 87.300 47 690 86.460 87.330 86.920 87.220 86.960 87.310 48 705 86.450 87.310 86.910 87.180 86.970 87.310 49 720 86.440 87.320 86.870 87.190 86.960 87.320 50 735 86.440 87.310 86.930 87.160 86.950 87.310

0 0

0 VARIABLE TABLE

SUMMARY

SAMPLE DELTA TEMP 7 TEMP 8 TEMP 9 TEMP 10 TEMP 11 TEMP 12 NUMBER MINS DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F 51 750 86.450 87.310 86.89,0 87.150 86.950 87.330 52 765 86.420 87.300 86.920 87.200 86.950 87.300 53 780 86.430 87.310 86.900 87.160 86.950 87.310 54 795 86.420 87.290 86.880 87.140 86.920 87.260 55 810 86.420 87.300 86.890 87.150 86.940 87.280 56 825 86.420 87.260 86.890 87.140 86.930 87.290 57 840 86.400 87.260 86.870 87.140 86.930 87.240 58 855 86.400 87.280 86.850 87.110 86.890 87.230 59 870 86.400 87.260 86.880 87.110 86.890 87.230 60 885 86.390 87.280 86.880 87.140 86.880 87.280 61 900 86.380 87.260 86.860 87.120 86.910 87.250 62 915 86.370 87.270 86.840 87.130 86.880 87.260 63 930 86.370 87.260 86.840 87.090 86.880 87.200 64 945 86.360 87.220 86.830 87.120 86.880 87.240 65 960 86.360 87.240 86.850 87.080 86.860 87.240 66 975 86.350 87.220 86.810 87.100 86.880 87.260 67 990 86.350 87.240 86.870 87.070 86.860 87.240 68 1005 86.340 87.210 86.820 87.080 86.850 87.220 69 1020 86.330 87.220 86.830 87.070 86.860 87.210 70 1035 86.3110 87.190 86.810 87.080 86.870 87.210 71 1050 86.330 87.210 86.820 87.060 86.850 87.220 72 1065 86.330 87.190 86.790 87.060 86.840 87.250 73 1080 86.320 87.200 86.790 87.060 86.850 87.210 74 1095 86.310 87.190 86.790 87.070 86.820 87.220 75 1110 86.310 87.160 86.790

'87.060 86.810 87.210 76 1125 86.310 87.180 86.810 87.060 86.820 87.200 77 1140 86.330 87.160 86.750 87.050 86.810 87.190 78 1155 86.310 87.170 86.790 87.060 86.810 87.200 79 1170 86.310 87.160 86.770 87.040 86.790 87.200 80 1185 86.300 87.170 86.780 87.050 86.800 87.180 81 1200 86.290 87.170 86.760 87.030 86.810 87.200 82 1215 86.290 87.200 86.740 87.000 86.800 87.170 83 1230 86.290 87.150 86.760 87.040 86.780 87.160 84 1245 86.270 87.150 86.730 86.990 86.790 87.130 85 1260 86.290 87.150 86.740 86.980 86.760 87.110 86 1275 86.260 87.140 86.710 87.000 86.770 87.170 87 1290 86.250 87.100 86.750 86.980 86.760 87.110 88 1305 86.240 87.120 86.720 87.010 86.760 87.100 89 1320 86.250 87.110 86.720 86.990 86.750 87.120 90 1335 86.240 87.130 86.710 86.990 86.730 87.120 91 1350 86.230 87.080 86.690 86.980 86.730 87.070 92 1365 86.240 87.110 86.730 86.980 86.750 87.120 93 1380 86.220 87.100 86.680 86.970 86.760 87.070 94 1395 86.220 87.100 86.710 86.970 86.730 87.100 95 1410 86.210 87.090 86.680 86.950 86.730 87.080 96 1425 86.200 87.060 86.690 86.950 86.710 87.110 97 1440 86.190 87.060 86.670 86.930 86.710 87.050 98 1455 86.200 87.050 86.690 86.930 86.700 87.110 END OF TABLE

S 0

VARIABLE TABLE

SUMMARY

.SAMPLE NUMBER 1

2 3

4 5

6 7

8 9

10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 DELTA MINS 0

15 30 45 60 75 9o 105 120 135 150 165 180 195 210 225 240 255 270 285 300 315 330 345 360 375 390 405 420 435 450 465 480 495 510 525 540 555 570 585 600 615 630 645 660 675 690 705 720 735 TEMP 13 DEG.

F 87.220 87.190 87.200 87.170 87.150 87.180 87.170 87.200 87.170 87.130 87.170 87.150 87.120 87.150 87.140 87.120 87.140 87.120 87.090 87.100 87.170 87.080 87.170 87.160 87.090 87.170 87.060 87.150 87.120 87.110 87.130 87.100 87.150 87.120 87.080 87.080 87.080 87.060 87.060 87.080 87.100 87.040 87.100 87.040 87.100 87.060 87.060 87.040 87.080 87.050 TEMP 14 DEG.

F 87.240 87.230 87.230 87.240 87.240 87.230 87.230 87.240 87.210 87.220 87.230 87.230 87.230 87.200 87.200 87.220 87.210 87.200 87.200 87.220 87.190 87.230 87.200 87.210 87.200 87.150 87.200 87.180 87.180 87.160 87.170 87.180 87.180 87.140 87.170 87.140 87.150 87.150 87.160 87.150 87.150 87.130 87.130 87.140 87.130 87.130 87.140 87.100 87.130 87.100 TEMP 15 DEG.

F 87.330 87.350 87.270 87.320 87.330 87.310 87.310 87.280 87.340 87.310 87.300 87.280

87. 300 87.290 87.300 87.260 87.290 87.260 87.300 87.280 87.310 87.270 87.290 87.270 87.310 87.310 87.280 87.260 87.250 87.250 87.260 87.240 87.260 87.260 87.220 87.230 87.250 87.170 87.190 87.210 87.190 87.230 87.180 87.1 60 87.170 87.160 87.160 87.170 87.120 87.120 TEMP 16 DEG.

F 87.120 87.150 87.140 87.150 87.140 87.140 87.120 87.120 87.120 87.110 87.100 87.110 87.100 87.090 87.100 87.080 87.070 87.090 87.090 87.080 87.070 87.070 87.060 87.060 87.110 87.060 87.060 87.070 87.060 87.070 87.060 87.050 87.060 87.050 87.050 87.030 87.060 87.040 87.020 87.020 87.030 87.020 87.010 87.000 87.000 87.020 87.000 87.010 86.950 86.990 TEMP 17 DEG.

F 87.100

87. 100

87. 130 87.120 87.120 87.120 87.120 87.080 87.110 87.090 87.110 87.060 87.080 87.070 87.080 87.060 87.040 87.050 87.060 87.090 87.040 87.030 87.040 87.050 87.030 87.050 87.030 87.030 87.030 87.030 87.040 87.000 86.990 87.010 87.020 87.000 87.010 86.990 87.010 86.970 86.990 87.010 87.000 87.000 86.980 86.990 86.960 86.940 86.950 86.970 TEMP 18 DEG.

