ML19337B631
| ML19337B631 | |
| Person / Time | |
|---|---|
| Site: | Davis Besse  |
| Issue date: | 08/29/1980 |
| From: | TOLEDO EDISON CO. |
| To: | |
| Shared Package | |
| ML19337B629 | List: |
| References | |
| NUDOCS 8010080239 | |
| Download: ML19337B631 (112) | |
Text
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Toledo Edison Company l
Davis-Besse Nuclear Power Station Unit 1 Docket Number 50-346 l
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i PRIMARY REACTOR CONTAINMEF INTEGRATED LEAKAGE RATE TEST REPORT f
1 August 29, 1980 i
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4 E, 1 l Submitted to
]! The United States Nuclear Regulatory Commission
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- Pursuant to l Facility Operating License No. NPF-3 i
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8010080 ,i 23 ?
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- TABIE OF CONTENTS [
Section l I. INTRODUCTION
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II. TEST SYNOPSIS
( III. TEST DATA
SUMMARY
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i A. Plant Infonution !
I B. Technical Data C. Type A Test Results ;
D. Integrated Leakage Rate Measurement System l E. Information Retained at Plant F. Type B and C Test Results IV. ANALYSIS AND INTERPRETATION ,
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/ i APPENDICE S A. Stabilization Summary Data 1
B. ILRT Summary Data C. ILRT Trend Report D. ILRT Mass-Point Analysis E. ILRT Total-Time Analysis F. ILRT Plot - Temperature versus Time G. ILRT Plot - Pressure versus Time H. ILRT Plot - Airmass versus Time ILRT Plot - Mass-Point Calculated Leakage Rate vs. Time 4
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l J. Not Used i K. ILRT Plot - Total-Time Calculated Leakage Rate vs. Time j L. ILRT Summary of Measured Data (for each entry)
M. Verification Flow Test Summary Data N. Verification Flow Test Trend Report O. Verificar. ion Flow Test Mass-Point Analysis P. Verification Flow Test Total-Time Analysis Q. Verification Flow Test Summary of Measured Data (for each entry)
R. Bechtel ILRT Computer Program Summary S. Results of Local Leakage Rate Tests
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I. INTRODUCT ION The containment building Integrated Leakage. Ra te Tes t (Type A) is performed to demonstrate that leakage through the primary reactor containment and sys-tems and components penetrating primary containment does not exceed the al-lowable leakage rate specified in the Davis-Besse Nuclear Power Station, Unit 1, Technical Specifications 3.6.1.2.
The successful periodic Type A and supplemental verification tests were per-formed according to the requirements of the Davis-Besse Nuclear Power Sta-tion, Unit 1, Surveillance Test Procedure ST 5061.01, Containment Integrated Leakage Rate Test. The test method utilized is the absolute method described in ANSI N45.4-1972, " Leakage Rate Testing of Containn nt Structures for Nu-clear Reactors" and ANSI N274, " Containment System Leakage Testing Require-ments," Draft No 3, July, 1979. The leakage rate was calculated using for-mulas from ANSI N45.4-1972 and BN-TOP-1, Rev. 1.
- resting Criteria for In-tegrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants" (Total-Time) and ANSI N274 (Mass-Point). Type A and verifica-tion test durations we.e according to the criteria of BN-TOP-1.
The test results are reported in accordance with the requirements of 10CFR50, Appendix J, Section V.B.3.
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) II. TEST SYNOPSIS The ILRT was performed with the plant in cold shutdown (mode 6) with the Decay Heat Removal System in operation. Water levels in the refueling canal were monitored throughout the test. High and low water elevations were 599'-0" and 598'-11.5" respectively. In order to account for the water level in the refueling canal, and scaffolding in the containment, the free air volume used for calculations during the ILRT was reduced by 52,000 cubic feet, resulting in a free air volume of 2,782,000 cubic feet.
Following pressurization to test pressure on June 11, 1980, the Contain-ment Integrated Leakage Rate Test commenced at 0145 hours0.00168 days <br />0.0403 hours <br />2.397487e-4 weeks <br />5.51725e-5 months <br /> on June 12, 1980, and was completed at 0945 hours0.0109 days <br />0.263 hours <br />0.00156 weeks <br />3.595725e-4 months <br /> on June 12, 1980.
, Test data resulted in a calculated leakage rate of 0.065%/ day using Mass-Point calculation techniques, and 0.083%/ day using Total-Time calculation techniques.
The 95% upper confidence limits for the above techniques are 0.071%/ day for the Mass-Point calculation technique, and 0.166%/ day for the Total-Time calculation technique. The acceptance criterion is 0.375%/ day. Test re-sults for the ILRT are attached for your information (Appendices B through L).
Following completion of the ILRT, a successful verification test was per-g- f o rmed. The Mass-Point calculated leakage rate was 0.394%/ day with a leakage rate lower limit of 0.323%/ day and an upper limit of 0.573%/ day. The Total-Time calculated leakage rate was 0.415%/ day with a lower limit of 0.341%/ day and an upper limit of 0.591%/ day. Computer reports of the test results are attached (Appendices M through Q).
A description of the d0ta reduction computer pcogram used to calculate the leakage rates is included in Appendix R.
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l III. TEST DATA
SUMMARY
j A. Plant Information i i Owner: Toledo Edison Company Plant: Davis-Besse Nuclear Power Station, i
, Unit 1 l Location: Oak liarbor, Ohio
- Containment Type
- Steel l NSSS Supplier, Type: Babcock and Wilcox, PWR l Date Test Completed: June 12, 1980 B. Technical Data
- 1. Containment Net
] Free Air Volume: 2,834,000 ft 3 .
- 2. Design Pressure: 36 psig
- 3. Design Temperature: 265'F
- 4. Calculated Peak Accident
- Pressure, P a: 38 psig
- 6. Calculated Peak Accident Temperature: 255'F C. Test Results - Type A Test
- 1. Test Method: Absoluce
- 2. Data Analysis Techniques: Masa-Point (per ANSI N274) and Total-Time (per ANSI N45.4-1972 and BN-TOP-1)
- 3. Test Pressure: 38 psig
- 4. Maximum Allowable Leakage Rate, L a: 0.500%/ day
- 5. 75% of La : 0.375%/ day i
- In order to account for the water level in the refueling canal and scaf-j I folding in the containment, the free air volume used for calculations
(N during the ILRT was 2,782,000 f t3, 3
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i 6. Integrated Leakage Rate Leakage Rate. %/ day Test Results From Regres- At Upper 95%
sion Line Confidence (Lam) Limit
- a. Mass-Point analysis: 0.065 0.071
- b. Total-Time analysis: 0.083 0.166
- 7. Verification Test 27.0 scfm Imposed Leakage Rate Lo: (0.383%/ day) 1
- 8. Verification Test Results Leakage Rate,%/ day i
- a. Mass-Point Analysis: 0.394
- b. Total-Time Analysis: 0.415 :
- 9. Verification Test Limits Test Limits l
%/ day l
- a. Mass-Point Analysis i
- 1) Upper Limit (Lo+ Lam + 0.25La ): 0.573
- 2) Lower Limit (Lo + L,, - 0.25Lo ): 0.323 l
- b. Total-Time Analysis !
\O 1) Upper Limit (Lo+ Lam + 0.25La ): 0.591
- 2) Lower Limit (Lo+ Lam - 0.25La ): 0.341
- 10. Report Printouts The Report Printouts of the Type A and verifi-cation test calculations are provided for the Mass-Point and Total-Time Analyses (Appendices B through Q). Stabilization data are also provided (Appendix A).
D. Integrated Leakage Rate Measurement System
- 1. Data Acquisition System: Bailey Online Station Computer
- 2. Absolute Pressure Absolute Pressure System -
Mensor Model - Dual Quartz Manometer (2)
Range: 0-60 psia (0-60,000 ccunts)
Accuracy: 0.010% of reading Repeatability: i 0.0005% of full scale Calibration Date: March 19, 1980 l
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- 3. Drybulb Temperature (20 sensors)
Resistance Temperature Detectors -
Burns 100 ohm platinum at 32*F: 4 wire potentiometric circuit Range: 0-150*F Accuracy: 30.1*F (60-120*F)
- 0.15'F (0-150*F)
Repeatability: *0.1*F Calibration Dates: TE 5056A-Q March, 1980 TE 5056R April, 1980 TE 5056S-T March, 1980
- 4. Dewpoint Temperature (6 sensors)
Dewpoint Temperature Systems -
EG&G Model 660 Dewpoint Hygrometer Range: -58 to 212*F Accuracy: *0.54*F Repeatability: *0.1*F
-g' Calibration Dates: TE 5057C December 27, 1980 TE 5057D May 1, 1980 TE 5057I March 27, 1980 TE 5057J March 24, 1980 TE 50570 May 1, 1960 TE 5057P May 1, 1980
- 5. Verification Flow (2 sensors in parallel)
Flowmeter - Brooks Model 5812 with Model 5821 power supply Range: 0-14 scfm Accuracy: *1 % of full scale Repeatability: *0.2% of full scale Calibration Date: May 12, 1980
- 6. Overall Instrumentation Selection Guideline (ISG) Value (from ANSI N274) based on ILRT instrumentation and an eight hour minimum test duration = 0.029%/ day
- 7. Drybulb and Dewpoint Teaperature Sensor Volume Fractions -
see Table 1.
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E. Information Retained at Plant The following information is available for review at the Facility:
- 1. A listing of all containment penetrations, including pene-tration size and function
- 2. A listing of normal operating instrumentation used for the leakage rate test
- 3. A system lineup showing required valve positions and status of piping systems
- 4. A continuous, sequential log of events
- 5. Documentation of instrumentation calibrations
- 6. Data to verify temperature stabilization criteria as es-tablished by test procedure
- 7. The working copy of test procedure that would include signature sign-off of procedural steps
- 8. The procedure and all data that _would verify completion of penetrations and valve testing (B&C-type tests), in-p cluding as-found leakage rates, corrective action taken, and final leakage rate
- 9. Computer printouts and/or manual data accumulation along with summary description of computer program
- 10. The Quality Assurance documentation that was used to moni-tor ILRT with proper sign offs
- 11. A review of confidence limits of test results with ac-companying computer printouts where applicable
- 12. Description of methods used with calibration information on flowmeters along with calculations that were used to
, measure the verification leakage rate
- 13. The P& ids of pertinent systems.
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O IV. ANALYSIS AND INTERPRETATION A. Type A Test Results The Integrated Leakage Rate Test results at the upper 95% confidence level, L am = 0.071%/ day (!! ass-Point analysis) and 0.166%/ day (Total-Time analysis), satisfy the acceptance criterion. The acceptance criterion is Lam < 0.75La = 0.375%/ day, at P a = 38 psig (-0 psi,
+2 psi).
The following penetrations were not included in the ILRT and their leakages must be added to the final results:
Penetration No. System Leakage Rate 17 ILRT Pressurization 250 cc/ min 23 Fuel Transfer Tube 1-1 0 24 Fuel Transfer Tube 1-2 0 56 Seal Return 0 Total 250 cc/ min The equivalent of 250 cc/ min is a leakage rate of essentially zero (0.00045) pe rcent/ day.
I \ B. Types B and C Test Results For containment isolation valves in series, tested individually, the local leakage reported for that penetration is equal to the measured local leakage of the isolation valve with the highest leak rate.
For containment isolation valves tested simultaneously (pres-surizing between valves), the local leakage reported for that penetration is equal to the total local leakage measured.
For containment isolation valves tested individually that are in parallel, the local leakage reported for that penetration is the sum of the individually measured local leakage.
The total for all containment isolation tests = 10636.5 cc/ min or 1.79% of the allowable leakage of 60% La.
The total for bypass leakage = 7396.5 cc/ min or 49.3% of the allowable leakage of 1.5% La.
The leakage for each individual penetration tested since the pre-operational LLRT is in Appendix S.
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p TABLE 1 DEWPOINT AND TEMPERATURE SENSOR VOLUME FRACTIONS AND LOCATIONS Elevation Azimuth Distance from ( Volume (ft.) (deg.) (ft.) Fraction Dewpoint #
TE 5057C 760 90 34 .171 TE 50570 760 270 34 .171 TE 50571 689 0 34 .147 TE 5057J 689 180 34 .147 i TE 50570 603 90 34 .182 TE 5057P 603 270 34 .182 1.000 i RTD #
TE 5056A 782 0 34 .057
, TE 5056B 782 180 34 .057 l TE 5056C 760 270 34 .057 i TE 5056D 760 90 34 .057 TE 5056E 739 0 34 .057 TE 5056F 739 180 34 .057 TE 5056G 714 270 34 .049 TE 5056H 714 90 34 .049 O- TE 50561 689 0 54 .049 TE 5056J 689 180 34 .049 TE 5056K 664 270 34 .049 TE 5056L 664 90 34 .049 TE 5056M 634 0 34 .045 TE 5056N 634 180 34 .045 TE 50560 603 270 34 .045 TE 5056P 603 90 34 .045 TE 5056S 584 0 34 .046 TE 5056r 605 180 34 .044 TE 5056Q 590 270 62 .047 TE 5056R 590 90 62 .047 1.000 1
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j ; STABILIZATION
SUMMARY
DATA APPENDIX A r t
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1 l .Uitt1ARY DAT A i
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i DAVII-BEHE 3T ABIL I'AT 10H AT 38 PSIG j ALMAX = 0.500 VOL = 2782000.00 ;
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- i TIME DATE TEMP PPESSUPE VPPS i
2145 611 534.679 53.45y0 0.3551 , l 2200 611 534.640 53.4549 0.3551 2215 611 534.608 53.4512 0.3552 2230 611 534.555 53.4471 0.3551 2245 611 534.506 53.4425 0.3544 r 2300 n11 534.517 53.4475 0.3553 2315 611 SI:4.714 53.4572 0.3570
. 2330 611 535.209 53.4857 U.3606 i 2345 611 535.445 53.5012 0.3637 0 612 535.581 53.5106 0.3649 i 15 612 535.686 53.5200 0.3663 l 30 612 535.795 53.5?74 0.3679 2
45 612 535.879 53.5341 0.3689
! 100 612 535.952 53.54n3 0.3699 115 612 536.015 53.5464 0.3709 130 612 536.09e. 53.5519 0.3720 145 612 536.148 53.5568 0.3724 i
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t t ILRT
SUMMARY
DATA APPENDIX B N
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.:UI1r1APY D6TA -
DAVI -FESIE ILPT AT 18 POIG ALHA = 0.5n0 VOL = 2782000.UO
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e T If1E DATE TEf1P FFES$UFE VPP2 145 612 536.148 53.5568 0.3724 200 612 53A.1R5 53.5604 0.3736
- 215 612 536.218 53.5653 0.3741 230 612 536.269 53.5696 0.3752 i 245 612 53A.300 5'3.5730 0.3760 l 300 612 536.354 53.5772 0.3771 i 315 612 536.403 53.5797 0.3782 330 612 53o.439 53.5846 0.3787 345 612 536.467 53.5965 0.3797 .
400 612 536.519 53.5906 0.3804 415 612 536.562 53.5934 0.3812
! 430 612 5?6.579 53.5973 0.3820
} 445 612 536.627 , 53.5993 0.3830 500 612 536.656 53.6027 0.3838 g 515 612 536.678 53.6053 0.3842 530 612 5?6.711 53.6080 0.3851 545 612 536.717 53.6101 0.3860 600 612 536.763 53.6121 0.3870 615 612 536.792 53.6155 0.3877 630 612 536.827 53.o188 0.3879 645 612 536.652 53.6205 0.3886 700 612 -536.883 53.6225 0.38v6 715 612 536.895 53.6243 0.3903 730 612 536.941 53.6265 0.3911 745 612 536.959 53.6294 0.3917 800 612 537.001 53.6310 0.3925 815 612 537.017 53.6334 0.3931 I
830 612 537.036 53.6363 0.3937 I 845 612 537.053 53.6376 0.3942 900 612 537.078 53.6402 0.3947 l
915 612 537.083 53.6418 -0.3954 930 612 537.113 53.6441 0.3961 945 612 537.128 53.6459 0.3967 0 0 0. 0 0. 0 0. 0 D
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, ILRT TREND REPORT APPENDIX C l
- DAVII-BE5IE ILF1 AT 38 PilC, l
1 TFEliD PEPOPT i LEA 6 AGE F ATES odEIGHT PEPCEriT DAY >
! i j TIf1E AliD DATE AT START OF TEST: 145 0612 i ELAPSED TIf1E: 8. 04 HOUP'.-
1 l tiO. DATA ELHPIE D TOTAL-TIf1E AfiALYSIS (1A5 5-POIfiT Af4ALYSI L POlliTO i ll1E t1E Ali CALCULATED CALCULATED 95*. UC L 10 2.25 O.003 0.070 0.075 O.114 11 2.50 0.H11 0.086 0.090 0.125
- 12 2.75 0.014 0.084 0.080 0.110 13 3.60 0.019 n. God O.087 0.I14 j 14 3.25 .O.023 0.095 6.087 0.110
- 15 3.50 6.025 O.094 0.083 0.103 t 16 3.75 O.U28 0.094 0.081 0.099 1
17 4.00 0. 028 0.089 0.073 0.090 ;
18 4.25 0.030 0.090 0.074 0.089 19 4.56 0.032 0.089 0.072 n.086 I
20 4.75 O.033 0.088 0.070 0.083 21 5.00 0. 034 0.087 0.069 0.081 22 5.25 0.036 0.088 0.071 0.081 23 5.50 0.037 0.087 0.069 0.079 1
24 5,75 O.038 0.089 0.072 0.082 25 6.00 0.039 0.089 0.072 0.080 26 6-25 0. 041 6.041 0.075 0.083 27 6. V' O.042 0.092 0.076 0.084 28 6.75 0.043 0.091 0.074 0.082 29 7.00 0.044 0.090 0.073 0.080 30 7.25 0.044 0.089 0.072 0.079 31 7.50 0.044 0.087 0.069 0.076 32 7.75 0.045 0.085 O.067 0.074 33 8.00 0.045 'O.083 0.065 0.071 1
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ILRT MASS-POI!Tr ANALYSIS APPENDIX D
/ x DeVit-FE53E ILPT AT 38 PIIG LEAFAGE PATE .uEIGHr PEFCEf4T/ DAY) f1A3 I-POlliT AriALY1!!
