ML19296C779

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Primary Reactor Containment Integrated Leakage Rate Test.
ML19296C779
Person / Time
Site: Calvert Cliffs Constellation icon.png
Issue date: 11/16/1979
From:
BALTIMORE GAS & ELECTRIC CO.
To:
Shared Package
ML19296C778 List:
References
NUDOCS 8002280370
Download: ML19296C779 (54)


Text

Baltimore Gas and Electric Company h Calvert Cliffs Nuclear Power Plant Unit 2 Docket Number 50-318 PRIMARY REACTOR CONTAIhMhT INTEGRATED LEAKAGE RATE TEST REPORT November 16, 1979 Submitted to

.The United States Nuclear Regulatory Commission Pursuant to Facility Operating License No. DPR-69 8002280 370 T1001877

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TABLE OF CONTENTS

[agg I. INTRODUCTION 1 II. TEST SYNOPSIS 2 III. TEST DATA

SUMMARY

3 A. Plant Information 3 B. Technical Data 3 C. Type A Test Results 3 D. Type B and C Test Results 4 E. Integrated Leakage Rate Measurement System 4 F. Information Retained at Plant 6 IV. ANALYSIS AND INTERPRETATION 9 i

APPENDIXES A. Stabilization Summary Data 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 - Mass Point Calculated Leak Rate vs. Time I. ILRT Plot - Total Time Calculated Leak Rate vs. Time J. Not Used K. ILRT Summary of Measured Data (for each entry)

L. Verification Flow Test Summary Data M. Verification Flow Test Trend Report N. Verification Flow Test Mass Point Analysis

0. Verification Flow Test Total Time Analysis P. Verification Flow Test Summary of Measured Data (for each entry)

Q. Failed Test Report R. Bechtel ILRT Computer Program Summary ii

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I. INTRODUCTION The reactor containment buil. ding Integrated Leakage Rate Test (Type A) is performed to demonstrice that leakage through the primary reactor containment ar.d systems and components penetrating primary containment does not exceed the allowable leakage rate specified in the Plant Technical Specifications.

The successful periodic Type A and supplemental verification tests were performed according to the requirements of the Calvert Cliffs Nuclear Power Plant, Unit 2, Technical Specifications and 10CFR50, Appendix J.

The Calvert Cliffs Plant Type A test method is the absolute method described in ANSI N45.4-1972, " Leakage Rate Testing of Containment Structures for Nuclear Reactors" and ANSI N274, " Containment System Leakage Testing Requirements," Draft No. 2, Rev. 3 - November 15, 1978.

The leakage rate was calculated using formulas from ANSI N45.4-1972 and BN-TOP-1, Rev. 1. " Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for Nuclear Power Plants" (Total-Time) and ANSI N274 (Mass Point). Type A and verification test durations were 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.

T1001877 1

II. TEST SYNOPSIS After initial pressurization to test pressure on November 10, 1979, containment leakage was discovered through a recircu-lation sump valve and the steam generator temporary sevel indicators. The containment was depressurized, the leaks repaired and then the containment was repressurized to test pressure.

After a second pressurization on November 12, 1979, leakage was discovered into the main steam lines. Following depressur-ization, the leakage was found to be through the main steam header vent valves. After backseating the inboard vent valves, the containment was repressurized and the ILRT was successfully perfo rmed .

The Containment Integrated Leakage Rate Test was completed on November 15, 1979, beginning at 13:00 and finishing at 21:15.

Test dae.a resulted in a calculated leakage rate of 0.052%/ day using mass point calculation techniques, and 0.028%/ day using total time calculation techniques.

The 95% upper confidence limits for the above techniques are 0.064%/ day and 0.128%/ day, respectively. The acceptance criterion is 0.150%/ day. Test results for the ILRT are attached for your information (Appendixes B through K).

Following completion of the ILRT, a successful verification test was performed and the test results are attached (Appendixes L through P).

After the ILRT and Verification tests were completed, the dewpoint sensor calibrations were rechecked for a wider temperature range. The test results include the revised calibration information.

T1001877 2

III. TEST DATA

SUMMARY

A. Plant Information Owner Baltimore Gas and Electric Company Plant Calvert Cliffs Nuclear Power Plant, Unit 2

', Location Lusby, Maryland Containment Type Prestressed, post-tensioned concrete NSSS Supplier, Type Combustion Engineering, PWR Date Test Completed November 16, 1979 B. Technical Data

1. Containment Net 2,000,000 cu. ft.

Free Air Volume

2. Design Pressure 50 psig
3. Design Temperature 276 F
4. Calculated Peak Accident 50 psig Pressure, P,
5. Containment ILRT Average 60-120 F Temperature Limits
6. Calculated Peak Accident 283 F Temperature C. Test Results - Type A Test
1. Test Method Absolute
2. Data Analysis Techniques Mass Point (per ANSI N274) and Total-Time (per BN-TOP-1)
3. Test Pressure 50 psig
4. Maximum Allowable Leakage 0.200%/ day Rate, L,
5. 75% of L, 0.150/ day T1001877 3
6. Integrated Leakage Rate Leakage Rate, %/ day Test Results From Regres- At Upper 95%

sion Line Confidence (L,,) Limit

a. Mass Point analysis 0.052 0.064
b. Total-Time analysis 0.028 0.128
7. Verification Test Imposed 12.226 CFM Leakage Rate. (0.200%/ day)
8. Verification Test Results Leakage Rate

(%/ day)

a. Mass Point Analysis 0.262
b. Total-Time Analysis 0.262
9. Verification Test Limits Test Limits

(%/ day)

a. Mass Point Analysis
1) Upper Limit (Lo+ Lam 40.25La) 0.302
2) Lower Limit (Lo+ Lam-0.25La) 0.202
b. Total-Time Analysis
1) Upper Limit (Lo+ Lam +0.25La) 0.278
2) Lower Limit (Lo+ Lam-0.25La) 0.178
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 (Appendixes B through P). Stabilization data is also provided (Appendix A).

D. Test Results - Type B and C Tests

1. Penetrations excluded from ILRT results The following penetrations were not included in the ILRT and their leakages must be added to the final results:

Penetration No. System Leak Rate 7A ILRT Instrumentation 4.6 seem 7B ILRT Instrumentation 3.82 seem 41 Shutdown Cooling Return 1290 scem 50 ILRT Pressurization 160.9 seem Total 1459.32 seem 1/ day 0.00084 T1001877 4

2. Failures Since Previous ILRT No type B and one type C failure occurred since the last ILRT. A description of the failure is included with the Failed Test Report (Appendix Q).

E. Integrated Leakage Rate Measurement System

1. Absolute Pressure (1 channel)

Range: 0-100,000 counts Repeatability: 0.0005% F.S.

Accuracy: 0.015% of reading Resolution: 0.001% .S.

Range: 0-100 psi Texas Instruments Model 145-02 Precision Pressure Instrument, Serial No. 2559.

Bourdon Capsule (Type.2) Serial No. 5053 Calibration Date: June 30, 1979 Texas Instruments Model 145-02 Precision Pressure Instrument Serial No. 2560 Bourdon Capsule (Type 2) Serial No. 5054 Calibration Date: June 30, 1979

2. Drybulb Temperature (18 plus 3 spares)

Resistance Temperature Detectors -

Leeds and Northrup Thermehm Model 8197-10, 3-lead, 100-ohm copper Limit of Error: 0.1 F Static Resistance: 100 ohms Read out - Volumetrics Data Acquisitioner Model 14630 Calibration Date: November 8, 1979 Calibration Standard -

Guildline Standard Resistor S/N 41418 and Rosemount Standard RTD, S/N 1564 Calibration Date: October 19, 1979

3. Dewpoint Temperature (6 sensors)

Dewpoint Temperature Systems - Weather Measure Corporation, Model H361-DPA Accuracy: 1.15 F T1001877 5

Signal Conditioning Cards, Model SC-601 0-1 Vdc corresponding to 0-100 F Dew Cell assemblies (Calibration Date:

October 19, 1979)

S/N 1004 S/N 1045 S/N 1073 S/N 1046 S/N 1044 S/N 1047

4. Verification Flow (1 channel)

Flowmeter-Brooks Hi-accuracy full view rotameter, Model 1110-24 Range: 2.08-22.73 scfm Accuracy: +0.1 scfm Repeatability: 0.01 scfm Calibration date: October 17, 1979

5. Gang
  • Pressure (1 channel) - Not used directly in calculations Wallace & Tiernan Model 61A-1A-0100 Range : 0-100 psig Accuracy: 0.1% F.S.

Sensitivity: 0.01% F.S.

Calibration Date: October 20, 1979

6. Overall Instrumentation Selection Guideline (ISG) Value (from ANSI N274) based on ILRT instrumentation and an eight hour minimum test duration = 0.0316%.
7. Drybulb and Dewpoint Temperature Sensor Volume Fractions - See Procedure Retained at Jobsite F. Information Retained at Plant The following information is available for review at the Facility:
1. Access control procedures that were estab-lished to limit ingress to containment during testing.
2. A listing of all containment penetrations, including the total number of like penetra-tions, penetration size and function.

T1001877 6

3. A listing of normal operating instrumentation used for the leakage rate test.
4. A system line-up (at time of test), showing required valve positions and status of piping systems.
5. A continuous, sequential log of events from initial survey of containment to restoration of all tested systems.
6. Documentation of instrumentation calibrations and standards. Included with documentation should be an error analysis of instrumentation.
7. Data to verify temperature stabilization criteria as established by test procedure (Appendix A).
8. The working copy of test procedure that would include signature sign-off of procedural steps.
9. The procedure and all data that would verify completion of penetrations and valve testing (B&C-typ tests), including as found leak rates, corrective action taken, and final leak rate.
10. Computer printouts of Integrated Leakage Rate Test Data and manual data accumulation along with summary description of computer program (Appendixes B through E, K and W).
11. The Quality Assurance audit plan or checklist that was used to monitor ILRT with proper sign-offs.
12. A listing of all test exceptions including changes in containment system boundaries instituted by licensee to conclude successful testing.
13. Description of sensor malfunctions, repairs, and methods used to redistribute volume frac-tions to operating instrumentation.
14. A review of confidence limits of test results with accompanying computer printouts where applicable.

3 T1001877 7

15. Description of method of leak rate verifi-cation of instrument measuring system (super-imposed leakage), with calibration information on flowmeter.t along with calculations that were used to measure the verification leakage rate (Appendixes L through P).
16. Plots presenting ILRT data obtained during *ae test (Appendixes E through I).
17. The P&ID's of pertinent systems readily available.

T1001877 8

IV. Aik U.YSIS AND INTERPRETATION The Integrated Leakage Rate Test results at the upper 95% confidence level, L,,= 0.064%/ day (Mass Point analysis) and 0.128%/ day (Total Time analysis), satisfy the acceptance criterion. The acceptance criterion is L,,<0.75L, = 0.150%/ day, at P, = 50 psig (-0 psi, +1 psi).

T1001877 9

APPENDIX A Stabilization Summary Data O lj O 9 p'

" AJ a Du f}lk m CALVEPT CLIFF 5 STABILIZATION RL M A >: = 0.200 VDL = 2000000.00

+

+

TIME DATE TEMP PRES 2UPE VPPC 545 1115 526.888 65.2173 0.2310 6.00 1115 526.921 65.2149 0.2324 615 1115 52e. 935 65.2138 0.2315 630 1115 526.936 65.2142 0.2289 645 1115 526.941 65.2123 0.2'289

,00 1115 526.917 65.2083 0.2288 715 1115 Sd6.899 65.2048 0.2283 730 1115 526.880 65.1989 0.2290 745 1115 526.850 65.1959 0.2269 800 1115 52t.831 65.1906 0.2282 815 1115 526.821 65.1903 0.2244 830 1115 526.781 65.1826 0.2279 845 1115 526.756 65.1791 0.2275 900 1115 526.732 65.1789 0.2236 915 1115 526.706 65.1742 0.2243 930 1115 526.680 65.1674 0.2259 945 1115 526.661 65.1702 0.2222 0 0 0. 0 0. 0 0. 0 A-1

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APPENDIX B ILRT Summary Data

SUMMARY

DATA CALVERT CLIFFE UNIT & ILRT VOL = 2000000.00 nLMAM = 0.200

. VPPI TEMP PPECCURE TIME DATE 1300 1115 526.456 65.1344 0.2214 1315 1115 526.43S 65.1303 0.2224 1330 1115 526.409 65.1252 0.2244 1345 1115 526.392 65.1240 0.2236 1400 1115 526.392 65.1201 0.2245 1415 1115 526.368 65.1174 0.2252 1430 1115 526.352 65.1162 0.2223 1445 1115 526.326 65.1117 0.2237 1500 1115 526.300 65.1098 0.2236 1515 1115 526.293 65.1097 0.2216 1530 1115 526.303 65.1132 0.2181 1545 1115 526.302 65.1063 0.2250 1600 1115 526.294 65.1096 0.2228 1615 1115 526.299 65.1083 0.2241 1630 1115 526.315 65.1095 0.2246 1645 1115 526.325 65.1127 0.2227 1700 1115 526.334 65.1145 0.2230 1715 1115 526.372 65.1145 0.2271 1730 1115 526.369 65.1179 0.2247 1745 1115 526.385 65.1178 0.2268 i

1800 1115 526.404 65.1209 0.2257 1815 1115 526.416 65.1192 0.2294 1830 1115 526.432 65.1150 0.2275 1845 1115 526.4/2 65.1125 0.2280 1900 1115 526.443 65.1227 0.2270 1915 1125 526.433 65.1230 0.2277 1930 1115 526.447 65.1212 0.2295 1945 1115 526.443 65.1221 0.2286 2000 1115 526.449 65.1204 0.2303 65.1215 0.2292 I

2015 1115 526.441 65.1204 0.2283 2030 1115 526.428 65.1203 0.2284 2045 1115 526.448 65.1194 0.2292 2100 1115 526.441 65.1186 0.2300 2115 1115 526.444 0. 0 0. 0 0 0 0. 0 L . ._,

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APPENDIX C IIE7 Trend Report CALVEPT CLIFFS UNIT 2 ILPT TREND REPDFT LEAFAGE RATES (WEI6HT PEPCENT DAY) 8.25 HOUR; ELAP5ED TIME:

MAIS-POINT ANALY:I!

ELAPSED TOTAL-TIME ANALYSIS CALCULATED 9 57 UCL ND. DATA MEAN CALCULATED - ---------------

POINTS TIME

--- ---- -0.078

--- - - - --- -- - 0.

080 0.127 10 2.25- -- 167 0.

0.048 0.047 0.098 2.50 0.154 0.065 0.111 11 0.151 0.056 0.093 12 2.75 0.043 0.052 3.00 0.143 0.051 0.086 13 0.138 0.039 0.081 14 3.25 0.036 0.051 3.50 0.134 0.044 0.071 15 0.128 0.029 0.061 16 3.75 0.021 0.037 4.00 0.123 0.043 0.066 17 0.121 0.024 0.059 18 4.25 0.019 0.038 19 4.50 0.117 0.038 0.057 0.114 0.018 0.053 20 4.75 0.016 0.036 5.00 0.110 0.040 0.056 21 0.109 0.017 0.072 22 5.25 0.026 0.053 5.50 0.109 0.067 0.090 23 0.110 0.036 0.085 24 5.75 0.034 0.064 6.00 0.108 0.059 0.079 25 0.105 0.031 0.077 26 6.25 0.031 0.059 6.50 0.104 0.057 0.074 27 0.102 0.030 0.073 28 6.75 0.031 0.057 7.v5 0.101 0.055 0.070 29 0.100 0.030 0.067 30 7.25 0.028 0.053 7.50 0.098 0.053 0.066 31 0.097 0.028 0.065 32 7.75 0.028 0.052 8.00 0.096 0.052 0.064 33 0.095 0.028 34 8.25 C-1

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APPENDIX D g?

iI CALVERT CLIFF 5 UNIT 2 1LRT k & yl0[oDI j[g / _D L

LEAKAGE RATE (WEIGHT PERCENT / DAY)

< gt [dhj/ jr M S-FDINT ANALYSIL TIME AND DATE AT OTAPT OF TE:T: 1300 1115 ELAPIED TIME: 8.25 HOUF_

TIME TEMP PRESSUPE CTMT. AiF MA:I LD:: TOT. AVG. MA :

(P) (PIIA. MA;: (LBM' (LBM' LD:: (LBM HPs 1300 526.456 65.1344 667892 65.1303 667873 19.2 76.9 1315 526.438 69 4 1330 526.409 65.1252 667858 15.5 65.1240 667867 -9.3 33.9 1345 526.392 65.4 1400 526.392 65.1201 667827 40.0 65.1174 667830 -2.8 50.2 1415 526.368 36.5 1430 526.352 65.1162 667838 -8. 0 1445 526.326 65.1117 66T824 13.2 38.8 65.1098 667838 -13.5 27.2 1500 526.300 20.7 1515 526.293 65.1097 667646 -7.9 63.1132 667869 -23.2 9.3 1530 526.303 33.7 1545 526.302 6 1063 667799 69.5 667843 -44.0 16.3 1600 526.294 65.1096 21.1 1615 526.299 65.1083 667824 19.7 65.1098 667319 4.9 21.0 1630 526.315 15.0 1645 526.325 65.1127 66783e -17.1 65.1145 667843 -7. 0 12.3 1700 526.334 22.9 1715 526.372 65.1145 667795 48.2 526.369 65.1179 667833 -38.7 13.1 1730 16.9 1745 526.385 65.1178 667812 21.3 65.1209 667820 -7.7 14.5 1800 526.404 20.0 1815 526.416 65.1192 667787 32.7 65.1150 667724 63.4 30.6 1830 526.432 36.0 1845 526.442 65.1125 667685 38.3 1900 526.443 65.1227 667789 -103.3 17.2 65.1230 667805 -15.8 14.0 1915 526.433 19.1 1930 526.447 65.1212 667768 36.2 526.443 65.1221 667783 -14.3 16.2 1945 19.2 2000 526.449 65.1204 667758 25.0 65.1215 667779 -21.4 15.6 2015 526.441 14.4 2030 526.428 65.1204 667784 -5.2 65.1203 667758 26.4 17.3 2045 526.448 16.8 2100 526.441 65.1194 6e7757 0.4 2115 526.444 65.1186 667745 12.0 17.8 2.000 FREE AIR VOLUME USED (MILLIONS OF CU. FT.) =

REGRESSION LINE INTERCEPT (LBM)

= 667869 SLDPE (LEM/HP)

= -14.6 MAXIMUM ALLOWABLE LEAKAGE RATE

= 0.200

= 0.150 75 */. OF MAXIMUM ALLOWABLE LEAKAGE RATE THE UPPER 95% CONFIDENCE LIMIT

= 0.064

= 0.052

.THE CALCULATED LEAKAGE RATE D-1

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APPENDIX E CALVEPT CLIFF 5 UNIT 2 ILPT DJ lSk f LERkAGE PATE < WEIGH 1 PEPCENT DA D TOTAL-TIME ANALYI12 J sMb l[u N a TIME AND DATE AT ~TAPT OF TEIT: 1300 1115 ELAP;ED TIME: 8.25 HOUG.~.