F 87.180 87.190 87.220 87.190 87.200 87.170 87.170 87.150 87.180 87.140 87.170 87.140 87.160 87.130 87.110 87.140 87.110 87.160 87.130 87.150 87.090 87.170 87.190 87.150 87.090 87.130 87.090 87.110 87.140 87.070 87.090 87.100 87.130 87.080 87.080 87.090 87.090 87 110 87.110 87.120 87.080 87.080 87.120 87.080 87.060 87.020 87.010 87.010 87.070 86.990

-o VARIABLE TABLE

SUMMARY

SAMPLE DELTA TEMP 13 TEMP 14 TEMP 15 TEMP 16 TEMP 17 TEMP 18 NUMBER MINS DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F 51 750 87.060 87.120 87.160 86.960 86.940 87.020 52 765 87.020 87.100 87.130 86.960 86.950 87.050 53 780 87.080 87.090 87.140 86.980 86.950 87.010 54 795 87.050 87.100 87.120 86.960 86.950 86.980 55 810 86.980 87.080 87.120 86.960 86.940 86.990 56 825 87.010 87.080 87.110 86.950 86.920 87.000 57 840 87.040 87.050 87.140 86.920 86.920 87.000 58 855 87.010 87.050 87.090 86.960 86.910 87.000 59 870 87.010 87.060 87.090 86.940 86.910 86.970 60 885 86.980 87.060 87.090 86.940 86.900 86.980 61 900 86.990 87.040 87.100 86.930 86.900 87.020 62 915 87.010 87.050 87.090 86.920 86.890 86.990 63 930 87.000 87.060 87.060 86.910 86.900 86.930 64 945 87.030 87.050 87.090 86.880 86.880 86.990 65 960 86.980 87.020 87.080 86.900 86.880 86.990 66 975 86.970 87.040 87.050 86.930 86.870 86.990 67 990 86.970 87.020 87.070 86.910 86.870 86.970 68 1005 86.980 87.030 87.050 86.870 86.860 86.940 69 1020 86.980 87.030 87.090 86.880 86.870 86.960 70 1035 86.970 87.000 87.060 86.860 86.860 86.980 71 1050 86.940 87.010 87.060 86.890 86.860 86.890 72 1065 86.950 87.010 87.010 86.880 86.850 86.950 73 1080 86.950 87.000 87.020 86.870 86.850 86.960 74 1095 86.960 87.010 87.030 86.860 86.840 86.910 75 1110 86.950 87.010 87.000 86.840 86.840 86.910 76 1325 86.880 86.970 87.050 86.850 86.820 86.950 77 1140 86.900 86.970 86.990 86.850 86.830 86.940 78 1155 86.930 86.950 87.030 86.840 86.840 86.850 79 1170 86.950 86.970 87.010 86.850 86.820 86.890 80 1185 86.940 86.980 87.020 86.850 86.820 86.840 81 1200 86.940 86.980 86.990 86.820 86.810 86.860 82 1215 86.930 86.930 87.020 86.840 86.810 86.820 83 1230 86.910 86.950 86.990 86.840 86.810 86.860 84 1245 86.940 86.950 86.970 86.830 86.820 86.890 85 1260 86.900 86.910 86.970 86.840 86.830 86.850 86 1275 86.900 86.950 86.970 86.820 86.800 86.810 87 1290 86.900 86.940 86.990 86.810 86.790 86.800 88 1305 86.900 86.940 86.970 86.810 86.800 86.850 89 1320 86.900 86.890 87.000 86.800 86.800 86.820 90 1335 86.890 86.910 86.93' 36.770 86.770 86.850 91 1350 86.850 86.920 86.910 86.780 86.800 86.790 92 1365 86.870 86.910 86.960 86.760 86.780 86.820 93 1380 86.880 86.910 86.940 86.750 86.760 86.770 94 1395 86.840 86.880 86.940 86.770 86.760 86.800 95 1410 86.850 86.900 86.930 86.750 86.760 86.800 96 1425 86.850 86.900 86.920 86.740 86.760 86.780 97 1440 86.820 86.880 86.880 86.740 86.7140 86.780 98 1455 86.840 86.860 86.910 86.740 86.760 86.780 END OF TABLE!

VARIABLE TABLE

SUMMARY

SAMPLE DELTA TEMP 19 TEMP 20 TEMP 21 TEMP 22 TEMP 23 TEMP 24 NUMBER MINS DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F 1

0 87.050

• 87.560 87.100 87.790 87.740 87.540 2

15 87.120 87.610 87.110 87.760 87.600 87.490 3

30 87.040 87.550 87.080 87.770 87.620 87.540 4

45 87.030 87.600 87.090 87.750 87.570 87.510 5

60 87.130 87.540 87.090 87.730 87.530 87.500 6

75 87.110 87.540 87.090 87.750 87.540 87.500 7

90 87.040 87.560 87.106 87.730 87.550 87.530 8

105 87.040 87.550 87.060 87.750 87.590 87.500 9

120 87.020 87.560 87.060 87.710 87.590 87.500 10 135 87.020 87.500 87.040 87.750 87.570 87.480 11 150 87.030 87.510 87.060 87.740 87.700 87.490 12 165 87.050 87.520 87.060 87.710 87.540 87.470 13 180 87.070 87.550 87.070 87.730 87.530 87.460 14 195 87.010 87.530 87.060 87.750 87.600 87.460 15 210 87.000 87.530 87.040 87.730 87.550 87.450 16 225 87.030 87.510 87.030 87.750 87.530 87.470 17 240 86.990 87.470 87.030 87.720 87.600 87.470 18 255 86.980 87.500 87.040 87.720 87.520 87.430 19 270 87.030 87.520 87.040 87.720 87.500 87.450 20 285 87.020 87.530 87.030 87.720 87.470 87.450 21 300 86.990 87.520 87.040 87.720 87.510 87.480 22 315 87.050 87.520 87.020 87.700 87.520 87.450 23 330 86.980 87.490 87.010 87.700 87.520 87.460 24 345 87.010 87.510 87.020 87.750 87.530 87.450 25 360 86.980 87.550 87.030 87.700 87.530 87.450 26 375 87.000 87.540 87.020 87.710 87.550 87.450 27 390 86.990 87.520 86.980 87.700 87.510 87.450 28 405 86.980 87.520 87.010 87.710 87.490 87.420 29 1420 87.020 87.480 87.020 87.720 87.570 87.410 30 435 86.950 87.500 87.010 87.720 87.520 87.410 31 450 86.990 87.480 87.010 87.710

-87.540 87.410 32 465 86.950 87.460 87.000 87.710 87.610 87.400 33 480 86.940 87.500 86.990 87.690 87.540 87.440 34 495 86.950 87.480 86.970 87.710 87.610 87.410 35 510 87.000 87.500 86.980 87.710 87.480 87.400 36 525 86.950 87.470 86.980 87.690 87.530 87.400 37 540 86.950 87.460 86.990 87.690 87.490 87.400 38 555 86.990 87.500 86.960 87.670 87.590 87.390 39 570 86.940 87.460 86.970 87.710 87.460 87.400 40 585 86.960 87.460 86.970 87.700 87.520 87.390 41 600 86.960 87.420 86.970 87.720 87.580 87.390 42 615 86.900 87.430 86.960 87.690 87.530 87.380 43 630 86.950 87.450 86.980 87.710 87.510 87.380 44 645 86.910 87.450 86.950 87.700 87.640 87.360 45 660 86.900 87.430 86.960 87.700 87.550 87.360 46 675 86.920 87.430 86.930 87.680 87.610 87.320 47 690 86.900 87.420 86.940 87.680 87.630 87.350 48 705 86.910 87.420 86.930 87.640 87.570 87.340 49 720 86.890 87.400 86.940 87.660 87.580 87.340 50 735 86.900 87.410 86.9140 87.660 87.540 87.330