ilt1E Af 4D DHT F AT 'TAFT OF TE31: 145 0612 ELAP!ED TIl1E: 8.00 HOUPI TIME TEf1P FPE' IVE E C i r1T . AIP f1A7C LOI: TOT. AVG. r1A:I
.ps .PCIA* [1 Al . ( LFri . . L Ef14 LO: (LBM/HF) 145 536.146 53.5568 750093 2:10 536.185 53.5en4 7500-2 1.3 5. 3 215 536.21R 53.5653 750114 -22.4 -42.2 230 536.269 53.5696 750103 11.1 -13.3 P45 53A.300 53.5730 750107 -4.2 -14.2 300 536.354 53.5772 750091 16.7 2.0 315 536.403 53.5797 750057 33.5 24.0 3;0 536.439 53.5846 750075 -18.2 10.1 345 516.467 53.5865 750063 12.5 15.2 400 536.519 53.5906 750047 15.3 20.3 415 536.562 53.5934 750026 '20.9 26.6 430 536.579 53.5973 750057 -30.8 13.0 i 445 536.627 53.5943 750018 39.1 24.9 500 536.65e. 53.e.027 750025 -7. 0 20.9 515 536.678 53.6053 750031 -5.6 17.8 530 536.711 53.6080 750023 8.3 18.8 O 545 536.717 53.6101 750044 -21.0 12.4 600 536.763 53.6121 750007 36.3 20.2 615 536.792 53.6155 750014 -7. 0 17.5 630 536.827 53.6188 750012 2.7 17.2 645 536.852 53.6205 750000 11.1 18.5 700 536.88? 53.6225 749985 15.3 20.6 715 536.895 5 3. e.24 3 749993 -3.4 18.1 730 536.941 53.6265 74996n 33.5 23.1 745 536.959 53.6294 749975 -15.4 19.6 800 537.001 53.6310 749939 36.3 24.6 815 537.n17 53.6334 749050 -11.2 22.0 4
830 537.036 53.6363 749964 -14.0 19.1 845 597.053 53.e.376 749959 5.6 19.2 900 537.07A 53.6402 749960 -1.4 18.3 915 537.083 53.6418 749976 -15.4 15.7 93n 537.113 53.6441 749966 9.7 16.4 945 537.128 53.6459 749970 -4.2 15.4 FPEE AIP VOI.Ur1E UIED irilLLIOri? OF CU. FT.) = 2.782
- PEGPES!IOr4 LIriE IriTEPCEPT *LBM)
. = 750102 SLOPE (L BM /HP's = -20.2 l r1AXINUM ALLOl.*FLE LEAFAGE PATE = 0.500 l 75 % OF MAXIMUM ALLOMABLE LEAF AGE PATE
(]1 s
V THE'UFFEP 95% CUtiFILEriCE LIMIT
=
=
0.375 0.071 l
THE C ALCUL ATED LEAK AGE PATE = 0.065 l
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ILRT TOTAL-TI!E ANALYSIS APPENDIX E l
s DAVI -E:ES SE ILPT AT 38 Pi1G (
LEAFAGE PATE o.lEIGHT PEPCEliT/ DAY)
TOTAL-TIME AriALysi '
TIf1E Arid DAT E AT !T API DF TEIT: 145 0612 EL AP5ED tit 1E: 3.00 HOUP5 f T if1E TEMP. PPE5:UFE T1EP UFED
<Ps iPSIA- LEAFAGE PATE j ______________________________________ l 145 536.149 53.55A8 200 536.185 53.5604 0.017 215 53o.218 53.5653 *-0.135 230 536.269 53.5696 -0.043 245 536.300 53.5730 -0.046 300 536.354 53.5772 0.006
- 315 536.403 53.5797 0.077 330 536.439 53.5e46 v.032 345 536.467 53.5865 0.048 400 536.519 53.5906 '
0.065 415 536.562 53.5934 O.085 430 536.579 53.5973 0.042 ,
445 536.627 53.5993 0.080 500 536.656 53.6027 0.067 515 536.678 53.e053 0.057 g 530 536.711 53.6080 0.060 545 536.717 53.6101 _'O.040 600 5?s.763 53.6121 0.065 615 536.792 53.6155 0.056 630 536.827 53.6188 0.055 l 645 536.852 53.6205 0.059 l '700 336.883 53.6225 0.066 715 536.895 53.6243 0.058 730 536.941 53.6265 0.074
! 745 536e959 53.6294 0.063 800 537.001 53.6310 0.079 815 537.017 53.6334 0.070 830 537.036 53.6363 0.061 845 537.053 52.6376 0.061 900 537.078 53.6402 0.059 915 537.083 t3.6418 0.050 930 537.113 TJ.6441 0.052 945 537.128 53.6459 0.049 MEAft OF MEA 50 FED LEAKAGE PATES = 0.045 NAXINUM ALLO (.lABLE LEAFRGE PATE = 0.500 75 % OF MAXIt1Uri ALLDI.ini:LE LEALAGE PATE = 0.375
! THE UPPEP G5*. CDriFIDEliCE LIMIT - = 0.166 THE CALCULATED LEALAGE PATE = 0.083 O
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ILRT TEMPERATUPI VS. TI?E APPENDIX F DHVI:-EE5:E ILPT AT 36 PSIG TEf1F EF 6T UFE 536.000 536.200 53e. 400 5 36. 6 8.u) S ?6. E:00 537.000 537.200 537.400
+-________+_________+_________+_________+_________+_________+_________+
- e dho - 4
- +
9
+ l 300 - + I l
400 - +
i
- l j
500 - +
+
+
=
6h0 - +
s_
+
=
700 - +
+
$; 0 l) -
+
=
4 9
900 - +
+
=
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ILRT PRESSURE VS. TIE APPENDIX G DAVI:-FE::E ILPT R1 36 PIIG l
PFE5:UPE 53.5400 5 3. . se.n o 5 3. se co., 53.e. coo 53.eano 53. 6400 5 3.. e e. oi; 53.ssoo
. s;.1 - +
200 _ .
)
300 _ . ,
400 _ .
i soo _ -
soo _ .
Too - .
800 - +
900 - .
D " " I) "D ~T' QA oc e ,1 Irh
ILRT AIR!! ASS VS. TI!E APPENDIX H l
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t I'AVI:-EE IE ILPT AT 38 F 516 AIRl1A5 7499 re r'. U U T49940.U0 749900.UO 750020.00 750060.OU 75 010 0. U T50140.UU TS U18 0. U
+-________+_________+_________+_________+_________+___U
______+_________+
200 - +
+
300 _ +
~
+
+
4 0 re - +
+
~
+
+
50ri - +
+
~
+
~
+
h00 - +
+
=
+
+
70ri - +
+
+
i +
800 - +
+
+
+
GOO - +
+
+
+
ILRT !! ASS-POIhT CALCULATED LEAKAGE RATE VS. TI'E APPENDIX I h
e DAVI~-FE0!E ILPT AT 28 Pi!G r1A55-POIf1T CALCULATED PATE '
I
- 0. 96 0 0. 06 5 0.U?O 0.075 v.080 0.085 O.U90 0.095 l
+-________+_________+_________+_________+_________+_________+_________, ,
ann _ . I O
500 - .
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- +
- 4
- e
- ' 0 0 - +
- +
- 4 300 - +
+
+
900 - t
- +
- 4
- +
1 1
amamm um- m Aa -- mh--... .
(NOT USED) APPENDIX J O
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l l
l 1
ILRT TOTAL-TIME CALCULATED LEAKAGE RATE VS. TI?E APPENDTX K LAVI:-I-ES E ILPT AT M POIG TOTAL-TIME CALCULATEIs PATE
- n. Ok.5 O.070 0.075 0. 04:0 0.085 U.090 0. 095 0.100
+_________+_________+_________+-________+_________+_________+_________+
400 - + ,
_ +
_ +
_ ' +
500 - +
- +
- +
_ e.
- h. h n - +
- +
- +
_ +
700 - +
- +
_ +
800 - +
- +
_ +
900 _ +
_ +
_ +
_ +
D D f 6
_wo o[ f . _ o
L ILRT SUte!ARY OF MEASURED DATA APPENDIX L 4
)
3 $UMr4RPY OF f1EA5UPED DAT A AT 145 0612 i
TEMP 1 = ".36.135 ( 7670.>
1EMP 2= 535.753 i 76 34.. >
l TEMP 3= 536.282 ( 7634.>
- TEf1P 4 = 535.973 <
- 7667.)
j TEMP 5= 536.120 ( 7644.)
T Ef1P 6= 535.794 ( 7635.>
T Ef1P 7= 536.214 ( 7680.)
TEMP 8= 536.358 ( 7? ri5. )
TEMP 9= 536.660 e 7691.)
TEf1P 10 = 536.765 ( 7765.>
TEMP 11 = 536.569 ( 7668.>
TEMP 12 = 536.640 ( 7717.)
TEf1P 13 = 536.910 ( 7729.)
TEMP 14 = 536.918 ( 7741.)
TEf1P 15 = 53A.686 ( 7659.)
TEf1P 16 = 536.477 ( 7688.)
TEMP 17 = 533.885 ( 7433.)
TEMP 18 = 536.521 ( 7?07.>
j TEMP 19 = 536.128 (. 7635.>
1' TEMP 20 = 534.313 ( 7516.)
J
{ PPES 1= 53.929 (. 89858.)
i VPP5 1 = 0.377 ( 7072.)
VFPi 2= 0.360 ( 6959.)
VPPS 3= 0.370 (. 7056.)
VPPS 4 = 0.375 <. 7082.i VPPS 5= 0.3r< t < 102. )
VPPS 6= 0.375 ( 7078.)
l l
SUMf1APY OF COPPECTED DATA
- TIME = 145
! DATE = 0612 l TEMPEPATUPE (DEGPEES~P.) = 536.148 i
i COPPECTED PPESSUPE (PSIAS = 53.5568 l -
VAPOP PPESSURE (PSIA) = 0.3724 I
I I
MYS D *
- lD lD e m M M JJU U/L
,n., . . - , , .-. , n. , . , - , - , ,---
. . , . . . ,,,,.-.----..-,,+,-n. , ~ . , , . - . , ,
1 i
, ILRT
SUMMARY
OF MEASURED DATA APPENDIX L Ilitir16PY OF f1EAFUPED DAT A AT 200 0612 1
TEr1P 1 = 536.165 ( 76 7 2: . >
l TEi1P 2= 535.793 ( 7638.)
T E t1P 3= =,36.312 *. 7637.)
i TEf1P 4 = 535.963 t. 7666.> j
- TEf1P 5= 536.160 <. 7648.>
TEliP 6= S35.R50 t 7640.)
TEt1P 7= 536.255 <. 7684.3 TEl1P 8= 536.358 i 7705.3 TEl1P 9= 536.564 <
76@2.- >
TEl1P 10 = 536.785 < 7737.)
T E l1P 11 = 536.630 ( 7694.:s T Et1P 12 = 536.670 ( 7720.)
TEt1P 13 = 536.869 ( 7725.>
! TEt1P 14 = 536.928 ( 7742.)
TEf1P 15 = 536.746 < 7665.4 TEt1P 16 =
536.546 ( 7695.>
TEf1P 17 = 533.996 t. 7444.>
TEf1P 18 = 536.622 ( 7717.)
TEliP 19 = 536.254 ( 7648.'s TEt1P 20 = 534.394 ( 7524.)
PPES 1 = 53.934 e 89866.)
1 -
VPPS 1 = 0.379 i: 7082.)
VPPS 2= 0.361 ( 6967.)
i VPPS 3= 0.371 ( 7061.) !
VPPS 4 = 0.376 ( 7089.4 VPPS 5= 0.377 < 7106.) ,
VPPS 6= 0.377 ( 7098.)
I SUrillARY OF CGPPECTED DATA i
tit 1E = 200 DATE = 0612 a
i TEf1PEPATUPE (DEGREES P.> = 536.185 i
COPPECTED PPESSUPE iPSIA> = 53.5604 i 1
~
VAPOP PPESSURE (PSIA) = 0.3736 '
i 0
- ]D *]O 31 A h M
m
! .e e Ju e Ju l
L
ILRT SUlc1ARY OF MEASURED DATA APPENDIX L
, SUf1r1HPY OF (1ERIULED DATA AT 215 0612 i
j TEr1P 1 = 536.165 ( f673.> !
, T Er1P 2= 535.793 *
. 7638.)
536.322' TEr1P 3= i 7638.)
TEr1P 4 = 536.024 ( 7672..,
! TEt1P 5= 536.160 ( 7648.)
TEMP 6-- 535.890 ( 7644.*
TEt1P 7= 536.285 i 7687.>
TEt1P 8= 536.406 t <c10.>
I 1EMP 9= 536.690 '
76'~44. )
TEMP 10 = 536.836 ( 7742.)
TEt1P 11 = 536.690 ( 7700.>
TEt1P 12 = 536.731 ( 7726.)
TEMP 13 = 536.849 ( 7723.)
TEMP 14 = 536.888 ( 7738.)
TEMP 15 = 536.767 ( 7667.)
! TEMP 16 = 536.619 ( 7702.)
TEMP 17 = 534.006 ( 7445.)
TEMP 18 = 536.622 < 7717.)
{ TEMP 19 = 536.300 ( 7652.)
- TEMP 20 = 534.485 ( 7533.)
PRES 1 = 53.939 ( 89875.)
VPPS 1 = 0.380 v. 7091.)
- VPPS 2= 0.362 ( 6976.)
- VPPS 3= 0.372 < 7072.)
1 VPPS 4= 0.376 ( 7094.)
VPPS 5= 0.379 ( 7116.)
! VPRS 6= 0.375 ( 7082.)
4
, SUMMAPY GF COPPECTED DATH I TIME = 215 DATE = 0612 '
l d
TEMPEPATUPE (DEGREES P.) = 536.218 i COPPECTED PPESSUPE t' PSI A) = 53.5653 ii .
1 i VAPDP PPES5UPE (PSIA) = 0.3741 L.
D"*
i
~
3D M ]; D'%~ DQ a l hlL 1- ,, ,.n, ,m,. ~..e,- --. --- -
r ~~' ~ - - - - - * ' '" ~ ~ ~ ' ' ' ' ' ' ' ' ' ~ ' ' ' ' ' ~ ~
U ILRT SUlefARY OF BEASURED DATA APPENDIX L SUrir1APY OF 11EASUPED DAT A AT 230 0612 TEf1P 1 = 536.226 (. 7674.)
TEf1P 2= 535.824 ( 7641.>
TEl1P 3= 536.373 ( 7643..)
T Ef1P 4 = 53A.075 ( T6 77.
TEf1P 5= 536.231 'J 76 5". . >
TEt1P 6= "35.900
. ( 7645. ~.'
TEf1P 7= 536,326 ( 7691.>
TEMP 8= 536.439 ( 7713.)
TEt1P 9= 536.721 ( 7697.>
T EI1P 10 = 536.847 ( 7748.>
TEt1P 11 = 536.670 t 7698.)
TEr1P 12 = 536.7?! ( 7726.)
TEMP 13 = 536.940 ( 7732.)
TEr1P 14 = 536.858 / 7735.>
TEt1P 15 = 536.868 ( 7677.>
TEMP 16 = 536.650 < 7705.>
TEMP 17 = 534.077 ( 7452.> l TEMP 18 = 536.673 ( 7722.)
TEMP 19 = 536.441 '. 7666.)
TEMP 20 = 534.647 ( 7549.)
PPES 1 = 53.945 r. 89884.)
VPPS 1 = 0.381 < 7096.)
VPPS 2= 0.363 ( 6983.)
VPPS 3= 0.373 ( 7082.)
VPPS 4 = 0.378 ( 7109.)
VPRO 5= 0.379 ( 7116.)
VPPS 6= 0.3r< t. <096.)
l l
I1 SUMf1APY OF COPPECTED DATA l l
TIME = 230 DATE = 0612 l TEMPEFATUPE (DEGREES P.) = 536.269 COPPECTFD PRESSUPE (PS'A> = 53.5696 l
~
VAPOP PPESSUPE (PSIA) = 0.3752 ,
l 4
D""D "]D ~T]@
-co. oJu_2. . L
.i ILRT
SUMMARY
OF PEASURED DATA APPENDIX L e
[
i~ "Uf1MAPY OF f1EA3UFED DAT A AT 245 0612 ;
TEf1P 1 = 536.226 ( 7679.s
- TEt1P 2= 5 35. St.4 ( 7645.4 i TEMP 3 = 536.383 < 7644.i TEMP 4 = 536.085 7678.:.
T8EMP 5= 536.231 ( 7655.>
TEl1P 6= 535.931 ( 7648.)
TEt1P 7= 536.316 ( 7690.*
! TEf1P 8= 536.479 ( 7717.)
- TEMP 9= 536.e90 ( 7644.)
l TEMP 10 = 536.89.' '. .<48.?
l TEr1P 11 = 536.781 ( 7709.3 I
TEMP 12 = 536.771 ( 7730..)
TEMP 13 = 536.920 ( 7730.)
TEf1P 14 = 536.928 ( 7742.3
- TEt1P 15 = 536.918 ( 7682.)
TEMP 16 = 536.720 ( 7712.)
TEMP 17 = 534.189 ( 7963.>
TEMP 18 = 536.703 ( 7725.)
l TEMP 19 = 536.501 ( 7672.>
3 TEMP 20 = 534.688 ( 7553.>
PPES 1 = 53.949 ( 89891.)
VPP5 1 = 0.383 ( 7113.) .
VPPS 2= 0.364 ( 6-994.)
- VPP5 3= 0.374 (. 7089.>
VPPS 4 = 0.379 ( 7111.)
j VPPS 5= 0.379 ( 7117.)
.VPPS 6= 0.377 ( 7095.)
)
1 7
i i
SUMMARY
OF CDPPECTED DATA j 1
TIME = 245 l s
DATE = 0612 1 TEMPEPRTUPE (DEGPEES P.) = 536.300 CDPPECTED PPESSUPE (PSIA) = 53.5730-3 VAPOR PPESSUPE (PSIA) = 0.3760
?
i 9
4 D** *]D'T 1,
em eN.b N a i
- ~ . . . - - - . . . . -- . .
l 4
SUMMARY
OF IEASURED DATA APPENDIX L IUr1MAPY OF MEA 5UPED DATA AT 300 0612
, TEMP 1 = 536.236 e 7d 8 0. )
TEMP 2= 535.915 ( 7650.s
[ TEt1P 9 = c.36.423 i 764:~:. :.
! TEMP 4 = 536.186 ( 7688.>
1 TEMP 5= 536.272 s. 7659.)
TEt1P 6= 5?5.951 <. 7650.>
5 TEl1P 7= 536.386 '. 7697.)
l TEMP G= 53o.509 ( 7720.)
! TEMP *= 536.791 '. 77G4.s I TEMP 10 = 536.92:7 ( 7751.)
TEMP 11 = 536.791 ( 7710.)
i TEMP 12 = 536.822 (. 7735.:s TEMP 13 = 536.970 (. 7735.)
I TEMP 14 = 537.151 ( 7764.>
TEMP 15 = 536.949 (. 7685.'
! TEMP 16 = 536.741 ( 7714.>
l T Er1P 17 = 534.260 ( 7470.)
. TEMP 18 = 536.713 ( 7726.)
TEMP 19 = 536.512 (. 7673.>
TEMP 20 = 534.819 (. 7566.)
PPES 1 = 53.954 < 89900.)
k,
, VPPS 1 = 0.383 ( 7117.)
VPPS 2= 0.366 (. 7006.>
l VPPS 3= 0.375 <. 7096.)
i VPPS 4 = 0.380 < 7119.:-
! VPPS 5= 0.379 ( 7122.)
! VPPS 6= 0.379 ( 7109.)
1 j
j
SUMMARY
OF COPPECTED DATA TIME = 300 j DATE = 0612 TEMPEPATUPE (DEGPEES P.) = 536.354 l _ COPPECTED FPESSUPE (PSIA) = 53.5772
! VAPOP PPESSUPE (PSIA) = 0.3771 l
1 9'9! S
' T{f, i
s D D a h i gg & - Q:'J Li t
b
ILRT SUtetARY OF MEASURED DATA APPENDIX L i
1 i
s-l "UMMAPY OF f1EASUPED DATH HT '315 0612 i
T Ef1P 1 = 536.337 ( 76'4 0. >
1EMP 2= 535.945 ( 7653.*
TEMP 3= 536.474 ( 765 3. >
1 TFMP 4 = =.36,206 '. 7640.*
1 TEr1P 5= 536.282 >
766 0. > l
- TEf1P 6= 536.022 '. 7657.)
i TEMP 7= 536.41< . .