TIME TEMP. PPE55UPE ME A". UPE D (P- (Pila. LER* AGE PATE 1300 526.456 65.1344 1315 526.438 65.1303 0.276 1330 526.409 65.1252 0.249 1345 526.392 65.1240 0.122 1400 526.392 65.1201 0.235 1415 526.368 65.1174 0.180 1430 526.352 65.1162 0.131 144t. 526.326 65.1117 0.139 1500 526.300 65.1098 0.058 1515 526.293 65.1097 0.074 1530 526.303 65.1132 0.033 1545 526.302 65.1063 0.121 1600 526.294 65.1096 0.058 1615 526.299 65.1083 0.076 1630 526.315 65.1098 0.075 1645 526.325 65.I127 0.054 1700 5d6.334 65.1145 0.044 1715 526.372 65.1145 O.082 1730 526.369 65.1179 0.047 1745 526.385 65.1178 0.061 1800 526.404 65.1209 0.052 1815 526.416 65.1192 0.072 1830 526.432 65.1150 0.110 1845 526.442 65.1125 0.129 1900 526.443 65.1227 0.062 1915 526.433 65.1230 0.U50 1930 526.447 65.1212 0.069 1945 526.443 65.1221 0.058 2000 526.449 65.1204 0.069 2015 526.441 65.1215 0.056 2030 526.428 65.1204 0.052 2045 526.448 65.1203 0.062 2100 526.441 65.1194 0.061 2115 526.444 65.1186 0.064 MEAN OF MEA 3UPED LEAKAGE PATES

= 0.095 MAXIMUM ALLOUABLE LEAKAGE RATE

= 0.200 75 % OF MAXIMUM ALLOWABLE LEAKAGE RATE

= 0.150 THE UPPER 95% CONFIDENCE LIMIT

= 0.128 THE CALCULATED LEAKAGE RATE

= 0.028 E-1

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APPENDIX F ILRT Temperature vs. Time CALVERT CLIFFS Uti1T 2 ILRT TEMPERATURE 526.441 Sis.4TO 506.Se1 526.388 526.415 _+_________.

526.307 526.334 526.279

+_________+_________+_________+_________+-_ +

1300 - -

+

- +

- +

1400 - ,

+

+

1500 -

_ +

+

_ +

'00 - +

+

t

+

1700 - +

- +

- +

+

+

1800 - _

+

+

+

+

1900 - +

+

+

+

2000 - +

2100 -

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APPENDIX G ILRT Pressure vs. Time CRLVERT CLIFFS UNIT 2 ILPT PRE 05UEE 65.1274 65.1321 65.1 MT 65.1133 65.1180 65.1227 ----+

65.1040 65.1066

+--------e--------+--------+---------+--------+---------+----+

1300 - +

+

+

+

1400 - +

+

+

1500 -

- +

+

- +

1600 -

.- +

+

1700 - +

~

+

~

+

+

1800 - +

+

+

+

1900 - +

2000 - +

2200 - 7- +

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APPENDIX H ILRT Mass Point Calculated Leak Rate vs. Time CALVEPT CLIFFS UNIT L' ILPT MA:5-FDINT CALCULATED PATE 0, 06 9 0. 076 O.024 0,040 0. 047 0.054 0. Ud 2 - --+

0.032

+---------+---------+---------+---------+---------+---------+-- -+

+

+

2600 - +

~

+

+

1700 - +

+

- +

- +

1800 - +

- +

+

+

+

1900 - +

+

+

+

2000 - +

~

+

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+

2100 -

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APPENDIX I ILRT Total Time Calculated Leak Rate vs. Time C ALVERT CL]FFC UNIT 2 ILPT TOTAL-TIME CALCULATED PATE 0,063 0.OT3 0 . O i .-

0.021 0.032 0.042 0.052 ____+

0. 011

+_________+_________+_________+_________+_________+_________+

+

+

1600 - +

+

e

+

1700 -

_ +

- +

- e 1900 - +

- e

- +

+

1900 - +

+

+

2000 -

+

+

+

+

2100 -

+

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APPENDIX J (NOT L' SED)

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APPENDIX K ILRT Summary of Measured Data CUM 94DY Dr MER3URED DATA AT 1300 1115 TEMP 1 = 527.749 ( 6912.)

TEMP 2= 527.831 ( 6813.)

TEMD 3= 527.893 ( 6829.)

TEMP 4 = 527.441 ( 6782.)

TEMP 5= 526.789 ( 6712.)

TEMP 6= 527.178 ( 6747.)

TEND 7= 526.874 ( 6719.>

TEMP 9= 526.93? ( 6724.s TEMP 9= 527.428 ( 6767./

TEMP 10 = 526.822 < 6719.)

TEMP 11 = 526.781 ( 6721.)

TEMP 12 = 525.569 ( 6593.)

TEMP 13 = 524.990 ( 6531.)

TEMS 14 = 523.891 ( 6420.)

TENC 15 = 525.332 ( 6565.)

TEMD 16 = 526.842 t' 6715.>

TEND 17 = 524.022 ( 6435.)

TEMP 19 = 525.169 ( 6551.)

PPEI 1 = 65.356 ( 63918.>

VPP7 -1 = 0.240 ( 59098.)

VPPS 2= 0.244 ( 62094.i VPPI 3= 0.229 ( 57229.)

VPPI 4= 0.194 ( 52642./

VFRI 5= 0.213 c. 55033.)

SUMMARY

OF CDPREC"'_'D DAT A TIME = 1300 DATE = 1115 TEMPERATURE (DEGREES R.)

= 526.456 CDPPECTED PRESSUPE (PSIA) = 65.1344 VAPDR PRESSURE (PSI A)

= 0.2214

/

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SUMMARY

OF MEA 5UPED DATA RT 1315 1115 TEND 1 = 527.739 ( 6811.)

TEMP 2= 527.791 ( 6814.)

TEMP 3= 527.893 ( 6828.)

TEMo 4= 527.351 < 6773.>

TEMP 5= 526.749 ( 6708.)

TEMP 6= 527.138 ( 6743.)

l TEMP 7= 526.874 ( 6719.)

TEMP 8= 526.949 ( 6725.)

TEMP 9= 527.469 ( 6771.)

TEMP 10 = 526.812 ( 6718.>

TEMP 11 = 526.751 ( 6718.)

TEMP 12 = 525.520 ( 6593.~>

TEMP 13 = 525.000 ( 6532.)

TEND 14 = 523.901 ( 6421.)

TEMP 15 = 525.332 (. 6565.)

TEMP 16 = 526.832 ( 6714./

TEMP 17 = 524.012 ( 6434.)

TEMP 18 = 525.129 ( 6547.)

PRE: 1 = 65.353 ( 63915.)

VPPI 1 = 0.242 t. 59364.)

VPP; 2= 0.228 ( 60350.)

VPRI 3= 0.235 ( 57896.)

VPPI 4= 0.197 ( 53272.)

VPPI 5= 0.218 ( 35737.)

SUMMARY

OF CORRECTED DATA TIME = 1315 DATE = 1115 TEMPERATURE (DEGREES R.)

= 526.438 CDPRECTED PRESSURE (PSIR)

= 65.1303 VAPOR PRESSURE (PSIR)

= 0.2224 6

K-2

SUMMAPY OF MEA.VRED t DATA AT 1330 1115 TEMP 1 = 527.699 ( 6907.)

TEMF 2= 527.741 ( 6809.s TEMo 3= 527.704 ( 6910.>

TEMP 4 = 527.361 ( 6??4.s TEMP 5= 526.789 (. 6712.>

TEMP 6= 527.128 ( 6742.)

TEMP 7= 526.844 v. 6716.>

TEMP 8= 526.893 ( 6720.)

TEMP 9= 527.459 ( 6770.)

TEMP 10 = 526.762 ( 6713.)

TEMP 11 = 526.751 ( 6718.)

TEMP 12 = 525.460 ( 6597.'

TEMP 13 = 524.970 ( 6529.)

TEMP 14 = 523.901 ( 6421.)

TEMP 15 = 525.302 ( 6562.>

TEMP 16 = 526.802 ( 6711.>

TEMP 17 = 524.002 (. 6433.>

TEMP 18 = 525.139 i 6543.>

PRE 3 1 = 65.350 ( 63912.)

VPRI 1 = 0.244 ( 58521.)

VPR3 2= 0.239 ( 61552.1 VPR3 3= 0.228 ( 572i3.)

VPRI 4= 0.200 ( 5?oo7.)

'/~ .5 5= 0.220 ( 55926.)

SUMMAR'r' OF CORRECTED DATA TIME = 1330 DATE = !!!5 TEMPERATUPE (DEGPEE5 R.) = 526.409 CORRECTED PRESSURE (PSIR) = 65.1252

- VAPOR PRESSURE (PSIR) = 0.2244 j .

K-3

7UMMAPY OF MERIUPED DATA AT 1345 1115 TEMP 1 = 527.559 ( 6793.s TEMP 2= 527.691 ( 6904.)

TEMP 3= 527.654 ( 6905.3 TEMP 4 = 527.311 ( 6769.>

TEMP 5= 526.769 ( 6710.>

TEMP 6= 527.109 ( 6740.s TEMP 7= 526.954 ( 6717.>

TEMP 9= 526.949 ( 6715.)

TEMP 9= 527.439 ( 6769.>

TEMP 10 = 526.802 ( 6717.)

TEMP 11 = 526.731 5 6716.>

TEMP 12 = $25.510 ( 6592.s TEMP 13 = 524.960 ( 6528.'

TEMP 14 = 523.9.41 ( 6420.s TEMP 15 = 525.312 ( 6563.'

TEMP 16 = 526.932 ( 6714.)

TEMP 17 = 524.002 ( 6433.)

TEMP 18 = 525.139 ( 6545.=

PPEI 1 = 65.349 ( 63910.>

VPRI 1 = 0.241 ( 59210.>

VPPI 2= 0.244 ( 62192.)

VPP; 3= 0.234 ( 57758./

VPRI 4 = 0.195 ( 52972.'s VPRT 5= 0.216 ( 55406.>

SUMMAPY OF CDPRECTED DATA TIME = 1345 DATE = 1115 TEMPEPATURE (DEGREE 5 P.> = 526.392 CDRRECTED PRES 3URE (PSIA) = 65.1240 VAPOR PRESSURE (PSIA) = 0.2236 K-4

SUMMARY

DF MEA;UPED DATA AT 1400 1115 TEND 1 = 527.539 ( 6791.)

TEMP 2= 527.721 ( 66 07. >

TEMP 3= 527.753 ( 6915.4 TEMP 4 = 527.331 ( 6771.s TEMP 5= 526.743 ( 6703.)

TEMP 6= 527.128 ( 6742.)

TEMP 7= 526.844 ( 6716.)

TEMP 9= 526.843 ( 6715.>

TEMP 9= 527.453 ( 6770.)

TEMP 10 = 526.822 (. 6719.s TEMP 11 = 526.751 ( 6718.)

TEMP 12 = 525.450 ( 6596.)

TEMP 13 = 524.910 (. 6523.')

TEMP 14 = 523.951 ( 6416.)

TEMP 15 = 525.302 ( 6562.>

TEMP 16 = 526.872 ( 6718.4 TEMP 17 = 523.982 ( 6431.)

TEMP 19 = 525.099 ( 6543.>

PPE3 1 = 65.345 ( 63907.)

VPP3 1 = 0.242 ( 59335.)

VPPI 2= 0.241 ( 61774.>

VPPI 3= 0.225 ( 56743.>

VPP3 4= 0.199 ( 53317.)

VPP3 5= 0.223 ( 56444.)

SUMMAPY OF CDPRECTED DATR TIME = 1400 DATE = 1115 TEMPEPRTURE (DEGPEES R.) = 526.392 CORRECTED PRES 5UPE (PSIA) = 65.1201 VAPOR PPES$URE (PSIR) = 0.2245 K-5

SUMMAPY OF NERIUPED DATA AT 1415 1115 TEMP 1 = 527.619 ( 6799.s TEMP 2= 527.651 ( 6800.)

TEMP 3= 527.684 ( 6803.)

TEMP 4 = 527.222 ( 6760.)

TEMD 5= 526.729 < 6706.)

TEMD 6= 527.038 i. 6738.>

TEMP 7= 526.814 ( 6713.)

TEMD 8= 526.919 ( 6712.)

TEMD 9= 527.35B ( 676 0. >

TEMP 10 = 526.892 ( 6726.>

TEMP 11 = 526.721 ( 6715.~i TEMP 12 = 525.490 s' 6599.)

TEMP 13 = 524.900 < 6522.'

TEMP 14 = 523.851 t. 6416.>

TEMP 15 = 525.262 t. 6555.*

TEMP 16 = 526.752 ( 6706.)

TEMD 17 = 523.932 <. 6431.i TEMP 18 = 525.099 ( 6544.>

PREI 1 = 65.343 ( 63905.)

VPPI 1 = 0.238 < 57846.1 VPPI 2= 0.229 ( 60493.)

VPP: 3= 0.244 ( 59979.)

VPP3 4 = 0.197 ( 53246.)

VPP; 5= 0.224 ( 56591.)

SUMMAPY OF CDPRECTED DATA TIME = 1415 DATE = 1115 TEMPERATURE (DEGREES R.) = 526.368 CORRECTED PRESSURE (PSIA) = 65.1174 VAPDP PRESIURE (PSIA) = 0.2252 K-6

SUMMARY

OP MEAIURED DATA AT 1430 1115 TEMP 1 = 527.549 ( 6792.)

TEMP 2= 527.661 ( 69 01. >

TEMP 3= 527.634 ( 6903.>

TEMP 4 = 527.271 ( 6765.>

TEMP 5= 526.719 ( 6705.)

TEMP 6= 527.033 ( 6733.>

TEMP 7= 526.794 <. 6711.)

TEMP 8= 526.849 ( 6715.)

TEMP 9= 527.349 ( 6759.>

TEMP 10 = 526.862 ( 6723.)

TEMP 11 = 526.691 ( 6711.)

TEMP 12 = 525.490 ( 6599.)

TEMP 13 = 524.990 ( 6520.)

TEMP 14 = 523.921 ( 6413.)

TEMP 15 = 525.232 ( 6555.>

TEMP 16 = 526.792 ( 6710.s TEMP 17 = 523.952 ( 6423.)

TEMP 13 = 525.099 < 6543.s PRE: 1 = 65.333 ( 63901.'.

VPP3 1 = 0.239 ( 57964.)

VPP; 2= 0.236 ( 61179.)

VPRI 3= 0.233 ( 57715.)

VPPT 4= 0.195 ( 52957.)

VPP; 5= 0.218 ( 55695.)

SUMMARY

OF COPPECTED DATA TIME = 1430 DATE = 1115 TEMPEPRTUPE (DEGPEES R.) = 526.352 CDPRECTED PRES 5URE (PSIR) = 65.1162 VAPDP PRESSURE (PSIR) = 0.2223 K-7

. i m.

m ae = *

SUMMARY

OF MEAIURED DATA AT 1445 1115 TEMP 1 = 527.549 i. 6792.>

TEMo 2= 527.621 ( 6797.)

TEND 3= 527.544 ( 6794.)

TEND 4 = 527.252 ( 6763.)

TEMP 5= 526.689 ( 6702..'

TEMP 6= 527.04S ( 6734.>

TENo 7= 526.774 6709.5 TEMF 8= 526.818 ( 6712.>

TEMP 9= 527.339 ( 6753.)

1EMP 10 = 526.713 ( 6703.)

TEMP 11 = 526.691 ( 6712.)

TEMP 12 = 525.410 ( 6532.>

TEMP 13 = 524.910 ( 6523.)

TEMP 14 = 523.831 ( 6414.)

TEMP 15 = 525.242 ( 6556.)

TEMP 16 = 526.772 ( 6703.>

TEMD 17 = 523.942 ( 6427.)

TEMD 18 = 525.079 ( 6542.)

PPES 1 = 65.335 ( 639?3.)

VPR5 1 = 0.240 ( 59062.)

VPP5 2= 0.229 ( 60519.)

VPPI  ?= 0.241 c. 585??.)

^

VPP5 4= 0.19? ( 53529.)

VPP; 5= 0.219 ( 55772.)

SUMMARY

OF CDPPECTED DATA TIME = 1445 DATE = 1115 TEMPEPATURE (DEGREES R.) = 526.326 CORRECTED FPES5URE (PSIA) = 65,1117 YAPOR PPESSURE (PSIA) = 0.2237 K-8

IUMMARY OF MER5URED DATR RT 1500 1115 TEMP 1 = 527.493 ( 6787.)

TEMP 2= 527.611 ( 6796.)

TEMP 3= 527.544 ( 6794.)

TEMP 4= 527.222 ( 6760.>

TEMP 5= 526.679 ( 6701.s TEMP 6= 527.019 ( 6731.)

TEND 7= 526.754 < 6707.)

TEMP 8= 526.763 ( 6707.>

TEMP 9= 527.299 ( 6754.>

TEMP 10 = 526.713 ( 6703.)

TEME 11 = 526.641 < 6707.)

TEMR 12 = 525.390 '. 6580..'

TEMR 13 = 524.8 0 ( 6518.>

TEMP 14 = 523.321 ( 6413.)

TEMP 15 = 525.202 ( 6552.)

TEMP 16 = 526.723 ( 6703.>

TEMR 17 = 523.932 ( 6426.)

TEMP 13 = 525.079 ( 6542.)

PPE5 1 = 65.333 ( 63996.)

VPP5 1 = 0.241 ( 59213.>

VPP5 2= 0.241 ( 61823.)

VPPI 3= 0.230 ( 57360.)

VPRI 4= 0.193 ( 53296.>

VPP5 5= 0.218 ( 55716.)

SUMMRPY OF CDRRECTED DATR TIME = 1500 DATE = 1115 TEMPERATURE (DEGREES R.) = 526.300 CORRECTED PPESSUPE (PSIR) = 65.1098 VAPOR PRESSURE (PSIR) = 0.2236 K-9

IUMMAPY OF MEA:UPED DATA AT 1515 1115 TEMP 1 = 527.419 ( 6779.>

TEMP 2= 527.551 ( 6790.)

TEM: 3= 527.484 < 6783.)

TEMP 4 = 527.162 ( 6754.>

TEMS 5= 526.689 ( 6702.>

TEMP 6= 527.028 ( 6732.>

TEMP 7= 526.714 ( 6703.)

TEMo 8= 526.778 ( 6703.>

TEMP 9= 527.318 ( 6756.)

TEMP 10 = 526.673 ( 6704.s TEMP 11 = 526.641 ( 6707.)

TEMP 12 = 525.450 ( 6596.e TEMP 13 = 524.890 ( 6520.)

TEMP 14 = 523.831 ( 6414.>

TEMP 15 = 525.252 ( 6557.>

TEMP 16 = 526.723 ( 6703.)

TEMP 17 = 523.952 ( 6428.>

TEMP 18 = 525.039 ( 6543.)

PPEI 1 = 65.331 ( 63B94.)

VPP~ 1 = 0.241 ( 53233.)

VPRI 2= 0.233 ( 61497.)

VPRI 3= 0.229 ( 57281.)

VPPI 4= 0.196 ( 53009.>

VPP2 5= 0.215 ( 55288.)

SUMMAPY OF CDPRECTED DATA TIME = 1515 DATE = 1115 TEMPERATURE (DEGREES R.) = 526.293 CORRECTED PRESSURE (PSIA) = 65.1097 VAPOR PRESSURE (PSIA) = 0.2216 p6 9 K-10

SUMMARY

OF MEASURED DATA AT 1530 1115 TEMP 1 = 527.449 ( 6782.>

TEMP 2= 527.541 ( 6793.>

TEMP 3= 527.434 ( 6783.5

. TEMP 4 = 527.212 < 6759.>

TEMP 5= 526.639 ( 6697.)

TEMP 6= 526.99B ( 6725.>

TEMP 7= 526.724 ( 6704.s TEMP 8= 526.789 ( 6709.)

TEMP 9= 527.369 ( 6761.)

TEMP 10 = 526.792 ( 6716.>

TEMP 11 = 526.671 ( 6710.>

TEMP 12 = 525.440 ( 6535.>

TEMP 13 = 524.850 ( 6517.>

TEMP 14 = 523.971 ( 6416.>

TEMP 15 = 525.252 ( 6557.

TEMP 16 = 526.732 ( 6704.>

TEMP 17 = 523.972 ( 6430.)

TEMP 19 = 525.059 ( 654 0. '>

F-RE: 1 = 65.331 ( 63894.)

VPP 1 = 0.241 ( 59254.)

VPP: 2= 0.230 ( 60633.)

VPRI 3= 0.224 ( 56677.)

VPR 4 = 0.199 ( 53312.)

VPR: 5= 0.203 ( 54462.)

SUMMARY

OF CORPECTED DATA TIME = 1530 DATE = 1115

= 526.303 TEMPERATURE (DEGREES R.)