VARIABLE TABLE

SUMMARY

SAMPLE DELTA TEMP 19 TEMP 20 TEMP 21 TEMP 22 TEMP 23 TEMP 24 NUMBER MINS DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F 51 750 86.880 87.390 86.930 87.680 87.610 87.330 52 765 86.880 87.390 86.940 87.650 87.620 87.310 53 780 86.880 87.390 86.910 87.660 87.590 87.340 54 795 86.870 87.380 86.910 87.660 87.550 87.320 55 810 86.860 87.390 86.910 87.650 87.580 87.320 56 825 86.860 87.390 86.910 87.640 87.540 87.300 57 840 86.830 87.350 86.900 87.640 87.440 87.310 58 855 86.820 87.370 86.890 87.620 87.570 87.270 59 870 86.840 87.360 86.880 87.630 87.510 87.280 60 885 86.860 87.350 86.870 87.630 87.600 87.280 61 900 86.820 87.340 86.870 87.600 87.590 87.260 62 915 86.820 87.340 86.860 87.620 87.470 87.280 63 930 86.850 87.330 86.870 87.610 87.500 87.270 64 945 86.810 87.330 86.860 87.590 87.540 87.290 65 960 86.830 87.310 86.860 87.610 87.520 87.270 66 975 86.800 87.320 86.860 87.600 87.520 87.260 67 990 86.810 87.290 86.840 87.630 87.520 87.250 68 1005 86.810 87.300 86.850 87.600 87.490 87.240 69 1020 86.770 87.280 86.840 87.590 87.330 87.240 70 1035 86.790 87.340 86.820 87.590 87.500 87.250 71 1050 86.780 87.300 86.830 87.610 87.370 87.230 72 1065 86.760 87.270 86.820 87.570 87.460 87.210 73 1080 86.780 87.270 86.830 87.580 87.480 87.240 74 1095 86.770 87.260 86.810 87.570 87.480 87.210 75 1110 86.760 87.260 86.810 87.570 87.500 87.210 76 1125 86.750 87.260 86.810 87.550 87.460 87.200 77 1140 86.770 87.270 86.810 87.570 87.500 87.200 78 1155 86.750 87.250 86.800 87.560 87.430 87.180 79 1170 86.750 87.280 86.810 87.590 87.540 87.190 80 1185 86.740 87.260 86.790 87.570 87.470 87.190 81 1200 86.760 87.230 86.800 87.550 87.440 87.210 82 1215 86.720 87.200 86.770 87.570 87.290 87.210 83 1230 86.760 87.240 86.790 87.520 87.250 87.170 84 1245 86.750 87.220 86.770 87.470 87.450 87.160 85 1260 86.740 87.270 86.780 87.560 87.320 87.160 86 1275 86.710 87.210 86.760 87.550 87.400 87.170 87 1290 86.720 87.200 86.770 87.550 87.350 87.160 88 1305 86.750 87.200 86.740 87.5140 87.360 87.150 89 1320 86.700 87.200 86.750 87.530 87.360 87.150 90 1335 86.680 87.170 86.740 87.500 87.400 87.140 91 1350 86.700 87.180 86.740 87.510 87.4140 87.120 92 1365 86.700 87.170 86.720 87.520 87.470 87.130 93 1380 86.660 87.170 86.710 87.510 87.450 87.120 94 1395 86.670 87.170 86.710 87.480 87.420 87.110 95 1410 86.680 87.170 86.710 87.490 87.350 87.120 96 1425 86.650 87.160 86.720 87.520 87.400 87.100 97 1440 86.640 87.170 86.680 87.510 87.450 87.090 98 1455 86.670 87.170 86.700 87.480 87.430 87.090 END OF TABLE

]

0 S

VARIABLE TABLE

SUMMARY

SAMPLE DELTA TEMP 25 TEMP 26 TEMP 27 TEMP 28 TEMP 29 TEMP 30 NUMBER MINS DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F 1

0 87.100 87.320 87.410 87.910 87.370 87.180 2

15 87.120 87.330 87.410 87.920 87.350 87.190 3

30 87.100 87.310 87.410 87.930 87.380 87.180 4

45 87.110 87.320 87.400 87.900 87.360 87.200 5

60 87.110 87.310 87.430 87.830 87.330 87.190 6

75 87.120 87.300 87.430 87.890 87.330 87.150 7

90 87.110 87.290 87.410 87.850 87.360 87.180 8

105 87.120 87.300 87.430 87.890 87.330 87.170 9

120 87.110 87.300 87.420 87.820 87.330 87.170 10 135 87.130 87.300 87.430 87.850 87.310 87.150 11 150 87.100 87.290 87.400 87.920 87.320 87.130 12 165 87.110 87.300 87.400 87.880 87.300 87.140 13 180 87.110 87.300 87.390 87.860 87.290 87.160 14 195 87.080 87.300 87.410 87.900 87.300 87.130 15 210 87.080 87.290 87.380 87.820 87.270 87.140 16 225 87.060 87.290 87.400 87.900 87.270 87.140 17 240 87.050 87.300 87.390 87.900 87.280 87.130 18 255 87.080 87.290 87.390 87.910 87.280 87.150 4

19 270 87.090 87.290 87.380 87.910 87.270 87.130 20 285 87.050 87.300 87.390 87.890 87.260 87.130 21 300 87.070 87.290 87.400 87.920 87.250 87.130 22 315 87.080 87.290 87.390 87.910 87.260 87.130 23 330 87.080 87.290 87.400 87.900 87.250 87.110 24 345 87.060 87.290 87.360 87.880 87.240 87.120 25 360 87.070 87.290 87.400 87.890 87.240 87.120 26 375 87.060 87.300 87.390 87.910 87.220 87.130 27 390 87.050 87.280 87.370 87.910 87.230 87.130 28 405 87.080 87.280 87.370 87.860 87.250 87.140 29 420 87.060 87.290 87.350 87.910 87.240 87.120 30 435 87.070 87.280 87.370 87.840 87.230 87.120 31 450 87.060 87.280 87.380 87.900 87.240 87.100 32 465 87.050 87.290 87.350 87.900 87.230 87.080 33 480 87.050 87.270 87.390 87.880 87.210 87.120 34 495 87.050 87.260 87.340 87.910 87.240 87.100 35 510 87.040 87.260 87.350 87.910 87.210 87.100 36 525 87.030 87.260 87.360 87.890 87.230 87.080 37 540 87.030 87.290 87.350 87.890 87.230 87.080 38 555 87.030 87.260 87.360 87.870 87.210 87.080 39 570 87.020 87.260 87.330 87.870 87.200 87.080 40 585 87.030 87.260 87.330 87.840 87.190 87.080 41 600 87.020 87.240 87.330 87.890 87.220 87.060 42 615 87.010 87.250 87.350 87.870 87.220 87.070 43 630 87.010 87.240 87.340 87.850 87.220 87.030 44 645 86.970 87.240 87.330 87.860 87.220 87.050 45 660 86.990 87.240 87.320 87.850 87.220 87.040 46 675 86.980 87.2140 87.310 87.870 87.210 87.060 47 690 86.950 87.220 87.320 87.850 87.190 87.060 48 705 86.980 87.230 87.330 87.830 87.190 87.020 49 720 86.970 87.220 87.310 87.850 87.200 87.010 50 735 86.960 87.220 87.290 87.820 87.160 87.010