<,00.s I
TEr1P 8= 536.560 ( 7725.)
[ TEMP 9= 5?6.771 ( 77 02. .e j TEMP 10 = 536.968 di 7755.) l j TEMP 11 = 536.832 ( 7714.)
- TEMP 12 = 536.882 ( 7741..'
) TEMP 13 = 536.991 ( 7737.) !
l TEMP 14 = 537.020 t 7751.)
- TEMP 15 = 536.999
- 7690.)
j TEMP 16 = 536.791 ( 7719.)
- TEMP 17 = 534.371 ( 7481.)
j TEMP 18 = 536.835 ( 7738.)
TEMP 19 = 536.693 (. 7691.)
4 TEMP 20 = 534.911 ( 7575.) i i
PPES 1 = 53.958 ( 89906.
t.<
j VPPS 1 = 0.385 i 7126.)
i VPPS 2= 0.367 (. 7013.')
] VPPS' 3= 0.376 ( 7104.)
- VPPS 4 = 0.381 ( 7130.)
VPPS 5= 0.381 ( 7135.)
VPPS 6= 0.379 ( 7113.)
1 i
1 i
j SUMMAPY OF CORPECTED DATA i
TIME = 315
! DATE = 0612 J-i
! TEMPEPATUPE (DEGPEES P.) = 536.403 4
COPPECTED PPESSUPE (PS I A's .
= 53.5797 3
1 VAPOP PPESSUPE (PSIA) = 0.3782 4
)
W h
SUMMARY
OF MEASURED DATA APPENDIX L IUrtriAPY OF r1ERIUPED DAT A AT 330 0612 TEMP 1 = 55:6. :37 i
- 7690.'s TEMP 2= 535.965 ( 7655.>
TEMP 3= ".36.514 =
7657.>
TEMP 4 = 5 3t. 2 06 =~ 7690.*
TEMP 5= 53e. 34? < 7666.'.
TEMP 6= 536.072 < 7662.2 TEMP 7= 53e. 437 i 7702.>
TEMP 8= 536.57(i ( 7726.) -
TEMP 9= 536.771 ( 7702.s TEMP 10 = 536.98R ( 7757.)
TEMP 11 = 536.822 ( 7713.:'
TEMP 12 = 536.882 ( 7741.)
l TEMP 13 = 537.031 ( 7741.)
i TEMP 14 = 537.050 ( 7754.)
j TEMP 15 = 537.100 < 77 0 0. > ,
i TEMP 16 = 536.832 (. 7723.)
TEMP 17 = 534.452 ( 7489.>
- TEMP 18 = 536.875 ( 7f42.)
l TEMP 14 = 536.925 (. 7714.)
l TEMP 20 = 534.870 (. 7571.) '
i l PPES 1 = 53.963 ( 89915.:'
i g -VPPS 1 = fl.385 ( 7128.>
! VPP5 2= 0.368 ( 7022.)
} VPPS 3= 0.378 i 7115.)
! VFPS 4 = 0.381 <. 7128.>
l VPPS 5= 0.381 ( 7135.)
i VPPS 6= 0.380 < 7117.)
i i
i e,
.tUMMAPY OF COFPECTED DATA TIME = 330 DATE = 0612
} TEMPEPATURE (DEGPEES P.> = 536.439 i COPPECTED PPES5UPE (PSIA) = 53.5846 I
VAPOP PPESSUPE (PSIA) = 0.3787 4
D 6 D N h,L u
j _e 6 -
6 I
i I
I i .- , + - , = . - , . . - . . . - , - - - - - . . - - , - - - - - - , . - - - - - -~---------~~--~~-c----~~'~~- -- = ~*~"'*"'""*~*
- i ILRT
SUMMARY
OF MEASURED DATA APPENDIX L
, l 1,
h 4
- Utir16PY OF MEAIUPED DATA AT 345 0612 TEt1P 1 = 536.337 ' 7690.' '
TEMP 2= 535.085 ': 7657.s l
1 TEMP 3= 536.514 <. 7657..'
T E Mi' 4 = 536.206 a. 7690.>
- T Ef1P 5= ' ?6. 34 ? ( 7666.>
! TEf1P 6= 536.082 < 7663.)
TEt1P 7= 536.437 ( 7702.)
TEr1P 8= 536.580 ( 7727.)
T Ef1P 9= 536.642 ( 7709.)
TEMP 10 = 537.028 '. 7761.)
! TEMP 11 = 536.882 ( 7719...
! IEMP 12 = 536.912 ( 7744.>
TEMP 13 = 537.102 ( 7748.)
TEMP 14 = 537.242 ( 7773.)
j TE!1P 15 = 537.121 ( 7702.)
TEMP 16 =
536.892 ( 7729.)
} TEMP 17 = 534.523 ( 7496.)
TEMP 18 = 536.875 ( 7742.>
a TEr1P 19 = 536.824 ( 7704.)
l TEMP 20 = 534.911 ( 7575.)
i PPES 1 = 53.966 (. 89920.)
i VPPS 1 = 0.387 ( 7141.)
VFR5 2= 0.368 ( 7023.)
- VPPS 3= 0.378 ( 7119.)
- VPPS 4 = 0.382 ( 7138.)
l VPPS 5= 0.352 ( 7141.)
VPP5 6= 0.381 ( 7130.'s
?
1 i
j i
4 SUMMAPY OF CORRECTED DATA TIME = 345 DATE = 0612 4
TEMPEPATiiPE (DEGREES P.) = 536.467 ,.
4
- COPPECTED PPESSUPE (PSIA) = 53.5865
- VAFDP PPE55UPE iPSIA) = 0.3797 1
l O U
l.
iP*'Tm AN on g u L bL n,
SUMMARY
OF MEASURED DATA APPENDIX L Urir1APY TF r1E85UPED DAT A AT 400 0612
, TEt1P 1 = 536.407 ( 7697..)
TEt1P 2= 536.006 i 7659.>
TEr1P 3= 536.545 ( 7660.)
TEr1P 4 = 536.30.- t .- 0 0. '
T Er1P 5= 536.38? -( 76 7 0. '>
TEr1P 6= 536.113 ( 7666.>
IEr4P 7-= 536.508 's 7709.*
TEr1P 8= 536.631 ( 7732.)
TEt1P 9= 536.852 ( 7710. >
TEr1P 10 = 537.049 i 776.3.)
TEr1P 11 = 536.92? ( 7723.>
TEr1P 12 = 536.943 ( 7747.)
TEr1P 13 = 537.061 ( 7744.)
TEr1P 14 = 537.171 ( 7766.)
TEf1P 15 = 537.151 -( 7705.)
TEr1P 16 = 536.923 ( 7732.)
TEr1P 17 = 534.645 ( 7508.) i TEr1P 18 = 536.936 ( 7748.) '
TEf1P 19 = 537.006 ( 7722.)
i TEr1P 20 = 535.123 ( 7596.>
PPES 1 = 53.971 ( 89928.)
. VPPS 1 = 0.387 (. 7144.)
/ VPPS 2= 0.370 ( 7 0 35. >
VPPS 3= 0.379 ( 7121.)
VPPS 4= 0.383 = 7149.)
VPPS 5= Oc382 ( 7144.)
VFPS 6= 0.381 ( 7130.)
SUtit1APY OF COPPEC1ED DATA T I r1E = '00 DATE = 0612 TEr1PEPATUPE (DEGFEES P.) = 536.519 i
CDPRECTED PRESEUPE (PSIA) = 53.5906 VAPOP PPESTUPE-(PSIA) = 0.3804 i
l 1
P " l
- J w 2.
\wa f l
+ - ~,.r - n .n--- -, - .-w ,.r, .,.,.-r ~.-.-.--.e,. .v-, , , - - - - - . n -
ILRT SUte!ARY OF IEASURED DATA APPENDIX L n
.i 1
- Ur1r1AP'r UF'f1ER*UPED DATA AT 415 0612 1
TEt1P 1 = 536.417 ( 7698.
2=
1 Ef1P 536.016 i 766ri..
l_ TEf1P 3= 536.605 t 7666.)
i i
TEf1P 4 = 536.348 e 7704...
T Ef1P 5= 536.494 <
7675.)
i TE r1P 6= 536.153 ( 7670.>
TEf4P 7= 5?6.579 i 7716.*
T Ef1P G= 536.691 4 7738..>
TEf1P 9= 536.892 ( 7714 i TEl1P 1 fl = 537.074 i 7766.>
! TEriP 11 = 536.923 ( 77E3.>
l TEf1P 12 = 536.963 '. 7744.*
TEriP 13 = 537.112 (. 7749.)-
T Ef1P 14 = 537.202 ( 7769.*
1 T Ef1P 15 = 537.242 ( 7714.)
TEf1P 16 = 536.973 ( 7737.)
TEf1P 17 = 534.716 (. 7515.)
TEf1P 18 = 536.925 t 7747.)
TEf1P 19 = 537.087 ( 7730.)
TEf1P 20 = 535.184 ( 7602.)
i PRES 1 = 53.975 i. 89934.)
j VPPS 1 = 0.389 ( 7159.>
J VPPS 2= 0.371 ( 7043.)
I; VFPS 3= 0.380 ( 7133.)
VPPS 4 = 0.384 ( 7152.)
l VPPS 5= 0.384 (. 7154.'s VPPS 6= 0.380 / 7122.)
1 1
! SUlif1APY OF COPPECTED DATA i
TIME = 415 DATE = 0612 TEf1PERATUPE (DEGPEES-P.) = 536.562 i
l I
COPPECTED PPESSUPE (PSIA) = 53.5934 l
VAPOP PPESCUFE (PSIA) = 0.3812 l
t
, ,4
- P Q I '
D
, w -@ R. a
. . . . . - . - - - . .- - - - - - - --- -- - - -- -- -- - ^-
SUMMARY
OF MEASURED DATA APPENDIX L i
'Ultr1APY OF MEATUPED DATA AT 41:0 UA12 4
TEMP 1 = 536.438 / 7700.)
i TEt1P 2= 536.086
- 7667.)
- TEMP 3= 53e.545 ( 7665.>
TEr1P 4 = 536.287 . 7698.4
. TEMP 5= 536.434
- 7675.*
T EllP 6 536.173 < TA72.)
i T Ef1F T= 536.518 t.' 7710.>
TEMP S= 536.702 a 7739.')
TEr1P 9= 536.912 / 7716.
TEMP 10 = 537.119 ( 7770..
1 TEMP 11 = 536.953 / 7726.)
i TEllP 12 = 536.99: < . 52. :.
! TEMP 13 = 537.142 <. 7752.>
! TEMP 14 = 537.181 6 7767.>
TEMP 15 = 537.293: ( 7719.)
TEMP 16 = 537.014 ( 7T41.)
TEMP 17 = 534.797 ( 7523.')
TEMP 18 = 537.006 < 7755.)
- TEMP 19 = 537.127 ( 7734.>
- TEMP 20 = 535.133 (. 7597.')
i l PPES 1 = 53.979 ( 89942.)
I VPPS 1 = 0.389 t 7161.)
~ \/ PRO 2= 0.371 d. 7046.)
VPPS 3= 0.380 ( T137.)
VPPS 4= 0.385 ( 7161.')
VPPS 5= 0.384 ( 7159.)
VPPS 6= 0.382 ( 7137.)
i i
SUMMAPY OF COPPECTED DATA TIME = 430 j, DATE = 0612 TEMPEPATUPE *DEGPEES P.> = 536.579 i
- COPPECTED PRESSUPE (PSIA) = 53.5973 l -
VAPOP PPESSUPE (PSIA) = 0.3820 0 *
- lD M TY@
l0
. a m m m JL InL=
. . . _ _ _ _ . _ . . _ - _ . _ . . _ ~ .. . . . _ . _ __ . _ _ _ _ _ _ _
SUMMARY
OF MEASURED DATA APPErmIX L i
A i
1 1
!~ IUrir1APY OF tiEATUPED DATA AT 445 0612 1
l
{ Tlif1P 1 = 536.488 e 7705.')
1 TETIP 2= 536.117 ( 7670.'
)' TEr1P 3= M6.646
- 7670.*
T E l1P 4 = "36.32.
. ' . . O d . 's T Er1P 5= 536.464 8 767;::. >
T Et1P 6= 516.204
- T675.a
} TEt1P 7= 5?e.'589 - 7717.>
l TEf1P ~8= 536.702 ( 7734.)
j T Ef1P 9= 536.943 4 77,19.)
T EtIP 10 = 537.140 ( 7772.)
TE f1P 11 = 536.943 ( 7725.>
TEI1P 12 = 537.013 < 7754.s TEt1P 13 = 537.173 ( 7755.)
TEl1P 14 = 537.303 ( 7779 :s TEt1P 15 = 537.363 i 7726.e
- TEf1P 16 = 537.075 ( 7747.)
! TEf1P 17 = 534.868 ( 7530.)
j TEr1P 18 = 536.99e 8: 7754.'s l TEt1P 19 = 537.359 ( 7757.)
i TEt1P 20 = 535,184 <. 7602.)
i.
1 4
PPES 1 = 53.982 ( 89947.'s 1
4 VPPS 1= 0.390 <. 7163.)
VPPS 2= 0.372 ( 7052.>
VPPS 3= 0.382 ( 7152.)
i VPPO 4= 0.386 ( 7165. t i VPP! 5= 0.385 ( 7166.) 1 l
4 VPPS 6= 0.384 t: 7150.)
l 1 l 4
1 3
1 ,
j SUlilinPY OF CORPECTED DATA 1 3
i T I t1E = 445 !
J DATE = 0612 l l TEl1PEPATUEE (DEGPEES P.) = 536.627 1 1 .
COPPECTED PPESSUPE (PSIA) = 53.5993 VAPOP PPESSUPE (PSI A:) = 0.3830 l
l D *
- lD lD 31 Y @
mmMoMllm 1 l
1 1
1
l ILRT
SUMMARY
OF MEASURED DATA APPENDIX L 1
I i
i 1
CU;1t1APY OF r1EA51.eED DATA AT 500 r612 T Et1P 1 = 536.508
- 7707..'
TEt1P 2= 536.117 ( 7670.>
1 TEMP ?= 536.66r (. 7672.>
l TEt1P 4 = 5*.6.429
- 7712.)
TEMP 5= 536.474~ ' 7679. 'e TEt1P 6= 536.254 ( 7680.1 i
TEt1P 7= 536.6fi9 '. 7719.2 TEt1P S= 536.732 ( 7742.>
TEMP 9= 536.9S? < 7720.>
TEt1P 10 = 537.180 ( 7776.*
I TEt1P 11 = 536.993 ( 7730.>
l TEMP 12 = 537.044 ( 7757.>
l TEMP 13 = 537.162 ( 7754.>
I TEt1P 14 = 537.242 ( 7773.>
! TFMP 15 = 537.394 ( 7729.>
l TEMP 16 = 537.054 8 7745.)
- TEMP 17 = 534.908 ( 7534.)
) TEt1P 18 = 537.067 ( 7761./
- TEMP 19 = 537.43rs s 7764.)
l TEMP 20 = 535.245 ( 7608.)
1 PPES 1 = 53.987 ( 89954.)
VPPS 1 = 0.391 ( 7174.)
- VPPS 2= 0.373 4 7063.) I j VPPS 3= 0.382 t 7152.)
l VPPS 4 = 0.387 ( 7176.)
j VPPS 5= 0.386- ( 7171.)
i VPP5 6= 0.384 ( 7149.>
I i
i 1
i i
SUMMARY
OF COPPECTED DATA
- TIME = 500 I DATE = 0612 i- TEMPEPRTUPE (DEGPEES P.) = 536.656 a
CORRECTED PPESSUFE (PSIA) = 53.6027 VAPOP PPESSUPE (PSIA) = 0.3836 h
if 4
1
\
D " "]D TY h l
]D l 'o o.Ju o JU . S . . C 1
T i
. . _ - . _ _-- - --. - . - - - . - - - - ~ - -
ILRT SUmtARY OF MEASURED DATA APPENDIX L i
IUrir1AP*' OF T1EA;UPED DATA AT 515 0612 TEr1P 1 = 536.539 ( 7710.4
! ' 1 Ef1P 2 .= 536.ISA ( 7677.> -
TE f1P ?= 536.716 ( 76T7.)
1EriP 4 = 536.378 *: 7707.*
TErIP 5= 5 36. 4:::4 i 760 0. >
T E t1P 6= 9 t:6.244
- 7674.
IEr1P T= 536.609 *
. 7719.4 i Ef1P 8= 536. 732 ( 7742.>
T Ef1P 9= 536.973 ( 7722. 'a TEr1P 10 = 537,190 i ,,. .>
T Er1P 11'= 537.013 <. 7732.)
T ErIP 12 = 537.064 i 7754.)
TEr1P 13 = 537.233 ( 7761.i TEf1P 14 = 537.272 (. 7776.) ,
I Et1P 15 = 537.455 a.
7735.? '
T Ef1P 16 = 537.(195 s. 7749.>
TEr1P 17 = 534.9fi8 ( 7.534.*
TEf1P 18 = M37.067 ( 7761.)
TEf1P 19 = 537.450 a. 7766.>
TEi1P 20 = 535.295 ( 7613.'s PFES 1 = 53.989 i. 89959.>
VPP7 1 = 0.391 (. 7176.3
'/PP I 2= 0.373 ( 7065.)
VPP3 3= 0.383 i T154.>
VPP? 4 = 0.387 <. 7177.>
VPFS 5= 0.386 ( T171.)
VPPS 6= 0.384 ( 7152.)
EUtil1AGY OF COPPEC TED DATR T it1E = 515 DATE = 0612 TEMPEPATURE 'DEGPEES P.> . = 536.678 COPPECTED PRES 5UPE.(PSIAs = 53.6053 VAPDP PPES!UPE (PSIA) = 0.3842 9
j l
_ - ~ - - . ... __ _ _ _ _ , - . _ . _ - . , _ _ , _ - _ - _ _ _ . . _ . - - . _ . , _ , _ _ .__ , _ . . _ _ _ . _ _ . _ . - . . - - , _ _ . _ _ _
ILRT SU!cfARY OF ?EASURED DATA APPENDIX L
- Urir1APY OF ME ASUPED DAT A AT 530 0612 TEt1P 1 = 536.529 ( 7709.>
TEMP 2= 536.138 ( 7677.)
TEf1P 3= 536.726 *. 7678.>
TEf1P 4 = 536.429 t 7712.>
TEt1P 5= 536.525 ( 7684.*
T Ef1P 6= 536.3A5 i 7655.)
TEMP 7 m. 53e. 670 ( 7725.>
TEt1P 8= 536.732 ( 7742.)
TEMP 9= 536.973 ( 772?.)
TEMP 10 = 537.221 ( 7780.>
TEMP 11 = 537.084 (. 7739.)
TEMP 12 = 537.114 ( 7764.>
TEMP 13 =' 5?T.264 ( 7764.:'
TEt1P 14 = 537.30.. '. <<<9.)
TEr1P 15 = 537.485 ( 7738.)
TEMP 16 = 537.145 ( 7754.>
TEMP 17 = 535.030 ( 7546.)
TEMP 18 = 537.128 ( 7767.)
TEMP 19 = 537.389 ( 7760.)
TEMP 20 = 535.346 ( 7618.)
b PPES 1 = 53.993 ( 89965.)
VPPS 1 = 0.392 ( 7183.)
