ML20062K248
| ML20062K248 | |
| Person / Time | |
|---|---|
| Site: | Peach Bottom  |
| Issue date: | 07/28/1980 |
| From: | PECO ENERGY CO., (FORMERLY PHILADELPHIA ELECTRIC |
| To: | |
| Shared Package | |
| ML20062K247 | List: |
| References | |
| NUDOCS 8012040397 | |
| Download: ML20062K248 (200) | |
Text
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G- Philadelphia Electric Company
- , Peach Bottom Atomic Power Station Unit 2 Docket Number 50-277
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PRIMARY REACIOR CONTAINMENT INTEGRATED LEAKAGE RATE TEST REPORT July 28, 1980 Submitted o ' ;b ; Y '
The United States Nuclear Regdlatory, Commi,s,sion Pursuant to -
Facility Operating License No. DPR-44 I
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TABLE OF CONTENTS Page )
l I. INTRODUCTION 1 i II.- TEST SYNOPSIS 2
! III. TEST DATA
SUMMARY
3 A. Plant Information 3 B. -Technical Data 3 l .
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 8 i
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~l APPENDIXES A. Stabilization Summary Data ,
B. ILRT Summary Data C. IIRT Trend Report D. ILRT Mass-Point Analysis E. IIRT Total-Time Analysis F. ILRT Plot - Temperature versus Time G. IIRT Plot - Pressure versus Time H. ILRT Plot - Mass-Point Calculated Leakage Rate vs. Time I. IIRT Plot - Total-Time Calculated Leakage Rate vs. Time J. Not Used K. IIRT 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. DEBAT Summary Data, Total-Time Report and Summary of Measured Data R. Local Leakage Rate Test Summaries S. Variable Volume Calculations T. Bechtel ILRT Computer Program Summary O
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I. INTRODUCTION
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( ) The reactor containment building Integrated Leakage Rate Test (Type A) is performed to demonstrate that leakage through the primary reactor contain-ment and systems and components penetrating primary containment does not exceed the allowable leakage rate specified in the Plant Technical Specifica tio ns .
The successful periodic Type A and supplemental verification tests were per-formed according to the requirements of the Peach Eottom Atomic Power Station, Unit 2, Technical Specifications and 10CFR50, Appendix J. The Peach Bottom Plant Type A test method is the absolute method described in ANSI N45.4-1972,
" Leakage Rate Testing of Containment Structures for Nuclear Reactors." 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-r0P-1.
The test results are reported in accordance with the requirements of 10CFR50, Appendix J, Section V.B.3.
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1 II. TEST SYNOPSIS O
( ,) A Primary Containment Integrated Leakage Rate Test (ILRT) and a Drywell-to-Torus Bypass Area Test (UTBAT) were successfully completed at the Peach Bot-tom Atomic Power Station on July 28, 1980. The tests were performed in ac-cordance with PBAPS Surveillance Test procedure Sr12.5, Revision 2. All acceptance criteria of Bechtel Topical Report, BN-TOP-1, were satisfied.
, The maximum allowable leakage rate (L a ) for the primary containment is 0.5%
per day of contained air mass at the peak test pressure of 49.1 psig.
A successful verification test was conducted immediately following the ILRT.
,I The imposed leakige rate (Lo ) was 0.497%/ day (4.36 scfm). The test results are summarized as follows:
! Test / Method Lam (Allow.) 95% UCL (Allow.)
- 1. IURT/ Mass-Point 0.075 (0.375) 0.105 (0.375)
- 2. ILRT/ Total-Time 0.110 (0.500) 0.312 (0.500)
] 3. Verification / Mass-Point 0.568 (0.384-0.634) i'
- 4. Verification / Total-Time 0.550 (0.419-0.669)
Refer to Section IV for further discussion. Af ter completion of the ILRT, t verification test, and UrBAT, two dew sensors (numbers 5 and 6) were recali-( ,S p brated for a wider dewpoint temperature range. This was due to the fact that the measured temperatures during the test exceeded their initial cali-bration range. The revised calibration data were incorporated into the i calculations and are reflected in the test results shown above.
I Following the ILRT, the containment was depressurized in order to conduct the UrBAT. The maximum acceptable bypass area, as delineated in the PBAPS Technical Specification is equivalent to a 1.00-inch I.D. orifice or 0.785 square inch. The calculated bypass area was essentially zero (0.00057 square inches).
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III. TEST DATA
SUMMARY
( ) A. Plant Information Owner Philadelphia Electric Company Plant Peach Bottom Atomic Power Station, Unit 2 Location Delta, Pennsylvania Containment Type Metal Vessel Suppression Pool NSSS Supplier, Type General Electric, BWR Date Test Completed July 28,1980 B. Technical Data
- 1. Nominal Containment
- Net Free Air Volume 291,100 cu. ft,
- 2. Design Pressure 56 psig
- 3. Design Temperature 276*F j 4. Calculated Peak Accident Pressure, Pa 49.1 psig
- 6. Calculated Peak O Accident Temperature 283*F 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 49.1 psig
- 4. Maximum Allowable Le akage Ra te , La 0.500%/ day ,
- 5. 75% of L a 0.375/ day s
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. - - , , ,~r -- m,--, -- .--, r,-v , ,c . - -- -n,
- 6. Integrated Leakage Rate O
Test Results Leakage Rate, %/ day
. From regression At upper 95%
line (La ) confidence limit
- a. Mass-Point analysis 0.011 0.041
- b. Total-Time analysis 0.046 0.248
- 7. Verification Test Imposed 4.36 scfm Leakage Rate (0.497%/ day) 1
- 8. Verification Test Results Leakage Rate
(%/ day) ,
- a. Mass-Point Analysis 0.568
- b. Total-Time Analysis 0.550
- 9. Verification Test Limits Test Limits
(%/ day)
- a. Mass-Point Analysis
- 1) Upper limit (Lo+ Lam +0.25La) 0.385 l
- 2) Lower limit (Lo+ Lam-0.25La) 0.635
- b. Total-Time Analysis a) Upper limit (LetLam+0.25La) 0.420 b) Lower, limit (Lo+ Lam-0.25La) 0.670
- 10. Report Printouts The Report Printouts of the Type A, and UrBAT verification test calculations are provided for the Mass-Point and Total-Time Analyses (Appendixes B through S). Stabilization data are also provided (Appendix A).
D. Test Results - Types B and C Tests Refer to Appendix R for a summary of local leakage rate test re-sults since the last ILRT was performed in 1976.
E. Integrated Leakage Rate Measurement System
- 1. Absolute Pressure (one main plus one backup) ,
Range -
0-100,000 counts Repeatability 0.003 % F.S.
Accuracy 0.015% of reading Resolution 0.001% F.S.
Range 0-100 psi Texas Instruments Model 145-02 Precision Pressure Instrument, Serial No. 2605 Bourdon Capsule (Type 2) Serial No 10381
, Calibration Date: June 16, 1980 4
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V Spare: Instrument Serial No. 2604 and Bourdon Capsule Serial No. 10380
- 2. Drybulb Temperature (12 plus 6 spares)
Resistance Temperature Detectors - Leeds and Northrup Thermohm Model 8197-10, 4-lead, 100-ohm copper Repeatability: 0.1*F Static Resistance: 100 ohms Read out - Leeds and Northrup Numatron, Digital Display, Cat. No 900-0040-9999-1-S Calibration Date: April 15, 1980 i
Calibration Standard - Philadelphia Electric Co.
Instrument Numbers 52-1000 and 52-9422
- 3. Dewpoint Temperature (6 sensors)
Dewpoint Temperature Probes - General Eastern, Model 1200APS Accuracy: 0.5'F Repeatsbility: 0.1*F O
Dew Cell assemblies (calibration date: July 1980)
S/N 1269 S/N 1275 S/N 1271 S/N 1277 S/N 1273 S/N 1279
- 4. Verification Flow (1 channel)
I Flowmeter-Brooks hi-accuracy full view rotameter, Model 1110-08K2A1A, Serial No. 7909H06286 Range: 0.05-7.55 scfm '
Accuracy: .i0.1 scfm Repeatability: 0.01 scfm I Calibration Date: October 17, 1979
- 5. Gage Pressure (1 channel) - Not used directly in calculations Wallace & Tiernan Model 61A-1A-0100 Range: 0-100 psig Accuracy: 1.0% F.S.
Sensitivity: 0.01% F.S.
Calibration Date: October 20, 1979 l
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rN 6. Overall Instrumentation Selection Guideline (ISG) Value (from
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ANSI N274) based on ILRT instrumentation and an eight hour minimum test duration = 0.030%.
- 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 established to limit ingress to containment during testing.
- 2. A listing of all containment penetrations, including the total number of like penetrations, penetration size, and function.
- 3. A listing of normal operating instrumentation used for the leakage rate test.
- 4. A system lineup (at time of test), showing required valve positions and status of piping systems.
- 5. A continuous, sequential log of events from initial survey
(~'s of containment to restoration of all tested systems.
Y 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 estab-lished by test procedure (Appendix A).
- 8. The working copy of test prc:edure that would include signa-ture sign off of procedural steps.
- 9. The procedure and all data that would verify completion of penetrations and valve testing (B&C-type 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 vf th proper sign-offs.
- 12. A listing of all test exceptions including changes in con-tainment system boundaries instituted by licensee to con-()
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clude successful testing.
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- 13. Description of sensor malfunctions, repairs, and methods used
'y to redistribute volume fractions to operating instrumentation.
- 14. A review of confidence limits of test results with accom-panying computer printouts where applicable.
- 15. Description of method of leak rate verification of instru-ment reasuring system (superimposed leakage), with calibra-tion information on flowmeters along with calculations that were used to measure the verification leakage rate (Appen-dixes L through P).
- 16. Plots presenting ILRT data obtained during the test (Appen-dixes F through I).
- 17. The P& ids of pertinent systems readily available.
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IV. ANALYSIS AND INTERPRETATION
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(_- Several corrections must be added to the calculated result of the Unit 2 ILRT. The following valves were not in the normal position for accident condition:
RBCU 441 SCC / min Chilled Water Valves 6,211 SCC / min Shutdown Cooling Valves 155 SCC / min ILRT Test Valves 30 SCC / min RWCU Valves 3,631 SCC / min TOTAL 10,468 SCC / min Drywell sump level increased during the test. This resulted in a volume decrease of 63.16 ft3 over thirty hours, or 4312 SCC / min.
CRD accumulator inleakage per ST 12.5 Appendix P was 1042 SCC / min.
The above corrections total 15,822 SCC / min or 0.064 %/ day. The corrected test results are summarized as follows:
L am 95% UCL I II III IV I II III IV
- 1. ILRT/ Mass-Point .012 .011 .075 .375 .042 .041 .105 .375
- 2. ILRT/ Total-Tine .047 .046 .110 .500 .250 .248 .312 .500
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- 3. Verification /
Mass-Point
.594 .568 - .384-
.634
- 4. Verification / .531 .550 -
.419-Total-Time .669 where Column I = Leak rate corresponding to that reported in pre-liminary report dated July 28, 1980 Column II = Leak rate incorporating revised posttest dewcell calibrations (Numbers 5 and 6 only) dolumn III = Leak rate in Column II plus correction factors for posttest LLRTs, CRD accumulator leakage, and drywell sump level change Column IV = Allowable leak rates, The leak rates in all cases incorporated the use of variable volume calculations using variations in torus and reactor water levels.
This procedure is discussed in detail in Appendix S.
The Integrated Leakage Rate Test results at the upper- 95% confidence level, Lam = 0.105%/ day (Mass-Point analysis) and 0.312%/ day (Total-Time analysis), satisfy the acceptance criterion of Lam < 0.75L a *
! 0.375%/ day, at aP = 49.1 psig (-0 psi, +1 psi).
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4 APPENDIX A Stabilization Summary Data 9
4 PETESTt 07/27/80 08:37PDT
SUMMARY
DATA PEACH BOTTOM ILRT - UNIT 2 PLMAX = 0.500 CFVOL = 289982.00
+
o TIME DATE TEMP PFESSUFE VPRS VOLUME 1330 726 548.20885 63.754347 0.45176465 289982.00 1345 726 547.26684 63.593145 0.44220599 289987.00 j i 1400 726 546.79455 63.480644 0.46283510 289987.00
- s. 1415 726 546.53026 63.444798 0.43477026 289993.00 1430 726 546.36275 63.393256 0.43078979 289145.00 1445 726 546.23866 63.346909 0 42980408 289147.00 __
1500 726 546.04015 63.343012 0.42770869 290005.00 1515 726 546.11668 63.335892 0.42684007 290014.00 1530 726 546.08825 63.329259 0.42648251 290016.00 1545 726 546.03985 63.326712 0.42503568 290023.00 1600 726 546.29993 63.782342 0.42776406 290032.00 1615 726 546.16366 63.737564 0.42361059 290036.00 1630 726 546.05765 63.721918 0.42327910 290037.00 1645 726 545.98502 63.720986 0.42321259 290042.00 1700 726 545.9e.991 63.720276 0.42192438 290044.00 1715 726 545.95232 63.719020 0.42118343 290051.00 1730 726 545.95837 63.718847 0.42035?34 290058.00 0 0 0. 0 0. 0 0. 0 0. 0 i
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APPENDIX B l ILRT Summary Data IUf1MHPY DATA PEACH BOTTOT1 ILRT - Util T 2 Alf1AX = 0.500 CFVOL = 289982.00
+
+ ,
TIf1E DATE TEi1P PRESSURE VPPS VOLUf1E 1115 727 538.54362 63.995092 0.33184989 289563.0 1130 727 538.53459 63.993818 0.33112774 289563.0 1145 727 539.53325 63.993095 U.33184989 289567.0 1200 727 538.52809 63.994982 0.33196020 289567.0 1215 727 538.52301 63.995531 0.33141129 289567.0 1230 727 538.52712 63.996169 0.33177236 289570.0 1245 727 538.55244 63.996535 0.33140596 289572.0 1300 727 538.54595 63.996738 0.33220164 289576.0 1315 727 538.55396 63.998679 0.33125927 289579.0 1330 727 538.56722 63.993060 0.33187639 289579.0 1345 727 538.57297 64.001665 O.33226741 289473.0 1400 727 538.61549 64.0032+0 0.33169172 289476.0 1415 727 538.54173 64.006039 0.33089012 289478.0
/^ <
1430 727 538.59598 64.011800 0.32712536 289478.U
(, 1445 727 538.56330 64.015671 0.32625030 289480.0 1500 727 538.57237 64.014557 0.33036043 289480.0 1515 727 538.65914 64.014920 0.33099601 289482.0 ---
1530 727 538.68594 64.016974 0.33193720 28948?.0 1545 727 538.69674 64.019864 0.33204363 289489.0 1600 727 538.69778- 64.024199 0.33270139 289494.0 1615 727 53R.76108 64.028973 0.33092326 289499.0 1630 727 538.78129 64.030516 0.33237637 289501.0 1645 ,727 538.80540 64.034416 0.33346819 289503.0 1700 727 538.81889 64.038743 0.33313615 289508.0 1715 727 538.90234 64.044823 0.32905433 289508.0 1730 727 538.91160 64.048078 0.33079233 289510.0 1745 727 533.i44319 64.052197 0.33266388 239515.0 1800 727 538.96230 64.053847 '
O.33401035 289519.0 1815 727 539.06143 64 060214
. 0.33263599 289521.0 -
1830 727 539.09159 64.065181 0.33266236 289524.0 1845 727 539.10821 64.070027 0.33380730 289528.U 1900 727 539.14707 64.076049 0.33377740 289531.0 1915 727 539.15540 64.080622 U.33319813 289533.O
_ 0 0 0. 0 0. 0 0. 0 0. 0
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) APPENDIX C
, V ILRT Trend Report s
i 2 - PEACH B0TTOM ILRT - UtilT 2 i t
TPEriD PEPOPT l
LEAKAGE PATES WElGHT PEPCEtiT/ DAY) f tit 1E Arid. DATE AT ST APT OF TEST: 1115 0727 :
i ELAP5ED T It1E: 8.00 HOURS. f t
+
fiu. DATA ELAPSED TOTAL-TIME AriALYSIS (1 ASS-PulttT AriALYSIS ,
POIrlTS TIME r1EAtt CALCULATED CALCULATED 95% UCL 10 2.25 -0.081 -0.119 ' -0.096 -0.062 i 11 2.50 -0.048 0.003 0.062 0.231 '
12 2.75 -0.019 0.095 0.167 0.344 l l
13 3.00 -0.009 ' O.111 0.165 0.314
? 14 3.25 -0.001 0.123 0.162 0.289 '
s 15 3.50 -0.001 0.107 0.126 0.241 s i i
! 0.208
- 16' 3.75 0.000 0.099 0.106 ,
17 4.00 0.007 0.113 0.118 0.208 -
j 18 4.25 0.013 0.122 0.125 0.205 19 4.50 0.017 0.124 0.122 0.194 -
20 4.75 0.018 0.117 0.108 0.174 0.'099 0.159 . , 't 21 5.00 0. 019 0.113 '
, 22 5.25 0.021 0.109 0.091 0.146 23 5.50 C.021 0.104 0.083 0.133 -
24 5.75 0.021 0.095 0.069 0.117 '
25 6.00 0.021 0.091 0.063 0.108 i
26 6.25 0.021 0.084 0.055 0.u97 ' '
0.046 0.086 y 27 6.50 0.020 0.077 '
i 28 6.75 O.020 0.071 0.038 0.076 . _ ,
29 7.00 0.020 0.069 0.037 0.072 ,
30 7.25 0.020 0. 06t> 0.034 0.066 :
31 7.50 0.019 0.060 0.027 0.059 i 32 7.75 0.018 0.054 0.020 0.050 33 ,8.00 0.017 0.046 0.011 0.041 L
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- - - - - - . - _ ~ - - _ _ . -_ .- .-. - -__ - . .- _.. -_ . _ _ -
l an i mun.s D l
- PEACH BOTTOM ILRT - OrtIT 2 LEAKAGE PATE O.lEIGHT PEPCEf1T/ DAY)
MASS-POIrif AfiALYSIS j TIME Arid DATE AT OTAPT OF TEST: 1115 0727 l ELAP5ED TIME: 8.00 HOUPS
{
l TIME TEMP PPESSUPE CTMT. AIP MASS LOSS TOT. AVG. NASS '
l (P) (PSIA) MASS (LBN) (LBM) LOSS (LBM/HP) 1115 538.544 63.9951 92875 1130 538.535 63.9938 92874 0.3 1.2 1145 538.533 63.9931 92875 -0.5 -0.3 1200 538.528 63.9950 92878 -3.6 , -5.1
- 1215 538.523 63.9955 92880 -1.7 -5.5 1230 538.527 63.9962 92881 -1.2 -5.3 ,
1245 538.552 63.99e5 42878 3.2 -2.3 1300 538.546 63.9967 r2881 -2.7 -3.5 ,
4 1315 538.554 63.9987 92883 -2.4 -4.2 r 1330 538.567- 63.9991 92881 1.7 -3.0 ,
[
, 1345 538.573 64.0017 92850 31.2 9.8
- i 1400 538.615 64.0032 92846 4.1 10.4 [
1415 538.542 '64.0060 92864 -17.4 3.7 l 1430 538.596 64.0118 92863 1.0 3.7 i 4 1445 538.563 64.0157 92874 -11.9 0. 0 1500 538.572 64.0146 92871 3.2 0. 9 4
1515 . 538.659 64.0149 92857 13.8 4.3 -
4 1530 538.686 64.0170 92857 0. 0 4. 0 1545 538.697 64.0199 92860 -3.0 3.2 l 1600 538.698 64.0242 92868 -7.7 1.4 .
1615 538.761 64.0290 92866 2.4 1.8 1630 538.781 64.0305 92865 0. 6 1.8
> 1645 538.805 64.0344 92867 -2.1 1.3 i
1700 538.819 64.0387 92873 -5.6 0. 3 1715 538.902 64.0448 92867 5.6 1.2 j 1730 538.912 64.0481 92871 -3.8 0. o 1745 538.943 64.0522 92873 -2.1 0.2 1800 538.962 64.0538 92874 -0.4 0. 2 '
1815 539.061 64.0602 92866 7.2 1.2 1830 539.092' 64.0652 92869 -3.0 0. 7 1845 539.108 64.0700 92875 -5.4 -0.0 1900 539.147 64.0760 92878 -3.0 -0.4 1915 539.155 64.0806 92884 -5.8 -1.1 i
l FPEE AIP VOLUME USED (MILLI 0fti 0F CU. FT.) = 0.290
$ REGRES$10ft LIttE Iti1EPCEPT (LBM) = 92872
! LOPE (LBM/HR) = -0.4 i
MAXIMUM ALLui8ABLE LEAKAGE PATE = 0.500 -
75 *. OF MAXIMUM ALLOldHBLE LEAK AGE PATE = 0.375 i THE UPPER 95L Cur 1FIDEriCE LIMIT = 0.041 4 THE CALCULATED LEAKAGE PATE = 0.011 l l
CTNT. FPEE AIP VOLUME AT TIME 1915 = 289533.
D-1
& ,-..-c.e - . , , _ . .y .,c.~.. - . . . - . - . . . ..
. _ . _ - . ~_ ...y_..__--.- _ ~ _ . , - - - , , .
y .~* _ _ . , r
.- - _ = _ -_ _ . _ _ . _ _ _ _
- - - _ . - _ - _- = - . ___ .. -
r APPENDIX E PEACH BOTTOM ILPT - UNIT 2 LEAKAGE PATE (MEIGHf PERCEffT/ DAY) TOTAL-TIME AriALYSIS TIME AtiD DATE AT STAPT OF TEST: 1115 0727 i ELAPSED TIME: 8.00 HOURS tit 1E TEMP. PRESSURE MEASUPED (P) (PSIA) LEAKAGE PATE 1115 538.544 63.9951 , 1130 538.*35 63.9938 0.030 1145 538.533 63.9931 -0.009 1200 538.528 63.9950 -0.131 1215 538.523 63.9955 -0.141 1230 538.527 63.9962 -0.138 1245 538.552 63.9965 -0.060 1300 538.546 63.9.467 -0.091 1315 538.554 63.9987 -0.111 1330 538.567 63.9991 -0.078 1345 538.573 64.0017 0.252 1400 538.615 64.0032 0.268 1415 538.542 64.0060 0.095 1430 538.596 64.0118 0.096 ' 1445 538.563 64.0157 0.001 s, ) 1500 538.572 64.014e 0.023 1515 538.659 64.0149 0.111 1530 533.686 64.0170 0.104 ~~ 1545 538.697 64.0199 0.082 ' 1600 538.698 64.0242 0.035 1615 538.761 64.0290 0.046 1630 538.781 e4.0305 0.047 1645 538.805 64.0344 0.034 1700 538.819 64.0387 0.008 1715 538.902 64.0448 0.032 1730 538.912 64.0481 0.015 1745 538.943 64.0522 0.006 1800 538.962 64.0538 0.004 1815 539.061 64.0602 0.031 1830 539.092 64.0652 U.019 1845 539.108 64.070U -0.001 i 1900 539.147 64.0760 -0.010 1915 539.155 64.0806 -0.029 MEAN OF MEASUPED LEAKAGE PATES = 0.017 NAXIMUM ALLOWABLE LEAKAGE PATE = 0.500 75 % OF MAXIMUM ALLOlJABLE LEAKAGE FATE = 0.375 1 THE UPPER 95% COfiFIDENCE LIMIT . . [ THE CALCULATED LEAkA0E RATE
=
=
0.248 0.046 i e E-1 i .