= 65.1132 CDPRECTED PRESSURE (PSIA)

= 0.2181 VAPOR PRESSURE (PSIA)

O l

K-11

SUMMAPY Dr MEA 30 PED DATA AT 1545 1115 TEMP 1 = 527.369 ( 6774.>

TEMP 2= 527.521 ( f.787. )

TEMP 3= 527.414 ( 6?81.)

TEMP 4 = 527.192 < 6757.)

TEMP 5= 52'6.689 ( 6702.)

TEMP 6= 527.059 ( 6735.)

TEMP 7= 526.744 ( 6706.)

TEMP 9= 526.798 ( 6710.)

TEMP 9= 527.318 ( 6756.)

TEMP 10 = 526.742 ( 6711.)

TEMP 11 = 526.691 ( 6711.)

TEMP 12 = 525.360 ( 6577.)

TEMP 13 = 524.890 ( 6521.)

TEMP 14 = 523.931 ( 6419.)

TEMP 15 = 525.242 ( 6556.>

TEMP 16 = 526.822 ( 6713.)

TEMP 17 = 523.992 ( 6432.)

TEMP 18 = 525.109 ( 6545.>

PREI 1 = 65.331 ( 63994.)

VPP3 1= 0.240 ( 58037.)

VPRI 2= 0.245 ( 62263.>

VPPI 3= 0.234 ( 57790.)

VPP: 4= 0.199 ( 53368.)

VPPT 5= 0.219 ( 55826.)

SUMMAPY OF CDPRECTED DATA TIME = 1545 DATE = !!!5 TEMPERATUPE (DEGPEES R.)

= 526.302 CORPECTED PRESSURE (PSIA)

= 65.1063 VAPDR PRESSURE (PSIA) = 0.2250 K-12

JUMMAPY OF MEAIURED DATA AT 1600 1115 T EI . 1 = 527.23? ( 6761.>

TEMS 2= 527.4?! < 6784.>

TEMP 3= 527.374 ( 6777,>

TEND 4 = 527.202 ( 6758.)

TEMP 5= 526.689 ( 6702.>

TEMP 6= 527.029 ( 6732.)

TEMP 7= 526.704 ( 6702.>

TEMP 8= 526.793 ( 6710.)

TEMP 9= 527.333 ( 6759./

TEMP 10 = 526.663 <: 6703.)

TEMP 11 = 526.661 (. 6709.)

TEMP 12 = 525.430 ( 6584.)

TEMP 13 = 524.910 < 6523. >

TEMP 14 = 523.931 ( 6424.>

TEMP 15 = 525.262 s. 6560.>

TEMP 16 = 526.792 ( 6710.>

TEMP 17 = 524.042 ( 6437.)

TEMo 19 = 525.119 ( 6546.*

PPE: 1 = 65.332 < 63995.>

VPP3 1 = 0.239 ( 57899.>

VPP: 2= 0.243 ( 62023.)

VPPI 3= 0.229 ( 57291.>

VPP: 4 = 0.190 ( 52265.>

VPP5 5= 0.221 ( 56146.)

SUMMAPY DF CDPRECTED DATA TIME = 1600 DATE = 1115 TEMPERATUPE (DEGREES R.) = 526.294 COPPECTED PRESSUPE (P^IA) = 65.1096 VAPDP PRESSURE (PSIA) = 0.2228 K-13

IUMMAPY DF MEROUPED DATA AT 1615 1115 TEMP 1 = 527.269 '. 6764.>

TEMP 2= 527.431 ( 6779.>

TEMP 3= 527.284 ( 6768.)

TEMD 4 = 527.232 < 6761.>

TEMP 5= 526.699 ( 6703.>

TEMF 6= 527.003 ( 6730.>

TEMP 7= 526.744 ( 6706.)

TEMP 8= 526.799 ( 6710.)

TEMP 9= 527.319 ( 6756.>

TEMP 10 = 526.732 t' 6710.)

TEMP 11 = 526.691 ( 6711.)

TEMP 12 = 525.400 ( 6591.)

TEMP 13 = 524.920 ( 6524.>

TEMD 14 = 523.941 ( 6425.3 TEMP 15 = 525.322 ( 6564.>

TEMP 16 = 526.782 ( 67 09. >

TEMP 17 = 524.092 ( 6441.)

TEMP 18 = 525.149 ' 6549.)

DPE; 1 = 65.332 ( 63995.>

VPP7 1 = 0.242 ': 59371.)

VPPI 2= 0.239 < 61556.)

VPRI 3= 0.239 ( 59271.>

JPRI 4= 0.198 ( 53427.>

VPPS 5= 0.215 ( 55286.>

SUMMAPY OF CORRECTED DATA TIME = 1615 DATE = 1115 TEMPERATUPE (DEGREES v.) = 526.299 COPPECTED PRESSURE (PSIA >

= 65.1083 VAPOR PRESSUPE (PSIA) = 0.2241 K-14

IUMMARY OF MEA 3URED DATA AT 1630 1115 TEMP 1 = 527.219 (. 6753.s TEno 2= 527.401 ( 6775.>

TEMP 3= 527.234 (. 6763.>

TEMP 4= 527.212 ( 6759.)

TEMP 5= 526.709 '

6704.)

TEMP 6= 527.003 ( 6730.>

TEMP 7= 526.784 8 6710. '>

TEMP 9= 526.803 ( 6711.s TEMP 9= 527.329 s. 6757.>

TEND 10 = 526.762 ( 6713.)

TEND 11 = 526.691 ( 6712.)

TEMP 12 = 525.500 ( 6591.)

TEMP 13 = 524.960 ( 6525.s TEMP 14 = 524.001 ( 6431.'

TEMP 15 = 525.332 s 6565.>

TEMP 16 = 526.822 ( 6713.>

TEMD 17 = 524.112 <. 6444.)

TEMP 13 = 525.189 ( 6553.s PPEI 1 = 65.334 ( 6 3 B97. ~)

VPPI 1 = 0.242 s. 59301.>

VPP3 2= 0.246 ( 62403.>

VPP3 3= 0.229 ( 57239.>

VPPI 4 = 0.200 ( 53671.>

VPR7 5= 0.217 ( 55596.)

IUMMARY OF CDPRECTED DATA TIME = 1630 DATE = 1115 TEMPERATURE (DEGPEE5 P.) = 526.315 CORPCCTED PRESSURE (PSIA) = 65.1098 VAFDR PRESSURE (PSIA) = 0.2246 K-15

IUMMARY DP MERIUPED DATA AT 1645 1115 TEMP 1 = 51 "s ( 6753.'

TEMP 2= 527.411 ( 6776.)

TEMP 3= 527.205 ( 6760.)

TEMP 4 = 527.232 ( 6761.4 TEMP 5= 526.699 ( 6703.>

TEMP 6= 527.018 (. 6731.>

TEMP 7= 526.734 ( 67 05. >

TEMP 8= 526.839 ( 6714.>

TEMP 9= 527.369 ( 6761.)

TEMP 10 = 526.752 ( 6712.>

TEMP 11 = 526.721 ( 6715.>

TEMP 12 = 525.450 ( 6586.)

TEMP 13 = 524.990 ( 6531.)

TEMP 14 = 524.041 ( 6435.>

TEMP 15 = 525.412 ( 657 3. >

TEMP 16 = 526.892 ( 6719..

TEMP 17 = 524.162 ( 6449.)

TEMP 18 = 525.239 ( 6558.)

PRE: 1 = 65.335 ( 63993.)

VPPI 1 = 0.238 ( 57911.)

VPE: 2= 0.239 c. 61567.)

VPPI 3= 0.227 ( 56997.)

VPPI 4= 0.199 ( 53560.)

VPP5 5= 0.218 ( 55744.'s

SUMMARY

OF CDPRECTED DATA TIME = 1645 DATE = 1115 TEMPEPATUPE (DEGREES R.) = 526.325 CDPPECTED PRES 3URE (PSIA) = 65.1127 VAPOR PPESSUPE (PSIA) = 0.2227 K-16

  • ' " = *e e e eum g = e e. e

SUMMAPY OF MERIUPED DATA AT 1700 1115 TEMP 1 = 527.020 ( 673?.3 TEMP 2= 527.291 i. 6764.>

TEMP 3= 527.165 ( 6756.)

TEMP 4 = 527.262 t. 6764.>

TEMP 5= 526.779 ( 6711.)

TEMP 6= 526.998 ( 6729.)

TEMP 7= 526.784 ( 6710. >

TEMP 8= 526.799 ( 6710.

TEMP 9= 527.339 ( 675B.'

TEMP 10 = 526.762 ( 6713.)

TEMP 11 = 526.741 < 6717.)

TEMP 12 = 525.559 ( 6597.)

TEMP 13 = 525.020 ( 6534.>

TEMP 14 = 524.111 a 6442.)

TEMP 15 = 525.432 (. 6575.>

TEMP 16 = 526.882 ( 6719.>

TEN; 17 = 524.232 ( 6456.)

TEN' 18 = 525.279 ( 6562.'s PREI 1 = 65.337 ( 63900.'s VPPI 1 = 0.242 ( 59317.)

VPPI 2= 0.231 (. 60694.)

VPP; 3= 0.229 ( 57302.)

VPRI 4= 0.201 ( 53929,,

VPP5 5= 0.219 ( 55328.)

SUMMAPY OF CDRPECTED DATA TIME = 1700 DATE = 1115 TEMPERATUPE (DEGREES P.) = 526.334 CDPPECTED PPESSURE (PTIA) = 65.1145 VAPOR PRES 3URE (PSIA) = 0.2230 K-17

IUMMAPY OF MEA 3UPED DATA AT 1715 1115 TEMP 1 = 527.079 ( 6745.>

TEMP 2= 527.281 <

. 6763.)

TEMc  ?= 527.195 < 6759.>

TEMP 4 = 527.301 ( 676?: . >

TEMP 5= 526.799 ( 6713.>

TEMP 6= 527.018 ( 6731.s TEMP 7= 526.844 < 6716.)

TEMP 8= 526.878 ( 6718.'

TEMP 9= 527.399 < 6763.)

TEMP 10 = 526.802 < 6717.i TEMP 11 = 526.771 ( 6720.)

TEMP 12 = 525.539 ( 6595.')

TEMP 13 = 525.0B0 < 6540.)

TEMP 14 = 524.181 < 6449.)

TEMP 15 = 525.482 ( 6530.>

TEMP 16 = 526.952 r. 6726.>

TEMP 17 = 524.272 ( 6460.>

TEMP 18 = 525.293 ( 6564.)

PPEI 1 = 65.342 8 63904.>

VPP; 1 = 0.246 ( 59742.>

VPPI 2= 0.244 ( 62110.i VPP: 3= 0.227 (. 57117.3 VPPI 4 = 0.200 ( 53659.>

VPP :' 5= 0.225 ( 56739.)

IUMMADY OF CDPRECTED DATR TIME = 1715 DATE = 1115 TEMPERATUPE (DEGPEEI P.)

= 526.372 COPPECTED PRESSURE (PSIA)

= 65.1145 VAPOP PRESSURE (PSIA) = 0.2272 K-18

SUMMAPY Oc MEA:UPED DATA AT 1730 1115 TEMP 1 = 526.910 ( 6728.*

TEMP 2= 527.281 ( 6763.*

TEMP 3= 527.165 ( 6756.>

TEMP 4 = 527.321 s 6770.s TEMP 5= 526.809 ( 6714.s TEMP 6= 527.048 ( 6734.)

TEMP 7= 526.804 ( 6712.)

TEMP 8= 526.869 ( 6717.)

TEMP 9= 527.333 ( 6763.>

TEMP 10 = 526.802 ( 6717.)

TEMP 11 = 526.771 ( 6720.3 TEMP 12 = 525.529 ( 6594.)

TEMP 13 = 525.090 ( 6541.>

TEMP 14 = 524.191 ( 6450.)

TEMP 15 = 525.502 ( 6582.*

TEMP 16 = 526.94E ( 6725..'

TEMP 17 = 524.332 ( 6466.)

TEMP 19 = 525.379 ( 6572.)

PPE5 1 = 65.343 ( 63905.)

VPPI 1 = 0.247 ( 59915.>

VPP; 2= 0.243 ( 62057.)

VPR5 3= 0.226 ( 56846.)

VPRI 4 = 0.199 ( 53496.)

VPR; 5= 0.218 ( 55777.)

SUMMAPY OF CDPRECTED DATA TIME = 1730 DATE = 1115 TEMPEF PTURE (DEGREE 5 R.) = 526.369 COPPECTED PPESSURE (P21R) = 65.1179 VAPOR PRES 1URE (PSIR) = 0.2247 K-19

OUMMARY OF MEA;UPED DATA AT 1745 1115 TEMP 1 = 526.910 <. 6728.)

TEMP 2= 527.191 ( 6754.)

TEMP 3= 527.105 ( 6750.>

TEMP 4= 527.281 v. 6766.>

TEMP 5= 526.80.4 ( 6714..

TEMP 6= 527.068 ( 6736.,

TEMP 7= 526.854 ( 6717.>

TEMP 9= 526.869 ( 6717.)

TEMP 9= 527.459 ( 6770.)

TEMP 10 = 526.572 ( 6724.>

TEMP 11 = 526.791 ( 6722.)

TEMP 12 = 525.520 ( 6593.)

TEMP 13 = 525.110 ( 654 3. '>

TEMP 14 = 524.251 ( 6456.>

TEMP 15 = 525.603 t. 6592.>

TEMP 16 = 527.012 ( 6732.)

TEMP 17 = 524.342 ( 6467.>

TEMP 13 = 525.409 ( 6575.'s PREI 1 = 65.345 ( 63907.)

VPP: 1 = 0.242 ( 58328./

VPP: 2= 0.248 ( 62631.)

VPPI 3= 0.231 ( 57436.)

VPPI 4= 0.199 ( 53296.)

VPP:: 5= 0.224 ( 56546.)

IUMMAPY OF CORRECTED DATR TIME = 1745 DATE = 1135 TEMPERATURE (DEGREES R.) = 526.385 COPPECTED PPES!URE (P51A> = 65.1178 VAPDP PRES 3URE (PSIR) = 0.2268 K-20

IUM'1 ARY OF MEA 3UPED DATR AT 1800 1115 TEMP 1 = 526.920 ( 6729.s TEMP 2= 527.121 ( 6747.4 TEMP 3= 527.145 ( 6754..i TEMP 4 = 527.321 ( 6770.>

TEMP 5= 526.869 ( 6720.>

TEMP 6= 527.099 ( 6739.)

TEMP 7= 526.844 ( 6716.>

TEMP 8= 526.869 ( 6717.)

TEMP 9= 527.418 ( 6766.>

TEMP 10 = 526.892 ( 6726.)

TEMP 11 = 526.791 ( 6722.)

TEMP 12 = 525.539 6595.)

TEMP 13 = 525.210 ( 6553.)

TEMP 14 = 524.251 ( 6456.)

TEMP 15 = 525.703 ( 6602.>

TEMP 16 = 527.032 ( 6734.)

TEMP 17 = 524.392 ( 6471.)

TEMP 18 = 525.439 <. 6578.)

PPE2 1 = 65.347 ( 63903.)

VPPI 1 = 0.245 ( 59631.>

VPRI 2= 0.235 ( 61090.)

VFP; 3= 0.242 ( 58617.)

VPPI 4= 0.202 ( 53329.)

VPPI 5= 0.217 ( 5=565.)

SUMMAPY OF CDPRECTED DATR TIME = 1800 DATE = 1115 TEMPEPATUFE (DEGPEES R.) = 526.404 CDPRECTED PPE55UPE (PSIR) = 65.1209 VAPOR PRESSURE (PSIR) = 0.2257 K-21

SUMMARY

OF MER~UPEL DATA RT 1815 1115 TEMP 1 = 526.890 ( 6726.)

TEMP 2= 527.121 (. 6747.>

TEMP 3= 527.165 ( 6756.)

TEMP 4= 527.351 ( 6773.)

TEMP 5= 526.829 ( 6716.)

TEMP 6= 527.098 ( 6739.')

TEMP 7= 526.854 ( 6717.)

TEMP 8= 526.929 ( 6723.

TEMP 9= 527.449 ( 6769.>

TEMP 10 = 526.792 ( 6716.)

TEMP 11 = 526.830 ( 6726.)

TEMP 12 = 525.649 ( 6606.)

TEMP 13 = 525.210 ( 6553.)

TEMP 14 = 524.291 ( 6460.)-

TEMP 15 = 525.653 ( 6597.)

TEMP 16 = 527.062 (. 6739.4 TEMP 17 = 524.422 ( 6475.)

TEMF 19 = 525.439 ( 6578.)

PRET 1 = 65.349 ( 63911.>

VPPI 1 = 0.247 ( 59969.)

VPPI 2= 0.245 c. 62298.>

VPPI 3= 0.244 ( 53901.)

VPP. 4= 0.19B ( 53399.)

VPPI 5= 0.224 ( 56509.>

SUMMARY

OF COPPECTED DATA TIME = 1815 DATE = 1115 TEMPEPATUPE (DEGREES R.) = 526.416 COPPECTED PRE 55UPE (PSIR) = 65.1192 VAPOP PRESSURE (PSIA) = 0.2294 K-22

.........e. . . . . .

SUMMARY

OF MEAIUPED DATA AT 1830 1115 TEMP 1 = 526.900 t 6727.)

TEMP 2= 527.061 ( 6741.)

TEMP 3= 527.115 ( 6751.>

TEMP 4 = 527.331 ( 6776.>

TEMP 5= 526.889 ( 6722.>

TEMP 6= 527.078 ( 6737.>

TEMP 7= 526.894 ( 6721.>

TEMP 8= 526.949 ( 6725.>

TEMP 9= 527.458 ( 6770.>

TEMP 10 = 526.992 ( 6736.)

TEMP 11 = 526.830 ( 6726.)

TEMP 12 = 525.619 ( 6603.)

TEMP 13 = 325.240 ( 6556.)

TEMP 14 = 524.301 t. 6461.i TEMP 15 = 525.643 ( 6596.)

TEMP 16 = 527.042 ( 6735.>

TEMP 17 = 524.442 ( 6477.)

TEMP 18 = 525.449 ( 6579.s PRES 1 = 65.34.5 ( 63905.)

VPP5 1 = 0.242 ( 59333..'

VPRI 2= 0.249 ( 62750.>

VPPI 3= 0.236 ( 59015.)

VPRI 4 = 0.202 ( 53895.)

VPPS 5= 0.219 ( 55901.'.s

SUMMARY

OF CORRECTED DATR TIME = 1830 DATE = 1115 TEMPERATURE (DEGPEES P.) = 526.432 CORPECTED PRESSUPE (PSIA) = 65.1150 VAPOR PPESSURE (PSIR) = 0.2275 K-23

TUMMAPY OF MEASUPED DATA AT 1845 1115 TEMP 1 = 526.930 ( 6730.'>

TEMP 2= 527.041 ( 6739.)

TEMP 3= 527.135 ( 6753.)

TEMP 4 = 527.401 ( 6776.)

TEMF 5= 526.889 ( 6722.>

TEMP 6= 527.093 ( 6739.>

TEMP 7= 526.854 ( 6717.>

TEMP 8= 526.919 ( 6722.)

TEMP 9= 527.499 ( 6773.)

TEMP 10 = 526.992 ( 6736.>

TEMo 11 = 526.870 ( 6730.)

TEMP 12 = 525.589 ( 6600.)

TEMP 13 = 525.240 ( 6556.3 TEMP 14 = 524.331 ( 6464..i TEMP 15 = 525.723 ( 6604.>

TEMP 16 = 527.042 ( 6735.s TEMR 17 = 524.442 ( 6477.)

TEMP 13 = 525.499 ( 6533.)

PREI 1 = 65.341 < 63903.>

VPP 1 = 0.245 ( 58643.)

VPPI 2= 0.247 ( 62476.)

VPP3 3= 0.237 ( 58071.)

VPP5 4= 0.202 ( 53924.)