,VPPS 2= 0.375 ( 7074.)
VPPS 3= 0.384 ( 7161.)
VPPS 4 = 0.388 ( 7182.)
VPPS 5= 0.387 ( 7183.)
VPPS 6= 0.385 ( 7159.)
SUMMAPY OF COPPECTED DATA TINE = 530 DATE = 0612 TEMPEPATUPE (DEGPEES R.) = 536.711 CDFPECTED PPESSUPE (PSIA) = 53.6080 VAPOP PPE55UPE (PSIA) = 0.3851 T
D**]D
_ v o Ju
]D o Ju )] I o
I ILRT SU!c!ARY OF FEASURED DATA APPENDIX L i.
i "UMMAPY OF ME630 FED DATA AT 545 0612 TEMP 1 = 536.574 ( 7714.)
TEMP 2= 536.188 < 7677.>
l TEMP 3= 536.726 ( 7678.>
TEMP 4 = 536.429 ( 7712.4 1
TEMP 5= 536.565 ( 768A.s TEMP 6= 536.254 ( 7680.>
TEMP 7= 536.e19 ( 7720.)
. TEMP 8= 536.752 ( 7744.:s i TEMP 9= 537.024 e. 7727.)
i TEMP 10 = 537.241 (. 7782.)
i TEMP 11 = 537.064 ( T737.)
TEMP 12 = 537.104 t. 7763.)
- TEMP 13 = 537.264 ( 7764.)
TEMP 14 =~ 537.394 ( 7788.)
TEMP 15 = 537.515 ( 7741.)
- TEMP 16 = 537.155 ( 7755.)
TEMP 17 = 535.030 ( 7546.)
TEMP 18 = 537.128 ( 7767.)
. TEMP 19 = 537.329 ( 7754.)
TEMP 20 = 535.346 ( 7618.)
PPES 1 = 53.996 ( 89970.'s j
VPPS 1 = 0.393 ( 7191.)
i VPPS 2= 0.375 ( 7077.)
i VPPS 3= 0.385 <. 7172.)
VPPS 4 = 0.389 i ~191.)
VPPS 5= 0.388 ( 7188.)
VPPS e= 0.386 ( 7165.)
SUMMAPY OF COPPECTED DATA t
TIME = 545 DATE = 0612 TEMPERATUPE (DEGPEE5 P.) = 536.717 i COPPECTED PPESSURE (PSIAs = 53.6101
'N VAPOP PPESSUPE (PSIA) .
= n.3860 i
i i
I d a
. , - . _ . _ _ , _ . . - . ~ _ _ _ . . _ . _ _ _ _ . _ _ . . . _ . _ _ . _ . . _ _ . . . _ . . _ . _ , . . _ . _ _ __
SUMMARY
OF MEASURED DATA APPENDIX L i
i IUMMAPY OF MEAiUFED DATA HT 600 0612 TEMP 1 = ".36.564 a. T 713. .'
TEMP 2= 53r:. 238 '
~ 76A2.>
TEMP 3= 536.746 ( 7680.)
i TEMP 4 = 536.479 ( 7717.s
, TEMP 5= 536.596 ( 7691.) j TEMP 6= 536.325 ( 7667.) 1 TEMP 7= 536.710 ( 7729.)
TEMP S= 536.762 ( 7745.)
TEMP 9= 537.024 ( 7727.)
TEMP 10 = 537.261 ( 7784.)
! TEMP 11 = 5::7.114 i 7742.)
TFMP 12 = 537.165 ( 7769.)
TEMP 13 = 537.253 ( 7763.)
TEMP 14 = 537.252 ( 7774.)
TEMP 15 =' 537.576 ( 7747.)
TEMP 16 = 537.155 ( 7755.)
TEMP 17 = 535.161 ( 7559.)
TEMP 18 = 537.148 t. 7769.)
TEMP 19 = 537.561 ( 7777.)
TEMP 20 = 535.538 ( 76 37. >
, FPES 1 = 53.990 ( 89975.>
VPPS 1 = 0.394 ( 7199.)
VPPS 2= 0.376 ( 7084.)
- VPPS 3- 0.386 ( 7177.)
VPPS 4= 0.390 ( 7198.)
VPPS 5= 0.389 ( 7198.)
VPPS 6= 0.387 ( 7173.)
i SUMMAPY OF CORPECTED DATA .,
TIME = 600 DATE = 0612 TEMPERATUPE (DEGPEES F.) = 536.763 COPPECTED PPESSUPE ' PSIA) = 53.6121 YAPOP PPESSUPE (PSIA) = 0.3870
SUMMARY
OF FEASURED DATA APPENDIX L b
IUf1f1RPY OF (1EASUPED DATA HT 615 0612 TE!4P 1 = 536.630
- 7719 '
TEMP 2= 536.208 i 7679.)
TEt1P 7 = 516.797 i 7685.*
TEMP 4 = 536.479 ': 7717.s TEf1P 5= 536.606 i 7692.i TEMP 6= 536.325 <- 76e7.s TEr1P - 7= 536.761 ( 7734.)
TEMP 8= 536.823 i 7751.'s TEl1P 9= 537.074 ( 7732.)
TEf1P 10 = 537.312 ( 7789.)
TEMP 11 = 537.145 ( 7745.>
TEMP.12 = 537.175 ( 7770.)
TEMP 13 = 537.294 ( 7767.)
TEMP 14 =- 537.394 ( 7788.)
TEf'P 15 = 537.626 *: 7752.)
TEMP 16 = 537.196 ( 7759.>
TEMP 17 = 535.192 ( 7562.>
TEMP 18 = 537.198 ( 7774.)
TEMP 19 = 537.521 ( 7773.)
TEMP 20 = 535.467 ( 7630.> .
PPES 1 = 54.003 (. 89982.)
VPRT 1 = 0.396 ( 7208.)
VPRS 2= 0.377 ( 7094.)
VPPS 3= 0.386 ( 7177.'>
VPPI 4= 0.390 <. 7202.'s VPPS 5= 0.389 ( 7198.)
VPPS 6= 0.388 (. 7180.)
SUMMARY
OF COPPECTED DATA TIME = 615 DATE = 0612 TEMPEPATUPE (DEGPEES P.) = 536.792 COPPECTED PPE55UFE tPSIA) = 53.6155 i VAPOP PPE55URE (PSIA) = 0.3877 l l
l 1
- I
- 3 D** l
_o o mJ1 o i .
n
ILRT SUFCfARY OF ME/ 3URED DATA APPENDIX L IUMMPPY OF MEA 5(IPED DATA AT '630 0612 TEt1P 1 = 536.670 < 7723.i TEf1P 2= 536.2':i9 '
. 7688.:'
TEMP 3= 536.797 '
7685..'
T Ef1P 4 = 536.509 i. 7720.)
TEf1P 5= 536.636 *: 7695.i TEMP 6= 536.426 ( 7697.)
TEf1P 7= 536.761 ( 7734.)
TEMP 8= 536.833 i:. 7752.)
TEMP 9= 537.125 i 7737.)
TEMP 10 = 537.342 ( 7792.>
TEMP 11 = 537.145 -
7745.)
TEMP 12 = 537.205 ( 7773.)
TEMP 13 =. 537.324 <. 7770.)
TEMP 14 = 537.374 ': 7786.)
TEMP 15 = 537.697 < 7759./
TEf1P 16 = 537.277 ( 7767.)
TEMP 17 = 535.273 7570.)
TEMP 18 = 537.188 ( 7773.)
TEf1P 19 = 537.591 ( 7780.)
TEMP 20 = 535.447 r 7628.)
b
\/ 54.007 ( 89988.)
% FPES 1 =
VPPS 1 = 0.396 < 7210.)
VPPS 2= 0.378 ( 7098.)
VPPS 3= 0.387 < 7185.i VPPS 4 = 0.391 ( 7206.s VPPS 5= 0.390 ( 7204.)
VPPS 6= 0.387 ( 7170.>
i i
o SUMMAPY OF COPPECTED DATA I
TIME = 630 DATE = 0612 t
TEMPEPRTUPE 'DEGPEES P.) = 536.827 i
COPPECTED PPESSUPE (PSIA) = 53.6188 VAPDP PPE550FE i:PS I R) = 0.3879 D**]D *']D["D'Y&
JB o Juu dl.1 A
! . o w
SUMMARY
OF MEASURED DATA APPENDIX L
)
4
%.)
SUMMAPY OF ME A3Ur.ED DAT A AT 645 0612 TEMP 1 = 536.690 ( 7725.
TEMP 2= 536.294 ( T688.>
TEMP 3= 5?6.827 ( 7688.)
TEMP 4 = 536.5e0 ( 7725.>
TEMP 5= 536.657
- 7697.>
TEMP 6= 536.365 i 7691.)
TEMP 7= 536.761 < 7734.>
TEMP 8= 536.853 < 7754.s TEMP 9= 537.094 ( 7734.)
TEMP 10 = 537.342 ( 7792.)
TEMP 11 = 537.175 ( 7748.)
TEMP 12 = 537.205 ( 7773.)
TEMP 13 = 537.355 ( 7773.)
TEMP 14 = 537.394 ( 7788.)
TEMP 15 = 537.707 ( 7760.)
1EMP 16 = 537.277 ( 7767.>
TEMP 17 = 535.374 ( 7580.)
TEMP 18 = 537.188 < 7773.)
i TEMP 19 = 537.803 (. 7801.)
TEMP 20 = 535.518 8 7635.)
i i
FPES 1 = 54.009 <. 89992.)
VPPI 1 = 0.396 ( 7210.)
VPPS 2= 0.378 . 7102.)
VPPS 3= 0.388 ( 7193.)
VPPS 4 = 0.392 ( 7213.)
VPPS 5= 0.392 ( 7215.)
! VPRS 6= 0.387 <. 7172.)
SUMMAPY OF COPPECTED DATA TIME = 645 DATE = 0612 TEMPERATUPE (DEGPEES P.) = 536.852 COPPECTED PPESSUPE (PSIA) = 53.6205 f VAPOP PPESSUPE iPSIA) = 0.,3886 l
i e
ILRT SUfetARY OF MEASURED DATA APPENDIX L D 4 IUMr1APY OF flEASUPED DA1R f,T 700 0612 TEMP 1 = 536.670 t 7723.,
TEf1P 2= 536.24Q '
7688.)
TEMP 3= 5 3 A. Se?. . 7692.,
TEMP 4 = 536.560 t 7725.4 TEMP ". = 5 36. 70 r * < <02.*
TEMP 6= 536.45e t 7700.)
TEMP 7= 536.761 < 7734.>
TEMP 8= 536.584 ( 7757.)
TEMP Q = 537.205 ( 7745.)
TEMP 10 = 537.372 < 7795.> l TEMP 11 = 537.175 ( 7748.> l TEMP 12 = 537.236 ( 7776.) l TEMP 13 = 537.50A ( 7788.'
TEMP 14 =. 537.404 .: 7789.)
TEMP 15 = 537.697 ( 7759.)
, TEMP 16 = 537.297 t 7769.)
TEMP 17 = 535.323 ( 7575.) <
TEMP 18 = 537.24Q ( 7779.i l TEMP 19 = 537.753 ( 7796.)
TEMP 20 = 535.650 ( 7648.)
, FPES 1 = 54.012 ( 89997.3 VPPS 1 = 0.397 ( 7220.)
VPPS 2= 0.379 ( 7106.)
VPP5 3= 0.388 ( 7197.> l VPPS 4= 0.393 ( 7221.) )
VPPS 5= 0.392 '
7221.) i VPPS 6= 0.389 ( 7185.) l
SUMMARY
OF COFPECTED DATA TIME = 700 l DATE = 0612 TEMPEPRTUPE (DEGPEES P.) = 536.883
)
I COPPECTED PPE55UPE (PSIA) = 53.6225 VAPOP PRESSURE (PSIA > = n.3896 s
s I b
ILRT SUmfARY OF IEASURED DATA APPENDIX L v
IUf1 MARY OF MEA 5UFED DATA AT 715 0612 TEMP 1 = 536.700 (. 7726.)
TEr1P 2= 536.339 '- 7692.*
TEMP 3= 536.888 ' 7694.>
TEf1P 4= 536.580 ... 7727.
TEMP 5= 536.707
- 7 7 0d' . )
YEMP 6= 536.426 ( 7697.1' TEMP 7= 536.872 ( 7745.)
TEMP 8= 536.904 ( 7750.4 TEMP 4 = 5?T.145 ( 7739.)
TEMP 10 = 537.342 ( 7792.)
1EMP 11 = 537.286 ( 7754.)
TEMP 12 = 537.246 ( 7777.)
TEMP 13 = 537.355 ( 7773.)
TEMP 14 =. 537.353 ( 7784.)
TEMP 15 = 537.748 ( 7764.>
TEMP 16 = 537.307 ( 7770.)
TEMP 17 = 535.425 ( 7585.)
TEMP 18 = 537.259 ( 7780.>
. TEMP 19 = 537.753 ( 7796.)
TEMP 20 = 535.650 ( 7648.>
h PRES 1 = 54.015 ( 90001.'s VPPS 1 = 0.399 ( 7223.)
VPPS 2= 0.380 *: 7115.)
VPPS 3= 0.389 ( 7202.)
VPPS 4 = 0.394 ( 7226.)
VPPS 5= 0.392 ( 7217.)
VPRS 6= 0.390 < 7195.)
SUMMAPY OF COPPECTED DATA TIME = 715 DATE = 0612 TEMPERATUPE (DEGREES P.) = 536.895 i
COPPECTED PPESSUPE (PSIR) = 53.6243 VAPDP PPESSUPE (PSIA) = 0.3903 I
t I g}Qg Op'T [ g dw" W ~'
ILRT SUmtARY OF !!EASURED DATA APPENDIX L
- UMMHPY OF MEAIUPED DATA AT 730 0612 TEMP 1 = 536.761 ' 7732.)
TEMP 2= 536.339 ( 7692.)
TEt1P 3= 536.otA
- 7697.)
TEMP 4 = 5:.6.611
- 7730.)
TEt1P 5= 536.758 '. 7707.)
TEMP 6= S36.456
- 7700.)
TEMP 7= 536.872 ( 7745.)
TEMP 8= 537.035 ( 7772.)
TEt1P 9= 537.175 ( 7742.)
TEMP 10 = 537.433 ( 7R01.)
TEMP 11 = 537.296 ( 7760.)
TEMP 12 = 537.276 ( 7780.)
TEMP 13 = 537.385 ( 7776.)
TEMP 14 =. 537.495 ( 7798.)
TEMP 15 = 537.748 ( 7764.)
TEMP 16 = 537.338 ( 7773.)
TEMP 17 = 535.506 ( 7593.)
TEMP 18 = 537.340 ( 7788.)
TEMP 19 = 537.773 ( 7798.)
TEMP 20 = 535.721 ( 7655.)
s PPES 1 = 54.018 ( 90006.)
- )
', N/
1 VPPS 1 = 0.399 < 7230.)
- VPPS 2= 0.380 ( 7119.)
VPPS 3= 0.390 r. 7209.)
i VPPS 4= 0.394 ( 7230.1
- VPPS 5= 0.393 ( 7226.)
- VPPS 6= 0.391 ( 7200.)
l 1
t SUMMAPY OF COPPECTED DATA l
i I i TIME = 730 ;
DATE = 0612 TEMPEPATUPE (DEGREES P.) = 536.941 COPPECTED PPESSUPE (PSIA) = 53.6265
!f i
VAPOP PPE55UPE (PSIA) = 0.3911 j \ D""D "gN}g We o Ju . )] _(Uh
(
4
.-.n . . .- - , , . - - , - , . _ . . -._-..._._,,.n _ . . . , . _ . - , , ,- --- - - ,,
ILRT SU}e!ARY OF MEASURED DATA APPENDIX L
- Utir1APY OF IIE A5UPED DAT A HT T45 0612 TEMP 1 = 536.781 ( 7734.>
TEMP 2= 536.370 ( 7695.>
T El1P 1: = 556.918 i T697..
T Ef1P 4 = 536.661 i 7735.)
TEf1P 5= 536.758 ( 7707.)
TEr1P t. = 536.497 t. 7704.>
TEt1P 7= 536.842 ( 7742.)
TEMP ::: = 537.045 ( 7773 'a TEMP 9= 537.246 ( 7749.>
TEMP 10 = 537.433 ( 7801.)
TEMP 11 = 537.327 ( 7763.)
TEMP 12 = 537.316 ( 7784.)
TEMP 13 = 537.446 ( 7782.)
TEMP 14 = 537.535 ( 7E: 02. 's TEMP 15 = 537.829 ( 7772.)
TEMP 16 = 537.378 ( 7777.>
TEMP 17 = 535.526 ( 7595.>
TEMP 18 = 537.300 ( 7784.)
TEMP 19 = 537.803 ( 7801.)
TEMP 20 = 535.579 ( 7641.)
PPES 1 = 54.021 < 90012.)
VPo3 1 = 0.349 ( 7234.')
VPPS 2= 0.381 ( 7123.'.
VPPS 3= 0.390 ( 7213.)
VPPS 4 = 0.395 ( 7233.s VPPS 5= 0.394 ( 7237.>
VPRS 6= 0.391 ( 7202.)
SUMMAPY OF CDPPECTED DATA TIME = 745 DATE = 0612 TEMPERATUFE (DEGFEES P.) = 536.959 COPPECTED PPESSUPE (PSIA > = 53.6294 VAPOP PPES5UPE (PSIA') = 0.3917
~ D" m.
N J j\.: a
i ILRT SU? DIARY OF MEASURED DATA APPENDIX L i
j UMMAPY OF MEREUPED DATA RT 800 0612 l
i TEMP 1 = 536.822 's 7738.e l TEMP 2= 5 :6.420 ,. 7700..
1 TEMP 3= 536.9t.9 < 7702.>
TEMP 4 = 536.681 ( 7737.
j TEMP 5= 536.609 s. 7712.)
TEMP 6= 536.527 ' 7707.'
TEMP 7= 536.862 ( 7744.)
TEMP S= 537.045 < 7773./
i TEMP 9= 537.266 ( 7751.)
l TEMP 10 = 537.514 ( 7809.)
IEMP 11 = 537.286 ( 7759.)
I TEMP 12 = 537.316 '
7784.)
l TEMP 13 = 537.446 ( 7782.)
j 1EMP 14 = 537.606 i: 7804.')
j TEMP 15 = 537.930 ( 7782.)
j TEMP 16 = 537.398 ( 7779.)
i >
TEMP 17 = 535.557 (. 7598.)
! TEMP 18 = 537.350 ( 7789.)
) TEMP 19 = 537.884 < 7809.)
4 TEMP 20 = 535.741 <. 7657.)
(~
g_ PRES 1 = 54.023 ( 90016.>
a VPPS 1 = 0.400 *: 7238.)
VPPS 2= 0.382 ( 7128.)
- , VFPS 3= 0.391 ( 7217.)
i 4=
VPPS 0.396 i 7243.)
! VPPS 5= 0.395 ( 7243.)
VPPS 6= 0.392 ( 7208.)
I i
j j
SUMMARY
OF COPPECTED DATA l
TIME = 800 DATE = 0612 TEMPEFATUPE (DEGREES R.) = 537.001 COPPECTED PRESSUPE (PSIRv = 53.6310 VAPOP PPESSUPE (PSIA) = 0.3925 h
D hL
- ILRT sum!ARY OF lEASURED DATA APPENDIX L i
t t
.!UMMPPY OF MER50 PED DATA HT 815 061a-2 TEMP 1 = 536.791 ( 7735.