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! ~ l l ' APPENDIX F l 1
i Plot - ILRT Temperature vs. Time ! d i l PE Ai.H EDTTOM ILF1 - Utill 2 1 1 TEf1 PEF ATUF E 1 ? 533.470 538.576 538.681 533.797 538.692 533.??T 539.103 539.208
+__________________+_________+_________+__________________+_________+
1 - 1 _ . _ +
. 1200 - +
i l 2 _ . 1300 - . l 4
/ !
j _
- i 1400 - *
! - +
1
) _ +
- oO _ .
l _ + 1
- + -.-
1600 -
- 1700 - +
5 _ e 1800 -
- 4
_ e i I f d b 0)
- O I
1 F-1 l 1
1 l l l l 1 l' APPENDIX G i 1 I i 1 Plot - ILRT Pressure vs. Time PEACH E:OT TOM ILPT - Util T 2 PPE SUPE 63.9881 64.0027 64.0172 64.0317 64.0463 64.0608 64.0754 64.0899
+_________+_________+_________+_________+_________+_________+_________+
- s
- e
;200 _ ,
- e
- +
_ e 1300 - +
+
+
400 - + e 1500 - + -- s s
+
1600 - + l e e 1700 - *
+
e e 1900 - +
+
~
~
, e 1900 -
- G-1
( . _ _ _ _ _ _ _ _ _ _ _ . _.
APPENDIX 11 Plot - Mass Point Calculated Leak Rate versus Time PEACH BOTTOM ILPT - UrtlT 2 l MASI-POIf1T C ALCUL ATED PATE
-0.118 - 0. 0.'4 -0.030 0.014 0.057 0 0.145 O.189
+-_-_-_-_-+-____-___+___-_____+_________+_________+.101
+ _________+_________+
+
1400 -
+
+
+
+
l 1 1500 - +
+
+
+
1600 - + -
+ \
+ 1
+
1700 - *
+
~
+
+
1800 - +
+
+
+
1900 - +
+
H-1
- .. . _ _ . _ - _- ._ - .- . . . _ _ - = _ . - _- -
I APPENDIX I Plot - Total- Time Calculated Leak Rate Rate versus Time l J f l PEACH BOTTOM ILRT - UNIT 2 TOTAL-IIME CALCULATED PATE
- 0.1 ~3 9 -0.099 -0.053 -0 via 0.023 v . 0_,3 0.1U4 0.144
+--------_+___------+____---_-+-____--__+_---_-___+_________+____-____+
- s 1400 - .
~
+
~
+
1500 - +
~
+
~
9 00 - . l 9 1700 - +
+
~
+
1800 - +
~
1900 - + l l l 1 I I I { l I-l d
1 i. 1' j l i ! i APPENDIX K j i ti ILRT Sumary of Measured Data i i i
SUMMARY
OF MEASURED DATA AT 1115 0727 > TEMP 1 = 545.294 ( 8545.') l TEMP 2= 546.037 ( 8630.> ! ! TEMP 3= 535.202 ( 7537.) ' l TEMP 4 = 536.904 2 ( 7715.) TEMP 5= 532.727 ( 7296.) TEMP 6= 534.006 ( 7424.) l TEMP 7= 530.892 < 7089.> TEMP 8= 530.682 ( 7099.> TEMP 9= 521.519 < 6178.) 1 TEMP 10 = 542.619 ( 8278.) TEMP 11 = 542.649 ( 8292.) TEMP 12 = 542.626 8 8285.> i PPES 1 = 64.327 ( 64321.) r i' VPPS 1 = 0.212 ( 540.) VPRS 2= 0.206 ( 533.> VPRS 3= 0.200 ( 536.> -- VPPS 4= 0.192 ( 534.> VPPS 5= 0.497 ( 810.) VPPS 6= 0.511 ( S11.1 CTMT. FPEE AIR VOL. = 289563. i a i TIME = 1115 1 4 DATE = 0787 TEMPEPATUPE (liEGEEES P.) = 538.544 4 CORRECTED PRESSUPE (PSIA) = 63.9951 VAPOP PRESSUPE (PSIA) = 0.3318 i .I K-1 1
. . - - - - - _ -- -~..- -.- - _._.._--_----._-_ . _- __-- _ -
i l I ' i 4 1 .
- 1 l
SUMMARY
GF MEASURED DATA AT 1130 0727 TEMP 1 = 545.314 ( 8547.) l TEMP 2= 546.067 ( 8633.)
- TEMP 3= 535.172 ( 7534.)
j' TEMP 4= 536.904 ( 7715.) l TEMP 5= 532.727 ( 7296.) 1 ' TEMP 6= 534.016 ( 7425.) j TEMP 7= 530.892 ( 7089.) i TEMP 8= 530.672 ( 7098.) TEMP 9= 521.539 ( 6180.) ) TEMP 10 = 542.579 t. 8274.) TEMP 11 = 542.619 ( 8289.) l TEMP 12 = 542.616 ( 8284.) ! PRES 1 = 64.325 ( 64319.) i VPPS 1= 0.212 ( 540.) ' VPPS 2= 0.206 ( 533.)
} VPRS 3= 0.200 < 536.)
VPRS 4= 0.192 ( 534.) __ VPPS 5= 0.494 ( 803.) ; 1 t VPRS 6= 0.511 ( 811.)
- CTMT'. FREE AIR VOL. = 289563.
4 1 1 i ,I
- TIME = 1130 DATE = 0727 TEMPERATURE (DEGREES R.> = 538.535 COPPECTED PRESSURE (PSIA) = 63.9938 2
VAPOR PRESSURE (PSIA) = 0.3311 4 fh e v - . K-2
i i i i-k l, OUMMARY OF MEASURED DATA AT 1145 0727 TEMP 1 = 545.434 ( 8559.)
- TEMP 2= 546.037 ( 8630.)
- TEMP 3= 535.272 ( 7544.> '
j TEMP 4= 536.995 ( 7724.)
- TEMP 5= 532.737 ( 7297.)
l TEMP 6= 533.956 ( 7419.) j TEMP 7= 530.812 ( 7081.) ! TEMP S= 530.672 ( 7098.>
- TEMP 9= 521.529 ( 6179.) '
1 TEMP 10 = 542.559 ( 8272.) TEMP 11 = 542.579 ( 3285,) TEMP 12 = 542.576 ( 8280.) i PPES 1 = 64.325 ( 64319.) i VPPS 1 = 0.212 ( 540.) i VPPS 2=- 0.206 ( 533.) 1 . VPP3 3= 0.200 ( 536.> l VPRS 4 = 0.192 t. 534.) i VPRS 5= 0.497 ( 810.) VPRS 6= 0.511 ( 811.) -- l I CTMT. FREE AIR VOL. = 289567. , i r TIME = 1145
! DATE = 0727 TEMPERATURE (DEGREES R.) = ' 538.533 CORRECTED PRESSUPE (PSIA) = 63.9931
. VAPOR PRESSURE (PSIA) = 0.3318 I
l ! l 4 9 4 4
- K-3
...___.._._-_---_o.__ . . - _ _ _ . - - _ - _ _ _ _ _ _ _ _ _ _ . _ _ _ _ . - . _ . , , - , - _ _ - . . - _ - . -- , . - _ _ , - - . . _
l l l t , l \ ,
SUMMARY
OF MEASURED DATA AT 1200 0727 I l , TEMP 1 = 545.364 ( 8552.) 1;: TEMP 2= 546.167 ( 8643.) l TEMP 3= 535.252 ( 7542.) TEMP 4= 536.965 ( 7721.) TEMP 5= 532.707 ( 7294.) TEMP 6= 5?3.976 ( 7421.> TEMP 7= 530.902 ( 7090.)
; TEMP 8= 530.682 ( 7099.)
TEMP 9= 521.469 ( 6173.)
- TEMP 10 o 542.539 ( 8270.)
j TEMP 1' 2 542.579 ( 8285.) - l TEMP 12 = 542.566 ( 8279.> 4 j PRES 1 = 64.327 ( 64321.) VPRS 1 = 0.212 ( 540.) ; I VPRS 2= 0.207 ( 534.)
- VPRS 3= 0.200 ( 536.)
- VPRS 4 = 0.192 ( 534.)
VPPS 5= 0.499 ( 811.) -- VPRS 6= 0.509 ( 810.) i { CTNT. FPEE AIR YOL. = ~289567. 1 i i I 1 ,i i TIME = 1200
! DATE = 0727 i l TEMPERATURE (DEGREES R.) = 538.528 i
) CDPRECTED PPESSURE (PSIA) = 63.9950 i VAPOR PRESSUPE (PSIA) = 0.3320 i i 1 1 7 i l i
. K-4 i !
___*w ----r=,,-*-,a-ww.* -r-sww--r- v- e- v--------e- -y,y--,ww --*yy- ---m-- -ww, .imr-e~s-vvv--+e- r - - ---e t -ere-- m*.-w,---- ~=-y --e
SUMMARY
OF MEASUPED DATA AT 1215 0727 TEMP 1 = 545.514 ( 8567.) TEMP 2= 546.137 ( 8640.) TEMP 3= 535.262 ( 7543.) TEMP 4 = 536.995 ( 7724.) TEMP 5= 532.687 ( 7292.) TEMP 6= 533.936 ( 7417.) TEMP 7= 530.812 e. 7081.) TEMP 8= 530.692 ( 7100.) ! TEMP 9= 521.519 ( 6178.) TEMP 10.= 542.519 ( 8268.) TEMP 11 = 542.549 ( 8282.) TEMP 12 = 542.536 ( 8276.) PPES 1 = 64.327 ( 64321.) VPRS 1 = 0.212 ( 541.) VPPS 2= 0.207 ( 534.) VPRS 3= 0.200 ( 536.) YPRS 4.= 0.193 ( 535.) VPPS 5= 0.496 ( 809.) VPRS 6= 0.509 (. 810.) CTNT. FREE AIR VOL. = 289567. TIME = 1215 DATE = 0727 TEMPERATUPE (DEGREES P.) = 538.523 CDPRECTED PPESSURE (PSIA) = 63.9955 ' 1 VAPOR PPESSUPE (PSIA) = 0.3314 K-5
(D . V SUMMAPY OF MEASUPED DATA AT 1230 0727 TEMP 1 = 545.624 ( 5578.) TEMP 2= 546.177 ( 8644.) TEMP 3= 535.252 < 7542.) TEMP 4= 537 . 025 ( 7727.) TEMP 5= 532.667 '. 7290.) TEMP 6= 533.946 ( 7418.) TEMP 7= 530.822 ( 7082.) TEMP 8= 530.702 ( 7101.) TEMP 9= 521.579 <. 6184.'s TEMP 10 = 542.489 ( 8265.) TEMP 11 = 542.529 '. 8280.) TEMP 12 = 542.516 ( 8274.) PPES 1 = 64.328 ( 64322.) VPPS 1 = 0.212 ( 541.) VPPS 2= 0.207 ( 534.) (~' t VPRI 3= 0.200 ( 536.'s VPPS 4= 0.193 ( 535.) VPRS 5= 0.497 ( 810.) . VPPS 6= 0.509 ( 810.) CTMT. FPEE AIP VOL. = 289570. TIME = 1230 DATE = 0727 TEMPERATURE (DEGREES R.) = 538.527 COPPECTED PRES $UPE (PSIA) = 63.9962 VAPOP PRESSUPE (PSIA) = 0.3518 1 O . K-6 1 l
i I , i i l } i i L i > i 5 t
SUMMARY
OF MEASUPED DATA AT 1245 0727 i ! ! TEMP 1 = 545.674 e 8583.) ;
- TEMP 2= 546.297 ( 8656.) !
! . TEMP 3= 535.332 ( 7550.) j TEMP 4 = 537.065 ( 7731.) " TEMP 5= 532.747 ( 7298.) i TEMP 6= 533.936 ( 7417.) i j TEMP 7= 530.812 ( 7081.> '
- TEMP 8= 530.752 ( 7106.)
! TEMP 9= 521.639 ( 6190.) ! TEMP 10 = 542.469 ( 8263.) } TEMP 11 = 542.519 ( 8279.) , TEMP 12 = 542.50e ( 8273.) 4, j PPES 1 = 64.328 ( 64'322.) ! l j_ VPPS 1 = 0.213 ( 542.) J VPPS 2= 0.208 ( 535.) ! VPPS 3= 0.201 ( 537.) { VPRS 4= 0.193 ( 535.) ! VPRS 5= 0.494 ( 809.)
~
VPRS 6= 0.509 ( 810.) CTMT. FPEE AIR VOL. = 289572. ! i i ! TIME = 1245-l DATE = 0727 ) TEMPEPATUPE (DEGREES R.) = 538.552-I CORRECTED PRESSURE (PSIA) = 63.9965 i i h VAPDP'PRESSUPE (PSIA) = 0.3314 i i 1 i i i i K-7 [ t .
-.-.--..._.-_,_ _ u_ . __ ~ . - . . ~ . _ , _ - - . _ _ . _ , -....-.._&__..m.__-m,---. .-
h J SUMMAPY OF MEASUPED DATA AT 1300 07e7 TEMP 1 = 545.663 ( 8582.) TEMP 2= 546.307 ( 8657.) TEMP 3= 535.342 ( 7551.) TEMP 4 = 537.095 ( 7734.) TEMP 5= 532.777 ( 7301.) TEMP 6= 533.936 ( 7417.) TEMP 7= 530.812 ( 7081.) TEMP 8= 530.752 ( 7106.'s TEMP 9= 521.629 ( 6189.) TEMP 10 = 542.449 ( 8261.) TEMP 11 = 542.489 ( 8276.> TEMP 12 = 542.476 ( 8270.) PPES 1 = 64.329 ( 64323.) VPPS 1 = 0.213 * . 542.) VPPS 2= 0.208 ( 535.> VPPS 3= 0.201 ( 537.> VPPS 4 = 0.194 ( 536.> VPPS 5= 0.497 ( 810. > -- VPPS 6= 0.509 ( 810.) CTNT. FPEE AIP VOL. = 289576. TIME = 1300 DATE = 0727 TEMPERATUPE < DEGREES P.) = 538.546 COPRECTED PPES5UPE (PSIA) = 63.9967 VAPOP PPE55UPE sPS1A> = 0.3322 K-8
, _ . _ . _ . ~ . _ . . _ _ _ _ _ . _ . _ . _ _ _ . _ _ _ _ _ _ _ _ _ . _ _ - . _ _ _ _ _ _ . _ . _ _ _ _ _ _ i 1 1' i , i 1 i t
SUMMARY
OF MEASUPED DATA AT 1315 0727 I i TEMP 1 = 545.863 ( 8602.) TEMP 2= 546.457 ( 8672.) i TEMP 3= 535.302 ( 7547.) 1 TEMP 4= 537.195 ( 7744.) , j TEMP 5= 532.687 ( 7292.) i 1 TEMP 6= 533.976 ( 7421.) i TEMP 7= 530.782 ( 7078.) s i i TEMP 8= 530.732 ( 7104.) l TEMP 9= 521.539 ( 6180.) i TEMP 10 = 542.439 ( 8260.) TEMP 11 = 542.468 ( 8274.) 4 TEMP 12 = 542.445 ( 8267.) t 1 -l PPES 1 ,= 64.330 ( 64324.) i 4 VPRS 1 = 0.213 ( 542.) - VPRS 2= 0.208 ( 535.) : VPPS 3= 0.201 ( 538.'s , VPPS 4= 0.194 ( 536.) . VPPS 5= 0.494 (. 808.) ' ! VPRS 6= 0.508 ( 809.) j CTNT, FREE RIR VOL. = 289579. 4 i TIME = 1315 DATE = 0727 i TEMPERATUPE (DEGREES P.) = 538.554 ' 1 i COPPECTED PRESSUPE (PSIA) = 63.9987
- VAPOR PPESSURE (PSIA) = 0.3313 i
0 t r w h- w l K-9 1 i
C \ EUMMAPY OF MEASURED DATA AT 1330 0727 l
- TEMP 1 = 545.853 ( 8601.)
TEMP 2= 54e.507 ( 8677.) TEMP 3= 535.392 ( 7556.) TEMP 4= 537.245 ( 7749.) TEMP 5= 532.70T ( 7294.) TEMP 6= 533.976 ( 7421.) TEMP 7= 530.76E ( 7076.) TEMP 8=. 530.772 ( 7108.) TEMP 9= 521.569 ( 6183.) TEMP 10 = 542.419 ( 8258.) TEMP 11 = 542.458 ( 8273.) TEMP 12 = 542.445 ( 8267.) PRES 1 = 64.331 ( 64325.) VPPS 1 = 0.213 ( 542.) VPPS 2= 0.209 ( 536.) VPPS 3= 0.202 ( 539.) VPPS 4= 0.194 '. 536.) ~~ VPPS 5= 0.496 ( 809.) VPRS 6= 0.508 ( 809.) CTNT. FPEE AIP VOL. = 289579. TIME = 1330 DATE = 0727 TEMPEPATURE (DEGREES P.) = 538.567 COPPECTED PPESSUPE (PSIA) = 63.9991 VAPOP PPESSUPE (PSIA) = 0.3319 K-10
i T s SUMMAPY OF MEA 5UPED DATA AT 1345 0727 . TEMP 1 = 545.933 t. 8609.) TEMP 2= 546.637 ( 8690.) TEMP 3= 535.402 ( 7557.) TEMP 4 = 337.215 ( 7746.) TEMP 5= 532.757 ( 7299.) TEMP 6= 533.986 % 7422.) TEMP 7= 530.762 (. 7076.) TEMP 8= 530.792 ( 7110.) TEM) 9= 521.519 ( 6178.) TEM) 10 = 542.399 (. 8256.) T EI' c' 11 = 542.438 ( 8271.> TEl'P 12 = 542.415 (. 8264.) PFES 1 = 64.334 ( 64328.) VPRS 1 = 0.214 ( 543.) VPPS 2= 0.209 ( 536.> VPPS 3= 0.201 ( 538.> VPRS 4 = 0.195 ( 537.) VPPS 5= 0.497 ( 810.) VPRS 6= 0.508 ( 809.) CTNT. FREE AIP VOL. = 289473. TIME = 1345 DATE = 0727 TEMPERATURE (DEGPEES P.) = 538.573 COPPECTED PPE55UPE (PSIA) = 64.0017 VAPOP PPESSURE (PSIA) = 0.3323 s l l K-11
o SUMMAPY OF MEASUPED DATA AT 1400 0727 TEMP 1 = 546.133 ( 8629.) TEMP 2= 546.817 ( 8708.) TEMP 3= 535.432 '. 7560.) TEMP 4 = 537.315 ( 7756.) TEMP 5= 532.787 ( 7302.) TEMP 6= 534.036 ( 7427.) TEMP 7= 530.842 ( 7084.> TEMP 8= 530.822 ( 7113.> TEMP 9= 521.6E0 ( 6194.> + - TEMP 10 = 542.369 ( 8253.) TEMP 11 = 542.418 t 8269.)
- TEMP 12 = 542.395 ( 8262.)
PPES 1 = 64.335 ( 64329.) VPPS 1 = 0.214 ( 543.s VPPS 2= 0.209 ( 536.) VPPS 3= 0.202 ( 539.> s- VPRS 4= 0.195 (. 537.) VPPS 5= 0.496 ( 809. - VPPS 6 = 0.506 ( 808.) CTMT. FPEE AIP VOL. = 289476. TIME = 1400 DATE = 0727 1EMPEPATUPE (DEGREES R.) = 538.e15 CDPPECTED PPE! SUPE (PSIA) = 64.0032 VAPOP PRESSUPE (PSIA) = 0.3317 K-12
l 1 ? l
SUMMARY
OF MEASUPED DATA AT 1415 0727 TEMP 1= 546.013 ( 8o17.) TEMP 2= 546.797 ( 8706.) TEMP 3= 535.302 ( 7547.) TEMP 4 = 537.275 ( 7752.) TEMP 5= 532.757 ( 7299.) TEMP 6= 533.956 ( 7419.- TEMP ?= 530.762 ( 7076.) i TEMP S= 530.802 ( 7111.) TEMP 9= 521.569 t. 6183.) TEMP 10 = 542.279 ( 8244.> TEMP 11 = 542.338 ( 8261.) l TEMP 12 = 542.325 ( 8255.) PPES 1 = 64.337 ( 64331.> VPPS 1 = 0.215 ( 544.) I VPPS 2= 0.208 ( 535.) 3= ( O VPPS VPPS VPPS 4= 5= 0.200 0.195 0.491 ( ( 536.) 537.) 806.) ~ VPPS 6= 0.509 ( 810.) CTMT. FPEE AIR VOL. = 289478. TIME = 1415 DATE = 0727 TEMPEPATUPE (DEGPEES P.) = 538.542 COPEECTED PPESSUPE (PSIA) = 64.0060 VAPOP PPE55URE (PSIA) = 0.3309 l A K-13 _ _ _ _ _ _ _ _ l
. . . _. .._ ______ _ _ _ _ ___ . . _ . - - ___ ___-_ _ _ _ _ _ = . _ _ - . _ _ . . . . . . _ _ _ . .
1 i ~ l 1 t i 1 1 l 1 ' i l SUMMAPY OF MEASURED DHTA AT 1430 V727 l TEMP 1 = 546.173 ( 8633.) TEMP 2= 546.837 ( 8710.) l TEMP 3= 535.462 ( 7563.) TEMP 4= 537.355 ( 7760.) I TEMP. 5= 532.837 ( 7307.) TEMP 6= 534.016 ( 7425.) l TEMP 7= 530.782 ( 7078.) TEMP 8= 530.852 ( 7116.) i TEMP 9= 521.659 ( 6192.) TEMP 10 = 542.309 ( 8247.) TEMP 11 = 542.338 ( 8261.) t TEMP 12 = 542.325 ( 8255.) i j PPES 1 = 64.339 ( 64333.) - J VPPS 1 = 0.215 ( 544.) l VPRS 2= 0.209 ( 536.> j VPRS 3= 0.203 t. 540.) i VPRS 4= 0.161 ( 487.) l VPRS 5= 0.489 (. 805.) -
- VPRS 6= 0.506 ( 808.)
! CTMT. FPEE RIR VUL. = 289478. I TIME = 1430 DATE = 0727 . TEMPERATURE (DEGPEES P.) = 538.596 1 i CDPRECTED PRESSURE (PSIA)
= 64.0118 t
- VAPOR PRESSURE (PSI A) = 0.3271 I
l i l t I l'i K-14 l ! - . . - - . - . _ . - - - - - . -. . . - - - - - . - . - - . - .. _ .- . s-.-
l , I i i
SUMMARY
OF MEASUPED DATA AT 1445 0727 TEMP 1 = 546.203 ( 8636.) . TEMP 2= 547.177 ( 8744.) TEMP 3= 535.362 ( 7553.) TEMP 4= 537.275 ( 7752.) TEMP 5= 532.787 ( 7302.) i TEMP 6= 533.986 ( 7422.) TEMP 7= 530.772 ( 7077.) TEMP 8= 530.842 ( 7115.) TEMP 9= 521.569 ( 6183.) TEMP 10 = 542.229 ( 8239.) TEMP 11 = 542.268 ( 8254.) i TEMP 12 = 542.255 ( 8248.) PPES 1 = 64.342 ( 64336.) i. VPPS 1= 0.216 ( 545.) i' VPPS 2= 0.209 ( 537.) VPRS 3= 0.204 ( 541.) VPPS 4= 0.170 ( 501.) I YPRS 5= 0.491 ( 806.) --
- VPRS 6= 0.494 ( 801.)
i j CTMT. FPEE AIR VOL. = 289480. i i i TIME = 1445 DATE = 0727 - TEMPERATUFE (DEGREES R.) = 538.563 i COPPECTED PPESSURE (PSIA) = 64.0157 VAPOP PRESSUPE (PSIA) = 0.3263 s 3 i K-15 9
-----.r-,. ---. ++- - .- .- . .c.-- r, , . ---,%- , + - , - - - - - ~ , - + - , . - - - - - - , - ,--..~r--..-, ,, ~ - - - - ,
--.r.-
- 1 i .