VPPI 5= 0.221 ( 56035.>

e SUMMAPY OF CORPECTED DATR TIME = 1845 DATE = 1115 TEMPERATURE (DEGREES R.) = 526.442 CDPRECTED PRESSURE (PSIR) = 65.1125 VAPOR PRESSURE (PSIA) = 0.2280 K-24

SUMMARY

OF MEAIURED DATA AT 1900 1115 TEMP 1 = 526.880 (. 6725.>

TEMP 2= 527.021 (. 6737./

TEMP 3= 527.135 ( 6753.)

TEND 4= 527.381 ( 6776.>

TEMP 5= 526.869 ( 6720.)

TEMP 6= 527.128 ( 6742.>

TEMP 7= 526.894 ( 6721.)

TEMP 8= 526.939 ( 6724.)

TEMP 9= 527.509 ( 6775.>

TEMP 10 = 526.972 ( 6734.)

TEMP 11 = 526.840 ( 6727.)

TEMP 12 = 525.649 ( 6606.>

TEMF 13 = 525.230 ( 6555.>

TEMP 14 = 524.321 ( 6463.)

TEMP 15 = 525.653 ( 6597.>

TEMP 16 = 527.092 ( 6740.)

TEMP 17 = 524.452 (. 6478.>

TEMP 18 = 525.529 ( 6587.)

PPES 1 = 65.350 (. 63912.)

VPRI 1 = 0.247 ( 59925.)

VPRI 2= 0.242 ( 61894.)

VPRS 3= 0.239 ( 59314.>

VPPI 4= 0.203 ( 54035.)

VPPS 5= 0.216 ( 55508.)

SUMMRPY OF COPPECTED DATA TIME = 1900 DATE = 1115 TEMPERATURE (DEGPEES R.) = 526.443 CORPECTED PRECTURE (PTIA) = 65.1227 VAPOR PPESSURE (PSIA) = 0.2270 K-25

SUMMARY

OF MERIUPED DATA AT 1915 1115 TEMP 1 = 526.790 < 6716.)

TEMP 2= 527.001 ( 6735.)

TEMP 3= 527.125 ( 6752.>

TEMP 4 = 527.411 <. 6779.>

TEMP 5= 526.879 ( 6721.>

TEMP 6= 527.088 < 6733.>

TEMP 7= 526.844 ( 6716.>

TEMP 8= 526.939 ( 6724.>

TEND 9= 527.499 < 6773 s TEMP 10 = 526.922 ( 6729.)

TEMP 11 = 526.860 ( 6729.)

TEMP 12 = 525.619 ( 6603.)

TEMR 13 = 525.230 ( 6555.>

TEMP 14 = 524.351 ( 6466.)

TEMP 15 = 525.693 ( 6601.)

TEMP 16 = 527.032 ( 6 7 3.L . >

TEMP 17 = 524.472 ( 6480.)

TEMP 18 = 525.549 ( 6589.)

PPE1 1 = 65.351 c. 63913.>

VPPI 1 = 0.242 ( 59339.)

VPPI 2= 0.251 ( 62905.)

VPRI 3= 0.233 ( 58219.)

VPR; 4= 0.199 (. 53575.)

VPRI 5= 0.220 ( 55966.)

IUMMAPY OF CDPRECTED DATA TIME = 1915 DATE = 1115 TEMPERATUPE (DEL.?EES R.) = 526.433 CORPECTED PPES2UPE (PSIR) = 65.1230 VAPOR PRESSURE (PSIR) = 0.2277 K-26

5UMMARY OF MEA:UPED DATA AT 1930 1115 .

TEMP 1 = 526.820 ( 6719.>

TEMP 2= 527.061 ( 6741.)

TEMP 3= 527.113 ( 6751.)

TEMP 4 = 527.401 ( 6778.>

TEMP 5= 526.879 ( 6721.>

TEMP 6= 527.139 ( 6743.)

TEMP 7= 526.904 ( 6722.)

TEMP S= 526.939 ( 6724.)

TEMP 9= 527.469 ( 6771.)

TEMP 10 = Sc6.892 ( 6726.>

TEMP 11 = 526.860 ( 6729.s TEMP 12 = 525.600 ( 6602.)

TEMD 13 = 525.260 ( 6559.>

TEMP 14 = 524.351 ( 6466.)

TEMP 15 = 525.773 ( 6609.)

TEMP 16 = 527.162 ( 6747.)

TEMD 17 = 524.472 ( 6480.>

TEMP 18 = 525.529 ( 6587.>

PPE3 1 = 65.'51 ( 63913.)

VPR5 1 = 0.247 ( 58834.)

VPRI 2= 0.241 ( 61752.>

VPPI 3= 0.240 ( 59434.)

VPPI 4= 0.204 ( 54116.)

VPRI 5= 0.225 ( 56724.)

SU'1 MARY OF CORRECTED DATA TIME = 1930 DATE = 1115 TEMPEPATURE (DEGPEE5 P.) = 526.447 COPPECTED PREISURE (PSIA) = 65.1212 VAPOR PRESSUPE (P21A) = 0.2295 K-27

SUMMARY

OF MERSUPED DR1R AT 1945 1115 TEMP 1 = 526.760 ( 6713.)

TEMP 2= 527.011 ( 6736.>

TEMP 3= 527.125 (. 6752.)

TEMP 4 = 527.331 ( 6776.)

TEMP 5= 526.889 ( 6722.)

TEMP 6= 527.128 ( 6742.s TEMP 7= 526.894 ( 6721.>

TEMP 8= 526.929 ( 6723.)

TEMP 9= 527.539 ( 6778.)

TEMP 10 = 526.942 ( 6731.>

TEMP 11 = 526.850 ( 6728.)

TEMP 12 = 525.609 ( 6602.>

TEMP 13 = 525.280 c. 6560.>

TEMP 14 = 524.371 ( 6468.>

TEMP 15 = 525.723 ( 6604.)

TEMP 16 = 527.122 ( 6743.)

TEMP 17 = 524.482 ( 6481.>

TEMP 18 = 525.509 ( 6595.>

PREI 1 = 65.351 ( 63913.)

VPP: 1 = 0.243 ( 59477.)

VPP5 2= 0.243 s: 62577.'>

VPR3 3= 0.242 ( 58699.)

VPRS 4= 0.205 (. 54320.)

VPPS 5= 0.217 ( 55646.)

SUMMAPY OF CDPPECTED DATA TIME = 1945 DATE = 1115 TEMPERATUPE (DEGPEES R.)

= 526.443 CDPRECTED PRES 30PE (PS I R')

= 65.1221 VAPDP PRESSURE (PSIA) = 0.2286 K-28

SUMMARY

OF MERTURED DATA RT 2000 1115 TEMP 1 = 526.800 ( 6717.)

TEMP 2= 526.961 ( 6731.)

TEMP 3= 527.065 ( 6746.)

TEMP 4= 527.381 ( 6776.)

TEME 5= 526.919 ( 6725.)

TEMP 6= 527.138 ( 6743.)

TEMP 7= 526.894 ( 6721.)

TEMP S= 526.929 ( 6723.)

TEMP 9= 527.549 ( 6779.>

TEMP 10 = 526.952 ( 6732.)

TEMP 11 = 526.880 ( 6731.)

TEMP 12 = 525.649 ( 6606.>

TEMP 13 = 525.290 (. 6561.)

TEMP 14 = 524.371 ( 6463.)

TEMP 15 = 525.713 < 6603.)

TEMR 16 = 527.122 ( 6743.>

TEMP 17 = 524.492 ( 6491.'>

TEMP 19 = 525.539 ( 6593.>

PPE5 1 = 65.351 ( 63913.)

VPP.- 1 = 0.247 ( 59992.>

VPPI 2= 0.243 ( 62560.>

VPP5 3= 0.243 ( 59726.)

VPP: 4 = 0.205 s 54256.>

VPPS 5= 0.222 ( 56175.)

SUMMARY

OF CDPRECTED DATA TIME = 2000 DRTE = 1115 TEMPEPRTUPE (DEGREES P.) = 526.449 COPPECTED PRESSURE (PSIR) = 65.1204 VAPDP PRESSURE (PSIR) = 0.2303 K-29 e es g y em , g em . e e *

  • se e+ f e ge 3 e G

SUMMAPY DF MEASURED DATA AT 2015 1115 TEMP 1 = 526.800 ( 6717.>

TEMP 2= 527.011 < 6736.>

TEMP 3= 527.095 ( 6749.

TEMP 4= 527.401 ( 6776.)

TEMP 5= 526.889 ( 6722.>

TEMP 6= 527.103 ( 6740.)

TEMP 7= 526.894 ( 6720.>

TEMP 8= 526.929 ( 6723.)

TEMP 9= 527.519 ( 6776.)

TEMP 10 = 526.912 ( 6728.)

TEMP 11 = 526.870 ( 6730.>

TEMP 12 = 525.639 ( 6605..'

TEMP 13 = 525.290 ( 6561.)

TEMP 14 = 524.341 ( 6465.>

TEMP 15 = 525.673 ( 6599.4 TEMP 16 = 527.112 (. 6742.)

TEMP 17 = 524.462 ( 6479.)

TEMP 19 = 525.539 ( 6593.)

PRES 1= 65.351 ( 63913.)

VPRI 1 = 0.247 ( 58977.>

VPP5 2= 0.245 ( 62237.)

VPPI 3= 0.240 ( 59440.>

VPP5 4= 0.205 ( 54290.>

VPP5 5= 0.221 ( 56033.)

SUMMARY

OF CDPRECTED DATA TIME = 2015 DATE = 1115 TEMPEPRTURE (DEGREES P.) = 526.441 CORPECTED PRES 3URE (PSIA) = 65.1215 VAPOP PRESSURE (PSIR) = 0.2292 K-30

SUMMARY

OF MEAIUPED DATA AT 2030 1115 TEMP 1 = 526.760 ( 6713.4 TEMP 2= 525.971 (. 6732.)

TEMP 3= 527.105 ( 6750.>

TEMP 4= 527.401 ( 6778.)

5= 526.879 ( 6721.>

TEMP TEMF 6= 527.128 ( 6742.>

TEMP 7= 526.854 ( 6717.>

TEMP 8= 526.933 ( 6724.>

TEMP 9= 527.469 ( 6771.)

TEMP 10 = 526.902 ( 6727.>

TEMP 11 = 526.860 ( 6729.>

TEMP 12 = 525.599 ( 6601.)

TEMP 13 = 525.260 ( 6559.)

TEMP 14 = 524.341 ( 6465.)

TEMP 15 = 525.713 (. 660?.>

TEMP 16 = 527.032 ( 6739.>

TEMP 17 = 524.472 ( 6490.*

TEMP 18 = 525.533 ( 6538.)

PREI 1 = 65.349 ( 63911.>

VPP3 1 = 0.245 ( 53629.>

VPPI 2= 0.244 (. 62130./

VPPI 3= 0.242 ( 53720.)

VPPS 4 = 0.203 ( 53931.)

VPPI 5= 0.220 ( 55916.>

SUMMAPY OF COPPECTED DATA TIME = 2030 DATE = 1115 TEMPEPRTURE (DEGPEEI R.) = 526.428 COPPECTED PPESSURE (PSIA) = 65.1204 VAPDP PRES 5UPE (PSIR) = 0.2283 K-31

IUMMAPY OF MEAIUPED DATA AT 2045 1115 TEMF 1 = 526.900 ( 6717.i TEMP 2= 526.961 s' 6731.>

TEMP 3= 527.095 ( 6749.)

TEMP 4= 527.451 ( 6783.)

TEMP 5= 526.929 ( 6726.)

TEMP 6= 527.10B ( 6740.>

TEMP 7= 526.864 < 6718.)

TEMP 8= 526.939 ( 6724.>

TEMP 9= 527.489 ( 6773.)

TEMP 10 = 526.942 ( 6731.)

TEMP 11 = 526.880 ( 6731.)

TEMP 12 = 525.619 ( 6603.)

TEMP 13 = 525.270 ( 6559.)

TEMP 14 = 524.371 (. 6468.)

TEMP 15 = 525.783 ( 6610.)

TEMP 16 = 527.122 ( 6743.>

TEMP 17 = 524.492 ( 6482.>

TEMP 18 = 525.519 t 658t..>

PPE: 1 = 65.343 ( 63911.>

VPRI 1 = 0.245 ( 58 69.)

VPP. 2= 0.233 ( 61481.)

VPPI 3= 0.242 ( 58635.)

VPP; 4= 0.199 ( 53520.)

VPPI 5= 0.226 ( 56814.)

SUMMARY

OF CORPECTED DATA TIME = 2045 DATE = 1115 TEMPERATURE (DEGREES P.)

= 526.448 COPPECTED PPESSUPE (PSIA)

= 65.1203 VAPOP PPESIUPE (PSIA) = 0.2284 K-32

SUMMAPY OF MEA 3UPED DATA AT 2!00 1115 TEMP 1 = 526.760 < 6713.s TEMP 2= 526.901 ( 6725.)

TEMP 3= 527.065 ( 674e.)

TEMP 4 = 527.411 ( 6779.>

TEMP 5= 526.869 c. 6720.)

TEMP 6= 527.103 ( 6740./

TEMP 7= 526.864 ( 6718.)

TEMP 8= 526.949 ( 6725.)

TEMP 9= 527.549 ( 6779.>

TEMP 10 = 526.882 ( 6725.)

TEMP 11 = 526.900 ( 6733.)

TEMP 12 = 525.629 ( 6604.)

TEMP 13 = 525.290 ( 6561.)

TEMP 14 = 524.381 ( 6469.)

TEMR 15 = 525.793 ( 6611.>

TEMP 16 = 527.122 ( 6743.s TEMP 17 = 524.492 ( 6482.)

TEMP 18 = 525.549 ( 65B9.>

PPE! 1 = 65.349 c. 63911.)

VPPI 1 = 0.248 ( 59009.>

VPPI 2= 0.250 ( 62892.)

VPPI 3= 0.241 ( 58502.)

VPPI 4= 0.202 ( 53994./

VPPS 5= 0.219 ( 55300.>

+

SUMMARY

OF COPPECTED DATA TIME = 2100 DATE = 1115 TEMPERATURE (DEGREES R.) = 526.441 COPPECTED PRES 5URE (PSIA) = 65.1194 VAPDP PPESSURE (PSIA) = 0.2292 K-33

IUMMAPY OF MEASURED DATA AT 2115 1115 TEMP 1 = 526.770 (. 6714.)

TEMP 2= 526.941 ( 6729.>

TEMP 3= 527.075 ( 6747.>

TEMP 4= 527.421 ( 6780.)

TEMP 5= 526.909 ( 6724.)

TEMP 6= 527.092 ( 6739.>

TEMP 7= 526.864 ( 6718.)

TEMP 8= 526.969 (. 6727.)

TEMP 9= 527.479 ( 6772.)

TEMP 10 = 526.892 (. 6726.)

TEMP 11 = 526.860 ( 6729.)

TEMP 12 = 525.609 ( 6602.>

TEMP 13 = 525.290 ( 6561.)

TEMP 14 = 524.391 ( 6470.>

TEMP 15 = 525.803 ( 6612.)

TEMP 16 = 527.152 ( 6746.>

TEMP 17 = 524.502 i 6493.)

TEMP 18 = 525.569 ( 6591.>

PREI 1 = 65.349 ( 63911.)

VPRI 1 = 0.246 (. 59730.)

VPP3 2= 0.245 ( 62296.)

VPPI 3= 0.245 ( 59955.>

VPRI 4 = 0.205 ( 54269.>

VPRI 5= 0.222 ( 56182.)

SUMMAPY OF COPPECTED DATA TIME = 2115 DATE = 1115 TEMPERATURE (DEGREES R.) = 526.444 CDPRECTED PRE 57UPE (PSIA > = 65.1186 VAPOP PRESSURE (PSIA) = 0.2300 K-34

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APPENDIX L Verification Flow Test Summary Data 3UMMARY DATA CALVEPT CLIFF 5 VEPIFICATION ALMA:- = 0.200 VOL = 2000000.00 VRATET = 0.228 VPATEM = 0.252

+

TIME DATE TEMP PPE130PE VPPI 2230 1115 526.430 65.1093 0.2312 2245 1115 526.433 65.1034 0.2311 2300 1115 526.435 65.1045 0.2340 2315 1115 526.454 65.1091 0.2283 2330 1115 526.441 65.1092 0.2273 2345 1115 526.453 65.1040 0.2325 0 1116 526.465 65.1037 0.2277 15 1116 526.472 65.1044 0.2301 30 1116 526.466 65.0939 0.2326 45 1116 526.477 65.0993 0.2305 100 1116 526.467 65.0955 0.2323 115 1116 526.477 65.0930 0.2353 130 1116 526.470 65.0935 0.2328 145 1116 526.484 65.1016 0.2328 200 1116 526.483 65.0933 0.2299 215 1116 526.491 65.0903 0.2319 230 1116 526.502 65.0902 0.2320 245 1116 526.509 65.0895 0.2307 300 1116 526.519 65.0906 0.2286 315 1116 526.506 65.0935 0.2357 330 1116 526.516 65.0959 0.2312 345 1116 526.540 65.0859 0.2302 400 1116 526.526 65.0309 0.2342 415 1116 526.533 65.0910 0.2331 430 1116 526.539 65.0316 0.2325 445 1116 526.543 65.0912 0.2303 500 1116 526.540 65.0761 0.2329 515 1116 526.541 65.0756 0.2314 530 1116 526.517 65.0732 0.2317 545 1116 526.523 65.0734 0.2295 0 0 0. 0 0. 0 0. 0 L-1

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APPENDIX M Verification Flow Test Trend Report 4k

{

CALVEFT CLIFFE VEPIFICATION TREND REPDFT LERkAGE RATE: < WEIGHT PERCENT DAY >

ELAPEED TIME: 7.25 HOUP:

ND. DATA ELAPIED TOTAL-TIME ANALY: I MA::-POINT ANALY:I':

PDINT5 TIME MEAN CALCULATED CALCULATED 10 2.25 O.219 0.195 U.230 11 2.50 0.22'4 0.217 0.253 12 2.75 0.231 0.241 0.277 13 3.00 0.233 0.247 0.276 14 3.25 O.227 0.226 0.241 15 3.50 0.228 0.229 0.242 16 3.75 0.230 0.237 0.250 17 4.00 0.232 0.242 0.255 18 4.25 O.233 0.246 0.259 19 4.50 0.234 0.247 0.257 20 4.75 0.236 0.253 0.264 21 5.00 0.237 0.254 0.263 22 5.25 O.238 0.257 0.265 23 5.50 0.239 0.261 0.268 24 5.75 0.240 0.263 0.269 25 6.00 0.241 0.263 0.268 26 6.25 0.241 0.262 0.266 27 6.50 0.242 0.264 0.268 28 6.75 0.243 0.265 0.268 29 7.00 0.243 0.264 0.265 30 7.25 0.243 0.262 0.262 M-1

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APPENDIX N CALVERT CLIFFS VERIFICATION LERkRGE RATE (WEIGHT PERCENT /DR('

MASS-PDINT ANALYil:

TIME RND DATE AT START OF TEIT: 2230 1115 ELAPIED TIME: 7.25 HOUC3 TIME TEMP PRE 13URE CTMT. AIR MR32 LD 3 TOT.RYG. MA::

(R:' (PIIR) MAI3 (LBM' 'LBMs

. LD 3 (LBM'HP' 2230 526.430 65.1093 667669 '