VARIABLE TABLE

SUMMARY

SAMPLE DELTA TEMP 25 TEMP 26 TEMP 27 TEMP 28 TEMP 29 TEMP 30 NUMBER MINS DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F 51 750 86.980 87.220 87.280 87.840 87.180 87.020 52 765 86.970 87.210 87.310 87.830 87.180 87.000 53 780 86.960 87.210 87.310 87.840 87.170 87.040 54 795 86.930 87.200 87.300 87.820 87.160 86.990 55 810 86.940 87.190 87.280 87.810 87.160 87.000 56 825 86.940 87.190 87.300 87.830 87.140 87.010 57 840 86.920 87.180 87.280 87.810 87.160 86.980 58 855 86.920 87.190 87.270 87.810 87.150 87.000 59 870 86.900 87.200 87.260 87.800 87.160 86.970 60 885 86.920 87.190 87.250 87.790 87.150 86.980 61 900 86.910 87.180 87.230 87.800 87.160 86.970 62 915 86.900 87.170 87.250 87.770 87.140 86.970 63 930 86.880 87.170 87.250 87.780 87.140 86.960 64 945 86.890 87.170 87.250 87.800 87.130 86.960 65 960 86.890 87.150 87.240 87.790 87.120 86.950 66 975 86.860 87.170 87.210 87.780 87.130 86.940 67 990 86.870 87.150 87.240 87.780 87.150 86.960 68 1005 86.870 87.150 87.220 87.750 87.100 86.900 69 1020 86.870 87.160 87.220 87.780 87.110 86.920 70 1035 86.860 87.140 87.220 87.790 87.120 86.910 71 1050 86.860 87.150 87.210 87.770 87.100 86.920 72 1065 86.860 87.130 87.210 87.790 87.100 86.910 73 1080 86.840 87.140 87.210 87.790 87.100 86.920 74 1095 86.830 87.140 87.190 87.780 87.100 86.920 75 1110 86.830 87.130 87.200 87.760 87.110 86.890 76 1125 86.820 87.140 87.190 87.740 87.090 86.900 77 1140 86.810 87.120 87.210 87.760 87.090 86.890 78 1155 86.810 87.150 87.190 87.750 87.070 86.910 79 1170 86.840 87.120 87.190 87.750 87.080 86.890 80 1185 86.820 87.120 87.190 87.730 87.090 86.910 81 1200 86.810 87.130 87.180 87.750 87.090 86.870 82 1215 86.810 87.140 87.180 87.730 87.090 86.860 83 1230 86.800 87.100 87.170 87.730 87.060 86.880 84 1245 86.780 87.100 87.170 87.700 87.060 86.850 85 1260 86.810 87.100 87.150 87.670 87.060 86.830 86 1275 86.760 87.100 87.160 87.660 87.050 86.850 87 1290 86.800 87.090 87.180 87.660 87.050 86.870 88 1305 86.760 87.090 87.160 87.660 87.050 86.850 89 1320 86.770 87.090 87.130 87.640 87.040 86.830 90 1335 86.750 87.080 87.160 87.650 87.040 86.830 91 1350 86.740 87.080 87.120 87.650 87.040 86.820 92 1365 86.750 87.080 87.130 87.660 87.030 86.830 93 1380 86.760 87.070 87.130 87.640 87.020 86.820 94 1395 86.730 87.070 87.1101 87.650 87.010 86.800 95 1410 86.730 87.070 87.150 87.610 87.010 86.800 96 1425 86.750 87.060 87.130 87.620 87.010 86.770 97 1440 86.730 87.040 87.120 87.630 86.980 86.790 98 1455 86.690 87.040 87.120 87.620 87.010 86.790 END OF TABLE

0 S

VARIABLE TABLE

SUMMARY

SAMPLE NUMBER 2

3 5

6 7

8 9

10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 418 49 50 DELTA MINS 0

15 30 45 60 75 90 105 120 135 150 165 180 195 210 225 240 255 270 285 300 315 330 345 360 375 390 405 420 435 450 465 480 495 510 525 540 555 570 585 600 615 630 645 660 675 690 705 720 735 PRES 1

PSIA

58. 432

58. 432 58.43 1 58.431

58. 43 1

58. 431

58. 43 1 58.431

58. 431 58.431

58. 430 58.430

58. 430

58. 430

58. 430

58. 430

58. 429

58. 429

58. 429 58.428 58,. 428

58. 428

58. 428

58. 428

58. 428

58. 427 58.427

58. '127 58.1127

58. p127 58.427

58. 427

58. 426

58. 426

58. 426 58.425

58. 425 58.1125

58. 424

58. 424

58. 424

58. 424

58. 423

58. 423

58. 422

58. 422

58. 422

58. 42 1

58. 42 1 58.420 HUM 1

FRACTION DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED HUM 2

FRACTION DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETE D DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DEL ETED DELETED DEL ETED HUM 3

FRACTION DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED HUM 4

FRACTION 0.652 0.637 0.623 0.640 0.651 0.660 0.636 0.654 0.633 0.655 0.650 0.672 0.658 0.629 0.673 0.665 0.644 0.662 0.660 0.652 0.626 0.637 0.678 0.665 0.656 0.659 0.673 0.657 0.662 0.649 0.654 0.645 0.657 0.655 0.666 0.668 0.647 0.632 0.672 0.65,1 0.659 0.647 0.6115 0.650 0.668 0.665 0.649 0.686 0.643 0.642 HUM 5

FRACTION 0.658 0.69 1 0.637 0.650 0.668 0.658 0.669 0.666 0.676 0.683 0.680 0.673 0.688 0.674 0.658 0.672 0.682 0.682 0.69 1 0.657 0.665 0.673 0.660 0.682 0.664 0.670 0.653 0.697 0.657 0.677 0.682 0.683 0.665 0.672 0.675 0.666 0.678 0.658 0.682 0.680 0.683 0.656 0.647 0.669 0.685 0.659 0.638 0.685 0.674 0.674

0 S

VARIABLE TABLE

SUMMARY

SAMPLE NUMBER 51 52 53 511 55 56 57 58 59 60 61 62 63 611 65 66 67 68 69 70 71 72 73 711 75 76 77 78 79 80 81 82 83 811 85 86 87 88 89 90 91 92 93 911 95 96 97 98 DELTA MINS 750 765 780 795 810 825 8110 855 870 885 900 915 930 9115 960 975 990 1005 1020 1035 1050 1065 1080 1095 1110 1125 11410 1155 1170 1185 1200 1215 1230 12115 1260 1275 1290 1 305 1320 1335 1350 1365 1380 1395 11110 11125 11110 11155 PRES 1

PS IA 58.1120 58.41119 58.1119 58.41118 58.4118 58.1117 58.4116 58.1116 58.1116 58.1115 58.1115 58.4111 58.4141 58.14 1

58.1113 58.4112 58.11 58.11 58.11 58.411 58.11 58.1110 58.1110 58.1110 58.1110 58.4109 58.41109 58.41107 58.4107 58.4107 58.4107 58.4106 58.4106 58.4105 58.41105 58.41011 58.1103 58.4103 58.41102 58.1102 58.4101 58.4101 58.41100

58. 399

58. 399

58. 398

58. 397

58. 396 HUM4 1

HUM 2

FRACTION FRACTION DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETE D DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETE[

DELETED DELETE[

END OF TABLE HUM 3

FRACTION DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED DELETED HUM 41 FR ACT ION 0.6417 0.662 0.652 0.66 1 0.652 0.6418 0.6417 0.6413 0.6741 0.657 o.6413 0.652 0.6541 0.661 0.650 0.650 0.6417 0.6641 0.689 0.669 0.667 0.656 0.632 0.652 0.686 0.669 0.6148 0.660 0.687 0.659 0.6541 0.665 0.6410 0.662 0.670 o.6418 0.658 0.677 0.66 3 0.67 1 0.657 0.671 0.685 0.651 0.663 0.660 0.677 0.6741 HUM 5

FRACTION 0.672 0.67 1 0.61 0.687 0.678 o.686 0.6419 0.681 o0.6416 0.680 0.674 0.688 0.673 0.67 9 o.688 o.6841 0.67 3 0.690 0.670 0.66 1 0.666 0.67 1 0.650 0.692 0.657 0.6417 0.67 2 0.67 1 0.671 0.678 0.650 o.6416 0.677 0.656 0.66 1 0.683 0.677 0.700 0.690 0.688 0.67 6 0.663 0.696 o.686 0.6641 0.667 0.693 0.685