1 f i i 1 I i i 1 l
SUMMARY
OF MEASUPED DATA AT 1500 0727 f TEMP 1 = 546.223 ( 8638.) ] TEMP 2= 547.247 ( 8751.) TEMP 3= 535.362 ( 7553.) TEMP 4= 537.325 ( 7757.) TEMP 5= 532.827 ( 7306.) . TEMS 6= 534.U26 ( 7426.) !
- TEMP 7= 530.792 ( 7079.) !
TEMP 8= 530,822 ( 7113.) j TEMP 9= 521.549 ( 6181.) , 7 TEMP 10 = 542.209 ( 8237.)
. TEMP 11 = 542.258 ( 8253.)
TEMP 12 = 542.245 ( 8247.)
'PPES 1 = 64.345 ( 64339.)
VPPS 1 = 0.216 ( 545.) VPRS 2= 0.209 ( 537.) VPRS 3= 0.204 ( 541.) VPPS 4= 0.204 ( 549.). -- 4 VPRS 3= 0.494 ( 808.) ( ( VPRS 6= 0.494 801.) CTMT. FREE AIR VOL. = 289480. I i i l 1 il TIME = 1500 DATE = 0727 TEMPERATUPE (DEGPEES R.) = 538.572 i CORRECTED PRESSUPE (PSIA) = 64.0146 VAPOR PPESSURE (PSIA) = 0.3304 i ). I 4 i K-16 i I i I. _ - . _ . . . . - - . . - _ , - . . . , , - - _ - . _ . . _-- - _ = - . - . _ _ _ , . . - , . . - _ _ , . _ , - . . _ . - _ ~ - - - . . - _ . . -
C
- i ll OUMMARY OF MEASUPED DATA AT 1515 0727 TEMP 1= 546.463 i 8662.)
TEMP 2= 547.547 ( 8781.) TEMP 3= 555.492 t. 7566.) TEMP 4= 537.42e ( 7767.) TEMP 5= 532.907 <. 7314.) TEMP 6= 534.106 <. 7434.) TEMP 7= 530.782 ( 7078.> TEMP 8= 530.912 t. 7122.-) TEMP 9= 521.659 ( e192.) TEMP 10 = 542.209 (. 8237./ TEMP 11 = 542.298 ( 8257.) TEMP 12 = 542.285 ( 8251.) PRES 1 = 64.346 ( e4340.) VPPS 1 = 0.216 ( 546.) VPPS 2= 0.210 ( 538.) VPPS 3= 0.203 ( 540.) - VPPS 4= 0.188 ( 528.) VPPS 5= 0.492 (. 807.)
/ VPPS 6= 0.506 ( 808.)
CTMT. FPEE AIP VOL. = 289482. TIME = 1515 DATE = 0727 TEMPEPATUPE (DEGREES P.)
= 538.e59 COPPECTED PPE55UPE ( PS I A.) = 64.0149 VAPOP PPESSUPE (PSIA > = 0.3310 i
O t K-17 I f - - _ - -. - -
SUMMAPY OF MEASUPED DATA AT 1530 0727 TEMP 1 = 546.593 ( 8675.) TEMP 2= 547.537 ( 8780.) TEMP 3= 535.522 ( 7569.) TEMP 4= 537.426 (. 7767.> TEMP 5= 532.957 ( 7319.) TEMP 6= 534.156 ( 7439.) TEMP 7= 530.782 ( 7078.) TEMP S= 530.912 (. 7122.) TEMP 9= 521.740 ( e2 0 0. ) TEMP 10 = 542.209 ( 8237.) TEMP 11 = 542.318 ( 8259.) TEMP 12 = 542.295 ( 8252.> PPES 1 = 64.349 ( 64343.) VPPS 1 = 0.216 ( 546.) VPPS 2= 0.210 ( 538.) VPPS 3= 0.204 ( 541.> ~~ VPRS 4= 0.196 ( 539.) VPPS 5= 0.492 ( 807.) VPPS 6= 0.506 ( 808.) CTMT. FREE AIP VOL. = 289487. TIME = 1530 DATE = 0727 TEMFEPATUPE < DEGREES P.)
= 538.666 COPPECTED PPES50RE (PSIA) = 64.0170 VAPOR PRESSURE ('PS I A) = 0.3319 K-18
. 1 e
1 6 I em I
- l ,
i ( i I l
- s. i I
i l 4 l IUMMAPY OF MEASUPED DATA AT 1545 0727 1 . l l TEMP 1 = 546.653 ( 8681.) i TEMP 2= 547.597 (. 8786.) .l TEMP 3= 535.542 ( 7571.) j TEMP 4= 537.596 ( 7784.) TEMP 5= 532.957 ( 7319.) TEMP 6= 534.166 ( 7440.)
- TEMP 7= 530.892 ( 7089.)
i TEMP S= 530.993 ( 7130.) TEMP 9= 521.599 ( 6186.) ' TEMP 10 = 542.229 ( 8239.) I TEMP 11 = 542.268 ( 8254.) s TEMP 12 = 542.245 ( 8247.> I PPES 1 = 64.352 ( 64346.) i 1 VPPS 1 = 0.216 ( 546.) l VPRS 2= 0.210 ( 538.) ! VPPS 3= 0.204 ( 542.) VFPS 4= 0.203 ( 548.) . VPPS 5= 0.489 ( 805.> VPRS 6= 0.506 ( 808.) .. j . CTMT. FPEE AIR VOL. = 289489. - l TIME = 1545 l , DATE = 0727 l TEMPEPATUPE (DEGREES P.) = 538.697 - CORPECTED PPESSUPE (PSIA) = 64.0199 VAPOP PPESSURE (PSIA) = 0.3320 I 1 I 1 & o i k l- K-19
. f l
i I~ l . _ _ . - . , . . . , . , . . - - - - - , - - + - ~ ~ ~ - - - - - - - - - - - - . - - - - - - , - , - - ~ ~ -
I l i i ? : 4 . i i i ' i 1 SUMM6PY OF MEASURED DATA AT 1600 0727 i ! TEMP 1 = 546.803 ( 8696.) l TEMP 2= 547.447 ( 8771.) i TEMP 3= 535.522 ( 7569.) : TEMP. 4= 537.526 ( 7777.) ! j TEMP 5= 532.987 ( 7322.) 1 TEMP 6= 534.216 ( 7445.> . < i TEMP 7= 530.902 ( 7090.) ; i TEMP 8= 530.973 ( 7128.) l l TEMP 9 =- 521.659 ( 6192.) l 1 TEMP 10 = 542.219 ( 8238.>
^
TEMP 11 = 542.268 ( 8254.) ' , TEMP 12 = 542.245 ( 8247.) ' l i l
- PRES 1 = 64.357 ( 64351.>
.t
{' VPRS 1 = 0.216 ( 546.) ' j: VPRS 2= 0.211 ( 539.) ! 3= VPRS 0.204 ( 542.) ! }- VPPS 4= 0.198 ( 541.)
- j. VPPS 5= 0.494 ( 808.) ---
y VPPS 6= 0.506 ( 808.) l CTMT, FPEE AIR VOL. = 289494. ii i , I' 3 l' i TIME = 1600 4 DATE = 0727 ' TEMPERATUPE (DEGREES R.) = 538.698 COPPECTED PRESSURE (PSIA) = 64.0242 l VAPOP PPESSUPE (PSIR) = 0.3327-l l i
~
- K-20
N, .
.s
/
, , s t /
/
SUMMAPY OF MEASUPED DATA AT 1615 0727 , TEMP 1 = 546.943 ( 8710.) - .' f TEMP 2= 547.887 *. 8815.) / . TEMP 3= 535.552 i 7572.) , TEMP 4 = 537.596 ( 7784.) TEMP 5= 533.057 ( 7329.) TEMP 6= 534.246 ( 7448.) TEMP 7= 530.953 ( 7095.) TEMP 8= 531.063 ( 7137.) , TEMP 9= 521.740 ( 62 U 0. ) TEMP 10 = 542.229 ( 8209,:i TEMP 11 = 542.268 ( 8254.) TEMP 12 = 542.235 ( 8246.> PPES 1 = 64.360 ( 64354.) .
' [ VPPS 1 = 0.217 ( 547.)
i\ VPPS 2= 0.211 ( 539.) s VPRS 3= 0.204 ( 542.) VPPS 4= 0.186 ( 525.) - - VPPS 5= 0.491 ( 806.,7 VPPS 6= 0.506 ( 808.) CTNT. FPEE AIR VOL. = 289499. TIME = 1615
- DATE = 0727 a l TEMPEPATUPE < DEGREES P.)
. = 538.761 l COPPECTED PPEOSURE (PSIA) = 64.0290 VAPOP PPESSUPE iPSIA) = u 3309 e .
\
J K-21 ,
e.- SUMMAPY OF MEASUPED LATA AT 1630 0727 TEMP 1 = 547.003 ( 8716.) TEMP 2= 548.257 ( 8852.) TEMP; 3 =, 535.562 ( 7573.) TEMP 4 = 537.686 ( 7793.) TEMF' 5= 533.047 ( 7328.>
' TEMP 6= 534.246 ( 7448.)
TEMP 7= 530.983 ( 7098.)
, TEMP 8= ,53,1.043 ( 7135.)
TEMP 9= 521.690 ( 6195.)
, TEMP 10 = 542.179 ( 8234.)
TEMP 11 = 542.248 ( 8252.) TEMP 12 = 542.225 ( 8245.> , PRES 1 r 64.363 ( 64357.) J' ' VPPS 1 = 0.217 (. 547.) VPRS 2= 0.211 ( 539. ) - ' VPPS 3= 0.206 ( 544.) VPPS 4= 0.198 ( 541.) . VPRS 5= 0.492 ( 807.) VPPS 6= 0.504 ( 807.) i l CTMT. FREE AIR VOL. = 299501. ' ' 4 I 4 s l l TIME = 1630 DATE = 0727 TEMPERATUPE (DEGPEES R.) = 538.781
- COPPECTED PPESSURE (PSIA) = 64.0305 I
l VAPOR PRESSUPE (PSIA) = 0.3324 ! i= x l .-
- . K-22 ,
- s -
i i , *s i '
. - . . - - - . . - - . _ . . . . . . . - . - . ~ . - - - - . . - . . - __ . . - - . - . . . . . . . - . . . _ - . - .
I-i r i : I .i 4 l-i
- LUMMARY OF MEASUPED DATA AT 1645 0727 i
l TEMP 1 = 547.123 ( 8728.) i TEMP 2= 548.287 ( 8855.) i TEMP 3= 535.622 ( 7579.) TEMP 4= 537.686 ( 7793.) ' j TEMP 5= 533.107 ( 7334.)
^
TEMP 6= 534.266 ( 7450.> TEMP 7= 530.993 ( 7099.) TEMP 8= 531.073 ( 7138.) 3 TEMP 9= 521.690 ( 6195.) 4 TEMP 10 = 542.189 s 8235.) i TEMP 11 = 542.248 ( 8252.) TEMP 12 = 542.225 ( 8245.) , PRES 1 = 64.368 ( 64362.> ! l VPPS -1= 0.217 ( 547.)
- j. VPRS 2= 0.211 ( 539.)
! ^VPPS 3= 0.207 ~( 545.)
.VPRS 4= 0.200 ( 544.) - -
VPPS 5= 0.496 ( 809.) ! VPRS 6= 0.504 (._ 807.) J j CTNT. FPEE AIR VOL. = 289503. t i 4 l l TIME = 1645 DATE = 0727 s TEMPERATURE (DEGPEES P.) = 538.805 i j CORPECTED,PPESSUPE (PSIA) = 64.0344 i s VAPOR PRESSURE (PSIA) = 0.3335 1 T l l 1 i ) . ' a I l h a 1 ' 1 i K-23 l I i .
I
~ l l
SUMMAPY OF MEASUPED DATA AT 1700 0727 TEMP 1 = 547.143 ( 8730.) TEMP 2= 548.267 ( 8853.) TEMP 3= 535.552 ( 7572.) TEMP 4 = 53?.746 ( 7799.) TEMP 5= 533.117 ( 7335.) ' TEMP 6= 534.326 ( 7456.) TEMP 7= 531.063 ( 7106.) TEMP 8= 531.123 ( 7143.) TEMP 9= 521.770 ( 6203.) TEMF 10 = 542.199 ( 8236.) TEMP.11 = 542.248 ( 8252.) TEMP 12 = 542.215 ( 8244.)
- PRES. 1 =, 64.372 ( 64366.)
VPFS 1 = 0.217 ( 547.) YPPS 2= 0.212 ( 540.) YPRS 3= 0.207 ( 545.) - VPRS 4= 0.199 ( 543.) VPPS 5= 0.492 ( 807.) VPR5 6= 0.506 ( 808.) CTNT. FREE RIR VOL. = 289508. TIME = 1700 ~ DATE = 0727 TEMPERATUPE (DEGPEES P.) = 538.819 CORRECTED PRESSURE (PSIA) = e4.U387 VAPOR PRESSURE (PSIR) = 0.3331 N K-24 n..-- . _ _ _ _ _ _ b
i 9 l 1 i ld i l i i CUMMAPY OF MEASUPED DATA AT 1715 0727 1 , i TEMP 1 = 547.293 ( 8745.) j TEMP 2= 548.887 ( 8915.) , e TEMP 3= 535.702 ( 7587.) TEMP 4 = 537.786 ( 7803.) ; i TEMP 5= 533.187 ( 7342.) ; 4 TEMP 6= 534.336 ( 74">7. ) l TEMP 7= 531.093 ( 7109.) , . TEMP 8= 531.153 ( 7146.) ; i
; TEMP 9= 521.750 ( 6201.)
l TEMP 10 = 542.229 ( 8239.) - TEMP 11 = 542.268 ( 8254.) - i TEMP 12 = 542.245 ( 8247.) i PRES 1 = 64.374 ( 64Do8.> 4 VPRS 1 = 0.217 ( 547.) i VPRS 2= 0.211 ( 539.) ' ( VPRS 3= 0.207 545.) ..- i VPRS 4 = 0.166 ( 496.) , , f VPPS 5= 0.491 ( 806.) t VPRS 6= 0.504 ( 807.) i i CTNT. FREE AIR VOL. = 289508. ! l '. r i ' TIME = 1715 ; { DATE = 0727 i I ! L TEMPERATUPE ,(DEGREES P.) = 538.902- l t CORRECTED PPESSURE (PSIA) = 64.0448 : 1 VAPOP PPESSURE (PSIA) = 0.3291 ! I 1 I 1 i i K-25 . F I
I EUrir1APY OF f1EASUPED DATA AT 1730 0727 TEMP 1 = 547.523 ( 8768.) T Ef1P 2= 548,997 , gg g 7, , TEMP 3= 535.642 < 7581,, T Ef1P 4 = 537,326 , 7gg7,, TEMP 5= 533.167 ( 7340,:. TEMP 6= 534,406 < 74g4,) TEMP' 7= 531,992 , 71gg,) TEMP 8= 531,163 ( 7147,, T Ef1P 9= 521,750 ,
. gggg,y TEf1P 10 = 542.209 '!. 8237.:'
T Ef1P 11 = 542,248 ( 8252. T Ef1P 12 = 542,215 ( gg44,j PPES 1 = 64.379 ( 64373,, VPPS 1 = 0,219 ( $4g,, VPPS 2= 0.212 < 540,3 VPPS - 3 = 0.206 < 544.) VPPS 4 = 0,137 ( 5 3,,, , , _ VPPS 5= 0.489 ( 9 95, ;, VPRS 6= 0,504 , g g 7, ,, CTMT. FPEE AIP VOL. = 289510. TIME = 1730 DATE = 0727 TEMPEPATUFE (DEGPEES P.) = 538.912 COPPECTED PPESEURE t. PS I A :. = 64,94gl VAPOP FPESSUPE (PSIA) = 0.3308
.K-26
I l l
~UMMAPY
; OF MEASUPED DATA'AT 1745 0727 TEMP 1 = 547.603 ( 8776.)
TENP 2= 549.217 ( 8948.> TEMP 3= 535.722 ( 7589.) TEMP 4 = 537.866 ( 7811.) TEMP 5= 533.197 ( 734?.) TEMP 6= 534.376 ( 7461.) TEMP 7= 531.173 ( 7117.) TEMP 8= 531.183 <. 7149.) TEMP 9= 521.720 ( 6198.) TEMP 10 = 542.189 ( 8235.) ' TEMP 11 = 542.238 ( 6251.> TEMP 12 = 542.215 ( 8244.) PRES 1 = 64.385 ( 6.4379.) VPPS 1 = 0.210 t' 548.)
, VPPS 2= 0.212 ( 540.)
VPPS 3= 0.207 ( 545.) __ VPPS 4= 0.197 ( 540.) VFPS 5= 0.492 ( 807.) VPP! 6= 0.504 ( 807.) CTMT. FPEE RIP VOL. = 289515. l TIME = 1745 DATE = 0727 TEMPERATUPE < DEGREES R.)
= 538.943 COPPECTED PPESSUPE (PSIA) = 64.0522 VAPOR PPESSUPE (PSIA) = 0.3327 O l l
K-27 i
m SUMMAPY OF MEASUFED DATA AT 1800 0727 TEMP 1 = 547.723 ( 8788.) TEf1P 2= 549.217 ( 8948.) TEf1P 3= 535.722 ( 7589.) TEr1P 4 = 537.916 (. 7816.) TEMP 5= 53'3.217 ( 7345.) TEMP 6= 534.406 ( 7464.) TEMP 7= 531.163 ( 7116.) TEMP 8= 531.193 (. 7150.) TEt1P 9= 521.840 ( 6210.) TEt1P 10 = 542.189 ( 8235.) TEf1P 11 = 542.228 ( 8250 > TEMP 12 = 542.205 ( 8243.) PPES 1 = 64.388 ( 64382.) VPPS 1 = 0.'218 ( 548.> VPRS 2= 0.212 ( 54 0. > VPPS 3= 0.206 ( 544.) VPPS 4 = 0.216 ( 564.) _._ VPPS 5= 0.491 ( 806.>
. VPPS 6= 0.504 ( 807.>
CTNT. FPEE AIP VOL. = 289519. TIME = 1800 DATE = 0727 TEMPEPATUPE (DEGPEES P.) = 538.962 COPPECTED PPESSUPE (PSIA) = 64.0538 VAPOP PPESSUPE (PSIA > = 0.3340 i O i\ l K-28
-. . . . . - . . . - . - - . - - . . = -.-. _ _ _ _ _ .- ~ . . .-- --
1 } i e 4 1 l 1 4 1 i 1 . < t 4 j
SUMMARY
OF MEASUPED DATA AT 1815 0727 ! TEMP 1 = 547.843 ( 8800.) i i TEMP 2= 549.437 ( 8970.) ! { TEMP 3= 535.902 ( 7607.) } ! TEMP 4 = 5?8.037 -( 7828.) ! ! TEMP 5= 533.347 ( 7358.) ! j TEMP 6= 534.566 < 7480.) !
- TEMP 7= 531.213 ( 7121.) !
l TEMP 8= 531.293 ( 7160.) . [
- TEMP 9= 521.780 < 6204.> !
i TEMP 10 = 542.249 ( 8241.) ! i TEMP 11 = 542.298 ( 8257.) ! l' TEMP 12 = 542.265 ( 8249.) l 1 r PPES 1 = 64.393 ( 64387.) l j VPRS 1 - 0.218 ( 548 ) VPPS 2= 0.212 ( 540.) l VPRS 3= 0.206 ( 544.)
- VPRS 4 = 0.205 ( 551.) __
+
VPPS 5= 0.489 ( 805.)
- VPRS 6= 0.504 ( 807.)
4 i 5 CTMT. FPEE AIR YOL'. = 289521. i i I - i i TIME = 1815 L 1
- DATE = 0727 i I
1 l TEMPERATURE (DEGPEES R.) = 539.061 ! CDPPECTED PPESSUPE (PSIA) = 64.0602 t I . j VAPDP PPESSURE (PSIA) = 0.3326 4 l i L * ! K-29 i .
.. . . - . .. .. . -- , _ . . - . . .. . ~
1
~
i i 6 i ; 1 1 1
SUMMARY
OF MEASUPED DATA AT 1830 0727 s . j TEMP 1 = 547.973 ( 8813.) TEMP 2= 549.377 ( 8964.)
- 1. TEMP 3= 535.862 ( 7603.)
l TEMP 4= 538.107 ( 7635.) l TEMP 5= 533.377 ( 7361.3 TEMP 6= 534.626 ( 7486.)
- TEMP 7 = ,531.333 ( 7133.)
TEMP 8= 531.313 ( 71 t.2. ) TEMP 9= 521.901 ( 6216.)
,, TEMP 10 = 542.259 ( 8242.)
TEMP 11 = 542.308 ( 8258.) TEMP 12 = 542.285 ( 8251.) i ! PRES 1 = 64.398 ( 64392.) VPPS- 1 = 0.218 ( 548.)
- VPPS 2= 0.212 ( 541.)
VPRS 3= 0.207 ( 546.) - ' 1 VPRS 4 = ~ 0.201 ( 546.) $ VPRS 5= 0.489 ( 805.) ! VPRS 6= 0.504 ( 807.) CTMT. FPEE AIR VOL.' = 289524. 2 f TIME = 1830 DATE = 0727 . j TEMPERATURE (DEGREES P.) = 539.092 COPPECTED PPESSUFE (PSIA) = 64.U652 j VAPOR PPESSUPE (PSIA) = 0.3327 i 4 4 - i . K-30 I '-----w<---*----,-s+.+--v--e. m -- m-+-r.,v - - , --w---~,--c , - -+,, -,.-y,.q--v,w--- w e et*v",-r-~v-
~
4 i l 4 l
SUMMARY
OF MEASUPED DATA AT 1845 0727 . i ! TEMP 1 = 548.073 ( 8823.) ; TEMP 2= 549.607 ( 8987.) '
. TEMP 3= 535.942 ( 7611.)
i TEMP 4= 538.097 ( 7834.) ] TEMP 5= 533.397 ( 7363.) l TEMP 6= 534.606 ( 7484.) i TEMP 7=. 531.353 ( 7135.> l TEMP 8= 531.373 ( 7168.) l
- . TEMP 9= 521.860 ( 6212.)
l TEMP 10 = 542.229 ( 8239.) . TEMP.11 = 542.278 ( 8255.> !- , TEMP 12 = 542.265 ( 8249.) !l <
!' PPES 1 = 64.404 ( 64398.)