2245 526.439 65.1094 667649 19.4 < 7. 5 2300 526.435 65.1045 667612 36.2 111.1 2315 526.454 ;5.1091 667635 -23.1 4:.3 2330 526.441 65.1092 667653 -17.5 15.0 2345 526.453 65.1040 667594 68.5 66.8 0 526.465 65.1ri97 667617 -33.0 33.7 15 526.472 65.10'4 667564 53.0 59.1 30 526.466 65.0991 667525 39.6 71.5 45 526.477 65.0993 667511 13.9 69.8 100 526.467 65.0955 667479 31.4 75.4 115 526.477 65.0930 667441 33.3 82.4 130 526.470 65.0935 667455 -14.0 70.9 145 526.484 65.1016 667520 -65.3 45.4 200 526.483 65.0933 667437 83.8 66.1 215 526.491 65.0903 667396 40.9 72.6 230 526.502 65.0902 6673B1 15.0 71.8 245 526.509 65.0895 667365 16.1 71.3 300 526.519 65.0906 667363 1.4 67.7 315 526.506 65.0935 667307 56.3 76.0 330 526.516 65.0959 667319 -11.9 69.8 345 526.540 65.0859 667289 30.4 72.3 400 526.526 65.OS09 667255 33.5 75.1 415 526.533 65.0910 667247 7.8 73.2 430 526.539 65.0816 667246 1.5 70.4 445 526.543 65.0312 667236 9.2 69.0 500 526.540 65.0761 667188 48.5 73.S 515 526.541 65.0756 667182 6.4 72.0 530 526.517 65.0732 667187 -5.8 68.6 545 526.523 65.0734 667182 5.6 67.0 FREE AIR VOLUME U3ED (MILLION3 OF CU. FT.) = 2.000 REGRESSION LINE INTERCEPT (LBM> = 667681 SLDPE (LBM' hrs = -72.9 VERIFICATION TEST LERKRGE RATE UPPER LIMIT = 0.302 VERIFICATIDN TEST LEAKAGE RATE LOWER LIMIT = 0.202 THE CALCULATED LEAKAGE RATE = 0.262 N-1

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APPENDIX O CALVERT CLIFF VERIFICATIDN LEAKAGE RATE (WEIGHT PERCENT'DAYa TDTAL-TIME ANALY:1 TIME AND DATE AT ITART DF TEST: 2230 1115 ELAP5ED TIME: 7.25 HDUP.i TIME TEMP. PRE 21UPE MEAIURED (P) (PSIA' LEALAGE RATE 2230 526.430 65.1093 2245 526.433 65.1094 0.279 2300 526.435 45.1045 0.399 2315 526.454 65.1391 0.156 2330 526.441 65.1092 0.054 2345 526.453 65.1040 0.240 0 526.465 65.1057 0.121 15 526.472 65.1044 0.213 30 526.466 65.0999 U.257 45 526.477 65.0999 0.251 100 526.467 65.0955 0.271 115 526.477 65.0930 0.296 130 526.470 65.0935 0.255 145 526.494 65.1016 0.163 200 526.493 65.0933 0.23B 215 526.491 65.0903 0.261 230 526.502 65.0902 0.259 245 526.509 65.0895 0.256 300 526.519 65.0906 0.243 315 526.506 65.0935 0.273 330 526.516 65.0959 0.251 345 526.540 65.0859 0.260 400 526.526 65.0309 0.270 415 526.533 65.0810 0.263 430 526.539 65.0816 0.253 445 526.543 65.0912 0.248 500 526.540 65.0761 0.265 515 526.541 65.0756 0.259 530 526.517 65.0732 0.247 545 526.523 65.,0734 0.241

= 0.243 MEAN OF MEASURED LEAKAGE RATES 0.278 VERIFICATION TEST LEAKAGE RATE UPPEP LIMIT = 0.178 VEPIFICATIDN TEST LEAVAGE PATE LOWER LIMIT == 0.262 THE CALCULATED LEAKAGE RATE 0-1

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APPENDIX P Verification Flow Test Summary of Measured Data

SUMMARY

OF MEA 3UPED DATA AT 2230 1115 TEMP 1 = 526.710 ( 670s.'

TEMP 2= 526.851 ( 6720.)

TEMP 3= 527.065 ( 6746.>

TEMP 4 = 527.461 < 6784.)

TEMP 5= 526.899 ( 6722.)

TEMP 6= 527.1 Cr3 ( 6740.)

TEMP 7= 526.864 < 6718.)

TEMP 8= 526.929 ( 6723.)

TEMP 9= 527.428 ( 6767.)

TEMP 10 = 526.792 ( 6716.>

TEMP 11 = 526.860 ( 6729.>

TEMP 12 = 525.699 ( 6611.)

TEMP 13 = 525.300 ( 6562.)

TEMP 14 = 524.371 ( 6469.)

TEMP 15 = 525.793 ( 6611.4 TEMF 16 = 527.172 < 6748.>

TEMP 17 = 524.512 ( 6434.>

TEMP 18 = 525.559 ( 6590.)

PPE 1 = 65.341 ( 6 3 ? O3. >

VPRI 1 = 0.243 ( 58942.)

' ; PPI 2= 0.245 ( 62241.>

VPP: 3= 0.241 ( 58513.)

VPP; 4 = 0.203 ( 54093.)

VPP 5= 0.228 ( 57103.)

IUMMARY OF COPPECTED DATA TIME = 2230 DATE = 1115 TEMPEPATURE (DEGREES P.) = 526.430 CORPECTED PRESSURE (PSIA) = 65.1093 VAPOP PRESSUPE (PSIA > = 0.2312 P-1

IUMMAPY OF MEAIUPED DATA AT 2245 1115 TEMP 1 = 526.700 '. 6707.)

TEMP 2= 526.831 < 6718.>

TEMP 3= 527.025 ( 6742.)

TEMP 4 = 527.461 < 6784.>

TEMP 5= 526.879 < 6721.'>

TEMP 6= 527.103 ( 674 0. >

TEMP 7= 526.864 ( 6718.)

TEMP 8= 526.939 ( 6724.)

TEMP 9= 527.499 ( 6774.)

TEMP 10 = 526.962 ( 6733.)

TEMP 11 = 526.880 ( 6731.)

TEMP 12 = 525.669 ( 6608.)

TEMP 13 = 525.320 ( 6564.)

TEMP 14 = 524.401 ( 6471.)

TEMP 15 = 525.713 ( 6603.)

TEMP 16 = 527.122 ( 6743.)

TEMP 17 = 524.512 ( 6494.>

TEMP 18 = 525.549 ( 6593.>

PPE0 1 = 65.333 ( 63902.)

VPPI 1 = 0.246 < 53914.)

VPPI 2= 0.257 ( 63703.)

VPPI 3= 0.242 ( 59696.>

VPPI 4 = 0.203 ( 54019.>

VPPE 5= 0.220 t 56026.>

SL'MMAPY OF CDPRECTED DATA TIME = 2245 DATE = 1115 TEMPERATURE (DEGREE 5 R.) = 526.438 COPPECTED PRE 55UPE (PSIA > = 65.1084 VAPOP PRES 5UPE (PSIA) = 0.2311 P-2

IUMMARY Or MEAIUPED DATA AT 2300 1115 TEMP 1 = 526.700 ( 6707.4 TEMP 2= 526.881 ( 6723.>

TEMP 3= 527.055 ( 6745.)

TEMP 4 = 527.431 ( 6781.>

TEMP 5= 526.899 ( 6723.>

TEMP 6= 527.089 (. 6738.>

TEMP 7= 526.844 ( 6716.)

TEMP S= 526.929 ( 6723.>

TEMP 9= 527.489 ( 6773.)

TEMP 10 = 526.952 < 6732.)

TEMP 11 = 526.860 < 6729.>

TEMP 12 = 525.619 ( 6603.>

TEMP 13 = 525.310 c. 6563.)

TEMP 14 = 524.411 < 6472.>

TEMP 15 = 525.733 s. 6605.>

TEMP 16 = 527.142 ( 6745.>

TEMo 17 = 524.522 ( 6435.>

TEMP 18 = 525.549 ( 6539.4 PPE: 1 = 65.339 ( 63901.)

VPP 1 = 0.249 (. 59041..'

VPP: 2= 0.260 ( 6394?.>

VPPI 3= 0.242 ( 59693.>

VPPI 4 = 0.206 (. 54415.)

VPPI 5= 0.226 ( 56840.)

SUMMADY OF COORECTED DATA TIME = 2300 DATE = 1115 TEMPEPRTUPE (DEGREEE R.) = 526.435 COPPECTED PPE55UPE (PTIA) = 65.1045 VAPOP PRES 5UPE (PSIA) = 0.2340 P-3

IUMMARY OF MEAIUPED DATA AT 2315 1115 TEMP 1 = 526.730 ( 6710.>

TEMP 2= 526.881 ( 6723.>

TEMP 3= 5??.055 ( 6745.>

TEMP 4 = 547.421 ( 6780.>

TEMP 5= 526.889 ( 6722.>

TEMP 6= 527.078 ( 6737.>

TEMP 7= 526.854 ( 6717.)

TEMP 8= 526.939 ( 6724.)

TEMP 9= 527.469 ( 6771.)

TEMF 10 = 527.002 ( 6737.)

TEMP 11 = 526.890 ( 6732.)

TEMP 12 = 525.669 ( 6608.>

TEMP 13 = 525.320 ( 6564.)

TEMP 14 = 524.411 ( 6472.>

TEMP 15 = 525.963 ( 6618.)

TEMP 16 = 527.172 < 6749.>

TEMP 17 = 524.542 ( 6497.)

TEMP 18 = 525.589 ( 6593.4 PPE5 1 = 65.337 ( 63900.)

VPPI 1 = 0.247 (. 53909.>

VPP: 2= 0.247 ( 62539.>

VPP: 3= 0.238 ( 58157.)

VPPI 4= 0.200 ( 53583.)

VPRI 5= 0.221 ( 56140.)

SUMMARY

OF CORRECTED DATA TIME = 2315 DATE = 1115 TEMPERATURE (DEGREES R.) = 526.454 CDPPECTED PPE55UPE (PSIA) = 65.1091 VAPDP PRESSURE (PSIA) = 0.2283 P-4

SUMMAPY OF MEA;UPED DATA AT 2330 1115 TEMP 1 = $26.730 ( 5710.)

TEMP 2= 526.871 ( 6722.)

TEMP 3= 527.055 ( 6745.)

TEMP 4 = 527.411 ( 6779.)

TEMP 5= 526.879 ( 6721.)

TEMP 6= 527.04B ( 6734.)

TEMP 7= 526.854 ( 6717.) .

TEMP 8= 526.959 ( 6726.e TEMP 9= 527.459 ( 6770.)

TEMP 10 = 526.932 ( 6730.>

TEMP 11 = 526.880 ( 6731.)

TEMP 12 = 525.639 ( 66 05. .>

TEMP 13 = 525.320 ( 6594.)

TEMP 14 = 524.451 ( 6476.)

TEMP 15 = 525.753 ( 66 07. .>

TEMP 16 = 527.142 ( 6745.>

TEMP 17 = 524.562 ( 6439.e TEMP 18 = 525.579 ( 6592..>.

PPE: 1 = 65.336 ( 63999.>

VPP: 1 = 0.247 (. 53937.)

VPPI 2= 0.232 ( 60313.)

VPP: 3= 0.240 ( 59423.>

VPD: 4= 0.202 ( 53930.>

VPPI 5= 0.223 t. 56406.)

5UMMAPY OF CDPRECTED DATA TIME = 2330 DATE = 1115 TEMPERATURE (DEGREE 5 R.) = 526.441 CDPRECTED PRESSURE (PIIA) = 65.1092 VAPDP PPESSUPE (PSIA) = 0.2273 P-5

UMMAPr Dr MEA:URED DATA AT 2345 1115 TEMP 1 = 526.710 < 6703.>

TEMP 2= 526.901 ( 6725.>

TEMP 3= 527.055 a 6745.>

TEMP 4 = 527.411 ( 6779.>

TEMP 5= 516.889 ( 6722.>

TEMP 6= 527.039 ( 6735.>

TEMR 7= 526.954 ( 6717.')

TEMP 9= 526.959 ( 6726.)

TEMP 9= 527.509 c. 6775.)

TEND 10 = 526.962 ( 6733..'

TEMF 11 = 526.900 ( 6735.)

TEMP 12 = 525.649 ( 6606.>

TEMP 13 = 525.330 ( 6565.>

TEMP 14 = 524.441 ( 6475.)

TEMP 15 = 525.783 < 6610. >

TEMP 16 = 527.142 ( 6745.)

TEMP 17 = 524.572 ( 6490.)

TEMP 1B= 525.569 ( 6591.)

PPEI 1 = 65.336 ( 6 39 99. >

VPP: 1 = 0.250 ( 5o193.)

VPP3 2= 0.251 ( 62955.>

VPP: 't = 0.242 ( 58677.)

VPPI *= 0.205 ( 54359.)

VPP: 5= 0.225 < 56717.)

SUMMAPY OF CDPPECTED DATA TIME = 2345 DATE = 1115 TEMPERATURE (DEGPEES P.) = 526.453 CDPPECTED PPETIURE (PSIA) = 65.1040 VAPDP PPE15UPE (PSIA) = 0.2325 P-6 e

3UMMARY OF MEAIUEED DATA AT 0 1116 TEMP 1 = 526.740 ( 6711.>

TEMP 2= 526.871 ( 6722.)

TEMF 3= 527.055 5 6745.>

TEMP 4 = 527.461 ( 6784.>

TEMc' 5= 526.919 ( 6725.)

TEMP 6= 527.078 ( 6737.>

TEMP 7= 526.894 ( 6721.)

TEMP 8= 526.969 ( 6727.>

TENC' 9= 527.469 ( 6771.>

TEMP 10 = 526.952 ( 6732.)

TEMP 11 = 526.950 t 6728.>

TEMP 12 = 525.679 ( 6603.)

TEMP 13 = 525.340 ( 6566..)

TEMP 14 = 524.471 ( 6478.)

TEMP 15 = 525.893 ( 6620.>

TEMP 16 = 527.242 ( 6755.

TEMP 17 = 524.562 ( 6439.3 T E M c- 19 = 525.569 < 6591.>

PPEI 1 = 65.336 ( 63999.>

VPP: 1 = 0.243 ( 59972.'s VPP: 2= 0.227 ( 60199.)

VPP: 3= 0.242 ( 58613.>

VPP 4 = 0.206 ( $4447.>

VPPI 5= 0.224 ( 56503.)

SUMMAPY OF COPPECTED DATA TIME = 0 DATE = 1116 TEMPERATUPE (DEGPEES P.) = 526.465 COPPECTED PRES 7UPE (PSIA) = 65.1087 4

VAPOP PRES 3UPE (P2I A's = 0.2277 P-7

C IUMMARY OF MEA URED DATA AT 15 1116 TEMP 1 = 526.720 '. 670 9. >

TEMP 2= 526.851 ( 6720.>

TEMP 3= 527.065 ( 6746.>

TEMP 4 = 527.451 a 6783.)

TEMP 5= 526.929 ( 6726.>

TEMP 6= 527.118 ( 6741.)

TEMP 7= 526.894 ( 6721.)

TEMP S= 526.919 ( 6722.>

TEMP 9= 527.50? ( 6775.)

TEMP 10 = 527.002 ( 6737.)

TEMP 11 = 526.880 ( 6731.)

TEMF 12 = 525.679 ( 6609.>

TEMP 13 = 525.330 ( 6565.>

TEMP 14 = 524.461 ( 6477.)

TEMP 15 = 525.893 ( 6621.>

TEMP 16 = 527.212 ( 6752.>

TEMP 17 = 524.592 ( 6492.)

TEMP 18 = 525.609 ( 6595.)

PREI 1 = 65.334 ( 63997.>

VPP3 1 = 0.247 ( 59901.>

VPEI 2= 0.248 ( 62666.)

VPP; 3= 0.l.43 ( 58734.>

VPRI 4 = 0.203 ( 54002.)

VPP3 5= 0.222 ( 56178.)

SUMMARY

OF COPPECTED DATA TIME = 15 DATE = 1116 TEMPERATUPE (DEGREES P.) = 526.472 COPPECTED PRESSUPE (PSIA > = 65.1044 VAPOP PPE35URE (PSIA) = 0.2301 P-8

IUMMARY OF MEA:UPED DATA AT 30 1116 TEMP 1 = 526.900 <. 6717./

TEMP 2= 526.861 i 6721.*

TEM 5 3= 527.065 ( 6746..i TEMP 4 = 527.421 ( 6780.)

TEMP 5= 526.899 < 6723.s TEMP 6= 527.038 ( 6733.>

TEMP 7= 526.834 ( 6715.)

TEMP 8= 526.969 (. 6727.s TEMP 9= 527.449 ( 6769.)

TEMP 10 = 527.022 ( 6739.>

TEMP 11 = 526.890 ( 6732.s TEMP 12 = 525.679 ( 6609.>

TEMP 13 = 525.360 < 6568.)

TEMP 14 = 524.481 6479.>

TEMP 15 = 325.781 (. 6610.*

TEMF 16 = 527.182 < 6749.>

TEMP 17 = 524.592 ( 6491.>

TEMP 18 = 525.609 ( 6595.)

PPE3 1 = 65.332 ( 63995.s VPP: 1 = 0.245: ( 53959.'

VPP: 2= 0.245 4 62262.)

VPP 3= 0.243 ( 58781.>

VPP: 4 = 0.207 ( 54535.>

VPRI 5= 0.229 ( 57191.)

SUMMARY

OF CDPPECTED DATA TIME = 30 DATE = 1116 TEMPERATURE (DEGREE P.> = 526.466 COPPECTED PRE 55UPE (PSIA) = 65.0998 YAPDP PRESIUPE (PSIA) = 0.2326 P-9

SUMMAPY OF MEA;URED DATA AT 45 1116 TEMP 1 = 526.750 ( 6712.>

TEMP 2= 526.861 ( d.721. >

TEMP 3= 527.075 ( 6747.>

TEMP 4= 527.511 ( 6789.>

TEMP 5= 526.939 < 6722.,

TEMP 6= 527.102 < 6740.4 TEMP 7= 526.874 ( 6719.>

TEMP 8= 527.039 ( 6734.>

TEMP 9= 527.499 (. 6773.:'

TEMP 10 = 526.942 ( 6731.*

TEMP 11 = 526.900 < 6733.>

TEMP 12 = 525.719 s: 6613. >

TEMP 13 = 525.340 ( 6566.>

TEMP 14 = 524.491 ( 6430.'

TEMP 15 = 525.793 < 6611.'

TEMP 16 = 527.192 (. 6750..

TEMP 17 = 524.592 ( 6492.>

TEMP 19 = 525.619 '. 6596.>

PREI 1 = 65.330 ( 63393.>

VPPI 1 = 0.250 < 59271.>

VPPI 2= 0.247 (. 62507.>

VPPI 3= 0.243 ( 58725.)

VPPI 4 = 0.205 ( 54331.)

VPPI 5= 0.220 (. 56001.>

SUMMARY

OF COPPECTED DATA TIME = 45 DATE = 1116 TEMPERATURE (DEGPEES P.) = 526.477 CORPECTED PPE12UPE (PTIA) = 65.0999 VAPDP PPES5UPE (PSIA)

= 0.2305 P-10

)

~

IUMMARY Do MER:UPEL DATA AT 100 1116 TEMo 1 = 526.720 ( 6709.:'

TEMo 2= 526.922 <

6717.'s TEMD 3= 527.04" ' 6744.>

TEMo 4 = 527.471 ( 6795.'

TEMo 5= 526.919 ( 6725.'

TEM

  • 6= 527.119 ( 6741.:'

TEMo 7= 526.934 ( 6720.3 TEMo 9= 526.979 ( 6729.>

TEMo 9= 527.459 ( 6770.i TEMo 10 = 526.962 ( 6733.3 TEMP 11 = 526.390 ( 6731..*

TEMF 12 = 525.699 ( 6611..*

TEMo 13 = 525. 3 3'> ( 6565.'

TEMo 14 = 524.4B1 ( 6479..'

TEMo 15 = 525.913 ( 6613..

TEMP 16 = 527.192 (. 6749.>

TEMo 17 = 524.592 ( 6492..'

TEMo 19 = 525.64? ': 6599.'

PPEI 1 = 65.329 < 63991..*

VPRI 1 = 0.246 ( 59756.)

VPRI 2= 0.256 < 63490.3 VPP; 3= 0.241 ( 59593.*

VPP 4 = 0.205 ( 54294.>

VPPI 5= 0.227 ( 56979.4

SUMMARY

F COPPECTED DATA TIME = 100 DATE = 1116 TEMoEPRTUPE (DEGDEE5 R.) = 526.467 CDPRECTED PPESIUPE (PS I A.) = 65.0955 VAPOR PRESSUPE (PSIA > = 0.2329 P-11

TUMMAoY DC MEA:UPED DATA AT 115 1116 TEMo 1 = 526.720 <: 6709.)