VARIABLE TABLE

SUMMARY

SAMPLE DELTA HUM 6 HUM 7 HUM 8 HUM 9 HUM 10 NUMBER MINS FRACTION FRACTION FRACTION FRACTION FRACTION 1

0 DELETED DELETED 0.621 0.633 0.631 2

15 DELETED DELETED 0.619 0.633 0.631 3

30 DELETED DELETED 0.616 0.633 0.631 4

45 DELETED DELETED 0.617 0.632 0.635 5

60 DELETED DELETED 0.617 0.634 0.629 6

75 DELETED DELETED 0.620 0.623 0.627 7

90 DELETED DELETED 0.625 0.634 0.634 8

105 DELETED DELETED 0.621 0.635 0.638 9

120 DELETED DELETED 0.621 0.641 0.633 10 135 DELETED DELETED 0.624 0.631 0.632 11 150 DELETED DELETED 0.623 0.645 0.636 12 165 DELETED DELETED 0.623 0.634 0.633 13 180 DELETED DELETED 0.622 0.635 0.627 14 195 DELETED DELETED 0.619 0.624 0.631 15 210 DELETED DELETED 0.621 0.633 0.628 16 225 DELETED DELETED 0.620 0.633 0.633 17 240 DELETED DELETED 0.627 0.641 0.635 18 255 DELETED DELETED 0.620 0.637 0.644 19 270 DELETED DELETED 0.619 0.642 0.632 20 285 DELETED DELETED 0.617 0.635 0.633 21 300 DELETED DELETED 0.621 0.637 0.627 22 315 DELETED DELETED 0.626 0.632 0.634 23 330 DELETED DELETED 0.625 0.634 0.637 24 345 DELETED DELETED 0.621 0.634 0.633 25 360 DELETED DELETED 0.626 0.635 0.632 26 375 DELETED DELETED 0.628 0.635 0.635 27 390 DELETED DELETED 0.626 0.639 0.635 28 405 DELETED DELETED 0.621 0.639 0.628 29 420 DELETED DELETED 0.626 0.635 0.636 30 435 DELETED DELETED 0.623 0.637 0.640 31 450 DELETED DELETED 0.615 0.633 0.631 32 465 DELETED DELETED 0.622 0.634 0.643 33 480 DELETED DELETED 0.621 0.637 0.633 34 495 DELETED

'DELETED 0.619 0.636 0.631 35 510 DELETED DELETED 0.621 0.639 0.638 36 525 DELETED DELETED 0.626 0.638 0.629 37 540 DELETED DELETED 0.623 0.643 0.647 38 555 DELETED DELETED 0.625 0.644 0.633 39 570 DELETED DELETED 0.62'i 0.634 0.635 40 585 DELETED DELETED 0.628 0.643 0.634 41 600 DELETED DELETED 0.624 0.636 0.644 42 615 DELETED DELETED 0.622 0.631 0.632 43 630 DELETED DELETED 0.620 0.638 0.640 411 645 DELETED DELETED 0.625 0.632 0.637 45 660 DELETED DELETED 0.622 0.641 0.640 46 675 DELETED DELETED 0.625 0.637 0.639 47 690 DELETED DELETED 0.625 0.619 0.638 48 705 DELETED DELETED 0.628 0.635 0.632 49 720 DELETED DELETED 0.63"3 0.650 0.636 50 735 DELETED DELETED 0.62,7 0.640 0.641

VARIABLE TABLE

SUMMARY

SAMPLE DELTA HUM 6 HUM,7 HUM 8 HUM 9 HUM 10 NUMBER MINS FRACTION FRACTION FRACTION FRACTION FRACTION 51 750 DELETED DELETED 0.623 0.635 0.637 52 765 DELETED DELETED 0.625 0.634 0.642 53 780 DELETED DELETED 0.623 0.641 0.635 54 795 DELETED DELETED 0.627 0.640 0.638 55 810 DELETED DELETED 0.621 0.639 0.635 56 825 DELETED DELETED 0.627 0.629 0.632 57 840 DELETED DELETED 0.624 0.637 0.643 58 855 DELETED DELETED 0.619 0.-636 0.641 59 870 DELETED DELETED.

0.631 0.644 0.638 60 885 DELETED DELETED 0.626 0.641 0.638 61 900 DELETED DELETED 0.626 0.639 0.635 62-915 DELETED DELETED 0.627 0.634 0.647 63 930 DELETED DELETED 0.627 0.648 0.639 64 945 DELETED DELETED 0.619 0.645 0.638 65 960 DELETED DELETED 0.626 0.639 0.636 66 975 DELETED DELETED 0.629 0.647 0.640 67 990 DELETED DELETED 0.627 0.635 0.639 68 1005 DELETED DELETED 0.626 0.6415 0.636 69 1020 DELETED DELETED 0.631 0.639 0.648 70 1035 DELETED DELETED 0.628 0.639 0.636 71 1050 DELETED DELETED 0.630 0.643 0.644 72 1065 DELETED DELETED 0.631 0.648 0.633 73 1080 DELETED DELETED 0.628 0.636 0.637 74 1095 DELETED DELETED 0.630 0.642 0.637 75 1110 DELETED DELETED 0.626 0.644 0.631 76 1125 DELETED DELETED 0.630 0.635 0.641 77 1140 DELETED DELETED 0.624 0.635 0.639 78 1155 DELETED DELETED 0.629 0.652 0:638 79 1170 DELETED DELETED 0.632 0.645 0.641 80 1185 DELETED DELETED 0.632 0.650 0.638 81 1200 DELETED DELETED 0.629 0.643 0.641 82 1215 DELETED DELETED 0.630 0.635 0.638 83 1230 DELETED DELETED 0.629 0.643 0.638 84 1245 DELETED DELETED 0.633 0.649 0.638 85 1260 DELETED DELETED 0.627 0.646 0.630 86 1275 DELETED DELETED 0.628 0.646 0.639 87 1290 DELETED DELETED 0.635 0.643 0.631 88 1305 DELETED DELETED 0.633 0.651 0.641 89 1320 DELETED DELETED 0.635 0.643 0.640 90 1335 DELETED DELETED 0.629 0.642 0.644 91 1350 DELETED DELETED 0.631 0.651 0.644 92 1365 DELETED DELETED 0.634 0.648 0.653 93 1380 DELETED DELETED 0.630 0.645 0.638 94 1395 DELETED DELETED 0.629 0.642 0.646 95 1410 DELETED DELETED 0.630 0.638 0.635 96 1425 DELETED

-DELETED 0.634 0.654 0.635 97 1440 DELETED DELETED 0.626 0.647 0.638 98 1455 DELETED DELETED 0.630 0.642 0.641 END OF TABLE END OF REPORT ON CO1NTAINMENT LEAK RATE TEST TO NRC

2.

CONTROLLED LEAK RATE TEST (CLRT)

LEAK RATE COMPUTED USING TOTAL TIME METHOD AS RECOMMENDED BY APPENDIX J FOR 10 CFR 50 (REACTOR CONTAINMENT LEAKAGE TESTING FOR WATER COOLED POWER REACTORS)

TEST PERIOD STARTED AT 1830 HOURS ON AUGUST 1,1978 A LEAST SQUARES FIRST ORDER FIT OF LEAK RATE TO TIME SHOULD YIELD A SLOPE OF ZERO AND AN INTERCEPT EQUAL TO THE LEAK RATE AS COMPUTED AT THE INITIAL START TIME THE EQUATION HAS THE FORM - L=ST+R WHERE L - CORRELATED LEAK RATE S - SLOPE OF CORRELATION T - TIME IN HOURS R - INTERCEPT LEAK RATE LEAK RATE MEAN

• 0.005 HOURS + 0.069 PER CENT

• 0.087 PER CENT INITIAL CONTAINMENT AIR WEIGHT =

747361 LBS.

FINAL CONTAINMENT AIR WEIGHT =

747143 LBS.

FITTED MASS POINT LEAK RATE IS 0.130 PER CENT PER DAY CONTROLLED LEAK RATE TEST (CLRT)

SUPPLEMENTAL VERIFICATION FOR ILRT LEAKAGE OF.075 % PER DAY AT 58.486 PSIA IS EQUIVALENT TO 5.20 SCFM.

SUPPLEMENTAL TEST (CLRT) DATA AND PREVIOUS ILRT RESULTS PLUS INJECTED LEAKAGE MUST BE WITHIN 25% OF LA (

1.73 SCFM) FOR VERIFICATION MAXIMUM PROBABLE TEMPERATURE LOOP ERROR IS 0.008 DEGREES F.

MAXIMUM PROBABLE PRESSURE LOOP ERROR IS 0.0012 PSIA.

MAXIMUM PROBABLE HUMIDITY LOOP ERROR IS 1.353 PERCENT.