VPPS 1 = 0.219 ( 549.) . VPPS 2= 0.212 ( 541.) YPPS 3= 0.207 ( 546.) --- VPPS 4= 0.208 ( 555.) VPPS 5= 0.491 ( 806.) 4 VPPS 6= 0.504 ( 807.) 1 ! l, CTMT. FPEE AIR VOL. = 289528. r li ' li' L 4 TIME = 1845 i DATE.= 0727 f TEMPERATUPE (DEGPEES R.) = $39.108 I CORPECTED PPESSURE (PSIA) = e4.0700 , t VAPOR PRESSUPE (PSIA) = 0.3338 i , 4 e K-31 r I i
i IUMMARY OF MEASUPED DATR AT 1900 0727 TEMP 1 = 548.173 ( 8833./ TEMP 2= 550.068 ( 9033.) i TEMP 3= 535.922 ( 7609.) l' TEMP 4 = 538.157 ( 7840.) TEMP 5= 533.407 ( 7364.> TEMP 6= 534.666 ( 7490.) TEMP 7= 531.403 ( 7140.) TEMP 8= 531.373 ( 7168.) TEMP 9= 521.850 ( 6211.) TEMP 10 = 542.209 t. 8237.) TEMP 11 = 542.268 t. 8254.> TEMP 12 = 542.245 ( 8247.) FPES 1 = 64.410 ( 64404.) VPPS 1 = 0.219 ( 549.) VPP5 2= 0.212 ( 541.> s- ) VPPS 3= 0.208 ( 547.) VFPS 4 = 0 d' 0 3 ( 548.) _f. VPPS 5= 0.492 ( 807.> VPPS 6= 0.504 ( 807.> CTMT. FPEE AIP VOL. = 289531. TIME = 1900 DATE = 0727 , 1 1 TEMPEPATUPE (DEGPEE5 P.) = 539.147 COPPECTED.PPES5UPE (P518) = 64.0760 VAPOP PPES5UPE (PSIA) = U.3338 l
%-]
K-32 l l
J f i d I k i i-i
SUMMARY
OF MERCUPED DATA AT 1915 0727 i i TEMP 1 = 548.283 (. 8844.1 ! TEMP 2= $50.058 ( 9032.) j[ TEMP 3= 535.972 ( 7614.> j! TEMP 4 = 538.237 ( 7848.) il TEMP 5= 533.41? ( 7365.> , ! TEMP 6= 534.636 ( 7487.) .! TEMP 7= 531.413 ( 7141.>
- TEMP 8= 531.323 ( 7163.s I
! TEMP 9= 521.891 (. 6215.)
i, TEMP 10 = 542.189 ( 8235.)
;; TEMP 11 = 542.258 ( 8253.)
TEMP 12 = 542.235 ( 8246.) il ' !j i.- - PPES 1 = 64.414 ( 64406.) , VPRS 1= U.219 ( 550.) : 1: i: VPPS 2= 0.213. ( 542.) ___ , 13 VPPS. 3= 0.211 ( 551.) ! VPRS 4= 0.196 ( 539.) I, VPPS 5.= 0.489 ( 805.>
- i. ' VPPS 6= 0.504 ( 807.)
CTMT. FPEE AIR VOL. = 289533. lI a TIME = 1915
DATE = 0727 s
! ,' TEMPERATUPE (DEGREES R.> = 539.155 li i {f - COPRECTED PRESSURE (PSIA) = 64.U806 ll l VAPOR PPESSUPE s'PS I R) = 0.3332 ll. - !L
- s E
l l l l K-33
-t
---mv --
m, we-r eg o wen
=- .- . . - . .. - -.
t p APPENDIX L Verification Test Summary Data 4 1 OUrir1ARY DATA PEACH BOTTuri VERIFICATION UtilT 2 7/2'8/8 Alr1AX = 0.500 CFVOL = 289982.00 VPHTET = 0.545 VRATEM = 0.510 e TIr1E DATE TEr1P PPES5UPE VPRS VOLUr1E 500 728 538.83263 63.941993 0.33401998 289494.0 515 728 538.36993 63.876766 0.33234149 289494.0 530 728 537.92781 63.823000 0.33018542 289496.0 545 728 537.56825 63.779598 0.32865109 289494.0 600 728 537.34460 63.748172 0.32712243 289494.0 1 615 728 537.17547 63.721803 0.32652914 289494.0 630 728 537.04856 63.702052 0.32530954 289492.O d.45 728 536.93377 63.683176 0.32521309 289494.0 700 728 536.83545 63.644316 0.34909350 d89494.0 715 728 536.78640 63.628881 0.34954996 289494.0 730 728 536.72336 63.616627 0.34862151 289496.0
, 745 728 536.68429 63.632040 0.32242454 289529.0 800 728 536.63783 63.621594 0.32188490 289534.0 815 728 536.56267 63.614653 0.32143706 289534.0 830 728 536.48532 63.603831 0.32267173 289534.0 845 728 536.49043 63.595199 0.32231603 289545.0 900 728 536.48009 63.588401 0.32212420 289567.0 915 728 536.50757 63.564553 0.32297608 289543.0 930 728 536.48434 63.578785 0.32275231 289545.0 i 945 728 536.48935 63.573835 0.32270940 289545.0
~1000 ?28 536.53563 63.569267 0.32328348 289557.0 0 0 0. 0 0. 0 0. 0 0. 0 7
N I v 'l Y' l L-1
..- - . _ . - = . . = . . - ~ - - . - .- - . __. . . . - . - -. . .... - - -
i i APPENDIX M ; } Verification Test Trend Report + i
)
i 4 . . PEACH BOTTOT1 VEPIFICATIOri UttIT 2 7/28/8 TPEtiD REPOPT LEAMAGE RATES (WEIGHT PERCEtiT/ DAY) l- TIME Arid DATE AT START OF TEST: 500 0728 ELAPSED TIME: 5.00 HOURS tiO. DATA ELAPSED TOTAL-tit 1E AriALYS!$ r1 ASS-POIriT 'AriALYSIS I POINTS TIME MEAN CALCULATED CALCULATED 10 2.25 O.903 0.882 1.052 11 2.50 0.925 0.963 1.117
! 12 2.75 0.900 0.868 0.953 13 3.00 0.879 0.797 0.842 14 3.25 0.656 0.726 0.742 1
15 3.50 0.834 0.664 0.663 - 16 3.75 0.817 0.624 0.617 ~ 17 4.00 0.800 0.536 0.577
! 18 4.25 0.790 0.572 0.570 19 4.50 0.780 0.559 0.563 , 20 4.75 0.772 0.552 U.562 21 5.00 0.766 0.550 0.568 1
1 4 ) i d l
! I f-l i.
i M-1 4
. . - - , ,. , . . . - . . - - . , ,.,,------.,---,,r --
, , , - - -. -- , , . , - - , . , ,.---,----,,n,,-- , - -n-
APPENDIX N v PEACH BOTTOM VEPIFICATIOri UtlIT 2 7/28/8 LEAKAGE PATE d.iEIGHT PEPCEfil/ DAY) MASS-POIriT AliALYSIS TIME Arid DATE AT START OF TEST: 500 0728 ELAPSED TIME: 5.00 HOUPS TIME TEMP PPESSUPE CTMT. AIP MASS LOSS TOT.AV6. MASS (R) (PSIA) MASS (LBM) (LBM) LOSS (LBM/HP) 500 538.833 63.9420 92726 515 538.370 63.8768 92711 15.0 59.9 530 537.928 63.8230 92709 1.3 32.5 545 537.568 63.7796 92708 1.7 23.9 600 537.345 63.7482 92701 7.1 25.1 615 537.175 63.7218 92691 9.2 27.4 630 537.049 63.7021 92684 7.5 27.8 645 536.934 63.6832 92677 7. 0 27.8 700 536.835 63.6443 92637 39.6 44.2 715 536.786 63.6289 92623 14.0 45.5 730 536.72'3 63.6166 92617 6.3 43.5 ' t 745 536.684 63.6320 92657 -39.7 25.1 l i (Q / 800 815 536.638 536.563 63.6216 63.6141 92651 92653 5.6
-2.0 24.8 22.3 830 636.485 63.6038 92652 1.5 21 >
845 536.490 63.5952 92642 9.9 22.4 900 536.480 63.5884 92641 1.1 21.3 915 536.508 63.5246 92623 18.0 24.3 930 536.484 63.5788 92619 3.8 23.7 945 536.489 63.5738 92611 8.1 24.2 1000 536.536 63.5693 92600 10.8 25.1 l CREE AIR VOLUME USED (MILLIONS OF CU. FT.) = 0.290 REGPESSIOri LINE IriTEPCEPT (LBM) = 92713 ILOPE (LBM/HR) = -21.9 VEPIFICATIOri TEST LEAK AGE PATE UPPEP LIMIT = 0.635 - V@RIFICATIOri TEST LEAKAGE RATE LOWER LIMIT = 0.385 THE CALCULA1ED LEAKAGE PATE = 0.568 CTNT. FPEE RIP VOLUME AT TIME 1000 = 289557.
? \m N-1
l i APPENDIX 0
% l l
PEACH BOTTOM VERIFICATION UNIT 2 7/28/8 LEAKAGE PATE C.lEIGHT PERCENT / DAY) TOTAL-11ME ANALYSIS , TIME AND DATE AT STAPT OF TEST: 500 0728 ELAPSED TIME: 5.00 HOURS TIME TEMP. PPES5URE MEASURED (R) (PSIA) LEAKAGE PATE
-500 538.833 63.9420 515 538.370 63.8768 1.551 530 537.928 63.8230 0.841 545 537.568 e3.7796 0.620 600 537.345 63.7482 0.649 615 537.175 63.7218 0.709 630 537.049 63.7021 0.720 645 536.934 63.6832 0.721 700 536.835 63.6443 1.143 715 536.786 63.6289 1.177 730 536.723 63.6166 1.125 745 536.684 63.6320 0.648 800 536.638 63.6216 0.643 _ _ ,
815 536.563 63.6141 0.577 830 536.485 63.6038 0.547 845 536.490 63.5952 0.580 90 536.480 63.5884 0.550 915 536.508 63.5846 0.e28 930 536.484 63.5788 0.614 945 536.489 63.5738 U.626 1000 536.536 63.5693 0.651 MEAN OF MEA 5URED LEAKAGE RATES = 0.766 VERIFICATION TEST LEAKAGE PATE UPPEP LIMIT = 0.670 VERIFICATION TEST LERKAGE PATE LOWER LIMIT = 0.420 THE CALCULATED LEAKAGE RATE = 0.550 i (~ . i t (- 0-1 l
.- n _ _ . _ _
4 i i i l APPENDIX P Verification Test Summary of Measured Data j
SUMMARY
OF MEASUPED DATA Af 500 0728 ' 5 TEMP 1 = 546.483 '( 8664.> ] TEMP 2= 548.637 ( 8890.> .
- TEMP 3= 536.022 ( 7619.)
} TEMP 4= 537.476 (. 7772.) i TEMP 5= 533.407 ( 7364.> ' ' ! TEMP 6= 534.426 (' 7466.> ! TEMP 7= 531.243 ( 7124.) i TEMP S= 531.233 ( 7154.> l 1EMP 9= 521.237 ( 6150.) i
~
TEMP 10 = 542.189 ( 8235.) I TEMP 11 = 542.238- ( 8251.> ! TEMP 12 = 542.245 ( 8247.) i 1 i PRES 1 = 64.276 ( 64270.) I !
- VPPS 1 = 0.217 ( 547.) i i VPRS 2= 0.212 ( 54 0. >
- VPRS 3= 0.206 ( 544.) !
VPPS 4 = 0.213 ( 561. )- l VPRS 5= 0.491 ( 806.> VPRS 6= 0.506 ( 808.> j -. t i CTMT. FREE AIR VOL. = 289494 ~ i i i 1 TIME = 500 j DATE = 0728 ' s
. TEMPERATUPE (DEGREES R., = 538.833 i
j CDPRECTED PPESSUPE (PSIA) = 63.9420 4 4 1 VAPOR PRES 50PE- (PSIA) = 0.3340 I 1 4 4 P-1 . i1. i I~ s.,,_n._._________._...__.-___. . . _ _ . . . _ , - . . _ _ . . - . . . . _ _ , _ . _ , _ .
EUMMARY OF MEASUPED DATA AT 515 0728 TEMP 1 = 545.044 5 8520.) TEMP 2= 546.667 ( 8693.> TEMP 3= 535.692 ( 7586.) TEMP 4= 536.654 ( 7690.> TEMP 5= 532.777 ( 7301.) TEMP 6= 533.866 < 7410.) TEMP 7= 53U.762 ( 7076.) TEMP 8= 530.782 < 7109.) TEMP 9= 520.755 ( 6102.) TEMP 10 = 542.189 ( 8235.) TEMP 11 = 542.258 ( 8253.> TEMP 12 = 542.245 ( 8247.) PRES 1 = 64.2d'9 ( 64203.) - VPRS 1 = 0.213 ( 542.> VPRS 2= 0.209 (. 536.) i VPPS 3 =- 0.202 ( 539.) ___ . VPRS 4= 0.213 ( 561.> ' VPPS 5= 0.491 ( 806.> VPRS 6= 0.506 ( 808.) CTMT. FREE-AIR VOL. = 289494.
/ .
TIME = 515 DATE = 0728 TEMPERATURE (DEG' PEES P.) = 538.370 CORRECTED PPESSURE (PSIA) = 63.6768 VAPOR PRESSUPE (PSIA) = 0.3323 P-2 e
- . . . . - ~ . - . - __ = .. - _ . _ . - . . . - . - .. _ . . - - ...- . - .
i i SUMMAPY OF MEASUPED DATA AT S30 0728 TEMP 1 = 543.774 ( 8393.) TEMP 2= 544.996, ( 8526.) ! TEMP 3= 535.172 ( 7534.) ; TEMP 4= 535.933 ( 7618./ : TEMP 5= 532.147 ( 7238./ TEMP 6= 533.307 ( 7354.> TEMP 7= 530.161 ( 7016.> TEMP 8= 530.311 ( 7062.) TEMP 9= 520.514 ( 6078.) TEMP 10 = 542.189- ( 8235.) TEMP 11 = 542.228 ( 8250.) TEMP 12 = 542.215 ( 8244.> Y PRES 1 = 64.153 ( 64147.) ].; VPPS 1= 0.210 ( 538.)
- VPRS 2= 0.206 ( 533.)
VPRS 3= 0.199 ( 534.) ( / VPRS 4= 0.213 561.)
- VPRS 5= 0.489 ( 805.)
y VPRS 6= 0.504 ( 807.) i CTMT. FREE AIR VOL. = 289496. I
- i TIME = 530
; DATE = 0728
$ TEMPERATUPE (DEGREES R.) = 537.928 d b COPPECTED PRESSUPE (PSIA) = 63.8230 j VAPOR PPESSURE (PSIA) = 0.3&O2 i J i I i I 1 P-3 l 1 i , i I
h l -
;Uf1MAPY OF f1EASUPEI) DATA AT 545 0728 TEf1P 1 = 542.974 ( 8313.>
l TEf1P 2= 543.636 (. 839 0. > ! TEMP 3= 534.701 < 7487.) TEf1P 4= 535.371 t' 7562.1 TEMP 5= 531.657 ( 7189.> TEf1P 6= 532.877 ( 7311.) IEf1P I= 529.800 ( 693 0. > TEf1P 8= 529.830 ( 7014.) TEMP 9= 520.263 ( 6053.> TEMP 10 = 542.139 ( 8230.> TEf1P 11 = 542.188 <. 8246.) TEf1P 12 = 542.164 ( 8239.> PPES 1 = 64.108 ' 64102.> VPPS 1 = 0.208 *. 535.> r VPRS 2= 0.204 < 530.) l' VPRS 3= 0.196 ( 530.> VPRS 4 = 0.213 ( 561.> _
; VPPS 5= 0.489 ( 805.)
VPRS 6= 0.503 ( 806.) i CTMT. FREE AIR VOL. = 289494. s l ' ) l TINE = 545 DATE = 0728 TEMPEPATURE (DEGREES R.> = 537.568 COPPECTED PPESSUPE (PSIA) = 63.7796 VAPOP PRESSUPE (PSIA) = 0.3287 e t P-4
.- - _=__. - - - -.- - -.- . . . - - _. ..- _. . _ - -
r ,
~ >
8 J
SUMMARY
OF MEASUPED DATA AT 600 0728 TEMP 1 = 542.324 ( 8248.) TEMP 2= 542.766 ( 8303.) l TEMP 3= 534.381 ( 7455.> 1 TEMP 4 = 535.101 ( 7535.)
- TEMP 5= 531.377 ( 7161.)
TEMP 6= 532.607 ( 7284.) TEMP 7= 529.550 ( 6955.) TEMP 8= 529.550 ( 6986.> ' TEMP 9= 520.112 ( 6038.) TEMP 10 = 542.129 ( 8229.) TEMP 11 = 542.168 ( 8244.) TEMP 12 = 542.144 ( 8237.) PRES 1 = 64.075 ( 64069.) VPRS 1 = 0.206 ( 532.) VPRS 2= 0.202 ( 527.) - i VPPS 3= 0.193 (. 526.)
- VPPS 4= (
0.213 561.)
, VPRS 5= 0.487 ( 804.) --- I VPRS 6= 0.503 ( 806.>
i. CTNT. FREE AIR VOL. = 269494. I TIME = 600 ! I. DATE = 0728 l TEMPERATURE (DEGREES R.) = 537.345 i CORRECTED PRESSURE (PSIA) = 63.7482
- VAPOR PRESSUPE (PSI A) = 0.3271 4
i 4 3 I P 4 P-5 i
4 .l 1 1. i l [
SUMMARY
OF MEASUPED DATA AT 615 0728 i TEMP 1 = 541.964 (. 8212.) ' i TEMP 2= 542.42'6 ( 8269.)
- TEMP 3= 534.121 ( 7429.) '
j , TEMP 4= 534.780 ( 7503.) i TEMP 5= 531.057 ( 7129.)
- j. TEMP 6= 532.357 ( 7259.)
, TEMP 7= 529.409 ( 6941.1 i TEMP 8= 529.369 ( 6968.)
, TEMP 9= 520.022 ( 6029.)
TEMP 10 = 542.079 ( 8224.) 4 TEMP 11 = 542.128 ( 824 0. > TEMP 12 = 542.124 ( 8235.) PRES 1 = 64.048 ( 64042.) VPRS 1 = 0.205 ( 531.> l VPRS 2= 0.200 ( 525.) , VPPS 3= 0.191 ( 524 .- > ( VPRS 4= 0.213 561.) __
. VPRS 5= 0.489 ( 805.)
VPRI 6= 0.501 ( 805.) 7 CTMT, FREE AIR VOL. = 289494. i i { TIME = 615 DATE = 0728 I TEMPEPATUPE (DEGREES R.) = 537.175 i COFPECTED PRESSUPE (PSIA) = 63.7218 1
, VAPOR PPESSURE (PSIA > = 0.3265 9
j' P-6 r',,- yygrgww g-p,- - r +w-- --> w.ww9--p 7- 1- y ww---wwr-- gi--w- yrj gr g+ mW&--- ----,---g- ,-+-u*p --~ g--_ , e -e e w w wwwww - e m <s--sm-+m mdw->^s&aw qu ~ e
. . .- _.._.. _. - . -~_ _ _ _ .
1 i , l 1 I i! I!. i i-i i
SUMMARY
OF MEASUPED DATA AT 630 0728 i
; TEMP 1 = 541~.714 ( 8187.)
i TEMP 2= 542.096 ( 8236.) TEMP 3= 533.881 ( 7405.>
. TEMP 4= 534.610 ( 7486.)
'; TEMP 5 =' 530.887 4 7112.) TEMP 6= 532.197 ( 7243.) TEMP 7 =.529.199 ( 6920.) > ! TEMP 8= 529.209 ( 6952.) TEMP 9= 519.921 ( 6019.> ! TEMP 10 = 542.049 ( 8221.) ! TEMP 11 = 542.098 ( 8237.) f TEMP 12 = 542.094 ( 8232.) ! PRES 1 = 64.027 ( 64021.) VPRS 1 = 0.203- ( 529.) } VPRS 2= 0.200 ( 524.) I VPPS 3= 0.192 ( 525.> ___ VPRS 4= 0.213 ( 561.) } VPPS 5= 0.486 ( 803.) VPRS 6= 0.499 ( 804.) CTNT. FREE' AIR VOL. = 289492. { i t j
; TIME = 630 l -DATE = 0728 l TEMPERATURE (DEGREES R.) = 537.049 COPPECTED PPESSURE (PSIA) = 63.7021
. VAPOP PRESSURE (PSIA) = 0.3253 I i 4
**We**
P-/ l' l
+
- ...-.,....v,....-- - , , , .- ..-----,.. - -.- _- ..~-m M - . - - , - - - - - , - - - - -
. - m- _ . - . . - .__ _ ._. _ _ _ . _ _ _ _ - _ . . . . _ _ _ _ _ _.._ . . _ _ _ . . _ _ _ . _ . . _ _ _ _ ,_ __ . _ _ _ _ _
l l 4 i I q i i
SUMMARY
OF MEASURED DATA AT 645 0728 t TEMP 1 = 541.615 ( 8177.) TEMP 2= 542.006 ( 8227.) l TEMP 3= 533.691 ( 7386.) 4 TEMP 4= 534.430 ( 7468.) j TEMP 5= 530.707 ( 7094.) , TEMP 6= 532.017' ( 7225.) TEMP 7= 528.828 ( 6883.) TEMP 8= 529.079 ( 6939.) - TEMP 9= 519.770 ( 6004.) j TEMP 10 = 541.999 ( 8216.) i TEMP 11 = 542.048 ( 8232.> TEMP 12 = 542.044 ( 8227.>
- PRES 1 = 64.008 (.64002./
j VPPS 1= 0.203 ( 528.) f VPRS 2= 0.200 ( 524.) ! 4 VPRS 3= 0.192 ( 525./ ~~ i VPRS 4= 0.213 ( 561.) VPRS 5= 0.486 ( 803.) ;
! VPRS 6= 0.499 ( 804.>
CTNT. FREE AIR VOL. = 289494, t TIME = 645 DATE-= 0728
/
I TEMPERATUPE (DEGREES R.) = 536.934 COPPECTED PRESSURE (PSIA) = 63.6832 VAPOR PPESSUPE (PSID) = 0.3252. I l l t i ' P-8
, - , , , , - _ - , - - _ - - - . , - , - - - ,- , . , ,,.,w, , , , , ,,.. . , , _ _ , . _ . , _ , , _ , . , , _ , _ , , , , _ , _ _ _ _ _ , , , _ , , _ _ _ , , ,
i i ? i < i t {
- T i t
SUMMAPY OF MEASURED DATA AT 700 0728 l TEMP 1 = 541.445 ( 8160.> TEMP 2= 541.886 ( 8215.) ! TEMP 3= 533.510 ( 7368.) )
- TEMP 4 = 534.219 ( 7447.)
TEMP 5= 530.577 ( 7081.) TEMP 6= 531.907 ( 7214.) TEMP 7= 528.708 ( 6871./ { TEMP 8.= 528.969 ( 6928.)
! TEMP 9 = 519.730 ( 6000.)
TEMP 10 = 541.939 ( 8210.) ' 1 TEMP 11 = 542.008 ( 8228.) . 4 TEMP 12 = 542.004 ( 8223.)
- PRES 1 = 63.993 ( 63987.)
( i VPPS: 1 = 0.203 ( 528.> , i VPPS 2= 0.198 ( 522.) ~ ! j VPRS 3= 0.192 ( 525.> i VPRS 4= 0.464 ( 777.)
- VPRS 5= 0.484 ( 802.) i l VPPS 6= 0.498 ( 803.) .
l CTMT. FREE AIR VOL. = 289494 iL a 1 i ! TIME = 700 { DATE = 0728 i , TEMPERATUPE (DEGREES R.) = 536.835 - I CORRECTED PPESSURE (PSIA)- = 63.6443 ! l , VAPOR PPESSURE (PSIA) = 0.3491 l i k l l N P-9
. =e- , . -e .w - -.< c --- --. .r, , - - - - - , - --,--..--,----~--*v----------------nv------ ,-e--- e --e--,rm = s w r -wu--r-- e- .-e-e--
I i 4 - I +
. i 4
1
/
SUMMAPY OF MEASUPED DATA AT 715 0728 1-l TEMP 1 = 541.395 ( 8155.) . .