TEMo 2= 526.931 ( 6719.>

TEMo 3= 527.075 ( 6747.)

TEND 4 = 527.590

  • 6796.)

TEMP 5= 526.919 ( 6725.3 TEMo 6= 527.139 ( 6743.3 TEMo 7= 526.994 ( 6720.)

TEMo 9= 526.969 ( 6727.)

TEMo 9= 527.539 ( 6779.>

TEMP 10 = 526.922 ( 6729.)

Th.M o 11 = 526.990 ( 6731.3 TEMo 12 = 525.709 s 6612.3 TEMo 13 = 525.360 ( 6569..'

TEMo 14 = 524.471 ( 6478.'

TEMo 15 = 525.785 <

. 6610.)

TEMP 16 = 527.192 ( 6749.3 TEMo 17 = 524.592 rs 6492.3 TEMo 13 = 525.619 ( 6596.)

oPEI 1 = 65.323 ( 63391.)

VPPI 1 = 0.250 ( 59172.)

VPPI 2= 0.257 ( 63679.)

VPPI 3= 0.243 ( 59796.)

VoPI 4 = 0.204 ( 54228.)

VPP: 5= 0.232 ( 57492.)

IVMMAoY DF CDPPECTED DATA TIME = 115 DATE = 1116 TEMPERATUPE (DEGPEES R.) = 526.477 CDoPECTED PRE 75URE (PSIA) = 65.0930 VAPOR PRES $UPE (PSIA) = 0.2353 P-12

SUMMACY OF MEA 50 RED DATA AT 130 1116 TEMP 1 = 526.730 ( 6710.*

TEMD 2= 52:. 911 ( 6716...

TEMP 3= 527.065 (. 6746.s TEMP 4= 527.491 ( 6797.)

TEMR 5= 526.919 ( 6725.3 TEMP 6= 527.119 < 6741.>

TEND 7= 526.964 ( 6718.3 TEMD 9= 526.93? ( 6724.)

TEMP 9= 527.429 < 6767.)

TEMD 10 = 526.962 ( 6733.3 TEMP 11 = 516.990 ( 6732.s TEMP 12 = 525.709 ( 6612.)

TEMR 13 = 525.350 ( 6567.)

TEND 14 - 524.511 ( 6492.)

TEMP 15 = 525.951 ( 6617.3 TEMD 16 = 527.202 ( 6751.3 TEMP 17 = 524.612 ( 6494.*

TEMo 19 = 525.609 ( 6595.)

PPET 1 = 65.326 ( 63339.3 VPPI 1 = 0.251 ( 59357..) -

VPP:: 2= 0.250 ( 62979.>

VPR: 3= 0.247 ( 59242.)

VPP3 4 = 0.205 ( 54269.)

VPP; 5= 0.223 c. 56454.)

IUMMARY OF COPPECTED DATA TIME = 130 DATE = 1116 TEMPEPATUPE (DEGREE 2 R.) = 526.470 COPPECTED PPE55UPE (P3IA) = 65.0935 VAPDP PRE 51UDE (. PSIA.) = 0.2329 P-13

SUMMAGY OF MEAIUPED DATA AT 145 1116 TEMD 1 = 526.740 i 6711.'

TEMC 2= 526.951 ( 6720.'

TEMF 3= 527.035 ( 6749.*

TEMP 4 = 527.570 ( 6795.)

TEMo 5= 526.919 < 6725.'

TEMD 6= 527.093 ( 6739.>

TEMo 7= 526.964 s 6719.>

TEMP S= 526.959 ( 6729.i TEMP 9= 527.519 ( 6776.)

TEMo 10 = 526.972 ( 6734..'

TEMD 11 = 526.900 ( 6733.3 TEMP 12 = 525.669 ( 6603.3 TEMP 13 = 525.350 ( 6567.s TEMP 14 = 524.491 ( 6490.

TEMP 15 = 525.365 ( 6615.)

TEMP 16 = 527.172 ( 6743.*

TEMP 17 = 524.612 ( 6494.'

TEMP 19 = 525.669 ( 6601.)

PRET 1 = 65.334 ( 63397.2 VPP: 1 = 0.249 ( 59157..s VPPI 2= 0.24? ( 62734.*

VPPI 3= 0.234 ( 57745..'

VPRI 4 = 0.205 ( 54296.)

VPR; 5= 0.233 ( 57597.)

SUMMAPY OF CDPPECTED DATA TIME = 145 DATE = 1116 TEMPERATURE (DEGPEET R.) = 526.434 CORPECTED PPEISUoE (Pila) = 65.1016 YAPDP PPE55UPE (PSI A.4 = 0.2328 P-14

I

~ 200 1116 IUMMARY DC NEA:UDED DATA AT TEMD 1 = 526.740 ( 6711.:'

TEMo 2= 526.841 ( 6719.'

TEMP 3= 527.135 ( 6753.'

TEMo 4 = 527.531 ( 6791.s TEMP 5= 526.399 8 6723.>

TEMP 6= 527.109 ( 6740.'

TENo 7= 526.994 ( 6721.:.

TEMP 8= 526.979 ( 6729.>

TEMc 9= 527.479 ( 6772.*

TEMD 10 = 526.982 ( 6725.'

TEMo 11 = 526.910 ( 6734.)

TEMo 12 = 525.693 ( 6611.)

TEMP 1? = 525.360 ( 6569.)

TEMD 14 = 524.501 ( 64 5:1. :'

TEMD 15 = 525.993 ( 6621.)

TEMP 16 = 527.212 ( 6752.

TEMD 17 = 524.612 ( 6494.>

TEMD 19 = 525.669 ( 6601.:'

PRE: 1 = 65.322 ( 6 3335. >

VPPI 1= 0.251 ( 59335.)

VPPS 2= 0.234 ( 61003.>

VPPI 3= 0.244 ( 59355.)

VPRI 4= 0.200 ( 53655.)

VPRI 5= 0.225 ( 56693.)

SUMMADY OF CORRECTED DATA TIME = 200 DR1E r 1116 TEMPERATURE (DEGREES R.)

= 526.483 CDPRECTED PPESSURE (PSIA)

= 65.0933 VAPOR PRESSURE (PSIA)

= 0.2289 P-15

IUM940Y DC MEAIUPED DATA AT 215 ',116 TEND 1 = 526.740 ( 6711.>

TEMP 2= 526.831 ( 6719.)

TEMD 3= 527.045 ( 6744..'

TEMc 4= 527.431 ( 6791.1 TEMP 5= 526.904 ( 6724.>

TEMP 6= 527.149 ( 6744.>

TEMP 7= 526.864 ( 6719..'

TEMP 9= 527.079 ( 6739.>

TEND 9= 527.459 ( 6770.)

TEMP 10 = 527.062 ( 6743.)

TEMP 11 = 526.900 ( 6733.)

TEMP 12 = 525.749 ( 6616.)

TEMo 13 = 525.360 ( 6563.'

TEND 14 = 524.491 (. 6130.)

TEMo 15 = 525.933 ( 6625.>

TEMP 16 = 527.192 ( 6749..'

TEMP 17 = 524.622 ( 6495..)

TEMo 19 = 525.619 ( 6596.>

PPE 1 = 65.322 ( 63995.)

VPRI 1 = 0.243 ( 59970.)

VAPI 2= 0.247 ( 62559.)

VPP: 3= 0.243 ( 59311.>

VPRI 4= 0.206 ( 54393.)

VPPI 5= 0.226 ( 567C7.)

SUMMARY

DC CDPPECTED DATR TIME = 215 DATE = 1116 TEMPEPRTUPE (DEGPEES P.) = 526.491 CDhPECTED PRESSURE (PSIR> = 65.0903 VAPOR PRESSURE (PSIA) = 0.2319 P-16

SUMMRPY OF MEA 2VPED DATA AT 230 1116 TEMD 1 = 516.720 ( 6703.>

TEMP 2= 526.331 ( 6719..'

TEMP 3= 527.075 ( 6747.)

TEMo 4= 527.560 ( 6794..

TEMP 5= 56.919 ( 6725.>

TEND 6= 527.093 ( 6739.)

TEMP 7= 526.994 ( 6720.3 TEMP S= 527.033 ( 67ad.)

TEMP 9= 527.533 ( 6775.)

TEMP 10 = 527.022 ( 6739.>

TEMP 11 = 526.930 ( 6736.>

TEND 12 = 525.679 ( 6609.'

TEMP 13 = 525.400 < 6572.>

TEMo 14 = 524.511 ( 6432.)

TEMD 15 = 525.903 ( 6622.>

TEMP 16 = 527.262 ( 6757.3 TEMD 17 = 524.632 ( 6496.>

TEMD 19 = 525.659 ( 6600.)

PRES 1 = 65.322 ( 63395.)

VPPI 1 = 0.249 ( 59034..'

VPP5 2= 0.252 ( 63035.)

VPRI 3= 0.243 ( 59765.>

VPPS 4 = 0.205 ( 54269.)

VPRI 5= 0.224 (. 56513.)

SUMMAPY OF CORRECTED DATA TIME = 230 DATE = 1116 TEMPERATUPE (DEGPEES R.) = 526.502 COPPECTED PRES 5UPE (PIIA) = 65.0902 VAPOP PREISURE (PSIA) = 0.2320 P-17

IUMMARY De MEA:UPED DATA AT 245 1116 TEMP 1 = 526.750 (. 6712.)

TEMP 2= 526.941 ( 6719.;'

TEMP 3= 527.0B5 ( 6749.'

  • TEMD 4 = 527.590 ( 6796.3 TEMP 5= 526.929 ( 6726.>

TEMP 6= 527.113 ': 6741.3 TEMP 7= 526.974 ( 6719.)

TEMP 9= 527.069 ( 6737.>

TEMo 9= 527.529 ( 6777..'

TEMo 10 = 526.932 ( 6735.'

TEMo 11 = 526.940 ( 6737.>

TEMP 12 = 525.709 ( 6612.)

TEMP 13 = 525.390 ( 6571.)

TEMP 14 = 524.531 ( 64B4.'

TEMP 15 = 525.903 ( 6622.>

TEMP 16 = 527.262 ( 6757..'

TEMR 17 = 524.652 t. 6493.>

TEMP 19 = 525.649 ( 6599.)

PDE: 1 = 65.320 ( 6 3 3 B 3. >

VPP: 1 = 0.24B ( 59007.>

VPR: 2= 0.255 ( 63377.>

VPPI 3= 0.244 (. 59939.)

VPPI 4 = 0.202 ( 53999.>

VPPI 5= 0.220 ( 55909.>

IUMMAPY OF CDPRECTED DATA TIME = 245 DATE = 1116 TEMPERATURE (DEGREES P.) = 526.509 CDPPECTED PPE120PE (PT I A:' = 65.0995 VAPDP PRESIUPE (PSIA > = 0.2307 P-18

IUMMAPY OF MEA 3URED DATA AT 300 1116 TEMP 1 = 526.740 ( 6711.>

TEMP 2= 526.S31 < 6718.>

TEMP 3= 527.055 ( 6745..

TEMP 4 = 527.590 ( 6796.)

TEMP 5= 52e.929 ( 6726.'

TEMP 6= 527.033 ( 6739.>

TEMP 7= 526.924 ( 6724.*

TEMP 8= 527.039 / 6739.'

TEMP 9= 527.549 ( 6779.>

TEMP 10 = 526.992 ( 6736.3 TEMP 11 = 526.920 ( 6735.*

TEMP 12 e 525.749 ( 6616.>

TEMP 13 = 525.420 ( 6574.>

TEMP 14 = 524.551 ( 6496.>

TEMP 15 = 525.923 ( 6624.4 TE'io 16 = 527.272 ( 6753.'

TEMP 17 = 524.672 ( 6500.3 TEMP 19 = 525.639 ( 6603.3 PRE 2 1 = 65.319 ( 63382.)

VPPI 1 = 0.253 ( 59515.-

VPP I. 2= 0.241 < 61933.>

VPPI 3= 0.236 ( 58004.>

VPP 4 = 0.2 01 ( 53762.)

VPP1 5= 0.222 ( 56296.)

5UMMAFY OF CORPECTED DATA TIME = 300 DATE = 1116 TEMPERATUPE (DEGREES P.) = 526.519 CDPPECTED PRE 1?UPE (PIIA) = 65.0906 VAPDP PRE 13UPE (PIIA) = 0.2286 P-19

D F -

u aI f "O ly'D ,ly 1 l a u[

l JL a

iyq ,q a r.. ,- ge MEA:URED DAT4 RT 315 111s TC _ '"i -- 1 = ". . : . .' .: n. . .... ' I n. . -

T e rit 2= c. .  :. . .: :1 -

671:.*

T C '1 c-  :- = 527.05'. ' 6745..

~

T : 'I c-

. 4 = r..: '.. c. :: '.i e

e.. '. L .' . . '

T : 'q a e.

= e, .: s. . . .:: ,

. . . ~. : :. . .

T E'1: 6 = 527.12:' '

t. 7 4 2 . '

T E ri:- ~ = 516.5:34 <

6720.'

T _: r.1:  :: =

. ".. _: '. . n. _: :' .

T c '1:- ' - '..".0..' '

T E r1 10 = 526.:i4.; a 6731.-

T E ri'- 11 = 526.:'30 '. 6736.'

1EM - 12 = 525. 71 L i 6613.*

T '1:- 1 :. = 515.4?O e. 6575.-

T :. '1 L 14 = "14.551

. ' 64 F:6.

  • Tc'4.:

1 e. = c.: c..

.-. .  : 4 .- - .c. ". . : .. . '

4..'.*..... '

T : '*. :-

_. 1.= c.

.. S '.. _ " . . _ -

TEM:- 17 = 514. :. Bi '

6501.'

TCM: 15 = 525.is9 i 6601.'

c c.c. .- . 1 = g e.... :1s - , a., ....

. . c. c. . - 1 = n. . : 4 ,

e, , o. j n. . .

. f g. g -

g . . c. ',.'.

, g.b. =.* :* . . .

. . :. c -

. =

. n. . .:. 4 =. . . c, :: .. . a . .

./ a R : 4 = 0.1 01 -

53Ls9.'

e,

= n. . : . =.,.

, e,

. ,...  :: : e.,, .

30'1'13RY t DC CORPECTED DATA TIME = 315 DATE = 111t.

T C. '.1:. r c A T '.i; C ' DC';RC:-. P . .'

= ". J. A. . ".' n. A.

i. 0c R.C.i..T. C D : RC~ ~'.IC'c. .. . < C. . I A ' = ~..
4. ".' . f.i :' : *'

' P..}M'

'.. .' MD R. E D.C ... * ~6.IO C.

= n. . . .ti..

c, --

O P - 20

IUMMARY OF MERIURED DATA AT 330 1116 TEMP 1 = 526.720 < . 6709.>

TEMP 2= 526.961 < 6721.'

TEMo 3= 527.065 t 6746..

TEMP 4 = 527.570 ( 6795.)

TEMo 5= 526.909 ( 6724.)

TEMP 6= 527.1 ' :: ( 674u.)

TEMP 7= 526.914 t. 6723.)

TEMP 9= 527.079 ( 673 9. >

TEMP 9= 527.499 < 6773.)

TEMP 10 = 527.002 ( 6737.*

TEMP 11 = 526.920 ( 6735.)

TEMP 12 = 525.749 ( 6616.)

TEMP 13 = 525.420 ( 6574.*

TEMP 14 = 524.571 ( 649B.>

TEMP 15 = 325.933 ( 6625.3 TEMP 16 = 527.252 ( 6756.*

TEMP 17 = 524.691 ( 6501.>

TEMP 18 = 525.669 ( 6601.)

PPEI 1 = 65.317 < 63990.)

VPRI 1 = 0.249 ( 59060.)

VPPI 2= 0.241 ( 61779.)

VPPI 3= 0.243 ( 59919.)

VPPI 4 = 0.206 ( 54339.)

VPPI 5= 0.227 ( 56920.)

SUMMARY

OF CDRRECTED DATA TIME = 330 DATE = 1116 TEMPERATUPE (DEGPEES R.) = 526.516 CDPRECTED PREISURE (PSIA) = 65.0959 VAPDP PRESIURE (PSIA) = 0.2312 P-21

TUMMARY OC MEA ~UPED DATA RT 345 1116 TEMP 1 = 526.760 < 6713.3 TEMP 2= 526.841 ( 6719.)

TEMP 3= 527.045 ( 6744..'

TEMP 4= 527.700 ( 69 0 9. .e TEMP 5= 526.939 ( 6727.)

TEMP 6= 527.133 ( 6743.3 TEMP 7= 526.894 ( 6721...

TEMP S= 527.079 ( 6 7 3 3. .>

TEMP 9= 527.579 ( 6732.)

TEMP 10 = 527.032 ( 6740.'

TEMP 11 = 526.940 ( 6737.)

TEMP 12 = 525.769 ( 6619.>

TEMP 13 = 525.420 ( 6574.)

TEMP 14 = 524.571 t. 6495..

TEMP 15 = 525.933 ( 6625.3 TEMP 16 = 527.292 ( 6760.)

TEMP 17 = 524.692 ( 6502.3 T E .e- 19 = 525.719 ( 6606.)

PPEI 1 = 65.316 ( 63579.s VPPI 1 = 0.246 ( 59911.)

VPP; 2= 0.239 ( 61557.)

VPRI 3= 0.243 ( 59312.3 VPPI 4= 0.206 ( 54432.)

VPPI 5= 0.225 ( 56699.*

SUMMAPY OF CORRECTED DATA TIME = 345 DATE = 1116 TEMPEPA1UPE (DEGREES R.) = 526.540 COPPECTED PPEI1UPE (PSIA) = 65.0959 VAPOR PPESSUPE (PSIA) = 0.2302 P-22

O IUMM4&( OF MER:UEED DATA RT 400 1116 TEMP 1 = 516.760 ( 6713.1 TEMP 2= 526.941 c. 6719.>

TEMc 3= 527.075 < 6747.)

TEMD 4 = 527.541 < 6792.>

TEMP 5= 526.999 c. 6'23.>

TEMS 6= 527.12B < 6742.>

TEND 7= 526.374 ( 6719..'

TEMP 9= 527.079 ( 6733..'

TENE 9= 527.4BB ( 6773.>

TEMD 10 = 527.022 ( 6739.>

TEMo 11 = 526.940 ( 67 37. >

TEMP 12 = 525.778 ( 6619.)

TEMP 13 = 525.440 ( 6576.3 TEMP 14 = 524.591 ( 64B9.'

TEMP 15 = 525.953 ( 6627.'

TEMD 16 = 527.302 ( 6761.>

TEMR 17 = 524.702 ( 6503..'

TEMP 19 = 525.6?? ( 6604.)

FPEI 1 = 65.N15 ( 63979.>

VPP: 1 = 0.253 c. 59506.3 VPP: 2= 0.259 ( 6 375 0. :>

VPPI 3= 0.243 ( 53744.)

VPPI 4 = 0.205 ( 54291.>

VPPI 5= 0.226 ( 56796.)

SUMMAPY OF CORPECTED DATA TIME = 400 DATE = 1116 TEMPEPRTURE (DEGREES R.) = 526.526 COPPECTED PPETSUPE (PSIA) = 65.0809 VAPOR PPESTURE (PSIA) = 0.2342 P-23

SUMMARY

OF MEA ~URED DATA AT 415 1116 TEMc 1 = 526.760 ( 6713. .>

TEMD 2= 526.9 1 (. 6722.-

TEMD 3= 527.075 ( 6747.)

TEND 4 = 527.610 ( 6799.,

TEND 5= 526.939 ( 6727.)

TEMP 6= 527.119 ( 6741.s TEMo 7= 526.994 ( 6721.)

TEMP 8= 527.039 ( 6734.)

TEND 9= 527.599 ( 6783.'

TEMo 10 = 527.032 ( 6740.)

TEMD 11 = 526.940 ( 6737.)