MAXIMUM PROBABLE INSTRUMENT ERROR IS

.0212 PERCENT PER DAY "

WITHIN A COMPUTED CONFIDENCE OF 95.00 PERCENT

• "NOTE FOR GRAPHS '

BOTH SAMPLE NUMBERS AND TIME ARE SHOWN

• "NOTE FOR TABULAR DATA TABLE VALUES OF ZERO SIGNIFY THAT THE DATA IS NOT APPLICABLE TO THE CALCULATION

• DESCRIPTION OF VARIABLES ~

AVG TEM VOLUMETRICALLY WEIGHTED TEMPERATURE AVG PRE AVERAGE PRESSURE VAP PRE VOLUMETRICALLY WEIGHTED VAPOR PRESSURE LEA COM FIRST ORDER COMPUTED LEAK RATE LEA TRA STATISTICAL TOTAL TIME LEAK RATE LEA SIM SIMPLE TOTAL TIME LEAK RATE ERROR STATISTICAL TOTAL TIME LEAK RATE ERROR

OBSEROTION NUMBER 3

5 7

I I

I COMPUTED 9

11 13 15 I

17 19 21 23 I

I I

a 25 27 r

I I

I I

p I

I I

• , ~****j*********~*~

LERK RRTES RELRTIVE X X STATISTICAL TOTAL TIME LEAK RATE CONTAINMENT DESIGN LEAK RATE NRC TECHNICAL SPECIFICATION LIMIT m -"

INSTRUMENT ERROR LIMIT REDUCTION m

COMPUTED FIRST ORDER EQUATION FIT TO LIMITS 12.32 10.53 8.74 6.95 5.16 3.37 1.58

-0.2 1 x

X X

X X

X X

X X

X X

x A

A 180 I

240 300 6

360 4

420 TIME IN MINUTES 15.90 14.11 29

-~

I'

~

V V

-la a uu

-T 120

OBSEPWTION NUMBER 9

11 13 15 I

I I

I 1 7 19 21 23 25 27 29 I

I I

I I

I COMPUTED LERK RRTE FIT RELRTIVE TO LIMITS CONTAINMENT DESIGN LEAK RATE NRC TECHNICAL SPECIFICATION LIMIT X-*

INSTRUMENT ERROR LIMIT REDUCTION M

• COMPUTED FIRST ORDER EQURTION FIT iU 0.1200 0.1120 0.1040 0.0960 0.0880 0.0800 0.0720 0.0640 1

120 1

180 I

240 0

300 6

360 4

420 TIME IN MINUTES 3

B I

5 7

U U

U U

U 0.0560 0.0480 0.0400

OBSOVRTION NUMBER 11 13 15 I

I 17 19 21 23 I

I I

25 27

~AIII III ~

I

~

I I

I I

I I

I COMPUTED FIT RELRTIVE TO CRITICRL LIMIT X X SIMPLE TOTAL TIME LEAK RATE W-W INSTRUMENT ERROR LIMIT REDUCTION rn COMPUTED FIRST ORDER EQUATION FIT GREEN OCTAGON IS STATISTICAL REJECTION

'- 0.1388

-r uj Z0.0082

-0.1224 cE (3

u -0.2530 a_

I w -0.3836 ua

-0.5142

-0.6448

-0.7754

-0.9060 x

A x

~

~

~

1 N K

!NRU Ku

~

I I

N

=

~

x I

120 180 2

240 I

300 360 TIME IN MINUTES 0

1 3

I 5

7.

1 1

9 0.2694-0 29 4

420

• A A dIlil

OBSERWTION NUMBER 1

3 L~

I 7

9 I

I I

V.OLUMETRICRLLY 13 15 WEIGHTED CONTRINMENT TEMPERRTURE x

U a

a U

a 86.74 86.71 86.68 86.65 86.62 86.59 86.56 86.53-a 1

120 180 TIME IN MINUTES 86.80 -I 17 I

I 19 I

21 I

23 a

I 25 a

I 27 a

I 29 a

I 86.77-w 0

86.50 I

240 I

300 3

360 2

420

OBS VRT ION NUMBER 0

7 9

11 I

I I

21 23 27 29

~1 I-I I

I I

I a

I i

I I

I a

I I

I 13 15 17 19 CONTRINMENT PRESSUREI a

m U

U 58.386 58.381 68.376 58.372 58.367 58.362 58.357 58.353 cc Oa S IJ t i I

i I

I I,

180 240 300 3

360 2

420 TIME IN MINUTES 5

58.395 58.390 R VERR GE m

a U

120 REI 21 23 27 29 PRESSU

OBSERTION NUMBER 11 13 VOLUMETRICRLLY WEIGHTED 15 17 19 21 23 25 27 i,

I I

1 0

1 9

1 R

I I

,I I

I I

I I

I I

I I

I I

VRPOR PRESSURE 0Q4440 0.4380 0.4320 0.4260 0.4200 0.4140 0.4080 0.402 0,396 ?2 U

a a

w x

U U

0 I

I p

1TE TIME IN 240 MINUTES 1

3 0.4500 5

7 1

9 0

U a

0.3900 120 3

300 3

360 4

420 I

VRPOR PRESSURE

VARIABLE TABLE

SUMMARY

SAMPLE DELTA AVG. TEH AVG. PRE VAP. PRE LEAK COM LEAK TAA ERROR(T)

NUMBER MINS DEG.

F PSIA PSIA PER CENT PER CENT PER CENT 1

0 86.709 58.391 0.422 0.069 0.000 0.000 2

15 86.703 58.389 0.415 0.070 0.000 0.000 3

30 86.703 58.388 0.413 0.071 0.000 0.000 4

45 86.703 58.387 0.419 0.072 0.055 0.050 5

60 86.687 58.385 0.419 0.073 0.283 0.050 6

75 86.677 58.384 0.430 0.075 15.893 0.050 7

90 86.675 58.383 0.417 0.076 1.272 0.050 8

105 86.666 58.381 0.416 0.077

-1.172 0.050 9

120 86.655 58.379 0.424 0.078 0.278 0.050 10 135 86.653 58.379 0.419 0.079

-0.275 0.050 11 150 86.646 58.378 0.418 0.080

-0.569 0.050 12 165 86.644 58.376 0.11 0.082

-0.926 0.050 13 180 86.637 58.375 0.417 0.083

-0.802 0.050 14 195 86.634 58.373 0.417 0.084

-0.645 0.050 15 210 86.627 58.373 0.412 0.085

-0.781 0.050 16 225 86.626 58.372 0.415 0.086

-0.712 0.050 17 240 86.620 58.371 0.415 0.087

-0.629 0.050 18 255 86.613 58.370 0.419 0.089

-0.480 0.050 19 270 86.616 58.369 0.419 0.090

-0.354 0.050 20 285 86.607 58.367 0.419 0.091

-0.249 0.050 21 300 86.596 58.366 0.420 0.092

-0.158 0.050 22 315 86.590 58.365 0.419 0.093

-0.110 0.050 23 330 86.586 58.362 0.418 0.094

-0.061 0.050 24 345 86.579 58.361 0.417 0.096

-0.031 0.050 25 360 86.575 58.360 0.425 0.097 0.046 0.050 26 375 86.573 58.360 0.420 0.098 0.074 0.050 27 390 86.565 58.358 0.428 0.099 0.136 0.050 28 405 86.560 58.357 0.422 0.100 0.154 0.050 29 420 86.555 58.356 0.426 0.101 0.185 0.050 30 435 86.554 58.353 0.417 0.103 0.181 0.050 END OF TABLE