- TEMP 2= 541.856 ( 8212.)
TEMP 3= 533.370 ( 7354.) TEMP 4= 534.109 ( 743o.> TEMP 5= 530.467 ( 7070.> l TEMP 6= 531.797 ( 7203.) i TEMP 7= 528.688 ( 6869.) i.t TEMP 8 * '528.888 ( 6920.> TEMP 9= 519.740 ( 6001.) TEMP 10 = 541.939 ( 8210.) - i TEMP 11 = $41.998 ( 8227.> IEMP 12 = 541.994 ( 8222.) PRES 1 = 63.978 ( 63972.) ) ! VPRS 1= 0.203 ( 528.) * ! VPPS 2= 0.199 ( 523.) I VPRS 3= 0.192 ( 525.) VPRS 4 = 0.464 ( 777.) --- l VPRS 5= 0.486 ( 803.) ! VPPS 6= 0.498 ( 803.) 1 CTMT. FREE AIR VOL. -
= 289494. .
a ! 4 1 i T I11E = 715 DATE = 0728 i j TEMPEPATUPE (DEGREES P.) = 536.786 l CORRECTED PRES 5UPE (PSIA) = 63.6289 L
- VAPOP PPESSUPE (.PS I A) = 0.3495, t
I i 4 i' P-10 [ I- '__,___,__.m._ _ _ , . . - . , , _ _ . .-....,___..,_,,._f._,_ . , . . . . , __. _ . . - _ , _ _ _ , , _ _ _ . __ _ . . _ . , _ , _ _ . , _ _ . . - - _ , . , , , _ _ . _ _ _ - . _ , _ , _ _ , _ _ _ _ _ . _ , _
.. . . . - . . - _ _ _ - . . _ - - - . - . . . - -- - - -.- ~ - - - - . - - - - - - -
t ] , i 1 l
\
i
SUMMARY
OF MEASURED DATA AT 730 0728 i I TEMP 1 = 541.345 ( 8150.) ;
- TEMP 2= 541.746 (.8201./
l TEMP 3= 533.270 ( 7344.> ; ', TEMP 4= 534.009 ( 7426.) TEMP 5= 530.417 ( 7065.) TEMP 6= 531.727 ( 7196.) TEMP 7= 528.658 ( 6866.) l' TEMP 8 = 528.788 ( 6910.) TEMP 9= 519.700 ( 599?.) TEMP 10 = 541.899 ( 8206.)
- , TEMP 11 = '541.938 ( 8221.>
- j TEMP 12 = 541.954 ( 8218.)
! PRES 1 = 63.965 ( 63959.) VPPS 1 = 0.203 ( 528.) VPPS 2= 0.198 ( 522.)
, VPRS 3= 0.191 ( 523.)
VPRS 4= 0.464 ( 777.) , ! VPRS 5= 0.484 ( 802.) ' 1 VPRS 6= 0.498 ( 803.) '
. CTNT. FREE RIP VOL. = 289496.
i i I i TIME = 730
! DATE = 0728 TEMPEPRTURE (DEGREES R.) = 536.723 l
l CORRECTED PRESSURE (PSIA) = 63.6166 1 VAPOR PPESSURE (PSIA) = 0.3488-5 i i. I L i j P-11 i _ , _ . . . _ . . . - . _ _ - _ _ - . . - . , , - - - - - . - . - - .-._...,..,--m-__=-.-.~._-_,,m. - - - . _ - - . - -_ -.,- .-, .
._ l b.i ~
1 s l J l d
SUMMARY
OF MEASUPED DATA AT' 745 0728 TEMP 1 = 541.325 ( 8148.) TEMP 2= 541.746 ( 8201.) -'l. . .. TEMP 3= 533.150 A 7332.> TEMP 4= 533.959 ( 7421.) TEMP 5= 530.287 ( 7052.) ' TEMP 6= 531.647 ( 7188.) TEMP 7= 528.698 ( 6870.> ' , TEMP 8= 528.728 ( 6904.) - ' TEMP 9= 5194791 ( 6006./ p TEMP 10 = 541.869 ( 8203.)
- TEMP 11 = 541.vi8 ( 8219.)
< TEMP 12 = 541.933 A 8216.) ,
i PPES 1 = 63.954 ( 63948.) . VPPS 1 = 0.203 ( 528.) -
~
VPRS 2= 0.199 ( 523.) ( VPRS 3= 0.191 524.) VPRS 4= 0.205 ( 551.) VPRS 5= 0.481 ( 800.) VPRS 6= 0.496 ( 802.) CTNT. FREE AIR VOL. = 289529. 1 - TIME = 745 , .
- DATE = 0728
-TEMPERATUPE (DEGPEES R.) = 536.684 s .
. COPRECTED PRESSURE (PSIA) = 63.6320 VAPOP PRESSURE (PSIA) = 0.3224 i* k , f' l ,/ ' ,- 1 i ',. P-12 e l-
.f ie
, 'r.' ( g .
... . _ . . . ., - - , . - - - , .,----r..--..m .
- - , - - _t - -.., w,^ - ..y-.. .- .,.-..w,
t ( SUMMAPY OF NEASUPED DATA AT 800 0728 TEMP 1 = 541.275 ( 8143.) TEMP 2= 541.615 s. 8188.) TEMP 3= 533.110 ( 7528.> TEMP 4 = 533.898 ( 7415.) s TEf1P 5= 530.257 ( 7049.) TEMP 6= 531.607 ( 7184.) TEMP 7u 528.598 ( 6860.)
! TEMP 8= 528.688 ( 6900.>
TEMP 9= 519.680 ( 5995.> TEMP 10 = 541.829 ( 8199.) TEMP 11 = 541.908 ( 8218.) TEMP 12 = 541.903 ( 8213.) PRES 1 = 63.943 ( 63937.> VPPS 1 = 0.203 ( 528.>
} VPRS 2= 0.199 ( 523.)
l VPPS 3= 0.191 ( 523.> VPPS 4= 0.198 ( 541.) __. VPPS 5= 0.482 ( 861.) VPPS 6= 0.496 ( 802.> ' CTNT. FREE AIP VOL. = 289534. T If1E = 800 DATE = 0728 TEMPERATUPE DEGPEES P.) = 536.638 COPPECTED PPESSUPE- (PSI A) = 63.6216 VAPOR PPESSURE : PSIA > = 0.3219 b 4
%
- I s_,
P-13
, _ _ _ . _ _ . ~ . . _ _ _ _ _ _ _ _ _ _ . _ _ _ . - _ _ _ _ _ _ _ . - _ . _ -- _ _ _ . - _ _ _ _ _ _ . _ . _ . ._ __ ._ _ _ _ . . _. _ - __ _- ..__
i
~ , !. I 1
i i i' 4 1 t i 4
SUMMARY
OF MEASUPED DATA AT S15 0728 , TEMP 1 = $41.305 ( 8146.) TEMP 2= 541.575 ( 8184.) i TEMP 3= 533.000 ( 7317.) TEMP 4 = 533.808 ( 74U6.)
- TEMP 5= 530.237 ( 7047.)
l TEMP 6'= 531.487 ( 7172*.) i TEMP 7= 528.568 ( 6857.) l TEMP 8= 528.578 ( 6889.>
! TEMP 9= 519.590 ( 5986.)
i TEMP 10 = 541.759 ( 8192.) ] TEMP 11 = 541.808 ( 8203.) TEMP 12 = 541.813 ( 8204.) i PPES 1= 63.935 ( 63929.) VPPS 1= 0.203 ( 528.) j VPPS 2= 0.199 ( 523.) i VPPS 3= 0.187 ( 518.) ! VPPS 4= 0.200 ( 544.) ~ ~ i VPPS 5= 0.482 ( 801.) I VPPS 6= 0.496 ( 8 0'2. )
- 1
!: CTMT. FREE AIR VOL. = 289534. )
1
) .
TIME = 815 ' l DATE = 0728 ( i j TEMPERATURE (DEGREES R.) = 536.563 f 1 i CORRECTED PRESSURE (PSIA) = 63.6141 VAPOR PRESSURE (PSIA) = 0.3214 l 1 I 1 h I
-P-14 I
I
,--,m-, ,- ---v--- ,,--,,,3 , -,,wy..,%. ,,,w, , - - - - - ,-..,,w , - . - - - - m,-~,y .-w ,,.- - - -- . , ,= ,---n-m-w wv,-- * ,e ,-=,,,r4
P I 1 l i SUMMAPY OF M ASUPED DATA AT 830 0728 i TEMP 1 = 541.195 ( 8135.> l TEMP 2= 541.395 ( 8166.)
. TEMP 3= 532.920 ( 7309.)
TEMP 4= 533.698 ( 7395.> i TEMP 5= 530.207 ( 7044.) TEMP 6= 531.397 ( 7163.> TEMP 7= 528.478 ( 6848.)
-TEMP 8= 528.498 ( 6881.)
TEMP 9 =* 519.600 ( 5987.) TEMP 10 = 541.689 ( 8185.,> TEMP 11 = 541.748 ( 8202.> TEMP 12 = 541.743 ( 8197.) l j PRES 1= 63.927 ( 63920.> VPRS 1 = 0.203 ( 528.) i VPPS 2= 0.199 ( 523.> i VPPS 3= 0.193 ( 526.) l VPRS 4 = 0.201 ( 546.) I (
~
VPRS 5= 0.482 801.> qt VPRS 6= 0.496 ( 802.)
;l CTMT. - FPEE A1R VOL. = '289534.
i 1 TIME = 830 DATE = 0728 , TEMPERATURE (DEGPEES R./ = 536.485 , COPPECTED PPESSUPE (PSIA) = 63.6038 VAPOP PPESSUPE (PSIA) = 0.3227 l l I l, L k ? - P-15 l - L ~_.
SUMMAPY OF MEAEURED DATA AT S45 0728 TEMP 1 = 541.175 e. 8133.) TEMP 2= 541.515 ( 8178.) TEMP 3= 532.940 ( 7311.) TEMP 4 = 533.758 ( 7401.) TEMP 5= 530.247 t. 7048.> - TEMP 6= 531.387 '. 7162.> TEMP 7= 528.417 ( 6842.) TEMP 8= 528.448 ( 6876.> TEMP 9= 519.570 ( 5984.) TEMP 10 = 541.669 ( 8183.) TEMP 11 = 541.748 ( 8202.) TEMP 12 = 541.733 ( 8196.) PPES 1 = 63.918 ( 63911.) VPPS 1= 0.203 ( 529.) s VPRS 2= 0.199 ( 523.) VPRS 3= 0.193 ( 526.>
^ VPRS 4= 0.197 ( 540.>
VPPS 5= 0.484 ( 802.) VPPS 6=- 0.494 ( 801.> __ CTMr. FPEE AIP VOL. = 289545. TIME'= 845 DATE = 0728 TEMPERATURE (DEGREES R.) = 536.490 COPPECTED PPESSUPE (PSIA) = 63.5952' VAPOP PRESSURE (PSIA) = 0.3223 a P-16
1 ! I
~
l \ i , i lt ,1 , i l-EUMMARY OF MEASUPED DATA AT 900 0728 i TEMP 1 = 541.175 ( 8133.> l TENP 2= 541.645 ( 8191.) ' TEMP 3= 532.860 ( 7303.) > TEMP 4 = 533.688 ( 7394.) TEMP 5= 530.207 ( 7044.) TEMP 6= 531.387 ( T162.> i TEMP 7= 528.428 ( 6843.) ., TEMP S= 528.417 ( 6873.) 1 TEMP 9= 519.650 ( 5992.) l TEMP 10 = 541.649 ( 8181.) 1 TEMP 11 = 541.728 c. 8200.) J TEMP 12 = 541.723 ( 8195.) l .I ) PRES 1= 63.911 ( 63904.) { VPPS 1 = 0.203 ( 529.) a VPRS 2= 0.199 ( 523.) ! VPPS 3= 0.192 ( 525.) VPRS 4= 0.200 < 544.) )' VPRS 5= 0.482 ( 801.) (
'- ~~
VPRS 6= 0.494 801.) CTNT. FREE AIR VOL. = 289567. i TIME = 900 DATE = 0728 TEMPERATUPE (DEGREES R.) = 536.480
- COPPECTED' PRESSURE (PSIA) = 63.5884 VAPOR PPESSURE (PSIA) = 0.3221 i
1
.~.__. ..
, P-17 - i
- - , , - - ,n, -m. -en -m.- ,.-,r-,- . . . - . - - + , ---n.--, , , - - , , =- re - - - - - - - , - , - - - - ,-- -~ . - - - - -, - -
I j ! i i > q , i i a i SUMMAPY OF MEASUPED DATA AT 915 0728 1 < o TEMP 1 = 541.774 ( 8193.) l TEMP 2= 541.675 ( 8194.) ' TEMP 3= 532.790 ( 7296.) TEMP 4= 533.688 ( 7394.) TEMP 5= 530.237 ( 7047.) TEMP 6= 531.367 ( 7160./ TEMP 7= 528.417 ( 6842.)
- TEMP 8= 528.417 ( 6873.> -
I TEMP 9= 519.700 -( 5997.) TEMP 10 = 541.629 ( 8179.) TEMP 11 = 541.698 ( 8197.) TEMP 12 = 541.693 ( 8192.) PRES 1= 63.908 ( 63901.) VPPS 1 = 0.204 ( 530.) VPPS 2= 0.200 ( 524.) : VPRS 3= 0.196 ( 530.> .. VPPS 4= 0.203 ( 548.) 2 VPRS 5= 0.481 ( 800./ VPPS 6= 0.494 ( 801.) CTMT. FREE AIR VOL. = 289543. ' I 4 8 TIME = 915 DATE = 0728 - TEMPERATUPE (DEGPEES P.) = 536.508 ' i CORRECTED PPES5UPE (PSIA) = o3.5846 VAPOR PPESSUPE (PSIR) = 0.3230 N I P-18 i . _ _ _ _ _ . _ . . , _ _ _ _ _ _._.~9-. _ - _ _ _ _ _ _ _ - . _ _ ,
l l l 2 i 4 1 i i i
SUMMARY
'0F MEASURED DATA AT 930 0728
~
TEMP 1 = 541.255 ( 8141.) TEMP 2= 541.766 ( 8203.) TEMP 3= 532.810 ( 7298.) . TEMP 4 = 533.748 ( 7400.) TEMP 5= 530.237 ( 7047.) TEMP 6= 531.357 ( 71b9.) ! TEMP 7= 528.498 ( 6850.) TEMP 8= 528.407 ( 6872.> TEMP 9= 519.750 ( 6002.>
- TEMP 10 = 541.619 ( 8178.>
TEMP 11 = 541.688 ( 8196.) TEMP 12 = 541.683 ( 8191.) I PRES 1= 63.902 ( 63895.) i VPRS 1 = 0.205 ( 531.) I VPRS 2= 0.200 ( 525.> i VPRS 3= 0.194 ( 528.)
~~-
VPRS 4= 0.201 ( 546.) 4 VPPS 5= 0.481 ( 800.) i VPRS 6= 0.494 ( 801.) CTMT. FREE AIP VOL. = 289545. j i TIME = 930 DATE = 0728 TEMPERATUPE (DEGPEES R.) = 536.484 1 i CDPRECTED PRESSUPE (PSIA) = 63.5788 l' VAPOR PRESSURE (PSIAs = 0.3228 l' ti li t t %
. .m i
l - 4 l P-19 ,
-,, ,, ,, w. . - _ , .y,-.- , . _ . . . , , _ , _ . . , , . m ,_ , , , ., _ _ . , , , , , , ,._.,,-_,-y___._y_... _ , ,,.
l
- 1 t
l i i f 4
SUMMARY
OF MEASURED DATA AT 943 0728 TEMP 1 = 541.385 ( 8154.) TEMP 2= 541.846 ( 8211.) } TEMP 3= 532.810 ( 7298.) !' TEMP 4 = 533.878 ( 7413.) TEMP 5= 530.267 ( 7050.) TEMP 6= 531.357 ( 7159.) I TEMP 7= 528.458 ( 6846.) TEMP 8= 528.407 ( 6872.) TEMP 9= 519.700 ( 5997.) , i TEMP 10 = 541.579 ( 8174.) TEMP 11 =. 541.667 ( 8194.) TEMP 12 = 541.622 ( 8185.) i l PRES 1 = 63.897 ( 63890.) VPPS 1= 0.205 ( 531.) VPRS 2= 0.201 ( 526.) . . VPRS 3= 0.194 ( 528.) VPPS 4= 0.200 <. 544.) VPRS 5= 0.481 ( 800.) VPRS 6= 0.494 ( 801.>
- CTMT. FPEE AIR VOL. = 289545.
i TIME = 945 .i DATE = 0728 TEMPERATUPE- (DEGREES R.) = 536.489 , COPPECTED PPESSUPE <PSIP) .
= 63.5738 VAPOR PRES 5UPE (PSIA) = 0.3227 4
I _
. mmh
.m P-20 -. - Nhi
. e:r . ..
t
.,- .-,, , -. ,.,-._..w,. ,e,- , , . ,--.-m,,, , _ . _ , , , . _ . - -
= - - - , , . - - -, ..g..w ,
SUMMARY
OF MEASUPED DATR h. 1000 0728 . TEMP .1 = 541.405 ( 8156.)
- TEMP 2= 542.066 ( 8233.)
TEMP 3= 532.860 ( 7303.)
- TEMP 4= 533.898 ( 7415.)
l TEMP 5 = 530.287 ( 7052.>
- TEMP 6= 531.397 ( 7163.)
I TEMP 7= 528.468 ( 6847.) l TEMP 8= 528.448 ( 6876.) TEMP 9= 519.720 ( 5999.) TEMP 10 = 541.599 ( 8176.) TEMP 11 = $41.698 ( 8197.) TEMP 12 = 541.693 ( 8192.) f PPES 1= 63.893 ( 63886.) VPPS 1 = 0.206 ( 532.) .. VPRS 2= 0.201 ( 526.) VPRS 3= 0.194 ( 528.) i VPPS 4= 0.198 ( 541.) VPPS 5= 0.484 ( 802.) VPRS 6= 0.494 ( 801.) CTNT. FPEE AIR VOL. = 289557. 1INE = 1000 DATE = 0728
-TEMPERATURE (.DEGPEES R.) = 536.536 COPRECTED PRESSURE (PSIA) = 63.5693 VAPOP PRESSURE (PSIA) = 0.3233 9
P-21
_ _ - - _ - . - . - , .= - 8 l APPENDIX Q l s Drywell - to - Torus Bypass Area Test i Summary Data i PBBYPA5'5 07/23/90 23: 33PDT IUMMAPY DATA
- 4 i
PEACH BOTT M BYPA55 TE5.T - UNIT 2 CDD = 0.60 TVOL = 132100.00 O e . TIME DATE DPfTMP DPYPPI DRiVAP TOPTMP TOPPPi T PVAP 2215 728 S33.45412 16.394231 0.162383 539.13263 14.729433 0.453810 2230 723 533.36377 16.390224 0.165329 539.59993 14.743411 0.474735 2245 728 533.29660 16.337220 0.161407 539.96370 14.755391 0.477736 2300 723 533.32245 16.337220 0.159271 540.21737 14.762330 0.430720 - 2315 723 533.40194 16.337220 0.153051 540.46441 14.77136e 0.45371? 2330 723 533.32765 16.336213 0.153213 540.74413 14.7753S? 0.435944
% 2345 728 S33.45S72 16.383221 8.157533 540.97352 14.790351 0. 4 332 0 L--
2400 723 533.50364 16.3a2228 0.15T317 541.13379 14.787340 0.439721 15 729 533.53097 16.394231 0.157533 541.28399 14.791334 0.491239
?O 729 533.64576 16.393237 0.156912 341.41253 14.795323 0.491210
) 45 729 533.77455 16.401242 0.157317 541.51263 14.793323 0.491933 1^ 100 729 S33.37022 16.404247 0.157?51 541.61232 14.801312 0.492727 115 729 533.91704 16.409255 0.157317 541.719e3 14.507303 0.493501 130 729 533.96234 16.412260 0.157851 541.30310 14.309305 0.493501
,145 729 534.10339 16.416266 0.139072 541.9??39 14.311302 0.493501 200 729 S34.13200 16,421274 0.157950 541.95335 14.816294 0.492727
, 215 ?29 534.25173 16.425230 0.153585 542.00010 14.316294 0.49427S
- 230 72? S34.33154 16,429237 0.153353 542.09026 14.321256 0.493501 1 0 0 0. 0 0. 0 0. 0 0. 0 0. 0 0. 0
)
V Q-1
APPENDIX Q /'] \v PEACH BOTTOM B/PASI TEST - UNIT 2 , BYPAIS APEA (20UAPE INCHEI) TOTAL-TIME ANALYSIS TIME Ar1D DATE AT iTAPT OF TEST: 2215 0723 ELAPTED TIME: 4.25 HOURS TIME DPYTMP DPYPPS DP(VAP TOPTMP TOPPPS TOPVAP APEA 2215 533.454 16,394 0.163 539.153 14.729 0.459 2230 533.369 16.390 0.165 539.600 14.743 0.475 -0.07936 2245 533.297 16.337 0.161 539.964 14.755 0.478 -0.04147 2300 53?.323 16.327 0.159 540.217 14.762 0.431 -0.03286 2315 533.'402 16.337 0.153 540.464 14.771 0.434 -0.02546 23?n 533.323 16.386 0.153 540.745 14.775 0.456 -0.02639 2345 533.456 16.333 0.153 540.?79 14.730 0.483 -0.02572 2400 533.509 16.392 0.157 541.139 14.787 0.490 -0.02104 15 533.531 16.394 0.153 541.239 14.791 0.491 -0.01949 p 30 533.646 16.393 0.157 541.413 14.795 O.491 -0.01684 45 533.775 16.401 0.157 541.513 14.793 0.492 -0.01540 100 533.370 16.404 0.159 541.613 14.301 0.493 -0.01421 115 533.917 16.409 0.157 541.720 14.307 0.494 -4.01188 130 533.963 16.412 0.153 541.803 14.309 0.494 -0.01105 145 534.104 16.416 541.330 14.S11 0.494 -0.01027 200 534.132 16.421 h0.153
. 153 541.953 14.316 0.493 -0.00312 215 534.252 16.425 0.159 542.000 14.316 0.494 -0.00361 230 534.382 16.429 0.159 542.090 14.821 0.494 -0.00o96 TOPUI FPEE AIP v'OL UME <CU. F T, ) = 132100.00 COEFFICIEt4T OF DISCHAPGE = 0.60 MEAN MEA 3UPED BYPAS5 APEA tS0. IN.) = -0.02210 THE LOlaEP 95% CONFIDENCE LIMIT = -0.02411 THE UPPEP 95% CONFIDENCE LIMIT = 0.0252 THE CALCULATED BYFASi APEA = 0.00057 u.au -
, Q-2
APPENDIX Q
- j. Drywell - to - Torus Bypass Area Test i
Summary of Measured Data ! IUMMARY OF MEASUPED DATA AT 2215 0725 l TEMP 1 = 547.833 ( 3304.) TEMP 2= 543.157 ( 9942.> TEMP 3= 532.259 ( 7243.) TEMP 4 = 535.241 ( 7549.> TEMP 5= 529.099 ( 6933.) TEMP 6= 530.317 ( 7055.) TEMP 7= 525.632 ( 6564.> TEMP S= 525.702 ( 6602.) TEMP 9= 517.641 ( 5791.) . TEMP 10 = 539.250 ( 7944.) TEMP 11 = 533.944 (. 7922.> TEMP 12 = 539.233 ( 7947.) PRES 1 = 16.394 ( 16405.) PREE 2= 14.729 ( 14742.> VPRS 1 = 0.170 ( 431.) VPPS '2 = 0.171 ( 483.) VPRS 3= U.152 '. 465.) VPPS 4 = 0.152 ( 472.) VPRS 5= 0.454 ( 784.) _ VPPS 6= 0.463 (. 733.)