TEMD 12 = 525.719 ( 6613.)

TEMP 13 = 525.420 ( 6574.)

TEND 14 = 524.591 ( 6490.)

TEND 15 = 525.963 ( 6629.)

TEMD 16 = 527.262 ( 6757.'

TEMR 17 = 524.702 ( 6503..'

TEMo 18 = 525.709 <. 6605.s PPEI 1 = 65.314 (. 63977.)

VPPI 1 = 0.249 ( 59103.s VPP. 2= 0.254 ( 63292.)

VPPI 3= 0.244 ( 59994.)

VPRI 4 = 0.209 ( 54633..)

VPRI 5= 0.223 ( 56463.>

SUMMARY

OF CDPRECTED DATA TIME = 415 DATE = 1116 TEMPERATURE (DEGREES R.) = 526.533 CDPPECTED PPE!!URE (PSIA) = 65.0810 VAPOR PRE 53UPE (PIIA) = 0.2331 P-24

IUMMARY DC MEAIUPED DATA AT 430 1116 TEMP 1 = 526.770 (. 6714.,

TEMP 2= 526.971 ( 6722.>

TEMP 3= 527.055 ( 6745.,

TEMP 4 = 527.620 ( 6900.)

TEMP 5= 526.939 ( 6727.>

TEMP 6= 527.149 ( 6744.>

TEMP 7= 526.914 ( 6723.->

TEMP 8= 527.069 t. 6737.)

TEMP 9= 527.529 ( 6777.)

TEMP 10 = 527.002

  • 6737.>

TEMP 11 = $26.940 ( 6737.)

TEMP 12 = 525.739 ( 6615.>

TEMP 13 = 525.450 ( 6577.)

TEMP 14 = 524.611 ( 6492.)

TEMP 15 = 525.973 ( 6629.>

TEMP 16 = 527.272 ( 675S./

TEMo 17 = 524.722 (. 65 05. .>

TEMP 18 = 525.729 ( 6607.)

PPEI 1 = 65.314 ( 63977.)

VPRI 1 = 0.247 ( 59934.)

VPPI 2= 0.253 ( 63152.>

VPP 3= 0.243 ( 59791.)

VPPI 4 = 0.203 ( 54092.)

VPPI 5= 0.227 ( 56972.>

IUMMAPY OF CDPRECTED DATA TIME = 430 DATE = 1116 TEMPEPATURE t. DEGREES P.) = 526.539 COPPECTED PPE55UPE (PSIA) .

= 65.0816 VAPDP PPETSURE (PSIA) = 0.2325 P-25

. - . . - - . - . . . - . - ~ - - . . . -

3UMM40Y OF MEAIUPED DATA AT 445 1116 TEMP 1 = 526.770 t 6714.i TEMP 2= 526.961 ( 6721.)

TEMP 3= 527.075 ( 6747.*

TEMP 4 = 527.600 a. 6799.>

TEMP 5= 526.919 ( 6725.)

TEMP 6= 527.129 ( 6742.)

TEMP 7= 526.904 ( 6722.)

TEMP S= 517.059 ( 6736.)

TEMP 9= 527.599 ( 6793.*

TEMP 10 = 527.012 ( 6739.'

TEMP 11 = 526.950 ( 6733.)

TEND 12 = 525.909 ( 6622.)

TEMP 13 = 525.460 ( 6579.4 TEMP 14 = 524.611 ( 6492.3 TEMP 15 = 525.903 ( 6622.3 TEMo 16 = 527.272 ( 6759.)

TEMP 17 = 524.722 ( 6505.)

TEMP 19 = 525.739 <~ 6609.>

PPET 1 = 65.312 *: 63375./

VPRI 1 = 0.251 ( 59304.3 VPPI 2= 0.247 t. 62461.>

VPRI 3= 0.242 i: 59676.)

VPPI 4 = 0.206 ( 54491.>

VPPI 5= 0.221 ( 56063.)

SUMMAPY OF CDPRECTED DATA TIME = 445 DATE = 1116

= 526.543 TEMPEPATUPE (DEGPEET R.)

COPPECTED PPE130PE (PSIA) = 6'.t . 0812 VAPDP PRESSUPE (PSIA) = 0.2309 P-26

IUMMARY De MEA UPED DATA AT 500 1116 TEND 1 = 526.760 < 6713.)

TEMa 2= 526.871 ' 6722.3 TEMP 3= 527.065 ( 6746.-

TEMP 4 = 527.620 '. 6 B 00. -

TEMP 5= 526.939 ( 6727.)

TEMP 6= 527.153 ( 6745.>

TEMP 7= 526.904 ( 6722.>

TEnc 9= 527.079 ( 6733.)

TEMP 9= 527.559 ( 6730.>

TEMP 10 = 526.932 '. 6736.>

TEMP 11 = 526.960 ( 6739.s TEMD 12 = 525.793 < 6620.>

TEMP 13 = 525.440 ( 6576..*

TEND 14 = 524.571 ( 6498.)

TEMP 15 = 525.903 ' 6622.*

TEMP 16 = 527.302 ' 6761.*

TEMP 17 = 524.702 ( 6503.*

TEMo 18 = 525.729 i 6607.s PPE3 1 = 65.30? ( 63372.3 VPP: 1 = 0.252 < 59410.>

VPR: 2= 0.250 '. 62373.>

VPP 3= 0.244 ( 53372.3 VPPI 4= 0.205 ( 54303.>

VPP:. 5= 0.225 ( 56729.>

SUMMADY OF CORPECTED DATA TIME = 500 DATE = 1116 TEMPERATUPE (DEGREES R.> = 526.540 CORRECTED PRESIURE (PSIA) = 65.0761 VAPDP PPES5UPE (PSIA > = 0.2329 P-27

7UMMARY OF NEAIUPED DATA AT 515 1116 TEMP 1 = 526.760 < 6713.)

TEMP 2= 526.861 ( 6721...

TEMP 3= 527.055 ( 6745.)

TEMP 4= 527.620 ( 6800.)

TEMP 5= 526.919 < 6725.>

TEMP 6= 527.159 ( 6745.)

TEMP 7= 526.884 < 6720.3 TEMP 8= 527.089 ( 673.4.)

TEMP 9= 527.569 ( 6791.)

TEMP 10 = 527.062 ( 6743.)

TEMP 11 = 526.940 < 6737.>

TEMP 12 = 525.793 (' 6621.>

TEMP 13 = 325.430 ( 6575.)

TEMP 14 = 524.561 ( 64B7...

TEMP 15 = 525.933 ( 6630.)

TEMP 16 = 527.242 < 6755.)

TEMP 17 = 524.692 ( 6501.)

TEMP 18 = 525.749 ( 66 0.L . )

PPEI 1 = 65.307 ( 63370.>

VPPI 1 = 0.249 '. 59100.)

VPPI 2= 0.247 ( 62469.)

VPPI 3= 0.244 ( 58349.)

VPP 4 = 0.206 ( 54421.>

VPP3 5= 0.223 ( 56412.)

SUMMARY

OF CDPPECTED DATA TIME = 515 DATE = 1116 TEMPEPATUPE (DEGPEES R.) = 526.541 CDPPECTED PPESIUPE (PIIA) = 65.0756 VAPDR PRESSUPE (PSIAN = 0.2314 P-28

IUMMAPr DF MEAIUPED DATA AT 530 1116 TEMD 1 = 526.750 ( 6712.>

TEMP 2= 526.851 ( 6720.>

TEMD 3= 527.055 i 6745..

TEMP 4 = 527.640 ( 69 02. >

TEMP 5= 526.999 ( 6723.>

TEMP 6= 527.119 ( 6741.)

TEMP 7= 526.974 ( 6719.>

TEMD 9= 527.039 ( 6734.)

TEMP 9= 527.509 ( 6775.)

TEMP 10 = 527.022 ( 6739..'

TEMP 11 = 526.930 (. 6736.)

TEMD 12 = 525.769 ( 6619.)

TEMP 13 = 525.430 ( 6575..'

TEMP 14 = 524.531 ( 6434.'

TEMD 15 = 515.963 i 6623.5 TEMP 16 = 527.222 < 6753..

TEMD 17 = 524.662 (. 6439.)

TEMP 19 = 525.653 ( 6600.)

PPE; 1 = 65.305 ( 63S69.)

VPPI 1 = 0.253 ( 59513.)

VPRI 2= 0.251 (' 62927.)

VPPI 3= 0.245 ( 59933.>

VP R I. 4 = 0.206 ( 54404.>

VPP3 5= 0.219 ( 55934.)

SUMMARY

OF COPPECTED DATA TIME = 530 DATE = 1116 TEMPERATUPE (DEGREES P.) = 526.517 CORRECTED PRESIURE (PSIR) = 65.0732 VAPOR PRESSUPE (PSIR) = 0.2317 P-29

30MMAPY OF MEAIURED DATA AT 545 1116 TEMP 1 = 526.760 ( 6713.>

TEMP 2= 526.S41 ( 6719.>

TEMP 3= 527.075 ( 6747.)

TEMP 4= 527.740 ( 6912.>

TEMP 5= 526.999 ( 6723.s TEMP 6= 527.10B ( 6710.)

TEMP 7= 526.864 ( 6718.)

TEMP S= 527.069 ( 6737.)

TEMP 9= 527.559 ( 6790.)

TEMP 10 = 527.002 ( 6737.)

TEMP 11 = 526.930 (. 6736.>

TEMP 12 = 525.749 ( 6616.)

TEMP 13 = 525.420 ( 6574.)

TEMP 14 = 524.531 ( 6434.3 TEMP 15 = 525.923 ( 6624.>

TEMP 16 = 527.222 ( 6753.4 TEMP 17 = 524.652 ( 6495.)

TEMP 18 = 525.679 ( 6601.s PREI 1 = 65.303 ( 63966.3 VPRI 1= 0.254 ( 59617.)

VPPI 2= 0.247 ( 62453.)

VPRI 3= 0.241 ( 59596.>

VPPI 4= 0.204 ( 54136.3 VPP3 5= 0.217 ( 55604..)

SUMMARY

OF CDPPECTED DATA TIME = 545 DATE = 1116 TEMPEPATUPE (DEGREET R.) = 526.523 CDPPECTED PPESEURE <PTIAs = 65.0734 YAPDP PPE21UPE (PSIA) = 0.2295 P-30

4 k ' ,

h a .

I

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4 y

APPENDIX Q Failed Test Report I INTRODUCTION Section V.B.3 of 10CFR50, Appendix J, requires a summary report of Type A, B and C test leakage results that failed to meet the test acceptance criteria. This report is to include an analysis and in-terpretation of the failed test data, a least squares fit analysis, an instrumentation error analysis, and a summary of the structural condition of the containment or components that contributed to the leak, if any.

II TYPE A TEST The initial Type A test failed because of excessive leakage through the containment recirculation sump isolation valve, 2 MOV-4145, the temporary level indicators on the steam generators, and t.he packing glands of the mainsteam line inboard vent valves. A problem with the limit switch settings on 2 MOV-4145 prevented full closure. Resetting the switches and closing the valve electrically corrected that source of leakage. The temporary level indicators were isolated and the main steam line inboard vent valves backseated to eliminate leakage out of the containment. Following these actions, a successful ILRT was completed.

After reaching test pressure of 50 psig, 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> of data was taken (4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> for stabilization and 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> for "f ailed test").

This data yielded a mass point calculated leak rate of 4.255% per day and a corresponding 95% upper confidence limit value of 4.299% per day. The total-time calculated leak rate was 4.269%

per day with a 95% upper confidence limitof 4.395% per day. All these values exceed the allowable rate of 0.150% per day.

The integrated leakage rate measuring system error analysis is based on the Instrument Selection Guide (ISG) formula given in ANSI N274, Draft No. 2, Revision 3, " Containment System Leakage Testing Requirements." The ANSI Standard gives the following formula:

ISG = + [2(-f) +(-f) + 2( T )]

Where: Test Duration = 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> Containment Total Pressure = 65.3 psia Containment Temperature = 526.4 R Containment Vapor Pressure = 0.228 psia T1001877 Q-1

The error associated with the instrumentation system (ISG1 is

+0.032% per day. ANSI N274 requires that the ISG shall not exceed 25% of La, the allowable leakage rate, i.e. (.25)(.200) = .050% per day. Since the ISG, .032, is less than 0.050, the integrated leakage rate measurement system is shown to be satisfactory for the ILRT.

As stated in ANSI N274, the ISG formula is not based on a statis-tical analysis of the actual leakage rate data and is not added to the calculated leak rate value. The ISG is used only for instrument selection and loss of sensor criteria.

Component conditions contributing to the leak rate were faulty limit switch settings on the containment recirculation sump isolation valve (2MOV-4145) and packing failure in the main steam lines vent valves.

III. TYPE C TEST During Calvert Cliffs Unit 2 first refueling outage starting September 15, 1978, valve 2-SI-463 was found leaking in excess of 80,000 scem. This is one of two manual isolation valves on the 2 inch drain header from safety injection tanks to the refueling water tack. The valve was removed f rom safety related service and replaced with a new valve. The penetration was leak tested by pressurizing the header between the two manual isolation valves that are required to be locked closed for containment integrity.

After replacement of the valve the penetration was round to have a satisfactory leak rate of 6.90 secm.

T1001877 Q-2

FAILED TEST DATA CALVERT CLIFFS STABILIZATION LEArAGE PATE (WEIGHT PEPCENT' DAY)

MA33-RDINT ANALYSIS TIME AND DATE AT START Dr TEST: 1230 1110 ELAPiED TIME: 16.50 HOUR 5 TIME TEMP PRE 55UPE CTNT. AIP MAIS LDIS TOT. AVG. MA55 (P. (PS I A'. NAIS (L B M :' (LBM) LD55 (LBMeHR) 1230 531.914 65.4845 664595 1245 532.573 65.5107 664035 559.8 2239.3 1300 532.094 65.4446 663975 60.4 1240.4 1315 531.961 65.4155 663333 141.9 1016.0 1330 531.907 65.3790 663530 303.0 1065.0 1945 531.916 65.3525 663250 290.2 1076.1 1400 531.895 65.3079 662936 414.0 1172.9 1415 531.867 65.2697 662460 375.4 1219.8 1430 531.829 65.2305 662 20 340.4 1237.5 1445 531.781 65.1932 661801 318.9 1241.7 1500 531.750 65.1594 661497 304.6 1233.4 1515 531.717 65.1188 661126 371.1 1261.7 1530 531.697 65.0955 660325 300.8 1256 8 1545 531.653 65.0490 660496 328.4 1261.2 1600 531.630 65.0191 660211 285.2 1252.6 1615 531.600 64.9830 659992 319.2 1254.2 1630 531.593 64.9557 659636 256.1 1239.9 1645 531.556 64.9224 659331 304.7 1239.6 1700 531.540 64.8901 659023 308.2 1233.3 1715 531.543 64.8629 65S743 280.0 1232.0 1730 531.528 64.8324 658452 291.2 1228.7 1745 531.492 64.7991 658148 303.8 1228.0 1800 531.489 64.7689 657855 292.9 1225.4 1815 531.482 64.7348 657518 337.7 1230.9 1930 531.475 64.7089 657263 254.4 1222.0 1945 531.457 64.6739 656929 334.3 1226.6 -

1900 531.449 64.6441 656637 291.8 1224.3 1915 531.414 64.6104 656338 299.1 1223.3 1930 531.391 64.5749 656006 332.2 1227.1 1945 531.373 64.5544 655820 186.0 1210.4 2000 531.377 64.5182 655447 372.7 1219.8 2015 531.349 64.4721 655013 433.8 1236.4 2030 531.323 64.4572 654894 119.3 1212.7 2045 531.306 64.4236 654573 320.4 1214.8 2100 531.290 64.3939 654291 282.1 1212.2 2115 531.293 64.3628 653972 319.7 1214.1 2130 531.297 64.3418 653753 218.3 1204.6 2145 531.301 64.3139 653465 288.4 1203.3 2200 531.273 64.2879 . 653235 229.7 1195.8 Q-3

64.2553 652927 307.9 1196.7 2215 531.254 1199.4 531.227 64.2299 652701 225.9 2230 1180.2 2245 531.228 64.209' 652499 203.5 64.19 652216 281.7 1178.9 2300 531.224 1172.1 2315 531.206 64.1579 651995 220.9 64.1379 651818 177.7 1161.6 2330 531.186 1153.0 2345 531.157 64.1153 651624 194.1 64.0307 651295 328.4 1156.5 0 531.139 1144.2 15 531.141 64.0669 651150 144.9 64.0373 650873 277.8 1143.5 30 531.123 1141.1 45 531.114 64.0110 650616 256.3 63.9891 650379 237.3 1137.3 100 531.126 49.2 1119.8 115 531.123 63.9339 650330 63.9719 650187 142.8 1103.3 130 531.140 1103.9 145 531.106 63.9463 649969 218.6 531.104 63.9264 649769 199.9 1099.3 200 1086.4 215 531.093 63.9141 649657 111.6 531.099 63.9105 649614 42.7 1070.1 230 1053.7 2 4 *, 531,105 63.9030 649530 34.0 531.099 63.9063 643593 -2. 3 1035.3 300 1018.S 315 531.094 63.9054 649567 15.3 531.067 63.8795 649337 230.2 1017.2 330 1013.8 345 531.061 63.8598 649134 E03.1 63.8407 648976 158.3 1007.7 400 531.040 1013.9 415 531.031 63.8052 648626 349.9 531.022 63.7906 649489 137.4 1006.7 430 999.1 445 530.930 63.7685 649376 112.3 648130 246.3 997.9 500 530.936 63.7510

= 2.000 FREE AIP VOLUME USED (MILLIONS OF CU. FT.)