VARIABLE TABLE

SUMMARY

SAMPLE DELTA TEMP 1 TEMP 2 TEMP 3 TEMP 4 TEMP 5 TEMP 6

NUMBER MINS DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F 1

0 86.100 86.460 86.030 86.160 85.790 86.870 2

15 86.100 86.490 86.030 86.150 85.800 86.860 3

30 86.090 86.460 86.040 86.160 85.800 86.850 4

45 86.120 86.460 86.040 86.140 85.790 86.840 5

60 86.070 86.470 86.030 86.140 85.790 86.830 6

75 86.070 86.450 86.030 86.110 85.760 86.820 7

90 86.050 86.470 86.010 86.120 85.770 86.820 8

105 86.060 86.430 86.000 86.110 85.750 86.820 9

120 86.050 86.450 85.990 86.110 85.740 86.790 10 135 86.030 86.400 85.980 86.110 85.730 86.790 11 150 86.030 86.410 85.990 86.090 85.730 86.790 12 165 86.040 86.420 85.970 86.090 85.720 86.800 13 180 86.040 86.400 85.990 86.070 85.720 86.780 14 195 86.010 86.400 85.980 86.060 85.730 86.780 15 210 86.000 86.400 85.960 86.080 85.710 86.780 16 225 86.020 86.390 85.960 86.070 85.700 86.770 17 240 86.040 86.390 85.960 86.060 85.700 86.760 18 255 85.960 86.400 85.960 86.050 85.700 86.770 19 270 86.000 86.360 85.950 86.050 85.710 86.770 20 285 86.000 86.380 85.940 86.020 85.670 86.750 21 300 85.990 86.360 85.940 86,050 85.680 86.730 22 315 85.970 86.350 85.930 86.050 85.660 86.740 23 330 86.000 86.330 85.900 86.020 85.680 86.740 24 345 85.990 86.350 85.910 86.040 85.670 86.720 25 360 85.970 86.350 85.930 86.020 85.660 86.720 26 375 85.960 86.330 85.920 86.020 85.640 86.720 27 390 85.970 86.350 85.920 86.010 85.670 86.700 28 405 85.950 86.320 85.890 86.010 85.650 86.700 29 420 85.950 86.330 85.910 85.990 85.620 86.690 30 435 85.940 86.320 85.890 86.000 85.620 86.700 END OF TABLE

VARIABLE TABLE

SUMMARY

SAMPLE DELTA TEMP 7 TEMP 8 TEMP 9 TEMP 10 TEMP 11 TEMP 12 NUMBER MINS DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F 1

0 86.130 86.990 86.630 86.900 86.640 87.000 2

15 86.100 86.990 86.610 86.860 86.620 86.990 3

30 86.110 86.990 86.590 86.850 86.630 87.030 4

45 86.120 86.970 86.600 86.860 86.640 86.980 5

60 86.090 86.990 86.580 86.850 86.630 86.970 6

75 86.090 86.950 86.580 86.820 86.610 86.950 7

90 86.080 86.940 86.590 86.820 86.600 86.960 8

105 86.070 86.940 86.560 86.810 86.580 86.930 9

120 86.070 86.930 86.570 86.840 86.600 86.910 10 135 86.050 86.910 86.560 86.810 86.590 86.930 11 150 86.040 86.910 86.540 86.790 86.590 86.920 12 165 86.040 86.940 86.540 86.790 86.560 86.880 13 180 86.040 86.910 86.540 86.790 86.590 86.910 14 195 86.050 86.890 86.540 86.780 86.550 86.870 15 210 86.030 86.900 86.540 86.790 86.550 86.900 16 225 86.030 86.910 86.520 86.770 86.550 86.910 17 240 86.040 86.900 86.500 86.780 86.580 86.910 18 255 86.030 86.910 86.510 86.760 86.550 86.890 19 270 86.030 86.900 86.490 86.750 86.530 86.920 20 285 86.010 86.870 86.530 86.760 86.540 86.880 21 300 86.010 86.850 86.500 86.760 86.530 86.870 22 315 85.990 86.870 86.480 86.750 86.520 86.810 23 330 85.970 86.870 86.470 86.730 86.520 86.890 24 345 85.980 86.850 86.480 86.760 86.480 86.880 25 360 85.980 86.830 86.470 86.730 86.510 86.820 26 375 85.990 86.840 86.460 86.720 86.470 86.910 27 390 85.970 86.830 86.440 86.710 86.480 86.800 28 405 85.960 86.830 86.460 86.720 86.480 86.820 29 420 85.950 86.790 86.450 86.700 86.480 86.850 30 435 85.950 86.800 86.430 86.690 86.470 86.850 END OF TABLE

0L VARIABLE TABLE

SUMMARY

SAMPLE DELTA TEMP 13 TEMP 14 TEMP 15 TEMP 16 TEMP 17 TEMP 18 NUMBER MINS DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F 1

0 86.760 86.810 86.850 86.670 86.670 86.720 2

15 86.790 86.800 86.850 86.670 86.670 86.730 3

30 86.750 86.820 86.860 86.660 86.690 86.680 4

45 86.770 86.790 86.850 86.670 86.670 86.710 5

60 86.720 86.790 86.810 86.630 86.660 86.710 6

75 86.740 86.770 86.810 86.630 86.650 86.650 7

90 86.750 86.770 86.810 86.630 86.640 86.630 8

105 86.720 86.790 86.790 86.640 86.650 86.650 9

120 86.710 86.770 86.770 86.610 86.640 86.630 10 135 86.730 86.790 86.770 86.620 86.640 86.660 11 150 86.710 86.750 86.790 86.600 86.630 86.680 12 165 86.740 86.750 86.760 86.610 86.610 86.640 13 180 86.680 86.710 86.770 86.610 86.620 86.660 14 195 86.700 86.740 86.760 86.600 86.620 86.630 15 210 86.660 86.730 86.790 86.590 86.610 86.650 16 225 86.680 86.710 86.770 86.600 86.620 86.630 17 240 86.690 86.710 86.760 86.560 86.620 86.600 18 255 86.700 86.710 86.730 86.590 86.600 86.590 19 270 86.710 86.710 86.750 86.580 86.590 86.600 20 285 86.680 86.720 86.700 86.550 86.590 86.580 21 300 86.660 86.710 86.720 86.570 86.570 86.570 22 315 86.660 86.680 86.730 86.560 86.570 86.570 23 330 86.610 86.690 86.720 86.560 86.580 86.600 24 345 86.620 86.670 86.720 86.520 86.550 86.590 25 360 86.630 86.670 86.670 86.530 86.550 86.570 26 375 86.60 86.660 86.680 86.540 86.560 86.530 27 390 86.600 86.650 86.690 86.540 86.540 86.570 28 405 86.630 86.680 86.660 86.520 86.530 86.520 29 420 86.610 86.650 86.670 86.520 86.550 86.590 30 1135 86.610 86.640 86.650 86.520 86.540 86.540 END OF TABLE

0 VARIABLE TABLE

SUMMARY

DELTA TEMP MINS DEG.

0 86.5 15 86.5 30 86.5 45 86.5 60 86.5 75 86.5 90 86.5 105 86.5 120 86.5 135 86.5 150 86.5 165 86.5 180 86.5 195 86.5 210 86.5 225 86.5 240 86.4 255 86.5 270 86.4 285 86.4 300 86.4 315 86.'

330 86.4 345 86.4 360 86.4 375

86.

390 86.4 405 86.4 420 86.4 435 86.4 19 TEMP F DEG.

80

87.

60

87.

60

87.

90

87.

50

87.

580

87.

540

87.

550

87.

00

87.

30

87.

510

87.

530

87.

510

86.

50

87.

30

87.

10

87.

190

86.

510

87.

170

86.

190

87.

460

86.

500

86.

450

86.

450

86.

470

86.

470

86.

450

86.

440

86.

440

86.

410 86.

20 TEMP 21 F DEG.

F 090 86.640 050 86.630 070 86.640 050 86.610 070 86.620 060 86.600 050 86.610 030 86.590 020 86.590 050 86.600 010 86.560 060 86.550 990 86.560 010 86.540 010 86.540 020 86.550 980 86.530 010 86.550 990 86.510 010 86.520 980 86.530 950 86.500 960 86.500 930 86.480 980 86.480 980 86.500 930 86.470 920 86.460 940 86.470 930 86.480 END OF TABLE SAMPLE NUMBER 1

2 3

4 5

6 7

8 9

10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 TEMP 22 DEG.