TEMP 2= 536.420 e 7700.)
TEMP 3= 536.049 ( 7702.s
! TEMP 4 = 536.641 i 7738.)
- TEMP 5= 536.809 e 7712.)
j TEMP 6= ":6.49T
. i. 7704.)
TEMP 7= 536.902 ( 7748.)
- TEMP 8= 537.076 i 7776.)
1 TEMP 9= 537.246 < 7749.)
j TEMP 10 = 537.494. i 7607.)
j TEMP 11 = 537.337 < 7764.)
l TEMP 12 = 537.357 ( 7788.)
{ TEMP 13 = 537.506 t. 7788.)
' TEMP 14 = 537.465 (. 7795.)
! TEMP 15 =* 537.950 ( 7784.)
i TEMP 16 = 537.429 ( 7782.)
TEMP 17 = 535.607 ( 76 03. >
TEMP 18 = 537.411 ( 7795.)
.i TEMP 19 = 537.965 (. 7817..'
j TEMP 20 = 535.873 ( 7670.)
l PPES 1 = 54.026 ( 90021.)
VPPS 1 = 0.400 < 7241.)
l VPPS 2= 0.382 ( 7132.)
! VPP! 3= 0.341 ( 7221.)
- VPPS 4= 0.396 ( 7245.)
i VPPS 5= 0.395 ( 7239.)
VPPS 6= 0.394 ( 7227.)
l i
l l
! SUMMAPY OF CDPRECTED DATA I
) -
TIME = 815 DATE = 0612 l
TEMPERATUPE (DEGREES P.) = 537.017 1 -
! COPPECTED PPESSUPE (PSIA) = 53.6334 I
e 4
VAFDP PPESSUPE (PSIA) = 0.3931 1
j i
\
\ g) 9pm m y( s-i i
,,\p c w .l ll n
. G m . - J l
k
, . . , _ _ - __ . _ _ _ , _ _ _ _ _ _ . . m. . - , . _ , - -
ILRT SMDfARY OF MEASURED DATA APPENDIX L l l t
i Ullf1APY OF IIF.AIUFED DATA AT 830 0612 TEMP 1 = 536.791 .
. 7735.s TEf tP 2= 5:-e.420 7700.>
TEllP 3= 536.969 4 7702.i TEMP 4 = 536.691 t 77 38. e T Er1P 5= 536.82'9 *
. 7714.s TEMP 6= 536.598
- 7'14.3
, TEMP 7= 536.902 (. 7748.)
J TEf1P 8= 5?T.056 ( 7774.)
TEMP Q = 537.327
- 7757.>
TEMP 10 = 537.514
~
( 7809.)
TEMP 11 = 537.397 ( 7770.)
! T Ef1P 12 = 537.417 (. 7794.
TEMP 13 = 537.678 (. 7805.)
a TEMP 14 =. 537.596 ( 7808.)
TEMP 15 = 537.869 (. 7776.>
TEMP 16 = 537.449 ( 7784 e TEf1P 17 = 535.597 ( 7602.)
TENP 19 = 537.411 ( 7795.)
TEMP 19 = 537.833 ( 7804.)
TEMP 20 = 535.822 ( 7665.)
-t PPES 54.030 '027.)
VPP5 1 = 0.402 .'252. )
VPPS 2= 0.383 ( 7133.)
VPPS 3= 0.393 ( 7230.>
VPPS 4= 0.397 'm 7250.)
VPPS 5= 0.396 ( 7247.)
! VPPS 6r 0.393 ( 7217.)
I r
4 SUf1MAPY OF CDPPECTED DATA i
t l
TIME = 830 DATE = 0612
! TEMPEPATUPE (DEGPEES P.) = 537.036 COPPECTED PPESSUPE (PSIA) = 53.6363 VAPOP PPE05UPE (PSIA >.
= 0.3937 i
i D"*0 l lD [l T Y S oof J Mij .XL
)
SUMMARY
OF MEASURED DATA APPENDIX L
- Ur t M AE ',' OF fSEAIUFED DATA Ai 845 0612 e
TEMP 1 = 516.A11 '
7737.
TEf1P 2= 536.440 '
7702.4 TEMP 3= S3A.989 ' 7704..'
TEMP 4 = 536.722 ( 7741.s TEf1P 5= 536.829 e 7714.)
TEMP 6= 536.55. '
v .10. '
TEMP 7= 536.944 ( 7757.4 TENP 8= 537.106 <. 7779.)
TEMP 9= 537.236
- 7748..)
TEMP 10 = 537.494 ( 7807.>
TENP 11 = 537.367 ( 7767.)
TEMP 12 = 537.417 '
7794.)
TEMP 13 = 537.516 '. 7789.)
TEMP 14 =' 537.505 ( 7799.)
TEMP 15 = 537.930 < T782.)
TEMP 16 = 537.449 i 7784.)
TEHP 17 = 535.779 8 7620.>
TEMP 18 = 537.401 t~ 7794.s TEMP 19 = 538.066 ( 7827.)
TEMP 20 = 535.903 ( 7673.)
PPES 1 = 54.032 ( 90030.)
VFPS 1 = 0.402 '. 7254.)
VPPS 2= 0.384 < 7145.)
VPPS 3= 0.393 ( 230.>
VPPS 4= 0.397 ( Td5 0. )
VPPS 5= 0.397 ( 7258.)
VPPS 6= 0.393 ( 7217.)
SUMMAPY OF CDPPECTED DATA TIME = S45 DATE = 0612 TEMPEFATUPE t.DEGPEES P.) = 537.053 COPPECTED PPESSUPE
- PSIA) = S3.6376 VAFDP PPESSUPE (PSIA) = 0.3942 s
. - d ., a
l ILRT
SUMMARY
OF MEASURED DATA APPENDIX L b
- Uf!MAPY OF MERillPED DATA HT 000 0612 TEMP 1 = 536.662 '
. 7742.)
TEMP 2= 536.4e9 '. '704.'
TEMP -1 = 537.014
- 7767.s TEMP 4 = 536.722 '! 7741.:'
TEMP 5= 536.849 '
7716.)
TEMP 6= 536.588 ( 7713.)
TEMP 7= 536.943 8 7752.
TEMP 8= 537.136
- 7782.)
TEMP 9= 537.296 (. 7754.>
TEMP 10 = 537.555 ( 7813.)
TEMP 11 = 537.357 ( 7766.)
TEMP 12 = 537.428 / 7705.)
TEMP 13 = 537.577 < 7795.)
TEMP'14 =- 537.657 ( 7814.)
TEMP 15 = 537.991 ( 7788.)
TEMP 16 = 537.489 ( 7788.)
TEMP 17 = 535.779 ( 7620.)
TEMP 18 = 537.401 ( 7794.')
TEMP 19 = 538.055 ( 7826.>
TEMP 20 = S35.862 ( 7669.) ,
PPES 1 = 54.035 e 90035.)
s VPPO 1 = 0.403 ( 7259.)
' VPPS 2= 0.384 i 7146.)
VPPS 3= 0.393 ( 7234.)
VPPS 4= 0.398 ( 7255.)
VPPS 5= 0.308 ( 7265.)
VPPS 6= 0.293 i 7216.)
l l
SUMMAPY OF COPPECTED DATA TIME = 900 DATE = 0612 TEMPERATUPE (DEGPEES P.) = 537.078 COPPECTED PPESSURE iPSIA) = 53.6402 VAPDP PPESSUPE (PSIA) = 0.3947 SUN $kdNo
ILRT SU!DfARY OF MEASURED DATA APPENDIX L
- UMf1APY OF (1E A30 FED DAT A AT 915 0612 TEMP 1 = 5?6.802 i 7745.s TEt1P 2= 5ts.511 i 7700.' i TEMP 3= 5'C. 0 39
- 7700.
TEMP 4 = 536.681 i 7737..s TEf1P 5= "36.859 ( 7T17.*
TEMP 6= 536.588 < 7713.
TEMP T= 536.963 ( 7751.'
TEMP 8= 537.136
- 7782.>
TEMP 9= 537.276 ( 7752.'
TEMP 10 = 537.555 (. T813.*
TEMP 11 = 537.357 ( 7766.)
TEMP 12 = 537.417 ( 7794.)
TEMP 13 = 537.587 ( 7756.)
TEMP 14 =- S'37.728 ( 7821.)
TEMP 15 = 537.950 ( 7784.)
1EMP 16 = 537.499 ( 7789.)
TEMP 17 = 535.779 ( 7620.)
TEMP 18 = 537.421 ( 7796.>
TEMP 19 = 537.995 ( 7820.>
TEMP 20 = 535.873 ( 7670.)
PREi 1 = 54.037 ( 90039.>
VPPS 1= 0.403 *. 7260.)
VPPS 2= n.385 ( 7152.) ,
VPPS 3= 0.394 (.,7241.)
VPP5- 4= 0.398 ( 7258.s VPPS 5= 0.398 ( 7266.)
l VPPS 6= 0.395 ( 7230.)
SUMMAPY OF COPPECTED DATA TIME = 915 DATE = 0612 i I
TEMPEPATUPE ' DEGREES P.) = 537.083 l COPPECTED PPE55UPE (PSIA) = 53.6418 VAPOP PRE 55UPE (PSIA) = 0.3954 O
mgg D
mm g a e, @aN La
ILRT SUlB!ARY OF fEASURED DATA APPENDIX L i
i 1
I j ;Utir18PY OF f1EA~UFED DATA AT 930 0612 1
I T Ef1P 1 = 536.892 ' 7745.' ~
l TEf1P 2= 536.511 t 7709..
T Ef1P ?= 537.080
- 7713.'
l TEf1P 4 = 536.783 ( 7747.)
t TEf1P 5= 536.874
- 7719.)
i TEf1P A = 536.e28 i 7717.:'
l; TEf1P 7= 536.973 <. 7755.
TENP 8= 537.177 ( 7766.)
TEllP o= 537.367 ( 7761.)
TEf1P 10 = 537.555 (. 7813.)
TEl1P 11 = 537.417 ( 7772.)
TEf1P 12 =. 537.438 ( 7796.>
TEf1P 13 = 537.567 ( 7794.)
TEf1P 14 = 537.465 v. 7745.'>
, TEf1P 15 = 538.051 t' 7794.)
jj TEMP 16 = 537.550 < 7794.>
4 TEMP 17 = 535.860 ( 7628.>
., TEMP 18 = 537.471 t: 7801.>
! TEMP 19 = 538.066 ( 7827.>
i TEf1P 20 = 535.964 t. 7679.)
PPES 1 = 54.040 ( 90044.)
! VPPS 1 = U.403 (. 7263.)
i VPPS 2= 0.385
- 7158.)
YPPS 3= 0.395 '. 7245.)
VPP5 4= 0.398 <: 7261.)
VPPS 5= 0.400 (. 7280.)
VPPO 6= 0.395 ( 7233.)
j SUMf1ARY OF COPPECTED DATA 1 TIME = 930 DATE = 0612 TEMPEPATUPE (DEGPEES P.> = 537.113
! COPPECTED PPESSUPE ( PS I A = 53.6441 VHPOP PPESSUPE < PSIA > = 0.3961 m
SUMMARY
OF MEASURED DATA APPENDIX L O
4 4
l
- ortriAPY OF r1ERIUPFD DATA A1 945 OA12
! 1 Ef1P 1 = 536,923 <. 774R.s TFt1P 2= 536.541 ( 7712.'
f T Et1P 3= 537.070
- 7712.3 TEf1P 4 = 536.752 < 7744.>
T Ef1P 5= 536.890 t 7720.*
TEf1P 6= 536.598 <. 7714.)
< T Et1P 7= 537.014 i 7759.*
l TEf1P A = 537.147
- 7788..' l TEt1P 9= 537.387 ( 7763.:s TEf1P 10 = 537.68A ( 7826.)
TEtiP 11 = 537.488 < 7779.'s
! TEt1P 12 = 537.498 ( 7802.>
TEf1P 13 =. 537.638 i 7801.s TEl1P 14 = 537.788 < 7827.)
TEt1P 15 =
537.991 ( 7789.s TEi1P 16 = 537.570 <: 7796.s l TEl1P 17 = 535.734 ( 7616.)
T El1P 1A = 537.451 ( 7799.')
- TEf1P to = 537.773 ( 7798.>
> <TEf1P 20 = 536.014 *: 7684.)
PPES 1 = 54.043 ( 90048.)
VPPC 1 = 0.405 ( 7273.)
VPPS 2= 0.386 i: 7160.)
i VPPS 3= 0.395 ( 7248.)
VPPS 4= U.401 ( 7284.>
VPPS 5= 0.'400 ( 7276.)
VPPS 6= 0.394 ( 7228.)
I l
l i I l
SUlif1ARY OF COPPECTED DATA l 1
l T i r1E = 945 l DATE = 0612 i T Et1PEPATURE (DEGPEES P.> = 537.128 4 COPPECTED PPE55UPE (PSIA) = 53.6459
.i
! VAPOP PPESGUPE (PSIA > = 0.3967 S
, +
r
. .. - - . . . . - . - .. - ...-.-... - - .- - .. -- .. ,...~-._. ..- - . - , - . -. - - _ . - _ - . . - -
l F VERIFICATION FLOW TEST SUttMARY DATA APPENDIY !! !
I fi f
i t
! i i
i i
) ; U eso ,- Der; 2
t
}
DAVI;-1;E!!E VEP IF IC AT IC?i AT 3i PIIG i
) !
l alt %X = 0.50n VOL = 2782000.OU VPATE1 = 0.4e6 VPATEM = 0.443 l
TIME DATE TEMP PPES5USE VPP$
) L 4
1130 612 537.2e4 53.6483 0.4004 i 1145 612 537,271 53.64B5 O.4U12 1 1200 e12 537.313 53.6477 0.4021
! 1215 612 537.363 53.6471 0.4020 1 1230 612 537.3AR 53.64e6 0.4025 1245 612 537.406 53.6461 0.4030
- 1300 612 537.390 53.6452 0.4034 ,
I 1315 612 537.396 53.6434 0.4040 i 1330 612 537.438 53.6423 0.4044 j 1345 612 537.417 5 3. t.421 0.4047 1 1400 612 537.447 53.6440 0.4057 53.6449 4
1415 612 537.4e8 0.4066 1430 612 537.493 53.6455 0.406e l 537.526 5 3. e454 0.4073 i 1445 612 1500 612 537.562 53.6450 0.4078 ;
1515 612 537.562 53.6437 0.4084 l l
1530 612 *;37.595 53.6428 u.4087 l i 0 0 0. 0 0. 0 0. 0 l i
I 1
- 1 I
i i
j e m**
- em e de w em=* 8 ew w e = ma e ., e op w as ..w
- W**
i i
i 1
i 1
A i
p F[ ]Q ]D03 \
4 c.
LM .MLL k
.. . . . _ . . _ . _ . . . _ . . , _ - - , _ . , , _ , - . . _.. .- . . . _ _ . . _ . - . . . . . ...,_--._,-____,,,,--,,_--.4
VERIFICATION FLOW TEST TPIND REPOP,T APPENDIX N 7-
\v)
DAV15-E;E55E VEPIFICATI0fi Al 38 PSIG TPEriD PEPOPT LERFAGE PATES OJEIGHT FEPCEfiTeDAD TIME Ar4D DATE AT TTAPT OF TES.T: 1130 0612 ELAP5ED TIf1E: 4.QU HOUPS fiO. 06TA ELAP5ED TOTAL-TIf1E Af4ALYSIS MA55-PulfiT ATIALYSIS POIf t15 T If1E T1E Ali CALCULATFD CALCULATED 10 2.25 O.500 0.532 0.475 11 2.50 0.492 0.496 0. 4 3
p 12 2.75 0.483 0.465 0.410 (g 13 14 3.00 0.476 0.442 0.393 c:.25 0.470 0.428 0.386 15 3.50 0.467 0.423 0.389 16 3.75 O.464 0.416 0.388 17 4.00 0.462 0.415 0.395 i j D** *D DM h
_m. ._ .1 N n
i j-I VERIFICATION rLOW TEST t-!A!d-POII.T ANALYSIS APPENDIX 0 4
- r f DAVI'.'-BES IE VEPIF IC AT IOri AT 38 PTIG LEAtAGE FATE < b'E I GH T PE F C Erit 'D A'u f1A I C-PO I riT AliAL'eT I ".
j TIf1E AliD DATE AT iTART OF TEST: -1130 Gela ELAFIED tit 1E: 4.00 HOUPI
- TIr1E TEf1P PFEISUPE C Tt1T. HIP (16.*I LO25 10T. AVG. r1AE5 i *Ps (PTIA) r1 AK"
- tLBM) ( L Bri s LOl2 ( L Bri/HP )
1 1130 537.264 53.6488 749821 i 1145 537.271 53.6485 749807 14.0 55.9 1200 537.313 53.6477 749737 69.8 167.5 i 1215 537.368 53.6471 749652 85.1 225.2 1230 537.362 53.64e6 749653 -1.4 167.5 l 1245 537.406 53.6461 749585 ' 68.4 188.7 1300 537.390 53.6452 749595 -9.7 150.7
- 1315 537.396 53.6434 749561 33.5 148.4 1330 537.438 53.6423 74948, <3.9 166.8 l 1345 537.417 53.6421 749514 -26.5 136.5 1400 537.447 53.6440 749498 15.3 129.0
\
1415 537.468 53.644'A 749482 15.7 123.3 1430 537.499 53.6435 749448 33.4 124.2 1445 537.526 53.6454 749408 40.4 127.1 1500 537.562 53.6450 749352 55.8 133.9 1515 537.562 53.6437 749334 17.6 129.7 1530 537.595 53.6428 749276 58.7 136.3 4
J FPEE AIP VOLUt1E U5ED 011LLIOfi5 OF CU. FT.) = 2.782 i
l PEGPEISIOri LIftE l IllTEPCEPT (LEN) = 749788 f 4
SLOPE (L Bt1/HP)
= -123.2 ;
VEPIFICATIOrt TEST LEAFRGE PATE UPPEP LIf1IT = 0.573 4
VEPIFIC ATIOf1 TEST LEAVAAE PATE LublEP LIMIT = 0.323
! THE CALCULATED LEAF AGE PATE = 0.394 4
i O \
- O l i
D""]DA o Ju J ov BU SlU.*]D03)\@ l n y - _ _. ..-.__,r
- ._ ._, y _. - , _ . - , , , _
i VERIFICATI' ON FLOW TEST TOTAL-TIME ANALYSIS APPENDIX P l
I I i 1
i
- 1 i
DAV13-FE3 E VEPIFICATIOri AT 38 P316 l . LEAFAGE FATE ' l.lE I GH T PEFCEriT/D F' 10T AL-T I r1E Ali ALYS.15
, TIf1E AliD DAT F AT STAPT OF TE S T : 1130 0612 ELAPIED TIr1E: 4.00 HOUPI a
T it1E T Ef1P. PPESEUPE T1ERIUFED (P) (' PSIA LEALAGE PATE 1130 537.264 53.64':d8 1145 537.271 53.6485 0.179 120n 537.313 53.6477
- 0.536 1215 537.368 53.6471 0.721 l 1230 537.362 53.6466 0.S36 l
! 1245 537.406 53.6461 0.604 i
, 1300 537.390 53.6452 0.492 l 1315 537.396 53.6434 0.475 1330 537.438 53.6423 0.534 1345 537.417 53.6421 0.437 1400 537.447 53.6440 0.413 1 1415 537.4A8 53.6449 0.395 l 1430 537.498 53.6455 0.307 1445 537.526 53.6454 0.407 i 1500 537.562 53.6450 0.429 4 1515 537.562 53.6437 0.415
- I 1530 537.595 53.6428 0.436 1
i, f1EAri OF t1EASUPED LEAVAGE PATES = 0.462 i
VEPIFICATIDri TEST LEAFRGE PATE UPPEP LIMIT = 0.591 VEPIFIC ATIOri TEST LEAF. AGE PATE Lub3EP lit 11T = 0.341 '
1 THE CALCULATED LEAKAGE PATE = 0.415 4
i 1
l
- 'T D**
. .W @ @ 3- #
l
, i l
_ _ . . _ . _ _ . _ _ _ _ . . _ . . _ . . __ . . _ , _ _ _ _ . _ _. _ __. ~
I
' VERIFICATION FLOW TEST I
SUMMARY
OF MEASURED DATA APPENDIX Q i,
f IUlifiscY OF f1EA~bPED DATA AT 1130 0612
- T Ef1P 1 = 537.054 ( 7761.>
l TE f1P 2= 536.653 '. 7723.)