REGRESSION LINE INTERCEPT (LBM)

= 663704 SLDPE (LBM HP')

= 1023.8'

= 0.200 MAXIMUM ALLOWABLE LEAKAGE RATE = 0.150 75 */. OF MAXIMUM ALLOWABLE LEAK AGE RATE = 3.801 THE UPPEP 95*. CONFIDENCE LIMIT = 3.702 THE CALCULPTED LEAKAGE RATE Q-4

CALVERT CLIFFS STABILIZATION LEAKAGE RATE (WEIGHT PERCENTeDAY)

TOTAL-TIME ANALYSIS TIME AND DATE AT START OF TEST: 1230 1110 ELAPSED TIME: 16.50 HOUC5 TIME TEMP. PRE 55UPE MEATURED (P) (PSIA) LEAKAGE PATE 1230 531.914 65.4849 1245 532.573 65.5107 8.097 1300 532.084 65.4446 4.479 1315 531.961 65.4155 3.669 1330 531.907 65.3790 3.846 1945 531.916 65.3525 3.886 1400 531.885 65.3079 4.235 1415 531.867 65.2687 4.405 1430 531.829 65.2305 4.469 1445 531.781 65.1932 4.484 1500 531.750 65.1594 4.476 1515 531.717 65.1188 4.556 1530 531.687 65.0855 4.539 1545 531.653 65.0490 4.554 1600 531.630 65.0181 4.523 1615 531.600 64.9830 4.529 1630 531.593 64.9557 4.477 1645 531.556 64.9224 4.473 1700 531.540 64.8901 4.472 1715 531.543 64.8629 4.449 1730 531.528 64.8324 4.437 1745 531.492 64.7981 4.435 1800 531.489 64.7689 4.425 1815 531.482 64.7348 4.445 1830 531.475 64.7089 4.413 1845 531.457 64.6738 4.430 1900 531.449 64.6441 4.421 ,

1915 531.414 64.6104 4.418 1930 531.391 64.5749 4.431 1945 531.373 64.5544 4.371 2000 531.377 64.5182 4.405 2915 531.349 64.4721 4.465 2030 531.323 64.4572 4.379 2045 531.306 64.4236 4.387 2100 531.290 64.3939 4.378 2115 531.293 64.3628 4.384 2130 531.297 64.3418 4.350 2145 531.301 64.3139 4.345 2200 531.273 64.2879 4.318 Q-5

2215 531.254 64.2553 4.322 2230 531.227 64.229S 4.295 2245 531.228 64.2099 4.262 2300 531.224 64.1917 4.257 2315 531.206 64.1578 4.233 2330 531.186 64.13?9 4.195 2345 531.157 64.1153 4.164 0 531.133 64.0907 4.176 15 531.141 64.0669 4.132 30 531.123 64.0373 4.130 45 531.114 64.0110 4.121 100 531.126 63.9991 4.107 115 531.123 63.9939 4.040 130 531.140 63.9719 4.002 145 531.106 63.9463 3.936 200 531.104 63.9264 3.966 215 531.033 63.9141 3.923 230 531.039 63.9105 3.864 245 531.105 63.9090 3.905 300 531.089 63.9063 3.739 315 531.094 63.9054 3.679 330 531.067 63.8795 3.673 345 531.061 63.8593 3.661 400 531.040 63.8407 3.639 415 531.031 63.8052 3.661 430 531.022 63.7906 3.635 445 530.930 63.7685 3.604 500 530.986 63.7510 3.604 MEAN OF MEASUPED LEA > AGE RATES = 4.259 MAXIMUM ALLOUABLE LERFAGE RATE = 0.20O 75 */. OF MAXIMUM ALLOidABLE LEAK AGE RATE = 0.150 THE UPPER 95*. CONFIDENCE LIMIT = 4.726 THE CALCULATED LEAKAGE RATE = 3.743 Q-6

CALVEPT CLIFFS STREILIZATION TPEND PEPOPT LEAkA6E PATES OJEIGHT PERC ENT 'D AY)

ELAPSED TIME: 16.50 HOUP5 ND. DATA ELAPSED TOTAL-TIME ANALYSIS MAII-PDINT ANALYSIS POINTS TIME MEAN CALCULATED CALCULATED 95*. UCL 10 2.25 4.618 3.779 4.324 4.724 11 2.50 4.604 3.883 4.390 4.720 12 2.75 4.599 3.999 4.466 4.749 13 3.00 4.594 4.064 4.507 4.747 14 3.25 4.591 4.129 4.540 4.747 15 3.50 4.586 4.173 4.551 4.729 16 3.75 4.593 4.211 4.559 4.715 17 4.00 4.576 4.230 4.548 4.685 18 4.25 4.570 4.247 4.533 4.660 19 4.50 4.564 4.261 4.529 4.638 20 4.75 4.559 4.269 4.516 4.614 21 5.00 4.552 4.274 4.502 4.592 22 5.25 4.547 4.278 4.490 4.573 23 5.50 4.541 4.281 4.479 4.555 24 5.75 4.537 4.287 4.474 4.543 25 6.00 4.532 4.287 4.462 4.527 26 6.25 4.528 4.291 4.457 4.517 27 6.50 4.524 4.293 4.450 4.506 28 6.75 4.520 4.294 4.444 4.496 29 7.00 4.517 4.299 4.441 4.490 30 7.25 4.512 4.293 4.428 4.475 31 7.50 4.509 4.294 4.423 4.467 32 7.75 4.507 4.302 4.429 4.471 33 8.00 4.503 4.299 4.420 4.460 34 8.25 4.499 4.299 4.413 4.452 35 8.50 4.496 4.296 4.406 4.443 36 8.75 4.492 4.295 4.401 4.436 37 9.00 4.488 4.290 4.391 4.426 39 9.25 4.485 4.286 4.392 4.416 39 9.50 4.480 4.279 4.370 4.405 -

40 9.75 4.476 4.273 4.361 4.394 41 10.00 4.472 4.266 4.348 4.393 42 10.25 4.466 4.256 4.333 4.369 43 10.50 4.461 4.247 4.319 4.356 44 10.75 4.456 4.236 4.303 4.342 45 11.00 4.450 4.223 4.285 4.326 46 11.25 4.444 4.209 4.264 4.309 47 11.50 4.438 4.195 4.248 4.293 49 11.75 4.432 4.180 4.228 4.275 49 12.00 4.425 4.166 4.209 4.259 50 12.25 4.419 4.152 4.192 4 242 Q-7

51 12.50 4.413 4.139 4.175 4.226 52 12.75 4.405 4.121 4.152 4.206 53 13.00 4.398 4.101 4.128 4.184 54 13.25 4.390 4.032 4.104 4.163 55 13.50 4.392 4.063 4.030 4.142 56 13.75 4.374 4.042 4.054 4.119 57 14.00 4.365 4.018 4.025 4.093 53 14.25 4.355 3.992 3.992 4.066 59 14.50 4.344 3.963 3.956 4.035 60 14.75 4.333 3.931 3.917 4.003 61 15.00 4.322 3.902 3.881 3.971 62 15.25 4.311 3.873 3.847 3.940 63 15.50 4.300 3.844 3.814 3.910 64 15.75 4.290 3.819 3.786 3.982 65 16.00 4.280 3.794 3.757 3.255 66 16.25 4.270 3.768 3.729 3.827 67 16.50 4.259 3.743 3.702 3.801 Q- 8

CALVERT CLIFFS STABILIZATIDM LEAKAGE RATE (WEIGHT PERCENT / DAY)

MASS-PDINT ANALYSIS TIME AND DATE AT START OF TEST: 2215 1112 ELAPSED TIME: 11.50 HOURS TIME TEMP PRESSUPE CTMT. AIR MASS LDSS TDT. AVG. MA55 (R) (PSIA) MASS (LBM) (LBM) LDSS (LBM HR) 2215 529.748 65.4995 667452 2230 529.499 65.4590 667376 76.2 304.9 2245 529.317 65.4304 667301 T4.8 302.1 2300 529.161 65.3929 667114 186.9 450.5 2315 529.051 65.3811 667103 -19.3 318.6 2330 528.969 65.3688 667111 22.1 272.5 2345 529.916 65.3649 667138 -27.0 209.1 0 529.866 65.3461 667010 128.8 252.8 15 528.802 65.3406 667034 -24.6 209.9 30 528.763 65.3305 666930 53.9 209.7 45 529.733 65.3231 666943 37.7 203.8 100 528.697 65.3199 666954 -11.7 181.0 115 528.655 65.3110 666917 36.9 178.2 130 528.d26 65.3067 666910 7.3 166.8 145 529.607 65.2945 666809 100.6 183.6 200 528.596 65.2938 666816 -6.7 169.6 230 528.578 65.2910 666810 5.9 151.0 245 528.537 65.2845 666796 14.7 145.9 300 528.494 65.2762 666765 30.5 144.6 315 528.437 65.2648 666721 44.5 146.3 330 528.395 65.2579 666703 17.5 142.7 345 528.358 65.2560 666730 -27.3 131.2 400 528.326 65.2511 666721 9.7 127.2 -

415 528.314 65.2399 666621 99.3 133.5 430 528.308 65.2480 666712 -90.4 118.5 445 528.299 65.2381 666623 88.5 127.5 500 528.281 65.2415 666679 -56.2 114.5 515 528.261 65.2297 666584 95.3 124.0 530 528.259 65.2250 666539 45.5 126.0 545 528.238 65.2215 666529 9.3 123.0 600 528.225 65.2175 666505 24.5 122.2 615 528.211 65.2172 6(6519 -14.6 116.6 630 528.179 65.2135 666522 -2.6 112.7 645 528.160 65.2095 666506 15.9 111.3 700 528.149 65.2083 666507 - 0. 6 108.1 Q- 9

528.134 65.2047 666499 17.9 107.0 715 730 528.099 65.2016 666514 -25.1 1 01.4 745 52S.031 65.1991 666489 25.7 1 01. 5 800 ~528.066 65.1926 666451 37.3 102.7 S15 528.056 65.1909 666446 4.8 100.6 930 528.043 65.1876 666429 17.3 99.8 845 528.050 65.1900 666445 -15.7 96.0 900 528.041 65.1825 666379 65.3 99.8 915 523.046 65.1909 666459 -78.5 90.4 930 528.049 65.1843 666398 70.2 94.6 945 529.051 65.1950 666392 -4.6 92.2 FREE AIR VOLUME USED (MILLIONS OF CU. FT.) = 2.000 REGRESSION LINE INTERCEPT (LBM- = 667194 SLOPE (L BM 'HP = -78.6 MAXIMUM ALLOhiABLE LEAK AGE PATE = 0.200 75 *4 OF MAXIMUM ALLOI.lABLE LERk AGE RATE = 0.150 THE UPPER 959 CONCIDENCE LIMIT = 0.303 THE CALCULATED LEAKAGE RATE = 0.233 Q-10 .

CALVEPT CLIFFS STABILIZATION LEANAGE RATE (WEIGHT PERCENT / DAY)

TOTAL-TIME ANALYSIS TIME AND DATE AT STAPT OF TECT: 2215 1112 ELAPSED TIME: 11.50 HOUPS TIME TEMP. PRESSUPE MEASUPED (P) (PSIA) LEAKAGE RATE 2215 529.7<9 65.4985 2230 529.489 65.4590 1.096 2245 529.317 65.4304 1.086 2300 529.161 65.3928 1.620 2315 529.051 65.3911 1.146 2330 528.969 65.3689 0.980 2345 528.916 65.3649 0.752 0 528.866 65.3461 0.909 15 528.802 65.3406 0.751 30 528.763 65.3305 0.754 45 528.733 65.5231 0.733 100 528.697 65.3198 0.651 115 528.655 65.3110 0.641 130 528.626 65.3067 0.600 145 528.607 65.2945 0.660 200 528.596 65.2938 0.610 230 528.578 65.2910 0.543 245 528.537 65.2845 0.525 300 528.494 65.2762 0.520 315 529.437 65.2648 0.526 330 528.395 65.2579 0.513 345 528.359 65.2560 0.472 400 528.326 65.2511 0.457 415 528.314 65.2399 0.499 430 528.308 65.2480 0.426 -

445 528.298 65.2391 0.459 500 528.281 65.2415 0.412 515 528.261 65.2297 0.446 530 528.259 65.2250 0.453 545 528.239 65.2215 0.442 600 528.225 65.2175 0.440 615 528.211 65.2172 0.419 630 528.179 65.2135 0.405 645 528.160 65.2096 0.400 700 528.149 65.2083 0.389 Q-il

715 529.134 65.2047 0.335 730 523.099 65.2016 0.365 745 529.091 65.1991 0.365 800 529.066 65.1926 0.369 815 528.056 65.1909 0.362 830 529.043 65.1976 0.359 845 528.050 65.1900 0.345 900 529.041 65.1825 O.359 915 528.046 65.1909 0.325 930 528.049 65.1843 0.340 945 529.051 65.1950 0.331 MEAN OF MEASUPED LEAFAGE PATES

= 0.570 MAXIMUM ALL0biABLE LERFAGE PATE

= 0.200 75 *. OF MAXIMUM ALLOhlAFLE LEAKAGE PATE

= 0.150 THE UPPEP 95*. CONFIDENCE LIMIT = 0.507 THE CALCULATED LEAFA9E PATE = 0.196 Q-12

CALVERT CLIFFS STABIL12RTION TREND REPDPT LEAvAGE PATES UiEIGHT l PEPCENT/ DAY)

ELAPSED TIME: 11.50 HOURS NO. DATA ELAPSED TOTAL-TIME ANALYSIC MAI5-POINT ANALYII:

POINTS TIME MEAN CALCULATED CALCULATED 95*. UCL 10 2.25 1.011 0.731 0. 701 0.887 11 2.50 0.993 0.686 0.671 0.824 12 2.75 O.953 0.630 0.622 0.759 13 3.00 0.927 0.598 0.599 0.703 14 3.25 0.901 0.546 0.554 0.662 15 3.50 0.894 0.532 0.554 0.647 16 3.75 O.866 0.509 0.540 0.621 17 4.25 0.846 0.443 0.503 0.584 18 4.50 0.827 0.426 0.492 0.553 19 4.75 0.810 0.411 0.464 0.529 20 5.00 0.795 O.401 0.454 0.512 21 5.25 0.781 0.390 0.444 0.497 22 5.50 0.766 0.373 0.427 0.478 23 5.75 O.752 0.357 0.411 0.460 24' 6.00 0.741 0.351 0.409 0.454 25 6.25 O.728 0.334 0.392 0.437 26 6.50 0.717 0.325 O.336 0.428 27 6.75 0.705 0.311 0.373 0.413 28 7.00 0.696 0.303 0.369 0.407 29 7.25 O.687 0.298 0.367 0.403 30 7.50 0.679 0.292 0.365 0.399 31 7.75 0.671 0.287 0.362 0.393 32 8.00 0.663 0.281 0.358 0.387 33 8.25 0.655 0.274 0.352 0.390 34 8.50 0.647 0.267 0.346 0.373 35 8.75 0.639 0.260 0.340 0.366 36 9.00 0.632 0.253 0.334 0.360 37 9.25 0.625 0.245 0.326 0.352 38 9.50 0.617 0.238 0.320 0.345 .

39 9.75 0.611 0.233 0.315 0.339 40 10.00 0.605 0.227 0.310 0.334 41 10.25 0.598 0.222 0.306 0.329 42 10.50 0.592 0.216 0.300 0.323 43 10.75 O.587 0.212 0.298 0.319 44 11.00 0.581 0.205 0.291 0.312 45 11.25 0.575 0.201 0.237 0.30S 46 11.50 0.570 0.196 0.283 0.303 Q-13

<- g Ji s

k 4

i 9

APPENDIX R BECHTEL ILRT COMPUTER PROGRAM A. Program and Report Description

1. The Bechtel ILRT computer program is used to determine the integrated leakage rate of a nuclear primary containment structure. The program is used to compute leakage rate based on input values of time, and containment atmosphere total pressure, drybulb temperature and dewpoint temperature (water vapor pressure). Leakage 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 values may be obtained at any time during the testing period using one of two computational methods, yielding three different 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 computed from initial values of free air volume, containment atmosphere drybulb temperature and partial pressure of dry air, the latest values of the same parameters and elapsed time. These individually computed leakage rates are statistically averaged using linear regression by the method of least squares. The Total-Time Method is the computational technique upon which the short duration test criteria of BN-TOP-1, Revision 1, " Testing Criteria for Integrated Leakage Rate Testing of Primary Containment Structures for 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 presented as a function of number of data points and elapsed time (test duration).

The Trend Report provides all leakage rate values required for comparison to the acceptance criteria of BN-TOP-1 for conduct of a short duration test.

T1001719-M R-1

4. The third printout is the Mass-Point Report and is based on the Mass-Point Analysis Technique described in ANSI N274, Draft No. 2, Revision 1 - April, 1978,

" Containment System Leakage Testing Requirements."

The mass of dry air in the containment is computed at each data point (time) using the Equation of State, from current values of containment atmos-phere drybulb temperature and partial pressure of dry air. Contained mass is " plotted" versus time and a regression line is fit to the data using the method of least squares. Leakage rate is determined from the statistically derived slope and intercept of the regression line.

5. The program is written in a high level language and is designed for use on an interactive time-shared computer system via a remote data terminal. Brief descriptions of program use, formulae used for leakage rate computations and program logic are provided in the following paragraphs.

B. Explanation of Program

1. The Bechtel ILRT computer program is written, for use by experienced 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.
d. If the test is a verification test:

T1001719-M R-2

(1) Imposed leakage rate.

(2) Leakage rates determined using the two computational methods described in Para-graph 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 is entered, a Sum-mary of Measured Data report (refer to " Program Logic", Paragraph D, " Data" option command.) is printed-out on the data terminal. After a final verification of the entered data, the time, date, containment atmosphere 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 the test, the data from the sensor (s) is not used. The volume fractions for the remaining sensors are recomputed and reloaded into the program for use in ensuing leakage rate computations.

C. Leakage Rate Formulae

1. Computation using the Total-Time Method:
a. Measured leakage rate, from data:

PV y = W y RT y (1)

PV g = W g RT g (2)

~

IW 1 1)

L i= 24)

(gt (100) (3) w 1

Solving for W 3 and W (1) and (2) into (3)g yields:and substituting equations TP Li = 2400 T.Py g) (

At. (1 1 1 1 T1001719-M R-3

where:

W y ,W.1 = Weight of contained mass of dry air at times t y and t i respectively, lbm.

T ,T 1 g = containment ture at times atmosphere drybulb tempera-t y and tg respectively,

  • R.

Py,P Partial pressure of the dry air com-g = ponent of the containment atmosphere at times ty and t g respectively, PSIA.

V = Containment free air volume (assumeg to be constant during the test), ft .

th data points t y,tg = Real time at 1st and i respectively, hours and minutes.

Ati = Elapsed time from ty to t , hours.

f R = Specific gas constant for air =

53.35 Ft-lbf.

lbm. R L.

1

= Measured leakage rate computed during time interval ty to t i, %/ day.

b. Calculated leakage rate from regression analysis:

E = a + bkN (5) where:

E = Calculated leakage rate, %/ day, as determined from the regression line.

2 (ILg )(Ikg ) - (Ik g )(IL ig k )

a= (6)

N (Ikg2 ) - (Ik g)2 N(IL ii k ) - (IL f)(Ik i) b= (7)

N(Ik g) - (Ik g) kg = Elapsed time at time of i data point.

N = Number of data points.

N I=I i=1 T1001719-M R-4

c. Calculated leakage rate at the 95% confidence level (including error associated with the test).

Total-Time Method per BN-TOP-1.

E95 * * * *S E (8) where:

E95 = Calculated leakage rate at the 95% con-fidence level, %/ day, at elapsed time k.

For kN< 24 I(Li -f i)2 y,y. ( _p)2 D 0.025;N-2 E N-2 N 1(k i-E)2 where, t o.025;N-2 1.96 + 32 237 + { 7 2I For kN> 24 I(L i-Ei) y ( d) 8E=to.025;N-2 N-2 N S(ki-E) where, t o*025;N-2

  • 1.64(N-2)2+3.53(N-2)+0.86 I (N-2)2+1.22(N-2)-1.52 E.1 = calculated leakage rate computed using equa-tion (5) at total elapsed time k , g %/ day.

Ik i k =

N

2. Computation using the Mass-Point Method
a. Contained mass of dry air from data:

W=144h (10) where:

All symbols as previously defined.

T1001719-M R-5

b. Calculated leakage rate from regression analysis:

E=2400h (11) where:

E = Calculated leakage rate, %/ day, as determined from the regression line.

IW g -bIk g

"* N (12)

II(Wi -IWg A) {k g-Ik Ag )]

b=

I(k g - Ik gA ) (13) k.1 = Total elapsed time at time of iS data point, hours.

N = Number of data points.

Wg = Contained mass of dry air at i b d ata point lbm, as computed from equation (10).

N I=I i=1

c. Calculated leakage rate at the 95% confidence level.

4 E

95 a (b + s b) (14) where:

E = Calculated leakage rate at the 95%

95 confidence level, %/ day.

I(Wg-Wg )2 Sb=to.025;N,. -2 I(k g-k)2 where, t o*025;N-2

  • 1.64(N-2)2+3.53(N-2)2+0.86 (N-2)2+1.22(N-2)-1.52 T1001719-M R-6

Wi=Containeghmass of dry air, lbm, computed at the i-- data point from the regression equation E = a + bk. (16)

All other symbols as previously defined.

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 asso-ciated function is presented below:

OPTION COMMAND FUNCTION DATA Enables operator to enter raw data.

When the system requests values of time, volume, temperature, pressure and vapor pressure, the user enters the appropriate data. After com-pleting the data entry, a summary is printed out. The user then veri-fies that the data was entered cor-rectly. If errors are detected, the user will then be given the opportunity to correct the errors.

After the user verifies that the data was entered correctly, a Cor-rected Data Summary Report of time, date, average temperature, 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.

MASS Terminal will print out a Mass Point Report.

TERM Enables operator to sign-off tempo-rarfll or permanently.

SAVE Enables operator to store the Data Summary on a file.

T1001719-M R-7

OPTION '

COMMAND FUNCTION 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.

T1001719-M R-8

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J BECHTEL CONTAINf/iENT INTEGRATED LE AKAGE RATE TEST COMPUTER PROGRAM FLOW CHART FIGURE 1 R-9 C 1002%3 01 s