SUMMARY
OF CORRECTED DATA TIME = 2215 DATE = 0723 . DRYWELL TORU2 TEMPERATUFE (DEGREES R.) 533.454 539.153 PRESSURE (PSIA) 16.394 14.729 VAPOP PRES 3UPE (PSIA) O.163 0.459 Q-3
.. _ ___D_.______._._ _ . - _ _ . _ I
t l i t l
. I f
i } IUMMARY OF MEAIUFED DATA AT 2230 0728 ! TEMP 1 = 547.433 ( 8759.)
- TEMP 2= 548.797 ( 3906.)
! TEMP 3= 532.350 ( 7252.)
- TEMP 4 = S35.271 ( 7552.)
1 TEMP 5= 529.033 (. 6927.) ' I TEMP 6= 530.347 ( 7058.) TEMP 7= 325.622 (. 656 3. > j TEMP 3= 525.692 ( 6601.>
- TEMP 9= 517.611 ( 5739.)
TEMD 10 = 539.720 ( 7933.) { TEMP 11 = 539.445 ( 7972.) , TEMP 12 = 539.635 ( 7937.) < t. } PRES 1 = 16.390 (. 16401.) j PRES 2= 14.743 ( 14756.) 'i ~ j VPRS 1,= 0.170 ( 431.) l VPPS 2= 0.171 ( 432.) J VPPS 3= 0.159 (. 4T5.) l VPPS 4 = 0.150 ( 470.> i VPPE 5= 0.471 ( 735.) j VPRS 6= 0.479 ( 794.) __ j j ] 5UMMAPY_OF COPPECTED DATA i TIME = 2230 i i 4 DATE = 0723 I l DPYblELL TORUS 3 'l TEMPERATUPE (DEGPEES P.) 533.369 539.600 J PPESSUPE (PSIA) 16.390 14.743 J . VAPOP PPESSUPE (PSIA) 0.165 0.475 i 6 d (
, 'Q-4
- e..- .u3 , a 44 os__ .4.4- - _ ..__._g ,-,a 2 - .s u a - 4. _u-.a,;_m.L.__.e,d w J j !
i 4 4 i
SUMMARY
OF MEASURED DATA AT 2245 0728 - TEMP 1 = 547.133 ( 3729.)
- TEMP 2= 543.407 ( 9567.)
TEMP 3= 532.440 ( 7261.) 4 TEMP 4 = 535.251 ( 7550.) l TEMP 5= 528.978 ( 6921.) TEMP 6= 530.357 ( 7062.) TEMP 7= 525.732 i. 6574.) 2 TEMP S= 325.722 ( 6604.) TEMP 9= 517.531 ( 5730.) TEMP 10 = 540.060 ( 8022.) TEMP 11 = 539.925 ( 3020.) TEMP 12 = 539.906 ( S021.) PFES 1 = 16.387 ( 16393.) PPES 2= 14.755 ( 14768.) i VPP! 1 = 0.167 ( 476.)
)
VPPS 2= 0.165 ( 474.) 4 VPPS 3= ~ 0.156 ( 470.)
! VPRS 4 = 0.149 ( 467.) s -- !- VPPS 5= 0.474 ( 797.> ! VPPS 6= 0.482 ( 796.> ;
i 1 1
SUMMARY
OF CDPRECTED, DATA TIME = 2245 DATE = 0723 , DRYhtELL TGRUS TEMPEPATUPE (DEGPEES P.) 533.297 539.964 PPESEUPE (PSIA) 16.387 14.755 , VAPOP PPESSUPE (PSIA) 0.161 0.478 t I Q-5 i
~ . _ .._._ . ... _ _ . _ _ , _ _ ._. . . . _ . . _ - _ _ _ . . _ _ _
--- ._. --.=.-_ . _ = .. ._ . - . - - . .- . . - - _ - - . - - . . - . --
i i 1 1 i i
- i 4
l j IUMMARY OF MEASUPED DATA AT 2300 0723 1' i TEMP 1 = 547.063 ( 8722.) ' i TEMP 2= 543.487 ( 8575.) i TEMP 3= 532.490 ( 7266.) l' TEMP 4 = 535.261 ( 7551.) TEMP 5= 529.033 (. 6927.>
! TEMP 6= 530.467 ( 7070.) ' ! TEMP 7= 325.722 ( 6573.)
4 TEMP 3= 325.732 ( 6605.> ; TEMP 9= 517.551 ( 5782.) TEMP 10 = 540.290 ( 3045.; TEMP 11 = 540.196 ( 3046.> a TEMP 12 = 540.177 c. 8041.) i i PPES 1 = 16.387 ( 16393./ I PPES 2= 14.762 ( 14775.) 1
; VPPS 1 = 0.165 ( 473.)
i VPP3 i= 0.163 ( 470.) l VPPS 3= 0.154 ( 467.) I VPRS 4= 0.147 ( 464.) ' VPPS 5= 0.477 ( 799.) - VPRS 6= 0.435 ( 793.) k i 1 .l i
SUMMARY
OF COPPECTED DATA
?
- TIME = 2300 l DATE = 0728 DRYWELL TOPUS TEMPERATURE (DEGPEES P.) 533.323 540.217 PPESSURE (PSIA) 16.387 14.762 f VAPOP' PRESSURE (PSIA) O.159 0.431 i
}' + i j ,.
~~ . . . -
I e Q-6 4
--e.-,=--,--$-n-,--.e-+
- . . - , , ~ . , , - . , , . . - , - - , - - - - . - , - , - , - , - , - - - - - - , --- . -~, - - - - - - , - - , - , - - - - , --
i. Il' - 1 i l IUMMARY OF MEAIURED DATA AT 2315 0723 TEMP 1 = 547.063 ( 8722.> TEMP 2= 543.627 (. 3939.) . TEMP 3= 532.570 ( 7274.) TEMP 4 = 535.331 ( 7553.) TEMP 5= 329.048 ( 6923.) TEMP 6= 530.547 (. 7073.) TEMP 7= 525.932 ( 6534.> S= TEMP 525.372 ( 6619.) TEMP- 9= 517.641 ( 5791.) TEMP 10 = 540.550 ( S071.) TEMP 11 = 540.416 ( S069.) TEMP 12 = 540.428 ( S066.) l PPES 1 = 16.337 ( 16393.) PRE 5 2= 14.771 ( 14734.) (
, VPPS 1 = 0.163 471.)
VPPS 2= 0.161 ( 467.> VPP5 3= 0.153 ( 466.) VPPS 4 = 0.147 ( 464.) VPPS 5= 0.480 (. 801.) VPRS 6= 0.437 ( 800.) -- IUMMARf OF CORRECTED DATA TIME = 2315 DATE = 0723 DRYWELL TORUS TEMPEPATURE (DEGREES P.) 533.402 540.464 PPEISURE (PSIA) 16.337 14.771 VAPOP PPE550PE (PSIA) 0.153 0.484 se .. ee . u O e Q-7 _ - - _ _ - _ _ - I
B IUMMARY OF MEASUPED DATA AT 2330 0723 TEMP 1= 546.743 ( 8690.) TEMP 2= 543.187 ( 3345.) TEMP 3= 532.630 ( 7230.) TEMP 4 = 535.311 ( 7556.) TEMP 5= 329.983 (. 6922.) TEMP 6= 530.597 ( 7033.> TEMP 7= 525.352 ( 65S6.) TEMP 3= 525.953 ( 6627.) TEMP 9= 517.651 ( 5792.) TEMP 10 = 540.349 < 8101.) TEMP 11 = 540.666 ( S094.) TEMP 12 = 540.719 ( S095.) PRES 1 = 16.336 ( 16397.) PRES 2= 14.775 ( 14788.) VPP! 1 = 0.163 ( 470.) VPPS 2= 0.160 < 466.> VPPS 3= 0.154 (. 469.) VPPS 4= 0.145 ( 461.) VPPI' 5= 0.431 ( S02.4 VPPS 6= 0.490 ( 302.) - . l l IOMMAPY OF CORRECTED DATR TIME = 2330 DATE = 0723 DRYblELL TOPUS TEMPERATUEE (DEGREES R.) 533.328 540.745 PRE 15UPE t.Pil A) 16.386 14.775 VAPOP PPESSUPE (.PIIA) 0.153 0.486 F l Q-8
.. _- ._-. _.- - . . . . . _ -. - . . . - - _ - - . _ ~ . . . - - - , . . - -
1 4 i 1 f i i IUMMARY OF MEASURED nA1 A AT 2345 0728 I TEMP 1 = 546.933 ( 3714.)
- TEMP 2= 543.537 ( 383 0. >
i TEMP 3= 532.640 ( 7231.) ! TEMP 4 = 535.422 ( 7567.) l TEMP 5= 529.163 ( 6940.> . TEMP 6= 530.657 (. 7039.) l TEMP 7= 526.013 ( 6602.) TEMP S= 525.973 ( 6629.) i TEMP 9= 517.661 ( 5793.) i 1 TEMP 10 = 541.099 ( 3126.) TEMP 11 = 540.377 ( S115.) ' 1 ? , TEMP 12 = 540.960 ( S119.)
- ? PES 1 = 16.333 ( 16399.)
PPES 2= 14.780 < 14793.) - i r
- VPPS 1 = 0.162 ( 469.)
VPPS 2= 0.159 ( 465.) l VPRS 3= 0.154 ( 467.) ; 1 VPPS 4 = 0.145 ( 461.) i i VPPS 5= 0.433 < 903.)
--~
i , VPRS 6= 0.493 ( 304.) , ) i 1 ! i 1
. EUMMARY OF CORRECTED DATA
- TIME = 2345 DATE = 0729 j DRYWELL TORUI 1
- TEMPERATUPE (DEGPEES P.) 533.456 540.979 )
\
i PPE!SURE (PSIA) 16.333 14.780 j VAPOP PRESSUPE (PSIA) 0.153 0.438 l l Q-9 l l l
SUMMARY
OF MEA 3UEED DATA AT 2400 0728 TEMo 1 = 547.133 ( 3729.s TEMP 2= 543.687 ( 8895.) TEMP 3= 532.720 ( 72r>-> TEMP 4 = 535.452 ( 7570.) TEMP 5= 529.153 ( 6939.) TEMP 6= 530.707 ( 7094.) TEMP 7= 525.933 ( 6599.) TEMP 3= 525.933 < 6625.) TEMP 9= 517.701 ( 5797.) TEMP 10 = 541.249
- 3141.) l TEMP 11 = 541.037 ( B131.)
TEMP 12 = 541.130 ( S136.> PRES 1 = 16.392 ( 16403.) PRES. 2= 14.787 ( 14800.) VPRS 1= 0.162 ( 469.) VPPS 2= 0.159 ( 465.) VPPS 3= 0.153 ( 466.) VPPS 4 = 0.145 ( 460.) ~~ VPPS 5= 0.485 ( 304.> VPE5 6= 0.495 (. 305.>
SUMMARY
OF CORRECTED DATA TIME = 2400 DATE = 0728 DPYMELL TORUS TEMPEPATURE (.DEGFEES P.) 533.509 541.139 PRES 3UPE (PSIA) 16.392 14.787 4 VAFOP. PRES 5UPE (PSIA) , 0.157 U.490
.w .w - .
Q-10
I
~
l
' UMMARY OF MEA 5UPED DATA AT 15 0729 TEMP 1 = 547.003 ( 3716.)
TEMP 2= 548.53? ( 399 0. ~> TEMP 3= 5?2.310 ( 7293.) TEMP 4 = 535.522 ( 7577.) TEMP 5= 529.239 ( 6947.) TEMP 6= 530.777 <. 7101.) TEMP 7= 526.083 ( 6609.) 8 TEMP 3= 526.073 ( 6639.) TEMP ?= 517.641 ( 5791.) TEMP 10 = 541.409' ( 8157.) TEMP 11 = 541.137 ( S146.) TEMP 12 = 541.271 ( S150.) DPEI 1 = 16.394 ( 16405.) PRES 2= 14.791 ( 14304.) OPPS 1 = 0.162 ( 469.> VFP5 2= 0.159 ( 465.) VPPI 3= 0.154 ( 467.) VPPS 4 = 0.145 ( 461.) VPPI 5= 0.456 ( 305.)
, VPPS 6= 0.496 ( 306.>
6 IUMMARY OF COPPECTED DATA TIME = 15 DATE = 0729 DPYhlELL 10 PUS TEMPEPATURE (DEGPEES P.> 533.531 541.23? PPE!5UPE (P5IA> 16.394 14.791 VAPOP PPE51UPE ' PSIA) 0.15S 0.491 1 l 1 Q-11 G
I i t ' I 4 4 i ? LUMMAoY OF MEASUPED DATA Al 30 0729 ; 1 . TEMP 1 = 547.233 ( 3739.) 4 TEMP 2= 548.957 ( 3922.) TEMP 3= 532.930 ( 7300.) TEMP 4 = 535.592 ( 7584.) TEMP 5= 529.333 ( 6957.) , 1EMP 6= 530.867 ( 7110.) ' TEMP 7= 526.043 v.. 6605.) TEMP 3= 326.053 ( 6637.) l TEMP 9= 517.691 ( 5796.) TEMP 10 = 541.519 ( 9163.) TEMP 11 = 541.317 ( 8159.) : TEMP 12 = 541.401 ( 3163.) f i PPES 1 = 16.393 ( 16409.) PRES 2= 14.795 ( 14608.) i l VPR5 1 = 0.161 ( 468.)
! VPPS 2= 0.159 ( 465.)
j VPPS' 3= 0.152 < 465.) VPPI 4 = 0.146 ( 462.) VFPS 5= 0.435 ( 304.) VPPS 6= 0.499 ( S07.) 4 4 i 4 d j
SUMMARY
OF COPPECTED DATA J TIME = 30 DATE = 0729 . , DRYbiELL TOPU5 TEMPERATURE (DEGPEE5 P.) 533.646 541.413 i PPESSUPE (Pila) 16.393 14.793 i VAPOP PPES5UPE (PSIA) . 0.157 0.491 I l i ' 1 _ . _ _ 1 4 f l Q-12 !. l
- ~ l l
5UMMARY OF MEASUPED DATA AT 45 0729 l TEMP 1 = 547.603 ( 3776.) I TEMP 2= 549.297 ( 3956.) TEMP 3= 532.890 ( 7306.) 4= 535.572 ( 7589.> TEMP j 1EMP 3= 529.479 ( 6971.N , j TEMP. 6 = .330.917 ( 7115.) i- TEMP 7= 526.113 ( 6612.) ! TEMP 3= 526.163 ( 6649.) 4 TEMP 9= $17.711 ( 5798.) TEMP 10 = 541.629 ( 3179.) j TEMP 11 = 541.427 ( 8170.) TEMP 12 = 541.482 ( S171.) PPES 1 = 16.401 ( 16412.) PPES 2= 14.799 ( 14311.) VPPS 1 = 0.162 ( 469.) I VPRS 2= 0.159 ( 465.) j VPRS 3= 0.153 ( 466.) i VPPS 4= 0.146 ( 462.> i VPPS 5= 0.486 ( 805.) 6= 0.493 ( 307.) i (PRS i 1 I ,
SUMMARY
OF COPPECTED DATA TIME = 45 DATE = 0729 DRYWELL TORUS TEMPERA 10PE (DEGREES R.) 533.775 541.513 4 PRESSURE (PSIA) 16.401 14.793
- VAPOP PPESSUPE (PSIA) 0.157 0.492 4
- ..w . ..
Q-13
1 f 1 4 I
- l
, i i
1 1 1 i 1 I I SUr1MAPY OF MEA!UPED DATA AT 100 0729 1 TEMP 1 = 547.723 v. 8783.) TEMP 2= 549.497 ( 9976.) 1 TEMP 3= 532.940 < 7311.4 !. TEMP 4 = 535.732 ( 7599.) l TEMP 5= 329.513 ( 6975.) TEMP 6= 330.997 ( 7123.) i TEMP 7= 526.183 ( 6619.) { TEMS 8= 526.203 ( 6652.)
- TEMP 9= 517.301 ( 5307.>
j TEMP 10 = 541.709 ,(. 3197.> TEMP 11 = 541.537 t. 8181.) TEMP 12 = 541.592 ( S182.) i
; PRES 1 = 16.404 ( 16415.) ! PPES 2= 14.801 v. 14814.>
s VPPS 1 = 0.162 ( 469.) VPPS 2= 0.159 t. 465.) VPPS 3= 0.154 ( 466.) i VPPS 4 = 0.145 ( 461.) l ! VPRS 5= 0.436 (- 805.) i 1 VPPS 6= 0.499 ( 309.) } i
SUMMARY
OF COPPECTED DATA TIME = 100 j DATE = 0729 2
- DRYWELL TOPUS TEMPERATUGE (DEGPEES P./ 533.870 541.613
{ I PRESSUPE (PSIA) 16.404 14.801 i
- VAPOR PRES 5URE (PSIR) 0.158 0.493
- j. '
11 T i i 4 i q-14 j . i* i
. 1
! l
~
i I i 4 a i ! 1 l IUMMARY OF MEASUFED DATA AT 115 0729 : i
\ l i TEMP 1 = 547.923 ( 8799 ) !
4 TEMP 2= 549.477 ( 9974.) ( j TEMP 3= 532.980 ( 7315.) I TEMP 4 = 535.792 *. 7604.) .
- TEMP 5= 529.553 ( 6979.)
i TEMP 6= 531.077 ( 7131.) TEMP 7= 526.243 ( 6625.)
- TEMP 3= 326.273 ( 6659.)
TEMP 9= 517.781 ( 5905.) TEMP 10 = 541.929 ( S199.) i j TEMP 11 = 541.637 ( 8191.) TEMP 12 = 541.693 ( S192.) i PRE! 1 = 16.409 ( 16420.)
! PRES 2= 14.3U7 ( 14820.)
1 4 J VPPS 1 = 0.162 ( 469.) VPPS 2= 0.159 ( 465.) VPPS 3= 0.153 ( 466.) , VPPS 4 = 0.146 t. 463.) i VPPS S= 0.498 ( 806.) j VPRS 6= 0.499 ( 803.> i i 1 i , 4 IUMMAPY OF CDPRECTED DATA I ! TIME = 115 DATE = 0729 1
- DRYWELL TORUS
- TEMPEPATUPE (DEGPEES R.) 533.917 541.720 PRESSURE (PSIA) 16.409 14.807 VAPOP PPE33UPE (P5IA) 0.157 0.494 !
1 ! s i 4 Q-15 i 4
-'- ^
)
IUMMAPY OF MEA 50 PED DATA AT 130 0729 TEMP 1 = 547.393 <. 9305.. TEMP 2= 549.617 ( 9933.) TEMP 3= 533.050 ( 7322.) TEMP 4 = 335.332 < 7613.) TEMP 5= 529.473 ( 6971.) TEMP 6= 531.137 ( 7137.) TEMP 7= 526.133 (. 6619.) TEMP 9= 526.373 '. 6669.) TEMP Q = 317.761 ( 58 0 3. > TEMP 10 = 541.909 <~ S207.) TEMP 11 = 541.713 ( 5199.) TEMP 12 = 541.783 ( 9201.) PRES 1 = 16.412 (. 16423.) PPE5 2= 14.809 ( 14822.) VPPS 1 = 0.162 (. 469.) VPRI i= 0.159 ( 465.) VPP3 3= 0.154 '. 468.) VPPS 4 = 0.146 ( 462.> ( VPPS 5= 0.408 '. 806.) \, VPPS 6= 0.499 (. 303.) IUMMAGY GF COPPECTED DATA TIME = 130 DATE = 0729 DRYi.lELL TORUS TEMPEPATUPE (DEGPEES P.) 533.963 541.803 PPEISUPE (PSIA > 16.412 14.399 VAPOP PPE550RE < PSIA) 0.153 0.494 Q-16 a
. - - - . _. - - . _ . .- -.- - . . . - - . ._ .- . . - . ~ . - - - . ...- . _ .._- -
i i l
- l 1
I , l l IUMMAPY OF MEASUPED DATA AT 145 0729 TEMD 1 = 548.223 ( 9833.) TEMP 2= 549.938 ( 9020.) TEMP 3= 533.070 ( 7324.) ,
- -TEMP 4 = 535.972 ( 7622.) ,
TEMP 5= 529.608 ( 6934.) l TEMP 6= 531.227 ( 7146.) TEMP 7= 526.484 6649.) (. TEMP 8= 526.323 t 6664.) TEMP 9= 517.991 ( 5316.) TEMP 10 = 541.979 (. 8214.) TEMP 11 = 541.793 < 3207.)
' TEMP 12 = 541.863 ( 8209.) ) ; PPES 1 = 16.416 ( 16427.) ! PPES 2= 14.311 ( 14824.)
, VPPS 1 = 0.162 ( 469.) VPRS 2= 0.160 ( 466.) VPPS 3= 0.154 ( 463.) ! VPPS 4 = 0.146 ( 463./ 1 VPRS S= 0.483 ( S06.) l VPPS 6= 0.499 ( 303.) 1 4 ..... i i i
SUMMARY
OF CORPECTED DATA l TIME = 145 DATE = 0729 DRYWELL TORUS TEMPEPATUPE (DEGPEES R.) 534.104 541.380 J PRESSUPE (PSIA) 16.416 14.311 VAPOP PPESSUPE (PSIA) 0.153 0.494 i 6 , Q-17
- -,e--.,,-,-w ,w------er-n: - - - -
+-y ,- -*----w*, -tr- -
M m~r- p,r--- -- + -
--r--r-it ---
Pe.=' v v-*
- I i
i
~UMMAPY OF MEAIURED DATA AT 200 0729 1
j TEMP 1 = 548.243 ( 3840.) ) TEMP 2= 549.948 ( 9021.'s TEMP 3= 533.100 ( 7327.) ; TEMP 4 = 536.023 ( 7627.)
- TEMP 5= 529.623 ( 6936.3 TEMP 6= 531.277 ( 7151.)
. TEMP 7= 326.434 ( 6644.)
i TEMP 3= 526.434 ( 6675.)
- TEMP 9= 517.351 ( 5312.)
TEMP 10 = 542.039 r 822 0. ) TEMP 11 = 541.378 ( 3215.) TEMP 12 = 541.944 (. 3217.) PRES 1 = 16.421-< 16432./ PRES 2= 14.916 ( 14829.) i VPRS 1 = 0.163 ( 470.) 2= 0.16 0 ( 466. ') VPPS j VPPI 3= 0.154 ( 467.) 1 VPP5 4= 0.147 ( 464.> ! VPPS 5= 0.486 ( 805.) ] VPRS 6= 0.499 ( 803.) 1 -- t i
SUMMARY
OF CORRECTED DATA T i 1 TIME = 200 DATE = 0729 i DRYWELL TOPUS 1 TEMPEPATURE < DEGREES P.) 534.132 541.953 i PRESSURE (PSIA) 16.421 14.816 VAPOP PPESIVEE-(PSIA) 0.158 0.493 ^ I 4
~
j
/
Q-18
IUMMARY OF MEASUPED DATA AT 215 0729 ' l TEMP 1 = 543.543 ( 3870.) TEMP. 2= 550.293 ( 9055.) TEMP 3= 533.190 ( 7335.)