F 87.430 87.410 87.420 87.440 87.390 87.420 87.420 87.380 87.390 87.360 87.400 87.390 87.400 87.400 87.360 87.350 87.360 87.330 87.350 87.370 87.360 87.340 87.290 87.340 87.320 87.310 87.310 87.270 87.320 87.290 TEMP 23 DEG.

F 87.380 87.310 87.360 87.380 87.330 87.250 87.310 87.300 87.230 87.200 87.270 87.270 87.200 87.280 87.260 87.160 87.200 87.160 87.260 87.240 87-100 87 190 87.240 87.070 87 180 87 170 87 170 87.160 87.080 87.250 TEMP 24 DEG.

F 87.040 87.040 87.000 87.020 86.990 86.970 87.000 86.970

86. 960 86.950 86.960 86.950 86.950 86.940 86.940 86.940 86.910 86.910 86.940 86.900 86.910 86.900 86.900 86.900 86.870 86.870 86.880 86.860 86.830 86.830

/

.VARIABLE TABLE

SUMMARY

SAMPLE DELTA TEMP 25 TEMP 26 TEMP 27 TEMP 28 TEMP 29 TEMP 30 NUMBER MINS DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F DEG.

F 1

0 86.630 87.010 87.070 87.510 86.940 86.710 2

15 86.640 86.990 87.080 87.560 86.920 86.720 3

30 86.620 87.000 87.080 87.560 86.940 86.710 4

45 86.640 86.990 87.070

.87.590 86.920 86.720 5

60 86.610 86.980 87.060 87.580 86.910 86.690 6

75 86.620 86.980 87.070 87.570 86.920 86.700 7

90 86.590 86.980 87.060 87.550 86.920 86.680 8

105 86.620 86.970 87.050 87.550 86.900 86.700 9

120 86.590 86.960 87.050 87.530 86.890 86.670 10 135 86.580 86.960 87.060 87.560 86.900 86.660 11 150 86.560 86.950 87.040.

87.520 86.900 86.640 12 165 86.580 86.950 87.020 87.520 86.890 86.660 13 180 86.570 86.930 87.050 87.530 86.880 86.640 14 195 86.580 86.950 87.050 87.460 86.880 86.640 15 210 86.540 86.950 87.030 87.430 86.870 86.630 16 225 86.570 86.940 87.030 87.490 86.890 86.660 17 240 86.560 86.930 87.050 87.460 86.850 86.630 18 255 86.540 86.940 87.040 87.440 86.850 86.630 19 270 86.520 86.930 87.070 87.500 86.870 86.610 20 285 86.550 86.930 87.020 87.490 86.850 86.630 21 300 86.540 86.920 87.010 87.470 86.850 86.610 22 315 86.510 86.910 87.040 87.480 86.850 86.590 23 330 86.500 86.910 87.010 87.470 86.830 86.580 24 345 86.530 86.910 86.990 87.480 86.820 86.600 25 360 86.530 86.900 87.020 87.430 86.830 86.570 26 375 86.480 86.900 87.020 87.440 86.820 86.580 27 390 86.500 86.890 87.000 87.440 86.820 86.590 28 405 86.480 86.890 87.050 87.470 86.820 86.560 29 420 86.470 86.880 87.010 87.430 86.820 86.570 30 435 86.500 86.880 87.050 87.460 86.800 86.550 END OF TABLE

VARIABLE TABLE

SUMMARY

SAMPLE DELTA PRES 1 HUM I HUM 12 HUM 3 HUM 14 HUM 5

NUMBER MINS PSIA FRACTION FRACTION FRACTION FRACTION FRACTION 1

0 58.391 DELETED DELETED DELETED' 0.685 0.671 2

15 58.389 DELETED DELETED DELETED 0.6149 0.678 3

30 58.388 DELETED DELETED DELETED 0.6147 0.677 14 45 58.387 DELETED DELETED DELETED 0.684 0.663 5

60 58.385 DELETED DELETED DELETED 0.677 0.670 6

75 58.384 DELETED DELETED DELETED 0.679 0.713 7

90 58.383 DELETED DELETED DELETED 0.675 0.663 8

105 58.381 DELETED DELETED DELETED 0.653

.0.685 9

120 58.379 DELETED DELETED DELETED 0.683 0.687 10 135 58.379 DELETED DELETED DELETED 0.658 0.691 11 150 58.378 DELETED DELETED DELETED 0.662 0.685 12 165 58.376 DELETED DELETED DELETED 0.6147 0.678 13 180 58.375 DELETED DELETED DELETED 0.656 0.685 14 195 58.373 DELETED DELETED DELETED 0.659 0.681 15 210 58.373 DELETED DELETED DELETED 0.6141 0.675 16 225 58.372 DELETED DELETED DELETED 0.651 0.678 17 2140 58.371 DELETED DELETED DELETED 0.655 0.679 18 255 58.370 DELETED DELETED DELETED 0.653 0.695 19 270 58.369 DELETED DELETED DELETED 0.670 0.677 20 285 58.367 DELETED DELETED DELETED 0.659 0.687 21 300 58.366 DELETED DELETED DELETED 0.675 0.679 22 315 58.365 DELETED DELETED DELETED 0.674 0.672 23 330 58.362 DELETED DELETED DELETED 0.663 0.683 214 3145

.58.361 DELETED DELETED DELETED 0.665 0.680 25 360 58.360 DELETED DELETED DELETED 0.672 0.701 26 375 58.360 DELETED DELETED DELETED 0.664 0.693 27 390 58.358 DELETED DELETED DELETED 0.678 0.705 28 405 58.357 DELETED DELETED DELETED 0.666 0.696 29 420 58.356 DELETED DELETED DELETED 0.671 0.711 30 435 58.353 DELETED DELETED DELETED 0.672 0.672 END OF TABLE

VARIABLE TABLE

SUMMARY

SAMPLE DELTA HUM 6 HUM 7 HUM 8 HUM 9 HUM 10 NUMBER MINS FRACTION FRACTION FRACTION FRACTION FRACTION 1

0 DELETED DELETED 0.631 0.648 0.643 2

15 DELETED DELETED 0.635 0.655 0.642 3

30 DELETED DELETED 0.632 0.639*

0.638 4

45 DELETED DELETED 0.633 0.646 0.646 5

60 DELETED DELETED 0.633 0.646 0.651 6

7.5 DELETED DELETED 0.608 0.654 0.640 7

90 DELETED DELETED 0.631 0.653 0.640 8

105 DELETED DELETED 0.637 0.643 0.638 9

120 DELETED DELETED 0.638 0.648 0.634 10 135 DELETED DELETED 0.634 0.646 0.643 11 150 DELETED DELETED 0.632 0.650 0.642 12 165 DELETED DELETED 0.631 0.652 0.656 13 180 DELETED DELETED 0.637 0.647 0:646 14 195 DELETED DELETED 0.635 0.653 0.644' 15 210 DELETED DELETED 0.639 0.661 0.646 16 225 DELETED DELETED 0.629 0.654 0.653 17 240 DELETED DELETED 0.635 0.646 0.645

• 18 255 DELETED DELETED 0.635 0.661 0.638

• 19 270 DELETED DELETED 0.634 0.660 0.643 20 285 DELETED DELETED 0.637 0.655 0.647 21 300 DELETED DELETED 0.636 0.658 0.647

-y22 315 DELETED DELETED 0.637 0.651 0.657 S23 330 DELETED DELETED 0.642 0.640 0.647 24 345 DELETED DELETED 0.641 0.640 0.642

/ 25 360 DELETED DELETED 0.637 0.655 0.648 26 375 DELETED DELETED 0.641 0.653 0.641

~I 27 390 DELETED DELETED 0.646 0.658 0.649 S 28 405 DELETED DELETED 0.633 0.657 0.649 S

29 420 DELETED DELETED 0.639 0.644 0.650 30 435 DELETED DELETED 0.633 0.650 0.,639 END OF TABLE END OF REPORT ON CONTAINMENT LEAK RATE TEST TO NRC

U U