} TEf1P ~= 5??.171 < 7722.>
- TEf tP 4 = 536.944 ( 776 ?. >
l TEf1P 5= 537.031 ( 7734.)
TEllP 6= 536.74G < 7729..)
TEf1P 7= ".37.064 e 7764.)
i TEf1P 8= 537.308 ( 7799.>
l TEf1P 9= 537.488 ( ??T3.)
- TEriP in = 537.646 ( 7827.)
T Ef1P 11 = 537.458 ( 7776.)
TEf1P 12 = 537.589 ( 7811.)
TEf1P 13 = 537.971 ( 7834.'s TEf1P 14 = 537.809 ( 7829.)
TEf1P 15 = 538.223 ( 7811.)
TEf1P 16 = 537.722 8 7.811.)
TEf1P 17 = 535.921 ( 7634.)
TEl1P 18 = 537.653 ( 7819.)
TEf1P 19 = 538.096 ( 7830.)
TEf1P 20 = 536.156 ( 7698.-)
j .
PPES 1= 54.049 ( 90059.)
j VPPS 1= 0.408 ( 7297.>
- VPPS 2= 0.390 ( 7195 's l VFPS 3= 0.399 ( 7276.)
{ VPPS 4= 0.403 ( 7299. .>
j VPPS 5= 0.404 ( 7305.>
', VPPS 6= 0.398 ( 7259.)
l l
1 i
1 1
1 1
j SUf1 MARY OF COPPECTED DATA 1
]
- l
! TIME = 1130 .
DATE = 0612 {
4 I
TEf1PEPATUPE (DEGPEES P.) = 537.264 l
C0FPECTED PPESSUPE < PSIA) .
= 53.6488 VAPOR PPESSUPE (PSIA) = 0.4004 '
s il
, +x ._.- .x , ,, a--a a -a - - . w ----.-.. -- -
VERIFICATION FLOW TEST l
SUtetARY OF MEASURED DATA APPENDIX Q
. t l1 J
', O
- Ortr4ARY OF f1EA:UFED DATA RT 1145 0612 TEMP 1 = 537.104 < 7766.e TEf1P 2= 536.713 ( 7729..
TEtiP 3= 537.241 t 7729.;-
T E r4P 4 = 536.944 < 7763..
TEMP 5= 537.041 ' 7735.)
TEf1P 6= 536.840 e 7738./
TEf1P 7= 537.196 '. 7777.>
T EI1P 9= 537.354 ( 7804.>
TEf1P 9= 537.488 ( 7773.)
T Et1P 10 = 537.767 i 7834.>
TEf1P 11 = 537.534 ( 7784.)
TFMP 12 = 537.609 (. 7813.)
TEt1P 13 = 537.799 ( 7817.)
TENP 14 = 537.667 ( 7817.)
TEf1P 15 = 538.051 ( 7794...
TEMP 16 = 537.722 ( 7811.>
TEf1P 17 = 535.982 ( 7'640.)
TEl1P 18 = 537.704 ( 7824.>
TEMP 19 = 537.864 ( 7807.)
TEMP 20 = 536.176 ( 7700.)
PPES 1 = 54.050 ( 90060.)
YPPS 1 = 0.408 ( 7298.)
VPPS 2= 0.390 ( 7195.)
VPPS 3= 0.399 ( 7278.)
i VPPS 4 = 0.405 ( 7308.)
l VPPS 5= 0.406 ( 7320.)
l VPPS 6= 0.400 ( 7267.)
l i
i l
l SUMr1APY OF COPPECTED DATA l TIME = 1145 i DATE = 0612 1
I l TEMPEPATUPE iDEGPEES P.) = 537.271 I
{ . COPPECTED PPE55UPE (PSIA) = 53.6485 YAPOP PPESSUPE (PSIA) = 0.4012 I
. gg e -@ h a l
- . - - - - - . , - , . ~ . . - . - . . . . . - . . - , - . . . . - ~ - - . - - - , . . - - - , - - - - . . . - , - . - - . - . . - . , . - - - - - . - - - - - - - - -
.- .--. -. . . _ . .- . . _ . . _ . . . . - ..-. . - . - - - - . = _ - _ - _ - - _ . - . -
i
' VERIFICATION FLOW TEST SUICfARY OF PEASURED DATA _
APPENDIX Q i
~UtifisPY OF ME A;UFED DATA PT 1200 0612 i
I TEr1P 1 = ". :: 7. 1 04 a , , t e. . >
l TEf1P 2= 536.774 i T735
- i
! T Er1P 3= 537.221 i 7727.'s l TEMP 4 = 5?6.944 < 77A3.i TEt1P 5= 537.102 i 7741.> ,
1 TEf1P 6= 536.780 a 7732.> '
i TEMP 7= 537.155 < 7773.' l j TEt1P 8= 537.359 ( 78 04. 'a f l TETIP 9= 537.518 ( TN6. ) '
! TEr1P to= 537.757 ( 7833.> t i TEf4P 11 = 537.609 ( 7791.)
I TFMP 12 = 537.650 ( 7817.')
l TEMP 13 = 537.921 ( 7829.)
l TEMP 14 = 537.879 i 7836.)
l TEMP 15 = 538.223 (. 7811.)
l TEMP 16 = 537.752 ( 7914.)
j TEMP 17 = 536.053 ( 7647.)
- TEr1P 18 = 537.674 ( 7821.>
l TEMP 19 = S38.066 ( 7827.)
i TEMP 20 = 536.197 ( 7702.') !
l PPES 1 = 54.050 ( 90060.) I
! VPPS 1 = 0. 4 ri9 i 7308.) !
l UPPS 2= 0.391 ( 7202.)
VPPS 3= 0.400 ( 7282.> l l VPPS 4= 0.405 ( 7308.)
l VPPS 5= 0.406 ( 7319.) i VPPS 6= 0.402 ( 7284.)
l i
a j IOMMAPY OF CORRECTED DATA
) 11ME = 1200 ,
DATE = 0612 TENPEPATUEE (DEGPEES P.) .
= 537.313 COPPECTED PPESSUPE (P S I A., = 53.6477 VAPOR PPESSUPE (PSIA) = 0.4021 i
yBBR BBBM
. . . _ .-. _ . , ~ _ . , _ . _ . -,__ , _ . _ _ , _ _ . _ . _ . , _ _ . . . . . _ _ _ _ _ _ . , , . _ _ - , , , _.._,_. _ _;
,. - -. _ _ . - _ _ . . .. . .- - - . - .. _.. ~ _-.. -,
4 VERIFICATION FLOW TEST SUlfMARY OF !EASURED DATA , APPENDIX Q !
t i I l l.
V j .UMMHPY OF MEA ^UPED DATA 6T 1215 Oe12 l 1
j T Et1P 1 = 537.165 ( 7772.*
j 1 Er1P 2= 536.744 ' 7732.)
TEr1P 3= 537.302 (. TT 35. 's TEMP 4 = 537.015 ( 7770.)
- TEf1P 5= 537.133 r. 7744.>
j TEf1P 6= 536.A50 e 7739 i t
TEf1P 7= 537.267 s. 7764.*
I TEMP 8= 537.399 < 78 08. 'e 4
TEMP 9= 537.559 ( 7780.:s i TEMP 10 = 537.757 ( 7833.)
l TEMP 11 = 537.680 < 7798.)
1 ll TEMP 12 = 537.710 ( 7823...
{ TEMP 13 = 537,739 r. 7811.)
i TEMP 14 = 537. F:49 ( 7833.)
i ' TEMP 15 = 538.355 ( 7824.)
TEMP 16 = 537.813 ( 7820.3 (
TEMP 17 = 536.185 i. 7660.? !
TEMP 18 = 537.694 < 7823.) !
TEMP 19 = 538.400 ( 7861.)
fp TEMP 20 = 536.197 ( 7702.)
\
PRES 1 = 54.049 ( 90059.>
I i VPPS 1 = 0.410 ( 7309.)
YPPS 2= 0.392 ( 7204.)
- VPPS 3= 0.400 ( 7287.>
5 VPPS 4 = 0.405 ( 7309.')
. VPPS 5= 0.406 ( 7323.>
- VPPS 6= 0.400 ( 7270.)
i 1
I SUMMAPY OF COPPECTED DATA I TIME = 1215 DATE = 0612 i
TEMPERATURE (DEGREES P.) = 537.368 COPPECTED PPESSUPE tPSIA) = 53.6471 4
VAPOP PPESSUPE (PSIA) = 0.4020 V "
g m: Q ] .
1-D
. =
oo . .-
'1 i
o e
VERIFICATION FLOW TEST SU!DtARY OF MEASURED DATA APPENDIX Q a
t i
IUr1MA P'.* O F f1EW.UT ED DAT A AT 123n Ge12 TETIP 1 = 537,145 . 7770. e T E f1P 2= 536,774 ( 7735.)
TEf1P 3= 537.::02 ( 7735.)
TEMP 4 = %36.975 i 7766.4 TEf W 5= 537.133 e 7744.*
T E t1P 6= 536.840 ( 7738.e TEf1P 7= 537.216 <: 7779.)
TEMP 8= 537.394 ( 7808.>
T Ef1P 9= 537.64n <! 7788.)
TEf1P 10 = 53?.696 ( 7827.)
,- TEf1P 11 = 537.690 c. 7799..e TEf1P 12 = 537.741 (. 7826.)
TEMP 13 = 537.830 < 7820.)
TEf1P 14 = 537.950 ( 7843.)
TEMP 15 = 538.284 v. 7817.)
T Ef1P 16 = 537.844 *: 7823.)
TEMP 17 = 536.134 ( 7655.)
TEMP 18 = 537.775 (: 7831.)
TEMP 19 = 538.066 ( 7827.)
TEMP 20 = 536.298 <. 7712.)
PPES 1 = 54.049 ( 90059.)
VPPS 1 = 0.410 4 7310.)
VPPS 2= 0.392 ( 7208.)
VPPS 3= 0.400 ( 7287.)
VPP! 4= 0.405 ( 7311.)
VPPS 5= 0.406 c. 7325.>
l VPRS 6= 0.402 ( 7282.s i
P l
i :
l' SUf1 MARY OF COPPECTED DATA TIME = 1230 DATE = 0612
' I TEMPEPATURE (DEGREES P.) = 537.362 i
COPPECTED PPESSUPE (PSIA) = 53.6466 VAPOP PPESSURE (PSIA) = 0.4025 s
1
.- . , . _, h
, .@@ @ Le - J l
VERIFICATION FLOW TEST
SUMMARY
OF MEASURED DATA APPENDIX Q t
i i IUr1MAPY Of MEASUFED DATA AT 1245 0612 I
s T Et1P 1 = 537.165 ( 7772.)
l TEMP 2= 536.835 ( 7741.>
TEMP 3= 537.302 ( 7735.)
TEt1P 4 = 537.045 5' 7773.>
TEt1P 5= 537.163 ( 7747.)
TEMP 6= 536.911 ( 7745.)
! TEMP 7= 537.216 ( 77.79.) ,
TEf1P 8= 537.450 ( 7813.) ;
TEMP 9= 537.650 ( 7789.)
TEt1P 10 = 537.818 i 7839.)
i TEMP 11 = 537.721 ( 7802.)
TEMP 12 = 537.771 ( 7829.>
TEMP 13 = 537.830 ( 7820.)
TEMP 14 = 537.758 ( 7824.'s TEMP 15 = 538.405 ( 7829.)
TEMP 16 = 537.823 ( 7821.)
, TEMP 17 = 536.256 ( 7667.)
TEMP 18 = 537.734 ( 7827.>
TEMP 19 = 538.429 ( 7863.)
TEMP 20 = 536.308 ( 7713.)
V PPES 1 = 54.049 ( 90059.)
i VPPS 1 = 0.411 ( 7316.)
) VPPI 2= 0.393 (. 7215.)
VPPS 3= 0.401 5 7291.)
t/PP7 4= 0.405 ( 7310.1 VPPS 5= 0.407 7332.)
j VPPS 6= 0.402 ( 7282.)
i l
j I
SUMt1APY OF COPPECTED DATA TIME = 1245 DATE = 0612 TEMPEPATUPE (DEGREES P.) = 537.406 COPEECTED PPESSUPE (PS I A.' = 53.6461
.VAFDP FPESSUPE (PSI A's = 0.4030 D 90 *3D'T & 1
,, J\\ o J\\ 2. A =
i i
VERIFICATION FLOW TEST
SUMMARY
OF MEASURED DATA APPENDIX Q t
i
- Utit1APY OF IIEAOUPED DATA AT 1300 6612
) T Er1P 1 = 537.185 ( 7774.)
' TEf1P 2= $36.804 < 773R.>
!I T E f1P 3= 537.363 i 7741..s l TEl1P 4 = 537.035 ( 7772.) . .
TEr1P 5= 537.173 <. 7748.)
i T Ef1P 6= $36.871 <. 7741.A T Ef1P 7= 537.216 ( 7779.)
) TEt1P 8= 537.450 ( 7813.)
1 T E!1P 9= 537.640 ( 7788.)
! TEr1P 10 = 537.838 ( 7841.)
! T Ef1P 11 = 537.609 ( 7791.)
! TEt1P 12 = 537.741 ( 7826.)
4 TEt1P 13 = 537.921 ( 7829.e
- TEliP 14 = 537.879 ( 7836.)
T El1P 15 = 538.345 ( 7>323.>
TEr1P 16 = 537.874 ( 7826.)
4 T Ef1P 17 = 536.134 ( 7655.>
1 TElio 18 = 537.734 ( 7827.>
TEf1P 19 = 538.13r:. ( 7834.s I
]
TEr1P 20 = 536.318 ( 7714.)
d PPES 1 = 54.049 ( 90058.)
i
! VPPS 1 = 0.410 ( 7315.)
VPPS 2= n.393 ( 7215.)
VPP5 3= 0.401 ( 7295.)
I s/PPI 4 = 0.4Ur i <323.>
3 VPP3 5= 0.407 <: 7330.>
) VPPS 6= 0.402 ( 7284.)
1 i
, SUlit1RPY OF COPPECTED DATA
}
! TIl1E = 1300
- DATE = 0612 4
TEf1 PEP AT UF E (. DEGREES P.> = 537.39n I
COPPECTED PPES!UPE < PSIA) = 53.6452 1 .
! VAPOP PPES5UPE ( PS 1 A.s = 0.4034 i
A ,D ,
t)) h
4 VERIFICATION FLOW TEST lf i
SUMMARY
OF MEASURED DATA APPENDIX Q 1 s
)
I Urir1APY OF f1EAP.UPED DATA AT 1315 0612 i
e TEf1P 1 = 537.165 ( T772. :s TEf1P 2= 536.835 v. 7741.)
{$
TEf1P 3= 537.292
- 7734.>
TEMP 4 = 536.975 ( 7766.>
TEMP 5= 537.133 (: 7744.>
TEMP 6= 536.850 ( 7739.s TEf1P 7= 537.307 <
77S8.>
TEMP 8= 537.450 ( 7813.>
- TEf1P 9= 537.559 ( 7780.)-
, TEMP 10 = 537.879 ( 7845.>
TEMP 11 = 537.721 ( 7802.*
TEf1P 12 = 537.710 a: 7823.)
i TEMP 13 = 537.931 t. 7830.)
TEf1P 14 = 537.879 ( 7836.>
T Ef1P 15 = 538.345 t 7823.*
TEf1P 16 = 537.884 ( 7827.)
TEMP 17 = 536.134 ( 7655.)
TEf1P 18 = 537.795 i 7833..*
TEMP 19 = 538.207 ( 7841.'
4 s TEMP 20 = 536.369 ( 7719.)
- PPES 1 =
54.047 ( 90056.*
j VPPI 1 = 0.411 ( 7321.)
' VPPS 2= 0.393 ( 7217.)
VPPS 3= 0.402 ( 7298.'s
~
VPPS 4= n.408 ( 7332.>
+
VPPS 5= 0.408 ( 7339.)
I VPPS 6= 0.402 ( 7282.)
i.
SUMf1APY OF COPPECTED DATA TIME = 1315
. DATE = 0612 TEMFEPATUPE (DEGFEES P.) = 537.396 CDPPECTED PPESSUPE t. PSIA) = 53.6434
- l. VAPDP PPE55UPE i PSI A's = 0.4040 D .
i, J
i I
VERIFICATION FLOW TEST j j SUte!ARY OF !EASURED DATA APPENDIX Q
< l i
4
- CUf1MAPY OF MEAIUFED DATA AT 1330 06
- 2 ,
TEMP 1 = 5??.175 t. 7773.>
i TEMP 2= 536.845 ( 7742.>
lEMP .t: = 5??.332 ( 7738.)
TEttP 4 = 537.08e i 7777.4 TEMP 5= S37.204 i 7751.1 TEMP 6= 536.8A1 i 7742.*
I TEMP 7= 537.26.- t <<84.>
- TEMP A = 537.480 ( 7816. '
- '
1 T E tIP 9= $37.599 ( 7784.)
! TEMP 10 = 5?7.848 ( 792.>
! TEMP 11 = 537.690 ( 7799.>
TEMP 12 = 537.771 ( 7829.)
1 TEMP 13 = 537.820 (. 7819.>
! TEMP 14 = 537.819 ( 7830.)
TEMP 15 = 538.456 ( 7834.)
TEMP 16 = 537.874 ( 7826.)
TEMP 17 = 536.428 ( 7684.)
TEMP 18 = 537.805 ( TE:34.) i TEMP 19 = 538.510 ( 7871.)
4 TEMP 20 = 536.369 ( 7719.>
PRES 1 = 54.047 ( 90055.)
VPPI 1 = n.411 ( 7323.)
VPPS 2= 0.394 t. 7222.>
VPPS 3= 0.402 t' 7302.s upp; 4= 0,407 ( 7328,3 VPPE 5= 0.403 ( 7337.)
VPPS 6= 0.403 ( 7295.>
l d
SUMMARY
OF COPPECTED DATA I
- TIME = 1330 DATE = 0612 f
.TEMPEPATUPE (DEGPEES P.) = 537.438 1
COPPECTED PPE5:UPE (: PSIA) = 53.6423
! VAPOP PPE55UPE (PSIA) = 0.4044 i
i l
9
b 4
j VERIFICATION FLOW TEST
SUMMARY
OF MEASURED DATA APPENDIX Q i .