- TEMP 4 = 536.133 ( 7638.)
TEMP 5= 529.645 ( 6993.) TEMP 6= 531.367 ( 7160.) l TEMP 7= 526.393 ( 6640.) TEMP 3= 526.474 ' . 6679.') l ! TEMP 9= 517.901 ( 5217.) l TEMP to= 542.039 ( 8225.) TEMP 11 = 541.918 '. 3219.) TEMP 12 = 541.994 ( S222.) PPES 1 = 16.425 / 16436.) PPE5 2= 14.816 ( 14329.) VPAS 1 = 0.163 ( 471.) VPPS 2= 0.161 ( 467.) j VPPS 3= 0.154 ( 468.) , VPRS 4 = 0.143 ( 466.) , VPRS 5= 0.489 ( 307.) VPPS 6= 0.499 ( 308.A i
SUMMARY
OF COPPECTED DATA TIME = 215 D A T E = 072') DPYWELL TOPUS TEMPEPATUPE (DEGREES R.) 534.252 542.000 -
' PRE'35UPE (PSIA) 16.425 14.316 VAPOP PPES5UPE <. PSIA) O.159 0.494- '
I
\
f 4
- s *
\
6
-Q-19 s s s, i M
_ _ _ _ _ _ _ _ _ .r. ( - }" ]
4 1 . 5 i - 1 i , . . j UMMARY OF MEASUPED DATA AT- 230 0729 i TEMP 1 = 543.793 f; 3395. >
', -, TEMP 2= 550.658 0 90?2.)
i TEMP 3= 533.270 ( 7344.) TEMP 4 = 536.243 ( 7649.) TEMP 5= 529.727 ( 6996.)
- TEMP 6= 531.44? ( 7168.)
; TEMP 7= 526.434 ( 6644.>
l TEMP 3= 526.554 ( 6687.) TEMP 9= S17.911 ( 5318.)
?. TEMP 10 = 542.169 ( 9233.)
" TEMP 11 = 542.003 ( B228.)
TEMP 12 = 542.094 ( 8232.) PPEI 1 = ' 16.429 ( 16440.) h PRES 2= 14.321 ( 14834.) s VPPS 1 = 0.163 ( 471.) VPRS 2= 0.161 ( 467.) VPPI 3= 0.155 ( 469.) VPPS 4 = 0.148 (- 466.) VPPS 5= 0.488 ( 806./ VPPS 6= 0.499 ( SOS.) - A
SUMMARY
OF CORRECTED DATA TIME = 230 '
')
DATE = 0729 2 s - DRYWELL TOPUS s7-i TEMPERATUPE (DEGREE 3 F.) 534.332 542.090 s PPEISUPE (PSIA) 16.429 14.521 . VAPOR PPE5 SUPE (Psi A> - 0.159 0.494 f
,.5 s o .
5 e i r i
.Q-20 1
s .
+
i " . . . . .. 1 APPENDIX R PEACH BOTTOM UNIT 2. O TYl'll H AhD (*. TI:ST StDStARY PENETRATION SYSTSI OR LEAK RATI'. NUMBER DESCRIPTION HDIARKS TEST DATI
- see/ min 1)rywc11 !! cad ., 9/6/77 10 10/15/78 10 7/23/80 10 RPV Stabilizer Hanways A
- Total for 8 man- 9/20/78 35*
ways reported under 4/23/80 10 A 6/25/80 10 B 9/20/78
- 4/23/80 10 6/25/80 10 C U/20/78 *
- 4/23/80 '
10 6/25/80 10 0 0 9/20/78 4/23/80 6/25/80 10 10 E 9/20/78
- 4/23/80 1300, 6/25/80 950 Gaskets Rcplaced S/8/80 10 F
9/20/78
- 4/23/80 25 Gaskets Replaced 6/25/80 10 ,
G 9/20/78
- 4/23/80 90 6/25/80 80 Gasket Itcplaced 8/8/80 10 1 il 9/20/78
- 4/23/80 10 6/25/80 10 N1 Equipment Access llatch 5/9/77 10 9/12/78 185 4/9/80 18500 Bolts Torquod
('}
- = .
4/20/80 20 C R-1 .
'l PHAC!! IMITo't tr.lT 2 "ITI'E 11 ble C TI:ST SilHMARY PENETRATION SYSTliM OR LEAK R\TI:
NUMBER DESCRIPTION i;EHARKS TEST DATI: see/ min N2 Parsonnel Air Lock 6/25/76 10
, 7/4/76 10 7/26/76 10 8/27/76 10 11/29/76 6000 8/22/76 10 1/7/77 10 2/7/77 10 3/17/77 10 4/7/77 30 9/16/77 8000 12/3/77 4500 2/9/78 2200 3/1/78 200 6/14/78 1010 10/20/78 20 2/15/79 10 8/24/79 830 7/9/79 10 0 Airlock 0 ring 5/9/77 9/9/77 10 10 10/16/78 20 4/9/80 20 N4 Ilcad Access 5/11/77 10 10/10/78 20 i
4/9/80 20 N6 CRD llatch j 9/8/77 10
- 2/3/78 10 10/15/78 10 2/10/79 10 1/6/80 10 N7A Main Steam Line Bellows
- Total for 7A, 7B, 2/7/77 10 7C, 70, 9A, G DB 8/25/78 20*
Reported under N7A 3/31/80 20* N7B flain Steam Line Bellows 2/7/77 80
. 8/25/78 * ,() ,
3/31/80
- o R-2
t, G. *
- PEACll Wrrr0Pt UNIT 2 Ot TYPE B ANil C TEST Sl4 NARY PENETRATION SYSTEM OR LEAK RATE NUMBER DESCRIPTION REM \RKS TEST DATE sec/ min N7C FGL Bellows 2/7/77 10 8/25/78
- 3/31/80
- N7D Main Steam Line Bellows 2/7/77 10 8/25/78
- 3/31/80
- N9A Feedwater Line Bellows 2/7/77 10 8/25/78
- 3/31/80
- N9B Feedwater Line Bellows 2/7/77 10 8/25/78
- 3/31/80 *
['N
'~'
N11 IlPCI Steam Line Bellows
- Total for N11, N12 2/8/77 10 N13A 6 N16A report- 8/24/78 130*
ed under N11 9/28/78 115* 4/1/80 10 N12 Shutdown Cooling Bellows ' 2/8/77 100 8/24/78
- 9/28/78
- 4/1/80 235 N13A RilR Injection Line Bellows 2/8/77 10 8/24/78
- 9/28/78
- 4/1/80 10 N13B Rl!R Injection Line Bellows
- Total for N13B, 2/8/77 10 N14, N16B, N-17 8/24/78 20*
reported under N13B 4/1/80 20* N14 RWCU Suction Line Bellows 2/8/77 10
/~'
8/24/78
- 4/1/80 *
(s)
)
l R-3 l 1 9
6 PEACll mrrTIV! UNIT 2 TYPE B ANil C TEST SIM4ARY PENETRATION SYSTEM OR NUMBER LEAK RUT. DESCRIPTION REMARKS TEST DATE sec/ min N16A Core Spray Line Bellows 2/8/77 10 See N11 8/24/78 *- See N11 9/28/78 .
- 4/1/80 40 N16B Core Spray Line Bellows 2/8/77 10 8/24/7 8 4/1/80 * '
N17 liead Spray Line Bellows 2/8/77 0 8/24/78
- 4/1/80
- N205A A02502B 0 Rings 2/11/77 10 8/25/78 10 7/24/80 10 N205B A02502A 0 Rings 2/11/77 80
() 8/25/78 7/24/80 10 10 N25 A0 2505,A0 2519,A0 2520 2/28/77 95 0 Rings 8/25/78 30 7/21/80 30 - N26 A0 2506, A0 2507 0 Rings ' 2/24/77 10 8/26/78 10 7/21/80 10 N219 A0 2511, A0 2512 0 Rings 2/25/77 10 8/27/78 30 l 7/23/80 30 N205 A0 2521A, A0 2521B 0 Rings 2/28/77 10 7/21/80 30 8/26/80 30 N35A TIP Penetration 0 Rings 5/20/77 10 to G 10/9/78 10 5/12/80 10 , I ! N100A Electrical
- Total for N100A, 2/10/77 55 N100C, N101D, N104A 8/25/78 20*
N104B, N104C, N104D, 4/1/80 10* N105A, N105B, N106A {- '} - N106B, N107, N220 reported under N100A e R-4
2 m. . ---.r- ,.- ~~ _ . . . . ..
. ~
PEACil 1971T0?! UNIT 2 TYPE B A.ND C TEST SIM4ARY PENETRATION SYSTEM OR 1.EAK R M NUMBER DESCRI NION REMARKS TEST DATE sec/ min N100C Electrical 2/10/77 10 8/25/78 _ 4/1/80
- N101D Electrical 2/10/77 10 8/25/78
- 4/1/80
- N104A Electrical 2/10/77 10 8/25/78 4/1/80 85 N104B Electrical 2/10/77 10 8/25/78
- 4/1/80-
- N104C Electrical 2/10/77 10 8/25/78
- v 4/1/80
- N104D Electrical 2/10/77 10 8/25/78
- 4/1/80 *
, N105A Electrical 2/10/77 10
+
8/25/78
- 4/1/80
- N105B Electrical 2/10/77 10 8/25/78
- 4/1/80
- N106A Electrical j 2/10/77 10 8/25/78 4/1/80
- N106B Electrical 2/10/77 10 8/25/78 4/1/80 *
, N107 Slectrical 2/10/77 10 8/25/78
- l 4/1/80 *
( R-5 l
- . * - - - . , . - - ..%-r - tc e- m. . - -i--:,.+,,w
C PEACfl BarITOBI UNIT 2 O Q TYPE B AND C TEST
SUMMARY
PENETRATION SYSTEM OR NUMBER I.EAK R M DESCRI NION REftARKS TEST DATE sec/ min N220 Electrical 2/10/77 10 8/25/78 4/1/80
- N100D Electrical 2/11/77 10 8/24/78 20 4/3/80 10 N100E Electrical 2/11/77 10 8/24/78 20 4/3/80 10 N101B Electrical 2/11/77 10 8/24/78 20 4/1/80 15 N201A Torus Vent Bellows 2/22/77 10 8/27/78 20 4/1/80 30
'V' N201B Terus Vent Bellows 2/22/77 10 8/27/78 20 4/1/80 30 N201C Torus Vent Bellows 2/22/77 10 8/27/78 20 4/1/80 20 N201D Torus Vent Bellows 2/22/77 10 8/27/78 20 4/1/80 20 N201E Torus Vr '11ows '
2/22/77 10 8/27/78 20 4/1/80 20 N201F Tc ellows 2/22/77 10 8/27/78 20 4/1/80 20 N201G Torus .. ' lows 2/22/77 0 E/27/78 20 4/1/80 10 N201H Torus Vent Bellows 2/22/77 10 ' 8/26/78 20 L 10 l 4/9/80 R-6
o- -
. . ..:. ..gr J
PEACil BOTTOM UNIT 2 TYPE B ANil C TEST StDNARY PENETRATION SYSTEM OR - 1.EAK RATE NUMBER DESCRIPTION REMARKS TEST DATE sec/ min N200A Torus Hanway NE 5/12/77 10 9/6/77 10 9/30/78 20 7/21/80 10 N200B Torus Manway SN 7/1/76 10 6/11/78 10 10/17/78 10 2/14/79 10 5/20/79 10 7/24/80 10 8/14/80 10 N213A Torus Construction Drain 2/24/77 10 8/26/78 10 7/22/80 10 N213B Torus Construction Drain 2/24/77 10 0 L. 8/26/78 7/22/80 10 10 N101C Electrical 2/11/77 10 8/24/78 20 4/3/80 10 , N101E Electrical 2/11/77 10 8/24/78 20 4/3/80 10 N103B Electric 1 2/11/77 10 8/24/78 20
. 4/3/80 10 N104E Electrical 2/11/77 10 8/24/78 20 4/2/80 80 N104F Electrical 2/11/77 ,10 8/24/78 20 2/20/79 2S 4/4/80 80 N104G Electrical 2/11/77 10 8/24/78 20 4/2/80 10 N10411 Electrical
2/11/77 10 3/24/78 20 . 4/2/80 10 B-/
.e - - -, - - - + . , , , - - .,
}.
PEACil BOTTOPt UNIT 2
) TYPE B AND C TEST SIM4ARY PENETRATION SYSTEM OR NUMBER DESCRIPTION LEAK RGi REAMRKS TEST DATE sec/ min N105C Electrical 2/11/77 10 8/24/78 20 4/2/80 10 N105D Electrical 2/11/77 10 8/24/78 20 4/2/80 10 N106C Electrical 2/11/77 10 8/24/78 20 4/2/80 10 N106D Electrical 2/11/77 10 8/24/78 20 4/2/80 10 N101A Electrical 2/18/77 35 8/24/78 20 4/1/80 45 h "
N101F Electrical 2/18/77 10 8/24/78 20 4/1/80 45 7A FEIV 80A 80A FEIV 86A 4/29/77 offscale 86A 4/30/77 offscale { 80A 7/12/77 offscale j 86A 7/12/77 3500 80A 9/9/78 >50SCFH -, 86A 9/9/78 >13462 cc/ min l Between Both Valves 9/11/78 561 cc/ min ! BetweenBothValves[
~
3/22/S0 offscale 86A 5/20/80 146 80A 5/20/80 30 7B FGIV 80B 86B FGIV 86B 4/29/77 offscale 80B 4/29/77 10 Detween Both Valves 7/12/77 2100 86B 9/9/78 offscale 80B 9/9/78 8775 Betv:een Both Valves 9/22/78 230 Between Both Valves 3/22/80 offscale 86B 5/21/80 55 80B 4/24/80 23 ( ! 7C BGIV 80C PGIV 86C Retween Both Valves i 4/29/77 . offscale 80C 7/12/77 10 86C 9/25/77 600
- I Rh8 l
mA
~ .~ ... . ...
.. ,riyki.4V. M d*W4 i
f 4 PEACll B01 TOM UNIT 2 TYPE B AND C TEST SlM4ARY PENETRATION SYSTEM OR LEAK RATE NUMBER DESCRIPTION REMARKS TEST DATE sec/ min 7C continued 33 9/9/78 > 50SCFli 860 9/9/78 >9000 cc/ min Between Both Valves 9/26/78 1168 Between Both Valves 3/22/80 offscale 80C 7/1/80 40 86C 4/26/80 287 7D PGIV 80D 80D 4/29/77 offscale MSIV 86D 86D 5/3/77 offscale 80D 7/12/77 10 86D 7/12/77 780 80D 9/9/78 offscale 86D , 9/9/78 7180 Between Both Valves 9/25/78 20 Between Both Valves 3/22/80 offscale 80D 6/7/80 10 86D 4/29/80 39 g ~s) N8 !!ain Steam Line Drain 7/19/78 29 s
7/7/77 720 2/5/78 13700 4/20/78 1510 10/8/78 offscale 10/10/78 7910 M074 10/15/78 897 M077 10/15/78 728' 3/24/80 offscale 7/9/80 1330 N9A IIPCI Inj ection M0 23-19, 5/11/77 247 23-20 4 23-21 9/17/78 20 7/18/80 1400 M0-2-38A 4 Feed Check 96A 4 5/11/77 316 9/15/78 430 ,
4/30/80 1900 ' Feedcheck 28A 4/22/76 25 i 5/9/77 350 9/15/78 20 4/30/80 300 N9B RCIC Inj ection MO 13-20, 5/9/77 10 13-21, 13-30 9/17/78 50 ()
\~ /
7/18/80 90 R-9
ly
, PEACll BOTr051 UNIT 2 I j) f TYPE B AND C TEST SU)94ARY PENETRATION SYSTEM OR LEAK RAlli NUMBER DESCRIPTION REPMRKS 1EST DATE sec/ min MO 2-38B Feedcheck 96B 5/10/77 916 MO 12-68 9/19/78 1575 4/30/80 3600 Feedcheck 28B 5/9/77 1100 9/15/78 - 190 4/30/80 330 N-10 RCIC Steam Supply 4/29/77 1000 9/9/77 40 9/16/78 2710 10/10/78 6210 3/30/80 199 N-11 IIPCI Steam Supply 6/29/77 1000 10/8/78 90 3/30/80 offscale 5/7/80 210 ,3-7/22/80 65 i
N-12 Shutdown Cooling 7/28/77 120 10/1/78 20 4/22/80 155 N-13A LPCI Injection 4/29/77 480 8/9/77 3800 9/7/78 5895 M0-154B 10/7/78' offscale M0-25B 10/7/78 543 10/14/78 165 3/20/80- 202
~
N-13B LPCI Injection ! 6/16/77 40 9/6/78 128 9/16/78 410 , 6/13/80 400 l N-14 RNCU Suction MO 12-15 8/19/77 offscale 8/31/77 10 9/26/78 46 4/29/80 131 N16A Core Spray Injection 5/7/77 120
~~
10/4/78 180 4/10/80 80 l R-LO
PEACH BOTTOM UNIT 2 TYPE B AND C TEST SUPNARY PENETRATION SYSTEM OR LEAK RATE NUMBER DEXRIPTION REMARKS TEST DATE sec/ min N16B Core Spray Injection 5/6/77 455 10/4/78 80
'4/22/80 240 N17 Ilead Spray 6/7/77 220 9/19/78 20 4/26/80 50 N-18 Drywell Floor Drain Sump 5/3/77 19 Isolation 9/19/78 20 4/1/80 20 N-19 Drywell Equip Drain Sump 5/3/77 80 Isolation 9/19/78' 20 4/1/80 20 N21 Service Air 10/11/78 20 7/23/80 20 N22 Instrument N2 6/13/77 (V 20 Check valve 9/25/78 offscale 10/16/78 28 3/31/80 120 N25 Drywell/ Torus Inerting 5/1/77 38 ,
9/26/78 360 7/20/80 1010 1" Make Up 5/6/77 1715 10/10/78 2610 10/11/78 130 3/27/80 offscale N25 1" Make Up 4/11/80 1515 N26 Drywell CAD Vent 5/5/77 20 9/27/78 20 3/27/80 20 7/20/80 1810 Drywell Vent 4/27/77 18 9/27/78 1000 10/14/78 380 7/21/80 20 v l R-ll
PEACil BOTTOM UNIT 2 TYPE B AND C TEST
SUMMARY
PENETRATION SYSTEM OR LEAK RATE NUMBER DESCRIPTION REMARKS TEST DATE scc / min PCAC Sample 5/20/77 10 8/30/78 78 11/22/78 10 5/1/79 10 3/30/80 30 8/4/80 10 CAD Sample 5/5/77 15 8/31/78 90 4/2/80 30 N32C ILRT Test Valves 5/3/77 10 8/26/78 10 4/3/80 , 10 N32D ILRT Test Valves 5/3/77 10 8/26/78 10 4/3/80 10
, , N218 ILRT Test Valves 5/3/T7. 10 i,
8/26/78 10 4/3/80 10 N36 CRD Return (Removed and 6/8/77 30 Capped -1980) 9/20/78 90 N39A Containment Spray 4/29/77 23 10/4/78 240 3/20/80 744 7/20/80 1010 CAD Injection 10/17/77 85 4/9/80 220
! 4/30/80 20 N39B Containment Spray 4/26/77 113 9/20/78 110 3/18/80 175 CAD Injection 5/11/77 10 9/18/78 20 4/24/80 20 N41 Recire Sample 6/3/77 10 9/21/78 20 4/9/80 20 N42 SLCS 11/17/76 10 8/18/77 10 10/12/78 20 R-12 7/18/80 20
PEACH BOTTOM UNIT 2 TYPE B AND C TEST SUPNARY PENETRATION SYSTEM OR LEAK RATE NUMBER DESCRIPTION REMARKS TEST DATE sec/ min N51A PCAC Sample 5/20/77 40 8/30/78 20 3/27/80 10 N51B PCAC Sample 5/20/77 30 8/29/78 20 SV 2671D 5/ 24/79 offscale 5/27/80 40 N51C PCAC Sample 5/20/77 10 ,, 8/28/78 30 5/15/79 10 3/27/80 115. CAD Sample 5/4/77 30 3/21/78 40 9/9/78 20 4/2/80 25 N51D PCAC Sample Return 5/11/77 50 1 5/23/78 20 Check valve 8/25/78 offscale 10/13/78 20 Check valve 4/3/80 offscale 5/2/80 360 N52F Instrument N2 ' 5/4/77 10 9/23/78 20 3/31/80 95 N57 Main Steam Sample 5/4/77 50 9/20/78 20 A0 316 l 4/2/80 offscale 4/30/80 55 N203 PCAC Sample 5/20/77 10 8/20/78 410 10/11/78 20 5/2/79 25
, 3/27/80 10 CAD Sample 5/9/77 27 9/4/78 20 4/3/80 20 O
v R-1 3
.f. . '
PEACH BOITOM UNIT 2
'O q,)
TYPE B AND C TEST StM4ARY PENETRATION SYSTEM OR LEAK RATE NUMBER DESCRIPTION REMARKS TEST DATE sec/ min N-205A Torus Vacuum Breaker 6/13/77 80 9/25/78 50 10/18/78 35 - 7/25/80 412 N-205B Torus Vacuum Breaker 6/15/77 10 9/25/78 130 10/16/78 70 7/24/80 110 N211A Torus Cooling 4/29/77 500 9/7/78 1300 10/4/78 480. 3/20/80 4383 P!0 34B repaired 7/2/80 20 CAD Injection 5/7/77 15 8/.29/78 20 4/7/80 20 N211B Torus Cooling 4/26/77 330 9/24/78 901 3/18/80 5526 MO 39A repaired 6/17/80 1705 CAD Injection 5/6/77 100 7/25/77 10 8/29/78 20 4/7/80 20 N-212 RCIC Exhaust 4/30/77 86 9/14/78 20 l 3/25/80 650 RCIC Exhaust Drain 5/2/77 100 Both valves 9/23/78 10375' 10/16/78 758 3/26/80 offscale 4/11/80 42 Stop Check 0-Ring 3/3/77 10 9/13/78 10 3/25/80 10 0 R- 14
b ,: ,. , -' - l
. c. '
PEACH BUTTOM UNIT 2 TYPE B AND C TEST SIM4ARY l PENETRATION SYSTEM OR LEAK RATE NUMBER DESCRIPTION REMARKS TEST DATE sec/ min N214 IIPCI Exhaust 8/3/77 50
. Check Valve 9/19/78 17000 9/25/78 1210 Check Valve '
3/27/80 offscale I 5/19/80 310 Stop Check 0-Ring 3/3/77 10 5/6/77 10 9/13/78 10 { 4/4/80 10 N214 IPCI Exhaust Drain 5/1/77 324 7/19/77 10 10/5/78 355 10/13/78 20 4/4/80 1900 5/8/89 260 N217B RCIC Exhaust Vacuum Relief 6/17/77 15
<[)
9/17/78 20 _ 4/9/80 20 llPCI Exhaust Vacuum Relief 6/22/77 10 9/17/78 20 - l 4/9/80 40 l N218A Torus Instrument N2 6/28/77 440 9/23/78 75 4/7/80 190 N218B PCAC Sample 7/14/77 10 8/28/78 20
! 5/2/79 20 SV 2671A 3/27/80 offscale l 8/18/80 20 N219 Torus Vent 5/3/77 110 9/28/78 70 7/24/80 230 Torus CAD Vent 5/2/77 215 9/29/78 75 4/3/80 220 PCAC Sample 5/20/77 10 y%
8/30/78 20 3/27/80 10 R-15 i
-, . ; J'. . ',' Gl ,
1 O i PEACH BOTTOM UNIT 2 TYPE B AND C TEST SIMULRY PENETRATION SYSTEM OR ' LEAK RATE NUMBER DESCRIMION REMARKS TEST DATE sec/ min CAD Sample 5/5/77 10 8/31/78 20 4/2/80 20 N221 RCIC Vacuum Pump Discharge 5/25/77 'O 9/18/78 20 3/27/80 33 N223 IIPCI Exhaust Drain 5/4/77 114 9/14/78 374 _ 10/8/78 62 4/4/80 70 N225 RCIC Pump Suction , 7/11/77 3600 9/14/78 3675 9/28/78 570 3/24/80 890 7/16/80 325 O Torus Water Cleanup 9/18/78 24 3/25/80 20 N227 ffPCI Suction 5/2/77 3000 9/14/78 440 3/24/80 1076
,,N206ASB Torus Level Instrumentation 9/28/78 2210 10/12/78 1510 4/19/80 215 N55/56 Chilled Water Isolation MO 2201ASB I 7/22/80 3832 M0 2200ASB 7/22/80 1406 N23/24 RBCW Isolation 7/18/80 441 v
R- L6
APPENDIX S Peach Bottom Atomic Power Station Unit 2 llRT - July 1980
/%
() Containment Free Air Volume Calculations During the PBAPS Unit 2 Integrated Leekage Rate Test (ILRT) completed July 28, 1980, the containment (drywell and torus) free air volume was compensated for according to variations in reactor and torus water level. It was assumed that water temperature differences were insignificant over the small range of level changes experienced during the test. Prior to performing the ILRT, engineering documents were reviewed to de-velop a mathematical expression for containment volume as a function of reactor, torus, and drywell sump level. The following assumptions were made in the course of developing the formula:
- 1. The free air volume referenced in the PBAPS ILRT procedure, ST-12.5 revision 2, is 291,100 cu. f t. (159,000 cu. ft. drywell plus 132,100 cu. ft. torus).
- 2. It was assumed that at the start of the test the drywell volume was equal to 159,000 cu. ft. This corresponded to the initial reactor level of 30.5 inches, as read on the control room reactor level recor-der. The change in volume due to reactor level change was calculated based on reactor diameter less estimated percent of crosssectional area of internals (steam dryer) at the expected operating level during g($ the IIRT.
- 3. The torus volume was calculated by estimating the cross sectional area at the mid point of the torus and assuming that this area was constant for the small allowable operating range (14.6 to 14.9 feet) for water level.
- 4. Sump level could not be measured during the test; therefore, corrections for sump level were based on initial and final level readings only. How-ever, in the process of developing the mathematical expression for con-tainment free air volume, a related formula for sump level variations was included.
On the following pages are explanations of the formula development: a v l { l S-1 l I
. . . - - .. ._ _ = . _ _ __ -_ . __ _ . . _ . _ _ _ _ . .
\
f 1 iO I. DRYWELLVOLUMECbANGES A. Reactor Level:
. Radius, R = 10.4583 fto t 7
% (
Cross sectional area, A i Plan View of Reactor I at Normal Water Level t Estimated cross sectional area of internals (scaled of f of referenced drawings) is 20 percent of total area; therefore, Area, A: I A = ( Wr2) (80%) O Change in volume, VR is directly proportional to changes in elevation, LR1 - LR2 where LR1 = initial reactor level at start of ILRT and LR2 = reactor level at time of data point. l _. Therefore, VR = A (LR1 - LR2) l (3.1416) (10.4583)2 ( 80) VR" (LR1 - LR2) 12 l 1 (22.9075) (LR1 - LR2) , VR" O S-2
I r B. Sump Level: 11'6" x 12'6" l'6" x 4'0" Drywell Sump Drywell Sump Plan View O Ref. - 0" .. Elevation View
,. C.3 -
b3" When sump i pump d dry" as it was at start of ILRT, there is still 3" of water level in the sump pump pit. This level is assumed to be the initial reference point. For elevation of 3" to 12" the critical cross sectional area is the pump pit alone, i.e., 1.5 ft x 4.0 ft. = 6 ft 2. For elevation greater than 12" the area would be 6 f t2+ 11.5 X 12.5 = 149.75 2ft . Therefore it follows that there are two expressions for volume variations due to sump level:
- 1. Sump level, L 3 , is 3" to 12" V3= =
(0.5) LS - 12
- 2. Sump level, Ls, greater than 12" (0.5) (9) + (L3 - 12) (149.75)
L3= 12
=
(12.479) L3 - 145.248 e a f~ S-3
l l C. Total Drywell Volume Changes, Vgg Assume initial drywell free air volume equal to 159,000 cu. ft. (ref. procedure ST12.5, revision 2) Then, VDW = 159,000 + VR-V3
- 1. 3" < L3 < 12" Vgg = (159,000) + (22.9075) (LR1 - LR2) - 0.5 L3 QR
- 2. L3 > 12" Vgg = 159,000 + 22.9075 (LR1 - LR2) - (12.479 L3 - 145.248)
VDW = 159,145.25 +-22.9075 (LR1 - LR2) - 12.479 L3 II. TORUS VOLUME CHANGE A. Torus Cross-Sectional Area at the Centerline Turus is made up of 16 segments as shown below: Centerlines of Ring Segment x Y ot. 40.25' : _ 55.75'
, 71.25' ;
~
a = 360*/32 = 11.25' x = 40.25 tan 11.25' = 8.006' y = 71.25 tan 11.25' = 14.173' Ap = [(x + y)/2] X 31 X 32 = 11000.6 ft 2 S-4 L
l B. Total Torus Volume One Half Ring Torus Segment ,,- ring segment i Z 11.25 , s
,_ID= ;
- 31. 0 ' ,
- 55.75' ;
S Z = 55.75 tan 11.25 = 11.09' V3 = (15.5)2 w X 11.09 - 8,369.89 f t /3segment Vr = (32 X 8,369.89) = 267,837 (32-1/2 segments) Less vent header and ring header volume 12,000 f t3 estimated. Net torus volume approximately 255,000 ft3 agrees with procedure Er12.5, revision 2. ! C. Total Free Air Volume = 255,000 f t3 i Volume of water = 1/2 (267,837) - (15.5 - br) (11,000)
= 133,918.5 - 170,500 + 11,000 LI
= 11,000 LT - 36,582 Correctcd free air volume of torus, V T:
I VT = 255,000 - (11,000 LT - 36,582) VT = 291,582 - 11,000 Lp III. ILRT CORRECTED VOLUME VTUr " VDW + YT VT or = 159,000 + 22.9075 (LR1 - LR2) - 12,479 L3 - 145.248 (3" < L3 < 12") + (291,582 - 11,000 LT ) S-5
_ . , - . _- . _ = _ . _. -. -. . . _. . .- .. VTUr = 159,145.25 + 22.9075 (LR1 - LR2) - 12.479 L3 + 291,582 - 11,000 Iq where LR1 and LR2 = Reactor level, inches Lg = Sump level, inches i l Iq = Torus level, feet { IV. PROGRA!9 FABLE CALCULATOR PROGRAM - Attached is a listing of the TI-59 progransnable calculator program used during the ILRT. The raw data calculations (TI-59 output) are retained at the jobsite as part of the permanent record for this test. Sump level, Lg, was kept constant during the test. 1 4 1 t I I 1 b l i i h I 1 e i i i l [
- S-6 ;
- . . . . . . . . _ . ..-.-. . - . - . ~ - . . . - . . - . - - -
PEACH BOTTOM IIRT ! CTMr VOLUME CALCULATION TI-59 PROGRAM ! l 4 f l 1 , 1. Key in program (read card, sides 1 and 2), i i
- 2. Input levels as follows
- }
KEY ; A. Initial reactor level (LR X 1) + A (in.) i B. Present reactor level (LR X 2) + A' (in.) C. Sump level (LSMP) +B (in.) r 1 t D. Torus level (LTOR) +C (ft.)
- 3. Calculate drywell volume press key "D." l I
- 4. Calculate torus volume and total volume press key "E." ;
i i i . ! f t I i I l l 4 P i ) l l 1
~
i 1 0
- . S-7
l 000 76 LBL 05 ': 01 1 116 76 LBL 001 11 A 059 05 5 117 13 C 002 42 STO 060 03 3 118 42 STO
-s 003 01 01 061 07 7 119 04 04 .
( ; 004 00 0 062 03 3 120 91 R/S
\/ 005 00 0 063 00 0 121 76 LBL 006 00 0 064 69 OP 122 14 D 007 00 0 065 01 01 123 43 RCL 000 03 3 066 03 3 124 01 01 009 03 3 067 07 7 '
125 75 - 010 01 1 068 00 0 126 43 kC'_ 011 07 7 069 00 0 127 02 02 012 01 1 070 04 4 128 95 = 013 03 3 071 02 2 129 65 x 014 69 UP 072 03 3 130 02 2 015 01 01 073 02 2 131 02 2 016 01 1 074 02 2 132 93 . 017 05 5 075 07 7 133 09 9 018 02 2 076 69 OP 134 00 0 019 03 3 077 02 02 135 07 7 020 00 0 078 04 4 136 05 5 021 00 0 079 01 1 137 95 = 022 OL 1 080 03 3 130 85 + OL3 04 4 081 00 0 139 01 1 024 03 3 082 01 1 140 05 5 025 02 2 083 07 7 141 09 9 026 69 OP 084 00 0 142 00 0 027 02 02 085 00 0 143 00 0 028 0:1 3 086 01 1 144 00 0 (] 029 07 7 087 05 5 145 95 =
\~) 030 On 3 038 69 OP 146 42 STO 031 07 7 089 03 03 147 21 21 032 03 3 090 01 1 148 01 1 033 02 2 091 03 3 149 02 2 034 03 3 092 02 2 150 32 XIT 035 00 0 093 07 7 151 43 RCL 036 00 0 094 01 1 152 03 03 037 00 0 095 05 5 153 77 GE 038 69 UP 096 04 4 154 10 E' 039 03 03 097 00 0 155 93 .
040 02 2 098 00 0 156 05 5 041 04 4 099 00 0 157 65 x 042 02 2 - 100 69 OP 158 53 ( 043 07 7 101 04 04 159 43 RCL 044 03 3 102 69 0F 160 03 03 045 05 5 103 05 05 161 75 - 046 03 3 104 98 ADV 162 03 3 047 07 7 105 91 R/S 163 -95 = 048 00 0 106 76 LBL 164 54 ) 049 00 0' 107 16 A' 165 95 = 050 69 DP 108 42 STO 166 94 +/- 051 04 04 109 02 02 167 85 + - 052 69 OP 110 91 R/S 168 43 RCL 053 05 05 111 76 LBL 169 21 21
/,__h 054 00 0 112 12 B 170 95 = \/ 055 00 0 113 42 STO 171 42 STO 056 00 0 114 03 03 172 11 11 057 00 0 115 91 R/S 173 18 C' s- 8 L
l 174 76 LBL 27' 02 32 290 07 7 , 175 10 E' ' 2:7 69 OP 291 03 3 176 43 RCL 234 06 06 292 02 2 ! 177 03 03 235 02 2 293 03 3 I 178 75 - 236 07 7 294 05 5 l 179 00 3 237 03 3 295 69 DP
- 180 95 = 238 06 6 296 04 04
- 181 65 '
239 03 3 297 43 RCL l 182 01 1 240 00 0 298 04 04 l- 183 02 2 241 03 3 299 69 OP
! 184 93 . 242 03 3 300 06 06
! 185 04 4 243 69 DP 301 04 4 l 186 07 7 244 04 04 302 02 2' i 187 09 9 245 43 RCL 303 03 3 l 188 95 = 246 03 03 304 07 7 189 94 +/- 247 69 OP 305 03 3 190 85 + 248 06 06 306 02 2 191 01 1 249 04 4 307 03 3 192 04 4 250 02 2 308 05 5 193 05 5 251 01 1 309 69 OP 194 93 . 252 06 6 310 04 04 195 02 2 253 03 3 311 43 RCL 196 04 4 254 05 5 312 12 12 197 08 8 255 04 4 313 69 OP 190 95 = 256 03 3 314 06 06 ! 199 85 + 257 69 OP 315 98 RDV j 200 43 RCL 258 04 04 316 43 RCL ! 201 21 21 259 43 RCL 317 11 11 ! 202 95 = 260 11 11 318
~
85 + ' 203 42 STO 261 69 OP 319 43 RCL l h 204 11 11 262 06 06 320 12 12 j 205 76 LBL 263 98 ADV 321 95 _= l 206 18 C' 264 91 R/S 322 42 STO l ) 207 0?
- 965 76 LBL 323 13 13 l 208 07 7 266 15 E 324 04 4 -
209 03 3 267 43 RCL 325 02 2 ' ( , 210 05 5 268 04 04 326 03 3 i j 211 04 4 269 65 x 327 07' 7 ! ! 212 04 4 270 01 1 328 03 3 : i 213 00 0 271 01 1 329 02 2 l 214 02 2 272 00 0 330 03 ! 3
! 215 69 DP 273 00 .0 331 07 7 216 04 04 -
274 00 0 332 69 DP ' 217 43 RCL 275 95 = 333 04 04 ; l 218 01 01 276 94 +/- 334 43 RCL ! l' 219 69 OP 277 85 + ,335 13 13 l 220 06 06 278 02 2 336 69 OP ; 221 02 2 279 09 9 337 06 06 222 07 7 280 01 1 ' 338 98 ADV 223 03 3 281 05 5 339 98 RDY 4 224 05 5 282 08 8 340 98 RDV ! 225 04 4 283 02 2 341 91 R/S l l 226 04 4 284 95 = l l 227 00 0 285 42 STO l h 228 03 3 286 12 12 i i 229 69 OP 287 02 2 l l 230 04 Da 288 07 7 l l 231 43 RCL 289 03 3 i , \ S-9 l i
APPENDIX T BECHTEL ILRT COMPIRER PROGRAM A. Program and Report Description
- 1. The Rechtel ILRT computer program is used to determine the inte-grated leakage rate of a nuclear primary containment structure.
The program is used to compute leakage rate based on input values of time, containment atmosphere total pressure, drybulb tempera- ' ture, and dewpoint temperature (water vapor pressure). Leakage rate is computed using the Absolute Method as defined in ANSI N45.4-1972, " Leakage Ra te 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 com-puted from initial values of free air volume containment atmos-phere drybulb temperature and partial pressure of dry air, the latest values of the same parameters and elapsed time. These in-dividually computed leakage rates are statistically averaged using i linear regression by the method of least squares. The Total-Time l Method is the computational technique upon which the short duration test criteria of BN-TM-1, Revision 1, " Testing Criteria for Inte-grated 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 pre-sented as a function of number of data points and elapsed time 1 (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.
- 4. The third printout is the Mass-Point Report and is based on the Mass-Point Analysis Technique described in ANSI N274, Draf t No. 2, Revision I-April, 1978, " Containment System Leakage Testing Re-quirements." The mass of dry air in the containment is computed at each data point (time) using the Equation of State, from current values of containment atmosphere 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 so' ares. Leakage rate is determined from the statistically de-rived slope and indercept of the regression line.
- 5. The program is written in a high level language and is d'esigned for use on an interactive time-shared computer system via a re-mote data terminal. Brief descriptions of program use, formulse used for leakage rate computations and program logic arq provided in the following paragraphs. '
T-1
i I i BECHTEL ILRT COMPITTER PROGRAM i Explanation of Program
^
B. ' i j 1. The Bechtel ILRT computer program is written, for use by experi-enced ILRT personnel, to determine containment integrated leakage ra tes based on the Absolute Method described in ANSI N43.4-1972.
- 2. Information loaded into the program prior to the start of the 4
test:
- a. Number of containment atmosphere drybulb temperature sensors and dewpoint temperature (water vapor pressure) sensors to be used in leakage rate computa tions for the specific test
- b. Volume fractions assigned to each of the above sensors
- c. Calir data for above sensors, if required
- d. Calio... ton 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 t.he test is a verification test:
(1) Imposed leakage rate
}
(2) Leakage rates determined using the two computational { methods described in Paragraph A above during the ILRT. t 4 Data entered during the test, used to compute leakage rate:
- a. Time and date l
- b. Containment atmosphere drybulb temperatures
- c. Containment atmosphere pressure
- d. Containment atmosphere dewpoint temperatures.
- 5. After all data at a given time are entered, a Summary of Measured Data report (refer to " Program Logic," Paragraph D, " Data" option command) is printed out on the data terminal. After a final veri-fication of the entered data, the time, date, containment atmos-phere weighted average drybulb temperature, partial pressure of the dry air, and water vapor pressure are stored on a data file. *
- 6. If drybulb and dewpoint temperature sensors should fail during n the test, the data from the sensor (s) are not used. The volume
[
' ))
' fractions for the remaining sensors are recomputed and reloaded into the program for use in ensuing leakage rate computations.
T-2 t _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
BECHTEL ILRT COMPlTTER PROGRAM C. Leakage Rate Formulae
- 1. Computation esing the Total-Time Method:
- a. Measured leakage rate, f rom iata:
P1 V = W IRT1 (1) Pt V = W1 RTi (2) t ,({) (NI~Ni) (100) (3) Att W1 Solving for W1 and Wf and substituting equations (1) and (2) into (3) yields: Li " 2400 ( 1 - T IPj . (4)
)
TPt1 where: W,Wi 1 = Weight of contained mass of dry air at times ti and ti respectively, Itm. T,Ti 1 = Containment atmosphere drybulb temperature at times ti and ti respectively, 'R. P,Pi 1 = Partial pressure of the dry air component of the containment atmosphere at times ti and ti respectively, psia. V = Containment free air volume (assumed to be constant during the test), ft 3. ti, tg = Real time at 1st and ith da'ta points respectively, hours and minutes. Ati = Elapsed time from ti to ti, hours. R = Specific gas constant for air = 53.35 Ft-lbf. lbm.*R Li = Measured leakage rate computed during time interval t1 to ti, %/ day. A 1 T-3
l BECHTEL ILRT COMPITTER PROGRAM
- b. Calculated leakage rate from regression analysis:
L = a + bkN (5) where E = Calculated leakage rate, %/ day, as determined f rom the regression line. 2 (ILg ) (Ikg) - (Ik ) g (IL gt k ) a=
- 2 N (Ikg) -
(Ik g)2 (6) N(ILii k ) - (IL t ) (Ik i) b= * (7) N(Ikg)2 - (Ik g)2 kg = Elapsed time at time of i th data point. N = Number of data points. N i=1
- c. Calculated leakage rate at the 95% confidence level (including error associated with the test).
Total-Time Method per BN-TOP-1. L95 = a + bk + Sg (8) where: L95 = calculated leakage rate at the 95% confidence level,
, %/ day, at elapsed time k.
For kN < 24 I(L t-51)2 (kN-k)2 St = t0.025;N-2 1+ .I. + N-2 N _ (9a) I(k i-k) l T-4 C
BECHTEL ILRT COMPUTER PROGRAM
~'
2.37 2.82 7 where, t0.025;N-2 = 1.96 + N-2 + l./ ( (N-2 )2 ; v For k.; 2 24 E(Lt-E g )2 (kN-k)2 Sr." t0.025;N-2 I_ +
, N-2 N (9b)
I(k g -k) 1.64(N-2 )2 + 3.53(N-2 ) + 0.86 where, t0.025;N-2 * (N-2)2 + 1.22(N-2) - 1.52 l Et = Calculated leakage rate computed using equation (5) at i ( total elapsed time kg, %/ day. ( k = Iki N
- 2. Computation using the Mass-Point Method
- a. Contained mass of dry air from data:
W = 144 E RT (10) where: All symbols are as previously defined.
- b. Calculated leakage rate from regression analysis:
E = 2400 b a where: E = Calculated leakage rate, %/ day, as determined from the regression line. , l IWi -bI k i a= N (12) l T-5 \ . _ _ _ _ _ _ _ _ _ . ]
BECllTEL XLRT COMPUTER PROGRA!! I((W i- EWt/N) (ki- Ek /N)] i b= _ _ _ . E (kt - Ekt/N)2 (13) kt= Total elapsed time at time of i th data point, hours. N= Number of data points. W i- th Contained mass of dry air at i data point, Ibm, as computed from equation (10). N I= I i=1
- c. Calculated leakage rate at the 95% confidence level.
E95 = 2400 (b + Sb ) (14) a where: 595 - Calculated leakage rate at the 95% confidence level,
%/ day.
I (W1 - 5 1)2 Sb " t0.025;N-2 N-2 (15) E(kg - E)2 1.64(N-2)2 + 3.53(N-2)2 + 0.86 where, t0.025;N-2 " (N-2)2 + 1.22(N-2) - 1.52 Wg = Contained mass of dry air, Ibm, computed at the ith data point from the regression equation W = a + bk. (16) All other symbols as previously defined. l L l l T-6 t l
BECHTEL ILRT COMPUTER PROGRAM D. Program Logic
- 1. A flow chart of Bechtel ILRT computer program usage is presented in Figure 1, following. The various user options and a brief description of their , associated function is presented below:
OIrrION C0!DtAND FUNCTION DATA Enables operator to enter raw data. When the sys tem requests values of time, volume tempera-ture, pressure and vapor pressure, the user enters the appropriate data. After completing the data entry, a summary is printed out. The user then verifies that the data were entered correctly. If errors are detected, the user will then be given the opportunity to correct the errors. After the user verifies that the data were entered correctly, a Corrected Data Summary Report of time, date, average tempera-ture, partial pressure of dry air, and water vapor pressure is printed. TREND Terminal will print out a Trend Report. TOTAL Terminal will print out a Total-Time Report. MASS Terminal will print out a Mass-Point Report. TERM Enables operator to sign off temporarily or permanently. SAVE Enables operator to store the Data Summary on a file. PREV Enables operator to call up an old, previously stored, file. CORR Enables operator to correct data stored on a file. LIST Wnen used with a given file name, the printer will print out a list of the Summary Data stored on the file. T-7 J
BEOiTEL ILRT COMPLTTER PROGRAM i ( SIGN ON ) t '
\ ENTER BASIC / / ENTER PREVIOUS \
NO
\ INFORMATION/ \ VALUES FROM FILES /
YES r o 'l ENTERS
SUMMARY
O ATA - (OPTIONSp DATA STORED ON
<r- PREV "
o (ENTER D ATA) CORRECTS
<rCORR -
SUMMARY
D ATA o o (ERROR?) [ YES STO RES
SUMMARY
*\ ENTER / , , NO <
r-SAVE - D ATA ON A CORRECTIONS / SELECTED FILE
SUMMARY
OF < rTREND ~ l TREND REPORT l MEASURED OATA o ar- TOTAL TOTAL TIME'
'E R R O R?)
NO
<r- MASS MASS POINT ;
REPORT CORRECTED
SUMMARY
DATA PRINTOUT
<r- LIST PRINT GUT OF
SUMMARY
DATA b TERM -( SIGN OFF ) N J BECHTEL CONTAINMENT INTEGRATED LEAKAGE RATE TEST COMPUTER PROGRAM FLGW CHART FIGURE 1 4 T-8 J}}