1 I 1
4 I ':Uf1MAPY OF MEASUPED DATA AT 1345 0612 i
TEMP 1 = 537.215 ( 7777.4 i
> TEMP 2= 536.865 ( T744.:' ;
', TEMP 3= 537.34d * 3*. l
. TEMo 4 = $37.035 7772.:'
i TEMP 5= 537.183 Y 7744.)
j TEMP 6= 536.871 8
- 7741.)
j TEMP 7= 537.307 t. 7768.)
TEMP S= 537.460 ( 7814.>
, TEMP 9= 537.751 ( 77**.>
l TEMP 10 = 537.808 ( 7838.
- TEMP 11 = 537.589 ( 7789.)
! TEMP 12 = 537.721 ( 7824.'s j TEMP 13 = 538.153 ( 7852.)
TEMP 14 = 537.950 ( 7843..*
l TEMP 15 = 538.284 ( 7817.)
i TEMP 16 = 537.924 '
7931.)
j TEMP 17 = 536.175 ( 7659.:)
i TEMP 18 = 537.775 ( 7831.>
I TEMP 19 = 538.055 ( 7826..s t
- TEMP 20 = 536.369 ( 7719.>
i j PRES 1 = 54.047 ( 90055.)
i i VPPI 1 = 0.412 ( 7327.)
l VFPS 2= 0.394 ( 7223.>
j s/PPS 3= 0.403 '. 7308.)
j VPPS 4= 0.407 ( 7323.'s
! VPP5 5= 0.409 ( 7345.)
l VPPS 6= 0.403 (. 7293.)
i i
i I
! -SUMMAPY OF CORPECTED DATA i
l TIME = 1345 l DATE = 0612 1
] TEMPEPATURE (DEGPEES P.) = 537.417 1
4 I -
COMPECTED PPESSUPE (PSIA) = 53.6421 1
i VAPOP PPESSUPE (PSIA 4 = 0.<047 j
? a i
, i {
j , VERIFICATION FLOW TEST i
{l
SUMMARY
OF MEASURED DATA APPENDIX Q l !
t 4
i j UMilAPY OF MEA UFED DATA RT 1400 0612 l
- r i TEMP 1 = 537.266 ' . ' 7782.) I l TEMP 2= 636.905 i 7748.>
j TF f1P 3= 537.403 *. 7745.:'
( TEf4P 4 = 537.136
- 7782.>
3 TEMP 5= 537.163 ( 7747.> <
- TEMP 6= 536.88l ( 7742.'s .
1 TEf1P 7= 537.368 t. 7794.:'
{ 1EMP 8= 537.582
- 78J6.> l' l TE f1P 9= 537.892 ( 7813.'s TEMP 10 = 537.808 i 7838. .>
TEMP 11 = 537.741
- 7804.> t' 3 TEMP 12 = 537.892 ( 7841.)
} TEMP 13 = 538.174 ( 7854.:'
- TEMP 14 = 537.758 i 7824.>
j TEMP 15 = 538.223 ( 7811.>
l TEMP 16 = 537.904 ( 7829..i j TEMP 17 = 536.053 (: 7647.)
TEf1P 18 = 537.805 <. 7834.> ;
I TEMP 19 = 538.025 (. 7823.>
} TEMP 20 = 536.399 (. 7722.)
1
- PPES 1 =
1 54.050
- 90060.)
4 l VPPS 1= 0.412 ( 7326.:'
4 1
VPPS 2= 0.395 < 7228./ -
i VPPS 3= 0.405 t 7323.> 1 I VPPS 4= 0, 408 i 7334.) i j VPPS 5= 0.411 ( 7356.) )
i VPPS 6= 0.404 < 7299.)
i 1
v I
I i
.t j SUMMAPY OF COPPECTED DATA TIME = 1400
$a -
DATE = 0612
) TEMPEPATUPE t.DEGPEES P. 's = 537.447 i -
COPPECTED FPESSUPE (PSIA) = 53.6440 i
j VAPOP PRESSUPE (PSIA) = 0.4057 i
i
=
)
).
l
,~ e-- - ,- - ,. .-wyy.,y, . ., ., _ , . - , , - ,,r ~ - , y -, .,,Jw_,r-.we, _,.ue.w,.--r-y -w,.3 - ,
r -v-.'
i e
VERIFICATICN FLOW TEST
SUMMARY
OT FEASURED DATA APPENDIX Q l
t j IUMMARY OF MEA UPED DA1A AT 1415 0612 !
1 TEt1A 1 = 537.266 <
7782. 'a
, TEMP 2= 536.915 < 774'4.s
, , TEt1P ?= 537.44?
- 7749.s l' '
L TEf1P 4 = 537.236 i
..92.'
" .=
T EIIP 537.173 (. 7748.>
- TEMP 6= 536.931 '. 7747.> !
l 6 TEMP 7= 537.?48 e 7792.)
1 TEf1P 8= 537.592 '. TSc'7. i TEMP 9= 537.973 ( 7821.>
TEf1P 10 = 537.889 ( 7846.
- TEMP 11 = 537.660 '. 7796.)
l TEMP 12 = 537.943 (. 7846.>
j TEMP 13 = 538.224 ( 7859.)
TEMP 14 = 537.809 <~ 7829.>
TEr1P 15 = 538.163 ( 7605.>
TEMP'16 = 537.924 ( 7831. .>
TEMP 17 = 535.962 ( 7638.) '
TEf1P 18 = 537.825 ( 7836.')
i TEMP 19 = 538.066 ( 7827.)
TEMP 20 = 536.429 ( 7725. 'e PPES 1 = 54.052 ( 90063.)
i VPPS 1 = 0.413 t. 7334.')
VPPS 2= 0.396 ( 7237.)
VPPS 3= 0.407 ( 7334.>
VPPO 4= 0.408 ( 7334.)
VPPS 5= 0.412 ( 7367.>
VPPS 6= 0.404 ( 7299.>
i
)
SUMMARY
OF CORPECTED DATA TIME = 1415 DATE = 0612 TEMPEPATURE (DEGPEES P.') = 537.468 COPFECTED PPESSUPE (PSIA) = 53.6449 VAPOP PPES5UPE (PSIA > = 0.4066 j i
s 1 i D?P D
P W 'S' G& 412. 9 ']AIRl _,
l
1 j
1 VERIFICATION FLOW TEST SUrD!ARY OF !EASURED DATA APPENDIX Q
)
f'( i e
T UM M A E DF f1EA"81 PED DATA AT 1430 0612 !
A TEf1P 1 = 5??.357 i 7791.1 TEMP 2= 536.946
- 7752./
TEf1P 3= 537.474 '
. 7752.'
i TEMP 4 = =.37.157 i 7784.s TEMP 5= 537.?s6 e 7767.)
TEMP m= "':17.002
< 7754.s TEf1P 7= 537.348 e 7792.)
1 TEMP 8= 537.622 t, 7830.)
l TEMP y= 538.034 *: 7827.s TEr1P 10 = 537.879 v' 7 %45.'s i TEMP 11 = 537.710 ( 7801.)
TEMP 12 = 537.912 a: 7843.4 TEMP 13 = 538.275 <. 7864.)
TEMP 14 = 537.819 ( 7830.) I
- TEMP 15 = 538.193 i 7608.>
' TEMP 16 = 537.924 (: 7831.)
TEMP 17 = 535.921 ( 7634.>
t j
TEMP 10 = 537.886 t. 7842.)
) TEMP 19 = 538.096 ( 783 0. .e t
TEMP 20 = 596.429 (- 7725.)
t
{ PPE! 1 = 54.052 <: 90064.)
VPPS 1 = 0.414 <. 7341.> I i
VPPS 2= 0.396 <. 7237. ;
VPPI 3= l.i. 4 08 5 7345.) i VPPS 4= 0.408 / 7334.)
!j VPPS S= 0.412 i 7363.:s VPPI 6= 0.402 < 7288.) '
4
$UMMAPY OF CDPPECTED DATA TIME = 1430 DATE = 0612 TEMPEPHTUPE (DEGPEES P.) = 537.498 i I
4 COPPECTED PPESSUPE (PS I A's = 53.6455 i i
- VAPOP PPESSURE (PSIA) = 0.4066 i
1
\
j 1
J uu in l
l t
I
- _ - - .- . - - - - - - - - - - - - - - - - ~ ~ ~ ~ - ~ ~ ~ ~ " ~ ~ ~ ~ ~'
l l
' ! VERIFICATION FLOW TEST i SU!DtARY OF MEASURED DATA APPENDIX Q
) -
1
$I 5l 0r1M6PY OF f1ERIUPED DATA AT 1445 0612 '
i
- . TEMP 1 = 537.337 ( 7 780. .
TEMP 2= "?6.406
. (. 7757 :.
- TEfIP 3= 537.474 < 7752.>
TEMP 4 = 5.;7.268 s. 7795.>
- IErlP 5= 537.234 < 7754..'
1 TEf1P 6= 537.012 '. 7755.)
! TEr1P 7= 537.366 '
' 7794.>
j TEf1P 8= 537.632 r. 78)1.>
< TEMP 9= 538.024 *: 7826.)
1 TEMP 10 = 537.919 ( 7849.)
- TEMP 11 = 537.751 (. 7805.)
i TEMP 12 = 538.003 ( 7852.>
TEMP 13 = 538.275 ( 7864.) !
TEMP 14 = 537.900 ( 78 38. 'a TEMP 15 = 538.254 ( 7814.)
i TEMP 16 = 537.955 ( 7834.)
TEMP 17 = S36.033 (. 7645.)
,. TEMP 18 = 537.855 (. 7639.)
- TEMP 19 = 538.156 ( 7836.)
} TEMP 20 = 536.480 ( 7730.)
J l PRES 1 = 54.053 (. 90065.>
VPPS 1 = 0.414 (. ?343.)
j VPPS 2= 0.397 ( 7247.) e
- VPPS 3= 0.408 ( 7345.) '
J VPPS 4 = 0.409 ( 7338.)
- VPPS 5= 0.413 ( 7376.)
j VPPS 6= 0.402 ( 7288.>
d J
i i
SUMMARY
OF CDPFECTED DATA TIME = 1445 4
DATE = 0612 TEMPEPATUPE (DEGREES P.) = 537.526 t-CORPECTED PPESSUPE (PSIA) = 53.6454 VAPDP PPES5UPE (PSI A's = 0.4073 I
ggg B$b
,y.- -.. __- -
.#,. , ,- , , , - , , 3 _.__,_-.._,--__...y _,r y ,c.,m. , , _ - ,y. ...,,..,,,,,-y-.,-..m.,._...,-m.,-..~y,-
A l l 1
I '
VERIFICATION FLOW TEST
SUMMARY
OF !EASURED DATA APPENDIX Q ,
- i e
8 i -
i t
- Utif1HPY OF l1ERIUrED DATA AT 1500 0612 I
TEf1P 1 = 537.428 ( 7798./
T E f1P 2= 537.016 ': 7759.) l TEf1P 3= 537.544
- 7754... I 1 Ef1P 4 = 537. 2M:
- 7792... !
T E f1P 5= 537.4Q7 ( 7780.) I 1
TEf1P e. r 537.032 s. 7757.* ;
TEf1P 7= 537.419 < 7799.i l 1
TE f1P 8= 537.632 ( 7831.> l TEf1P 9= 538.054 ( 7Ee9.
TEftP 10 = 537.934 i 7851.)
TE!1P 11 = 5?7.781 ( 7808.>
TEf1P 12 = 538.003 ( 7852.)
I
- TEf1P 13 = 538.295 ( 7866.
TEf1P 14 = 537.679 ( 7836.) <
{ TEf1P 15 = 538.284 ( 7817.')
{
} TEf1P 16 = 537.975 ( 7836.'s '
TEf1P 17 = 536.012 ( 7443.)
TEf1P 18 =' 537.916 ( 7845.'s
! TEf1P 19 = 538.136 ( 7834.>
2 TEf1P 20 = 5.6.521 ( 7734.)
4 PPES 1 = 54.053'( 90065.)
VPPS 1 = 0.415 ( 7347.)
VFPS 2= 0,396 ( 7241.>
- VPPS. 3= 0.409 ( 7352.)
, VPP3 4= 0.409
- 7341.>
1 VPPri 5= 0.415 ( 7384.)
j VPPS 6= 0.403 ( 7291.>
I 1F i
4 i
!- SUtir1APY OF COPPECTED DATA i i
TIf1E = 1500 DATE = 0612 1
TEf1PEPATUPE (DEGPEES P.> = 537.562
{
CDPFECTED PPESSUPE (PSIA) = l
.__ 53.6450 l VAPOP PPESSUPE (PSIA) = 0.4078 l
a .
l j VERIFICATION FLOW TEST
SUMMARY
OF MEASURED DATA APPENDIX Q .
i
\ I
., I l ,
"Ut1f1APY OF r1ERIUFED DATA RT 1515 0612 1
T T.f1P 1 = 537.438 ( 7704.'
TEl1P 2= 537.027 0 7760.4 i T E f1P '= 537.504 ( 7755.*
TEMF 4 = 537.278 ( 7796.>
l TEMP 5= 537.366
- 7764.e T Ef1P 6= 537. fi32 ( 7757. >
j T Ef1P 'T = 537.419
- 7794.*
T Ef1P 8= 537.683 i TE"36. )
TEf1P 9= 5?S.074 ( 7831.)
TEf1P 10 = 537.970 ( 7854.>
T Ef1P 11 = 537.741 (. 7864.)
j TEMP 12 = 538.003 ( 7852.'s TEt1P 13 = 538.295 ( 7866.)
TEMP 14 = 537.900 ( 7838.>
4 TEMP 15 = 538.284 ( 7817.)
, TEMP 16 = 537.995 ( f838.>
l TEMP 17 = 536.U63 ( 7648.'s
- T E f1P 18 = 537.896 ( 7843.)
j TEMP 19 = 538.106' ( 7831.>
TEMP 20 = 536.531 ( 7735.)
l PPES 1 = 54.052 - 90064.>
I VPPI 1 = 0.415 ( 7350.)
VPPS 2= 0.398 ( 7250.3 l YPPS 3= 0.409 ( 7355.)
t VPPS 4 = 0.409 i 7341.) l i
VPP? 5= 0.415 ( 7386.)
VPPS 6= 0.404 (. 7300.)
50MMAPY OF COPPECTED DATA TIME = 1515 DATE = 0612 1 .
i TEMPEPATUPE (DEGFEES P.) = 537.562 CDPPECTED PPESSUPE (PSIR) .
= 53.6437 VAPOP PPESSURE (PSIA) = 0.4084 i
g I
l .
{ VERIFICATION FLOW TEST SUmtARY OF MEASURED DATA APPENDIX Q l
1 4
~l.lMf1AFY OF flFAIUPED DATA AT 1530 0612
, TEt1P 1 = 537.488 < 7804.4 i T F t1P 2= 537.n?'
- 7761.- !
3= 537.564 TE f1P '. 7761.' l TEr1P 4 = 537.30R *. 7794.3 i
T Ef1P 5= 537.538
- 7784.s !
TEMP 6= 537.093 ' 7763.> l TEMP 7= 537.419 ( 779G.> I
! TEMP 8= 537.662 '. 7834.>
l TEMP *= 538.104 ( 7834.) '
l l El1P 10 = 537.439 ( 7851.) i l TEMP 11 = 537.811 ( 7811.)
t TEMP 12 = 538.034 (. 7855..'
. TEf1P 13 = 538.335 ( 7870.)
TEi1P 14 = 537.90n ': 7838.)
TEMP 15 = 538.345 ( 7,823.)
! TEMP 16 = 537.975 ( 7836.)
! TEMP 17 = 53e.023 ( 7644.)
- TEi1P 18 = 537.92e ( 7846.) ,
I TEt1P 19 = 538.187 ( 7839.) l TEMP 20 = 536.551 (. 7737.) !
PPES 1= 54.052 ( 90063.)
4 i
j VPPS 1= 0.416 ( 7353.)
]
VPPS 2= 0.398 ( 7254.)
VPP3 3= 0.404
- 7354.)
VPPS 4= 0.410 s 7349.)
YPPS 5= 0.415 ( 7386.)
, VPPS 6= 0.404 *. 7302.)
i j1 1
SUMMAPY OF COPPECTED DA1A J
, TIME = 1530
!l DATE = 0612 i TEMPEPATUPE (DEGREES R.)-= 537.595 COPPECTED PPE55UEE (PSIA) = 53.6428 VAPOR PPE55UPE (PSIA) = 0.4087 i
i i !
D""]O 9 YM D) '
h oJB od\\ 1 L l-
, ~ _ _ . . . _ __ . __ _
EECHTEL ILRT COMPUTER PROGRAM APPENDIX R t
A. Program and Report Description
- 1. The Bechtel ILRT computer program is used to determine the inte-grated leakage rate of a nuclear primary containment structure.
The program is used to compute leakage rate based on input values of time, containment atmcaphere total pressure, drybulb tempera- ;
i ture, and dewpoint temperature (water vapor pressure). Leakage !
i rate is computed using the Absolute Method as defined in ANSI N45.4-1972, " Leakage Rate Testing of Containment Structures for Nuclear Reactors." The program is designed to allow the user to evaluate containment leakage rate test results at the jobsite
- during containment leakage rate testing. Current leakage rate ;
J values may be obtained at any time during the testing period using one of two computational methods, yielding three different i
report printouts.
- 2. The first printout, the Total-Time Report, is based on the Total-Time Method described in ANSI N45.4-1972. Leakage rate is com-l puted from initial values of free air volume containment atmos-l phere drybulb temperature and partial pressure of dry air, the latest values of the same parameters and elapsed time. These in-
, dividually computed leakage rates are statistically averaged using i linear regression by the method of least squares. The Total-Time Method is the computational technique upon which the short duration i test criteria of BN-TOP-1, Revision 1,
- Testing Criteria for Inte-grated Leakage Rate Testing of Primary Containment Structures for i
O, Nuclear Power Plants," are based.
3, The second printout, the Trend Report, is a summary of leakage rate values based on Total-Time and Mass-Point computations pre-l sented as a function of number of data points and elapsed time
! (test duration). The Trend Report provides all leakage rate J
values required for comparison to the acceptance criteria of BN-TOP-1 for conduct of a short duration test.
- 4. The third printouc is the Mase-Point Report and is based on the Mass-Point Analysis Technique described in ANSI N274, Draf t No. 2, Revision I-April, 1978, " Containment System Leakage Testing Re-
, quirements." The mass of dry air in the containment is computed l at each data point (time) usir.g the Equation of State, f rom current values of containment atmosphere drybulb temperature and partial pressure of dry air. Contained mass is " plotted" versus time and
- a regression 2ine is fit to the data using the method of least squares. Leakage rate is determined from the statistically de-
- rived slope and intercept of the regression line.
1
- 5. The program is written in a high level language and is designed for use on an interactive . time-shared computer system via a re-note data terminal. Brief descriptions of program use, formulae used for leakage rate computations and program logic are provided in the following paragraphs.
BECHTEL ILRT COMPUTER PROGRAM APPENDIX R
(\s,,/\ B. Explanation of Program
- 1. The Bechtel ILRT computer program is written, for use by experi-enced ILRT personnel, to determine containment integrated leakage rates based on the Absolute Method described in ANSI N45.4-1972.
- 2. Information loaded into the program prior to the start of the test:
- a. Number of containment atmosphere drybulb temperature sensors and dewpoint temperature (water vapor pressure) sensors to be used in leakage rate computations for the specific test
- b. Volume fractions assigned to each of the above sensors
- c. Calibration data for above sensors, if required
- d. Calibration data for pressure sensor.
- 3. Information entered into the program at the start of the test:
- a. Test title
- b. Current test pressure and peak test pressure
- c. Maximum allowable leakage rate at peak test pressure O/ d. If the test is a verification test:
(1) Imposed leakage rate (2) Leakage rates determined using the two computational methods described in Paragraph A above during the ILRT.
4 Data entered during the test, used to compute leakage rate:
- a. Time and date
- b. Containment atmosphere drybulb temperatures
- c. Containment atmosphere pressure
- d. Containment atmosphere dewpoint temperatures .
- 5. After all data at a given time are entered, a Summary of Measured Data report (refer to " Program Logic," Paragraph D, " Data" option command) is printed out on the data terminal. Af ter a final veri-fication of the entered data, the time, date, containment atmos-phere weighted average drybulb temperature, partial pressure of the dry air, and water vapor pressure are stored on a data file.
- 6. If drybulb and dewpoint temperature sensors should fail during
/'~'S the test, the data from the sensor (s) are not used. The volume (s_,/ fractions for the remaining sensors are recomputed and reloaded into the program for use in ensuing leakage rate computations.
BECHTEL ILRT COMPUTER PROGRAM APPENDIX R '
l l
i C. Leakage Rate Formulae !
- 1. Computation using the Totai-Time Method:
- a. Measured leakage rate, from data:
P1 V = W 1RT1 (1)
- PiV = W i RTi (2)
N L .( _'. ) (WI i) (100) (3)
Att W1 Solving for W1 and Wi and substituting equations (1) and (2) 4 into (3) yields:
Li " 2400 (1-TPIi (4)
At i )
TPi1 where:
f W,Wi I = Weight of contained mass of dry air at times ti and ti respectively, lbm.
T,Ti 1 = Containment atmosphere drybulb temperature at times ti and ti respectively, 'R.
P,Pi 1 = Partial pressure of the dry air component of the containment atmosphere at times ti and ti respectively, psia.
V = Containment free air volume (assumed to be constant during the test), ft3 i
th i t, i ti = Real time at 1st and i data points respectively, hours and minutes.
Ati = Elapsed time from ti to ti , hours.
R = Specific gas constant for air = 53.35 Ft-lbf.
lbm.*R Li = Measured leakage rate computed during time interval tl to t i, %/ day.
1 k
,_ , -s - -
. . _ - - - -. . .. . ~
BECHTEL ILRT COMPUTER PROGRAM APPENDIX R 4
/ b. Calculated leakage rate from regression analysis:
L = a + bkN (5)
~
where:
I L = Calculated leakage rate, %/ day, as determined from a the regression line.
i i 2 (IL1 ) (Ikg) - (Ik ) t (IL itk )
! a= -
N (Ikg) 2
- (Ik )2t (6)
N(ILii k) -
(ILi ) (Ik i) b= *
(7)
, N(Ikg )2 - (Ik g)2 kg = Elapsed time at time of i th data point.
! N = Number of data points.
i l N i =
4 i=1 i
- c. Calculated leakage rate at the 95% confidence level (including t
error associated with the test).
l Total-Time Method per BN-TOP-1. *
-95 L = a + bk + Sg (8) j where:
L95 = Calculated leakage rate at the 95% confidence level, i 4
, %/ day, at elapsed time k. I j For kN <, 2 4 j
i I(L t-Et)2 (kN-E)
Sc= t0.025;N-2 1+ l_ +
! N-2 N _ (9a) j I(k y -k) 4
BECHTEL ILRT COMPlTTER PROGRAM APPENDIX R 2.37 2.82 where, t0.025;N 1.96 + N-2 + ;
For kN 124
) I(Li-L1 )2 (kN-k)2 St= t0.025;N-2 1._ +
i N-2 N _
(9b)
I(k 1 -k) 1.64(N-2)2 + 3.53(N-2) + 0.86 where, t0.025;N-2 "
2 + 134 _ w Et = Calculated leakage rate computed using equation (5) at total elapsed time k ,i %/ day.
_, Ekg k =
N 4
- 2. Computation using the Mass-Point Method
- a. Contained mass of dry air from data:
W = 144 P1 RT (10) where: i All symbols are as previously defined. .
f b. Calculated leakage rate from regression analysis:
l L = 2400 b_ j I
where:
L = Calculated leakage rate, %/ day, as determined from the regression line.
$ IWi -bE ki a= (12)
N n-1 ,
- n. - , . . - . - . . - . ,
BECHTEL ILRT COMPUTER PROGRMI APPENDIX R O b=
I[(W i- IW i/N) (kt- Eki/N)]
E (kg - Ik g/N)2 (13) kg= Total elapsed time at time of i ch data point, hours.
N= Number of data points.
W1= Contained mass of dry air at i th data point, Ibm, as computed f rom equation (10).
N !
E= I i=1
, c. Calculated leakage rate at the 95% confidence level.
L95 = 2400 (b + Sb ) (14) a where:
i L95 = Calculated leakage rate,at the 95% confidence level,
%/ day.
E (W 1 - 51 )2 Sb = t0.025;N-2 N-2 (15)
E (k1 - E)2 1.64(N-2)2 + 3.53(N-2)2 + 0.86 where, t0.025;N-2 "
(N-2)2 + 1.22(N-2) - 1.52 Wg = Contained mass of dry air, lbm, computed at the i th data point from the regression equation W = c + bk. (16)
All other symbols as previously defined.
l l
I l
i BEGITEL ILRT COMPITTER PROGRAM APPENDIX R
() D. Program Logic
- 1. A flow chart of Bechtel ILRT computer program usage is presented
, in Figure 1, following. The various user options and a brief description of their associated function is presented below:
OPTION C0!D!AND FUNCTION DATA Enables operator to enter raw data. When the system requests values of time, volume tempera-ture, pressure and vapor pressure, the user enters the appropriate data. After completing the data entry, a summary is printed out. The user then verifies that the data were entered correctly. If errors are detected, the user t will then be given the opportunity to correct the errors. After the user verifies that the data were entered correctly, a Corrected Dara Summary Report of time, date, average tempera-ture, partial pressure of dry air, and water vapor pressure is printed.
TREND Terminal will print out a Trend Report.
TOTAL Terminal will print out a Total-Time Report.
i s_,) MASS Terminal will print out a Mass-Point Report.
TE RM Enables operator to sign off temporarily or pe rmanently.
SAVE Enables operator to store the Data Summary on a file.
PREV Enables operator to call up an old, previously stored, file.
CORR Enables operator to correct data stored on a file.
LIST When used with a given file name, the printer will print out a list of the Summary Data stored on the file.
Ci 4
L
BECHTEL ILRT COMPlTTER PROGRAM APPENDIX R V' ( SIGN ON )
t I ENTER BASIC / / ENTER PREVIOUS \
NO
\ INFORMATION/ \ VALUES FROM FILES / ,
YES -
r
,, 1 ENTERS
SUMMARY
DATA-- a D ATA STORED ON (OPTIO NSI tm o-PREV '
(ENTER D ATA) CORRECTS o- CO RR
SUMMARY
D ATA ;
[ YES STO RES
SUMMARY
D ATA ON
~\ ENTER / , , N0 o-SAVE :
SELECTED FILE A CORRECTIONS / ,,
SUMMARY
OF o- TREND :l TREND REPORT l MEASURED DATA ', ,
o o- TOTAL : TOTAL-TIME :
O ( YES REPORT k,j 'ERRO s R?) .,
N0 o- MASS -
MASS POINT REPORT CORRECTED
SUMMARY
D ATA PRINTOUT o- LIST : PRINT OUT OF :
l
SUMMARY
DATA o- TERM - ( SIGN OFF )
N .
J BECHTEL CONTAINMENT INTEGRATED LEAKAGE RATE TEST COMPUTER PROGRAM FLOW CHART FIGURE 1 9
Lh P'9002ts3ot
?
RESULTS_ OF THE LOCAL LEAKAGE RATE TESTS APPENDIX S x 1 5 TECH SPEC REQ l
o e o ADDITIONAL TEST CONDUCTED d ~ S S
^
~
DUE TO MAINT. WORK ON l O- Valve Penetration E
Test ec/ min cc/ min cc/ min G VALVE OR VALVE OPERATOR. l l
i 4-7-77 u6-3-77 10-6-77 6-20-79 RC240A
- 1 (1) 0 180 0' 0 0 0 0 4-6-77 4-25-77 RC240B
- 1 (2) 0 O O O O l
- 4-15-77 CC1411A, CC1411B 3 0 0 0 0 ,
4-16-77 CC1407A, CC1407B 4 0 0 0 115 A A 5-18-77 CV5070, CV5080 8A 75 620 0 160 5-17-77 CV5071, CV5081 8B 120 0 0 0 5-17-77 CV5072, CV5082 8C 0 0 0 0 5-17-77 CV5073, CV5083 8D 0 150 0 0 l Al 5-17-77 CV5074, CV5084 8E O 120 0 0 A .
. . 5-19-77 CV5075, CV5085 8F 120 0 0 l 0
1 -l L ;
l 5-18-77 l l CV5076, CV5086 8G 0 0 0I O ll l 5-18-77 ,
CV5077, CV5087 8H 0 0 0 0 l
~
l
! 5-18-77 CV5078, CV5088 8I O O h 0 0 1
5-18-77 i CV5079, CV5089 8J 0 0 l 0 0 l l 4-7-77 CC1567A 12 (1) 0 0 0 0 4-25-77 l CC1567B 12 (2) 0 0 0 0 I
(]; DR2012A *13 (1) 0 0 0 l
l
RESULTS OF THE LOCAL LEAKAGE RATE TESTS APPENDIX S TECH SPEC REQ
[3 e oc o ADDITIONAL TEST CONDUCTED
+
. E @
~
~
bUE TO MAINT. WORK ON
$ ~
VALVE OR VALVE OPERATOR.
Valve Penetration Te8Ecc/ min cc/ min cc/ min G DR2012B *13 (2)' 250
]
0 ll 0 i 4-20-7h 6-19-78 MU2A *14 (1) 0 0 i 0l 90 l 0 l l 4-2-77 6-20-78 MU3 *14 (2). 0 0 0 0 0 l
4-26-7 l
i RC1719B *16 (1) 0 0 0 0 4-26-7/
RC1719A *16 (2) 0 0 0 0 D
FLANGE, CV343 17 (1) 135 130 250 D
FLANGE 17 (2) 0 130 180 4-6-77 MU33 19 (1) 0 0 0 0 4-26-7 DW6831B 205 0 0 250
- 21 (1)l I
4-26-77l DW6831A *21 (2)J 0 0 0 150 r
i j 0 0 0 FUEL TRAN. FLANGES 23 (1)l l l l FUEL TRAN. BELLOWS 23 (2) 01 0 O i
.l I
I I FUEL TRAN. FLANGES 24 (1) 0 0 01 I
. I FUEL TRAN. BELLOWS 24 (2) 0 0 0 I 6-3-77 l
) SA532, SA536 25 (1) 0 0 0 0
)
1 4-25-77 I CS17, CS19 25 (2) 90 0 330 0 l
i 4-25-77
, CS33 25 (3) 60 0 0 90 (V
SA533, SA535 26 (1) 0 0 300l4-26-77 170 1
. . - - - - , , , . _ _ - ~ , . - - .
RESULTS OF THE LOCAL LEAXAGE RATE TESTS APPENDIX S
!$ TECH SPEC REQ l $e eo o ADDITIONAL TEST CONDUCTED g{
cc
{ $ DUE TO MAINT. WORK ON VALVE OR VALVE OPERATOR.
Valve Penetration Test ic/ min cc/ min cc/ min G CS18, CS20 26 (2)j 105l 0 l
l 1
100l l 1 , l 3 CS36 26 (3) 1JO O 0 1
f 3-12-77.:
a DH23 29 (2) 0 0 0 0 GUARD ON RECIRC 30 0 0 0 I
GUARD ON RECIRC 31 0! 0 0 4-26-77 RC1773B 32 (1) 0 0 0 0 4-26-77 j RC1773A 32 (2) 0 0 0 0 A
CV5005, CV5006 33 0 3355 200 A
CV5007, CV5008 34 700 625 230
- I FEED WATER BELLOWS 37 (1) 0 0 0l l
I I FEED WATER BELLOWS 37 (2) 0 Il '
0 h 0I l I I I I I FEED WATER BELLOWS 38 (1) ll 0 0 -
0 l 1 11 l
- l FEED WATER BELLOWS 38 (2) 0 0 0 l
FEED WATER BELLOWS 39 (1) 0 0 0 FEED WATER BELLOWS 39 (2) 0 0 0 FEED WATER BELLOWS 40 (1) 0 0 0 FEED WATER BELLOWS 40 (2) 0 , 0 0 l
RESULTS OF THE LOCAL LEAKAGE RATE TESTS APPENDIX S TECH SPEC REQ o e e o ADDITIONAL TEST CONDUCTED yh h h DUE TO MAINT. WORK ON VALV2 OR VALVE OPERATOR, Valve Penetration Test gcc/ min cc/ min ec/ min G i
l 84-26-77t l 80 !
RC113 75 I O 0 - !
41 '(1)l j
!4-26-77 l RC232 41 (2) 0 120 280 80 l
A E,A !
SA502 *42A(1) 0 0 750 l
E,A l SA2010 *42A(2) 82 0 700 l
- l F
CV124 42B(1) ;
80 0 1 300 l F l CV5010E 42B(2) 0 0 200 i A 4-30-77 1A501 *43A(1) 0 0 50 0 4-30-77 1A2011 *43A(2) 0 0 90 1 160 A
CV125 ! 0 0 0 43B(1)!
I CV5011E 43B(2) 80 0 0 l l'
CF15 44A(1) 0 0 550 l
l 10-4-76 l
CF1541 44A(2)! 460 l 0 0 105 ,
I A 1 NN58 *44B(1) u 0 0 700 a
C 6-20-79
, NN236 *44B(2) 0 0 140 0 CF2A 47A(1) 0 0 0 i
CF2B 47A(2) 0 0 0 CF1545 47A(3) 0 0 0 1
i 1
RESULTS OF THE LOCAL LEAKAGE RATE TESTS APPENDIX S TECH SPEC REQ
% og m g ADDITIONAL TEST COND'JCIED I gg 3 g DUE TO MAINT. WORK ON
's M M VALVE OR VALVE OPERATOR.
Valve Penetration Test Ic/ min cc/ min ec/ min G CF5A 47B(1) 0 0 0 l l l CF5B 47B(2): 0 0 0 l
CF1542 47B(3)! 0 0 0 i
RC229A 48(1) 0 0 0 RC229B 48(2) 0I 'O '
0 DH88 *49(1) 90 150 0 DH87 *49(2) 40 50 40 O CV5037, Cv5038 51 0 0 0 V
ll A 4-1-77 6-20-79 MV242 *52(1) 0 0 650 I O 0 4-1-77 6-20-79 MV66A *52(2) 0 0 0 0 0 A ,4-1-77 6-20--19 MV233 *53(1) 0 0 340 0 0
- 1 11-1-77 3-30-77 6-20-79 MV66B *53(2) 0 g
0 0 g
150 0 0
! 4-1-77 A 6-20-79 MV244 ~*54 (1) , 0 0 2300 0 l 0
1 8
4-1-77 6-20-79 MV66C *54(2) 0 0 0 85 0 A 4-1-77 6-20-79 MV245 *55(1) 0 0 1100 0 0 4-6-77 6-20-79 MV66D *55(2) 0 0 0 0 0 4-6-77 6-20-79 C,,N/ MV59A-D, MV38 *S6 l 0 l 0 0 0 0
RESULTS OF THE LOCAL LEAKAGE RATE TESTS APPENDIX S TECH SPEC REQ
$e as e ADDITIONAL TEST CONDUCTED
. S S $ DUE TO MAlhT. WORK ON O
~ ~
$~ VALVE OR VALVE OPERATOR.
V alve Penetration Test Ic/ min ec / min cc/ min G FLANGES 59 0 0 0 l
! l CV210 *67(1)! 65 85 1000 B
CV5090 *67(2) 0 0 0 SS235A *68A(1 '
0 50 90 SS235B *68A(2 '
0 0 80 CV5010B, CV5011B 6eB o 0 0l CV209 *69(1) 66 0 155 B
CV5065 *69(2) ,
0 0 125 CV5010A, CV5011A 71B 0 0 0 CF16 71C(1: 0 0 1 700 I
l \
CF1544 71C(2: 0 0 0 l l
l CV5010C, CV5011C 73B 0 0 0l l
l 'l 1 CV5010D, CV5011D 74B I O O l' O ll 1
i . 4-20-77 1-10-78 6-20-79 DH2735 *74C(1) 0 0 0 55 0 0 4-25-77 6-20-79 DH2736 *74C(2) 0 0 0 85 , O l
6-7-77 I 1-24-79 7-17-79 EMERGENCY LOCK *80 350 975 16.5 0 l1-25-78 450 975 0 l
1-15-80 )
t% 0 V
_ - ---__ ,_y _ m .,_----r--
j RESULTS OF THE LOCAL LEAKAGE RATE TESTS APPENDIX S 1 s I $ TECH SPEC REQ e cc o ADDITIONAL TEST CONDUCTED i sd S S S DUE TO MAINT. WORK ON
. N~ ~ ~
VALVE OR VALVE OPERATOR.
3 Valve Penetration Test cc/ min cc/ min cc/ min G 5
!. ! l l6-12-77! 1-25-78 1-22-79 7-21-79 '
4 PERSONNEL LOCK *81 l 90 l 940 165 240 0 550 0 I
l 1-16-80
'O l
'6-4-77 12-27-78 11-9 6-26-79 EQUIPMENT LOCK *82 0 0 0 0 0 0 95
{ 12-10-79
! 0 ;
i I
3 '
4-29-77' '
{ EAST PENT. ELEC. *101 0 0 0 i 0
- l I
i 4-29-77
! WEST PEN'r. ELEC. *102 0 0 0 0 i
r.
4 i
i l
4 i
I T
I i
i.
l i
i i
i i
RESULTS OF THE LOCAL LEAKAGE RATE TESTS APPENDIX S
- BYPASS LEAKAGE
' A. VALVE HAD GREATER THAN 4000 CC/ MIN LEAKAGE BEFORE REPAIR.
B. VALVE HAD ABOUT 2000 CC/ MIN BEFORE REPAIR.
I C. VALVE HAD ABOUT 800 CC/ MIN BEFORE REPAIR. '
i D. PRE ILRT, TEST 1 = 0 TEST 2 = 250 RETEST AFTER ILRT.
4 E. IT APPEARS THAT SA508 NON CTMT ISOLATION VALVE IS LEAKING BY ITS SEAT.
F. IT APPEARS THAT CV315 NON CTMT ISOLATION VALVE IS LEAKING BY ITS SEAT.
G. THESE TESTS WERE PERFORMED PRIOR TO START-UP AND WERE GOING TO BE USED TO MEET THE REQ. FOR THE FIRST LOCAL LEAK RATE TEST WITH THE REST TO BE 4
DONE LATER, BUT IN 1978, THERE WAS AN EXTENDED OUTAGE EO ALL TESTS WERE
- REDONE.
J O
i 4
1 .
1 s
i f
f hi tV i
---_m__,... - . , , , , . - , . . - . . ,- , - - - , - - . . . -